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
AK012_00001	852	rutD_1		Putative aminoacrylate hydrolase RutD	GTGCAATTTAAAACAAGTGATGGGATAGAGTTATACTTTGAATTAGTTGGAGAGGGGATGCCTTGTTTGTTTCTCCACGGTGGTCCAGGTTATTGGAGTAAATCATTTCAATACTTTTCAAAAGACTTATTAGAAGATGATTTGCGGATGATTTATTTAGACCAACGTGGATGTGGACGTTCTGAACACAGTCTCACACAAGATTATTCTTTATATAGGCTTATTGATGATATTGAAGAATTAAGAGTGTTTTTAGGAATACAAGAATGGGTTATTATGGGGCATTCTTTTGGAGGGATTTTAGCAGTCAATTATGCTCATAATTTCCCTGACCGAATCAAAGGTCTAATATTATCAAATGCAACTTTAAATATGCCCAATTCATTTGAGCATCAAATAAGGATAGGTTCTGAAATCTTAGGAATAGATAAAAGAGAGGTATCAAAGGGAAGTATACATACAATGATGGATTTATATTATTCTATTCTTTCACAGCTCCTTGAAAGGGAAGAGTATTTCAAGTTTCAATATATGGACATAGATAGTAAAATCACTGTTGATCTAATTGATCAAGATGGATTAAATAGTGACCCGGAATTTCAAAATTATGTTTTCTCATCGAAAGCTTTTTTCAAAGACTTCACTTCAATAACAGAGAAAATTAGTAAACCCGTTTTAGTTGTTGCAGGGAAACATGATAACGCTGTAGGCCCCAGTCATCATAAGTTGTTTAATTTTCCCTGTTCTAATGTAATAGTATTAAATAGTAGCCATCATCCATACATCGAAAACAGAATAGAATTTAAAGCTGCAGTTGTGAATTTTGTTTATGAAATCTCATTAAATGCTTGA	MQFKTSDGIELYFELVGEGMPCLFLHGGPGYWSKSFQYFSKDLLEDDLRMIYLDQRGCGRSEHSLTQDYSLYRLIDDIEELRVFLGIQEWVIMGHSFGGILAVNYAHNFPDRIKGLILSNATLNMPNSFEHQIRIGSEILGIDKREVSKGSIHTMMDLYYSILSQLLEREEYFKFQYMDIDSKITVDLIDQDGLNSDPEFQNYVFSSKAFFKDFTSITEKISKPVLVVAGKHDNAVGPSHHKLFNFPCSNVIVLNSSHHPYIENRIEFKAAVVNFVYEISLNA				NA	NA	NA	NA	NA
AK012_00002	174			hypothetical protein	ATGAATAAAAGAATTAAAGATCGCATTATCTCTGCACTCGCTTATGCAGTCGCTGCTATTCTCTTCGGATACTTCATATTCGGTGAAATGAACTGGTCACTTGTATTAGGATTAACGCTAGGCGGTTTTACTTTTCCTATAATAGGCAAGTTTAGGGATAAAGAAAAATTGTAA	MNKRIKDRIISALAYAVAAILFGYFIFGEMNWSLVLGLTLGGFTFPIIGKFRDKEKL				NA	NA	NA	NA	NA
AK012_00003	186			hypothetical protein	ATGAAGAAGGTAAAGACCAAAAGTTTTTTTATAGTATCAGCCATTGCTTTTCTAATACTGACAGTCGCTGTTTTTTTGAACTATAACTCCCTCGAATACACTAAGGAAGCCTGTTTTGATAACAATAAAACTCCAAAGATTGAGCAAGATTTTCTAGCATTTAATTGGTCTGTTTCTTGTGAATGA	MKKVKTKSFFIVSAIAFLILTVAVFLNYNSLEYTKEACFDNNKTPKIEQDFLAFNWSVSCE				NA	NA	NA	NA	NA
AK012_00004	252			hypothetical protein	GTGAGAAGGAAGTTAGGAATAATTTCTACTGTGCTATTTTTAGTAAGCCTAGCTGCATACATAACGATGCTTTCGGGGAATGATGCTTTTCTTTTTGCTGGTGTAGTGATTGCTGTATTAGGATTGGTATTTGCCATGCTTTCAGAAAAAGGAACATACAGAAAGATCGGATTCATTGGCAATGGATTGATTCTTTTAGTGTCCATAATTATACCTTTTATAGTTACTACATTTTTTTGGAACACACCCTAA	MRRKLGIISTVLFLVSLAAYITMLSGNDAFLFAGVVIAVLGLVFAMLSEKGTYRKIGFIGNGLILLVSIIIPFIVTTFFWNTP				NA	NA	NA	NA	NA
AK012_00005	333			hypothetical protein	GTGGTTTCCTATGAAATTGAAATCAAACCAGATACATTTAAAGCAGGAAACGGAAGCTTAACTATGAAGAATAAAACGGAGAACAGCACTGATTTCTTTAATCTTGAAGTCTATGCTGTTATAGATAATGAAGATAGGCTTGTTCAAGCAAAGTCAGTCAAGGGAAGTGAAACAGACATAACCCAAATGACTACAGGAGCAACTGAAGGTGGAGCTTTTTTAGGTGATAATGGAGTACCTATATCACTTGAAAATGTTAGCGACATTTATATGAGTATTGAGTGGCAAGATAAAAGTAAGACAATGGAAGAGAAAATAGATTTATATAATTAA	MVSYEIEIKPDTFKAGNGSLTMKNKTENSTDFFNLEVYAVIDNEDRLVQAKSVKGSETDITQMTTGATEGGAFLGDNGVPISLENVSDIYMSIEWQDKSKTMEEKIDLYN				NA	NA	NA	NA	NA
AK012_00006	621			hypothetical protein	ATGAGTAAAAGGTATGCCGTGGAGGATTACCTAAGCCAGTTGGAACATAAATTAAGAGATTTGCCAGCAAATGAAAGACGTACCCATCTTAATGAAATTAGAGATCATCTCATGGAATTGGTCACAGAAGAAGGAAAAACAGAGGATCAAATTGTTGACTCATTTATTTCTCCTGAACAACTCAGTAAAGACATTCTACTGGAAGAACAAACCTCCAAGCAAAAAACAGAGTTTGAATTACCAGATTATTGGTTTGGGGTTACAGTTGTTTCAGTAGTGGCTCCTTTTGGTGCATTAGTTCTGCCACTTATTATGGAGCACATTGACATTGGTTTGTATTTACCGTTCTTATTACAATACATAGTAGGGACTGGTGTATTGTTTGGTTTTTATAAAACCAGACTCACAAACAAAAGAGGAGATACTCTTCGGAAAATAGGCAGAGTAATGATCCCGGTGTTAGCAATTCCATTTGCATTTTTTTCTATAAATATAATGCAGACAGGAAATTTGAGTACGTTTAAAATTGCTTACCTTGCTTGTTACTTATTCCTTTGGATATTGACTTACTTTTCTGTGCGAAACTTATACCTTAGAAATATTAAGGTAGTAATAGTTTAG	MSKRYAVEDYLSQLEHKLRDLPANERRTHLNEIRDHLMELVTEEGKTEDQIVDSFISPEQLSKDILLEEQTSKQKTEFELPDYWFGVTVVSVVAPFGALVLPLIMEHIDIGLYLPFLLQYIVGTGVLFGFYKTRLTNKRGDTLRKIGRVMIPVLAIPFAFFSINIMQTGNLSTFKIAYLACYLFLWILTYFSVRNLYLRNIKVVIV				NA	NA	NA	NA	NA
AK012_00007	810	zupT_1	COG0428	Zinc transporter ZupT	ATGATCGAAGCTTTAAAGGAATTGAACCCTGTGATACAGGCGTTGATCGGTACACTATTCACCTGGGGCATGACGGCCTTAGGTGCGTCTCTTGTATTTTTCGTGAAAGGAGCGAACCAGAAATTTCTTGATAGTATGATGGCCTTTGCCGGCGGGGTCATGATTGCGGCCAGCTACTGGTCTCTTTTGGCACCTGCGATTGAAATGTCCGCAGACGGGCCGGTGCCGAACTGGGTCCCTGCGCTTGTCGGCTTTCTTCTCGGAGGTGTGATGCTTCTCTGGGTGGACCGGCTTCTCCCTCAGATGGACACGGACAAGTATTTAGGGGACATAAAAGACAATAAGGCCAAGAACCGGACTGCTCTGCTCGTCTTTTCCATGACCCTCCATAACATCCCGGAAGGTCTGGCCGTCGGCGTTGCGTTCGGTGCCCTCGCCTCAAGCGGAACGGAATCAACGCTGGCCGGGGCGGTAGCTCTTGCACTCGGAATCGGTATCCAGAACTTCCCGGAAGGTACGGCGGTTTCCATGCCGCTCCACCGTGATGGAATGGGCAAAAAGAAAAGCTTTATGTTCGGGCAGTTTTCCGGCATGGTGGAACCGATCGCTGCTGTCGTCGGTGCGGCCGCTGTGATTTTCATCGAACCGATTCTCCCCTATGCGTTAAGCTTCGCTGCGGGAGCGATGATTTTTGTCGTTGCCAAAGAAATCATCCCGGGTGCCCACGAAAAAGGTAATGTGAACCTCGCTTCGATCAGTCTCATGCTCGGTTTTGCTATCATGATGACCCTCGACGTTGCACTTGGATAA	MIEALKELNPVIQALIGTLFTWGMTALGASLVFFVKGANQKFLDSMMAFAGGVMIAASYWSLLAPAIEMSADGPVPNWVPALVGFLLGGVMLLWVDRLLPQMDTDKYLGDIKDNKAKNRTALLVFSMTLHNIPEGLAVGVAFGALASSGTESTLAGAVALALGIGIQNFPEGTAVSMPLHRDGMGKKKSFMFGQFSGMVEPIAAVVGAAAVIFIEPILPYALSFAAGAMIFVVAKEIIPGAHEKGNVNLASISLMLGFAIMMTLDVALG	PGPT0004250_1310	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
AK012_00008	705	lutR	COG2186	HTH-type transcriptional regulator LutR	GTGGAGTATAAACCGATTCGTAGAAAGAAAATTTATGAACAGGTGGCGGATTCCTTATTGGAATCTTTAAAGGAAGGGCGTTTGAAGCCGGGGGATAAGCTGGACAGTGTAGAGGCTTTGGCAAAAAGCTTTGATGTCGGCCGTTCAGCGATCAGGGAAGCGCTGAGTGCGTTAAGGGCCATGGGAATTCTTGAAATGCATCAGGGCGAGGGGACATATATCAAAACCTTCGATCCTGCCCGATTCACCGTACCGACATCTGTCGCGTTTTTAATGAAGCCTGAGGACATGAGAGAACTGTTGGAAGTCCGGCAGATTCTTGAGGTGGGGGCAGCAGGTGTGGCCGCTTTATCCCGTACCGACGAAGACCTCCAGGCTATGGAAGCGGCTCTTTTGGAGATGGAAAGAGCGAAGGGGAATGGTGAGATCGGGGAACAGGCGGACCTTGCGTTTCATCTGGCGCTCGTCAAGGCGTCGCGGAACCAGATGCTGGTTCATCTCATGCAGAGTGTGTCGGAAGTCATGATGCAGGGCATGCGGGAAACGCGGAAGCTGCTGCACACCGAAGAAGGCACACGTCAGCTCTTGGAACAGCATCAACGGATTTTCGCCGCCATCAAGGAAGAAAACCGTGAGGAAGCGCAGGCTTCCATGGTGGAGCATTTGAGCCATGTCAGGGAATCTCTCAGTGGAATCATTTCGTAA	MEYKPIRRKKIYEQVADSLLESLKEGRLKPGDKLDSVEALAKSFDVGRSAIREALSALRAMGILEMHQGEGTYIKTFDPARFTVPTSVAFLMKPEDMRELLEVRQILEVGAAGVAALSRTDEDLQAMEAALLEMERAKGNGEIGEQADLAFHLALVKASRNQMLVHLMQSVSEVMMQGMRETRKLLHTEEGTRQLLEQHQRIFAAIKEENREEAQASMVEHLSHVRESLSGIIS				NA	NA	NA	NA	NA
AK012_00009	717	lutA_1	COG0247	Lactate utilization protein A	ATGAACGTTTCGTTATTTATCACTTGCTTGTGTGACACATTTACACCGGATGTCGGGAAGGATACCGTCCAGCTGTTGGAGCGGTTCGGGTGTGAGGTTGATTTTCCGGCCGGCCAGACCTGCTGTGGACAGCCCGCCTATAACAGCGGCTATACAACCCAGTCCAAACAAGCCGTCAAGCAGATGATTACTGCCTTTGATGCATCGGAATACGTGGTTGGTCCATCAGGCTCTTGTGTGCAGATGATCAAGGAATACCCCCATATCTTGAAAGACGAACCGGAATGGCAGAAGCGCGCGGAACATTTAGCTGGAAGAACCTACGAGCTGACGCAATTCATCGTCGATGTATTGCAGGTGGAAGACGTTCGTTCAACTTTCCAGGGAACAGCGGCCTACCACCCTTCCTGTCATATGACGAGACTGCTCGGGGTGAAGGATGCACCACGCCGCCTTTTGGAAAATGTCGAAGGGCTCACGCTGGTTGATCTTCCTCAAGGAGAGGACTGCTGCGGTTTTGGCGGAACGTTCGCGGTAAAAAATGCGGCGATATCCGCGCAGATGGTGGAGGAGAAATCGTACCACGTTACCGCGACAACAGCGGAATACTTAATCGGAGGCGATATGGGCTGCCTTATGAATATCGGCGGACGATTATCGCGGAACGAGGAAGACGTGAAAGTGCTGCACATCGCTCAAATTCTGAACAGCCAATAA	MNVSLFITCLCDTFTPDVGKDTVQLLERFGCEVDFPAGQTCCGQPAYNSGYTTQSKQAVKQMITAFDASEYVVGPSGSCVQMIKEYPHILKDEPEWQKRAEHLAGRTYELTQFIVDVLQVEDVRSTFQGTAAYHPSCHMTRLLGVKDAPRRLLENVEGLTLVDLPQGEDCCGFGGTFAVKNAAISAQMVEEKSYHVTATTAEYLIGGDMGCLMNIGGRLSRNEEDVKVLHIAQILNSQ	PGPT0018090_1811	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018090-lldE|ykgE|lutA-K18928	NA	NA
AK012_00010	1437	lutB	COG1139	Lactate utilization protein B	ATGAGTATAAAAATTGGAACGAAAACGTATGCCGACCGGATCCAGGAAGGAATCGACAACACGTTTATGCGCAGCGCCGTCAGCTCAGCGCAGGGACGGTTCCGCACAGGGCGCCTGAAAGCGGCGGAAGAGCTCGGGGACTGGGAAGACTGGCGGACACTCGGCGAGGAAATCCGCCGGCATACGATGGAAAACCTGGACTATTATTTGTACCAGTTGAGTGAGCAGGTGGAAAAGCGGGGCGGAACGGTATTTTTTGCTGAGACAACAGAGGAAGCCAACGCCTATGTGCAGAAAGTTGCTGCTGAAAAACAGGCCCGTAAAGTCGTAAAATCAAAATCGATGGTTACGGAGGAAATCGGCTTGAATGAAGCGCTTGAGAAAAGCGGATGTGAAGTCGTTGAATCGGATCTTGGAGAATGGATTCTTCAGCTCGATGAGGACCCACCTTCGCATATCGTCACCCCTGCGCTTCACAAAAATAAAAGCCAGATCAGAGAGACGTTCGTCTCGAAGAAAGGCTATACGAAAACCGATGATCCCGAAGAACTGGCCGCTTTTGCCCGCGAGCAGCTCCGGCAGGATTTTCTTGAAGCCGATATCGGTGTGACCGGCTGTAATTTTGCGGTAGCCGAATCAGGATCGGTGACGCTCGTAACCAATGAAGGAAATGCCCGCATGGTCAGTACACTCCCGGACACACAGATTGCTGTCATGGGTATGGAGCGGATTGTTCCGACGTGGGAGGAGCTGGAGGTGCTTGTCAGCCTGCTGACCCGTGCCGCTGTCGGTCAGAAACTGACGAGCTACATTACGTCGCTCACGGGCACCCGTCTGGAAGATGAAGTCGACGGCCCGGAGGATTTTCATCTCGTCATCGTCGATAACGGCCGTTCGAAGATATTAGGAACGGAATTCCAGTCCGCGCTCCACTGCATCCGCTGTGCGGCATGTATCAATGTCTGTCCGGTTTACCGTCATGTCGGCGGACATTCGTATAATTCCATTTACCCGGGACCGATCGGGGCTGTCCTTACACCACTGCTGGATGGGTATGAAGACCATAAGGAGCTTCCTTATGCCTCCAGTTTATGTGCCGCCTGTACGGAAGCCTGTCCCGTGAAAATACCCCTTCATGAACATTTGATCCGGCACAGGGAGATCATCGTGGAAAAGGAACAGAAAACGACCAAAGCCGAGCGTCTCGCTATGGACGGTTTTGCCAAATGGGCGTCGACACCGGCCGCTTATAAACTCAGTACGAAAATGGCAGGGACGGTATTGAAGCCGTGGACGAAGGACGGGATGATCAAAAAGGGACCGGGTCCGATGAAAGCATGGACGGAAGCCCGGGATTTTCCGGCTCCGGCGAAGAAGAGTTTTCGTACGTGGTTTGACGAACGGGAGAAAAGGAGGGAGAAAGATGGCCGTCTATAA	MSIKIGTKTYADRIQEGIDNTFMRSAVSSAQGRFRTGRLKAAEELGDWEDWRTLGEEIRRHTMENLDYYLYQLSEQVEKRGGTVFFAETTEEANAYVQKVAAEKQARKVVKSKSMVTEEIGLNEALEKSGCEVVESDLGEWILQLDEDPPSHIVTPALHKNKSQIRETFVSKKGYTKTDDPEELAAFAREQLRQDFLEADIGVTGCNFAVAESGSVTLVTNEGNARMVSTLPDTQIAVMGMERIVPTWEELEVLVSLLTRAAVGQKLTSYITSLTGTRLEDEVDGPEDFHLVIVDNGRSKILGTEFQSALHCIRCAACINVCPVYRHVGGHSYNSIYPGPIGAVLTPLLDGYEDHKELPYASSLCAACTEACPVKIPLHEHLIRHREIIVEKEQKTTKAERLAMDGFAKWASTPAAYKLSTKMAGTVLKPWTKDGMIKKGPGPMKAWTEARDFPAPAKKSFRTWFDEREKRREKDGRL	PGPT0018095_1189	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018095-lldF|ykgF|lutB-K18929	NA	NA
AK012_00011	714	lutC	COG1556	Lactate utilization protein C	ATGGCCGTCTATAATCGGGAACGCTTCCTGGATCAACTCGCCGGACGACTGGGGCGTCCGCGCAAAACAACCGCTGACCGTCCGGCCTACTCTGTCCAGCCGCAGGAGCGGGTGTTTCAAGGAGCAGACCAGGATCAGCTGCTGGGAAAATTAAAGGAACAATGTGAAACCATTCATACGACCTTGGTGGAAACGACAGTTGATGAGCTTGGGGATACCTTGAGGCGTGTATGGGAGGAGGGTCATATTCAAAATATCGTCAGTGCCGGGGGGCCGCGTCTGGAAGCGTACGGTCTTTTGGATGTGTATGAAACCATGAGGCAGGAGGGTTACAACATTCATATCTGGGATGAGCAGGGCGGCCGTGATGCTGTGGCCGAGGCAGAAAAGGCCGGGGCTGGTGTCGTCTTCAGTGATGTAACCCTTGCGGAATCAGGCACGGTGACCCTTTTTAACGATCGTTGGAATGGAAGGTCCATCAGTCTGCTTCCGGAAACCTTTGTCGCGATTATCCCAAAAAGTACACTCGTTCCAAGAATGACCCAGGCCGCTCAAATCATTCATGCGCAGGAGAAGAAAGGTGTGCCTGTGTCCTCGTGCGTCAGCTTTATTACAGGCCCGAGCAACAGCGCAGATATCGAGATGAATTTAATTGTCGGGGTGCACGGACCTGTGAAGGCGACCTACATTGTCGTCGATGACAAGGAAGGATGA	MAVYNRERFLDQLAGRLGRPRKTTADRPAYSVQPQERVFQGADQDQLLGKLKEQCETIHTTLVETTVDELGDTLRRVWEEGHIQNIVSAGGPRLEAYGLLDVYETMRQEGYNIHIWDEQGGRDAVAEAEKAGAGVVFSDVTLAESGTVTLFNDRWNGRSISLLPETFVAIIPKSTLVPRMTQAAQIIHAQEKKGVPVSSCVSFITGPSNSADIEMNLIVGVHGPVKATYIVVDDKEG	PGPT0018100_453	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_LACTATE_DEGRADATION,PGPT0018100-lldG|ykgG|lutC-K00782	NA	NA
AK012_00012	207			hypothetical protein	ATGAAAGAGAAATTGAAAAAGGATGAATGGTTCCATTACATCATTGCCATTGCCGCCCTGGTGTCCGGACTGCTTCATTTCTTCTTTAATTGGGACTATTACCATCATCACCATTACTTAACTTCAGGACTGCTGTTTTATACCATTGGTCCTGTCTTATACGTCGTCTGTACGTTTGCCTACTACAAGGCAACCACACACGACTGA	MKEKLKKDEWFHYIIAIAALVSGLLHFFFNWDYYHHHHYLTSGLLFYTIGPVLYVVCTFAYYKATTHD				NA	NA	NA	NA	NA
AK012_00013	357			hypothetical protein	ATGAGGAGTCTGGCAGCATTTTTTGCGGCCATCAGTTTGAGTATCATCGGAAACATAATAAGCACGGTGGATGGCTTTTCGGTCATTCTTTTCCTCTATACGTTCCCGCTCTTTCTAATCGCAGGCACCCTGACAGATGCAGGGCTGAAAAAAATCCGGCCGGTGCGCCCGCCGTTTACTCTCGCTGTTTGGATTTCGGCCGGCAGCGCTGCGGGGTTCATGCTGAGTATTCCCTTTGTAGTGCCGGGGGAAATTCTCTATTTAACAGGTTGGGGGGCGGGCAGTGCCCTGCTTTATGCAGCTGTGCTGCACGTGGTCAGGCTTCTGAGCCTCTTCCTGAACGAAAGTGGTGGATAA	MRSLAAFFAAISLSIIGNIISTVDGFSVILFLYTFPLFLIAGTLTDAGLKKIRPVRPPFTLAVWISAGSAAGFMLSIPFVVPGEILYLTGWGAGSALLYAAVLHVVRLLSLFLNESGG				NA	NA	NA	NA	NA
AK012_00014	195			hypothetical protein	ATGAAAAGTGCCGGGGCACTTGTGGTGCTGTCCTTGTTACTGCCGTATTTATATACAGCTTTAGTGACAGGGGGAATAGGTGCTCTTTTCCTGACTTGGTTGAACTCCGCCGGGCTTTTTATAGAAGGGAACAGCACAGGTAGACCGTTTCTGCTGACAAGCCGGAACGGTTTTCTTTTTGAGGATTCTTATTGA	MKSAGALVVLSLLLPYLYTALVTGGIGALFLTWLNSAGLFIEGNSTGRPFLLTSRNGFLFEDSY				NA	NA	NA	NA	NA
AK012_00015	1035		COG0492	Ferredoxin--NADP reductase	ATGCATGACGTGACGATTATCGGCGGAGGCCCGGCCGGGCTTTTTTCGGCTTTTTACAGCGGATTACGCAACATGAAAACGAAAATCATTGAAAGCCATCCATTCCTCGGCGGCAAGGTGCACGTCTATCCTGAGAAAATCGTCTGGGATGTCGGCGGTCTTCCGGCTGTCACCGGTCAGCAGCTCATTGACCACCTTGTGAAGCAGGGAACGACGTTTGATCCGGACATCGTGCTGGGGGAAAAGGTCACGTCCATTGAAAAAATCGACGATGTCTTTAAACTGAGCACCTCTAACGGACAGGTGCACTGGTCCAAATCCGTGATTGTTGCTGTCGGAGGCGGCATCATTGAACCGAAGAAACTGGATATTCAAGGAGCAGAGAAATTCGAGGTGAGCAATCTGCATTACACGGTGCCATCATTCCAACGCTTTGCAGGCAAACGTGTCGTCATCTCCGGCGGAAGCCATTCAGCCATCGACTGGGCAAATGAACTGGCTCCCATTGCCGAAAGTGTCCACCTCGTCTACCGCCGGGAAGAGCTGAAAGGTCATGAAGCGAGTATTGATCTTCTCATAGAGCAGGGCGTTGAATTGAATGAGCAGTCGGCGATCCAGTCGTTGACCGCTGATGATGCAGGGACGGCCATCCGCCGGGTGACACTGGAACACCCGGAGCATGGGGTGAGAAACCTGGATGTCGATGAAGTCATCATCAGCCATGGCTTTAACCGGGACGCGTCCCTTCTTGACCAGAGTCCAATTCCTCTGGAACGGGTGGATGACTTCTTTATTAAAGGCTCTGCCCAAAGTGCTTCCTCTGTACCAGGTTTGTTTGCGGCTGGAGATATTCTTCATCACGAAGGAAAGCTCCATCTGATTGCAGGTGCGTTCCAGGATGCCGCCAATGCGGTGAATATGGCGAAGCAATTTATTGATCCAGAGGCAAGCGCCCGTGCAATGGTCTCCTCCCACAATGAGCGTATGGAGGAGTACAATAAGAAATGGAAGGAAGAACAGCTGGTTTCTTCCTGA	MHDVTIIGGGPAGLFSAFYSGLRNMKTKIIESHPFLGGKVHVYPEKIVWDVGGLPAVTGQQLIDHLVKQGTTFDPDIVLGEKVTSIEKIDDVFKLSTSNGQVHWSKSVIVAVGGGIIEPKKLDIQGAEKFEVSNLHYTVPSFQRFAGKRVVISGGSHSAIDWANELAPIAESVHLVYRREELKGHEASIDLLIEQGVELNEQSAIQSLTADDAGTAIRRVTLEHPEHGVRNLDVDEVIISHGFNRDASLLDQSPIPLERVDDFFIKGSAQSASSVPGLFAAGDILHHEGKLHLIAGAFQDAANAVNMAKQFIDPEASARAMVSSHNERMEEYNKKWKEEQLVSS				NA	NA	NA	NA	NA
AK012_00016	975			Oxidoreductase P35	ATGAAGACAATTCGATGGGGCATCATCGGATGCGGCAATGTGACAGAAGTAAAAAGTGGTCCGGCTTTTCAACGGATCGAAAACAGCACGCTTACAGCTGTCATGAGGAGAGACGGGGAGAAAGCCGAGGACTACGCCCGGCGTCACGGTGTTCCGAAATGGTATGACAAGGCAGCAGATCTGATTCAGGATCCAGAAGTGGATGCTGTTTACATAGCCACCCCGCCTTCCTCCCATAAGGAATATACGCATATGGCAGCAGAAGCAGGTAAACCCGTGTACGTGGAAAAACCGATGGCAGACCGTACCGACGCCTGTGCCGACATGGTGGAGATTTGTGAAAAGCATGGCGTGCCTCTGTTTGTCGCTTATTACCGCCGGTCGCTGCCGAGGTTTTTAAAAGTAAAAGAGCTGCTGGAGGAGGGAGCCATCGGAGATGTCCGATTTGTATCCATCCAACAGACACAGCGTCTGGTGGAAAGAGACGAGCAGGGCAACTGGCCGTGGCGGGTAATGCCTGAAACGAGCGGCGCCGGCTTGATTTATGATGTAGGGGCTCATACCCTTGACCTTTTCGACTATCTCCTCGGTCCACTGACGGACGTGAAAGGCACGGCTTGTAACCTCGCTGACGTTTACCCGGCAGAGGATACCGTCAGCGGGACGTGGCGGTTTGAAACTGGAGCCGTTGGGACAGGGGTTTGGAATTTCTCCTCTTATACACATGAAGATAACAACCGGATCGTCGGGTCAAAAGGGGAAATCCGATTTTCCACATTTGATGACCAGCCGGTGAAGCTCCTTACTGATCATGGAGAAGAGGAATTCTCTATTGAACACCCCACGCATATCCAACAACCACACATCCAGTCGATCGTTCAGGAGCTGACAGGTCATGGGACATGTCCAAGTACAGGGAAAACAGCCCTGCGCACCAACCGTGTGATGGATGAATTATTAAAGGATTACTATTAA	MKTIRWGIIGCGNVTEVKSGPAFQRIENSTLTAVMRRDGEKAEDYARRHGVPKWYDKAADLIQDPEVDAVYIATPPSSHKEYTHMAAEAGKPVYVEKPMADRTDACADMVEICEKHGVPLFVAYYRRSLPRFLKVKELLEEGAIGDVRFVSIQQTQRLVERDEQGNWPWRVMPETSGAGLIYDVGAHTLDLFDYLLGPLTDVKGTACNLADVYPAEDTVSGTWRFETGAVGTGVWNFSSYTHEDNNRIVGSKGEIRFSTFDDQPVKLLTDHGEEEFSIEHPTHIQQPHIQSIVQELTGHGTCPSTGKTALRTNRVMDELLKDYY	PGPT0017545_63	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017545-xdh-K14273	NA	NA
AK012_00017	1197	sstT	COG3633	Serine/threonine transporter SstT	ATGAAAAGAATACCATTATTATTAAGGATTGTTCTAGCGATTGCGCTGGGTATCGTTATCGGTCAGTTTGCACCGGAAATCGTGATTGAACTTGCCGCCACATTCACCGGTTTATTCGGTAATTTCCTGAGCTTTGTGATCCCATTAATTATCCTCGGTTTTATTGCACCGGGCATTGCGTCCATGGGAAAAGGGGCAGGGAAGATGCTGGGGCTGACGACTGGACTGGCTTATGCCTCTACCGTACTGGCAGGTACAGCGGCTTTCTTATTCGCTGATAACCTGTACCCATCCTTGCTGCAAGGGCAGAGCGGAGGATCTTTTGCTAATCCGGAGGAATCCCTGGTGGAAGCCTCTTTTTCTGTTGAAATGACTCCCATTATGGGCGTAATGGCTGCACTTATATTATCCTTTCTTTTAGGAGTCGGCATGACAGCTGTCAAAGGGGATTCTTTATTGAATGTAATGAATGAATTCCGTTCGATTATCCAAAAGGTCATAGAAAATATCATTATCCCTCTATTACCGTTTCATATATTCGGAATCTTTGCGAATATGACCTATGCAGGACAAGTCGGTACAATCCTGAGTGTATTCGCCAAAGTATTCTTGATGATCATAGCGCTGCACCTGCTTTATCTTGTCGTAGTGTATGGTTTGGCAGGCAGTATGCATAGAAGGAATCCATTCAGCTTATTGAAGATCATGACCCCTGCCTACTTTACAGCACTGGGAACGCAGTCTTCTGCAGCAACGATTCCAGTAACATTGAAGCACGTGAAGAAAATCGGGGTGCGGGAACGTATCGCAGACTTTGCTGTACCGTTACTAGCGAACGTCCATTTAGCAGGAAGTACGATTACGATTACCAGCTGTGCTATGGCGGTTATGTATATGCAGGGACAAGCAACCACATTCTCCGATGTATTTCCCTTCATCCTAATGGTGGGAATTACGATGATTGCAGCTCCGGGTGTACCCGGCGGAGCCGTTATGGCAGCGATCGGCCTTCTCGAATCTATGTTAGGATTCAATTCCACGATGGTTTCCTTAATCATTGCTCTCTACTTGGCTCAAGACAGCTTTGGGACAGCAGCGAACGTTACTGGTGATGGAGCCATTACTGCGATTGCTGATAAGCTTATGAAAAAAGGGAAATCAAAGGATGTTCCCGTATCTGATCAGAACGTCGGATAA	MKRIPLLLRIVLAIALGIVIGQFAPEIVIELAATFTGLFGNFLSFVIPLIILGFIAPGIASMGKGAGKMLGLTTGLAYASTVLAGTAAFLFADNLYPSLLQGQSGGSFANPEESLVEASFSVEMTPIMGVMAALILSFLLGVGMTAVKGDSLLNVMNEFRSIIQKVIENIIIPLLPFHIFGIFANMTYAGQVGTILSVFAKVFLMIIALHLLYLVVVYGLAGSMHRRNPFSLLKIMTPAYFTALGTQSSAATIPVTLKHVKKIGVRERIADFAVPLLANVHLAGSTITITSCAMAVMYMQGQATTFSDVFPFILMVGITMIAAPGVPGGAVMAAIGLLESMLGFNSTMVSLIIALYLAQDSFGTAANVTGDGAITAIADKLMKKGKSKDVPVSDQNVG				NA	NA	NA	NA	NA
AK012_00018	285			hypothetical protein	ATGTGGATCATATTAGGGTTTATAGCTATAGCCGCAACTTTTACAAACCTCTATATGTATAAAGCGGGAAAGGATTACAAGCTTGCTATGGCGACAGGGTTATCATTTACAGCATTAACCCTTTGTGCAGAATACAGCCTTGTCTCCCGTTGGGTAGAGGTGGAAGACTGGGCTGCTTTAATGGATGTCGTTCCTGGTATGGAAGGAGCATTATGGGTTTTGACATTCATGTCTATCCTGCTAAATACAGCACCTATACTATTAGAACTGAAAGATAAGAAATAA	MWIILGFIAIAATFTNLYMYKAGKDYKLAMATGLSFTALTLCAEYSLVSRWVEVEDWAALMDVVPGMEGALWVLTFMSILLNTAPILLELKDKK				NA	NA	NA	NA	NA
AK012_00019	750	lvr		Levodione reductase	ATGAGTAAAGTGGCAATTGTTACAGGAGGCGGCATGGGGCTCGGCCGTTCCGCTGCACTGAGACTGGCAGAAGAAGGTGTCAACATTTCCGTCGTTGATGTCAACGAGGAAGCTGGAGAGGAAACCGTCAAACTGGTCAAAGAAATCGGCCCTGACGCGATTTTTGTACAGGCAGACGTTTCCAAAGCGGAAGAAGTGAAAAAGTATGTTGATGAAACCGTCGAGAAGTTCGGCACGATCGACTACTTCTTCAACAACGCCGGGATCTCCGGAAGCGGCAAGTATTACTTAGATACAGATATCGAAGAGATTGAAAAGATCATCAACATTAACTTAATGGGCAGCATGTACGGCATCCGCTATGTTGCGGAAGTGATGATGAAAAATGGCGGCGGCGCCATCGTAAACACCGCATCCAGTGCAGGGGTCATCGGACAGACGACAGTTGTGACGTATTCCGCTACGAAACACGCCCTTGTAGGCATTACGAAGAGTATGGCGGCTGAGTATGCGAAGGACGGCCTCCGTATCAATGCGGTAGCTCCCGGTCCGACCGAAACCCCAATGGTCGCCTCCTACTTCGAGGCGAACCCGGAAATGAAGAAAAGTGCCGAATCAGGGATTCCACAACAGCGGCTCGGAACTCCGGAAGAAGTGGCTGAGCTCGTCAACTTCCTGTTGACATCGAAAGCCCAGTATATCAACGGCGAAGTGATCCGCATCGACGGCGGCTTCACGAACGCAAAATAA	MSKVAIVTGGGMGLGRSAALRLAEEGVNISVVDVNEEAGEETVKLVKEIGPDAIFVQADVSKAEEVKKYVDETVEKFGTIDYFFNNAGISGSGKYYLDTDIEEIEKIININLMGSMYGIRYVAEVMMKNGGGAIVNTASSAGVIGQTTVVTYSATKHALVGITKSMAAEYAKDGLRINAVAPGPTETPMVASYFEANPEMKKSAESGIPQQRLGTPEEVAELVNFLLTSKAQYINGEVIRIDGGFTNAK	PGPT0008195_881	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008195-butA|ydjL|budC-K03366	NA	NA
AK012_00020	735	ydjP_1	COG0596	AB hydrolase superfamily protein YdjP	ATGATTCTGCATTCAATTATAGAAGGAAAGGGAGATCCTGTTGTTTTTCTTCATGCGGGGCTTGAGACCGGAGAGCAGGATTTTGTGGAACAGCGGGAAGCACTGAAATCCAACATGTGTGTCCTCGCTCTGGATTTAAGAGGCCATGGAAAATCCATGAGTGATGATCTTGGTAATTATTTTGAAGCATGCGCCGGGGATATAAAAGATACCCTGGACCATTTACATTTAAAACAGGTACACCTCGCAGGGGCTTCGATGGGGGCGCTCGCTGCCGTCGTCTTTGTAAAAAAGTTTCCTGAGTATGCAGCTACGTTGACGGTGTCCGGGATCATGGCGGACAAGCCGGAGGATTGGTCTGAAATTCATAAGGAAGAAGCGGCTTTTCAAAGGCAGCTGCGCCATGATGAAGACGTAACGCAGTATTTTACAGAACGGCACGGACCGGACTGGGGGAAGCTGTTGGACCTGGCCCAGGATGAGAGTTGGTATCCCTTTTCCTATACAAAGGACTTGGACGGGGTGAGTGCTCCGGTTCTTTGTATAGCAGGGGAAGAAAATGAGCTGGAGACAGCCGCTGTTATGAAATACAAAAGCATTCATAAGCCGGTTCATGGAGCGGTCCTCCCGTTTGCCTCCCATTTAGTCCATCAGCAGAAGCCGGAGGCGTACAACACGTTTTTAAAACAGTTTTTAGAGAGTTATCCGATAGGGAGTTTCCAAAAAGTACAGTGA	MILHSIIEGKGDPVVFLHAGLETGEQDFVEQREALKSNMCVLALDLRGHGKSMSDDLGNYFEACAGDIKDTLDHLHLKQVHLAGASMGALAAVVFVKKFPEYAATLTVSGIMADKPEDWSEIHKEEAAFQRQLRHDEDVTQYFTERHGPDWGKLLDLAQDESWYPFSYTKDLDGVSAPVLCIAGEENELETAAVMKYKSIHKPVHGAVLPFASHLVHQQKPEAYNTFLKQFLESYPIGSFQKVQ				NA	NA	NA	NA	NA
AK012_00021	138			hypothetical protein	ATGGGTCTACTTCTGATTGCAGTCATTGTCATCACGATCCTATCCATTGAATTACAGCTGCGGAAATTGAACAAAACCAATGAACAGATTTTGAAACACCTTCAGGAAGGGAACACAAACCTAAAGGATGAATCATAG	MGLLLIAVIVITILSIELQLRKLNKTNEQILKHLQEGNTNLKDES				NA	NA	NA	NA	NA
AK012_00022	201			hypothetical protein	ATGAGAACAAACGATTGTATTCATTGTGGTGGACAGAAGGAAGTCTGTTATGTGGATCAAGGGCTTGGGGGCCTGTTGGTGAAAAACGAAAAAGGAAAGAAGTTGTTTTCAAACAAAAAGCATGCACGCATCAACCCCGTGGTCTGCACAGACTGCGGCTTTGTGGAATGGTATGCCGATGAACCAGAGAACTTAAAGTAA	MRTNDCIHCGGQKEVCYVDQGLGGLLVKNEKGKKLFSNKKHARINPVVCTDCGFVEWYADEPENLK				NA	NA	NA	NA	NA
AK012_00023	183			hypothetical protein	ATGAGAAGGCTGCAGGCAGCAGCACTTGTAGGATTAATCATCTGTCTTGTTCTTTATCTGACCGGATATGAGAACACCTTTATTTACGAAATGGCTTTCTTTATGACTATTGGACTGGCTGTATGGTGGACTGTGGTCAAATGGAAGTGGGGCCGCAGAGAAGTCGAAAAAAACCGGACTTGA	MRRLQAAALVGLIICLVLYLTGYENTFIYEMAFFMTIGLAVWWTVVKWKWGRREVEKNRT				NA	NA	NA	NA	NA
AK012_00024	1233	gltP_1	COG1301	Proton/glutamate-aspartate symporter	ATGAAAAAAATCTGGCAGTTATACAAACATTCTTCTTTTCTATTAAAAATGACCATTGGATTCATCCTTGGTATTGCCGCAGGTATTATTGTCGGACCGGAGATGGAAGTGGTCAAACCGCTGGGGACCATTCTTATCAACCTCCTCAATCTGATTGCCGTTCCCGTCATTTTTCTGACGGTCGTACTGGCCATTAATGAAATCAGTCCGAAACACCTCGGGCGGCTTGGTGGTAAGCTGCTCGGGTACTACGGGATAACGACAGCGGCCGCCGTGTTGATCGGGGTCGGGCTTGCGCTGTGGATCAACCCGGGGACAGGACTCTCGCTTCCCGACGCTGACGTGGAAAAGCCGGAGACTCCGGGATTCTCTGATGTCCTGTTGAATATTGTTCCGAACAACTTGTTTCAGGCGTTTTCCTCCGGCGAACTGATGGGCATCCTTTTTCTCGCTGTCATCATTGGTTTGACGCTGTCCATCATGCGTTTCCGCGGAACGGAGGAGCACAAGGAATACGGCGCTCTGCTGTACCGGTTCTTCCGTGCTGCAAATGAAATGTTCTTCCTGCTGTTGAAAGGGATTCTCCTTTACGCACCTATTGGAATCTTCGCTATTGGGGCTTCCACATTTGCAACACAGGGATGGGAAACCTTCCAATCGCTGTTTGCATTTACCGGTGTTTTCTACTTAGGCGTCGCACTCCTCTGGATTTTCGTCTATACCGGTTTTCTCATGTACGCCAAAGTGAACATCAAACAATTTTTCAGCCGGACAAAAGATGCTTACGTGACCGCCTTTTTCACTTCAAGCAGTATTGCATCCCTGCCGGTAGCAGTTGAAGCGGCTAAAAAAGCCGGGATATCCGAGCGAACGGCCCATTTTTCCCTTCCCATCGGAGCGGTGTTCAATTCCGATGGCGGAGCTCTCCGTATGGGTGTTTCGATCGTCTTTGCCGCAAACATCACAGGGCTGGATCTCTCAGCGGTTGATTTTATTACGATCGTCGCTGTCGGCACGCTGCTTTCCATCGGAACAGCGGGCATTCCGGCAGCAGGACTCGTCACCTTATCGGCGGTGTTGACAATGTTCAACCTGCCCCTTGAAATTGTCGCCCTCATCGCCGGCGTGGACGTACTGATCGGCATGGCCGGGACAGCCTCCAACGTGCTTGGTGATATCGTCGGATCCGCCGTCGTTGATAAAAAAGAAAAGAATTCCGATCAGGCAGCATGA	MKKIWQLYKHSSFLLKMTIGFILGIAAGIIVGPEMEVVKPLGTILINLLNLIAVPVIFLTVVLAINEISPKHLGRLGGKLLGYYGITTAAAVLIGVGLALWINPGTGLSLPDADVEKPETPGFSDVLLNIVPNNLFQAFSSGELMGILFLAVIIGLTLSIMRFRGTEEHKEYGALLYRFFRAANEMFFLLLKGILLYAPIGIFAIGASTFATQGWETFQSLFAFTGVFYLGVALLWIFVYTGFLMYAKVNIKQFFSRTKDAYVTAFFTSSSIASLPVAVEAAKKAGISERTAHFSLPIGAVFNSDGGALRMGVSIVFAANITGLDLSAVDFITIVAVGTLLSIGTAGIPAAGLVTLSAVLTMFNLPLEIVALIAGVDVLIGMAGTASNVLGDIVGSAVVDKKEKNSDQAA				NA	NA	NA	NA	NA
AK012_00025	813			hypothetical protein	ATGATTGCGGATATGTATAAAAGAAGGGAGCGGACTGCCTGCATCCTTTTAGCCCTCGTGCTTCTCGTAACGGCCGTATCGATTGTTTTCATGGCGCCGGAAGGAACAGAGGAGTGGATGGAAACGGCAGCTTTTCTTTTTCCGATCCTCCTGCTGATGGTCATTGCGCTTTCCAGTCGAAGGAAGTACAACAAAGTAAAAGATATGGAGATATCCGATTCGCGCCGCTCTTTAACTGAACTGGATCATCTCGTTATTCAGCCGGATGCAGGCCTGTATCCGAGGCTCCTTGCTTTTGAGAAAAACGGGGCTTATATCGGCATGTTGAAAGTGGATCATCTGCCGTGGTGGAGCCGGCCGCTCGTCGCCTTCCGATCTTCTTTTCTTTCCTTTGTCCCCTGCACGTTTCGTTTTTACTCCAATGAAGGCAGGCCGTTATTTTCCCTGCACAGGCAGGGGTTTAAGGAAACGGTGGTAACGATTAATAACGACAGGGAAGAAAAGGTGGGCTCGTACATACAAAAGGAATTCAAAAGCCTTATTCATATGAAGGGCATGATGAAGAATTCACATGGGCAGGAGATTTTAAGCGTTCACGCTTCCGGGTTTTCAGGGGATTTCACACTAAAGGATGAAAGGGGACAAACATGGGCTCATTTTTATAACGGACGCTTTCCCGTAGAATATACCCGTGTTTTTCGAGATATCGACAATGATATCGTGGAGTTGTCCGACTCGCTCCCCGCAGAAAACAAGACACTGTTGGTTGGAACGGTGTGCTTTTTATTCATCGAGCGCAGTCTGCGCAAATAA	MIADMYKRRERTACILLALVLLVTAVSIVFMAPEGTEEWMETAAFLFPILLLMVIALSSRRKYNKVKDMEISDSRRSLTELDHLVIQPDAGLYPRLLAFEKNGAYIGMLKVDHLPWWSRPLVAFRSSFLSFVPCTFRFYSNEGRPLFSLHRQGFKETVVTINNDREEKVGSYIQKEFKSLIHMKGMMKNSHGQEILSVHASGFSGDFTLKDERGQTWAHFYNGRFPVEYTRVFRDIDNDIVELSDSLPAENKTLLVGTVCFLFIERSLRK				NA	NA	NA	NA	NA
AK012_00026	1416			hypothetical protein	ATGAGTGTACCAGCAGAGAAGACAGAGATGCAGCACGAGAAAAAGCGCCGGTGGGAAATGCCGGATACGTACGTCATTTTATTTGCTGTTCTCCTTGCAGCAGCCATTGCAACCTATTTCGTCCCCGCCGGAACGTTCGAGCGGGAAACGGTGGATGGGGTGGAACGCGTCGTTCCAGGCACCTTTAGTGCCGCTGACGGGTCACCGGCAGGATTTATGGACATTTTCATGGCGCTTCAGGAAGGGATGATCCAGTCCGCCGGAATGATCTTTTTAGTCCTGTTTGCAGGAGGAGCCTTTGAAGTCGTCGAACGCTCAGGCGCGGTTAAGGGAGGCATTCTGAGAGCGGTCCACCTGACCCGTGGAAAAGAGTTCTGGCTTATCGCTGTTGTCTCCACATTGTTTGCCATCGGCGGAGCCGTCGGTGTCATAGCGAACGCGGTCATTCCGTTTGTTGCGATCGGAGTCATCATTGCCCGGGCGTTGAAGCTGGATGCAATTGTCGCCGTTTCGATTACGTTCGGTGCGACGTTTGCTGGGTTTAACGTAGGCTTCCTGAACCCTTACACCGTCGGCATTGCCCAGTCGATTGCTGACATTCCGTTGTTTTCCGGCATGGCGTTAAGAATGACGGCTTTCGTTGTCATCGTCGGTGCAACGATTGCTTATACGTGGAGATATGCGAAGAAGCTGCTGCATGATCCCTCCAAAAGCTTAATGGGCGTCCTGGATGAAGGGGAGGAAAAAGGGGGGCTGCAGGCTCCTTTTACCACCCGTCATAAATGGCTGCTTGGTTTTGTCGGCGCCTGTCTTGCCTTCTTCATTTACGCTACCATCCAGTTTTCCTGGACGATCAACCATATGTCTGCCTTCTTTATTGTAATCGGCCTTGGAGCAGGCATCATTGCTGGTATGGATTACAATAAACTGGCGCTGACGTTTCTCGATGGATGTCAGAAGCTCGTATACGGAGCCTTGATCATCGGGGTCGCCCGGGCCGTTCTCATTGTGATGGAGAACGCAAAGATTCTCGATACAGCTGTCCACGCCCTGTCGGTTCCCCTGCAGGAACTTACCCCCGTCACGGCTGCTCTCGGCATGTTTGCGGCGAACGGTGTTCTCAATTTCCTCGTCCCGTCAGGAAGCGGGCAGGCGATGATTGCCATGCCGATTCTGTCCCCGCTCGCAGATATGGTTGGAATTACCCGCCAAGTGGCCGTGCAGGCCTATCAATTCGGGGACGGGTTTACGAACAGTATCTTCCCGACGTCTGGTCCGTTAATGGCGAGTCTGGCTGTTGCGGGAGTTCCTTGGATCAAGTGGGCGAAGTGGATGCTTCCCTTGATGCTGATCTGGGTGGTCATTGCTGTCGTGATGCTCTCCATCGGTGTTGTCATCAACTGGGGCCCTGTGTGA	MSVPAEKTEMQHEKKRRWEMPDTYVILFAVLLAAAIATYFVPAGTFERETVDGVERVVPGTFSAADGSPAGFMDIFMALQEGMIQSAGMIFLVLFAGGAFEVVERSGAVKGGILRAVHLTRGKEFWLIAVVSTLFAIGGAVGVIANAVIPFVAIGVIIARALKLDAIVAVSITFGATFAGFNVGFLNPYTVGIAQSIADIPLFSGMALRMTAFVVIVGATIAYTWRYAKKLLHDPSKSLMGVLDEGEEKGGLQAPFTTRHKWLLGFVGACLAFFIYATIQFSWTINHMSAFFIVIGLGAGIIAGMDYNKLALTFLDGCQKLVYGALIIGVARAVLIVMENAKILDTAVHALSVPLQELTPVTAALGMFAANGVLNFLVPSGSGQAMIAMPILSPLADMVGITRQVAVQAYQFGDGFTNSIFPTSGPLMASLAVAGVPWIKWAKWMLPLMLIWVVIAVVMLSIGVVINWGPV				NA	NA	NA	NA	NA
AK012_00027	219			hypothetical protein	ATGTCCGGCGCATTTTCTATGGAACAGACGGTTGATGTATTAAGAAATAAGGGGCTGTCCAATCGGGATATTCTCTCAAACGTCGATAACAGTCACTTTCCATTTGAACAGGAAGACATTGTAATGGCCTTCATTGACCTGCAGATTGAGTGTTCTTCGGATGAAGATTATGACAAGCTCGTGAATTACTTATATGGATTTGAAACCCACGCGTCTTAA	MSGAFSMEQTVDVLRNKGLSNRDILSNVDNSHFPFEQEDIVMAFIDLQIECSSDEDYDKLVNYLYGFETHAS				NA	NA	NA	NA	NA
AK012_00028	183			hypothetical protein	GTGAAGAATTATCTCCGATTTTTTATATGGATGATTGTTGGTCTGACGTTCTTTCAGGTCGTCTTTTCATGGTTTGATGGCGGTTGGAAGGAGATGGTGGGGACAGCTGTTGCTGCCACCTTCTCCATGTGGGTCATCGATGATTTTATGAAGGATCGAAAGAATGCATCAGAAGATTATTAA	MKNYLRFFIWMIVGLTFFQVVFSWFDGGWKEMVGTAVAATFSMWVIDDFMKDRKNASEDY				NA	NA	NA	NA	NA
AK012_00029	594			hypothetical protein	GTGTTTACCGTCCACAGCAGACTTGAAGTTCAACCAGAGTCGATCTATAAAAGTCAGCGTCAGCAGTTTACCATTCGATCAGCAGGGACATTAATTGGTATGGTTGAGGAAACCGTTGAATCAGCGTCCAACTGGAAGGATCAGCTGCTTCAGTTGGTCAGCTTGCATTTTCTATCCAGTAAGAACTTCTGTGTCACCAACGCAAAAGCAGAGCCACTGGCTGCCTTTCATAAAAAAATGGGACTCAACCAAAAGATCGACCTTTTTGATCAGCACGGGAATTGGATGGCCGTCGTTGAGCAGAAATTGAAATTCAGTTCTCAGCGGTTGAGCGTCCGGGATACAGCGGGCAGGCTGCTCCTGACGGCGGAGGGAAGGAATGGATCACTGGTCTTTGTGGTATATGCAGAAGGGGACCCTGCCTTAAAGCTTTCGACCATCAAAAAGCGGTCCATCCCTTATCCGACAACAAAGGAAGCTTTAACGTCGATGGATCATTATGAGATTGCCAACGACAGTGATCTGTCAGAATTTCAGCAGTTGTTGATCCTGATGATCCCGGTCATCGTGTTTGATCAGTTACATAATGCTTGA	MFTVHSRLEVQPESIYKSQRQQFTIRSAGTLIGMVEETVESASNWKDQLLQLVSLHFLSSKNFCVTNAKAEPLAAFHKKMGLNQKIDLFDQHGNWMAVVEQKLKFSSQRLSVRDTAGRLLLTAEGRNGSLVFVVYAEGDPALKLSTIKKRSIPYPTTKEALTSMDHYEIANDSDLSEFQQLLILMIPVIVFDQLHNA				NA	NA	NA	NA	NA
AK012_00030	516	ydaF_1	COG1670	Putative ribosomal N-acetyltransferase YdaF	TTGGATCAGTTTATCATCAGCGGAACGAAAGTTGATTTGTTTGGCTTTCAGGGAGGGAAAGAAATGTTTTCCATACAAGTGGACGAACACACAAAACTCAGACGGCTCAACCTCTCGGATCAACATGAATTATTTCGGCTCATGGATGGCTCAAGGGAGCATTTGCGGCGTTGGCTGCCCTGGGTGGATGCAGTGGAAGAGCCGGAGCAATCCCTGACTTTTATCAGGAACTCGCTCCAACAGTATGCGGGTGATGATGGTTTTCAGGCAGGAATCATCTATAAGGGAGAACTGGCAGGGGTCATTGGGCTGCATGGCATTGACTGGGATCACAAATCCACGTCCATCGGTTATTGGATGGGCGGGCCTTTTTGTGGGAAAGGGTTGATGACATCGGCCTGTCGGCAGGTCGTCCATCACTGCTTCCGCACGCTGAAATTGTACCGGGTTGAAATAAGGGTGGCTGCTGGAAATGAGAGCAGTGCGGCCATTCCCCGGCGGCTCGGTTTTACATAG	MDQFIISGTKVDLFGFQGGKEMFSIQVDEHTKLRRLNLSDQHELFRLMDGSREHLRRWLPWVDAVEEPEQSLTFIRNSLQQYAGDDGFQAGIIYKGELAGVIGLHGIDWDHKSTSIGYWMGGPFCGKGLMTSACRQVVHHCFRTLKLYRVEIRVAAGNESSAAIPRRLGFT				NA	NA	NA	NA	NA
AK012_00031	1200	alaS_1	COG0013	Alanine--tRNA ligase	ATGACAGAGAAATTGTATTACAAAGATGCGTACCTTACGAGTTTTCATACCTATGTAAAAGAAACGGGAGAGGATCACCGAGGACCATACGCCGTCCTTGAGGCAACGGCCTTTTACCCGACAGGAGGCGGCCAGCCTCACGATACCGGCACCTTGAACGGGACCGCTGTCGTCGATGTCGAAGAAATAGATGGGGAGATCCGTCATTACCTGGCTGCAGCCTTGTCTTCAGAGCAGACAGCTGTCCACGGCGTCGTGGATGAACAGCGTCGTCATGATCACAGGCAGCAGCACAGCGGTCAGCATATCGTATCCGCCATTTTCCACGATGACTATCAAATTCCAACGACGAGCTTTCATTTAGGAGCGGATACGGTAACGATCGATCTGGATACCCCTCAACTCAGCGAGGCGGTTCTGAAAGAGGCGGAGGCGACAATCAACAAGGTCATCCGTGCTGATTATCCGATTGACACGAAATGGGTGACGGTGGAAGAAGCCAGTACCTATCCGCTGCGCAAACCGTTAAGTGTGGAAGGTGACGTACGGCTCGTTATCATTCCGGAAATTGATTACAGCGGCTGCGGCGGCACCCATCCGGCCTCCACAGCGGAAGTAGCTGCAATGAAGTTCCTTGGCTGGACGAAGAATAAAGGACAGGTCCGTCTGGAGTTTGTCTGCGGTGACCGTGTTCTGGGGCAGCTCGAGAGCAAGCATCAAATCATCCAGGGGGTAAAACAGCTGATTTCACGCCCGGAAGATAAGCTCGTGGATGAATTGACGTCTCTCATCCAAAGCGATAAGGAAAAAGAGAAAAAAATCGCTGCACTGGAAGAACAGCTGTTGTCCTTTGAAGCAGCTGAACTGGCAGATGCTCACAGCGGTGATCAGGTGATTGTCAAAGTGTTCCAGGATCGTTCCATTAAGGACCTGCAGTCTCTGGCACAGGCCGTGCTTAAGAAGACCTCCGATCATCGGGTTGTCTTTGTGAGCGAGCAGGAAGAACAGCTTCAATTCGTCCTTGCCAGAGGAGAGGCACTGGAAGGCAATATGAATGATGCTGCCAAACAGGTCATGCCGCTGATTGAAGGCAAGGGGGGCGGACGTCCTCATTTTGTCCAGGGAGGCGGACGCAGGCTGATGGCCGGTGAAGCATTTGCTGAAAAAGTGAAGGAGCAGCTCCTTACGCCTGCTGAATAA	MTEKLYYKDAYLTSFHTYVKETGEDHRGPYAVLEATAFYPTGGGQPHDTGTLNGTAVVDVEEIDGEIRHYLAAALSSEQTAVHGVVDEQRRHDHRQQHSGQHIVSAIFHDDYQIPTTSFHLGADTVTIDLDTPQLSEAVLKEAEATINKVIRADYPIDTKWVTVEEASTYPLRKPLSVEGDVRLVIIPEIDYSGCGGTHPASTAEVAAMKFLGWTKNKGQVRLEFVCGDRVLGQLESKHQIIQGVKQLISRPEDKLVDELTSLIQSDKEKEKKIAALEEQLLSFEAAELADAHSGDQVIVKVFQDRSIKDLQSLAQAVLKKTSDHRVVFVSEQEEQLQFVLARGEALEGNMNDAAKQVMPLIEGKGGGRPHFVQGGGRRLMAGEAFAEKVKEQLLTPAE				NA	NA	NA	NA	NA
AK012_00032	1362	brnQ_1	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGCAACAAAGAAAAGCCATCTCCACGTACATCATGATCGGGACCATGCTGTTTGGTTTATTTTTCGGGGCAGGCAACCTGATTTTCCCCATCCAGCTCGGACAGCTCGCTGGAACATCCTTCTGGCCGGCTTTGATTGGTTTCCTCGTCACCGCGATCGGACTTCCGTTCATGGGCATACTGGCTGTCGGCTTGTCCGGAAGCAGCGGACTACATGACCTGGCCAGCCGTGTCCATCCCTTATTCGGGACAGGCTTTGCCCTGCTTTTATACTTAACCATCGGTCCTTTCTTTGCTATTCCCCGGACGGCTACTGTTCCGTTCGTTGTCGGATTTGAGCCTTTCCTTGATCAAGGATCAGCGAACATCTGGCTCGGCGTTTTCACCTTTATCTTTTTCGCAGCGGCCTGGTATTTCTCTCTCAATTCGGCGAAAGTGATGGACATTGTCGGGAAGTATCTCACACCGACCTTTTTACTGTTCTTATCCATTCTTATCATTACAGCCATCATCAAGCCGATGGGAAGCTTCGGGGCACCGACCGGATCTTATGAAGCGATGCCGTTCATGACCGGATTCAAGGAAGGATACAACACGATGGACGCCCTAGGCGCCCTTGCCTTCGGGATCGTTGTCATCCATGCCATCCGCCGTCTCGGTATCACTGATACAAAAGCGATTGCGAGTACAACATGGAAATCCGGTTTGTTCGCCATGGGGTTAATGGCGCTGATTTACGGACTGATTACGTATATGGGGGCTTCCAGTACAGCGGCTGTCGGGCAGTTTGAAAACGGTGGACTGACCTTTGCTGCGGTTTCCCAGTATTATTTCGGACCATTCGGCTCCATCCTGCTGGCTTTAATCGTCATTCTGGCCTGCTTGAAAACATGTATCGGCCTGATCATTGCCTGTAGTGAATTTTTCCATACGATTTATCCGAAAGTGAGCTATCAAACGTTTGTGCTTGTGCTGTCCTTGTTTTCCTTTATCGTGGCAAACTTCGGACTGACAAACATTATTGCGTATGCGATCCCCGTGCTGATGTTCCTTTATCCGCTGGCGATCGTCCTTATTCTGCTCGGCCTCAGCTCCAAGCTGTTCAATCATAAGCGCCCCGTCTATGCGGGAGCTATGGTGCTCACCTTTTTCGTCAGCCTCATCGACGGATACAATGCCCTTGCAGGAACGGTCCCATCGATTACGACCCAGTGGCTGGAATCCGTGAACACGGTTTATGCTGCCTACCTGCCGTTTTATGACCTCGGCCTGGGCTGGATTGTACCAGCCGTTATCGGCGCATTGATCGGGTATTTCTGGAAAGGAACTCCTTCTCCAGCCATGCAGACAGAAACAGCCTAA	MQQRKAISTYIMIGTMLFGLFFGAGNLIFPIQLGQLAGTSFWPALIGFLVTAIGLPFMGILAVGLSGSSGLHDLASRVHPLFGTGFALLLYLTIGPFFAIPRTATVPFVVGFEPFLDQGSANIWLGVFTFIFFAAAWYFSLNSAKVMDIVGKYLTPTFLLFLSILIITAIIKPMGSFGAPTGSYEAMPFMTGFKEGYNTMDALGALAFGIVVIHAIRRLGITDTKAIASTTWKSGLFAMGLMALIYGLITYMGASSTAAVGQFENGGLTFAAVSQYYFGPFGSILLALIVILACLKTCIGLIIACSEFFHTIYPKVSYQTFVLVLSLFSFIVANFGLTNIIAYAIPVLMFLYPLAIVLILLGLSSKLFNHKRPVYAGAMVLTFFVSLIDGYNALAGTVPSITTQWLESVNTVYAAYLPFYDLGLGWIVPAVIGALIGYFWKGTPSPAMQTETA	PGPT0014385_242	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
AK012_00033	648			hypothetical protein	ATGAAAAAGACGTGGATCTGGATAGCTGCTGCAGCAGCCGTTGTCCTTGTGATTGCCGCTATTGCTTTATTAAGCGGCGGCGGGTCAAGTGAAGATACAGCGGATCGTTATGAAAACCAGCCTTACTTAGGTGAAGAGAGCGCGGAAGTCAAGATTGTAGAATTCGGGGACTACAAGTGTCCGTACTGCAAGGATTTTGAGTCCGGCTTCTTTCCGTTGATTGATGAGCAGTTGATCCAAACCGGAGATGTGAAATTTTACTTTATTCAATACCCGTTCATCAATGCGGATTCCGATCGCTCTGCTGAATTTGCAGAAGTCGTTTATCAGGAACTGGGAAACGACACCTTCTGGGAATTTCATGAATTGATGTATGAAAAGCAGGAGCCGGGAACCGAGCAGCAGGAAGTTTACACGGAAGATTACTTATATGACACGCTGGCAGAAGTCGTCAGTGAAGAAGAAGCGCAGTCCGTTCTTACTGCCTATCAGGATGGTGCCGGTGAAGAGGCACTGGATCGCGACCTTGACTGGGCTGGTGACTGGGATGTCACTGGAACGCCGACACTATTTGTGAATGGTGAAAAGTTCGAAGGCAGCTCCATCGATGACCTCGTTCAAATGGTTGAGGAAGCAGAAACGGAATAA	MKKTWIWIAAAAAVVLVIAAIALLSGGGSSEDTADRYENQPYLGEESAEVKIVEFGDYKCPYCKDFESGFFPLIDEQLIQTGDVKFYFIQYPFINADSDRSAEFAEVVYQELGNDTFWEFHELMYEKQEPGTEQQEVYTEDYLYDTLAEVVSEEEAQSVLTAYQDGAGEEALDRDLDWAGDWDVTGTPTLFVNGEKFEGSSIDDLVQMVEEAETE				NA	NA	NA	NA	NA
AK012_00034	339	hxlR_1	COG1733	HTH-type transcriptional activator HxlR	ATGAAGGCACCGATGGACGATAATGGAAAACTTAAATGCTCCATTGAATATACATTGAAAAAAATCGGCGGCAAGTGGAAAACCGTCATTCTCTGGCACTTGAGCGTAGACGGTACACTCCGCTACAACGCTTTGAGAAGCCTCCTTCCCGGCATTTCCCATAAGGTGCTGAGCCAGCAGCTGAAGGAACTGGAGGAGGATGGCTTCATCATCCGCTTCCAATATGATACTGTTCCTCCGAAGGTCGAGTATTCCATTACAGACATGGGAAAAACACTGATGCCGATTCTTGAACAGATGCATAAGTGGGGGACCACCTACGGAGACCTGGAACCATAA	MKAPMDDNGKLKCSIEYTLKKIGGKWKTVILWHLSVDGTLRYNALRSLLPGISHKVLSQQLKELEEDGFIIRFQYDTVPPKVEYSITDMGKTLMPILEQMHKWGTTYGDLEP				NA	NA	NA	NA	NA
AK012_00035	498			hypothetical protein	ATGATGATGACTTTTCCAAGATCTTTTTCCCATATCGGGCTTTCTGTCCCGAATTTAGATGAAGCTGTTCAATTCTATACGGAGGTATTTGGCTGGTACGTCATTATGGAGCCTTCGGAAGTGAAAAATGATGACACAGCGATCGGCCAGATGTGCCGCGACGTGTTCGGGAATGACTGGGAGCAGTTCCGCATTGCCCACCTCGCAACCGGTGACCGTATCGGAGTTGAAATGTTTGAATTCCCGGAGAACGAGACTCCGGAAAACAACTTTGAATACTGGAAGACAGGCATCTTCCACTTCTGTATCCAGGACCCGGATGTAGAAGGCATGGTGGAAAAAATCAAAGCCCACGGCGGGAAGCAGCGCATGCCGATCCGTGAATATTATCCTGGAGATAAACCGTACCGGATGGTCTATGTTGAAGATCCGTTCGGCAACATTTTTGAAATTTACTCCCACAGCTATGAACTCACGTATTCTGACGGAGCTTATTAA	MMMTFPRSFSHIGLSVPNLDEAVQFYTEVFGWYVIMEPSEVKNDDTAIGQMCRDVFGNDWEQFRIAHLATGDRIGVEMFEFPENETPENNFEYWKTGIFHFCIQDPDVEGMVEKIKAHGGKQRMPIREYYPGDKPYRMVYVEDPFGNIFEIYSHSYELTYSDGAY				NA	NA	NA	NA	NA
AK012_00036	528			hypothetical protein	ATGAACGTGATGGAAATATTACGCACAGGGTCTGAAAAGCAGCGGTACGTCCTGAAGCTGTATCACGAGCTGAAAATCGCTTCAGAATGCAGGGGGAATCACCCGGTCATCTGTGGAACGATTCCCCTCGGCATTGATTTGGAGGATTCAGATGTTGATGTCATCATGCAGTCGGAAAACCTCTCTCTTTTATCAGAAAAATGGGAGCGGCTGTATGGAGGCTTTCCGGGGTTCAAGGTCATTGAGAAATACATAAGAAGGCGGAAGATCATAAAAGCCAACTTCACCTATGGGGGGCTGGAGTGGGAGTTGTTTGCTCAGAACCAGCCGGTGACCGAGCAGCATGCCTGGCTTCACATGTACTTGGAATGCCGTATTCTTCAGGAGGATCCGTCATTGAAGACCATCATACGTCAGAAAAAGAAAGAGGGCTTTTCCACGGAAGCTGCTTTTTACACCCAGTTGGGCATAAAAGGAGACCCTTATGAAGGGCTGCTTACTTATGGGAGGATGCGGGGGTGGATGTGA	MNVMEILRTGSEKQRYVLKLYHELKIASECRGNHPVICGTIPLGIDLEDSDVDVIMQSENLSLLSEKWERLYGGFPGFKVIEKYIRRRKIIKANFTYGGLEWELFAQNQPVTEQHAWLHMYLECRILQEDPSLKTIIRQKKKEGFSTEAAFYTQLGIKGDPYEGLLTYGRMRGWM				NA	NA	NA	NA	NA
AK012_00037	486			hypothetical protein	ATGAAGCAGATGATGGATGGCAGTTTGAATCATTTTTGGAAGATCAGCTATGGACAGATTTACCCTGCGCTTAAGAAACTGGTGGAGGAGGGGAGTGCAAACGTTAAAGTCACCTCACAGGAAGGCCGTCCGGATAAAAAGGAATACGTGATCACTACGTCCGGTGAAGAACAGCTGCGCTCGTGGCTGATGAAACCGGTGGAGGATCTGCCGGTAGAGAAAAATGAACTGCTGCTGAAGCTGTTTTTCAGCCGGAATCAGGAGAAATCCGTCATTCTTCATCAGTTGGACAGCTACGAGGAAAAACTGCAGGAGAAACGGCACACCTATCAAAGCATCAAGGAAATGCTGCTGCGGGAGGCGTGTCCATCACAAGACACGCCGTTCTGGATCATTACACTGGATTACGGCCTGGCAACGACGGAGGCGGCTGTCGGTTGGTGTGAGAAAACGAAAGTCCGTATCAAAGAAATGAAGGAGGAGTAA	MKQMMDGSLNHFWKISYGQIYPALKKLVEEGSANVKVTSQEGRPDKKEYVITTSGEEQLRSWLMKPVEDLPVEKNELLLKLFFSRNQEKSVILHQLDSYEEKLQEKRHTYQSIKEMLLREACPSQDTPFWIITLDYGLATTEAAVGWCEKTKVRIKEMKEE	PGPT0025575_228	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR|BF-CELL_DENSITY_REGULATION	CE-QSR|BF-BIOFILM-LOW_CELL_DENSITY_REGULATOR,PGPT0025575-aphA-K10917	NA	NA
AK012_00038	483			hypothetical protein	GTGGGGAAACAAGTGTTTCAAGGACGTTACACGACAGAAGCGTCGGGAGAGGAAGGATTTGTCGTTTTTCTTATCGGGATGCGGATCAATAAATGGCGGGCCGTACATCAATGGCTGCCTGTGCTTCGTGCCATGCCGCCGATGATCAAGGAGCTTTATACCTACAAGGATAAGGGGTTTCTGGAAATGGAAAATTTCTTTACTGGCCGGATGGTGCTGTTGCTGCAGTATTGGAAATCAGAGGAAGCCCTGCTGGCCTATGCCCGAGGAGAAAAGCACCGGAAGGCGTGGAAGAAGTTTTATCAACTGGCCGGGGATACAGAAGAGGTCGGCATCTACCATGAAACGTATCTGCAGAAACCAGGGCAGTATGAATCGATTTATGGAAACATGCCGAAGTTCGGGCTGGCGAAAGCCATCGGTCATACGAAAATCAATCCGCAGACGGTTTCTGCACGCCGGCGGTTGAATAGACATGGGTGA	MGKQVFQGRYTTEASGEEGFVVFLIGMRINKWRAVHQWLPVLRAMPPMIKELYTYKDKGFLEMENFFTGRMVLLLQYWKSEEALLAYARGEKHRKAWKKFYQLAGDTEEVGIYHETYLQKPGQYESIYGNMPKFGLAKAIGHTKINPQTVSARRRLNRHG				NA	NA	NA	NA	NA
AK012_00039	573	sutR	COG1396	HTH-type transcriptional regulator SutR	ATGAGCGACCACCAAAAGCACGAAGCAGAAAAATTGGCCAGACAGGCCGGAGTGACGCTCAGGCGCCTGCGAAAAGGGAAACAGCTCAGCCTGCAGGACCTGGCCGACCTCACGAGTGTCAGTAAACTGACGCTTGGCAAAATTGAGCGGGGAGAAGCCAATCCATCGCTCACCGTCATGTGGAAAATCGCCAACGGTCTGCAGATTCCCCTTTCCACGCTGCTTGCCGAGGAACAGGAAATTGTCATTTCCAGAAAACATGAAGGAAATAAAGTCCTGAGTGCGGATGAGTCCTTGACACTTGAGCCGGTGTTTTCCACCCGCGGTTTTGATGCAATCGAGACCCACCGCGCCTTTTTAAAGCCGGGAACCGAATATATAACCGATGCCCACCAATCCGGAGTAGTCGAATACATCACGGTAATGGAAGGACGTGCCCGCATCCAGATACAGGACGACTTCTATGACCTGGAGACGTATGATGCGATTAAATTCCGCGCGGATCAGCTCCACGGCTATCACAACCCCTGTGAAGAACCGGCTGTTCTGCATTTTGTGATGATGTATACGTAA	MSDHQKHEAEKLARQAGVTLRRLRKGKQLSLQDLADLTSVSKLTLGKIERGEANPSLTVMWKIANGLQIPLSTLLAEEQEIVISRKHEGNKVLSADESLTLEPVFSTRGFDAIETHRAFLKPGTEYITDAHQSGVVEYITVMEGRARIQIQDDFYDLETYDAIKFRADQLHGYHNPCEEPAVLHFVMMYT				NA	NA	NA	NA	NA
AK012_00040	978			hypothetical protein	ATGAGAGAGATTCTGATTGGTGTGGCAGCCTCGATGTTTTTTGCTGTCACTTTCATTCTGAATCGGTCGATGGAACTTGCTGGTGGCAGCTGGATGTGGAGTGCGTCTCTGCGCTTTCTATTTATGGTGCCGTTCCTGCTTCTCATTGTACTTGTAAGAAAGAACGGGAAACAAGTGTTTCTGGAATTGAAAAAGCATCCATTGATCTGGATCGGATGGAGCTTTGTCGGATTCGTTTTGTTTTACGCCCCTTTAACCTATGCCGCTGCGTACGGACCCGGATGGCTGATCGCCGGGACGTGGCAGATCACGATTGCCGCCGGTATTCTCCTCACTCCGTTTTTTCACACGACGGTGTATGTCGGAAGCAGACCTGAAAAAAGAAGAGAACGGGTTCCGATCCGTTCACTGCTCATTTCTTTCCTTATTTTAACAGGTGTCTGTCTGATCCAACTGCCGCATTTGGAGAAAGTCACACTGTTGGAACTGACGGCCGGGGTTTTTCCTGTCCTTGTCGCTGCGTTCTGTTATCCTCTTGGAAACCGGAAAATGATGGCCTTCAGCAGTGACCGCCTGGACACCTTTCAGCGCATTCTCGGCATGACGCTTGCCAGCCTTCCTTTCTGGCTGATTTTGAGCACGACCGCCCTGGTTACAGCAGGACCGCCGGCGCAGGGGCAGGTGCTCCAGTCCTTTATTGTTGCTGTCTGCTCAGGTGTCATGGCCACCACCCTATTTTTTATAGCAACAGACCGGTCCAGGCATCAAAGCGGGAAGCTTGCTGCTATCGAAGCTACGCAGTCCACACAGGTTCTGTTCGTCCTTCTTGGGGAAGTGCTTTTGTTGTCTGCCCCGCTTCCAGGTTTGACGGCCTTTCTCGGAATTGGATTATTAGTCACAGGCATCATTCTCCACAGCCTGACCGTTAAAAAAGGGAAGGCCCCGGTACGCAGGGATGTGACGTTGAAAAAGGCTTGA	MREILIGVAASMFFAVTFILNRSMELAGGSWMWSASLRFLFMVPFLLLIVLVRKNGKQVFLELKKHPLIWIGWSFVGFVLFYAPLTYAAAYGPGWLIAGTWQITIAAGILLTPFFHTTVYVGSRPEKRRERVPIRSLLISFLILTGVCLIQLPHLEKVTLLELTAGVFPVLVAAFCYPLGNRKMMAFSSDRLDTFQRILGMTLASLPFWLILSTTALVTAGPPAQGQVLQSFIVAVCSGVMATTLFFIATDRSRHQSGKLAAIEATQSTQVLFVLLGEVLLLSAPLPGLTAFLGIGLLVTGIILHSLTVKKGKAPVRRDVTLKKA				NA	NA	NA	NA	NA
AK012_00041	987	degA_1	COG1609	HTH-type transcriptional regulator DegA	ATGGTAACGATTAAAGATGTAGCGAAACATGCGGGGGTGTCCGTGGCTACGGTATCACGCGTGTTGAATAATAACGGCTATGTAGGCACAGAAACACGCAAGAAAGTAATGACGGCTATTGAAGAGCTGAATTACAGTCCGAATGAAGTGGCACGCTCGCTGTATAAGCGGGGCTCCCGATTGATCGGCCTGCTTCTTCCGGATATTACAAACCCATTTTTTCCTCAGCTGGCCAGAGGGGTGGAGGACGAGGCAGGCCGCCACGGCTTCCGTGTGCTGCTCGGGAACAGTGATGAGGATATCGAAAAGGAAATGGACTACATTCAAACTTTTGTTCAGAATAATGTGGTCGGTATGATTACCGCTACCAATCATGTTGATTATGATATGTACCAGTCGCTCGACCTTCCACTGGTCCTGCTTGACCGGACGTCCAGCAGCTATCCCGCTGTCTATGCGGACGGCCGGGAAGGTGGGAGGCTCGCTGCAGAGACCCTCATTAAAAAAGGAGCGCAGCGGGTGACACTCGTCAAAGGCCCTGCCCATGTGAAACCGGCAGTGGACCGTTACCGGGGCGCTGTGGAAGTCCTCGGAGAAGCGGATGTGGATTTTTCTGTGATGTCAACGACCTCCTATGCTTTTGAAGAGGCATTGAACTGGGCCGAGGAGCTGTTTAAGAAATTTCCAGAGACGGACGGCATCATTGCCAGTAATGATATTGTCGGAATTGCCATCATCCATGAAGCGTTGAAACGGGGGAAAAACATCCCGGAGGAGCTGCAGATCATTGGATATGATGATATTCCACAAAGCCGGCTGTCCTATCCGCCGCTTACGACCATCCGCCAGCCGGCTTATGAAATGGGAAGGAGAGCGGCTGAACTGTTAATACAAAGAATCGGACAACCTCAACAGGAATACCGGTCCATTCAAATGCCGGTGGAACTGATCGAACGACATACAACACGAAAGGATGATCAAGAATGA	MVTIKDVAKHAGVSVATVSRVLNNNGYVGTETRKKVMTAIEELNYSPNEVARSLYKRGSRLIGLLLPDITNPFFPQLARGVEDEAGRHGFRVLLGNSDEDIEKEMDYIQTFVQNNVVGMITATNHVDYDMYQSLDLPLVLLDRTSSSYPAVYADGREGGRLAAETLIKKGAQRVTLVKGPAHVKPAVDRYRGAVEVLGEADVDFSVMSTTSYAFEEALNWAEELFKKFPETDGIIASNDIVGIAIIHEALKRGKNIPEELQIIGYDDIPQSRLSYPPLTTIRQPAYEMGRRAAELLIQRIGQPQQEYRSIQMPVELIERHTTRKDDQE	PGPT0017992_14731	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
AK012_00042	891	rbsK	COG0524	Ribokinase	ATGAAAAAGCCGACCATCGCTGTCATCGGCAGCTCTTCCATGGATCTTGTCGTCTCCTCTGACAAACGGCCGCAGGCAGGAGAAACGGTATTAGGAAAAACGTTTGATACTGTGCCCGGAGGCAAGGGAGCAAACCAGGCGGTCGCAGCCGCCCGTCTGGGGGCTGACGTCTATATGATCGGATGTGTAGGAGAAGATACTTACGGAGAAGAAATCACAGCCAATCTTAAGAATAACGGTGTTCACACCGATTATGTGGAACCGGTTACACATGAAAGGAGTGGAACGGCTCATATCATTTTGGCCGAAGGTGACAACAGCATCGTCGTCGTCAAGGGTGCCAATGATCACGTCACTCCACAGTACATTGAAAAAGCAGAGGAACTTCTGAAGAACAGCGATCTTGTCATGATTCAACAGGAAGTGCCGGAAGAAACGGTTGTGCATGCTGCAGAGCTGTGCTCCCGTTATGGTGTGCCTTTATTGTTAAATCCAGCTCCGGCAAGACCTGTACCAGAAGAAGTCCTGGCTCAAGTCAGCTACGTAACACCGAATGAACACGAAGCGGAGGTTTTGTTCGGGGGTCTGGCCTTATCAGAAGCGCTGAAAGTCCATCAAAATAAATTATTCATTACCGAAGGCGCCGCCGGCGTCCGCTGGCATAATGGCAGGGAAGAAGTTCTTGTACCATCGTTCCCGGTCCAGGCGGTCGATACGACGGGAGCCGGTGATACGTTTAACGCCGCCTTTGCTGTCGCAGTGGCTGAAGGAAAAGGAATGGTAGAAAGCCTGCGTTTTGCCAACCGGGCGGCCAGCTTGTCCGTTACCGGCTTCGGGGCTCAGGGTGGAATGCCGTCCCGTGAGGCTGTTGAGGAGGGATTGAAGCCATGA	MKKPTIAVIGSSSMDLVVSSDKRPQAGETVLGKTFDTVPGGKGANQAVAAARLGADVYMIGCVGEDTYGEEITANLKNNGVHTDYVEPVTHERSGTAHIILAEGDNSIVVVKGANDHVTPQYIEKAEELLKNSDLVMIQQEVPEETVVHAAELCSRYGVPLLLNPAPARPVPEEVLAQVSYVTPNEHEAEVLFGGLALSEALKVHQNKLFITEGAAGVRWHNGREEVLVPSFPVQAVDTTGAGDTFNAAFAVAVAEGKGMVESLRFANRAASLSVTGFGAQGGMPSREAVEEGLKP	PGPT0017405_4177	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
AK012_00043	393	rbsD	COG1869	D-ribose pyranase	ATGAAAAGACACGGCATCCTAAACAGCAGCATTAGTAAAGTGCTCGCAGATCTCGGTCACACCGACCGGATCGCCATCGGTGATGCGGGCCTTCCGATACCGGCAGGAACGGTGAAAATCGACCTTGCCTTAAAAGAGGGCGTGCCCGGGTTTATAGAAGTCGTACAGGTCTTGCAGGAAGAGATGTGTGTAGAAAAAGTGACCACAGCGGAAGAGATGAAATCCAATCCGGCTGTTCAGCAGGAAATGAAAGACATGTTCACAGCAGTCGAGATGGACGAACTTTCCCATGAAGCGTTCAAGCAGGAGCTGACAGATGTCAAAGCGGTTATCCGTACAGGTGAAATGACACCTTATGCCAACTGTATCCTGCATGCCGGGGTCATTTTCTAA	MKRHGILNSSISKVLADLGHTDRIAIGDAGLPIPAGTVKIDLALKEGVPGFIEVVQVLQEEMCVEKVTTAEEMKSNPAVQQEMKDMFTAVEMDELSHEAFKQELTDVKAVIRTGEMTPYANCILHAGVIF	PGPT0016595_1127	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
AK012_00044	1500	rbsA	COG1129	Ribose import ATP-binding protein RbsA	ATGCATATTACGATGAATCAGATTCATAAAGCGTTTGGATCCAACAAAGTGCTGGAAGGCGTGGATATCGAAATCAAGGAAGGGGAAGTCCACGCCCTCATGGGAGAGAACGGGGCAGGTAAATCAACGCTCATGAATATCTTGACCGGCCTTCACAAAAAGGATCAGGGGACGATCCAGATTGACGGTCAGGAAAAAACGTTTTCCAATCCAAAAGAAGCGGAAAACTACGGTATCGCGTTTATTCATCAGGAGATGAATGTCTGGCCGGAATTGACCGTACTGGAGAACCTGTTCATTAATCGGGAACCGGTTACATCCTTTGGGATTATCAACACGAGAAAAATGAAAGCGGTTGCGGAGGAACAGTTTGATAAGCTCTCCATTTCCATTCCCCTGCACAAGGATGCCGGACAGTGCTCGGTCGGGGAGCAGCAGATGATTGAAATTGCCAAGGCGCTCATGACCGATGCCAAGGTGATTATTATGGACGAACCGACAGCCGCTTTAACTGACAGAGAGATTGAAAAGCTGTTCGGCGTGATCCGTTCCTTAAAAGCCTCCGGGGTTTCCATTGTTTATATTTCCCACCGGATGGAGGAGATTTTTGACGTCTGTGACCGGATCACTGTCATGCGGGACGGCCGTACCATTGATACGACGCCGATTCCGGACACGACCTTTGATGAAGTGGTCCGCAAAATGGTGGGGCGTGAACTTACCGATCGTTTTCCTGAAAGGCAGGCTGATCCGGGAGAAACCGTACTTGAGGTGAAAAACCTGACACGTCCGGGCGTATTCCATAACGTCAGTTTTCAAGTGAAATCCGGTGAAATTGTTGGTGTTGCTGGCTTGATGGGGGCGGGAAGAACAGAGATCATGCGCACGATTTTCGGACTGGATGGAAAGTATGAGGGGGACATTCTTGTGAACGGTCAGACGGCTGTAATGAAGAATCCGGGTCAGGCGATCAAACTCGGACTCGGGTTGATTACGGAAGACCGGAAAGACGAAGGACTGGTGCTTGATTTTCCTATTAAAGATAACATCGCTCTGCCCAGCTTGAAAAGCTTCACGAAGCGATCTCTTATCCAGGATGGCAGGGAGCTGGAATTCGTGGAAATGTTGATCAAGCGTCTGACAATCAAAACCGAATCCGCTCAAACCGAGGCGAAGAACTTATCCGGCGGGAATCAGCAGAAAGTGGTTATTGCTAAATGGATCGGCATTGGACCGAAAGTGCTGATTCTTGATGAACCGACGCGCGGAGTGGACGTCGGGGCAAAAAGAGAGATTTATCAGTTGATGAACGAGCTGACCGATCGTGGAGTAGCTATCCTGATGGTCTCCTCTGAACTGCCGGAAGTGCTCGGCATGAGCGATCGAATGCTCGTCGTCCACGAAGGCACCATTGCCGGTGAACTGGACCGGTCGGAAGCGACACAGGAAAAGATTATGACATTTGCGACAGGAGGGAACGTCCATGATGAACGCCATTAA	MHITMNQIHKAFGSNKVLEGVDIEIKEGEVHALMGENGAGKSTLMNILTGLHKKDQGTIQIDGQEKTFSNPKEAENYGIAFIHQEMNVWPELTVLENLFINREPVTSFGIINTRKMKAVAEEQFDKLSISIPLHKDAGQCSVGEQQMIEIAKALMTDAKVIIMDEPTAALTDREIEKLFGVIRSLKASGVSIVYISHRMEEIFDVCDRITVMRDGRTIDTTPIPDTTFDEVVRKMVGRELTDRFPERQADPGETVLEVKNLTRPGVFHNVSFQVKSGEIVGVAGLMGAGRTEIMRTIFGLDGKYEGDILVNGQTAVMKNPGQAIKLGLGLITEDRKDEGLVLDFPIKDNIALPSLKSFTKRSLIQDGRELEFVEMLIKRLTIKTESAQTEAKNLSGGNQQKVVIAKWIGIGPKVLILDEPTRGVDVGAKREIYQLMNELTDRGVAILMVSSELPEVLGMSDRMLVVHEGTIAGELDRSEATQEKIMTFATGGNVHDERH	PGPT0016600_4334	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
AK012_00045	957	rbsC	COG1172	Ribose import permease protein RbsC	ATGATGAACGCCATTAAAAAAACGAACAGCATCGGCCAGTCACTGCAGAAGCTGGGGCCGCTGGTCGGACTGCTTGTACTTATTACCGTTGTATCGATTATAAACCCAAGCTTCCTGGAACCTTTGAACCTGTTAAACCTGCTGCGTCAAGTAGCGATTAACGCCCTGATTGCCTACGGAATGACCTTCGTCATTTTGACCGGCGGCATCGATTTGTCTGTCGGATCGATTCTTGCTTTATCGAGTGCCCTGATGGCCGGGATGATGGTATCCGGCATTGATCCGATTTTAGCGATTCTGATCGGCTGTCTGCTTGGTGCGCTTATGGGAGCTGTCAACGGGCTGTTGATTACCAAAGGGAAAATGGCTCCGTTTATTGCCACATTGGCAACGATGACGATGTTCCGGGGCCTGACCCTTGTGTATACGGACGGAAACCCGATTACAGGACTTGGCGACAGCTATGCATTTCAGCTGTTCGGCCGCGGCTATTTCCTGGGGATTCCGGTACCAGCGGTGACCATGCTGCTCGCTTTTGCTGTCCTATGGGTGATTCTTCATAAGACACCGTTCGGACGCCGGACGTATGCCATTGGTGGTAACGAAAAAGCGGCGTTTATTTCAGGGATCAACGTTTCCCGTGTGAAAATTCTTGTCTATTCACTAGCCGGTCTATTGTCTGCGCTTGCAGGGGCGATCCTTACGTCACGTTTGAATTCAGCGCAGCCGACTGCCGGTACCTCCTACGAGCTGGATGCGATTGCTGCTGTTGTTCTAGGCGGTACGAGCTTATCCGGAGGCCGTGGGTTGATCGTTGGAACATTGATTGGTGCCCTGATTATTGGAACGTTGAATAACGGATTGAACCTGCTCGGGGTCTCCTCCTTTTTCCAAATGGTCGTTAAAGGTGTCGTCATTATCATTGCTGTCCTCATGGACCGTAAGAAATCAGCTTAG	MMNAIKKTNSIGQSLQKLGPLVGLLVLITVVSIINPSFLEPLNLLNLLRQVAINALIAYGMTFVILTGGIDLSVGSILALSSALMAGMMVSGIDPILAILIGCLLGALMGAVNGLLITKGKMAPFIATLATMTMFRGLTLVYTDGNPITGLGDSYAFQLFGRGYFLGIPVPAVTMLLAFAVLWVILHKTPFGRRTYAIGGNEKAAFISGINVSRVKILVYSLAGLLSALAGAILTSRLNSAQPTAGTSYELDAIAAVVLGGTSLSGGRGLIVGTLIGALIIGTLNNGLNLLGVSSFFQMVVKGVVIIIAVLMDRKKSA	PGPT0016590_5548	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
AK012_00046	930	rbsB	COG1879	Ribose import binding protein RbsB	ATGAACAAACGATTACTATTGTTGATCGGAGCAGTCCTGCTGTTTCTAAGCGCCTGTTCCCTGCAGCCGCCGGAATGGGCCAAGCCGGCCAACAATCAAAATCCGGAAGATATTAAAATAGGATTGTCCGTGTCCACTCTGAATAACCCGTTTTTCGTTTCCATGAAGGACGGGGTGGAGAAGGAAGCGGAAGCACAAGGGATGGACGTTGTCGTTGTAGATGCGCAGAATGATGCAGCTAAACAGGTCAGCGACGTAGAGGACCTGATCCAGCAGGGGGTCGATGTCCTGCTGATCAACCCGACAGACTCTTCGGCAGTTTCAACGGCTGTCCAGTCTGCCAACAGCCTCGGCATTCCCGTCGTCACTCTGGACCGTTCCTCTGAAAAAGGGGACGTGGCCACTCTCGTAAGCTCTGATAACGCAAAAGGTGGAAAGATGGCCGCGGAATATATAGTGGAACAGCTTGGAGAAGGTGCCAAAGTAGCAGAGCTTGAAGGTGTTCCCGGTGCATCGGCGACGAGGGAGCGTGGAAGCGGCTTCCATACGGTGGCGGACGAGCAGTTGGACGTAACGGCTAAGCAGACCGCCAATTTCGACCGTACAGAAGGGTTGAATACGATGGAGAACATTCTTCAGGGAAACCCGGATTTGGAAGCGGTCTTCGCCCACAATGATGAAATGGCGCTTGGTGCCTACCAGGCCATTCAAAGCTCCGGCCGTGATGTCCTTGTAGTCGGATTCGACGGAAATGAAGATGCAATGACAAGTATCCGGAACGGCAGCCTTTCCGCAACCGTCGCTCAACAGCCGGAACAGATCGGCTCGCTGGCTGTCCAGGCCGGAGCAGATGTGCTGCAGGGAGAGGAAGTCGAGGAAACGATTCCGGTCCCTTTGAAACTGGTAACCAAAGAAAACATTGACGAATAA	MNKRLLLLIGAVLLFLSACSLQPPEWAKPANNQNPEDIKIGLSVSTLNNPFFVSMKDGVEKEAEAQGMDVVVVDAQNDAAKQVSDVEDLIQQGVDVLLINPTDSSAVSTAVQSANSLGIPVVTLDRSSEKGDVATLVSSDNAKGGKMAAEYIVEQLGEGAKVAELEGVPGASATRERGSGFHTVADEQLDVTAKQTANFDRTEGLNTMENILQGNPDLEAVFAHNDEMALGAYQAIQSSGRDVLVVGFDGNEDAMTSIRNGSLSATVAQQPEQIGSLAVQAGADVLQGEEVEETIPVPLKLVTKENIDE	PGPT0015740_5165	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
AK012_00047	999			hypothetical protein	TTGCGCAACATCCTGCTTAAATTTATACGTCTTGATAAAACGACGCTGCTGATCGGCTCTTTCCTGATTATTTTCGGAAGTACGTTCACGATCATGTGGATTGAGCCGGAAACCTTTACGAGTTTCCATGACAGCCTGTGGTGGGTGATGACGACGATATCCACGGTCGGTTATGGGGACATTTCCCCTCAAACAACCGCCGGCCGGAACTTTGCGATGCTGCTTTACCTTGTTGGTATCGGTGTCCTTGGTGTGGTCATCAGCCTGATTGCCAATGCGATGGGGATTTTCAAGAAGCGGAAGGAGGAAGGGAAATTGAGCTATCACGGAAAAGGCCATATCGTCATCGTCGGGTGGTCGAAAAAAGCAGCCCTGGCCATCGATGAGATATTATTGGCCGATAAGGATACAGAAATTGTTTTGATTGATGAGGTGGAGAAAGAACCACTGAATATGAAGCGCGTCCACTACATACACGGGAGCCCGATGAAAAAGGATGTCCTTGACAAAGCGAACCTCGCGGACAGCAAAAGCGCAATCGTATTTGCGACAGACTGCTCAGATAATACGCGGCTGGTCGATGGCAACTCCCTGCTTATTGCTGCTGCTCTCGAAAAGAATGCCCCCCATATCCATACGACTGTCGAAGTGCTGGACCGCGATCACGTCCCTATGTTCAAGCACAGCAAAGTGGATGAGGTCATTTTATCCGATGAATTCGTTTCCCGCATGCTCGTGCGCTCCTCATTCCAAAAAGGGGTGTCCGGTTTATTCAATCAGCTGATCAGCCGGGAGTCCGGCTATGATCTTCGCCAGATTGAAAGAAAAGAAGAGTGGGAGACCTACCGTGATGTGGTCGAGGAAGTCACGTCACAGGGGGGAAATGTCATCGCAGTCGGAGAGAACATGGACATCTATAAGCATTTGGATGAGCCGCTTCCTGATGGCGCGCACATCCGTGTCGTCTGCGATGAACAGACGTATGATACGCTCTGCTGA	MRNILLKFIRLDKTTLLIGSFLIIFGSTFTIMWIEPETFTSFHDSLWWVMTTISTVGYGDISPQTTAGRNFAMLLYLVGIGVLGVVISLIANAMGIFKKRKEEGKLSYHGKGHIVIVGWSKKAALAIDEILLADKDTEIVLIDEVEKEPLNMKRVHYIHGSPMKKDVLDKANLADSKSAIVFATDCSDNTRLVDGNSLLIAAALEKNAPHIHTTVEVLDRDHVPMFKHSKVDEVILSDEFVSRMLVRSSFQKGVSGLFNQLISRESGYDLRQIERKEEWETYRDVVEEVTSQGGNVIAVGENMDIYKHLDEPLPDGAHIRVVCDEQTYDTLC	PGPT0002715_747	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK012_00048	330			hypothetical protein	ATGTTACCACCTGTACTGAACCATTCCGGCCTGACGTTCATGGTCGCTCTCCATCTGGTGACAGCAGTCCTTCTATTCGCTGTGTCGTATACATATGAAAAGTCCATCATTACCGATCGGAAAAATAAATGGCTGTTTTTCGTCATCAGTCTGATCTACAGCTGGATGGGGATAATGATTGTTGTAGACAGCCTGTTTGATCTACATAGAGACCATACGCTTTCTGTTTTCATGTACCGCACGAGTCTGGTGGTGTTATGGATCGGTTTTATCCTGGCGCAGCTTCTCGTGTATAAATGTTTGAACCAGATGGAAATCACAGAGGAATAG	MLPPVLNHSGLTFMVALHLVTAVLLFAVSYTYEKSIITDRKNKWLFFVISLIYSWMGIMIVVDSLFDLHRDHTLSVFMYRTSLVVLWIGFILAQLLVYKCLNQMEITEE				NA	NA	NA	NA	NA
AK012_00049	1500	nhaP2_1	COG3263	K(+)/H(+) antiporter NhaP2	ATGTTTATTGAAGCTTTTGGAACGGATGCATTTGTACTTATTACCGCGTTTTTACTTTTCAGCGGCATCGTGGCCGCCAAGTTTTCCAGCCGCTGGGGTCTCCCGGCGCTGATTCTGTTTATGATTGTCGGGATGATTATCGGGAGTGACGGTCTTGGGATCATTTACTTTGACGATGCCGGAGTGGCCCAGTTGTTCGGGGTGTTCGCCCTCGTTCTGATTTTGTTTGAAGGCGGACTTCACACGAAATGGGCGACCGTCCGCTCGGTAGCCGTCCCTTCCCTGTCCCTCGCTACGATCGGCGTTGTCCTTACATCGACGTTGATCGGGGCGGCCGCTTTTCTTCTGCTTGACTTAAGCCTGATGGAAGGACTGCTGCTCGGGGCGATTGTCGGTTCGACCGATGCGGCCGCTGTTTTTTCCGTATTGAAAGAACGGAACATCAAAGCGAAAATGGGAGCGACCCTGGAAGCAGAATCCGGCACCAACGATCCTATGGCCGTCTTTTTGACGCTTTCTTTCATTGAATTGATTTCCAATGAAGGCAGCTCCATCTGGATGCTGATCCCCACCTTTTTCCTTCAGATGGGGCTTGGACTCGTGTTAGGTGTCCTGTTCGGCTGGACAGCCTCCTTCTCCATCAACCGGATCCGACTCGGATCGAGCGCCCTTTATCCGATCTTATCGATTGCGTTTGCGCTTTTAACCTACGGGATCACTGCTTTCGTCGGCGGAAGCGGCTTCCTGGCTGTTTACATCGCCGCCCTTGTCATCGGAAACCGGGAATTGACGTACCGGTATTCCATCTTCCAATTTAATGAGGGCTTCGCATGGATGGCACAGATTCTCATGTTCATCATTCTCGGTCTTCTCGTCTTTCCCGACCAGCTTTTTTCATCCGAAGTGATGTATGACGGCATCATCCTGTCCCTGCTGCTCATCTTCATTGCGCGTCCTGCCGCTGTGTTTCTTTCTCTGATCCGGCTGAACTACACGTTCAAGGAAAAGCTGTTCATCTCCTGGGCGGGGCTGCGGGGCGCTGTACCGATCGTCCTTGCCACATTTCCGGTTGTGGATGGATTAAACAACAGCCAGACCTTGTTCAACATCGTCTTCTTTATCGTGTTGACGTCGGCGTTGATACAGGGGTCGACGATCTCCTGGATGGCGGACCGCTTAAACCTTGTCGGACCGAAAAAAGATACGCCGCACCATTCGATTGAGCTGATATCGATGGGGAAAGTGGCTGTGGAAATGATCCAGTATCAGACAAGTCAGGAATCAGCGGTGGTGGGAAGCAGGCTCCGGGATCTCTCTTTCCCCAACCACGCGAACATCAATGCGATCATTCGTGACAATCAAGTCATTACCCCTTACGGTGAAACGGAAATCAAAGCCGGTGATTTCCTTTATATCCTGGTGGAATCCAAATATAAGGATCAGGTAACGAAGGAGCTGGAAAGAAAAATCACTCCGAAGAAAACAGGTTCGGAAGCATAA	MFIEAFGTDAFVLITAFLLFSGIVAAKFSSRWGLPALILFMIVGMIIGSDGLGIIYFDDAGVAQLFGVFALVLILFEGGLHTKWATVRSVAVPSLSLATIGVVLTSTLIGAAAFLLLDLSLMEGLLLGAIVGSTDAAAVFSVLKERNIKAKMGATLEAESGTNDPMAVFLTLSFIELISNEGSSIWMLIPTFFLQMGLGLVLGVLFGWTASFSINRIRLGSSALYPILSIAFALLTYGITAFVGGSGFLAVYIAALVIGNRELTYRYSIFQFNEGFAWMAQILMFIILGLLVFPDQLFSSEVMYDGIILSLLLIFIARPAAVFLSLIRLNYTFKEKLFISWAGLRGAVPIVLATFPVVDGLNNSQTLFNIVFFIVLTSALIQGSTISWMADRLNLVGPKKDTPHHSIELISMGKVAVEMIQYQTSQESAVVGSRLRDLSFPNHANINAIIRDNQVITPYGETEIKAGDFLYILVESKYKDQVTKELERKITPKKTGSEA	PGPT0013860_1062	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013860-cvrA|nhaP2-K11105	NA	NA
AK012_00050	330			hypothetical protein	ATGCGCCTGCTCCCCGTCTTTTTTGTTGGAAGCATGCTGTTGTTTTCAGCGCTTTTACATCCGCACGAAAAATTCCAGGAACTTGCCTACAGCTGGTCGGACGATTTGAATATTGCATCATCTGTTCAGCTGTCGCCCAGCGACGGTGTGTTTTTCCAGCCTCTCTCCTTTCCTCCGGATCAGGATGAGACGGGCCCTTCGGCCTTCATCCATGATCCTCCTGGCTCTCCTGTCCAGTCTTATGGACTTCTTAGGCATCAGGTGGTTGGGGTTCGCGGGGAAAGTAAAGGGTTTCTCACAGTCAGGCATGCGAATTCAACCTATACATAA	MRLLPVFFVGSMLLFSALLHPHEKFQELAYSWSDDLNIASSVQLSPSDGVFFQPLSFPPDQDETGPSAFIHDPPGSPVQSYGLLRHQVVGVRGESKGFLTVRHANSTYT				NA	NA	NA	NA	NA
AK012_00051	189			hypothetical protein	ATGCTGAGGTGGCTGATTTATTTGTTCGTAATCATCATGAATGGCTCGTTCCTGCTGGCGGTTTTTGACGTTTGGACGGACCGAACCGCCTTTTGGGTAATGGTGACAGGGGCGGGGGCCATCATAGGCACATTGGAAGTCCTGCACCGGCGGGGAAAACTGACAGATGTCAAAAAGGGAGCGTCTTAA	MLRWLIYLFVIIMNGSFLLAVFDVWTDRTAFWVMVTGAGAIIGTLEVLHRRGKLTDVKKGAS				NA	NA	NA	NA	NA
AK012_00052	225			hypothetical protein	ATGCGTCACTTACTGCCGGTGATTTTAGTTATGGCAGCTATAGGTCTTTTGATTAAGGTTATGAATATATTTCCAGCCGGTTACACCGTGTTTATTGGAGTGGTTTCAATCTTTCTAATGTATGACGCCGTTAAAGCGTGGAAGGATCGCTCATTCATAACAGCAGTGAGTAAGATGCTGATGTCTGTACTGCTGTTTATGATGATGGTCACGCGTGTTTCCTAA	MRHLLPVILVMAAIGLLIKVMNIFPAGYTVFIGVVSIFLMYDAVKAWKDRSFITAVSKMLMSVLLFMMMVTRVS				NA	NA	NA	NA	NA
AK012_00053	906			hypothetical protein	ATGAAAAAGAAAGGGGCTCTCTTGGTTTTCATCGGAGCAGCGAGCTTCGGTTTCACCCCCATCTTTGTAAAAAGTGGATTTGCTGCCGGGTACACGCTCGGTCATTTAAACATCGCACAGATGACGGCCGCCTTGGTTCTGCTGTGGCTGTTGTCTTCCCCCCATTGGAAAGATATCCGTCACATGATGCCCTCAGACCGCTTCAAAGTGATGGCCTCGGGTTCCACTGTAGGTCTGACTAGTATTTTTTACTACGGTGCAATGCAGTACATCCCCGCATCCATGGCGATTGTCCTGCTTTTTCAGTTTGTATGGATCGGAATGCTGATCGAATGGATATTCTTAAAAAAGTCACCGGAGAAAATCCATTTCGTTTCCCTTGCCATTACTTTGACAGGGGTTATCCTGGCATCCGAGGTGCTCTCAGGAGGGATGGTGGAACTCCCTGCTGCCTGCGTGATCCTCGGTCTTTTATCAGGACTCTCCTATGCCGCATTCATTTACACGAGCGGACAGGCTGCGCCGGATACGAACCCGGTGCTCCGCAGTTCGTGGATGATTACAGGATCATTTCTCCTTGTTCTGCTCGTCTTTTCCAAGGACATTCCTACGTTCCCCGTTTTCGACGGAGAGCTGTGGCTGATCAGTATCGGCATTGCGATGGTCGGCGCCGTTATTCCACCGCTGTTTTTTGCTGGAGGGGCCCCGCACATTTCTGCAAGGCTGGCCAACATCCTCAGCTCTGTAGAACTGCCGGTCGCCATTGTATCGGCTATGGTAGTGCTGAAGGAGCAGGTGACCCTCCTGCAGTGGGCCGGCATCGGCTTCATTCTCTTTTCCATTGTTGTCAATGAAACCGGAGACCGGTGGTTCCGGCGCTCCCCAAAAAAGAAAGCCGCTTCCTAA	MKKKGALLVFIGAASFGFTPIFVKSGFAAGYTLGHLNIAQMTAALVLLWLLSSPHWKDIRHMMPSDRFKVMASGSTVGLTSIFYYGAMQYIPASMAIVLLFQFVWIGMLIEWIFLKKSPEKIHFVSLAITLTGVILASEVLSGGMVELPAACVILGLLSGLSYAAFIYTSGQAAPDTNPVLRSSWMITGSFLLVLLVFSKDIPTFPVFDGELWLISIGIAMVGAVIPPLFFAGGAPHISARLANILSSVELPVAIVSAMVVLKEQVTLLQWAGIGFILFSIVVNETGDRWFRRSPKKKAAS				NA	NA	NA	NA	NA
AK012_00054	759			hypothetical protein	ATGTATCCAAACGAAAATCCGGAGCAGCTGGCGTGGCAGGCGATGAAATATGATATGCTTTCGAATTACTACAAGTATATCGACCCGAATAAGCATATCCACTATTACCATAAGCACCTGCAGTGCATGCAGCAGTGGATCATGTGTGAGCGCGGTGAAGGCATGGGGATGGGTGGAGGCGGCACGGCAAAAGTGAGGGTTCTTCACGCGTCGCCGGATGCACCGAATGTAGATGTTTATGTGAATGGACAGAAAATCCTGGAGAATGTCCCATATAAACAGCAGAGTGAGTATTTAGAAGTACCGCAAGGCCAGTACCGTATTGATATTTATGCGGCCGGTGACACTTCACGGCCTGTTCTGACCCAGAATGTAGCTGTTGAAGCGGATCAATCCTATACGGTGGCCGCCGCTGGAAAAGTGAATCAGCTTAAGCTTATTCCCGTCGTCGATAATGACCATACAGCAAATGGAAATGCGAAAGTCCGCTTCTGGCACCTGTCTCCAAACGCACCAGCTGTGGATGTAGCCGTTAAAGGTGGTGATGTGCTGTTCAGAAATGTGCCGTTCGGCAGAGCCACCCGTTATATCACGGTTCCACCGACGACCGCTGATTTAGAGGTGAGGGTGGCAGGGACCGATCAGGTCGTTCTGGAGGTTCCTGGAGTAACCTTGAGTCCGAACGAAGCCTATACCGCTGTTGCGGTCGGATTAGCAGGCGGCCAGCCGCCGCTGGAAGCCATTTTTCTACAGCCATAA	MYPNENPEQLAWQAMKYDMLSNYYKYIDPNKHIHYYHKHLQCMQQWIMCERGEGMGMGGGGTAKVRVLHASPDAPNVDVYVNGQKILENVPYKQQSEYLEVPQGQYRIDIYAAGDTSRPVLTQNVAVEADQSYTVAAAGKVNQLKLIPVVDNDHTANGNAKVRFWHLSPNAPAVDVAVKGGDVLFRNVPFGRATRYITVPPTTADLEVRVAGTDQVVLEVPGVTLSPNEAYTAVAVGLAGGQPPLEAIFLQP				NA	NA	NA	NA	NA
AK012_00055	573			hypothetical protein	GTGCAGGATCAGATGACATTTTCCCACTTTTCTTCTTATGTATTTATTAACTATTTCAATACGATAAACAGCCGCCGGGATCAGGCGAATGATTATTTGACGATGGAACAGGGCGTGGATGAATGGCTTGATCTCATGGGTAAGCATAGGCTGCTTACGGATCAGCAGGTGGAGGCTGTTAAGCAGGGCCCCTTCCATATTGAGAAGCTCCGCAGCTTCCGGGATCAAAGCCGTTCATACTTTTATAATCGAGAAGATGAAGAAGCATTTACCCATATGCTGAGTGAATGGACGAAAGGATCCCTGCAGTTCATATTCGACCAGGGCGCCTTGGTCCCTGTCCCTTTGAAGGGCGGTTCAGATGGGTTGCTGGCGATCCTCGCCTACCAAATGCTCCATCATAAGGAAGCCGGCATCTGGGAGAAAGTTTCCGCCTGTCAGAATGATGACTGCCTGGCCTTATTCGTGAATCAAAAAGGGCGTCGCAAATGGTGTTCCATGGACGTGTGCGGCAACCGGATGAAAGCAAGGAAGCATTACAGTAAAAAGAAAGCCGGTCAGCCGGCCGAATAA	MQDQMTFSHFSSYVFINYFNTINSRRDQANDYLTMEQGVDEWLDLMGKHRLLTDQQVEAVKQGPFHIEKLRSFRDQSRSYFYNREDEEAFTHMLSEWTKGSLQFIFDQGALVPVPLKGGSDGLLAILAYQMLHHKEAGIWEKVSACQNDDCLALFVNQKGRRKWCSMDVCGNRMKARKHYSKKKAGQPAE				NA	NA	NA	NA	NA
AK012_00056	315	trxA_1	COG0526	Thioredoxin	ATGGCAGTTACAAACGTAACCGATGCAGACTTTGCTAATGAAACCAATGAAGGACTCGTCCTTGCGGATCTGGGTGCCCCATGGTGCGGCCCATGTAAAATGATCGCTCCTGTTCTTGAGGAGCTGGATGCAGAGATGAGCGGGAAGGCGAAAATCGTTAAACTGGATGTTGACCAGAATCCTGAAACGGCGCAGGAATATGGCGTGATGAGTATCCCGACACTGCTATTCTTTAAAGACGGTGAGCTGGTCGATAAGAAAGTCGGCTTCAAATCAAGAGAAGAACTTGCTGAAACATTGAATCAGTATCAATAA	MAVTNVTDADFANETNEGLVLADLGAPWCGPCKMIAPVLEELDAEMSGKAKIVKLDVDQNPETAQEYGVMSIPTLLFFKDGELVDKKVGFKSREELAETLNQYQ	PGPT0013055_10271	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK012_00057	1674			hypothetical protein	ATGTCATATAGAAACGTATATGAAGTAGAAATAAAACATGATGGTCTTAATAAATATAGAGTCATTCGTGGTGCGGAAAGACATGTTGTAGAACGAAAAGCACATGCGCAACTTAATCAATGGGAAGAAATGTGGGGGAAAAAAGTCGAGGCTGAAGAAAAAAGACAATCTAGAGAACGGAAAGCGCAGGAGAAGGAAGATAAGAAAATATATGCAATGCAGCGTACTGAAGAGGCTTTAGAAGAGCTTAAGAATATAGAAAATACTTTAATACATACATTGGATGTAGATGATTCCATTGAGTGGGAGAACTTAAAAGATACTAGAATTTTTAACAAATCTCACCCATTACCCCCAAGTGATAAGGTATGTCCTCCTGAACCAAAAAGGGAAGAAGAAGAATTTCAACCTAAGCTTAATATACTTGATAAACTAATTACTTCAATGAGAGAAAAGAAAGAAAAGGAAATGGTTTCAAGATATGAAGAGGAGCATAGAAAATGGAGAGTAGAAAAGGAAAGAATAAGTAATCAAAATAAGATGAAAGTAGAACAATATAAGAAAGAAATGAAAAAGTGGGAGGAAGAGCGTAATGAATTTGAATCCCATCAAAAAGAAACTAACGAAGCTATTGAAGAACAAAAAAAGAATTACTTACTTAAAAATCCTGCAGCTATAATTGATTATTGCGATATGGTTTTATCAAATTCAGAGTATCCAGACGAATTCCCTCAAGAATTTGACATCGATTACAATCCTGACACAAAAATAATGATAGTAGACTATTCATTCCCTTCTCCTGAAAGTGTTCCATCTTTAAAAGAGATAAAATATGTTCAAACTCGCGATGAGTTTAAAGAAGTCCATTTATCAGCTGCTGCAATGAAGAAATTTTATGATACCTTGCTCTATAATATCACCTTACGTTCACTACACGAACTATTTGAAGCAGATAAAGTTGATGCATTAGAAGCTGTTGTATTTAATGGTTGGGTAAATTCTATAGACAAAGCAACAGGGAAAAAAGTAAATGCTTGTATATTATCAGTACAAGCTGAAAAAGAAGAGTTCGAAGAAATAAATCTTGAAAAAGTGGATCCTAAGCTTTGTTTCAAAAACTTAAAGGGAATTGGAAGTAGTAAACTTCACAGCTTATCTCCTATTGCACCTATTATTAAAATAGATCGAGATGATCCAAGATTTGTTTCTTCATATGCTGTGGCAGATGCTATAGATGAAAATATGAATATAGCTGCTATGGATTGGCAGGATTTTGAAAACTTGATTCGCGAGATTTTTGAAAAAGAATTTAACCAAGGTGGAGGGGAAGTGAAAATCACCAGAGCTAGTAGAGATGGTGGTGTAGACGCGGTTGCTTTTGATCCTGATCCATTAAGAGGTGGAAAAATGGTTATTCAAGCGAAGCGCTATACTAATGTTGTTGGTGTATCTGCAGTACGTGACCTATATGGAACGGTTATGAATGAAGGTGCAACAAAAGGGATATTAGTGTCTACGGCGGATTACGGACCGGATGCTTATTCGTTTGCAAAGGACAAACCTTTAACTTTGTTAAACGGGAACAATTTACTTCATCTCCTTCAAAGGCATGGACACAAAGCAAAAATTGACTTGAAAGAAGCCAAAAAAGAACTCAAAGAAAAAGAAATTTAG	MSYRNVYEVEIKHDGLNKYRVIRGAERHVVERKAHAQLNQWEEMWGKKVEAEEKRQSRERKAQEKEDKKIYAMQRTEEALEELKNIENTLIHTLDVDDSIEWENLKDTRIFNKSHPLPPSDKVCPPEPKREEEEFQPKLNILDKLITSMREKKEKEMVSRYEEEHRKWRVEKERISNQNKMKVEQYKKEMKKWEEERNEFESHQKETNEAIEEQKKNYLLKNPAAIIDYCDMVLSNSEYPDEFPQEFDIDYNPDTKIMIVDYSFPSPESVPSLKEIKYVQTRDEFKEVHLSAAAMKKFYDTLLYNITLRSLHELFEADKVDALEAVVFNGWVNSIDKATGKKVNACILSVQAEKEEFEEINLEKVDPKLCFKNLKGIGSSKLHSLSPIAPIIKIDRDDPRFVSSYAVADAIDENMNIAAMDWQDFENLIREIFEKEFNQGGGEVKITRASRDGGVDAVAFDPDPLRGGKMVIQAKRYTNVVGVSAVRDLYGTVMNEGATKGILVSTADYGPDAYSFAKDKPLTLLNGNNLLHLLQRHGHKAKIDLKEAKKELKEKEI	PGPT0027250_125	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
AK012_00058	600			hypothetical protein	ATGAAAAACGTATTTTCAAAAAAAGCACTGACAGGGGCTCTTGCATTGGCGATTGCGATCCCGGGCATCTCTTATGCGGCGACAGATGCAGAAACAGAAACGGAAGCGGAAGTCACCCAGGAGTCTGTGGAAAGCAGTGAAACGGAAATCCGCAGCCTGCTGCAGCAGTATAAGAACGGAGAACTGAGCGAAGATGAAGTTCTTGAGAAACTGCAGGAGCAGAAACGCTTTTTCTTCCAAAAAGGCGGCCACCATTTTGAGGACTTAGATGAAGAAACCAAAGAGAAGCTTGAGGAAATCAAGTCCAAGGTGGAAGCAGGCGAATGGACGAAGGAAGAAGCAAAAGCAGAGCTGGAGGAGCTCGGGATTGAGCAGCCCCGCCATCACGGAGGAAAAGGTCATCCCATGGGTGCAGACCTGACAGAGGAACAGCGTACCCAGCTGGATGAGATCCGTGAGCAGGTCGAAAGCGGTGAACTGACAGAGGAGGAAGCGCAGGCCCAGATCGAGGAACTTGGCATTGATCTAAAGCCTCGCGGACAGGCACCGGATAAAGAGGAAAGTACAGAAGAAGCAGCATCTACGGCTTCCGCTGTATAA	MKNVFSKKALTGALALAIAIPGISYAATDAETETEAEVTQESVESSETEIRSLLQQYKNGELSEDEVLEKLQEQKRFFFQKGGHHFEDLDEETKEKLEEIKSKVEAGEWTKEEAKAELEELGIEQPRHHGGKGHPMGADLTEEQRTQLDEIREQVESGELTEEEAQAQIEELGIDLKPRGQAPDKEESTEEAASTASAV				NA	NA	NA	NA	NA
AK012_00059	681	walR_1	COG0745	Transcriptional regulatory protein WalR	ATGAACAAAGTATTAATTGTAGAAGATGAACCGACCATTTCCCGTGTTCTCCAGGCCTACTTATCCAAAAATGATATGCTGACCGAGCAGGCGTGGACGGGAAATGAAGCAGTTGAAAAATTCACCGAGCATCGTCCAGACCTTGTGCTGCTTGATGTGATGCTTCCTGATAAGGATGGCTGGGCGGTGTTGAAGGAAATCCGTGAAAAAAGTGCCTGTCCGGTGATCATGTTGACAGCTCTTGGGGAAATCGATGATAAGCTGAAAGGATTTGAAACGGGCGCCGATGATTACATAGCCAAACCTTTCATCGGTGAAGAAGTAGTAGCAAGAGTGAAAGCTGTCCTGCGCCGGCCGGCGGCAAGAGTGGAGGACCAGCTTCTCCGCATAGGATCACTGGTCGTCGACCCGGCTGCCCATACCGTTCATAAACATGGGCAGGAAATCGAATTGTCTCCAAAGGATGGCAAGCTGTTCATTTTTCTCACCCGTCATCCAAATCAGACCTTCACCCGGGAACAGCTGCTTGATCACGTATGGGGCATCGATTATGACGGAAGTGACCGGGCGGTGGATTTGTCGATTAAGCGGATCCGTAAGGCGCTTGGAGATTCAAAGGAAGAACCGTATGACATCAAAACACTGCGGGGATTGGGGTATCAGTGGAGTGTACAAACCTGA	MNKVLIVEDEPTISRVLQAYLSKNDMLTEQAWTGNEAVEKFTEHRPDLVLLDVMLPDKDGWAVLKEIREKSACPVIMLTALGEIDDKLKGFETGADDYIAKPFIGEEVVARVKAVLRRPAARVEDQLLRIGSLVVDPAAHTVHKHGQEIELSPKDGKLFIFLTRHPNQTFTREQLLDHVWGIDYDGSDRAVDLSIKRIRKALGDSKEEPYDIKTLRGLGYQWSVQT	PGPT0013765_806	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK012_00060	1449	sasA_1		Adaptive-response sensory-kinase SasA	ATGACATCAAAACACTGCGGGGATTGGGGTATCAGTGGAGTGTACAAACCTGAGAAGCGTAAAACGATTTTTCATTACTGGTCCAGAAGGTACTTGGCTACGCTTCTCATCGGCTTGATTCTCATAGCCGCAGGGTCCGTCTGGTGGATCAAGAAGACGACGGTCGACCACAGGCTGAATCTGATGCACATTGTCGGACAGGAAATAGCCGATAGAATTGTGACGACAAACGGCCGGATTCTTTCAGGGCCGTTGTTTGAGGAGATTTTAAGAAACCGCGCAGGAGAATTGGATGTAAGTGAAACTCCGGCCGCGCTGATTGTCACCGACCAAGGGGAGATTCTCGTTACGAACCAGCGCGGAGGACAGATCAGGAACGCCGGCGATTATGTTGATGAATCGTTGTATCAGAAAACCGAGTCCGTCGTATCCCTTGACCGGAATCAACGGGCTTACGTGATCAGCGAGCCGATTGTAAGTGGAGAGGAAACACTCGGGTATGTCGTTTTAGTCAATGATAAGGAGACACTCAGTCGTCTGAACCAGGAATATGGATTACTGGCCCTGCTGCTCGGGGGTGTCGGTCTGCTCGGCTGGGGAGTTATCTATTATTTGACGAGGCAGCTGTCGAAGCCGCTGAAAGAAACGGCACGTGCAGCCAGGATGGTCAGTGAAGGCAGCTATGACATCCAGATGTCTTCGCCTCCGAAGGAAAAAGAGCTGGCCGAATTGATGGATTCCTTTACCGATATGGCTGCCAAGCTCAAGCAGCTGGAAGAGATGCGTACGGAACTGCTGGCCGGGGTGACGCATGATTTGAAAACCCCCGTCACGTCGATGAGTGGTCTGATCCAGGCGGTGAAGGACGATATTGTCGAAGGCAGTGAAGCGAAAGAGTACCTGGACCTGTCTTTAAAAGAAATGGAACGCCTGCAAGTCATGATCCAGGATTTATTGAGCTTTAATACGTACGCCGCGGGTGCACTGCCGATGTACAAAAAGCATCAGATGCTTCGTCCGATTTTGACCCATTTTCAAAAACAGTGGCAGTCGGATCCGGATCATATTCAACTGGACGTCCATTTTCCGGAGGAGGAGGTGGCCCTGCCTGTCGATGATCACCGGCTGAAGCAGATTTTGTTCAACCTTGTTCAAAATGCCGGTCAGGCTGTACAGGAAGGAAAGGTCATGATCGATGTCACACAGGACGCATCCCATCTGATCATGAACATATCCGATAACGGCCCGGGCATTCCGGAAGAGGAGCAGCCGCTTATTTTTGAACGTTTTTACCGCGGTAAAAATAAGAAGCTGAAGCAGCGGGGGCTGGGACTTGGTCTTCCTCTCAGCCGCATGCTGGCGGAAGCTCATGGAGGAAAGCTTGAGCTTACCCGGTCATCGGAGAATGGAACAATCTTCACGCTGAAACTTCCTCTGCACGAGGTGTGA	MTSKHCGDWGISGVYKPEKRKTIFHYWSRRYLATLLIGLILIAAGSVWWIKKTTVDHRLNLMHIVGQEIADRIVTTNGRILSGPLFEEILRNRAGELDVSETPAALIVTDQGEILVTNQRGGQIRNAGDYVDESLYQKTESVVSLDRNQRAYVISEPIVSGEETLGYVVLVNDKETLSRLNQEYGLLALLLGGVGLLGWGVIYYLTRQLSKPLKETARAARMVSEGSYDIQMSSPPKEKELAELMDSFTDMAAKLKQLEEMRTELLAGVTHDLKTPVTSMSGLIQAVKDDIVEGSEAKEYLDLSLKEMERLQVMIQDLLSFNTYAAGALPMYKKHQMLRPILTHFQKQWQSDPDHIQLDVHFPEEEVALPVDDHRLKQILFNLVQNAGQAVQEGKVMIDVTQDASHLIMNISDNGPGIPEEEQPLIFERFYRGKNKKLKQRGLGLGLPLSRMLAEAHGGKLELTRSSENGTIFTLKLPLHEV				NA	NA	NA	NA	NA
AK012_00061	804	fdhD	COG1526	Sulfur carrier protein FdhD	TTGGAAACCCGTATGTGGACCATTCAGCGCTACAACGAACAGGACGGGCAGGAGGAGGAAGATGTCGTAGCTGTTGAATATCCGTTAACGATTGTCGTTAACGGAGAGGAATTTGCTACGATGGTCTGCACACCTATGGATATGGAGGACCTTGTGATTGGTTTTCTCGCTTCTGAGGGTGTGATTCTCACGTATAGGGAATTGACGCATCTAACCATCGACGAGGAGCGTGGGTTTGCCTACGTGGAAACATCCAGGACTGTTCCGTTTGTAAAAGAAGGACAGAAGCGCTGGCTCGGCAGCTGCTGCGGAAAAAGCCGCGCGTTTTATTTTCAAAGTGATGCCGCTACGGCGAAAACGGCCGTGGATACGACGACGTTTTCACCGGAGCTGTGCTATCAGCTGATGGAAGCGTTCCATAAGGAAGCCGGCATGTTCAAGCAGACCGGCGGCGTCCATCAGGCAGCCATTGCCGGAAAATCAGGCCTTGTAAAGGCGTATACAGACATCGGCCGCCATAATGCACTCGATAAGTTATATGGATATATGCTCCGTCATCAAGTAAGTTCAAAAGAGAAGATGATTATTTTCAGTGGACGGATTTCCTCTGAAGTTCTTCTGAAGGTATCCAAAATGCGTTTCGGACTGCTCTTATCAAAATCCGCACCAACAGATCTGGCGCTGCAGCTGGCCGGCGATCTGAATATTACAGCGGTCGGATTTGTAAGAGGAAACCGTATGAACGTCTACACCCATCCAGACCGTGTAAAGGAAGAAAGTAAAGGAGGAGTCATGATTGAATGA	METRMWTIQRYNEQDGQEEEDVVAVEYPLTIVVNGEEFATMVCTPMDMEDLVIGFLASEGVILTYRELTHLTIDEERGFAYVETSRTVPFVKEGQKRWLGSCCGKSRAFYFQSDAATAKTAVDTTTFSPELCYQLMEAFHKEAGMFKQTGGVHQAAIAGKSGLVKAYTDIGRHNALDKLYGYMLRHQVSSKEKMIIFSGRISSEVLLKVSKMRFGLLLSKSAPTDLALQLAGDLNITAVGFVRGNRMNVYTHPDRVKEESKGGVMIE				NA	NA	NA	NA	NA
AK012_00062	2940			Putative formate dehydrogenase	TTGAATGAACATACTGTCGTAAAAATAAACGGCACAGAATACCTTGCTGATCATCCGGACCAGACACTCATCCAATTAATGAATAAAGTCAATGAGCAGGTCCCCCAGATCTGTTACAACGAATCCCTTGGACCGATCCAGACCTGTGATTCCTGCATCGTCCAGGTGGACGGAGAGCTTGTCCGGGCGTGCGGAACCAAAGTCAAGGCAGGCATGAAAGTGCAGACGCAGCTTCCACATGTACATAAGGCCCAGAAGGAAGCTCTTGACCGTGTTCTGGAAAAGCATGAACTGTACTGTACCGTATGTGATTATAACAATGGATCGTGTGAAATCCATAATACCATGGCGGAATTCGGCATTGAGCATCAGGAACGTCCGTTTCAGCCGACAAGCTATGAAAAGGATGATTCAGGCACGTTTTACCGTTATGACCCCGACCAGTGTATCCTTTGCGGCCGCTGTGTAGAGGTTTGTCAGGACGTGCAGGTGAATGAAACGCTTACGATTGACTGGGAGCGGCAGGAACCGAGGGTCATCTGGGATAATGATGTTCCCATCGATCAGTCTTCCTGTGTCAACTGCGGACAGTGCTCGACCGTTTGTCCGTGTAACGCCATGATGGAAGTCGGCATGGAGGGCGAAGCTGGATTTTTAACAGACACGGAGCCTGGAATCCTGAAATCGATGATCAACTTAACGAAGAAGGTGGAAACCGGCTACGGTCCGTTGTTTGCTGTATCTGATTCTGAAGCAGCGATGCGTGAGGAAACAATCAAGAAGGAAAAAACCGTTTGTACTTACTGCGGTGTTGGATGTTCCTTTGATGTATGGACGAAGGACCGTCAGATTCTCAAGGTGGAACCGAGTGCCCAGTCACCGGCCAACGGCATTTCCACATGTATCAAAGGGAAATTCGGCTGGGACTACGTAAACAGTGAGGACCGCCTTCAAAAACCGCTCGTCCGCCGCGATGATCATTTTGTAGAGGTGGAGTGGGAAGAGGCGATGCAGTATGTCGTCGATCGTATGAAGAAAATCCTTGCTGAAAAAGGCCCGGATCACCTTGCCTTCATCGCATCCTCGAAAGCGACCAACGAGGAATCCTACCTGATGCAGAAGCTGGCCCGTCAGGTGATCGGAACGAACAACGTGGATAACTGTTCCCGCTACTGCCAGGCACCGGCAACAAAAGGCTTGTTCCGTACGGTGGGGTATGGCGGCGATTCCGGCTCCATTGACGATCTCGGAGACAGTAAACTCGTCATAACCATCGGCTCCAACACAGCGGAATCCCACCCTGTTCTTGCTTCCCGTATCAAGCGTTCGCAGAAGCTGTTCGGACATAAGCTGTTCGTCTTTGACTTGAGAAAGCATGAAATGGCGAAGCGTGCCGATCGTTTTTATCAGCCGAAATCAGGCACCGATCTTGTCTGGCTTTCCGCTGTTACGAAATACATTCTCGATCAAGGCTGGGAAGACAAAAACTTCCTGGACGACTGGGTCAACGGCTTTGATGAATACCGGGAAAGCCTGGAGCCGTTTACGATGGAATATGCATCTGACCTGACAGGTATCCCGCAGGAGGAACTGAAGCAGGTGGCGGAAGAAGTGGCCACATCGGAAACGGTAGCGATCTGCTGGGCGATGGGCGTGACACAGCATATGCTTGGCAGTGATACAAGTACAGCGATCAGTAACCTCCTGCTTATTACGGGAAATTACGGAAAGCCTGGAACGGGCGCCTATCCACTCCGCGGCCACAACAACGTGCAGGGATGCAGTGACTTCGGAAGTATGCCGAACTTCTTCCCGGGCTATGAATCGACCGAAGATGACGAGGTCCGTGCCCGGTACGAAAAAGCGTGGGGGACGGAACTTCCTAAAGAAACCGGCATGGATAACCACGAGATGATTGAAGCCATTCATGACGGGGAGCTTTCCATGATGTATGTCATGGGGGAGGATACAGGGATAGTTGATGCCAACATCAACTATGTAACGGCTGCCTTTGAAAAGCTCGATCTGTTCATCGTACAGGACTTGTTCCTGACGAAGACCGCTGAATATGCCGATGTTGTGCTGCCGGCTTCTCCAAGTCTTGAAAAGGACGGCACCTTTACGAATACGGAACGACGGATCCAGCGTCTTTATAAGAGCTTTGATCCGTTGGAAGGCACAAAGCCGGACTGGGAAATCATCCAGCTGATGGCCAAACATTTTGGTGTGGACTGGGGCTATGAGCATCCATCTGAAATTATGGCTGAAGCAGCCGGACTGGCACCGTTATTTGCCGGCGTTACGTATGAGCGTCTGGAAGGGTATAATTCCCTGCAGTGGCCTGTAGCCGAAGACGGAACAGATGAACCGCTTCTCTTCACCGAAGGCTTCCCGTTTGAGGATAAGAAGGCGAAGCTTTATCCGCTGACCTATGAGCTGATGTACGATACGAGCGAAGAATATGACCTGCATGTAAATAACGGACGGCTGCTGGAGCATTTCCACGAAGGCAACATGACCTACCGGACATCAGGCATCCAGAGAAAAACGCCGAATGCCTTTATTGAAGTTTCCGAGGAGCTCGCCAAAGAGCGGGGCATTGAAGAAGGAGCTGAAGTGAAGCTGATTTCTGAATCCGGTGAAGCGACCGGACAGGTGACGGTCACCGACCGTGTCCGCGGGAAAGAAATCTTCCTGCCGCTGAACAGCAATGGTAAATCAGCCATCAACTTCCTGACTGATAACCGGGTGGATAAAGACACAGACACACCGGCGTATAAGGAAATTGCCGTGAAAATGAAAGTGCTGAAGAAGAAAGGGAAGTCGCCGATTCCTAAGAATAACCACCGAAACGGAAACCCGGTGCCGCAGATCAGTGTGAAGGTCCAGAAAAAATGGCAGCGGGAAGATTACACATTCCCAGGCAGGGGGGCTCATTAA	MNEHTVVKINGTEYLADHPDQTLIQLMNKVNEQVPQICYNESLGPIQTCDSCIVQVDGELVRACGTKVKAGMKVQTQLPHVHKAQKEALDRVLEKHELYCTVCDYNNGSCEIHNTMAEFGIEHQERPFQPTSYEKDDSGTFYRYDPDQCILCGRCVEVCQDVQVNETLTIDWERQEPRVIWDNDVPIDQSSCVNCGQCSTVCPCNAMMEVGMEGEAGFLTDTEPGILKSMINLTKKVETGYGPLFAVSDSEAAMREETIKKEKTVCTYCGVGCSFDVWTKDRQILKVEPSAQSPANGISTCIKGKFGWDYVNSEDRLQKPLVRRDDHFVEVEWEEAMQYVVDRMKKILAEKGPDHLAFIASSKATNEESYLMQKLARQVIGTNNVDNCSRYCQAPATKGLFRTVGYGGDSGSIDDLGDSKLVITIGSNTAESHPVLASRIKRSQKLFGHKLFVFDLRKHEMAKRADRFYQPKSGTDLVWLSAVTKYILDQGWEDKNFLDDWVNGFDEYRESLEPFTMEYASDLTGIPQEELKQVAEEVATSETVAICWAMGVTQHMLGSDTSTAISNLLLITGNYGKPGTGAYPLRGHNNVQGCSDFGSMPNFFPGYESTEDDEVRARYEKAWGTELPKETGMDNHEMIEAIHDGELSMMYVMGEDTGIVDANINYVTAAFEKLDLFIVQDLFLTKTAEYADVVLPASPSLEKDGTFTNTERRIQRLYKSFDPLEGTKPDWEIIQLMAKHFGVDWGYEHPSEIMAEAAGLAPLFAGVTYERLEGYNSLQWPVAEDGTDEPLLFTEGFPFEDKKAKLYPLTYELMYDTSEEYDLHVNNGRLLEHFHEGNMTYRTSGIQRKTPNAFIEVSEELAKERGIEEGAEVKLISESGEATGQVTVTDRVRGKEIFLPLNSNGKSAINFLTDNRVDKDTDTPAYKEIAVKMKVLKKKGKSPIPKNNHRNGNPVPQISVKVQKKWQREDYTFPGRGAH	PGPT0019635_1156	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
AK012_00063	468			hypothetical protein	ATGGCACGGGCAATCACTGATATCAAACGATTGGAGAAATCGCGGGAAGAAGTCATTGAGGAAAATGTCCAGGAGGTCAAAGAAGCGGTCGCAGATAACAAGGATGCGATCCTGGAAGGCATTGAACTGCTAAGCGCTCTTCAAAAAGAAGGAACCCTTGAAACGCTTTCGGCTTTTGTGAAGGCGAAGGATGAAACCCTCGCCAATGTTGTCAGGGAAATTGATAAAGAACAGTATACACCGCTGTTGAATAATCTTCCTGAACTGGTTTTCCTGCTTGGTGATTTGAACGTCAGCGGCATCCGCAGCTTGAGCAGCCGGCTGAATAACGGGCTGGAGCGTATGGAGGATGAAGGAACGACGAAAAAAATGAACATGCTTGATTTTGCCAAAGTGTTGAAAGATCCGGAAATCAACCGGAGCTTGACGATGCTGATGTCCTTTCTGAAAGGCATGGGACAGAAATAA	MARAITDIKRLEKSREEVIEENVQEVKEAVADNKDAILEGIELLSALQKEGTLETLSAFVKAKDETLANVVREIDKEQYTPLLNNLPELVFLLGDLNVSGIRSLSSRLNNGLERMEDEGTTKKMNMLDFAKVLKDPEINRSLTMLMSFLKGMGQK				NA	NA	NA	NA	NA
AK012_00064	774	fabG_1		3-oxoacyl-[acyl-carrier-protein] reductase FabG	TTGAATTCAAGCATTGCTATTGTTACAGGAGTGGGAAGGGAAAAAGGCATCGGTACAGCCGTATGTCGCGCACTGGCAGCGGCAGGGGTGGATATTTTCTTCACTTATTGGTCGGCTTATGACCGGTCGATGCCTTTTTATGACAGAGATACAGACGATGGGTGGCCGGAAAAGCTGAAAGAACAGGTTCAAAATTACGGGGTCCGCTGTGCGTCACTTGAACTCGATTTATCGAAAAAAGATGCTCCGGAAAAATTGCTGGATGTGGTGGAAGAACGCCTTGGAAGTCCTGCCATTCTCATAAACAATGCGACTTATTCCATTGACGCAGGCTTTAAATCTATGAATGCAGCTATTCTTGATGCTCATTATGAGGTGAATGTCAGAGGCACCCTTTTATTAACGACGGCTTTTGCAAGGAGAATTGAAGGCAGACACGGAGGCAGGGTGATCCATATGGTTTCCGGACAAGATCAATCGCCGGAACCCGGGAATCTTGCCTACGTATCGACGAAAGGAGCGGTCTCTGCCTTCACGAAATCTGCAGCGATTGAACTGGCGCCGTTGAATATTACTGTCAATGCTGTCGACCCTGGTCCGACGAACACGGGGTGGATGAACGGGAAGCTGAAAGATGAACTGAAGCCGAGATTTCCAATGGGAAGGATCGGAGAACCTGTGGACGCTGCCCGCCTGATCTGCTTTCTGGCCGGAGAAGACGCCGGATGGGTGACGGGGCAGATCATCCATTCCGATGGAGGGTTCCTGTCATAA	MNSSIAIVTGVGREKGIGTAVCRALAAAGVDIFFTYWSAYDRSMPFYDRDTDDGWPEKLKEQVQNYGVRCASLELDLSKKDAPEKLLDVVEERLGSPAILINNATYSIDAGFKSMNAAILDAHYEVNVRGTLLLTTAFARRIEGRHGGRVIHMVSGQDQSPEPGNLAYVSTKGAVSAFTKSAAIELAPLNITVNAVDPGPTNTGWMNGKLKDELKPRFPMGRIGEPVDAARLICFLAGEDAGWVTGQIIHSDGGFLS	PGPT0003180_6142	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
AK012_00065	900	gltC		HTH-type transcriptional regulator GltC	ATGGATATCCGTCATTTACAATATTTTGCTGAAGTCGCTAAACAAATGAGCTTCACAAAAGCTGCTTCTACCCTGCATGTGTCCCAGCCGTCGTTAAGTAAAACGGTCAAGCAGCTGGAAACGGAGCTTGGTGTACCGCTGTTTTACCGATCCAAGGTACTGGAGCTGACCGACGCCGGGGAGGCTGTCCTCGCCAATGCGATCCAAGTCCTGGATGCCTTTCACAACTTGACGGCGGAACTGGATGATATTACGAACGTGAAAAAAGGGAAGATTCGTATCGGCATCCCACCGATCACAGGGGCAGCTTTCTTCTCAAAAATCATCCGTTATTACCGTGACAAATATCCCGAGGTGGACATTCTCTTAAGTGAAGTCGGATCGAAAATGATTAAACAGGGCGTCGAGGACGGTTCTCTCGATTTCGGACTCGTATGCAACCTGCCTGTGGAATCCTCTCACTTCCACACGTTGAAGGTGGTGGACGACCCGTTGATGCTCCTCGTCCATAAAGATACAGCGACCGCTGAAAAGCATACCGTTCACCTGGAGGAACTGCAGAACGAATCATTCATTTTGTACCGGGAAGACTTCACCCTTCACGACCGCATCATTGAAGAATGCCGGAAAGCAGGGTTCCAGCCGAAGGTCGTCTGCCACAGCTCCCACCGTGACTTCATGATGGAGATGGTGGAAGCAAAAGTCGGCGTGGCTCTGCTTCCGAGTCAGATTGCCCGGGAAGCGGCTGACAAAAATATCGCTGTTCTCCCTCTGTCGCATCCCAACCTCCGTCTCGAGCTCGGACTGGTATGGAAGAAGAATAAGTACCTCGCCTTTTCAGCACGGGAGTTCATTTCAATGTCGCAGGATTATGTAAAAGAAACGGCCCGGCTTTCATAA	MDIRHLQYFAEVAKQMSFTKAASTLHVSQPSLSKTVKQLETELGVPLFYRSKVLELTDAGEAVLANAIQVLDAFHNLTAELDDITNVKKGKIRIGIPPITGAAFFSKIIRYYRDKYPEVDILLSEVGSKMIKQGVEDGSLDFGLVCNLPVESSHFHTLKVVDDPLMLLVHKDTATAEKHTVHLEELQNESFILYREDFTLHDRIIEECRKAGFQPKVVCHSSHRDFMMEMVEAKVGVALLPSQIAREAADKNIAVLPLSHPNLRLELGLVWKKNKYLAFSAREFISMSQDYVKETARLS				NA	NA	NA	NA	NA
AK012_00066	2175	glcB	COG2225	Malate synthase G	ATGCAGGATTATGTCAAAGTGGGAAATCTGCAGGTCGCTCCTGTACTGTATGAATTCATTAACAAACAGGCGGTTCAGGACAGCGGCATCTCCAGTGATGATTTCTGGGCGGGTCTTGAAGCCATTCTTCACCACCTCGCTCCAAAGAATAAACAGCTGCTGCAGATGCGTGATGAGATGCAGGAAAAAATCGATGACTGGCACCACAGCCATGATCTGTCCGACAAAGATGCCTATACCTCGTTCTTAAAGGAACTGGGGTACATCGAGCCGGAAATCGGGGACTATTCCATTTCCACAGAAAATATTGATGAGGAAATTTCCCGTCAGGCAGGCCCGCAGCTGGTTGTTCCAGTTAACAATGCCCGCTATGCCATCAATGCTGCCAACGCCCGCTGGGGAAGTTTGTATGATGCCCTTTATGGGACGGATGTGATCAGTGAAGAGGATGGTGCAGAAGCCAAAGGGGATTACAACCCCGTTCGTGGTGACAAAGTGATCACGTATGCAAAGGCCTTTCTTGACCGCACCTTCCCTCTTGCCGAAGGTTCGCATGAAGATGTGGAAGGCTACAGCCTGTTTGATGGTCGTCTGAAAGTGAAAATGCCGGAAGGATCCACAGAACTTAAACATCCGGAGCAGCTGGCTGGATTCACTGGAGGCCCTGATGCACCTGCAGGCGTCCTGCTGGTCAACAATGGCCTTCATGTTGAAATTCAAATCAACCGCAATGATCCCATCGGCCAGACCGACCCGGCTGGTGTGAAGGATGTGCTTGTCGAATCGGCAGTGACGACGATTATGGATTTTGAAGACTCCGTAACGGCCGTCGATGCAGATGATAAGGTGGAAGTCTATCAAAATTATCTCGGCTTATTAAAAGGTGATCTCTCCGTCACTTTCCAAAAGGGAGACCGTGAGATGAAGAGGACGTTGAATCCGGACCGGACGTATACGACGCCGGACGGAGGCTCTCTTGTGCTGTCCGGACGTTCCCTTATGTTTGCGAGAAATGTCGGGCATCTCATGACAACGGACGCCGTCCTTGACCAGAACGGGGAGGAAGTACCGGAAGGAATTCTGGATACGGTCGTAACCGGACTGCTGGCGAAACAGGACCTTTTAAAAAATGGTCCGTATCAAAATTCTGCGAAGGGGTCTGTGTATATTGTAAAACCGAAGATGCACGGCTCGAAAGAAGCAGCCTTTGCCAACGAGCTGTTCGACCGGACCGAGCAGCTTCTCGGTTATGAAAAGAACACACTTAAAATCGGTGTGATGGATGAAGAACGACGCACCAGCCTGAATTTGAAAGCGTGTATCAATGAAGTGAAGGAGCGTATCGCCTTCATTAATACCGGATTTCTAGATCGGACTGGTGATGAGATTCACACGTCCATGGAAGCAGGACCTGTCATCCGTAAAAATGATATGAAAGATTCCGCCTGGCTGCAGGGGTATGAAAAGTCGAACGTCCTCGTCGGCGTGCATGCCGGATTCCGTGGACGGGCGCAGATTGGAAAAGGAATGTGGGCGATGCCGGACCGCATGGCGGAAATGATTGCCGTGAAGGACGGCCAGTTAAAAGCAGGAGCGAATACCGCCTGGGTGCCTTCTCCGACAGCCGCTACCCTTCACGCCCTGCACTATCACGAAGTGGATACAGCCGATGTTCAAAAGAATATGTCCGGTGACCCGGCCCGTCTTCAGAAGGATATTCTGGAAATCCCCGTACCGGAGGAAAGAATCTGGAGCGATGAGGAAATTCAACAGGAACTTGATAATAATGCCCAGGGAATACTCGGCTATGTCGTCCGCTGGGTGGAGCATGGTGTCGGCTGCTCCAAAGTCCCGAACATCGACGACGTGGAATTGATGGAAGACCGGGCGACGCTCCGGATTTCCAGCCAGCACATGACGAACTGGCTTCACCATGGTGTCGTTCAGGAAGAGCAGGTCATGGAAACCTTGAAGCGGATGGCGAAAGTCGTAGACGAACAGAATGCTGACGACCCAGATTATAAAGCGATGTCCCAAAACTATGAGCAGTCCATTGCTTTCCAGGCTGCCTGTGATCTTGTGTTCAAAGGCAAAGATCAGCCGAATGGCTATACCGAACCGATTCTTCACAGACGCCGCCGCGAAGCGAAGCAGAAACAGTATGCCAGTCATTAA	MQDYVKVGNLQVAPVLYEFINKQAVQDSGISSDDFWAGLEAILHHLAPKNKQLLQMRDEMQEKIDDWHHSHDLSDKDAYTSFLKELGYIEPEIGDYSISTENIDEEISRQAGPQLVVPVNNARYAINAANARWGSLYDALYGTDVISEEDGAEAKGDYNPVRGDKVITYAKAFLDRTFPLAEGSHEDVEGYSLFDGRLKVKMPEGSTELKHPEQLAGFTGGPDAPAGVLLVNNGLHVEIQINRNDPIGQTDPAGVKDVLVESAVTTIMDFEDSVTAVDADDKVEVYQNYLGLLKGDLSVTFQKGDREMKRTLNPDRTYTTPDGGSLVLSGRSLMFARNVGHLMTTDAVLDQNGEEVPEGILDTVVTGLLAKQDLLKNGPYQNSAKGSVYIVKPKMHGSKEAAFANELFDRTEQLLGYEKNTLKIGVMDEERRTSLNLKACINEVKERIAFINTGFLDRTGDEIHTSMEAGPVIRKNDMKDSAWLQGYEKSNVLVGVHAGFRGRAQIGKGMWAMPDRMAEMIAVKDGQLKAGANTAWVPSPTAATLHALHYHEVDTADVQKNMSGDPARLQKDILEIPVPEERIWSDEEIQQELDNNAQGILGYVVRWVEHGVGCSKVPNIDDVELMEDRATLRISSQHMTNWLHHGVVQEEQVMETLKRMAKVVDEQNADDPDYKAMSQNYEQSIAFQAACDLVFKGKDQPNGYTEPILHRRRREAKQKQYASH	PGPT0001445_585	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-OXALACETIC_ACID_BIOSYNTHESIS,PGPT0001445-aceB|glcB-K01638	NA	NA
AK012_00067	1263			hypothetical protein	ATGGAAAATGTAAAGCTCAATGATAGTTATGGAAATAGAGGGAGAGAGCTTCATGAACCTGTAACAGAGGAAGCAATCCGTGCACTGCTGTCGCAGGCCCATAAGGAAGGGCTGCATGTGGCTGTTGAATCCGGAGGGACAAAGCGGGGATATGGCGGGGCGAAGGAGGGCTATGACTGGACACTCTCTCTGAAGAAGTATCGAGGAATAGTAGAACATAACGCAGGAGATATGACGATAACGGTAAAGCCCGGGACGACCATAGCTGAACTGCAGCGCTTTTTACAGGAGTACGGGCAGCAGGTGTCGCTTGATCCGCACTGGCCGGACCAGGCGACAATCGGCGGTGTGATTTCTGCTAATGAAAGCGGCCCGAAACGTTTAGCCTACGGATCTGCGCGTGACCTCGTTATCGGACTACGTGTCGTCTACCCTGATGGCCGCATCATCCGCACAGGTGGGAAGGTCGTGAAAAATGTCGCCGGTTATGATATGAATAAACTGTTTATCGGTGCTATGGGGACGCTTGGTGTGATCAGTGAAATTACGATGAAGCTCCGTCCTGCCCCGAAATATAGAAGTCTCGTCCAGGTTTCTGTCCCTGAGGGAGAGGAGGAAGAGCTCCGCATGCTTGCGGTGGCTATCCAGGATGCCATGATTGAACCGGTGACACTTGAAATCGTCAACCCGGCGATGGCGGAAAAGCTTACGGGAAAATGGGAATATATGCTGCTTGTCGCTTTTGAGGATGTGGAACGGTCGGTCCATGAGCAGGAAGGATGGATGACCCATCACAAACCGGAGCATGCGGTCATGGAGGTTCTGCATGAGGAAGAAGCAGGGAAGTTCTGGGAGCGCTTTGCCGTCACCGTTCCGAATGCCCATACAGAGGGTGAAAACCTGTGTGCGGTTTTGAAAGCAGGCACAAAGAATATGGATGTGTTCACGATGGTCACACGGGCGGGAGAGCTCGGGAATAACCACGGCATTCATGTCGAAGCCCACGGCGGTCTGGGGCATGGGATAAGTGAATGTATCCTGCGTGGTCAGGAAAGAGATGTAACCGCTGTCATCGAAGGGTTAAGAGCGGAAGCCGGACAAATAGGCGGGTACGCTGTCATCAAGCACCTGCCGGTCGAGTTGAGGAAGAAGATGGATGCATGGGGCGGAAAACCCGGCCATTTTTCCCTGCTGGAAGGAATTAAAAAAGCGGTGGATCCTCATGGTGTGTGTAATCTCCAGCGTTACATAGGAGGGATTTAA	MENVKLNDSYGNRGRELHEPVTEEAIRALLSQAHKEGLHVAVESGGTKRGYGGAKEGYDWTLSLKKYRGIVEHNAGDMTITVKPGTTIAELQRFLQEYGQQVSLDPHWPDQATIGGVISANESGPKRLAYGSARDLVIGLRVVYPDGRIIRTGGKVVKNVAGYDMNKLFIGAMGTLGVISEITMKLRPAPKYRSLVQVSVPEGEEEELRMLAVAIQDAMIEPVTLEIVNPAMAEKLTGKWEYMLLVAFEDVERSVHEQEGWMTHHKPEHAVMEVLHEEEAGKFWERFAVTVPNAHTEGENLCAVLKAGTKNMDVFTMVTRAGELGNNHGIHVEAHGGLGHGISECILRGQERDVTAVIEGLRAEAGQIGGYAVIKHLPVELRKKMDAWGGKPGHFSLLEGIKKAVDPHGVCNLQRYIGGI				NA	NA	NA	NA	NA
AK012_00068	1365	lutA_2		Lactate utilization protein A	GTGCTGAAAGAACTGGTGAAGAAGAGAGGCGCCTCTCTTCCCTGTGAAGAAAATACGCTCAGCAATTACTATGCAGAAGACCATCCGGATGAAGCGAAATGGGCGGACTGTGTGCACTGCGGGATGTGTCTGGAAGCTTGTCCGACGTACCTGGAAACCGGTCAGGAACAGCATTCACCGAGAGGACGCGTCTATTTAATCAAGTCTGTAGCCGAAGGGAAATTGAACGTGAATGAGGCGTTTGCCGATCCCGTTTTCCAATGTCTGGACTGCCGGGCCTGCACGACGGCTTGTCCTGCTGATGTCGATGTAGGAGGACTGATTGAGGAAGCAAGGGGGCAGGTGCGTCAGGCCATGCCGCTTCGTGGCTGGAAAGGAGCAGCGGGAAGCTTTTTCCTAAGACGGCTGTTCCCCCATCCGAACCGGATGAAGACGGTCAGCGGGTTGTTAAAGCTGTATCAGCAGAGTGGTCTGCAGAAAGTAGTGCGCAAATCCGGAGCGGTGAAGGTCATGCCGGACCACCTGGCAGGTATGGAGGCGGTCATGCCGGAAATGAAAACCTCTGTGCAGCAAACGTACAAAAACGTAGATGTCATTCCCGCTAAAGGGACAGCCAAGGCCAGGGTGGCGATGCTGACCGGCTGTATCATGGACGTCATGTTCGGAGATATCAATGAGTCGACCATCCACGTCCTTACCTACAATGGCAATGAGGTGACCCTTCCGAAAAAGCAGACGTGCTGCGGGGCACTCCACGTCCATGCCGGCGACCGGGATACGGGGCGGAAACTGGCCAAACAAAACATCGAAGCGTTTGAGGACGCCGGCAGAGTGATCGTCAATGCCGCCGGGTGCGGCTGTGCCCTGAAAGAATACCCAGAGCTGTTTAAGGATGATCCGAAGTGGCGCGAGCGGGCTGAAAAATTCGCAGCAAAAGTGGAGGACATCTCCAAGTACTTATATGATACAGGTTACGTGAAGCCGGAAAGTCCAATCCAGAAACGCATTACCTATCATGATGCCTGCCACCTGGCCCACGGACAGGGGGTGCGCCACGAACCGAGGCAGATGCTGCAGGATATCCCAGGGGTTGAGTATAAAGAGATGAAAAATGCGGACACCTGTTGTGGAAGTGCCGGAATTTATAACCTGACCAACCCGGAAATGGCGGGTGCCGTGCTCGACCGGAAAATGGCGGACGTACCTGAGGATGTGGAGATGATTTCGATGGGGAATCCTGGATGCATGCTGCAAATGGCGATGGGTGTTCAAAAATACGGACGGCGCAGTGAAATCGTCCATACGATCCAGCTGCTGGACTGGGCGTATCAAAAGGATGAGCAGGCGGCCGGAAGGAAAGGATGA	MLKELVKKRGASLPCEENTLSNYYAEDHPDEAKWADCVHCGMCLEACPTYLETGQEQHSPRGRVYLIKSVAEGKLNVNEAFADPVFQCLDCRACTTACPADVDVGGLIEEARGQVRQAMPLRGWKGAAGSFFLRRLFPHPNRMKTVSGLLKLYQQSGLQKVVRKSGAVKVMPDHLAGMEAVMPEMKTSVQQTYKNVDVIPAKGTAKARVAMLTGCIMDVMFGDINESTIHVLTYNGNEVTLPKKQTCCGALHVHAGDRDTGRKLAKQNIEAFEDAGRVIVNAAGCGCALKEYPELFKDDPKWRERAEKFAAKVEDISKYLYDTGYVKPESPIQKRITYHDACHLAHGQGVRHEPRQMLQDIPGVEYKEMKNADTCCGSAGIYNLTNPEMAGAVLDRKMADVPEDVEMISMGNPGCMLQMAMGVQKYGRRSEIVHTIQLLDWAYQKDEQAAGRKG				NA	NA	NA	NA	NA
AK012_00069	1464		COG0277	putative FAD-linked oxidoreductase	ATGTTGAAAAGAAAAAAGCAGAACAAGGTGGATCCCCATATCCGCAGCTTAATCAAAATTGTCGGGGAGCAGGAAATCCTTTATAAGCCGGAAGACTTAATTTCTTACGACTGTGATGGCTTTACGGTCCATAAAGCTCTGCCAAAAGCGGTCGTATTCCCCAAAAATACAGAAGAAGTGGCGGCTCTCGTCCGGTACTGCCATATGAATCATCTGCCCTTTCTCGCGCGCGGTGCCGGGACAGGGTTGAGCGGCGGCGCCATCCCTCTACAAGGGGAAGTCATTATCAGTCTCGTAAAGATGAAGCAGCTTCTAAGCGTAGACTATGAAAACCGTCAGGCAGTCGTTCAGCCGGGGTACGTCAATTTAAAGCTGACTAATTCCATCTCAGATAAAGGGTACTATTACGCGCCGGATCCTTCGAGTCAGTATGTATGTACTATCGGAGGGAACGTAGCGGAAAACGCCGGCGGGGCCCATTGTCTGAAATACGGGGTAACGACCAATCATATTCTCGGTCTGGAAGTCGTCCTTCCTCATGGGGAAGTGATCGAAATCAGCCGCGAGGGGGCTCCCGACAGCCCCGGGTACGATGTGATGGGCCTGTTGACCGGTTCGGAAGGGACCCTTGGCATTGTGACAAAAATCACTGTCCGGATTTTAAAAAGTCCGCAGGGGAAAAAGACGGTCCTTGCTTATTTCGATGATGTGGAAGATGGGAGCCGGGCGGTCTCGGATATCATCGCTGCCGGCATCGTACCGGCTGCCCTTGAAATGATGGACAAGACAGCTATTGAAGGAGTGGAGGCAGGAACGTTTCCTGTCGGTCATCCCCCGGATATTGAGGCGTTCCTCCTTATTGAAGTGGACGGGATCACCGCCGGTTTGGAAGAGCAGATTGAACAGATCCTTGAAGTCTGTCAAAGCTGGAATGTACGGGAAGTGAAAGTAGCGAAAAGTGAAGAAGAACGATCCCGCTGGTGGGCCAACCGCAAAACCGGATTCGGAGCGATGGGGGCGATTTCCCCGGACTACCTCGTCCAGGACGGAGTGATTCCAAGAAGCCGTCTTCCAGAGGTGCTGAAGGAAATTGAAAAAATCAGCCGCGAGTCAGGTCTGCGGATCGCTAACATTTTTCATGCTGGAGATGGCAATCTGCACCCGCTGATTCTGTTTGATTCCCGAGTCCCGGGAGAAACCGAAAAAGCCCTTCAGGCAGGAACCGCCTGCTTGAAAGCCTGCGCGGATGTGGGAGGTTCGATTACCGGGGAGCATGGCGTCGGGATTGAGAAAAAAGAAGAAATGCGCTTCATTTTTACAGACGAAGAAATTGATGCGCAGCTCGATATTCGTGATGTATTCAATCCTTATGATCTATTAAACCAGGGCAAGCTGTTTCCAAAGCCGAGCCGCTGCATGGACGTGAAGAAAATCGTCAAGGACACGGTGGCTGTCCAATCTTGA	MLKRKKQNKVDPHIRSLIKIVGEQEILYKPEDLISYDCDGFTVHKALPKAVVFPKNTEEVAALVRYCHMNHLPFLARGAGTGLSGGAIPLQGEVIISLVKMKQLLSVDYENRQAVVQPGYVNLKLTNSISDKGYYYAPDPSSQYVCTIGGNVAENAGGAHCLKYGVTTNHILGLEVVLPHGEVIEISREGAPDSPGYDVMGLLTGSEGTLGIVTKITVRILKSPQGKKTVLAYFDDVEDGSRAVSDIIAAGIVPAALEMMDKTAIEGVEAGTFPVGHPPDIEAFLLIEVDGITAGLEEQIEQILEVCQSWNVREVKVAKSEEERSRWWANRKTGFGAMGAISPDYLVQDGVIPRSRLPEVLKEIEKISRESGLRIANIFHAGDGNLHPLILFDSRVPGETEKALQAGTACLKACADVGGSITGEHGVGIEKKEEMRFIFTDEEIDAQLDIRDVFNPYDLLNQGKLFPKPSRCMDVKKIVKDTVAVQS	PGPT0001890_13	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
AK012_00070	777	yisK	COG0179	putative protein YisK	TTGAAATTTGTCCGCGTATCCTATGAGAACCAAGTCTATGAAGCAACCATCCACGGCGATGATGTCAGTTTTATTGAAGGAGATAAATACGGCCGCTGGCGGTATACGGGAGAAGTGCGTCCGCTTGATCAAGTCCGTCTGCTCGCGCCGGTAAAACCAGAGAAGGTGATCGGGATCGGAGCCAACTATGCTGCGGAAGCAGAAGAACTGCCGGAGACCCTTCCAGATCTGCCGGTGTTCTTCTTGAAGCCATCCTCTTCTGTCATTGGTCCGGGTGAGGATATAGAAATTCCGGAGCCGGTCGGTGAAGTGAAATTTGAGTCTGAACTGGCTGTCGTCATTGGAAAGGCAGCAAAAAATATTGCTGAATCCGACGTGTATGACCACATTTTCGGCTATACCATCGGCAATGATGTGACGGCCCCGCAGTTTTTTCACGAGGATGGCCACTGGACGCTGGGAAAAGCTTTTGATACGTTTACGCCGCTTGGTCCTGTCGTGGAAACCGGTCTTCATCCGGAAGAAGTGTATGTCAAAGCGGATATCAATGGCGTGGAAACACAGAACAGCCCGACACGTTTGATGATCGTTCCGCTTGCTCCGATGGTCGCTTATTTATCCAAGGTGATGACGCTCCATCCCGGGGATGTCATCCTGACAGGAAGTCCACTCGGCGCTCATTTTGTAAAGGATCAGGACGTCATCGAATGTAAAATTGACGAAATCGGTGTGCTGAGGAATAAAGCCGTTCGGTCTTCTGTATCCATCGAGTCGTAG	MKFVRVSYENQVYEATIHGDDVSFIEGDKYGRWRYTGEVRPLDQVRLLAPVKPEKVIGIGANYAAEAEELPETLPDLPVFFLKPSSSVIGPGEDIEIPEPVGEVKFESELAVVIGKAAKNIAESDVYDHIFGYTIGNDVTAPQFFHEDGHWTLGKAFDTFTPLGPVVETGLHPEEVYVKADINGVETQNSPTRLMIVPLAPMVAYLSKVMTLHPGDVILTGSPLGAHFVKDQDVIECKIDEIGVLRNKAVRSSVSIES				NA	NA	NA	NA	NA
AK012_00071	1791	glcA	COG1620	Glycolate permease GlcA	ATGAACACCGGAATGTTAGCACTCTTATCACTGCTGCCGATTGTTGCTGTTGGAATATTTCTCGTTGGTCTCCGATGGCCGGCCAGCCGGGCCATGCCGATCTCGTACATAGTTGCTGTGCTGCTTGCTTTATTTGTGTGGAAAGTACCAGGCGCTGTTGTAGCCGCAGCCTCTGTCAATGGACTCGTCGTTGCCGGGACACTGCTTTACATCATATTTGGTGCTATTCTTCTGCTGAATACCCTGCAGGAGAGTGGAGGGCTGAAGACGATCCGGCAGGGTTTTATCGATATTTCCCCGGACCGGCGGATCCAGGTGATCATCATTGCCTGGCTGTTCGGGGCATTTATTGAAGGATCGGCAGGCTTTGGGACACCGGCAGCTGTTGCCGTACCTTTGCTGGTAGGTCTCGGGTTTCCGGCCATGGCGGCTGTCATAGCGGGGATGGTCATCCAGAGCACCCCGGTATCTTTCGGTGCTGTAGGAACGCCGATCCTTGTCGGGGTTCAGACGGGCTTATCGGCAGATGCTTCCATTTCATCCAACTTCCTGGCTATGGTCACGACGATTGGCGGGCGCGCTGCCATTCTCCACGCCATTGTCGGGACGTTGATTCCTCTATTTGTTGTCGCTTTAATGACACGGTTCTTTGGGGAAAACAAATCCTTCAGTGAAGGTATACGTGTCTGGAAGTTCGCTTTATTTGCCGCTTTTGCCATGACCATTCCGTATACGATCGTAGCGAACCTTCTCGGACCGGAATTCCCTTCCATGATCGGCGGTCTGGTTGGACTGGCCATCGTCGTTCCGGCTGCTAAAAAAGGGTTTCTTATTCCAAAAGACGAAAAACACTGGGATTTCCCCGATGCATCCAAATGGGACCCATCGTGGACTGGCAGTATTGAGATCAAGGATATCGCTCATAAAAGCGGACGGATTTCCATGGTCCGGGCCTGGCTGCCGTATATTCTCGTCGGAGCCTTCCTTGTATTGACGCGTTTGAAATCCCTGCCGGTTCTGGATTGGGTGCAGTCATGGACGGTGGCGTTCCCGAATTTATTCGGAACAGACATCTCATCGAGTTTTCAACCCTTGTACCTGCCCGGCACGATTTTTGTTCTCGTCTCTTTGATTACATTTTTCATCCATCAAATGAATGGAGGCGCCTATAAAAAAGCCTGGGCTCATTCTGGAAAAACGATGATTCCTGCCTCTGCCGCGCTGTTATTTACGGTCCCGATGGTGCAGGTTTTCTTGAATTCAGGAGGAGGAGCTGCGGGATTTGGGAGTATGCCGATTGAACTGGCGAATGGTGTGGCCGGTCTGGCCGGTGATTTCTGGCCTCTGTTTTCTTCCTTCGTCGGTGGTCTTGGAGCGTTTATTGCTGGAAGTAACACAATCAGTAATATGATGTTTTCGCTTTTCCAATATGATGTCGGTTCCCAGATTGGCGTGGATGCCTCCTGGATGGTGGCTCTCCAGGCAGTAGGGGGAGCGGCTGGAAATATGATCTGCGTTCATAACGTGGTTGCCGCCTGTGCGGTCGTCGGCCTTGTCGGGAAAGAGGGGGACATTATCAGAAAAACGATTTTCCCGTTCCTTTACTATGCAGCATCGGCCGGAGCGCTTGGATATTCCATCGTCTGGACGACTGAAAAAGGAATATTCAACCTCGGCTCCATGCTTGCTGCTATCATTACGACCGCTGCCGTCTATGTGATTGCCACCAATCATAAACGGCTTCCGGAGAGCGGGCTGCGAAATCAGAAAAATGTTCGTGCCGCCAAATAA	MNTGMLALLSLLPIVAVGIFLVGLRWPASRAMPISYIVAVLLALFVWKVPGAVVAAASVNGLVVAGTLLYIIFGAILLLNTLQESGGLKTIRQGFIDISPDRRIQVIIIAWLFGAFIEGSAGFGTPAAVAVPLLVGLGFPAMAAVIAGMVIQSTPVSFGAVGTPILVGVQTGLSADASISSNFLAMVTTIGGRAAILHAIVGTLIPLFVVALMTRFFGENKSFSEGIRVWKFALFAAFAMTIPYTIVANLLGPEFPSMIGGLVGLAIVVPAAKKGFLIPKDEKHWDFPDASKWDPSWTGSIEIKDIAHKSGRISMVRAWLPYILVGAFLVLTRLKSLPVLDWVQSWTVAFPNLFGTDISSSFQPLYLPGTIFVLVSLITFFIHQMNGGAYKKAWAHSGKTMIPASAALLFTVPMVQVFLNSGGGAAGFGSMPIELANGVAGLAGDFWPLFSSFVGGLGAFIAGSNTISNMMFSLFQYDVGSQIGVDASWMVALQAVGGAAGNMICVHNVVAACAVVGLVGKEGDIIRKTIFPFLYYAASAGALGYSIVWTTEKGIFNLGSMLAAIITTAAVYVIATNHKRLPESGLRNQKNVRAAK	PGPT0001800_78	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
AK012_00072	477			hypothetical protein	ATGGATATTTTAATATGGGTATTGATCATCGCCAGCTTTGCGGCGAGCTTTGCCAGTGTAATTTTCCCGATTATACCAGGACCACTGGTGTTATGGATTGGATTCCTGATCTATTTCTTTTTTGTAGATGGGAACGAACTATCGATCTTTTTCTGGATCGGAGCAGTCGTCCTTACGATTCTACTGATCATATCAGATATCATAGCCAATAGTTATTTTGTAAAACGGTATGGAGGCAGCAAATGGGGCGAGCGGGCAGCAGCCGTCGGGGTCATCGTCGGCTCGTTCATTATCCCGCCTTTCGGAATCCTGGTCGTACCTTTTGTACTCGTCATCATCGTTGAACTTGTTCAAAAACGGGAAAGTCAGGATGCCTTTAAGGCGGCTGCAGGCTCCTTGTTCGGCTTCCTGAGCGGAACGGCGGCCAAAATTGTCATCACTCTGATCATGGTCATCTGGTTCTTCATTGATATTTAA	MDILIWVLIIASFAASFASVIFPIIPGPLVLWIGFLIYFFFVDGNELSIFFWIGAVVLTILLIISDIIANSYFVKRYGGSKWGERAAAVGVIVGSFIIPPFGILVVPFVLVIIVELVQKRESQDAFKAAAGSLFGFLSGTAAKIVITLIMVIWFFIDI				NA	NA	NA	NA	NA
AK012_00073	1008	yhdN_1	COG0667	Aldo-keto reductase YhdN	ATGGAAAAAGTAAAAATTAGTAATACATCAATGGAAGCCAGCCGCATCGGCCTTGGTACATGGGCGATCGGTGGCTGGATGTGGGGCGGAACGGACGAAAAGGAATCCATCAAAACGATTCATTCCGCTCTTGATCAAGGCATTAACTTAATTGATACAGCCCCTGTATATGGGTTTGGTAAATCAGAGGAAATTGTCGGAGAAGCTGTGCGCCAGTATGGACGACGGGAAGATCTTCTTTTAGCTACGAAGGTGGCCATGGACTGGAAAGACGAGGAAACAGTCTTCCGTAATGCCAGCAAGGAACGAATCCACCAGGAAGTCGAAGACTCTCTCCGCCGCCTGCAGACGGATTACATCGATATTTATCAGGTGCACTGGCCGGACCCGGTCACACCGATTCATGAGACCGCAGAAGCATTGTCCTACCTGTATAAACAAGGGAAAATCCGCGCCATTGGAGTCAGTAACTTCACGCCGGAGCAGATGGACATCTTCCGTGAGGCTGCACCGCTCCATACGCTGCAGCCGCCGTACAACTTGTTTGAACGGGAGATTGAATCCAAAACGCTTCCATACGTACAGGACCATGAGATTACGACGATCTCCTACGGATCCCTGTGCCGCGGACTGCTGTCAGGGAAAATGTCCACCGATCGTGAATTTGAAGGCGACGACCTGAGGAACAATGATCCGAAATTCAATCAGCCCCGGTTCAAGCAGTATTTGAATGCTGTACAGGAACTGGAGCAGCTTGCGGAAAAACGCTTTGGAAAATCCGTTCTACAGCTGGCCGTACGCTGGGTGCTTGATCAGCCGGGCTCCGGTATCGCCCTTATGGGTGGACGCCGTCCGGACCAGCTGAACCCTGTAAACGGGATCAGTGATTTCCAGATTGATGAACAAACGATGCATGATATCGATGAGATTCTATTGAAGCATGTGAACGATCCGGTCGGTCCTGAATTCATGGCCCCGCCTGACCGTCAGGAGCTCGGACTAAAATAA	MEKVKISNTSMEASRIGLGTWAIGGWMWGGTDEKESIKTIHSALDQGINLIDTAPVYGFGKSEEIVGEAVRQYGRREDLLLATKVAMDWKDEETVFRNASKERIHQEVEDSLRRLQTDYIDIYQVHWPDPVTPIHETAEALSYLYKQGKIRAIGVSNFTPEQMDIFREAAPLHTLQPPYNLFEREIESKTLPYVQDHEITTISYGSLCRGLLSGKMSTDREFEGDDLRNNDPKFNQPRFKQYLNAVQELEQLAEKRFGKSVLQLAVRWVLDQPGSGIALMGGRRPDQLNPVNGISDFQIDEQTMHDIDEILLKHVNDPVGPEFMAPPDRQELGLK	PGPT0008280_11	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0008280-ydjG-K18471	NA	NA
AK012_00074	2394	acyII		Penicillin acylase 2 proenzyme	ATGGAAACAACGAAAGGGGCTGGGGGAGTGGAATCAGCGGGAAAGATCCATTCAGATAAACAAAAGCCGGAAAAAAGATGGAAAAAACCTGTATTCTGGAACATGGGGATTGTCTTCACCCTGCTGCTGGCTGCACTTATTTTTGTAAACGCTTACACGGTGCGGAGCCTTCCTGAAACAGAGGGGGAGGTTTCTCTTGAAGGTTTGTCGAGTTCGGTGGAAGTGCTTCGGGACGGAAATGGCGTGCCTCATATTGAAGCGGATACGCTGCATGATCTATTCATGGCCCAGGGGTATGTGCAGGCCCAGGACCGGCTGTTTCAGATGGAGCTTGCCCGGAGGCAGGCGTCAGGGCGGTTGAGTGAAGTCGTCGGCGAAGCGACGGTGGAGCAGGACCGCTATTTCCGGACACTCGGACTCCGAAGGGCGGCAGAAAAATCGCTGGCTGTTTATCCAGAGGAGACGATCGAACTTCTGGAAGCTTTCGCAGACGGGGTGAACGCTTATATGGAATCAGAACCGCTTCCGCCCGAATTCGCCATGATGGCCATTGACCCGGCCCCTTGGACACCGCTGGATTCATTAACGATTGGAAAATATATGGCGTTTGACTTAGGGGGTCACTGGGAGCGGCAGGCGTTTCATTATTACTTACTGGAAAACTTCCCGGAGGAGGAGGCATACGAATTGTTCTCCGGTTATCCGGAAGGGGCTCCGACCGTCTTAGCGGACGCTGAAGGACTGGATATGGAAAAAAGCTTTGCCGATGCAGTCATTCCCCATGAATTCAATGGAAGCAACAACTGGGTGGTGAGCGGAAGCCGGACAGCCTCAGGTGCACCGGTGCTTGCCGATGATCCCCATCTTGGAATGGCCACCCCCTCCATCTGGTATCAGATGAATTTAAAGGCACCGGATTATGAGGTCTCCGGCGTTATCTTCGCGGGTATACCAGGGATCATTCTTGGTCATAACCCCTCTATAGCCTGGGGCGTTACGAATGTCGGACCGGATGTCCAGCAGCTGTATATGGAAAAAAGAAATCCGGATAATCCTGAGGAATTTTTATATGAAGGGGAGTGGGAGCAGGCGGACGTCATGGAGGAAATCATCCAGGTGAAAGATGGAAGCGATGTACAGCTGGATGTGCTCGAAACGAGGCATGGACCTGTAATCAGCGAATTCAGTGAAGGAGCTGGAGGAGACACGGTCCTGTCGCTGCGTTGGACTGCTCTCGATGCGACGGCAGAACTGGATGCGATCCTGGAAATGAATCAGGCTGACGACTGGGAATCCTTTGAAAAAGGGTTGGAGAAATTTTCAGCCCCTGCCCAGAACTTTGTATTTGCAGGAAAGGACGGGACCATCGCCTATAAAGCCAATGGCCGCATTCCGGTTTACGACGATCCTGATGATGCGCTTCTGCCGTTGAGAGGATGGAAAGCGGAGGATGAGTGGCAGGGCTACATTCCTTTTGATGAGCTGCCCACGGTCATCAATCCTGATCAAGGGTATGTGGCAACAGCCAACAACAAAGTGGTGTCGGAAGAGTATCCGTATCATATCAGCCATAACTGGGCTCAGCCTTACCGGTATACACGGATTGCAGAAATGCTTGAAAGTAATGAGGCTGTGACTGCCGCTGACGTTCAGGCTATGCAGATGGATGTCAAAAATCTTCAAGCGGAAGAGTTCCTTCCTTACCTGATGGAAAACACGGAGGCCCGCGGTGAGGTGGAGAAAAAGGCGCTTCAAATCATGGAGGAATGGAACTTGGAAGACGATCGAAATCTTCCGCAGCCGCTCATTTTCCACCATTGGATGGCCGACATTGAAAACGAATTGTATCAGTCGTCCATCCCTGCATCCATTCAAAGCCTTTTTCGAGGTTCTGCGCAGACGACGGATGAGCTGTTGAGAAAAGACCGGAGAGGAGAAACCTCTCATTGGATCGAAAAGGCAGGCGGAAGCTCGACCTTGATTACCGAGGCTTTTGAAAACACGATACAGGAGCTGGAAGAGGAATTTGGGAAGGATCCTTCTGCATGGACCTGGGGGAGCTTTCATGCGGTTGAGTTTACCCATCCGTTATCAAGCATCGGTTTTCTGGAACGATTCCTGAACCCCGGGGATCCCCTTCCGGTCAGTGGAAGCCGGGTAACCGTAAGAGCGGCCGGGTTTAAGGAGAACGGCCTCGTCAACCATGGAGCCTCCTGGCGCTTCGCTATCGATATGGCTGAGCCGGAAGAGGGCTATCACGTCGTCGGACCGGGGCAGTCCGGGCATTTCCGCAGTGACTGGTATCATGATCAACTGGAAGACTGGGTGGAAGGGCAGTATCATGTCACCCGCCTGAATGAACAGGAAGGAAAAGTGCTTACGCTCCGCCCTTAA	METTKGAGGVESAGKIHSDKQKPEKRWKKPVFWNMGIVFTLLLAALIFVNAYTVRSLPETEGEVSLEGLSSSVEVLRDGNGVPHIEADTLHDLFMAQGYVQAQDRLFQMELARRQASGRLSEVVGEATVEQDRYFRTLGLRRAAEKSLAVYPEETIELLEAFADGVNAYMESEPLPPEFAMMAIDPAPWTPLDSLTIGKYMAFDLGGHWERQAFHYYLLENFPEEEAYELFSGYPEGAPTVLADAEGLDMEKSFADAVIPHEFNGSNNWVVSGSRTASGAPVLADDPHLGMATPSIWYQMNLKAPDYEVSGVIFAGIPGIILGHNPSIAWGVTNVGPDVQQLYMEKRNPDNPEEFLYEGEWEQADVMEEIIQVKDGSDVQLDVLETRHGPVISEFSEGAGGDTVLSLRWTALDATAELDAILEMNQADDWESFEKGLEKFSAPAQNFVFAGKDGTIAYKANGRIPVYDDPDDALLPLRGWKAEDEWQGYIPFDELPTVINPDQGYVATANNKVVSEEYPYHISHNWAQPYRYTRIAEMLESNEAVTAADVQAMQMDVKNLQAEEFLPYLMENTEARGEVEKKALQIMEEWNLEDDRNLPQPLIFHHWMADIENELYQSSIPASIQSLFRGSAQTTDELLRKDRRGETSHWIEKAGGSSTLITEAFENTIQELEEEFGKDPSAWTWGSFHAVEFTHPLSSIGFLERFLNPGDPLPVSGSRVTVRAAGFKENGLVNHGASWRFAIDMAEPEEGYHVVGPGQSGHFRSDWYHDQLEDWVEGQYHVTRLNEQEGKVLTLRP	PGPT0028075_1355	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
AK012_00075	1212	nhaH		Na(+)/H(+) antiporter NhaH	GTGCATGGGTTTCATGATGTATTCATCCAGATTTTAATCTTACTAGCCATTTCCGTCACCGTCATTGCCATTGCAAAATTATTAAAGGAGCCGGATTCGATTGCGCTCGTTCTTGTAGGTCTTGCACTGGGCTTGACGGAACTGCCGTTCATAGAGGAAGCGGAACGGTACATTACCCAGTCGGAAGTATTTCAGGCGACCATCATCTCGTTGTTTTTACCGATACTACTTGGAGATGCAACATTGAAGCTGCCGTTCCATCATCTGTTTTCGCAAAAGAAGACCGTGATGGGACTTGCGTTTATGGGGACGTTTATATCGGCGATCTGTATCGGAACAGCGTCCTACTTTTTCCTCGATCTTCCTCTGGCTGTGGCTTTTACATTTGCAGCTTTGATGAGTGCTACGGATCCCATCAGCGTACTCTCGATCTTTAAATCACTCGGAGTTCCGCAGAAGATGTCGACGATTATGGAAGGTGAGTCCCTTTTTAACGACGGGATCGCCGTCGTATTATTTAAAATCGCCAGTATCTACCTGCTTACTTATATTGAAATGGGATGGTCCGGTCTGGGCAGTGGCGTATTCATGTTCCTGAAGTTCGCCATTGGCGGTGCACTTGTCGGTCTTGTCATTGGCTTTGTCTTTTCACAGATCATCCGGTTTTTTGATGATTATCCGCTCGAAGTGGCTTTCAGTGCATTGTTGTTTTTCGGAAGCTATTTTATTGCCGAGCATTTTCATACGTCCGGAGTTATTGCCGTCGTTGTCGCTGGCTTTGTCTTTGGAGATTACGGTGCGAAAATAGGCATGTCTGAGCAGACCAAAACGAACATCAACACGTTTTGGGACTCCATCACCCTACTTGCAAATGCGTTGATCTTCCTTATGGTCGGCCTGGAGATCCGGAACATCAACCTATCGGAAAACTGGGGTTATATCGCCGGCGCCATCATCATTGTCCTGGCCGGTCGGACAATGGCCCTTTACGTCAGTACAGGATGGATCAAGGAGCTGAATGCCAAGGAGCGTCTGCTGATCAACTGGGGCGGCCTGCGCGGAAGTTTGTCCGTCGCTCTTGCGCTCAGTCTGCCGATGGATTTTGACGGCAGGGACCAGGTGCTGCTTCTGACCTTCTCGGTCGTGTTGTTTTCATTGATTGTGCAGGGGCTGACGTTGAAGCCGCTGATCAAAAAGCTGGGACTTGTCTGA	MHGFHDVFIQILILLAISVTVIAIAKLLKEPDSIALVLVGLALGLTELPFIEEAERYITQSEVFQATIISLFLPILLGDATLKLPFHHLFSQKKTVMGLAFMGTFISAICIGTASYFFLDLPLAVAFTFAALMSATDPISVLSIFKSLGVPQKMSTIMEGESLFNDGIAVVLFKIASIYLLTYIEMGWSGLGSGVFMFLKFAIGGALVGLVIGFVFSQIIRFFDDYPLEVAFSALLFFGSYFIAEHFHTSGVIAVVVAGFVFGDYGAKIGMSEQTKTNINTFWDSITLLANALIFLMVGLEIRNINLSENWGYIAGAIIIVLAGRTMALYVSTGWIKELNAKERLLINWGGLRGSLSVALALSLPMDFDGRDQVLLLTFSVVLFSLIVQGLTLKPLIKKLGLV	PGPT0013930_1184	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013930-nhaK|TC_CPA1-K03316	NA	NA
AK012_00076	831	hdfR		HTH-type transcriptional regulator HdfR	ATGCACTTGCAGCGGATTCAATCATTCATCGAAATTGCCCGTTATCAAAGCTTTACAAAAGCAGCCCAGTCACTGCTGATTTCCCAGCCCGCCTTGAGCAGGCAGATGAAAAAGTTGGAGGAGGAGCTCGGATTTCCATTATTCCTAACATCGCGAACAGGAATCGAATTGACCGCAAAATCCAAAGCCCTCCATGAAGAGCTGGCTCCCCTCTTTTCCCAGATCACCAATATCATTGAACACTACCAGACGGATGGGCGCATACGGTTTGGCTCTACGCCCTACATCAGTACGTATTACATGAATGACTTTATGCCTTCCTTAAATACGATTGATATCCTCGTTACGGAGGTCAGACAGAACAGCCGTGAGCTTCTCCCACTTTTAGAGAACCGCACCATCGATGCAGCGATTGTCGAAGGCCCGCCCGAATGGGAACATCTCTACTCATCGTTTCTATTCCGGGACCACTATGTGGCTGCGGTTTCCAATGATTCCCCCCTCGCCGGGCTCGAGGAGGTTTCCATGGGAGACTGCCTGAAGGAGCATCAAATACTCCCCGCCGAAAACAAGCGGTTTACAGACGTCTTCCAGGACCTGGCTGAAAAAAACGGACGCTCTTACGAAAGCACGGCCGTACATGACCATGCTCATTCCGGATTCGTTTCCCAAGATATGGGGATTGCCTATTTCCCTGAATTAATGGCAAGACACATCGAATACCGGGGCATCACCTTTCTTCCCATTCAGGAACGCCCGCTTTATAGAGACATGTATCTCGCCTCGACATCACCATCTGCCTTCCAAAGACTCCTCCATGTTTTTGGATAA	MHLQRIQSFIEIARYQSFTKAAQSLLISQPALSRQMKKLEEELGFPLFLTSRTGIELTAKSKALHEELAPLFSQITNIIEHYQTDGRIRFGSTPYISTYYMNDFMPSLNTIDILVTEVRQNSRELLPLLENRTIDAAIVEGPPEWEHLYSSFLFRDHYVAAVSNDSPLAGLEEVSMGDCLKEHQILPAENKRFTDVFQDLAEKNGRSYESTAVHDHAHSGFVSQDMGIAYFPELMARHIEYRGITFLPIQERPLYRDMYLASTSPSAFQRLLHVFG				NA	NA	NA	NA	NA
AK012_00077	603			hypothetical protein	TTGAAATGGAATCGGTTATTTTATTATATCATGGGCATCATCACTGTCTATTTCGGTACAGCACTTGTCGTGAAAGCTTCTCTCGGGGCGGGGTTCTGGACGGCTTTGTTTGTCGGATTCAGTGAACGATTCGGTATGTCCGCCGGTTTTTGGTTCGGCATCACCCAGTTTGTTGTTATTTTTGTTAACGCCTGGTTGAAAAAGAGGGGGCCGGATCTTCTTGCTTTTATTCCTATCGTGTTGGAAAGTCTGATTCTGGACTTCTGGCTCATCGTTGTGATGGGAAACTGGGATTTCAGCATGCTTGCGCTATGGATGAAAATCCTGATCTTCACCGGAGGGCTCATTATAGCTACCTTTGGCTTGTCGCTTTATATCCAGACTGGATTCCCACGGGCGCCAGCCGACGATTTGTTTGTTTCAATCAGTGAGCGTTTTCGTATGAGGCTTGGAAGTGCTCAGGTTGTTGTTGCTGTATTGGCAACGTTGATGGCCTATGGAGTCGGCGGTCCGGTTGGGCTGGGGACAGTTCTTTCTGTGTTTCTTGCCGGACCGTGCATTGAGCTCTGGACCGCAAAGACAGCTGCGCTGCTCCCCTCATAA	MKWNRLFYYIMGIITVYFGTALVVKASLGAGFWTALFVGFSERFGMSAGFWFGITQFVVIFVNAWLKKRGPDLLAFIPIVLESLILDFWLIVVMGNWDFSMLALWMKILIFTGGLIIATFGLSLYIQTGFPRAPADDLFVSISERFRMRLGSAQVVVAVLATLMAYGVGGPVGLGTVLSVFLAGPCIELWTAKTAALLPS	PGPT0026395_762	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
AK012_00078	729	cobB	COG0846	NAD-dependent protein deacetylase	ATGTCCTATCAAACGGCAGCCGGGCAGATCGAGCGTGCGGGCCGGATCGCCGTCCTCACAGGTGCGGGGGTCTCAACGGCAAGCGGGATTCCGGATTTCCGCTCCAGTGAAGGATTGTGGACCGAAGATTATTCGCGGGAATACTACATGTCGAACGATTATTTCCAAAGACACCCTGAAGATTTCTGGAAAAAGTACAAGGATATCTTCCGGCTGAAGCTTTTACAAGACTACCGCCCGAACAAAGTTCATCAATTCATCCATGAGCTCGAAACAGCGGACCGGCAAGTGTCCGTCATCACCCAGAACGTAGACGGCCTTCACCAGCTGGCCGGGAGCACGTCTGTCCTTGAATATCACGGCACGTTGAACCAATCCTTCTGCCAGGACTGCGGACGGGCGTATCCGTTGGAAGATGTGATGCAAGCGGTGGTTCCTGTGTGCCGGGACTGCCGGACAACCCTTAAACCCGGAGTCATGCTTTTCGGGGACCTCATCACTGCGCATGATGAAGCAGAAAAAATGGTCACCGATGCCGACCTGCTTCTTGTTATGGGGACCTCCCTTCAGGTCACGCCTTTCAGTCTTCTTCCCTATTACGCATGGGAACAAGGAAACGCAGCGTCTATCCTGATCAATAATGAACCGACAGACAAGGATCATTTGTTTGATACCGTTTTACACGATGACCTTTCCCATGCTGTCCAACAGCTTCAAAAACATCTCTAA	MSYQTAAGQIERAGRIAVLTGAGVSTASGIPDFRSSEGLWTEDYSREYYMSNDYFQRHPEDFWKKYKDIFRLKLLQDYRPNKVHQFIHELETADRQVSVITQNVDGLHQLAGSTSVLEYHGTLNQSFCQDCGRAYPLEDVMQAVVPVCRDCRTTLKPGVMLFGDLITAHDEAEKMVTDADLLLVMGTSLQVTPFSLLPYYAWEQGNAASILINNEPTDKDHLFDTVLHDDLSHAVQQLQKHL	PGPT0013485_1475	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013485-npdA-K12410	NA	NA
AK012_00079	741	nfrA1_1	COG0778	FMN reductase (NADPH)	ATGAACCAAACGATAGAGACGCTGTTGAACCACCGATCCATCCGCAATTTTAAAGATGAAAAACTGACAGACGAACAGCTGGATACCATCCTGAAAGCCGCCCAGCAGGCATCCACGTCCAGTTATATGATGGCTTACAGCATCATCGGGGTAACAGATGAGGAAAAGAAAACCCAGCTGGCTGAAATCTCCGGACAGGATTATGTAAAAAACAACGGTCACCTGTTGGTTTTCTGTGCGGATCTATACCGCCATACCTTACACGCCACATCTGAAGAGTATGAGCAGATGCTGTCCAACCTGGAAAACAGCGAGCATTTCCTCGTATCCGCCATCGACGCAGCCCTCGCCTCTCAGAATGCCGCCATCGCCGCTGAAGCGATGGGACTCGGCATCTGCTATATTGGGAGTCTCCGGAACCAGCTGGATAAAGTCGATGAAATTCTTGACCTTCCTAAGCATGTCCTGCCGCTGTTTGGCATGGTCATCGGCGTCCCGGATCATGAGCCGGACCTGAAACCACGCCTGCCGAAGCAAGCCGTGTATTTCGAAAATGGCTACAACAGGGATCACAAGCAGGAGCTTACGGACTTCGATAAAGAAATTGCCGCCTATTACGAGGCCCGGCAGACAAACAGCCGCAGTGATTCCTGGACCGATCAGATGCGGCGTCGTTTTACAAAACCGATGCGTATGGATGTGACAGGCATCGTGAAGAAAAAAGGATTCAATAAACAGTAA	MNQTIETLLNHRSIRNFKDEKLTDEQLDTILKAAQQASTSSYMMAYSIIGVTDEEKKTQLAEISGQDYVKNNGHLLVFCADLYRHTLHATSEEYEQMLSNLENSEHFLVSAIDAALASQNAAIAAEAMGLGICYIGSLRNQLDKVDEILDLPKHVLPLFGMVIGVPDHEPDLKPRLPKQAVYFENGYNRDHKQELTDFDKEIAAYYEARQTNSRSDSWTDQMRRRFTKPMRMDVTGIVKKKGFNKQ	PGPT0000290_455	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0000290-nfrA1|ywcG-K19285	NA	NA
AK012_00080	345			hypothetical protein	GTGGCGGATCTTTACAGCTTTCAGCATTTCAAAAAGCAGAGGGAAACAAGCGGTGGGACCGCCGATAAACGCCTTCCGGCAGCGGTTTATCGAAGTGTGCTTTATTATATCCGTCTCGATGCAGCCGAGCTGCAGCAGCCGGCGTTTGAATATCTATCGACCCAGTGCAGCCTCCGGGAAATTTATCGTAATAACCAGCTGCTTTTTTTACGTACTTTCCAAACACTCCTGACTCATTGGAAACTCATCCCCGGCACCCCCACCCTGCCGGAAAATCCGTTCACCGTTTTTGGTACGGTAGGGGATCTCTGCGCCTATATCGAAAAAAGGGTGAAAGCTCTATAA	MADLYSFQHFKKQRETSGGTADKRLPAAVYRSVLYYIRLDAAELQQPAFEYLSTQCSLREIYRNNQLLFLRTFQTLLTHWKLIPGTPTLPENPFTVFGTVGDLCAYIEKRVKAL				NA	NA	NA	NA	NA
AK012_00081	252			hypothetical protein	ATGGAAGCCTTATACCTTTATCCATGGGCAGCGCCGCTGCTTGTCGGAATTGCCATTCTTTCCCTGATTGGAACCTACATCAGCTTTAAACAGGAAAAATACTTACTGATGATGAGTATGGGAATCACCCAGACGCTGATCAGTACTTTCCTCGTCACCGGAGCTGCTCCCGTTCTATTCGGCGTCGGACTTACCCAGATTTATTTAGGAGTCGTCAATGTGAAAAGGGTGAAAGCTGTAAGACATGAGTAA	MEALYLYPWAAPLLVGIAILSLIGTYISFKQEKYLLMMSMGITQTLISTFLVTGAAPVLFGVGLTQIYLGVVNVKRVKAVRHE				NA	NA	NA	NA	NA
AK012_00082	960	drrA	COG1131	Doxorubicin resistance ATP-binding protein DrrA	GTGAATGGAAGTATCCAGGTTAACCATTTATCCAAGACATTTAAAAAAGGCGGGGTTCAAGCGGTTAAAGATGTTTCTTTTCATGTGGATGAAGGGGAGTTTTTCGCTTTCCTCGGTCCGAATGGAGCTGGAAAGTCCACGACCGTTCAGATTTTGACCACGTTGATGAACGCAACATCTGGAACGGCCCATGTAGCCGGCTGCGACGTCATCCGTGAACCGGAAAAAGTGAGGCGTCATATTGGAGTAGCTCTGCAGGAAACCGGGGTGGATCCTGATTTGACAGGGAGGGAAATGCTTGAACTGCAGGCCTGGATTTTTGGCTTTGGTAAAAAGGAGGGCCGGGAGCGGGCCTTGAAGCTGTTGGAGATCGTTCAACTGACGGAGGCCGCTGACAGGAGAATCGGACGGTATTCCGGCGGGATGCGCCGTCGTCTTGACCTTGCGCTTACCCTCGTTCATGAACCGGCTGTGTTGTTTTTGGATGAGCCGACAACAGGGCTGGACCCTTCCAACCGTATGGCTGTATGGGAAGAATTGAGGCGTTTAAATAAGGAAAAGGGAACGACCATTTTCTTAACGACCCAGTACCTGGAAGAAGCAGACAGCCTGGCGGACCGGATCAGCATTATCAATGACGGGAAGATCGTTGCAACCGGCACACCGAAGGATCTGAAGGCGAGGGTTGGAAGTGACCTCATTGCCCTCACGCCTGCCGAAGGGGAGGATAGTGAACAGATCCTTCTGCAGTTGAAAGCAGGGCTGATCGACGCGGATGTCATTAAAAAGCAAGAAAAGCTTTTGGTTTATGTCGAGGAAGGAACGAGACAGCTGCTGGAAGTGGCCCGCATCCTCGACCGCGAAAACATTCAGGTCGAGGACATACAATTATCCTCGCCGACCCTGGATGATATTTTTCTCAAGATTACCGGAGAGGGGAAGAAAAGCGATGGGGAGTAA	MNGSIQVNHLSKTFKKGGVQAVKDVSFHVDEGEFFAFLGPNGAGKSTTVQILTTLMNATSGTAHVAGCDVIREPEKVRRHIGVALQETGVDPDLTGREMLELQAWIFGFGKKEGRERALKLLEIVQLTEAADRRIGRYSGGMRRRLDLALTLVHEPAVLFLDEPTTGLDPSNRMAVWEELRRLNKEKGTTIFLTTQYLEEADSLADRISIINDGKIVATGTPKDLKARVGSDLIALTPAEGEDSEQILLQLKAGLIDADVIKKQEKLLVYVEEGTRQLLEVARILDRENIQVEDIQLSSPTLDDIFLKITGEGKKSDGE	PGPT0006725_4709	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_00083	780	drrC	COG0842	putative doxorubicin resistance ABC transporter permease protein DrrC	ATGGGGAGTAATGTTTGGAGAGACACGTGGCTGATGACCGGAAGAAATATAAAAACGACATTGAGAAATCCCTTTTCTTTTATTCCCAACCTCATGATTTCGGCTTTTTTTCTATTGGTCTATGAGGGTGGGTTGAGCGGGATCGCGCAGCTGCCGACGTTTGATGGGGCCAACTATTTAGCTTTTATTCTGCCTGTCTCCATTGTATCGGCAGCCATCGGGGGGGCCGGCGGAGCGGGCCAGAGTATCGTGAAGGATATAGAGAACGGATTCTTTTCCCGGCTGCTGCTCACACCAGCCTCCCGTCTGGCTATTGTACTTGGGCCGATCATTGCCGGGATGCTGCAGCTGTTTGTCCAGACGCTGCTCATCATCGGCATCGCATTCCTTCTTGGCCTTGAAGTGAAGACAGGGGCGGGAGGAGTCCTTTTTGTCCTGTTGATTGCGATCGGATGGGGACTGGCCTTTGCCGGATATTCCGCCGGCGTTGCTTTACGGACAGGGAATGCTCAGGCTGCTCAGGCCGGAACATTCATCTTTTTCCCCCTTATATTTTTGAGCACTACGTTCGTTCCGTATGAACTTATCGACGCCCAGTGGCTCAAGGTTGCAGCTGCCATCAATCCAACCACCTATATTTTCGAAAGTATGCGGACGGTCCTGATTGACGGATGGGTCTTCTGGGATATGATGCAGGGGGTTGTGGCTGTTACCATAGTCAGCACCTTGACCATTACATTTGCGGCAGTGTCAGCGAAGCGGGCGGTTTCCCGTGGATAA	MGSNVWRDTWLMTGRNIKTTLRNPFSFIPNLMISAFFLLVYEGGLSGIAQLPTFDGANYLAFILPVSIVSAAIGGAGGAGQSIVKDIENGFFSRLLLTPASRLAIVLGPIIAGMLQLFVQTLLIIGIAFLLGLEVKTGAGGVLFVLLIAIGWGLAFAGYSAGVALRTGNAQAAQAGTFIFFPLIFLSTTFVPYELIDAQWLKVAAAINPTTYIFESMRTVLIDGWVFWDMMQGVVAVTIVSTLTITFAAVSAKRAVSRG	PGPT0006730_17151	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK012_00084	1029	rsgA_1		Small ribosomal subunit biogenesis GTPase RsgA	ATGAAACGAAAAGATTTTCATGATTATTTTCATGATCAGTTGAAAAAAGGGGAACAGGCAGGAAGGATTGCCGTGTCCACGCAGGGCATCTACACCGTGGTGGATGACGACAGCGCACGCTTTGGAGAAGTATCCGGCCGTTTCCGATACAATACGGTCGGAGAGAGCGGATTCCCTGCCGTAGGAGACTGGGTGGTGATCGAGCCCTATGATAACGGAGCACGGGTTAAGATCCAGCGTGTTTTAAACCGGCAGACGGTCCTGTCCCGCAGCGAAGCGGGCCGGACACATAAAGAACAGGTCATAGCAGCCAATGTGGACATTGTTTTTGTCGTCACCGCTTTAACACGGGAGTTGAATCCCAGAAGGATCGAGCGGTATATTCAACAGGTGTATGAAAGCGGTGCCCGGCCAGTCATTGTCTGTACAAAAAAAGACCTGACCGACGAACTCCATAAACAACTCTTTCAAATCGAGAAGGCGGCTCCCGGCGTCCCTGTGTATCCTGTTGATAATCTGACCGGACACGGCCTGGAGGCTTTGAAAGGCGAATTGGCAGCAGGGCTGACGGTTTCTCTCATCGGTTCTTCCGGTGTCGGAAAGTCAACGTTGATGAATGCGCTGCTGGAAAAAGACGTCCAGGAGACACAGGCGGTCAGAATGGAGGATGACAGGGGGCGTCATACGACGACACACCGGGAGTTGTTCCATCTGCCCGGCGGCTCCTGCATGATTGACACACCAGGGATGAGAGAGCTGCAGCTATGGGGAAATGGAGAAGAGAAGCTTGATCACACGTTTTCGGACATCGAATCTCTAAGTGACAGCTGTCGATTTAGAGACTGCCGTCATGAAAAGGAACCAGACTGTGCGGTGAGAACGGCTATTCAAAACGGAGAAATGGAAGAAAAGCGGCTGGTCAGCTACAATAAACTGAAGCGGGAATTAAGGCGTCAGGAGCTGAAGGATCAGTATGGAACACATCGTACGAACCGGATGCTTTACGGCCCCCATGCAATGAAAGAGTAA	MKRKDFHDYFHDQLKKGEQAGRIAVSTQGIYTVVDDDSARFGEVSGRFRYNTVGESGFPAVGDWVVIEPYDNGARVKIQRVLNRQTVLSRSEAGRTHKEQVIAANVDIVFVVTALTRELNPRRIERYIQQVYESGARPVIVCTKKDLTDELHKQLFQIEKAAPGVPVYPVDNLTGHGLEALKGELAAGLTVSLIGSSGVGKSTLMNALLEKDVQETQAVRMEDDRGRHTTTHRELFHLPGGSCMIDTPGMRELQLWGNGEEKLDHTFSDIESLSDSCRFRDCRHEKEPDCAVRTAIQNGEMEEKRLVSYNKLKRELRRQELKDQYGTHRTNRMLYGPHAMKE	PGPT0009020_2263	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
AK012_00085	1311	glnA_1	COG0174	Glutamine synthetase	ATGGGATACACGAAAGAACAGATTATTCACGAAGTCAAAGAAAACAAAATTGAATTTCTTATCTTGGAATTCACAGATATGCTTGGGGATACAAAGAACGTAGAACTTCCAGTAGAAGAGCTGGAAATGGTTCTTGAAAACGAAGCGATGTTTGACAGTTCCTCCATTTCCGGATTTTCAGATATTCAGGAAAGTGACATGTATCTCTATCCTGATCTCGACACATTCCTGCTTCTTCCTTCCCTTGTGGATGAAGACCGCAGTGCACGTTTCATCTGCGACATTTATAAGCCGGACGGCACACCGTTTGAAGGCGATCCACGCTTCATTCTAAAACGCGCCATGCAGGAAGCTGAAGATATGGGCTATTCCGTCAACGTTGGACCTGAACCGGAATTCTTCCTATTCAAGCTGGACAGCGCAGGCTATCCGATCCGTGAAATGAACGACCGTGGCGGATACTTCGATGCTTCTCCGAAAGATAAAGGAGATAAAGTCCGCCGTGACATCGTACGTACCCTTAAAAAATACGGATTTGAAATGGAAGCGTCCCACCACGAAGTAGCCATGGGGCAGCACGAAATCAACTTCCGTTTTGACAGCATGGTGAAAACAGCTGATAACATCCAAACATTCAAAAATGTCGTGAAAGACATTGCAACCAACCATGACTATCACGCAACCTTCATGCCGAAGCCGATTTCCGGAGAAAACGGTTCAGGTATGCACTGTCACCTGTCCTTATTCCAAAACGGAGACAGCGCCTTCTATGATGAAGATGCGAATGATGGCATTTCCAAAACAATGAAACAGTTCATCGCGGGTATTCTGCACCACGCAAGCGGAATTGCTGCTATTACAAACCCGAACGTGAACTCCTACAAACGTCTCGTTCCGGGTTATGAAGCGCCGGTAAGTGTGGCATGGTCCCACTCCAACCGCAGCTGTATGGTCCGTGTACCAACAACCCGCGGAAAAGGAACGCGCTTTGAAGTCCGTAACCCGGACCCGACTGCAAACCCATACTTGACGCTTGCTGTATTGATCCAAGCGGGTCTTGACGGCATCAAGAAGGAAATGGACGCCGGCGAAGCGGAAAGCCGTAACCTGTATGAAGTGGAAGACGAAAGTGTACCAACGCTTCCAACAAACTTGAAAGAAGCTCTTGGAGCCTTGAAAAAAGACGATCTTCTTCTATCTGCACTCGGCGAGCACACATCCGGTGCTTATATCGAAGAAAAGCAAAAAGAATGGACAGAATATTCCCTGCAGGTCAGCAAATGGGAAATCGAAAAATATATGAACAAGTAA	MGYTKEQIIHEVKENKIEFLILEFTDMLGDTKNVELPVEELEMVLENEAMFDSSSISGFSDIQESDMYLYPDLDTFLLLPSLVDEDRSARFICDIYKPDGTPFEGDPRFILKRAMQEAEDMGYSVNVGPEPEFFLFKLDSAGYPIREMNDRGGYFDASPKDKGDKVRRDIVRTLKKYGFEMEASHHEVAMGQHEINFRFDSMVKTADNIQTFKNVVKDIATNHDYHATFMPKPISGENGSGMHCHLSLFQNGDSAFYDEDANDGISKTMKQFIAGILHHASGIAAITNPNVNSYKRLVPGYEAPVSVAWSHSNRSCMVRVPTTRGKGTRFEVRNPDPTANPYLTLAVLIQAGLDGIKKEMDAGEAESRNLYEVEDESVPTLPTNLKEALGALKKDDLLLSALGEHTSGAYIEEKQKEWTEYSLQVSKWEIEKYMNK	PGPT0000645_9257	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
AK012_00086	417			hypothetical protein	ATGACGAAATATCATCATATAGGAAAAGTCTTGATCTGTTTTTTGTACGTTTTCTTAATAGCCGTCCTTCAGCCGGATCTGCAGAAGCTGGCGGCATCGGGGCACATTTATTATTATCTTCTGCTGATGCAGACCGTCTACATCCCTGCAGGCATCATCCTTGCTCTTCCTGTGTCCCTGTCTTCCTATCGTTTATCAAAACGGACCTTATTTCTGCTTACCCTATATGTCCTACCCTGTTTTTTATTTCTTTATGTACCTTTTTTCATTCCGGGCGCGGTGATATTTCCTGAACGGCTTCATTCCGACCCCTATGCAGGGGTGATCATCCAGGTCCTGCTCGGTTATGGAGCGGCAGTGGCGGGGAAGGAGTCCGGTGAAGCAAAAAACAGCGGCGGTAATGGACGCAGGCGGTAA	MTKYHHIGKVLICFLYVFLIAVLQPDLQKLAASGHIYYYLLLMQTVYIPAGIILALPVSLSSYRLSKRTLFLLTLYVLPCFLFLYVPFFIPGAVIFPERLHSDPYAGVIIQVLLGYGAAVAGKESGEAKNSGGNGRRR				NA	NA	NA	NA	NA
AK012_00087	927	ppaC	COG1227	Manganese-dependent inorganic pyrophosphatase	ATGAGTAAGACTCTTATTTTCGGTCATAAAAACCCGGATACGGATACGATTACGTCTGCGCTTGTGTACGCGGACTTGAAAAAAGCCCTTGGTGAGGATGTAGAACCTGTACGTCTTGGTGACGTGAACGGGGAAACCCAATACGCACTGGATCAATTTAACGTCGAAGCGCCGCGTCTTGTAGAGCGTGTCTCTGATGAAGTGGAACAGGTGATTCTTGTTGATCATAACGAGCGCCAGCAGAGTGTATCAGACATTGATGACGTGACGGTTCTCGAGGTTATTGACCACCACCGCATCGCCAACTTTGAAACGAACGGACCGCTGTACTATCGTGCAGAGCCGGTCGGTTGTACAGCGACGATTCTCCTTAAGCTTTATAAGGAAAAAGGTCAGGAGGTTTCCAAGCCGATGGCAGGACTGATGCTGTCTGCGATCATCTCTGATTCCCTTCTGTTCAAATCTCCGACATGCACTGAAGAAGACCGCCGTGCAGCGGAGGAACTTGCTGAAATCGCCGGTGTCGATGCAGAGGAATACGGCTTGAAAATGTTGAAGGCTGGGGCGGATATCAGTGAGAAAACCGCCGAAGAACTCATTTCCCTTGATGCCAAGGAATTCGATATGGGCGGAAAGAAAGTCGAAATCGCTCAGGTGAACACGGTGGATACGAATGATGTTCTTTCCCGTAAGGCAGAGCTTGAAGCGGCCATGGATAAAAACGTGTCCGGAAAAGGGCTGGATCTGTTCCTTCTTGTCGTAACGGATATCCTTGAAAGTGATTCTACCGTCGTTGCGGTCGGAAGTGAAACAGCGGCTGTAGCAGAAGCTTTTGAAACGTCCCTTGATGGGAACCAGGCTGTACTCAGCGGTGTTGTCTCCCGTAAGAAGCAGATTGTTCCCCCACTCAATACGTATTTTGGATAA	MSKTLIFGHKNPDTDTITSALVYADLKKALGEDVEPVRLGDVNGETQYALDQFNVEAPRLVERVSDEVEQVILVDHNERQQSVSDIDDVTVLEVIDHHRIANFETNGPLYYRAEPVGCTATILLKLYKEKGQEVSKPMAGLMLSAIISDSLLFKSPTCTEEDRRAAEELAEIAGVDAEEYGLKMLKAGADISEKTAEELISLDAKEFDMGGKKVEIAQVNTVDTNDVLSRKAELEAAMDKNVSGKGLDLFLLVVTDILESDSTVVAVGSETAAVAEAFETSLDGNQAVLSGVVSRKKQIVPPLNTYFG				NA	NA	NA	NA	NA
AK012_00088	675	mbtK	COG1670	Lysine N-acyltransferase MbtK	GTGATAATGAGAATCATTTTCATTAAAGGGGTTGACGTATTGAAAATCACTGACGTAGAAATCACGGAACTGGAAAAGAAAGATGTTTTCACGTTCCGGCCATTGAGGTTAGAGGATGCGGACACACTTTATGCGTGGATGCATCAGAAGCACATCGCTCCCTTCTGGAAGCTCGATCTGCCGATGGAATCATTCAAGGAATGGGTGGAGTCATCCATTACAGCCGAACATAAAGATTGTTACCTTGTAGATTGGAATGGAGAACCGGCAGGCTACTTAATTGCCTACAGAGCTGTGGATGACCCTGTTCATCACTACTACGATTACCGTGTGGGAGACCTTGGCATGCATGTCCTTGTCGGCCCTGAGAAGTATTTGAACAAGCAGTCAGGAAGGCAGCTGCTGCAGTCTATGATTCAATTTTTATTCTTCACTTACGAAACAGAACGAATCATTGGAGAACCGGATATCCGTAACAGGATCATTCTACCCATCATGAAGGGACTGGGCGGGGAAGTTCTTCATCGCATTCATCTTCCTCATAAGCGGGCGGCTTTGATTGCGGGAGAGAAACAGACCGTTGAACAAGTCCGTAACAAGCGGGGCATTCACGTTTCCTTTCAGACTAAAGAAGGAAAGGAGGCTCTTCATGGAAAAAACGGGGGAAGTAAATGA	MIMRIIFIKGVDVLKITDVEITELEKKDVFTFRPLRLEDADTLYAWMHQKHIAPFWKLDLPMESFKEWVESSITAEHKDCYLVDWNGEPAGYLIAYRAVDDPVHHYYDYRVGDLGMHVLVGPEKYLNKQSGRQLLQSMIQFLFFTYETERIIGEPDIRNRIILPIMKGLGGEVLHRIHLPHKRAALIAGEKQTVEQVRNKRGIHVSFQTKEGKEALHGKNGGSK				NA	NA	NA	NA	NA
AK012_00089	963	aes_1		Acetyl esterase	ATGGAAAAAACGGGGGAAGTAAATGAACAAGTATCCGCCCTGCTACATAAAATCAGCAGCAGAATGAAAGAACTCCACCATCCTCCGTTGGATGTGCTGACGCCCCGGCAATCCCGCGAGTACTACAAGATTGCCCGTACTTATTTTCCTGAAATCCCTGTCCAGGGTGTAGAAACCAGGGATGATTCCATCAGGGCTTCCCAAGGCCATTCTATTCCAGTCCGCATCTATACACCTTCAGGCAGGGGAAATCTCCCGGTTCTCGTCTATTTCCATGGCGGCGGATGGGTGTTCGGGGACATCGACAGTGCTGATTCAGCCTGTCGTTATCTTGCTTCTCATTCAGAAATCATTGTCGTCTCGGTTGGGTATCGGCTGGCACCGGAGCATAAATTCCCGGCCGCTTATGAGGATGCGCTTGAGTCCGTCTCAGAGGTGCGCCGGCAATGGCCCGATGCCCCCCTGTACGTAGGCGGGGAGAGCTCCGGGGGCAATCTGGCCGCAGCCGTCTCCGGGTATTATAAAGGCAGCCGGGAGGTTTCTATTGAAGGACAGCTGTTGATCACTCCGGTCCTTAACTACGATTTTTCAACGGACAGTTATCAGGAAAACTTTCGATATAACTTGACAACCGAGAAAATGAAGTGGTTTTTCAACCATTATTTAAACAACGAGGAAGAGGGTGGGAAGGTGGAGGTCTCTCCGCTTCGCAGGGAGGATAAACAAGGCCTTCCTGAAACCGTGCTTGTCACTGCCCATTTCGATCCCCTCCGGGAAGAGGGGGCGGCGTATCACAGACAGCTGCAGGAAGCGGGGGTGCGTGCAGAAAGACTTCACTTTGAAGACCTCGTCCACAGTTTTATCAATATGGCAGGAACCGTGGACCGAGCGGAACAAGCGCTCGCAGACACAGCCGCTTCCTTGAAAGCCATGGTGCATCCAAACGTTCACGCTGATCGATGA	MEKTGEVNEQVSALLHKISSRMKELHHPPLDVLTPRQSREYYKIARTYFPEIPVQGVETRDDSIRASQGHSIPVRIYTPSGRGNLPVLVYFHGGGWVFGDIDSADSACRYLASHSEIIVVSVGYRLAPEHKFPAAYEDALESVSEVRRQWPDAPLYVGGESSGGNLAAAVSGYYKGSREVSIEGQLLITPVLNYDFSTDSYQENFRYNLTTEKMKWFFNHYLNNEEEGGKVEVSPLRREDKQGLPETVLVTAHFDPLREEGAAYHRQLQEAGVRAERLHFEDLVHSFINMAGTVDRAEQALADTAASLKAMVHPNVHADR				NA	NA	NA	NA	NA
AK012_00090	138			hypothetical protein	ATGAAGGTGTCCACTTGGAAACGATTTTCAGCGGAAACGAATGGGCTGTCCATCTTCATGGGTTCCGTTTATTTTGTCGGCATCACCAGCATGCAGGAAAGTCATGTACCAGGACCTGCTGATATGGCGGCGGGGTAA	MKVSTWKRFSAETNGLSIFMGSVYFVGITSMQESHVPGPADMAAG				NA	NA	NA	NA	NA
AK012_00091	444	cwlJ_1	COG3773	Cell wall hydrolase CwlJ	ATGCCGAGAATTCAATACAACGATTCAGATGTTTCCTTAATGGCCCGGATGATGCGTGCAGAAGCCATAGGGGAAGGGAAGCAGGGGATGTTGTACGTCGGGAACGTCATTGTAAACAGGGCGAAGTCGGATTGTCTGGATTTTAGAAATGTGCGCAACATCAATGATGTTATTTATCAGGTTCAGGGCGGGAACTATTCGTTTGAAGCTGTTCAAAAAGGAAACATGTTCTATAACCGGGCACGTTCCACAGAAAAAAGGCTGGCGAAAAAGAACCTGGATTACTGGCGCCAGCACCCGGCTAAATATGCCCTTTGGTATTTCAACCCCTACGCCCCATGTCCTGACACATGGTACGGCCAGCCCTTTGCGGGACAATACAAGCAGCACTGCTACTATGAGCCGTCGCCGGGGACCTGTGATAGTGTCTATATTGGAAGCTGA	MPRIQYNDSDVSLMARMMRAEAIGEGKQGMLYVGNVIVNRAKSDCLDFRNVRNINDVIYQVQGGNYSFEAVQKGNMFYNRARSTEKRLAKKNLDYWRQHPAKYALWYFNPYAPCPDTWYGQPFAGQYKQHCYYEPSPGTCDSVYIGS				NA	NA	NA	NA	NA
AK012_00092	174			hypothetical protein	ATGACAGAGAAGCAGCATGAGGAAATCATTCAGGAGCTGAAGGAACTGAACGAAAGAATGGATCAGATGGAAAACCGTCCTCCCGTAACGAAAATCCTTTATATTCTTTTATTTGGAGCGGGATTTCTGCTTTTTGCTCCGTTCTTTATTGATGTTTTAACGATGCTTTTTTAG	MTEKQHEEIIQELKELNERMDQMENRPPVTKILYILLFGAGFLLFAPFFIDVLTMLF				NA	NA	NA	NA	NA
AK012_00093	195			hypothetical protein	ATGGGCACAATAGAAAGTCTGTATGAGTTTGCCATTGCGGTTCTGCTTCTATGCAGTCTGCTTTCCATCCTGCAGATGAGGAGGACGAAGAAGCAGAGGAAGCTGACATGGTTTGAAACCGGGCTTTATCGGGTTATGCAGGGAGCGGCTGCTTTATGGATCGGGACGTTTGTCTACATCTACTATATCGGATAG	MGTIESLYEFAIAVLLLCSLLSILQMRRTKKQRKLTWFETGLYRVMQGAAALWIGTFVYIYYIG				NA	NA	NA	NA	NA
AK012_00094	1935	fbp	COG3855	Fructose-1,6-bisphosphatase class 3	GTGTTAAAGGATAAATACTTAGAACTTCTTGCCAAGGAATACGATAGTGAAGAGAAAGTGATTACAGAACTGATCAATTTAAAGGCTGTCCAGAACCTTCCTAAAGGAACGGAGCACTTCGTCAGCGATCTGCACGGGGAATACCAGGCCTTTCAGCACGTACTCCGCAATGGATCAGGCAAGGTCCGTGAAAAGATCAGTGATTTGTACAAAGGCATTCTTTCTGAACAGGAATTGAACGAATTCGCCACGTTGATTTATTATCCTGAAGAAAAAATGCAGCGCATTAAAAATTCCTTTGACCGGAGGGAGGACCTGGAGCTCTGGTATGAGGTCATGATTGAGCGGATGATCAAACTGATTTCCTATGCTTCTTCGAAGTACACCCGCTCCAAGCTCCGCAAAGCGCTTCCCGAGCCTTTCGTCTACATTGTGGAAGAACTGCTCTATAAAACCGAAGATTTTGCGAATAAGGAATCCTACTATAATAAGATCGTTCAGCAGCTGATTTCCCTCGATCAGGCGGATCAGCTTCTTATCGGCCTTTCCTATACGACGCAGCGTCTCGTCGTTGATCATCTTCATGTGGTCGGGGATATATACGACCGGGGTCCGGAGCCGGATAAAATTATGGAAACATTGATGAACTACCATTCGCTTGATATCCAGTGGGGGAACCACGATGTGCTTTGGATCGGAGCGTATGCCGGCTCCCAGGTATGCCTGGCTAATATCATCCGTATCTGCGCCCGCTACAATAACCTCGATATTATCGAGGATATGTACGGAATCAATCTGCGTCCGCTTATGACGCTCGCCGAAAAGTACTATGATGATAACGCTCCTTTCCGTCCGAAGGTCCAATCCGGCTATCAGCCCTCAGAGGATGAAATCGTCCAGATTTCTAAAATCCATCAGGCCATTGCCATGATTCAGTTCAAGCTGGAAAGTCCAATCATCAAACGCCGCCCCTATTTCAATATGGATGAACGCCGTCTTCTTGAAAAGGTCGATTATGAGCGTCAGGAAATTACGCTGCAGGGAACAACGTATCCGTTGGAAAATACTTGTTTTGCAACCATTGATCCCGAGGACCCGGCTCGTCTGCTTCCTGAAGAGCAGGAAGTGATCGATAAACTGTTGTTCTCCGTGCAGCATTCGGAGAAGCTGGCCAGACATATGAAATTCTTAATGAAAAAAGGCAGTCTCTATTTGAAATACAACGGCAATCTGCTCATTCACGGGTGCATTCCGATTGATGAAGATGGAAATATGGAAGAAATGAAGATCGAAAACCAGACGTACGCAGGCCGGGAACTTCTTGACCAATTTGAGAAATTCCTGCGCCAGGCCTTCGCAAATCCTAATACCATAGATGACCTGGCTACAGACATGGTGTGGTATCTATGGACAGGAGAGCACTCCTCCTTGTTCGGTAAACGGGCCATGACGACGTTTGAACGGTACTTTATCCGTGACAAGTCGACGCATAAGGAAAAGAAAAATCCGTATTATTACCTTCGTGAAGATGAAGAGATCTGCAGGAAAATTCTCGAGGAATTTGATATGAACCCGGACCAGGGGCATATCATTAACGGTCATACGCCTGTGAAGGAAATCGAAGGAGAAAACCCAATCAAGGCGAATGGCAAAATGGTCGTCATCGATGGTGGGTTTTCGAAAGCTTATCAGCCGAAAACCGGTATTGCCGGGTACACGCTTCTGTACAACTCCTACGGGATGCAGCTGGTAGCCCACCAGCACTTCAATTCCAAGGAAGAGGTGCTCCGTGACGGAACGGATGTTTTGTCTGTGAAACGCCTGGTAGATAAGGAACTGGAACGGAAAAAAGTGATGGAAACGAATGTTGGAGCGGAGATTCAGGAGGATATTGATAATTTGAAGCAGCTCTTGAAAGACCGGTATTTGAAGTGA	MLKDKYLELLAKEYDSEEKVITELINLKAVQNLPKGTEHFVSDLHGEYQAFQHVLRNGSGKVREKISDLYKGILSEQELNEFATLIYYPEEKMQRIKNSFDRREDLELWYEVMIERMIKLISYASSKYTRSKLRKALPEPFVYIVEELLYKTEDFANKESYYNKIVQQLISLDQADQLLIGLSYTTQRLVVDHLHVVGDIYDRGPEPDKIMETLMNYHSLDIQWGNHDVLWIGAYAGSQVCLANIIRICARYNNLDIIEDMYGINLRPLMTLAEKYYDDNAPFRPKVQSGYQPSEDEIVQISKIHQAIAMIQFKLESPIIKRRPYFNMDERRLLEKVDYERQEITLQGTTYPLENTCFATIDPEDPARLLPEEQEVIDKLLFSVQHSEKLARHMKFLMKKGSLYLKYNGNLLIHGCIPIDEDGNMEEMKIENQTYAGRELLDQFEKFLRQAFANPNTIDDLATDMVWYLWTGEHSSLFGKRAMTTFERYFIRDKSTHKEKKNPYYYLREDEEICRKILEEFDMNPDQGHIINGHTPVKEIEGENPIKANGKMVVIDGGFSKAYQPKTGIAGYTLLYNSYGMQLVAHQHFNSKEEVLRDGTDVLSVKRLVDKELERKKVMETNVGAEIQEDIDNLKQLLKDRYLK	PGPT0017660_299	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017660-fbp3-K04041	NA	NA
AK012_00095	210			hypothetical protein	ATGAGCCTGTCTGCAGCCAAGTTCTTTACCACCGGAAGTCTGGTCGTAGGAGATCTGCTTGTCCAGGGCATCTTTTTCCTGGTTCTTGCCGCTGCTGCCGCTGGTGTCATTTCTGTGGGGATGACTTCAAGGAAGAAGAAAAGGCAGCTGGACCGTCTGGAAGAAAAACTTGATCTGCTTATTCGTGAAGCACATAATAAAGAAAGATGA	MSLSAAKFFTTGSLVVGDLLVQGIFFLVLAAAAAGVISVGMTSRKKKRQLDRLEEKLDLLIREAHNKER				NA	NA	NA	NA	NA
AK012_00096	537			hypothetical protein	ATGAACCGATGGAAACTCATCAGTGCTCTTCTTCTTTTTACGACGCTTATCTCGTCCTACCTGGCTTTTAACTTCAGCCGTGCAGATGAAGTCGATGAATTTTCAGCTGCCGCCGCGGATTCTCTTGTCAAGGAGCTCCCCTACGTGTTCGATGATCTGATTGTCAGCTTCGAATCCTATCACAAGGAACCTGCTGAAGATACGGAAGCACAGATGAAAAACGCCCTTTTAACAAAAAGCCTGCAGCGGTTGACCGGAAATCAGCGCCTGCTTAGTACGGCCGAGCGTTCATCCCTGCTTGAAAAAGGCTGGTTCAATGATTACACCCACACCCTGTTCACTCTGCACGGCATCATCACCGATCATTCCTTCGAACAGAAGACAGAAGAAAACAGTCAAGCATTCATTGAGGCGCTGCGCATGTTAAAGGAAGAGCTCGAAACAATCGTCAACGACCCCGCTTTTTCCATAGAGGATCGTTCCAAGCTGGACGAGCTGACAACAGCCATCCAGCAATTTAATGAAAACCATCGTTGA	MNRWKLISALLLFTTLISSYLAFNFSRADEVDEFSAAAADSLVKELPYVFDDLIVSFESYHKEPAEDTEAQMKNALLTKSLQRLTGNQRLLSTAERSSLLEKGWFNDYTHTLFTLHGIITDHSFEQKTEENSQAFIEALRMLKEELETIVNDPAFSIEDRSKLDELTTAIQQFNENHR				NA	NA	NA	NA	NA
AK012_00097	576	speG_1	COG1670	Spermidine N(1)-acetyltransferase	TTGCCAAAGCTGAAAAAGCCGTTAAAACTGACCACCAGCCTTGTTACATTAAGAAGCATTGAAGAAGAAGATATACCCGTTCTCTATCCATTGATATATGGAAAAAATGCGGAATGGAAAAAGTGGGATGCTCCTTATTATCCCCTTGAGCCTCATACGATGGACAGCTACAGAAGTCATGAGCACGCCAGAAAACGGCGTCTGGCCCCTGACGAGCCCGACTCCCGGCTGCTCATCGAGGTGGACGGGATCATTATCGGCACGGTTTCCTATTACTGGGAACACAAACCCTCCCTATGGCTTGAAGTCGGCATCGGGATTTATAATCCCGCCTACTGGAACGGCGGTTACGGATCGGAAGCGCTCAAGCTGTGGATCGGTTATTTATTCCAGACCCTTCCCCTTGCCCGGGTGGGGCTTACCACGTGGTCGCGGAATGAACGGATGATGCGGGTCGGGGAGAAACTTGGAATGAAAATAGAGGGGAGAATGCGGAAAGTGCGTATTTATCAAGGGGAGTACTACGACTCCATCCGTATGGGCGTCCTCCGGGAAGAGTGGCATCAGCAGGTATGA	MPKLKKPLKLTTSLVTLRSIEEEDIPVLYPLIYGKNAEWKKWDAPYYPLEPHTMDSYRSHEHARKRRLAPDEPDSRLLIEVDGIIIGTVSYYWEHKPSLWLEVGIGIYNPAYWNGGYGSEALKLWIGYLFQTLPLARVGLTTWSRNERMMRVGEKLGMKIEGRMRKVRIYQGEYYDSIRMGVLREEWHQQV				NA	NA	NA	NA	NA
AK012_00098	951	corA	COG0598	Cobalt/magnesium transport protein CorA	ATGATTCAAGTCATGGCCTATTCAAAAGAAAACGGCCTGAAAGAAGGGTTGTCTGTGGATGACCTTCATAACCAGCATTGGGATTGGTACTGGGTGGATTTTGAAGCTCCGACGGAAGACGAAGTGAAACGTTTGGAGTCCGACTTCCACTTTCACCCACTTGCCGTGGAGGATTGTCTGCATGGACTGCAGCGTCCGAAGCTGGATTATTATGACGACCATACGTTTCTCGTCATCCATTCAGTGGACAGCCGGACGTTGGAGCGGAAGGAAGTGGACATTTTTCTCGGGGAGTGTTCCATTGTTACTTTTCATAAAGAAAAGAACGGTCCACTGGATCAGGCGCATAATATTGTAAAACGGACACGCGACTTTACGCAGGTGGATGAGTATTATATTTTTCATCAGATTCTGGATAAAGTCGTCGACAACTATTTCCCCATCATCTATAACATTGAGGATCATATCAATGATATTGAGGACAACACGAAAAACCTGTCGATGGAAACCCTGTTGGAGCAGTTGTTTGACAGGAGGGGGGAACTGCTGACGTTAAGACAGACGGTCCACCCGATGCGGGACCTCCTGTACCGCATATTGAACTCTCACCATTTAGACGGGGTGTTTGAGCGGAGGGAATACTTTGCGGATATCCATGACCACTTGATCAAAGTCGCGGATATGATTTTGTCCAACAGGGAAATGACCCAGGATATCAGGGACAGCTATATGTCCCTGAACTCCCATGAAACGAACAGGACCATGCAGATTCTGACCGTCATCAGCGTGATCTTCATGCCGCTGACATTCATTGTCGGTGTGTATGGCATGAACTTTCAGCATATGCCGGAGCTTGGTTTCCAATACAGCTATCTCATCGTCTGGATCATTATGATCGGCGTAGCTGCAGGGATGTTCTTCTGGTTCAAGAATAAAGGCTGGTTTGATTGA	MIQVMAYSKENGLKEGLSVDDLHNQHWDWYWVDFEAPTEDEVKRLESDFHFHPLAVEDCLHGLQRPKLDYYDDHTFLVIHSVDSRTLERKEVDIFLGECSIVTFHKEKNGPLDQAHNIVKRTRDFTQVDEYYIFHQILDKVVDNYFPIIYNIEDHINDIEDNTKNLSMETLLEQLFDRRGELLTLRQTVHPMRDLLYRILNSHHLDGVFERREYFADIHDHLIKVADMILSNREMTQDIRDSYMSLNSHETNRTMQILTVISVIFMPLTFIVGVYGMNFQHMPELGFQYSYLIVWIIMIGVAAGMFFWFKNKGWFD	PGPT0014010_4217	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014010-corA|yfjQ-K03284	NA	NA
AK012_00099	381			hypothetical protein	ATGATCGAAATACGGACTTCCACACTGGAAGACGATGAAATGGGCCGCGGAATGTTTGCCGTCCGTGATATTCAAAAAGATGAATTGATCCACAGGGCGCCTGTGATTCCTTACCCAAATGAAGAGCATGTGCATATTGAAAAAACGATGCTCGCTGATTATGCCTTCGAATACGGGGAGAACCATACCGCCTTCGTCCTTGGATACGGGATGATGTTCAACCATTCTTATAAACCGAACGCCAATTATGTCATTAATTTTGATACGCATACGTTTGACTTTTATGCTCATACAGATATTCAAGCGGATGAAGAAATCTTCATTAACTATAACGGCTTCGTCGATGATGACGAGCTGCTCTGGTTTGATCAGGAAGAATAA	MIEIRTSTLEDDEMGRGMFAVRDIQKDELIHRAPVIPYPNEEHVHIEKTMLADYAFEYGENHTAFVLGYGMMFNHSYKPNANYVINFDTHTFDFYAHTDIQADEEIFINYNGFVDDDELLWFDQEE				NA	NA	NA	NA	NA
AK012_00100	1524	opuD_1	COG1292	Glycine betaine transporter OpuD	TTGCTGAAAAAATACAACATGGTGTTTAAGGTATCCGCGGCAATTATGCTGGTACTGGTTGTGTTCGGCGTCGTATGGCCGGATGCGCTCGAACAGATGACCTCATCGATAAAAACGCTGATTGCCAACACCCTTGGGTGGTATTACTTGATTGTTGTTACGTTATTCCTTCTCGTCTGTCTATCTTTCTTAGTGACGCCGCTCGGAAGGATCAAGCTTGGAAAAAAGGACGATAAGCCGGAATTCTCCCGTCCGACCTGGATTGCGATGCTGTTCAGTGCCGGGATGGGCATCGGGCTGGTATTCTGGGGAACCGCTGAGCCGATCAGCCATTACGCGGTCAGTTCACCGACAGGGCAGACCGGAACAGAGCAGGCGATTAAGGATGCTATGAGATTTACGTACTTTCACTGGGGGATTCATGCCTGGGCGATTTACGGCATTGTCGCCCTCGTGCTCGCCTATTTTAATTTCCGTCATGAACAGCCGGGTCTGATCAGTGCGACGCTGAAGCCTTTGGTGGGGGAAAAGGCCGCGCGGGGCGTTTTCGGTCAGGTCATCGATATTCTGGCTGTTGTGGCCACGGTGATCGGGGTCGCAACGACGCTTGGATTTGGTGCGGTTCAGATTAATGGAGGGCTTTCCTATTTGTTCGATCTTCCTTCGGGCATTCTCGTCCAGTTTATAATCATTGCTGTCGTGACGGTCCTGTTTATGATTTCCGCCTGGTCAGGGCTTGGGAAGGGAATTAAAATTCTCAGTAATGCCAACATGGGTCTGGCCGGCCTGTTGTTTCTGCTCGTCTTCATTCTCGGACCGACCATGTTTATTCTAAACTTATTTACGAACTCGATTGGGACGTATGTACAGAATCTGCCGATGATGAGCTTCCGGATCGCTCCATTAAACCCGGATACAAGAGACTGGATTGACGCGTGGACGTTGTTCTACTGGGCATGGTGGATTGCCTGGAGTCCATTTGTCGGTGTCTTCATTGCCAGAGTTTCCAGAGGCCGGACGATCAGGGAATTTGTTTTTACGGTCCTGGTTGTTCCATCGATCATCGGGTTCCTGTGGTTTTCCACATTCGGGGGAACGGCGATTGATATGGAGCACAGCGGTCTGCGTATGATATCGGAGCTGTCTGCTGAAGAATCTTTGTTCGGGGTTTTTGAAAACCTTCCGCTCGGCTGGATCGCTTCAATCACTGCGATGACGCTTGTGGCGACATTTTTCATTACCTCTGCAGACTCAGGGACTTTTGTCCTTGGCATGATGACGACAGGTGGATCGGAAACACCGGGCACGTCCATTAAGCTGACGTGGGGCGTGCTTCTTTCCGCAACTGCAGTCGCCCTGCTGTATACCGGAGGGCTGCAGGCTCTGCAGAACACAATGATCATCGCTGCTCTGCCGTTTTCCATTATTATGCTGCTGATGGTGTTCAGTTTTATTAAAGCGATCTATAAGGAGGGGAGGGAGCTGGGCGTCGGCCGGTTCCATCCTCCTCAAAAAGATAAATAA	MLKKYNMVFKVSAAIMLVLVVFGVVWPDALEQMTSSIKTLIANTLGWYYLIVVTLFLLVCLSFLVTPLGRIKLGKKDDKPEFSRPTWIAMLFSAGMGIGLVFWGTAEPISHYAVSSPTGQTGTEQAIKDAMRFTYFHWGIHAWAIYGIVALVLAYFNFRHEQPGLISATLKPLVGEKAARGVFGQVIDILAVVATVIGVATTLGFGAVQINGGLSYLFDLPSGILVQFIIIAVVTVLFMISAWSGLGKGIKILSNANMGLAGLLFLLVFILGPTMFILNLFTNSIGTYVQNLPMMSFRIAPLNPDTRDWIDAWTLFYWAWWIAWSPFVGVFIARVSRGRTIREFVFTVLVVPSIIGFLWFSTFGGTAIDMEHSGLRMISELSAEESLFGVFENLPLGWIASITAMTLVATFFITSADSGTFVLGMMTTGGSETPGTSIKLTWGVLLSATAVALLYTGGLQALQNTMIIAALPFSIIMLLMVFSFIKAIYKEGRELGVGRFHPPQKDK	PGPT0013600_1044	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK012_00101	567			Ferredoxin--NADP reductase	ATGTACGATATTGGAATCATAGGTGCCGGCCCCGCCGGAGCCAGTGCCGGACTGTTTACAGCGAAAGCAGGTAAAAAAACATTAGTCATCGATCATGGAAAAAGCATAACCGCTAAGGCCTGGGTCGAGAACCATTACGGAGTGGATGCCGTTGAAGGTCCGAAACTTCTTGAAACGGGACAGCAGCAGCTGACGAAATTCGGAGCGGAGTTGAAATCAGAAGAAGTAACTGCGATCGATTTGAAGGATGGCGCTTATTATGAGATTACAACGACGGAAGGAAGCTACCAGGTGGAGCACATCCTTTTTGCTACAGGGATGTCCGTGAAAGCAGCGGAACAGCTTGGTATAAAAACAACCGAAGGGACGGAACCACGCGTCGCCAAAATCATCGACACAGATGAGCATGGGCGTACCTCTCTTCCGAAAGCATGGGCAGCAGGAACCGTGGCGGGAAAAAGTGTTCACACGATTATTACGGCCGGGCACGGGGCAGAAACGGCTGTGAATATCATCAGTCAGTTAAACGGAAAACGCTATGTCGATCACGACATTTTAAAGGATTGA	MYDIGIIGAGPAGASAGLFTAKAGKKTLVIDHGKSITAKAWVENHYGVDAVEGPKLLETGQQQLTKFGAELKSEEVTAIDLKDGAYYEITTTEGSYQVEHILFATGMSVKAAEQLGIKTTEGTEPRVAKIIDTDEHGRTSLPKAWAAGTVAGKSVHTIITAGHGAETAVNIISQLNGKRYVDHDILKD	PGPT0013060_9456	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK012_00102	1386	mdtD		Putative multidrug resistance protein MdtD	ATGAGTGAAGAACAAACGGTCCGCAATCCGAGGGGATTACTGATCTCTCTTTGTGCGGTCATGATGATGTCTGTCATGAACGGAACCATGTTTAACATTGCCGTTCCAGACATCGCAAAAACGTACCAGTTGATGCCATCAGAAGTCAGCTGGGTAATGACTGGATATATTATGGTTTATGCTGTAGGGGCTCTTACTTACGGCAAATTGGCTGACTATTACCCGTACAGGACATTGATTACATTCGGGCTTACGGTGTTTGCTGCCGGGTCTCTGTTCGGTTTCTTTGCCCAGAACTACGCGATGGTGCTGATGGCCCGTGTCATTCAGGCGCTCGGGGGTGCCATGATTCCAGCGCTTGTTTTCCTAGCCCCGATCCGTTACTTCCCGAATGAACGGGGAAAAGTACTCGGGATTGTATCTTCAGTTATGGCTTTTGCATCAGGGATCGGCCCGATTGCCGGAGGGTTTATCGCCGGTTTCCTTGATTGGCGCTATCTGTTTCTGACTTCGGCTTTGATTATAATAACTCTGCCGTTTCTTAGAAAGAACCTGCCTCAGGAAGAAGCGAAGAAAGGGTATATTGATTACGTGGGTGCTGCCTTAATCGGAGGTTTCATCTCTACACTTCTTCTGGGTATTACGCTTGGTGTCACATGGCTGTTCGCTGTGTCCATCCTGTTCTTTGCCTTGAATCTATGGCGGATGAAGGCGATTGACGAACCGTTTATCCCGCCTCATTTGTTCAAGAATATCAAATATACAGCAACGATTATCACAAGCTTTCTCGGCGTCGTCTGTTTGTTCGGCATGATGTTTATGCTTCCGATTATGTTCAGGGATGCCTACCAGATGGATACGATGACAATCGGTCTTATTCTATTCCCGGGGGCGGTCAGTGCGGCTCTGATGGGGCAGAAGGGCGGTAATCTTGTCGATTCCAAAGGCAATACCTTTGTCCTTTACCTTGCTCTAACCCTGCTGGTTACAGGGTTTGCTGTCCTTTCCACACTGGTCGGTGCCCACCCGTATGTGTTGAGCGCAGCGATTATCATTTCCTACATGAGCTTCCCGCTCGTCCAGGCTTCCTCTGCGGATATCCTGGCCAACCTGCTTCATAAAAACGAAACCGGGGTCGGCATGGGTGTGTTTAATCTCCTGAACTTCGTGTCAGGGGCATTGAGCGGGGCGGTCATCGGAAAAGCCCTTGACCTGTATGATCCCTTCCAGCCCATAAACCTGCTCGGATTTAATGGGGATACAGCGATTTACAGTAACGTATTTTTAGTATTTGCTGTCATCATAGCCCTTGGATTGATTCAATTCAAACTGAACTACAACAAAACGACAAAAACGGCACCAAAAGAAGAACCCGCCTCCGTGTAA	MSEEQTVRNPRGLLISLCAVMMMSVMNGTMFNIAVPDIAKTYQLMPSEVSWVMTGYIMVYAVGALTYGKLADYYPYRTLITFGLTVFAAGSLFGFFAQNYAMVLMARVIQALGGAMIPALVFLAPIRYFPNERGKVLGIVSSVMAFASGIGPIAGGFIAGFLDWRYLFLTSALIIITLPFLRKNLPQEEAKKGYIDYVGAALIGGFISTLLLGITLGVTWLFAVSILFFALNLWRMKAIDEPFIPPHLFKNIKYTATIITSFLGVVCLFGMMFMLPIMFRDAYQMDTMTIGLILFPGAVSAALMGQKGGNLVDSKGNTFVLYLALTLLVTGFAVLSTLVGAHPYVLSAAIIISYMSFPLVQASSADILANLLHKNETGVGMGVFNLLNFVSGALSGAVIGKALDLYDPFQPINLLGFNGDTAIYSNVFLVFAVIIALGLIQFKLNYNKTTKTAPKEEPASV	PGPT0027880_137	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027880-tetB-K08168	NA	NA
AK012_00103	333			hypothetical protein	GTGAATGAGCTGTCTTCTTACCAGATTCAATTGAATCGCCCCTTGAAAACAAACGAAATCATGAAGGTGCATCATATCGTTAACCAGCACGGGTGCGATCTATACTTCCATCAGAATCAGTTAATTGCAGATGCCGGGCACCTTCCGAAAATGTTGTCCTTTTTCCTTTTTATGAATATAGATGACCCGTTCGTCCTGATCATTGACGGCCGCTGTGTGGAAGATGTGTACAAGGAGATCACCACCTTTCTCGATGACACGATCGTCAACAGCGTCTGCCGCAGGAAGTACAGCTCCTCGATGGTTATGGACGAAACTTCGATTCCTGTCTGA	MNELSSYQIQLNRPLKTNEIMKVHHIVNQHGCDLYFHQNQLIADAGHLPKMLSFFLFMNIDDPFVLIIDGRCVEDVYKEITTFLDDTIVNSVCRRKYSSSMVMDETSIPV				NA	NA	NA	NA	NA
AK012_00104	741	fabG_2		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGCGAACGAAATGAAACCGTCCTCATTACAGGTGCGGCAGCTGGAATCGGTTTTGGAACAGCCGTATATTATGCAGAGAATGGCTGTCAAGTGATCGGTGTGGACAAGGACCGGGAAAGAGGAAGAAAAGCAATGGAAAACCTTCCCGGTGAAAAAGGCGTCTTCTACTATTGTGATGTCAGTGATCCTCAAAGTACCGCCGAACTTTTTAAACAATTGAACGAAGACAACCGCTCCTTTTCCATCCTCATCAATAATGCGGGAGAAAGCACCTTCACATCCCTATTCGAATTGTCCGTGGAGGATTGGGACCGGATATTGAATACGAACCTCCGCAGTGTCTTCCTCTTTTCCAAGCTTTCAGCAGCCCTTTGGAAGAAGAACGGAACGAAAGGGAGGATCGTGAACATGGCTTCAACGAGGGCTTTGATGAGTGAACCCGATTCAGAGGCCTACGCAGCAAGCAAAGGCGGTATCACAGCGCTCACTCATGCCCTGGCCTCTTCCCTTTCTCCCTGGTCCATCCGTGTGAACTGTATCAGCCCGGGCTGGATCCACACGGGGCAGGAAGAACTCACAGAAGCAGATCACGCCCAGCATTTGTCCAATCGCGTGGGACATACGGCGGATGTGGCGAAAGCCTGCTTCTACCTGACTGATCCGGATAACGATTTTGTAAATGGGGAAAACCTTGTCATCGATGGCGGAATGACAAGGAAAATGATGTATGAAGAGTAA	MSERNETVLITGAAAGIGFGTAVYYAENGCQVIGVDKDRERGRKAMENLPGEKGVFYYCDVSDPQSTAELFKQLNEDNRSFSILINNAGESTFTSLFELSVEDWDRILNTNLRSVFLFSKLSAALWKKNGTKGRIVNMASTRALMSEPDSEAYAASKGGITALTHALASSLSPWSIRVNCISPGWIHTGQEELTEADHAQHLSNRVGHTADVAKACFYLTDPDNDFVNGENLVIDGGMTRKMMYEE				NA	NA	NA	NA	NA
AK012_00105	531			hypothetical protein	ATGGGTCGTGTTACCCTTGTAGATGTATTTAAGCATAGAATAACACAAAAGTATCTGCAGCGTTCAGGCATTCATCACGCGGTCACCGTGGCAGGTTATGCCTTTGATATGGCAGTGGAAAAGGGCGTGGATCCTGATCTTGCGGCCAAGTCCGCTCTGCTTCATGATATGGGGCACTATGAATGGTACAGGGATGGGAAATGGGATTACGATGAATACCGCCGGCATGATATCCATGCGATTAAAGGGGCGGAAAGAGCTCATAAACTGCTGATCCGGCTGGGAGAAGACCGTTTGACAGCGAAGGAAGTATCGGTTGCCGTCCTTCTTCATACAGACAGCTACCTTCCATTCGGACTTGATGAAAAAAGAACACCGCTTCAACATGTTGTCGCAAAGGCTGATGAAAAAGACGAACAGCCCATGGGGCTTCATCATTACAAGGAAATGGATAAAAGTGAAGCCTTGAGGCGTCTGCATGAGCTTGACCAGAAAATCGAAGCTTATTTCGATGATAGGAATCCTAAATAA	MGRVTLVDVFKHRITQKYLQRSGIHHAVTVAGYAFDMAVEKGVDPDLAAKSALLHDMGHYEWYRDGKWDYDEYRRHDIHAIKGAERAHKLLIRLGEDRLTAKEVSVAVLLHTDSYLPFGLDEKRTPLQHVVAKADEKDEQPMGLHHYKEMDKSEALRRLHELDQKIEAYFDDRNPK				NA	NA	NA	NA	NA
AK012_00106	141			hypothetical protein	ATGACGATTCATTTTTTCCTTTTTACGATCCATGTCACTAAAAAGAAGCAGCCGCGTCTGCAGCAGCTTCCCGGCTATCAGCCCACAGTCAAAGACGAATGGCTCGACCGTAAATCATCCGCTTTTAACCGATACGTGTAA	MTIHFFLFTIHVTKKKQPRLQQLPGYQPTVKDEWLDRKSSAFNRYV				NA	NA	NA	NA	NA
AK012_00107	132			hypothetical protein	ATGAGATTAAATATGCTGATGTTTACCATTATTATTGAACGGATCCATCGTAAAACCGTTGATCAATCCATCAAGCGTGCCCGGGCGATTGAGGAAAAAATCAATGATGCAAAAACTAAGTATGATCTGTAA	MRLNMLMFTIIIERIHRKTVDQSIKRARAIEEKINDAKTKYDL				NA	NA	NA	NA	NA
AK012_00108	129			hypothetical protein	ATGGCTTCAGGGAATAAGAAACTTGCAGAAAAAGGCAGAAAGAAGCAGGCGGAGCGTAAAGCCGCCCGCGGCAGAGAACAGGGCGAAACAGCAGTGAACCACGTAGTCAATGTGTATGACCCGATTTAA	MASGNKKLAEKGRKKQAERKAARGREQGETAVNHVVNVYDPI				NA	NA	NA	NA	NA
AK012_00109	1269	moeA		Molybdopterin molybdenumtransferase	ATGGCTCATTTACATAGAACACCTCTCCCCGTTTCAGAAGCGGTGGAGAGAGTGATGCAGTACAAACGCACAGGTGGTGTGGAAAAGGTAGACCTCCAGGAAAGCGGCGGAAGGATTCTGGCGGAGGATATAGCTGCCACACATGCTGTTCCTCCTTTTCATAAATCTCCTTATGATGGATTTGCTCTGGCTTCTGAGGACACGATGGAGCTCTCTCGGGATAATCCCGGCACGTTCCGCGTCATTGAAACGGTAGGGGCTGGACACCGGGCTTCAAGGCCGCTTCAGTCCGGGGAGGCGGTCAGGATTATGACAGGTGCTGAAATCCCGGAAGGTGCAGATTGTGTAGCGATGTTCGAGATCTGTACGACAGAGGAAGATGCAGCAGGTCAACAGACCATGACTCTGAAGAGAAAGATGGATGCCGGACAAAACATCATCATCAAGGGATCGGAAACGGAGCATGGAGAGGTGCTTGTTCCCAAAGGATCCAAAATCAACCCGGGGGTTCAGGCGCTGCTTGCCACGTTCGGATACGCGGCCATAACGGTTTATAATAAGCCGACAGTCGGCGTCTTTGCTACAGGAACGGAACTTCTGGAAGTGAATGAGCCGCTTGTCCCTGGGAAAATCCGTAACTCCAACGCTTATATGATTCAGGCCCAGCTGGAAAGGTCCGGGGCAGCGTGTACATATTTGGGGAAACTGGATGATGATTTTGACTCATGCTATGAGGCGGTTTCCAACGCCCTTGGAAAGTTTGATGTCCTGATTACGACAGGGGGCGTCTCTGTCGGGGATTATGATTTAATGCCGGACATCTATGAGAAACTGGAAGCCGAAGTGTTGTTCAATAAGGTTGCTATGAGACCGGGAAGTGTCACGACGGTGGCTGAATATGGTGGGAAACTTCTGTATGGGCTGAGTGGAAACCCCTCGGCTTGTTATGTAGGCTGTGAATTATTTGTCCACCCGATTCTCCAGCATTTCATGGGAAATACTCGTCCTTATCATACCCGGGTGAAAGCTGTTCTTGGAGAGGACTTCAAAAAAGCCAACCCATTCACAAGGTTCGTACGTGGAAAATTGAATTATGAAGAAGGAAAAATCGTTGTTTATCCCGCCGGCATGGATAAGTCCGCCGTGGTTACCTCGCTGGCCCATACAGATGTGTTCATCGTGCTTAGAGGAGGTACAAGGGGATACAGCCAAGGGGATAGTGTGGAAGCGGTCCTTTTGGAAGACCAGAAGGGTCAAACACAATTTTAA	MAHLHRTPLPVSEAVERVMQYKRTGGVEKVDLQESGGRILAEDIAATHAVPPFHKSPYDGFALASEDTMELSRDNPGTFRVIETVGAGHRASRPLQSGEAVRIMTGAEIPEGADCVAMFEICTTEEDAAGQQTMTLKRKMDAGQNIIIKGSETEHGEVLVPKGSKINPGVQALLATFGYAAITVYNKPTVGVFATGTELLEVNEPLVPGKIRNSNAYMIQAQLERSGAACTYLGKLDDDFDSCYEAVSNALGKFDVLITTGGVSVGDYDLMPDIYEKLEAEVLFNKVAMRPGSVTTVAEYGGKLLYGLSGNPSACYVGCELFVHPILQHFMGNTRPYHTRVKAVLGEDFKKANPFTRFVRGKLNYEEGKIVVYPAGMDKSAVVTSLAHTDVFIVLRGGTRGYSQGDSVEAVLLEDQKGQTQF	PGPT0008430_1862	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK012_00110	921	moaA	COG2896	GTP 3',8-cyclase	ATGCCGGCCGAAATCTTCGGTCCGGATTATCCATTCCTGCCGGAAAAGGAACGTCTCAGCTTTGATGAAATCATACGTCTTGTTCATATCTTCGCCCGGTTTGGTGTGGAGAAAATCCGATTAACGGGTGGAGAACCACTGCTTAGAAAGGATCTGGATGAACTCATCCGCCGTATCCGCAGGATTGACGGCATTAAGGATATCGCTTTGACGACCAATGCGGTGATGCTTGTAAAACAGGCGGAAAAGCTGAAAGCAGCGGGTCTTGACCGCGTAAATATCAGTCTGGATGCGATAGAAGACGAAGTGTTTCAGAAGACGAACGGGAGAGGAGTCAAAACAGATCCCGTCTTACGCGGCATTGAAGCCGCCAGAAAAGCGGGACTCGCCATCAAGATTAATATGGTGGTGAAAAAAGGGATGAATGAAGACCAGGTTCTACCCATGGCACGGTATTTCAAGGAAACGGGCGATAACCTTCGTTTTATTGAATTTATGGAAGTCGGTAACCATAATGGATGGAATATGGACGCCGTCGTTTCAAAGAAGAGCATTGTCGATGCGATTCATCAGGAAATGCCCTTGATTCCTGCAGATGCTAATTACTACGGGGAAGTGGCCTCCCGCTATCAATACAAGGATGGATCAGGGGAGATCGGCATCATTTCATCCGTTACGGAAGCCTTCTGTTCCAGCTGCACAAGAGCCCGGTTATCTGCAGACGGTCAGTTGTATACTTGTTTGTTTGCTGATTCCGGCTATGACCTGCGTGGCAGACTGAGAGGGGACTGGGATGATGAGGAAATGACCAGCTATTTGATACACGTCTGGGAAGGAAGGGCGGATCAATATTCGGTCGACAGAGCACAGGGGAAACCCATGAAGGAGCGGAAAATCGAAATGTCCTATATCGGAGGATAG	MPAEIFGPDYPFLPEKERLSFDEIIRLVHIFARFGVEKIRLTGGEPLLRKDLDELIRRIRRIDGIKDIALTTNAVMLVKQAEKLKAAGLDRVNISLDAIEDEVFQKTNGRGVKTDPVLRGIEAARKAGLAIKINMVVKKGMNEDQVLPMARYFKETGDNLRFIEFMEVGNHNGWNMDAVVSKKSIVDAIHQEMPLIPADANYYGEVASRYQYKDGSGEIGIISSVTEAFCSSCTRARLSADGQLYTCLFADSGYDLRGRLRGDWDDEEMTSYLIHVWEGRADQYSVDRAQGKPMKERKIEMSYIGG	PGPT0008410_2141	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008410-moaA-K03639	NA	NA
AK012_00111	426			hypothetical protein	ATGAAAACCTTTAAATTGATTTCATTGGACATCGTCGAGGAGAAGAACGAAGACATCACGCAGCGGAGAATAAAGCTGCAGGATGGTTTAATTATCAACCGTGAGGATGATCACGGCCGCTGGGTGATTGAGGCTTATATGGATAACAGCTACCGTTCCTTTTTTGAGGATATGTACCGGAACGGGGATGAAATCATTATCCAGGCTAAGATTACGAAACAGACGAACCGTCCAGCTACGTTTATGGTCAAGCCCATTGATTTTAATGAAATTGGTGGATCGATGAATGTCATTTTCATGGGAACGATGATGGACCGTCAGCAGGAACAAGTTGAAAAAGTGCTCAAACAGCTGCTTGATGAAGGATATCAAGGGGAGGACCTGTTGGAGCAGTTCAAGCGCAAAGGCAGCGAATCGAAAGCTTAA	MKTFKLISLDIVEEKNEDITQRRIKLQDGLIINREDDHGRWVIEAYMDNSYRSFFEDMYRNGDEIIIQAKITKQTNRPATFMVKPIDFNEIGGSMNVIFMGTMMDRQQEQVEKVLKQLLDEGYQGEDLLEQFKRKGSESKA				NA	NA	NA	NA	NA
AK012_00112	1359	ktrB	COG0168	Ktr system potassium uptake protein B	ATGTGGGTGAGAAGAAAAGGCCTGCGCTGGCTTAACGATTTAACACCATTTCAGTTGATTGCAGTATATTATCTGCTCGCTGTGACCATATCTTCCATCTTAATCGCTCTGCCTGTAGCTCACCAGGACGGCGTAAAGTTGGACTTTATTGATATTTTATTTACGGCCGTCAGTGCTGTCAGCGTGACAGGATTGACTACGGTGCCTACAGCCGAAACATTCAGTACTACAGGAATCTTCATTATCGCTGTCGTCCTGCAGCTTGGGGGGATCGGGGTCATGACCCTCGGGACGTTGATCTGGCTCGTCCTCGGAAAAAAAATCGGCCTGAAGGAACGGCGCCTCATTATGACCGACCAGAACCAGACCTCCTTCCAGGGCATGGTCCGACTTGTAAAGGAAATTGTCCTTGTCGTCCTACTTATTGAATTGATTGGATTTCTAGTGCTGGGGACGTATTATCTGCAGTACTTTGACCCGGGGGAAGCTTACCTTCAGGGGTTTTTCGGGACCATCAGTGCGATGACAAACGGTGGTTTTGATATTACGGGTCAGTCGCTGATCTTGTTTAAGGATGACTACTTTGTTCAATTTATCAATATGATATTGATTATAGCAGGGGCGATTGGTTTTCCTGTGTTAATTGAAGTGAAGCAGTACCTTCTCCAAAACCAGGATGAGAAAACGATCCGCTTTTCTCTGTTTGCAAAACTGACAACCCTGACGTTTTTCGTGTTGGTCGTATTCGGAACGATCATGATTGTGCTTCTTGAGTTCAATCATTTCTTCGCAGATAAGACGTGGCATGAAATCTTTTTCTACGCGCTCTTCCAGTCGGTAACGACCCGGAGCGGCGGGCTGTCGACGCTTGATATCAACCAGTTTACAGAGCAGACGCAGCTGTTCATGTCCTCGTTGATGTTTATCGGTGCGTCCCCAAGCAGTGTCGGCGGCGGGATTCGAACGACGACCTTCGCTCTTGTGGTTATATTCGTGCTCACCTTTGCGCGCGGAGGGAACAATATCCGTATTTTCCGCCGCGAGGTTCATCCGGAAGATTTGAACAAAGCCGTGGTCGTACTGATTGTCGCTTTGTTCGTCTGCCTGAGCGCTGTGATTACCCTTACCATTACAGAACCTTATACCTTGAACGAAATATTATTTGAAGTAACGTCTGCATTCGGAACGGTCGGATTGTCGCTGGGGATCACCCCTGGAATGACTTCATTTGGGAAATGTGTCCTGATGCTCCTCATGTTTTTAGGGAGAATAGGACTGTTGACATTCTTATTTACGTTCCAGAAGAACGATGCCCGTGGAAATTATCATTATCCTAGAGAAAGAATCATTATCGGATAA	MWVRRKGLRWLNDLTPFQLIAVYYLLAVTISSILIALPVAHQDGVKLDFIDILFTAVSAVSVTGLTTVPTAETFSTTGIFIIAVVLQLGGIGVMTLGTLIWLVLGKKIGLKERRLIMTDQNQTSFQGMVRLVKEIVLVVLLIELIGFLVLGTYYLQYFDPGEAYLQGFFGTISAMTNGGFDITGQSLILFKDDYFVQFINMILIIAGAIGFPVLIEVKQYLLQNQDEKTIRFSLFAKLTTLTFFVLVVFGTIMIVLLEFNHFFADKTWHEIFFYALFQSVTTRSGGLSTLDINQFTEQTQLFMSSLMFIGASPSSVGGGIRTTTFALVVIFVLTFARGGNNIRIFRREVHPEDLNKAVVVLIVALFVCLSAVITLTITEPYTLNEILFEVTSAFGTVGLSLGITPGMTSFGKCVLMLLMFLGRIGLLTFLFTFQKNDARGNYHYPRERIIIG	PGPT0002735_3911	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
AK012_00113	123			hypothetical protein	ATGTACGGAGGCTATCCTTACGGAGGAAGACAGTGCCACAGACCCTGCTACCGCAACAACTTCGCTTTAATCGTCGTATTGTTCATCCTGCTTATTATTGTAGGTGCAGCATTTTACTGCTGA	MYGGYPYGGRQCHRPCYRNNFALIVVLFILLIIVGAAFYC	PGPT0024985_192	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK012_00114	204			hypothetical protein	ATGTATGCAAACCAAAGAATTTCAGGGCCCTACTACCCTTCTCACTCGACCCATCACCCGCCCCACAATCAGTATAGTAACGAACAGCTGAACCATTGGTGTGAAGAGCTTGATCAGTGCAGTCATCAACAGACCCAGCAGGCAGAAGCTCTTCATCAAAGAAGCAGCATTACGAAGTTATCACCACCGACATTTATGAATTGA	MYANQRISGPYYPSHSTHHPPHNQYSNEQLNHWCEELDQCSHQQTQQAEALHQRSSITKLSPPTFMN				NA	NA	NA	NA	NA
AK012_00115	1485	crtN_1		4,4'-diapophytoene desaturase (4,4'-diapolycopene-forming)	ATGAAAAAGATCGCTGTTATTGGTGCCGGCCCCGGAGGGCTTGCATCGGCTATGATTTTAGCTGCCAAAGGATACGACGTGGAGGTTTATGAGAAACAGTCGTTTGTAGGAGGAAGGAACGGCCATTTTTCTTTAGGCGGATATACATTTGATATAGGTCCGACATTTTTGAGTATGCCGCAGATCATGGAGGAAATCTTTGAGATGTCCGGAAGAAACGTCCACGATTATCTCGATTTAAAAGAACTGGCTCCGATGTATGAGCTGCAGTTTGGAGGAAAGCGGGTTCCTATGTACCGCGACCGGAGAAAAATGCTCGAGGTCATCCAGGAACATTTCCCCGGAAATGAACAAGGCTATGAACGGTTTATGGAGGAGACAGGAGAGAAGATGGAGGCGCTTATGCCGCTGTTGCAGACGAAGCATAACCGGCTGACGGATTACGTGTCAAAACGGGCACTGAAGGCTCTTCCGAAGCTGTCGCTCGGAAAATCGGTGTACGATGTCCTTTCCGACTATTTCACGGATGAGAAGTTGAAAATTGCTTTTACATTCCAGGCGAAGTATCTCGGTATGTCTCCCTGGGAATGTCCCGGGGCCTTTTCCATCTTATCGTATATGGAACACGAATGGGGCGTTTATCATCCCATTGGAGGCGTGAACCAGCTGTCGAAAGCGATGGCTGCGGTTACGGAGGAACATGGAGGAAAGATCCATTTGAACAGTGGAGTGAAACGCATCCATACAGACAAAAAGCAGATTTCCAGCCTGGAACTGGATTCCGGCGAAATCGTAAAGGCTGATGAATACATCATCAATGCCGATTTTGCCGAGGCGATGACGAAACTTGTCGACGATGGCGTACTGCGCAAACATTCGAAGAAGAAACTGGAGAATAAAAAATTCTCCTGCTCCACTTTTATGATCTATGTCGGACTGGATAAGAAATACGAGATGCCCCACCACACCATTCTGTTTGCTGAGGATTATAAAAAGAATGTGGAGGAAATGACAAAGGATCTCGTTTTATCTGATGAACCGTCCATTTATATCCATAACGCCAGTGTCACAGATGACACGCTGGCCCCTGAAGGCCATTCGGCCGTATACATTTTAGCTCCTGTTCCGAACAATTATTCCGACATCGACTGGGAGGGCAAGGAAGACTCCTTTAAACAACTGGTTTATGACGAAATAGAAGCGAAAACCGGCTTTTCCGATATTCGTGATCATGTTGTCGTCGAAAAGGTTCTGACTCCAAAACAGTGGGAAACCGATCATTTTGTTCATCAGGGAGCGACATTCAGTCTGGGTCACCAACTGTCCCAAATGATGTACTTCCGCCCTCATAACCGTTTCCAGGAGCTTGACCACTGCTGGCTTGTCGGGGGAGGAACGCACCCGGGAAGCGGGCTTCCGACGATTTTGGAATCAGCGAGAATTACGACAGGATGGATTACAGGGAAAGAGGTGGAGCCGGTATGA	MKKIAVIGAGPGGLASAMILAAKGYDVEVYEKQSFVGGRNGHFSLGGYTFDIGPTFLSMPQIMEEIFEMSGRNVHDYLDLKELAPMYELQFGGKRVPMYRDRRKMLEVIQEHFPGNEQGYERFMEETGEKMEALMPLLQTKHNRLTDYVSKRALKALPKLSLGKSVYDVLSDYFTDEKLKIAFTFQAKYLGMSPWECPGAFSILSYMEHEWGVYHPIGGVNQLSKAMAAVTEEHGGKIHLNSGVKRIHTDKKQISSLELDSGEIVKADEYIINADFAEAMTKLVDDGVLRKHSKKKLENKKFSCSTFMIYVGLDKKYEMPHHTILFAEDYKKNVEEMTKDLVLSDEPSIYIHNASVTDDTLAPEGHSAVYILAPVPNNYSDIDWEGKEDSFKQLVYDEIEAKTGFSDIRDHVVVEKVLTPKQWETDHFVHQGATFSLGHQLSQMMYFRPHNRFQELDHCWLVGGGTHPGSGLPTILESARITTGWITGKEVEPV	PGPT0007425_105	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007425-crtN-K10209	NA	NA
AK012_00116	1476	crtNc		4,4'-diapolycopen-4-al dehydrogenase	ATGACCCATACAGCTATTGTTGGAGGAGGAATCGGCGGTCTGGTCACGGCTTTATACTTATCCAAGCAGGAAGGACGCCATGTCTCGATTTTCGAGAAAAACGATTTTCTCGGCGGACGCTTAACCTACGAGCGCCATGACGGCTTTAAAATTGATCAGGGTCCGACCATCGTCCTGCTGCCGGAAATGCTGCTCAGTATTCTGGAGGAAGCAGGAATCCAAAGAGAAGATATTCCGATGGAACCGTGTGACCCGTTATATGATATTCATTTCAAGGATGGATCCACGTATACGAAACACAGGGACCCTGCTCTCCAGAAGGAAGAGCTTGCGAGGAAGTTCCCAGGCAGTGAACAGCATTTCGACCGTTTCCTGCAGGATATGAAAACGAGGTTCCTTCAAGGAAAAGCACAGTTTCTGGAGAAATCCTTCGTGGATAAACGGACATTCTTTTCGGGGAAAAACATCAAAACACTGATGAGATTGAAAGCTTATCAAAATGTGAAAAAGATGATGCGGAGCTATTTTGATGATGAGCGTCTTGTGGAGGCCTACACGCTCCAGACGCTTTATATCGGGGGGCATCCCGAGCAGTCTCCCGCCATGTATTCGCTCGTTTCCTACAGTGAACATGAACATGGCATCTGGTATGTCAAAGGCGGCTATGCCCACCTTGTTGAAGTCATCCAGGAGGAACTGGAACGCCGCGGGGTTTCCATTCATACCAATGCGGAAGTCAACCATGTCCAGGTGGAGAATGGCGAAGCTTCTTCGATCACCGTCCGGGGAGAAACGCTTTCTTTTGATGAATATATCCTGAATGGAGATTTTCCGCTGATGGACAAACTGATGCCGGAGAAGAAGCGTTTGAATAGAAAGTATACCGCCTCATCCGGATGCCTCCTGCTTTATATGGGCCTTGACCGCATCTATGAAAACAACACGATCCATCAGTTCTTCATGACATCTGATTTCGATCATCATATGAAACAGGTCTTTATGGATAAGGTGCTGCCTGACGAACCATCCTTTTATACGTTCCACCCATCCATCATGGATAAGTCCCTGGCACCGGAAGGGAAAGGGGTGCTGTATACGCTGATTCCTGTTCCGGCTGGAAAGGACGTAGACTGGAGCGGAAAAGAGGCATTGATTGAGCACGTATTGGATGAAATGGAAGCCCGCGGGTTCCCTGATCTGCGTAATCATATGGAATGGATGCATGTCCGTACTCCGGAGGATGCCGCAAAAGCGGGCTTGTTTGAAGGCGGCAGTTTCGGAATTGCGCCCACCCTGTTTCAATCCGGTGTGTTCCGTCCGCAGCTCCAACCCTATCCGATCAGTAATGTGTATGCCGTCGGAGCCTCTGTTCACCCCGGGGGAGGCGTGCCGATTGTGATGCAGGGAGCAAAATTATTGGCAGATTATTTGCAATATGGGTCCAAAAAAAGGCATAATTACAAGCGAGGTGTTTAA	MTHTAIVGGGIGGLVTALYLSKQEGRHVSIFEKNDFLGGRLTYERHDGFKIDQGPTIVLLPEMLLSILEEAGIQREDIPMEPCDPLYDIHFKDGSTYTKHRDPALQKEELARKFPGSEQHFDRFLQDMKTRFLQGKAQFLEKSFVDKRTFFSGKNIKTLMRLKAYQNVKKMMRSYFDDERLVEAYTLQTLYIGGHPEQSPAMYSLVSYSEHEHGIWYVKGGYAHLVEVIQEELERRGVSIHTNAEVNHVQVENGEASSITVRGETLSFDEYILNGDFPLMDKLMPEKKRLNRKYTASSGCLLLYMGLDRIYENNTIHQFFMTSDFDHHMKQVFMDKVLPDEPSFYTFHPSIMDKSLAPEGKGVLYTLIPVPAGKDVDWSGKEALIEHVLDEMEARGFPDLRNHMEWMHVRTPEDAAKAGLFEGGSFGIAPTLFQSGVFRPQLQPYPISNVYAVGASVHPGGGVPIVMQGAKLLADYLQYGSKKRHNYKRGV	PGPT0007405_986	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007405-crtI-K10027	NA	NA
AK012_00117	837	crtB	COG1562	15-cis-phytoene synthase	ATGACGGATTTGAATCAAGCATACCATCATTGTCGAAGAATTATAGAAGAACATTCCAAGACATTTTCAAAAGCATTCGCTATGCTGCCCAGGCAGCAGAAACAGGCGGTCTGGGCCATTTATGCCTTCTGCCGGCGGGTGGATGATATCGTTGACGAAGGGACGAACCCTAAAGCGGAACTTGAGGAATTCGCCTTCGAATTCGACCAGTTCCTTGAGGGGAAGCTTGATCTGAATGATCCGTGCTGGCTCGCTCTGGATGATGTTTTCCGTCGGTTTTCCATAGATCCGGACCCATACTTTGATATGATTAAAGGACAGCGGATGGATCTTTATCCTTCCTTGATTGAGACGAAGGAAGATCTTCTTGACTACTGTTATCATGTGGCGAGTACCGTAGGTCTTATGCTGCTGCCTGTCATTGCTCCCGGGCGGACGGCTTCCTTAAGGCAGGGGGCTGTTGAGCTTGGCTACGCCATGCAGTTAACCAACATTCTCCGGGATATCGGAGAGGATATGGAAATCGACCGTGTATACTTACCGAAAGAAGTCATGGATTCCTATGGCTACACTCACATGGATCTGCGGAAGGGAAAGGTGAACGACGCATTCATTCAAATGTGGGAGGACCTTGCGGATGACGCGGAAACCTACTATGAGAACGCCCTGAAAACCATCCCGCATTACCCGGTGTATTCCAGGGCTCCTGTCGGGGGAGCGGCGAAGATGTACCGGGCCATTCTGCCGACCGTTAGAAAAAATGATTACCAAGTGTTCGGCCGCCGGAATTTCGTTTCGGACAAGCAGAAGAAGCAGATCATTGCAGAAATGCAGTGA	MTDLNQAYHHCRRIIEEHSKTFSKAFAMLPRQQKQAVWAIYAFCRRVDDIVDEGTNPKAELEEFAFEFDQFLEGKLDLNDPCWLALDDVFRRFSIDPDPYFDMIKGQRMDLYPSLIETKEDLLDYCYHVASTVGLMLLPVIAPGRTASLRQGAVELGYAMQLTNILRDIGEDMEIDRVYLPKEVMDSYGYTHMDLRKGKVNDAFIQMWEDLADDAETYYENALKTIPHYPVYSRAPVGGAAKMYRAILPTVRKNDYQVFGRRNFVSDKQKKQIIAEMQ	PGPT0007420_180	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007420-crtM-K10208	NA	NA
AK012_00118	405			hypothetical protein	GTGAGAATAATTTCGATGTGCAGCGCCCTGCTTCTCATTTGCTGGGGGATCACCGTCTGGATGCAGAAACAGCAGGCCGGTCATGTAGAGAAAAAACGGGGTAGACAATGGGATGAGAAGATCCGTCTTATGGAACAGTGGTGGAGTCCGGTAAAGGCCATCAAAGGAGTATCCACAGCGCCTCCTCTAAGGATCGTTGCTGTTCATACAAGTCTCTCAGATGTAATGGCTATCCGCAGGTTGAAAACGGCATGGCTGATGGATTGGCGGCGTGAGGGAAAAGGTCTCGTAACAGAGTCGCATTCTGTGCTCTTTTACTATGATGATGGTCGTCCGTACTGGGCCTTTCATGAGCTGTGGAACAAACAAGGATCAAGAGGGAAAACAGAAGGGTATCGAAAATAA	MRIISMCSALLLICWGITVWMQKQQAGHVEKKRGRQWDEKIRLMEQWWSPVKAIKGVSTAPPLRIVAVHTSLSDVMAIRRLKTAWLMDWRREGKGLVTESHSVLFYYDDGRPYWAFHELWNKQGSRGKTEGYRK				NA	NA	NA	NA	NA
AK012_00119	249			hypothetical protein	ATGACGCTTTTGTTATGGATGGCAGCCGGCTTGTTTGTCACAGGAGCTTTGATCGAAAGGAAGATAAGGGGGATGGCTGTTCTTTGGTTCGCTGTTCCCGCTTTTGGCGGAGCATGTGCGGCCGGGGTTGCTGCAGGAATTCCAGGCCCTTTACTGGTATCCTTCTACGGGATGGTTTTCCTGGCTGGAGCGGGGATGACAGGAGGCATCCAGTCTGCGGTCGAGTGGACGAAAAGAGAAAGTGGATAA	MTLLLWMAAGLFVTGALIERKIRGMAVLWFAVPAFGGACAAGVAAGIPGPLLVSFYGMVFLAGAGMTGGIQSAVEWTKRESG				NA	NA	NA	NA	NA
AK012_00120	147			hypothetical protein	ATGCAGGAGAAGTACTTGATTTACTACCAGGCTAAGTCCGGTGTAGTCAAACGTGTTCCCGTATTCGCTGCTCACCGGGAACAGGCCCGGGAAAGCCATATGAGACAATTTCCGGAAACGAAAATTACACACATTCGATTACTTTAA	MQEKYLIYYQAKSGVVKRVPVFAAHREQARESHMRQFPETKITHIRLL				NA	NA	NA	NA	NA
AK012_00121	441	tadA_1		tRNA-specific adenosine deaminase	ATGATGGAGGATGAACGTATGATCCGTCGTGCGATTGAAATAGCTGAAGATGCAAAAAAACAGGGAAATGCACCATTCGGCGCCCTTCTCGTGAAGGACGGGGCCATTCTCATGGAGGAAGGGAATCAGGTGCATACCGAGAGCGACCCGACCCATCATGCGGAGCTTGCCTTGATCCGGCGGTTCTGCAGGGAGACAGGAACCACACACTTAGGAGACTATACCTTGTATACGAGCTGTGAACCGTGTGTCATGTGCGCCGGGGCCCTTGTATTTACCGGCATCGGACGGTTGGTATACAGTGCTTCGAATAAACAGATGGCTGAGAAAACGGGCGGGGGGATCATGATTTCCAGTAAAGAGGTATTCAAAGAAAGCCCGCATCATCCTGTTGTGAAAGGAAAAGTGTTGAATGAGGAAGGAATAGTACTGTTTGAATGA	MMEDERMIRRAIEIAEDAKKQGNAPFGALLVKDGAILMEEGNQVHTESDPTHHAELALIRRFCRETGTTHLGDYTLYTSCEPCVMCAGALVFTGIGRLVYSASNKQMAEKTGGGIMISSKEVFKESPHHPVVKGKVLNEEGIVLFE	PGPT0021515_2442	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
AK012_00122	825	dppA	COG2362	D-aminopeptidase	ATGAAGCTGTATCTTTCTGTCGACATGGAGGGAATAACAGGAGTTCCCGATCATACCTTTGTCGATTCGTCCAAACACAATTATGAACGCGCCAGGAAAATCATGACCCAGGAAACGAATCATGTGATTGAAGAAGCGTTTCGAAAAGGAGCGACGGAGATTCTCGTCAACGACAGTCATTCGAAAATGAATAATCTGCTCATTGATGACATTCATCCCGATGTTTCGCTCATTACTGGAAGTGTAAAACCTTATTCCATGGTGCAGGGGCTTGATGGAGGTTTTGATGGTGCCCTGTTTACCGGGTATCACGCAAGAGCCGCACAAAAAGGGGTGCTGTCCCATTCCATGACGTTCGGGGTACGCCATTTCTTTATCAATGACAGGCCTGTCGGGGAACTGGGGTTCAATGCGTTAATGGCCGGCTATTACGGCGTCCCCGTACTCATGGTGGCTGGGGATGATTGTGCAGCGGCTGAAGCAGAGGCTTTGATCCCGGATATCGTGACAGCACCCGTGAAAGAAACGATTTCCCGTACAGCTGTGAAAAGCCTGACGCCGAAAAAAGCCGGGGAGCTCCTTCGTGAACGAACCGCTCTGGCCATAGACAAATGGGCCGAAATCAAGCCGCTAACACCACCGGAGCATCCTGAGCTGAAGATTGAATTCATGAACTATGGACAGGCGGAATGGGCTCATCTCATGCCGGGAACCGAACTCGACCCTGAGTCGACAACCGTCCGTTTCAAGGCCGCCCACCTATTGGAAGCCTACCAGGCGATGCTCGTCATGACAGAACTCGCTATGCAGGCCACATCGAGCTGA	MKLYLSVDMEGITGVPDHTFVDSSKHNYERARKIMTQETNHVIEEAFRKGATEILVNDSHSKMNNLLIDDIHPDVSLITGSVKPYSMVQGLDGGFDGALFTGYHARAAQKGVLSHSMTFGVRHFFINDRPVGELGFNALMAGYYGVPVLMVAGDDCAAAEAEALIPDIVTAPVKETISRTAVKSLTPKKAGELLRERTALAIDKWAEIKPLTPPEHPELKIEFMNYGQAEWAHLMPGTELDPESTTVRFKAAHLLEAYQAMLVMTELAMQATSS	PGPT0020935_442	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020935-dppA1-K16203	NA	NA
AK012_00123	936	dppB_1	COG0601	Dipeptide transport system permease protein DppB	TTGGTTACATACATAGTAAAACGTTTTGTCTATATGATCGTCACCGTCTTTATCATCGCCACGTTAACGTTTTTCCTGATGAACCTTATTCCGGGATCACCGTTTAACGAGGAACGGACAACGAATGCAGTGGTTCAGCAGAATTTAGAGGAACATTACCACTTAAATGAACCGCTCGCTGTCCAGTATGTGCTTTATTTAAAGTCAATCATCACCCTTGATTTCGGGCCATCGATTAAGCAGCCGACGGAAACGGTGAATGCTCTGCTCGGTCGTGGTTTTCCCATCTCTGCAGAACTGGGGATCTGGACTGTTTTGATCGCTCTTATTTCCGGGGTGGCCCTCGGAGTGTTTGCGGCTTTAAAACATAACCATGTCATCGATTATATGGCGATGACCATCGCGGTTCTCGGCATTTCCATTCCGAACTTTGTTCTGGCTACCATGCTGATCCAACAGCTGGCTGTCCAGCTGGAGTGGCTTCCGGCCGCGACATGGAGTTCTCCTGCACATATGGTTCTTCCTGTACTCGCTCTGGCCACGGGGCCGATGGCGATCATCGCCAGGCTGACCCGGTCAAGTATGTTGGAAACCCTGACCCAGGACTACATAAAAACCGCCCGCGCCAAAGGGCTTTCTCCCTACAAGATCATAGTCAAACATGCGTTGAAAAATGCCCTGATGCCGGTAGTGACCATCATGGGGACGCTTCTTGCCGGAATTCTGACAGGAACGTTTGTCATCGAAAAAATATTTGCGATCCCGGGGATGGGCAAATATTTCGTAGAAGGGATCAACCAGCGGGACTATCCAGTCATTATGGGGACGACCGTGTTTTACAGCGCCTTTCTTGTGTTCATGCTGTTCCTTGTTGACATAGCCTATGGATTTTTAGATCCGCGTATCAAACTTCATAAGGAAGGAGGGAGCAGCTGA	MVTYIVKRFVYMIVTVFIIATLTFFLMNLIPGSPFNEERTTNAVVQQNLEEHYHLNEPLAVQYVLYLKSIITLDFGPSIKQPTETVNALLGRGFPISAELGIWTVLIALISGVALGVFAALKHNHVIDYMAMTIAVLGISIPNFVLATMLIQQLAVQLEWLPAATWSSPAHMVLPVLALATGPMAIIARLTRSSMLETLTQDYIKTARAKGLSPYKIIVKHALKNALMPVVTIMGTLLAGILTGTFVIEKIFAIPGMGKYFVEGINQRDYPVIMGTTVFYSAFLVFMLFLVDIAYGFLDPRIKLHKEGGSS	PGPT0004530_30	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004530-dppB1-K16200	NA	NA
AK012_00124	957	dppC	COG1173	Dipeptide transport system permease protein DppC	ATGCCTGCTTTAAAAGAAAAACACCCGGACAATTCCCGGTCCTCGATTCCGGATGAATGGTTTCAGCCGAAGGAAAAAAACATCGATGAAGCCGAATCTGTGGTCCGTCCTTCCCTTTCGTACTGGGAGGATGCCTGGCGCAGGCTCAGAAAGAACAAGCTGGCGATGACAGGATTTGTGTTTCTCATTTTCCTTGCCGTGATGGCGGTCATCGGCCCATGGATTTCTCCGTATACCGTATCCGAGGCTTCGCTGGCTGATCAAAACCAGCCTCCGTCAATGAACCACTGGTTCGGAACGGATGAACTTGGCCGGGATGTGTTCACAAGGACGTGGTATGGAGCCAGGATCTCGTTGTTTGTCGGTTTGATGGCCGCCCTGATTGATTTCTTTATCGGAGTCGCTTATGGAGGCCTCTCCGGTTACAAAGGGGGACGCACGGACAATGTGATGATGCGGATCGTTGAAATATTATACGGCCTTCCTTATCTGCTCGTCGTCATTCTTCTGTTAGTGGTGATGGGACCGAGCCTGTTGACGATCATTATTGCTCTTACGGTAACTGGCTGGGTGGGCATGGCAAGGATCGTGCGTGGACAGGTTCTGCAGCTGAAGCACCATGAATTTGTCATGGCGTCGCAGTCTTTTGGTGCCAAAACCAAACGCATCATTCAGAAAAACCTGCTGCCTAATACGATGGGGCCGATCATCGTCCAAATGACGCTGACCGTTCCGACTGCGATTTTTGCTGAAGCCTTTTTAAGCTTTCTCGGCCTTGGCATCCAGTCTCCTTATGCCAGCTGGGGAGTCATGGCAAACGATGCCCTCGGTGTGATTTTGTCGGGAGACTGGTGGCGCTTGTTTTTTCCGGCCTTCTTTATTTCAGCAACGATGTTTGCATTTAATGTTCTCGGGGACGGGCTGCAGGATGCGCTCGATCCGCGTTTAAGGAGGTGA	MPALKEKHPDNSRSSIPDEWFQPKEKNIDEAESVVRPSLSYWEDAWRRLRKNKLAMTGFVFLIFLAVMAVIGPWISPYTVSEASLADQNQPPSMNHWFGTDELGRDVFTRTWYGARISLFVGLMAALIDFFIGVAYGGLSGYKGGRTDNVMMRIVEILYGLPYLLVVILLLVVMGPSLLTIIIALTVTGWVGMARIVRGQVLQLKHHEFVMASQSFGAKTKRIIQKNLLPNTMGPIIVQMTLTVPTAIFAEAFLSFLGLGIQSPYASWGVMANDALGVILSGDWWRLFFPAFFISATMFAFNVLGDGLQDALDPRLRR	PGPT0004535_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004535-dppC1-K16201	NA	NA
AK012_00125	1005	oppD_1	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGTTGAACAAAATTCTTGAGATTCATAATCTGCATATCTCCTTTACGACGTTTGGAGGAGAAGTGCAGGCGGTACGCGGGGTCAACCTCGACCTTTATGAAGGGGAGACGCTCGCGGTTGTGGGAGAATCCGGATGTGGCAAAAGTGTAACAGCCTCAAGCATTATGCGCTTAATCCCGACCCCGCCGGGACAAATCAAAGAGGGAAGCATCCGTTTTAAGGGAGAGGACATGACCAAACTGTCCGACAGAAAAATGAGAGGCATCCGAGGGGTCGACATATCCATGATCTTTCAGGATCCGATGACGGCATTGAATCCGACTTTGACTGTCGGGGATCAGCTTACGGAAGGGCTCAGACAGCACCGCAAGGTAACAAAAAAAGAAGCAGATGCCCAGGCTGTGGATATGTTGAACCTCGTCGGCATTCCGAACCCTGATGAACGGATGAAGCAGTATCCCTACCAGTTTTCCGGGGGGATGCGGCAGCGGATCGTCATTGCTATGGCTTTAATATGTGAACCGGAGCTTTTGATTGCTGATGAACCGACCACAGCGCTTGATGTAACGATTCAGGCGCAGATCCTGCATCTGTTTGACAAGATTCAAAAGGAAACCGGTGTTTCGATCATTCTTATCACGCACGATCTGGGGGTCGTTGCGAAAGTGGCCGACCGAATTGCCGTCATGTATGCAGGGAAAGTCGTTGAAACAGGGACAAGACGGGAAATTTTTTACGAACCTCAGCATCCTTATACGAAAGGCCTGCTGCATTCCGTTCCCCGTCTGGATCAAAAAGGAGAAAAGCTGATACCGATTGATGGTACGCCTCCGGATTTATTTTCACCACCCGGGGGGTGTCCATTCACCGCCCGTTGTCCGGCTGCCATGGAAGTGTGCAGCAGGGTTTATCCGTATTCTACGATCCGAAGCGAAACACACGAGGTGGACTGCTGGCTTCAGGATGAACGGGCGAAGAAGCACGCAGCAACCATTCAATCATAA	MLNKILEIHNLHISFTTFGGEVQAVRGVNLDLYEGETLAVVGESGCGKSVTASSIMRLIPTPPGQIKEGSIRFKGEDMTKLSDRKMRGIRGVDISMIFQDPMTALNPTLTVGDQLTEGLRQHRKVTKKEADAQAVDMLNLVGIPNPDERMKQYPYQFSGGMRQRIVIAMALICEPELLIADEPTTALDVTIQAQILHLFDKIQKETGVSIILITHDLGVVAKVADRIAVMYAGKVVETGTRREIFYEPQHPYTKGLLHSVPRLDQKGEKLIPIDGTPPDLFSPPGGCPFTARCPAAMEVCSRVYPYSTIRSETHEVDCWLQDERAKKHAATIQS	PGPT0004540_80	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004540-dppD1-K16202	NA	NA
AK012_00126	1626	dppE_1	COG4166	Dipeptide-binding protein DppE	ATGAAAAAGTGGCTGTATGTTTTATGGGGGATTGCTGTGATTGCTGTACTGGCGGCCTGTACAGCGAACAGTTCGAGTGAAGGGGATAGCCCGGAAGGAGAACAGGCAGATTCAGGGGATACCAAAACATTGATGCTGAACAATGGAGAGGAACCGACGTCCTTTGATCCTCCGATGGGGTTTGATTCCGTTTCCTGGAATGCCTTGAACAACTTGATGGAAGGGATGACCCGTCTCGGTAAGGACCACCAGCCTGAGCCCGCAGCGGCTGAAGGGTGGGAAGTATCCGAAGACGGTAAAGTTTACACGTTTATGATTCGCGAGGATGCCAAATGGTCCAATGGAGATGATGTAACAGCAGGCGATTTCGAGTTTGCCTGGAAACGTCTGCTGGATCCGGAAACAGCCTCACCGGCTGCGTTTCTCGGCTACTTCATTGAAGGTGGAGAAGCATTTAACAATGGAGATGGGGCGAAGGAAGATGTGATGGTGGAAGCGGTCAGTGACAAGGAATTGAAAGTAACGCTCTCCTCACCGACGGGTTACTTCTTGAATATTATCTCCAACCCGGCGTTCTTCCCGATCAACGAAAGTGTGGCGGAAGAGAATGCCGAATGGTTTGCGGAAGCGGACAGCTTTGTAGGAAACGGTCCGTTTACCTTGGATGAGTGGAAGCATGACAGTGAAATGACCTTTAAGAAAAATGAAAATTACTGGGACAAGGATACGGTCAAACTGGATGAAGTTCACTGGGCCATGGTCAACGATACCAATACCGAGTACCAGATGTATGAAAGTGGAGAGCTGGATACGACGAATATCCCTTCCGATATGTCCGAAGAGCTGATGGAAAGTGATCAGCTGAAGGTCCAGGATCAGGCAGGCACCTACTTTTATCGTTTTAATGTGAACGAAGAACCCTTCCAGAACAAAAAGATCAGACAGGCTCTTGCAATGGCTGTCAACCAGCAGGACATTGTTGATTACGTAACGAAGAACAAAGAAGAGCCGGCCCATGGATTTGTTTCTCACGGGTTTGAAGGGCCTTCCGGTGAAGATTTCCGTGAACAGAATGGAAACCTGGTCGAGTTTAACGCCGAAGAGGCGGAGAAGCTTCTGGCGGAAGGGATGAAGGAAGAAGGGTATGATGAACTGCCTCCGATTACCCTTTCCTACAACACAAGTGAGTCTCATAAAAAAGTCGCCGAAACGATCCAGCAGATGTTCAAGGAAAACCTTGATGTGGAGGTCACGCTTGAAAACGCGGAGTGGAACGTATTTCTGCAGAACCAAAAAGATTTGAAGCACCAGCTGTCACGGAGTTCCTTTATTGCTGACTATGCTGATCCAATCAACTTCCTGGAGAGCTTTGTCACGGATTCCTCGATGAACCGTACGGGATGGTCCAATGAAGAGTATGATCAACTTATTGAACAGGCGAAAAATGAAACCGATGAAACGAAGCGGTGGGAGCATATGTATGAAGCAGAGAAGATTTTATTTGAAGACATGCCGATCTTCCCGATTCACTTCTATAACTTCGTTCTGCTTGAGAAAGAAGGCGTATCCGATGTGATCCGTCACCCTGTCGGCTACCTTGAATTGAAATGGGCAGATAAGGAGTAA	MKKWLYVLWGIAVIAVLAACTANSSSEGDSPEGEQADSGDTKTLMLNNGEEPTSFDPPMGFDSVSWNALNNLMEGMTRLGKDHQPEPAAAEGWEVSEDGKVYTFMIREDAKWSNGDDVTAGDFEFAWKRLLDPETASPAAFLGYFIEGGEAFNNGDGAKEDVMVEAVSDKELKVTLSSPTGYFLNIISNPAFFPINESVAEENAEWFAEADSFVGNGPFTLDEWKHDSEMTFKKNENYWDKDTVKLDEVHWAMVNDTNTEYQMYESGELDTTNIPSDMSEELMESDQLKVQDQAGTYFYRFNVNEEPFQNKKIRQALAMAVNQQDIVDYVTKNKEEPAHGFVSHGFEGPSGEDFREQNGNLVEFNAEEAEKLLAEGMKEEGYDELPPITLSYNTSESHKKVAETIQQMFKENLDVEVTLENAEWNVFLQNQKDLKHQLSRSSFIADYADPINFLESFVTDSSMNRTGWSNEEYDQLIEQAKNETDETKRWEHMYEAEKILFEDMPIFPIHFYNFVLLEKEGVSDVIRHPVGYLELKWADKE	PGPT0004525_49	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0004525-dppE-K16199	NA	NA
AK012_00127	921	ykfA_1	COG1619	putative murein peptide carboxypeptidase	ATGCTGAAACCACAACGATTACAAAAAGGAGATGTGGGCGGAGTCATTGCTCCGGCCAGTCCTCCCGATTTAGATTCCTTAGCGAAGGCGCTGCCTTTTCTGCGTTCTCTCGGGCTGAACGTGAGGATCGGCCCGAATGTGAAACGGACTTACGGATATCTGGCCGGAACAGACCGGGAACGTCTGAATGATCTTCACCAGATGTTCAGAGATCCTGCGATTAAAGGCATTTTCTGCGCTGGAGGGGGATATGGGACCAGCCGGCTGGCAGCTTCCATCGATTACAGCCTGATCCGCAGCAATCCCAAGGTATTCTGGGGCTACAGCGATATCACCTATTTACATACGGCCATCCAGCGCCAGACGGGACTTGTCACGTTCCATGGTCCGATGTTGAGTTCGGATGTAGGGAAGCCTGACTTTGATGATCCGTCAAAACAGCGGTTTTCCCAGCTGTTTGATCCGGAGCCTTTCACTTACAGCGATCAAACGTCGCCCCTGCAGGTAATCTCTAAAGGAACGGCTTCCGGGAGGCTCGTCGGCGGCAATCTTTCTCTTCTCGTCAATTCCATTGGGTCTCCGTATGAGATTGAGACAAGGAACCGTCTTCTGCTGATAGAAGATGTCGGTGAAGAACCGTACCGGATTGACTCCTTTTTAAGTCAGTTAAAGCTGGCAGGTAAACTAGACGAGGCATCCGGCATTGTCGTCGGTGATTTCAGTGACACCCAACCAAAAAAACGAAAAGAGACGATCGAAATTCAGGAAGTGTTTCACCATTACCTTGCTGACCTTCAAAAGCCGGTCCTGTCCGGGTTTAAAATCGGCCACTGCCTGCCCCATTATGCTGTGCCTCTCGGGGCGGAGGCGGAGCTGTCCAGCAGGGGGAAATGTTTGAGGGTGGCACCAGGTGTGAAATAA	MLKPQRLQKGDVGGVIAPASPPDLDSLAKALPFLRSLGLNVRIGPNVKRTYGYLAGTDRERLNDLHQMFRDPAIKGIFCAGGGYGTSRLAASIDYSLIRSNPKVFWGYSDITYLHTAIQRQTGLVTFHGPMLSSDVGKPDFDDPSKQRFSQLFDPEPFTYSDQTSPLQVISKGTASGRLVGGNLSLLVNSIGSPYEIETRNRLLLIEDVGEEPYRIDSFLSQLKLAGKLDEASGIVVGDFSDTQPKKRKETIEIQEVFHHYLADLQKPVLSGFKIGHCLPHYAVPLGAEAELSSRGKCLRVAPGVK	PGPT0023815_2008	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
AK012_00128	1098	ykfB	COG4948	L-Ala-D/L-Glu epimerase	ATGAAAATTCAGTCCGTAGAAACCACACACGTAGCCGTTCCGCTTCACAAACCATTTAAAACCGCACTGCGTACAGTGACCGTCGCTGAATCCATCTACGTAACCATTCACTTTGATAACGGTCTGACAGGCTGGGGAGAAGCCCCACCCACCCATGTCATCACTGGTGAATCGCTTGCGAGTATCAAGTACACGATCGAGAAGATTCTGAAGCCGGTAATAACTGGTGTGGATCTATTGAAAAGGGAAGCCGTTTTTGAGGCTGTCCATAAGAGCTGTGTCGGGAACACCAGTGCGAAAGCAGCTGTGGATATGGCGTTGTATGACGGACTTGCCCAAGCGGCCGGTCTCCCTCTCTACCAATTTCTTGGAGGGTGGACAGATCAACTGGAAACGGATTACACCGTCAGTGTAAATACACCAGCGGAAATGGCGGATGATGCGGCAGGGTACATTCAGCAGGGATTTCATGTATTGAAAGTGAAAGTGGGTAAAGACAGTATCCACCATGATATCGAACGAATTCAAGCGATTCATCAAAGAGTAGGAGAGGAAGCCGCCATCCGGCTTGACGCCAATCAGGCGTGGACAGCAAAGGAGGCTGTTAATGCCATTCGCGGGATGGAAAGACGGAAGCTTCCGATCGAATTGGTGGAACAGCCGGTCAAAGCTGGAGACATGGATGGACTCAAGCAGGTGACGGAGGCTGTAGATACAATCATTATGGCTGATGAAAGTGTTTTTTCTCCCCAGGATGCCGTACGTGTGTTGAAGACGGGCAGCGCTGATATGATCAATATAAAGTTGATGAAAAGCGGCGGGATCCACCAGGCGCTGAAAATCAACGCGGTTGCGGAAAGCTTCGGCATACCCTGCATGGTGGGAAGTATGATTGAGACCAAACTCGGCATAACCGCTGCGGCCCATTTTGCTGCAAGCCAGAAAAACATAACAAAAGTGGATTTTGATGCCCCCCTCATGCTTACGACAGATCCGGTGGAAGGGGGCGTGCAGTACAATCAGGCGGTTATGACTCTCCCACAGGCTCCGGGGCTCGGAATTACCCGCTTGTCCGGGGAGGATGTCACGACTTCATAA	MKIQSVETTHVAVPLHKPFKTALRTVTVAESIYVTIHFDNGLTGWGEAPPTHVITGESLASIKYTIEKILKPVITGVDLLKREAVFEAVHKSCVGNTSAKAAVDMALYDGLAQAAGLPLYQFLGGWTDQLETDYTVSVNTPAEMADDAAGYIQQGFHVLKVKVGKDSIHHDIERIQAIHQRVGEEAAIRLDANQAWTAKEAVNAIRGMERRKLPIELVEQPVKAGDMDGLKQVTEAVDTIIMADESVFSPQDAVRVLKTGSADMINIKLMKSGGIHQALKINAVAESFGIPCMVGSMIETKLGITAAAHFAASQKNITKVDFDAPLMLTTDPVEGGVQYNQAVMTLPQAPGLGITRLSGEDVTTS	PGPT0020045_621	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020045-ycjG-K19802	NA	NA
AK012_00129	948	ykfC	COG0791	Gamma-D-glutamyl-L-lysine dipeptidyl-peptidase	ATGATAAAGAAAAAAGCGATCGACACGGTCTGGGTGGTGGCCGTTCCGGTAGCCACGGTCTGGACGGCTCCGGATTCACCGAGGGATTGTGATGAACCAGGGATTTCATCTGTCAGTTCCATGATTGAATGGCTGGATCAGCTGGACCACAAGCAGAAACTGGCGCTGTGCGATGATAATCTCGTCCAGTCCCAGCTTCTATATGGGGAAGAAGTGATCGTCGATGAGATGAAGGATGGCTGGGCACGCATCATTATTCCCCATCAATCATCAAAAAAAGATGACCGCGGATATCCCGGATATATACCCGAAAGACAGCTCAATGCTCTCCCTCCATCTAAATGGCAGGGAAACGGCATGCTCGTTGTACACGATAAACAAACGATGCTCCTGGATGAAAAACGTCAGCCATTTCTGGAGGTCAGTTATTTGACCTCCCTGCCCGTCATTCAAGAGGAGGGCGTCCTGATCAAAGTCCGTACCCCACATGGCGAAGGCTACATTTCCGCCGAAGCGGCGTCCGTTTATCCTTCGCCCGAAGAGATACCCAAAGGCAGTGGTGCTGCCATCATTGAATCGGCAGAAACCTTCCTCGATCTGCCTTATTTCTGGGGAGGGATGAGTTCGTATGGGTTCGACTGCTCGGGTTTCGCTTATGCGCTTCATAAGGCGCACGGCTACATGATCCCCCGTGATGCAACCGATCAAGTGAACAGGGGAGTGGACATCCCCATCGATCAAAAGCAGCCTGGTGATCTGCTGTTTTTCGCCTATGAGGAAGGGCAGGGACGTGTGCATCACGTCGGATTCTATTATGGAGAAGGAAAAATGCTTCACTCGCCGAATGTAGGAAAAAGCATTGAGATCATTGACCTGCACGGGACGATTTATGAAAAGGAACTGTGTGCGGTACGAAGATACTGGGAGGAAGCGGAGGAAGCAGGATGA	MIKKKAIDTVWVVAVPVATVWTAPDSPRDCDEPGISSVSSMIEWLDQLDHKQKLALCDDNLVQSQLLYGEEVIVDEMKDGWARIIIPHQSSKKDDRGYPGYIPERQLNALPPSKWQGNGMLVVHDKQTMLLDEKRQPFLEVSYLTSLPVIQEEGVLIKVRTPHGEGYISAEAASVYPSPEEIPKGSGAAIIESAETFLDLPYFWGGMSSYGFDCSGFAYALHKAHGYMIPRDATDQVNRGVDIPIDQKQPGDLLFFAYEEGQGRVHHVGFYYGEGKMLHSPNVGKSIEIIDLHGTIYEKELCAVRRYWEEAEEAG	PGPT0020945_217	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-DIPEPTIDYL-PEPTIDASE_ACTIVITY,PGPT0020945-ykfC-K20742	NA	NA
AK012_00130	1014	oppF_1	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGACGATGGAAAAGGTATTGGAAGTCAAACAATTAAAAAAGCACTTTGACATCGGCAGAAATCAAACATTGAAAGCCGTGGACGGCATCAGCTTCGATATTTACGAAGGGGAAACGTTCGGCCTTGTTGGAGAGTCGGGGTGCGGCAAATCAACGGCGGGACGGACGATGATGAATCTTTACCCCGTCACAGACGGGGAGGTTCTTTATAAGGGCAAACGGGTTCATAACCGCAGTGAGCAGGAGCAGTTCCAGCTGAAAAGAGATATGCAGATGATTTTTCAGGATCCGTATGCTTCCTTAAACCCAAGATCTACGGTGGCGGAAATCATTGCTGAGCCTATGGAGATCCACAAGCTTTTCCGGACAAAACGGGAGCGATTGGAACGGGTGTATGAACTGCTTGAAGAAGTCGGGCTGAATCGTGACCATGCCAATCGTTACCCGCACGAGTTCAGCGGTGGACAGAGGCAGCGGATCGGGATTGCCCGCGCTCTTGCTCTCGATCCATCCGTCATCATTGCAGACGAACCCATCTCTGCGCTTGACGTTTCTGTTCAGGCGCAGGTGGTCAACCTGTTGGAGCGGCTGCAGGAGGAGAAAGGGCTCACATATCTGTTTATTGCCCACGACTTATCCATGGTCCAGCACATTTCCGACCGCATCGGTGTGATGTACTTAGGCCGCCTTGTCGAACTGACAAGCAGTGACCAGCTGTACAAAAACCCCCTTCACCCTTATACAAAAGCGCTGTTGTCTGCCATCCCCATTCCTGATCCGGATTTGGAAGATGAGCGGGAACAAATGATAATCGAAGGGGAAATCCCAAGTCCGATTGACCCGCCGAGCGGCTGTGTGTTCCGGACGAGGTGTCCGGCGGCGATGGAAAAATGTGCAGAGGTGGTGCCGGAATGGCAGGAAATCGAAAGCGGTCACCATGTCGCCTGTCACCTCTATAATGAAGAAGATCCGGCGGAGCCGTCTGTTCGAGGGCGGAAGATCACTCTTTCCTAA	MTMEKVLEVKQLKKHFDIGRNQTLKAVDGISFDIYEGETFGLVGESGCGKSTAGRTMMNLYPVTDGEVLYKGKRVHNRSEQEQFQLKRDMQMIFQDPYASLNPRSTVAEIIAEPMEIHKLFRTKRERLERVYELLEEVGLNRDHANRYPHEFSGGQRQRIGIARALALDPSVIIADEPISALDVSVQAQVVNLLERLQEEKGLTYLFIAHDLSMVQHISDRIGVMYLGRLVELTSSDQLYKNPLHPYTKALLSAIPIPDPDLEDEREQMIIEGEIPSPIDPPSGCVFRTRCPAAMEKCAEVVPEWQEIESGHHVACHLYNEEDPAEPSVRGRKITLS	PGPT0004440_7199	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
AK012_00131	222			hypothetical protein	ATGAAAAAGTATCTGATATTCATAGGAAGCTTTATCCTATTGTATTTTGTTTATCAATGGCTCTCCGGCATGCTGTTGACGCTCCAATATGATCCTGAGACAGGAGGAGGAGCAGGAAGCGGGCCCTCCCAGCTGTTGGTTCTGATTGGGATTGCGACTGTATCCCATTTCCTGTCGCGTCTGCCGGATAGAAAACAGGGAGAAACGTACAGAGCTACATAA	MKKYLIFIGSFILLYFVYQWLSGMLLTLQYDPETGGGAGSGPSQLLVLIGIATVSHFLSRLPDRKQGETYRAT				NA	NA	NA	NA	NA
AK012_00132	1467	crtNb_1		4,4'-diapolycopene oxygenase	ATGAAAGCAGTCATTATCGGTGGTGGACTGGGCGGTCTTTCCGCTGCGGTCCACCTGGCCAGTGAAGGCGTAGACGTAAAAGTATTTGAAAAGAACAGCCATTTTGGAGGGAAAATGATGGCTGTAGATGAAGAAGGCTATCATTTCGATTTCGGTCCGAACACAATCACCATGCCGGAGGTGTTTACGAGAGTCCTGGAAAAAGCAGGCCTCCCCTCTCATACGCTGACCTTTGAAAAAATCGAAACCCATACGCGCAACGTTTTTCCGAATGGGACAACCTTTGACTTTTCCACCAATCCCGACGTTATGAAAACCCAGTTGAAAAAGCTCGATCCTAAAGGTTACCAGTCCTATGAAAGGTTCCTGAAGGAAATTGAGCGCCTCTATCAGATGTCCCGGAAGCATTTTCTGCACCGCACATTCAATGGATGGAAAGATTATCTGTCTCCTTCGCTTATGAAAAGCATGATGAACGTGCGTCCGCTCCAGTCGATGGATCATTTTTTCAGGCAGTACTTTTCCAATCCGGATATCATTCAGGCGTTAAACCGCTATTCGACATATATCGGATCCAACCCCTACAAGGCACCGGCCACATTCAGTATGATTGCTCATCTGGAATGGAATGACGGCGTCTATTATGTAAAGGGGGGGAATACGAAAATCGCGGAATCCTTCGTTCAGGCAGCAGAAGCCGCCGGTGTCCATCTGTACAGCGGGACCCCTGTTTCAAAAGTCCATACGTATCAGGGCCGCGCGGCAGGCGTGGAGACGAAGGATGGAGACTTCTTTGAGGCAGACCATGTGATTATCAACGGAGATCTGCTGCAGGCAGTCCCGGAGCTCATCGATCAGCAGGAAAGGAAGAAAATGAGTGATCAGAAGCTCGCCTCCTACGATCCTTCCATTTCCGCTTTTGTCATCATGGCAGGGCTCGATACCTGCCTCCCGCAGCTGCATCATCATCACCTGCTCTTTTCAGCGGATTATGAAAAAGAGTTCGATCAGCTGTCGAATGGAGCCTACGCGGATGATCCAACCATATACATCTGTACTTCAGCGAAATCAGATCCGGATGTCTCTCCTAAGGGGGATAACTGTTTTATCCTCGTCAATGCCCCGGCTGTGAGCGGTCATCAGCAGAACAAGGAGCACTATAAAGCGCTGGTTTATGACAAGATGACAAAGGCCGGTATTCCTGTTCAAGATCACCTTGTCTATGAAAAAATCATCGGTCCGGAGGAAATCGAAGAGACTTTCGGGGCTCACCGCGGTTCGCTTTACGGACCTTCGTCCAACAGCAGAAGCCAGGCCTTTATGCGCCCGTTCAACAAGTCCCAGGACCTTGAGGGGTTATGGTTCTGCGGGGGGAGCACCCACCCCGGCGGTGGTTCTCCGATGGTCGTGCTCAGTGGAGAAAATACAGCTAATCAAATCATCGGAAAAATCGTCCATATCGAGTGA	MKAVIIGGGLGGLSAAVHLASEGVDVKVFEKNSHFGGKMMAVDEEGYHFDFGPNTITMPEVFTRVLEKAGLPSHTLTFEKIETHTRNVFPNGTTFDFSTNPDVMKTQLKKLDPKGYQSYERFLKEIERLYQMSRKHFLHRTFNGWKDYLSPSLMKSMMNVRPLQSMDHFFRQYFSNPDIIQALNRYSTYIGSNPYKAPATFSMIAHLEWNDGVYYVKGGNTKIAESFVQAAEAAGVHLYSGTPVSKVHTYQGRAAGVETKDGDFFEADHVIINGDLLQAVPELIDQQERKKMSDQKLASYDPSISAFVIMAGLDTCLPQLHHHHLLFSADYEKEFDQLSNGAYADDPTIYICTSAKSDPDVSPKGDNCFILVNAPAVSGHQQNKEHYKALVYDKMTKAGIPVQDHLVYEKIIGPEEIEETFGAHRGSLYGPSSNSRSQAFMRPFNKSQDLEGLWFCGGSTHPGGGSPMVVLSGENTANQIIGKIVHIE	PGPT0007440_279	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007440-crtP-K10210	NA	NA
AK012_00133	1110			hypothetical protein	TTGCTATGGTTTATCATCCTTGTCCTTGGTTTAATCGTCATGAACCTATGGACAATCATTAACAGTTTATTCTTATATCCTTTGAGGGCAGATAAGCAGGAACAGTCCGACCAAAAAGTTTCCCTGCTCGTCCCGCTCCGTAATGAAAGGGATAACGTGGAGGGCTTGATCTCCTCGTTATCCACGCTCACGTATCCGAATCTTGAAGTGCTCTTTCTCGATGATCATTCTGAAGATGGCACCTATGAAGAACTGCTCTCACATACCGCAGGAGATCCCCGATATACCATCCTGCAGGGGAAAGAACTGCCGGATGGATGGAACGGTAAGGTACACGCCTGTCACCAGCTTTCCGAAAAAGCAGAGGGGGATTACCTGTTTTTCCTGGATGCTGATGCACGAGTCGTCCCTACAGTAATTGAAAAGACACTGGGGACCATGAGAAAGAGAAAAGCAGCGATGCTCAGTGGGTTTCCTTTCTATCCGAATCATCATTTTCTGAGCCATATGCTTGTACCTCTTCAGCATATGGTCGTCCTGCTTCACCTTCCACTTTTCATCGCCAACCGTACGACAAAGCCGATGTTCACAGCAGCGTGCGGCATCTTTATCATGATTGAACGCTCGGCCTATGAGGTGGTCGGAGGCCATGAATCGGTCAAGAATTCCCTTGTAGAAGATGTTCATCTCGCTCGTGAAGTGAAAAAGAACGGCTACCGTATGATTCTTGCCAATATTACATCCTCCGCTCTTTCGTATATGTATGAATCCAATCAGGAAACGTGGGCAGGGTTTAAAAAGAATCTATACACCGGGATCGGGCGGTCAACATGGATGGTCGTCTTCCTCACGCTCCTGTATGCCATTCTTTTTGTACTCCCCGGAGTTCTCGCTGTTTTCGGAACGGGAACAGGAACGCTTTACATGCTGCTCCCCTACGTATTACTAATCATGTTCAAAATGTATGTCGATGCACGAACAGGTCATCCCCTGTGGCTGTCCTTTCTCATGCCTGCAGCGGGAGCACTGTTGATTGCGATGATGTGGGCATCCATGCTTGTACATAAAAGAGGTCGTTCATATCAATGGAAAGGCAGGTCGTATCAATGA	MLWFIILVLGLIVMNLWTIINSLFLYPLRADKQEQSDQKVSLLVPLRNERDNVEGLISSLSTLTYPNLEVLFLDDHSEDGTYEELLSHTAGDPRYTILQGKELPDGWNGKVHACHQLSEKAEGDYLFFLDADARVVPTVIEKTLGTMRKRKAAMLSGFPFYPNHHFLSHMLVPLQHMVVLLHLPLFIANRTTKPMFTAACGIFIMIERSAYEVVGGHESVKNSLVEDVHLAREVKKNGYRMILANITSSALSYMYESNQETWAGFKKNLYTGIGRSTWMVVFLTLLYAILFVLPGVLAVFGTGTGTLYMLLPYVLLIMFKMYVDARTGHPLWLSFLMPAAGALLIAMMWASMLVHKRGRSYQWKGRSYQ				NA	NA	NA	NA	NA
AK012_00134	663			hypothetical protein	ATGTTCAAGCCCTCTCATAAACGTCCGGTCATCGAATGGGGATTCACCCGCTTCAACCGGATGTTCCTGAAGAAGCATTTTAACCGTATCCTATTGGACGCTCCGGAAACCGTTCCGAAGGAGAACACCTTATTCCTCATCAACCATTCGGCATGGTGGGACCCTTTGTTCATCTTTTATCTCAATGACCAGGTCGTCCATTCCGATGGACACGGCATGATGCATGAGGATGGGCTGCAGAAGTTTCCCTTTTTCAGAAGCATCGGCGCTTTTTCCATCAACAACAAGAGCCGGAAGCATCTTATGGAATCCCTCACCTACAGCGCAGATCTGTTGGCCTCAGGAAAAACGGTATGGATTTTCCCTCAGGGAGCTGAGCAGCCCCTTGAAAAGCGTCCACTCGAGTTTTTTTCCGGGATCAGCTATATCGTCCAAAAAGCACCACACGTCCACGTGGTGCCTGTTTCTATTTATTATGCGCTGGAGCATGAACGAAAGCCGAACGCTTACATAACGATCGGGGAGCCTCTTCCACAGGAGGGTTACGCCAAGCTGAACCGGAAATCGATGACACACTATTTCGAAACGGCAGCTACGAAGCAGCTGGATGAACTCCGGGCACGGGTCATACAGGAAGACCATGAGGTGTTCCGCCCTATTTAA	MFKPSHKRPVIEWGFTRFNRMFLKKHFNRILLDAPETVPKENTLFLINHSAWWDPLFIFYLNDQVVHSDGHGMMHEDGLQKFPFFRSIGAFSINNKSRKHLMESLTYSADLLASGKTVWIFPQGAEQPLEKRPLEFFSGISYIVQKAPHVHVVPVSIYYALEHERKPNAYITIGEPLPQEGYAKLNRKSMTHYFETAATKQLDELRARVIQEDHEVFRPI				NA	NA	NA	NA	NA
AK012_00135	771			hypothetical protein	ATGTCCACTTATATTTTCCGTTTTTTTATTTTCTGGTACATATGCGGCGTCTTCCTGGTCACCTTTGACTGGCTCCCTCCCTGGCTCGAATGGGCGAACAGTGTGTTCCTGATCGCTGCCGGAGTGGTCGCCGGGCTTTATTTTATACATATGTATGGAAAAAGAACAGGCATCCTTTACAGCCTGTTCATTATTGCTGCCAGTATTTATGTCGAGCATTTAGGAGTGGCCTACAACTTCCTGTTCGGAACTTATGATTATACCCAGGACTTCGGTGTCAAGATTGCTGATACCCCGATTACCATCGGATTTGCCTGGCTCTTGATCATCGGCTGCTCCCACGAAATGGCCCGTGTCATTTCCAGTGAACTTCCGCCTTTCATCCGTTTCGTGACGTTCCTTCTTACTGGAGCGTTGTGTGCGGTAACGATCGATCTTATCCTTGATCCTGTATCCTATAAAGTAAAAGAATACTGGATCTGGCAGGAACCCGGCTTTTATTATGACATTCCTTTCAGTAATTTTGCCGGCTGGTTCATAACAGCAGCCTTCTTCCATCTCGTCTTCCTGATTTGGAATCCGGATAACCAGGCAAGTGACGGGACCTGGCCGAAACGGATGGCTCTTGTTTTCGGACTGATGGTGTTCCTGTTCATCTGCATGGCTTTCACCGGAGGGCTTTATACTGCCATCACCCTTGTCGGTCTATTGACTGCCGGCTGGTATGCTCTTTATTTCTGGAGGAAAAAGCATGTTCAAGCCCTCTCATAA	MSTYIFRFFIFWYICGVFLVTFDWLPPWLEWANSVFLIAAGVVAGLYFIHMYGKRTGILYSLFIIAASIYVEHLGVAYNFLFGTYDYTQDFGVKIADTPITIGFAWLLIIGCSHEMARVISSELPPFIRFVTFLLTGALCAVTIDLILDPVSYKVKEYWIWQEPGFYYDIPFSNFAGWFITAAFFHLVFLIWNPDNQASDGTWPKRMALVFGLMVFLFICMAFTGGLYTAITLVGLLTAGWYALYFWRKKHVQALS				NA	NA	NA	NA	NA
AK012_00136	627			hypothetical protein	ATGTTGAATGATTTCTTGAGAACAAGCAGAACAGCTGCAGTCGTGTTAGCAGTCATCCGGGTTTACCTTGGTGTAACGTGGCTGAAGGCTGGAATCGGTAAACTGACCGGAGGGTTTGATGTTCAGGGATTTCTACAGGGGTCTATAAGCAAAGCAGAAGGTGCACACCCGGCCGTTCAAGGGTGGTGGGCGGGTTTCCTTGAAAGCTTTGCCCTTCCAAACCATGAATTATTTGCCCAGCTCGTGATGTGGGGGGGAAATCCTTGCAGGTATCGCTCTTATCCTTGGTTTATTTACAACCGCTGCAGCCTTTGGAGGCATCCTGATGAATTTCGCTTTCTTATTCAGCGGGACTGTCAGCACCAATCCACAAATGGTCATCCTGACGGTCTTTATTCTTGCTGCCGGTATCAATGCCGGGCGTTACGGCCTGGATCACTGGATCGTTCCATTCATCCAAAAACGCCGGCCGCACCTGCGCAAAAGTCAGCTGGCTCATACGTAACAGATCAGCCCTTCACAAAGAGCAGGCACATGCCTGCTCTTTGTTCTTTGTGCTTCCAGCCTTCTTCAAAGCACCTGCCCCTATCCATTCCACTGAGGAACGCCAAAGCCTCACAGGCTTAA	MLNDFLRTSRTAAVVLAVIRVYLGVTWLKAGIGKLTGGFDVQGFLQGSISKAEGAHPAVQGWWAGFLESFALPNHELFAQLVMWGGNPCRYRSYPWFIYNRCSLWRHPDEFRFLIQRDCQHQSTNGHPDGLYSCCRYQCRALRPGSLDRSIHPKTPAAPAQKSAGSYVTDQPFTKSRHMPALCSLCFQPSSKHLPLSIPLRNAKASQA				NA	NA	NA	NA	NA
AK012_00137	321			hypothetical protein	ATGTGTCAATCACATTCGGCCTGCTGTCCGCAGGCGCAGATCATTCAGGAAAAAATTTGTGGGAATTTCAATGGAGTTTTAGCTGATCCAGTATGGACTGCTCCTGCAGGCAGCTATATTTCTGGTACTTTCCAAATCTTTAACTCAGCTTCCAGTGTAGGTCCCGTATCAGGAGCTATTACACCAACCGGAGCCCTCTCAGCATTACCAGGCAACACAGATTCTGTTAGCGTAAACAATCCAACTGCATTTGCCATTACATCTGTTGTGGGCGACAGCGGTACCTACTGCATCACGCTTTACAAGCGCGTCCTTGCCTAA	MCQSHSACCPQAQIIQEKICGNFNGVLADPVWTAPAGSYISGTFQIFNSASSVGPVSGAITPTGALSALPGNTDSVSVNNPTAFAITSVVGDSGTYCITLYKRVLA				NA	NA	NA	NA	NA
AK012_00138	333			hypothetical protein	ATGTGTGGTGTCTACTCGGATTCCGGGTCCGCGTGCTGCCCCCAGGCACAGATCGTCCAGGAGGAAATCTGCGGGAACATCAATGAACTGCTGGTCGGTGACACTCTATGGGAAGCGCCTGCAGGGAGTTATGTTTCTGCAACATTCCAAGTGTTTAATTCGGCATCAAGTGCAGGGAACATTGTCGTAGCAGGAGACGTTGTCTTCGCTGGAGTAACTCCTGGAAACACACAGTCTGAGAGTGTCGATAACCCAACTACATTCACGGTAACAGCACTTGCTGGTGTAAACGGGACTTACTGTATTACGTTGTATAAGCGTATTTTAGCCTAA	MCGVYSDSGSACCPQAQIVQEEICGNINELLVGDTLWEAPAGSYVSATFQVFNSASSAGNIVVAGDVVFAGVTPGNTQSESVDNPTTFTVTALAGVNGTYCITLYKRILA				NA	NA	NA	NA	NA
AK012_00139	225			hypothetical protein	ATGGCCGTAACCAACACCCGCATTGATTCCCGCCTGCAGCTTGTATTAGCGGTGGGACAGGATGAAGAGGGAAACATGGTTTACAAGACAAAATCGTTTAACAACATGAAAACCGAGGCATCAGACGAACAGCTCTACCAAACGGCAGCTGCGCTTGCCCCGCTTCAACAGCACATCTTGGAAGAAGTCGCTCGTGATAACCGCTCGATTCTTACTGAAGAATAA	MAVTNTRIDSRLQLVLAVGQDEEGNMVYKTKSFNNMKTEASDEQLYQTAAALAPLQQHILEEVARDNRSILTEE				NA	NA	NA	NA	NA
AK012_00140	213			hypothetical protein	ATGAAAAAGCTGGAGCTTAAGTTTTTAAATGAAGAAAGCAGAACGGTGACCATCAGTCTGGATGACCCTGTAGAACCGGTGGATCCGGCTGCGGTGAATGCTGCGATGGATGAAATCCTCCTTCAGGACTGCTTCACATCGACAGGTGGAAGTCTTGTCTCGAAGAAAGAAGCGCGTATTGTGGAGCGGAACGTATTTGATATTACATTGTAA	MKKLELKFLNEESRTVTISLDDPVEPVDPAAVNAAMDEILLQDCFTSTGGSLVSKKEARIVERNVFDITL				NA	NA	NA	NA	NA
AK012_00141	144			hypothetical protein	TTGGACACGTGGATATCGATTATGGCGGATGTCGGTTTTCCTGTTGCGGTGACCTTTTACCTGCTTCACCGTATCGAAGGTAAGCTGGATCAGCTGATTGAAACGATGCATCAGTGGCCGGAGAAGCTGATCAATCAAAAATAA	MDTWISIMADVGFPVAVTFYLLHRIEGKLDQLIETMHQWPEKLINQK				NA	NA	NA	NA	NA
AK012_00142	528	sipT	COG0681	Signal peptidase I T	ATGAGATTGTCCGAACAATCTAAAAGTGAATGGCTGGAATGGTTGAAAGCCATCGCCGTCGCCATCACACTGGCCTTCATTCTAAGAACGTTCTTCTTCGCCACGTCTATCGTAGAGGGTGCCAGCATGGATCCTACTCTCCAAAACGGTGAACGAGTCATGTTCAATAAAATTATCTACTATATAGACGAGCCTGAGCGTGGAGACATCGTCATCATTGAACGTCCTGTCAAAAGTTATGTGAAACGAATCATCGGTCAGCCTGGAGACACCGTTGAAATCCGGGATCATGAGCTTTATGTTAATGGAGAGAAGGAGACGCAGGAATACTTGAGTGAAGATGCTGCCTCCGCTACAAGGGATTACGGTCCTGTTGATGTTCCCGACGGAAAATACTTCGTCATGGGAGATAACCGCTCCATCAGTAAAGACAGCCGCAACGGCCTCGGCTTTATCGAAGAAGATGAAATCATCGGCCGTACAGAACTGGTGATCTATCCATTTAATGAATGGGGACTAACGAACTAA	MRLSEQSKSEWLEWLKAIAVAITLAFILRTFFFATSIVEGASMDPTLQNGERVMFNKIIYYIDEPERGDIVIIERPVKSYVKRIIGQPGDTVEIRDHELYVNGEKETQEYLSEDAASATRDYGPVDVPDGKYFVMGDNRSISKDSRNGLGFIEEDEIIGRTELVIYPFNEWGLTN				NA	NA	NA	NA	NA
AK012_00143	159			hypothetical protein	GTGCAGGTTATGGATAAAGAGACGATGCTGGAAGAGATTGAGCGCCTTCGGAAAAGAATGATGGAGGTCGCTAATGAAAAGGGATTCTCCAGTGTGGAATCGGTTCAAATTAGTCAACGGCTGGATACATTACTCAACGAGATTCAACAACAATCATAA	MQVMDKETMLEEIERLRKRMMEVANEKGFSSVESVQISQRLDTLLNEIQQQS	PGPT0024640_143	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_0_SPORULATION,PGPT0024640-spo0E-K06376	NA	NA
AK012_00144	900			hypothetical protein	ATGTTTGCAGGTGCCGGCTACTATTCTAAAAGGGGGGATCTTATGGATAAGCATTGTATACAGGCAGAAAAAGTGTATGACTGGGTAACCGCACCACTTCAATTTACGAAATGCTTAACCATTTCGTTTGTGGATGACGTTCTCATGGATGAAGTCTGCGGGAATTTCACATTGATGAACGATTCCCGTGAACTGCTATGGCAGTCGCTGCTGACTGATCCTGTCACAGGCACCATTGTCCTCACCCTCCAGCAGGGAGATTTGGGTGATCTTTCTATTTTTATTAATGGAGAAAAAATAAAAAGCGGTACAGGAAAAACATTCAGCAGAACCGTCCAGGGGCTCCAAAGTCTTGAAGTTGTCCGTACAAGCGGTGGAATTTTAAAAGGAAAATACTGCCTGGATTTAAACTACACCCTACCTCAAGGTAAGGAAGAACTCCCCCTTGATTGTGAATGCTACACCTGCTTTTTAGCGGATGGGTGCTGCAGGAAAGCCGATCTTACCTCTATCGTATGCAGGGAAATTGGACAGAGAAAAGAAGTTCCGGTTCTTCTGCCGTCGGGTGAAAAAATCACCCTTCATGAGATTACTTTATGTAAAGAAGGCTGTCTGGGTGTCAAACTTCCGAATGGGTGCATGTGCGTATGCGCCTTTTCCCAAATAGAAAAACTCCTTCTCTGCGCCCCGTCGGGGACGATCATCCAATGTGAAGTGACCAGCTTTACCTGCAGAGTCCAAACGATTACGAAAATCAAACACTGCCTCTGTCTGGAACTGCTGGTTGATATCTGTCAGTCTGTAAAAGTCGTTCACCCTGCAACCATTGCTGTCACGGCCCAGGAATGTGAACCACGTCCACCGATCCGCCCTACTTCCTGCTCCGACCAAAAAAACTGA	MFAGAGYYSKRGDLMDKHCIQAEKVYDWVTAPLQFTKCLTISFVDDVLMDEVCGNFTLMNDSRELLWQSLLTDPVTGTIVLTLQQGDLGDLSIFINGEKIKSGTGKTFSRTVQGLQSLEVVRTSGGILKGKYCLDLNYTLPQGKEELPLDCECYTCFLADGCCRKADLTSIVCREIGQRKEVPVLLPSGEKITLHEITLCKEGCLGVKLPNGCMCVCAFSQIEKLLLCAPSGTIIQCEVTSFTCRVQTITKIKHCLCLELLVDICQSVKVVHPATIAVTAQECEPRPPIRPTSCSDQKN				NA	NA	NA	NA	NA
AK012_00145	741			hypothetical protein	ATGGCCACGATTGATGAAATTGTCGAAGCGCTGGTCACTCCTTTAACACAGTGCTGTTTAGTTAATGCAACGGTAACGGGTCCTTCTGTTCAAAGCGAGGTATTTTCCACACCACTGCAGGGCTTTCCGACAAATGGCAATGAATTCGTTGTCCTAAGCAGCGGTTTTGCAAGCCTGACGCCGGGGACGGCTCCTACGTTTGTTTCTGAAAACACAGGTGGACCAACCGTTCCCGCTGGAGATCCCTTAGGTTCTCCGGACGGGCAGGTATCTCTTGATGTTGTCACGGTCAGGCTGCAATTCCTTCTGCCTAAGGACCCCGGCAAGCTGACATTCGACTGGAAATTCGGGACCGAGGAAAATCCACAGTTTGTCGGACAGTTTGCCGATTATTTCCGGGCGGATGTCTTCACTTCTCTCGGTACCGAAAATATTGCCCTGCTTCCCGACGGAACCCCGGTCACGGTTACAAACGCTGCACCCTTTTCCAATATGCCGAATGGGAGTTCCATGGCTCCTCTTCCTCCTTTTCCTACACCGAATGATGTTACGTATAACGCTGTGACCACGGAGATCTACACCGCAGAGCTTGACCTATCCTGCTACAGCTGTGAACTGATCACCCTTCAGATCCGAGTGGCTGACGTCATTGACCGGGTGTTTAACTCGGCTGCTTTTTTGGATAATCTGCGGATCACCGGATGCGAAGACCCGGAACCCGTAAAGCCGATCTGTCCTTAA	MATIDEIVEALVTPLTQCCLVNATVTGPSVQSEVFSTPLQGFPTNGNEFVVLSSGFASLTPGTAPTFVSENTGGPTVPAGDPLGSPDGQVSLDVVTVRLQFLLPKDPGKLTFDWKFGTEENPQFVGQFADYFRADVFTSLGTENIALLPDGTPVTVTNAAPFSNMPNGSSMAPLPPFPTPNDVTYNAVTTEIYTAELDLSCYSCELITLQIRVADVIDRVFNSAAFLDNLRITGCEDPEPVKPICP				NA	NA	NA	NA	NA
AK012_00146	390			hypothetical protein	ATGGCGAATTGTTGTTGCCCCGACCGTGGTGGTCAATTTGCTATGGATGAATTCTGCGGAAACTTCACGATTGATTGTTTAACCGATGCGCCAGCCCCGGACTTCGGTTTAGCTGAAACGGTCTGGACGTCAAGTTTCACTATTGATGCAGGTACCATCAGCGTCTTTTATGATACCGGCTGTGCCGATCCCCTTACCGTCTATGTTGCCAATGGAGGGGTCGTTGTAGACACCTTCACTGTCCCCCTGGCCACCCTTGGAAGTAATGGGAATACAAGGTCGGTGACGGTTCAGGCCTTTGATGAAGTCCGTATCATTTGTAATACAGATGCCGCAGCAGGAAACTCATGCCGGGGAAAATACTGCATCAGCGCGAATTATCGATTATAA	MANCCCPDRGGQFAMDEFCGNFTIDCLTDAPAPDFGLAETVWTSSFTIDAGTISVFYDTGCADPLTVYVANGGVVVDTFTVPLATLGSNGNTRSVTVQAFDEVRIICNTDAAAGNSCRGKYCISANYRL				NA	NA	NA	NA	NA
AK012_00147	1152	dapX	COG0436	putative N-acetyl-LL-diaminopimelate aminotransferase	ATGGAACATTTGATCAACCCCACAGTTAAAAACATCGAAATTTCCGGCATCCGCCGTTTTTTTAATATGGTCAGTCATTACGAAGACGTCGTTTCCCTGACCATCGGCCAGCCGGACTTCCCTACACCCGATGCCGTCAAGCAGGCAGGTATCCAGGCGATTGAAAATAACCAGACAAGCTACACCCATAACGCCGGCCTTCTTGAACTGCGCCGGGCCGTTCAGCAGCATGCAGCTGACTCCTATGGTCTTTCCTATCAGGCTGAGCAGGAGATCATCATCACCGTAGGAGCATCCGAAGCGCTGGACTTATCCCTGCGTACGCTACTGAATCCAGGTGATGAAGTCATCCTCCCCGGCCCTGTTTATCCCGGGTATGAACCATTGATCCGGCTTGCAGGCGGCACCCCGGTATTCGCAGATACGAGTGCGGAGGCATTTAAACTGACCGGCGACATCATTCAGGCGCATATCACTGAAAAAACAAAAGCAGTGATTCTTCCCTACCCCTCCAACCCGACCGGTGTATCATTAACAGAAGAAGAGCTGAAGGATATTGCTGCCGTCATCAAACAGAACGAAATCTTTATCATCGCTGATGAAATCTACAGTGAACTCGTTTATGAACAGCCGCATACATCCATCGCTTCCATTCCGGAGGTCCGGGACAACGTTATCGTCGTCAACGGGGTATCCAAATCCCACAGTATGACGGGATGGCGGATCGGCTATCTGCTTGCACCGGAATGGCTGTCGCGTCATCTATTGAAAGTCCATCAATATAACGTTTCCTGCGCAGCCTCGATCAGTCAATATGCTGCCCTGGAAGCACTGTCCAATCAGAAGCAGGAAGCAGCACGCATGCGTGACGCCTATAAAGAACGACGTGATTACGCAGCTGGACGTCTCAAACAGATGGGATTGTCATTTGCCCAGCCGGACGGGGCCTTTTATTTGTTCATTCAATTCCCACTGAATGGGAAGTCAACGACTGATAAAGCCGTCGAGCTTGTAGAGGAGGCCGGCCTTGCCCTCGTTCCGGGAGATGCGTTTTCCACCTATGGAGAAGGATACATGCGCCTTTCCTACGCTTACAGCATGGAAACACTGAAAAAAGGCCTCGATAGACTTGAGAATTACTTGAATTCATAG	MEHLINPTVKNIEISGIRRFFNMVSHYEDVVSLTIGQPDFPTPDAVKQAGIQAIENNQTSYTHNAGLLELRRAVQQHAADSYGLSYQAEQEIIITVGASEALDLSLRTLLNPGDEVILPGPVYPGYEPLIRLAGGTPVFADTSAEAFKLTGDIIQAHITEKTKAVILPYPSNPTGVSLTEEELKDIAAVIKQNEIFIIADEIYSELVYEQPHTSIASIPEVRDNVIVVNGVSKSHSMTGWRIGYLLAPEWLSRHLLKVHQYNVSCAASISQYAALEALSNQKQEAARMRDAYKERRDYAAGRLKQMGLSFAQPDGAFYLFIQFPLNGKSTTDKAVELVEEAGLALVPGDAFSTYGEGYMRLSYAYSMETLKKGLDRLENYLNS	PGPT0007150_692	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_TRYPTOPHAN_METABOLISM,PGPT0007150-patA-K00841	NA	NA
AK012_00148	150			hypothetical protein	ATGAGATCGATTCACCGTTTATCTTTTGAAGAACTTGTTGATCGTAACAAGCAGCAGCTGCTGCAAGACGAAGAAGCGATTGAAGACATCGAAAGACAAATAGATGAAAAACACACAAATAAACTTCGTCCCGACCATTATATGAATTAA	MRSIHRLSFEELVDRNKQQLLQDEEAIEDIERQIDEKHTNKLRPDHYMN				NA	NA	NA	NA	NA
AK012_00149	876			hypothetical protein	ATGAATGACGTAGGTTTAGTATTGGAAGGCGGCGGGATGCGGGGTGCTTATACAGCAGGTGTGCTCGATTACTTTCTCGATCAGGGCGTGCATTTTCCCTATGTTGTCGGAGCCTCCGCCGGCGCATGCAATGGCAGTTCCTATGTAGCCAAACAGCGGGGGAGAAATTACCGGGTCATTGTCGAATACGGGGATCATCCTGAATACATATCTTACAAACGAATGCTGACCAAGCGTCAGTTGTTCGGGATGGATTTCCTTTTTGATAAGCTCCCGAATGAACTGGTCCCTTTTGATTATGAGTCCTTCATGAAGCAGTCAACCAAATTCGTCGTCGCGACGACTGATATGGATTCAGGAAGGCCGGTTTTCTTTGATTCCTTCCACGACAGGGACAGTCTCCTGAAAGTCATCCGGGCCTCCAGCTCGCTCCCGATGATTGCGCCGAGCATTGAGTTCAAAGGGTTTCAGTTAATGGATGGGGGGATTGCCGATCCTATTCCGCTGCAGCGTTCGATTGACGACGGCAATCAAAAGCATGTGATCGTCCTGACACGAAATGAGGGTTATATCAAAGGCAGATCCAAAGCCGGCTGGTATTTGAACCGCCGGTATAAAAAGTTTCCGAACTTCGCCAAAACGATGGCCGACCGGCATATCCATTACAATGCACAGCTGGAGCACGTAAGAAAAATGGAAGAAGAGGGACGGGCGTTTGTCATCCGTCCGCGTCAGCCGCTGGTGGTCAGCCGGATAGAAAGGAACAGGGACCGGCTGCATAACCTCTATATGCAGGGTTATCAGGAAGCAGAGGCTCTTGGAGAACAGTTGACCGATTTTCTTCAAATGGATCATGCAGGGGTGGGCCGGATATGA	MNDVGLVLEGGGMRGAYTAGVLDYFLDQGVHFPYVVGASAGACNGSSYVAKQRGRNYRVIVEYGDHPEYISYKRMLTKRQLFGMDFLFDKLPNELVPFDYESFMKQSTKFVVATTDMDSGRPVFFDSFHDRDSLLKVIRASSSLPMIAPSIEFKGFQLMDGGIADPIPLQRSIDDGNQKHVIVLTRNEGYIKGRSKAGWYLNRRYKKFPNFAKTMADRHIHYNAQLEHVRKMEEEGRAFVIRPRQPLVVSRIERNRDRLHNLYMQGYQEAEALGEQLTDFLQMDHAGVGRI				NA	NA	NA	NA	NA
AK012_00150	705			hypothetical protein	ATGAGAGCGGAGCATCTAGCTGCTGATATCAATGAAGCGTTGGTGGAGCATCAAAATGAACGCCGGCGCCAGCCGATGGAGAACTATATGAAAAACCATTTTCCGTTCTACGGCATCAAAGCGCCTGAACGGAAAAAGATCCTTGCTCCGTTTTTGAAAGAATGGAAAACTCTCAGTGAAAAAGAACGTTTTGAAGTGGCGTTTCATCTTTTTCAGATGCCTGAGAGGGAGTGTCATTATGCAGCGCTGGCTCTTTTGGACAAAGGTAAAAGATCGGTTTCTCTCCACGCGGTAGAGTTCTATGAAAAGCTCCTGCAGATAAAACCGTGGTGGGATACGGTGGATATGATCGCGTCTCATCTGTGCGGGGAATATTTCAAGCTTTACCCTGGACAGCTGCGCCCGTATACAGAACGTCTCCGTGAATCGGACTCGATGTGGCTGCGGCGCTCTACGCTTCTTTTTCAGCTGAAATACAAGGAAGAGACGGATGAAACACTCTTATTCGAAACGATCCTCCGGTTAAAAGACGAGAAAGAATTTTTCATAGAAAAAGCTGTGGGGTGGGCACTCCGGGAGTACAGTAAAACCAACCCGGATGGTGTCCTTCAATTCTTGTCGGTGTATGAATGCCGTCCACTCAGCCGCCGTGAAGGGCTGAAGTGGCTCAAAAACAAGCAGCCTCATCTCCTTGATCATTTCTAG	MRAEHLAADINEALVEHQNERRRQPMENYMKNHFPFYGIKAPERKKILAPFLKEWKTLSEKERFEVAFHLFQMPERECHYAALALLDKGKRSVSLHAVEFYEKLLQIKPWWDTVDMIASHLCGEYFKLYPGQLRPYTERLRESDSMWLRRSTLLFQLKYKEETDETLLFETILRLKDEKEFFIEKAVGWALREYSKTNPDGVLQFLSVYECRPLSRREGLKWLKNKQPHLLDHF				NA	NA	NA	NA	NA
AK012_00151	408			hypothetical protein	ATGAATATGGGTGAATGGCTCGATCCACACTTTCTGGAAGAACCGATCCAATGGCTCAATGAGGATGTTCTTCAGATTTTTGGAATGGAGCCGGAATACATTCAGTTTTTTCTGGTGTTTGCTTTCATGGGATCTGTCATGTGGGTGGTGAAGCCGGTGGTCGAGTGGCTGGTACTGCGAAACTGGCTGACATTCCTAAGCTGCCTGTCTTCTGTTTTGATCGTCCTCGTTTTCCTGCAGATGGTGGACAGGTATGCGATGGCAGGAACAACATCGACGCTGCCGGAATACTATTGGTTTATCTGTCTTTCGGCCATCAGCGGTTACGGTCTCACCCTTGCCTGGTGGCTGACGGTGAAACAGGCTTACCGCAGATTTACAAAGCGTAAAAGAAGGAAGGCCGCTTGA	MNMGEWLDPHFLEEPIQWLNEDVLQIFGMEPEYIQFFLVFAFMGSVMWVVKPVVEWLVLRNWLTFLSCLSSVLIVLVFLQMVDRYAMAGTTSTLPEYYWFICLSAISGYGLTLAWWLTVKQAYRRFTKRKRRKAA				NA	NA	NA	NA	NA
AK012_00152	1005	cheV	COG0784	Chemotaxis protein CheV	TTGAACTCTCTTATTACAAGGGAGTTTTTATTTTTTCTTCACGACCTTCTGCTGCCATCCGATACTAGAGGAAGACGTTTAGAAGAAAGGGCGATGTTCATGGAACAGAAGCAGGGAGTGCTGTTGGAAAGGGATACGAATGAACTCGAAATCGTAGAGTTTGGAATTGGTGAGAACCGTTTCGGTATCAATGTGTTGAAAGTGAAAGAAATCTTAAATCCTCAGCCGGTCACACAAGTGCCGCGCGCGCACCCATTCGTAGAAGGGATCATTGACATACGCGGAGAAATCGTGCCGGTCGTCGATGTCGCACACGCTTTAGGATTTCCGGCTTCCGATCAGCCGGAAAAGGACAAGTTTATTCTTACGGAATTCAACCAGACGAAAATCGTTTTTCACGTCCATACGGTGACACAGATTCACCGGATCTCCTGGGAGCATATTGAAAAGCCGGGTCACATGTACCAAGGGCTGCATACGCAGATCACAGGAGTCATTAAAAGGGAAGGGGATATGCTCCTTCTGCTTGATTTTGAGAAAGTGGTGGCTGACATCCATTCTGAGGGTGGTATGAAAACGGACCAGCTGCGTGAGCTCGGAAAGCGGGAACGTTCTTCCAAGAAGATTCTTATGATTGAAGACTCCCCCATGCTCCGGACCATGCTTCAGGAGACGTTGAGTCAAGCCGGGTATGAACGGACTGTCAGTTTGGAAAACGGCAGGGAAGCGTGGGAGCACCTTTCAGAGCTGATCGACGATGGAAAAACGGTGTTGGACGAATATCAGCTCATCATTACGGATATCGAGATGCCTTTGATGGATGGCCATCATTTGACGAAGCTGTTGAAAGATCATCAGGAGCTGCAGAAGCTCCCGGTGATTATTTTTTCCTCCCTGATCACAGAAGACCTCCGTCATCAAGGGGAAAAAGCAGGAGCAGATGCCCAGGTTTCCAAGCCGGAAATCATGGAGCTGGTGACTAAGATTGATCAGCATATCCTGTAA	MNSLITREFLFFLHDLLLPSDTRGRRLEERAMFMEQKQGVLLERDTNELEIVEFGIGENRFGINVLKVKEILNPQPVTQVPRAHPFVEGIIDIRGEIVPVVDVAHALGFPASDQPEKDKFILTEFNQTKIVFHVHTVTQIHRISWEHIEKPGHMYQGLHTQITGVIKREGDMLLLLDFEKVVADIHSEGGMKTDQLRELGKRERSSKKILMIEDSPMLRTMLQETLSQAGYERTVSLENGREAWEHLSELIDDGKTVLDEYQLIITDIEMPLMDGHHLTKLLKDHQELQKLPVIIFSSLITEDLRHQGEKAGADAQVSKPEIMELVTKIDQHIL	PGPT0015675_1661	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015675-cheV-K03415	NA	NA
AK012_00153	207			hypothetical protein	ATGACAATGAATCCGATGGACGATTTTTTATGGCATTTGAAAAAGTATATGGAGTATACGACAGAAATGAGAGCTTCCTATGAACACCTTTCCGATCATGAAAAAAGCTTGATCGTGGAATCTTCCCCTACGAAACAAGGGCCGGAAACTCTTTCTAAACAGGCTTATGCCTGGCATGATGAACTGTTCGAACGACTCAAGAAATAA	MTMNPMDDFLWHLKKYMEYTTEMRASYEHLSDHEKSLIVESSPTKQGPETLSKQAYAWHDELFERLKK				NA	NA	NA	NA	NA
AK012_00154	474			hypothetical protein	ATGAACAGAAAGCAGCTATCCGACCGTGAAATTGCCGAATCATTATTCATTGTAAACCGCCACGCTAAAACGGCCCCTGAGCCGAAGCATTTATACGATATAAAAAAACATACCATCGACCTCCTGCTGAAGGAGAAACGGGCCAGGAAAGTCGGCCTTCATTACTCCGATCACCCTCGTTTAAGTCAGCAGCATTCTACTCTTCTGATCGAAATTGGCGGGTATTATTTCCACGTACCAGCAGCAAAGGACGACTTCCAGCAGCTGGAGCACTTAGGCCGTGTCGACCAGTCCTACCGCAATCCGAAACCGAAACTGTCATTATCCCGTGCGAAACGGACCTTGTATCAATACTTAAACTGGAAACAGCCGGAAAAAACCTCGCCGCGTGCCTTTCATTCCACTCCGCAGCCTTCCCTGCTCGGTCAAAGGACAGAAACACCGTGGAATCAGCGTCCAAGAAGAAGAATGTAA	MNRKQLSDREIAESLFIVNRHAKTAPEPKHLYDIKKHTIDLLLKEKRARKVGLHYSDHPRLSQQHSTLLIEIGGYYFHVPAAKDDFQQLEHLGRVDQSYRNPKPKLSLSRAKRTLYQYLNWKQPEKTSPRAFHSTPQPSLLGQRTETPWNQRPRRRM				NA	NA	NA	NA	NA
AK012_00155	555	ypmQ_1	COG1999	SCO1 protein	ATGAACGCAAAACTTTGGTTTGGACTTTTTTGCATCATCATTTTTATAACGGGATGCGGTTCTGATGACATCCATACTCTGCAGGCCGTTAATCAGCACGGAGAAGAACGGACACTCCCAGAGGCGTATGAAGGGGACTATTGGGTGGCCGACTTCATTTTCACCAACTGTGAAACCGTCTGCCCTCCGATGACCGGTCATATGTCCAGGCTCCAGCAGCAGTTAAAGAGCGAAAACCTGGACGCCCGGCTCGTCTCTGTGAGTGTGGATCCGGAAAATGATACACAGGAAGTGCTTCAAAGCTTTGCGGATGCCTATCAGCCCGATTATGACCATTGGGATTTCCTCACCGGCTATTCCTATGAAGATGTGAAGGAATGGTCGATCAAATCGTTTCAATCCCCTGTGAAAAAAATGGAGGATTCCGACCAGATGGCTCACGGAACAAGCTTTTACCTTGTCGGCCCTGACGGAGATATTCTAGAAAGCTACAGCGGAACCAGCGCCGACAGCATCGAAATGATTATCAGCGATTTAAAAGAGTATAAAAAGTAA	MNAKLWFGLFCIIIFITGCGSDDIHTLQAVNQHGEERTLPEAYEGDYWVADFIFTNCETVCPPMTGHMSRLQQQLKSENLDARLVSVSVDPENDTQEVLQSFADAYQPDYDHWDFLTGYSYEDVKEWSIKSFQSPVKKMEDSDQMAHGTSFYLVGPDGDILESYSGTSADSIEMIISDLKEYKK				NA	NA	NA	NA	NA
AK012_00156	861	lpxG	COG1408	UDP-2,3-diacylglucosamine pyrophosphatase LpxG	ATGAACTTAACACGCCGCCAGTTTATCAAGCGGATAGCCGCCGGGGCAGCCGGAGTTGTGGGGATCAGCGCCTTCGGTTATTCCTATGCCTGGTATGTAGAGCCGCGTCTGCTCTCCAGACAAGCCTATGTCATTGAACACCCGAAGGTACCACGTGCGTTTCATAACTTTAAAATCCTGCAGTTTTCCGATACCCACCTAGGGTTTCATTATGACTTGGATCAGTTGGAAAAGCTTGTACAAACAATCAATGAGGAAGAACCAGACATGCTTCTGTTTACCGGTGATCTGGTGGATGAGCCGCAGACGTATCCTTTTCCACCGAGACTTGTGGAGGTGCTGAAAAAACTTCAGGCTCCACGGGGAAAATACTGGATTTACGGGAACCATGATCATGGAGGATATGGGACTGAGAAAATTCAACAGGTGATGGAAGCGTCTGGATTTCAACTGCTCCAAAACGAACATAGATCCATCAAAAACGGTGACGCTTCCTTTATTTTAGCGGGGCTTGATGATGTAATGCTTGGAAAACCGGATATCGCCCGGGCTTTATATGGAGCGGATGAAGAGCGATTCACCTTATTGATGGTTCACGAGCCGGATGTCGCTGACCGATTCGCAGACAGGGCTGTCGATCTGCAGCTTTCCGGTCATAGTCACGGGGGGCAGGTACAGCTCCCTTTGATCGGCCATCTCATCACTCCCCCTTATGCCGATAAATATGTGGAGGGGCATTATGCAATCACCGAAAACTTTGATCTATATGTAAGCCGGGGGATCGGAACGACGCGGCTTCCTTACCGTTTCCTCTGTCGTCCGGAATACTCCGTCTTCCAGCTGAAACACCAGGGTACCTGA	MNLTRRQFIKRIAAGAAGVVGISAFGYSYAWYVEPRLLSRQAYVIEHPKVPRAFHNFKILQFSDTHLGFHYDLDQLEKLVQTINEEEPDMLLFTGDLVDEPQTYPFPPRLVEVLKKLQAPRGKYWIYGNHDHGGYGTEKIQQVMEASGFQLLQNEHRSIKNGDASFILAGLDDVMLGKPDIARALYGADEERFTLLMVHEPDVADRFADRAVDLQLSGHSHGGQVQLPLIGHLITPPYADKYVEGHYAITENFDLYVSRGIGTTRLPYRFLCRPEYSVFQLKHQGT	PGPT0022365_3262	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK012_00157	768	fadH	COG1028	putative 2,4-dienoyl-CoA reductase	ATGAAGGATCAAGTGATCATCGTTACTGGCGGGTCAAGTGGAATGGGGCTGCATATGGCGAAACGATTCGTTTCCGAAGGCGCACGTGTAGTGATTACCGGGAGGAATGAAGAACGCCTGGCAGCAGCTAAGCAGGAAATCGCAGGGGGAGAGGAAGCTTCTGTTCTGACCATTCAGATGGATGTCCGGGAAGTGGAGGACGTGCAGCGGATGGTACGGGAAACCGTAGATGCATTCGGGACCATCGATCATCTCGTCAACAATGCGGCCGGCAACTTTATAGCTCCGGCGGAAGAACTTTCGCCAAATGGCTGGAATTCGGTCATCAACATTGTCCTTAACGGGACGTTCTACTGCAGTCAGGCTGTCGGGAAATACTGGATTGAAAACAACATCAAAGGTTCAATTCTGAATATGGTGGCTACATATGCCTGGAATGCCGGGGCTGGTGTCATCCACTCCGCTTCAGCGAAAGCCGGCGTTCTTACGATGACCCGGACACTGGCGGTGGAGTGGGGAAGCAAGTACGGCATCAGGGCCAATGCCATTGCTCCCGGACCGATCGAACGGACAGGAGGGGCGGATAAATTGTTTCAATCCGAAAAGGCGGCACAGCGGACCATCCAATCGGTACCCCTCGGCCGGGTCGGGACTCCGGAAGAGATTGCCGGACTCGCGAGATTTATCCTTTCGGATGAAGCTGCTTATATGAATGGGGAGTGCATTACTTTGGATGGTGGACAGTGGTTGAATAAGTTCCCTTTTTAA	MKDQVIIVTGGSSGMGLHMAKRFVSEGARVVITGRNEERLAAAKQEIAGGEEASVLTIQMDVREVEDVQRMVRETVDAFGTIDHLVNNAAGNFIAPAEELSPNGWNSVINIVLNGTFYCSQAVGKYWIENNIKGSILNMVATYAWNAGAGVIHSASAKAGVLTMTRTLAVEWGSKYGIRANAIAPGPIERTGGADKLFQSEKAAQRTIQSVPLGRVGTPEEIAGLARFILSDEAAYMNGECITLDGGQWLNKFPF	PGPT0019825_94	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TERPENE_UTILIZATION	PLANT_DERIVED_CITRONELLOL-CITRONELLAL-CITRONELLATE_DEGRADATION,PGPT0019825-atuB|atuG-K13774	NA	NA
AK012_00158	657			hypothetical protein	TTGCTCACCATCCTCTCATGGACAGCCCTACTTACAGGGCTTGTCTGTTCTCTTATTTTGATCATTGATGTCATCCGTCATCCGCAGATGATGAAGGTGATGAACGTCGTATGGCCGATTAATGGCTGGTTTTCAGGACCTGCTGCTCTCTGGACTTATTTCAAATGGGGGCGTTTAAAGAGCAGGGATAATCAAAAGGAAGACAGCCGCGGGGAAGCGTCCAAAGTTTTCGTTTCCACCAGCCACTGTTCAGCCGGCTGTACGTTCGGTGATGCGGTAGGGGTACCCATCACAGCCGCTACGGGGATCACCATTGCCGGTTCTACATTATTTGCCCATTATGCGGTTGAATTCATTCTAGCTTATTTGTTTGGGATTTTATTTCAGTACTATGCCATTTATCCAATGCACAAAAATCTCGGCAGAAAAGGGGCTGTTTGGGCAGCCGTGAAAGCGGACTCCATTTCTTTGTTTGCTTTTGAAGTCGGCATGTTCGGCTGGATGGCGCTCGTCCACTTTGTCTTCTTCCAACAGCCGCCGGAACCAACGACCGCCACCTATTGGTTCATGATGCAGATCGCTATGATTTTAGGCTTCCTAACCTCCTATCCCGCCAACTGGATCCTCGTTAAAAAGGGAATCAAAGAAGCGATGTAG	MLTILSWTALLTGLVCSLILIIDVIRHPQMMKVMNVVWPINGWFSGPAALWTYFKWGRLKSRDNQKEDSRGEASKVFVSTSHCSAGCTFGDAVGVPITAATGITIAGSTLFAHYAVEFILAYLFGILFQYYAIYPMHKNLGRKGAVWAAVKADSISLFAFEVGMFGWMALVHFVFFQQPPEPTTATYWFMMQIAMILGFLTSYPANWILVKKGIKEAM				NA	NA	NA	NA	NA
AK012_00159	318	csoR	COG1937	Copper-sensing transcriptional repressor CsoR	ATGTGTGAGCATCCATTGCCGGAAAACAGCGGGAAAGACCCGGTGACTCCGAGAACAGATGATGAAAAGCAGGCGGTCGTAAACAGGCTGAGGAGAATAGAGGGGCAGGTGCGGGGCATCCAGAAAATGGTCGAGGATGACCGCTACTGCGTCGATATACTCGTGCAGATTTCAGCGATTGATAAAGCTTTGAAACGTGTCGGCTATTCGCTTCTTGAGAGGCATACCCACCATTGTGTGAAAGATGCCATTCAAAAGGGAGACGGGGACGAAGCCATTGATGAGTTAATGAAAGTCGTTCAACAGTTCTCCAAATAA	MCEHPLPENSGKDPVTPRTDDEKQAVVNRLRRIEGQVRGIQKMVEDDRYCVDILVQISAIDKALKRVGYSLLERHTHHCVKDAIQKGDGDEAIDELMKVVQQFSK	PGPT0004175_751	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
AK012_00160	2406	copA	COG2217	Copper-exporting P-type ATPase	ATGTCGGATACAAAAGAAATCCAGTTCGGTGTGACGGGAATGACGTGTTCCGCGTGCGCTTCCAGAATTGAAAACGTGTTAAATCGAATGGATGGGGTGGAACAGGCGGACGTCAACCTGGCCATGGAAAAAGCAGCCGTCACCTACCGCGGTGATGAAGTGGATGCCGGTCAGATTAAAGAACGAGTGGAAAAGCTCGGGTACGGCCTCCGCATGGAGAAGCTGGAGCTTGATATAGAAGGAATGACGTGTTCCGCCTGTTCCTCCCGTATCCAAAAAGTGCTGAGCCGGACGGAGGGCGTCAATGAAGCTTCCATTAACCTGGCGACAGAAGCGGGTGTGGTGGAATATGACCCTTCAGAAGTCACGGTGGATGATATTATCGCCCGAGTGAAAAAACTCGGGTATGGGGCTGCTGTGAAACGGGACAGGGAAGAGCAGAAGGAAAAGAAAGAAGAGGAAATCCAACAGAAGAAGCGCCGCTTATGGATATCCGCTCTGCTTTCACTTCCTCTGCTTTATACGATGGCAGGGCATCTTCCCTTCGGTCTGGCGTTTTACGTCCCGGAACTATTTATGAATCCTTGGTTCCAGTTTCTTCTGGCAACCCCCGTCCAGTTTTACATCGGGGCACCGTTTTATAAAGGGGCCTGGCGGGCATTATCCAATCAAAGTGCCAATATGGATGTGCTCGTTGCACTCGGTACCTCGGCCGCTTATTTTTACAGTGTTGTAGAAATGATCCGCTGGATGGGTGCTCCGGATGGAAGGCCGGACCTTTATTTTGAAACGAGTGCCGTGTTGATTACGCTGATCCTGGTTGGGAAACTGATTGAGGCATTGGCCAAGGGAAGAACAACGGCGGCCCTTTCCCATCTGCTGAATCTGCAGGCGAAGGAAGCGGTCGTGGTGAGAGATGGCAAGGAAGAGAACATTCCTGTTGAACAGGTTCAGGTCGGCGATGAGCTTATCGTCAAACCCGGGGGCAAAATACCTGTCGATGGGACCATACGTGCAGGGGTGACTGCTGTGGATGAATCAATGATTACCGGAGAGTCCATTCCTGTTGAGAAAATGGAAGGAGAAGCAGTCATCGGGTCAACCATCAATAAAAATGGAACGATTCGAATGACAGCGGAGCGCGTGGGCAGGGACACAGCTCTTTCCGGCATTGTAAGAATTGTCGAAGAGGCGCAGGGGTCCAAGGCACCGATTCAGCGTACCGCTGACCGGATTTCCGGCATTTTTGTACCGATTGTCGTCGGAATTGCCCTCCTTACCTTTCTCCTATGGCTGGTCTTTGTCTCACCAGGAGAGTGGGCCCCTGCCCTTGAAGCAGCGATTGCCGTTCTGGTCATCGCCTGCCCGTGTGCCCTCGGCCTGGCCACACCGACCTCGATCATGGTCGGGACCGGTAAAGGAGCTGAGCAGGGCATTCTTTATAAAGGCGGAGAATATTTGGAAGGAACACATAATCTGACGACGGTCCTTCTGGATAAAACAGGAACCCTGACCAAAGGAAAGCCTGAAATTACGAATTTTGAATCCTTTGATGACCGTTTGGATGTGCTGCGTCTTGCTGCTTCTGCGGAATCTGCATCTGAGCATCCGCTTGCTGAAGCGGTGGTCGAGTACGCGGAAAACGAAGGGGTATCTCTGGCAGAGCCTGACCGATTTGAGGCCGTCCCCGGCTATGGGGTCATTGCAGATATAGAAGGACACCACGTGATGATCGGTACAAGGAAGTTAATGGAACGGGAACAGCTGGATTACGAGACGTATGAATCGAAAATGGCGGATTATGAGCAGGAAGGCAAAACAGCAATGTTTATAGCGGTCGACGGAGTGCTTGCAGGGATTATGGCTGTGGCTGATACGGTGAAGGAATCATCAAGAGAAGCGGTGGCCGATTTGAAGAAGCTTGGTCTTGATGTATACATGGTTACAGGGGACAACCGCCGGACAGCAGAAGCCATCGCCCAGGAAGTGGGCATTCACGGTGTATTCGCAGAAGTGCTGCCGGAAGAAAAAGCAGAGAAAGTGAAGGAGCTGCAGCAGGAAGGCCATAAAGTAGCGATGGTCGGTGACGGAATCAATGATGCGCCGTCTCTTGCTGTCGCTGATATCGGAGTGGCGGTTGGTACGGGATCTGATGTAGCCATTGAAACCGCCGATATCACTCTGGTCGGCGGGGATCTTGTCCACCTCAGCCAGGCCGTTTCCCTCAGCAGGAAGACGATGCGCAACATCCGCCAGAATTTATTCTGGGCCCTTGCCTACAACAGTGCAGGGATTCCGGTGGCGGCGCTCGGGCTGCTCGCTCCATGGGTCGCCGGTGCGGCTATGGCCTTCAGTTCGGTCAGTGTCGTTACCAATGCCTTGCGGCTGAAGCGGGTTAAATTGTAA	MSDTKEIQFGVTGMTCSACASRIENVLNRMDGVEQADVNLAMEKAAVTYRGDEVDAGQIKERVEKLGYGLRMEKLELDIEGMTCSACSSRIQKVLSRTEGVNEASINLATEAGVVEYDPSEVTVDDIIARVKKLGYGAAVKRDREEQKEKKEEEIQQKKRRLWISALLSLPLLYTMAGHLPFGLAFYVPELFMNPWFQFLLATPVQFYIGAPFYKGAWRALSNQSANMDVLVALGTSAAYFYSVVEMIRWMGAPDGRPDLYFETSAVLITLILVGKLIEALAKGRTTAALSHLLNLQAKEAVVVRDGKEENIPVEQVQVGDELIVKPGGKIPVDGTIRAGVTAVDESMITGESIPVEKMEGEAVIGSTINKNGTIRMTAERVGRDTALSGIVRIVEEAQGSKAPIQRTADRISGIFVPIVVGIALLTFLLWLVFVSPGEWAPALEAAIAVLVIACPCALGLATPTSIMVGTGKGAEQGILYKGGEYLEGTHNLTTVLLDKTGTLTKGKPEITNFESFDDRLDVLRLAASAESASEHPLAEAVVEYAENEGVSLAEPDRFEAVPGYGVIADIEGHHVMIGTRKLMEREQLDYETYESKMADYEQEGKTAMFIAVDGVLAGIMAVADTVKESSREAVADLKKLGLDVYMVTGDNRRTAEAIAQEVGIHGVFAEVLPEEKAEKVKELQQEGHKVAMVGDGINDAPSLAVADIGVAVGTGSDVAIETADITLVGGDLVHLSQAVSLSRKTMRNIRQNLFWALAYNSAGIPVAALGLLAPWVAGAAMAFSSVSVVTNALRLKRVKL	PGPT0004090_4023	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-COPPER_TRANSPORT,PGPT0004090-copA|ctpA-K17686	NA	NA
AK012_00161	201	copZ_1		Copper chaperone CopZ	ATGGAAACGATGATGCACGTAGAAGGAATGACATGTGACCACTGCAAAAAGGCGGTGGAAGGAGCTTTAACCGGACTTTCAGGGGTGAAACAAGCCGATGTCAACCTGGAATCGGGAAAAGTCCGTGTTTCTCATAACGATACGGTCTCCAATGAAGCTTTGAAAGAAGCGGTCGAAGATCAGGGATACGATGTAGTCTAA	METMMHVEGMTCDHCKKAVEGALTGLSGVKQADVNLESGKVRVSHNDTVSNEALKEAVEDQGYDVV	PGPT0004125_2778	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
AK012_00162	639			hypothetical protein	ATGCTGACACATACATTTACGAAAAAGGAAGAAATCGCCAATGCCATTACTCACGGAATTGGAGCTGTTCTGAGTGTGGCTATGCTCGTACTGCTGATCGTTTTTGCAAGTCTGGGAGGAAATGCGTGGCATATTACAAGTGTGACAATATACGGGGTAACAATGCTCCTGCTCTACACTTCTTCGACTCTCGTCCATAGTTTCCCTCCCGGCAGGGCCAAAGATCTGTTTGAGATTTTCGACCATTCTGCGATCTATTTGTTTATTGCCGGAACGTATACGCCGATCCTGCTCGTCCCGCTTAGAAGCTCCCTCGGCTGGACACTTTTCGGAATCGTATGGGGGATTGCCATTCTCGGGATCGTTTTCAAAGTATTTTTCGTGAAAAAGTACGTCTTCATGTCCACCGTCTTCTATCTTTTGATGGGCTGGCTCATCGTCCTTGCCTGGGAGCCCCTGACCGCACAGGTTCCGGCTGCCGGCATTACGTATCTCGTCGTCGGAGGCGTCCTTTATTCCATCGGGTCCATCTTTTACGTATGGAGAAGCTTCACCTACCACCATATGGTATGGCACCTGTTCGTCCTCGGAGGGTCGATTCTTCACTTCTTCACGATCTTCTTTTATATCATCGGATAA	MLTHTFTKKEEIANAITHGIGAVLSVAMLVLLIVFASLGGNAWHITSVTIYGVTMLLLYTSSTLVHSFPPGRAKDLFEIFDHSAIYLFIAGTYTPILLVPLRSSLGWTLFGIVWGIAILGIVFKVFFVKKYVFMSTVFYLLMGWLIVLAWEPLTAQVPAAGITYLVVGGVLYSIGSIFYVWRSFTYHHMVWHLFVLGGSILHFFTIFFYIIG				NA	NA	NA	NA	NA
AK012_00163	465	ykuL	COG0517	CBS domain-containing protein YkuL	ATGGTAAGTTTACAAAAAGAAACACTGCGTATTCCATTAGTATCGGAGCTGATGATTCCATCTGAGAAAGTGGCCCACGTACAAATCAGCAACCCGTTGGAGCATGCCCTGCTCGTGTTAGTGAAGTCCGGGTATTCCGCTGTGCCTGTACTGGACCCATCCTATACATTTCAAGGGGTAATCAGCAAAACGAGAATTTTAGAGGAAACGATTGGTATAGAAGAATTTGAAATGAACCGTCTTTCTGAAATTATGGTCAAGGAAGTCATGGATGACCAAGTTCCATGTCTCACCAAGGAGCAGACGATGATTGATGCGCTTCACAAACTGATCGATCATCCTTTTGTATGTGTGACAAACGACAAAGGCGAATTCGACGGTATTGTGACCCGTAGAACAATTTTAAAACAATTCAGCAAACACTATCATGAAACATTGAAGTATACCATGCTGGAGACAACATAA	MVSLQKETLRIPLVSELMIPSEKVAHVQISNPLEHALLVLVKSGYSAVPVLDPSYTFQGVISKTRILEETIGIEEFEMNRLSEIMVKEVMDDQVPCLTKEQTMIDALHKLIDHPFVCVTNDKGEFDGIVTRRTILKQFSKHYHETLKYTMLETT				NA	NA	NA	NA	NA
AK012_00164	1470	bmr3		Multidrug resistance protein 3	ATGTCGAAGACACAACAAAATAGAGATCTCGTCCTTGCGTCGATTATGCTGGCCATGTTCCTGGCGGCTATTGAAGCCACTATCGTTTCTACAGCCATGCCGAGTATTGCTGCAGACCTGGGCGGTTTCCGCTGGTATTCCTGGGTGTTCTCAGCCTATCTTTTAACAAACGCGGCCACCGTTCTTCTGTTCGGGCGGCTTTCCGATGTGTTTGGTCGAAAACCAGTATTTATGATCGGGATCGGTTTGTTTTTAACAGGAGCGGTTCTATGTGCGCTTGCGCCTTCGATGGAAGTCCTGATTGGCGCAAGACTGATTCAGGGACTCGGAGCAGGAGCCTTGATGCCGATTGCAACGACGATTGTCGGAGATATTTATACAAAAGAAGAACGAGCCGGCATTCAGGGGTGGCTGTCCAGTGTATGGGGGATATCTGCGGTCGCAGGGCCGCTGCTGGGCGGATTGTTCGTTGACGTGCTCAGCTGGCCCTATGTCTTCTGGATGAACCTGCCTCTCGGTATTCTGGCACTCCTGGGCATTTTGTTCTTTTTCAAGGAAGAGAAGACAGCGGAAAAGCGGAGCGTGGATCTGCCGGGTTCCCTATGGGTGATGGTTACCGTCAGCTCCCTGATTGTCATTCTGGTGGAGGGCGGAACGAGCATCCCCTGGTTTTCCTGGGGAATGGCCGGACTCGCAGTGATTGCAGGCAGCGGGGCTCTTGCCTTCCTTTTTCATGAAAGGAAGATGAAGGACCCTATGATGCCGCTCGATCTGTGGCAGATCCGGTCCATTCGTTATTCCAATGCGACCTCGCTTGTAACGGGAATGATTTTAATCGGCGTCAGCAGCTATCTGCCGGCTTTTGTCCAGGGCGTGATGGAGCAGTCCGCTACCGTAGCAGGCTTTACCCTCACAACGATGTCGATCGGCTGGCCGGCTGCTTCAGCTGCAGCCGGACGGTTGTTTTTGAGAATTGGTTTTCGCCCGACCGCTCTCGCCGGTGGTGTTTCTCTTATTGTCGGAAGCATTGTTTTCTCCCTGCTTTCTCCTGAGAAAGGCCCTTTGTTTGCGGCTTCAGGCTCCCTGTTCATCGGAATCGGGATGGGATTGACGACCACGTCCTTCATCGTCTCCATCCAAAACAGTGTAAGCTGGGAGAAAAGAGGGATAGCGACGGCGTCCAATATGTTTATGCGGACGATTGGCAGTGCCCTGGGAGCCGCTCTCCTCGGCGGCCTGTTGAACAGCCGGGTATCGAACGCTATCGAGGAGGCTGGGATGGGCAGCCGGCTGAGTATTGATGATACGAATGCTCTCCTTCGTGAAGAAACACGGCTCTCGTTAGGGGAGGACGCTCTTGATGTGCTGCAGCAGGGGCTGAGCTCGGGTCTCCATATTGTCTATATCAGTCTGGTCCTTTTAGCGGCCGTGAGTTTTCTACTCATTCTGCAAATTCCGAAAAAAGATTGA	MSKTQQNRDLVLASIMLAMFLAAIEATIVSTAMPSIAADLGGFRWYSWVFSAYLLTNAATVLLFGRLSDVFGRKPVFMIGIGLFLTGAVLCALAPSMEVLIGARLIQGLGAGALMPIATTIVGDIYTKEERAGIQGWLSSVWGISAVAGPLLGGLFVDVLSWPYVFWMNLPLGILALLGILFFFKEEKTAEKRSVDLPGSLWVMVTVSSLIVILVEGGTSIPWFSWGMAGLAVIAGSGALAFLFHERKMKDPMMPLDLWQIRSIRYSNATSLVTGMILIGVSSYLPAFVQGVMEQSATVAGFTLTTMSIGWPAASAAAGRLFLRIGFRPTALAGGVSLIVGSIVFSLLSPEKGPLFAASGSLFIGIGMGLTTTSFIVSIQNSVSWEKRGIATASNMFMRTIGSALGAALLGGLLNSRVSNAIEEAGMGSRLSIDDTNALLREETRLSLGEDALDVLQQGLSSGLHIVYISLVLLAAVSFLLILQIPKKD				NA	NA	NA	NA	NA
AK012_00165	720	dapH_1	COG2171	2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGAAACAAATGGATGCCAACGAGATTATTTCGTTTATCTCAAACAGTGAAAAATCTACACCTGTAAAGGTTTATCTTAAAGGAAAAGACTTGGAAAGCCTTGAATTTGGTGACCAGGTCCAGGACTTCATTACTGGAAACACGGGAGTCATTTTCGGGGAATGGAAAGTCATTCAGCCGCTTCTTGAAAAGTATGAGGAGGCCATTGAGGATTATGTCCTCGAAAATGACCGCCGCAACTCTGCGATTCCGCTGCTTGACTTGAAGAAGGTCAATGCACGGATTGAGCCGGGTGCTGTCATCCGCGACCAAGTGGAAATCGGTGATGGAGCGGTGATCATGCTTGGTGCGATGATCAACATCGGCTCTGTAGTCGGAGAAGGTACGATGATTGACATGAACGTCGTTCTCGGTGGTCGTGCAACGGTCGGCAGGAACTGCCACATCGGTGCAGGCGCTGTGCTTGCAGGGGTCATTGAGCCTCCTTCTGCTCAGCCTGTTGTCATTGAAGACGGTGTTGTTATCGGCGCCAATGCGGTTGTATTGGAAGGTGTTACGGTTGGAGAAGGCGCTGTAGTCGCTGCTGGTGCGATTGTTACAGAAGACGTGCCTGCCAACACCCTTGCTGCGGGAACGCCGGCTAAGGTCATTAAAGAAATCGATGATCAGACAAAATCAAAAACAGAAATTAAACAGGAGCTGCGAAAGCTGGATAACTAA	MKQMDANEIISFISNSEKSTPVKVYLKGKDLESLEFGDQVQDFITGNTGVIFGEWKVIQPLLEKYEEAIEDYVLENDRRNSAIPLLDLKKVNARIEPGAVIRDQVEIGDGAVIMLGAMINIGSVVGEGTMIDMNVVLGGRATVGRNCHIGAGAVLAGVIEPPSAQPVVIEDGVVIGANAVVLEGVTVGEGAVVAAGAIVTEDVPANTLAAGTPAKVIKEIDDQTKSKTEIKQELRKLDN				NA	NA	NA	NA	NA
AK012_00166	1116		COG1473	N-acetyldiaminopimelate deacetylase	GTGCAACTGGATCAATTGGTAAACATCCGCAGGGAACTGCATCAAATTCCTGAACTGGGATTTGAAGAATATCAAACACAGGCCTATCTGCTTTCCTATATTGAAACACTGCCTCAGGAGAGGCTGACGACAGAGACGTGGAGAACCGGCGTGTTTGTCCATGTTAAAGGGACGGAAGGAAAGCGGACGATCGGATACCGCGCAGATATCGACGGCCTTCCTTTGACCGAAACCACCGGCTATCCGTTTTCATCGATCCACGAAGGGCGTATGCATGCCTGTGGTCACGATTTTCATATGACGATCGCCCTTGGCGCTTTGTCGCGTCTTGCTGAGAGCCCGGCTGAGGACGACGTTGTTTTTCTTTTCCAACCGGCAGAAGAAGGGCCGGGCGGAGCAGAGCCGATGCTCGCCTCCGGTCCAATGAAACAGATGAAGCCGGATGTGATCTTTGCGCTGCACGTGGCACCGGACCTGCCTGTAGGGACGGTAACTTCACGTCCAGGGCTGCTGTTTGCCAACACGAGTGAGCTGTTCATTGATTTCCACGGCGTGGGCGGTCATGCGGCCTTTCCTCATCTGACCCATGATATGGGAGTAGCGGCGAGTACATTTGTGACGCACATCCAGCAGATTGTCGCCCGCCGGATGGATCCGCTTGACAGTGCTGTGATCACCGTAGGGAAAATCGAGGCCGGGACGGTCCAGAATATCATTGCGGAAACAGCCAGACTGGAAGGAACGATCCGTACCCTCTCTCCGGAGTCCATGCAGCTCGTGAAAGAAGAGATCGAAAAAATGGCGCGCGGGTTTGAAACCGCCCATGACTGCAGCATTTCCATTGATTATGGCTCCACCTATCATCAGGTGTATAACGATCAAGAACAGGTGGAGACGTTTCAAAAGATTATGGAACGTCTCCCTTATACCTTCAAGGAAGCCCCTATGGCCATGACGGGGGAAGACTTTGGATACATGCTCAAGGAGATCCCGGGCTTTATGTTCTGGCTCGGCGTTGACTCGGAGGCCGGCCTGCACCAATCCTCCTTAATGCCGAAAGAAGAAGCCCTCCTCGTTGGTGTCGATACGGTCGAGCAGACCCTTCGTTCCTTGTAA	MQLDQLVNIRRELHQIPELGFEEYQTQAYLLSYIETLPQERLTTETWRTGVFVHVKGTEGKRTIGYRADIDGLPLTETTGYPFSSIHEGRMHACGHDFHMTIALGALSRLAESPAEDDVVFLFQPAEEGPGGAEPMLASGPMKQMKPDVIFALHVAPDLPVGTVTSRPGLLFANTSELFIDFHGVGGHAAFPHLTHDMGVAASTFVTHIQQIVARRMDPLDSAVITVGKIEAGTVQNIIAETARLEGTIRTLSPESMQLVKEEIEKMARGFETAHDCSISIDYGSTYHQVYNDQEQVETFQKIMERLPYTFKEAPMAMTGEDFGYMLKEIPGFMFWLGVDSEAGLHQSSLMPKEEALLVGVDTVEQTLRSL				NA	NA	NA	NA	NA
AK012_00167	1290			hypothetical protein	ATGGAATCGGTGTTAAAATTATCCGCTGTTGCGGTTTTAATTATCTTAACGGCTTTCTTTGTCGCAAGTGAATTCGCTATTGTTAAAGTGAGAAAAACGCGGATCGAGTCGGCGGCTGCTGATGGGAACAAACGGGCGCGCAACGCCTTGAAAGTGTTGAACGATCTGGATTACTATCTCTCGGCCTGTCAGCTTGGGATCACGATCACGGCACTCGGCTTAGGTTGGCTGGGTGAACCGACACTGGACGTCCTGCTGCGTCCTTTGTTTGACCGTTTTCCACTGCCGGAAGGGGTCACTCATACGCTGTCCTTTGCCATTGCCTTTTTTGTTATCACATTTCTCCATGTCGTTCTTGGAGAACTTGCACCAAAGACGGTCGCGATTCAAAAAGCAGAAGCGATCACCCTTATGTTGTCCAGGCCTCTCATGCTGTACAGCAAGGTGATGTACCCGTTGATCTGGCTGTTGAACGGGGCTGCCAATATATTCGTAAGGATGCTCGGTTACCACACAGCCAATGAATCGGAAGAGGCGCATTCCGAAGAAGAACTGCGTCATATTTTGTCTCAAAGCTATCAAAAGGGCGAAATCAACCGTTCGGAATATACGTATGTCGATCGGATTTTTGAATTTGACAACCGGACCGCGAAGGAAATCATGATCCCGCGTACGGAAATGGCTGTCATCCATGTTCATCAGTCGGTGTCCAATACGATACGGGAAGTGAAGCAGAACCGTTTCACCCGTTATCCCGTCATTGATGGGAATAAGGACGAAGTGATTGGAATCATTCATATGAAAGAGCTGCTTTTTGATGATGCGGAGAAGCAGACGACACTCCGGCCGTTTATGCGTCCGGTAATGAAGGTTTTTGAAAATGTACCGATTCATGATCTGCTTGTAAAAATGCAGAAGGAGCATAATCATATGGCTGTCCTCATTGATGAATACGGGGGAACGGCCGGAATCGTAACCGTGGAGGATATCCTTGAGGAGATTGTCGGGGAAATCAGAGATGAATTCGATGCAGAAGAAGAGCGGGACATCAAGCGTTTGAAGAACGGCCATTATCTTGTCGAAGGAAAAACGGCCGTTCAGGATATCAATGAATATTTTCAAGTGAACCTACATCACGAGGATATTGATACGATATCCGGCTGGATTTACACGCAGGATTATGAAGCAGAAGAAGGGACAATTGTCGAAAGCAGCGGTTATTTCTTTAAGGTTGTCGATATGGTGAAAGGCCAGATCAAAAAAGTGGAAGTGTGGAAAGTAGAGGAATGA	MESVLKLSAVAVLIILTAFFVASEFAIVKVRKTRIESAAADGNKRARNALKVLNDLDYYLSACQLGITITALGLGWLGEPTLDVLLRPLFDRFPLPEGVTHTLSFAIAFFVITFLHVVLGELAPKTVAIQKAEAITLMLSRPLMLYSKVMYPLIWLLNGAANIFVRMLGYHTANESEEAHSEEELRHILSQSYQKGEINRSEYTYVDRIFEFDNRTAKEIMIPRTEMAVIHVHQSVSNTIREVKQNRFTRYPVIDGNKDEVIGIIHMKELLFDDAEKQTTLRPFMRPVMKVFENVPIHDLLVKMQKEHNHMAVLIDEYGGTAGIVTVEDILEEIVGEIRDEFDAEEERDIKRLKNGHYLVEGKTAVQDINEYFQVNLHHEDIDTISGWIYTQDYEAEEGTIVESSGYFFKVVDMVKGQIKKVEVWKVEE	PGPT0014014_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014014-yugS-NA	NA	NA
AK012_00168	843	ykuT	COG0668	putative MscS family protein YkuT	ATGAACTTATTTGAAGAAGGACTAAAATTTAACCTCTCAGAGCTTGTCGAACTGCTGATCCAGGTCGGCTTGAAAGTACTCGTACTCCTGATTGGTTATGCCATTGTAAAACCACTCGGCCGTAAAGCCATTGAAACGGCCATCAACCGCCTGAGCACACAAAGGAAACTATCCGAAGGACGGAATAAAACATTACAGAAACTTTCTGTTAACATCTTTTCCTATGCTCTTATTTTCATCCTCGTCATGATGCTCTTCAGTGCTGTAGGCATTGAAATCGGACCCCTTCTTGCCGGAGCAGGAATTGTAGGTCTCGCTATCGGCTTCGGTGCCCAGGGGCTTGTATCCGATATCGTTACAGGCTTCTTTATTCTTCTTGAACGTCAGGTGGAAGTGGATGATTATGTAACAGCCGGAGGCTATGACGGCATTGTCGAGGAAGTCGGAATCCGTACCACACGCATCCGCAGCTTTGATGGTACATTGAACTTCATTCCGAACCGCAATATCTCCGGAGTAGCCAACCATTCCCGCGGCAACATGCGTGCCCTTGTGGACATCGGGATCGGCTATGATGAAAACATTGACGAAGCGATGGCTGTCCTGCAGAAAGTTGCCCAGGATTTCCAACAGGATGAACGCTTCAAAGAAGGTCCGGACGTCCTTGGCGTCCAAAGCCTCGGTTCCTCCGACGTCGTGATCCGTATTCTTGGTAAAACGGAGAACATGGAGCAGTGGGCAGTCGAACGCGACCTTAGAAAAGCGATGAAAGAAGCGCTTGATGCTGCAGGAATTGAAATTCCATTCCCTCACCAGGTTTACGTTCATAAAAACGAAGAATAA	MNLFEEGLKFNLSELVELLIQVGLKVLVLLIGYAIVKPLGRKAIETAINRLSTQRKLSEGRNKTLQKLSVNIFSYALIFILVMMLFSAVGIEIGPLLAGAGIVGLAIGFGAQGLVSDIVTGFFILLERQVEVDDYVTAGGYDGIVEEVGIRTTRIRSFDGTLNFIPNRNISGVANHSRGNMRALVDIGIGYDENIDEAMAVLQKVAQDFQQDERFKEGPDVLGVQSLGSSDVVIRILGKTENMEQWAVERDLRKAMKEALDAAGIEIPFPHQVYVHKNEE	PGPT0013695_2587	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
AK012_00169	138			hypothetical protein	ATGTTATTATGGATCAAACATAGAAGAACATGCATGCAGGAACTGTTCGATGATAGGAACAGGGTCTTTCGTCTGTTTGGAAGAAACATGAGTCAGGGAAGAGAAAAGAAAAGGCTAACAGAAAATTTTAAAAATTAA	MLLWIKHRRTCMQELFDDRNRVFRLFGRNMSQGREKKRLTENFKN				NA	NA	NA	NA	NA
AK012_00170	1758		COG1132	Putative multidrug export ATP-binding/permease protein	TTGGATACGTTTAAAAAGTTAAAATCGTTTTACTGGCCGTTTAGAAGCTACTTCTTATGGTCTATGTTCGCTCTGCTTTTTGTTACTGCCATTACCGTGGTTTATCCGATTGTACTGCAGAAGACGATTGACGATGCCGTAACGGGGGAGCAGTACAGCTTGATTCCCTATTTATGTGCCGCATTTATCGGGCTTATGATTGTTAAAGGATTGGCTACATATTTCAACCAGTATTATGGAGATTATTTCGGCATTCGTTCTGTCTACACCCTCAGGGATGAAATTTATAAGAAACTGCAGCGTCTGCCGTTCCGCTACTATGACAACGCCAAAACCGGGGACCTGATGTCCCGCCTGACCGCGGATGTGGAAGGGTTCCGTTTCTTTTTATCCTTCGGGTTTTCCGAACTGCTCCGGATTGTATTATTAATAGGAATCAGTCTGGGAGTAATGTTTTACTATTCTGTTCCCCTGGCACTGGTCACGATGGCAGCGATGCCGTTTCTCGGTATTGTCGTCTACCGGTTCGACCGGCGTGTGCACCCGGCATTCCGTAAAATCCGGAAGTCCTTCGGGAAACTGAACACAAGAGTCCAGGAGAACATCAGCGGCATGAACACGGTCAAGTCTCTTTCCAGGGAGGATTTTGAGATCGGCCGTTTCTCCAACCGCAGCAATGATTACCGCACGAAGTTCATCGATACGTCCAACATTTGGTCCCGTTATTTTCCGCTTATGGAGTTTATCGGGAACGTGTCGGTGGTGGCTCTGCTTGCCTACGGTGGATCCCTTGTCATAAACGGATCCCTTCAGCTGGGGGAGCTTGTCGCGTTTTTCAGCTTCGTCTGGTACATTCTCGGCCCTTTGATGAACCTTGGATTTGTCATTAACCAGTTTTCACAGGCAAAAGCCTCCGGAGAGCGTCTGCTTGAGATTCTGGAAGCTCCTGAAGAGATCATGGAAAAGGAAGGGGCTATCCATCAGGACCGGCTGAAAGGTCACGTCACCTTCAAGGATGTCACCTTGACTTATGTGGAGGATGATGATTCAGCACTCAAAGATATCAGCTTCGACGCCCCCCCTGGAAAAACGATCGGTTTAATTGGGGCAACAGGATCAGGGAAAACGAGTATCACCCAGCTGATCACCCGTTTTTATGAACCTGAGAAAGGCGCCGTCCTGGTCGACGGCCGCCCGGTCTCCGATTATGGATTGAAGACACTCCGGAAGAATATCGGCTTTGTGCTGCAGGAGTCGTTCTTATTTTCTACTTCCATTAAGGAAAATATCGCGTACGGAAATCCGGATGCGACGATAGAAGAAGTGGTTGATGCGGCCAAGAGAGCCCAGGCACATGAATTCATCATGGAATTATCTGATGGCTATGACACGCTTCTCGGAGAGCGGGGGATGGGGTTATCCGGTGGACAGAAACAGCGGATCGCCATTGCCCGCGCCATTCTTATCGATCCGGCTGTCCTCATTCTGGATGATGCTACATCAGCGGTTGATATGGAAACAGAATTTAAGATCCAAAAGGCTCTCCAGGAGGTCATGAAAGGACGGACGACGTTCATCATTGCCCACCGGATTTCCTCATTAAAACACGCGGATGAAATCATCGTTCTTGAGGATGGCGCGGTTAAGGAACGGGGCGTCCACGAGGACCTGTTAAGCAATGGAGGACCTTACCAGCGCATTTACGATATTCAATACCAGGATAAGGAAAAGATTCTGAATCCGGCATCCAATGGATGA	MDTFKKLKSFYWPFRSYFLWSMFALLFVTAITVVYPIVLQKTIDDAVTGEQYSLIPYLCAAFIGLMIVKGLATYFNQYYGDYFGIRSVYTLRDEIYKKLQRLPFRYYDNAKTGDLMSRLTADVEGFRFFLSFGFSELLRIVLLIGISLGVMFYYSVPLALVTMAAMPFLGIVVYRFDRRVHPAFRKIRKSFGKLNTRVQENISGMNTVKSLSREDFEIGRFSNRSNDYRTKFIDTSNIWSRYFPLMEFIGNVSVVALLAYGGSLVINGSLQLGELVAFFSFVWYILGPLMNLGFVINQFSQAKASGERLLEILEAPEEIMEKEGAIHQDRLKGHVTFKDVTLTYVEDDDSALKDISFDAPPGKTIGLIGATGSGKTSITQLITRFYEPEKGAVLVDGRPVSDYGLKTLRKNIGFVLQESFLFSTSIKENIAYGNPDATIEEVVDAAKRAQAHEFIMELSDGYDTLLGERGMGLSGGQKQRIAIARAILIDPAVLILDDATSAVDMETEFKIQKALQEVMKGRTTFIIAHRISSLKHADEIIVLEDGAVKERGVHEDLLSNGGPYQRIYDIQYQDKEKILNPASNG	PGPT0029040_1074	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
AK012_00171	1812		COG1132	putative ABC transporter ATP-binding protein	ATGGCGGAAAAAAATAAACACTTGAACCGTTTCAAATACTCACAGGACCAGGCCATCGAGAAGCCGTTTAACTGGTCACAGATGTGGCGGCTGCTGGCCTACATCAAACCGTATGCGAAAAACCTGCTGCCCGTATCGATCATTTCCATGCTGGTATCCACACTGGTCCGGCTGGTTGTGCCGATTTTAATCGGTAAGGTGGCGATTGACCTCGCCATTGCAGAAAGAGACACCAATTTATTGATCCAGCTTGTGGTGGGCATTGCCGCTTTGTATGGACTCAGCTACATTGCCAATGCCCTGAGGATAAAGTATGTGAATATCCTTGGCCAGAATGTAATCTATGATCTCCGCCAGCATTTGTTTTCCCATGTTCAGCGTCTGTCTCACAAGTTTTTTGATTCAAGATCGGCCGGATCCATTCTTGTGCGGATCATGAATGATATCAACTCTCTACAGGAGCTGTTTACCAACGGAATTATCAATCTTCTGATGGATATTGTCCTCCTGACAGGCATCATCGCTATTCTGCTTGCCCTCGATCCGAAACTTGCCCTGGCAATTCTCGTGATCATGCCGCTGATGTTCTACATTTCCACGAAGCTCCGCCGAAACATCCGACGGTCCTGGCAGCAGGTACGGATTCAGCAGTCGAAGCTGAATTCTCATTTAAATGAGAGCCTCCAGGGGATACGGATTACGCAGTCCTTTACACAGGAAAAGGAAAATACCGAGTACTTTGACGGAGTGAATGCTGATAACTTCCACGCCTGGAAGGAAGCGACGAAGAGGAGTGCTATGTTCCGGCCGTTTGTAGAGATGAGCAACGCTATTGGTACGGTGATCCTCGTATCCTTTGGTGCCTGGCTGATTCTGCAGGGGGAGATCGAGGTGGGAGACTTCGTAACGTTCGCCTTTTTCCTCGGGATGTTCTGGGAGCCGATTTCCAGACTCGGGATGATGTACAACCAGCTTCTGATGGCAATGGCGGCTTCTGAGCGGATCTTCGAATTCCTTGATGAAGAACCGAATGTAGAAGAAAAGAAAGACGCTGTGGAATTAAAAGAGATGAAAGGGCATATCGAATTCGATCATGTCCAGTTTGCCTACGATTCCAAGCGGATTGCCCTCCATGATATCAACCTTGAGATGAAAGAGGGCGAGACAGTGGCGCTCGTGGGCCATACCGGATCAGGGAAATCGACGATTGCCAACTTGATCAGCCGTTTTTACGATCCGACAAAAGGGGCCGTGAAAATTGATGGGGTGGACTTGAAGGATGCTTCCATTGATAGTATCAGGCAGCAGATCAGTGTCGTTCTCCAGGACACGTTCATTTTCTCTGGAACCATTATGGAGAATATCCGCTTCGGCCGCCCGGATGCCACAGACGAAGAAGTGAAAGAAGCAGCAGAAGTGGTGGGAGCCGACGGGTTTATCCAACGCTTAAACAACAGCTATGAAACGGAAGTAGAGGAACGCGGGAACATCCTCTCTGCCGGCGAACGGCAGCTGCTTTCCTTTGCAAGGGCTCTGCTGGCCAACCCGAGGATATTGATTCTCGATGAAGCAACGGCAAGTATTGACACAGAGACTGAATTGAAAATCCAACAGGCATTGAAAAAGCTTTTGAAAGGTCGAACAGCGATTATGATTGCTCACCGGTTGTCGACGATCCGTGAAGCTGACAATATTTTCGTGCTGGAACAAGGGAAAATCCTTGAACAGGGATCGCATGATGAACTCATGGATCAGCACGGCGAATATTATGAACTGGTAAAGGCCCAGTTCCAAATGCTCGATGCCATATAA	MAEKNKHLNRFKYSQDQAIEKPFNWSQMWRLLAYIKPYAKNLLPVSIISMLVSTLVRLVVPILIGKVAIDLAIAERDTNLLIQLVVGIAALYGLSYIANALRIKYVNILGQNVIYDLRQHLFSHVQRLSHKFFDSRSAGSILVRIMNDINSLQELFTNGIINLLMDIVLLTGIIAILLALDPKLALAILVIMPLMFYISTKLRRNIRRSWQQVRIQQSKLNSHLNESLQGIRITQSFTQEKENTEYFDGVNADNFHAWKEATKRSAMFRPFVEMSNAIGTVILVSFGAWLILQGEIEVGDFVTFAFFLGMFWEPISRLGMMYNQLLMAMAASERIFEFLDEEPNVEEKKDAVELKEMKGHIEFDHVQFAYDSKRIALHDINLEMKEGETVALVGHTGSGKSTIANLISRFYDPTKGAVKIDGVDLKDASIDSIRQQISVVLQDTFIFSGTIMENIRFGRPDATDEEVKEAAEVVGADGFIQRLNNSYETEVEERGNILSAGERQLLSFARALLANPRILILDEATASIDTETELKIQQALKKLLKGRTAIMIAHRLSTIREADNIFVLEQGKILEQGSHDELMDQHGEYYELVKAQFQMLDAI	PGPT0029045_286	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
AK012_00172	1362	ythA_1	COG1271	Putative cytochrome bd menaquinol oxidase subunit I	ATGTTTGGATTCGAAACCGTCGAAGTGAGTCGTGCACTCACTGCGATGACATTACTATTTCACGCCATTTTCGCCACACTGGGGGTAGGTGTCCCTGTGCTGGTGTCTATTGCAGAATTGATCGGGATTAAGCGGAAGGATCCGCACTACACCCTGCTCGCCAGACGCTGGACGAGGGGATATACGATTACCGTCGCTGTCGGAGTTGTGACAGGAACAGCGATTGGTCTGCAGCTGTCACTCATATGGCCCAGCTTCATGAGACTCGCTGGGAACGTGATTGCTCTGCCGTTGTTTATGGAAACTTTCGCGTTTTTCTTTGAGGCTATTTTCCTTGGGATTTACTTATACACGTGGGACCGGTTCAAGAAGCCGATCTATCACTGGCTCTTGTCCATCCCGGTCGTCATCGGGGGGACGATGTCCGCCTTTTTCATTACGACAGTGAACTCGTTTATGAACACTCCGCAGGGTTTTGAGCTGGAGGAGGGGCGTTTTACATCCGTGGATCCTATAGCCGCGATGTTCAACCCCGCTACACCGACGAAGGTGTTTCACGTAATCTCTTCTTCTTATTTAACCGCTGCTGCGGTACTTGCGGGAATTGCTGCTTTCATCATTCTGGTGAAAAAAGGCTCGCTCTATCATAAAAAGGCATTGAAACTGACGATGACGGCTACCTTTATTTTTGCTGTTCTTACGGCACTTGCCGGAGACTTATCAGCTAAGTTCCTGGCCGAGCATCAGCCTGAAAAACTCGCTGCCGGTGAATGGCACTTTGAATCCGAAGAAGGCGCTGACCTTGTCGTGTTCGGCACACTGAATGAAAATAATGAAGTCGAAAATGCCATCCGGATTCCAAATGCTTTAAGTTTCCTGGCTTATGGAGACTTCAATGCAGAAGTGGAAGGCCTGGAGGAAACGCCTGAAAATGAGCGTCCGCCTTTATGGATCCACTACATGTTTGATTTGATGGTATCGATCGGCTTTTACACCCTGGGTATTTCCCTGCTGTTCCTTGTACTTTGGAAATGGAAAAAAGGAAACCCATTCCACCCAATCCTCTTATGGGGAGTGGCGGCGGCAGGTCCATTGACAATGCTTGCCATTGAATTTGGATGGATTTATGCTGAAGTCGGGAGACAGCCGTGGATTTTGAGAGGATTTATGACCGTTGCAGAAGGATCGACGACGTCGCCTTATATCGGCTGGATGTTTGCCCTCTTTGCTGCCGTCTATCTTGTTCTCGCGGTCGGATGTCTGCTGACGCTCCGCAAAATCTTCAAAGGGAAGCCGGCGGAGCTTGAATTAGAACACCGCTTTCCGAACACAGCCGCAGCGAGCAGGGAGGGACAGTCATGA	MFGFETVEVSRALTAMTLLFHAIFATLGVGVPVLVSIAELIGIKRKDPHYTLLARRWTRGYTITVAVGVVTGTAIGLQLSLIWPSFMRLAGNVIALPLFMETFAFFFEAIFLGIYLYTWDRFKKPIYHWLLSIPVVIGGTMSAFFITTVNSFMNTPQGFELEEGRFTSVDPIAAMFNPATPTKVFHVISSSYLTAAAVLAGIAAFIILVKKGSLYHKKALKLTMTATFIFAVLTALAGDLSAKFLAEHQPEKLAAGEWHFESEEGADLVVFGTLNENNEVENAIRIPNALSFLAYGDFNAEVEGLEETPENERPPLWIHYMFDLMVSIGFYTLGISLLFLVLWKWKKGNPFHPILLWGVAAAGPLTMLAIEFGWIYAEVGRQPWILRGFMTVAEGSTTSPYIGWMFALFAAVYLVLAVGCLLTLRKIFKGKPAELELEHRFPNTAAASREGQS	PGPT0026700_4139	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
AK012_00173	1014	ythB_1	COG1294	Putative cytochrome bd menaquinol oxidase subunit II	ATGAGCTATGAAATCATTGGTATTTCAGTCCTATGGTTTTTCCTTTACGGGTATTTGATCGTGGCATCTGTGGACTTCGGAGCTGGTTTTTTTGCCTACTATGCCAGATTGACAAAAAAAGATCATTTGATTAATCAGCTGATTTCCCGTTACCTTTCACCGGTATGGGAAGTGACGAACGTATTCTTCGTCTTTTTCTTCGTCGGTCTCGTCGGGTTCTTCCCGGATATGGCCTATTATTTCGGGCAGTCTCTGTTGATTCCGGGGAGTATTGCCATTGTTCTTATTGCCATCCGGGGTTCCTTTTATGCGTTTGAGAATTACGGATCAAAGGATAATTCCTTGTACATGTTCCTTTACGGAGCGACAGGACTGCTCATTCCGGCCTCCCTGTCCACGGCTCTGACGATCTCAGAAGGCGGATTTATAGAAGAGACGGAGAATGGTGTTCAGCTGCTCTATGGAGAGCTTTTCTCAAGTCCTTATTCATGGAGTGTCGTATTTCTGGCCATTGTTTCTGTTCTTTATATCAGCGCGATGTTTTTAACGTATTATGCTCATCGTGCGGGAGACCGGCCCGCTCTCGAAATCGTCAGGAAGTATGCGTTATTCTGGAGCTCTCCGACCATTATTGCCAGTCTGACCACGTTTATTGCTTTGAGTCAGCAGAATGCCGAGCATTTTCAACGGGCGATTGACTTATGGTGGGTCTTCGGTATTTCTGTAGGGTTCTTTGTTATTGCCCTGTTTCTCGTTTATATCGGAAAATTTTACGGATGGGCGTTTATCGCCGTGATGCTTCAGTTCTTCGTGGCTTTCTTCGGATATGGAGCTTCTCATCTGCCCTATCTGCTGTACCCGTATGTAACAGTCACCAATGCTGTCACGAATGAATCGATGGCGGTGGCGCTTGTCATCGTCTTTATCGCAGGTCTTTTGCTGCTGATTCCATCGCTGATTCTCCTGATGCGCATGTTCTTGTTCGATGCAGATTACGTTAAGGGGAAAAAGTAG	MSYEIIGISVLWFFLYGYLIVASVDFGAGFFAYYARLTKKDHLINQLISRYLSPVWEVTNVFFVFFFVGLVGFFPDMAYYFGQSLLIPGSIAIVLIAIRGSFYAFENYGSKDNSLYMFLYGATGLLIPASLSTALTISEGGFIEETENGVQLLYGELFSSPYSWSVVFLAIVSVLYISAMFLTYYAHRAGDRPALEIVRKYALFWSSPTIIASLTTFIALSQQNAEHFQRAIDLWWVFGISVGFFVIALFLVYIGKFYGWAFIAVMLQFFVAFFGYGASHLPYLLYPYVTVTNAVTNESMAVALVIVFIAGLLLLIPSLILLMRMFLFDADYVKGKK	PGPT0026705_3252	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
AK012_00174	666	ktrA	COG0569	Ktr system potassium uptake protein A	ATGAAGAAGGAATTCGCTGTTATTGGTCTTGGAAGGTTCGGGGGCAGCATCTGCCGGGAACTGAGCCGCGAAGGAATGGAAGTACTCGCCCTTGACCTGGATGAAGACAAAGTCAATGAATACAGAGATATAGCGTCCCACGCTGTCATAGCAGATTCGACAGATGAAAATGCGCTGAAAGAGCTCGGGTTCCGTAATATTGACCATGTCATTGTCGCCATAGGGGACAATATACAGGCCAGCATGCTGACCACTTTGATTTTGAAAGAGATGGGCATCAAAATGATTACAGTCAAAGCCCAGAATGATTACCATGAAAAAATCCTGAACAAAATCGGTGCCGATCAAGTCGTCCACCCGGAAAGAGATATGGGGAAAAGGATTGCTCATAATATCATTTCCAATAATATTCTGGATTACATCGAGCTTTCCGATGACCACAGCGTTGTCGAGGTGAAAGCCGGCAGTAAAATGGGCGGGCAGACATTGGTGGACCTCGATATCCGTGCGGAATATGGGTGTAACGTCGTGGCCATCAAGCGGGAGAAAGATGTGATTGTCTCTCCAATGGCTACCGAGGAGATCAGGGAAAGTGATGTCCTGATCGTCATTGGAGCTGACAAGGACATCAGCCGTTTTGAGAAAAATCTTGTTGTAGAGGACTAA	MKKEFAVIGLGRFGGSICRELSREGMEVLALDLDEDKVNEYRDIASHAVIADSTDENALKELGFRNIDHVIVAIGDNIQASMLTTLILKEMGIKMITVKAQNDYHEKILNKIGADQVVHPERDMGKRIAHNIISNNILDYIELSDDHSVVEVKAGSKMGGQTLVDLDIRAEYGCNVVAIKREKDVIVSPMATEEIRESDVLIVIGADKDISRFEKNLVVED	PGPT0002710_4163	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002710-trkA|ktrA-K03499	NA	NA
AK012_00175	399			hypothetical protein	GTGAGGATTGCTCAGCAGCTGTACCAGCAGATGGTGGATCACGGATATACCAGTCTTCCTAATGAAGCGTGCGGAATGGCTTCCGGAAAAGACGGGCAGATTGAACAGGTGTGGCCGCTTGTGAATGAACGCCCCTCCCCCCATCGTTTCTTTGTTAGTAAGTCCATCGTTTCCTCTACTCTTGAGGCCATTGAACAATCCGGGCAGCAGGTGCTGGCCATCTACCACACACATCCTGGAACAGCACCGGTGCCCTCCTCTTATGATCTGCAAAGTCATCCGGACACTAAGGTGAAAATGTTGATCATTTCCTATAAATTCACGCCTCCCCGCTCCGCCTGCTACTCTGTATTGTCCGGTCGGTATGTCAAACACCCATTTCACATCGGAGATCGTTAA	MRIAQQLYQQMVDHGYTSLPNEACGMASGKDGQIEQVWPLVNERPSPHRFFVSKSIVSSTLEAIEQSGQQVLAIYHTHPGTAPVPSSYDLQSHPDTKVKMLIISYKFTPPRSACYSVLSGRYVKHPFHIGDR				NA	NA	NA	NA	NA
AK012_00176	1089			hypothetical protein	ATGGAGCCGTACAGCCATACAGGACCAGACCATGTGGAACTTCTGAAATGGAACATCCGCCTTTTCAAAGAGATGATCCAATCGCTGGAAAATGGGGACTGGACTGTGGAAGAGGGATACAGGGGAAAAGATCCACTTCATTATAAGTTATTGTTAGAAGGAGTTATTAACAAAATGGAAGAATTCAACCAGCAGCTTGAGCAGCGTACCAATCAGCTCACCGCTCAAGTGCAGCAACTGAGTGAGCATGTTCATCTATTGATTGATGATGTGGAAGGCATTAAGGAAAAGCTTGACCTCCTGCAATTGAATGACTTGATTCAAAAAATGAACGTGATCATCGAGCAGCAGGATGACAAGGAACAGGAACAAGCGCAGCAATCCGAAAATGACCGTTTGAAAAGGGAAATCGATCAACTAAAATCTGAAATGATGGCTCAGAAGACGCAGGAATACGCAGAGCCGCAGCCCCCGGCCCGGGAACAGACAGGGCCTAAGGTTTCAGAATACCGCAGACTTAAAACGATGCTGCATTCCTCCCCCATGTATCCGGCACAGCGACAGGACTATTACCCTCCGCAGCAGCAGCCTTATCCCTACTCCAACCCTGCCTCCTACTATCCACCTCAGCCGGGCCATTATCAACAGAACTACCCAGCCGCCAATGAATCGACACGAATGGGCCGGAAACGATCATCCAGGCACCCGTTTATTGAACCTGTCAAAAATACCATTTTAAAGTCGAGCGCAAAAAAAAACGATAAAGAACCCGCCCAGGACGTGAATGTCCAACATCCACCGGCGGTGACTATCGTACAGGAGGATCCGGAAAGCAAAAAAGCCCTGGTTCAATCCATTGCTCATTCGATATCATCCATCCCGGCCGGGGAACCAACTCCACCTGAACAGCCGGCACCGAGAGGTATCAAACGCACGTCCCCTGTATCCATCGAGAAGGCCAAAATTACACAGAAGCCGGATGCCGAACCCGTACAGAATGTCCAGGAACCGGTGTCAGAAAAGGAAACTCCTGCAAAAAAACGAGAGTTTTCCTCCATTTTTTCTATCTTTCAGAAGTGGAATGGGTAG	MEPYSHTGPDHVELLKWNIRLFKEMIQSLENGDWTVEEGYRGKDPLHYKLLLEGVINKMEEFNQQLEQRTNQLTAQVQQLSEHVHLLIDDVEGIKEKLDLLQLNDLIQKMNVIIEQQDDKEQEQAQQSENDRLKREIDQLKSEMMAQKTQEYAEPQPPAREQTGPKVSEYRRLKTMLHSSPMYPAQRQDYYPPQQQPYPYSNPASYYPPQPGHYQQNYPAANESTRMGRKRSSRHPFIEPVKNTILKSSAKKNDKEPAQDVNVQHPPAVTIVQEDPESKKALVQSIAHSISSIPAGEPTPPEQPAPRGIKRTSPVSIEKAKITQKPDAEPVQNVQEPVSEKETPAKKREFSSIFSIFQKWNG				NA	NA	NA	NA	NA
AK012_00177	672			hypothetical protein	ATGCAAGCAAAAAATCTTAATGGGGGCCAGGAGCTCCTATGTATCAACACAACAAAAGTTTATGACTGGGTAATCAATGAGGCTTCGTTTGATTTAACAATCGGAGATTTTGATCTTCCCGTCGGTCCTTCAGGAGATCAGCTTGAGTGTGACGACATTGAAGAAGTCATCTGTACAGTCGAGCCGCGTGAAGACGATCCAATTGAAATTGTCGGACGCGTAGACCAGGAGCTTGTCGTTGACGGTACTCTGTTGACGCTTCAGCTTGTGAACATCCGTAAATACTTTACAGTAGTCATTTCTGTAGAATTGACAGCAGAAAATGGTGGAGCTGTGGTAGAAGTAGGCGAAGCTGATTTTGTCCGCTGTGAGCAGGTTCTATTGTGCGCTCCAGACGGAACAGACGTAGAGGTTACTTATACAGACCTCGACTGCTTCGTTTGTAACTTCACGTGTGAAGAAAATGGTACAGATGGGGATTCCCTTGATGACATTACGGTTTCCGTCCGTCTCTGCCAGAGCATCCAGTCTACGTATCCCGTGACGCTTGAGCTTATCGCTGAATTCTGTGAGCCGCGTGATATGCTTCCGATCCCGCCTTGCCCGGCTCCAACGATGCCGCCGCAGTGTCCGGTATTGTTCCCGACTGGTGACAATGGTGATAATGGCTGA	MQAKNLNGGQELLCINTTKVYDWVINEASFDLTIGDFDLPVGPSGDQLECDDIEEVICTVEPREDDPIEIVGRVDQELVVDGTLLTLQLVNIRKYFTVVISVELTAENGGAVVEVGEADFVRCEQVLLCAPDGTDVEVTYTDLDCFVCNFTCEENGTDGDSLDDITVSVRLCQSIQSTYPVTLELIAEFCEPRDMLPIPPCPAPTMPPQCPVLFPTGDNGDNG				NA	NA	NA	NA	NA
AK012_00178	540			hypothetical protein	ATGGAACGGTTGTTACAGTTGAAAAAGCAGCAGGAGGCCCGCATCCAGGACATCCGGGAAAAAATCAACGCATGGAAGGCAGGGCAGCAGGAGGCTGTCATTTGTTTTTTCACCCATTCCATCCACATTTCCCATGATACCGACCAGGAATGTATGATGATGGCAAGCTTCCATATACGAAATTTGAGTCACCAGAAGATGCACGACCCTTATATCTGCCTTAAGATGTCGGAGGATGCCCCTTTTCAATTCTCAGGCAAGTATGTACATAAAGAACAGGCTGGAAAAATGAAGGCGGCAGGAGCCTGGGTTCGAATGGATGAACAGCAGAAGAAAAATGAATTCTGGCTGAAGCCTCTGGACCATACAGGCATTGAACCGGGAGGATCTCTCACTTTCGCAAATTTTCAACTGAAGTGGAAGCATGAAAGCTCTTACGCTGCCAGTGTGCATGGGTACGCCTATGGAAAAGGGTGGGAATCAGGTGTCCCTTCCTTAAATCAGATAAGTGCAAGTGGTGTGAAAGGGGAGGGAGAGTAA	MERLLQLKKQQEARIQDIREKINAWKAGQQEAVICFFTHSIHISHDTDQECMMMASFHIRNLSHQKMHDPYICLKMSEDAPFQFSGKYVHKEQAGKMKAAGAWVRMDEQQKKNEFWLKPLDHTGIEPGGSLTFANFQLKWKHESSYAASVHGYAYGKGWESGVPSLNQISASGVKGEGE				NA	NA	NA	NA	NA
AK012_00179	276			hypothetical protein	ATGGGGGAAAAAGATGTCCAGAGGTTCATCAAGCAGTGGCTCGTTGAAAAGCTGAAACAGAAGAAGAGTGCCAAACGGGCCGATGATCAAAGTTTCATCTTTCTCGAAGAAGACTCCTTGAAGCTGCTTTTCCTCTACCTCTTACAAAAACAGGAGGAGGGAGGGGCGGTGGAAAAGACTGCCGATCTTGTTGAGGTGGAATCGATGATGGAGGAACTGTTGATCCAGCTGAAGGAAGTTTCAGTCCTTTTGGACAATGATAACGGGGAAGTATAG	MGEKDVQRFIKQWLVEKLKQKKSAKRADDQSFIFLEEDSLKLLFLYLLQKQEEGGAVEKTADLVEVESMMEELLIQLKEVSVLLDNDNGEV				NA	NA	NA	NA	NA
AK012_00180	1722	ydaP	COG0028	Putative thiamine pyrophosphate-containing protein YdaP	ATGTTTGAAAAGCGTACAGGAGCACTATTAACACAGCAGTTGATCGACTGGGGTGTGGACCATGTATACGGCATGCCAGGTGATTCTATAAATGAATTAATCGATGATTTACGTAAAAGAAAGGACGAGATCGAATTTCTCCAGGTCCGCCATGAGGAGACCGGCGCCCTTTCAGCCGCCGCTTATGCGAAGCTGACCGGTAAGCTTGGCGTGACCATGGGGATAGCAGGACCGGGAGCCATCCATTTATTAAATGGACTGTATGACGCGAAGGCTGATGGTGCGCCTGTCCTTGCCATCGTTGGACAGGTTCACAGCGAAGAAATAGGGACAGGAGCGTTTCAGGAAATTAATTTGGAACGCCTGTTTGATGATGTCTCTGTCTTTAATCAGCGTGCGGAAACCCAAGAGCAGCTTCCGGATCTGTTGGATCAGGCGGTCAAGGAAGCCTACGCCAATAAGGGAGTCTCTGTGTTGATTGTACCGGATGATTTGTTTGCTGAAAAACAGGGTGATAAGACGAGACTTACCTCCGGCGAATTTTTCAAACCGGAAATTTTTCCTGGTCAGGAAAATCTAAATGAAGCAAGGAGATTGATTGAACAGGCAGAGAAGCCGCTCATCCTTGCCGGGCAGGGAACGAAAACGTCGGCGAACGAACTGATTGCCTTCGCAGAAACGATCAAAGCGCCTATTATTATGAGTCTGCTCGGAAAGGGGATTATCCCGGATAACCATCCCTACTGCTTAGGACAGCACGGTCAGATTGGAACCAAACCGGCCTATCACGCCATGAAGGAAACAGACCTGCTTATTTTGGTCGGAACCCAGTTCCCTTACCGTGACTTTCTACCTGAACAGGTGAAGGCGGTTCAGATTGACCGGGAACCCGCTCACCTTGGTAAGCATTATCCCATTACCTCAGGACTTGCCGGCGACAGCCGGGAAACCTTGAAGGCCCTGACAGATTCAATAACACCTGTGGAAAGCCGTAAGTATTTGTCCTATTATCAGGAAAAGATGAAGGATTGGCGCATTGCCGTCCAGGAAGAAAAGAGAAGGGAAGAAGACCCTCTCCATGCGCCTCAAGTGATGTATGAACTGGAAAAACACTTGAAGCCCGGGGCCGTCGTTTCCGGCGACGTTGGGAACGTTACCGTATGGCTGACACGCTTTCTTCACCTGGTCAATCAGAAATTCCTGATTTCCGGCTGGCTTGGAACAATGGGAAGCGGACTTCCCGGTGCTATCGCGGCGCAGAAAGCTTATCCGGAAAAGCAGGTGGTCGGAGTATCCGGCGACGGTGGTTTTTCAATGGTCATGCATGATTTCGTTACGGCTGTTAAATACGACCTGCCGATTAAAATGGTTGTCTTAAATAACAATAAAATCGGAATGATCAAATACGAACAGGAACAGATGGGACACCTGAATTATGCCACGAATCTCGGCGAAGTGGATTTCGCTAAATTTGCTGAAGCCTGCGGGGCAGAAGGGTACCGTATTGAGTCCTATGAAGAGCTTGGCACTAAAATGAAGCAGGCCTTCTTATCTGATAAACCGGTTCTGATCGATGTGGCCATTGAAGATCAGGCACCGCTCCCAGGAAAAATTGATTATACTTCAGCTGTCAATTATTCCAAGTATATTGTGAAGGAATTCTTTGAATCCGGGACGCTGGATCTTCCTGACCTTAAGAAATCCATTCAGCGTTTATTATAA	MFEKRTGALLTQQLIDWGVDHVYGMPGDSINELIDDLRKRKDEIEFLQVRHEETGALSAAAYAKLTGKLGVTMGIAGPGAIHLLNGLYDAKADGAPVLAIVGQVHSEEIGTGAFQEINLERLFDDVSVFNQRAETQEQLPDLLDQAVKEAYANKGVSVLIVPDDLFAEKQGDKTRLTSGEFFKPEIFPGQENLNEARRLIEQAEKPLILAGQGTKTSANELIAFAETIKAPIIMSLLGKGIIPDNHPYCLGQHGQIGTKPAYHAMKETDLLILVGTQFPYRDFLPEQVKAVQIDREPAHLGKHYPITSGLAGDSRETLKALTDSITPVESRKYLSYYQEKMKDWRIAVQEEKRREEDPLHAPQVMYELEKHLKPGAVVSGDVGNVTVWLTRFLHLVNQKFLISGWLGTMGSGLPGAIAAQKAYPEKQVVGVSGDGGFSMVMHDFVTAVKYDLPIKMVVLNNNKIGMIKYEQEQMGHLNYATNLGEVDFAKFAEACGAEGYRIESYEELGTKMKQAFLSDKPVLIDVAIEDQAPLPGKIDYTSAVNYSKYIVKEFFESGTLDLPDLKKSIQRLL	PGPT0007160_449	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_RELATED_INDOLE-3-ACETALDEHYDE_METABOLISM,PGPT0007160-poxL-K00158	NA	NA
AK012_00181	1668	rnjA	COG0595	Ribonuclease J1	ATGAAATTCGTAAAAAATGACCAGACCGCCGTGTTTGCCCTTGGAGGCCTCGGTGAGATCGGTAAAAACACATACGGTGTACAATTCCAAGACGAAATCATCCTCATTGATGCAGGGATTAAGTTCCCGGAAGACGAACTGCTCGGTATCGACTACGTCATTCCGGATTATACTTATCTCGTGCAAAATCAAGATAAAATCAAAGGTCTGTTCATCACGCACGGCCACGAAGACCACATCGGTGGTATTCCCTACCTTCTGCGTGAACTGAATATTCCAATCTATGCCGGCAAGCTTGCCATCGGCTTAATCCGTAACAAACTGGATGAGCACGGTCTGCTCCGCAGTGCGAAATTGAACACGATTCAGGAAGAAGACGTGATCAAATTCCGCAAAACGTCCGTTTCCTTTTTCCGGACGACACACAGTATCCCCGATTCTTACGGAATCGTCGTAAAAACACCACCGGGTAATGTCGTTCACACAGGTGATTTCAAATTTGACTTCACTCCTGTAGGTGAGCCGGCAAACCTTGCTAAAATGGCTGAAATCGGTAAAGAAGGCGTTCTTGCCCTCCTTTCTGACAGTACCAATAGTGAGGTTCCTGGTTTCACTAAATCCGAACGTGTTGTGGGCCAAAGCATCCATGACATCTTCACGCGTATGGACGGCCGTTTAATCTTCGCGACCTTCGCGTCGAACATCCACCGCCTCCAGCAGGTCGTGGAAGCCGCTATTAAACATGGTCGTAAAGTTGCCGTATTCGGCCGCAGTATGGAATCTTCCATCCGTATCGGTCAGGAACTTGGATATATCCGTGCCCCTAAGGATACATTCATTGATGCCCAGCAGATCAACCGTCTGCCGGCTAACGAAGTCGTCATCCTTTGTACCGGATCCCAAGGTGAACCAATGGCCGCCCTGTCAAGAATTGCCAACGGCACCCACCGTCAGATTCAAATTCAACCAGGCGACACCGTTGTGTTCTCTTCTTCCCCAATCCCTGGAAACACAATCAGTGTCAGCCGTACCATTAACAAATTGTACCGTGCAGGTGCTGACGTTATTCACGGACCATTGAATGATATTCATACGTCCGGACACGGCAGCCAGGAAGAAATGAAGCTCATGCTCCGCCTGATGCAGCCGAAATTCTTCATGCCGATCCACGGGGAATACCGCATGCTGAAAGAACACGTGAAATTGAGTCTGGACTGTGCGGTTCAGGAGGAAAACTGCTTCGTCATGGATAATGGGGATGTCCTTGCCCTTGGCAAGGAAGAAGCCTCTGTTGCAGGCAAAATCCCATCCGGATCTGTATATGTAGACGGAAGTGGAATCGGTGATATTGGGAATATCGTTCTCCGCGACCGCCGTATTCTATCCGAAGAAGGTCTCGTTATCGTCGTTGTCAGCATCAACATGAAGGAATTCAAGATTGCTTCCGGTCCTGACATCATCTCCCGCGGATTTGTCTACATGAGAGAATCCGAGGACTTGATCAAAGAGGCCCAGCAGCTTGTCAGTTCCCACGTTGAAAAAGTGATGGAACGCCGTACGACTCAATGGTCTGAAATTAAAAACGAAATTACTGATACCATCGCGCCGTTCCTGTTTGAAAAAACAAAACGCCGTCCGATGATCCTTCCAATCATCATGGAAGTGTAA	MKFVKNDQTAVFALGGLGEIGKNTYGVQFQDEIILIDAGIKFPEDELLGIDYVIPDYTYLVQNQDKIKGLFITHGHEDHIGGIPYLLRELNIPIYAGKLAIGLIRNKLDEHGLLRSAKLNTIQEEDVIKFRKTSVSFFRTTHSIPDSYGIVVKTPPGNVVHTGDFKFDFTPVGEPANLAKMAEIGKEGVLALLSDSTNSEVPGFTKSERVVGQSIHDIFTRMDGRLIFATFASNIHRLQQVVEAAIKHGRKVAVFGRSMESSIRIGQELGYIRAPKDTFIDAQQINRLPANEVVILCTGSQGEPMAALSRIANGTHRQIQIQPGDTVVFSSSPIPGNTISVSRTINKLYRAGADVIHGPLNDIHTSGHGSQEEMKLMLRLMQPKFFMPIHGEYRMLKEHVKLSLDCAVQEENCFVMDNGDVLALGKEEASVAGKIPSGSVYVDGSGIGDIGNIVLRDRRILSEEGLVIVVVSINMKEFKIASGPDIISRGFVYMRESEDLIKEAQQLVSSHVEKVMERRTTQWSEIKNEITDTIAPFLFEKTKRRPMILPIIMEV				NA	NA	NA	NA	NA
AK012_00182	210			hypothetical protein	ATGATATTCAAAGTATTGTATCAGGAACTTGATACTGAAGTTCCTGTCCGCGAACGTACAGACAGCATGTACTTGGAAGCGGAAACAGAAAGACAAGTACGTGAAAAATTAAAAAATGCAGGATTAAATATCGAATATATCCAGGTGCTTGATGAGGATCACCTGGCATATGAACAGCAATCCGAAGATTTCAAGCTGGAGCAGTACTAA	MIFKVLYQELDTEVPVRERTDSMYLEAETERQVREKLKNAGLNIEYIQVLDEDHLAYEQQSEDFKLEQY				NA	NA	NA	NA	NA
AK012_00183	777			Putative bifunctional phosphatase/peptidyl-prolyl cis-trans isomerase	ATGGATAAGAAAATTGCCTTTTTTGATATTGACGGAACACTGCTGGACCACGATAAAAAGCTTCCTGAAAAGACGAAAAAAGCGATTCAGGATTTAAAGGAGCAGGGGGTTTACTGTGCCATTGCCACTGGACGGGCTCCGTTTATGTACAAAAAACTGAGGGAAGAGCTTGGAATCGATTCCTATATCAGTTTCAATGGTCAGTATGTCGTCTTTGAAGGGGAGGAAGTCTACACAAACCCGCTTTCAGGCCCGGACCTGGAGAAGCTGCATGCTCATGCAGAATCCAATGATCACCCAATGGTGTTCATGAACCATGAAGAAATGAGAGCTTCCACTCCCGATCATGAAGATATTTCCTCCAGTCTTGGAACCTTATACATCGATCATCCTTATGAAGACGCATCCTTTTATAAAGGAAGAAAGATTTATCAGTCCTTGATCTTCTGTGAGGGCGATGAAATTGAAGAATACAGGGAAGCTTTCCCGGCTTTTGATTATATCCGCTGGCACCCGGTTTCATGCGATGTGCTTCCTCAAGGAGGTTCCAAAGCAGAAGGAATCAAGAAACTTGTAGAAGCTGCCGGCCTGCGTATGGAGGATACTTTTGCCTTTGGCGATGGATTGAATGATATTGAAATGATCCGTGAGGTCGGTACCGGTGTAGCTATGGGGAATGCTGTATCCGAAACGAAGGCAGTGAGTGATTTTGTGACGGTTGATGTCGCAGAAGACGGTCTTTCTCATGCGATTTATGAATTAGGATTATTAAAATGA	MDKKIAFFDIDGTLLDHDKKLPEKTKKAIQDLKEQGVYCAIATGRAPFMYKKLREELGIDSYISFNGQYVVFEGEEVYTNPLSGPDLEKLHAHAESNDHPMVFMNHEEMRASTPDHEDISSSLGTLYIDHPYEDASFYKGRKIYQSLIFCEGDEIEEYREAFPAFDYIRWHPVSCDVLPQGGSKAEGIKKLVEAAGLRMEDTFAFGDGLNDIEMIREVGTGVAMGNAVSETKAVSDFVTVDVAEDGLSHAIYELGLLK				NA	NA	NA	NA	NA
AK012_00184	555	defB	COG0242	Peptide deformylase 2	ATGATCATAATGGACGATATTGTCCGCGAGGGGCACCCCGCATTAAGGACAGTAACAGAAGAAGTACCACTCCCTCCTTCCGATGAGGATAAGAAAACATTGGAGGAAATGGTTCAATACTTGAAAAACAGCCAGGATGAACAGGTATGCAGCCGTTACGGCCTGCGCCCGGGCGTCGGTCTTGCGGCACCGCAGATCAATGTGAATAAACGCATGCTGGCGGTGCATTTCACAGATATGAAAGATAAATTATACAGCTACGGGCTGTTCAACCCTCGTATAGTCAGTCATTCTGTTGAACGTACGTATCTGTCCACGGGGGAAGGGTGTTTATCCGTGGACCGTGAAGTTCCGGGTTATGTTCCCCGCTATCGCAGAATTACGGTGAAGGCGACAGACCTCGAAGGCAATGAAGTTAAATTACGTTTAAAGGATTATGCAGCCATTGTCTTTCAACATGAAATTGATCACCTTCACGGAGTAATGTTCTATGATCACATCGACCAGGAACAGCCGTTTAAAGAACCGGAAAATGCCACACCCGCCGACCGATAA	MIIMDDIVREGHPALRTVTEEVPLPPSDEDKKTLEEMVQYLKNSQDEQVCSRYGLRPGVGLAAPQINVNKRMLAVHFTDMKDKLYSYGLFNPRIVSHSVERTYLSTGEGCLSVDREVPGYVPRYRRITVKATDLEGNEVKLRLKDYAAIVFQHEIDHLHGVMFYDHIDQEQPFKEPENATPADR				NA	NA	NA	NA	NA
AK012_00185	696			hypothetical protein	GTGCGATTACATACGATGATCGGGGCGCTGGCTGCAGCTGCCATAGTTATGACAGGATGTTCGAATCAGGAACCGGAAGAACAAATTTACGAACATTTAGAGGAGGCTGTTTCACAGGAGGAAACCTTCCGTGAGCAGCAGGAGCCAATGGTTGAACTGGAGGAAAAGGAACAACAGCTTTATGACGAAATCATTGCTTTGAATATGGATCAGTTTGATCAGATCAAGGAAAAATCAGAGGAAGCAGCTGGCATTGTGGAGGAGCGCAGAAATAAGCTCGAGCTTGAAAAAGAGAGCATCGATGCAGCGAAAGCTGAATTTGATGAGATTAAATCTCCTGTAGAAGATCTTGGTGAAGAGAATAAGGAAGCCCGGGAAAAAGCGCAGGAACTCATTGATGTGATGGAAAAGCGGTATAGTACATATGAAGAATTATACAGTGCTTATGATGAGGCGCTTACGCTTGATGCGGAATTGTATGAAATGACGCAGAAGGAAGACCTGAAGGAAGAGGACCTGAAAGCCCAGGTCGAACAGATCAACGAAAGCTACAATCAGGTGATCGAGAAGAATGAAGCGTTCAACCAGTATACAGATGAATACAACACATTGAAAAAAGAGCTTTATGAGACGATGGAACTGGAAGTGACCTATGAAGAATCCGAAGAGGACACGACAGAAGAAGATGCGTCCTAA	MRLHTMIGALAAAAIVMTGCSNQEPEEQIYEHLEEAVSQEETFREQQEPMVELEEKEQQLYDEIIALNMDQFDQIKEKSEEAAGIVEERRNKLELEKESIDAAKAEFDEIKSPVEDLGEENKEAREKAQELIDVMEKRYSTYEELYSAYDEALTLDAELYEMTQKEDLKEEDLKAQVEQINESYNQVIEKNEAFNQYTDEYNTLKKELYETMELEVTYEESEEDTTEEDAS				NA	NA	NA	NA	NA
AK012_00186	1092	pdhA		Pyruvate dehydrogenase E1 component subunit alpha	GTGAATGACTTGAAACGAACTCTAGAGAACATTGAAAACCAGTTCGAAACGTTTCAAATCCTTAACGAAGAAGGCGAAATCGTAAATGACGATTTCATGCCTGACCTATCAGATGAAGATTTAAAAGAAATCATGCGCCGTATGGTATATACGCGTATTTTGGACCAGCGTTCTATCGCGCTTAACCGCCAGGGACGCCTTGGTTTCTATGCTCCAACAGCAGGGCAGGAAGCTTCTCAGCTGGGAAGCCAGTTTGCCTTGGAAAAAGAGGACTTTATCCTTCCAGGCTATCGTGACGTACCACAATTGATCTGGCACGGTCTTCCGCTTCACCAGGCATTCCTGTTCTCCCGTGGACATTTCAAAGGAAACCAAATGCCTGAGGGTGTGAACGCAGTAAGCCCGCAGATCATTATCGGTGCACAAATCACACAAACAGCCGGCGTTGGTCTTGGCTATAAAAAGCGCGGCCAAAACGCTGTAGCGATTACTTATACTGGTGACGGCGGTGCCTCCCAGGGTGACTTCTACGAAGGTATCAACTTCGCAGGTGCTTTCGGTGCCCAGGCGATTTTCGTTGTACAGAACAACCGCTTTGCGATCTCTGTACCTGTTGAAAAGCAGTCTGCAGCTCAGACAATTGCTCAAAAAGCAGTTGCTGCTGGTATTGAAGGTATCCAGGTTGATGGTATGGACGTTCTTGCTGTTTACGCGGCTACGAAAGAAGCTCGTGACCGTGCTGTAAACGGAGAAGGACCTACATTGATCGAAACTCTTACTTACCGTTACGGCCCGCACACAATGGCTGGTGACGATCCGACCCGTTACCGTACAGAAGACGAAGATAACGAGTGGGAGAAGAAAGATCCAATCGTTCGTTTCCGTAAGTTCCTTGAAGCTAAAGGCCTTTGGTCTGAAGAGGAAGAAAACGAATTGATCGAAAAAACAAAAGAAGAAATTAAAGCAGCTGTTAAAGAAGCTGATAATACTCCTAAGCAGTCAGTTACCGACCTTATCGGTATCATGCACGAGGAACTTCCATCTAACCTGCAGGAACAGCTGGAAGAATATAAGGAAAAGGAGTCGAAGTAA	MNDLKRTLENIENQFETFQILNEEGEIVNDDFMPDLSDEDLKEIMRRMVYTRILDQRSIALNRQGRLGFYAPTAGQEASQLGSQFALEKEDFILPGYRDVPQLIWHGLPLHQAFLFSRGHFKGNQMPEGVNAVSPQIIIGAQITQTAGVGLGYKKRGQNAVAITYTGDGGASQGDFYEGINFAGAFGAQAIFVVQNNRFAISVPVEKQSAAQTIAQKAVAAGIEGIQVDGMDVLAVYAATKEARDRAVNGEGPTLIETLTYRYGPHTMAGDDPTRYRTEDEDNEWEKKDPIVRFRKFLEAKGLWSEEEENELIEKTKEEIKAAVKEADNTPKQSVTDLIGIMHEELPSNLQEQLEEYKEKESK	PGPT0018025_1701	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0018025-pdhA-K00161	NA	NA
AK012_00187	978	pdhB		Pyruvate dehydrogenase E1 component subunit beta	ATGGCACAAATGACAATGATCCAAGCCATCACAGACGCGATGCGCACAGAACTTAACAATGATGAAAACGTGCTGATCTACGGTGAAGACGTTGGTCAAAACGGCGGAGTATTCCGTGCTACTGAAGGTCTTCAAAAAGAATTCGGCGAAGATCGTGTATTCGATACACCACTAGCTGAATCCGGAATCGGCGGTATGTCCATCGGACTGGCTCTTACCGGCTTCCGTCCAGTACCAGAAATTCAATTCTTCGGCTTCGTTTACGAAGTAATGGATGCGATCAGCGGCCAGATGGCTCGTTACCGCTACCGTTCCGGTGGTACACGTCCAATGCCGATCACGGTTCGTTCTCCGTTCGGCGGCGGGGTACACACGCCTGAACTTCACGCGGACAGCCTTGAAGGTCTAATGGCACAGCAGCCTGGTCTGCGTGTAGTCATTCCATCCAACCCTTACGATGCCAAAGGTCTTTTGATCTCTTCCATCCGTAACAATGATCCAGTCATCTTCCTTGAGCACATGAAGCTTTACCGTTCTTTCCGTGAAGAAGTGCCGGAAGAAGAGTATACTGTTGATCTTGATAAAGCAGCTGTTAAGCGCGAGGGTACCGACGTAACACTTGTCGCTTATGGCGCAATGGTTCATTCTTCCCTTAAAGCGGCGGAAGAGCTTGAGAAGAACGGAATCAGCGCTGAGGTTCTTGACCTTCGTACGGTTTCCCCAGTGGACTACGAAACGATTCTTGAATCCGTGAAGAAGACAAACCGTGCTGTTGTTGTGCAGGAAGCACAAAAACAGGCAGGAATTGCTTCCAACATTGTAGCTGAAATCCAGGAGAAAGCGATTCTTCATCTTGAAGCTCCGGTTCTGCGTGTAGCTGCACCAGATACTGTTTATGCATTTACTCAAGCGGAAGAAGTATGGCTTCCTAACCACAACACGATCGTTGAAAAAGTCAACGACGTTATGAACTTTTAA	MAQMTMIQAITDAMRTELNNDENVLIYGEDVGQNGGVFRATEGLQKEFGEDRVFDTPLAESGIGGMSIGLALTGFRPVPEIQFFGFVYEVMDAISGQMARYRYRSGGTRPMPITVRSPFGGGVHTPELHADSLEGLMAQQPGLRVVIPSNPYDAKGLLISSIRNNDPVIFLEHMKLYRSFREEVPEEEYTVDLDKAAVKREGTDVTLVAYGAMVHSSLKAAEELEKNGISAEVLDLRTVSPVDYETILESVKKTNRAVVVQEAQKQAGIASNIVAEIQEKAILHLEAPVLRVAAPDTVYAFTQAEEVWLPNHNTIVEKVNDVMNF	PGPT0019590_2591	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019590-pdhB-K00162	NA	NA
AK012_00188	1293	pdhC_1	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	GTGGCATTTGAATTTAAACTGCCTGATATCGGTGAAGGTATCCACGAAGGTGAAATTGCAAAGTGGTTCGTCAAACCAGGCGATGAAGTTAAAGAAGACGACGTACTCTGTGAAGTACAGAACGACAAAGCTGTCGTTGAAATTCCTTCCCAGGTGGACGGAACTGTAAAAGAGATCCACGTCGACGAAGGCGAAACAACAACTGTAGGAACGGTAATCATCACAATTGATGACGGTTCCGAGGACACTGGGTCTTCTGAAGCTCCTCAGGAAGAGAGCAAGGAAGAAGAAGCAGAGGCTCCTAAGGAAGAAAGTAAAGAAGAAAAAACTGAACAGCCGGCTGCAGCTTCTGCAGATGTAGACGAAGACAAGCGCGTCATCGCTATGCCGTCTGTACGTAAATTTGCCCGTGACAATGACATTGAAATCCGTCAGGTCCAGGGTTCAGGCAGAAACGGCCGTGTTCTTAAAGAAGATATCGAAAGCTTCATGAACGGTGGACAAACAGAAGCCGCTGAAGCACCTGCACAGGAAGAGAAGCAGGAAGAAACAGCATCCAGCAAACCGGCAGCACCAGCTGCAGGCGAAGCTTATCCAGAAACTCGTGAGAAGATGAGCGGTATCCGTAAAGCGATCTCCAAAGCTATGGTGAACTCCAAGCATACAGCTCCTCACGTAACATTGATGGATGAAGTGGATGTTTCTGAACTTGTTGCCCACCGTAAGAAGTTCAAGAGCGTAGCTGCTGAACAGGATATCAAGCTGACTTACCTTCCATACGTTGTGAAGTCCCTTGTTTCTACACTTAAGAAATTCCCTGTTCTGAATACGTCAATCGATGACAATACGGATGAAATTATTCAGAAACATTACTATAATATTGGTATTGCTGCCGATACAGAAAAAGGCCTGATGGTTCCTGTCGTTAAAGACGCGGATCGTAAGTCTGTATTCTCTATCTCAAGTGAAATCAATGAACTGGCTGTAAAAGCCCGTGATGGTAAACTTTCCGGTGAAGAAATGAAAGGTGCTTCCACGACGATTACGAATATCGGTTCTGCCGGTGGTCAGTGGTTCACACCAGTCATCAACCACCCTGAAGTAGCTATTCTAGGTATCGGCCGTATTGCTGATAAGCCGATCGTACGCGATGGTGAAGTCGTAGTGGCTCCAGTTCTTGCTATTTCCCTAAGCTTTGACCACCGTATTATTGACGGTGCAACGGCACAGCACGCAATGAACAACATCAAGCGTTTACTGAACGATCCACAACTAATCATGATGGAGGCGTAA	MAFEFKLPDIGEGIHEGEIAKWFVKPGDEVKEDDVLCEVQNDKAVVEIPSQVDGTVKEIHVDEGETTTVGTVIITIDDGSEDTGSSEAPQEESKEEEAEAPKEESKEEKTEQPAAASADVDEDKRVIAMPSVRKFARDNDIEIRQVQGSGRNGRVLKEDIESFMNGGQTEAAEAPAQEEKQEETASSKPAAPAAGEAYPETREKMSGIRKAISKAMVNSKHTAPHVTLMDEVDVSELVAHRKKFKSVAAEQDIKLTYLPYVVKSLVSTLKKFPVLNTSIDDNTDEIIQKHYYNIGIAADTEKGLMVPVVKDADRKSVFSISSEINELAVKARDGKLSGEEMKGASTTITNIGSAGGQWFTPVINHPEVAILGIGRIADKPIVRDGEVVVAPVLAISLSFDHRIIDGATAQHAMNNIKRLLNDPQLIMMEA	PGPT0001390_4732	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
AK012_00189	1410	pdhD_1		Dihydrolipoyl dehydrogenase	ATGGTAGTAGGAGATTTCCCAATTGAACTAGACACATTAGTAGTAGGTGCGGGCCCGGGCGGTTATGTTGCTGCCATCCGCGCCGCCCAGACTGGTCAGAAAGTAACCATCGTTGACAAGGGTAACCTTGGCGGTGTCTGCTTGAACGTCGGCTGTGTACCTTCCAAGGCATTGATCCAGGCGGGCCACCGTTATGAGCATGCAAAAGGTGCCGACGACATGGGTATCCAATCTGAAAATACAACTGTCGACTTTTCCAAAGTACAGGAATGGAAGAGCGGTGTTGTAAACAAACTTACCGGCGGTGTTGAAGGTCTTCTTAAAGGCAACAAAGTAGACATCGTTAAAGGTGAAGTTTACTTTGTCGATAAAAACACGGTTCGTGTTATGGATGAGAAAAACTCTCAAACCTACACGTTCAACAACGTGATTATTGCAACAGGATCCCGCCCAATCGAACTTCCGAACTTCAAGTTCTCCGACCGCGTTCTTGATTCTACAGGAGCTCTTTCTCTACAGGAAGTTCCTAAGAAACTTGTCGTCATCGGCGGAGGATACATCGGTACGGAGCTTGGTACAGCGTACGCAAACTTCGATACGGAAGTAACCATCCTTGAAGGTATGAAAGATATCCTTGGCGGATTCGAAAAACAGATGTCTTCCATCGTGAAGAAACGTCTGAAGAAAAAAGGCGTCTCTATCGAAACGAACGCGATGGCTCAAGGTGTAGAAGAAACTGAAGACGGTGTAACCGTCACGTATGAAGTAAAAGGCGAAACGAAAACAATCGACGCTGATTACGTTCTTGTCACGGTCGGTCGCCGCCCGAACACCGATGAAATCGGTCTTGAAGATCTTGGGTTGAACATGACTGATAAAGGTCTGATTGAAATCGACAACCAATGCCGCACAAACCTTGATAACGTTTATGCAATTGGTGATATCGTAGCCGGACCTCCACTTGCTCACAAAGCTTCCTACGAAGCGAAAGTGGCTGCTGAAGCGATTGCTGGTGAGAAAACAGAGATCGATTACCACGGCATCCCTGCTGTAGTATTCTCTGATCCAGAGCTTGCTTCTGTTGGTTACACAGAGCAGGAAGCTAAAGACGCAGGTTACGAAGTGAAAGCTTCTAAATTCCCGTTTGCCGCTAATGGTCGTGCGCTTTCCCTTAACGACAGTGACGGGTTCCTGAAACTTGTTACGCGTAAAGATGACGACCTTGTTATCGGTGCTCAGATTGCCGGACCGAATGCCAGTGACATGATTGCTGAACTTGGTCTTGCGATTGAAGCCGGTATGACGGCTGAAGACTTGGCTCTTACCATCCATGCTCACCCGACTCTTGGTGAGATCACGATGGAAGCTGCTGAAGTTGCAATCGGTCAGCCAATCCACATCACGAAGTAA	MVVGDFPIELDTLVVGAGPGGYVAAIRAAQTGQKVTIVDKGNLGGVCLNVGCVPSKALIQAGHRYEHAKGADDMGIQSENTTVDFSKVQEWKSGVVNKLTGGVEGLLKGNKVDIVKGEVYFVDKNTVRVMDEKNSQTYTFNNVIIATGSRPIELPNFKFSDRVLDSTGALSLQEVPKKLVVIGGGYIGTELGTAYANFDTEVTILEGMKDILGGFEKQMSSIVKKRLKKKGVSIETNAMAQGVEETEDGVTVTYEVKGETKTIDADYVLVTVGRRPNTDEIGLEDLGLNMTDKGLIEIDNQCRTNLDNVYAIGDIVAGPPLAHKASYEAKVAAEAIAGEKTEIDYHGIPAVVFSDPELASVGYTEQEAKDAGYEVKASKFPFAANGRALSLNDSDGFLKLVTRKDDDLVIGAQIAGPNASDMIAELGLAIEAGMTAEDLALTIHAHPTLGEITMEAAEVAIGQPIHITK	PGPT0001380_5170	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
AK012_00190	381			hypothetical protein	ATGCACACATCCAAGCTCATCATTCTCACCGTACTGCTCCTGCTAATGGGATGCATTGGAAAGTCAGAAGAAGTCCAGGTTCTCTCAGCGTCTCCTGACGAATATGAATTGTATCTCTATACGAATCCGGAACAGGAAGAAAAGGCAGAAAACTACATGAGTGCCCTTCTGAATTGGAAATTGGATATTGAGGACAAGAAGCGCCTGCAATTTAAGCAGACGACCACAGAATCACATAAAGTAAAAGATATAGAAGATGACTCTCTCCCTATGCTCGTTGTAAAAAAGGAAGGCAGAACGATTACAAAACTCTCCGGGGTTAATACAGAAAGCCGCATTTCCTCAACCCTTGAGCAGTCCCTCGTACTCTCAGGGACATAA	MHTSKLIILTVLLLLMGCIGKSEEVQVLSASPDEYELYLYTNPEQEEKAENYMSALLNWKLDIEDKKRLQFKQTTTESHKVKDIEDDSLPMLVVKKEGRTITKLSGVNTESRISSTLEQSLVLSGT				NA	NA	NA	NA	NA
AK012_00191	1533	opuD_2	COG1292	Glycine betaine transporter OpuD	ATGAATCAAGTGACGAAAGTGTTTTATATCTCAGTTGTCGTCGCCATTTTATTCATCGGATGGGGTGTTATACCTGATTCCACCCTGCCCACTTGGAACTTAAGCAATGTTACATCAACAATTCAGGGCTTTTTAACCGATAAGTTCGGATGGTTTTATCTATTATCTGCTACAGGCTTCTTAATCTTTGCCATCTTCCTTGTCTTCTCCAAATTCGGAAAGCTGAAGCTTGGTAAGCCTGATGATGAACCGGAATACCCTTACATTACATGGTTTGCGATGCTGTTCAGTGCAGGTATGGGTATCGGTCTTGTATTCTGGGGAGCCGCGGAGCCTCTTTCCCACTTCCACACGCCGCCACTTCCAGGACAGGATCCTATGAGTGAAGAAGCGGCTCAGGCTGCAATGAAATATGCCTTCTTCCACTGGGGACTTCACCCTTGGGCCATTTATGCAGTACTTGCTCTTGCTCTGGCTTACTTCAAGTTCAGAAAAGATGCGCCTGGTGTCATCAGTGCAGCTCTTACACCGGTATTAGGTGAAAAGAGAGTCAAAGGTCCAATTGGTACTTTAGTTGACTTCATCGCCGTATTTGCGACTATTTTTGGTGTAGCTACTTCTCTTGGACTTGGTGCCCTGCAGATCTCAAGTGGTCTCGCATTTGTTATCGACGGGCTTGAAGACACCTTTACGCTGCAGTTGATCATCATCTGTGCCGTTACCGTATTGTTCATGGTTTCTGCCATGACCGGTTTGAACAAAGGTATCAAGTACTTGAGTAACACCAACATTGTCCTTGCGATTACTCTAATGGTATTCCTGTTGTTTGCAGGACCAACGAACTTCATTATGGATTACTTCACGACGACATTCGGTTCTTATGTTCGTGACCTTCCTTATATGAGTTTCCGTCTGACACCTTTCGCCGAGGACAATTCCTGGGTACAGGGATGGACGATCTTCTACTGGGCCTGGTGGATTTCCTGGGCACCATTCGTAGGTACATTTATTGCCCGTGTATCCCGCGGCCGTACCATCCGTGAATTTATTCTTGGTGTCCTGCTTGTTCCAACCATCTTCGGTGCCCTTTGGTTCTCCGTATTTGGCGGAACAGCGATTTCTCTTGAATTCTTCGACGGCGTAGATATTATGTCTGACGTAAATGAACTGGGTACAGAAGTTGCTCTGTTCTCCATGCTCGAGCATATCCCGCTCGGTGCGATTATGAGTGTCATCGGACTACTGTTGATCAGTACGTTCTTTATCACATCTGCCGACTCTGCTACCTTCGTTCTTGGTATGCAGACGACAAACGGAAGCCTGAACCCGAAAAACCAGGTGAAATTCACTTGGGGTATCATTCAGGCCGGCGCTGCTGCTGTGCTGCTGTGGCAGGGTGGATTAGGAGCCCTTCAGACAGCCGCCATTATCGCAGCCTTCCCATTCACATTCATTTTGATTCTTATCTGCTTCTCCCTATTTAAAACGTTCCAGGAAGAAGCGAAAAAGGTCGATCTCAAGAAGAAACGATAA	MNQVTKVFYISVVVAILFIGWGVIPDSTLPTWNLSNVTSTIQGFLTDKFGWFYLLSATGFLIFAIFLVFSKFGKLKLGKPDDEPEYPYITWFAMLFSAGMGIGLVFWGAAEPLSHFHTPPLPGQDPMSEEAAQAAMKYAFFHWGLHPWAIYAVLALALAYFKFRKDAPGVISAALTPVLGEKRVKGPIGTLVDFIAVFATIFGVATSLGLGALQISSGLAFVIDGLEDTFTLQLIIICAVTVLFMVSAMTGLNKGIKYLSNTNIVLAITLMVFLLFAGPTNFIMDYFTTTFGSYVRDLPYMSFRLTPFAEDNSWVQGWTIFYWAWWISWAPFVGTFIARVSRGRTIREFILGVLLVPTIFGALWFSVFGGTAISLEFFDGVDIMSDVNELGTEVALFSMLEHIPLGAIMSVIGLLLISTFFITSADSATFVLGMQTTNGSLNPKNQVKFTWGIIQAGAAAVLLWQGGLGALQTAAIIAAFPFTFILILICFSLFKTFQEEAKKVDLKKKR	PGPT0013600_915	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK012_00192	1071			hypothetical protein	ATGGTTATGCTTCATACATTGAAAAATTTTAAGATTTTGGGAAGCCGCACACTGAAAACAGGGATTTCTGTCTTTTTGACTGCATTAATATGCGGTTTTTTTAATTTGCCGATCATCTTTGCTGTCATTACAGCCATCGTGACGATTGAGCATACGGCAGCAGATTCCATTAAGAAGGCAGCGGTCCGGTTTCCTGCATCAGCAATCGGCGCTTTACTTGCGACTGCCTTTTACGGATTATTCGGGAAAGGCGCGCTGACATTCGCACTGGTCGCCATGGCTACGATTGCCGTTTGTCACAAACTGAAGCTTGATGATGGGATTTTGGTGGCAACGATCACAGCTACTGCTATGATTCCTGATTTTCAGGACCAATATTTTGTTTCGTTTTTCACAAGATTGGGTACTACATCCATTGGGATCATCATTTCGACATTTGTGAATTTTTTCCTGCTGCCACCCAATTACTCCCCTACGATTTACAAAAACATCAATGGTCTGTATAATCAAGCTGGTCTGCTCTTGAGGCGTATAATTGAGAGTGTAACGGCAGAATCTAAAGAGAAAAGCCGTGGGATTCAGCGGTCATACCGTCAGCTGACCGCCCACCTGGAAAAAACCAACCAGCTGTCCCGCTATCAGCGTGAAGAATGGAAATACCACCGTCATACCGACGAGGAAATGGTTTCTTTTCAACTCTCTCAGCGAAAGCTTGCCGCCTTTCAGCAGATTGCCTATCATTTGGGAAACCTGCAGTATGTGCAGACAAAAGCCTCTGATTTTACAGAAAGTGAAAAAGAGCTGCTTCTCGAACTGACGGATGAATATGTCAATGTCCTGCTTGACCCGGCTCATTCGATCAGTGAAAGACAATTTAATATGGTGCATCAATTAGATGAAGCATTTTGGAAATGGAAAGAAGAACATGTCGTTAAACAGACCGGGTACAGGCATCACTTACCCCCTCAAACCATTTTGATCTACGAAATGCTTTGTTTTCACGATGTATTGGAAGAATTGCAAAATTTGTCAGAAAAACAGATGCATGTCGTGAAAAGGTGTTACTTTTAG	MVMLHTLKNFKILGSRTLKTGISVFLTALICGFFNLPIIFAVITAIVTIEHTAADSIKKAAVRFPASAIGALLATAFYGLFGKGALTFALVAMATIAVCHKLKLDDGILVATITATAMIPDFQDQYFVSFFTRLGTTSIGIIISTFVNFFLLPPNYSPTIYKNINGLYNQAGLLLRRIIESVTAESKEKSRGIQRSYRQLTAHLEKTNQLSRYQREEWKYHRHTDEEMVSFQLSQRKLAAFQQIAYHLGNLQYVQTKASDFTESEKELLLELTDEYVNVLLDPAHSISERQFNMVHQLDEAFWKWKEEHVVKQTGYRHHLPPQTILIYEMLCFHDVLEELQNLSEKQMHVVKRCYF				NA	NA	NA	NA	NA
AK012_00193	885			hypothetical protein	ATGAAACGATGGTTTAGTGTGTTCCTGCTTATGCTTGTATTCCTGGCTGCCTGTGGCGGTAATGAAGGGACAGCAGGATCAGAAGGAGAGCAGACAGAGTCAGACGAACCGGCTGCTGAACAGGAAAAAGAAAGTACAGAGACGGCAGATAACCCGGAAACAGAAGAGGAAAAAGAAGAAGAAAGTAACAAAGGGTCAGAAGAAGATAAAGCTGCCGAGGAAGCTTTCATCCAGAAAGAAGCTCAATATGAGATGACCGACAGCTGGTCTTTCCAGCCGATTGCTGATGCTGACCCGGAGGTCGCTTTATTAACGATTGATGACATTCCTGATGAACATGCCCTGGAGATGGCGGAAACTTTGAAAGAAAAAGAAGCGCCGGCCATTTTCTTTGTCAACGGACACTTTCTGGATACTCCAGATGAAGAACTGGCCGACAAGAGAAAACAGTGGATTAAGGAAATTCATGAAATGGGCTTCCCAATTGGAAACCATACGTATTCTCACAAGGATTTAAAAACGATGTCCGAGGAAGAGCAGCGCGAGGAAATTCTGACTGTCAGTGATCAGATTGAAGACATTACAGGAGAAAGGCCGGTATTTTACCGTTCACCTTTTGGATCCAACACAGATTTTGTGAAGCAGCTCGCTGAAGAAGAAGGCATGCTGCTGATGAACTGGACGTATGGGTATGACTGGGAACAGGAATATCAAAATGCTTCTTCACTGGCGGATATTATGGTTAACACACCTCTACTGGCTGATGGTGCAAACTTACTGATGCATGATCGTGATTGGACGAATGAGGCTCTTGGGGATATCGTAGACGGATTAAGAGACAAAGGGTACACACTGCTCGACCCTGCGCTCATCCAGACACCGTAA	MKRWFSVFLLMLVFLAACGGNEGTAGSEGEQTESDEPAAEQEKESTETADNPETEEEKEEESNKGSEEDKAAEEAFIQKEAQYEMTDSWSFQPIADADPEVALLTIDDIPDEHALEMAETLKEKEAPAIFFVNGHFLDTPDEELADKRKQWIKEIHEMGFPIGNHTYSHKDLKTMSEEEQREEILTVSDQIEDITGERPVFYRSPFGSNTDFVKQLAEEEGMLLMNWTYGYDWEQEYQNASSLADIMVNTPLLADGANLLMHDRDWTNEALGDIVDGLRDKGYTLLDPALIQTP	PGPT0018645_2588	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK012_00195	1470	speA_1	COG1982	Arginine decarboxylase	ATGAATCAACATGAAACTCCCCTGTTTACAGGGTTGAAGAAACACCGGGACCGCAATCCTGTTCAGTTCCATATCCCCGGGCATAAAGGTGGACGTGGAATGGACGAGGAATTTCGTTCCTTTATCGGTGATAATGCATTATCCATTGATTTAATTAACATACAGCCCCTGGATGACCTCCATCATCCACAGGGGATGATCAAAGAAGCCCAGGAGCTTGCAGCGGAGGCTTTTGGTGCAGATTACACATTCTTTTCCGTTCAGGGGACCTCCGGGGCCATCATGACGATGATCATGAGCGTCTGCCAGCCCGGCGACAAAATCATTGTGCCCAGGAACGTCCACAAGTCTGTCACCACTGCTATTATTTTTTCGGGGGCGAAGCCTGTTTTCATTCACCCGGAACTTGATGATCGTTTCGGTATTTCCCACGGCATTACGACAGAGGCTGTTAAGAAAGCGTGTGAGGCTCATCCAGACGCTAAAGGTCTGCTCGTCATTAATCCCACGTACTTCGGCGTATCTGCTGATTTGAAAGGTATTGTGGATCTTGCCCACAGCTTTGACATCCCTGTCCTTGTAGATGAAGCCCACGGGGTTCATATTCACTTCCATGAACGTCTCCCTATGTCCGCGATGCAGGCAGGTGCGGATATGGCCTCGACCAGCGTCCATAAGCTGGGCGGATCGCTGACACAGAGCTCTGTCTTGAACATGAAGGAAGGACTCGTATCCCATGAGCGGGTACAGGCGGTATTGTCCATGCTTCATACAACGTCCACCTCTTATATTCTGCTGGCCTCTCTGGATGCAGCGAGACGACACCTTGCCATAAACGGATATGAACTGATGGAAAATGCGATTCAGCTGGCAGATCAAGCCAGGGAAAAGCTGAATCAAATCCCGGCCATTTTCTGTCCAGGGGCTGACATCTTATCGCCCAGTGCAGCGATTGACTATGACCCGACGAAATTGCTCATTTCTGTAAAAAATCTCGGCATGACCGGGTATGATGTCGAAGTGTGGCTGAGAGAAAATTACAGCATTGAAGTGGAACTATCTGATCTGTACAATATTCTCTGTATCATTACGCCGGGGGACAGCATGCAGGAGATCGATACATTAGTACAGGCGCTGCATCATTTAACAGACCTGTGCAGAACGCAGGAGGAAGTGATCCCTGCATCTGTAAAAGTCCCTGACATTCCAGTGCTTGCTTTATCACCAAGGGAAGCCTTCTACTCCACAACAGAGACGATTCCCTTGAAAGAAGCAGCAGGCAGAATCAGTGCCGAATTCGTAATGGTCTACCCTCCGGGCATCCCTATCTTCATCCCAGGTGAGATCATTACCGCTGATAATATTGATTACATTTTTGAAAACATGGAAGCTGGTCTGCCTGTACAGGGGCCGATTGATGATACCCTGGAAACCATTCAGGTCATCCGTGAACAGAAAGCCTTCAAATAG	MNQHETPLFTGLKKHRDRNPVQFHIPGHKGGRGMDEEFRSFIGDNALSIDLINIQPLDDLHHPQGMIKEAQELAAEAFGADYTFFSVQGTSGAIMTMIMSVCQPGDKIIVPRNVHKSVTTAIIFSGAKPVFIHPELDDRFGISHGITTEAVKKACEAHPDAKGLLVINPTYFGVSADLKGIVDLAHSFDIPVLVDEAHGVHIHFHERLPMSAMQAGADMASTSVHKLGGSLTQSSVLNMKEGLVSHERVQAVLSMLHTTSTSYILLASLDAARRHLAINGYELMENAIQLADQAREKLNQIPAIFCPGADILSPSAAIDYDPTKLLISVKNLGMTGYDVEVWLRENYSIEVELSDLYNILCIITPGDSMQEIDTLVQALHHLTDLCRTQEEVIPASVKVPDIPVLALSPREAFYSTTETIPLKEAAGRISAEFVMVYPPGIPIFIPGEIITADNIDYIFENMEAGLPVQGPIDDTLETIQVIREQKAFK	PGPT0007770_1840	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
AK012_00196	957		COG2070	NADH:quinone reductase	ATGAAATGGAGAACGCGCGTGACGGAACTTTTGGACATTACATACCCTGTCATTCAAGGGGGACTTGCTTACCTGGCCTATTCGAATCTGGCCGCTGCTGTATCAAACGCCGGAGGGCTTGGCCAGCTGACAGCCATGAGCATGAGCGGGCCGGAACAATTAAGGAAGGAAATTCAGATGGTCCGTGAAAAAACGACCCGCCCGTTCGGCGTCAACTTTGCCATTGGGCAGCATGGCCGCCCCTTTGAAAAAATGGTCCAGACAGCTGTCGATGAACAGGTGCCGGTGATTTCTGTGACCGGGGGCAACCCGAAGGGCGTTTTGGAAGCGGTTAACGGGACGGGGATCAAAACGCTCGTCCTGGTCGCTGCACGCAGACAGGCGGTTAAAGCACAAGAGTTGGGCGCAGACGCTGTGATGGTCGTTGGCCATGAAGGAGGGGGCCACCTGGGGCGCGATGATGTAGGAACGTTTGTGCTTACCCCGCAGGTGGTCGATGCGGTGGATATTCCGGTGATTGCTTCAGGAGGCATTGGAGACGGCCGGGGGTTAATGGCCGCACTTTCCCTTGGGGCGGACGGTGTAGAAATGGGGACGAGGTTTATTGCCACAAAAGAGTGCACCCATGCGCATCCTGCCTATAAGGAAGCTTTGATCCAAGCGGATGAAACGTCAACGACCGTCATTAAGAGAAGTTTGAAGGCTCCGGCCCGGGCCTTGAAAAATGACTGGACAACTCGTATCTTAGAATTGGAGCAGGAGGAAGCCGGCTATGAAGGTCTCCGCTCCTATATCAGCGGGGATGCGAATAAAACATTCATCTACGAAGGGCAGAAGGGACATGGCTTCGGCTGGGCCGGGCAGATAGCCTCCCGCATCCATGATGTCCCAACGGTTGAAGAATTCTTTGACCGGATGATAAAGGAGGCGGAGGAGATCCGCACCCGCTGGTCTTAA	MKWRTRVTELLDITYPVIQGGLAYLAYSNLAAAVSNAGGLGQLTAMSMSGPEQLRKEIQMVREKTTRPFGVNFAIGQHGRPFEKMVQTAVDEQVPVISVTGGNPKGVLEAVNGTGIKTLVLVAARRQAVKAQELGADAVMVVGHEGGGHLGRDDVGTFVLTPQVVDAVDIPVIASGGIGDGRGLMAALSLGADGVEMGTRFIATKECTHAHPAYKEALIQADETSTTVIKRSLKAPARALKNDWTTRILELEQEEAGYEGLRSYISGDANKTFIYEGQKGHGFGWAGQIASRIHDVPTVEEFFDRMIKEAEEIRTRWS				NA	NA	NA	NA	NA
AK012_00197	273			hypothetical protein	ATGAGTTATACCTATCCGATTGATGAAATTCACTGGTCCAAGGAAGAAATCATTGATGTCGTGAATTTTTACAGTTTGGTTGAACAGGCGTACGAGCAGGGAGTGAAACGGGATGATCTGCTGCTGGCCTATACCCGGTTTAAACAGATTGTCCCGTCCAAAAGTGAAGAAAAAACACTCTGCGGGCAGTTTGAAAAAGAATCCGGTTATTCCTGCTACCGCACGGTAAAGCAGGCACGAAGCCTCGGTGAAGGTGAACGATTGAAAATGTAA	MSYTYPIDEIHWSKEEIIDVVNFYSLVEQAYEQGVKRDDLLLAYTRFKQIVPSKSEEKTLCGQFEKESGYSCYRTVKQARSLGEGERLKM				NA	NA	NA	NA	NA
AK012_00198	642			hypothetical protein	TTGACGACTTTTACAGGCTTTACTCAAGAAGACTTTGACGTATTCTCCATTCCGGGGCTGGAGAATAGAATGGAAGCACTGCGGGAAAGAATCTCCCCCAAGCTGGAGGCGGCAGCTGAGGAACTTTCTGCGGATGTTACAGCTATGACCGGAGATGAGATGTTTGTTCACGTTGCCAGACACGCCCGGCGCAAAACGAATCCACCGAACGATACCTGGGCCGCTCTCGCTTCCAGCAAGCGCGGCTACAAAAAGCTTCCTCACTTCCAAATCGGATTATGGGAAACCCACGTATTCGTATGGTTCGCGGTTATTTATGAAAGTCCGATCAAAGCAGATTTCGCTTCCAAACTGGAAGAAAACAAAAAGGAAGTCCTCAATCACATTCCTGCTGACTTCGTCTGGTCTGTAGATCACATGAAGCCGGATGCAGCTCCTCACAGTGATGTGGATGAAGAGACATTTTCCAAAATGACCGAGCGGCTGAAAACCGTTAAAAAAGCTGAAATTTTGTGCGGCCGTCAGCTTCAGCGCGGCGATGAGCGTTTGAAGGACCCAGAAGCCTTCATTGACTTCTGCCGGGAAACTTTCCAGACGCTGGAACCCTTGTACCGTTACACGAAACAGCTGGAAGAAAAGTAA	MTTFTGFTQEDFDVFSIPGLENRMEALRERISPKLEAAAEELSADVTAMTGDEMFVHVARHARRKTNPPNDTWAALASSKRGYKKLPHFQIGLWETHVFVWFAVIYESPIKADFASKLEENKKEVLNHIPADFVWSVDHMKPDAAPHSDVDEETFSKMTERLKTVKKAEILCGRQLQRGDERLKDPEAFIDFCRETFQTLEPLYRYTKQLEEK				NA	NA	NA	NA	NA
AK012_00199	189			hypothetical protein	ATGAAACATGTTATGGAAGCGTTGCGTAAGAGAGAAGCTGAAGAGAAGCTCCCGGTAATCCGTATGGAAATTGATTACGAACTGGTGACCCTGCATGATGCAATGGTTGCAGGAGATACCCAGCAGATGACAAAGACTAAGAGGCGCCTTTCTGAACTTCGTAAACAATTAATTGAATGGTCGATCTAG	MKHVMEALRKREAEEKLPVIRMEIDYELVTLHDAMVAGDTQQMTKTKRRLSELRKQLIEWSI				NA	NA	NA	NA	NA
AK012_00200	810	suhB	COG0483	Inositol-1-monophosphatase	ATGGATCAACAGACAAAGAATGAAGTGTTCGATCAAGCTAAAGCATGGATACTGGAAGCGGGCGAGCGGATCAAAGCAAATATTGACGCCCCCCGTTCCATTGAAACAAAATCCAATCCGAATGACCTTGTTACTGAAATGGATCAGCAGACAGAAAAATTTTTCGCTGGGAAAATTAAAAACGCCTATCCGGAGCACTATCTGCTTGGAGAAGAGGGATTTGGGGACGAGCTGGAAGATCTCGGCGGGACCGTCTGGATTGTAGATCCTATCGACGGTACAATGAACTTTGTCCACCAGAAGCGCAACTTTGCCATATCTATCGGCATTTACGTAGATGGTGTAGGTGAAATCGGCTTTATTTATAACGTGATGGAAGGTACTCTTTACACAGCTAAACGCGGGGAAGGTGCATGGAAAAACGATGTACAGCTGCCCCAGCTTAGTAAAGACCGTCCGCTGAAGCAGTCGATTCTGGCTTTGAACACGACCTGGCTGATTCCGGAAAACCCGTTTATAGATCATAAAGGGGTGGAGGAGCTTGTGAAGACGCTCAGAAGCACCCGCTCCTACGGCTCAGCTGCACTGGAGCTTGCTTTTGTCGCTGAAGGGCTTCTGGATGGATATTTAACGATGACGCTGATGCCGTGGGATTATGCCGCTGGAAGCATTCTCGTCCGCGAGGTGGGTGGAATCGTTACCCGTGCAGATAAAGAGGAATTGGATCTGTTGAATAAAACAACCGTTTTGGCGTGCAGATCCAATATTCATGAAGAAATTATCAATGATTACGTCCATTTAAAAAAATAA	MDQQTKNEVFDQAKAWILEAGERIKANIDAPRSIETKSNPNDLVTEMDQQTEKFFAGKIKNAYPEHYLLGEEGFGDELEDLGGTVWIVDPIDGTMNFVHQKRNFAISIGIYVDGVGEIGFIYNVMEGTLYTAKRGEGAWKNDVQLPQLSKDRPLKQSILALNTTWLIPENPFIDHKGVEELVKTLRSTRSYGSAALELAFVAEGLLDGYLTMTLMPWDYAAGSILVREVGGIVTRADKEELDLLNKTTVLACRSNIHEEIINDYVHLKK	PGPT0018535_3560	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
AK012_00201	240			hypothetical protein	GTGAAACCATTTTCATCCGCGTTAAAATCCGATATACTGGTATCGAATAGAGGTGATTTCAAGACTATGATGAACAATGCAATGCTTGCTGTTCTTGTCATTTTAAGTTTCGTTTTTGTCGGATTCGCCATCGGCCAGAAATTATTCTGGCTGGCCGGACTCCTCTTCCTATCCGGATTTGCTCTCATGAGCGTCGGTCTCCGCCGCAAAAGAAAACGGGACGCCGTTCATGCTGACTAA	MKPFSSALKSDILVSNRGDFKTMMNNAMLAVLVILSFVFVGFAIGQKLFWLAGLLFLSGFALMSVGLRRKRKRDAVHAD				NA	NA	NA	NA	NA
AK012_00202	378			hypothetical protein	ATGCAGGATACATCCACGCTTCCGGTACCGACGGATTTATGGCCGGTGGCCGACTTCTTTTTCCGCGGACTTGGCAGCGAAGTGAATTTAAACGATGAAAGCGAAGTAACGATGTTATTTCGTTCATTCATGCTGTTATACTTAACAACTGTCATTTTAGCGATCATTACGTTCAAGCTGGGATTTGCAAGAAAGCTTCCCTTATTGAAGACGATCGTTGTTTATGGGGTACTGATCATTGGTACATTCGTACTGACGTTGATTCTGGGATTGAATCTTCCTGTACCTGAAAGCCTGCTGGTAGCGGCTTTAATTCTCGGTATATACAGAGTGAGGCTTCACAGGGAACGGTCAGCCAGACAGCAGAGAGAGTCCTGA	MQDTSTLPVPTDLWPVADFFFRGLGSEVNLNDESEVTMLFRSFMLLYLTTVILAIITFKLGFARKLPLLKTIVVYGVLIIGTFVLTLILGLNLPVPESLLVAALILGIYRVRLHRERSARQQRES				NA	NA	NA	NA	NA
AK012_00203	204			hypothetical protein	ATGCGTGTCCAATGCGTGATTTGTGATCACATTGAAAAAATAGACAGCTACTGTCTACAGGCGAAACGGTTAAGAAACCGGAGGATCAACACGTATATGTGTCAGTCATGTCATGAACGTATTGCTGAAAATACGAAAAAAAGACTGGCTACCGGCGATTTCCGTTTCCACCGTGAACGTAAAAGAGAAAAACATTTAAGTTAA	MRVQCVICDHIEKIDSYCLQAKRLRNRRINTYMCQSCHERIAENTKKRLATGDFRFHRERKREKHLS				NA	NA	NA	NA	NA
AK012_00204	270			hypothetical protein	ATGGTTACTGCAGCCGGCGCCCTTGCCGGCGGTGTTGCTGCCTACTTTCTAAAAGACGGAGACAACAGACAGAAAGTGAAGGATAAGGCAGGTTCCCTTCAAAACCGATGGAAGAAAGGCGACGACATGCCGATTGAGGAAGCGGGTAAACCGGAAACCGCTGACTTGGAAAACTCCAAAATGGTAAACGAGGGATCTCAGTTCGGAGTACAATACTATAATGAACTGACAGAAAAGGAAAGAGAAATCCTGGAAAAAAGTAACAGCTAA	MVTAAGALAGGVAAYFLKDGDNRQKVKDKAGSLQNRWKKGDDMPIEEAGKPETADLENSKMVNEGSQFGVQYYNELTEKEREILEKSNS				NA	NA	NA	NA	NA
AK012_00205	579			hypothetical protein	TTGAAGAAATTCCTATTATTAACGGCTTTCCTTTTACTGAGCGCCTGTCAGCAGGGCGGAAATGAGCAGTCGCTCCTGGAGGAGAAGCAGAACGATCCGAAATTCAAATACGTGTCTGACTCCGATCCCATTGAGAAAAAGACGATGTCCAGAGAAGAAGCAGCTGAGCATTTAGCGGGGCTTGCTGTACAGGTCCCCGACGTCCACGATGCTACAGCCGTTGTTTTAGGTGATTACGTCGCCGTCGGGATTGATGTGGACAAGGACCTGGACCGCTCCCGTGTCGGCGTAATTAAGTATTCTGTTGCAGAAGCACTAAAGAATGATCCTTACGGGAAACAGGCAGCCGTTTTTGCAGATGCTGATGTCGTCGAACGCCTCAGGGGGCTTGGTGACAAAATTGCCCAGGGACACCCTGTAGACGCATTAACCGACGAACTCAGCCAGATTGTAGCCCGTTATATGCCTGAAGGCCCTGTCAATGAAGAGCCGAAGTCAAATAACAACCAGGACTCTATCCCGGAAGAAGAACAGAAGAATCTGGATCAAGTAGAAAATGAGCAGTCTTATTCTGATTAG	MKKFLLLTAFLLLSACQQGGNEQSLLEEKQNDPKFKYVSDSDPIEKKTMSREEAAEHLAGLAVQVPDVHDATAVVLGDYVAVGIDVDKDLDRSRVGVIKYSVAEALKNDPYGKQAAVFADADVVERLRGLGDKIAQGHPVDALTDELSQIVARYMPEGPVNEEPKSNNNQDSIPEEEQKNLDQVENEQSYSD				NA	NA	NA	NA	NA
AK012_00206	495			hypothetical protein	ATGATTGTTCAACTAACTGGAAAAGTAAAGTTTCCCATTACTTTAGATCCCACCGTATGGATTTTTGATGACCGAAAAGTAACGTTTTCTGAAGCATTTGAAGGGGGTCCATCAGAATCAACCCCTGAAGAGGAAGATGAATTGAAACGAAAATCCCTCCGCTTCGACAGGGAAGTATATCAGCAGAAACTGAATCCACCTGTGAATAAAAGCATCAACCGCTATGAAAAGCAGCGGATCATTAACGGCACTTTTCTAATGCCCCTTCTGCCTTTTCTGCAAACCAGCGAGCCAGCGGTGCAGGCAGAAAAAGCAGCCCTCGTTTCCGATGAGGGAGAAGAAATTGTCCACGCCGATGATTTAAAGGATGCCCTGCTGTTATTTGCGGAAAATGGAAAACCATTGAAAACGGACGGTCCTGTCCACTTGTACTTTGGAGATGGTTCCAACAAGGAAACACCTGTGAAAGGGATTAAAAAAATCGTATTTCAATAA	MIVQLTGKVKFPITLDPTVWIFDDRKVTFSEAFEGGPSESTPEEEDELKRKSLRFDREVYQQKLNPPVNKSINRYEKQRIINGTFLMPLLPFLQTSEPAVQAEKAALVSDEGEEIVHADDLKDALLLFAENGKPLKTDGPVHLYFGDGSNKETPVKGIKKIVFQ				NA	NA	NA	NA	NA
AK012_00207	930	glsA_1	COG2066	Glutaminase	TTGATTAAAGATATTTCCGAACAAGTATTAAATGAGTGGCTTGAAAATGTGCGTCCCTATGCGTACGACGGTCAGGTAGCCGATTATATACCGGCCCTGGCCAGGCAGAATCCGGAGGACCTTGCTGTAGCTGTCCATTCTCTGGATGGGGACACGGTGGAAGCCGGACAGACGGAAGTGCGCTTTACCCTTCAAAGTATTTCCAAAGTCATATCTCTCGCCCTGGCGCTTATGGATAATGGGGAGGAGTATGTATTTGACAGAGTAGGGATGGAGCCTACCGGCGATCCGTTCCACTCCATTTACAGACTGGAGCAGATCCCGTCCAAGCCGTTGAATCCGATGATTAATGCTGGAGCATTGGCTGTAACGAATATGATACACGGGGCAACCCCTGACGAAAAAGTCGGCAGGCTTTTGAGCTTTGTTCATGATTTAACGGATGATCACAGCATCGGATATAATGAAGAGGTAGCCAGTTCTGAATTTGAAACGGCATTTCTGAACCGTTCTCTGCTGTTTTATATGAAGCAGCACCAGATTGTTACGGGAAGCGTGGAGGAAACGCTCGATGCTTATACAAAGCAGTGTGCCATTGAAGTCAACGTCTGCCAGCTTGCACGAATCGGCGCTCTCCTTGCGAATGAGGGGCGCGATATTGCCTCCGGACGGCGGATTATTCCGAAGCACCTGGCCCGTATCTGCAAAACTTTCATGGTCACCTGCGGGATGTACGATGCCTCCGGCTCCTTTGCCATCAAAGTGGGGATTCCCGCAAAAAGTGGTGTATCCGGATCGGTTTTAGCTTCATTGAATGATTTCGGAGGAATCGCCGTGTACGGTCCGAGCCTGGATGAAAAAGGAAACAGCGTCGTGGGCTTGAAACTTCTGGAAACGTTGTCCAACCGATACGACCTCTCCATCTTCTGA	MIKDISEQVLNEWLENVRPYAYDGQVADYIPALARQNPEDLAVAVHSLDGDTVEAGQTEVRFTLQSISKVISLALALMDNGEEYVFDRVGMEPTGDPFHSIYRLEQIPSKPLNPMINAGALAVTNMIHGATPDEKVGRLLSFVHDLTDDHSIGYNEEVASSEFETAFLNRSLLFYMKQHQIVTGSVEETLDAYTKQCAIEVNVCQLARIGALLANEGRDIASGRRIIPKHLARICKTFMVTCGMYDASGSFAIKVGIPAKSGVSGSVLASLNDFGGIAVYGPSLDEKGNSVVGLKLLETLSNRYDLSIF	PGPT0020215_1735	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
AK012_00208	282			hypothetical protein	ATGTTGTCTGATGTGGCTGTGGATCATCGGGAAAAAGCCTATGCCCTTCTAAAAGCTGACGCTGATAAAATATTAAGACTGATTAAAGTCCAAATGGATAATCTCACAATGCCCCAGTGTCCACTATATGAAGAAGTATTAGATACACAGATGTTTGGATTATCCCGTGAAATACATTTCGCAGTTCGCTTGAATTTAATCAGCGAAGTAGAAGGTAAGGATTTACTGGATAACCTGGAGAAGCAGCTGAACGTTCTGCACGAAGCTGCCCAGAAGTCATAA	MLSDVAVDHREKAYALLKADADKILRLIKVQMDNLTMPQCPLYEEVLDTQMFGLSREIHFAVRLNLISEVEGKDLLDNLEKQLNVLHEAAQKS				NA	NA	NA	NA	NA
AK012_00209	3444	pycA		Pyruvate carboxylase	ATGACAGAGGCAGTAAAAATCAATAAAGTACTTGTAGCGAACCGTGGAGAGATCGCGATTCGTGTATTCAGAGCGTGTACAGAACTTAATATTCGGACAGTAGCGGTGTATTCCCAGGAGGATACCGGCTCCTACCATCGTTATAAAGCGGATGAGGCTTATCTTGTCGGGGCAGGGAAAAAGCCGATTGATGCGTATCTTGATATTGAAGGAATTATCGAAATTGCCAAAAGTGTCGGAGTAGATGCCATTCACCCCGGTTACGGTTTTCTTTCGGAGAATATTCAGTTTGCCAAACGCTGTGAAGAGGAAGGGATCGTTTTCATCGGTCCTACGAGCGCACACTTAAACATGTTTGGAGATAAGGTGAAAGCAAGAGAGCAGGCTGTTCAGGCAGGAATACCAGTGATACCGGGCACCGATGGACCGGTGAAAGGCCTGAAGGAAATCCACGATTTCGGAGCCCGGCATGGATTTCCGATTATGATCAAAGCGGCTATGGGCGGCGGCGGTCGTGGGATGAGGGTGGTCCGAAGCGCTGAAACCCTCGATGAGTCGTATGAACGGGCCCGTTCCGAAGCACGCGCAGCTTTTGGAAGTGATGAAGTCTATGTGGAAAAGCTGATTGAGGAACCGAAGCATATCGAAGTACAGATCATTGGTGACAGAGATGGGAATATCGTTCATTTGTATGAACGCGACTGCTCAGTTCAAAGGCGTCATCAGAAAGTGGTCGAAATTGCGCCCAGTGTGAACTTAAGTGATCAATTGAGAGAGGACATATGTCAGGCTGCGGTCAAGTTAATGGAAAACGTTTCCTATATTAATGCGGGCACCGTTGAGTTTTTAGTGACAGATGAAGAGTTCTATTTTATTGAAGTGAATCCCCGTGTCCAGGTAGAGCATACCATTACGGAGATGATTACAGGGGTGGACATTGTTCAGACACAGATTATGGTGGCTGAAGGCCGCAGCCTCCACAGCAGCTGTATCGGAATTCCAAAGCAGGAGGAGATCCGTACCCACGGGTATGCGATTCAATCCAGGGTCACGACAGAGGATCCATTGAATAACTTCATGCCGGATACCGGCAAGATTATGGCCTACCGATCCGGTGGAGGGTTCGGCGTCCGTCTCGATGCGGGGAATGGATTCCAGGGAGCTGTTATTTCCCCTTATTATGATTCCCTGCTCGTAAAACTATCGACATGGGCCCTGAGCTTTGATCAAGCCGCACATAAAATGCTGCGGAACCTTAAAGAGTTCCGGATCCGCGGAATTAAAACGAACATTCCGTTTCTTGAAAATGTCGTCCAGCACAAGCAGTTCCTGTCAGGAGAATATAATACGACATTTATCGACCGGTCTCCGGAGCTCTTTGTTTTCCCTAAGCGGAAGGACCGGGGGACAAAGATGCTTACCTACATTGCCGACCGGACCGTGAATGGGTTTGAAGGGTATGGAAACCGGAAGAAGCCGGTCTTCCACAAGCCGCGTATACCTGCAGTCAAACATTCTGAACCAATGCAGGAAGGGACGAAACAGCTGCTTGACGAACGAGGACCTGAAGGCCTGGCCGAATGGCTGAAAAGTAAAAAGGAAGTGTTATTGACAGACACGACTTTCCGCGATGCCCATCAATCCCTTCTGGCTACACGTGTCCGGACGAAAGATCTGGAGAACATTGCCGAACCGACCGCCCGTATGCTTCCAGATTTGTTTTCGCTTGAGATGTGGGGAGGGGCGACCTTTGATGTATCCTACCGCTTCTTAAATGAAGACCCATGGGAAAGGTTGTTGAAGCTGAGGGCCAAGGCACCGAATCTCCTGTTTCAAATGCTTCTGCGTTCCTCCAATGCTGTCGGATATAAAAACTATCCGGATAACCTGATTCGGGAGTTTGTTGATAAAAGTGCGTCAGCGGGCATTGATGTGTTCCGTATTTTCGACTCCCTGAACTGGGTGGAAGGGATGAAGCTCACTATCAATGCCGTTCGTGAATCCGGTAAAGCAGCGGAAGCCGCTATGTGCTACACCGGTGACATCCTTGACAGAGGGAGAGGGAAATATGACCTGGCCTATTATAAAAAACTGGCCCGGGAACTGGAAGCTGCCGGTGCGCACATCCTCGGAATCAAAGATATGGCCGGCCTGTTAAAGCCTGAAGCAGCCTATCAGCTGATCTCCACCCTGAAAGAAACTGTGGACATTCCGATTCATCTTCACACGCACGATACAAGCGGCAATGGACTCCTGACGTATCATAAAGCTGTTGATGCAGGTGTGGATGTCGTTGATGTTGCTGCAGGAGCGATGGCCGGCCTTACTTCCCAGCCGAGTGCCAACAGTCTCTATTACGCATTAGAAGGTCATGAGCGGAAGCCGAAGCTGAACATCGATTCCTATGAGAAGCTCGGCCACTACTGGGAGGATATTCGAAAGTATTATAAGGATTTTGAAAGTGGGATGAATGCCCCACACACGGAAGTGTACAAACATGAGATGCCGGGAGGTCAGTACAGCAATCTCCAGCAGCAGGCGAAAGCCGTCGGCCTTGGTGAACGCTGGGATGAAGTGAAGACCATGTACCGCCGGGTCAACGATATGTTCGGAGATATTGTGAAGGTCACCCCTTCTTCCAAGATTGTAGGGGATATGGCGCTTTATATGGTGCAGAATGAGTTGAATGAGGATGACATATATGAAAAAGGAGAATCCCTGGATTTTCCTGACAGTGTCATAGAATTTTTCCAAGGATACCTCGGCCAGCCTTATGGAGGATTTCCAGCTGAACTGCAGCGGATTATCCTGAAGGGGCGGGAACCGATTCAAGTGCGCCCGGGAGAACTGCTGGAACCGGTTGATTTCAATAATTTAAAGGAAACGCTCTTCCATTCTCTCGACAGACAGGTCACAAGCTTTGATATGATCAGCTATGCCTTGTATCCGAAAGTATTCATGGATCACCAAAAATTCAGAGAGCAGTATGGGGATATGTCTGTACTCGACACACCGTCCTTCCTTTATGGGATGAGACTGGGAGAGGAGATCGAAGTCGAAATCGAGCAGGGGAAAACCTTGATTGTAAAGCTTGTTTCGGTTGGTGAACCTCAGGTGGACGGTACGAGGATCGTCTATTTCGAGCTGAACGGTCAGCCAAGGGAAGTTGTAGTGAAGGACGAAAATGTCAAAGCGGCTGTACAGGAGCGTCCGAAAGCCGATAAAACGAATGAAAGACATATCGGTGCGACAATGCCGGGGACCGTCATCAAAGTTTTATCCAATAAGGGAGAAAAGGTGAGCAAAGGGGACCACTTGATGATCACGGAAGCTATGAAAATGGAAACTACTGTTCAGGCTCCGTTTGATGGTGTGATCAAAGACATCTACGTCAACAACAATGAAGCCATTCACGTCGGTGATCTCTTAATTGAGTTCGAGTAA	MTEAVKINKVLVANRGEIAIRVFRACTELNIRTVAVYSQEDTGSYHRYKADEAYLVGAGKKPIDAYLDIEGIIEIAKSVGVDAIHPGYGFLSENIQFAKRCEEEGIVFIGPTSAHLNMFGDKVKAREQAVQAGIPVIPGTDGPVKGLKEIHDFGARHGFPIMIKAAMGGGGRGMRVVRSAETLDESYERARSEARAAFGSDEVYVEKLIEEPKHIEVQIIGDRDGNIVHLYERDCSVQRRHQKVVEIAPSVNLSDQLREDICQAAVKLMENVSYINAGTVEFLVTDEEFYFIEVNPRVQVEHTITEMITGVDIVQTQIMVAEGRSLHSSCIGIPKQEEIRTHGYAIQSRVTTEDPLNNFMPDTGKIMAYRSGGGFGVRLDAGNGFQGAVISPYYDSLLVKLSTWALSFDQAAHKMLRNLKEFRIRGIKTNIPFLENVVQHKQFLSGEYNTTFIDRSPELFVFPKRKDRGTKMLTYIADRTVNGFEGYGNRKKPVFHKPRIPAVKHSEPMQEGTKQLLDERGPEGLAEWLKSKKEVLLTDTTFRDAHQSLLATRVRTKDLENIAEPTARMLPDLFSLEMWGGATFDVSYRFLNEDPWERLLKLRAKAPNLLFQMLLRSSNAVGYKNYPDNLIREFVDKSASAGIDVFRIFDSLNWVEGMKLTINAVRESGKAAEAAMCYTGDILDRGRGKYDLAYYKKLARELEAAGAHILGIKDMAGLLKPEAAYQLISTLKETVDIPIHLHTHDTSGNGLLTYHKAVDAGVDVVDVAAGAMAGLTSQPSANSLYYALEGHERKPKLNIDSYEKLGHYWEDIRKYYKDFESGMNAPHTEVYKHEMPGGQYSNLQQQAKAVGLGERWDEVKTMYRRVNDMFGDIVKVTPSSKIVGDMALYMVQNELNEDDIYEKGESLDFPDSVIEFFQGYLGQPYGGFPAELQRIILKGREPIQVRPGELLEPVDFNNLKETLFHSLDRQVTSFDMISYALYPKVFMDHQKFREQYGDMSVLDTPSFLYGMRLGEEIEVEIEQGKTLIVKLVSVGEPQVDGTRIVYFELNGQPREVVVKDENVKAAVQERPKADKTNERHIGATMPGTVIKVLSNKGEKVSKGDHLMITEAMKMETTVQAPFDGVIKDIYVNNNEAIHVGDLLIEFE	PGPT0001420_1068	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001420-pyc-K01958	NA	NA
AK012_00210	171			hypothetical protein	ATGACAAAAATGCCCTTTTTCATCAGTCTGCCCCGATTTCCTCCTGTTCCTACCCATTTATGCACCTTTTTTATGCTGAATCATGAAGCAGAACAAACCCCCGCCTTCCTGCTCTCTGAAGAGCGCGGAAGCGGGGGCTGCGATAGTCTGAATCATTTAGGTACTCATTAA	MTKMPFFISLPRFPPVPTHLCTFFMLNHEAEQTPAFLLSEERGSGGCDSLNHLGTH				NA	NA	NA	NA	NA
AK012_00211	936	ctaB2	COG0109	Protoheme IX farnesyltransferase 2	ATGGACAATCCAAGAACAGTCGAATCTGCTTCTACAGAAATGATCCAAACAAAAACCCAGGAAACTACTTTGTTAGCTGATATAAAAAGTTTAATCAAAGTTGGTATTATTAACTCTAATTTGATTACCGCGTTTACAGGGTTCTGGCTGGCCTTATACTTTACAGGCACTCCATTCACAGACCAGTGGGTCACTTTCCTGTTAACGATGCTTGGTACTGCTCTGGTCATAGCGGGCGGCTGTGTCATCAATAACTGGTATGATCGCGACATCGATCCGATTATGTCCAGGACACAGACGCGTCCCACCGTTACAGGCTCAATATCACTGCCTGTTATAAAAAATATGGGAATCGCCCTCTCCATACTGGGGTTTGTTGTTCTGCTTTTCACGACATGGCAGGCAGCATTATGGGGGGCGTTCGGCTGGTTTGTCTACGTCGTTCTTTATACGATGTGGTCAAAACGCCGGTACACGATCAACACGGTGATCGGAAGTTTCTCGGGTGCTGTCCCGCCTTTAATCGGCTGGGCTGCGGTAGACCCGGGACTTCAGCTTGAAGCCCTGATTCTATTTCTCATTATGTTCATCTGGCAGACGCCTCACTTCCTGGCTCTTGCCATGAAGAAAAAAGATGAATATAAAGCAGCAGGGATTCCGATGCTGCCGGTGGTCCACGGCTTCAAGATGACAAAGCGCCAGATCGTCGTCTATGTCGCGTGTCTGCTGCCGCTTCCCATATATCTGGCATCTCTCGGCCCCGTTTTCCTTGTCACAGCCTTTCTATTATCCTTCGGCTGGCTGGCTCTGGGGATCGCCGGCTTCTTTATGAAGAATGATGAGAAGTGGGCCACATGGATGTTTGTTTATTCTTTGAACTATATGACTATCCTGTTTTTTATGATGGTAATCGTTACACTACCTTTCCCATTTTAA	MDNPRTVESASTEMIQTKTQETTLLADIKSLIKVGIINSNLITAFTGFWLALYFTGTPFTDQWVTFLLTMLGTALVIAGGCVINNWYDRDIDPIMSRTQTRPTVTGSISLPVIKNMGIALSILGFVVLLFTTWQAALWGAFGWFVYVVLYTMWSKRRYTINTVIGSFSGAVPPLIGWAAVDPGLQLEALILFLIMFIWQTPHFLALAMKKKDEYKAAGIPMLPVVHGFKMTKRQIVVYVACLLPLPIYLASLGPVFLVTAFLLSFGWLALGIAGFFMKNDEKWATWMFVYSLNYMTILFFMMVIVTLPFPF	PGPT0008520_1695	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
AK012_00212	1065	ctaC	COG1622	Cytochrome c oxidase subunit 2	ATGAGAGGTTGGATGGGAAAATTCCGTTCGTTATTTCTCTTTGGTGCACTGACACTGATCCTTACTGGTTGTGGTATTGAAAATGTTAGCGCTTTAAAACCAAAGGGGTACGGCTCGGAATTATTATTTGATCTAATGATGATCAGCATTGCAATCATGATCTTTGTCTTTGTTATCGTCATGGCAATCTATGCCTTCGTTCTATTCCGGTTCCGGGAGAAAAAAGGTCAGGAAGACAGGATTCCAAAACAGACGGAAGGAAACAAGGCGTTGGAAGTGATCTGGACAGTCATTCCAATTATCCTCCTGCTTGTACTTGCGATACCGACGGTACAGGCAACGTTTGATCTTGCGGATCAATCTTCCCAGGATGATGAAGGGACATTGACGATTGATGTAACAGGAAACCAGTATTGGTGGCAGTTTACATACGCCGACCAGGAAATCTCAACGAGTCAGGAACTCTATATACCTACAAATGAAAGGGTATACTTAAACATGAAATCCAGTGATGTTATTCATTCATTCTGGGTTCCTGCTATTTCTGGTAAGATGGACACCAACCCTGGTGAGAACATGAACACGATGTACTTAGAAGCTTATGAAGAAGGGGTTTATGAAGGATTTTGTGCTGAATTGTGCGGTCCTTCCCACTCATTGATGTACTTTAAAGTCATCGCGGTCAGCCCTGATAAGTATGACCAGTGGGTGGAAGATATGAAAAATGTAGACCCTGAAGCCGAACCTGAAACCGCTTCAGCTCAGGAAGGTCAGGAATTGTTTAACAACAACTGCATGAGCTGTCATGCCATCGGCGGAGGTTCCGCCGGAGTCGGACCCAACCTGGCCAACTTCGGTAACCGTTCTAAAATCGCCGGTATTCTTGAACCTACAAAAGAAAACCTGAAAGACTGGATTGTACACCCTGACGAAATCAAGCCGGGCAACCAAATGCCTGCAGAGCTTGTGACAGAGGAAGAAGCTGATAAAATTGCGGATTACCTGTTGGAACTGCAGCACTCTGATGTCGGTCAGGACGTACCTGTGATTGAAGAAAGCGATTAA	MRGWMGKFRSLFLFGALTLILTGCGIENVSALKPKGYGSELLFDLMMISIAIMIFVFVIVMAIYAFVLFRFREKKGQEDRIPKQTEGNKALEVIWTVIPIILLLVLAIPTVQATFDLADQSSQDDEGTLTIDVTGNQYWWQFTYADQEISTSQELYIPTNERVYLNMKSSDVIHSFWVPAISGKMDTNPGENMNTMYLEAYEEGVYEGFCAELCGPSHSLMYFKVIAVSPDKYDQWVEDMKNVDPEAEPETASAQEGQELFNNNCMSCHAIGGGSAGVGPNLANFGNRSKIAGILEPTKENLKDWIVHPDEIKPGNQMPAELVTEEEADKIADYLLELQHSDVGQDVPVIEESD	PGPT0004030_1401	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004030-foxB|coxB|ctaC-K02275	NA	NA
AK012_00213	1869	ctaD		Cytochrome c oxidase subunit 1	GTGAGTACTGCAACAGCACAAAAGCGTGGGCTCGGCGCTGCGATTTGGGATTACTTAACAACGGTAGACCACAAGAAGATAGCCCACTTATATCTGGTAGCCGGTGGATTGTTTTTCTTAATCGGCGGAATTGAAGCCATGCTGATCCGTATCCAGCTGATGAAACCGGACAATAATTTCATCTCTGCTGGACTATATAATGAAATGATTACGATGCATGGAACAACAATGATCTTTCTGGCAGCAATGCCGCTTATATTTGCTCTTATGAATGCGGTCGTCCCTCTGCAGATAGGGGCCAGGGACGTAGCATTCCCATTCCTGAACTCACTCGGCTTCTGGCTGTTTCTGTTCGGGGGGCTTTTACTGAACGTATCCTGGTTTACAGGCGGGGCGCCTGATGCAGGCTGGACCAACTATGCACCACTTTCCACGTCTTCACCAGGACACGGGGTTGATTATTATGTAATGGGGCTTCAAATTTCAGGTGCAGGTACGTTAATCGGGGGGATTAACTTCCTTGTCACAATCGTGAACATGAGGGCACCTGGTATGACCTATATGCGTATGCCGCTGTTCACATGGTCAACCTTTGTCACGAGTACGCTGATTTTATTTGCATTTCCGGCTTTGACAGTCGGCTTGTTCCTGATGATGTTTGACCGGATGTTCGGGTCTGCGTTCTTTGATGTAGGCCTCGGCGGAAACGTCATTATCTGGGAACACCTTTTCTGGATATTCGGACACCCGGAAGTATACATTCTGATTCTTCCATTGTTCGGGGCATTCAGTGACATTTTCTCCAACTTCTCCAAGAAGCGTTTGTTCGGTTATTCCGCAATGGTATTTGCAACTGTTCTGATCGGCTTCCTTGGATTCATGGTATGGGCTCACCATATGTTTACAGTCGGGATGGGACCGATAGCCAACTCCATTTTCGCTGTTGCTACCATGGCGATTGCCGTACCTACCGGGATTAAAATCTTCAACTGGCTGTTTACGATGTGGGGCGGTCAGATTAAGATGACTTCCGCTATGCTGTGGTCCATTGCCTTTATTCCGTCATTTACTATTGGGGGAATGACAGGCGTTATGCTTGCCGCTGCCGCTGCAGACTATCAGTATCACGATACGTATTTCGTCGTCGGACACTTCCACTACGTTATTGTTGGAGGGGTTGTCTTCGGTCTATTTGCATCCCTTCATTACTGGTGGCCGAAGATGTTCGGTAAAGTTCTGAACGAGAAGCTTGGAAAACTGGCATTCTGGCCGTTTTTCATCGGTTTCCACCTGACGTTCTTTATCCAGCACTTCCTGGGTCTTATGGGTATGCCCCGCCGTTACTGGGTCTTCCTGGAAGGGCAGGGACTTGATGCAGGAAACTTAATCAGTACGATTGGTGCTTTCCTGATGGCCATTGGTACTGTAATCTTCCTGATCAACGTTGTCTACACGTCTGTAAAAGAGAAAAAGGTCAGTGGCGATCCTTGGAACGGCCGTACGCTTGAATGGTCCATCCCATCACCACCGCCGCACTACAACTTCGTTCAAACGCCGCTGGTACGTGGTCTTGATCCACTGTGGGTTGAAAAGATGGATGGAAAAGAAGGGATGACACCGGCTGAACCGCTGGGAGATATTCACATGCCTAACGCATCGATTCTTCCGTTCACGATTTCTCTTGGACTGTTCATCGCAGGATTTGGGTTTATCTACCAGGTGGATGATCCAGCATGGCTGATCGCTGTCTTCGCAGGTATGGGCATCACGCTTGCTTCTATGCTGATCCGCTCCCTGAAAGATGATCTCGGACATCATATTCATAAAGAAGACCTGGAAGAAGATATTAAGAAAGGGGTGGGCAGATAA	MSTATAQKRGLGAAIWDYLTTVDHKKIAHLYLVAGGLFFLIGGIEAMLIRIQLMKPDNNFISAGLYNEMITMHGTTMIFLAAMPLIFALMNAVVPLQIGARDVAFPFLNSLGFWLFLFGGLLLNVSWFTGGAPDAGWTNYAPLSTSSPGHGVDYYVMGLQISGAGTLIGGINFLVTIVNMRAPGMTYMRMPLFTWSTFVTSTLILFAFPALTVGLFLMMFDRMFGSAFFDVGLGGNVIIWEHLFWIFGHPEVYILILPLFGAFSDIFSNFSKKRLFGYSAMVFATVLIGFLGFMVWAHHMFTVGMGPIANSIFAVATMAIAVPTGIKIFNWLFTMWGGQIKMTSAMLWSIAFIPSFTIGGMTGVMLAAAAADYQYHDTYFVVGHFHYVIVGGVVFGLFASLHYWWPKMFGKVLNEKLGKLAFWPFFIGFHLTFFIQHFLGLMGMPRRYWVFLEGQGLDAGNLISTIGAFLMAIGTVIFLINVVYTSVKEKKVSGDPWNGRTLEWSIPSPPPHYNFVQTPLVRGLDPLWVEKMDGKEGMTPAEPLGDIHMPNASILPFTISLGLFIAGFGFIYQVDDPAWLIAVFAGMGITLASMLIRSLKDDLGHHIHKEDLEEDIKKGVGR	PGPT0004025_324	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
AK012_00214	624	ctaE		Cytochrome c oxidase subunit 3	ATGAGTCATGACGACGTTCTAAATCCGAAACATATGCCCCATGATCCTGAAAAGGCCACCCTGGAAGGTAAAAATAAATTCCTCGGTTTTTGGTTTTTTCTAGGCGGAGAAACGGTCCTTTTCGCGAGTCTGTTCGGAACCTATCTCGCTCTTAATGGATCCACCCAGGGGGAGAACACGCCTGAGCACCTGTTCGGGCTGGAACTTGTTTTCATCATGACAATGCTCCTCCTTACCAGTTCATTGACAAGTGTGTATGCGATGTACCATATGAAAAATCATAACTTCGGCAAGATGCAGACATGGCTTGCTATTACAGTCTTTCTTGGTCTCGCGTTTCTTGGTTGTGAGATCTATGAGTTCTATCATTACATCCATGAGTATGGATTCACGTTCCGCTCATCGGCCTTCGGCTCAGCGTTTTATACGCTTGTCGGGTTCCACGGCGGACACGTCTTATTCGGACTCAGCTGGATTACAGCTCTTCTCCTTCGAAACCGGAAGAGAGGACTGAACCTGTACAACGCTCCGAAGTATTACATTGCCAGCCTTTACTGGCACTTCATTGACGTTGTATGGGTGTTCATCTTTACCGTTGTATACCTTATGGGAAAGGTGGGTTAA	MSHDDVLNPKHMPHDPEKATLEGKNKFLGFWFFLGGETVLFASLFGTYLALNGSTQGENTPEHLFGLELVFIMTMLLLTSSLTSVYAMYHMKNHNFGKMQTWLAITVFLGLAFLGCEIYEFYHYIHEYGFTFRSSAFGSAFYTLVGFHGGHVLFGLSWITALLLRNRKRGLNLYNAPKYYIASLYWHFIDVVWVFIFTVVYLMGKVG	PGPT0004035_2550	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
AK012_00215	327	caaD		Cytochrome c oxidase subunit 4B	ATGGCTGATCAAACACAATCCAAACCGATGCACAAAGTTGAATATGAGAAACAGCTGCACAAAGAGGAAATGAAGCATCAGGTTCTGACTTTTGCTTTAATGATCCTGTTTACGCTCATTGCCTTTGGAATGGTCATCATGGAAGTCAATTCCTACTTCATCATTCCTACTTTGATTATCCTGGCTATTGTCCAGGTCGCTTTTCAGCTTTACTATTTCATGCATATGAAAAACAAAGGCCATGACATGGTTGCATTGATGATGTATGGAGGGGCAGCTGTCGCCCTTCTGACCATTATCACCTTTACTTCCATCATTTGGTGGTAA	MADQTQSKPMHKVEYEKQLHKEEMKHQVLTFALMILFTLIAFGMVIMEVNSYFIIPTLIILAIVQVAFQLYYFMHMKNKGHDMVALMMYGGAAVALLTIITFTSIIWW	PGPT0004040_636	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004040-coxD|ctaF-K02277	NA	NA
AK012_00216	900			hypothetical protein	ATGTGGTTGGAACTACAAATATTCGGGTTTCGGGCATTATGGAGTCCTTTCTACTTCCTGTTTGTTTTTGGACTGGCCCTGGCATATTTTTATTTGACAGGTCCCGCCAGGAAGAAGGGGGAGGAGAGGCCGAATGCGGCTCAGCAGTTTATGTTTTATTCCGGCCTTATCCTGCTGTACATCGTAAAGGGATCGCCTGTCGATCTAATGGGACACATTATGTTCACGGCTCACATGACACAGATGGCTTTGTATTATCTTTTGTTCCCGATCCTCATTATCCGCGGGATTCCCGCATGGATATGGGAATGGGTGTTTAAACAGAAGATTGTCCGTCCGGTATTGAAGCTGTTGACGAAGCCTCTCATATCTTTGATTTTGTTTAACGGGTTGTTTTCGCTTTATCATATGCCGGTCATCTTTGACTATGCTAAATCCAGTGAAACCGCCCATGCGGTGATTACAACGGTTATTTTGATTACCGCCTTCTGTATGTGGATTTCGATATTTCCACCGCTTGAAAACATGGACGCTCTCAGCCCGATTATGAAAATTGGGTTCATATTTGCCAATGGTGTATTAATCACACCTGCCTGCGGGTTGATTATTTTTGCAGGGTCTCCGCTGTATGCGACTTATTCAGAAGCGGGTTCATGGCTGCAGGCGATGAGTTTGTGTGTCCCGGCCAACGTGCTGTCCGATTTGTCCGCAAGCCTGAGCGGGCCTGCCTATTTCACTCCGATGCCGCTTATCGAGGACCAGCAGCTGGGAGGAATCATTATGAAGGTGACCCAGGAGATCATTTTCGGTTCTGTGATCGCCTACATTTTCTTCAGCTGGTTTAACCGTGAGCGTGATACCATTGATCCGCTTCCGGGTGAGCTGTCGTCGGAAACATAG	MWLELQIFGFRALWSPFYFLFVFGLALAYFYLTGPARKKGEERPNAAQQFMFYSGLILLYIVKGSPVDLMGHIMFTAHMTQMALYYLLFPILIIRGIPAWIWEWVFKQKIVRPVLKLLTKPLISLILFNGLFSLYHMPVIFDYAKSSETAHAVITTVILITAFCMWISIFPPLENMDALSPIMKIGFIFANGVLITPACGLIIFAGSPLYATYSEAGSWLQAMSLCVPANVLSDLSASLSGPAYFTPMPLIEDQQLGGIIMKVTQEIIFGSVIAYIFFSWFNRERDTIDPLPGELSSET				NA	NA	NA	NA	NA
AK012_00217	456			hypothetical protein	ATGCCTTTGCTGCCGACGTTGAGTACGTTTTTCATCGTTTTAAGCGCTGTATTGGTTGCGATCGGCTGGGTACTGATTGTAAAGGACAGGCGGGATCCGCACAGAAAAGTGATGATCGCCGCCGCTGTCAGCGCCCTGACGTTTTTTATCATTTACTTAAGCCGGACCATTGTTGTAGGAAACACCAGTTTCGGCGGTCCGGACGATATTAAAATTTTCTATACCATTTTTTTGATATTCCATATCTTCCTGGCGACCGTAGGGGCCGTCTTTGGAATTGTCACGCTCGTTCTTGCTTTTAAGCGGAAGATCGGCAGACACAGGCGGGTGGGCCCCGTAACAAGCGTGATCTGGTTCTGTACGGCGGTTACCGGCGTAGCCGTCTATCTGCTTTTATACATTATCTATGATGGTGGAACGACCACAAGTATGATTAAAGCTATACTGGGAGGGTGA	MPLLPTLSTFFIVLSAVLVAIGWVLIVKDRRDPHRKVMIAAAVSALTFFIIYLSRTIVVGNTSFGGPDDIKIFYTIFLIFHIFLATVGAVFGIVTLVLAFKRKIGRHRRVGPVTSVIWFCTAVTGVAVYLLLYIIYDGGTTTSMIKAILGG	PGPT0024520_779	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0024520-yozB_-K08976	NA	NA
AK012_00218	543			hypothetical protein	GTGGAAATAAATACAGAAAGGCTGCGGATTTTTCCGGTTACCCTTGATCTTGCTCAAACATTGATGAAGAATTCCCTGGCTTTTTACTATCAATATCAGCTGCCGTGGAACAAAAACTGGCCGCACGACGGATTGAAGGCGATGCTGCCGATTTATACTGAGCGGTTGGAAAATAATGCTGAGGAAATGGGTTTCGGCCCCTGGGTGATGATTGATGCAGCCGGAGAACATGTCATTGGGGATATCGGATTCAAAGGGAGCCCTGACGAGGATGGAAATATTGAAATCGGCTATCACGTCGTTGCCTCTGAGCGCAACGCAGGGTATGCCTCTGAAGCAGTCGGAGAACTGTGCCGCTGGGCTTTCACAAAGAACGGTGTGGAAGGCATTGAAGCCCAGTGTGATAAGGGAAACATTCCTTCTCAGAAAGTCTTGATCAATAATGGCTTTTCCCATACAGGAAGAAGTCAGGATATCCTGGTTTTTAAGAAGGAAAAAGCAAGGAACGACCATAAACAAAACTCCTATAAGGCAAAAGAATAG	MEINTERLRIFPVTLDLAQTLMKNSLAFYYQYQLPWNKNWPHDGLKAMLPIYTERLENNAEEMGFGPWVMIDAAGEHVIGDIGFKGSPDEDGNIEIGYHVVASERNAGYASEAVGELCRWAFTKNGVEGIEAQCDKGNIPSQKVLINNGFSHTGRSQDILVFKKEKARNDHKQNSYKAKE				NA	NA	NA	NA	NA
AK012_00219	1059			Sodium-lithium/proton antiporter	TTGTTACGATTTCTTTCAAAAAAACAATGGATTCTGATTATACTTTCCATCCTGCTCATAATAGCTGGTTACTTCATCCTTCCTGTATCCATTCCCTTGATCATTGCTTTTGTGACGGCTTTGTTTTTAAACCCCGCCGTCCGTCTGATCCAGTTCCGGTTTCGGATTAACAGGAAAATGTCGGTAACGATCGTCTTCTTGCTGTTCCTCGTTCTGCTCGGACTGCTTGGGGCCTTTGCCGTCACAAGAGCGGTCACACAGGTGGTTCAGCTTGCGGACAATGCACCGCTGTACATTAATCAAATTAACAATGTGCTGCTGGACTGGGAAAAACATATGGCCAGCTTTACTCAAAACATGCCGAAGGAATTCGTCGATAAAGTGACCAATGAGATTTACAATACTGTCGACCGGACAACAACAGCAATTTCTGAAAAGCTCCAGCTTGGAAATATTGCGGCAGCTGCAGCGAAAATACCCGAACTGCTGGTCAGCTTCCTCGTATACTTAATTGCGCTGTTCCTGTTTATGCTTGAACTTCCACGGCTGCGTGAAAAAATGCACGATTCCTTTACCGAAGCAACTTCTGAAAAAGTAAAGTTCATGAACGCCCGTCTCGGGTATGTCGTTTTCGGATTTTTAAAGGCCCAGTTTCTCGTAAGTATCCTTATTTTTGTAGTGTCCCTCATCGGCCTGCTTTGGATCACGCCGGACGTGGCTGTTATCATGTCCCTGATTATCTGGGCGATTGATTTTGTCCCGATTATCGGATCCATTGTTATTCTCGGCCCGTGGTCGGTGTATATGTTTATAGTCGGAGATATTGCCATGGGCACACAGCTCGGTGTACTGGCGGTTATCCTGCTGGCTATACGAAGAACCGTCGAGCCGAAAGTCATGGGACGGCATATCGGATTATCGCCGCTGGCTACATTGATTGCGATGTATCTAGGACTTCAGTTGATCGGCCTGCTTGGTTTCATCCTTGGGCCATTAGTCGTCATCGCCTTTAACTCTGCTAAGGAAGCCGGGATAATTAAATGGAACTATAAACTATAA	MLRFLSKKQWILIILSILLIIAGYFILPVSIPLIIAFVTALFLNPAVRLIQFRFRINRKMSVTIVFLLFLVLLGLLGAFAVTRAVTQVVQLADNAPLYINQINNVLLDWEKHMASFTQNMPKEFVDKVTNEIYNTVDRTTTAISEKLQLGNIAAAAAKIPELLVSFLVYLIALFLFMLELPRLREKMHDSFTEATSEKVKFMNARLGYVVFGFLKAQFLVSILIFVVSLIGLLWITPDVAVIMSLIIWAIDFVPIIGSIVILGPWSVYMFIVGDIAMGTQLGVLAVILLAIRRTVEPKVMGRHIGLSPLATLIAMYLGLQLIGLLGFILGPLVVIAFNSAKEAGIIKWNYKL				NA	NA	NA	NA	NA
AK012_00220	477			hypothetical protein	ATGAAATTAGAAGGCACTGGTATTGAAGGTCTTGTGGTCGATTACAAACCATTGACTGAAATCATGGAAAAAAACGGATTCATCCTTGGTGGTTCCTGGGATTATGAACGTGTTACATATGATTACAAACTAATGGCTCCTGAGAAAAACATTACCCACTACGTCCGGATTCAAGGCTTCGCTCTTGAAGGTGACGTTGATAAAGGAGATGCGGTGATCCGGATGATGAAACCCCTGCTCGGCCGCCATTACTACCCTCACGGTGTAGAATACGGCCATCAGGAAGGATTTTCGGATGACATGATCCAGAAAGCCAAAACGCTGATCGCCAAAGTAGCTGAACCTGCGAAAAAATATCACAGCCAGGTGCCGGAGCACGTCGTTCTGGACAAGCTGAAAAAATGGGCGCAGGAAAATGAAAACGACGAAGTCCTTCAAAAAGTGGAAGAGCTTTCAAACAACCCGGAACGCCGCTGA	MKLEGTGIEGLVVDYKPLTEIMEKNGFILGGSWDYERVTYDYKLMAPEKNITHYVRIQGFALEGDVDKGDAVIRMMKPLLGRHYYPHGVEYGHQEGFSDDMIQKAKTLIAKVAEPAKKYHSQVPEHVVLDKLKKWAQENENDEVLQKVEELSNNPERR				NA	NA	NA	NA	NA
AK012_00221	429	hrp1	COG0517	Hypoxic response protein 1	ATGAAAACAGTAAAAGATATCATGACAAAGGATGTTTCCGTCTGTCAGACGAGTGACCAATTAAGTGATGCAGCAAAGCTGATGAAAGACAAAAATGTCGGTGCTGTACCTGTGTGTGATGATCAAGGCAATGTGATGGGTATGGTGACAGACCGTGACTTGGTTATCCGGGGCTATGCGGATAAAAAACCGGATTCCACACCGATCCAGCAGGTGATGAGTGACCGGATGTACAATTGTGCGCCGGATTGTTCCCTGGAGGAAGCGAGCCGGATCATGGCAGATCACCAGGTTCGTCGCCTGCCGGTCGTTGAAAACGGACGTCTGGCTGGAATCATCTCCCTCGGAGACTTGTCCACGGAAGAGATGTCTGATCATGCAGCAGGAGCAGCGCTGCAGGATATATCCGAACGTCCTGAACTTCATTAA	MKTVKDIMTKDVSVCQTSDQLSDAAKLMKDKNVGAVPVCDDQGNVMGMVTDRDLVIRGYADKKPDSTPIQQVMSDRMYNCAPDCSLEEASRIMADHQVRRLPVVENGRLAGIISLGDLSTEEMSDHAAGAALQDISERPELH				NA	NA	NA	NA	NA
AK012_00222	369			hypothetical protein	ATGAGTACAGGGGAACTGCATCCATCTGTCCAGCAATTCAAAGCATTTGTCGATCAGCACCCCAACGTCAAAAACCAGCTGAGAAAGAATCATAAGCTTATCCAAAGCTATTATGAAAAGTTTATGATCCTCGGTGAAGATGATCCATTCTGGGAAAACCTGCCCGAGGATGATAAAAGAAGTGAGTCGACAAAGAAAATGGATTGGCTGAAACAACTGGGTGTACTTATGGAGGATGTAAACTGGGAAGAAGTCTCAAAGCAGATTGATGAATTGAACGGGGCGATCGGACAGTTTCAGCAGTTTATGACGGATGTAAGAAAAACGAGGGAAAAAGACGAGCAGGAATTTGAATATCCGTATTATTAA	MSTGELHPSVQQFKAFVDQHPNVKNQLRKNHKLIQSYYEKFMILGEDDPFWENLPEDDKRSESTKKMDWLKQLGVLMEDVNWEEVSKQIDELNGAIGQFQQFMTDVRKTREKDEQEFEYPYY				NA	NA	NA	NA	NA
AK012_00223	444			hypothetical protein	ATGTTAGCAACAATGGAAATTGTCGATCTTTTAGACCGTTCAGAATCGATTGGACAGATGGTTCTCCATTCTGAAACGATGCAGCAATATCAAGAGGCAAAAATGGCCCTTGAACAAGATAAAGAGGCGCAGAGACTCATTAAAAGCTTTGCAGATATGAAAGACCATTATGAGGATGTACAGCGCTTCGGACGCTATCACCCTGATTATAACTCCATCATGAAGCAGGTCCGCTCCGTGAAAAGGGATATGGATATGCACGAAACGGTGGCGCAGTTCAAGCGGGCGGAACGAAATCTTCAAAAACTGCTCGATGAAATCAGTGAAAGTGTCGCATTCAGTGTCAGTGAGCAGATCAAGGTGCCGAAAAACGGTATGGCCCTCACCGATACCGGATGCAGCGGCGGCTGTGGCAGCGGTGGAAGCTGCGGCTGCGCTTCCTGA	MLATMEIVDLLDRSESIGQMVLHSETMQQYQEAKMALEQDKEAQRLIKSFADMKDHYEDVQRFGRYHPDYNSIMKQVRSVKRDMDMHETVAQFKRAERNLQKLLDEISESVAFSVSEQIKVPKNGMALTDTGCSGGCGSGGSCGCAS				NA	NA	NA	NA	NA
AK012_00224	330			hypothetical protein	ATGTGGACAGACCAGGAACAAGCCGTTCAACAGTTTGAGCAGCTGCTGAATGAATCCGCGGAGATAGCGGGGGCGGAGTTTAAATCGTTTGCGGGCCTTCCTTTTGTTTATGTGTTTCCAAGCGGAAACACGCCGCGTGAAGATATTGAAGACCGATTAAAGTGGTGCGCGGCGAAAGCGATGAAAGGAAAACGCCTGAGCCTTGCGATGAATTATGTACGCAGGACTCAGACGTTTTATGTTTACCGTGTGCGGTTTCTTGTCCCACAGAGAAAAATGTTCTGCTGTGGGAATTTTTGTGATGACTGCATCCGTTTTACGAATCCGTAA	MWTDQEQAVQQFEQLLNESAEIAGAEFKSFAGLPFVYVFPSGNTPREDIEDRLKWCAAKAMKGKRLSLAMNYVRRTQTFYVYRVRFLVPQRKMFCCGNFCDDCIRFTNP				NA	NA	NA	NA	NA
AK012_00225	279			hypothetical protein	ATGAATAAAACAAACCGGCAAGGTCTTATCGTATATTTTCAGCATATGAAAAATATTAGACAGATAAAAAAACACGGCCATTTGATCTACGCCTCCAAAAAGATGAAGTATGCGTTACTTTATGTGAACCAGGAGGATGTCGAATTCAAGATGGAAAAACTGGAGCGTTTACCCTTCGTTTCCCGTGTTGTCCCATCGTATAAACCGGAAGTGCGTACGGACTATGAAAATTCGAAGCCTGATAAAGCGAAACAGTATGATTATAAAATGGGAATATAA	MNKTNRQGLIVYFQHMKNIRQIKKHGHLIYASKKMKYALLYVNQEDVEFKMEKLERLPFVSRVVPSYKPEVRTDYENSKPDKAKQYDYKMGI				NA	NA	NA	NA	NA
AK012_00226	390			hypothetical protein	ATGATACAAAAATTTATTGAACTCGGCGAAGGCTATGCGGATATTTATGAACTGATTGAAATGGGGAAGCAGATGCCCGGCCGCATTAAGCATGCCGTTGCTTTTTACTGCGAAAAAGACGGGAGGCCCTCCGCATCTCTTGCGTTAATTATGCACCCGACGGACAACGGCAAGTTCCAGCCGATTTACATGTGCCGGGAAGGAATTCCAAACCCCCACGAGGTGCCGAATCAGCGGTTCGAGCTTTTTCAAAAGATGGTACAGGAAGCTGGAAAAGAAGTGCATGAGTTTACGATCAAACCCTCCTCCCTGTTTCCTGAAACCGAACTGTACTACCAGCATTTGATTGGAATTTTACGTATGAACCGTTACATTGCTCCATTAAGCTGA	MIQKFIELGEGYADIYELIEMGKQMPGRIKHAVAFYCEKDGRPSASLALIMHPTDNGKFQPIYMCREGIPNPHEVPNQRFELFQKMVQEAGKEVHEFTIKPSSLFPETELYYQHLIGILRMNRYIAPLS				NA	NA	NA	NA	NA
AK012_00227	1365			hypothetical protein	ATGAAGCGTTTCTTAAAGATCGCGTTTATCCTTTTGATGAGCGGGGCGGTTTTTTTATTTTTCCAATGGAGCAGGACAGAGCAGCTGGATCAGGGAACCGCAGGAGCAGCGGAGATTGTCGTTCATAAGGAAAGCGGGGCACTCACCGTTTCCTTGACTTATCATAATCTGGCTCCCGGCATTTATGAAGTGTCATGGCCGGATCAGGCCGGGGAGGTTTTCTGTTCGTATGAAGACGGACGTCCCTGTTGGTTGGAAAGGGATCAGTTGAACTATGAAGGCGGTGATCCGGTCACGGTTCATTATCAACGGCCTTTTGATGGTGGTTTTCTGCCTGCGTCGTGGCTGGTGAAGCTGTATAAAGATGGTGAATCCAAAGATATTCCTTTTACCGTGACCGTAAAGGATTTTTCAGAGGAAGCTTTTATATGGACAGCGCCCGTGACAGTAGAAAGTGATATTGCTATGGAACATGTCCAATATTACCGTTTCCAGCGGACTGGAGAGCCTTTTCCTCTTTTTGCAGCCCATGCATCCGAGGATGTGTGGAGGACTGGAGATAATGCGGTGATCTACCATAAGAGTGATCCTCTGACTTATGCACAAAAAAAGATCCTCCGCCGGGCGTTGCATGGGCTGAACGGGATGGTGGTTGAGCTGGATCACAATCACACAGGCGGCTCGGTTCCCTTTATGACTGTGGAGAACAGGGAAGTGGAGAAGCTTGAGGGCGAAATTCTTGGTGCGCACCTTCAACAGACAGCCTCCGGTTCATTTGATTTTTATGAGCGCATGCTGAAGGACCTCTATCTTTCTGAACCTCCGGGTACGAAAGCTTCGGGTAAGCTGAGGGAAGGACTGTCAGAACCGCAGCTTCAGGCGTGGAAAAAGCGGATGCTCGCAGCTGAGCATGTGGAAGACATCCCGGCTTTTTTGGATGGGACGCTCTCAGAGGTGAATCAGGGGGAGACCCGTTTCTTTCAAAAGAGGAGAAATGATAAGGATGCGCCCTTCTTTTTCACGTTTGATCACGACCTCTATTTTCAGAATACCCGGATGGAGGGGCAGGTGGTCCAATACAAGCAGACCAATTATTTTCCCCTCGTTTCCATATTGGAAGCCTCCGGGTATTTGTGGGCCGTTCTGGACGATGGGAAGGTCTTCCGGATTCAGACAGAGGATAACCATTATCGTCTTTTCCTGGATGAGGAGGTCTTTATTGTAAACGAAGAGAGTTTTGGCACAGGGGAAGAGGTGATCATCTCCCTGGATGAGACGGTATACATAAGGCAGGACGAGTTGAAGCAGCTTCTTGACATTCAAGCGGTAAAGGGAAAAGGTGTGTGGAATCTCCAAAAAAAATAG	MKRFLKIAFILLMSGAVFLFFQWSRTEQLDQGTAGAAEIVVHKESGALTVSLTYHNLAPGIYEVSWPDQAGEVFCSYEDGRPCWLERDQLNYEGGDPVTVHYQRPFDGGFLPASWLVKLYKDGESKDIPFTVTVKDFSEEAFIWTAPVTVESDIAMEHVQYYRFQRTGEPFPLFAAHASEDVWRTGDNAVIYHKSDPLTYAQKKILRRALHGLNGMVVELDHNHTGGSVPFMTVENREVEKLEGEILGAHLQQTASGSFDFYERMLKDLYLSEPPGTKASGKLREGLSEPQLQAWKKRMLAAEHVEDIPAFLDGTLSEVNQGETRFFQKRRNDKDAPFFFTFDHDLYFQNTRMEGQVVQYKQTNYFPLVSILEASGYLWAVLDDGKVFRIQTEDNHYRLFLDEEVFIVNEESFGTGEEVIISLDETVYIRQDELKQLLDIQAVKGKGVWNLQKK				NA	NA	NA	NA	NA
AK012_00229	573	rsmD	COG0742	Ribosomal RNA small subunit methyltransferase D	ATGCTGACAAGTGAGGTGTACTGGATGCGAGTAATTGCAGGCGATTATAAGGGAAGACCATTGAAGTCGGTCCCTACACATAAAACACGTCCAACGACAGATAAAGTGAAAGAAGCCGTATTTCACGGGATCGGCCCGTTTTTTGACGGAGGCAGAGCTCTTGATCTTTTTGCTGGAAGCGGAGGTCTTGGAATTGAGGCGATCAGCCGGGGGGTTGATTCCTGCGTGTTTGTTGACCAGCAGCATCAGGCGGTTAAGACAGTGTATGAAAATATAGAACTGCTGAAGCTGGAAGACCGCGCAGAGGTATTCCGCACGGATGCGTACCGGGCTATGAAAGCGGCGGGTAAACGCGGTCTTCAATTCAACTATATCTTCCTTGACCCTCCTTATAAAAAGTTTTCCTATAAGGAGCTGATGGAAGCGCTTTTAAAGTACGGTCTAACCGCAGAAGGAGCGAAAATCATCTGCGAACATGATGCTTCGGAAAAAATCCCTGAGCAGGTGGGTCCGTTTAAACGGGTGAAAACCGATCATTATGGCAGTAATATCGGTGTATCTATTTTTGAATGA	MLTSEVYWMRVIAGDYKGRPLKSVPTHKTRPTTDKVKEAVFHGIGPFFDGGRALDLFAGSGGLGIEAISRGVDSCVFVDQQHQAVKTVYENIELLKLEDRAEVFRTDAYRAMKAAGKRGLQFNYIFLDPPYKKFSYKELMEALLKYGLTAEGAKIICEHDASEKIPEQVGPFKRVKTDHYGSNIGVSIFE				NA	NA	NA	NA	NA
AK012_00230	477	coaD	COG0669	Phosphopantetheine adenylyltransferase	ATGACACGGCTGGCAATCTGCCCGGGAAGTTTTGATCCCGTTACATATGGACATCTGGATATCATCCGCAGGGGAGCAAAAGTATTTGACCACGTCATTGTGGCGGTGTTTAATAACCAGAGTAAATCCCCGTTGTTTGATGTGAATGAAAGAACGGCCCTCTTAAAAGAGGTGACAAAAGATCTTGATAACGTGTCTGTGGATGCGTGCAACGGTCTTTTAATGGATTACGCAGAAGAAAAGGGCGCTCAGGCCATTATCCGTGGATTAAGAGCGGTTAGTGACTTTGAATATGAAATGCAGATTACGTCCATGAACAGAAAATTGAACGATGATATTGAAACGTTTTTTGTCATGACGAATAATCAGTATTCCTTCCTGAGTTCCAGTATTGTGAAGGAAGTAGCTAAATACCGGGCCAATATCGGTGATCTTGTGCCGCCCCCGGTGGAAAAGGCACTCGCTGAAAAGTTCTGA	MTRLAICPGSFDPVTYGHLDIIRRGAKVFDHVIVAVFNNQSKSPLFDVNERTALLKEVTKDLDNVSVDACNGLLMDYAEEKGAQAIIRGLRAVSDFEYEMQITSMNRKLNDDIETFFVMTNNQYSFLSSSIVKEVAKYRANIGDLVPPPVEKALAEKF	PGPT0008825_3805	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
AK012_00231	1164	ylbJ	COG3314	Sporulation integral membrane protein YlbJ	GTGATTAAAACCATCGTCTTCGCTGTTTTCGCAGCCGGGCTGGCTGCTGCCTTAATCCTCTTCCCCACCCCCGTATTGACAGCAAGTTTAAGAGGACTGGATCTTTGGTGGGAAGTCGTTTTCCCTTCGCTGCTTCCTTTTTTCATCACGGCCGAACTTTTAATCGGATTCGGCGTTGTTCACGGTCTCGGTGCCGTCAGTGAACGGATCATGCGTCCGTTATTCAACGTGCCCGGCTGCGGAGGATTCGTCTGGGTCATGGGGATGGCAAGCGGATACCCTGCAGGCGCAAGGTGGACGACAGACCTGTACAAAAATGGACAGCTGACAAGAACAGAGGCGGAAAGGCTCGTCGCTTTTACGAATGCCTCCAGCCCTTTATTCATTTTCGGTGCCGTCGCCGTCGGCTTTTTCCACGACGCCAGGCTTGGGATTTTGATTGCCCTCGCCCACTATGGCGGCAGCTTCCTCATTGGTATCATGATGAGGTTCTATAAAAGTAATGAGCGCTCACATATTCGGGAACACAACTCTTCCTCTCTCAAGGAAGCCTTCTGGATCATGCACCATTCCAGAATCAAAGATGGGCGGACGCTCGGAAAACTGCTGGGCGACGCTGTGACAAAATCCGTCGATACCCTGCTGATGGTGGGCGGATTCATTATGATGTTTTCTGTTCTCACTGAATTACTGAAGCAGACCGGACTCATCCATCTCTTCACTCATGTACTGGCTCTTACCGGGCTGCCGGAGGGGTTCCATGTCCCTTTAACAGCAGGACTGCTGGAACTGACGACAGGAATCGGCGCTGTCACCCAATCCCATGAGGCACTCCTGGCTCAGCTGGTGGCAGTAAGCTTCATTCTCGGATTTCACGGTTTTTCTATACAAGCACAGATCGCAAGCATTCTGGCAGAAACAGATATTCGCTTTCTCCCCTATGCACTGGCCAGGTGTGCCCATGCCGTTATCGCCGCCTGCCTGATCTACCTGCTGTACTTTCTGTATCAGCCCTTTCAAACATCCACCATCCCGAGCTGGAACCCTGCCCGATCCGATCCTTTTTCCATTCTGGCGTTTTTCCAGCAGTATGGGCCGCCTGTGACTATGGGGGCCATCCTGCTGATGATCTTCATCCGCTGGCGGGCACGCCCCAGGCATTGA	MIKTIVFAVFAAGLAAALILFPTPVLTASLRGLDLWWEVVFPSLLPFFITAELLIGFGVVHGLGAVSERIMRPLFNVPGCGGFVWVMGMASGYPAGARWTTDLYKNGQLTRTEAERLVAFTNASSPLFIFGAVAVGFFHDARLGILIALAHYGGSFLIGIMMRFYKSNERSHIREHNSSSLKEAFWIMHHSRIKDGRTLGKLLGDAVTKSVDTLLMVGGFIMMFSVLTELLKQTGLIHLFTHVLALTGLPEGFHVPLTAGLLELTTGIGAVTQSHEALLAQLVAVSFILGFHGFSIQAQIASILAETDIRFLPYALARCAHAVIAACLIYLLYFLYQPFQTSTIPSWNPARSDPFSILAFFQQYGPPVTMGAILLMIFIRWRARPRH				NA	NA	NA	NA	NA
AK012_00232	807		COG1752	putative NTE family protein	ATGAATAAACCTGTTGTTGGACTGGCGCTTGGTTCAGGCGGAGCGCGTGGTTTCGCTCATCTGGGCGTCCTGAAAGTCCTTCATGATCATGATATTCCTGTGGGTATGGTGGCGGGAAGCAGTATGGGAGCTCTTGTCGGCTCTTTTTTTGCTGCGGGGCAGAGCATCGAGGATATGTATAAGCTGGCCTTAACCTTTAAACGGAAATATTACCTGGATTTCACCGTACCTAAGATGGGCTTTGTGCTGGGACGCAGAATTAAGGAGTATATCCGGCTGTTTACATTCGGTAAGAATATCGAGGACTTCAATATCCCTCTCTCGATTGTAGCTACAGATCTGTATGCAGGAGAAAAAAAGGTGTTCACCACCGGGCCCGCCTGTGATGCCGTCCGGGCGAGTATCGCCATACCAGGAATCTTTGTGCCTGAAAAAATTAATAACCGGTTGTATGTGGATGGCGGTGTCATTGACCGCGTTCCTGTTTCCGTTGCCAAGAAGATGGGGGCTGATTTCATTATTGCCGTGGACTGCGCCCATTTTGATTCTGATCCCAATATTCATTCCATTTATGACGTCATCACCCAGAGTATCGATATTATGCAGGATGAGCTCGTCAACGCCATCGGGGTGTCCTCAGATGCGGATGTTATGATAAAGCCCGACGTTGCTGCCTACAGTTCAAGGGCGTTTACGAACCTGGAGGATATAGTGAAGGCGGGGGAAAAGGCTGCGGAGGACCGGATAGAGGAAATCAAGGAAAAGCTTGCGGCTTGGAAGGAGTTAAAAGATCATGAAAGCGAATAG	MNKPVVGLALGSGGARGFAHLGVLKVLHDHDIPVGMVAGSSMGALVGSFFAAGQSIEDMYKLALTFKRKYYLDFTVPKMGFVLGRRIKEYIRLFTFGKNIEDFNIPLSIVATDLYAGEKKVFTTGPACDAVRASIAIPGIFVPEKINNRLYVDGGVIDRVPVSVAKKMGADFIIAVDCAHFDSDPNIHSIYDVITQSIDIMQDELVNAIGVSSDADVMIKPDVAAYSSRAFTNLEDIVKAGEKAAEDRIEEIKEKLAAWKELKDHESE				NA	NA	NA	NA	NA
AK012_00233	1029	ylbL	COG3480	putative protein YlbL	ATGAAAGCGAATAGAAAGCTGGTTATTACAGGAATAATCGTTATCTTAGTGACGGTCCTGTTAACCTCATGGCGTCTGCCTTATTACATATATAAACCAGGAACTGCGGATGCGCTGGATGATATTGTGGAGGTGGCCGGGGGCTATCCGAGCGAAGGGGATATGCATCTCGTCACGGTCCGGGGTGGACAAGCGACACCCATTCTCTGGCTGCTTGCCCAGTTTCAGCCGTTTCATCAAATCTACCCTATCGAAGACATTCGTCCGGAAGGGGTAAGTGAGGAAGAATACTATCATGCCCAGCTGCAGATGATGGAATCCTCCCAGGAGGCGTCCAAGGTAGTCGCTTACCAGGCAGCGGATCGGGATATTGATATCAATTACGAAGGCGTCTTTGTCATGAGTGTCATTGAAGGAATGCCGGCGGAGGAAGTATTGGAGATGGGTGATCAGATTACCAAAGTGGATGGGAAGGATATTCAGGAAACGAGTGATTTGATTGATTATGTCAATGGAAAAGAAGCCGGTTCTCAAGTGACCTTAACCCTCGTCCGGGGAGAGGAAACCCTGGAGCGCGACATTGAACTGGCTCCTTTTCCTGACACGCCTGAAAAAGTCGGTGTAGGGATTTCCCTTGTAACAGACCGGACGGTCGAAGTGGATCCAGAAGTGAACGTGAAAAGTGGAGAAATCGGCGGGCCGAGTGCTGGTTTAATGTTCTCCCTTGAAATCTATGACCAGCTGACGGAAGCGGATATTACCCAGGGTCTTGAGATCGCTGGAACAGGTGAAATCAATTACGAAGGTGTGGTAGGCAGAATCGGCGGTATCGATAAAAAAGTCGTGGCGGCTTCTGAACATGGAGCAGATGTTTTCTTCGCCCCTAATGAAGAAGGAAGACAGGGATCGAATTATGAAACAGCTAAGGCAGCAGCGGAAGATATCGATACAGAGATGGAAATTGTCCCTGTAGATACTTTCCAGGATGCCCTGGATTATTTGGAAAATCGAACTGCTGACGAAAGCTGA	MKANRKLVITGIIVILVTVLLTSWRLPYYIYKPGTADALDDIVEVAGGYPSEGDMHLVTVRGGQATPILWLLAQFQPFHQIYPIEDIRPEGVSEEEYYHAQLQMMESSQEASKVVAYQAADRDIDINYEGVFVMSVIEGMPAEEVLEMGDQITKVDGKDIQETSDLIDYVNGKEAGSQVTLTLVRGEETLERDIELAPFPDTPEKVGVGISLVTDRTVEVDPEVNVKSGEIGGPSAGLMFSLEIYDQLTEADITQGLEIAGTGEINYEGVVGRIGGIDKKVVAASEHGADVFFAPNEEGRQGSNYETAKAAAEDIDTEMEIVPVDTFQDALDYLENRTADES				NA	NA	NA	NA	NA
AK012_00234	1224	tmcAL	COG1323	tRNA(Met) cytidine acetate ligase	ATGAGATCATGCGGGGTTGTTGTCGAGTACAACCCGTTTCATAACGGGCATTACTATCATTTGGAACAAGCCAGGAAACATTCGGGTGCGGATGTGATGATCGCCATTATGAGCGGTCATTTCCTTCAGCGCGGGGAACCGGCCATAATGGATAAATGGCACCGGGCCGAGGCAGCCTTGAAAAACGGGGCGGATCTTGTGCTTGAATTGCCGTTCCTGTATGCCGTCCAGCACAGCGATTATTTCAGCCAGGGCGCTGTACAGACACTTGCTGAAGCCGGGGTCGACGCCATATGCTTCGGTAGTGAAAGCGGGGATATCGATGCTTTTATGAAGGCATACAGCCATATGAATGACTATCAGGAGGAATATAACAGAGCCTTAAGGACCCATTTAAACGAAGGACACTCGTTCCCGGAATCCTCACGGCTGGCTTATGAGTCCATCCAGTTCCCTTCAGAAGCCGTTGATCTATCCCAGCCCAACAACATCCTGGGCTACAGCTATGTAAAGCAGATCATGTCCTATGCCCCTTCTGTCACCCCTTTGACCATCCATAGGAAGAGCAGCCATTACCACGACGAGCACATCACAGGGCCTATCGCCAGTGCTACAAGCATCCGCCGGCAGATGATCGAGGCGGGAGCCCTGACAAAAGAAACGAAGCAGACGATGCCAGCAGAGGTCCCTGACCTTCTTGATGACTATAAAAACACCTACGGCTGCTGGCATCATTGGGAAGCGTATTTCCACCTGCTCCAATACAAAGTCCTCACGATGGATGAAGAGACACTCCGGTGTTTCCACGGCGTGGATGAGGGGCTTGAATACCGGCTGAAACGGGCGATGAAAAAAGCTGTTACATTTGATGATTTCATGAACCGTGTCAAAACAAAACGGTATACATGGACGAGGCTGCAGCGCACGATGACGCACCTCCTCGTCGGTACAGACAAGGATGAAGCACGACGGGGGTTAAGAGAAACGCCCCCTCCCTACGCCCGTATCCTCGGCATGAACGAGACCGGAAGGAAATATTTAAAATGGGCCAAGAAAGAGACCGAAACATCGTTTATCACCCAGCCCCAGGCAATGCAGCACCCGCTCCTCGATCTGGAATCACGGGCGGCGGCAGCTTATTACAGCCTTTTACCTGCTGCTGATCGTGTCAGCCGGTTAAACCGGGAATACGAAGCTCCCGTCATTTTGTCTACCCATACGTAA	MRSCGVVVEYNPFHNGHYYHLEQARKHSGADVMIAIMSGHFLQRGEPAIMDKWHRAEAALKNGADLVLELPFLYAVQHSDYFSQGAVQTLAEAGVDAICFGSESGDIDAFMKAYSHMNDYQEEYNRALRTHLNEGHSFPESSRLAYESIQFPSEAVDLSQPNNILGYSYVKQIMSYAPSVTPLTIHRKSSHYHDEHITGPIASATSIRRQMIEAGALTKETKQTMPAEVPDLLDDYKNTYGCWHHWEAYFHLLQYKVLTMDEETLRCFHGVDEGLEYRLKRAMKKAVTFDDFMNRVKTKRYTWTRLQRTMTHLLVGTDKDEARRGLRETPPPYARILGMNETGRKYLKWAKKETETSFITQPQAMQHPLLDLESRAAAAYYSLLPAADRVSRLNREYEAPVILSTHT				NA	NA	NA	NA	NA
AK012_00235	522			hypothetical protein	ATGAAATTTCCTCTACAAAAACTCAAACAGACGGGTGATGATCCGTTTTACTTTGAGGAACATGTAGATATTCGCGAATTAGAGCAGATGAACAATGACATTCGCAGGATTTCCCCTGTTCATGTCAAAGGTCAAGCAGACACACGAGGAAATGATATAACGGTAACTTTTTCAATTGATGGAGAAATGGTGTTGCCTTGTGCCCGGACGTTAGTAGATGTGACTTATCCATTTCACATTGATGCTCTGGAGGCATTCAATCTGTCACCTTACCATACAGAAGAAGATGACTCTGAAGTTCATCCCGTGAATGGAGAAGTGCTTGACTTAACGCCTTATATCAAGGAAAATGTACAACTGGAGATTCCGACACGCGTATTTTCCGAAGATGATGAGGCTCATGAAGCAGCCCCCGGACAAGGGAAAGGCTGGCAGGTGGTTACAGAGGAACCAGAGGAAAAGAAAGTGGATCCTCGAATGGCTAAACTGCAATCATTATTGAATGACAAAGAGAACGAATAA	MKFPLQKLKQTGDDPFYFEEHVDIRELEQMNNDIRRISPVHVKGQADTRGNDITVTFSIDGEMVLPCARTLVDVTYPFHIDALEAFNLSPYHTEEDDSEVHPVNGEVLDLTPYIKENVQLEIPTRVFSEDDEAHEAAPGQGKGWQVVTEEPEEKKVDPRMAKLQSLLNDKENE				NA	NA	NA	NA	NA
AK012_00236	174	rpmF		50S ribosomal protein L32	ATGGCAGTACCTAAGCGCAGAACGTCTAAGAAAGTCAAGAACCAACGCCGTACGCACAAGAAACTTCACGCACCAGGAATGGTGAAATGTGATAACTGTGGCGAGTTCTCAAAACCACACCATGTTTGCAAATCTTGTGGACAATATAATGGAAAACAAGTGGTGAACAACTAA	MAVPKRRTSKKVKNQRRTHKKLHAPGMVKCDNCGEFSKPHHVCKSCGQYNGKQVVNN				NA	NA	NA	NA	NA
AK012_00237	759		COG1024	Crotonyl-CoA hydratase	ATGAACCAGATTACCGTAAGGCGCCGGGAAGGTATGGCTGAAATTGTGCTCAACAGACCAGAGAAGATGAACGCTCTGTCTTCGGAAATGGCGGTGGAACTGAAGCGACAGCTGGAAGAACTGCGGGAAATGGAGGATGTGAGCTTTGTCGTCCTTACGGGAGCGGGCAGTAAAGCCTTCTGCGCAGGCGGGGATTTGACGGAGTTCCACGGTGATTTAACGGCCCTGGAGGCGTACGAGAAGCTGAACCGGGTCAAGGACGTCGTCTACGATCTTCTGACATTTCCTGCTCCCGTCCTTGCGCTTCTGAACGGTCAGGCGAGAGGGGGAGGCTGTGAACTGGCTACCGCCTGTGATTTCCGATATGGCCTCGAAACGGCTTCCTTCGGTTTCGTTCAGGGAAACCTCGGTCTTGTACCGGGTTTCGGCGGCGGCGAACTGCTTTATGAGCGGGTCCACCCATCCATGGCGGCGCACTGGCTGATGAGCGCACGTATGTATACTGCAGAGGAGGCTTTTCGAATCGGCTGGCTTCAGAAGGTATGGACGCAGGAAGATATAGAGGCGGAGGTTTTTTCAAGCTTTATGAACAAAACGCCCAGACAGATGAGAATTTTGAAAGGGCAGTATCTGAAGCATATGGATACAGGGGACCTGTTGGACCGGATGGAGGCGGAAGTGCTGCAATGCTCCAGGCTCTGGGAGTCTGCGGAACATAAAAGAGCCGTAAAAAAATTCTTGCAGACGAGAAAAAGATAA	MNQITVRRREGMAEIVLNRPEKMNALSSEMAVELKRQLEELREMEDVSFVVLTGAGSKAFCAGGDLTEFHGDLTALEAYEKLNRVKDVVYDLLTFPAPVLALLNGQARGGGCELATACDFRYGLETASFGFVQGNLGLVPGFGGGELLYERVHPSMAAHWLMSARMYTAEEAFRIGWLQKVWTQEDIEAEVFSSFMNKTPRQMRILKGQYLKHMDTGDLLDRMEAEVLQCSRLWESAEHKRAVKKFLQTRKR				NA	NA	NA	NA	NA
AK012_00238	483			hypothetical protein	ATGGATGCCCCTAGGCAAGACGCGTGGAAAGATGATGAGGATCTACTGCTCGCGACAACGGTCTTAAAATACATCCGGGAAGGGAAGACACAGCTGGAAGCATTCCAGGAAGTAGCGACTCATCTTCACCGGACACCGGCAGCCTGTGGTTTCCGCTGGAATGCCACCGTCAGAAAGCAGTATCATAAGGAAATTCAAGAGGCGAAAAACAGCCGTAAAGCCACACGCACTCTCTACACCCCCCCGGCAACTGCGGAAGAAACCCCTATGTCTCTCGATGCAGCAATTTCTTTTTTGAAAGAAATGAAATCAAGGCAGCATGACGAAGAAGGAAAGGCGAGTCTCGAGGATCAGTTGAAGCAGTTGAATGAAGACAATGAAAAATTAAGGCAGGAGCTCAAACAGTGGGAAGCTGCCTGGAACGAGATGGATAAACTCGTGCACTGGGTGAAAAAGCACCGCACTAGTGAAAGTGGTGTGTAA	MDAPRQDAWKDDEDLLLATTVLKYIREGKTQLEAFQEVATHLHRTPAACGFRWNATVRKQYHKEIQEAKNSRKATRTLYTPPATAEETPMSLDAAISFLKEMKSRQHDEEGKASLEDQLKQLNEDNEKLRQELKQWEAAWNEMDKLVHWVKKHRTSESGV				NA	NA	NA	NA	NA
AK012_00239	480	ylbP		putative N-acetyltransferase YlbP	ATGATGACAAAAACAAAAGTAGAACCTTTATTAGTCAATTACAAAACACTGGAAGAATTTAAACGCTTTAAAGAATACGGCAATCAGGAGCTTGCCATGCTCGAGGATCTGGAAAGTAACATTGTCGAAAACGACAGTGAGTCTCCTTTTTACGGCATATACTATGGAAGCGCTTTAGTCGCGCGTATGAGCTTGTACAGAGTCAGGGCAAAACACGACCACTATTTCGACCCTGCCCAGGATTACCTGGAGCTGTGGAAGCTGGAAGTTCTGCCTGATTACCGCGGACAGGGCTTCGGCCGATCACTGGTGGAATTCGCCAAGAGTTTCGAGCTTCCTATAAAAACCAACCCAAGAATCAACTCCCATGGATTCTGGGAAAAAATGGGCTTTCAAAAAGCTCAGTATGATATGGAAAGAGATCTGGGAGAAAATCCGCTCATTTGGATGCCTTCCGGCGTGGAGGAAAGAGAATCCTGA	MMTKTKVEPLLVNYKTLEEFKRFKEYGNQELAMLEDLESNIVENDSESPFYGIYYGSALVARMSLYRVRAKHDHYFDPAQDYLELWKLEVLPDYRGQGFGRSLVEFAKSFELPIKTNPRINSHGFWEKMGFQKAQYDMERDLGENPLIWMPSGVEERES				NA	NA	NA	NA	NA
AK012_00240	882	panE_1	COG1893	2-dehydropantoate 2-reductase	ATGAGAATAGGGATTATCGGCGGCGGAGCTGTCGGGTTGTTAGCCGGGGCTTATCTCGGAAGGAAACATGACGTACATATAGTGGTCAGAAACATGGACCAGAGAACTATCCTCGACAGGGAAGGCGTCCTGTGTGACCGATTGTCTTCGCCTGTGCCGGTAAAAGCTCATTTAATACCACACCTGCCGGCCGATGTGGACGTCTGGTTGATCAGCGTGAAGCAGTATGACCTTGAGGAAGTCCTTTCCCTCCCTCTTCCGAAGAACGGAAAGTACCTTTTCCTTCAAAACGGCATGGGGCACTTAAGCCTCCTTCAACGCCTTCCTTTGGAATCGTTTGCTGCTGTAGTGGAGCATGGAGCGCTGAAAGTTTCATTCAATGAAGTGGCACATACAGGGAGGGGGCGGATAAGAGCCGCACCTTTCACAGGTTCGTCTGCTGACATGGAGGAGCTGGCGGAAGCTCTCCATCAACCGGACTTTCCTATCCTGGTTCAGGACGGAGCCGTAAAAATGCTCTCTGAAAAAATGGTGATTAATGCCGTCATCAATCCGTTGACTGCATTATTCAAGCAGAAAAACCGGGCTGTGAAAGAAAACCCTTATATCCGATCGCTGGGATACCGTTTGTGCGAAGAAGCCTGCCGTACGCTCGGTCTCGACCTCCAAACCCAGTGGGAACAGGTGCTTACTATAGCTGAACAGACGGGTGGAAACCAGTCATCCATGTGGAAGGACCTTCAGGAGGGGCGGCGCACGGAAATCGATGCCATCTCCGGATTCATTCTTGAGCAGTCCTCTGAAGATCTTCCCTGGCATGAGTTTATCGTAGAAGCTGTCCACGCCATGGAATTTGAAAAGGGGGTGAACATCGATGAGTGA	MRIGIIGGGAVGLLAGAYLGRKHDVHIVVRNMDQRTILDREGVLCDRLSSPVPVKAHLIPHLPADVDVWLISVKQYDLEEVLSLPLPKNGKYLFLQNGMGHLSLLQRLPLESFAAVVEHGALKVSFNEVAHTGRGRIRAAPFTGSSADMEELAEALHQPDFPILVQDGAVKMLSEKMVINAVINPLTALFKQKNRAVKENPYIRSLGYRLCEEACRTLGLDLQTQWEQVLTIAEQTGGNQSSMWKDLQEGRRTEIDAISGFILEQSSEDLPWHEFIVEAVHAMEFEKGVNIDE	PGPT0008745_5014	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
AK012_00241	384			hypothetical protein	ATGAGTGACTGGCTTGCCTATGGGATCGCCGCTGTCCTGACTCTTCCTCTTCCGTTTTTGTTTGTATTTTATTTCTTCGCTCGGAAATGGAGTAAGCATAAGTGGAAAGCCATCCACCGGACCGCGGGCTTTACGGCTCCAGTATTTGTTCTGGCCGTCCATGTCCTGCTGATGGTGTTGTTTGAGCGCAGCTTTTTTCCTTTCATTCTGATTTTTCTTCTCCTTCTGCTGGGGGTGTCCATCATCACCCAGTACAAATTAAAAGAGGAGGTTCAGCTGTTCCGTGCGGTAAGAGGGTTTTGGAGGGTGAGTTTCCTCTTATTCGGACTGTTTTACGTAGGGCTGTCGACTTTTGGGTTGATCCTCCGGTTGTTTTTCAGCTGA	MSDWLAYGIAAVLTLPLPFLFVFYFFARKWSKHKWKAIHRTAGFTAPVFVLAVHVLLMVLFERSFFPFILIFLLLLLGVSIITQYKLKEEVQLFRAVRGFWRVSFLLFGLFYVGLSTFGLILRLFFS				NA	NA	NA	NA	NA
AK012_00242	1626	bshC	COG4365	Putative cysteine ligase BshC	ATGCGTATTGATTCTATGAACATGAAGCCGAAGCAGACGCTGTTTCGTGATTATAAATATGATTATGAAAAAATTGCCGACCGTTTTTCCTATTCCCCTTATGATGAAAATATCTGGACCGACCGCCTGGAGGATTTGAGTGCACAGACCTACCAGCGGGAGGCGCTCTCCGGAGTCTTAAAGACGATGAACGAAAAATGGGAGGTTCCGAGAGAAACTCTGGAAAACATTGAACGCCTGAAGGATGAGGAAAGTGTGGTGGTTATCGCCGGCCAGCAGGCTGGTCTGCTTACTGGACCTTTATATTCCGTCCATAAAATCATCTCTGTGCTTCAGCTTGCAAGGCAGAAGGAAAAAGAACTGGGCCGGCCGGTCATTCCGGTGTTCTGGATAGCCGGGGAAGATCATGACTTTGATGAAATCAACCACATCATGATGAAACAGAACGGACGGATGGAGAAGAAAACAATCGGCCACGTGCCTGAAGTGAAATCCTCTGTGTCCGAACTGCAGATGGATCAGAAAAAAGCGGATGCCTGGCTGGAGGACGTTTTCCGGATGGTGCCGGAGACCGAGCACACCCATCACTTCTACCAGCTTGTGCAGGAGCATCTCCACCAGTCCGACAGCTATACGGACTTTTTTGCCCGGCTGATCTATCAGTTGTTCCCTCATGAAGGGCTCGTCTTGATTGATGCTCATGATCCTGAAGTGAGAAGGCTTGAAAGCCCTTATTTCACGGGCATGATCCGTCAAAACAGAGAAATAGCTGGAGGCGTCTTTTCCATCCTTCAGAAAAACCGTCAGGAAGGCTATGAAACGCTGCTGGACAGTGAAATGGAGGATGCCCACCTGTTTTACCATGACCGGGGTGACCGCATTCTTCTCATCCGTGATGAGGAAGGTCAATTCCGAGGGAAAAACAATGAAGTGGTTTTGTCAAAGGAAGAACTTCTTCAAATCGCAGAGGCATCACCGGAAAAGCTCAGCAACAACGTTGTTACACGGCCGCTTATGCAGGAATCCCTGTTCCCGGTACTGGCTTTTATCGGGGGACCGGGAGAAATCAATTACTGGTCCGCATTGAAGCCGGCGTTTGATGCCGCTGGACTCTGTATGCCCCCTGTCTTCCCGCGGTTGTCCTTCACGCTGGTAGACAGGAAAACAGACCGCAGCATGCGTCACTTCCAGCTTTCTGTTGAAGAAGTGGTGCAGAAGGGAGCGGCTGAGAAGAAAATGAACTGGATTGGTGCGATGAGTACGCCGCCGGTGAAGCAGCTGAGTGAGCAGGTGAAGGAGGAAATGGCCCGCATCCATGCTCCGCTCCGTCAGAAAGCTGAAGAGCTTGGAGGGGACCTCGGACAGCTCGCCGACAAGAACCTTGCCTACTTGCAGGAGACGGTGGCCTTTCTGGAAAAACGGATGCTCCAATCGCTGGAGGATACGTATCGGAGTGAGCTCGGCCAATTTGATGATATCGATATCACCCTGCACCCTGCCGGCGGTCTGCAGGAACGGATGTGGAACATTCTCCCATGGGTCAATGACTACGGCCTGTCCCTGTTTCAGGAGATGAACAGACACCATCTGAGTTTTGACCACGACCATTATGTCGTTTACTTGTAG	MRIDSMNMKPKQTLFRDYKYDYEKIADRFSYSPYDENIWTDRLEDLSAQTYQREALSGVLKTMNEKWEVPRETLENIERLKDEESVVVIAGQQAGLLTGPLYSVHKIISVLQLARQKEKELGRPVIPVFWIAGEDHDFDEINHIMMKQNGRMEKKTIGHVPEVKSSVSELQMDQKKADAWLEDVFRMVPETEHTHHFYQLVQEHLHQSDSYTDFFARLIYQLFPHEGLVLIDAHDPEVRRLESPYFTGMIRQNREIAGGVFSILQKNRQEGYETLLDSEMEDAHLFYHDRGDRILLIRDEEGQFRGKNNEVVLSKEELLQIAEASPEKLSNNVVTRPLMQESLFPVLAFIGGPGEINYWSALKPAFDAAGLCMPPVFPRLSFTLVDRKTDRSMRHFQLSVEEVVQKGAAEKKMNWIGAMSTPPVKQLSEQVKEEMARIHAPLRQKAEELGGDLGQLADKNLAYLQETVAFLEKRMLQSLEDTYRSELGQFDDIDITLHPAGGLQERMWNILPWVNDYGLSLFQEMNRHHLSFDHDHYVVYL				NA	NA	NA	NA	NA
AK012_00243	432	mraZ		Transcriptional regulator MraZ	ATGTTCATGGGAGAATTTCAACACAACATTGATGCGAAGGGGAGGATTATCGTTCCTTCGAAATTCCGTCCCGGTCTGGGTGATAGTTTTGTCCTGACCAGAGGATTAGATCAATGCCTGTTTGCCTATCCTATGAATGAGTGGAAACTGCTGGAAGAGAAACTGAAAAAGCTTCCCCTTACCAAAAAAGATGCCCGTGCTTTCACCCGGTTTTTCTTTTCAGGAGCTGTAGAATGCGAAGTGGACAAGCAGGGACGAATCAATATCCCGGCGCCTCTGCGCAAGTATGCCTCCCTGGAAAAAGAATGTGTGGTCATCGGCGTTTCCAACCGGATCGAGTTTTGGAGTCACGATGAGTGGGAAAGTTACTTTGATGCATCGGAAGAATCCTTCTCTGAAATTGCTGAAAACATGCTGGATTTTGATATTTGA	MFMGEFQHNIDAKGRIIVPSKFRPGLGDSFVLTRGLDQCLFAYPMNEWKLLEEKLKKLPLTKKDARAFTRFFFSGAVECEVDKQGRINIPAPLRKYASLEKECVVIGVSNRIEFWSHDEWESYFDASEESFSEIAENMLDFDI				NA	NA	NA	NA	NA
AK012_00244	981	rsmH_1		Ribosomal RNA small subunit methyltransferase H	ATGTTTGAACATTACAGTGTACTGAAAAATGAAACGATCGAATCTTTGAACGTGAACCCGGAAGGCATTTATGTCGACTGCACCCTTGGTGGAGGAGGCCATTCGGAAGTCATTGCTTCTGCGTTGACAGGAGAGGGAAGGCTCATCTGTTTTGATCAGGATGAAATCGCCCTTGAGGCCGCAAAAGAGCGTCTGAAACCTTATGAGGAACACATCACGTTCGTCCATGCGAACTTCCGCCAGCTGAAGGAAAAGCTTCAGGAGCTCGGCCTTACGGAAGTGGATGGAATCATCTATGACCTGGGAGTGAGCAGTCCGCAGCTGGATGTCGAAGAGCGCGGCTTCAGCTACCATCAGGATGCTCCGCTTGATATGCGGATGAATCAGGACAGTGACTTGAGTGCATGGGAAGTCATCAATGAATGGGCGTATGAAGATCTGGTGCGCATTTTCTTTAAATACGGCGAGGAGAAGTTTTCCAAACAAATCGCCCGTAAAATTGAAGCCGCCAGAGAAAGCAAACCAATTGAAACGACCGGGGAACTGGTTGAATTGGTGAAGGAAGGCATTCCTGCACCGGCAAGAAGGAAGGGCGGACATCCGGCCAAGCGGATTTTTCAAGCCGTCCGGATCGCTGTCAATGATGAGCTGGGTGCTTTTCAGGACAGTCTTCAACAGGCCGCCGAAATGGTTGCTGTCGGAGGAAGAGTTGCTGTCATCACCTTCCATTCCCTTGAGGACCGGTTATGCAAGCAGACCTTCAAGAAATGGAGCTCCAACCCACCACTTCCAAAAAATATTCCAATGATTCCAGAGGACAAACAGCCACCTTTCCGTTTAGTCAGTCGAAAGCCTATAGTAGCGGAAGAGCGCGAATTGGAGGAAAACCGCCGTTCACGTTCAGCGAAATTGAGGATTGCCGAGAAAGTCAAACCTTGGAATAAAGAATTTGAATTTAATGAAGGGTGGAAACAAACATGA	MFEHYSVLKNETIESLNVNPEGIYVDCTLGGGGHSEVIASALTGEGRLICFDQDEIALEAAKERLKPYEEHITFVHANFRQLKEKLQELGLTEVDGIIYDLGVSSPQLDVEERGFSYHQDAPLDMRMNQDSDLSAWEVINEWAYEDLVRIFFKYGEEKFSKQIARKIEAARESKPIETTGELVELVKEGIPAPARRKGGHPAKRIFQAVRIAVNDELGAFQDSLQQAAEMVAVGGRVAVITFHSLEDRLCKQTFKKWSSNPPLPKNIPMIPEDKQPPFRLVSRKPIVAEERELEENRRSRSAKLRIAEKVKPWNKEFEFNEGWKQT				NA	NA	NA	NA	NA
AK012_00245	369	ftsL	COG4839	Cell division protein FtsL	ATGAGTGCTGAAAAGATTAGAAAACAGCAGCCTTTACAGCAGCCTGACAGACAGAAACAGGTGAAAGTAAAGGTACATAAAAAGAAATGGTTAAGTACCGGCGAAAAATTTTTGTATTCCATTACCACCTCCGTGGTACTGGCGGCTTCTGTTTTTTTAATCCATACCTCAGCAGAGACGGATGCGATCAACCGTGATATCCGCAGCCTGGAGCAGGACATCTCCAAACAGGAATCCCAGAATGAGAATCTGGCCTACCAGGTGAAAGAACTAAGCAACCCGGACCGTATCCTGAGTATAGCCAAGGAGAACGGGTTGAACATTCAAAATGCCCAGGTGAAACAGGCCGGCAAAATCAGTCAAGAATAA	MSAEKIRKQQPLQQPDRQKQVKVKVHKKKWLSTGEKFLYSITTSVVLAASVFLIHTSAETDAINRDIRSLEQDISKQESQNENLAYQVKELSNPDRILSIAKENGLNIQNAQVKQAGKISQE				NA	NA	NA	NA	NA
AK012_00246	2148	pbpB	COG0768	Penicillin-binding protein 2B	ATGAAGGACAATAAAAATAACCGTAGTTCATTAATATTAACCGCCGTATTTTCCTTGTTCTTTCTCGTCATCGTCGGACGCTTCCTCTATATAGAAACCGCCGCCACCATTGAAGGGGTGGATCTGTCGGAGTACGCTGAAGACATTCGTACGAGTTCCTATGAGATCGATGCCGCACGGGGGAAAATCTATGATAAGAACGGGATGGTGCTTGCTTATGACCGCCCGACCTACCGGCTTTATGCTGTCGTAGATCCCGACTATTCCAAAAATCTTCCTGAGCCCCAGCATGTGGATGATATCGATGAAACCGCTGCGGGGCTCGCTCCTTTATTAGGGATGGAAGAGAGTGAAATTGCTGATAAACTCCGGACCGCTCAGGAGAACGGCCGTTTCCAGGTGGAATTCGGGACGAATTCCAGTTCTCTTACCCAGGAGGAAATGGAAGAAATTAAAGATCTCGATCTGAATGGCATTGCCTTTAAGGAAGAATCCAAAAGGTATTATCCTAACGGTATGTTCGCTTCTCACCTGATCGGTTTTGCCCGCACTCAGGAAGGCAGCATTTCCGGGGTGACAGGCATCGAAAAACAGATGGAGGATTACCTTCAGGAAGAAAAAGGTAAGATCAGCTATGAACGGGATAAATACGGGACAAAGCTGCTGAATCCGAATGAAATCATGACGGAACCGGAGGATGGCAGCGATGTGTATTTAACGATTGATCAGAAAATCCAGACGTTCCTCGAGGACGCCATGTCCCAGGTGGATGAACAATACAGCCCCGAGAAAATCATGGCCGCTGTGATGGACCCTGAAACGGGGGAAGTTCTTGCTATGAGTAACCGGCCGAGCTATAACCCGAATGATATCGGAGACGTGGATAACTGGTACAATGATTTAATTTCCTACCCATTTGAACCGGGCTCTACGATGAAAATCTTCACGTGGGCAAGCGCCATGGAAGAAGGGGTTTATAATGGGAACGAGCTGTTTGAATCGGGGACTTATAAAGTAACTGAAAACTCCCCGACCATCGGGGACCATAACAACGGAGTCGGATGGGATGCCATCTCCTATGATGAAGGTTTCCGGAGATCCTCCAACGTAGCCTCATCCAAACTGGCTTACGAGGTACTTGGACCGACGAAACTCCGGGAGTATTTGTCCGATTTCAATCTTGATCAGAAGACCGGGATTGATCTGCCTAATGAAACGACCGGGAAATTCGTGTACGAGCGTCCGATTGAACAGATTACAACTTCCTTCGGTCAAGGCTCAACATTTACTCCGATCCAGCTGATGACAGCGGCTACGGCTATTGCCAATGATGGAGAGATGATGCGTCCCTACATGCTTTCCAAAATCACATCCAGTGATACAGGAGATGTGATCGAGGAAGGGCAGCCGGAGAAAATCGGGGAACCGGTGTCCGCTTCCACAGCAGAACAGATGCGGGAGCTGATGGGAACGGTGACCACCTCAGAAGACGGTACAGGCCAGTCGTTCAAGCTGGATGATTATTCTCTGGCTGGAAAGACAGGAACGGCTCAGATCAGTGAGCCCGGCAAAGGGTATCTGACTGGTCGCAACAACTATGTGTTCTCCTTTATGGGGATGGCTCCTGCGGAAGACCCGGAGCTGTTGATGTATGTAGCTGTGCAGCAGCCGGACCTTGAAGTGACGGAGCTCGGCTCTGAACCTGTTTCCTATATTGTCAGGACCGTCATGGAAAACAGTCTTCATTACTTGAACATCCAGCCTGATAAAGATGCGGAAGAGTCTTTATCCCCTGTAACCATTCCGGATGTGTCTGGAAAGTCCGTACAGGAGGCAGAGGACACGCTTCAAGCTTCTTTCCCCGATGTGGAAGTCATCGGTGATGGAAACACTGTAGAAGCTGTTCTGCCGTCATCAGGGGAGCAGATTGTCGAAAACCAGCGGGTGTTTCTTGTAACCGATCAGCCTGAAATGCCGGACTTGACCGGGTATTCCCTGCGGGATGTCCAGCGTCTGGCGAAGCATTTCAACTTGAATATGGAAATTATGGGCAGCGGCTATGTGGAAACACAAAGCATTGCTGCAGGTTCGGATATGAAGGACGGCGGCTATTTAGTCGTTGAGCTGGCTGTTCCGGAACAGCCGTAA	MKDNKNNRSSLILTAVFSLFFLVIVGRFLYIETAATIEGVDLSEYAEDIRTSSYEIDAARGKIYDKNGMVLAYDRPTYRLYAVVDPDYSKNLPEPQHVDDIDETAAGLAPLLGMEESEIADKLRTAQENGRFQVEFGTNSSSLTQEEMEEIKDLDLNGIAFKEESKRYYPNGMFASHLIGFARTQEGSISGVTGIEKQMEDYLQEEKGKISYERDKYGTKLLNPNEIMTEPEDGSDVYLTIDQKIQTFLEDAMSQVDEQYSPEKIMAAVMDPETGEVLAMSNRPSYNPNDIGDVDNWYNDLISYPFEPGSTMKIFTWASAMEEGVYNGNELFESGTYKVTENSPTIGDHNNGVGWDAISYDEGFRRSSNVASSKLAYEVLGPTKLREYLSDFNLDQKTGIDLPNETTGKFVYERPIEQITTSFGQGSTFTPIQLMTAATAIANDGEMMRPYMLSKITSSDTGDVIEEGQPEKIGEPVSASTAEQMRELMGTVTTSEDGTGQSFKLDDYSLAGKTGTAQISEPGKGYLTGRNNYVFSFMGMAPAEDPELLMYVAVQQPDLEVTELGSEPVSYIVRTVMENSLHYLNIQPDKDAEESLSPVTIPDVSGKSVQEAEDTLQASFPDVEVIGDGNTVEAVLPSSGEQIVENQRVFLVTDQPEMPDLTGYSLRDVQRLAKHFNLNMEIMGSGYVETQSIAAGSDMKDGGYLVVELAVPEQP	PGPT0023935_372	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023935-pbpB-K08724	NA	NA
AK012_00247	1923	spoVD	COG0768	Stage V sporulation protein D	ATGAGACGAGTATCACAGGTGATCGTGAAGAAACGATTAGTCACTGTCTTTTTTGTGGGCATGTTTATTTTTATGGTGATTGCCGGCAGGCTCGGGTATGTCCAGTTTTTCTTAAGCGACTTTCTGATCGCAAAGGCTGAGGAATCCTGGAGCAGGGATATTACATTTGAGCCGGAGCGGGGGAAAATTGTTGATACGAATGGGGAAGTTCTTGTCGGCAACCAGTCGGCTCCGACGGTCATGGTTGTGCCAAGACAGATTAAAGAACCTGAGCAGACAGCGGAGAATCTGGCGCAGATTTTGGATATGAGCGTGGAAAAAGCCTACACGCACGTGACGAAGCTGATTTCCATCGAGAAAATCCACCCCGAGGGGCGGAAAATTTCAGAGGAGCAGGCGGCGGCGATTCAGTCTTTGAATATGCCGGGCGTCTATATTGCTGAGGATTCCGAACGCTACTATCCGCATGGATCCTTTTTATCGCATGTCCTTGGGTTCAGTGGAATTGATAACCAGGGCCTCCTTGGTCTTGAAGCTTATTATGATGAAGAGTTGAAAGGAGAGAAGGGGGCGTTATCCTTTTTCTCCGATGCGAAAGGAAAGCGGATGCCTGATATGGCCGATGTGTACGAGCCGCCCGTCGACGGCAAGGATCTGAAGCTCACCATCGATTATCAAGTGCAGTCAATCATTGAAAGGGAACTGGATATCGCCCAGGCCAAATACAACCCTGACGGAGCGGTGGCGCTCGCTGTCGATCCGGACACGGGAAAGGTAGTGGGAATGGCATCCCGGCCGAATTTCGATCCGGCGGATTATCAGAAAGTAAAACCGGAGGTATACAACCGGAATCTACCCGTGTGGAGTACGTATGAGCCTGGATCGACGTTTAAGATTATTACACTGGCTGCCGCCCTGGAGGAAGGGCTTGTGGATCTTGAAGAGGAACATTTTCATGATTCAGGAGCTGTGAAAGTGGACGGAGCGACCCTGCACTGCTGGAAGAGCGGGGGGCATGGAGATCAGACGTTTTTGGAAGTTGTCCAGAATTCCTGTAACCCGGGTTTTGTTGAACTTGGAGACCGGCTTGGAAAAGAAAAGCTGTTCGATTATATTGACCTCTTTGGCTTTGGATCCAAGACAGGCATTGACCTTGAGGGAGAGGGAAGCGGAATATTATTCAAGCGTGAGAATGTGGGGCCTGTAGAGCAGGCAACGACTGCTTTCGGACAGGGGGTATCCGTAACACCGATCCAACAGGTCATGGCTGTAGCTGCCGCTGTAAACGGGGGCTATTATTATGAGCCTTACATTCAGGAAGCCTGGCTCGATCCTGTGTCAGGAGAAGTGCTTGAGGAGAATGAGCCGGTGATGAAGGAGCAGGTCATTTCAGAGGAAACCTCTGCTCAAATCCGCCATGCGCTGGAAAGTGTCGTGGCCCAGGGAACGGGAAGGGGTGCTTACGTTGAGGGGTACCGTGTCGGTGGAAAGACGGGAACAGCGCAGAAAGTGGGCCCTGACGGGAAGTATATGGAGAATAACCACATCGTTTCTTTTATCGGCTTTGCTCCCGCTGATGACCCGGAGCTGGTGGTCTATCTTGCCATTGATAACCCGAAAAACACCGTCCAGTTCGGAGGCGTTGTAGCAGCACCAATAGTTGGAAATATCATGGGTGACAGCCTGCGGGCGATGGATGTCGAACCACGCAGGGATGGTTTGGAAAAAGAATACGCCTGGCCGGAGGAACCGCTCGTAGCAGTACCTGAAATTACCGGGATGGACAAAGAAGATTTAAGCCGCATGCTGATGAATCTGGAAGTGGAGGTCAGCGGAGAAGGGACGAAGGTCGTTACACAGGCGCCGGAACCGGGTGTGAAAGTTCCGACAGGCTCCACCGTCCGTGTTTACCTTGGTGATTAA	MRRVSQVIVKKRLVTVFFVGMFIFMVIAGRLGYVQFFLSDFLIAKAEESWSRDITFEPERGKIVDTNGEVLVGNQSAPTVMVVPRQIKEPEQTAENLAQILDMSVEKAYTHVTKLISIEKIHPEGRKISEEQAAAIQSLNMPGVYIAEDSERYYPHGSFLSHVLGFSGIDNQGLLGLEAYYDEELKGEKGALSFFSDAKGKRMPDMADVYEPPVDGKDLKLTIDYQVQSIIERELDIAQAKYNPDGAVALAVDPDTGKVVGMASRPNFDPADYQKVKPEVYNRNLPVWSTYEPGSTFKIITLAAALEEGLVDLEEEHFHDSGAVKVDGATLHCWKSGGHGDQTFLEVVQNSCNPGFVELGDRLGKEKLFDYIDLFGFGSKTGIDLEGEGSGILFKRENVGPVEQATTAFGQGVSVTPIQQVMAVAAAVNGGYYYEPYIQEAWLDPVSGEVLEENEPVMKEQVISEETSAQIRHALESVVAQGTGRGAYVEGYRVGGKTGTAQKVGPDGKYMENNHIVSFIGFAPADDPELVVYLAIDNPKNTVQFGGVVAAPIVGNIMGDSLRAMDVEPRRDGLEKEYAWPEEPLVAVPEITGMDKEDLSRMLMNLEVEVSGEGTKVVTQAPEPGVKVPTGSTVRVYLGD	PGPT0024085_425	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024085-spoVD-K08384	NA	NA
AK012_00248	1476	murE_1	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	GTGTTGAAATTAGAAAAGGTGCTCCGCTTTGTCCCTTTTTACCAAAGTTCACGGCCGTTGAAAGACGTCAACATAACAGGTCTCAGTATGGATTCACGTGCAGCCTCCCACGGAGATCTGTTTATCTGCCTGCGTGGGGTGAACATGGATGGTCATCGTTTTGCAGCTGACGCCGTCAAGCGCGGGGCGGCAGCTGTCGTAGCTGAAGATCCGTTGTCTTTGAATGTTCCGGTTATTCTGGTCAATGATACAACCAGGGCGGCTGCTATGACAGCCGCCGCTTTTTATCATAATCCATCCGAAGATCTGCATGTAACAGGAATTACAGGCACCAACGGCAAAACGAGCATCAGTTACCTTCTTTATGATATCTTCCAGCGGATGGAGAAGAAAGCCGGGTTGATAGGAACCATTGAAGTGGATATCGCGGGGAAGAAGCAGCCGGTTAAAAATACAACCCCTGATGCCCTGACACTTCAGCGGTATTTTAATGATATGAAACAAGCGGGTGTGGAGCATGCGGTGATGGAGGTCTCTTCTCACGCACTAGATCAGGGCCGGGTATACGGGTGTGATTTTAATGTGGCTGTGTTTACCAACCTGACGAGGGATCATCTGGATTACCATGATCATTTTGATGATTATCTTCGTGCAAAGTCCCTATTGTTCGCACAATTGGGGAATGGGTATAATAAAAAACGGGAGCGCTTTGCTGTCATCAATATCGACTCTCCCTCGGCCCCGAAATTTATCCGTTCCACTTCCCAGGGGCTTTTGACATATGGGGTGAAGGGCCGGGCGGATGTTCGAGCACGAAACTGCCGCCTGACGGAAAAAGGCACGTTCTTTCAATTGGAGACGCCGATCGGAAATATGATGATTGAAAGCCCGTTAATGGGGGAATTCAGCATTTATAATATGCTGGCCGCAGCATCAGCGGCTATCCTGTCCGGCGCTTCCCTGGAGACGATTCAGCAGTCCTTCCTCCATACCAAAGGGATAAGAGGGCGTTTTGAATCGATAAGGGAAGGGCAGCCCTACGGGGTGGTGGTCGACTATGCCCATACGCCTGACTCACTTGAAAATGTCCTGAAAACCGCTTCAGCAGTCACCAGAGGGAAAATCATCCTCGTCGTAGGGTGTGGAGGAGACAGGGACAGGAGTAAGCGGTCCGTCATGGGGAATATCAGTGTGAAGTATGCAGATCAAGTGATCTTCACGACCGATAACCCCCGCTCGGAAGATCCAGAACAGATTTTTGCGGATATCACCGCTGATCTGAAGGGGAACTACCACATTGTCGGGGACCGCAGGGAAGCCCTGAGGCAGGCGGTGATTTCCGCCGGCGAAGGGGATATGGTTCTGATTGCAGGGAAAGGCCATGAGACGTACCAGGAGATTAAAGGGGTCCGGTATCCCTTTGATGATAGGGAAACAGCAAGAGAGATAATAAGAGAAATGAAGGAGCATTTATGA	MLKLEKVLRFVPFYQSSRPLKDVNITGLSMDSRAASHGDLFICLRGVNMDGHRFAADAVKRGAAAVVAEDPLSLNVPVILVNDTTRAAAMTAAAFYHNPSEDLHVTGITGTNGKTSISYLLYDIFQRMEKKAGLIGTIEVDIAGKKQPVKNTTPDALTLQRYFNDMKQAGVEHAVMEVSSHALDQGRVYGCDFNVAVFTNLTRDHLDYHDHFDDYLRAKSLLFAQLGNGYNKKRERFAVINIDSPSAPKFIRSTSQGLLTYGVKGRADVRARNCRLTEKGTFFQLETPIGNMMIESPLMGEFSIYNMLAAASAAILSGASLETIQQSFLHTKGIRGRFESIREGQPYGVVVDYAHTPDSLENVLKTASAVTRGKIILVVGCGGDRDRSKRSVMGNISVKYADQVIFTTDNPRSEDPEQIFADITADLKGNYHIVGDRREALRQAVISAGEGDMVLIAGKGHETYQEIKGVRYPFDDRETAREIIREMKEHL	PGPT0024130_2877	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
AK012_00249	1362	murF_1	COG0770	UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	ATGATGATTTTTGAAGTTCAGGAGCTTACACATCTATTTCCAACTTATAAAGGAGCCGGCGCAGATAAAATCGCTGTCGACTCGATCATGACTGATACAAGGAAGACAGCTCCTCAGAGTTTATTTGTGCCCATTGTCGGGGAGAGTTTCGATGCCCACCAATTTGCAGGCGAAGCCATTAAACAGGGAGCTGTGGCAGCTTTGTGGCAGGAGAACCGGCCGCTGCCTGATCTGATTCCGACTGATTTTCCGGTCTTTTTTGTAAAGGATACCACCAAGGCGCTCCAGGACCTCGCCTCCTGGTATTTAAAAAAGGTGGATCCTATTGTTGTGGGAATCACAGGTTCCAATGGAAAGACGACCACGAAGGATATGACCGCTTCTGTTCTCGGGGCAAAATTTAAAACCCATAAAACAGCAGGGAACTTTAACAACCATATCGGTCTACCCCTGACGGTCCTTTCTATGCTGCCGGACACAGAGGCTGTCGTCCTGGAAATGGGCATGGACAGAGCCGGAGAAATTTCGGTGTTGTCTCATATCGCACAGCCGGATCATGCGATTATTACAAATATCGGCGAATCCCACATCGAAAATCTGGGCACTAGAGAAGCCATCGCTGCCGCCAAACTGGAAATTACAGACGGACTGGCTGATGAAGGCTGCCTGATTATTGATGCGGATGAGCCGCTGCTTGATCATGTGAAAACAAGAGCAGGTACCATCGGATGCGGCTTTGGTACATCATGCGATTACAAAGCTGAGATTACCGGGATGACCGATGAAACTTCTACGTTCCGGCTGATGGAAGAAGACTATGAACTCCCAATGACAGGTCGTCATAATGTGAAAAATGCTTCGTTTGTCATTGCCCTTGCCAAACGTCTGGGCATGACGAAAGAGGATATTCAACAAGGGTTCCGGCAGATGCAGATGTCCGCGATGCGCTTTGAAAAACATGAGGGTTATCAGGGCTCCCTCATCATTAATGATGCTTATAATGCGTCCCCTACGTCCATGAAGGCGATGATTGAGGTCATCCGGCAGTTGACATCCAAAACAAAAAAGGTGTTAATATTAGGGGATATGTATGAGCTCGGCGGGAAATCCGAGGAGCTGCATGCTGGTGTAGCCGAAGCAGTAGACGAAAAGATTGACGCTGTCTTTACAATCGGTGTCCATTCTGAGAAAATTTCAGAGGCTGCTTCCTCCCGGTATCCGGACATGGAAGTCAAACATTTTACAGAAAAGCAACAAGCAAGTCATCATATCCGCCCGTTATTGACAGCGGATACCGTCGTACTCATGAAAGCATCACGTGGAATGAAATTGGAAGACATGCTGCCAGATCTTGTGAAGTGA	MMIFEVQELTHLFPTYKGAGADKIAVDSIMTDTRKTAPQSLFVPIVGESFDAHQFAGEAIKQGAVAALWQENRPLPDLIPTDFPVFFVKDTTKALQDLASWYLKKVDPIVVGITGSNGKTTTKDMTASVLGAKFKTHKTAGNFNNHIGLPLTVLSMLPDTEAVVLEMGMDRAGEISVLSHIAQPDHAIITNIGESHIENLGTREAIAAAKLEITDGLADEGCLIIDADEPLLDHVKTRAGTIGCGFGTSCDYKAEITGMTDETSTFRLMEEDYELPMTGRHNVKNASFVIALAKRLGMTKEDIQQGFRQMQMSAMRFEKHEGYQGSLIINDAYNASPTSMKAMIEVIRQLTSKTKKVLILGDMYELGGKSEELHAGVAEAVDEKIDAVFTIGVHSEKISEAASSRYPDMEVKHFTEKQQASHHIRPLLTADTVVLMKASRGMKLEDMLPDLVK	PGPT0024145_4116	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
AK012_00250	987	mraY	COG0472	Phospho-N-acetylmuramoyl-pentapeptide-transferase	ATGAATGAATACATACTACTGTTAACTATGGTCCTTTCATTCGCCATCACTGTAGTCATTTCGCCGATGATCATTCCATTCTTAAGACGATTGAAATTCGGTCAAAGTATTCGAGATGAGGGACCCGAGTCCCACCAGAAAAAGTCCGGCACCCCGACAATGGGCGGTGTCATGATTATCGTATCCGTAGTGATCACAACATTGATCTCATCCTATTGGTTTAACCCGGACACGGGGAACATCCAGTTGTTCCTTGTGTTATTTGTTTTGGTGGGCTACGGCCTGCTTGGCTTTTTGGACGATTATATTAAAGTAGCCTTAAAACGGAACCTCGGCTTAACGTCCAAACAGAAGATGCTCGGGCAGATCATCATTGCCCTTGTGGTTTATCTTATTCTGCGCCGGTCCGATTTCCCGACCTATATCAGTGTTCCGGGGACGTCCATTGATGTGGACCTTGGCTGGGGCTACGCCCTGCTGATTTTATTCATGCTCGTCGGAGCATCCAATGCGGTCAACTTGACGGATGGCCTGGACGGGCTTCTCGCCGGTACGGCTGCGATTGCCTTTGGTGCATTCGGAATTCTTGCGTGGACAGGACAGCTGAACGTGGAAGTCACTATTTTTTCTCTGGCTATTGTCGGTGCCCTGCTCGGGTTCCTTGTCTTTAACGCCCACCCTGCCAAAGTATTTATGGGGGATACGGGTTCCCTGGCTCTCGGCGGAGCCATTGCCATGATTGCTATTTTAACAAAAATGGAATTGATTCTCGTCGTGGTCGGCGGGGTCTTCGTCCTGGAGACCCTCTCGGTCATTATCCAGGTCATTTCCTTTAAGACAACTGGAAAACGCGTGTTCAAAATGAGTCCGCTTCACCACCATTATGAACTGAAGGGCTGGTCTGAGTGGCGTGTCGTGACGACATTCTGGGCAGTCGGACTGATTTTTGCCGTGCTTGGTATCTATATTGAGGTGATGTTTGGATGA	MNEYILLLTMVLSFAITVVISPMIIPFLRRLKFGQSIRDEGPESHQKKSGTPTMGGVMIIVSVVITTLISSYWFNPDTGNIQLFLVLFVLVGYGLLGFLDDYIKVALKRNLGLTSKQKMLGQIIIALVVYLILRRSDFPTYISVPGTSIDVDLGWGYALLILFMLVGASNAVNLTDGLDGLLAGTAAIAFGAFGILAWTGQLNVEVTIFSLAIVGALLGFLVFNAHPAKVFMGDTGSLALGGAIAMIAILTKMELILVVVGGVFVLETLSVIIQVISFKTTGKRVFKMSPLHHHYELKGWSEWRVVTTFWAVGLIFAVLGIYIEVMFG	PGPT0024105_3806	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024105-mraY-K01000	NA	NA
AK012_00251	1344	murD		UDP-N-acetylmuramoylalanine--D-glutamate ligase	ATGAAGAAGTTAAGCGGATTTCCTTATACACGTGTGCTCGTCCTCGGTCTCGCTAAAAGCGGGACTGCAGCGGCACAACTGCTGCTTGACAGCGGAGTGAAGGTAAGAATCAATGACTTTAAAGCGGATCCGGACAGCCCGGAAGTCCTCTACTTGAAGGAAAGCGGGGCGGAAGTGATTACAGGCGGTCATCCGCTATCCGTCTTGGATGACGTCGATTATGTAATTAAGAATCCCGGCATTCCATATGAGAACCCGGTGGTGGCGGAAGCGGTCAACCGCCGTCTTCCCGTCGTAACAGAAGTGGAACTGACGGGATGGCTTCACGAGGGCCCTATGATCGCAGTGACAGGTTCCAACGGAAAAACCACGACAACGACGCTGATTCATGAAATGATTCAAGCGGATCACAAGCCTGTTTCCCTGGCCGGCAACATCGGCCATGTATCCTGTGAAGTAGCGAGGAATACGTCAGAAGATGAAACCATGGTGACTGAATTGTCCTCTTTCCAGCTGCTGGGAACAGAAACTTTCCGTCCGGATATCGCTGTCTGGCTGAACCTGTATGAAGCCCATCTGGATTATCATCATACGCTGGACAATTATCATAAAGCCAAAGCCCGGATTACAAAAAACCAGACAGAAGAAGACGTACTTGTGTACAACGCGGATGATGCAGCTATTGCATCCTTCCTGCCTGATGTGAACGCGGAGCTTGTCCCTTTTTCCCTGAAGGAACAAGGAAAAGGAGCCTGGGCTGACGAGACTTTCATCTATTTTGAGCGGGAAGCCATTATGAAAAAAGAAGACATTGTTCTCGTAGGAGAGCAGAACCTGCAGAACATTCTCGCTGCTGTAGCGGCGGTAAAAGCGAACGGCATCAGAAGTGAAGCGATCGTTGAGGTGCTCTCCACATTTGCCGGGGTTCCGCACCGCCTGCAGTATGTGACAAACAAAAATGGCCGGCTTTTCTATAACGATTCAAAAGCAACGAATCTCCTGGCAACATCCTATGCACTGAGGTCCTTTGAGAAGCCTGTCATCCTTCTGGCCGGTGGTCTGGACAGAGGTACAAGCTTTGATGGTTTGATTCCTTATCTGGGCGGAGTGACATCCATGGTTGTATTTGGTGAAACCGCGGACCTGCTTGCAGGCACGGCGGCACAGGCTGGGATTTCTGACGTCGTGAAGGTGGAAACGATGCAGGAGGCTGTCAAGGAAGCCTATCAGCGCTCCCGGGAAGATGATGTCATCTTGTTGAGTCCCGCCTGTGCAAGCTGGGACCAATACAAAACGTTCGAAGAAAGAGGCCACATGTTTATAGAAGCTGTGCATACCCTTTAA	MKKLSGFPYTRVLVLGLAKSGTAAAQLLLDSGVKVRINDFKADPDSPEVLYLKESGAEVITGGHPLSVLDDVDYVIKNPGIPYENPVVAEAVNRRLPVVTEVELTGWLHEGPMIAVTGSNGKTTTTTLIHEMIQADHKPVSLAGNIGHVSCEVARNTSEDETMVTELSSFQLLGTETFRPDIAVWLNLYEAHLDYHHTLDNYHKAKARITKNQTEEDVLVYNADDAAIASFLPDVNAELVPFSLKEQGKGAWADETFIYFEREAIMKKEDIVLVGEQNLQNILAAVAAVKANGIRSEAIVEVLSTFAGVPHRLQYVTNKNGRLFYNDSKATNLLATSYALRSFEKPVILLAGGLDRGTSFDGLIPYLGGVTSMVVFGETADLLAGTAAQAGISDVVKVETMQEAVKEAYQRSREDDVILLSPACASWDQYKTFEERGHMFIEAVHTL	PGPT0024125_3379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024125-murD-K01925	NA	NA
AK012_00252	1098	ftsW_1	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGGAAACGAAAAAAAAGCCGGATCTATGGTTGGTCACTGCTATTCTCGGCATTTTGATCATGGGGATCGTTATGGTTTACAGTTCCTCCAGCATCTGGTCGGAATACAAGTTTGACGATCCATGGTTCTTTGCTAAGCGGCAGATCCTTTTTGCAGCTGCGGGATTGATAGCCATGGTCGTCCTTTCCAGGATTCCATATTATGTCTGGCATCCGCACTCAAAGAAGATCATGCTGATCTGCCTGGTTTTTCTTGCCGCTGTTCTCATTCCGGGTGTCGGGATGGTGAGAGGGGGGGCAAGAAGCTGGATTGGTGTCGGCATGTTCAGTATCCAGCCGTCTGAATTTATGAAGCTCGGGTTAATATTGTATCTCTCACGTTTTCTATCGGAACGACAGAAGAAGATGAATTCGTTCCAGGAGGGCTTTCTTCCTGCATTGGCCCTGATCCTTTTTCCTTTTGCCCTGATTATGCTGCAGCCGGATTTAGGGACAGGCGTGGTTATGGTTGGGACATGTCTTGTCATGTTGTTTACGTCCGGTGCACGGATCAGTCACTTCATGTGGATTGCAGCCGCCGGAATGGCGGGGATGATCGGATTGATTGCCTCGGCGCCTTACAGGATCAAAAGGATTACCGCTTTTCTTCATCCGTGGGAAGACCCGCTCGGGGCGGGGTTTCAAATCATCCAGTCGCTGTATGCGATCGGCCCGGGCGGTCTGCTCGGACTTGGTCTCGGTAACAGTATGCAGAAATTCTTTTATCTTCCAGAACCGCAGACCGATTTTATATTTGCTGTCCTAGCCGAAGAGCTTGGATTCCTTGGTGGTTTTTTTATCCTTTCTCTATTTTTCATCGTCCTCTGGAGGGGGATCCGCACAAGCCTGCTGGCTCCGGATTTGTTCGGCTCGCTGCTTGCTCTGGGTATTGTCGGGATGGTCAGTATCCAAGTGATGATTAACGTCAGTGTTGTCACGGGTCTGATTCCTGTAACCGGCATCACCCTGCCGCTTGTCAGTTATGGCGGATCTTCCCTGACTTTGACGCTGGCTTCACTTGGACTGCTGCTCAGCGTGAGCCGCTATTCCAGCCGTTGA	METKKKPDLWLVTAILGILIMGIVMVYSSSSIWSEYKFDDPWFFAKRQILFAAAGLIAMVVLSRIPYYVWHPHSKKIMLICLVFLAAVLIPGVGMVRGGARSWIGVGMFSIQPSEFMKLGLILYLSRFLSERQKKMNSFQEGFLPALALILFPFALIMLQPDLGTGVVMVGTCLVMLFTSGARISHFMWIAAAGMAGMIGLIASAPYRIKRITAFLHPWEDPLGAGFQIIQSLYAIGPGGLLGLGLGNSMQKFFYLPEPQTDFIFAVLAEELGFLGGFFILSLFFIVLWRGIRTSLLAPDLFGSLLALGIVGMVSIQVMINVSVVTGLIPVTGITLPLVSYGGSSLTLTLASLGLLLSVSRYSSR	PGPT0014810_4688	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
AK012_00253	921	divIB		Cell division protein DivIB	ATGGAAGAAAGAAAAGTGGTTTCCATAGAAGACCGTATACCAAAATTGAAACAGACGAGGCGTAAAAAAGCCAACCGCCGTTTAATCTTATACTTAACGATTTTATTTTTTCTAATTGCTGCTGTCGTTTATCTGCAGTCTCCACTCAGTAATGTCCGGAGTATCACCGTGGAAGGGGAGTACCATGTCTCTGCAGAGGAAATCCAGACGCTTGCCGGAATCACGACCGAAACGAATTACTGGAGGATTGATCCGGAAGCATTAAAGGAAAAGATTGAATCCCACGAGGAAATTACTTTTGCTTCTATAGACCGGTCCTTTCCAAACAATGTAACCATCGAAGTAGAGGAAGCGGCACGGATTGGATATGTACAGAGCAATGGTCGGTACGATGTCATTATGGAAGACGGTTCAAGGCTGGAGGAAGAAACAGCCCTCCCTGGTGGAGACGCTCCGGTTTTAGCAGGATTCAATAAGGAAACCTATCTGAAGGAAATGTCCAGGGAATTAAAGGAACTTCCTTCAAGTGTGTCTGACTTGATTTCAGAGGTTCACTGGGAGCCCGAAGACGGGAATCCTTATAAAATCCGCCTGTATATGAATGATGGGTACCAGGTGGAAGCATCCATCCGGACATTCTCAGAAAAAATGCCGGCCTATCCTTCGATTGCCGCACAGCTGGAAGAGGGGGCGGAAGGCATCATTCATATTGATGTAGGGGCCTACTTTGAAGAATTCAATGCTGCTGAAGGCAGTGAAGAGAATGCCGGAACCGGTGAATCCTCCGGTTCCGGTGTGGAAAGTGAAGAATCGGTTGAAGAGAGTGGACAGCCGTCCGGAGAACCGGAGCAGGAAGAGCCATCCGCTGACCCTGAGCGTTCACAGGAACCGGTCGTCGACGAACCTTTAAGACAGGAGTAA	MEERKVVSIEDRIPKLKQTRRKKANRRLILYLTILFFLIAAVVYLQSPLSNVRSITVEGEYHVSAEEIQTLAGITTETNYWRIDPEALKEKIESHEEITFASIDRSFPNNVTIEVEEAARIGYVQSNGRYDVIMEDGSRLEEETALPGGDAPVLAGFNKETYLKEMSRELKELPSSVSDLISEVHWEPEDGNPYKIRLYMNDGYQVEASIRTFSEKMPAYPSIAAQLEEGAEGIIHIDVGAYFEEFNAAEGSEENAGTGESSGSGVESEESVEESGQPSGEPEQEEPSADPERSQEPVVDEPLRQE				NA	NA	NA	NA	NA
AK012_00254	1296	ftsA	COG0849	Cell division protein FtsA	GTGAATCAAAATGAAATACTAGTAAGTTTAGATATAGGCACAAGTCGAATTAAAGTAATCATTGGTGAAATTATGAATGACAGCCTCAACATCATTGGGGTTGGTACAGCGAAATCGAATGGGATGAAAAAAGGAGCGATCGTGGATATCGATCAAACCGTTCATTCGATTCGATCAGCCGTCGAACAGGCGGAACGTATGGTGGATATGAAAATCGACCGTGTCGTCGTAGGCGTCAACGGCAATCATATACAACTGCAGCCGTGTCATGGAGTTGTGGCGGTTTCCAGTGAAACGAGAGAAATCGGCAACGAGGATATAACAAGGGTGATTGATGCTGCCCAGGTCCTCTCCATTCCGCCGGAGCGGGAAATCATCGATGTGATCCCGCGTCAGTTTATTGTTGATGGTCAGGATGAAATTACAGACCCACGTGGTATGATCGGTGTCCGTCTTGAAATGGAAGGCATGATTATAACCTGCGCGAAAACCGTTTTACATAATACACTCAAATGTGTGGAACGAGCAGGACTGGAAGTGCTTGATGTATGTCTGCAGCCTCTTGCCTCCGGAACCGTATCCCTGTCCAGCGACGAGACGAATCTCGGCGTTGCGCTGATTGATGTAGGGGGCGGATCGACTACGATCTCTGTGTTTGAAGAGGGTCACTTGAAAGGTACGAGCATGATTCCTTTCGGCGGCGATAACCTTACCAAGGATTTATCCATTGGTCTGCGTACATCAACGGAAGAAGCGGAACAGGTGAAAGTGGAACATGGACACGCTTTTTTTGATGATGCGAACGAAGATGAAAATTTTTCCGTCACAATTATTGGCAGTAATCGTCAACAGGCATTCAATCAATTGCAAATCTCTGATATGATTGAAGCTAGACTAGAAGAAATTTTCGTCTTTGCAGCACAGGAACTTCAGAAAATGGGTGTTCGTGAATTACCAGGAGGTTTTGTGCTCACCGGTGGTACGATGAATATGCCGGGAGTGCTTGAGCTTGCCCAGGATGTATTCCACGCTAACGTCAGACTGGCTATCCCTGACTATATCGGTGTTCGTGAACCGCAGTTTACGAGCGGCGTAGGCATCTTGCAATTCGCCTATCGTAATGCGAAAATACAAGGAAAAGAGATATTTCCTTCTGTCTCAGATGAACTTCAGGAAAGACCACAGCCGAAAAAGCAGAAGCGTTCGGCAAAACCACAGCCTAAAGAAGAAAAAGAAAAAACAGAAAAGAAAAAAGAGTCAGGCTTCAGCAATCTCTTAAAGTATTTCTTTGATTAA	MNQNEILVSLDIGTSRIKVIIGEIMNDSLNIIGVGTAKSNGMKKGAIVDIDQTVHSIRSAVEQAERMVDMKIDRVVVGVNGNHIQLQPCHGVVAVSSETREIGNEDITRVIDAAQVLSIPPEREIIDVIPRQFIVDGQDEITDPRGMIGVRLEMEGMIITCAKTVLHNTLKCVERAGLEVLDVCLQPLASGTVSLSSDETNLGVALIDVGGGSTTISVFEEGHLKGTSMIPFGGDNLTKDLSIGLRTSTEEAEQVKVEHGHAFFDDANEDENFSVTIIGSNRQQAFNQLQISDMIEARLEEIFVFAAQELQKMGVRELPGGFVLTGGTMNMPGVLELAQDVFHANVRLAIPDYIGVREPQFTSGVGILQFAYRNAKIQGKEIFPSVSDELQERPQPKKQKRSAKPQPKEEKEKTEKKKESGFSNLLKYFFD				NA	NA	NA	NA	NA
AK012_00255	1167	ftsZ	COG0206	Cell division protein FtsZ	ATGTTAGATTTTGATACAAGCATGGATCAGCTGGCAACTATTAAAGTAATCGGTGTAGGAGGCGGCGGAAGCAACGCTGTCAACCGGATGATTGAACATGGAGTCCAGGGTGTGGAATTTATCGCTGTCAATACAGACGCCCAGGCATTGAACTTATCTAAAGCAGAAGTGAAAATGCAGATTGGTGGAAAATTGACACGCGGACTTGGCGCCGGAGCCAACCCGGAAGTCGGCCGCAAAGCGGCTGAAGAAAGCAAAGAGCAGATTGAAGAAGCTCTTCAAGGGGCCGACATGGTCTTTGTTACCGCTGGAATGGGCGGAGGAACCGGTACCGGTGCAGCTCCTGTCATCGCACAAGTCGCTAAAGAGCTGGGCGCACTGACAGTCGGAGTTGTGACACGTCCATTTACGTTTGAAGGGCGCAAACGCTCTACACAGGCTACAGGCGGAATCGAAGGCTTGAAAGGCGCGGTAGACACATTGATTGTGATACCGAACGACCGCCTTCTTGAGATTGTAGATAAGAATACACCAATGCTGGAAGCCTTCCGTGAGGCAGATAACGTCCTTCGTCAAGGTGTACAGGGGATTTCCGACTTGATCGCCGTTCCTGGTCTGATCAACGTGGACTTCGCCGACGTGAAAACGATCATGGTGGACAAAGGCTCTGCCTTGATGGGTATCGGTATTGCTACAGGGGAAAGCCGTGCAGCAGAAGCTGCTAAAAAAGCGATTTCCTCTCCGCTTCTTGAAACATCCATTGATGGGGCCCACGGGGTGCTGATGAACATCAGTGGAGGTGCGAACCTGAGCTTGTACGAAGTACAGGAAGCCGCTGATATTGTAACATCAGCCGCTGATCAGGAAGTAAACGTCATCTTCGGTTCTGTTATCAATGAGAACCTTAAAGATGAAATTGTTGTGACGGTCATTGCAACCGGATTTGACGAGTCTCAGCTGGCTCAGGGACAGCAGAAAAAGCGCCCTCAGATCAACCAGCAGAAACCGGCTCCTCAACAGCAGCAGCAGCCGGAACGCGAACGCAGTACGGTTCGTGAAGAACAACCGCGTCGTGAAGCACCTCAGCCACAGCAGAAAGGGAATACACAGGAAGAAGATACCCTGGATATTCCAACATTCCTAAGAAATCGTAACCGCCGCCGCTGA	MLDFDTSMDQLATIKVIGVGGGGSNAVNRMIEHGVQGVEFIAVNTDAQALNLSKAEVKMQIGGKLTRGLGAGANPEVGRKAAEESKEQIEEALQGADMVFVTAGMGGGTGTGAAPVIAQVAKELGALTVGVVTRPFTFEGRKRSTQATGGIEGLKGAVDTLIVIPNDRLLEIVDKNTPMLEAFREADNVLRQGVQGISDLIAVPGLINVDFADVKTIMVDKGSALMGIGIATGESRAAEAAKKAISSPLLETSIDGAHGVLMNISGGANLSLYEVQEAADIVTSAADQEVNVIFGSVINENLKDEIVVTVIATGFDESQLAQGQQKKRPQINQQKPAPQQQQQPERERSTVREEQPRREAPQPQQKGNTQEEDTLDIPTFLRNRNRRR	PGPT0027695_4242	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
AK012_00256	810	spoIIGA		Sporulation sigma-E factor-processing peptidase	ATGGCTGCCGGAGCTCTTGCAGCATCGCTCATAGTGCCGGTGACCATTTATATGCCCGACTCATGGCTGGTGGGCAGTACAGGGAAAATAATCTTTTCCATGGGCATCGTTCTTACTGCCTTTACCTTTACCTCCCTCCGGGCTTTTTTCGTCCAGTGGGTTACGTTTTATTTCGTAACCTTTGCCATTGGAGGCAGCATGATGGGGGTTCATTTCTTTCTGGCTTCCGAAGTGGACGTTCTGAAAGGAGCGGTGGTCACGTTCAGCGGCGGGTACGGGGATCCGGTAAGCTGGCTGTTTGTAGCTGCCGGGTGTCCATCGGCTTATGTATTTACTAAATGGCGGTTCAACCAGATTCAAATTCACCAATTGAAATATGAGGATGTTTATGAGGTGGAAATGGCGTGGAACGGTCAAACCGCTGTGTGCAAAGGACTTGTGGACAGTGGAAACCAGCTGATCGATCCAGTCAGCAGAAAAATGGTTTTTCTCGCTGATCCCTCGGTCTGGAAACAGCTTTTGGCAGAAGGAGAACTGGAGCAGTTAACGGAAGAAGAAGTGCTTGCTTCTCTTCATGAACTGCCGGAAACCATCCAATCTGCCGTGCGGCTCGTTCCTTATCAGGCCGCTGGGATCTCCGGCAGGCTTCTCGTTACACTCATGATTGATCAAATCACAGTGAAGACGAATGAAGGTCCGCTCGTGATCAAACAGCCTCTCGTCGGCGTCCAGCATCAACCGTTAACACGTGACGGACTCTATCAAATGCTGATTCACCCCCATGTCATGGTCAAAGGAAAATCTGCGTAA	MAAGALAASLIVPVTIYMPDSWLVGSTGKIIFSMGIVLTAFTFTSLRAFFVQWVTFYFVTFAIGGSMMGVHFFLASEVDVLKGAVVTFSGGYGDPVSWLFVAAGCPSAYVFTKWRFNQIQIHQLKYEDVYEVEMAWNGQTAVCKGLVDSGNQLIDPVSRKMVFLADPSVWKQLLAEGELEQLTEEEVLASLHELPETIQSAVRLVPYQAAGISGRLLVTLMIDQITVKTNEGPLVIKQPLVGVQHQPLTRDGLYQMLIHPHVMVKGKSA	PGPT0024680_127	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024680-spoIIGA-K06383	NA	NA
AK012_00257	720	sigE	COG1191	RNA polymerase sigma-E factor	ATGTTCAAGTGGCTGTTCAGAGCGCGCCTCTGGTATTACCGGTTGTTAATGAAGCTCGGGATCAAGCAGGATGAAATTTACTATATCGGTGGCAGTGAGGCACTTCCACCGCCCCTTTCCAGAGAAGAAGAAAAAGAGCTTCTGGAGCGTCTTCCGAAAGGGGACAAAGCTGCCAGGGCTATGCTGATTGAGAGGAACCTGCGTCTTGTCGTTTATATTGCCAGAAAGTTTGAAAACACAGGGTTAAATATAGAAGATCTGATCAGCATCGGGACCATAGGACTGATCAAGGCAGTGAACACGTTTGACCCGGAGAAAAAGATCAAGCTTGCCACCTATGCCTCCCGCTGTATTGAAAATGAAATTCTGATGCACCTGAGGAAAAGCAATAAACTGAAAACCGAAGTTTCCTTTGATGAGCCGCTGAATGTCGATTGGGACGGCAACGAACTGTTATTATCCGATATTCTTGGAACGGAAGAAGATCTGATTACGAAAGGGATCGAAAAGAAAATCGATAAAAAACTGCTCAAATCAGCACTCGAACAGTTGAACGAACGTGAAAAACAGATTATGGAGCTGCGCTTCGGGCTGATAGGCAAGAAAGAGAAAACCCAGAAAGATGTAGCCGATATGATGGGGATTTCCCAGTCATATATATCAAGGCTTGAGAAGAAAATCATCCGCCGACTGCAGCGGGAGTTCGATAAAATGGTCTAA	MFKWLFRARLWYYRLLMKLGIKQDEIYYIGGSEALPPPLSREEEKELLERLPKGDKAARAMLIERNLRLVVYIARKFENTGLNIEDLISIGTIGLIKAVNTFDPEKKIKLATYASRCIENEILMHLRKSNKLKTEVSFDEPLNVDWDGNELLLSDILGTEEDLITKGIEKKIDKKLLKSALEQLNEREKQIMELRFGLIGKKEKTQKDVADMMGISQSYISRLEKKIIRRLQREFDKMV	PGPT0014795_1131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
AK012_00258	780	sigG	COG1191	RNA polymerase sigma-G factor	TTGACACGACATAAAGTAGAGATATGCGGCGTAGATACATCAAAACTTCCGGTACTGAAAAACACAGAAATGAAAGACCTGTTTGTACGACTGCAGAGTGGAGAGCTTGAAGCCAGGGAACAGCTGGTGAATGGTAACCTCCGCTTAGTTTTGTCCGTGATTCAACGCTTTAACAATCGTGGAGAATATGGGGACGATTTATTCCAAGTGGGATGCATCGGCCTTATGAAGTCCATAGATAACTTCGATCTCAGTCACAATGTCAAATTTTCCACCTATGCTGTACCTATGATTATCGGAGAAATCCGAAGATATTTAAGAGACAATAATCCGATCCGTGTTTCACGGTCCCTTCGTGATACAGCCTACAAGGCCCTGCAGATGCGGGAGAAGATGATCAGTGAAACGAATAAGGATCCGGCGCCACATGAAATCGCCGATCGGATGGGTGTTCCTCACGAAGATGTTGTATTCGCCATGGACGCTATTCAGGATCCGGTCTCTTTATTTGAGCCGATCTACAATGATGGGGGCGACCCGATCTTTGTGGTGGATCAGCTGAAGGATGATCGTGAGAAAGATACCGTATGGATTGATGAGCTGTCTTTGAGGGAAGGAATGAAAAAACTGAACGACAGGGAAAAGATGATTTTGACCAAGCGCTTCTTTCAGGGAAAGACCCAGATGGAAGTGGCAGAGGAAATCGGAATCTCCCAGGCGCAGGTGTCGAGGCTTGAAAAAGCTGCGATTAAAGAAATGAATACATCCATGTTTCAATAA	MTRHKVEICGVDTSKLPVLKNTEMKDLFVRLQSGELEAREQLVNGNLRLVLSVIQRFNNRGEYGDDLFQVGCIGLMKSIDNFDLSHNVKFSTYAVPMIIGEIRRYLRDNNPIRVSRSLRDTAYKALQMREKMISETNKDPAPHEIADRMGVPHEDVVFAMDAIQDPVSLFEPIYNDGGDPIFVVDQLKDDREKDTVWIDELSLREGMKKLNDREKMILTKRFFQGKTQMEVAEEIGISQAQVSRLEKAAIKEMNTSMFQ	PGPT0014795_212	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
AK012_00259	276	ylmC	COG1873	putative sporulation protein YlmC	ATGAAAATCACCGAACTGCAGATGAAAGACGTCATCGCCATGGAAACCGGAGAACGTCTCGGATATATCAGCGACCTGGATATTGATACGCAGCGGGGCCGCTTGAAAGGAATTGTGCTGACGTTGAAAGGAAAGGCTATGGGTCTGTTTGGAAAAGAAGAAGAGATGATCATCCCGTGGGACCAGATTGTCAACGTAGGTGCGGACGTCATATTAGTAAAAAAGTCTGCTTACAAAGGTCTGCCGGCAGTCCAAAAGACAGATTCAGCAGAATAG	MKITELQMKDVIAMETGERLGYISDLDIDTQRGRLKGIVLTLKGKAMGLFGKEEEMIIPWDQIVNVGADVILVKKSAYKGLPAVQKTDSAE				NA	NA	NA	NA	NA
AK012_00260	798		COG1496	Polyphenol oxidase	ATGGAACCCTTCAAACAACAATCAACAAGACAGCTGTCCTGTTTCCATCAGTATCCTGAAATCATTTCCGGGATAACGACACGGAACGGAGGGCTCAGCCGCGGTTCTTATGCATCCATGAATATGGGGCTCCATGTCCAAGATGAACAGGACCTGGTCATTGAAAACCGTAAGCTTCTTGCGGATGAAATCGGTATACCATTGTCCCGGTGGGTCATTGGTGAGCAGGTTCACGGCACAGAAGCAGCTGATGCCGGCTCCCAGCCGGCGGGTGCTGGTTCCGAGTCACTGGATACAGCTGTTGCCGGTGTGGACGGGCTGATCACAAATGAAAAGAACCTGGTTCTCGGAGCTTTTTATGCCGATTGTGTCCCCCTTTATTTTTTCGATCCTGAATCCCAGTGGATTGGGATTGCTCATGCGGGATGGAAAGGCACCGTCCATGGGATGGCCGGCCGGATGATTTCCGCTCTGGAGGAGAAAGGTTGTTCCAGGGAGGATATACAGGTGGTCATCGGTCCATGCATCAGTCGGGAGCACTATGAAGTGGACGATAACGTCATTCGTCATATACCGAAGCACTATCATGAATCATGTGTATCGGAAAAAGGCGGAAGCAGGTATCAGCTGGACTTGAAAGAACTGAATAGACAAATGTTAATGGAAATGGGAATGCAGGAATCCGCTGTTCAGGTTTCCAGTGCATGTACATATGAGAAGGAAGATCAGTTTTACTCCCATCGCCGCAATCAGGGAAAAACAGGGCGGATGCTCGGTTTTATTGCTTTGAAAGCGTAA	MEPFKQQSTRQLSCFHQYPEIISGITTRNGGLSRGSYASMNMGLHVQDEQDLVIENRKLLADEIGIPLSRWVIGEQVHGTEAADAGSQPAGAGSESLDTAVAGVDGLITNEKNLVLGAFYADCVPLYFFDPESQWIGIAHAGWKGTVHGMAGRMISALEEKGCSREDIQVVIGPCISREHYEVDDNVIRHIPKHYHESCVSEKGGSRYQLDLKELNRQMLMEMGMQESAVQVSSACTYEKEDQFYSHRRNQGKTGRMLGFIALKA	PGPT0019965_1056	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
AK012_00261	675	yggS	COG0325	Pyridoxal phosphate homeostasis protein	ATGTCTGTAGCAGAAAATCTGGCACAAATTAAAGAAAATATTGAGCAGGCCTGCCAAAGGTGCGGTCGTGATCCCAAGGAAGTATCCATTGTAGCTGTTACGAAATATGTGTCTGCCGAACGCGCACAGGAAGCGTTGGATGCTGGTCTCTGCAACCTTGGGGAGAACCGGAAGGAAGGACTGCTCGAAAAATATGAAGCCATCGGCGCTGAAGCCACCTGGCATTTTATCGGGTCGCTGCAGTCACGGAAAGTGAAGGAAGTCATCGATTATGTGTCGATGATCCATTCCTTGGACAGGCGCTCACTCGCAAAGGAAATTGATAAGAGAGCCTCCGCGACTGTGCCGTGCTTTGTTCAGGTGAACATCAGCGGAGAGGACTCGAAGCATGGACTGCCTGCCTCTGAAGTAGAAGGTTTTGTAGAAGCAATGGAAGCCTTCCCTAATGTCAAAATCGTCGGACTGATGACAATGGCCCCGCATATTGAAGATGAAGAGCGGCTGCGCGGCGTGTTTCGTCAGCTGCGGGCCTTAAGGGACCGCATCAGGAATAAAGGGTACGCCCACGCCCCGTGTGAATATTTGTCCATGGGAATGAGCAATGATTATGCGCTGGCGGTAGAAGAGGGAGCTACCCACATACGATTGGGTTCCTGTCTTGTCGGCGGACAATAA	MSVAENLAQIKENIEQACQRCGRDPKEVSIVAVTKYVSAERAQEALDAGLCNLGENRKEGLLEKYEAIGAEATWHFIGSLQSRKVKEVIDYVSMIHSLDRRSLAKEIDKRASATVPCFVQVNISGEDSKHGLPASEVEGFVEAMEAFPNVKIVGLMTMAPHIEDEERLRGVFRQLRALRDRIRNKGYAHAPCEYLSMGMSNDYALAVEEGATHIRLGSCLVGGQ				NA	NA	NA	NA	NA
AK012_00262	447	sepF	COG1799	Cell division protein SepF	ATGAGCATGAAAAATAAATTCCGTTCATTTTTTACGTTAGACGATGAATATGAATATGTTGAAGAAGAAGTCGAAGAGGAGGATGAAGAGTCTCATCAGCCGCAGCGCAGCGCGAAGAAGCAGGACGGTACGAATATCGTCAGCCTGAAAAGTGCCAAATCTTCATCCAAAATGGTCTTAAGTGAACCGAACAGCTATAATGAGGCACAGAATATTGCGGATCAGCTGGTCAGCCGGCGCGCCGTTGTCATCAATCTTCAACGTGTGGATCATAATCAGGCGAAGCGGATAGTAGATTTTTTAAGCGGAACCGTATATGCTATAGGTGGAGACATTCAAAAACTAGGTTCACAAACCTTCCTCTGTACACCGGATAATGTAGAAATATCCGGATCGATCTCTGATATTATGGCAGCAGAAGAAGAGGACTTGAACAGAAGGTGGTAA	MSMKNKFRSFFTLDDEYEYVEEEVEEEDEESHQPQRSAKKQDGTNIVSLKSAKSSSKMVLSEPNSYNEAQNIADQLVSRRAVVINLQRVDHNQAKRIVDFLSGTVYAIGGDIQKLGSQTFLCTPDNVEISGSISDIMAAEEEDLNRRW				NA	NA	NA	NA	NA
AK012_00263	270			hypothetical protein	ATGGCTTTTGTTTTTAACATTTTAACGACAGCACTACAATTATACAGCTGGATTTTAATCATTTACATCCTGCTTTCCTGGTTTCCCGGAGCGCGTGAATCCAGCTTTGGGCAGATTCTGGGCCGGCTGGCCGAACCGTTTCTTGAGCCCTTCCGGAAAATCATTCCCCCGCTTGGGATGATTGATCTTTCCCCGCTGGTGGCTATTATCGTTCTGCGGTTTGCTTCACAGGGACTGAATCAACTCTACTGGATACTTGCAGGGTTATAA	MAFVFNILTTALQLYSWILIIYILLSWFPGARESSFGQILGRLAEPFLEPFRKIIPPLGMIDLSPLVAIIVLRFASQGLNQLYWILAGL	PGPT0013730_3276	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
AK012_00264	774			hypothetical protein	ATGGACATTTACCAGCATTTCAGAAAGGAAGAGCATTCGTTCATCGACCAGGTCATCTCCTGGCGGGAGGATGTAGCTTTAAAGTACCAGAGGCGGTTATCCGATTTCCTTGATCCGCGTGAACAAATGATCGTCAAGGCGGTTATGGGTAATGATGCGGATTTGATCTACCAGCTTGAAGGCGGTGCTGAGGACAGTGAGCGGAAGCGGGCGGTCATTGCGCCGGACTATGAGCAGATTGACAAGGAAGATTTTCAGCTGACTCTTCTTCAGGCCGATTACCCTGTGAAGTTTGTAGCGTTGGAACACCGCGATGTCCTTGGTGCATTTATGTCGCTCGGCATCCGCCGGGAAAAAATCGGGGATGTCGTCGTGAAGGATGGAACGATTCAGCTGACAGCTGCTTCGGAGATCAGCGATTATATCAAAATGAATTTGACAGGGATTAAACGTTCAACCGTCGAATTCAAGGACGTTCCATGGACGGAGCGCATAGGAAGTGATGAAACGTGGACAAAAAAAGAAACAACCGTCTCATCGCTCCGTCTGGATGTGATCGTCAAAGAAATCTACGGCATGTCCCGAAAGAAAGCCGGCCTTTTTATCGAAGGCGGTCATGTGAAAGTGAATTTCAGGACGGTGGAGGACGGAGCATTTTCTCTGGAGGCGGGGGATTTGATCTCTCTCAAGGGAAAAGGACGGAGCCGTCTTGATGAAGTAACAGGACAGACGAAGAAGGAAAAATACAAAATTGTAACAGCCCGGTTGAATTAA	MDIYQHFRKEEHSFIDQVISWREDVALKYQRRLSDFLDPREQMIVKAVMGNDADLIYQLEGGAEDSERKRAVIAPDYEQIDKEDFQLTLLQADYPVKFVALEHRDVLGAFMSLGIRREKIGDVVVKDGTIQLTAASEISDYIKMNLTGIKRSTVEFKDVPWTERIGSDETWTKKETTVSSLRLDVIVKEIYGMSRKKAGLFIEGGHVKVNFRTVEDGAFSLEAGDLISLKGKGRSRLDEVTGQTKKEKYKIVTARLN				NA	NA	NA	NA	NA
AK012_00265	525	divIVA	COG3599	Septum site-determining protein DivIVA	GTGCCTTTAACACCATTGGATATTCATAACAAAGAATTCACCCGGGGCTTCCGTGGGTATGACGAAGATGAGGTGAACGAATTTCTTGATCAGGTCATCAAAGATTATGAAATCGTCATCCGTCAAAAGAAAGAACTGGAGCGGGAAGTGAATCAGCTGAATGAGAGGCTTGGTCATTTCAATGATATCGAAACCACATTGAATAAATCCATCCTTGTTGCCCAGGAGACGGCCGAAGACGTGAAGACCAGTGCCAACAAAGAGTCGAAACTCATTATTAAGGAAGCGGAAAAGAACGCTGACCGTATAATCAATGAAGCACTGGAGAAATCACGCCGGATCTCCATTGAAGTCGAGGATATGAAAAAGCAGGCCAAAGTGTTCAAAACAAGGCTCCGTATGCTTGTAGAAGCACAGATAGATATGATCGAAAATGATGACTGGGATCATCTGTTTGATACAGAGATTGACAATGAGCAGGAAGTGGAGCGGAAAATGGAACAGGAGTACAGCTCCCAGCCATAA	MPLTPLDIHNKEFTRGFRGYDEDEVNEFLDQVIKDYEIVIRQKKELEREVNQLNERLGHFNDIETTLNKSILVAQETAEDVKTSANKESKLIIKEAEKNADRIINEALEKSRRISIEVEDMKKQAKVFKTRLRMLVEAQIDMIENDDWDHLFDTEIDNEQEVERKMEQEYSSQP	PGPT0014805_592	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014805-divIVA-K04074	NA	NA
AK012_00266	474	lspA	COG0597	Lipoprotein signal peptidase	ATGTATGTGTATTATCTGACAGCCTTGGTGCTGATCATTCTGGACCAGTGGACGAAGTATCTGGTCGTTACCAAAATGGAAATAGGGCAGAGCATCCCGATTATCGAGAATTTCTTCTATTTGACGTCGCATCGGAACCAAGGGGCGGCCTGGGGAATTCTACAGGGACAAATGTGGTTTTTTTACATTATTACGGTTGTCGTTATTGGATTTGTCATCTACTACCTTCAGCAGATGGGGAAACAGAGCCGCCTCGTAGGAACGGCCCTCTCCTTGATTCTGGCTGGAGCTGTGGGCAACTTCATTGACCGTATTTTCCGGAAGGAAGTCGTGGATTTTGCCAACACGTATATTTTCACGTATGATTTCCCCATTTTTAATGTCGCCGATTCGGCGCTCGTCATCGGTGTTGCGTTCATTATGATCGCTGCTTTTTTAGACGAGCGTAAAAAGAAAGGAAGTTTAGAATCTTGA	MYVYYLTALVLIILDQWTKYLVVTKMEIGQSIPIIENFFYLTSHRNQGAAWGILQGQMWFFYIITVVVIGFVIYYLQQMGKQSRLVGTALSLILAGAVGNFIDRIFRKEVVDFANTYIFTYDFPIFNVADSALVIGVAFIMIAAFLDERKKKGSLES	PGPT0004770_4367	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004770-pbrB|pbrC-K03101	NA	NA
AK012_00267	912	rluD_1	COG0564	Ribosomal large subunit pseudouridine synthase D	TTGAGTGAACAATACCACGTAACAGAAAAAGACCAATCCACCCGGATTGATAAATTATTAACAGAAGTCATTGAAGATGTGTCCCGGTCCCAGATTCAAGGGTGGCTGAAGGATGATGTCATTCTTGTGGATGGGAAAGCTGTAAAAAGTAATTATAAGGTTCAGGAAGGCGAAACCATTACATGGCATGTTCCTGAGCCGGAGCCTATGGATATTCTTCCGGAGGATATGAACTTGCACGTTGTATATGAAGACTCCGACGTGATTGTCGTCAATAAACCTTCAGGGATGGTCATCCACCCGGCTGCTGGTCACTATTCCGGCACACTCGTCAACGGGCTGCTTCATCATTGTACTGATCTATCCGGCATCAACGGAGTGGAGCGTCCGGGAATCGTCCATCGCATTGACAAGGATACGAGCGGGCTCCTTATGGTGGCTAAAAATGATAAAGCCCACCGATCGCTCGCTGACCAGCTTTCCAAAAAAACGGTGGAGCGGAAGTATGAAGCAATCGTCCACGGGGAAATCAGTCACGAATATGGAACCATTGATGCCCCGATCGGCCGTGATCCCAAGGACCGCCAGAAGATGACCGTCGTCGACGGGGGCCGTGATGCGGTGACGCATTTCCGGGTCATTCGGCTGTTTAACGATTTCACCCATGTTGAATGCAAGCTTGAAACGGGGCGTACCCATCAGATCCGTGTCCATATGCGCTACATCAGCCATCCGTTGGCTGGTGATCCGAAATACGGTCCGCGGAAGACCCTGGACCTTGATGGTCAGGCGCTTCATGCCAAAGTGCTTGGTTTTGAGCATCCTTCAACGGGGGAGTGGATGCACTTTGAAGTGGACCCTCCTCAGGAATTTGCGGATGTGCTCCGTGAACTTGAACTTCGGGAAGGGTAA	MSEQYHVTEKDQSTRIDKLLTEVIEDVSRSQIQGWLKDDVILVDGKAVKSNYKVQEGETITWHVPEPEPMDILPEDMNLHVVYEDSDVIVVNKPSGMVIHPAAGHYSGTLVNGLLHHCTDLSGINGVERPGIVHRIDKDTSGLLMVAKNDKAHRSLADQLSKKTVERKYEAIVHGEISHEYGTIDAPIGRDPKDRQKMTVVDGGRDAVTHFRVIRLFNDFTHVECKLETGRTHQIRVHMRYISHPLAGDPKYGPRKTLDLDGQALHAKVLGFEHPSTGEWMHFEVDPPQEFADVLRELELREG				NA	NA	NA	NA	NA
AK012_00269	543	pyrR		Bifunctional protein PyrR	ATGAATCCGAAAGCCACGGTTCTGGACGATGCAGCCATCCGGCGGGCACTCACCAGAATCTCCCATGAAATCATTGAGAAAAACAAAGGTGTTGAAGATCTTGTACTCGTCGGGATAAAAACACGCGGTGTTCCCATCGCCCGGAGGATCAAGAGTAAAATATCTGAAATTGAAGGCCGGGAACTGCCGGGGGGAGAACTGGACATCACCTTATACCGTGATGATCTCACTCCTGAAAAGCAGACGTCCGAACCGGAATTAAAAGAAACCAATATTGAAACGGATATTGATGGAAAGAAAGTCATTCTCGTTGACGATGTCCTTTATACAGGGCGGACGGTGCGTGCCGCAATGGACGCGCTGATGGATCACGGGAGACCGAAGGAAATCCAGCTCGCTGTTCTCGTCGACCGGGGACACAGGGAACTGCCTATCCGGGCGGATTATGTCGGCAAGAACGTGCCCACCTCCCTGGAGGAAGTCATCACTGTGACGCTTGCTGAAACGGATGAGAAAGACGAAGTGAAAATCTTCGAAAGATAA	MNPKATVLDDAAIRRALTRISHEIIEKNKGVEDLVLVGIKTRGVPIARRIKSKISEIEGRELPGGELDITLYRDDLTPEKQTSEPELKETNIETDIDGKKVILVDDVLYTGRTVRAAMDALMDHGRPKEIQLAVLVDRGHRELPIRADYVGKNVPTSLEEVITVTLAETDEKDEVKIFER	PGPT0021245_1278	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021245-pyrR-K02825	NA	NA
AK012_00271	1389	pyrP		Uracil permease	ATGGAAAAACATCAACCAGCATTAGACATTCATGAAGTTCCGGCCGCCGGGAAGTGGCTCACCTTAAGCCTGCAGCACTTGTTCGCCATGTTCGGTGCCACGATCCTTGTCCCATTTCTGACAGGACTTTCCCCAGCCGTCGCTTTAGTATCCAGCGGATTCGGAACACTTGCCTATCTGCTCATTACAAGAGGAAAGGTCCCGGCCTATCTTGGCTCCAGCTTTGCTTTTATTTATCCCATTATTGAAGTATCAAAAACGAGCGGAGCAGCCGGAGCCATGGTCGGAAGCTTTCTGACAGGTCTTGTATACGGGGCGGTCGCCCTTCTGATCTCGGTGTTTGGGACCAAATGGCTGATGAATCTGCTTCCGCCGATTGTCGTCGGGCCGGTCATCATCGTCATCGGCCTTGGACTGGCTTCCACAGCCGTCGATATGGCTATGTACCTGCCCGGGCCGGAAGAGAATGTATACAGCAGTGTGCACTTGACGACAGCGCTTGTCACCTTGGGATTAACGGTCATGGCATCCATCTTTTTCAGAGGGTTCTTCTCCCTGCTGCCCATCTTATTCGGTATCGTCGGCGGATACATCTTCGCTCTATTCCAAGGCATTGTGGATACAAGTACCATTCAAGCGGAATGGCAGGCGCTCACTTCAGCAGATTCCGTGACAGGGTTCTTTGGAGCGTTCTTCCAAGTCCCTGACTTCATCGTTCCCTTTGTGGACTTCAGTCCATGGGAAGTGTTGAGCTGGGAGATTGCCTTCCTGATGGTGCCTTTTGCCCTTGTTACAATCACAGAACATACGGGGGATCAAATGGTGCTTTCCAAAGTGGTCGGCAGGAACTTTTTGAAAAATCCAGGTCTTGATAAGTCGATTCTCGGTGATGGTGCGGCCACCATGATTGCTTCCTGCCTGGGAGGCCCGCCGAATACAACGTATGGAGAAAACATCGGCGTACTTGCCATTACGAGGGTTTACAGTGTCTTTGTCATCGGAGGGGCGGCAGTTGTCGCGGTCATCTTCGGTTTTATCGGAATGGTCACAGCTGTGATCGGGTCTGTTCCCTCGGCTGTCATGGGAGGGGTTTCCATCCTGCTTTTCGGAATCATCGCTTCCAGTGGACTCCGCATGCTGATTGATAACCAGATTGATTTTGGAGAAAAGCGTAACCTCATCATTGCCTCCATCATCATTGTTCTCGGTGTAGGAGGTGCCTTCGTCCAGGTAACCGAGGAAATTCAAATTGCCGGGATGGCCTTGTCAGCCGTGATCGGCGTCTTCCTCCACCAGGTGCTGCCTGGAAAAGAAAAAGGGTATGGCAATGGAAAAATGTTTGAAGAACCTGAAATCGGAGAGAAACAACAAGAGCATGAAGTGGCATAA	MEKHQPALDIHEVPAAGKWLTLSLQHLFAMFGATILVPFLTGLSPAVALVSSGFGTLAYLLITRGKVPAYLGSSFAFIYPIIEVSKTSGAAGAMVGSFLTGLVYGAVALLISVFGTKWLMNLLPPIVVGPVIIVIGLGLASTAVDMAMYLPGPEENVYSSVHLTTALVTLGLTVMASIFFRGFFSLLPILFGIVGGYIFALFQGIVDTSTIQAEWQALTSADSVTGFFGAFFQVPDFIVPFVDFSPWEVLSWEIAFLMVPFALVTITEHTGDQMVLSKVVGRNFLKNPGLDKSILGDGAATMIASCLGGPPNTTYGENIGVLAITRVYSVFVIGGAAVVAVIFGFIGMVTAVIGSVPSAVMGGVSILLFGIIASSGLRMLIDNQIDFGEKRNLIIASIIIVLGVGGAFVQVTEEIQIAGMALSAVIGVFLHQVLPGKEKGYGNGKMFEEPEIGEKQQEHEVA				NA	NA	NA	NA	NA
AK012_00272	897	pyrB	COG0540	Aspartate carbamoyltransferase	ATGCCGGTAGTCCAGCCATTACAACATTTATTATCTATGAAGGAACTGAGTCCGGTGCAGATATTTCAGCTTATAGAGAAGGCGGAGGAGATGAATCAGCAGAGGGTGACGCCCTCTTACAATGGCAGGTTTGCAGCCAACCTCTTCTTGGAACCAAGTACACGAACCAAAGTAAGCTTCCAGATGGCTCAGCGTAAATCCGGATTCGAGCTCATCGATCTGGAGGGGCATGAATCGAGCCTTACCAAAGGGGAAAGTCTCTATGACACTTTGAAAACACTCGAATCTCTCGGAGTTGAATTAGCTGTTGTCCGCCAGTCCCAGACAGGTCTGCTGCAGCATTGTGCTTCGAACTTGAATCTTACCCTGATCAACGCAGGGGATGGCTGCGGAGAACATCCGACACAGAGTCTCCTGGATTTATATACCATCTATGAACAGTTTCATCGTTTCAAAGGGCTGCGCATCTGCATCGCCGGGGATATTAAGCACAGCCGGGTCGCCAGATCGAATGCTGCGGCGCTTTCCCGTCTTGGGGCGGACGTTCAATTTGTCAGCCGGCCGGAATGGCAGGACTCAGCCATTGCAAATCACTACATCTCTATGGATGAAGCTGTTGCACGATGTGATGTGCTGATGCTCTTAAGAATCCAGCATGAGCGGCATACCCATCAGGAAGACACAACCGCCTACCTGCAGCAATATGGATTGACGAAAGAAAGAGAAGCGCGGATGGGGGCGCAAAGCATTATTCTTCATCCAGCCCCTGTCAACCGCGGAGTCGAAATCGATCATGATCTTGTAGAGAGCGGCAGGTCGAGAATTTTCAGACAGATGAGCAATGGAGTTGCTGTAAGGATGGCTGTCATCGATTCATTAATGAAAGGGGAGCTGTAA	MPVVQPLQHLLSMKELSPVQIFQLIEKAEEMNQQRVTPSYNGRFAANLFLEPSTRTKVSFQMAQRKSGFELIDLEGHESSLTKGESLYDTLKTLESLGVELAVVRQSQTGLLQHCASNLNLTLINAGDGCGEHPTQSLLDLYTIYEQFHRFKGLRICIAGDIKHSRVARSNAAALSRLGADVQFVSRPEWQDSAIANHYISMDEAVARCDVLMLLRIQHERHTHQEDTTAYLQQYGLTKEREARMGAQSIILHPAPVNRGVEIDHDLVESGRSRIFRQMSNGVAVRMAVIDSLMKGEL	PGPT0021160_4710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021160-pyrB-K00609	NA	NA
AK012_00273	1299	pyrC		Dihydroorotase	ATGAAGGTGAAAGTGATTAATGCTCGTGCGCTTAAGAGCAGCGGAAAGTTAGGATCAGCAGAAATGGTGATTGAAGATGGGGTGATCCAGGAAATAGGGGAAGATCTTACCTCTGCTACTTTCGACAATGTCTGGGATGCTGAAGGTCTTTTCATCAGTCCCGGCTTCGTTGATGTCCACGTCCACCTCCGCGAACCAGGGGGAGAAGCGAAGGAGACCATTGCCACGGGCACCCAGGCAGCAGCGAAAGGTGGGTTTACGGCCATCTGCGCCATGCCGAATACGACCCCTGTCCCTGATGATGTGCAGAAACTGGATGACCTAAAGCGCCGCATCAAAGAGACGGCCCGTGTCCGTGTCCTGCCTTATGCTTCTATCACGAGCCGCCAGGCGGGCCGGGAACTTGTGGACATGGAAGCACTGGCAGGGAATGGAGCCTTTGCCTTTACTGATGATGGAGTAGGCATACAGGATGCCGGGATGATGCAGGAGGCGATGAAAGCTGCCTCATCGGCCGGCAAAGCCGTAGTCGCTCATTGTGAGGACAATTCCCTCGTACATAAAGGGGTGTGTCATCAAGGTGAAGTGAGTCAACGCCTTTCCCTGCCGGGGATTGCTTCAACGACGGAATCTGTCCAGATTGCCAGGGATGTCCTCCTCGCAGAACAAACCGGCTGTCACTATCACGTCTGTCATGTGTCCACCAAGGAATCTGTAAGAATTATCCGCAATGCGAAGAAAGCGGGGATCCATGTCACAGCTGAAGTGACTCCGCACCATCTTCTTCTGCATGAAGACGACATTACGGAGGATCACGGGTTTTATAAGATGAATCCGCCACTCCGGAGCAGAGAGGATCAAAAAGCGCTGCTCGAGGCCTTAAAGGATGGCACGATCGACTTTATAGCCACAGATCACGCCCCTCATACAGAAGAGGAAAAGCAGCAGGGGTTTTTGGACGCTCCCTTTGGAATTACGGGTTTGGAAACGGCTTTTCCTCTTTTATATACCCACCTTGTTGAAAAAGGGTTCTGCACATTGAAGGAACTGGTGGATTGGATGACCGTGAAGCCGGCAGCCGTTTTCAATCTGCCATACGGTACGCTTATGCCTGGAGCTCCTGCTGATTTTACAATGGTTGATCTGGACACCGAAAGAACGGTCGATCGAAAGACATTTGTTTCAAAAGGGAAAAACACGCCGTTCGATGGCTGGACACTGAAAGGATGGCCGGTCCGGACAATAGTTAACGGAAATCTCGCATGGGAGGAGCGTACACATGAAACAGCTCGTACTTGA	MKVKVINARALKSSGKLGSAEMVIEDGVIQEIGEDLTSATFDNVWDAEGLFISPGFVDVHVHLREPGGEAKETIATGTQAAAKGGFTAICAMPNTTPVPDDVQKLDDLKRRIKETARVRVLPYASITSRQAGRELVDMEALAGNGAFAFTDDGVGIQDAGMMQEAMKAASSAGKAVVAHCEDNSLVHKGVCHQGEVSQRLSLPGIASTTESVQIARDVLLAEQTGCHYHVCHVSTKESVRIIRNAKKAGIHVTAEVTPHHLLLHEDDITEDHGFYKMNPPLRSREDQKALLEALKDGTIDFIATDHAPHTEEEKQQGFLDAPFGITGLETAFPLLYTHLVEKGFCTLKELVDWMTVKPAAVFNLPYGTLMPGAPADFTMVDLDTERTVDRKTFVSKGKNTPFDGWTLKGWPVRTIVNGNLAWEERTHETART	PGPT0021145_2765	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021145-pyrC-K01465	NA	NA
AK012_00274	1110	carA_1		Carbamoyl-phosphate synthase small chain	ATGAAACAGCTCGTACTTGAAGATGGAACAGTATTCAAAGGGGAAGGCTTTGGAAGTGAAAGGGAATCGATTGGTGAAATTGTCTTTAACACAGGAATGACAGGCTATCAGGAGGTCTTGTCCGATCCATCCTACTGCGGTCAGATTGTCACGTTCACATATCCGCTGATCGGAAATTACGGTATCAACCGGGATGATTTTGAAACGGTGCACCCTGCTGTGTTCGGGGTCGTCGTGAAGGAGCACTGTGAAAGACCGTCAAACTTCCGCAGTGAGGAAACCCTGGGTGCTTTTCTCGAGGCGCGGGATATTCCGGGGATCACCGGTGTGGATACGCGGAAATTGACGAAGATCATCCGCCGGTACGGTACGATGAAAGCGATGATTGCCTCCAGTGAACGTTCCACAAAAGAAGTGATGGCCATGCTTGAAGACTCACCTGCCGGCACCAGCCAAGTGCAGCAGGTTTCCACCGTAAAGCCCTATGTTGTACCGGGACGCGGGAAAAGGATTGTTCTGATGGACTTTGGAATGAAGCATGGTATTTTAAGAGATTTTGCCAAACGCAGCTGTCACGTCACTGTCGTTCCTTTCCATACTAGTCATGAAGAGATTTTAAGGTTGAAACCGGACGGCGTTATGCTCTCCAATGGTCCTGGAGATCCGAAGAATGTCCCGGAGGCTGTGGAAACGGTTCGGAACTTGATCGGCCGTGTTCCGGTTTTCGGTATTTGTCTCGGTCACCAGTTGATTGCCCTTGCAGGCGGTGCGGATACGGTGAAAATGAAGTTCGGACACCGCGGGTCCAACCAGCCTGTAAAAGACCTTGAAACGAATCGGACCTTTATCACCTCTCAGAACCATGGGTACACCGTCGACTTGGAGTCCCTTGAAGATACGGAATTGATTCCTACACAGGTCTCTTTAAACGATCAGACTGTTGAAGGGTTGAAGCACAGCACGCAGCCCGTTTTTAGTGTGCAGTATCATCCGGAAAGCTCCCCCGGCCCCGAAGATACGTCCTGGTTGTTTGACCGCTTTCTTGAAAACATCGAACAGACGAACAAGTGCACAAAGGAGGATGTTCAATGCCTGAACGTACAGATGTAA	MKQLVLEDGTVFKGEGFGSERESIGEIVFNTGMTGYQEVLSDPSYCGQIVTFTYPLIGNYGINRDDFETVHPAVFGVVVKEHCERPSNFRSEETLGAFLEARDIPGITGVDTRKLTKIIRRYGTMKAMIASSERSTKEVMAMLEDSPAGTSQVQQVSTVKPYVVPGRGKRIVLMDFGMKHGILRDFAKRSCHVTVVPFHTSHEEILRLKPDGVMLSNGPGDPKNVPEAVETVRNLIGRVPVFGICLGHQLIALAGGADTVKMKFGHRGSNQPVKDLETNRTFITSQNHGYTVDLESLEDTELIPTQVSLNDQTVEGLKHSTQPVFSVQYHPESSPGPEDTSWLFDRFLENIEQTNKCTKEDVQCLNVQM	PGPT0021155_3763	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
AK012_00275	3201	carB_1		Carbamoyl-phosphate synthase large chain	ATGCCTGAACGTACAGATGTAAATAAAATCCTCGTCATCGGATCCGGTCCCATCGTCATCGGCCAGGCGGCTGAATTTGATTATTCCGGCACCCAGGCCTGCCAGTCTTTGAAAGAGGAAGGTTATGAGGTCATCCTGGCCAATTCCAATCCAGCTACGATCATGACCGATCATACGTTTGCAGACCAGGTCTATATGGAACCATTAACTCTTGAGTTTATGAAAAAGATTATCCGTAAGGAACAGCCGGATGCCGTGCTTCCGACACTGGGCGGCCAGACAGGCTTGAATATGGCTGTCGAGCTTCATGACTCAGGCATTCTGGATCAATACCAGGTGGAACTTCTCGGCACCCCGCTTGAGGCGATTCAGCGTGCAGAGGACCGGGAGAAATTCCGTTCCCTCATGCACGAATTAAATCATCCTGTACCTGAAAGTGATATCGTCAGTACGGTGGACCAGGCGCTTGCTTTTGCCGGCCGCATCGGCTATCCGGTCATTGTCCGCCCGGCATATACGATGGGCGGAGCCGGAGGAGGGATTTGTGAGCATGAGGATCAGCTGAGGGAAACGGTAAGAAGCGGACTTTCCTTAAGTCCTGTATCCCAGTGCCTTGTAGAGAAAAACATCGCCGGATTCAAGGAAATTGAATATGAAGTGATGCGTGACAGCATACAGAATAAAATTGTTGTCTGCAATATGGAAAACTTTGACCCTGTCGGCATCCATACCGGTGATTCCATCGTAACCGCTCCTTCTCAGACACTGAGTGACAGGGAATATCAGATGCTCCGGAATGTATCCCTGGAAATTATCGAAGCTTTGAAAATTGAAGGGGGCTGCAACGTTCAACTGGCTCTCGACCCCGACAGCTTTCAATACTATGTGATTGAAGTGAACCCGAGAGTCAGCCGCTCCTCAGCGCTGGCATCCAAGGCGACCGGTTATCCTATTGCAAAGATTGCTGCGAAAATTGCTGTAGGAATGACTTTGGATGAAATTCAAAATCCGATTACAGGAACCACCTTTGCCTGCTTTGAACCTGCCCTGGATTATGTTGTTTCCAAAATCCCCCGCTGGCCGTTCGATAAATTTGCCAAGGGAAACCGTGTTCTCGGCACGCAGATGAAAGCGACAGGTGAGGTGATGAGCATTGGACGGACTTGGGAAGAATCGCTGTTAAAAGGCATCCGTTCGCTCGAAGGGGGAACGGAAGAACTCCGTCTGTCCTATGCGTCCCGTTTAACGGCTGAGGAGTTGAACGAGCGGATTGTAAAAGCGGATGACGAGCGGATCTTTTTAATCGCCGAAGCCTTCCGCCGTGGTTTTTCTATCGAGGAGCTTCATGAAAAAACAGCGATTGACGAGTTCTTTCTATATAAATTGGAGCAGATCATCCTCCTTGAACAGCAGCTTGAAACGGAGGGGCTGAACGCTGCTCTACTAAGAAAAGTAAAACAGCTGGGCATGTCCGACCAGCAGATTTCCCGTGCAGCGGGGGTGTCGGTCGATGAAGTCCGGCACCAGCGGAAGAACATGAGTATTGAACCGGTCTATAAAATGGTGGATACGTGTGCAGGGGAATTTGCTTCCGAAACGCCGTACTTTTACAGCAGTTATGAAGAGGAAAATGAATCTCTTTCCTCTTCAAGGAAAAAAGTCCTTGTAATCGGGTCCGGGCCGATTCGTATCGGCCAGGGAGTCGAGTTTGATTATGCTACGGTTCACTCGGTCCTCGCGTTAAAAGATATGGGGTATGAAGCCATTATTATGAACAACAATCCGGAAACCGTCTCCACCGATTTCAGTGTTTCGGATAAATTGTACTTTGAACCTTTAACCTTGGAGGATGTCCTGAATGTGATCGATCTTGAAAATCCTGAAGGTGTGATTGTTCAATTCGGTGGTCAGACGGCGATCAACCTTGTAGAAGGGCTGAGTCGTCACGGAATAACGATCCTCGGGACAACGATGGAAGCCATTCACGAGACCGAAGACCGCGACTTGTTTGAAAAGCTGCTCAATCGCTTGGATGTACCGAAACCTGGAGGAGAAAGTGCTGCAAGTGAAATAGAAGCTGTGGACGCCGCTGAGAAAATCGGCTTTCCCATTGTCGTCCGCCCATCCTATGTTCTTGGCGGCAGAGCGATGGCCATCGTTTATTCCAGGGAAGAGCTGGCCTCCTATCTGGATGCCAATGCCTTTGTGCACAACGGACATCCCATTTTAATCGATAAGTATATGACAGGAATGGAGGTGGAAGTGGATGCCATCACAGATGGTGAGGACGTGTTTGTACCGGGGGTTATGGAGCATATTGAACGCGCCGGAGTCCACTCGGGCGATTCCATGGCGGTTTATCCACCCCAGCGCCTGACACCGGAGCTTGAAAAACAGTGCCTGGATATCACAGCTGATATAGCAAGAGAACTGAAAATGAAAGGTCTCGTCAACATTCAGTTTGTCATATCCGGGAAAACGGCGTATGTATTGGAAGTAAATCCAAGAGCCAGCCGTACGGTTCCTTTTCTCAGCAAAATTACCGGCGTTCCGATGGCAGGGCTGGCAACCAAGGTGCTCATGGGCGGAAAATTGTCAGACCATGGATATGCCACGGGAACAGCACGCAAGCCGGATGGGGTCTATGTAAAAGTACCAGTATTCTCCTTTGAAAAATTAAGAAGCGTAGATACAACCCTGGGACCGGAGATGAAATCGACAGGTGAAGTCATAGGGTATGACGAAACGCTCGAAAAAGCCTTGTATAAAGGCATGATTTCCTCCGGATTGAAAATTCCTGTTCAAGGTTCTGTCCTGCTGACGGTTGCAGATAAAGACAAAGAGGAAATGGTCCGCATTGCCCGGACGTTCTATGAACTAGGCTTTCGTTTGTTTGCGACGGAAGGAACATCAGCCGTCATCGCACAGGAAGGTCTTCCTGTAGAAGCGGTCGGTAAAGTCGGTTCGACACAGAGGGATGTGCTGGACCTTATTCAAAACAGTGAAGTTCAATTTGTCATCAATACGTTGAATAAAGGGATGCGCGCAAGGTCTGACGGGTTCAGAATCCGCCGGGAAGCTGTGGAAAATGGAATAGCCTGTCTCACAAGTCTGGATACGGCAGCAGCTATTGTAGAAGTCATTAACGCGATGTCCTTTTCAGCAAGGGCGATCACTCCGATGGAAGGGGTGGGGCAGTGA	MPERTDVNKILVIGSGPIVIGQAAEFDYSGTQACQSLKEEGYEVILANSNPATIMTDHTFADQVYMEPLTLEFMKKIIRKEQPDAVLPTLGGQTGLNMAVELHDSGILDQYQVELLGTPLEAIQRAEDREKFRSLMHELNHPVPESDIVSTVDQALAFAGRIGYPVIVRPAYTMGGAGGGICEHEDQLRETVRSGLSLSPVSQCLVEKNIAGFKEIEYEVMRDSIQNKIVVCNMENFDPVGIHTGDSIVTAPSQTLSDREYQMLRNVSLEIIEALKIEGGCNVQLALDPDSFQYYVIEVNPRVSRSSALASKATGYPIAKIAAKIAVGMTLDEIQNPITGTTFACFEPALDYVVSKIPRWPFDKFAKGNRVLGTQMKATGEVMSIGRTWEESLLKGIRSLEGGTEELRLSYASRLTAEELNERIVKADDERIFLIAEAFRRGFSIEELHEKTAIDEFFLYKLEQIILLEQQLETEGLNAALLRKVKQLGMSDQQISRAAGVSVDEVRHQRKNMSIEPVYKMVDTCAGEFASETPYFYSSYEEENESLSSSRKKVLVIGSGPIRIGQGVEFDYATVHSVLALKDMGYEAIIMNNNPETVSTDFSVSDKLYFEPLTLEDVLNVIDLENPEGVIVQFGGQTAINLVEGLSRHGITILGTTMEAIHETEDRDLFEKLLNRLDVPKPGGESAASEIEAVDAAEKIGFPIVVRPSYVLGGRAMAIVYSREELASYLDANAFVHNGHPILIDKYMTGMEVEVDAITDGEDVFVPGVMEHIERAGVHSGDSMAVYPPQRLTPELEKQCLDITADIARELKMKGLVNIQFVISGKTAYVLEVNPRASRTVPFLSKITGVPMAGLATKVLMGGKLSDHGYATGTARKPDGVYVKVPVFSFEKLRSVDTTLGPEMKSTGEVIGYDETLEKALYKGMISSGLKIPVQGSVLLTVADKDKEEMVRIARTFYELGFRLFATEGTSAVIAQEGLPVEAVGKVGSTQRDVLDLIQNSEVQFVINTLNKGMRARSDGFRIRREAVENGIACLTSLDTAAAIVEVINAMSFSARAITPMEGVGQ	PGPT0021150_4386	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
AK012_00276	762	pyrK_1	COG0543	Dihydroorotate dehydrogenase B (NAD(+)), electron transfer subunit	GTGATCAGGGAAGATTTAGAGGTTGTGAATCATACTCTACTGGCGGTAGATACGTATGAACTGATTCTTCGGGGGCGTTTAGTCCGCGACATCGAGCAGCCGGGACAGTTCGTTCATATCCGGACAAGCGCGGACGAATATTTACGCAGACCTGTATCGATCTCAGATTACAGCATAAAAGAGGAAACGATCACCCTGTTGTACAAAGTGATTGGGAAAGGAACAAAAGCTCTTACAAACTATCAGGCAGGAGATACCCTCGATGTTCTCGGTCCGGGAGGGAGGGGGTTTCCTGTTAAGGCCCTCCCTGGAGAACGTATCCTCCTGACAGGGGGCGGCATCGGAGTTCCTCCTTTGTACCGGCTCGCCCGGGAGCTGTTTGAAAAGGGAGCGGAGCTGACGATTATCCTTGGTTTTCAATCTGTGGATCACGCGTTTTTGAGAGAAGAATTCCAGCAATATGGAGAGGTCCGTGTTATGACCAATGACGGTTCATCCGGCAATAAGGGATATGTCACAGATGGGATTGCTCAAATGGCTGCTCCCATTGATCGGTACTATACGTGCGGACCTACGCCTATGTTAAAGGCCGTTGTCCAGCTTCTCGGTGATACAGAAGGCTACATCTCTATGGAGGAACGCATGGGATGCGGGATCGGGGCATGCTTTGCCTGTGTGGTGCCTTCTCATGATGAGAAAGGATACAGGCGGATCTGCTGCGACGGCCCTGTTTTTCACCACAAGGAGGTTGTGCTCTCATGA	MIREDLEVVNHTLLAVDTYELILRGRLVRDIEQPGQFVHIRTSADEYLRRPVSISDYSIKEETITLLYKVIGKGTKALTNYQAGDTLDVLGPGGRGFPVKALPGERILLTGGGIGVPPLYRLARELFEKGAELTIILGFQSVDHAFLREEFQQYGEVRVMTNDGSSGNKGYVTDGIAQMAAPIDRYYTCGPTPMLKAVVQLLGDTEGYISMEERMGCGIGACFACVVPSHDEKGYRRICCDGPVFHHKEVVLS	PGPT0021180_1135	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021180-pyrDII-K02823	NA	NA
AK012_00277	933	pyrD_1	COG0167	Dihydroorotate dehydrogenase B (NAD(+)), catalytic subunit	ATGAATACAGTAGTTCATCTTCCAGGTTTATCCATGAAAAATCCGATCATGCCGGCATCGGGATGCTTTGGGTTTGGCCGTGAATATGCCCGGTTCTATCCTCTGGCTGATCTGGGGGCTGTCATCATGAAGGCTGCTACCGGTGAAAAGAGATATGGGAATCCAACTCCGAGGGTGGCTGAAGCAGCAGGGGGCATGCTCAATGCCATCGGTCTGCAGAATCCTGGTGTCGATTCCATCATTCGCGAGGAAATTCCATTTTTGAAAGACCAGCAGGTGCCGATCATAGCAAATGTCGCCGGCAGCACGGTGGAGGAGTATGTGGAAGTAGCTGAAAAAATATCCTCCCATGTGGATGCACTGGAACTGAATATATCCTGTCCGAATGTCAAGGAGGGAGGCGTTCAGTTCGGGATGGATCCTGTACTTGCAGAGGACGTAACGCGCAGGGTCGTGCAGGTGAGCAGTGTTCCGGTGTACGTAAAGCTGTCGCCGAATGTGAGCGACATCGTCGTCATGGCCAAGGCGGCAGAAAGGGGAGGAGCATCCGGCCTTTCAATGATCAATACGCTCACGGCTATGCGGGTGGATCCGTCTTCACGGAAACCGATCTTGTCCAACGGGACCGGGGGATTGTCTGGAGCTGCCTTGAAGCCGGTAAGTATTCGTATGATCCATCAAGTCTACCCGGAGGTTGGCATACCGATCATCGGCATGGGCGGGATTGAAACGACAGCCGATATTGTTGAATACCTGTTGGCGGGAGCGAGTGCAGTGGCAGTCGGCAGCGCCAATTTTAAGAATCCATTCATATGCCGGGAGCTTGCAGAAGAGCTGCCGGATACGTTAAAGCATTATGGATTTCAATCTGTAGAAGAAGCTGTAGGAGGTGCCCACCGTGAAAGAGTTGAAACCGGTCTATTTCGCCCTTGA	MNTVVHLPGLSMKNPIMPASGCFGFGREYARFYPLADLGAVIMKAATGEKRYGNPTPRVAEAAGGMLNAIGLQNPGVDSIIREEIPFLKDQQVPIIANVAGSTVEEYVEVAEKISSHVDALELNISCPNVKEGGVQFGMDPVLAEDVTRRVVQVSSVPVYVKLSPNVSDIVVMAKAAERGGASGLSMINTLTAMRVDPSSRKPILSNGTGGLSGAALKPVSIRMIHQVYPEVGIPIIGMGGIETTADIVEYLLAGASAVAVGSANFKNPFICRELAEELPDTLKHYGFQSVEEAVGGAHRERVETGLFRP	PGPT0021175_587	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021175-pyrDI-K17828	NA	NA
AK012_00278	723	pyrF	COG0284	Orotidine 5'-phosphate decarboxylase	GTGAAAGAGTTGAAACCGGTCTATTTCGCCCTTGATTTTTCTTCAGGCAGTGAGGCGCTCGCTTTCATTCAAAGACATGATTTGGAAGGGATTCCCGTTAAAGTAGGCATGGAGCTTTTTTATAAGGAAGGGGCGCCGTTCATCGCCGAACTGAAAAGGCAGAACCATGATATCTTTCTGGATTTGAAGCTTTACGATATACCGGAAACCGTCCGCCGGTCGATGAGGAACCTTGCAGCACTTGGTGTAGACATCGTTAATGTCCACGCTTCTGGTGGAAGCCGTATGATTGAAGCTGCCCGCCAGGGGCTGCAGGAAGGTGCCTGCGGTGAACAGCCGCTTTTGTTTGCGGTCACTGTCCTTACCTCGATGGATGAGTGGACCGTGCGCAGGGAGTTAAACGTGGAGGCATCACCCAAAGAGATGGTTAGTCATTACAGCCGCTTGGCAGAGGTTCACGGGGCGGATGGCGTGGTCTGTTCGGTTCACGAAGCAGCCATGGTCAAAAAGGAAACCGGGCTTTTCACCCTGACCCCCGGGATCCGGCTGCCGGGAGGAGACGCCCATGACCAAAAAAGGACATCGACTCCTGAAGAAGCCGGTATCGAAGCCAGTGATGCCATTGTCGCAGGAAGACCCATCCGTGACAGTTCAGCACCGGCAGATACATACCAGACCATCAAGGGGGACTTTTTATATGGAAAACAAACAGCTGATTCATAG	MKELKPVYFALDFSSGSEALAFIQRHDLEGIPVKVGMELFYKEGAPFIAELKRQNHDIFLDLKLYDIPETVRRSMRNLAALGVDIVNVHASGGSRMIEAARQGLQEGACGEQPLLFAVTVLTSMDEWTVRRELNVEASPKEMVSHYSRLAEVHGADGVVCSVHEAAMVKKETGLFTLTPGIRLPGGDAHDQKRTSTPEEAGIEASDAIVAGRPIRDSSAPADTYQTIKGDFLYGKQTADS	PGPT0014965_2733	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0014965-pyrF-K01591	NA	NA
AK012_00279	630	pyrE		Orotate phosphoribosyltransferase	ATGGAAAACAAACAGCTGATTCATAGGCTTCTGGACATTGGAGCTGTCAAAATTAACAGCAGGGACTTTTTTACGTGGACATCTGGTATCCAATCGCCTATTTACTGTGACAACCGTTTGACGATGTCTTACCCGGAGGTCCGTTCGGCTGTGGCAGATACGCTGGTGGACATGATTCATGAGCTCCAGGGAGGTGTGGATGTGATCGCCGGATGTGCGACAGCCGGCATTCCACACGCGGCATGGGTGGCCGAACGGCTCCATTTACCGATGGTGTATGTGCGCGGGACAGCCAAAAAGCACGGCCGCAGAAACCAGATTGAAGGAGTCGCTGCCGAAGGAAGCCGCGTCGTCGTCATTGAGGATCTAATATCGACAGGACGTTCTTCGATCCAAGCCGCAGATGCTCTTCGGGAAGCGGGGATGGAAGTGGCAGGGATTCTGTCCATTTTCACGTACGGTTTGGCGGAAGCGCAGACAGCGTTTATGGAAAAAGGGTACCAGGTACACTCCATTGCCAGCTATGAAGATCTTTTGAACGAGATGTATTCCCAAGGGGAAATGGATGACAGTCAGCTGGAGAAGCTGAAGGTATGGAGGGAAAACCCGTACGTATTTACAAACGCTTAA	MENKQLIHRLLDIGAVKINSRDFFTWTSGIQSPIYCDNRLTMSYPEVRSAVADTLVDMIHELQGGVDVIAGCATAGIPHAAWVAERLHLPMVYVRGTAKKHGRRNQIEGVAAEGSRVVVIEDLISTGRSSIQAADALREAGMEVAGILSIFTYGLAEAQTAFMEKGYQVHSIASYEDLLNEMYSQGEMDDSQLEKLKVWRENPYVFTNA	PGPT0021200_957	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021200-pyrE-K00762	NA	NA
AK012_00280	273			hypothetical protein	ATGACGATGAAATCTAACAAACATTCCTTTTTTATTCTCATGAATGCCTCCCTCGGACTATTAACCTGCTTTGTTTATTTATATACGTGGGTCGCCTTTTCCTTTATGGAATCCATGTTTTCATGGGAACCTCTGCTCAGCCTGGCGGGGTCTCTGACGATTTTTATTTTATGGAATATGTACATGTTAAAAAAAGAAGCGAAAAGATACTGGGCACAGGCCGTTTTTTCCTACTTAGCCTCGATTGCTGTTTTTGCTTATTTTTTGACTTGA	MTMKSNKHSFFILMNASLGLLTCFVYLYTWVAFSFMESMFSWEPLLSLAGSLTIFILWNMYMLKKEAKRYWAQAVFSYLASIAVFAYFLT				NA	NA	NA	NA	NA
AK012_00281	2172			hypothetical protein	ATGAAAGAATTAGTCAAACAGTCCTATTGGCTGCGGCGTCTGCTCGCCTCTGATCCGGGCAGGCGGAGACTGGCACAAGCGGGAAAAGCGACATTGAGCCTGATCTCATCGGTGTTTACGACCTTGTTTTTGATGAGCCATACAGCCATTGATCCGCTTTTTCCAGCGATTATATCCGGAATTGCCGGACTTATGGGGATCATGATTGTTATGGATGATACCAAACGAAAAAAGCAGGTGACAACACTTCTGCTGGGATTGGCAGCTGTTTCGGGGGTGACCCTTGGGTCTTTGGCCGCTTCCAGTCCGGTGCTGGTCAGTATCTTGATGATTGCTGCCATTTGTTCAGCTTTTTATTTTTCCCAACACGGAAGCCGGTACTTTTCTCTTGGAATGATTGGTTTTTTCACCATTTATTTTTCCTCCTTTCTACAGCTTTCACCAGACCAGTTCCTCTGGTTTTACCTCGCCGTAGGGATTGGAATCCTTTATGCTTTTCTTTACAATTTCTTCATTTTTGAGGATTCCAGGCAGATGCTGAGAAGAAGCACGGTTTCTTTCCACAGGCAGGCCAACTTGACGTTCGATCTGCTTATTGAGGTGATCAAAGACCCGGAACTGCAGCCATCACGGTTGAAGAAGCTGGGCAGCAACGTGAGTAAATTAAGGGTTTATGCCAATCAGGTCGCCGCTGATCTACATCAGCAGGACAGTACAGAAATCTGGCCGGGGCTTCAATCCGGCCGGCTTCGATTATATATTTTCGATACGACCATGTTTGTGATGACTCTTTCAGAAAGCCTGCAGAAATTGAAGGAGGACGAGGCGCTGGATTTAAAAGAACTGCGCCATCTTCTCGTCGATCTGCTTGTGACTTTGAAGGATGCGGATGTGCTTGACCCGCAGCCGGAAATGAAGAGCCTTCAGCAGGCAGAGAAAGTGGTCGCGGGTATCCGGCACCAGCTTAATTACTGGATGATGAATGAAACCGATCTGCCTGATGGCCGGCTGTATTTGATTAGAAGAATTGAAACGATGGCATCGCACGTTACCGAAGGTGCTTATGAAGTGCAGCGGGACATTCATTTCAATGAAGGGGTCGAGCATCCACCGGCTGCTGATGAAGAGGCGCTGGATGAGCAGGAAGAGGAGGCAGCTGGACTAAAACCGGCCGAGAAAAAAGCCGTGCAGGCGCTGATCGCCGGAAGCATTGCGATTGTCACGGGCTATATCATCTCCCCGATTCAGCCGTACTGGGTTCTGCTGACCGCTTTTATTATTCAACTCGGCACAGAAACGGTGGGGCGGACATACTTGAAGGCCTTTGAACGTTCCGTCGGTACGTTTTTCGGCGCTTTCTTTGGTTTTCTTGCCGCGTTATGGCTCTCGGGCCACCCTCAGATTGAGATTGCCGTTTTATTCCTCGTGATTTTTACAGCTTTCTACTTTCTCACCGTTTCTTATACGGTGGCAAGTTTTTTTATTACGATGATGATTGCCTTTATCTATGATTTGATCCTTGGTGGAGTGACGCCGGAACTTCTGGGAGCCAGGGTTTTGGATACTGTGGCGGGTGCTGCGATCGCTCTTGCTGTTTCTGCCTTTGTTTTTCCGACGCGGACGAAGGACAAGCTGTCCGGGGCGTTTCGCGAATACTTTACGCAGCTGTCTCAATTAGTTGATGAGTATCTGACGAATATCAAAGGGACAAAAGGGGTCAAAGGTCTGGCGCAGCAGGCTTTGGATCTGGATGCGAAAATGCAGGAAATTGAAGAGGAATCCAAACCGGCCGTGCAGGATCCCATTTTCCGGGGAGATAAAAACCTTACAGCCGTGCTGACAGTGATCACAGCCATCAACTATTATGCTAAGCATCTGGTTGCCTCCCCCTACCCGAAGTATACGAGTCACAGCCGGGAGACACTGGATCTTTTGACAGCCGTACAGGATAAGCTGGAAAAGAATTTACAGGGGCTGCTTCATCAAATTGAAACAGGGCAGCATTCCTATCCGGTTTATGACTTGTTGGATGAAAGAGAACGAGTCGAATTGAGTGTCCAGCCAGGCACAGAGGATAAGGAAAACCTGCTTCATCACCTTTATTACATTTGGAAAATCAACCGTTCCATTACGATTCTCGGGGACCGGTTGGACCACCTCAAGAAAAGATAG	MKELVKQSYWLRRLLASDPGRRRLAQAGKATLSLISSVFTTLFLMSHTAIDPLFPAIISGIAGLMGIMIVMDDTKRKKQVTTLLLGLAAVSGVTLGSLAASSPVLVSILMIAAICSAFYFSQHGSRYFSLGMIGFFTIYFSSFLQLSPDQFLWFYLAVGIGILYAFLYNFFIFEDSRQMLRRSTVSFHRQANLTFDLLIEVIKDPELQPSRLKKLGSNVSKLRVYANQVAADLHQQDSTEIWPGLQSGRLRLYIFDTTMFVMTLSESLQKLKEDEALDLKELRHLLVDLLVTLKDADVLDPQPEMKSLQQAEKVVAGIRHQLNYWMMNETDLPDGRLYLIRRIETMASHVTEGAYEVQRDIHFNEGVEHPPAADEEALDEQEEEAAGLKPAEKKAVQALIAGSIAIVTGYIISPIQPYWVLLTAFIIQLGTETVGRTYLKAFERSVGTFFGAFFGFLAALWLSGHPQIEIAVLFLVIFTAFYFLTVSYTVASFFITMMIAFIYDLILGGVTPELLGARVLDTVAGAAIALAVSAFVFPTRTKDKLSGAFREYFTQLSQLVDEYLTNIKGTKGVKGLAQQALDLDAKMQEIEEESKPAVQDPIFRGDKNLTAVLTVITAINYYAKHLVASPYPKYTSHSRETLDLLTAVQDKLEKNLQGLLHQIETGQHSYPVYDLLDERERVELSVQPGTEDKENLLHHLYYIWKINRSITILGDRLDHLKKR				NA	NA	NA	NA	NA
AK012_00282	1722	rqcH	COG1293	Rqc2 RqcH	ATGTCTTTCGACGGAATTGTAACCCGGGCTGCGACAAATGAACTGAACCATGTACTTCAGTCCGGACGGATCATGAAAATTTATCAACCTACGGACACAGAGCTTGTTTTCACTGTCCGCTCCCAGCGGACCAAACATACGCTTCTGTTGTCCGCTCATCCATCCTATGCACGGTTTCATTTAACCAATGACCAATACCACAACCCTAAAGAGCCGCCGATGCTCTGTATGCTCCTGCGTAAGCATCTTGTTGGAGGGTTTATTGAAAAAATCGAACAGGTGGACATGGAAAGAATCGTCAAAATCCATATCCGGACACGGAATGAAATCGGTGACGAAACGTACAAAACCCTGATTATTGAAGTGATGGGGAAACATTCGAATATTCTTCTTGTAGATGAACAGGAAGGCCATATTCTGGACAGCATTAAGCACCTCCCCCCTTCCCAGAACCGGCACCGGACGATCATGCCGGGTCAGCCCTACAAACTGCCTCCCGAGCAGGGAAAGATCAATCCGGTGGAATTGGAACCGGAACAGCTGGTTAAAAAGCTGGACTTTAATGCAGGGCGCATGGACAAGCAGATTCTTTCCATTGTCATGGGCTTTTCTCCTATGATCACGAAGGAAATTGCAGAAAAAGCGGGGATGAACGGTCCTTCCGGATATAAGACCGCTTATGAGGAAGTAAGGAACAGGATTCTGGATCACTCCTATGAACCGCAGGTGAAGCGCGGGGATAAAGAACAATTTTATGTCCTGCCTCTGCAGGCGTTTGGAGAAGAAGCCGAAAGCTTCTCCACCGTCAGCGGCATGCTGGATGCCTTTTACTCCGGTAAAGCCGAGAGAGACCGGGTGAAGCAGCAGGCTGGAGATTTATTCCGCTTTCTTAAGAATGAGCGTGACAAAAACAAGCGGAAAATTAAAAAGCATCAGGATACTTTGAAGAAGTCTGAAGCAGCCGGGGATTACCAAAAGCTCGGTGAACTGCTGACCGCTCATATGCACCTCGTTCAAAACGGAGACGAGAGTGTAACGGTCATTGATTATTACGACCCGGATCAAAAGGAAATGTCTATTGAACTGAACCCGAATAAAACACCAAGCGAAAATGCCCAGTCCTATTTCCAGACGTACCAGAAAATGAAAAAGTCGAAGCAGGTCGTCCAAAAGGAAATCAAAAAAGCGGAAATCGAAATCGCCTACTTCGAACGCTTGATTCAACAAGTGGAAACAGCCAGGGAAGAAGATATTGAGGAAATCCGTGAGGAACTGAGGGAACAGGGCTATATGAAGAAAAAAAGCGCTTCAGCCGGGCGCAAGAAAAACAAGCCTAAAAAGCCGGCTCCTGAAACCTTCCAATCCAGTGATGGAACGCTGATCTATGTCGGGCGCAACAATAAACAGAATGAATATTTAACGAACCGGATGGCAGGAAAATCCGATATCTGGCTGCACGCCAAGGATATTCCGGGCTCCCACGTGGTCATCAAGGACGAAAATCCAAGTGAAGACACCTTGCTTGAAGCAGCCCAGCTGGCTGCCAACTTCAGTAAATCGAGCCGGTCCTCCTCTGTGCCTGTGGACTACACACAGATCAAGCATGTGAAGAAACCGTCCGGTGCAAAACCTGGATTTGTAACCTATGACCATCAGCAGACACTGTTTGTTACTCCGGATGCCTCCTATGTCCGTACCATGAAAAAACAGACAGAGGAATAA	MSFDGIVTRAATNELNHVLQSGRIMKIYQPTDTELVFTVRSQRTKHTLLLSAHPSYARFHLTNDQYHNPKEPPMLCMLLRKHLVGGFIEKIEQVDMERIVKIHIRTRNEIGDETYKTLIIEVMGKHSNILLVDEQEGHILDSIKHLPPSQNRHRTIMPGQPYKLPPEQGKINPVELEPEQLVKKLDFNAGRMDKQILSIVMGFSPMITKEIAEKAGMNGPSGYKTAYEEVRNRILDHSYEPQVKRGDKEQFYVLPLQAFGEEAESFSTVSGMLDAFYSGKAERDRVKQQAGDLFRFLKNERDKNKRKIKKHQDTLKKSEAAGDYQKLGELLTAHMHLVQNGDESVTVIDYYDPDQKEMSIELNPNKTPSENAQSYFQTYQKMKKSKQVVQKEIKKAEIEIAYFERLIQQVETAREEDIEEIREELREQGYMKKKSASAGRKKNKPKKPAPETFQSSDGTLIYVGRNNKQNEYLTNRMAGKSDIWLHAKDIPGSHVVIKDENPSEDTLLEAAQLAANFSKSSRSSSVPVDYTQIKHVKKPSGAKPGFVTYDHQQTLFVTPDASYVRTMKKQTEE				NA	NA	NA	NA	NA
AK012_00283	879			hypothetical protein	ATGGCAGACAGTATGACCGGTTACGGCCGGGAAATATCAGAGCAGGAGGGAACACGGGTGGTGGTGGAAGTGAGGTCCGTCAATCATCGGTTTCTTGACGTGCACACACACCTTCCTTCGTCCCTTTTGTTTATGGAGGACTCCATTAGAAAACTGGTGAAAGAAGCATTTCAGCGCGGTCGTGTGGATGTCTACATCACCATGGACGGCGGTGGGTTTCATACGAACGTTGAAGTGGACTGGTCAGCAGCCGAACAGTATATCCAGGCTATGGAGGACATGAAGAGCCGGTTTCATTTGACGGGCGATATAACTATTGATATGGTATCCAAGTTAGAGAATGTCTTCGTCACAAAAGAAACGGAGGAAGTTCCGGGTTCTTTTCAGGAAGAGCTTCAGGCGTCGGTGAAACAGGCCCTGAACCAGCTGGCGGATATGAGGAAACGAGAAGGAAGGCAGTTGACGAAGGATCTTCAATCCAGAATAACAGCCGTAGGACATTGGCTGAAGATGATGGATCAGCGCCGCCCGGATGTCATAAACGAATACAAAGCGAGAATACGCGCCCGTATTGAAGAATACGCTGCACAGACCCTCCCGCAGGATGAACCGAGGATTCTGCAGGAAGTGGCCCTGATGGCTGAAAAAGGGGATGTCACGGAGGAATTTACGCGTATGCACTCCCACCTTCAACAGTTTGAGGAGGCGTTGACCCAGCCGGGATCCGTAGGGAGACGTCTGGATTTCATTCTTCAGGAAATGCATCGGGAAGTGAACACGATGGGATCGAAATCCAATGATGCCCTTTTGATGGAGTATGTACTCAACGTGAAGAGTGAATTGGAAAAAATGAAGGAACAAGTGCAAAATGTCGAATAA	MADSMTGYGREISEQEGTRVVVEVRSVNHRFLDVHTHLPSSLLFMEDSIRKLVKEAFQRGRVDVYITMDGGGFHTNVEVDWSAAEQYIQAMEDMKSRFHLTGDITIDMVSKLENVFVTKETEEVPGSFQEELQASVKQALNQLADMRKREGRQLTKDLQSRITAVGHWLKMMDQRRPDVINEYKARIRARIEEYAAQTLPQDEPRILQEVALMAEKGDVTEEFTRMHSHLQQFEEALTQPGSVGRRLDFILQEMHREVNTMGSKSNDALLMEYVLNVKSELEKMKEQVQNVE				NA	NA	NA	NA	NA
AK012_00284	264	remA	COG2052	Extracellular matrix regulatory protein A	TTGAGTTTAAAATTGATCAATATCGGGTTTGGGAACGTTGTTTCTGCCAATAGAATCATTTCCATCGTTTCACCTGAATCCGCTCCAGTCAAACGTATCATTACTGTCGCCCGTGACAATAATAAATTAGTAGATGCTACATATGGCCGCCGTACACGTGCGGTCATCATCACAGATAGTGATCATGTCGTACTGTCTGCTGTTCAGCCGGAGACCGTCGGACAGCGTGTAATCAGTAATGACGAGATTTCAGATGAAAACTAG	MSLKLINIGFGNVVSANRIISIVSPESAPVKRIITVARDNNKLVDATYGRRTRAVIITDSDHVVLSAVQPETVGQRVISNDEISDEN				NA	NA	NA	NA	NA
AK012_00285	615	gmk	COG0194	Guanylate kinase	GTGATTGAACAGAAAGGTATTTTATTTATTCTTTCCGGCCCGTCCGGTGTCGGAAAAGGAACCGTACGGAAGGCTCTGTTCGAGCAGTCGACAGACTTACGATATTCCATTTCCATGACGACACGTGCACCACGTGAAGGGGAAGTGGATGGTGTCGATTATTTCTTTAAAAGCAGAGATGAATTTGAAAAGCTGATCACGGAAGGACAGCTGATTGAACATGCCGAATACGTCGGCAACTATTACGGCACGCCGCGCCAGTATGTGGAAGAAACGCTGAATCAGGGGAAGGATGTTTTCCTCGAAATTGAGGTTCAGGGCGCATTGAAAGTCCGCGAAAACTTCCCGGAAGGTGTGTTCGTATTTTTAATTCCTCCTTCTCTTGAAGAATTAAAAGACCGGATCGTAAGCCGTGGAACAGAAACAGAGGAAAAGGTGAAAAACCGTCTTCTCGCTGCCAAAGAAGAAATTGATATGATGGATGCCTATGATTATGTTGTCGTCAATGATCAAATTGACAACGCTGTTCAGAAGGTCCAGTCCATTGTAGCCAGTGAACACTGCAAGCGTGAACGTGTGGCTCATCAATACAAAAAAGCATTGGAGGAAAAATAA	MIEQKGILFILSGPSGVGKGTVRKALFEQSTDLRYSISMTTRAPREGEVDGVDYFFKSRDEFEKLITEGQLIEHAEYVGNYYGTPRQYVEETLNQGKDVFLEIEVQGALKVRENFPEGVFVFLIPPSLEELKDRIVSRGTETEEKVKNRLLAAKEEIDMMDAYDYVVVNDQIDNAVQKVQSIVASEHCKRERVAHQYKKALEEK	PGPT0021475_3790	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021475-gmk-K00942	NA	NA
AK012_00286	228	rpoZ		DNA-directed RNA polymerase subunit omega	ATGATGTTAGAACCATCCATTGATTCCCTGCAGAAGCAGATCAAATCAAAATATACGCTAGTCACTCTTTCAGCACGAAGAGCTCGTGAATTGAAGCAGGGGAGTGCTCCTATGGTCGATCATCCGACCTCTCACCAGCAGGTTGGTGTAGCCCTGGAGGAAATCCGCGACGGGAAATTAAATTATATTGAAGCGGAAGAGATTCAAGAACGGACAGAAACCACATAA	MMLEPSIDSLQKQIKSKYTLVTLSARRARELKQGSAPMVDHPTSHQQVGVALEEIRDGKLNYIEAEEIQERTETT				NA	NA	NA	NA	NA
AK012_00287	1209	coaBC	COG0452	Coenzyme A biosynthesis bifunctional protein CoaBC	ATGTTAAAAGATAAAAAGATTGTCCTGGGCGTGTCAGGAGGAATAGCGGCGTATAAAGCGGCTGCACTGACGAGTAAACTTGTTCAGGCAGGAGCCTTCGTCAAAGTTATCATGACAGAAAGCGCCAGAAACTTCGTCGCTCCGACGACGTTTCAAGCCTTGTCCAGACAGCCCGTCTATACAGATACGTTTGATGAACAGGATGCGACACAAATACAGCACATTGATGTAGCCGATTGGGCGGATTTATTTTTAATTGCGCCCGCCACAGCCAATACAATTGGGAAGCTTGCGGGAGGGCTGGCCGATGATATGCTGTCGACGACCCTTCTTGCAACGGAGGCACCAGTGTACATTGCCCCGGCGATGAATGTACACATGTACAGTCATCCGGCCGTCATGAACAACATGAAAAAGCTCGATGAATGGGGCTTTCGTTTTATTGAGCCTGGTGAAGGCTATCTGGCGTGCGGTTATGTGGGGAAAGGCCGGCTGGAAGAGCCGGAGAGTATCGTCAAGGTACTTGAGGGCGAATATAGAAAGACCGTGTCGTTAAAAGGGAAGAAAATTCTCATTACAGCAGGTCCTACACAGGAAAAAATAGACCCTGTGAGGTATTTTACAAATCCTTCTACAGGGAAGATGGGGTTTGCTCTGGCCAGACAGGCGGCACGAAGCGGAGCTGAGGTTACCCTCGTGACAGGTCCTGTCTCTCTCCATACGCCAAAAGGTGTGAAGCGTATCGATGTGGTCTCTGCACAGGACATGTATGAAGAAGTGCTGAAGCATTTCCCCCATGCAGATCTCGTAATTAAATCAGCAGCCGTCGCCGACTACCGGCCGAAGGAGACCTTCCGTCATAAAATGAAAAAATCACCAGGGGAGTATGCGGTTGAAATGGAGCGGACCGATGACATTCTTCAGGAGCTTGGCAGACGGAAAGAATCTCAGTATTTGATCGGGTTTGCTGCGGAAACTAACGATCCTGAGCAATATGGAAGAGAGAAACTGGAGAAAAAGAACCTGGATGCGATTGTGATCAACAATGTTGCAGAGGAAGGGGCGGGCTTCGGAACAGATACCAATGTGTCCCTCTTCATCCAAAGAAACGGCACTGAAAAAACATATCCAATGATGACGAAGGACCAGCTCGCTGAAGAAATTCTTAAGGAAGCGTCTCAGGAGATGTCGGGGCGTGAGCGCACGTGA	MLKDKKIVLGVSGGIAAYKAAALTSKLVQAGAFVKVIMTESARNFVAPTTFQALSRQPVYTDTFDEQDATQIQHIDVADWADLFLIAPATANTIGKLAGGLADDMLSTTLLATEAPVYIAPAMNVHMYSHPAVMNNMKKLDEWGFRFIEPGEGYLACGYVGKGRLEEPESIVKVLEGEYRKTVSLKGKKILITAGPTQEKIDPVRYFTNPSTGKMGFALARQAARSGAEVTLVTGPVSLHTPKGVKRIDVVSAQDMYEEVLKHFPHADLVIKSAAVADYRPKETFRHKMKKSPGEYAVEMERTDDILQELGRRKESQYLIGFAAETNDPEQYGREKLEKKNLDAIVINNVAEEGAGFGTDTNVSLFIQRNGTEKTYPMMTKDQLAEEILKEASQEMSGRERT	PGPT0008815_3096	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
AK012_00288	2409	priA		primosomal protein N'	GTGATTGCTAATGTCATTGTGGACGTAGCCTCCCAGAATACCAACAGACCCTTCGATTATGAAATTCCTGAAAAATTCGAAGGGATTGTGCAGCCCGGGGTCAGGGTGATCGTCCCCTTCGGACCGAGGAAAATCCTCGGCTATGTGATTTCCCTTTCAGAAACGTCCAGCTTTTCTTCCGTCAAGAAAATCACGGACGTGCTGGACGTGATTCCTACGTTGACGGAAGAGCTGCTTCATCTGGGGAAATGGCTGTCCAATTATACCTTAAGTTATTACATTTCCTGTCTACAGGTCATGCTGCCGCAGGTAATGAAAGCCAAATACAGAAAAGAGTTATGGAAACTGACAGATGAACCGCTTCAATCAGCTCTTGATGCTGTATTTGATGGACGGGGCGTCATGGATTTTGAAGAGTTCGAGCAGTCCGGTGTCAGCTACCATGTCCTCAGAAAACATATGAACGAAGGCGAAGTAGATGTTCACTATGAAGTGAAGAGCAGGGAAACGAAGAAGTTGAAGCCTATGGTGGCACCGGCTGTTTCCCCCATCGAAATGGAAGAAAAACTGGAAGACCTTTCACCACAGGCGAGAAAACAGCGGGCCATCGTTGAATATTTTCTTCAGCAGCCGGATCCGTTGGAGAAAAAGCTGCTGCTGGATAAACTCCAAACAACACCCGCTGCGTTAAAGCCGCTTGTGGAGCAGAATGTGATCAAGGAGTATAAACAGGAGGTTTTCCGCGATCCATATGGAGGCAGGGAGTTTAAACGGACGAGACCTTTTGCGTTAACAGAGGAGCAGGAAACTGCCATCCAGCCGATCCTCTCACGGATTGAAAATCAGCAGCACGACGTGTTTCTGCTTCACGGAGTTACAGGAAGTGGGAAAACGGAAGTTTATATGCAGTCGATTCAACAGGTGCTGGATAATGGAGAGGAAGCGATCATGCTCGTCCCTGAAATTGCTTTAACTCCTCAGATGGTGGAGCGGTTTAAAGGACGTTTCGGCTCCAAGGTAGCTGTCCTTCACAGTGCTCTGTCAGCTGGAGAAAAGTACGATGAATGGCGGAAAATCCAGCGGCGGGAAGTCCAGGTCGTTGTAGGGGCACGTTCCGCAATATTCGCTCCATTTACGAACATCGGACTCATCATTATTGATGAGGAGCACGAAACCAGCTATAAGCAGGAGGACAGAACGAGGTACCACGCCCGTGATGTAGCTGTTCAGCGTGCAAAGACCCACAACTGTCCGGTCGTTCTCGGAAGCGCCACTCCATCTCTGGAAACGTATGCGCGGGCGGTGAAAGGCAATTATCAACTGCTTACGCTCAGCAAACGGATGAATGAAGCCGTCATGCCTGAGGTGGAGCTCGTGGATATGAGGGAAGAACTGCATAGTGGAAACCGGTCGATGTTTTCCATCCCTTTAAAGGAGAAAATAGAAGAGCGGCTGGCCAGGAAGGAACAGATTGTCCTGTTCCTCAACCGCCGGGGATACTCCACGTTTGTCATGTGCAGGGACTGCGGACACGTGAGCGAATGCCCCCACTGTGACATCGCCTTAACCTATCACAAGCGGCAGAACCGGCTGAAATGTCACTATTGCTCCCATGAAGAGCCGATGCCTGAGAAGTGTCCGGAATGTGAAAGCAAAACCATCCGATACTTCGGTACAGGGACACAAAAAGTCGAGGAAGCTCTGCAGGAACTTATTCCCGAGGCACGGATCATCCGGATGGATGTGGATACGACGAGGAAAAAAGGGGCCCACGAAAGACTTCTGACACAGTTCGGCGAAGGGAAAGCGGATATTCTGCTTGGTACACAAATGATCGCCAAGGGTCTAGATTTCGGTAATGTTACACTCGTCGGTGTCCTGGCAGCAGATGCGATGCTGAACCTGCCTGATTTTCGTGCCTCTGAAAAGACCTTCCAGCTGCTCACGCAGGTGAGCGGGAGGGCCGGACGCCACGAGAAAAGCGGGGAAGTCGTTGTCCAGACTTATACTCCGGAACATTACAGCATCGAACTGGCCAGTACGTATGATTATGAGCAGTTTTTCCAGGAGGAAATGAAGCTGAGGAAAGCCTTTCGTTATCCGCCGTACTATTATTTGACGTTGTTTACCATCTCACATCCGAATCAGCTCAAAGCGGAAGAAGCCACCCGGAAGATTACGATGTTCATGCAGCAGAAGCTGTCCCAGCAGGCCTATGTACTGGGGCCCACCCCCTCTGCGCTTGCCAGGATCAATAATAGATATCGCTATCAATGCATGGTAAAATACAAGAAGGAACCCGAGCAGCGGAAGTTTGTAGAACGAATACTGCATTATTATGAAGATGAAATGAAACAGGAAAATGGTTTACAGATTACGGTTGATTTTCAGCCGTATCAGTTGATGTAG	MIANVIVDVASQNTNRPFDYEIPEKFEGIVQPGVRVIVPFGPRKILGYVISLSETSSFSSVKKITDVLDVIPTLTEELLHLGKWLSNYTLSYYISCLQVMLPQVMKAKYRKELWKLTDEPLQSALDAVFDGRGVMDFEEFEQSGVSYHVLRKHMNEGEVDVHYEVKSRETKKLKPMVAPAVSPIEMEEKLEDLSPQARKQRAIVEYFLQQPDPLEKKLLLDKLQTTPAALKPLVEQNVIKEYKQEVFRDPYGGREFKRTRPFALTEEQETAIQPILSRIENQQHDVFLLHGVTGSGKTEVYMQSIQQVLDNGEEAIMLVPEIALTPQMVERFKGRFGSKVAVLHSALSAGEKYDEWRKIQRREVQVVVGARSAIFAPFTNIGLIIIDEEHETSYKQEDRTRYHARDVAVQRAKTHNCPVVLGSATPSLETYARAVKGNYQLLTLSKRMNEAVMPEVELVDMREELHSGNRSMFSIPLKEKIEERLARKEQIVLFLNRRGYSTFVMCRDCGHVSECPHCDIALTYHKRQNRLKCHYCSHEEPMPEKCPECESKTIRYFGTGTQKVEEALQELIPEARIIRMDVDTTRKKGAHERLLTQFGEGKADILLGTQMIAKGLDFGNVTLVGVLAADAMLNLPDFRASEKTFQLLTQVSGRAGRHEKSGEVVVQTYTPEHYSIELASTYDYEQFFQEEMKLRKAFRYPPYYYLTLFTISHPNQLKAEEATRKITMFMQQKLSQQAYVLGPTPSALARINNRYRYQCMVKYKKEPEQRKFVERILHYYEDEMKQENGLQITVDFQPYQLM				NA	NA	NA	NA	NA
AK012_00289	948	fmt	COG0223	Methionyl-tRNA formyltransferase	ATGACACGAATTGCATTTATGGGAACACCGGATTTTGCCGTCCCTGTTCTTGACCGGATTATGAAAGAGGGCTATGAAGTGGTGGTGGCTGTGACCCAGCCGGACCGACCGAAAGGAAGAAAAAAGGTCATGACACCACCGCCGGTGAAGACCGCAGCCTTGAACCACGGAATTCCAGTGCTGCAGCCCGAAAAGATTAAGAATGAATATGAGGATGTCCTGGCCTATGACCCGGACTTGATTGTAACGGCGGCTTTTGGACAGATTCTCCCGGAAGCGCTTCTGAACGTTCCGGAATATGGATGTATCAATGTGCACGCGTCCCTGCTGCCTGAATTTCGTGGAGGAGCTCCCATCCACTACAGTATCCTTGAAGGAAAGAAAGAAACCGGTGTGACCATCATGTACATGGTCAAAAAACTGGATGCCGGCGATATGCTTTCCAAAGTTGTCGTTCCGATTGAGGATACCGATCACGTCGGCACACTGCACGACAAATTATCAGCGGCCGGTGCCGACCTTCTCGCCGACACCCTGCCGGATTTGCTGGCAGGAAAAATTACACCGGAAGTACAGGATGAATCCAAAGTCACATTTGCCGGCAACATTAAGCGTGAACAGGAGCTGATTGACTGGAGCAGAGATCAGCAGGAGGTCTATAACCATGTCCGCGGTCTTCATCCATGGCCGGTGGCTTACACGTACTGGAATGGAAAGCCCTTGAAAATCTGGTGGGCTGAGAAAGTTTCCGGAAACTTCTCCAAGCCTGCCGGAACGGTGGTTAAAATCGAGGAGGACGGCTTCCTCGTTCAAACAGGAGAAGGAAAAGCATTGAAAATCGTATCGCTTCAGCCTTCAGGGAAGAAAAAAATGGACGGACAGTCCTTCGTCAACGGTGCTGGTCAATCGTTGAATGAGGGCGACGTATTGGGGGAGCAGCATGGCTAA	MTRIAFMGTPDFAVPVLDRIMKEGYEVVVAVTQPDRPKGRKKVMTPPPVKTAALNHGIPVLQPEKIKNEYEDVLAYDPDLIVTAAFGQILPEALLNVPEYGCINVHASLLPEFRGGAPIHYSILEGKKETGVTIMYMVKKLDAGDMLSKVVVPIEDTDHVGTLHDKLSAAGADLLADTLPDLLAGKITPEVQDESKVTFAGNIKREQELIDWSRDQQEVYNHVRGLHPWPVAYTYWNGKPLKIWWAEKVSGNFSKPAGTVVKIEEDGFLVQTGEGKALKIVSLQPSGKKKMDGQSFVNGAGQSLNEGDVLGEQHG	PGPT0008125_2458	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008125-fmt-K00604	NA	NA
AK012_00290	1347	rsmB	COG0144	Ribosomal RNA small subunit methyltransferase B	ATGGCTAAGTATGTATTAAGGGAAACGGCACTCCATTTGTTAACACGGATCGGTGAACAGGGAGGCTTCAGTCATGTTCTGCTTGACAGAGAAATGTCCAAACAGGAGCTCTCCCGGCAGGATGGAGCCCTTTTGACTGAAATCGTCTACGGAACGCTGCAGCGCAGAGACCTGATCGATTATTATATCCAGCCGTATACTGCCGGTCAGAAGAAAATTAAACCATGGGTCCGCTGGCTTCTTTACATGTCCGTTTATCAAATGATCTTTCTTGAACGCGTCCCGGATCACGCGGTGATTCACGAGGCCGTGGAAATATCCAAAAAACGCGGACATAAGGGAATCTCCTCCTTTATGAATGGTGTCCTGCGCAATGTACAGCGAAAAGGTGTTCAAAGCCTGGACGACATCGAAAATGAGGTCACACGTCTGGCTGTTGAAACGAGTCATCCTGAGTGGCTTGTCAAGCGGTGGACGGATCAATATGGATTGGAAACCACGCGGGCGATGTGTGAGGCGAACAATCACCATCTTCCTATGTCCATCCGGGTCCAGCCCCTGAGAATCACTCGGCATGAGGCTGCTGAACAGCTTCGAGAGGACGGTTTCTCGGTGGAAGAGAGTACGTTCTCCCCCCAGGGTCTGGTTGTAAAAGAAGGAAACATTTTAAACCACACACTCTTTAAAGAAGGCTTAGTAAGTGTTCAGGATCAGAGCTCTATGCTTGTTGCAGAAATGATGGACCTCGAGGAAGAGATGTCTGTCCTTGATGCCTGCAGCGCGCCGGGGGGGAAAACCACACACATAGCTGAAAAGATGAAGGATAAAGGAAGCGTGACCGCTTATGATCTTCACGAGAAGAAGGCCAGGCTCGTCAGTAAAAAAGCCGGACAGCTCCAGCTTACTTCCATTAAAGCCGGGCAGGCGGATTCACGCACGCTCACTTCTCTCCATGATTCAGAAAGCTTTGATCGTATTCTGCTGGATGCTCCGTGCTCCGGACTTGGTGTTTTAAGAGGCAAGCCGGATATTAAATACCACAAAAGTGAAGAGGATATTTACAACCTCAGGAAGATTCAGGACGACCTTTTCAACGAAGTGGCTCCGCTCCTGAAGCCTGGTGGAAAGCTCCTCTATAGTACATGTACGGTGGACCAGCATGAAAATGAGGAAGCTGTCCGTCATTTTCTGGATCAACATCCGGAATTTGAACTGGATCCAGCTTTTGTAAACGATCTTCCCGAGGCGCTGCGTAAAGGAGAAGGCCTGACGGAAGCTGGTCTTCAGCTCTTTCCGCATGAATGGGATACGGACGGATTTTTCTTGACTCGATTGGTGAAAAAATAA	MAKYVLRETALHLLTRIGEQGGFSHVLLDREMSKQELSRQDGALLTEIVYGTLQRRDLIDYYIQPYTAGQKKIKPWVRWLLYMSVYQMIFLERVPDHAVIHEAVEISKKRGHKGISSFMNGVLRNVQRKGVQSLDDIENEVTRLAVETSHPEWLVKRWTDQYGLETTRAMCEANNHHLPMSIRVQPLRITRHEAAEQLREDGFSVEESTFSPQGLVVKEGNILNHTLFKEGLVSVQDQSSMLVAEMMDLEEEMSVLDACSAPGGKTTHIAEKMKDKGSVTAYDLHEKKARLVSKKAGQLQLTSIKAGQADSRTLTSLHDSESFDRILLDAPCSGLGVLRGKPDIKYHKSEEDIYNLRKIQDDLFNEVAPLLKPGGKLLYSTCTVDQHENEEAVRHFLDQHPEFELDPAFVNDLPEALRKGEGLTEAGLQLFPHEWDTDGFFLTRLVKK				NA	NA	NA	NA	NA
AK012_00291	762	prpC	COG0631	Protein phosphatase PrpC	ATGATAGAGTACTACCTCACAGATCAAGGCAGAGTAAGGGCCCATAATGAAGACGCAGGAGGCGTCTTCAGGAATCAAGCCGGTCAAGTGCTTGCAGTGACGGCCGATGGCATGGGAGGTCATCAGGCAGGGGATGTAGCCAGTCGGATGGCTGTTGATGTTTTACATAACGAATGGGAGCAGTCGGACGAGTTTCATACCCCGAGCGGGGCAGAAGAATGGATGAAGGAAACGATCCGCGCCGCCAACAATGAAATCAAAACCTATGCTTCTGAGCATGAAGAATGTGCCGGAATGGGAACGACGATTGTGGCAGCCATCTGTACTGAACAGTTCGTGTCGATTGCGCATGTGGGGGACAGCCGTTGTTATTTAGCCAATGCGTACGGGTTCAAAGCCGTAACGGAAGACCATTCGCTCGTCAACGAACTAGTCCGCTCCGGCCAGATCACAGAAGAACAGGCCGAGCATCATCCCCGCAAAAATGTCCTGCTTAAGGCGCTGGGTACGGAATATGATCTTTTCCCAGATGTTCAGAGCATGGAATGGGACCCGGATAACCGTCTCCTTCTTTGTACAGACGGTCTGACGAATAAAGTGAGCTTTGATGAGCTCAGCGGTTTGAAAGACCATGAAGGGGACTGGGCCGGTTTCGCCCATTCTCTTGTCGAACGGGCCAATGAACGTGGTGGAGAAGACAACATTACACTTGCCATTGTCCACCACCTGCCACCCCAGGGTGAGAAAGAAGGTGTGGATTGA	MIEYYLTDQGRVRAHNEDAGGVFRNQAGQVLAVTADGMGGHQAGDVASRMAVDVLHNEWEQSDEFHTPSGAEEWMKETIRAANNEIKTYASEHEECAGMGTTIVAAICTEQFVSIAHVGDSRCYLANAYGFKAVTEDHSLVNELVRSGQITEEQAEHHPRKNVLLKALGTEYDLFPDVQSMEWDPDNRLLLCTDGLTNKVSFDELSGLKDHEGDWAGFAHSLVERANERGGEDNITLAIVHHLPPQGEKEGVD				NA	NA	NA	NA	NA
AK012_00292	1992	prkC	COG0515	Serine/threonine-protein kinase PrkC	ATGCTCAATGACCGTCTTCTTAATGACCGTTACCGTGTCGATAGAATGATCGGCGGCGGAGGGATGGCTAACGTATACTTAGCCCACGATACAATCCTCGACAGAAGCGTTGCCATCAAGGTACTAAGGCTGGAACACGGAAATGATGAAGAGTTTATTGCGCGTTTCCACCGCGAAGCCCAGTCGGCTACCAGTCTTTCTCATCCGAACATTGTCAATATTTATGACGTTGGGGAAGAAGATGATTTGTATTATATGGTCATGGAATATGTAGACGGCATGACACTGAAGCAGTATATCCAGCAGAACAGCCCCGTTGATGTTTCCGAAGCGGTGGACATTATGCGCCAGGTGACTTCTGCCATCACCCATGCCCATGACAACGGCATTGTACACAGAGATATCAAACCGCAGAATATTCTCATTGATCACTATGGTCATGTGAAAGTGACGGACTTCGGAATTGCCATGGCTTTGAGTGCGACTGCTCTGACCCAGACAAATTCAGTGCTCGGTTCTGTTCATTATCTGTCTCCTGAACAGGCTCGCGGCGGAATGGCGACGAAGAAATCTGATGTCTATTCAATGGGCATTGTTTTTTTCGAACTGCTCACAGGGCGTCTTCCTTTTTCAGGCGAGTCTCCGGTTTCCATTGCCCTCAAGCATCTGCAGCATGATACCCCGTCATTAAAGCGGTGGCATCCGGATCTGCCGCAGAGTGTGGAAAATGTCGTATTGAAAGCAACCGCTAAAGATCCTTTTCACCGTTATCCGACAGTGATGGAGATGGAACAGGACATTGAAACATCCCTGGAACCTTACCGGCTGGATGAGCAACCATTCGAATTGCCGGAGGAGGATGAAGAGGAAAAAACGAAAGCCATCCCTGTCATTACCAAAGAAGCGTACGGAGATCAAACGGAAGAAAACACGATCATCCATACGGGGGAATATCAGCCTGTAAAGGACACAAAAGCGTACCAGCAGCCGCCTGAGAAAAAGAAAACTTTGGATAAACAAGAAAAAAAGAAGAAAAAAAGGATCTGGCCCTGGATTCTCACCTTTCTTCTTCTGATCATCTTAGGAGGCGGAGCAGCCCTGTATTTTACCCCTGGCATCATTCAGCCTGCAGATGTGACGATTCCGGAAGACCTTGATGGACGGGAATATGAAGAGGTATACAGTGAATTGAGTGATTTGAACTTGATGGTCAGCCGTGAGTCCCAGTATTCGGATGAAGTGGAGGAGGGGCTTGTCATCACGACAGCTCCTGAACCGGGTATGACCGTGAAGGAAGAAACGGAAGTGACGATTTATACGAGTAAAGGAAAAGAGCGGGAGGAATTTCCGGATTATGTGGGGGAAGAATTTGACCAGGTCGATCAGGAACTTCAGGATAAGGGGTATGCAGGAATTGAACGAATCCCCGTTTCCAGTGACGAGCCTGCCGGTCAGATCGTCGCACAGCTTTCGCCGAATCCAGGAGCAAGCGTGATTCCGGAAGAAGAGGAAGTCATTTTCCGCGTCAGTACCGGACCTCCAACCATCAATCTTGGCCGGCTTGACCGAATGACACGGGAACAGGCGGAGAAATATTTAACGGACCGCAGCCTTGAGGCTGAAGTAGCGGAAAGCTATTCGGAAACGGTTCCTGCGGGAGAAGTGATCACACAGGATCCAGAAGCCTATACAGATGTGAAAGAAGGTTCAACGGTAACCATCACTATATCCAAGGGACCAGAGGAAAAACCACCGCGGGAAGAAACGGTAACGCTGGAGGTTCCGTTCAATGAGGAATCGGAAGAAACGGAACAGCAGGTGTTGATCTATGTCGATGATTACGAAAACGATATGGAGACACCGGTGGTGGAAGAAACCATCACGGAAACCACTTCCTTTGATGTTACGCTGATCATAGAAGAAGGCGGGGAAGCGTCTTACCGCGTGCAAAGAGGTGATGAAGTGATTGACGAAGGAAATGTTCCTTATTAA	MLNDRLLNDRYRVDRMIGGGGMANVYLAHDTILDRSVAIKVLRLEHGNDEEFIARFHREAQSATSLSHPNIVNIYDVGEEDDLYYMVMEYVDGMTLKQYIQQNSPVDVSEAVDIMRQVTSAITHAHDNGIVHRDIKPQNILIDHYGHVKVTDFGIAMALSATALTQTNSVLGSVHYLSPEQARGGMATKKSDVYSMGIVFFELLTGRLPFSGESPVSIALKHLQHDTPSLKRWHPDLPQSVENVVLKATAKDPFHRYPTVMEMEQDIETSLEPYRLDEQPFELPEEDEEEKTKAIPVITKEAYGDQTEENTIIHTGEYQPVKDTKAYQQPPEKKKTLDKQEKKKKKRIWPWILTFLLLIILGGGAALYFTPGIIQPADVTIPEDLDGREYEEVYSELSDLNLMVSRESQYSDEVEEGLVITTAPEPGMTVKEETEVTIYTSKGKEREEFPDYVGEEFDQVDQELQDKGYAGIERIPVSSDEPAGQIVAQLSPNPGASVIPEEEEVIFRVSTGPPTINLGRLDRMTREQAEKYLTDRSLEAEVAESYSETVPAGEVITQDPEAYTDVKEGSTVTITISKGPEEKPPREETVTLEVPFNEESEETEQQVLIYVDDYENDMETPVVEETITETTSFDVTLIIEEGGEASYRVQRGDEVIDEGNVPY				NA	NA	NA	NA	NA
AK012_00293	882	rsgA_2	COG1162	Small ribosomal subunit biogenesis GTPase RsgA	ATGGCAACCGGAAAAATTATAAAATCTTTAAGCGGTTTTTATTATGTGCTCCATGAGGGTGAGGTTTATCAATGTCGCGGGCGTGGGAACTTCCGCAAGAAGAAAGTGTCTCCACTTGTCGGGGATATGGTGGAATTCAAGGCGGACAACCATGAAGAGGGTTATATCCTATCCATCCATGAGCGTAAAAATGAATTTGTCAGACCGCCGATTTCAAATGTCGATCAAGCGTTGATTGTGACGTCGGCCATCCACCCTGATTTTAATTCGCTTCTTCTCGACAGGTTCCTCGTCCTGGTTGAAGCCAAGCGGATTGAACCATTTATCGTGATTTCCAAGATGGACCAGCTGGACAAGAGCCTGGTGGAAGAAATGGAGACGTATAAGGCGCAGTATGAAAAGGTCGGCTACCCGGTGATTTTGTCGGCTGTGAACGATTCCCATTCCATGGATGAAATTCAAGCCCATCTGGCCGGGCGGACGACGGTCATAGCCGGACAGTCGGGGGTTGGGAAATCCTCCCTGCTGAACTCCATCGATCCGCGCCTTTCCATTGATACAGATGAAATCTCTGAAAGCCTCGGGAGAGGGAAGCATACGACGCGCCATGTGGAACTTTACGATATTTCGGGAGGATTGGTGGCGGATACACCCGGGTTCAGTTCCCTTGAGTTTGGAGATTTGGAACTCGAACAGCTCCCTGAATGTTTCCCGGAATTCGTAGAAGTTCAAAACGATTGTAAATTCAGAGGCTGCCTGCATCACAAAGAACCCAAATGTGCGGTGAAAGCCGGTGTAGAGAACGGTGAGATATCAGAACACCGCTATGACCACTACCTGCAGTTTATGCAGGAAATCCAGAATAGAAAGCCGAGGTATTAA	MATGKIIKSLSGFYYVLHEGEVYQCRGRGNFRKKKVSPLVGDMVEFKADNHEEGYILSIHERKNEFVRPPISNVDQALIVTSAIHPDFNSLLLDRFLVLVEAKRIEPFIVISKMDQLDKSLVEEMETYKAQYEKVGYPVILSAVNDSHSMDEIQAHLAGRTTVIAGQSGVGKSSLLNSIDPRLSIDTDEISESLGRGKHTTRHVELYDISGGLVADTPGFSSLEFGDLELEQLPECFPEFVEVQNDCKFRGCLHHKEPKCAVKAGVENGEISEHRYDHYLQFMQEIQNRKPRY	PGPT0009020_4272	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
AK012_00294	651	rpe		Ribulose-phosphate 3-epimerase	ATGACTAAAATTGCACCTTCCATCTTATCTTCTGATTTTGCAAGACTGGCTGAAGAAATAAAAGATGTGGATCAAGGCGGAGCGGATTACATTCATGTGGATGTTATGGACGGCCATTTTGTTCCTAATATCACAATAGGGCCTTTGATTGTTGATGCGGTGAGGCCGGTCACGGACCTGCCGCTTGATGTCCATTTAATGATTGAAAATCCGGATGCCTATATTGAAGCTTTTGCCAAAGCGGGAGCAGATATCATTACGGTCCATCAGGAAGCCTGCCCCCACCTGCACCGTACGCTGCAGCTGATCAAAAGCTTCGATGTGAAAGCAGGCGTTGTCATCAACCCGGGTACGCCGGTGGAAATGATCCGTCCAGTCCTTAAGGAAGTGGATCTCGTTTTACTAATGACTGTGAACCCTGGGTTTGGCGGACAGGCCTTTATTCCTGATGTGCTTGAAAAAGTCACCGAGGCGGCTCAGTTCAGAAGAGACCACGGACTATCCTATGAAATTGAAGTGGACGGTGGTGTGAATGAACGCACAGCCCGTCTTTGTACAGAAGCCGGTGCTGATGTTCTTGTAGCTGGAAGTGCGGTCTTTAATCAGCCGGATAGAAAACAGGCCATCGAAAAGATCCGGGCCTCCTTGTAA	MTKIAPSILSSDFARLAEEIKDVDQGGADYIHVDVMDGHFVPNITIGPLIVDAVRPVTDLPLDVHLMIENPDAYIEAFAKAGADIITVHQEACPHLHRTLQLIKSFDVKAGVVINPGTPVEMIRPVLKEVDLVLLMTVNPGFGGQAFIPDVLEKVTEAAQFRRDHGLSYEIEVDGGVNERTARLCTEAGADVLVAGSAVFNQPDRKQAIEKIRASL	PGPT0017425_5029	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
AK012_00295	678	thiN	COG1564	Thiamine pyrophosphokinase	GTGAAAAAAGTCATCGTCGTCGGTGGAGGGCCGAAATCGTATATCCCGAGCCTCCAGCGATGGGCAGAAGAAGATGTGGAATGGATTGGTGCCGATCAGGGAGCAGAAGTTCTGGTAGAGGCAGGGATATCCCCTGATGCAGCTATTGGGGATTTTGATTCTGTAAGCGAGCGTTCCTATCAGAAAATCAAAGAGCAGGCCCTGGAACTGCATACATATCCAGATGAAAAAGATGAGACGGATTTGGAGCTTGCGATTAAGGAGGCACTGAACCGGAAGGCGGAGCATATCGTATTACTCGGGGTAACCGGGGGGAGGATGGATCATTCCCAGGCGAACATCCAGCTGTTGTTTCCATTAATGGAAAAAGGCATTAAGGCTGTTATAGTAGATCACCAGAACCAGATTGAAATGGCGGCGTCCGGTTCGCATAAAATAGAAGAGGATCCGCAGTATCCGTATCTTTCTTTTCTTCCTGTTACTCTGGAGGTTAAAGAGCTGACGCTCAATGGATTTTACTACCCGCTTTCCCGTGCCCATCTGCCTTTTGGGTCGACCTTATGTATCTCCAACCGGCTGGTCGAAGATACAGGTACTTTTTCATTTGAGTCAGGCATACTCTTAGTAATAAGAAGTACAGACTCAATGGAAGATCAGGAAAAAGGGAGTTCGCATTAG	MKKVIVVGGGPKSYIPSLQRWAEEDVEWIGADQGAEVLVEAGISPDAAIGDFDSVSERSYQKIKEQALELHTYPDEKDETDLELAIKEALNRKAEHIVLLGVTGGRMDHSQANIQLLFPLMEKGIKAVIVDHQNQIEMAASGSHKIEEDPQYPYLSFLPVTLEVKELTLNGFYYPLSRAHLPFGSTLCISNRLVEDTGTFSFESGILLVIRSTDSMEDQEKGSSH	PGPT0009035_943	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009035-thiN|TPK1|THI80-K00949	NA	NA
AK012_00296	189	rpmB	COG0227	50S ribosomal protein L28	ATGGCACGTAGAAGTGTTCTATCTGGTAAAGGTACACGCGCAGGTAACCACCGTTCACACGCGATGAACGCTAATAAACGTAAATTCAAAGCAAATGTTCAAAAAGTACGCATCCTTGTGGATGGCAAGCCTCAGAAAGTTTACGTAACAGCGCGTGAACTTAAATCTGGTAAAGTCCAGCGCGTGTAA	MARRSVLSGKGTRAGNHRSHAMNANKRKFKANVQKVRILVDGKPQKVYVTARELKSGKVQRV				NA	NA	NA	NA	NA
AK012_00297	363			putative protein	ATGTCTGTGGATTTAAACAACCAATACGGCCATATTACGATTAGCAATGAAGTTATCTCAACGATTGCTGGAGGAGCAGCTGTAGAGTGCTACGGCATCGTCGGCATGGCTTCAAAAAACCAGCTGCGGGACGGGCTGGCAGAAATGCTCCGTAAAGAGAACTTTTCCAGAGGTGTCGTTGTCAGACAGGAAGAAGATCGCCTCCACATTGATATGTATATTATTGTGAGCTATGGTACAAAGATATCGGAAGTCGCTCATAACGTCCAATCTCAAGTAAAATACACATTAAACAAAACAGTCGGATTGTCCGTAGACTCTGTCAATATTTTCATTCAGGGAGTCCGCGTGACAAGCGAATAG	MSVDLNNQYGHITISNEVISTIAGGAAVECYGIVGMASKNQLRDGLAEMLRKENFSRGVVVRQEEDRLHIDMYIIVSYGTKISEVAHNVQSQVKYTLNKTVGLSVDSVNIFIQGVRVTSE				NA	NA	NA	NA	NA
AK012_00298	1665			putative protein	GTGACGTTACAAAAGCTTGACGGCAGAACATTAGCCGAGATGATTTTACAGGGAGCGCATTATTTAAAGCAGAATTCGCAGATGATTGATGCGTTGAATGTCTTTCCTGTACCTGACGGGGACACAGGAACCAATATGAATCTTTCCATGACATCTGGAGCGGAGGAAGTGAGGAACGTTTCCCAGGACCATGCAGGAGCGGTGGCCTCTTCTCTTTCCAAAGGTCTTCTGATGGGGGCCAGGGGGAATTCAGGAGTGATTCTTTCCCAGGTTTTCCGCGGATTTTCGAAAGCCATTGAGAACAAAGAGGTCTTAACGACCCGGGATTTCTCCGATGCCCTCCAGGGCGGGGTGAAAACGGCTTATAAAGCAGTAATGAAGCCTGTGGAAGGAACCATTTTAACTGTAGCCCGTGAAGCGGCGGAAGCTTCTGTGGAAATCGCTGAAAAAGAAGAGGACTTCATTCCTTTCATGGAAAAAGTGGTGGAAGCGGCTAAAGCTTCTTTAAAGCGGACGCCTGAACTTCTTCCTGTTCTTAAGGAAGTCGGGGTCGTCGACAGCGGCGGTCAGGGGCTTGTCACGATTTATGAAGGTTTCCTCGCTAATTTAAAGGGCGAGGAAATGCCGGATGTCGAAGAAATGGTTTCCATGAACGAAATGGTAAATGCTGAACACCATAAATTAGCCCAGGACTTCATGAACACCGAAGATATCCATTACGGCTACTGTACAGAGTTCATGGTGAAATTCGAGGAGGATAAGCTGGCGGAGAATCCTTACGATGAAGAAGCTTTCCGTCATCAACTGAGCGAACTTGGCGACTCCCTGCTTGTCGTTTCTGACGAGGAGCTTGTAAAAGTCCACGTCCACGCAGAGTATCCTGGTGAAGCGATGACACTCGGACAGAAGTATGGCAGTCTGATCAACATGAAAATTGAAAACATGCGTGAGCAGCATACATCCATCGTCGGTGATAAAAAAGCGAAGGCGAAGCCTCAGGAAAAAGCGCCTTACGGAATTGTAACCGTCAGCATGGGGGACGGGATGAAGAAACTTTTCGAAAGCCTTGGAGCAACCGTTGTCATCCAGGGAGGTCAGACGATGAATCCGAGTACCCAGGACTTATCGGAGGCCATTAAAGAAGCGCATGCGGAACGTGTGTTCATCCTTCCGAATAACAAAAACATCGTGATGGCAGCAGAACAGGCAGCAGAGATGGCTGACTCGGAAGTAGCTGTGATTCCGACGAAGACCATTCCCCAGGGGATGAGTGCTATGCTTGGTTTCAATCCTGAAGCCGATCTCGATACCAATAAAGAAGAGATGACCAGTTTGATGTCTGAAGTGAAAACAGGCCAGATTACCTATGCTGTCCGTGATACTCAGATTGATGGTCTGGATATTGAGAAAGATCATTTCATGGGAATCTCAGACGGGAAAATTTCAGCGACGGACAAGGACGCCGTAACCACAGCGAAAACACTGCTCAACCAGATGATTGATGAGGATGAAGATGAGATCCTGACGATTCTGACGGGTGAAGGGGTGGACGATAAGGATATTGCTGAGCTGGAAGCCTACGTGGAAGAAACCTTTGAAGATTTAGAGGTTGAAATTCACCACGGCGGGCAGCCGATCTACAGCTATATCTTCTCGATTGAATAA	MTLQKLDGRTLAEMILQGAHYLKQNSQMIDALNVFPVPDGDTGTNMNLSMTSGAEEVRNVSQDHAGAVASSLSKGLLMGARGNSGVILSQVFRGFSKAIENKEVLTTRDFSDALQGGVKTAYKAVMKPVEGTILTVAREAAEASVEIAEKEEDFIPFMEKVVEAAKASLKRTPELLPVLKEVGVVDSGGQGLVTIYEGFLANLKGEEMPDVEEMVSMNEMVNAEHHKLAQDFMNTEDIHYGYCTEFMVKFEEDKLAENPYDEEAFRHQLSELGDSLLVVSDEELVKVHVHAEYPGEAMTLGQKYGSLINMKIENMREQHTSIVGDKKAKAKPQEKAPYGIVTVSMGDGMKKLFESLGATVVIQGGQTMNPSTQDLSEAIKEAHAERVFILPNNKNIVMAAEQAAEMADSEVAVIPTKTIPQGMSAMLGFNPEADLDTNKEEMTSLMSEVKTGQITYAVRDTQIDGLDIEKDHFMGISDGKISATDKDAVTTAKTLLNQMIDEDEDEILTILTGEGVDDKDIAELEAYVEETFEDLEVEIHHGGQPIYSYIFSIE				NA	NA	NA	NA	NA
AK012_00299	909			hypothetical protein	ATGAAGAAATTACTGATATTTTCACTGGTCGGATTTATGGCCCAATTGATGGACGGAGCACTCGGAATGGGGTTTGGTTTAAGTTCCTCCACCATTCTCCTGGCCTACGGAATGGCTCCGGCGGTGGCTTCAGCTTCTATCCACTTATCCCAGATTGCCACAACAGCGGCCTCCGGGTTCTCCCACTATAAATTCGGGAACGTGGACAAACGCCTCGTCTTAACACTTGCTCTTCCTGGTGGAATCAGCGCTTTCACAGGCGCTGCCCTGCTCAGCTGGGTTCCAGGTGATTTGATCCGCCCGTACATCTCTATCTTTTTACTAGGGCTGGGCGTTTATGTAGTCATCCGCTTTTTACTTATGAACAGGACGAAACCTTTGAAGTCAGAAAAAAAACCGTTCCGACGCCGGTTCTTGTTCCCTCTCGGTTTCCTGGGTGGTTTTCTCGATGCGGTAGGCGGTGGCGGATGGGGACCAGTGAATACTCCGGTCCTGTTATCCAGTAAAGGAATCCTTCCCAGAAAAGTGATCGGCACGGTAGATACGAGTGAATTTATCGTTACCTTATCCGCAACGGCTGGTTTTCTACTCTTTCTTGGTTGGGAAGAGCTCAGCTGGCTGCTGGTTCTGGCTTTTGTCATTGGCGGGGTCATGGCCGCTCCTCTGGCAGCCTGGCTCGTAAAAAAACTCCCTCCTGTCGTCTTGGGGGTTGCTGCAGGTGGTTTTATCATTTTGACAAACAGCCGCACCCTGCTTACTTATGCTCCATGGAATGAACAGACGTTATATATCATATACAGCCTGCTGATAACCGGGTACGCGGCTGCGGTCGTCTTCTCCATCCGGACATATATAAAACTTCACAGACACCCGCATACAGAAACGCGGTTAAAAAAAGCGCAGTTCTAA	MKKLLIFSLVGFMAQLMDGALGMGFGLSSSTILLAYGMAPAVASASIHLSQIATTAASGFSHYKFGNVDKRLVLTLALPGGISAFTGAALLSWVPGDLIRPYISIFLLGLGVYVVIRFLLMNRTKPLKSEKKPFRRRFLFPLGFLGGFLDAVGGGGWGPVNTPVLLSSKGILPRKVIGTVDTSEFIVTLSATAGFLLFLGWEELSWLLVLAFVIGGVMAAPLAAWLVKKLPPVVLGVAAGGFIILTNSRTLLTYAPWNEQTLYIIYSLLITGYAAAVVFSIRTYIKLHRHPHTETRLKKAQF				NA	NA	NA	NA	NA
AK012_00302	729	cysH	COG0175	Phosphoadenosine phosphosulfate reductase	ATGAATACGAGTGCACCAACGTATGAAACATTCACCGGGGACCCTCTGCTCCACATGGACGTTGAGGATGGACACAAGGGAGCACGGCGTGTCATTGAATGGGCCTACGGGCATTATGGAAAGCAGCTCGTTTATGCGTGCAGTTTCGGTGCTGAAGCGATCGTACTGCTTGATTTTATTGCAAAGGCCCAGCCTGATGCCGATGTCGTTTTTCTGGACACCGGCCTTCACTTCCAGGAAACCTATGATTTAATTGAGAAAGTGAAGAAGAGGTACCCGAAACTGAACATCCATATGAAAAAGCCCGATTTGACCGTGGAGGAGCAGGCGGAGAAGCATGGGCCGGCTCTGTGGAAAAGAAACCCCGATCAATGCTGTGCGATCAGGAAGATCAAACCGTTGGAAGAAGCCCTTACAGGAGCGACGGCCTGGATGTCCGGGTTAAGAAGGGAACAGTCCGCAAGCCGGAGCCATACAGATTTCGTGAACAAGGATGAACGCTTCCAATCCATTAAAATATGCCCCTTGATTCACTGGACATGGGAAGACGTATGGGATTATATCCGACTAAATAGCTTGGATTACAATGAATTACACGATCAAAGCTATCCAAGTGTCGGCTGCATTCCCTGCACAGCGAAAGCACTGGATGATGGCCGTTCAGGAAGGTGGCAGGGATTCAATAAAACCGAGTGTGGACTCCATACAGCAGGAGATACGAAACAATAA	MNTSAPTYETFTGDPLLHMDVEDGHKGARRVIEWAYGHYGKQLVYACSFGAEAIVLLDFIAKAQPDADVVFLDTGLHFQETYDLIEKVKKRYPKLNIHMKKPDLTVEEQAEKHGPALWKRNPDQCCAIRKIKPLEEALTGATAWMSGLRREQSASRSHTDFVNKDERFQSIKICPLIHWTWEDVWDYIRLNSLDYNELHDQSYPSVGCIPCTAKALDDGRSGRWQGFNKTECGLHTAGDTKQ	PGPT0002785_2312	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002785-cysH-K00390	NA	NA
AK012_00303	1146	sat	COG2046	Sulfate adenylyltransferase	ATGTCAATTATTCAACCGCATGGCGGACGTTTAATCAATCGCTTTACAGAAGAGCCGGAGTCACTGCCGGAGCAGAGGATCGAACTTGATGCGATGGCCTTGAGTGATATCGATTTAATCGCCAATGGAGCCTACAGTCCGCTTCAAGGGTTTTTAACACAGGAAGATTATGAAAACGTAGTGGAAGATCTTCGTTTGAAGGACGGCACCCCATGGAGCCTTCCGATCACCCTGCCGGTTTCTGAGCAGCAGGCCGCTTCGCTAACTGGCCGGGCAGCGCTCGTTAAGGACGGCACGGTTTACGGCGTGATTGAAATCGAAGATATTTTCAAGCCTGATAAACAAAAAGAAGCCGCAAAGGTCTACTTAACAACGGAAGAGGCTCACCCCGGCGTCGGTAAACTTTACAACCGGCCGGACTATTATGTCGGTGGAAAAATCGAAGTATTCGCAAGACCGGAACGGCAGCATGGAAATCATTATTATCTTGATCCCGCAGAGACGAGGGAACGATTCCAAGAAGCTGGATGGGAAAAAGTGGTCGGTTTCCAAACACGCAACCCTGTACACCGTGCTCATGAATACATTCAAAAAGCAGCCCTTGAAAGCGTCGACGGCTTATTTTTGAATCCACTCGTTGGGGAAACGAAAAGCGATGACATCCCAAGTGATGTGCGTATGAAGAGCTACGAAGTGCTGTTGGATGAATATTATCCAAAAAACCGGGTTACCCTGGCTGTCTTCAATGCGGCGATGCGTTATGCAGGACCGAGGGAAGCGGTGTTTCATGCGATTGTCCGTAAAAACTTCGGATGCTCCCACTTCATTGTCGGACGTGACCATGCGGGTGTCGGCGATTATTACGGTACATACGATGCCCAGAAAATTTTCAGCCATTTTGGAGAAGGAGAGCTGGAAATTACACCGGTCTTTTTTGAACACAGCTTTTACTGCGGAGCCTGTGAGGCCATGGCTTCTCATAAAACCTGCCCGCATGACAAGGAACATCACGTGATTTTGTCCGGAACAAAAGTGCGCGAGCTGCTCCGCAACGGGGAAAAACCTCCGAAAACGTTCAGCCGTCCGGAAGTCGTCGACGTATTGATCGAAGGACTCAAACAGCAGACAGCGGATGTAAAGGGGTGA	MSIIQPHGGRLINRFTEEPESLPEQRIELDAMALSDIDLIANGAYSPLQGFLTQEDYENVVEDLRLKDGTPWSLPITLPVSEQQAASLTGRAALVKDGTVYGVIEIEDIFKPDKQKEAAKVYLTTEEAHPGVGKLYNRPDYYVGGKIEVFARPERQHGNHYYLDPAETRERFQEAGWEKVVGFQTRNPVHRAHEYIQKAALESVDGLFLNPLVGETKSDDIPSDVRMKSYEVLLDEYYPKNRVTLAVFNAAMRYAGPREAVFHAIVRKNFGCSHFIVGRDHAGVGDYYGTYDAQKIFSHFGEGELEITPVFFEHSFYCGACEAMASHKTCPHDKEHHVILSGTKVRELLRNGEKPPKTFSRPEVVDVLIEGLKQQTADVKG	PGPT0002410_1055	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002410-sat|met3-K00958	NA	NA
AK012_00304	618	cysC	COG0529	putative adenylyl-sulfate kinase	GTGAACGAATTGGCGACGAATCTAACATGGCATGAAGCCGCTGTACAAAAACAGGATTACCGCAGGAAAAATGGTCATTACAGTGGAGTACTCTGGTTTACCGGCCTTTCAGGGGCTGGTAAATCCAGCATTGCCAACCACTTGAACCGGCTGCTTTTTGAGCACGGCATCCAGACATACCTGCTTGATGGGGATAATGTCCGTCATGGATTAAACCAGGACCTGGGTTTTTCTGAAACAGACCGGACAGAGAATATCCGACGGATCGGTGAAGTATCCAAATTGTTCACAGACAATGGTTCCATTGTTTTGACAGCCTTTATTTCTCCGTACAGACAGGACCGTGATCGTGTCCGTTCTCTTTTGGCAGAGGAAGAGTTTATTGAAGTCTTTGTCGATTGTCCTGTTGAGGAATGTGAAAGCAGGGACCCTAAAGGATTGTACAAAAAAGCGAGGGCGGGTGAAATCTCCGGTTTTACAGGCGTGGACGCCCCGTATGAGGCACCGGTGAATCCGGAATGTGTCGTGCGGTCTGATCAGCATTCCATCCAGGCCTGTGCGGAGCAGATTTTTCAACTTCTTATTGATAAAAAGTGGTTGAACGACAAGGAGGGATAA	MNELATNLTWHEAAVQKQDYRRKNGHYSGVLWFTGLSGAGKSSIANHLNRLLFEHGIQTYLLDGDNVRHGLNQDLGFSETDRTENIRRIGEVSKLFTDNGSIVLTAFISPYRQDRDRVRSLLAEEEFIEVFVDCPVEECESRDPKGLYKKARAGEISGFTGVDAPYEAPVNPECVVRSDQHSIQACAEQIFQLLIDKKWLNDKEG	PGPT0002780_1760	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002780-cysC-K00860	NA	NA
AK012_00305	777	sumT	COG0007	Uroporphyrinogen-III C-methyltransferase	GTGACCAAAGTATATATTGTCGGGGCAGGTCCGGGAGATGTGGATCTCATTACCGTTAAAGGTCTTAAAGCTGTCCAGAAGGCGGATGTAGTGCTGTATGACAGGTTGATCAACCAGGATCTTCTGGAAGAGACGAAAGCAGGGGCAGAGCTTGTCTTCTGTGGGAAAAGGCCGGATCATCACGCGTTGTCTCAGTCGACCATCAATCATCTGCTTGTTAAATATGCGCTTCAAGGGAAAGTCGTGACACGACTCAAAGGGGGAGACCCCTTCGTGTTCGGCCGTGGGGGCGAAGAAGCAGAAGCCCTTGCAAAAAGGTCCATTCCTTTTGAAATCGTCCCAGGGATTACGTCAGGGACGGCTGCTCCTGCTTATGCCGGCATCCCTGTTACACACAGGGATTACAGTTCATCGGTCGCATTCATTTCCGGAGTCAGTAAAAAAGGGACAGATGAGGAAGCGTATTGGGAGCGGGTCGTTAAGAGTATGGATACACTCTGTATATACATGGGAGTCAAACGGCTTCCTGAGATATGTGAACGGTTGAAAAAATACGGGCGTCCAGCGGATACACCGATGGCACTCATCCAAAATGGAACAACGAGCAGTCAGAAAATGGTGAAAGGGACGATTGATACCATTGTGGAAAAGAGCCGCTTCATTGAAAATCCTGCCATGATTGTAGTGGGGGAAGTAGTGGAATTAAGCAGCCACCTTCAATGGTTCAATCCCGCCGTGCCTGACGTCCAGACATCTGAACAAACCATAGTAGGGTAG	MTKVYIVGAGPGDVDLITVKGLKAVQKADVVLYDRLINQDLLEETKAGAELVFCGKRPDHHALSQSTINHLLVKYALQGKVVTRLKGGDPFVFGRGGEEAEALAKRSIPFEIVPGITSGTAAPAYAGIPVTHRDYSSSVAFISGVSKKGTDEEAYWERVVKSMDTLCIYMGVKRLPEICERLKKYGRPADTPMALIQNGTTSSQKMVKGTIDTIVEKSRFIENPAMIVVGEVVELSSHLQWFNPAVPDVQTSEQTIVG	PGPT0003685_1787	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0003685-sirA|ylnD|cysG|cobA-K02303	NA	NA
AK012_00306	744	sirB	COG2138	Sirohydrochlorin ferrochelatase	ATGGAAGCTGTCCTGTATGTGAGTCACGGAAGCAGAAGAAAAGCAGCCACCCGGCAGGCGGAGGACTTTTTACACCGTGCTGCGGGTGCCCATGACCGGCCTTATGAGATTTGTTATTTGGAACTTGCTCATCCTGATATATCAGAGGGGATGAGACGTCTCGTGGAAAAAGGAGCCGATGCCGTCGTTGTGCAGCCGGTCCTTCTGTTAAGTGCGGGGCATTATTATAAGGATATCCCGGAAGAACTCGACAGAATTTCCGGCAGTTATCCTGAGCTGACGATTTCGTATGGAAAGCCGCTTGGTGTGCAGGAAAACATTATAAAAGCGCTGGCAGAACGAATACAGGAAACGAATCCACCCGTTGGAAAGAAGACAAACATCCTGTTGGTGGGAAGAGGAAGTCATCACCCGGATACACCGGCAGCGGTCGAAAAGATTGCAGGACGCCTGGGAAAAGAAATAAGCGGAACCTCTGTGGACGTGTGTTACCTTGCAGCCCTTTCCCCTCGTTTTTCTGAGGCTTTCCAGCGCTCGGTCGAGGCTGATGAGCATACGATCGTTGTGCCATACCTCTGGTTCACGGGTGTTTTGATGGAGGAGATTCAAGCAGTTGTCCATCAGGCTGTTCAGCGGGGATATTCTGCTGCTGCCGCCCATCATCTCCAGGATCACCCGGCGATGGAACAGTCGCTTCAATTCCGGGTGAACGAGGCGCTGAACAAACTTTCCAGAGTGGAGTGA	MEAVLYVSHGSRRKAATRQAEDFLHRAAGAHDRPYEICYLELAHPDISEGMRRLVEKGADAVVVQPVLLLSAGHYYKDIPEELDRISGSYPELTISYGKPLGVQENIIKALAERIQETNPPVGKKTNILLVGRGSHHPDTPAAVEKIAGRLGKEISGTSVDVCYLAALSPRFSEAFQRSVEADEHTIVVPYLWFTGVLMEEIQAVVHQAVQRGYSAAAAHHLQDHPAMEQSLQFRVNEALNKLSRVE	PGPT0008500_66	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008500-sirB-K03794	NA	NA
AK012_00307	633	cysG		Siroheme synthase	ATGAAGCCTTTATCCATCGATTTATACAAAAAGAGGGTTGTCATTGTTGGAGGAGGTAAAGTGGCCGAAAAACGTATGAAATCTCTTCTGCCGGAGGATCCGGAAGTGACTGTCATCAGCCCTGAATTGACAGAGGCTCTTCGACAGCTGTGGGAAGAGGGAGCCTTTGAGTGGAAGCAGAAGCCCTATGCCGAAGGCGATGCTTCCGGGGCTTTTCTACTCATAACGGCTGCTGATCAACTGGAGGTTAATGAACAAGCAGAGGCTGAGGCGCGAGAGGTTCCGCTGATCAATCGCGCCGACAATGGCGGGGGAAATGTTCATTTTCCCGCCCACATGAAGAGAGGCAGGCTTTCTGTATCTGTTACAACGAACGGAGCCAGCCCGAAATTGACAGCGGGACTCAAACAGAAATTCGAGGAACAGTTTCCTGACGATTACGGAAGTTATGTGGATTTTTTGTTCACGATGAGGAATGAACTGCGTGATGCCGGGTTTTCACCTGACCGGCGTCGTTTTTATCTGGAAGAGGGATTGAAGGAAGCTTGTCGATCCAGGGACCAGCAGCAGTTACTATTGCAGGAGATACATAAGGAGAAGGGGGCGGATGACTGTGAAAGGACTGACCGGTAA	MKPLSIDLYKKRVVIVGGGKVAEKRMKSLLPEDPEVTVISPELTEALRQLWEEGAFEWKQKPYAEGDASGAFLLITAADQLEVNEQAEAEAREVPLINRADNGGGNVHFPAHMKRGRLSVSVTTNGASPKLTAGLKQKFEEQFPDDYGSYVDFLFTMRNELRDAGFSPDRRRFYLEEGLKEACRSRDQQQLLLQEIHKEKGADDCERTDR				NA	NA	NA	NA	NA
AK012_00308	822			hypothetical protein	ATGACTGTGAAAGGACTGACCGGTAAAAAGATAGGGGTGGCGGCCGATCGGCGGGCGGATGAAATTGCCAGGCTGATTCGGAATATGGATGGCTCCTCCTCCGGTTTTCCCATTCAGGGCTCGCACCAGTACAATCAGGAAACGGCACGGAGAGACGTCCATCACTTTTTAAAAAACCACTTTGATTATGTTGTGTTAACGACTGGTATAGGAGCTCGTGCATTGGAAGAGGCAGCCGCGGGCATTGGTCACCGGCGTTCTTTTATTAAAAAGTTGTCTGATGAATCCCTCCTTATACGCGGACAGAAAACCGCAGACTGGTTAAAAGAACAGAACCTTACTTATGAATGGATGGCTGAAGACGGGACAATGGCAGGGCTGTTGTCCTATATGGAGGAAGATACAGGAAAAGCCGGAAAAAGCGTGTATTTACAAGCCTATAATCTGGATGATGCTGCTTTAAAAGAAAGTCTTGAGGAAATGGGATACGACGTATATTTATCGAAACCCTATTCGTTCCTGCCTCCGGATCCACAAATTCTGGGCAGGCTGCGAAGGGAAATAACAAAAGAAAATCTGGATGCCGTCGTTTTCACCAGTAAAACCCAGGTGAAACAGCTGTTTTCGAACGAACATCAGCCGGTTGTCGATGCCTTTAATCGGAATGTTCTTGCTACAGCCGTCGGAAAAGTAACAGCAGCAGCTTTGGAGGAGCAGGGGATTTCCTATGTCCTGCAGCCTGAAAAAGCGAAAATGGGTGCAATGATTGTAGCGTTGGAGCGTTATTACCGGGAGGGAGCGCACACGGCCGCTCATTTTTGA	MTVKGLTGKKIGVAADRRADEIARLIRNMDGSSSGFPIQGSHQYNQETARRDVHHFLKNHFDYVVLTTGIGARALEEAAAGIGHRRSFIKKLSDESLLIRGQKTADWLKEQNLTYEWMAEDGTMAGLLSYMEEDTGKAGKSVYLQAYNLDDAALKESLEEMGYDVYLSKPYSFLPPDPQILGRLRREITKENLDAVVFTSKTQVKQLFSNEHQPVVDAFNRNVLATAVGKVTAAALEEQGISYVLQPEKAKMGAMIVALERYYREGAHTAAHF	PGPT0003665_1430	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
AK012_00309	1794	cysJ	COG0369	Sulfite reductase [NADPH] flavoprotein alpha-component	TTGTCGTTACAAGTAATCAACAGTCCGTTTAATAAAGAGCAGACGGAATTATTGAACCAGCTGCTTCCAACATTGAATGAGCAGCAAAAAATCTGGCTCAGCGGCTATCTGGCCGCAGGGACAGACAGCGGAAGTGGAGCAGCGCAGGAAATAGAAGCAGAAGAGACAGCGGTGAAAACAAGACACGTCACTCTTTTATATGGATCACACACAGGAAACTGCCAGGCGCTTGCGGAAGATTTTTCAGGAAGGTTGAAGGAAAACGGACTGCAGGTTTCTGTCGAAGATATGGACCGCTACAAACCGAAGTCATTAAAGAAGGAAGAAGATCTTCTGATCATTACCAGTACCCATGGAGACGGCGACCCTCCGGATAATGCCCTCTCCTTTTATGAATTTCTGTACAGCAGGCGTGCACCAAAACTGGACGGCGTCCGCTACAGCGTCCTTGCACTGGGAGACAGCTCATATGAGTATTTCTGCCAGACTGGTAAGGATTTTGATAAGCGTTTGGAAGAGCTTGGGGCTGAACGTTTTGTAAAACGCGTCGATTGTGACCTTGACTATGAAGAGGAAGCGGAAGACTGGATAAACAAAGTCGTTCATTCTTTGGGAACCGCTGCAGAAGAGAAAAAGGTGAAGGCCACTCCGAGTCCACAAGCCGCCGGCCCGGTTTATACGAAGAAAAATCCATTTTCGGCCGAAGTGCTGGAGAATATCAATTTGAACGGCCGCGGTTCCAATAAAGAGACACGGCATCTCGAACTGGATCTCGAAGACTCCAGCCTGGAATATGAGCCGGGGGACAGCCTTGGGATCTATCCGATTAATGAAGAGAAGCTGGTCGATCAGTTAATTACTTTGATGGAGTGGGACCCTGAGCTCTCGGTCACCCTCAATAAAGACGGAGAGGTCCGTGCATTAAGGGAGGCTCTTTTGTCCCACTTTGAGATTACCGTACTTACTAAACCACTGGTTGAAAAACTGGAACCTTTCACCAGTAATGAAAAACTGCAGGAAATCCTGGCCTCCAAAGAAACGCTCCAAACATATATCGAAGGAAGAGATCTGCTCGATCTTCTCACAGACTTTGGCCCTTGGGAGCTTGGAGCGGAAGAGCTGATTCAGCAACTTCGTAAAATCCCGCCTCGTCTGTACTCGATAGCGAGCAGCAGGAAAGCGAACCCGGATGAAGTGCACTTGACTATCGGCACTGTGCGGTATGAAAGCCATGGTAGGCACCGGCTTGGTGTTTGCTCAGGGCAGTGCGCAGAACGCATGGAGCCCGGCGGGAACGTCTCCGTGTTCGTCCAGAAAAATTCGAATTTCAAACTTCCTGAAGATGGATCAGCCCCTGTCATTATGGTTGGTGCTGGAACCGGAATTGCTCCATACCGTGCATTCCTTGAAGAGCGGGAAGAGCTTGGAGCAGAGGGGAATACCTGGTTATTCTTCGGAGAACAGCATTTCACGACGGATTTCCTTTATCAAATCGAATGGCAGCGCTGGCTCAAAGACGGCGTCTTATCCAGGATGGATGTAGCCTTTTCGAGAGATAATGAAGAAAAAGTGTACGTACAGCACAGAATGACCGAGCGGAGCAGAGAACTCTTCGAATGGCTGGAAGCCGGAGCTTATCTCTACGTATGTGGAGATGAAAAGCATATGGCTAAAGATGTCCATCAGGCACTAGTGTCCATCGTCCAAAGGGAATCCGGACGGTCGCTGGAAGAAGCGGAAGCATACGTGGCGGATCTCAGGCAGCAGAAACGCTACCAAAGAGATGTATATTAA	MSLQVINSPFNKEQTELLNQLLPTLNEQQKIWLSGYLAAGTDSGSGAAQEIEAEETAVKTRHVTLLYGSHTGNCQALAEDFSGRLKENGLQVSVEDMDRYKPKSLKKEEDLLIITSTHGDGDPPDNALSFYEFLYSRRAPKLDGVRYSVLALGDSSYEYFCQTGKDFDKRLEELGAERFVKRVDCDLDYEEEAEDWINKVVHSLGTAAEEKKVKATPSPQAAGPVYTKKNPFSAEVLENINLNGRGSNKETRHLELDLEDSSLEYEPGDSLGIYPINEEKLVDQLITLMEWDPELSVTLNKDGEVRALREALLSHFEITVLTKPLVEKLEPFTSNEKLQEILASKETLQTYIEGRDLLDLLTDFGPWELGAEELIQQLRKIPPRLYSIASSRKANPDEVHLTIGTVRYESHGRHRLGVCSGQCAERMEPGGNVSVFVQKNSNFKLPEDGSAPVIMVGAGTGIAPYRAFLEEREELGAEGNTWLFFGEQHFTTDFLYQIEWQRWLKDGVLSRMDVAFSRDNEEKVYVQHRMTERSRELFEWLEAGAYLYVCGDEKHMAKDVHQALVSIVQRESGRSLEEAEAYVADLRQQKRYQRDVY	PGPT0002795_1443	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002795-cysJ-K00380	NA	NA
AK012_00310	1719	cysI	COG0155	Sulfite reductase [NADPH] hemoprotein beta-component	ATGACAAAATCCGAACAGCCCTCTCATCAGACACAGGGACCTCCGGATGTAATGGAAAAAATCAAGGAGGACAGCCGTCTTCTGCGTGGCTCTCTGGTAGAGAGTTTTCAAGATTCTATTACCGCAAGCATTCCCGACGATCAGACGAAACTATTGAAATTTCATGGAAGCTACATGCAGGATGACCGGGACATAAGAAATGAACGGAAGAAGCAGAAACTTGAACCTGCCTACCAATTTATGGTGCGTGTCCGGCTCCCGGGCGGTGTAGCCACCCCTGAACAATGGCAGACAATGGATGAGCTTTCAGACCAATATGGCAATGGGACATTGAAACTGACGACGAGACAGACCTTTCAAATGCACGGCATATTGAAATGGAATATGAAAAAAAGCATCCAGCGCATGGATCAAGCGCTCTTGGATTCCATTGCTGCCTGCGGAGATGTCAACCGGAACGTGATGTGCAACGTATACCCGGACCAGTCCGATGTTCACAGGGAAGTATATGAGTGGTCGAAGAAAGTAAGTGAACATCTTCTGCCTAGAACAAGGGCCTATCATGAAATCTGGCTGGATGAAGAGAAAGTGGCGGATGGTAGAGAAGAAGAGCCGATCTATGGTCCTGTTTATCTTCCGCGGAAATTTAAAATCGGGGTGGCCGTGCCACCTTCCAACGATGTAGATGTCTTTTCACAGGATCTGGGTTTCATCGCTGTTATTGAAGACGATCAACTCACCGGCTTCAACATTGCCGTCGGCGGAGGAATGGGGATGACCCATGGAGATGAGAATACGTATCCTCAGTTATCTCGTGTCATCGGGTTCTGCCCGGCGGACAAAATTGTAGAAACGGCTGAAAAAGTAGTCACGATTCAGCGGGACTATGGCAACCGGTCCAACCGCAAAAACGCGCGGTTCAAGTATACGGTTGACCGTCTGGGAGTGGACTGGATAAGAGAGGAACTTGAAAGCCGCCTCGGCTGGGAACTGGAAGAGGCAAAGGATTACAACTTTGATCATAATGGGGACCGCTACGGCTGGACGAAAGCGGCCGACGGCACCTGGCACCACACCTTTTTTATTCAAAACGGCCGGATCAAGGATGAAAAAGCGTATCAGCTGAAGAGTGGGCTGAGAAAAATTGCTGGAATTCATGAAGGAGACTTCCGGTTGACGCCGAACCAGAATGTGACCATCGCGGGTGTGACAGATGCAAAAAAAGAAGAAATATCAGCGGTCATCGATGAGTACGGACTGACCGATGGCAGACAAAATTCCGCGCTCAGGAGAAATTCCATGGCGTGTGTCGCTCTTCCGACCTGCGGCCTGGCGATGGCAGAGTCTGAGAGATATCTTCCGTCTCTGATCGATAAGCTGGAAGATATACTCGATGAATACGGACTATCGGAAGAAGAGATCATTATCCGTATGTCGGGATGCCCCAACGGATGCTCCCGACCGGCTCTAGGTGAGATTGGATTCATCGGGAAAGCCCCGGGCAAATACAACATGTATTTAGGAGCTGGATTTGCAGGAGACCGTTTGAACAAAATCTATAAAGAAAACATCGGTGAAGAAGAGATTCTTCGAGAGTTAAGACAAATGTTTAAGGAATTTGCGCTGAACCGTTCAGAAGGGGAAAAGTTCGGGGATTTCGTCGTTCGAACCGGCTATGTGAAGGCTGTTTCTTCAGGCACAGAGTTTCACTCCTCCTGA	MTKSEQPSHQTQGPPDVMEKIKEDSRLLRGSLVESFQDSITASIPDDQTKLLKFHGSYMQDDRDIRNERKKQKLEPAYQFMVRVRLPGGVATPEQWQTMDELSDQYGNGTLKLTTRQTFQMHGILKWNMKKSIQRMDQALLDSIAACGDVNRNVMCNVYPDQSDVHREVYEWSKKVSEHLLPRTRAYHEIWLDEEKVADGREEEPIYGPVYLPRKFKIGVAVPPSNDVDVFSQDLGFIAVIEDDQLTGFNIAVGGGMGMTHGDENTYPQLSRVIGFCPADKIVETAEKVVTIQRDYGNRSNRKNARFKYTVDRLGVDWIREELESRLGWELEEAKDYNFDHNGDRYGWTKAADGTWHHTFFIQNGRIKDEKAYQLKSGLRKIAGIHEGDFRLTPNQNVTIAGVTDAKKEEISAVIDEYGLTDGRQNSALRRNSMACVALPTCGLAMAESERYLPSLIDKLEDILDEYGLSEEEIIIRMSGCPNGCSRPALGEIGFIGKAPGKYNMYLGAGFAGDRLNKIYKENIGEEEILRELRQMFKEFALNRSEGEKFGDFVVRTGYVKAVSSGTEFHSS	PGPT0002790_1098	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002790-cysI-K00381	NA	NA
AK012_00311	444			hypothetical protein	ATGGATGATAAAAAGAGTCAGCTCCCCGGTTTTTTTGAGCATACGTTTATGGATCTAATTCGGGCCGTGGATTCGTTTTTTGATCAGTCCCTACAGGGAGTGGAGCCCTTGTTCCAAGGAGCTTCATTTCCGGTGGACATTTATGAAACCGACGGGGAAATTGTAGTGGAGGCTGTTCTACCGGACGTGCAGGAAAACCAAATCCGTATTGACCGTTCCGGCCGGCAGCTCCGTATTCTTGTTGAACAACAGCAGATGCGTGAAGTGAATGATGAAGTTCGTGACTATTACAGACGGACCCAATTTCTGAAAAGTAGAGAGCAGACGGTCGAACTGCCATTTGAAGCGGATCCGAACAGCAGCCGGGCTTCGTTCCATAACGGAGTATTAAAGGTTGTTTTTCACAAGCGTGGACCGCTGGAGTCCATTCTGATCGAAGAATGA	MDDKKSQLPGFFEHTFMDLIRAVDSFFDQSLQGVEPLFQGASFPVDIYETDGEIVVEAVLPDVQENQIRIDRSGRQLRILVEQQQMREVNDEVRDYYRRTQFLKSREQTVELPFEADPNSSRASFHNGVLKVVFHKRGPLESILIEE	PGPT0014635_5207	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
AK012_00312	360			hypothetical protein	GTGTATAGATACTGGGTTCCCTGCTGCTGGAGGCCGGTCATCCCGATTGATGCAAGACCTGCACCTTCATACCCGGAGGTGGAGATATCTTTGTTCAGAGAATCCGCCATGACGATGCAGAAGTTCATAAAAGAAGCTGAAGGACTCGTGGAGAAAATTCATGATGAGGAGTCTTACGCCGGACAAATCATGACGGCGGCCCAGCAGTCCGATGATGAAAAAGTGGAGCACCTGCTTGGTGAATATCTATCGAGTCCATTTCAGACTGCTTATAACCCTGACCGTCTGAAAATCACCCTGGGGACGTCCGGAGGGAGGAAGGACTGCTGCCGGCTGACACTTATATTCCGCTGGAGATAA	MYRYWVPCCWRPVIPIDARPAPSYPEVEISLFRESAMTMQKFIKEAEGLVEKIHDEESYAGQIMTAAQQSDDEKVEHLLGEYLSSPFQTAYNPDRLKITLGTSGGRKDCCRLTLIFRWR				NA	NA	NA	NA	NA
AK012_00313	1269			Nucleobase transporter PlAzg2	ATGCTCAATCAGCAACATCAACAGGCGGGCTGGAAAAAAGAAGGACTGGCGGGCTTGATCGGTTATTTCACAACCGTTTACATCGTAGCCGTCAACAGTCAGATTCTGGAGAGTGCGGGACTGCCGCTTGAGAGCGGTATGGTCGCTACTATTCTTGCCAGCGCGTTAGGCTGCTTGATCATGGCTTTTTATGCGAACGCACCGATGGTTCTCATCCCCGGAATGGGTGTCAATGCGCTGTTTGCCTACTCGATCGTAGAAGGGACAGGGATGTCGTTTCAGCAGGGACTGGCCGTCGTGACGATGGCTTCCATCATCTTTCTGATTACTGCTTTTACAAGGCTTGGCGATTGGCTTAAACACGCCATACCTGCTTCTTTGAAGCACGCCATCACCGTTGGTCTCGGATTGTTCCTGACCCTGATCGGCCTTGAAAAGGGGGGCCTTGTCGTCAAAGGCGAACACTCCCTGATTACCCTGGGCAACCCATCGTCCGCCATGGTGATCACCAGTATCATCACCCTGTTTATCGGGATTTTTCTATTCTCGAGAAACGTCCCCGGCAACTTCTTAGTGACGATGATCGCCGGGACTGTCCTCGCTCACTTCACAGGACTGCTTGGAGAGAGTGGAAAAAGCATCAATTTCCAGGAGCAGAGCTGGCTTCTGCTCCCGGACTTTTCCGGTATTCTCGGGTTTGGTTTCTGGATGGCGGTTTTCCCGCTGGCTATTGTGCTCATCTTTGAAAACATGGGTCTGATCCACGGTCAGCTCTCCATGCTGGATCAGGAGGACAAATTCAAACGTTCCTATCAGGCAACGGCTTTTTCAGCCTTAACCACCGGATTCCTCGGTACATCACCGACGGTTTCATCCGCAGAGAGTGCAGCTGTCATTGCCTCTGGAGGAAAAACAGGGAAATCAGCGTTGACGATGGCCGTTCTTTTCGGAGCCACGCTGTTCTTAATCCCATGGATTTCCATGGTTCCATCCACAGCGATTGCACCGATTCTGATCATCGTAGGAGCGCTTATGGTTCAGAATATCAAAGAGATTCCATTTGATCAGCTGTCTGAGTCCATGCCGGCGTTTTTAATCATCGTGATGATTCCTTTCACGTATTCCATCGCTGATGGAATGGCTTTCGGGTTCATCGCCTACCCGATCGTAAAGCTTGCCCTGGGCAGACATCGGGAGTTGTCCACTCCAGTCGTATTCATCGCCATGATCTTTCTCGTTGAATTTATCGTACGCTCGCTTGGACATTAG	MLNQQHQQAGWKKEGLAGLIGYFTTVYIVAVNSQILESAGLPLESGMVATILASALGCLIMAFYANAPMVLIPGMGVNALFAYSIVEGTGMSFQQGLAVVTMASIIFLITAFTRLGDWLKHAIPASLKHAITVGLGLFLTLIGLEKGGLVVKGEHSLITLGNPSSAMVITSIITLFIGIFLFSRNVPGNFLVTMIAGTVLAHFTGLLGESGKSINFQEQSWLLLPDFSGILGFGFWMAVFPLAIVLIFENMGLIHGQLSMLDQEDKFKRSYQATAFSALTTGFLGTSPTVSSAESAAVIASGGKTGKSALTMAVLFGATLFLIPWISMVPSTAIAPILIIVGALMVQNIKEIPFDQLSESMPAFLIIVMIPFTYSIADGMAFGFIAYPIVKLALGRHRELSTPVVFIAMIFLVEFIVRSLGH	PGPT0007325_5692	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
AK012_00314	663	sdhB		L-serine dehydratase, beta chain	ATGAAGTACAGATCTGTTTTTGATATCATCGGGCCTGTTATGATCGGGCCCTCCAGTTCCCATACGGCAGGGGCCGCCCGCATCGGCAGAGCCGCCCGCCATTTATTCGGCAGAGAGCCGAAGTATGCCCATATCCATCTTTATGGATCATTTGCAAAAACCTACAAGGGGCATGGAACAGATGTAGCCATCATTGGCGGCCTTCTGGACTATGAAACCTATGATGAAAGAATAAGCACTTCCCTTGATACAGCAAGAGCTTCGGGAATGAAAATCCGTTTCCACGAAGAGGATGCCCATACAGATCACCCGAACACCGCCCGTGTGAAAATTGGTGATGATGACGGGGAACTGGAGCTCGTCGGTATTTCCATTGGTGGAGGGAAGGCTGAAATCACGGAATTGAACGGCTTTGAACTCCGGTTATCAGGAAGCCATCCGGCTATCCTTCTTATTCATAATGATCGGTACGGCGCCATTGCATCCGCCACTACGATTCTGGCAAAAAATGAGATCAATATCGGCCGGATGGAAGTGTCCAGAAAAGCCCAGGGTGAACAGGCCTTGATGGTGATCGAAGTTGACCAGAATATTGATGATTCCATACTTAATGAATTGGAACGCGCAGACCACATTACACAAGTGGCTAAAATCTCAGACTAG	MKYRSVFDIIGPVMIGPSSSHTAGAARIGRAARHLFGREPKYAHIHLYGSFAKTYKGHGTDVAIIGGLLDYETYDERISTSLDTARASGMKIRFHEEDAHTDHPNTARVKIGDDDGELELVGISIGGGKAEITELNGFELRLSGSHPAILLIHNDRYGAIASATTILAKNEINIGRMEVSRKAQGEQALMVIEVDQNIDDSILNELERADHITQVAKISD	PGPT0001975_4768	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
AK012_00315	885	sdhA		L-serine dehydratase, alpha chain	ATGTTTCGTAATGTAGCAGAACTTATAGAACTTGCTGAAAGTGAGCAGATACAAATTTCTGAAGTGATGATCCGCCAGGAAATGGAAGTGAAACAACTTTCCAGAGAAGAAGTCTATGCCCATATGGAAAGAAATCTCGACGTCATGGAAAAAGCCGTTGAAGATGGCTTGAAAGGCGTGAAGTCCCACAGTGGATTGACCGGAGGGGATGCTGTACTCATTCAGGATTACATGAAAAACCATACCCCGTTGTCAGGCCAGCTGTTGATGGACGCCGTCAGCAAAGCTGTCGCCACCAATGAAGTTAACGCAGCGATGGGGACGATTTGTGCCACGCCGACAGCCGGCAGTGCTGGTTGTGTTCCGGGGACTTTGTTTGCCGTTAAAAATCAGCTGAATCCATCACGTGAGCAGATGGTCCGCTACTTGTTCACCTCAGGTGCCTTCGGTTTCGTTGTTGCCAATAATGCTTCGATTTCAGGGGCCGCGGGCGGATGTCAGGCAGAAGTCGGATCCGCAGCTGGAATGGCAGCAGCGGCTATTGTGGAAATGGCAGGAGGGACGCCTTCCCAGTCTGCAGAAGCCATGGCCATCACCTTGAAGAACATGCTTGGGTTGATCTGTGATCCGGTTGCAGGACTTGTCGAAGTCCCATGCGTCAAACGAAATGCTATGGGAGCTTCAAATGCTGTTGTAGCGGCAGATATGGCCCTTGCGGGTGTGACAAGCAGAATTCCATGTGACGAAGTCATCGATGCGATGTATAAAGTCGGCCAGCGGATGCCGTCAGCCTTCAGGGAAACCGCCCAGGGAGGGCTCGCTGCAACACCGACCGGCCGCGAACTGGAAGCAAAAGTATACGGAATATCTTTAAAGAAAGAGTGA	MFRNVAELIELAESEQIQISEVMIRQEMEVKQLSREEVYAHMERNLDVMEKAVEDGLKGVKSHSGLTGGDAVLIQDYMKNHTPLSGQLLMDAVSKAVATNEVNAAMGTICATPTAGSAGCVPGTLFAVKNQLNPSREQMVRYLFTSGAFGFVVANNASISGAAGGCQAEVGSAAGMAAAAIVEMAGGTPSQSAEAMAITLKNMLGLICDPVAGLVEVPCVKRNAMGASNAVVAADMALAGVTSRIPCDEVIDAMYKVGQRMPSAFRETAQGGLAATPTGRELEAKVYGISLKKE	PGPT0001975_3781	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001975-sdaA|sdaB|tdcG-K01752	NA	NA
AK012_00316	2046	recG		ATP-dependent DNA helicase RecG	GTGAATGATGTGCTGCAGCAATCGATTAGTGAAATCAAAGGAGTTGGAGAAAAACTGCAGTCCCACTTAAATGAACTGGGGCTGTTTACAGTGGAGGATCTTCTCTTTTATTTTCCGCACCGTTACGATTCCTATGAAGTCAAGCCGCTGACGGAACTGGCTCATAATGAAAAAGCGACCATCGAAGGGGAAATCGTCTCTGAACCGGTCGTCAGCTATTACGGTCGGAAAAAATCGAGGCTGACCTTTACTCTGCAGGTGGAGCATTTTGCTGTTAAGGCGGTTATGTTTAACCGGGCGTTTGCGAAGAAACAACTGCAGCAGGGTGACACCGTCACGGTTACAGGAAAATGGGATCAGCAGCGCCTGCAGGTGACGGTTAGTCAATTCAAAAAAGGGGAGTCGAAAAGTCAGGCGCCGATCCAGCCTGTTTACACATTGAAGGAAGGGGTGAACATGAACACCCTCCGGAAAGTGATGACAGCTGCCTTCCAAGAGTATGGTGGATCCGTTAAGGAAATCCTTCCTGAGGATCTCGCGCTTGCTTACAAGCTCCCTCCAAGACAGCAGGCGCTGCATCACATGCATTACCCGGAGAGCCGGGTGATGCTGAAACATGCCAAGCGCCGGTTTGTTTATGAGGAGTTTTTAATCTTTCAGTTGAAAATGCAGCTGCTCCGCAAGCATAACCGTGAATCGACGCAGGGAATTGTCCAAAGGTATGATAATCAGAAACTCACCGATTTTGTCCAGTCCCTGCCTTTTGAACTGACAGGGGCGCAAAAACGCTCCCTTGCAGAAATATTGAAAGATATGAAGCGTCCGCATCGAATGAACCGGCTCCTGCAGGGGGATGTAGGTTCGGGGAAAACGGCCGTTGCCGCCATTGCTCTTTATGGTTCCATCACAGCAGGATATCAGGGAGCCTTGATGGTCCCAACGGAAATCCTTGCAGAGCAGCATCATCAGTCTTTGTCGGCTATGTTTGAAGGCCGTGCCCGGGTAGAACTGCTGACAGGGTCTGTGAAGGGGAAGAAGCGTCAGGAAATTCTGGAAGCTGTCAAGGCGGAAGAAATTGATATTCTTGTAGGAACGCATGCACTCATCCAAGATGAAGTGGTATTCAGCCACCTCGGCTTTGTGATTGTGGATGAGCAGCACCGTTTCGGTGTGGAACAGCGGCGTACCTTAAGGGATAAAGGGCTTTCCCCGGATGTTTTATTTATGACCGCTACGCCTATCCCGAGGACGCTGGCCATCACGGCTTTTGGTGATATGGATGTCAGTGTCATTGATGAAATGCCGGCCGGCCGTAAGCCTGTAGAGACTTACTGGGTGAAGGGTGAAATGACAGACCGTGTCCTGAATTTCATTAAGAAGGAAATCGATCAGGGCCATCAGGCGTATGTCATCTGTCCCCTCATCGAAGAATCGGATCAACTGGATATTCAGAATGCGATCGATCTGTACCATCAACTCAGCAGCGTCTTTGAGCCGGACATTTCTGTCGGTCTGATGCATGGACGCCTTCATAATGAAGAAAAGGAAGAAGTCATGAAGGAATTTGCGGATAATCAGTTGAATATCCTTGTCTCCACTACAGTGGTGGAGGTGGGTGTGAACGTTCCCAATGCGACGATGATGGTCATTTATGACGCGCAGCGTTTCGGACTTTCCCAGCTTCACCAGCTCCGAGGCAGGGTCGGACGCGGATCTGACCAGAGCTACTGTATCCTTCTTGCTGATCCCAAGGGGGATGTCGGAAAAGAACGGATGCGGATCATGACAGAAACGAACGATGGCTTTGAATTGTCGGAGCAGGACTTAAAGCTGCGGGGGCCGGGAGACTTCTTCGGGAAAAAACAGAGCGGTCTGCCTGAATTCAAAGTAGGGGACATGGTTCACGATTACCGTGCCCTTGAAACGGCGAGAAAAGATGCGGCGGAAATGATCGAAGGAAATATGCTGGAGCAGAATGAATCCTACAGCTCGCTGAAGGAAAGGGTTTATAAGGACAAGCAGATCATGGAGAATGTTCTGGATTAG	MNDVLQQSISEIKGVGEKLQSHLNELGLFTVEDLLFYFPHRYDSYEVKPLTELAHNEKATIEGEIVSEPVVSYYGRKKSRLTFTLQVEHFAVKAVMFNRAFAKKQLQQGDTVTVTGKWDQQRLQVTVSQFKKGESKSQAPIQPVYTLKEGVNMNTLRKVMTAAFQEYGGSVKEILPEDLALAYKLPPRQQALHHMHYPESRVMLKHAKRRFVYEEFLIFQLKMQLLRKHNRESTQGIVQRYDNQKLTDFVQSLPFELTGAQKRSLAEILKDMKRPHRMNRLLQGDVGSGKTAVAAIALYGSITAGYQGALMVPTEILAEQHHQSLSAMFEGRARVELLTGSVKGKKRQEILEAVKAEEIDILVGTHALIQDEVVFSHLGFVIVDEQHRFGVEQRRTLRDKGLSPDVLFMTATPIPRTLAITAFGDMDVSVIDEMPAGRKPVETYWVKGEMTDRVLNFIKKEIDQGHQAYVICPLIEESDQLDIQNAIDLYHQLSSVFEPDISVGLMHGRLHNEEKEEVMKEFADNQLNILVSTTVVEVGVNVPNATMMVIYDAQRFGLSQLHQLRGRVGRGSDQSYCILLADPKGDVGKERMRIMTETNDGFELSEQDLKLRGPGDFFGKKQSGLPEFKVGDMVHDYRALETARKDAAEMIEGNMLEQNESYSSLKERVYKDKQIMENVLD				NA	NA	NA	NA	NA
AK012_00317	579	fapR	COG2050	Transcription factor FapR	ATGAACGGTGGTATTTGTGTGAAAAAAAACAAAAGAGTACGTCAGGAAGAACTGAAAGCACGTATTGAGCAAATGCCTTTCACGACGGATGAAGAACTAGCGAAATCCTTTGGTGTCAGCATACAGACCATCCGGCTCGACAGGATGGAGATGGGAATTCCCGAACTGCGTGAACGGATCAAATCCGTTGCCACCCAGGAATGGAATGAGACAGTAAAAGCCCTGCCGGTGGAGGAGATTATTGGTGAAGTCGTTGATTTAGAGCTGGATGACCGTGCCATCTCCATATTGGATATCCGCCCGGAACACGTTTTTTCAAGAAACCATATCGCCAGAGGTCACCATTTGTTTGCCCAGGCCAACTCCCTTGCTGTCGCTCTGATCGATGATGAGCTGGCATTAACCGCCCGTTCCACCATTCATTTTTCGAGACCGGTCAAACTGGGGGAACGTGTTGTAGCGAAAGCGACAGCCAAAGGTGAGGACGATAAAGGGCGGACGATCGTGAACGTCCACAGCTTTGTTGGGAATGAAGAAGTGTTTGCCGGTACATTTGAAATGTACCGCTCGAATCAGTAA	MNGGICVKKNKRVRQEELKARIEQMPFTTDEELAKSFGVSIQTIRLDRMEMGIPELRERIKSVATQEWNETVKALPVEEIIGEVVDLELDDRAISILDIRPEHVFSRNHIARGHHLFAQANSLAVALIDDELALTARSTIHFSRPVKLGERVVAKATAKGEDDKGRTIVNVHSFVGNEEVFAGTFEMYRSNQ				NA	NA	NA	NA	NA
AK012_00318	1005	plsX	COG0416	Phosphate acyltransferase	ATGAAGTTAGCCATTGATGCGATGGGCGGGGACAACGCCCCTGAAGCCATTTTAAAGGGAGCTGTAAAGGCGGCGGATACGATTGATGGGTTATCCATCACACTCGTAGGGGATGAAGCAGAAATCCGCCCGTTTTTGAAAGATCAGCCTAATGTAACGGTTTTACATACAACAGAAGTGATTACCTCTGAAGATGAACCTGTCCGTGCGGTCCGCAGGAAGAAGAAGGCTTCCATGGTCATGGCAGCGGCGGAAGTGAAAGAGGGACGTGCGGATGGATGCATTTCTGCAGGGAATACCGGAGCTCTTATGAGTGCGGGTCTTTTCATTGTCGGCCGTATGCCGGGGGTGGAACGGCCAGCCTTGAGTCCGACCCTGCCTACAATGGACGGGAAGGGCTTTTTAATGCTGGATGTTGGGGCGAATGTGGATGCTAAACCAGCCCACCTGCTGCAGTATGCCGTCATAGGGTCCATATATTCTGAGAACGTCCGCAGAATCAACAAGCCGAGAGTAGGTTTGTTAAACGTCGGGACGGAGGATGGAAAAGGGAGCGACCTTACAAAACAGGCGTTCCAGCTTTTGAAAGAAGCACCGATTAATTTCATTGGAAATGTGGAAGCCCGTGATCTCCTTAATGGTGTGGCGGATGTTGTCGTCACAGACGGGTTCACAGGCAATGTGGCTTTAAAAACGATTGAAGGAACGGCACTTACAATGTTCTCCATGATGAAAGAGACGTTTATGAGCAGCTGGAAGACGAAATTTGCCGCCGGTCTTGTGAAGGATGACCTGCGCGGTTTGAAAAATCAGCTTGATTATAGTGAATATGGCGGAGCCGGGTTGTTCGGACTTGCATCCCCCGTCATCAAAGCCCACGGCTCATCGAATGAACGTGCGGTCCTGAATGCGATCCGCCAGGCGTGTGAAATGGTTGAACTGAATGTCACGGACACCATTGCTGGAACGCTGAGCCGGATGAACGAAAAGGAGGAATCAGAATGA	MKLAIDAMGGDNAPEAILKGAVKAADTIDGLSITLVGDEAEIRPFLKDQPNVTVLHTTEVITSEDEPVRAVRRKKKASMVMAAAEVKEGRADGCISAGNTGALMSAGLFIVGRMPGVERPALSPTLPTMDGKGFLMLDVGANVDAKPAHLLQYAVIGSIYSENVRRINKPRVGLLNVGTEDGKGSDLTKQAFQLLKEAPINFIGNVEARDLLNGVADVVVTDGFTGNVALKTIEGTALTMFSMMKETFMSSWKTKFAAGLVKDDLRGLKNQLDYSEYGGAGLFGLASPVIKAHGSSNERAVLNAIRQACEMVELNVTDTIAGTLSRMNEKEESE	PGPT0024410_2686	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024410-plsX-K03621	NA	NA
AK012_00319	942	fabD		Malonyl CoA-acyl carrier protein transacylase	ATGAAGAAGACAGCCGTTGTTTTTCCCGGGCAGGGATCCCAGGAAGTCGGTATGGGACGAGCGATGTATGAAGCCTATCCATCTGTGAAAGAATTGTTTGATAGAGCCGACGAAGTGCTTGGGTACTCACTTACGTCATTGATGTTTGAAGGTCCTGCTGAGGAGCTTACGAAAACCGAGAATGCACAGCCTGCTCTTCTGCTGAACAGCATCGCCATTCAGCAGGTGCTGACAGAAGAAGGGGTTAAACCGGACATGACCGCCGGTCACAGCCTCGGTGAATACAGTGCCCTGACGGCAGCCGGCGCGCTGGATCCGCTTGAAGCGGTTCAGCTCGTCCATATCCGTGGAAAGCTCATGGAAGAAGCGTACCCGACTGGAAAAGGTACGATGGCCGCTGTACTTGGACTTTCGCAGGAGGAAATCGAGGATATCCTGACAGGGTTTGATGGAGATAAAGCCGTGGATCTCGCTAATATTAACTGTCCGGGACAGATCGTCATCTCCGGTACAAAAGAAGGTGTTGAGGCAGCAGGTGAACAATTGAAGGAAAAAGGGGCAAAGCGTGTCCTTCCTTTGAACGTAAGTGGACCTTTCCACTCCCGTCTTATGGAGCCGGCTAGTGAAGAATTTGCGGGGCACCTGAATGATCGTACGATCAGAGATGCCTCCATCCCGGTATATGCCAATGTTTCTGCAGAAGCCGTCACAGAAGCGGAAACGATCGAGCGTCTGCTTGTAGAGCAGCTGTATTCCCCTGTGCGCTTCCAACAGATTCTTGAGGCGTTTGTGGAAGAGGAAGTCGATGCCATTGTAGAAGTCGGACAGGGGAAAGTTCTCAGCGGACTAGTGAGAAAAGTCCAGCGCCGCATGAAGACGTTCAGTGTCCAGGATCCTGACACATTAAAGGATTTCATAGAGTGGTATAAGGAGGAAGCCTGA	MKKTAVVFPGQGSQEVGMGRAMYEAYPSVKELFDRADEVLGYSLTSLMFEGPAEELTKTENAQPALLLNSIAIQQVLTEEGVKPDMTAGHSLGEYSALTAAGALDPLEAVQLVHIRGKLMEEAYPTGKGTMAAVLGLSQEEIEDILTGFDGDKAVDLANINCPGQIVISGTKEGVEAAGEQLKEKGAKRVLPLNVSGPFHSRLMEPASEEFAGHLNDRTIRDASIPVYANVSAEAVTEAETIERLLVEQLYSPVRFQQILEAFVEEEVDAIVEVGQGKVLSGLVRKVQRRMKTFSVQDPDTLKDFIEWYKEEA	PGPT0008350_2242	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
AK012_00320	741	fabG_3		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGTTACAAGATCAAGTGGCTCTCGTTACAGGAGCATCACGTGGCATAGGCCGTGCTATTGCTTTAGAACTTGCCCGAAAAGGAGCTAAAGTAGCGGTCAACTATGCGGGAAGTGAAGAGAAAGCGGAAGCTGTCGTGCAGGAAATCATTGCATGCGGCGGTTCAGCGATGAAGATTCAGGCCGATGTAGCCAGTGAGGAAGATGTGAAGCAGATGGTGAAAGCGGTCGTCGATGAGTTTGGTCGTCTGGACATCCTTGTCAACAATGCTGGAATCACAAAGGATAACCTTCTTATGCGTATGAAGGAAGAGGAGTTCGATTCCGTCATCAATACCAATTTGAAAGGCGTATTCCTCTGCACGAAGGGGGTCACCCGTCAAATGATGAAGCAGAAATACGGACGGATCATTAATGTGGCCTCTATTGTCGGCGTTTCCGGTAATCCGGGACAGGCAAACTATGTGGCTGCAAAAGCCGGGGTCATCGGAATGACGAAATCCAATGCAAAAGAGCTCGCCGCCCGGAATATTCAGGTGAATGCCGTAGCCCCGGGGTATATCACAACAGATATGACAGACGCTCTCACAGAGGAACAGCGTGAGCAGATGCTCGCCCTCATTCCGTTGAAGCGCCTTGGGGACGGGAAGGACGTGGCCGGAGTTGTCCGCTTCCTTGCCTCTGAAGACGCCGCATATATGACCGGTCAGACGCTTCATGTCGATGGCGGAATGGTCATGTAA	MLQDQVALVTGASRGIGRAIALELARKGAKVAVNYAGSEEKAEAVVQEIIACGGSAMKIQADVASEEDVKQMVKAVVDEFGRLDILVNNAGITKDNLLMRMKEEEFDSVINTNLKGVFLCTKGVTRQMMKQKYGRIINVASIVGVSGNPGQANYVAAKAGVIGMTKSNAKELAARNIQVNAVAPGYITTDMTDALTEEQREQMLALIPLKRLGDGKDVAGVVRFLASEDAAYMTGQTLHVDGGMVM	PGPT0003180_16373	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
AK012_00321	234	acpA	COG0236	Acyl carrier protein	ATGGCAGAAACATTTGATCGCGTAAAACAGATCATCGTCGACCGTCTAGATGTAGACGAATCCAAAGTAGTTATGGAAGCTTCCTTCAAAGAAGATCTAGAAGCAGACTCTCTTGACGTAGTCGAGCTTGTAATGGAGCTTGAAGACGAGTTTGATATGGAAATTTCTGATGAAGAAGCTGAAAAAATTAATACAGTTGGCGACGCTGTGAATTACATAAGCAGCCAGTCATAA	MAETFDRVKQIIVDRLDVDESKVVMEASFKEDLEADSLDVVELVMELEDEFDMEISDEEAEKINTVGDAVNYISSQS	PGPT0011375_6739	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
AK012_00322	693	rnc	COG0571	Ribonuclease 3	ATGGGTGATTTCTCCAGTTTCCAGAAGAAAATAAATCAATCATTTCAGAACATTTCGTTACTGGAGCAGGCTTTCACGCATTCATCTTATGTGAATGAGCATCGTAAAACAGATCGGGAGGACAATGAACGTCTCGAATTTCTCGGGGATGCCGTTTTGGAGCTGGGTGTTTCCCAGTATTTATACCGGGAGTTCCCGGATATGGCAGAAGGGGAATTGACGAAGTTCAGAGCTTCCATCGTCTGTGAGGCTTCATTGGTTGAGTTTGCCAATGAACTTAATTTTCAGGATTTGATTCTTCTCGGCAAAGGGGAGGAACTGACGGGCGGACGTAATCGGCCGGCATTACTGGCAGACGTGTTTGAAGCTTTTATCGGTGCGTTATACCTCGACCAGGGGTATGAGGCGGTTATTCAATTTCTGAAAACCTACGTTTATCCGAGAGTCCAAAAAGGTGCTTTTTCTCATGCGATGGATTATAAGAGTCAGCTGCAGGAGTTTATACAGCGGGATAAAAACAGTAAAATTGAGTACGAAATTGTGGAAGAAAGAGGCCCAGCACACAGCCGGGAGTTTATCGCTCACGTGAGGATCCAGGATGACATCGGAGGTATCGGCGTCGGGCGTACGAAGAAGGAAGCGGAGCAGAAAGCTGCTCAGCAGGCTTTAGAGAATCAGGGCGCGCGATTTTAA	MGDFSSFQKKINQSFQNISLLEQAFTHSSYVNEHRKTDREDNERLEFLGDAVLELGVSQYLYREFPDMAEGELTKFRASIVCEASLVEFANELNFQDLILLGKGEELTGGRNRPALLADVFEAFIGALYLDQGYEAVIQFLKTYVYPRVQKGAFSHAMDYKSQLQEFIQRDKNSKIEYEIVEERGPAHSREFIAHVRIQDDIGGIGVGRTKKEAEQKAAQQALENQGARF				NA	NA	NA	NA	NA
AK012_00323	222			hypothetical protein	TTGAGTTTACAAGAACCAAAACAGGAAAATCTTGCATTTATGATCGACGATATGGCCGATAAACTGCAGGTGGTCAATCGCTCACTTATGAAACCGGAGGATTATGATTTAAACAAATATGAAGAAATCAAATCCCTCTATGACATTATCAACATGAAGGGCCAGCTCAGCGTGTCCGAGATCCAGGCGTTTGTTCAGGAACTCGGACAGTACCGCAGATGA	MSLQEPKQENLAFMIDDMADKLQVVNRSLMKPEDYDLNKYEEIKSLYDIINMKGQLSVSEIQAFVQELGQYRR				NA	NA	NA	NA	NA
AK012_00324	3561	smc	COG1196	Chromosome partition protein Smc	ATGTTCCTCAAACAGTTGGATACTATAGGATTTAAATCGTTTGCCGACAGGGTGACCGTTGATTTCGTTTCAGGCGTTACATCTGTGGTCGGACCGAACGGCAGTGGGAAAAGTAACATAACAGACGCCATCCGCTGGGTGCTTGGAGAGCAGTCGGCCCGTTCCCTGCGCGGTGCGAAGATGGAAGATATTATATTTGCAGGAAGTGAGTCGCGCTCCGCCCTGAATATGGCAGAAGTGACGCTCACGCTCGATAACGAAGACCAGACCCTTCCCCTGGACTATCAGGAAGTCAGTGTAACCAGAAGAGTGTACCGGTCTGGTGAGAGTGAATTTTATATCAATAATCAAACATGTCGATTGAAGGATATTATCGATTTATTCATGGATTCAGGTCTTGGAAGGGAAGCATTTTCAATCATCAGTCAAGGGAAAGTCGAGGAAATTCTGAGCTCGAAGGCTGAAGAGCGCCGTACGATTTTTGAAGAAGCGGCAGGAGTCCTGAAGTATAAACAACGGAAGAAAAAAGCCGAATATAAACTTGCGGAAACACAGGAGAATTTAAACCGTGTGGAAGACATTATCCATGAAATAGACGGGCAGCTGGAGCCGTTAAAAGAACAGGCAGCCGTTGCAGAAGACTACCTGGAAAAAAAGGACGAGTTAAAGAACATCGAAATCTCGCTTTTAATTACGCAGATTGAAGACCTCCATAAGGATTGGCAGGTCGTTCTGAAAGAGCTCGAACAAGTCAAAAGCGGAGAAGCGGAGTTGAAGGCAGAGATTGCTGCACGTCAGGAATCGGTGGAGTTGAAACGGAGCCGCATTCAACAGCTGGATGATTCCCTGGAAAATCTGCAGGAGAAACTTGTGGAACTGACAAGGGAGCTTGAAAATCTGGAAGGCAAAAAGCAGTTGATGAAAGAACGTCATAAACATTTCGAAGAGAACAAATCAAAACTCGAGGAAGCCTATGAGGAACTTTCAAATAAGCTCGAAACGCTCAAGACAGTGACATCAGAAGAAACCTCCAAATTGGAGGAGGCCAGGGAAAAACGCCGGGAATCCAAGCGGGAGCTTAAGGAGACGAATCAGGCGCTCAATCAGGATCTTCAACAGATGGAAGAGCAGATTGAAGACTTGAAGAGTGATTATATCGAACTTTTAAACAAGCAGGCAGCTAAACGAAATGAAAAACATCTGCTGGAAAAACAGCTTTCTGAACTGCATACCAAAAAAGATGTCCAGAGTGGGAAATTCCAAGGGCTGAGAGAAGAGAGGGAGACCCTGGAGGCTGACCGCCGCCGAATCACTGGAGAACTGGAACAACTGACGTCGGAACGTAAAGAGCTGGAAACAAGTCTGCAGGAGGCATCGGCGGCTCTTGAAGAAAACAAGAAGACCTATCAGGAATGGCAGGAAAAACTGTATAAAGGGTACCAGTATCTCGAAAAGATGCGTTCCAAGAAGGAAATGCTGGAGGATATGAAAGAAGACTTTTCCGGCTATTTCCAGGGGGTGCGGGAAGTTTTGAAAGCCCGGCAGAACGGTCGCCTCTCCGGTATTGAAGGGGCCGTGCTGGAGTTGATTGACATCCCGTCCACGTATATGACAGCCATTGAGACAGCTCTCGGCGCCCAGGCGCAGCACATTGTTGTCCAGGATGAAAAAGCTGGGAGACAGGCGATCCAGTGGTTGAAAACCCAGCATAAGGGGCGCGCGACCTTCCTCCCACTTTCTGCCATCCAGCCCCGTTATGTCACCGGTGCCGGTTCGCTGAACCAACAGGAAGGTTACGTAGGAGTTGCGGCTGAACTGATTAACGTGCCGGATGCCTACGCAAAAGCGGTGCAGCACCTGCTTGGCCATATCGTAGTGGCAGAAACGCTGGAACACGCCAATGCGATTGCCCGGGTATTAAATCGTAAGTACCGTGTAGTCACTCTCGAAGGGGATGTTGTCAATCCCGGAGGTTCCATGACAGGCGGTGCGAAAAAACAGTCCGGTCAGTCCCTGTTCACCAGGGAGAAGGAACTTCAGGAAACCACAGAAAAAATAAGAGATTACGAGAAAAAGCTGCAGGATGTTGAGCAGAAGGTGATGCAGCTGAAGCAGAGCTTAAGTGAACAGGAGCAAGCGAAAGAATCCTATGCAGAAAAGCTCTCTCTCATAAAAAACAAGGAATATGAAAAACAGTCCGATGCGAGGGAAAATGAAGTGAAGCTGAACCATGTTAACAGCCAGCTTCATCTTTACGATCAGGATCAAGCTCAATTTGATCAGGATCGAACGCAGGCGGACGACAGACTTCAATCCCTCACAGAAACTCTGGCTGAACTGGAAGAAGAACTTGCCTCGACCCAGCAGCGGATTGAAGACCTGACGGCTGCAAAGGACAGGCAGAAGGAAGATGAGGATGCCCTGCAGCAGCGGCGCCAGGAGCTGCAGATCAAGCTTGCAGAACAGGAATCGGCTGTTCATAACCAACAGGAAAAGGTCAGCCGTTACGAAGAGGAAAAAGCTTTGATCGAGCAGGAACTTCGCGGGAATAAAGCTTCCTATCAGCAGCTGATGGAAGTGGTGGAGTCCAACCAAACCGAAGAAGAGCTTACAGAGCTGATCAAGAACGCAGGACAGGAGAAAGCAGCTGCTTCAGAAGACATCCAGTCTCTCCGCAAAGAACGGTCGGATATCAGTGCGGATGTGCAGAAAGAGGACGAATCCCTAAAGGAACACAACCGTCTCCACCAAAACTACCTGCAGGATATTCAGCAGAAGGAAGTAAAAGCCAACCGTCTGGACGTAGAGCTTGATAACCTTCTCACGTACCTGCAGGAGGAATACGTGATGACTTTTGAAAAGGCGAAACGGGATTACGATACCGTAGAGGATGTCGATCAGGCTGCAACGAAAGTGAAGCTGATTAAACGGTCGATTGAGGAACTTGGCACGGTCAACCTTGGAGCCATCGATGAATATGAGCGTATTAAAGAGCGGTATGAGTTTTTGAAAGGCCAGCAGGACGACTTGCTGGAAGCTAAAACAACCCTTCATCACGTCATTAACGAAATGGATGGGGAGATGAAGCGGAAGTTCGAAGATACCTTCACGAAAATCCGTGCGGAATTTAATGAAGTCTTCCGTACGCTCTTCGGAGGCGGTCGTGCTGATCTTCAGCTGACCGATCCGGAGAACATGCTGGAAACCGGTGTGGATATCGTTGCCCAACCGCCCGGCAAAAAACTCCAGAACCTAAGTCTTTTATCCGGAGGGGAAAGGGCATTGACAGCTATTGCTCTTCTGTTTTCCATCTTAAGAGTCCGGCCTGTGCCGTTCTGTGTCCTGGATGAAGTGGAAGCGGCTCTTGATGAAGCCAATGTGGACCGGTTTGCCCGGTTCCTGAAAGAGTTCAGCAGAAACACGCAGTTTATCGTCATTACCCACCGGAAGGGAACGATGGAGGAGTCGGATGTGCTGTATGGAGTGACGATGCAGGAATCCGGTGTGTCCAGACTGGTTTCCGTCCGTTTGGAAGAAACACCTGAATTATTGGAAGCATAG	MFLKQLDTIGFKSFADRVTVDFVSGVTSVVGPNGSGKSNITDAIRWVLGEQSARSLRGAKMEDIIFAGSESRSALNMAEVTLTLDNEDQTLPLDYQEVSVTRRVYRSGESEFYINNQTCRLKDIIDLFMDSGLGREAFSIISQGKVEEILSSKAEERRTIFEEAAGVLKYKQRKKKAEYKLAETQENLNRVEDIIHEIDGQLEPLKEQAAVAEDYLEKKDELKNIEISLLITQIEDLHKDWQVVLKELEQVKSGEAELKAEIAARQESVELKRSRIQQLDDSLENLQEKLVELTRELENLEGKKQLMKERHKHFEENKSKLEEAYEELSNKLETLKTVTSEETSKLEEAREKRRESKRELKETNQALNQDLQQMEEQIEDLKSDYIELLNKQAAKRNEKHLLEKQLSELHTKKDVQSGKFQGLREERETLEADRRRITGELEQLTSERKELETSLQEASAALEENKKTYQEWQEKLYKGYQYLEKMRSKKEMLEDMKEDFSGYFQGVREVLKARQNGRLSGIEGAVLELIDIPSTYMTAIETALGAQAQHIVVQDEKAGRQAIQWLKTQHKGRATFLPLSAIQPRYVTGAGSLNQQEGYVGVAAELINVPDAYAKAVQHLLGHIVVAETLEHANAIARVLNRKYRVVTLEGDVVNPGGSMTGGAKKQSGQSLFTREKELQETTEKIRDYEKKLQDVEQKVMQLKQSLSEQEQAKESYAEKLSLIKNKEYEKQSDARENEVKLNHVNSQLHLYDQDQAQFDQDRTQADDRLQSLTETLAELEEELASTQQRIEDLTAAKDRQKEDEDALQQRRQELQIKLAEQESAVHNQQEKVSRYEEEKALIEQELRGNKASYQQLMEVVESNQTEEELTELIKNAGQEKAAASEDIQSLRKERSDISADVQKEDESLKEHNRLHQNYLQDIQQKEVKANRLDVELDNLLTYLQEEYVMTFEKAKRDYDTVEDVDQAATKVKLIKRSIEELGTVNLGAIDEYERIKERYEFLKGQQDDLLEAKTTLHHVINEMDGEMKRKFEDTFTKIRAEFNEVFRTLFGGGRADLQLTDPENMLETGVDIVAQPPGKKLQNLSLLSGGERALTAIALLFSILRVRPVPFCVLDEVEAALDEANVDRFARFLKEFSRNTQFIVITHRKGTMEESDVLYGVTMQESGVSRLVSVRLEETPELLEA				NA	NA	NA	NA	NA
AK012_00325	1311	ftsY		Signal recognition particle receptor FtsY	ATGAGTTTTTTCAAGAAGCTGAAAGATAAATTCGTAAAAGGACAGGATGCGGAGGAAGAAAAGAAGGATCCTGCGGTGGATGAACAGGCAGAAGAAGATGGCTCTGTTCCTCCAGACCATTCGGATGAGGAGGCTTCGCCGGAAGTCTCCGAATCTCTCCCTGAAAACGAGGAGCCGTCCGTGACCGAGGAACCTGCTGCGGAAGAAGCGGTTGATTCCCATGTATCCGGGGCAGAAGAGGACGATAAGGAAGAGGAAGTGGAATCCGAAGCCGGGAGTCATGGGGAAGACGAAGCGGACGACAGCATACCGGCAGCAGTAGAAGGAGAAGTACAGGCAGAGGAAGAGGATGAGAAAGAAACCATCGCTTCCAAGTTCAAAAAAGGACTGGCCAAAACGAGAAATTCCTTCTCAAGTAAAATCAATGACCTTGTTGCCCGCTACCGTACCGTCGATGAGGACTTCTTTGAAGAACTGGAAGAAGTGCTGATTTCAGCTGACGTCGGAGTCACGACCGTCATGGAAATGATTGAAGAACTTGAGATGGAAGTGAAACGCCGAAACGTGCAGGACCCTCAGAAAGTCAAGGAAATCATTTCCGAAAAACTGGTGGACATTTATTATGGAGATGAGGATGCAGGGGAAGTAGAAGGCCTGACGGAAAATCCGGATGGTCTGACGGTGTACCTGTTTGTCGGAGTCAACGGTGTTGGGAAAACGACTACCATCGGGAAGCTCGCCCACCGTTTGAAATCCGAAGGGAAGAATGTCACGCTTGCTGCCGGTGACACTTTTAGAGCCGGTGCAATTGAACAGCTGGAAGAGTGGGGGAACAGAGTCGGAGTCAACGTTACCAAACATTCGGAAGGCAGTGACCCGGCTGCGGTGGTTTACGATGGCATCAAGGCGGCTAAATCACGCGGCGCGGATGTGTTGATTTGTGATACGGCCGGCCGCCTGCAGAATAAAGTCAATTTAATGAACGAACTCTCCAAGGTGAAGCGGGTCATTGAACGGGAAGTTCCTGGTGCCCCTCATGAGGTTCTGCTCGTTCTGGATGCAACAACCGGTCAGAATGCCATGAGTCAGGCAAAAACCTTCGCAGAAGTAACCGATGTATCGGGGATCGTCTTGTCGAAGCTTGATGGAACAGCGAAAGGCGGTATTGTTCTGGCTATCCGGAATGAACTGGAAATCCCGGTCAAGCTCGTGGGGCTCGGGGAGAAAGTGACCGATCTGGAAACGTTTGATGCCCACGCCTTTGTATATGGCTTGTTTGCAGAAATGATTGAGGAGTATGAAGAGGAATAA	MSFFKKLKDKFVKGQDAEEEKKDPAVDEQAEEDGSVPPDHSDEEASPEVSESLPENEEPSVTEEPAAEEAVDSHVSGAEEDDKEEEVESEAGSHGEDEADDSIPAAVEGEVQAEEEDEKETIASKFKKGLAKTRNSFSSKINDLVARYRTVDEDFFEELEEVLISADVGVTTVMEMIEELEMEVKRRNVQDPQKVKEIISEKLVDIYYGDEDAGEVEGLTENPDGLTVYLFVGVNGVGKTTTIGKLAHRLKSEGKNVTLAAGDTFRAGAIEQLEEWGNRVGVNVTKHSEGSDPAAVVYDGIKAAKSRGADVLICDTAGRLQNKVNLMNELSKVKRVIEREVPGAPHEVLLVLDATTGQNAMSQAKTFAEVTDVSGIVLSKLDGTAKGGIVLAIRNELEIPVKLVGLGEKVTDLETFDAHAFVYGLFAEMIEEYEEE	PGPT0025740_1947	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025740-ftsY-K03110	NA	NA
AK012_00326	330			hypothetical protein	GTGCTTGAAAAGACGACAAGGATCAATTACCTATTCGATTTCTACCAATCGTTGCTGACTCCTAAACAGAGAAATTATATGGAGTTGTATTATCTCGAAGATTATTCTCTTGGTGAAATATCCGAGACCTTTGATGTATCCCGTCAAGCGGTGTATGATAATATCCGCCGGACGGAAACCATGCTTGAAGAATATGAAAAAAAGCTTCATTTATATGAGAAATTCCAAAAACGCCAGCAGGTGATAGCGGAAATGGAAGCAGCTGTTGACAAACACGAGCTTCCCAAGCATACTGCCGTCTGGCTCGAACAACTACAAGATTTAGAATAG	MLEKTTRINYLFDFYQSLLTPKQRNYMELYYLEDYSLGEISETFDVSRQAVYDNIRRTETMLEEYEKKLHLYEKFQKRQQVIAEMEAAVDKHELPKHTAVWLEQLQDLE				NA	NA	NA	NA	NA
AK012_00327	1341	ffh	COG0541	Signal recognition particle protein	ATGGCATTTGAAGGTTTATCCGACCGTTTGCAGGAAACGATTAAAAAAATCAAAGGCAAAGGGAAGGTAACCGAACAAGACGTAAAAGAGATGACGCGGGAAGTCCGTCTCGCCCTCCTCGAGGCCGATGTTAACTTCAAAGTAGTGAAGGATTTTGTCAAACGCATTCGTGAACGGGCTGTCGGCCAGGAAGTTATGGAAAGTCTGACCCCGGGCCAGCAGGTCATAAAGGTCGTGAAAGAAGAGCTGACCGAGCTTATGGGCGGCAATGAGAGCAAAATTGCCGTGGCCAAGCGTCCGCCAACCGTCATTATGATGGTCGGTCTCCAGGGTGCCGGTAAGACGACGACGACGGGAAAACTGGCCAACCTTCTCCGGAAGAGTTACAACCGCAATCCGATGCTGGCAGCTGCCGACGTCTATCGTCCGGCCGCCATCCAGCAGCTGGAAACGCTCGGTAAACAGTTGAGTATGCCGGTTCATGCGGAGGGAACGGATGCGGATCCCGTAGATATTGCACGCAATGCGGTGGCCAGAGCGAAAGAGGAACATCATGATTATGTTCTGATTGATACCGCCGGTCGTCTTCATATCGACGGTGATCTGATGGGGGAACTGCAGCAGATTAAAGATGCGGTCAACCCGGATGAAATCTTCCTTGTGGTCGACTCCATGACGGGACAGGATGCGGTCAACGTAGCGGAAAGCTTTGATGAACAGCTGGATGTCAGCGGTGTCCTGTTGACGAAGCTTGATGGGGACACCCGAGGCGGTGCTGCTCTGTCTATTAAGGCTGTAACTGGTAAACCGATCAAATTTGCGGGTATGGGAGAAAAGCTGGATCAGCTTGAAGTTTTCCACCCGGAACGAATGGCCTCCCGTATTCTCGGCATGGGAGATGTCCTCACTCTAATTGAGAAGGCTCAGACCCAGGTCGATGAGAAACAGGCCAAAGAGCTGGAATCGAAAATGAGGAACGCTTCTTTTACGTTCGAGGATTTCCTTGAGCAGATGGAGCAGGTGAAGAACATGGGGCCGCTGGACGAGATCCTGAACATGATACCCGGGGCCAACAAGATGAAGGGGCTGCAGAATGTTTCCTTTGACGACAAGCAGATCGTCCATGTTGAAGCGATTATTCAGTCTATGACCAAGCATGAGCGTCAGGATCCATCATTGATGAATGCTGGACGTAAAAAACGGATCGCCAAAGGGTCAGGTACCTCTGTTTCAGAAGTGAACCGGCTTTTGAAACAGTTTGAAGAAATGAAGAAAATGATGAAGCAGATGAGCAATACCAAAGGGAAAAAAGGCCGCGGAATGAAATTTCCGTTTATGTAA	MAFEGLSDRLQETIKKIKGKGKVTEQDVKEMTREVRLALLEADVNFKVVKDFVKRIRERAVGQEVMESLTPGQQVIKVVKEELTELMGGNESKIAVAKRPPTVIMMVGLQGAGKTTTTGKLANLLRKSYNRNPMLAAADVYRPAAIQQLETLGKQLSMPVHAEGTDADPVDIARNAVARAKEEHHDYVLIDTAGRLHIDGDLMGELQQIKDAVNPDEIFLVVDSMTGQDAVNVAESFDEQLDVSGVLLTKLDGDTRGGAALSIKAVTGKPIKFAGMGEKLDQLEVFHPERMASRILGMGDVLTLIEKAQTQVDEKQAKELESKMRNASFTFEDFLEQMEQVKNMGPLDEILNMIPGANKMKGLQNVSFDDKQIVHVEAIIQSMTKHERQDPSLMNAGRKKRIAKGSGTSVSEVNRLLKQFEEMKKMMKQMSNTKGKKGRGMKFPFM	PGPT0025750_5024	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025750-ffh-K03106	NA	NA
AK012_00328	270	rpsP	COG0228	30S ribosomal protein S16	ATGGCAGTAAAAATTCGCCTAAAACGTATGGGATCTAAGCGTAACCCATTTTATCGTGTAGTAGTTGCAGACTCTCGCTCTCCTCGTGATGGCCGCATCATCGAGCAGATTGGAACATATAACCCGGTTGTTAACCCAGTTGAGGTTAAAATCGATGCTGATAAAGCAATCGACTGGATGTCCAACGGTGCGAAGCCGAGCGATACAGTGCGTAACCTATTCTCTAACGAAGGCATCATGAAGCAGTTCCACGATAAGAAAAACCAATAA	MAVKIRLKRMGSKRNPFYRVVVADSRSPRDGRIIEQIGTYNPVVNPVEVKIDADKAIDWMSNGAKPSDTVRNLFSNEGIMKQFHDKKNQ				NA	NA	NA	NA	NA
AK012_00329	228			hypothetical protein	ATGAAAGCCTTAATCGAAACGATCGTCACTCCGCTTGTCGATCATCCTGATGACATCAAGGTGGATGTGAAAGAAGAAGAGCACAAAACGGTGTATCATCTTTCGGTCCATCCGGATGATGTCGGCAAGGTGATCGGGAAAAACGGGCGGATTGCGAAAGCGATTCGAACTGTCGTGTATGCGGCAGGCTCTGATTCTGATAAAAGAATCTATTTGGATATCATGTAA	MKALIETIVTPLVDHPDDIKVDVKEEEHKTVYHLSVHPDDVGKVIGKNGRIAKAIRTVVYAAGSDSDKRIYLDIM				NA	NA	NA	NA	NA
AK012_00330	387			hypothetical protein	ATGCAGATCATCAGAAAAGTACCTGTCAAACAAGTCCTGACAGATTCCAGCCGGGCCGAGCTTAAGGAGCGGTTCAGTCAGAGGGAGCGCCAGCTTGACGAAGAATGCCGGCAGCTTGCTTTTGAACAGAAAAAACTGGAGCGCAAACCCGGCGTATCTAAACAGGAAGTGGAGCGGAGGTTTTCCCGCGAAATCAGCCGCAGGAAAGATCAGCTCAGGTGGATAGAGTACCAGCGTAAACAGCTCGATATCCTTCCGGATGGAAGTGAGCTGGAGACGGATGAAGTCGATACTCTGATCACGATTGAAGAAGGTGACAGGTGGGAGGATATTGTCCAGGACCGCCAGATTATCATTAAGGATGGAAAAGTCATACGAGCGAGGTAA	MQIIRKVPVKQVLTDSSRAELKERFSQRERQLDEECRQLAFEQKKLERKPGVSKQEVERRFSREISRRKDQLRWIEYQRKQLDILPDGSELETDEVDTLITIEEGDRWEDIVQDRQIIIKDGKVIRAR				NA	NA	NA	NA	NA
AK012_00331	516	rimM		Ribosome maturation factor RimM	ATGGATAGACAAATGTTTAATGTCGGAAAAATTATTAACACACACGGCATAAAAGGAGAAGTTAAAGTTCATCGGATCACGGATTTCGAGGAACGCTTCCAACCCGGGCAGCTTTTGTATTGGGTGGATGATAAGAAGGAAACAAAGACTTTAGTCGTCCGCAGTCATCGGATCCATAAAGGATTCGACCTGATCAGCTTTGAGGATCTTCCATCTATCAATGATGTAGAACCATTGAAGAATGTAACCCTGATGGTTTCCGAAGAGGAACAGGAAGAGCTCGGCGATCATGAATTTTACTTTCATGAGGTTATCGGATGTACTGTCTACCTTGAATCAGGCGAAGAACTCGGTGTGATAAAAGAGATATTGACGCCGGGGGCGAACGACGTGTGGGTCGTTAAACGGAAGGGAAGCAAAGATCTTCTAATCCCATATATAGAACCGGTTGTGAAAAAGGTGGACCCAATGGAAAAAACCATCATCATCGATCCAATAGAAGGGCTGCTGGACTGA	MDRQMFNVGKIINTHGIKGEVKVHRITDFEERFQPGQLLYWVDDKKETKTLVVRSHRIHKGFDLISFEDLPSINDVEPLKNVTLMVSEEEQEELGDHEFYFHEVIGCTVYLESGEELGVIKEILTPGANDVWVVKRKGSKDLLIPYIEPVVKKVDPMEKTIIIDPIEGLLD				NA	NA	NA	NA	NA
AK012_00332	729	trmD		tRNA (guanine-N(1)-)-methyltransferase	ATGCATATTGATATTTTAACGCTGTTTCCAGAGATGTTTGAAGGTGTCCTGCAGAATTCAATTATGAAAAGGGCTCGTGAGCAGCAGGCTTTTTCATACGATTATATCAATTTCCGTGATTACACGACGAGCAAGCATAATAAGGTAGATGACTATCCTTATGGGGGCGGGGCAGGGCTTGTTCTTTCCCCGCAGCCGATTTTCGACAGCATTGAGGCCATCCAGGAAAAGGCAGAGAAGCCGCCGCGTGTCGTCCTGCTCTGCCCACAGGGGGAACCTTACACCCAGCAGAAAGCGGAGGAACTTTCCGAGGAAGACCATCTCGTATTTATCTGTGGACATTATGAAGGGTATGATGAACGCATACGCCAGGAACTCGTCACCGATGAAATTTCTATCGGGGATTATGTACTCACAGGTGGTGAACTCGGGGCCATGGTCGTCATTGATTCCGTTGTCCGTCTGCTCCCCGGGGTGCTGGGGAATGAACAGTCCGCTCCGATGGACTCGTTTTCCAACGGCCTGCTTGAGCACCCTCATTACACGCGCCCCGCGGATTTCCGCGGGATGAAGGTCCCCGATGTCCTTCTCTCCGGTAATCACGCTAAAATTGACGAGTGGAGACACAAAGAGTCTCTAAAACGGACCTTTGAACGCAGACCAGATCTTTTAGAGAAGAAAGAGCTGTCGGATAAGGAAAAAACATGGCTGGATGAGTGGGAAAAATAA	MHIDILTLFPEMFEGVLQNSIMKRAREQQAFSYDYINFRDYTTSKHNKVDDYPYGGGAGLVLSPQPIFDSIEAIQEKAEKPPRVVLLCPQGEPYTQQKAEELSEEDHLVFICGHYEGYDERIRQELVTDEISIGDYVLTGGELGAMVVIDSVVRLLPGVLGNEQSAPMDSFSNGLLEHPHYTRPADFRGMKVPDVLLSGNHAKIDEWRHKESLKRTFERRPDLLEKKELSDKEKTWLDEWEK	PGPT0007595_14	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0007595-ispF-K01770	NA	NA
AK012_00334	345	rplS	COG0335	50S ribosomal protein L19	ATGCAACAGTTGATTCATGACATTACAAAAGAACAGCTTCGTACAGATCACCCTGATTTCCGTCCTGGTGACACTGTCAAAGTACACGTGAAGGTTGTCGAAGGCACCCGTGAGCGTATCCAGGTATTCGAAGGTGTTGTTATTAAACGTCAGAACGGTGGAATCAGCGAAACATTCACAGTTCGTAAGATTACTTACGGCACTGGTGTTGAGCGTACATTCCCAGTTCATTCACCACGTATTGCTAAAATCGAACGTTCCCGTCGTGGTAAAGTACGCCGTGCGAAACTTTACTATCTACGTAACCTTCGTGGTAAAGCAGCACGTATTAAAGAAATTATCTAA	MQQLIHDITKEQLRTDHPDFRPGDTVKVHVKVVEGTRERIQVFEGVVIKRQNGGISETFTVRKITYGTGVERTFPVHSPRIAKIERSRRGKVRRAKLYYLRNLRGKAARIKEII				NA	NA	NA	NA	NA
AK012_00335	552	sipS	COG0681	Signal peptidase I S	ATGAAGCAACAATGGTTGGATTGGATCAAAGCATTTGCCATCGCTGCTGTTCTGGCAGTGATTGTACGAGTGTTTATTTTTGCGCCGGTTGTCGTTGAAGGGCCGTCTATGCTTACGACACTTCACAGTGGAGATCATCTCATTGTGAGTAAGCTTCATAAACGTCTGACTTCTCCTGATCGGTTTGATGTGGTCGTTTTTCATGCAACAGAACAGAAAGATTACATAAAACGGGTCATCGGTGTCCCAGGGGATCACATCGCCTATGAAAATGATCAGTTATATGTGAATGGCGAACGGGTGGAGGAGCCGTTTCTGGAAGAAAGAAAGGCACAGCTTCCAGAGGACGGAATACTGACCAGCGACTTCAGAATGGAAGAGGACATTCCAGGCGGTTTTGAGGAAGTCCCTGACGGCCATGTCTTTGTGCTGGGGGATAACCGGGACAATTCCACAGACAGCCGTGTCCTCGGCATGATACCTGAGGAGCAGCTGGTTGGGGAGGCTGTTTTATCCTACTGGCCGCTTGATCGTATCCGTATCGTTAATTAG	MKQQWLDWIKAFAIAAVLAVIVRVFIFAPVVVEGPSMLTTLHSGDHLIVSKLHKRLTSPDRFDVVVFHATEQKDYIKRVIGVPGDHIAYENDQLYVNGERVEEPFLEERKAQLPEDGILTSDFRMEEDIPGGFEEVPDGHVFVLGDNRDNSTDSRVLGMIPEEQLVGEAVLSYWPLDRIRIVN				NA	NA	NA	NA	NA
AK012_00336	843	rbgA	COG1161	Ribosome biogenesis GTPase A	ATGACAATACAATGGTTTCCCGGGCACATGGCCAAAGCCAAACGGGAAGTAGCAGAAAAACTTAAACTCGTTGACTTTGTCATCGAACTTGTCGATGCCCGAGCCCCTTTATCTTCACAAAACCCTATGCTTCACGGCATTCTCCAGGAGAAGCCGAAGATGGTTGTGCTTATGAAAAAGGATCTGGCAGACCCCGGGGTGACAGAACAGTGGATTGAATATTTCCAAAATCGGAATATTCCGGCTGTGGCTATTGAAGCCAACCAGAAGCAGGATGTCCAGCGGGTGATTCAGAAAGCCAAAGCACTCGGGAAAGAAAAAATAGATAAACTTGTAGCCAAAGGGATCCGCCCTAGAGCATCAAGAGCGATGATCATCGGAATTCCGAACGTCGGGAAATCCACACTGATCAACCGTCTCGTGAATAAAAGAGCCGCTAAAACCGGGGATAAGCCGGGGGTAACGACGAAACAGCAGTGGATTAAAGTGAAGAAAGAATTTGAACTGCTCGATACGCCGGGAATTCTCTGGCCGAAGTTTGAAGAAGAAGAAGTCGGGTACCGTCTCGCGTCTATCGGGACGATCAAGGATCAGATTCTGCCTAAAGAAGATGTAGCCGCCTATGTTCTTGATTTCCTAAGCCGGGAATATCCAAGTCTGCTTGAAGACCGATTCGGCCTGGAGCAGGTTGATGACATGATGGAAGTTTTCGAGCACATCGGGAAGAAACGGGGCTGTCTGGAAAGCGGAGGCCATGTGAATTTTGAAAAGGTGTCCGATATCATTCTTCAGGATCTGCGGACAGGGAAACTGGGCTTGATCAGTCTGGAAACACCTGAATAA	MTIQWFPGHMAKAKREVAEKLKLVDFVIELVDARAPLSSQNPMLHGILQEKPKMVVLMKKDLADPGVTEQWIEYFQNRNIPAVAIEANQKQDVQRVIQKAKALGKEKIDKLVAKGIRPRASRAMIIGIPNVGKSTLINRLVNKRAAKTGDKPGVTTKQQWIKVKKEFELLDTPGILWPKFEEEEVGYRLASIGTIKDQILPKEDVAAYVLDFLSREYPSLLEDRFGLEQVDDMMEVFEHIGKKRGCLESGGHVNFEKVSDIILQDLRTGKLGLISLETPE				NA	NA	NA	NA	NA
AK012_00337	762	rnhB	COG0164	Ribonuclease HII	ATGTCCAAGCGCACAATCAATGAAATTAAAGCTATGCTGCAGGCACAGGAGCCTACAGAGGGGGAATGGGAGGAACTGTCTGGAGATACGCGTAAAGGCGTACAGAAGCTTTTAAAGCAGTATACAGACAGGCAGAAGAAGAAAGAAGCTCTTCGGAACCAGTATGAAGACATGCTGGAATTTGAAAAAGAGGCCTGGCAAAGAGGCCGTACCTATGTGTGCGGCATCGATGAAGCAGGAAGAGGGCCGCTCGCAGGGCCGGTGGTTGCAGGAGCTGTCGTCCTCCCTGATGACTATTATCTGGAGGGTCTTTATGATTCCAAGCAGCTGTCAGAAGCAAAGCGGGAATGGTATTATGAACAAATTACGAAAGATGCCGACTGGGCAGCTGGAATTGTGTCCAGCACGGAAATAGATCAGCTCAATATCTACCAGGCATCCAGGCTTGCTATGAAACGTGCTGTATCCCAGTTGAATCAACAGCCCGATCATCTGCTGGTCGATGCGATGACGCTTGGGGAAGGGTGGAGTGAAACAAAGCTGATCAAAGGGGACCAGCGGAGTGTATCCATCGCTGCTGCCAGTATTATTGCCAAAGTGACGCGGGACCGGATGATGGCCGATCTTGATGAAGTATATCCAGGCTATCAGTTTAATTCCAATCAGGGTTACGGTACGAAAGACCATCTCCACGCGCTTGAAACCTATGGCGTCACCCCCGTACACCGAAAAACCTTCGCCCCCGTTAAAAATATGATGTAG	MSKRTINEIKAMLQAQEPTEGEWEELSGDTRKGVQKLLKQYTDRQKKKEALRNQYEDMLEFEKEAWQRGRTYVCGIDEAGRGPLAGPVVAGAVVLPDDYYLEGLYDSKQLSEAKREWYYEQITKDADWAAGIVSSTEIDQLNIYQASRLAMKRAVSQLNQQPDHLLVDAMTLGEGWSETKLIKGDQRSVSIAAASIIAKVTRDRMMADLDEVYPGYQFNSNQGYGTKDHLHALETYGVTPVHRKTFAPVKNMM	PGPT0017710_13	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
AK012_00338	1161	sucC	COG0045	Succinate--CoA ligase [ADP-forming] subunit beta	ATGAACATTCATGAGTACCAAGGAAAACAAATCATGCGTGATTTTGGCGTTTCTGTGCCAAATGGCTACGTAGCTTATACAGTCGATGAAGCTGTTGAGGCAGCAGAGAAGCTCGGCAGCAGCGTGACTGTTGTAAAAGCGCAGATCCATGCAGGTGGGCGTGGAAAAGCGGGCGGAGTTAAAATCGCCAAAAATCTTGATGAAGTACGTACATATGCCGATGAAATACTAGGTTCAACGCTTGTCACCCATCAGACTGGACCGGAAGGCAAAGAAGTTAAGCGCTTACTCATCGAGGAAGGATGCGACATTCAAAGTGAATATTATGTCGGCCTTGTCCTTGACCGTGCTACAAGCCGGGTGACTATGATGGCTTCTGAAGAGGGAGGCACCGAGATTGAGGAAGTGGCAGCTGAAACTCCGGAAAAAATCTTCAAAGAAGTGATCGATCCGGTTACCGGGCTGACACCTTTCCAGGCCAGACGTCTTGCTTTTAATATCAATATTCCTAAAGAAGCCCTCGGTAAAGCTGTCAAGTTCATGCTTGGCTTGTATGATGTGTTTGTGAAGAAGGATTGTTCCGTAGCTGAAATCAATCCCTTAGTCACTACAGGGGACGGTGATGTCCTTGCGCTGGATTCAAAATTGAATTTTGACGACAACGCCCTGTTCCGTCAAAAGGATATTATGGAGCTTCGTGATCTGGATGAAGAAGACCCGAAAGAGGTGGAAGCGTCCAAATATGACCTCAGCTACATCGCCCTTGATGGAAACATCGGCTGTATGGTTAACGGAGCCGGGCTGGCGATGGCTACGATGGACACGATTAAGCATTACAGCGGAGACCCGGCCAACTTCCTTGATGTTGGCGGCGGTGCAACAACCGAGAAAGTTACAGAAGCTTTTAAAATTATTTTATCCGATGATAACGTAAAAGGGATTTTCGTCAACATTTTCGGCGGTATTATGAAATGTGATGTCATTGCCGAAGGTGTCGTTGAAGCGACGAAGCAGATCGGCTTGACGCTTCCTCTTGTCGTACGTCTGGAAGGGACCAACGTCGAGGACGGGAAGAAAATTCTGGATGAATCCGGTTTGAATATTACTTCTGCTGATTCCATGGCAGAAGGTGCACAAAAAATCGTGGAACTAGTGAAGTAG	MNIHEYQGKQIMRDFGVSVPNGYVAYTVDEAVEAAEKLGSSVTVVKAQIHAGGRGKAGGVKIAKNLDEVRTYADEILGSTLVTHQTGPEGKEVKRLLIEEGCDIQSEYYVGLVLDRATSRVTMMASEEGGTEIEEVAAETPEKIFKEVIDPVTGLTPFQARRLAFNINIPKEALGKAVKFMLGLYDVFVKKDCSVAEINPLVTTGDGDVLALDSKLNFDDNALFRQKDIMELRDLDEEDPKEVEASKYDLSYIALDGNIGCMVNGAGLAMATMDTIKHYSGDPANFLDVGGGATTEKVTEAFKIILSDDNVKGIFVNIFGGIMKCDVIAEGVVEATKQIGLTLPLVVRLEGTNVEDGKKILDESGLNITSADSMAEGAQKIVELVK	PGPT0019515_3031	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
AK012_00339	903	sucD	COG0074	Succinate--CoA ligase [ADP-forming] subunit alpha	ATGAGTGTTTTTATTAACAAGGATACGAAAGTGATTGTTCAAGGAATTACGGGATCAACAGCCTTGTTTCACACCAAGCAGATGGTGGAATACGGCACGCAGATTGTCGGTGGTGTAACACCAGGAAAAGGCGGCACAGAAGTTGAAGGCATTCCTGTATTCAACACCGTATCGGAAGCGGTGGAAAAAACAGGTGCCAACGCTTCGGTCATCTACGTACCTGCCCCATTTGCTGCAGATGCGATTATGGAAGCAACTGATGCAGAGATGGACCTGGCGATCTGTATCACTGAACACATTCCTGTTCTGGATATGATTAAAGTGAAGCGGTATATGGAAGACAAGAAAACGCGTCTTGTCGGACCGAACTGTCCTGGAGTCATTACGCCGGATGAGTGTAAAATCGGCATCATGCCTGGTTATATCCATAAAAAAGGCCATGTAGGGGTTGTATCCCGGTCCGGTACGTTGACGTATGAAGCTGTACATCAATTGTCTGAGGCAGGTCTCGGCCAGTCCACTGCTGTGGGAATCGGCGGCGACCCTGTAAACGGAACCGATTTCATTGACGTCTTAAAAGCATTTAATGAGGACGAGGATACGGAAGCCGTCATTATGATTGGTGAAATCGGCGGTACTGCTGAAGAAGAAGCGGCTGAATGGGTGAAAGCCAATATGAACAAGCCTGTTGTCGGCTTCATCGGAGGAAGAACAGCACCTCCAGGGAAGCGTATGGGACACGCAGGTGCCATCATCTCCGGTGGTAAAGGTACAGCGGATGAGAAGATCCGTGTCATGAACGAATGCGGGATTCAAGTGGCTGAAACGCCATCTGTGATGGGGGAAACCCTTATTGAAGTGTTGAAAAATGAAAATCTTTTCGACAAATGTAAAACCCATTAA	MSVFINKDTKVIVQGITGSTALFHTKQMVEYGTQIVGGVTPGKGGTEVEGIPVFNTVSEAVEKTGANASVIYVPAPFAADAIMEATDAEMDLAICITEHIPVLDMIKVKRYMEDKKTRLVGPNCPGVITPDECKIGIMPGYIHKKGHVGVVSRSGTLTYEAVHQLSEAGLGQSTAVGIGGDPVNGTDFIDVLKAFNEDEDTEAVIMIGEIGGTAEEEAAEWVKANMNKPVVGFIGGRTAPPGKRMGHAGAIISGGKGTADEKIRVMNECGIQVAETPSVMGETLIEVLKNENLFDKCKTH	PGPT0001540_482	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
AK012_00340	882			hypothetical protein	ATGAATTCCAAACGAACCAGACTGATCGGCCTTCACAGCCTTTCGGTTTTAAGCCGAGCACGATTAAGGAAGTTGTTAACATCTGACCCGGATCTTGATTTCCTCACTCATCTTTCCCCGGAACAATTCGCTCTTCTAACTCAAGTCCCCATCCGCACTTCCCATATGGTTTATCAAAGGCTGAAAGACCCTAATATAATGAAGAAACTCGACAATAATCTTCGACGATATACAATTTTCACGTGGTTTGATGAATGTTATCCATCCATGCTCCGGACCATTCCCGACCCTCCTCTCGTATTGTATATCGAAGGGGACCCAGACATACTCTCCGCCTCTTTTTCCCTCAGCGTCATCGGCACAAGAAAGCCGTCCTCCTATGCGTATCCCGCTATGAAAAGGGTGCTCCGTCCACTTATCCAGCATGGGGCCCTGATCGTCAGTGGTATGGCTTACGGGATCGATCAATATGCGCATACGCTTGCAGTTCAAAATGGAGGGAAGACAGCTGCCGTGCTTGGATCAGGTTTTGAGCATATTTACCCTTCCAACAACCTTTCCCTGTATAAACAAATGACTGATCATCATATAGTCATTAGTGAATACCCTCCCCATATGCCGCCGAAGAAATATCACTTTCCTGAACGGAACCGGCTCATATCCGGTTTAAGCCCGGCCACATTTGTTATTGAAGCGAAAATGAAAAGCGGGACGATGATTACCGTCGACCAGGCTCTGGAACAGGGGAGGAGTGTGTACGCCCTTCCCGGGCCGGCGGGAAGCCTTACGAGTGAAGGGTGCCACCACCTCATTAATGAAGGGGCCAAGCTTGTTCATACGTATCATGATATAGCCGAGGACTGGTTTGAAAAATTTGAATAA	MNSKRTRLIGLHSLSVLSRARLRKLLTSDPDLDFLTHLSPEQFALLTQVPIRTSHMVYQRLKDPNIMKKLDNNLRRYTIFTWFDECYPSMLRTIPDPPLVLYIEGDPDILSASFSLSVIGTRKPSSYAYPAMKRVLRPLIQHGALIVSGMAYGIDQYAHTLAVQNGGKTAAVLGSGFEHIYPSNNLSLYKQMTDHHIVISEYPPHMPPKKYHFPERNRLISGLSPATFVIEAKMKSGTMITVDQALEQGRSVYALPGPAGSLTSEGCHHLINEGAKLVHTYHDIAEDWFEKFE				NA	NA	NA	NA	NA
AK012_00341	2076	topA		DNA topoisomerase 1	ATGGCAGATTATCTTGTAATAGTGGAATCACCTGCAAAAGCAAAAACAATTGAACGATATCTTGGAAAAAAATATAAAGTTAAAGCTTCCCTCGGGCATGTCCGTGACCTTCCAAAGAGTCAAATGGGTGTGGATGTCGAGCATGAATTTGAACCAAAGTATATTACGATACGAGGCAAGGGCCCTGTATTAAAAGAGTTGAAGACGGCGGCTAAGAAGGCCAAGAAAGTCTATCTCGCAGCCGACCCCGACCGTGAAGGGGAAGCCATTGCCTGGCACCTGGCCCACAGTCTGGACATTGATGACAAGTCCAAATGCCGTGTCGTATTTAATGAAATTACAAAAGAAGCAATCAAAGATTCCTTTAAACAGCCGCGGAGCATCGATTCCGACCTGGTGGACGCACAGCAGGCCAGACGGATCCTCGACCGGCTTGTCGGGTACAATATCAGTCCGATTCTATGGAAAAAAGTTAAAAAAGGGCTGAGTGCCGGACGCGTCCAATCCGTTGCTGTGAAGATCATTATTGACCGTGAAAATGAGATTAAAAATTTCCAGCCGGAAGAATACTGGACAATTGAAGCTGATTTCCTGAAGGATAAAGAGCCTTTTGAAGGATCCTTTTACGGAGTGGATGGGAAAAAGCAGGAGCTGAAGACGCAGCAGGATGTTGAAGCGGTCCAATCCCGTCTCGACGGTAAAGAGTTTACTGTAGACAAAGTCAATAAGCGGGAAAGACGCCGGAATCCTTCGCTGCCTTTTACAACATCCTCTCTCCAGCAGGAAGCAGCGAGGAAACTCAATTTCAGAGCAAAGAAGACAATGATGATTGCTCAGCAGCTTTATGAAGGGATTGACCTCGGCGGTAAACAGGGAATCACCGGTTTGATCACGTATATGCGTACCGACTCCACGCGCCTTTCCAATTCCGCAAAGGATGATGCGAAACAATACGTGGAGAACAATTTCGGTAAAGAGTTTCTAGGTGCCGGCAAAGCTGCTAAAAAGCAGGAAGGAGCCCAGGATGCCCACGAGGCAATCCGTCCGACAGGAGCTGACAGAGATCCTAAAGCGATGAAGAGTATCCTGTCCAGAGACCAGTACCGCCTTTACAAACTGATCTGGGATCGTTTTATTGCCAGTCAGATGGCACCAGCTGTCCTTGACACGATGACGGTGCATATGACCAATGAAGGAGTGGAGTTCCGTGCAACAGGCTCTGAGGTCAAGTTCAAAGGTTTCATGAAAGTCTACGTAGAAGGCAATGATGACAACAAGAAGGAAAAGGATAAGCTGCTCCCTCATCTTGAGGAAGGCATGACCGTAAAAGCTGAGGAAATCAAACCGAACCAGCACTTTACGCAGCCGCCTCCACGCTACACCGAAGCGCGCCTGGTCAAAACTCTGGAGGAACTGGGGATTGGACGTCCTTCCACCTATGCACCTACCCTGGACACGATCCAGCGCCGTGGATACGTGGCTTTGGATAATAAACGCTTTGTTCCTACTGAACTTGGTGAGATCGTCCTGGATCAGCTGAGAGAGTACTTCCCGGAAATCATTGACGCTGCATTCACAAAGGAAATGGAAGATGACCTGGATGCGATTGAAGAAGGGAAAGAGGAATGGGTCAACATCATCAGCCATTTTTATGAAGGTTTCCAGCCCAGATTGGAAAAAGCCGAGAAAGAAATGGAAGAAGTGGAAATTAAAGATGAGCCCGCCGGCATTGATTGTGAGAAATGCGGCCATGAGATGGTTTATAAGATGGGGCGCTACGGAAAATTCCTTGCCTGCTCCAACTTCCCGGACTGCCGGAATACAAAGCCGATTTTGAAAAAGGTCGGAGTGACTTGTCCGAAGTGTAAGGACGGAGAAGTAGTAGAAAGGAAGAGTAAGAAGAATCGTAAGTTCTTTGGATGTGAAAATTATCCGGACTGCGACTTCATTTCCTGGGATAAACCGATCAGCCGTCCATGTCCGAAATGTGAATCTCTGCTTGTAGAGAAGAAAGTCAAGAAGGGTACCCAGATTCAATGTACCAGCTGTGATTATAAAGAAGAGCCGCAGGCCTGA	MADYLVIVESPAKAKTIERYLGKKYKVKASLGHVRDLPKSQMGVDVEHEFEPKYITIRGKGPVLKELKTAAKKAKKVYLAADPDREGEAIAWHLAHSLDIDDKSKCRVVFNEITKEAIKDSFKQPRSIDSDLVDAQQARRILDRLVGYNISPILWKKVKKGLSAGRVQSVAVKIIIDRENEIKNFQPEEYWTIEADFLKDKEPFEGSFYGVDGKKQELKTQQDVEAVQSRLDGKEFTVDKVNKRERRRNPSLPFTTSSLQQEAARKLNFRAKKTMMIAQQLYEGIDLGGKQGITGLITYMRTDSTRLSNSAKDDAKQYVENNFGKEFLGAGKAAKKQEGAQDAHEAIRPTGADRDPKAMKSILSRDQYRLYKLIWDRFIASQMAPAVLDTMTVHMTNEGVEFRATGSEVKFKGFMKVYVEGNDDNKKEKDKLLPHLEEGMTVKAEEIKPNQHFTQPPPRYTEARLVKTLEELGIGRPSTYAPTLDTIQRRGYVALDNKRFVPTELGEIVLDQLREYFPEIIDAAFTKEMEDDLDAIEEGKEEWVNIISHFYEGFQPRLEKAEKEMEEVEIKDEPAGIDCEKCGHEMVYKMGRYGKFLACSNFPDCRNTKPILKKVGVTCPKCKDGEVVERKSKKNRKFFGCENYPDCDFISWDKPISRPCPKCESLLVEKKVKKGTQIQCTSCDYKEEPQA				NA	NA	NA	NA	NA
AK012_00342	900	xerC_1	COG4974	Tyrosine recombinase XerC	ATGCAGTCCTTTAAAGAATCTTTTATGGAATATCTTCAGATTGAAAAGAATGCTTCTCCTCTGACGATCAAACATTACGCCAGGGATATTGATGAATTTTATGCCTTTCTCACGGCAGAAGGCACAGTCATTGAAAGCTGTGATTATTCCACTGTCCGGGTGTTTTTGACGAGGCAGTATGAGGCGGGGTACGCGAGAAAGACGGTGTCCAGAAAAGTGTCCAGTCTCCGCAGCTTTTTCAGATACTTGGAAAGGGAGAATTGGCTGGACAGCAATCCGTTTGCCAATGTGTCTCTTCCTAAGGCGGAAGCCCCCATTCCTAATTTCTTTTATGAACAGGAGCTGGATCAGCTTTTTCAAGTCAGTGATCTGACAGATCCCCTCGGTCAAAGGAATCAGGCCCTGCTCGAATTGCTGTATGGAACAGGAATTCGTGTCAGTGAATGTGTCCAGTTGAAAACGGGGGATCTTGATTTTTCCCTGAATACAGCTCTGGTGCTCGGGAAAGGGAGAAAGGAGCGGTACGTTCCGTTTGGAAGGTCAGCTTCAACAGCACTTCGAAAGTATATGGAAGACGGCCGCCTGATTTTATCGGCTAAACAAAAGGAGCCGGTCAAAACGTTGTTTCTCAATGCCCGCGGGGGACCGCTGACGGCTGATGGAATTCGATTGATTTTAAATAAAATGGTGAAGGAAGCTGCGTTAACTGTGGACGTCCACCCTCATAAACTCCGGCATACATTTGCTACGCATATGCTGAATGAGGGGGCCGATATGAGGTCCGTACAGGAACTGCTCGGTCATGAACATCTATCCTCTACGCAGATTTATACGCATGTAACGAAGGATCGACTGAGAAATGTATATATGAACAGCCATCCAAGAGCGAATAAGAGGTGA	MQSFKESFMEYLQIEKNASPLTIKHYARDIDEFYAFLTAEGTVIESCDYSTVRVFLTRQYEAGYARKTVSRKVSSLRSFFRYLERENWLDSNPFANVSLPKAEAPIPNFFYEQELDQLFQVSDLTDPLGQRNQALLELLYGTGIRVSECVQLKTGDLDFSLNTALVLGKGRKERYVPFGRSASTALRKYMEDGRLILSAKQKEPVKTLFLNARGGPLTADGIRLILNKMVKEAALTVDVHPHKLRHTFATHMLNEGADMRSVQELLGHEHLSSTQIYTHVTKDRLRNVYMNSHPRANKR	PGPT0021995_2940	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0021995-xerC-K03733	NA	NA
AK012_00343	546	clpQ	COG5405	ATP-dependent protease subunit ClpQ	ATGGATCAGCAATTTCACGCAACGACAATTTTCGCCGTCCAGCATAATGGGAAATCAGCCATGAGCGGGGACGGACAAGTGACATTAGGAAATCAGGTAGTCATGAAGCATACAGCAAAGAAAGTAAGAAGACTGTTTAACGATCAGGTGCTCGCTGGTTTCGCCGGTTCTGTAGCAGATGCTTTTACACTCTTTGAAAAGTTTGAAGGCAAGCTGGAAAGCTACGACGGCAATCTGGCAAGAGCTTCTGTGGAACTGGCCAAGGAGTGGCGCAGTGACCAGGTGTTAAGGAAGCTTGAAGCTATGCTGATTGTGATGGATAAAGAAAAAATGTTTCTCGTTTCCGGAACAGGGGAAGTCATTGAACCAGATGACGGTATACTGGCAATTGGATCCGGCGGCAACTTTGCTCTTAGTGCCGGCCGCGCATTAAAAAGATACTCCCCGGACCAGTCCGCTCCGGATATCGCCAGGGCTGCACTTGAAATTGCCGGCGAAATCTGTGTGTTTACGAATGATCAGATCGTTTTGGAAGTTCTTGAATAA	MDQQFHATTIFAVQHNGKSAMSGDGQVTLGNQVVMKHTAKKVRRLFNDQVLAGFAGSVADAFTLFEKFEGKLESYDGNLARASVELAKEWRSDQVLRKLEAMLIVMDKEKMFLVSGTGEVIEPDDGILAIGSGGNFALSAGRALKRYSPDQSAPDIARAALEIAGEICVFTNDQIVLEVLE				NA	NA	NA	NA	NA
AK012_00344	1398	clpY	COG1220	ATP-dependent protease ATPase subunit ClpY	ATGTCTATAGAGTTAACCCCTAAACAAATTGTTGAAAAACTGGATCAATACATTATTGGACAGGACAGTGCCAAGCGCTCTGTGGCGATTGCGCTTAGGAACCGTTACCGCCGTATGCAGCTGACCGATGAGCTGAAGGATGAAATTGTTCCTAAGAACATTCTGATGATGGGCCCGACAGGCGTAGGTAAAACAGAAATCGCCCGCAGGCTGGCCAAACTTACAGGCGCTCCTTTCGTAAAAGTAGAGGCTACTAAATTCACGGAAGTCGGTTATGTCGGCCGTGACGTTGAATCCATGGTCCGTGACCTCGTAGAAATGGCTGTCCGTATGGTTAAGGAAGAGAAGATGGAAGCCGTCAAGGACCGTGCAGAAGAACAGGCGAATAAAAGACTTGTAAAGCTCCTCGTTCCATCTAAGAAGAAGCAGAACAATAACTTTAAGAATCCTTTCGAAATGCTGTTCAACCAGAACGGTCAACAGGACAACCAAACCGATGAGTCACAGGAAGAAGCCGAAATCGAAACCAAGCGGAGCCGCATCCGCCATCAGCTGGATATGGGGGAACTCGAGGACCGCATGGTGACGGTGGAGGTGGAAGAGTCCCAATCATCAATGTTTGATATGCTCCAGGGGTCAGGTATGGAACAGATGGGGATGAACATGCAGGATGCATTCAGTCAGTTCATGCCGAAGAAAAAGAAAAAGCGCCGTCTGGCTGTATCAGAAGCCCGTAAGGTATTGACCCAGGAAGAAGCAGGGAAGCTTGTGGATATGGATGAAGTCGGACAGGAAGCGGTTTATAAAGTAGAGCAGTCCGGCATGATCTTTATCGATGAGATTGATAAAGTCGCAGCTAAGGGAGAGAATCAGGGGAACGTATCCAGAGAAGGTGTACAGCGTGATATTCTTCCGATTGTAGAAGGTTCTACGATTGTAACGAAATATGGACCTGTAGCGACAGATCATATTCTCTTCATAGCAGCGGGGGCCTTTCATATGGCCAAACCCTCTGACCTGATTCCTGAACTCCAAGGCCGCTTTCCGATCCGCGTGGAACTTAATAAGCTCAGTGTTGCAGATTTCAAGCGTATATTAATGGAGCCGTCCAATGCGCTTTTAAAACAATATATAGCTTTACTTGAAATTGAAGGTATAAAGGTTGAATTTTCTGACGATGCTGTTACCAGACTCGCAGAAATCGCTCATGAAGTGAATCAGGAAACAGATAATATCGGCGCCCGCAGACTTCATACCATTCTTGAGAAACTGCTTGAGGATCTATCATTTGAAGCTCCGGATGTCATGATGGAAACCATCGAGATTACACCGCAGTATGTAGACAGTAAATTATCATCAATTGTTAAAAACAAAGATCTCAGCCGATTTATTTTGTAG	MSIELTPKQIVEKLDQYIIGQDSAKRSVAIALRNRYRRMQLTDELKDEIVPKNILMMGPTGVGKTEIARRLAKLTGAPFVKVEATKFTEVGYVGRDVESMVRDLVEMAVRMVKEEKMEAVKDRAEEQANKRLVKLLVPSKKKQNNNFKNPFEMLFNQNGQQDNQTDESQEEAEIETKRSRIRHQLDMGELEDRMVTVEVEESQSSMFDMLQGSGMEQMGMNMQDAFSQFMPKKKKKRRLAVSEARKVLTQEEAGKLVDMDEVGQEAVYKVEQSGMIFIDEIDKVAAKGENQGNVSREGVQRDILPIVEGSTIVTKYGPVATDHILFIAAGAFHMAKPSDLIPELQGRFPIRVELNKLSVADFKRILMEPSNALLKQYIALLEIEGIKVEFSDDAVTRLAEIAHEVNQETDNIGARRLHTILEKLLEDLSFEAPDVMMETIEITPQYVDSKLSSIVKNKDLSRFIL				NA	NA	NA	NA	NA
AK012_00345	780	codY	COG4465	GTP-sensing transcriptional pleiotropic repressor CodY	ATGAAACTACTAGACCGTGCACGTAAGATCAACGCAATGCTGCAGAAAACAACAGGAAAGTCCGTCGACTTCAATGATATGTCCGCAACGATGCGTGATGTTATTGAAGCGAACACCTTCGTATTAAGCCGCCGCGGAAAGCTGCTCGGCTTCGCCATTAATCAGGAAATTGAGAATGAGCGTATGAAGGCCATGCTGTCCGATCGTCAATTCCCTCAGGAGTATACACAGAGTCTGTTCAATATCCAGGAAACGACAGCTGATATTGACATCGACAGTGAATATACAGCCTTCCCTATTGAGAACCGTGATTTGTTCGAAAACGGTTTGACCACCATCGTTCCCATCATCGGAGGCGGACAACGCCTGGGTACATTGATTCTGAGCCGTTTGAACGGAAATTTCAATGATGATGACCTGCTTCTTGCCGAATATGGGGCAACGGTTGTTGGCATGGAGATTCTTCATGAGAAAACAGAGGAAATCGAACAGGAAGCGCGAAGCAAAGCGGTTGTTCAAATGGCCATCAGCTCCCTTTCCTACAGTGAACTGGAAGCCATTGAGCACATCTTTGATGAACTGGAAGGCAATGAAGGTCTTCTCGTTGCAAGTAAGATTGCTGACCGCGTAGGGATTACCCGTTCTGTAATCGTAAACGCTCTTCGTAAACTGGAAAGTGCCGGCGTGATCGAGTCCCGTTCCCTCGGTATGAAGGGGACTTATATCAAAGTTCTTAACAACAATTTCTTAGTAGAGCTTCAGAAGCTCCGGACAAATTAA	MKLLDRARKINAMLQKTTGKSVDFNDMSATMRDVIEANTFVLSRRGKLLGFAINQEIENERMKAMLSDRQFPQEYTQSLFNIQETTADIDIDSEYTAFPIENRDLFENGLTTIVPIIGGGQRLGTLILSRLNGNFNDDDLLLAEYGATVVGMEILHEKTEEIEQEARSKAVVQMAISSLSYSELEAIEHIFDELEGNEGLLVASKIADRVGITRSVIVNALRKLESAGVIESRSLGMKGTYIKVLNNNFLVELQKLRTN	PGPT0016270_396	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0016270-codY-K03706	NA	NA
AK012_00346	390	flgB	COG1815	Flagellar basal body rod protein FlgB	ATGAGCCTGTTCAATGATACGTTTACTTCCCTTCACGGTGCCCTCGATTATTCAGCAGCTAAGAATAAAGCGGTATCCAGCAATATTGCCAACGTAGATACGCCGGGATACAAGGCGGAAGGAGTGGCTTTTAAAGATATCCTTGCTGAGAAGACCTCGTTTCAAACGAAAATCACCCATGCAGGACATATTGATTTCAACGCAGACGCAGATCCCTCCTTTACTACATACAAGAAACACGCCACGTCTTATCACCCCAACGGAAACAATGTGGATATTGATAAAGAGATGAATGAGCTTGCGAAGAACCAGATTCAATATCAGGCTTTGGTGGAGCGCATGAACGGCAAGTTTCAAAGTCTCCAGTCTGTTTTAAAAGGTGGTGGATAA	MSLFNDTFTSLHGALDYSAAKNKAVSSNIANVDTPGYKAEGVAFKDILAEKTSFQTKITHAGHIDFNADADPSFTTYKKHATSYHPNGNNVDIDKEMNELAKNQIQYQALVERMNGKFQSLQSVLKGGG	PGPT0015470_1784	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015470-flgB-K02387	NA	NA
AK012_00347	453	flgC	COG1558	Flagellar basal-body rod protein FlgC	ATGAGTATCTTTCAGGCTATGAATGCAAGCGGCAGTGCATTGACCGCACAGCGGCTGCGTATGGATGTGGCATCATCCAATATCGCTAACGCTGATTCTACAAGAGCGTCCATCAATGAAGCGGGGGAATGGGAACCGTACCAAAGGAAAATGGTCGTCCTGGAGCCCCGCAGCCAGAATTTTAAGCATATTCTGCAGCAGACATCAGAGAACAGCAGCCGGACCACAGGGGTCGAGGCTTCGGAGATTGTGGAAGATGAAGAACCATTCAAGATGGTTTACAACCCCATTCATCCGGATGCAGATAATGAAGGGTATGTCCAGGTTCCGAACGTGGACCCTTTGCAGGAAATGGTGGATATGATGAGCGCAACGCGTTCATACGAAGCCAATGTGACATCTTTAAACGCTTCAAAAAGTATGCTGATGAAAGCTTTGGAAATCGGCAGATAA	MSIFQAMNASGSALTAQRLRMDVASSNIANADSTRASINEAGEWEPYQRKMVVLEPRSQNFKHILQQTSENSSRTTGVEASEIVEDEEPFKMVYNPIHPDADNEGYVQVPNVDPLQEMVDMMSATRSYEANVTSLNASKSMLMKALEIGR	PGPT0015475_383	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015475-flgC-K02388	NA	NA
AK012_00348	312	fliE		Flagellar hook-basal body complex protein FliE	ATGGCTGAGATGATTCCATTAACTACCCTCCAATCGGTATCCGGACCTGCGCAGTCACAGCTGCAGAAGGGGATTTCTCCAAGTGAGGCCCACCGATCGTTTTCTGTTCAATTGAAAAACGCGGTTGACCAGTTGAACCATCTGCAGGTTGAATCGGATGAAAAAACGAAGGCTCTTGCAGCCGGGGAAATCGATGATCTGCACGATGTCATGATCGCCTCACAAAAAGCGGGTATTACAATGCAGACAGCTGTGGAAGTGCAGGGCAAGGTTATAGACGCATACAAAGAAATGATGCGGATGCAGGTATAA	MAEMIPLTTLQSVSGPAQSQLQKGISPSEAHRSFSVQLKNAVDQLNHLQVESDEKTKALAAGEIDDLHDVMIASQKAGITMQTAVEVQGKVIDAYKEMMRMQV	PGPT0015515_1601	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015515-fliE|lfiE-K02408	NA	NA
AK012_00349	1605	fliF	COG1766	Flagellar M-ring protein	ATGAAAGAGCAAATACATTTATATAAAGAGCGGATCACAGCTTTTTGGCAGGCTCGAAGCAAAGGGCAGCGGACCTTCATGATAGGGGCAGGTGCTGTACTGGCTGCTGTCTTAGTCGTGATGAGCGTGCTTGGGTCCAGTTCCGGAATGGTGCCTCTCTACAAGGATATCACCGTGCAGGAGGCCGGACAGATCAAAGCAGAACTGGATACCCGCGGCATCCCTTATGAGCTGGATCAGGGAGGCACAAGTATTCTGGTCCCTGATTCAGAGGTGGAAGGTCTGCTGGTAGATCTGGCAGCTGCGGGCATTCCGAATAGTGGAACGATAGATTACAGTTTTTTCAGCAGTAACCTGTCGTGGGGGATGACAGATAATGAATTTGATGTCATCAAACTGGATGCGATGCAGACGGAACTGGCCGGACTGATGACAGGGATCCAAGGAATAGAAAATGCGAAAGTGATGATTAACATGCCTGAAGAGCAGGTATTCGCTTCTGATACAGCGGCAGATGCTTCTGCATCCATCGTTCTCGATGTCCAGCCTGGATATCAGCTCGAAGCGAACCAGGTGGAAACCCTCTATAACCTAGTTTCGAAGTCTGTCCCTGACTTATCTAAGGATAATATCGTCATTATGGACCAGAATTTTAATTACTTCGATAATAATTCCGAAATGGCTGGGCAGGAAGATATGTATACATACCAGCAGAAGGTCAAGTCGGATATTGAAAAAGACATCAAGCAGAGGCTTCAGCACACGCTCGGAATGATGATTGGCAGCCAGAAGGTTATTGCGACTGTCACGGCGGATATTGATTTTACTAAAGAAAACCGTGTGGAAGAACTGGTTGAGCCTGTGAATGAGGAAACGATGGAAGGGCTCCCTGTCAGTATAGAGCGTATTGAAGAAACTTACGAAGACGGTGCTGTACCTGAAGGCGGAACAGCCGGGACCGGGGATGAGGATATCCCGAATTATGAAGCCGGGGAAACCGGAAACGGCGATTATGAAATGAAGAAGGAAACCATCAATAATGAATTCAACCGCATCAGGAAAAACATAGAGGAAAGTCCTTATAAGGTGCGTGACCTAGGAATTCAGGTTGCTGTAGATAATAAAAAGGCTGTCAATGATGATGGAAGTGTTGAATACTTATCGGCGGCTGAAGAGCAGAATGTTCAGGAAAGCATTCAATCCATCGTGGATTCCATGATTATGACATCCATCAATGCAGAGTATGAGCAGGAAAGTACCGATGAGAAGGTTTCGATTGTTTTTCAGGAGTTCAGTGGTCAGATGGAAATTCCGACAGATGGGCCATCTGCAGGGCTTCCGCTGTGGGCCTACGCCGTGGGTGGCGGAATGCTTCTGGTTATCATCGTTTTAATCTGGAGACTTATGCGTAGAAACAAAGAAGAGGAAGAAGAATTCCATGTGTATCCGGAGGAACCCCCGGTTTCTGAAGAATATCCGGAAATTCCGCAAATGAAGGAAAAAGAAGATGAATCGACTCAAAAGCGGAAACAGCTTGAAAAAATGGCGGCAGAAAAACCAGAGGACTTTGCAAAGTTACTGCGCTCCTGGATTGCGGATGATTAA	MKEQIHLYKERITAFWQARSKGQRTFMIGAGAVLAAVLVVMSVLGSSSGMVPLYKDITVQEAGQIKAELDTRGIPYELDQGGTSILVPDSEVEGLLVDLAAAGIPNSGTIDYSFFSSNLSWGMTDNEFDVIKLDAMQTELAGLMTGIQGIENAKVMINMPEEQVFASDTAADASASIVLDVQPGYQLEANQVETLYNLVSKSVPDLSKDNIVIMDQNFNYFDNNSEMAGQEDMYTYQQKVKSDIEKDIKQRLQHTLGMMIGSQKVIATVTADIDFTKENRVEELVEPVNEETMEGLPVSIERIEETYEDGAVPEGGTAGTGDEDIPNYEAGETGNGDYEMKKETINNEFNRIRKNIEESPYKVRDLGIQVAVDNKKAVNDDGSVEYLSAAEEQNVQESIQSIVDSMIMTSINAEYEQESTDEKVSIVFQEFSGQMEIPTDGPSAGLPLWAYAVGGGMLLVIIVLIWRLMRRNKEEEEEFHVYPEEPPVSEEYPEIPQMKEKEDESTQKRKQLEKMAAEKPEDFAKLLRSWIADD	PGPT0015430_2189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015430-fliF-K02409	NA	NA
AK012_00350	1014	fliG	COG1536	Flagellar motor switch protein FliG	ATGGCTTTGAACAAGCAGACATTAACAGGTAAACAAAAAGCAGCCGTCCTTCTTATATCATTAGGACCGGATGTTGCTGCACAGGTATATAAACATTTAACGGAAGAAGAAATTGAGCAGCTCACTTTAGAGATTTCCTCGGTTCAAACAGTAGATGCCAAAAAGAAGGAAGATATCGTGGAACAATTTCACCAGATCGCCCTGGCTCAGGATTACATATCCCAGGGGGGCATCGGCTATGCAAAGACGATTCTTGAGAAGGCGCTGGGCGTTGAAGAAGCGTCTAATATCATCGGACGTCTGACCTCTTCTCTGCAGGTGAAGCCGTTCGATTTCGCCAGAAGGGCCGATCCGGGACAGATTTTAAACTTCATTCAAAATGAACACCCTCAAACCATTGCTCTCGTATTATCCTATCTGGATGCTGAACAGTCCGGACAGATTTTGTCGGAACTTCCACAGCAGCTGCAGGGTGATGTGGCACGCAGGATTGCTGTTATGGATTCTACATCTCCTGAAATCATCAGTCAGGTGGAGCAGATCCTGGAGAAGAAATTATCGGCAGCGGTTACCCATGATTATACAGAGGCGGGCGGCATTCAGGCTGTGGTCGAGGTCCTGAACGGAGTGGACCGCAGTACGGAACGGACCATTTTAGATTCCCTGGAAATACAGGATTCAAACCTGGCAGAAGAAATTAAAAAGAGAATGTTTGTCTTTGAGGATATTGTCGGGCTTGATAACCGGGCTGTCCAGCGTGTCGTCAGAGATGTTGATCAGGACGATCTGCGTCTTGCGCTCAAGGTGTCCAGTGAAGAAGTAAAAGACGTGGTTTTCAATAACATGTCCGACCGTATGGCCCAGACTTTTAAGGAAGAAATGGAATTCATGGGTCCTGTACGTCTGCGTGATGTGGAAGAGGCTCAAACGAGGGTTGTTTCCACTATTCGACATTTAGAGGACATCGGGGAAATCATTATTGCCAGAGGCGGGGGAGATGACATCATTGTCTAA	MALNKQTLTGKQKAAVLLISLGPDVAAQVYKHLTEEEIEQLTLEISSVQTVDAKKKEDIVEQFHQIALAQDYISQGGIGYAKTILEKALGVEEASNIIGRLTSSLQVKPFDFARRADPGQILNFIQNEHPQTIALVLSYLDAEQSGQILSELPQQLQGDVARRIAVMDSTSPEIISQVEQILEKKLSAAVTHDYTEAGGIQAVVEVLNGVDRSTERTILDSLEIQDSNLAEEIKKRMFVFEDIVGLDNRAVQRVVRDVDQDDLRLALKVSSEEVKDVVFNNMSDRMAQTFKEEMEFMGPVRLRDVEEAQTRVVSTIRHLEDIGEIIIARGGGDDIIV	PGPT0015400_1476	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015400-fliG-K02410	NA	NA
AK012_00351	756			hypothetical protein	ATGACATCATTGTCTAATTACCCGCAGTCCGAACAAAGAGTCATTCAAATTAAGGAAGTGAAGCCTGTTCGGAACCTACGTTCACCCGAACAGGAAACGACACAGAACGACATGGAAGCTCGCAGGCATTCCCTTCAACAGGAAGTGATGCAGCTGGAAGCTCGGAAACAAAAGCTGAAGGAAGAAACGGCTTCTGAAATTCAAGCTATGAAACGGGTCTGGGAAGAAGAAAGAAAAGCGATGGAGAATGAGGCTTTCCGGAAAGGTTTTGATGAAGGAACGAACAAGGGACACGTAGAAGGCAGACAAGCCTTTGAAAGCAGGATTCAACAGGCCAATCAAATAGTTGAACAGGCCGGGCAGGTCCTTAAAGACAAGGTGAAGGAAAGTGAGCGGGTGGTTTTGGATCTTGCGTTGACGTGTGCAGGGAAAATTATGAAAACAGAACTCGCCCAGCAGCCGGAAGCATACCTTCCGCTGGTGAGAGGCGCCATTGAAGAAGTGCAGATGCAGCCGGAAATCGTGATTTATGTTCACCCGGACCAGTATGCCGTTTTACAGGGGCAGAGAGAAGAACTGCATGAAGCTGTCCGTCACACCACGGACCTCTCCATCTATGCAAAAGGAGAACTCCCACCTTTTACATGCAGAGTCGAATCACCATTTGGGATTATAGATGCAGGAATCGACACTCAATTGGCAGCACTGCGTAAAGCTGTAATGCAGGCAGCGGAAAGGGCAGCTGTTGATGAATAA	MTSLSNYPQSEQRVIQIKEVKPVRNLRSPEQETTQNDMEARRHSLQQEVMQLEARKQKLKEETASEIQAMKRVWEEERKAMENEAFRKGFDEGTNKGHVEGRQAFESRIQQANQIVEQAGQVLKDKVKESERVVLDLALTCAGKIMKTELAQQPEAYLPLVRGAIEEVQMQPEIVIYVHPDQYAVLQGQREELHEAVRHTTDLSIYAKGELPPFTCRVESPFGIIDAGIDTQLAALRKAVMQAAERAAVDE	PGPT0015335_657	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015335-fliH-K02411	NA	NA
AK012_00352	1308	yscN		putative ATP synthase YscN	ATGAATAAGTCTTATTTTGAGGATGTGATTCAACAAACGGATGCTTATAAACGCTACGGGAAAATTCATCGTGTCGTGGGTCTGATGATTGAGTCAAAAGGTCCGGAGGCATCCATCGGGGAAGTATGTATGATTCATTCCCCAGCCCGTGAGCAGGCACCTATGCAGGCAGAAGTGGTCGGTTTCCATGATGAAAACATTCTTCTAATGCCTTATCAGGAGGTGATTCATATCAGTCCCGGAAGCCTCGTGGAAGCGTCCGGTGATCCTATGAAGATTCATGTAGGCAGGGGGCTGATCGGCAGTGTTCTGGATGCTTCGGGTCGTCCGCTCGACGGAAGCCGGATGCCCGGGGGATTGAAAGAATATCCTACCATACAGGACCCTCCCAATCCTTTATCAAGACCTCCGGTAAGAGAGCCGATACAAGTCGGTGTCCGGGCCGTTGATTCCCTGCTGAGTGTCGGGAAAGGACAGCGCATCGGCATTTTTGCCGGCAGTGGTGTCGGAAAAAGTACGCTGATGGGAATGATTGCCCGAAACAGCTCTGCCGATTTGAATGTGATTGCATTAATAGGAGAAAGAGGCAAGGAAGTCCGGGAGTTTATTGAACATGATCTCGGGGAGGAAGGCCTGAGACGGTCGATTGTTGTTGTGGCAACTTCCGATCAGCCCGCTTTAATGAGGGTAAAGGGGGCCTATACAGCGACAGCCATCAGCGAGTATTTCCGGGATCTTGGCTACAACGTCAACTTAATGATGGATTCTGTAACAAGATTTGCTATGGCTCAGCGTGAAATCGGCTTGGCCACAGGAGAACCCCCTACTACCAAAGGGTACACACCGTCTGTCTTTGCTCTCCTTCCTAAGCTGTTGGAGCGCACAGGTTCTTCCAGTCATGGGACAATTACGGCTTTTTACACGGTCCTTGTAGACGGAGATGACTTGAACGAACCGATTGCTGATACAGTCCGCGGAATTCTGGACGGTCATTTTGTTCTTGATCGTAAACTGGCCGAGCAGGGAAGGTTCCCGGCAATCAATATCCTGAAATCCATCAGCCGGGTGATGAAGCAGATAGTTTCAGAGGATCATGCACGGGCGGCTTCACAACTCCGCTCCCATTTGGCGACTTATGAAGAGAACCGGGAATTGATCCAAATTGGTGCCTATAAAAAAGGGTCCAGCCGTGATATTGATGAATCAATGGCTTACTACCCCCGCCTGGTCGAGTTTTTAAAGCAGGATGTGTATGAACCGGCAGGCTACGAAAGGTCAGTCGAAGACTTGAAAGGGTTGTTTGAATAG	MNKSYFEDVIQQTDAYKRYGKIHRVVGLMIESKGPEASIGEVCMIHSPAREQAPMQAEVVGFHDENILLMPYQEVIHISPGSLVEASGDPMKIHVGRGLIGSVLDASGRPLDGSRMPGGLKEYPTIQDPPNPLSRPPVREPIQVGVRAVDSLLSVGKGQRIGIFAGSGVGKSTLMGMIARNSSADLNVIALIGERGKEVREFIEHDLGEEGLRRSIVVVATSDQPALMRVKGAYTATAISEYFRDLGYNVNLMMDSVTRFAMAQREIGLATGEPPTTKGYTPSVFALLPKLLERTGSSSHGTITAFYTVLVDGDDLNEPIADTVRGILDGHFVLDRKLAEQGRFPAINILKSISRVMKQIVSEDHARAASQLRSHLATYEENRELIQIGAYKKGSSRDIDESMAYYPRLVEFLKQDVYEPAGYERSVEDLKGLFE	PGPT0015340_2393	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015340-fliI|lgiI-K02412	NA	NA
AK012_00353	453	fliJ	COG2882	Flagellar FliJ protein	ATGCCGGCAGTTGTAGAGACCTATCAAAAGATTAAAGACTTGAGAGATAAAGATAAGCATGAGAAACAAAAAGATTACCAATCAGCGGTGGAAACCTTCGAAGAGCAAGCCCGTGCGCTTTATGAAAAGCTTAGAGAAAAAGAACAGGCAGTTGAACAGTTTAACGATTCCTTATCACACGGGTCCGTTCAGGCCCACGCCTTTGTTCAGCACCGTCAGTACATCGAACATCTGGACAGCGCCCTTGATGATCTTCAGCCTTCCGTCCAACAGGCGCGGTTGAACATGGAACACGCCCGGAACGTACTAACAGATGCCTACGTCGAAGTGAAAAAATATGAGAAATTGATAGATATGAAGGAAGAAGAGCTCATGCAGAGGATGAAGCATGAAGAGCATAGACATATGGATGAACTGTCCATGAATCAATACTTGAAATTTTCCAATAGGTGA	MPAVVETYQKIKDLRDKDKHEKQKDYQSAVETFEEQARALYEKLREKEQAVEQFNDSLSHGSVQAHAFVQHRQYIEHLDSALDDLQPSVQQARLNMEHARNVLTDAYVEVKKYEKLIDMKEEELMQRMKHEEHRHMDELSMNQYLKFSNR	PGPT0015615_566	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015615-fliJ-K02413	NA	NA
AK012_00354	585			hypothetical protein	ATGGCTGAGAAATTGAAAAACAATCAAAAGAAAGAACGCTCCCCTGGTAAAATTCTGCTCGCTGTCCTCATTCCTTTCATCTTTCTCAGCGTTCTCGCATGGACGGCGCTGACTTTGACGGGGACCACTGTTACCAAAGAAATAGAAAAAGCTGCTGCCCATATTCCGGGCCTTTCCATGATCGCCTCCATTGATAAGACTGAATCGACCGAGGGGGCAAGCGACCGCCTGGAAGCATCGCTGGCAAACAAAGAAGCTGAAATTAACCAATTGAAACAAGAGGTTTCAGAAAAAGATTCTTTAATGGAAGAAAAGGACAGACAGATTCTGCAGCTGGAGGCCGATTTGGAGCAGACTTCCCAGCCTGCCGCAGAGAACGAGGAACAGGAAGGTGCTGTGAAGGATCTGGCTCTTTCGTTCCGTGAAATGGATGCAGAAGATGCCGCTCCTATTTTACAGGAAATGAACCAGGATCAAGCTGTACTCGTTCTTAAGGAGATTACCAGTAAAGAACGCGGAGAGATCCTGGGTGCTATGGAATCAACCGCTGCGGCAGATATCGCCGTTCGTTTAATGGAAGAGTAA	MAEKLKNNQKKERSPGKILLAVLIPFIFLSVLAWTALTLTGTTVTKEIEKAAAHIPGLSMIASIDKTESTEGASDRLEASLANKEAEINQLKQEVSEKDSLMEEKDRQILQLEADLEQTSQPAAENEEQEGAVKDLALSFREMDAEDAAPILQEMNQDQAVLVLKEITSKERGEILGAMESTAAADIAVRLMEE				NA	NA	NA	NA	NA
AK012_00355	1374			hypothetical protein	ATGACGACGTTTTCTACGGTAATACCAAAAACGATCGCTGCCCAGCCGTTCAATCGCTCTAGGCCAAAAACAGAGGGTGTCCCATTTAAGCAGGCTCTCCAATCTGTCACCGGGGCGGAAGCAGAGAAAACCGGGAATAGCAAATGGACGAAAGGACGCGTGCAAGAGTTATCAGACAACATTCAGAAGCTGATCAGCCATCGTATGCAAAGATCAGAGTCCGGTGATCCTGAATCTGAGCTCAGCGCCGCTGATCTCCAACTGCATAATCAATGGCGCGGAATTCAGGAAGAACTTCAGGAGTTTCTGAAGGCCCCCCCGGATAAGCTGCCCACCCCGGCTGGAAGGTACTTAAGCTCAGGTGCTTTTTCTTCCCAAGAAAAGGTGAAAGAGGCGTTTCCAGCTAATACGGACGCTGCTCAGGAGATGGATGCAGCCGACGGTATAAAGGATATGGCACTCCTGTCCCAAGGTGTTCTTAATCGTGTGTCACCCTCTGCTTCCATGAACGTCGAACAGACGCTGCGTTTTTACTCTAACCAGTTCAGTCAAGTGGTTGATGTTGGAAGGAACGGCGGGCAGGTGGGTGCTGACGTAAAGAAAATCCTGCTGTCATTGACCAAGGCTGTCAAGCAGGCATCGGTGGATTCAGTAGAATCGGATGTGCTGGATCGGGTGTTCAAAGGCGCACCGCTTGAAAGGCGTTTGTTTCATCAGCTTGCTGCGCGGTTGGATCAGCATCAGAAGCTTCCTCCAACGTATCAGCAGCAGAACCCTTTGACGAAAAAAAACCTTGGCAGATGGGTTCAGGAAGCATTAAACAGTGCGGGTGATCGTTCCTCTGCATCTTCCTGGCCGGAAGTTTCAGGCGTCATGTCTAAAGTGGAACAATACGTGCTTCATGTAAATCAAACAAAAAATGATCAGGCCCGCCCTCCCGGCTTTCTGCAGGAGCTGGAGCAGATGGTTCAGAACAGCCGCCTCTTTTCAAATTCGACGGGGCACAAGGAAATCCACATCCAATTGAAGCCGGGGAGTCTCGGAAACATGATGGTACAGGTGATCCGGCAGAATGGAGAGATGATTGTCAAAATGATGGTGCAGACGCAGGCAGCCAAGGAAATGCTTGAAGGAAACCTCCATCACCTGAGACCTATGTTTTCTCCTCAGCAGGTCGTCATTGAAAGGAGTGAAACCTGGGTCTTTCCACAAGGTCCTTTCAGTCAGCAGTCCTCTGATGAACATGGATTTTCTGATGAATCCAGCCAAAAGAAAGAAGATATGCGGCAGGTGAATGAAGAAGAGGAGGAAAAAGAGGAAGCGGCCTCTTTTCAAGATCTTTTAATGAATGAGAAAGTGCAGGTGATCCCATGA	MTTFSTVIPKTIAAQPFNRSRPKTEGVPFKQALQSVTGAEAEKTGNSKWTKGRVQELSDNIQKLISHRMQRSESGDPESELSAADLQLHNQWRGIQEELQEFLKAPPDKLPTPAGRYLSSGAFSSQEKVKEAFPANTDAAQEMDAADGIKDMALLSQGVLNRVSPSASMNVEQTLRFYSNQFSQVVDVGRNGGQVGADVKKILLSLTKAVKQASVDSVESDVLDRVFKGAPLERRLFHQLAARLDQHQKLPPTYQQQNPLTKKNLGRWVQEALNSAGDRSSASSWPEVSGVMSKVEQYVLHVNQTKNDQARPPGFLQELEQMVQNSRLFSNSTGHKEIHIQLKPGSLGNMMVQVIRQNGEMIVKMMVQTQAAKEMLEGNLHHLRPMFSPQQVVIERSETWVFPQGPFSQQSSDEHGFSDESSQKKEDMRQVNEEEEEKEEAASFQDLLMNEKVQVIP				NA	NA	NA	NA	NA
AK012_00356	444			hypothetical protein	ATGACCTCGATAGATCCGTCGTTCTATTTAAAGAATCAGCAGACTCACACATCAGGAAGCGGTATCCTTGAAAAGGATGATTTCCTGAAAATCCTGATGACACAAATTCAAAATCAAAATCCGCTTGATCCGATGAAAGATCAGGAGTTCGTCTCCCAAATGACGCAGTTTTCAAGCCTCGAGCAGATGACGAATATGTCGACTGCTTTTCAATCGTTTACGGAACAGCAGAACATGTCTTCATTGATTACATACAGCGGCCTGATTGGAAAGGAAGTCGCGTACTCCTCTGAAGATCAGGGAGAACTGAAAACAGATGTCGTGGCAGCAGTTACCCAGAAAGAAGAAGGAACGTATGTTGAACTGCAGTCCGGCAACCTTGTAGATGTTCAGGATGTAACGAAGGTTAGTCAAAAGAGCAGTTCAGGAAAGCAGGAGTCTTAA	MTSIDPSFYLKNQQTHTSGSGILEKDDFLKILMTQIQNQNPLDPMKDQEFVSQMTQFSSLEQMTNMSTAFQSFTEQQNMSSLITYSGLIGKEVAYSSEDQGELKTDVVAAVTQKEEGTYVELQSGNLVDVQDVTKVSQKSSSGKQES	PGPT0015480_2277	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015480-flgD-K02389	NA	NA
AK012_00357	861	flgG_1	COG4786	Flagellar basal-body rod protein FlgG	ATGAAAGGTTTTCAAACGAAATTAGATACAATCGGCAATAACATTGCCAACGTAAACACATACGGCTTTAAGCAGGGGCGGGTAACCTTTCAGGATATGATGAGCCAGACGATGTCCAATGCACAAGGTCCGATTGAAAATGGCGGCGGTGGAAATGTGACAGGTGGACTGAATGCTTCCCAGGTCGGGCTGGGTACGCAGATCGGCTCTATTGATACGATCCATACTCAGGGGAACCGCCAGTCCACCGGCCGTCCGCTTGATCTTGCACTTGAAGGCGACGGCATGTTCGTTCTTGCAGAAGCTGGAACTGCTGGAGTTAATGTTCAGGGAGAAAATACAGACCTTTCCCAGCTTCAAATCAGCTTCACTAGAGCCGGTAATTTTTACTTGGATGATGATGGAGCTTTAGTCAATAACAGCGGGAAATACGTCATGGGGGACGAAGGATCCATTACTATTCCTGATGATGCCCAGAGCTTCAATGTTCAAACCGACGGGACCGTCAATTACATTGATGCCAACAATGTAGTCCAGAAGGCGGGTCAGATTATGCTTGCCAACTTTTCCAACCCGGGCGGTCTTGAAAAAATCGGCGGTAATGAGTATCGGGCAACACCAAACTCCGGGCTCTTGAGTGCGGATGGCACGGAGGACGGATTAAACAGTCTCGATGATTTATCCATCGCCGGCCAAGGTGGAACAGGCGGAATGATCGCAGGCGCACTGGAAATGTCCAACGTCGATCTTGCTGATCAATTCACCGAAATGATTACGTCCCAGCGCGGGTTCCAGGCGAATACGAAAATCATCACCACTTCTGATGAGATTCTGCAGGAACTTGTAAATCTGAAGCGGTAA	MKGFQTKLDTIGNNIANVNTYGFKQGRVTFQDMMSQTMSNAQGPIENGGGGNVTGGLNASQVGLGTQIGSIDTIHTQGNRQSTGRPLDLALEGDGMFVLAEAGTAGVNVQGENTDLSQLQISFTRAGNFYLDDDGALVNNSGKYVMGDEGSITIPDDAQSFNVQTDGTVNYIDANNVVQKAGQIMLANFSNPGGLEKIGGNEYRATPNSGLLSADGTEDGLNSLDDLSIAGQGGTGGMIAGALEMSNVDLADQFTEMITSQRGFQANTKIITTSDEILQELVNLKR	PGPT0015485_2815	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015485-flgE-K02390	NA	NA
AK012_00358	417			hypothetical protein	ATGAACGTGTTCAAGGTGATGATCATCACGCTAAGCACATTAATGATTCTCGGTGCTGCCGCCCTTGTTTTTGTCTTGAATGGCAATGGCGGACAAGAAACAGCTGGAGAACGCAGCATTGATGACATCCGTGAGGCCTCTTTTGTAACAGAGGAGATGACCACCGACTTAAAGGATGGAAGCTATGTGAGAATCAGCTTTCAAGTGGTGACAGACAGCAAGGATACGAAAAAAGAAATGGAAAAGAGAGATTTCCAGATCAAGAATACATTGATTAAGGAACTATCTGTGATGGAATCGGATAACTTTCAATCAGGAATCTCTGACTTAGAGAAAAAGATGAAAGTAAAGATGAACGAACTGCTGGAAGAAGGCAGGGTCACGGAGGTTTATACCGTTAATAAAGTCCTTCAATAA	MNVFKVMIITLSTLMILGAAALVFVLNGNGGQETAGERSIDDIREASFVTEEMTTDLKDGSYVRISFQVVTDSKDTKKEMEKRDFQIKNTLIKELSVMESDNFQSGISDLEKKMKVKMNELLEEGRVTEVYTVNKVLQ	PGPT0015525_2688	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015525-fliL-K02415	NA	NA
AK012_00359	1002	fliM	COG1868	Flagellar motor switch protein FliM	GTGGCGGAAGAGGTTCTCTCACAAAATGAAATTGATTCCCTATTATCAGCGTTATCTTCAGGAGAGATGGACGCCGAGGAGTTAAAGAAAGAAGAACAGAAAAAGAAAGTAAGGGTGTATGATTTTAAGCGGGCCTTGAGGTTTTCCAAGGATCAGGTGCGCAGCCTTTCCAGAATCCACGAAAACTTCTCCAGGCTGCTGACGACTTATTTTTCAGCACAGTTACGCACGTATGTGGATATCGAAGTGGCATCGGTGGACCAGCTCCCATATGAGGAATTCATTCGATCGATTCCAACCATGACCATTTTGAATATCTTCAGCGTTTCTCCATTGGAAGGAAGGATTCTGCTGGAAGCCAACCCGAATGTGGCCTATGCCATGCTGGACCGTGTCCTCGGAGGACGGGGGAGCAGTGTGAACAAGGTGGATAATTTAACCGAAATCGAAACAACGATTATGTCGCATTTGTTTGAACGGGCGCTCGAAAATTATCAGGAGGCATGGGGCTCCATTGTAGATATCGAGCCTATGCTGGAGGAGTTTGAGGTGAACCCTCAATTTCTTCAGATGGTTTCTCCCAATGAAACAGTCATCGTTGTCTCATTGAATACAACTATCGGGGAAACGAGCGGCATGATCAACGTTTGTATTCCACATGTCGTATTAGAGCCGGTTATTCCGAAACTCTCTGTTCATTACTGGATGCAGAAGGAACCGTCTAAAGAAAGAAATCCGCTGGAATATGAAGCGATCACCCGGACCATTCAGGGGGCGGAACTGGATGTACGGGCACTTCTTGGCGGGGCGGATATGAGTATTGAACAATTTTTGAATCTTGGCGAAGAAGATGTGATCCGTCTTGATCAATCCATTGAGCAGCCCATGATTATGAAAGTGGATGAGGAGCCGAAATTTTATATTCAGCCGGGACAGGTGAAAAGTAAAATGGCTGTTCAAATCTTAGAGGAGTATACAGAAGGGGGCGGGGAAGATGAGTGA	MAEEVLSQNEIDSLLSALSSGEMDAEELKKEEQKKKVRVYDFKRALRFSKDQVRSLSRIHENFSRLLTTYFSAQLRTYVDIEVASVDQLPYEEFIRSIPTMTILNIFSVSPLEGRILLEANPNVAYAMLDRVLGGRGSSVNKVDNLTEIETTIMSHLFERALENYQEAWGSIVDIEPMLEEFEVNPQFLQMVSPNETVIVVSLNTTIGETSGMINVCIPHVVLEPVIPKLSVHYWMQKEPSKERNPLEYEAITRTIQGAELDVRALLGGADMSIEQFLNLGEEDVIRLDQSIEQPMIMKVDEEPKFYIQPGQVKSKMAVQILEEYTEGGGEDE	PGPT0015405_1281	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_C-RING,PGPT0015405-fliM-K02416	NA	NA
AK012_00360	1191			hypothetical protein	ATGAGTGATGATATGTTATCCCAGGACGAAATTGATGCGCTATTGAATGGAGGGGCTGACAAGGACAACGGAGAAGAGCCGGGGTTGTCCCCTAAACAGTCGCACCTGGCCATTCTTGAGGAAGATGCACTTGGGGAGATTGGAAATATATCCTTCGGCAGCTCAGCAACAGCGCTGTCTTCTCTCCTCAATCAAAAAGTAGCAATTACTACGCCGGAAATATCCGTTGTGTACCGGAAGGATTTAGCGGCAGAATTTCCAAAGCCGCATGTAGCCGTAGGAGTCACCTATACGACAGGGTTTACGGGAGAAAATGTGTTTGTAATGAAGACGAAAGACGCGGCCATCATCGCTGATCTCATGCTCGGCGGTGATGGATTGGACCCTGATGAGAACCTGAACGAAATTGCGTTAAGCGCGGTACAGGAAGCGATGAACCAGATGATGGGATCGGCAGCGACCAGTATGTCCACCATTTTTCATAAAAAAGTGGATATCTCACCACCTTCGATCAATGTTCTGGACCTGGGGGATGATTCTGGAAAAGAGATGATCCCTGAAGATGAAACGTTGGTCAATGTCGCTTTTCAATTGAAAGTCGGAACGTTGATTGACTCAAAAATCATGCAGTTGATCCCTCTGCCATTTGCTAAGAACCTTGTAGAGCAGCTGCTTGATCCAGAAAGCTCTCAAACAGCTGAATCAGTTATTTTTGATGAAAGACAAGAGCAGGGTGAATCTGCTGCAGAAGCGAAGCCGCAGCCTTCTGCCCAGGTGCAGCAGGATAGGGAGGTATCACAACCGGATCCTGATGGACAACCGGCCGAACCACAGTATGTCGGAGGGCCGGTGGGCAGGAGCGCCCGGGAAGCGGACGTTCATCATGCCCAGTTCCAACAGTTCGAACCCACATCATTGACGGGAACAGCTCAAAAGAACCTTGATATGCTGATGGATATCCCCTTGAAAGTGACCGTAGAACTCGGCAGAACGAAACGGACGGTTAAGGAAATTCTTGAATTATCCGCTGGGTCTGTCGTGGAACTGGATAAACTTGCGGGAGAGCCGGTCGATATTCATGTCAACGAAAAGCTGATGGCTAAAGGGGAAGTCGTCGTTATCGATGAGAACTTCGGAGTGCGGGTGACGGATATTTTGAGTCCAAAAGACCGCCTTACAAAATTGCGATAA	MSDDMLSQDEIDALLNGGADKDNGEEPGLSPKQSHLAILEEDALGEIGNISFGSSATALSSLLNQKVAITTPEISVVYRKDLAAEFPKPHVAVGVTYTTGFTGENVFVMKTKDAAIIADLMLGGDGLDPDENLNEIALSAVQEAMNQMMGSAATSMSTIFHKKVDISPPSINVLDLGDDSGKEMIPEDETLVNVAFQLKVGTLIDSKIMQLIPLPFAKNLVEQLLDPESSQTAESVIFDERQEQGESAAEAKPQPSAQVQQDREVSQPDPDGQPAEPQYVGGPVGRSAREADVHHAQFQQFEPTSLTGTAQKNLDMLMDIPLKVTVELGRTKRTVKEILELSAGSVVELDKLAGEPVDIHVNEKLMAKGEVVVIDENFGVRVTDILSPKDRLTKLR	PGPT0015410_233	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
AK012_00361	363	cheY	COG0784	Chemotaxis protein CheY	ATGGGAGAACGAATACTAGTTGTCGATGATGCCGCTTTTATGCGGATGATGGTGAAAGATATTCTGACAAAGAACGGATATGAAATTGCCGGGGAAGCAGAAGATGGGCAGAAGGCTGTAGAGCTTTATAAAGAAGAAAAGCCGGATCTTGTGACGATGGATATCACGATGCCGGAAATGGATGGAATTACAGCCCTGAAGGAAATCAAAGCCGTCCATCCGGATGCTAAAGTCATTATGTGCTCAGCTATGGGACAGCAGGCCATGGTTGTAGATGCCATTCAGGCTGGTGCGAAGGACTTTATTGTGAAGCCCTTCCAGGCAGAGCGTGTAATTGAAGCGATTCAGAAAGCATTAAGCTGA	MGERILVVDDAAFMRMMVKDILTKNGYEIAGEAEDGQKAVELYKEEKPDLVTMDITMPEMDGITALKEIKAVHPDAKVIMCSAMGQQAMVVDAIQAGAKDFIVKPFQAERVIEAIQKALS	PGPT0015690_4895	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015690-cheY|yneI-K03413	NA	NA
AK012_00362	639			hypothetical protein	ATGTTTTCTGCATCAAGAATATCAGTACTGTTGATGGCTGCTGTCCTTTTGCTGGTTGGTTTTCCTTTGGAAGCGGCAGCCCAGCCCTCTGTGAATGAATGTCTGTCCAATCCCGCACTGGAGGGCTGCCCTGAGGCAGACGGAGAAGTGGACGCAGACGGAACCGCTGGAAACCAGCCTTCGCTCCTGTGGAACTTCATGAAGCTCGGGCTGGCCCTGGTTTTTGTCGTAGCTCTAATCTACGGTCTGCTTAAGGCATTCAATCGTAAAAATCAGTGGTTGAACCAATCGAGGATAATGGAAAACCTGGAAGGTATGAGTGTCGGCCCCAATCGTTCTGTCCAGGCTGTACGAGTGGGAGAGCAGGTGTTTCTATTAGGAGTCGGGGATACGGTGGAATTGATCACTGAAATTACGGATCCGGATACGAAGGCTTCTTTTCAAAAAAAGGAACAGGCAGCTTCGACACCAGGGGCCTCCTTGAAAAACCTGATGGGGAAACCCCATCGTCAGCAAAGGTCGGGAAAGCATACCTCTACTCTTCAATTTCAGCAGCTTTTTGAGACTCAGTTGAACGATATGAAAAACAAACAGAAAAAAGCAGCAGAGAGAAAAAGGAGGGAGCAGGGAAATGAATGA	MFSASRISVLLMAAVLLLVGFPLEAAAQPSVNECLSNPALEGCPEADGEVDADGTAGNQPSLLWNFMKLGLALVFVVALIYGLLKAFNRKNQWLNQSRIMENLEGMSVGPNRSVQAVRVGEQVFLLGVGDTVELITEITDPDTKASFQKKEQAASTPGASLKNLMGKPHRQQRSGKHTSTLQFQQLFETQLNDMKNKQKKAAERKRREQGNE	PGPT0015345_193	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015345-fliOZ-K02418	NA	NA
AK012_00363	666	fliP	COG1338	Flagellar biosynthetic protein FliP	ATGAATGAATTTGTTGATATATTCACAAGTTCAGATCCTGAAAACATTGCGACCTCAGTCAAACTGCTGCTCTTGTTGACGGTTTTATCACTGGCTCCGGGACTGCTGATTTTAATGACGAGCTTTACTAGAATTCTTATTGTTTTGTCTTTTGTGCGGACATCGCTGGCCACCCAGCAGATGCCGCCCAACCAGGTGTTGATCGGAATTGCTTTGTTTTTGACATTCTTCATCATGGCTCCCACGTTCGAGGAAGTCAACGAGCAGGCCTTAACCCCGTTGTTTAATGAAGAGATCACACTGGATGAAGCGTATGAAGAAGCGAGTGCGCCAATGAAGGAGTTCATGGGCAGACACACAAGACAGAAGGATCTGGCGTTGTTTATGAATTATTCCGGGCTTGAAGCGCCATCCTCGATCCAGGAAGTGCCGCTCACCACACTGGTGCCGGCTTTTGCAATCAGTGAACTGAAAACCGCTTTTCAAATGGGGTTCATGATTTTCGTGCCGTTTTTAGTCATTGATATGGCTGTCGCCAGTGTGTTGATGTCGATGGGAATGATGATGCTTCCGCCGGTCATGATTTCCCTGCCGTTTAAAATTCTGCTGTTTGTCCTCGTGGATGGATGGTTCTTAATCACCAAATCCTTGCTGGAAGGCTTTTAG	MNEFVDIFTSSDPENIATSVKLLLLLTVLSLAPGLLILMTSFTRILIVLSFVRTSLATQQMPPNQVLIGIALFLTFFIMAPTFEEVNEQALTPLFNEEITLDEAYEEASAPMKEFMGRHTRQKDLALFMNYSGLEAPSSIQEVPLTTLVPAFAISELKTAFQMGFMIFVPFLVIDMAVASVLMSMGMMMLPPVMISLPFKILLFVLVDGWFLITKSLLEGF	PGPT0015350_2553	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015350-fliP|rhcR-K02419	NA	NA
AK012_00364	270			hypothetical protein	ATGAATAGTAATATGGTTATCTCATTTGCCAAGGAAGGCATTTACACGGTGCTGTTGATCTCAGGCCCTCTGCTCATCCTCGCATTGGCTGTAGGACTGATTGTAAGTATATTTCAGGCTACAACGCAGATTCAGGAACAGACCCTTGCTTTTATTCCTAAAATAGTAGCTGTATTGATCGGGTTGATCGTCTTTGGCCCGTGGATGCTTACGAATATGGTTGAATTCACAGCGGAAATCTTTAATAACCTGAACATGCTGGTGGGCTGA	MNSNMVISFAKEGIYTVLLISGPLLILALAVGLIVSIFQATTQIQEQTLAFIPKIVAVLIGLIVFGPWMLTNMVEFTAEIFNNLNMLVG	PGPT0015355_1690	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015355-fliQ|lfiQ-K02420	NA	NA
AK012_00365	777	fliR	COG1684	Flagellar biosynthetic protein FliR	ATGATTGAATCGATGGCGCTCGTAAATCTGCCGGCTTTTCTTCTGGTCTTCGTCCGGGTGACAGCTTTTTTTGCATCGCTGCCTTTGTTTTCTTATCGGACAGTTCCGGCCACACATAAAGTAGGGTTCAGCTTTTTTTTAGCCGCCCTTATGATTTTCACCCTTCCCGTTCCTGAACTGACAGTGGACGGGACGTATTTTCTCCTTCTATTAAAGGAAGCTGCTGTCGGGCTCGGAGTGGGGCTGCTTGCCTATATTATTTTAGGAGCCATTCAAATAGCGGGCGGATTCATCGATTTTCAAATGGGCTTTGCAGTTGCCAATGTGATCGACCCGCAAACAGGGGCTCAGAGTCCTTTGATCGGCCAGTATATGTATGTCATAACCTTGTTGTTTATATTAGTCGTCGATGGCCATCATTTGATGATTGATGGTATATTCTACAGCTATCAGTTTATTGCTGTTGACCAGTTCCTTCCTTTAAAAGAAGAAGGCTGGGTGATGTTTGTCATTCAATCTTTCAATAAAATGTTTGTGACGTCCTTCTTGATGGCGGTCCCCATTGTGGGATGTCTGTTTCTCGTAGACATCGCCCTTGGAATTGTCGCCCGTACAGTGCCGCAGTTGAACGTGTTCGTCGTCGGGCTGCCTCTGAAAATTTTCACTGCGCTGTCGGTTCTCGTTATCGCTATGAGCTTTTATGTTTATTTGATTCAGATTTTGTTCGAAACCATGCTGGAAACCATGCGTGGGTTTATGGATGTACTTGGAGGCTGA	MIESMALVNLPAFLLVFVRVTAFFASLPLFSYRTVPATHKVGFSFFLAALMIFTLPVPELTVDGTYFLLLLKEAAVGLGVGLLAYIILGAIQIAGGFIDFQMGFAVANVIDPQTGAQSPLIGQYMYVITLLFILVVDGHHLMIDGIFYSYQFIAVDQFLPLKEEGWVMFVIQSFNKMFVTSFLMAVPIVGCLFLVDIALGIVARTVPQLNVFVVGLPLKIFTALSVLVIAMSFYVYLIQILFETMLETMRGFMDVLGG	PGPT0015360_1319	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015360-fliR|lfiR-K02421	NA	NA
AK012_00366	1086	flhB	COG1377	Flagellar biosynthetic protein FlhB	ATGTTAACGATGAAGCTGGACCTGCAATATTTCGCAGCCGATGAAAAGACGGAAAAAGCAACGCCTAAAAAGAGGCAGGATACGAGAAAGAAAGGGCAGGTGCCCAAAAGTCAGGATGTAAACACGGGTTTTCTACTGTTGTTGATGTTCGGAGGTCTGTTCCTGCTCGGTGGACATATGAAGGATGCGGTCTTGGACCTATACCGGCACGCTTTCACTTATTATGTCCATCAGGACTTAACACAGGAGCAGACCCATACCATTTTTGTTGAGATGACGCTGGAAACAGCAAAGGTGACAGCTCCGCTTATGGGGATTGCGGTCGCTGCAGGGATCGCTTCCAACCTCCTTCAAGTAGGAGTCATGTTCACAGGGGAGCCATTAAAAGCGGATTTGAAAAAAATCGATCCCATCAAAGGGGCCAAGCGGATTTTTTCGGCACGCGCCCTTGTGGAATTGGTAAAGTCTCTGTTGAAAATCAGTATTGTCGGGGTGATCACCTTCTCAATCATCTGGGTGAACAAAGATCAGATGATGATGATGTCTCAGAAATCGGTGGAAGAAGCGCTTTCCTTCTTCGGTACGATTACCGTCATCATGGGAATTGCTTCAGCTTTCGCCTTGCTGTTCCTATCTATTCTGGATTATACATATCAGCGCTATGATCACGAGAAGAACATCCGTATGTCCAAAAAAGATATTAAGGATGAGTATAAAAACATAGAGGGAGACCCTCAAATTAAAGCGAAAATCAAGGAAAAGCAGCGTCGGATGTCAGCGTCGAGAATGATGAGTGAAGTACCTGAGGCTGATGTCGTCATTACAAACCCCACTCATTTTGCGGTGGCAGTCAAGTATGATGAGCAGGAATCCGATGCTCCGATTGTCGTAGCCAAGGGTGTGGATTTCCTCGCTCTCAAAATCAAGGATATTGCCAGGGCTCACGACATTGTGACGGTGGAGAACAGGACGCTGGCGCGATCGCTTTATGCCGAATGTGAATTAGATAAGCCGATTGAGGAAGAGTTCTTTAAAGCGGTCGCGGAAATACTTGCCTACGTCTACCAGCTGCAGGAAAAGATTTAA	MLTMKLDLQYFAADEKTEKATPKKRQDTRKKGQVPKSQDVNTGFLLLLMFGGLFLLGGHMKDAVLDLYRHAFTYYVHQDLTQEQTHTIFVEMTLETAKVTAPLMGIAVAAGIASNLLQVGVMFTGEPLKADLKKIDPIKGAKRIFSARALVELVKSLLKISIVGVITFSIIWVNKDQMMMMSQKSVEEALSFFGTITVIMGIASAFALLFLSILDYTYQRYDHEKNIRMSKKDIKDEYKNIEGDPQIKAKIKEKQRRMSASRMMSEVPEADVVITNPTHFAVAVKYDEQESDAPIVVAKGVDFLALKIKDIARAHDIVTVENRTLARSLYAECELDKPIEEEFFKAVAEILAYVYQLQEKI	PGPT0015325_1787	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_III_SECRETION_SYSTEMS	CE-T3SS-FLAGELLAR_EXPORT_APPARATUS,PGPT0015325-flhB-K02401	NA	NA
AK012_00367	2034	flhA	COG1298	Flagellar biosynthesis protein FlhA	ATGTCACCAAGAGATTTATCTGTCCTGTTAGGTGTCATTTTAATCATCATTATGCTCGTCATCCCTTTACCAGGGTGGCTTCTCAGTTTTTTTATCCTTATTAATATTACACTTGCTCTTATAGTTATTTTAGTATCCATGAATATGGATGAGGCGCTGCAGTTTGCTGTCTTCCCGACCCTTCTCCTGCTGCTTACGTTGTTCCGCCTTGGATTGAATGTATCGACAACACGTTCCATCCTCTCCGAGGCGGAAGCAGGTGGTGTTGTAGCAACATTCGGGACATTTGTCATTGGTGGAAATCCGCTTGTTGGTTTTGTCGTCTTCATCATTCTGGTCATTATTCAATTTTTAGTTATTACCAAAGGAGCGGAACGTGTGTCCGAAGTGGCTGCACGCTTCACCCTTGATGCGATGCCGGGCAAACAGATGAGTATTGACGCCGACCTGAACGCAGGCATGATTAATGAGCATCAGGCAAAGGAAAGGCGCGGGAAGATTGAGAATGAGGCCGACTTTTACGGAGCCATGGATGGGGCCAGTAAGTTCGTGAAAGGAGATGCCATCGCAGGAATTATTATCGTCATGATCAACATAATTTTTGGGTTGATTATTGGTATGGTTCAGATGGGCATGTCCTTCAATGAAGCCATCGATACCTACATGCGCCTGACCGTTGGTGACGGACTTGTCAGTCAGATTCCTGCCCTGCTCATATCAACGGCGACCGGGATTGTTGTCACAAGAGTCGCTTCAGAAGGAAATTTGAGCACAGACGTGACCAGTCAGCTGCTCCGCTATCCAAAGCTTTTGTACATCGCAGCAGCTACCATCTTCCTTCTCGGTCTGACGCCGATTCCAATTCTCTTAACAAGTCTGATTGCCGGCGTACTGGCGTTTGGAGGCTATCGTCTTTCGAGGCAGTCAGGAAATCAGGAAACAGATGAACCGGAGGAGACGGATGAAGCCGAAGGGGAGCAGATGCGCTCTCCGGAAAATGTTGTTGATCTCATCACTATGGACCCCATAGAATTTGAGTTCGGTTATGCCTTGATTCCCATTGCTGATACAAGTCAAGGGGGAGATCTGCTTGACAGAATCGTGATGATCCGGCGGCAGCTTGCCATCGAACTCGGCCTTGTGATTCCTGTTGTGCGAATCCGGGATAACATTCAGCTCAGTCCGAACGAATACCGTCTGAAAATTAAAGGGAACCAGGTGACCGGTGGAGAGCTTCTGTTGGACCATTATCTGGCTATGAGTCCCGGCGATGAAGATGACGGAATCGAGGGCATCGATACACAGGAGCCGGCATTCGGACTCCCGGCCAAATGGATTGCCGAAGACATGAAGGATGAAGCAGAATTGTCAGGGTACACGGTTGTCGACCCTCCCTCTGTCGTTTCCACTCACATCACAGAAGTGATCAAACGGCACGCCCATGCGCTTCTCGGCCGCCAGGAAACCCAGCAGCTGATCAATCATTTGAAGGAATCCTATCCGATACTGGTTCAGGAAGTCACTCCAGATCCACTTAGTGTCGGAGAAGTCCAAAAAGTGCTGGCCAAGCTGCTGCGTGAAAACATTTCAATTAAGAATCTGCCGGTCATCTTTGAAACGCTGGCTGATTTTGCAAAGATGACCAACGATACAGACCTGCTTGGTGAGTATGTCCGCCAGTCTCTCTCGGCCCAGATCACGAATCAGTTTAAAGGGGAGAGGGATCAGATGAAGGTGATAACCGTTTCCGGTCAGGTGGAGAAGCTGGTCGCCGACCATATTAAGCAGACGGAGCATGGCAGCTACCTTACTCTTGATCCTGAAAAGCAGCAGGCGGTCCTCCGGTCTGTTGCTGAGCAGGTGGAGCGGGTGACGCTTCAGGAAGAGACGGCTGTTCTTCTCTGTTCGCCGGCTGTGCGCATGTACATGAAGCAGCTGCTGGACCGGGCGCTCCCACAGGTCGTCGTACTTTCCTATAATGAATTAGATCCAGGTGCAGAAGTTCAGAGTGTCGGGGTGGTGAATGTATCGTGA	MSPRDLSVLLGVILIIIMLVIPLPGWLLSFFILINITLALIVILVSMNMDEALQFAVFPTLLLLLTLFRLGLNVSTTRSILSEAEAGGVVATFGTFVIGGNPLVGFVVFIILVIIQFLVITKGAERVSEVAARFTLDAMPGKQMSIDADLNAGMINEHQAKERRGKIENEADFYGAMDGASKFVKGDAIAGIIIVMINIIFGLIIGMVQMGMSFNEAIDTYMRLTVGDGLVSQIPALLISTATGIVVTRVASEGNLSTDVTSQLLRYPKLLYIAAATIFLLGLTPIPILLTSLIAGVLAFGGYRLSRQSGNQETDEPEETDEAEGEQMRSPENVVDLITMDPIEFEFGYALIPIADTSQGGDLLDRIVMIRRQLAIELGLVIPVVRIRDNIQLSPNEYRLKIKGNQVTGGELLLDHYLAMSPGDEDDGIEGIDTQEPAFGLPAKWIAEDMKDEAELSGYTVVDPPSVVSTHITEVIKRHAHALLGRQETQQLINHLKESYPILVQEVTPDPLSVGEVQKVLAKLLRENISIKNLPVIFETLADFAKMTNDTDLLGEYVRQSLSAQITNQFKGERDQMKVITVSGQVEKLVADHIKQTEHGSYLTLDPEKQQAVLRSVAEQVERVTLQEETAVLLCSPAVRMYMKQLLDRALPQVVVLSYNELDPGAEVQSVGVVNVS	PGPT0015320_2550	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
AK012_00368	1074	flhF	COG1419	Flagellar biosynthesis protein FlhF	ATGCCTGAAGCCATGAAAAAGGTGAGAAGTGACTTTGGGGCGGATGCGGTGATCTTAAGCTCCAAAGTCATTAAGCACGGGGGCTTTCTAGGGTTGTTTAAAAAAGAAATGACAGAGGTGGTAGCTGGTATGGACCCGGATGTTCACGTGGAACGAAAGAAACCGCAGCGCCCTGTGCCTCTGCCGAATGCGGAGAATAATGACGGGCAGCAAAAGATTCTTGATGAACTTTCCCATGTAAAAGCACTGCTTCAAAAAGGTGCCCGGGAGAGTCAACCTTTATCACCAAAGAGGGACCGGTTGACACGGTATTTAACAAGCCGGGGGTTGAAAGAGGAACATGTTCAGAATCTCCTGTCTTCCATTGATGAAAAGAATGAACCTTCAAGCAGAAAAGATGAGATCAAAAAGACAGCCGTGGAAGAGTTAACGGTTATGATGGAAGAGCTCCCATTCGGACACGTCTTTCAAAAACGATATGTCCATTTGTTCGGACCGACAGGAGTCGGAAAGACGACGACCCTTGCTAAACTGGCCGGAGATGCGGTTTTGAATAAGGGATGGACCGTGGGATTCATTACTACAGATACTTACAGGATTGGTGCGGTGGAGCAGTTGAAGACCTACGCTGCTATCCTCCAAGCGCAGGTGGAAGTGGCCTACAACATGGACGATTACAGGAAGGCTAAGGAAAAGCTGAAAGGCGTTGATCTCGTTTTCATTGATACGGCGGGGCGGAATTACCGGAATCACACGTTTATTAAAGACCTTCAGGAGATCATTGATTTCGAAGAGGAAGCCGATCATTTTCTTGTCTTATCTTTAACAAGTAAATATATGGATATGCAGACCATTTATGAGAATTTTTCCTCACTGCCTGTAGAGAAGATCATTTTTACAAAGGAAGATGAAACATCAACGATGGCGGACGCTGTCAACCTCATGCTCGAGAAAAGACTGGGGGCAGCTTATATAACGAATGGACAGGACGTTCCGGATGATATTCAAACCGTTTCTGCAGGAAATATCGCCTCCCGGCTGATGAAGGGGTACACCGATGATGGATCAAGCTGA	MPEAMKKVRSDFGADAVILSSKVIKHGGFLGLFKKEMTEVVAGMDPDVHVERKKPQRPVPLPNAENNDGQQKILDELSHVKALLQKGARESQPLSPKRDRLTRYLTSRGLKEEHVQNLLSSIDEKNEPSSRKDEIKKTAVEELTVMMEELPFGHVFQKRYVHLFGPTGVGKTTTLAKLAGDAVLNKGWTVGFITTDTYRIGAVEQLKTYAAILQAQVEVAYNMDDYRKAKEKLKGVDLVFIDTAGRNYRNHTFIKDLQEIIDFEEEADHFLVLSLTSKYMDMQTIYENFSSLPVEKIIFTKEDETSTMADAVNLMLEKRLGAAYITNGQDVPDDIQTVSAGNIASRLMKGYTDDGSS	PGPT0015550_1495	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015550-flhF-K02404	NA	NA
AK012_00369	873	ylxH	COG0455	Flagellum site-determining protein YlxH	ATGATGGATCAAGCTGATATTCTTCGCACTCGTATGCTTTCCCGGGGAACACATACACCAGCCCAGGTGCTGGCGGTTGCCAGTGGAAAGGGAGGCGTCGGGAAATCCAATATTACGATTAATCTCGCATTATCCTTGTGCCGCTCCGGAAAAAAAGTGTTGGTCCTGGATATGGACGTCGGTATGGGGAACGTGGATATTCTTTTAGGGAGAACATCGACCTCGAGTTTACCGGACCTCATCCATCACCGGCTGACATTTCAACACATTATTGAGCAAGGGCCGGATGGCCTGGAATTTGCTGCCGGGGGATCCGGTATGACAGAGCTTCTCGAAATGAACGCAGAGGACTTTGAATATTTTAATCAACAGCTTGAAGACGTATCGAAGGAGTACGATGTCATTCTTCTGGATATGGGGGCCGGAATGACGGAGAAAAGTAGGGCTTGGCTGCTTGCTGCAGATGAAGTGATTGTTGTAACCACCCCGGAGCCCACTTCTATTACGGATGCGTACGCTCTAATGAAGCATCTCGTCTTCCAAAACTCTCAGCTCCCTTTTTCATTAATCGTTAACCGTGCGCAAACGAAACAGTCGGGTGAACTCACGTTGACACGTATGCAGGAGGCTGCCTATAGATTTTTGAATGTTGAAACAAAAAAACTGGGTGTAGTGCTTGAAGATCGACACGTCTTCGAAGCCGTTGTAAACCAGGTTCCTTTCCTCATCCACGCTCCTAAAGGAAAAGCGAGCCGGGCTCTCGATCAGATCACTGACCGGTTTTCACACCGTTCGGCACCTGATGCCGATAGAGAGAAGCCGGGCTTTTTAGAAAAGTTGAAACGGGTGGTATGGAAGGGGGACGTATCGTGA	MMDQADILRTRMLSRGTHTPAQVLAVASGKGGVGKSNITINLALSLCRSGKKVLVLDMDVGMGNVDILLGRTSTSSLPDLIHHRLTFQHIIEQGPDGLEFAAGGSGMTELLEMNAEDFEYFNQQLEDVSKEYDVILLDMGAGMTEKSRAWLLAADEVIVVTTPEPTSITDAYALMKHLVFQNSQLPFSLIVNRAQTKQSGELTLTRMQEAAYRFLNVETKKLGVVLEDRHVFEAVVNQVPFLIHAPKGKASRALDQITDRFSHRSAPDADREKPGFLEKLKRVVWKGDVS	PGPT0015555_1125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_REGULATION,PGPT0015555-flhG-K04562	NA	NA
AK012_00370	1065	cheB	COG2201	Protein-glutamate methylesterase/protein-glutamine glutaminase	GTGAAAGAAATCAAAGTCTTGGTTGTCGATGATTCTGCTTTTATGAGGCGGGTGTTGAGTGACATGCTTCAACAGGACCAGCGGCTGACGGTTGTGGGAGCTGCCCGGAATGGGAGGGATTGTCTTCGAAAGCTGAAGCAGGTTCAGCCGGATGTGATTACGCTGGATGTGGAAATGCCTGTCATGGACGGCCTTTCCACTCTGGAGAGAATCATGGAGGAGAAACCTCTCCCTGTCGTTATGGTGTCAAGCCTCACGAACTACGGGACAGAGAGTACGCTGAAAGCCATGGAACTTGGTGCAGTAGATTTTATACCAAAGCCTTCGGGAGCTGTTTCTCTGGATATGGCCGGGATGGAGGAAGAAATCGTCAGGAAAGTAAAAGGAGCGGCAGAAGCTGATACAGGCGTGCTGGCCCGTCGTCACACCCCCGTTTATCCCCGGATGCCTGTATTCCGAAAAGGGACGAAAAGGTTGATAGCTGTAGGGACGTCCACGGGAGGACCGCGAGCCCTTAAGGAGGTTCTCGCCACCCTTCCGGAAAAATTACCTGCGCCTCTTGTCATCGTCCAACATATGCCGCCCGGGTTTACAAAAGCTCTGGCTGATCGTCTCGATAAACTTTCTTCCATCCAAGTAAAAGAGGGCGCGCACGGGGAAGAATTGAAAAATGGTGTAGCCTATATTGCCCCTGGAGGTACACATATGACGGTTGTCCAGAAAGGGGAAAGGCTTTATCTACACTTAAATGAACAACCACCCGTGAGTGGACACCGGCCGTCTGTCAACACGTTGTTTCAATCGCTCGCCGCTGTACGAGGTTGGATGGTTACAGCTGTGGTCATGACCGGGATGGGAACCGATGGTCTGGAAGGCATGATTCAGCTTCGCAGCAGCTGCCCAACCTATACGATCGCAGAATCTGCACAATCCTGTGTCGTCTATGGTATGCCCAAAGCCGTCGTCAAATCAGGGATGGCTGATGAAGTAACCGGCGTTACAAACATAAGTGCTGCTATCGTCCGCGCGCTTCAGAACCAGGAAGGGGTGGAAGAATGGAAATGA	MKEIKVLVVDDSAFMRRVLSDMLQQDQRLTVVGAARNGRDCLRKLKQVQPDVITLDVEMPVMDGLSTLERIMEEKPLPVVMVSSLTNYGTESTLKAMELGAVDFIPKPSGAVSLDMAGMEEEIVRKVKGAAEADTGVLARRHTPVYPRMPVFRKGTKRLIAVGTSTGGPRALKEVLATLPEKLPAPLVIVQHMPPGFTKALADRLDKLSSIQVKEGAHGEELKNGVAYIAPGGTHMTVVQKGERLYLHLNEQPPVSGHRPSVNTLFQSLAAVRGWMVTAVVMTGMGTDGLEGMIQLRSSCPTYTIAESAQSCVVYGMPKAVVKSGMADEVTGVTNISAAIVRALQNQEGVEEWK	PGPT0015650_2616	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015650-cheB|chpB|wspF-K03412	NA	NA
AK012_00371	1977	cheA	COG0643	Chemotaxis protein CheA	ATGAATCAGTATATAGAGGTATTTATCGATGAAAGTAAGGACCATCTCCAAGCCATCAACGATCATCTGCTTACCCTGGAAAAGAACCCCGGGGATCTCACCATAGTTAATGAAATTTTTCGTTCCGCCCATACCTTAAAAGGAATGTCGGCTACTATGGGATATCGGGATTTGTCGCATCTGACCCACAAGATGGAGAATGTGCTGGATGCCGTAAGAAACGAACAGCTTCTAGTGAATGAAGGTGTGTTGGATATCGTTTTTCATGCGGTCGATGATCTGGAAGCGATGGTCCTCGATATCGCGGATGGAGGTGACGGGGAGCGGAATGTAGAAGAAGCTGTCCGAATGCTTGAGGCGGTTGAAAGCGGTGGACAGCAGTCTCCAAAAACCACGACAAGTGCTGGTAATGAACAAAAGCCGGAATTTTTCCTGGATGATTATATGAAAAATGTGATCAAGATGGCGGAGGAGACCGGGAGTCATCCACTGCTGGTTCACACACACCTCCGAAATGACTGCCTGTTAAAAGCCGCAAGAGTCTACATGATTTTTGAAGTTCTTGAACAAGCGGGGGAGGTCATCCATGCTGCACCGCCGGTGGAAAGCCTTGAGAATGAGGAATTCGAAAGCAGCTTTACGGTACTTCTAATCACGCAGGAATCAGCGGAAGGTATCAAGACCGCAATTGAAAAGGTATCCGAGGTGGATTATGTTCACGTTGAACCTTTTAAGGAAAAAGAAACTCAACCGCCGGAAGAGTCTCAGGTTCTGTCTCAAGCGGAAATATCAGATGAGTCAGATCAAAAAACAAAAAAATCAACACCCAGAGGACGTACCATCCGGGTCAATATAGAACGTCTGGACGCTCTAATGAATTTGTTTGAAGAACTGGTGATTGACCGGGGGCGCCTGGAGCAGATTTCTTCAGACCTTGCTCATCAGGATCTACAGGAGAGGGTGGAGCATATGGCGAGAACATCCAGTGACCTGCAGGGCATCATTTTAAACATGCGGATGGTTCCTGTAGAGCAGGTGTTTAACAGGTTCCCCCGCATGGTACGACAGCTGTCGAAGGATTTACATAAACGTCTGGAATTAACCATTACGGGAGCAGAGACAGAACTGGATCGTACCGTCATAGATGAAATTGGTGATCCCCTCGTCCATTTAATCAGGAATGCGGTGGATCATGGGATAGAAAGTCCTGAAGTTCGTGAAGCCAAAGGGAAACCGGCGGCCGGGCAGATTGAATTAAAAGCCTGTCACAGCGGCAACCATGTGTTCATTGAAATAACCGATGACGGAGCGGGCATCGACCGAATGAAAGTGGCCGGCAAAGCTGTGAAGAATCATCTCATTACACAAGAGCAGGCCGAGGCGATGTCGGATTCCGAGGTATTTGATTTAATAATGGAAAGTGGTTTTTCCACTGCGGACCAAATTTCGGATATTTCGGGACGTGGCGTTGGACTGGATGTTGTAAAGAGCACCATTGAATCTCTCGGAGGGATGATCACCATTGAGTCGGAATACGGAGAAGGCAGCCGGTTCTCCATTCAGCTTCCACTTACCCTTTCCATCATTTCTGTCATGCTTGTGGAGGTCCAGAAAGAAACGTACGCCATCCCGCTTTCTTCTATTATAGAAACCGCTGTCGTAAAGAAAAAAGATCTTATGAATGCCCATAACAGAAAAGTGATGGATTTCCGTGGCCGAGTCATTCCCCTTGTCTTTTTGACGGAACTTCTTCAGGTACCTGTGGAGTTGGAGGAAAAGGATGATTATTCTGTTGTCATTATCCGCAGGGGTGAAAAAATGGCGGCGCTGGTGGTTCATTCATTTATTGGTCAGCAGGAAGTGGTTTTGAAATCTCTCGGCAACTATCTTTCCGGAGCCTTTGCGATTTCCGGAGCCACGATTCTCGGCGATGGACAGGTGGCATTAATCCTGGACAGCAATGCGTTAATCAAGTAA	MNQYIEVFIDESKDHLQAINDHLLTLEKNPGDLTIVNEIFRSAHTLKGMSATMGYRDLSHLTHKMENVLDAVRNEQLLVNEGVLDIVFHAVDDLEAMVLDIADGGDGERNVEEAVRMLEAVESGGQQSPKTTTSAGNEQKPEFFLDDYMKNVIKMAEETGSHPLLVHTHLRNDCLLKAARVYMIFEVLEQAGEVIHAAPPVESLENEEFESSFTVLLITQESAEGIKTAIEKVSEVDYVHVEPFKEKETQPPEESQVLSQAEISDESDQKTKKSTPRGRTIRVNIERLDALMNLFEELVIDRGRLEQISSDLAHQDLQERVEHMARTSSDLQGIILNMRMVPVEQVFNRFPRMVRQLSKDLHKRLELTITGAETELDRTVIDEIGDPLVHLIRNAVDHGIESPEVREAKGKPAAGQIELKACHSGNHVFIEITDDGAGIDRMKVAGKAVKNHLITQEQAEAMSDSEVFDLIMESGFSTADQISDISGRGVGLDVVKSTIESLGGMITIESEYGEGSRFSIQLPLTLSIISVMLVEVQKETYAIPLSSIIETAVVKKKDLMNAHNRKVMDFRGRVIPLVFLTELLQVPVELEEKDDYSVVIIRRGEKMAALVVHSFIGQQEVVLKSLGNYLSGAFAISGATILGDGQVALILDSNALIK	PGPT0015645_3454	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015645-cheA|wspE-K03407	NA	NA
AK012_00372	471	cheW	COG0835	Chemotaxis protein CheW	ATGACAGAACAAAAAGAAGATACGCAGAAGGTCATCGTTTTTCAAATTCAGGATGAAGAGTATACACTCCCGGTCCAGACTGTGGGATCGATTGAAAGAATGGTGCCGATTACGCGGGTTCCGGGAGCTCAACCTTTCGTAAAAGGGGTCATCAATTTAAGAGGGGTTGTCACTCCTGTGATTGATCTGCGGGAGAGGTTCGGATTTGAACCTTCCCCGGAAACCGAACAGACACGGATCATTACGGTGACAGTCGCTGACATGAATGTTGGTTTAGTTGTAGACGCTGCCAACGATGTGCTGGATCTTGAAAACGATGGAGTGGAGCCCCCTCCGGAAGTGGTCGGCACGGTAGAGGCCGCTTATATCCAAGGGGTGGCCAACGTGGAAGGCCGGCTGTTGATCCTGTTGAATTTAGAAAAAGTACTGGCTGAAGAAGATGTGCTCCAATTGGATCGAATGAATGGATAA	MTEQKEDTQKVIVFQIQDEEYTLPVQTVGSIERMVPITRVPGAQPFVKGVINLRGVVTPVIDLRERFGFEPSPETEQTRIITVTVADMNVGLVVDAANDVLDLENDGVEPPPEVVGTVEAAYIQGVANVEGRLLILLNLEKVLAEEDVLQLDRMNG	PGPT0015680_4023	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015680-cheW-K03408	NA	NA
AK012_00373	531	cheD	COG1871	Chemoreceptor glutamine deamidase CheD	ATGGATAATTATTCCAGGTACCTGGTACAGACTCAACCGGAGGGTATTCAAAAAAAGTACGTCAGAGTCGGAATCGGACAAATGGCTGCAGCAGGCAGGGAAGGCGTATTAAAAACAACAGGACTTGGCTCCTGCCTCGGGGTTATCCTGTATGACGGGAAAGGGGCGGCCGGTATGATTCATATCATGCTTCCGGAGGTACATGCCGCGGCCCATGACTGCGTTAACCGGTGGAAGTATGCGGATCCAGCTGTTGATGACCTTGTCGCTCATCTCATTGAAAAAGGGTGCTGCCCCGGGGATTTGAAAGCAAAGATTGCGGGAGGGGCTCATATGTTTCCGGTTAAAGGCCGGAACAGGCTGATCCGGATAGGAGAGCGGAATGTAAGGACGGTCAAACGCCGCCTTTCTTCACACGGCATTCCTGTCATCGCCGAAGATACCGGTGGGCGGAATGGAAGATCCATCTTATTTAATGTAGAAACCAGTCAAATGATTATAAAAACCGGTGGCGGCGAATTTCAATTATGA	MDNYSRYLVQTQPEGIQKKYVRVGIGQMAAAGREGVLKTTGLGSCLGVILYDGKGAAGMIHIMLPEVHAAAHDCVNRWKYADPAVDDLVAHLIEKGCCPGDLKAKIAGGAHMFPVKGRNRLIRIGERNVRTVKRRLSSHGIPVIAEDTGGRNGRSILFNVETSQMIIKTGGGEFQL	PGPT0015665_1345	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015665-cheD-K03411	NA	NA
AK012_00374	771	sigD	COG1191	RNA polymerase sigma-D factor	ATGACAGGTGGTTTATCTCCTCAGGAACAGCAGTGGTGGAATTTATGGACGAATGAGAGAGACGGTGAAGCAGCAAACCAGCTTGTCCAGCTTTACGATTACCTGGTGAATTATCACGTCCACCGGATTGCAGCTCATTTACCGAAAAATGTGAGCAAAGATGATGTAAGAAGTCTCGGAATGCTTGGCCTTTATGATGCATTGAAAAAATTTGACCGATCCCGTGATTTGAAATTCGATACATATGCCTCCTTCCGAATCCGCGGTTCTATTATTGATGGGTTAAGAAAGGAAGACTGGCTGCCCCGTTCGGTAAGGGATCGGGCTAAAAAAATTGAACAGGTCACAGAGCAGCTGGAGCAGAGGCTGCAGCGGCCGGTGTCATCCAAGGAAGTCGCAGAAGCCGCGGGCCTGACCGCCCGTGAAGTGGAAGCGGCCGTCAAAGATTCCTTGTTTGCCAATGTCCTGTCTATGGAAGAGAAGCCCAAAGATAGCGGAGACGATCACAAAGAGGGAATTGGATACTCCATTCCTGACGAGGGGACGGGTTCTCCGGACGCCTCTCTTATAAGACAGGAAGACTACAAAGAACTGGCTGATCAGATTGAACAGCTGAAGGAAAAAGAAAAGCTGGTGATCAGTCTTTTCTATAAGGAAGAACTGACACTTACAGAAATCGGCCACGTGTTAAACTTAACGACTTCCCGGATTTCACAGATTCATGCAAAAGCGATTTATAAACTAAAGCAGTCTCTACAGAGTGTAATGTAA	MTGGLSPQEQQWWNLWTNERDGEAANQLVQLYDYLVNYHVHRIAAHLPKNVSKDDVRSLGMLGLYDALKKFDRSRDLKFDTYASFRIRGSIIDGLRKEDWLPRSVRDRAKKIEQVTEQLEQRLQRPVSSKEVAEAAGLTAREVEAAVKDSLFANVLSMEEKPKDSGDDHKEGIGYSIPDEGTGSPDASLIRQEDYKELADQIEQLKEKEKLVISLFYKEELTLTEIGHVLNLTTSRISQIHAKAIYKLKQSLQSVM	PGPT0015610_552	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
AK012_00375	432			hypothetical protein	TTGACTTTATTCCTATTAGTCGTCAGTTTTCTTGTTGACGGTTTGATTTTATATGGTCTTATGATTATGATGAAAAAAATCCGTCGTACAGAAGAACTCGAACGGAGACAGGAGCAGGTAGCCTCGGAAATCGAAGACTTGTTTTCCTCTTATTTGTATGAGATTAAAGAAGAGAATAAGCGGATGGAGGCCTGGGCTTCCTCCAGCTCCGTGACAGAGCAGGTGTCCGGAGAGGGCGGGGGTGAAGAAAAATACAGCATGTATGTGCCTCCCGTTCCAGATCCATCCGTCGATGACTATCAGCCCTCCATTCATTCCAAAGTGATGGAAATGAAAAAGAACGGGTGGTCAGCAGAGGAAGCGGCCCGGGCATTAAATAAAGGAAAAACCGAAATCGAACTGATGTATAAGTTTAACCGGGAAAAATGCTGA	MTLFLLVVSFLVDGLILYGLMIMMKKIRRTEELERRQEQVASEIEDLFSSYLYEIKEENKRMEAWASSSSVTEQVSGEGGGEEKYSMYVPPVPDPSVDDYQPSIHSKVMEMKKNGWSAEEAARALNKGKTEIELMYKFNREKC				NA	NA	NA	NA	NA
AK012_00376	738	rpsB	COG0052	30S ribosomal protein S2	ATGTCTGTAATTTCTATGAAACAGCTTCTAGAAGCTGGTGTTCACTTTGGACACCAAACTCGTCGTTGGAACCCGAAGATGAAGAAATACATCTTCACGGAGCGTAACGGCATCTACATCATCGACCTTCAGAAAACAGTGAAGAAAGTTGATGAAGCATTCAACTATGTGAAAGAGGTCGCTGCTGACGGCGGTAACATTCTTTTCGTAGGTACGAAGAAACAAGCACAGGATACTGTACGTGATGAGGCTACCCGCTGTGGTATGTACTACATCAACCAACGCTGGTTGGGCGGTACCCTTACAAACTTTGAAACCATCCGCAAACGTATTAATCGTTTGAAAGATATTGAGCGTATGGAAGAAGACGGTACTTTCGACGTACTTCCTAAAAAAGAAGTCGTTGACATGCTTAAAGAAAAAGATCGTCTTGTTAAATTCCTAGGCGGTATTAAAGAAATGAAGAGCCTTCCGGATGCAATGTTCGTGATCGACCCTCGTAAAGAGCGCATCGCAATTGCTGAAGCTCATAAATTGAATATCCCAGTTGTCGGTATCGTTGATACGAACTGTGACCCTGACGAAATCGATTATGTCATCCCTGCAAACGATGACGCAATCCGTGCTGTCAAACTGCTTACTTCCAAGATGGCTGACGCTGTCCTTGAAGCGAAGCAGGGGGAAGAAACAGAAACAACTGAAGAAACTGAAGCTGCTGTAGAAGCTGCTCAGGAGTAA	MSVISMKQLLEAGVHFGHQTRRWNPKMKKYIFTERNGIYIIDLQKTVKKVDEAFNYVKEVAADGGNILFVGTKKQAQDTVRDEATRCGMYYINQRWLGGTLTNFETIRKRINRLKDIERMEEDGTFDVLPKKEVVDMLKEKDRLVKFLGGIKEMKSLPDAMFVIDPRKERIAIAEAHKLNIPVVGIVDTNCDPDEIDYVIPANDDAIRAVKLLTSKMADAVLEAKQGEETETTEETEAAVEAAQE				NA	NA	NA	NA	NA
AK012_00377	885	tsf	COG0264	Elongation factor Ts	ATGGCTGTAAATGCAAAGATGGTAAAAGAACTACGTGAAAAAACAGGTGCTGGAATGATGGATTGTAAGAAAGCACTGACTGAAACTGATGGTGACATGGACAAAGCGATCGAATGGCTTCGTGAGAAAGGGATTTCCAAAGCGGCTAAGAAAGCAGACCGTATTGCAGCAGAAGGTTCTGCAGCAATTGAAATCTCCGGTAACACAGCTGTCCTTTTCGAAGTGAACTGTGAAACAGACTTCGTTACGAAGAACGACCAGTTCAAAGAACTTCTAAAAGATCTTGGTCAGCACCTTGTTTCCCAAAAACCTGCGACTGTTGAAGAAGCACTTGAACAGAAGCTTCATGGTGAAGGTGAAACTCTAAGCACATACATTACAGAGCGCGTAGCGAAAATCGGAGAGAAAATCTCCCTCCGCCGCTTCACACTCAAAGAGAAAACAGACAACGACGCATTCGGTGCCTACATCCACATGGGCGGAAGCATCGGCGTATTGACTGTTCTTGAAGGTTCTACAGATGAAGCTGCTGCAAAAGACGTAGCGATGCACGTAGCTGCTGTAAACCCGCGTTATGTTTCCCGTGACGAAATTCCTCAAGAGGAAGCGGAAAAAGAGCGTGAACTTCTTAAAACGCAGGCCTTGAACGAAGGCAAACCGGAAAACATCGTTGAAAAAATGGTGGAAGGCCGTTTGAACAAGTTCTTCGAAGAAATCTGCCTGCTTGACCAGAGCTTCGTTAAAGATCCAGACCAGAAAGTGAAGCAGTACGTTGCTTCTACCGGCGGTCAGATCACAAACTTCGATCGTTTCGAAGTCGGCGAAGGCATGGAAAAACGTGAAGAAAACTTCGCAGACGAAGTCATGAGCCAAGTTAAAAAATAA	MAVNAKMVKELREKTGAGMMDCKKALTETDGDMDKAIEWLREKGISKAAKKADRIAAEGSAAIEISGNTAVLFEVNCETDFVTKNDQFKELLKDLGQHLVSQKPATVEEALEQKLHGEGETLSTYITERVAKIGEKISLRRFTLKEKTDNDAFGAYIHMGGSIGVLTVLEGSTDEAAAKDVAMHVAAVNPRYVSRDEIPQEEAEKERELLKTQALNEGKPENIVEKMVEGRLNKFFEEICLLDQSFVKDPDQKVKQYVASTGGQITNFDRFEVGEGMEKREENFADEVMSQVKK				NA	NA	NA	NA	NA
AK012_00378	723	pyrH_1	COG0528	Uridylate kinase	ATGACTACTGCTCGCTATCGGAGAATTGTATTAAAATTAAGTGGAGAAGCCTTAAGTGGTAAAGCAGGATTCGGGCTTGAGCCGAGCATCATAAAATCTGTGTCACGTCAGGTGAAGGAAGTGGCTGAACTTGGCGTGGAAGTAGCGGTTGTTGTCGGAGGCGGCAACATCTGGCGCGGCAAGGTCGGTGCTGAAATGGGCATGGACCGTGCAAATGCCGATTATATGGGAATGCTGGCTACAGTCATGAACTCACTGGCTCTTCAAGACAGCCTTGAAAACTTAGGGATCCCAACCCGTGTCCAAACTTCTATTGAAATGAGACAGGTGGCTGAACCTTATATCCGTCGTAAAGCCATCCGTCATCTGGAGAAAAAGCGTGTGGTTATTTTTGCTGCCGGAACAGGAAATCCGTATTTCTCCACAGATACAACGGCTGCTCTAAGAGCGGCCGAAGTGGAAGCGGATGTCATTCTGATGGCTAAAAACAATGTGGACGGCGTCTATACAGACGATCCGAAAATGAACGAGGATGCCGTGAAATATGATGAGCTATCCTACATGGATGTTTTAAATGAAGGACTGGGTGTAATGGATTCAACAGCTTCTTCATTATGTATGGACAACGATATTGATTTACTGGTATTCTCGATTACGGAAGATGGAAATATTAAAAAAGCCGTTATGGGCGAAAACATTGGAACCATTGTGAGGGGGAAATAA	MTTARYRRIVLKLSGEALSGKAGFGLEPSIIKSVSRQVKEVAELGVEVAVVVGGGNIWRGKVGAEMGMDRANADYMGMLATVMNSLALQDSLENLGIPTRVQTSIEMRQVAEPYIRRKAIRHLEKKRVVIFAAGTGNPYFSTDTTAALRAAEVEADVILMAKNNVDGVYTDDPKMNEDAVKYDELSYMDVLNEGLGVMDSTASSLCMDNDIDLLVFSITEDGNIKKAVMGENIGTIVRGK	PGPT0021205_2809	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021205-pyrH-K09903	NA	NA
AK012_00379	558	frr	COG0233	Ribosome-recycling factor	ATGTCTGAAGCTGTGATTAATGAGACGAAACAACAAATGGAACAAGCGGTGCAAGCTTACTCCCGTCAACTTGCCACGGTAAGAGCGGGACGCGCGAACCCTTCAATCCTGGACAACGTATACGTGGATTACTACGGTGCTGCCACTCCATTAAATCAGCTGGCACAGGTGTCCGCACCTGAACCACGCCTGCTTGTCATTACTCCATATGACAAGACAGCGATTGCTGAGATTGAAAAAGCGATTCTTAAAGCAGATCTCGGTCTGTCACCATCCAGTGACGGTAATGTTGTACGGATCAACATTCCAGCACTTACAGAAGAGCGTCGTAAAGATCTTGCGAAAGTAGTAGGAAAGTATTCGGAGGAAGCGAAAGTACAGGTTCGTAACATCCGCCGCGATTCCAACGATCGTTTGAAGAAGCTTGAAAAAGACGGCGAATTGACAGAAGACGATCTTCGTTCCTACCAGGACGATGTGCAGAAGCTCACCGACCAGAATGTAGAGAAGATCGATCAACTGGCTAAAACAAAAGAAGAAGAAATCATGGAAGTTTGA	MSEAVINETKQQMEQAVQAYSRQLATVRAGRANPSILDNVYVDYYGAATPLNQLAQVSAPEPRLLVITPYDKTAIAEIEKAILKADLGLSPSSDGNVVRINIPALTEERRKDLAKVVGKYSEEAKVQVRNIRRDSNDRLKKLEKDGELTEDDLRSYQDDVQKLTDQNVEKIDQLAKTKEEEIMEV				NA	NA	NA	NA	NA
AK012_00380	768	uppS		Ditrans,polycis-undecaprenyl-diphosphate synthase ((2E,6E)-farnesyl-diphosphate specific)	ATGCCAATCAAGTTTCCATTTGCAAAAACAAAAAAACAAGCAGAGGCACAGCCGCTCGGGCTTGATCATACTCATCTTCCCAAGCACGTGGCCATTATCATGGACGGGAACGGCCGCTGGGCTAAAAATAGAGGAATGCCGCGGATTGCGGGGCATAAAGAGGGTATGGGAGTTGTGAAGAGGATTGTAAGCTATGCTTCTGACCTCGGTGTCCAGGTGCTGACGCTGTATGCTTTCTCTACAGAGAACTGGAAACGGCCAAAGAATGAAGTGGAGTTTCTCATGAAGCTTCCTGTAGATTTCCTGAATACATATCTGCCTGAATTGATTGAAAAAAACGTTCAGGTCCGTACCATTGGCGATTTTGATGTTCTGCCTCCCCACACGAAGAAAGCTGTCCAGGAGGCGATCGAACGAACGAAGGACAATGATGGACTTGTATTGAATTTTGCCCTGAACTACGGCAGCCGTTTCGAAATGGTGCATGCAGTCAGGCAGATAGCAGAAAAGGTGAAAGAGGGCGCTCTCGACCCTTCGGATATCAGTGAAGAAATGTTTTCTTCAGAGCTGTATACGTCTGAGTTAATAGAGCCGGACCTTTTGATCCGGACAAGCGGGGAACAACGCTTGAGCAATTTCCTGTTATGGCAGCTGGCCTATGCAGAATTCTGGTTTACAGAAGTGTACTGGCCGGACTTTAATGAGAGCCATTTCGAAAAAGCTCTTTATGATTTTCAAAATCGCAAACGTCGGTTTGGCGGAGTATAA	MPIKFPFAKTKKQAEAQPLGLDHTHLPKHVAIIMDGNGRWAKNRGMPRIAGHKEGMGVVKRIVSYASDLGVQVLTLYAFSTENWKRPKNEVEFLMKLPVDFLNTYLPELIEKNVQVRTIGDFDVLPPHTKKAVQEAIERTKDNDGLVLNFALNYGSRFEMVHAVRQIAEKVKEGALDPSDISEEMFSSELYTSELIEPDLLIRTSGEQRLSNFLLWQLAYAEFWFTEVYWPDFNESHFEKALYDFQNRKRRFGGV	PGPT0024180_1414	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024180-uppS|ispU-K00806	NA	NA
AK012_00381	807			hypothetical protein	GTGAATGAAGGAATGAAACAAAGAACAATTACTGCAGTAGTAGCAGCACTTATTTTTATCCCGATTGTTCTCCTAGGGGGATGGCCGTTTAAGGCCTTTGTCTATTTCGTAGCCAGTATCGCCCTGTTGGAGCTGATACGTATGAAGAAAATTGCCCGGTATTCGGTCGCGGCAGGTCTTGGTCTTGTGTTGATGTGGGCGCTCATGTTTCCGTATGAGGTCTTCGACAATGTGGTGGACTCCGATGACCTTGTAACGAAATCGGAAATCACTCTGCTGGCGGTCCTCGTCCTGTTGAGTTATACCGTGCTCGTGAAGAACCGGTTCACATTTGATGATGCAGGGTTCCTGCTTCTTTCCTCCATCTACATTGGTATGGGTTTCAATTACTTAATTGAAACAAGGGAGGCAGACTTACCGTATATTCTGTTCGCCTTATTCATCGTATGGGCAACAGATACGGGCGCCTATTTGTTTGGAAGGTCGTTTGGAAAACATAAACTGTGGCCGCAGATCAGTCCCAAGAAAACAATCGAAGGATCTATCGGCGGCGTGGTCCTTGCCTGTGTCGTAGCCTTTATTTTTCATCTCATTGAACCCCTGGACCATTCTTTGATTGTCGTTCTTCTTGTAACGGTGCTCATATCGATTGCGGGGCAGATTGGAGATCTTGTGGAATCAGCTTTCAAGAGACATTATGCGGTTAAGGACTCCGGAAAGATTCTTCCCGGGCACGGTGGTGTTCTTGACCGGTTTGACAGCTTGATATTCATTCTTCCAATTCTGCATTTAATCAACTTTATTTAG	MNEGMKQRTITAVVAALIFIPIVLLGGWPFKAFVYFVASIALLELIRMKKIARYSVAAGLGLVLMWALMFPYEVFDNVVDSDDLVTKSEITLLAVLVLLSYTVLVKNRFTFDDAGFLLLSSIYIGMGFNYLIETREADLPYILFALFIVWATDTGAYLFGRSFGKHKLWPQISPKKTIEGSIGGVVLACVVAFIFHLIEPLDHSLIVVLLVTVLISIAGQIGDLVESAFKRHYAVKDSGKILPGHGGVLDRFDSLIFILPILHLINFI	PGPT0007685_5251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_CYTIDYLYLTRANSFERASE_ACTIVITY,PGPT0007685-cdsA|ynbB-K00981	NA	NA
AK012_00382	1146	dxr	COG0743	1-deoxy-D-xylulose 5-phosphate reductoisomerase	ATGAAACACATTTCATTATTAGGCGCGACAGGCTCTATTGGGATACAAACACTGGATGTCATCAGGCTCCACCCTCAACAATTTTCGCTGTACAGCATGGCTTTCGGCCGTAACGTCGAGAAAGCCGTCCCGCTTATACAGGAATTTCAACCAGCGGTCATTGTTGTGCAGGATGAGGATACAAAGCAGCGTTTGCAGAGGGAAATAGACCATTCCCATATTCTTATCGGCAGAGAAGGTTTAATCGAGGCTGCTTCTGCCGATGATGTGGATGTCGTCGTTAACGCTGTGATGGGAAGTATCGGTCTGCCGGCTACATTAAAAGCCATTCAGGCTCGTAAACAAATCGCCATCGCTAATAAAGAAACCCTCGTAACGGCGGGGCATCTCGTTATGGCGGAAGCCGAAAAATACGGGGTGGAACTGCTTCCGGTAGATAGTGAGCATTCCGCTATATTCCAGGCTTTAAATGGTGAGAACAGGAAAGAAATAGAAAAACTCATCATTACCGCTTCCGGAGGCAGCTTTAGAGATAAGACGAGAGCTGAGCTGAAGGGCGTGACAGTGGAAGATGCATTGAACCACCCCAACTGGAGCATGGGGGCGAAAATTACGATCGATTCAGCCTCCATGATGAATAAGGGACTTGAAGTTATTGAAGCCCACTGGCTTTTTCAAGTGCCTTATGACCAGATTCATGTTATTCTTCATAGAGAAAGCGTGATTCATTCCATGGTGGAGTATGTAGACCGGAATGTCATAGCCCAGCTTGGGACACCGGATATGAAAGTGCCTATTCAGTATGCCTTGACCTATCCAAACCGGATGGACCTTCCAATTACGAAGCATTTGAACTTAGAGGAAATGGCGGCTCTCCATTTTGAGAAAATGGATATGGAGCGTTTTCCATGCCTGCGGATGGCCTATGAGGCGGGCAGAGCAGGCGGATCCATGCCTGCTGTACTGAACGCAGCGAATGAAGAAGCTGTTCAAATGTTTTTGGAAGGCCGAATATCCTTCCTGGAAATCGAATCATACATCGGAGAAGCCTTGGAAAGACATGACAAGATTCATAACCCGGACTTGTCTACCATAATTTCTATTGATGAGGAAACAAGGAAGAGAGTCCGTTTCCATTTAAATTAA	MKHISLLGATGSIGIQTLDVIRLHPQQFSLYSMAFGRNVEKAVPLIQEFQPAVIVVQDEDTKQRLQREIDHSHILIGREGLIEAASADDVDVVVNAVMGSIGLPATLKAIQARKQIAIANKETLVTAGHLVMAEAEKYGVELLPVDSEHSAIFQALNGENRKEIEKLIITASGGSFRDKTRAELKGVTVEDALNHPNWSMGAKITIDSASMMNKGLEVIEAHWLFQVPYDQIHVILHRESVIHSMVEYVDRNVIAQLGTPDMKVPIQYALTYPNRMDLPITKHLNLEEMAALHFEKMDMERFPCLRMAYEAGRAGGSMPAVLNAANEEAVQMFLEGRISFLEIESYIGEALERHDKIHNPDLSTIISIDEETRKRVRFHLN	PGPT0007585_3647	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007585-ispC|dxr-K00099	NA	NA
AK012_00383	1257	rasP	COG0750	Regulator of sigma-W protease RasP	TTGACTACAGTGATTGCATTTATACTCATGTTCGGATTATTGGTGTTCGTCCATGAGTGGGGGCATCTCATATTTGCCAAACGGGCAGGTATGCTGGCGCGTGAGTTTGCCATCGGCTTTGGCCCGAAAATATATCATTTTAAGAAAAATGAAACCTTGTATACCATCCGCCTGCTTCCTATCGGCGGTTATGTCCGTGTAGCAGGGGAAGATCCTGAAATTGTAGAATTGAAAGCCGGTCATCACGTCGGTCTGGAATTCAATGATGAGGGTAAGGTGAACCGGATCATTGTGAATAATAAATCCAAGCATCCGGAAGCCCGTGTCATTGAAGTCGAAAAAGCGGATCTTGACCACCGGCTGGTTATCGAAGGTTATGAAGTGGATGAAGACGAAAAGCTTTATTTTGAAGTCGATCCAAAAGCGATGTTCGTCATGGACGAAAATGAAACACAGATTGCGCCGTATAACCGGCAGTTCGCATCCAAAACGGTACCGCAGCGCGCCATGCAGCTGTTCGCCGGTCCGATGATGAATTTCGTCCTGGCGATTATCCTGTTTATGATTTTAGGCTTTATTCAAGGAGTACCTTCGGATGAAGCCAAGCTTGGTGAGATTCAGAACGGCACACCAGCCCAGGAGGCCGGTCTGAAAGCCGGAGATGAAGTGACCGCTGTGGACGGGGAATCCGTCAGTACATGGGAGGAGTTCACGTCCATCATAAGAAACCATCCCGGAGAGGAAGTTACGTTGACTGTTGAACGGGACGGGTCCGTTCAGCAGATGAATGTGACACCTGCTTCCATTGAGGACCGGGATATGACGATCGGGCAGGTAGGTGTAGCCAGAGCGTTTGAGGAATCCCTGACTGACAAGCTGACATTTGGTTTCACTCAGACGTATGAGTGGGCCGGATTGATCCTGACCAACCTTGGTAAACTCGTGACGGGGCAGTTTTCGCTTGATATGCTTTCGGGTCCTGTCGGGATTTATGATGCTACAGACCAGGTCGTTCAGACAGGGTTCACCAACTTTGTCATGTGGACGGCTATCCTCAGCATTAACCTTGGTATTGTCAACCTTCTTCCACTCCCAGCGCTTGACGGCGGACGCCTGATCTTTGTAGGTCTGGAAGGTGTCAGAGGGAAGCCGATTGACCCTCAGAAGGAAGGGCTTGTCCATTTCATTGGGTTTGCTCTTCTGATGCTGTTAATGCTCGTCGTAACATGGAACGATATTCAACGCTTATTCCTATGA	MTTVIAFILMFGLLVFVHEWGHLIFAKRAGMLAREFAIGFGPKIYHFKKNETLYTIRLLPIGGYVRVAGEDPEIVELKAGHHVGLEFNDEGKVNRIIVNNKSKHPEARVIEVEKADLDHRLVIEGYEVDEDEKLYFEVDPKAMFVMDENETQIAPYNRQFASKTVPQRAMQLFAGPMMNFVLAIILFMILGFIQGVPSDEAKLGEIQNGTPAQEAGLKAGDEVTAVDGESVSTWEEFTSIIRNHPGEEVTLTVERDGSVQQMNVTPASIEDRDMTIGQVGVARAFEESLTDKLTFGFTQTYEWAGLILTNLGKLVTGQFSLDMLSGPVGIYDATDQVVQTGFTNFVMWTAILSINLGIVNLLPLPALDGGRLIFVGLEGVRGKPIDPQKEGLVHFIGFALLMLLMLVVTWNDIQRLFL	PGPT0011685_2784	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0011685-rseP-K11749	NA	NA
AK012_00384	1704	proS		Proline--tRNA ligase	ATGAGACAAAGTCATATGTTCATTCCTACTTTAAAAGAAAACCCAGCTGATGCAGACATTAAGAGCCACCAGCTTTTAGTCCGCGCCGGCTACATACGCCAGATTGCTTCCGGAATTTATAGTTTCCTTCCAATCGGGCAGCGTGTGCTGAGAAAAGTCGAAAATATTGTTAGAGAAGAAATGGAAAAGATCGGCGCTCATGAAATGGCTATGCCTGCCCTTGAGCCTTCCGAACTATGGAAGGAAACCGGCCGCTGGTCTACGTTCGGCTCGGAGCTGATGCGTTTGAATGACCGTCACAACCGTGAATTCGCTCTTGGAGCGACACATGAAGAAGTCATTACAAGCCTTGTACGTCATGAAGTCAAAAGCTATAAGCAGCTTCCATTGACGGTCTTCCAAATTCAGAATAAATTCCGTGATGAAGCACGTCCCCGTTTTGGTCTGCTCCGCGGCCGCGAATTTTTAATGAAGGATGCCTATTCCTTTAACGAATCTTATGAAAGCCTTGACGAAACCTATGATCTGATGTTCCAGGCGTACTCCAACGTGTTCTCCCGCCTGGGCTTGAATTTCCGTGCGGTCATCGCTGATTCCGGGGCCATGGGAGGAAAGGACACCCATGAATTCATGGTTCTTTCTGAAGTAGGGGAAGATGTGATCGCCTATTCCGACACCTCCCGTTATGCGGCCAATATTGAAATGGCTCCTGTAACAGCCGTTTATGAAAAGTCTCCGTCAGCACCGATGGACATGGAGAAAGTCGAAACGCCGGACTGCAGAACCATGCAGGAAGTCGCAGACTTTTTCGGTCATGAGCTGGAGGAAGGCTTAAAGGCGATTCTGTTCAAAGTGGACGAGCAGTTTGTCATGGCTGTGACAAGAGGGGATCATGAAGTCAACGATGTGAAACTGAAAAACCTCTATGATGCGGATATGGTGGAACTTGCAACAGCGGAGGATACGAAGCGCGTGATGGGTGCCGGCTTCGGTTCTCTTGGTCCTGTAGGAGTCCCGGAGGAAGTGGAAGTCGTTGCAGACCAAGCTGTTGAAGCCCTTGTCAACGTGACCTGCGGTGCTAATGAAGACGGATATCACTATAAAAATGCTACCCCTGAAAAGGATTTCCAAGTATCCCGCTATGCGGATCTCCGTTTCATCCAAGAAGGTGATCCATCTCCGGATGGGGAAGGAGTCATTAAATTTGCCCGTGGGATCGAGGTTGGACATGTGTTCAAGCTTGGGGAATTCTATTCCAAGCGTATGAATGCAACATTCCTTAATGATCAGGGGAAAGCATCAACGATGATCATGGGCTCCTATGGGATTGGAGTATCCAGGACTCTGGCGGCCGTTGTGGAACAGTACAACGATGAACGCGGCATTACCTGGCCGGCCAACATCGCACCGTTCCAGGTTCACCTTCTTTCTATGAATCCGAAGAAAGAAGAGCAGAAGGAACTCGCCGATCAATTGTATGATCAGCTGCTTGAATCCGGTATTGAAGTTTTATATGATGATCGTAAGGAAAGAGCAGGCGTGAAGTTTGCGGACAGTGACCTTTTCGGAATCCCTGTACGGGTCACGGTTGGAAAACAAGCCGGCGAAGGAATTGTGGAAGTGAAAGAACGAGCGTCTGGAGAGCAGAAGGAACTTTCTGCTTCAGAAATCGCTGACTATATAAAAAACTGGTACAAAGCTTAA	MRQSHMFIPTLKENPADADIKSHQLLVRAGYIRQIASGIYSFLPIGQRVLRKVENIVREEMEKIGAHEMAMPALEPSELWKETGRWSTFGSELMRLNDRHNREFALGATHEEVITSLVRHEVKSYKQLPLTVFQIQNKFRDEARPRFGLLRGREFLMKDAYSFNESYESLDETYDLMFQAYSNVFSRLGLNFRAVIADSGAMGGKDTHEFMVLSEVGEDVIAYSDTSRYAANIEMAPVTAVYEKSPSAPMDMEKVETPDCRTMQEVADFFGHELEEGLKAILFKVDEQFVMAVTRGDHEVNDVKLKNLYDADMVELATAEDTKRVMGAGFGSLGPVGVPEEVEVVADQAVEALVNVTCGANEDGYHYKNATPEKDFQVSRYADLRFIQEGDPSPDGEGVIKFARGIEVGHVFKLGEFYSKRMNATFLNDQGKASTMIMGSYGIGVSRTLAAVVEQYNDERGITWPANIAPFQVHLLSMNPKKEEQKELADQLYDQLLESGIEVLYDDRKERAGVKFADSDLFGIPVRVTVGKQAGEGIVEVKERASGEQKELSASEIADYIKNWYKA				NA	NA	NA	NA	NA
AK012_00385	4293	polC	COG2176	DNA polymerase III PolC-type	TTGAGTGTGAACAGTCAGGAGAAGATGCACTATTTACTGGAGCAGATCCAGTTTCCTCATAATCTGATTGAACCTCATTTCAAAGAAAGCCGGATGCAGAAGCTTGTGGTCTTCAAGGAAAAGAAAGCGTGGCATTTTCATTTTGCCATGCCCAGGCCGCTTCCGCCTTCGATTTATGAGCTGTTCACAAGTAAGTTGATCCATGCTTTTCGTGCCATTGCCGAAATCGATTGGACAATTGAGGCAGACAATAAGGAGCTGCCCCAGGAAGATATTGTAGAGTACTGGCAGAACTTCATTAAGACGCTGACCAATTTGACGCCGGGGTACAAAGATCTATTGCTGGAACAACAGCCGGAAGTTAACGGCAATAAGATTATGTTAACCTGTAGAAATTTAGCTGAAAGTCATGCCGTACAGAAAAAGCTGGAGGAACCGCTTAAGCAGTATGCCCAGCGGGCAGGTCTGCCTGCCTTTGTTTTATCTACACAGGTGAAACATGAAAAAGAAGAAATCAAAAAGTTTCAGGAAGAACGGCAGAAAGAAGATAAAATCCTTGTGCAGCAGGCGGTGAAAGAACAGGAAGAACGGGCGAAGGATAAAGACGATCAAAAGCCTAAAGGGCCGATTGAGATCGGCTACAAAATTCAGGATGATATCATTCCTATGGAGGAGATTCAGGAAGAAGAGAAGCGCATTGCTGTCCAGGGGTATGTGTTTGATGCCGAAGTGAAAGAGCTCCGCTCCGGCCGGCACCTTCTGCTGTTGAAGGTCACGGACTATACCGACTCCTTCTCTATCAAAATGTTCTCCCGCGGAGATGATCACGCTGATATGTTCAAGCTGGTCCAGCCGGGCATGTGGATCAAAGCCCGGGGAGGCGTTCAAACGGACAGCTTCACCAATGAACTGACGATGATGGCTAATGATATCAATGAAGTGAAGCCGAAGCTTCGTCAGGATGAAGCACCTGAAGGGAAGAAACGGATAGAACTGCATGCCCATACGACGATGAGCGCTATGGACGCTCCAGTATCTCCTTCCCGTCTGATTAAGCAGGCAGGGGACTGGGGGCATGAAGCGATTGCCATCACCGATCACGCCGTCGTTCAGGCGTATCCTGATGCGCACAGTGCAGGGGAAAAGAATGGGGTGAAAATCCTTTACGGTGTTGAAGCCAACCTGGTTGATGATGGGGTGCCGATTGCCTATGAAGAACAGGACCGGGATTTGGAACAAGCGTCCTATGTTGTTTTTGACGTGGAGACGACAGGTTTATCAGCTGTTTATGACAAGATCATTGAACTGGCAGCCGTGCGGATTCAAGGGGGAGAAATTGTCGACCGCTTCGAATCCTTCGCCAACCCTCACCACCCACTTTCCCAGACGACGATCGATCTGACAGGCATCACTGATGATATGGTGAAGGATGCGCCTGAAATTGAAGAAGTGTTGAAGGATTTCTATACGTGGACAGGGGACGACATCCTCGTTGCCCATAACGCAAGCTTTGACATGGGCTTCTTGAATGCCGGCTATCAGGCGATCGACTTAGGGAAAGCCGGAAATCCGGTCATTGATACCTTGGAACTGGCTCGTTTTCTCGTTCCGGAGCTGAAAAACCACCGGCTGAATACCCTTTGTAAGAAGTTCGATATTGAGCTTACCCAGCACCACCGGGCTATATATGATGCTGAAGCGACTGGTTATCTTCTGTGGAAGCTTTTGAAAAGAGCGATGGAAAGGGAAATAACCAATCACCAGAACCTGAACGACTACATGGGTGAAGGGAAGGCTTATCAGCGCTCAAGGCCGTCCCATGCCACACTGCTGGCGACGAACAGCACCGGCTTGAAAAACATCTACCGGCTTGTTTCTGAAGCACATGTGAACTATTTCTATCGTGTGCCGAGGATTCCAAGATCCCTGCTTAAAAAGTATCGGGAAGGTATTCTTGTCGGATCCGGCTGTGATAAAGGGGAAGTCTTTGAAACGATTATGCAGAAATCGGAAGAAGAAGCTGAGAAAGTCGCGGATTTCTACGATTACATTGAGATTCAGCCTCCAGGGAACTATCATCATCTAGTTGAAAAAGACCTCGTTCAGACCGAAGCGCAGATCCTTGATATTCTTAAGCGTCTGACCGCCCTTGGCGAGCGGCTGGGCAAGACGGTTGTCGCAACAGGGAATACCCACTACCTGGAGCCGCATGAAAAGCAGTACCGGCAGATTCTTATTTCGTCTCAAAACGGAAATCCGTTGAACAGACAAACCCTGCCGGAGGTGCACTTTAAGACGACGAACGAAATGATTGATGAGCTTTCCTTCCTTGGCAGAGAAAAGGCGGAGGAACTGGTCGTGACGAATACGCATAAAATCAACGATATGATCGGGGAAGTTTCTCCAGTGAAGGATGACCTTTACACGCCCAACATTGAAGGGGCGGATCAGGAAATCCGTGACATGTCCTATAATAAGGCGAAAAGCATCTACGGGGACGACGTGCCGCAGTTGATCATAGACCGGCTGGAGAAGGAACTGGATAGTATCATCGGGAACGGTTTTGCGGTTATTTATCTCATATCTCAGAAGCTCGTTACAAAATCCCTTGAAGACGGCTACCTCGTTGGCTCACGGGGTTCTGTTGGATCGTCCTTTGTGGCGACGATGACAGAAATCACCGAAGTCAACCCGCTGCCTCCTCATTATGTCTGCCCGTCATGTCAGTACAACGAATTCTTTACAGATGGTTCTGTAGGTAGTGGATTTGACCTGGATGAAAAGGACTGTCCTGAATGCGGGACACCATTGAAGAAAGACGGCCAGGATATTCCGTTTGAAACCTTCCTTGGATTCAAGGGGGATAAAGTCCCGGATATTGACTTGAACTTCTCAGGTGAATATCAGCCGCATGCACACAACTATACGAAAGAGCTGTTCGGTGAGGACAACGTCTACCGTGCCGGAACGATTGGTACAATCGCTGAAAAGACGGCCTACGGCTATGTGAAAGGCTATGCGGGTGATCATCAGCTCCATTATAAGAATGCGGAAATCGACAGGCTCGTCCATGGATGCACAGGAGTCAAGCGGACGAGCGGACAGCACCCTGGAGGGATCATCGTAGTCCCGGATGATATGGAGATTTACGACTTTTCTCCTATACAGTATCCGGCAGATGATACAAAGTCTGAATGGAGAACGACGCACTTTGATTTCCACTCCATTCACGATAACCTTCTTAAGCTGGATATACTCGGACACGATGATCCGACCGTTATCCGTATGCTTCAGGATTTGAGCGGCATCGACCAGAAGGAGATTCCTGTCGACGATCCTGAAGTTATGAAGATCTTCAGCGGCCCTGAAGCTCTCGGAGTAACGGCGGAACAGATCATGTGTAAAACCGGAACCCTCGGGGTACCGGAATTCGGTACACGGTTCGTACGACAGATGCTTGAGGATACAAAACCTAAAACCTTTGCTGAACTTGTCATCATTTCAGGCCTTTCCCATGGTACTGACGTGTGGCTCGGCAATGCGGAGCAGCTGATCAATGACGGCATTTGTACACTGCCGGAGGTAATCGGCTGCCGTGATGATATCATGGTGTATTTAATGCATAAGGGTCTTGATCCATCCCTTGCCTTTAAAATCATGGAATTTGTGAGAAAGGGACGAGGCCTCCAGGATGAATGGATTGAAGAAATGAAAAAGCATGGAGTGCCGGACTGGTATATTGATTCCTGTAAGAAAATCAAATACATGTTCCCGAAAGCACACGCCGCTGCCTATGTTCTGATGGCAGTGCGGATTGCCTATTTCAAAGTCCATTACCCGATTTTCTTTTATGCGGCTTATTTCACTGTCCGTGCCAGCGATTTCGAGCTGGAAACGATGATGAAGGGGTCCGACGCGATCCGTGCCCGTATGAATGAAATTCAGAGCAAAGGGTTTGATGCCACACCGAAAGAGAAAAGTTTGATGACTGTGCTCGAAATATCCCTTGAAATGTGTGAACGCGGATTCAGCTTTAAAAACGTGGACCTGTATAAATCAAGCGCGACAGACTTCCTCGTGGAAGGAAATCAGCTGATCCCTCCATTCAATGCGGTTGATGGTCTTGGTACCAACGCTGCGATTAACATCGTACAGGCCCGTGAAGAAGGGGAGTTCCTTTCCAAACAGGACTTACGAGAGCGGAGCCGGATCTCCAAAACGGTGCTGGAATATCTGGATAACTTCGGTTGTCTTGAAGGAATGCCGGATGAAAACCAGCTGTCTCTTTTTTAA	MSVNSQEKMHYLLEQIQFPHNLIEPHFKESRMQKLVVFKEKKAWHFHFAMPRPLPPSIYELFTSKLIHAFRAIAEIDWTIEADNKELPQEDIVEYWQNFIKTLTNLTPGYKDLLLEQQPEVNGNKIMLTCRNLAESHAVQKKLEEPLKQYAQRAGLPAFVLSTQVKHEKEEIKKFQEERQKEDKILVQQAVKEQEERAKDKDDQKPKGPIEIGYKIQDDIIPMEEIQEEEKRIAVQGYVFDAEVKELRSGRHLLLLKVTDYTDSFSIKMFSRGDDHADMFKLVQPGMWIKARGGVQTDSFTNELTMMANDINEVKPKLRQDEAPEGKKRIELHAHTTMSAMDAPVSPSRLIKQAGDWGHEAIAITDHAVVQAYPDAHSAGEKNGVKILYGVEANLVDDGVPIAYEEQDRDLEQASYVVFDVETTGLSAVYDKIIELAAVRIQGGEIVDRFESFANPHHPLSQTTIDLTGITDDMVKDAPEIEEVLKDFYTWTGDDILVAHNASFDMGFLNAGYQAIDLGKAGNPVIDTLELARFLVPELKNHRLNTLCKKFDIELTQHHRAIYDAEATGYLLWKLLKRAMEREITNHQNLNDYMGEGKAYQRSRPSHATLLATNSTGLKNIYRLVSEAHVNYFYRVPRIPRSLLKKYREGILVGSGCDKGEVFETIMQKSEEEAEKVADFYDYIEIQPPGNYHHLVEKDLVQTEAQILDILKRLTALGERLGKTVVATGNTHYLEPHEKQYRQILISSQNGNPLNRQTLPEVHFKTTNEMIDELSFLGREKAEELVVTNTHKINDMIGEVSPVKDDLYTPNIEGADQEIRDMSYNKAKSIYGDDVPQLIIDRLEKELDSIIGNGFAVIYLISQKLVTKSLEDGYLVGSRGSVGSSFVATMTEITEVNPLPPHYVCPSCQYNEFFTDGSVGSGFDLDEKDCPECGTPLKKDGQDIPFETFLGFKGDKVPDIDLNFSGEYQPHAHNYTKELFGEDNVYRAGTIGTIAEKTAYGYVKGYAGDHQLHYKNAEIDRLVHGCTGVKRTSGQHPGGIIVVPDDMEIYDFSPIQYPADDTKSEWRTTHFDFHSIHDNLLKLDILGHDDPTVIRMLQDLSGIDQKEIPVDDPEVMKIFSGPEALGVTAEQIMCKTGTLGVPEFGTRFVRQMLEDTKPKTFAELVIISGLSHGTDVWLGNAEQLINDGICTLPEVIGCRDDIMVYLMHKGLDPSLAFKIMEFVRKGRGLQDEWIEEMKKHGVPDWYIDSCKKIKYMFPKAHAAAYVLMAVRIAYFKVHYPIFFYAAYFTVRASDFELETMMKGSDAIRARMNEIQSKGFDATPKEKSLMTVLEISLEMCERGFSFKNVDLYKSSATDFLVEGNQLIPPFNAVDGLGTNAAINIVQAREEGEFLSKQDLRERSRISKTVLEYLDNFGCLEGMPDENQLSLF				NA	NA	NA	NA	NA
AK012_00386	474	rimP	COG0779	Ribosome maturation factor RimP	ATGAGTGATCATGTGACATCCGTAGCGGAACGTCTTGTCCAGCCAATCTTGGATGATATGAATTTGGAACTTGTCGACATCGAATACAAAAAAGAAGGGCAGAACTGGTATCTGCGCGTCTTTATTGATAAAGAGGGCGGCGTTGATATTGAGGAATGCGGTCAAGTGTCGGAGCAGCTGAGTGAAAAGCTGGATGAAGAGGACCCTATCGATATCCCATATTTTCTAGAGGTTGCTTCTCCAGGAGCGGAACGCCCGTTGAAAACGGAAGCTGACTTTAAGAAGTATACCGGTAAATATGTCTATATGAAGCTGTATGAACCAATTGATGGGGAGAAGGAGTTTGAAGGGACATTGAAGTCTTTCGAACAATCCACAGCTGTCGTAGAAATCCGTATAAAAACAAGAAAAAAACAGTTGGAAATTCCTTATGAAAAAATAGCCAAAGCGAACCTAGCTGTTACGTTTAATTAA	MSDHVTSVAERLVQPILDDMNLELVDIEYKKEGQNWYLRVFIDKEGGVDIEECGQVSEQLSEKLDEEDPIDIPYFLEVASPGAERPLKTEADFKKYTGKYVYMKLYEPIDGEKEFEGTLKSFEQSTAVVEIRIKTRKKQLEIPYEKIAKANLAVTFN				NA	NA	NA	NA	NA
AK012_00387	1104	nusA	COG0195	Transcription termination/antitermination protein NusA	TTGAGTAGTGAACTATTTGATGCCATGGATTATCTGGAAAAGGAAAAAGGCATCGACAAAAATCTATTATTGGAAGCGCTGGAAGCAGCCCTTATCTCTGCTTATAAGAAAAACTTCAATTCCGCAACCAATGTTCGTGTGGATATTAATGAAGAGGAAAGTACGATGAGAGTACTGGCCCGGAAAGAAATCGTAGAAGAAGTGATGGACCCTCAACAGGAAATTTCCCTCGAGGAAGCCAATGGCATTGATCCAAACTACGATGTCGAAGATGTTATTGAAGTAGAGGTTACACCGATGGACTTCGGCCGGATCGCAGCTCAGGCGGCCAAGCAGGTTGTAACACAGCGTGTCCGTGAAGCCGAGCGCGGCATCATATACGGGGAGTACGTTGATCGTGAGGAAGATATCATGACGGGGATCATCCAGAGAAAGGATCCACGTTTTGTTTATGTGAATCTGGGTAAAATCGAAGCGCGCCTTCCTGAAGGGGAGCAGATGCCTTCCGAAACCTATGAAGTTCACGATCGGTTGAAAGTGTTCGTGACGAAGGTGGAAAACAGTAACAAAGGGCCTCATATTTACGTATCCAGAACCCATCCGGGTCTTCTGAAGCGTTTGTTTGAAATGGAAGTACCTGAGATTTATGATGGCACTGTGGAAGTCATGAGTGTAGCCCGTGAAGCCGGGGACCGCTCTAAAATCTCTGTATACGCAGAAGATCAGGAAATTGACCCGGTCGGCTCCTGCGTAGGTCAGCGCGGCCAGCGTGTCCAAACCATCGTAAATGAATTAAAAGGTGAAAAGATTGATATTGTTCAGTGGTCAGAAGATCCTGTTGAATATGTGTCCAATGCGCTGAGCCCTTCCAAAGTCGTCGAGGTTCTTGTAGACGAGGAAGATAAGGCGACAACGGTCATCGTTCCTGATTATCAGCTTTCCCTGGCTATCGGAAAACGGGGTCAGAATGCCCGCCTGGCAGCTAAGCTGACGGGTTGGAAAATTGATATCAAGAGCGAAAGTGAAGCACGTGAACAAGGTCTGCTTTCTGAAACACCGGAAGATGAAAGTGATGACTTTGATGAAGATCTATTAGAGGATTAA	MSSELFDAMDYLEKEKGIDKNLLLEALEAALISAYKKNFNSATNVRVDINEEESTMRVLARKEIVEEVMDPQQEISLEEANGIDPNYDVEDVIEVEVTPMDFGRIAAQAAKQVVTQRVREAERGIIYGEYVDREEDIMTGIIQRKDPRFVYVNLGKIEARLPEGEQMPSETYEVHDRLKVFVTKVENSNKGPHIYVSRTHPGLLKRLFEMEVPEIYDGTVEVMSVAREAGDRSKISVYAEDQEIDPVGSCVGQRGQRVQTIVNELKGEKIDIVQWSEDPVEYVSNALSPSKVVEVLVDEEDKATTVIVPDYQLSLAIGKRGQNARLAAKLTGWKIDIKSESEAREQGLLSETPEDESDDFDEDLLED				NA	NA	NA	NA	NA
AK012_00388	276			hypothetical protein	ATGACCCGTTCCAAGAAACAGCCGCTTCGGAAATGTGTGGTAACACAGGAGATGCTTCCGAAGCAGCAGTTAATCCGAGTCGTCCGCAATAAAGACGGAGAGGTATTTGTGGACGACACTGGAAAGATGAATGGCCGTGGTGCCTATGTAACCAAGAGTCTTGATGTCATTGAGCAGGCAGAAAAACAGCAGCTGCTGAACCGTCATTTGAAGGCTTCTGTAAGCGAGGACGTGTATACGGACCTTAAATCCAAAGTTCAGGCTGACCCGTCATGA	MTRSKKQPLRKCVVTQEMLPKQQLIRVVRNKDGEVFVDDTGKMNGRGAYVTKSLDVIEQAEKQQLLNRHLKASVSEDVYTDLKSKVQADPS				NA	NA	NA	NA	NA
AK012_00389	315	rplGA	COG1358	putative ribosomal protein YlxQ	ATGAGCGGAAGCTATCTGAATTTGATCGGCCTTGCCGTCCGTGCCGGGAAGTGCACGTTTGGGGAAGAGTCCATCGTCAAGGACATCCGCAAGCGGAAAGCCAAGCTGGTTCTGATTGCCAATGATACTGGAAAACAAACAAAGAAAAAGCTGACAGATAAATGCAGCTTTTATCAAGTACCCTGCTACGAGGTGGATGACAGGGAAGTTCTGTCACAGGCCGTCGGGAAAGCAGGAAGAGTCGCGATCGCAGTTCTGGATCAAGGATTTGCGAAAAAGTTGCAATCGCTGCTCGATGAATCTATTCGGGGGTGA	MSGSYLNLIGLAVRAGKCTFGEESIVKDIRKRKAKLVLIANDTGKQTKKKLTDKCSFYQVPCYEVDDREVLSQAVGKAGRVAIAVLDQGFAKKLQSLLDESIRG				NA	NA	NA	NA	NA
AK012_00390	2058	infB		Translation initiation factor IF-2	ATGAGTAAAATGCGCGTATACGAATATGCCAAAAAGAATGAACTATCAAGTAAACAAGTGATTGAGAAACTCCAAAGCCTGAACATTGAAGTGAACAATCATATGTCTACATTAGAAGACGGATCGGCTGAAAAACTCGATAAAGCCTTTGGTAAATCTGCCGGCAAGCAGAAACAGGACAACAAGAGTGGAAACTCCAAGCCGAACAACAAAAAGCAGGGGAACCAAAAATCCCGCGGCAATAACCAGAGAAGACAAAAGCCTTCTTCCCAGCAGCAGGCTCCGAAAAAGCCGAAGAAACAGCTGCCTGAGAAAATCACTTTTGTCGGCAGTTTAACTGTCGGTGAACTGGCGGAAAAACTCGGCAAGGATTCTTCTGAAATCATTAAGAAGCTTATGTTCCTTGGCGTTATGGCAACAAAAAACCAGGAACTGGAGCCGGAATCCATTGAGCTGATCTGCGAAGAATTCGGTGTAGAAGTCGAAGAAGAAGTCGTGGTTGATGAAACTGATATCGAGAACATGACTTTCGATGACGAACCGGAAGATCTGCGTGAGCGCCCGGCAGTCGTAACAATCATGGGCCACGTCGACCACGGGAAAACGACACTTCTTGACCAGATCCGTAATACGAAGGTAACAGAAGGGGAAGCCGGCGGGATTACCCAGCACATTGGTGCCTATCAGATTGAAGAAAATGATAAGAAGATTACGTTCCTTGATACTCCTGGACACGCCGCTTTCACAAGCATGCGTTCCCGTGGTGCCCAGGTAACGGATATTGCCATCCTCGTAGTCGCAGCTGATGATGGTGTGATGCCGCAGACAAAAGAAGCGATCAGTCACGCCAAGGCAGCAGAAGTACCAATCATTGTTGCTGTCAACAAAATGGACAAAGAAGGTGCCAACCCGGACCGTGTCATGCAGGAGCTTATGGAATATGAGCTTATTTCTGAAGAATACGGCGGGGAAACGATTTTCGTTAAAATGTCCGCTGTTCAGGGAGAAGGAATTGATGAGCTTCTGGAAATGATTGTTCTCGTTTCTGAAATGGAAGAACTGAAAGCCAACCCTGAGCGTCACGCGTACGGAACTGTCATTGAAGCAGAGCTTGATAAAGGGCGCGGACCTGTCGCCACCCTGCTCGTTCAAAATGGTACACTGAACGTCAGCGATTCTGTTGTCGTAGGAAACACATGGGGCCGTGTAAGAGCGATGGTCAACGATATTGGACGCCGCGTGAAGACAGCTGGACCATCCACTCCTGTTGAAATCACCGGTTTGAACAACGTGCCGCAGGCTGGAGACCGTTTCCTTGTCTTCGATGACGAGAAGAAAGCCCGCTCCATTGGTGAAGCCCGTGCTCAAAAGCAGCTGGAAGTCAGCCGTGGTTCCAATGCTAAAGTAAGCCTTGACGATTTGTTCAACCAAATCAAGCAGGGCGAAGTGAAGGAAATCAACTTGATCCTTAAAGGAGATGTCCAGGGTTCTGTAGAAGCATTGGCCGGATCTCTTGAAAAGATCGAAGTGGAAGGCGTAAAGGTGAAGATCATCCACACGGGTGTCGGCGCGATCACAGAATCTGACGTGAATCTTGCCTCCGCTTCCAACGGAATCATCATTGGTTTCAATGTGCGTCCCGACGGGAATGCTAGAAAAGCAGCAGAATCTGAGGATGTAGAAATCCGTCTTCACAACATCATTTATAAAGTTATGGAAGAGATCGAATCAGCGATGAAAGGGATGCTTGACCCTGAATTCGAAGAGAAGATCATCGGTCAGGTTGAGGTTCGTGAAATCTTCAAAGTATCCAAAATCGGTACCATTGCCGGTTCTTATGTTACTGACGGTAAAGTCACCCGCAACTCCGGCATCCGTGTCATTCGTGACGGCGTCGTTATTTATGAAGGTGAAATTGATGCCCTGAAGCGTTATAAAGATGATGCGAAAGAAGTTGCACAGGGGTATGAGTGTGGAATTACCATCAAGAACTTCAATGACCTTAAAATCGGTGACATTATTGAACCGTATGAAATGCAGGAAATTGAGCGCAAATGA	MSKMRVYEYAKKNELSSKQVIEKLQSLNIEVNNHMSTLEDGSAEKLDKAFGKSAGKQKQDNKSGNSKPNNKKQGNQKSRGNNQRRQKPSSQQQAPKKPKKQLPEKITFVGSLTVGELAEKLGKDSSEIIKKLMFLGVMATKNQELEPESIELICEEFGVEVEEEVVVDETDIENMTFDDEPEDLRERPAVVTIMGHVDHGKTTLLDQIRNTKVTEGEAGGITQHIGAYQIEENDKKITFLDTPGHAAFTSMRSRGAQVTDIAILVVAADDGVMPQTKEAISHAKAAEVPIIVAVNKMDKEGANPDRVMQELMEYELISEEYGGETIFVKMSAVQGEGIDELLEMIVLVSEMEELKANPERHAYGTVIEAELDKGRGPVATLLVQNGTLNVSDSVVVGNTWGRVRAMVNDIGRRVKTAGPSTPVEITGLNNVPQAGDRFLVFDDEKKARSIGEARAQKQLEVSRGSNAKVSLDDLFNQIKQGEVKEINLILKGDVQGSVEALAGSLEKIEVEGVKVKIIHTGVGAITESDVNLASASNGIIIGFNVRPDGNARKAAESEDVEIRLHNIIYKVMEEIESAMKGMLDPEFEEKIIGQVEVREIFKVSKIGTIAGSYVTDGKVTRNSGIRVIRDGVVIYEGEIDALKRYKDDAKEVAQGYECGITIKNFNDLKIGDIIEPYEMQEIERK				NA	NA	NA	NA	NA
AK012_00391	279			hypothetical protein	ATGATAATAAGCGCAGAAGTGGATTGCTTAATCTATGATGCGCAGTCGTTGAAAAATAAGCGTGCTGTATTGAAAAGGATCAAAACGAGACTGCACAATGAATTCAATATCGCTGTCAGTGAGCTTGAGTTTCAAAACCTCTGGCAGCGTACACGTCTCGGACTGGTCACGATTGCCAGTGATAAAACAATCGCTGAGCAGACGATGCAGCAGGCGCTTACTTTCATCGATTCTTTTCCGGAAATTGAACGGACGGAAACACAGATTGAATGGCTGTGA	MIISAEVDCLIYDAQSLKNKRAVLKRIKTRLHNEFNIAVSELEFQNLWQRTRLGLVTIASDKTIAEQTMQQALTFIDSFPEIERTETQIEWL	PGPT0014535_808	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014535-ylxP-K09764	NA	NA
AK012_00392	351	rbfA		Ribosome-binding factor A	ATGAACGATTTACGTGCCAGCCGCGTTGGGGAGCAGATGAAAAAAGAGATGAGTGACATCATCAGCAAGAAAATCAAAGACCCCCGCGTAGGCTTTGTCACGGTTACCGAAGTGAAGGTAACTGGTGACCTGCAGCAGGCAAAAGTATATATTTCCGTATTAGGGGACGACAAACAAAAGCATGATACGCTTGTAGGCCTTGCCAAAGCGAAAGGGTTCATCCGCTCTGAAATCGGGCAGCGGATCCGACTCCGGAAGACCCCTGAGATTATGTTTGAGTTTGACGAAGCTGTTGAAAGAGGAAACCGTATTGAAACGATCCTCCGCGACCTTAACGATACGGAAAGCTGA	MNDLRASRVGEQMKKEMSDIISKKIKDPRVGFVTVTEVKVTGDLQQAKVYISVLGDDKQKHDTLVGLAKAKGFIRSEIGQRIRLRKTPEIMFEFDEAVERGNRIETILRDLNDTES				NA	NA	NA	NA	NA
AK012_00393	897	truB		tRNA pseudouridine synthase B	ATGGATGGAATTCTGCCATTGTGGAAGCCGAAAGGATTTACTTCCCACGATTGTGTAAGTAAGGCCCGCGGCATGCTGAAAACGAGGAAAATTGGACATACGGGGACACTGGATCCGGATGTAGAAGGGGTGCTCCCCCTGTGTGTCGGAAAAGCAACGAAAATCGTTCCTTTTCTGACCGACACAACGAAAGTCTATGAAGCCGTCGTTACCCTTGGTTATGCGACAGACACAGAAGATGCCTCTGGAAAGACTGTAGAAACAGGCAGGCTGAAGCAGCAGCCGGAAGTTCAGGACATTAAAGAAGTCCTCGCTGCTTTTACAGGAGAAATCACTCAGACGCCTCCGATGTATTCGGCCGTCAAGGTAGACGGAAAGAAACTGTACGAATATGCACGCGAAGGAAAGACGATTGAGCGCCCTTCCAGAAAGGTATACATAAGTGAACTGCATATGACTTCCTATGATGCGTCTCTTCAGGAGGGGACTTATTCATTCGGCATCCGCGTTGCCTGCTCAAAGGGTACGTACATCCGGACGCTCTGTGTGGATATAGGAAAAGCGCTCGGCTTTCCGGCTCATATGAAAAGCCTTATTCGCACGGAGACAGGGGATATTCATAAGGAGGACTGCTTCACTTTCGCTGCTGTTCAGGAAGCGGCAGATCAAAACCGTGCTGTCGACCTGCTGCTGCCGCTTTCTAAAGGGCTCTCTCACCTTCCGTCGATCAATGTAGACGAAGAAACGAGAGACATGGTGAAGCACGGCCGTGTACTTGATGCACCTCGTGATTTAACAGCCGACACATTTACGATCCAGCATGAACAGGAAGTGGCGGCTGTTTATCAAAAGCATCCTTCAAAGCCGGGATACATCAAGCCGGTGCGGGTATTTTAA	MDGILPLWKPKGFTSHDCVSKARGMLKTRKIGHTGTLDPDVEGVLPLCVGKATKIVPFLTDTTKVYEAVVTLGYATDTEDASGKTVETGRLKQQPEVQDIKEVLAAFTGEITQTPPMYSAVKVDGKKLYEYAREGKTIERPSRKVYISELHMTSYDASLQEGTYSFGIRVACSKGTYIRTLCVDIGKALGFPAHMKSLIRTETGDIHKEDCFTFAAVQEAADQNRAVDLLLPLSKGLSHLPSINVDEETRDMVKHGRVLDAPRDLTADTFTIQHEQEVAAVYQKHPSKPGYIKPVRVF				NA	NA	NA	NA	NA
AK012_00394	879			hypothetical protein	GTGGAGACCTTTTACTTAACTTATCAATCTGCTGATTTTCCGGTTCCCGATCCCAACGTAATGGCCGTCGGTTTTTTTGACGGTGTCCATAAAGGCCATCAAAAGGTTATAGAAACAGCGGTGAGCGAAGCTGAACGTACGGGGGTGAGCAGCTCCGTCATGACGTTTGATCCTCATCCTTCTGTCGTCCTGGGAAAGGGACGTCCGCATGTTTCCTACATTACACCTGTTCAGGAAAAGGAACGGATCTTAAGCGGTATGGGGGTGGACTATCTGTTCATTGTAACCTTCGATAAGGAACTGGCAGCCCTTTCTCCGCAGGATTTTGTGGAACATTTCTTTGTTTCGCTGCGGGTGACTCACGTGGCAGCCGGATTTGATTTTACATTCGGCCACAAAGGAAAGGGGACGATGAATGACCTCCCTCATTACGCTAAAGGACGTTTTACCCAGACTACGGTAGCCAAAGTTGAGAAGGATACGGAAAAAGTCAGTTCGACGAGGATTCGGAAACTGTTGGAAACAGGAAACATCATGGAGGTCAACCGTCTTCTGGGAAGACCTTTTTCCGTAGAGGGGGAAGTGGACGGGCCGGACAGCAGCCGGAAGATTCGTTTTTTCCCTTCTGACGAGTATCTGTTTCCACCTGCAGGGGTTTATTACAGTAAAATCTTTATTCAAGGGAAACCTTTGTCCGCCGCTGTGACTATTTCAGAGCGCGGAAGCGGAAGGGAACATCATGTGTGCTGGACGGCCGCTGTTCTTAGTGAGCTTCCCATAGAACCAAAGACAGCGGCTTGTGTACAATTTCTGGCCGGGGCTGAAGGGCCGGATGAGGACGGAGAAGAGCATATCCAAAGATTTTTCGGCTTAGAATAA	METFYLTYQSADFPVPDPNVMAVGFFDGVHKGHQKVIETAVSEAERTGVSSSVMTFDPHPSVVLGKGRPHVSYITPVQEKERILSGMGVDYLFIVTFDKELAALSPQDFVEHFFVSLRVTHVAAGFDFTFGHKGKGTMNDLPHYAKGRFTQTTVAKVEKDTEKVSSTRIRKLLETGNIMEVNRLLGRPFSVEGEVDGPDSSRKIRFFPSDEYLFPPAGVYYSKIFIQGKPLSAAVTISERGSGREHHVCWTAAVLSELPIEPKTAACVQFLAGAEGPDEDGEEHIQRFFGLE	PGPT0008625_4127	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
AK012_00395	270	rpsO	COG0184	30S ribosomal protein S15	ATGGCTATCACACAGGAACGTAAACAAGAACTAATCAATGAGTACAAAACTCACGAAAACGACACAGGTTCTCCAGAGGTACAGATTGCTGTACTTACTGAGCAGATCACGACATTGAACGAGCACCTGCGCGCTCATAAGCAGGACCACCACTCCCGTCGCGGACTGCTTAAAATGGTAGGTAAGCGTCGTAACCTATTGAACTACCTTCGTAATAAGGACATTACACGTTACCGCGAGTTAATCAAGAGCCTTGGCTTGCGCCGTTAA	MAITQERKQELINEYKTHENDTGSPEVQIAVLTEQITTLNEHLRAHKQDHHSRRGLLKMVGKRRNLLNYLRNKDITRYRELIKSLGLRR				NA	NA	NA	NA	NA
AK012_00396	2127	pnp_1	COG1185	Polyribonucleotide nucleotidyltransferase	ATGGCAGAAGAAAAACAAGTGTTTTCGATTGATGTCGCCGGCCGTACTTTTTCAGTAGAGATTGGAGAACTGGCGAAACAAGCGAATGGCGCAGCACTCATCCATTATGGTGATACAACGGTGCTTTCTACGGCAACAGGTTCTAAAGAGCCGAAAGACCTGCCGTTTTTCCCTTTAACCGTAAATTATGAAGAGCGTTTATATGCCGTTGGTAAAATTCCAGGCGGCTTTATTAAAAGAGAAGGACGTCCAAGTGACAAGGCAGTTCTTGCCTCCCGCTTGATTGACCGTCCAATCCGTCCGTTATTCCCTGACGGTTACCGAAATGATGTACAGGTGATCAGCTCCGTGATGAGTGTGGATCAGGATTGTTCATCCGAAATGGCCGCTATGCTCGGTTCGTCCATTTCCCTTGGAATTTCAGATATTCCATTTGAAGGCCCGATTGCCGGTGTCATTGTCGGCCGTGTCGACGGTGAATATGTGATCAACCCGACGGTGGAGCAGCAGGAGAAAAGTGATATCGACTTGACTGTTGCCGGTACGAAAGATGCCATCAACATGGTGGAAGCGGGAGCGCAGGAAGTTTCCGAGGAAGACATGCTCGAAGCCATCATGTTCGGACATGAGGAAATCAAACGTCTTGTAGCCTTCCAGGAAGAGATCGTGGCAGCAGCAGGCCGTGAAAAGATGGAAGTGCAGCTGTTCGATCTTGATGCAGAACTGAAAGCAAAAGTAGAAGAACAGGCGTCAGATGCTCTTGTTGATGCAATTAAAACAGAAGAGAAGAAAGCCCGTGAAGCTGCTATTGATCAGGTGAAATCCGACATTACAGCGCTGTATGAAGAGCAGGAAGCCGATGAAGAAACCCTCAAGCAGGTTGGTTCCATTCTGGACGATATGGTGAAGACAGAAGTGCGCCGCCTGATTACAAAGGATAAAATCCGCCCGGATGGCCGCGGCGTCGATGAAATCCGTTCATTGTCCTCACGTGTAGGACTCCTGCCGCGTACGCATGGATCCGGATTGTTCACACGTGGACAGACACAGGCGTTGAGCGTGTGTACACTAGGTGCTCTTGGAGATGTACAGATTCTTGATGGACTTGACCTCGAAGAATCCAAGCGTTTCATGCACCACTACAACTTCCCTAAATTCTCTGTCGGGGAAACAGGCCCGATCCGCGGACCTGGACGTCGTGAAATCGGACACGGAGCTCTTGGTGAACGTGCCTTGGAAGTTGTTATTCCATCAGAAAATGATTTCCCTTACACGATCCGTCTCGTATCTGAAGTGCTGGAATCCAACGGTTCCACTTCCCAGGCGAGTATCTGCGCAAGTACGCTGGCTATGATGGATGCAGGTGTACCGATTAAAGCCCCGGTGGCCGGTATCGCTATGGGACTTGTAAAATCCGGAGAAGATTATACAATCCTTACAGATATTCAGGGAATGGAAGATGCTCTTGGAGATATGGACTTTAAAGTAGCTGGTACAGCTAAAGGTGTAACGGCGCTGCAGATGGACATTAAGATCGATGGCCTTTCACGCGAAATTCTTGAGGAAGCACTTGCCCAGGCGAAAAAAGGCCGCATGGAAATCCTTGAGTCTATGCTGGCCACTCTTCCTGAAACTCGTTCTGAGCTTTCTCAGCATGCACCGAAAATCATGACAATGAAAATTAATCCTGATAAAATCCGTGACGTCATTGGACCAAGCGGAAAGCAGATTAACCAGATCATTGATGATACAGGTGTTAAAATCGATATTGAGCAGGATGGTACCGTATTTATTTCATCCACGGATGCCGGCATGAATGCAGCCGCTCAAAAAATCATTGAAGACATCGTCCGTGAAGTTGAAGTCGGCGAAGTTTACAATGGAAAAGTGAAGCGTATTGAGAAGTTCGGCGCATTTGTTGAATTATTCAAAGGCAAAGAAGGACTCGTGCACATTTCCGAAATGGCTGAAGAACGTATTGGTAAAGTAGAGGATATCGTATCCATCGGAGACTTTATCAAAGTAAAAGTAAAAGAGATCGACAATCAAGGGCGAATCAATTTGTCCCGTAAAGCTGTTCTGATTGATGAGAAAAAAGAACAGGAATCCAATGTCGAACAATCCTAA	MAEEKQVFSIDVAGRTFSVEIGELAKQANGAALIHYGDTTVLSTATGSKEPKDLPFFPLTVNYEERLYAVGKIPGGFIKREGRPSDKAVLASRLIDRPIRPLFPDGYRNDVQVISSVMSVDQDCSSEMAAMLGSSISLGISDIPFEGPIAGVIVGRVDGEYVINPTVEQQEKSDIDLTVAGTKDAINMVEAGAQEVSEEDMLEAIMFGHEEIKRLVAFQEEIVAAAGREKMEVQLFDLDAELKAKVEEQASDALVDAIKTEEKKAREAAIDQVKSDITALYEEQEADEETLKQVGSILDDMVKTEVRRLITKDKIRPDGRGVDEIRSLSSRVGLLPRTHGSGLFTRGQTQALSVCTLGALGDVQILDGLDLEESKRFMHHYNFPKFSVGETGPIRGPGRREIGHGALGERALEVVIPSENDFPYTIRLVSEVLESNGSTSQASICASTLAMMDAGVPIKAPVAGIAMGLVKSGEDYTILTDIQGMEDALGDMDFKVAGTAKGVTALQMDIKIDGLSREILEEALAQAKKGRMEILESMLATLPETRSELSQHAPKIMTMKINPDKIRDVIGPSGKQINQIIDDTGVKIDIEQDGTVFISSTDAGMNAAAQKIIEDIVREVEVGEVYNGKVKRIEKFGAFVELFKGKEGLVHISEMAEERIGKVEDIVSIGDFIKVKVKEIDNQGRINLSRKAVLIDEKKEQESNVEQS				NA	NA	NA	NA	NA
AK012_00397	921			hypothetical protein	ATGAAATTCCGAACCGCTGCGGCTTGTATAATTATCCTTTCCTTTTTAACGGGTGTGGGACTTGCTGTTCTTACGACGGAAAAAGACGTACCTGTTTATAAGGAAAGCTCCCTTTATCAGAAAATCCTGAATGAAAAAGACAAACATGAGTTGAAGGCTGAGGATGCTGTTATTGATTCGGTCTGGAAAAAAACGCCGGGGATTTCCGGGCGTGAGGTAGACGTGGAGGCTTCATATAAAAAGATGAAAGAAGATGGAACCTATAAAGAAGAACATTTAGTGTATAAAATGACAAGGCCGGATGTGTCCCTTGAAGACCTGCCGCCGGCACCGGTTTACAGGGGACATCCGGACAAAAAAGCCGTTTCCCTTTTAATCAATGTATCGTGGGGCGAGGCGTATATTCCTGAAATGGTTGATCTGCTCAATAAACACCAGGCGAAAGCGGCCTTTTTTATTGATGGAGCTTTTGCAGATGAGTTTCCTCATTTAATCCAGATGATTGAAGAGGAGGGCCACACCATTGGAAGTCATGGGTATGGCCATAAGGATATGGGAAGAATGTCTAAAGCCGAAGCAGCTGATAACTTAAAACAGGCCGATGATATTCTCTTTGCCTTAACGAAACAGAAGATTGAATATTTTGCTCCTCCGTCCGGCAGCTTTCACATGGAAACCGTGGAGGCGGCAGATGATCTCGGAATGGAAACGATTCTGTGGACCGTGGATACGATCGACTGGCAGAAGCCTTCTAAAGACGTCCTTATCAACCGGGTGCTGAACAAAGTACATAACGGGGCAACGGTTCTGATGCACCCTACACAGGTGACCGTCGACAGTCTGCCGCAGCTGATTGAAGGGATCCGCAAAAAGGGACTGCAGATCTCTGACCTGCCGAAGATGTTAAGTGAAGAAAGATAG	MKFRTAAACIIILSFLTGVGLAVLTTEKDVPVYKESSLYQKILNEKDKHELKAEDAVIDSVWKKTPGISGREVDVEASYKKMKEDGTYKEEHLVYKMTRPDVSLEDLPPAPVYRGHPDKKAVSLLINVSWGEAYIPEMVDLLNKHQAKAAFFIDGAFADEFPHLIQMIEEEGHTIGSHGYGHKDMGRMSKAEAADNLKQADDILFALTKQKIEYFAPPSGSFHMETVEAADDLGMETILWTVDTIDWQKPSKDVLINRVLNKVHNGATVLMHPTQVTVDSLPQLIEGIRKKGLQISDLPKMLSEER	PGPT0018645_1438	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK012_00398	234			hypothetical protein	ATGAGAATGAAAGCTATGGCAAAGAAAGAAGTCATTGATGTGGAAAATGGAGAAAAACTGGGGGTTTTAGGCCGGGCGGATTTGATCATTGACCCGGATTCCGGTCGGATCATTTCACTGGTCATTTTAAATCACGGTTTAATTGGGATAGGGTCTTCCAACAAGGAATTGACGATCGATTGGGAACAGATTCAAACCATCGGCGAGCATACCATTCTATTGAAAAGGAAGTGA	MRMKAMAKKEVIDVENGEKLGVLGRADLIIDPDSGRIISLVILNHGLIGIGSSNKELTIDWEQIQTIGEHTILLKRK				NA	NA	NA	NA	NA
AK012_00399	897	dpaA		Dipicolinate synthase subunit A	ATGCTAACAGGATACCGTATAGCAGTTATTGGGGGCGATGCCCGGCAGATTGAGCTTATACGTAAGCTTAATGAATGGGGTGCTGCCGTTTACCTTGCAGGATTCGACCAACTGAATGAAAGTTTCAGGGAAGCTGTCGATCTTGATTTTGATAGTAAGCAGGTGGAACAGCTCGATGCCATCATACTTCCCGTACCTGGAACGGATGGGAATGGAAATATAGAGGGAATCTTCTCCAATCAGTTGATTCAATTGAAGGAAGAATGGTTAAAGAAGACACCTCCTCACTGTCAGATTTTTACCGGAATCGCCAACGAGCATTTACATGATCTTGCAGAACGTTCGAACAGGAAATTGATTCCTCTTATGGACCGGGATGATGTAGCGATCTACAATTCGATTCCTACCGTTGAAGGAACATTGATGCTCGTTATCCAGCATACAGATTTCACCATTCATGGGTCGAAGGTGACTGTACTTGGACTCGGGCGTGTAGGGATGAGTCTCGCACGGACCTTTCATCATTTAGGTGCAGATGTCAGCGTTGGGGTAAGAACAACGAGCAGTGCAGCCAGGGTCCATGAAATGGGGCTGGTCCCATTTGACATGAACCGTCTGGATGGCAGAGATATGACTTGTGACATCCTGATCAATACAATTCCTTCCCAGGTTGTCACACCCGGGATCATTAAGCAGCTTCCGTCGCATGCTTTAATTTTAGATCTTGCTTCCAAGCCGGGCGGAACGGATTTCCGGTACGCCGATAAACGTGGAATTCGAGCACTGCTGGCTCCGGGGCTGCCCGGCATTGTGGCACCGAAAACAGCTGGCCGGATCATTGCTGATGTAGTTTCCAGACTGATCCAGGATCATTCCAGAAAGGAAAATGAAGCATGA	MLTGYRIAVIGGDARQIELIRKLNEWGAAVYLAGFDQLNESFREAVDLDFDSKQVEQLDAIILPVPGTDGNGNIEGIFSNQLIQLKEEWLKKTPPHCQIFTGIANEHLHDLAERSNRKLIPLMDRDDVAIYNSIPTVEGTLMLVIQHTDFTIHGSKVTVLGLGRVGMSLARTFHHLGADVSVGVRTTSSAARVHEMGLVPFDMNRLDGRDMTCDILINTIPSQVVTPGIIKQLPSHALILDLASKPGGTDFRYADKRGIRALLAPGLPGIVAPKTAGRIIADVVSRLIQDHSRKENEA				NA	NA	NA	NA	NA
AK012_00400	597	dpaB	COG0452	Dipicolinate synthase subunit B	ATGACAAATTTAAAAGGCAGAGTAATTGGGTTCGGTTTAACCGGTTCCCATTGTACGTATCATGAGGTTTTCCCGGTGATGCAGGAACTGGTGGATATGGGGGCGGTCGTTGTGCCGGTATTGTCCTATACGGTACAGAAAACAGATACTCGTTTCGGAGAAGCCGCCGACCACTTGAAGAAAATTGAAGAAATTACTGGTGAAAAGCCGATCATGACTATTCCGGATGCGGAGCCTCTCGGACCTAAGCGGCCGCTGGACTGTATGGTCATCGCTCCATTGACAGGAAATTCAACAAGTAAGCTGGCCAACGCTTTAACGGACTCCCCGGTTTTGATGGCGGCTAAAGCGACCCTTCGAAACGAAAGCCCCGTGGTGTTAGCTGTTTCTACAAACGATGCGCTTGGATTGAATGGGATTAATGTAATGCGATTAATGGCTGCAAAGAACATCTATTTTGTTCCGCTTGGTCAGGACCACCCTTATAAAAAGCCGAACTCTCTTGTAGCCGATATGACAAGAATCCCGCAAACCATTGAAGCAGCCCTGGAAGGAAAGCAGCTTCAGCCGGTTTTAATTGAAAGATATCCAAATTAA	MTNLKGRVIGFGLTGSHCTYHEVFPVMQELVDMGAVVVPVLSYTVQKTDTRFGEAADHLKKIEEITGEKPIMTIPDAEPLGPKRPLDCMVIAPLTGNSTSKLANALTDSPVLMAAKATLRNESPVVLAVSTNDALGLNGINVMRLMAAKNIYFVPLGQDHPYKKPNSLVADMTRIPQTIEAALEGKQLQPVLIERYPN				NA	NA	NA	NA	NA
AK012_00401	1047	asd	COG0136	Aspartate-semialdehyde dehydrogenase	ATGAATGATACAAACCAATACAATGTAGCCGTCGTAGGAGCAACCGGAGCGGTAGGCTTGAAAATGCTCGAAACTCTGGAAGACAGGGATTTTCCCATTGGAGAACTCAAACTCCTTTCTTCCAGCCGGTCTGCCGGACAGAAGTTAACATTTAAAGGCAGAGAATATATCGTGGAGGAAGCTGTACCTGAAAGCTTTGATCATGTGGATATTGCATTATTCTCCGCTGGAGGATCGGTTTCCAAGAAATTCGCCCCTGAAGCTGTAAACCGAGGCGCCGTCGTAATTGATAATACAAGTGCGTACCGGATGGCTGAAGGTGTACCACTGGTTGTACCGGAAGTGAATGAAGCGGATATCCAAAATCATAAAGGGATCATTGCCAACCCGAACTGTTCGACGATTCAAATGGTTGCTGCACTGGAACCGGTGAGAAAGCAGCTCGGCCTCAGTCGTGTGATCGTTTCCACCTACCAGGCGGTATCCGGTGCGGGGAATGAAGCAGCTGATGAGCTGCGGGAACAGTCCATGGACTTTTTGAATGGCGAAGATTTAAAAGCGGAAATCCTTCCCGTCAAAGGGGATGAGAAGCATTTCCCGATCGCCTTCAACGCCCTGCCGCAAATTGACGTTTTCCAGGAAAACGGATATACCTTTGAAGAAATGAAGATGATTAATGAAACGAAGAAAATCATGCACGCCCCGGATCTATCCGTTGCTGCAACGTGCGTGCGTCTTCCGTTCTTTACTTCCCATGCGGAGAGCGTGTATGTTGAAGTGGAGCAGTCCGGTGTGACCGTTCAGACTATTCAGGATCTTCTGGATCAGGCGCCGGGGCTGACACTTGAGGATGATCCATCAACACAAACATATCCGACACCGCTGACGGCAGCCGGTAAGAAAGATGTGTTTGTAGGAAGAGTCCGCAAAGATCTTGACCATGAAAAAGGATTTCATATGTGGGTCGTCTCTGACAACCTTCTGAAGGGTGCCGCATGGAATTCCGTTCAGATAGCAGAGCGTCTTGTTGCTAATCAATGGCTGTAA	MNDTNQYNVAVVGATGAVGLKMLETLEDRDFPIGELKLLSSSRSAGQKLTFKGREYIVEEAVPESFDHVDIALFSAGGSVSKKFAPEAVNRGAVVIDNTSAYRMAEGVPLVVPEVNEADIQNHKGIIANPNCSTIQMVAALEPVRKQLGLSRVIVSTYQAVSGAGNEAADELREQSMDFLNGEDLKAEILPVKGDEKHFPIAFNALPQIDVFQENGYTFEEMKMINETKKIMHAPDLSVAATCVRLPFFTSHAESVYVEVEQSGVTVQTIQDLLDQAPGLTLEDDPSTQTYPTPLTAAGKKDVFVGRVRKDLDHEKGFHMWVVSDNLLKGAAWNSVQIAERLVANQWL	PGPT0014045_2662	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014045-asd-K00133	NA	NA
AK012_00402	1242		COG0527	Aspartate kinase	ATGAAAGTGATTGTACAAAAGTTCGGAGGAACATCAGTCCGGGATCTCGAAAGCAGATCCCGGGCTGTCCATCATGTAAAAAAAGCACTGAATGAAGGATACAAAGTAGTTGTTACAGTATCTGCCATGGGGCGGAAGGGAAGTCCCTACGCGACGGATACGCTGTTAAGTCTGATTCATTTTCCTGATATTGATGTATCCCTGAGGGAGCAGGATCTTCTCATGTCGTGCGGGGAAATCATTTCCTCCATTGTTTTCTGTCATGAATTGTGCCGGGAAGGAATAAAAGCCGTGTCATTAACGGGGGCTCAGGCCGGAATTGTTACCAATGATGATTTTACAAAAGCGAAAATCACACAAATGAACCCAGGCCGCATTTACCGGGAGTTGAAACAGGTGGATGTCGTCGTCGTTGCAGGATTTCAGGGGCAGACCCTCCAGGGAGAGATCACGACCATCGGCAGAGGAGGCAGTGATACAACAGCTGCTGCACTGGGAGCTTCTCTACAGACAGAATACATTGATATTTTCACGGATGTGGAAGGCATTATGACCGCAGATCCCCGGCTTGTCGAAGATGCCCGTCCTCTTCAAAGTATTACGTACAACGAAATCTGTAACCTCGCTTACCAGGGAGCTAAAGTCATCCATCCCCGTGCCGTTGAAATTGCTATGCATGCGAAAGTCCCCATCCGGGTAAGGTCAACCTATTCCGATCACCCAGGTACGCTCGTGACAGGTTTGAAAAATCATTCGTCCGGCAGCGACTTAATCGAAAAGACTGTGACCGGAATCGCCCACATTAAAGGGCTCACTCAGATCAAGGTTCAGTCCAAAGAAGATCCTTCCAAACTCCAATCCGATGTCTTCAAATCCATGGCATCCGCCAACATATCAGTCGACTTCATCAACATCTCTCCAAGCGGTGTTATCTACACCATCAGCGACCTCTATACGAACAAAGCCCGCCGGATTCTTCAGGACCTCGGTTATGAACCGGAAATCCGGGAAGGATGCGCGAAAGTGTCAACAGTTGGGGCCGGAATCACCGGAATACCGGGTGTGACGGCCGACATCGTTCAGGCACTCACAGACAAGGGCATTTCAATTCTTCAATCTGCCGATTCCCATACGACCATCTGGGTTCTGATTAAGGAAGAAAATCTTATATCTGCTGTCAATGCCCTCCATGACGTATTTCAGCTGAGTCATTCAACAAGAAAGGGAGAAATGCAGCCATGA	MKVIVQKFGGTSVRDLESRSRAVHHVKKALNEGYKVVVTVSAMGRKGSPYATDTLLSLIHFPDIDVSLREQDLLMSCGEIISSIVFCHELCREGIKAVSLTGAQAGIVTNDDFTKAKITQMNPGRIYRELKQVDVVVVAGFQGQTLQGEITTIGRGGSDTTAAALGASLQTEYIDIFTDVEGIMTADPRLVEDARPLQSITYNEICNLAYQGAKVIHPRAVEIAMHAKVPIRVRSTYSDHPGTLVTGLKNHSSGSDLIEKTVTGIAHIKGLTQIKVQSKEDPSKLQSDVFKSMASANISVDFINISPSGVIYTISDLYTNKARRILQDLGYEPEIREGCAKVSTVGAGITGIPGVTADIVQALTDKGISILQSADSHTTIWVLIKEENLISAVNALHDVFQLSHSTRKGEMQP	PGPT0014040_4392	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
AK012_00403	882	dapA_1	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAGTTTTGGAAAAGTTTTAACGGCTATGGTCACTCCTTTTGATGATCAAAACAAGGTGGACTTTGATCAGACCTCCATCCTGATTGAACATCTCCTAAGCAGTGGTTCTGACGGTCTTGTTATTACGGGGACGACAGGAGAATCTCCGACGCTGACACGGAGTGAAAAGATTTCCTTATGGAAACATGCCGTTCAGACCGTTCATCAACGGGTCCCCGTCATTGCCGGCACAGGCAGCAACAATACCAGTGATACCATTGAAATGTCCCGGCAGGCAGAGGCGGCAGGCGTTGATGCGGTCATGCTTGTTGCCCCTTATTATAATAAACCAGATCAGGAGGGCCTGTACCGGCACTTTAAGGCTGCAGCGGAATCCGTATCCCTCCCTGTCATGATTTACAATGTCCCCGGACGATCCGCAACGAAAATAGAGCCGGAAACGGTCATCCGCCTTTCGAAAATCAGCAACATCACGTCTGTGAAGGAAGCCTCCGGGGACATTAATGCCATCGCATCGATTGTGGCACACACGGATTCGGAATTTTCGGTGTACAGCGGGGATGACCATTTAACACTGCCCGCTTATGTCATCGGCGCTGCCGGTATCATTTCGGTAGCCTCCCATGTGATCGGAGATGAAATGCAGAGGATGCTCCGCCTGTTTGATCTTGGAAGAGGTCGGAAAGCAGGGGCCCTGCATCGGGAGCTGCTTCCTATATATGAGGGGATGTTTTCAGCGCCATCTCCGGCTCCAGTGAAAGAAGCGCTGCGCTGTATTGGAATCGAAACGGGTGGGGTGAGACTTCCGCTCCGTGCGTTGAATAAGGAGGAAAAGGAAAAGATCAGATCCCTGTTACATCATTCTTCCGTACAGAACTGA	MSFGKVLTAMVTPFDDQNKVDFDQTSILIEHLLSSGSDGLVITGTTGESPTLTRSEKISLWKHAVQTVHQRVPVIAGTGSNNTSDTIEMSRQAEAAGVDAVMLVAPYYNKPDQEGLYRHFKAAAESVSLPVMIYNVPGRSATKIEPETVIRLSKISNITSVKEASGDINAIASIVAHTDSEFSVYSGDDHLTLPAYVIGAAGIISVASHVIGDEMQRMLRLFDLGRGRKAGALHRELLPIYEGMFSAPSPAPVKEALRCIGIETGGVRLPLRALNKEEKEKIRSLLHHSSVQN	PGPT0002080_8537	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
AK012_00404	723	tepA	COG0740	Translocation-enhancing protein TepA	ATGAAAGATGAACCTTCCAAAGAAAAAGATCAATCCAAATCCCAATCATCCCTTGTTGATAAAATCCAGCAGCTGGGGCAGAGCAATGTCCCCCAGCCGGCGGATTCAAATATCCATGTCCTGCCGATTATCGGCCAGGTGGAGGGCCATGTCCAGCTGCCTTCACAAAATAAAACCACCAAGTATGAGCATCTCATTCCACAGCTGATCGCGATTGAGCAGAATCCTAAAATCGAGGGCCTTGTCGTTCTTCTGAATACAGTTGGCGGTGATGTTGAAGCAGGACTTGCCATATCAGAAATGATTTCTTCCCTTTCCAAGCCGACAGTTTCCATCGTACTCGGCGGAGGGCATTCCATCGGCGTGCCGATATCCGTCGCAGCCGATTATTCGTTCATTGTGGAAACGGCGACGATGACTATTCATCCTATTCGTATGACCGGTCTTGTCATAGGGGTGCCGCAGACATTTGAGTATATGGATAAAATGCAGGAGCGGGTCATCAGCTTCGTGACGAAGCATTCCAATATTCCTGAAGAAAAGTTTAAGGAGCTCATGTTTGACAAGGGAAATCTGACGAGGGATATCGGAACAAATGTTGTCGGGCAGCAGGCCGTGGATCACGGCCTCATTGACGCGGTTGGTGGTGTCAAGGAAGCCATGGCTAAATTGAACGAACTGATAGAAAGCAATAGAGATGCAGACAACCAGGTGGTCCAATGA	MKDEPSKEKDQSKSQSSLVDKIQQLGQSNVPQPADSNIHVLPIIGQVEGHVQLPSQNKTTKYEHLIPQLIAIEQNPKIEGLVVLLNTVGGDVEAGLAISEMISSLSKPTVSIVLGGGHSIGVPISVAADYSFIVETATMTIHPIRMTGLVIGVPQTFEYMDKMQERVISFVTKHSNIPEEKFKELMFDKGNLTRDIGTNVVGQQAVDHGLIDAVGGVKEAMAKLNELIESNRDADNQVVQ	PGPT0014595_944	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK012_00405	207			hypothetical protein	ATGACGATTTTATATACACCTCTTAGTGAGTATGATGTATTTCCCGATGATACCAGCATGGAGATGGTTTACCATGAGCATGATAACTGTCCTATGATGTGCAGACAGGGGCAGGACGGAAAAAAACAGATTGTTCAGATACTCTCTACAGATCCTATGCATTTCCTGGATCCGTCTTTACAGCCGGGACAATGGTTGGACTCGTAA	MTILYTPLSEYDVFPDDTSMEMVYHEHDNCPMMCRQGQDGKKQIVQILSTDPMHFLDPSLQPGQWLDS				NA	NA	NA	NA	NA
AK012_00406	2310	spoIIIE	COG1674	DNA translocase SpoIIIE	ATGGCTGGAAAACGCAAAAAAAAGAAAAAGCCATCCAATTTAAAGAGCCACGTGAAGTTTGAACTCGTCGGGCTCCTGTTTCTTTTTCTTGCTGTGATTGGAAGCGGGGCATCGGCTATCAGTGACGGAGCCATCCCGGGAGGACTTGAAAGGTTCTGGCAGTTCCTTTTCGGTGTTTGGTATTTTATCGCTTCTCTGTTCTTTCTTATTGTAGGGATCTTCTTAATGGTGAAAAGAAGGTGGCCTTCGTTCTTACATAAACGATTGTTTGGTATTTATCTCATTCTTATATCCTTGATCCTGTTCACTCATCTGGAGACCTTGTCTGCGGATTTAGGAACAGGTAACGGCTCCATTTTAACGATGACATGGGAACGGATTACGGAAATGATGCGCGGCGAACGCTCCTTCTACAGCGCCGGAGGCGGATTGACTGGAGCCATCCTGCTGTCGATCACCTATTACCTGTTTGCTCAGGCAGGAGCTGCCATCGTCGCTTTTTTCCTGTTTATCACCGGACTGTTGTTCGTAAGCGAATGGTCGCTTGGTGAATTGTTTGCCATCATCGGAAAGAACATGAAAAAACTCGGCCGTGAGCAGGTGGCAAGAATGAAAAATCAAAAACAGAGCCGTAAAGTGAAAAAAGAAGAAAAGACGAAAGAACGGGAAGAAGAAGCTGTTGTATATGAACTCAATGATCCGCCATCCCCAGTGGAGGAGGAATCGAAGAATGAACCGATCATTCAGGATTTCACAGAAACCGCTTATGCCTCACAGGAAAAAGAGGAACCAGCCTCAACGAAGCCATCTGCCGGGAAAGCGGAACCTGAGGGAGACGATGCAGCGCTTGAAAAGTCCATGCCTACGGCAGAGCTTGAGAACCATGATTATCACCTTCCTGGTATAGAGCTGCTGGATGAACCCACCTCTTCCCCGCAGAGTCAGGGACGTTCTCATATTCAGGCTACCGTAAGAAAGCTGGAGAAAACGTTCCAAAGCTTCGGGGTAAAGGCGAAAGTAACCAAAGTTCACGTCGGACCATCGGTTACAAAGTATGAAGTTTATCCGGATGTAGGTGTGAAAGTCAGTAAAATCGTAAATTTAAACGATGATTTGGCGTTGGCTCTTGCAGCTAAGGATATTCGAATCGAAGCACCGATTCCCGGAAAGTCTGCGGTTGGAATTGAAGTACCGAACCAGGAAGTATCGATGGTTTCTCTAAGAGAAGTACTTGAAACAGGCAGATCCAACCCGGAATCGAAGCTGAGCTTTGCTCTTGGGCGGGACATATCCGGTGAAGCCGTTATGTCTGAATTGAATAAAATGCCGCACATGCTTGTCGCCGGTGCGACAGGAAGTGGTAAGAGTGTCTGCATTAACGGCATTATTACCAGTATTCTTATGAGAGCGAAGCCCCATGAAGTAAAAATGATGATGATAGACCCGAAAAAAGTAGAGTTGAATGTGTATAATGGCATTCCTCATCTTCTTGCTCCTGTTGTGACAGATCCTAAAAAAGCTTCCCGGGCCTTGAAGAAGGTTGTCTCGGAAATGGAGCGGAGGTATGATCTTTTTTCTGACACGGGCACGAGGAATATCGAAAGCTATAACGAATACATTAAAAAGCACAATCAGGAACAGGAGGATGAACAGCCTCAGCTTCCCTACATTGTTGTGCTGGTGGATGAGCTGGCTGATTTAATGATGGTCGCTTCCAATGAAGTGGAAGATGCCATTACACGCCTGGCCCAGATGGCCCGTGCCGCTGGGATCCACTTGATCATTGCCACTCAGCGTCCTTCTGTTGATGTTATTACGGGTGTTATTAAAGCCAACATACCATCACGGATTGCCTTTAGTGTCTCTTCACAGACAGATTCAAGGACAATTCTCGATTCGGGAGGTGCGGAAAAGCTGCTCGGTCGAGGAGATATGCTGTTTACCCCGGTCGGTTCCAACAAGCCCACCCGGGTGCAGGGCGCCTTTTTATCTGATGAAGAAGTGGAACGTGTCGTCCAGTTCTGTGTAGATCAACAGAAAGCCCAGTATCAGGAGGAAATGATTCCGGAAGAGGAAAGTGAAGTGAAACAGGAAGTCGATGATGACCTTTACCCGGAAGCGGTTCAAATGGTCATAGAAATGCAGAGTGCGAGTGTGTCCATGCTTCAGCGCCGGTTCCGGGTCGGATATACCCGCGCCGCGCGTCTGATTGATGCCATGGAGGATAACGGGATTGTCGGCCCTTATGAGGGAAGTAAACCGCGTTCTGTGCTGGTATCTCAGCAGAGTGAAGAACAGCATACTTCATAA	MAGKRKKKKKPSNLKSHVKFELVGLLFLFLAVIGSGASAISDGAIPGGLERFWQFLFGVWYFIASLFFLIVGIFLMVKRRWPSFLHKRLFGIYLILISLILFTHLETLSADLGTGNGSILTMTWERITEMMRGERSFYSAGGGLTGAILLSITYYLFAQAGAAIVAFFLFITGLLFVSEWSLGELFAIIGKNMKKLGREQVARMKNQKQSRKVKKEEKTKEREEEAVVYELNDPPSPVEEESKNEPIIQDFTETAYASQEKEEPASTKPSAGKAEPEGDDAALEKSMPTAELENHDYHLPGIELLDEPTSSPQSQGRSHIQATVRKLEKTFQSFGVKAKVTKVHVGPSVTKYEVYPDVGVKVSKIVNLNDDLALALAAKDIRIEAPIPGKSAVGIEVPNQEVSMVSLREVLETGRSNPESKLSFALGRDISGEAVMSELNKMPHMLVAGATGSGKSVCINGIITSILMRAKPHEVKMMMIDPKKVELNVYNGIPHLLAPVVTDPKKASRALKKVVSEMERRYDLFSDTGTRNIESYNEYIKKHNQEQEDEQPQLPYIVVLVDELADLMMVASNEVEDAITRLAQMARAAGIHLIIATQRPSVDVITGVIKANIPSRIAFSVSSQTDSRTILDSGGAEKLLGRGDMLFTPVGSNKPTRVQGAFLSDEEVERVVQFCVDQQKAQYQEEMIPEEESEVKQEVDDDLYPEAVQMVIEMQSASVSMLQRRFRVGYTRAARLIDAMEDNGIVGPYEGSKPRSVLVSQQSEEQHTS	PGPT0030468_6712	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
AK012_00407	726	nagR_1	COG2188	HTH-type transcriptional repressor NagR	ATGTCAATCAAACAGGATACACGTCACCTCTATCTGCAGGTGATCGAACAAATCAAACGGGATATTGAAAACGGTATCTTTAAAGAAAAACAGAAGCTTCCATCCGAATTCCAACTCTCTAAAACGCTCGGCGTTTCCCGAGCTACTTTAAGGGAGGCACTGCGGATTCTGGAGGAAGAAGGGGTTGTCACAAGACGCCACGGGGTGGGGACGTTTGTGAATCCGAAACCTCTGTTTACATCAGGGATTGAGGAACTGGACAGTGTGACAGGAATGATCTCAAAATCCGGAATGACACCGGGAACCCAGTATCTTTCTGCTGATTTAGTAGAAGCAACTGAAGAGGATAAGAAACGTTTTTCGCCGCTGGACGTCATAAACCTGGCAAAAGTCGAGCGGGTTCGGACAGCGGACCAGTACCCGGTCGTGTATTGTACGGATAAAATACCCGAAGGACTGCTTCCCATCGATCAAATCCGTGAAGCGGACTCTCTATTCAATGTCCTGGAGAAATATACCGGGAAATCAATCGGCTACGCGGTCACGCATATTGAACCGATCGGCTTTCACGAACGGATTTCCCCGATTTTGAACTGTGAGCCTGATCAAGCCCTGCTTCTTCTTAAACAAATGCATTATTCCCAGGATGATGTCCCTATGCTGCTGTCTTCCAACTATTTCAGGGCTGATAAATTCAGCTTCCACGTTTTGAGAAAAAGAGTGTAA	MSIKQDTRHLYLQVIEQIKRDIENGIFKEKQKLPSEFQLSKTLGVSRATLREALRILEEEGVVTRRHGVGTFVNPKPLFTSGIEELDSVTGMISKSGMTPGTQYLSADLVEATEEDKKRFSPLDVINLAKVERVRTADQYPVVYCTDKIPEGLLPIDQIREADSLFNVLEKYTGKSIGYAVTHIEPIGFHERISPILNCEPDQALLLLKQMHYSQDDVPMLLSSNYFRADKFSFHVLRKRV				NA	NA	NA	NA	NA
AK012_00408	1125	tmpC	COG1744	Membrane lipoprotein TmpC	TTGTTGAAAAGTCGTTTTCTTATGGTATTTGTTTTGTTGGTAACGTTAGGGATGATCCTTGCAGCCTGTGGTTCATCAGATAATGAAGAAAGTACCGGAGGAGATTCCGGTGAAAGCTCTGGAAGCGAAGACTCAGGCGGGGACAGCGGCAGTGGGGACTTTTCTGTGGCGATGGTCACCGATGTGGGCGGAGTCGATGATAAGTCCTTCAACCAGTCTGCCTGGGAAGGCCTGCAGGCATTTGGTGAGGAAAATGGAATGAGCAAAGGAGAAGGGATCGACTACGCTCAGTCTGAGAGTGATGCCGATTATGCAACAAACCTGAACCGTCTCGTCCGTCAGGATTATAACTTGATTTTCGGCATCGGCTATCTTCTGCAGCCGGCCATTAAAGAAGTAGCCGGCCAGTATCCGGATACAAGCTTTGCCCTTGTTGATTCTGTACAGGAAGGGGACAACATCGCAAGTATCGTATTTAAGGAGCATCAGGGTTCCTTCCTTGCAGGAGTTGCCGCAGCCAAGAAAACGCAGTCCAACCAAATCGGTTTCATCGGCGGGGTTGATGGCAGTCTGATCAACAAATTCGAAGCGGGCTTTGTGGCCGGCGTCAAATCCGTAAATGCGGACATTGATGTGGAAATTGAATACGCAGAGAATTTTAATGATCCTGAAAAAGGACGGGCTTTAGCTTCCAATATGTATTCCAAAGGTGTGGACGTCATCTATCATGCTTCAGGAGGAACGGGTAATGGAGTCTTTGCGGAAGCGAAAGACTTGAAAAATGCCAATCCCGATGAGGACGTATGGGTGATCGGTGTTGACCGTGATCAGCATGAAGAAGGTCAAATCGGTGATGCGAACGTTACACTGACTTCCATGGTCAAGCGTGTGGATATTGCTGTTCAGGATGTATCAGAACAAGCGATGAACGGGGAATTCCCTGGTGGTGAAGTCATCGAATATGGTCTGGAGGACGATGCCATCAGCATTGCTGAAACAAATGAAGAAGCGATGACGGAGGAAATCACTACATCTGTTAATGAATGGAAAGAGAAAATCATCAACGGGGACGTGGAAGTTCCGAGCACCCGTGAAGAACTGGAATCCTTTGTAGACGCACTGTAG	MLKSRFLMVFVLLVTLGMILAACGSSDNEESTGGDSGESSGSEDSGGDSGSGDFSVAMVTDVGGVDDKSFNQSAWEGLQAFGEENGMSKGEGIDYAQSESDADYATNLNRLVRQDYNLIFGIGYLLQPAIKEVAGQYPDTSFALVDSVQEGDNIASIVFKEHQGSFLAGVAAAKKTQSNQIGFIGGVDGSLINKFEAGFVAGVKSVNADIDVEIEYAENFNDPEKGRALASNMYSKGVDVIYHASGGTGNGVFAEAKDLKNANPDEDVWVIGVDRDQHEEGQIGDANVTLTSMVKRVDIAVQDVSEQAMNGEFPGGEVIEYGLEDDAISIAETNEEAMTEEITTSVNEWKEKIINGDVEVPSTREELESFVDAL	PGPT0021055_1080	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021055-bmpA-K07335	NA	NA
AK012_00409	1527	mglA	COG1129	Galactose/methyl galactoside import ATP-binding protein MglA	ATGGAATATGTAATTGAGATGCTGAAAATCAGAAAAGAGTTTCCAGGGATTGTTGCCAATGATGATATTACACTCCGGGTTCAAAAAGGAGAAATCCATGCCCTGCTTGGAGAGAATGGAGCGGGGAAATCCACCTTGATGAATGTTTTATTCGGCCTATATCAGCCGGAACAAGGCGAAATAAAAGTCCGGGGTGAACAAGTGAAAATTACGGACCCGAATACAGCGAACGCTTTGGGGATAGGGATGGTGCATCAGCACTTTATGCTTGTAGATACCTTTACGGTCACGGAAAATATCATACTCGGCAGCGAACCGAAAAAAGGCGGGACGGTCGACATTAAGAAGGCGGAAAAGCAGGTCGCAGAGTTATCAGAACAGTACGGATTGAATGTAGACCCCAGCGCCAGAATCCGGGATATATCTGTCGGCATGCAGCAGCGTGTGGAAATTTTGAAAACGCTTTACAGAGGGGCGGATATTTTAATATTCGATGAGCCCACCGCCGTCTTAACTCCTCAGGAAATTAAAGAGCTTATTGAAATTATGAATAACCTGGTGAACGAAGGCAAATCGATTATTCTGATCACTCATAAACTGAAGGAAATTATGCAAGTGTGTGACCGGTGTACAGTTATCAGAAAAGGACGAGGGATCGGGACCGTGGAGGTAAAAGATACAAGTCCTGATGAACTGGCTTCACTTATGGTAGGACGTGATGTCAGTTTTTCAACGGATAAAACGCCTGCCCTTCCAAAAGAAGTCTACCTTTCTATTCAAGGCCTTCGCGTAAAGGATGGACGTGGTGTAGAAATGGTCAAAGGACTGAACCTCGACGTCCGGTCCGGAGAGATTGTTGGTATTGCCGGTGTGGACGGCAACGGGCAGTCTGAATTGATCGAAGCGATCACGGGCTTAAGGAAGAGTGAGGCAGGGACGATTCGACTGCACGAAAAAATCATTTCCAATTTAACGCCGCGGAAGGTTACACGGTCCGGTGTCTCCCACATTCCGCAGGACCGTCATAAATTCGGCCTCGTCCTTGATTTTCCGATTGGAGAAAATATGGTTCTTCAGACCTATTACGATGAACCTTTTTCAAAAAATGGCGTGATGAATTTCAAAAAAATCTATGATAAAGCCAGAGATTTAATAGAGGAGTATGACGTCCGTACCCCCGATGCTTATACAAAAGCAAGAGCTCTATCGGGTGGAAACCAGCAGAAAGCGATCATTGGCAGGGAAGTGGATAGATCCCCGGATTTAATTATTGCGGCCCAGCCTACACGGGGGCTGGATGTAGGAGCGATCGAGTTCATTCATAGAAAGCTGATCGAGGAACGGGATAAAGGAAGGGCTGTTCTGCTTCTTTCCTTTGAACTGGATGAAATCATGAATGTCAGTGACAGGATTGGGGTCATGTTTGATGGTTCCATCATTCGAGAAGTAGCTCCAGAGGATACGAATGAGCAGGAACTCGGCCTCCTTATGGCCGGAAATACAGACCAGAAAGCAGGTGGCGTCTAA	MEYVIEMLKIRKEFPGIVANDDITLRVQKGEIHALLGENGAGKSTLMNVLFGLYQPEQGEIKVRGEQVKITDPNTANALGIGMVHQHFMLVDTFTVTENIILGSEPKKGGTVDIKKAEKQVAELSEQYGLNVDPSARIRDISVGMQQRVEILKTLYRGADILIFDEPTAVLTPQEIKELIEIMNNLVNEGKSIILITHKLKEIMQVCDRCTVIRKGRGIGTVEVKDTSPDELASLMVGRDVSFSTDKTPALPKEVYLSIQGLRVKDGRGVEMVKGLNLDVRSGEIVGIAGVDGNGQSELIEAITGLRKSEAGTIRLHEKIISNLTPRKVTRSGVSHIPQDRHKFGLVLDFPIGENMVLQTYYDEPFSKNGVMNFKKIYDKARDLIEEYDVRTPDAYTKARALSGGNQQKAIIGREVDRSPDLIIAAQPTRGLDVGAIEFIHRKLIEERDKGRAVLLLSFELDEIMNVSDRIGVMFDGSIIREVAPEDTNEQELGLLMAGNTDQKAGGV	PGPT0021040_2699	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021040-nupA|yufO-K23537	NA	NA
AK012_00410	1047			hypothetical protein	ATGTTTTCGAACCGGATGATCAATATCCTGATCCCTGTGCTTTCTGTTCTTCTCGGCCTTGCTGCCGGCGCTGTAATCATGCTTATTTTCGGATACAATCCTGTGGATGGATTTGCAGCGCTGTGGAGAGGGGCTTTTGGAGATTCGTACTTTTTTGGTGAGACGATCCGTCAAGTTACCCCGTACATTCTTTCGGGGCTTGCCGTTGCCTTTGCTTTAAGGTCCGGTCTGCTTAACATCGGCGTAGAGGGGCAGGTGTTTGCGGGATGGCTCGCATCTGTATGGATCGGGATATCCTTTGAACTTCCGATGGCTGTCCATCTGCCCCTGGCGATTGCTGCAGCGGCTTTAGCAGGAGCAGTGTGGGGGTTTATTCCAGGGCTTTTGAAAGCGAAATTAGGGGTGCATGAAGTGATTGTGACGATCATGATGAACTACATTGCCCTCTATGTGACGAATGCCGTCATCCGGAATTTGTTGACCGACGGTGCTGACAGGACCGAAAATATTGCTGCTACAGCTTCGTTGAAATCCGAGTGGCTGGCGCAGATGACATTTTACTCCCGGATCCACTATGGATTTATCATTGCCCTGGCGATGGCTGGCGTCATGTGGTTTATACTGAATCGGACGACGAAAGGGTTTGAACTGCGTGCCGTCGGTTTTAATCAGCACGCTTCAAACTATGCAGGAATGAACGTGGGCCGGAATATTATAACGGCCATGGTCATATCCGGAGCGTTTGCCGGACTTGCAGGTGCTATGGAAGGGCTGGGTACGTTTGGTTTTATGTCGATTAAATCAGGGTTCACCAATATCGGTTTTGATGGGATCGCTGTAGCCCTTTTAGGAGCTAATACTGCTGTCGGGGTGGTTCTTGCCGCCTTCTTATTCGGAATTCTGAAAATCGGGGCGCTCAATATGCCCACAGAAGCCGGTGTACCAACCGAACTTGTAGAAATTATCATCGCTCTTATCATTTTCTTTGTAGCATCCAGCTACATGATCCGCTGGATCCTTCTACGGTTCAAGAAGGAGGGGAAATAA	MFSNRMINILIPVLSVLLGLAAGAVIMLIFGYNPVDGFAALWRGAFGDSYFFGETIRQVTPYILSGLAVAFALRSGLLNIGVEGQVFAGWLASVWIGISFELPMAVHLPLAIAAAALAGAVWGFIPGLLKAKLGVHEVIVTIMMNYIALYVTNAVIRNLLTDGADRTENIAATASLKSEWLAQMTFYSRIHYGFIIALAMAGVMWFILNRTTKGFELRAVGFNQHASNYAGMNVGRNIITAMVISGAFAGLAGAMEGLGTFGFMSIKSGFTNIGFDGIAVALLGANTAVGVVLAAFLFGILKIGALNMPTEAGVPTELVEIIIALIIFFVASSYMIRWILLRFKKEGK	PGPT0021045_3183	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021045-nupB|yufP-K23535	NA	NA
AK012_00411	960			hypothetical protein	ATGGAATTCTTAGAGGTGTTCAGCCGTATCCTTGGCTCTGCTGTTATTTTTGCAACCCCGCTGATTTTCACAGCGCTCGGTGGAGTTTTCAGTGAGCGTTCAGGGGTCATCAACATCGGTCTTGAAGGTCTGATGATCATGGGAGCGTTTGTAGGCATCGTCTTTAATTTAACTTTCCACACGGTATTCGGCGCTGCCACTCCCTGGATATCGATGTTGGCGGCTGTCGTTGTATCCGCCCTGTTCTCCCTCGTTCATGCCGTGGCATCGATTACTTTTCGTGCCGATCAAGTAGTCAGCGGTGTGGCCATCAACTTCCTGGCTCTCGGGATCGGGCTGTTTCTTACAAAACAGTGGTATGACAAAGGACAGACAGATTTCATCAAACAGCCTTTTTATTCCTCTGATGTCCCTGGATTGAATAAGATTCCCGTTGTTGGAGAGATGTTGTTCAGTGGCTGGTACTGGACATCTTATCTTGCCATCGGCATGGCAATTGCCGCTTGGTTTGTGCTCTATAAAACGCCGTTCGGTCTCCGGTTGAGGTCGGTGGGGGAACACCCGATGGCAGCAGACACCAATGGGATCCATGTGTACCGGATGCGCTATATAGGCGTGATGATTTCAGGTGCCCTCGGGGGGCTTGGAGGTTCGGTATATGCCATGACTGTTGCATTGAACTTTTCGCACGGCACCATTTTAGGGCAGGGATTCATCTCGCTCGCCGCCGTCATCTTTGGCAAATGGCATCCTCTGGGGGCCCTCGGTGCAGCAGTTTTTTTTGGATTTGCTCAAAGCCTGAGCATTGTTTCTTCCGATATTGCCTTTTTAGAGGATGTTCCTTCCGTTTTCATGCTCATTGCCCCTTATGTTCTGACGATTCTGGCTCTCGCTGGATTTATCGGCCGGGCTGAAGCACCTAAATCTCTCGGAGAAGCATATATTAAAGGAAACCGATAA	MEFLEVFSRILGSAVIFATPLIFTALGGVFSERSGVINIGLEGLMIMGAFVGIVFNLTFHTVFGAATPWISMLAAVVVSALFSLVHAVASITFRADQVVSGVAINFLALGIGLFLTKQWYDKGQTDFIKQPFYSSDVPGLNKIPVVGEMLFSGWYWTSYLAIGMAIAAWFVLYKTPFGLRLRSVGEHPMAADTNGIHVYRMRYIGVMISGALGGLGGSVYAMTVALNFSHGTILGQGFISLAAVIFGKWHPLGALGAAVFFGFAQSLSIVSSDIAFLEDVPSVFMLIAPYVLTILALAGFIGRAEAPKSLGEAYIKGNR	PGPT0021050_1004	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021050-nupC|yufQ-K23536	NA	NA
AK012_00412	1287			hypothetical protein	ATGAAAATTTCAAAAGAAACGATACTCGAAAAAGATGGGTACCGTCTACATATTTTACCAAGCAAAAAGTATAAAACGATTAATATAGTAGCAAAATTCAAAGCTCCCTTAAAACGTGAAGGTATTACGGAGAGGGCGCTTCTTCCGCATGTGCTTCAAAAAGCCACAAATAAGCACCCCTCTGTAAGGTCTTTTCAGGCGGCATTTGAAAACCTTTATGGCACCGCCCTGTCCAGCGATGGATCGAAAAAAGGGGAGAACCACGTCATCAGCTTCCGTATGGAAGTAGTGAATGAATCCTATTTGAATGACAATGAACCCATTCTTGAAGAAGCCTTCCAACTGTTCCATAACGTCTTATTCGATCCGAAAACCGTGGAAAACGGATTTGATCCTGAAATCGTTGAGCGGGAAAAACAGACGCTTGAACAGAAAATCACTTCGATTAAGGATGACAAAATGAGTTATGCGAATCTTCGTTTAATGGATCACATGTGTAAAGGAGAGCCTTACGCTCTACATGTGCATGGATATCAGGAAGATATGGCATCCATCACTCCGGAATCGCTCTATAATTACTATCAGCAGATGATCCAACAGGATATGCTGGATGTCTACGTCATCGGAGATATGGATGAAAAAGATGTGGAAGAACTGACAGACCGGTATTTCCAGCGCAGCGGCAGCACAAACGCAGATAACGATCAGGTTTCCGTATCCAAAGACGTTCAGGATTCTTCTGAAATCATTGAACGGGAGGAAGTCAACCAAGGTAAGCTGCACCTCGGATACCGCACATACACGAAGTTCGGGGATGACGATTATTATGCGCTGCAGGTGTTTAATGGGATTTTCGGCGGGTTTCCAAGCTCCAAGCTGTTCATGAATGTGCGTGAAAAACATAGTCTCGCCTATTATGCGGCCTCAAGATTTGAAAGTCACAAAGGTCTTCTCCTTGTTTTCAGCGGGGTGGATCCGAAAGATTATGATCAAGCGAAATCCATTATCCTTGAGCAGATGGAAGCGATGAAAAACGGAGACTTCACGGAAGAACAGGTGGAGGAGACGAAGGAGCAGGTCATTAACCAATTGAAAGAGACCATGGATAATGCGAACGGTTTGATCGAAGTGCTTTACCATCAAATGCTTTCCGGAATTGACATGCCGGCCGGCCAGCTTATCGAAAACATCCGCAAAGTCACGAAAGAACAGGTCATCCAGATGGCAGAGAAGATTAAACTGGATACGATTTATTTCCTAACAAGTCACGAGGGAGGGGAAAAGTGA	MKISKETILEKDGYRLHILPSKKYKTINIVAKFKAPLKREGITERALLPHVLQKATNKHPSVRSFQAAFENLYGTALSSDGSKKGENHVISFRMEVVNESYLNDNEPILEEAFQLFHNVLFDPKTVENGFDPEIVEREKQTLEQKITSIKDDKMSYANLRLMDHMCKGEPYALHVHGYQEDMASITPESLYNYYQQMIQQDMLDVYVIGDMDEKDVEELTDRYFQRSGSTNADNDQVSVSKDVQDSSEIIEREEVNQGKLHLGYRTYTKFGDDDYYALQVFNGIFGGFPSSKLFMNVREKHSLAYYAASRFESHKGLLLVFSGVDPKDYDQAKSIILEQMEAMKNGDFTEEQVEETKEQVINQLKETMDNANGLIEVLYHQMLSGIDMPAGQLIENIRKVTKEQVIQMAEKIKLDTIYFLTSHEGGEK	PGPT0003177_40	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003177-ymfF-NA	NA	NA
AK012_00413	1296	albF	COG0612	Putative zinc protease AlbF	ATGGAAGAATTAGTCTATCAACAATTGAATGAAACGGTATATCAGGAAACGCTCGACAACGGTTTGAAGGTCTTCCTTCTATCCAAACCTGAAATGGCGAAAACGTTCGGGATTTTCACAACCAATTATGGGTCTATCGATCAAACCTTTACACCTATCGGCCAGGATGAAAAGGTAACCGTTCCTGAAGGGATCGCTCACTTTTTGGAACACAAGCTGTTTGAAAAAGAAGACCGTGATGTCTTTCAGGATTTCACCCGTCTGGGAGCCTCCGCAAATGCGTTTACCTCCTTTACGAAAACCGCCTACTTGTTCACAGCTACCAGCCAGGTGGAGAAGAATGTCCAAACCCTGCTTGATTTTGTCCAGGATCCTTATTTTTCTGAGGAATCGGTGGAAAAGGAAAAGGGCATTATTGCACAGGAGATCCGTATGTATGACGACCAGCCGGACTGGAGATCCTTTTTCGGAACCATCCAGAGCCTTTACCATAACCATCCGGTTAAGGTGGACATTGCAGGTACCGTCGAAAGCATCCAGGATATTACGAAAGACGATTTATATACGTGCTACGAAACGTTCTATCACCCATCCAACATGGTTTTATTCGTTGCCGGGAACATTGAACCGGAAGCCATGATGAATTTAATCCGTGAAAATCAGGGACAGAAGGAGTTTCCACCGGCACCTGAAATCAATCGTTCTTATCCGGAAGAACCTTCACATGTAGCTCAAAAGGAGCATTCCATCACAATGCCTGTAACAACGGCTAAAGCGATGGTTGGTGTGAAGGAAGATGTAAGCGGCTTGAAAGGCGGAGAACTTCTGCGCCGCGAACTACTTTCAGGTATGATTCTTGATTATTATTTCTCCAAGAGCGGCGCCTTTTATGAGGAACTGTATAAAGCCGATCTTATCGATGACAGCTTCCAGTTTGAAACAGAACTTGACCGTCATTTTGGCTTTACTATCCTTGGCGGTGATTCAAGAAAGCCGGATGAAATGGCTGCCCGTGTGAAGGAAATGCTCCATGAATTAAAAGATATGCGTATCGCCGATGAAGATTTCACCCGGATGAAGCGTAAAAAAATTGGTCAATTCATGCGTGCGCTCAATTCACTTGAATTTATTGCGAATCAATTTACTCATTACCATACATTAGGCGTCGACTTGTTCGAAGTGCTTCCGGTGATTGAATCGCTGACAGCTGATGATGCGGAGGAGTACCTTAAAGACTGGATTAATGAAGAAGCCATCTCTGTTTTCCAGGTGAAACCGCAGTCCAATGAATCGTAA	MEELVYQQLNETVYQETLDNGLKVFLLSKPEMAKTFGIFTTNYGSIDQTFTPIGQDEKVTVPEGIAHFLEHKLFEKEDRDVFQDFTRLGASANAFTSFTKTAYLFTATSQVEKNVQTLLDFVQDPYFSEESVEKEKGIIAQEIRMYDDQPDWRSFFGTIQSLYHNHPVKVDIAGTVESIQDITKDDLYTCYETFYHPSNMVLFVAGNIEPEAMMNLIRENQGQKEFPPAPEINRSYPEEPSHVAQKEHSITMPVTTAKAMVGVKEDVSGLKGGELLRRELLSGMILDYYFSKSGAFYEELYKADLIDDSFQFETELDRHFGFTILGGDSRKPDEMAARVKEMLHELKDMRIADEDFTRMKRKKIGQFMRALNSLEFIANQFTHYHTLGVDLFEVLPVIESLTADDAEEYLKDWINEEAISVFQVKPQSNES	PGPT0003179_53	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003179-ymfH-NA	NA	NA
AK012_00414	723	fabG_4		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAATCGTAAACGCTGCCTGATCCTTGGGGCCAGCGGCGGGATCGGCGAAGCCGTGGTGCATCGGGTTGTTGAGGATGGATATGCCGCAGCCGTGCAGTATTTCACGAACGAAGATAAAATCCGGACGATTCAGCAGGGGATACCGGAAGATCAATGGGCTGGATCCTTCCAGGCCGATCTCTCGACTAAGGAAGGGCTGCAGGCTTTCTTCCATGTGCTTCCTGCTGAGTGGGATGCTGTCGTTTTTGCTGGCGGGCACATGTACAGTGGATTGTTCCAGGATATGGAAGAGGGAGATATGGATGCTTTGTATTACGTCCATGTGAAATCCCTTTGGATGACGGCCAGGCACGTCCTGCCGTATATGATACAGCAGAAACAGGGGAACATTGCTGTGGTATCCTCCATTTTCGGAACAGAAGGAGCAAGCATGGAAGTGGCTTATAGTTCTGTTAAAGGTGCCCAGAACACGTTTGTAAAAGGACTGGCTCAGGAACTTGCTCCGAGTCATATCCGTGTAAACGCCGTGGCTCCTGGTTTAATCCAGACGAAAATGAATGGCCATCTTACCCTGGAGGACCTTCAGGCGCTCGAGAATGATATTCCAATGGGCCGGGCCGGAACCCCTGAAGAGGTGGCTGATGCCGTTGGGTTCCTCCTAAGCCGGTCTTCCCGTTATGTAACGGGCCAGATTCTACATGTTAATGGTGGCTGGTGTTAA	MNRKRCLILGASGGIGEAVVHRVVEDGYAAAVQYFTNEDKIRTIQQGIPEDQWAGSFQADLSTKEGLQAFFHVLPAEWDAVVFAGGHMYSGLFQDMEEGDMDALYYVHVKSLWMTARHVLPYMIQQKQGNIAVVSSIFGTEGASMEVAYSSVKGAQNTFVKGLAQELAPSHIRVNAVAPGLIQTKMNGHLTLEDLQALENDIPMGRAGTPEEVADAVGFLLSRSSRYVTGQILHVNGGWC	PGPT0003180_21562	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
AK012_00415	261	yflH_1		putative protein YflH	ATGTCTGTGCTCGATAATTGGGATTCTTGGAAAGACTTTCTTGGTGATCGTCTCCATCAGGCCGAAGGACAGGGGATTAATAACCGGGCCGTTTCAGAATTAGCGTATGAAATTGGTGGATATCTGGCCAATTCTGTAGATGCTAAAAATAATGAGGAAGCCGTTCTTCGTGACTTGTGGAACGTCGCAGATGAAAAAGAGCAGCATGCGATTGCCAATATGATGGTGAAGCTTGTTCAAAATAACGGTTCCCAGCAGTAA	MSVLDNWDSWKDFLGDRLHQAEGQGINNRAVSELAYEIGGYLANSVDAKNNEEAVLRDLWNVADEKEQHAIANMMVKLVQNNGSQQ	PGPT0003182_688	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003182-ymfJ|yflH-NA	NA	NA
AK012_00416	792			hypothetical protein	ATGGATAAAACAGAATGGTATCTGGAATATGAAATTCAATACAACCGTCCGGGACTTCTGGGGGACATCTCCTCGCTGTTGGGTATGATGGCCATTAATATCGTTACGATCAATGGAGTTGAAAATTCGCACAGGGGCATGCTTCTTCTCTGCAAGGATGATGAGCAGATTACCCGCTTAAAATCGATTTTAAATACAATGGATACGATTAAAGTAACGAAACTCCGGCGTCCGAAACTGAGAGATCGTTTAGCGGTTCGTCACGGAAGGTACATACACAGTGATATCGACGACCGTAAAACGTTTCGTTTCAACCGGGAGGACCTTGGACTCCTGGTCGATTTTATGGCGGAGCTGTTTATGAAGGAGGGCCACAAACTTGTCGGCATCCGGGGCATGCCGCGGGTGGGTAAAACCGAATCCGTAGTGGCGGCGAGCGTTTGTGCCAACAAGAGATGGCTGTTTGTTTCCAGTACTTTGTTGAAGCAGACCGTCCGAAACCAGCTGATCGATGAGGAGTACAGCGAAGACAACCTGTACATCATTGATGGAATCGTTTCTGCAAAGCGGGCCAACGAAAAGCACTGGCAGCTGGTCAGGGAAATTATGCGCCTGCCTGCGACCAAGGTGATCGAGCACCCGGATATTTTTGTTCAGGAAACAGAATACAAGCTGGATGACTTTGATTACATCATTGAACTTAGAAACAACGAGGATGAAGAAATTACTTATGAACCTGTGGAAAAACCGGAAATGAAGATGAATGAGGGATTTTCCATGTTTGATTTTTAA	MDKTEWYLEYEIQYNRPGLLGDISSLLGMMAINIVTINGVENSHRGMLLLCKDDEQITRLKSILNTMDTIKVTKLRRPKLRDRLAVRHGRYIHSDIDDRKTFRFNREDLGLLVDFMAELFMKEGHKLVGIRGMPRVGKTESVVAASVCANKRWLFVSSTLLKQTVRNQLIDEEYSEDNLYIIDGIVSAKRANEKHWQLVREIMRLPATKVIEHPDIFVQETEYKLDDFDYIIELRNNEDEEITYEPVEKPEMKMNEGFSMFDF	PGPT0003183_20	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003183-ymfK|ymfkn|ymfKc-NA	NA	NA
AK012_00417	933			hypothetical protein	ATGGAGATTGGTGCCAGATTAAAGGAAGCAAGAGAGGCGAAGGGCCTTTCCCTTGAGGACCTTCAAGAAACAACGAAAATACAGAAGCGATACCTTCAAGCCATAGAAAAAAATGATTTCCAAGTCCTGCCCGGGAAATTCTACACCCGTGCGTTTATCCGTGAATATGCATCAGCTGTCGGGCTTGATCCGGAGCAGGTGATGGAGGAGCATAAAAACGAGCTTCCTACATATGAAGAGGAGAACACGGTTCAGTTCAGCCGGGTGCAGAAATCAAAGCAGGAAGCGGCGCAGAAAAGCAGGGGGTCCTCCCGTTTTCTTCCGACTTTCCTTACAGTAGGACTTGTGGTCGGTCTTATTTTAGTCTTTTGGATTTTTATGCAGAGCGGCAGTGACAATAACGGGGCACCTGCAGACAGTTCATCATCAGATGAGATCAGCGTACCGGCGGGGTCCGATGGAAGCGGCAGCGAGGATGCGGCAGATGATGAGGAAGAGCAGCCGGCTGAAGAGCAGGAAGAGAGCGGTGAAGGCAGCGGGTCACAGGAAGATGCGGTCGAGGAAACCGAAGAGGATAGCACTGAAGAGCCTGAGGAAAAAGACCCGGGTGTGGAACTTTCCGAAGAGGGCGCTGGTTCATTTCCTATGCACACGTATGAAGTGTCACCTGCCGATGATTCCGAGGTAACTGTTGAATTCTCCGGTAATGTATATATGGAGATTCAGTCGCCGCAGGGGGGAGAGAATCTTGTGACTCCTCGTGAATATACATCTTCCGACTCTCCGGTTACCATTGATATAGGAGATAAGCAGGAGTTGTACATTAAAACAGGAAATGCTCCTGGAATGACCGTGAAAGTAGATGATCAGCCGGTGACATTCCCTGATCCGGAGCTGACGACACAGAAGTTATTGTTGCAAATGAAGGAATAA	MEIGARLKEAREAKGLSLEDLQETTKIQKRYLQAIEKNDFQVLPGKFYTRAFIREYASAVGLDPEQVMEEHKNELPTYEEENTVQFSRVQKSKQEAAQKSRGSSRFLPTFLTVGLVVGLILVFWIFMQSGSDNNGAPADSSSSDEISVPAGSDGSGSEDAADDEEEQPAEEQEESGEGSGSQEDAVEETEEDSTEEPEEKDPGVELSEEGAGSFPMHTYEVSPADDSEVTVEFSGNVYMEIQSPQGGENLVTPREYTSSDSPVTIDIGDKQELYIKTGNAPGMTVKVDDQPVTFPDPELTTQKLLLQMKE				NA	NA	NA	NA	NA
AK012_00418	579	pgsA		CDP-diacylglycerol--glycerol-3-phosphate 3-phosphatidyltransferase	ATGAATTTACCAAACAAGATTACGTTATCCAGAATTTTTCTTATCCCCATCTTTATTATACTCATGAGTGTTCCATTTGGCTGGGGCACGTTGGAAATGGGAGAAAGGGAGCTTCCTGTAGCCCACCTTGCCGGTGCCGTTCTCTTTATTATTGCGTCTACCACGGATTGGATTGATGGGTATATAGCCCGGAAATACTCCCTTGTAACCAACCTGGGGAAATTTCTCGATCCACTGGCTGATAAACTGCTCGTAAGTGCGGCACTTATCCTGCTTGTGGAAATCGGACTTGCTCCGGCATGGATTGTCATCCTGATTATCAGCCGTGAGTTTGCTGTCACAGGATTAAGGCTCGTAGCAGCAGGGGAAGGTAGTGTACTGGCGGCCAGTCAAATGGGTAAATTGAAGACCTGGATACAGATCATCGCTATCTCAGCACTGCTTCTTCACAACTGGCCGTTCGCCTTCATCGGTTTCCCGTTCGGCATGATCACCCTGTACCTTGCCTTAATCATTACTGTATATTCTGGTTATGATTACTTTAAGAAAAACTGGCATGTAATGAGAGATTCCAAATGA	MNLPNKITLSRIFLIPIFIILMSVPFGWGTLEMGERELPVAHLAGAVLFIIASTTDWIDGYIARKYSLVTNLGKFLDPLADKLLVSAALILLVEIGLAPAWIVILIISREFAVTGLRLVAAGEGSVLAASQMGKLKTWIQIIAISALLLHNWPFAFIGFPFGMITLYLALIITVYSGYDYFKKNWHVMRDSK	PGPT0007705_3421	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATIDYLTRANSFERASE_ACTIVITY,PGPT0007705-pgsA|PGS1-K00995	NA	NA
AK012_00419	1239	cinA	COG1058	Putative competence-damage inducible protein	ATGAGAACAGAAATTATTGCCGTAGGGACAGAATTGCTTTTGGGACAAATTGCGAACACCAATGCCCAGTGGATATCGCAGAGAATGGCGGAACTGGGTCTGCCTGTATACAGTCATGCTGTCGTGGGCGATAACCTGGACCGTGTCGCAGGCTCTTTCAGGGAAGCGTCAAGGCGTTCCGATATTGTTATTGTTACAGGTGGTCTGGGACCGACCGAGGACGATTTGACCAGAGACGCCGGAAGCATGATTCTTGGGAAGACCGTCCAGGAACATGCACCCAGTATGGAAAGAATCGAAGCCTATTATAAAAGAAACAATAAGAAAATGAGTTTGAATAACAGAAAGCAGTCGCACGTTTTTGAAGGAGCGCATGTCCTGGATAACATGGAAGGGATGGCCCCTGGGCAGATCATTCAACAGGGAGACGTAACCTGGGTGTTTCTTCCCGGGGTCCCCCGTGAAATGAAGGCTTTAATGGAAAGTGGAGTCATCCCTTACCTCCAGCAGTCCTTTTCTATCCAATCAGAGATCGTGTCAGAGATGCTTCATTTTATCGGTATTGGAGAATCTGACCTTGAAACGGAGCTGCAGACGCTTATTTCCGGTCAGACCAATCCGACACTGGCCCCTCTGGCCAGTGAAGGGGAAGTAGGTTTACGATTAACCGCGACAGGGGAAACGACAGAGGAAGCGAAAGCGAAAATTGCTGATATGAAAACCACCGTTCTTGGTAAGGTTGGAGATTTTTATTATGGAAGTGATGATCAAACGATTGAGGGTACTGTACAGCAGCTGCTTTCCCGGCGCGGGTATCGTCTGGGGGCAGCGGAGAGCTTCACTGGAGGAAAGTTCATGGAGCGTATCATTTCCCTCCCTGGTGCTTCCGCGGTCTGTCAGGGTGGACTGACGACTTATACAGCTGAAATGAAGGAGCAGGTTCTTGATATTCCTAAATACCTCATCAGGGAGTACGGAACTATCAGCCGGGAGTGTGCAGAGATGATGGCATTGAATACTCAATCTCTGCTTGACGTCGATGTTGCAATTAGTTTCACAGGTGTCGCCGGCCCGGACTCAAGTGAAGGAAAAGATCCCGGCACAGTCTTTATCGGGCTTCAGGTCGAGGACAAGAGTCCTGAAGTTCACCGGTTCCAGTTTCCGGGCGGCCGTGACCAGGTAAGGGAACGGGCGGTGAAGAAGGGCTTTGAACTTTTATTTCATCGCTTGAAAAATTGA	MRTEIIAVGTELLLGQIANTNAQWISQRMAELGLPVYSHAVVGDNLDRVAGSFREASRRSDIVIVTGGLGPTEDDLTRDAGSMILGKTVQEHAPSMERIEAYYKRNNKKMSLNNRKQSHVFEGAHVLDNMEGMAPGQIIQQGDVTWVFLPGVPREMKALMESGVIPYLQQSFSIQSEIVSEMLHFIGIGESDLETELQTLISGQTNPTLAPLASEGEVGLRLTATGETTEEAKAKIADMKTTVLGKVGDFYYGSDDQTIEGTVQQLLSRRGYRLGAAESFTGGKFMERIISLPGASAVCQGGLTTYTAEMKEQVLDIPKYLIREYGTISRECAEMMALNTQSLLDVDVAISFTGVAGPDSSEGKDPGTVFIGLQVEDKSPEVHRFQFPGGRDQVRERAVKKGFELLFHRLKN	PGPT0013455_1219	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013455-pncC-K03742	NA	NA
AK012_00420	1044	recA	COG0468	Protein RecA	ATGAGCGATCGTAAACAAGCATTAGATATGGCACTGCGTCAAATAGAGAAACAATTCGGAAAAGGTTCGATCATGAAGATGGGGGAAGGCGCCGAGCAGAAGGTCAATACGGTTCCCAGTGGCTCTCTGGCTCTTGATGTGGCCCTTGGAGTCGGCGGCTATCCACGCGGTCGGATCGTGGAAATATATGGACCTGAATCTTCAGGTAAAACGACTGTTGCCCTTCACGCCATTGCGGAAGCGCAGAGAAAAGGCGGCCAGGCAGCATTCATTGATGCGGAGCACGCTTTGGATCCGGTCTATGCAAGAGCCCTTGGAGTGGACATTGAAGAACTTCTGCTTTCCCAGCCGGATACAGGGGAACAGGCTTTGGAAATCGCTGAAGCCCTGGTACGCAGCGGTGCTGTAGATATGGTGGTTATTGACTCTGTGGCTGCCCTTGTACCAAAAGCGGAGATTGAAGGGGAAATGGGAGATTCCCACGTGGGTCTGCAGGCCCGCCTGATGTCCCAGGCTCTTCGTAAGCTTTCCGGAGCGATTAATAAGTCGAAGACGACGGCTATTTTCATCAACCAGATTCGTGAAAAGGTCGGTGTTATGTTTGGTAATCCGGAAACGACGCCCGGCGGCCGCGCTCTGAAATTCTACTCTTCTGTACGCCTTGAAGTACGCCGTGCAGAAACATTGAAGCAGGGGAACGAAATGGTGGGGAATAAAACCCGCTTGAAAGTGGTCAAGAACAAAGTGGCACCACCATTCAGACAGGCGGAAGTCGATATTATGTACGGGGAAGGCATCTCCAGAGAGGGAGAGCTTCTTGATATTGGAACGGATCTGGATCTTATTCAGAAGAGCGGATCGTGGTACTCTTATAACGATGACCGTCTTGGTCAGGGACGTGAAAATGCTAAACAGTACCTTAAAGAGAACGTTGAAGTTTATGAGGAAGTGAAACGTCTGATCCGCGACCATTATGGTATGGAAGCGGATGAGGAAGCAGCTGAAACTTCCAACAAGGATAACCAGGAAACGCTGGATGTGTAA	MSDRKQALDMALRQIEKQFGKGSIMKMGEGAEQKVNTVPSGSLALDVALGVGGYPRGRIVEIYGPESSGKTTVALHAIAEAQRKGGQAAFIDAEHALDPVYARALGVDIEELLLSQPDTGEQALEIAEALVRSGAVDMVVIDSVAALVPKAEIEGEMGDSHVGLQARLMSQALRKLSGAINKSKTTAIFINQIREKVGVMFGNPETTPGGRALKFYSSVRLEVRRAETLKQGNEMVGNKTRLKVVKNKVAPPFRQAEVDIMYGEGISREGELLDIGTDLDLIQKSGSWYSYNDDRLGQGRENAKQYLKENVEVYEEVKRLIRDHYGMEADEEAAETSNKDNQETLDV	PGPT0007235_3896	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0007235-recA-K03553	NA	NA
AK012_00421	1563	rny	COG1418	Ribonuclease Y	ATGGATTTGATATCCTCGCTCATCTTCATTTTGCTTGCCCTTATCATCGGTTCTGTTGTTGGTTATCTTATTCGGAAGTCGATAGCGGAAGCGAAAATTTCCAGTGCTGAGGAATTAGCCAGACAGATTGTGGAGGAAGGACACCGCAATGCTGAATCGGCCAAAAAAGAGGCTCTTCTTGAAGCGAAAGAAGAGAATCAGAAATTCCGCCAGGAAGCTGAAAGTGAAGTTCGCGAACGCCGCTTGGAACTGCAGAAAACTGAAAACCGTTTGAATCAGAAAGAAGAGAATCTTGATCGTAAGAGTGGGACGCTGGATCAGCGTGATCTTTCACTCGAGAAGAAAGAAGGAACTCTTGCCGAGAGACAACAACAAATTGAAGAAATGGAAAGCAAAGTGAAAGCTATGCTTCAAGAACAGCAGACAGAGCTTGAAAGAATTTCAAGTTTAACATCTGATCAGGCCAAACAGGTTATTTTGGAGCGTGTTGAACAGGAAGTCTCTCATGAGTCGGCGCTGATGATTAAAGAAGCGGAAAACCGGGCCAAAGAGGAAGCTGATAAAAAAGCGAAAAACATTCTATCCCTTGCCCTGCAGCGTTGTGCCGCTGATCACGTAGCCGAAACCACCGTATCTGTTGTCAATCTGCCGAACGATGAAATGAAAGGTAGAATTATCGGTCGGGAAGGACGAAATATCCGTACGCTGGAAACCTTAACTGGTATTGACCTTATCATTGATGATACACCTGAAGCGGTTATTTTATCCGGCTTTGATCCGATCCGGAGAGAAACAGCGCGGATGGCCCTTGAGAAACTTGTTCAAGATGGGCGTATACACCCTGCAAGAATTGAAGAAATGGTTGATAAGTCCCGCCGTGAAGTGGATGATTACATCCGCGAGGTCGGGGAACAGACAACCTTCGAAGTCGGGGTTCACGGTCTTCATCCAGACCTTATCAAGATACTCGGCCGCCTTAAATACCGTACGAGTTATGGTCAGAATGTCCTTAAGCACTCCACGGAAGTTGCCTACTTATCCGGCCTGCTGGCCGCAGAATTAGGTGAAGATGAAATGCTTGCCCGTCGTGCCGGACTTCTTCATGACATCGGAAAAGCGATAGACCACGAGGTAGAAGGAAGCCACGTTGAAATTGGTAAGGAACTTGCGATTAAGTATAAGGAAAATGACACTGTCGTGAACGCAGTTGCTTCCCACCACGGAGACGAAGAGCCGACATCAGTTATTTCTGTACTCGTTGCGGCTGCCGATGCTTTATCTGCAGCACGTCCAGGCGCTAGAAGCGAAACGCTCGAAAATTACATTAAGCGTCTTGAAAAACTTGAGGAAATTTCTGAGTCTTACGAAGGTGTGGAGAAATCCTTTGCGATTCAGGCAGGTCGTGAAGTACGTATTATGGTCCGCCCTGATGAAATTGATGATCTTGAAGCGACAAGACTGGCGCGCGATATCCGGAACAGAATCGAGGGAGAACTCGATTATCCGGGTCATATAAAAGTAACGGTCATTCGTGAAACGCGCTCTGTCGAGTATGCGAAATAA	MDLISSLIFILLALIIGSVVGYLIRKSIAEAKISSAEELARQIVEEGHRNAESAKKEALLEAKEENQKFRQEAESEVRERRLELQKTENRLNQKEENLDRKSGTLDQRDLSLEKKEGTLAERQQQIEEMESKVKAMLQEQQTELERISSLTSDQAKQVILERVEQEVSHESALMIKEAENRAKEEADKKAKNILSLALQRCAADHVAETTVSVVNLPNDEMKGRIIGREGRNIRTLETLTGIDLIIDDTPEAVILSGFDPIRRETARMALEKLVQDGRIHPARIEEMVDKSRREVDDYIREVGEQTTFEVGVHGLHPDLIKILGRLKYRTSYGQNVLKHSTEVAYLSGLLAAELGEDEMLARRAGLLHDIGKAIDHEVEGSHVEIGKELAIKYKENDTVVNAVASHHGDEEPTSVISVLVAAADALSAARPGARSETLENYIKRLEKLEEISESYEGVEKSFAIQAGREVRIMVRPDEIDDLEATRLARDIRNRIEGELDYPGHIKVTVIRETRSVEYAK				NA	NA	NA	NA	NA
AK012_00422	798	ymdB	COG1692	2',3'-cyclic-nucleotide 2'-phosphodiesterase	ATGAGAATTTTATTTATTGGAGACGTCGTTGGCTCTCCAGGTAGAGATATGGTAGAGACCTATCTTCCGAAACTGAAAAAGAAGTTTCAACCGGCGGTTACAATTATCAATGGGGAAAACGCGGCTTCAGGTAAAGGGATAACAGAGAAAATTTACCGGAGATTTCTTGAACTTGGGGCGCAGGCGGTCACACTGGGGAATCATGCGTGGGACAAGAAAGAGATTTTTGAATTTATCGATGATGCGGATTATCTGGTCCGCCCGGCCAACTTCCCGGAAGGTACACCCGGACGAGGTCTTACGTACGTGAAGACACCAAAAGGCGAGATTGCTGTGATTAACCTGCAAGGCCGTACGTTTATGGCTCCCAATGATGATCCGTTTCGAAAAGTGGATGAATTAATAGAACAGGCTTCCAAGCGCACATCGCTGATTTTTCTGGATTTCCATGCAGAAACGACGAGTGAAAAGCAGGCGATGGGCTGGTACGTAGACGGGCGTGTCAGTGTCCAGGTTGGGACACACACCCATGTGCAGACAGCTGATGAACGCATTCTCCCTTCCGGCACTGGATATATTTCGGACGTAGGAATGACCGGCCCTTATGACGGGATTCTCGGCATGGACAGGGAAGCGGTCTTGAAACGTTTTAAAACGAATCTGCCTGTACGTTTTGAAGTGCCTAAAACGGGAAGAGCACAACTAAGTGCCTTCTTGGTGGATGTAGATGATAAAACAGGTAGAACAGGGAAAGTGAAGCGAATCTTAATCAACGACGACCATCCTTTTTTTGAGTGA	MRILFIGDVVGSPGRDMVETYLPKLKKKFQPAVTIINGENAASGKGITEKIYRRFLELGAQAVTLGNHAWDKKEIFEFIDDADYLVRPANFPEGTPGRGLTYVKTPKGEIAVINLQGRTFMAPNDDPFRKVDELIEQASKRTSLIFLDFHAETTSEKQAMGWYVDGRVSVQVGTHTHVQTADERILPSGTGYISDVGMTGPYDGILGMDREAVLKRFKTNLPVRFEVPKTGRAQLSAFLVDVDDKTGRTGKVKRILINDDHPFFE	PGPT0021405_893	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021405-ymdB-K09769	NA	NA
AK012_00423	261	spoVS	COG2359	Stage V sporulation protein S	ATGGAAGTCTTAAAAGTATCAGCTAAATCCGTACCTAATTCTGTAGCAGGAGCTTTAGCGAATGTCGTAAGAGAAAGAGGGACTGCTGAAATTCAAGCCATTGGTGCAGGGGCACTAAACCAAGCTGTAAAAGCGGTAGCCATTGCCCGCGGATTTGTCGCCCCCAGCGGAATGGATTTAATATGTATTCCAGCTTTTACGGATATTCTAATTGACGAAGAAGAACGAACAGCGATTAAACTGATTGTTGAGCCAAGATAA	MEVLKVSAKSVPNSVAGALANVVRERGTAEIQAIGAGALNQAVKAVAIARGFVAPSGMDLICIPAFTDILIDEEERTAIKLIVEPR	PGPT0024850_186	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024850-spoVS-K06416	NA	NA
AK012_00424	1041	tdh_1	COG1063	L-threonine 3-dehydrogenase	GTGAATGGAAAGATGAAAGCGATCATAAAACATCACCGCGGCCCTGGAGCGAAGCTTGAGGAAGTGGATATACCTCAGGTGAAAGACGATGAAGTGCTGATTCGTGTGAAGGCTACCTCCATCTGCGGAACAGATGTACATATATATAATTGGGATGAATGGTCAGAGAGCCGTGTCCAGCCGCCTTATGTGTTCGGACATGAATTTTCGGGTGAAATTGTTGAAACAGGATCAAATGTCGAACACTTTCATATAGGGGATTATGTCAGTGCTGAAACCCACCTTGTCTGCGGCCACTGCCCGCAGTGCTTGACAGGGAAATATCACATTTGTGCTCATACTAAAATCATTGGTGTAGACACACAGGGCTGTTTTGCTGAATACGTGGCCCTTCCCGCAGAAAATTTATGGAGAAATCCAGAAGACCTTCCTACAGATATGGCTTCTATTCAAGAGCCGATGGGGAATGCTGTTCATACCGTCTTAAACGGAGAAGTAACAGGAAAAACGGTGGCTGTCATCGGGTGTGGTCCGATCGGTCTGATGGCCGTTGGAGTAGCTGTAGCAGCTGGAGCATCCCAGGTGCTGGCTTTTGATTTAAACCCATACCGTTTGGAGCTCGCCGGGAAAATGGGGGCAACCGCTGTTATTCATTCATCCGAAGAAGACCCGGTGGAAAAAGCACTGGCTCTGACCAATGGGCATGGGGTAGATGTCGTCTGTGAAATGAGCGGACATCCAGTAGCCATGGACCAAGGATTTAAAATGGTGACGAATGGAGGCCGCGTTTCCATCTTGAGTCTCCCGACGAAACGTGTAAGTCTTGATGTAACCAACGACATTGTCTTCAAAGGGGTGGAAGTCCAAGGCATTACCGGCAGAAAGATGTATAAAACGTGGCAGCAGGTATCCCGTCTTTTACAATCGGGCCAGGTGGATGTGAGACCGATGATCACCCATCATTTGAAGTTGGAAGAATTTGAAAAAGGTTTTGATCTAATGAATAAAGGTTTGTGTGGAAAAGTAATTCTTCACCCATAA	MNGKMKAIIKHHRGPGAKLEEVDIPQVKDDEVLIRVKATSICGTDVHIYNWDEWSESRVQPPYVFGHEFSGEIVETGSNVEHFHIGDYVSAETHLVCGHCPQCLTGKYHICAHTKIIGVDTQGCFAEYVALPAENLWRNPEDLPTDMASIQEPMGNAVHTVLNGEVTGKTVAVIGCGPIGLMAVGVAVAAGASQVLAFDLNPYRLELAGKMGATAVIHSSEEDPVEKALALTNGHGVDVVCEMSGHPVAMDQGFKMVTNGGRVSILSLPTKRVSLDVTNDIVFKGVEVQGITGRKMYKTWQQVSRLLQSGQVDVRPMITHHLKLEEFEKGFDLMNKGLCGKVILHP	PGPT0020460_889	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_THREONINE_DEGRADATION,PGPT0020460-tdh-K00060	NA	NA
AK012_00425	1176			Putative pyridoxal phosphate-dependent acyltransferase	ATGAAAGGCTTTGAGTATCTGCAGAAAGAACTGGACGAAATGCAGGAACAAGGAACATTCAGACACTTAATCCCATTGGAGTCCGCGCAAGGATCCAAAGTGACAATCAAAGGAAAGGAAGTCATACAGCTTTCTTCCAACAATTATTTAGGACTGACCTCTCACCCGAGATTGAAAGCAGCTGCTGAAGAAGCCAATGCCCGGTATGGTGTAGGTACAGGATCGGTGAGAACCATTGCGGGTACGCTGAAAATGCATGAAGATTTTGAAGAGAAGCTGGCCGAATTCAAACATACAGAAGCGGCTCTTGTCTTCCAATCCGGATTTACAACGAACCAGGGGGTATTATCCTCAATCCTTGGAAAAGACGATGTCGTCATTTCTGATGAGCTGAATCATGCTTCCATCATTGACGGGATCCGCTTGACCAAAGCGGACCGGAAAATTTACAAGCATGTGAATATGGAATCTCTGGAACAAGCCTTGAAGGAAAGCGGTGACTACCGGACACGTCTCGTCGTAACCGATGGCGTTTTCTCCATGGATGGAAATATAGCACCCCTTCCTGCCATTGTTGAACTGGCAGAAAAGTACGATGCTTTGATTATGGTGGATGATGCGCATGCGAGCGGAGTTCTTGGCGATAATGGACGTGGAACAGTGAATCATTTTAATTTAGATGGTCGTGTTCACATCCAGGTCGGGACATTAAGTAAAGCCATTGGCGTTCTCGGCGGCTATGTAGCCAGCACGAAAACCCTTAGGGAATACTTGATTCATAAAGGGCGCCCGTTCCTGTTTAGTACTTCTCACCCTCCGGCAGTCACGGCGGCCAACGAAGCTGCTATTGACGTCCTTTTGGAAGAACCCGAACTCATTGAACGACTGTGGGATAATACATCTTTCTTCAAGGATGGATTGAGTAAGCTCGGATTTGATACAGGAATCAGTGAAACCCCGGTGACCCCGGTTATGATCGGTGATGACGCCTTGACCCACAAATTCTCTGATGAATTATTTGAAGAAGGGGTGTTTGCGCAGGGAATCGTATTCCCGACCGTGCAGCGAGGAAAAGGCCGCATACGTACGATCGTAACGGCAGAGCATTCCAGAGAAGAGCTTCAGCAGGCCCTGGACGCTTTTGAAAAAGTGGGAAGGAAACTGGACATTATCTAA	MKGFEYLQKELDEMQEQGTFRHLIPLESAQGSKVTIKGKEVIQLSSNNYLGLTSHPRLKAAAEEANARYGVGTGSVRTIAGTLKMHEDFEEKLAEFKHTEAALVFQSGFTTNQGVLSSILGKDDVVISDELNHASIIDGIRLTKADRKIYKHVNMESLEQALKESGDYRTRLVVTDGVFSMDGNIAPLPAIVELAEKYDALIMVDDAHASGVLGDNGRGTVNHFNLDGRVHIQVGTLSKAIGVLGGYVASTKTLREYLIHKGRPFLFSTSHPPAVTAANEAAIDVLLEEPELIERLWDNTSFFKDGLSKLGFDTGISETPVTPVMIGDDALTHKFSDELFEEGVFAQGIVFPTVQRGKGRIRTIVTAEHSREELQQALDAFEKVGRKLDII	PGPT0020495_2633	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020495-kbl-K00639	NA	NA
AK012_00426	1566	miaB	COG0621	tRNA-2-methylthio-N(6)-dimethylallyladenosine synthase	ATGAACGAACAGCAGAGAAAAGAAATGTCTCAGATCCGTCAGACAGATACTTCCGCTGCAGATCAGGACAACTTGAACCGATTGAAACAGCAGACAAGTGAAGATTATATGAAATATTTTCAAACGACCTATCAGCCTCCAAATATGAGAGATGCTCAGCGCCGTAAGCGTAAGGAAACAGACATCCATTATGACTTTGAAATTCCGGAAGACATGGATCAGGCCGGTCGTGGAAAGAAATATATGATCCGTACATATGGATGCCAGATGAATGAACACGATACAGAAGTCATGGCTGGTATTTTTGAAGAGATGGGCTATGAATCCACGAATGATACGAAACAAGCAGACATTATTCTATTGAATACGTGTGCGATCCGCGAAAATGCTGAAAACAAAGTTTTCGGAGAAATCGGACACCTTAAGCCGTTGAAAATGGAGAATCCGAACCTGATTATCGGGATCTGCGGCTGTATGTCCCAGGAAGAGTCTGTTGTGAATCGAATTTTGAAGAAACATCCATTTATTGACCTGATCTTCGGGACCCATAACATCCACCGTCTCCCGCAGCTGGTGAAGGAAGCGATGTTCGGGAAGGAAATGGTCATTGATGTATGGTCGAAGGAAGGGGATATCATTGAAAACCTTCCCCGTTCGCGTAAAGGAAAAATCAAAGCCTGGGTCAACATCATGTATGGCTGTGATAAATTCTGTACGTACTGCATCGTTCCTTACACGCGCGGAAAAGAGCGCAGCCGTCTTCCGAAAGACATCATCCAGGAAGTTCGTCACCTCGCCGCTCAAGGCTACAAGGAAGTCACACTTCTCGGCCAGAATGTGAACGCTTACGGGAAAGATCTTGATCTGGAGTATGGCCTTGGAGACTTGATGGATGAGCTGCGCAGCATCGATATTCCGCGTGTCCGCTTTACCACGTCCCATCCGCGCGATTTTGATGATCGTCTGATCGAGGTGCTTGCCAAAGGCGGGAACATGCTTGATCATATCCATCTTCCTGTCCAGTCCGGAAATACGGATGTCCTTAAAATTATGGGCCGTAAATATTCCAGGGAGGAGTACCTGGAACTCGTCCGAAATATTCGTGAAGCAATGCCGGGGGCAACCTTAACGACAGATATTATTGTCGGCTTCCCTAATGAGACAGAAGAACAGTTCCAGGATACTCTTTCTCTTGTAGAAGAGGTTGGATTTGAAGCAGCCTATACTTTCATTTACTCCCCAAGGGATAATACACCTGCTGCGAAAATGAAAGATAACGTGTCGATGGAAGAAAAGAAAGACCGTCTCCAGCGCTTGAATAAATTGGTGAATCAGCAGTCAGCAGATGCGATGAGTCAATATGATGGCGAAATTGTAGATGTACTTGTCGAAGGGGAAAGTAAAAATAATCCTGATGTCCTGGCCGGATACACGAAGCGGAACAAACTTGTGAATTTCCGTGGCCCCCGATCCATTATCGGAAAGATTGTCCCTGTTAAAGTAATAAAGGCAAAAACTTGGTCTTTAGATGGAGAACTAGTAGAATCTAGCGTAGAGGTGAATTAA	MNEQQRKEMSQIRQTDTSAADQDNLNRLKQQTSEDYMKYFQTTYQPPNMRDAQRRKRKETDIHYDFEIPEDMDQAGRGKKYMIRTYGCQMNEHDTEVMAGIFEEMGYESTNDTKQADIILLNTCAIRENAENKVFGEIGHLKPLKMENPNLIIGICGCMSQEESVVNRILKKHPFIDLIFGTHNIHRLPQLVKEAMFGKEMVIDVWSKEGDIIENLPRSRKGKIKAWVNIMYGCDKFCTYCIVPYTRGKERSRLPKDIIQEVRHLAAQGYKEVTLLGQNVNAYGKDLDLEYGLGDLMDELRSIDIPRVRFTTSHPRDFDDRLIEVLAKGGNMLDHIHLPVQSGNTDVLKIMGRKYSREEYLELVRNIREAMPGATLTTDIIVGFPNETEEQFQDTLSLVEEVGFEAAYTFIYSPRDNTPAAKMKDNVSMEEKKDRLQRLNKLVNQQSADAMSQYDGEIVDVLVEGESKNNPDVLAGYTKRNKLVNFRGPRSIIGKIVPVKVIKAKTWSLDGELVESSVEVN	PGPT0007215_224	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007215-miaB-K06168	NA	NA
AK012_00427	429	ymcA	COG4550	putative protein YmcA	ATGGCACAATACACACGTCAAGAAGTAGTCGATGAAGCAAAAAAACTGGCAAAAATGATGGCTGACATTGAAGAGATTGACCGTTTCAAGCAGCTGGAATCCAAGTTGAATGAAAATCAGAAAGTGCAGTCCCACATAAAGAAAATCAAGGCACTTCAAAAGCAGGCCGTCAATTTTCAGGCTTACGGAAAAACAGAAGCCTTGAACCGGATTGAAAAGGAAATTGACCGTCTCCAGGATGAACTGGACGAAATCCCGGTCGTCGCTGAGTTTAAAGAAACGCAGACGGTCATTAATGATATTCTGCAGATGGTTTCGAGTACGATTTCCCGCGAAGTAACGAATGAAGTGATCCGCTCTACAGGAGGAGATCTTCTGCAGGGGGAAACAGGTTCTTCCAACAATCAAAGTCATGGCTGCAGCCGTTGA	MAQYTRQEVVDEAKKLAKMMADIEEIDRFKQLESKLNENQKVQSHIKKIKALQKQAVNFQAYGKTEALNRIEKEIDRLQDELDEIPVVAEFKETQTVINDILQMVSSTISREVTNEVIRSTGGDLLQGETGSSNNQSHGCSR	PGPT0026336_39	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026336-ymcA-NA	NA	NA
AK012_00428	579			hypothetical protein	ATGTCTTTTTTTGAACGGGATTACAGAGAAATTATTACCAAAGCTGTAATCGGTAAAGGTAAAAAGTTTACAGAATCCACGCACACCATCAGCCCTTCCCACCGTCCAACAAGTATTCTGGGATGCTGGGTGATCAACCACATCTACAATGCGAAAAAGAAAGGAGATCACGTAGAAGTTTCCGGCAGTTACGACATCAACGTCTGGTATTCCTACAACGACAATACAAAAACGGAAGTGGTAACAGAACGGGTGACGTATTGCGATTACGTTAAGCTGAGTGTGAAAGACGACAACTGCATCCATGATGATTTCGAAGTCATAGCCAAAGTCGTCCAGCAGCCGAACTGCCTGGAAGCTACGATTTCGGGGAACGGCCAGAAGATCGTAGTAGAAGTAGAAAGAGAGTTTGTCGTTGATGTGATTGGTGAAACCAAGCTTTGCGTAAAAGTGGACCCGCATGGCTGCGGCCACGATCATGACTACGAACAAGATTTGTCATCCGATGATTATTCAGCTATTGAAACGGACTTCCTTCCATCTTCTTCAAGCAGTGATGACCATGACGATAAGCATTAA	MSFFERDYREIITKAVIGKGKKFTESTHTISPSHRPTSILGCWVINHIYNAKKKGDHVEVSGSYDINVWYSYNDNTKTEVVTERVTYCDYVKLSVKDDNCIHDDFEVIAKVVQQPNCLEATISGNGQKIVVEVEREFVVDVIGETKLCVKVDPHGCGHDHDYEQDLSSDDYSAIETDFLPSSSSSDDHDDKH	PGPT0025155_29	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025155-cotE-K06328	NA	NA
AK012_00429	2580	mutS	COG0249	DNA mismatch repair protein MutS	ATGGCACAGTATACACCAATGATGCAGCAATATTTAAAGATTAAAGCCGACCAGAAGGACGCGTTTTTATTCTTCAGGCTCGGGGATTTTTATGAGCTGTTTTTTGAAGATGCCCTGAAAGCATCGCAGGAACTTGAAATTACATTAACGAGCAGAGATGGCGGGGGAAGTGAACGGATACCCATGTGCGGTGTCCCGTATCACTCGGCTGAAAACTACATAAGGCAGCTGATTGAAAAAGGCTACAAGGTGGCCATTTGTGAACAGGTGGAAGACCCGAAAGCAGCCAAAGGCGTTGTCAAAAGAGAGGTCGTCCAGCTCATCACTCCGGGTACCGTTATGGAAGGCAGCATGCTTGACGAGAAGGAAAACAATTATATTGCTTCCTTGAGCGCTTTTGAAGATGGATCGTATGCAGTGAGTTACAACGACCTCACCACAGGGGAAAATAGTACGGCCCTTATTTCAGGAGGGTTTGATGCAGCCTTGAGTGAACTGTACAGCCGCCCTGTTCGTGAAGTCGTCGTCGCAACGGATTTTGATGAGGAGCGGCAGTTGATGCTTAAGGAACGGCTTGGCTACACGGTCTCCCATCAGGATGACACCTCCCTGGATGGAGACCTGGCCTCGTTGACAGCTGAAATCCAGCAGGACAAGTTGTTGACAGGCACCGGGCGGTTGTTGAACTACATCCAGCACACCCAGAAGCGCTCCCTCGATCACCTGCAGCCGGTGAAAGTCATTGAATTGAAGCAGTATATGACGCTGGATATGTATTCGAAGAGAAACCTTGAACTGTTGGAAACCATCCGGAAGCAGGGGAAAACCGGGAGCCTGCTTTCTGTCGTGGATAAAACGAAGACATCCATGGGCGCGCGCATGCTGAAAAAATGGATGGAGCGACCGCTTCTTTCTAAACAGGCGATCCACACTCGACACGAGCAGGTGGAAGGATTCCTTGACCAATTCTTCGAAAGGGAGACGCTGCGTGAACAGCTGACCAACGTCTATGATCTGGAACGGCTGGCCGGACGGGTGGCCTTTGGGAACGTCAACGCACGAGATCTGCTGCAGTTGAAAAATTCCCTTGCCAGAATCCCTGAAATACTCGGCACCCTCCAGCAGTTTGACAACGATGCAGTGAAAGAGCTGTATCAGACGATTGATCCTCTGGAAGAGCTGAAGGATCTGTTGGAGCAGAGTATTGCCGAAGACCCTCCCATCAGTGTGAAAGAAGGGGGGCTGATTTGTGACGGGTATAACAAACAGCTGGATGACTATCGTGCAGCTTCGAAAAATGGAAAGCAGTGGATTGCTGAGCTTGAAAAGAAAGAGCGGGAAAAAACAGGCATTAAATCACTGAAGGTCGGGTATAATCGTGTCTTCGGCTACTATATTGAAGTGACAAAAGCCAATCTCCGCTATCTGCCTGAAGGGATGTATGAACGTAAACAGACATTAACGAACGCAGAGCGGTTTATTACACCGGAGCTGAAAGAAAAGGAAACATTGATTCTGGAAGCGCAGGAAAAAAGTGTGGAACTGGAGTATCAGTTATTTCTGAATGTAAGGGAAAGCGTGAAGTCTTATGTCCAAAGACTGCAGCATCTGGCTGAACAGATCAGCCGTATTGATGTGCTGCAGGGGTTTGCGCAGGTGGCAGAGGCTTATCAATATGTGCGCCCGTCCTATAATGAGCAGCGCCGGGTGGATATAAAGGAAGGCCGCCATCCGGTCATTGAACGGGTCATGCAGGATGGAACGTTTGTGCCGAACGACATTTATATGGATGATAAAACCGATGTACTTTTGATTACCGGCCCGAACATGTCCGGTAAGAGTACGTACATGAGGCAGCTGGCTCTAACGGCTGTGCTTGGACAGATGGGAAGCTACGTTCCATGCGGTTCGGCCTCTCTTCCGATTTTCGATCAGATTTTCACCCGGATCGGGGCGGCTGATGATATTGTATCCGGACACAGTACATTCATGGTCGAAATGCTGGAAGCGAACCATGCCCTCACCCACGCCACAGAAAACAGTATGATCCTGCTTGATGAAATCGGCCGAGGGACGAGTACGTATGACGGAATGGCCCTTGCCCAGTCGATTGTGGAGTACATTCACGGAACAATTAAGGCTAAAACATTATTCTCCACGCACTATCATGAATTAACGTCGTTGGAAAATGAACTGGAGCGTTTGAAAAACGTCCATGTGCGGGCGGAAGAATATGAAGGGAATGTCGTCTTTCTGCACCAGATCAAAGACGGTCCGGCAGATGAGAGCTACGGCATTCATGTCGCAAAGCTGGCCGACCTTCCAGATCCGCTGATCAAGCGGGCGACGGAGCTTCTGCACCACCTTGAGGGATCATCGGGGGCGGAGGAATCGGCAGCTGTGGAGGAAGAAGAGCAGCTCAGTTTATTTGTGGAAGAACCAAAAGAAAAACTAAAACAGGCTGAACACACCGATACGTCTATTCTGGAGAAGCGGCTTTCGTCGCTTGATTTAATGGAAATGACTCCAATGGATGCTATGAACGAACTGTATCAGCTTCAAAAAAGCTTAAAGAAATAA	MAQYTPMMQQYLKIKADQKDAFLFFRLGDFYELFFEDALKASQELEITLTSRDGGGSERIPMCGVPYHSAENYIRQLIEKGYKVAICEQVEDPKAAKGVVKREVVQLITPGTVMEGSMLDEKENNYIASLSAFEDGSYAVSYNDLTTGENSTALISGGFDAALSELYSRPVREVVVATDFDEERQLMLKERLGYTVSHQDDTSLDGDLASLTAEIQQDKLLTGTGRLLNYIQHTQKRSLDHLQPVKVIELKQYMTLDMYSKRNLELLETIRKQGKTGSLLSVVDKTKTSMGARMLKKWMERPLLSKQAIHTRHEQVEGFLDQFFERETLREQLTNVYDLERLAGRVAFGNVNARDLLQLKNSLARIPEILGTLQQFDNDAVKELYQTIDPLEELKDLLEQSIAEDPPISVKEGGLICDGYNKQLDDYRAASKNGKQWIAELEKKEREKTGIKSLKVGYNRVFGYYIEVTKANLRYLPEGMYERKQTLTNAERFITPELKEKETLILEAQEKSVELEYQLFLNVRESVKSYVQRLQHLAEQISRIDVLQGFAQVAEAYQYVRPSYNEQRRVDIKEGRHPVIERVMQDGTFVPNDIYMDDKTDVLLITGPNMSGKSTYMRQLALTAVLGQMGSYVPCGSASLPIFDQIFTRIGAADDIVSGHSTFMVEMLEANHALTHATENSMILLDEIGRGTSTYDGMALAQSIVEYIHGTIKAKTLFSTHYHELTSLENELERLKNVHVRAEEYEGNVVFLHQIKDGPADESYGIHVAKLADLPDPLIKRATELLHHLEGSSGAEESAAVEEEEQLSLFVEEPKEKLKQAEHTDTSILEKRLSSLDLMEMTPMDAMNELYQLQKSLKK				NA	NA	NA	NA	NA
AK012_00430	1881	mutL	COG0323	DNA mismatch repair protein MutL	ATGGCACGCATTCGACTAATGCCTGATCACCTGGCCAACAAAATTGCAGCCGGAGAAGTGGTCGAGCGGCCTGCCTCTGTGGTAAAGGAACTGGTGGAAAACAGTATTGACGCAGGATCTTCCTGGGTGAAGATCGACTTGATGGAAGCCGGTCTTCAACGGATCCGTATCATTGATAACGGAGCAGGGATGGAGGAAGAAGACTGTGAACGGGCTTTTCACCGTCATGCAACCAGTAAAATCCTGGATGAAAATGATTTATTCCACGTGCGTACCCTTGGTTTCCGGGGAGAAGCCCTGGCGAGTATCGCGGCTGTCAGCCGGTTGAGTATTCAGACGTCTACGGGCGAAGAAGCAGGAACGAAACTTGACCTGGAAGGCGGCCACCTTATGCAGAAGGGCAGAGGGGATGCCCGCAAAGGGACGGATATCACGGTGGAGGAATTATTTTTCAACACTCCGGCGCGTTTAAAATATATGAAGACCATCCATACAGAACTGGGTCACATTACCGATGTGCTGAACCGGATTTCCCTGGCTCATCCGGAAGTACAGTTTGTCTGTACGCACAATGAAAAGCAGATTTTCAAGACCAACGGCCGCGGGGATCTGCTTCAGGTGATCGCAAGCATCTACGGGATGAACGTAGCAAGGAAGATGGTTCCGGTTGAAATGGAGACGTCGGACTTCAAAGTGAAGGGATATATAGCCAAACCGGAAGTGTACCGGGCTTCAAGACAGTACATGTCTACGATCATCAACGGCCGCTATATAAAAAGTGTGCCGTTGAATAAGGCGGTCCAACAGGGGTATCACACCCTCCTTCCGATTGGCAAAAATCCGATTGTTGTGTTGAATATTGATATGGATCCAATTCTTGTGGATGTCAACGTCCATCCTTCCAAGTTGGAAGTGCGGTTTAGTAAGGAAAAAGAGTTGTATGCCCTTTTGGAAGAGACGATTCGGAATACATTTCGAAAAGAAACCCTTATTCCGGATGTCCAGGAAACAAAAGCTAAACCAAAAAAAGAGTATTCCGAACAGAAAACTTTTGAATTCCATGAAACAAGGAAACAGGAGGCTCACAACCAAAGAGAGTCAGCCGTCGATCATCTGCTGAAAGAAGAACCTCCGGCTGCAGCGGAGGCCGAAGAGGATCCGTCCGAGGTATTTACAGGGAATCAGGAAGCGATGCTGAAGGAAATGATGGCTGATTTTAAACCGGAGAAGAATGAAGATGAAGAACATGCCCGGCAGGAGGAGGAACGTACATCCCCCTCCAAAAAGGAGAGCAGCCGCAGGGTTCCGGTGATGTATCCAATCGGCCAGCTTCACGGCACCTACATTCTCGCTCAGAATGAAGAAGGCATGTACATCGTCGATCAGCACGCCGCACAGGAACGGATTAAATATGAATTTTTCCGGGATAAACTGGCACAGGTGGATCATGAAGTCCAGGAACTTTTAATTCCATTAACTTTCGATTTTTCTAAACAGGAAGCATTGAAGATTGAGGAATATAAAGAGGAACTGGAGCAGGTCGGGTTGTTTTTTGAACCTTTCGGTGATACGACGTATATCATCCGCAGCCACCCGACTTGGTTTCCAACAGGTTTTGAGCAGGAAGTCATTGATGATATGATCCAGCAGCTTGTTCAGGATGAGCGGATCAACATTTTGAAATTGAGGGAAGAAGCGGCCATCCTTATGTCATGCAAGCGCTCCATCAAAGCGAACCATTACTTGAATCAATCCGATATGTTCCAGCTCCTTGAAGAGCTGCGCACATCGACGGATCCATTCACTTGTCCGCACGGCCGCCCCATTATCGTTTTCTTCTCTGAATATGAGATGGAAAAAATGTTCAAGCGGGTCATGTAA	MARIRLMPDHLANKIAAGEVVERPASVVKELVENSIDAGSSWVKIDLMEAGLQRIRIIDNGAGMEEEDCERAFHRHATSKILDENDLFHVRTLGFRGEALASIAAVSRLSIQTSTGEEAGTKLDLEGGHLMQKGRGDARKGTDITVEELFFNTPARLKYMKTIHTELGHITDVLNRISLAHPEVQFVCTHNEKQIFKTNGRGDLLQVIASIYGMNVARKMVPVEMETSDFKVKGYIAKPEVYRASRQYMSTIINGRYIKSVPLNKAVQQGYHTLLPIGKNPIVVLNIDMDPILVDVNVHPSKLEVRFSKEKELYALLEETIRNTFRKETLIPDVQETKAKPKKEYSEQKTFEFHETRKQEAHNQRESAVDHLLKEEPPAAAEAEEDPSEVFTGNQEAMLKEMMADFKPEKNEDEEHARQEEERTSPSKKESSRRVPVMYPIGQLHGTYILAQNEEGMYIVDQHAAQERIKYEFFRDKLAQVDHEVQELLIPLTFDFSKQEALKIEEYKEELEQVGLFFEPFGDTTYIIRSHPTWFPTGFEQEVIDDMIQQLVQDERINILKLREEAAILMSCKRSIKANHYLNQSDMFQLLEELRTSTDPFTCPHGRPIIVFFSEYEMEKMFKRVM				NA	NA	NA	NA	NA
AK012_00431	360			hypothetical protein	GTGGTTCATGAAAGGATTCGCACACTTCGGAAAGAAAGACGTTTGACTCAGGCGATGCTGGCTGAAAAAGTCGGTGTTTCTCCCCAGGTGGTATCCAACTGGGAGCGCAGTTACACTTCCCCTGATCTTGATGACTTGTCGAAGATTGCTCATGCTCTTCACACCACCGCAGATTATCTCCTTGGACTGAGCGACGAGCTGGAAGATGAAATGAGGGAAATTAAGCACCTTTTGGAAACGAAAGGATATTCAAAGCCCGTGTTCTTTGATAAAACAGCCTGGTTTGGGATACAGCCGGAGGATATTAAGCAGATTGATAATTACTTCCGTTTTCTGCTCCAGCAGAAAAACATTTCCTGA	MVHERIRTLRKERRLTQAMLAEKVGVSPQVVSNWERSYTSPDLDDLSKIAHALHTTADYLLGLSDELEDEMREIKHLLETKGYSKPVFFDKTAWFGIQPEDIKQIDNYFRFLLQQKNIS				NA	NA	NA	NA	NA
AK012_00432	945	miaA	COG0324	tRNA dimethylallyltransferase	TTGAAACCAATCGTAGCTGCTGTTGTTGGACCGACAGCGGTCGGTAAAACAAAGCTGGGCGTACAAATAGCTCAAAAGTTTAATGGAGAAGTCATCAGTGGTGATTCCATGCAGATCTACCGGACAATGGACATTGGAACGGCTAAGGTCACCGAAGAAGAAATGCAGGGCGTCCCTCATCATATGATTGACATCAAGGATCCTGAGCAGGATTTTTCTGCCGCTGAATTTCAAAAAAGGGTTCAGTCGTTGATCTATGAGATTCAAGAACGAGGGAAGCTCCCTGTCTTAGTAGGGGGAACCGGCCTTTACATACAAGCAACCTTGTTTAATTTTGAATTTACTGAGGAAAAGAAGGATGAAACGATTATGAAGCGCCTGGAGGAAGAGGCAGCCGTTCACGGTCCTGTTTATATGTACGAAAGGCTCGAACGCCTGGACCCTGATCAAGCGGCTAAAGTTCATCCGAATAACAGCCGCCGGGTACTGCGGGCGCTTGAGATTTATGAAACGACAGGGAAGAAGATGAGTGAGCAGGAGGCGGCAGAGTCGGCGGATTCCCCATTCACCCCTTTCCTGATCGGCCTTGAGATGGATAGAGAACGCCTTTATGAGCGTATCAACACCCGTGTGGATCAAATGATGGATGAAGGACTTTTAGATGAAGTGCATCGTTTATATCAAGCAGGACTGAAGGATGCCCAGTCTATGAAGGCTATCGGCTATAAGGAACTGATTCCATACCTGGAAGGAGATGTGGACCTCCAGGAAGCGGTTGATCTTCTCAAGCGTAATTCGAGGCGGTATGCCAAACGCCAGTACACGTACTTTAAAAATAAGCTGGATGTCCATTGGTATGAAGTTACCCCTGAGAATTATGAGCATAAATTTCAAACGATTTTCGCAGATTTAGCAGGAATGATCGACAAAAGCGGCGAATCGTAA	MKPIVAAVVGPTAVGKTKLGVQIAQKFNGEVISGDSMQIYRTMDIGTAKVTEEEMQGVPHHMIDIKDPEQDFSAAEFQKRVQSLIYEIQERGKLPVLVGGTGLYIQATLFNFEFTEEKKDETIMKRLEEEAAVHGPVYMYERLERLDPDQAAKVHPNNSRRVLRALEIYETTGKKMSEQEAAESADSPFTPFLIGLEMDRERLYERINTRVDQMMDEGLLDEVHRLYQAGLKDAQSMKAIGYKELIPYLEGDVDLQEAVDLLKRNSRRYAKRQYTYFKNKLDVHWYEVTPENYEHKFQTIFADLAGMIDKSGES	PGPT0007210_3514	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0007210-miaA|ipt-K00791	NA	NA
AK012_00433	225	hfq	COG1923	RNA-binding protein Hfq	ATGGCTCAATCAGTAAATATCCAAGACAACTATTTAAATCAACTACGCAAGGAACGTATGCAGGTCACTGTCTTTCTGACCAATGGTTTCCAGTTGCGTGGAATAATCAAGGCTTTTGACAATTTCACTATTCTATTGGAAACGGAAGGGAAACAGCAGCTGATATTCAAGCATGCCATCTCTACATTCGCACCGATTAAGAATGTATCGCTGGATAAGGAATAA	MAQSVNIQDNYLNQLRKERMQVTVFLTNGFQLRGIIKAFDNFTILLETEGKQQLIFKHAISTFAPIKNVSLDKE	PGPT0025560_1970	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
AK012_00434	936	spoVK	COG0464	Stage V sporulation protein K	GTGTATCCGCAAGCCAAAACAGCAAGGCCCGGTACGATTAACATTGTCCTTCAAGATACAAGTTCACGGTCTGCGCCTGAAAGCAGAGCCCTCACCCAGGAACGATCACCTTTCCGGATGATCGAAGACTTCTTTTCTTCCATCGTAGGCCTTGAAGGATTGAAAAGGCAGATGAAAGAGATCTATGCACAGGTGGTCATCGCGGGAAAAAGGGCGGATGCCGGTTTGAAAAAGAACCAGCAGGTGCTTCACATGGTGTTTAAAGGGAATCCGGGGACAGGGAAAACGACATTGGCCCGCATGGTCGCCCGGTTGTTTCATGAAGCGGGAGTCCTTGAGAAGGGGCATTTCATCGAGGCGGACAGAAGTGACCTGGTAGGGGAATACATTGGACACACAGCTCAAAAAACAAAGGATTTAATCCATAAAGCCCTTGGAGGGGTTCTTTTTATTGACGAGGCGTATTCTCTGGCGCGGGGAGGCGAAAAGGACTTCGGTAAGGAAGCGATTGATACGATTGTGAAATGCATGGAAGATCACCATGACGAACTCGTCATTATCCTTGCCGGGTACCCGGATGAGATGGAAGATTTTCTAACCATCAACCCCGGCCTTGCCTCCAGGTTTCCGCTGAAGCTTACCTTTAAGGATTATTCATGGCGCGAGTTGTCTGCCATAGCCGCGGGGATGCTCCAGGACAGGGAATACCAGCTGACTCCGGCGGCCGAGGTGAAACTGCAGGAGCACCTGAAGTCGTTCTGTTCCCGGTCCCTCTTGAACTTTTCCAACGCCAGGTATGTAAGGAATATGATTGAGGAGGCTGTCCGCCGGCATGCGTTTCGTGTCATGGCAGAAGAGTCTCCGCAAAAAGAGGTGCTGATGACACTGGAGGCTGAAGATTTTTCTTTTCCAAAAGATGAAGAGCGTGTCCATTAG	MYPQAKTARPGTINIVLQDTSSRSAPESRALTQERSPFRMIEDFFSSIVGLEGLKRQMKEIYAQVVIAGKRADAGLKKNQQVLHMVFKGNPGTGKTTLARMVARLFHEAGVLEKGHFIEADRSDLVGEYIGHTAQKTKDLIHKALGGVLFIDEAYSLARGGEKDFGKEAIDTIVKCMEDHHDELVIILAGYPDEMEDFLTINPGLASRFPLKLTFKDYSWRELSAIAAGMLQDREYQLTPAAEVKLQEHLKSFCSRSLLNFSNARYVRNMIEEAVRRHAFRVMAEESPQKEVLMTLEAEDFSFPKDEERVH	PGPT0024835_296	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024835-spoVK-K06413	NA	NA
AK012_00435	1236	hflX	COG2262	GTPase HflX	ATGAGCGCAAACGAACGCGTCGTTTTAGTAGCAAGAAAAGATCCGGCTGAGCTGGAGGAACGCTTCCAGTCTTCTTTGGAGGAACTGCAGTCGTTAACAGAAACCGCCGAGGGAGAAGTGTGTAAGATTATTACACAAAAGCGTGACCGGGTTCACCCCGCCACCTACCTCGGGGAAGGCAAGCTTCAGGAAATTAAGGAAGCTGCGGAAGAAAATGAAGCGGAACTGATCATATTTAATGATGAGCTTTCTCCGGGTCAGCTCCGGAATATTCAGGATATCGCTGAGGTCAGGGTCATTGACCGCAGCCAGCTGATCCTGGATATTTTTGCGGGCAGAGCGCGGACGAAAGAAGGGAAGCTTCAGGTGGAGCTTGCCCAGCTGCAGTATCTCCTTCCCCGCTTGTCAGGACAGGGGACAGCTTTGTCGCGACTCGGGGGAGGAATTGGAACCCGCGGTCCCGGGGAGACAAAACTGGAGACAGACAGGCGTCATATCCAGCGCCGGATTGATGATATCAAACGGAGGCTGGATGCCGTTGTAAAACAAAGGGAGCAGTATAGAAAGAGGCGGAAGGAAAACCGGGCGTTCCAGGTAGCCATTGTAGGGTATACCAACGCAGGAAAGTCGACGTTTTTCAATAGAGTGACAGACAGCCGGTCGTTCGAAGAGGACCTCTTGTTTGCCACGCTTGACCCGCTGACACGTCAGATGAGCCTGCCTTCCGGTTTTCAGGCACTCGTATCGGATACGGTCGGGTTTATCCAGGACCTGCCGACAACGCTGATTGCTGCCTTCCGTTCCACATTGGAAGAAGTGACAGAAGCCGATTTCATCGTCCATATGGTGGATGCGTCTCATCCTGATCATATTCAGCAGGAGAAAACAGTACTCCGGCTTCTTGAAGATCTTGGTGCAGCGCAGCTTCCTATGCTGACGGTCTATAATAAGATGGATCTCCTGAATGAGGATTTCATTCCGGATTCCTTTCCTTCTATAACCGTGAGTGTCCATGATTCCATTGATTTGAAGCGGATCCTTCATAAAATTGAAGAGGTTCTTAAAGAAGAGTGGGACGAGTACGATGTGTTCATTCCAGCTTCTGAAGGGAAACGTCTGCAGCAGTTTAAGACGTACAGCATGGTTACATCGCTTACGTTCCATGAGGATAAGGAAGGGTATGCGCTTCACGGATTTATCCATCCCGACCATCCATTGAAACATCAGATTTATTAA	MSANERVVLVARKDPAELEERFQSSLEELQSLTETAEGEVCKIITQKRDRVHPATYLGEGKLQEIKEAAEENEAELIIFNDELSPGQLRNIQDIAEVRVIDRSQLILDIFAGRARTKEGKLQVELAQLQYLLPRLSGQGTALSRLGGGIGTRGPGETKLETDRRHIQRRIDDIKRRLDAVVKQREQYRKRRKENRAFQVAIVGYTNAGKSTFFNRVTDSRSFEEDLLFATLDPLTRQMSLPSGFQALVSDTVGFIQDLPTTLIAAFRSTLEEVTEADFIVHMVDASHPDHIQQEKTVLRLLEDLGAAQLPMLTVYNKMDLLNEDFIPDSFPSITVSVHDSIDLKRILHKIEEVLKEEWDEYDVFIPASEGKRLQQFKTYSMVTSLTFHEDKEGYALHGFIHPDHPLKHQIY	PGPT0007245_4079	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007245-hflX-K03665	NA	NA
AK012_00436	1263	metZ_1		O-succinylhomoserine sulfhydrylase	ATGAATATTCAAGCTTTGAAAGAACAAGTAGAAATCCAAATAACAGAACAGCACAGGAAAATCGGCCGGATTGTGGAAGAGAATCAATCCAAGGTTCTGGATGCCTTTCATAAACTCCGGGTCAGCGATTCCCACTTCAATCCAACGACAGGGTATGGGTATGACGACTTTGGCAGAGATACACTGGAAGCCTTGTATGCAGAGATATTCCGGGCTGAGGATGCCCTCGTTCGTCCTCAGCTGATTTCCGGTACGCATGCGATTACGACGGCACTATTCGGGGTCCTTCGTCCAGGGGACGAGCTGCTTTACATATCCGGGGAGCCTTATGACACGCTCACGGAAGTGATTGGTACTGAAAATGGAACAGATAAAGGTTCCCTTAAAGATTTCGGTGTGGCTTACCAGTCCATCCCTCTGGATGAACAGGGTGGATTTTCCAAGCAGAAGATCCAAGCGGCTGTATCGGAGCGGACGAAGGTCGTCGCCGTTCAGCGCTCCAAAGGGTACGACAACAGACCGTCCTTCCCGATCAAGAAGATTGAGGAGATCATTGCGTTCGTCCGCAGTCTGAAAGAAGACGTAATCATTTTTGTCGATAACTGTTATGGAGAATTTGTAGAGACAAAAGAACCACTGGAAGCAGGGGCGGATCTTATCGCAGGGTCCTTAATTAAAAATCCAGGTGGAGGTATTGCCCGGATCGGTGGATATATTGCAGGGAAGGAAAATCTGATCGAACAATGCAGCTATCGTTTGACAGCACCAGGTTTAGGCAAAGAAACCGGAGCCAGTCTGAACAGCCTCCAGGAAATGTATCAGGGGATTTTTCTTGCGCCCCATGTCGTGGGAGAAGCTTTGAAAGGTGCCGTCTTCACATCGAGGTTTTTAAGTGAATTAGGTTTTGATACGAATCCTTCCTACGATGCACCAAGGACGGACTTGATCCAGTCCGTGAATTTTGAGAATGCAGACCAGATGATCCGTTTCTGTCAGGCTATCCAGCAGGCATCACCTGTAAATTCTCATGTAACACCACAGCCTGGTGCCATGCCGGGGTATGAAGATGAGGTTATTATGGCTGCGGGAACCTTTATTCAAGGAGCGAGCCTTGAACTTACAGCGGACGGACCTGTCCGACCGCCCTACACCGCCTATGTCCAGGGCGGGCTCACATATGCCCATGTCAAAACAGCTGTAATGAAAGCAGTACAGGGGCTGGAAGATAAAGGAATGGTAAAAGTGGATTCCAAAGCCTTTTAA	MNIQALKEQVEIQITEQHRKIGRIVEENQSKVLDAFHKLRVSDSHFNPTTGYGYDDFGRDTLEALYAEIFRAEDALVRPQLISGTHAITTALFGVLRPGDELLYISGEPYDTLTEVIGTENGTDKGSLKDFGVAYQSIPLDEQGGFSKQKIQAAVSERTKVVAVQRSKGYDNRPSFPIKKIEEIIAFVRSLKEDVIIFVDNCYGEFVETKEPLEAGADLIAGSLIKNPGGGIARIGGYIAGKENLIEQCSYRLTAPGLGKETGASLNSLQEMYQGIFLAPHVVGEALKGAVFTSRFLSELGFDTNPSYDAPRTDLIQSVNFENADQMIRFCQAIQQASPVNSHVTPQPGAMPGYEDEVIMAAGTFIQGASLELTADGPVRPPYTAYVQGGLTYAHVKTAVMKAVQGLEDKGMVKVDSKAF				NA	NA	NA	NA	NA
AK012_00437	405	glnR	COG0789	HTH-type transcriptional regulator GlnR	ATGAGTGATGAAATTCGTCGTTCCATGCCGTTGTTCCCGATGGGGATTGTTCAATCGTTAACAGACCTTACAGCCAGGCAGATCCGTTATTATGAACAGCATGAGCTGATTCATCCTGCCAGGTCTGAAGGAAACCGCCGGATTTTTTCCTTCAATGATGTCGATCGACTGCTTGAAATTAAAGATCTCATTGACCAGGGAGTTAATATGGCGGGAATCAAAAAAGTTCTCAAGCTTGAAGAACAGCCGCAGAACGAGGCATATGATGGAGATCGTGTGAAGGAAGTTCACAATGAATTAACCGATAAACAGCTCCGCCGTATGCTGCAGCAGGAACTATTCACCGCGGGAAGACAAGGAAAACTAGCCATCAGGCAGGGAGAAATGTCAAGGTTCTTCCATTAA	MSDEIRRSMPLFPMGIVQSLTDLTARQIRYYEQHELIHPARSEGNRRIFSFNDVDRLLEIKDLIDQGVNMAGIKKVLKLEEQPQNEAYDGDRVKEVHNELTDKQLRRMLQQELFTAGRQGKLAIRQGEMSRFFH	PGPT0001015_100	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	GLN-NITROGEN_REGULATORY_SYSTEM,PGPT0001015-glnR-K03713	NA	NA
AK012_00438	1332	glnA_2	COG0174	Glutamine synthetase	ATGGGTTTAACAAGAGAAGAAATATTTAAGAAAATCGACGAGGAAAATGTCAAGTTCATCCGTCTGCAGTTTACGGATATGCTCGGCACAATCAAAAACGTGGAGATTCCACTAAGCCAGCTCGACAAGGCACTGGACGGAAAAATGATGTTTGACGGATCCTCCATTGAAGGGTTCGTGCGTATCGAGGAATCGGATATGTATCTGGTTCCTGATCTGGATACGTTTGTCGTTTTCCCATGGACGTCTGAAAAGGGGAAAGTGGCCCGATTCATCTGCGATATTTACAACCCAGACGAAACTCCTTTCGAGGGATGCCCGCGCTATAACCTGAAGCGCAACATTAAAAAAATGGAGAAGCTCGGATTTTCTGCCTTTAATATCGGTACAGAGCCTGAATTCTTCTTGTTTAAACTGGACGAAAAAGGTGACCCTTCCATGGAGCTGAATGACCGTGGCGGTTATTTTGATCTGGCTCCTACCGATCTAGGGGAAAACTGCCGTCGTGATATCGTCCTGGAACTCGAGGAGATGGGCTTTGAAATTGAAGCCTCCCACCACGAGGTTGCCCCGGGTCAGCATGAAATTGATTTTAAGTATGCGGATGCTGTGAAGCACTGTGATGATATCCAGACCTTTAAACTGGTTGTCAAAACGATTGCGCGCCGGCACGGCCTGCATGCAACCTTCATGCCGAAGCCGCTCTTTGGTGTGAACGGTTCCGGTATGCACGCCAACATGTCCCTCTTCAAGAATGGAAATAATGCTTTCTTTGACGAAGGTGGAAAAGAACAGCTTTCTGATGTGGCCTATCAGTTTACGGCAGGTATTATTAAGCACGCTACGAACTTTACAGCGGTTACCAACCCGACTGTAAACTCCTATAAGCGTCTTGTACCTGGATATGAAGCGCCGTGCTACGTAGCCTGGTCCGGACAGAACCGCAGTCCGCTTGTCCGTGTACCAACATCACGTGGTCTCAGTACGCGTATTGAAGTAAGAAGTGTGGATCCGTCCGCCAACCCTTACATGGCTATGGCTGTCCTTCTGGCTGCAGGCCTTGATGGTGTGGAGAACGGCCTTCAGGCTCCAGCTCCAGTAGACCGGAATATTTACGTTATGGATAAGAAAGAACGGGAAGCTCACGGGGTCAAGGATCTGCCTGCCACATTGTATGACGCTCTGGAAGAGCTTCAGGAAGATCCGATCATGGTGGAAGCTCTTGGAGAGCATTTATTTGAGCACTTCATTGAAGCAAAAGAAATTGAGTGGGATATGTTCCGTACCCAGGTTCACCCATGGGAGCGCGAACAGTATCTGCAGACATACTAA	MGLTREEIFKKIDEENVKFIRLQFTDMLGTIKNVEIPLSQLDKALDGKMMFDGSSIEGFVRIEESDMYLVPDLDTFVVFPWTSEKGKVARFICDIYNPDETPFEGCPRYNLKRNIKKMEKLGFSAFNIGTEPEFFLFKLDEKGDPSMELNDRGGYFDLAPTDLGENCRRDIVLELEEMGFEIEASHHEVAPGQHEIDFKYADAVKHCDDIQTFKLVVKTIARRHGLHATFMPKPLFGVNGSGMHANMSLFKNGNNAFFDEGGKEQLSDVAYQFTAGIIKHATNFTAVTNPTVNSYKRLVPGYEAPCYVAWSGQNRSPLVRVPTSRGLSTRIEVRSVDPSANPYMAMAVLLAAGLDGVENGLQAPAPVDRNIYVMDKKEREAHGVKDLPATLYDALEELQEDPIMVEALGEHLFEHFIEAKEIEWDMFRTQVHPWEREQYLQTY	PGPT0000645_8730	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
AK012_00439	1107			hypothetical protein	ATGTATATGGCTCGATTAATCAATCCACCTGGAAGATGGAATGGGCGAACTGTTGCTTTGGATGATGGACATGGAATGGAAACACCAGGGAAAAGAACACCATATATCCAGGAAATAGGAAGACAGATAAAGGAAAACGAATTCAACCGGAAAGTTGTGCAGTATTTAACGCCGATTCTGCTGGATCATGGATTCCGTGTGCTGCTCGTAGCACCAACAAATGAGGATATACCATTATCCTACCGGACACGTGCAGCCAATGAAAACAAAGCTGACATCTATGTATCGGTGCATTACAATGCTTTTGACGGATCTTTTGGTGGGGCGGATCCAAATGGCATCGAACTTTACGTCTATCCCGGTTATTTAAACCGATCAGCCGGAAAACTGGCGTCATCACTAGCAAAATACTTACGCCAGGGCACCGATCAGAACTTCAGAGGCATCAAAGAGGCGAACTTCCACGTATTGCGGGAAACGGACATGCCGGCGGTGTTAACGGAAAACGGTTATATGGATAACAAGCGGGAAGCTTTATTGATGATCGATGAAAGTTTTCAAAAAGAGGTTGCCGAAGAGCACGCCCGTGGAATTTTAGATTATTTCGGTATCCCGTATAAAGGCGGATTGGACTATCTTTCGCTCGGAGATACCGGCGCGGAAGTGACAGAGATGCAGGAAAATTTATTAAAGCTGGGTTATACGATGAATGGCTTTGGAGCCGACGGCAGCTTTGGTCCTGCCACAGAAGCTGCCGTCAAGGCTTTTCAAAAGGATCAGAATCTTGAAGTGGACGGCTTTTATGGACCGAAAACGAAAGCGGCTATGGAGAAAGCTTTAGAAGACCTGGATAAAGGAGAAGAGGAAATGGAAAAACTGGCAGTTGTCATAAACTCTTTTGCAGATTTTCCCGCTGTAGAGGCACTGGCCATCCGCAAAAATGCATTAATTGCCCTTAGAGCCGTGGCAGAAAAGCGTCAGGTCGCTGAACAGATTATTGTGGCCGGGGGCGGCACGGATGGGCTTAAAGGAAGTAATTTTATCGACTTAACCGGGAAAACACGATTGGAGACCTCCCAGAATATCAAAAATTATTTAAGTCAATAA	MYMARLINPPGRWNGRTVALDDGHGMETPGKRTPYIQEIGRQIKENEFNRKVVQYLTPILLDHGFRVLLVAPTNEDIPLSYRTRAANENKADIYVSVHYNAFDGSFGGADPNGIELYVYPGYLNRSAGKLASSLAKYLRQGTDQNFRGIKEANFHVLRETDMPAVLTENGYMDNKREALLMIDESFQKEVAEEHARGILDYFGIPYKGGLDYLSLGDTGAEVTEMQENLLKLGYTMNGFGADGSFGPATEAAVKAFQKDQNLEVDGFYGPKTKAAMEKALEDLDKGEEEMEKLAVVINSFADFPAVEALAIRKNALIALRAVAEKRQVAEQIIVAGGGTDGLKGSNFIDLTGKTRLETSQNIKNYLSQ	PGPT0024160_4439	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK012_00440	231			hypothetical protein	ATGGAGACGATTTTTAACCAGTCCATAGAAAACAGGCAGGTCATCGATATGATCTATTTATCCGAGGGAAAGCATTGGTCCCAGCGATCCGTTCGAGTGATCAAAAATCACCCTGATGCTGTCCTTGCTTACTGTCTGCAGAAGAGGAGCGTCCGCACATTTCTGAAGAAGAACATTTATTCGGCTGATATCCAACGCCGGAATAAAAGGAATCGTACGGATGCCTCTTAA	METIFNQSIENRQVIDMIYLSEGKHWSQRSVRVIKNHPDAVLAYCLQKRSVRTFLKKNIYSADIQRRNKRNRTDAS				NA	NA	NA	NA	NA
AK012_00441	624	lexA	COG1974	LexA repressor	ATGAGTAAACTTTCAAAGCGGCAGCAGGAAATACTAGATTTCATAAAAGAACAGGTTCTGCTTAAAGGGTATCCCCCTTCTGTAAGGGAAATCGGTCAGTCTGTCGGACTGGCATCCAGTTCCACCGTGCACGGACACTTGTCCCGGCTCGAGAAGAAAGGATATATCCGCAGAGACCCGACAAAACCCCGGGCCATTGAAGTGATTGAACTGGAGGAAGACCACAGTATTCCGCGCGGGGAAGCCACGTACGCACCTGTCATTGGTAAAGTTACGGCCGGTTCCCCCATTACAGCGGTGGAGAATATCGAAGAGTACGTCCCCCTTCCGGATACGCTTGCCGGGTCGGAAGAAAATACGTTCGTACTAATTGTTCAAGGGGAAAGTATGATTGAGGCAGGGATCCTGGACGGCGACATGGTCATCGTCAGACAGCAGCAGACAGCTCAGAATGGCGATATTGTCGTGGCCATGACGGAAGATGAAGAAGCTACAGTAAAACGGTTCTTCAAGGAAAAGAACCACATCCGCCTGCAGCCTGAGAATGCTACCATGGAGCCGATCATTTTGAATGACGTGTCCATTCTCGGTCGAGTTGTCGGCTTATATCGTACGGTTCATTAA	MSKLSKRQQEILDFIKEQVLLKGYPPSVREIGQSVGLASSSTVHGHLSRLEKKGYIRRDPTKPRAIEVIELEEDHSIPRGEATYAPVIGKVTAGSPITAVENIEEYVPLPDTLAGSEENTFVLIVQGESMIEAGILDGDMVIVRQQQTAQNGDIVVAMTEDEEATVKRFFKEKNHIRLQPENATMEPIILNDVSILGRVVGLYRTVH	PGPT0014895_2512	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014895-lexA-K01356	NA	NA
AK012_00442	96			hypothetical protein	ATGTTTAATAAACTATCAAAATTGGACTACACCTATATCGTTTTGTTTATTGTTAGTTTTGCCATTCTCTATTATTCTATGGTTACAAGTGGATAA	MFNKLSKLDYTYIVLFIVSFAILYYSMVTSG				NA	NA	NA	NA	NA
AK012_00443	651	yneB	COG1961	Resolvase YneB	ATGAGAGTAATCCTATATTGTCGCGTAAGCACGGAGAAGGAAGCACAGGTCAGTTCCTTGAAAAGGCAGAAAGCGGAACTGTATGCCATGGCCGAACACCATGGAATGGAAGTGGCCTCCTGCATCGAGGAGCAGGCCAGCGGTTATGAGATTGAACGGGAAGGTGTCTTCCAGATGCTTGATGCCTTCTCTAATCAGGAAGCGGAGGCGCTCCTCGTCCAGGATGAGACGAGGCTGGGAAGGGGAAATACGAAAATCGCCCTTTTCCATCAATTGAACCGGTTAAATGTCAAAGTTTATTCTTTATCCCATAATGGTGAACTTCATTTATCCGAGTCGGATTCCATGGTACTTCAGATTGTAGGGATCGTGGAGGAATACCAGAGAAAGATTCATAATATGAAGATCAGGCGGGGGATGCAGAAAGCGGTGGCCGGGGGGTATGACCCATCCTCGAACCTGTCCAATCAGCATCTGGCAGCAGGAAGGGAAAGGAAGGAATTCCCGATCGAAGAGGTTGTCAGACTCAGAGCCAGTGACTTAACGTTCAAGGACATCGCCGCAACATTGAGAGGGCTGGGCTATGATGTATCGAAGGCAACGGTTCACCGGCGTTATAAAGAATACATATCACTTGAAAAAGAAGAATAG	MRVILYCRVSTEKEAQVSSLKRQKAELYAMAEHHGMEVASCIEEQASGYEIEREGVFQMLDAFSNQEAEALLVQDETRLGRGNTKIALFHQLNRLNVKVYSLSHNGELHLSESDSMVLQIVGIVEEYQRKIHNMKIRRGMQKAVAGGYDPSSNLSNQHLAAGRERKEFPIEEVVRLRASDLTFKDIAATLRGLGYDVSKATVHRRYKEYISLEKEE				NA	NA	NA	NA	NA
AK012_00444	234			hypothetical protein	ATGTTATCTCAAGAAAAATTAGACCGTATAAACGAATTAGCCAATAAATCAAAGCAGCAGGATTTAACGAAGGAAGAAAAAAATGAACAAAAAAACCTGCGTCAGGAATATTTGCAGAGTGCACGCAAGTCATTCAAAAACCAATTGAAAGGCGTCACAGTCATTGATCCGGCCGGGAATGATGTGACCCCTGCCAAACTAAGACAAATGCAGGAAAATGAAAAGAAAAACTAA	MLSQEKLDRINELANKSKQQDLTKEEKNEQKNLRQEYLQSARKSFKNQLKGVTVIDPAGNDVTPAKLRQMQENEKKN				NA	NA	NA	NA	NA
AK012_00445	2076	tkt		Transketolase	TTGCACAACGCCTTGTTTCATTATAGGATAATACATGGTACATATACCTGTACAGAAAGGGGAATATTGGAAATGGCAAAAAGCCTTGAACAAACTTCAATTAATACAATTCGAACACTTACGATTGATGCAGTAGAAAAAGCAAGTTCCGGACACCCGGGTATGCCTATGGGAGCGGCTCCTATGGCTTATAAACTCTGGACGGAATTCATGGATCACAACCCTAAAAACTCAAACTGGTTTGACCGCGACCGTTTCGTCCTCTCAGCAGGCCACGGTTCCATGCTTCTATACAGCCTCCTGCACCTATCCGGATACAATGTCACGATGGATGATCTGAAATCGTTCCGTCAGTGGGGTTCTAAAACTCCCGGACACCCGGAATATGGTCATACAGACGGTGTCGAAGCAACTACCGGTCCGCTTGGCCAAGGGCTCTCTATGGCTACGGGTATGGCAATGGCAGAAGCGCATCTGGCTGCTAAATACAACCGTGAAGGCTACAACGTTGTAGACCACTATACATTCGCCATCTGTGGAGACGGTGACCTGATGGAAGGGGTATCCCAGGAATCAGCTTCGCTTGCCGGGCATCTTGGTCTCGGAAAGCTGGTTGTCCTTTATGACTCCAACGACATTTCCCTTGACGGTGACCTTGACCGTTCCTTCAGTGAAAGCGTTGAAAAACGTTATGAAGCGTATGGATGGGAAGTCATCCGCGTTGAGGACGGTACAGATGTGGAAACGATTGGACAAGCGATCCAACAGGCGAAATCCAATACGTCCCAGCCGACAATGATCGAAGTGAAGACTGTCATCGGCTACGGTTCTCCGAACAAATCCGGTAAATCGGATTCCCACGGTGCTCCACTTGGGGAAGAAGAAGGAACAGCTGCCAAGCAGTTCTACGGATGGGAACATGAACCTTTCCATGTCCCTGATGAAGTTTACCAGGATTTCCAGGATAAAGTTCAAAAGAACGGCGAAGATAAAGAGCAGTCCTGGAACGAATTGATGGCTTCCTATAAAGAAGCGTATCCAGAGCTTGCTGAAGAACTGGAAGCCGCTATCCGCGGGGAACTGCCTGAAGGTTGGGATAAAGAGCTTCCATCTTATAAAGTAGGCGAAGACAGCCCGGCTACCCGTGCAGCGTCTGGTGATGCCATCAATGCATTGTCCAAGACGGTCCCATATTTCTTCGGTGGAAGTGCAGACCTTGCCGGATCCAACAAAACAGCAGTAAAAGGAGAAGAAGACTTCTCCCGCGAAAATTATGCCGGCCGTAACATCTGGTTTGGTGTACGTGAATTCGCTATGGCTGCTGCACTGAACGGTATGGGTCTTCACGGCGGATTGAAGGTTTATGCGGGTACATTCTTTGTATTCAGTGACTACCTTCGTCCAGCTGTCCGACTTTCTGCTCTTATGAATCTACCGGTTAATTATGTGTTCACACACGATTCTGTTGCTGTAGGTGAAGACGGACCGACACACGAACCTGTGGAACAGCTTGCGTCTCTGAGAGCTATGCCGAATCTTTCCGTGCTTCGTCCGGCGGATGGGAACGAAACCAACGCGGCATGGAGACTGGCTCTTGAGTCAGAAGATAAGCCGTCCGCACTTGTCTTGACGCGTCAGGGGCTTCCTACTCTGGAAGGAACAGAAGAGCATGCTTATGAAGGCATGAAACGCGGGGCTTACGTCCTGAGCGATTCGGATAAGGAAGAGCCGGATGCGATTCTTCTGGCTTCTGGTTCAGAGGTACAGTTGATCGTTCAAGCTCAGGAAGAGCTTAAGACGAAAGGCTATGATGTGCGCGTCGTCAGCGTACCTTCCTTTGACCGCTTCAACGAGCAGTCAGCTGAATATAAAGAGAAAGTTCTTCCAAACAGCGTGCGCAAGCGTCTGGCTGTTGAAATGGGAGCTTCCTTCGGCTGGGAGCGCTATGTAGGCCTTGACGGATCTGTCATTGGTATCGATACATTCGGTGCTTCAGCTCCAGGAAATACAGTCATTGAAAACTACGGCTTTACGGTTGAAAATGTTGTAAAACATGCTGAAAACCTTATGAAGTAA	MHNALFHYRIIHGTYTCTERGILEMAKSLEQTSINTIRTLTIDAVEKASSGHPGMPMGAAPMAYKLWTEFMDHNPKNSNWFDRDRFVLSAGHGSMLLYSLLHLSGYNVTMDDLKSFRQWGSKTPGHPEYGHTDGVEATTGPLGQGLSMATGMAMAEAHLAAKYNREGYNVVDHYTFAICGDGDLMEGVSQESASLAGHLGLGKLVVLYDSNDISLDGDLDRSFSESVEKRYEAYGWEVIRVEDGTDVETIGQAIQQAKSNTSQPTMIEVKTVIGYGSPNKSGKSDSHGAPLGEEEGTAAKQFYGWEHEPFHVPDEVYQDFQDKVQKNGEDKEQSWNELMASYKEAYPELAEELEAAIRGELPEGWDKELPSYKVGEDSPATRAASGDAINALSKTVPYFFGGSADLAGSNKTAVKGEEDFSRENYAGRNIWFGVREFAMAAALNGMGLHGGLKVYAGTFFVFSDYLRPAVRLSALMNLPVNYVFTHDSVAVGEDGPTHEPVEQLASLRAMPNLSVLRPADGNETNAAWRLALESEDKPSALVLTRQGLPTLEGTEEHAYEGMKRGAYVLSDSDKEEPDAILLASGSEVQLIVQAQEELKTKGYDVRVVSVPSFDRFNEQSAEYKEKVLPNSVRKRLAVEMGASFGWERYVGLDGSVIGIDTFGASAPGNTVIENYGFTVENVVKHAENLMK	PGPT0011200_3010	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
AK012_00446	225			hypothetical protein	ATGACATTGGGGATCGTTTGGGTTATCATCATTGCTCTATTGACTCTTGTCGGTGGTGTTGCACTAGGCTTCTTCATCGCCAGAAGATATATGATGAACTATTTGAAAAAGAACCCGCCAATCAATGAACAGATGTTACGTACACTGATGATGCAGATGGGCCAGAAGCCGTCGCAGAAGAAGATCAATCAGATGATGCGTTCCATGAACAACCAAATGAAATAA	MTLGIVWVIIIALLTLVGGVALGFFIARRYMMNYLKKNPPINEQMLRTLMMQMGQKPSQKKINQMMRSMNNQMK				NA	NA	NA	NA	NA
AK012_00447	702	dsbD		Thiol:disulfide interchange protein DsbD	ATGGATGTTAATCTATTCCTTGCCTTTGGAGCAGGCTTTTTGTCGTTTATTTCCCCATGTGTCTTTCCTTTATATCCAGCTTTTCTTTCGTACATAACAGGTATGAGTGTGCAGGAGTTAAAAGAGGACAATGGTATGCTGAAGCGGACCAGTTTTATACATACGCTGCTTTTTTTGCTGGGCTTCACAACAATCTTCCTGATCCTGGGGTTTTCCGGCTCATTCTTTTCCCAGTTTCTTATCCAGAATGAAACGATTATCCGGAGACTGGGAGCCATTCTCATTATTTTCTTCGGGTTTGTCATTATTGGTGTGTTCAACTTCGACTTCTTAATGAAAGATCGGAAAATCACTTTTAAAAACAGGCCTTCCGGGTATTTGGGGACGTTTCTCATCGGTCTGACATTCTCCCTGGGGTGGACACCCTGCACTGGACCGATCCTTGCCGCTGTCCTTTCCCTGGCAGCCGATTCGCCTGATCTGTTCCTCGTCATGATGATTGCCTATTCCCTGGGCTTTTCCATCCCTTTTTTTGCGCTTTCCTTTTTCATAGGACGTCTGGGATGGATCAGACGCCACAGTGCGGGGATCGTAAAGGCAGGCGGGTTTATTATGATTGCTGTTGGAATCGCCCTGTATTTCAACTGGATGTACATGCTGACGTCCTATTTAGCCGGCTTGTTTGATTTTCAAGGGTTTTAA	MDVNLFLAFGAGFLSFISPCVFPLYPAFLSYITGMSVQELKEDNGMLKRTSFIHTLLFLLGFTTIFLILGFSGSFFSQFLIQNETIIRRLGAILIIFFGFVIIGVFNFDFLMKDRKITFKNRPSGYLGTFLIGLTFSLGWTPCTGPILAAVLSLAADSPDLFLVMMIAYSLGFSIPFFALSFFIGRLGWIRRHSAGIVKAGGFIMIAVGIALYFNWMYMLTSYLAGLFDFQGF				NA	NA	NA	NA	NA
AK012_00448	444	mrpB	COG2111	Na(+)/H(+) antiporter subunit B	ATGACCCGGACCAATGACATCATTTTACGAACTACTACAACGCTGATTGCCTTCATCCTTCTTGGATTTTCGGCCTACTTGTTCTTTGCCGGCCACAATGCGCCGGGGGGAGGATTTATTGGAGGACTTATGACATCAGCGGCTATCGTGCTTATGTACATGGCCTACGGAATTAAATCCATGGAAAAGATTCTTCCTATCAATTTCAGGCATGTGATTCCGGTTGGGCTGCTGATAGCTGCTTTAACGGGTGTGGGAGGTCTTTTATTTGACCAGCCGTTTTTAACCCAGACGTTTGCCTATTTCCAGCTTCCGATCCTTGGAAAAACCGAACTTGCTACAGCGCTGCTGTTTGATCTTGGGGTTTATCTGGCTGTTGTAGGTGTTACGATGACCATTATTCTCACCATTGCAAATGACCGGGGGGAAGAGGAAGGCGTGTAA	MTRTNDIILRTTTTLIAFILLGFSAYLFFAGHNAPGGGFIGGLMTSAAIVLMYMAYGIKSMEKILPINFRHVIPVGLLIAALTGVGGLLFDQPFLTQTFAYFQLPILGKTELATALLFDLGVYLAVVGVTMTIILTIANDRGEEEGV	PGPT0013900_865	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013900-mnhB-K05566	NA	NA
AK012_00449	483			hypothetical protein	ATGTTTTGGTTGATTGCAAGTACAGTGGCCGCGGCTTTCATGGCCACAGCGATGATTTTTGTGCGTCTGAGGGCCGCCAGAAAGCCGGCCAGTGTGAAGAAAATTATTCTTCCGCCATTCTTTATGAGTACCGGCGCATTCATGTTTGTTTTTCCGATTTTCCGTGTCGAGTGGACCCAGGTTCTTGAAGCTGTATCCATCGGAGCGCTTTTTTCAATCTTTCTTATCCGGACTTCGAAATTTGAAGTGCGGGATGGCGATATTTACTTAAAACCTTCAAAGTCATTCATTATGATTTTGTTCGGCCTGCTTGCTGTAAGGATCATTTTCAAATTGATCGTCGGACAGCATGTGTCCCTGGGAGAAACAAGCGGCATGTTCTTCCTGCTCGCCTTTGGTATGATCATTACCTGGCGGCTGGCTATGCTGAAACAGTACTTAAACCTGGAAAAAAAGATGCATACAGGAAAGGACCCCGCCTGA	MFWLIASTVAAAFMATAMIFVRLRAARKPASVKKIILPPFFMSTGAFMFVFPIFRVEWTQVLEAVSIGALFSIFLIRTSKFEVRDGDIYLKPSKSFIMILFGLLAVRIIFKLIVGQHVSLGETSGMFFLLAFGMIITWRLAMLKQYLNLEKKMHTGKDPA				NA	NA	NA	NA	NA
AK012_00450	429			hypothetical protein	ATGTCAGGTGGTTTCGCACTCTTTATTGTCGGCTGGATTATCATCATGGTCAGCCTGATGGCCATCGGCGGATTTTTTATGTTTCGGAAATTTCTTAAACGGCTTCCAAAAGAGGATGGAAAATCGACCATAGACTGGGAAGAATACTATGTGGACCAGACCCGGCATATGTGGTCGAAGGATCAGAAGGAGCTGCTGGAGGAACTGATTTCTCCTGTTCCTGAGATTTTCAGGGATGTGGCCCGCCAGAAGATTGCTGGACGTATCGGCGAACTGGCTCTGAGCAGCCGAAAGAAAAGAATTACGCAGGACATTCTCATCGAAGGGTATATCCTCGCCACCCCTAAACGGGACCATAAGTTTCTGGTCAAGAAGCTGAACGAGAAAGAAATCGATATGACCCCTTACCAGACACTTCTGGAAAATTAA	MSGGFALFIVGWIIIMVSLMAIGGFFMFRKFLKRLPKEDGKSTIDWEEYYVDQTRHMWSKDQKELLEELISPVPEIFRDVARQKIAGRIGELALSSRKKRITQDILIEGYILATPKRDHKFLVKKLNEKEIDMTPYQTLLEN				NA	NA	NA	NA	NA
AK012_00451	2706	citB	COG1048	Aconitate/2-methylaconitate hydratase	ATGGCTAGCAATGCTTTTCATGCTCGCAAACAATTTGACCTAAACGGCCAAACCTATAACTATTACGACCTGAAAGCCTTAGAAGATGCGGGACACGGCAAGATCTCCCGTCTGCCTTTCTCTATCCGTATCCTACTGGAGTCTCTGCTTCGTCAGCACGACGGACGTGTTATTAAAGATGAACACGTGGAGAGTCTAGCAAACTGGGGAACTGAAAAATCAAAAGGGGAGGACGTTCCATTTAAGCCTTCCCGCGTTATTCTGCAGGACTTCACCGGTGTACCGGCTGTTGTTGATCTTGCGTCCTTAAGAAAAGCCATGGTCGATATGGGCGGCAGTCCGGAAAAAATCAATCCGGAAGTACCGGTTGATCTTGTTATCGACCACTCTGTGCAGGTGGATAAATACGGAACACCTGATGCATTAAATGTGAACATGGAACTTGAATTTGAACGAAATAAAGAGCGTTATGAATTCCTTCACTGGGCTCAAAAAGCGTTTGACAACTACCGTGCTGTACCACCGGCAACAGGTATTGTCCACCAGGTAAACCTTGAGTACATCGCAAATGTCGTTCACGCGCTGGAAGCGGAAGACGGGACGTATGACGCCTATCCGGATACACTCGTTGGTACAGACTCCCATACGACGATGATCAATGGTCTTGGTGTTCTCGGCTGGGGTGTTGGTGGTATTGAAGCTGAAGCTGGTATGCTCGGCCAGCCATCCTATTTCCCTGCTCCGGAAGTCATCGGTGTGAAACTGAATGGCAGCTTCCCACAGGGTACAACAGCGACAGACCTTGCGTTAAAAGTAACACAGAAGCTTCGTGAGCAGAATGTTGTCGGAAAGTTCGTCGAGTTCTTTGGACCCGGCCTTCAGGAGATGCCGCTGGCTGATCGTGCCACGATTTCCAACATGGCGCCCGAATACGGAGCTACATGCGGGTTCTTCCCGGTTGATGGAGAATCCCTGGAATATCTCCGCCTGACAGGAAGAACGGAAGATCAGATCAAGCTTGTAGAAGAATACTCCAAGCGGAACAACCTCTGGTATGATCCATCATTCGAAGATCCTGAATTTACGTCACTGGTTGAAATCGATCTCGGGGAGCTTGAGCCGAACTTGTCCGGTCCTAAGCGTCCGCAGGATTTGATTCCATTGTCCCGGATGAAGGATTCCTTTGAAAAAGCGATCACCGGTCCTGCCGGCAACCACGGTTTCGGACTTGATAAGTCTGAATTTGATAAAGAGGCGGAAGTTCAGTTTGAAAACGGCGACAAATCCGTCATGAAAACTGGTGCCCTTGCTATCGCAGCGATTACGTCCTGTACAAACACGTCCAACCCGCATGTTATGCTGGGTGCCGGACTGGTGGCGAAAAAAGCTGTGGAAGCTGGACTGCAGGTTCCTGATTATGTGAAGACTTCCCTTGCACCGGGATCCAAGGTTGTAACCCGTTACCTTGAAGATTCAGGGTTAATGGATTACTTGAACCAGCTCGGCTTTAATCTTGTCGGTTACGGCTGTACGACATGTATTGGTAACTCCGGGCCGCTTTTACCTGAAATAGAAAAAGCGATTGCTGACAGTGACCTTACTGTATCTTCTGTCCTTTCCGGTAACCGGAACTTTGAAGGTCGTATTCACCCGCTGGTAAAAGCCAATTATCTGGCTTCTCCACCCCTTGTGGTTGCTTATGCACTGGCTGGTACGGTTGATATCGACCTTAAAAACGAGCCGATTGGAAAAACAGTGGATGGAAAAGATGTCTACTTCAATGATGTCTGGCCTTCCCAGGAAGAAATTAAAGCGGAAATCGCCCGCGTAGTCACACCTGAGATTTTCCGTAAAGAATATGAAAGTGTCTTCAATTCCAATGAAAAGTGGAATGAGATCGAGACGACAGACGAACCGTTGTATGATTGGAACGATGATTCCACTTATATCCAAAACCCGCCGTTCTTTGAAGGTCTTTCCAAGGACCCTGAAACGGTTAAACCGATTCATGGCATGCGCGTTGTTGGTAAGTTTGGTGATTCCGTAACGACGGACCACATTTCACCGGCAGGGGCGATTCCTAAGGATATGCCGGCAGGAGAGTACCTGCAGGACAAAGGCGTAAGCCCGCGTCATTTCAACTCCTATGGTTCCCGACGTGGTAATCATGAAGTGATGATGCGTGGTACATTCGCCAATATCCGGATCCGTAATGAACTTGCGCCTGGTACAGAAGGTGGATTTACAACTTACTGGCCGACTGAAGAAGTCATGCCGATTTATACAGCGGCTATGAAGTATCAGGAAGATCAAACGCCGTTGATGGTCATTGCCGGTAACGATTACGGTATGGGAAGCTCCCGTGACTGGGCGGCCAAAGGTACCGATCTCCTTGGTATTAAGACGGTCATCGCTGAGAGCTTTGAGCGTATTCACCGTTCCAACCTTGTTATGATGGGTGTTCTTCCTCTGCAGTTTAAGCCGGAAGATTCTATTGAATCCCTTGGTCTGACAGGCAGGGAAACGTTCGACGTTGAAGTCGGTGAAGACGTGAAGCCGCGTGACCTTGTGAAGGTAACCGCTGTGGATGAGGAAGGCAGCAAGAAAGAATTTGATGTCATTGCCCGTTTTGACAGTGAAGTGGAAGTGGATTACTACCGTCATGGTGGAATCCTGCAGATGGTACTGCGTAACAAGCTTCAATAA	MASNAFHARKQFDLNGQTYNYYDLKALEDAGHGKISRLPFSIRILLESLLRQHDGRVIKDEHVESLANWGTEKSKGEDVPFKPSRVILQDFTGVPAVVDLASLRKAMVDMGGSPEKINPEVPVDLVIDHSVQVDKYGTPDALNVNMELEFERNKERYEFLHWAQKAFDNYRAVPPATGIVHQVNLEYIANVVHALEAEDGTYDAYPDTLVGTDSHTTMINGLGVLGWGVGGIEAEAGMLGQPSYFPAPEVIGVKLNGSFPQGTTATDLALKVTQKLREQNVVGKFVEFFGPGLQEMPLADRATISNMAPEYGATCGFFPVDGESLEYLRLTGRTEDQIKLVEEYSKRNNLWYDPSFEDPEFTSLVEIDLGELEPNLSGPKRPQDLIPLSRMKDSFEKAITGPAGNHGFGLDKSEFDKEAEVQFENGDKSVMKTGALAIAAITSCTNTSNPHVMLGAGLVAKKAVEAGLQVPDYVKTSLAPGSKVVTRYLEDSGLMDYLNQLGFNLVGYGCTTCIGNSGPLLPEIEKAIADSDLTVSSVLSGNRNFEGRIHPLVKANYLASPPLVVAYALAGTVDIDLKNEPIGKTVDGKDVYFNDVWPSQEEIKAEIARVVTPEIFRKEYESVFNSNEKWNEIETTDEPLYDWNDDSTYIQNPPFFEGLSKDPETVKPIHGMRVVGKFGDSVTTDHISPAGAIPKDMPAGEYLQDKGVSPRHFNSYGSRRGNHEVMMRGTFANIRIRNELAPGTEGGFTTYWPTEEVMPIYTAAMKYQEDQTPLMVIAGNDYGMGSSRDWAAKGTDLLGIKTVIAESFERIHRSNLVMMGVLPLQFKPEDSIESLGLTGRETFDVEVGEDVKPRDLVKVTAVDEEGSKKEFDVIARFDSEVEVDYYRHGGILQMVLRNKLQ	PGPT0001465_2303	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
AK012_00452	591	resA_1		Thiol-disulfide oxidoreductase ResA	ATGCAGAAATGGCTAGCTGGTCTTTTTTTAGCCGGACTTCTCATATTCGGTATTTTTTCTGTTATGCAGGAAACTGACGGTGAACAGCATAATACGGTAGAAACGCCGGAAAGCAGCGGAAGTCAGGATGGAGCAGGAATGACCGCTCCCAATGCTCCCGAAGGGCTCCAGCAGGGGGATGCCGCCCCTGATTTTACGTTGGAAACCCTGGACGGGGAAACGGTCAGCCTCTCTGACTTTAGAGGTAAAAAGGTGTTTTTGAACTACTGGGCTACGTGGTGCCCGCCATGCAGAGAGGAAATGCCTGAGATGCAGCGTTTTCAGGAAGCACATGGAGATGACGTCGTGATTCTTGCAGTTAATGGAACGGGTTCGGAAAAAAGTGTGGAAAAGGTGGAGGATTTCGTAGAGGACGGCGGCTATACATTTCCTGTCCTCCTGGATCAGGAATTATCCCTGAATCAGAATTATCAGATCATCTCTATTCCGACCACCTATTTCATCGGTACAGACGGGATTATCCAGGAGCCCAGGATCGTAGGCCCGATGACATATGAGGATATGGAAAAAATGAAAAATGCGTTAAAATAG	MQKWLAGLFLAGLLIFGIFSVMQETDGEQHNTVETPESSGSQDGAGMTAPNAPEGLQQGDAAPDFTLETLDGETVSLSDFRGKKVFLNYWATWCPPCREEMPEMQRFQEAHGDDVVILAVNGTGSEKSVEKVEDFVEDGGYTFPVLLDQELSLNQNYQIISIPTTYFIGTDGIIQEPRIVGPMTYEDMEKMKNALK				NA	NA	NA	NA	NA
AK012_00453	144			hypothetical protein	ATGCGAAAACATAAACCAGTTTCTTTTGAAGAGCGTGTAAAAGAAAACATAAGGACGATTGAATCTGATCAAAAGTTGATGGATCAGATTGATGATCGTATAGAAAAAAGACATAAGGACCGTTTAAAGCAGATTCCGTCATAA	MRKHKPVSFEERVKENIRTIESDQKLMDQIDDRIEKRHKDRLKQIPS				NA	NA	NA	NA	NA
AK012_00454	255	tlp		Small, acid-soluble spore protein Tlp	ATGTCTCATAAACAACAACATATGGCTAATCAAAAACCAAACCCGGACAACCGGGCCGATAACGTAGACCGGCTGCAGGAGAAAGTGCAGAACACAATCGAGAACATTGAAGCTTCTCATGACGCTCTTGCGTATGCTACCGAAGAGGAACAGCGTAACATTGAAGACAAAAACAAGCGGAGAAACGAATCTCTCCGCGCCATGAGGCAGGAAATCAAAGAAGAGTCCGCCCATTCCAGGCATCAACAATACTAA	MSHKQQHMANQKPNPDNRADNVDRLQEKVQNTIENIEASHDALAYATEEEQRNIEDKNKRRNESLRAMRQEIKEESAHSRHQQY	PGPT0024940_179	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024940-tlp-K06434	NA	NA
AK012_00455	2256	ruvB_1		Holliday junction ATP-dependent DNA helicase RuvB	ATGCTGAATACGTTGAGACAATGGAAAAGTATAAATCAGGCTCCTCCCATTACAGAGGTGGAGGCGCTCCGATATGTGAATGAAGGGACTGAGGACAAGGAGTTGAAAGCTGTCCTTTATACAGCCCTCTCTTATCACAGGATGAAAAGACACCCAGGGGAGGACCCGCTGGCCGATCAATTTATTGATGAAGCCCGAAGGCTCGAAGGTTCCCATTCACTGGTTACAGACCTGTATGAATCAAAGCAGCTGATGAAAGCCTACGCCATACTAAAAGAAACCCCCTTAGAGCAGTGGATCCTTCATGAGACGGATCATGATTCGGCAAAAGCTAAAAAAGTGAAATCGATTTATGAGGATGTCCAGGAAGTCATCAGTCAGTGGAACCACGAGCTGGCAGAGAAGACTCTTCTTGATGTTTCCAGCCGCCTGAAGATCTATCAGGATATTTACAATGAGCTGGAAGAGCTGAAGGAAATGCTTGAAGAAGCCATCCACTCGATTGAAAACCGGAGAATCCGTGTGCCGGTGAAGGAAGTGAACGAGCGGACGAGACAGCTGTCTGATAAACAGGATGACATCCACCGGCGGCTGCCGGAGTTTCTTACGGAAACAGCCACACGGAATCCATTGGAAGCCCTGGACCAGATGGTCGGTCTTCAGGATGTGAAAGATTACATCCGCCGCTATTACCGCTTTCTTCAATATCAGCAGGAGCGGAAGAACTTTGGCTTTACGATGGTGGATGAGCCGGGGTTACATATGATCATTACAGGTAACCCGGGGACAGGGAAAACAACGATGGCCCGTCTGCTGGCTAATATTTACCACGAACTCGGTATTCTCGATACGAAGGAAGTGGTGGAAGTCAACCGCTCCCATTTGGTTGGTTCCTATGTCGGCCAGAGTGAAGAAAATACGATGAATTACGTAAAACAGGCGATTGGAGGCGTGCTGTTCATTGACGAGGCCTACAGCCTGCGCAGAGAAGGCCAGACAGGCAATGATTACGGACAGGCGGTCATTGATACCCTTGTTTCGGCGATGACCAGCAAGGAATACGGAGGAAAGTTTGCCGTAATTATGGCTGGTTATCCAGAGGAAATGCGTCAGTTCTTATGGTCCAATCCGGGGCTTAGAAGTCGTTTCCCTGAACAGAATCATATTGAACTTCCCGATTATCAGATGGATGAGCTCATGAATATAGCAGAACAGACAGCCCTGGAAAATGATTTCTTTTTCACAGAGCAGGCCAGAAAACAGTTCGATTCCCTGATTGATAAAGAACGGGTCGATGATTCGTTCGGTAATGCCAGAACGGTAAAGAATCTTGTATTAAAAACTGTGTTTCATAAGGGAGCACAGGAGGCGGAGCGTGATAAGCAGCACTGGCTCGACCATATGCGGATCACGACAGAAGACTTGTCGTGGGATGATGACGATAAGCTGGAGGAGCGCACGCCTATGCAGCGGCTTGATGAATTGATCGGTCTTACGGGTGTGAAAACCGAAGTCCGAAAGCTGTCGTCCTTTGTCCAGGCTCAGCAGAAACGCAAGGAAAAAGGTCACCCGGTCGTGCCCATCCAGCTTCATTCGGTCTTCTCAGGAAATCCGGGAACAGGAAAAACAACCGTGGCTGCCATCTATGCTGACGTCTTAAAAGAGTGCGGCCTTCTTAAACGGGGCCATATGGTTGTCGCATCCCGTTCGGATCTTGTCGCCGGCTATGTCGGTCAGACCGCCATCAAAACAAAACGTAAAATCAGGGAAGCCCTTGGCGGCGTTCTTTTCATTGATGAAGCCTATGCCCTCTATAACGGCGGGCGTGATGATTTTGGCAAAGAAGCGATTGAAACCCTTGTCGATGAAATGACGAAACACAATGAGAACCTTGTTGTTATTTTAGCGGGGTATAAGCAGGAGATGGAGCAGCTGGTCGAGAGTAATCCCGGCCTTTCCTCCCGTTTTAAGAAATATTTCCAGTTCCCGGATTATACCGAGCAGGAGCTGTTGGAAATGACCCATTTTCACGCGCGGAACTACGGATACTTTTTCAATGAATGGGCCGAGTCCTATCTGCTTGAGAAATATTCCGACCACTATATTCGCGGGAATGGGCGTTTCGTAAGTAATCTTGTCAATGAAGCTGTTCAATATCAGGCTATACGGATGATGGAAGATGAGCTGGAAGATATGAATGAGCTTGAACTGCCAGACTTGGAAAAAGCCTGGAGCGCAGTGAGAAGGGAGTCTTAG	MLNTLRQWKSINQAPPITEVEALRYVNEGTEDKELKAVLYTALSYHRMKRHPGEDPLADQFIDEARRLEGSHSLVTDLYESKQLMKAYAILKETPLEQWILHETDHDSAKAKKVKSIYEDVQEVISQWNHELAEKTLLDVSSRLKIYQDIYNELEELKEMLEEAIHSIENRRIRVPVKEVNERTRQLSDKQDDIHRRLPEFLTETATRNPLEALDQMVGLQDVKDYIRRYYRFLQYQQERKNFGFTMVDEPGLHMIITGNPGTGKTTMARLLANIYHELGILDTKEVVEVNRSHLVGSYVGQSEENTMNYVKQAIGGVLFIDEAYSLRREGQTGNDYGQAVIDTLVSAMTSKEYGGKFAVIMAGYPEEMRQFLWSNPGLRSRFPEQNHIELPDYQMDELMNIAEQTALENDFFFTEQARKQFDSLIDKERVDDSFGNARTVKNLVLKTVFHKGAQEAERDKQHWLDHMRITTEDLSWDDDDKLEERTPMQRLDELIGLTGVKTEVRKLSSFVQAQQKRKEKGHPVVPIQLHSVFSGNPGTGKTTVAAIYADVLKECGLLKRGHMVVASRSDLVAGYVGQTAIKTKRKIREALGGVLFIDEAYALYNGGRDDFGKEAIETLVDEMTKHNENLVVILAGYKQEMEQLVESNPGLSSRFKKYFQFPDYTEQELLEMTHFHARNYGYFFNEWAESYLLEKYSDHYIRGNGRFVSNLVNEAVQYQAIRMMEDELEDMNELELPDLEKAWSAVRRES				NA	NA	NA	NA	NA
AK012_00456	426		COG0824	Putative esterase	ATGAAAATTATTGAAACACCCATCCAGGTCAGGTATCAGGAAACCGATATGATGGGGGTCGTCTATCATGCCAATTATCTGATCTGGTTTGAAATCGGACGGACCGCCTTCATCGAGGGACTCGGGTTCAGTTATGCAGAAATTGAAAAACAAGGCGTCGTTTCCCCGGTGATTGATGCTCAGGTGAGTTTTAAAAAGCCGGTACGGTACGGGGATGATGTACAAGTCCGTACATGGGTGGAATCCTATGATGGCCTTCGCGTATCCTACGGTTATGAAGTCGTCCATCATGACGGATCCATCGCTGTTACAGGTGTAACGAAGCATGTGGTGGTGAAAAGCGGCAGCTTCCGCCCGGTCTCTATACGGAAGAGCTTTCCCGAATGGCATGAAGCTTACGTGTCAGCCTTGGAGACAACAAGCTGA	MKIIETPIQVRYQETDMMGVVYHANYLIWFEIGRTAFIEGLGFSYAEIEKQGVVSPVIDAQVSFKKPVRYGDDVQVRTWVESYDGLRVSYGYEVVHHDGSIAVTGVTKHVVVKSGSFRPVSIRKSFPEWHEAYVSALETTS	PGPT0001850_5612	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
AK012_00457	312			hypothetical protein	ATGGCCTTTGGTGTGAAAAGGAAAGAGCTGGAGACATGGAAACGGAGGATTCAGCAGGGGGAAGTCGCGCTTCTTACTCATTTCTGGCTGGATGAGAGATTTCCAGGCTGTGACACAGTTACGAAAGCCGGATGCAGTGATCTGGACGTGTTAAAGAAATGGGGACGGCGTTACGGCCTTCATCCAGGGTGGATCCACCTTGACCCTTATCCTCATTTCGACTTGTTCGGCGATAAGCAGTATGAAATATTAAAGCAGGAAGGGTACTGGGAGCATATCGAGCGATTCTCGCTGGGTAAAAAGGAGACGTAA	MAFGVKRKELETWKRRIQQGEVALLTHFWLDERFPGCDTVTKAGCSDLDVLKKWGRRYGLHPGWIHLDPYPHFDLFGDKQYEILKQEGYWEHIERFSLGKKET				NA	NA	NA	NA	NA
AK012_00458	291			putative protein	ATGAATTTAACCGTAACCGAAGAAGCTGCCGAATGGTATGAAAATGAACTGGATATAGATGAACAGGCCCATCTCCGTTTTTACGTAAGATATGGAGGAACAGGCGGTCTCCAGCCCGGTTTTTCCCTGGCGATCAAATTGGAAGAACCTTCTGAGCCGGTCGCCGAAACCAAGACTGGACGCATCCATTTCTTCATAGAATCGGATGATGCCTGGTATTTTGATGACCACTCCCTTGAAGTTCAGTATGATACTAAATGGGAAGAACCTTCATTCGAATATAAAAAGTAA	MNLTVTEEAAEWYENELDIDEQAHLRFYVRYGGTGGLQPGFSLAIKLEEPSEPVAETKTGRIHFFIESDDAWYFDDHSLEVQYDTKWEEPSFEYKK				NA	NA	NA	NA	NA
AK012_00459	234	yidD	COG0759	Putative membrane protein insertion efficiency factor	ATGAAACAAGTGATGATCGGCATCATCCGTTTCTACCAAAAAGGGATCAGCCCCTTTTTTCCACCGAGCTGCCGCTTTCAGCCCACCTGCTCGTCTTACGGGATTGAAGCTTATAAGCGCTTTGGTTTTTTAAAAGGGACATGGCTGACGGTCCGACGGATTTTGAAATGCCACCCTTTCCACCCTGGTGGGTTTGACCCTGTACCGATGAAGAAAGAACACGCAGATAAGTAA	MKQVMIGIIRFYQKGISPFFPPSCRFQPTCSSYGIEAYKRFGFLKGTWLTVRRILKCHPFHPGGFDPVPMKKEHADK	PGPT0024530_176	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
AK012_00460	945	folE2		GTP cyclohydrolase FolE2	ATGAATAAAACCGAACTAAATCAAACGAAACAGCTGCCTACTAAAGAAGAAAGACATAAATTATTCGGGTCTGTCGATCCAGGTCCACGCACCAAACCCGTCGAAAAAGATCAGATGGCGGATCTGCAGAATTCAAGAAAAGATTTTCTGTTCGATATTGATATGGTGGGTATTTCAAATGTCAAACACCCGATTCGTATCCCGAGCAGTATGACCCCTCAGATTCAAACAACCATCGGCACCTTTTCCTTTGGCTCCTCGATTGCCAAAGGCAGTAAAGGTACCAATATGAGCCGGTTCACCGAACAGCTCGATAAATACCACAATGAAGGCTTTGCTATTGATATCGAAACCTTGAAACAGTTCACCGAGGAACTGGCCGGACGTCTGAAACAGACGGACGCTGAAGTTGAAGTCACCTTCCCGTGGTTCTTTGAAAGAAAAGGTCCTTATTCCGACCTGACCGGAATGAACCATGCTGATGCGACCATCCGGGTGGAATATGATCAGGAGACAGGCCACGATGTGACCGTTACCCTGACTGGAAAGATTACCACGCTGTGCCCGTGTTCCAAGGAAATCAGTGAGTACAGCGCGCATAACCAGCGCGGGAATGTCACGATGTCAGTGAAACTGACGGATGACTTTAATGAACAGGAAGTTGACTGGAAAGCTGCTCTTCTTGAAGCGGCTGAAAGCAATGCAAGTGCCAGAATTCACCCTGTTCTCAAGCGGCCGGATGAGAAGATGGTCACAGAACAGGCTTATGAAAACCCGCGGTTCGTCGAGGATATCGTCCGACTTGTGGCTGCGGACCTGTATGAATACACCTTTGTGGAATCCTTTGAGGTTCAGTGCCGGAATGAGGAATCGATTCACCTGCACGATGCCGTAGCTTCCCTTAGTTATGACAAGAAGCAGGAGCGTATACAGGAAGAACGATGA	MNKTELNQTKQLPTKEERHKLFGSVDPGPRTKPVEKDQMADLQNSRKDFLFDIDMVGISNVKHPIRIPSSMTPQIQTTIGTFSFGSSIAKGSKGTNMSRFTEQLDKYHNEGFAIDIETLKQFTEELAGRLKQTDAEVEVTFPWFFERKGPYSDLTGMNHADATIRVEYDQETGHDVTVTLTGKITTLCPCSKEISEYSAHNQRGNVTMSVKLTDDFNEQEVDWKAALLEAAESNASARIHPVLKRPDEKMVTEQAYENPRFVEDIVRLVAADLYEYTFVESFEVQCRNEESIHLHDAVASLSYDKKQERIQEER	PGPT0007880_207	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007880-folE2-K09007	NA	NA
AK012_00461	582	plsY	COG0344	Glycerol-3-phosphate acyltransferase	TTGGAATATCTACTCTATTCCCTTGCCGCCTATCTCCTCGGCTCCATTCCATCAGGACTGATTGTTGGAAAAGTGGGTTATGGTACAGATATAAGAGAACATGGGAGCGGAAATCTCGGCGGGACGAATACATTCCGCGTTCTCGGAGTAAAGGCCGGCTTGATCGTTACGACAGCCGATATTTTAAAAGGAACCACAGCTGCCGCCCTGCCCTTTTTCCTCGGAGCAGAAGTCATCCCGCTGATTATAGGTATTTTTGCCGTCATCGGTCATATGTATCCGGTATTTGCAGGGTTTAAGGGAGGCAAAGCAGTCGCTACATCCGGAGGCGTCATCCTCGGGGTGAACCCTCTTGTATTTCTCGTTCTTGTCTTATCGTTTTTCATCCTATTATATATTTCCAAATACGTGTCCCTCTCCTCGATGGTGTGCGGGCTCGTCGGAATAGCTGCTTCCATCCTTCTAGAGGAGTATGGATTGACAATCGTTATATCCATTTTTACGATCTTTGTTATTTACCGCCATCGTTCGAATATTAAGAGAATCATCAATAAGACAGAACCTAAGATCACGTGGATGTAA	MEYLLYSLAAYLLGSIPSGLIVGKVGYGTDIREHGSGNLGGTNTFRVLGVKAGLIVTTADILKGTTAAALPFFLGAEVIPLIIGIFAVIGHMYPVFAGFKGGKAVATSGGVILGVNPLVFLVLVLSFFILLYISKYVSLSSMVCGLVGIAASILLEEYGLTIVISIFTIFVIYRHRSNIKRIINKTEPKITWM	PGPT0024375_3528	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024375-plsY-K08591	NA	NA
AK012_00462	1068	btuD_1		Vitamin B12 import ATP-binding protein BtuD	ATGATTACTTTTACAGATGTGTCCAAAACGTACCCGGACGGGACGACGGCATTAAAAAATATAAATCTCGAGGTGGAAGAAGGGGAACTTCTCACTCTGATTGGTCCAAGTGGGTGCGGGAAAACTACCACCATGAAAATGATTAACCGCCTTATACATCCTACTGATGGAACCATTACGATACATAATAAGGACATCAAGGATTACAACATTCATGAACTGCGTTGGAATATCGGCTATGTCCTTCAGGAAATCGCCCTCTTTCCACATATGACAATTGAAGAGAACATTGCGATTGTACCGGAAATGAAAAAATGGAAGAAAAAAGATGTATCCGGACGGATTGACGAACTGATGCAGATGGTCGGACTCGATCCGGAGAAACACCGTAAGCGGAAACCGAGTGAGCTCTCCGGCGGACAGCAGCAGCGTGTAGGGGTCATCAGAGCGTTGGCGGCCGATCCTGATATTATTCTGATGGATGAGCCGTTCAGTGCGCTGGATCCCATCAGCCGCGAACAGCTTCAAAAGGATATCCGGAACCTGCAGCAGGAAATTAAAAAGACCATCGTGTTTGTTACGCACGATATGGATGAAGCTCTTGCTCTGGGCGACCGGGTCTGCCTTATGAAAGAAGGCGGGATTGTTCAGGTGGATACCCCACAGAATTTCATTCTCCATCCAGCCGATGATTTCGTCCGTGATTTCATCGGAGGCCGGAAATCTCCATGGCTGACAGCTGTCGACGTGATCATGGATCAGTCCGGAAGCAGGATTTTCCCTTATCAGGATTATAAAGAAGGCTCGATACCGGATCACGGCGCATATGTACTGACCTCTGAAAAAGGGATTTACCAGACAGGTGTCGTTGACGGAAGGGAAGTTATGCTTCCGATACTGACAAACGGAACCGTCCTCCGGGAAGCTGTCTCAGAATTTGAAAAAAATTCGCATCGGATTCTGCCGGTCGTAAAAGGAGATCAGCTTGTTGGGACGCTGTCCTATAAAGATATCGTTCATTACTTAAAAGAGAAGTCTGATCAGGAACAGGGGGCTCTTCAGCTGTGA	MITFTDVSKTYPDGTTALKNINLEVEEGELLTLIGPSGCGKTTTMKMINRLIHPTDGTITIHNKDIKDYNIHELRWNIGYVLQEIALFPHMTIEENIAIVPEMKKWKKKDVSGRIDELMQMVGLDPEKHRKRKPSELSGGQQQRVGVIRALAADPDIILMDEPFSALDPISREQLQKDIRNLQQEIKKTIVFVTHDMDEALALGDRVCLMKEGGIVQVDTPQNFILHPADDFVRDFIGGRKSPWLTAVDVIMDQSGSRIFPYQDYKEGSIPDHGAYVLTSEKGIYQTGVVDGREVMLPILTNGTVLREAVSEFEKNSHRILPVVKGDQLVGTLSYKDIVHYLKEKSDQEQGALQL	PGPT0013585_1451	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
AK012_00463	1527			hypothetical protein	GTGAATGGATTTATTCAGGTTTTTGCAGAAAGACAGGATGTCCTGTGGGAGAAAGTGTGGGAACACCTGCAGATATCCATTATCGCCCTTGTAATTGCAACATTGATTTCTGTGCCTCTCGGTCTGTTGTTAACGAGAAAATTGAAAGTAGCTGAACCGGTCATTGGAGTGACCGCTGTTCTTCAGACGATTCCAAGCCTCGCTGTCCTGGCCTTTTTGATTCCATTTTTCGGAATCGGGGAAACGCCGGCCATCATTGCCCTTGCGGCTTACGGCCTTCTCCCTATTCTGAGAAATACGTATACAGGAATAAAGGAAGTAGATCCTGCCCTGAAAGAAGCGGCTACAGGGATGGGGATGAGTTCGTTCCGCCGGCTATCGCGTGTAGAACTGCCGTTGGCGATGCCGGTAATCATGGCAGGTATCCGGACATCGATGGTGCTGATTGTCGGTACTACGACCATCGCTGCCCTGATTGGGGCTGGAGGTCTTGGTGATTTGATCCTTCTCGGCCTCGACCGTGGCGGCGACGCCAATTTAATTCTGCTGGGAGCCATTCCAGCTGCCCTTCTTGCGATCGTGCTGGACTTAATTCTGCGTTTGTTTGAACGCACTTCGGCAAAGTCAGGATTCCGTTCCCTTGTCAGCCTGCTGGTCATTGCAGCTCTCATCGCCGTTGGACCGCTGCTGTTCAGCAGCAAATCCCAGAATGATCTTGTATTGGGGGCCAAACTCGGATCCGAGCCTGCCATTTTAATCAACATGTATAAGCTTCTTATTGAAGATGAAACCGATCTTCAGGTCGGCTTAAAACCGAACCTCGGGAAAACAGACCTGGTTTTCAGCGCCCTGGAGGAAGGAAGTATTGATATCTACCCTGAATTTACAGGAACAGCTATTGTATCCCTGATGGGAGAACAGGCTCAGAGTAACAAGGAACAGGAAGTGTATCAACAGGCGGCACAGGGGATGAGTGAACAGTATGATATGGCTTACCTTGAGCCGATGCAGTTCAACAATACGTACGCCGTCGCTACCACGCAGGAACTAGCTGACCAATACGGGCTGGAAAGCATCGGTGACTTAAGACAGGTGGAAGACCAGTTGACCGCCGGTTTCACACTTGAATTCAACGATCGTCAAGACGGCTATCAAGGAATGAAAGAAGTGTATAACCTTGATCTCGGCGAAGTGAGAACGATGGATCCCGGACTTCGCCAGGGAGCGATTTCGAATGGTGAAGTAGACATCATTGACGCCTATGCTACAGCAGGTTATATGGTGGATTTGAATCTTAAAGTGCTGGAGGACCCGGAAAATCTGTTCCCTCCTTACCAGGGCGCCCCGCTGATGAGGCAGGAAACGCTTGATCAGTACCCCGAAATCGAAGATGCCCTGAATCAACTGGGTGGAAAGATTACCGGAGATGAAATGCGGGAAATGAATTATGAAGTGGATTTTGAGGACCGTTCACCAGAAACGGTGGCCCGCGAATACCTTGTTGAAGAAGGTCTTATTGAAGAATAG	MNGFIQVFAERQDVLWEKVWEHLQISIIALVIATLISVPLGLLLTRKLKVAEPVIGVTAVLQTIPSLAVLAFLIPFFGIGETPAIIALAAYGLLPILRNTYTGIKEVDPALKEAATGMGMSSFRRLSRVELPLAMPVIMAGIRTSMVLIVGTTTIAALIGAGGLGDLILLGLDRGGDANLILLGAIPAALLAIVLDLILRLFERTSAKSGFRSLVSLLVIAALIAVGPLLFSSKSQNDLVLGAKLGSEPAILINMYKLLIEDETDLQVGLKPNLGKTDLVFSALEEGSIDIYPEFTGTAIVSLMGEQAQSNKEQEVYQQAAQGMSEQYDMAYLEPMQFNNTYAVATTQELADQYGLESIGDLRQVEDQLTAGFTLEFNDRQDGYQGMKEVYNLDLGEVRTMDPGLRQGAISNGEVDIIDAYATAGYMVDLNLKVLEDPENLFPPYQGAPLMRQETLDQYPEIEDALNQLGGKITGDEMREMNYEVDFEDRSPETVAREYLVEEGLIEE	PGPT0013590_526	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013590-opuBD|yehW-K05846	NA	NA
AK012_00464	414	yccU	COG1832	putative protein YccU	ATGCCATTTGAAAATCCGTCTCCAGAGGAGATTAAGAACGTCTTAAAAGAATCCAAAACGATTGCCGTTGTCGGACTATCGGATAAACCACACCGGACTTCGTACCAGATCAGTGAAGCCATGCAGGCGGCCGGATACAGAATCATTCCTGTAAACCCGATGGTCACGGAAGTTCTCGGAGAGCCGGCTGCCGCCTCTCTTCGGGAAATCCAGGAGCCGGTGGATATTGTTAACGTATTCCGCCGCTCTGAATATCTTCCGGGGGTGGCTGAAGAAGCAGAAGCGCTCCAGCCTAAAGCTTTCTGGGCCCAGCAGGGGGTTTATCATGAAGAAGCATGGGAACAGTTGAAAGATACGTCCACGAAGGTCATGATGGACCTCTGTATTAAGGTTGCCCATAGTCTGTACAAGTGA	MPFENPSPEEIKNVLKESKTIAVVGLSDKPHRTSYQISEAMQAAGYRIIPVNPMVTEVLGEPAAASLREIQEPVDIVNVFRRSEYLPGVAEEAEALQPKAFWAQQGVYHEEAWEQLKDTSTKVMMDLCIKVAHSLYK	PGPT0013060_1229	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK012_00465	1956	parE		DNA topoisomerase 4 subunit B	TTGTCGAGTCAAAATCATACGTATTCAGATGATTCTATACAAGTATTGGAGGGGCTGGAGGCTGTCCGGAAGCGACCGGGGATGTACATTGGATCCACGGACCACCGCGGTCTTCATCACCTCGTCCACGAAATCGTGGATAACGCCATCGATGAAGCTTTATCTGGATTCGGACAAAAGATGACGGTTACCCTTCATAAAGATGGAAGCGTTTCTGTACAGGACGAAGCCCGTGGTATGCCTGTAGGAATGCATAAAACAGGAAAGCCCACACCGGAAGTAATTTTAACTGTTTTACACGCCGGAGGTAAATTCGGACAGGGCGGCTATAAATCTTCCGGGGGTCTTCACGGGGTCGGGGCCTCTGTTGTCAATGCCTTATCTGAATGGCTGGAAGTTCACATCTGCCGGGATGGGGAGAAATACTACCAGCGTTTCGAAAAAGGAGGCGTGCCTGTCACATCCCTGGAAAAAAAGGGAGCTGCACGCAAATCCGGGACAACCATCCGGTTTAAGCCGGACCCGGACATTTTTTCTGTGACGAAGTTTAATTTTGAAACCCTTTCGGAAAGACTGAGAGAAGCAGCATTTCTTCTTAAAGGCTTCCGTATCGTTCTGGTGGATGAGCGGAAAGATGGAGAAAAAGAAGAATATCAGTATGATGATGGACTGGTTTCATTCGTTAAGTATTTAAATGAAGAAAAAGATACCCTGCATCAAGTTGTATCTTTTGAGGGCGTACAGTCAGGGATTGAAGTGGACTTTGCGTTTCAGTTTAATGATGGATTCGCAGAAAACATCCTATCCTTTGTAAACAATGTGCGCACAAAAGATGGAGGAACGCATGAATCAGGAGCTAAAACAGCTGTTACGCGGGTGTTCAATGATTATGCGCGAAGAACCCAGCTTTTGAAGGAAAAGGATAAGAATCTTGAAGGAAACGATATCAGGGAAGGCTTCACAGCGATCATTTCAGCAAGAATTCCCGAGGAGCTGCTCCAGTTTGAAGGACAGACGAAAAGTAAGCTGGGAACATCTGAAGCCCGCTCGGCTGTCGACAGTGTTGTAGCAGAGAAGCTCACTTATTTCCTTGAGGAAAATCCAGATGCAGCCTCGATGCTGATTAAGAAAGCGATCCGGGCGAAAGAGGCCAGGGAAGCAGCAAGAAAAGCCAGAGAAGATGCGCGTTCCGGTAAGAAGAAAAAGCGGAAGGATACGCTCTTAAGCGGAAAACTGACTCCGGCACAGTCAAAAAATGCAGAGAAAAACGAACTGTATCTCGTGGAGGGTGACTCTGCGGGCGGGTCGGCCAAGCAGGGACGGGACCGTAAGTTTCAAGCCGTTCTACCCCTCCGCGGTAAAGTAATCAATACAGAGAAAGCAAAAATTGCGGATATCTTTAAAAATGAGGAGATTTCCACGATCATTCATACGATCGGCGCAGGCGTAGGCGGGGATTTCACTCTGGAAGACTGCAATTACGACAAGATCGTTATCATGACCGATGCAGACACAGACGGAGCACACATTCAGGTACTGCTGCTCACCTTCTTTTACCGCTACATGCGGCCGTTGGTAGAAGCCGGGAAGGTGTTCATCGCTCTTCCACCCCTTTATAAAGTGTCCAAAGGCAAAGGGAAAAAAGAGAAAACCGAATATGCCTGGGATGAGGAAGGCATGCAGAAAATCCTGAAGGAATTTAAAAATGGCTATACGATCCAGCGCTACAAGGGTCTCGGTGAAATGAACGCCGACCAGTTGTGGGAAACAACAATGAATCCAGAATCACGAACGCTGATCCGGGTCACAATTGATGATATTGCCCGTGTGGAACGAAGAGTTACAACATTGATGGGAGACAAAGTAGAACCTCGCCGTAAATGGATTGAATCCCACGTTGCCTTCGGTCTCGAAGACGAAGCAAACATTCTGGAAAACGATAAAATCCAATCATAA	MSSQNHTYSDDSIQVLEGLEAVRKRPGMYIGSTDHRGLHHLVHEIVDNAIDEALSGFGQKMTVTLHKDGSVSVQDEARGMPVGMHKTGKPTPEVILTVLHAGGKFGQGGYKSSGGLHGVGASVVNALSEWLEVHICRDGEKYYQRFEKGGVPVTSLEKKGAARKSGTTIRFKPDPDIFSVTKFNFETLSERLREAAFLLKGFRIVLVDERKDGEKEEYQYDDGLVSFVKYLNEEKDTLHQVVSFEGVQSGIEVDFAFQFNDGFAENILSFVNNVRTKDGGTHESGAKTAVTRVFNDYARRTQLLKEKDKNLEGNDIREGFTAIISARIPEELLQFEGQTKSKLGTSEARSAVDSVVAEKLTYFLEENPDAASMLIKKAIRAKEAREAARKAREDARSGKKKKRKDTLLSGKLTPAQSKNAEKNELYLVEGDSAGGSAKQGRDRKFQAVLPLRGKVINTEKAKIADIFKNEEISTIIHTIGAGVGGDFTLEDCNYDKIVIMTDADTDGAHIQVLLLTFFYRYMRPLVEAGKVFIALPPLYKVSKGKGKKEKTEYAWDEEGMQKILKEFKNGYTIQRYKGLGEMNADQLWETTMNPESRTLIRVTIDDIARVERRVTTLMGDKVEPRRKWIESHVAFGLEDEANILENDKIQS	PGPT0027710_1447	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
AK012_00466	2460	parC	COG0188	DNA topoisomerase 4 subunit A	TTGGCTGAGGCAGAGAAGTTTTTAGATTTACCTTTAGAGGAAGTTCTCGGAGACCGCTTCGGGAGATACAGTAAATATATTATCCAGGAAAGGGCCCTCCCTGATGCCAGGGACGGGCTTAAGCCTGTTCAGCGGAGAATCCTGTATGCGATGCATCAGGAGAAAAATACGCACGATAAAGCCTATCGGAAATCCGCGAAAACGGTGGGTACCGTTATCGGTAATTACCACCCTCACGGGGATACGTCCGTGTACGACGCCATGGTACGGCTGAGTCAGACATGGAAAGTACGCAAACCGCTTGTGGAAATGCATGGAAACAACGGAAGTGTAGATGGTGATCCACCGGCAGCGATGCGTTATACAGAAGCAAGGCTTTCAGCCATATCATCTGAACTGCTGAGGGATATAGAAAAGCAGACCGTTGAATTTATCCCGAACTTTGATGACACCATAGAAGAGCCGACCGTGCTGCCGGCGAAGTTTCCAAACCTGCTGGTTAACGGCTCCACAGGAATATCAGCCGGGTATGCCACTGAAATTCCCTCCCATAATCTTGGAGAGGTGATCGATGCCGTCATTATGAAGATTGATAAGCCTCATGCGGATGTACCGGAGCTGATGACCAAATTAAAAGGCCCGGACTTTTCTACTGGGGGAATCATTCAAGGGATTGACGGAATCCGAAAAGCGTATGAAACAGGAAAAGGGAAGGTCATAGTCCGTGGACGTGCGGAAATTCAGGAGCAGCGCGGTGGACGTGAGCAGATTGTCATCGACGAAATTCCATTTGAAGTCAATAAGGCCAGCATGGTGAAACGGATGGATGAACTTCGTATTGATAAAAAAGTGGAAGGGATTGCAGAGGTGCGTGATGAAACAGATCGGACAGGTCTGCGGGTTGTCGTCGAATTGAAAAAAGATGCCAACAGTGAAGGCGTCCTGAATTATTTATATAAGCATACCGATCTGCAGATTTCCTATAACTTCAACATGGTCGCGATCCACGACCGGACACCGAAGCTTCTGAATCTGCCGATGATGCTGGATGCTTATATCGAGCACCAGAGAGAAGTGGTAACAAGGCAGTCCATCTATGATTTGAATAAAGCCAAGCGCCGCGCCCATATTGTTGAAGGGTTGATTAAGGCGATTTCCATCCTGGATGAAGTGATTGCGACGATACGAGCATCCAGGGATAAAGCGGACGCCAAGGAACAGCTGATTCAGCAGTATGCCTTCACAGAAGAACAGGCAGAAGCGATTGTAACCTTGCAGCTGTACCGCCTGACGAATACCGACATTACCGCCCTTCAGGCAGAAGCGGAAGAGTTAAGAAAGCAGATTGAAGAACTTGAAAAGCTTCTGTCCAGTGAACGTGAAATGATGAAGGTAATCAAGTCGGATCTGCGTGCAATGAAGAAAAAATACAAAGACGAACGCTTAACGAAAATCGAAGACAAAGTTCAGGAACTGAAGGTCGACTTAGATGTTATGGTCGCGAGCGAAGATGTGCTTGTTTCCATTACTAAAGACGGCTATATCAAGCGGACGAGTTTACGTTCCTATGCGGCTTCAAACGGCGAGGACTTTGCGCTGAAGGATGGCGACCATCTGCTGCGCCTGGTGGAAATGAATACCACGGATACCATTCTTTTGTTTACGAACTTAGGTAAATATCTGTTCCTTCCTGTCCATAAACTCCCCGATATACGCTGGAAAGACCTTGGTCAGTTTATATCCAACATTGTTCAAGTGGAAAAAGATGAATACCTCGTTGAAGCCATCCCGATCCGGGAATTCAACGAAGAGGATTTCCTGATGTTCTTTACGAAAAACGGGATGGTTAAAAAGAGTGAACTCAGTCTCTATCAGGCTCAGCGGCATTCCAAAGCCCTGGTCGCCATCAATCTCAAAGGCGATGATGAAGTCGTCGATGTCCATATAACCAATGGTACAGGAGAGATCTTCCTGGCCTCCAATAAAGGGTACGGCTTATGGTATAAGGAAGATGAAGTGAACACCGTAGGACAGAGGGCATCCGGCGTCAAAGCCATGACGCTGAAAGAAGGCGAAAGGGTTGTGTCCGGCCAGATCTTTAAGGCTGAAGAGGATCCTTCCGTATTGATGACCACTCACCGGGGGGCTGCCAAGCGAATGAGGCTGAAGGAATTCGACCGTACATCAAGAGCCAAACGTGGAGTGATCATGCTGCGGGAGCTGAAGAAAAATCCGCATCAAATCGTGGACGTTCATCTAGTCCAAAGAGAAGATGAGGTCGTACTCATGACGGAAAAACAAGAGACGACAACCGTTAAACCAATGGACTTAAAAGCCAATGACCGTTACAGCAACGGTTCCTACGTTCTGGACGTCGACCAAAAAGGAAACGTTGTCGAATCCTGGCTGAAACCGGGGTATGAAGTTCCATTCAAGCTGGAAGATGAAAATAACCAATAA	MAEAEKFLDLPLEEVLGDRFGRYSKYIIQERALPDARDGLKPVQRRILYAMHQEKNTHDKAYRKSAKTVGTVIGNYHPHGDTSVYDAMVRLSQTWKVRKPLVEMHGNNGSVDGDPPAAMRYTEARLSAISSELLRDIEKQTVEFIPNFDDTIEEPTVLPAKFPNLLVNGSTGISAGYATEIPSHNLGEVIDAVIMKIDKPHADVPELMTKLKGPDFSTGGIIQGIDGIRKAYETGKGKVIVRGRAEIQEQRGGREQIVIDEIPFEVNKASMVKRMDELRIDKKVEGIAEVRDETDRTGLRVVVELKKDANSEGVLNYLYKHTDLQISYNFNMVAIHDRTPKLLNLPMMLDAYIEHQREVVTRQSIYDLNKAKRRAHIVEGLIKAISILDEVIATIRASRDKADAKEQLIQQYAFTEEQAEAIVTLQLYRLTNTDITALQAEAEELRKQIEELEKLLSSEREMMKVIKSDLRAMKKKYKDERLTKIEDKVQELKVDLDVMVASEDVLVSITKDGYIKRTSLRSYAASNGEDFALKDGDHLLRLVEMNTTDTILLFTNLGKYLFLPVHKLPDIRWKDLGQFISNIVQVEKDEYLVEAIPIREFNEEDFLMFFTKNGMVKKSELSLYQAQRHSKALVAINLKGDDEVVDVHITNGTGEIFLASNKGYGLWYKEDEVNTVGQRASGVKAMTLKEGERVVSGQIFKAEEDPSVLMTTHRGAAKRMRLKEFDRTSRAKRGVIMLRELKKNPHQIVDVHLVQREDEVVLMTEKQETTTVKPMDLKANDRYSNGSYVLDVDQKGNVVESWLKPGYEVPFKLEDENNQ	PGPT0027705_719	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
AK012_00467	630	kstR2_1		HTH-type transcriptional repressor KstR2	ATGAGCCGCTTACGCAGCACCATTCTTGAAACTTCTCTGCAGTTATTTGATCAACATGGTTTTCACGGTGTGACCGTGAACCAGATTGTTGCAGCCTCCGGCACCTCCAAAGGCGGTTTTTACCACCACTTTCAATCCAAGGATGAACTTCTATTTGTGATTCACGACACTTTTATTACATACGTTTTGAAAGAGGCTGGAGCAGCAAACGTGATTCACACCTCACCAACAGCAAAAATTCAAGCTGTCATTCATTCTTTTGTGAAAGTCTTTGACTTATATAAACCTCACATATCGGTTTTTTATCAGGAAAGTAATTACTTAAAGCCTGAATACGAGGAAAGAATCAAACGGAAACGGGACGAATTTAAAGACATCATTTTCGGGATCATTCATGAAGGTCAGAAAAGCGGTGATTTTCGTAAAGAGCTTCCGCTTGAAGTAACTGGTATGGCTGTTTTAGGCATGGTCAATTGGATTTACAAGTGGTATCAACAGGATGGCCGGTATTCGATTGATGAAATCGCAGAAGTGTACATTGATTTGATCCTTCATTTTTTACTGCCCGGCAGCAGTGATCACCTGGTTCGACATATGAGTAAAGTCCCTTTTTTTTACGACATAAAGTAA	MSRLRSTILETSLQLFDQHGFHGVTVNQIVAASGTSKGGFYHHFQSKDELLFVIHDTFITYVLKEAGAANVIHTSPTAKIQAVIHSFVKVFDLYKPHISVFYQESNYLKPEYEERIKRKRDEFKDIIFGIIHEGQKSGDFRKELPLEVTGMAVLGMVNWIYKWYQQDGRYSIDEIAEVYIDLILHFLLPGSSDHLVRHMSKVPFFYDIK				NA	NA	NA	NA	NA
AK012_00468	1143	bcd	COG1960	Acyl-CoA dehydrogenase, short-chain specific	ATGAACTTTGAACTTACGAAAGAACAGGAAATGACAAGAAAAATGGTCCGGGATTTTGCCAATAATGTCATTGCGCCGAGAGCGGTGGATATTGACCGACATGCAGAATTTCCAAAAGACATTTTTGATGAGATGGGCAGACTCGGGCTTCTTGGTATTCCATTTCCTGAAGAGTATGGTGGCTCTGGCGGGGACACAGTTACTTATGCGCTGGCCGTTGAGGAAATTGGGCGTGTGTGTGGATCCACGGGATTGAGTTATGCAGCTGCGGTTTCCCTCGGGGCAAGTCCGATCTACTATTTTGGTACCGAGGAGCAGAAACAGGAATACCTTATTCCGCTTACTAAAGGGGAAGGTCTTGCTTCCTTCGGTTTGACAGAACCAAACGCAGGATCCGATGCAGGCGGCACGAAAACACGGGCGGAATTAACAGGGGATCACTATGTAATTAATGGGGAGAAATGCTGGATTACCAACGCAGAGTATGCTAGGTCCATTACTGTGACAGCTGTCTCAGGAAAGCGGGAGGACGGGAAGAACATTATTTCGGCGTTTATCATTCCTAAAGATACTGAAGGCATGAAAATCACAAGTCCTTATGAAAAAATGGGCGTCCGCGGGTCGAATACTTCTGAAATCATATTGGAAGATGTGAAAGTACCTAAGGAAAACATCCTCGGTGATCCTTCCAAAGGGTTTCATCAGTTTTTATATACACTGGACGGCGGCCGCATATCCATAGCCGCTCTTGCTGTCGGTATTGCCCAGGCGTCCCTGGATAAAGCGCTTGCCTACGCGAAGGAGCGGAAGCAGTTTGGGCAGTCCATTTCAAAATTTCAAGCCATCCAATTCAAGCTTGCCGACATGGCCATGGAAGTGGAGCTTGCGAGAAATATGGTGTTAAAAGCTGCCTGGTTGAAGGATCAGAAGAAGGATTTCACGAAAGAGTCCGCTTATGCCAAGCTTTTCGCCTCTGAAACAGCCTTCCGCTCGTCGAATCAAGCCATTCAGATCCACGGCGGGTACGGATACATGAGGGAATACGAAGTTGAGCGATTCTTAAGAGACGCCAAGCTTCTCGAAATTGGCGAAGGGACTTCTGAAATTCAGCGCATGGTCATCGCACGCCAGCTTGGATGTTAA	MNFELTKEQEMTRKMVRDFANNVIAPRAVDIDRHAEFPKDIFDEMGRLGLLGIPFPEEYGGSGGDTVTYALAVEEIGRVCGSTGLSYAAAVSLGASPIYYFGTEEQKQEYLIPLTKGEGLASFGLTEPNAGSDAGGTKTRAELTGDHYVINGEKCWITNAEYARSITVTAVSGKREDGKNIISAFIIPKDTEGMKITSPYEKMGVRGSNTSEIILEDVKVPKENILGDPSKGFHQFLYTLDGGRISIAALAVGIAQASLDKALAYAKERKQFGQSISKFQAIQFKLADMAMEVELARNMVLKAAWLKDQKKDFTKESAYAKLFASETAFRSSNQAIQIHGGYGYMREYEVERFLRDAKLLEIGEGTSEIQRMVIARQLGC	PGPT0002285_547	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
AK012_00469	1641	lcfB_1	COG0318	Long-chain-fatty-acid--CoA ligase	ATGACACTACTTGAACAGACAGTCGGGGAGCTGTTGGAAGAAAAGGCTTCGCTGTATCCTGACCAGGAAGCTTATGTATATCCGGAAAAAGGGATCCGGAAGACGTATGCGGAATTTAACGAGGAAGCCGATGCAGCTGCGAAAGGACTGATGGCTCTCGGAATTGAAAAGCGCGGCCACGTGGCCATCTGGTCTGACAACAAGCCGGAATGGCTGATCACCCAGTTCGCATCGGGGAAAATGGGCGGTGTGCTTGTTACTGTGAATACCAACTACCGTGCCCAGGAACTTGAATATTTATTGAAGCAGTCGGATGCCTCTACGCTTATTCTTGCTGAGGATTTCCGAGGCGCTTCCTACATGAACATTCTTAAGGAAATCTGTCCGGAACTGGAACATTCGGAAAAAGGGAATCTGCAGAGCGAACGCCTTCCTTTTTTAAAGAATATCGTTGTTCTCAGCGATACCCCGCATAGAGGGTGCTATTCCTGGCAGGACGTCATTGATATGGGGATGACGATCCAGGAGGAGGAACTGGAAGCGAGAAAACAAATGCTGACCTCTACAGACGTCATCAACATGCAGTATACGTCAGGAACAACTGGTTTTCCTAAAGGGGTTATGCTTTCCCATTACAACATCGTAAATAACGGAAACCAGGTGGCGGACAGCATGAACCTGACTCATAAGGATCGTTTATGTATTCCTGTACCGTTTTTCCACTGTTTCGGATGTGTGCTCGGTACACTTGCGGCTGTATCTAAAGGAGCAGCAATGGTCATTTTGGAACAATTCGAACCGAAAAAAGTGCTGGAGGCGGTGAAAAATGAGGAATGCACCGCGCTGCACGGGGTTCCAACAATGTTTATAGCAGAACTCAACCATCCTGAATTTGAATCTTTAAAACCAACGACGCTGCGGACCGGTATTATGGCTGGATCGACGTGTCCGATGGAAGTCATGAAGAACGTCATTCATCAAATGGGGGCGGAGGAAATTACGATTGCCTACGGACAGACGGAGTCCTCTCCGGTCATCACCCAGACGAATGTTCATGACCCTGTTCACCTCCGGGTAAGCAGTGTCGGGCGTCCTCACCCTAATGTTGAAGTGAAAATTATTGAACCGGCAACCGGGGAGGAAGTGGACCCCGGAATTCCAGGGGAGCTTTGTACCCGGGGGTATCTTGTTATGAAGGGCTATTACAAAAACGAGGAAGCGACAAGTGCAGCAATAGATCCGGATGGCTGGCTTCATACAGGTGATCTCGCTGTGATGGACAGTGACGGCTATATCGAAATAACCGGACGGATGAAAGACATGATTATCCGCGGAGGAGAAAACGTATATCCGCGGGAAATCGAAGAATTTTTATATCAGCACCCCGATGTACTGGATGTTCAGGTTGTCGGCGTCCCGGATGAGACGTACGGGGAGGAGATCATGGCGTGGATCATCCCCAAGGAAAATACGGACACAAATGTAAGCGATATCAAAAAGTTTTGTGAAGGACGGATTTCCCGGCATAAAATTCCCCGGTATATATCCTTTACGAAGGAATATCCGATGACTGCGAGCGGAAAAATCCAGAAATTCAGGTTAAGGGAAAGTGCGCTCGATCTACTGCAGACCGGAAAATGA	MTLLEQTVGELLEEKASLYPDQEAYVYPEKGIRKTYAEFNEEADAAAKGLMALGIEKRGHVAIWSDNKPEWLITQFASGKMGGVLVTVNTNYRAQELEYLLKQSDASTLILAEDFRGASYMNILKEICPELEHSEKGNLQSERLPFLKNIVVLSDTPHRGCYSWQDVIDMGMTIQEEELEARKQMLTSTDVINMQYTSGTTGFPKGVMLSHYNIVNNGNQVADSMNLTHKDRLCIPVPFFHCFGCVLGTLAAVSKGAAMVILEQFEPKKVLEAVKNEECTALHGVPTMFIAELNHPEFESLKPTTLRTGIMAGSTCPMEVMKNVIHQMGAEEITIAYGQTESSPVITQTNVHDPVHLRVSSVGRPHPNVEVKIIEPATGEEVDPGIPGELCTRGYLVMKGYYKNEEATSAAIDPDGWLHTGDLAVMDSDGYIEITGRMKDMIIRGGENVYPREIEEFLYQHPDVLDVQVVGVPDETYGEEIMAWIIPKENTDTNVSDIKKFCEGRISRHKIPRYISFTKEYPMTASGKIQKFRLRESALDLLQTGK	PGPT0008380_11925	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK012_00470	1356	accC_1	COG0439	Biotin carboxylase	ATGTTTACTAAAGTATTAATTGCCAATCGCGGAGAAATTGCAGCCAGAATCATCCGTACGTGCCGGGAGCTGAACATTCAAACCGTTGCCGTGTATTCTGAAGCCGACCAGCATGCTCCTTTTGTGAAAATGGCTGACGAGAGCTATTTGATCGGAAAACCGAGAGTCAATGAATCTTACTTGAACATCGATAAAATTTTGGAGGCAGCAGCAGATTCCGGCGCTGAAGCCATTCATCCGGGATACGGATTGTTAAGTGAAAATGCCGCCTTTGCAGAGAGAGTCGAACAGGCCGGCCTCACATTTATTGGTCCGGATGCAGATGTAATCGCAAAAATGGGCGATAAAATCGCTGCACGGGCTGAAATGAAGCAGGCAGGCGTCCCTGTCGTTCCTGGTACAGAAGAAGCGGTTGGGTCAGTAGAAACAGCTAAGGCAGCGGCCCAAACCTTCGGGTATCCCGTTATGCTGAAGGCAGCCGCCGGCGGGGGCGGTATCGGCATGCAGGCAGTTCATTCCGATGAGGAACTGGAAAAAGCCTTCGAAGGAAATTCCAAACGCGCCAAAGCCTTTTTCGGAGACGGTAAAATGTTTATCGAAAAATTAATTGAAGAGCCGCGGCATATCGAAATTCAAGTGCTTGCGGATCACCACGGGCATGCCGTCCATTTATTTGAGCGGGAATGTTCCATTCAAAGAAGGCACCAGAAAGTGGTCGAGGAAGCCCCTTCTCCTTTTCTCTCTGAAAAAACGCGCCAGGAAATGGGAGAGAGTGCGTTGAAGGCCGTAGAAAGCCTGAACTATACCAATGCCGGAACGATTGAATTTCTCGTTGACCGGAATGAAAACTATTATTTCCTCGAAATGAACACACGTCTGCAGGTGGAGCACCCTGTTACTGAAGAAATTTCCGGTGTGGATATCGTACACCAGCAGTTGAAAATAGCCGCTGGTGAGAAACTGAACATTCACCAGGACGATTTACACATCAATGGACACGCCATAGAGGTCCGTGTTTATGCCGAGGATCCAAACACGTTTTACCCATCTCCCGGCACGCTTTCAAACATGGTGCTGCCGGAAGGACCCGGGATCAGGCATGAGCTGGCTGTGGAAAGCGGATCCGACGTCACACCTTTCTATGATCCGATGATTGCTAAATTAGTCGTCCACGGAAACGACCGTCATCAAGCTGTCGAACGGCTGGCAAAAGCTCTTCATACGTATGAAATCGAGGGCATCAAATGTAACTTGACGATGTTGAAGCGGATCATCACTCATGAAAAGTTCCATGCAGGTGAAACGACAACCAGCTTTATTCAAAACTATTATCTACCTACTCTAACCAACCACTAA	MFTKVLIANRGEIAARIIRTCRELNIQTVAVYSEADQHAPFVKMADESYLIGKPRVNESYLNIDKILEAAADSGAEAIHPGYGLLSENAAFAERVEQAGLTFIGPDADVIAKMGDKIAARAEMKQAGVPVVPGTEEAVGSVETAKAAAQTFGYPVMLKAAAGGGGIGMQAVHSDEELEKAFEGNSKRAKAFFGDGKMFIEKLIEEPRHIEIQVLADHHGHAVHLFERECSIQRRHQKVVEEAPSPFLSEKTRQEMGESALKAVESLNYTNAGTIEFLVDRNENYYFLEMNTRLQVEHPVTEEISGVDIVHQQLKIAAGEKLNIHQDDLHINGHAIEVRVYAEDPNTFYPSPGTLSNMVLPEGPGIRHELAVESGSDVTPFYDPMIAKLVVHGNDRHQAVERLAKALHTYEIEGIKCNLTMLKRIITHEKFHAGETTTSFIQNYYLPTLTNH	PGPT0001705_2139	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
AK012_00471	216	yngHB	COG0511	Biotin/lipoyl attachment protein	ATGATTGAAGTAAAAGCGTCAATGGCAGGAAGTGTATGGAAAGTTACAGCAGCAGAAGGAACTCAGATCAATGACGGAGACGATGTTGTGATTCTGGAGTCGATGAAAATGGAGATTCCCATCCCCGCTGAAGCGTCCGGGACGATTAAAGAATTGAAAGTCGGCGAGGGAGATTTTGTCAACGAAGGCGACGTTATTGCCATTATTGAATCATAG	MIEVKASMAGSVWKVTAAEGTQINDGDDVVILESMKMEIPIPAEASGTIKELKVGEGDFVNEGDVIAIIES				NA	NA	NA	NA	NA
AK012_00472	909	yngG	COG0119	Hydroxymethylglutaryl-CoA lyase YngG	ATGCTGAACCTGCCTGATCATGTAACGATAAAGGAAGTCGGACCGAGGGACGGTCTTCAGAATGAACCTAAGGAAATAGCTGCAGAAGACAAAGTGGCTTGGATCAATCAATTATCGGATACCGGACTGTCATCCATAGAAATCAGCTCCTTCGTGCATCCGAAATGGATCCCGCAGCTGAAGGATGCAGCTCAGGTGGCTGCATCCATAAAGCGGAAACCAGGCATCACGTATGCTGCCTTAGTCCCGAATCAAAAGGGACTGGAGGCTGCTTTAACAGCAGATGTTGATGAAGTGGCTGTGTTTATGTCAGCAAGCGAAACACACAATCAAAAAAATATTAATAAAACGATTGATGAAACGTTCCCCGTGCTGGAGGATGTTATCCAAACAGCTAAACGTGAAGGGAAACAGGTGCGCGGCTATGTGTCTACGGTTTTTGAGTGTCCATATGATGGAAAAACATCAAAAGACCAGGTTCTCCGGGTATGTGACCGCTTATTGCGTATGGGCATCGATGAACTGTCGATGGGAGATACAATTGGAACAGCCGATCCGAAGCAGGTGGATGAGGCTTTATCCTATTGGAAAAACCATCTTCCGCTTGAGAACCTGGCGATGCATTTTCACAATACGAGAGGGATGGCGCTGGCGAACGTCATTGTATCGCTTCAGCATGGCATCACGACTTTCGATGCATCTCTCGGTGGTCTTGGGGGCTGTCCTTATGCGGACGGAGCTTCAGGCAACCTTGCGACAGATGACCTCGTTCATATGCTTCACCGGATGGGAATCCACACGGGCATAGATGAAACGGCGCTTCAGAAGACCGCCGATTACATGCAGCGCGTTCTTGGAAAACCGCTTCCAAGCCACGGCATGCAGATCTTGAATATGGAAAGGGTGTAA	MLNLPDHVTIKEVGPRDGLQNEPKEIAAEDKVAWINQLSDTGLSSIEISSFVHPKWIPQLKDAAQVAASIKRKPGITYAALVPNQKGLEAALTADVDEVAVFMSASETHNQKNINKTIDETFPVLEDVIQTAKREGKQVRGYVSTVFECPYDGKTSKDQVLRVCDRLLRMGIDELSMGDTIGTADPKQVDEALSYWKNHLPLENLAMHFHNTRGMALANVIVSLQHGITTFDASLGGLGGCPYADGASGNLATDDLVHMLHRMGIHTGIDETALQKTADYMQRVLGKPLPSHGMQILNMERV	PGPT0008315_2498	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
AK012_00473	783	crt	COG1024	Short-chain-enoyl-CoA hydratase	ATGAGTGAACTCGTTCGTATGGAAGAGCCACTGCCATATGTCTGCCAGCTCACATTGAATCGACCGGAAGCGGCGAATGCTCTCTCCCATGCGCTTTTAGATGAACTGTCTGAAAAAATCGACCGCATCCAGTCCCGTTCTGATATCCGGGTCGTCTTACTTACAGGAGAAGGCGGCAAAGCGTTTTGTGCAGGAGCGGATTTAAAGGAAAGATCAGGCATGACCGAAGACGAAGTGGTACAAACCGTACGGAAGATCGGGGACACCCTCCGGCAATTGGAAAAAATAGAGGTCCCGACGATTGCGCTTATGAATGGGGCAGCCTTCGGCGGCGGTCTGGAGCTTGCTTTAGCCTGTGATTTACGCATGATGAGCTCTTCTGCAAAAGCAGGATTGACCGAAACATCCCTCGCAATTATCCCCGGGGCAGGCGGTACCCAGAGACTATCCCGGCTGATAGGTCCGGGGCGCGCCAAGTCTATGATTTATACCGCGAAACCAGTGGAAGCCTCCAAAGCGTTCCAGATGGGCCTTGTTGAATATATGTATGAACCACAAATGCTTATGGAAGAAGCCCACGACCTGGCTGCCTGTATAGCAAGGAACGGACCGTTAGCTGTCAAGGCAGCGAAAAATGCGATAAACCTGGGCTGTGACACACCGCTGGATGAAAGCCTTGAAATCGAACACGCTGCCTATAAGACAACGATCTCTACAGCTGATCGTATGGAAGGTTTACATGCTTTTAAGGAAAAACGCAGACCGGAATATAAAGGAGAGTGA	MSELVRMEEPLPYVCQLTLNRPEAANALSHALLDELSEKIDRIQSRSDIRVVLLTGEGGKAFCAGADLKERSGMTEDEVVQTVRKIGDTLRQLEKIEVPTIALMNGAAFGGGLELALACDLRMMSSSAKAGLTETSLAIIPGAGGTQRLSRLIGPGRAKSMIYTAKPVEASKAFQMGLVEYMYEPQMLMEEAHDLAACIARNGPLAVKAAKNAINLGCDTPLDESLEIEHAAYKTTISTADRMEGLHAFKEKRRPEYKGE	PGPT0001860_4783	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
AK012_00474	1542	accD5_1	COG4799	putative propionyl-CoA carboxylase beta chain 5	GTGGAGAAAACGATAACGGACCAGCAGACGTTTGAAGAACGAGTGAAGAACATTGCCGGAGGCGGCGCAGAAAAGTACCATGAAAAGAACGCAGAAAAAGGGAAAATGTTCGTGCGTGACCGTCTCCAATTGTTGTTTGATGAAGATCTGGATATCGAAGACGCTTTTTTTGCGAACTGTCAGTCAGAAGGGCTGCCTGCAGACGGGGTAGTGACGGGTATTGGGAAGATCAACGGAGAAACGGTATGTGTGATGGCCAATGATTCGACTGTAAAAGCAGGGTCCTGGGGAGCAAGAACCGTTGAGAAAATCATCCGTATCCAGGAAACCGCTTTGAAAATCAATGCGCCTATGTTGTATCTCGTGGATTCGGCTGGAGCAAGAATTACTGATCAGGTAGATATGTTCCCGAACAGACGCGGAGCGGGACGTATTTTCCACAATCAGATTAAGTTATCCGGCCGTGTGCCGCAGGTCTGTCTGTTATTCGGTCCATCCGCTGCAGGGGGCGCCTATATTCCAGCCTTCTGTGATATCGTAGTCATGGTTGATGGCAATGCTTCCATGTATCTGGGCTCTCCAAGAATGGCAGAAAAGGTCATTGGCGAAAAGGTATCGCTCGAGGAGATGGGTGGTGCTTCCATGCACTGCTCTGTATCGGGATGCGGGGATGTACTGGCATCTGATGAAAAGGAAGCTGTATTGTTTGCCAGAAGCTATTTGAGCTATTTCCCCAGTTCCTATCAGGAGCGTCCGAAAACGAGGGAAGCAAGAGAGCCGGAAGCCTTTGAAAAAACGATCGAAGAACTGATACCCCAAAACCAAAATGCTCCGTTTGATATGTATCAGCTCATTAACCGCCTTATTGATGAGGATTCTTTTTGTGAAATCAAGAGAAAGTTTGCTCCTGAATTAATTACAGGCCTTTCAAGGATCAACGGAAAGTCCGTCGGCATCATTGCCAACCAGCCGAGGGCCAAAGGGGGCGTATTGTTCCCGGATTCTGCGGATAAAGCGGCGAAGTTCATACAGCTGTGTGATGCCTTCAATATTCCTCTCTTATTCCTTGCTGATATCCCCGGCTTTATGATTGGGACGAAGGTGGAAAGAGCCGGAATTATCCGACACGGGGCGAAAATGCTCGCAGCTATGAGCGAAGCCACTGTTCCTAAAATTTCTGTGATCGTCCGGAAAGCATACGGAGCAGGCTTGTATGCAATGGCAGGACCGGCTTTTGAACCGGATGCCTGTCTGGCTCTTCCTACCGCTCAAATCGCCGTAATGGGTCCTGAAGCGGCTGTGAATGCTGTCTATGCCAATAAGATTGCTGCACTTCCTGAGGAAGACCGACCTGCTTTCATTAAAGAGAAGCAGGAAGAATACAAGGAAAACATCGATATTTACCGCCTGGCTTCCGAAATGGTCATTGATGATGTAGTGAAACCCGACCGCCTCCGTGATGAATTGAGCACTCGATATGAAGCGTATGCGCGCAAAAATGTCCAGTTTACAGATAGAAAACACGGCGTTTATCCGGTATAA	MEKTITDQQTFEERVKNIAGGGAEKYHEKNAEKGKMFVRDRLQLLFDEDLDIEDAFFANCQSEGLPADGVVTGIGKINGETVCVMANDSTVKAGSWGARTVEKIIRIQETALKINAPMLYLVDSAGARITDQVDMFPNRRGAGRIFHNQIKLSGRVPQVCLLFGPSAAGGAYIPAFCDIVVMVDGNASMYLGSPRMAEKVIGEKVSLEEMGGASMHCSVSGCGDVLASDEKEAVLFARSYLSYFPSSYQERPKTREAREPEAFEKTIEELIPQNQNAPFDMYQLINRLIDEDSFCEIKRKFAPELITGLSRINGKSVGIIANQPRAKGGVLFPDSADKAAKFIQLCDAFNIPLLFLADIPGFMIGTKVERAGIIRHGAKMLAAMSEATVPKISVIVRKAYGAGLYAMAGPAFEPDACLALPTAQIAVMGPEAAVNAVYANKIAALPEEDRPAFIKEKQEEYKENIDIYRLASEMVIDDVVKPDRLRDELSTRYEAYARKNVQFTDRKHGVYPV	PGPT0002300_638	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002300-mmdA-K01604	NA	NA
AK012_00475	1962	acs	COG0365	Acetyl-coenzyme A synthetase	ATGCGTACATATCCAAATGTATGGAAACCGGAACAGGAGCAGATAGCATCAACCCGTTTGTATCAGTGGATGATAAAATCAGGTTTTACGGATTATAATTCCTTCCATAAGGCGACAACAACCCGTTTGGAATGGATGTGGGAGGACGCCTGTAGAGAACTGGGAATTGAATGGTTTGTACCTTATCAGAAAACCCTGGATTTATCCCGCGGCCTTCCCTATCCTCAATGGTTTGTTGGAGGGGAAATCAATGCCACCCATAACGCTCTCGATAAATGGGCGGAAAACCCAAACCATCAAAATAAAACAGCTGTATTCTGGGAAGGCGACAACGGGGATTCCACAGCCTACTCCTTTAAAGAACTTCAGGAAGCTGTCGATCAGACCGCTCATGGATTCAAGCGTTACGGCATAACGAAAGGGGATATCGTGACGCTTCATATGCCGATGGTACCGGAAACGCTTATCAGTATGCTGGCCCTTTCCAAAATCGGCGCTGTTTTCTCCCCTGCTTTCTCCGGATATAAAGCAGATGCTGTAGCTGCCAGAATCCAGGCTTCCAGAGCAAAAGCACTGATTACAGTTGATGGCTTCTACAGGCGTGGGAAAACCATCAAGATGAAGGAACAGGCGGATAAAGCAGCAGAGCAGTGTCCTTCTCTTGAGCATGTGTTTGTTATAGAACGATCCGGTATCGAAATCCCCTGGCATGAACAACGGGACATTCCCTGGTCATCTCTGCAGAAAAAAGCAGGTCCTTTTCCATCAGCCTCTACTAAATCCGACGATCCCTTCATGCTGATTTATACATCAGGGACGACCGGTAAACCGAAAGGAGCGGTTCACACCCATGCTGGTTTCCCCATTAAAGCTGCTTTTGATGCCGGGATCTGTATGGACGTCGATCAGGAAGATACATTATTCTGGTACACCGATATGGGATGGATGATGGGTCCCTTCCTTGTATATGGAGGACTGGTCAATGGCGCGTCCATCGTCATGTTTGAAGGCACACCGGATTATCCTGAGCCTGACCGCTTATGGCAGATAGTCGACACCTATAAAGTAACGCACCTCGGCCTTTCCCCAACACTCGTCCGGACGTCCATGAAGCATGGAGCCAAATGGCTGCAACGGCATTCTCTTGACTCCTTAAAACTGATTGCATCGACAGGCGAACCTTGGAATGAGGAACCGTGGAACTGGCTGTTTGAACATGCCGGAAAGAAACGGGTGCCGATATTCAATTACTCGGGCGGCACAGAAATATCAGGAGGGATTTTAGGAAATATCCTGATCAAGCCAATCCAGCCGGTTACTTTTAATGCAGCACTGCCGGGAATGGATGCAGTGGTGATGAATGAGAATGGGGAACGTATCGTTAATAAAGTCGGCGAACTGGCGATTCGTAATCCATGGGTAGGCATGACAAACAGTTTTTTTGAAGATGATCAACGATATGAGGAATCGTACTGGAGCCGCTTCCCGGATACATGGGTGCACGGCGACTGGGTGATCGAGGATGATCAAGGCTACTTCACGATCACCGGGCGCTCCGATGATGTGTTGAATGTAGCTGGGAAACGACTGGGACCTGCCGAGGTGGAAACAGTTCTCGTAGACCATCCTCTCGTTTTGGAAGCTGGTGTTATCGGCATTCCTCATGAAACTAAAGGAGAAGAGCCTGTAGCATTTGTTGTCACAAACGATCAGGTCTTGGAACAGGCGTCTCTGATCGAGGATTTAAAGAAATATCTGCACCATAAGCTTGGAAAAGCATTGTCCCCGGGCAGCATTCATCTCGTATCCGACCTTCCTAAAACGAGGAATGCCAAAGTGATGCGCCGTGCAGTTAAGGCCGCCTATCTGAACCAGTCTACAGGAGATTTAAGTGCCCTTGAGAATCCTGAAAGTGTTCAGGAAATTTCCGCTCTCGGAAAAACAATGGGTGCACAATCATAA	MRTYPNVWKPEQEQIASTRLYQWMIKSGFTDYNSFHKATTTRLEWMWEDACRELGIEWFVPYQKTLDLSRGLPYPQWFVGGEINATHNALDKWAENPNHQNKTAVFWEGDNGDSTAYSFKELQEAVDQTAHGFKRYGITKGDIVTLHMPMVPETLISMLALSKIGAVFSPAFSGYKADAVAARIQASRAKALITVDGFYRRGKTIKMKEQADKAAEQCPSLEHVFVIERSGIEIPWHEQRDIPWSSLQKKAGPFPSASTKSDDPFMLIYTSGTTGKPKGAVHTHAGFPIKAAFDAGICMDVDQEDTLFWYTDMGWMMGPFLVYGGLVNGASIVMFEGTPDYPEPDRLWQIVDTYKVTHLGLSPTLVRTSMKHGAKWLQRHSLDSLKLIASTGEPWNEEPWNWLFEHAGKKRVPIFNYSGGTEISGGILGNILIKPIQPVTFNAALPGMDAVVMNENGERIVNKVGELAIRNPWVGMTNSFFEDDQRYEESYWSRFPDTWVHGDWVIEDDQGYFTITGRSDDVLNVAGKRLGPAEVETVLVDHPLVLEAGVIGIPHETKGEEPVAFVVTNDQVLEQASLIEDLKKYLHHKLGKALSPGSIHLVSDLPKTRNAKVMRRAVKAAYLNQSTGDLSALENPESVQEISALGKTMGAQS	PGPT0002265_2591	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
AK012_00476	1500			hypothetical protein	ATGTTCGAAGGAGCCTTAATGGTTATTATTTTAGGAGTGCTTGGTGGAGCTTTAATCATCGGCGGAATTGTTACATTCATTATCTTCCGTCTGCGTTATAAAACGGCCAGTTCAAATGAAGCCTTGATTGTAACAGGCCCTAAACTTGGTGATCCGGAACAGGAAAAGAACGTATTTGAGGATGATAACGGAAGGTCCGTTAAAATCATCAGAGGCGGAGGATATCGTCTCCGTATGTTCCAGACGGCGACGCCGATTGATCTGACATCTTTCCAGCTGCAGGTCAATTCAGAGAAAGCCTACACGAAGGAAGGCATTCCGGTTCGTGTAGCCAGTACAGCGGTCATCAGTATCGGCAGTGAACTTGAGATTATGGCGAACTTTGCTGAGAAGTTTCTTGGTAAAAAGCAGAACGAGCGGGAATCAGAGCTCAAGGATGTCTTAAACGGACATCTTCGTTCCATCATTGCATCCCTGCCTATTGAGAAGATTTATAATGATTTCAAAGAAGTCAATACGCAGGTGAAGCGGATTGCAGAAGCGGATTTGAAAGGCATGGGTTTTGAAATCACGTCCTTTGCGTTAAATGATGTAGAAGATGTGGACGTGGAGAATGGGTACATAGATGCGCTTGGACGTCCTCATATTGCAGAGGTACAGAAAAAAGCGAATATGGCGGAGTCAGATGCGACGAAGGAAACCCGCATCTATCAAGCCAAAAACGATCAGGAAGCGCAGGACGAGGAAAACCGCCGTCTGACAGCTGTTGCGTCTTCGACGAAAGAAAAAGATATAAAAGAAGCGGAATTCCAGACAGAAACGAACCGTGCCAAAGCGAATGCCGATCAGGCCGGAGAACTGGAAAGGCAGAAGCTTGCCCAGCAGATCAAAGAAGAAGAATTAAAAGTTCAGTATATCGAGAAGCAGCGCGCTGTAGAGCTTGAAGAAGAGGAAAACAAGCGCAGGCGTTCGATTGCTGATGCAGAAGCTTATGAAGTAACGAAACGCGCGCAGGCAGAAGCGGATAATGAGCGGATCAAAGGGGAGTCTGATGCAGAAGTTATCCGTCAGCGCGGTATTGCAGAAGCGGAATCGAAAGAACGTATGGCAAAAGCAATGGAGCATTATGGTGAAGCAGCGATTATGGAAATGCTGATTAAAGTTCTTCCTGAATATGCAGAGAAAGTGTCGGCGCCCATCAGTCAGATTAAGGATATGAAAGTAATTGATATGGGCGGCACGGATTCCAAGGGAGGCTCATCGAAAGTTGCAGGAAATGTAACGTCTACAATGCTTGGGATTCAGGAGTCCTTGAAGGAAACGACAGGTATGGATTTGAAAGCGATGCTTGAAAGCTACGTTTCCAGAGGAACCGTTAACAGCTTTTCTTCAGAAGAGAAGAAGGGAGCGGAAGAAGCGGCAGCAGCCTCTGAATCCAACGATCAGAAGGAAGAGTCCGTAGACAAAGAATCAGAGGAAAAGATAGAACCAGAAGAGTAA	MFEGALMVIILGVLGGALIIGGIVTFIIFRLRYKTASSNEALIVTGPKLGDPEQEKNVFEDDNGRSVKIIRGGGYRLRMFQTATPIDLTSFQLQVNSEKAYTKEGIPVRVASTAVISIGSELEIMANFAEKFLGKKQNERESELKDVLNGHLRSIIASLPIEKIYNDFKEVNTQVKRIAEADLKGMGFEITSFALNDVEDVDVENGYIDALGRPHIAEVQKKANMAESDATKETRIYQAKNDQEAQDEENRRLTAVASSTKEKDIKEAEFQTETNRAKANADQAGELERQKLAQQIKEEELKVQYIEKQRAVELEEEENKRRRSIADAEAYEVTKRAQAEADNERIKGESDAEVIRQRGIAEAESKERMAKAMEHYGEAAIMEMLIKVLPEYAEKVSAPISQIKDMKVIDMGGTDSKGGSSKVAGNVTSTMLGIQESLKETTGMDLKAMLESYVSRGTVNSFSSEEKKGAEEAAAASESNDQKEESVDKESEEKIEPEE				NA	NA	NA	NA	NA
AK012_00477	1149			hypothetical protein	ATGAGAATTATTGTAGCAGGGGGAGATGGTTTCTGTGGGTGGCCGACTGCCTTATACTTATCAAAGCAGGGTCATGATGTAACCATCGTAGATAATTTAGTACGCAGAAAGTATGATGACGAGCTCCGCTCCAATTCAGTAACACCGATTGCCACACTGGAAGAACGGGTGGCCAAATGGAAGGAAGTATCAGGGAAAGAGATTAAAACCTTTATCGGGGATCTCAACCATTATGATTTCCTAAGCGAAGTATTCCGTCAGACTGAGCCGGAGGCGTTCGTTCACTTTGCCGAGCAGCGTTCCGCACCATATTCCATGATTGACCGTGAGCATGCGGTTTATACTCAGACAAACAACGTTGTGGGTAACCTGAATGTCCTTTACGCCATTAAGGAATTCGCACCGGAATGTCACTTGATCAAACTGGGCACGATGGGCGAATACGGCACACCTAACATTGATATTGAAGAAGGATATATTGAAATTGAACATAAAGGAAGAAAAGACACGCTTCCGTACCCGAAGCAGCCGGGCTCTTTCTATCACTTGTCCAAAGTGCATGACAGCCATAACATCACGTTTGCCTGCAAAATCTGGGGTATCCGTGCCACAGATTTAAACCAAGGTATTGTGTATGGTTTACATACGGAAGAAACACGCATGGACCCTGTTCTTGTAAACCGTGTGGATTATGACGGGGTGTTCGGGACGGCTCTGAACCGTTTCATCAACCAGGCTGCAATCGGGCATGATATTACTGTTTACGGTACAGGCGGACAGACGCGCGCGTTCCTGAACATCGAAGATACCGTGCGCTGCGTTGAAATTGCTGCTGAAAACCCGGCGGATAAAGGTGAATTCCGGGTATTCAACCAGTTTACAGAGTGGTTCTCTGTTCAGGAGCTCGCTGAACGCGTGTATAAGATCGCTCAGGAAGAGGGGCTTCAAACAGAAGTGAAAAAGATTGAAAACCCTCGTATTGAGAACGAAGACCATTACTACAATGCCGTCAATACGAAACTCCGCGATCTAGGTCTGGAACCTCATCTTCTTACAGACGATGTGATCCGGGATATCCTCCGTACGGCTGTTGAAAATAAAGATCGTATTATCCAGGAGAATGTTCTGCCATCAATTACCTGGAAGTAA	MRIIVAGGDGFCGWPTALYLSKQGHDVTIVDNLVRRKYDDELRSNSVTPIATLEERVAKWKEVSGKEIKTFIGDLNHYDFLSEVFRQTEPEAFVHFAEQRSAPYSMIDREHAVYTQTNNVVGNLNVLYAIKEFAPECHLIKLGTMGEYGTPNIDIEEGYIEIEHKGRKDTLPYPKQPGSFYHLSKVHDSHNITFACKIWGIRATDLNQGIVYGLHTEETRMDPVLVNRVDYDGVFGTALNRFINQAAIGHDITVYGTGGQTRAFLNIEDTVRCVEIAAENPADKGEFRVFNQFTEWFSVQELAERVYKIAQEEGLQTEVKKIENPRIENEDHYYNAVNTKLRDLGLEPHLLTDDVIRDILRTAVENKDRIIQENVLPSITWK	PGPT0024455_552	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID-SULFOQUINOVOSE_SYNTHASE,PGPT0024455-sqdB-K06118	NA	NA
AK012_00478	1164	mgtA_1	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	TTGAAAATCGCCATCATTACAGAAACTTTCCTGCCATCTACAGATGGTGTAGTTACAAGACTGAAGGAAGCCATTACGTATCTCCTGGACCAAGAGCATGAAGTTGTCGTCATTGCTCCGGATCTTGGTGTAAAGGAATACAAAGGAGCGATTGTCGAAGGGGTAAAGACGGCAAAACTGCCTTTTTACAGATCGAAGGAATTCAGCCTTCCACAAAAACGGGTGAAGGATCTGCTGCAAAAGCATGATCCTGACCTCGTTCATGTGGTCAACCCAGCCCTTGTCGGAGTCTCTGGTGTGTACTATGCGGACAAGCTGAATTATCCGTTGATTGCTTCATACCACACACATGTCCCGAAGTATCTGGACTATTACAGGCTGTATCCATTTAAGCCGCTGGTGTGGTGGTACTTCCGAAAACTTCATAACTACGCCCATGTCAACTTGTGTACATCACAGGCGATTAAAACGGAGCTGGATGATAAGAACTTCCATAACGTCAGCGTATGGGACAGAGGTGTAGCTGTGGATCATTATCATCCCGGACACCGTACCGAGACGATGCGCAGCCGTTTATCCAACGGAAAACCTGAAAATAAGCTGCTCGTGTTCGTCGGAAGACTGGCACCTGAGAAGGAAATCCATAAAATCAGGCCGCTGCTGGATGAACGGGAAGACATATCTCTAGCGATTGTGGGAGACGGCCCGGTCAAGGGAGAACTCGAAGAGGCCTTTCAAGGTACAAATACAGTGTTTACAGGGCTTCTCCATGGAGATGAACTGGCTGAGGCATTTTCTTCTTCAGACGCGCTTATTTTCCCGTCTGTAACGGAAACACTGGGCCTTGTTATATTAGAGGCCATGGCGTCAGGTCTGCCTGTCATAGCAGCTAAGAGTGGCCCGACAATGGAACAGGTGGAAGATGGCCGCACAGGGCTTTTATTTGAAAATGAAAACACAGAAAGTATGATTGAGGCGATCAACCGTTTGGAAGATCCATCTCTCTATACCGACCTTTGTAAAAACGCCAGGAAGGAAGCTGAAAAACACAGCTGGCAGAAACCTTCTGAGCAGATCTTGGATTATTACTACACAACCCTTCGCGTATATGAGGAAAGCACACCACAACAACCGAAAAAATCGAAGGTAAAGGTCACAGAGTAA	MKIAIITETFLPSTDGVVTRLKEAITYLLDQEHEVVVIAPDLGVKEYKGAIVEGVKTAKLPFYRSKEFSLPQKRVKDLLQKHDPDLVHVVNPALVGVSGVYYADKLNYPLIASYHTHVPKYLDYYRLYPFKPLVWWYFRKLHNYAHVNLCTSQAIKTELDDKNFHNVSVWDRGVAVDHYHPGHRTETMRSRLSNGKPENKLLVFVGRLAPEKEIHKIRPLLDEREDISLAIVGDGPVKGELEEAFQGTNTVFTGLLHGDELAEAFSSSDALIFPSVTETLGLVILEAMASGLPVIAAKSGPTMEQVEDGRTGLLFENENTESMIEAINRLEDPSLYTDLCKNARKEAEKHSWQKPSEQILDYYYTTLRVYEESTPQQPKKSKVKVTE				NA	NA	NA	NA	NA
AK012_00479	270			hypothetical protein	ATGTGCTGGCAGGGAAACATGGTAACAGGTGTTTATATAGAAGAAACCAATCAGTTTGACGTGCAGCAGATCAAGCATTTTCAGACAAATTCATTACTGAGCCTGGAGCAGCTGACTCAGCTGCATAAATATCTGGAAAAACACAATGATGATACAGGCCATATATTAACGATCAAGGATCAAATGCTGGTGCCGTTAAGCCGGATGGATGTGCAAATGATTCTTGAAGATTTTAAAGCCATCCATAATTTTTTTCAAGCCGATGATTAA	MCWQGNMVTGVYIEETNQFDVQQIKHFQTNSLLSLEQLTQLHKYLEKHNDDTGHILTIKDQMLVPLSRMDVQMILEDFKAIHNFFQADD				NA	NA	NA	NA	NA
AK012_00480	780			hypothetical protein	TTGATCATTATATCGAAAAGATCCGGATCCAAAAAGCGCCGGCTTTCTGATAAAGAGATTGCAGAACGTTACAAAAAAGGGGAAAGCACGTCAGTTATTGCAGGGGAGGCGGGCATAACTCCGGATGCTGTCCGCCTCGTGTTGAAAAAAATGAACGTAACTCTGCGTCCTCGTGGCAGCTGGAAACGTAAATATCACGTCAATGAGCATTATTTCAAGACATGGTCGAACAATATGGCTTATATCCTCGGATTTTTTGCTGCAGATGGCATGATTCCTTCTAAAGGTCAGCAAATCAGCTTTGCTCAGAAGGATATGTCTATCCTTAGCCTCATTAAGCAGGAGTTAGACTCCAACCATCCAATTATTTTAAACGAAACGACAAATGTCTATATCCTCAATTTAAACAGCAGGGTCCTAAAAGAAGACCTTATGCATATTCATGGTTTTACACCGAGAAAAAGTATGAGTGTACAAATGCCTGACATCCCGGGAAGGTACAAATCACACTTTATCAGAGGTTATTTCGATGGAGATGGATGTGTATATAAAGACAAGCTGTTTATCAATATTGTGTGTGGATCGAAAGATTTCGTTCATTCATTAAGTGAAGTGTTGGATGAACAAACCATTAAAAATCAAATAAAGGTCTTTAACAATTATTTTAGACTTTATATTAGTGGCCCCAAAGACGTTCAAAATTTTTTCCGTTGGATTTATGAAGATAAAGAACTTTACATGGAAAGAAAGTACAAAACGTTTTTAAATTTGTTTACTTAA	MIIISKRSGSKKRRLSDKEIAERYKKGESTSVIAGEAGITPDAVRLVLKKMNVTLRPRGSWKRKYHVNEHYFKTWSNNMAYILGFFAADGMIPSKGQQISFAQKDMSILSLIKQELDSNHPIILNETTNVYILNLNSRVLKEDLMHIHGFTPRKSMSVQMPDIPGRYKSHFIRGYFDGDGCVYKDKLFINIVCGSKDFVHSLSEVLDEQTIKNQIKVFNNYFRLYISGPKDVQNFFRWIYEDKELYMERKYKTFLNLFT				NA	NA	NA	NA	NA
AK012_00481	528			hypothetical protein	ATGAAAAAAGTATCCGCCCTGATTGTGACCGTCCTTATTTTTGTTATGTACCGCCCTAGAATTGTTCATGCTTTCACGTTTGAGCCTTCTGACGTTTTACCAGGCGATGTATTATTTTCTCCAGTTGGTAAACGAGAGTCCAAATATGTAGGCCACATAGGAATTGTCACCACGGATAAAAAAGTGCTGCATTCCATTCCTGCCGGCTTGATGAAGGATGAACCAGACACTTATAAAAGAAAATTCCGCAAGGTTGCTCACTACCGCCCGCATGAGCAGGTCAAAGGGCTTCGCTCTGCTGCATTTGCAGAGGATTTGTACCACAGACACCCAGAAGCTTTATACCGCATTCACACGCCTTTAAACGGCTCCTGTGATATTCAATACTGCACAAAAATCGTCTGGCAGTCCTATTACGCCGCCGGCATTAATTTAGGATCCCTATCAGAAAAAGCCAGAGCCGTTCATCCTTTACGGCTGTTGGACGACACATCGTTATATCCATTAAAAAGGCGTTCAAACAGATGA	MKKVSALIVTVLIFVMYRPRIVHAFTFEPSDVLPGDVLFSPVGKRESKYVGHIGIVTTDKKVLHSIPAGLMKDEPDTYKRKFRKVAHYRPHEQVKGLRSAAFAEDLYHRHPEALYRIHTPLNGSCDIQYCTKIVWQSYYAAGINLGSLSEKARAVHPLRLLDDTSLYPLKRRSNR				NA	NA	NA	NA	NA
AK012_00482	933	dinG_1		3'-5' exonuclease DinG	ATGAATTTTACAGCACTTGATTTCGAAACAGCCAACGCCTCTAAGGGTTCGGTTTGTTCCATCGGGCTTGTAGAGTATGAGAACGGGGAGCTGGTGAGGGAATATTACCGCCTTGTAAAACCGAAGAAGAATTACTTTGCTCCTATAAATGTACGTGTGCATGGAATTACCAAGGAAGATGTCAAAGATGCCGAGGAATTTCATACGTTGTGGGAGAAGGAAATAAAGCCCATGGTGGAAGGAAAGCTTTTGATTGCCCATAATGCACAGTTTGACATGGGGGTTTTAAGAGCTGTCCTGGATGAGTACAACCTCCCTTATCCGATGCTTGCTTATAACTGCACATTGAACATCTCAAGGAAGACGTGGCAGCTTCCTAAATACAACTTAAATCGTGTAGCGGATCATCTTGGTTTTTCTTTTTCCCACCACCACGCTTTGGAAGATGCTAAAGCAGCGGCTCATATATTTTTGAAAGCTAAAGAAAAACTTCAAGCCTCAGACAGCAGGGATTTAGTCGATAAATCAGGCACAACCAACGGAATGATGTATGAAGGGGGTTATGAACCGGCGCGGTTGAATAAAAAGCGGAGGGCACAAAAGCCATCGGCCTCTTCTTTCTCAGCAGCGTCAGTGGAAATGGATCCTTCTCATCCTTTGTACAAAGCCTCTGTTGCCTTCACCGGCAGACTTTCTCATATGAAAAGGGAGGAGGCCGTCCAGGAGGTGGTTCAGCGGGGTGGCATGTTTCATTATGATATCCAGGCGTCTACCAACTATGTGGTGGTCGGAAACAAAACGTATGAGCGGTACACGTCAGGGGAGAAAACCTCCAAACTGGAAAGAACCGAGACTCTTTTGAGTCAGGGAGCATCCATCGAGATTTTGTCAGAAGCGGATTTTCTAAACTTTGTAAGGCGTTCATCTGTTTGA	MNFTALDFETANASKGSVCSIGLVEYENGELVREYYRLVKPKKNYFAPINVRVHGITKEDVKDAEEFHTLWEKEIKPMVEGKLLIAHNAQFDMGVLRAVLDEYNLPYPMLAYNCTLNISRKTWQLPKYNLNRVADHLGFSFSHHHALEDAKAAAHIFLKAKEKLQASDSRDLVDKSGTTNGMMYEGGYEPARLNKKRRAQKPSASSFSAASVEMDPSHPLYKASVAFTGRLSHMKREEAVQEVVQRGGMFHYDIQASTNYVVVGNKTYERYTSGEKTSKLERTETLLSQGASIEILSEADFLNFVRRSSV				NA	NA	NA	NA	NA
AK012_00483	111			hypothetical protein	ATGACTTTTGATTTTGCCCATCTTCCTTCCGATCAGCTTCAGCAGATCAAACAACTGGAGGAAGCATACAACATTGTATTGATTGCTTATGACGATAAATATAGAACATAA	MTFDFAHLPSDQLQQIKQLEEAYNIVLIAYDDKYRT				NA	NA	NA	NA	NA
AK012_00484	345			hypothetical protein	ATGAAGCAGAAATGGAAGCGGAAATCTTATAAAGGAGCAGTCTTTCTTATGGCTCTTTTATTTCTTTCTGTGTCCTTCAACCATGTGTTTGCCCAGCCTGATTATGCCAAATGGGGAAAAATCGCGGTTGAGGAAACCGATAAAAACTATCCTGATTTCGACCTGGTGAATTACGAATATCAGGGAAAAGTAGCCATAGCGGATAACCGGGAGCAGTACACCTTCCTTTTTACCATGGATCAGGATGGAACGAAAAAGAAAGTACGTGCTTACGTTCTTGTTAATCCTGCAGAGGATCAATTGATTGAAGTTCAGTTTGAGGACACAACAACCTCTTCCCCGTAA	MKQKWKRKSYKGAVFLMALLFLSVSFNHVFAQPDYAKWGKIAVEETDKNYPDFDLVNYEYQGKVAIADNREQYTFLFTMDQDGTKKKVRAYVLVNPAEDQLIEVQFEDTTTSSP				NA	NA	NA	NA	NA
AK012_00485	555	ydjA	COG0778	Putative NAD(P)H nitroreductase YdjA	ATGAATCAAACCAAGTCAATGATAGCAGAGGTCATTCGAGAAAGAAGGTCGATTAAAACCGGCTATTTGGATGAACCGGTTCCGACTGAGCTTGTAAAGGAAATTCTGGAGGATGCTGTATGGGCGCCTACACACGGGATGCGTGAACCGTGGCGTTTCATCTACGTTCCTTCAGAAAAGAAAGAGGACTTTGTCACTTCCCTTGTTGAGACGTTTCCGGAAGAGCGGAGGGAAGACCGCAGAGATTACTTCAGCAAGCCATCATCCTTTTTAATTGTTGTGATGGATGAAGACCCAAGACAGAAGGTGTGGGAGGAAAATTTCGGAGCCGTCAGCTGTCTGCTTCAAAACTTTCAACTTTTGGCCTGGGAAAGGGACCTTGGAGTGGTTTGGAAGACCAATCCGCATATATATGAGCCAAAAGTACATGAACTGCTGGGGATTCAGCCTGAGGAGAAGATTGTCGGCTTTATACATATGGGGTACTTTGAAGAAAAACCAAAGCCTAAACAACGAACATCCATCGACGATAAATTTACGCTTTATACGCCATAA	MNQTKSMIAEVIRERRSIKTGYLDEPVPTELVKEILEDAVWAPTHGMREPWRFIYVPSEKKEDFVTSLVETFPEERREDRRDYFSKPSSFLIVVMDEDPRQKVWEENFGAVSCLLQNFQLLAWERDLGVVWKTNPHIYEPKVHELLGIQPEEKIVGFIHMGYFEEKPKPKQRTSIDDKFTLYTP				NA	NA	NA	NA	NA
AK012_00486	588	msrB_1		Peptide methionine sulfoxide reductase MsrB	ATGAAAAGTCTATCGCTCTGGCTTCCTTTAATTATCGTCGTTGCAGGCATCGGCCTTTTTACATGGAGTAAAAATACGGGTGCTTCCTCAGATGCTGCAACAAAGACGACAGAAGACACGAAGACGATTGAAATGTATAACGGAGACACTGTCGAATGGACGAAAGCGGAACTGAAAGATCAGCTTAGTGATATTCAATACAAGGTTACCCAGCAGGACGGAACGGAAAAAGCGTTTGATAATGCGTATTGGGATAACAAAGAAGCGGGAATTTACGTGGATATCGTCTCCAAAGAGCCGTTGTTCAGCTCCCAGGATAAATATAAGTCAGGAACCGGTTGGCCGAGTTTCACAAAACCGCTGGTTGAAGAAAATATCGTAACGAAAGACGATCCCGGTATTTTCGGCATGCGGACAGAAGTACGGAGTGAAGCGGGAGACAGTCACCTTGGCCATGTCTTTAATGACGGGCCTGAACCGACGGGTCTCCGCTACTGTATGAATAGTGCCGCTCTCGAGTTCATTCCTTTGGATGAAATGGAAGAAAGAGGCTACGGAGAGTATGTAAAGGCCTTTGATCAAGAGTAA	MKSLSLWLPLIIVVAGIGLFTWSKNTGASSDAATKTTEDTKTIEMYNGDTVEWTKAELKDQLSDIQYKVTQQDGTEKAFDNAYWDNKEAGIYVDIVSKEPLFSSQDKYKSGTGWPSFTKPLVEENIVTKDDPGIFGMRTEVRSEAGDSHLGHVFNDGPEPTGLRYCMNSAALEFIPLDEMEERGYGEYVKAFDQE	PGPT0013070_493	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013070-msrB-K07305	NA	NA
AK012_00487	480			hypothetical protein	ATGAAGAAATGGAACGTACGCGTTTTATCTGTTTTATTCCTGCTTACAGCCTGTGGAGAACCGACAGGAGAAAAGGAAGAAGTGAAAAACGACCTCAATGCCGTAGATAACATTTCCTATGACTTAGCAGATACAACGACAGATGCCTTTTCATTTACTGCTTTCAATCTCGATGTTCACTATCCTGAGGGTGTCACCTACCGGGTTTACTACTCCGCTTATGAACAGGCAGCTCAAGCGGTTGTTTATGAGATGGGCAAAGAAAGAATTTCAGGAACTCAAGCGATGAATCAGCTGACTCCATTGTTCCGGGAAATGAGTTTTGATCAAGATTCCTCTGATTCCCTCGTCATTCAGGACGTCCTCCACGTTTTCGGCCTGAGTGAAGGGTATAAACACTTTTCCCTTCGCGTGGTGTATCCAGGTAAATCGGAGCGGCATTATGAGAGCACTAAAAAACAGCCCATGTCAAATGGATGA	MKKWNVRVLSVLFLLTACGEPTGEKEEVKNDLNAVDNISYDLADTTTDAFSFTAFNLDVHYPEGVTYRVYYSAYEQAAQAVVYEMGKERISGTQAMNQLTPLFREMSFDQDSSDSLVIQDVLHVFGLSEGYKHFSLRVVYPGKSERHYESTKKQPMSNG				NA	NA	NA	NA	NA
AK012_00488	888	cvfB		Conserved virulence factor B	TTGTCAAAAAGGGTGAATAAAGTGAGCAAACAACAATATTTAGGAACAGTCAGAAAAGCTGTTTTAACAAAAAAAGTGACCCATGGATTCAAGGTGACAGCAGGAAATGAGGAATATTTTCTTCCTGATGAAGAAGTGGACGAGTCTGTTGAACTTGGTGATGAACTGACATGCTTTTTATATATGAATAAAAAAGGAGAGCCTGCAGCGGTTCTTGAACTTCCCGAAATTACACGTGATTCCTACGGATGGGCGGAAGTCGTTGACATTTATCCGGGCACAGGCGTATTTGTCGACATCGGACTTCCCGACAAGGATATTCTTGTATCTTCCGACCACCTGCCGCTCTGGAAATCGGTCTGGCCGGCGATAGGCGATCATTTATTCCTGAGTCTGGAGATGGATAAAAAAGGACGGTTGATTGGTGAGCCTATCAGCGAGCAGGAAGTAATGGATGATCTTGAACCGGCGCCTGCCGAACTGCTGAAGGAAGAAGTCACGGCAAGAGTCTATCGTGCCATTAAAGCCGGAACAGCCGTATTGACGGGAGAAGGCTACCGCGGCTTCATCCATCCTCATGAACGGAAAGAAGAGCCGCGCCTTGGGCAGACGATTCAGGCGCGCGTCATTGACGTGAAGGAAGATGGGACGATCAACCTTTCCTTACGACCTTTAAAACAGGAAAGTATGTCTGAAGATGCTAAAATGATCTTCCAATACCTTGAGGAAAACGATGGGGTTATGCCGCTTCACGATAAAAGCTCACCGGATGAAATCCGGGAAACGTTCCAAATCAGCAAGGCTGCTTTCAAGCGTGCGCTCGGACAGCTGATGAAACAGGAAAAGATTGAGCAGAAAGACGGCCAAACAGTCATCAAGCATGGATAA	MSKRVNKVSKQQYLGTVRKAVLTKKVTHGFKVTAGNEEYFLPDEEVDESVELGDELTCFLYMNKKGEPAAVLELPEITRDSYGWAEVVDIYPGTGVFVDIGLPDKDILVSSDHLPLWKSVWPAIGDHLFLSLEMDKKGRLIGEPISEQEVMDDLEPAPAELLKEEVTARVYRAIKAGTAVLTGEGYRGFIHPHERKEEPRLGQTIQARVIDVKEDGTINLSLRPLKQESMSEDAKMIFQYLEENDGVMPLHDKSSPDEIRETFQISKAAFKRALGQLMKQEKIEQKDGQTVIKHG				NA	NA	NA	NA	NA
AK012_00489	996	tgnB	COG2141	Flavin-dependent trigonelline monooxygenase, oxygenase component	GTGAGACTGAGTGTACTTGATCAAAGTCCTATATCCAAGGGGGAAACTGCCGAACAGGCGCTGCATCACACCATTGAGCTGGCCCGTTGGACAGAGAAGCTGGGTTATTACCGGTACTGGGTGGCTGAACACCACAGCACGAATGGACTGGCGGGTTCTTCCCCCGAAATATTGATCGGTCAGATCGCAGCGGCTACAAACAGCATCCGTGTCGGTTCAGGAGGAGTGCTCCTTCCTCAATACAGCCCGTTGAAAGTAGCTGAAAATTTCAGGGTATTGGAGGCCTTTTACCCGGGCAGAATCGATCTCGGCCTTGGACGCTCACCTGGAGGCGGTCGTAAAACAAGACTGGCTTTGACGGACGGTTTGGAAAAGCCGCTCAGCTCTTTTTCCCGTCAGGTAAAAGAATTGCAGCAGTTCCTGCACGGGACGGTTCCTAAAGGAAGCGATTATTACGGGGTGACGGCAAGACCGGCAACACAAAGACAGCCTGAAACGTGGATTCTCGGTTTGTCCGAACGCGGTGCCCGTCATGCAGCCGTAAACGGGACAGGCTTTACACTCGGACACTTCATCAGTCCTGATAACGGTACAGCTGCACTGAATACTTACCGGGAAAGATTCAAACCTTCTCCCGCCCTTGATGAGCCGGACGTTAATGTCTGTATTTTTGTGGTCTGTGCAGAAACAGAGGAAAAAGCAGAAAGACTGGCACTTAGTCAGGACCTCTGGCTCCTGCAGGTTGAAAAAGGACTGGAGACACGTGTTCCTTCAATCGAGGAAGTTGAAAGCTGCGATTTTTCTGAGAAGGAAAAGGAGAAAATCCAGCAAAACCGCCGGCGTGCGGTTATCGGCACACCCCGGCAGGTGAAGGAGCGGCTGCTTGAACTGGCAGAGCTGTATCAGACCGAAGAGTTTTTGATCATAACGAATATTTACAATTGGGAGGATAAGAAAGAATCTTATCGTCTGATCGCTGAACAATTCCACTCCTAA	MRLSVLDQSPISKGETAEQALHHTIELARWTEKLGYYRYWVAEHHSTNGLAGSSPEILIGQIAAATNSIRVGSGGVLLPQYSPLKVAENFRVLEAFYPGRIDLGLGRSPGGGRKTRLALTDGLEKPLSSFSRQVKELQQFLHGTVPKGSDYYGVTARPATQRQPETWILGLSERGARHAAVNGTGFTLGHFISPDNGTAALNTYRERFKPSPALDEPDVNVCIFVVCAETEEKAERLALSQDLWLLQVEKGLETRVPSIEEVESCDFSEKEKEKIQQNRRRAVIGTPRQVKERLLELAELYQTEEFLIITNIYNWEDKKESYRLIAEQFHS	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
AK012_00490	381			hypothetical protein	GTGTCACATAAAAACAACCCGAAGCGTTTTGCTTTGAATATGAGCGCAGCGCAGTTTACTAAATTTTATATCATGCACTTACTTCAAATCCGCCAGCCGATGATCAGTGAACATTTCAAGACGGAATTTAAGCAGCTGACGAAAAACTGGATCCCGGCACCTTCGACACTTCTGGATACATTACATGAAATGACGGAACAGGGGTTACTCTATCGGAAGGAAGATTACAAATCTCATGATCGGAAACGCCAGAAAGTATACTGGTATTACCTGACCGATCAAGGAAAAGAAGAATTCGATGTACTGAAAAAGCGGTATAAGCTTTTGTTTGAAGAACAGATACAGATTCTAAATCAAATTATGAAAGATGTGTATCGTTAG	MSHKNNPKRFALNMSAAQFTKFYIMHLLQIRQPMISEHFKTEFKQLTKNWIPAPSTLLDTLHEMTEQGLLYRKEDYKSHDRKRQKVYWYYLTDQGKEEFDVLKKRYKLLFEEQIQILNQIMKDVYR				NA	NA	NA	NA	NA
AK012_00491	996	ccrA2	COG0604	Crotonyl-CoA reductase	ATGAAAGCGATTGTACATGAAGGGAAAGAGGGTCTGGCAGGTCTGAAGGTGAAGTCCATGGAGGATAAAGAGCCTGCAGGCTTTGAAGTCAAAGTCCGGATACATACAGCAGGAATGAACCGGAGGGATCTGGCCGTCGCTTCAAAAAGGCATAAGGCGGAAGATCCTGCTGTTATTTTGGGTTCAGATGCTTCCGGAGTTGTAGAGGAAACAGGATCAGAGGTGACCCGTTTTAAGAAAGGGGACAAAGTGATTATCAATCCAGGGCTCGGCTGGAAGGAAAATAGTGATGTTCCACCGGAAGGTTTTGAGATTGTCGGTTTTCCTGACCATGGGACATTTGCTGAAACTTACATAAGTACAGAAGACCATCTGGAGATGAAGCCGAAGCACTTATCCATGGAGGAAGCGGGGGTTCTGTCACTGGCGGCATTGACGGCCTACAGAGCTTTGTTTACAAGAGGAAGAGCAAAGGAAGGAGATACAGTCATGCTTCCGGGAATCGGCGGAGGCGTTTTGACGTATGCGCTCAAATTCGCCAAGGCCGAAGGGGCCAGGGTTATCGTTACATCACGTTCCAGTGAAAAGCTGAAACAGGCCCTTGATGCAGGAGCGGATAAAGCTATTCTTACAGATTCAGACTGGAGGGAGGAGCTGGCCGATGAGCGGATTGATTTATTGATCGAAAGCATTGGAGCAGCTACGTTCAATGAATCGCTGCGTACCGTCCGCAAAGGAGGGACGATTGTCACCTTCGGATCGAGCACGGAGGATGAGGTAACCTTGAACCTTCGCGAATTCTTTTACGGGCAGTATAACCTGCTCGGGTCGACGATGGGAAGTGCGGAAGAGCTGAGAGCGATGCTTGCTTTCATCGAACGCCACAACATCCATCCTGAAGTCGACAGGATGTTCTCGATCGATCAGGTGGTTGAAGCTTTCGAATACATTCGAGATACGAAAAACTTCGGAAAAATCGGTTTTCAAATGTCGTAA	MKAIVHEGKEGLAGLKVKSMEDKEPAGFEVKVRIHTAGMNRRDLAVASKRHKAEDPAVILGSDASGVVEETGSEVTRFKKGDKVIINPGLGWKENSDVPPEGFEIVGFPDHGTFAETYISTEDHLEMKPKHLSMEEAGVLSLAALTAYRALFTRGRAKEGDTVMLPGIGGGVLTYALKFAKAEGARVIVTSRSSEKLKQALDAGADKAILTDSDWREELADERIDLLIESIGAATFNESLRTVRKGGTIVTFGSSTEDEVTLNLREFFYGQYNLLGSTMGSAEELRAMLAFIERHNIHPEVDRMFSIDQVVEAFEYIRDTKNFGKIGFQMS				NA	NA	NA	NA	NA
AK012_00492	870	yocH_1	COG1388	Cell wall-binding protein YocH	ATGAAAAAAACTGTATTTTCTGTTGCAGCGACCGTAGCCTTGACTGGAGCATTTGCCACATCTGTAAGTGCTCATGAATCTGAACAATATTCCGTCAACAAAGGGGATACTCTTTGGAGCATCTCTCAAAAATATAATGTATCCGTCAATAACTTGAAATCATGGAACGATCTGAATTCCAATCTTATTTATCCTAAGCAGACACTTGCCGTATCCAATGCACACGGTGATCAGGCATCAACTTCTACTACTACATCTTCGAACGCATCCACGTACACGGTTAAATCCGGAGATACGTTGTTCGCGATCAGCCAACAATTCAATATTTCCGTCGATCAGCTGATGGCTTGGAACAACTTGTCTTCCACTCTCATCTACCCTGGGGAACAATTCAAGGTTGACGGACCAAAGGCTTCCGCCGGGACTTCCGCAGCTCCAGCTGAAGAAAGCAAGCCGGAAGCGAGCGAAAGTAAGCAGAAATCAAGCAGCTCCAGCAATGCATCTGCTAAAGAAACATCTGCTTCTTCTACAGAGGCTGTGCAGGCAGATACAAACAAAGGAACAAGCAATGATGTTGTCAAAGAAATTACAGCGGAAGCAACAGCTTACACGGCAAACTGCACAGGCTGCAGTGGCGTGACAGCAACAGGGATTGATCTGAATGCGAATCCAAACCAAAAAGTCATTGCCGTAGACCCGAACGTTATTCCACTTGGTTCCAAAGTATATGTAGAAGGCTATGGAACAGCTATCGCTGGTGATACCGGCGGAGCCATCAATGGAAACCGCGTCGACCTTTATATGCAGGACCGCGGAGATGCGCTTGACTTCGGACGCCAGACAGTCAAAGTACAGGTACTTGCGGACTAA	MKKTVFSVAATVALTGAFATSVSAHESEQYSVNKGDTLWSISQKYNVSVNNLKSWNDLNSNLIYPKQTLAVSNAHGDQASTSTTTSSNASTYTVKSGDTLFAISQQFNISVDQLMAWNNLSSTLIYPGEQFKVDGPKASAGTSAAPAEESKPEASESKQKSSSSSNASAKETSASSTEAVQADTNKGTSNDVVKEITAEATAYTANCTGCSGVTATGIDLNANPNQKVIAVDPNVIPLGSKVYVEGYGTAIAGDTGGAINGNRVDLYMQDRGDALDFGRQTVKVQVLAD	PGPT0019120_221	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019120-sle1|yocH-K22409	NA	NA
AK012_00493	1617	ybiT_1	COG0488	putative ABC transporter ATP-binding protein YbiT	ATGTTAACAGTAAATAACGTAGGGCTTCGATTCGGTGACCAGAAGCTGTTCGAAGACGTCAATATAAAATTTACCCCTGGTAACTGCTACGGGTTAATCGGGGCTAACGGAGCAGGTAAATCCACATTCCTGAAAATCTTGAGTGGAGAGATCGAACCACAGGTCGGAGATGTGAGTCTGAAAAAAGATCAGCGTCTGGCTGTCCTGAAACAGAACCACTTCGAATACGATGAATATCAAGTACTTGAAACGGTCATTATGGGCCATACACGTCTGTATGAAGTGATGAAAGAGAAAGACGCCATCTATATGAAAGGCGATTTTTCTGAGGAGGACGGCATGCGTGCTGCTGAATTGGAAGGCGAATTCGCAGAAATGAACGGATGGGAAGCGGATTCCGATGCGGCCCGCCTTCTTAAAGGACTTGGAATCGGCGAAGACCTTCAAACGAAGCAGATGAGTGAGCTTGCCGGATCGGAAAAAGTGAAAGTCCTTCTGGCCCAGGCCTTGTTCGGCAATCCTGATGTTCTTCTTCTCGATGAGCCGACCAACCACCTGGATATTAAAGCGATCCAGTGGCTTGAGGATTTCCTGATCGACTTTGAAAACACAGTCATCGTCGTTTCCCACGACCGTCACTTCCTGAACAACGTATGTACACACATCGCTGACCTTGACTTCGGTAAGATCCAGGTTTATGTCGGTAACTATGACTTCTGGTACGAGTCCAGCCAGCTTGCCATGAAGATGGCACAGGAGCAGAATAAGAAGAAGGAAGAAAAGATCAAGGATCTCAAAGAATTCGTGGCCCGGTTCAGCGCCAACGCTTCCAAGTCGAAGCAGGCGACGTCCAGGAAAAAACTATTGGATAAGATCACTCTGGATGATATCCAGCCTTCCTCCCGTAAGTATCCTTATATTGCCTTCCAGGCGGACAGGGAAATCGGAAATGATTTGCTGACAGTGAAGAACCTGTCAAAAACCATTGATGGTGTGAAAGTGCTGGATAACATCAGCTTCACATTGAACAAAGATGATAAAGTCGCTCTTGTAGGGGCCAACGAAGTGGCTAAGTCCACGCTGTTCCAAATTCTGATGGGAGAAATCGAACCGGATGAAGGCAGCTATAAGTGGGGCGTGACAACATCCCAGAGCTATTTCCCTAAAGACAACTCCGAGTTTTTCGACTCCGAACTCAGTCTGGTTGAGTGGCTTCGCCAGTATTCACCGGAAGATGAAACGGAAACGTTCCTGCGCGGCTTCCTTGGCCGTATGCTGTTCTCGGGCGAAGAAGCATTGAAGAAAGCGAACGTGTTGTCCGGTGGAGAAAAAGTCCGCTGCATGCTTTCTAAGATGATGCTGTCAGGGGCTAATGTTCTTCTATTGGATGAACCAACCAACCACCTGGATCTGGAGTCCATTACAGCGTTGAACAAAGGATTGATCAATTTCAAAGGCTCTGTCATTTTTGCCTCTCATGACCATGAGTTTATCCAGACCATCGCTAATCGGATTATCGAATTGACTCCGAGCGGCCTTGTCGATAAGGAAATGACGTACGATGAGTATTTGAACGATCCTGAAATTCAAAAACAAGTCGCTGCTCAATACGCATAA	MLTVNNVGLRFGDQKLFEDVNIKFTPGNCYGLIGANGAGKSTFLKILSGEIEPQVGDVSLKKDQRLAVLKQNHFEYDEYQVLETVIMGHTRLYEVMKEKDAIYMKGDFSEEDGMRAAELEGEFAEMNGWEADSDAARLLKGLGIGEDLQTKQMSELAGSEKVKVLLAQALFGNPDVLLLDEPTNHLDIKAIQWLEDFLIDFENTVIVVSHDRHFLNNVCTHIADLDFGKIQVYVGNYDFWYESSQLAMKMAQEQNKKKEEKIKDLKEFVARFSANASKSKQATSRKKLLDKITLDDIQPSSRKYPYIAFQADREIGNDLLTVKNLSKTIDGVKVLDNISFTLNKDDKVALVGANEVAKSTLFQILMGEIEPDEGSYKWGVTTSQSYFPKDNSEFFDSELSLVEWLRQYSPEDETETFLRGFLGRMLFSGEEALKKANVLSGGEKVRCMLSKMMLSGANVLLLDEPTNHLDLESITALNKGLINFKGSVIFASHDHEFIQTIANRIIELTPSGLVDKEMTYDEYLNDPEIQKQVAAQYA				NA	NA	NA	NA	NA
AK012_00494	1350			hypothetical protein	ATGGACAACAAAGTAAAGCAGATGCTGGAAACGAAACAAGCCATCAGAAAAAATACGCTTGGCACGATTTTGGACCGCTTTGACGGGGATCTGATGAAATTATCCAAGAAGCAGCGCAGGCAGAAGTACAAAAAAATGATGGAAAACCCGTACAGCTTCTTCCGTGGGAGCGCCTACTTATTCTTTCATGACGTCACAGAGCTGCCATTCAGGTTTCACACTCCTGAAGAAAAACCTACATGGATTATGGGAGATCTTCACTTTGATAACTACAGTGTGTTTCAAAATGAAAAAAAGGACATCGTCTTTGATGTCGATGATTTCGATGAGGGCTATCTCGGGTCTTACTTATATGACATTATGCGGATGGTGGTCAGTATCCGTTTAACGATGGATGAACTGGGTTATCCTGAAGACAGTCATGATGCGATGGTTGATCATTACCTCAAGCATTACGTGAAGCAGATGGAGGCCTTCCACCATAGAGAGCAGGATCCGGAGACGATGTACTTTACCAAAGAGGAAAGCAAGGGAGCCGTTAAAAAAGCGATTCAAAAAGTAGAAGAACGGCGGGCTTCCCATGAACTGGAGAAACAGACGATCGTCAAACATGATTCCATCCGCTCCTTCGATATCGGCAGGGAAAAGTTATCCTCCGTACCGAAGCAGGAGTATGAGCAGCTGGTTAAAGCGTGGGACGATTACTACCAGTCGCTTGATCAAAAGCTGCGGCGGCCGCGTGAATTTTACCGGATCAAGGATATCGTAAAGAAACAGGGGTCAGGGATCGGCTCGACCGGGCTGAACCGCTACTACATTCTGATTGAAGGGGACTCGGGGGACAGCCATGAGGACGACATCATCCTGGAAGCCAAAGAAGCCCGGACTCCGATCCCTGCGTATTTCTTCCCATATGATGAGCAGTTCTGGACAGAGCACCGCCAGCAGGGGAGACGTGTCATTCACACCCAGCAGGCCATGCATCATTTGTCCGATCCCTACCTCGGTTACTTTACGATGAATAACCGCGATTATTATGTGCGTGAACGTTCTCCTTACTCCAAAGATTTAAAACCGAAACACCTTATGGAAGAGAAGCGGCTGAAGAGAACGTTGAAAACGATGGCACAAATCAGCGCCAAGATTCATGCGCGCGCTGACGCAGATATTAATGAAGGCATTCTTCCTTATCACAGTGAAGATGCGATTATGGAAGTCATCAAAGGACATAAGGATGATTTCCGCACGGAACTCATCCTCTGGTCCAGGCATTACAAGGAAAGAGTCAGCAGGGATTATCAGCTGTTTCTGGAATGGTCGAGAGAAAATGAGTACGTGAAATCTCCATGA	MDNKVKQMLETKQAIRKNTLGTILDRFDGDLMKLSKKQRRQKYKKMMENPYSFFRGSAYLFFHDVTELPFRFHTPEEKPTWIMGDLHFDNYSVFQNEKKDIVFDVDDFDEGYLGSYLYDIMRMVVSIRLTMDELGYPEDSHDAMVDHYLKHYVKQMEAFHHREQDPETMYFTKEESKGAVKKAIQKVEERRASHELEKQTIVKHDSIRSFDIGREKLSSVPKQEYEQLVKAWDDYYQSLDQKLRRPREFYRIKDIVKKQGSGIGSTGLNRYYILIEGDSGDSHEDDIILEAKEARTPIPAYFFPYDEQFWTEHRQQGRRVIHTQQAMHHLSDPYLGYFTMNNRDYYVRERSPYSKDLKPKHLMEEKRLKRTLKTMAQISAKIHARADADINEGILPYHSEDAIMEVIKGHKDDFRTELILWSRHYKERVSRDYQLFLEWSRENEYVKSP				NA	NA	NA	NA	NA
AK012_00495	213			hypothetical protein	ATGGCATTCGGAAAGAAAAATCAAGCTGAAGTGAAAGAGGAAGACACAAAGATCTGGGTTTGTTCATCCGATGACTGCAACTGCTGGCAGAGGGATAATTTCCGTACGAACGACGAGAAGAAATGTCCGATGTGCGGTAGTGAGATGAAGGAAGAGAACAAAGTCCTTCAAGTGGTGGAAAACAACAGCCTGTATTATAAATCTCAGTCATGA	MAFGKKNQAEVKEEDTKIWVCSSDDCNCWQRDNFRTNDEKKCPMCGSEMKEENKVLQVVENNSLYYKSQS				NA	NA	NA	NA	NA
AK012_00496	201	cspA_1	COG1278	Cold shock protein CspA	ATGAAAACAGGTACAGTGAAGTGGTTTAACGCGGAAAAAGGTTTTGGTTTTATCGAGGTTGAAGGCGAAGACGATGTATTCGTACACTTCAGCGCAATCAACGAAGAAGGCTTCAAATCTCTTGAAGAAGGTCAAGCTGTAGAGTTTGAAGTAACTGAAGGAAATCGCGGACCACAAGCTGCAAACGTAACGAAATTATAA	MKTGTVKWFNAEKGFGFIEVEGEDDVFVHFSAINEEGFKSLEEGQAVEFEVTEGNRGPQAANVTKL	PGPT0014675_8785	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK012_00497	507			hypothetical protein	ATGTCGTATTATCATCCGAATCCAGGAATATACAGACAGTCGTTTGCATCCCGGACAGCTGCTGCTGAATTTTCATCCAGCCCTGCCGCCCCGGGATTGAAGGGAAATGTCCAGTTTTACCAGATGCCCTACGGAGTTGAGGTTTTTGTTTATGTAGAGGGTCTGCCTCCCTTTAAGAAGGGAAAGAACGGGGATCAGACGGGGCCGCATGGGTTTCATATCCATGAAAAGGGTCTGTGTGAAATAGGTGATGGAAAAGATCCATTTGCGACAGCAGGAGGCCATTGGAATCCTGATCGACAACCGCACGGCAATCATGCAGGGGATTTTCCTGTGCTTTTTTCCAATCAAGGAAGAGCACGGATGATATTCTTCACTGATCGTTTTAAAGTGGACGATATCATCGGCAGAAGTGTGATCATACATCAAGGGCCGGATGATTATAAGTCTCAGCCCAGCGGCAGATCCGGGAAAAGAATCGCCTGTGCCGTCATTCAGTCAGGATAA	MSYYHPNPGIYRQSFASRTAAAEFSSSPAAPGLKGNVQFYQMPYGVEVFVYVEGLPPFKKGKNGDQTGPHGFHIHEKGLCEIGDGKDPFATAGGHWNPDRQPHGNHAGDFPVLFSNQGRARMIFFTDRFKVDDIIGRSVIIHQGPDDYKSQPSGRSGKRIACAVIQSG	PGPT0013181_2383	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565	NA	NA
AK012_00498	3588	der_1		GTPase Der	ATGCAGACGACGACGCGTATAAATGCAACGAAACTTCAAAACCTTTATGCCTTTTTAAAGCAGGAAGGCATGGACAAACAGAAAGATAAGGTCATGGACCTGATTAAAAAAATGAAGCAGGAGGAAATGGTCATCGGATTTGCCGGTCATTTTTCCGCCGGCAAGTCTACGTTGATCAACACACTGCTGGAGAGCCGGCTGCTACCCTCCAGTCCGATTCCAACCAGTGCCAATATTGTCCGGCTGAGGACTGGTCCGGCCTACACGAAGGCTTATTTCATGTATGACCCGCCAGTTAAATATGAGGGGATGGTGGAACCGGAAAGAATACAGGCGTGGTGCCGGGACGGTGAAAGCGTTACCGGTCTTGAAATCAGCCGTCCGGACAGCCTGCTTCCTACCCATGTGTCTGTTCTTGATACGCCCGGGGTGGATTCTACGAATGATGCGGACAGGCTGATCACGGAATCTTCCCTGCACGTGATGGATTATATGTATTATGTCATGGACTACAATCATGTCCAGTCGGAAGTGAACCTTCTTTTCTTACTGGAAATGCAGCGGAGGCAAACACCTTTCTCCGTCGTCATTAACCAGGTGGATAAGCATGTGGAGGACCAGCTTCGCTTTGAAGATTACCAAAATAGTGTTGAATCGGCTTTTCAACAATGGGGAATTCAACCAGAAGAGGTCTACTATACGTCCATGAGAGACTTTACGATCAAAGAAAATGAGTACAATCGGTTGAAAGAACATTTCCAACAGTTGTTTTCCAGGGATTTTTCTATCATCGAACAACAGGGGGATGCCGTCGCTGCCGCCCTGATGGAAGAAAGCTCGAGAGCGTATGAGGAGAACTTTGAAGAAAAGCGGGAAGACCTTTTGAACGACAGGGAGAACTTACAGGCGGTACTCGATGAAAGTCCGATGGATCCGGAAAAACTGAGTGAGTATAACGATTTGGAAAAGACAGCGGCTGACGACTTTGAAAAGCGCGTTTATCAGTTCCTCTCCAATGCCTACCTGATGCCGAGCGCTCTCCGTGAGAAGGCAGAAGCTTACTTGGAATCCCGGCAGCCGGAATTTAAAGTGGGCATTCTGTTTACAAAAAAGAAAACGGAAGAAGAAAAGCAGGCAAGGGAAGACGCGTTTTACAACGCCTTAAAGGAAACGATGGAAGAACAGCTGAAGTGGCCCGTGAGAGAACGGATGATGAAGCTTCTGGATGCCTATGCCATTCATTCGACAGAACTGCTTCACACTGTTCAGGAGATGGACTTTCATTATCCGAAGGAACGATTGGAAACGCTGATTCAGTCGGGAGCATCGGTTACAGGTGCTTATGTCCTGCGTTATACCGATGAAGTGGCCGCTGATCTTCAACGTGAAGCAAAAGCTTTTCTGAGAGATTGGAAGAAAGCCTTTCTTGAAGAAGTTGCATCAAAAAAACAGGATGTACTGGCTCAGCATGAACAAGCATTCTCTACCTATGAAGAGATTCGTAACATCGACGAGGAATTGGAAGCCATCAACGAGAATGTCCGGGAGTTCTCCGCCCGCCTCAAGGAAAGTTTCTCTGATGAGATTTCCATGGAAAACAGGGAGCTTGCAGAAGAAGATGAAAAGCAGCTGAATGAGAGGGTTTCTCATGCTCCGGACGGCCCTGTAGAGGTTTCATCTGGGAAGGGCCCCGCGAAGAACGAATCATTGTCTAGCGCCCGTGCCGTTTTTGACTCTTCGTCGACGGTGGATCAAGTGAAAAACAAGACAGAGAAAACCTTGGAGATCATTCGACATTTAGACAGCATGGAAGGTATTTCACAGCAGCTGAGAGATAAAACGGACCGCCTTGACAACCGGACCTTCACAACGGCGTTGTTCGGCGCCTTTAGTGCAGGGAAATCCTCGTTTGGAAATGCTCTTCTTGGTGATCATGTTCTGCCAGTGTCGCCAAACCCGACAACCGCCGCCATCAACCGGATATCCCCTGTATCTCCGGATCACCCGCATCAGTCTGTGGAAGCTGTGGTGAAAACAGAAGCGCAGATGCTTGAAGATATCTCCGCTGTCTATCAGTCCTTTTCCTCCTTGGAGACAGCATGGAAGAGGCTGGATGAAGCGGATGAAGAGATGTGGAGATCATGGGAGCAGAAGGAACGGTCGTTTTTAAAAGCCTTTTATGATGGCTATCAACAGATGAAAACCAATCTAGGGCAGCAGATTGCTGTGCAGTGGGAACAACTGTCCGTCTTTGTATCGGAAGAAGAAAAATCCTGCTTCATCGAGTCGATGGATGTGTATTACGACTGTGCGTGGACACGGGCGGGTGTGACGCTTGTCGATACCCCCGGGGCAGATTCGGTCAATGCCCGTCACACGAATGTCAGCTTTCAGTATATTAAAGATGCGGATGCGGTTTTATTTGTCACCTATTACAATCACCCGTTCTCAAGAGCGGATGAGACATTTCTGAAGCAGTTGGGCAGGGTCAAGGATAGTTTTACCATGGATAAAATGTTTTTCCTCATCAATGCGAAGGATCTTGCCCAGTCCAACGAGGAACTGCAGCAGGTTCTGGATTATGTGGAATCGCAGCTGAATGAATTCGGCATCCGCCGCCCGAGGTTATATCCTGTCTCCAGTCTTCAGGGACTTGAAGAGAAAAAGCAGCAGAAAGATGTGAACTCCGGCATGGCTGAGTTAGAAGCTGGTTTTTCTGCCTTTCTGGAAGAGGAACTGTCCCAGGTGATGACAGCTTCGATTGAAAGTGACTTGGAGCGTGTGAAGAGCTATGTCCACTCCATGGTGGAAAGCAGCCATATGGATGAAGGCGGAAGAAAAAGGAAAAAACAACAACTGGAAGAACGCCGGCAGCAGGCGATGGAGCTTTTCCAAAAAGAATATGACGGCGGTGCTGAGAAAGCCGTCCAGAACAAGTTGGATAAACAGCTGCATTACGTCCATGAGCGGATGATGCTCCAGTTCAACGACTTGTTCAAGCGGCATTTTAATCCGGCGGTGATTAATGGCCTGCAGCAGGATGTGAAAGAACAGGTAAAAGAGGCTCAGCAGCAGTTGTTTGAAGACATGACATTTGACATGAGGGAAGAGGTCAAAGCTGTGTGTGTTCGTATTGAGCAGTTTATCGCACGCCATCTGGAAGAAACGAAAGTCAAGATTGAGAAGAACATCCACCATATCGAACCGTCCATTGATTTGGAACCACCGGAGCTGCCGGATATTCCTGTTCCGGCTATTGAAGGGCGGGTCGATCTGACAGCGGCTGAACAGGATCGGATAAGGAAAATGTTCAGGGGGGCAAAATCTTTCTTTGAAAAGAATGAAAAAGAAAAAATGAAGGAAGCGGCTGCTCCATCCGCCTCTGATGCCCTTCATCAGCAGTTAGGGAGAATTTCAGAGGACATAACCCCGTATTACCAAAAACAGTGGAGAGACATGTATCAGGCGGCCCGCAGGTCCTGGGAAGAAGAAACAGCGAACCAATTTGAACAGCTGATTAATCATTACAGTGTTCCTGTGGACCGGAAGCAGGTGGAAGAAGCATACCATCAACTTTCAAAGGTCTAA	MQTTTRINATKLQNLYAFLKQEGMDKQKDKVMDLIKKMKQEEMVIGFAGHFSAGKSTLINTLLESRLLPSSPIPTSANIVRLRTGPAYTKAYFMYDPPVKYEGMVEPERIQAWCRDGESVTGLEISRPDSLLPTHVSVLDTPGVDSTNDADRLITESSLHVMDYMYYVMDYNHVQSEVNLLFLLEMQRRQTPFSVVINQVDKHVEDQLRFEDYQNSVESAFQQWGIQPEEVYYTSMRDFTIKENEYNRLKEHFQQLFSRDFSIIEQQGDAVAAALMEESSRAYEENFEEKREDLLNDRENLQAVLDESPMDPEKLSEYNDLEKTAADDFEKRVYQFLSNAYLMPSALREKAEAYLESRQPEFKVGILFTKKKTEEEKQAREDAFYNALKETMEEQLKWPVRERMMKLLDAYAIHSTELLHTVQEMDFHYPKERLETLIQSGASVTGAYVLRYTDEVAADLQREAKAFLRDWKKAFLEEVASKKQDVLAQHEQAFSTYEEIRNIDEELEAINENVREFSARLKESFSDEISMENRELAEEDEKQLNERVSHAPDGPVEVSSGKGPAKNESLSSARAVFDSSSTVDQVKNKTEKTLEIIRHLDSMEGISQQLRDKTDRLDNRTFTTALFGAFSAGKSSFGNALLGDHVLPVSPNPTTAAINRISPVSPDHPHQSVEAVVKTEAQMLEDISAVYQSFSSLETAWKRLDEADEEMWRSWEQKERSFLKAFYDGYQQMKTNLGQQIAVQWEQLSVFVSEEEKSCFIESMDVYYDCAWTRAGVTLVDTPGADSVNARHTNVSFQYIKDADAVLFVTYYNHPFSRADETFLKQLGRVKDSFTMDKMFFLINAKDLAQSNEELQQVLDYVESQLNEFGIRRPRLYPVSSLQGLEEKKQQKDVNSGMAELEAGFSAFLEEELSQVMTASIESDLERVKSYVHSMVESSHMDEGGRKRKKQQLEERRQQAMELFQKEYDGGAEKAVQNKLDKQLHYVHERMMLQFNDLFKRHFNPAVINGLQQDVKEQVKEAQQQLFEDMTFDMREEVKAVCVRIEQFIARHLEETKVKIEKNIHHIEPSIDLEPPELPDIPVPAIEGRVDLTAAEQDRIRKMFRGAKSFFEKNEKEKMKEAAAPSASDALHQQLGRISEDITPYYQKQWRDMYQAARRSWEEETANQFEQLINHYSVPVDRKQVEEAYHQLSKV				NA	NA	NA	NA	NA
AK012_00499	1047			hypothetical protein	ATGAAAAAACTATTCAGTGAAGTGATCCAGTTCCAGGGGCGCGCTGATGATTTTGGGTATGAGCAGGGAAAAAGGTTGAAACAAACCCCGCTGTATGAAAGTCACCGGCAGCGCAGACCAAGATCCATCCGGCATTATCAAACCGATACGGAGCACGTCAAAGCCATGTTTTTGAACTGGGCACCTCTCTTATGGGAAGAACTGAGGGGGCTTTCCGAAGGTCTGGAATGGCCGCTTGATGAAACGGTGCATGAGTACAGCGGCTGGCAGCAGGAATGGGATCGCTCCGGGTGCTCCATTCTGCTTGGAGACGATTATATGATCCGTAATTATGACTACCATCCACGGACATATGAAGGACGGTTCCTGCTCTACCAGCCGGAGCGCGGGACGGCTTCAATCGGGCCCGGGCAGCGGATCATCGGCCGCACAGACGGAATGAACGAACATGGCTTGTGTGCTGGCTATAATTTTGTCAACCGCCTTCATCCGGAGGATGGTTTTATCTGCTGTACGTTGACGAGGATTCTGTTGGAAAGCTGCCGGGATACAGAAGAAGCAGAAAAGCTGTTAAAAGAACTCCCTCACCGCCATTCATTCAATTACGTCCTTTTTGATAAGGCTGGAAATTCTTCTATTCTGGAGGGATCTCCAAGAGGCGTGGTCAAAAAAGAAGGGCTTGCGTGTACCAACCATTTTTCCCATATGCCTTCAGAAAACCGCAGACATTTGTCCGATTCAGAAGAACGGCTTTCACGCATGGTGGACAGGCAGAAGGAAAAGATGGACGAACAAAGCGCCTTTTCTTACTTGAACAAGCGTTCAGGGCCGATTTTTTCCGATCAGTATCAACGGTCTTCAGGAACGATTCATACAGCTGGTTATTCTCCTCGGACCCTCTCTCTCCGCTTCGGTCTTGGAGGGGACGCCCAGCCGGTTCCGTTTCATTTGAAGAGCTGGATGAATGGGGAGCGCTCCCCGGTGAAAACGATGTTCGGCTGGATTGATACGGAAATGGATATTCCGTATATCGACGGTTTATCCTGA	MKKLFSEVIQFQGRADDFGYEQGKRLKQTPLYESHRQRRPRSIRHYQTDTEHVKAMFLNWAPLLWEELRGLSEGLEWPLDETVHEYSGWQQEWDRSGCSILLGDDYMIRNYDYHPRTYEGRFLLYQPERGTASIGPGQRIIGRTDGMNEHGLCAGYNFVNRLHPEDGFICCTLTRILLESCRDTEEAEKLLKELPHRHSFNYVLFDKAGNSSILEGSPRGVVKKEGLACTNHFSHMPSENRRHLSDSEERLSRMVDRQKEKMDEQSAFSYLNKRSGPIFSDQYQRSSGTIHTAGYSPRTLSLRFGLGGDAQPVPFHLKSWMNGERSPVKTMFGWIDTEMDIPYIDGLS				NA	NA	NA	NA	NA
AK012_00500	855			hypothetical protein	ATGACTGAACCAGTATGGAAAACCTATACGACGCGTAATTTCTCTACACTGTCCTACATGGCCTGTCAGCGTTCAGACCAGTACGATGAAGCTGTGATTATCATTCACGGCATTACAGCAGAATTGTCGGAGCAGAAAAAATTCGCATCCGTCTGCCGGCGGCCTGCGAATGTATTTCTCCCGGTTCTGCGCGGTTATGACCAGATGAACAGCCGCGGCGATGTGGATTACGTAGGACAGTATGATCACGATTTGTTTGATTTCATCCATTATATAAAAAAACAGGGGTATCAGCGGATTACATTGATGGGACATTCCATGGGATGTGCCAACCTTCTCCGTCTCATTAAACAAAACCCTGATATTGGTGATGCCTACGTTTTTACCGCTCCCTTTTTCCACCCGGCCCTGCCTGTTTATAAGAACGAGGCGTCCGATCCATCCGGCGGCGGAGATGATGTGGAATATACGGTCTATACCAAGAAGGTCATGATATTGATGACGTTGTACAAGATGAACATCCACCGCTTCGAAAAGGCGGCAGCCGCTGAAATCCCTGATGAATTCGACAGCTCGGGACGGCTTCATCTTTCCTTCCGGTTATTGATTTCCCGTTTTCCTGAAAAAGTTACAGCCGCTCTGCTGAGTGAGGTTCAGGCACCGGTAACCATTGCTGTCGGTGACCGGGACGAAGTCATTGAACCCCGGGATTTGAAGAAGTGGTGCCGTGACACATGGGGGCGCCCCGTGGATATCATTAAAGGGGCGGATCATAACGATATTCTTTATGACCCCGCTTTACACGAAATCATAGATGAAATGGACAAGCCGGCCAATGAAAAAACTATTCAGTGA	MTEPVWKTYTTRNFSTLSYMACQRSDQYDEAVIIIHGITAELSEQKKFASVCRRPANVFLPVLRGYDQMNSRGDVDYVGQYDHDLFDFIHYIKKQGYQRITLMGHSMGCANLLRLIKQNPDIGDAYVFTAPFFHPALPVYKNEASDPSGGGDDVEYTVYTKKVMILMTLYKMNIHRFEKAAAAEIPDEFDSSGRLHLSFRLLISRFPEKVTAALLSEVQAPVTIAVGDRDEVIEPRDLKKWCRDTWGRPVDIIKGADHNDILYDPALHEIIDEMDKPANEKTIQ				NA	NA	NA	NA	NA
AK012_00501	894	ykqA	COG2105	Putative gamma-glutamylcyclotransferase YkqA	ATGACAATCGTGTACGTATTTGTTTATGGCTCATTATGTTCAGGGCAGCCGAATCATTCCCTTATGAACAAAGCTGATCTCGTGTCGAGACAGGCGTTTATAAAAGGGGCACTTTATGCCGGCTCCTCGTATGACCCGCTTCTTCGGGAGGACGAGCATACATGGACGTATGGTGAACTATACAGCATCGACCCTGAATTTCTCCCTGTTCCGGATGACGTTGAAGATGTCCACCCGGACCCCGGGGACGGGGGATTTTATAGAAAAGAAACAGAAGTCTTTACAGATAATGGATCCGTCAAGGCGGAAGTCTGCTATTGGAATGGTTCAGAAACGGGGAAGTCCATTCCTCATAATGACTGGAAAGTGCATCAATATCTTCAGCAGGATTCCTACCTTTACTTTGCGTATGGATCCTGTATGGATGATGCCCGGTTTATTTCCCAGCAAGTTCACCACCTTTTTGAAGATGTCAAAGGAAAAGGGAGTCTTCACGACTTCCGGCTCGCCTTTTCTTACCATTTGGAGGATGGTTCCAGAGCGGATATTCAAGAAGCAGAAAATGAAAAAGTAGAAGGCGTGCTGTACCTCATCAACAAAGAGGCCCTTCATTATCTTTTTTTACGGGAGGGAGTGGAGGCGGCCGCCTACAGACCAGCGATCGTACCTGTAGAAACGGATGATGGAACGGTCCATCAGGCTGTCACCTTTACTGTCCTTTCCAAAAAAGAGGATGCACCCCCTCCCTTTCATTATGCAGAGGAGCTGTACCGCGGAGGAGAGCGGTATTTATCTTCGGAGTATATCGATGCGTTGAAACAGCGGTTTCTCCATGACTTAAAGGTGCAGCATTTCCAGGAATTTATTGAGAAAAGGAGCCGTCCTTATGACTGA	MTIVYVFVYGSLCSGQPNHSLMNKADLVSRQAFIKGALYAGSSYDPLLREDEHTWTYGELYSIDPEFLPVPDDVEDVHPDPGDGGFYRKETEVFTDNGSVKAEVCYWNGSETGKSIPHNDWKVHQYLQQDSYLYFAYGSCMDDARFISQQVHHLFEDVKGKGSLHDFRLAFSYHLEDGSRADIQEAENEKVEGVLYLINKEALHYLFLREGVEAAAYRPAIVPVETDDGTVHQAVTFTVLSKKEDAPPPFHYAEELYRGGERYLSSEYIDALKQRFLHDLKVQHFQEFIEKRSRPYD				NA	NA	NA	NA	NA
AK012_00502	972		COG3191	putative aminopeptidase	ATGAAAGAAATGAAGATCACGGATATACACCCGTTTAAAATCGGACAAAAAGAAGATGGTTCCGGCCGCACCGGCTGTACCGTTCTCCTGCATGAGGAAGGTGCTGTTGGAGGAGTGAGTGTCAGGGGCGGAGCACCAGGGACGAGGGAGACGGACCTTCTGAAGCCGGAGAACCTTGTCCAGCACATTCACGGTGTTTTTCTGTCCGGAGGAAGTGCTTTCGGCCTTGAAGTCGGATCCGGAGTTATGAAATTTCTCGAGGAAAATGGTATCGGCTTTGATGCACAGGTCGCCAGAGTACCGATCGTTCCCGGAGCGATTCTGTTTGATTTGAGTGAAGACCCGTCTGTCAGACGTCCTGATGCTGCTCTTGGGTATGAGGCTGCCCGTTCTGCTTATGGTAAACCGGCTTTTCGCATGGGGAATTACGGAGCTGGTGCCGGGGCTTCCGTAGGTAAAGCGCTTGGGAAAGCCCACAGCATGAAAGGGGGAATAGGCAGCTGGGCCTGCCGCATAGGAGAAGTTGAAGTAGGAGCAGTGATAGCCGTCAACAGTTTTGGCGACGTCATTGACCCGGCGACAGGTCAGGTGGTTGCGGGGCTTTATGAGGGTGGTGAGTTTCTACATACAGAAAAACAGCTGTTCAATCAAATGGGGGCTGCGAATACGAATCGTTTCCAGGGGAATACAACGATTGGCACCGTCATTACAAATGCGGCGGTGACGAAGGCGGAGGCTAATAAAATTGCAGACGCTGCCCATGACGGCCTTGCCAGGACCATCCGGCCTTCCCATACGTTCGTGGACGGGGACACCATTTTCTGTATGTCGGATAACCAAATCCCGTGTGATACAAACGCTTTGGCTGCCGCCGCTGCCTTGTGCGTTGAAAAAGCGGTGCTCCATGCCGTCCTCGCCAGTGAGTCCACAAAAGAATATCCATCAGCAAAAGATTTCCACATGAAAGGATGA	MKEMKITDIHPFKIGQKEDGSGRTGCTVLLHEEGAVGGVSVRGGAPGTRETDLLKPENLVQHIHGVFLSGGSAFGLEVGSGVMKFLEENGIGFDAQVARVPIVPGAILFDLSEDPSVRRPDAALGYEAARSAYGKPAFRMGNYGAGAGASVGKALGKAHSMKGGIGSWACRIGEVEVGAVIAVNSFGDVIDPATGQVVAGLYEGGEFLHTEKQLFNQMGAANTNRFQGNTTIGTVITNAAVTKAEANKIADAAHDGLARTIRPSHTFVDGDTIFCMSDNQIPCDTNALAAAAALCVEKAVLHAVLASESTKEYPSAKDFHMKG	PGPT0010110_3	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-AMYCIN_DERIVATE_BIOSYNTHESIS,PGPT0010110-thnT|cmmT-K18572	NA	NA
AK012_00503	276	acyP	COG1254	Acylphosphatase	ATGGAAAACAACAGACTACTTGTACACGGCCGCGTTCAGGGAGTGGGCTTCCGCGCTGCTGCGAAGCAGATGGCTGAACAGATCGGCGTGACCGGCTGGGTCAAGAATCAACCGGATGGAACCGTCCTGATCGAAGCGGAAGCTGATGCGGCCCAGTTAAAACAATTTATTGAACAGATCAATCAAGGTCCTACACCTTTCAGCCATGTTGAAGCCCTGGATGTAACGACGAATGACGAAATCCAGGGGTACAAAAAATTTAAAGTTGTCCATTAA	MENNRLLVHGRVQGVGFRAAAKQMAEQIGVTGWVKNQPDGTVLIEAEADAAQLKQFIEQINQGPTPFSHVEALDVTTNDEIQGYKKFKVVH	PGPT0001372_3114	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-ACETIC_ACID_BIOSYNTHESIS,PGPT0001372-acyP|yccX-K01512	NA	NA
AK012_00504	741			putative oxidoreductase	ATGAAAACATTACAAGATCAAACAGCGGTCATTACAGGTGCAAGCAGTGGAATTGGCAGAGCGATTGCCCACTCCCTGGCTGAACAGGGATCTCATGTCGTATTGGCCGCCCGCAGAGCGGAACGCCTGCAGGAACTTGCGGATGAAATTACCAGTCAGTATCAAGTTGAAGCGAAAGTCGTCGAAACAGACGTAACCAAGCGCGAAGATGTCGAAAATCTCGTGAAGGAAACGAAGGATGCTTTCGGACGTGTGGATATGTTCATCAACAACGCCGGTGTCATGCTGCTTTCCTTCCTTAAAAATGATCACGTAGATGAATGGGAACAGATGGTGGATGTGAATATTAAAGGTGTCCTGTATGGAATCCATGCCGGTCTTCCGGTGATGCTGGAACAGGATTCCGGGCATATCATCAATGTGTCTTCCGTAGCTGGTCATGAAGTGTTTCCATCAAGCACCGTGTACAGTGCGACGAAATATGCCGTGAAAGCATTGTCCATGGGAATGGAAAAAGAACTGGCGAAGACCGGTGTACGTGTGACCAACATTTCTCCGGGAGCCGTTGAAACAGAGCTGACCGATCACATCACCGACGGAGATGTCCTTGATATGTTCAAAGACCGCAGTATGCAGCCCCTTGAAGCGGCAGATATTGCAAATGCTGTTTCCTACGCAGTGTCGCAGCCGAAAACCGTGAACGTGAATGAGATCATTGTCCGACCGCTGCATCAGGCATAA	MKTLQDQTAVITGASSGIGRAIAHSLAEQGSHVVLAARRAERLQELADEITSQYQVEAKVVETDVTKREDVENLVKETKDAFGRVDMFINNAGVMLLSFLKNDHVDEWEQMVDVNIKGVLYGIHAGLPVMLEQDSGHIINVSSVAGHEVFPSSTVYSATKYAVKALSMGMEKELAKTGVRVTNISPGAVETELTDHITDGDVLDMFKDRSMQPLEAADIANAVSYAVSQPKTVNVNEIIVRPLHQA	PGPT0021285_312	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021285-ydfG-K16066	NA	NA
AK012_00505	240	fdxA_1		Ferredoxin 7Fe	ATGGCATTTGTTATTACATCCCCTTGTAAAGATGAAAAAGCTGGAGAATGCATGGATGTGTGCCCGGTTGATTGTATCGAGGAAGGAAAAGATATGTTCTATATCGATCCTGCCATCTGCATAGATTGCGGTGCATGTGAAGCTGTGTGCCCGGTAGAGGCTATTTATATCGAGGATGAAGTTCCTGAAGAGGAAACCCCATACATCGAAATCAACCGCAAGTTCTTCGAAGAACAATAA	MAFVITSPCKDEKAGECMDVCPVDCIEEGKDMFYIDPAICIDCGACEAVCPVEAIYIEDEVPEEETPYIEINRKFFEEQ	PGPT0030810_1607	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
AK012_00506	549			hypothetical protein	ATGGATAAACTAATTATCGTTCGCCACAGTGAAACGGAAGGACAACATGAAGACTCACCCTTAACAAAACTCGGTATACGTCAAGCACAGAAACTGGCGGTCCTGCTGGATCAGTCTGGTGCAGCCATTGACCGCATCATCTCAAGTCCCTATTTGAGAGCGGTTGAGACCATCAGACCCTATGCCCGCTCCAAGGATATCGATATTGAAAGGGATGACCGTCTGGAAGAAAGGGTTCTCAGTCATGAACCGCTGGATGACTGGGAAGAAGTGCTTCATGATACATTTCAGGATCCTGATTTGAAGTTAACCGGAGGTGAATCCTCTGTAGAAGCGAAGGAACGGGTTCTTTCGCTTATTGAGGAGCTGGAGAATCAAGACTGTGGAAACGTCCTCCTCGTTACGCACGGAAACCTTCTCGCTCTGCTGCTGCAGAAATATAATCGTGAAATTGGATTTTATGACTGGAAGCGCCTGTCACGTCCGGATGTCTTCCTTGTACAGAAACAAGGTGGAGAATATATAGTGGAACGTATTTGGGAAGATTGA	MDKLIIVRHSETEGQHEDSPLTKLGIRQAQKLAVLLDQSGAAIDRIISSPYLRAVETIRPYARSKDIDIERDDRLEERVLSHEPLDDWEEVLHDTFQDPDLKLTGGESSVEAKERVLSLIEELENQDCGNVLLVTHGNLLALLLQKYNREIGFYDWKRLSRPDVFLVQKQGGEYIVERIWED	PGPT0018030_4137	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
AK012_00507	1593	nfdA_1		N-substituted formamide deformylase	ATGATTATTAATAATGTTCGAATCTATCAGCCTTCCCATCCCTTTGATGATGACCGGACCTATGCGGTCAAAATAAATGGAGACACGTTCGAAACCATTTCCGAACAGCCTTTAAGTGGAGATGAGGTTATAGATGGCAGAGGGAAGGTGCTCGCCCCTTCCTTCAATGACAGCCATATGCACCTTCTGCGCTACAGTCTGTTGAAAAAGGAACTGGATTTAACCGAAGCGAAGAGCTGGAAGGAAATGAAACAGCTGGTGGAGGATCATTACGATAAGATTGAGCAGAACGACTGGATTTATGGAAAAGGGTTCAATGATGGCGGTTTTGACGATTTGGACGGACTGCTTACAGCAGAGGATTTGAATGAGATCCACATCGATGCCAATATGTATTTCATGCATCAGGATGGTCACGAATGCGTGATCAGCCAGAAAGCATTGGAGCGCCTCAAAGGGGAGGAGGCGTTTAAACAGGAACCGGATGAATTCAAGGAAAAGGATGAGCATGGGGAATGGACGGGACGATTTAAAGATACGGCTGTTCATTACATTAAACATCATTTCTGGGGTCGTTCCGCAGAAGACGCCAAGGAAGCGTTAAAAGCCGGCATCCCCTTCTTAAGCCGGTACGGCATTACATCTGTTCATACGGATGACATCAATTTCATCGGCTCTTATGAACGGTTATGGCAGGCTTATACGGAGCTTGAAGAAGAGGGAGAACTTCCACTCGATGTTCATCTGCATCATTATATCTTTAATATCGATGATTTGGTAAATTACTGCCGTCACAACGAACAGCGGACAGGACAAGGAACAGACCGTGTCCGGGTGGGGTCGGTAAAAATCTTCCTGGACGGGACACAGCGTTTGTTTACAGCAGCTATGCGCAACCCTTATCCCGTTCAGCCGGATAAGGACGGCACCCTTATCTACACCCAGGATCAGTTGAATGAAATGGTCCGTTATGCCGGTGAACAGGGAATGCAGGTCGCAATGCATGCCATTGGGGACCGGGCGGTTGAACAGGCCCTGACAGCGCTTGAGCAGCCGGAAGCGGAAACGAAAAAACTACGCCACCGGATTATTCATGCCCAGACGCTCGCTCCTGATCTTATTGAACGCATGAGGGAAATCAAACCCTACGTAGAAACACAGCCTTCCTTTCTTCTGGATGAATGGGATAAAAAGCAGAACTGGACACCGGAAAGCCTTGTCCCTTACTGTGATGCTTATGAAAGTCTGCTGAAAGAACACATTCCCATCACCATGAGTTCTGATCTTCCTATCGGAGCCCTGGACCCCTTTGTTACGATATTCACAGCGGTCAACCGTACTGATTTGGACGGCAGACCTGAAGGAGGCTGGATGCCGCAGGAAAAGATCAGCCTGGAAGCGGCCTATACCGGATTTACAAAAACCCCTGCGGAACTTGAATACAATGAAGGTCATAAGGGCATCATAAAAGGTGGTTATCAGGCCGACTTTGTTCTTCTGGATCAGCACCCTGAAGAAATCAAGCCTGAGCATCTGCTTGAATTAAGTGTTCTGGAAACATGGCACAGAGGACAAAGAGTCTATAAAAGATAA	MIINNVRIYQPSHPFDDDRTYAVKINGDTFETISEQPLSGDEVIDGRGKVLAPSFNDSHMHLLRYSLLKKELDLTEAKSWKEMKQLVEDHYDKIEQNDWIYGKGFNDGGFDDLDGLLTAEDLNEIHIDANMYFMHQDGHECVISQKALERLKGEEAFKQEPDEFKEKDEHGEWTGRFKDTAVHYIKHHFWGRSAEDAKEALKAGIPFLSRYGITSVHTDDINFIGSYERLWQAYTELEEEGELPLDVHLHHYIFNIDDLVNYCRHNEQRTGQGTDRVRVGSVKIFLDGTQRLFTAAMRNPYPVQPDKDGTLIYTQDQLNEMVRYAGEQGMQVAMHAIGDRAVEQALTALEQPEAETKKLRHRIIHAQTLAPDLIERMREIKPYVETQPSFLLDEWDKKQNWTPESLVPYCDAYESLLKEHIPITMSSDLPIGALDPFVTIFTAVNRTDLDGRPEGGWMPQEKISLEAAYTGFTKTPAELEYNEGHKGIIKGGYQADFVLLDQHPEEIKPEHLLELSVLETWHRGQRVYKR				NA	NA	NA	NA	NA
AK012_00508	204			hypothetical protein	GTGATTCATAAAGATTGGGAAAATAATCAAACGATAAAACGGATTGAATGCGTTCATAATGACGCGGCTAAATTCGTCGTGAACAATGTCCTGACACCAGGGAAAGTATACGATGTTAAAAATGAAAGTGAAGAATTTTACTTTGTTGTAGACAACTCCGGCAGAATCGGCGGTTTTTACAAAGACTACTTCAAAGAAGTGTAA	MIHKDWENNQTIKRIECVHNDAAKFVVNNVLTPGKVYDVKNESEEFYFVVDNSGRIGGFYKDYFKEV				NA	NA	NA	NA	NA
AK012_00509	606	mhqD	COG0400	Putative hydrolase MhqD	ATGAAATTAGAGCACATCTATAAAGAAGGGAAAAATGAGAAGGTTCTTCTTCTGCTGCACGGGACAGGCGGGACGGAAAACGACCTTCTGCCACTTGCGGGGATGATCGATCCTGAAGCCTCCGTGTTGTCTGTCCGGGGAAATGTTTCTGAAAACGGGATGCCGCGCTTTTTCAAGCGGCTGAGGGAAGGAGTGTTCGATGAGGAGGATTTGATTGAGCGGACGAGGGAACTTTATGAATTTCTTGACCAAGCAGCAGCTCATTATGGTTTCCGTCGTGACCAGATCGTAGCCGCCGGGTATTCCAATGGAGCGAATATTGCCGGCAGCCTCCTTTTTCATTATGAAAAAAGCCTGCGCGGCGCGCTGTTGTTTCACCCGATGGTGCCAAGGCGCGGTGTAGACCTTCCTGATCAGACCGGTGTGCCTGTGTTCATCGGTGCTGGTGAGAACGACCCAATCTGTCCCCCTTCTGAAACCCATGACTTAAAATCGCTGCTTCGTGCTGCTGGAGCCCACGTTACGGATTACTGGGAGCGGACGGGGCATCAGCTTACCGAACGGGAAGTACGTGCAGCCGGGGAGTTTTATAAGACACAGTTTTAA	MKLEHIYKEGKNEKVLLLLHGTGGTENDLLPLAGMIDPEASVLSVRGNVSENGMPRFFKRLREGVFDEEDLIERTRELYEFLDQAAAHYGFRRDQIVAAGYSNGANIAGSLLFHYEKSLRGALLFHPMVPRRGVDLPDQTGVPVFIGAGENDPICPPSETHDLKSLLRAAGAHVTDYWERTGHQLTEREVRAAGEFYKTQF	PGPT0028515_3258	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
AK012_00510	579			hypothetical protein	TTGGGCAGAAAACGAATCCTGACAAAAGATGAAATTTTAACCGTAACCGGAAAAGTGCTTCGAAACGGGGGCATTCAGGAGGTTCACTTCAAAAAAATTGCGGCTGAGCTTCAAGTCAGCCGCAGCACCATCTATGAGTATTTTAAGAATAAAGAAGAGCTCATCCTCTCATATATGAGAGCGATGATGGATGAAATGAATCGGAAAATTGATGAAGTACCTCCTGATCTTCCTCCTAACGAGAAATTGAAACAGCTGCTGCATATCTTTCTGGAACATGCAGATACGTATCACATCGATCAGATGATTCACGAGCTTCAAACGAGTGATAAGCAGGTGGCGCTGTTTTACAAAACGGAAGTCCACAAGGATCTTATGAAAACCCATCAGCTGATGGGCACCTGGATTGAAGAAGCAAGAGCCGGCGGAATATGGACGACGGACGTCTCTTCGGCGCTGATTTCCGACGTAATTTTTCACTCCATTCTGTTTTCCAACAGAGAAAAAATCGGACCGGATGAAATGACCCGGCAGTTGTTCCATATGATGGAACATGGTTTATCCCGTGACAAAGAATAA	MGRKRILTKDEILTVTGKVLRNGGIQEVHFKKIAAELQVSRSTIYEYFKNKEELILSYMRAMMDEMNRKIDEVPPDLPPNEKLKQLLHIFLEHADTYHIDQMIHELQTSDKQVALFYKTEVHKDLMKTHQLMGTWIEEARAGGIWTTDVSSALISDVIFHSILFSNREKIGPDEMTRQLFHMMEHGLSRDKE				NA	NA	NA	NA	NA
AK012_00511	960	msrB_2		Peptide methionine sulfoxide reductase MsrB	TTGACTAACACATTACAAAAAGCAACATTCGCCGGAGGATGCTTCTGGTGCATGGTGGAACCTTTCGATGAACGACCTGGGATCGAATCCATTGTTTCGGGATACACAGGTGGTCATACGGAAAATCCGACGTATATGCAGGTGGTTTCAGAAACGACCGGACACAGGGAAGCTGTCCAAATTGTATATGATCCTGAGATCTTTCCCTACGAAAGACTCGTAGAATTGTTCTGGCAGCAGATTGATCCCACAGATGCCGGAGGACAGTTTGCGGACCGGGGCCATTCCTATACAACCGCGATCTATTATCATAATGAAGAACAAAAGGAAATTGCTGAACGAAGCAGGGAAGAGCTGAAGAAATCAGGGAGGTTCAGCCAGCCCATTGCCACAGAAATCCTTCCCGCTGCTGTCTTTTATGAAGCAGAGGATAAGCATCAGGACTATTATAAGAAAAATGCTTTCCACTACAAGCGTTACAAAAAAGGATCCGGACGTGCCGGTTTCATTAAAGACAACTGGAGTTACAAGAAAGACCCGGAAGAATTGAAGGAACGGTTGAGTGACATTCAATATAAAGTAACACAGGAAAATGCAACGGAGCGTCCTTATCATAATGAGTACTATGATCATGAAGAAGAAGGCATCTATGTGGATATCGTTTCTAAAGAACCTCTGTTCAGCTCAAAAGATAAATACGATGCCGGCTGTGGCTGGCCGAGCTTTACAAAACCAATTGAAAAGCAGCAGGTCAAAGAGGAAATGGATAGATCCCACGGCATGTTCCGTACGGAAGTCCGAAGCGGTGAAGCGGACTCCCACCTCGGTCATGTATTCGACGATGGTCCGAAAGATCAGGGAGGACTCCGGTACTGCATCAACTCGGCAGCCCTTGAATTCATTCCAGAAGGTCAGATGGAGGAGAAAGGATACGGATATTTGAAACATCTTTTCCGTTGA	MTNTLQKATFAGGCFWCMVEPFDERPGIESIVSGYTGGHTENPTYMQVVSETTGHREAVQIVYDPEIFPYERLVELFWQQIDPTDAGGQFADRGHSYTTAIYYHNEEQKEIAERSREELKKSGRFSQPIATEILPAAVFYEAEDKHQDYYKKNAFHYKRYKKGSGRAGFIKDNWSYKKDPEELKERLSDIQYKVTQENATERPYHNEYYDHEEEGIYVDIVSKEPLFSSKDKYDAGCGWPSFTKPIEKQQVKEEMDRSHGMFRTEVRSGEADSHLGHVFDDGPKDQGGLRYCINSAALEFIPEGQMEEKGYGYLKHLFR				NA	NA	NA	NA	NA
AK012_00512	594			hypothetical protein	ATGTTTCCTACTGGTCAACCACCATACCCTCCCATGGGGTCGTTCCCTGGCTTTCAGCAAACAGCTGGACCTCAGATGATGCGGTCCATGGCACCTTTGGCAAATGCCGGGTCCCGCGGATTCGGCGGTCTGCCGGGTCTGCTTGGTAAAGGGGGTATGGGTGCCGGTGCACCGGGGTTTTTCGGGAATGCGGGTTTCGGGTCTGTGCCCGGGGCAGGTCTCCTTGGGGGCGGGGGCTTGGGCGGTCAAGCGCTCAATGCAGCCGGAGCTGCTGCTAAAACAGGAGGAGCCGGATGGCTTGGGCATATGCAGACAGCCCTGAAGGCCGTGCAGACAGCAGCGCCGATGATGCAGCAGTACGGGCCGATGCTCAAAAATATACCGGCCATGATCAATATGATGAAAATTATGAATGAGCCGGACGAAGACGACACAGAAGAATCATCAGGGAAATCAAATGAATCAAGCTCTTCATCCTACAGCTGGGAGTCCAAAGAAAGCTCCGGACGGGTTGAGGGGAAGCGTAAAGAAACAAGCAATACTCGTCATAAGAAAAAGGGTCAAGGAACATCACAGCCTAAATTGTTTATTTAG	MFPTGQPPYPPMGSFPGFQQTAGPQMMRSMAPLANAGSRGFGGLPGLLGKGGMGAGAPGFFGNAGFGSVPGAGLLGGGGLGGQALNAAGAAAKTGGAGWLGHMQTALKAVQTAAPMMQQYGPMLKNIPAMINMMKIMNEPDEDDTEESSGKSNESSSSSYSWESKESSGRVEGKRKETSNTRHKKKGQGTSQPKLFI				NA	NA	NA	NA	NA
AK012_00513	693	ung	COG0692	Uracil-DNA glycosylase	ATGGGGTTGTTTACTATGAAAAATGATTGGGAGCCGCTGCTTGAACAGGAAAAGAAGAAACCTTATTTTCAGCAGCTTCAGGAGAAAATCGCAAAGGAATATGAGCAGGAAGAGGTTTTCCCAGACCTTGAACACGTATTCGCAGCAATGAAGGGAACGGCTCTGGCAGACACGAAAGTCGTCATCCTCGGGCAGGACCCTTATCATAATGAAGGTCAGGCTCATGGATTCAGTTTTTCGGTCCTTCCACACGTGACCATTCCACCTTCGCTTCGCAACATCTATAAAGAACTGGAGAGTGATCTCCATATACCGAAGCCGGATCACGGGTGTCTGCGTGCCTGGGCAGCAGAAGGTGTTCTGTTATTGAACGATGTCCTGACGGTCCGGGCGCATGAGCCCCACTCTCATAAAGGCATCGGGTGGGAAAAGTTCACGGATGCGGTGATCCAGCAGATCAATGAGCGGGAACGACCTGCCGTGTTCCTATTGTGGGGAAAACACGCTCAGAAGAAAGGGAGTTTTATCGATCGGGAGCGCCATCTCGTTCTGGAATCTCCACATCCCAGTCCCTTTGCCGCCCACCGTGGTTTCTTCGGCAGCCGCCCTTTTTCCAAAGCCAACGATTTCCTGAAGGAGCAGGGTGAGGATCCTGTTAATTGGAAACTCCCGGCAGACCCTGAAGAGGCTTGA	MGLFTMKNDWEPLLEQEKKKPYFQQLQEKIAKEYEQEEVFPDLEHVFAAMKGTALADTKVVILGQDPYHNEGQAHGFSFSVLPHVTIPPSLRNIYKELESDLHIPKPDHGCLRAWAAEGVLLLNDVLTVRAHEPHSHKGIGWEKFTDAVIQQINERERPAVFLLWGKHAQKKGSFIDRERHLVLESPHPSPFAAHRGFFGSRPFSKANDFLKEQGEDPVNWKLPADPEEA	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
AK012_00514	3117			hypothetical protein	ATGAGAGCTGTAACGATAACGATGAATGCTTTCGGACCATACAGAGATAAGCAGACCGTCGACTTTACGACCCTTGGGAATGAATCGATCTTTTTAATTACAGGACCGACCGGGGCGGGCAAAACGACGATCTTTGATGCGATGTGTTTTGCTTTATACGGCCGGGCGAGTGGAAGCGACCGCGATCAGGATACACTGAGAAGCCACTTTGCTTCCCCTGAGGAGCCCACTTACGTCGATTATCTTTTTGAATTAAGGGGCCGGACCTACCGCGTGAAGCGTCTTCCGAAGCAGCAGAAGAAAAAAGAGCGCGGCGAGGGGTTTAAAGAAGAACCGGCAAGGGCTGAACTTTACCAGGTCATTGATGAAGAAGAGCAGCTCCTTGCTTCAAAAATTAAAGAAGTGAACGATACGATTGAAGAATTGATGGGGCTGGATTACGAGCAGTTCCGGAAAATGATTATGATTCCCCAGGGGGAATTCCGGAAGCTGATCTCAGAAAACAGCAAAGAAAGAGAAGAAATTCTGCAACGCATATTTAAAACGGAATTTTTCGCAGAACTGACCTCCCACTTCAAAGCGGAAGCAAGGAAACTGGAAGAGGAGATGAAGCAGTTCGAGTGGAGAATCGAGCAGGAGAAGGAAAAGATCCACTGGCATCCGGATCACGAGGAAGAAGAGCAGAGTCAGGAGCTTTCCAAAGTAAGAGAACGGCTTCATCAGCGGATTTTGGACCAGGAAATCGGCTGTAACGAGAAGCAGGAGAAGCTTCAGGAGTTAAAAAAGGAGGTGGAATCTTTTCAGGAAAACGTCTACCAAAAACAAAGGGTGACGGAACTTTTCCAGGAAAAGGAGCACCTTCTTGGTGAACAGCAGCAGCTGACCGACCTTCAGCCTGAAATCAACCGGCTTCAACAGGAGAAACAGCGGGCGGTAAAGGCAGCTGAAATCCGCCCTTATGAGAAAGATTATGAAAACCGCAGAGCTGAACTGGAAAAATGGCAGACAAGCCTGCAGCAGAAAGAAGAGCGCAGAACGTCACTCCTTCAGGAATACCAGGAAGCCGAGGAAAAATACCGTGCGGAGGAACAGAATGCCGCGCATCGCGAAACGTTGAAGAATGAGTGGAAAAAGAAGCAGGAGGAAGAAAAACGACTTCAGGAGTATCTTTTGCTTGGAGAAGAGCTGCAGAAACATAACAAGCAGATCGTCAAGCATCAAGAAGCGGTCGCAACGAATAAGCAGCAGCAGAAAGAAACGTCTCAAACCGTCGACAAATTGAAGGAAAGCGTTAAAGAAGACCCTTCTCTCGCCGAAAAAGAATACGCATTAAAGCAGAAACTGGAAAACGTAGGTCATAAGAAGCAGAGACTCCAGCAGTTGAACAGGGAATGGGAGCAGCTGAAGAAACTCCGTAAAACATATCAGTCGTTCATGGCCCGGTTCGAAGCCGTAAAAAAAGAACAGCAGGTATCGAAGGAAGCGTATGAGTCTGCTCTTGAGGAAATTCGAAGCCACCACGCCTACACGCTTTCCTTAAATCTCGTTGCGGACACCCCCTGCCCGGTCTGCGGGTCAAGCCATCATCCCCAGCCTGCCCAAAAGCCGGCGGCTGTTAAAAGCAGCGATGAAATCCAGCGCCTTAAAGAAGCATTTACCCAAAAGGACCAGCAGCTGACTCAGCTGCAGGAGGAATTTGTCCAGGTGAAATCAGAGGGAGAAACCCAGCGGCAGCTTACGGATCACTTGTTCCAGGAACTGCAGGACGATATGGAGGACAGGTCTGAAGCAACGATTCAAAAAGCGGTGGAAACGGCTTCAGCACACCTCGACCGTATCAAAAAGGACCTCCACACCCTCCGGGAGAAGAGGGCACGGATCCAGCAGGAAAGCCGGCAGCTGGAAGAGTTGGAGGGTCGGATGATCCAGCTTCGCCGGGAAGCCGAGCGCCTTCAGGAAGCCCTTCAGTCTTCACGCCATCAGGCTTCGGATGTGCAAGCCAATATTCATGCGATGGAAAAGGATGGTTCCTTTAAAACAACGGATGCAGAAGCGCTGAAAAGTGAAGCAGTGAAACAGGAAGCTCTCTACCTTGAAGCAGAACAAAACTGGGAGAAAGCTCAGACCCTTTATCAACAGAAACGCGATGAATGGCAGCAGATTCAGACATCTGTCGAAGAGGGTCAGTCTTATGTAGAAGAGATGAAAGCCGCCGTTGAAGAGCGGAGAAATCTGGTTAATCAAACGCTTGACCAATTTTCCTTCCCTTCTTTGGAAGCGTATCGACAGGCTCTGAAATCGTCTGCTGAACTGGAATCTATAGAAAAGAGAATTCAGGATCATGACAAACGGAAAGGGATCGTGGAAGAACGGCTCCGCGTGTTGAATCAAGAACTGGAAGGTAGTGAGAAACCTGATATGGATGCCCTTCATAAGCTTCTGGAAGAAAAAAAGGCGGCAAGGGATGCATCTCAGGAGCAGCTGAACGAAATCCAGGTCATGTTGAAACAGAACAAGGATGTTGAAAAAAATATGGCACAGCTGGTAGAAGACATGGGAGCGCTGGCTGCGGATTACTATGATGTAGCTGAGCTCGCCCAGCTTGCTGCAGGGGATAATCCGATGCGGCTTTCCCTGGAGCGGTATGTCCTGGCCTCTTTCCTCGATGAAATTCTAGTCCAGGCGAATATCCGCCTGGACCAGATGACCGACCACCGCTACCAGTTGATCCGAAGCGGGACTATTGCCAAAAGAGGGGCTCAGAGTGGTTTGGATCTTGAAGTCATTGATCACCATACAGGACAGCAGCGATCCGTCCGGACCTTATCGGGAGGAGAAGGTTTCAAAACTTCTCTCAGTCTCGCTCTTGGTATGGCCGACGTTGTTCAATCCCATGCCGGTGGAGTCCAGCTTGATACCTTGTTTATTGACGAAGGCTTCGGAACCCTGGATGAAATCTCTCTCGAGCAGGCCATCGGCTGTCTGCGGACGCTTCAGGATGGAAACCGCATGCTCGGGATTATTTCCCACGTGTCACAGTTGAAAGAAGAGATTCCAGCTAAACTTCAAGTTCATTCCGGTCCAAGAGGATCGTCTCTTCAGTTTGTTTTTCAATAA	MRAVTITMNAFGPYRDKQTVDFTTLGNESIFLITGPTGAGKTTIFDAMCFALYGRASGSDRDQDTLRSHFASPEEPTYVDYLFELRGRTYRVKRLPKQQKKKERGEGFKEEPARAELYQVIDEEEQLLASKIKEVNDTIEELMGLDYEQFRKMIMIPQGEFRKLISENSKEREEILQRIFKTEFFAELTSHFKAEARKLEEEMKQFEWRIEQEKEKIHWHPDHEEEEQSQELSKVRERLHQRILDQEIGCNEKQEKLQELKKEVESFQENVYQKQRVTELFQEKEHLLGEQQQLTDLQPEINRLQQEKQRAVKAAEIRPYEKDYENRRAELEKWQTSLQQKEERRTSLLQEYQEAEEKYRAEEQNAAHRETLKNEWKKKQEEEKRLQEYLLLGEELQKHNKQIVKHQEAVATNKQQQKETSQTVDKLKESVKEDPSLAEKEYALKQKLENVGHKKQRLQQLNREWEQLKKLRKTYQSFMARFEAVKKEQQVSKEAYESALEEIRSHHAYTLSLNLVADTPCPVCGSSHHPQPAQKPAAVKSSDEIQRLKEAFTQKDQQLTQLQEEFVQVKSEGETQRQLTDHLFQELQDDMEDRSEATIQKAVETASAHLDRIKKDLHTLREKRARIQQESRQLEELEGRMIQLRREAERLQEALQSSRHQASDVQANIHAMEKDGSFKTTDAEALKSEAVKQEALYLEAEQNWEKAQTLYQQKRDEWQQIQTSVEEGQSYVEEMKAAVEERRNLVNQTLDQFSFPSLEAYRQALKSSAELESIEKRIQDHDKRKGIVEERLRVLNQELEGSEKPDMDALHKLLEEKKAARDASQEQLNEIQVMLKQNKDVEKNMAQLVEDMGALAADYYDVAELAQLAAGDNPMRLSLERYVLASFLDEILVQANIRLDQMTDHRYQLIRSGTIAKRGAQSGLDLEVIDHHTGQQRSVRTLSGGEGFKTSLSLALGMADVVQSHAGGVQLDTLFIDEGFGTLDEISLEQAIGCLRTLQDGNRMLGIISHVSQLKEEIPAKLQVHSGPRGSSLQFVFQ				NA	NA	NA	NA	NA
AK012_00515	1155	sbcD		Nuclease SbcCD subunit D	ATGAAATTCCTTCATACTGCCGACTGGCATTTAGGGAAAATTGTCAATTATGTACATATGACGGATGATCAGCGTTATATGCTCGAACGTTTCATTGATATTGTGAAAGAAACAGAACCGGACTGCATTATTATCGCAGGCGATCTCTATGATCGTTCCATCCCTCCAAAAGAAGCCGTGGAACTTTTAAATGATACATTGACCGTGCTTGTCAATGATCTGCAGATCCCTGTCCTTGCGATATCAGGAAATCACGACAGCCCCGACCGTCTCCAGTTCGGAAGTGAAATGTTCCGGAAGCAGGGATTGTTTTTAGATTCTAAACTGAGAAAAAACCGGGAGCCAGTGACCTTATATGATGACCACGGCCCCGTTCATTTCCATTTGATCCCTTATTTAGAACCGGCAGAAGCAGCCAAAGTTTTCGAGGATGCCTCCATAAAGTCCCACCATCAGGCGGCAGAAAGAATAATAGAAGATATCGAACAACGTTTTGCGTCACATGAGAGACATGTATGGGTCGGGCATTCGTTCCTTGCGGGAGGCATGGAGTCAGAATCAGAGGAACGCTTGTCGATGATTGGAGGAAGCCCTTATGTCGATGCCGGTTTGTTTACCCGTTTTGCTTATACAGCGCTCGGTCACCTGCACCAGCCTCAGCGGGTGACCAGGGATTACATCCGGTACAGCGGTTCACTTTTGAAATATTCTTTTTCGGAAGCCAGCCATCATAAATCCGTCACCCTTGTTGATATGAATGCGGAAGGAACCTGTGAGATACAAAAGATCCCCTTGCATCCACTCCGCGATTTTAAAGTCATTGAAGGGTATTTTGAAGAATTGCTGTCAGGGGAGGCCGTCTCCAACCCCGAGGACTATCTGCATGTCCGCCTTCTGGATGATGGTCAGCTGCTCGATCCGATGGGGAAACTGCGCCAGGTCTACCCGAATATCCTCCATTTAGAAAGGAAAAGGTCGATGTCCAACCCGGCGATGGATGACCTGGAACATGTGAAGAAAAGGCAGACTCTTTCCCATTCTGAACTTTTCGCTTCTTTCTATGAAGATATTAAAGGTGACCCGCTTCCTGAGAAGCGGAAGGACATGATTGAACAGGCCGTTGATGCCTTAAAGAAAAAGGAAAGGGAGCAGTAA	MKFLHTADWHLGKIVNYVHMTDDQRYMLERFIDIVKETEPDCIIIAGDLYDRSIPPKEAVELLNDTLTVLVNDLQIPVLAISGNHDSPDRLQFGSEMFRKQGLFLDSKLRKNREPVTLYDDHGPVHFHLIPYLEPAEAAKVFEDASIKSHHQAAERIIEDIEQRFASHERHVWVGHSFLAGGMESESEERLSMIGGSPYVDAGLFTRFAYTALGHLHQPQRVTRDYIRYSGSLLKYSFSEASHHKSVTLVDMNAEGTCEIQKIPLHPLRDFKVIEGYFEELLSGEAVSNPEDYLHVRLLDDGQLLDPMGKLRQVYPNILHLERKRSMSNPAMDDLEHVKKRQTLSHSELFASFYEDIKGDPLPEKRKDMIEQAVDALKKKEREQ				NA	NA	NA	NA	NA
AK012_00516	219			hypothetical protein	ATGAAATCTTTTTATCATTATATGATGCGTTATCGTGGAAACAAGAAAATGGATGAGGAGAAGCAGCTGGCTGAATGGATGTTTAAAGATCACAGCTTCCCCAAACAGTCAGTCTCTTATGACGAAATCAGCCGCTACCTGGAATGGAATGCTCCTTTTGCAGGAGCTCTCAGTCTTTTTGACCGGCTATATGATGAATATGAACAAGTAGAAGAATGA	MKSFYHYMMRYRGNKKMDEEKQLAEWMFKDHSFPKQSVSYDEISRYLEWNAPFAGALSLFDRLYDEYEQVEE				NA	NA	NA	NA	NA
AK012_00517	762	tatC1	COG0805	Sec-independent protein translocase protein TatCd	TTGTCCGAAGAAAATGTATCTCAAGATATCGAAATGAATATAACCGACCATTTAAGTGAACTTCGTAAACGTGTGATCTGGACATTCGTCTTTTTTGCCGCCTTTTTTATTGCCGGCTTTTTCTATGTAGATCAAATCCAATATTTTTTCATCAAAGACCTTCCCTTTGAACTGAACATGACCAGTCCAGGGGAAATCATCTGGATCATCTTCACTTTTGCTACATTGGTCGCTGTCGTTGGGACTCTTCCCATACTGTCCCTGCAGCTCTGGTTGTTTATCAAGCCTGCATTGACGCCGAAAGAGCGGAAGGCTTCCTTATCCTACATACCCGCGATCTTTGTCCTTTTTCTCGGTGGATTGACGTTTGGTTACCTGGTTTTCGTCGAATTGATCCTTCCGTTCCTGTTGTCACTGAACAATGGGATGTTCAATGAAATTTATACGGTGGAACGCTACTTTCGATTTTTATTCCGGGTAACCATACCGTTTGCTGTATTATTTGAAATTCCTGTCATCGTCATGTTTTTAACAAGTCTTGGAATTGTAAACCCGGTCCTGCTTGTGAAAATCAGGAAATATGCCTATTTTGTACTGGTTATTATCGGTACGATTATCTCTCCGCCGGATTTCATCCTGCAGCTGGTCGTAGCCGTTCCTTTAATCATCTTGTATGAAATCAGCATCGTATTATCGCGTATGGTTTATCGGAAAAAGCTTGAAAAAAACAGAGAATTTATGGAATCGGATATCGAAGAGTAG	MSEENVSQDIEMNITDHLSELRKRVIWTFVFFAAFFIAGFFYVDQIQYFFIKDLPFELNMTSPGEIIWIIFTFATLVAVVGTLPILSLQLWLFIKPALTPKERKASLSYIPAIFVLFLGGLTFGYLVFVELILPFLLSLNNGMFNEIYTVERYFRFLFRVTIPFAVLFEIPVIVMFLTSLGIVNPVLLVKIRKYAYFVLVIIGTIISPPDFILQLVVAVPLIILYEISIVLSRMVYRKKLEKNREFMESDIEE	PGPT0029295_3709	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
AK012_00518	189	tatAd_1		Sec-independent protein translocase protein TatAd	ATGTTATCAAGTATAGGAGTACCAGGACTGATTCTCATTCTGATCATCGCCCTTGTCGTGTTTGGTCCTTCCAAGCTTCCTGAAATCGGCAAGGCCTTTGGAAGCTCGCTGAAGGAATTTAAAAAAGCGACAGGTGATATCATGTCCGATGAGGACAATGGAAAAACAGAAAAGAAAAAGACAGACTAA	MLSSIGVPGLILILIIALVVFGPSKLPEIGKAFGSSLKEFKKATGDIMSDEDNGKTEKKKTD	PGPT0029290_4608	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
AK012_00519	177	tatAd_2		Sec-independent protein translocase protein TatAd	ATGCTCTCAAGTATTGGTATACCCGGTTTAATCTTAATTCTGACCATCGCTCTAGTGATTTTTGGTCCGAAGAAACTGCCTGAAATCGGCAGGGCTGCCGGGGAGACCTTAAAGGAATTTAAGAATTCTGCCCGTGATTTGACCAGTGATTCAGAGGAAAAGAAGACAGAAAACTAA	MLSSIGIPGLILILTIALVIFGPKKLPEIGRAAGETLKEFKNSARDLTSDSEEKKTEN	PGPT0029290_4956	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
AK012_00520	567	mobA	COG0746	Molybdenum cofactor guanylyltransferase	ATGGGCAGGGATAAAGGTTCCATGATGCTCGGTGGAACAATGGTGCTCGAGAGGATTTTATCCAGGCTTGGTGAATGGACACCTGTACTGGTGATCAATCAAAGAGAGACACATCCCGTGTATCCGACAGTTAAAGAACAATTTGATCAGGCAGGTCCTCTCGGCGGCATTCATGCGGTTTTGAATCATGCTGAAAAAGAGTGGACCGCAGTAACCGCCTGTGATACGCCTTTTCTCTCAGCGGAGGTTTATGATCACCTGCTCAAGTATACGGATCCGCAAACAGACGCTGTCATTCCTGTCTACAACGGCCGCCGTCATCCGTTATCGGGCTTATACAACAAACGGTGCGTACATACCCTCGGCACTTTCGTGCAGAATGGCGGAAGGAAAGTGGATGACTTTCTGGAGAAGGTGGTAACGAAAGAAGTGCATGAGTTTTCATCGATCTCTTCCGATGTTTTAGACAGGCACTTCTTTAACATGAATACACCTGAGGACTATGACAAGGCGGAGAAATGGTTGAAAAAAGAGGAAGGGTTAGAGACAAACCCCCGCCAACAATGA	MGRDKGSMMLGGTMVLERILSRLGEWTPVLVINQRETHPVYPTVKEQFDQAGPLGGIHAVLNHAEKEWTAVTACDTPFLSAEVYDHLLKYTDPQTDAVIPVYNGRRHPLSGLYNKRCVHTLGTFVQNGGRKVDDFLEKVVTKEVHEFSSISSDVLDRHFFNMNTPEDYDKAEKWLKKEEGLETNPRQQ				NA	NA	NA	NA	NA
AK012_00521	498			IS1595 family transposase ISSsu9	ATGATTTCATTTATTTTTGCAATGGACCGCAATCAATTAATTGGTAAGGATAATGATCTTCCGTGGCACATCCCCAATGACTTTAAATTCTTTAAGGATATGACGTGGGGTAAAACCATTATTATGGGAAGAAAAACATTTGAATCATTTGGCAGACCGCTTCCCGAAAGAAAGCATATTGTTCTGACCTCAAACGAATCCTATGACAGGGAAGGCTGTACAGTGATCCATTCCATGGATGAAATTTTGAAAATGGAACAGCAGCATCCGGATAAGGAATGGTTCGTGATCGGGGGCAGTGTGCTGTTTGAAAAGATGCTTCCCTATGCAGACCGGATGTACCTGACGTATATTGATGCTGAGTTTGACGGAGATACGTATTTCCCTCCATTTAATTACGATCAATGGACGTTGTCCTCCGAAACGAAAGGTATGAAAGATGAGAAAAACCCTTACGACTACTACTTTCGAACATACGACAGGAAGAGAATTTCTTGA	MISFIFAMDRNQLIGKDNDLPWHIPNDFKFFKDMTWGKTIIMGRKTFESFGRPLPERKHIVLTSNESYDREGCTVIHSMDEILKMEQQHPDKEWFVIGGSVLFEKMLPYADRMYLTYIDAEFDGDTYFPPFNYDQWTLSSETKGMKDEKNPYDYYFRTYDRKRIS	PGPT0007945_2551	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007945-folA-K00287	NA	NA
AK012_00522	960	thyA	COG0207	Thymidylate synthase	ATGACAAATAATGAACAGACTTATCTCGATCTGTGCCGTCTGGTATTGGAAAAGGGCACGGAAAAATCCGACCGGACCGGGACAGGTACCTATTCAGTGTTCGGGCACCAGATGCGGTTTGACCTGAAAGAAGGGTTTCCACTGTTAACGACGAAACGGGTGCCTTTCCGCCTGATTGCCAGTGAGCTTCTCTGGTTCATACAAGGAGACACAAATATTAAATATCTCCTGCAGCACAACAATAACATCTGGAACGAATGGGCTTTTAAAAACTGGGTGGAAAGCGATGACTACCAGGGGCCGGATATGACAGACTTCGGCCGTCGAAGCCAGCAGGACCCGGCATTCCAAAAGGTTTATGCCGAACAAATGGACTTGTTCAAGGAAAAAATCCTCACCGATGAAACATTTGCAGCTGCATATGGTGAACTGGGTTCTGTTTATGGAAAGCAGTGGAGGGAATGGAAGACCAGCAGAGGGGGTACCATTGATCAGCTGAAAAATGTTATTGAGGGCATCAAATCCAACCCTGATTCCCGCCGCCATATTGTCACAGCATGGAATCCGGAGGATGTGCCTTCCAACATGGCCCTGCCTCCATGTCATACCATGTTCCAGTTTTATGTCGCAGAGGGCAGACTCTCGTGCCATCTTTATCAGCGGAGTGGTGATATTTTCCTCGGGGTTCCGTTCAATATTGCAAGCTATGCCCTTTTGACACACCTCATTGCCCATGAATGCGGGCTTGAAGCAGGAGAGTTTATTCATACGCTCGGGGATGCCCACATTTATACGAATCATATTGAACAGATTCATCGTCAGCTCAAAAGAGAACCGCGCCAGCTTCCGAATCTTCAGCTGAATGCACAGATTTCCAGTGTATTTGACTTTGAGATGAAGGATATTACAATGGAAGGCTATGACCCTCATCCGGGGATCAAAGCTCCGGTAGCGGTATAA	MTNNEQTYLDLCRLVLEKGTEKSDRTGTGTYSVFGHQMRFDLKEGFPLLTTKRVPFRLIASELLWFIQGDTNIKYLLQHNNNIWNEWAFKNWVESDDYQGPDMTDFGRRSQQDPAFQKVYAEQMDLFKEKILTDETFAAAYGELGSVYGKQWREWKTSRGGTIDQLKNVIEGIKSNPDSRRHIVTAWNPEDVPSNMALPPCHTMFQFYVAEGRLSCHLYQRSGDIFLGVPFNIASYALLTHLIAHECGLEAGEFIHTLGDAHIYTNHIEQIHRQLKREPRQLPNLQLNAQISSVFDFEMKDITMEGYDPHPGIKAPVAV	PGPT0008145_591	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0008145-thyA-K00560	NA	NA
AK012_00523	624	yedJ	COG1418	putative protein YedJ	ATGAAAAAAGCGGAGAGGATTGAAAAAATCAAGGCCTATGCAGCCGGACAGTTTGCAGAGGATGCGACAGGGCATGATTATGAACATATGAAACGGGTGGCTCACTGGGCTGCTTCCATAGCACGGGAGGAAGAAGGAGATCCTTTCATGTGCGAAGCGGCCGGCTGGCTTCATGATGTTGGAGACCGGAAGCTGACAAAAAATCCTGAACAGGCGTTGAAAGACAGGGATGCGTTCCTTCAATCCTTATCTTTCACAGAGAAAGAAATAGAGGAACTGGATGCATCCATCCGTGATGTGTCGTTTTCAAAAGGGCGTGTCCCCCTCACACGTACAGGGAAAATCGTGCAGGACGCGGACCGGCTGGATGCAGTAGGAGCCATCGGTATAGCAAGGACGTTCGCCTACGGCGGCGCACATGGACAGCCGTTGTATTCACCGGACGGAGGAAACGATTCGTTCAGTCATTTCGAGGAGAAATTGTTGAAACTCGCTTCTTTGATGAACACAGAAACGGGAAAAAGAGAGGCCCGCAAACGTCATTCATTTATGGTACAATTTCTTGAAGAAATGCGAAAAGACATTCATATCACCGATGAGGGGGTTCAGCACCATGACAAATAA	MKKAERIEKIKAYAAGQFAEDATGHDYEHMKRVAHWAASIAREEEGDPFMCEAAGWLHDVGDRKLTKNPEQALKDRDAFLQSLSFTEKEIEELDASIRDVSFSKGRVPLTRTGKIVQDADRLDAVGAIGIARTFAYGGAHGQPLYSPDGGNDSFSHFEEKLLKLASLMNTETGKREARKRHSFMVQFLEEMRKDIHITDEGVQHHDK				NA	NA	NA	NA	NA
AK012_00524	855			hypothetical protein	GTGACGATAAACATTGGCTTAACCGGATGGGGCGACCATCCGTCGCTTTATTCAGAAAATACCAGATCGGAAAACAAATTATCAGAATACGCCTCTCATTTTCCTGTAGTGGAAGTTGATACAGCTTTCTATGCGATCCAGCCTGTCTCCCGCTATGAAAAGTGGCTGAAGGAAACACCTGACTCCTTTTCCTTCGTTATTAAAGCTTTTAACCAGCTGACAGGACATGACAGGGAGTCAAGGTCCGTACAGGAAGCAAGAGATCTTATCCTCCGTTATGAAGAGTCCATCCAGCCGGTATGGGAGGCAGGGAGTGTCCACGCACTCCTATTCCAGTTTCCGCCTTGGTTTGATGTGAGAAAAGAAAACATCCGGAAACTAAGATACATAAGGGAATGGCTGGAGCCTTATCCGATCGCTCTGGAATTTCGGAACCGGACATGGTTTCAGGATGAATACAGGGAGCAGACGCTTTCATTCATGAAGGACCAGCAGTGGATCCACAGCATCTGTGATGAGCCTCAGGCCGGGGAAGGTTCCGTTCCCAGGGTGCTTGTTCCTACGCACCCGGAAAAGACGCTCGTCCGGTTCCATGGCCGTAACACCCACGGGTGGAATAAAAATGGACGCAAAGACTGGCGTAAAGTCCGCTTTTTATACCGTTACAGCCGGGAGGAACTGACTGAATGGGCGGAAAAAGCGAGGGAGCTTGAACAACAGACACCGGAGCTCACCCTGCTCTTCAACAATAATTCCGGTGGAGATGCCGCAGACAACGCGAAACAGTTTCAGGAGCTTTTGGACATTCAATATGAAGATTTAAATCCCAGGCAGATGGATCTGTTCAATTTTTAG	MTINIGLTGWGDHPSLYSENTRSENKLSEYASHFPVVEVDTAFYAIQPVSRYEKWLKETPDSFSFVIKAFNQLTGHDRESRSVQEARDLILRYEESIQPVWEAGSVHALLFQFPPWFDVRKENIRKLRYIREWLEPYPIALEFRNRTWFQDEYREQTLSFMKDQQWIHSICDEPQAGEGSVPRVLVPTHPEKTLVRFHGRNTHGWNKNGRKDWRKVRFLYRYSREELTEWAEKARELEQQTPELTLLFNNNSGGDAADNAKQFQELLDIQYEDLNPRQMDLFNF				NA	NA	NA	NA	NA
AK012_00525	1671	fhs	COG2759	Formate--tetrahydrofolate ligase	ATGAAGAAAGACATCGATATAGCCCTCGAAGCAGAGATGAAACCGATAAAGGAAATCGCTGCCAGTCTGAACCTTTCCGAAGAGGACTGGGAGCCTTACGGACATTATAAAGCGAAGCTTTCTGAAAAACTTGGAAAGAAGCTGGAGGCGCGTCCCGACGGAAAGATTATTCTGACTACTTCTATAAACCCGACTCCGGCAGGGGAAGGGAAGTCTACGGTAACGGTCGGTCTTGGCCAGGCATTAAATAAACTGAATAAGAAGGCGGTCATTGCGCTGAGAGAGCCTTCCCTTGGACCAACCATGGGTCTGAAGGGCGGAGCGGCTGGAGGAGGGTATTCCCAAGTGGTGCCGATGGAGGAAATCAACCTCCACTTCACGGGAGATATTCATGCCATAACATCCGCAAACAATGCGTTGTCTGCTTTTATCGATAATCACATTCACCAGGGTAACGAGTTGAATATCGACCCGAGGCGGATTTCGTGGAAGCGTGTTGTTGATTTGAACGATCGTGCGTTAAGAGAAGTGATCGTCGGCCTGGGTGGACCTGTCAAGGGGGTGCCGAGGGAAGATGGCTTCATGATTTCTGTAGCTTCTGAAATTATGGCTGTTCTTTGTCTTGCGTCTGACCTTAACGATTTAAAAGAACGTCTGGCCCGCATCGTCATCGGCTATACGTATGATAGAAAACCTGTAACGGTAAAGGAACTCGGTTATGAAGGAGCCCTTACTCTTCTATTGAAGGATGCCGCTAAACCGAACCTTGTCCAGACTTTAGAAAACACCCCTGCCATCATTCATGGAGGCCCGTTTGCTAATATTGCGCACGGATGCAACAGTGTCATGGCTACAAAAACAGCCGCGAAGCTGGGGGACTATGTGGTTACAGAAGCTGGTTTTGGAGCAGATCTCGGAGCAGAGAAGTTTCTTGATATCAAAACGAGAGCCGGTGGATTTGAACCGGATGCTGTCGTTATTGTAGCGACGATCCGTGCGTTGAAGATGCACGGTGGTGTAGATAAGAAGGAACTGGACAAGGAGAATCTAGACGCCCTTCAGGCAGGAACCGCGAATTTGAAAAAGCATATGGAAACGATTGAACAGTTCCGGGTCCCTTATGTGATTGCGATCAACGAGTTCCCGACAGATACAGAAGAGGAAATCCACGCTTTGACGTCCTGGTGTGAACAGGAAGGGGCGCCGGTTTCTCTCGTTCAGGTTCACGAGAAAGGCGGCAGCGGAGGTGTGGACCTTGCTGAGAAGGTCATGGCAGCGGCCGATCAAAAACACCAGCCGCTTTCGTATACGTATGACCTTGAGGATTCCATCGAGCAGAAGATTAATAAAATTGCCCGCACTATTTACGGAGCATCCGGCGTGGAGTTTTCGGCGAAGGCGGAAAAACAAATCAGACAGATGAACAAATTCGGTTATCATCATCTGCCTGTTTGTATGGCCAAAACCCAATACTCTCTATCCGATGATCCAACGAAGCTTGGACGGCCGGACCATTTCAAAATTACAGTACGGGATTTATATCCTTCTATCGGCGCCGGTTTTCTTGTCGCGTTGACGGGTGATGTGATGACGATGCCCGGCCTTCCTAAACAACCAGCCGCCCTCCAAATGGATGTGGATCCATCCGGTGTTGTGAAAGGACTGTTTTAA	MKKDIDIALEAEMKPIKEIAASLNLSEEDWEPYGHYKAKLSEKLGKKLEARPDGKIILTTSINPTPAGEGKSTVTVGLGQALNKLNKKAVIALREPSLGPTMGLKGGAAGGGYSQVVPMEEINLHFTGDIHAITSANNALSAFIDNHIHQGNELNIDPRRISWKRVVDLNDRALREVIVGLGGPVKGVPREDGFMISVASEIMAVLCLASDLNDLKERLARIVIGYTYDRKPVTVKELGYEGALTLLLKDAAKPNLVQTLENTPAIIHGGPFANIAHGCNSVMATKTAAKLGDYVVTEAGFGADLGAEKFLDIKTRAGGFEPDAVVIVATIRALKMHGGVDKKELDKENLDALQAGTANLKKHMETIEQFRVPYVIAINEFPTDTEEEIHALTSWCEQEGAPVSLVQVHEKGGSGGVDLAEKVMAAADQKHQPLSYTYDLEDSIEQKINKIARTIYGASGVEFSAKAEKQIRQMNKFGYHHLPVCMAKTQYSLSDDPTKLGRPDHFKITVRDLYPSIGAGFLVALTGDVMTMPGLPKQPAALQMDVDPSGVVKGLF	PGPT0008065_1351	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008065-fhs-K01938	NA	NA
AK012_00527	201	cspA_2	COG1278	Cold shock protein CspA	ATGCAGAATGGTACAGTAAAATGGTTTAACGCTGAAAAAGGCTACGGCTTCATCCAGGTTGAGGGTGGTAACGACGTATTCGTTCACTTCTCTGCGATCCAGGAAGAAGGCTTCAAATCCCTAGAAGAAGGACAAGCCGTAACATTTGAAATCGTTGAAGGCGACCGCGGCCCACAGGCGGCCAACGTTGTAAAATCATAA	MQNGTVKWFNAEKGYGFIQVEGGNDVFVHFSAIQEEGFKSLEEGQAVTFEIVEGDRGPQAANVVKS	PGPT0014675_8786	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK012_00528	678			queuosine precursor transporter	ATGAATAACGAAATCATATGGCTCATTTTTGCATTGATAAACTTTATACTTCTGCTTGGTGTATACCGGATCTTCGGCAGAACAGGCCTGTTCGTGTGGATCGGTATGGCTACAGTCGTGGCCAACATCCAGGTAGTGAAGACGATTGAAATCTTCGGTCTTCAGGCGACACTGGGGAATATTGTCTATGGAACAGCCTTTCTGGCTACCGACATATTAAATGAAAAATACGGAAAAAAAGAAGCTGGAAAAGCGGTGTGGCTTGGATTCAGCTCTCTTCTTGCGATGACAATCATTATGCAGGGCGCCCTGTTATTCACCCCTGGATCGAATGACATCGCCCAGCCCGCACTGGAGACTTTGTTCGGAATTGTACCGAGAGTAGCTGCCGGAAGTCTGGCCGCCTACCTCGTGAGTCAATATTTTGATGTGTGGCTGTATGCCGGGTTGAAGAAAAAGTTCGCGGATGATAAGTATTTATGGATCCGAAACAATGGAAGTACCATGATCAGCCAGCTGCTGGACACGGCGGTCTTCTGCTTCATCGCTTTTTACGGCGTGTATCCTTTTGATATATGGCTGGAGATATTCCTGACAACGTATATCATTAAATTTATTGTATCCGCCCTCGATACCCCGTTCTTCTATTTAGCAAAAAAATTCCCACGTGCGGAGTAA	MNNEIIWLIFALINFILLLGVYRIFGRTGLFVWIGMATVVANIQVVKTIEIFGLQATLGNIVYGTAFLATDILNEKYGKKEAGKAVWLGFSSLLAMTIIMQGALLFTPGSNDIAQPALETLFGIVPRVAAGSLAAYLVSQYFDVWLYAGLKKKFADDKYLWIRNNGSTMISQLLDTAVFCFIAFYGVYPFDIWLEIFLTTYIIKFIVSALDTPFFYLAKKFPRAE				NA	NA	NA	NA	NA
AK012_00529	411	rnhA	COG0328	14.7 kDa ribonuclease H-like protein	ATGATTGAAGTTCACACAGATGCGGCGTGCAGTGGTGACCCCGGCTTGAGCGCTGCAGGCATTGTGATCAAAGCCGATAATCAAATGGAGGAGCATCAGTTCTTTCTTGGAACATGGAGCAATCATGAAGCAGAATTCCTGGCCGTTGCCCGTGCTCTGGAATTGTGCCGGTCTTTATATCCAGATGAAATCATATCCATCCGTTCTGATTCTAAGATCGCTGTCGATACTTTGGATCGAAAATATACGAAGAATAAAAAGTTCCTGCCGTTATTTGAACACATCCAGGAGTTGGAACAAGCCTTTTCATTTGTTTTTTATAAATGGATACCAGATAAACAAAACCGCCATGCAGACAAGCTCGCCCGTGAGTGTCTGCTGAAACATGCACAAAACCCAGATCAGCAATGA	MIEVHTDAACSGDPGLSAAGIVIKADNQMEEHQFFLGTWSNHEAEFLAVARALELCRSLYPDEIISIRSDSKIAVDTLDRKYTKNKKFLPLFEHIQELEQAFSFVFYKWIPDKQNRHADKLARECLLKHAQNPDQQ				NA	NA	NA	NA	NA
AK012_00530	279			hypothetical protein	ATGAATCGAAAACATGACTTGGCTTATTTTCTTGAGGATCTATGGAGCAGAGGTTTTAAACTGAGTGATGAGGATGTACAGTTTATTTATTTTGGTAAGAATTCTACAAATGCAGCCGAATGGAAAACCATCATTGCCGTCCGCACAACATTGAAAGCACAGCAGTTCTTTGATGTCAGCTTTTTCATCAGCGTACTCGAACTGATTGCAGACACATCCATTAACAACAAGCGTCAGGCCTATGAGGCGGTGGAACAGAAGCTGGCTTTAAAGAAGTGA	MNRKHDLAYFLEDLWSRGFKLSDEDVQFIYFGKNSTNAAEWKTIIAVRTTLKAQQFFDVSFFISVLELIADTSINNKRQAYEAVEQKLALKK				NA	NA	NA	NA	NA
AK012_00531	180			hypothetical protein	ATGATGGTTCTGCTTCTTCTCATTGTAACGATGGTATACAGTACCCTTATGGTTTATATGTTGCGAAACATCGGAGCAAAGCCTGTCGTTCCTGTGATCGACAGGTTGAAGTTCCAAAAACGTGCATCTCTTGAGGAATCCAGAAAAGCATATGAAACATCGATTTCCGTCAGGTCCTAG	MMVLLLLIVTMVYSTLMVYMLRNIGAKPVVPVIDRLKFQKRASLEESRKAYETSISVRS				NA	NA	NA	NA	NA
AK012_00532	510			hypothetical protein	ATGGAGATGATGCTGTGGCTCATTCTTTCATTGATTATTTTTCAACGGATTGGAGAACTCATCCTTGCTGCCAGGAATCGAAAATGGATGTTGGAACAGGGCGCAAAAGAATGGGGAAGCAGTCATTATTATTTGTTCATTCTTCTGCATGCGTTGTTTTTTCTATCTGTCATAGCGGAATATACATGGACTTCTTTCACATTTCAACCTATCTTTTATCCAGCACTGTTTCTGTTCGTCGTTCTTCAGGGAATGCGGGTATGGTGCATATCTACGCTTGGGAAGAGATGGAACACAAGAATTCTCGTACTGCCGGATGAAAAACCGATCAATCGTGGGCTGTATAAATATATCAAACACCCGAATTATGTGATTGTGTTTTTTGAGTTGATGGTGATACCTGTCCTGTTTCATGCCTACGCGACGGCACTTGTTTTTCCTTTTCTTCATCTGATGGTTTTGACGGTACGGATACCAGAAGAAGAAAAAGCCTTAAGAGAGCGGGTTTAA	MEMMLWLILSLIIFQRIGELILAARNRKWMLEQGAKEWGSSHYYLFILLHALFFLSVIAEYTWTSFTFQPIFYPALFLFVVLQGMRVWCISTLGKRWNTRILVLPDEKPINRGLYKYIKHPNYVIVFFELMVIPVLFHAYATALVFPFLHLMVLTVRIPEEEKALRERV	PGPT0011295_294	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	ANTIPROTOZOAN|ANTIPROTISTAL_ACTIVITY	ANTIPROTISTAL-ALKYLRESORCINOL|ALKYLPYRONE_BIOSYNTHESIS,PGPT0011295-bpsB|srsB-K16168	NA	NA
AK012_00533	1083		COG3424	Alpha-pyrone synthesis polyketide synthase-like Pks11	ATGCCATATATTATTGCAACCGGAACCGCCTGCGCAGAATATGCCTGTCCTCAAGAAGATGTGCAGCATTTGGTGGAACAATTATTTCCCATTAAACCGCATGAAATGAAGCGGCTGCTTCCCATATTCGAACATGCACAAGTAGAAGAGCGGCAGTTTGCCCAGCCGTTGGCGTGGTACAAAAAGAAGCACGGGCTGAAAGAGAGAAATGATCTTTACGTGAATAAAGCGCTCCGGTACAGTTTGGAAGCTGTCAGGAACTGTATGATCCGGGCGTTCGGTGGAAGAGAATTCGATCCTTCTCTTATTGATCATATCATCTTTGTATCTTCAACAGGGATTGCCACTCCAACCCTCGATGCCTACATAATGAATGAACTGCGTCTAAAGGAGAGTATCAAACGGACTCCGTTATTCGGCCTTGGCTGTGCGGGTGGTACCAGTGGAGTGGCCAAAGCTTATGAATGGCTGCTGGGACACCCGGACGCATGTGTATTGGTGGTGTGTGTAGAACTCTGCAGTCTGACATTTCAGCTGGAAGATGCGACTACGAGCAACTTTGTAGGGACGGCATTGTTCGGCGATGGTGCTTCTGCGGCCCTTGTCACGGGAGATGGGTGGAAGCAGAATGAACAGGTCGATTATACTGTTCCATCCATATTAAGCTCCAGTTCCAAGACGAAATGGAACAGTGAGGATGTTATGGGCTGGCGGGTGGTGGACAATGGCTTTGAAGTCATTTTCAAGAAGAGCATTCCCCGGTTAGTCAAGGATTTCTGGAGTGTACACGTGGACGAAGTATTAGCACAGCATCAATGGAACGTAAGTGAGCTGCCCTTTTTAGTGGCACACCCCGGAGGGAAGAAAGTCCTTGAGGCATACGGAGAAGTTCTTCATGTGGAGGACTCTGTGCTGAATGCATCCAGAAGTGTACTGGCCCGCCATGGGAATATGTCTTCTCCAACGGTGCATTTTGTACTGGAACGGATCATGGAGCAGCGGCCTGAACGAGGAACGCGCTCCTTGATGACCTCACTCGGGCCGGGATTCAGTTCAGAAATTATCAGTTTGGAGTGGGTGTAG	MPYIIATGTACAEYACPQEDVQHLVEQLFPIKPHEMKRLLPIFEHAQVEERQFAQPLAWYKKKHGLKERNDLYVNKALRYSLEAVRNCMIRAFGGREFDPSLIDHIIFVSSTGIATPTLDAYIMNELRLKESIKRTPLFGLGCAGGTSGVAKAYEWLLGHPDACVLVVCVELCSLTFQLEDATTSNFVGTALFGDGASAALVTGDGWKQNEQVDYTVPSILSSSSKTKWNSEDVMGWRVVDNGFEVIFKKSIPRLVKDFWSVHVDEVLAQHQWNVSELPFLVAHPGGKKVLEAYGEVLHVEDSVLNASRSVLARHGNMSSPTVHFVLERIMEQRPERGTRSLMTSLGPGFSSEIISLEWV	PGPT0011290_176	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	ANTIPROTOZOAN|ANTIPROTISTAL_ACTIVITY	ANTIPROTISTAL-ALKYLRESORCINOL|ALKYLPYRONE_BIOSYNTHESIS,PGPT0011290-bpsA|srsA|-K16167	NA	NA
AK012_00534	768	gno_1		Gluconate 5-dehydrogenase	ATGTATCTGCCAAATTTTAGATTGGAACACCGATTAGCGGTTGTAACTGGAGGAACGAAAGGGATTGGAAGGGCCATCACCCTGGCCTTTGCTGAGTCTGGGGCCGACGTCATCGTTATTGCAAGAAACAGCAGGGAGCTTGATCAAGTGAAAACTGACGTGGAAGAACTGGGGCAGCAGGCTTTTACGATCGCAGAAGACATCAATCACTATAAGGAAATCATCAGGAAAGTGGATGAAATCAAAAAGGACCGTTCGATTGATATATGGGTGAACAATGCCGGCATGAATATCCGCAGTGAAGCGGCATCGGTGACGGAAGAGGAATGGGATCAGATCATCAATACCAATATGAAAAGTGCTTTCTTTCTTTCCCAATATGCCGGACGTTCTATGATGGAGAACCGCGCTGGTAAAATCATTAATATTTCTTCTGTAGGGGGGCATACCGCGCTCCGGACAGGTGTTGTGTATGCCATGACCAAAAGTGCATTGATTCAGATGACCAAAAACCTTGCACTCGAATGGGGAAAGCACAATATCAATGTAAATGCTATCGGCCCCTGGTATTTTCCCACATCTTTAACGGAGAAGCTGCTTCAGGATGAGGAGTACGTCAGGGACATTTTGGCACGGACTCCGTTGAATCGGATCGGAAAGTTGGAAGAACTGAGTGGTACCGCTGTATTCCTGGCCTCTGATGCAGGGAATTATATAACAGGACAGACGCTCCTTGTAGACGGCGGAATGACGATTTACGGTTTTTAA	MYLPNFRLEHRLAVVTGGTKGIGRAITLAFAESGADVIVIARNSRELDQVKTDVEELGQQAFTIAEDINHYKEIIRKVDEIKKDRSIDIWVNNAGMNIRSEAASVTEEEWDQIINTNMKSAFFLSQYAGRSMMENRAGKIINISSVGGHTALRTGVVYAMTKSALIQMTKNLALEWGKHNINVNAIGPWYFPTSLTEKLLQDEEYVRDILARTPLNRIGKLEELSGTAVFLASDAGNYITGQTLLVDGGMTIYGF	PGPT0018070_544	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018070-idnO-K00046	NA	NA
AK012_00535	549			hypothetical protein	TTGAAAAAATGGTTGATAGCTCTTGGTCTGACTTCGGCGCTCGTAACAGCCGGATGCAGCGGAGACACAGAAGAAAGCAGTGATTCGGAAGGACAGAACGAAGAAACGACTGAAACAGAAGAAGATAACAGCCAGGATTTGAAAAAGTCACTGATGGATGCCCAAATGGAATTGACTGACACGTTCAAGCCGCACCAGCAGAAAATTTCCGCCTATCAGGCAGCTATTTCTGCAGAAGATCCGGATGCAGAAGCCATTACTTCAGCAGGTGAAGAAGCGAAAACAGCGGCTGGTGAAGCAGCAGCTGCTGCTTCAGACTACACGGTAGAAACCGAACTTCCTGAAGAAACGAAAACAAAAATCCAGGAAGCCATGCCTTCTCTGCAGGCTTACTACGAAGAAGTTGAAAAAGCATTGGATGAAAACATAGAAGAGGCCGACTTCTCAACTGCAGATGAAAAAGCAGAGGAATTCAATGAGCAGTTTGGTCAGATCCTTACAGATGCAGGCTTCCCTGCAGCTCCGGATTTAATTGGTGAAATGTCATAA	MKKWLIALGLTSALVTAGCSGDTEESSDSEGQNEETTETEEDNSQDLKKSLMDAQMELTDTFKPHQQKISAYQAAISAEDPDAEAITSAGEEAKTAAGEAAAAASDYTVETELPEETKTKIQEAMPSLQAYYEEVEKALDENIEEADFSTADEKAEEFNEQFGQILTDAGFPAAPDLIGEMS				NA	NA	NA	NA	NA
AK012_00536	1500	ypwA	COG2317	Carboxypeptidase 1	GTGAGCAGTCATGCGGAAACAAAATTTTCAGCCTTATTGAAGGAACAAGCATCCTATGAAGAAGCGATCGGTTTAATGGCCTGGGATATGCGGACGAAAGCACCGAAGAAAGGGGTCGACGGACGTTCAGAGGTTCTGGGTGTCCTTTCAGCCAAGGTCCATGAAATTCAGACCTCTGAAGAAATGAAAACGTTGATCGACGAATTAAAAGGGCACGCATCCAGTTCAAAGATGGAGCGGGCCGTAGAAGAAGCGGAAGAAACGTATCTGCGTACAGTGAAAATACCGGCAGAGGAATACCGGGAATATGTGACCCTGCAGAGCCAGGCGGAATCCATCTGGGCGGAAGCGAAAGATAACAATGACTTTGCCTTGTTCCAGCCGTATTTAGAAAAGCTGGTAGATTATAAGCGGCGGTTTGCCGAGTACTGGGGATACGAAGATCATAAATATGATGCACTGCTGCACAGTTATGAGCCGGGCATGACCGTCCGTATTCTTGATGAAGTTTTTCCGAAAGTAAGAAAAGCGCTGACAGGACTGCTGTCTGACATCCAGGCCTCTGGTAATAAACCCGACCCCGCGGTTCTGGAAGGACATTTTCCAAAAGACAAGCAGGCAGCATTTAGTGAAGAGATGCTGCGGCGGATGGGGTATGATTTTGATGCGGGTCGTCTGGATGAAACGATCCACCCATTTGCAATCGGTTTAAATCAAAATGATGTGCGCGTAACAACGAAATATGATGAGCAGGATTTCCGAACCGCTGTATTTGGTACGATCCATGAAGGGGGCCACGCATTGTATGAGCAGAACATTTCAAAAGATCTGGCCTTTACTCCACTGGCGGATGGAACGAGCATGGGGATCCACGAATCCCAGTCTCTCTTCTGGGAGAATTTTATCGCAAGAAGTGAAAGTTTTTGGAAAAACCATTATTCTCTTTTCCGGACTTATGCGCCGGACAGCTTCAAAGATCTGCCTTTCCACGATTTTTATAAAGCTGTCAATGAAGTGAAGTCCTCCTTGATACGGATTGAAGCTGATGAACTGACCTACTGCCTTCATATCATGGTCCGCTATGAGCTGGAAAAAGCTTTGATCGGCGGAGAGATTGAAGTCAGGGACCTCCCAAAGTTATGGAATGAAAAGATGGAGGAGTATCTGGGTATCATTCCTTCCAGCGACAGTGAGGGTGTACTCCAGGATATCCACTGGTCAGGAGGAGATTTCGGCTACTTTCCTTCCTACGCTCTTGGGTATATGTATGCAGCCCAGATTAACGCAGCCATGAGGAAGGAAATCGACGTCAATGCATGTATGGAAAAAGGGGACTTTGAGCAGATTCGGAAGTGGCTGACAGCTAACATCCATAAGTATGGGAAGCTGAAGAAGCCGCTTGAAATTATTCAGGATGTGACGGGAGAAGGGTTGAATCCCGACCACCTCATCACGTACGTCACAGAAAAATACCAGAACATCTATCAATTATCCAGGTAA	MSSHAETKFSALLKEQASYEEAIGLMAWDMRTKAPKKGVDGRSEVLGVLSAKVHEIQTSEEMKTLIDELKGHASSSKMERAVEEAEETYLRTVKIPAEEYREYVTLQSQAESIWAEAKDNNDFALFQPYLEKLVDYKRRFAEYWGYEDHKYDALLHSYEPGMTVRILDEVFPKVRKALTGLLSDIQASGNKPDPAVLEGHFPKDKQAAFSEEMLRRMGYDFDAGRLDETIHPFAIGLNQNDVRVTTKYDEQDFRTAVFGTIHEGGHALYEQNISKDLAFTPLADGTSMGIHESQSLFWENFIARSESFWKNHYSLFRTYAPDSFKDLPFHDFYKAVNEVKSSLIRIEADELTYCLHIMVRYELEKALIGGEIEVRDLPKLWNEKMEEYLGIIPSSDSEGVLQDIHWSGGDFGYFPSYALGYMYAAQINAAMRKEIDVNACMEKGDFEQIRKWLTANIHKYGKLKKPLEIIQDVTGEGLNPDHLITYVTEKYQNIYQLSR				NA	NA	NA	NA	NA
AK012_00537	1155	rlmL	COG0116	Ribosomal RNA large subunit methyltransferase L	ATGCCGAAGAAAGTAACATTAATTGCGACAGCAGCGATGGGTCTTGAATCCATCGTAAGTAAAGAAGTAAAAGCACTGGGATACGAAAATGTTGAAGTGGAAAATGGCCGGGTGGTCTTTGAAGCCGATGTGTCTGCCATTCCACGGGCAAATTTATGGCTTCGGACAGCGGACAGGGTCAAACTGCTTGTAGGAAGATTCAAGGCGACCAGTTTTGATCAATTGTTCGAAGAAACGAAAGCCCTGCCATGGGAAAGCTTCATTGAAGAGGATGGAGAGTTTCCCGTAATCGGAAAATCTGTGAAATCCAAGCTTTACAGTGTGCCGGACTGTCAGGCAATTGTAAAAAAAGCGATTGTTGAACGTTTGAAGAAAAAGCACGGAGTGGCCTCCTGGCTCAAGGAAACCGGATCTTTTTACAGGGTGGAAGTGGCGATCCATAAGGACGAAGCCCTTCTTACGATGGACACATCCGGTTCCGGTCTCCACAAACGCGGATACAGAGTAGGTCAGGGGGAAGCACCGCTGAAGGAAACGTTAGCTGCAGCCCTTGTTCAAATGACAAACTGGCATCCGGATAAACCGTTTGTCGATCCATTCTGCGGATCTGGAACCATTGCAATCGAAGCGGCTTTGATCGGACAGAACATTGCACCAGGGTTCAACCGCGAATTTGCATCGGAAGGATGGGGGTTCATCCCTCAAAAAGCCTGGGATGATGCCTTTCAGGAAGCGGAAGATGCAGCCAACTATGACCAGCCGCTGGACATTACGGGCTCCGACCTTGATCCGAAAATGATTGAAATCGCCAGGAAAAACGCGATGGAAGCTGGACTTGGCGATCTTGTGACATGGAAGCAGATGCAGATGAACGATTTGAAACCAAAAGAGGACAGTGGGTATATCGTATCCAACCCGCCATATGGGGAACGGATCGGTGATCGTGAAGAAGTGGAACAGATGTACAGGGATCTTGGTACGATCATGCGTGATTATCCTTCATGGAGCGTCTACATTTTGACATCCCACGAAGGATTCGAAAAGCTGTACGGCCAGTCCGCGACGAAAAAGAGAAAGCTCTTTAATGGTTACATTAAGACGGACTATTATCAATATTTCGGTAAAAAGAAAAAACAGACGGCCAAAGGTTTTTAA	MPKKVTLIATAAMGLESIVSKEVKALGYENVEVENGRVVFEADVSAIPRANLWLRTADRVKLLVGRFKATSFDQLFEETKALPWESFIEEDGEFPVIGKSVKSKLYSVPDCQAIVKKAIVERLKKKHGVASWLKETGSFYRVEVAIHKDEALLTMDTSGSGLHKRGYRVGQGEAPLKETLAAALVQMTNWHPDKPFVDPFCGSGTIAIEAALIGQNIAPGFNREFASEGWGFIPQKAWDDAFQEAEDAANYDQPLDITGSDLDPKMIEIARKNAMEAGLGDLVTWKQMQMNDLKPKEDSGYIVSNPPYGERIGDREEVEQMYRDLGTIMRDYPSWSVYILTSHEGFEKLYGQSATKKRKLFNGYIKTDYYQYFGKKKKQTAKGF				NA	NA	NA	NA	NA
AK012_00539	312	gpsB	COG3599	Cell cycle protein GpsB	ATGAACTTAGAAGAGTATCATTTGACGGGGAAGGATATACTGGAGAAAGACTTTAAAACATCCATGCGGGGGTACAACCAGGAAGAAGTGGATGAGTATCTGGATTTAATTATTCAGGACTATGACCGCTTTCAGCAGGAGATTGAACGCCTCCAGCACGAAAATGACCGTTTAAAGAAAATGTCCTCCAGAGAGACAGCCTCCAGGCAGAAGCAGAATACAGGAAGCACCCCGCAGGTCAATTATGACATTCTGAAGCGGGTGTCCAACCTGGAAAAAGCTGTGTTCGGAAACAAATACGCGGATGAATGA	MNLEEYHLTGKDILEKDFKTSMRGYNQEEVDEYLDLIIQDYDRFQQEIERLQHENDRLKKMSSRETASRQKQNTGSTPQVNYDILKRVSNLEKAVFGNKYADE	PGPT0014806_184	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014806-gpsB-NA	NA	NA
AK012_00540	567			hypothetical protein	ATGAAAACATTAGTAGTTACCGGTTACAAGCCTATGGAGATGGGGATATTTAAACAACAGGATGAAAAGGTCATTTTCGTAAAGGAAACGATCAAAAGACGTCTGCTTACATATATCGATGAAGGTCTTGAATGGGTGCTCGTTTCGGGTCAGATGGGCGTGGAGCTCTGGACGGCTGAAGTCGTTCTTGATTTAAAGGAAGAGGAGTATGCCGTCAACCTGGGAGTTATTCCACCTTTTGAAAACCAGCAGGAGCGCTGGCCGGAAGATCTGCAGATGATTTATGAGGAAGTCACGATGACGGCTGATTTTTTCCAGCCCGTCTATAATAAAGGGTACGAAGCGCCGTATCAGTTCAAAGCGAGAGATCAATTTCTCATCGAACATTCAGATGCCTGTCTCGTTTTATATGACGAAGAAACCGAAGGCAGTCCCCGTTTCTTCTTAAATATGGCTGAGAAAGCTGTAGAAAATGAAAGTTATAAGATTTTATATATCACCCCCTTTGATCTGGAGGAAACCGTAGAGGAAATGCGCATGGCGGATCCTGATTTCTGGAGCCAGTGA	MKTLVVTGYKPMEMGIFKQQDEKVIFVKETIKRRLLTYIDEGLEWVLVSGQMGVELWTAEVVLDLKEEEYAVNLGVIPPFENQQERWPEDLQMIYEEVTMTADFFQPVYNKGYEAPYQFKARDQFLIEHSDACLVLYDEETEGSPRFFLNMAEKAVENESYKILYITPFDLEETVEEMRMADPDFWSQ				NA	NA	NA	NA	NA
AK012_00541	540			hypothetical protein	ATGCATCATCATTCAATGCATGACTCTTGCGGCTGTGGACCGATGTCACAGTGCAGCAACCGCTGTCCAATCGTATGTCCGGTCCAACACTGTGTCGTGGACAATTTCTTTTGTGAAAACCAGGATTACATCCATCCGACACACATTCTCGTGAGAAATAACCACCTGTTGAACAATAACCATTACTTCCCATATATGGTTTCCGAACAGAACAACTTCCAAACACAGGAATTTGCCTATCCTCAAGGATCTTCTCCAGACTATGACTGGATGGAAAACATGAACCAGCAGGGTGCGGGACCAATGGGAGAAATGGAAGAGGGCGCAATGGCAGGTATGAACGGACAAATGCCGATGATGGATCAGGGCCAGATGCCCGGCATGAACGGCCAGATGCCGATGATGAACCAGGGCCAGATGCCCGGCATGAACGGTCAGATGCCAATGATGAACCAGGGTCAGATGCCCGGCATGAACGGACAAATGCCGATGATGAATCAGGGTCAGATGCCGATGATGGGCCCGGGGTTTGGAGAGTGA	MHHHSMHDSCGCGPMSQCSNRCPIVCPVQHCVVDNFFCENQDYIHPTHILVRNNHLLNNNHYFPYMVSEQNNFQTQEFAYPQGSSPDYDWMENMNQQGAGPMGEMEEGAMAGMNGQMPMMDQGQMPGMNGQMPMMNQGQMPGMNGQMPMMNQGQMPGMNGQMPMMNQGQMPMMGPGFGE				NA	NA	NA	NA	NA
AK012_00542	402	cdd	COG0295	Cytidine deaminase	TTGGAACAAAAACAGTTGATGAAACATGCCGTTGAAGCCAGAGGTACGGCTTACACACCTTATTCTAAATTTCCAGTAGGAGCTGCAGTCCTGACAGAGGACGGCACTCTGTATACAGGATGCAATATTGAAAATGCCGCTTATCCGGTGTCCTTATGTGCAGAAAGAGTAGCGATTTTCAAAGCCATTTCCGATGGACATAAAAAATTCAAGTCTCTTGCTGTAGCAGCCGACACAGGGAGGCCTGTACCTCCATGCGGATCCTGCCGTCAGGTGATGAGTGAATTCTTCGATTCATCTGTTACCATTTATACAACCAATTTAACCGGCGATACGAAAACATTCACGATGGATGAAATTCTCCCGTTCTCCTTTGCCCCTTCTGATCTTCCTGAAGAGTGA	MEQKQLMKHAVEARGTAYTPYSKFPVGAAVLTEDGTLYTGCNIENAAYPVSLCAERVAIFKAISDGHKKFKSLAVAADTGRPVPPCGSCRQVMSEFFDSSVTIYTTNLTGDTKTFTMDEILPFSFAPSDLPEE	PGPT0021360_2781	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021360-cdd-K01489	NA	NA
AK012_00543	3066	ttgB	COG0841	putative efflux pump membrane transporter TtgB	ATGAAAACACTTTTACAATACAACAAAATTGTATGGGTATTTATCTTATTATTATTGTTTACAGGTATCTTCACATATCTGCAGCTTCCCAAACGGGAAATTCCTGAAATCAACGTCAACGTAGCTTCCATCTCCACCGTTTATCCCGGAGCTACCCCTCAGGAAGTAGAAAGTACCATTACCAATCCACTGGAAGAGGAGCTTTCATCGATTGAAGGTGTGGATGAACTGACTTCCGCCTCTACATCCGGATTCGGCTCCGTGACTGCCACGCTCGCGGGCGGAGCATCCGTAGATACTGTGAATTCTAAAATTAGACAAGCGGTCTCCGACGTTTCCAGAGCTTTCCCTGACGAGGTACAGGAGCCTGAAGTGAATACGGATACGACCATGTCTGCAGTTGCTTCCTATAACCTGACAGCAGATGCACAGGAAAGCCTTTATGACCTGCGCCCTGATATCAAAGTATGGGAAGAACGGCTCACTTCTATCTCCGGTGTGCAGTCTGTTCTGGTCAAAGGACTCCCGGAACAGCAGTTAACGGTTTCCCTTGATAATGAAGCCCTTGGTGAAAACCAGCTCACACCGGTGGCTGTGATCCAGAAACTGCAGCAGGAAATCAGCCCTGCCGCTATAGGTACAGAAGAAACCGATGGTGAAATCAAGCAGCTGCTGTTTCAGAAGTACGAAAGTGCTGAGGAACTGGGCGGGTTGTATATAGGCACAAGTCCTGACGGCTCGTCTCTTTCCTTATCAGATGTGGGTGAGACGTCGGTCACAAACAAAGCACTGGAAGACCGTATTACCTATGAGGGAAAACCGGCTCTTTCTGTAACGATTCTCGCTGAGGAAGGGGTCAACATATCAGCCCTCCAGGAACAGATTACAGAAGAAGTAGAGGGATTAAGCGGAGATCTGCCTGAAAACATAGACGTAGAGCAGTTTTATACACAAAGTACCGTCATCGAAGAAGTGTTTACGAATTTAATCACTTCCTTTGGAATATCCCTGCTTGCTGTTATTGTCATTATGGTGCTCGGCCTTCCTCTTTCATCCGCAGTACTCGTAGCACTGGCGATACCGGTTTCCATCATCATCGGACTGATTCCCCTTCCATATGTAGGGGTTGACCTTAACCAGATATCCATCATCGGTATGATCATAGCCATAGGTATTCTCGTGGATGACGCCATCGTCGTTAACGATAATATTCAGCGGAGATTCCAGCTGGGGGACGGCCCTCTTGAAGGAACCGTCCGGGGAGTAAGAGAAGTCGGGAAATCGATCGTAACTTCTACTTTAATGATCATTTTCAGCTTTTTCCCGCTCATGTTCCTTTCCGGGACCAACGGCGATTTTATCAGAGCCCTCCCTTCCGTATTAATTTTCACGATAACAGCGTCTACGATCATTGCACTTACATTGATACCGACGGTTCAGTACGCAAGGAAACGTAATAAGAAACAAAAGAAAAATTCGAAGACAGGCCTGCTCGGCGGACTGTTCGACCGGCTTGAACGTGTCTATGCCGGCCGCCTGCTTCCGAAGACCACAAAACGCCCATGGGTCACGGCTGCATCCGGAATCGTGCTCTGTATCCTGCTTGCCCTGCTTGCCATTAAGATTCCATTTGAGTTTTTCCCGGCCGCCGACAGGCCTGAAGTGACCATCAATGTGGAAAATCCTAAAGGCACAACGCTTGAGGACACGGAAGCAACTCTGCAGGATATGGTCCGCTACATCGAAGATTCAGAGGAACCTGTAACAGAAACAGCCACATACGCAGGTACAGGTCTTCCAAACTTGTTCAGCTCCGGACTCCAGCAGACTGGAGAAAACACCGGTCAGGTCCTCGTGCGGGTGGACAGGGATGAAACGAGTGCTTCTGCATTCATTGAAAAATGGGAGGAACCGCTCCGCAACGAATTCCCAGAGGCGGAAATTTTCCTTGAGACCATTGTATCAGGGCCACCGCCATCCCCTCCTGTTCAAGTGAAAATTCAAGGACCGGAGATCAATCAGCTGTTTGAAACAGCCGAACAGGCAAAAGAAGAGTTCTCTGCTATTGAAGAATCTGAAATTGTAACCATCAACGCTGATAAAAATCAACCCTTTGTCGAATATGTACCAGACAGATCGCTGCTTGCCGAAAATGGAATTGCTGTAGACACCGTCGTTTCTCAGCTTCAGCTGGCTAATTCCGGTGCGCCACTGGGCACCTTTGACAATGGCGTTACACGTCTGCCACTTCAAGTGATCCTCGATGATGGCAGCGAAGAAGGCGCAGCGCTTGATGAACTCCGTGTAGCTGCTGCGAACAGTGAAAACGGACCTCCAGAGATGTTTACGCTGGATGAACTTGTCTCTGTAGAGGAAACGGAAGGGATCGGAGTCATCCCTCACCTGAATGGAGAACGCACCTTAACGATCGAAGCCTATCCACAGGAAGGATCCGAAGATGAATTTTCCAGTAAAGCTGAGGATGTGACAGCCTCTATCAAGGAGAATCTCCCTGAAGGGTATTCGCTTGTAGAATCAGGACAAAATGATGCCCAGACGGAATTCTTTATTGAAGTATCCAAGCTGTTTGTCATCGTTCTGTTCCTGATCTATTTAACCATTGCCGTTCAGTTCAATTCCTTATTTATGCCGCTTTTGATTACCGGTACGGTCTTCCTGGCGGTCACAGGAGCCATTGTAGGTCTGTTCCTATCCGGAGAGCCGCTCAGCTTCCTGGCTGTCCTCGGTATTGTATCCCTGTCAGGTATTGTCGTCCGAAATTCGGTCATACTTGTGGAATTCATTGAGCAGAACCTATCCTCCTATGCGACGACAGCAGAAGCCGTTATTGAAGCAGGCCGGGCACGGATTCGACCAATTGTCCTGACTTCCCTGACGTCCATCGCTGCGTTAACTCCGATTATCTTTTCAGGAGATGTCTTATTCAGGCCACTGGCTGTTTCGATTGTTTCCGGACTTGCCTTTTCAACGATACTCACGCTGCTGCTTGTACCATCGTTCTATTTGATTTTCGCCAAGCTGACAAAAAAAGAAAAGCGGGCGTGA	MKTLLQYNKIVWVFILLLLFTGIFTYLQLPKREIPEINVNVASISTVYPGATPQEVESTITNPLEEELSSIEGVDELTSASTSGFGSVTATLAGGASVDTVNSKIRQAVSDVSRAFPDEVQEPEVNTDTTMSAVASYNLTADAQESLYDLRPDIKVWEERLTSISGVQSVLVKGLPEQQLTVSLDNEALGENQLTPVAVIQKLQQEISPAAIGTEETDGEIKQLLFQKYESAEELGGLYIGTSPDGSSLSLSDVGETSVTNKALEDRITYEGKPALSVTILAEEGVNISALQEQITEEVEGLSGDLPENIDVEQFYTQSTVIEEVFTNLITSFGISLLAVIVIMVLGLPLSSAVLVALAIPVSIIIGLIPLPYVGVDLNQISIIGMIIAIGILVDDAIVVNDNIQRRFQLGDGPLEGTVRGVREVGKSIVTSTLMIIFSFFPLMFLSGTNGDFIRALPSVLIFTITASTIIALTLIPTVQYARKRNKKQKKNSKTGLLGGLFDRLERVYAGRLLPKTTKRPWVTAASGIVLCILLALLAIKIPFEFFPAADRPEVTINVENPKGTTLEDTEATLQDMVRYIEDSEEPVTETATYAGTGLPNLFSSGLQQTGENTGQVLVRVDRDETSASAFIEKWEEPLRNEFPEAEIFLETIVSGPPPSPPVQVKIQGPEINQLFETAEQAKEEFSAIEESEIVTINADKNQPFVEYVPDRSLLAENGIAVDTVVSQLQLANSGAPLGTFDNGVTRLPLQVILDDGSEEGAALDELRVAAANSENGPPEMFTLDELVSVEETEGIGVIPHLNGERTLTIEAYPQEGSEDEFSSKAEDVTASIKENLPEGYSLVESGQNDAQTEFFIEVSKLFVIVLFLIYLTIAVQFNSLFMPLLITGTVFLAVTGAIVGLFLSGEPLSFLAVLGIVSLSGIVVRNSVILVEFIEQNLSSYATTAEAVIEAGRARIRPIVLTSLTSIAALTPIIFSGDVLFRPLAVSIVSGLAFSTILTLLLVPSFYLIFAKLTKKEKRA	PGPT0029140_404	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029140-triC-K21134	NA	NA
AK012_00544	363			hypothetical protein	ATGTCGTTAGAAAAATTCACAATGGAATTAAAATCCATAATTGATAAGCAGCATCAGCGCTTTCTTCATACAGATGGTCCTGTGGATAGAAACAACCGGGAGTTTTTTGCTCATGTGAAGGAAGAAACGAAACCGATGTTTGAGGTGAACCATCAATGGATGGAGGAAGCTGAACAATTTGTGAAAAATAGAGAATCGTCTGTTCACCCGAATCAGGTGAAATCAACGCATGAGAATATTGAGATGATCATTCTCCATAGTTATTATCTGGATGTGGAGCGCAAACGTTTCAAGGAATTATATCAATCATCTCATTATGTCCTCGATATGATCTTGAGTGATATGGAAAAAAGATCCTCATAA	MSLEKFTMELKSIIDKQHQRFLHTDGPVDRNNREFFAHVKEETKPMFEVNHQWMEEAEQFVKNRESSVHPNQVKSTHENIEMIILHSYYLDVERKRFKELYQSSHYVLDMILSDMEKRSS				NA	NA	NA	NA	NA
AK012_00545	267	racA		Chromosome-anchoring protein RacA	ATGACCAAACCCATTGTCGTCACGCCTGAGGAATTTGAGCGTCAGCTTTTTCAGCTGCAGGAAAAATTCTCACTCCTTGAAAGAAGAATGTCCTTAAAAGCGGATGAGATTGTCTTTTCCATGACTGTCGCCCATCGGAAAGAAGTGGATGAATTAAGGGATGAGGTTTTGAACCTGCAGGATGAGCTCAGACATATGAAAAAGGAGAAACGGCAGGCTTACATGGGAAGAATCGCCCAGCAGGCTAAAAAGAGGTCTGTGGGATAA	MTKPIVVTPEEFERQLFQLQEKFSLLERRMSLKADEIVFSMTVAHRKEVDELRDEVLNLQDELRHMKKEKRQAYMGRIAQQAKKRSVG				NA	NA	NA	NA	NA
AK012_00546	93			hypothetical protein	ATGGCAGGGAAAAAAGAAAAGAAGAAGAAAAAACCGGTCAAGGCCGAAACGGACAATCCTAAACTGGCGGGAGAAAACCGACCGGCGACATAA	MAGKKEKKKKKPVKAETDNPKLAGENRPAT				NA	NA	NA	NA	NA
AK012_00547	591	recU	COG3331	Holliday junction resolvase RecU	TTGAATTATCCCAACGGGAGACGCAGCCCAAGCCGACATGCTGCCCCCCAAGGAAAGACAAAACCAGAGTTCAGCAACAGAGGAATGACCCTTGAAGAAGACATTAATTTAACGAATGAATATTACCTGCAGGCCGGACTGGCGGTGATCCATAAAAAACCTACACCTGTTCAGATTGTTCAAGTGGATTACCCGAAGCGTAGTGCGGCCGTTATTAAGGAAGCTTATTTCAAACAGGCATCCACAACCGACTATAATGGCGTATATCGTGGGAGATACATTGATTTTGAGGCCAAGGAAACGAAAAACAAAACGTCCTTTCCACTCAGCAATGTCCACCAGCATCAGGTGGATCATATGAAAGCCGTGGAAAAGCACGGGGGGATCAGCTTTTTTATTATCAAGTTCACCCCCAGGGATGAGGTATACCTGCTTCCTTCTTCGACGCTTTTTGCCTTCTGGGATGACCAGCAGAACGGAGGTCGGAAATCGATCCCTTACAACAGTATTTACAAGGAAGGCGTTCGTATTCCTTTTCGTTACCAGGCCCGGATTGATTACGCCGGGGTGTTGGATAAGCTTTATTTCTGA	MNYPNGRRSPSRHAAPQGKTKPEFSNRGMTLEEDINLTNEYYLQAGLAVIHKKPTPVQIVQVDYPKRSAAVIKEAYFKQASTTDYNGVYRGRYIDFEAKETKNKTSFPLSNVHQHQVDHMKAVEKHGGISFFIIKFTPRDEVYLLPSSTLFAFWDDQQNGGRKSIPYNSIYKEGVRIPFRYQARIDYAGVLDKLYF				NA	NA	NA	NA	NA
AK012_00548	2679	ponA	COG0744	Penicillin-binding protein 1A/1B	ATGGCAAACGATAGCCAGTCGCGTACAGCACGACGAAAACAAATGAAATCATCGAAAAAAACCAAAGGAACTTCAAAGTTCAAAAAGGTCTTTATGACCCTTTTAACAATAGGTATCGTCCTGATGATCGGTGTCGGCGCATTATTTACTTATTATGCTGTTTCCGCCCCCGCCCTCGATGAAGAGAAATTATCTGATCCATTTTCTTCGAAAGTCTATGATGATGACGGTGAGCTCGTTGCTGATCTTGCCGGGGATGAAAGGCGCACGAAAATTACGTACGACGATATTCCGGCAGTCCTGGAAGATGCTGTGCTGGCCACAGAAGACGTGCGTTTTTATGACCATATCGGTATCGACTTCCAAAGGATCGGCGGCGCCATCCTGGCCAATATTACAGGTGGATTTGGTGCAGAAGGTGCCAGTACAATCACCCAGCAGGTCGTGAAGGAGTCCTTTCTGACCACCGAAAAAACAATCAAACGAAAAGTCCAGGAGCAGTATCTGGCCATCAAACTGGACCAGGAATATTCCAAAGAAGAAATTCTGGAGATGTACTTGAACAAGATTTACTACGGAGCTGGTTCCTATGGTGTAGCGGAAGCCGCTGAAACCTATTTCGGCAAAAAAGACTTGAGTGAACTTACCCTGCCTGAAGCTGCCTTACTTGCAGGTCTGCCCCAGCGTCCGAGTGGTTATATGCCTTTTGAAAATCCTGATCTGGCCAAAGACAGAATGAATACCGTGTTGAGCTTAATGGTACAGCATGGCAAAATCACAGAAACGGAAGCCGATGAGGCAAGAAGTGTAGAAATCGAAGACATGCTTATCGAAAGACAGCAGGAAGAAGCGACTCCATATCAGGCCTTCATTGACAGAGTAGCAGAAGAAGTCCAGGAGAAAATGGACGGAGCCGATATTTATAAAGACGGTCTGAACATTTACACCACCCTCGACACCGATGCCCAGGATTATGTGCAGCAGCTACTCAGCAATGAAGGATCCATTCCGTGGCCGGATGATGAACTCGAAACCGGAGTGGCCGTGACGGATACAAAGACGGGTGCTGTCAAGGCCATCGGCGGTGGTCGTAACTACCAGAAAGAAGGCTTTAACTTTGCCACGGATATTAATCGTCAGCCGGGCTCCACGTTTAAGCCGATTGCTGCCTACGGACCGGCCATTGAATACAATAAAATTTCCACCTATCATCAACTAAATGATGAAAAAACAGACTTTGGCGACTGGTCGCCGAATAACTTTGATAATCAGTTTAGAGGGTGGGTTTCCGCCCGTTATGCCTTGAGCCGATCCTTGAACATCCCTACCATTAAGCTTCTGCAGGAAGTCGGCGTGGATAAGGCCGAGGGCTTTGCCGAAGGTCTTGGTGTTGACTTCGGTGAAGATGGCATGTCCTTAAACGATGCCATTGGAGGAGGTTCCACCGGAATGAATCCTCTGCAGATGGCAGGCGCTTATGCGGCCTTTGGTAATGAAGGGGTTTATGTCGAGCCTTACACTGTCGAAAGTGTTGAAATTCCAGGGGAAGGCACGATTGACCTAAAACCAGAGCCGAATTCCGCTATGAGCAGTGCGACGGCTTATATGGTTTCCAATATGCTCCAGACTACCATGAGCGAAGGCTCGGGTACCAGCGCCAATGTACCAAGCCTTCCTGAAGCCGGTAAAACCGGAACAACAAACATTGGAGATGTCGCCAACAACTCATGGTTCAGCGGGTATACCACGAATTATTCCATATCGATCTGGACCGGATACGGGGAAGATAATTCCCGCGGCCTTTCTGATGCGGCTAGAAATATTCCCAAGCAGATTTTCAAGCCTTTGATGACACAGATTTCTCAAGGGAAGGATACAGCTGATTTCAAAAAACCTGATTCCGTCGCCTGGGTCGATGTTGAAGAAGGCTCCAACCCTGCCCGTCTTCCGAGTGATTACACGCCGGAGAGCCGGATTGTTACCGAGCTGTTCCTTGCTGACAACCAGCCATCCAAAGTGTCTCAGGTCTTCCAGAAACTTGACCCTGTTCAAAGCTTATCCGGTCAATTCAATGAGGAATCCTCTACGATTGATTTGAGCTGGGATTATGGTAATACCGATGGTGTAACCTTCCGTGTCGCTGCCTCCATTAACGGCAGTGAGAGCAGACAATTAACAACGACAAAAGATACAAGCGTGGAAATCACCAGCATCGATCCTGCAGCCACCTACGAATTCTCCGTCGTTGCCATCAGTGATAATGAACAGGCTGAAAACAGCGATGCTGCCACCGTCCGTGTTCAGACCCCTGGTTCTATTGGAGACGAAGAACAGGAAGAAGAAGAAGAGACGGAGGAATCCGGAGAGAACGAAGAAGGCAGTGAAGAAGAAGCACCTTCTGATGAGCAGTCAGAAGAAGAAACAGAAGAACCTGAAGAGAATTCAGGGAACGAAGAAGGAAACGAGGGGAATAACGAAACCCCTGAACAGGAACAGAATACAGATCAAGATAACGGAAACACCGGAAATGAACAGGATAATGAAGAAAACAACCAGGACAACAACGGTGAAAATTCCGAACAGAATAATGAAGGTGGCAGTTCAGAAGAGCAGCCGCCTCAGGAAGAAACTGATACAGAACTTCAGCAAAATGAAAGTGAAGATCAGGAAGAAGAGTAA	MANDSQSRTARRKQMKSSKKTKGTSKFKKVFMTLLTIGIVLMIGVGALFTYYAVSAPALDEEKLSDPFSSKVYDDDGELVADLAGDERRTKITYDDIPAVLEDAVLATEDVRFYDHIGIDFQRIGGAILANITGGFGAEGASTITQQVVKESFLTTEKTIKRKVQEQYLAIKLDQEYSKEEILEMYLNKIYYGAGSYGVAEAAETYFGKKDLSELTLPEAALLAGLPQRPSGYMPFENPDLAKDRMNTVLSLMVQHGKITETEADEARSVEIEDMLIERQQEEATPYQAFIDRVAEEVQEKMDGADIYKDGLNIYTTLDTDAQDYVQQLLSNEGSIPWPDDELETGVAVTDTKTGAVKAIGGGRNYQKEGFNFATDINRQPGSTFKPIAAYGPAIEYNKISTYHQLNDEKTDFGDWSPNNFDNQFRGWVSARYALSRSLNIPTIKLLQEVGVDKAEGFAEGLGVDFGEDGMSLNDAIGGGSTGMNPLQMAGAYAAFGNEGVYVEPYTVESVEIPGEGTIDLKPEPNSAMSSATAYMVSNMLQTTMSEGSGTSANVPSLPEAGKTGTTNIGDVANNSWFSGYTTNYSISIWTGYGEDNSRGLSDAARNIPKQIFKPLMTQISQGKDTADFKKPDSVAWVDVEEGSNPARLPSDYTPESRIVTELFLADNQPSKVSQVFQKLDPVQSLSGQFNEESSTIDLSWDYGNTDGVTFRVAASINGSESRQLTTTKDTSVEITSIDPAATYEFSVVAISDNEQAENSDAATVRVQTPGSIGDEEQEEEEETEESGENEEGSEEEAPSDEQSEEETEEPEENSGNEEGNEGNNETPEQEQNTDQDNGNTGNEQDNEENNQDNNGENSEQNNEGGSSEEQPPQEETDTELQQNESEDQEEE	PGPT0023875_397	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023875-mrcA-K05366	NA	NA
AK012_00549	612	nth	COG0177	Endonuclease III	ATGTATCCGGATGCAGAATGTGAACTCAATCATACCAACCCATTTGAACTTCTCGTAGCTGTCGTATTATCTGCACAAGCGACGGATGCGCTGGTGAACAAGGTAACGCCGGATTTATTTGCTAAGTATAAACGCCCGGAAGATTATGTGAATGTACCACTTGAAGAACTGCAGAACGACATCAAGCGGATCGGACTATTCCGTAACAAAGCCAAAAATATTAAAAAGCTGTCAGAAACCCTGCTTGAAAAGTATGATGGTGAAGTACCCCCTACGAAAGAACAATTGGAAAGTCTCGCCGGGGTAGGGAGGAAAACGGCAAATGTTGTCGCCTCTGTCGCCTTTGATGAACCAGCTATTGCCGTAGACACCCATGTGGAACGCGTTTCTAAACGCCTTGGCATCTGCCGTTGGAAGGATTCTGTTCTTGAAGTAGAAAAAACATTGATGCGTAAAGTGCCCGTCGACGAGTGGAGCGTTACCCATCACCGGATGATTTTTTTCGGACGCTATCACTGTAAAGCCCAGCGCCCCAGCTGTGAAGAATGCCCATTGCTTTCTTTATGCAGAGAAGGTCAGAAACGGATGAAAAAGAAAGAGAAAACTTCATAA	MYPDAECELNHTNPFELLVAVVLSAQATDALVNKVTPDLFAKYKRPEDYVNVPLEELQNDIKRIGLFRNKAKNIKKLSETLLEKYDGEVPPTKEQLESLAGVGRKTANVVASVAFDEPAIAVDTHVERVSKRLGICRWKDSVLEVEKTLMRKVPVDEWSVTHHRMIFFGRYHCKAQRPSCEECPLLSLCREGQKRMKKKEKTS	PGPT0013735_3058	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013735-nth-K10773	NA	NA
AK012_00550	696	dnaD	COG3935	DNA replication protein DnaD	TTGGGAAAATACCAAAGCTTTCAAGACATCCTTGATAACCAAATTGTCGTTCCCAAACAGCTGCTGATGCATTATCACCAGTTGAATATGAATGAAACTGAATTGGTTGTCCTTCTGCAGATCCACAGGTTCGGAACAGAAGGGAATGATTTTCCGACACCTGAAGAAATCGCAGAGCATTTATCCATTACAAGTCAGGACTGTTCAAGGGTGCTGCGCAGCCTTATTCAAAAACGATTGATGACCATTGAGCAGAACCATAATGAACAACAGGTGCTCAATGAGCGTTATTCTCTTGAACCCTTATGGGAGAAATTGTTCACTGTGAATGCGGGGCGTCCTCAAAAAGAGACGAATTACGATGATAATATTTTCCCTTTATTTGAACAGGAATTCGGGCGCCCTTTATCACCATTTGAAATTGAAACCATCAATATTTGGCTGGATGAAGAAGAGCAGTCACCGGCTCTAATTAAAGCGGCATTAAGAGAAGCTGTATTAATGAGCAAGCTTAACTTTAAATATATCGACCGTATCCTCAGGGAGTGGAAGAAAAAAGGAATCCGCACGGTGGAGCAGGCCAGGGAACAGGGGAGACAGTTCCGGCAGGGCCAGCCGTCGCAGCGGACCCAGAAGCAGGAAAGAAAAAAGAGGGACATTTCTCTTTATTACAACTGGCTGGAGGAGGATTCATAA	MGKYQSFQDILDNQIVVPKQLLMHYHQLNMNETELVVLLQIHRFGTEGNDFPTPEEIAEHLSITSQDCSRVLRSLIQKRLMTIEQNHNEQQVLNERYSLEPLWEKLFTVNAGRPQKETNYDDNIFPLFEQEFGRPLSPFEIETINIWLDEEEQSPALIKAALREAVLMSKLNFKYIDRILREWKKKGIRTVEQAREQGRQFRQGQPSQRTQKQERKKRDISLYYNWLEEDS				NA	NA	NA	NA	NA
AK012_00551	1293	asnS		Asparagine--tRNA ligase	GTGAAAACAACGATTTCAGAAGCAGCAAAACATATTGGCGAGGAAGTGACGATTGGAGGCTGGCTCAGCAATAAGCGCTCCAGCGGAAAGATCGCTTTTCTGCAGCTCCGTGACGGAACAGGGTTTATGCAGGGCATTGTCGTAAAAGCTGACATCGGTGAGGAGAAGTTCCAGGAAGCCAAAGGGCTTACACAGGAAACGTCCCTCTATGTGACCGGTGTTATTGCTGAGGACACAAGGTCCCCCCTCGGCTACGAAATGCAGGTGAAAGGATTCGAAGTGATTCAGGAAGCGGTGGATTACCCGATTACACCGAAGGAACACGGAACAGAGTTCCTTATGGATCACCGCCACCTGTGGCTGCGTTCCAAGCGTCAGCATGCGGTAATGAAAGTGCGGAACGAAATCATTCGTGCAACGTATGAATTTTTCAATACAAACGGGTATGTAAAAATTGACCCGCCAATCCTTACCGGTTCTTCAGCAGAAGGATCTACAGAACTGTTCCATACGAAGTACTTCGAAGAGGATGCGTACCTTTCTCAAAGTGGACAGCTTTATATGGAAGCGGCGGCCATGGCATTCGGGCGCGTCTTCAGCTTTGGACCGACGTTCCGTGCGGAAAAATCTAAAACACGACGTCACTTGATTGAGTTCTGGATGATTGAGCCGGAGATGGCCTTTATGGATCATGAGGACAGCCTGGAAGTCCAGGAACAATATGTCAGCCATGTGGTCCAGTCCGTGTTGGAAAACTGTAGAATCGAGCTGGATACACTTGGCCGTGACACAGAAAAGCTTGAGAAAATCAAAGCTCCGTTCCCTAGAATCAGCTATGATGATGCAGTAACTCTGTTGAAAGAAAAAGGCTTTGATGATATTGAGTGGGGAGAAGATTTTGGTGCTCCGCATGAAACGGCGATTGCGGAAGCTTATGACAAACCGGTATTCATTACGAATTACCCGGCAGAGATCAAAGCGTTTTACATGAAACCGGATCCTGAACGACCGGAAGTGGTATTGTGTGCGGATATGATTGCGCCTGAAGGATATGGCGAAATCATCGGCGGGTCTCAGCGTATCGATGACCTTGAACTGATGAAACAACGTTATGAAGAACACGGCCTTTCCGGAGATGCCTATAAGTGGTACCTGCAGCTTCGTGAATATGGCAGCGTTCCGCACTCAGGATTTGGACTGGGCTTGGAGCGTACAGTCGCCTGGATCGCAGGTGTCGAGCACGTACGTGAAACCATTCCATTCCCTCGTCTGCTTAACCGCCTGTATCCATGA	MKTTISEAAKHIGEEVTIGGWLSNKRSSGKIAFLQLRDGTGFMQGIVVKADIGEEKFQEAKGLTQETSLYVTGVIAEDTRSPLGYEMQVKGFEVIQEAVDYPITPKEHGTEFLMDHRHLWLRSKRQHAVMKVRNEIIRATYEFFNTNGYVKIDPPILTGSSAEGSTELFHTKYFEEDAYLSQSGQLYMEAAAMAFGRVFSFGPTFRAEKSKTRRHLIEFWMIEPEMAFMDHEDSLEVQEQYVSHVVQSVLENCRIELDTLGRDTEKLEKIKAPFPRISYDDAVTLLKEKGFDDIEWGEDFGAPHETAIAEAYDKPVFITNYPAEIKAFYMKPDPERPEVVLCADMIAPEGYGEIIGGSQRIDDLELMKQRYEEHGLSGDAYKWYLQLREYGSVPHSGFGLGLERTVAWIAGVEHVRETIPFPRLLNRLYP				NA	NA	NA	NA	NA
AK012_00552	1185			Aspartate aminotransferase	ATGAAGTTAGCAGAACGCGTACAATCATTAACACCATCCACTACACTTGCGATTACAGCCAAGGCGAAAGCGCTGAAGGCAGAGGGGCACGATGTGATCGGCCTTGGAGCGGGAGAACCGGATTTCAATACTCCTTCTTATATTTTAGATGCTGCTAAACAGGCCATGGATGAAGGGTTGACAAAATACACCCCGGCCGGTGGAATTCCTGAATTGAAAGTAAGTATTACAGAGAAGTTGAAACGTGATCAGCAGCTGACGTATTCCAATGAACAAATCATTGTTACAACTGGTGCCAAGCATGCCCTGTTCACGCTTTTCCAGGTTATTCTGAATCCAGGTGATGAAGTGATCGTTCCTGCTCCATACTGGGTCAGCTATCCGGAGCAGATCAAACTGGCCCAGGGAAACCCGGTCATTGTTCCCGCTGAAGAAGCCAATCACTTTAAATTAACACCTGAGCAGCTGAAAGCATCGATTACAGACCAGACCAAAGCGGTGATTATTAATTCACCGAGTAACCCAACAGGCATGATGTATTCTGAAGAAGAACTGAAGGCTCTTGGAGATATTTGTCTTGAGCACGGGCTGTTAATCGTATCGGACGAAATTTATGAAAAATTAATTTATACCGAAGAAGAGCATGTTTCCATTGCGCAGCTTTCCGATGAATTATACAATCAGACAGTGATCATCAATGGTGTATCCAAATCCCATTCCATGACAGGCTGGAGAATCGGATTTGCGGCAGGACCTAAGGAAATTATTAAAGGGATGACCAACATGGCTTCCCATTCCACCTCGAACCCAACTTCCATTGCCCAGTATGCAGCGCTTGCCGCTTATCAAGGCTCGGAAGAAAAAGTGGAAGAAATGAAAAAAGCATTTAAGGAAAGGCTGGACGTTCTCCATAAGCTTCTTCTGGAGATCCCTGGAGTCAAGTGTGCCAAGCCTTCCGGTGCTTTCTACTTATTCCCGAACGTGATCGAAACAGCTTCTCTATGCGGCTTTTCATCTGTGGATGACTTGGTGAAGGCTCTATTGGATGAGGAAAAAGTCGCTTTGGTTCCCGGCTCTGGATTTGGAAGCCCGGAAAACGTGAGACTATCCTATGCAACGTCTCTGGAGCAGCTGGAGGAAGCAGCCGGGCGTATCAGAAGATTTGTCGAAAAACATCAATCATAA	MKLAERVQSLTPSTTLAITAKAKALKAEGHDVIGLGAGEPDFNTPSYILDAAKQAMDEGLTKYTPAGGIPELKVSITEKLKRDQQLTYSNEQIIVTTGAKHALFTLFQVILNPGDEVIVPAPYWVSYPEQIKLAQGNPVIVPAEEANHFKLTPEQLKASITDQTKAVIINSPSNPTGMMYSEEELKALGDICLEHGLLIVSDEIYEKLIYTEEEHVSIAQLSDELYNQTVIINGVSKSHSMTGWRIGFAAGPKEIIKGMTNMASHSTSNPTSIAQYAALAAYQGSEEKVEEMKKAFKERLDVLHKLLLEIPGVKCAKPSGAFYLFPNVIETASLCGFSSVDDLVKALLDEEKVALVPGSGFGSPENVRLSYATSLEQLEEAAGRIRRFVEKHQS	PGPT0020110_3412	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020110-aspB-K00812	NA	NA
AK012_00553	537			hypothetical protein	ATGATGACGATGCTGAAACCGCAGTCTTCACCATATACCGTACCTAGATGGCTGAAATGGGGAGGCGGTATCCTCGCCGGTCTTGTCCTGCTTTTTCTTATTTTTTTCATCTGGATGTATACACAAATTAATCAGGACAGAACGAGCGGACACGATGAGGCTGCAGACTTTGCTGTCCAGGAAACGAATCTGTCATCTGTGGAGCAGATTGAAACGTACAATGGGGAAACAGAAGTATTTGTTGTAAAAGGGAAAGCGTCCGACGGGGAAACCTCGCTCGTTTTCATCAATGAAGCAGTCGATACGGTTTTAACCGCTGTGAAGCAAGCTGAAATTCTGTCACAAGAGCAGCTGATCAGCAGGTGGTCATCCAGTTGTTCTGACTGCCGTTTCAAGGATATTTCCTATGGTTATGAAGAGGAGCAGCCTGTCTATGAGCTTGTATATATAGATGAGCAGGGCAGATATGTGCTCGATTATTTTACATTAAGCGGAGAATCCTTTGATCAGAGGTTTGCCTTCCGACAAAACAATTAA	MMTMLKPQSSPYTVPRWLKWGGGILAGLVLLFLIFFIWMYTQINQDRTSGHDEAADFAVQETNLSSVEQIETYNGETEVFVVKGKASDGETSLVFINEAVDTVLTAVKQAEILSQEQLISRWSSSCSDCRFKDISYGYEEEQPVYELVYIDEQGRYVLDYFTLSGESFDQRFAFRQNN				NA	NA	NA	NA	NA
AK012_00554	171			hypothetical protein	ATGGAAAACAAAATAGAAACTTTATCAACGGTCAAAATCAAGAAGACAGATGACCTCTATAAAGTGGTGGACACATTGAATCGTACATTGAAAGAAGATAATCTCATGTTTGGAATGGCGCTGGATGATGACGATGCTGAAACCGCAGTCTTCACCATATACCGTACCTAG	MENKIETLSTVKIKKTDDLYKVVDTLNRTLKEDNLMFGMALDDDDAETAVFTIYRT				NA	NA	NA	NA	NA
AK012_00555	2808	dinG_2		3'-5' exonuclease DinG	ATGACAACATTTGCAATCGTAGATTTAGAAACAACGGGAAACGCATCACCAAAAGGAGACCGGATTATTGAAATCGGAATCGTTCTTATGAATGAGGAAGGTTCCGTGATTCGTGAGTTCTCTTCTTTGATCTATCCGGAAAGAGAGATTCCGCCTTTTATTACGTCTCTGACCGGGATTGATGAAGAGGATGTCATGGATGCGCCACTGTTTTCCGAAATAGCTGAAGACATTCATCCATTATTCAAAGATGCTTATATCGTGGCGCACAATATCGAATTTGATCTTGGTTTCTTAAATGATGAACTGCAGAGATGCGGATTCCCACGCTTACATAATCCCATCATTGATACAGTAGAACTGGCCAGAATCATGCTGCCGACATCTTCAGCCTTTAAACTCGGTCATCTCGCCGAAAAGCTGGATATGGGTCACGACCGGCCGCACAGAGCCCTGTCGGATGCCCAGGTCACTGCCGACTTGCTGCAGCACCTGCTGAATCAGCTTGGAGTTCTTCCGGAAAGAACACTGAGCCAGCTGTTGAAAATCGAGGCTAAGCTGAAAAGTGATCTAAGGCCCTTTATAGAAACCGCGATAAAAGAAGCAAGGTATCGAAACCAAAAAGACCCTGATATCGAAATCTTGTACGGGATCGCTGTTCGGAGCCGCCGCCCGGATCAGACAAGCTCCTCTTCCACCTTTTCATTCCCTCCCTTTGACCAATGGAATAAAGAGGTATATGAAGGGGAAAACGGATTGAAGTCGATCGTCCCGGAGTATGAAATCAGGAAAGGACAGCAGGAGATGACGTCCCGGGTTCATCAGGCACTGGAGGAGGAACGTCATGCAGTGATTGAAGCGGGGGCAGGTACGGGCAAATCTGCAGCCTATCTTCTTCCTGCTGTCTATCGGGCTGTAAAAAATGGAGAACGGATTTTAGTAACGACTCATACCAACAGTCTGCAGAAACAGCTTCTTGAAGAAGAGATTCCGAAAATTGAACGGATGTTTCCCAGGCCGATCCGTGCGGTTTTATATAAAGGAAAAGGGCATTACATCAGTTTGATTCACTTTCAATATGAACTTGAACGGAGCTATCAGGATAATTATGATACCGCACTGACGAAAGCGATGATTCTCGTCTGGCTCACCAGAACGAGGACAGGCGACATCGATGAAGTTCAGCTGCCCTCCAACGGCCGTCAGTTCTGGCATAAAGTCTCTGCCGAACAGTCATCTAAAACAGAACAGCTGGGATATACCGATGATTCCTTTTTTCAGTGGGCGTTAAAAAGAGCGGAGCAGGCTGATATTATCATTACAAACCATGCCTTGTTCTGCCTGGATATCATCAAGGAAAAAACATCGCTTCCTTCCTATGACCGTGCGGTTGTGGATGAGGCTCACCACCTGGAAGCTGTAGCCGGAAGGTATTTCGGCTTAAGGATGAACTACAGGGACCTTCAGAGGTATTTAACCCAGACGACAGAGCTTGCCCAGAAAAGCCTGTACAAGGAATGGTCCCTGCCTCAGTCCTTTTACAACCATCTGCAGAAGCTGCAAAAGGCTGTGGATGAAGCCAAGGAAGAGCTCAGTCAGTTTTCCAGATACATCTATCAGCATGTGAAAAAGCAGCGGCCGTCCAACAGAGGGAAAAGTGATGTGGGGAGAACCCAGCTGATCCTTCAAAAAGAGACGTCGGCCTCGTTCATTCGAAGTGCACAGGAAATGTCCCACCGCTTTTTGTCTGCTGTATTTGTCATGACTGAGCAGATGACATCAATGCAGAATGAACTGCAGATTCTCCTCACTTTAAAGGAGGATCACGGCATTCCTATACTTCTTTCCAGAATTCATACACAAAAGGATGTCTGTCTGGATATCCGCAGACAGATGGTGGACTACTTTGATATTCAAGATGATGAAAGCGCCCGTTGGATAGAGATAGAAGGAGAGGGAGCAGCCAACTCCATCTATTTATACAGTGAGCCATTAAACACACCTGATATTTTAAAGGAACGGCTTTTCGATATGAAGAAGAGCGTCGTGCTCACCAGTGCCACACTTACAACCGGAGATTCCTTTAAATACGTTCGTCATTCGCTGGGGCTTGGAAATGAACCAAAGGTGATTGAGACCTCGATCCCCTCACCTTATCCTTTCCATGAACAAGTGCAGCTGTTGGTTCCTGACGATTTTCCTGATATTAAAAATGCTCCGGACACATTCATTGAAGCACTTAGTGAAGCGATTTATTCCACTGCCCACGTCACAAACGGGCGCATGATGGTTCTTTTCACTTCATACGATATGCTCCGACGGACGTACAGTCTTTTAAAAGAATTCATTGATCCTGAAGAATTTATGATTTTTGCCCAAGGGATTTCCAGTGGGAGCAGGGACCGTTTGAAGAAGAACTTCCAGGCTTTTGACCAGGCCATCCTACTCGGTACAAGTTCGTTTTGGGAAGGTGTCGACATTCCCGGGGATGATTTATCATGTCTGATGATGGTCCGTCTTCCATTTGCTCCGCCCGACCAGCCTGTCCAGAAGTCGATGGATCAACGCCTGAAACAGGAAGGGAAGAATGCGTTCATGGAGAAGTCCCTCCCGCAGGCCATTATCCGATTCAAGCAGGGCTTCGGCCGGCTGATCAGGAGCAGCAGTGACCGCGGTGTCGTGATCGTATGTGACCAGCGTCTGATGGAGGCAAAATACGGGAAGCATTTCTTATCATCACTTCCGGACATCCCGGTCGTTTATGACTCCACCAAAAAACTTATGGACCGGATTGAAAACTGGCTGTAA	MTTFAIVDLETTGNASPKGDRIIEIGIVLMNEEGSVIREFSSLIYPEREIPPFITSLTGIDEEDVMDAPLFSEIAEDIHPLFKDAYIVAHNIEFDLGFLNDELQRCGFPRLHNPIIDTVELARIMLPTSSAFKLGHLAEKLDMGHDRPHRALSDAQVTADLLQHLLNQLGVLPERTLSQLLKIEAKLKSDLRPFIETAIKEARYRNQKDPDIEILYGIAVRSRRPDQTSSSSTFSFPPFDQWNKEVYEGENGLKSIVPEYEIRKGQQEMTSRVHQALEEERHAVIEAGAGTGKSAAYLLPAVYRAVKNGERILVTTHTNSLQKQLLEEEIPKIERMFPRPIRAVLYKGKGHYISLIHFQYELERSYQDNYDTALTKAMILVWLTRTRTGDIDEVQLPSNGRQFWHKVSAEQSSKTEQLGYTDDSFFQWALKRAEQADIIITNHALFCLDIIKEKTSLPSYDRAVVDEAHHLEAVAGRYFGLRMNYRDLQRYLTQTTELAQKSLYKEWSLPQSFYNHLQKLQKAVDEAKEELSQFSRYIYQHVKKQRPSNRGKSDVGRTQLILQKETSASFIRSAQEMSHRFLSAVFVMTEQMTSMQNELQILLTLKEDHGIPILLSRIHTQKDVCLDIRRQMVDYFDIQDDESARWIEIEGEGAANSIYLYSEPLNTPDILKERLFDMKKSVVLTSATLTTGDSFKYVRHSLGLGNEPKVIETSIPSPYPFHEQVQLLVPDDFPDIKNAPDTFIEALSEAIYSTAHVTNGRMMVLFTSYDMLRRTYSLLKEFIDPEEFMIFAQGISSGSRDRLKKNFQAFDQAILLGTSSFWEGVDIPGDDLSCLMMVRLPFAPPDQPVQKSMDQRLKQEGKNAFMEKSLPQAIIRFKQGFGRLIRSSSDRGVVIVCDQRLMEAKYGKHFLSSLPDIPVVYDSTKKLMDRIENWL				NA	NA	NA	NA	NA
AK012_00556	390	panD	COG0853	Aspartate 1-decarboxylase	ATGTTCCGCACGATGATGAAATCAAAAATTCATCGCGCCCGTGTTACGGAAGCGAATTTAAACTATGTGGGAAGTATTACGATCGATCAGGATATTCTGGATCAAACCGGCATTCTGCCACATGAGAAAGTTCAGGTCGTCAATAATAACAATGGGGCGAGACTGGAGACGTACGTCATTGCCGGGGAGAGAGGCAGCGGGGTTGTCTGCCTGAACGGCGCAGCTGCCCGCCTTGTGCAGCCGGATGATGTTGTGATTATTGTAGCTTATGCCATGCTCAGCGAGGAAGAGCTCGATGAATTTCGTCCGAAAATTGCACTTATGAATGAACGAAATCAAGTCGAGGAAATGATCGAGGAAGAGCCGCCTTTATCAACTCTTCCACTTTAA	MFRTMMKSKIHRARVTEANLNYVGSITIDQDILDQTGILPHEKVQVVNNNNGARLETYVIAGERGSGVVCLNGAAARLVQPDDVVIIVAYAMLSEEELDEFRPKIALMNERNQVEEMIEEEPPLSTLPL	PGPT0008890_802	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0008890-panD-K01579	NA	NA
AK012_00557	873	panC	COG0414	Pantothenate synthetase	TTGGAAATGGATGTATTAGGAAACATTGGTGAGGTACAGCAGCATGTGAAGCGGGTGAAAATGGAAGGTAGATCTGTCGGGTTCGTCCCAACGATGGGCTATCTTCATGAAGGTCACTTGAAGTTGATCGAGACCGCGCGCAGGGAAAACGATGTTGTCATTTTAAGTATTTTTGTGAATCCCCTGCAGTTTGGAGAGGGGGAAGACCTGGATACATATCCGCGTGATGAAGAGCGGGACAGGAAACTGGCCGAAGAATATGGAGTGGATGTCTTGTTTTTTCCAACTACAGAAATGATGTATCCAGAGCCTATGTCGATTCGGATGTCTGTCACAAAAAGGACAGATGTATTGTGTGGAAAAAGCCGGCCGGGACACTTTGACGGGGTGGCCGCTGTTTTAACTAAACTATTCAATATCGTCATGCCTGACCAGGCTTATTTCGGAATGAAAGATGCCCAGCAGGTCGCTGTCGTTGATGCGCTGATCAATGATTTCAATTTTGATATTAAACTTGTTCCGGTAGCTACGGTGCGGGAGGAAGATGGTCTGGCTAAAAGCAGCCGGAACGTTCATCTCTCTTCCAAGGAAAGAGATGAAGCACCAGCCATTCAGGAATCCCTGCAGGCCGGCAGGCAGATGGTGATGGCAGGAGAGAAAAATCCGGACCGTATTATCGAATCGGTTACAAAGTTTCTCGAAAGCAGAACTCATGGTAGAATAGATTATATTGAATTACTATCTTATCCTGAATTAACTTCTGTGGACGTCATAGACAGGCCTGTTATTCTGGCTGCCGCTGTTTTTTACGAAAAGGCCAGGCTCATTGATAATGTGGTTTTTGACACGGACGGAAAGATAACAACAGGATGA	MEMDVLGNIGEVQQHVKRVKMEGRSVGFVPTMGYLHEGHLKLIETARRENDVVILSIFVNPLQFGEGEDLDTYPRDEERDRKLAEEYGVDVLFFPTTEMMYPEPMSIRMSVTKRTDVLCGKSRPGHFDGVAAVLTKLFNIVMPDQAYFGMKDAQQVAVVDALINDFNFDIKLVPVATVREEDGLAKSSRNVHLSSKERDEAPAIQESLQAGRQMVMAGEKNPDRIIESVTKFLESRTHGRIDYIELLSYPELTSVDVIDRPVILAAAVFYEKARLIDNVVFDTDGKITTG	PGPT0008750_1183	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
AK012_00558	822	panB		3-methyl-2-oxobutanoate hydroxymethyltransferase	TTGCTTAATAAGCAGCAGTTCCTTCAGATGAAACAGGACAGGCAGAAAATAGCAATGGTGACAAGCTATGATTATCCTTCAGCAAAAATGGCAGAAGCTGCAGGAGTCGATATAATTTTGGTTGGTGACAGTCTTGGCATGACAGTGCTCGGATACGATTCTACCATTCCTGTAACTATAGAAGATATGATCCACCACGGGAAAGCGGTCCACCGCGGCGCCGGAAACACCTTCAAAGTCGTGGATATGCCGTTTATGTCTTATCACATTTCAACAGCCGAAACTCTCAGCAATGCCAGGAGGCTTTACCAGGAAACAGGGGCACAGGCTTTGAAGCTGGAAGGGAGCGGAGACGTATCCCTTGCGATGGCAAAGCTTGTCCAAGCTGGTATTCCTGTTGTCGGACATATCGGACTGACCCCACAGTCGGTCAATGTGCTGGGAGGATATAAAGTGCAGGGAAAAGATAAAGAGACCGCAGCCAGACTCCTGGAGGAGGCACTGGAAATTGAAAAGGCCGGGGCCATGATGCTTGTACTGGAATGTGTCCCCCGTCAACTGGCCTCCTTCATTACCGAGCAGCTTTCAATTCCCACCATCGGCATCGGTGCCGGCGCAGACTGTGATGGTCAGGTCCTTGTCTATCACGATATTCTTAACTACGGGGTGGGACGTCTCCCTAAATTTGTTAAGAAGTATACAGATGGAAATCAAATTCTTGGAGACGGAATCACCCGGTATGTGCAGGATGTTAAAAGCGGAGAATTTCCAGAGGAAAAGCATACGTTTACAATGAACTTGTCGGGTCTTCCAAAGGAGTAA	MLNKQQFLQMKQDRQKIAMVTSYDYPSAKMAEAAGVDIILVGDSLGMTVLGYDSTIPVTIEDMIHHGKAVHRGAGNTFKVVDMPFMSYHISTAETLSNARRLYQETGAQALKLEGSGDVSLAMAKLVQAGIPVVGHIGLTPQSVNVLGGYKVQGKDKETAARLLEEALEIEKAGAMMLVLECVPRQLASFITEQLSIPTIGIGAGADCDGQVLVYHDILNYGVGRLPKFVKKYTDGNQILGDGITRYVQDVKSGEFPEEKHTFTMNLSGLPKE	PGPT0008740_2192	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
AK012_00559	993	birA	COG0340	Bifunctional ligase/repressor BirA	ATGGAATCCACCCGGAAACAATTGATTGAATTATTAACGAAGCAGGATGGTCATATATCCGGTCAGCAGTTATCACAACAGCTGAACATTTCAAGGACCGCTGTCTGGAAGCATATGAATGAACTGAAAAAAGACGGTTATGAAATAGAAGCAGTTCAGCGGAAAGGGTATAAAATCCACTCTTTTCCTGATAAAATCAGCGAAAACACGCTGCAGTGGGGACTGGAAACCCGGTGGATGGGACAGCAGCTGTACCATTACGACCAGGTTGACTCCACCCAGGAAATCGTCCATCAGATGGCCAAGCAGGGAAAGCCTCATGGAACCGTGGTAGTAGCCGATGAACAGATTGGCGGAAAAGGGCGGATGGCCCGGACGTGGGACTCGCCGAAAGGGAAGGGCATTTGGATGAGTTTCCTTCTAAAGCCGGACCTTCCACCTGTTGAAGCACCGCAGCTGACCCTTCTTGCTGCGACTGTCATTGCTAAAATGATTGATGAACGCTCCGATCTTTCGCCGCAGATCAAATGGCCGAACGATGTGCTGATTCATCATAAGAAGGTCTCAGGGATTCTTACTGAGATGCAGGCAGAACAGGATACAATCCAGTACATTGTGCTCGGTATCGGTATGAACGTCAATCAGGAGGAGGAAGATATTCCTTCTGACATCCGTTATAAAGCCTCTTCCTTTAAGATTGAGTCCGGCCGGGAGTGGAATATACAAAAAACGATTCAGCACTTTCTCACATTATTCGAGGCTTCCTATGACCAGTTCATCCGTGAAGGCTTTCAATCTGTGAAGGAAGACTGGGAGACATACGGGTATAGGATTGGAGAGAACGTCACAATTTCTACAATGAAGGAAACTTGGGAAGCGACGCTGCTGGGCATCGAGCCGGATGGTGCTCTGCGTGCCCGCAGAACTACAGGCGAAGAGCAGAAATTGTATTCTGCTGAAATTCATTGGGGAGAAGGTGGATATCTTGCTTAA	MESTRKQLIELLTKQDGHISGQQLSQQLNISRTAVWKHMNELKKDGYEIEAVQRKGYKIHSFPDKISENTLQWGLETRWMGQQLYHYDQVDSTQEIVHQMAKQGKPHGTVVVADEQIGGKGRMARTWDSPKGKGIWMSFLLKPDLPPVEAPQLTLLAATVIAKMIDERSDLSPQIKWPNDVLIHHKKVSGILTEMQAEQDTIQYIVLGIGMNVNQEEEDIPSDIRYKASSFKIESGREWNIQKTIQHFLTLFEASYDQFIREGFQSVKEDWETYGYRIGENVTISTMKETWEATLLGIEPDGALRARRTTGEEQKLYSAEIHWGEGGYLA	PGPT0022055_377	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
AK012_00560	1200	cca		CCA-adding enzyme	ATGAAGCCTGATCCTCTTTTTGAACAAGCTTTTGAGGTGATGCGGAAGATTGAGGAAGCTGGAGGGGAAGCTTATATTGCAGGCGGAGCTGTGAGAGATTATGTGAGTGGAAGAGCGGTCGGAGACATTGATATCGCTTCTTCCCTTCCTCCTTCGCGGATCCAGGAAATCTTTGAAAAGGTTATCCCTGTCGGTATTGAGCATGGCACAGTCATCGTGAGACACCGTTCCGTATCCTATGAGGTGACGACTTTCCGGACGGAATCCGGATACGAGGATTACAGGCATCCGGATGAAGTGACATTTGTCTCTGACATTCGCACGGATCTTGCCCGGCGGGACTTTACGATGAATGCGATGGCTATGGACAGACACGGAAAAATCATTGACCCTTTTAATGGGAAGGAAGCAATCCAGCTTCAACAGATCGAAGCGGTCGGCGATCCCTATGACCGGTTTCAGGAAGATCCTTTACGAATGATGCGTGCTGTCCGTTTTTCAAGTCAGCTTTGTTTCGAAGTAGCAGGAAAAACAAAAGAAGCGCTGGTTCAGCAGGCTCCGCTCTTAGCAAATATATCGATGGAAAGGATCGCCGATGAAACACGTAAAGCTTTTGCTGGGAACGGGGTTAGAAAAGCGGTGGAGCTTCTTGATAAAACCGGTCTGCTTCAACAACTCCCTTCGCTGAATGAAACAGGGATCCAAAGGACCCCGCCGCTTGGTCCGTTGAAAACATGGCCGGAAATTGTCAGTTTCCTCTGGCTTAAGGATCCATCCTTTTCGGTTTCTCCATTTCTTAAAACATGGAAACGTTCGAATCAGGAAAAAAGAGAGACGGATCAATTGAAGGAAGCCTTTACGTTGTTTACCGCTTCCGGTGACGTGACACGATGGCTGGCCTACACTCTGTCGGAACCTTTATACCGCTCTTTTGCCCGTGTGGCAGAAGCAGCAGGTTCAGCCCCGGGGACAATGGAGCGTCTTGTGAATCAGAAAAATCAACTACCTATAAAGGATAGAAAAGACCTGTCATTTGAGTCCGTGGACTTGATTGCTATGTTCCCTGACAAAAAGAAAGGACCCTGGATATCCAAAACGATGAAAGCCATCGAGCGGCACGTCGTTGAGGGGATGCTTGAGAACGATTATGAAAAAATAAAGGAGTGGGTCATCACATGGAATCCACCCGGAAACAATTGA	MKPDPLFEQAFEVMRKIEEAGGEAYIAGGAVRDYVSGRAVGDIDIASSLPPSRIQEIFEKVIPVGIEHGTVIVRHRSVSYEVTTFRTESGYEDYRHPDEVTFVSDIRTDLARRDFTMNAMAMDRHGKIIDPFNGKEAIQLQQIEAVGDPYDRFQEDPLRMMRAVRFSSQLCFEVAGKTKEALVQQAPLLANISMERIADETRKAFAGNGVRKAVELLDKTGLLQQLPSLNETGIQRTPPLGPLKTWPEIVSFLWLKDPSFSVSPFLKTWKRSNQEKRETDQLKEAFTLFTASGDVTRWLAYTLSEPLYRSFARVAEAAGSAPGTMERLVNQKNQLPIKDRKDLSFESVDLIAMFPDKKKGPWISKTMKAIERHVVEGMLENDYEKIKEWVITWNPPGNN				NA	NA	NA	NA	NA
AK012_00561	1131	bshA	COG0438	N-acetyl-alpha-D-glucosaminyl L-malate synthase	ATGGCTAAAATAGGAATCACCTGCTATCCGACAGTCGGAGGATCAGGTGTCATCGCAACAGAATTGGGAAAGCTGCTGGCTGAAAATGGACATGAAATCCATTTTGTTGCCTCACAGGTACCTTTCCGGCTGAACCGGGTGTATCCGAATATTTATTATCACGAGGTGGAAGTCAGCAGCTATCCTGTCTTTCAGCATCCACCGTATGACTTGGCATTAGCGGCTAAAATGGCGGATGTCATCAATCGGGAAGAGCTGGATATTCTTCATGTGCACTATGCGATGCCGCATGCGGTCTGTGCTATTTTAGCCAAGCAGATGTGTAATCGCGATGTGAAAATTATAACAACGCTTCACGGGACGGATATTACGGTGCTGGGCATCGATACGAGCCTTCAGGAAATGATCAAATTCGGTATTGAGCAGTCGGACCGTGTCACCGCTGTGTCCCACAGTCTGGTAGGTCAGACGCAGGAAATGCTACATACAAATCGTTCCATAGATGTGATTTACAATTTCGTGGACGAAAGGGAGTATTACCGAAAGTCGAACCAGCACTTGAAAGACCACTATGGCATACGTGATGAGGATGCTGTCCTGATTCACATATCCAATTTCAGGAAAGTGAAACGGGTCCCTGATGTCATCCAGACATTTGCCAGAGTCAGGTCCGAAAGGCCGGCGAAACTTCTTCTGGTTGGCGACGGCCCTGAGTATTCCGCCTGCTATCAGCTTGTGCAGGACCTGGGTCTGGAAGAGGATGTGTTATTCCTGGGAAAACAGGAAAACGTCAGTGATCTTCTTTCCATTGCCGACCTCAAGCTCCTCTTATCCGAAAAAGAGAGCTTTGGGCTGGTTCTTCTTGAGGCTATGGCGTGCGGGGTGCCGTCGATCGGATCGAATATCGGAGGTATTCCGGAAGTGATCGATCATGGTGAAACGGGCTATATCGCTGAGCTGGGGAATATTGAACAGACGGCTTATTTTGCCAACAGAATCCTTTCTGATCAGGAGCATCACCACCAGATGTCTGAACAGGCGAAAAAGGTCGTGCAGGATAAATTTGCAACCGCCACCATCCTGAACGAATATGAAGAATTGTATCGGCAGGTGCTTGCTGATGAAGCCTGA	MAKIGITCYPTVGGSGVIATELGKLLAENGHEIHFVASQVPFRLNRVYPNIYYHEVEVSSYPVFQHPPYDLALAAKMADVINREELDILHVHYAMPHAVCAILAKQMCNRDVKIITTLHGTDITVLGIDTSLQEMIKFGIEQSDRVTAVSHSLVGQTQEMLHTNRSIDVIYNFVDEREYYRKSNQHLKDHYGIRDEDAVLIHISNFRKVKRVPDVIQTFARVRSERPAKLLLVGDGPEYSACYQLVQDLGLEEDVLFLGKQENVSDLLSIADLKLLLSEKESFGLVLLEAMACGVPSIGSNIGGIPEVIDHGETGYIAELGNIEQTAYFANRILSDQEHHHQMSEQAKKVVQDKFATATILNEYEELYRQVLADEA	PGPT0019565_1125	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
AK012_00562	414	mgsA	COG1803	Methylglyoxal synthase	ATGAATATTGCTTTGATTGCCCATGATAAAAAGAAAGAGGACATCATCCAATTTTCAAAAAAGCACGCTGCTGTTTTCTCCAAGCATGAATTGTTTGCTACCGGAACGACAGGCATGCGGATTGCAGATGAAACAGGGTTGAACGTTACACGCTTCCAGTCCGGTCCGCTTGGCGGTGACCAGCAGATCGGTGCGAGAATTGCTGACGAACAAATGCAGATGGTCATCTTCTTCAGAGATCCGCTTACGGCCCAGCCTCATGAACCGGATATCAGTGCTCTGCTGCGACTCTGTGATGTCCACCAGATTCCAGTTGCAACAAACCTGGCAGGAGCAGAGATCATGGTAAGGGCACTGGATCATGAAGATATCCAATGGAACAGCATCATAGAAGAGAACAGAAAACAGGAGTGA	MNIALIAHDKKKEDIIQFSKKHAAVFSKHELFATGTTGMRIADETGLNVTRFQSGPLGGDQQIGARIADEQMQMVIFFRDPLTAQPHEPDISALLRLCDVHQIPVATNLAGAEIMVRALDHEDIQWNSIIEENRKQE	PGPT0001780_978	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001780-mgsA-K01734	NA	NA
AK012_00563	801	dapB	COG0289	4-hydroxy-tetrahydrodipicolinate reductase	ATGGAAACGATAAAGGTGATTGTAGCAGGACCACGTGGTAAAATGGGCAGTGAAGCCTTAAAAATGATTGACCGGGAACAGCATCTGAGCCTTTCCGCTTGTATCGACCGGAAGTATGATGGTTTGAATGTCAAGGACATTCAGGAGCTTCCTGATTTGGATGCCGTCATTTATACAGATGCAGAAGCATGCCTGAATGACGTGGAGGCGGATGTACTCATTGATCTCACGACACCGGATAATGGATATACCCATACGAAACTTGCGTTGAACAGCGGAGTTCGTCCAGTAGTCGGCACAACAGGTTTTACACAGGAGCAGCTTCAGGAATTGACGGACCTTGCAGAGGAAAAGCAGCTGGGTACCGTGATCGCTCCAAACTTCGCTATCGGTGCGGTTTTAATGATGCAGTTCTCCAAGTGGGCCGCCAAGCATTTTCCTGATGTGGAAATCATTGAAAAGCATCATGACCAAAAGCTTGATGCCCCGTCGGGGACGGCGGTGAAAACTGCCGAATTAATCAAGGAAGTCCGTGAACCTCATCATCAGGGGCACAGGGATGAAAAAGAGACCCTGCAGGGAGCGCGTGGCGCTGACGAAGAAGGAATGAGAATCCATAGTATGCGTCTTCCGGGGCTTGTCGCTCATCAGGAGGTTGTCTTCGGGGGACTTGGGGAAACGCTCACAATCAAGCATGATTCCATACACAGGGAGTCTTTCATGAGTGGTGTGAAGCTTGCTGTTGAAAAGGCTGTTGAACTGGATACACTGGTTTATGGATTGGAGCACCTACTCGATTAA	METIKVIVAGPRGKMGSEALKMIDREQHLSLSACIDRKYDGLNVKDIQELPDLDAVIYTDAEACLNDVEADVLIDLTTPDNGYTHTKLALNSGVRPVVGTTGFTQEQLQELTDLAEEKQLGTVIAPNFAIGAVLMMQFSKWAAKHFPDVEIIEKHHDQKLDAPSGTAVKTAELIKEVREPHHQGHRDEKETLQGARGADEEGMRIHSMRLPGLVAHQEVVFGGLGETLTIKHDSIHRESFMSGVKLAVEKAVELDTLVYGLEHLLD				NA	NA	NA	NA	NA
AK012_00564	333	ypjD	COG1694	putative protein YpjD	ATGGTGAAGTATACAACACAGGACATCCAAAAACGTGTCGACGATTACATATCACAGTTCAAAGAAGGTTATTTCTCACCTCTCAGCCTGCAGGCAAGGCTTACAGAGGAAGTGGGGGAAATGGCAAGAGAGGTCAACCACAGATATGGGGAGAAGCCCAAGAAAAAGACAGAAAAGGATAAGGCATTGGAAGAGGAGCTTGGCGATGTACTGTTTGTACTCACATGCTTTGCAAATTCTCTTGATATCGATTTATCTGATGCTTTTGAGCAGTCCATGAGCAAGATTGAAACCCGTGACAAAGACCGCTGGACAAAAAAGGAGGAAAAGTAA	MVKYTTQDIQKRVDDYISQFKEGYFSPLSLQARLTEEVGEMAREVNHRYGEKPKKKTEKDKALEEELGDVLFVLTCFANSLDIDLSDAFEQSMSKIETRDKDRWTKKEEK				NA	NA	NA	NA	NA
AK012_00565	873			hypothetical protein	ATGAAGATTTTCGGACTGCGTTTAAAAAATATCATCCTGATAATACTGGGCTCCGCTGTGTTCTCCTTCGGAATCGTTCATTTCAACATTCAAAATGAACTTGGTGAGGGTGGATTCACAGGGATCACCCTTTTACTGCTGTATTTATTTAACTGGGATCCTGCGATTATGAACATCGTCTTGAATATCCCCGTCCTCTTCATCGGATGGCGGATTCTGGGGCGGACAACATTTTTATACTCCTTGATCGGCATTGTCGCTGTTTCTGTATTTATCGCTCTGTCCCAGCGATTCATGATTACCATCGATCTTTCTGACGACCTTACCCTGGCGTCTTTGTTTGCAGGGGTGTTTATCGGAGTCGGTTTAGGCATCATATTCCGCTACGGTGGAACGACCGGCGGTGTGGATATCATCGCCAGACTCATCAACAAATATCTTGGCTGGAGTATGGGCCGGGCGATGTTCGTTTTTGATGCTCTCGTCATTTTTGTTTCTGCAATTACTTACCTTGAACATGTCCGCGGGATGTATACTCTTGTCGCTGTTTTTGTCGGCGCGAAGGTGATCGATTTTATCCAGGAAGGTGCGTACGCCGCCCGTGGGACGACTATCATATCAGAGAAGAGCGAAGAAATCTCACAAAAAGTTATGCAGGAGATGGACCGTGGTGTGACCGTACTTGACGGCCGCGGGTCGTTTTCCGGTTCTAAACGGGATGTTCTATATTGTGTTATAGCGAAAAACGAAATTGTGCGGCTGAAGACCATCATCGAACAGATCGACCCTCATGCGTTTGTAGCTGTCAGCCACGTCCATGATGTCATGGGAGAAGGCTTCACCTTGGATGAAAATAAAAATCCCATTGAATAG	MKIFGLRLKNIILIILGSAVFSFGIVHFNIQNELGEGGFTGITLLLLYLFNWDPAIMNIVLNIPVLFIGWRILGRTTFLYSLIGIVAVSVFIALSQRFMITIDLSDDLTLASLFAGVFIGVGLGIIFRYGGTTGGVDIIARLINKYLGWSMGRAMFVFDALVIFVSAITYLEHVRGMYTLVAVFVGAKVIDFIQEGAYAARGTTIISEKSEEISQKVMQEMDRGVTVLDGRGSFSGSKRDVLYCVIAKNEIVRLKTIIEQIDPHAFVAVSHVHDVMGEGFTLDENKNPIE				NA	NA	NA	NA	NA
AK012_00566	675			hypothetical protein	ATGAGTTTTATCATTTACTTTGCTTTGATTTTTATCATCCCATTGTGGGCTCAGTCTAAAGTAAAGTCTACGTACAAAAAATATTCACAAGTCCCTACTTCATCATCAATGTCAGGTGCTGAAGTAGCACGAAAAATTCTAAATGACAACGGTCTGTTTAACGTTGCGGTGGAAGAAGTCCGCGGCCATCTGACAGACCATTACGATCCACGTGCCAAGGTGATCCGCCTCTCCTCAGATATTTATCACGGGCGCTCAACAGCCGGCGCGGCTGTAGCGGCCCACGAAGTCGGACATGCGATTCAGGATGCTCAGGATTATGCTTTCCTTCGATTCAGGAGTGCTCTTGTCCCTGTAGCCAGCTTTGGTTCCAACATTTCCATCTTCCTTCTTATCGGAGGTATGCTTCTACAGATGACCGGCCTTATTTTAGTCGGGATTGTCTTTTTCGCAGCAGCCGTGCTTTTCCAGCTGGTAACCCTTCCAGTGGAATTTGACGCTTCCAACCGTGCGATGGCTCAACTGGTATCGACCGGTGTTATCCGTAATGATGAAGAGCGGAAGACGAAGAAGGTGCTCAATGCAGCGGCTATGACCTATGTTGCGGGTGCACTTGTTGCCCTTGCCGAGCTTCTCCGTTTTGTTTTCATGTTTATTGGAATGAACGAAGAATAA	MSFIIYFALIFIIPLWAQSKVKSTYKKYSQVPTSSSMSGAEVARKILNDNGLFNVAVEEVRGHLTDHYDPRAKVIRLSSDIYHGRSTAGAAVAAHEVGHAIQDAQDYAFLRFRSALVPVASFGSNISIFLLIGGMLLQMTGLILVGIVFFAAAVLFQLVTLPVEFDASNRAMAQLVSTGVIRNDEERKTKKVLNAAAMTYVAGALVALAELLRFVFMFIGMNEE				NA	NA	NA	NA	NA
AK012_00567	684			hypothetical protein	ATGGGACAGGTGTGTAAAGTTGTGTTCATATCCCTGATTTTCACACTCATGCCGCTGAGCCTGCATGCTGGGTGGGGTGAGGGAGCCACGGAACAGTGGGATCGATTTTACAGCCAGTACAGGTCACTTCTGCATGACGGCAAAAACGAAACGGCAGAGAGGCTCCTGCATAGCAGGATGCCGGATATGGAAAAATATATCGAAGGGCTGTCTGCGGAGGATCAGGCCGCCTGGGAGCATGTAAGCAGGTCAGTGGAAGAAGGACGAATGTCTGAAACAGCTCTCATCTTCTTTGAAGTGCTTGCTTCAGAGGACAAGGAACGAGCGTTGGAACAAAAGTTAATGGCGTTTCATATGGGGATGTTTACAGTTCCGGTTGATCATGTCATTCAAGACTGGGAGACGCTGGAGCCTGTTGTGATGCACGTGCATGCATCGGCTGAAACTGGTCAGCTCAGGCACGCCCTGGAACAGTATCAGCTTCAGCCGACATCGGAATCGGCGGCAGCTGCATCAGCAATGGTGGAAGCACTCATAAATGGCGGCAGTGAGGAAAATGCCTCTTTTATCGGTATGACTGCCGGTGTAGGCGGGTTTATAATCGCTGTACTCTTTTATGTAGGAATACTGAAGCATCCGGCACGTTCAAAAATTAGACACACAATAAAAGAACGTAATAGTTGA	MGQVCKVVFISLIFTLMPLSLHAGWGEGATEQWDRFYSQYRSLLHDGKNETAERLLHSRMPDMEKYIEGLSAEDQAAWEHVSRSVEEGRMSETALIFFEVLASEDKERALEQKLMAFHMGMFTVPVDHVIQDWETLEPVVMHVHASAETGQLRHALEQYQLQPTSESAAAASAMVEALINGGSEENASFIGMTAGVGGFIIAVLFYVGILKHPARSKIRHTIKERNS				NA	NA	NA	NA	NA
AK012_00568	600			hypothetical protein	ATGAAACAGATGATATCATATTTTTTGACGCATCGGCTCTTTTTAATTTTATTATTTTTCATTAATCTTGGAGGAACCCTGTATGGGTACATATGGTATGAGCCGCAGCTGGCGGTTACGGATCCAATCTTTCTTATCTTTGTTCCTGACAGTCCTACAGCCAGCTTGTTTTTCACCATCTTTCTCGGCTTTTATCTTTTCGGGAGAAATGTTCCGTATATAGAAGCCCTTGCTCTGATCACTTTACTTAAGTATGGCATTTGGGCGGTCGTGATGAACGCTCTGACGTTTATGGAGTACGGCTCTCTGCCATGGACAGGTTATATGCTCATTTTTTCTCATAGTGCCATGGCTGTGCAGGGAGTGCTGTATGCCCCTTATTATGCCATTCGTATCAGACATATCCTTTTTGCTGCTGTATGGACGCTTCACAACGATATTATTGATTACGTATTTGAGCAGATGCCTGTGTATCCGGCTATTATGGAGTACATGAAGGAAATTGGATATTTTACTTTCTGGCTGAGCCTGGGCTGTATCGGTGCTGCTTATTACCTTATGAAAAAGTCCGAACGTCTAAATCGCCCCCGCCTCTCATAA	MKQMISYFLTHRLFLILLFFINLGGTLYGYIWYEPQLAVTDPIFLIFVPDSPTASLFFTIFLGFYLFGRNVPYIEALALITLLKYGIWAVVMNALTFMEYGSLPWTGYMLIFSHSAMAVQGVLYAPYYAIRIRHILFAAVWTLHNDIIDYVFEQMPVYPAIMEYMKEIGYFTFWLSLGCIGAAYYLMKKSERLNRPRLS				NA	NA	NA	NA	NA
AK012_00569	1011	petD		Cytochrome b6-f complex subunit 4	GTGCATAGGGGAAAAGGGATGAAGTTTGTCGGTGATTCAAGGGTCACTGCTGAACAAAAAGCCAATTTACCAAAAGACTATTCAGAATATCCGGGTCGTACGGAAGCATTCTGGCCCAACTTCCTGTTGAAAGAATGGCTTGTGGGATCGGTCTTTCTCATCGGGTTTTTAATACTTACCGCTGCCCACCCGTCGCCGTTGGAACAGCAGGCGGATCCAAACAACGCGAGTTACATTCCGCTTCCGGACTGGTACTTCCTGTTCTTGTATCAATTCCTTAAATATCAATTTGCCGGCGGGGATTATATTGTTCTCGGAGCGATTGTTATGCCTGGTCTGGCATTTGGGGCACTATTGCTGGCTCCATTTCTTGACCGCGGACCGGAACGGCGCCCTCACAAGCGTCCAATCGCAGTAGGGCTTATGATTCTTGGTTTTGCAGCCACATTCTGGCTGACTTATGAGTCTGTCACACATGCAGATTATGAAATGCGTGCTGAAAAATATGGTGTAAACGTGGAAGCGGTTGAATCAACGATTGATAAATCAGCTCCCGGTTATGCCGTTTATGAAGCCAACTGTCTGAGCTGTCATGGTGATGCTCTCCAGGGGCAGGGAAGTTATCCATCACTAATTGATGCAGAGCTTACTGTTGATCAGGTGAAGGATATCGCAGTCAATGGTAAAGGCGCCATGCCGGCTGGTATCTTTAACGGATCAGATGAGGAACTGCAGCAGCTCGCTGAGTTTGTTGTCGGAGCTGGTAGTGGTGAAGGAGGCTCATCCGAAGGAGAAGGATCTTCCGAGGGTGAAGGCTCATCCGAAGGAGAAGGATCTTCCGAGGGTGAAGACTCATCCGAAGGAGAAGGATCTTCCGAGGGTGAAGACTCATCTGAAGAAGAGGGATCTTCCGAAGGTGAAGGCTCATCTGAAGAAGAAGGATCTTCCGAAGATGAAGGTTCTTCTGAAGAAGAAAATTCCGAGGAAGAGAACGGTTCTTCTGAAGAATAA	MHRGKGMKFVGDSRVTAEQKANLPKDYSEYPGRTEAFWPNFLLKEWLVGSVFLIGFLILTAAHPSPLEQQADPNNASYIPLPDWYFLFLYQFLKYQFAGGDYIVLGAIVMPGLAFGALLLAPFLDRGPERRPHKRPIAVGLMILGFAATFWLTYESVTHADYEMRAEKYGVNVEAVESTIDKSAPGYAVYEANCLSCHGDALQGQGSYPSLIDAELTVDQVKDIAVNGKGAMPAGIFNGSDEELQQLAEFVVGAGSGEGGSSEGEGSSEGEGSSEGEGSSEGEDSSEGEGSSEGEDSSEEEGSSEGEGSSEEEGSSEDEGSSEEENSEEENGSSEE				NA	NA	NA	NA	NA
AK012_00570	675	qcrB	COG1290	Menaquinol-cytochrome c reductase cytochrome b subunit	ATGCTTCAGAGAATTTACGACTGGGTGGACGAGCGTGTCGATGTAACCCCGTTATGGCGTGATATAGCGGATCACGAAGTTCCTGAGCACGTCAACCCGGCGCATCACTTTTCAGCATTTGTTTACTGTTTTGGTGGTCTTACATTCTTCGTTACAGTTATCCAGATTCTGTCCGGAATGTTCCTGACCATGTACTATGTACCAGATATCGAGAACGCATGGAAATCGGTTTATTACTTACAGCGAGAGGTTGCTTACGGTCAAATCGTACGTGGGATGCACCACTGGGGCGCCAGTCTCGTCATTGTGATGTTATTCTTACATACACTGCGGGTATTTTTCCAAGGCGCTTATAAAAAGCCGCGTGAATTGAACTGGGTGATTGGGGTCCTCTTGTTCTTTGTCATGCTGGGTCTTGGTTTCACAGGGTACCTGCTTCCATGGGATAACAAAGCATATTTTGCTACTCAGGTAGGTCTTGAGATCGCAGCGGCAACACCGTTTATCGGAGATCAAATCCGTACACTGCTTGCCGGCGACCCGACTATTGTTGGTGCTCAAACGCTTACACGATTCTTTGCTATCCACGTATTTTTCCTTCCGGCTGCATTGTTCGGATTAATGGCCTTCCACTTTGTCTTAATCCGTAAACAAGGTATTTCCGGACCACTATAA	MLQRIYDWVDERVDVTPLWRDIADHEVPEHVNPAHHFSAFVYCFGGLTFFVTVIQILSGMFLTMYYVPDIENAWKSVYYLQREVAYGQIVRGMHHWGASLVIVMLFLHTLRVFFQGAYKKPRELNWVIGVLLFFVMLGLGFTGYLLPWDNKAYFATQVGLEIAAATPFIGDQIRTLLAGDPTIVGAQTLTRFFAIHVFFLPAALFGLMAFHFVLIRKQGISGPL	PGPT0030840_498	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-PHOTOSYNTHESIS_ELECTRON_TRANSFER,PGPT0030840-petB-K00412
AK012_00571	507	petC_1	COG0723	Cytochrome b6-f complex iron-sulfur subunit	ATGAGCGATAAAAAGAGGGTGTCCCGGCGTCAGTTTCTGAACTACACGCTCACTGGTGTAGGCGGTTTCATGGCTGCGGGTATGCTTGCTCCGATGGTTCGATTCGCAATCGATCCCGTTTTGAAATCCAAAGAAGGCGGAGATTTGAAATCGGTTGCTTCCGTCGATGAGATCACAAATGAGCCGCAGCGCTTCGAGTGGACCATCGATCAGGTGGATGGCTGGTATGAATCAGAAGTACAGAAAACAGCCTGGGTCTACAAGGATGACAATGATGAAATCGTTGCCCTGTCACCAATCTGCACCCATTTAGGCTGTACAGTGGACTGGGGTTCCAATGATGAGTACCCGAATGAATTCTACTGTCCGTGTCACGGAGGCCGCTACACGAAAGACGGCGATAACGTACCAGGCACACCGCCGACTGCACCATTACCTGTTTTTGAACACGAAACCAAAGAAGGTATGCTTTATTTAGGTGAAGCAAAAGACAGAGGGGGGGCATAA	MSDKKRVSRRQFLNYTLTGVGGFMAAGMLAPMVRFAIDPVLKSKEGGDLKSVASVDEITNEPQRFEWTIDQVDGWYESEVQKTAWVYKDDNDEIVALSPICTHLGCTVDWGSNDEYPNEFYCPCHGGRYTKDGDNVPGTPPTAPLPVFEHETKEGMLYLGEAKDRGGA				NA	NA	NA	NA	NA
AK012_00572	456			hypothetical protein	ATGAAATGGACGAAGGCAGACACCACCCAGTACCTACCCGAAAAACAATATGTGGATACGTTGATGATTCCTCTTATCCCATTTGACCCCGCCGGGGACCAACAGATGGTCGGCCAGGCTTTTCAGCGGGAATTGAATCAGGTATTTATGAACTTCATTGAGAAAGAATATAGAGGAAGGGTTTTTCTATCACCGGATTATACCTACTTGAAGGGTAAGCATGAGCACGAGAAAGATCGGCTGAATGAGTGGATACAGTGTTTTAGGGAACAGCCGTTTGAACACGTTTTCCTATTTACATTCGACAGCCGCTGGAAGAAATATGAGGCGGAAGTGGACGGCCATTTAATCTGGGTGCCGGGAATGTCCAGCGGCAGCATAAAATCGACAGAGACACAGGCATTTGTCAAAGAACAGGCCCGCGGGATCAGTGACCTGATCCAGGCCTACTGGTGA	MKWTKADTTQYLPEKQYVDTLMIPLIPFDPAGDQQMVGQAFQRELNQVFMNFIEKEYRGRVFLSPDYTYLKGKHEHEKDRLNEWIQCFREQPFEHVFLFTFDSRWKKYEAEVDGHLIWVPGMSSGSIKSTETQAFVKEQARGISDLIQAYW				NA	NA	NA	NA	NA
AK012_00573	561			hypothetical protein	ATGCAGACACCAATTTCTGTGGATGAGAAAAAAGATTTTGTCCGCTGGTTTTTGAATCACTTTCAGTTGAAGAAGAGGGAAAGTGTCTGGATTCTGAATTATTTAATGAATCATGAATCTCTTTTATCCAGTGTTCATTTCGTCCAGGAAGTGAAATTTTGTCCCCGTGGTATGGAAATCAGCGCGCAGGGAGTTTCAGATCCCCCTTTCCGGTTTTATAAAGGCCAGGTCATGACCAACGATGCGGAGAAATCCTTTCATGACCTCCGTATGAATCAGGGTGAGCCGGTTTATATTCAGATGAATTTTGAAAATGTGCAGCAATGTTCCAAATACGCACTCGTTCTGGAAGAAAATCCGTACCTTCCTAAAGATTATTATTTAAACGACCGTGATAAGAATGATGCGGACCGTCTTTTGAAAATCAGCCTTCTCCAGCACCGCAGAAAACAAATCGAAGACCAGATTGATGAATCTCTAATCAACGGGGAACGGACGGTTTTTGTGGAGTTGTGCGGCAGGCTTCAAAAAGTGAAAGAGGAACTGAGTGAGTTCTATTAA	MQTPISVDEKKDFVRWFLNHFQLKKRESVWILNYLMNHESLLSSVHFVQEVKFCPRGMEISAQGVSDPPFRFYKGQVMTNDAEKSFHDLRMNQGEPVYIQMNFENVQQCSKYALVLEENPYLPKDYYLNDRDKNDADRLLKISLLQHRRKQIEDQIDESLINGERTVFVELCGRLQKVKEELSEFY				NA	NA	NA	NA	NA
AK012_00574	1254	lapB		Lipopolysaccharide assembly protein B	ATGGAGGAAATACAAAAAGCCATTCGTCAAATGGAGGCCCATAAGACGGAAGATGCAATAAACACACTGACAAGTTATCTGCCGGAAGCGGATGAAGAGGAGCGTTTTACCATTGCCGAACTGTACATGCAGTGGGGAATGCTGGAAGAAGCAAAAATGGTGCTTCACGAACTGATTCAACGCTATCCAAAAGAGCAGGAATTAAAAGTAATGATGGCTGAAATCCACATTGATCTTGATGAGGATGATGAAGCAATTGAACTGCTTAACCAATTCGGACCTGAAGACGAGGATTATCTTCAGGCACTGGTACAGCTTGCTGACCTGTATCAGGCCCAGGGGCTGTACGAAGTAGCCGAGCAGAAACTTCTGGCTGCCAAAAATGTGGAACCGAACTCAGCTATTATTGATTTTGCTCTGGGTGAACTTGCTTTTTCAAATGGAGAGTACTCCAAGAGTATCCCGTACTATGAAAATGCGATGCACCATCAGCCTGTGATTGGTGACATAGAAGTTGCCACGCGGCTGGCTGAAGCCTATGCGGCCAATGGAGAGTTTGAGCAGGCGCTGGAATTCTTCCAGAAAGTCGAAGAGGACAATCCGGATGTTCTTTTCCGTTATGGTTTTGTAGCTTTTCAGGCGCATCGGAACGATATTGCCATTCACGTCTGGGAGGAATTGATCGAGAAGGATCCATACTTCCAATCTGTTTATCCACACCTGGCTCAAGCCTATGACTCTGAAGGAATGCCTAAAGAAGCTCTCGATATGGCTAAAAAAGGCCTCGCTAAGGACGAATTCAACAAAGAACTATATCACCTGGCCGGAAGTCTCTCACACCGACAGGGCAGCAAAGAAGAAGGGTACCGTCTGATGCGTGAAGCGGTGGCTCTTGACCCGGGATATAAGGAAGCGGTTCTTTTCCTCATAGAAAACTATAAATCCGATGGGGACTATGACCAGATCATAGATCTGATCCAGGAATTAATTTCCCTTGGTGAAGAGGATCCAAACTATCTCTGGGAGCTCGCGCAGGCCCTGGAAGAAGAAGAACGATTTAAGGAAGCCTATGAACAATACAGTCAGGCTTACATTTCCCTCAAGGAAGATACCGATTTTCTAAAATCCTACGGCTACTTCCTCGTCGAGGACGGCCGTATGGAAGAAGGGATCCGTATATTCAAGGAGTACCTTGTCATTGACCCTGCTGATACAGAAATCGAGGATTTCGTTAAACGTCTGAATGAGGAATAA	MEEIQKAIRQMEAHKTEDAINTLTSYLPEADEEERFTIAELYMQWGMLEEAKMVLHELIQRYPKEQELKVMMAEIHIDLDEDDEAIELLNQFGPEDEDYLQALVQLADLYQAQGLYEVAEQKLLAAKNVEPNSAIIDFALGELAFSNGEYSKSIPYYENAMHHQPVIGDIEVATRLAEAYAANGEFEQALEFFQKVEEDNPDVLFRYGFVAFQAHRNDIAIHVWEELIEKDPYFQSVYPHLAQAYDSEGMPKEALDMAKKGLAKDEFNKELYHLAGSLSHRQGSKEEGYRLMREAVALDPGYKEAVLFLIENYKSDGDYDQIIDLIQELISLGEEDPNYLWELAQALEEEERFKEAYEQYSQAYISLKEDTDFLKSYGYFLVEDGRMEEGIRIFKEYLVIDPADTEIEDFVKRLNEE				NA	NA	NA	NA	NA
AK012_00575	1290	aroA1	COG0128	3-phosphoshikimate 1-carboxyvinyltransferase 1	ATGACTGATATACAATTGCAGCCAACGTCGAAGAAACTACAGGGCACGATGTCTGTCCCTGGCGATAAATCGATTTCCCACCGGTCTGTCATCTTTTCCGGACTTGCAGAGGGAACATCACACATTACCAACTTTCTAACTGGAGAGGACTGCCTCAGGACTGTCGAAGCTTTTCGGGAAATGGGTGTACAGATTGATCAAAAGGACGACCGTTTGACGGTTTACGGAAATGGAATACAAGGGCTTCAGGAACCGTCAACTCCTTTGAATTTTGGCAACTCGGGTACAACGGCAAGGTTGATGAGCGGGGTTTTGGCGGGACTGCCTTTATTCACCACTGCTTTTGGGGATGCTTCTTTATCTAAACGACCGATGGATCGTGTGGTCGTCCCATTAAAGGAAATGGGAGCGGAAATCTCCGGAAGAAATCAAAACCGTCTGCTGCCGCTGGCGTTCACCGGACGTACGTTGAAAGGGACGGTCCATGAACTGACCGTTAGAAGTGCGCAGGTGAAATCGGCGCTCCTTCTTGCAGGGATGCTCGCAGATGGGGAGACCAAAGTGGTCGAGCTTGGACAGACAAGAAACCATACCGAAATGCTTCTTCCTGAATTCGGCGTGGACATCGACGTCCAGGGTTCTGTAATCACCGTTCAGGGTGGACAGCAGCCGCAGGCGTCGGATATAAAAGTTCCCGGGGATATTTCTTCAGCAGCCTTTTTCATTGTCGCGGCTTCCATCGTTCCCGGCAGTAACCTTACTATTAAGGATGTCGGGTTGAACCCTACACGGGACGGCATTATTCAGGCAATGAAACAAATGGGAGCGGACATTGAAACAGAGATCCATACGTATATCGGGCGGGAACCGGTCGGCGACATCCGGGTTAGAGGCTCGCGTCTTCAGGCTTTGAAGCTGGATGGCGAGTTGATTCCGAACCTTATTGATGAAATTCCTATTATTGCTCTTGCGGCTACTCAGGCTGAGGGCACGACAATCATCAAGGATGCGGAAGAACTGAAATTCAAGGAAACCGATCGTATTGAAGCGGTCGTAACCACTCTTGCGAAACTTGGAGCGGATGTGGAGGCGACCGATGACGGTATGATTATTCATGGCGGGGCTTCCCTGCAGGGAGGGCGTATTCACTCTTATGGGGATCACAGAATTGGTATGATGGGCGCTGTTGCTTCTCTTATCAGCTCAGATCCCGTGACGATCGAGGATAAAGACTGTATTAATATTTCCTACCCTTCATTTTTCGAACATTTAAATGAAGTACTTCGTTAA	MTDIQLQPTSKKLQGTMSVPGDKSISHRSVIFSGLAEGTSHITNFLTGEDCLRTVEAFREMGVQIDQKDDRLTVYGNGIQGLQEPSTPLNFGNSGTTARLMSGVLAGLPLFTTAFGDASLSKRPMDRVVVPLKEMGAEISGRNQNRLLPLAFTGRTLKGTVHELTVRSAQVKSALLLAGMLADGETKVVELGQTRNHTEMLLPEFGVDIDVQGSVITVQGGQQPQASDIKVPGDISSAAFFIVAASIVPGSNLTIKDVGLNPTRDGIIQAMKQMGADIETEIHTYIGREPVGDIRVRGSRLQALKLDGELIPNLIDEIPIIALAATQAEGTTIIKDAEELKFKETDRIEAVVTTLAKLGADVEATDDGMIIHGGASLQGGRIHSYGDHRIGMMGAVASLISSDPVTIEDKDCINISYPSFFEHLNEVLR	PGPT0012850_2954	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012850-yddE-K00800	NA	NA
AK012_00576	1101			hypothetical protein	ATGAAGCAAACGGTCTTGATCGTCGGTTTAGGTTTAATCGGCGGATCGATTGCTATGAATGTATCAAGAAAAGAGGATGTCTTCGTCGTCGGTATGGACGGGGACGAAGCCGCATTGAACATGGCGTTGAAGCAGGGTGTGATTGATCAGGCCTCCTTTAACTTTTCTAAAGCGGTAGTGGAGGCAGATGTATGTATCCTGGCCACACCGATATCTGTAACGATTGATTTCCTTCATCAGCTGGAAAGCATTGACCTGGTTAAACCGTTGTTAGTCACGGATGTATCCTCTGTGAAAAATCAGGTGTTGAAAGCTGCAAACCGATTGACGCATCCGATGCTTTCCTTTGTGGGCGGCCATCCAATGGCCGGCTCCCATAAGCAGGGGTATACAGCAGCGAAGCCTCATCTGTTTGAAAATGCCATTTACGTGCTGACCCCTTCTCAGAATGGAACAAAGGAACAAGCGGAAAGGCTGAAATCTTTACTATCTGAAACCAACGCGCGTTTTCTGACGTTTACAACAGAGGAGCATGATGAGATGACGGCCGTCATCTCCCATTTTCCCCATCTGATTGCTTCATCCCTTGTCCATCAGGCAAAAGTGTGGCAGGAAACACACCCCTACATTGAACATCTGGCTGCGGGCGGCTTTAAAGATATCACAAGGATAGCTTCCAGTAATCCGAAGCTCTGGCAGGATATTTTCTTTCAGAATAAAGACCTCCTGATTGCTATGCTGGAGGATTGGATCAGCGAAATGGATAAAGTCCGCACCTTTCTGAAGGAGGAAGCGGAAGAAGAAACCTTCGAATACTTAAAAGAAGCCAAACTTTATCGTGATGGACTTCCTGTGAAAGAAAGGGGAGCTATACCGGCTTTTTATGACATTTATGTCGATATCCATGACCAGCCGGGAGCTATACACGATGTGATCGGTCTCCTGGCCGCGGATGGGATCAGCATAAAGAACATTCAAATCCTGGAAATTCGTGAGGGGATCACCGGGGTCCTGCGGGTAAGCTTTGCTACCAGTGAAGAACAAAAACTGAGTCATAAAGTGCTGCAGGAAAGAAAGTATGAAGTTATGGTACAGCAGTAA	MKQTVLIVGLGLIGGSIAMNVSRKEDVFVVGMDGDEAALNMALKQGVIDQASFNFSKAVVEADVCILATPISVTIDFLHQLESIDLVKPLLVTDVSSVKNQVLKAANRLTHPMLSFVGGHPMAGSHKQGYTAAKPHLFENAIYVLTPSQNGTKEQAERLKSLLSETNARFLTFTTEEHDEMTAVISHFPHLIASSLVHQAKVWQETHPYIEHLAAGGFKDITRIASSNPKLWQDIFFQNKDLLIAMLEDWISEMDKVRTFLKEEAEEETFEYLKEAKLYRDGLPVKERGAIPAFYDIYVDIHDQPGAIHDVIGLLAADGISIKNIQILEIREGITGVLRVSFATSEEQKLSHKVLQERKYEVMVQQ				NA	NA	NA	NA	NA
AK012_00577	1098	hisC	COG0079	Histidinol-phosphate aminotransferase	ATGAAAGCAAAAGATATTCTTAAGTCGATGAAACCTTACAAACCGGGAAAAGGCATTGAAGAGGTGAAGGAAGAATATGGTCTTGACCGTATTGTTAAACTCGCCTCCAACGAAAACCCATACGGTTTTTCTCCTGTCGTGAAGGAAGAGCTTCCAAAGCTCGTATCCAAGCTGGAAATATATCCAGACGGCTATGCGGCAGCGGTGAGATCAAAGGTTTCCGGTTTTCTTGATGTGGATGAGGAACAGATCATTTTTGGGAATGGATCGGATGAAGTGGTCCAAATCATCTGCCGTACATTCCTGGAGCCTGGTGCCAATACTGTGATGGCTTCACCAACGTTCCCGCAGTACCGCCACAATGCCCTCATTGAAGGGGCGGAAGTCAGGGAGGTTCCATTGAAGGACGGCCATCATGATCTTGAGGAAATGATTCGTCAGATTGATGAAAACACCCGCGTTTTCTGGATCTGTACACCGAACAATCCAACCGGGGTTCATATCAATGAAGAAACGATAAAAGATGTACTGTCCAGAGTTCCTGAACACGTTCTTGTCGTCCTTGATGAAGCCTACTACGAATATCTGGAAGCGGAAGATTCTTTTGATGCGGTCGCTGCATTAAAGCAATATCCGAATTTAATGGTGCTCCGTACTTTTTCAAAAGCCTACGGTCTTGCTGGTCTGCGTATTGGTTTTGGCTTGGCGGGTGCGGATGTCATCCAGGTGCTTGAGCCTGCAAGGGAGCCCTTCAACACATCTACTGTAGCCCAGGCAGCTGCCATACTGGCTTTGGATGATCAGGAGTTCATTTCAACGACCGTTGAAGCCAATCACAGAAATAAAAAAGCCCTGATGCGTTTTTGTGATGAGAATGAACTGGGGTATTACGATACACAGGCCAACTTCCTTCTAATTCAGCTTCCAATCAGCGGGGACGAGATGTTTGAATACCTGCTTACTCAAGGCTTTATCGTTCGATCCGGCGAAGCGCTCGGACTGCCGAATTCCATACGTCTGACTATCGGTAAAGAAGAGGATATGAAGCAGATTCAACAGGCGATGAAAGAAAAACTTGAAATGGTCAAGCAGTCATGA	MKAKDILKSMKPYKPGKGIEEVKEEYGLDRIVKLASNENPYGFSPVVKEELPKLVSKLEIYPDGYAAAVRSKVSGFLDVDEEQIIFGNGSDEVVQIICRTFLEPGANTVMASPTFPQYRHNALIEGAEVREVPLKDGHHDLEEMIRQIDENTRVFWICTPNNPTGVHINEETIKDVLSRVPEHVLVVLDEAYYEYLEAEDSFDAVAALKQYPNLMVLRTFSKAYGLAGLRIGFGLAGADVIQVLEPAREPFNTSTVAQAAAILALDDQEFISTTVEANHRNKKALMRFCDENELGYYDTQANFLLIQLPISGDEMFEYLLTQGFIVRSGEALGLPNSIRLTIGKEEDMKQIQQAMKEKLEMVKQS	PGPT0020305_4020	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
AK012_00578	366	aroH	COG4401	Chorismate mutase AroH	ATGATGATTAGAGGAATCCGAGGGGCTACGACCGTTGAAAACAATGAACAGGACGAAATCATCAGCCGGTCATTAGAAATGATGCATGCCATCATTAAAGCGAATCAACTGGAAGCGGAAGATATAGTATCTGTTTACTTTACCGTCACGGAAGACGTAACGGATACTTTTCCAGCCAAGAGTTTAAGGCAGATTGATGGATGGACCTATGTTCCCGTTATGTGTATGAAGGAAATTCCAGTCCCTGGAAGTCTGAAGAAATGCATCAGGGTCATGGTAACTGCCCGGACGGATAAAAAGCAGTCTGAGATCCAGCATGTGTATCATCATCAGGCCGTTCAGCTGCGCCCTGATTTAAAGAGTTGA	MMIRGIRGATTVENNEQDEIISRSLEMMHAIIKANQLEAEDIVSVYFTVTEDVTDTFPAKSLRQIDGWTYVPVMCMKEIPVPGSLKKCIRVMVTARTDKKQSEIQHVYHHQAVQLRPDLKS				NA	NA	NA	NA	NA
AK012_00579	1080	aroB		3-dehydroquinate synthase	ATGAAAACATTACAAATCAAGGCAAGCACACATGAATATGAGGTTGTCCTTGGAGAGGGGATCCGTCACAAGATCCCTGCATTGCTGGAAAAAGAGTATCAGTCCATCCTGATCATCACCGATGATCAGGTATCGAATTATTACCTGGAAGATGTGAGGCAGTCGTTTACCGGTGGACAGCATGTTCATACGGCTGTTGTTCCAAGTGGGGAAGCATCAAAAAGCATGGAGTGTTACGAGCTGCTCCTGGATGCATGTACCACTCATCAGCTGGATCGCCGCTCATTGATTATCGCCCTCGGCGGCGGAATGATTGGTGACCTCGCGGGCTTTACCGCTTCAACGTACTTAAGAGGTGTCGATTATATCCAGGTACCAACGACGATCCTGGCCCATGACAGCAGTGTCGGCGGGAAAGTAGCCATTAACCATTCCAGGGGAAAAAACCTGATTGGCAGCTTTTATAACCCTCAGAAGGTTGTATATGACCTTGAAACCATTGCCACGCTTTCCCGGAAGGAAATTCGCTCAGGCTATGGGGAAGTCATTAAACACGCCTTTTTGAGTGATGGAAGCTGGCTTGACAGCCTTCTTGATTTATCATTAGACACTTTGACAAGCGCTCAACTGGAAGAGGACTTATATAAAGGTATACAAGTGAAAGCCTCCATCGTCGAAAAAGACGAGAAGGAAGCGGATATCCGCCAGTATCTGAACCTTGGGCATACACTTGCTCATGCTGTGGAATCCGAGCTGGGGTACGGAAAAGTGACTCATGGAGAGGCCGTCGCTCTGGGGCTGTTGTATGCTCTCAAATTAAGCAGTAGAAACAGCAGTGAAGATTTACGGGTGAAAGATTATGTAAACTGGATGAAAGCCAATTACTACCCATTGAATGTCCTGGATGATCTTGATGCTGAGAAGCTGGTGCAACGGATGAAATGGGATAAGAAAACCATCGGCCGGCAGATTAACTTTGTCCTGCTGGATGGTGTTGGTCATCCTTATGTCCAGGCCATGGATGACAGTGTACTGTTGAATGAATTAAAATGTGTAATAGAAGAGGTGGGGAACGGATGA	MKTLQIKASTHEYEVVLGEGIRHKIPALLEKEYQSILIITDDQVSNYYLEDVRQSFTGGQHVHTAVVPSGEASKSMECYELLLDACTTHQLDRRSLIIALGGGMIGDLAGFTASTYLRGVDYIQVPTTILAHDSSVGGKVAINHSRGKNLIGSFYNPQKVVYDLETIATLSRKEIRSGYGEVIKHAFLSDGSWLDSLLDLSLDTLTSAQLEEDLYKGIQVKASIVEKDEKEADIRQYLNLGHTLAHAVESELGYGKVTHGEAVALGLLYALKLSSRNSSEDLRVKDYVNWMKANYYPLNVLDDLDAEKLVQRMKWDKKTIGRQINFVLLDGVGHPYVQAMDDSVLLNELKCVIEEVGNG	PGPT0012865_3732	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
AK012_00580	1170	aroC	COG0082	Chorismate synthase	ATGCGCTACTTAACCGCTGGTGAATCACACGGAAAACAACTGACAACAATACTTGAAGGCATTCCTTCTCATCTTCCACTTTTGAGAGAACAGATCAATGAATCACTCATACGCCGCCAGGGTGGCTACGGCCGTGGGAAACGGATGCAGATTGAAAAAGATCTCGTAGAAATTACAAGTGGTGTAAGACATGGATATACATTAGGGTCTCCCATTACGCTGGTTGTACATAACGATGATTTTAAGCATTGGACAGATATTATGGGAGAAGATCCACTCCCGGAAGGAACAGATAAAATCCGAAGAACCGTGACGAAGCCCCGCCCGGGCCACGCCGACCTTAATGGCGGTATGAAGTATGGACACCGGGATATGCGTAATGTCCTGGAGAGATCTTCAGCAAGAGAAACAGCCGCAAGAGTAGGAGCAGGAGCTGTTGCAAAGGTTCTCCTTAAGGAACTGGGCATTGAAGTCGCCGGTTATGTAAGAGAAATCGCAGGCATTGTAAGTGATGTCGATGAAAACCTAACCTTGAGCGAACGCCGGGAAATTTCGGAAGCTTCTCCTGTCCGTACGTTCGACGAACAGGCCGCTGAAAAAATGATGAAAGCCATTGATGAAGCGAAAAAGGACGGAGACTCGATCGGTGGTGTCACCGAAGTATACGTCGAAGGAATGCCTGCAGGTCTTGGATCTTATGTTCAGTATGACCGTAAGCTTGATGCTAAGATTGCCCAGGCTGTGATGAGTATCAACGCCTACAAAGGGGTTGAATTTGGAATAGGCTTTGAAGCAGCCCGGAAACCAGGAAGCCAGGTTCATGATGAGATCCTTTGGAGTGAAGAAGAGGGGTATACACGCAGAACGAACCGTCTGGGCGGCTTTGAAGGTGGAATGACTACAGGCATGCCGATCGTTGTAAAGGGTGTCATGAAGCCGATTCCGACGTTATACAAACCTCTGCAGAGTGTAGATATTGAAACGAAGGAACCGTTTAATGCAAGTATCGAGCGCTCAGATTCCTGTGCTGTCCCGGCAGCGTCTGTCGTCATGGAGCATATCGTAGCTTTTGAACTGGCCAAAGCCATTACAGAGGAATTTCCTTCCGATTACTTCCCTCGTCTTAAGCGTGCGGTTGATGATTACAGAAAAGAAATCAGGGACTTTTAA	MRYLTAGESHGKQLTTILEGIPSHLPLLREQINESLIRRQGGYGRGKRMQIEKDLVEITSGVRHGYTLGSPITLVVHNDDFKHWTDIMGEDPLPEGTDKIRRTVTKPRPGHADLNGGMKYGHRDMRNVLERSSARETAARVGAGAVAKVLLKELGIEVAGYVREIAGIVSDVDENLTLSERREISEASPVRTFDEQAAEKMMKAIDEAKKDGDSIGGVTEVYVEGMPAGLGSYVQYDRKLDAKIAQAVMSINAYKGVEFGIGFEAARKPGSQVHDEILWSEEEGYTRRTNRLGGFEGGMTTGMPIVVKGVMKPIPTLYKPLQSVDIETKEPFNASIERSDSCAVPAASVVMEHIVAFELAKAITEEFPSDYFPRLKRAVDDYRKEIRDF	PGPT0012875_1436	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_SHIKIMATE_DEGRADATION,PGPT0012875-aroB-K01736	NA	NA
AK012_00581	795	cheR		Chemotaxis protein methyltransferase	ATGAAAGATGATTACATAATCTTTACGGAAAACGTCCATTCAAAAACGGGCATTGATCTATCTCTGTACAAGGAGACACAGATGAAGCGGAGACTTACATCACTTCGGGATAAAAGGGGCTTCCGTACCTTCTTCCACTACTACAAGGCGGCAGAAGAGAACGAGGGACTTCTGGAGGAGCTCATGAACAAGATCACCATCAATGTCTCTGAATTTTACCGGAACAGGCAGCGCTTTGATGTACTGGAAAAGAAGGTGATTCCACACTTATTGGAAAAGAGGGGGCGTCTCCGTATATGGAGTGCAGCCTGTTCCACGGGGGAAGAGCCCTATACCCTGGCGATTATCTTATCGCGTCTGGCTCCCAGCGACCGGGTGGAGATTATTGGCACGGACATTGACCCTCAGGCTCTCGCACATGCCAGGGAAGGGCTTTACCACCAACGCTCACTCAAAGAAGTTTCCGTGGAAGGAAAGCAGGCGTATTTTACTAAAGAGGGATCTTTTTACCGGATTGATGAAGATATAAGAAAACGTGTGAAGTTCAAGAAACACAACCTGCTTGCTGATGAATTCCCTTCCCGGTGCGATCTTATCGTATGCCGCAACGTCATGATTTATTTTACAGACGAAGCGAAGCAGGAGTTATACAGAAACCTTAACCGGTCCCTTGTGGATGATGGTATCTTATTTGTAGGAAGTACCGAGCAGATTTTTTCCCCAGAACACTATAATTTTAAGAGTTTCGATGCCTTTTTTTACCAAAAGATAAGCCGAACATCTTTGATGCTGTAA	MKDDYIIFTENVHSKTGIDLSLYKETQMKRRLTSLRDKRGFRTFFHYYKAAEENEGLLEELMNKITINVSEFYRNRQRFDVLEKKVIPHLLEKRGRLRIWSAACSTGEEPYTLAIILSRLAPSDRVEIIGTDIDPQALAHAREGLYHQRSLKEVSVEGKQAYFTKEGSFYRIDEDIRKRVKFKKHNLLADEFPSRCDLIVCRNVMIYFTDEAKQELYRNLNRSLVDDGILFVGSTEQIFSPEHYNFKSFDAFFYQKISRTSLML	PGPT0015670_4230	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	CHEMOTAXIS_PROTEINS	CHEMOTAXIS_TWO_COMPONENT_SYSTEM_PROTEINS,PGPT0015670-cheR|pilK-K00575	NA	NA
AK012_00582	450	ndk	COG0105	Nucleoside diphosphate kinase	ATGGAAAAGACTTTTTTAATGGTTAAACCCGACGGTGTTCAGCGTAATCTAATTGGAGAAATTATGAGCAGGTTCGAACGAAAAGGATTCAAGCTGGCTGGTGCGAAGCTGATGCCTGTTCCGCAGGAGTTGGCAGAAGAGCATTATGGTGAGCATAAAGAGAAACCTTTCTTTGGTGAATTGGTAGAATTCATCACCTCCGGTCCTGTATTTGCGATGGTATGGGAAGGCGAGGATGTAATAGCAGCTGCCCGTCAAATGATGGGGGCTACAAAGCCTTCAGAAGCTGCTCCAGGGACGATCCGCGGGGACTTTGGTATGATCGTTGGAAAGAATGTCATCCATGGCTCCGACTCAAAAGAAAGTGCAGATAGAGAGATCTCCCTGTTCTTCAATGATGGAGAACTTGTAGATTATCAAAAAGACAGCCTTTCCTGGGTCTATGAGTGA	MEKTFLMVKPDGVQRNLIGEIMSRFERKGFKLAGAKLMPVPQELAEEHYGEHKEKPFFGELVEFITSGPVFAMVWEGEDVIAAARQMMGATKPSEAAPGTIRGDFGMIVGKNVIHGSDSKESADREISLFFNDGELVDYQKDSLSWVYE	PGPT0021210_2539	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021210-ndk-K00940	NA	NA
AK012_00583	972	hepT	COG0142	Heptaprenyl diphosphate synthase component 2	ATGAAATTAGCCATGATCTACTCGTTTCTAAAAAATGACCTGGCTGTAATTGAAGATGCAGTCAATGATACCATTCAGTCCAATAACACCGTTTTGAGAGATGCGTCCAGCCAGCTTCTCCAGGCGGGTGGGAAGAGGATCCGCCCTGTATTCGTTCTTCTTGGCGGTAAGTTCGGCGAGTATGACATTGAACGAATGAAAGCCGTTGCGGTATCTCTTGAACTGATCCATACCGCATCGCTCGTTCATGATGATGTCATTGATGAAGCTGAGCTCAGAAGAGGAGAGCCCACCATCAAAGCAAGATGGGACAACCGGATTGCTATGTATACAGGGGATTACATATTTGCCCGCTCCCTGGAAACGCTGTCGGTTCTTGAAAACCCGAAGGCCCATCAGATCCTGGCTAAAACCATGGTCGAATTATGTCTGGGGGAAATCGAACAGATCAAGGACAAATATAACGTCCACCAAAATCTACGCACCTATATGCGGCGGATTAAGAGGAAAACCGCCCTTCTTATTGCGGCAAGCTGTCGTCTCGGGGCGATTGCTGCGAATGTGGACGAGGAGAAAGAAAAGGCTCTCTACCGCTATGGATACAATGTAGGGATGTCCTACCAGATTATTGATGATGTGCTGGATTTCACGGCTTCCGAAGAAGAACTCGGCAAACCGGCCGGCAGTGATCTTCTCCAGGGGAATGTGACGCTCCCTGTCCTTCTCTCTATGGAAAATGCAGATTTCAAGAAGAAGCTGGAACAAGCCTTCACAGGAACAGAAGAGGAAACAAAAGAAAAATTGCAGCCTTTAATCGAAACCATTCAGACCAATGGTTCAATTCAACGTTCCCTTGAAATCAGCGACCTGTACCTGCAGAAAGCCTATCAGTCCTTGAATGAGCTTCCCGCAGGCCGTGCCAAGCAGACATTGAAAGGAATTGCCAAGTATATTGGAAAAAGAAGGGCATGA	MKLAMIYSFLKNDLAVIEDAVNDTIQSNNTVLRDASSQLLQAGGKRIRPVFVLLGGKFGEYDIERMKAVAVSLELIHTASLVHDDVIDEAELRRGEPTIKARWDNRIAMYTGDYIFARSLETLSVLENPKAHQILAKTMVELCLGEIEQIKDKYNVHQNLRTYMRRIKRKTALLIAASCRLGAIAANVDEEKEKALYRYGYNVGMSYQIIDDVLDFTASEEELGKPAGSDLLQGNVTLPVLLSMENADFKKKLEQAFTGTEEETKEKLQPLIETIQTNGSIQRSLEISDLYLQKAYQSLNELPAGRAKQTLKGIAKYIGKRRA	PGPT0025040_177	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA	NA	NA
AK012_00584	708	menG	COG2226	Demethylmenaquinone methyltransferase	ATGGATCCACAGACTAAAGAAGAACGGGTACACCACGTGTTTGAGAAAATATACGAACGTTATGATAGTATGAATTCCATTATTTCTTTCCAACAGCACCGGCTGTGGCGGAGGGACGTCATGAAACGCATGAACGTCCAGCCCGGGGATACGGCCCTGGATGTCTGCTGTGGAACAGGTGACTGGACAATGGCGTTAGCGGAAGCCGTCGGCAGTAATGGGAAAGTGACCGGCCTGGATTTTAGTGAGAATATGCTTTCTGTCGGTATTAAGAAAAAACTGGCCGGAAGAGTCCGGCAGGTCGAGTTTCAGCATGGGAATGCGATGGCTCTTCCATTCGAGAATGATCAATTCGATTTTGTAACCATTGGTTTTGGTTTAAGGAACGTCCCTGACTACCAGCAGGTGCTGCGGGAAATGTTCCGGGTCGTCAAGCCTGGCGGCAAAGTCGTTTGTCTGGAAACTTCTCAGCCGACAAATCCGTTTTTCAAGCGGATGTATTACCTTTACTTCGGAAACATTATGCCGCTTTTCGGCAGGATATTTGCCAGGAGCTATCAGGAATACAGCTGGCTTCACGAATCCGCCAAGGACTTTCCTGGTAAAAAAGAATTAAAAATGATGTTCGAGGAAGCTGGTCTTTCCAATGTCATTGTCAAATCCTATACAGGCGGCGTTGCAGCTATGCATATGGGTGAAAAGCTTTAA	MDPQTKEERVHHVFEKIYERYDSMNSIISFQQHRLWRRDVMKRMNVQPGDTALDVCCGTGDWTMALAEAVGSNGKVTGLDFSENMLSVGIKKKLAGRVRQVEFQHGNAMALPFENDQFDFVTIGFGLRNVPDYQQVLREMFRVVKPGGKVVCLETSQPTNPFFKRMYYLYFGNIMPLFGRIFARSYQEYSWLHESAKDFPGKKELKMMFEEAGLSNVIVKSYTGGVAAMHMGEKL	PGPT0009535_3176	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-UBIQUINONE|COENZYME_Q_PATHWAY,PGPT0009535-ubiE-K03183	NA	NA
AK012_00585	798			hypothetical protein	ATGTTGAATTCTTCAGATAACGATATTAAGCAGCTCAAAAGTAAAATCGCAGCCAAGGTCCGCCATCCTTATTTGGTTCGTTTTATACCTGAGCCGCACATCGACGACGACAAACTTGTTATCTTATCTTCCATTATGAACCATACAACGCTGACGGTGGAGAAGAAAGAGCAGTATATCATCACGACCATGCTTGTACAAATCGCTCTGGACACCCATGATCTGGTTACCTTGACTGATGACGAGGATGATAAAGAAACAGTGAGACACCGCCAGCTGACGGTATTGGCCGGCGATTATTTCAGCGGGCTTTATTATTATCTATTATCCCAGTTGAATGATATTCCAATGATCCACACGCTTGCTGGAGCCATCAAGGAAATCAATGAACTTAAGATGGAGCTGTACTATAAGGATGTAGAGTCGTTCCAGGAATTCCTCGAGGGTGTGAAAAAGATTGAATCGCTGCTCATCCAGAGGGTGGCTGCTTACGTTCAAAAAACAGCTATCAATGATATGGCCGGAGAGTGGCTTCTTGCCAAAAAATTGATGGAGGAAAAACGCAGCTATCAGGAAGGAAACGTATCCCCGTTGATCGAAGCCCTTGTAAAAAGGCCCGGACTGTTCGGTAATCAGGGACAGGTGATCGGAAACCTTGAGCAGATGCTTCAAAATCACGTACACCATCTTGAGACAGCGGTTTCCCAGCTGCCTATTCATTTCAACTGGCTGAAATCCTACGTCCATGCAGCCATTCATCATCAATTTAATCATAGACAGATAGCGGAAGAAGGGTAA	MLNSSDNDIKQLKSKIAAKVRHPYLVRFIPEPHIDDDKLVILSSIMNHTTLTVEKKEQYIITTMLVQIALDTHDLVTLTDDEDDKETVRHRQLTVLAGDYFSGLYYYLLSQLNDIPMIHTLAGAIKEINELKMELYYKDVESFQEFLEGVKKIESLLIQRVAAYVQKTAINDMAGEWLLAKKLMEEKRSYQEGNVSPLIEALVKRPGLFGNQGQVIGNLEQMLQNHVHHLETAVSQLPIHFNWLKSYVHAAIHHQFNHRQIAEEG	PGPT0007531_106	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007531-hepST-K00805	NA	NA
AK012_00586	225	mtrB		Transcription attenuation protein MtrB	ATGTCTGCATCCAACAACGATTTTTTCGTAATTAAAGCACTGGAAGATGGTGTGAATGTTATCGGTCTTACGAGAGGGACGGATACAAGGTTCCACCATTCCGAAAAGCTGGACCGCAATGAAGTGATGATTGCTCAGTTTACAGAGCATACATCCGCTGTTAAAGTACGCGGAAAGGCGGTTATTCAGACGAGCCACGGGGAAATGACCAACGACGCAGAGTGA	MSASNNDFFVIKALEDGVNVIGLTRGTDTRFHHSEKLDRNEVMIAQFTEHTSAVKVRGKAVIQTSHGEMTNDAE				NA	NA	NA	NA	NA
AK012_00587	273	hupA	COG0776	DNA-binding protein HU 1	ATGAACAAAACAGATCTAATCAATGCGGTATCTGAAAAAGCAGACCTTTCTAAAAAAGATGCGACTCAAGCTGTAGATTCTGTATTCGAATCTATCATGGATTCACTAAAAGATGGTGACAAAGTCCAGCTTATTGGATTCGGTAACTTTGAAGTTCGTGAGCGTGCGGCACGTAAAGGCCGTAACCCACAGACTGGTGAAGAGATCGAAATCTCTGCAAGCAAAGTACCAGCGTTCAAACCTGGTAAAGCCCTTAAAGATGCGGTTAAATAA	MNKTDLINAVSEKADLSKKDATQAVDSVFESIMDSLKDGDKVQLIGFGNFEVRERAARKGRNPQTGEEIEISASKVPAFKPGKALKDAVK				NA	NA	NA	NA	NA
AK012_00588	1512	spoIVA		Stage IV sporulation protein A	ATGGTGGTGAAATCACATTTGGGAGGGGATCCTTTGGAAAAGGTTGATATCTTCAGTGATATTTCCAAACGGACAAATGGAGATATTTATTTAGGTGTTGTCGGTGCCGTACGAACAGGTAAGTCAACATTTATAAAGAAATTTATGGAGCTTGTTGTACTACCCAACATGGATGAGGAATCTGACAGGGAACGTGCTTTGGATGAACTGCCGCAGAGTGCAGCTGGGAAAACCATTATGACCACCGAGCCTAAATTTGTCCCTAACCAAGCGGCTAATATTACAATAGATGACCATCTGGATATCAGAGTCAGGATGGTGGACTGTGTGGGTTATGCTGTCAACGGGGCTGTCGGCTACGAAGATGAACACGGGCCGAGAATGATTCACACGCCATGGTACGAGGAGGCCATCCCGTTTCATGAAGCGGCTGAAATCGGGACTCAGAAAGTCATCCAGGAGCATTCGACGATCGGCATTGTTGTCACAACAGACGGTACTATCGGTGAAATACCGAGACAGGACTATGTCGAGGCTGAGGAAAAAATTGTGGAAGAACTGCGGGAAGTCGGTAAGCCTTTTATTATGATCATTAATTCTGCCCAGCCTCATCACCCGAACACGGAGCATCTGCGGGAATCCCTCTCAGAGAAATATGATATTCCGTGCCTGGCTCTTTCTGTTGAAAGTATGAGAGAACAGGATGTTCAGAGTGTCCTTCGTGAAGCGCTTTTTGAATTTCCAGTGCTTGAGGTGAACGTAAACCTTCCAAGCTGGGTGATGGTCCTGGATTCCAGACACTGGTTGAGAACGAATCTGCAGACGGCGATTGAAGATACAGTCAAGGACATTAAGCGTCTGCGTGATGTAGACCAGGTTGTAGGAAACTTTGATCAGTATGAGTATATAACAGGGGCGCATATTTCAGGCATGGATCTTGGTGAAGGGATCGCTGAAATTGACCTGCAGGCACCGGAGCATTTATATGATCATGTGCTCAAGGAAATTGTAGGTGAAGAAATCCGGGGCAGGGATCATCTGTTGGAGATTATGCAGGATTTCTCTCACGCGAAACGGGAGTATGATCAGGTGGCCGATGCTCTCCAAATGGTGAAACAGACCGGCTATGGCATTGCAGCGCCGTCGCTGGAGGATATGACACTTGATGAGCCGGAAATCATCAGGCAGGGGTCCAGATTCGGTGTGCGGCTCAAGGCAGTAGCCCCTTCCATTCATATGGTGAAGGTAGATGTACAATCCGAATTTTCACCGATTATCGGAACAGAGAAACAGAGCGAAGAGCTCGTTCGATATTTAATGCAGGACTTTGAGGACGATCCACTGTCGATCTGGAATTCCGACATTTTCGGCCGCTCTCTGAGTTCCATTGTGAGAGAAGGCATTCAGGCGAAACTGGCATTAATGCCTGAAAATGCCCGGTATAAACTGCAGGAAACGCTGGAGCGGATTATCAATGAAGGTTCAGGAGGAATGATTGCAATTATTTTGTAA	MVVKSHLGGDPLEKVDIFSDISKRTNGDIYLGVVGAVRTGKSTFIKKFMELVVLPNMDEESDRERALDELPQSAAGKTIMTTEPKFVPNQAANITIDDHLDIRVRMVDCVGYAVNGAVGYEDEHGPRMIHTPWYEEAIPFHEAAEIGTQKVIQEHSTIGIVVTTDGTIGEIPRQDYVEAEEKIVEELREVGKPFIMIINSAQPHHPNTEHLRESLSEKYDIPCLALSVESMREQDVQSVLREALFEFPVLEVNVNLPSWVMVLDSRHWLRTNLQTAIEDTVKDIKRLRDVDQVVGNFDQYEYITGAHISGMDLGEGIAEIDLQAPEHLYDHVLKEIVGEEIRGRDHLLEIMQDFSHAKREYDQVADALQMVKQTGYGIAAPSLEDMTLDEPEIIRQGSRFGVRLKAVAPSIHMVKVDVQSEFSPIIGTEKQSEELVRYLMQDFEDDPLSIWNSDIFGRSLSSIVREGIQAKLALMPENARYKLQETLERIINEGSGGMIAIIL	PGPT0024770_92	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024770-spoIVA-K06398	NA	NA
AK012_00589	729			hypothetical protein	ATGAAGATTTTCCGCTGCTCAGGGCTTCTCATTCTTCTTTTCCTGTTAACCGGCTGTTTGTATCCTCAAGAAAGACTCCAGAAAAACCAGGTTCCCAATGATCAGCAGCTGAACATGGTCCAGGATGCGGTAGATACCTATCAGGAGAGAACAGACGGGCTTCTTCCCATTAAGACGAAGGACCAGGAGACACCGGTCTTTCAAAAATACCCGATTGAATTCAGCAAGCTGAAGGAAATGAACATTATTGGAGAACTCCCCGGGACATCCTTCGAAAACGGGGGACATTATCAGTACGTCATTATTCATCCGGAAACGGATCCAACAGTGAAAGTGCTGGACCTTCGGACGACGGAGGAAGTCAGGTCTCTTCAAGTGAAGGTCAAATTCTATAAAGATAACAACCGTTATCCTCCTCTTGGCGATTTTGTGTCCCAGGGAGTGTACGAGCTGGACTATGAGAAGATTGGTATGGACGAACCGCCTATGATTGACAGTCCTTATTCAGACCAGCGTCTCCCTGTTTATCTGGATGAACAGGGACAGGTCTATATCGATTACAGGAAAGACCTCTATGCGTACCTTCGATCCGAAGACCATGCCTATAAGGCGGGCGAGGATATTCGTTTTCTTCTGACGGATCATACGCCGATCGTTCCTGCCTATTCAACCGCTTATACGGTGGAAGAAGGAGAGCCTGTGTTTTTACATGCGTCCCCTTCTTCCTGA	MKIFRCSGLLILLFLLTGCLYPQERLQKNQVPNDQQLNMVQDAVDTYQERTDGLLPIKTKDQETPVFQKYPIEFSKLKEMNIIGELPGTSFENGGHYQYVIIHPETDPTVKVLDLRTTEEVRSLQVKVKFYKDNNRYPPLGDFVSQGVYELDYEKIGMDEPPMIDSPYSDQRLPVYLDEQGQVYIDYRKDLYAYLRSEDHAYKAGEDIRFLLTDHTPIVPAYSTAYTVEEGEPVFLHASPSS				NA	NA	NA	NA	NA
AK012_00590	198			hypothetical protein	ATGTCTGAATCCATGCTGAACATGTACATATCCTTTGCGGGAATCATCTCCTTATTCCTTGCCATAGGTTTAATCTATTTAAGCAGATTTAAGTTGAAAGGCATTTTTTCGGCCGTTACCGCCGTTTTTGCCTATTTATTTATGATTGTGGGCGGATTGATTATTTTCTACATTGTACTCAGCGGCCCAACCGCTTGA	MSESMLNMYISFAGIISLFLAIGLIYLSRFKLKGIFSAVTAVFAYLFMIVGGLIIFYIVLSGPTA				NA	NA	NA	NA	NA
AK012_00591	258			hypothetical protein	ATGAGTGATTTTCAAAAAAGTATTTTTGATCACCTGAAGAAAAAAGCAGACATCGATGCTCAGGATGTATTCAAGGTCGCTGATAAGGTCCAGCACGCCGATTTTTCTGATGAGAAAACGGTACGTGGACTGGTCCGCCAGCTGGCACAGGTCGCCGGCAAAAACATATCGAAACAGAAGGAAGACAAAATTGTTGAAGCCGTCATCAGCCAGAATATGCCTCTGGATTTGAATACGTTAGGTAAATTCTTGAAATAA	MSDFQKSIFDHLKKKADIDAQDVFKVADKVQHADFSDEKTVRGLVRQLAQVAGKNISKQKEDKIVEAVISQNMPLDLNTLGKFLK				NA	NA	NA	NA	NA
AK012_00592	1041	gpsA		Glycerol-3-phosphate dehydrogenase [NAD(P)+]	GTGGAAAAGATTGCGGTTTTAGGTGCAGGGAGCTGGGGGACAGCCCTGGCTCTCGTTCTGGCCGATAATGGCCATGATGTCCATTTGTGGGCGCATCGGAAGAGCCTGGCTGATGAAATCAGCCATACACATAAAAACGAAAAGTATCTGAAAGGTGTGGAACTGCCTGAACACCTTCAGGCCACGCATGATATGGCAGAAGCCGTAAAGGGGGCGCGCCATATTCTTCTGGCCGTTCCAACAAAAGCCATGCGTGAAGTGTGTGCCCGGTTGAAAGACCTGTTAGAAGAAAGGGTCATCCTCACTCATGCTGCGAAAGGGATCGAACCTGGAACATACAAACGGGTATCTGAAATCATAGCTGAAGAAATCCCGAGGGAAAGTTATGAGGATATTGTCGTTTTATCAGGACCGAGTCACGCCGAGGAAGTCAGCCGCAGGCAGCCGACGACCGTGACGGTATCTGCTTCTGATTTATCCGTGGCTGAGAAAGTGCAGGATCTTTATATCAACGATAAATTTCGTGTCTACACGTCCCCGGACCTTGTCGGCGTAGAGCTCGGAGGTGCCTTGAAGAATATCATCGCACTGGGGGCCGGTATTTCTGACGGTTTAGGATATGGAGATAACGCCAAGGCTGCTCTCATTACGCGGGGGCTTGCTGAGATTGCCCGTCTCGGCACATCGATGGGAGCGAATCCTCTGACCTTCTCGGGTTTGACCGGAATCGGCGATTTGATCGTTACATGTACAAGTTCCCACAGTAGAAACTGGCGGGCAGGATACAAGCTTGGACAGGGCAGCGGGCTTGAACAAGTCCTTGAAGATATGGGGATGGTCGTCGAAGGGGTTCGAACAGCCAAGGCTGCTTATCAGCTTGCCTCCGATCAGGACGTTGAAATGCCGATCACCACAGGTATATATCAAATCCTGTTTGAGGATAAAAGCCCGCGGGACGTTGTCGATCAGCTGATGACAAGAATCCGCAGACATGAAATGGAGGATTTGACAAATATCCTGGACCAGCGGATGAATGACTGA	MEKIAVLGAGSWGTALALVLADNGHDVHLWAHRKSLADEISHTHKNEKYLKGVELPEHLQATHDMAEAVKGARHILLAVPTKAMREVCARLKDLLEERVILTHAAKGIEPGTYKRVSEIIAEEIPRESYEDIVVLSGPSHAEEVSRRQPTTVTVSASDLSVAEKVQDLYINDKFRVYTSPDLVGVELGGALKNIIALGAGISDGLGYGDNAKAALITRGLAEIARLGTSMGANPLTFSGLTGIGDLIVTCTSSHSRNWRAGYKLGQGSGLEQVLEDMGMVVEGVRTAKAAYQLASDQDVEMPITTGIYQILFEDKSPRDVVDQLMTRIRRHEMEDLTNILDQRMND	PGPT0024330_641	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0024330-gpsA-K00057	NA	NA
AK012_00593	1311	der_2	COG1160	GTPase Der	ATGAGAAAATCAGTAATTGCGATCGTAGGACGGCCGAATGTCGGTAAATCAACCATTTTTAACCGGCTGGTTGGAGAAAGAATATCTATAGTAGAAGACACACCAGGTGTGACCAGAGACCGGATTTATGCAGAAGCCGAATGGCTTACTTCCACATTTAATATCATTGACACAGGTGGAATTGAAATCGGTGATGAACCTCTTCTTGTGCAGATGCGTGCACAGGCCCAGGTGGCTATTGATGAAGCCGATGTCATCGTCTTCATGGTTAATGGCCGGGATGGTATTACCGGAGCCGATGAAGAAGTGGCTAAACTTCTCTTTAAATCCAATAAGCCGGTTGTACTGGCTGTCAATAAAGTAGACAATCCGGAAATGAGGGAAAACATCTACGAATTCTATTCCCTCGGTTTTGGTGAACCGTTCCCGATTTCCGGTACGCACGGGCTGGGTCTTGGGGATCTGCTGGATGAAGTGGTTAAACATTTCCCTGAGCAGATCCAGGAAGAAATCGACGATGATACCATCCGGTTCAGCTTGATTGGACGACCAAATGTTGGGAAATCCTCGCTGGTGAACAGTCTGCTGGGGCAGGAGCGCGTCATTGTGAGTGATATTGCTGGAACTACAAGGGATGCGGTGGATACCCCGTTTACGAAAGACGGCCGTGATTATGTCATTATAGACACAGCGGGGATGCGCAAACGCGGAAAAGTGTACGAATCTACCGAGAAGTACAGCATCATGCGTGCCTTGAAAGCGATTGAGCGTTCCGACGTTGTTTTAACGTTGATTGATGCGGATACAGGGATACAGGAACAAGATAAGAAAATCGCGGGATATGCCCATGAAGCCGGTAAAGCTGTCGTCATTGTCGTGAATAAATGGGACACGCTGGATACCGATGAAAAAACAATGAAGGAATTCGAGGATAAAGTCCGCGATAACTTCCGATTCCTTGATTATGCCCCGATTGTCTACCTGTCAGCTAAAACGAAGAAGAGAATTCACACCCTGCTTCCGAGAGTGCTGGAAGTCAGCGAAAATCATGCGAAACGGGTACAGACCAACTTGTTGAATGAAGTTATTATGGACGCACTGGCTATGAATCCTTCGCCTTCTATTAAAGGTCAGAAGCTGAAGATCTTCTATGCTGCGCAGGTGTCAGTGAAACCACCGAGTTTCGTGGTATTCGTGAACGAACCTGAACTTATGCACTTCACGTACGAACGATTCCTGGAGAACCGGATCCGGGAAGCCTTTGGATTTGAAGGAACTCCAATTAAAATCTTTGCAAGAAAACGGAGTTAA	MRKSVIAIVGRPNVGKSTIFNRLVGERISIVEDTPGVTRDRIYAEAEWLTSTFNIIDTGGIEIGDEPLLVQMRAQAQVAIDEADVIVFMVNGRDGITGADEEVAKLLFKSNKPVVLAVNKVDNPEMRENIYEFYSLGFGEPFPISGTHGLGLGDLLDEVVKHFPEQIQEEIDDDTIRFSLIGRPNVGKSSLVNSLLGQERVIVSDIAGTTRDAVDTPFTKDGRDYVIIDTAGMRKRGKVYESTEKYSIMRALKAIERSDVVLTLIDADTGIQEQDKKIAGYAHEAGKAVVIVVNKWDTLDTDEKTMKEFEDKVRDNFRFLDYAPIVYLSAKTKKRIHTLLPRVLEVSENHAKRVQTNLLNEVIMDALAMNPSPSIKGQKLKIFYAAQVSVKPPSFVVFVNEPELMHFTYERFLENRIREAFGFEGTPIKIFARKRS				NA	NA	NA	NA	NA
AK012_00594	186			hypothetical protein	ATGAAAATGGAAAAAGCGATTCTCGCCTCCATTACGACGCTTGAGAATAAAGTTCAGGGCAGTGCTGCGGTGTTTAAATGTGAAACCAAAGAGGAGATGGAGGCGGTGGCTGCTAATTTGGAGGCTATTCTCGACGGGATTGCCCACCGGTTGAGTGACCAGCTCTATATTATCGTCAAGCATTGA	MKMEKAILASITTLENKVQGSAAVFKCETKEEMEAVAANLEAILDGIAHRLSDQLYIIVKH				NA	NA	NA	NA	NA
AK012_00595	873			hypothetical protein	ATGAATGAATATACATATCCCATTTTGTTCGGGATTATTGCTGGAACAGTGCTTCGGGTATTTATGATGCGGACGGATTACCGTCAGTATCCTACATATCTTCACGGGAAGATTATCCATTTATCATTAGGATTTATTGCTGCTGCCCTTGGTACAATTGCTATTCCGTCCATTATGGAAAAAGAATTTACTGCGGTTACATTTCTGACGCTGGCTGCTTCGCAATTCAGGGAGGTCCGCAATATGGAGCGGAATACGCTCGCTGAGATGGACAGCTATGAACTTGTGCCCCGTGGAAACACTTATATCGAGGGGATTGCCGTTGCTTTTGAGAGTCGGAATTACCTGGTGATATTTACCTCATTCACTGTGACACTTTGTTATCTGGCTGTGAATATATGGGTGGCTCTGGGAGCGGCGGTGGCTTGTTTCGTGCTTTCTTCCTTGTTGATGAGTGGTTCTAAGCTGGGGGATATTGTAACAATTGAACAGCGGGAGCTCACCTTTGATGGTGCTGGACTGTACGTGGATAATATCTACATTATGAATATCGGTCTGCCTGAACGGCAGGATGAAATATTAAGGTATGGGATGGGGTTCATTTTAACCCCGAAATCCTTCAACATCCGCTCTACGATTGCCAACCTCGGTCAGCGCCAGGCGATTCTGCATGATGTTTCTGTAACGCTGGGAGTCTTCCGTGATTCAGGAACCCCTGCTCTTGTGCCGCTGATTAAACGCGATTTAAATGATGGACGGATCGGAGTATTTATTCTCCCCCAGGAAAAGGATCCCGACAGAGCCCGGGAGGTTATAGCCAACGTCCCTGTGCTTGAGAATGCTATACAAAAACCCGGGAAAAGGAGTGGGTGA	MNEYTYPILFGIIAGTVLRVFMMRTDYRQYPTYLHGKIIHLSLGFIAAALGTIAIPSIMEKEFTAVTFLTLAASQFREVRNMERNTLAEMDSYELVPRGNTYIEGIAVAFESRNYLVIFTSFTVTLCYLAVNIWVALGAAVACFVLSSLLMSGSKLGDIVTIEQRELTFDGAGLYVDNIYIMNIGLPERQDEILRYGMGFILTPKSFNIRSTIANLGQRQAILHDVSVTLGVFRDSGTPALVPLIKRDLNDGRIGVFILPQEKDPDRAREVIANVPVLENAIQKPGKRSG				NA	NA	NA	NA	NA
AK012_00596	585			hypothetical protein	ATGGCGGTTTACTGGTATGCCTGGGTGCTTTTGATTTGTATCTGTTTTTTTATGAAACAAACGCCGACAAGAACATCTCTGTTGTTTTTTTTGTGTGTTCTTATGTGCACCTTCAGCTGGACGTCTATTCACCCGTCTGTCTACCTATATGCCCATCTGGGTCTTCTCATGGTGTTCGGTCTTCATTTACTATCCTTTCAACAAAGACCGCTTGTGGTCTACTTTTGGCTGTTTTTCTTAAGTATCGGCTTTTCATCTGTCAGCCTTTTTATAACCATTCATCCTGTCTGGACACATCTGCCTGGATTTTCGATGGGCTTTGCCGTTGTCCTGTTGTTGAGAATGATTTTGAGTGATTTAAGAGGAATCGCCGGTTTCTGGCTGACTCTGAACGGTGCGGGCATGACGCTCACTTATGTAGTTCTCCGCTTATACGGAAGGGAAGGCGTGGTTATGACAGCGCCCCTGCTTGTTTTTGCTCTTAAAGGCCTTTTAATTCTTCTTTTTGTGCATGGATTACGCACATTGAAGAAAAATAATGCAGGAGCAGGAAAAAGTAAATATAAGGGAGACGCATATGCATGA	MAVYWYAWVLLICICFFMKQTPTRTSLLFFLCVLMCTFSWTSIHPSVYLYAHLGLLMVFGLHLLSFQQRPLVVYFWLFFLSIGFSSVSLFITIHPVWTHLPGFSMGFAVVLLLRMILSDLRGIAGFWLTLNGAGMTLTYVVLRLYGREGVVMTAPLLVFALKGLLILLFVHGLRTLKKNNAGAGKSKYKGDAYA				NA	NA	NA	NA	NA
AK012_00597	1038	fni	COG1304	Isopentenyl-diphosphate delta-isomerase	ATGGATATGAGCAGATCAAAAAGGAAGATTGATCATATCCGCCATGCTTTAGGTCATGAACGGGCGCCTTACAATCATTTTGATGATGTGAATATTGTTCATCAGAGCCTCGCCCGTTTGGATTTTAATCAAATCACGTTAAAGGCACAAGCAGGGGAACTTAATTTAAGTTCCCCTCTTTTTGTCAATGCGATGACCGGAGGAGGCGGAGAAAAGACCAGGGAAATCAACCGCGACCTGGCTGTTGCTGCAAAGGAAACAGGTATAGGTATGGCCGTGGGGTCCCAGATGTCCGCGATCAAAAGGCCGGAAGAACGGTCCACCTATGAAATTGTAAGAGAAATGAACCCTGACGGCGTAGTGTTTGCGAATGTGGGCAGTGAGGCGTCGCTTCAACAGGCTGTGGAAGCGGTGGACATGATTGACGCAAACGCCCTTCAGATTCATATCAATACGCTGCAGGAACTAATCATGCCGGAAGGAGACAGAGACTTCTCTTCCCGTATGTCCAATATTCAAGCAATCGTTGAAGGGATGGACAGGCCGGTGATCATTAAAGAGGTCGGTTACGGCATGTCGATGGAAACGGCGCAGACGCTTTACGATATAGGGGTCCGTTACATAGATGTCGGCGGACGAGGGGGAACCAACTTCTCGAGAGTGGAGAATCTGCGCAGGAAAAAGCCTTTGTCCTCCTTTAATAACTGGGGGATTCCTACACCCGCCTCCATACTTGAAGTGAAGAGCGGCCAAACGATGCACGTATTCGCTTCCGGAGGGATCAGGCACGGCCTGGATGGCGCGAAGGCGGCGGTTCTTGGAGCAAGTGGGTTCGGAATGGCCGGCTCTTTATTAAAGGTTTTAATGGAAGAAGGCAGAGAGGCGCTTATTGAAGAAATCAACCATGTTCACCAGGAATTCAAAATGGCTATGATGCTTTTAAATGCCTCCAGTCCTGAGGAGCTTCACCAGAAGCCTCATGTCCTTACTGGAGAAACAAGAACTTGGCAGGAGCAGCGGATCACTAAAGACCTATGA	MDMSRSKRKIDHIRHALGHERAPYNHFDDVNIVHQSLARLDFNQITLKAQAGELNLSSPLFVNAMTGGGGEKTREINRDLAVAAKETGIGMAVGSQMSAIKRPEERSTYEIVREMNPDGVVFANVGSEASLQQAVEAVDMIDANALQIHINTLQELIMPEGDRDFSSRMSNIQAIVEGMDRPVIIKEVGYGMSMETAQTLYDIGVRYIDVGGRGGTNFSRVENLRRKKPLSSFNNWGIPTPASILEVKSGQTMHVFASGGIRHGLDGAKAAVLGASGFGMAGSLLKVLMEEGREALIEEINHVHQEFKMAMMLLNASSPEELHQKPHVLTGETRTWQEQRITKDL	PGPT0007530_1112	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007530-idi-K01823	NA	NA
AK012_00598	1143	ypfD	COG0539	30S ribosomal protein S1	ATGGATGAAATGAATCAGGAAGTATCAGGAATGAAAGAATTCTCTGCAGGGGACATCGTGACTGGTAAGGTCGTGAAAATTGAAGAAAAACAAGTCCTTGTAGATGTTGGATATAAAGTCGAGGGGATTGTACCCATCAGTGAATTATCCAGCCTTCATGTAGAAAAAGCATCAGACGCAGTTAATGAAGGGGACGAATTAACCCTGCAGGTGAAGAAAGTAGAAGATGATGAAATTGTACTTTCCAAGCGTGCTGTTGACGCTGATAAGGCGTGGCAGGATCTTGAGGCTAAATTCGAAAGTGGAGAAATCTTCGAGGCTGAAGTCAAGGACGTTGTCAAAGGCGGTCTTGTTGTAGATATCGGTCTTCGCGGATTTATTCCAGCTTCTCTCGTTGAGACGTATTATGTGGAAGATTTTGAAGACTACAAAGGGAAAACTCTTTCTCTTAAAGTGGTTGAGCTTGATCGTGAGCAGAACCGTGTCATTCTTTCCCACCGTGCGGTTGTGGAAGAAGAGGAATCAGCTAAGAAGCAGGAAGTTCTTCAATCCCTTGAGGAAGGACAGGTCATTGAAGGTACAGTACAACGCCTTACTGACTTTGGTGCGTTTGTAAACCTTGGCGGTATTGACGGTCTTGTACATATCTCCCAGCTATCCCACCAGCATGTGGAAAAAGCGGCAGATGTGGTCGAAGAAGGCCAGTCCGTGAAGGTTAAAGTGCTTTCTGTTGATCGCGACAATGAAAGAATTTCTCTTTCTCTTAAAGCTACACAGCCTGGACCTTGGCATGATATCCAGAATAAGGTAAACTCTGGAGAAACTCTTGAAGGGACGGTACGCCGCCTTGTGAGCTTCGGTGCCTTTGTCGAAGTCTTCCCTGGAGTAGAAGGTCTTGTGCACATCTCCCAGATTTCCAACCGCCATATCGGTACGCCGGATGAGGTGCTTGAAGAAGGACAGACGGTTCAGGTTAAAGTTCTTGATGTGGACGAAGGGGCGAAACGCCTTTCTCTAAGCATGAAGGAACTGGAGCGCGATGAAACACGTGCGGACATTGAACAGTATGAAAAAGAAGAGGACAATTCCGGCTTCTCCCTAAGCGATATGATTGGTGACAAGCTGGATAAATACAAAAAATAA	MDEMNQEVSGMKEFSAGDIVTGKVVKIEEKQVLVDVGYKVEGIVPISELSSLHVEKASDAVNEGDELTLQVKKVEDDEIVLSKRAVDADKAWQDLEAKFESGEIFEAEVKDVVKGGLVVDIGLRGFIPASLVETYYVEDFEDYKGKTLSLKVVELDREQNRVILSHRAVVEEEESAKKQEVLQSLEEGQVIEGTVQRLTDFGAFVNLGGIDGLVHISQLSHQHVEKAADVVEEGQSVKVKVLSVDRDNERISLSLKATQPGPWHDIQNKVNSGETLEGTVRRLVSFGAFVEVFPGVEGLVHISQISNRHIGTPDEVLEEGQTVQVKVLDVDEGAKRLSLSMKELERDETRADIEQYEKEEDNSGFSLSDMIGDKLDKYKK	PGPT0007615_15	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
AK012_00599	582	plsC	COG0204	1-acyl-sn-glycerol-3-phosphate acyltransferase	ATGAGCCTCTATAAGATTGGGAAACTGCTCTGCAGTGTGATTTTTTATCCTCTGTACCGGATCAAAGTTGTAGGAAAAGAAAACATTCCTGCGGATGGACCGGTCATTATCTGTTCCAACCACATATCAAACGTTGACCCGCCGGTGGTTGGAATTACGAGCAGCCGGAATATTTATTTTCTCGCCAAAGAAGAGTTGTTTAAAAACCCTTTGATTGGGGGAATATTGAAAAAAGTCCACGCGTTCCCAATCAAACGCGGGATGAGAGACAGAAATGCTCTCCGCAAAGGTCTGGATATTCTGAAAGAAGGTCACGCCCTGGGATTGTTCCCTGAAGGAACGAGGCAGAAGAGTGGGGAAATTGGTCAGGGACTGGCCGGTGCCGGTTTCTTTGCCCTTCGATCCGAAGCTGTGATTGTTCCCTGTGCCATCATCGGGCCTTATCAGAAGTTTAAGCGTCTGAAAGTGGTTTATGGAGAACCAATCGATTTGTCGGAATACCGTGAACAGAAAGCTTCTGCCCAGGTCGTAACGGACCGGATCATGGAAGAAATCAGACAATTGCATAAAATTCATCAATGA	MSLYKIGKLLCSVIFYPLYRIKVVGKENIPADGPVIICSNHISNVDPPVVGITSSRNIYFLAKEELFKNPLIGGILKKVHAFPIKRGMRDRNALRKGLDILKEGHALGLFPEGTRQKSGEIGQGLAGAGFFALRSEAVIVPCAIIGPYQKFKRLKVVYGEPIDLSEYREQKASAQVVTDRIMEEIRQLHKIHQ	PGPT0024380_7133	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_ACYLTRANSFERASE_ACTIVITY,PGPT0024380-plsC-K00655	NA	NA
AK012_00600	684	cmk	COG0283	Cytidylate kinase	ATGATGAACACAATGACTATTGCAATTGACGGTCCAGCGGCTGCCGGCAAAAGCACAGTAGCAAAAAAAGTCGCAGAAAAACTCTCTTTTATTTATGTGGATACAGGAGCAATGTACCGCGCTCTAACATGGAAAGCCATTCAGGAGAAAGTGTCCCTGGAGGATGAGGAAGCCCTTTTCTCTCTGTTAAACCGAACAGATTTAAACCTCGTGCAGTCGGATAAAGGACAGCTGGTCATCGTAGACCAGAACGATGTGTCTGAATTGATCCGCACAGCAGAAGTCACCAACCAGGTTTCCATTACAGCGAAGCATAGGAAAGTCCGGGAGGAAATGGTACGCCGTCAGCAGGAACTGGTGAAGGATAAAGGTGTTGTCATGGACGGACGTGACATCGGCACTCATGTGCTTCCGGATGCGGAAGTGAAAATCTTTATGATCGCATCCGTGGATGAAAGGGCTGAGCGCCGCCATAAGGAAAATGTGGAAAAAGGTTTTCCTTCCAATCTTGAGGAACTTAAAGAGGAAATCCGCCGCCGCGATGAGCTGGATTCCAACCGCGCTGTATCTCCTCTCATAAAAGCGGATGATGCCGTTGAAGTGGATACCACTTCTATGGACATTGAAGAAGTAGTGGACCGTATCCTTCAAATTGTGAAACAGAAAAGTGAAGAGGAGGAATAA	MMNTMTIAIDGPAAAGKSTVAKKVAEKLSFIYVDTGAMYRALTWKAIQEKVSLEDEEALFSLLNRTDLNLVQSDKGQLVIVDQNDVSELIRTAEVTNQVSITAKHRKVREEMVRRQQELVKDKGVVMDGRDIGTHVLPDAEVKIFMIASVDERAERRHKENVEKGFPSNLEELKEEIRRRDELDSNRAVSPLIKADDAVEVDTTSMDIEEVVDRILQIVKQKSEEEE	PGPT0021220_2076	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021220-cmk-K00945	NA	NA
AK012_00601	1341	ypeB		Sporulation protein YpeB	ATGATCAGGTGGTCACTTGTTGTTGTGTTAAGCATTGCTGCCGTAGGTCTTGGGGTGTGGGGGTATCAGGAGAATCAGGATAAAAACGCCGTTCTTATTCAAGCAGAAAACAGTTATCAACGCGCTTTCCATGACCTTACGTATAACATTGATCTTCTTCACGATAAAATCGGATCCAGCCTTGCTATGAACTCGAAGCAGAGTTTATCCCCGCAGCTGGCAGATATTTGGAAAATTTCTTCTGAAGCTAATACAGATGTAGGGCAGCTGCCGCTTACGCTGCTTCCGTTTAATAAGACGGAGGAGTTTCTGTACGATATTGGGGATTTTGCCTATCGTACAGCGGTAAGGGATCTGGAGAAAAAACCGCTGAGCGATGAGGAAATCAAACTATTGGAAGAGCTGCACGCGAAGTCAGGGGAAATTGAAGAAGAATTGAGAAAAGTACAGAATGAAGTGTTGAGTGACAACCTTCGCTGGATGGACGTGGAACTGGCACTGGCCACAAATGATGAAGTCGGCGATAACACAATTGTCAACGGATTTAAAACCGTGGAGAAATCGATGGACAGCTTTGAAAGCTCCGTTACAGAAGTCGGTTTCGGCAGTTCCGGACCTGAGAAAGACTACCGCGATCTTCAAGGAGAAAATCTGACGAAAGCGGAAGCCCGGAAACAGGCTTCCAAATGGCTTGAAAAAGTCGATACAGAGAAGCTTACGCTGACGAAGTCAGGAAAGGGAGCAGATGTTCCTACTTATACAGCCTCTTTTCAGGAAGGAGATAAAAACGGTTATATAGACCTTACTGAAAAGGGCGGTCATCCATTAACCATCATGATCAGTCGTGAGGTCAGCGATCCTCAGATCAGCCTTTATGAAGCCTCTGAGAAGGCTAAAGAATATGTCGGCAGGCTGGACATCGATAATCTTGAACTCGTAGAGAGCAACCAGTACGACAAAATGGGAGTTTTCCGCTTCCTTTATACCAAAAATGACGTCCGTTTTTTCCCGGATACCGTTGTTGTTAAAGTAGCTCTGGATAATGGTGAAATCCTGGGACTGTCGGCCAGGGACTATTATGACTACCATATAGATCAGGATTTGAATGAGCCGGAAATTTCTCTTGAAGAAGCCCGTTCCAAAGTGAATCCGAATGTAGATATTCAGGAACATCACTTGTCTGTGATCGAGAACGATTTGAAAGAGCAGGTGCTCTGTTATGAATTCCTTACGACCATGGAAAGCACGACATACCGGATCTTCATTAATGCTTCCACAGGAGAAGAAGAAAAGGTGGAAACATTGAAGAAGGCGGAGATGAAATTCAACCAGGAGATATAA	MIRWSLVVVLSIAAVGLGVWGYQENQDKNAVLIQAENSYQRAFHDLTYNIDLLHDKIGSSLAMNSKQSLSPQLADIWKISSEANTDVGQLPLTLLPFNKTEEFLYDIGDFAYRTAVRDLEKKPLSDEEIKLLEELHAKSGEIEEELRKVQNEVLSDNLRWMDVELALATNDEVGDNTIVNGFKTVEKSMDSFESSVTEVGFGSSGPEKDYRDLQGENLTKAEARKQASKWLEKVDTEKLTLTKSGKGADVPTYTASFQEGDKNGYIDLTEKGGHPLTIMISREVSDPQISLYEASEKAKEYVGRLDIDNLELVESNQYDKMGVFRFLYTKNDVRFFPDTVVVKVALDNGEILGLSARDYYDYHIDQDLNEPEISLEEARSKVNPNVDIQEHHLSVIENDLKEQVLCYEFLTTMESTTYRIFINASTGEEEKVETLKKAEMKFNQEI	PGPT0025130_301	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025130-ypeB-K06313	NA	NA
AK012_00602	852	sleB	COG3409	Spore cortex-lytic enzyme	ATGTTATGGAAGAAAACAATGGTCGTTACTGCAGGTTTAGTCCTGCTGATATTCCCTATAGCAGATGGAACATGGAGCAAACCGGTCCATGGATTTTCCAGTCAAGTCATCCAGCAGGGAGCAACAGGAGATGATGTTATTGAACTGCAGGCAAGGCTTCAATATCTCGGGTTTTACAACGGTGATATTGATGGCGTGTTTGGCTGGGGGACGTACTGGGCGCTTAGAAATTTCCAGTATGAGTTCGGTTTGGATATCGATGGTCTGGCCGGACAGGAAGTGAAGAATAAACTCGTCAAAGCCAGTAACTATGATGAGGGCTATGTAAAAAAACAAATCCAGGAAGGAAAAGACTTCACTCATTACGGGGGCGTTCCTAAAGGTCAGCAGACGAAGCAGCCTTCCGGACAGTCTTCGAACCAGCCACAGGGCGAGGGTGGAAACGAGGGCGGGGGACAGCCGGACGAACCGACAGCCGTCAACGTTCCCAGCGGGTATTCTCAAAATGACATACAGCTTATGGCGAATGCGGTCTACGGAGAAGCCAGAGGGGAGCCCTATGTCGGTCAGGTGGCCGTGGCAGCTGTCATATTAAACAGGGTTCAGAGTGCCTCTTTTCCCAATACGGCCTCGGGCGTCATATTCGAACCACGGGCATTTACAGCCGTCGCTGATGGTCAAATCTGGCTTGAGCCGAATGATCAGGCAAAAGAGGCGGTGATGGATGCCATCAATGGGTGGGATCCATCCGGTCAGGCTTTGTATTATTTTAATCCGAATACCGCTACGTCAGACTGGATTTGGACAAGACCCCAAATCAAGCAGATTGGAAAACATATCTTTTGTAAATAG	MLWKKTMVVTAGLVLLIFPIADGTWSKPVHGFSSQVIQQGATGDDVIELQARLQYLGFYNGDIDGVFGWGTYWALRNFQYEFGLDIDGLAGQEVKNKLVKASNYDEGYVKKQIQEGKDFTHYGGVPKGQQTKQPSGQSSNQPQGEGGNEGGGQPDEPTAVNVPSGYSQNDIQLMANAVYGEARGEPYVGQVAVAAVILNRVQSASFPNTASGVIFEPRAFTAVADGQIWLEPNDQAKEAVMDAINGWDPSGQALYYFNPNTATSDWIWTRPQIKQIGKHIFCK				NA	NA	NA	NA	NA
AK012_00603	678	prsW	COG2339	Protease PrsW	TTGGCCATATTGACCGCTGCCATATCACCTGCTGTGGCCATCATGACGTTCATATATCTAAGCAAGCGTATAGAACTTGAGCCTCTCCCTCTTATTATACGGATGTTTGTCATCGGCGTCATTATGGTTTTTCCCATCATGTTTATCCAGTATGCTTTTGAAGCGGAGCAGGTGATTACCAATCAGTTGTTCGTCTCCTTTTTCCTTGCAGGTCTGCTTGAAGAATTTTTCAAATGGTTTTTTCTCTTGTTTGTCGCTTACAGACATTCTCATTTTGATCACCATTATGATGGGATCATCTACGGCGGAGCGATCAGCCTCGGCTTTGCGACTATTGAAAATGTCCTTTTCCTTTTTAATAAAGGGATTGAAATTGCCATCCTTCGTGCAGTGTTTCCTGTTTCTTCCCATGCCTTGTTCGGTATCATCATGGGGTATTACATGGGAAAGGCGAAATTCACAACGATCCATGTACGCAAATCACTGGCGTGTGCCCTTATCATTCCTGTTGTCTTACATACCGTCTATGATTACATCATTACGATCCAGACGGATACGTGGGCCTATTGGATTACTCCGTTCATGATACTGTTATGGATCGTCGGTTTTCGGAAAATCCGGCTCGCCAATGATCACCATGAATCCATTCATTATAACCATCAAGAGACACCCCGCTGA	MAILTAAISPAVAIMTFIYLSKRIELEPLPLIIRMFVIGVIMVFPIMFIQYAFEAEQVITNQLFVSFFLAGLLEEFFKWFFLLFVAYRHSHFDHHYDGIIYGGAISLGFATIENVLFLFNKGIEIAILRAVFPVSSHALFGIIMGYYMGKAKFTTIHVRKSLACALIIPVVLHTVYDYIITIQTDTWAYWITPFMILLWIVGFRKIRLANDHHESIHYNHQETPR				NA	NA	NA	NA	NA
AK012_00604	969	ansA	COG0252	L-asparaginase	ATGAAGCGTATTTTAGTTATACATACAGGTGGAACCATCTCGATGCAGGAAGATAAGGAAACCGGTGAAGTCAACACTTCCTCCCGCCATCCTCTGGAGGAAATTTCAACAGTCCTTAAAGGGCATGTGGAAATCGAGGATGACATTCTCTTTTACCTGCCCTCCCCGCATATCCGGCCGGACCATATGCTGAAGCTCGGCCGCTATGTGCATGAGAAGATGGCTGAGCGGAATTATGATGGAGTGGTGATCACACACGGGACCGACACATTGGAGGAGACCGCCTATTTCCTGGATTTGTTTCTCCAGACGAGGAAACCAGTGGTTGTTACGGGGGCGATGCGCTCAAGTAATGAAATAGGATCGGATGGTCTTTATAACCTGCTCAGCGCCATCCGTGTGGCCAGCTGTGACGAAGCGCAGGATAAAGGAGTACTCGTGGTCATGAACGATGAAATTCACACGGCCAAAAATGTAACAAAAACAAGCACCAGCAATGTAGCTACTTTCCAGAGCCCTCAATACGGCCCTATCGGAATAACCACGAAAACGGATGTCTTTTTTCACCATAAAATGACCCGTCATGAGTCTTATCCGATCCAAAGGATAGGGAAGCGCGTTTCCCTGATTAAAGCTTATGCAGGCATGGACGGCGATCTAATTGACGCCGTTCGCGAAAGCAGCGTCGATGGTTTGATCATTGAGGCCCTCGGTCAGGGCAACCTCCCTCCTGAAACGATGGAGGCGCTCAAGAAGACGATACAGGAAGGGATTCCCGTTGTCCTTGTTTCCAGATGCTATCAAGGGACTGTCCAGGACACATACGGCTACCCCGGCGGCGGACGCCAGCTCCGGGAAATGGGTATCATTTTTGCTAACGGCGTGACTGGACCGAAAGCCCGGATCAAGTTAATGGTCGCTCTGGAAATGACAACGAATCGAACAGAGCTTGAACATATGTTCAGTTGA	MKRILVIHTGGTISMQEDKETGEVNTSSRHPLEEISTVLKGHVEIEDDILFYLPSPHIRPDHMLKLGRYVHEKMAERNYDGVVITHGTDTLEETAYFLDLFLQTRKPVVVTGAMRSSNEIGSDGLYNLLSAIRVASCDEAQDKGVLVVMNDEIHTAKNVTKTSTSNVATFQSPQYGPIGITTKTDVFFHHKMTRHESYPIQRIGKRVSLIKAYAGMDGDLIDAVRESSVDGLIIEALGQGNLPPETMEALKKTIQEGIPVVLVSRCYQGTVQDTYGYPGGGRQLREMGIIFANGVTGPKARIKLMVALEMTTNRTELEHMFS	PGPT0020180_3450	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
AK012_00605	1032		COG0492	Glucosaminate ammonia-lyase	TTGAAAATGAACGGAAGAACGTTGTTGGAAAGAGGAGTGTTACACGTGCATCAACAAGAAAAAGCCATTATCATCGGCGGCGGCCCCTGTGGAATGAGTGCAGCTATTGAACTTCAGAAAGCCGGCATTGAACCGTTAATTATTGAAAAAGGAAACATTGTGAATTCTATTTATCATTATCCGACACACCAGACTTTCTTCAGTTCCAGCGAAAAACTGGAAATTGGAGAAATCCCTTTTATTTCTGAAAGGCAGAAGCCGGTTCGGAATGAGGCGCTCGCTTATTACCGTGCTGTTGCGGAGCGGGAGAACTTACGAGTGCATACGTATGAAAAAGTCCAAAAGGTTGAAAAAGAGGCGGACGGTTTTATCATTCATACAGAGAAATCAACAGGTGAAAAACCGACGTATGCAGCTGAACAGGTGATTGTTGCTACGGGGTATTATGACCAGCCGAACTTTATGGGTGTCCAAGGAGAAGATCTTCCAAAAGTGATGCACTACTTCAAAGAAGGGCATCCCTATTACAACAAAAATGTAGTCATCGTCGGAGGAAAAAACTCTGCGGCGGATGCAGCTTTGGAACTGGAAAAATCAGGCGCGAATGTTACCGTTCTTTACCGTGGTGAAGACTACTCGAAAAGCATCAAGCCCTGGATTCTTCCCCAGTTTGAAGCACTTGTCAGAAAAGGAATCGTTACCATGGAATTCTGCGCCGACATAAAAGAAATTACTCAGGATTCAGTCATTTATGAGTGTCATGGAGAAGAAAAAAGCGTGGAGAACGATTTTGTCTTTGCTATGACCGGCTATCAGCCCGACCACAGCTTCCTGACTAAAATGGGAGTGGAGATGGATGAGGTCACCGGCCGCCCGTCGTTTAATGAAGATACAATGGAAACGAATGTTCCGGGTATTTATATTGCCGGTGTGATCGCTGCCGGATATAACAATAATGAAATCTTTATTGAAAACGGACGCCATCATGGTGGGAAAATAGCGGCTTCCATTGCAGCACAATCGAAAGCATAA	MKMNGRTLLERGVLHVHQQEKAIIIGGGPCGMSAAIELQKAGIEPLIIEKGNIVNSIYHYPTHQTFFSSSEKLEIGEIPFISERQKPVRNEALAYYRAVAERENLRVHTYEKVQKVEKEADGFIIHTEKSTGEKPTYAAEQVIVATGYYDQPNFMGVQGEDLPKVMHYFKEGHPYYNKNVVIVGGKNSAADAALELEKSGANVTVLYRGEDYSKSIKPWILPQFEALVRKGIVTMEFCADIKEITQDSVIYECHGEEKSVENDFVFAMTGYQPDHSFLTKMGVEMDEVTGRPSFNEDTMETNVPGIYIAGVIAAGYNNNEIFIENGRHHGGKIAASIAAQSKA	PGPT0013060_3847	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK012_00606	1281	gudB	COG0334	Cryptic catabolic NAD-specific glutamate dehydrogenase GudB	ATGGTAGCCGATAAGCCTGCAGACAATGCAAATGAAAAAAATGACAAACTTGACGTGTTAAAATCCACGCAGACCGTGGTTAAAAAAGCACTTGATAAATTAGGATACCCCAATGAAGTATATGAATTAATGAAAGAGCCTGTTCGTATGATGACCGTAAGAATTCCTGTAAGGATGGACAACGATCAGATCAAAATCTTTACAGGGTACAGGTCCCAGCATAATGATGCTGTAGGTCCGACCAAAGGCGGCGTCCGTTTTCATCCCAATGTATCTGAAAAAGAAGTCAAAGCACTCTCCATATGGATGAGTTTAAAAGCCGGCATCGTAGACCTCCCTTATGGCGGTGGAAAAGGCGGCATTGTATGTGACCCCAGGGAGATGTCCTTCCGTGAGCTGGAAGGGGTCAGCCGCGGGTATGTCCGGGCGATCAGTCAGATTGTGGGCCCGACGAAAGATATTCCTGCACCTGATGTATTTACCAATTCACAAATTATGGCGTGGATGATGGATGAATACAGCCGTATCGATGAATTTAACAATCCCGGCTTCATCACCGGGAAACCGCTCGTGCTCGGCGGCTCCCACGGCAGGGAAACGGCGACTGCCAAAGGTGTAACCATCTGCATTGAAGAAGCAGCCAAGAAAAAGGGCATCAATGTAGAGGGGGCAAGAGTCGTCGTTCAGGGCTTTGGTAATGCCGGAAGCTTCCTTGCGAAATTCATGCATGATAAAGGAGCCAAAGTGGTCGGTATTTCTGATGCCTACGGAGGACTGCATGACCCGGATGGTCTTGATATTGATTATCTTCTTGACCGCCGTGACAGCTTCGGGACAGTGACCAACCTGTTCAATAATACGATTACGAACGAAGAGCTGTTGGAACTGGACTGCGATATCCTTGTTCCAGCAGCCATTGAAAACCAGATTACAGAAGAGAACGCCCATAACATTAAAGCGAATATCGTCGTAGAGGCAGCGAACGGCCCGACAACCCTGGAAGCTACAAGGATCCTTTCTGAGCGCGGCATCCTTCTTGTGCCGGATGTCCTTGCTTCTTCCGGAGGAGTAACCGTTTCCTACTTCGAATGGGTGCAGAACAATCAGGGCTATTACTGGACAGAGGAAGAAGTGGAAGAGAAGCTTCATAACGTCATTGTCAAAGGCTTCGACAATGTTTACCGGACATCGGAGACGCGCCGGGTAGATATGAGACTGGCCGCTTATATGGTCGGGGTCAGAAAAATGGCGGAAGCATCTCGTTTCCGTGGATGGATATAA	MVADKPADNANEKNDKLDVLKSTQTVVKKALDKLGYPNEVYELMKEPVRMMTVRIPVRMDNDQIKIFTGYRSQHNDAVGPTKGGVRFHPNVSEKEVKALSIWMSLKAGIVDLPYGGGKGGIVCDPREMSFRELEGVSRGYVRAISQIVGPTKDIPAPDVFTNSQIMAWMMDEYSRIDEFNNPGFITGKPLVLGGSHGRETATAKGVTICIEEAAKKKGINVEGARVVVQGFGNAGSFLAKFMHDKGAKVVGISDAYGGLHDPDGLDIDYLLDRRDSFGTVTNLFNNTITNEELLELDCDILVPAAIENQITEENAHNIKANIVVEAANGPTTLEATRILSERGILLVPDVLASSGGVTVSYFEWVQNNQGYYWTEEEVEEKLHNVIVKGFDNVYRTSETRRVDMRLAAYMVGVRKMAEASRFRGWI	PGPT0020205_125	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMATE_DEGRADATION|CONVERSION,PGPT0020205-gudB|rocG-K00260	NA	NA
AK012_00607	945	ddlB	COG1181	D-alanine--D-alanine ligase B	ATGAAGATTGCGGTTTTATATGGAGGAACCTCAGGGGAACGGGAAGTTTCCTTGTCTACTGGAAAGGGAATTATACAAGCATTAGAAAATAAAGGACATGAAGTAACGGCTGTTGATTTTTCTCCGGATAAGCTGGACCAAGTGACAGCGCTGGATGTAGACCTTGTATTTATTGGTCTGCACGGGCGTTTTGGAGAAGATGGCAGAATACAAGGGGTTCTGGATATGAAAGGGCTCCCTTACGTAGGGTCAGGAGTGCTGGCTTCTGCCTTAGCCATGGATAAGGCTAAATCCAAGCAGATCTTTTCCTGGAATGGATTGAATACGGCTGAAAGTGCTGTCTTCGATGTCACAGATGAAAACCGGTGGTCTATGATTGAAGGTACGATCAAGCAGCAGTTCCAGCTTCCATTTGTCATTAAACCAAATCAGGAAGGATCGACGCTCGGCCTTACCATCGTAAAGGATGAAGCGGATATTGCCGGTGCGGTACGCACAGCAGCCCAGTCCGATTCTATGATTCTCGTAGAAGATTATGTGAAAGGAAGAGAAGTGACGGTTCCTGTTATGGGGCGAAGGGGAGAGGAAAAAGCCCTCCCGGTCATAGAAATTATTCCGAAGAATGATTATTACGATTTTGATTCAAAATATCAACCAGGTGGAAGTGAACATATTGTACCAGCTGAACTGCCGGCCGATATAACCGCAAGGCTTCAGGAAGATGCGGTGCGTGCCCATCAGCTGCTGGGGTGTGAGGTCTATTCACGGGTTGATTTCATTATCAACGATAAACATGAACCGGTTATTCTCGAAGTCAATACCCTGCCGGGAATGACTCCGACGAGTCTGTTTCCTGATGCTGCTGCAGAGATCGGCTTAAGCTATGATGATTTAATCCAATCATTCGTGGATCTGTCCCAGCCTGCGTTCGAGAAAAAAGTGTAA	MKIAVLYGGTSGEREVSLSTGKGIIQALENKGHEVTAVDFSPDKLDQVTALDVDLVFIGLHGRFGEDGRIQGVLDMKGLPYVGSGVLASALAMDKAKSKQIFSWNGLNTAESAVFDVTDENRWSMIEGTIKQQFQLPFVIKPNQEGSTLGLTIVKDEADIAGAVRTAAQSDSMILVEDYVKGREVTVPVMGRRGEEKALPVIEIIPKNDYYDFDSKYQPGGSEHIVPAELPADITARLQEDAVRAHQLLGCEVYSRVDFIINDKHEPVILEVNTLPGMTPTSLFPDAAAEIGLSYDDLIQSFVDLSQPAFEKKV	PGPT0020050_4538	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
AK012_00608	585	mecB	COG4862	Adapter protein MecA 2	ATGCGAGTAGAGAGAATGACGAATGAAAAATTCAAGATTTTCCTTACTTTTGACGATTTAATGGACCGGGGCCTCTCCCGCGAGGAACTTTGGAATGATTTACCTCGTGTACACCGGATATTCAGCGATATGATGTACGACGCAGGCATAGAGCTTGGGGTGGAGCTTACAGGTGTTCTGCTCGTGCAGGTTTACCTGCTTCAGGCACAGGGCATGCTGGTCGTCGTGACAAAAACAGAGCCTGCTGATATTGAGGAAGATGACGAAGATTACCTGGAAATGAAGGTTACCCTTGATGAGAGCAAGGAAATGATGTTTTCTTTTTCCGATTTTGAGCACGTCATCCAGGCGGGCACTCATCTGCATCAGCTTGGTGTGACCGGAGGAAGCATTTATCACTATGAGGATTCCTATTATATGCTTCTGGAAGATACAGAGATAGACCATATGGATCAGGACCAGGTCATTGCCCTGCTTTCTGAGTATGCTTCAGCTACAGCCGTTACGTCACACCGGCTGATCGAATATGGGAATACAATTATGGACAAAGATGCCTGTCTATCACTAATTAAACATTTCTCTTAA	MRVERMTNEKFKIFLTFDDLMDRGLSREELWNDLPRVHRIFSDMMYDAGIELGVELTGVLLVQVYLLQAQGMLVVVTKTEPADIEEDDEDYLEMKVTLDESKEMMFSFSDFEHVIQAGTHLHQLGVTGGSIYHYEDSYYMLLEDTEIDHMDQDQVIALLSEYASATAVTSHRLIEYGNTIMDKDACLSLIKHFS				NA	NA	NA	NA	NA
AK012_00609	900	carH		HTH-type transcriptional repressor CarH	ATGGCAACAACTAAAGCAAAATATAATATTAAAGCGGTGTCACAGATGCTGGGCATCCAGCCTGGAACACTCCGAGCCTGGGAACGTCGGTACAAAATGATCCGTCCATCACGGAATGAAGCGGGTCATCGTCTTTATACAGATGAGCACATCAGGATTCTAAAATGGTTAATGGAGAAAGTGGATAAAGGCTTTACCATTTCACAAGCCGTTTCACTTCTTGAGAGTAATGAAGAAGCGGTTACACATACCGAACAACAGGAAAACCGCACGCAGCTCGATAAAATTGGTGATCAGCTGCTCGACAGTCTGCTTTCATTTAATGAAAACGAAGCCCAGCGGCATCTGGATCATGCGTTCAGTCTATTCACGCCTGAAACAGTCGCCATCGATATCATCGGCCCCATCCTCGTCAAAATCGGGGATTTATGGGAAGAAAACAAAATCACCAGTGCCCACGAGCACTTCGCCAGCCAGTTTATCCGCTCCCGGATAGGGATGATGCTTCTTTCCATTCCGTCTGACAGTATGCTTCCTAAAGCTCTGCTTGTATGCGGACCGAATGAACGGCATGAGCTGGGACTGCTGATATTTGCCCTCTTCCTGAAAAGGAAGGGCTATGATGTCATTTACCTCGGCCAGAGTATAGCCGGCGGAGATATTGATATCGTAATCAATGAAATCGATCCTGCGTATATGTTCATGTCCTGTACATTAAAGAAAAACATTCCGATTACGATCCGTCTGGCGGAGGCGCTCCAGCGTGAATTTCCATCTCTTAAGATCGGTCTCGGCGGTTATGCCTACGACCGGCTGTCTGAATTGGATAAAAAGCGTATTCAGCCGTTTATCGTTGGAAATTCCAAGCGGGCGTGGGAACAGTGGCTGCAAACGAACTAA	MATTKAKYNIKAVSQMLGIQPGTLRAWERRYKMIRPSRNEAGHRLYTDEHIRILKWLMEKVDKGFTISQAVSLLESNEEAVTHTEQQENRTQLDKIGDQLLDSLLSFNENEAQRHLDHAFSLFTPETVAIDIIGPILVKIGDLWEENKITSAHEHFASQFIRSRIGMMLLSIPSDSMLPKALLVCGPNERHELGLLIFALFLKRKGYDVIYLGQSIAGGDIDIVINEIDPAYMFMSCTLKKNIPITIRLAEALQREFPSLKIGLGGYAYDRLSELDKKRIQPFIVGNSKRAWEQWLQTN				NA	NA	NA	NA	NA
AK012_00610	789	ypbG	COG1408	putative protein YpbG	TTGTTGGAATGGATACTATTATTGACCCTGGCAGGAGTCTGTTTACTGGTGTACATGATGTACCGGGCTGGTAACGATCACATCGAGGAGCAAACGATACAGGTGGATGCTGAAAATAGTGGGAAGCGCCTGCGTATTTTCTTCATTTCAGACATACATAACCGGTCAATTAAAGAAGAGACGCTGAACCGGGCCGTAAATGTGGACATCGTCGTTATCGGAGGAGATCTCGTGGATAAGCGGACCTCCGTTGCCAAGCTGGAAACGAACCTGAGGCTGTTGACCCGTTTGGATGCGCCGATTTATTTTGTACCCGGCAACAATGATCATGAACTGGTCAAAGAGCCGGTTACAGCGGTTTTGGACAGGCATCGGATAGAAGTGTTGTCCAACGAGGATACAGCAGGAGAAAGCAGAGGTGGAACGCCTTTTGTGCTGACGGGCCTCGATCCCTATTTCCTGAAACCCAGACGGTCCACGGAACTGACGGCTTCCTCTCATCTCCGCATTTTATGTGTACACGATCCTTTCGTTTACTATCAGATGAATGGAGAGGAAAAAATGAAGTACGATCTCGTGTTAAGCGGCCATACTCATGGTGGGCAGATCCGTTTATTTGGGATGGGTCCCTACCAGCGCGGGGGGTGGAGCAGAGCTTCTTCCATTCCTCATTTTGTCAGCGAAGGATATGGAACATCCCTTCTGCCCTTGAGGCTTGGGACGAGAGCCGAGTGCCACGTAATTGAAGTCGTCGGAAATGTAAAGGATGTATCTAAAAAGCTTTCATAA	MLEWILLLTLAGVCLLVYMMYRAGNDHIEEQTIQVDAENSGKRLRIFFISDIHNRSIKEETLNRAVNVDIVVIGGDLVDKRTSVAKLETNLRLLTRLDAPIYFVPGNNDHELVKEPVTAVLDRHRIEVLSNEDTAGESRGGTPFVLTGLDPYFLKPRRSTELTASSHLRILCVHDPFVYYQMNGEEKMKYDLVLSGHTHGGQIRLFGMGPYQRGGWSRASSIPHFVSEGYGTSLLPLRLGTRAECHVIEVVGNVKDVSKKLS	PGPT0022365_4152	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LIPID_A_METABOLISM,PGPT0022365-lpxG-K07098	NA	NA
AK012_00611	639			hypothetical protein	ATGTTTGTAAAGACGATTATGAAACCAGTGCATCAATCATTTACTGCAGATGTGAACAGCAGTCTGAAAGAGGTACTGGAACTATTGGACCAGAAAAATATCGAGGCTGTACCTGTGCTGGACGGAAGTATTTTCAAAGGCATGATCTCAAAGGAAATGATTTATGAATCCTTCTATAAAAATGCGGATCAGCAGGGGGCTGAAGCATTTCTCCAGGATACTTGTGCCGGGGAAACCGCCGGATATGAAGATTTCTGTATCACAAATGAGGAAGTCTTTGAACGGACCCTCCCTATGTTCAAAGGTTTTGCGGTGCTCGCTGTGGTGGATGATAACCGTGTGTTCCAAGGTCTTGTGACACGGTATGATGTGATTGAACAATTTGAAAGTGCCTTTGGTGTGAAGAAACAAGGCATTCGGATCGCATTTACTTCAGAGGAGTCCGAAGGGCGCATTGAACGATTGGGAGATATCATCAAAAACTACCATGAAAATGTGATTTCCCTTGCTACATTTGATGAGACAGACAAACTGGCAAGAAGAATTGTTTTAAAAATAGAGGAAAACGATAATATCGAAGCCTTTACAAAGAAACTCGAAAAAACGGGTTTTCGAATCTTAAGTGTCAAACATGTGTGA	MFVKTIMKPVHQSFTADVNSSLKEVLELLDQKNIEAVPVLDGSIFKGMISKEMIYESFYKNADQQGAEAFLQDTCAGETAGYEDFCITNEEVFERTLPMFKGFAVLAVVDDNRVFQGLVTRYDVIEQFESAFGVKKQGIRIAFTSEESEGRIERLGDIIKNYHENVISLATFDETDKLARRIVLKIEENDNIEAFTKKLEKTGFRILSVKHV				NA	NA	NA	NA	NA
AK012_00612	222			hypothetical protein	ATGTATACACCCGTGAAGTGCTATCACCCTTACTACGGGCCTTATGATCCATGTCCACCCTGCAAGACCAAGTGTTACCAGACACCACCCAATTTATACCTTGGTTTTCAGCCGATGAACCTGCAGCAGTACCCTCTCCAGGAAGCCCTGTACAAAGGAACCCTCTGGCCGTGTCTTTACGACCCCTATCCGACGCCCGTGCCTGAAGGAGGAAAAAGATGA	MYTPVKCYHPYYGPYDPCPPCKTKCYQTPPNLYLGFQPMNLQQYPLQEALYKGTLWPCLYDPYPTPVPEGGKR	PGPT0025175_139	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025175-cotJA-K06332	NA	NA
AK012_00613	270			hypothetical protein	ATGAAGCAGGGTCAATCCCACGATCAGGAGCGTTATTCCCTGATGGAAAAAATTCAAATGGTTGATTTCGCACTGGTTGATTTAACGCTTTATCTGGACACTCACCCTGAGGATACTCAAGCCGTACAGCAATTCAATCAACTTGCTGTAGAAAGCCTGGATTTAAAAACCGTGTATGAGCAGAAATACGGTCCGTTACGGCAGTATGGGGGGAGTTTCTCCGGCTATCCGTGGAACTGGGCCGATTCCCCGTGGCCTTGGCAGCTGTAA	MKQGQSHDQERYSLMEKIQMVDFALVDLTLYLDTHPEDTQAVQQFNQLAVESLDLKTVYEQKYGPLRQYGGSFSGYPWNWADSPWPWQL	PGPT0025180_97	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025180-cotJB-K06333	NA	NA
AK012_00614	570			Manganese catalase	ATGTGGTTTTATGAAAAGAAACTGCAGTACCCCGTTAAAGTGACCGAATGCAACCCGAGACTGGCGAAGTATCTTATCGAACAATACGGCGGGGCTGACGGGGAACTGTCGGCTGCCCTCCGTTATTTGAATCAGAGATATACCATCCCTGATAAAGTCATCGGCTTATTAACGGATATCGGGACCGAAGAGTTTGCCCACCTTGAAATGATCGCAACGATGATCTATAAATTGACCAAGGATGCAACACCTGAACAAATGAAAGAGGCAGGGCTCGGTGCCCATTACGCCAATCACGATCACGCGCTGTATTATCAAAATGCCGCAGGGAGTCCGTGGACAGCTACATATATAGCAGCCAAAGGAGATCCCATTGCAGATTTGTATGAGGATATAGCCGCAGAGGAAAAAGCACGGGCCACCTATCAATGGATCATTAATATGTCCGATGACCCGTGCCTGAATGACAGCCTCAAATTTCTCAGGGAGCGCGAGGTCATCCACTCCCAGCGTTTCCGGGAGGCTGTGGAAATATTAAAATTCGAAAAAGACCGCAAACAGTTTTTTTGA	MWFYEKKLQYPVKVTECNPRLAKYLIEQYGGADGELSAALRYLNQRYTIPDKVIGLLTDIGTEEFAHLEMIATMIYKLTKDATPEQMKEAGLGAHYANHDHALYYQNAAGSPWTATYIAAKGDPIADLYEDIAAEEKARATYQWIINMSDDPCLNDSLKFLREREVIHSQRFREAVEILKFEKDRKQFF	PGPT0025185_157	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025185-cotJC-K06334	NA	NA
AK012_00615	291			hypothetical protein	ATGCATCAAAAACATAAACAGGAAAGCGGAAGCCGGGAGGAAAAGGAGCAGGAGGAACTGGATGTTCTAGACCTTCCACCACGACAGGCCGTCCATACGAACAGGATGGGAAGGGTTAAGTGGAAAGTAAGTACTGCCTGGATCCGTTTTTGGTTTATCGTATTCATTGTTCTCATTTGTTTTGTCCTGTCTTATCCATTCTGGGGAGAATGGTTTGAAGGAATTTCTTTTCATCCGTTGGAACTGAATGAAAAAGCGCCCAACCATGAAGAAATCACGGTAGAGCGCTGA	MHQKHKQESGSREEKEQEELDVLDLPPRQAVHTNRMGRVKWKVSTAWIRFWFIVFIVLICFVLSYPFWGEWFEGISFHPLELNEKAPNHEEITVER				NA	NA	NA	NA	NA
AK012_00616	603			hypothetical protein	ATGCGTAATACACAGCAGGAAATGATCCAGGAGATGTCCGACAATGAGATTACCTTTCATCTCCTGTTAACGCAGGTAATGATATTGTCCGCTGCTGTAGGGTTGAGTGCTTTTTTCTTTGATGCGTTTCTTACGGAGTGGCTGGAGCAGTTTTATACAAGCTGGCAGGAGTGGTGGCTGTATGGTATCATTCCAGGACTTATTGTCCTTCTCATTGACCTCTTTCTCATGTATGTTTTACCTGAGAGCACCTACGATGACGGGGGAGTCAACAAAAGGGTCTTTGCGAACCGGTCTTTACCTGGGATTTTCATGATAACCCTGCTCGTTGCGGTAAGTGAGGAAATGCTGTTTAGAGGCGTTCTTCATCACGAGTTCGGTTATATAACAGCCAGTGTGCTGTTTGCCGTCTTACATATCCGGTATTTGAAACGGTTGGTTCTTTTTTTATCAGTATTATTTGTCAGTTTCTTTATCGGCTGCATGTATGAAGTGACAGGAAGTCTCGTTGTTACGATTACAGCTCATTTTATCATCGATGTTGTTCTGGGTGTCTGGATCCGGCTCGGGAAATGGGGGGAGAAGCATGCATCAAAAACATAA	MRNTQQEMIQEMSDNEITFHLLLTQVMILSAAVGLSAFFFDAFLTEWLEQFYTSWQEWWLYGIIPGLIVLLIDLFLMYVLPESTYDDGGVNKRVFANRSLPGIFMITLLVAVSEEMLFRGVLHHEFGYITASVLFAVLHIRYLKRLVLFLSVLFVSFFIGCMYEVTGSLVVTITAHFIIDVVLGVWIRLGKWGEKHASKT				NA	NA	NA	NA	NA
AK012_00617	1515	dbpA		ATP-dependent RNA helicase DbpA	GTGAGTACAACGATATTGGATGCATTAAAAAGATATTTCGGCTTTGATCAGTTCCGGGAAGGGCAGGAAGCCGTGATCCGGGATGTCATGGACAAAAAGGACGTCCTGGGTATCCTTCCAACAGGAACAGGAAAATCCTTATGCTATCAGCTGCCCGCCCGGCTTCTCCATGGGACAACCATCGTTGTCTCTCCGCTCATATCCCTGATGGTCGATCAGGTGAAGCAGCTGAAGGCAGCCGGATATAAATCAGTAACAGCGTTGAACAGCTTTATGGATGTGCAGGAAAAGAAAAAAGTGATGCAGAACCTTGAGCGCTATGATCTTGTTTATATTTCACCTGAAATGCTTCAAAATGAGCGGCTGCAGGAGGAATTGAGCCGAATGACCATTCCTCTGTTTGTCATTGACGAAGCCCACTGTATTTCCCAGTGGGGGCATGAGTTTCGTACGGATTACTTAAAGCTTCACCGCATCATTGATGCTATAGGAAGTCCGACCGTTCTTGCCCTGAGTGCGACAGCGACACCGGAAGTGCAGACAGACATTATGGAGAAACTGCACCGTCCGGCCATGACCCGCCATATTTATCCTATGGATAAACAAAACATCAGCCTGTCGGTAGAGGAAGTTCACAGCCCGGAAGAAAAGACAGCGAGGATTGTAGACCTGCTGTCCCATATCCATGCGCCTACTATGATCTACTTTTCAAGCCGTCAGTGGGCTGAAAAGGTAAGTGTTGTGTTAAGGGAGAAGCTCAGCCACCGGACGGCTTTTTATCATGGAGGTATGGAACAGACGGACCGGATGCTTGTCCAGCAGCAGTTCATGAATGGACAGCTGGATGTGATCTGCTGTACAAGTGCCTTTGGCATGGGGGTGGATAAAAAAGACATCCGGCTTGTGATTCATTTTCATCTTCCGGCCCAGACAGAATCGTTCATTCAGGAAATCGGGCGTGCAGGAAGAGATGGAAAGCCCTCTGCCAGTCTCGTTTTGTTTACAAAGAAAGATCACTATCTTCCTCAAATGCTTATACAAAGTGAACTGCCGGAACGGGAGCAGCTGGATCTTGCCCTTGGTTATTTAAAGCGCCGGGAAGGACAGGAGATACCGGAGGATGAATCAGTCATGGAACAACTGCAGCTCTCTGAATCCCAGTGGAACTTTATTAAATATCAGTCCGAGGAGTCCGGAGTGCTCATCGACGGTATCGTTCAGCCGTTTCCTTTTGATTTTGAAAGCCGTATTCATGCACTGCTTCGGGAGAGGTGGACTTATAAGCAGGGGAAACTGACCGAAATGATGACTTGGATTCATCACACGGGTTGCCGGAGGGAAGCCTTGTACTCCTCCTTTCAGGATCATATCCGCCCGCCCGATGTCCCTTGTTGTGACGCCTGCGGTTTTTCGGTCGATCATCTCACTCTTCACGGGCCAAAAGAAACATCACAAGACGGATCATGGAAGGAGCGCCTGCAGATGATTTTTCATCAGGGGCACCCTCATGCGTAA	MSTTILDALKRYFGFDQFREGQEAVIRDVMDKKDVLGILPTGTGKSLCYQLPARLLHGTTIVVSPLISLMVDQVKQLKAAGYKSVTALNSFMDVQEKKKVMQNLERYDLVYISPEMLQNERLQEELSRMTIPLFVIDEAHCISQWGHEFRTDYLKLHRIIDAIGSPTVLALSATATPEVQTDIMEKLHRPAMTRHIYPMDKQNISLSVEEVHSPEEKTARIVDLLSHIHAPTMIYFSSRQWAEKVSVVLREKLSHRTAFYHGGMEQTDRMLVQQQFMNGQLDVICCTSAFGMGVDKKDIRLVIHFHLPAQTESFIQEIGRAGRDGKPSASLVLFTKKDHYLPQMLIQSELPEREQLDLALGYLKRREGQEIPEDESVMEQLQLSESQWNFIKYQSEESGVLIDGIVQPFPFDFESRIHALLRERWTYKQGKLTEMMTWIHHTGCRREALYSSFQDHIRPPDVPCCDACGFSVDHLTLHGPKETSQDGSWKERLQMIFHQGHPHA				NA	NA	NA	NA	NA
AK012_00618	1068			hypothetical protein	ATGTTCGAATCCATTGTCCTTCTCTGCATAAAGAGATTCAAAGGGGAAAGAACGGTATCAGGGATTTTTAATATGCTGACAGGGAAAAGGTCTTCTCAGACGATGCAGGATGCCAAAGCCTATCAGCTTGATCATATGTTCGGTGTTTTTCCAGAGCTGGAGCGACGAAAGCTGGATAACGCCATCGACCAAATGGCCGGCAGGGAAGAAGTGATCGTGAATGAAGAGGGTTTTCCCACTCTGACAGATAAGGGGGCGGACCATTTGCAGACACAGCGTGCATCATCCTCTTCCTATTTTCAAGGCATGCAATGGCATGAAGTGTTACCCGTGTTTATATCCCGCCTGAATCTGCTGATTCAAGCGTCATCGAATAAAGAGGCCGGCATTCAGTCCTATGTAGCGATTGTAGACCAGCCCGGGGCACAGGCCTGGGTGAAAAAAGTGTTTGGTACGTTTCAGGATAAGCTCCCCCGGCTCAACCATTCTCTTTATGAGGAGCTGGTGAGCCTGCTTTCTGATCATGATCCGGTCCAGGCGGAGCTTTTTACCCACCGGCTTACAGGTGGTGGATGGATCGGCTTGACCATGGATCAGCTGAAAGAGAAATACAGGCTCTCCAGAGAGGATGTCCTGTTAGGACTGAGGCATACGTATTATTACCTGTTTCAACAAGCGAAAAAGGATAAGGAAGCTTATCCGGTTCTGCATTTATGCACCCGCGGCCTTCAGTCCTCCCATCTCGTTACAGCATCGGCGGGGAAAACCTACCAGCTGATTGAACAGGGGCTGTCCCTTGAAGAGATTGTGACCGTTCGTCGTTTAAAAAAAAGCACCATCCAGGACCACATTGTTGAAGCGGCCCTTGTCACCCCTGATTTTGATGTCTCTCCATTCTTAACGGGAGAACAGGTAGAGGAAATCAATCAAAAAGCGATGGATTTGAATACCCAGAGGCTGAAGCATATACACCAGGATCTTGAGGGCGTTTATGATTACTTTGAAATCCGTCTGGCTCTTGCCCATGGGCGGAGCACGGCGCAAAGAGAAAGGAAGCCATCACCGTGA	MFESIVLLCIKRFKGERTVSGIFNMLTGKRSSQTMQDAKAYQLDHMFGVFPELERRKLDNAIDQMAGREEVIVNEEGFPTLTDKGADHLQTQRASSSSYFQGMQWHEVLPVFISRLNLLIQASSNKEAGIQSYVAIVDQPGAQAWVKKVFGTFQDKLPRLNHSLYEELVSLLSDHDPVQAELFTHRLTGGGWIGLTMDQLKEKYRLSREDVLLGLRHTYYYLFQQAKKDKEAYPVLHLCTRGLQSSHLVTASAGKTYQLIEQGLSLEEIVTVRRLKKSTIQDHIVEAALVTPDFDVSPFLTGEQVEEINQKAMDLNTQRLKHIHQDLEGVYDYFEIRLALAHGRSTAQRERKPSP				NA	NA	NA	NA	NA
AK012_00619	249			Ferredoxin	TTGGCGAAATACACGATTGTAGATAAAGAAACCTGCATCGCCTGCGGGGCCTGCGGGGCTGCCGCTCCAGACATCTATGATTATGATGACGAAGGCCTTGCCTTTGCAGTGATGGATGATAATGAGGGGACCGAAGCTGTTCCCGACCTCTATGAGGAAGATATGGAAGATGCCTTTGAAGGCTGTCCTACCGATTCTATTAAAATAGCGGAAACTCCTTTTGATGGAGATCCGTTAAAATTCGAATGA	MAKYTIVDKETCIACGACGAAAPDIYDYDDEGLAFAVMDDNEGTEAVPDLYEEDMEDAFEGCPTDSIKIAETPFDGDPLKFE	PGPT0007360_584	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-GIBBERELLINS_PRODUCTION	PHYTOHORMONE-GIBBERELLINS_METABOLISM	PHYTOHORMONE-GIBBERELLINS_BIOSYNTHESIS,PGPT0007360-Uncharacterized_P450_system_3Fe_4S_ferredoxin-K05337	NA	NA
AK012_00620	453			hypothetical protein	ATGGATCAAAAGCAGATACAGGAAATAATTTCTCCGAAAATCAAACTCATCCGAGTGGAATATGGATACACGCAGCACCGGATAGCGGAAATCATCGGACTTTCCAAAAAGACGCTCGTTCAAATAGAGAAGCAGAGGACAGTCGCCGGCTGGACGACGGTCACCGCTGTCTGCGCGCTTTTCAGGGACAGTGAAATTATAAGGGGAGTTCTTGGTGGCGCCCCTCTTGAAGTTTTGGAAACCGCTGCTCATCGTCATATTTTTACTGACGGGGAGGAGGCTTCTGCACTGGAGACGACCTGGAAGGTCCTGTCTGAAAAAGGCGGCTGCAAGCTGGAGCAGAACCAAATCAGCGGCCATTATCGTATCCAAAAAGCCGGGGCGAGGATTTTCTCCACTTGGAATCGCGTAGAGGCAGAGGTTCAATTGGAGAAAATCGAACGTCAATCATAA	MDQKQIQEIISPKIKLIRVEYGYTQHRIAEIIGLSKKTLVQIEKQRTVAGWTTVTAVCALFRDSEIIRGVLGGAPLEVLETAAHRHIFTDGEEASALETTWKVLSEKGGCKLEQNQISGHYRIQKAGARIFSTWNRVEAEVQLEKIERQS				NA	NA	NA	NA	NA
AK012_00621	1098	rsiX		Anti-sigma-X factor RsiX	ATGAAAAAATCTAAAAGACAGAACGTGGAAGAGCAGCTGTCCCAGCTCCCTTCCTTGAAGGATCATCAATCCAGGGATGTCCTCTATCAGGCCGTGAACAAAAAATTAGAACGGACGGATAAACGGATGCCCTCGTGGCTGGGTCCTGGCGCTGCGGTTTGTGCCCTGCTTGTAGTGCTTGCGGTTTTCATCCCGGTTTTCCTGTCACAAAACCAGGAAATGAATACCCAGCCATCTGAACAGATCCGTGATGAACCTGCCCGGTCATTCGAAAATCCTGATATGGAAAATTCAGCTGGACCGTCGTCAGAGGGAGAAGCCTCTGTTGACCGTGATGCACCATTAACTGCCATCACAGAGGATGAATGGTTTACATTCGCTTACCCGGGAAGGAATGCAGAAGTTGTCATTCCGATTTTCACTCATGATGAGGTACCATTTACAAAGGAAACGGCGGAGGAGAAAGGGTTGTCAGAAAGGCTTCTGCAGAACATCGAAATCGCCGTTAATGAAGAGGAGAAGAACGCCGAGGTTACTTTCCCGGATGAATTTAATCCAGCTGGAAGTGCGTATGTCCAGATGCTCATGGAAAGTATCCGCTGGGAACTGTATGGAGAAGAGGTGCAGACGATTGACTTGAATCGTACGTCCCATGATGAGGTGCCGATGGGAAATTACGGAGACCTGGACCGCCTGACTCCGATTGGAGAAGGAGAGTATATATTCAAGCTCTACCAGTATAACGAGCAGTCCTCCTTTTATCTGGCACCTGTACCTGTGACGGGGGACCCATCACTGGAAGAGGCATTAAAGATGATGAAAGAGGAAGGGGGAGGAACGTATACAGCTCCCTCTGTCCCCGCCCACGTGGAATTTTCCCTGGTTGAGGTTGAGGATGGACATGTAGAATTGGACATTTCCCACAAGGAATGGAAAGGCGAATGGGAGGTCACCATGATGCTCGATGCCATCTCAGCTACGGCCCGGCAGTTTGGGATGTCGCGGGTGACCTTTCATGGGATAAAACAGGAAGAAGCAGGGGGATATGATTTAACCAAGCCCGTCGATCTGCCTGGTCCTTTCAACGTGGAACAGTGA	MKKSKRQNVEEQLSQLPSLKDHQSRDVLYQAVNKKLERTDKRMPSWLGPGAAVCALLVVLAVFIPVFLSQNQEMNTQPSEQIRDEPARSFENPDMENSAGPSSEGEASVDRDAPLTAITEDEWFTFAYPGRNAEVVIPIFTHDEVPFTKETAEEKGLSERLLQNIEIAVNEEEKNAEVTFPDEFNPAGSAYVQMLMESIRWELYGEEVQTIDLNRTSHDEVPMGNYGDLDRLTPIGEGEYIFKLYQYNEQSSFYLAPVPVTGDPSLEEALKMMKEEGGGTYTAPSVPAHVEFSLVEVEDGHVELDISHKEWKGEWEVTMMLDAISATARQFGMSRVTFHGIKQEEAGGYDLTKPVDLPGPFNVEQ				NA	NA	NA	NA	NA
AK012_00622	543	sigX	COG1595	ECF RNA polymerase sigma factor SigX	TTGAGAGCGTTCTTTGATGAACTTTATGATCATTACCACCAGGACCTTTTTCAGTTCATTTTTTACATGGTGAAAGACCGGCATCTTGCTGAGGATCTTGTCCAGGATGTTTACGTGAAAGTGCTGAAATCCTATCCAGCTTTTCATGGCAGAAGCTCAGAAAAAACATGGCTGTTTTCTATTGCCCGGCACGTAACCATCGATTATTTCCGTCGTCAGAAAAGAAAGCGCGATCGAGTCGCTGAATTTTTTGACTGGAGTGAAAAGGGCAGCCAGCTTCCTGATCACGATCCGCTTCCAGAGGAGATGGTCATCCAGAGTGAGGATGTGAAGGATGTGTACCGGGCAATGAACCAATGCTCGATTGACCAGCGTACCGTCTTGATCCTCCGTTACATTCAAGGACTTTCCATTAAGGAGACTTCTGAGGTTACGGGGTGGACGGAAAGTAAAGTGAAGACGACTCAGCATCGGGCCCTTAAAGCTGTAAAAGAAGTTACCGATTCATTAGAGGGAGGGGGAGGAGAACATGAAAAAATCTAA	MRAFFDELYDHYHQDLFQFIFYMVKDRHLAEDLVQDVYVKVLKSYPAFHGRSSEKTWLFSIARHVTIDYFRRQKRKRDRVAEFFDWSEKGSQLPDHDPLPEEMVIQSEDVKDVYRAMNQCSIDQRTVLILRYIQGLSIKETSEVTGWTESKVKTTQHRALKAVKEVTDSLEGGGGEHEKI	PGPT0014960_9946	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK012_00623	1767	resE		Sensor histidine kinase ResE	ATGTTCTGGCGGAGTGTCGTAGGTAAACTTTGGTTTACAATTCTCTTTCTCGTCTGCTTTGTTCTATTTATTTTGACGATCCTTCTTCTGGAGTTCTTTCAGAATTACCACATTCTTGAAGCAGAGAGGCATCTTCTCCAGACCGCGGACAAAATATCAGAAGTCGTGGACCGGTATGAGTCGGATGAGGATCTTCTATTGTCTACGACAGATCTCGTAAAAGATCCTGCGAGCCGTGCTGTCATTGCCTGGGGGGCGGACCGTCAGATAGCTGCTGAAAGCTCATCTGAAAATCTTCCTGTCATCGATTATGATTGGTTTAAAAGCGATCCCGATTTATCCACGGTCATGGAAGAAGGCAGGGACGTCAAAAAAGTAGCTGATCTTAGTGCGGGAGAAACCGGAATTATGGTTGTAGGCACCCCGCTGAATGAAGGTCAGGGGGCCGTGTTTGTTTATCAGTCCCTGGATACTATTGAAGAGACGTCGGAACAGACAACCAAAATTATCTTTCTCGGTGCCGGCATAGCGATTGTGTTAACCACGATCTTCGCATTCTTTTTATCTACGAGGATTACGTCCCCCTTGATAAAAATGAGGGAAAGTGCCCTGGAACTGGCTAAAGGACGCTTCAACACCAAAATTCCGATCCGCACCCATGATGAAATCGGAGAGCTGTCCATGGCTTTCAATCGAATGGGCCGGGAGTTGAAATTCCATATTAATGCTCTGAATCATGAAAAAGAACAGCTGTCCGGCATTCTGCGCTCGATGGCGGATGGGGTTATTACAGTCAATCGTCAGGGGGACGTCCTTTTATCCAATCCTCCTGCTGAACAATACCTGGAAGCGTATGAGTTTGAGCATCAGGGAGCAGATGAGCATGTAGATCTTCCTGAACCATTACAGGAACTGCTGCAGCGCGTCATTTTAGAAGAGCAGGAGTTAATGACTGAAGCTACCCTCCAGGGTCGATCCTGGGTGATTTTAATGACGCCTTTATACGATCGGCAGAAAATCCGCGGAGCCGTTGCTGTCCTGAGGGATATGACGGATGAGCGGCGTTTGGATAAATTAAGGAAAGATTTCATAGCCAATGTGTCTCATGAGCTCAGGACGCCCATTTCCATGCTTCAGGGTTACAGCGAGGCCATTGTCGATGACATCGCGGAAAGTAAAGAGGAAAAAAATGAACTGGCTCAGATTATTCATGATGAGTCGCTTCGGATCGGCAGGCTGGTCAATGAACTTCTTGATCTGGCCCGTATGGAAGCTGGTCATATCCAGTTGTCCATGGAGTCACTGGATATGGAATCCTATATGCATAAAATCGTGCGGAAGTTTCAGGGCGTGGCAAATGATAAGGGGGTCATCCTTCACTCAGCTATCGACCCTGTTGTGCAAACGGCTTCCTTTGATCCCGACCGGATTGAACAAGTGTTTACGAATTTGATTGATAATGCCATTCGTCACACAGAATCAGGCGGGGAAGTCTTTATCCGTGTAGAAGCTGGAACCGGGGGATGGGTAGGATCGGTCAGTGATTCCGGACTCGGCATCCCGGAAGAGGATCTCCCGTTTGTTTTTGAACGTTTTTATAAAGCGGATAAATCTCGAAAACGTGAAAACAAGAACTACAAGAAAGGGACAGGCCTCGGTCTTGCCATTACAAAGAATATTGTAGAGGCTCATGAAGGATCGATCAGTGTCCACAGCCGTCTCAAGGAAGGGACAACCTTTACCTTCAAGATTCCTTATCATCAATAG	MFWRSVVGKLWFTILFLVCFVLFILTILLLEFFQNYHILEAERHLLQTADKISEVVDRYESDEDLLLSTTDLVKDPASRAVIAWGADRQIAAESSSENLPVIDYDWFKSDPDLSTVMEEGRDVKKVADLSAGETGIMVVGTPLNEGQGAVFVYQSLDTIEETSEQTTKIIFLGAGIAIVLTTIFAFFLSTRITSPLIKMRESALELAKGRFNTKIPIRTHDEIGELSMAFNRMGRELKFHINALNHEKEQLSGILRSMADGVITVNRQGDVLLSNPPAEQYLEAYEFEHQGADEHVDLPEPLQELLQRVILEEQELMTEATLQGRSWVILMTPLYDRQKIRGAVAVLRDMTDERRLDKLRKDFIANVSHELRTPISMLQGYSEAIVDDIAESKEEKNELAQIIHDESLRIGRLVNELLDLARMEAGHIQLSMESLDMESYMHKIVRKFQGVANDKGVILHSAIDPVVQTASFDPDRIEQVFTNLIDNAIRHTESGGEVFIRVEAGTGGWVGSVSDSGLGIPEEDLPFVFERFYKADKSRKRENKNYKKGTGLGLAITKNIVEAHEGSISVHSRLKEGTTFTFKIPYHQ	PGPT0026265_105	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026265-resE-K07651	NA	NA
AK012_00624	717	srrA	COG0745	Transcriptional regulatory protein SrrA	ATGGAACGAGAAGCTAAAATACTGGTCGTTGACGATGAAGAACGCATCCGCCGGCTGATCCGTATGTATCTTGAAAGAGAAGACTATACCATTGATGAGGCGGAGGATGGGGAAGAAGCCCTCCAAAAAGCTCTTCAGGATGATTATGACGTCATTCTTTTGGATTTGATGCTTCCAGGGAAGGACGGTATTGAAGTATGCCGTGAGCTGCGTGAGAAGAAGGCGACTCCGGTGATTATGCTGACGGCTAAAGGGGAGGAAGCGAACCGTGTTCAAGGTTTTGAAGTCGGCACAGATGATTATATTGTGAAGCCTTTCAGTCCTAGGGAAGTGGTCCTCCGGGTGAAAGCTCTGCTGCGTCGGTCCTCTTCAACCAAATTTCTGGAAACCGATACCTCTGCCCGCAATGTCCTTGTTTTCCCGCATATGACCATTGATAATGATGCCCATCGTGTAACAGCAGATGGAAACGAAGTTTCATTAACTCCAAAAGAGTACGAGCTGCTTCATTTTATGGCACAGGCTCCTGATAAAGTCTTCGACAGGGAGAGGCTTTTAAAAGAGGTATGGCAGTACGAATTCTTCGGAGACTTAAGGACGGTCGACACCCATGTGAAGCGTCTGCGGGAAAAGCTCAGTAAAGTGTCTGCTGAAGCAGCTGGTATGATTGTAACAGTATGGGGGATCGGATATAAATTTGAGGTTTCCGGCGATTGA	MEREAKILVVDDEERIRRLIRMYLEREDYTIDEAEDGEEALQKALQDDYDVILLDLMLPGKDGIEVCRELREKKATPVIMLTAKGEEANRVQGFEVGTDDYIVKPFSPREVVLRVKALLRRSSSTKFLETDTSARNVLVFPHMTIDNDAHRVTADGNEVSLTPKEYELLHFMAQAPDKVFDRERLLKEVWQYEFFGDLRTVDTHVKRLREKLSKVSAEAAGMIVTVWGIGYKFEVSGD	PGPT0013765_748	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK012_00625	1188	ccsA_1		Cytochrome c biogenesis protein CcsA	ATGGGAGATTTAACGACCATAAGCAGTAACCTGCTTTATGCGGCATTTTTCATCTACTTGATTGCTACTTTCTTTTTTGGGGCAACCATTAGAGACAAGAAGAAAGGCAGCAGTAAAGTGGCAGGAAACATCGGTATTACCATTACCATCATAGGGTTTCTTACTCAGCTTGGGTATTTCTTTACAAGGTGGGGGGCAAGCGGCCACGCCCCCGTCAGTAATTTATTCGAATATACGACTTTCTTCGGGATGATGCTCGTTTTTGCCTTTATCGTCCTTTACTTTATTTACCGGGTGGATCTGCTGGGCCTTTTTGCGCTCCCGATTGCCTTGCTGCTTATTGCGTTTGCGAGTATGTTTCCGACAGAAATTTCACCGCTCGTACCGTCACTGCAGTCCCACTGGCTTTATATTCACGTTACGACAGCCTCCCTCGGTCAGGGAATCTTGTCTGTGAGCTTTGTAGCCGGATTGATTTTTCTCATCCGGCAGGTGGATCAGACAAAGCGCTCCAAGCATACGATGTGGCTGGAATTCGTCATTTATATCATTGCATCCACGGTAGCTTTTATCGTGCTCTCCTCAACCTTCAGCGCTATTCAGTACCAGGCAGAGTTTGAAGCACCTGTGGAAGGCCAGCCGATGACGATTACGTATGAAATGCCTGCCATTGCAGGGCCTGACCAGGGGGAATTACTGACCGAAGGTGCGTGGTCTCCTTTGTTTGAGGCTCCGGAATGGATGCGCGGCGAAGATGCTGCGAAGAAATTCAATACGTTTTTATGGGCTATTGTCGGCGGGCTTGTTCTTTACTGGGGCTTACGCCTGATTTTCCGCAGAAGGATTGCGGCACTCATTCAGCCACTTCTGAAAAGGGTCAATCCTGAACTCGTCGATGAAGTGTCCTACCGCGCAGTGGCTATCGGATTTCCTGTCTTCACACTCGGTGCATTAATCTTCGCTATGATCTGGGCCCAGCAGGCGTGGGACAGGTTCTGGGGATGGGACCCGAAAGAAGTGTGGGCGCTGATCACGTTCTTCTTTTATGCGGCTTATCTGCACCTCAGGCTTTCCCGTGGATGGCAGGGAATGAAATCCGCGTGGCTTGCTGTCGGCGGTTTCGGCATCATCATGTTCAACTTGATCGCCGTTAACCTCATCATTTCAGGTTTACATTCTTATGCATAA	MGDLTTISSNLLYAAFFIYLIATFFFGATIRDKKKGSSKVAGNIGITITIIGFLTQLGYFFTRWGASGHAPVSNLFEYTTFFGMMLVFAFIVLYFIYRVDLLGLFALPIALLLIAFASMFPTEISPLVPSLQSHWLYIHVTTASLGQGILSVSFVAGLIFLIRQVDQTKRSKHTMWLEFVIYIIASTVAFIVLSSTFSAIQYQAEFEAPVEGQPMTITYEMPAIAGPDQGELLTEGAWSPLFEAPEWMRGEDAAKKFNTFLWAIVGGLVLYWGLRLIFRRRIAALIQPLLKRVNPELVDEVSYRAVAIGFPVFTLGALIFAMIWAQQAWDRFWGWDPKEVWALITFFFYAAYLHLRLSRGWQGMKSAWLAVGGFGIIMFNLIAVNLIISGLHSYA				NA	NA	NA	NA	NA
AK012_00626	1635	ccs1		Cytochrome c biogenesis protein Ccs1	ATGAATGAGATTACCTGTGAGTGTGGACACATAAACCCTGAAGGTACCGTTTTATGTGAATCCTGCGGAAAGCCGATGGAGGGGAACCAGCACATTGACGGCAATGATCAGAAAGAGCTGCTGAACATGCGCTATGACGGAAGTGCCCGCCGGTCCCAGACTTACAATCGGACGTTTATAGATAAGATATGGAATTTCTTTTCCTCTGTTAAAGTGGGCGTTTGGCTCATCTTCATTACGGTGATTGCCTCGGGGGTGGGAACAATCTTTCCTCAGGAAGTCTTTATACCTGGAAATGCAGATCCTGCCACCCATTACCGTGATCAGTACGGCATCGTTGGTCAGATTTATTATCAGCTTGGTTTTCATGATTTATTCAGCTCCTGGTGGTATATGCTGCTGATTGCCATGATCGGTATTTCCATCGTCATCGCCAGCATTGATCGTTTCTTTCCGCTTTACAAAACATTGAAAAGGCAGAAGCCGAAACGTCATGAGCTGTTTATGAAGAAACAGCGTGTGTTCGGGACGACGGAGAATCAGAACGTGGATGTGGAACAGTTTAAAGCCAATTTGAAGAAACGCCGCTTCCGTGTGTATGAACAGGATGGCCACCTGCTTGCTGAGAAAAACCGTTTCGCCCGGTGGGGGCCATACGTCAATCACATCGGCCTGATCATTTTTCTAATCGGGGCTCTGCTTCGATTTGTCCCTGCTTTTTATGTTGATGAATTTATCTGGGTCCGGGAAGGAGAAACGATTTTAATCTCCGGAACGGATGGGCAGTATTATGTGGAAAACAAGGCTTTTACACTTGAAACTTATGACAAGGATAATCCTGAGGATGCCAGGTTTAAAGAAGCGATTGAAAGCCAGAGTGGTGCCATCCCAAAAACCTTCCGGACAGATGCTGTCATTTATGAGCGGACCAACACGGATGTTACGGGTGCTGAACCGGAACTGGAGCAGGTGAAAGAAGGCGCATCCACGATGAACAATCCATTGAAATTTGGTGATTATGCTCTTTACCAAGCCAGTTATCAATTGAATGAATTCAAGGAAATGTCCTTTAAGATTCATGACAAGGACGATGAATCAACCAACTATGGAGAATTTACCGTCGATCTGACAGATCCTCAATCTACATATGAACTGGATGGCGGCTACAAGGTGGAAATCGCCAACTATTTTCCTGATTATGAACTGGAAGATGGGAAGCCTGTTTCGGTGTCCAAATACCCAAGAAACCCGGCTTTTGTCTTTCAATTATTTCCTCCAGGGGAGTCTGAGCCTGAAACAAGCTTTCTTGGTATAGGAGCCAACGTTGATGCTGGTGGAGAAAACCAGTACAAGCTCGGCCTGACTGAATTCGACGTCAGGGATGTTACCGGGTTGACGGTGAAAAAGGATGAAACCCTGTGGCTGATTGCTTTTGGAGGCGCTGTCTTTATGATCGGGGTCATGCAGGGCATGTACTGGAACCATCGCAGAATCTGGCTTCAGCCGAGGAACGATGGAGTCTGGATTGCCGGTCATACGAATAAAAACTGGTATGCGTTAAGGATGGAGATTGATAAAGCGATTGAGGGAACAGGAATACAAGCCCCCGTCGATCAGCACGAAATGAAATCATAG	MNEITCECGHINPEGTVLCESCGKPMEGNQHIDGNDQKELLNMRYDGSARRSQTYNRTFIDKIWNFFSSVKVGVWLIFITVIASGVGTIFPQEVFIPGNADPATHYRDQYGIVGQIYYQLGFHDLFSSWWYMLLIAMIGISIVIASIDRFFPLYKTLKRQKPKRHELFMKKQRVFGTTENQNVDVEQFKANLKKRRFRVYEQDGHLLAEKNRFARWGPYVNHIGLIIFLIGALLRFVPAFYVDEFIWVREGETILISGTDGQYYVENKAFTLETYDKDNPEDARFKEAIESQSGAIPKTFRTDAVIYERTNTDVTGAEPELEQVKEGASTMNNPLKFGDYALYQASYQLNEFKEMSFKIHDKDDESTNYGEFTVDLTDPQSTYELDGGYKVEIANYFPDYELEDGKPVSVSKYPRNPAFVFQLFPPGESEPETSFLGIGANVDAGGENQYKLGLTEFDVRDVTGLTVKKDETLWLIAFGGAVFMIGVMQGMYWNHRRIWLQPRNDGVWIAGHTNKNWYALRMEIDKAIEGTGIQAPVDQHEMKS				NA	NA	NA	NA	NA
AK012_00627	552	resA_2	COG0526	Thiol-disulfide oxidoreductase ResA	ATGAAAGAGAAAACCATCCAAAAAAAGAAAAAAAGACTGATCTTCCGGGCTGCCATGCTGACGGTTATGGTCGGTCTTGTCGTTTTTGCTCTCTTGGCAAATGGAAAAGATGACCAGGTCGCTGTAGCCAAAGGGGAAGAGGCCCCGGATTTTCAATTGAAGAAATTCGGTACGGAGGAAACAGTCCAATTGAGTGATCTGGAGGGACAGGGCGTCATGCTGAACTTCTGGGCCACTTACTGCGGTCCGTGTAAGGATGAAATGCCATATATGGAACAGCTGTACGAAGAGTATAAGGAAAAAGGTGTGGAGATACTCGCGGTCAACCTGGATTCAACAGAGTTGGTTGTGGAGAACTTTGTGAATGAATATAACCTGACGTTCCCAATTCTTCAGGATAAAAAAGGACAGGTGATGGACCTCTATAATATCGGCCCCATCCCTTCCACCTTATTCATCAATCCAGATGGTGAAATCGAAGAGCAGGTGATCGGTCCGCTTACGTTGGAAAAACTGGAGGGGTATCTGAAGGACATTTCACCGGAGGAATAG	MKEKTIQKKKKRLIFRAAMLTVMVGLVVFALLANGKDDQVAVAKGEEAPDFQLKKFGTEETVQLSDLEGQGVMLNFWATYCGPCKDEMPYMEQLYEEYKEKGVEILAVNLDSTELVVENFVNEYNLTFPILQDKKGQVMDLYNIGPIPSTLFINPDGEIEEQVIGPLTLEKLEGYLKDISPEE				NA	NA	NA	NA	NA
AK012_00628	738	rluB	COG1187	Ribosomal large subunit pseudouridine synthase B	ATGGCAGATAAAGAACGACTACAAAAGGTGATCGCCCACGCTGGTGTCGCATCACGAAGAAAAGCAGAACAGATGATTTTGGATGGCAAAGTGAAAGTGAATGGTGAAACGATCACGGAGCTTGGGACAAAGGTTGGAAAAAACGATGATGTTGAAGTAGAAGGGGTGCCGATTGATAAAGAGGAGCCTGTCTATTTCATGCTTTATAAACCCAGAGGTGTGATTTCCAGTGTAAGCGATGACAAAGGCCGCAAGGTTGTCACGGATTTTCTGCCGGAAGTAAAAGAGAGGATTTTCCCGATCGGACGCCTGGATTATGATACATCCGGCCTGATCCTGCTCACGAATGACGGTGATTTCGCTAATATGCTCATGCACCCGAGCCATGAGGTCAATAAAGTTTATATTGCGAAAACAAAAGGAATTCCGACCCAGGAACAGTTGAAACAGCTGAAAAAAGGAATCACTGTAGATGGAGAGTACTTGAAAGCTGTCCATGCTAAAATCAATTCTACTGATTCCAAAAAAAATACAGCTATTGTTCAGGTTATTCTGCATGAAGGAAAAAACAGACAGGTCCGCAGAATGTTTGATACCCTCGGTTTTCCAGTGGACAAGCTGAAGCGTGAACGCTATGGAACGCTGGACCTTAAAGGATTGAATGCCGGCGATTACCGCCCTCTGAAGCCTTTTGAAGTTAAACAGCTCCGCCAGCTCGCTGAAGAAAATGTTGAATAA	MADKERLQKVIAHAGVASRRKAEQMILDGKVKVNGETITELGTKVGKNDDVEVEGVPIDKEEPVYFMLYKPRGVISSVSDDKGRKVVTDFLPEVKERIFPIGRLDYDTSGLILLTNDGDFANMLMHPSHEVNKVYIAKTKGIPTQEQLKQLKKGITVDGEYLKAVHAKINSTDSKKNTAIVQVILHEGKNRQVRRMFDTLGFPVDKLKRERYGTLDLKGLNAGDYRPLKPFEVKQLRQLAEENVE				NA	NA	NA	NA	NA
AK012_00629	516	spmB		Spore maturation protein B	ATGATCAGTATATGGCTGATTCCGGGAATCATCTGTCTTGTGCTGGTCACGGCTACAATTAAAAAAATTCCCTCCTATGAGATATTCGTGGAAGGAAGCAAGGAAGGGCTGCAGATTGCGGTTTCCCTGCTTCCTTTCCTTCTTGGTATGATGGTTTCCATTGCTGTTTTTCAAGCCTCAGGGGCCATGGGGGCCGTGCTGGTGTTATTTGAGCCTGTTATGAATCTGTTCGGTGCACCGGAAGAAATTTTACCTCTTGCATTTATCCGACCTATTTCAGGGACGGCTGCGTTAAGTATGACCACAGAGCTGATCCGAACATTTGGCCCTGACTCTTTTATCGGTTATCTGGCTTCTGTGATGCAGGGAAGCACCGATACAACGTTGTATATCATTACCGTCTATTTCGGTGCCGTAGGAATTAAACGAATGGGCGATGCATTGAAGGTTGGACTGCTTGCGGATTTAGTTGGTATACTGGCATCAATCATCATCGTTATCATCCTATTCCAATGA	MISIWLIPGIICLVLVTATIKKIPSYEIFVEGSKEGLQIAVSLLPFLLGMMVSIAVFQASGAMGAVLVLFEPVMNLFGAPEEILPLAFIRPISGTAALSMTTELIRTFGPDSFIGYLASVMQGSTDTTLYIITVYFGAVGIKRMGDALKVGLLADLVGILASIIIVIILFQ				NA	NA	NA	NA	NA
AK012_00630	591	spmA	COG2715	Spore maturation protein A	GTGGTCAACCTGATCTGGGCGCTTCTTGCCATTGTTGGTATCGTTTATGCGGCCTTCAACGGCACAATGAAAGAGGTCAACCAGGCGATATTCCAGACGTTGGATGAAGCTGTCATGATAACCATCAGCCTTGCGGGCGTGCTGGTATTCTGGCTTGGACTGATGAAGATTGCAGAGGAAGCGGGACTGCTTCGCGGGCTCGCTGCGCTGTTCAAACCCGTAGTGAAGAGGATCTTTCCCGATATCCCTGAAAACCACCCGGCTCTTGGTTATATTTTATCCAACATGACAGCGAATATGTTTGGGCTGGGAAACGCGGCAACACCGATGGGATTGAAGGCGATGAAGGAATTGAAGAACCTTTCCGGATCTGATCATGCCAGCCGGTCCATGATTACTCTGCTCGCCCTCAATACATCGTCGTTAACCTTGATACCTACAACAGTCATCGCTGTCCGAATGAAGTACGGGTCCTCAGACCCAACTTCCATCATCGGGGCCACGATTCTTGCAACAATCGTGTCTACCTGTGCGGCTCTTTGTATCGACCGCTATTTTTATCACCGGAGGAAGCGGAGGCTTGAATTATGA	MVNLIWALLAIVGIVYAAFNGTMKEVNQAIFQTLDEAVMITISLAGVLVFWLGLMKIAEEAGLLRGLAALFKPVVKRIFPDIPENHPALGYILSNMTANMFGLGNAATPMGLKAMKELKNLSGSDHASRSMITLLALNTSSLTLIPTTVIAVRMKYGSSDPTSIIGATILATIVSTCAALCIDRYFYHRRKRRLEL				NA	NA	NA	NA	NA
AK012_00631	1089	dacB	COG1686	D-alanyl-D-alanine carboxypeptidase DacB	TTGAAAAGGTGTTTATATATGGTGTTGGCCGCCCTGCTCACATTTCAATGGTTTGCGTTACACCCGGTTCAAGCAGAAGGGGCGTTGTCCGTATCAGCCGAGCATGCTGTATTGATGGATGCAGCATCGGGACGGGTCCTTTACGAAAAAGATGCCTACGAACCTGCCTTGATCGCCAGTACAACAAAAATCATGACCGCCCTGCTTGCTGTTGAATCAGGTAAAATGGAAGAAAAGGTCTCTGTGAGTAAGAGGGCCGTGTATACAGAGGGATCCTCGATCTATTTAACGGAAAAAGAGAAAATTCTCTTAAAGGATCTTGTTTACGGCCTTATGCTCAGAAGTGGGAATGATGCCGCCGTTGCTATTGCTGAGCATGTGGGGGGTAGTGTAGAAGGTTTTGTTCAAATGATGAATGAAAAAGCTGCATGGCTTGGCATGGATGACAGCCATTTTGAGAATCCTCACGGCCTTGATGGAGAATCCCATCTATCCAGTGCCTACGATCTGGGTCTGCTCATGGCATATGCAATGAAAGACGAAACTTTCCGCGAAATCACAGGTAGTGAATCCTATCTATCGGAAAACAGAGATTATGCCTGGATGAACAAAAATAAAATGCTGACCCAGTATTACGATCCGACGAATGGAGGGAAGACCGGGTTCACAAAAGCGGCCGGAAGGACTCTGGTCACTTCCGCTGCCAGGGGTGAAATGGAATTGATTGCAGTCACTTTAAATGCTCCGGATGATTGGAATGACCATAGAAACATGTTTGAGTGGGGGTTTGCCCATTTTGAAACGGTCCTCCTGCAAAAGCAAGGAACGATCAAAGCGGGGGGAGAATCTTATTATGTGCCGAGAGACTTGGCATACCCTCTCACCTCATCCGAAAAAGAGCAGCTGGAAGCAGTGTTTTATCCGATGGAAGAGGAGGAAGGGCTTATGGCGGGGGTGACCTATTATAAGTCTGGTAATCTCCCCATCGTTGAAGCTGCGGTATGGAAGGAGCGGCCTCCGCAGTCATTTCTGAGGGAAGTCGGTGATTTTCTGCACCGGATGATGGGGGTGGCGCCGTGGTCAACCTGA	MKRCLYMVLAALLTFQWFALHPVQAEGALSVSAEHAVLMDAASGRVLYEKDAYEPALIASTTKIMTALLAVESGKMEEKVSVSKRAVYTEGSSIYLTEKEKILLKDLVYGLMLRSGNDAAVAIAEHVGGSVEGFVQMMNEKAAWLGMDDSHFENPHGLDGESHLSSAYDLGLLMAYAMKDETFREITGSESYLSENRDYAWMNKNKMLTQYYDPTNGGKTGFTKAAGRTLVTSAARGEMELIAVTLNAPDDWNDHRNMFEWGFAHFETVLLQKQGTIKAGGESYYVPRDLAYPLTSSEKEQLEAVFYPMEEEEGLMAGVTYYKSGNLPIVEAAVWKERPPQSFLREVGDFLHRMMGVAPWST	PGPT0024040_5497	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK012_00632	597	scpB	COG1386	Segregation and condensation protein B	ATGGAATTAGAGGAATACAGAGCTATCATTGAAGGGGTGCTGTTTGCCTCCGGAGAAGAAGGAGTGCCGAAAAAGAAATTAATGGATCTCTTGGAGATGGACAAATCTTCTGTCGATGATTTGATCAAAAGCATGCAGGAAGCCTATAAGGATCCATCCCGGGGGCTTATGATTATGGAATCGCAGGGGACCCTGCATTTAACGACAAAGCCACAACATGCATCCTATTATAAGCGTCTGCTTGATTCCCCGAGCGCCACACGGCTCTCACAGGCGGCTTTGGAAGCGCTGGCGATCATCGCTTACCAGCAGCCGATAACGAGGATTGAAGTGGATGATCTGCGCGGGGTGAAAAGTGACCGTTCCATTCAGACGCTTGTAAACAGAGGTCTGATCCAGGAAAAGGGTCGGAAAGATGCGATCGGCCGTCCGATCCTGTACGGGACGACTAAAGATTTTTTGATTTATTTTGGTTTGACATCCATCGAGGATCTTCCTCCTCTCGAGGACCTTCAACAACCTGAGGATATGGCAGGCGATGCCGATCTTTTCTTTGAAAAATTTGAAGAAGATGATCCCCTGCATGATGAAGATTAA	MELEEYRAIIEGVLFASGEEGVPKKKLMDLLEMDKSSVDDLIKSMQEAYKDPSRGLMIMESQGTLHLTTKPQHASYYKRLLDSPSATRLSQAALEALAIIAYQQPITRIEVDDLRGVKSDRSIQTLVNRGLIQEKGRKDAIGRPILYGTTKDFLIYFGLTSIEDLPPLEDLQQPEDMAGDADLFFEKFEEDDPLHDED				NA	NA	NA	NA	NA
AK012_00633	756	scpA	COG1354	Segregation and condensation protein A	ATGACAAAAAGCTACCAAGTGAAAGTGGAAGGCTTCGAAGGGCCTCTGGATCTTCTTTTACATCTTATCAATCGATATGAAATTGATATCTATGATATTCCTGTTTCGCAGATAACGGATCAATACATGCATTACATTCATACGATGCAGGAATTAGAACTTGATCTTGCCAGTGAATATTTGGTGATGGCTGCAACACTGCTGGCGATTAAGTCACAGATGCTGCTTCCTCAACCTCAATTGGATGAAGATATGGAAGATATGGAACTCGAAGAAGACCCACGGGAAGAATTGATGCGGCGCTTAATCGAATACCGGAAATATAAGCAGGCCGCTGATGAATTAAAGCAGAAAGAACTGGATGCCAACCGTATTTATACACGCCCTCCCCTTGATCTGGCGGATCAGGAGGAGGAAAAAGCGGAAGTCCGGCCCGGCGAAGCTTCGATTTATGATATGATCCAGGCCATGGGCAGGCTGATGAAGCGCAGTAAAGAAAAACAGCCCGAGGAAGCCAGGGTGCAGCGTGATGAAATACCAATCCAGATGCGCATGGACGAAATTCTAAACCAAATGAAAAGTTCAAAAGAGGGGACCCCGTTTTATCAATTGTTTGAAAAACGGACCCGTCCCCATATCGTAGTTACGTTCATTGCTCTGCTGGAGTTGATGAAAAGCAATGAAATAACCTGTGTACAGCAAGAGCATTTTGAAGAGTTAATTGTGTTTAAGATGGAGGATGCCCCATGGAATTAG	MTKSYQVKVEGFEGPLDLLLHLINRYEIDIYDIPVSQITDQYMHYIHTMQELELDLASEYLVMAATLLAIKSQMLLPQPQLDEDMEDMELEEDPREELMRRLIEYRKYKQAADELKQKELDANRIYTRPPLDLADQEEEKAEVRPGEASIYDMIQAMGRLMKRSKEKQPEEARVQRDEIPIQMRMDEILNQMKSSKEGTPFYQLFEKRTRPHIVVTFIALLELMKSNEITCVQQEHFEELIVFKMEDAPWN				NA	NA	NA	NA	NA
AK012_00634	465			hypothetical protein	ATGTACCCCGCCCTTTATTTAGAATACCTGGCTCATTTTCATGGAACAAGAGATTATTTCGAATGTCATGAAGTACTGGAGGAGCACTGGAAAAATACCACACCCCGCAGCCGCCAATCTGTATGGGTCCTTCTCATACAAACCGCAGTGGCGATGTATCATGACCGCAGAGGCAATCAGAACGGGGCCGCCACCCTTTTGAAACGGTGCATCAACAACCTGCCATCTCAGAAGGAGTCCCTGCTTCATCTGGGACTTGATCCGGGCCACCTGGAAAAGCAGCTTGCTGCAGAACTGTCCCGTGTACGCAGCGGTCAACCGTATGTAAGCTGGAACTTCTGCATTATTGATCCACAGCTGTTACAGGACGTCCAATATCTCTGCCAAAAATGGGGCGTGGTTTTCGGCTCACCCAGCAGGATGTCGGATGGTAACCTTATTCATAAACATAAACGGCGAAGGTAA	MYPALYLEYLAHFHGTRDYFECHEVLEEHWKNTTPRSRQSVWVLLIQTAVAMYHDRRGNQNGAATLLKRCINNLPSQKESLLHLGLDPGHLEKQLAAELSRVRSGQPYVSWNFCIIDPQLLQDVQYLCQKWGVVFGSPSRMSDGNLIHKHKRRR				NA	NA	NA	NA	NA
AK012_00635	366	ribT		Protein RibT	ATGCTGATTCGATATAAAAAATCTTTTGAAAAGATAGCTATGGGTCTGCTTTCCTTTATGCCGGAGGTTACGGATGTCCGGAATCTGCAGGACGTAATCCGGCAGTACGATGCAGATCCTGACTGGCATCTGTTTTTATGGAAAGAAGAAGATATACTGGGGGCAGTCGGCGTCCGTCTGGAGGGCGGCAGAGCTGTCGTTCAGCACGTTTCTGTCAATCCTTCCCACCGCAATCAGGGGATCGGACGCAGAATGATTCAGAGCATCCGTCTTCACTTTAAAGATCAATGCGAGATCTGTGCTGATACAGCAACAGAGACGTTCATTGAAAAATGTGATGAGGAAAGTGCTTCTTCCCAACTGTAA	MLIRYKKSFEKIAMGLLSFMPEVTDVRNLQDVIRQYDADPDWHLFLWKEEDILGAVGVRLEGGRAVVQHVSVNPSHRNQGIGRRMIQSIRLHFKDQCEICADTATETFIEKCDEESASSQL	PGPT0008530_133	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008530-ribT-K02859	NA	NA
AK012_00636	90			hypothetical protein	ATGAAATGGAAAAACTGGACACTGTTTACCATTCTCGCTTTATTCAGCATTGGCTGGGGCCTGTTTTACTGGTTTGGCATTGTCATGTAA	MKWKNWTLFTILALFSIGWGLFYWFGIVM				NA	NA	NA	NA	NA
AK012_00637	435	ppiB	COG0652	Peptidyl-prolyl cis-trans isomerase B	ATGAAACAAGCAACGATTCAATTTGAAAATGGCGAAAAAATGGTGGTCGAACTTTATGAAGAGGCTGCACCGAATACAGTAGCAAACTTTGAGAAGCTGGCCAATGACGAGTTCTATGACGGCCTGACTTTCCACCGTGTCATTCCTGATTTTGTCATTCAGGGCGGCTGCCCTAATGGTACAGGTACAGGGGGCCCGGGCTATACTATTAAATGTGAGACCGAAGGGAACCCGCATAAGCATGAACGGGGAACCTTGTCCATGGCTCATGCCGGTAAAGACACAGGAGGAAGCCAGTTCTTTGTCTGTCATTCCCCTCAGCCGCACCTTGACGGCCGTCATACGGTATTTGGAAAAGTCATCGAAGGTGTGGATATCGTCGACCGTGTCCGCGTCGGTGACGTTATGCAGCAGGTAAGAGTAGAAGATAAATAA	MKQATIQFENGEKMVVELYEEAAPNTVANFEKLANDEFYDGLTFHRVIPDFVIQGGCPNGTGTGGPGYTIKCETEGNPHKHERGTLSMAHAGKDTGGSQFFVCHSPQPHLDGRHTVFGKVIEGVDIVDRVRVGDVMQQVRVEDK	PGPT0015111_4771	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
AK012_00638	1314	lysA	COG0019	Diaminopimelate decarboxylase	ATGAATCATGAAGTAAATCAACAAGGACAGCTTATGATAGCGGGAGTGCAGGCCAAGGAACTGGCCGATCACTACGGCACGCCCTTATTCGTGTATGATGTCAATAAAATCAGGGCGAACGCGCAGGCATTTGTGCGTACCTTTGAAGAATATAATGTTCCTGCCCAGGTTGCCTATGCCAGTAAAGCTTTTTCATCGACAGCCGTTCTTCAAGTCATCCACCAGGAAGGGCTGAGCCTGGACGTTGTGTCACAGGGCGAGCTGCATACAGCACTTGAAGCAGGTTTTCCGGTAGAGAAAATCCATATGCACGGCAACAACAAGAACATCCAGGAACTCGAAATGGCTGTACAATATAATATCGGCTGTATCGTTGTCGATAATTTCTTCGAGATTGAATTGTTGAGCGCCGTATTAAAAGAACAGGGGAAGACGATGGATGTTCTTCTCCGTGTAACTCCTGGAATTGAAGCACATACCCACGATTATATCCTGACAGGTCAGGAAGATTCCAAGTTCGGGTTTGACTTGAGCAGCGGACAGGCTGAGGAAGCCTTCCAAAAAGTCCAGGAGGATCCAAATATCCAGATGAAGGGGCTGCACTGTCATATTGGATCACAGATATTCGAAACCGACGGGTTCCAAATGGCTGCCCAGCGTTTATTCCGCACCCTTCATGAGTGGAAGGAGAAATACGAATATGAAGCCTCTGTTGTCAACCTTGGCGGAGGATTCGGAATCCAATACACCGAAGAAGACCAGCCGCTGGAACTGGATCAATATGCTCATGCTCTGATTCAAGAAGTGAAATCATTATCCAGCCGGTTCGACTATCCGATGCCTGAAATCTGGATCGAACCCGGCCGGGCCATCGTCGGTGAAGCAGGTACAACACTGTACACGGTAGGTTCTGTGAAAAACATCCCGGAGGTCCGTACTTATATCTCTGTCGATGGAGGGATGACGGATAATATCCGCCCCGCGCTTTATAATGCAAAATATGAAGCAGCACTTACTGAAAAAATGAACGAACCTTCAGAAAATAATTATTCAATTGCTGGTAAGTGCTGTGAATCCGGGGATATGCTAATATGGGATGTGGCGCTTCCTGCTGTAGAGCATGGAGATACACTTGCAGTTTTCAGTACAGGAGCGTATGGTTATGCTATGGCAAGTAATTATAACCGCTTTCAAAAACCGGCTGTCGTGTTTGTGGAAAACGGGGAACATCAGCTGGTCGTCCAGAGAGAAACGTATCAGGATATGACCAGACTGGATTTGTCATACGAGAAAGGAAAGGGGAAAGAGAAATGA	MNHEVNQQGQLMIAGVQAKELADHYGTPLFVYDVNKIRANAQAFVRTFEEYNVPAQVAYASKAFSSTAVLQVIHQEGLSLDVVSQGELHTALEAGFPVEKIHMHGNNKNIQELEMAVQYNIGCIVVDNFFEIELLSAVLKEQGKTMDVLLRVTPGIEAHTHDYILTGQEDSKFGFDLSSGQAEEAFQKVQEDPNIQMKGLHCHIGSQIFETDGFQMAAQRLFRTLHEWKEKYEYEASVVNLGGGFGIQYTEEDQPLELDQYAHALIQEVKSLSSRFDYPMPEIWIEPGRAIVGEAGTTLYTVGSVKNIPEVRTYISVDGGMTDNIRPALYNAKYEAALTEKMNEPSENNYSIAGKCCESGDMLIWDVALPAVEHGDTLAVFSTGAYGYAMASNYNRFQKPAVVFVENGEHQLVVQRETYQDMTRLDLSYEKGKGKEK				NA	NA	NA	NA	NA
AK012_00639	1467	gerXA		Spore germination protein XA	ATGCAGGATCAAAAAGAAGCACCCATCGTTATGAAACTGGCCCAGAATAGGAAGGCGTTAAATGAAAGGATCGGTGTGGAACAATCCTTCGATCTTGGATTCCGCACAGTATATATTCTTGGATCAGAAGTCAACGTCTATTATGTCACAGGCCTTGTCGAAACGCCTATCATCGTAGATATTATGAGGCAGTTGTTTGAATTGAATGAGGGGACGGAAGAAGAGGATACCGTAAGCTCACGGATCAAGAATGATATCCCTCACCAGCAGGTGGAAACATCATCGGATATGAACCAGTGTATCACCCAGCTGTTATCCGGCCTCATCGTCCTGTTTGTTGAAGGAGAGACCGACGCATTTATCGTCGACGTCCGTACTTATCCAGGCCGGACACCGGAAGAGCCGGATACAGAAAAGGTCATACGAGGATCGAGGGATGGCTTCACTGAAAATATCATTGAAAATACAGCATTAACAAGACGGAGAATCCGTGATGAACGGCTCCGCCATGAAATTCTCCAAGTAGGGGAAAGATCGAAAACAGATGTCTGTATTTCATATATCAAAGATGTCGCAGACCCGGGGCTTGTGGATTTGATCAAGAGCGAAATAAAAAACATCGATATAGACGGCTTATCCATGGCAGACAAAACCGTCGAGGAATTTCTCGTCAAGCAGGGGAGTAACCCGTTCCCTCTTGTTCGTTATACCGAGAGGCCTGATGTAGCTTCAGCTCACTTATTTGAAGGTCATGTAATCATTATGGTGGATACCTCCCCGAGTGTCATTATTACGCCGACAACCTACTTCCATCATGTTCAGCATGCAGAGGAATTCAGGCAGGCACCTGCAGTAGGAACATTTGTCCGCTGGGTTCGGTTTTTCGGGATATTCTCTTCGATATTTGTTCTGCCTCTCTGGATGCTGTTCGTGATGCAGCCGGATCTGCTACCGGAGTCTCTGGCTTTTATCGGCCCGAATGAAGAGACATCCATACCTATCATTATTCAAATTCTTCTGGCAGACCTCGGGCTTGAAATGCTGAGGATTGCCGCTATTCACACGCCGACACCGTTATCGACCGCGATGGGGCTGATCGCGGCTGTTCTGATTGGACAGATCGCGATCGATGTGGGGATGTTTGTCCCGGAAGTTATTCTATATGTTGCTGTTGCAGCGATTGGATCCTACTCGACTCCAAGTTATGAATTGTCCGTAGCCAATAAGATGGCCAGGGTTTTATTTGTGATTTTAGTTGCTGTTTTTGGTATCAAAGGGTTGATGATAGGATTCCTTGGTTTTATTCTCCTTCTCGCCCATACAAAATCGTTGAACACGCCTTACCTCTGGCCTTTTCTTCCTTTTAATGCCAAGGCTGCTCTGCAGATCATCTTCAGGCTCAGCATGCCGTCTTTAAAGGTCCGGCCGAGCGTCGTTCATCCTCAAAATAATCAGAGGCAGAAATAA	MQDQKEAPIVMKLAQNRKALNERIGVEQSFDLGFRTVYILGSEVNVYYVTGLVETPIIVDIMRQLFELNEGTEEEDTVSSRIKNDIPHQQVETSSDMNQCITQLLSGLIVLFVEGETDAFIVDVRTYPGRTPEEPDTEKVIRGSRDGFTENIIENTALTRRRIRDERLRHEILQVGERSKTDVCISYIKDVADPGLVDLIKSEIKNIDIDGLSMADKTVEEFLVKQGSNPFPLVRYTERPDVASAHLFEGHVIIMVDTSPSVIITPTTYFHHVQHAEEFRQAPAVGTFVRWVRFFGIFSSIFVLPLWMLFVMQPDLLPESLAFIGPNEETSIPIIIQILLADLGLEMLRIAAIHTPTPLSTAMGLIAAVLIGQIAIDVGMFVPEVILYVAVAAIGSYSTPSYELSVANKMARVLFVILVAVFGIKGLMIGFLGFILLLAHTKSLNTPYLWPFLPFNAKAALQIIFRLSMPSLKVRPSVVHPQNNQRQK	PGPT0024820_243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024820-spoVAF-K06408	NA	NA
AK012_00640	351			hypothetical protein	ATGACCTTTCTATGGGCTTTTATCGTAGGAGGAGGGATCTGTGTGATCGGCCAGCTTCTGCTGGATGTCTTTAAGCTGACACCTGCCCACGTCATGTCCTCCTTTGTTGTGGCCGGTGCGGTTCTGGATGCTTTCGATATTTATGACAATCTCATTGAATTTGCAGGAGCAGGAGCGACCGTCCCAATCACAAGCTTTGGACATTCCCTTCTGCACGGGGCAATGGAACAATCCGAAGAGCATGGGTTTATCGGGATCGCAGTTGGAATATTTGAATTGACTTCTGCAGGTATTGCATCTGCTATTTTGTTTGGATTTATCGTTGCGCTGTTTTTTAAACCGAAAGGGTAA	MTFLWAFIVGGGICVIGQLLLDVFKLTPAHVMSSFVVAGAVLDAFDIYDNLIEFAGAGATVPITSFGHSLLHGAMEQSEEHGFIGIAVGIFELTSAGIASAILFGFIVALFFKPKG	PGPT0024815_602	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024815-spoVAE-K06407	NA	NA
AK012_00641	1017	spoVAD		Stage V sporulation protein AD	ATGGGTAAAGCTGGAAAGCAAACGTGGACATTTTCCAATCAAGTTTATATACAATCTTCCGGTACAGCTGTGGGTCCGATGGAAGGGGAAGGGCCCCTTGGAAGGACGTACGATGTTGTCCATGAGGAGCTTCACTGTGGAGAATCAAACTGGGAGCTGGCGGAAAGGAAGTTGATGTTTGACGCCGTTTACGCCTGTCTTCAGAAAGCGGGGGTTGACCAGTCTGCCATTGATCTATTTCTTGCAGGAGACCTTCTCAACCAGAATGTGACAGGTAATTATGTCGCCCGTCAGCTGGAAATCCCTGTCCTCGGTATGTTTGGTGCCTGCTCAACGAGTATGGAGACACTGGCATCCGGAGCCGCTTTGGTCGACAGCGGGTATGCGGATCAGGCTTTAGTGGCGGTCAGTTCTCATAACTGCACCGCAGAGCGTCAATTCCGTTATCCAACGGAATATGGGGGACAGAAACCGAAAACCGCCACATATACCGTGACGGGAAGCGGAGCCGCCCTTCTCTCCAGAACTCCCTCACCTGTACAGGTGGAAGCTGCAACAATCGGAAGAGTGATGGATTACAACATTAAAGACCCTTTTGATATGGGATCCGCTATGGCTCCGGCGGCATGGGATACGATAAAGACCCATCTGGAGGATATGGGACGAATGCCTTCGGATTATGATGTGATCGCTACGGGGGATTTATCTTCTGTAGGATCCCCGATTTTCAAAGATATGATGAAACAGGACGGATATGACGTCAGTGACGTTCATAAAGACTGTGGCATGCTCGTTTATCACAGTGATCAGCCCGTTTTTGCCGGGGGAAGCGGATGTGCGTGTTCTGCTGTCGTGACATATGGGAAACTCATTCAGGACATCATCGAAGGGAAGTATAATAAAGTGCTCGTAGCTGCCACCGGGGCCTTGATGAGTCCGATGATGATCCAGCAGAAGGAATCCATTCCCGGAATCGCCCACGCGGTCGTACTACAAAAGGGGGAGGCGGACTCATGA	MGKAGKQTWTFSNQVYIQSSGTAVGPMEGEGPLGRTYDVVHEELHCGESNWELAERKLMFDAVYACLQKAGVDQSAIDLFLAGDLLNQNVTGNYVARQLEIPVLGMFGACSTSMETLASGAALVDSGYADQALVAVSSHNCTAERQFRYPTEYGGQKPKTATYTVTGSGAALLSRTPSPVQVEAATIGRVMDYNIKDPFDMGSAMAPAAWDTIKTHLEDMGRMPSDYDVIATGDLSSVGSPIFKDMMKQDGYDVSDVHKDCGMLVYHSDQPVFAGGSGCACSAVVTYGKLIQDIIEGKYNKVLVAATGALMSPMMIQQKESIPGIAHAVVLQKGEADS	PGPT0024810_225	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024810-spoVAD-K06406	NA	NA
AK012_00642	459			hypothetical protein	ATGGATAAGCAGCCTTTGAACGAACAGAATTTCGAAAAAGCCGTGAAATCCTACCAGCCAAAGCCGCCTTACGTCATGAATTGTATAAAAGCGTTCATCGTAGGAGGGCTCATCTGTGTATTCGGTGAGTTGTTGTCGCAGATGTATGTTCATTGGTTTGATTATAGTGAAGAAAATGCGATGAACCCAACTGTAGCCACTCTCATTTTACTAGCGGCATTAGCCACGGGCTTCGGGGTTTATGATAAGCTGGGGCAGTTTGCAGGAGCTGGATCAGCCGTTCCTGTTACAGGTTTTGCCAACTCGATTACGAGCGCGGCTCTCGAGCATAAATCGGAGGGGTTGGTGCTGGGGGTGGCGACGAATCTGTTCAAACTGGCCGGATCTGTCATTGTATTCGGTGTAGTGGCCGCCTATGTTCTGGGGATTATCAGGTATGTCTGGTCACTTATCTTCTAG	MDKQPLNEQNFEKAVKSYQPKPPYVMNCIKAFIVGGLICVFGELLSQMYVHWFDYSEENAMNPTVATLILLAALATGFGVYDKLGQFAGAGSAVPVTGFANSITSAALEHKSEGLVLGVATNLFKLAGSVIVFGVVAAYVLGIIRYVWSLIF	PGPT0024805_299	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024805-spoVAC-K06405	NA	NA
AK012_00643	411			hypothetical protein	ATGTGGATCGTTGAAATCTTGATCGGACTTGCGTCAGGGATTGCTGTCGGAACAGGTTTTGTAGCTTTTTTGACCGTTCTTGGGATTGTACCTCGCCTGATGCAGTTAAGTCATTCTGAATCGAAATTAAGGCACTATGAATGGGCGGTCATCTCCGGCGTGTTTTTCGGCATCTATTTGTCTTTTGGAAGCTTCCCCATTGAGATGACGTGGTGGGGAATCGGCTTGTGGGGACTGTTTCACGGCATTTTCATCGGCATGCTCGCCGCAGCCCTTACAGAAGTGTTGAACGTTTTCCCCCTCCTTTTTAAACGGATCGGGGTTGATGGATATCTCTTTACTTTATTAATGGCGCTCGTCCTTGGGAAGATCGCAGGTTCCCTGTTTCAATGGATCATTTTTGTCAAATAG	MWIVEILIGLASGIAVGTGFVAFLTVLGIVPRLMQLSHSESKLRHYEWAVISGVFFGIYLSFGSFPIEMTWWGIGLWGLFHGIFIGMLAAALTEVLNVFPLLFKRIGVDGYLFTLLMALVLGKIAGSLFQWIIFVK	PGPT0024800_221	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024800-spoVAB-K06404	NA	NA
AK012_00644	618			hypothetical protein	ATGGCAGCACCTGTCTATATTCGTCTGAAGCAGTCCATTTATGTAAATCCGGAGGCGGAAATCCGCCTGAAGGATGCTGCTGGAATTACAGGGGCTGAACAGCAGATCTCCCCTTTGAAGGAACTTATACTGCATGAAGTGACACCGGAGGATCAGAACATAGTCGTCATTGATGCTTTTATGGTTGTGGAACAGATTCTTCATCATCAGCCGGATACAGAAGTACAGCTGATTGGTCCTTCCTCCTGTGTCGTCCATGTCGAGAAGCACAAGAAAGAACCGAATCCGCTGTTAATCAGTGCCATATGGATTTTACTATTTATCGGGGCGGCCATGGCCATTATGAATTTTCACTTTGATGTCAGTATGCAGTCGGTGCAGCAGAAGCTTCACCTGATGCTGACAGGCCGCGAAGCTGAATATCCACTTTTGATACAAATTCCGTACTCGATCGGACTTGGTATCGGTATGATCTTATTCTTCAATCATTGGTTTCAAAAAAGATTCAATGAAGAACCGAGTCCGATGGAAGTCGAGATTTTTAACTACCAGGAGGATTTGGATCATTATGTAGCCATTAAAGAAAATAAGGTGGAAAAAAAGGATGTGGATCGTTGA	MAAPVYIRLKQSIYVNPEAEIRLKDAAGITGAEQQISPLKELILHEVTPEDQNIVVIDAFMVVEQILHHQPDTEVQLIGPSSCVVHVEKHKKEPNPLLISAIWILLFIGAAMAIMNFHFDVSMQSVQQKLHLMLTGREAEYPLLIQIPYSIGLGIGMILFFNHWFQKRFNEEPSPMEVEIFNYQEDLDHYVAIKENKVEKKDVDR	PGPT0024795_215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024795-spoVAA-K06403	NA	NA
AK012_00645	747	sigF	COG1191	RNA polymerase sigma-F factor	ATGGGAGATGCCACGAAAGAACGTCTGTCGGATAAAGATGTGAAGGCATTGATTAAAAAAAGCCAGGCCGGAGATCAGGAAGCCAGGGATTTTCTTGTCGAAAAGAATACCAGACTCGTCTGGTCAGTGGTGCAGCGATACCTGCGCAGAGGATATGACCAGGATGATCTTTATCAAATCGGATGTATCGGTCTTTTAAAATCCATCGACAAGTTTGACCTGAGTTATGATGTCCGTTTTTCGACGTATGCGGTCCCTATGATCATTGGTGAAATCCAGCGGTTTATCAGGGATGACGGCAGTGTGAAGGTCAGCCGCAGTCTGAAAGAATTAAACCATAAAGTCAGGGCCAAAAAAGAAGAGCTTTTAAAGGAATACGGCCGGTCGCCGACCTTGCAGGAACTGGCTGAAGCTCTCGGTATGTCCAAGGAAGAAATTGTCCAGGCGGAGGACGTTGGCCGTGCGCCTCAGTCCATTTATGAAACGGTGTATGAGAATGAGGGGGATCCCATTACCCTGGTCGATCAAATCGCTGAGGATGATGACAGCTGGTTTGATCAGCTTACGCTCCAGGATGTTATGAGCAGGCTGGATAAACGGGAGCGTCTCATCATTTATCTCAGGTATTACAAGGATCAGACACAGACAGAGGTAGCCGAAAGGCTTGGAATATCCCAGGTCCAGGTTTCCAGGTTGGAGAAAAAGATTCTGGCGGATATGAAAGCTACGATGAATGATACGAGTTGA	MGDATKERLSDKDVKALIKKSQAGDQEARDFLVEKNTRLVWSVVQRYLRRGYDQDDLYQIGCIGLLKSIDKFDLSYDVRFSTYAVPMIIGEIQRFIRDDGSVKVSRSLKELNHKVRAKKEELLKEYGRSPTLQELAEALGMSKEEIVQAEDVGRAPQSIYETVYENEGDPITLVDQIAEDDDSWFDQLTLQDVMSRLDKRERLIIYLRYYKDQTQTEVAERLGISQVQVSRLEKKILADMKATMNDTS	PGPT0014795_740	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
AK012_00646	441	spoIIAB	COG2172	Anti-sigma F factor	ATGCGGAATGAAATGACCCTTGAATTTTTAAGCATCAGCGCCAACGAATCTCTGGCAAGGGTTTCGGTCGCTTCTTTCATCAGTCAGCTCAACCCGACGATGGAGGAACTGACGGACATTAAAACTGTTGTATCCGAAGCGGTGACTAATGCGATCATCCACGGATATGAGGAAAAGAATGACGAAAAAATCGTACTGACCTGTGCCATTGATGGAGAAGAAATCGAATTGATTATTAAAGACCATGGAAACGGTATTGAGAATATCGATCTTGCCAAGGAGCCATTGTATACATCCAAGCCGGAATGGGAGCGCTCCGGTATGGGATTTACAATTATGGAGAACTTCATGGATCAAGTGGACATCACATCTGAGCCCGGGGTCGGGACGACCATACGTATGACGAAGCAGCTGACGTCCACCCGTGCGCTTTGTAATTGA	MRNEMTLEFLSISANESLARVSVASFISQLNPTMEELTDIKTVVSEAVTNAIIHGYEEKNDEKIVLTCAIDGEEIELIIKDHGNGIENIDLAKEPLYTSKPEWERSGMGFTIMENFMDQVDITSEPGVGTTIRMTKQLTSTRALCN	PGPT0024660_190	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024660-spoIIAB-K06379	NA	NA
AK012_00647	366	spoIIAA	COG1366	Anti-sigma F factor antagonist	GTGAGTCTTCAAAGTCATTTCGCTGTCAGGGAAAATGTTTTGATTGTACGTTTGAATGGAGAGCTTGATCATCACGAAACCGGGTACCTCAGGGAAGCCTGGCAGAAACAGCTGGAAAACAAAGCCGTCGACCATGTGATTGTCAATTTAGAAAAACTATCCTTCATGGATAGTTCCGGCCTTGGCGTTATGCTCGGTCGTTATAAAGAAGTACAGGCAAAGGGAAATGTGATGGTGGTTTGTTCCGTATCCCCTGAAGTCAAACGGTTGTTTGATATGTCCGGTCTGTTTAAGATTATGCAGCTGATGGATAATGAATCTGCTGCATTGGAAAGTCTGGGGGTGGCATCATGCGGAATGAAATGA	MSLQSHFAVRENVLIVRLNGELDHHETGYLREAWQKQLENKAVDHVIVNLEKLSFMDSSGLGVMLGRYKEVQAKGNVMVVCSVSPEVKRLFDMSGLFKIMQLMDNESAALESLGVASCGMK	PGPT0024655_149	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024655-spoIIAA-K06378	NA	NA
AK012_00648	1173	dacF	COG1686	D-alanyl-D-alanine carboxypeptidase DacF	ATGAGAAAATTGTTAGGTGTCATTCTAGCTCTTTGTTTATTCGTGACTCTTCTTCCGGCAGGCTTATCAGCGGAGGAAAAGGAATCGTTGGATATTGTGAATTCAGCAAAATCGGCTGTTTTAATGGAGAAAAACAGCGGCCGTACACTTTTTGATAAGGATGCAGATAAGCAGCTGCCTCCAGCAAGCATGACGAAGGTCATGACTCTTTTATTGATTATGGAGGAACTGGAAAAAGGCGGGATCACTCTGGACGAAATGGTCCGTGTCAGTGAACATGCGGCTTCCATGGGAGGATCCCAGATCTTTCTTGAAGCGGGTGAGGAGATGACTGTGGAAGATCTTCTTAAGGGGATCGCTGTAGCTTCGGGCAATGATGCCAGCGTAGCGATGGCTGAACGGATTGCCGGAAGTGAAAAAGAATTCGTAGCGATGATGAATGAAAAAGCAGAGGCCCTTGGTTTGAAAAACACCCATTTTGAAAATCCGACGGGACTTCCGGCCGAAAATCACCTGAGCACCGCACGTGATATGGCCGTTATGGCCCGTGAACTGCTTCTGCATGATGAAGTAACCCAATACACAAAAATATATGATGATTACCTGCGTAAAGGGCAGGATAATGAATTTTGGCTGGTGAACACGAACAAACTGATCAAAACCTATCCTGGAATGGACGGGTTAAAAACGGGCTATACCTCAGAAGCCAAATACTGCCTGACCGCCTCCGCCCAGCGGAACGATATGCATATGATTGCGGTGGTCATGGGTGCATCGACTCCAAAAGACCGGAATGCTGATGTTTCCAGCCTGCTGGACTATGGCTTTTCACAATTTGAAGGTGTCAAACTTTATTCAAAGGACGATGCCATGACAACCTTGAATCTGACAAGAGGAGAGCCTCGTCAGGCGGTGTTGAAACCGGAGAAGGATGTCGTCGTTCTGAAGAAGAAAAATGATAAAAAGACGGAGTATGAAACAGAGTTGAATGTAGACGACAGCCGAAGTCTGCCATATGAAAAAGGGGATCACATGGGGTGGGTCGTTGTCAAAAATGGAGATGAAGAAGTCGCCAAAGTGCGGCTGGAGACTTCAGAAACTGTGGAAGAAGCAGGGTTTTTCCGGTTGTGGGAACGGTCCTGGAGGAATTTGACGAGCTTTCAGAGGTTTTAG	MRKLLGVILALCLFVTLLPAGLSAEEKESLDIVNSAKSAVLMEKNSGRTLFDKDADKQLPPASMTKVMTLLLIMEELEKGGITLDEMVRVSEHAASMGGSQIFLEAGEEMTVEDLLKGIAVASGNDASVAMAERIAGSEKEFVAMMNEKAEALGLKNTHFENPTGLPAENHLSTARDMAVMARELLLHDEVTQYTKIYDDYLRKGQDNEFWLVNTNKLIKTYPGMDGLKTGYTSEAKYCLTASAQRNDMHMIAVVMGASTPKDRNADVSSLLDYGFSQFEGVKLYSKDDAMTTLNLTRGEPRQAVLKPEKDVVVLKKKNDKKTEYETELNVDDSRSLPYEKGDHMGWVVVKNGDEEVAKVRLETSETVEEAGFFRLWERSWRNLTSFQRF	PGPT0024040_3674	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK012_00649	1296	pdp		Pyrimidine-nucleoside phosphorylase	ATGTATGATGTAATTGTTAAAAAGCGCGACGGCGGGGAGCTCACAGAGGAAGAAATAAAGTTTTTTGTGGAAGGGTATACAAAAGGAGAAATTCCTGATTATCAGGCTTCAGCACTGACGATGGCCATCTATTTTCAGGGGATGACGCAGGAGGAAACGGCGACCTTGACGAAAGCGATGGTTGATTCCGGCGAAACCATCGACCTCTCAGAGATCGATGGGAAAAAAGTAGATAAGCACTCCACGGGCGGTGTAGGTGACAAAGTAACCTTCATCGTAGGCCCTCTCGTTGCGTCCGTTGGTATTCCTGTTGCGAAAATGTCCGGCCGCGGTCTTGGCCATACAGGTGGAACGCTGGATAAACTGGAATCCGTCAAGGGTCTTGAAATTGAGATGAGTAAAGAGAAGTTTATTGAGAACGTTAACAAGTACAAGCTTGCTGTGGCCGGCCAGACAGGGAATCTGGCTCCGGCTGATAAGAAACTCTATGCGCTGCGGGACGTAACAGGAACGGTGAACTCCCTGCCACTTATCGCTGGTTCAATCATGAGCAAGAAGATCGCATCCGGAGCGGACAGCATTGTATTGGATGTAAAAACAGGGACAGGTGCTTTTATGAAGACATTGGAGGATTCCGAAGCCCTTGCCCGTGAAATGGTGAACATCGGAAACAACCTGGGTAGAAAAACCGTAGCGGTTATCAGTGATATGAACCAGCCGCTTGGCTACGAAGTCGGTAATGCGAACGAAATCAAGGAAGCAGCGGAAATCCTTCAGGGAAGCCGTGTGGAAGACCTTCGCACACTCTCTCTGGAAATTGCCTCTCATATGGCTGTGCTGGCAGACAAGTTCCCAACGTATGAGGAAGCTTATGAAGCGCTGGAAGCTAATATTGAGAACGGTAAAGCGTTCCAATCCCTGCGTAACCTTATTGAAGCACAGGGTGGAGATGTATCCATGGTCGATGATCTTTCCAAGCTTCCACAGGCGAAATACCAAGTGGAAGTACCGGCTGAAAAAGATGGTTTTGTATCGGCTATTGACGCGGAGTCCATTGGTGTTGCCGCTATGTACCTTGGTGCCGGCCGTGCCACGAAGGATGACGAGATCAATCATGGTGTTGGAATCACGATGAAGAAGAAAATTGGCGACTCAGTGCAAGCGGGAGAGCCTCTTGTTGTTCTTCTAAGTGACGATGAACAGCCGGAAGATTCCATACAGAAGGTAAAGCAGGCCTACACGATTTCAAACGATGTCGTTGAGAAGCCTACATTGATCCATAATATTATTAAGTGA	MYDVIVKKRDGGELTEEEIKFFVEGYTKGEIPDYQASALTMAIYFQGMTQEETATLTKAMVDSGETIDLSEIDGKKVDKHSTGGVGDKVTFIVGPLVASVGIPVAKMSGRGLGHTGGTLDKLESVKGLEIEMSKEKFIENVNKYKLAVAGQTGNLAPADKKLYALRDVTGTVNSLPLIAGSIMSKKIASGADSIVLDVKTGTGAFMKTLEDSEALAREMVNIGNNLGRKTVAVISDMNQPLGYEVGNANEIKEAAEILQGSRVEDLRTLSLEIASHMAVLADKFPTYEEAYEALEANIENGKAFQSLRNLIEAQGGDVSMVDDLSKLPQAKYQVEVPAEKDGFVSAIDAESIGVAAMYLGAGRATKDDEINHGVGITMKKKIGDSVQAGEPLVVLLSDDEQPEDSIQKVKQAYTISNDVVEKPTLIHNIIK	PGPT0021295_732	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021295-pdp|deoA-K00756	NA	NA
AK012_00650	822	punA		Purine nucleoside phosphorylase 1	ATGAATCAAGCGCAAGTAAAAGAAGCATCTCAATTTATTAAACAGCAGCTGCCCGAACAACCTGGAGTAGGGTTGATTTTAGGGTCCGGTCTTGGGGTTTTAGCAGAAGAAATTAAAAACCCTACGGCTATTCCTTATTCCGAAATTCCCCACTTCCCGGAATCAACGGTCTCTGGACACAAGGGACAGCTGGTCATCGGGGAGCTTGAAGGACAGCAGGTTATTGCTATGCAGGGCCGCTTCCACTATTACGAAGGCTATACGATGAAACAAGTGACGTTCCCGGTACGTGTGATGAAGGAGCTCGGGGTTGACACTCTATTTGTCACAAACGCTGCCGGCGGCATCAATACTTCCTTTGAACCCGGAAACCTGATGGTAATCACTGATCATATTAATAATATGGGGGACAGCCCGCTGATCGGACCAAATGATGATGAGCTGGGGCCGCGGTTCCCGGATATGTCTGAAGCCTATGACCGGAAGCTGATTGATCACGCAGAAAAGGCGGCAGAAAAACTGAACCTGGGCATTCAAAAAGGTGTATACGTCGGTAATACGGGCCCTGCCTATGAAACAGGTGCAGAGATCCGCATGCTTCGTACACTTGGCGGAGATGCTGTAGGAATGTCTACAGTTCCGGAAGTCATGGTGGCCAACCATGCAGGCATGAAAGTTCTTGGTATTTCCTGTATTTCCAACATGGCTGCAGGTATTCTTGATCAGCCGCTTACTCATGACGAAGTGATTGAAACGACCGCGCAGGTTCGTGAAGATTTTCTCGGTTTTGTCAAGGAACTGCTCCGTACACTTTCTGTTTAA	MNQAQVKEASQFIKQQLPEQPGVGLILGSGLGVLAEEIKNPTAIPYSEIPHFPESTVSGHKGQLVIGELEGQQVIAMQGRFHYYEGYTMKQVTFPVRVMKELGVDTLFVTNAAGGINTSFEPGNLMVITDHINNMGDSPLIGPNDDELGPRFPDMSEAYDRKLIDHAEKAAEKLNLGIQKGVYVGNTGPAYETGAEIRMLRTLGGDAVGMSTVPEVMVANHAGMKVLGISCISNMAAGILDQPLTHDEVIETTAQVREDFLGFVKELLRTLSV	PGPT0013380_1275	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013380-punA-K03783	NA	NA
AK012_00651	1179	deoB	COG1015	Phosphopentomutase	ATGAATTCATTTAAACGAGTATTTTTAATTGTTATGGACTCCGTAGGGATCGGGGAGGCGCCGGATGCCGGTAAGTTTGGTGACGAAGGAGCGGATACGCTGGGCCACATTGCCGCTCATATGAACGGATTGAACATGCCGCATATGGGAGAACTCGGTTTGAGCAACATCAGAAGCATCCAGGGAATTGAAAAAGCTTCTGCACCTAAAGCCCATTATACAACGATGGTGGAAGCATCCAACGGGAAGGATACGATGACGGGCCACTGGGAAATCATGGGTCTCTATATCGACCAGCCATTCCGTACATTCCCGGATGGTTTTCCAGACGAACTGCTGGACCAAATCAAGGAGAAGACCGGAAGAGGCATTGTAGGGAACAAGCCGGCATCAGGAACGGAAATCATTAAAGAGCTGGGCGGACATCATATGGAAACCGGAGACTTGATCATTTATACTTCAGCCGATTCAGTTCTTCAAATCGCTGCTCACGAAGACGTCGTTCCGCCTGAGGAACTGTTTGAAATCTGTGAATTCTGCCGGGAGATCACAAAGGACGAAAAATATATGGTCGGCCGTATCATTGCCCGTCCATTCATAGGAGAGCCGGGGGCTTTTGAACGGACATCCAACCGTCATGATTATGCACTTAAACCATTCGGCCGGACAGTAATGAATGACATGGCAGACGCCGGCCTTGATGTTGTAGCTCTTGGTAAGATTTCAGATATCTATGATGGTGAAGGTGTGACAGAAGCGGTTCGTACGAAAGACAATATGGACGGCATGGATCAGTTAGTGAAGTCTATGGATAAAGATTTCCATGGAATGAGCTTCCTGAACCTGGTTGACTTTGATGCCAAGTACGGCCACCGCCGCGATCCTCAAGGGTATGGGGAAGCGTTGGAAGCCTATGATGAGCGTCTTCCGGAAGTATTGGAAAAAATGGAAGACGATGATCTGTTAATCATTACTGCTGACCACGGGAATGACCCGGTGCACCATGGAACAGACCACACCCGTGAACTGGTGCCGCTTATCGTTTATCATAAAGGGATCGATCAAGGAAAAGAGCTGGAGCAGCGCCGCACATTTGCGGATATCGGCGCCACGGTTTCTGATAACTTCAATATTCAAATGCCTGAACATGGGCAGAGTTTCTTAAAGGACATTCAATAG	MNSFKRVFLIVMDSVGIGEAPDAGKFGDEGADTLGHIAAHMNGLNMPHMGELGLSNIRSIQGIEKASAPKAHYTTMVEASNGKDTMTGHWEIMGLYIDQPFRTFPDGFPDELLDQIKEKTGRGIVGNKPASGTEIIKELGGHHMETGDLIIYTSADSVLQIAAHEDVVPPEELFEICEFCREITKDEKYMVGRIIARPFIGEPGAFERTSNRHDYALKPFGRTVMNDMADAGLDVVALGKISDIYDGEGVTEAVRTKDNMDGMDQLVKSMDKDFHGMSFLNLVDFDAKYGHRRDPQGYGEALEAYDERLPEVLEKMEDDDLLIITADHGNDPVHHGTDHTRELVPLIVYHKGIDQGKELEQRRTFADIGATVSDNFNIQMPEHGQSFLKDIQ	PGPT0017440_1593	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017440-deoB-K01839	NA	NA
AK012_00652	888	xerD_1		Tyrosine recombinase XerD	ATGAAGTATGCTCTTGAAGATTTTTATCACTATTTAACGGTGGAGCGCGGACTTTCACCCAATACAATACAATCCTATAAACGGGACCTTACACAATACGCTGCGTTTATGCAGGAAAAAGAGGAGATCAAATCATGGGATGTGGTAACGAGGGGGCACATTATGAAATACCTCTACCACTTGAATGACCAGGGAAGATCCCCGGCTACGACAGCGCGTTTTCTGTCCTCCATCCGCCTTTTTCACCAGTTTCTGATCAGAGAAAAAAAGACGGAGCATGATCCGAGTCTACATATAGAAACACCGAAAAAGGAGCGGCGGCTTCCCAAAGTGCTATCCTCTGATGATGTGGATAAACTCTTGAATATCCATGCCAGGGATCCTCTTTCCTCAAGGAATAAAGCCATGTTCGAAATGCTCTATGCGACCGGTCTCCGCGTAACGGAACTGGTATCCCTGAAGGTCAGTGATCTTCATTTGACGATGGGGTTTGTCCGCTGCCTCGGTAAAGGTTCCAAAGAACGGATCATTCCCCTTGGTGATATGGCTAAAGAAGCTGTGGAAAAATATTTGGACACGGGGCGCGGGGCGTTGGTCAAACAGAAAAACACGGAAGAATTATTTGTCAATCACCATGGAAACAAGCTGTCCAGACAAGGTTTTTGGAAGATTCTGAAAGCGGTTGCTCGGGAGATGGGCGTGGAAAAAGAACTCACCCCACATACGCTCCGTCACTCTTTTGCCACTCATCTGCTTGAAAATGGTGCGGATTTAAGGGCGGTACAGGAAATGCTTGGCCATGCAGACATTTCGACGACACAGATTTACACCCACGTGTCAAAAACACGACTGAAAGACGTTTACCGCTCGTATCATCCACGGGCGTAA	MKYALEDFYHYLTVERGLSPNTIQSYKRDLTQYAAFMQEKEEIKSWDVVTRGHIMKYLYHLNDQGRSPATTARFLSSIRLFHQFLIREKKTEHDPSLHIETPKKERRLPKVLSSDDVDKLLNIHARDPLSSRNKAMFEMLYATGLRVTELVSLKVSDLHLTMGFVRCLGKGSKERIIPLGDMAKEAVEKYLDTGRGALVKQKNTEELFVNHHGNKLSRQGFWKILKAVAREMGVEKELTPHTLRHSFATHLLENGADLRAVQEMLGHADISTTQIYTHVSKTRLKDVYRSYHPRA	PGPT0022000_6999	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK012_00653	477	fur	COG0735	Ferric uptake regulation protein	ATGGAACATCGTATTGAAAAAATAAAGAAGCAGCTGCATTCCCAAAGTTATAAGCTTACACCGCAGCGGGAAGCAACTGTACGGGTTTTACTGGAAAACGAAGAAGATCATTTAAGTGCGGAAGATGTTTACCTCCTCGTAAAAGAGAAAGCACCTGAAATTGGTCTTGCTACCGTATATCGTACACTTGAACTCTTAACTGAATTGAAAGTTGTCGACAAAATCAATTTTGGAGACGGCGTTTCCCGTTATGATTTAAGAAAAGAAGGGGCCGAACATTTCCACCACCACCTGGTCTGCATCGAATGCGGATCCGTGGAGGAAATTGAGGAAGACCTTCTGCTTGACGTTGAAAAAATAGTTGAAAGTCAATGGGGATTTGAAGTGAAGGATCACCGGCTGACCTTCCACGGCATCTGCCGTGTCTGTCAAAAGCAGGCAGTCACTGCTTCATCTGCGGAAGAAAACAAAAAATGA	MEHRIEKIKKQLHSQSYKLTPQREATVRVLLENEEDHLSAEDVYLLVKEKAPEIGLATVYRTLELLTELKVVDKINFGDGVSRYDLRKEGAEHFHHHLVCIECGSVEEIEEDLLLDVEKIVESQWGFEVKDHRLTFHGICRVCQKQAVTASSAEENKK	PGPT0003880_801	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003880-fur|furB|zur-K03711	NA	NA
AK012_00654	639	spoIIM	COG1300	Stage II sporulation protein M	ATGCACCAGGGAATGCGGATGGTGAAAAATGATGTACAATCTCATATGAATATTTTCGTATTCATTTTTGTGCTGTTTCTAATGGGGATCATATTCGGAGCTGTGATTGTGAACAGTATGAACTTTGTACAGAAGCAGGATCTCTTTTTCTATTTGAAACAGTTTTTTGAGCAGCAGGCGTCGTCTCCGGGGACAGGGAGAGCGGTGTTGTGGAAGGACAGTGTCCTTTACCATGTGAAGTATATGCTGCTTCTCTTCCTGCTGGGGATTTCAGTGATCGGTATGCCCGTCATTACTGTTCTGCTTTTCATTAAAGGGCTGGTGCTTGGTTTTTCTGTTGGATTTCTTGTCAATCAGATGGGATGGTACGGACTGCTGATTTCCACGGTGTCCATCGCTCCCCAGAATTTGATTATCATTCCCGTTTACCTGATCGCAGGTTCTCTTGCGTTGATATTCTCACTTACCCTCTGCAAGCAGCTGTTTATAAGAAGGGTTCACCAGCCGGTCATGAAGGGATTCGTCCGGTACAGCGGGTTGTTTGGGGCATTGATGACCGTGCTGATGGTATCCTCCGTCATTGAGGTCTTCATCTCAAACTCCATTTTGGAGCTTGTTTTAAAGTGGCTGTATGAGTAA	MHQGMRMVKNDVQSHMNIFVFIFVLFLMGIIFGAVIVNSMNFVQKQDLFFYLKQFFEQQASSPGTGRAVLWKDSVLYHVKYMLLLFLLGISVIGMPVITVLLFIKGLVLGFSVGFLVNQMGWYGLLISTVSIAPQNLIIIPVYLIAGSLALIFSLTLCKQLFIRRVHQPVMKGFVRYSGLFGALMTVLMVSSVIEVFISNSILELVLKWLYE	PGPT0024685_249	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024685-spoIIM-K06384	NA	NA
AK012_00655	1161			hypothetical protein	ATGAAAAACTACTTCGTAGATTTACATATCCATATCGGACGGGACTGGTATGGAGGACCTGTAAAAATTACCGGTTCAAAGAACCTGACCCTTACGAAAGTGGTTGAAGAAGCTTCCGGTTCCAAAGGTTTGGACATGGTGGGCGTTATAGACGCTCAGTCACCTGCTGTCCAGGAGGAAATCCAGTTCCTCCTGTCAAAGGGGGAAGCAAGAGAACTTCCGGAAGGCGGTATTCAATACAACCAGACGGTTTTGATTCTTGGTGCAGAAATTGAAGTGTATGATGCTTCCTGTTCAGGGCCGGTCCATCTGCTCTGCTATTTTCCATATATGAAGGATATGGCACGTTTTTCAAAGTGGCTGTCTAAAAAGATGAAAAATATTTCGTTGAGCTCCCAGCGTTTCTACGGAACGGCACGTGAACTTCAGTCGTTTGTCGGGGACAACGGAGGTCTGTTTATTCCCGCCCATATTTTTACCCCATTTAAAAGTTTGTATGGTAAAGGGGTTCGTACGTCATTAGAGGAAGTGCTGGACAGCAGATTCATTGATGCTGTTGAGCTCGGGCTGAGTGCAGATACGGGTATGGCTTCACATCTCTATGAACTTCAGCCATATACGTATGTAACGAATTCCGACGCTCATTCTACAGCCAATATGGCAAGGGAATATCAATCGATCCGGATGAAGGATCCTTCGTTTGAAGAACTGCGCCTGGCGCTTCATAACCGGAATGGAAGGAAAGTAAATGTTAATTATGGGATGGATCCGCGGATGGGCAAATACTATCAGACGGTATGTGCTGCATGTCTACATCAACGGTCTGATAATGAGGAAATCCGCTGTCCTTCCTGCGGAAAAGAGAAATGGATCAAAGGGGTTTCGGATCGCATCCGTGAGTTGTCGGTAAAAAGGCAGGACCGGGAAAGACCTCCTTATATTCCGCAGGTCCCCCTTCATACCCTTCCCGGTCTAGGACCGAAAACCTATCAAAAGCTGATAGAGGCGTTTCAAAATGAGATGAACATCATCCATCATGCATCACAATCGGATCTCAATCGCCTGCTCCCCGGTTCAACCGTTCAAAGAATTCTGGATATGAGGAAAGGGATTCTTTCTATCACCAAAGGAGGTGGAGGGAAGTACGGCGTGATCCGCTAG	MKNYFVDLHIHIGRDWYGGPVKITGSKNLTLTKVVEEASGSKGLDMVGVIDAQSPAVQEEIQFLLSKGEARELPEGGIQYNQTVLILGAEIEVYDASCSGPVHLLCYFPYMKDMARFSKWLSKKMKNISLSSQRFYGTARELQSFVGDNGGLFIPAHIFTPFKSLYGKGVRTSLEEVLDSRFIDAVELGLSADTGMASHLYELQPYTYVTNSDAHSTANMAREYQSIRMKDPSFEELRLALHNRNGRKVNVNYGMDPRMGKYYQTVCAACLHQRSDNEEIRCPSCGKEKWIKGVSDRIRELSVKRQDRERPPYIPQVPLHTLPGLGPKTYQKLIEAFQNEMNIIHHASQSDLNRLLPGSTVQRILDMRKGILSITKGGGGKYGVIR				NA	NA	NA	NA	NA
AK012_00656	543	act		Methanol dehydrogenase activator	ATGAAAAAATTCGAAGAGAAAACCTACCAGTCCGAAACGATTTATACAGGAAAAATTGTCCAGCTTGACGTGGACAGTGTTACTTTACCCGATGGCAATACATCTAAACGGGAGCTCATCAGACACCCGGGAGCCGTAGCGGTTATTGCGACAACCAAAGAAGGTAAGCTCGTCCTTGTGGAACAGTATAGAAAAGCGATGGAGAAAAGCATCATCGAAATTCCCGCCGGCAAGCTGGAGCCGGGAGAGGATCCGAAAACATGTGCCATGAGGGAATTGGAGGAGGAAACAGGGTATACAACCGAAGATTTAGAACTGGTGACTTCCTTTTACACATCTCCGGGTTTTGCAGATGAACTGGTCTATGTGTACTTTACAGATCACATCGAGCCGATGGAGGTCCAGCCGGACGGTGATGAGGATGAATTCGTGGAACTGATGGAACTTTCTTTGGACGAAGCCGTCCAGCTCGAAAGGGATCAGCGGATTCACGATGCTAAAACGGCCTACGCTCTTCTATATCTGCAGTTGAAGCAGAAATGA	MKKFEEKTYQSETIYTGKIVQLDVDSVTLPDGNTSKRELIRHPGAVAVIATTKEGKLVLVEQYRKAMEKSIIEIPAGKLEPGEDPKTCAMRELEEETGYTTEDLELVTSFYTSPGFADELVYVYFTDHIEPMEVQPDGDEDEFVELMELSLDEAVQLERDQRIHDAKTAYALLYLQLKQK	PGPT0021525_3025	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021525-nudF-K01515	NA	NA
AK012_00657	921	yhdN_2	COG0667	Aldo-keto reductase YhdN	ATGAAGAAAAGACGCCTTGGAAATTCAGATCTATACGTATCAGAAATCGGACTGGGATGCATGTCCCTTGGAACAGACTATTCAAAAGCAGAAGATATTGTACACGAGGCTCTGGACTCCGGTATTAATTATCTGGACACCGCTGACTTGTATGATTATGGACAAAATGAAGAAATCGTCGGGCAGGCTGTCAAAGGTCGGCGTGATGAGGTCATCATCGGATCAAAGGTGGGCAACAAATTCACGCCCGGCGAAGAAGGCTGGACATGGGACCCTTCTAAAAAACACATCAAAGAAGGGGTGAAGAGCAGTCTGAAACGGCTTGGTGTGGATTATATCGATTTATATCAGCTTCACGGGGGGACGATTGAAGACCCTATAGAAGAAAGTATTCAGGCTTTTGATGAACTTGTCGACGAAGGATTGATCCGCGCTTACGGCATATCATCCATCCGGCCCAACGTCATCAAACAATACGTAGAGAAGTCGAACATCGTAAGCATTATGATGCAGTATAATGCTATGGACAGACGCCCCGAGGAACTGCTTGATTACCTGGCTGATCATGATATCAGTGTACTGGCCCGCGGCCCATTGGCCAAAGGTATGCTGTCAAGCAGAGGTCCGGAAAAAGCCGCTTCAAAAGCTGACAACGGATACTTGGAATACAGCAAAGATGAAGTCCTGTCCATCGCTGAACAATGGCCATCCTTAACAGGTTCGGATAAAAACGCCGAAACGCTTGCCCTTCAGTACGTGCTCCAGCACCCTGCCGTGGCCTCAGCCGTTTTCGGCGCCCGCACGACTGACCAATTGGCCGACAGCTTAACATACAGGACCGCTCCCGCCTTAACAGATGAAACGTACAGGAAGATACAATCGTTAACCAAACCATTAACTTATCAAAAGCATCGTTCTTAA	MKKRRLGNSDLYVSEIGLGCMSLGTDYSKAEDIVHEALDSGINYLDTADLYDYGQNEEIVGQAVKGRRDEVIIGSKVGNKFTPGEEGWTWDPSKKHIKEGVKSSLKRLGVDYIDLYQLHGGTIEDPIEESIQAFDELVDEGLIRAYGISSIRPNVIKQYVEKSNIVSIMMQYNAMDRRPEELLDYLADHDISVLARGPLAKGMLSSRGPEKAASKADNGYLEYSKDEVLSIAEQWPSLTGSDKNAETLALQYVLQHPAVASAVFGARTTDQLADSLTYRTAPALTDETYRKIQSLTKPLTYQKHRS	PGPT0017540_1432	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
AK012_00658	1053			hypothetical protein	ATGTATATGCTTCGTTTTATAGATGGACATCACGATACTCTGCTGGAACTCCAGGATGGAGCGGATGCATTTTTCACAGGACTTCCGTCTGCTCATCTGGACTTTCCCCGTGGAACAAAGGCGGGTTATGCGGCGGGCTTCTTTGCGGTTTTTTCTCCCAACCCGGAATCGGATCCTGCTCCGAGCCTCCTGCCTGCACCGGCAGGCTATATGAAAACTCTGCCTCCAAAGCTTTCACGGGAGTATGCGCTTGCTTCTACGATGAGATCCATGGCCCGTTTTCTTCAGCTGGAAGGTTTATCAGAAGGGTCCTTCAAAGTGATACGGACGATTACCGATTTGAAAAAAGCCGTAGAGGGCCGATGGATGGGGGGGATTCTCCATATGGAAGGCGCAGAAGCTTTAGATAAAGATCTGGATCTGCTTTACGTGTTATACCACGCGGGGGTACGGTCCATCGGTCCCGTCTGGAGCAGACCCAATTCGTTCGGGGAAGGTGTCCCTTACGGTTACCCGTCTTCTCCTGATACCGGCCCTGGTCTGACGCCTGAAGGGAAAGATCTCATTCGAAAGTGCTGTGAACTGGGAATCATGATTGACCTTTCCCATTTAAATGAAAAGGGATTCTGGGATGTGGCTGCCCTTTCAGATAAACCTTTGGTGGCTACACATGCCAACGTCCACCGTATCTGCCCGGTATCGCGGAATCTTACAGATCCTCAAATAGATCAAATTGGCCGCTCTGGTGGTTTGATTGGTATCACTTACAGTATCGACCCCAATATGGTGACCCCTAAAGCGGAGGGGGATCCGCAGGCTTCTCTCAAGGATATTGCTGAGCACATCGATTATGTCAAAGACCGGATTGGTGTGGAGCATGTCGCTTTAGGTTCGGATTTTGATGGTACGGTGGTTCCGGATGCTGTAAAGGATGTGACAGGAGTCCCTGCTCTTTTGAATGTTCTTGAAAAGAGAGGGTGGACGAAGGACGAATTAGAGCAATTGACTTATAAAAACTGGATCAGGGTGCTGGAGCAGACGTGGAGATCATAA	MYMLRFIDGHHDTLLELQDGADAFFTGLPSAHLDFPRGTKAGYAAGFFAVFSPNPESDPAPSLLPAPAGYMKTLPPKLSREYALASTMRSMARFLQLEGLSEGSFKVIRTITDLKKAVEGRWMGGILHMEGAEALDKDLDLLYVLYHAGVRSIGPVWSRPNSFGEGVPYGYPSSPDTGPGLTPEGKDLIRKCCELGIMIDLSHLNEKGFWDVAALSDKPLVATHANVHRICPVSRNLTDPQIDQIGRSGGLIGITYSIDPNMVTPKAEGDPQASLKDIAEHIDYVKDRIGVEHVALGSDFDGTVVPDAVKDVTGVPALLNVLEKRGWTKDELEQLTYKNWIRVLEQTWRS	PGPT0020950_2436	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
AK012_00659	519			hypothetical protein	TTGATTTTTTATGAAGTGGAATCTGAAAAAGCGTTCACCTCAAAAATCGGTGAGCTGGTCTGGATGATGAATCATGTACGATCGGTCACGGTGGAAGAGATCCGTTATCTGACCGTGGAAGCGTTGGATCAACGAGAGGATGGAGGGAATTCCATTGGAGCTCTCCTCCTTCATACAGCCGCTATAGAATATGTTCACCAGGTGATCAGTTTTGAACATAGGGACTTGAATGAAAAGGAAGCAGAGCAGTGGGGGGCTGCGCTCACCCTTGGGGAAAGTGCAGCAGAGGCCATTCATTCGATGCCCGCTTCCTTTTATATCAAACAGCTGCAGGACGTCCGAAGCGGCACACTGGAAAGGTTGAAAGAGAAAGGGGATGAGTGGCTTTTTGAACAGAGGACATGGCCGAACGGCATCGTTCATAATCCCTACTACCTCTGGTTTCATGTGATGGAAGATGAAATCAACCATAGAGGCCAAATCCGTGCGTTGGTTAGAAACTCTAAATCGATGAATTAG	MIFYEVESEKAFTSKIGELVWMMNHVRSVTVEEIRYLTVEALDQREDGGNSIGALLLHTAAIEYVHQVISFEHRDLNEKEAEQWGAALTLGESAAEAIHSMPASFYIKQLQDVRSGTLERLKEKGDEWLFEQRTWPNGIVHNPYYLWFHVMEDEINHRGQIRALVRNSKSMN				NA	NA	NA	NA	NA
AK012_00660	1143	mgtA_2	COG0438	GDP-mannose-dependent alpha-mannosyltransferase	ATGAAAGCCGCCATTTTCACAGATACCTATGTACCTCAAATCAATGGGGTTGCCAAAACGCTGAAGAAATGGACCGATTTCCTGGAAAAAAAGCAGATGCCCTACCGCTTGTTCGCTCCGAATCCCCTTGGATCCTGCGATTATAATGAGAACATCCAACGTTTTAAAAGTCTCCCTTTCTGGCTGTACCCGGAATGCCGGCTGGCCTTCCCTTGTTTATCTCACATACGAAAAGAACTGGACACCTTTAAACCGGACATTATTCATATTGCAACACCGTTCAATATGGGCTGGGCAGGCCATTACTATGCACGGAAGCTGGAAATCCCACTGGTTGGATCGTATCACACCCACTTTCATAAGTATTTGGACTTTTATAAGATGTCCTTTTTAACCCCTCTTATCTGGAATTATATGCGTCGGTTTCACCAGCCTTTCAAACGAACTTTCGTTCCATCCATAGAAACGAAGAAGGAGCTGTTAAACAAGGGATTATCCAATATATCCATTTGGTCACGCGGAGTAGACAGCTATCAATTCCGCCCTGAAGCCCAATCGACCTACCTGCGGGACACATTCGGCGTCACAAAACCCTTCATCTTAACCTATGTCGGCAGACTGGCTCCTGAGAAGGACCTGGATGTTCTTATGAAAGCAGCCGCCACGATGCCCCGTGAATGGCACCCCTACATCCATTGGGTGGTTGTTGGTGAAGGTCCCTTATATCAGCCCCTTCAACATTCCGCACCGTCCAACATGACATTTACCGGCTATAAAAATGGACAGGAACTAAGCCGGATATATGCCGAATCCTCCCTCCTGGTCTTTCCATCTGCTACGGAAACATTCGGCAATGTCGTCCTGGAAGCTCTGGCATCCGGAACCCCGGCCATTGTAGCCGACTCCGGGGGTGTCAAGGAAATTGTCCAGCACGGACAAACCGGCTGGATCTGCAGGCCGGGCGATCCAGCCAGTTTCGTGGCAGCGGTGGAACACCTGCTGCGGAATCCGCTTTTGCTGCAGACCATGAGCGGCAATGCCAGAGACTATGCCTTAACCCGTTCATGGGAGGCTGTTTTCAATGAACTGCTCCGTGAATATCAAGCGGTTGTGGAAGACGTTCCGATGTTGTCGCATGCCTAA	MKAAIFTDTYVPQINGVAKTLKKWTDFLEKKQMPYRLFAPNPLGSCDYNENIQRFKSLPFWLYPECRLAFPCLSHIRKELDTFKPDIIHIATPFNMGWAGHYYARKLEIPLVGSYHTHFHKYLDFYKMSFLTPLIWNYMRRFHQPFKRTFVPSIETKKELLNKGLSNISIWSRGVDSYQFRPEAQSTYLRDTFGVTKPFILTYVGRLAPEKDLDVLMKAAATMPREWHPYIHWVVVGEGPLYQPLQHSAPSNMTFTGYKNGQELSRIYAESSLLVFPSATETFGNVVLEALASGTPAIVADSGGVKEIVQHGQTGWICRPGDPASFVAAVEHLLRNPLLLQTMSGNARDYALTRSWEAVFNELLREYQAVVEDVPMLSHA	PGPT0017895_253	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
AK012_00661	1302	ywqF_1	COG1004	UDP-glucose 6-dehydrogenase YwqF	TTGAATAAGCTGGCTGTCATCGGAGCAGGGTATGTCGGGCTTGTTACAGGCATCTGTCTCGCTTCATGTGGACACGAGGTCACATGTATGGATATTGATGAATGTAAAATCGACCAGTTAAAGGGTGGCCGGCTGCCCCTTTTCGAACCAGGATTACAGGAACTTCATGATACCAATACAGCCACAGGAAGACTCTCCTTTACGACAAATCCGGAAAAAGCCGTCCAGCATGCAGAAGGGGTGTTCATCGCTGTCGGTACACCTCCGCGCAAAGACGGTGGAGCTGATTTATCGTATATTCACAACGCGATACAATCCATAACTCCATTTCTTCAGAAAGATTCGGTCATCATCATGAAAAGTACTGTTCCCGTGGGCACCCACGCAGATGTAAAGAAGCTTCTGGACCGAACAGCCGGTCACCCTGTCCGTCTGGTCTCCAACCCTGAGTTTTTGAGAGAAGGCTCGGCGGTCAATGATTTCTTTTACAGCGACCGCATCGTCATCGGTTCGAATGATCCTTCGCCGGCTTCCTTTGTTGAGCAGCTCTATCATTCCATTCCTTCCCCTGTGATTCATACAGATCCGCAGACAGCAGAAATGATCAAATATTCATCGAATGCCTTTCTAGCGGCTAAAATCAGCTTCATTAATGAGATGGCTGCTTTATGTGAAGCTGAAGGCGCCGATATCTCCATGGTGGCTGCCGGCATGGGAATGGACAAAAGAATTGGTGAGCACTTTTTAAAAGCGGGCATCGGGTACGGCGGCTCTTGTTTTCCTAAAGATACGACTGCACTTCTTTATTCAGCAGCGCAGCAAAACATAACCGTTCCTCTGCTTTCCTCTATCCATGAAGTCAACCGCAGACAACCCCGGGTGTTTATCAAAAAAGTGCTCGATCGTTTTGGATCTATTGAAGGTAAAAAAGCCGCTGTTCTCGGTTTAACCTTTAAACCCAATACAGATGACCTGCGCCGATCACCCTCCAGGGAAATCATTAACCTTCTCGTTGAAGAAGGAGCGATGGTGACGGGATATGATCCTGTCGTCAGTGTAAGCGGAAAACGGGTATGGCAGATTCCCCTCGCCCAAACCATGGAAGAAGCATTGACCGGCGCTGACCTGGCCGTCATCTGTACAGAATGGAAAGAAATCATCGATTTCCCACTGCACTGCTATCCTTTATATATGAAAGAAGCAAATATTTTCGATGGAAGGAATTGTTACCCGGTCAGCCAGGCCCGTGGTCTACCTCTCTTTTACTCCTCCGTCGGCCGGCCTGTTTACAAAGGGATATAA	MNKLAVIGAGYVGLVTGICLASCGHEVTCMDIDECKIDQLKGGRLPLFEPGLQELHDTNTATGRLSFTTNPEKAVQHAEGVFIAVGTPPRKDGGADLSYIHNAIQSITPFLQKDSVIIMKSTVPVGTHADVKKLLDRTAGHPVRLVSNPEFLREGSAVNDFFYSDRIVIGSNDPSPASFVEQLYHSIPSPVIHTDPQTAEMIKYSSNAFLAAKISFINEMAALCEAEGADISMVAAGMGMDKRIGEHFLKAGIGYGGSCFPKDTTALLYSAAQQNITVPLLSSIHEVNRRQPRVFIKKVLDRFGSIEGKKAAVLGLTFKPNTDDLRRSPSREIINLLVEEGAMVTGYDPVVSVSGKRVWQIPLAQTMEEALTGADLAVICTEWKEIIDFPLHCYPLYMKEANIFDGRNCYPVSQARGLPLFYSSVGRPVYKGI	PGPT0017855_3399	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
AK012_00662	1467	farB		Fatty acid resistance protein FarB	GTGTCCGAACAAACACCCAATCGAGTCCTGATGGCCGCCTTGCTGCTTGCAGGATCGTTTATAACCATATTAAACCAAACGCTGATGATTACCGCTATCCCGCCGATCATGGACGAAATGAACGTATCGGCAAACTCAGCCCAGTGGCTGACCACCGTGTTTATGCTGGTCAACGGAGTCATGATACCTGTGACAGCTTTTTTAATTGAACGTTTCTCCACCCGGCAGCTATTTTTAAGCGCCATGGGAATTTTCACAGTGGGGACCATCCTCGGAGGGATTGCCCCAAACTTTCCTATGCTCTTAATGGGACGCGTGGTCCAGTCCATGGGGGCAGGGGTCATGCTTCCATTGATGCAGACCGTCTTCTTGATGATTTTCCCCGTGGAGCGCCGCGGCACGGCCATGGGATACATTGGACTGGTCATTTCCTTTGCGCCCGCCATCGGGCCCGCCCTGTCCGGATGGATCACATCTGAATTCAGCTGGAGATTTTTGTTCTGGCTCATTCTCCCGCTGCCATTACTCATCATCATTGTTGCTTATTTTATATTAAAAAACGTAACAAAACTGACCTATCCGACTGTGGATCCGCTATCGATCCTTCTATCGTCTGCAGGCTTCGGAGGGCTTTTGTATGGATTTACACTTGCCGGAAACGCCGGCTGGTCTTCACCAGTCACGCTTACGGTTCTGGCGGGCAGTTCAATTGCACTTGCCTTATTCATAACCAGGCAGTTGAAAATGGAGCACCCGATGCTCGAATTCCGGGTTTTCCGTTACCCTGTTTTTTCAATCACCACCGGAATTGCCATGATTGCCTTTTTAGGCTTAATCGGATCGGAAACCTTGATCCCGCTCTACATGCAGGACATGCGTGAATTCACAGCCTTTGAATCCGGGCTCGCCCTGCTCCCGGGGGCGGTCATTACAGCCTTCATGTCTCCGGTGACAGGAAGGATTTTCGATAAGATCGGCGCGCGCCTGTTAGCTGTCTGCGGGTTGATCATCCTTACCGGCGCAACAGCAGCCTTTTCATTCCTGGATATCCGTACAACGTTCACAACCATCACCGTCTTGTATGCCATTCGGATGTTCGGCCTTTCTATGGTCATGATGCCTGTGACAACAGCAGGGTTGAACCAACTGCCTAACCGGTTGATTCCACACGGAACAGCCATGAGCAATACCATGCGGATGGTGGCTGCATCTGTTGGTACAGCCGTTCTTGTAACGATTATGACATCCACAGCTCAATCAGCCGGAGCTGACCCAGCCATTGATCATCCCGCAATCTTTGGAGTGAATACAGCCTTTATGGTCATTACAGCTTTATCTATTGCAGGAATCATCCTTGCCTTTTTCGTAAAACGCACCCATCCGCCGGATGAAACAGAAGAAGCTCCCGCCCCTCAAACAGGTGGAAAAGAGACTTCTCTCAAAGCTTCATTCGAGCATTCCAAATAA	MSEQTPNRVLMAALLLAGSFITILNQTLMITAIPPIMDEMNVSANSAQWLTTVFMLVNGVMIPVTAFLIERFSTRQLFLSAMGIFTVGTILGGIAPNFPMLLMGRVVQSMGAGVMLPLMQTVFLMIFPVERRGTAMGYIGLVISFAPAIGPALSGWITSEFSWRFLFWLILPLPLLIIIVAYFILKNVTKLTYPTVDPLSILLSSAGFGGLLYGFTLAGNAGWSSPVTLTVLAGSSIALALFITRQLKMEHPMLEFRVFRYPVFSITTGIAMIAFLGLIGSETLIPLYMQDMREFTAFESGLALLPGAVITAFMSPVTGRIFDKIGARLLAVCGLIILTGATAAFSFLDIRTTFTTITVLYAIRMFGLSMVMMPVTTAGLNQLPNRLIPHGTAMSNTMRMVAASVGTAVLVTIMTSTAQSAGADPAIDHPAIFGVNTAFMVITALSIAGIILAFFVKRTHPPDETEEAPAPQTGGKETSLKASFEHSK	PGPT0029035_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029035-mdeA-K18936	NA	NA
AK012_00663	564			hypothetical protein	GTGAGTAATAAATTAAGATGTTTCATTCTATATACTTTGATCGCAGGTATTCTAGCGGGTGGCTTTTCTTTCGGCTCCGACCATTTACCTTATGTTGGGGAAAACATCCCTTTCGTTTATTCTGTCTATGTCTATCTTGCCGTTACCATTAACTCACTGGCTTTTTGGTTCGTACTTTCCATGATTCCAGGTTTTATTTATGCTGTAAACTTGAAGGAGTCGATCATATTTGGATGTATAACCGCTGTGACTGCTATAACATCCTATCTGGTAATTGGTGAATATTTCGGGGATATGTTCCGTACGTATAATTATAATTGGTACGTCCCATCAGCTCTAGGCGGTATGATTGGCGGTGCTGCTGGTTACTTCGCTAAACGGAACAAAGACGTATTACTAATATTGATTCCCGGCTTCCTCCTTCAGTTGTTGAGAAATGGCACGGATAGCTGGAATAATGGCATTGGAATGGCTCACAACCTGACTATTTGTATAATAATACTCATCCTTAGTATTTATATCATACGAATTCGCATGAATAAGAGTCATGAAACAGAAAGCTGA	MSNKLRCFILYTLIAGILAGGFSFGSDHLPYVGENIPFVYSVYVYLAVTINSLAFWFVLSMIPGFIYAVNLKESIIFGCITAVTAITSYLVIGEYFGDMFRTYNYNWYVPSALGGMIGGAAGYFAKRNKDVLLILIPGFLLQLLRNGTDSWNNGIGMAHNLTICIIILILSIYIIRIRMNKSHETES				NA	NA	NA	NA	NA
AK012_00664	1113	hcnC	COG0665	Hydrogen cyanide synthase subunit HcnC	ATGAAATATTTAATTGTTGGAGCAGGGATTTTAGGAGCTTCCACAGCATATCATTTAGCGGAAAAAGGAGAAAAGGTTGCTGTTGTCGACCGCGGGGAACAAGGCCAGGCGACGCGGAACGCAGCCGGTATCATTTGTCCATGGCTGACGAACCGGACGAGCAGGGACTGGTACCAGCTCGCTGTCAACGGGGCCGGGTATTACCCTGAACTTGTAGAAAAGCTTAAGGAAGCAGGTATTTCTGATCCCGGGTATAAAAGAGTGGGTGCCCTCAATATATTCGATACAGAAGAAAAGCTTGACCGGAAGGCCGCCTATGCAGAAATGCGGAAACTGGAAACACCGGAAATGGGGGAGATTTCGAAGTTGTCTCCAAAAGAGACAAGGGGTATGTTTCCCCCTCTTGCGAAGCATTACCGCTCGCTTCACCTGTCAGGGGCGGGCCGAGTAAATGGCAGCCGTGTCACCGATTCTCTTTTGAAAGCGGCCGAGCGGAAAGGAGCAGAAATTATCCGGGGGGATGCCGCTTTACGTACGTATAAAGGGAAGATCGAAGGCGTGGACATCGATGGAGTGCCGCAGCATGCCGATCAAATCATCCTTACGAATGGATCCTGGATGCGGGCTTTATTTGCAACAGCTGCCCTGAGTCCGCGGGTGACCTTCGAGAAAGCACAGATTATCCACCTTCATCTGTCCGGGCATGAAACGGAGCACTGGCCGGTACTCCTGCCGCCTTTCAGCCACTATATGCTGGGCTTTGAAGGAGGAAAACTTGTTGTTGGAGCAACAAAGGAAAAGATCCAGACGCATGATTCACGGGTAACCGCCGGGGGGATTCATCAATTGCTGGAAAAAGCTCTTCGGACAGCCCCGGGTTTAAGCGAAGCCACCTACGTTGAAACGAAGGTAGGCTTTCGACCTTTCACGCCGGGATCACTACCAGTCTTCGGGCGTCTGTCCGATCAGCCGCATATCATTGCTGCCAATGGGCTTGGTGCATCCGGCCTGACGAGTGGTCCTTACATCGGGTCTCTGTTGTCTGCTCTTGCAGCAGGAGAGGATACGTCCATCGACATCAGTCCTTATACCATCGACCGGTTATTTAAGTGA	MKYLIVGAGILGASTAYHLAEKGEKVAVVDRGEQGQATRNAAGIICPWLTNRTSRDWYQLAVNGAGYYPELVEKLKEAGISDPGYKRVGALNIFDTEEKLDRKAAYAEMRKLETPEMGEISKLSPKETRGMFPPLAKHYRSLHLSGAGRVNGSRVTDSLLKAAERKGAEIIRGDAALRTYKGKIEGVDIDGVPQHADQIILTNGSWMRALFATAALSPRVTFEKAQIIHLHLSGHETEHWPVLLPPFSHYMLGFEGGKLVVGATKEKIQTHDSRVTAGGIHQLLEKALRTAPGLSEATYVETKVGFRPFTPGSLPVFGRLSDQPHIIAANGLGASGLTSGPYIGSLLSALAAGEDTSIDISPYTIDRLFK	PGPT0020315_3977	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
AK012_00665	222			hypothetical protein	ATGAATGAACAGTTGAAAACGGGGATTGCTTTGATTGCAAGCTTCTTCCTGACTTTTGCTGGAGCCAGCCGTATTCTAACCACCCAGCTCGAAGATATGGCCTTATGGACGGCATGGGTTTTTCTCATTACCGGTGTGATCGGAATCACCGCCAATGGTCTGAAATGGAAAAGAATCAACCGTGCCTCCCATACATCCAGCCAGAAGAGAAACCATAAATAA	MNEQLKTGIALIASFFLTFAGASRILTTQLEDMALWTAWVFLITGVIGITANGLKWKRINRASHTSSQKRNHK				NA	NA	NA	NA	NA
AK012_00666	1473	murE_2	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	GTGAAAATCAACAAGGTATTCGAACTGCTAAACATAGACCCCCAGCCCTTTACAAAGCTTGTGTTGGAAAAAGACATAACAGGAATCACAGATGATTCAAGACAGGTGAGTCCTGGTCAAATATTTACAGCGGTAGAAGGTCATGAAGCAGATGGCCATGATTATATATTGGAAGCCTGCCGTAATGGAGCCGCGCTCATTTTAGGAAGCAAAAAGCCGGGGAACATCTCCGTACCATTTCTGTACGTCGAACATCCGAGAAGAGCGTTGGGGATACTGGCAGCTGCTTTTTATCAATATCCCGCACGTAACAAAAGGATTATAGGAGTGACAGGGACCAATGGAAAAACGACCGTCACCCATCTGCTTCATCATCTTCTGGAATCCAGCGGTTTTTCCTGCGGACGCTTTGGAACAGTAGGAAATTATATGAATGGGGAATCCGTGGAAGGGTTTCAGACGACCCCCGGCGTGGTGGACCTTCATAAGTGGTTATATGAAAGCAGGGATGAGGTGATTGTGATGGAGGTTTCCTCCCACGGACTGGAGCAGTACCGTCTCGAAGGAGTAACCTTTGATATCACCATATTCACAAATCTTCAGCAGGACCACCTGGATTACCACCGCTCGATGGAAGAGTATTTTCAGGCGAAGTCCAAGCTCTTTTTCATGATGAAGGAAGGCGGACAGGCCATCGTAAATACAGATGATTCATGGGGAGAGAGGCTTTCCTGTCTGCTTGCCGATCAGGGAGAACCGGTTACTTCGACAGGCTCGAAGAAATCCTCTGATATTCAGATTCAAGAGGTCGATGATCATGGCATCCGATTTAATGAAAACGGACAGCTGTTTTATTATTCAACTCCAATTGCAGGTGTGTACAACAGCTATAATACCCTGCAGGCCTGCATAGCAGCTGAGCATTTAGGGGTATCAAAGCAGAGGATGGTTCATGCCTTGGAATCGTTCCCGGGTATTCCAGGCCGGTTTGAACAATACAGCCTGGCAAACGGTGCTCATGTCATCATCGACTATGCCCATACAGCGGATAGTATCAGGAATCTTCTTCAAGCTGCCGGGCGTAAGTATGAAGGAAAAATTACTCATGTGTTTGGTTTTAGAGGAAATCGAGATGAATCGAAACGGCCGGCTATGCTGCATGCTTCATCGGAATGGAGTGACAGGTACATTTTAACCTTGGATGATTTGAACACGGTTCCTTATGAAGAAATGACTGCCAGCCTTCAAAAGCTGCATGAACAAGAAGGCTGGGTTGGCGGAACGGTCATTCCCGACAGAGTTTCAGCATTGAAAACAGCTCTTGAGACCAGTGAGGAAGGGGACGTGGTCGTTATTACCGGCAAAGGCCATGAGAGGTATCAGCAGGCTTATCATCTTCCTTTTTCTTCCGACAGGGACACAGTACAGAGTTTGTGTAACGCTGTGAAAGCAGGTGTCCATCCATCATCATAA	MKINKVFELLNIDPQPFTKLVLEKDITGITDDSRQVSPGQIFTAVEGHEADGHDYILEACRNGAALILGSKKPGNISVPFLYVEHPRRALGILAAAFYQYPARNKRIIGVTGTNGKTTVTHLLHHLLESSGFSCGRFGTVGNYMNGESVEGFQTTPGVVDLHKWLYESRDEVIVMEVSSHGLEQYRLEGVTFDITIFTNLQQDHLDYHRSMEEYFQAKSKLFFMMKEGGQAIVNTDDSWGERLSCLLADQGEPVTSTGSKKSSDIQIQEVDDHGIRFNENGQLFYYSTPIAGVYNSYNTLQACIAAEHLGVSKQRMVHALESFPGIPGRFEQYSLANGAHVIIDYAHTADSIRNLLQAAGRKYEGKITHVFGFRGNRDESKRPAMLHASSEWSDRYILTLDDLNTVPYEEMTASLQKLHEQEGWVGGTVIPDRVSALKTALETSEEGDVVVITGKGHERYQQAYHLPFSSDRDTVQSLCNAVKAGVHPSS	PGPT0024130_3825	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
AK012_00667	1002	sppA	COG0616	Putative signal peptide peptidase SppA	ATGACAAAAAGAATTACAGCGGCAGTTATTGCCGGAGCCCTGCTGATCGTAGCGATTGCCGTTCAGGCAGCCGGGGCCTTTTTATCACAGGAAGATGAAGAAAAAAACGGGGCGATGTCCCTTTTCTCCTCGAGTGAAAAACTGGAGGAAAAAGTGGTGGAGCAAGGGGCTGCATCCAACCGTATCGTAGAAATCAACCTCGAAGGGACGATCATGGACAGTCCGGGTTCCAACACCAACCCATTCAGCGGCGGGGGTTACCAGCATGATCGTTTCATGAAAAAACTCGAGCAGATCAAAAATGATCCAACCATCAAAGGGGTGCACTTATATGTGAACTCGCCGGGCGGCGGTGTTTATGAAAGTGCGGAGATCCATGATAAGCTGATTGAAATTAAAGAAGCTGACAAAATAATCTATGTGTCCATGGGGAACATGGCCGCTTCCGGAGGCTATTACGTTTCTGCTCCTGCTGATCAGATTTATGCTTCCAATGAAACCTTTACCGGCTCACTTGGTGTCATTATGCAGAGTGTAAACTACCAGGAGCTCGCTAATGAGTATGGAGTGAAATTCAACACGATCAAGAGTGGTGAGTTCAAGGATATTATGAGTCCTACAAAAGAAATGACGGATGCGGACAGGGAAATTCTACAGACCCTGGTTGATGAATCCTATCAGCAGTTCGTGGACGTTATTTCTGAAGGAAGAGACATGTCGGAAAGCCGTGTCAAGGAACTGGCTGACGGGAGAATCTATTCTGGTAAACAGGCGGCTGAAAACGGTCTTGTCGACCAGATCGGCTTCCGCGAAGACACTCTTACAGCCTTAAAAAAGGAAATTGGAGGAGACCCACAGGTGTTTGAATATAAAAATACCATCACTTCTCTCTTTGATTTCCCAATGGCCCAAAGCTTGATGCCTGATAGCGAAATCCGTTATATCGAGCAGCTCATCAGTGAGCGTCAAGGTCCGACATTGATGTACATGTATACAGAATAA	MTKRITAAVIAGALLIVAIAVQAAGAFLSQEDEEKNGAMSLFSSSEKLEEKVVEQGAASNRIVEINLEGTIMDSPGSNTNPFSGGGYQHDRFMKKLEQIKNDPTIKGVHLYVNSPGGGVYESAEIHDKLIEIKEADKIIYVSMGNMAASGGYYVSAPADQIYASNETFTGSLGVIMQSVNYQELANEYGVKFNTIKSGEFKDIMSPTKEMTDADREILQTLVDESYQQFVDVISEGRDMSESRVKELADGRIYSGKQAAENGLVDQIGFREDTLTALKKEIGGDPQVFEYKNTITSLFDFPMAQSLMPDSEIRYIEQLISERQGPTLMYMYTE	PGPT0030320_2504	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-Type_V_SECRETION_SYSTEMS	CE-T5a_AUTOTRANSPORTER_SECRETION,PGPT0030320-pspA-K04773	NA	NA
AK012_00668	537			hypothetical protein	ATGGAGACTACAGAATTCGAACAATCCAATCACCCATTATCCACTTTAGTCCTTCAGCAGAAGGATGATATTCAGAGAGTCATTTTTGCGGGGTTCATTCCCCGTTTCTTTGCCTATCTCATCGACCTTCTCGTCATCTGGAGTATCAATTCCATCGTAACAAAGCCGCTGCTGCGTCTCGTTAACCTCGAGAATGCGCAGTTGTGGATTCCTTTGTTCAGTGCAGAGAATATCACAACATCCCTGATTTTCTTCTTGTACTTTATTCTAATGACAAAGTTCTTCCAGGCGTCGCTTGGGAAAATGGTGTTCGGTCTATCCGTTGTGTCGCTGACCCGCAGTAAGATGAGTAACGGGCAGATTATCTTCCGGGAATGCATCGGCCGTTATATCAGCATGGCTCTTGGGGGAATCCCCTACCTTGTCGTGGCTTTCACAAAACGCCATCAGGGCATCCATGATTTATTTGCGGATACTTCTGTCATCAAAAACCGATTCACAAAGCTGAACGATCAAATGGAACAAAACGATCAATAA	METTEFEQSNHPLSTLVLQQKDDIQRVIFAGFIPRFFAYLIDLLVIWSINSIVTKPLLRLVNLENAQLWIPLFSAENITTSLIFFLYFILMTKFFQASLGKMVFGLSVVSLTRSKMSNGQIIFRECIGRYISMALGGIPYLVVAFTKRHQGIHDLFADTSVIKNRFTKLNDQMEQNDQ				NA	NA	NA	NA	NA
AK012_00669	102			hypothetical protein	ATGGGAAAAAAAGCGAAAAATAAAAGCAAGAAGGATTTAAATGCCCTTCGACGAGAAAAAGGGGAAACAAATGGTACGGGAAAACAAGACCCCTACCGATAA	MGKKAKNKSKKDLNALRREKGETNGTGKQDPYR				NA	NA	NA	NA	NA
AK012_00670	1371	gerAA_1		Spore germination protein A1	TTGAATGTCAAGGAGTACCTGTCCCAGAAGAAAAATGATGACTGTGTTACGATCAAAACCATCCCATTTGATTCCCACAACATTTATGTCTTATATATGCCCTCTATTACAGATATGACCAAGATCCAGGACTCCATTCTTGCTCCGCTGCTTGAGTGGAATAACCCGGAGGACAAAACCGTAGAGCATGCATTTTCTGCCGAACCTTTGACGATCCTTTCTCAAGCAAAGGATATGGATAGTCATCTTCTCAATGGATATACACTAATGCTTGAGAATGAGACCGTATATGCTGTTGAAACGTGCGGATTCCATTACCGTGCTGTATCAGAACCTGTATCTGAAATGACACTCAGGGGCGCCAGGGACGGGTTTATTGAATCACTGGAAGCAAACATCAAGCTCCTCCGTGTTCACTTGAGATCTACGCATCTAAAGTTCGAACACCTTTCACTCGGTTTAAAAGCCTTCACCCATGTAACCATTGCCTACGTGGAGGAGGAAGCCAACGAAAAATTATTGGAAGAAGTAAGGAAGCGCGTAAAGGCGGTTAAAGAAGACTACCTCCCGGATGGAGGGGTGGTTGAACAAAGCCTGGAGAAAAATACATTCACTTTATTTCCTGAACTCCAGGAAACCGAACGTCCGGCTAAAGTCGCCAACGCCCTGGCTGAGGGAAAGGTGGCCATCTTCGTGGAAGGCTCCCCTTCCGTCCTGTTAGCACCTGTAACCTTAAATTCCCTTTTTCAGACATCAGATGATTATAACTTCAAATGGATTCCTGCTTCTCTCATTCGCCTGATGCGGTTTGCCGCCGCATTTCTTGCTGTCATGCTGCCATCTATCTATATATCGCTGATTTCCTTTCATCATGGATTAATCCCTACAGATCTGGCCATTTCCATATCCAAAACAAGGGAAGGCGTACCTTTCCCATCATTCATGGAAGCGTTCGTCATGCAGCTGACGATTGAAATTCTACGGGAAGCCGGCATCCGTCTGCCTAAGCCTATAGGACCGGCTGTCAGCATTGTAGGAGCCATTGTATTAGGTGAGGCCGCTGTGACAGCCGGAATCGTCAGTCCATTGATGATCATCGTCGTCGCTTTTGCAGCCATCTGCTCCTTTACCATTGTCGACTACAGCCTCAGTCTTGCGTTAAGGACGGTGAGTTTCGTCATGTTGTTCGCGGCTGCTCTGCTGGGCATTTACGGCTTAATCCTCGCCGTCTTTATTTTGAGTATCCATTTGATCCGGTTAAACAGCTTTACAGTCCCTTACCTGGAGCCCTTTGCTCCTTATTACCCAAACAGATGGAAAGACACATTGATCCGGTTACGATTTGATAAAGAAGGTGGTTTGGATGAGTGA	MNVKEYLSQKKNDDCVTIKTIPFDSHNIYVLYMPSITDMTKIQDSILAPLLEWNNPEDKTVEHAFSAEPLTILSQAKDMDSHLLNGYTLMLENETVYAVETCGFHYRAVSEPVSEMTLRGARDGFIESLEANIKLLRVHLRSTHLKFEHLSLGLKAFTHVTIAYVEEEANEKLLEEVRKRVKAVKEDYLPDGGVVEQSLEKNTFTLFPELQETERPAKVANALAEGKVAIFVEGSPSVLLAPVTLNSLFQTSDDYNFKWIPASLIRLMRFAAAFLAVMLPSIYISLISFHHGLIPTDLAISISKTREGVPFPSFMEAFVMQLTIEILREAGIRLPKPIGPAVSIVGAIVLGEAAVTAGIVSPLMIIVVAFAAICSFTIVDYSLSLALRTVSFVMLFAAALLGIYGLILAVFILSIHLIRLNSFTVPYLEPFAPYYPNRWKDTLIRLRFDKEGGLDE	PGPT0025115_264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025115-yndD-K06310	NA	NA
AK012_00671	1095	yndE_1		Spore germination protein YndE	ATGAGTGATTTAAGACAATTGACTTCCATTCAGCTGATCGTCATCTTTATATCAGCGATGATTGGCGTAGGGATCATTTTGATGCCGCGTGATCTGGCCAACGCAGTGAACTCCCCGGACTTATGGGTCAGTATCATCATCGGCGCTCTTCTTATGTGCCTGATCACCACTTTGTATGTTTTATTAGTCACCCGTTATCCAGGTCTCACTTTCTTTGATATGTCAAAAAAGATCACCGGCAGATGGATCGGAACGCTGATCAACCTCTTTTTCATTTTTCACTGTCTCATTGTAGCCTCCTATATTTTAAGAGTGACCACAGCGATTATAAAAAATTACCTGCTGGATACCACTCCATTATATGTAATCATTGGATCATTTCTGCTGGTCAGCCTTTATTTAATCAGCAACGGACCTGGAGATGTCGTCCGTTTTTTCCAGCTGTACTTTCCTGTCATGATGTTCATGTTTCTCATTCTCGCTCTTCTGAGTATCAAAGATGTGGACGTCCAAAACTTACGGCCTGTCCTGAAGAGCAATCTTATGACAACGGTCACCCAATCGAAGATTTCTTTCTTTTCATTTATCGGCATTGAATTCCTGATGATTTTCTCTCCCCTTATCAAAACGAAAAAAATAAAAAAACTGGCTTTGTCTGTATGGACCAGTATTATTGTGACCGCTGTGATTTATGTGATTTTCCACATTTTAACCATCGGAGTTTTAGGCATAGCGGAACTAAAGGAAATTACGTTTCCCACGATCGAGATGGCGAAAAGCATAGAATTTCAAGGTTTTTTCTTTGAACGTTTTGAACTGATTTTCATTTTCGGCTGGCTGATCACTGTTTTCACTTCATTTACGACTTACACCTATGGAATGATTCTCGGAATTGGAAAAGTAACGAAGCCGGGCTGGTGGTGTATGGCTGCCGCAGGCCTTTTGATTTTCTCTATAACCCTTTATCCGGAAGGTCTTACAGAAGTGCTGGATTACTCCTCTCATATTCAGTGGATCAGTGCTGCTGCGATCATTGGATTTCCCGGGCTGTTACTGCTCGTATCGTTGGTGAGGAGGCAGACGCATGACACTTAA	MSDLRQLTSIQLIVIFISAMIGVGIILMPRDLANAVNSPDLWVSIIIGALLMCLITTLYVLLVTRYPGLTFFDMSKKITGRWIGTLINLFFIFHCLIVASYILRVTTAIIKNYLLDTTPLYVIIGSFLLVSLYLISNGPGDVVRFFQLYFPVMMFMFLILALLSIKDVDVQNLRPVLKSNLMTTVTQSKISFFSFIGIEFLMIFSPLIKTKKIKKLALSVWTSIIVTAVIYVIFHILTIGVLGIAELKEITFPTIEMAKSIEFQGFFFERFELIFIFGWLITVFTSFTTYTYGMILGIGKVTKPGWWCMAAAGLLIFSITLYPEGLTEVLDYSSHIQWISAAAIIGFPGLLLLVSLVRRQTHDT	PGPT0025120_279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025120-yndE-K06311	NA	NA
AK012_00672	1146	gerAC		Spore germination protein A3	ATGACACTTAAATCTCTTTTCTGCCTGATTTGTTCCGCTTTCCTTTTGACAGGTTGCTGGGATATTAAGGAAATAGAAGATGTCGGAATTGTTACAGGGCTGGCATTAGACGTTGCCGAAGAGGATCACATGTTAATGATCAATCAGTATGTAAAGCCGGGACAGATCCCCACCCAACAGGACAGTTCCCAGACGGACAGCCCTTACCAAAACCTTGAATCAACCGGAACAACGCTGTTTGAGATGATTCGTGAGAACTCACTGGAGAGTAACCGCCCGCCGAACTATACCCATTTAAAATCGATTTTATTTTCAACCAAACTGCTTGAAAAAGAAAAGCTCAGTCAACTGATTGACCTTTACATCCGTGACCACGAATTCCGCCGCACTGTTCCGGTATTCATTACAGCGGATCCCGTTCAGAAAATATTCAACGCCCAGCCGGAAAAAGAGCTGTTTCCAGCCATACAAATTAAAGAATTAAGTGAAAACTACCATAAAAATAATACCAACCCTAAAAACTTAACGATCGGAGATATGTCCCAGTATATATCAGAGAAAAAAAGCTTTATCATACCAGGAATGGCTATCATTAATGGAAATATCAAATCCTACGGCGCCGGCGTCATTTCAGGAAAAACGTCCCAATATATCGGCTGGATTCCACTTGAAAAGATGGAAGGCGTCCGGTACCTCCATAACAATGTAGAAGGTGGATACATTTATTTAAGCGAAAAAAATATCGCAGACGGACCTGTCGTTCTGGAAATTAAGGGGGCGGATTCCAAATTTGATGTTTCCTTCTCTGACGGGGAGCTTTCCATGAGTGTTGATGTAAAGGTGACCACATCCCTTGGTGAAGACTGGGGCGTCGACCGCAACGTTTTTAAAACGAGCTGGGAAGAAGGAATCAAGGAAGCCGCGGATAAAAATATCGAGGATAAGATCAATGCCATTCTTCAGATCGCGCAGAAAGAATTAGAAACGGATTTTGTCCACCTTTCCCAGTGGGTACGTATCCATCAGCCGGACTATTGGAATAAACATAAAGAGGAGTGGGATGACATCTTCCCACAGATAGACATTGACGTTCAGGCTGATGTAAGTATTAAAGACTTTGGTACACAAAACTTCAATATGAAGTGA	MTLKSLFCLICSAFLLTGCWDIKEIEDVGIVTGLALDVAEEDHMLMINQYVKPGQIPTQQDSSQTDSPYQNLESTGTTLFEMIRENSLESNRPPNYTHLKSILFSTKLLEKEKLSQLIDLYIRDHEFRRTVPVFITADPVQKIFNAQPEKELFPAIQIKELSENYHKNNTNPKNLTIGDMSQYISEKKSFIIPGMAIINGNIKSYGAGVISGKTSQYIGWIPLEKMEGVRYLHNNVEGGYIYLSEKNIADGPVVLEIKGADSKFDVSFSDGELSMSVDVKVTTSLGEDWGVDRNVFKTSWEEGIKEAADKNIEDKINAILQIAQKELETDFVHLSQWVRIHQPDYWNKHKEEWDDIFPQIDIDVQADVSIKDFGTQNFNMK	PGPT0025035_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025035-gerBC-K06293	NA	NA
AK012_00673	723	ucpA		Oxidoreductase UcpA	ATGGGACAGGAAATTACGGGAAAAACTGCCTACATCACAGGGGCCGGACGCGGCATCGGTAAAGCTGCCGCACTTAAACTCGCCGCTGAGGGCGTTCATGTCGGGTTAATGGCCCGCACAGAAGAGGAGTTAAACAAAACAGCAGACGAAGCAAAGGCATATGGCGTACAAGCCGCTGCAGTCTCTGTGGATATTGCCCGCTTGGAGGATGTTGAACAGGCGGTTGAACATTTAAAAGAAGAAATCGGTCCTGCCGATATTCTCATTAATAATGCGGGTATTGGGCTTTACGGTGATTTTCTTGACATCGAGCCTGAAGATTGGAAACGGACATTTGAAGTCAACGTGTTCGGCACCTACCATGTAACAAGAGCCGTCCTCCCTCATATGCTTGATAAAAACCATGGAGATATCATCAACGTATCTTCAAGCAATGGACTTAAAGGAACAGCTGGATCCACTTCCTACAGTGCATCAAAATTCGCCGTTCAAGGAATGACGGAAGCACTGATGCAGGAAGTACGACGCAGCAACATACGTGTCTTCACACTCAATCCGAGCCTTGTGGCCACAGAACTGGCCTTTGGAGAAAGTTTGGAAGAGCAGGATAAGGAAAAATACATGCAGCCGGAGGACATCGCCGAGTATATGACTGCCCAATTGAAGCTTCATCCGAGAATCTTCATTAAGCAGTCTCTTCAATGGGCGACCAATCCGTTCTAA	MGQEITGKTAYITGAGRGIGKAAALKLAAEGVHVGLMARTEEELNKTADEAKAYGVQAAAVSVDIARLEDVEQAVEHLKEEIGPADILINNAGIGLYGDFLDIEPEDWKRTFEVNVFGTYHVTRAVLPHMLDKNHGDIINVSSSNGLKGTAGSTSYSASKFAVQGMTEALMQEVRRSNIRVFTLNPSLVATELAFGESLEEQDKEKYMQPEDIAEYMTAQLKLHPRIFIKQSLQWATNPF	PGPT0003180_21192	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
AK012_00674	741			hypothetical protein	ATGATTGTTGTCTGGAAGCTTGCTCAGTTGGAAACGAAAATGTTTTTCCGTGATCGTCTCAGCGTGTTCTGGACCTTTTTATTTCCAGTAGTGATGATTTGGCTGTTCGGATCCATGTTTGGAAATAATATAGAAGGAAATTTCTCTTTTGCAGACTTATTCATCCCCTCCTGGATCGGGGTGAATATCGTAACCACGTCCTTTTTCACCCTGGGAACAGTACTTGCCAGCTACAGAGAAACCGGAGTTCTGCGCAGGTATCAGTCCACACCATTGCAGCCGTGGAAGATTCTGGCGGCTCATACCGTGCAGGGGACAGTGATTTTCCTATGTTCTGCTTTACTTCTTCTGGTATTCGGAATGCTGATGTACGACCTTGAAATTCCCGTTTACGCTGGAAGTACTTTAGCCGCTCTTTTTCTCAGCATTGCAGCTTTTTTTCCTTTTGCTCTTCTCATTACATCATTGGCTAAGAATACACAGTCTGCGGCGGCCATCAGTTCTTTATTTTTGAATTTGATGATCTTCTTGTCAGGAGCGACCTTTCCACTGGAAATGATGCCGGAAGTTCTTCAATACACGGCGAAAATACTTCCGCTTTATTACGTCATTGAACTTTTGAGGGGGACGTGGAACGAAGCACCCATTTTTGAATATGGATTCGAAGTGTTTGTATTGATCGGCATTTCCGTATTTTCTACAATATTAGCCGCCAGGTTTTTCCGTTGGAGTGATAGATAG	MIVVWKLAQLETKMFFRDRLSVFWTFLFPVVMIWLFGSMFGNNIEGNFSFADLFIPSWIGVNIVTTSFFTLGTVLASYRETGVLRRYQSTPLQPWKILAAHTVQGTVIFLCSALLLLVFGMLMYDLEIPVYAGSTLAALFLSIAAFFPFALLITSLAKNTQSAAAISSLFLNLMIFLSGATFPLEMMPEVLQYTAKILPLYYVIELLRGTWNEAPIFEYGFEVFVLIGISVFSTILAARFFRWSDR	PGPT0006730_22780	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK012_00675	912	lnrL	COG1131	Linearmycin resistance ATP-binding protein LnrL	ATGTCGTTTGTCATTAAAGTAGAAAGCCTGTCCAAAAATTTCGGCCGTGTGCAGGCTGTCAAAGGAGTCTCATTTTCTGTTGAGAAGGGGGAAATATTCGGAATCATCGGACCGAACGGGGCGGGAAAAACGACCACGCTGGAAATGATTGAAGGGATCTTAAAGCCTGACAGCGGAAGTATTGATGTTTTAGGTCTGACGCCGAACCGGCAGCTTCAACAGCTGAATCAGCGGATCGGTGTGCAATTTCAGTCGGCATCCATTCAAAAAAAGATGAAGGTGAAAGAAGCACTGGATCTATTTGCTGCTTTTTACCCCGGGGAGGCCCGGAAAGCCCAACTTGTAGAGATGCTGGGTCTGGAGGAGAAAATGAATGTACGATTTGAAAATTTGTCAGGCGGGTGGAAACAACGGGTAACTCTTGCTCTGGCTACTCTTCATCAGCCGGAAATCGTATTTCTGGATGAACCGAGTATGGGACTGGACCCCCACGCCCGCAGGGAGTTGTGGACGTTGATACGCAAATTGAGAGACCAGGGGAGCACCATTGTATTAACGACGCATTATATGGAAGAGGCCGAACAGCTCTGTGACCGGGTAGCAATGATCTACAGCGGTGAATTGAGGGCTCTGGACCGCCCGTCTGCCCTGCTGGAGAAGAGTGGAGCCCAGTTGATCACGTTTCAAAGCAGGGATATTCCCTATGTTAATCTTCTGTCCATGCCGGGAGTCGTCAAGGTTGATAAAGAGGATGATACATTCAAGGTGTATAGTGATGATCTGCAGCTGACCAGTTATCATATATTCACCTATTGTCATAAGGAGAACTTGTCCTTAATGCATTTCCAATTTGCTAAAGGGACACTGGAAGATCTATTCGTCCATTACTTGGAAAAGGAGGAAGCCGAATGA	MSFVIKVESLSKNFGRVQAVKGVSFSVEKGEIFGIIGPNGAGKTTTLEMIEGILKPDSGSIDVLGLTPNRQLQQLNQRIGVQFQSASIQKKMKVKEALDLFAAFYPGEARKAQLVEMLGLEEKMNVRFENLSGGWKQRVTLALATLHQPEIVFLDEPSMGLDPHARRELWTLIRKLRDQGSTIVLTTHYMEEAEQLCDRVAMIYSGELRALDRPSALLEKSGAQLITFQSRDIPYVNLLSMPGVVKVDKEDDTFKVYSDDLQLTSYHIFTYCHKENLSLMHFQFAKGTLEDLFVHYLEKEEAE	PGPT0006725_13631	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_00676	831	metQ_1	COG1464	D-methionine-binding lipoprotein MetQ	ATGAAAAAAATCATTACCCTTTTTGCTGCATTAACCATCATGACTTTCCTTTCGGCTTGTGGAGGCGGCGAAGAGAATGCAGATGCAGAAGAGAAGAAAACCATCCGTTTTGGAGCAACTTCCGGCCCATACAGTGATATGGTGAACGAAGCGATCGCCCCGCTGTTGGAGGAAAAAGGATATGAAGTAACCAATAAAGAATTTACAGACTATGTACAGCCCAACAAGGCGCTGGCTAATGGAGATCTGGATGCCAACCTGTTCCAGCATAAAATTTATCTGGAGTCCTTTGCCGAAGAACATAACCTGGATTTGTCCGAGGTGATTATTGTTCCAACAGCTCCTATGGGGATTTATTCCAATGAGTATGAGGACATTGAAAGTGTTGAAACAGGCAGTACGATGGGGATTCCCAATGACCCGACCAACCTGGCCCGTGCACTGACCATTCTTGAAGATGAAGGTCTTGTCACGTTGAAGGAGGATGTGGATCCTCTTCGTGCGTCCCTGAATGATATTACAGAAAATCCAAAAGACATCGAATTCGTTGAGGTGGAAGCAGGCCAGCTGCCACGTCTGGTGGACAGTGAAGACCTTTCCATGGTGCCTGGTAACTATGCTCTTGCTGCTGAGATGGACTTGTTAAGTGCTCTTGCCCTTGAGGATATGCCTGATGATTACAGAAACCGAGTAGCTGTGAAGACCGAAGATCTGGATGCACAGTTTACAAAGGATATTAAGGAAGTTGTGGAGTCGGAAGAGTTTGAGGAAATCATGGATGAAAAGTTTGAAGGCTTTGGTAAGCCTCAATGGATGAAAGAAAAAGAATAA	MKKIITLFAALTIMTFLSACGGGEENADAEEKKTIRFGATSGPYSDMVNEAIAPLLEEKGYEVTNKEFTDYVQPNKALANGDLDANLFQHKIYLESFAEEHNLDLSEVIIVPTAPMGIYSNEYEDIESVETGSTMGIPNDPTNLARALTILEDEGLVTLKEDVDPLRASLNDITENPKDIEFVEVEAGQLPRLVDSEDLSMVPGNYALAAEMDLLSALALEDMPDDYRNRVAVKTEDLDAQFTKDIKEVVESEEFEEIMDEKFEGFGKPQWMKEKE	PGPT0020510_1895	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
AK012_00677	663	metP_1	COG2011	Methionine import system permease protein MetP	ATGATCGAACAGCTGATCAACCTGTGGCCCGAGCTGAATAAATCATTTATCGAAACATTGATCATGGTGGGGATCGGGCTCGGGGTAGCAGTGATTGCCGGTCTTCCCCTGGGACTGCTGCTTTTCGTCACCGACCGTGACTTATTTTTGGAAAACAAGTGGATTAAAGGGGCTGTAGGTATTTTTGTAAACCTTGTCCGTTCTATTCCATTCATTATCCTGCTTGTGTTCTTATTCCCATTTACTAATTTTCTTTTAGGCACGACAACAGGACCGATTGCTGCCTCCGTAGCTTTGTCGGCAGCTGCGATCCCATTTTATGCAAGAATTGTCGAATCATCTGCCAGGGATATTGATAAAGGTGTCATAGAAGCGGCAATTGCTTGCGGAGCTTCTCCATGGCTGATTATTAAAGATATCATCTTCCCGGAAATCAAGCCCGGTTTGATCAGCGGCTTAACCATAACGGCGATCAGCCTGATCGGCTATTCTGCAATGGCCGGGGCTATCGGCGGCGGAGGTATCGGAGACCTGGCGATCCGGTACGGCTATTACCGCTATGATAATTTTGTCATGTTTACAACGGTTATTGTGCTGATCGTCCTTGTTCAGGTTGTCCAGTACGCAGGAGATTTCCTGGCCAAGACAGTGAAAAAGAGTTAA	MIEQLINLWPELNKSFIETLIMVGIGLGVAVIAGLPLGLLLFVTDRDLFLENKWIKGAVGIFVNLVRSIPFIILLVFLFPFTNFLLGTTTGPIAASVALSAAAIPFYARIVESSARDIDKGVIEAAIACGASPWLIIKDIIFPEIKPGLISGLTITAISLIGYSAMAGAIGGGGIGDLAIRYGYYRYDNFVMFTTVIVLIVLVQVVQYAGDFLAKTVKKS	PGPT0020515_2379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
AK012_00678	1044	metN_1	COG1135	Methionine import ATP-binding protein MetN	ATGATATCCATCCAGGAGCTCAGCAAAATTTACACATCCAAGAACAAACAGGTGATCGGGGTGGACGAGGTTTCACTGGATATTCAGGAAGGTGAAATCTATGGAATTGTCGGATACAGCGGAGCCGGGAAAAGTACACTTCTCCGGTGTATGAATATATTGGAACGCCCCACATCCGGGAAGGTTTACATTGATGGAATCGATCTCCTTTCCTTGTCCAAAAAGGATCTCAGAAAAGCGCGCCAGTCCATAGGTATGATCTTCCAAGGGTTCCACCTTGCCATGGGGAAAACCGTTTTAGAGAACGTGGCGTTTGCCCTGAAGGCAGCTGGTAAACCAAAGCAGGAGCGGCACGACCGTGCGCATCGGCTGCTGGAACTCGTCGGTCTAAGCGATAAAGCTGATCAGTACCCGGCCCAATTGAGCGGAGGACAGAAACAGAGGGTCAGTATCGCCCGTGCGCTTGCCAACGATCCTAAAGTGCTGCTTTGTGATGAAGCGACTTCAGCGCTCGACCCGAATACGACCCAGTCTATCCTGAAGCTCTTAAAAAAGATCAACCGTGAACTGGGACTTACCATCGTACTCATCACACACGAGATGGAAGTTGTAAAAGAGATCTGCGACCGCTGTGCCGTCATGGAAGATGGAAGGATAGTGGAGCAGGGGGCGGCCTACGAAATTTTCGCTTCTCCCCAAAATGCTTTGACGAAGCGTTTTATCCGAACCGTGATTGATTTTCACGTGCCGGAAGAGCTGTTGAAAAACAGCCGGGGCACGATTGTTCAAATGAAATTTACCGGAGGAAAGGCCGGTGATACCGTCGTGTCGGATCTGCTTCAAAACTATAAAATCAAAGGAAATATTCTGCATGGAAATGTTGATTACATACAGGAAAAGGCACTCGGTACTTTTGTGATGGAATTAACAGGTGAATCGAATGAAGTCGACAGAGCTGTAGAAAGTCTGCGAACCATACTGGATGAAGTGGAGGTGCTGAATCATGATCGAACAGCTGATCAACCTGTGGCCCGAGCTGAATAA	MISIQELSKIYTSKNKQVIGVDEVSLDIQEGEIYGIVGYSGAGKSTLLRCMNILERPTSGKVYIDGIDLLSLSKKDLRKARQSIGMIFQGFHLAMGKTVLENVAFALKAAGKPKQERHDRAHRLLELVGLSDKADQYPAQLSGGQKQRVSIARALANDPKVLLCDEATSALDPNTTQSILKLLKKINRELGLTIVLITHEMEVVKEICDRCAVMEDGRIVEQGAAYEIFASPQNALTKRFIRTVIDFHVPEELLKNSRGTIVQMKFTGGKAGDTVVSDLLQNYKIKGNILHGNVDYIQEKALGTFVMELTGESNEVDRAVESLRTILDEVEVLNHDRTADQPVARAE	PGPT0020520_1298	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
AK012_00680	348			hypothetical protein	ATGACACAGCGAGGAGAAGAACTACTGAAGGAATATAGAAATGGTATTGAGATCTTAACTGAGCACCTGCCGGAGGCGACAAAGGAATACAACCACTTCACCGGCTCTTTTTTTGAAGATGGGGAACTCAAGAAAGGTACGAAGCATTTGATGGCCCTTGCCATCAGTGTGAAAGAGGGCGATGAAGCAAGTATTGCCTATCATATGGATCAATGCGTTGAAGCGGAATGTACTGACAAGGAAATTTATGAATCGATGGGTGTTTCCGCTGCTTACGGAGGGGGATCTGCCATGAGTCAGGCCGTCACAACAGGACTTAACATCCTTCAGGAATTCCGAAACCGCTGA	MTQRGEELLKEYRNGIEILTEHLPEATKEYNHFTGSFFEDGELKKGTKHLMALAISVKEGDEASIAYHMDQCVEAECTDKEIYESMGVSAAYGGGSAMSQAVTTGLNILQEFRNR				NA	NA	NA	NA	NA
AK012_00681	1062	hcxA	COG0371	Hydroxycarboxylate dehydrogenase A	ATGAAAAACGTAACCGTTCAAGGAGCACCAGCCATTTATAAAGCCGAATCAGGAGTTCTTAAAGAGCTGCCCGAATGGCTGGCAGATCAATCGTTCGAAAAGGCAGGAGTCATACACGGAGAACAATCATGGAAAGCGGCGGAGCCTTATTTTCCAGATCTGACCATTCCGGTCCAATTTGAACAATATCATGGGGAATGTTCCCACGAAGAAGTCGTGCGCTTGAGTGAATCTCTTCAGGATCGTGATGTGCTTATCAGCATCGGTGGTGGAAAAGTGCTTGACCTTGGAAAGGCCTGTGCCGATCGTCTGCATATTCCTGTGGTGCTCATACCTACATTGGCCTCCAACTGCGCGCCATGGACGCCTCTCAGTGTCTTTTACGATAATGAAGGGAACTTTGAAGAATATATCATTTATCCACGTAGTACATGGATGCTGCTTGTAGAGCCGGAACTGCTCGTCCGTGCGCCGGAACCGTATTTTAGGGCCGGCATCGGAGATACACTCGCCAAATGGTACGAAGCAGATGTGCTCACAAGGTCCCTTGCCTCTAAACCGATCGCTGTTGACATCGCTCTGCATGCGGCAAAATTATGCAGGGACGTTCTTATACAGGATGGAAAAGCGGCCGTGGAAGCCGTCCGGCAGCAGGCGGTCGTCCCTGCCTTCATGAGAGTTGTGGAAACCATTATTATGGCTGGCGGTATGGTCGGGGGTTACGGCGACAGCTATGGAAGAATCGCAGGCGCGCACTCGATACATAACGGGTTGACCCAAGTACCTGCCACCCACGCCTTTCTTCATGGTGAAAAAGTAGCCTATGGAATTCTCGTCCAGCTTGCTCTGGAAGGACGTTTCGATGAGATTGAAGCCCTCACACCCTATTATCAGGAAATGGAGCTTCCAGTCACTCTTGATGATTTCAATCTGAACAACAAGGAAGAAGCCATCTCCATTACAGCCGAACATGCTGTAAAGCCGGGGGAATCCATCCGCTTAATGAATGTGATGGAAGCTGAACAAGTCGAAAAAGCAATGTTCCAGATCGAAAAAGGATAA	MKNVTVQGAPAIYKAESGVLKELPEWLADQSFEKAGVIHGEQSWKAAEPYFPDLTIPVQFEQYHGECSHEEVVRLSESLQDRDVLISIGGGKVLDLGKACADRLHIPVVLIPTLASNCAPWTPLSVFYDNEGNFEEYIIYPRSTWMLLVEPELLVRAPEPYFRAGIGDTLAKWYEADVLTRSLASKPIAVDIALHAAKLCRDVLIQDGKAAVEAVRQQAVVPAFMRVVETIIMAGGMVGGYGDSYGRIAGAHSIHNGLTQVPATHAFLHGEKVAYGILVQLALEGRFDEIEALTPYYQEMELPVTLDDFNLNNKEEAISITAEHAVKPGESIRLMNVMEAEQVEKAMFQIEKG	PGPT0013245_340	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013245-hcxA|ybdH-K08317	NA	NA
AK012_00682	1344			hypothetical protein	ATGGTTGACGTGACGATCGTCGGAGCTGGTGTAGCTGGAACATTTCTGGCACACACCCTCATCGAGAATCACCCCGGTCTTTATGTGAAAATGGTAGACTTGGGAAAGCCTTTGAAAGAGAGGCATTGTGCGCGTGAGCATGGGCAGCCCTGCACGTGTTCCGGTGAATGTGATCAGTACATAGGTTTTGGTGGTCTGGGAAGATCAGAGGGTAAATTCAACTTCACCCATGATTTTGGTGGAGAGCTGTCACGCAAAATTGGTGAGAGGGAAACCAATCGTCTTATGGAAAAGGTGGATCATATCCTGGTGGAGCATGGGGGCGGCCGGGTGCAGACCTATTCGACCGATAACGACCAGGTGAAAGAAAGGGCAGCAGCCGGAGACTTGAAGGTATTAACGACAGAAGTCCGGCACCTCGGCTCATCTCTGGCCCGGGAGGTATTTCAAAGTCTCTATGAACACATGGAGAATCAGCTGTCCTTTTCTTTCAATACCCGGATCCAGTCCATCACACCATCGGATTACGGCTTCCGTGTTCTCACGGATGGTGAAGAATTCTATAGTCGGAAGATTGTGCTCGCGACAGGCAACAGCGGCCGGGAGTGGTTTTCAAGCATAACGGAGTCGATGAATATCAAGCCGAAGGATACCCGTCTGGATCTGGGTGTCCGGGTGGAGATGCGCGGCGGACAGCTGGATGCTCTGCTGAAGGAAACGTTTGAAACAAAACTGTTAAAGAAAACAAACCGTTACACAGCCTACACGTACTGTATGAACCCAAAAGGGCGGATCGTTCGGAAGCATCAGCATGGGCTCGTTATGCCGGATGGACAAAATTCCCGTGAACAGGGTGTTCCGGGAGAGAATGTGAATTTCACACTGTTTGTCCCTCGATACTTTCCAGATCAACGGGAGGCCATGGAGGAAGCGGAGCGGATCATAGGGGGCATCAATCGGTCGGGCGATCGGATTGTCGTCCAGCGTCTGGAAGATTTGAAATCGGAAAGGGAGACGACTTCCCTCCATACAAACAGAATTTCCCCTTCTCTTGATGCTGAGAAAGGTTCTCTGTGTGAGGAAGTACCAAGTGTTTATATAGATGCTCTTACAGAGTTTTTGGCATCACTTGAAAAAGCGCTCGGGGAACCGGTGGATCCGGATACTTTAATATATGGACTGGATGCTAAATTTTACGAACCGGTCATTCCAACAAATGAGACGTTTGAAACGACCGTTCCAGGGTTGTTTCTGGCGGGAGACTGTTCATCTGTCACTCATTCCTTATCCCAGGCGGCGGCCAGCGGGATTTATGTAGGAGAGATTATAGAAGGAAAAGGATAA	MVDVTIVGAGVAGTFLAHTLIENHPGLYVKMVDLGKPLKERHCAREHGQPCTCSGECDQYIGFGGLGRSEGKFNFTHDFGGELSRKIGERETNRLMEKVDHILVEHGGGRVQTYSTDNDQVKERAAAGDLKVLTTEVRHLGSSLAREVFQSLYEHMENQLSFSFNTRIQSITPSDYGFRVLTDGEEFYSRKIVLATGNSGREWFSSITESMNIKPKDTRLDLGVRVEMRGGQLDALLKETFETKLLKKTNRYTAYTYCMNPKGRIVRKHQHGLVMPDGQNSREQGVPGENVNFTLFVPRYFPDQREAMEEAERIIGGINRSGDRIVVQRLEDLKSERETTSLHTNRISPSLDAEKGSLCEEVPSVYIDALTEFLASLEKALGEPVDPDTLIYGLDAKFYEPVIPTNETFETTVPGLFLAGDCSSVTHSLSQAAASGIYVGEIIEGKG				NA	NA	NA	NA	NA
AK012_00683	582	ydaF_2	COG1670	Putative ribosomal N-acetyltransferase YdaF	GTGGATCCTATACATATTGATGTTCCGTATGTCCTGCATACCAAACGCCTCATCCTTAGGAGACCGGAGGCTGGCGACGGTGAGATGATCAATGAGGCGGTCCACCGGTCAGAACAGCAGCTGAAGCCGTGGCTTCCTTTTGTACAGGAAATGCCCTCCATCGAAGATACAGAAAGCAGCGCCAGGCAGGCCCACACAGATTTTACGGCAAGAAAAAAACTCCGTTACCTCGTTTTTCATAAGGAGAGAGGGGGTTTTATCGGATCAACGGGACTGCACAATATCGACTGGGAGGTCGGGAAATTCGAAGTCGGTTACTGGATTGACACCAAATGGAGCGGTCATGGATACATGCGGGAATCGGTTCGTGAACTAACGCGGCTTGCTCTTGAGGATCTTGGTGGAGCACGGGTGGAAATCCGTTGTGAAAGGGCACATGAAAAAAGCAGAAGGATTCCTGAACAATTAGGCTATCAGCTTGAGGGAATCTTACGTATGGAGGACCTTTCTGTTGATGGGAGACGTCTGACCGATACATGCGTATACGCTAAAATTCAAGAACGGAGGAAGAAGTATGGTTGA	MDPIHIDVPYVLHTKRLILRRPEAGDGEMINEAVHRSEQQLKPWLPFVQEMPSIEDTESSARQAHTDFTARKKLRYLVFHKERGGFIGSTGLHNIDWEVGKFEVGYWIDTKWSGHGYMRESVRELTRLALEDLGGARVEIRCERAHEKSRRIPEQLGYQLEGILRMEDLSVDGRRLTDTCVYAKIQERRKKYG				NA	NA	NA	NA	NA
AK012_00684	384	ectC		L-ectoine synthase	ATGAAAGTGAGAGCATTGGAAGATATCCTAGGGTCCAGCAGAGAAGTGAAGGGGGAAAACTGGACAAGCCGGCGTTTGATTGTTGCTGAGGACCATATGGGCTGTTCCGTCCATGACACGCTGATCCGGGGCGGGACTGAAACGAAAATGTGGTATAAGCACCATCTTGAATCTGTTTATTGTATAGAGGGGGAAGGGGAGGTCATCACACTTTCTGACCAAAGCGTATGGCCCATCCGGGAAAATACCTTATACGCACTGGATCAGCATGATGAACATGTGCTGCGTGCTTTCACTGACATGCGGATGATCTGTGTCTTTACCCCCCCTATACATGGAGATGAGAAACACGATGCAGACGGGACGTATCCTATGAGACCATAA	MKVRALEDILGSSREVKGENWTSRRLIVAEDHMGCSVHDTLIRGGTETKMWYKHHLESVYCIEGEGEVITLSDQSVWPIRENTLYALDQHDEHVLRAFTDMRMICVFTPPIHGDEKHDADGTYPMRP	PGPT0014060_545	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014060-ectC-K06720	NA	NA
AK012_00685	1215	ykuI	COG2200	putative EAL-domain containing protein YkuI	ATGGATCCACTGGATATTGTAGGTAACTTACATAAAATTAAACCCGTTTTTCAACCTATTGTCAGTGCCATTAATCATGATGTGATTGGATATGAGGTGCTGGCCCGGTATAAAGAAAATCAGACGTGGGAGAGTCTTGGTCCATTTTTCCACGATACGGATGTCCCGGAGGAATTCAAAGTGGAGGTGGATCAAGTTGTCCTGAGTCAGGCTGTTCATATGATGATGGCTGATGGGAAAGAAGGACTGCTGTTTATTAACCGTAATGCTAAGCAGCTCATGGTGAACAACGGGGATGATCTGCTGCAGTCGCTGCTTCACTTCAAGGAGCAGGGATTTGACTTGAGTCGTATTGTTATTGAAGTAACCGAACATGATTTTGACGAAGACTTTGAAACGTTGAACCATCTCCTGCTTTATTTCAAGACGTACGGTATCCAGATAGCGGTGGATCATGTCGGAGCTAAAAGCTCAAACATCGACCGGATCCGGCTTCTGGAACCTCATATTTTAAAAATTGATACAGGGATTATCCGCAGACAGGATGGAGACGCGTTCCAGGATATCATGTACTCATTATCCATGCTCGCGCACCGGATTGGAGCCGCCCTGTTATTTGAAAATATCGAAGATGATTTCCAGCTGTACTTTGCCTGGAAACACGGCAGCCGCTTTTACCAAGGGTATTACCTCGCTCATCCTTCCTTTGATCCTGTCGGCAAGAGTTCACTGGCTGTCGATATTAAAGAACGAATGAGCGGATATGTCCAGCGGGAGAAACGGCTGCTGCAAGATCGTCAGCAGTATGTAAAGCACTGGGAGGCAAAAGTAAGACAGCTGCTGCCGAGATGGGAAGGTCCTAAGAAATCGGATGCGTTTATAGATGGTGTGACCGAACAGTTCCACAACGAAAGCTTCCGGATGTTTATCTGCCATATGGACGGCCAGCAGGTATCCTCCAACTTCCGTAAAAAAGATGAGGACTGGTTTGTGGAAACAGATAAGAGAGGGTCCAACTGGGCTTTTCGTCCATACTTTCTGGAGAATGTGATGAAAATGAAAGAATCCCATGCGGGACTTCTTTCTGACCTTTATTCTGATATTGAAACCAAAGAAATGGTCCGCACATTCAGCTTCCCGTTAACTGAGCAGCATTTTCTTTTCATTGATCTGCGCTACGCGTATTTGTATGATCACGAATGCCTGCTCGCCTGA	MDPLDIVGNLHKIKPVFQPIVSAINHDVIGYEVLARYKENQTWESLGPFFHDTDVPEEFKVEVDQVVLSQAVHMMMADGKEGLLFINRNAKQLMVNNGDDLLQSLLHFKEQGFDLSRIVIEVTEHDFDEDFETLNHLLLYFKTYGIQIAVDHVGAKSSNIDRIRLLEPHILKIDTGIIRRQDGDAFQDIMYSLSMLAHRIGAALLFENIEDDFQLYFAWKHGSRFYQGYYLAHPSFDPVGKSSLAVDIKERMSGYVQREKRLLQDRQQYVKHWEAKVRQLLPRWEGPKKSDAFIDGVTEQFHNESFRMFICHMDGQQVSSNFRKKDEDWFVETDKRGSNWAFRPYFLENVMKMKESHAGLLSDLYSDIETKEMVRTFSFPLTEQHFLFIDLRYAYLYDHECLLA				NA	NA	NA	NA	NA
AK012_00686	1644			hypothetical protein	ATGAAGACAATAGTCATTGACCCGGGTCATGGAGGTACAGACCCAGGCGCCGTCTACATGGGATACCAGGAAAAGACCTTCAACCTTTCCATCGCCCTCAATGTCCAGCGGTATCTCACCCAGAATTATGAAGCTGAGATTGTCATGACAAGGAGCTCAGATGAAACGGTTTCCTTGAACCGGCGGACGACTCTTGCCAATGCCGGAGACGCTGATTTTTTTCTATCCATTCACAATAATGCCGCAGGAGGAAGAGGCTTTGAAAGTTATATTTATAATGGAAGCCTTGTCCCGGATACGCCGGCTTATCAATCCATCATCCATACGACAGTGTATCAAACGGCTTCAAAATACGGAGTGAGCAACCGCGGAATGAAACGTGCCGATTTGTTCGTCACCCGCAAAACCGATATGAGTTCTCTTTTACTTGAAATTCTGTTTGTCGATCATCCGGACGACCTGGCTCTGCTTAGAAATTCCTCTTTCATTAATGACATTTCCACAGCCATCGGAGAAGGAACAGCAAAAGCCCTGCAGCTACCGAGACTGGCCGGTGCCGCTCCTTCTCACACCTCGACCTTATACAAAGTTATGGCTGGAGCTTTTCGAAGCCGGGAAAACGCTGAACAAAGAATCGAATTTCTATCCCAAAGTGGAACCGCCGCGTTCATCGTCCCTGCTCTCATTGGAGGAGAGGCCTATTACCGTGTTCAAACAGGAGCCTTCTCCAAAGAGTCCCATGCAAAAGCACAGGTAGAACAATTACAAAAAGCAGGTATTGCAGACGCTTATATTCTTACTGGATCAGACAAATCGGAATCCCCCGATCCTGATAAGGACTTGTACCGGGTGATTGCCGGAACATTCAGAGACAGGAAACATGCAGAAAAAAGGGTGAGCAGCCTTACTGCCTCCGGATTTCCTTCGTTTATAACACCTATTGAATTGGGAGGTGTGACGTATTACCGTGTGCAGGCTGGAGCTTTCAAAGAAATAGAACATGCCCGCGACCTCGTAAATCAATTAAAACCGTACGGGATCATGGATGCCTTCCTTTGGGCGGGTTCCCCTGTATCCCCTCCACCTGAAGAGACAGAGGAACGGTGGACGATTCGTGGAGAGAGTCTGATGAGCGCTTGTCAGCTTGATCAATTTGCCCGGTCGGTCTATCCGGATGCACCAGAGCTTGGAAAGTATTATGTGAGATACGGAAATCTCTACGGCATTCGTGGGGATATTGCCTATGCCCAGGCTGTCCACGAGACCAACTTCTTCCGTTTCACTGGAGATGTACAAAAGGAACAAAATAACTTTGCAGGGATCGGCGCTGTAGGTGGAGGAGCTGCCGGTGCGTCCTTTTCAACACCTGAAGAAGGTGTGCATGCGCAAATTCAGCATTTATTTGCCTATGCATCCACCAATGCGATACCTCAAGGGTTGGCAGAGGTCGATCCGCGCTTTGACCTCGTTACCCGGGGAAGCGCAGTCACATGGACAGGGTTGAACGGAAAGTGGGCAGTACCCGGCGGTCAATACGGACAGCTCATCTTATCGATCTATGAAAGAATAGCCGTTCACGCACTGGAATCTATAAAAGTACAGCAGCAGAGTCTCCGGCGGATTCTGGAAGATTTCAAAGAATAA	MKTIVIDPGHGGTDPGAVYMGYQEKTFNLSIALNVQRYLTQNYEAEIVMTRSSDETVSLNRRTTLANAGDADFFLSIHNNAAGGRGFESYIYNGSLVPDTPAYQSIIHTTVYQTASKYGVSNRGMKRADLFVTRKTDMSSLLLEILFVDHPDDLALLRNSSFINDISTAIGEGTAKALQLPRLAGAAPSHTSTLYKVMAGAFRSRENAEQRIEFLSQSGTAAFIVPALIGGEAYYRVQTGAFSKESHAKAQVEQLQKAGIADAYILTGSDKSESPDPDKDLYRVIAGTFRDRKHAEKRVSSLTASGFPSFITPIELGGVTYYRVQAGAFKEIEHARDLVNQLKPYGIMDAFLWAGSPVSPPPEETEERWTIRGESLMSACQLDQFARSVYPDAPELGKYYVRYGNLYGIRGDIAYAQAVHETNFFRFTGDVQKEQNNFAGIGAVGGGAAGASFSTPEEGVHAQIQHLFAYASTNAIPQGLAEVDPRFDLVTRGSAVTWTGLNGKWAVPGGQYGQLILSIYERIAVHALESIKVQQQSLRRILEDFKE	PGPT0024160_1981	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK012_00687	426			hypothetical protein	ATGCACCCAAAGTACCTGTTTTTGAAATTCCTGGGGTTTGGTGGAGAACTGATTTTCTCCGGGGTATTGGCAGCCCTGTACACCCACCTGCAGGACACGGGGAGGGGGTTTGACCCCAACCCTGTATTCTGGCAGTCCTTCATCATCATCCATCTGACATTGTTAGTTGTCCTGCCATTGTTCATGCAGGGCAGAACGTTAGGTATGCTGCTCACAAATATGTCCGTCTCCTCGACCCATGGAGGGAAACCGAATGGACTGCAGCTCTTAATAAGGGCGGTTCTCGGGTTCGGTCCAGTCCTCTTGACCAATGGCTGGTGGCTGCTGGTATCTGTGGGAACATCCATCCTGGACAAAAAAGGGCGGAGCTGGGGAGAGGTGATCTCTTTCACAACGATGAAACCAAAGGAAACGAAAGAGGAGTGA	MHPKYLFLKFLGFGGELIFSGVLAALYTHLQDTGRGFDPNPVFWQSFIIIHLTLLVVLPLFMQGRTLGMLLTNMSVSSTHGGKPNGLQLLIRAVLGFGPVLLTNGWWLLVSVGTSILDKKGRSWGEVISFTTMKPKETKEE				NA	NA	NA	NA	NA
AK012_00688	531			hypothetical protein	TTGGAAATAAAAAAAGAATTTAACTATGTACCATGGGTGGTGGGACTTTCCATCGCTATCAATGCGATTGTAGTCGCTCTGTTGTTTCTCCCGGAAATCGGAAGCGAAACCAGCTTTGATATTACGCTGCTTCCATTACTCAATGCCGTCTTCAATTCATTTACGTTCGTCTTTCTGAGCGCCGCTTTATTTATGATTATCCGAAAAAACGTTACGTGGCACAAACGGTTCATTTTTGCCGCTTTTACGACAACCGCTTTATTTTTAGTTTCGTATCTTACGTATCATTCCATGTCTGAATCCACATCCTTCGGCGGTGAAGGTCTGGTGGCAGGAATTTATTACTTTATTTTAATCACCCACATTGTCCTGGCCGCTCTAATCGTACCGCTGGCCCTGTTAACACTTTTCAGAGGTCTTGCGATGAAGGTGGATAAACATAGGAAAATCGCCCGTTGGACGATGCCGATCTGGCTTTATGTCAGTTTGACTGGTGTAATCGTGTATTTAATGATTTCGCCTTATTATTAA	MEIKKEFNYVPWVVGLSIAINAIVVALLFLPEIGSETSFDITLLPLLNAVFNSFTFVFLSAALFMIIRKNVTWHKRFIFAAFTTTALFLVSYLTYHSMSESTSFGGEGLVAGIYYFILITHIVLAALIVPLALLTLFRGLAMKVDKHRKIARWTMPIWLYVSLTGVIVYLMISPYY	PGPT0024520_492	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0024520-yozB_-K08976	NA	NA
AK012_00689	231			hypothetical protein	ATGGACATTCTTGACTTTATCAAGGAAGAAGGATTTACGTCTGCAAGATTTCAATCGTTCGCAGGAAAAGATACGCTCATTCAATTGAATCGGCTTACCGATATGAAGGAACTGTTCGGCCTGCTTGAAATGACTCCGACATCCGTTCGGTACTATCCTTATGAAAAACTTCCTTACCTGGACTGCTCTCAGAATGAAGACAATGTGAAATTGAGATTGTTTAAACCATAA	MDILDFIKEEGFTSARFQSFAGKDTLIQLNRLTDMKELFGLLEMTPTSVRYYPYEKLPYLDCSQNEDNVKLRLFKP				NA	NA	NA	NA	NA
AK012_00690	930			hypothetical protein	ATGAACAAGCACATGGAACGGACAAGCAGGTGGCTCAAGCGGCATGCACGTCCTTTGGAAGCAGCAAGGTGGGAGGCGCTGTTTGAAAAGGGTTCAAAAGCAAAAGTCCTTGAATATTTGAAAGCGTTTCAAAATGAGGATGGAGGGTTTGGACACGGAATCGAACCGGATTTTCAACTCCCTGATTCATCACCGATGGCTGCGTGGGCAGCATCACAGGTGCTGACTGAATTGAATGTATCTTCTAAAGAGCCGCTGCTTCAGCAGATGGTTTCCTACCTGCTGCGAACCTATGATTATCACTCAGGGATGTGGCCGTCGGTTATTCCTGAGGTTAACCAGTATCCTCATGCTCCCTGGTGGACGTGGAGGGAAGGGGTTCAGTCCAACTGGATGTTCAATCCGGGAGCGGAAATAGCCGGCTTTCTCATCGATTGTTCCCAAGCGAATACGGAAGCCTGGAGCACGGGTGTGGAAAGTGCAGGGAAAGCTCTCCAGCATTTGATGAATGCTCATGAAATGGACTTCCACGAATGGCAGTGTTATCAGAATCTATGGATCTCCTTGAATAGGAATGCAGAGCAGGTCCAGGATCATCTCCCCTATTCGATCCAACAGGTACAAGCCCATCTTCTATCGTTAGGAGAAAAATGTTTGATTATGGACCCATCCGAGTGGGGGAACGGGTACGGTGCACTTCCGACAGATATTATCTCGTCTCCGCAGCACCCGTTATATTTTCAATATAAGCCTCTGGTTCTGGAAAACCTCCGTTACTTTCTAAGGACTTTAAAAGAGGAAGGGGTCTGGGATATCTCCTGGGACTGGGGAGGCGGATCGAAGGCTTTTGCGGTTGCAGAACAGCAGTGGAAAGGAATCACAGCCGTGCATCGCTGGAAGATAATCAATGCTTTTCAAGAAGAATGGTGA	MNKHMERTSRWLKRHARPLEAARWEALFEKGSKAKVLEYLKAFQNEDGGFGHGIEPDFQLPDSSPMAAWAASQVLTELNVSSKEPLLQQMVSYLLRTYDYHSGMWPSVIPEVNQYPHAPWWTWREGVQSNWMFNPGAEIAGFLIDCSQANTEAWSTGVESAGKALQHLMNAHEMDFHEWQCYQNLWISLNRNAEQVQDHLPYSIQQVQAHLLSLGEKCLIMDPSEWGNGYGALPTDIISSPQHPLYFQYKPLVLENLRYFLRTLKEEGVWDISWDWGGGSKAFAVAEQQWKGITAVHRWKIINAFQEEW				NA	NA	NA	NA	NA
AK012_00692	603	ykoF		Putative HMP/thiamine-binding protein YkoF	ATGAATCACGTTTGTGGTACGTCAAAAATTGCTGGATGTTCGTTTTCTATCCATCCGATGAGTGAAGATTTTGCGGAGATTATCCTGGACAGCTTGAAGAAGGTCGATACGTCTAAGGTGTGGCTTGATACCGATGATGTTACAACGACCATACGCGGACGGCTGGAACATATTTTCGATGTCACGAAGGCCATTCTCCTTCAAGTTTCGAAATCCGGGGTTCATGCGGCTCTTCAAGCTACTTATTCCATCGGCTGCCTTGGAGACTCCAACGGTGATACCTGTCCAGACGAGTCTTTAGATCGGATGAACGAAAACTCCTCCCGGTTCATCCACCAGCATTTATCAGCCAAATTCTCCCTTTACCCAATGGGGGGCGGGAGCTACATGGATACGATATACACGCAGATTGAAGCGATGAAATCAAAAGGCGTTCAAGTCACTCCTGCCCATTATTCTACACGGCTGGATGGAGATACCCACACGGTTTTCAAAGGTTTGGAAGACGTTTTCCGCGCAACGGAAGCCTCGGGTTCCTCTCACACCGTCATGACCGTAACAGTGTCTGTAAACAGCCCTTCCACCAAGGAGGTTGAGTCATGA	MNHVCGTSKIAGCSFSIHPMSEDFAEIILDSLKKVDTSKVWLDTDDVTTTIRGRLEHIFDVTKAILLQVSKSGVHAALQATYSIGCLGDSNGDTCPDESLDRMNENSSRFIHQHLSAKFSLYPMGGGSYMDTIYTQIEAMKSKGVQVTPAHYSTRLDGDTHTVFKGLEDVFRATEASGSSHTVMTVTVSVNSPSTKEVES				NA	NA	NA	NA	NA
AK012_00693	579	ykoE	COG4721	Putative HMP/thiamine permease protein YkoE	ATGAAAAACTGGAAACTCAAAGAAATTGTGGTCCTTTCTGCGTTGTCTGTCGTATTTGCCGTCGTTTACCTGGCCTTCCTCCCTGTTGGCAAACTTCTCTCAGGGTTATTCGGCCCCATCGGTTATGACTTCATCTTCGGGATCTGGTTTATCGTTTCCATCATTGCTGCTTATATTTTACGCCGGCCCGGTGCAGCTTTTCTGTCTGAAACAATAGCAGCTACTATTGAAATCCTGCTCGGAAATGCTTCCGGCCCTCTATTAATTGTGACGGGAATGGTCCAGGGTCTTGGAGCTGAAAGTGCCTTTGCTTTGACACGCTACCGATCTTATCACCTCTCCGTGCTCATGCTTGCCGGTATCATGGCTGCCGTTTTCAGTTTCATATGGGGATATTTTCAGTCTGGATATGCCGCATTAAGCGGTGGATACGTTGCCGCCATGCTCATTATCCGGATGATCAGCGGTGCTTTGATTTCCGGTGTATTCGGTAAAGCCGTCGCCGACGGTCTTGCGAGAACGGGCGTCCTTTCCAGCTTTGCTCTCGGCCGGGAGTTAAGAAAGAAGCGTGCCTCCTGA	MKNWKLKEIVVLSALSVVFAVVYLAFLPVGKLLSGLFGPIGYDFIFGIWFIVSIIAAYILRRPGAAFLSETIAATIEILLGNASGPLLIVTGMVQGLGAESAFALTRYRSYHLSVLMLAGIMAAVFSFIWGYFQSGYAALSGGYVAAMLIIRMISGALISGVFGKAVADGLARTGVLSSFALGRELRKKRAS				NA	NA	NA	NA	NA
AK012_00694	1632	ykoD	COG1122	Putative HMP/thiamine import ATP-binding protein YkoD	ATGAAGACAGTTGTCCAATTGGAAAACTTGTCACTGACGTATGAAGAAAGCGGAAGAACCGTTTTGAAGGATATCACACTATCCATTGCCAGAGAACAGGACACGCTCATCCTGGGGCCCAGCGGATCAGGGAAAAGCTCTCTTGTCCAGTGCTTGAACGGGCTTTACCCTGAGAACCTGGATGGAGAAATGACCGGCCATGTTTACATTCACGGCCGGTCGACGGATGATTTCAAGGCCGGGGAACTGGCTCAAACCGTCGGAAGTGTCTTCCAGGATCCCGAAACGCAATTCTGTATGCTTACGGTGGAAGATGAAATAGCTTTCGGGTTGGAAAACCTTCGTATACCTGCCGAAGAAATGGAACCGAGAATAAATGAGGTCCTTGAACAAGTGAATTTACTTGATAAAAAAACGTCCATGATCCATCAGTTATCCGGCGGGCAGAAACAAAAGCTCGCCCTTGCCTGTGTGCTGGTAATGGAGCCGGACATCCTTCTTTTGGACGAACCGACAGCCAATTTAGATCCACGGGCAGCCGGAGAATTCATCGAAGTGCTGACTTCGATCAAAAGAAAGAGAAGCCTCACCATGGTTGTCATCGAACACAGACTGGAAGGGTGGATGGAACTTCTTTCTCACGTTATTGTTCTTCGTTCGGATGGAGGTGTACTTACTACGGGCCCCTTACATGACGTGATGAATAAGCAGGCCCATATCATCCATGACCAGGGTATCCGGCTCCCCTATCCCATTCAATATAGTCTGGAGGAAGATGTCCCTCCTCCCTATCCGTTCACCCTTGAAAAGCTCGCTGATCAAAATGTCCGGCTTCCATCAGTCGAACGTCCCCGACGGCCATATGGGAAGAAGATAATGGAGGCGGCCGATGTCCAATGGAAAGATATTATAAAGGATATCAGCTTTTCCCTCTATGAAAGGGAATGGATTGCCGTAGTAGGCGCGAATGGAAGTGGGAAAACCAGCTTATCCAAAATACTGGCCGGCATAACGAAGCCGTACAGCGGTATGGTCCATGTCAAAGAGAAACCGATAAAAAAATGGACACCGGATCGTTTAAGGAAAGAATCAGGGTACGTATTTCAAAACCCCGAGCATCAATTTGTAACGGATGAAACCTTTGAGGAAATTGCTTTCAGTCTAAGGCAGCAGGGAACTGCTGGATTGGAAATAAGCCGCCGGGTTAAGAATATGCTCTCTCTCTGCGGACTGGATGGATTAGACAGGCATCACCCCTATCAATTGAGTCAGGGGCAGAAACGCCGGTTAAGCGCAGCCACTATGATGGTGGAAAATCAGTCCGTTCTCTTTTTGGATGAACCTACATTTGGTCAGGATGCCGCTTCTACCCAGCAGCTTATGGAGCTTCTTGAAGAACGTTTCCAACAAGACACTTCTCTTTTTATGATCACACATGATATGGAACTTGTTCACCAATATGCTACAAGAGTCATCGTTATGGACAAAGGAAGAATCGCTTTTGACGGCCTTCCTGAGCAGTTGTGGATGCATGAGCACCTTTCTGACTGGCATATCGAACCTCCCCTCCCCATTCAATTGTATCGATTATTAACAGGGAGGAGCCGTTATCATGTTTCTTCATACTCTTAA	MKTVVQLENLSLTYEESGRTVLKDITLSIAREQDTLILGPSGSGKSSLVQCLNGLYPENLDGEMTGHVYIHGRSTDDFKAGELAQTVGSVFQDPETQFCMLTVEDEIAFGLENLRIPAEEMEPRINEVLEQVNLLDKKTSMIHQLSGGQKQKLALACVLVMEPDILLLDEPTANLDPRAAGEFIEVLTSIKRKRSLTMVVIEHRLEGWMELLSHVIVLRSDGGVLTTGPLHDVMNKQAHIIHDQGIRLPYPIQYSLEEDVPPPYPFTLEKLADQNVRLPSVERPRRPYGKKIMEAADVQWKDIIKDISFSLYEREWIAVVGANGSGKTSLSKILAGITKPYSGMVHVKEKPIKKWTPDRLRKESGYVFQNPEHQFVTDETFEEIAFSLRQQGTAGLEISRRVKNMLSLCGLDGLDRHHPYQLSQGQKRRLSAATMMVENQSVLFLDEPTFGQDAASTQQLMELLEERFQQDTSLFMITHDMELVHQYATRVIVMDKGRIAFDGLPEQLWMHEHLSDWHIEPPLPIQLYRLLTGRSRYHVSSYS				NA	NA	NA	NA	NA
AK012_00695	780	ykoC		Putative HMP/thiamine permease protein YkoC	ATGTTTCTTCATACTCTTAATCCTGCTATGAAAGCCTGCACGGTTGTCGGACTTGTCTTTGTGCTTGCCTGTTTGTTTGATCCTGTAACGCCTCTCGTCTTCACACTATTTACGATTACCGTGACACTCGTTTTCGGCCGGTTCCGGAAACGAGTGTATGTCCTTTACTTGTCAGCTTTTACACTGTTTGCCTTTGGGATGCTGTGGACGACTATTGCCTTTGCCGACACGCCCTCCCAGCCTGAGGAGACTATCCCGCTGGCAGGTTTCCTTTTCCCGAAAGAGGATGTATTGACGGCTCTGGCGCTTTCCTTTCGTGTGATGGCTTTTGCTGCTTTATCTCTACTATTTGTGTTCACGACAAATATGGTGCATTTCATATTAAGTCTTATCCAGCAGTTGAAGCTTCCACCTAAGCTTGCTTATGGACTCATGGCCGGTTACCGCTTTCTGCCTATGATGAAAGAAGAATTCGATCAAATCCGAGCAGCCCACCGCATCCGAGGGGTCACAGAAGCCAACTCTATCAAAGGAAGATTCAAACAGCTGAAACGCTATGCCATCCCCCTGCTGGCTGGAGCTGTAAGGAAGGCGGAACGCACGGCTGCAGCCATGGAGTCCAAAGGGTTTACAGGTGAACGCACCCGGACGTACTACAGACCTATGAAAATCACAGGACGTGACTGGGTCTTTCCTTTGGTTATGTTTGCTGTGCTCGGTGTGTTGATTGCTCTTTCCTTTCAATTGGACTATTTCCGCTGGTATAACGGCCAATTCTAA	MFLHTLNPAMKACTVVGLVFVLACLFDPVTPLVFTLFTITVTLVFGRFRKRVYVLYLSAFTLFAFGMLWTTIAFADTPSQPEETIPLAGFLFPKEDVLTALALSFRVMAFAALSLLFVFTTNMVHFILSLIQQLKLPPKLAYGLMAGYRFLPMMKEEFDQIRAAHRIRGVTEANSIKGRFKQLKRYAIPLLAGAVRKAERTAAAMESKGFTGERTRTYYRPMKITGRDWVFPLVMFAVLGVLIALSFQLDYFRWYNGQF	PGPT0004015_2691	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
AK012_00696	429			hypothetical protein	ATGAGAATAGGGAAATTTTTATTATGGATCACTGGTATCGGACTCGTTTTTGGGGGAGGGTATGCAACAGCGTTGGTTTTAGGAGATCATCCTTCGTATACGCTGACGGCTTTAAAAGCTGTCGGTGAACCGGAAATGGCTGCCACCCTCCATGATGAGGAGCATCAAGCTGAACTTGATACAATGCTTAATATTCTGCTTCATCAAAAACCTTTGGAAGGAGCATCTGTCGACGTGGACAATCCTGATATTTCTTTGGAACTGATCAGTCCGGAGCGTTCCGTCGGTATTCTGGATGCAAGGATTTGGTTTGAAGAGGATACCGCTGTTCTTGGAATCCGGAGCGGTCAGACGTGGAACAGTATCCGGTATTCTGAGCTTTCAAAGAATGATGCGGAGTATATCCAGTCCATTGTGGATGAACAGTAA	MRIGKFLLWITGIGLVFGGGYATALVLGDHPSYTLTALKAVGEPEMAATLHDEEHQAELDTMLNILLHQKPLEGASVDVDNPDISLELISPERSVGILDARIWFEEDTAVLGIRSGQTWNSIRYSELSKNDAEYIQSIVDEQ				NA	NA	NA	NA	NA
AK012_00697	561			IS1595 family transposase ISSpgl1	ATGGAGTTTGAGGAACTGAATACAAAGCGGTTGTGTCTTGTCGAAATACACGACGGATATATTGATGAGTATTTCGATATCATGTCCAGAGATGAAGTAACCAGGTATATTGGGATGCCTTCTCTTACCCACAGGGACCAGGCTGATGGTATGATTCAGACGTTTAAGGAACAATTTCAGTCTGAAAAGGCTGTACGTTGGGGGATCGTGCTTAGAGAAAACGAAGCGTTTATCGGTACGGTGGGGTTTCATCATTTAACTCTTTGGGGGAGAAAAGCTGAAATAGGGTATGAACTTCATCCCGATTTTTGGAAAAGAGGACTGATCACCGAATCTGTTTCCCGCGTTCTCGCTTATGCTTTTGAAACTTTGGGATTGTTCCGGGTGGGAGCCGTTACCTTCCCGGCAAATATCCCTTCCTACCATGTGCTGGAAAATACAGGGTTTAAAAGGGAAGGCCTATTAAGAGGCTACTTGTTCCAAAATGGGGAAAACCACGATGCTTATATGTATTCCATACTGCGCACTGAATTCAATAAACATCACAACAGGGATGTGTAA	MEFEELNTKRLCLVEIHDGYIDEYFDIMSRDEVTRYIGMPSLTHRDQADGMIQTFKEQFQSEKAVRWGIVLRENEAFIGTVGFHHLTLWGRKAEIGYELHPDFWKRGLITESVSRVLAYAFETLGLFRVGAVTFPANIPSYHVLENTGFKREGLLRGYLFQNGENHDAYMYSILRTEFNKHHNRDV				NA	NA	NA	NA	NA
AK012_00698	258			hypothetical protein	ATGCACGTGAATCATTTATTTTCCTATCTATTTTCAAGTAAAAAAACATTGTTGTACACCACATTCCTGAGGAAAGATTATTTCAGGGCGGCTGCCGTGCTTACTCAATCAGGGGTGGATTATAGAACGGCTGTTATTCATCATAAGCCTGTCATCCGGGAAGTACCTGGTTCAGACGGCTTGACGAGTGAATACCGTTTTTATGTACGTAAAAACGATTATCACCAGGCAGACAGCATGGTTTCCTCTCAAATATAA	MHVNHLFSYLFSSKKTLLYTTFLRKDYFRAAAVLTQSGVDYRTAVIHHKPVIREVPGSDGLTSEYRFYVRKNDYHQADSMVSSQI				NA	NA	NA	NA	NA
AK012_00699	396	spo0M_1	COG4326	Sporulation-control protein spo0M	ATGCTTGCCAAACTATTCAGCTGGGTTAAAACCGGCTTTCCTAAAGTGGACCTGGTCTTATCAGGACACCAATTTAAACCTGGAGATTCAGTTAGAGGCTCGTTTCACGTCAAAGGGGGACTTACCCATCAGACGATTCAACGTCTGGAGTGCGACTTATTTAAAAGGGAGACGGGAAGAAAACCGGCTTTCATTCAACCCATTACGACAATCTTGATGAATAGAGAACTCGATTCCAACGAGGAAACCCAATACCCTTTCCATTTCGTACTGCCTGAAGACATGGATCAGACTTCCGCTGATATCTCCTACGTTCTTCAAACGAAACTGGTATTGGGAAATAACCGGAAAACGTCGGACTCCGATGAAATCCAGATCACTCTCCTCCCTCACTAA	MLAKLFSWVKTGFPKVDLVLSGHQFKPGDSVRGSFHVKGGLTHQTIQRLECDLFKRETGRKPAFIQPITTILMNRELDSNEETQYPFHFVLPEDMDQTSADISYVLQTKLVLGNNRKTSDSDEIQITLLPH	PGPT0024630_784	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_0_SPORULATION,PGPT0024630-spo0M-K06377	NA	NA
AK012_00700	1140	ftsW_2	COG0772	putative peptidoglycan glycosyltransferase FtsW	ATGATAGTCAGAATATTAAAGAACATCGATTTTTCAATCCTTTTCGCCGTCCTGGCACTTTCCGCCTTTGGTACTGTCATGGTATACAGCGCGAGTATGGTCAGCAGTGTCATGGTGTATGACGTAACCCCCGGATACTTTTTTGAAAAACAGCTGCTTTCCTGGGGACTGGGAATCGGAGCTTTATTTTTCGGGATCATCTTTCCGTATAGAAATTACCGCCGTTTATTTAAGCTCATTTTACTGGTGACCGTCATTCTATTGGGGATGGTTTTCATCATTGGACAAACGACGAACAACGCTCAGTCCTGGATCAGTCTTCCTTTGATCGGACGTTTTCAGCCGGCTGAACTCGCTAAAATGTCGCTGATCATCTACCTGGCTGCTATCTACACGAAAAAAAGCAGCTACATCCAGGACTTTACGCGTGGTCTGCTTCCACCCATGATCATTACAATGCTGGTGGTGGCCATGATCTTAAAACAGCCGGATCTTGGAACGGCTGTAATCGCCCTGGCTGTCTCAGGTTTGATTATCATGTCCAGCGGCTTGAAGAAATCCCATTTGTTCTTTATGCTGGGGCTCGTTCTAGTTGCAGCGGTTACGATGTATCAATTCGGATTGAGTGAAGAACAGCTTTCGCGTTTTGACGGTGCGTACCAGCCCTTTGAATATGCGGATGATGCCGGATATCAACTGATTAATTCCTATCTTGCCATACATAATGGCGGCATCATTGGTACAGGCCTGGGCGCGGGAGTTCAGAAGCTCGGCTATCTGCCCGAGGCACATACCGACTTTATCATGGCTGTGATTGCCGAGGAGCTGGGGATTATCGGGGTGGCGGTTGTTATTGGACTGCTTGCCCTTATCGTTCTTCGCGGTTTTTATGTCAGCATGAACAGTCACGATACCTTCGGTCGGCTTCTTTCTATTGGAGTGTCCGGACTGATCGGTATTCAAGCCGTCATCAACTTAGGAGGGTTAACAGGCTTGATTCCTCTGACAGGGGTCCCGCTTCCTTTTGTCAGCTTTGGTGGGACGTCCCTGTTAATGATGATGTTTTCTGCAGGCATATTAATTAACATTCACGCGATTTCCAAAATCAAAAAGAATCAGGAAGAAAGAGCTGCCGCATAA	MIVRILKNIDFSILFAVLALSAFGTVMVYSASMVSSVMVYDVTPGYFFEKQLLSWGLGIGALFFGIIFPYRNYRRLFKLILLVTVILLGMVFIIGQTTNNAQSWISLPLIGRFQPAELAKMSLIIYLAAIYTKKSSYIQDFTRGLLPPMIITMLVVAMILKQPDLGTAVIALAVSGLIIMSSGLKKSHLFFMLGLVLVAAVTMYQFGLSEEQLSRFDGAYQPFEYADDAGYQLINSYLAIHNGGIIGTGLGAGVQKLGYLPEAHTDFIMAVIAEELGIIGVAVVIGLLALIVLRGFYVSMNSHDTFGRLLSIGVSGLIGIQAVINLGGLTGLIPLTGVPLPFVSFGGTSLLMMMFSAGILINIHAISKIKKNQEERAAA	PGPT0014810_4135	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014810-ftsW|spoVE-K03588	NA	NA
AK012_00701	372	crcB_1		Putative fluoride ion transporter CrcB	ATGATCTATCTTTATGTCGGTACTGGTGGGTTTATCGGGGCATCCCTCAGGTACTTGATTGGACTTATTTTTGTAAATACCGGCGGCGGGTTTCCATATTCAACCCTTTTCGTCAACCTGTCAGGAAGCTTTCTTCTTGCATGGGTGACAGCCGGACTGATCAGCAGATATCAGCTGTCTGCAAAGTGGAAAGCTTTTCTGGGTACCGGCCTGATCGGTTCTTATACGACGTTCTCCACTCTGACAGCGGATGCGTTTTCGCTCTATCAACAGAACAGTGAACTAGAGAGCCTCCTTTACATAGGAATGAGCATCGGGGGCGGGTTTCTATGTTCTTCCCTTGGATTCCGCCTGACGGGAAGGAAGGCCTGA	MIYLYVGTGGFIGASLRYLIGLIFVNTGGGFPYSTLFVNLSGSFLLAWVTAGLISRYQLSAKWKAFLGTGLIGSYTTFSTLTADAFSLYQQNSELESLLYIGMSIGGGFLCSSLGFRLTGRKA	PGPT0004985_3362	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
AK012_00702	369	crcB_2		Putative fluoride ion transporter CrcB	ATGACGATGCTGTTTCTTCTCCTTGCAGGTGCCGGCGGCTTTATAGGGGCTGTCCTGCGCTACACCATCAGCGGCTGGATCAATAAAAAAACGGCCTCTTCTTTTCCATGGGCTACGTTCACTGTTAATATGACCGGCTCCTTCCTACTTGGTACAATATCCGGGCTCGACGTGGCAGATGCATGGATGACACTAATCGGAACAGGGATTATGGGAGGATTGACGACATTTTCCACATTCAAGCTGGAAGGCCTGCACCTGCACAAAAACAAAGAAAAGAAAACCCTCGCTGTCTATACGATCATGAGCTATACCGTGGGCATCACCTTGTATATCACCGGCTATGCTTTCCCCATGCTTTTTTCATGA	MTMLFLLLAGAGGFIGAVLRYTISGWINKKTASSFPWATFTVNMTGSFLLGTISGLDVADAWMTLIGTGIMGGLTTFSTFKLEGLHLHKNKEKKTLAVYTIMSYTVGITLYITGYAFPMLFS	PGPT0004985_5252	DIRECT EFFECT	BIO-REMEDIATION	FLUORIDE_DETOXIFICATION	FLUORIDE_RESISTANCE	FLUORIDE_RESISTANCE-FLUORIDE_TRANSPORT,PGPT0004985-crcB-K06199	NA	NA
AK012_00703	861			hypothetical protein	ATGTGTCTATATGATAAAGCCGTGAAGATGGCGGCCTGCTATCAGGAAAACCAAAAAGTTGACGCTGTTATTTTAGCAGGATCTGTTTCCAGAAAAGTGGATGATCACCACTCTGACGTTGAACTGCATGTGTTATGGAAGGAACCTCCGAATGATAAGGACCGGATGGATCCAGTGAATAAGAGCAAGAACACATTACACACCTTCTACCCATATGAAGATGGAGAATGGTCTGAAACGTATCATGATAAAAATGGGGTGAAATTTGAAATCAGCAGTTTTTTAACCACTACCATTACAGAGGTGACAGCTGATGTGAAGGAGAAGCTGGATACGAGCTATGACAAGCAGTGCCTCCTTGCGGCCATCCAGGATGGTGAGGCTTTATTTGGTCATCCATTGGTGGGCCGGTTGAAGCAGGATCTGGCTGTATACCCGCATGCATTAGCTGAGAAAATGATTCTTGAACATATGGACTTTGGAAGTCCGTGGAATAGTCGTAAGGCTCTTTTAGAGAGGGAAGACTGGCTGATGTATTATTCTGTCATCTGTCAGGTCCATAGACATCTTTTCGGTATCCTTCATGGATTGAACCGGTTGTATGTCAAGCATCCTTCCTTCAAATGGATGAGTGATACACTACAGCAGATGCCCGCCGCTCCAGACCAGATGGCTGAACGAGTGACTCATGTATTTCAAGGAACTCCCGTACAAGCTCTGCAGGAAACGGAAAAACTGGTGGAAGAAGTCGTCCGGCTCGTTGAAGCCTGGGGTTTTAAAAATGCCCCGGCGGCAGGGGAAGGACCATCCGCCGAGGGCAGCATTTTTTATCATCATGAAAAAAGCATGGGGAAAGCATAG	MCLYDKAVKMAACYQENQKVDAVILAGSVSRKVDDHHSDVELHVLWKEPPNDKDRMDPVNKSKNTLHTFYPYEDGEWSETYHDKNGVKFEISSFLTTTITEVTADVKEKLDTSYDKQCLLAAIQDGEALFGHPLVGRLKQDLAVYPHALAEKMILEHMDFGSPWNSRKALLEREDWLMYYSVICQVHRHLFGILHGLNRLYVKHPSFKWMSDTLQQMPAAPDQMAERVTHVFQGTPVQALQETEKLVEEVVRLVEAWGFKNAPAAGEGPSAEGSIFYHHEKSMGKA				NA	NA	NA	NA	NA
AK012_00704	843	yodP		N-acetyltransferase YodP	ATGTCTAAGGTGGATCTTTCAGTTCAAACGCTTTTGGAAAACGATGATGTTCATTTGGAACCTGTAAATAAGCGGATCAAAGTGTATCAGCTTCCAGACCGGGTGACAGAGGAAGAAATGGAGGAACTCTCTCAAACGGCACTGGAAAACGACTGCGATAAAATCATTTTCTACGTGCGGGCGAATCAAAAAGAAACATCGATCGCAGAGGAACTTTCCTTTATATATGAAGGTGAAATCCGGGGGTTTTTTCAAGGAGAGGACGCGCTGATTTATGCCAGGTATTTGAATCCTGCCAGGAGCAGAGCTGGTACCGGTAATGTAATTCCACGTTTGAAGGAACTCAATATCGCGGAGCAGACAGGGGACAAGCCTCTGCCGGAAGGGTATGACATCCGCTGGGCGGACGAACAGGATGCAGATGAAATGGCCGCCCTTTACCGGGAGGTTTTTCCGAAATATCCAACACCTATTCACGACCCGGGCTATATAAGGCAGTTGATGAGAGAACACGTGTATTTTTCTCTCATCCATGATGGGAAACAGCTGGTCAGCTCCTGTTCCGCTGATCTGTTTCCTGAGTTCAATGCAGCGGAATTTACAGATTGTGCAACCCTTCCTTCTCATAGAGGTAAGGGGCTCTTATCCTGTCAGTACCCTCAGCTGGAAGGGAAGATGAAACAGCTTGGGGTACAGACGATGTTCTCCTATACCCGGGCAGCTTCCATGGGAATGAACATCATAGCAAAACAGCAGGGGTTCACCTTCGGTGGGTGTATGATTCAAAACAGCATGATTGGCAGCGGACTTGAAGATATGAACATATGGTTTAAAGCTTTATAA	MSKVDLSVQTLLENDDVHLEPVNKRIKVYQLPDRVTEEEMEELSQTALENDCDKIIFYVRANQKETSIAEELSFIYEGEIRGFFQGEDALIYARYLNPARSRAGTGNVIPRLKELNIAEQTGDKPLPEGYDIRWADEQDADEMAALYREVFPKYPTPIHDPGYIRQLMREHVYFSLIHDGKQLVSSCSADLFPEFNAAEFTDCATLPSHRGKGLLSCQYPQLEGKMKQLGVQTMFSYTRAASMGMNIIAKQQGFTFGGCMIQNSMIGSGLEDMNIWFKAL				NA	NA	NA	NA	NA
AK012_00705	894			Epimerase family protein	ATGAAAAAAGTCGTTTTGGCCGGAGGAACCGGATTTATTGGTGATTATTTTAAACAGAGATTTGAGGAAATGGGCTGCGACATCCGGATCATCAGCAGACAGTCGGGCTATATTCACTGGGAAGATTTTGATGGGATCGTCGAGGCTTTGGAAGGTGCTGACCTGCTCGTCAACCTGGCGGGAAAGTCTGTCAACTGCCGCTATCATCCCAGGAACCAAAATGAAATTATGGTCTCGCGGGTCATGACGACACATGTGTTAAGTAAGGCTCTCGCCGCATGTGCCCACCCGCCTGAAGTGTGGATGAATTCAAGCACAGCAACCATTTACCGCCATGCGGAAGACCGGCCGATGACAGAGGAGGCCGGGGAAATAGGCAGTGGATTTTCCGTCAATGTTGCTTCCACATGGGAGGACCATTTTTATGCCCATACGATCCCGGGGGTCCGGAAAATCGCCCTTCGGACAGCGATCGTCCTCGGGAAAGAAGGAGGGGTCATGGGGCCTTATAAAAACTTAGTCAAGTTTGGCCTTGGCGGTGTCCAGGGGAGCGGAGATCAGATGTTCAGCTGGATTCATGTGGAGGATTTATTCCGGATTGTGTTGTTCCTGAAAGGCCGCCCGGATTTATCCGGTTCCTTCAACTGCTCAGCACCCGAACCGGTCACGAATGCACAATTCATGGAAATGATGCGTGTACAAATGGGGCGGACCTATGGGCTTTCTGCTTCAAAGTGGATGCTCGAGCTTGGATCTGTGTTCATCCGAACGGAAACCGAACTGGTGTTGAAAAGCCGCTGGGTGGTTCCGGATCGTCTCGAAAAAGCAGGATATTCATTTGAATACCCTGCCATAAATGAAGCACTCTCGGAAATTCTACAAATGTCGTCATAA	MKKVVLAGGTGFIGDYFKQRFEEMGCDIRIISRQSGYIHWEDFDGIVEALEGADLLVNLAGKSVNCRYHPRNQNEIMVSRVMTTHVLSKALAACAHPPEVWMNSSTATIYRHAEDRPMTEEAGEIGSGFSVNVASTWEDHFYAHTIPGVRKIALRTAIVLGKEGGVMGPYKNLVKFGLGGVQGSGDQMFSWIHVEDLFRIVLFLKGRPDLSGSFNCSAPEPVTNAQFMEMMRVQMGRTYGLSASKWMLELGSVFIRTETELVLKSRWVVPDRLEKAGYSFEYPAINEALSEILQMSS	PGPT0014730_1358	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
AK012_00706	297			hypothetical protein	ATGGTATTAAAAGAAATCGAAAATCTGCAGTTCCACAGCCAGTTATCTTTAAAACAGGTTGAAGACAGGCTTCTGATCACAGCTGATTTTTCACCCGGATTGAAAAAAAACCTGCGGATGAAAGAGCCGTTCCTCTATGTCACCCTTTATGTCCGTGGAGGGGCCAGAATAAAGATCATCGATGAAGACAGCGCTGCTCTTCTTATTGCCACAAAAAAAGACTTTGATGAAGACACGTATGAGCGGGTCATTGCTTTTGCAAAATCCCATGCACGTCAATTTAAGGAAAGAACCTGA	MVLKEIENLQFHSQLSLKQVEDRLLITADFSPGLKKNLRMKEPFLYVTLYVRGGARIKIIDEDSAALLIATKKDFDEDTYERVIAFAKSHARQFKERT				NA	NA	NA	NA	NA
AK012_00707	249			hypothetical protein	TTGGCTGTAGAAAAAGCCTGTGTTAACCAGTTTGAGCTCCCATTTCGTCGTGTGAAGGTTACTTTCCGCTTATCGGTGGGTGCCGCGGGCACGCTCTCAGCTGACTCGATTTCAAAGAACTCCCAAGGAGCGGTGCCCCTTCCACTCCTGCGGAAGAACGAGTGGTCCGAGATCGCCGAGCGTGAATTTTGCGAGGAAGCTCGGGCGCTCGTCCGCGGAAAGGGAAGGGGGGTTCGCTCCTGGCGGTAA	MAVEKACVNQFELPFRRVKVTFRLSVGAAGTLSADSISKNSQGAVPLPLLRKNEWSEIAEREFCEEARALVRGKGRGVRSWR				NA	NA	NA	NA	NA
AK012_00708	1155	lysDH		Lysine 6-dehydrogenase	ATGAGAGTGGCTGTATTAGGGTCCGGCCTCATGGGTAAGGAAGCGGCCAGAGACCTCGTTCATAGTCCAGGTGTAACACATGTAGGTCTGGCTGATATCCATCAACAAAGAGCTGAAGCCGTCGTTGAAGCGCTGCATTCTCCAAAGCTTTCCGCTTGTCAGGTGGACGCAGGTAATGAGCAGCAGCTGGAAACCTTTTTGAGGGATTATGATGTTGTCATTAATGCCTTGTTTTATTCGTTTAACGAAATTGTAGCGCGTACAGCCGTAAGAGCGGGTGTTCATTCGGTCGACCTTGGAGGGCATATCGGTCACATCACCGACCGTGTACTTGAGCTGGATGAAGAAGCGAAAAAAGCAGGCGTTACAATCATCCCGGATCTTGGTGTTGCGCCCGGGATGATCAACATCCTATCAGGGTATGGAGCAGGTAAACTGGACAGTTTGAGCGGCATAAAGTTATTTGTCGGGGGAATTCCTGTCCGGCCTGAGCCGCCGCTTGAATATAACCATGTCTTTTCTATGGAAGGGCTGCTGGATCATTACTCTGACCCATCTACAATTATTAGAAAAGGGAAACAGGAAGAAGTGGAGTCCCTGACTGAAATAGAATCGATTTATTTTGACCGTTTCGGCCCGCTTGAGGCTTTTCATACCTCGGGAGGAACATCTACACTGCTTCAATCGTATCCGGACATTGAAACACTGGAGTATAAAACGATCCGCTATCCCGGTCATGCAGCGAAGATGAAGCTGCTCGTCGATCTGAATCTGACAGGAGCCGGCAGTGAAGTGGAGGTGGATGGGAGAAAAGTGAGCACGAGGAAGGTTCTGCTGAAAAGCATCGATCCGCTTCTCGAACTGAAAGAAAAGGACGATGCCGTGCTTCTTCGGGTCCTTGTTGAAGGACGGAAAGCAGAAGTGGACCAATCCTTCTGCTACGAAATGATCACCTATAAAGATAGGGAGGCCAACGTAACAGCGATGGCGAGAGCGACCGCCAATACGATCTCCGTTGCTGCGCAGATGATCGGAAGCGGCAGGATCACGAAACGGGGGGTCTGCCCTCCTGAGCGTATCGTCCCCGGTGATCTTTATATCAGGGAAATGGCCAAACGGGGCGTTGTTATTACAGAAAAGAATCAAAAGGTGTGA	MRVAVLGSGLMGKEAARDLVHSPGVTHVGLADIHQQRAEAVVEALHSPKLSACQVDAGNEQQLETFLRDYDVVINALFYSFNEIVARTAVRAGVHSVDLGGHIGHITDRVLELDEEAKKAGVTIIPDLGVAPGMINILSGYGAGKLDSLSGIKLFVGGIPVRPEPPLEYNHVFSMEGLLDHYSDPSTIIRKGKQEEVESLTEIESIYFDRFGPLEAFHTSGGTSTLLQSYPDIETLEYKTIRYPGHAAKMKLLVDLNLTGAGSEVEVDGRKVSTRKVLLKSIDPLLELKEKDDAVLLRVLVEGRKAEVDQSFCYEMITYKDREANVTAMARATANTISVAAQMIGSGRITKRGVCPPERIVPGDLYIREMAKRGVVITEKNQKV	PGPT0020910_152	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020910-putative_saccharopine_dehydrogenase-K19064	NA	NA
AK012_00709	1506	gucD	COG1012	Alpha-ketoglutaric semialdehyde dehydrogenase	ATGGAAACCACCCAGGTGAAAAAACTGAAAAACTTCATAAATGGAGAGTGGAAGGAGCCTTCCACGGAAAAATCAACGAAGGTTTATAATCCAGCCAACTCGGAAACGCTCGCGGAAGTTCCATTATCAAATGCCGGGGATGTGAAGGCGGCTGCAGCGGCCGCGGTTTCTGCCCAGAAAAAATGGGCACTGGTCCCTGCTCCACAGAGAGCAGAGGTATTATATAAAACTGGAATGATCATGAAAGAGAAAAAAGAGCATCTGGCCCGCCTGTTGACGATGGAAAATGGAAAAGTCATTGAAGAGGCCCGCGGGGAAGTGCAGGAGGGCATTGATATGGCTTTCTATATGGCGGGCGAAGGGCGCCGATTATTTGGACAGACCACCCCATCAGAGCTGAAGGATAAGTTTGCCATGAGTGTCCGTGCTCCTGTAGGTGTGGTCGGTATTATTACACCATGGAACTTCCCCATTGCCATTGCTACATGGAAGTCTTTTCCTGCGATCGTAGCAGGGAATGCCGTCATATGGAAGCCCGCAACGGAAACACCGCTCATGGCTTTTGAACTTGCTGGTATCCTTCACGAAGCTGGTCTTCCGGAAGGAGTGCTCAATGTCGTATTCGGATCGGGCTCAACGGTCGGGGAAGCAATGATTGAGGAGGACGTCATTCGTGTCATTTCCTTTACTGGATCGAATGAAGTCGGAAGGAACATCGCTGGCAAATGTGGCAGCCGCCTGAAGAAAGTATCTCTGGAAATGGGTGGAAAAAATGGTGTGATAGTCATGGACGATGCGGATTTGTCTCTTGCTGCAGAAGGGATTTTGTGGAGTGCGTTCGGCACTAGCGGACAGCGCTGTACCGCCTGCAGCCGTGTCATGGTCCACGAGAACGTCAAAAAAGAACTGGAGGATCGGCTGGTCCAGGCAGCAGCAAAGCTGACGATAGGAAATGGTCTTGATGAATCGATCAAGGTTGGGCCGATCATCAACCGGGGCGGCCTTGAAAAAATACAGAACTACGTAGACATTGGTAAATCGGAAGGGGCGAAACTGCTTACGGGAGGATCTGTGATGGACAAGGGTGCCCTGAAAAACGGCTGTTATTTCGCCCCGACCATTTTCACTGACGTCACTCCCGGGATGAGGATTGCCCGTGAGGAGATTTTCGGCCCGGTTGTATCCCTTATTCCTGTCAAAACCTTTGAAGAAGCCGTTGATATTAACAATCAAGTCGAATTTGGCTTGTCCAGTTCCGTGTTTACCAAAGATGTAAACAAGGTTTTCGCAGCTCAGCGTGATCTCGACACAGGAATCGTTTATATTAATGCCGGAACGACAGGAGCTGAAATTCATCTTCCATTTGGAGGGACCAAAGGGACGGGCAACGGCCACAGAGATTCCGGAGTCGCAGCTCTTGATGTATTTACAGAGTGGAAGGCGGTTTATGTAGATTTCAGTGGACGCCTGCAGCGGGCACAGATTGATGTGGAGGAAGGTTCATAA	METTQVKKLKNFINGEWKEPSTEKSTKVYNPANSETLAEVPLSNAGDVKAAAAAAVSAQKKWALVPAPQRAEVLYKTGMIMKEKKEHLARLLTMENGKVIEEARGEVQEGIDMAFYMAGEGRRLFGQTTPSELKDKFAMSVRAPVGVVGIITPWNFPIAIATWKSFPAIVAGNAVIWKPATETPLMAFELAGILHEAGLPEGVLNVVFGSGSTVGEAMIEEDVIRVISFTGSNEVGRNIAGKCGSRLKKVSLEMGGKNGVIVMDDADLSLAAEGILWSAFGTSGQRCTACSRVMVHENVKKELEDRLVQAAAKLTIGNGLDESIKVGPIINRGGLEKIQNYVDIGKSEGAKLLTGGSVMDKGALKNGCYFAPTIFTDVTPGMRIAREEIFGPVVSLIPVKTFEEAVDINNQVEFGLSSSVFTKDVNKVFAAQRDLDTGIVYINAGTTGAEIHLPFGGTKGTGNGHRDSGVAALDVFTEWKAVYVDFSGRLQRAQIDVEEGS				NA	NA	NA	NA	NA
AK012_00710	1641	ilvB_1	COG0028	Acetolactate synthase large subunit	GTGAGACAAGCATTCATGTCCAGTGCTCAGGCAGTCGTTGAATGTATGAAAATCGAAAACGTCCGCCACGTTTTTTGTGTACCTGGTGAAAGCTTCCTGCCCGTGCTGGACGCCATATCCAGAGAAAGTTCAATGCAGTTGATTTCCGCCAGGCACGAAGGGGGTGCCTCGTTTATGGCGGAAGCGTATGGAAAATCGGCGCCTTCACCGGGAGTAGTGATGGCCACGAGAGGAGTCGGCGCTGCCAATCTTGCTATTGGTGTTCATACCGCTGCTCAGGACTCTACACCTCTGGTTGTTCTTCTCGGACAGGTCCATTCCAGCTTCAAGGGACGGGAAGGGTTTCAGGAAGTGGATTTGGAGGCTTTTTTTAAGCCTATCGCTAAGTGGGTGGCTGAAATCAGAGAACCGCCCCGGACCACGGAGATCATTCAGCGTGCCTTTCGAATCGCGCGGACGGGGCGGCCCGGTCCGGTGGTGGTGTCCATGCCTGAGGATGTGTTGAAAAAAGAAGCCCTTATGACATTCGGCCCCGCTGTTTCTATTCCTGCCCCTGCTCCCTCCAAAGAAGAGGTGGAAGCGGTAAAGGACGTACTTCTGTCCTCTGTCCGTCCCGTAGTAATTGCGGGGGGCGGTGTGAAGCGTGCAGGCGCAGAGGGGGAGCTGGTGTCCTTGGCGGAACAATACAATCTTCCCGTTGTGACAGCTTTCCGCAGACATGACAGTTTCCCCAATGATCACCGGCTTTACGCCGGACACCTCGGGTTAGGAACGGATCAGAACATTTTGGAAACCGTCCGTCAAGCAGATACCATCCTTGCGGTGGGCACCCGCTTATCAGAAGTGACCACCCAGGATTATAAGCTGCTCACTCCGGACCATAAAGTCATTCACATAGATATCGATGAAAAAACGATTGGAAGTGTCCATCCGCCTTTCCTGGGGATTGTAGCTGATGCTCGTCAGGTCCTGAAAAAGCTGCTGGCTGTGGATGTGGCGACGGGCTGGGGAAACTGGGCGGAACGAAGCCGGCAAGGATATGAAAAATCCTTGACCAGTCCAGGATCACAATTGTTGAATGGGCGGATCATCGAGAGCCTGCAGAACAAACTGCCGGAAAACAGTGTCATCACCAATGATGCTGGAAATTTTGCCGGGTGGCTTCATTCTTATTTTGTGTTCCGCCGTCCTCATACGTATGTCGGACCGACTTCCGGTGCAATGGGGTACGGACTTCCGGCTGCCCTGGGAGTGAAACTGGCCTCTCCGGACAAAGTCGTCGTCTCCCTGTCCGGAGACGGAGGATTTATGATGACGATGCAGGAGGTGGAGACCGCTGTCAGGTACCACATACCTGTGATCAGCCTTGTCTTTAACAATCGTATGTACGGGACGATCCGCATGCACCAGGAAATGCATTATCCCTGTCAGATCGCCGGAACAGACCTGGGAGATGTCCGTTTCAGTAAAATGGCGGAGCTTATGGGGGCGGAAGGGTTTTATGTAACAACAGCAGCTGACTTTGAAAGAGTCTTTGAACAGGCTTTGCTGGCGACCGGTCCTGTCGTTATTGAAATTGAATGCGACCCGGAGCAGATTTCTTTGAACCGGACGATTCAAAGCATCCGGGCCGAACAGTAA	MRQAFMSSAQAVVECMKIENVRHVFCVPGESFLPVLDAISRESSMQLISARHEGGASFMAEAYGKSAPSPGVVMATRGVGAANLAIGVHTAAQDSTPLVVLLGQVHSSFKGREGFQEVDLEAFFKPIAKWVAEIREPPRTTEIIQRAFRIARTGRPGPVVVSMPEDVLKKEALMTFGPAVSIPAPAPSKEEVEAVKDVLLSSVRPVVIAGGGVKRAGAEGELVSLAEQYNLPVVTAFRRHDSFPNDHRLYAGHLGLGTDQNILETVRQADTILAVGTRLSEVTTQDYKLLTPDHKVIHIDIDEKTIGSVHPPFLGIVADARQVLKKLLAVDVATGWGNWAERSRQGYEKSLTSPGSQLLNGRIIESLQNKLPENSVITNDAGNFAGWLHSYFVFRRPHTYVGPTSGAMGYGLPAALGVKLASPDKVVVSLSGDGGFMMTMQEVETAVRYHIPVISLVFNNRMYGTIRMHQEMHYPCQIAGTDLGDVRFSKMAELMGAEGFYVTTAADFERVFEQALLATGPVVIEIECDPEQISLNRTIQSIRAEQ	PGPT0008185_9603	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
AK012_00711	1170	dapL	COG0436	LL-diaminopimelate aminotransferase	ATGATTCCACTTTCAAAACAGGTGCAGAGTCTGCCTGCATATCTGTTTTCCCTTTTTCATAAAAAGAAGATGGCTCTTACGGCGCAGGGGATTGATGTGATTGACCTCGGGATTGGAGCTCCTGATCTCGCTACTCCGCCGTTTATTATAGACAAGCTTATCCAGGAAGTCAGAAAGCCGGAAAACCATAAATACCCGCCTTATCAAGGGTGCATGGAATTCAAACAGGCGGTGTCGGATGTTTACCAGCGCCGTTTTCAAGTGCCCCTGGATATGGACAGGGAAATCCTGGCCCTTATTGGTTCCAAGGAGGGAATCGCTCATCTGATCCAGTCCGTACTGGACCCGGGCGACGGCGTACTGGCTCCCGACCCGGGTTATCCGGTTTATCAATCGGCTGTGCATCTGGCTTACGGGGTGACCATTCCATATACCCTGAATCCAGCGGACAATTTTGCTCCTGCGTTTGATCACATTTCAGAACGTGACTGCGCACGGGCAAAACTGATGATTCTAAACTATCCAAACAACCCGACTGGAGGAACGGTGGATCTGGAAACGTATGAAAAGGCTGTCCGGTTTGCGAAGAAGAACCAGCTGATCCTTCTCCAGGACGCCGCATATGATCTTGTGACCTTCGGAGACTATCAATCTCCAAGTCTTCTTCAGGCTCAAGGAGGAAAGGATGTAGGTATTGAATTCGGCTCGTTATCAAAAAGCTTTAACATGGCCGGCTGGAGAATCGGATACGCTGCTGGGAATGAAGAACTCATCCAAGGCCTCGCACTTGTAAAAAGCAACCGGGACACCGGCCAGTTTCCTGCTGTACAAAAAGCCGGAGCGGCCGCTTTAAACAGCAGCTTTGATTCTGTCCTGACCAACAACAGGACGTATGATATGCGCTTCAACATCATTCTTCCTGAACTGAAGGAAATGAATATAATGGCAGAAAAGCCGAGAGGAACCTTTTTCATCTGGGCAAGGGTTCCGGAGGGGTATACGTCGCAGAGCTTTGCTGAAAAAATGCTTGATGAAGCAGGGATCATTCTAACACCAGGAACAGCCTTCGGGCAGCAGGGGGAAGGATATATCCGCATCAGTCTGACCCATCCTGTTGAGCGTCTTCATGAGGCTGTGCTGCGGATGAAAAAGGCGATGAAGGGGGGGTGA	MIPLSKQVQSLPAYLFSLFHKKKMALTAQGIDVIDLGIGAPDLATPPFIIDKLIQEVRKPENHKYPPYQGCMEFKQAVSDVYQRRFQVPLDMDREILALIGSKEGIAHLIQSVLDPGDGVLAPDPGYPVYQSAVHLAYGVTIPYTLNPADNFAPAFDHISERDCARAKLMILNYPNNPTGGTVDLETYEKAVRFAKKNQLILLQDAAYDLVTFGDYQSPSLLQAQGGKDVGIEFGSLSKSFNMAGWRIGYAAGNEELIQGLALVKSNRDTGQFPAVQKAGAAALNSSFDSVLTNNRTYDMRFNIILPELKEMNIMAEKPRGTFFIWARVPEGYTSQSFAEKMLDEAGIILTPGTAFGQQGEGYIRISLTHPVERLHEAVLRMKKAMKGG	PGPT0012760_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012760-bacF-K19549	NA	NA
AK012_00712	1188	uctC		Acetyl-CoA:oxalate CoA-transferase	ATGGAGACAGCCTTGAAAGGCCGGCGGATCCTTGATTTGACCCGGGTGCTTGCAGGGCCCTATTGTTCCATGATCCTTGGAGACCTTGGCGCAGAAGTCATAAAAATAGAGGCCCCAGGCGGCAGTGACGAAACACGCTCCTGGGGGCCTCCATTTAAGAGTGGAGTCAGTTCCTATTTTTTGTGTGCCAACCGGAATAAAAAGAGCTTAACCGTAAATCTCAAGAAGCCGGAAGGCCGGCAGATCATTGAAAAACTCGTCCGGACAAGCGATGTGGTTATTCATAACTTCAAAACAGGGACAATGGAAAAGCTGGGTATCGGATATGACCGTTTAAAGGAAATCCATCCCGGACTCGTCTATTGTTCCATTACCGGATTCGGGGAAACCGGACCGTACCGGGATCGACCAGGGTATGATTTTATTATTCAGGCTATGAGCGGCTTGATGAGTATTACAGGAGACGAGCATTCCGGACCTCAGAAATTCGGAGTGGCTATCACAGATATCCTGACCGGCCTTTATGCCTGCATCGGCATTCAGGCCGCTCTTTTGGAACGTGAGGTGTCTGGAACAGGACAGAAAATTGACTTATCGCTTTTCGATTCCGCTGTCAGCGCCCTCGTGAACATCGGCAGCAATTATTTAATGACCGGCGAGCTCCCATCCAGACTGGGCAGCCGGCATGCCAATATCGTCCCTTACCAATCATTTTCTACGAAGGACGGTGAAATCGTCATTGCTGTCGGAAATGACCGGCAGTTCATGAAATTGGCATCTATGCTAGGCCAGCCTTCGCTGGGGTCGGACCCGAAGTTCAGGACCAACGAAGCAAGAGTGGAAAACAGGAAGGAACTATCAGCTATTCTGCAGAACCTGTTCTTACAGGAAAAAAAATCCTTTTGGGAGGCAGCCTGCCAGAAACAGGAGATCCCGTTCGGCCCTATTCAAACAATGGAGGACGTCCGGAAGGATCCGCAATTAAAGGACAGAGAGATGTTTATCCCCATGCAGCATCCTAAAGCTGGTGATACAGCCATCATCGGAAGTCCATTGAAACTTTCGAAAACTCCCGTGTCCTACCGCTCGTCTCCACCTGAACCAGGTGCAGATAGTGCGTCCATTCTTTCAGAAATCGGCTATGACGAGGATGAGATCCAACAGCTGAAACAGGGAGAAATTATATAA	METALKGRRILDLTRVLAGPYCSMILGDLGAEVIKIEAPGGSDETRSWGPPFKSGVSSYFLCANRNKKSLTVNLKKPEGRQIIEKLVRTSDVVIHNFKTGTMEKLGIGYDRLKEIHPGLVYCSITGFGETGPYRDRPGYDFIIQAMSGLMSITGDEHSGPQKFGVAITDILTGLYACIGIQAALLEREVSGTGQKIDLSLFDSAVSALVNIGSNYLMTGELPSRLGSRHANIVPYQSFSTKDGEIVIAVGNDRQFMKLASMLGQPSLGSDPKFRTNEARVENRKELSAILQNLFLQEKKSFWEAACQKQEIPFGPIQTMEDVRKDPQLKDREMFIPMQHPKAGDTAIIGSPLKLSKTPVSYRSSPPEPGADSASILSEIGYDEDEIQQLKQGEII	PGPT0002130_668	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-ENVIRONMENTAL_QSR|BF_SIGNALLING	CE-QSR|BF-ACIDIC_STRESS_SIGNALLING,PGPT0002130-frc|yfdW-K07749	NA	NA
AK012_00713	1188	acdA_1	COG1960	Acyl-CoA dehydrogenase	ATGAACTTTTCGTTTACACAGGAACAGGACATGCTTCGCAAAACGGTCCGTACGTTCGTTGATCAGGAAATTATGCCGAACATCAGACAATGGGATATCTCTGGTCATTTTGATCTTGGTGTCCTTCGGAAGCTGGCCGGCCTCGGTCTGATGGGGGTCTGCATTCCTGAAGCTTATGGCGGAAGCGGGATGGATTACAATGCCCTGGCGATTGTGTGTGAGGAACTGGAGCGTGGCGATACGGCTTTCCGGACAGCGGTATCTGTACACACCGGGTTGAACTGTATGACGCTTCTCCAATGGGCCTCTGAAGAGCAGAAACAGCGGTACCTCATCCCCCAGGCCCGGGGGGAAAAAGTGGGCGCCTTTGGACTAACTGAACCCGGAGCCGGATCTGATGTAGCCGCCATTCAGACAACGGCAGCCAAAGATGGGAACGAATATGTATTAAATGGACAGAAAACGTGGATTTCCCTTTGTGATGCGGCCGATCATTTTCTCGTCTTTGCCTATACAGATAAAAGCAAGAAACACCAAGGCATATCCGCCTTTATCGTCGAACGGACATATCCAGGCTTTTCATCGAAAGCTCAAAAAGGGAAGCTCGGCATACGAGCCGGAAACACAGGGGAATTGTTCTTTGAAGATGTGCGCATTCCGGCAGATAACCTTGTCGGGCAGGAAGGCGACGGGTTTAAGATAGCCATGTCCGCACTCGATAATGGGCGGTTTACTGTGGCGGCGGGAGCCTGCGGGCAGATTATGGCCTGCCTGGAAGCAAGTGTGGATTACTGCCGCGAACGGAAAACGTTTGGAGTGGAAATCGGCAGACATCAGCTCGTCCAGCAGATGATCGCCCATATGGAGGCGGGGCTGCAGATGAGCCGCCTCCTCGTCTATAGAGCAGGAGAATTGAAAAACGAAGGAAAAAGAAATACAAGAGAGACCTCGCTGGCTAAATGGCAGGCGTGCGATTTTGCCAACAAGGCTGCTGATGATGCTGTGCAGATCCACGGGGCTTACGGCTACTCTGATGAATATCCGGTAGAGCGGTACCTGCGCAATTCCAAAGCCCCTGTCATCTATGAAGGTACGAGGGAAATTCATACGATCATGCAGGCTGAATATGTCCTTGGCTACCGCACAGATAAACCACTAAACCGTATGCTCCCTGCGTGGAAATCTTAA	MNFSFTQEQDMLRKTVRTFVDQEIMPNIRQWDISGHFDLGVLRKLAGLGLMGVCIPEAYGGSGMDYNALAIVCEELERGDTAFRTAVSVHTGLNCMTLLQWASEEQKQRYLIPQARGEKVGAFGLTEPGAGSDVAAIQTTAAKDGNEYVLNGQKTWISLCDAADHFLVFAYTDKSKKHQGISAFIVERTYPGFSSKAQKGKLGIRAGNTGELFFEDVRIPADNLVGQEGDGFKIAMSALDNGRFTVAAGACGQIMACLEASVDYCRERKTFGVEIGRHQLVQQMIAHMEAGLQMSRLLVYRAGELKNEGKRNTRETSLAKWQACDFANKAADDAVQIHGAYGYSDEYPVERYLRNSKAPVIYEGTREIHTIMQAEYVLGYRTDKPLNRMLPAWKS	PGPT0005290_107	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_BENZOATE_UTILIZATION,PGPT0005290-acd-K16173	NA	NA
AK012_00714	981	uvsE_1		UV DNA damage endonuclease	TTGGTGATGGTTATGACGTTATTCCGACTGGGCTATGTGGCGATGAGTGTTCATCTGAAGAATGCTTCTCCTTCTCAAACCATAACGTATCAACGGTTTGCCCGGATGAGAGATCAGGACGCTGCCAAAAGAAAGCTGGAGCGGACCGCTTCTGCCAATTTGCAGAACTGCCTCAGACTTCTGAAGCATAACAAAGCCCATGATATCCAGTTTTTCCGATTGAGTTCACGTCTCGTTCCATTGGCGACACATGAAGCGTTAAGAGGGTGGGATTACCTTGGACCGATTAAGCAGGATTTAAAGGAGCTTGGAGAGTACGCCGGAGAAAATGAAATGCGGCTTGATTTCCACCCTGATCATTTTGTGGTGCTGAATTCCCCTGATCAAGAGGTTTTCAAGTCTGCTGTAACGGTGTTGAAGTACCATTATCTCCTTCTGCACCATATGGGGATCGATCCGACGCATCGATGTGTCTTTCATCTTGGCGGGCGGTACGAGGATAAAGAAGCATCCTTGGAGCGTTTTATAGAAAACTGGGCTCTTGTACCGAAGGGGATTCAGAAGATGGTGATGATTGAAAATGATGATACTTCCTACACGCTGAGCGATTGTCTTTATGTATGCGAGAAACTTCAAATCCCGCTCGTATTTGATCTTCATCACCACTTGGCAAACCATGACCATGGGGAGTGGGTGGAGGATTGGAGCCGTGTCATCCGGACGTGGGATCATTCCCTGCTCCCTGTGAAAATGCATATATCCAGTCCGAAGAGTCCGGAAGCATTCAAGAATCATGCGGATTTTGTTGATCCTGAAATGTTTTTGGAGTTCATTGAGAAGACCGCCGGTACAACAGGTCAGATTGATTGTATGATTGAGGCGAAGCAGAAAGATGAAGCCCTTTTTCAACTCGCCGGAGAGCTTCGGAAACACCCCTGTATTGAAATGAAAAGTGAGAGCAGTTTTGAGTGGAAGGGGTGA	MVMVMTLFRLGYVAMSVHLKNASPSQTITYQRFARMRDQDAAKRKLERTASANLQNCLRLLKHNKAHDIQFFRLSSRLVPLATHEALRGWDYLGPIKQDLKELGEYAGENEMRLDFHPDHFVVLNSPDQEVFKSAVTVLKYHYLLLHHMGIDPTHRCVFHLGGRYEDKEASLERFIENWALVPKGIQKMVMIENDDTSYTLSDCLYVCEKLQIPLVFDLHHHLANHDHGEWVEDWSRVIRTWDHSLLPVKMHISSPKSPEAFKNHADFVDPEMFLEFIEKTAGTTGQIDCMIEAKQKDEALFQLAGELRKHPCIEMKSESSFEWKG				NA	NA	NA	NA	NA
AK012_00715	297			hypothetical protein	ATGAGTATTTCCATGATACTAACCTTGTTTGGATTGTTCCTGGTAGGAAGTGCTCTTGTATGTACGGGTCTTGGATGTTATTTCACGAAGAGAACCGATGTAACCACTGGATACCTGGCTGTGCTTCTTCCCAGCGTCGTCCTCGTTACCCTGACCGTGAAATGGTTCATTTTAAAAGCAGTTCCCATGAGTGTAAGTATGTTCACGTGGGTGATGCCCATCACGCTTGCTCTCGTTTTTTATCCTCTATTCCTCAGTATGAGCTGGGTGCTGTTAAAACGGATGGACCATGCATAA	MSISMILTLFGLFLVGSALVCTGLGCYFTKRTDVTTGYLAVLLPSVVLVTLTVKWFILKAVPMSVSMFTWVMPITLALVFYPLFLSMSWVLLKRMDHA				NA	NA	NA	NA	NA
AK012_00716	300	yflH_2		putative protein YflH	ATGAAAGATCCAAAAGAACAAGCAGCACAGATGAATGAAGAGAAGAAAGACGAGATTATGAACAACTTCCAGACGTTTAAGGACTATCTTGGAGACAAAGTCCATAAAGGTGAAAAACTGGGTCTTGGTGAAGAAGGTCTGGCTAAAGGCGCTAAGCGTGTAGCAGACTACCTGGCCGAACATGAAGAACCGAGAAACCGGGAAGAAAAAGTTCTGAATGAACTATGGAGCGCAGCAGACAAAAATGAGCGTGAGCATATTGCCCACGCCCTCGTAAAAATGGCTGATCAAACCAATTAA	MKDPKEQAAQMNEEKKDEIMNNFQTFKDYLGDKVHKGEKLGLGEEGLAKGAKRVADYLAEHEEPRNREEKVLNELWSAADKNEREHIAHALVKMADQTN	PGPT0003182_421	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_METABOLISM,PGPT0003182-ymfJ|yflH-NA	NA	NA
AK012_00717	714			hypothetical protein	ATGAAAGATAGCATGTTTATTCCTTTTGACGATTCGTTTGATTTAGTGATCAGCACTGACAATGCAGCGAATATCGGTGAGAAGGCCGGGGATTACATCCAAGCCCCCTATCCGTTGGTAGCTGAATCTATGTTCAGAGTGGCCTTTATGGAAAACTACGCTGCAGGAGCGGAGCCGTTGGCCATCTTTCTCCATAATTTCTCGGGGGATGACGTCTGGGAACCGTGTGTAAGCCGAATCCACGACAATATCGATCGTCTGGATCTTTCTCTGGCTGTCACAGGAAGCACAGAATCCAACTTCCCTTTACAGCAGTCGGCAATGGCTCTTACAATCGCAGGGAAAATCCATCGGGCAGATAAAATGACAGGCTGTACGCCGGAGCATGCAGCGTTTGCTGTTATCGGTGAACCGCTTGTAGGGACAGAAGTAATGGGTGACCAGGATCGGATGGCCCCCTTGTCCTTATTCAAGGAACTGGCCGATCACCCGGCCGTGTTCGAAACACGGCCTGTCGGCTCTAAAGGTATTTTGTACGAGTTAAAGGAAATGCTGTCCATGAATGGACGGACAGGGGCTGTTGATCCGTGTTGTCCACTGGATCTAAATAAATCTGGTGGTCCTTCCACCTGTTTTATCATCAGCTATGAAAAAGAACAGGAAGCCGCGCTCCGGACAGCGGCAGGGGCACTGTTCCATCCTCTGGTTCCATGA	MKDSMFIPFDDSFDLVISTDNAANIGEKAGDYIQAPYPLVAESMFRVAFMENYAAGAEPLAIFLHNFSGDDVWEPCVSRIHDNIDRLDLSLAVTGSTESNFPLQQSAMALTIAGKIHRADKMTGCTPEHAAFAVIGEPLVGTEVMGDQDRMAPLSLFKELADHPAVFETRPVGSKGILYELKEMLSMNGRTGAVDPCCPLDLNKSGGPSTCFIISYEKEQEAALRTAAGALFHPLVP				NA	NA	NA	NA	NA
AK012_00718	486			hypothetical protein	GTGAGGAAATTGGTATGGACAGCGCTGTTCATATCCTTATCGGCCGTTGGCGGATTGTTGAAAATCCCAGTCGGGCTTGGAAGCGTCGGCCTTGATTCTATGCCCGCGCTTACGGCCTCCATCCTGCTCGGCCCGGTCAGCGGTGCAGCAGCCGGAGGGCTTGGTCATCTGCTTTCTGCCTTAACTGGAGGCTTTCCACTCGGTCCTTTTCACCTGTTCATCGCATTGGAAATGGCGGTTCTTCTTTTTTTATTTCCCTTTATCTACTATAGAAACCAGTGGACAGGGTATCTGTTTTTCATTATTTTCAATAGTCTTGTTCTGCCGTTTCCGTTCTTTTTCATAATGGATCATGCGTTTTACTGGACCCTTGTGCCGCCGCTCGCAGCAGGAGCTGTCATCAATGTGGTCGTGTTCCGGCTTGTCCTGCCGAAATTAATAAAGGCTGTCACATGGGAAAGGGGTGTGGAAATCAATGAAAGATAG	MRKLVWTALFISLSAVGGLLKIPVGLGSVGLDSMPALTASILLGPVSGAAAGGLGHLLSALTGGFPLGPFHLFIALEMAVLLFLFPFIYYRNQWTGYLFFIIFNSLVLPFPFFFIMDHAFYWTLVPPLAAGAVINVVVFRLVLPKLIKAVTWERGVEINER				NA	NA	NA	NA	NA
AK012_00719	591	yvqK_1	COG2096	Corrinoid adenosyltransferase	ATGAGGCTGTATACTAAATCTGGTGATAAAGGACAAACGAGCGTCATTGGAGGACGGGTGGATAAGGATGACATCCGTGTAGAAGCATATGGAACCGTTGATGAGGCGAACAGTTTTGTAGGAAAGGCCAGGACGGAATTGGATCCTTCCATCCATGCATTGAAGCAGGTGGACGAAGAACTGGAACGCATCCAACATGAATTGTTCGACTGCGGCGGTGATCTGGCTAATAAAAAAGCCGGCCATCCGTTTAAACTAGAGGAAACGAGCGTGAACTGGCTGGAAGACCGCATGGACGAATATATTGCAGCGACGCCAGAGCTGAAACGATTCATTCTGCCTGGAGGAGCGCCGGCTTCCGGTACGCTTCATATAGCACGGACGATTACGAGAAGAGCAGAAAGGAATGTTGTTTCTCTTGCAAAAGTCGAAGACGTTCATGACGTTTGTCTCCGCTATCTGAACCGACTCTCGGATTATTTCTTTGCGGTCAGCCGCTATATCAACTTCGTTAGTGGAGAGAAGGATGTAGAGTATATTCGAAGTGCAGAAGTTTTTAAGGGTCGTCCCCGGAAGTCTAAAGAAAAGTGA	MRLYTKSGDKGQTSVIGGRVDKDDIRVEAYGTVDEANSFVGKARTELDPSIHALKQVDEELERIQHELFDCGGDLANKKAGHPFKLEETSVNWLEDRMDEYIAATPELKRFILPGGAPASGTLHIARTITRRAERNVVSLAKVEDVHDVCLRYLNRLSDYFFAVSRYINFVSGEKDVEYIRSAEVFKGRPRKSKEK				NA	NA	NA	NA	NA
AK012_00720	348			hypothetical protein	GTGGAAGAAAAATGGATCGACCGTCACCAGGAATACACGTGGATCAATGTGAAAACACAGGAGGCGGTAATACCGGACACGAATCAGCTTGTTCTTGAAAACATTGAATTCATCTCCAAAGAGACCGAAGAAGGGTGGGCCTGGCTGGAACCGTTCATTACGTGGGAAAACCAGGACCCTCAGCGCCGTCTGCTCTTGATTGGAACAGACATGACAAAAGGCATGGTTCCATTAGAAAAATCGGACAGAATATGGCGCGACCGTACAGGGTTCCTCTACCAAATGGTCATGGAAGAGGCTGAGCATGCGTATGTCGTCTGGTTCGGTATTGCAGAACAATTGAAATAA	MEEKWIDRHQEYTWINVKTQEAVIPDTNQLVLENIEFISKETEEGWAWLEPFITWENQDPQRRLLLIGTDMTKGMVPLEKSDRIWRDRTGFLYQMVMEEAEHAYVVWFGIAEQLK	PGPT0004585_2458	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
AK012_00721	660	gpmA_1		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	GTGGATCGTATGGTGGATATCTATTTTATTCGTCACGGCTTAACAGAAGGGAACAGGCAGAAGCAGTACATCGGCTGGAGTGATCTTCCGCTCCTGGAAGAGGGAAGAGAGAAACTCGTAAAAATCAAAGACCAGCTTCCTGCGGCAGATTTGATTTACAGCAGTGACCTGATCCGTTGTGTGGAAACGGCGGAGCTTTTGTTTCCCGGGCGCCGCTTTGGGAGGTCCTCATCCCTGAGGGAAATCCATTTCGGGGACTGGGAAAAGTGTACATATGAGGATTTAAAGGATGTGGATGCCTACCGGGCGTGGATCTCCCGTCCCGATCATCATACACCACCGAATGGTGAACGTTATGCCCATGTCCAAAGGAGGGTGGAGCGCTTTCTGCTGCATCTCCTGAGAACGGTCACAAAACAGCCGGTGCAATCGGCCGCCGTCATTACACACGGGGGGCCGCTCAGGGAAATGGTCAGCTGGATAACAGGCACACCCCTCTGGACCTACCCGGTGCACCCTGGTGAGGGGGTCAAGGTCAAACTGAAGAGAGCAGGAGGGATGTCATGGAATTTGTTACAGGTGGCGCCTATAACGGCAAGGGAAAATGGGTGGAAGAAAAATGGATCGACCGTCACCAGGAATACACGTGGATCAATGTGA	MDRMVDIYFIRHGLTEGNRQKQYIGWSDLPLLEEGREKLVKIKDQLPAADLIYSSDLIRCVETAELLFPGRRFGRSSSLREIHFGDWEKCTYEDLKDVDAYRAWISRPDHHTPPNGERYAHVQRRVERFLLHLLRTVTKQPVQSAAVITHGGPLREMVSWITGTPLWTYPVHPGEGVKVKLKRAGGMSWNLLQVAPITARENGWKKNGSTVTRNTRGSM	PGPT0004650_500	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
AK012_00722	795	cobS	COG0368	Adenosylcobinamide-GDP ribazoletransferase	ATGAAGGCGTGGATCCAAGGGGTCCTGCTGGCCTTTCAATTCTTTTCCGTTTTACCTGTCCGGCGGACGCTTCCGATGGAGCATACACAGCTGAAGGGAGCTATGGTAAGTCTTCCCTGGGTGGGCCTTACAGCCGGAGGGGGCGCGTTGTCCGCTGCTTTCCTGCTGGATGTGTATACGCCTATGTCTGATGGAGGTATTGCGCTTGCGGCTATGATTATAAGCAGTGTGTTGACAGGGGGGATCCATCTGGATGGGTGGATGGATACTGGAGATGCTTATTTTTCCTACCAGTCCATCGTAAAACGACTCGAGATTATGAGTGATCCGCGGACGGGTGCCTTTGGAGTTCTGTCTGTCCTTCTTCTCCTTGCGGTCCGCTTTTTGTTTTTACAGGAAACCCTGCACATTTCCTTTGCGGCGTTTGCGTCCGGGCTGCTTGTCATCCCATGGTTCAGCAGAAATATTCTTCTCTATCATTTTGCGTGGACGCCCCCTGCCAAACAGGAAGGATTGTGTGTATGGTTTCAATCCGCTTATGAAAAGAAGCTGTTGATCATCAGTTTCCTGCAGAACTTTATTCTCATCACCTTTTTCATGGTTGGTTACCATTCCCTCTGGATTCCGGTCATTCTGGCCTTTTTATCCACCCTTGTGCTGTATGGGTGGATGCGGCGTTTGTCCATCCAGTCGTTCGGAGGAATCACGGGTGATGTTTTAGGTGCAGCTGTAGAAGGAGGGGAAACACTGCTGTGGATCGTATGGTGGATATCTATTTTATTCGTCACGGCTTAA	MKAWIQGVLLAFQFFSVLPVRRTLPMEHTQLKGAMVSLPWVGLTAGGGALSAAFLLDVYTPMSDGGIALAAMIISSVLTGGIHLDGWMDTGDAYFSYQSIVKRLEIMSDPRTGAFGVLSVLLLLAVRFLFLQETLHISFAAFASGLLVIPWFSRNILLYHFAWTPPAKQEGLCVWFQSAYEKKLLIISFLQNFILITFFMVGYHSLWIPVILAFLSTLVLYGWMRRLSIQSFGGITGDVLGAAVEGGETLLWIVWWISILFVTA	PGPT0004590_620	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
AK012_00723	1470	cobQ		Cobyric acid synthase	ATGAAGGGACTTATGATTCAAGGTACGGCGTCGAATGTAAGGAAAAGCTTCATTGTGACGGCCATCTGCCGTTGGCTTTCCAATCAAGGATACCGGGTGGCCCCGTTCAAGTCACAGAACATGTCGAATAATTCCTATGTGACTGAATGGGGAACAGAAATCGGCAGGGCCCAGGGCGTCCAGGCAGAGGCTTGTCGGACACCGGCTCTGCCGGAAATGAATCCTATACTATTGAAACCGAGAAGTGATCAGCGTGCGGAGGTGATCTGTCTCGGGGAATCGATGAAGACATTTTCAGGAAGAGACTACCGCGAGGGCTTTTATGAAAAGGGGCTTCAAGCCATTAAGCACAGCCTTGACATCCTGAATACCTCTTTTGACTATATCATTATTGAAGGAGCCGGAAGTCCTGTAGAAGTGAACTTGAATGATCGTGAACTGGTCAATATGTCTGTCGCTGACTTGGCTGACGTTCCTGTCCTGTTGACGGCAGATATTGACAGGGGTGGAGTGTTCGCTTCCATCATCGGTACACTGGAGCTGCTCCCGCCGCATCACAGGAAAAGGGTCCAGGGAATCATTATAAATAAATTCCGCGGCGACCCTGCCTTGTTTGAAGATGGCAGGGAGTGGCTGGAAGCGTACACAGGACTTCCTGTCCTTGGTGTACTCCCGCATATCGAACATCATATGGAAGCAGAGGATTCTCTGTCGATAAGGCCGGCAGCCATTTCATCTGTTTCCGGGGCCGTTGACCTCGCTGTCATCGTTTTTCCGTATGTTTCCAACTTTACGGATGTGGACCCTTTTTATAAGGAGAAGGATGTCAGTATCCGCTATGTGTACAAGCCGGAAGAATTCGGCTCTCCGGATGCTGTCATTCTTCCAGGGACGAGAAGCACTATTGAAGATCTGCAGGATCTGCGTCATAAGGGGCTGGCCGAGGCTGTCATCTCTTTTATCCATAAAGGAGGAACTGCAGCCGGGATATGCGGCGGCTACCAAATGCTCACGCAGCAGCTGACAGATGAGAAAGATTGCTGGGAAGGGCTGGGAATCCTGCCGATGTCGGCGGTTTTTCACAGGAATAAGCAGACGAAGCGGGTGCAGGGAGAGGTGCATCCTTCCAGCGGCTTCACCAGGGCAGCCGTAGAAGGATATGAAATCCACCTCGGGGAGGTCACCCGCGAAGCTGGTGAACTTTCTCCTTTATTCATTCTTGAAGGTTGTGAGGAAGGAGCCGTCCTGGAGGATGGAAGAGTGATAGGCACCCACCTGCATCACGTCTTTCATAATGACAGCTTCCGTTCAGACTGGTTGAACAAGCTGCGCAGGACAAAGAACCTTCCACTCATTTTTGAGAATCCTGAACAAAGGGATCCTTATGATCAAGTGGCAGACCACCTGGAAAAAGAAGTGGATACAGCTGCTCTTATGCATGTATTAAATGGTAAGGGGCTGTCATCATGA	MKGLMIQGTASNVRKSFIVTAICRWLSNQGYRVAPFKSQNMSNNSYVTEWGTEIGRAQGVQAEACRTPALPEMNPILLKPRSDQRAEVICLGESMKTFSGRDYREGFYEKGLQAIKHSLDILNTSFDYIIIEGAGSPVEVNLNDRELVNMSVADLADVPVLLTADIDRGGVFASIIGTLELLPPHHRKRVQGIIINKFRGDPALFEDGREWLEAYTGLPVLGVLPHIEHHMEAEDSLSIRPAAISSVSGAVDLAVIVFPYVSNFTDVDPFYKEKDVSIRYVYKPEEFGSPDAVILPGTRSTIEDLQDLRHKGLAEAVISFIHKGGTAAGICGGYQMLTQQLTDEKDCWEGLGILPMSAVFHRNKQTKRVQGEVHPSSGFTRAAVEGYEIHLGEVTREAGELSPLFILEGCEEGAVLEDGRVIGTHLHHVFHNDSFRSDWLNKLRRTKNLPLIFENPEQRDPYDQVADHLEKEVDTAALMHVLNGKGLSS	PGPT0004580_1811	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
AK012_00724	537	cobP		Bifunctional adenosylcobalamin biosynthesis protein CobP	ATGCTTACAGTAGTAATTGGCGGAGTTAGAAGTGGGAAGAGCCGGACAGCTGAAAAGGCAGCTGCCGAAACGGGAGAACACCGATTACATTATATTGCTGCAGGCGTTGTTACAGATGAAGAGATGCAGCATCGAATTCACCATCATCAAAAATCCAGAGAAAGTTCAATGCACACGTGGGTTCTCCATGAGCATCCGGTACGGCCATCAGAAGCCTCTTTCCCTGATGGGAGCGTTGTCCTTCTGGATTGCCTGACGACTTGGGCGACGAATGAATGGATGCAGATGGGCGGGGATGGGAACATAGAGGATCTTGTGACCGGTATGATGGATGAAATGGATCAGTTATCCAAAAGGGCGGATCAGCTCATTATTGTTTCCAATGATCTTTTTTCTGATGCAGCTGACCATCCACCTGCAATTGAAGAATATTTACAGCTGCTGGGAGCTCTCCATGTGAAATTGGTTTCCATGGCCGACTATGCCTATCATATGCAGTCCGGGCATGCCCAGCTTAAAAAGGGGCCATCGCTATGA	MLTVVIGGVRSGKSRTAEKAAAETGEHRLHYIAAGVVTDEEMQHRIHHHQKSRESSMHTWVLHEHPVRPSEASFPDGSVVLLDCLTTWATNEWMQMGGDGNIEDLVTGMMDEMDQLSKRADQLIIVSNDLFSDAADHPPAIEEYLQLLGALHVKLVSMADYAYHMQSGHAQLKKGPSL	PGPT0004585_1532	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
AK012_00725	1086	cobD_1	COG0079	Threonine-phosphate decarboxylase	TTGAACTGGCCGTCTCATGGGGCAGATCCTTATAAACTATATCAAATGCAGGGAAAAGAACCGAAGGAAACGATTACAGATTTTAGTGTGAACACCAATCCATACGGGGCACCCCCCGGGCTGATTAGTCATTTGGAGAACCATCTGTCCTTGATTCATGAATATCCTGATCTGGATCAACAACGGCTCAGGGGGAGGATTGCTGAAAACCAGTACCTTCTGCCTGAAAACGTCCTTGTAGGCAATGGAGCTTCGGAACTGATCCATTTATGTGCCCGGCTCTGGCAGGGAAAGCGGATCGGTATCATCCACCCTACCTTTTCGGAGTATCAAAAAGCGTGCGAAGCCTATGACTGTGAGATCGTTGAACTTTATGTATCTGAGGGGAGAAACTTTGATCTGTTTCTTCCAGATATCCTTCCTCATCTCCAAAGGATGGATGTTTTAATGCTTTGTCATCCGAACAACCCCACAGGCAGAACGTATCAGCCTGATGTATTGTATGAGCTGTTAAAGCTCTGCGAATTCAATGGTGTCCAAGTCATGATTGATGAGGCTTTTTTTGATTTTGTTTCTGGAGAACCTTTCTTCTCGCCGGATTTGTTTGAATTTCCGAACGTCCTCCTGCTGCGGTCGCTGACAAAGATGTATAACATCCCGGGTCTGAGGCTCGGTTATCTATTAGCCGGTGCCGCCTTAATCGAAAAGCTCAGCCGCCTGCAGCCTGCATGGAGTGTAAATGCACTGGCTGAGGAAGCCGGTTTCTATTGTTTAAGTCAGGAAGGCTTCGCACGCCGGACAGCCGCTGCTGTTTCAAGGGAAAAAGCCATCCTTTTCCTTGAACTGAAGAAGCTGGGATTCTCCCCTTTATCCACTGATACAAATTTCTTTCTCATGAAAGACCCATTTCACAGTCAAGCGAATGAGATGGTCCGCTTTCTTCTGCAGGAAGGAATAGCTGTACGGCATACGAATAACTTTGCCTCATTGAACGGCACCTTTATCCGGGTGGCTGTGAAGCAGCGGAAAGAAAACGAACAGCTTCTCCGTGCTCTGGGTAAATGGAGAAGCCTATGCTTACAGTAG	MNWPSHGADPYKLYQMQGKEPKETITDFSVNTNPYGAPPGLISHLENHLSLIHEYPDLDQQRLRGRIAENQYLLPENVLVGNGASELIHLCARLWQGKRIGIIHPTFSEYQKACEAYDCEIVELYVSEGRNFDLFLPDILPHLQRMDVLMLCHPNNPTGRTYQPDVLYELLKLCEFNGVQVMIDEAFFDFVSGEPFFSPDLFEFPNVLLLRSLTKMYNIPGLRLGYLLAGAALIEKLSRLQPAWSVNALAEEAGFYCLSQEGFARRTAAAVSREKAILFLELKKLGFSPLSTDTNFFLMKDPFHSQANEMVRFLLQEGIAVRHTNNFASLNGTFIRVAVKQRKENEQLLRALGKWRSLCLQ	PGPT0009315_388	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_B12|COBALAMIN_METABOLISM	PLANT_VITAMIN_B12|COBALAMIN_BIOSYNTHESIS,PGPT0009315-cobD-K04720	NA	NA
AK012_00726	972	cobD_2	COG1270	Cobalamin biosynthesis protein CobD	ATGATTTCCCATCTGCTTGCACTGACACTTGGCTGTCTGCTGGACTACTGCTTTGGAGATCCTAAAAAAATGCCTCATCCTGTTGTAGGGATGGGGAGATTTATTTCCGTCCTCGAAAAGAGATGGAACAAAGGACGGCAGCGGGTTTGGAAAGGGTGGCTTCTTTGGGGAGTCGTCACGGGTTCTGTATGTCTGCTTACCTGGGCAGTGGTGAAGGCGGCCGCGTTATGGAGTCATCCAGTTTCAATTGCCCTGGAAGGAATTCTCATATGGACAACCATAGCAGGGAAAGGGTTGAAGGAAGCGGCCATGAAGGTTTATCTCCCTTTGCAGGAGGGTGATTGGAACGCCGCCCGTTCCGAGCTTGGATGGATTGTCGGTCGTGACACAGACCAACTAATGGAGAGCGAACTTGTCCGCGGGACGGTGGAAACCGTAGCGGAAAATGTGAGTGACGGCGTCACGGCTCCTCTTTTTTACGCCCTCATCGGCGGGGCGCCGCTGGCTCTGCTGTACCGGGCGGTTAATACGTGCGACTCCATGCTTGGTTATAAAACAGACCGATACAAACATTTCGGGTTTGCATCGGCAAAAATGGATGATGTATTGAACTATATTCCAAGCCGCTTAACGGCGGTGGTGACCATCATCATATCCAGTGGAACCTTCCATGAAAAGCGATGGAGGTTCCGTCATCTTCCTTCACAGGCCGCTCATCACCCGAGTCCAAACAGTGGCTGGGGGGAAGCAGCCGCCGCTTTATCGCTGGGGGTGCAATTAGGTGGGGAAAATTCTTATTTCGGTGAAAAGTCTTTCCGGCCGTATATTGGTTTTCCCAACTATGAGCTTTCCAACATACATATTATGCAGATCAATGAGCTGTTAACCCGTACGGTGGCAGCATGGATTGTTCTGCTCTGGTTAGGGGGAATGGGATTTGAACTGGCCGTCTCATGGGGCAGATCCTTATAA	MISHLLALTLGCLLDYCFGDPKKMPHPVVGMGRFISVLEKRWNKGRQRVWKGWLLWGVVTGSVCLLTWAVVKAAALWSHPVSIALEGILIWTTIAGKGLKEAAMKVYLPLQEGDWNAARSELGWIVGRDTDQLMESELVRGTVETVAENVSDGVTAPLFYALIGGAPLALLYRAVNTCDSMLGYKTDRYKHFGFASAKMDDVLNYIPSRLTAVVTIIISSGTFHEKRWRFRHLPSQAAHHPSPNSGWGEAAAALSLGVQLGGENSYFGEKSFRPYIGFPNYELSNIHIMQINELLTRTVAAWIVLLWLGGMGFELAVSWGRSL	PGPT0004660_937	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
AK012_00727	1467	btuD_2		Vitamin B12 import ATP-binding protein BtuD	ATGATTGACATTCAACATCTCTATGCCGGCTACGACCACGACATTCTTCATGATCTTTCTTTTTCTGTAAATAAAGGAGAAATGTTCGGAGTCCTCGGTCCGAACGGCAGTGGAAAGACAACGCTGCTTAAAGCTTTGAACGGGACATTGCCTATAAGAGGAGATGTTGTCATTCAAGGCCGTCCGATCCGTCAGATGACCGCGAAAGAAACGGCCAGGGAAATGGCTGTCCTGCCGCAGCATCATGATGTGTCTTTTTCGACGACAGTGGAGCAGACGGTGTTAATAGGACGATACCCTTACCAAAAGGGCCTTTTCAAACAGTGGACAAAAGAGGATTACCGTATTGCGGAAGAAGTGATGGAGCAGACGGGTGTAACGCGGTTTAGACACCAGTCGTTACTTTCCTTAAGCGGGGGAGAGCGGCAGCGTGTTTTTCTTGCCCAGGCTCTAGCCCAGAAACCCGGGATCCTTCTATTGGATGAGCCGACGAATCATTTGGATTTCAGTTATCAAAAACAGATGCTGGATGCTTTGAAGCAGTGGTCTCTGAAGGACGGACTGACGGTCATCGCCATCTTTCACGACTTGAACTTAGCGAGTATGTACTGTGACCGGCTTCTGCTTTTGGATCAAGGGAGCATCCGTGCACTGGATGAACCCGAAGAGGTGCTGGAGGAAGGGCATTTATCAGATGTCTACCAATCGGAAATCCATGTCCATGCTCATCCCTCTTTTTCAAAGCCATTTACAAATGTGGTTCCCTCCTATCAAGATCAAAAGCCTGAAGCCGTCATTTCTCCTGATCATCTGGAAGTTTCCGAAAGTCGTGTGTATTATAAGAGCCTCCGACCTTTAAAGTGTTACTCTTCTGCGGTTCTGAACCCTGGTTTCGGTTGGTTTGAAGAATTCATGAACATACAGGTGGATCATTCCTTCCGCTGTGAGGATCCGGCTGGATATCTGATCACTGAAGCTGAACGTTACGGCTGTCAGACGTACAGGACCGTAGGCATGATGACGGCAGCCAAAGTGACAGACGCTTCTACTGTATTTGTAGAGAAAGAAGACTTCACGGTGCTTGTGGTTGTGACAGCTGGAACTGGAAATGCTGTAGATGTCGTCCACAACAACCGCCATATGCAGGAAGCTGTTCCGGGGACAATCAACACATGGGTTTTCATAGATGGTCATTTATCTGAACAAGCTTTTGCACAAAGTCTGATGACCGCGACAGAAGCTAAAGTGAAGGCTGTGACGGATATGGATATTAAGGATCCTCTATCCGGTACAACCGCTACAGGAACTTCTACCGACAGTATATTAATCGCAGGGACACAGCAGGGAACGGTGCTGGAATATGGAGGAACCATTTCTTCTTTAGGCAGAGCGGTCGGCCCTGCTGTGTACAAAGCTTCCAAAGAAGCGATCGCTCGATACCTCGATCGAAAAGAGGAAGGAATATGA	MIDIQHLYAGYDHDILHDLSFSVNKGEMFGVLGPNGSGKTTLLKALNGTLPIRGDVVIQGRPIRQMTAKETAREMAVLPQHHDVSFSTTVEQTVLIGRYPYQKGLFKQWTKEDYRIAEEVMEQTGVTRFRHQSLLSLSGGERQRVFLAQALAQKPGILLLDEPTNHLDFSYQKQMLDALKQWSLKDGLTVIAIFHDLNLASMYCDRLLLLDQGSIRALDEPEEVLEEGHLSDVYQSEIHVHAHPSFSKPFTNVVPSYQDQKPEAVISPDHLEVSESRVYYKSLRPLKCYSSAVLNPGFGWFEEFMNIQVDHSFRCEDPAGYLITEAERYGCQTYRTVGMMTAAKVTDASTVFVEKEDFTVLVVVTAGTGNAVDVVHNNRHMQEAVPGTINTWVFIDGHLSEQAFAQSLMTATEAKVKAVTDMDIKDPLSGTTATGTSTDSILIAGTQQGTVLEYGGTISSLGRAVGPAVYKASKEAIARYLDRKEEGI				NA	NA	NA	NA	NA
AK012_00728	1065	hmuU	COG0609	Hemin transport system permease protein HmuU	TTGCAGAAGCCGTATATCCAGACGTTTTTAGCGAATAAGGCCACTCATTATACGGGAAGTGTTTTGCTTTTAGTTTTCAGCGTTTTCCTCGGGACATCTCTTGGCAGTGTCTCGATTTCATTTGAAGCCATTGCCCGCATCATCAGCGGGCAGCTGCTTCCCTTTTTACATTTGTCTGAAGGGACGGATCCTACACTGCAGGCGATCATTCTGCAGATACGTCTGCCCCGGGTCGTTCTGGCAGGATTGGTCGGCGGTGCATTAGCGATTTCCGGAGCTGCTTTTCAAGGCCTGCTTAAAAACCCGCTTGCGGATCCCTATACACTCGGGGTATCTTCCGGCGCATCAGTGGGAGCTGTGGCGGTTTTGTTCCTGGGCATCACTCTTCCCTTTGCTGGTTCTTTTACTCTTCCGGTTGTTAGTATTGCAGCAGCCATTTGTACTATTTTTATTGTCGTAGGGTTTGCCCGGCTCGTGGATCGTTCGATGTCCATGACGACAATTATTTTAACTGGTATTATCTTCAGTTCATTCCTCGGATCATTCATCTCTCTTATGATTTCTTTAACAGGAGAGGAGCTGCGCCAGATTATCAACTGGCTTCTTGGGAGTGTCGGCAACCGGGGCTGGGATTATGTGCATTTGATGCTGCCTTTCTTTGTTATCGGCGTCTTATTACTCATGTTCACAGGCCAGGAATTGAATGCCATGACATTTGGAGAGGAACGGGCGAAACAGCTGGGGGTCCACGTAGAACGCCAGAAATATATGATTCTGTCCGCTGCCTCTATCCTGACAGGAGCAGCTGTAGCGGTATCGGGGACCATCGGTTTTGTCGGACTGGTCATTCCGCACATCTGCAGGAAAATATTTGGAAGCGACCACCGGCACCTTATTCCATTATGTGTGTTGAATGGGAGCGCATTTTTAATTCTTGCGGACTTACTGGCCCGGACGATTGTATCCCCCTCCGAGCTTCCTATCGGGGTGGTGACCGCTCTTATCGGTGCACCGATGTTCGCAGTGATTCTCATACGAAGACGAAAAGGAGGAAGAAGTTCATGA	MQKPYIQTFLANKATHYTGSVLLLVFSVFLGTSLGSVSISFEAIARIISGQLLPFLHLSEGTDPTLQAIILQIRLPRVVLAGLVGGALAISGAAFQGLLKNPLADPYTLGVSSGASVGAVAVLFLGITLPFAGSFTLPVVSIAAAICTIFIVVGFARLVDRSMSMTTIILTGIIFSSFLGSFISLMISLTGEELRQIINWLLGSVGNRGWDYVHLMLPFFVIGVLLLMFTGQELNAMTFGEERAKQLGVHVERQKYMILSAASILTGAAVAVSGTIGFVGLVIPHICRKIFGSDHRHLIPLCVLNGSAFLILADLLARTIVSPSELPIGVVTALIGAPMFAVILIRRRKGGRSS	PGPT0003770_1235	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
AK012_00729	984	btuF_1		Vitamin B12-binding protein	ATGGAACATTTATGGAGAAAGTTTTCAGCCGTTCTTTTTGTCATCGGACTATTGGCCGGCTGTGCATCAGAGGGGGAAGAGGAAACCGGTTCTTCTGATCAGGAGGCTGATCAAACGGAAGAAGCTGGAGAAGATAGTGGTTTTCCACTGACCTTAACCGATGCTATGGATAACGAAATAACCATAGAAGAAGAACCGGACAGGATTATCAGCACCATTCCAAGTAACGGGGAAATTCTGTTTGCGCTTGGATTAAATGAAGAGGTGGTCGGGGTCAGTGACTTCGCCAACTACCCGGAAGAAGCCACTGAAAAAGAAACCATCGGAGGGCAGGACTTGAATGTAGAAAAAATCCTTTCTCTTGAGCCGGATGTTGTTCTTGCGCACGCTTCAGGGGCTCATACCTCACAAGAAGCCCTGAAGCAGATCCGTGATGCAGGAATTGCAGTATATGTCGTTCAGGATGCTTCTTCATTGGATGCGGTGTATGACAGCATTGAAACCATTGGGAATATTACAGGAACGAGCGATAAAGCATCAGCCATTGTTTCTGATATGCAGGAAGAGCTGGCTGCAATAGAAGAGAAAGCGGCTGCGATTGCTGAAGAGGATAAAAAAGATGTCTTTGTGGAAGTGGCACCGGAACCCGAAATCTACACAGGTGGACAAGGGACATTTTTGAATGAAATGCTGACCACTATACAGGCGGAAAACGTCGCAGGCGATCAGGAAGGCTGGTTCAAGATGAACAATGAAGCTATTGTTGAACTGCAGCCTGACGTAATTATTACGACGTACGGCTATTATACCGAAGATCCTAAAGGCAGTGTATTAAGCCGGGATGGCTGGGACACAGTTCCTGCCATTCAAGACGAGCAGGTTTATGATGTCCATTCCGATCTTGTCACACGTCCCGGGCCACGTTTAACCGAAGGGGTTCAGGAACTTGCAGAAGCCGTATATCCAGACGTTTTTAGCGAATAA	MEHLWRKFSAVLFVIGLLAGCASEGEEETGSSDQEADQTEEAGEDSGFPLTLTDAMDNEITIEEEPDRIISTIPSNGEILFALGLNEEVVGVSDFANYPEEATEKETIGGQDLNVEKILSLEPDVVLAHASGAHTSQEALKQIRDAGIAVYVVQDASSLDAVYDSIETIGNITGTSDKASAIVSDMQEELAAIEEKAAAIAEEDKKDVFVEVAPEPEIYTGGQGTFLNEMLTTIQAENVAGDQEGWFKMNNEAIVELQPDVIITTYGYYTEDPKGSVLSRDGWDTVPAIQDEQVYDVHSDLVTRPGPRLTEGVQELAEAVYPDVFSE				NA	NA	NA	NA	NA
AK012_00731	648	srtD_1	COG3764	Sortase D	ATGAATAAGTTTCTCATCGGTATCATAACCATCGGTCTTTCTATTTTTCTTTTTTACGGGTTTCAATGGTGGAATGCTGCAGGGGCAGTGGAGAAGGTATCCGAAGAAGAAATCGGTACTTGGCAGGAAACGTCTGAAAAAGTTGATGAAATGACAGTTATGGATGGACCTGATCGTAAACCGGCTGAGGAAGAAAAAACCTATACAGAGGATGTATCTGCCTACCAAAAAGGAGAAGAGATGGGAAGGCTGATTATTCCGTTTCTTAACAAAGGGTATAAAACCTACTGGGGAGCGGATGAGGATTCACTGAAACGCGGAGTCGGAATGTATGTGAGTGAGTGGACGACAACTCCTGATGAAAAAGGACACACGGTTCTAAGCGGGCACAGGGAGACGGTTTTCACGAATCTTGGTGATGTCAATGAAGGAGATTCCCTTTATTATGAATATGAGCAAAAGCGGTATGAGTACAAAGTGGATAAAACGTGGGTGACGGATGCCGGTGACCGGTCTGTCATCGTGGATAAGGATGAGCCTACATTAACGTTGACCACCTGTTACCCGTTTAATTTTGTTGGCGATGCGCCGGAACGTTATATCATCCAGGCTTCTTTAGTGGATGTGAGTGACATGGCTGATTCCTGA	MNKFLIGIITIGLSIFLFYGFQWWNAAGAVEKVSEEEIGTWQETSEKVDEMTVMDGPDRKPAEEEKTYTEDVSAYQKGEEMGRLIIPFLNKGYKTYWGADEDSLKRGVGMYVSEWTTTPDEKGHTVLSGHRETVFTNLGDVNEGDSLYYEYEQKRYEYKVDKTWVTDAGDRSVIVDKDEPTLTLTTCYPFNFVGDAPERYIIQASLVDVSDMADS	PGPT0024075_2046	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
AK012_00732	912			hypothetical protein	ATGAAGAAAAAGTTTTTGAGTACGATGATGGCTGGTGCTGTTTTGTTTTCCCTGCCAATCCAAGCCGCTGCGGCGGATATGAGTGCGGAAGACATCCTGAAGAAATCAAATGAGGCGATGATGGACCTGGACAGTTATACCATCCATTCGGTTTCTGAGCAGACAATGCCGAAGATGAGTAGTGGCGAGCAGGGAGCCATCTCTTTTGATTCAAAAGCAGATGTCGTTATGGATCCTTTGAAAATGCATCTGACGATGAATGGGGCCGGCCAGGAGACCGAAGCTTATCTGACTGAAGAGGGCTATTATGTCCAGATTCCTGAACAGGGCTGGGTGAAAATGTCCAGTGACATTGGAAATCTGCAGAAAGTGATGATGGCAGAAGGTCAGATGAGTCAGGCAATGCCGCTCGCCTCAGAGATGAAGGTCAGTGAAGAAGAGGGGGCTTATGTCCTCACTTATGAAGGTGACGGGGAAAAACTATTGAAAATGACAACACAGATGATGCAGTCCTCAGGAAGCCAGCAGAGCTCTGATCAGTCTGCTGACATGCAGAAAACGATCCAGGAAATGTTGGAAAGAGTAGAAATTAAAGATTTCTCTTATGAAGTCACTGTTGATAAAGAGAACCATTACATGACAGGTATGATGCTCGATATGGAAATGATGTTCGAAGAAGGCAGTGAATCTGTGACCATCAGCCAGTCTTCAGATGTGACCCTTTCCAATTTCAACGGGGTCGGATCTATTGAAATTCCTCAGGAAGTTCTGGACGCACAAACGATTGAAGAAGCAGCCGGTGGCGAACTTCCGGATACTTCTTCCAACGAGCCGCTTTATGCATTAGCTGGAGCCCTTGCTGCCGCTGCTGCCGGAGCTGTCCTCTTATACAGAAGAAAAGTATCCGCATAG	MKKKFLSTMMAGAVLFSLPIQAAAADMSAEDILKKSNEAMMDLDSYTIHSVSEQTMPKMSSGEQGAISFDSKADVVMDPLKMHLTMNGAGQETEAYLTEEGYYVQIPEQGWVKMSSDIGNLQKVMMAEGQMSQAMPLASEMKVSEEEGAYVLTYEGDGEKLLKMTTQMMQSSGSQQSSDQSADMQKTIQEMLERVEIKDFSYEVTVDKENHYMTGMMLDMEMMFEEGSESVTISQSSDVTLSNFNGVGSIEIPQEVLDAQTIEEAAGGELPDTSSNEPLYALAGALAAAAAGAVLLYRRKVSA				NA	NA	NA	NA	NA
AK012_00733	675			hypothetical protein	TTGAATACGGTCTTGTATATGGGGAGCGGCATCGTTTTATTTTTTATTTTGTACATCTTAGCCCGGACGCTTGGAAAGAAATTGACATCACAGATGACGCTGTTTGATTTTATTGCCGGGATCACACTGGGAAGTATGACCGCAACAACGTTTCTATCCCCGAGTGTCTCGCTTCAAAGGGGTATCCTGGGGCTTGCATTATTTTCAGGCCTTGTGTTTATCATTGACCATTTGACATTGAAAAGTCTTTTGGTCCGGCGTATTTTTAACAGTGAAGCTACCGTTTTAATGAAGGATGGCCGTATTCAAATAAAGGAAATGAAAAAAGCTCGGTTTACGGTGGATGAACTGATTGCAGAACTAAGGAAAACAGGTGTATTCAGCTTTACTCACGTTGAGGCAGCTGTATTAGAAACCGATGGGACTGTGAGTGTCTTAAAGAAGGCAGAGGCTGCCCCGGTTACACCTTCGGATTTGAATTTGGTCACACAGACGGCAGTTTTTCCTTATCTTGTGATCATGGATGGAAAAGTCGTCAAGAAACAGCTGCAGAAGAGTGGATTCAGTGAAGAGTGGCTTCGGGAAAAGATCATCGCAGCCGGCTATCCATCTGTTGAAAAAATTGCAGCGGGTCAAGTCCACCCGGATGGCACCTTGTATCTATCTCCTATATGA	MNTVLYMGSGIVLFFILYILARTLGKKLTSQMTLFDFIAGITLGSMTATTFLSPSVSLQRGILGLALFSGLVFIIDHLTLKSLLVRRIFNSEATVLMKDGRIQIKEMKKARFTVDELIAELRKTGVFSFTHVEAAVLETDGTVSVLKKAEAAPVTPSDLNLVTQTAVFPYLVIMDGKVVKKQLQKSGFSEEWLREKIIAAGYPSVEKIAAGQVHPDGTLYLSPI				NA	NA	NA	NA	NA
AK012_00734	642			hypothetical protein	ATGGATGCATTCATCCGGTCCGATCAATATCATTTTATACAAAACGAAACCCAGAACCTGTTGAACGGCCACAGGACGACGACCGATTCTTCGGTTACTCAGGCTTTGACATCTCTTTCTTCTGAAAAAGCCCTTGATGTTTTTGATACATTAACAAAAGAGCAGAGCGCATTGATCCGCCAGATTGAACACGTACAGGAGGAAACAGACGCCATCTTTTATTTTTCCCGATTGAAGCATTACGTCATTCCTTTTCCGAAATTGACCGATGCTGAAATTCAACTGCTGTTTCCAAAAGTTAAAAAACTGCAGGTGCCGGAGTTTGATGAAGCCGATTGGTCCGAAATGTCGTACATGGGATGGAATGATCCTGCCGCCAATCGTAAATATCTCATTACCAAGGTAGAGGGCCGTTATACCGGCCTTTACGGACACTTCCTCCCCTCCCGGCAGAATAATATCTGCACCATCTGTCATGAGCAGGAACAGGTAGGCCTGTTCACGGTTACAGGTCCAGGGAAAGGTTCCGGCGAAAGCGTCAGCCGTGGAAATTATATCTGTTATGACAGCAGAAAATGTAACGAAAACATCAAATCGCGAAAGCCTTTGGAAACGTTCATCCGACGCATGATGAACCAATAA	MDAFIRSDQYHFIQNETQNLLNGHRTTTDSSVTQALTSLSSEKALDVFDTLTKEQSALIRQIEHVQEETDAIFYFSRLKHYVIPFPKLTDAEIQLLFPKVKKLQVPEFDEADWSEMSYMGWNDPAANRKYLITKVEGRYTGLYGHFLPSRQNNICTICHEQEQVGLFTVTGPGKGSGESVSRGNYICYDSRKCNENIKSRKPLETFIRRMMNQ				NA	NA	NA	NA	NA
AK012_00735	1446	emrY		putative multidrug resistance protein EmrY	ATGGAGACGACGCAGAATAGAAAAATTATTTTGGCTACATTTATGATAGGGGCGTTTTTTGCGATTCTTAACGAAACGCTTTTGAACATAGCATTAACAGAACTTATGGATGTTTTCGACTTGAGTGCTCCGACTGTCCAGTGGATGGCTACGGGCTTCATGCTGGTGATGGGGGTATTGATGCCGATATCCGCACTCTTAATCCAATGGTTTACGACGAGACAGATGTTTATCGGAGTTATGACGATTTTCTTAATAGGAACGACGATCGCCGCTGCCGCGTTTAATTTCCCGATGCTGTTAACAGGCCGGATGATCCAGGCAGTTGGAACCGGTTTGTTAATTCCTGTTATTATGAATGCCCTCCTTCTGCTTTATGAACCTGCTGTTAGAGGAAGAATTATGGGAACGTTCGGGCTGGTTATCATGTTTGCTCCAGCTATCGGTCCGACATTATCCGGAGTTATTGTTGATTTCCTTGGGTGGCGCTGGTTGTTTATTACGGTCATTCCATTCGCGCTGTTCTCCATTATCTTTGCATGGAAGTTCCTTGAAAACGTAGGAGAGGTGACACGGCCGAAGGCGGATCCGCTTTCTATACTCCTTTCTTCTGTGGGGATCGGAGGAATTGTCTATGGGTTCAGCAGTGCAGGGGAAACGGAGGCTGGGTTTACATCCGCTTCTATCCTCGGGATCCTGGCAGTAGCTGTGATCAGCATCATTTGGTTTGTTTTCCGACAGCTGCGTCTTGAAGAACCACTTCTGGATGTGAGGGTTTTTCGATACCCAAGCTATGCCAGAGGAATTGCTATTTTCGTGATCGTCATTATGGCTATGTTTGCCTCCGAAATCGTTATGCCGATGTATCTGCAGGGGCCGCTTGGCTACTCCGCTAAAATCGCCGGACTGCTTTTACTACCAGGGGCACTGTTGAATGGTTTAATGTCGCCGGTCATGGGGACGTTATTTGATAAAGTGGGTCCAAGAAAGTTAATCATTCCGGGTACGATCGTGCTTACGGGAGTGATGTTCTTCTTCAGCCGGATCACGCCTTCCATTCCGACGTGGAGTTTCGTTCTCGCCTACATCCTGCTTATGCTGTCGATCTCAGCGATTATGATGCCTTCTCAGACCAATGCGCTGAATGAGCTGCCCAAGCACCTTTATCCTCACGGAACCGCAATCGCCAATACGCTCCAGCCAATTGGAGGAGCGCTCGGCGTATCCATTTTTGTGAGTATTATGACTCAGGGCCAGCGGAACTACCTCGATGGAGAGCAGGCTCAGGCCGGAAGTGAACTGATGAACGAGGCTATGACAGCTGGTGTGCATCAAGCCTATTGGTTTGCACTTGCCCTGGGAGTGATTACAGTTGTGATCGCCTTGACGATCAAGCGGGCGGTTTCTCCGGATTACGACACAGAATCAGAACAAAAACAAGCCTGA	METTQNRKIILATFMIGAFFAILNETLLNIALTELMDVFDLSAPTVQWMATGFMLVMGVLMPISALLIQWFTTRQMFIGVMTIFLIGTTIAAAAFNFPMLLTGRMIQAVGTGLLIPVIMNALLLLYEPAVRGRIMGTFGLVIMFAPAIGPTLSGVIVDFLGWRWLFITVIPFALFSIIFAWKFLENVGEVTRPKADPLSILLSSVGIGGIVYGFSSAGETEAGFTSASILGILAVAVISIIWFVFRQLRLEEPLLDVRVFRYPSYARGIAIFVIVIMAMFASEIVMPMYLQGPLGYSAKIAGLLLLPGALLNGLMSPVMGTLFDKVGPRKLIIPGTIVLTGVMFFFSRITPSIPTWSFVLAYILLMLSISAIMMPSQTNALNELPKHLYPHGTAIANTLQPIGGALGVSIFVSIMTQGQRNYLDGEQAQAGSELMNEAMTAGVHQAYWFALALGVITVVIALTIKRAVSPDYDTESEQKQA	PGPT0028570_634	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0028570-lmrB-K18926	NA	NA
AK012_00736	984	guaC	COG0516	GMP reductase	ATGGAAAATGTATTTGATTATGAAGATGTTCAATTAATTCCCGCAAAATGTGTCGTAAACAGCCGATCTGAATGCAGCACCTCTGTACAATTCGGAAATCATAGATTCAAGCTGCCTGTAGTTCCCGCCAACATGCAGACGATCATCGATGATGAAACAGCAACAAAACTTGCAGAAAATGGGTACTTCTATATCATGCATCGTTTCCAGCCTGAGACACGTACCCGTTTTATTGAAACAATGAAGGAAAAAGGATTAATCTCTTCCATTAGTGTTGGTGTGAAGGAAGATGAATATGAATTTATTGAAACACTTTCCGCACGTCATTTGATCCCGGATTATATAACAATTGATATCGCCCACGGCCATTCCACAGCCGTCATTCAGATGATTCAGCACATTAAAGCCCATCTCCCTTCCACTTTTGTAATTGCAGGAAATGTCGGCACGCCTGAAGCCGTCAGAGAGCTCGAAAACGCCGGGGCTGATGCAACCAAAATAGGCATAGGACCCGGGAAGGTTTGCATTACAAAAGTGAAAACCGGTTTCGGCACAGGAGGCTGGCAGCTTGCAGCCCTACGCTGGTGTGCCAAGGCAGCCAGTAAACCTGTCATTGCCGACGGCGGAATCCGTACGCATGGAGACATTGCAAAATCCATCCGCTTCGGTGCCTCCATGGTTATGATCGGATCCCTGTTTGCCGGCCATGAAGAGTCTCCGGGAGAAACCGTTGAGAAAGACGGGAAGCTTTACAAAGAATACTTCGGTTCTGCTTCTGAATTTCAAAAAGGGGAAAAGAAAAACGTTGAAGGGAAGAAAATGTTCGTAGAATACAAAGGGCATTTGAAAGACACCCTGACAGAAATGGAACAGGACCTGCAGTCTGCAATCAGCTATGCAGGCGGTACAGACGTTGACAGCATCCGTCACGTCGACTATGTCATTGTAAAAAACTCCATCTTCAATGGGGACAAGGTGTATTAA	MENVFDYEDVQLIPAKCVVNSRSECSTSVQFGNHRFKLPVVPANMQTIIDDETATKLAENGYFYIMHRFQPETRTRFIETMKEKGLISSISVGVKEDEYEFIETLSARHLIPDYITIDIAHGHSTAVIQMIQHIKAHLPSTFVIAGNVGTPEAVRELENAGADATKIGIGPGKVCITKVKTGFGTGGWQLAALRWCAKAASKPVIADGGIRTHGDIAKSIRFGASMVMIGSLFAGHEESPGETVEKDGKLYKEYFGSASEFQKGEKKNVEGKKMFVEYKGHLKDTLTEMEQDLQSAISYAGGTDVDSIRHVDYVIVKNSIFNGDKVY	PGPT0021450_928	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021450-guaC-K00364	NA	NA
AK012_00737	459			hypothetical protein	ATGATTGAATGGGAAAAAGAAAAGGTCATTAACGCACCACTTGAGGATGTGTGGGATCTTTTCAAAGACAAAAACATTAAGCGGATCATGCCGAAAGTGGAAGAACATAAGCTCATCGAAAAAACAGAAACGGAGGCAGGTGCGAAACATCTGCAGACCTACAGGGAGGGGAAGCGTCTCGAAACCTATACTGTAAATACCCTTGTATATGAGGACAAACCGTCCGCTAAACATAAGAAAATCGCTTTTGTCATCGGCAAAGCGTTTGAAGTGACGGCGTCCTTTCAATTGGAAAAGGTGGATGACTCCACTACAAGACTCATTTACTCAGGGTCCAACCGTGGGACCAACTTTGTCGGGCGCGCGATGATGAAGCTGGCGAATAAAAAAGGGAATGACAAAGTTGTGCAGGAATTCGTCGACCGTGTCGAAGAGCAGGCCACACCAGCCGATGAATAA	MIEWEKEKVINAPLEDVWDLFKDKNIKRIMPKVEEHKLIEKTETEAGAKHLQTYREGKRLETYTVNTLVYEDKPSAKHKKIAFVIGKAFEVTASFQLEKVDDSTTRLIYSGSNRGTNFVGRAMMKLANKKGNDKVVQEFVDRVEEQATPADE				NA	NA	NA	NA	NA
AK012_00738	342			hypothetical protein	ATGTATAAAACAAGTGAATTCTCAACTATGACAGGACTCAGCAAAGATACACTGCGTTATTATGCAGAAGTGGGTCTGTTGGAACCGGCTTTTATTCACCCGGATAACAAATACAGGTATTACGATGATGGCAGTTACTTCCTGGCTCTTCTGCTTGGTAAACTGCGGAGGTTCGGGTTTTCCATAAAAGAAATGAAAACGGTGATGAATGACGAATCTTTTGCCAATCTTGAGAAATTATTACGGGAAAAGAAAAGCAGCATGGAAAAAGAGGCGGAAGATATTGAAGCGAGGATTCAGGAACTGGATGAATTTATCCAATCAGGTAAGGAGGAAAAATAA	MYKTSEFSTMTGLSKDTLRYYAEVGLLEPAFIHPDNKYRYYDDGSYFLALLLGKLRRFGFSIKEMKTVMNDESFANLEKLLREKKSSMEKEAEDIEARIQELDEFIQSGKEEK				NA	NA	NA	NA	NA
AK012_00739	330			hypothetical protein	ATGCTTACTAAAGTCAAGCAAGTGTTATTTTTAAAACGTCTGGAGAAAATGCTGGGATCATACAGAATAAATGTGCTTCATTTCATCCCCGGAAGAGTAAGGCTTTCGTCTCCATATTGGGAAGGACGCTCTAAAATTATTACGCAGCTTATACCACTTTTGGAACTGGAAAAGAAAGTGTATACCGTCAAACATACACCAGAGACAGGAACACTTCTCGTGGAGTATGATCCTGATCCGAACATAGGGGAGAAACAAATTGAAAACTGGTTCAACATCGTCCAACGGGTTCATAATGACGTGATAACTAAAGAAGTGACAGGGTTATGA	MLTKVKQVLFLKRLEKMLGSYRINVLHFIPGRVRLSSPYWEGRSKIITQLIPLLELEKKVYTVKHTPETGTLLVEYDPDPNIGEKQIENWFNIVQRVHNDVITKEVTGL				NA	NA	NA	NA	NA
AK012_00740	534			hypothetical protein	ATGATCCAAAGTTTAATCGGTCTGGGAGCATCTTTAGCCGCTCCAAAAATCATGAAACGGATGAAGGATCAAAAAGTTCAGGTTCTCCATGCGATGCCCGGGAGAGTCCGTATCCAAAGCAATCATTGGAAAAATGAAACGACTGCTGCTGCACTGGAAGAAGCATTTACTCCACTCCCCCTCGTTCAGTATGTGAAAGCTTCAGGAATCACAGGGAGTCTCCTGATTCAATTCAACAGCAGCACCCTTACGTCAGAACAATTCGATGCCTTAATCCAGCTGGCCGTCGACACCTCTACATCGACATACCCATACATAGAATCAAAAATGAAAAGTTCGTTCCGGAAAGGGGTGGATTCCTTGGATAATGCAGTTAAGAAACAAACCGGAGGGAAAACCGATGCAGAATCCCTTCTGGTTTTATGGCTTTTATATAAAGGAACCACCGGTTTTGCCGGGAATCCGGCCTTTGCGAGCAGCCTCCTTTATTGGGCTTATACTCTCATCAAGAAAGATGGTGACGGTAAACCTTGA	MIQSLIGLGASLAAPKIMKRMKDQKVQVLHAMPGRVRIQSNHWKNETTAAALEEAFTPLPLVQYVKASGITGSLLIQFNSSTLTSEQFDALIQLAVDTSTSTYPYIESKMKSSFRKGVDSLDNAVKKQTGGKTDAESLLVLWLLYKGTTGFAGNPAFASSLLYWAYTLIKKDGDGKP				NA	NA	NA	NA	NA
AK012_00741	2073	ctpC	COG2217	Manganese-exporting P-type ATPase	ATGGAAAAGGGGGAGAGACCAGAAGTCGTCGAAGCTTTCCACCGGAACATTCCAGGTGTGAACTCTGCCCTGTACACCAGTGAAACAGGATCTCTGCTGCTTCACCACGACGTTAACTGGACGGCGCGGGGTCACAGAATGAAAGCAGATAGGCTCTCTTCCATGTCTGAACTCTCACCTTATAAAGAAGAACTCCAAACAGCAGGTGCTGCTTTGCTGATGGACTTTTTTCTACCTGCTTCCCGTTTCACTGGAATGCTGAAGGTCCTTTCCCCTTCAACATTGATGACCCTGTATGCTTGCAGACATACCATCAGTAACGGACTGCAGCCACTTCAGGAAAAAAAACGGCCAAATGCCGACACATTGAGCATGGCCGCTATTCTGGCATCTATTATAAAAGGAAGCCCGAAATCAGCCGTTATGATTCTCATCATGTCCACGTTAAGTGAAATCATCACTGACATGACATCCCAGCGCACGAAGAAATACGTGCGGGACATGATGAATGTGGATACCCCCTATGTATGGAAGGTGACAAATAACGGCCGTGAAGAGAAAGTTGCCATTCAAGCAATCAACCCCGGTGATACACTGGCGGTTTTCGAAGGGGAAAAGATTTCCGCAGACGGCCATGTTTGCCAAGGAACCGCCACCGTAGATCAATCAGCCATTACAGGAGAATATATGCCCCAGGAGGTCTCCAGAGGGGTGGAAGTGTTTGCAGGTACTATTGTACAGTCCGGAAGTCTGCAGCTGAAAGTCACCCGCGTTGGAGAAGACACGACTGCTGCCGGGATCATTCATATGATTGAAGAAGCCCAGGAGTCCAAAGCCCCCATTCAGAATTACGCTGACGAAATGTCGGAACGGCTTGTTCCAGTTTCCTTTCTGCTGGCGTTATTGACATACGCCCTTACAAGAAGCTGGGACCGTGTGTTGAACATGCTGGTCATCGATTATGTATGTGGAATCAAGCTGGCTACAGCTACAGCTATTTCCGCTTCAATCGGGAGAGCTGCCCGTCAAGGAGCACTAGTCAAAGGGGGAGAACACCTGCAGTCCTTAGCCTCTGTGGATACGGTCATTTTGGATAAAACCGGAACGATTACGGAAGGACGCCCTGAAATTGTACAAATACTTCCATTTAATGGATTTACAGAAAACGAAATCCTGCGATACGCGGCGTCTGCCGAGGAACATTCTTCCCATCCAGTAGCAGACTCTATTTTATCCAAAATGAAAGAAAAGGGGCTTACGCCTTATGACCATGACCATTCAAGCATTGAAAACATCGTAGGTCACGGAGTTAGAGCTGTTGTCAATAACAAGGAAGTACTGGTCGGAAGCCAGAGTCTCCTCACCAAGTCAAATGTGGATTTAAGCAGCCTGCCCTTTCTTAAGAAATCTTTAAAAGAAAAGAACACTGTCTATGCTGCTGTTGACCAGTCCATTGCCGGTGTGATTGTTATTGAAGATGCTGTCCGATTTGGAATGAAGCGGACGATTAACCAATTAAGAAGAAGCGGCATCGATGAAATTGTCATGGTGACAGGCGATAAAAAAGAAACGGCCGAAGAGGTTTTCAAGGAGCTTCATCTGGATGACTATTTCCCTGAATTCCTCCCCCATGAAAAGGCAGCTTTTATCCATCACTATAAAAATCAGGGAAGAAATGTCTTGATGGTGGGTGATGGAATCAATGATGCCCCTGCTTTAGCAGCCGCGGATACAGGGGTAAGCATGGGAGGAAAACGGACAGATATTGCAGTGGAAGCCAGTGACCTCGTCATCACTTCAGACAATCCACAAATCCTTGCAGATATGGTCTATCTGTCCAAATCCACCATACAGATGATCCGACGGAATTTCGCTGTCACCATCGCTCTAAACAGCGCAGCTATCTTGTTCGGCCTTTTCGGATGGATTACACCGACAGTGGGTGCGGCTATACACAACTCAGCTACAATCGCAGTTGTCCTGAACAGCACACGCTTGTTGGTGAACAAGGAGAGAAAACCATGCAGGCAACCTTTACCATCGTCCATGACATACCTGGTCGACTCCGCCTGA	MEKGERPEVVEAFHRNIPGVNSALYTSETGSLLLHHDVNWTARGHRMKADRLSSMSELSPYKEELQTAGAALLMDFFLPASRFTGMLKVLSPSTLMTLYACRHTISNGLQPLQEKKRPNADTLSMAAILASIIKGSPKSAVMILIMSTLSEIITDMTSQRTKKYVRDMMNVDTPYVWKVTNNGREEKVAIQAINPGDTLAVFEGEKISADGHVCQGTATVDQSAITGEYMPQEVSRGVEVFAGTIVQSGSLQLKVTRVGEDTTAAGIIHMIEEAQESKAPIQNYADEMSERLVPVSFLLALLTYALTRSWDRVLNMLVIDYVCGIKLATATAISASIGRAARQGALVKGGEHLQSLASVDTVILDKTGTITEGRPEIVQILPFNGFTENEILRYAASAEEHSSHPVADSILSKMKEKGLTPYDHDHSSIENIVGHGVRAVVNNKEVLVGSQSLLTKSNVDLSSLPFLKKSLKEKNTVYAAVDQSIAGVIVIEDAVRFGMKRTINQLRRSGIDEIVMVTGDKKETAEEVFKELHLDDYFPEFLPHEKAAFIHHYKNQGRNVLMVGDGINDAPALAAADTGVSMGGKRTDIAVEASDLVITSDNPQILADMVYLSKSTIQMIRRNFAVTIALNSAAILFGLFGWITPTVGAAIHNSATIAVVLNSTRLLVNKERKPCRQPLPSSMTYLVDSA				NA	NA	NA	NA	NA
AK012_00742	576			hypothetical protein	ATGCAGGCAACCTTTACCATCGTCCATGACATACCTGGTCGACTCCGCCTGATCATCCCTGCTCTCTACGATAAGAAGGAACACGGGCAGATCCAGGATATGTTTACGTCCATTAAAGGAATACAAAAGGTAAACATTGAACCCGCCATCCAGTCGATGACAGTCCTTTATTCCAAGGACGTGATTAAAAGAAAAATTATTCTACGCTTTATCAGCCTATTTTTTAAGCAGACCCAATTTGATCCGCTGGATCATATCATGATCAATATTGCCCCTGCCCAGCGCAAGGATTTTTTTCGAAGTCTTGTCACAGGATTTCTGATTCTGCTCGCTTATTTGAACAATAAACCCGGAAGTGTCCCTGGAATGCTGGACTATGCTGTTGTCATTTCCACCGCTTACACGGTTCTATCCCACGGGGAAAACAAACTCCGTCACCCGGATGTTCTCACAGGAATTGTAAGCATGCTTTCCATCGGTGCAGGAAATATTCTGCAGGTGGCTATGGTTACGTGGGCTGTCAACGTACTTGAACTTTTAAATGATTCAAACAAACGAAAGGTTCTTCCATTTTAA	MQATFTIVHDIPGRLRLIIPALYDKKEHGQIQDMFTSIKGIQKVNIEPAIQSMTVLYSKDVIKRKIILRFISLFFKQTQFDPLDHIMINIAPAQRKDFFRSLVTGFLILLAYLNNKPGSVPGMLDYAVVISTAYTVLSHGENKLRHPDVLTGIVSMLSIGAGNILQVAMVTWAVNVLELLNDSNKRKVLPF				NA	NA	NA	NA	NA
AK012_00743	249			hypothetical protein	ATGGTATTAAATAAAGATTTCATGATGGGATTTGTATCAGGCACAGTCGTTGGAGCAGTTGGCTACCGGCTCTACGAACAAAACCAGGGGCAGCTTTCCCAGCTCATTCAAAACCCGGGGGTCCCATCCATGAATTCACTGCCTTCCCTTTCAACCAATCAGAATGAAGTGACGATGGAAGATTTGATTGCACAAAAAGAACGTCTGGAAGATTATATTGCTGAGAAAAAAGTAAACAGTGCCCAATAA	MVLNKDFMMGFVSGTVVGAVGYRLYEQNQGQLSQLIQNPGVPSMNSLPSLSTNQNEVTMEDLIAQKERLEDYIAEKKVNSAQ				NA	NA	NA	NA	NA
AK012_00744	741	mntB_1	COG1121	Manganese transport system ATP-binding protein MntB	ATGCACCACCCTGCTATTTCCATTAAAGATCTCCACGTTTCTTATTACGGAAATGAAGCTGTCAAAGGAGTCAGTCTCTCGGTGCAGCCGGGAAACCTTGTAGGAATTATCGGTCCTAACGGCGCAGGTAAATCTACGTTTCTAAAAGCTGTCCTCAACTTGATTCCAAAAGACAAAGGAGACATAGAGGTATTCGGGAACTCCATTCAGGAAGCTCGACGAAAAATTGCCTACGTCCCTCAGAGAAATGATATCGACTGGGATTTCCCCATTACTGTACTTGATGCGGTACTGCTTGGAACCTACCCTAATTTAAAATTGTTCCGCAGACCAGGAAGGAAAGAAAAAAGCTGGGCGATGGAATGTCTGGATCGAGTTGGTATGAAAGATTTCAGCAGGAGACAGATCGGTGAGCTTTCCGGCGGTCAGCAGCAGCGCGTATTTCTTGCACGTGCTCTTGCCCAAAAAGCCGAAATGTTCTTTCTAGACGAGCCCTTCGTCGGTGTTGATGTGTCCAGTGAGGAAACCATCGTCAGCATCTTAAAAGAATTGTGCTGGCAGGGAAAAACCGTCGTAGTTGTTCATCACGATTTAAGCAAGGCAGAGGAATACTTTCACCAGCTTATTCTATTGAATAAAGAATTGGTTGGTTTCGGTCCTGTCAGTGAAGTCTTCCGTACCGAAACCATCGCTAAAGCTTACCAGGGGCAGTTTGCCTTTATGAAAGAGATTGGAGTGTAA	MHHPAISIKDLHVSYYGNEAVKGVSLSVQPGNLVGIIGPNGAGKSTFLKAVLNLIPKDKGDIEVFGNSIQEARRKIAYVPQRNDIDWDFPITVLDAVLLGTYPNLKLFRRPGRKEKSWAMECLDRVGMKDFSRRQIGELSGGQQQRVFLARALAQKAEMFFLDEPFVGVDVSSEETIVSILKELCWQGKTVVVVHHDLSKAEEYFHQLILLNKELVGFGPVSEVFRTETIAKAYQGQFAFMKEIGV	PGPT0004355_126	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT2_TRANSPORT_SYSTEM,PGPT0004355-mntA2-K19973	NA	NA
AK012_00745	861	mntB_2		Manganese transport system membrane protein MntB	ATGGAGTTTATCGAGGCTGTCTTTCAATACGAGTTTCTGCAGAAAGCTCTGCTTACATCCATCATGGTCGGGATCATCTGCGGAGTTATCGGCTGCTTCATTATTCTGAGAGGCATGGCGCTCATGGGAGATGCCATTTCCCATGCGGTTCTCCCCGGCGTTGCCATCTCCTATATGCTGGGGATCAACTTCTTCTTCGGCGCCGTTTTCAGCGGTGTACTGACCGCCATAGCCATAGGGTTTGTCAGTCAAAACAGCCGGATTAAACATGATACATCCATTGGTATCATGTTTACTGCAGCTTTTGCTGCCGGGATTATCGTAATTACCATGCTGAAAAGCAGCACGGATCTCTACCACATTTTATTTGGGAATGTCCTTGCCGTCCGTGCCTCTGACATGTGGATCACACTGGGCATCGGCATCGTTGTATTGGCTGCCGTTTACTTATTTTACAAAGAGCTGCTCGTTACATCCTTTGATGAAACCATGGGTGCCGCCTATGGCCTCCCTGTCCGGATGATCCATTATTTTCTTATGACCTTGTTGACGATGGTCACTGTAGCTTCCCTTCAGACCGTCGGCATAGTTCTTGTAGTAGCTATGCTGATTACACCCGCGGCTGCCGCCTACTTGTTAACAGACCGCTTGTCCATCATGATTTTTCTTGCTGCCGGTATCGGTGTCGTATCCAGTGTGGCAGGATTGTACTTCAGTTTCACCTACAATCTTGCATCCGGAGCGGCGATTGTTTTAGCTGCTACAGCCATTTTCATCCTTGTATTCCTGTTTTCACCGAAGCAGGGACTATTGTGGAAAACGCTGAAAGTAAGAAAAAAGCGGGCATCCCTTGTTTCTTGA	MEFIEAVFQYEFLQKALLTSIMVGIICGVIGCFIILRGMALMGDAISHAVLPGVAISYMLGINFFFGAVFSGVLTAIAIGFVSQNSRIKHDTSIGIMFTAAFAAGIIVITMLKSSTDLYHILFGNVLAVRASDMWITLGIGIVVLAAVYLFYKELLVTSFDETMGAAYGLPVRMIHYFLMTLLTMVTVASLQTVGIVLVVAMLITPAAAAYLLTDRLSIMIFLAAGIGVVSSVAGLYFSFTYNLASGAAIVLAATAIFILVFLFSPKQGLLWKTLKVRKKRASLVS	PGPT0004360_83	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT2_TRANSPORT_SYSTEM,PGPT0004360-mntB2-K19976	NA	NA
AK012_00746	942	mntA	COG0803	Manganese-binding lipoprotein MntA	ATGTTGAAAAAAAATTGGATGCTTAGTGCAATCGTGTTTTCCACTCTGCTGTTTCTGACAGCCTGTGGAGACAACGAAGCAGGCGGAACGACAGATGAAGATGAAAAAGTCCAGGTGGTTACGACGTATTCCATTATTTATGACATCGTTAAAAATGTCGGCGGTGATCAAGTGGATATTCACAGCCTCGCTCCCATCGGCTCCAATCCCCATGAATACGATCCACTGCCGGAAGATGTAAAGAAAACGACGGATGCTGATGCTGTATTCTACAATGGTTTAAACTTGGAAGCCGGAAATTCATGGTTCAATAAACTGATGGAAACCACAGGAAAGACCGGTGAAGACGCTCCCGTCTTTTTGATGAGTGAAAATGTTGAAGCGATGTACTTAACGACAGAAGGCAAGGAAGGCGAAGAGGATCCGCACGCCTGGCTTGATATCAGCAATGGTATTCAATACGCTGAAAATGCGCGTGACGGCTTGATTGAGGTGGACCCGGAGAACAAAGAAGTATACGAGAAAAATGCGGAAGAATACATCGCAGAGCTTCAGGACCTGCATGATGAAGCACTGGCTCAGTTTGAGGAAATTCCTGAGGAAGAGCGTGTGCTCGTTACAAGTGAAGGAGCCTTTAAATATTTCAGTGACGCCTATGACTTCCAAGCCGAATATATTTGGGAGATCAACCAGGAAAACCAGGGAACTCCAGATCAAATTACGAGAATCGTCGATTTGATCAATGAAAAACAAATCACAGGATTGTTCCTCGAAACCAGTATTGATGCCCGGAGTATGGAAGCCGTATCATCAGAAACCGACGTTCCGATCAGAGGTAAAGTCTTCACCGATTCCCTTGCTGAACCTGGAGAAGATGGAGACAGCTACATCTCCATGATGGAATGGAACATCAAAACCATTAAAGAAGGATTAACCGAATAA	MLKKNWMLSAIVFSTLLFLTACGDNEAGGTTDEDEKVQVVTTYSIIYDIVKNVGGDQVDIHSLAPIGSNPHEYDPLPEDVKKTTDADAVFYNGLNLEAGNSWFNKLMETTGKTGEDAPVFLMSENVEAMYLTTEGKEGEEDPHAWLDISNGIQYAENARDGLIEVDPENKEVYEKNAEEYIAELQDLHDEALAQFEEIPEEERVLVTSEGAFKYFSDAYDFQAEYIWEINQENQGTPDQITRIVDLINEKQITGLFLETSIDARSMEAVSSETDVPIRGKVFTDSLAEPGEDGDSYISMMEWNIKTIKEGLTE	PGPT0004365_83	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT2_TRANSPORT_SYSTEM,PGPT0004365-mntC2-K19975	NA	NA
AK012_00747	516			hypothetical protein	ATGCGAAGTTTTTTTGATGTCACACAACTAATGTTTCTTCGTTTCTTAATGAGACTAATGTTAAAAAAGAAGCTGTACAAAGAACCTATTAAAGTTATAGAGAAGTTCCGAGAGCGTTTTGTTAGAAAAGGTTACTTGAACCATGATTTGTCAAAAGGACTTGAAACACCCAGGTATTCAATTATTGACAGTTTGGTTTCTACATTTGAATCTCTGCGTCATTATCGTAATGAAGATGATTTTTACCTACAGGTGGCTAAACAGTGGGTTGGTGATTTATATAGCAGTAATCACAAAATATCTTCCTTCTTCGTTATTGTTTATGGATTGATTTTATTAACCGTTTTTATAAATCAGTCTTTCATTACCATACCAGGGGAGATGATGTTCATAGGGCTCTTTGTGTTACCTTTATTAGGATTCATTAGTGCCATAGGAGGAAGAGGTTGGAAGAGGTTAATGCTAATGTCCATTAACATCCTGGTTTTTACTTATTCCATTATAATCGTAGCTTAA	MRSFFDVTQLMFLRFLMRLMLKKKLYKEPIKVIEKFRERFVRKGYLNHDLSKGLETPRYSIIDSLVSTFESLRHYRNEDDFYLQVAKQWVGDLYSSNHKISSFFVIVYGLILLTVFINQSFITIPGEMMFIGLFVLPLLGFISAIGGRGWKRLMLMSINILVFTYSIIIVA				NA	NA	NA	NA	NA
AK012_00748	1011	feuC	COG0609	Iron-uptake system permease protein FeuC	ATGATTCATCCTTCTGTTATAAAAAAACAACGCTTATACCTGATTCTGCTTACTCTATTAATCGTCGCCACAGGGACAGCAGGACTCGGGCTTGGTTATTCTTCAGTTTCCTATGACCGGATCCTGCCAACGATCCTTGGGAATGGGGATTTCAAAGAGGAGTTTGTGTTATTTTCCATCCGGCTTCCACGGATGGTCATAACGGTTCTGGCAGGGATGGCCCTTGCATTATCCGGTGCGATCCTGCAGGGGATCAGCAGGAACGACCTTGCCGATCCGGGAATTATCGGCATCAATGCCGGGGCAGGCGCAGCTGTGGCCCTTTTCTTTTTGTTTGCGCCTATTGATGTAGGTTCCTTTGTATACGTTCTCCCACTGATTGCTTTTGGGGGAGCACTGATTACCTCTCTTGGGATTTATTTATTCTCCTATAATAAACGGACAGGTTTTGAGCCTGTTCGATTAGTGCTTGTCGGAGTCGGGTTTTCAATGGCCCTTTCCGGCTTAATGATTATTCTCATATCTTCAGCACCGAGGGAGAAGGTGGACTTTATCTCCAAATGGCTGGCAGGAAGTATCTGGGGCACGGATTGGCCGTTCATCCTTGCTCTGCTGCCTTGGGTGATCATTTTGATTCCATTTGCGCTTTGGAAGAGCAACGTTATGAATCTGTTAAATACGAGCGAACCTGTCTCCATCGGAGTCGGGCTGCCTCTGAAGAAAGAGCGTTTCATCATGCTCATGACGGCTGTTGCCCTGGCAGCTTCAGCCGTATCCGTGACGGGAGGAATTGCTTTTGTCGGCTTAATGGCTCCACACCTCGCCAAGGTTCTCATCGGCCCGAGAAGTCAGTTGTACCTGCCTTTGAGCATTCTTATCGGAGGTTGGCTTCTATTGTTAGCCGATACTGTCGGAAGGAATCTGGCGGAACCTGATGGAATTGCAGCGGGAATTATGACGGCACTGATCGGTGCCCCATATTTTATTTATCTATTATTGAAGAAATCCTGA	MIHPSVIKKQRLYLILLTLLIVATGTAGLGLGYSSVSYDRILPTILGNGDFKEEFVLFSIRLPRMVITVLAGMALALSGAILQGISRNDLADPGIIGINAGAGAAVALFFLFAPIDVGSFVYVLPLIAFGGALITSLGIYLFSYNKRTGFEPVRLVLVGVGFSMALSGLMIILISSAPREKVDFISKWLAGSIWGTDWPFILALLPWVIILIPFALWKSNVMNLLNTSEPVSIGVGLPLKKERFIMLMTAVALAASAVSVTGGIAFVGLMAPHLAKVLIGPRSQLYLPLSILIGGWLLLLADTVGRNLAEPDGIAAGIMTALIGAPYFIYLLLKKS	PGPT0003770_7442	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
AK012_00749	1002	feuB	COG0609	Iron-uptake system permease protein FeuB	ATGCAGACTTTTTCAATAAAACAACTCTATAAATTTATAATCGGAATCGCCGTTCTCATCCTTTCTTTTTTCGCTGCTATGACGTTTGGGGCGGCGGAGACCACTTTTAAGCAGGCATGGGTCTCCATGACAACAGGCTCGCTGGATTCGACTACAACCATGCTGAGGGAAATCCGCCTGCCGCGGGAAATTGCTGCGGCCCTTGTAGGGGCTGCGCTGGCGGTATCAGGAGCGATCATGCAGGGGCTGACTCGAAACCCTCTTGCTGATCCGGGTCTGCTTGGTTTAACCGCAGGGGCAAATGCTGCTCTTGCGGTTACACTTGCTTTCTTCCCTTCTGCGAATTATATGGGAATCATGCTGGCTTGTTTCATTGGGGCAGCTGTCGGTGTCGTTCTTGTATTTGGTATCGGTTCAGCGAAACGCGGAGGGTTTTCACCTTTCCGGATTGTACTTGCCGGAGCTGCCATATCAGCCTTTCTGTTTGCTGTTGCTGAAGGGATCTCCCTTTATTTCAAAGTGTCCAAAGATGTATCCATGTGGACGGCCGGCGGCTTGATTGGTGTATCCTGGAACCAGATACAGCTCATTGCACCAGTTGTATTAATCGGAACAATTGTTGCGGTACTGCTGGCCCGGCAGTTGACGATTATCAGTCTGAACGAAGACGTGGCTGTTGGACTCGGACAGAACATCCTCCTCGTGAAGATTATTCTATTCATTGTCATTACCCTGCTCGCCGGTGCAGCAGTGGCTCTTGTCGGGAATCTGGCCTTTGTCGGTTTGATGGTGCCTCATATGGTCCGGCCGTTTGTAGGAAATGATTACCGAATGGTGCTGCCGATGTCCGCTTTGTTCGGAGGAGCTTTCCTTCTCCTTGCTGATACACTGGCCCGGACCATCAATGCTCCTTATGAGACACCGGTTGCAGCGATTGTCGCTGTTCTCGGTCTTCCATTCTTCCTTTTTGTAGTCCAGAGAAAGGGGAATGCGTTCTCATGA	MQTFSIKQLYKFIIGIAVLILSFFAAMTFGAAETTFKQAWVSMTTGSLDSTTTMLREIRLPREIAAALVGAALAVSGAIMQGLTRNPLADPGLLGLTAGANAALAVTLAFFPSANYMGIMLACFIGAAVGVVLVFGIGSAKRGGFSPFRIVLAGAAISAFLFAVAEGISLYFKVSKDVSMWTAGGLIGVSWNQIQLIAPVVLIGTIVAVLLARQLTIISLNEDVAVGLGQNILLVKIILFIVITLLAGAAVALVGNLAFVGLMVPHMVRPFVGNDYRMVLPMSALFGGAFLLLADTLARTINAPYETPVAAIVAVLGLPFFLFVVQRKGNAFS	PGPT0003770_6953	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
AK012_00750	951	fhuD	COG0614	Iron(3+)-hydroxamate-binding protein FhuD	ATGAAGAAAATCTGGCTGATCGGTCTCTTATCACTGCTGTTCATTCTTAGTGCCTGTGGTGGTGGAGATACAGAAAATGACAATACAGGAGATGGAACCGAAGAAGATACTCAAACCGAAGAGACAAGCTCTGATTCAGAAACAAGAATGTATGAGTCGGAGAACGGAGAAATCGAAGTTCCGGCTGAACCGGAGCGCGTCGTTGTCCTTTCCTCCTTCGCAGGCAATGTTCTTGCTCTGGATACAAATATCGTAGGGGTGGACGCCTGGTCTAAAGGTAACCCATTATTTGAAGAAGATCTTGCTGATGCTGAAGAGCTCTCTGATGAAAGTCTTGAGAAGATCATTGAACTCGAGCCGGATTTAATTATCGGGCTGGGAAGCACAAAAAATATAGAAAAGCTGAATGAAATTGCTCCTACTGTCACATACACGTACGGCAAGCTCGGTTATTTAGAGCAGCACGTGGAAATTGGTAAACTTCTGAATAAAGAAGAGGAAGCCCAGCAGTGGGTGGATGAATTTAAAGAAAAAGCCGGTAAGGCGGGTACAGAAATCAAAGATGAAATCGGTGAAGATGCTACGGTTACTGTATTCGAAGAATTTGATAAACAGCTGTATGTTTTCGGAGATAACTGGGCACGTGGTACAGAAATCCTTTATCAGGAGATGGAACTCAAGATGCCTGAAAAAGTAAAGGAAATGGCTTTGGAAGATGGCTTCTATGCCATTTCACCTGAAGTACTTTCAGACTATGCCGGGGATTACATGATTTTCAGTAAGTCCGACGGGGCAGACAGTTCCTACCAGGAAACTGAAACGTATAAAAACATCCCGGCTGTAGAAAACGATCAAGTATTTGAAGCTGACGCAGAAGCCTTCTATTTCAATGATCCTATTTCTCTGGAACATCAGCTCAGCTTCTTTAAAGAAAAGTTCTTGACCGAATAA	MKKIWLIGLLSLLFILSACGGGDTENDNTGDGTEEDTQTEETSSDSETRMYESENGEIEVPAEPERVVVLSSFAGNVLALDTNIVGVDAWSKGNPLFEEDLADAEELSDESLEKIIELEPDLIIGLGSTKNIEKLNEIAPTVTYTYGKLGYLEQHVEIGKLLNKEEEAQQWVDEFKEKAGKAGTEIKDEIGEDATVTVFEEFDKQLYVFGDNWARGTEILYQEMELKMPEKVKEMALEDGFYAISPEVLSDYAGDYMIFSKSDGADSSYQETETYKNIPAVENDQVFEADAEAFYFNDPISLEHQLSFFKEKFLTE	PGPT0003765_9845	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
AK012_00751	846	yusV_1	COG1120	putative siderophore transport system ATP-binding protein YusV	ATGACACGTCTACATACGGATGGTCTCCATGTGGGCTACGAGGATAAACGCATTGTAGAGGATATGACGCTGGAAATTCCGGAAGGTAAAATTACGACGATCATCGGCGCCAATGGCTGTGGAAAATCCACACTGCTGAAATCGATTGCACGCATCATTCCTAAACAGGAGGGCAGCATTTTTCTCGACGGGGAAAGTATCCACAATTACCCGACGAAGGAGCTGGCCAAAAAGATGGCTATTCTTCCTCAATCTCCTGAAGGGGCTCCAGGCTTAACCGTCGGCGAGCTTGTATCCTACGGCCGTTTTCCATACCAAAAAGGCTTTGGACGTCTTTCTAAAAGGGATCGTGAAGTCATTGACTGGTCGATAGAAATGACAGGGATGATGGAGTTCAAATACCAGCCGGTGGATGCGTTGTCAGGCGGTCAGCGCCAGAGGGTCTGGATTGCGATGGCTCTGGCTCAGGAAACAGACCTTATCCTGCTTGATGAGCCGACGACCTACCTCGATATGGCTCATCAGCTGGAGATCCTTGAGCTGTTGGAACGCCTTAACAGAGAGGAAGGCCGGACAATCGTCATGGTGCTCCATGATGTTAATCAGGCTGCGAGGTTTGCGGACCACCTGATTGCACTAAAGCATGGCCGTATCATAAAAGCGGGATCCGGACAGGAAGTCATTCACAAAAGCGTGTTGAGAAGGGTCTTTAATATCGACGCTGAAATTGTTGCGGACCCACGAACAGGAAAACCCATTTGCTTGACATACAACTTAGTAAAGGGAGATAGAAATGATGAAGAAAATCTGGCTGATCGGTCTCTTATCACTGCTGTTCATTCTTAG	MTRLHTDGLHVGYEDKRIVEDMTLEIPEGKITTIIGANGCGKSTLLKSIARIIPKQEGSIFLDGESIHNYPTKELAKKMAILPQSPEGAPGLTVGELVSYGRFPYQKGFGRLSKRDREVIDWSIEMTGMMEFKYQPVDALSGGQRQRVWIAMALAQETDLILLDEPTTYLDMAHQLEILELLERLNREEGRTIVMVLHDVNQAARFADHLIALKHGRIIKAGSGQEVIHKSVLRRVFNIDAEIVADPRTGKPICLTYNLVKGDRNDEENLADRSLITAVHS	PGPT0003760_1281	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
AK012_00752	1587	nprE	COG3227	Bacillolysin	ATGAATTGGAAAACTGTAATGGCCACCGTTGTATTAGGTACGAGCCTCGTGTCTGGCGGGACGCTTGCTCATGCTGAAACAGGAAAAGAAGTGAAAGAGGTGCCAAATGCCTCAGAGTTCGTGAAGAAGGAATGGCAGGCGAAAAATGTCAAATCTGAAAAAGGGATCAAGGAATTCTTTAAGCAGAATGCGGAAGAATTTCAGCTGAACCCATCCAAAGATTTGAAGCTGATTGATTCTGAAACGGATGATTTGGGGATGAAGCACTATACGTATCAACGGGTCATTGAGGGAATTCCTGTTGCCGATTCAGAAGTGGTTGTACATACGGATGAAACAGGCAGGGTAACAGCTGTGAACGGGGAATTTCATAAGAATGCACCGGATAAGCTGGAAGAAAAACGCAGAGTCGGTAAGACAAAATCACTGATTTTAGCGTGGAAGCACATTGATGTAGATAGGAATGATGCGGATAAAGTTCAGCAAAGTGACGTCGGCGAGGATTTTGAAACGCTCACGGAAAACACAGACCTTGTTGTGTTCAATGGTGAGCAGGGGTATACGCTGGCCTATCAAGTGGAACTTCAATTCGCTGAGCCTTATCCAGCCAACTGGAAAGTCTTCATTAATGCAGAGTCAGGGGAAGTGCTGAAAGCTTCCAATGCTGTGCATGAAGCCACAGGTACAGGAACGGGTGTATTGGGAGATACAAAATCTTTGAATACATACGCGTACAATAACACGTACTACTTATATGATACGACTAAACCAATGAGCGGCGTGATCGAAACCTTCGATAACTATGGCGGCCAATACAGCAATCTACCAGGCAGCTATGTCACAGATTCCGGCAACACCTTCACGAGTGAGCGTCAGAAAGCTGCTGTTGATGCCCACTACTATGCAGGGGAAGTGTTCGATTACTTCTATGACACGTTCGGTCGTGAAAGTTATGATGATCAGGGCTCCAATATTCGTTCCACCGTTCATTACGGCACTAACTACAATAACGCAGCCTGGACGGGGAACCAGATGATCTACGGAGATGGCGATGGCAGTACATTCACATACCTCTCCGGCGCTGATGACATCGTCGCTCACGAGTTAACGCATGCAGTGACAGATACGACGGCAGATCTTGTCTACGAAAATCAGCCGGGAGCTTTAAATGAGTCCTTCTCTGATGTATTTGGTTATTTTGTAGATTCAGAGGATTGGCTGATGGGTGAGGATGTGTATACGCCGGGCCGTTCAGGAGATGCGCTGCGTTCAATGTCCAATCCGAATGCCTATGACCAGCCGTCTCATATGAATGAATACCGCAACCTTCCGAATACGGAAGCCGGGGACTGGGGCGGCGTCCACATCAACAGTGGCATTCCGAACAAAGCTGCGTACAATACCATTAATAGTATTGGGAAATCGAAGGCAGAAAAGATTTATTACCGTGCCCTTACGGTTTACCTGACACCGAACAGCAACTTCTCCAGTGCCAAGCAGGCCCTTGAGCAATCCGCGCAGGATCTGTACGGATCTTCAACAGCCAATGCAGTAACACAGGCTTGGAATAGTGTAGGAGTTAACTAA	MNWKTVMATVVLGTSLVSGGTLAHAETGKEVKEVPNASEFVKKEWQAKNVKSEKGIKEFFKQNAEEFQLNPSKDLKLIDSETDDLGMKHYTYQRVIEGIPVADSEVVVHTDETGRVTAVNGEFHKNAPDKLEEKRRVGKTKSLILAWKHIDVDRNDADKVQQSDVGEDFETLTENTDLVVFNGEQGYTLAYQVELQFAEPYPANWKVFINAESGEVLKASNAVHEATGTGTGVLGDTKSLNTYAYNNTYYLYDTTKPMSGVIETFDNYGGQYSNLPGSYVTDSGNTFTSERQKAAVDAHYYAGEVFDYFYDTFGRESYDDQGSNIRSTVHYGTNYNNAAWTGNQMIYGDGDGSTFTYLSGADDIVAHELTHAVTDTTADLVYENQPGALNESFSDVFGYFVDSEDWLMGEDVYTPGRSGDALRSMSNPNAYDQPSHMNEYRNLPNTEAGDWGGVHINSGIPNKAAYNTINSIGKSKAEKIYYRALTVYLTPNSNFSSAKQALEQSAQDLYGSSTANAVTQAWNSVGVN	PGPT0020995_384	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020995-nprM-K01400	NA	NA
AK012_00753	2538	cadA		Cadmium-transporting ATPase	ATGAGTGCAAACGAAAAAGACATACAAAACAGCTGCTGCTCCGGGAGTCATGAGCAGAAGCTGGAAGTCATCCAGGCCGAAACGGACTGCTGCTCCAAGGAGAATACGAATCATGGAAAGCAGGAAGCTTCCTGCTGTACTGCACAAGAAACCGAGGAGCGGGAATCCTCCTGCTGTGAAACTGGTGAAGTGGACGATGATAAGGATGCAGGTCAGCCGGATAATCCTCTGCAGCTTGTAGAATACCAGATCAAGGGAATGGATTGTCCGTCGTGTGCCGCAACGATAGAAAAAGGTCTTCAAAAAAAAGAGGGCATTCAATCCGTTTCGGTAAACTATGGTACAGCTAAAATGGCCGTAGGGGCCGAAAATCCGGCCTTATTTGATCAGATCCCTCAACACGTAAAGAAACTGGGGTTTGATGCTTATCCTCTTCAGACAGAACGGGAAATGGAAACCTATAAAGTGGAGGGCATGGACTGCGGCTCCTGTGCTGCCACGATTGAAAAGCACCTGTCCAATAATCCTGCAGTTCAAGAGGTTCGTGTGAATTTTTCCACAGGAAAGCTCCACGTCCGGCACACGACAAAACCAGATGAAATCATCAAAGGGGTTCGGCGGTCAGGATTTGAAGCCTTTCTGGAAAGTGGGGAAACGCCTGCAGCAGGAAAGGGGAACGATCGAAGGCACTTTCCAGCAGCCACGGTGTCCGGAACCATGCTCGCCCTTGGTTTCATTGGGTCATTCACTCCACTGTCAGCCGCATGGGTCACCGCCTTTTACGCCTTGGCCATTGCGGTGGGAGGCTGGAAACCGCTCCGAAGTGCTTTTTATGCTGTGAAAAGTGGTTCTCTTGATATGAATGTGCTGATGGCTTCTGCTGCTCTTGGAGCGGCCTTGATCGGGGAATGGTTTGAAGGGGCCATGGTCGTCTGGTTGTTTGCTGTGGGGAATGCTCTTCAGAATCGTTCATTGGAACGGACGAGAGAATCTATACGCAGCTTAATGAACATTGCTCCGGCCGAAGCTCTTGTCAAAGAAGGCCGTCAATGGATCCGCAAAGCTGTTGAAGAAGTTTCAATAGGAGAGGTCATCGTAGTAAAACCAGGAGACCGGGTCCCTTTGGACGGAGAGATTCTTTCAGGCGCTTCCAGCTTGAATCAGGCCCCGATCACAGGCGAGTCTCTTCCTGTTGATAAGCAGGAGGGGGATGTGGTTTATGCCGGTACAATAAATGAAAGTGGATCATTGGAAGTCCGTGTAACGAAACGGTCGGAAGATACGGCTATTGCGAAAATTATCCATCTGGTGGAAGAAGCCCAGGAAAAGAAAGCTCCTACGCAGGCATTTGTAGACCGATTTGCTGGTGTCTACACACCTATTGTGTTTATTCTGGCGCTTTTAGTGATGGTTATTCCTCCGTTAATCACAGGGGGAGCGTGGGGGGAGTGGCTCTACAAGGGAATCTCCCTGCTTGTTGTCGCCTGTCCCTGTGCTCTTGTGATTTCCACCCCTGTAGCCATTGTATCGGCTATTGGTAATGCCGCCCGTCACGGCGTACTGATCAAAGGTGGAACGTTCCTGGAAAAAGCAGGCGCAATTCAGGTCATGGCCTTTGACAAAACAGGGACCCTTACGGAAGGCAGGCCGAAAGTGGCTGATGTCATCCCTCTCCATGGGGAAAAAGATGAGCTGATCAGCATCGCCCGAACGATTGAGGAATATTCTGCTCATCCGATAGCGGCTGCCGTATCAGCCTATGCTTCGGAGCGTGGCATTTCAGCTGTAAATGGCCGTGATTTCCGTGCCCTGCCTGGTAAGGGAGCGCAGGCGGATATTGATGGAACGGTCTATTACGCAGGAAATCCGAAGTTGTTTAAAGAACTGGGAGTCCCTTTGAATGAGTTGGAGAGTCAATTGAAACAACTTCAGTCCGAAGGGAAGACCCTCGTTCTCATAGGGACAGCGGAGGAAATATCTGGAATCATTTCTGTCGCTGACTCTATGCGGGAAATCACGGTCCGTTCGATCCAATCCTTGAAACAATCCGGATTGAAAGAACTGGTTATGCTTACTGGAGATAATGACGGGACCGCCAGGCGGATAGCGGCAGAAGCAGGCGTGGATCGTTACTTTGCTGATTTGATGCCGGAAGACAAGACAAAAGCGATAGAGAAGCTCCAGCACGAAGGGAAACAGGTAGCTATGGTAGGGGATGGAATCAACGATGCCCCTGCTCTTGCTTCCTCAGACCTGGGGATAGCGATGGGCGGTGCAGGTACGGATACAGCTATGGAAACGGCGGACGTCGTTTTAATGGCGGATAATCTGGAAAAGCTGCCTCATACGATACGCTTGAGCCGGAAAGCCTTGACCATTATCAAACAGAACGTGTGGTTCTCGCTGCTTACGAAACTGGCAGCACTAGTTTTGATCTTCCCAGGCTTCCTCACGTTATGGATGGCTGTGCTCAGTGATACAGGAGCGGCTCTTATCGTCATTTTGAACAGCATGCGGCTGCTTCGTCATAAAGCATAA	MSANEKDIQNSCCSGSHEQKLEVIQAETDCCSKENTNHGKQEASCCTAQETEERESSCCETGEVDDDKDAGQPDNPLQLVEYQIKGMDCPSCAATIEKGLQKKEGIQSVSVNYGTAKMAVGAENPALFDQIPQHVKKLGFDAYPLQTEREMETYKVEGMDCGSCAATIEKHLSNNPAVQEVRVNFSTGKLHVRHTTKPDEIIKGVRRSGFEAFLESGETPAAGKGNDRRHFPAATVSGTMLALGFIGSFTPLSAAWVTAFYALAIAVGGWKPLRSAFYAVKSGSLDMNVLMASAALGAALIGEWFEGAMVVWLFAVGNALQNRSLERTRESIRSLMNIAPAEALVKEGRQWIRKAVEEVSIGEVIVVKPGDRVPLDGEILSGASSLNQAPITGESLPVDKQEGDVVYAGTINESGSLEVRVTKRSEDTAIAKIIHLVEEAQEKKAPTQAFVDRFAGVYTPIVFILALLVMVIPPLITGGAWGEWLYKGISLLVVACPCALVISTPVAIVSAIGNAARHGVLIKGGTFLEKAGAIQVMAFDKTGTLTEGRPKVADVIPLHGEKDELISIARTIEEYSAHPIAAAVSAYASERGISAVNGRDFRALPGKGAQADIDGTVYYAGNPKLFKELGVPLNELESQLKQLQSEGKTLVLIGTAEEISGIISVADSMREITVRSIQSLKQSGLKELVMLTGDNDGTARRIAAEAGVDRYFADLMPEDKTKAIEKLQHEGKQVAMVGDGINDAPALASSDLGIAMGGAGTDTAMETADVVLMADNLEKLPHTIRLSRKALTIIKQNVWFSLLTKLAALVLIFPGFLTLWMAVLSDTGAALIVILNSMRLLRHKA	PGPT0004200_1112	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
AK012_00754	372	cadC		Cadmium resistance transcriptional regulatory protein CadC	ATGCCGGAAGAAGTAGTTAAGAAACAGCCCAAAGATACTTGCGATATCTTTTGCTATGACGAAGCACTCGTGCAGCGCGTTCAGCCCCAAATCGATAGAGTGGCAGGCGTGGAGCAGATTTTCAAAGCCCTTTCTGATGCGACCCGGATGAAAATCGCCTATGCTTTAACGTTGGAAGAAGAACTGTGTGTCTGTGATGTGGCTAATATCATCGGAGCGACAACAGCCACGGCTTCTCACCATCTTCGATTGCTCCGTAATATGAACCTCGCTAAGCATAGGAAGAAAGGGAAGCTTGTCTTTTATTCCCTGGCCGATGAACATGTCCGGCAGTTAGTATCGATCGCCTTACTGCACAAAGAACATGATTGA	MPEEVVKKQPKDTCDIFCYDEALVQRVQPQIDRVAGVEQIFKALSDATRMKIAYALTLEEELCVCDVANIIGATTATASHHLRLLRNMNLAKHRKKGKLVFYSLADEHVRQLVSIALLHKEHD	PGPT0004290_711	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_BISMUTH_RESISTANCE	BISMUTH_RESISTANCE-BISMUTH_HOMEOSTASIS,PGPT0004290-cadC|smtB-K21903	NA	NA
AK012_00755	441			hypothetical protein	ATGAAAGGATACCAAATTATTGAAATGAAAACGGAACATGAGATCCGTTCCGTTTTTCCAGTTATGCATGAACTGCGGCCCCACTTACATGAACAGGAATATGTGGAACTGGTAAAAGAGGCCGTTTCAGTAGATCGCTACCGCCTTTATGGATTATGGAACAATGGAACGCTTGTTGCTGTAACGGGCTTCAAACCGATGACCACCTTGTATTATGGACGATTTGTCTGGGTATGTGATCTAGTTACGACTTCCACAGAACGATCCTCCGGATGGGGAAGCATCCTGCTGCAGTTCATTGAAAAATGGGGAGAAAGGAATGGATTTGCAAGTGTTGCCCTGTCTTCGGGGCTCAAACGGGAAAGAGCCCATAAATTCTATGAGGAACATAAGCAGTACGAAAAAGTGAGTGTTGTATTCCGGAAAAAGCTTGATACATAA	MKGYQIIEMKTEHEIRSVFPVMHELRPHLHEQEYVELVKEAVSVDRYRLYGLWNNGTLVAVTGFKPMTTLYYGRFVWVCDLVTTSTERSSGWGSILLQFIEKWGERNGFASVALSSGLKRERAHKFYEEHKQYEKVSVVFRKKLDT				NA	NA	NA	NA	NA
AK012_00756	246			hypothetical protein	TTGTTCGATAAATTTGAAAAAAAGACAGGCGTGAAAATGGATGAAGTCTTTAAGCTTGCGCAATCCCTGCAGGGAGCAAACTTTAAAGATGAAAAAACCATTCGAAATGTAATCAAGAAAGTTTCTTCCCTTGCCAATCGTCCGGTATCCAAGGAGAAGGAAAATATGATCGTCAAAGCTATTCTTGATGGAAAAGTACCGAAAGACATGGCTTCCATGGAAAAAATGATGAAAAAGAAGAAATAA	MFDKFEKKTGVKMDEVFKLAQSLQGANFKDEKTIRNVIKKVSSLANRPVSKEKENMIVKAILDGKVPKDMASMEKMMKKKK				NA	NA	NA	NA	NA
AK012_00757	840			hypothetical protein	ATGGGGGTGATGGCTACGTCGGAATCCGTGGAGCGCTTTTGTAAGCGAGCTGCGCAAGGTAAGGGAAACCTGTACGACATGCAGAGAAAGATGTTATGCCGGACGGAAGACCATCCATTTATGGATTTGAAGGAAAAAGACATCCAGCGGCTTCTCCACTTTTATGGATTATTTAAGCCTGAAAGCTATAAGAAAGCGGAAAGGTTCGTAAAGGATTGGAAGGAGCAGCATGTATATTACCATCTGGAGAAGGAATACGAGCGTCTGAAAAAAATGTGGCAGGGCCCTGATGTTCCTGTTTATTTGTACCCCTTCCAAGGCAATGGAGGTTTGTTTGGAAGGGGAAAAGGAGGGAAAGGCGGGGCGGCTTTTGCTGATGCGGTTTATATTTTTTATGGCGAACCGGAGGAAAAGGACGACTGGAAGGCTGTACTTGCTCATGAATATAACCATGTCTGCAGGATCCACAGAGGGAAACGGTCCTTAAAAGAGGTTTCTCTGCTCGAATCCCTTATCATTGAGGGGTTAGGAGAATACGCTGTCCATCAGCTCTATGGGGAAAAATATACAGCTGCGTGGACGCAAAGATATTCGGATCGCCACTTAGAGCAGATATGGAAAAAGAAATACCTTCATGCGATCCATATCAAGGGCCAGGAGAAACATATGGATTATTTGTATGGAAATCGGAAGCAGGGATTTCCGAAGTGGGCGGGGTATCAGCTGGGGTATCGGATGGTGGAATCCTACCATCGCTCCCATCCGGAAGAAACCATCCGGACGCTGCTTCAAAAAAGCGCAGAAGACATTTATCACGGTTCCCTGTTTTTTGGAAAGTAA	MGVMATSESVERFCKRAAQGKGNLYDMQRKMLCRTEDHPFMDLKEKDIQRLLHFYGLFKPESYKKAERFVKDWKEQHVYYHLEKEYERLKKMWQGPDVPVYLYPFQGNGGLFGRGKGGKGGAAFADAVYIFYGEPEEKDDWKAVLAHEYNHVCRIHRGKRSLKEVSLLESLIIEGLGEYAVHQLYGEKYTAAWTQRYSDRHLEQIWKKKYLHAIHIKGQEKHMDYLYGNRKQGFPKWAGYQLGYRMVESYHRSHPEETIRTLLQKSAEDIYHGSLFFGK				NA	NA	NA	NA	NA
AK012_00758	150			hypothetical protein	ATGGGCTTTGGATACGGTGGATACCCTGGTGGTTTCGGCGGATACGGATGCGGCTATGGATACGGTGGTTACGGATCCGGCAGCGGATTTGTATTGATCGTCGTTCTGTTCATTCTATTGATTATCGTTGGAGCGGCTTTCGTCTGCTGA	MGFGYGGYPGGFGGYGCGYGYGGYGSGSGFVLIVVLFILLIIVGAAFVC				NA	NA	NA	NA	NA
AK012_00759	507	resA_3	COG0526	Thiol-disulfide oxidoreductase ResA	TTGACTACATTCAAACTAAACCAAGATGCACCTGACTTTACACTACCAACAGTATCCGGTGAAACATTTACCTTCTCAGACGTTTTAAAAGAAGAAGGGGAAAACTGGAACCTTATCGTATATTTCCGAGGCTCCTGGTGCCCGGCCTGCATGAGCGAACTTGATGAATTCCAAAACAGCAGGGACTATTTCGACAAACATAACATCCGTCTCATTACCGTCACTCACGATGATAAGGAAAGCCTGGAGAAAATGGTGGACGAGCACGATTTCACCTTCCCTGTTCTCATTGATGAGAATCTGGAATTCCTTTCTTCCTACGGCGTTCACTATCATGATGAGCAGGCTCCATATGAAGATCATGGTACGCACGGAGAACCTGCCTATTTCCTAACGGATGACCAGGGTAAAGTGTTGTATCAGCAGCGTCAGACAAGCCCGTTCGGCCGTCCGCACCCAAATGAGATCCGTAAAATCGTCAAGTATATCCGAAGCAATTTGAAATAA	MTTFKLNQDAPDFTLPTVSGETFTFSDVLKEEGENWNLIVYFRGSWCPACMSELDEFQNSRDYFDKHNIRLITVTHDDKESLEKMVDEHDFTFPVLIDENLEFLSSYGVHYHDEQAPYEDHGTHGEPAYFLTDDQGKVLYQQRQTSPFGRPHPNEIRKIVKYIRSNLK				NA	NA	NA	NA	NA
AK012_00760	759			hypothetical protein	GTGGCAAAATTAACGACCAATGAACGATACGTCCGTTCGCTTCAATTGTTGAGAGAGAAAGTGCCGAGCTTTCAATCCTTTCCTTTCCATTTACCTGTGCTGAGGGATTTGGATGAACTCCAGTTTCATCCGAACGTGACCTTCATCGTAGGTGAAAACGGGATGGGGAAGTCTACACTGCTTGAAGGGGCGGCGGTAGCCTATGGATTTAATCCGGAGGGAGGAACGAAGAACTTTCATTTCTCCAGCTATGATTCCCATTCCCCGCTCGACAAGTATCTCCGCCTCGTCAAAGGAATAAAAAAACCGGAGGATCAATTTTTCTTCCGCGCGGAAACCTTCTATAATGTAGCTACAAATATCGAAGAAATGGACAGTGACCCTATGGGGGGAGGGAAGGTCATTGATTCCTTCGGCGGTAAATCCCTTCATGAACAGTCTCATGGAGAATCCTTTTTTGCTGCGTTCAATCATCGTTTTTCCGGTAAGGGGCTTTATATCCTGGATGAACCTGAGGCTGCCCTTTCTCCTTTGAGGCAGTTGTCCATGTTATCGAGGATTCATGACCTTGTCGAGAACGAATCCCAGTTCATTATATCGACTCACTCACCGATTCTTATGGCCTATCCTCATGCTGAAATTGTTCAGCTTACTGAGGAAGGGTGCCGGAAAGTAAGCATCGAAGAAACGAGTCACTACCATATTATGAAACAGTTCATCGAGGATCGCGAACGATTGTTTTACCACCTGCTCCAGTAA	MAKLTTNERYVRSLQLLREKVPSFQSFPFHLPVLRDLDELQFHPNVTFIVGENGMGKSTLLEGAAVAYGFNPEGGTKNFHFSSYDSHSPLDKYLRLVKGIKKPEDQFFFRAETFYNVATNIEEMDSDPMGGGKVIDSFGGKSLHEQSHGESFFAAFNHRFSGKGLYILDEPEAALSPLRQLSMLSRIHDLVENESQFIISTHSPILMAYPHAEIVQLTEEGCRKVSIEETSHYHIMKQFIEDRERLFYHLLQ				NA	NA	NA	NA	NA
AK012_00761	960	rihA_1	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	TTGAAAAAAATCATCCTGTTTGCCGATCCTGGTATTGATGATTCCATCGCCATTATCTATGCCTTGATGCACCCCGAAATCGAAGTGCTTGCCATTGTGTCCAGCTACGGCAACGTAACCAAACAAAAAGCTGTCGATAATGCCGCTTTTCTTTTAATGGAAGCTGGATTCCCTTCCCTTCCGATGATCGGGGGCACGAACAGCCCATTGAGCGGGGAAACCCCTGAATACTATCCGGAAATTCACGGGGCGGACGGACTGGGCCCCTTGTCTCCCCCGCCGTATAAAGGACGCCTCAACAACTTCTCTGATCTATATGATATTCTCCACGCCCATACCGATATAACGATCGTGGACATTGGACGGAACACGGCCCTTGCGCATTTATTTCTGCTCGGGAGCGATATAGAACCGCATATTAAAGACATATTTCTTATGGGGGGCGCCTTCTTTGTTCCCGGCAATGTCACTCCATCAGCGGAAGCCAATTTTTATGGCGATCCTGTTGCCGCCAATATTGTCCTGTCACGTTTCACTCCCATTTACATCATTCCATTGAATGTGACGTCAAAAGCTGTCATTACCCCTCACCATATACAGGAAATCGAAGCCGCTTCTTCTCATCCGCTCATACCGATCATCAAGGACCTCATGAAATATTATACCGAAGCCTATCAAACTCTGATTCCCGGAATCGAAGGAGCCCCCCTTCACGATGTCCTGACGTTATACTTGATGATCAACCCTGAAGCCGGGAGATATGTAAGGAGGGCTGTCACTGTCCTCATGGAAGGGGAAGGAAAAGGGACATCTATTGCTGATTTCCGCCCGGGGTCACGTTCCAGACCAGGGGACCCTGCGATTTGTCTGGAGTTTGATGTGCAGGCTTTCGTCGAGGATTTCATACTCACGATCAGCTCCTCCACCGGAGGACGCCGTAAAAGGGAGGGACGCTCATGA	MKKIILFADPGIDDSIAIIYALMHPEIEVLAIVSSYGNVTKQKAVDNAAFLLMEAGFPSLPMIGGTNSPLSGETPEYYPEIHGADGLGPLSPPPYKGRLNNFSDLYDILHAHTDITIVDIGRNTALAHLFLLGSDIEPHIKDIFLMGGAFFVPGNVTPSAEANFYGDPVAANIVLSRFTPIYIIPLNVTSKAVITPHHIQEIEAASSHPLIPIIKDLMKYYTEAYQTLIPGIEGAPLHDVLTLYLMINPEAGRYVRRAVTVLMEGEGKGTSIADFRPGSRSRPGDPAICLEFDVQAFVEDFILTISSSTGGRRKREGRS	PGPT0013465_2369	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK012_00762	1854	sqhC	COG1657	Sporulenol synthase	ATGAACGAAGCAGCAGCAAAGGCCATTGTGGAAATCACCTCAGCCGTTCTTTCTGAACAAGCCGGCGACGGCCACTACTCTTATTGTTTCGAAAACAGTCTCTCCACAGATGTTTCGATGATCCTTCTGCTCCACTCGTTCACCAAAGACGTCTCCACCGTCAATCGTCTGTGCACAAGGCTTGCTTCCATACAGCAGGAAGAAGGCTGGTGGTCCCTCTATCACGATGAGGATGGAAATCTATCTGCGACGATTGAAGCCTCATTCGCTCTTCTCTACACAGGTTTTTATAAGAAGGACCAGCCTGAAATACAAAAGGCCTTTCATTTTATCCGTTCCCGGGGAGGGCTCCGCTCCGCCCACTCCATGACAAAAATGATGCTTGCTATCTACGGGGAATATGACTGGCCGTATGCCTTTCACCTTCCTGTGCATATCATTTTGCTTCCGCCGGCATCCCCCTTGTCCTTTTATGACTTCAGCAGTTACGCGAGGGTGCATATGGCACCGATCCTGCTATTGTCTGACAAAAGATTCCGTCTGTCCAAGCCCGGGATCCCGGATTTCCACACATTGAACGACCGAAGGGAGGAAAAAGGAATGAACCAGCGTTCCCTCTCTCTGCTTTCTCATATAAAAAGAAAAATCCTCAACCTTGCCGGAACTCCGGAGCAGCTGTACTGGACAGCGCGAAAAAGACTGGAATCCTACATGCTCGACCGGATTGAACAGGATGGAACCCTGTACAGTTATACCAGCTCCACCGTTTATATGATCTACGCTCTTTTATCCTGTGGTTATCATGAATCTAACCCTGTCATCCAACGGGCCATTTCGGGATTGAAAACCCACCTTTTTCCACTGAAAGAAGGATATCATATGCAGAACTCCCCTTCGGCCGTCTGGGATACAGCACTCATAACCCACGCATTATCCCTTCCTCCCTCATCAAAAGCGGGCGGTACCAAAGCTTTACCTTTCCTTCTGGAACATCAGCATTACAAGTACGGAGACTGGGTGATGGGAAACCCAACTCTACTGCCGGGAGGATGGGGGTTTTCCAAAAGTAATTCCATTCATCCTGATCTTGATGACACCACCGCATCTTTAAGAGCTCTTTCCCCTTTTTTAAGAAGCCATCCTCCGCTTACGAGCCATTATACACGCGGGTTGAACTGGGTGATGGGTCTTCAAAATGAAGATGGAGGCTGGCCGGCTTTCGAAAAAGGAAAAACAAACCCGATCCTCCGCTACGTTCCTATGGATGGGGCTGAGCATGCCGCCCTCGATCCATCCACTGCGGATTTGACAGGCAGAACCCTCGAATTCTTATGTACAGATGCAGGACTTAAACCCGATCATCCAAGCGTAAGAAAAGCCGTCCGCTGGCTCATCGATCATCAAGAAAAAGATGGTTCCTGGTACGGGCGCTGGGGGGTGTGTTACATCTATGGTACGTGGGCGGCGCTGACCGGTATGGCAGCGGCCGGCAAAGCCCCCGGCCATCCGACTGTTCTAAAAGCAGTGGAGTGGCTGAAATCAATCCAGAACCATGATGGTGGATGGGGAGAATCCTGCCGAAGCGATCAAAAAGGGACCTACATTCCGTTAGGCACCAGCACACCCTCTCAGACAGCCTGGGCGCTGGATGCGCTGCTCTCTGTTTATCAAAAGAGAACCCCTTTCATCGATAAAGGAATCTCAAGCCTGCTTCATCAACTGAAAAACAATGACTGGAGCACACGATATCCTACAGGTGCCGGGCTTCCCGGAATTTTTTACATCCACTACCACAGCTACAATACGATCTGGCCGCTCATCACCTTGAAAAAATATCTGATGTTGAACGAATAA	MNEAAAKAIVEITSAVLSEQAGDGHYSYCFENSLSTDVSMILLLHSFTKDVSTVNRLCTRLASIQQEEGWWSLYHDEDGNLSATIEASFALLYTGFYKKDQPEIQKAFHFIRSRGGLRSAHSMTKMMLAIYGEYDWPYAFHLPVHIILLPPASPLSFYDFSSYARVHMAPILLLSDKRFRLSKPGIPDFHTLNDRREEKGMNQRSLSLLSHIKRKILNLAGTPEQLYWTARKRLESYMLDRIEQDGTLYSYTSSTVYMIYALLSCGYHESNPVIQRAISGLKTHLFPLKEGYHMQNSPSAVWDTALITHALSLPPSSKAGGTKALPFLLEHQHYKYGDWVMGNPTLLPGGWGFSKSNSIHPDLDDTTASLRALSPFLRSHPPLTSHYTRGLNWVMGLQNEDGGWPAFEKGKTNPILRYVPMDGAEHAALDPSTADLTGRTLEFLCTDAGLKPDHPSVRKAVRWLIDHQEKDGSWYGRWGVCYIYGTWAALTGMAAAGKAPGHPTVLKAVEWLKSIQNHDGGWGESCRSDQKGTYIPLGTSTPSQTAWALDALLSVYQKRTPFIDKGISSLLHQLKNNDWSTRYPTGAGLPGIFYIHYHSYNTIWPLITLKKYLMLNE	PGPT0007620_110	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007620-sphC-K18115	NA	NA
AK012_00763	477			hypothetical protein	ATGTCAGGCATCGTTCTTGCTGTAGCAGCGGGCATATTAATCAGTCTTCAAAATGTTTTTAACGCGCGGGTCAGCGAAAAAACCGGGCCATGGGCCACTACGACGCTGGTACTCGGCCTTGGTCTTGTCTGCTCCCTGCCTGTGTTTTACGCAGTTGAAAGGGAAAGTCTGTTCACCTTTGGGGATGTGAACCCCATCTATTTATTCGGTGGTGTTTTCGGCGTTGGGATCGTTTTCTTCTTAATGCAGGGGGTTACGTTGATCGGTCCTGCTTATGCGATTTCCATAGCGTTGATTTCTCAAATTGTTCTCGCATTTATTATAAATACCGGGGGATGGTTTGGGTTTGAAGCTTCTGAATTATCCTGGCAGAAGCTGCTTGGCATTGCCCTTTTAATTGGTGGTGTTCTTGTCTATAAACTGGAGAAACAGCCGGAAGTGAACGAGCATACCGAAGAGCATCAGCTGCGGGCCTGA	MSGIVLAVAAGILISLQNVFNARVSEKTGPWATTTLVLGLGLVCSLPVFYAVERESLFTFGDVNPIYLFGGVFGVGIVFFLMQGVTLIGPAYAISIALISQIVLAFIINTGGWFGFEASELSWQKLLGIALLIGGVLVYKLEKQPEVNEHTEEHQLRA	PGPT0009795_1990	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK012_00764	696	yeiL	COG0664	Regulatory protein YeiL	ATGAAAGAAGGAAACATCCAGAAAATAACGGACTACCTATCCATGTATGATCTTGAGAAGTACTTTCCTGGTTCATATAAAGATAAGCTCCAATTGTTTTCTTTTACAGAGGGGGAAGACCTGTTCGTTCCGGGGGAAAAGCTGGATCGGCTCTATTTCCTAGTCGAAGGAAAAATTAAAATTTATACGCTTACCCCGGAAGGTCAGTCGCTGATCAACCGATTTAAAAAGCCGCTCGCTGTCATCGGGGATGTCGAGTATGTAAAAGAAAGTGCTGTGTTAAACTCCGTTGAAGCCGTCAGTCCGGGTGAAATGATCGGCTTTCCTTATGCAGCCCTTAAGGAACTGGAGAAAGAGCATCCGTCCATTCTCCGGTTTCTCTTGGAAATGGTGGCTCATAAGTTCTATACCGAGGCCCATTTTACGAGCATGCATATGCTCTATCCGGTTGACGTCCGGCTTGCGGGGTATTTGTTATCGATTTCTTCGGCGGGGGAAGGAACCGCTTTTCATCAGGAGATGCGTACGTCCAACTTATCCGAGCTGGCCGAGTGGATCGGAACAAGCTACCGTCATTTGAACCGGGTTTTAAAAAAGATGGAAGCCGATGGAATTATTGAACGTGCGAGGGGATCGATCATGATTAAAAATCTTGCGCAGCTGCGGCAGCTGGCAAAAGGGAATATTTATGAATAA	MKEGNIQKITDYLSMYDLEKYFPGSYKDKLQLFSFTEGEDLFVPGEKLDRLYFLVEGKIKIYTLTPEGQSLINRFKKPLAVIGDVEYVKESAVLNSVEAVSPGEMIGFPYAALKELEKEHPSILRFLLEMVAHKFYTEAHFTSMHMLYPVDVRLAGYLLSISSAGEGTAFHQEMRTSNLSELAEWIGTSYRHLNRVLKKMEADGIIERARGSIMIKNLAQLRQLAKGNIYE	PGPT0015075_1644	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
AK012_00765	426			hypothetical protein	ATGAAAGGTGCACTATTTTCACTGCTTGGAGGTCTCTGCATTACCCTGCAGGGCATCTTTAACGCAAGAATGAGCGATACCATAGGAGGATGGCATACGACATCTATGGTTCATCTGGTCGCTTTTGCTATTTCTTTATCCATTTATATGAAAGTAAGAGACGGACGGGGGAAAAGCTTTGGCCGCGTTCCCTTCATCTACTTGACTGGAGGAACGTTTGGTGTCATTGTCGTCTTCTCCGAATTAACAGCCATTCATCAGATCGGCCCGGCTGCTGCCATCGCAGTTTTGCTCGTTGCCCAGATTGGTACCGCCTTTATTATTGAATCAAGAGGCTGGTTTGGAGAGAAAAGAATTCCAATTACGCCAAGACAGGCTGCGGGACTGACTATGATGGTGGCCGGCGTGATCCTTTTTCAACTTTGA	MKGALFSLLGGLCITLQGIFNARMSDTIGGWHTTSMVHLVAFAISLSIYMKVRDGRGKSFGRVPFIYLTGGTFGVIVVFSELTAIHQIGPAAAIAVLLVAQIGTAFIIESRGWFGEKRIPITPRQAAGLTMMVAGVILFQL	PGPT0009795_2359	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK012_00766	1524	nhaP2_2	COG3263	K(+)/H(+) antiporter NhaP2	ATGTTTTTTGAAGCTTTTGGAACGGATTCATTTTTATTATTGACCGCTTTACTTCTTTTCAGCGGTGTTTTTGTAGCTAAGTTTTCAAGCCGCTGGGGCATCCCCGCGCTTATTTTATTCATTTTAATCGGCATGTTATTCGGAAGTGAGGGGCTCGGTATCGTTTATTTCAACGATGCATCGACAGCCCAGTTGATTGGTGTATTTGCTCTCGTCATTATTTTATTTGAAGGCGGACTGCATACGAAATGGGCTACAGTGAAGTCTGTGGCTCTGCCATCCTTATCACTGGCTACCATCGGTGTGCTCCTTACATCCATGATTGCAGGGCTTTCTGTGTACTTCCTGTTTGAACTGAGTCTGCTGGAAAGCCTTTTATTTGGTGCCATTGTCGGTTCTACCGATGCTGCCGCCGTTTTCGCTGCTTTAAAGGAGCGGAATATTAAAGCGAAAATGGGAGCGACGCTTGAAGCCGAGTCAGGGACGAACGATCCGATGGCTGTGTTTTTGACTTTGTCCTTTATTGAATTGATCACATCACCGGATACATCCCTCTGGATGCTGATTCCGCGCTTTTTCTTCCAAATGGGCGTCGGGCTTATGTTTGGTTTTGTGTTAGGGAAGCTCGCGTCGGTTTCTATTAACAAAATTAAGCTGGACTCCAGTGCTCTTTATCCGATTTTTTCTGTAGCATTTGCCCTGGCCACCTACAGCATAACAGCCTTCAGTGGAGGAAGTGGTTTCCTGGGTGTATATGTAGCGGCACTTGTGATTGGGAACAGTGAATTGACGTATCGATACTCCATCTTCCAGTTTAACGAAGGTTTCGCATGGATGGCTCAGATTTTGATGTTTGTGATTCTCGGTCTTTTCGTATTTCCGAGTGAATTGTTTACAGCATCGATTATGCTGAACGGCCTGCTGCTTTCGGCGGTCCTTATTCTAGTCGCCCGCCCTGCTGCTGTATTCTTATCCTTACTGGGTATGAATTATTCGAATAAAGAGAAGCTGTTCATCTCGTGGGCCGGTCTCCGGGGGGCTGTGCCGATCGTCCTTGCCACTTTTCCGATTGTGGAGGGCCTTGAAAACAGCCAGGGTTTATTCAATCTCGTTTTCTTTGTTGTCCTTACCTCAGCACTCGTGCAGGGATCAACGATTTCCTATGTTGCTAAGAAAATGACCTTGGTCGGTCCGAAAAAGGATGTACCTCACCATAGTATCGAACTCATTTCCATGGGGAAAGCGAAGGCTGAAATGATTCAGTATCAGACCAATGCCGAGTCAGCGGTTGTCGGCAAAAAGCTTCACGAGGTGAGCTTTCCGAACCGGGCGAATATCAGTGCGATCATACGGGATAATGAAGTGATTACACCGTATGGAGAGACGGAGATTCATGCTGGAGATTTCCTGTATATCCTCGTGGAGGAGAAGTATAAAGCTCAGTTGAAGCGGACACTGGAAGAACGGGTGAAAAAAAGTAAAGAGAAGCAAAGGGAAAAGCAGAAACAGGACGCGGCGAATTAA	MFFEAFGTDSFLLLTALLLFSGVFVAKFSSRWGIPALILFILIGMLFGSEGLGIVYFNDASTAQLIGVFALVIILFEGGLHTKWATVKSVALPSLSLATIGVLLTSMIAGLSVYFLFELSLLESLLFGAIVGSTDAAAVFAALKERNIKAKMGATLEAESGTNDPMAVFLTLSFIELITSPDTSLWMLIPRFFFQMGVGLMFGFVLGKLASVSINKIKLDSSALYPIFSVAFALATYSITAFSGGSGFLGVYVAALVIGNSELTYRYSIFQFNEGFAWMAQILMFVILGLFVFPSELFTASIMLNGLLLSAVLILVARPAAVFLSLLGMNYSNKEKLFISWAGLRGAVPIVLATFPIVEGLENSQGLFNLVFFVVLTSALVQGSTISYVAKKMTLVGPKKDVPHHSIELISMGKAKAEMIQYQTNAESAVVGKKLHEVSFPNRANISAIIRDNEVITPYGETEIHAGDFLYILVEEKYKAQLKRTLEERVKKSKEKQREKQKQDAAN	PGPT0013860_885	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013860-cvrA|nhaP2-K11105	NA	NA
AK012_00767	912	trxB_1	COG0492	Thioredoxin reductase	GTGGAAACGATGACTTATGACTGCATTATTATAGGAGGAGGGCCGGCGGGCCTTCAGGCGGCTGTCCAGCTGGGAAGGTACATGCGGAGTGTGCTTATCATAGATGCCGGTGAGGGAAGATCCTCAGCATGCCGGAAATACAGCAACCTGCTTGGGTTTCCGGAAGGGGTCAGCGGGGAAACCTTGAGAAGACGGGGGCTGAAACAGGTGGAGGACCTTGGAGTTGAACGTGTGGAAGAGGTAGTGGCTCATGTTCATAAGTCTTTCACAGATTTTATCGTCCAGACGCAGACAGACCGTGTTTATACCGGAAAGAGTCTGCTGTTCGCTACGGGCATCCGGGATGCCTTCCCGGATGTCCCCGGCTTGAAGGAATGTCTGGGGATTTCCGTATACCTGTGTCCGGATTGTGACGGATATGAAGTGAAAAATAGACGGACGGCTGTATGGGGGCAGGGAGACCCTGGGGCAGCCATGGCTGAAATCATCCACTACTGGACAAAAGATATCGTATATGTAAACCACGACGCGTTTCCTTTGTCTGGAGAGAAGAGAGCTGGATTGGACAATAAGAAAATCCCTGTCTTTGAGGCCATCGTCACCCACCTGACCCATCACGGAGGACACCTGCAGTCGCTGCACGGTTCAAATGGAGAGGCGTGGTCGGTGGAGAAGGCCTTTCTAGCCTTTGGTGGAAGCCGTCCCCAAACCGGATTAGCCGATTCTCTGGGTGTCATCCAGGATGAAAAAGGGCATGTCCACGTTGATCCCCGCACAAAAATGACCAATATTGATGGGGTGTGGGCGGCTGGAGATATTTTGATGCATTCCCAGCTGGTCAGTACGGCTGCTGCGGATGGGGCACAGGCGGCGGTTTGGATTCATAAATGGCTCCACAGGCAGTCTTTTTGA	METMTYDCIIIGGGPAGLQAAVQLGRYMRSVLIIDAGEGRSSACRKYSNLLGFPEGVSGETLRRRGLKQVEDLGVERVEEVVAHVHKSFTDFIVQTQTDRVYTGKSLLFATGIRDAFPDVPGLKECLGISVYLCPDCDGYEVKNRRTAVWGQGDPGAAMAEIIHYWTKDIVYVNHDAFPLSGEKRAGLDNKKIPVFEAIVTHLTHHGGHLQSLHGSNGEAWSVEKAFLAFGGSRPQTGLADSLGVIQDEKGHVHVDPRTKMTNIDGVWAAGDILMHSQLVSTAAADGAQAAVWIHKWLHRQSF	PGPT0013060_8915	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK012_00768	1569	ybiT_2	COG0488	putative ABC transporter ATP-binding protein YbiT	GTGTTTACGACTATGAGCTTACTAACAGTAAAGAACCTGAGCCACGGCTTTGGTGACCGTGCGATTTTTGAGGATGTTTCTTTCCGATTATTAAAAGGAGAGCACATCGGTTTGATCGGAGCCAACGGCGAAGGAAAATCAACGTTTATGAATATCATCACAGGAAAGCTGGAACCGGATGCCGGGTCCATCACATGGTCCAAACGGATCCGGATCGGCTATCTCGATCAGCACGCCGACCTTGCGAAGGGGATGACCATCCGTGACGTACTGAGAACAGCTTTCCAGTATTTATTTGATATGGAGCAGGAAATGAATACCCTCTTTGCAAAAATGGGAGACGTATCACCGGAAGAACTGGAAGCTCTTTTAGAGGAAACAGGAAGCATCCAGGATATGCTGACGAATAATGATTTCTACACCATTGATGCAAAGGTGGATGAAGTCGCCAATGGAATCGGTCTGAATGATATCGGTCTTGACCGGGATGTTCATGACTTGAGCGGCGGCCAGAGGACAAAGGTGCTGCTTGCCAAGCTCCTTCTGGAAAAACCGGATATTCTGCTTCTGGATGAGCCGACCAACTATCTGGATGTCGAACATATTGAATGGCTGCGAACCTACCTTCAGCAGTATGAGAATGCCTTCATCCTTATTTCCCACGACATTCCCTTTTTGAATAGTGTCGTCAATTTGATCTATCATATGGAAAATCAGGAATTAACCAGGTACCCAGGAGACTATGAGGAATTCCAAAGAGTATATGAAATGAAGAAACAGCAGCTGGAGGCCGCTTATAAAAAGCAGCAGAAAGAAATTGCGAATCTGAAGGATTTCGTCGCACGTAATAAAGCCAACGCCGCTACGAGTAAAATGGCGATGAGCCGTCAGAAAAAGCTTGATAAAATGGATGTCATCGAGCTGGACAAAGAGAAACCAAAACCGAGTTTCCAGTTCAAGCAGGCCCGTACACCGGGAAAATATCTATTTGAAACGAAAGATCTCGTCATCGGCTATGACGAACCCCTTTCCCGTCCTTTGAATTTATCAATGGAACGCGGCCAGAAAATCGCTCTCTCCGGTGCCAACGGAATCGGAAAGACCACTCTGTTAAAAAGTATTCTTGGAGAGATCCAGCCCGTGTCTGGATCCGTGGAACTTGGAGACCATCTGCACATCGGGTACTTTGAACAGGAACTTACAGATGTAGGAAACCGCACCTGTATCGAGGAAGTATGGGAGGAATTCCGCCACTTCACCCAGTATGAAGTTCGCGCGGCTCTCGCTAAATGCGGCCTGACGAGAAAACATATTGAAAGTAAGGTTCAGGTGCTGAGCGGTGGAGAAAAAGCGAAGGTCCGCCTTTGTAAGCTGATCAATAAAGAAACCAATCTTCTTGTTCTTGACGAACCGACTAATCACCTGGATGTGGACGCAAAAGCTGAGCTGAAAAGAGCCCTCCAAGAGTATAAGGGCAGTGTTCTTCTTATTTCACACGAACCTGAATTTTACCAGGACATTGTGACGGATGTATGGAACTGCGAAGACTGGACGACAAAAGTCTTTTAA	MFTTMSLLTVKNLSHGFGDRAIFEDVSFRLLKGEHIGLIGANGEGKSTFMNIITGKLEPDAGSITWSKRIRIGYLDQHADLAKGMTIRDVLRTAFQYLFDMEQEMNTLFAKMGDVSPEELEALLEETGSIQDMLTNNDFYTIDAKVDEVANGIGLNDIGLDRDVHDLSGGQRTKVLLAKLLLEKPDILLLDEPTNYLDVEHIEWLRTYLQQYENAFILISHDIPFLNSVVNLIYHMENQELTRYPGDYEEFQRVYEMKKQQLEAAYKKQQKEIANLKDFVARNKANAATSKMAMSRQKKLDKMDVIELDKEKPKPSFQFKQARTPGKYLFETKDLVIGYDEPLSRPLNLSMERGQKIALSGANGIGKTTLLKSILGEIQPVSGSVELGDHLHIGYFEQELTDVGNRTCIEEVWEEFRHFTQYEVRAALAKCGLTRKHIESKVQVLSGGEKAKVRLCKLINKETNLLVLDEPTNHLDVDAKAELKRALQEYKGSVLLISHEPEFYQDIVTDVWNCEDWTTKVF				NA	NA	NA	NA	NA
AK012_00769	642			hypothetical protein	ATGCTTTACCGTTCAATCGTCTACCTGACCGGTATGCTTATTAACTTTTTCGGGGTCGCTCTGCTCATTAATGCCACGCTTGGAGCCGGATTCTGGACGTCATTTTTCATCGGGGTCTCAGATCACCTCGGATTCACAGTCGGTTTCTGGTATGGCGCTTTTCAGCTGCTCATCATCTTTATAAATGCGAAGCTTATGAAATCGATGCCGGAAATCCGGGCAGTCATTCCTGTATTCCTGGAAAGCCTGATTTTGGATTTCTGGCTCGAAATCGTTTTTGCAGGGGTCAATTTAACAGCTGCTCCGTTCTTCGTTAAAGTCGTCACACTTCTAGCCGGAGTCGTTATCATCGGTATTGGTGTAGCCATCTATATTCTGCCGGAATTTCCGAGAGCTCCTGTCGATCAGCTTTTCCTTGCGGTCAGTGAACGTTTCCAATTAAGCCTTCAGGCAGGCCAGACGATTGTAGCGGTCATCATGACCTCCCTGGCCTTCCTCATCGGAGGGCCTGTAGGACTTGGAACACTGGCCCCTATGCTGTTTCTCGGCCCTGTCATCCAACTGGCCTATACAAGAGTTTATCCGCTTTATCACCGTCTGCCTGCATCAGCAGATAAAGCATATCAGGAAGCACCTTATTAA	MLYRSIVYLTGMLINFFGVALLINATLGAGFWTSFFIGVSDHLGFTVGFWYGAFQLLIIFINAKLMKSMPEIRAVIPVFLESLILDFWLEIVFAGVNLTAAPFFVKVVTLLAGVVIIGIGVAIYILPEFPRAPVDQLFLAVSERFQLSLQAGQTIVAVIMTSLAFLIGGPVGLGTLAPMLFLGPVIQLAYTRVYPLYHRLPASADKAYQEAPY	PGPT0026395_682	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
AK012_00770	261			hypothetical protein	ATGCCTGAGGAGTTTGATGGAAAATTCCTCCCTCGTGCCGAAGAATGTAAGAAAGACTTTTACTCATTGGGCAGTGACCGCCCGGTGAAAGACCGGGCAGATATACCGTCGTCCAGCGCACTTGCCAAGCAGGAATCGGAATCGATTCTTACAGTGGCGAAGGTCTTCCACGAAGAAATGAATAACCTCCCGACCGGTGAAAGCCTGCTGGAAGACGGTTCATTTGAATTCCAGTCGTGTGCGGTTTCAGGAAAATCCTGA	MPEEFDGKFLPRAEECKKDFYSLGSDRPVKDRADIPSSSALAKQESESILTVAKVFHEEMNNLPTGESLLEDGSFEFQSCAVSGKS				NA	NA	NA	NA	NA
AK012_00771	405			hypothetical protein	ATGGCACCGAAGCATATTTTATCTGCAGCGACGGTCATCCTCAATGAAACAGGGAAATTTGTATTGATTCAGGGACCGAAGCGGGGCTGGGAAATCCCTGGCGGCCAGGTAGAGGAAGGCGAATCCTTAACGGCAGCTGCTGTCAGAGAGGCGGAAGAAGAATGTGGGTTGAGAATTGAAGTGGTCCAATTTTGCGGAATTTACCAGAACGTGGAGCGGTCAATCTGCAATGCTCTCTTCATTGGAAAAGTGACAGGGGGAGAATTGAAAAGGACGGAAGAAGCCCTGGATGTTGGTTTTTTTACTTTGGAAGAGGCTGAAAGGCTTGTCACATGGACCAATTTTCTGGAAAGGATAAAAGCGTGTCTGGATGAGAAAAACCAGCCATTTTTACACGAATGGTAA	MAPKHILSAATVILNETGKFVLIQGPKRGWEIPGGQVEEGESLTAAAVREAEEECGLRIEVVQFCGIYQNVERSICNALFIGKVTGGELKRTEEALDVGFFTLEEAERLVTWTNFLERIKACLDEKNQPFLHEW				NA	NA	NA	NA	NA
AK012_00772	1074	pnoA		Nitronate monooxygenase	ATGGATAAACAAAACCGGCTGGTGAAAAAGCTTGCGATCAAATACCCGATTGTTCAAGCCGGCATGGCAGGAGGAGTGACATCCCCCTCTCTTGTAGCAGAAGTATCCACTCATGGAGGTCTTGGGACGCTTGGCGGCGGATATATGCTCCCTGAGGAAATGAGGTCTGTCATTAGGGATATCAAGGGAAGGACCAACGCTTCATTTGCTGTGAACCTGTTTGTGCCGGAATATCCGGAAGCAAGCGGGGAAGAGATAACAGCGGCTCATGAGGTTTTAGCCCCCTACTATGATAAATTGGCCATACATGAACGTCAGGATCCGTCCCTGGATGTGGAATTATTTGAACAGCAGATCCATGTTGTTTTAGAAGAGAAGGTTCCAGTGGTGAGTTTTACGTTCGGCCTGCCTTCGGGGCGGGTGATGAAGGCATTGAAACAATCGGGTGTCGTCACCATAGGTACAGCCACTACGGTCGAAGAGGCTGTGCTGAATGAAATGAAAGGACTGGACATCGTTGTCGCTCAAGGAAGTGAAGCCGGCGGTCACCGCGGATCGTTCCTGCAGAGCTATGATAAAAGTATGATTGGACTCTTTTCCTTAATTCCCCAAGTTATCGATGCCGTAAAAATCCCGGTCATCGGAGCGGGTGGAATTATGGATGGACGTGGATTTTCAGCTGCTCTTTCCCTTGGAGCGGAAGGGGTCCAGATGGGGACTGCCTTTGTTACCAGCCGGGAAAGTGGAGCGCATGATGTACATAAACAAATGATTCAAACAGCCAGGGAAGACGAAATGACACTAACGAATGCCTTCAGCGGAAAACCAGCACGGGGGATCCGGAACAATTTCACCAGATCTTTAAGCAATCACAAGGATATCCTTCCTTACCCCTTACAAAATCAGATGACGAAAACGATCAGACAGGCTTCAGCCGCAGAAAGGAATCCGGAATACATGTCCCTCTGGGCCGGACAGAGTCCACGATTAAGCAGAGATGGATCAGCTGAAGATGTCATAAAAAGTCTGGTCTCCTATGTGGAGGAACACCGCATCCTGCCTATCACCTGGTGA	MDKQNRLVKKLAIKYPIVQAGMAGGVTSPSLVAEVSTHGGLGTLGGGYMLPEEMRSVIRDIKGRTNASFAVNLFVPEYPEASGEEITAAHEVLAPYYDKLAIHERQDPSLDVELFEQQIHVVLEEKVPVVSFTFGLPSGRVMKALKQSGVVTIGTATTVEEAVLNEMKGLDIVVAQGSEAGGHRGSFLQSYDKSMIGLFSLIPQVIDAVKIPVIGAGGIMDGRGFSAALSLGAEGVQMGTAFVTSRESGAHDVHKQMIQTAREDEMTLTNAFSGKPARGIRNNFTRSLSNHKDILPYPLQNQMTKTIRQASAAERNPEYMSLWAGQSPRLSRDGSAEDVIKSLVSYVEEHRILPITW	PGPT0006800_2121	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
AK012_00773	354			hypothetical protein	ATGACCACTCCTGTGCGTAATGAAATTGGAACCGTTTTTATTCCTGTCAGTGATATAGAAAAAGCGAGAGATTGGTATTGTCACCTTCTTGGAGTTCCCAGCGATGGTGAAATCGTCCATGGACACTTATACATCCTGCCGATGAAGGGAACCGGAGCCGTTTTAGACAGTCGGATTTATAAGCCGGGAAAAACATTTGATATGCCTGTTTTTCATTTGAATACCCCTGATATTGAGGCGGCCTATGATTTTATGAAGTCTCACGATTTCAATGTAGTGACAGAAATCCAGCACAACCACTTTTTCCATTTCAAAGATCCGGATGGTAATCTGATGATGATCTGTCAATGTTGA	MTTPVRNEIGTVFIPVSDIEKARDWYCHLLGVPSDGEIVHGHLYILPMKGTGAVLDSRIYKPGKTFDMPVFHLNTPDIEAAYDFMKSHDFNVVTEIQHNHFFHFKDPDGNLMMICQC				NA	NA	NA	NA	NA
AK012_00774	537	speG_2	COG1670	Spermidine N(1)-acetyltransferase	ATGAAAACAGCAATGAACTTCTTTATGAGGGAGATTACTTCAGAGGACTGGGAAGCGGTCCACAGTTATGCGTCTATTTCTGACGTCTGTCGTTTTCAGGCATGGGGACCGAATTCCGAGAGGGAAACGAAGCTTTACATAGAGCAGGTGCTGACGGATACAAATGCTGAGAATCGAACGAGATATGTGTGGGGGCTGGCGGATGTGGAGGAAGGGCATCTCATCGGAACTTCTGAAATCAATGTGTTCGATCAGGAAAATGAAATCGGCCGGATATCTTATGTCATCCACCCAGGGTATTGGGGGCGCGGCATCGCAACGCAAGCTGCCGAGCAGATGATTTCCTACGGGTTTCAGCAATTGGCTCTTCATAGAGTTGAAGCTGTCTGTGACCCGCGCAATGCCGCAGCCATCCGTGTTTTGGAAAAGAACGGGATGGAAAAGGAAGGGCGGATGAGAGGACATTTGAAACTGAATCAAGGCTGGAGAGATTCCTATTTATACAGCATTCTTGCTACAGACGCACTTTATCGTTGA	MKTAMNFFMREITSEDWEAVHSYASISDVCRFQAWGPNSERETKLYIEQVLTDTNAENRTRYVWGLADVEEGHLIGTSEINVFDQENEIGRISYVIHPGYWGRGIATQAAEQMISYGFQQLALHRVEAVCDPRNAAAIRVLEKNGMEKEGRMRGHLKLNQGWRDSYLYSILATDALYR				NA	NA	NA	NA	NA
AK012_00775	1104			hypothetical protein	ATGAAAAAGTTTACAATAATTCTAGTTATGTTGCTGCTGGGAGTATTCTCAGCCGCATGCTCGCAGGAAACGTCATCGGATCAAAAGGAAAATACAAAAGATACGGAAGAAGAAACGAAGGATGACGAGGAAGCGGAATCTGCTGCTTCTGATTCCGGAAGTACTCAACAACCATTTAAAGCGATACAATCGGATGATTCTGCTGCCCCTCTAAAAGAGGGATTATCCGAAGAAGCATTGAACAAGATGCCGTCCGAAGAAGCGCATGGTGGTGATCGGACTCGGATGGTGCCGGTTGGGGAGACGCTCGTGAAAGGCGCAGAAGATGCAGCATCGGGTCCTTTAAAGGATCATAGAATAGTTGCTTATTATGGTCATCCGGATTCTGAAAACATGGGGATTCTTGGGGAAATGGAACCTGAGGCCTTAATGGAGAAGCTGAAAAAGCAGACACAGGCTTACTCCAACGCTGACCCTGAACGACCGGCTGTACCGATGATCGAGCTGATCAGTACGGTCGCGCAGCGCACCCCTGGTCCGGAAGGGGAATATTATCACCGCACTTCGCCGGAAGACATCGACCGATACGCCGAACTCGCCAAGGAGAATGATGCTTTACTGATGCTCGATGTTCAGCTGGGAACAGATTCTGTCATGGATCAAGTTAAGCTGTTGGAGAAATGGCTGAAGCTTCCATATGTCCATCTTGCCATCGATACAGAATTTCATGTCGCTGAAGGCGAAACGCCCGGGGTGAACCTTGGTCAGGTTGATGGCGCAGAAGTCCAGCAGGCGGTGGACTATTTATCAAGGATGGTGGAGGAAAACGATCTGCCGGACAAAATGATCCTTGTCCACCAGTTCATGGACGAAGCGTTGACAAATAAGGAAGCCATCACGCCGACGGATAACGTTGAAGTGGTCCTGAACTATGACGGCTGGGGAGCTTCCGCAACAAAAATGTCTCTATACCGGAAATTTGTGAGGAATGAAGCGGTTCAGTACGGTGGATTCAAAGTCTTTTATAAGAAAGATGAGCCGGTGATGAGTGCCGAAGAGGTGCTGCGTCTGGACCCTAACCCTGCAGTGATTAACTATCAATAA	MKKFTIILVMLLLGVFSAACSQETSSDQKENTKDTEEETKDDEEAESAASDSGSTQQPFKAIQSDDSAAPLKEGLSEEALNKMPSEEAHGGDRTRMVPVGETLVKGAEDAASGPLKDHRIVAYYGHPDSENMGILGEMEPEALMEKLKKQTQAYSNADPERPAVPMIELISTVAQRTPGPEGEYYHRTSPEDIDRYAELAKENDALLMLDVQLGTDSVMDQVKLLEKWLKLPYVHLAIDTEFHVAEGETPGVNLGQVDGAEVQQAVDYLSRMVEENDLPDKMILVHQFMDEALTNKEAITPTDNVEVVLNYDGWGASATKMSLYRKFVRNEAVQYGGFKVFYKKDEPVMSAEEVLRLDPNPAVINYQ				NA	NA	NA	NA	NA
AK012_00776	285	ycnE_1	COG1359	Putative monooxygenase YcnE	ATGATTACGATTAATGCATTTCTAACAGCGAAAGAAGGAAGCGAAGAGGAACTGTTTCATGAGTTGAAGAAAGTCATCGAGCCTTCCCGGAATGAAGCGGGTTGTATCGATTACGTCCTTCACCGCTCCCTTGATGATTCTTCTGTTTTCGTTTTTTATGAAACGTGGAAGGATATGGAGGCGCTGCAGGCGCATATCGATTCTGATCATTATCAGGCTTATCGTGAAGCGACAAAGGATCTTACCTCCTCACGTGAAGTTCATAAATTGGAAAAGGTACAGTGA	MITINAFLTAKEGSEEELFHELKKVIEPSRNEAGCIDYVLHRSLDDSSVFVFYETWKDMEALQAHIDSDHYQAYREATKDLTSSREVHKLEKVQ				NA	NA	NA	NA	NA
AK012_00777	1209	bcr_1		Bicyclomycin resistance protein	ATGTTACAAAATCCAACAGGAAAAGAAAGAATCGGACTGGCGTTTCTGCTTGGGATGCTCGGCATCCTTGGGCCGCTGAATATTGATATGTATCTGCCGAGCTTTCCGGCGATCGCGTCGGATTTAAATACGAGTGCATCTCTGGTCCAGCTCAGTCTGACGGCCTGTCTGATCGGCCTTGCCGTTGGACAGATTGTAGTCGGCCCGATCAGTGATGCCCAGGGCAGAAAGAAGCCATTAATTATATTTCTTTCATTGTTTTCTATCGCGTCGCTTTTATGTGCACTCGCTCCGAATATTATTGTACTTGTGATGGCTCGGTTCCTTCAGGGCTTCACAGCTTCTGCTGGTATCGTTCTCTCACGAGCGGTTGTACGCGATGTTTTTACAGGAAGAGAACTGACGAAGTTTTTTGCGCTGTTGATGGTGATTAATGCTACGGCTCCAATGATTGCGCCTATGACCGGGGGCGCTATTTTACTGCTTCCATTTTCTACTTGGGAAACGATTTTCTTTTTCCTGAGTATCGTTGGCGCGGCCATCGTGTTCACAGTTATTGGGAAAATGCCGGAAACCTTACCAGAGGAGAGAAGAATCCCAAGCTCTGTTAAGGAATCCATCCTGACGATTGGGCGTTTGCTGAAAGATCGTTCGTTCATTGGCTATGCGTTAACGATCGGCTTCGTCCACGGGGGGAGCTTTGCTTATGTATCCGGGACACCGTTTGTCTATCAGGGCATATATCAGGTGTCGCCACAAGTGTTCAGTGTGTTGTTTGGGATGAACGGTCTGGCCATCATCACCGGCAGCTTTTTAATCGGCCGGCTTGGCGGGATTATTCATGAGCGGAGCCTGCTTCGCACAGCTGTATTGACGGCGGTGACGGCTACAGGTTTTCTACTGGTTATGACTTTGATGGAAGGGCCGTTGTACTCCATTGTCATTCCGATCTTTATCTATATGACAGCGATGGGAATGGTTTTAACGAGTACCTTTACTCTTGCCATGGAGCATCAGGGACATCGGGCGGGAAGCGCCAGTGCGGTACTTGGTATGCTCCCGCTGTTGTTTGGAGCTGTTGTTTCGCCGCTGGTCGGACTGGATGAAACATCCGCCGTTCCGATGGGGTTGATTTTATTCAGCACATCCTTTATTGGGGCTGTTCTATTCTTCACCCTCACAAGTAAAAACCAGCACGCAGCCGATTGA	MLQNPTGKERIGLAFLLGMLGILGPLNIDMYLPSFPAIASDLNTSASLVQLSLTACLIGLAVGQIVVGPISDAQGRKKPLIIFLSLFSIASLLCALAPNIIVLVMARFLQGFTASAGIVLSRAVVRDVFTGRELTKFFALLMVINATAPMIAPMTGGAILLLPFSTWETIFFFLSIVGAAIVFTVIGKMPETLPEERRIPSSVKESILTIGRLLKDRSFIGYALTIGFVHGGSFAYVSGTPFVYQGIYQVSPQVFSVLFGMNGLAIITGSFLIGRLGGIIHERSLLRTAVLTAVTATGFLLVMTLMEGPLYSIVIPIFIYMTAMGMVLTSTFTLAMEHQGHRAGSASAVLGMLPLLFGAVVSPLVGLDETSAVPMGLILFSTSFIGAVLFFTLTSKNQHAAD	PGPT0029005_4357	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
AK012_00778	1029	php	COG1735	Phosphotriesterase homology protein	ATGCAGTACGTTGAAACTGTGACAGGACCGGTCAAGGCAGACGAGCTTGGGAAAACATTGATTCATGAACACTTTTTCTTTGGCTATCCAGGTTTTCAAGGGGATATGACCCTTGGTGGGTTTGATTTTGAAGAGAAGAAGCAGCAGGGATTAAAAGCAGCCGCATTGATTAAGAAACAGGGTGTTGAAACAGTTGTCGACCCAACACCAAATGAATGCGGACGTCATGTTGAACTCCTGCGTGCAGTTTCTAAAGCCAGCGGCTTGAACATCATTTGTGCCACTGGTTATTACTATGAAGGGGAAGGTGCAACGCCGTACTTCAAATTCCGTCAGCAGCTTGGAACAGCGGAAGAGGAAATCTATCAATTATTCAAAGCGGAAATAACTGAAGGTATAGAAGGGACCGGTATTAAACCGGGAATTATCAAGCTCGCTTCAAGTAAAGCAGACATTACTGATTATGAGCGGATGTTTTTCCGGGCTGCGGTGCGGGTGCAGAAAGAAACCGGCATTGTTCTTTTAACTCATACGCAGGAAGGAACAATGGGACCGGAGCAGGCAGCTTTTCTCATTGAAGAAGGAGCTGACCCTGGAAAAGTTGTGATCGGTCATATGTGTGGAACGACAGATATTACGGAACACCTGCGGGTGCTGAAGCACGGAGTCTACCTTGCCATGGATCGCTGGGGTCTCCAGGGAATAGTCGGCGCCCCGACAGATGAGCAGCGTACGGCAGTGTTAAAGGCTCTGCTTGGGTCCGGGTATGAAGACCAGCTGTTTCTTTCCCATGATACAGTCAATGTCTGGTGGGGCAGGGAGCCGGTTATGCCTGATCCTCTTAAAGAGCTGCTGAAAAATTGGCAGCCGGACTATTTATTTCAACACATTATCCCGGGGCTTCTGGAAGAAGGTTCGGTAACCAGAGATCAATTGGAGCGAATGTTTACGAAAAATCCTTCTCAGTTATTTGGGCGTTCCTATGAAACGCAGCCGGATCGGACCCATTCAGAAATGAAATCACTATAA	MQYVETVTGPVKADELGKTLIHEHFFFGYPGFQGDMTLGGFDFEEKKQQGLKAAALIKKQGVETVVDPTPNECGRHVELLRAVSKASGLNIICATGYYYEGEGATPYFKFRQQLGTAEEEIYQLFKAEITEGIEGTGIKPGIIKLASSKADITDYERMFFRAAVRVQKETGIVLLTHTQEGTMGPEQAAFLIEEGADPGKVVIGHMCGTTDITEHLRVLKHGVYLAMDRWGLQGIVGAPTDEQRTAVLKALLGSGYEDQLFLSHDTVNVWWGREPVMPDPLKELLKNWQPDYLFQHIIPGLLEEGSVTRDQLERMFTKNPSQLFGRSYETQPDRTHSEMKSL	PGPT0006755_597	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-ORGANOPHOSPHATE_DEGRADTION,PGPT0006755-php|opd|adpB-K07048	NA	NA
AK012_00779	951	rihA_2	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihA	GTGAAAAGGAAAGTCATTTTAGACTGTGATCCCGGTCATGATGATGCGATATCAATAATTTTGGCAGCATCCAAAGAAAGTCCGCTGCAAATCGAAGCCATTACAACGGTAGCAGGAAATGTCGATTTGGAAAAATGTACATATAATGCTTTGAATGTGTGTGAAATGATAGGGCTGGATGTACCGGTAGCGATGGGGGCGGAAAAGCCCCTGCTTGGAAAAAAGGTAACGGCTGGGGATTTTCACGGTGAATCTGGACTGGACGGGCCTGAACTTCCGTCTGTCCCGGTAAGAAAGCCTGTCAACCAACACGCCGTCGATCTGATTATTGAGAAGGTATTGGAATCTGAACAGAAAATAACATTAGTTCCGACAGGTCCTTTGACGAACATCGCTCTTGCTTTTATGAAGGAACCGAAGATAAAAGAAAACATTGAAGAGATCGTTCTGATGGGGGGAGGAACGTTCGGCAACTGGACCCCGGCCGCTGAATTCAACATATGGGTGGATGCTGAAGCCGCTGAGGTTGTATTTGAGAGCGGTGTTCCAATTGCCATGTTCGGCCTTGATGTAACGCACCAGGCGCTTGCAGACAGAGAAGTCATGGACAGAGTGGCTGCTGTTGATCATCCTGTAGCCCATTTCGTTTTTGAGCTGTTGGAATTCTTTTCGAAAACCTATAAGGATGTATTCAATTTTGAAGCGGGGCCGATTCACGATGCTTGTACAGCTATGTATCTCATGAATCCAGACCTTTTTGAATTCAAACATGTTCATGTGGATATAGAGACCAAAGGAGAATATACGAAAGGCATGACGAGTGTCGATCTCCTTGGGGTTACGAAAAAACCTCCGAATGTCCATTTTGCTGTCCATCTTCATCAACATTCGTTTTGGGATCGATTTGAAGAAGCTTTGAAATCTTATGCTGAAGCTCCCGGCCATCTGTGA	MKRKVILDCDPGHDDAISIILAASKESPLQIEAITTVAGNVDLEKCTYNALNVCEMIGLDVPVAMGAEKPLLGKKVTAGDFHGESGLDGPELPSVPVRKPVNQHAVDLIIEKVLESEQKITLVPTGPLTNIALAFMKEPKIKENIEEIVLMGGGTFGNWTPAAEFNIWVDAEAAEVVFESGVPIAMFGLDVTHQALADREVMDRVAAVDHPVAHFVFELLEFFSKTYKDVFNFEAGPIHDACTAMYLMNPDLFEFKHVHVDIETKGEYTKGMTSVDLLGVTKKPPNVHFAVHLHQHSFWDRFEEALKSYAEAPGHL	PGPT0013465_1027	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK012_00780	774		COG4336	Putative hydro-lyase	ATGAATCCATTGGAAACACGAATGAAAATCCGCCGGCAGGAGATGACGGGAACAACCTCGGGGTTGTGTGAACAATACATACAGACCAACATGGTCACACTCCCGAAAGCCTATGCGTTTGATTTTCTTTTATTCTGTATGAGAAACCCAAAACCGTGTCCCATCGTCGAAGTGATGGAAGCGGGTATGTCCAGGCCGGCTGCTGCTGATGCAGATATTCGAACCGATCTGCCACGCTACCGTATTTATAGAAATGGAAGCTTTTCAGAGGAAGTTCTGCATTTGAATGACGTCTGGCAGGACGATTTTGTGACGTTTTTAATCGGCTGTTCCTTTACCTTTGAAAAAGCGCTTCTGGACGGAGGAATTCCACTGCTGCACCAGGAGCAGAACAAAGTGGTTCCCATGTTTGATACGAACATTCCATTACAAGAAGCGGGTATTTTCAAAGGGAATATGGTGGTGAGCATGCGGGCCGTTCCCAATCATTTAGTCGATCAGGCTCTTGCGATCTCCCATGATTTCGAATCTTCCCACGGGGAACCCGTCCATGCTGGTGCTCCGGAGGAAATTGGCATCACTGACCTTCAAAATCCGGACTACGGGGAGGCGGTCACCTTTGATACCGGTGAAATGACACCTTTGTTCTGGGCATGTGGGGTGACGCCGCATAATGCTGCCCTGCAGGCGCGTCCATCCATCATGATCACCCATGCTCCCGGGCATATGCTCATAACAGACAAGAAGGATCCGAATTATTCCATTGATTCATAA	MNPLETRMKIRRQEMTGTTSGLCEQYIQTNMVTLPKAYAFDFLLFCMRNPKPCPIVEVMEAGMSRPAAADADIRTDLPRYRIYRNGSFSEEVLHLNDVWQDDFVTFLIGCSFTFEKALLDGGIPLLHQEQNKVVPMFDTNIPLQEAGIFKGNMVVSMRAVPNHLVDQALAISHDFESSHGEPVHAGAPEEIGITDLQNPDYGEAVTFDTGEMTPLFWACGVTPHNAALQARPSIMITHAPGHMLITDKKDPNYSIDS				NA	NA	NA	NA	NA
AK012_00781	273			hypothetical protein	ATGAAGAGAGTTCTTTTGATCATTCTGGGTGCTGTAGATATTCTATACATGCTTACCATCATATTCCGTTATGATTTCACATTTGAAGGATGGATCAGTCTGTTGTTCGGTGTAACTTTTACAGCGGGCATAGTAGTATCCGCCCTGTTTATTTTTCAGGCGCAGTATAAAAAAGGCTTCCACCCCATCTTATCCATTTTTGTACTGGCTATGAGTGCTGCTTCATTAGCCTGGCTTGCCTTTTTCAACTTTCTGGCAGACTTTATAACATAA	MKRVLLIILGAVDILYMLTIIFRYDFTFEGWISLLFGVTFTAGIVVSALFIFQAQYKKGFHPILSIFVLAMSAASLAWLAFFNFLADFIT				NA	NA	NA	NA	NA
AK012_00782	1218	nupX_1	COG1972	Putative nucleoside permease NupX	ATGACAAACATCTTATGGGGATTAGGCGGAGTGACTATCGTCTTCATTCTGGCTTTGTTATTTTCAACTAATCGGAAGGCGATCCGGTGGAGAACAGTAGCTGCGGGGCTTTTGCTCCAAGTATCATTCGCCTTTTTAGTTTTTGCAACGAGCGGCGGCCAGAAGCTTCTTGGAGCCATGTCGGCCGGGGTTAGTAAATTGATCGGATATACAGAAGAAGGCATCGGTTTTCTTTATGGGCCTTTGATCAACCAGGAAGGGATGGGGATGTTATTTGCCTTTCAAGTTCTGCCGACCATTATCTTCTTCAGTTCCCTGATCGCGGTCCTGTATCACCTGGGCATTATGCAGATTGTGATTAAGCTGATCGGGGGCTTCCTATCCAAAGTCCTCGGTACGACGAAGGTGGAAAGTATCAATGCGGCAGGAAACATATTCGTCGGGCAGACAGAGGCGCCATTATTGATCCGTCCATTCATATCTAAGATATCGAAGTCAGAGTTATTTGCTGTTATGACTGGTGGGTTTACTTCGATTGCCGGCTCAACACTTGTGGGGTATACACTTCTGGGCATTAACGTAGAATATCTGCTTGCCGCATCCTTTATGGCTGCACCGGCAGCCCTTGTGATGGCTAAATTGTTTATTCCTGAGACCGAACCGTGCGTTGAGGAATTTGCTGATGTCAACCCCGATGACAGTGATACGTCCAACGTGTTTGATGCAGTGGCCAATGGAGCTGTGACCGGTCTGCGGCTCGCTTTGAACATAGGAGCTATCCTGCTGTCCTTCATCGCCCTTCTCGCCCTGCTGAACGGAATGGTCAGTTGGTTCGGCAGTTTATTCGGCTTCTCCATCACCATCCAGCAGCTGCTTGGGTATGTATTGTCACCACTGGCTTTTGTCATTGGTGTTCCCTGGGAAGAAGCTGTACGATCTGCCGGCTTTATCGGAGAGAAGATTATGGCCAATGAGTTTGTAGCTTTCTCAAGCCTTGGTGAAGCGAAAGACGAATTAAGCGCAAAGGCAGAAATCGTGACGACCTTTGCCTTGACCGGTTTCGGAAGCTTGTCCGGGATCGGTGTACAGATTGGAGCTCTAGGAGGGCTCGCGCCTGACAGGAGGAAAGACGTGGCCAACCTTGGTCTTAAAGCTGTTCTTGCTGCTACGCTGGCCAACTTCCTGTCTGCCAGTATTGCCGGAATGTTTTTATTATAA	MTNILWGLGGVTIVFILALLFSTNRKAIRWRTVAAGLLLQVSFAFLVFATSGGQKLLGAMSAGVSKLIGYTEEGIGFLYGPLINQEGMGMLFAFQVLPTIIFFSSLIAVLYHLGIMQIVIKLIGGFLSKVLGTTKVESINAAGNIFVGQTEAPLLIRPFISKISKSELFAVMTGGFTSIAGSTLVGYTLLGINVEYLLAASFMAAPAALVMAKLFIPETEPCVEEFADVNPDDSDTSNVFDAVANGAVTGLRLALNIGAILLSFIALLALLNGMVSWFGSLFGFSITIQQLLGYVLSPLAFVIGVPWEEAVRSAGFIGEKIMANEFVAFSSLGEAKDELSAKAEIVTTFALTGFGSLSGIGVQIGALGGLAPDRRKDVANLGLKAVLAATLANFLSASIAGMFLL	PGPT0021070_1283	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
AK012_00783	762			hypothetical protein	ATGGAATCAATCTGGATTGAATACGGGTGGACACTCTTAATCTTAATCGGCCTGGAGGGGCTTTTATCAGCGGATAACGCTCTGGTCCTTGCGGTCATTGCTAAACATCTGCCGGAGGATCAGAAGAAACGGGCAATCAATTATGGAATCATTGGTGCGTTTGTTTTCCGATTCAGTGCGTTATTTGCGATATCCTTCATCGCTACTGTCTGGCAGGTGCAGGCGCTTGGGGCAGCTTACTTGATCTATCTTGGCTTGAAAAACATTTTAACAAGGGAGAACGACGAGGAAGGAGCTCAGGAAGGAAAAGGAAGGGGCTTCTGGCCGACGGTGATTAAAATCGGGTTTGCCGACCTTGTTTTTGCCATTGACTCCATCCTTGCAGCTGTAGCGCTGGCTCTCGCTCTTCCGGATTCACCACTTCCGTTGATCGGAGGTATGGACGGTGGAAAATTCATTGTGGTTATAACAGCAGGTATTGCCGGTTTGATCCTGATTAAATTTGCTGCAACGTGGTTCGTCAAGCTTTTAGAAACCCGTCCAAGTCTGGAAACGACGGCTTATCTTATTGTGGCATGGGTCGGGGTGAAGCTTGCGGTTATTACGTTATCTCACCAGGATGTCGGTGTATTAAATGAACATTTCGCACACGGTCTCGTATGGACGGTGATCTTCTGGACTGTTTTACTCGGGGTCGCTGTCGGCGGCTGGATCCTGTCCGGACGTGATCTGAACAAAACCTATGAAGAGAAAGCTTCTTAA	MESIWIEYGWTLLILIGLEGLLSADNALVLAVIAKHLPEDQKKRAINYGIIGAFVFRFSALFAISFIATVWQVQALGAAYLIYLGLKNILTRENDEEGAQEGKGRGFWPTVIKIGFADLVFAIDSILAAVALALALPDSPLPLIGGMDGGKFIVVITAGIAGLILIKFAATWFVKLLETRPSLETTAYLIVAWVGVKLAVITLSHQDVGVLNEHFAHGLVWTVIFWTVLLGVAVGGWILSGRDLNKTYEEKAS	PGPT0003867_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003867-ykoY-NA	NA	NA
AK012_00784	948	slcC	COG0111	(S)-sulfolactate dehydrogenase	GTGAAGATCTTGATTAGTGAAGTGATATGGACGGAAGGAATTGAGGTTCTTGAACATCAGGGACATACCGTAGCTTATGACCAAAAATGGTATGCGAATAGAAAGGAATTCCTTGCAAACCTCCCGGATGCGGAGGCTTTAATTGTCCGGAACCAGACACAGGTGGATGAGGAACTGCTGAATCACGCACCAAACCTTAAAGTCATCGGCCGCTTAGGCGTAGGACTGGACAATATTGATCTGGATGAAACGAGAAAAAGAGGAGTGGCTGTCATCTCGGCTAGAAATGCTAATGCGGTTTCGGTAGCGGAGTATGTCATGCAGGCGGTTCTTAGTTCCCGCCGCCCCCTTCATGAGGCCCATAAAGGGGTGGCTGAAGGGAAATGGGAGCGCAGTGTACATACCGGATATGAAATCAACGGAAAGACACTCGGTTTGATCGGTCTTGGAGAAATTTCGCACCGGACAGCCAAACGGGCGAAAGCTTTCGGCATGAACGTCATCGGATACGATCCATTTCGTACAGAATACGATTATATGATCGATGAAACAGGCATTGTGAAGAAAGAATGGAACGACGTGCTGGGAGAATCGGATTTCCTGTCCATTCATGTTCCATTAAACACGGCAACAAAGCATTTGATTGGCCGGAAAGCCATCGAGTTGATGAAACCTTCTGCATGCCTCATCAATACCGCCCGCGGTGGTATCGTCAAAGAGAAGGATCTGGCTGAAGCTTTGCAGGACAGGCGTTTGGCGGGCGCCTTTCTGGATGTACTGGAAAATGAACCGATCCATCCTGAAAATCCTCTTCTGCAAGCCCCCCATGTGACGTTGACCCCTCACATCGCTGGTTTGACAGAAGAATCGCAGGAGAGGATTTCTGTCATGATCGCCAAAGAAGTGAACAAGGAGCTTCATGGGAACGCCTCTTTATGCCGGGTATAG	MKILISEVIWTEGIEVLEHQGHTVAYDQKWYANRKEFLANLPDAEALIVRNQTQVDEELLNHAPNLKVIGRLGVGLDNIDLDETRKRGVAVISARNANAVSVAEYVMQAVLSSRRPLHEAHKGVAEGKWERSVHTGYEINGKTLGLIGLGEISHRTAKRAKAFGMNVIGYDPFRTEYDYMIDETGIVKKEWNDVLGESDFLSIHVPLNTATKHLIGRKAIELMKPSACLINTARGGIVKEKDLAEALQDRRLAGAFLDVLENEPIHPENPLLQAPHVTLTPHIAGLTEESQERISVMIAKEVNKELHGNASLCRV	PGPT0009155_6899	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
AK012_00785	1608	sglT_1		Sodium/glucose cotransporter	GTGGCTGAGGGGATGGAGTTTGTTATGCATGGTTTAGATGTAAGTATTGTGGTGATGTATCTTGCCGGGTTGGTTTGGCTTGGCTGGAAGCTTGGGAGAAACAATAAAAGCCAGAAGGATTATTTTATTGGAGGCAGGTCGGTGGCTACCCTTCCGATTGCGCTTTCGATCGCAGCTACAACAGTAAGTGCCAACGGTTTTATCGGAGGACCTGGCTGGGGATATGAGTCGGGATTGATTGCTTTTATGCTTAACTACAGCATCCCTCTGGTAATGATAGTCACTTTATCTGTCTTTCTTCCATTTTTTTATAATCTGGATGTAACGAGTATTTATGAATACATAGAGTTAAGGCTTGGAGGATGGAGCCGTATGCTCGCCGTGATTGGATTTACAGCCTCAAACCTTATCCAGGTTGGGTCATTTCTGTTTATACCGTCACTGATCATCACTACGTTTACAGGGTGGTCTTTGTTTGCAGTCGTACCTCTCGTCGTTTTGATTTCTATCGTTTATACGCTGTTAGGCGGTATCAAAGCGGTTATCTGGACAGATGCGGTCCAGATGGTTGTCCTGTGGGGTGGGCTTGCTGTTTCTTTCTTCATTATTTTATCTGAACTTCAACTGGACTTTATGGAGGCTTATCATACGGCTGAAGCGGCTGGGAAACTGGATGCTCTGGATTTTTCATTGGATTTCAAACGTGAGAATGGTGGGTGGGCAGCGTTGATCGGGGGCGGTTTTTTATGGTTGAAGTATTATGCGGCCGATCAAACCCAGACACAGCGGATGTTTGCAGCGAAATCTATCCAGGAAGTCAAAAAGTCCCTGTGTTTCAGTGGTGTGATTATGAATGTGACGTATTTCGCCTTTATGATGATCGGCGTTTTGTTGTTTATATCTTTTGATGGACAATCATTTAGGAACTCGAATGAAGTAATGATTGAATTTATAGCTGGACAAATTCCCGTGGGTATTCTTGGATTGATCATTGCTGGTGTTTTTGCCGCAGCGATGTCTAGTATCGACTCGGTCCTGAATTCTGTCACCACGGTTTTTGTGAAGGATGTTTATGAAAAGTTTTTTACCAGGGAAGAGGCTGGATTGAAGGTATCGATGACATTCACTGTCGTATTCGGCTTCCTTCTTATTGGTTTTACTCTACTGGCTTTTGCAGGTACGACCGCATCCATCCTTGAAGTGGTGGGCAGCTATCTATCCTATTTTTCCGGTCCGATGCTCGCCATGTTTTTTCTTGGCATGTTCACCACACGTGGCCACGATTATGGAGCAGCCTCGGGGTTTATCATAGGGATTCTGATCACGACCTGGGCTGCCTCTCTTGATACCGTCAACTGGCTTTGGAACTACCCGATCGGTTTCATCAGTAGTTTTGCTGTAGGATATGTAATCAGCTGTTTCCTCCCTCCTTCAAGTAAAACGAGGTATACGGTAGCCGGACAGATCAAAGCTTTGAAAAGGGAAAACCATGTAGAAGACGAAAGGGGGCATTCCATTCTCCCGGGCACCTTCGATCGTTACAGCTGGTTCCTGCTTGGGTTTTTCGTGCTTCAAAACGCTGTCCTGCTCTTCCTTCAATTTCTATAA	MAEGMEFVMHGLDVSIVVMYLAGLVWLGWKLGRNNKSQKDYFIGGRSVATLPIALSIAATTVSANGFIGGPGWGYESGLIAFMLNYSIPLVMIVTLSVFLPFFYNLDVTSIYEYIELRLGGWSRMLAVIGFTASNLIQVGSFLFIPSLIITTFTGWSLFAVVPLVVLISIVYTLLGGIKAVIWTDAVQMVVLWGGLAVSFFIILSELQLDFMEAYHTAEAAGKLDALDFSLDFKRENGGWAALIGGGFLWLKYYAADQTQTQRMFAAKSIQEVKKSLCFSGVIMNVTYFAFMMIGVLLFISFDGQSFRNSNEVMIEFIAGQIPVGILGLIIAGVFAAAMSSIDSVLNSVTTVFVKDVYEKFFTREEAGLKVSMTFTVVFGFLLIGFTLLAFAGTTASILEVVGSYLSYFSGPMLAMFFLGMFTTRGHDYGAASGFIIGILITTWAASLDTVNWLWNYPIGFISSFAVGYVISCFLPPSSKTRYTVAGQIKALKRENHVEDERGHSILPGTFDRYSWFLLGFFVLQNAVLLFLQFL	PGPT0013955_2197	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
AK012_00786	906			hypothetical protein	ATGATCAAAAAAGTATTATTTATCTTTGTCGTGGTGTTTGTAACTGCAGGCTGTACGTCTTCCCAGTCATCCGGAGACCTTTCGGAAGAAGAAAGCACAACGAAGGATGATATTGATCAAGTACTGACCCACCTGTTCTCAGGGCCCGGGGAAGAAGTAAAGGAGCATTATGAAAACGGCCGTTATGACGACATTAACACATATTACACAGATAAGTTTAAACCCTACTTTACGGAGGACTATATGAATAGGGCGATGAAAACCAACCTGCTGACCAGCTATCATCAAAGAGCGTTTCGCAGTAATGTGACGATGGAAGTGGAGAATAGGGATATTCAGCAGAGTGACGTTCAAACCGATTATATTTTTGATTACCAGGTGAACGTTAGTAATGGGGAAACGGCAGAGGTTCGGGGAAGGGTGAATACGAACGAAGACGGGGAAATTACAAGGATTTATTTTACTGAGGGACAAGCTCTTGTTCATGCCTTCGATACAGTTGAAGAAACAGCTGACGGCTTCTATGAATACGATCACTCCACTTTGGAGGAAAGGGCCTCTGATGAAGCTTATCAACCTCAATATCCTGAGATCATGCCTTTTGAAGTGGACGGGGTCGAAATAAAGCCCGGAACAAAGGAGCAGAAAGACAAGCGGTTAACCTTCGTTTTTCATGGGGAAACGGGTGAATCCTTGACATTGACCACTATGAACGGCGGAGATCTCCTTCTGGAGGGAAAGGAAACGGAAGATCTGTCGGTTGGTGGCCTTGCCGCACAGTATGCCGTCGGTAAACACAGACAGTATTTGAAATGGAAGGTAGAATCGATTACCTATAAACTTGAAGGTCACTTAGAAGGTTTATCTAAAGATGACCTCGTACACGTGGCGGATTCCTTCAGGTAA	MIKKVLFIFVVVFVTAGCTSSQSSGDLSEEESTTKDDIDQVLTHLFSGPGEEVKEHYENGRYDDINTYYTDKFKPYFTEDYMNRAMKTNLLTSYHQRAFRSNVTMEVENRDIQQSDVQTDYIFDYQVNVSNGETAEVRGRVNTNEDGEITRIYFTEGQALVHAFDTVEETADGFYEYDHSTLEERASDEAYQPQYPEIMPFEVDGVEIKPGTKEQKDKRLTFVFHGETGESLTLTTMNGGDLLLEGKETEDLSVGGLAAQYAVGKHRQYLKWKVESITYKLEGHLEGLSKDDLVHVADSFR				NA	NA	NA	NA	NA
AK012_00787	1422	gltS		Sodium/glutamate symporter	ATGAGTCCGGAACAAATAGGTTTTGCGCTATTATACATTGGTGTATTTCTTATCATCGGGAAAATTATCAGAGTAAAAGTAAAAATTTTTCAGGACCTTTTTCTACCGGCATCGATTATCGGAGGCTTTATTGCTTTATTATTAGGGCCGCAGGTGCTTGGTAAAATCGCTGCTCTATTCGTATCAGAGGGGCATTTCTTAACGAACGGTATTATGACAGATACGATCATCCAGGTTTGGTCAGCCCTTCCTGGGTTAATGATTAACGTGGTTTTCGCTTCTCTCTTTTTAGGGGCGGCGATGCCGAAGCTGAAAGATGTCTGGACTTACGGCGGCCCTCAGCTTGCCTTCGGATGGGCAGTCGGGTGGGGGCAGTATGTGATCGGCTTGTTAGTCGTCCTGCTCGTTCTAACACCGTTTTTCGATATACCTGCGATGGCCGGTGCTCTTATTGAAGTGGCTTTTGAAGGAGGACACGGTACAGCAGCAGGAATGGCGAGTACTTTTGAAGAGCTCGGCTTTTCAGAAGCGTTTGATTTAGCTATCGGCCTGGCAACGGTGGGGGTTCTATCAGGGGTCATCTTCGGTATTATTTTGATTAACTGGGCAGTCCGGAATAACAAGACCGAAGTCATCAAGGATGTGGACGGTTTTTCTGAACTGCGTAAGAGTGGGATCATGGAATATCAAAATCGTGAACCTGCAGGTAAGATGACCCTCCGTCCTGAATCGATCGAGCCGCTTTCCTTTCATCTGTCCATCATTATGGTCGCTATTTTAATCGGCTGGGGCATTTTACAGGGATTGATCGGTCTTGAGAGCATCACAATTGCCAATTGGACGGGATCGAGCTTTATGAAATACATTCCATTGTTTCCAGTGGCGATGTTCAGCGGTATTATTATTCAGATCTTCTTTAATAAAAATGACAAGTACAACCTGATTGATCGGAGAATGGTGAACCGTATCCAGGGGCTCGCTCTGGACTTGTTAATTATCTCAGCCATCGCTACAGTATCCCTGGAAGTAATCGGCGACTATCTAGTGCCCTTCTTAATTTTAGCGGTAGCCGGCATTTCATGGAACCTCTTCAGCTTTATTTTCCTTGCTCCAAAAATCATTCCAAATTATTGGTTTGAACGGGGGATCGGTGATTTTGGTCAATCCATGGGTGTAACAGCAACAGGGCTTTTATTAATGCGCATCGTCGATCCGGATAATGAATCCCCTGCGTTCGAGGCTTTCGGATACAAGCAGCTCGTTTATGAACCATTTCTAGGGGGCGGTCTCGTTACCGCGCTTTCTGTCCCATTCATAGCAGGCGTCGGCCCGTGGGCAGGACTTATACTCGCTTTATGTATGACTGCCCTTGGAATTTTAGTTGGAATTTTCCATTTTGGAAGACAGAAGCAGCATGAATAG	MSPEQIGFALLYIGVFLIIGKIIRVKVKIFQDLFLPASIIGGFIALLLGPQVLGKIAALFVSEGHFLTNGIMTDTIIQVWSALPGLMINVVFASLFLGAAMPKLKDVWTYGGPQLAFGWAVGWGQYVIGLLVVLLVLTPFFDIPAMAGALIEVAFEGGHGTAAGMASTFEELGFSEAFDLAIGLATVGVLSGVIFGIILINWAVRNNKTEVIKDVDGFSELRKSGIMEYQNREPAGKMTLRPESIEPLSFHLSIIMVAILIGWGILQGLIGLESITIANWTGSSFMKYIPLFPVAMFSGIIIQIFFNKNDKYNLIDRRMVNRIQGLALDLLIISAIATVSLEVIGDYLVPFLILAVAGISWNLFSFIFLAPKIIPNYWFERGIGDFGQSMGVTATGLLLMRIVDPDNESPAFEAFGYKQLVYEPFLGGGLVTALSVPFIAGVGPWAGLILALCMTALGILVGIFHFGRQKQHE	PGPT0000810_126	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GLUTAMATE_TRANSPORT,PGPT0000810-gltS-K03312	NA	NA
AK012_00788	327			hypothetical protein	ATGCACCATAAATCCTGTAGAAAGGACGACCATTCCGATGTTGATGTCATTACCTGCAGCTGCTGTGTTACTGGACTAGCCAACATCATTACAAACCGCTTCCGCTGCGGAGATACGATCGGGGTCACATTTTTCGTCGAAGAAGGAGCAGGGATCTTTGTAGGTAGATATCGAGGGTTGGAGGACTACGTTCTTGAAATCGATGATTTACTTGTGCCTGGGACAACCAGTTTTATTCCTCTCTGTGATATAGGAAGTGTTGAAAAAGGGCTCCCTCTGCAAGAAGAGCCTATGCAGATCAGCAAGGTTACCAGAAATACGCCGTAA	MHHKSCRKDDHSDVDVITCSCCVTGLANIITNRFRCGDTIGVTFFVEEGAGIFVGRYRGLEDYVLEIDDLLVPGTTSFIPLCDIGSVEKGLPLQEEPMQISKVTRNTP				NA	NA	NA	NA	NA
AK012_00789	564			hypothetical protein	TTGAGCCTGCTTGAAATCCAGGATAAAGTGGAATCATCGTTTCTATTCTTTTGGACAGGGAGTGAGGACATCCTTAAAGTATTCCATATTCTGTTTATCATTCTTATTTTTGTTGTTTATCAGTTTATATCATTAGGAGATACTCAACCTCCTTTTGGTGTCGGCGTTAAAGAAACCTCTCACAAGGGGACGTTGATCGAGGAATATGGTTGGAAAGGTCAAACCGTTCATCAATCCTATATAAATGACAGGTCACTTGATGAAAAAACAGAAGCGCTCACTTCTGTTTGGATAAAAGAGAGACAAATAAGAAATACTTATGCGTCTGTCGTTTCCCTTCTCTTACTCCTGTCTTATTTTCCTCTATTTGCATTATTCAAGATGAAATTCAATATAAAAGAGGAGACGTCTATGTTCAGCCCCTTATGGAACTGTGTCTTTTTTATAGGGAGTGCAGGTATGTACACAGCTGTGATTATCGGAGTCTTTGTCCAATATCAAGAACTGCTGCAGGAAACGCATCGTTTACTGGCCGAGCTGGATCCTCTGATGAAGAAACAATAA	MSLLEIQDKVESSFLFFWTGSEDILKVFHILFIILIFVVYQFISLGDTQPPFGVGVKETSHKGTLIEEYGWKGQTVHQSYINDRSLDEKTEALTSVWIKERQIRNTYASVVSLLLLLSYFPLFALFKMKFNIKEETSMFSPLWNCVFFIGSAGMYTAVIIGVFVQYQELLQETHRLLAELDPLMKKQ				NA	NA	NA	NA	NA
AK012_00790	270			hypothetical protein	ATGAAGTGCCGTGTTCATACGAGTAACAGTCTTGATTATCTAAAGATGTTCAGTTCAAATGAGAATGGCGAGGCTTATTACAAAGAAGAAAAAGTTTTAGCGGAGAGCCATTCAATAACGGCAGGTTCTGCAGGAGCTCTCCTCTTCGCCAAACTGATTCTTGAGGAGTTACAGGTCTTTTCCGAAACCGCTCTTGCAGCATGGTATGAGTATTTTCAAACAGGGGATCCACAGTATTTTTACAAGCTGATGGAAGCAGCCCTGTATTAA	MKCRVHTSNSLDYLKMFSSNENGEAYYKEEKVLAESHSITAGSAGALLFAKLILEELQVFSETALAAWYEYFQTGDPQYFYKLMEAALY				NA	NA	NA	NA	NA
AK012_00791	210			hypothetical protein	GTGGACGTCTATGTTTATGCTTTAGATACATTAGCAGATTGGGAACTTGGCTTCGTAACCGCCGAGTTGAACTCAGGGCAGTACTTCAAAAAAGGGGTGGAGAATGTATCGCTTCAAGTGGCAGGTGCCAGTGGGAAAGCCGTTACAACGAAAGGGGGGGATGAGGGTAACCCCGGAAATAACAACGGAAGAAATCCTTACTTCTCCTAA	MDVYVYALDTLADWELGFVTAELNSGQYFKKGVENVSLQVAGASGKAVTTKGGDEGNPGNNNGRNPYFS				NA	NA	NA	NA	NA
AK012_00792	258			hypothetical protein	ATGCTGTTTGGACCTTTATTTTTATCTCTACTGCCTGGGAGTATTCTTTTATTAACCGCATGGTGGTTCCGGAAAAGAGGTTTTTCTCTTTTTACCAGACTAGTACCTGGTTTTTTATTGATGCTGTCCGCTGTCATCCTTTTTTATATCGGCTTTGTTCATATCAGAGGGTTTGAAGGTGGGGCTTATGCCCTGCTTAGTTTCTTTTTGGTGATGTTTGCCGTTCCTGCATGGATCATTGGAGGGAAGGGAAAATAA	MLFGPLFLSLLPGSILLLTAWWFRKRGFSLFTRLVPGFLLMLSAVILFYIGFVHIRGFEGGAYALLSFFLVMFAVPAWIIGGKGK				NA	NA	NA	NA	NA
AK012_00793	189			hypothetical protein	ATGAGGAGGGAATACGTAAAGAACTCCATATCAGCGGGTTTGATTGCATATGTCCTGTTCTTCCTGTTTTTTTTGGTTATTCATTCGCCTTCTCCGCATTTAGCAGCCTTTACAGCAGGCTTTATCACATTTGAGATCACCTTTTATCATTCAGCGGGTAAGGAGAAGGATAAAAATAAATTCCTCTGA	MRREYVKNSISAGLIAYVLFFLFFLVIHSPSPHLAAFTAGFITFEITFYHSAGKEKDKNKFL				NA	NA	NA	NA	NA
AK012_00795	1176			hypothetical protein	GTGGGAAAGAATTCCATTCATTCAGTAAAAGACACTTCACTCAACAAATGTGAGTCAGCATCGTCCTCCATTGAGGGTGAGCTTTCTAATATATTAATCAATACAAAATGGAAAGGTTGTTGTAAAATGAAACGTTCATTAGAGCAGAGGCTGCAGGATGGACCCGTCATTTGCGGGGAAGGTTATTTGTTTGAACTGGAGCGCCGTGGTTATTTGCAGGCGGGTTCCTTTGTACCAGAAGTAGCTCTGGATAATCCACAGGCACTGAAACAGACCTACCGAGACTATATGCTGGCAGGTTCTGACGTTGTGTTAGCTTTCACGTATAACGGTCACCGTGAAAAAATGAGAATCATTGGAAAAGAAGAATTACTGGAGCCTCTCAATCGTCAGGCTATCCGTCTTGCGAAAGAGGTGGCTCAGGAGCATCCAGAGGAAGAAGCTCTTGTGGCTGGTAACGTTTCCAATACCAACCTGTTCAACCCGGAGGATCCTGAATCCATCAAAAAAACAAGAAGCATGTTTGCAGAAATGATCAAGTGGTGCAAGGAGGAAGGCGTAGACTTTGTGAATGGCGAAACCTTCTATTATTACGAGGAAGCATTAATTGCTCTCGAAGAAATTCAAAAGCAGGATCTTCCTGCTGTCATAACATTCGGGTTAATGGGTGAAAATGTTCTGCGGGACGGTTATGAAGTTGAAGAAGCGTGCCGCCTGTTGAAAGAAAAAGGAGCGCTTGTCGTAGGGATGAACTGTTTCCGCGGACCGGCAACGATGCAGCCGTTCGTAGAGAAAATCCGCAACACAGTGGACGGTTATGTAGGAGCTCTCCCAATCCCTTACCGTACAACAGAGGAACATCCTACATTCTTCAACCTGCCGGATGGTGGCTGTGCCTGCACACTACCAACGGAAACAACGTTCCCAACGTCTCTGGATCCGCTCTATACGAACCGCTATGAACTAGCTGAATGGGCTAAGGAAGCTCACGGGATCGGTGTGAACTACCTGGGACTTTGCTGTGGAGCCTCTCCGGCCATGCTTCGTGAAGTAGCCGAAACAGTCGGACGTACAGCTGTAAACTCTACGTACTCCCCCGATATGGAAAAACACTTCCTATTCGGCAGTGACGACACTTTGCAGGATCATATAACTTCGTACAAAACAAAAGCCTAA	MGKNSIHSVKDTSLNKCESASSSIEGELSNILINTKWKGCCKMKRSLEQRLQDGPVICGEGYLFELERRGYLQAGSFVPEVALDNPQALKQTYRDYMLAGSDVVLAFTYNGHREKMRIIGKEELLEPLNRQAIRLAKEVAQEHPEEEALVAGNVSNTNLFNPEDPESIKKTRSMFAEMIKWCKEEGVDFVNGETFYYYEEALIALEEIQKQDLPAVITFGLMGENVLRDGYEVEEACRLLKEKGALVVGMNCFRGPATMQPFVEKIRNTVDGYVGALPIPYRTTEEHPTFFNLPDGGCACTLPTETTFPTSLDPLYTNRYELAEWAKEAHGIGVNYLGLCCGASPAMLREVAETVGRTAVNSTYSPDMEKHFLFGSDDTLQDHITSYKTKA				NA	NA	NA	NA	NA
AK012_00796	1611	nfdA_2		N-substituted formamide deformylase	ATGCAGACCATTTACTACGGAGGAAACATATTAACTATGGAAGAGGAACATACGATTGTCGAATCCATCTTGATAGAGGATGGGCGGATCAAACATAAGGGTTCTCTTCAAGAAGTAGAAAAGGAAGTACAAATGTCACAGGTGGAAAAAGTCAATTTGAAAGGGAAAACATTGATGCCCTCGTTTATTGATCCACATGGACACATTTCCTTTGTAGGGCCGGTTTCCCGGATGGCTGACTTGAGCGGCTGCGAAAATTTTGAAGATGTAAAACGCGTACTTAGTCAGTACATCGAGCAGCAGGGGGATGAACAAGGCGAAGTGATTATTGGTTTTGGGTATGACCACACCATCTTGGAGGAGGGGCAGCACCCTGCCAAGGAGGTCCTGAACCAAGTCACAGAACAACCGGTATTCGTCTTTCACGCTTCCGCTCATATGGGTTGTGCCAACGATGCTCTACTACAGATGGCAGGTGTTGATTCTGAAACTGAGGAAGTGGAAGGCGGAACCATCGGCCGTATGGCAGACAGTATGGAACCAAACGGATATGTTGAGGAAACAAGTCTTTCGTTGATCCAGCCCTATCTACAAAAAGGAATGGAACTGGATTATTTGAAGCTGGTGGAAGAAGGGCAGGACGTTTATATACAGAATGGAATAACGACTGTGCAGGATGGAGCTGCTACTCCGCAACTTGTCGAAGTGTGTAAGGCATTAGCTGAGCAGGACCGGCTGATCATTGATGTCGTTTCCTATCCTCTGATGGACACAAATCCGAATGAGATCTTCAAATCCAGCCCCCTTCATGCGAAACAGTACCATAAACGATTTAAACTGGGTGGGTACAAAATGTTCTTGGACGGGTCTCCCCAGGGAAAAACAGCGTGGCTTACGGAACCATATGAAGGAGAAAAAACCTATAGAGGGAGTGCCTGGTACAACGATGAGCAGGTGAAGCAGTTTACAAAACAGGCAGTGCAAGACAATGTTCAACTGTTGACCCACTGCAATGGTGACGCAGCCGCCGACCAACTGTTGGGAAGCTACAAAGCTGCTCTGGCAGAAACAGAACAACCTGAAAAAGAAGCGCTCAGACCAGTCATGATACACTGCCAGACGGTACGGGATGACCAGCTCGATGAAATGAACGAGATCGGAATGATTCCATCCATGTTCATTGATCATACATACTTCTGGGGAGATGTCCACTTGAGAAACCTCGGAGAAGAACGTGGTCATCGGATCAGTCCGGCTAAATCAGCCATAGAAAGAGGACTCCCTGTCAATTTCCATCAGGACGCTCCTGTTATCAAGCCGGATATGCTTCAAACCATCTGGAGTGCTGTGAACAGAACAACGAGAACAGGAATAACCATTGGAGCAGAACAGCGCACCACGATATATGAGGCCCTTCAAGCGGTCACGATTCATGCAGCTTATCAGTATGGAGAAGAAGAGGTGAAAGGCAGCCTTAAACAAGGAAAGCTGGCAGATTTGGTTATTCTCGACAAAAATCCGCTCCAAGTGGATCCGATGGAGATTAAGGATATACAAATTGAGGAAACGATCAAAGAAGGCCGGACATTATATAGGAAGAAAGAGTTGTAA	MQTIYYGGNILTMEEEHTIVESILIEDGRIKHKGSLQEVEKEVQMSQVEKVNLKGKTLMPSFIDPHGHISFVGPVSRMADLSGCENFEDVKRVLSQYIEQQGDEQGEVIIGFGYDHTILEEGQHPAKEVLNQVTEQPVFVFHASAHMGCANDALLQMAGVDSETEEVEGGTIGRMADSMEPNGYVEETSLSLIQPYLQKGMELDYLKLVEEGQDVYIQNGITTVQDGAATPQLVEVCKALAEQDRLIIDVVSYPLMDTNPNEIFKSSPLHAKQYHKRFKLGGYKMFLDGSPQGKTAWLTEPYEGEKTYRGSAWYNDEQVKQFTKQAVQDNVQLLTHCNGDAAADQLLGSYKAALAETEQPEKEALRPVMIHCQTVRDDQLDEMNEIGMIPSMFIDHTYFWGDVHLRNLGEERGHRISPAKSAIERGLPVNFHQDAPVIKPDMLQTIWSAVNRTTRTGITIGAEQRTTIYEALQAVTIHAAYQYGEEEVKGSLKQGKLADLVILDKNPLQVDPMEIKDIQIEETIKEGRTLYRKKEL				NA	NA	NA	NA	NA
AK012_00797	1137	capA_1		Capsule biosynthesis protein CapA	ATGAAAAGTAAAAGCCCGCTTATTATTTTAGCGATCATTTTGGTGACGAGTTTCATTGGTGTTACCACCATTTTCTCTCAATCGAACGAAGCAGATACAGAAAAACGCGTTTCCTCCAATATGAAAACACTGCATAAACCAACAAACAAGACAGATGTGACAGAAGTTTCTCTCGCAGCCATAGGCGATCTGTTAATACATAAAGAAGTATACAATGATGCGAAGACTTCTTCAGGCTATGATTTTAATCCTATGTTTCAGGAGGTCTCTCCCCACCTTAAAAAGGCTGACATTACATTTGCGAATTCAGAGAGCATCATGGGTGGTGCAGCCATCGGTGTATCCACCTACCCTTCCTTCAATACGCCCTTTGAATTAGGGGATACATTAAAAACAAACGGCGTTGATATTGTTTCTATGAGCAACAATCACACCCTCGACCGTGGCGTTCCCGCTATTGAAAATGCGATTAACCAATGGGATTTCCTGGGCATTGAAAAGGTAGGGGCCTACTTGTCACCAGAGGAAAGAGACACGGTCACAACCATCAAAAAAAAGGATATCACGTTCTCCTTTCTGGCTTACACCTATGGAACAAACGGAATTCCAACCCCTGATGGGAAACCGTACCTGGTGAACAGGATTGATAAAGATCTTATTACCTCTGACATCAAAAAAGCCTCCGGCGAATCCGATGTCGTTGTCCTAAGTTTACACTTCGGGGCGGAATATGAAAGAAACCCAAATGCTGATCAGAAGGAACTGGCAGCTTTTGCAGCTGAACAAGGCGCAGATATTATACTCGGGCATCACCCGCATGTCCTGCAGCCACCGGAATGGATTCAAAATACAGATGGATCTCAAAGCCTCGTTTTTTATTCTCTCGGCAATTTCCTCTCCGGTCAGGAAGAAAAGTACCGGCGGATTGGTGGTATTGCGGGAGTAACTGTACAAAAAATAAAGGGGATGGAAGGAACATCCATTGACATAAAGGAACCACGTTTTAAACTCACGTATGTGGACTTTAAAAATGACCGGAATTTCAAAGTCCTCCCTATGAAAGAATATAGTACGGAGATGTTCCAGGAACTATCCAAACACATGAAAGCCTCTATCCATGATCTATCGGTAAACTAG	MKSKSPLIILAIILVTSFIGVTTIFSQSNEADTEKRVSSNMKTLHKPTNKTDVTEVSLAAIGDLLIHKEVYNDAKTSSGYDFNPMFQEVSPHLKKADITFANSESIMGGAAIGVSTYPSFNTPFELGDTLKTNGVDIVSMSNNHTLDRGVPAIENAINQWDFLGIEKVGAYLSPEERDTVTTIKKKDITFSFLAYTYGTNGIPTPDGKPYLVNRIDKDLITSDIKKASGESDVVVLSLHFGAEYERNPNADQKELAAFAAEQGADIILGHHPHVLQPPEWIQNTDGSQSLVFYSLGNFLSGQEEKYRRIGGIAGVTVQKIKGMEGTSIDIKEPRFKLTYVDFKNDRNFKVLPMKEYSTEMFQELSKHMKASIHDLSVN				NA	NA	NA	NA	NA
AK012_00798	162			hypothetical protein	ATGGAAAAGCTTATTGAACAGAATCATGACCAAATCGTACTCATGTATATGGTCATCAGCGTTTTCTCTGCTCTGACTTTAAGGAAGATTAAGAAAATAGAAAAGATAAGAAGAGAACTAAAAGAACAGAAAGAATTAAACGATCATTCTAATGGAATATAA	MEKLIEQNHDQIVLMYMVISVFSALTLRKIKKIEKIRRELKEQKELNDHSNGI				NA	NA	NA	NA	NA
AK012_00799	252			hypothetical protein	ATGCGAAGGAAGTCAGGGGTGATATCTACTGGTTTATTTTTGGTGAGCCTGGCTGCATACATAACCATGCTGGGAGGTCATGATGCTTTTCTTTTTGCTGGTGTTGTGTTCGCTGGATTAGGGTTGGTATCTGCCATGTTCTCTGAAAAAGGTATGTACAGAAAGGTGGGGTTCATTGGCAACGGATTAATGATCTTAGTGACAATCATTATCCCTTTTATAGTTACTGCATTTTTTTGGAACACACCTTGA	MRRKSGVISTGLFLVSLAAYITMLGGHDAFLFAGVVFAGLGLVSAMFSEKGMYRKVGFIGNGLMILVTIIIPFIVTAFFWNTP				NA	NA	NA	NA	NA
AK012_00800	1251			Aminopeptidase 2	ATGGAAGAGATATATGAATGTATAAGTGAAGCCCAGCTGAAAAATTATGCAAACCTAGCTGTACAAGCTGGTGTGAATCTGCAGAAAAATCAACGGTTGATTATTCATAGTGATATACAAAATGCAGCCTTTGCCCGTCTCATCCAAACGGCAGCATACGAGGGAGGAGCTTCCAGTGTATGGATCGATTGGACTGATGAAAAGTCGACTAGAGAATTTTACTTAAATGCAGCAGATCGTGTTATCGATCATTTTCCCGATTGGCAGGCTGTCCGATTTAAAGAGTGGGACGATGCTGGTGCTGCATACATCCATATCATTTCTGAAAACACTGATATTTTCAAGGAGGTGTCGTCAGAACGGATCAGCCGCTTTCAGAAGGCCTCACGTACTAAGTTGGAGGATCATTATGCAAAGATTATGTCCCACAGGGTACGCTGGTGTCTTACAGCTGTCCCGTCCTTTGCGTGGGCTGCGAAAGTTTTTCCGAACGTTCATAAAGAAAAAGCCGTGCAATCGTTGTGGCAGGCTATTTTACGTGGAGCACGGGCCGGAGGGATGGATCCTATCAAAGATTGGAAAAATCATGACTGCGCTTTTGAGTTAAGGAAAGCGTTTCTAAACGATTCACAGTTTGACGCCCTGCATTTTACCAATACGCGTGGAACGGACTTATTCATCGGGTTGCCTGATAACCATATCTTCATTGGTGGTGGTGTCAGGGATGAAAATGGAATACCTTTCTTTCCGAACATACCTACGGAAGAAATATTTACTGCTCCTCATAAATATAGAGTGAATGGAAAGTTGGCAGGATCTAAGCCTCTTATATATGGGGGAAGGGAAGTCGATGAATTTCATCTGATTTTTAAAGATGGACGGATTACCGATTATTATGCCGCAAGGGGGCAGGAAGTGTTACAAAGGCTCATAGAAACAGATGAAGGGTCCCAATATTTAGGTGAAATTGCTTTGGTTTCTAATCAATCACCTCTTGCTCGGGAAAATACTCTTTTTTACAATACATTGTTTGATGAAAATACGTCCTGTCATATTGGAATCGGAAATGCATCTCCCTCCAATATTCAAAATGGCAGTGAAAAATCTAAGGAAGAGTTGAAGGAAGCGGCTTTGAATACGTCCATTCTATCGGTCAATGCAACCTTTGGTACCGATGATATGAAGGTGATGGGCATTAAAAAGAATGGAGCTGCAGAACTGCTGATGAAAGATGGGGATTTCCAATTCTGA	MEEIYECISEAQLKNYANLAVQAGVNLQKNQRLIIHSDIQNAAFARLIQTAAYEGGASSVWIDWTDEKSTREFYLNAADRVIDHFPDWQAVRFKEWDDAGAAYIHIISENTDIFKEVSSERISRFQKASRTKLEDHYAKIMSHRVRWCLTAVPSFAWAAKVFPNVHKEKAVQSLWQAILRGARAGGMDPIKDWKNHDCAFELRKAFLNDSQFDALHFTNTRGTDLFIGLPDNHIFIGGGVRDENGIPFFPNIPTEEIFTAPHKYRVNGKLAGSKPLIYGGREVDEFHLIFKDGRITDYYAARGQEVLQRLIETDEGSQYLGEIALVSNQSPLARENTLFYNTLFDENTSCHIGIGNASPSNIQNGSEKSKEELKEAALNTSILSVNATFGTDDMKVMGIKKNGAAELLMKDGDFQF	PGPT0020940_219	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020940-pepS|ampP|ampT-K19689	NA	NA
AK012_00801	528			hypothetical protein	ATGTCACACCTCACTAAAACAGGTGCTTTATTATTACTCGTCGTTTTTCTTGGAGCCTGCCATTCTAATGATCAAAGTTCAACAAGTGCCGAAAATACAATAGAAAATGAAAAGAACTCCCCCTCTTTGGATAATGTGGACGTATCTTTGTCCCAGGATGGGCAGACCATTCCCTCTAAATCAGTTCTATATTGTCTTCCATCAAACAACTGCTCTGAGGAAACCGCAAAACGTGAACTAAGAAATGTTGAATTAAATAAAGTGATTGAAAATGCAAGTGTTTCTCCTGTTAATGAAGGTGAAGAAATTACAATTCACATCGATGGACCACAACCTGAGAAGATCAGTTTTATATCAGAGACTCAACGTAATGATGGATCCTATATCTCGGACGAAGTTGTCGATGGTCATTCGTTCGTTATTGGTGGTAAGGGAAGGTACACGATTCTTTTAACGGTACAATGGGAAAACGAAAATGGAGAGTTTGAAGGCCGTGTTTCTCAAGCGGCCAAGCTGGATGTGGAATAG	MSHLTKTGALLLLVVFLGACHSNDQSSTSAENTIENEKNSPSLDNVDVSLSQDGQTIPSKSVLYCLPSNNCSEETAKRELRNVELNKVIENASVSPVNEGEEITIHIDGPQPEKISFISETQRNDGSYISDEVVDGHSFVIGGKGRYTILLTVQWENENGEFEGRVSQAAKLDVE				NA	NA	NA	NA	NA
AK012_00802	933			hypothetical protein	ATGAGTCAAAAATCTGCTCTATTTTCAATCGGTGCAGGCGCTGCATTATGGGGAATTATCGGTTTTTTCGTCACTTACTTGTACAACATCGGATTCACTCCTGCACAAGTCGTATCGCTGAGGGTTTTATCAGCCAGCCTGCTTCTGGGAGGATATCTCCTATCAAAAGGCCGGCGATACTTTAAAATAAAAGCCGGCGACAGCCGTTATTTTATCGGAACCGGAATCATCAGTATCGTTCTATTTAACTGGTGTTTGTTCAGTGCTATTGAGGAAACGTCTATTTCTGTAGCATCCATCCTTCTTTACACAGCTCCGGCCTTTGTTACCATTCTTTCAAGAGTGATTTTCAAGGAATCGTTGACGATGCGCAAAGTATCCGCTCTTTTGATCACCTTTACAGGCTGTGCCCTTGTCGTCGGCATCATTCCTCATTCGGATCAGTCCATTTCCATGTACGGACTGCTTCTTGGACTTGGATCAGGGTTGTTTTATGCACTGTACAGTATTTTCGGTAAATTTGCACTTCAGCACTACGATTCACTGACGGTCACCTTTTATACGTTTGTATTCGCATCGATTGCCGTCGTACCTGTGAGCGGTCTTTGGAATGAGCTCCCATCATTTTTATCGGTATCCACATGGATCTATGTACTGGGGCTGGGGCTCATATCTACTATGCTGCCATTCATTTTGTACACGAAGGGGCTGAGTTTCGTAGAATCCAGCAAGGCCTCTATCATTGCTACCATTGAACCAGTGGTCGCCACACTCATGGGTTTTCTTGTCTTTCAGGAGCAGTTGACCTTTTGGCAGTACGCAGGGGTCGGCCTTGTCATTACGGCTGTCATCGTGGTACAGGAATCAAAGAATAACAGCAGTGCCATCCACCGGGAAACGGAAAGATCAGCCGTCAACCAGCTTCGGGGCTGA	MSQKSALFSIGAGAALWGIIGFFVTYLYNIGFTPAQVVSLRVLSASLLLGGYLLSKGRRYFKIKAGDSRYFIGTGIISIVLFNWCLFSAIEETSISVASILLYTAPAFVTILSRVIFKESLTMRKVSALLITFTGCALVVGIIPHSDQSISMYGLLLGLGSGLFYALYSIFGKFALQHYDSLTVTFYTFVFASIAVVPVSGLWNELPSFLSVSTWIYVLGLGLISTMLPFILYTKGLSFVESSKASIIATIEPVVATLMGFLVFQEQLTFWQYAGVGLVITAVIVVQESKNNSSAIHRETERSAVNQLRG				NA	NA	NA	NA	NA
AK012_00803	777	bdhA_1		D-beta-hydroxybutyrate dehydrogenase	ATGGTTGAAAACAAAGTTGTATTTATTACAGGAGCAGCCCAGGGAATCGGGTACCAAATCGGAAAAGTCTTTGCAGAAAACGGTGCTAAAGTCGTACTATCTGATATTAACGAAGACGGTGTACAAGAAGCAGCAAAAGCGCTGACGGATGAAAATTTAACAGCCATTGGTGTGAAAGCGGACGTAACAAGCGAAGAGGAGATCAATGCCGCTATTAACCAGACGGTAGATACCTACGGTCGTATTGACGTACTTATCAATAACGCCGGGCTGCAGCACGTATCCCCTCTTGAAGAATTCCCAACGGAAAAATTCAAGCTGATGCAGGACATTATGCTGACTGCGCCATTCATCGCAACGAAGGCCGTTTTCCCGATAATGAAAGAGCAGGGACAGGGACGTATCCTGAATATGGCTTCTATTAACGGAGTGATCGGTTTCTCAGGGAAAGCCGCCTACAATAGTGCTAAGCACGGTGTCATCGGTCTGACGAAAGTAAGCGCCCTTGAAGGTGCGGAGCACGGGATCACAGTCAACGCTGTAGCCCCTGGTTATGTGGATACACCACTGGTTCGTGGTCAGTTGAAAGACCTTGCTAAATCCCGCGGCGTAGAACTGGAAAAGGTATTGGAAGAAGTTATCTATCCACTTGTTCCTCAAAAGCGTCTGCTGCAGGTAGAGGAGATTGCAGACTACTCTATGTTCCTTGCCAGTGATAAAGCGAAAAGTGTCACAGGCCAAACCGTCCTTATTGATGGTGGATATACAGCACAGTAA	MVENKVVFITGAAQGIGYQIGKVFAENGAKVVLSDINEDGVQEAAKALTDENLTAIGVKADVTSEEEINAAINQTVDTYGRIDVLINNAGLQHVSPLEEFPTEKFKLMQDIMLTAPFIATKAVFPIMKEQGQGRILNMASINGVIGFSGKAAYNSAKHGVIGLTKVSALEGAEHGITVNAVAPGYVDTPLVRGQLKDLAKSRGVELEKVLEEVIYPLVPQKRLLQVEEIADYSMFLASDKAKSVTGQTVLIDGGYTAQ	PGPT0008310_1838	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
AK012_00804	1281			hypothetical protein	ATGTTTGCTATTATCATAGGACTTGTCTCTTTAATGATCATGGCGTACTTAGGCTGGTCCATCCTTTGGATTGCCCCTATTGCAGCTTCGATTGTGGCGATCCTTTCAGGGATGGATATCCTGGATGCGTTCACGTCTGACTTCATGAGCGGCTTTGCTTCATTTGCTAGAGACTTCTTCCCGATTTTCCTGTTTGGGGCGGTCTTCGGAAAACTTATGGAAGTAACAGGCAGTGCCCGCAAAGTAGCCAGCTTTTTATCAAGGATTGTCGGGAAAGAGCGTGCCATTTTAGGCGTCCTATTAGGAGCAGCCATCCTCACATACGGGGGTGTGAGTCTCTTTGTTGTCGTCTTCGTTATGTATCCACTTGCTATTAACTTGTTTAGAGAGGCCGATATCAGCCGGAAAGTCATTCCGGGAACAATCGTCCTCGGTGCGTTCACCTTTACGATGACCGCGCTTCCGGGTACAGCTCAGGTACAGAACTACATTCCTACTGAATACTTTGAAACAACCATGATGGCCGCCCCGATCATCGGTATTGTAACCGGGTTGATCATGGCTGTTGGCGGATACTTTTATCTTTCCTACCGGGCGAATAAACTGACCAAAGCAGGAGAGGGCTTCACAGAGCCGCAGAATAAAGTTGGAACTGAGAGTTCCGGGAACGATCCCAGTGTCTTCTTATCCTTCCTTCCGCTGCTTTGTGTTGTTTTATTGATTAACATCTTCAACGTAGAAATGCTGATTGCCTTGTTCGTCGGAATTATTTTAACGATCATCTTGAATTGGAAAGCATTTCACGAGTTCATCACTGCTTTGAACGATGGAGCTAAAGGCGCTGTGACTGCCGTAGTAAATACCGGTGCAGCGGTAGGATTCGGAGCAGTTGTTCAGGCTTCTCCTGCCTTTCCAGCGATCAAAGAAGCGTTATTGAACATCAAAGGCGGTCTTGTCATTTCCGATGCGTTAGCTACCCAGGTGCTTGCGATGATCACCGGATCCGCATCAGGTGGAATGAACATTACTTTGAATGCTCTCGGCTCTGACTATTATCAACAGGCTCTTGAAATGGGAATGAACCCTGAGATTCTGCACCGTATCACAGCTATTGCTTCCGGTGCCTCCATTCTTCCGCACAATGGTGCCCTATTGACTGTCTTTGCCATTACCGGCTTAACCCATAAAGATTCCTATAAGGATATCTTCATCGTTGCTCTGCTCATTCCGTTTGCAGCAACTGTCGTAGGCATTTTGATGTCCTATATCGGAATTGTATAA	MFAIIIGLVSLMIMAYLGWSILWIAPIAASIVAILSGMDILDAFTSDFMSGFASFARDFFPIFLFGAVFGKLMEVTGSARKVASFLSRIVGKERAILGVLLGAAILTYGGVSLFVVVFVMYPLAINLFREADISRKVIPGTIVLGAFTFTMTALPGTAQVQNYIPTEYFETTMMAAPIIGIVTGLIMAVGGYFYLSYRANKLTKAGEGFTEPQNKVGTESSGNDPSVFLSFLPLLCVVLLINIFNVEMLIALFVGIILTIILNWKAFHEFITALNDGAKGAVTAVVNTGAAVGFGAVVQASPAFPAIKEALLNIKGGLVISDALATQVLAMITGSASGGMNITLNALGSDYYQQALEMGMNPEILHRITAIASGASILPHNGALLTVFAITGLTHKDSYKDIFIVALLIPFAATVVGILMSYIGIV				NA	NA	NA	NA	NA
AK012_00805	684	mprA		Response regulator MprA	ATGAACAATCAAAACATAAAAGTCCTGCTTGTTGATGATGAAACACAAATTCTTCAATTTTTGAACCTCGGTCTTACCAACGAACAATTTCAAGTGAAAACTGCTGAAAATGGTATGCAGGCCATGTCCATCCTTCATGAATATCAGCCTCATGTAGTTATTCTTGACGTGATGATGCCCGGTATGGATGGGTTTGAAGTATGCACGATGATTAAGAAAAGCGGTATACAGACATCAGTCATTATGCTGACCGCCCGGGATGAAGTGGAACACCGTGTGAAGGGGCTCAACATCGGGGCTGATGATTATCTCGTGAAGCCTTTCAGCTTTGAAGAGCTCTTGGCACGCATTCAAGCAAGAGTGCGCAATCAATTTCCCGATCAGTTCGGTGAAGTCATTTATGGACCTTTCCGGATAGATGATAAGAGGCGGGAGTTTTACTATGGCGAAAAGTTATTAGCACTGTCCCCGACAGAATATGAACTGCTCAAATACCTCGTGTTGAACCACGGGATGGTGATGAGCAAACTGATGATTTTAAATAAGGTGTGGGGGTATACCTTCCAAGGAGAGGACAACATCGTCGAAGTCTATATCCGCTCCTTACGCGATAAGCTCGGAGATAAGCAGCATCAGGTGATTCGTACAGTACGCGGGGCCGGCTACCGGTTGGAGATCTCATGA	MNNQNIKVLLVDDETQILQFLNLGLTNEQFQVKTAENGMQAMSILHEYQPHVVILDVMMPGMDGFEVCTMIKKSGIQTSVIMLTARDEVEHRVKGLNIGADDYLVKPFSFEELLARIQARVRNQFPDQFGEVIYGPFRIDDKRREFYYGEKLLALSPTEYELLKYLVLNHGMVMSKLMILNKVWGYTFQGEDNIVEVYIRSLRDKLGDKQHQVIRTVRGAGYRLEIS	PGPT0004105_1634	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0004105-cusR|copR|silR-K07665	NA	NA
AK012_00806	1458	sasA_2		Adaptive-response sensory-kinase SasA	ATGAATATAACCAGCATGGTCAAAAAAAACGCCCGTCCGGGCTCCCTTAGATATCAGCTGCTTTCCAAAATGCTGCTCATTCTTTTTCTTATCCTTCTTCTTATCGGATCGATTCAGTTTGTGGTTTTAAAGGATTTTCTTTACCAAACAGAAATTGAAAAATTAAGAGGGAAACTTATGACTTTTCCTGTTGAGGCCTTTGAAGATGGATCGGAGCCGGCTGAAAACGGCCCTCCGAATTTTTTAGTACTGGATAATCTATCGATCTCGATCATTGAAACGGATGGCTCTTACCACAGCCTTTTGAAAGATGAAAGCCTTACGTCCCCGCAGCTTTCTACTCAAGAGCTTGAGGATGTGCGGAGTGATCTTCGTGAGAACCGGCAGATCGAACCTCTCATTACAGAGGATATGGACGGGCAGGAGCAGATCCTTGTTTTCCGTCCCGCAGATCGAACCCCTGCATTGAGCGAAGAACCCCGGGTCATCCAGATGGGGTTGAGTACCGCCCCTCTCAGCCGGATCCTGTGGCGTCAATGGCTGATATTCATGGGTCTGTCGGCGGTTGCTGTAGCAGCAGGAGTTTTGATTTACTTCTCCGTTATCAATCGGACGCTGAGACCTTTGTCAACGATTGTCCAATCGGTGAAAAATATCGATGCATCCAATATGAAAGGACGGATTCCTGAAGAACAAGGACAGGTGGAAGTCGATTCTCTTTCAGCTTCATTTAATGATATGCTGGAGCGTCTTGAGCGTTCCTTCGATCAAGAACGGGAAGCGAAGGAAAAAATGAGGCAGTTCGTGGCAGATGCTTCCCATGAACTGAGAACGCCCATCACGTCCATACACGGTTATTTGGAAATCCTGCTTCGAGGGGCTGCAAAGAAGCCGGATCAGCTGGCCACTTCTCTGGAGAGTATGTACGGAGAAACGAATCGGATCATCAAACTTGTTGAAGAGCTTCTTCTACTGGCGAAGTTGGACAGGGAACCGGAACTCCCTCTGGAAAGAGTGGACCTCTCCCGCCTGATTATGAGTATGCAGACTCAACTGTCTGTCCTTGCAGGAAACCGGAACGTCCGTTTATCTATTGAAAAAGATTTATATGGATACATCAACCCGGACAAGATTAAACAGGTCATTTTAAACCTGTTCCAAAATGCAGTTCAGCATACGCATCCTGATGAAGGAGAGATCCTTGTCTCTCTTTGCAGAGAGTCCTCCCGCCTTCATTTGTCTGTTACAGATAACGGAACAGGTATTGAAGAAAGCAAGCTTCCACATATTTTTGAGCGCTTCTATAAAGCAGATATTTCCAGATCCCATCGTTATGGCGGAGCCGGGCTCGGCTTATCGATTACTAAATCGATTATACTTGCCCATCACGGGGAAGTGTCTGTGAACAGCACACGATATGAAGGCGCTACGTTCCATGTTTACCTTCCTATCCGCTGA	MNITSMVKKNARPGSLRYQLLSKMLLILFLILLLIGSIQFVVLKDFLYQTEIEKLRGKLMTFPVEAFEDGSEPAENGPPNFLVLDNLSISIIETDGSYHSLLKDESLTSPQLSTQELEDVRSDLRENRQIEPLITEDMDGQEQILVFRPADRTPALSEEPRVIQMGLSTAPLSRILWRQWLIFMGLSAVAVAAGVLIYFSVINRTLRPLSTIVQSVKNIDASNMKGRIPEEQGQVEVDSLSASFNDMLERLERSFDQEREAKEKMRQFVADASHELRTPITSIHGYLEILLRGAAKKPDQLATSLESMYGETNRIIKLVEELLLLAKLDREPELPLERVDLSRLIMSMQTQLSVLAGNRNVRLSIEKDLYGYINPDKIKQVILNLFQNAVQHTHPDEGEILVSLCRESSRLHLSVTDNGTGIEESKLPHIFERFYKADISRSHRYGGAGLGLSITKSIILAHHGEVSVNSTRYEGATFHVYLPIR	PGPT0004100_1286	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
AK012_00807	1167	glxK_1	COG1929	Glycerate 3-kinase	ATGAAATGTATAATTGCACCGGACTCTTATAAAGGTAGTTTAACTGCTGTTGAAGCAGCTCAGAGTATGGAAAGAGGCGTCAGACGGGTGTGTCCGTCCTGTGAGGTTCTCTCATTTCCGCTTGCTGATGGAGGAGAGGGTACCGTTGAGTCCCTTGTAAGAAGCACGGAGGGGGCGTTTCGAACAGACGAAGTGACAGGCCCCCTTGGTGAAAAAGTAAAAGCTGTTTGGGGGATTCTGGGAGACAGACGGACCGCTGTCATCGAAATGGCTGAAGCTTCCGGTATTACGCTCCTTGCTGAAAAAGATTTGAACCCTTATGCAACGACGACATTCGGTACAGGTGAACTGATTGGAAAAGCGTTGGACTATGGTGTAGATAAAGTGATCCTTGGCATAGGAGGTAGTGCTACCAATGACGGAGGGGCTGGAATGGCTGCCGCTTTGGGGGCAGAACTGCTGGATAAAGAAGGACGCCCTCTTCCTCATGGAGGAAAAACCTTATTAGATCTTCACGAGATCAGAACAGATCACATGGATAAAAGAATTTTCTCTACACAGTTCATAACAGCCTGTGATGTTGACAATCCATTGTGCGGACCCCGGGGGGCTTCAGCTGTTTTCGGCCCTCAAAAGGGAGCCACGCCGGAAATGGTAGAGGTTCTGGACCAGGCGTTAAGTCATTATGGAAAACAGATTCATAAATATCTCAAGAAGGATATCATGTTTGAAGAAGGGGCCGGTGCAGCAGGAGGGTTGGGTGCTGGTCTGATGGCATTTTTGAATGCCGAACTAAAGCAGGGCATTGATATCGTTCTGGACAGCATTGATTTCAATGCAGTACTGAAAGGTGCGGATTTCGTACTTACCGGAGAAGGGAAAACAGATCGCCAGACATTATTCGGCAAGGCTCCCATGGGAGTAGGGATGAGAGCAAAACAGTTTAACGTTCCTGTATTTTGTATATCCGGTAGTTTGAGTGATGGTTATACGCTGCTTGAGGAAAAAGGCATTCATGCCTTTTTCAGTATTTCCCATGAGCCTTCCACATTGGAATACTTAAGTAGTTATGCCGGGCCTCTTGTTGAGGAAACCGTGGAAAATATCATGAAGGTGTACGCAAGTGTCTATAAAAACACTCCAGTTTCACCGCTCACAAACGGTTGA	MKCIIAPDSYKGSLTAVEAAQSMERGVRRVCPSCEVLSFPLADGGEGTVESLVRSTEGAFRTDEVTGPLGEKVKAVWGILGDRRTAVIEMAEASGITLLAEKDLNPYATTTFGTGELIGKALDYGVDKVILGIGGSATNDGGAGMAAALGAELLDKEGRPLPHGGKTLLDLHEIRTDHMDKRIFSTQFITACDVDNPLCGPRGASAVFGPQKGATPEMVEVLDQALSHYGKQIHKYLKKDIMFEEGAGAAGGLGAGLMAFLNAELKQGIDIVLDSIDFNAVLKGADFVLTGEGKTDRQTLFGKAPMGVGMRAKQFNVPVFCISGSLSDGYTLLEEKGIHAFFSISHEPSTLEYLSSYAGPLVEETVENIMKVYASVYKNTPVSPLTNG	PGPT0018175_2295	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
AK012_00808	744	rspR_1	COG1802	HTH-type transcriptional repressor RspR	ATGATGAGAGAACAATCAGTGTCGAATACAGAATCTAATACAAGAGTTCAGGAAATGAAGGAACGGATGGCTCCGATTATCGAGCATGTTTCCGAACGAAAGCTGCCGGCAAGAGCGTATCAGATCTTAAGGCTGGCCATTAGAAACTTGAAGCTTCTGCCGGGTCCGACGATTCTGGAGCGGGAGATCGCTGAAGTGTTGGATATGAGCCGAACACCCGTGAGAGAAGCCTTAATCCGTCTTCAAACCGAAGGAGTCGTCCATCTGATTCCTAGAAAAGGATTTGAAGTAGAACCGATATCAGCTAAAGATTTGAAAGAGATCTATGAAGTTGTAGAAATGTTGGAAGGGTTAGCCGCAGGACTTGCTGTAACAGTCATGAACGATGAAGATCTGGAGCACCTGGAAGGTCTTATTTCCCAGCAGGAACAGGCGTTGTCGCAAAATGACCTTGATGAATGGGCGAGGCTGGATAACTTGTTCCATTTTACCATTATCGAGCATGCGGGAAATAAACGACTGGCTAACGTGATTGATGTTCATGCCGATCAACTTTACCGAGCCCGCCTGCTTACGATCAATAAACGTCCGCTCCCGTTGCAGTCAATTGTGGAGCACAGAGCCATAGCTGCGTGTATGAAGGCGGGTAACGCTGAAGCGGCTCAGGCCTCGATGCAATCGCACAGGAAAAGGGCAAGGAATGAAATCCTTGAGGTGCTTGAAGAGGGCCAAGACTCCATGTAA	MMREQSVSNTESNTRVQEMKERMAPIIEHVSERKLPARAYQILRLAIRNLKLLPGPTILEREIAEVLDMSRTPVREALIRLQTEGVVHLIPRKGFEVEPISAKDLKEIYEVVEMLEGLAAGLAVTVMNDEDLEHLEGLISQQEQALSQNDLDEWARLDNLFHFTIIEHAGNKRLANVIDVHADQLYRARLLTINKRPLPLQSIVEHRAIAACMKAGNAEAAQASMQSHRKRARNEILEVLEEGQDSM				NA	NA	NA	NA	NA
AK012_00809	1095	ttuC'_1		putative tartrate dehydrogenase/decarboxylase TtuC'	ATGGAAAACAAACAACATTTTAAACTAGCTGTAATTCCGGGTGATGGTATTGGAGAGGAAGTCATTCAAGAAGGGCTTCGTGTCGTCGATCATTTATCAAAGACTTCTAATAAGTTCACTTTTGAAAGCGATTACTTCCCTTGGGGATGTGAATATTACCTTGAACATGGAAAGATGATGGATGAGGATGGGCTGGAAAGAATTAAAAATCATGATGCTATTTACTTCGGAGCTGTTGGATATCCGACCGTTCCCGATCATATAAGCCTCTGGGGACTCCGTCTGGCAATTTGTCAAGGTTTTGATCAGTGGGCCAATATTCGTCCGGTTGAGTTCCTGCCAGGTGTAGAAGGGAAATTGAATCATCCGCATAAGGAAAAGTTGAACTGGGTGTTAGTCAGGGAAAACACAGAAGGTGAATACTCCGGGATCGGCGGTCGTAATTTTGCCGGGCGCGGACCTGGAAAAGAAGTGGCCGTCCAGTCTTCTGTATTTACAGAGGAAGGCTGTGAACGAGTGATTCGTCACGCTTTTGATCTGGCCATGAAGAGAGACCGGAAAAAAGTAACCAGTGTCACAAAAAGTAATGCCCAGCAGTACGGCATGGTATTGTGGGATGAAGTTTTCAAGCGCGTAAGCCGGGACTATCCTGAAGTCGAAACCGATCAATGGCTCGTGGATGCGATGGCTGCACGATTCGTACTTCATCCTGAGGAGCTGGAAGTAGTGGTGGCTTCCAATCTTCACGCTGATATTTTATCAGATCTCGGCAGTGCTCTTGCTGGAAGTCTTGGAATCGCCCCAAGTGCGAATATTCATCTGGACGGACGTTTCCCAAGTATGTTTGAATCAGTCCACGGATCTGCTCCTGATATTGCAGGACAAGGAATTGCCAACCCAATCGGAACCATCGGCAGTGCTGCCCTCATGCTTGAGCACCTTGGACTGAAGCAGGAAGCGGACTTAATTAATGAAGCCATCCGTGCTACAACGAAAGACGGTATTTTAACAGCAGACATCGGCGGCACCAGCTCGACAAGGGAAGTGACGGACGCAGTAATCTCTCATATTTCATCCAAGTACGCCAGCGTCTAA	MENKQHFKLAVIPGDGIGEEVIQEGLRVVDHLSKTSNKFTFESDYFPWGCEYYLEHGKMMDEDGLERIKNHDAIYFGAVGYPTVPDHISLWGLRLAICQGFDQWANIRPVEFLPGVEGKLNHPHKEKLNWVLVRENTEGEYSGIGGRNFAGRGPGKEVAVQSSVFTEEGCERVIRHAFDLAMKRDRKKVTSVTKSNAQQYGMVLWDEVFKRVSRDYPEVETDQWLVDAMAARFVLHPEELEVVVASNLHADILSDLGSALAGSLGIAPSANIHLDGRFPSMFESVHGSAPDIAGQGIANPIGTIGSAALMLEHLGLKQEADLINEAIRATTKDGILTADIGGTSSTREVTDAVISHISSKYASV	PGPT0001905_167	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
AK012_00810	1629	sdcS_1		Sodium-dependent dicarboxylate transporter SdcS	ATGTACTTACATTCTGTCTGGGACAAATTATGGAAATGGGATCGCAGCCTTCGAAAGGATGTAAAAAATGTAACTTCTTATTTATTTGCAAAAGCTCCTTCGAATGCAGCCGTACAGGAAGAAATTGATCCATCAAAGGAACTCGTCAATGACAAACCTCCACGACCGGGGAACTATTCCACCCCTCAAAAAATCGGATTAATTGTGGGACCCCTTTTATACGTATTGATCACCTCGCTGATTCAACCGCAAGGCATGAGCCCAGAAGCGGTCCAGATGCTTGGCCTGATCAGCTGGATTGCTACATGGTGGGTAACAGAAGCGCTGCCGATTCCGGTCACGTCCCTGCTTCCACTGCTGCTTTTTCCGTTAACAGGAGTTATGGAGACCGGTGAAGTTTCCTCCTCTTATGGTGATCCTCTGATCTTTTTATTCGCTGGAAGTTTTATGATTGCTTTAACGATGGAAAAATGGAACCTTCATAAACGAATCGCTTTAGCTATCATTGCCTTTATAGGAAGCAGTCCGAATATGATTATACTTGGTTTCATGACAGCGACCGGCTTTTTATCGATGTGGATTTCCAATACAGCCAGTACAATGATGATGGTTCCAATAAGCCTGGCTGTTACGAAACACGTAGCCGAATCCTTGAAAAACAACACAGATGTAACTCCCGGAAACTTCCCTTTTGGTACCGCTATTATGCTCGGAACCGCGTATGCAGCAACCATCGGTGGATTCGGCACATTAATCGGCGCTCCGGCCAACACGATTTTGGCTGCAACGGTGAATAATCTATACGGCATTGACATTTCCTTTGCCCGATGGATGATGTTCGGTCTTCCCATGGTTGTTCTTCTTGTACCTCTCGTCTGGCTCTATCTTGTTAAAGTCGCCTATCCAATGAAAATCAAGAACATTCCAGGCGGAAGAAAAATTATAAAGAAGGAATTAAAAGAGCTTGGAAAAATGAGTTACGAAGAGAAGATTGTACTGACTGTTTTTTCCCTGACAGCGCTGGCTTGGATTACACGGAGTCTTGTCCTTGAACGCTTCATTCCTGGTATTGATGACACGATTATCGCGCTGCTTGGAGCAGTCCTGCTATTCTTAATTCCTGCCAAAAATAAAGAAGGAAGCATTCTCGACTGGGATACGGTCCTGAAGCTGCCATGGGGAATCCTCTGGCTTTTCGGAGGTGGTCTCGCTCTTGCTGCGGGTATCGTCAGTTCCGGCCTGGATAAATGGATCGGCAGCCAGCTCGTCAATTACAGCAGCATCCCCTTCTTTCTCATGGTCGGATTAATCATCGCCGTCATCACTATGTTGACTGAGTTCACATCAAATACAGCGACCTCTACGATGGTTTATCCGATTGTTGCTGCAGGTGCTGCAGCCTTAGGAACAGATCCGATCATCCTCATGGTGGCCGCCTGTATGGGTGCAACATTTGCTTTTATGTTCCCTGTAGCAGCTCCACCGAATGCGATTGTTTTTGCAACCGGTTACATCAAAATGAGCCGAATGGCTTCAACAGGAATCTGGCTGAACATCAGCTGCATCCTATTCTCTATCGTCATCGTCTATTTCTATGTACCTGTTATTTTTGGAGGGTTACTAAATTAA	MYLHSVWDKLWKWDRSLRKDVKNVTSYLFAKAPSNAAVQEEIDPSKELVNDKPPRPGNYSTPQKIGLIVGPLLYVLITSLIQPQGMSPEAVQMLGLISWIATWWVTEALPIPVTSLLPLLLFPLTGVMETGEVSSSYGDPLIFLFAGSFMIALTMEKWNLHKRIALAIIAFIGSSPNMIILGFMTATGFLSMWISNTASTMMMVPISLAVTKHVAESLKNNTDVTPGNFPFGTAIMLGTAYAATIGGFGTLIGAPANTILAATVNNLYGIDISFARWMMFGLPMVVLLVPLVWLYLVKVAYPMKIKNIPGGRKIIKKELKELGKMSYEEKIVLTVFSLTALAWITRSLVLERFIPGIDDTIIALLGAVLLFLIPAKNKEGSILDWDTVLKLPWGILWLFGGGLALAAGIVSSGLDKWIGSQLVNYSSIPFFLMVGLIIAVITMLTEFTSNTATSTMVYPIVAAGAAALGTDPIILMVAACMGATFAFMFPVAAPPNAIVFATGYIKMSRMASTGIWLNISCILFSIVIVYFYVPVIFGGLLN				NA	NA	NA	NA	NA
AK012_00811	570		COG0693	putative protein	ATGACTGCAAAGAAAGTGCTGATCATTACCGGAGATGCTGTTGAAGCCCTGGAGGTTTACTACCCCTACTTCCGCTGCCTGGAGGAAGGGTTTGACGTGGACATTGCCGCCCCTCACCAAAAGAAACTGAACACCGTCATCCACGATTTCGAAGATTGGGAAACGTATACGGAAAAACCGGGATACTTAATTGAAGCCGGCACCACATTTGCTGAGGTGGAACCGGAAAATTATGATGCTCTGATCATCCCGGGAGGACGTGCGCCTGAACACATCCGCATGAACGAAGAAGTTCCCGGTATTGTCCGCCACTTTTTTGAGAACGATAAGCCGGTTGCCGTCATGTGCCACGGCAGTCTAGTCCTGACAACTGTCCCTGACGTGGCCCGCGGAAGGAAGATGACCGCCTACTCCGCCTGTCAGCCGGAGGTCGAGAGTATTGGAGCCGAATACATGAATGAAATGGATTACGTTGATGGTAATCTCGTATCCGGACATGCCTGGCCGGACCTTCCGAACATCATGAAAGAGTTCGTGAAGCAGGTGAAAGAAACTACCATTCATACGTAA	MTAKKVLIITGDAVEALEVYYPYFRCLEEGFDVDIAAPHQKKLNTVIHDFEDWETYTEKPGYLIEAGTTFAEVEPENYDALIIPGGRAPEHIRMNEEVPGIVRHFFENDKPVAVMCHGSLVLTTVPDVARGRKMTAYSACQPEVESIGAEYMNEMDYVDGNLVSGHAWPDLPNIMKEFVKQVKETTIHT	PGPT0015010_1178	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
AK012_00812	933			hypothetical protein	ATGAGCATAACAGATTGGTCCGTTCAATCGATACCATCCATGGAAGGGAAAGTTGTAGTAGTCACCGGGGGTAATGGAGGGCTTGGTCTCGAAGTAGTTAAAGTCTTCGGGGAAAAAGGAGCCACAGTTATTATGGCTTCACGTTCTAAGAAACGTGGGGAAGAAGCTGCCGAGCTGCTGAAAAGACAAAAGCCAGATATACGGGTGGACGTGATGGAGCTGGATTTAGCAGATTTAGATTCTGTCGCTTCCTTTACAGAACAATTCAAAGAAACCTATGACCGCCTTGATCTATTGATGAATAATGCCGGGGTGATGACAACGCCTTATGGTAAAACGAAGGATGGGTTCGAGCTTCAATTCGGGACCAACCACCTGGGTCACTTTGCTTTAACGGCCCGCTTATTTGAACGGTTAGCCGCTACAGACGGTTCAAGGGTTGTGACCATCAGCAGCAATGCCCACAAATCGGGCTCTGTCAACTTTGATAATCTTATGTTTGAACAGGGGAAAGGGTATACCCCTATGAAGTCGTACAGCCGATCAAAGTTTGCTAATTTACTATTCGCCTTTGAACTGCAGCGCAGGATCGATCAGGCTGGACTATCCATTAAATCGCTGGGAGCGCACCCGGGGGGAGCACAGACGGATCTCGCCCGTCACATTGAAGACCGCTTCCTATACAAAGCGCTTAGTGGTGTGTTGAAACGCGTCACCCAGAGTGCCTATGAGGGGGCACTACCAGGAATCCGGGCAGCCACCGATCCGGATCTCGAAGGCGGCCGTTATCTAGGGCCTTCAGGGTTTATGGAGATGAAAGGAGATCCTGTTGTTGTAAAGCCGAAAACTGAAACCCTCGATGTGGTGGATGCGGAGGAGCTCTGGGCAGAATCAGAGCGTCTTACCGGAGTTTCTTTCACGGTCACAAGCTGA	MSITDWSVQSIPSMEGKVVVVTGGNGGLGLEVVKVFGEKGATVIMASRSKKRGEEAAELLKRQKPDIRVDVMELDLADLDSVASFTEQFKETYDRLDLLMNNAGVMTTPYGKTKDGFELQFGTNHLGHFALTARLFERLAATDGSRVVTISSNAHKSGSVNFDNLMFEQGKGYTPMKSYSRSKFANLLFAFELQRRIDQAGLSIKSLGAHPGGAQTDLARHIEDRFLYKALSGVLKRVTQSAYEGALPGIRAATDPDLEGGRYLGPSGFMEMKGDPVVVKPKTETLDVVDAEELWAESERLTGVSFTVTS				NA	NA	NA	NA	NA
AK012_00813	1374			hypothetical protein	ATGACAAACAAAGTAAATTGGAAGAAGACATTTGCAGCGCTTCCGTTATCAGCAGCTCTATTAATACCTACAGCCAGTCCGGCATTTGCCGATCACCATGGCGACCATGAAAAAATGGACAAAGTAACCGTGTCCACGCCGGCAGCCGATCTTCGTGCAACGCTTGATCATTATCTTTCTGAACATGCCTATCTGGCCGTCGTAACCATGCAGAAAGGATTGGAAGGCGGTGAAGATTTTGAACAGGCAGCCGCTGCCCTGCAGGCGAATACGAAGGACCTATCCGGTGCTGTTGGATCTGTCTACGGGGAAGAAGCCGGCAGTCAGTTTGAGGATCTATGGTCCGAACACATTGGGTATTTTGTTGATTATGTAAAAGCAACAGCAGAAGATGATGAAGAGGGACGTCAGACAGCCCTTGATAATCTTGATGACTATCGACAGGACTTCTCTTCCTTTATGGAGTCAGCGACAGGAGAGAGATTAGAAGCCTCTGCCCTGGCTGAAGGGCTTCAGATGCACGTAGATCAATTAGTTGGAGCTTTTGACAGCTACGAGGAAGGCGATTTTGATGAAGCTTACGAAAACCTCCGTATGAGCATCGAGCATATGTACGGTGTTGGTAAAGGATTATCAACAGCCATTACAGATCAGTTCCCTGAAAGGTTTGAGAACACGACACCGGCAACCCCTGCGGCTGACCTGCGGGCAGATTTAAACCACCTGCTGTCTGAACACGCAGCTCTTGCAGTTCTAGCTATGCAGAAAGGCGGCGATGGTGCCGAAGACTTTGAAGAAGCTGCCGAAGCTTTGAGTCATAATACCGAAGATCTATCAGCAGCTATTTCCTCTGTTTACGGTGAAGAAGCAGGTGCCCAGTTTGAAGACATGTGGTCTGAACACATCGGCTACTTTGTGGACTATGTGAAAGCAACAGGAAATGATGATGAGCAGGCGAAAGAAGAAGCTTTGAAAGCTCTTGATGGGTACAGACAGGAATTTTCCAAGTTCCTTGATACAGCGACAGAAGGTAAATTGATGGCTGAAAATACAGCAGAAGGCCTGCAGATGCACGTGCAGCAGCTGACTGGAGCTTTTGATAACTATGTGAGCGGTGACTATGAAATGGCGTATGAGCAGGTACGTGAAGCTTACGGCCATATGTATGGCGTAGGAGAAGGATTATCCGGAGCTATTGTGGAGCAGAATCCTGACATGTTTGCCAGCGACATGCCGACAGAAATGCCTAAAACCGGCATGGGCGGTACGAGTGAAGATGGCGGGCTGAATGCATGGATGATCGCCTTTGCTTCCATGGGTATGGCTGTTCTTGCTGCCTTCATCGGCTTCCGCCGCAAGCAGGATCAAGCGTAA	MTNKVNWKKTFAALPLSAALLIPTASPAFADHHGDHEKMDKVTVSTPAADLRATLDHYLSEHAYLAVVTMQKGLEGGEDFEQAAAALQANTKDLSGAVGSVYGEEAGSQFEDLWSEHIGYFVDYVKATAEDDEEGRQTALDNLDDYRQDFSSFMESATGERLEASALAEGLQMHVDQLVGAFDSYEEGDFDEAYENLRMSIEHMYGVGKGLSTAITDQFPERFENTTPATPAADLRADLNHLLSEHAALAVLAMQKGGDGAEDFEEAAEALSHNTEDLSAAISSVYGEEAGAQFEDMWSEHIGYFVDYVKATGNDDEQAKEEALKALDGYRQEFSKFLDTATEGKLMAENTAEGLQMHVQQLTGAFDNYVSGDYEMAYEQVREAYGHMYGVGEGLSGAIVEQNPDMFASDMPTEMPKTGMGGTSEDGGLNAWMIAFASMGMAVLAAFIGFRRKQDQA				NA	NA	NA	NA	NA
AK012_00814	1194			hypothetical protein	ATGGATAGGATAAACACCCCTGTGCAGTCTGGAAAAATTAAATCGGGAAACTTGTGGGTGATGGATGACTTTAATCCGGAGCTGATTTTGAATGATATCCTCCGGCTGAACTTAAACACTGTCAATGTCCCGATCCGCGTAGACGTTCCAAGCCGAACATCATTGACTATGACAATCAATGAAGCTCAAAAACAAAAAGCCGTCGAATTGATTGAAGTTTTGACCCATCAAGGGGTTCAAGTGATGCTTGAACCGTTCCCCTTCATTCAAGGCGGACAGTTCGGGGAAACGGAATGGAATCCCGCAGATAAAAAACGATGGTTTATGTTGTGGCAGACGACAGTGCTTAATCCTTTAATTACCACCATCGCCATCCCCTATCAAGTCTGGGGGTTGAATATTGCGTCCAACCTCGTCAACTTTGAATCCATGGAATCCGACTGGGATGCGATGATCGCAGAAACAAGACGGCAGTACGGAGGTATCGTCGTATTGCGAACGAACTGGTGGTATACAGCATCCTGGAGTCCTCAGACACAGCAGGATTTCACAGCAAAAATCAACCGCTCTTATTGGAAGCTCGTCGATTTCATATCCATTGATGCCTGGTTTGAATTGAACAACCAGGCGGTACCAACAGTCGACCAAATTAAAGCCTCTATGATATCCACGGAGGTTTACAACCGGCAGCAGAATATTCTGCAGGAAATCCAGCGGTTCCATGAAGTAACCGGAAAAGATATTTATTTTGGCGGGTTTAATATTCCTGCTCTTGAGTATGGTCTGAAATTCCCATGGAATGAAGCTGTTTCAAATGTCAAAGCTCCTATCGTTCAAGCCAATGGCTGGACTGCCTATAAAGAGACGTTCGAGGACATCCCCTATTTCCTCGGTTTTTCTGTATGGGTGATCGGCAGTAATGATTCGGAATACTCCTACAGAGTTGAGCCTGAAGCCGCCCTGGTCATTCATGACTGGTATTATGATGACCCATGCTCGGAAAAGGACTTAGAAGAATGCCGTAAAGAATTAGAACGGCTCCAAAGGGAGACGGCCGTTCTCCAGGAACAGGTTCAGGAGCTTGAGTTTGAACGGACAGAATGGCTGGTAAGAGAAGGAGAATTAATAAATAGGATCGAAGATCAGCAACAGATCTTAAATGAAATTAAGAGATTAGTCGACAACGGGACCTGA	MDRINTPVQSGKIKSGNLWVMDDFNPELILNDILRLNLNTVNVPIRVDVPSRTSLTMTINEAQKQKAVELIEVLTHQGVQVMLEPFPFIQGGQFGETEWNPADKKRWFMLWQTTVLNPLITTIAIPYQVWGLNIASNLVNFESMESDWDAMIAETRRQYGGIVVLRTNWWYTASWSPQTQQDFTAKINRSYWKLVDFISIDAWFELNNQAVPTVDQIKASMISTEVYNRQQNILQEIQRFHEVTGKDIYFGGFNIPALEYGLKFPWNEAVSNVKAPIVQANGWTAYKETFEDIPYFLGFSVWVIGSNDSEYSYRVEPEAALVIHDWYYDDPCSEKDLEECRKELERLQRETAVLQEQVQELEFERTEWLVREGELINRIEDQQQILNEIKRLVDNGT				NA	NA	NA	NA	NA
AK012_00815	768			hypothetical protein	ATGAACGATAAATCATGCGACCACATCCTGGATTATATCAATGATCAGTTATCAGATATAGAACGAAAACAGTTTGAAAAACACTTATCCGAATGCCCCCGGTGTCAGGAAGAACTGAAGGAATTGGAAGACTTGATGGGAGATCTTCCGCCGTATATGGAGCAGGTGGACCCGCCTTCAGGTATGAAGAAAAGGGTACTGGACGAGGTCTTTTCAAGCGGGGACGAACCCACCGCGCCTGTCCAGACGAAGCGGCCGGTGAAGTGGAAGGCTTGGTCAGGTGTACTGGCTGCAGGACTGCTTCTTTCCATCGGGATGAACGTGTATACAGGACTTGAAGTTTCCGATCTGGCTTCGGAAAATGAACAGTTGGAATCAAGCCTGTCAGAAATCCAAACGGCCCTTTCCGAACTGGAGGACAGTGAATCCGATACCGCTTCACCGCTCCAGCAGACAGAACTGGCTTCCGCTGAAGGAGCAGATGCTGCTGGAACAGCTACCTTATTGGATCGCGAAGCCAAACAGGAGCTTCTCGTACAAACGCAGAACCTGGAAAACCTGGAACCAGGCGAAGTGTATCAAGTATGGCTGATTGAAGGAGAGACACCGGAGCCGGCTGGTGCTTTTACAACGGATGACACCGGCAGTGGAGGAGTAGCATTTACGATTAATGAAGAAAAATCGTGGGACGCCGTCGCCATTACGAAGGAACCACAGACGGGCAACCAAACCCCGCAGGGAGAGATTATTCTCCAAGCCGGACTTTAA	MNDKSCDHILDYINDQLSDIERKQFEKHLSECPRCQEELKELEDLMGDLPPYMEQVDPPSGMKKRVLDEVFSSGDEPTAPVQTKRPVKWKAWSGVLAAGLLLSIGMNVYTGLEVSDLASENEQLESSLSEIQTALSELEDSESDTASPLQQTELASAEGADAAGTATLLDREAKQELLVQTQNLENLEPGEVYQVWLIEGETPEPAGAFTTDDTGSGGVAFTINEEKSWDAVAITKEPQTGNQTPQGEIILQAGL				NA	NA	NA	NA	NA
AK012_00816	570	rpoE_1	COG1595	ECF RNA polymerase sigma factor RpoE	ATGGCCCAACCGACAGACTTGGATTTGTATGAACGAATCAGGGAGAAAGATAAAGAAGCCCTTGAAGTTCTTTACGACCGATACGAAAAACTGTTGTACTCCTTTGCCTTCCGAATGATGAAGGATTCGCAGGCAGCAGAAGAAGTCATGCAGGATGTATTTATGAAGTTGTGGAGAGGAAAAGGGGCTGGTCAGTATGTCAGCGGACGGGGGAAGTTCTCCAGCTGGCTGCTGACGATTACCAGAAATGCTTCTATTGATTTAATAAGAAAGAAAAAGGTTCAGGAAGTAGAATGGGATCAGCGTGATTCTGTTCATGAAGACCTGCCGGGCGTTGAGCAGGAAATTGAAGATAAAGAGGAGCGGGATCAGCTTCGAAGAGCTGTTCATACGCTTCCGGATGAACAACAGAGAATGATTTGTCTCTTTTATTTTCAAGGGATGTCTCAGAGAGAAATTGCCGAAAAATGTGATATTCCCCTCGGTACCGTCAAAGGACGTGTCCGGCTGGCGCTGAAGAAATTGAGAGAGCACCTTGAGAAAGAAGGGGGGATCGTTTATGAACGATAA	MAQPTDLDLYERIREKDKEALEVLYDRYEKLLYSFAFRMMKDSQAAEEVMQDVFMKLWRGKGAGQYVSGRGKFSSWLLTITRNASIDLIRKKKVQEVEWDQRDSVHEDLPGVEQEIEDKEERDQLRRAVHTLPDEQQRMICLFYFQGMSQREIAEKCDIPLGTVKGRVRLALKKLREHLEKEGGIVYER	PGPT0014960_8339	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK012_00817	90			hypothetical protein	ATGAGCTACGGATACGGAGCAGGCTTTGCGCTGATTGTTGTTTTGTTCATTCTCCTTATCATTGTTGGAGCCGCTTATGTGAAATACTAA	MSYGYGAGFALIVVLFILLIIVGAAYVKY	PGPT0024985_467	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK012_00818	465			hypothetical protein	ATGATTATCAATGGATTGATATGGCTGTTCATCCATTTAGCTGTCAGCGGCATTACGGCCATGGCCCCGGTTTCCTTCATCCAACTGATGCAGCCATTGTTAAAAACGAAGCGGTGGGAAGGCGGGGGGCGTATTTACCGGTCCCTCGGAATTCATAAGTGGAAAACGATGCTTCCAGAAGCTAGGAAATGGATAAATAAAGGGAAAGGGAAGACGGCTGCTGAAATTAGAAATGTGGATGCTTATGAAGAGCTGGAAGAGCAGCTTGCCAGGTCGGAACTCTCCCACTGGATGCAGATCTTACCGGCTCCCTTGTTTTTTCTGTTTAATCCCCTGTGGGCAGGATGGATCATGATTATGTATGCGCTGTTGTTTAATCTCCCGTTCATTATGATCCAGCGGTATAACCGGGCGAGAGTCAGTCGTCTTTCAGCCAGATTCCTGCATGCATTCCCTGGAAAGTAG	MIINGLIWLFIHLAVSGITAMAPVSFIQLMQPLLKTKRWEGGGRIYRSLGIHKWKTMLPEARKWINKGKGKTAAEIRNVDAYEELEEQLARSELSHWMQILPAPLFFLFNPLWAGWIMIMYALLFNLPFIMIQRYNRARVSRLSARFLHAFPGK	PGPT0007435_93	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007435-crtO-K10212	NA	NA
AK012_00819	909	aes_2		Acetyl esterase	ATGTTTATCCAATGGATTGCCAACCTATTGCGGATGCTTCCCAATAAAGCAGCGCGCATGTCTACGATTCAAAAACAAAAGGTAAAGAAGCGGGTCGATGTTTTAGTTGACACATCAATTGCTCCCGCAGCTGTCACCTATTACGAACCGCTTCACTCCCCCTATAAAAAACTGCCGGTTTATATAAATCTCCACGGCGGGGCTTTCATTATGTATGACAAAGAAATGGATGACCCTTACTGCAGGTATCTGGCCAATAGGACAGGGTGTGCGGTCATCAACGTGGAATACGCTAAAGCACCGGAACACCCCTTCCCGTCTCCTATCGTTCAGCTCTATGAAGTATTGGAGTGGGTAAATAACCACGCAGAACACCTGAACATCGACCCTGCCACGTGGATGATCGGCGGGCAGAGTTCCGGCGCCAACATCGCTGCGGCTTTGGGTTTATACTTGAAGGATCAGGAAGAGCCGCAGCCTCTTCTTCAAGTTTTATCGTGTGCCATGCTTGATTTCGTCACCCCTTTTTCTGAAAAACCAGAACCTGACAAATGGCGTTCCAAGTATCCACAGTTTGCCCATTTTCTGAACCTCTGTTATGTCCCTGAAAAAGGCCAGGAGGCTCACCCCTATGCGTCGCCTGTCCTTGCTGAAAGTGTCCAAGGGGTAGCTGAAACAGTCATGATTACTGCTGAATTTGACGCCTTCAAGCCTGAGGCTGAAGCTTATGCGAAAAAGCTGAAAAAAGCAGGTGTTCCTGTGCATCACCACTTATTTGAAGACTGTTACCACCTGTTCACCCATCTTGGTCCGACTGAAGCGGCCACGGAGGCATGGGATACGATTGCTTCTCACATAAGGAAGGTCGCAGCCCAATCAGCTCCGACTTTCAAGAAGATATCCTCATGA	MFIQWIANLLRMLPNKAARMSTIQKQKVKKRVDVLVDTSIAPAAVTYYEPLHSPYKKLPVYINLHGGAFIMYDKEMDDPYCRYLANRTGCAVINVEYAKAPEHPFPSPIVQLYEVLEWVNNHAEHLNIDPATWMIGGQSSGANIAAALGLYLKDQEEPQPLLQVLSCAMLDFVTPFSEKPEPDKWRSKYPQFAHFLNLCYVPEKGQEAHPYASPVLAESVQGVAETVMITAEFDAFKPEAEAYAKKLKKAGVPVHHHLFEDCYHLFTHLGPTEAATEAWDTIASHIRKVAAQSAPTFKKISS				NA	NA	NA	NA	NA
AK012_00820	609	rhtB	COG1280	Homoserine/homoserine lactone efflux protein	GTGGTGTATTCGTTTATCGGCATTTCCCTTTTGTTGACTCTGAGTCCGGGGCCGGACATTCTTTTTGTACTTGCTCAAAGTATTGTCCAGCATGCGAAGGCAGGTATAGTTACTGCTCTCGGCCTGTGTACAGGTTTAATGGTTCATGTTTCCGCCGCTGTATTTGGAGTATCAGCTGTCATTTATCAATCAGCTGCCGCCTTTGAAATCGTGAAGTATGCAGGCGCCGCTTACTTGCTTTTCCTGGCTTTTCAATCTTTCACGGCTGGAGAACCAGCGGATGGACCGTCACAAGGGGAGTCGGAAAAATATCATAAGCTTTACAGGAAAGGAATTTTTATGAATCTGCTCAACCCGAAGGTTTCGTTATTTTTCCTTGCTCTGCTTCCCCCATTCGTCGATCCCTCCCGTGGGAGTGTTTCTTTACAAATGCTTTTCCTCGGATCGATCTTTATCATTCAGGCTTTTCTCGTCTTTTTCCTGGTCTCGGTATTATCAGAAAAAATTCAACTGAACGTGCTTCACCGGATTTCGACCGGAAAGCTCCAAAAAGCACAGGGCCTCATCTTCAGTTTCCTTGCCATGCAGATTGTTATTAGTGGAAAATAA	MVYSFIGISLLLTLSPGPDILFVLAQSIVQHAKAGIVTALGLCTGLMVHVSAAVFGVSAVIYQSAAAFEIVKYAGAAYLLFLAFQSFTAGEPADGPSQGESEKYHKLYRKGIFMNLLNPKVSLFFLALLPPFVDPSRGSVSLQMLFLGSIFIIQAFLVFFLVSVLSEKIQLNVLHRISTGKLQKAQGLIFSFLAMQIVISGK				NA	NA	NA	NA	NA
AK012_00821	405			hypothetical protein	ATGCTTGTGAAACAAATTCATCATGCAGCGATTATTTGTTCAAACTATGAAATATCGAAACATTTCTACGTACATATTCTCGGATTTCCCGTTATTGCTGAAAACTATCGAGAGGACAGGTCATCTTATAAACTCGACCTTCAAGCAGGTGAAAGCCGGATCGAATTGTTTTCTTTTCCCTCACCACCGGAAAGACCGGATGCCCCGGAAGCCCGAGGCCTCAGGCATCTGGCTTTTGCTGTAGAGGATGTGGACCAGTGCAGACAAGAGCTGGAGGAAAAAGGGGTGCATGTAGAAGAGGTGAGGGTCGATCCTTATACCGGCAGGAGGTTCACCTTCTTTAAAGACCCTGATCAGCTGCCTCTGGAACTGTATGAAACAGGAGAAGAAAGGACGGGGAAATAA	MLVKQIHHAAIICSNYEISKHFYVHILGFPVIAENYREDRSSYKLDLQAGESRIELFSFPSPPERPDAPEARGLRHLAFAVEDVDQCRQELEEKGVHVEEVRVDPYTGRRFTFFKDPDQLPLELYETGEERTGK				NA	NA	NA	NA	NA
AK012_00822	1107	psuK	COG0524	Pseudouridine kinase	ATGGAAAAGTTGACCTCACGTGAGCGTCAAGTGTATCAGCAGATTGTCAAAAACCCTTATGTATCCCAGCAAACCCTCTCAGAAGCTCTTCAACTATCCCGATCCACCGTAGCAAATATTATTTCCGGTCTCGTTCAGAAAAATGTCCTTCTCGGTCGTGCTTATGTATTAAACAAGTCCAGGCAGGTGCTCTGCATCGGAGGAGCCAACGTAGACCGGAAACTCTACACCCACGAACCACTTCAAATGTACACATCCAATCCAGTCTACTCCCGTTCCAGTGCAGGAGGTGTAGCGAGAAACATCGCGGAAAACCTGGGAAGACTGGGCTTCCATCCTTCTCTTATTACAGCAGCCGGCATGGATGCTGACTGGGATATCATTGAAAAAGCCTCCGGTTCCTTTATGAACCTGGACGGCGTTCTTCATCTCCCACACGCCACTACAGGTACATACACAGCATTGATGAACCCTCACGGTGAGTTACTCACAGCGCTGGCGGACATGGAAGTCTTCGAGGCGATCCTTCCGCCCCTTGTGATGAAAAGTGAAACAAAGATGAGGCAGTCCGAATGTATGATTGCTGACCTCAACTGTCCTAAAGAAACATTGGAACTCCTGCTTCGCATGAGCCGCAGCTTTTCAGTCCCTCTCGTCTTTGTGACCGTCTCAGCACCCAAAATGAAACGCCTGCCCAAAGACCTCCGAGGGCTTACATGGCTGATGACCAACATAGAGGAAACCGAAGCCCATTTCCACATGTCCATTGACTCCAAAGAAAAATGGTGCCTGGCCGCAGGTTTATGGCTGGAGATGGGCATTGAAAAAGTGACCATCACCTCCGGAAAAGACGGGGTTGTCGTTGGAGAAAAGGAAGGCGGCATCCATCATTTCCCTTCTTTTTCAACAGGGGATGTCAACGATGTAACCGGTGCCGGAGATGCGTTCTGCTCCGGTGTTTTATACGGATGGATGGAGGGCATGGAGCTCCGGGAAGTTATGAAAACAGGGATGATGAATGCGGTGAAATGCATCCAGTCCCCTTATACGGTCCGGCAGGATTTGACTCCATCCCTGCTGACTCAGGATGTGGAGGAATTGGTATGA	MEKLTSRERQVYQQIVKNPYVSQQTLSEALQLSRSTVANIISGLVQKNVLLGRAYVLNKSRQVLCIGGANVDRKLYTHEPLQMYTSNPVYSRSSAGGVARNIAENLGRLGFHPSLITAAGMDADWDIIEKASGSFMNLDGVLHLPHATTGTYTALMNPHGELLTALADMEVFEAILPPLVMKSETKMRQSECMIADLNCPKETLELLLRMSRSFSVPLVFVTVSAPKMKRLPKDLRGLTWLMTNIEETEAHFHMSIDSKEKWCLAAGLWLEMGIEKVTITSGKDGVVVGEKEGGIHHFPSFSTGDVNDVTGAGDAFCSGVLYGWMEGMELREVMKTGMMNAVKCIQSPYTVRQDLTPSLLTQDVEELV	PGPT0021420_64	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021420-psuK|yeiI-K16328	NA	NA
AK012_00823	933	psuG	COG2313	Pseudouridine-5'-phosphate glycosidase	ATGAATCCTTTTGTAGACATGACAGAAGAAGTGGCTTACGCTCTGGCTGAACATCTCCCTGTGGTTGCCCTTGAATCGACGATCATCTCTCACGGAATGCCCTACCCTGATAATTTACGGACGGCGGAGGAAGTAGCGGCCATCATACGGGAGCATGGTGCAGTACCGGCGACTACCGCCATTATGGATGGAAAAATTAAAATCGGGCTCACGAAAGAGGAATTAACAAGACTGGCTTCTGAAAAAGAGGTGATCAAGGCTTCCCGCAAAGATATCGCCTATCTTGCTGCTTCTGGTAAAACGGGTGCGACAACGGTCGCAGGGACCATGTTCTGCGCCGGTCTTGCCGGTATTCCCATCTTTGTGACCGGCGGCATTGGAGGTGTCCACCGTGGTGCCGAGTCCACGATGGATATTTCAGCCGACCTTGAGGAGCTGGGCCGGACAAATGTTGCCGTCATATGTGCCGGAGCCAAGTCCATTCTCGATCTCGGATTGACGATGGAATACCTGGAAACCAAAGGGGTCCCTGTATTAAGCTATCAAACCGACCACCTTCCCGCCTTCTTTACAAGATCTAGTGCTTTCTCCTCCAACTATAAAGTCAATGATCCGGAGGAAATCGCCGCTGTGATCGATACTAAATGGTCACTCGGTCTTGATGGAGGCCTTGTGATTGCTAATCCGATCCCTGAGCACAGTGCATTGGAAGAGGCCTACATGAACCAAACCATTGAAGAAGCTTTACAAGAGGCAGATAGACAGAAGGTTAAACAGAAAGAAGTCACTCCTTTTCTCCTTGAATATATTCACAAAGCGACAGAAGGAAAAAGTCTGCAGGCCAACATCGCTTTAATTAAATCAAACGCTGTCTTAGGAGCACAAACCGCGGCTGCTTTTCAAAAACTAAGGAATTCGGTTCATTCGTTGTAG	MNPFVDMTEEVAYALAEHLPVVALESTIISHGMPYPDNLRTAEEVAAIIREHGAVPATTAIMDGKIKIGLTKEELTRLASEKEVIKASRKDIAYLAASGKTGATTVAGTMFCAGLAGIPIFVTGGIGGVHRGAESTMDISADLEELGRTNVAVICAGAKSILDLGLTMEYLETKGVPVLSYQTDHLPAFFTRSSAFSSNYKVNDPEEIAAVIDTKWSLGLDGGLVIANPIPEHSALEEAYMNQTIEEALQEADRQKVKQKEVTPFLLEYIHKATEGKSLQANIALIKSNAVLGAQTAAAFQKLRNSVHSL	PGPT0021425_674	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021425-psuG-K16329	NA	NA
AK012_00824	186			hypothetical protein	ATGCTGTGGCTGCTGTTCGGTATGCTGGCTGTCGTTATTGCCCTGTCGATTTATTTTGATCGAAAAAGAAGGAAACGGATGACGCAGGAGTCTCAGGACGAGGACACCCACCGGTTGGAAGAAACCTACTATATCGACGGAGCGGGAAGAAAATCTTCGGATCCAAAGTACAATAAACAGTTGTAA	MLWLLFGMLAVVIALSIYFDRKRRKRMTQESQDEDTHRLEETYYIDGAGRKSSDPKYNKQL				NA	NA	NA	NA	NA
AK012_00825	834	ytbE	COG0656	putative oxidoreductase YtbE	ATGAAAACCAATACGAAAACATTGAACAACGGTCTGGAAATGCCGGAAATCGGCTATGGAGTCTTCCGTGTCGACGAAGGGGAAGCTCTTGAGGAAGCTGTCGTTACAGCAATTAAGGAAGGCTACCGCAGCATCGATACCGCTGCCATTTATGGGAATGAACGCAGTGTAGGAAATGGAATTAAGAAGGCTGTGGATGAAGGGCTTGTAGAACGCGGGGACCTATTCGTGACTTCCAAAGTGTGGAATGACGGGCTCGATTACCAAGGAACCATCAGCGCTTATGAAGAAAGTTTAGAGAAACTGGGACTGGACTATCTGGATCTTTACTTGATTCACTGGCCGGGGAATAAGAAATATGAGCAGCCATGGAAAGCTATGGAAGCCCTCTATCAAGAAGGCCGTGTAAAATCCATCGGCGTCAGTAACTTCCAAGTGCACCATTTGGATGATCTGTTGTCCTATGCTGAGGTCAAGCCTGTCATCAACCAAGTCGAGTTTCACCCGAAATTGACGCAGCAGGACGTTCGTGAATACGGGAAAAACCATGATATTCAAGTTGAGGCATGGTCTCCATTGATGAATGCGGACCTTTTGGATCATCAGGTTATCCAAAAGCTGGCGGAACGTCACGGGAAATCACCGGCTCAGATTATTCTCCGCTGGGATATCCAGCATGGTGTCGTGACCATTCCGAAATCCATGACGCCTTCCCGAATTAAAGATAATATCAATATCTATGATTTTGAGTTAACGGATGAAGAGATGAAGGAACTGGATGCGCTCAATGAAAATGCCCGCAGCGGTCCACATCCGGATGAATTCGATTTCTAA	MKTNTKTLNNGLEMPEIGYGVFRVDEGEALEEAVVTAIKEGYRSIDTAAIYGNERSVGNGIKKAVDEGLVERGDLFVTSKVWNDGLDYQGTISAYEESLEKLGLDYLDLYLIHWPGNKKYEQPWKAMEALYQEGRVKSIGVSNFQVHHLDDLLSYAEVKPVINQVEFHPKLTQQDVREYGKNHDIQVEAWSPLMNADLLDHQVIQKLAERHGKSPAQIILRWDIQHGVVTIPKSMTPSRIKDNINIYDFELTDEEMKELDALNENARSGPHPDEFDF	PGPT0014985_325	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0014985-yvgN-K23257	NA	NA
AK012_00826	1197	ydhP_1	COG2814	Inner membrane transport protein YdhP	ATGAGTTCATATGCAGAAACCATGAATCAAACAAAAACAAAAGGAGGCACTCCTGCGCTGCTTGCATTAGCCATTAGTGCCTTCGGTATTGGAACGACGGAATTTGTACCTGTAGGTTTATTATCGTCCATCGCGGATGATTTATCGATATCCATTACACTGGCAGGGCTTTTGATTTCCGGCTATGCCCTTGGTGTAGCCGTTGGTGCGCCTGTGTTAACGGCTCTGACGAGTAAAATGAGTCGTAAATCGCTCTTATTGTCGCTGATGGTCTTATTTATTGCCGGAAACGCGGTGGCTGCGATGTCGACCAGTTTTGGAATGCTGCTGGCGGCCCGCTTCATTACCGCTTTCTCTCATGGAATCTTTTTTTCCATCGGTTCAACGATAGCCGCTGATCTTGTGCCTGAACATAAACGGGCCAGCGCCATCGCTTTTATGTTTACGGGACTGACCGTTGCTACAGTGACAGGCGTTCCGCTGGGGACATTCATAGGACAGGCTTTTGGCTGGAGAGCCACCTTCTGGGGTGTTGCTCTGCTTGGTGTAGTTGGTATCATCGCCAGTTCGATTCTAGTCCCGGGAAATTTGAAAGAAGCACCGCCTGCCAAATTCAGTGAACAAATGAAAATCCTGAAAAACGGAAAACTCATGCTGGCTTTCCTGATCACAGCCCTTGGGTATGGAGGGACCTTTGTCGCTTTCACGTATTTGACTCCTTTACTTGAAGATGTAACAGGATTCAGCTCCAAGTGGGTGAGCATCATTCTGCTTGTTTATGGTGTTGCTGTAGCGATCGGTAACGTCGCAGGCGGGAAGGCTTCCAACCAAAACCCGCTCCGGGCGTTATTCTGGATGTTTGTGCTTCAAGCGGTTATTTTGTTTGGGTTGACTTTTGCGGCCCCTTTCAAAGCTGCAGGTCTTATCGCTATCTTCCTTATGGGGCTGTTTGCCTTTATGAACGTTCCCGGCCTTCAAGTGCTCGTCGTTAACCTGGCTGAAAAATACGTCCCATCCGCCGTCAATGTCGCATCTGCGCTGAACATTGCCGCCTTTAATGTCGGAATTGCCATCGGTTCTTTTGTTGGAGGAATCATCGTAGACGGTATCGGTCTTATTCATACCCCATGGATTGGTGCGATCATGGTTGTCGGGGCTGTATTCTTAACAGGTTTCTTGAGAAAAGTAGAACAGTAA	MSSYAETMNQTKTKGGTPALLALAISAFGIGTTEFVPVGLLSSIADDLSISITLAGLLISGYALGVAVGAPVLTALTSKMSRKSLLLSLMVLFIAGNAVAAMSTSFGMLLAARFITAFSHGIFFSIGSTIAADLVPEHKRASAIAFMFTGLTVATVTGVPLGTFIGQAFGWRATFWGVALLGVVGIIASSILVPGNLKEAPPAKFSEQMKILKNGKLMLAFLITALGYGGTFVAFTYLTPLLEDVTGFSSKWVSIILLVYGVAVAIGNVAGGKASNQNPLRALFWMFVLQAVILFGLTFAAPFKAAGLIAIFLMGLFAFMNVPGLQVLVVNLAEKYVPSAVNVASALNIAAFNVGIAIGSFVGGIIVDGIGLIHTPWIGAIMVVGAVFLTGFLRKVEQ	PGPT0028991_1487	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
AK012_00827	366	ytcD_1	COG1733	putative HTH-type transcriptional regulator YtcD	ATGATGAAAAAATACAACATCCCCGTTGAGGCAGCTCTCGAAGTTATCGGCGGGAAGTGGAAAGTCGTTATTTTGTGCCATTTGATAAAAAATGAATTACGAACGAGTGAATTGAAGCGTCTCATGCCGGGAATCACTCAGAAAATGCTTACCCAGCAGCTCAGGGAGCTTGAGCAGGACGGGGTGCTGGACCGTGTCGTTTTCAATCAGGTTCCACCGAAAGTCGTGTACAAACTAACGGACTATGGCTGGTCCTTAAAGCCTGCTCTGGATATGCTCTGTGCATGGGGTGAACAGCACATCGAGAACTGCTACCCCGATAAATCCGAAGTTCTTACAGAGGGTAATGAATTAGAAAGAGTATAA	MMKKYNIPVEAALEVIGGKWKVVILCHLIKNELRTSELKRLMPGITQKMLTQQLRELEQDGVLDRVVFNQVPPKVVYKLTDYGWSLKPALDMLCAWGEQHIENCYPDKSEVLTEGNELERV				NA	NA	NA	NA	NA
AK012_00828	477			hypothetical protein	ATGAAGCCGCAGATTGTCCAGCTTGGAAACATGTACCTTATGGGAGAAAGCAGGAGCATGACGTTGACCGGTGATAAGACCGTGGAGTTGTGGAAAAGCTTCAAACCTAAGGTGAAAACGATTCAAGAGCGGAAGGATGGGCACTTTTATAACTTATCCATTTATCCGAAAAGTTTTGATCTGAACACGTTCACCTCTGATACGCGTTTCACCCGATGGGCAGCTGTTCACGTTCATGCTGATGAAGAACTTCCGGAAGGTTTGGAGAGCTTCCTGTTACATGGGGGGCTGTACGCTGTTTTTATTCATAAAGGACCGGCGCACACCTTTGTACAAACCCTTGATAAGATTTTTAATGAGTGGTTTCCGAACTCTTCTTATGAACTGGATGCGCGGCCCCATTTCGAGAGAATGGGGCCGGATTACCGGGTGGACGATCTAAACGCTGAGGAGGAAGTGTGGATTCCGATTAAATGA	MKPQIVQLGNMYLMGESRSMTLTGDKTVELWKSFKPKVKTIQERKDGHFYNLSIYPKSFDLNTFTSDTRFTRWAAVHVHADEELPEGLESFLLHGGLYAVFIHKGPAHTFVQTLDKIFNEWFPNSSYELDARPHFERMGPDYRVDDLNAEEEVWIPIK				NA	NA	NA	NA	NA
AK012_00829	1530	opuD_3	COG1292	Glycine betaine transporter OpuD	ATGAAGAATGTAACTCCTGTTTTCTGGTATGGGTTAACCATCTGTGCCTTGTTCGTGCTCTGGGGCGCAATCAGCCCTGATCAGCTTCAGACCGTCACTGCCGAAATTACGGCCGATATTTCAAACACGTTTGGATGGTACTACCTGATCATCGTTTTAGTGATGTTGATTTTCTGTATTTACTTAGTATTCTCCAGGTTCAAAAACCTGAAGCTTGGTAAACAGGACGAGAAGCCTGAATTCTCCCTGCCTACATGGTTTGCCATGCTGTTCAGCGCAGGAATGGGGATGGGCGTCGTCTTTTGGACGACAGCAGAACCTGCTTCCCACGCATTCAAAAGCAGTCCTATAGCCCCTGAGGGAAGTGAGCAGGCGATCAAGGACGCTATGCAGTATTCCTTCTTCCACTGGGGAATCCATGCCTGGGCGATTTATGCCCTCGTCGCTCTTGTACTTGCCTACTTTAAATTCCACAAAGGTTACCCCGGATTGATCAGCGCCACTTTAATTCCCTTATTCGGCAAAAAAGCGATGGGCGGCCTGCCGGGCAGGCTGATTGATGTACTTGCCGTCGTGGCCACCGTCGTTGGTGTAGCCGCGACGCTAGGGTTCGGTTCTGCCCAGATCAACGAAGGACTGGGATACTTATTTGGCGTTCCCAGCAACTTCACCACCCAGTTTATTATACTCGTCGTTTCCATGGTGCTCTTTATCGCATCCGCCTGGTCCGGCATCAGCAAGGGAATCAAATACTTGAGTAATACGAACCTCTTTCTCGGATTTGCTTTGATGATTCTTTTGTTTATCGTAGGACCTTCCGTACTGACATTGAATATGTTTACACAGTCCCTTGGAAACTACGTGACCAACTTTTTCGATATGAGTCTCCGCATTGCCCCTCTTAATGAGGAAAGCAGATCGTGGATCAACTCGTGGACCATTTTTTACTGGGCCTGGTGGATATCCTGGTCACCGTTCGTCGGTATCTTCATTGCAAGGATTTCCCGCGGAAGGACGATCAAAGAATTCATGACCGGTGTTCTTGTGGTTCCATCTCTCGTCTGCTTCGTCTTCTTCGCAGTATTCGGAACAGCAGCCATCGATCTGCAGCAGCGGGGAATCGAAGCCATTTCAGAATTCCCGATTGAAACCGCCACGTTTGCGACACTGGATTATTATCCACTTGGCACACTCATGTCCTTCATTACGATTTTCGTCATTGCAATATTCTTTATTACATCTGCGGACTCCGCTACGTTCGTATTAGGGATGCTTTCCACCAAAGGATCACTAAACCCTGATGGTACCGTTAAAATTTTGTGGGGGCTGGCCCTGACAGGTATGGCTGCCACCATCGTTTATTTCGGAGGTACACAAGGACTGCAGAACGTCCTGATCATTGCCGCCTTCCCATTCTCTGTCATTATTTTACTAATGGGGGGATCCTTCTTCAAGGAGGCCAACCGCGAAATCAGGGAATTGAAAAAAGCAGCAGCCAAGCCGTCCGGAATGAAGAAGCGGGCACAGTAG	MKNVTPVFWYGLTICALFVLWGAISPDQLQTVTAEITADISNTFGWYYLIIVLVMLIFCIYLVFSRFKNLKLGKQDEKPEFSLPTWFAMLFSAGMGMGVVFWTTAEPASHAFKSSPIAPEGSEQAIKDAMQYSFFHWGIHAWAIYALVALVLAYFKFHKGYPGLISATLIPLFGKKAMGGLPGRLIDVLAVVATVVGVAATLGFGSAQINEGLGYLFGVPSNFTTQFIILVVSMVLFIASAWSGISKGIKYLSNTNLFLGFALMILLFIVGPSVLTLNMFTQSLGNYVTNFFDMSLRIAPLNEESRSWINSWTIFYWAWWISWSPFVGIFIARISRGRTIKEFMTGVLVVPSLVCFVFFAVFGTAAIDLQQRGIEAISEFPIETATFATLDYYPLGTLMSFITIFVIAIFFITSADSATFVLGMLSTKGSLNPDGTVKILWGLALTGMAATIVYFGGTQGLQNVLIIAAFPFSVIILLMGGSFFKEANREIRELKKAAAKPSGMKKRAQ	PGPT0013600_1168	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK012_00831	588	xpt	COG0503	Xanthine phosphoribosyltransferase	ATGGAACTATTGGAAAGAAAAATCATGGAAGAAGGACGTGTACTCTCCACATCTGTTTTGAAGGTGGATGCCTTTATCAATCATCAAATCGATCCTGTATTAATGGACAATATCGGACGTGAATTTGCCGAACGGTTCTCTGGATCAGGCATCACGAAAATCCTCACACTCGAATCGTCCGGGATCGCACCTGCTCAAATGACGGGTCTTCACCTGCAGGTTCCTGTTGTCTTTGCTAGAAAACGGAAATCATTGACGCTGAATGATCAATTGTATACATCAGAAGTCTACTCCTTTACCAAAGAACAATCGAATGAAATTGCTGTCTCCCACGAATTTATAGAGGCCGGTGACCACGTCTTGATCCTCGATGATTTTTTAGCGAACGGACAGGCAGCCCTCGGTCTCCTGCATATCGTTGAACAAGCAGGAGCTTCTCTTGAAGGAGTCGGTATTCTTATTGAAAAAGCCTTTCAGGAAGGCGGAAACCTCTTAAAAAACAAAGGGGTACGAGTTGAATCTTTAGCCCGTGTGGCTTCTTTGGACAGCGGCCGTGTCCAATTTGCTGAAAAGGTGGGTGCCCAGTGA	MELLERKIMEEGRVLSTSVLKVDAFINHQIDPVLMDNIGREFAERFSGSGITKILTLESSGIAPAQMTGLHLQVPVVFARKRKSLTLNDQLYTSEVYSFTKEQSNEIAVSHEFIEAGDHVLILDDFLANGQAALGLLHIVEQAGASLEGVGILIEKAFQEGGNLLKNKGVRVESLARVASLDSGRVQFAEKVGAQ	PGPT0007305_315	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007305-xpt-K03816	NA	NA
AK012_00832	1293			Nucleobase transporter PlUacP	GTGAAATCATTCACCTTAGCTATCCAGCATCTGCTTGCGATGTACGCAGGGGCGATTCTCGTTCCATTGATTGTAGGCAGTGCGCTCGGATTAAGCTCTACACAATTGACGTATTTAGTAGCCGTAGATATTTTCATGTGTGGCGCGGCAACTATCCTTCAGGTTGTTAAAAATAACTATTTCGGAATCGGCCTTCCTGTTGTCCTCGGCTGTACCTTTACAGCTGTCGGTCCAATGATTGCTATCGGAAGCGAATACGGAGTGACAGCGATCTACGGTGCAATACTTGTATCCGGCCTTTTCGTCCTTGTGATCAGCCGCTTTTTCAGTAAGCTTGTCCGGTTCTTCCCTCCGGTTGTAACCGGTTCTGTCGTTACCATCATAGGAATTACCTTGATCCCAGTCGCTGTACAGAACATGGGCGGTGGACAGGGAGCCGAAGACTTCGGTTCTCTATTTCATTTGGCGCTGGCTTTCGGTACTCTCGGAGGCATTATCCTTCTGTACCGGTTCACACGTGGATTCCTCCAGTCGATCTCCATTCTTGTAGGAATTGCCGCAGGTACAGCGACTGCCTTCTTTTTCGGCCGGGTCGACACATCGGCCGTTACGGAAGCCTCCTTCTTCCACATTATTGAACCACTATATTTCGGTGTCCCTACGTTTCACTGGTCGGCCATCTTGACGATGATTCTTGTTGCAATGGTCTCGCTTGTTGAATCGACCGGCGTTTATTTTGCCGTCGGAGATCTCTCCGATCAGGAAATTGAGGAAAAAGACTTGAGAAATGGATACCGAGCTGAAGGCATCGCCATTCTTCTTGGAGGCTTTTTCAACGCCTTTCCTTATACCGCTTTTTCTCAAAATGTCGGTCTCATGAACATGACCGGTGTGAAATCAAGGAAGGTCATCTTTATTATGGGCGGCCTGCTGCTTGGACTCGGCCTGCTTCCTAAGGCCGCCGCTTTAACCACGATCATCCCGACACCTGTTCTGGGTGGAGCAATGCTGGCCATGTTTGGGATGGTCATCGCCCAGGGGATCAAAATGTTAAGCAAAGAAGCTGCGGCTTCGCCTGAGAACTCGATGATTGTTGCCTGCTCCATCGGCATGGGGCTTGGTGTAACCGTAGCGCCGGAACTATTCGCGCAGCTTCCCAACAGTATACAGATTTTAACGAGCAACGGCATTGTAGCGGGAAGTCTTACAGCTATCGGGCTGAACATCATTTTCCATAGCACCCGCAGACCGGCAGAGAAAAAAACAGAAGCTGTATGGCAGGAAGGAGCCTGA	MKSFTLAIQHLLAMYAGAILVPLIVGSALGLSSTQLTYLVAVDIFMCGAATILQVVKNNYFGIGLPVVLGCTFTAVGPMIAIGSEYGVTAIYGAILVSGLFVLVISRFFSKLVRFFPPVVTGSVVTIIGITLIPVAVQNMGGGQGAEDFGSLFHLALAFGTLGGIILLYRFTRGFLQSISILVGIAAGTATAFFFGRVDTSAVTEASFFHIIEPLYFGVPTFHWSAILTMILVAMVSLVESTGVYFAVGDLSDQEIEEKDLRNGYRAEGIAILLGGFFNAFPYTAFSQNVGLMNMTGVKSRKVIFIMGGLLLGLGLLPKAAALTTIIPTPVLGGAMLAMFGMVIAQGIKMLSKEAAASPENSMIVACSIGMGLGVTVAPELFAQLPNSIQILTSNGIVAGSLTAIGLNIIFHSTRRPAEKKTEAVWQEGA	PGPT0007330_373	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-XANTHINE_METABOLISM	PHYTOHORMONE-XANTHINE_TRANSPORT,PGPT0007330-pubX-K16169	NA	NA
AK012_00833	978			hypothetical protein	GTGAGAACGGCTGTTTTCTGGATGAATGAGAGCCTTCTTATACTATTTCTCAGTCTTGCCGTTGCGTATACCGTAAGCAGTGAGGCTACAGATCTGGAGGGGGACGGCAGATTCAAACTTGTTCTGCTTCCGGACACTCAATTGTATTCAGATGAGTTTCCAGATAGGTTTCATGCCCAGACCCAGTGGCTGGCGGATAACTTCCAAAGAGAAGATATCCGCTTTGCGGCCCATCTAGGAGATGTGGTGGATAAAAATCAAAAACATCAATGGGAAAATGCAGACAAAGCGGTTGCCAGGATGGATGAAGCTGGTGTGCCTTATGGAATAGCAATGGGAAACCACGACATGGGTGGAAAAGCGGCTCATTTTAAAAAGCAATTCGGCAGCTGGCGGATGAAGGGGCGTCCGGGGTTTGGTGGACACTCTCGAAATGAATTGAACTCCTATTATACGTTTTCGGCAGAAGGCAGAGATTTTCTACTCCTTTTTTTAAATATTGATCTGCCTGGAGAAGACCTTGCCTGGGCACAGCGTGTTCTTGATGAACACCCGGACACACCGGTCATCGTTGTCACTCATCTGCTTATGGATACGAAAGGCCGGCTTTCTGAGAAACCTTATGTAAGAAAATCCAAAGGCAATTCCCCGTCTTTCATTTATAACGAATGGATTGCTAAGAATAGTCAGATTTTCATGACCGTCAACGGTCATTACAGCGGAACGTACCGCACGATTCGTAAAAATGAGGCGGGGCTGCCGGTCCATCAATATACAGCTGATTACCAAGGGTATCCGAATGGAGGAGAGGGGTTTTTGAGGATCATTGAATTCGACTTGAACAAAAATACGCTGACCCACCGAACGTATTCTCCTTATTTAGATGAGGAGATGATCGGAGAACAGCATAATTTTACAGAGTATGTGGATTTTGAGAAGCGGTGGAATCTTGAAATTCCGAACCAGCCATATGAATAA	MRTAVFWMNESLLILFLSLAVAYTVSSEATDLEGDGRFKLVLLPDTQLYSDEFPDRFHAQTQWLADNFQREDIRFAAHLGDVVDKNQKHQWENADKAVARMDEAGVPYGIAMGNHDMGGKAAHFKKQFGSWRMKGRPGFGGHSRNELNSYYTFSAEGRDFLLLFLNIDLPGEDLAWAQRVLDEHPDTPVIVVTHLLMDTKGRLSEKPYVRKSKGNSPSFIYNEWIAKNSQIFMTVNGHYSGTYRTIRKNEAGLPVHQYTADYQGYPNGGEGFLRIIEFDLNKNTLTHRTYSPYLDEEMIGEQHNFTEYVDFEKRWNLEIPNQPYE				NA	NA	NA	NA	NA
AK012_00834	999	luxA	COG2141	Alkanal monooxygenase alpha chain	ATGACTGAAAAAACACTCTCACAAACGAAATACAGCGTTTTAGACCTTGCTCCCGTAACCGAAGGCAGCACGCCCGCTGATTCCTTTAAAAATACTGTAGATCTGGCACAGCATGCTGAGCGTTGGGGCTTTAACAGATACTGGTTAGCGGAACACCATAACATGCCGTTCATCGCAAGCTCGGCGACTTCAATAGCCATCAGCCACGTACTGCATCATACAGATTCCATCCGTGTCGGCTCAGGCGGGGTTATGCTCCCCAATCATGCGCCCCTCGTCGTTGCTGAACAGTTTGGTACGCTGGAAACTTTATTCCCCGGCCGCGTTGATCTAGGCCTCGGCCGGGCACCAGGGACAGATCAACTGACAGCTGGTGCTTTAAGAAGAAATCTGGATAGTGATCCAAACGAATTTCCCGAGCAGGTGGAAGAATTAAGAGGTTACTTTGCCGGGGAAAACCGGATTCATGCAGTCCCGGGGGAAGGGTTGAATGTGCCGATCTGGCTTCTTGGTTCCAGCGGTTTCAGTGCCCAGCTGGCCGGCCGGCTGGGGCTGCCGTTCTCATTCGCCAGCCATTTCTCTCCCAACAATACCGAAGGAGCTCTGCGATTATACAGACAGCAGTTCCACCCCTCCGATGTATTGGATGAGCCTTATGTGATGGTTGGTGTTAACGTGATCGCCGCCGATACAGATGAAGAAGCAGAATACCTGGCAACTTCCCTGCAGCAGCAGTTCCTGAACCTCGTCCGTAATACGAACATGCTGCTTCAGCCTCCAGTTGAAAACATGGAGGATGTATGGACACCACGGGAAAAATTGGCACTCATGCAGCAGCTCGGTTCTTCAATCATTGGTAGTAAGGAAACCGTAAAAGCCAAACTGGAACAATTCCAGAAGGAAACAGAAGCTGACGAAATGATGATCATTTCTCAAATTTATGATCACGACAAACGCCTCCGTTCCTACGAAATCATATCAGAAATTATGAACGCATAA	MTEKTLSQTKYSVLDLAPVTEGSTPADSFKNTVDLAQHAERWGFNRYWLAEHHNMPFIASSATSIAISHVLHHTDSIRVGSGGVMLPNHAPLVVAEQFGTLETLFPGRVDLGLGRAPGTDQLTAGALRRNLDSDPNEFPEQVEELRGYFAGENRIHAVPGEGLNVPIWLLGSSGFSAQLAGRLGLPFSFASHFSPNNTEGALRLYRQQFHPSDVLDEPYVMVGVNVIAADTDEEAEYLATSLQQQFLNLVRNTNMLLQPPVENMEDVWTPREKLALMQQLGSSIIGSKETVKAKLEQFQKETEADEMMIISQIYDHDKRLRSYEIISEIMNA	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
AK012_00835	786			hypothetical protein	GTGACTGAGTATGAGGAACAAGAAGTCGAGAGGATTGAAATCGAGGTGGCTTCCATGGATGTCGATATTCAGACTGCCTCTGTCCCCCACGTTGAAATGAGGGCAGAGGGAAAGACCGACCAGCCCCTTTTTACGTATCGTTACTCTGAGGGAGCACTGCATATTGAAGAAGTGGAACGAAAAGGAATCCGCCTGCTTCCATTTTCTCCATTTAAAGATGCTTCTTTGAACATCGTTCTTCCTGAGAAGAACTATGAGGATCTAACCATGCAGGCATCGTCCGGAGACATTCGTATTGAAGCAATGACGACAGCGTCTTTAGATATCAAGACTTCGTCGGGATCGGTGGACATGGTGAATAATGAGGTTCAGAAGACGCTGGCGATTGAAACTTCCAGCGGAGATATTACTGGAGAAGGTGTTACAGCAGGAGTACGTACATACATAACGAAAAGCGGGTCCGTGACGGAAGAGGGGGCTGATGGAGGGAAAACAATGATCACCACTGCCTCTGGAGATCTGTCGTTGACCGGCATGCAGGCTCAAACAGGTTTGGAAGTGGAAACGAACAGCGGAGATGTGCAGGTGAATTTTGCATCGTCCTCTTTTGAAGATGGAACGGTCTCATTTATGAGCCGGTCAGGGGAAGCTGTTGTAAACTGGGACGGTTTGTTGTATGAAGAGAAAAAGGAACATGCATTTAAAGCTGTGCTTGGGAATGGGGATGAAGGGAACATAATACGGATTGAGACACAGTCCGGAGATCTGCATTTAAATAACAGGTGA	MTEYEEQEVERIEIEVASMDVDIQTASVPHVEMRAEGKTDQPLFTYRYSEGALHIEEVERKGIRLLPFSPFKDASLNIVLPEKNYEDLTMQASSGDIRIEAMTTASLDIKTSSGSVDMVNNEVQKTLAIETSSGDITGEGVTAGVRTYITKSGSVTEEGADGGKTMITTASGDLSLTGMQAQTGLEVETNSGDVQVNFASSSFEDGTVSFMSRSGEAVVNWDGLLYEEKKEHAFKAVLGNGDEGNIIRIETQSGDLHLNNR				NA	NA	NA	NA	NA
AK012_00836	177			hypothetical protein	GTGAAGCGTGAAAAAATTGATAGACGCAGAAGAAGGGAGCGCGGCTCAGCTTTTTTCGATACCTTTACAGAATGTATTGGCTGGCTGCCTGAGGTGGTTTTCGGTATCGGGCGCCTGCTTCTCTGGCTGTTAGAATGTGTAGGAAGGCTGTTCCGAGGTGTGTTTGACCTTTCTTAG	MKREKIDRRRRRERGSAFFDTFTECIGWLPEVVFGIGRLLLWLLECVGRLFRGVFDLS				NA	NA	NA	NA	NA
AK012_00837	993	panS	COG0385	Pantothenate precursors transporter PanS	ATGAAGATGCTTGAATCTATCAGTCATATAGCTGGAAAGTACTTTGCTTTCTGGGTGGTGGGGGCTGCTCTGATCGCCTTTTTCCTCCCTTCGACTTTCCTCGGTCTCGGAGCGTACATCACCATCCTTCTGGGGGTGGTCATGTTCGGAATGGGACTGACTTTAAAACCGGTGGATTTTAAGATGGTTGTACAAAAACCGATTCCAGTCATCGTAGGGGTGTTGTCTCAATTTTTAATCATGCCCCTGGCTGCTTTCGCCATTGCTTATTTGTTGAATCTTCCCGCAGAGCTTGCGGCAGGACTTGTGCTGCTCGGTTCAGTTCCCGGAGGGACGTCTTCCAATGTCATGGTGTTTCTTGCCAGAGGGAATCTGGCTTTGTCAGTAGCCATGACATCGTTGTCGACCCTTCTTGCACCCGTTTTCACACCATTAATTCTTTTAGCCCTGGCTGGGCAGTGGCTGCCTGTGGACCCGGTATCCATGTTTCTTTCGATCGTTCAGGTCATTATTGTTCCGATTGCCCTCGGCGTAGGTGTACGTAAGCTCGCCCCGGCGGCTGTCGATAAAGGCACGTCCATCATTCCGCTGATCTCTGTTCTGGCTATCATCATTATTGTTATGGCTGTCGTGGCTGCGAACGTAGACAGCATCGTCAGCTCCGGCGTGATGGTTTTTGCTGCGGTAATGCTTCACAACCTTTTCGGTCTGTCTCTGGGTTATGGGACAGCCAAAGTAATGAAGCTGGATGAGAGCAAGCGCCGGGCGATTTCCATTGAAGTAGGGATGCAGAACTCCGGTCTTGGTGTAGCTCTTGCTACGGCTCACTTCGGCCCCCTGGCTGCGCTGCCAAACGTTCTTGCTGCGGTATGGCACAATATTTCAGGTCCTATACTTGCAACCTTTTGGTCGAAGAGACCGGTAGAAAAAAAAGAGAAAGGTCCTGTACCTCAAGACACGTGGGTGGAGGATATAAAACAAACCGGATTATAA	MKMLESISHIAGKYFAFWVVGAALIAFFLPSTFLGLGAYITILLGVVMFGMGLTLKPVDFKMVVQKPIPVIVGVLSQFLIMPLAAFAIAYLLNLPAELAAGLVLLGSVPGGTSSNVMVFLARGNLALSVAMTSLSTLLAPVFTPLILLALAGQWLPVDPVSMFLSIVQVIIVPIALGVGVRKLAPAAVDKGTSIIPLISVLAIIIIVMAVVAANVDSIVSSGVMVFAAVMLHNLFGLSLGYGTAKVMKLDESKRRAISIEVGMQNSGLGVALATAHFGPLAALPNVLAAVWHNISGPILATFWSKRPVEKKEKGPVPQDTWVEDIKQTGL	PGPT0013890_796	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
AK012_00838	1395		COG0277	putative FAD-linked oxidoreductase	GTGGCAGTAGATATGACGGATCTCATACAAGAATTGAAGCATGTGCTTCAGGAACACCAACTCTCAACAAATCCAACGATCCTTGATCATCACAGCAGGGATGAGTCCTATCATCAACCGGCAGAACCGGAGGTGGTTGTCTTTCCTGAGACAACGGAGGAGGTTCAGGCCGTTGTAAAAGCAGCGGATGCCTTCGGGATCCCGATCGTTCCGTTTGGTCTGGGGACAAGCCTTGAGGGTCACGTTATTCCATATGAGCGGGGGATAACGATTGATTTTTCACAAATGAACAAAATCCTTGAAGTGCGGGATAAAGATTTTCTGGTGAAAGTCCAGCCGGGTGTAACCAGATCTCAATTAAACAAGGAATTAAAAAAATATGGTTTGTTCTTCACGGTAGATCCCGGTGCAGATGCCACCCTTGGAGGGATGGCAGCCACCAATGCCAGTGGGACAACATCGGTCAAATATGGCGTCATGAAGGATCAGGTACATGACCTGGAGGTAGTCACACCTGATGGAAGCTGTATACATACAGGGAGTATGGCGAGGAAGTCATCCTCCGGTTATCATTTGAACAGTCTTTATGTCGGTTCAGAGGGAACACTCGGATGCATAACGGAATTGACCCTCAGAGTCTATGGCATTCCTGAGCACATTACTGCAGGAAGGGCGGCTTTTCCTTCCGTCAACGATGCCGTGGAGGCTGTGGTGTCCATCCTGCAGGCAGGGGTTCCTATTGCAAGAGTGGAGCTGGTGGACGACCGTTCGATTCAGCAGGTGAACCAATTCAACGACACCACGTATGAAGAAAAGCCGACGTTATTCCTGGAGTTTCATGGAAATGAATCCGGGCTTTCACAGGATGTCGATTTTGTGAAGACCCTTGTACAGGAGCATCGATGCCAGGGCATCCTTTTTGAAAAGGACAATGCCGCTCGGGTGAAGCTGTGGGAAGCGCGGCATCAGCTGGCCTATGCTTATATCCACAGCTTTCCCGGCAGGAAGCTGATGGTGACGGATGTGTGCGTTCCGATTTCTGAACTGGCTGGAGCTGTCAATCACGCCCGTGGTGTCATTGAAGAACTTGAACTGCATGCGGGGATTCTGGGCCATGTGGGGGACGGAAATTACCATGCGCTTCTGATGCTGGACCCGGATCATCCGGAGGAAGCCGCAAAGGCGGAGCAGTTGAATGAAGCTATTGTAGAATATGCCCTTGCATGTGGCGGAACATCGACGGGTGAACATGGGGTTGGACGAGGAAAGATGAAATACCAGAAGCAGGAACACGGGGCCGCCCTGGACGTTATGGATAAAATTAAACAGGCCCTCGATCCAAAAGGAATCATGAATCCTGATAAACTCGTGCCGACAAGGAGGACAAACAAATGA	MAVDMTDLIQELKHVLQEHQLSTNPTILDHHSRDESYHQPAEPEVVVFPETTEEVQAVVKAADAFGIPIVPFGLGTSLEGHVIPYERGITIDFSQMNKILEVRDKDFLVKVQPGVTRSQLNKELKKYGLFFTVDPGADATLGGMAATNASGTTSVKYGVMKDQVHDLEVVTPDGSCIHTGSMARKSSSGYHLNSLYVGSEGTLGCITELTLRVYGIPEHITAGRAAFPSVNDAVEAVVSILQAGVPIARVELVDDRSIQQVNQFNDTTYEEKPTLFLEFHGNESGLSQDVDFVKTLVQEHRCQGILFEKDNAARVKLWEARHQLAYAYIHSFPGRKLMVTDVCVPISELAGAVNHARGVIEELELHAGILGHVGDGNYHALLMLDPDHPEEAAKAEQLNEAIVEYALACGGTSTGEHGVGRGKMKYQKQEHGAALDVMDKIKQALDPKGIMNPDKLVPTRRTNK	PGPT0001890_1299	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
AK012_00839	720	dinG_3		3'-5' exonuclease DinG	ATGAATCCATTTACTCAATTTGTAAAAGATCTCTCCGGCCGGCTCGGAAGCGGCTTTTCATCCCTGGATCACAGCAGTGCTTCCAACCAGGCTTATATTAGAAATCTGGAGCGCGAAATCAAGGAAAAAAATGTGCTGGATCTGCCGCTTGCTGATCTTCCCGTAGTCGTCTTTGATTTGGAAACGACCGGCTTTCACCCTTATCAAGGAGACCGTATTCTCTCAATAGGGGCTGTGAAAATCAGAGGGTTGCAGATGGGAAAGGAGTCCTTCTATTCACTCGTCCAGTGCCGTGCTTCCATTTCTGATGAGGTCACCCGCCTCACAGGAATTACAAAGGAAATGACAGAGAAAGCTCCGCCGCTGGAGGAAGTCCTGCACGATTTTTACAGGTATATCCAAAGTGATGTCTTAGTTGCCCATCACGCCGGACACGAGCGTAAATTTATGAACCACGCGGCGTGGACGGAAATGAAGCGGAAATTCCGGCACCGGCTCCTTGATACGACTTTTCTCACCAAAGTGAATCGTCCCAACCAGGATCTGAATTCCCTTGATGAGTGCTGTGCGGCGTATGAAGTATCGATTGATCACCGGCATCATGCTCTATCTGATGCCAAGGCTGCAGCAGCTTTATGGATTCAGGGGGTCAAGGAAGCGCGGGAGAACGGGTACCTGACGCTTGGAGAAGTCTATACAAAACTTGCTTCTTTTAAATGA	MNPFTQFVKDLSGRLGSGFSSLDHSSASNQAYIRNLEREIKEKNVLDLPLADLPVVVFDLETTGFHPYQGDRILSIGAVKIRGLQMGKESFYSLVQCRASISDEVTRLTGITKEMTEKAPPLEEVLHDFYRYIQSDVLVAHHAGHERKFMNHAAWTEMKRKFRHRLLDTTFLTKVNRPNQDLNSLDECCAAYEVSIDHRHHALSDAKAAAALWIQGVKEARENGYLTLGEVYTKLASFK				NA	NA	NA	NA	NA
AK012_00840	969			hypothetical protein	ATGCACGAAAGCTATCAAGAGCTGCGTACATGGCGGGAGAAGGTGATGCCTGGTCTGATACCGGATCCCGAACAATTGAATGTGTGTCATGATCAGCTCATCTCCCGGACGATAAGGCTTGCAGAGGAACGGGTGGAGATGGAGCAGGGAAAGCCGCCTGCTCCTTTTGCTTTTTATCTGATGGGGAGCGCGGGGCGTTGTGAACAGTCCATTTGGAGTGATCAGGACCACGGTCTTATTTTTGAAGGAGGAAGAGCTGATCAGGATTACTTTCTTTACCTTGGTGCTGAAATCAAACGTGGTCTTGCCGCTGTCGGCTATGAAGAATGTGAAGGAGATGTCATGTCCTCCAATCCAGTCTGGTGTCAGCCGAAAGAGGAAATGAAGCAGCAGGTATCAGGATGGCTTCAGCAGGAGGACTGGCAGGCGCTGCGTCATATGCAGATCTTCTTCGATTCACGAGTTCTCGTTGGTGGAAAAGAAATGCTGCAACCTGTGAAAAATGGAATTTTTACTACATTACATGAGCAGCCACACCTGTATCAAAGACTTGTTGAGAACGTGAAGTATATGAAAAAAGGAAAGGGAGTATTCGGTCAGCTGCTTCCGGAACAAAAAGGAAGCAGACAGGGCAGCGTCGATCTCAAACAGACCATTTACTTTCCGTTTGTCAATGCAGCGAGGCTGTTGGCTTTTTATAAACAGCTGAATGTCCCATCAACTCTGTCAAGGTATGCCGATTTGGAGGAGGATTATCCGGAGCTTCGTTTTTATAAACAGCAGTTCCATGAATTTCTTCAGTTCCGGCTCCATAAGGCGGGGGAGTCGGATGGGTATGGCGGGGTGCACTATGTTCCTGTCCATTCTCTGAAAACGGAAGAAAAAAAGCAGCTGAAATCCTGGATGAAATACGGTCATCAAGCTTTTGAGTATGCCAGAACGGTTTTATCTAAAGAGGGAGTGCTATGA	MHESYQELRTWREKVMPGLIPDPEQLNVCHDQLISRTIRLAEERVEMEQGKPPAPFAFYLMGSAGRCEQSIWSDQDHGLIFEGGRADQDYFLYLGAEIKRGLAAVGYEECEGDVMSSNPVWCQPKEEMKQQVSGWLQQEDWQALRHMQIFFDSRVLVGGKEMLQPVKNGIFTTLHEQPHLYQRLVENVKYMKKGKGVFGQLLPEQKGSRQGSVDLKQTIYFPFVNAARLLAFYKQLNVPSTLSRYADLEEDYPELRFYKQQFHEFLQFRLHKAGESDGYGGVHYVPVHSLKTEEKKQLKSWMKYGHQAFEYARTVLSKEGVL				NA	NA	NA	NA	NA
AK012_00841	1263	nrgA		Ammonium transporter	ATGGAAGCCACGTTTTTAATGAACAATCTCTGGATTGTTGTCTGTACGATTCTTGTTTTATTGATGCAGGGAGGTTTTATCCTTTTGGAGGCGGGGTCGACACGTATGAAAAACGCCGGCCACATAGCAGGGAAAACCGTCTTTACAGTAGGAATTGTTTCCTTGGTTTTCTGGGCCGTCGGGTATGGACTGATTTATGGTGAGGGGAATGCCTTTGTAGGCTTATCCCAGTTCTTTTACGGGGATGCAGAAACAATGGGCGGAGGACTGGCGGGATCGGTTGATTTTATGTTCCAGCTGGCATTCGCAGCTATTGCCATGACCATTGCTTTCGGTGGCTTTGCTGAGCGGGCGAAGCTGATGGGGTACGTTATTTTTGCGGTCTTATTTTCTATACTTATCTACCCGGTCATTGCTCATTGGATCTGGGGAGGCGGCTGGCTTGCGGAGCACGGGAAACAGGACTTCGCCGGTTCCACTGTTGTTCACCTGACCGGTGCAATGGCGGCCCTGGCAGCTACCATGATCTTAAAACCGCGGATTGGTAAATATAATAAAGACGGTACGTCGAACGAGATTGCCGGTCATAACCAGGTATTTACAGCTCTCGGTGTGCTGATTCTCTGGGTAGGCTGGTTTGGTTTTAATGCGGGGAGTACCTTTGGTGTCGCGGATGCCTTTTTCGGTTATGTCGCTTTAAATACTCAGCTGGCAGCAGGCGCGGGGGCTGTAGGGGCGATGCTTATGGTCTGGGCCGTAACAGGGAAAGCAGATGTACCGACAACGCTGAACGGAGCTTTGGCTGGTCTGGTAGCCATTACAGCCTCCTGTGCTTTCGTTGCTCCGTGGGCGGCTGTTTTGATCGGCTTAATCGGAGGAGCATTCGTCTTTTTCAGTATGAGGTTCTTTGATAAACGGAGAATCGACGATCCTATTTTTGCTCTTTCCGTTCACGGCACGGTGGGGATTTGGGGTACGTTGTCCAACGGGTTGTTTGCAACGCCGGAACTTGCAGTTGTCGGCCGTCCCGGACTTTTCTACGGCGGAGGATTTGAACAGCTGGGCGTCCAGATTCTGGGGGTCGTGAGTTCTGGTCTCTATGCGTTTATTGTTTCCTTCATCATCTTGAAGGTCATGGATAAGGCGATGGGGGGGCTCCGTGTTTCTGAAGAAGAAGAGATCATGGGTCTTGATATCAGTGAACATGGAGGCTATGGGTATCCTGAGAACCTGACACCACCGAAGTCGAATTCAGGGGCTTAA	MEATFLMNNLWIVVCTILVLLMQGGFILLEAGSTRMKNAGHIAGKTVFTVGIVSLVFWAVGYGLIYGEGNAFVGLSQFFYGDAETMGGGLAGSVDFMFQLAFAAIAMTIAFGGFAERAKLMGYVIFAVLFSILIYPVIAHWIWGGGWLAEHGKQDFAGSTVVHLTGAMAALAATMILKPRIGKYNKDGTSNEIAGHNQVFTALGVLILWVGWFGFNAGSTFGVADAFFGYVALNTQLAAGAGAVGAMLMVWAVTGKADVPTTLNGALAGLVAITASCAFVAPWAAVLIGLIGGAFVFFSMRFFDKRRIDDPIFALSVHGTVGIWGTLSNGLFATPELAVVGRPGLFYGGGFEQLGVQILGVVSSGLYAFIVSFIILKVMDKAMGGLRVSEEEEIMGLDISEHGGYGYPENLTPPKSNSGA	PGPT0000840_5801	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
AK012_00842	744		COG0726	Peptidoglycan-N-acetylglucosamine deacetylase	ATGAAAATCGCGTCAGGGTTTGCTGCTTTTATTCTGATTACTGGAAGTTTTTCTCCACTCCCAACGGATGCTCATCCCCGGCATTATTATGAAGAAAAAGGGACGGCGATATGGGAAGTGCCGACAGAGACCAAATGGGTGGCCGTCACCTTCGATGATGGACCGAGTGGTACGTATACACCCGAAATTATGGAAGTATTAAAAAAACACGGGGCAAAAGGGACGTTCTTTGTCGTCGGATCGCGGGCGCAGAAACATCCGGATTTGATCAGGGAGATGGTGGAGGAAGGCCATGAAGTTGCCAACCATACGTACCACCATCCGAGCTTTACTGGAATATCAAAACAAGAAATCGTAAAGGAAATAGGGTTTACGGCAGATGTGATCAAGGAGATTACGGGTGAACCTCCTACATTGTTCCGACCACCCGGAGGGGTATACAACGACATTATTGTTGACACCGCCAGTGAGGAGGGTTATATGGTTGTCATGTGGTCCTGGCACCAGGATACCAAAGACTGGCAGAGCCCAGGAGTGAATCGGATTGTAGATACAGTTCTCCGGCATTCAAAAAATGGGGATATCATTCTCTTTCATGATTTCGGGGGGAACAGATCTCAGACGGTTCAGGCATTGAACCGCATTCTTCCCGCTTTAAAAGAAGATGGCTTTCAATTTGTAACGGTATCAGAATTGATTGAAAAGCACCCCAAATATAAAATCATTGATGACTTTTCCGGTTAG	MKIASGFAAFILITGSFSPLPTDAHPRHYYEEKGTAIWEVPTETKWVAVTFDDGPSGTYTPEIMEVLKKHGAKGTFFVVGSRAQKHPDLIREMVEEGHEVANHTYHHPSFTGISKQEIVKEIGFTADVIKEITGEPPTLFRPPGGVYNDIIVDTASEEGYMVVMWSWHQDTKDWQSPGVNRIVDTVLRHSKNGDIILFHDFGGNRSQTVQALNRILPALKEDGFQFVTVSELIEKHPKYKIIDDFSG	PGPT0018645_3650	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK012_00843	291			hypothetical protein	ATGATTCAAGTCATAGTCTTACTAGCCGCAGGTGCCGGCTTATACATGTTATTTAACTGGCTTATGGGATACCGGAAGGGACATATCCAAATGGATTTGGATGACCGGTATGTTGATTTCAATCAATATATTAAGGCTGTTCTGGCGGAACTGAAGCGCCGGGGCTTTGAAGCATCTTATGAGGGAAATGGTGTGTTTACAATCAATGGAAGCCGCTATGTCTTTATTGAACGGAATGTTTCCATGGGAGGCGTCCCTCTTCAGCGGACCATTTTAAAACCGGATCAATGA	MIQVIVLLAAGAGLYMLFNWLMGYRKGHIQMDLDDRYVDFNQYIKAVLAELKRRGFEASYEGNGVFTINGSRYVFIERNVSMGGVPLQRTILKPDQ				NA	NA	NA	NA	NA
AK012_00844	723			putative oxidoreductase	ATGAAAACAGGATTTATTGCAGTTACAGGAGCTTCCAGCGGGATAGGGAAAGCGACGGCTTCATTATTTATAGAGAAAGGCTTTAACGTTCTGCTTATAGCCAGGAGGCAGCACCTTTTGGACGAATTTTCCGGAAACCATGTCATGAAAGCAGCTGTGGATGTTACGGACGATCAGGCTTTAAAGGCTGCCTTAGAGAAAGCGGAGCAGAAGTTTGGGCCTGTTGATCTGATCGTGAACAACGCTGGACGGATGCTTCTGGGTGATATTACTCACCAAAGTCCGGTGGAATGGAAGGAAATGAATGATGTGAATGTGCTCGGAGTTCTAAACGGGATGCAGGCTGTTCTTCCGTCCATGAAAAAGCAGCAGCGAGGTACCATTATTAACATTGGGTCGATTGCCGGCAGAAAAACCTTCCCGGATCATGCCGCCTATGTAGGAACGAAATTTGCCGTTCACGCGATGACGGAAAATGTCCGGGAGGAAGTGGCTGATGACAACATCCGCTTGACGACCATTGCTCCGGGTGTTGTGGAAACAGAACTGATCAATCATACGTCTGACGATGGCATCAAACAAGGGTACAAGGATTGGAAATCTTCCATTCATGGAGGACTTCAGCCGGAAGTTGTAGCTGAAGCTATCTATTACGCATATCAGCAGCCATCGTCTGTAACGATTCGTGAAATCGACCTGGCACCGACAAAACAGCAGGATTAA	MKTGFIAVTGASSGIGKATASLFIEKGFNVLLIARRQHLLDEFSGNHVMKAAVDVTDDQALKAALEKAEQKFGPVDLIVNNAGRMLLGDITHQSPVEWKEMNDVNVLGVLNGMQAVLPSMKKQQRGTIINIGSIAGRKTFPDHAAYVGTKFAVHAMTENVREEVADDNIRLTTIAPGVVETELINHTSDDGIKQGYKDWKSSIHGGLQPEVVAEAIYYAYQQPSSVTIREIDLAPTKQQD				NA	NA	NA	NA	NA
AK012_00845	351	ytcD_2	COG1733	putative HTH-type transcriptional regulator YtcD	ATGGAAAAGACACTGTACTTAAATGAATTTGACGCTACGCTCCAGATGATTCAGGGCAAATGGAAAGTTCTGATCCTCTACGAAATCTATGAGTGTGGATACCGGCGTTTTGGAGATTTGAAGCAGTATATCCAAGACGTTTCCCATAAAACATTAACACGACAATTAAGAGAACTGGAAGAAGACGGCCTCCTATCCAGGAAGGTTTATCCCGAAGTGCCGCCTAAGGTCGAATATTCGCTGACGGAACGAGGGCGTTCCTTGATTCCTGTTCTTGATTTAATTTGCGACTGGGGACTGGAGAATGTCCCTAAGACGCAGCTGCAGCGGGTGCTGTGTGAGGAAGAATAG	MEKTLYLNEFDATLQMIQGKWKVLILYEIYECGYRRFGDLKQYIQDVSHKTLTRQLRELEEDGLLSRKVYPEVPPKVEYSLTERGRSLIPVLDLICDWGLENVPKTQLQRVLCEEE	PGPT0012970_179	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
AK012_00846	375			hypothetical protein	ATGATGGTGGTGATAAGCGTTTTAATCATGTCTGCTTTATACCACATCCTCTATCGGATATGGCCGGCCCGGTCGGTTTATAAAATCCCTGTGACACCCCGTCAATCTTTCACAGGCAGAGCAGTGGTGGACACAAGGGATTACCAGATTTCCTATAAGGATCCGTATCCTCAGGCGTACTGTCTGCCTCTGGCCTATTTAAAACGGCACGCCGGCGAACTGCCGGACCAGCCGCTTCTGCTGGTCTCAACGAACGAGATTGAGAAAAATATGGCAGCAAAAGTCCTTAGAAAAAAAGGATTTACGGTTGAAGGATACGCTCTTGCCGGCGAATGTGAGGAGTGTCCGAAGGTTCCATGTATAGCAGGCTCTTGA	MMVVISVLIMSALYHILYRIWPARSVYKIPVTPRQSFTGRAVVDTRDYQISYKDPYPQAYCLPLAYLKRHAGELPDQPLLLVSTNEIEKNMAAKVLRKKGFTVEGYALAGECEECPKVPCIAGS				NA	NA	NA	NA	NA
AK012_00847	1575		COG0318	Long-chain-fatty-acid--CoA ligase	ATGCATGTACCTTTAGTCTTAACAGATTTCCTTGATCGTGCAGTAGAATTATATGGAGAAAAGACAGCCGTCATAGATGACACATTTTCATTAACCTACAATCAGTTGAATTACAGGGTCAACAGGCTTTCCCGCGGCCTGCAGTCCCTTGGGGTTGGGAAAGGGGACAAAGTGGCATATCTGGCCCCCAATTCAACAGAAATGCTGGAAGGGTTCTACGGAGTCTTTCAGCTTGGAGCTGTCATGACACCTTTGAATACCCGGTTACAGCCGGCAGATTATCAGTTTATTTTGACACATAGTGAAAGTAAAGTTCTTCTTGTAGATGCAGCGCTGTATCCTTTAGTGGAAAACATTGTCGATGATCTCCCGTTCCTGGAGCACGTGATTGTTCATGGAGATCCTTCTGAACAGGGTTATGAACAATGGCTTCACTCCTTTTCCCGCGATCCATTTTCAAGAGTCGAAGTAAAGGAAACGGACCCCGCTTCCTTGTTATATACGAGCGGAACGACGGGGGATCCCAAAGGTGTTATCCTGAGCCATCGATCGAACTATCTGCATGCTCTATCCTCGATGCATCATTTACGTGTGTCGGATCAGGATACGCTGCTTCATGTACTTCCGATGTTCCATGTGAACGGATGGGGATCTCCGTTTTACTACACAGCAAATGGAGCGACCCAGGTGATGCTTCGAAAAACCGAACCATCCGTCATCGTTGATAAGGTGGAGAAGCATCAGGTGAGTGTATTACATATGGCTCCCACGGTGTTGAACATGGTGATCGAGGCATATGAATCCGCCGATCCACAGATTCATCAGGATGTACGCGTCGTTATTGCAGGATCGGCTCCTCCTCCAGCTTTTGTGAGAAAAGTGGAAGAGGATCTCGGATGGACGTTCATTCAAGTGTACGGCATGACTGAAATCTCGCCGCTTATTACGATATCCGAGCTCAAGTCTATGGATATGGATAAAGAAGCGGAAGAACGCTGTCGTTTGAAGGCGAAAGCAGGGTATAGTATGATAGGCAGCCGGGTCAAAGTTGTAGATGAACAGGGCAGCCATGTTCCACATGATGGAAAGACCATCGGTGAAATTATTACCCGGTCCAATAATGTCATGGACGGTTATTACAAAAATGAAGAAGCAACGGCAGCTGCCATTCGTGATGGGTGGCTGTATACGGGAGATATGGCTGTAGTGGATGAACAGGGCTATATTGAAATCGTAGACAGGAAAAAGGATGTCATCATCAGCGGTGGGGAAAACATCTCTTCCATCGAAGTGGAAGGAACGCTGTACGACCATCCATCCATATTGGAAGCCGCTGTCGTAGCGGTTCCCCATGAAAAATGGGGGGAGGTTCCGCACGCGAGTATTGTTCTCAGAGAAGGCGAAAGTCTCACGGAAGAAGAAGTGGTCCGTTTCTGCCGTGAGAAACTCGCTCATTTCAAAGTACCGAAGAGCATTTCCTTTATCGAAGAATTACCGAAGACTGCATCCGGGAAAATCCAAAAAGTGGCGATCCGGAGGGAATTCTGGAAAGGCCGCAGCCGGATGGTTCATTAA	MHVPLVLTDFLDRAVELYGEKTAVIDDTFSLTYNQLNYRVNRLSRGLQSLGVGKGDKVAYLAPNSTEMLEGFYGVFQLGAVMTPLNTRLQPADYQFILTHSESKVLLVDAALYPLVENIVDDLPFLEHVIVHGDPSEQGYEQWLHSFSRDPFSRVEVKETDPASLLYTSGTTGDPKGVILSHRSNYLHALSSMHHLRVSDQDTLLHVLPMFHVNGWGSPFYYTANGATQVMLRKTEPSVIVDKVEKHQVSVLHMAPTVLNMVIEAYESADPQIHQDVRVVIAGSAPPPAFVRKVEEDLGWTFIQVYGMTEISPLITISELKSMDMDKEAEERCRLKAKAGYSMIGSRVKVVDEQGSHVPHDGKTIGEIITRSNNVMDGYYKNEEATAAAIRDGWLYTGDMAVVDEQGYIEIVDRKKDVIISGGENISSIEVEGTLYDHPSILEAAVVAVPHEKWGEVPHASIVLREGESLTEEEVVRFCREKLAHFKVPKSISFIEELPKTASGKIQKVAIRREFWKGRSRMVH				NA	NA	NA	NA	NA
AK012_00848	633			hypothetical protein	TTGCTGCAGCGGATCATGTGGGATCATCTTGACGCCGCCGGATCGGAATATGTAACCATTAACGGACGGCCGGACGGCATGGAAGTGAACGGAACCGTTTTGTTGATCAGTGACAACAGTCCCCACCGGGTGTCTTATGTTTTAAGACTCGGCCCTGATTGGAAAACAAAAAAGCTGAAGGTTTTCATCAATGAGGAAAAAGATCCTTTTGTCATTGAAACTGTTAAAGAGGACAAGTGGTGGGTGGACGGCCGTTACGTAGAAGCGCTGGATGGAGCGTCTAATATTGACTTGTCCCTCACCCCTTTAACCAACTCGCTTCCAATCAACCGGGTTTCATGGATGATAGGAGAGAAAAGGACATTTAAAATAGTTTCTGTGCAGCCGCTAAGTCGTGAAGTCATGCCGATCCTGCAGACGTACACGTATTTAGGGGACTCTGATGGCTGCCGGATCTTTCAGTACAGGTGCCGAAATTTTGAAACGGCGCTGGTCGTTGACCAAAACGGGTGGGTTGTCGAGTATCCGGGCTTTTTTTACCGTCAGGGACGTTCAGATTATACAGGCGTATTTAATGGATCACCGGTATTTCTGGCTTCGGAAGGAAAATCAGGTGGAAAGCTTCCAACATGA	MLQRIMWDHLDAAGSEYVTINGRPDGMEVNGTVLLISDNSPHRVSYVLRLGPDWKTKKLKVFINEEKDPFVIETVKEDKWWVDGRYVEALDGASNIDLSLTPLTNSLPINRVSWMIGEKRTFKIVSVQPLSREVMPILQTYTYLGDSDGCRIFQYRCRNFETALVVDQNGWVVEYPGFFYRQGRSDYTGVFNGSPVFLASEGKSGGKLPT				NA	NA	NA	NA	NA
AK012_00849	1101			hypothetical protein	GTGAAATTCCGGTCTGATGCAGGGGTATTAAAAAAGCAGTTAAAAAACGCCTTAAAGCCAGGTGACACACCGCCGCTCCATAAAGAAGAGGAAAGACTGCTGGAGGCCATTAAAAATAAGACTAAAAAAGCCAACCGGAACAATGTCACCCGTACGAAAGCCTATATGGATTTCTTTCTCATCCACCCCGAAATCCATTGGGCGCTGCTTGCCCATTTAGTTTCAAGAAATGCCGGATGGAATATGACCGATTTGAAGGGGTCTTATCTTCCTAAACTGCTGACAGCAAAAGAAGCGGTTGATTTCTATGTATTTCTGGAACGCGGCAACTGGCTCATCTTTCAGGATGCCTACCCTCAACTGCTTCTCTATGAATACAGCAGGAAACAGGGGGCACCTCTTTGGCACCTGTTACCCTTTCTTCATGTTTCTGCCTTCATGCGTCCCTTTTGGGAGCGTTTTTGGGAAAGCGGCCGAAGCGAAGAAATCACTAAAGCCCTGATTGTCAATGAACAGCATTATATCGAAAATCGCGTTCTTAACAACTCCCTGTACATGCAGACAGTAATGGATAAAATGATGTTCAAGCTTCAGGAACTGCTGTCCATGAACCATATCCTTTTCCCTTACCTGACGCCTGTGCAAAAACGAATAAAACTGACAGGTGGAACGGTCCACCATTTCACTTCCGTAAATAAACGCGTCTCCCTGGGACGTTCCCTCTATGACCTGCTCTATTCCATAGAGTCCCGGCTTGAATCCATCATTCTATGGGCGGAATCCCGGCCTCATACCGGCTCAAGAGCTGATTACTGGCCCGAGTTATTCTTTATGGAAGGGGATGGTTCAACACCTGTACCTTCTCCAAGTCCATGCAGAGGACTTGGGAGAAACAAACTTTTCAGTCCGGCCTTGTCAATGGCCTGGGATGACTGGGTCCATCCTTCTGCGGAAGAAGGAGACTGGTTTACCGATTGTCATGTGCTTCGTCTGCTGAAAAAAAAGCCGGAAAAATTTTCAGGAGACATCGAAGGTGCCTGCTGTCGATCTCTAGAGGAAATCCAGGCAGCTATTCAAGCGAAACAAACGTTTTTTTCATAG	MKFRSDAGVLKKQLKNALKPGDTPPLHKEEERLLEAIKNKTKKANRNNVTRTKAYMDFFLIHPEIHWALLAHLVSRNAGWNMTDLKGSYLPKLLTAKEAVDFYVFLERGNWLIFQDAYPQLLLYEYSRKQGAPLWHLLPFLHVSAFMRPFWERFWESGRSEEITKALIVNEQHYIENRVLNNSLYMQTVMDKMMFKLQELLSMNHILFPYLTPVQKRIKLTGGTVHHFTSVNKRVSLGRSLYDLLYSIESRLESIILWAESRPHTGSRADYWPELFFMEGDGSTPVPSPSPCRGLGRNKLFSPALSMAWDDWVHPSAEEGDWFTDCHVLRLLKKKPEKFSGDIEGACCRSLEEIQAAIQAKQTFFS				NA	NA	NA	NA	NA
AK012_00850	753			hypothetical protein	ATGACGAACATTCGAAAGCACAACGAAAAAGCCTGGGATCGGAAAGTCGAGGATCATGCCCGCTATACGAGAGCGGTCGATGCAGAAGTCATTCAGAAGGCTTCTGCTGGTGATTGGGCAGTCGGGGTAACTGCAGGAAGGAAAGTGCCTGGACATTGGTTTCCGAAGTCTGTCAGTGGATTGAACGTGCTGTGTCTCGCTTCTGGTGGCGGACAGCAGGGACCCGTACTCGCAGCCGCAGGAGCTGACGTCACGGTTTTCGATTTATCCGCAGCCCAATTGGAACAGGATAGAAGGGTAAGTGAAAGGGAAGGGCTTTCTCTTAGAACCGTTCAGGGGGACATGACTGACTTGTCCGTTTTTGAAGATGAAACCTTTGATATCATTGTTCACCCGGTTTCCAACGTATTTGTGGAAAATGTCCGGCCGGTATGGGAAGAAGCTTCCCGGGTACTGAAAAGAAAAGGTACGTTGATTGCCGGATTTATGAACCCGGTTCTTTACCTGTTTGATGACCAGAAAGAAGAAGAAGGAAAGCTTGAAGTGGCTCATACGATTCCATATTCAGGACTGGAAGATGCTTTTGAAGAGAACGAGGCTGTAGAGTTTGGGCATACGCTTGAAGATCAGATTCAAGGACAGATCGAAGCCGGACTGATGATTACCGGTTTTTACGAAGATGATTTTGGAAACGGGCGGACAATCGACAAGTACATAAAGACGATGGTTGCGACAAGGGCGGTGAAAGGCTGA	MTNIRKHNEKAWDRKVEDHARYTRAVDAEVIQKASAGDWAVGVTAGRKVPGHWFPKSVSGLNVLCLASGGGQQGPVLAAAGADVTVFDLSAAQLEQDRRVSEREGLSLRTVQGDMTDLSVFEDETFDIIVHPVSNVFVENVRPVWEEASRVLKRKGTLIAGFMNPVLYLFDDQKEEEGKLEVAHTIPYSGLEDAFEENEAVEFGHTLEDQIQGQIEAGLMITGFYEDDFGNGRTIDKYIKTMVATRAVKG				NA	NA	NA	NA	NA
AK012_00851	429			hypothetical protein	ATGGCCGCAGCCTACACGTACAGCAGCACCTTAAGAAAGACAAAAGCGGCCCGGGCCGCTTTTGTCCTCATTGTCTGCAGCGTTGTTTCAGTGGTAACCGCACTCCTCACGGGGAACCGTTCTCTCCTTTACACGCTCCCTGCAGGCGTCCTCATCAGTGGGGGAGCGGTCTGGTATGTGCTGACTATGAAAACACGTACCTATACAGTCGTGCGTAAGGATGGATTAACGATCCATAGAGGACTGGGAGGCGGATATCTCGACCTGCCATTTAATGACATCATTAGAATAACAAAAGTAAAGGACGTCTTGATCATAAAAAGGAAATCGGACCACTCAAAAGAACTTTATATGGGGTACTTATCGGTGGAAGACCAACAGTCTCTGCTCTCGGAAATTGAAAAGCACTGGGGCAGGTCCATCCAATAG	MAAAYTYSSTLRKTKAARAAFVLIVCSVVSVVTALLTGNRSLLYTLPAGVLISGGAVWYVLTMKTRTYTVVRKDGLTIHRGLGGGYLDLPFNDIIRITKVKDVLIIKRKSDHSKELYMGYLSVEDQQSLLSEIEKHWGRSIQ				NA	NA	NA	NA	NA
AK012_00852	924			hypothetical protein	ATGGATAAAAAACTGAACGTACTGGCCGCAACAGGATTTGTAATTATGTGGAGCTCAGGGTTTATCGGAGCGAGACTCGGGACCGATGAGGCAGCTTCTATGACGGTGTTGATGTGGCGTTTTATAACGGCTGCTGCTATTTTAGGGATCTGGTGGTTATGGAAGCGGCGCACGCGTTTGAGTCCTAAAAGTGTGATGACTCAAGTGTTGATCGGTCTGCTGGCTCAGGGAGGATACTTATACTGTGTATTCCTTTCCGTTGAACAGGGGGTTTCAGCGGGGACTTCTAATTTAATAACGACGCTGCAGCCTATAGCAGCAGCTCTGCTTGCGGGACCTGTTTTAAAGGAAGTGACTTCCCGTAAACAGTGGACTGGATTATTCATCGGTATCACAGGCGTACTGTTCGTCGTTTACGGTGATCTTGGCAAAACATCAGGCGTACCGCTCTGGGCTTATGGATTGTCATTTGCAGCTATGATTGCTCTTGTTATCGCGACATTATTTGAAAAAACGATCAAATCCCCCTTGTCTTTAATGGATGCGCTCCCGATTCAAACAGCCGTAACTGCTGTTTTCTTTACAGCTGTTGGAATAGCATCAGACAAGGCCGCACCCCCGGCTGCCTTTGACTTCTGGTTCGCCATTGGCTGGGTCGCCGGTTTATCCACGATTGGAGGATACGGCTTTTACTGGTTGAACTTAAAAATCGGCAGTGTCACACGAGTCAGCAGTCTCCTGTATTTAACACCACCAGTGACGATGATCTGGGCTTATTTTATGTTTGGAGATACAATTGGTTTCTTAACCATCTCAGGAATGATAATATGTTTCCTAGGTGTATGGGTCATTCAAAAAGCAGAAGCCGGTCCTTGTGAGACCGATTCGTACAAACAGATAGATGGAGGTGGCGTGCGTGGGTGA	MDKKLNVLAATGFVIMWSSGFIGARLGTDEAASMTVLMWRFITAAAILGIWWLWKRRTRLSPKSVMTQVLIGLLAQGGYLYCVFLSVEQGVSAGTSNLITTLQPIAAALLAGPVLKEVTSRKQWTGLFIGITGVLFVVYGDLGKTSGVPLWAYGLSFAAMIALVIATLFEKTIKSPLSLMDALPIQTAVTAVFFTAVGIASDKAAPPAAFDFWFAIGWVAGLSTIGGYGFYWLNLKIGSVTRVSSLLYLTPPVTMIWAYFMFGDTIGFLTISGMIICFLGVWVIQKAEAGPCETDSYKQIDGGGVRG				NA	NA	NA	NA	NA
AK012_00853	597	betI_1		HTH-type transcriptional regulator BetI	GTGGGTGAAACGACAAAAATGACACCGGCGGCCCGGCGGATTCTGGATACCGCTTCAGAGCTGTTTTATTCCAAAGGCATCCATGCTGTAGGTGTGGAAACCATCGCAAGTGAAGCTGGTGTAACCAAGAAGACTCTGTATGACCGATTCGGATCTAAAGACCAGCTTATTGTGGCGTACTTGGAAGAACGGGATCAAAAGTGGAGAGAGCACCTGTTCTCCAGCATGGACGAAGCTCCGGACGATCAGCCGCTGGATAAAATCCTGCGTATTTTCGATGCCCTTGAAAACTGGATGAGCACACGGAACAAAAGAGGCTGCGCTTTCGTGAATGCGCTGGCTGAACTTTCTGAAGAAACCCATCCAGGCCGGAAGGTGATTATTGAAGAGAAAAAGTGGCTGAAGGAATTGTTTGTCTCCCTTTTGGAACAACTGCAGCTGGAACATCCCGATCCAATAGCAGAACAACTGTTTATTCTTCACGAAGGATTGATGGTGACCTATTCCCTTGATATTTATGAACGAGGGACAGCAGGAGCAAAAGAAACGGTACAAAAGCTCATTGAAACCGCAGACCATAAAAAAGAGGAAGCCTGA	MGETTKMTPAARRILDTASELFYSKGIHAVGVETIASEAGVTKKTLYDRFGSKDQLIVAYLEERDQKWREHLFSSMDEAPDDQPLDKILRIFDALENWMSTRNKRGCAFVNALAELSEETHPGRKVIIEEKKWLKELFVSLLEQLQLEHPDPIAEQLFILHEGLMVTYSLDIYERGTAGAKETVQKLIETADHKKEEA				NA	NA	NA	NA	NA
AK012_00854	834			hypothetical protein	ATGAACGTGATGAAACATAGATGTTTTCATAAGGTGTCAGACGCTGTGCAGCAGCTTTTTCACTTTGGCTGGCAGCAGGCACTATCATGCATCTTTCCGGTCATCATTTTTGCGGCACTTGCAGTTACTCAGGTAGTCCCGCTGCCTGTTCTTCCACGTTATGACTGGCTGTTGCTCCTCTTTTTATTGACGCAGTGGCTGCTGCTACGGTCCGGTCTTGAAACAAAAGATGAACTGAAGGTGATCACGCTTTTTCACGTCATCGGTCTGGCACTGGAAATCTTTAAAGTGCACATGGGTTCGTGGTCATATCCGGAGCCCGGATACAGTAAGGTCTGGGGAGTCCCGTTGTACAGCGGATTTATGTATGCCAGTGTAGCCAGTTATCTGTGTCAGGCTTGGAGGAGACTGGACGTACAGTTGGTTCACTGGCCTTCCTCCCTTTTGGCCGGAGGTTTGGCAGGGGCGGTTTACCTAAATTTCTTCTTTCATCACTTCTGGATTGATATCCGTTGGTGGCTCGCATCCCTTGTCGTTCTCCTGTTTATTCGGACACGGGTAACTTATATTGTTCATGGGCGGGAATATTCAATGCCGCTCGTTCTGTCCTTTGTCCTGATCGGCTTTTTTATCTGGATTGCTGAAAACATTGCAACATTTTTTGGTGCGTGGCAGTATCCGGGCCAGCAGGAATCCTGGAGGGTTGTTCACGTGGGGAAGATAAGCTCCTGGCTGCTGCTTGTGATTGTCAGTTTTCTTATTGTTGCTCTCTTGAAGCATGTTAAGGGAAAGCGTTCAGGAACAAGTGAGGAGAAGGAAACAGAGGCTGTATGA	MNVMKHRCFHKVSDAVQQLFHFGWQQALSCIFPVIIFAALAVTQVVPLPVLPRYDWLLLLFLLTQWLLLRSGLETKDELKVITLFHVIGLALEIFKVHMGSWSYPEPGYSKVWGVPLYSGFMYASVASYLCQAWRRLDVQLVHWPSSLLAGGLAGAVYLNFFFHHFWIDIRWWLASLVVLLFIRTRVTYIVHGREYSMPLVLSFVLIGFFIWIAENIATFFGAWQYPGQQESWRVVHVGKISSWLLLVIVSFLIVALLKHVKGKRSGTSEEKETEAV	PGPT0008090_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
AK012_00855	222			hypothetical protein	ATGGCGGTGAAGGTTCATATAGATGTGATGCTTGCGAAAAGGAAGATGAGTGTGACAGAACTGGCGGATAAAGTGGGGATAACGTTGGCCAACCTTTCCATTTTGAAAAATGGAAAAGCGAAGGCCGTCCGTTTTTCCACCCTGGAAGCCATTTGTAAAGCCTTGGACTGCCAGCCTGGTGATTTGTTGGAGTATGTAGAGGATGAACGTGATGAAACATAG	MAVKVHIDVMLAKRKMSVTELADKVGITLANLSILKNGKAKAVRFSTLEAICKALDCQPGDLLEYVEDERDET	PGPT0014940_1535	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014940-yozG-K07727	NA	NA
AK012_00856	330			hypothetical protein	ATGTGGAGTTTTCATTACCCAGTCTTGATTGGGATGTATGCAGCGGCTGTTCCTTTTTTCACTGCCTTATATGAGGCGCTCCGCCTGCTGAGGCTGATTGATAGAGAAGAGGATTTCTCTGATGCCTCCGTGTACTCATTAGGAATAATCAAACGCAGTGCTCTAGCTGTCAGTACAATTTATCTGCTTCTGATTCCGTTCTTTTATAAAGCGGGAGAAGCGGACGATGCTCCTGGATTGATGGCTGCCGGTCTCGCTTTCATGGCAGCGTCCTTCATAATAGGTGTTTTTTGCTGCGGTCCTGCAGGCCCTGCTGAAGCAGGCACTTGA	MWSFHYPVLIGMYAAAVPFFTALYEALRLLRLIDREEDFSDASVYSLGIIKRSALAVSTIYLLLIPFFYKAGEADDAPGLMAAGLAFMAASFIIGVFCCGPAGPAEAGT				NA	NA	NA	NA	NA
AK012_00857	165			hypothetical protein	ATGGAAAGAATGGAAGGGGCGAATGTAGTGAATAAAGGGTCTACGATATTTCTAACGGCAGTGATTTATGTGCTGGGTATGGCCTTTTTTGCTTTATGCGCGTTTCTACTTCCTTGGACATGGGAGGGACAAAGGGGATGTGGAGTTTTCATTACCCAGTCTTGA	MERMEGANVVNKGSTIFLTAVIYVLGMAFFALCAFLLPWTWEGQRGCGVFITQS				NA	NA	NA	NA	NA
AK012_00858	1116			hypothetical protein	ATGAATAAAGTGTTGTTGATCGGAACAGGTGAAGTCGGCAGTCATATTATGGAGTTTCTCGTTCGTGATCCTAAATGCCCTGAGCTGGTGGTTTGTGATATTAATGAGGAAGACGGCAGGAAGAAAGTGCATAACGCCTTAAGCGGAGCGGCCGTACACCGTTTGCACCCTGAAGTTACGTTCAAAAGGCTGGACGTAACCAATGTCCACGAAACAGCTGACCTCATTAATAGAGAGCAACCGGACGTGATCATCAACTGCGCCGTTCTTCAGACATGGCACACCATCAGGAAACTCCCTAAGGAAATCTATGAAAAGTTGAGCGCAGCCAGTCTGGGAGCCTGGCTTCCATGCCAGCTCGCCCTTGTCTATCACCTGATGCTGGCCGTCCGTCAGTCTTCTGTTTCCCCACACGTGATTAATACCGCTTTATCCGACCTGGTCAATCCTGCCCTTGGGAAACTCGGACTTGCCCCTACCATCGGCATTGGAAATGTGGATGTAATCGAACCTTCTGTAAAACTTTCAGTTGCTGAAATCCTTCATGTACCGGCCGACGCCGTAACGATCTACCTGGTCATTCATCATCAATGGTGGGTCTATCCAAGAGAAGCCGGCTATCAGAAAGCCCCGCATTATATGAAAATCATGGTGCATGACCAAGATGTTACGAACCAGTTTGATACCGAACAGCTGCTGTGGGACGCCATCAAACAGTATCCGGAGGGCACAGCATTCACGACCGTTTCCGCAAGCTCCACAATTAAAAATATGTTCGCCCTCCTCCAACCGGCCAAGTGGTTTACACACTCCCCCTCTCCTCAAGGACTTCCCGGCGGATACCCCGTCTATTTGAGCCGGGAAGGGGCTCAGCCCGTCCTCCCAGAAGGATTGACGCTGGAAGAAGCCGTCCAGATCAATGAAGCTTCTGCCAAGTTGGATGGCATTGATCGCATCAGTGAGGATGGAACCATTTATTATTCAGACTATACCCACCAGATTTTAAAGGATATGCTTCACTTTGATCATGCCAGCTTCAGACCTGAAGACAGCCTCAAACTCGCAAAGGAATTGATGAACAGCTATCAAAACCTTGCTGCCCGGCACCAAACTTAA	MNKVLLIGTGEVGSHIMEFLVRDPKCPELVVCDINEEDGRKKVHNALSGAAVHRLHPEVTFKRLDVTNVHETADLINREQPDVIINCAVLQTWHTIRKLPKEIYEKLSAASLGAWLPCQLALVYHLMLAVRQSSVSPHVINTALSDLVNPALGKLGLAPTIGIGNVDVIEPSVKLSVAEILHVPADAVTIYLVIHHQWWVYPREAGYQKAPHYMKIMVHDQDVTNQFDTEQLLWDAIKQYPEGTAFTTVSASSTIKNMFALLQPAKWFTHSPSPQGLPGGYPVYLSREGAQPVLPEGLTLEEAVQINEASAKLDGIDRISEDGTIYYSDYTHQILKDMLHFDHASFRPEDSLKLAKELMNSYQNLAARHQT				NA	NA	NA	NA	NA
AK012_00859	753	kdgR_1	COG1414	Transcriptional regulator KdgR	ATGCCTTCTCGTATTGCAGCCATTGATAATGCGATTGACATATTAATGGTTCTCAGTCAGAACAAAGAAAAAAGCATCCGGGAGCTTGGAGATCAGCTTGATATCTCAAAAAGCACGCTGCACCGGACTCTTCAGACATTGGAATCCCGGGGATTTGTTAAACAAGACAGCGCTACACAAAAATACTCTCTTGGTTATCAAATTCTTGAACTCGGTGTTCAATTAAAGGCTCATCACGAATTAAGAAATACAGCCGTTCCCCATATGGTGGATCTGCGTGACCAGCTGGGGGAAACGGTGCAGCTGGCTGTTATGGAAAATGATCAGCTGCTGATCATCGAAGCGATGGAAGGAACGAAGGAATTGAGGTTTTTCTCCAAAGCAGGCCAAACCCTCCCCGTCACGTATGGTAATTTCGGAAAAGTATTTCTGGCTTTTATGGATATCGACGAACGGGAGAATTATTTAGCCGGCCAGCCACTGGAGAAATACGGATCCCTTTCCATTGTCGATCGTAGCGAATATGTAAAGCAGCTGGAACACGTAAAGGAAGAACGGCTCTCCAAAAGTGTGGATGACCCGATTGATGGGTCGATCAGCATGGCCGTACCGATTTTCAGCAAAACCGAAACCGCCGCAGCCCTCTCCATCGTCGGTGCAAAAACCAATCAGCTCCTGGCTGATCAGGAAAGATGGGAGAAACTCCTCAAAAAAGCAGGTGAATCTGTATCAAACGAACTCTCCAAAACATAA	MPSRIAAIDNAIDILMVLSQNKEKSIRELGDQLDISKSTLHRTLQTLESRGFVKQDSATQKYSLGYQILELGVQLKAHHELRNTAVPHMVDLRDQLGETVQLAVMENDQLLIIEAMEGTKELRFFSKAGQTLPVTYGNFGKVFLAFMDIDERENYLAGQPLEKYGSLSIVDRSEYVKQLEHVKEERLSKSVDDPIDGSISMAVPIFSKTETAAALSIVGAKTNQLLADQERWEKLLKKAGESVSNELSKT				NA	NA	NA	NA	NA
AK012_00860	798	gloB_1		Hydroxyacylglutathione hydrolase	ATGTTTCAAGTCTTTGAAAAAGAGCAGGTCACATGTGTGGAAATGGTCGTCCCTCATATGGGCAGTGTCTATGCGTATTACGTAGACGGTATGATTGTGGATACGGGCACCCGACATTTTGAAAATGAACTCATTTCGTTTTATGAACGCATGCCGATAGATGTGACAGCTCTGACACATAACCATGAGGATCATACAGGGACTGCTGCGTGGCTGGAGCAGCACCACCATTCTCCGATCTATGTTCACCCATCTGGTATTGATACGTGTACAGAATTTGCTCCTTACCCGGAATACCGGAGGAAGACGTGGGGGCTTCGGGAAGCCTTTCATCCTGTCCCATACCCGTCTCAGCTTTCCTCCCGGCATTTGGATTGGGAAGTGATTGAAACTCCGGGCCATGCTGTGGATCACGTTTCCCTGTTCAACAAAGATCGTGGTCTGTTATTTTCAGGAGATTTGTTCGTACGGCCGAAGACGAAGGTAATCATGCGGGAGGAATCCATCCCGCAGATCATGGATTCCATACAAAAGGTGCTCACTTACGATTTTGGCCCGATGTTTTGTGGTCATACCGGTTATATAGAGGATGGGCGCAGCCGCCTGGAAGAGAAACTGGACCATCTGCAGCACCTCTATGGAGAAGTTAAGCACCTTCACGAATCCGGACTGTCCGATCGTGACATTCAAAAGAAGCTGTTCCCGAAGGAGTATCCGATTATTTCTTACTCTGATGGAGAATGGGATTCCTTTCACATCATTACGTCCATTGTCACTGATGTGAACGCCCGTGTGTAA	MFQVFEKEQVTCVEMVVPHMGSVYAYYVDGMIVDTGTRHFENELISFYERMPIDVTALTHNHEDHTGTAAWLEQHHHSPIYVHPSGIDTCTEFAPYPEYRRKTWGLREAFHPVPYPSQLSSRHLDWEVIETPGHAVDHVSLFNKDRGLLFSGDLFVRPKTKVIMREESIPQIMDSIQKVLTYDFGPMFCGHTGYIEDGRSRLEEKLDHLQHLYGEVKHLHESGLSDRDIQKKLFPKEYPIISYSDGEWDSFHIITSIVTDVNARV	PGPT0001770_2030	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK012_00861	225			hypothetical protein	ATGAGTAAGAAAAAACTGGAAGAAGGCTCTCTTGGTTCCCAGCTGAACGCCGATGTTTTATCCAAACTCAAGTCGAAGCAGAATGAATGGAAGCAGCAGGCAGCGGAGCGGGAAGCGCATGAAAAACAGCGCCGGATGGAAGAGAGGAAGCGCCGGGAAGCCAACAAGAGTTTTGAAGAGCTTCTTAATGAGAGTGAACTCGATTGGAAAAGCTTTAAAAAATAA	MSKKKLEEGSLGSQLNADVLSKLKSKQNEWKQQAAEREAHEKQRRMEERKRREANKSFEELLNESELDWKSFKK				NA	NA	NA	NA	NA
AK012_00862	333			hypothetical protein	ATGAAATTACGCATCACAGATGAAGCCAAACAACAGCTTGAGCAGATACAGGAAGCCGGCCGGCCGATCCTCCGCCTTTTTTATGATACCGAAGGGTGTGGCTGCGGAGTGAATGGACTTCCGACCGTCCGTCTGGAGCATGAAGAACGGACGACGGATGAGCGAGTGGAAAATGAGGATTACCCGGTCATTATTGACAACCAGCAGGCCATTTTCTTTAAAAAGGATATGAAGCTTGATTTTGTCCGTGGAACCTTCCGTCTTTCCAGCCCTGATGGTATCCTGAATCCAATCATCCCGATCAAAGACGTGAAAGAAGGAGCGACGATATGA	MKLRITDEAKQQLEQIQEAGRPILRLFYDTEGCGCGVNGLPTVRLEHEERTTDERVENEDYPVIIDNQQAIFFKKDMKLDFVRGTFRLSSPDGILNPIIPIKDVKEGATI				NA	NA	NA	NA	NA
AK012_00863	1275	umuC	COG0389	Protein UmuC	ATGAGCGAACCGAATATGGACTACAGCCGTTATCCGGACCGTGGAATCCTCTGTGTAGATATGAAAAGTTTTTACGCCAGCTGTGCGGCTATTGACCGTGGTCTTGACCCTTTAACCTGTCCGCTCGCTGTCGTTGCGGATATGAACCGGAGAGGCAGCGTCGTTCTTGCAGCTACACCCGCCATGAAGCAGAAGTACGGCATCCGCACGGGAAGCCGTCTGTTTGAAATACCATCTTCCCCGGACATTGTGATTGTGTCTGCTCAGATGAGGAAATATTTAGAGGTGTCGACACAAGTCACCCACCTCTTTCATAAATTCGTCCCGAAAGAGAAGATTCATACGTACAGTGTGGACGAAAGCTTTTTGGAGGTGGGATGGAACAAAGGGAAGTTCGGCAGTCCCGAGCAGACTGCTCAGATGATTATTGATGAGCTGAAAGAAACGTTTCATCTCGATGCGGCCATCGGAATCGGGCCGAACATGCTGTTATCGAAGCTGTGTCTTGATTTAGAAGCGAAGAAGAAGGGTGTGGCGCGCTGGACATTTGAAAATTTCCGGGAAAAACTGTGGCCTGTAGCTCCCTTGTCGGAAATGTGGGGGATCGGGCCGCGTATGGAACACCGGTTGAACCGGATGGGGATCTGGTCTGTCGGGCAGCTGGCCCGATTCCCACTGGAGCGTCTGGAAAAAGCGTTTGGTGTGATGGGCAATCAGCTTTATTACCATGCGAACGGGATCGATTTATCCGACCCGGGAGCCCCGATCATCCATGGGCAGGTCAGCTATGGAAAAAGTCAGATCCTGCTCAGGGACTACCCGGATCCGGAGGAAGTGAAGTATGTCATTTTAGAAATGTGCGAGGAAGTTGCACGTCGTGCGCGTCGCAAAGGACACGCCGGCCGTACAATTTCTCTCGGCATCGGCTACAGTAAAAGGGAGGATGGCAGCGGTTTTCACCGGTCTGTATCCATCAATCAGCCGACAAGTATTACGATGGACATTTATCACGCCTGTTTGACTTTGTTCCACCGCTTTTATAACGGAGGAGTCGTCCGCCGGATATCCATTTCGCTCGGTAATATCACTGAGGACGCCAGTGTTCAGCTGGACTTGTTTGATCAAGGAAGGGATAAAAAACGCGATCTCGGGTATGTCATGGATGAAATCCGGGAACGGTTCGGTCAGGATATGCTGCTTCGGGCGGTTTCCTGGACCGACGCCGGCACCGCTCGACATCGCAGCCGTCTAGTTGGCGGTCATTTTGCCGAATAA	MSEPNMDYSRYPDRGILCVDMKSFYASCAAIDRGLDPLTCPLAVVADMNRRGSVVLAATPAMKQKYGIRTGSRLFEIPSSPDIVIVSAQMRKYLEVSTQVTHLFHKFVPKEKIHTYSVDESFLEVGWNKGKFGSPEQTAQMIIDELKETFHLDAAIGIGPNMLLSKLCLDLEAKKKGVARWTFENFREKLWPVAPLSEMWGIGPRMEHRLNRMGIWSVGQLARFPLERLEKAFGVMGNQLYYHANGIDLSDPGAPIIHGQVSYGKSQILLRDYPDPEEVKYVILEMCEEVARRARRKGHAGRTISLGIGYSKREDGSGFHRSVSINQPTSITMDIYHACLTLFHRFYNGGVVRRISISLGNITEDASVQLDLFDQGRDKKRDLGYVMDEIRERFGQDMLLRAVSWTDAGTARHRSRLVGGHFAE	PGPT0014882_1170	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
AK012_00864	795			putative oxidoreductase	ATGAATGAACGATTAAAGGGAAAGAAAATCCTGATTACCGGAGCCTCCAGCGGAATTGGACAGTTTCTTGCCATCCACGCAGCAGCAGAAGGAGCTGTTCCGATTTTAACGGCGAGATCAGAGGATAAACTGAAGTTGATGAGTGAAACGATTGAGAGCACTTTCGGCATCTCCTGCCCCTGGTATAAAGCGGATTTGTCCAATGATGCGGAATGGAAGGATACGATTGATAGAATCTGCTATGAGCAGGGATCTGTCGATGCATTGATTAACAATGCCGGAGTGGCGGTGTTCGATTACGTGGCTGATTCAAACTGGCAGGATATTGACCGGATGGTGTCGGTCAATGTGACGTCGTTGTTCCGTGCTACGCATCAACTGCTGCCTCACCTGCTCCAAAACGGGGAAGGGCATATTGTAAATATCGCTTCCCAGGCCGGAAAGATGGCAACACCGAAATCTGCTGTCTATGCAGCTACGAAGCATGCCGTGCTCGGATTTACCAATGCGCTGCGGATGGAAGTGGAACCGCTGGGACTTCACGTAACGAGCGTCAACCTCGGCCCTGTCCGCACGAACTTTTTTAAGCAGGCGGACCCGAGTGGAAATTATGAAAAAGCTGTAGACAAAATGATGCTGGATCCGAATAAGGTGGCAAGAGTCGTCATCAGCCGCTTATTTACGAAGCAGCGGGAGATCAATCTGCCATCCTGGATGAATTCAGGAAGCAAAGTGTATGCAATGGCTCCCTCTGCTGTGGAAAAAATCATGCATAAGCAGTTTAAGAAAAAATAA	MNERLKGKKILITGASSGIGQFLAIHAAAEGAVPILTARSEDKLKLMSETIESTFGISCPWYKADLSNDAEWKDTIDRICYEQGSVDALINNAGVAVFDYVADSNWQDIDRMVSVNVTSLFRATHQLLPHLLQNGEGHIVNIASQAGKMATPKSAVYAATKHAVLGFTNALRMEVEPLGLHVTSVNLGPVRTNFFKQADPSGNYEKAVDKMMLDPNKVARVVISRLFTKQREINLPSWMNSGSKVYAMAPSAVEKIMHKQFKKK	PGPT0030485_2065	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
AK012_00865	966	gloB_2		Hydroxyacylglutathione hydrolase	ATGAAAACGTTGAAAGATACTATTACTCAAATTACAATGCCGACGCCCTATGCGGTCGGAGACGTCCATACGTACCTGTTGAAAGGGGACCGCCTTACCCTTGTGGATGCTGGTGTGCGTACCGAAGATGCCTGGAAGGCACTTGTCGAACAACTGAACCATATTGGTTACCACACGGAAGATATTGAACAGGTGATTCTCACGCACCACCACCCGGATCATATGGGGCTTGTGGATCGTTTCCCTCGTGTAGAGACGATCGCCGGACACCCGAAGTTGAAGCCCTGGCTGGAAAGGGATGATCGTTTTTTTGAACAGTATGAAGCCTTTTTCAAGTGGATGTATAAAGAATCAGGGGTCCCCGACCGCTTTGATTCCCTTTTGAAAGGCCTGAAAAAACCTCTCAAATGGACGGCAGAGGGAAAAATGACGCACCTGCTTGAAGAAGGGGATGCTCTTCCGGGGCATGAGGAATGGCAGGTGATTGAAACCCCTGGCCATGCACAGAACCACCTTTCTTTTTTCAGAAAAGAGGATGGGGCACTGATTGGAGGAGACCACCTGCTCGCCCATATCTCGTCCAATCCTCTGCTGGAACCTGCTTACAGCCCTAATGAAGAACGTCCAAAGCCGCTTCTGCAGTACAGGGATTCTATGGAGAAACTGCTCCCTCTGGACATAGATACGGTCTACCCGGGCCATGGAAAAGTATTCGGTGATGTCCATGCTCTTATCCAAACACGTCTGAAAAAGCAGGAGCAACGTGCCGAGAAAGTTTATCAGATGTTCAAGGATGGGCCGCTGCGTGCTTACGACGTATGTGAGCGTCTGTTTCCCAAGCATGTAGAATCCCAGCTCGGGCTGACAATGTCAGAGACCGTCGGCCAGCTGGATTATTTGGAGTCGATAAATCGTCTGAAAACGTCTATCATAGAAGGGGAGAAATTTTACGAAATGAACGGGTGA	MKTLKDTITQITMPTPYAVGDVHTYLLKGDRLTLVDAGVRTEDAWKALVEQLNHIGYHTEDIEQVILTHHHPDHMGLVDRFPRVETIAGHPKLKPWLERDDRFFEQYEAFFKWMYKESGVPDRFDSLLKGLKKPLKWTAEGKMTHLLEEGDALPGHEEWQVIETPGHAQNHLSFFRKEDGALIGGDHLLAHISSNPLLEPAYSPNEERPKPLLQYRDSMEKLLPLDIDTVYPGHGKVFGDVHALIQTRLKKQEQRAEKVYQMFKDGPLRAYDVCERLFPKHVESQLGLTMSETVGQLDYLESINRLKTSIIEGEKFYEMNG				NA	NA	NA	NA	NA
AK012_00866	1524	abgT_1	COG2978	p-aminobenzoyl-glutamate transport protein	ATGGAAAAACAGGAGAAGAAAGGGCTGACGATACGCCTGCTTGACGGCGTGGAACGTGTCGGGAACAAACTTCCCCACCCTGTTACATTATTTGCTGTTTTTGCGCTGCTTGTCGTCATTGCTTCCTGGATAGCGTCTACAGCAGGTGTTGAAGTGGAAGATCCCGCTTCAGGTGAAACCCTGCAGGTGGTCAATCTGCTTTCCAGTGAAGGCATTAAATATATGTTTGAAAGTATGGTTGAAAACTTTGTAGGGTTCGCACCGCTCGGAACCGTACTGGTCACAATGCTTGGTATCGGGATCGCTGAGAGGTCCGGGTTAATCAGCGCGATGCTCCGGGGCCTGGTTACTTCTGTACCACGCTCTTTAATGACAGCTTCCCTCGTTTTCGGAGGGATTATGTCCAGTATGGCCGCAGACGCCGGGTATGTCGTATTGACCCCGCTTGGTGCTGTATTGTTTGCCGGACTCGGCAGACACCCGCTCGCTGGACTGGCGGCGGCCTTTGCCGGTGTATCCGCCGGGTTTAGTGCCAACCTGCTGCTGACAGCTCTGGATCCACTGCTTGGTGATTTAACCATTCAGGCAGCGGCAACCATTGATCCTGAGTATGCAGATACCATTTTGTATACGATGAACTATTACTTCATGATTGTCTCTGTGTTTGTCTTAACGATCGTCGGTACCATTGTGACGGATAAAATCGTTGAGCCGCGCCTTGGCACGTATAAAGGCGGCGTAAAGGAAGAGGTCAACTATTTAACAGCCATTGAGAAAAAAGGAATGAAAGGAGCCTTGATCGGCTTTATCGTTACGATCGGACTTATGGCTCTTCTTGTTGTTCCGGAGTGGGGGCCGCTGCGGAACCCGGATGACTTTCTCGCTTCACCATTTTTCCACAGCCTTGTTCCTGTTATCTTGATTTTGTTCTTTGTTCCAGGGTTTATTTACGGAAAAGTAACGAAGGAAATTAAAAGCGATAAAGATGTTGCCGGGCAGATGTCCGATACGATGGCTTCCATGGGTATGTACATTGTTCTTGCCTTTACGGCAGGACAGTTTGTTGCCTACTTCAACCATACCAACCTTGGTAAAGTCATTGCCGTCAGTGGCGCGGAATTCCTTGATAATCTCGGCTTTACAGGCATCGGGTTGATTATTGCGTTCATATTTGTCGCTGGTTTCATCAACCTGTTTATCGGAAGTTCTTCAGCCAAATGGGCGATTATGGCTCCGGTCTTCGTCCCACTCATGATGCAGCTCGGATATTCACCGGAACTGACTACTCTGGCCTATCGGATTGCTGATTCAACGACGAACGTCATTTCACCGTTGATGCCGTACTTTGCGATTGTGATCGCCTTTGCACAGAAATACGATAAAAAAGTGGGGATTGGTACATTGATATCCGCCATGCTCCCTTACTCCATTGCCTTCTTCATCATCTGGATGATTATGCTCCTCATCTGGATGATGACCGGTCTCCCTATTGGGCCTGGTGCAGGATTCGAATACAATGGATGA	MEKQEKKGLTIRLLDGVERVGNKLPHPVTLFAVFALLVVIASWIASTAGVEVEDPASGETLQVVNLLSSEGIKYMFESMVENFVGFAPLGTVLVTMLGIGIAERSGLISAMLRGLVTSVPRSLMTASLVFGGIMSSMAADAGYVVLTPLGAVLFAGLGRHPLAGLAAAFAGVSAGFSANLLLTALDPLLGDLTIQAAATIDPEYADTILYTMNYYFMIVSVFVLTIVGTIVTDKIVEPRLGTYKGGVKEEVNYLTAIEKKGMKGALIGFIVTIGLMALLVVPEWGPLRNPDDFLASPFFHSLVPVILILFFVPGFIYGKVTKEIKSDKDVAGQMSDTMASMGMYIVLAFTAGQFVAYFNHTNLGKVIAVSGAEFLDNLGFTGIGLIIAFIFVAGFINLFIGSSSAKWAIMAPVFVPLMMQLGYSPELTTLAYRIADSTTNVISPLMPYFAIVIAFAQKYDKKVGIGTLISAMLPYSIAFFIIWMIMLLIWMMTGLPIGPGAGFEYNG				NA	NA	NA	NA	NA
AK012_00867	1620	rocB	COG4187	Protein RocB	ATGATGAAGGTATGGCAGACGAAAGAACAATTGACGGATCTGCTCTGTTCGCTGGTGGAGTATCCGAGTATTACAAACAGCGATGAAGAGATCGCCATCATTGAATACTTATATTATATTTTGGAGGACAGGGATTATTATAAAAAGCATCCTGATCATCTTCAACGGCACCCCCTCGATGATGGCCGTCAGCTCCTGACCGCCCTTGTGAAAAACGGGGAGGCGGCGGAGACGATCGTTCTGCTCGCCCATGTTGATGTCGTTGGTGTCGAGGATTACGGGTCGTATCAGAATCTGGCGTTCTATCCGCGGGAGTTAACGCAGGAACTACATAAAAACAGCAGCGATCTGCCAAAGGAAGCATTGAAGGACCTGGAATCCGGAGACTGGCTCTTCGGGCGCGGTACGATGGATATGAAAGCCGGTCTTACCGTTCATTTGTCCCTTCTGGAAAAAGCGATGAACGGTGAATTCGAAGGGAATCTGCTGCTCGTAGCTGTTCCTGACGAGGAAGTGAACTCAGAAGGGATGCTGGCTGCGCTGCCGGCTTTAAGGGAAATCAAAGAACAAAAAGGTCTCGTTTATAAGACCGCTTTGAACGGCGAGCCGATGTTCAGTAAGTACCCGGGGGATCCGGCCTACTATTTATACACCGGTTCTATAGGAAAAGCACTGCCCGGTTTCTTATGTTATGGGAAGGAAACCCACGCTGGAGAACCCTTCGGCGGGTTGAACGCCAATTTAATGGTCAGTTATCTCGCTCAGGAGATGGAGCTGAACGAAGCTTTTATCGAAAAGGTGGGGGAGGAGCGGACACCGCCGCCTATCAGTCTGATGCAGCGGGACTTGAAATTTGAATATTCCGTGCAGACACCACAGGCAGCTGTGGCTATGTATAATGTCCTGTATATGAAGCAGACGATCAAGGAGTTGAATGAAAAACTGCTGCTGGCTGCCCAGCGTGCAAAGGCTAAGATTATCAATCATTATCATCACCAGGCTTCGTACTATTTAGAAGGCACACAGACGTCTGCGTTTCATCCGGATATCACCATCCTTACCTATGACCAGCTCTACAAAGAAGCGGTCGAGAGGTACGGGGAGATGGAAGTGGAACGACGTCAGAACCGGCTTGTTAAACTGCGGGACCAGGGAGACCGTGATTTTTCAACGACCCTCGTGCAGAGCCTGGCCTCCCTCTGCAAGGATATCAGCCCGATGATTGTTCTTTTTTACAGTCCACCGTTCTACCCGGCCGTTTCCTCCCATCACGATCCGATGATCCAGCATGGAGCGGAGACAGCTGTGGATTATGCGCGTTCCCAGTACGGGGAAGATCTTGAAGTCGTCGAGTATTTTACTGGACTGTCAGATTTGAGTTTCATCGGCCCGACATCCGCCCGATCGTCCCTTACGGACTTGACGAAGCAGATGCCGATTCACGGAAATGGTTTTGAATGGCCGGCCGAAGATATGGAATCGATTACAATGCCGATTATTAATGTTGGTCCTTTAGGGAGGGATCCACACCAGTGGACAGAGCGTCTGGAATTGACCTACAGTTTTGAAAAGCTGCCGAAGATCGCAGCCGAAACGATCCACGAACTCTTTAAAGCTTGA	MMKVWQTKEQLTDLLCSLVEYPSITNSDEEIAIIEYLYYILEDRDYYKKHPDHLQRHPLDDGRQLLTALVKNGEAAETIVLLAHVDVVGVEDYGSYQNLAFYPRELTQELHKNSSDLPKEALKDLESGDWLFGRGTMDMKAGLTVHLSLLEKAMNGEFEGNLLLVAVPDEEVNSEGMLAALPALREIKEQKGLVYKTALNGEPMFSKYPGDPAYYLYTGSIGKALPGFLCYGKETHAGEPFGGLNANLMVSYLAQEMELNEAFIEKVGEERTPPPISLMQRDLKFEYSVQTPQAAVAMYNVLYMKQTIKELNEKLLLAAQRAKAKIINHYHHQASYYLEGTQTSAFHPDITILTYDQLYKEAVERYGEMEVERRQNRLVKLRDQGDRDFSTTLVQSLASLCKDISPMIVLFYSPPFYPAVSSHHDPMIQHGAETAVDYARSQYGEDLEVVEYFTGLSDLSFIGPTSARSSLTDLTKQMPIHGNGFEWPAEDMESITMPIINVGPLGRDPHQWTERLELTYSFEKLPKIAAETIHELFKA				NA	NA	NA	NA	NA
AK012_00868	750	glpQ	COG0584	Glycerophosphodiester phosphodiesterase	TTGGTAAAAACATTGGTTTATGCCCACAGAGGAGCAAGTAAACTGGCTCCGGAAAACACGATGCCCGCTTTTGAGCTGGCCCGCCAGGCTGGAGCAGACGGCATTGAAACAGACGTCCAGCTGACTAAAGATCAGATCCCCGTACTGATTCATGATGAAAACCTGAGACGTACGACGAACGGAACCGGGTTCGTACAAGATTATACATATGCGGAACTCCGCCTCCTTGATGCTGGAAGCTGGTTCTCGCCGGAATTTTCTGACACATCCATTATATCATTAGATGAGTTCCTCCGCTGGTTTCAGGACCAGCCGATGTTTCTGAATGTGGAATTAAAAACGAATGTCATTGAATACAAGAATATTGAACGCATCGTTTACGACTCCTTAAAGCGGTATCACGTCCTGGAACGGACCGTTATATCAAGCTTCAATTCTGATTCGATTGAACGGATGAAAAAAATCAATCCGTCCATAGAGACCGCCTTTCTCACCTCCACCAAAATGCGTCGTCTTCCTCACTATGCGAAATCCCTGCAGGCAAACGCCCTGCATGTGAAACACCGCCTGTTGGATAAACGCCTCGTTAAACAGGCAGCTAAGGAAAAACTGGCCCTGCGTATTTACACCGTCAACCGTCCGGCTCTCCTGAAAAAATGCTATAAACTTGGTGTCAACGGCATCTTCACCGATGTGCCGCACCTTGCTCTCGAATACAGAGACCTCTATCATGAACGGAGTGTCCGGTAA	MVKTLVYAHRGASKLAPENTMPAFELARQAGADGIETDVQLTKDQIPVLIHDENLRRTTNGTGFVQDYTYAELRLLDAGSWFSPEFSDTSIISLDEFLRWFQDQPMFLNVELKTNVIEYKNIERIVYDSLKRYHVLERTVISSFNSDSIERMKKINPSIETAFLTSTKMRRLPHYAKSLQANALHVKHRLLDKRLVKQAAKEKLALRIYTVNRPALLKKCYKLGVNGIFTDVPHLALEYRDLYHERSVR	PGPT0018470_6657	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHODIESTERASE_ACTIVITY,PGPT0018470-glpQ|ugpQ-K01126	NA	NA
AK012_00869	1164	crtQ		4,4'-diaponeurosporenoate glycosyltransferase	ATGCTGTTCTGGATCTATCTTTTGACAACGGTTGTATGGATGGTTTTCCTTATCGATTTTATGACAGGGATACGGAAAATCCCCTCTCTGTCTTCAGCCGGATTATCGGATTCGGAGGAGTATATTTCCGTTATTATCGCTGCGAAGGATGAGGAAACAACCATTACCCAGACGCTGGAGTCTCTCATTCACCAAACCAAATCCCCTGACGAAATTATCGTCGTCAACGACCGCTCCGGTGACAGGACGGGAGCCCTGATTGAAGAGGCCGCTGCCCGGCATCCTCAGATCGTCCCTGTTCACGTGACCGAACTTCCGGAGGGATGGCTCGGTAAAAACCATGCCCTGCACCTTGGATCTTCGAAAGCGGGCGGGGATTATCTTTTATTTACGGATGCGGATATCCATTTTCATGGGGATACCCTCCGTTATGCGATGAAATTGATGGAGAAGCACAAGCTCGACTATTTAACAGCGGCCCCTGACCTTCAAGCCCGTTCCTTGCTTTTAAAAGGTTTGATTTCCTTTTTTTTATTCGGTTTCAGCTATTTGAAGCGGCCGTGGACAGCCAATGACCCGTCTTCCAACAAAGGAATGGGCATTGGCGCCTTCCAGCTCATCCGCACGGAAGCTTATCAACACATAGGCGGCCATGAAAAGATGAAGATGAGAGCGGATGACGACCTGGCTCTCGGCCAGCGGATGAAAGAAGGACGTTTCTCTCAAATGTTCGTATCCGCTAAACAGCACCTCTCTGTTGAATGGTATCCCAATCTCTCCTCTGCCTTGAGGGGCTTTGAGAAAAACGCCTTCGCCGGGCTGAATTATTCGTTCCTGCTTTCCATTTCTGCTCTATTCGGTGTCTTCGTATCCCAGATCCTGCCTTTTTTTCTTTTGTTTCATTCCGATCCCTCTGTGCAGATCATTAGCTTCATCAATGTCCTTTTGTTATTTTGTTTATATATCTTATCGACCCGGGCTTTTACAACCTATCCGCTGTGGCTGGCCGCCGCCCTACCGGTTTCCGCCGCGCTGTTTCTATTCATGCTTGCGCGGGCCCTCATCCTGACCTGGCTGCGGGGAGGAATCGAGTGGCGGGGGAACCGGTATTCGCTGCGTGAACTGAAGCAGGATTTCCGGGACACCAAGGAGGATTCTGATTGA	MLFWIYLLTTVVWMVFLIDFMTGIRKIPSLSSAGLSDSEEYISVIIAAKDEETTITQTLESLIHQTKSPDEIIVVNDRSGDRTGALIEEAAARHPQIVPVHVTELPEGWLGKNHALHLGSSKAGGDYLLFTDADIHFHGDTLRYAMKLMEKHKLDYLTAAPDLQARSLLLKGLISFFLFGFSYLKRPWTANDPSSNKGMGIGAFQLIRTEAYQHIGGHEKMKMRADDDLALGQRMKEGRFSQMFVSAKQHLSVEWYPNLSSALRGFEKNAFAGLNYSFLLSISALFGVFVSQILPFFLLFHSDPSVQIISFINVLLLFCLYILSTRAFTTYPLWLAAALPVSAALFLFMLARALILTWLRGGIEWRGNRYSLRELKQDFRDTKEDSD				NA	NA	NA	NA	NA
AK012_00870	1017	namA	COG1902	NADPH dehydrogenase	TTGAAGCATAAATTATTCCAACCCTTTACAATAAGAAACGTCACGTTAAAAAACCGGATTGTCATGTCCCCGATGTGTATGTACTCCTCTCATGAACAGGATGGAAAAGTACAGCCATTCCACCTCGCCCATTACGAAAGCCGCGCCGCCGGCCAGGCCGGTTTAGTCATGACTGAGGCCGCTTCTGTTCTCCCGGAAGGAAGAATTTCCCATGAGGATCTTGGAATCTGGGAAGATGCCCACGTGGACGGGCTGAAGAGAGTTAATGAAGGTATTCACCGCCACGGAGCTGCCTCCGCCATTCAGCTCGCTCATGCCGGCAGGAAAGCCAACCTGCAGGGAGAGATTTTTGCTCCGAGCGCAAAAGCATTCAACACTTCCATGAAAGAACCCGTGGAAATGTCCGGGAAAAAAATTAAAGAGACCATTGAAGCCTTCCGTCAAGCGGCTGTGCGGGCAGAAAAAGCCGATTTCGATATCATCGAACTGCACGGCGCCCACGGCTATTTGATCAACCAATTTTTGTCGCCGCTGACCAACTTCCGCACCGATCAATACGGCGGCAGCCGCGAAAATCGATACCTCTTCCTTCATGAAGTCATTGAAGCTGTCAAAGAGGTCTGGTCCGGGCCATTGTTTGTCCGTATATCCGGCGAAGAATATCATGAAGAAGGAAATACCATGGATGACTTGATTTATTTTTCAACCCTTATGAAAGCGCAGGGAGTCGATCTCATCGATGTCAGCTCCGGTGGAGTCGTTCCTGCATCCATTGAGTCTTATCCCGGCTATCAGGTGACGTTTGCAGAGCAGATTAAGCACGGAGCAGATGTGGCTGCCGGAGCTGTTGGATTGATTACGACCGGAACACAGGCAGAGGAAATTCTACAGAACGAACGGGCAGACTTGATTTTCATCGCCCGTGCCTTTTTAAGGAACCCTTACTGGCCGAAACAGGCGGCGGATGACCTCGGTTATTCGTTAGAAGGCCCAAGGCCGTATACAAGAGCATGGTAA	MKHKLFQPFTIRNVTLKNRIVMSPMCMYSSHEQDGKVQPFHLAHYESRAAGQAGLVMTEAASVLPEGRISHEDLGIWEDAHVDGLKRVNEGIHRHGAASAIQLAHAGRKANLQGEIFAPSAKAFNTSMKEPVEMSGKKIKETIEAFRQAAVRAEKADFDIIELHGAHGYLINQFLSPLTNFRTDQYGGSRENRYLFLHEVIEAVKEVWSGPLFVRISGEEYHEEGNTMDDLIYFSTLMKAQGVDLIDVSSGGVVPASIESYPGYQVTFAEQIKHGADVAAGAVGLITTGTQAEEILQNERADLIFIARAFLRNPYWPKQAADDLGYSLEGPRPYTRAW	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
AK012_00871	936	rnz	COG1234	Ribonuclease Z	ATGGAACTATTTTTTCTAGGGACAGGATCCGGAGTCCCATCAAAAGAGCGGAATGTCTCTTCGCTCGTTTTACGGATGCTTGAAGAACGTGGAACCACATGGGTCTTTGACTGCGGGGAAGGTACCCAGCAGCAGATCCTGAATACAACAATAAGGCCTCGAAGAATCGAAGCCATTTTCATTACCCATCTGCACGGCGACCATATATATGGACTGCCCGGCTTATTAAGCAGCCGGTCCTTCCAGGGCGGCGAGAGCCCTGTAACCGTTTACGGCCCCCGCGGCTTAAAAGAATACATCGACATCAGTCTCAGATTGAGCGGAACACACCTGCGCTATCCTCTGTATGTCGAAGAGGTTGAAGAAGGACTGTTATTTGAAGACAAGCAGTTCATCGTAGAAGCTGTCCGGCTGGAACATGGACTGGAAAGCTTTGGTTATCTTCTCAAGGAAAAAGACCAGCTTGGTGAACTGCTCCCTTCCAGACTGCAGGAACTGGGCATCCAGCCCGGTCCCCTTTATCAGCGGATTAAAAGCCGGCCGGAAACAGAACTGGAGGACGGGCGGATCATTCGAAGAGAAGATGTTACAGGTCCTCCCAAAAAAGGACGAAAAGTGGCTGTTCTTGGTGATACCCGCTGTCTCCCGGAGCTTGCAGACACCTTAAAAGGTTTTGATGTCCTCGTTCACGAAGCTACGTTTGCCAGTGATCAGGAGGAAATGGCCTATAATTATTTCCACTCCACCGTGAAACAGGCCGCTTCTCTCGCTAAAGAAGCCGGTGTAAAAGAGCTGATTCTCAATCACATATCATCCAGGTACCAGGGGAAAGCTGTGCAGCAGCTTCTGGCTGAAGCCCGGGACATCTTCCCCAACACGACCATTTCCAAAGATTTTTATCAGCATTATATTCCCAGAAACAATGGAGGAGGCTGA	MELFFLGTGSGVPSKERNVSSLVLRMLEERGTTWVFDCGEGTQQQILNTTIRPRRIEAIFITHLHGDHIYGLPGLLSSRSFQGGESPVTVYGPRGLKEYIDISLRLSGTHLRYPLYVEEVEEGLLFEDKQFIVEAVRLEHGLESFGYLLKEKDQLGELLPSRLQELGIQPGPLYQRIKSRPETELEDGRIIRREDVTGPPKKGRKVAVLGDTRCLPELADTLKGFDVLVHEATFASDQEEMAYNYFHSTVKQAASLAKEAGVKELILNHISSRYQGKAVQQLLAEARDIFPNTTISKDFYQHYIPRNNGGG				NA	NA	NA	NA	NA
AK012_00872	1362	aldH1_1	COG1012	4,4'-diaponeurosporen-aldehyde dehydrogenase	ATGCATACCGTTGTACAAGCACAAAAATCATGGTTCCAGGAAGGTCATACGAGAAGCTATGCTTTCCGTAAGGAGCAGCTCCAGAAGATGAAGCAGATGCTCACCACGTTTGAAAAACCAATTTTAAATGCATTAAAGTTTGATTTAAACAAATCAGAATATGAAGCCTATGCCTCAGAGATTGCTTTTCTGAAAAGTGAGATTGACCATCACCTCAAACAGCTGAAAAGCTGGATGCAGCCGACGAAGGTGAAGGCTCCTCTTACCCATACCGGCTCAAAAAATTACATTAAGAAGGAACCCTTCGGTACGGTCCTGGTCATTGCTCCGTGGAATTACCCGGTTCAGCTTGCCCTCGCCCCGGTTATCGGAGCCATCGCGGCCGGAAATACAGTAATCCTTAAGCCTTCCGAGCTGACACCGACCGTTTCCTGGGTGCTGAAAAAAATGGTGGAGCAGTACTTCCCCTCTTCTTATATCACTGTTGTGGAAGGAGATAAGGAAGTAACACAGGAGCTGTTGGATCAGCCGCTGGACTACATCTTTTTCACAGGAAGTGTCCCTGTAGGGAAAATCATTATGGAAAAAGCGAGTAAACGGCTGATCCCTGTCACCCTTGAGCTTGGCGGGAAGAGTCCGACCATCGTCCACAAAGATGCTTCTGTGGATCTGGCTGCCAAACGTATTGTCTGGGGGAAATTCACCAACGCAGGCCAAACCTGTATTGCTCCTGACTATGTGTACGTTCATCATGAAGTAAAGGCTGATTTGATCCGTTCGATGAAGAAGTACATCCAGGAGTTTTACGGAGAAAATCCTCTCAAAAACCCGGACTATACGAAAATCGTAAATGCCTCCCACTTTGAGAGACTTTCCCAATACCTTACATCTGGTACGACAGTGGCCGGAGGTGCTGTCGATGAACGACAGGAAAAAATCGCTCCCACCATCCTTGATCAGGTCACATGGTCGGACCCTGTAATGCAGGATGAGATTTTCGGCCCGATCCTCCCTGTTCTCACTTATGATCAACTGGATGAAGTGATTGAACAGGTTAATGATCGTCCAAAACCTCTTGCCCTTTACTACTTCGGAGAAAATGAGATCGAACAGCAGCAGGTGCTCAACCGCATTTCATTCGGTGGCGGATGTATCAATGACACTCTATTTCATATCATCAACCCACACCTGCCCTTTGGAGGCGTCGGTGAGAGCGGCATGGGACATTACCATGGACAGGCGAGCTTTGACACCTTTACGCATCAGAAGAGCATTACGAAACAGACGACTAAATTTGACCAGAGCTTCCGATACCCCGGCTCATCCCTCGGACTGGCCATTATGAAGCGGATCTTCGGTTAA	MHTVVQAQKSWFQEGHTRSYAFRKEQLQKMKQMLTTFEKPILNALKFDLNKSEYEAYASEIAFLKSEIDHHLKQLKSWMQPTKVKAPLTHTGSKNYIKKEPFGTVLVIAPWNYPVQLALAPVIGAIAAGNTVILKPSELTPTVSWVLKKMVEQYFPSSYITVVEGDKEVTQELLDQPLDYIFFTGSVPVGKIIMEKASKRLIPVTLELGGKSPTIVHKDASVDLAAKRIVWGKFTNAGQTCIAPDYVYVHHEVKADLIRSMKKYIQEFYGENPLKNPDYTKIVNASHFERLSQYLTSGTTVAGGAVDERQEKIAPTILDQVTWSDPVMQDEIFGPILPVLTYDQLDEVIEQVNDRPKPLALYYFGENEIEQQQVLNRISFGGGCINDTLFHIINPHLPFGGVGESGMGHYHGQASFDTFTHQKSITKQTTKFDQSFRYPGSSLGLAIMKRIFG	PGPT0006875_9849	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
AK012_00873	2244			hypothetical protein	ATGATCTTAAAAAAATCAATGATTCGGACATTGAAAGAGAATAAATTTCAATATGCAGGAGTCATTCTTCTTCTTCTGCTGGCCGTCACTTTATATGTTTCCCTGTCGATGGCCGTGACGACGCTGGAAGAGCGGAACGCCAGGTTTACCGAAGACTATAAGCAGGAGACCCTGCATTTCGTCCCATCTGAGCGTATAGACGCCTCAAAGCTTGAAGAGTGGGAGGAAACGTTTGATATTACGTTGGAAACCAGGTCCTATTATGACGCTGATCTCGATGGATCCGTGCTCAGGGTCTTTTCACAGACGGAGGAGATTAACCGCCCCTATATAGCAGAAGGATCAAATCCTGAAGACGATGGGGAAATCGCTGTCTCTTCTGTGTTTGCTGAAAAAAATGACCTCCATATCGGGGATACGCTGGAGATCAGCGGAGAGCCGGTTGTAGTGACAGGATTTGTCTATCTTCCTGATTATATCTACATGCTTGAACAAATGACGGATCTGATCAGCGATGCGGAGAAGTTCGGAATCGCGACAGCTTCCGATCGTACGATGGATCAATGGGCTGACCAGTCTCAAATTGAAATCACAGGTTGGTCCAGGGATGGAGAGGTTCCTGAAGGTTTCATGGAGGCTGTCCGTACGGAGACGACCATCCTCCAATTTGTAGAAGCCGGTGACAACCCGAGGATTCAGTTCGTCGATACAGAAATTGAAGGCGCCAAAAGCATGAACAATACACTCCCGCTTTTCATCCTGGCTCTTGCTACAGCAATGGTTCTGCTTTTGATGAGGCGCAGAATCGATATGCAGCGAAAGGAAATCGGGACGTTACTGGCGCTGGGATTCCGCAGGAACGAGCTGCTTCGGCACTATCTTGGCTATGCCTGGGTGATAGGGCTTAGTGGGACGGTTCTTGGGCTTGCGGCGGGGGCCGGGTTATCGGTTCCCCTATCCGATCTTTACGCAAACTATTTTAACCTGCCGGCTTTATCCATGTTTGATTTTAATCCGATGGTGCTCGTGATTGCGTTCATTCTCCCACTTGTTCTTATGCTCTCTGTGTCAGCGTGGGGGATTCACCGGGCCTTGAAGGTCGAGCCTCTGACCCTTCTGCGTCCGAAAGAGGTGACGGTGGGTAAAAAATCCTGGCTGGAACGCCTGCCGCTGCTGAACAGAGGGACATTCATTCAAAGGTTCCGGCTGCGTCTCCTGATAAGAAACAAAGCAAGAAGTCTCTATATATTCCTTGGTGTCATGTTTTCAACCGTTCTACTGATGTTTGGCTTCATTACCTTTAACAGTATGGATAAGCTTGTTGAAACGACGTATGAGGACATCATGACCTATGACTATGCGGTTTATTACCAATCCTTAAATACGGAAAACACTGAGGAAGGGTCTGATCCTTTTACAAGGAGTGAAGTAAAGGTAAAAGGAAACGATACGAAACTAACCGGATATGGGATTGAAACGGATACCCCTTATATCAACCTTCTTGCTGAAGGAGAGAAACTCAACCCTGAACTGGAAGAAGGCGTTGTCTTGAGTACTCCGGCTGCGGCGGTGCTCGGTGCTGCGGAAGGGGAGGATATTACGTTGACCAACTCCTTGAATGATGAGGAAATGACTGTCCAGGTAGCAGGTGTGGCTGACGTGTACATCGGCAGTCAGATCTACCTGCCCCGCGAAGACTTTAATGAATTTCTCGGCTATCCCAACGAATCCTACAGCGCCGTCTGGCAGACAGAAAAGCCCGAACGAGGGGAGAACGTCTACCAAATCGAAGATAAACAGAAAGTGATCGACAGCTTTGAAGCAACATCCGGGGCTACACGATCAGCCGTTATCGGAATGGCTGTATTCGCTGTTGTGATTAGTGTTATTGTCCTCACGCTTCTGACTCATTTGATTGTCGAAGAGAATTCTCCTTCCATTTCCTTGTTTAAGGTCATGGGGTATCATAACCATGAAGTATCAAAGCTTGTCCTCAGTGTTTATACGCCAGTGGTCATTCTTTCTTATTTCATTTCCATACCACTCGCAGGCTTAACCCTTGGGCAGTTGATGAACTCTCTCGTGGAGCAGACCGGGTTCATTCTTCCTACTGATGTATCGTGGTGGATGGCAGGAACAGGGTTCATCGTCATTATGCTGACCTATGGCCTGTCCCTGGCCCTATCAAAACGGAAGTTGAAACAAGTGTCTCTGCAGGAAGCTTTGAAAAAACAACAGGATTAA	MILKKSMIRTLKENKFQYAGVILLLLLAVTLYVSLSMAVTTLEERNARFTEDYKQETLHFVPSERIDASKLEEWEETFDITLETRSYYDADLDGSVLRVFSQTEEINRPYIAEGSNPEDDGEIAVSSVFAEKNDLHIGDTLEISGEPVVVTGFVYLPDYIYMLEQMTDLISDAEKFGIATASDRTMDQWADQSQIEITGWSRDGEVPEGFMEAVRTETTILQFVEAGDNPRIQFVDTEIEGAKSMNNTLPLFILALATAMVLLLMRRRIDMQRKEIGTLLALGFRRNELLRHYLGYAWVIGLSGTVLGLAAGAGLSVPLSDLYANYFNLPALSMFDFNPMVLVIAFILPLVLMLSVSAWGIHRALKVEPLTLLRPKEVTVGKKSWLERLPLLNRGTFIQRFRLRLLIRNKARSLYIFLGVMFSTVLLMFGFITFNSMDKLVETTYEDIMTYDYAVYYQSLNTENTEEGSDPFTRSEVKVKGNDTKLTGYGIETDTPYINLLAEGEKLNPELEEGVVLSTPAAAVLGAAEGEDITLTNSLNDEEMTVQVAGVADVYIGSQIYLPREDFNEFLGYPNESYSAVWQTEKPERGENVYQIEDKQKVIDSFEATSGATRSAVIGMAVFAVVISVIVLTLLTHLIVEENSPSISLFKVMGYHNHEVSKLVLSVYTPVVILSYFISIPLAGLTLGQLMNSLVEQTGFILPTDVSWWMAGTGFIVIMLTYGLSLALSKRKLKQVSLQEALKKQQD	PGPT0013350_9701	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013350-ABC_CD_P-K02004	NA	NA
AK012_00874	702	metN_2	COG1135	Methionine import ATP-binding protein MetN	ATGGCGATCTTCGCAGAAAAAGTAACGAAAACGTATCAAAGCGGAGAGGTGACCGTTAAAGCGCTGCGTGAGGCGGGTCTGACTGTACCGGACAACAAGATTGTCACCATCCTTGGGCCATCCGGATCAGGTAAATCCACGCTGTTGAATGTGATCGGCGGCATCGACCGCTATGATGAAGGACGGATTGAAGTCGACGGTCAGGCGCTTGATCTCCTGAAGGACAGACAGCTTACGGAGTATCGGAGAAATAAGATCGGGTTCATTTTTCAGCAGTATAACCTTATTCCTACGCTGACGGTGGAGGAAAACGTAGAGGTCGGACGGGAGCTGAGCAGTGATCCGTTTCCTATGGAGGATATACTGGGGAAAGTAGGCATGTTTGATAAAAAAGATAAATTTCCTTTTCAATTGAGCGGTGGGGAGCAGCAGCGGGTGGCCGTAGCCCGTGCGTTAATTAAAAATCCAGACATCCTTTTATGTGATGAGCCGACAGGAGCATTGGATGAAGAGACGGGCAAAAATATCTTGAAACTCTTGAAGTATGTGAATGATACGTACGGAACGACGATTTTGATCATCACTCATAACCAGGGGATTGGAGAAATGGCCCATCAGGTGATCCGGATGAGCAGCGGGGAAATCGTAGAGACGTATGAAAACGAGACACTGGTGGACCCTGAGCAGGTGACGTGGTCATGA	MAIFAEKVTKTYQSGEVTVKALREAGLTVPDNKIVTILGPSGSGKSTLLNVIGGIDRYDEGRIEVDGQALDLLKDRQLTEYRRNKIGFIFQQYNLIPTLTVEENVEVGRELSSDPFPMEDILGKVGMFDKKDKFPFQLSGGEQQRVAVARALIKNPDILLCDEPTGALDEETGKNILKLLKYVNDTYGTTILIITHNQGIGEMAHQVIRMSSGEIVETYENETLVDPEQVTWS	PGPT0013345_9275	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK012_00875	225			hypothetical protein	ATGCCGGAACGAATAGTCGCTGTAAAAAAGAACGGGCAGGGGAGCATTGTTGAGATGCAGTTGGCATCAGGACGTGTGGTTGATTATAAACAGGCACACGAAATGGCGCGCAGCGGTGAACTGGAACACGTGAACCTGATTCGTGGCAAGGATGGGGAAGACCATCTGCGCAGTGAGCCGGATGGCATACAATCCAACAACCTGGACAACCTTCCCTCATTCTAA	MPERIVAVKKNGQGSIVEMQLASGRVVDYKQAHEMARSGELEHVNLIRGKDGEDHLRSEPDGIQSNNLDNLPSF				NA	NA	NA	NA	NA
AK012_00876	153			hypothetical protein	ATGGGTGGACGCCGCATGGGACCCAAACAACAAACAAGGCCGGATATTCCTCTTGGTCCGGACCAGGCATATGGCGAAAAGGCGCAGGGCTCACACAAAGCCAAGCAGGCCCGTCATTCCCGTCAAAAACAGAAAACATCTCACGATATGTAA	MGGRRMGPKQQTRPDIPLGPDQAYGEKAQGSHKAKQARHSRQKQKTSHDM	PGPT0024935_18	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024935-sspP|cotL-K06433	NA	NA
AK012_00877	129			hypothetical protein	ATGGGTAGAGATCGACAAGAAAAGAAATTGAAGAAGTCCGGAAAGGTTCAGTCCGACCGTGATCAGAGCCTCAGTTATCCGGGGGCGACGGCGATGGAGGGACCGGAGCCTGCTCGAAAACGCAGATAA	MGRDRQEKKLKKSGKVQSDRDQSLSYPGATAMEGPEPARKRR				NA	NA	NA	NA	NA
AK012_00878	1248	dinB	COG0389	DNA polymerase IV	ATGGGTTCAAAGTGGTATCCAAAAAAAGGACGGGTCATTTTTCATGTGGATATGAACAGCTTTTATGCCTCAGTGGAAGCTGCTTTTGATCCCACCTTAAAAGGGAAGCCTCTTGCTATTGCAGGCAATCCGGAAGAACGCCGCGGGATTATCGTCACGAGCAGCTATGAAGCAAGGAAATACGGTGTGAAAACTACGATGCCGCTCGGCGAAGCCCGGCGGCTTTGTCCGGATTTGATTGTTATGCGGCCGAACTTCGAACGCTACCGTACGGCTTCTAAAGAGATGTTCAAAATCCTTGCCGACGTGACTTCCCTTGTCCAGCCTGTATCCATTGATGAGGGATACATGGATATAACGGATTGTGCGGATCAAGGCCCGCCTCCTGAGCTTGCTGAACGCATTCAGCATCGAATTTCCGAGGAGCTTGATCTTCCGTGCAGTATTGGGATAGCTCCGAATAAATTTCTGGCAAAGATGGCTTCCGATATGAAAAAACCAATGGGGATCACCATTTTAAGAAAAAGAGACCTCGACCGGACACTTTGGCCCCTTCCGATTGAAGAGATGCACGGAGTAGGGACTAAAACCGCGGAAAAGTTAAGAAAGATTGGAATTGAAACGATCGGTGGGCTGGCTTCCCATTCCGTCACAGAATTAAAAGGGATCCTTGGTATCAATGGAGAGCGTCTGCAGAACAGGGCCAACGGAATGGATGACAGACCTGTCGACCCTGAAGCTGTTCACGAATTCAAAAGCATCGGCACTTCGACGACCCTTCCTCATGACACGACGGACGAGGATGAAATCCAAACCGTCCTCCGCCGTCTTTCCAATAAGGTTGCCGCCCGGATGAGCGGTAAAAAGGTCCTCGCGCGGAACGTGCAGTTGACGATCCGGTATCATGACAGAAAAACGGTGACAAGAAGCCGGCAGCTCCACGAGTTTGTCAGCAAACCGGATGAATTGTTCCAACACAGCATCCGGCTTTTTGACCAGCACTGGAACCAGGATCCTGTCCGTCTTCTGGGTGTAACTGCCGGGGACCTTGCAGAAAAATCAGAAGTCACCCAGCAGCTGGACCTGTTCAATTATCAGCAGTATGCCAGCAAGGAAAAGCTTTATAAAACCATTGATAAGCTGACAGAAAAATACGGGAAAAATCCTTTTCACACCTTGGAAAATCCTGATCAAACCAAGGTATCCACCAGCTTTCAAAAAGACTTTCTCGACGATTATAAAAAGTGA	MGSKWYPKKGRVIFHVDMNSFYASVEAAFDPTLKGKPLAIAGNPEERRGIIVTSSYEARKYGVKTTMPLGEARRLCPDLIVMRPNFERYRTASKEMFKILADVTSLVQPVSIDEGYMDITDCADQGPPPELAERIQHRISEELDLPCSIGIAPNKFLAKMASDMKKPMGITILRKRDLDRTLWPLPIEEMHGVGTKTAEKLRKIGIETIGGLASHSVTELKGILGINGERLQNRANGMDDRPVDPEAVHEFKSIGTSTTLPHDTTDEDEIQTVLRRLSNKVAARMSGKKVLARNVQLTIRYHDRKTVTRSRQLHEFVSKPDELFQHSIRLFDQHWNQDPVRLLGVTAGDLAEKSEVTQQLDLFNYQQYASKEKLYKTIDKLTEKYGKNPFHTLENPDQTKVSTSFQKDFLDDYKK	PGPT0014881_1432	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
AK012_00879	1125	pepT_1	COG2195	Peptidase T	ATGGCAGAAATCAACAAACAACGCTTGCTGGACGAGTTTTTAGAACTCGTACAAATTGACTCAGAAACAACTCAGGAGGCGGAAATTTCTAAAGTATTGAAGCAGAAGTTTACCGACCTTGGACTAGAAGTATTGGAAGATGAGGCGGCTTCTGTTACAGGTCACGGAGCCAACAATTTGATCTGCAATCTAAAAGGATCAAAAGAAGGTGCCGATACCATTTATTTTACGTCCCATATGGATACCGTTGTTCCTGGTAACGGCGTCAACCCTTCTATTAAAGACGGGTATGTCGTTACAGATGGTACGACGATTCTTGGTGCGGATGATAAAGCCGGAATTGCAGCGATTCTTGAGGGGATACGCTCACTAAAAGAGAACAATGTAGAGCACGGCGATATCCAATTCGTCATTACGGTTGGCGAGGAGAGCGGCCTTGTAGGCGCGAAAGCTCTCGACAGTTCTCTTTTGAAAGCGAAATACGGCTATGCCATCGATAGTGACGGACAGGTTGGAAACATTGTGGTAGCTGCTCCGACCCAGGCGAAAATCAATGCGGTAGTCAAAGGCCGCACGGCTCATGCCGGTGTAGCTCCTGAAAAAGGGGTCTCCGCCATCACGCTTGCGTCAAGGGCGATCGCCAAAATGCCGCTGGGCCGCATTGACGAGGAAACCACAGCGAATATCGGCCGCTTTGAAGGCGGACATAAAACCAATATCGTTTGTGATCATGTGGAAGTTCTGGCAGAGGCCCGTTCTCTTGACCCGGCGAAAATGGAAGAGCAGGTCGAGAAAATGAAAAAGGCCTTTTATGAAACAGCGGAAGAAATGGGTGGAGAAGTGGACCTGGATATTCAGGTGATGTACCCGGGCTATAAACAGGAGGCCGGTGACGAGGTGGTCGAAGCCGCTCGTTCAGCAGCCAAGCGGATTGGACGGGAAAGTGAACTGCTCCGCAGCGGTGGAGGCAGTGATGCCAACGTAATTGCTGGACATGGAGTCCCGACGGTTAACTTAAGCGTCGGTTATGAGGAGATTCATACGACCAACGAGCGTATTCCTGTTGCTGAGCTTGAGAAGATCGCTGAGTTTATTACAGCGATTGCCGAAGAAGCAGCGTTATAA	MAEINKQRLLDEFLELVQIDSETTQEAEISKVLKQKFTDLGLEVLEDEAASVTGHGANNLICNLKGSKEGADTIYFTSHMDTVVPGNGVNPSIKDGYVVTDGTTILGADDKAGIAAILEGIRSLKENNVEHGDIQFVITVGEESGLVGAKALDSSLLKAKYGYAIDSDGQVGNIVVAAPTQAKINAVVKGRTAHAGVAPEKGVSAITLASRAIAKMPLGRIDEETTANIGRFEGGHKTNIVCDHVEVLAEARSLDPAKMEEQVEKMKKAFYETAEEMGGEVDLDIQVMYPGYKQEAGDEVVEAARSAAKRIGRESELLRSGGGSDANVIAGHGVPTVNLSVGYEEIHTTNERIPVAELEKIAEFITAIAEEAAL	PGPT0020915_2541	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
AK012_00880	1548	pccB	COG4799	Propionyl-CoA carboxylase beta chain	ATGGATATTTTTGATAAAATCAATGAACTCTATGACAAACGCAGAGAGGTGGAACTCGGCGGCGGGGATGAACGAATCGATAAACAGCATGAAAAAGGGAAATGGACGGCACGGGAACGGATTGATCATCTCCTTGATGAGGGCAGCTTCATTGAATTGAACCCTTTTATTGAACACCGCCATGATGCCTTTGGGATGGATGGGAAGAGTGCTCCCGGGGAAGGGGTGGTCACTGGATACGGAAAAATTGAAGGGAGAAGTGTGTATCTGTTTGCCCAGGACTTCACGGTTTACGGCGGAGCCCTGGGGGAGATGCATGCAAAGAAAATCGCCGCCGTCATGGATCTGGCTGCTAAAAATGGAACACCTTTCATAGGATTGAATGACTCTGGAGGAGCGAGGATCCAGGAAGGGGTTTCGTCTCTGGATGGGTACGGGCAGGTGTTTTACCGCAACTCGATCTATTCAGGAGTCATCCCCCAGATTTCGGTCATTATGGGGCCGTGTGCGGGGGGAGCCGTTTATTCACCGGCGATTACCGACTTCGTCATCATGGTGGAAAAGACGTCACAGATGTTCATTACGGGTCCAAAAGTGATTGAAACCGTAACAGGGGAGCAGATATCCGCAGAGGATCTTGGAGGCGCCGGTGTTCATAATACCCTCAGCGGAAATGCCCATATGAAAACGAAGGACGAAGCGGAAGCCCTCGATGCTGTTCGAAAGCTCATCAGCTATCTTCCTCAGAATAATGAAGAGAAAACACCAAGGGTCCAGGAAGGACCTTCTGAGCATTTTCGTCCTGACCTGACGGATAAGATTCCTTTCGACCCTATCCGGCCCTATGATGTCCGTGTCATTATCGATGAAGTGGTTGACGAATCGTCTTTCTTTGAAATTCAAAAAGACTTTGCCAAAAACATTGTCGTTGGTTTTGCCCGTATGGATGGCCGGGCGGTCGGGCTCGTCTGTAATCAGCCGAAGTATATGGCCGGAGGGCTGGATATCGATTCCAGTGACAAAGCCGCCAGATTTATCCGCACGTGCGATTCCTTTAATATTCCAATTATTACATTTGAGGATGTTACCGGATTTTTCCCGGGTATTAAGCAGGAACACGGGGGAATCATACGACACGGAGCGAAAATCCTTTATGCTTATTCAGAGGCCACCGTCCCCAAGCTTACAGTCATTACAAGAAAAGCGTATGGAGGAGCTTATGTAGCGCTGAACAGTAAATCCATAGGAGCAGATCTTGTTTATGCCTGGCCGAATGCTGAAATTGCAGTCATGGGTCCTGAAGGGGCAGCCAATATCATTTTTGCCAAGGAAATCAAGGAAAGCTCACAGCCTGGAGAAACGAGGCAGCATAAGATCAATGAATACCGCGAACGCTTTGCAAACCCGTATGTCGCTGCAGGGCTCGGAATGATTGATGATGTTATCGACCCTCGGGAAACACGGAGCACACTTGTGAAGGCTTTGGATATGCTGCAGAACAAGCAGGAACAACGCCCTTATAAAAAGCATGGAAATATTCCTCTTTAA	MDIFDKINELYDKRREVELGGGDERIDKQHEKGKWTARERIDHLLDEGSFIELNPFIEHRHDAFGMDGKSAPGEGVVTGYGKIEGRSVYLFAQDFTVYGGALGEMHAKKIAAVMDLAAKNGTPFIGLNDSGGARIQEGVSSLDGYGQVFYRNSIYSGVIPQISVIMGPCAGGAVYSPAITDFVIMVEKTSQMFITGPKVIETVTGEQISAEDLGGAGVHNTLSGNAHMKTKDEAEALDAVRKLISYLPQNNEEKTPRVQEGPSEHFRPDLTDKIPFDPIRPYDVRVIIDEVVDESSFFEIQKDFAKNIVVGFARMDGRAVGLVCNQPKYMAGGLDIDSSDKAARFIRTCDSFNIPIITFEDVTGFFPGIKQEHGGIIRHGAKILYAYSEATVPKLTVITRKAYGGAYVALNSKSIGADLVYAWPNAEIAVMGPEGAANIIFAKEIKESSQPGETRQHKINEYRERFANPYVAAGLGMIDDVIDPRETRSTLVKALDMLQNKQEQRPYKKHGNIPL	PGPT0001712_1146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_PROPIONATE|PROPANOATE_UTILIZATION,PGPT0001712-pccB-K01966	NA	NA
AK012_00881	813	icmF_1		Fused isobutyryl-CoA mutase	ATGAAGCCAATTCGAGTACTAATAGCTAAGCCGGGGCTGGATGGCCATGACCGCGGCGCTTTAATCATCGCCCAGGCTCTCCGTGACCACGGTATGGAAGTCATTTATACAGGCCTCAGGCAGTCAGCAGTCCAGATCGCAAGGGCCGCGGTGCAGGAGGATGTGGATGTAGTTGGTTTATCCTCGTTATCCGGAGCACATAAGTCCTTGTTTCCAAAAGTAGTGGAAGCATTGAAGAAGGAGGGTGCCGATGACATCCCGGTCATTGGAGGCGGGGTGATTCCGGCTGAGGATATTCCTTATCTGGAAGAAAAAGGGGTGCACAAGATTTTTACGAGCGGATCGCCGACGGATGCGATTGCTGTCTATATTAAACAGCTGATTCATGAGGAAACTATCAGCGCTCCAAAAAAAATCGCCCACATCGGAATTGCTGTGGAAAGTATTGATGCAGCGCTTCCCTTTTACCAGCACACGCTCGGTATGGAGATCGAAGCTGTAGAGGACGTGGAATCCGAGCATGTGCGCGCTGCTTTTTTAAGAATTGGTGAAACGAAGCTGGAGCTTTTGGAACCATTGAATGAAACCTCCGCGATCGCTTCCTTTTTGGAAAAGAGAGGCAGCGGCATCCATCATATCGCCCTGGAAGTCGATGACCTGCATAAACGTCTGCAGCAATACAGGGAACAGGGGATCCGAATGATTCATGAGGAACCTAAAACCGGTGCGCATCAAGCACAAATTGCTTTTATGCATCCAAAAGCCTCTGGTGGTGTCCTTTATGAACTGTGGCAGTCCGGGAAGGAGGAGTAG	MKPIRVLIAKPGLDGHDRGALIIAQALRDHGMEVIYTGLRQSAVQIARAAVQEDVDVVGLSSLSGAHKSLFPKVVEALKKEGADDIPVIGGGVIPAEDIPYLEEKGVHKIFTSGSPTDAIAVYIKQLIHEETISAPKKIAHIGIAVESIDAALPFYQHTLGMEIEAVEDVESEHVRAAFLRIGETKLELLEPLNETSAIASFLEKRGSGIHHIALEVDDLHKRLQQYREQGIRMIHEEPKTGAHQAQIAFMHPKASGGVLYELWQSGKEE				NA	NA	NA	NA	NA
AK012_00882	1656	bhbA		Methylmalonyl-CoA mutase	ATGACCCTGTCATCCAATGGACCACATTCCAAGCAGGAATGGGAGAAGAATGTAGAAAAAACCATGAAGCGTTTTCCAGAGCGCAGCCGGTCTTTTCATACGAGCTCGGATATTCCTGTGGACCGTCTCTATACACCGGAGCCGTTAAGTGAAGATTACATAAATCAAATCGGTTTTCCAGGACAGTATCCATATACACGGGGCATCCAGCCGACTATGTACCGGTCCCGTTACTGGACGATGCGCCAGTATGCAGGTTTTGGTTCAGCAGAAGAGACGAATGAGCGTTTCCGCTATCTGCTTAAGCAGGGGCAGACCGGCTTATCCGTCGCCTTTGATCTGCCGACACAGATCGGCTACGACTCAGACGACCCTATGGCTGAAGGGGAAGTCGGTAAAGTCGGAGTAGCGATTGATTCCCTGAAAGATATGGAGCAGCTGTTCCGTGAAATTCCACTGGATCAAGTGAGTACATCCATGACCATAAACGCCCCGGCGAGCATCCTCCTTGCGATGTATATCGCCGTCGGGGAAAACCAGGGAGTGGCAAAGGAAAAGCTGACCGGCACTATTCAAAACGATATTTTGAAGGAGTACATTGCACGGGGAACGTATATCTATCCTCCGAAACCATCCATGCGCCTGATTACGGATATATTTGCCTACTGTCAGGAGCACCTGCCTAAATTCAACACCATCAGCATATCCGGCTACCATATTCGTGAAGCTGGATCGACAGCTGTACAGGAAGTCGCTTTTACGATTGCCAATGGGATGGCCTATGTTGATGCAGCGATAGAGGCAGGATTGAAAGTGGATCAGTTCGCTCCACGCCTGGCCTTTTTCTTTAATGCTCATAACCAGTTCTTTGAAGAAGCAGCGAAATTCAGGGCAGCCCGGCGGATGTGGGCAAAAATCATGAAAGAGCATTACAAAGCGGAGAATCCAAAAAGCTGGAAAATGCGATTCCATACACAGACAGGCGGAAGCACACTTACAGCTCAGCAGCCGGATAACAACATCGTCCGGGTAACGATGCAGGCGCTGGCCGCCGTTTTAGGGGGGACACAGAGCCTTCATACCAACTCCCGGGATGAGGCGTTGGCGCTTCCGACAGAAGATTCTGCGAGGATCGCTCTGCGGACACAGCAGATCATCGCCAATGAGAGCGGCGTCGCTGACACGATCGACCCGCTTGCCGGATCCTACTATGTCGAATCGTTAACCGATCAGATTGAAAAAGAAGCCGGGGCATACCTGGATCGCATCAGTGAATTCGGAGGAGCCGTTCAGGCTGTAGAAGAGGGATACATGCAGCGGGAGATCCACCAGGCTGCTTATGAGGCACAGAAACGTATTGAATCCAAAGAGGATATCGTCGTTGGCATGAACGAATACCAGCTGGACGAAGAAATTCACGCAGACCTTTTGAAAGTGGATGAAGCCCTTGAGCGGGGACAGATTGAAAAAACACAGCAGGTGAGAGAGGAGCGGAATCAGGAAGAAGTGGATCGCTGCCTGCAGGAACTTCGCGAAGCGGCAGCGGGACAGGGCAATGTGATGCCTCCTATCGTCAAGGCCGTCCAGGCTTACGCCACGGTCGGGGAAATCGCCAACATCCTGCGTGATGAGTTCGGTGAATATACAGCGATGTAG	MTLSSNGPHSKQEWEKNVEKTMKRFPERSRSFHTSSDIPVDRLYTPEPLSEDYINQIGFPGQYPYTRGIQPTMYRSRYWTMRQYAGFGSAEETNERFRYLLKQGQTGLSVAFDLPTQIGYDSDDPMAEGEVGKVGVAIDSLKDMEQLFREIPLDQVSTSMTINAPASILLAMYIAVGENQGVAKEKLTGTIQNDILKEYIARGTYIYPPKPSMRLITDIFAYCQEHLPKFNTISISGYHIREAGSTAVQEVAFTIANGMAYVDAAIEAGLKVDQFAPRLAFFFNAHNQFFEEAAKFRAARRMWAKIMKEHYKAENPKSWKMRFHTQTGGSTLTAQQPDNNIVRVTMQALAAVLGGTQSLHTNSRDEALALPTEDSARIALRTQQIIANESGVADTIDPLAGSYYVESLTDQIEKEAGAYLDRISEFGGAVQAVEEGYMQREIHQAAYEAQKRIESKEDIVVGMNEYQLDEEIHADLLKVDEALERGQIEKTQQVREERNQEEVDRCLQELREAAAGQGNVMPPIVKAVQAYATVGEIANILRDEFGEYTAM				NA	NA	NA	NA	NA
AK012_00883	510	ycfS	COG1376	putative L,D-transpeptidase YcfS	ATGACAGCCTTTTTCCTTGTCCTTGCAGCTGTGCAGCTGCTCCTGCCAACAGCCGGTGAGCCCGTCATCCTTGTAAACAAAGCCGTGCACGAACTGGTCGTTTATGAGGACGGCGAGCAGAAGTTCCACGCCCCGGCGGCCATTGGGAAAACCGATGAACTCACACCGGAAGGGTTGTTCCAAGTCAAAGTGAAAGCCGTAGATCCATACTATAGAAAAACCAATATCCCAGGGGGTGTGCCGGAGAATCCTTTGGGAAGCCGGTGGATCGGTTTTGATGCAGAAGGAACAGACGGCCGGATTTACGGCATTCACGGCACCAACCAGCCGGAATCAATCGGCACCTCTGCTTCGGCGGGATGTATAAGATTGCAGAATGTCGATGTTGAAGCCTTATATGCGATGGTCGAGAAAGACACAGACGTTTGGATTGTCGATCAGCCTGACGTATCAATGGAAGATTTATATGAACACTGGCTGAAAAAGAAATGGCAGCAGTTTTTGAATTAA	MTAFFLVLAAVQLLLPTAGEPVILVNKAVHELVVYEDGEQKFHAPAAIGKTDELTPEGLFQVKVKAVDPYYRKTNIPGGVPENPLGSRWIGFDAEGTDGRIYGIHGTNQPESIGTSASAGCIRLQNVDVEALYAMVEKDTDVWIVDQPDVSMEDLYEHWLKKKWQQFLN	PGPT0023765_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023765-ynhG-K19234	NA	NA
AK012_00884	951			hypothetical protein	TTGAAGATAGGATACCGTACCATTAAAACGGCATTAGGAACCCCGTTTGCCATCTGGGTGGCTCAAATGCTGCAGCTGGACAACTTTGCATCAGCTGGGATTTTAACGATCCTGTGCATTCAGATTACGAGGAAGCGGTCATTTTTAAGTGCATGGCACCGTTTTTCAGCCTGTATTGTAGCTATGGCTTTTTCCTACACATTTTTTGAGCTGATTGGATATAACCCGCTCGCCATCGGGATCATGCTGTTCGCCTTTATTCCTGTGACCGTCTGGCTGAACATTACACCTGGAATTGTGACGAGTTCGGTCATCATTCTCCATCTTTACGGCTCAGGAAATATCGGCTGGGATATTATTTTGAACGAAGTGGTCCTGATCACTGTTGGGATCGGTACAGCCTTGCTGCTGAACTTATATATGCCGAGTCTGGAAAATAAACTCGGGGAATACCGCTCACAGGTAGAGCGTAATTTCTCCCTGATTATGAAAGAACTGGCAACGTTCTTAAGGGATGGGGACAACGATTGGACAGGGCGGGAGCTTACAGACACAGCGGAACTGCTCGAAAAAGCAAAATCGTTGTCCTACAGGGACGTTGAAAATCATCTGCTGCGGACTCATAACCATTTTTACCATTACTTTCATATGCGTACCAAACAGTTTGAACTGTTGGAACGGATGCTTCCGCTTGTCAGCCGGATTTCTGCGTCGAATATGCACAGTTCGAAAATCGCTGATTTCTTTGACGACTTAGCTGAGGGGATCCACCCTGGAAATACAGCCGTCATCTATCTGCAGCGGTTCAAGGAGATGAAGGAGGAGTTCAGGGAGGATGAACTTCCACAGACACGTGAGGAATTTGAGATGCGGGCCAGCCTGTTTCACCTTCTCAATGAAATTGAGGAATACTTAATCATCAAACGCTCCTTTAAAAAGAGTGACGTATAA	MKIGYRTIKTALGTPFAIWVAQMLQLDNFASAGILTILCIQITRKRSFLSAWHRFSACIVAMAFSYTFFELIGYNPLAIGIMLFAFIPVTVWLNITPGIVTSSVIILHLYGSGNIGWDIILNEVVLITVGIGTALLLNLYMPSLENKLGEYRSQVERNFSLIMKELATFLRDGDNDWTGRELTDTAELLEKAKSLSYRDVENHLLRTHNHFYHYFHMRTKQFELLERMLPLVSRISASNMHSSKIADFFDDLAEGIHPGNTAVIYLQRFKEMKEEFREDELPQTREEFEMRASLFHLLNEIEEYLIIKRSFKKSDV				NA	NA	NA	NA	NA
AK012_00885	432			hypothetical protein	ATGGATTTTAATATTTTTATGAACGATGTCGTTACAAAAGCACGTGAAGAAATTACGCAGGCAGGATACACCGAGCTTACTTCCCCTGAAGAAGTGGACCAGGCGCTTACCCAGGAAGGAACCACTCTTGTCATGGTCAATTCCGTATGTGGGTGTGCTGGAGGCATTGCCCGTCCAGCCGCTGCCCATGCCATTCATTACGATAAACGCCCGGACCGTCTGGTAACAGTGTTTGCCGGTCAGGACCGTGAAGCGACTAACCGTGCGCGCGAGTATTTCGAAGGGTACCCGCCGTCTTCCCCTTCCTTCGCTCTTTTGAAGGATGGTAAAATCCAGACGATGGTGGAACGTCATGATATCGAGGGCTTTGAACCGATGGAAGTGATCGGGAAGCTTCAGCGCAGTTTTGAAGAATACTGTGAAGAGGTATAA	MDFNIFMNDVVTKAREEITQAGYTELTSPEEVDQALTQEGTTLVMVNSVCGCAGGIARPAAAHAIHYDKRPDRLVTVFAGQDREATNRAREYFEGYPPSSPSFALLKDGKIQTMVERHDIEGFEPMEVIGKLQRSFEEYCEEV	PGPT0014657_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0014657-bmrU-NA	NA	NA
AK012_00886	1308	pdhC_2	COG0508	Dihydrolipoyllysine-residue acetyltransferase component of pyruvate dehydrogenase complex	GTGGGCGTAGAAAAAATCAATATGCCTCAACTCGGAGAGAGTGTAACGGAGGGGACCATCAGTACGTGGCTGGTCCAGCCGGGAGATAAAGTAAACAAATATGATCCAATTGCTGAAGTAATGACAGATAAAGTGAACGCGGAAGTCCCTTCTTCCTTTACAGGAGTGATCAAGGATTTAGTGGCTTCTGAGGGTGACACCATCGAAGTCGGTGAACTGATGTGTCATATTGAAATTGAAGGATCAGGTTCTGCCGAGGAGCCGTCAGCAGTGGAACAGAAGGAGGAGACGCCTTCTGAGACGTCTTCCAAAGAGCAAAAATCGACGCCTGCCCCATCGGTTGGGAAAGAGCAGAAGCAGAAGAAACGTTATTCACCAGCTGTGATGACTCTTGCTCAGGACAATGATATTGATTTAAACCAGGTGGAAGGGACAGGTCGTGGCGGCCGGATTACCCGCAAAGACATCGAAAAAGTGATTGAGAGCGGAACGATTCCTAAAGCTGAAGACCGTCCTCAGGCGGAAGAGGCAGCACCAGCTGCTGCGTCGTCTGCGCCTGAGGCTGCAGCTCAGCCGTCTCCATCTGTTCCTGATGTTCAGGCTGGAGAAGGGGACGTTGAAATTCCTGTCACCGGCGTCCGTAAGGCGATTGCTGCCAATATGGTGAAGTCTAAAACCGAAATTCCACATGCATGGATGATGGTTGAAGTGGATGTGACGAACCTGGTGGAACTGCGTAATGCGAAGAAAAATCAGTTCAAGAAGCAGGAAGGCTTCAGTCTGACGTACTTTGCTTTCTTCGTAAAAGCGGTGGCACAGGCGTTGAAGGAATATCCGCAGCTTAATAGTACCTGGGCCGGTGATAAGATCATTCAGCGCAAAGCGGTTAATTTAAACATCGCGGTAGCTAAAGAAGATCAATTGTTTGTGCCGGTCATTAAAAACGCCGACGAAAAGAGTATCAAAGGCATCGCCCGTGACATCACAGAACTGGCCGGGAAAGCCCGTGACGGGAAACTAACCTCCAAGGATATGGAAGGCGGAACCTTTACGGTCAACAATACCGGATCGTTCGGATCCGTCCAGTCGATGGGCGTGATCAATCATCCGCAGGCGGCCATTCTACAGGTGGAATCCATTGTGAAAAAGCCTGTCTATCAAAATGGCATGTTCGGAGCGCGTGATATGGTCAACCTCTGCCTGTCTCTGGATCATCGTGTACTTGACGGCCTTGTTGCCGGTAATTTCCTTGCTCGTGTGAAGGAAATTCTGGAGAAAATGAGTGAAGACAATACTTCCGTTTATTAA	MGVEKINMPQLGESVTEGTISTWLVQPGDKVNKYDPIAEVMTDKVNAEVPSSFTGVIKDLVASEGDTIEVGELMCHIEIEGSGSAEEPSAVEQKEETPSETSSKEQKSTPAPSVGKEQKQKKRYSPAVMTLAQDNDIDLNQVEGTGRGGRITRKDIEKVIESGTIPKAEDRPQAEEAAPAAASSAPEAAAQPSPSVPDVQAGEGDVEIPVTGVRKAIAANMVKSKTEIPHAWMMVEVDVTNLVELRNAKKNQFKKQEGFSLTYFAFFVKAVAQALKEYPQLNSTWAGDKIIQRKAVNLNIAVAKEDQLFVPVIKNADEKSIKGIARDITELAGKARDGKLTSKDMEGGTFTVNNTGSFGSVQSMGVINHPQAAILQVESIVKKPVYQNGMFGARDMVNLCLSLDHRVLDGLVAGNFLARVKEILEKMSEDNTSVY	PGPT0001535_987	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
AK012_00887	984	bfmBAB	COG0022	2-oxoisovalerate dehydrogenase subunit beta	ATGGCAGTCATTTCGTATATTCAAGCTGTCACCCAGGCACTTCGCGAAGAAATGCAGCGGGATGAAAAAGTATTTGTACTAGGAGAGGACGTCGGTAAACGCGGAGGGGTTTTCCGTGCAACGGACGGATTGTATGATGAATTCGGAGAAGATCGTGTACTGGATACACCTCTTGCTGAGTCTGCGATTGCGGGTGTCGGCATAGGAGCTGCTATGTATGGCATGCGTCCGGTAGCTGAAATGCAGTTTGCTGATTTTATTATGCCGGCGGTCAACCAGATTATATCGGAAGCAGCGAAGATCCGCTACCGTTCCAACAACGATTGGAGTGCTCCCATCACCATCCGTGCGCCTTATGGCGGCGGTGTCCACGGGGCTCTCTACCACTCCCAGTCTGTCGAAGCAGTTTTCGCCAATCAACCAGGTCTGAAGATTGTCATGCCATCCACGCCTTACGATGTGAAAGGTCTGCTCAAAGCATCCATTCGGGATAACGACCCGGTTCTTTTCTTTGAGCACAAACGAGCCTACCGCTTAATTAAAGGGGAAGTGCCGGAAGAAGATTACACGCTGCCGATTGGAAAAGCAGACGTCAAGCGTGAAGGTTCCGATATTACGGTCATTACGTATGGATTGTGTGTGCACTTTGCTCTTCAGGCCGCAGAAAAGCTGGCGGAAGAAGGAATTGATGCCCACATTCTTGACCTTCGGACAGTTTACCCGTTAGATAAAGAAGGCATTATTGAAGCTGCTTCCAAAACAGGAAAGGTGCTGCTCGTCACAGAGGATAATAAAGAAGGCGGCATTATTTCAGAGGTTTCTGCCATCGTCAGTGAAAACTGCCTGTTTGATCTGGACGCACCTGTGCAGCGCCTGGCAGGGCCAGACATCCCGGCCATGCCGTATGCACCGACAATGGAGAAGCATTTCATGATGAATCCTGATAAAGTCGAAAAAGCGATGCGTGATCTCGCAGAATTTTAA	MAVISYIQAVTQALREEMQRDEKVFVLGEDVGKRGGVFRATDGLYDEFGEDRVLDTPLAESAIAGVGIGAAMYGMRPVAEMQFADFIMPAVNQIISEAAKIRYRSNNDWSAPITIRAPYGGGVHGALYHSQSVEAVFANQPGLKIVMPSTPYDVKGLLKASIRDNDPVLFFEHKRAYRLIKGEVPEEDYTLPIGKADVKREGSDITVITYGLCVHFALQAAEKLAEEGIDAHILDLRTVYPLDKEGIIEAASKTGKVLLVTEDNKEGGIISEVSAIVSENCLFDLDAPVQRLAGPDIPAMPYAPTMEKHFMMNPDKVEKAMRDLAEF	PGPT0008862_1647	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
AK012_00888	993	bfmBAA	COG1071	2-oxoisovalerate dehydrogenase subunit alpha	ATGGCTGAAAACCGCCATAAAGATTTAGGATTAACGGACGACCAGGTGCTGGATATGTTCCGCACGATGCTGTTAGCTAGAAGAATTGACGAACGGATGTGGCTTTTGAACCGCGCAGGGAAAATCCCATTCGTGATTTCCTGTCAAGGACAGGAAGCTGCCCAGGTCGGCGCTTCGTATGCGCTTGATCGGGACAAGGATTATGCGCTGCCGTACTACCGTGACATGGGGGTTGTGCTCTCATTCGGCATGACAGCACAGGATTTAATGCTGTCAGGATTCGCAAAAGCAGAGGATCCAAACTCCGGCGGACGACAGATGCCGGGCCACTTCGGTCAGAAGGAAAACCGCATCGTTACAGGGTCTTCCCCGGTAACCACCCAGGTGCCTCACGCGGTAGGAATCGCCCTGGCAGGTAAGATGGAGAAGAAGGACTTTGTTTCTCTCGTTACTTTCGGAGAAGGTTCTTCCAACCAGGGGGATTTCCATGAAGGAGCCAACTTCGCAGGGGTTCATAAACTGCCTGTCATCTTCATGGTTGAAAACAACAAATACGCAATCTCTGTCCCTGTTTCCAAGCAGCTGGCTTGTGAAAAGGTATCAGATCGGGCGATCGGCTACGGCATGCCTGGATATACCGTCGATGGGAATGACCCCCTTGCTGTATATGAAGCTGTGAAAGCAGCGGCAGACCGTGGTCGCAATGGGGAAGGTCCGACATTGATTGAGACAGTTTCCTACCGTCTGACACCGCACTCCAGTGATGATGACGACCGCGTATATCGTGAGCGTGACGAAGTAGATGAAGCGAAGAAGAAAGATTCCATCGTTACCTTTGCCAACTATCTCCGCGAACAGGGGATTTTGACCGAAGAGAAAGAAACAGAGCTGAATGACGAAATCAATCAAATCGTCAATGAAGCCACCGACTATGCTGAAAACGCGGCTTATGCCGAACCGGAATCAGCAATGAAATACGTGTACGAAGAGTAA	MAENRHKDLGLTDDQVLDMFRTMLLARRIDERMWLLNRAGKIPFVISCQGQEAAQVGASYALDRDKDYALPYYRDMGVVLSFGMTAQDLMLSGFAKAEDPNSGGRQMPGHFGQKENRIVTGSSPVTTQVPHAVGIALAGKMEKKDFVSLVTFGEGSSNQGDFHEGANFAGVHKLPVIFMVENNKYAISVPVSKQLACEKVSDRAIGYGMPGYTVDGNDPLAVYEAVKAAADRGRNGEGPTLIETVSYRLTPHSSDDDDRVYRERDEVDEAKKKDSIVTFANYLREQGILTEEKETELNDEINQIVNEATDYAENAAYAEPESAMKYVYEE	PGPT0008861_2652	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LEUCINE_DEGRADATION,PGPT0008861-bkdA1-K00166	NA	NA
AK012_00889	1422	pdhD_2		Dihydrolipoyl dehydrogenase	ATGGCAGAGGAGTATGATTTAGTTGTTCTTGGAGGCGGGACGGGAGGATACGTAGCCGCTATCCGGGCTTCAAGGCTCGGCTTGAAAACAGCGATTGTGGAAAAACGTGAACTTGGCGGAACCTGTCTGCACAGAGGCTGCATTCCATCCAAAGCATTATTGAGAAGTGCAGAGGTCTTCAAACAAACGAAAGAAGCAGACAGCTACGGCATTACCGTCGAAAACCCTGTGTTGAACTTCCAGAAAGTCCAGGAACGCAAGCAGTCGATTGTGGACACATTACATAAAGGTGTTCAAGGTTTGATGAAAAAAGGGAAGATTGATGTTTATGAGGGTTTTGGCCGGATCCTCGGTCCGTCCATCTTTTCACCAACGGCTGGTACCATCTCTGTAGAAATGAACAACGGAGAAGAAAACGAGATGCTCATTCCGAAAAACGTGCTCATAGCTACGGGGTCCAGTCCAAAAAGCCTGCCCGGTCTTGAAGTGGATGGAGAGTTTGTCATGACTTCAGATGAAGCGCTGAACATGGAAGAGCTGCCGTCTTCCATCATTATCGTCGGCGGTGGGGTGATCGGAATAGAGTGGGCTTCCATGCTTGCGGACTTCGGTGTGGACGTGACTGTTCTTGAATATCTTCCCCACATCCTTCCGACAGAGGATGAGGATATTTCCAGGGAAATGAAAAAACAGATGAAGAAAAAAGGTGTGGACGTCGTCACCAGTGCCAAGGTTCTTTCCGACACGCTTGAGACAGGTGAAGGCGTTACGATCCAGGCGGAAGTGGATGGAGAAAAAGTAACCTATCAGGCAGAGAAAATGCTTGTGTCGGTCGGGCGCGCAGCTAATGTGACCAACATCGGTTTGGAAAATACCGATATACAAGTGGAGAACGGCTTTATACAAACGAATGACTATTATCAAACAAAAGAAAGTCATATATACGCCATCGGTGATGTGATCGGCGGCATGCAGCTCGCTCACGTAGCCTCCCATGAAGGGATGACGGCGGTCGAGCATATAACAGATAAGCAGCCGCATCCTTTGAATCCCGAACAGATTCCGAGCTGTATTTATTCCAGTCCGGAGGCGTCCAGCGTTGGGCTGACGGAAGCACAGGCAAAAGAAAAAGGTTATAACATTAAAGTCGGTAAGTTTCCGTTCCAGGCCATCGGCAAGGCGCTCGTGCATGGGGAGACGGACGGATTTGTAAAAATCATCGCCGATAAGGAGACAGACGACCTGCTGGGTGTGCATATGATCGGCCCTCATGTCACCGACATGATTTCAGAAGCAGGGCTGGCCAAAGTTCTGGATGCAACCCCTTGGGAGATTGCTGAAACCATCCATCCTCACCCAACCCTCGCCGAGGCTGTCGGAGAAGCAGCCATGGCCGTTGATGGGAACCAGATCCACGGATAA	MAEEYDLVVLGGGTGGYVAAIRASRLGLKTAIVEKRELGGTCLHRGCIPSKALLRSAEVFKQTKEADSYGITVENPVLNFQKVQERKQSIVDTLHKGVQGLMKKGKIDVYEGFGRILGPSIFSPTAGTISVEMNNGEENEMLIPKNVLIATGSSPKSLPGLEVDGEFVMTSDEALNMEELPSSIIIVGGGVIGIEWASMLADFGVDVTVLEYLPHILPTEDEDISREMKKQMKKKGVDVVTSAKVLSDTLETGEGVTIQAEVDGEKVTYQAEKMLVSVGRAANVTNIGLENTDIQVENGFIQTNDYYQTKESHIYAIGDVIGGMQLAHVASHEGMTAVEHITDKQPHPLNPEQIPSCIYSSPEASSVGLTEAQAKEKGYNIKVGKFPFQAIGKALVHGETDGFVKIIADKETDDLLGVHMIGPHVTDMISEAGLAKVLDATPWEIAETIHPHPTLAEAVGEAAMAVDGNQIHG	PGPT0001380_4137	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
AK012_00890	1086	buk2	COG3426	Butyrate kinase 2	GTGCACACTCATCGAATCCTGGTTATAAACCCCGGTTCCACGTCAACGAAGATCGGTGTGTTTGATGACCTGGAAGCCGTCTTAGAAAAAACAATCCGCCACAGCGGAGAAGAAATCAATCAGTATAAACGCATTATCGACCAGTATGATTTCCGGAAGCAGGTCATCCTTGATGTCCTCGATCAGGAAGGGATCAATATAAGTAAGCTGAGTGCCGTCTGCGGAAGAGGCGGCCTCCTTCGTCCGATTGAGGGCGGCACATACGAAGTCAATGCCGCCATGCTTGAAGATTTGAAAAACGGCTATAATGGAGAACATGCCTCCAATCTTGGCGGCATCATTGCCTATGAGATCGCACGCGGACTGAATATAGGAGCCTATATCGTCGATCCGGTTGTTGTTGATGAACTTCAAGAGCTTGCCCGTGTTTCGGGTGTGCCGGAAATTCCGCGGAAAAGTATTTTTCATGCCTTGAACCAGAAGGCGGTAGCCCGCCGTGCCGCAGCAGATCTGGAGATGGAGTACCAGGATGTCCGGCTGATTGTCGCTCATATGGGTGGAGGGATTACTGTTGGTGCTCATATTGGAGGCCGTGTGGTTGATGTCAATAACGGCCTTCACGGCGATGGTCCTTTTTCACCTGAAAGAGCCGGTACCGTGCCAGCGGGAGACCTTGTATCCATGTGTTTCTCGGGACAGTATTACCGTGATGAAGTTATGAAGAAGCTTGTTGGACAGGGCGGGCTTATGGCGTATCTTGATACCAATGATGCCAGGGAAGTCGAAAGCATGATCGCCCATGGCGACAGAAAAGCAGAAGTCGTTTTCAATGCCATGGCTTATCAAATAGCCAAAGAAATAGGAAGCATGAGCGCGGTAATGGAAGGCCGGGTGGATGCCGTTGCATTGACAGGCGGACTGGCTTATGGAAAAGCCTTCATTGAAGAGATTTCCAAACGGGTTCATTGGATTGCTGATGTTCTCGTTTATCCGGGAGAAAATGAGCTGGAGGCCTTGAATGAAGGAACACTGCGCGTGTTGAACCATAAAGAGATTCCCAAGCAGTATCCGAATTTTCAGGAATAA	MHTHRILVINPGSTSTKIGVFDDLEAVLEKTIRHSGEEINQYKRIIDQYDFRKQVILDVLDQEGINISKLSAVCGRGGLLRPIEGGTYEVNAAMLEDLKNGYNGEHASNLGGIIAYEIARGLNIGAYIVDPVVVDELQELARVSGVPEIPRKSIFHALNQKAVARRAAADLEMEYQDVRLIVAHMGGGITVGAHIGGRVVDVNNGLHGDGPFSPERAGTVPAGDLVSMCFSGQYYRDEVMKKLVGQGGLMAYLDTNDAREVESMIAHGDRKAEVVFNAMAYQIAKEIGSMSAVMEGRVDAVALTGGLAYGKAFIEEISKRVHWIADVLVYPGENELEALNEGTLRVLNHKEIPKQYPNFQE	PGPT0001815_249	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001815-buk-K00929	NA	NA
AK012_00891	1104	ldh	COG0334	Leucine dehydrogenase	ATGGAAATTTTCAGCTATATGCAGGAATACGATTACGAGCAGTTGTTGTTTTGTCAGGATGAGCAGTCTGGTTTGAAAGCGATCATCGCGGTACATGATACGACCCTTGGACCTGCCCTCGGAGGCACGCGTATGTGGACGTATGCATCAGAAGACGACGCCGTTGAAGATGCTCTTCGTCTTGCCAAAGGGATGACCTATAAAAATGCAGCAGCGGGACTGAATCTTGGCGGAGGAAAAACGGTGATTATCGGCGATCCGAAAAAGGATAAAAATGAGGAAATGTTCCGTGCTTTCGGCCGTTATATTCAAGGGTTGAATGGAAGATACATTACAGCCGAAGACGTTGGAACAACGGTGCAGGATATGGATTTGATTCATGAGGAAACCGACTATGTCACAGGAATTTCCCCTGCCTTCGGTTCTTCCGGCAACCCTTCCCCGGTAACGGCCTACGGCGTATACCGCGGAATGAAGGCGGCCGCTAAGGAAGGCTTTGGATCGGATTCTCTGGAAGGCAGAACGGTTGCTGTGCAGGGTGTTGGAAACGTAGCCTTTACCTTGTGCCGTCATCTTCATGAAGAAGGTGCAAATCTGATTGTGACCGATATTAATAAAGAAGCAGTCCAGCGTGCTGTGGAGGAATTCGGAGCGAAAGCTGTAGAGACAGACGAAATTTACAGCGTGGACTGTGATATTTATGCGCCGTGTGCGCTGGGTGCGACCATCAATGATGAAACGATTCCACAGTTGAAAGCAAAAGTCATTGCAGGTGCAGCCAACAACCAGTTGAAGGAAACTAAACACGGCGATATCCTTCATGAAAAAGGCATTGTATATACACCGGATTATGTCATTAATGCGGGCGGCGTAATCAATGTTGCTGATGAACTTCACGGATATAACAAAGATCGTGCAATGAAACGCGTCGAAACGATCTATGATAACGTATCCCGTGTATTTGAAATATCCCGTCGTGATAATATTCCGACGTACCTGGCAGCTGATCGTATGGCGGAAGAACGCATTGAGCGTATGCGTCGTTCCCGCAGCCAATTCCTGCAGAACGGCCAGCATATCCTGAGCAGAAGACAGAACGGATAA	MEIFSYMQEYDYEQLLFCQDEQSGLKAIIAVHDTTLGPALGGTRMWTYASEDDAVEDALRLAKGMTYKNAAAGLNLGGGKTVIIGDPKKDKNEEMFRAFGRYIQGLNGRYITAEDVGTTVQDMDLIHEETDYVTGISPAFGSSGNPSPVTAYGVYRGMKAAAKEGFGSDSLEGRTVAVQGVGNVAFTLCRHLHEEGANLIVTDINKEAVQRAVEEFGAKAVETDEIYSVDCDIYAPCALGATINDETIPQLKAKVIAGAANNQLKETKHGDILHEKGIVYTPDYVINAGGVINVADELHGYNKDRAMKRVETIYDNVSRVFEISRRDNIPTYLAADRMAEERIERMRRSRSQFLQNGQHILSRRQNG	PGPT0020320_162	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
AK012_00892	903	pta_1	COG0280	Phosphate acetyltransferase	GTGAAATCTTTAGATGAACTGGTAGAAGCAATTGATCGAACCAATAGACAAACCGTGGCTGTAGCCCAGGCTGCTGATCTTGAAGTATTAAAAGCAGTGAAAATGGCGCTGGATCAGAAGCTGGCTCGTTTCGTCCTGACAGGTGAAGAATCCGCGCTGAAAAAGTGTGCGGCAGAAGCCGGATTATCGCTGGATCATTCAGATATCCATTGGAAACGGGCGGAGGCTGGAGAAAGTGCCCGCCTGGCTGTACAAGCTGTAGCTGAAGGAGAAGCGGATGTCCTCATGAAAGGGCATGTGGACACGAAGACGCTGCTTCAAGCTGTGCTCCATAAGGAATACGGTCTGAAAAAAAGAAAGGTTCTTTCCCATGTAGCTTTATTTGAAATTCCTGGAAGGGACCAGTTGATATACTTAACGGATGCGGCTATGAACATACAGCCGACTCTGGAAGAAAAAGTGGAAATTGTTCATAACGCAGTGGAAGTGGCGCGAAAAGCAGGATGGGATAATCCGAAGGTGGCTGCGCTGGCAGCTGTAGAGGCGGTCAACCCGAAGATGCCGGCATCTACAGATGCAGCCCTGCTGGCCCAGATGAACCGGCGCGGTCAAATCCGCGGCTGTGTCATTGATGGCCCTCTCGCTTTTGACAATGCGGTTGATAGAGAAGCAGCCGATCATAAGAATATTCAGTCGGAAGTAGCCGGACAGGCGGATATCCTTGTTGTACCTACAATCGAGACGGCTAATGCGCTGTATAAATCATTTGTTTATTTTGCCCATGCCAAAGTGGCAGGGGTGATCAGCGGAGCGGCCGCTCCGATCGTCTTAACTTCAAGGGCTGACGATGCCCAAAGTAAAATTTACTCGCTGGCTTTAGCATTAAAGGCCAGTCAATCTTAG	MKSLDELVEAIDRTNRQTVAVAQAADLEVLKAVKMALDQKLARFVLTGEESALKKCAAEAGLSLDHSDIHWKRAEAGESARLAVQAVAEGEADVLMKGHVDTKTLLQAVLHKEYGLKKRKVLSHVALFEIPGRDQLIYLTDAAMNIQPTLEEKVEIVHNAVEVARKAGWDNPKVAALAAVEAVNPKMPASTDAALLAQMNRRGQIRGCVIDGPLAFDNAVDREAADHKNIQSEVAGQADILVVPTIETANALYKSFVYFAHAKVAGVISGAAAPIVLTSRADDAQSKIYSLALALKASQS	PGPT0001810_258	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001810-ptb-K00634	NA	NA
AK012_00893	2142	norR_1		Anaerobic nitric oxide reductase transcription regulator NorR	ATGCTTGCTAAAATATGCAGATTGGTATACGATGAAATTACGCAAAATATTGCAGGGTGTGGTGAAATGAAAAGAGTATTGATTGTCGGAGCTGGCAAAGGCGGCGCGGCACTGTTGAAACTGCTCAGTCAAGTGGACCGGATGCAGGTAGTTGCTGTGACAGACATCAATTCGGACGCCCCTGGTCTTGCTCTTGCTGAATCCTACGGAATTCCAGCGGGCCGGTACTGGGAGGATTGGATACATAAAGAGATTGATATCGTCATTGAAGCGACTGGACAGGAACGTGTATTTCAGTCGATCCGGGAGAGGAGAGACGAAGGCACGGTCGTTATTCCTGGGTCGGTGGCTTATGTGACAGCTGAACTTCTCGAGGAGAAGGAAGCCCTCGTTCAGGAATTGAAAAGACAGACAGATAACCAGCATTTTATTCTAAACAGCATTCACGATGGTATGATCGTTGTTGATAACAGGGAGAACATTACATTCATCAACCCCAGTGCTGCCCGGATACTCGGCAGAAGTCATCAGGAAGTTCTCCATCGTCCTGTTCAAGAGATCATCCCGGCCTCCAGGCTGCCTTACACCATGGCATCAAAACACGAGGAAGTGAACAAAAAGCTGGAACTCGTAAACGGAAAAACGGTTGTAACGACAAGGATTCCAATGATCGACGAGGATGGGAGCGTCATCGGCGCCTATGCAGTTTTCAAGGATATTACAGAGGTGGTTCACCTGGCCGAGGAAGTTACCGATCTGAAAGAAGTAAAAACGATGCTGGAAGCTATTATACAATCGTCTGATGAGGCGATTTCTGTTGTAGATGAGAATGGAAGCGGTTTAATGGTAAATCCTGCATACACAAGGATTACCGGCCTGGCAGAAGAGGACATCGTAGGGAAGCCTGCGACTGTGGATATTTCAGAAGGGGAAAGTATGCATATGAAAGTCCTGCGAACCCGCAGGCCGGTGCGGGGCGTGCGGATGAAAGTGGGGCCTGCCCGGAAAGATGTCCTCGTCAATGTCGCTCCGGTCATTGTCGATGGGAAGTTAAAAGGGAGTGTCGGGGTTCTGCATGATGTGTCGGAAATAAAATCACTGACGAGTGAATTGAAGAGGGCCCGGCAGATCATCAGAAGTCTTGAAGCGAAATACACGTTTGATGACATTATCGGTGATTCCCCTGAAATGACCCTGGCGCTTGAGCAGGCCAAAGTAGGCGCGAGGACACCGGCATCGGTGCTTCTGCGTGGGGAATCCGGTACGGGGAAGGAACTGTTTGCCCATGCCATTCATAACGAAAGCGGCCGACGTCATAATAAGTTTATCCGTGTGAATTGTGCAGCGATCGCTGAATCCCTGCTTGAAAGTGAGTTGTTCGGGTATGAAGACGGTGCATTCTCCGGAGCGCGCCGCGGTGGAAAAAAAGGATTGTTTGAGGAAGCGGACAATGGCAGCATTTTTCTCGATGAGATTGGGGAGTTGACCCTTCCGATGCAGGCGAAACTTTTGCGTGTACTGCAAGAAAATGAAATGATTCGTGTGGGCGGTACTAAACCCGTTCATATTGATGTGCGCGTAATCGCAGCTACAAATATTAATCTGGAAAAAGCGATTATGAACAAAAATTTCAGAGAAGACTTGTATTATCGGCTTAACCGGCTTCCGATTTATATTCCTCCCCTGCGGGAGAGGGTCGGGGATATACATCTGCTGACCTCCCATCTGATTCAGAAGCTCAATGAGGATTATGGGCGTAATGTAACGTCCCTTGATGATGAAGCCTATCAGCATCTGAAGGACTATCCGTGGCCTGGAAACGTAAGGGAGCTTGAGAACATCATCGGAAGAGCGATGATTTACATGGAACATACGGAAGAGATCATCAAGCCTGAACACCTGCCCAGTCTGAAAAGACAGGAGGACTCCGTGGATCCCGGCCGGTCTGTCCCTGAGTGGGCGGGGGAGACCCTGCAGGCGGCTGTGGATGATTATGAAAAGAAACTCCTCGCTGAAGCCTATCGATCCCACGGGTTTAATAAGACCAAAACAGCGAAGGCTCTGGGGATTTCTATTAGAAACCTTTATTATAAGCTTGAAAAGTATGGGTTGGACAAAAAAAGCATGCAATATTTTTCATAA	MLAKICRLVYDEITQNIAGCGEMKRVLIVGAGKGGAALLKLLSQVDRMQVVAVTDINSDAPGLALAESYGIPAGRYWEDWIHKEIDIVIEATGQERVFQSIRERRDEGTVVIPGSVAYVTAELLEEKEALVQELKRQTDNQHFILNSIHDGMIVVDNRENITFINPSAARILGRSHQEVLHRPVQEIIPASRLPYTMASKHEEVNKKLELVNGKTVVTTRIPMIDEDGSVIGAYAVFKDITEVVHLAEEVTDLKEVKTMLEAIIQSSDEAISVVDENGSGLMVNPAYTRITGLAEEDIVGKPATVDISEGESMHMKVLRTRRPVRGVRMKVGPARKDVLVNVAPVIVDGKLKGSVGVLHDVSEIKSLTSELKRARQIIRSLEAKYTFDDIIGDSPEMTLALEQAKVGARTPASVLLRGESGTGKELFAHAIHNESGRRHNKFIRVNCAAIAESLLESELFGYEDGAFSGARRGGKKGLFEEADNGSIFLDEIGELTLPMQAKLLRVLQENEMIRVGGTKPVHIDVRVIAATNINLEKAIMNKNFREDLYYRLNRLPIYIPPLRERVGDIHLLTSHLIQKLNEDYGRNVTSLDDEAYQHLKDYPWPGNVRELENIIGRAMIYMEHTEEIIKPEHLPSLKRQEDSVDPGRSVPEWAGETLQAAVDDYEKKLLAEAYRSHGFNKTKTAKALGISIRNLYYKLEKYGLDKKSMQYFS	PGPT0001030_2335	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
AK012_00894	246			hypothetical protein	ATGCGCCTCATAGCATTACTGCTATTAGTTACTCCGGGTTTGATCGCCGTCTACGGCATAAAATTAATCCGTGATGCTCTGTTCGGAGAATTCCATGATCTTTATTTCCATATTGCCGTCCAGGGGCTGGCTGGTATTCTATTTTTCGCAGGCGGACTTGCGTTCATTGGAGGCTTTATTCTCCACCGGGACAGAAAAAGGAACTTGACTAAAGGAAGGTTCAAACAAACCAACTATCCAGAATGA	MRLIALLLLVTPGLIAVYGIKLIRDALFGEFHDLYFHIAVQGLAGILFFAGGLAFIGGFILHRDRKRNLTKGRFKQTNYPE				NA	NA	NA	NA	NA
AK012_00895	1908			hypothetical protein	GTGACAGAGTTTGAATTATTCAGGCAGCAGTACCCGTTTGACCTGTTGTCTGAGGAGGAATTCCAGGACGTTTTTGGAAAAGCTTCCGTAAAGGAATACAGTACCAATGAATTTATCATCCATGAAGACCAGGAAGATGATTCCATCGATATCCACTTCATGATCTCCGGCCTTGCCAAAAACATTATGCACCGTTCCAATGGACGGCAGTTATCTGTCCGCTTTTATTATCCCGGTGACTTAATCGGAGTCATGATTTTATTGACCAGTGGAGAAATGAGGTTCTCCGTACAGGCTCTTGAGCCGATAAAAACCATCTGTTTTGAACGCGAATCCTTCCTGAAAATCATGTCAAACAATACCCAGTTTTCCAAGGTGGTTATGGACGGGATCAGCCATCTGATGAAAAGCTTGTATGACGAGGTCAAATATAAAAGCTCCTCTACAGATGAGGAGGATGACCGTGAGTTGTATAAGAAAAGAGCAGACGCCTATATGGAACCTCCCACTTTCATCCATCCTCAGGCTTCCATAGAAAAAGCTGCCCGGATGCTGCAGCAGCAGAAAATCGAAGCCCTTATCGTGAGTGAGGATACAAGATCGATGCTCGGAATGATTGGATACAGCGAAATTTTGAAGGCCTACTTCGAAAACGATCACAATAACCCTGTCCGGGCCTATATGTCAGAAGAAGCGTATGAGATTAGTGAACAGGAATTCATCTATGACGCCCTTAGTTATTTGAAACACCACCCGACGGAAATCATTCCTGTCCTCCATAAGGACAAGGTCGTCGGCATTTTAAGGCAGTCATCGTTTTTCACCATTAAGAATTCCGTTTATTTTGATCTCACCTACAAAATATCCAACGCCGTAAGTGTGGAGGCAGTCAAGCCGCTGTCCCCGATTTACAATGAACGATTTCAGCAGTTCGTCCGCAGTTTGATCAAAGATAAAATGCTCGCGTATGATATCGCGGAATTAATGACGAACTACAACGACCGGATTCATAAGCAGATTGTCCAGATTGCGGAGGATGAAATGATCCGCGAAGGCTACGGAGCCCCGCCGGTCAATTATTGTTTTCTCGTTCTAGGAAGTGAAGGACGGAAAGAACAGGCCTTTTCCACGGATCAGGATAATGCGATGATTATGGCGGATTACGACAAGTCCAGGCACAAAAAGAAAATTGATGCTTACTTCTCCATTTTTTCCAAGAAGATCAACGATATGCTTAATGAATGCGGATATCCCTACTGCACAGGGGGGATTATGGCTAAAGAGGAAAAATGGAGAAAACAAACGAGTGAGTGGCACGCCGACATTGATCAATGGATCTCCAAGATGGATGCAGAAGAAATCCGCGACTTTACCATCTTCATGGATTTCAGACCGATCAGCGGGGATTACTCCCTGGCGTATGATTTAAAAAAATACGTGACTAAAAAAGTGCAGAAATCGTTGAACCTGCATCAGCTCCTGATGAAGGATACCCTCCGGTTCCGCGTACCTGTCCAGCCCTTCGGCAGAATTTCAGGCATTGGTAAAAAACGGACCTTGAATATTAAGAAATCGGCGATCATGCAGATTGTCAACGCCATACGCATTTACAGTATGAAATATGGAATTGAAGAAATAAATACAGTCAACCGCCTGGAAGCCCTGGCCGAACATGAACGTTTTCACCCCAGGGACGTGGAAAATGCCAAAACAGCCCTTCACAGGCTGATGCTTTTCCGCCTGCAGTCCAACCTTGATCAATTGGAGGAAGGGGACACCTTATCCAATGACCTGAAGCTTACCCCATTAAAGAAGGAAGAACGCCGCTCTCTGAGAGAAGCGCTTATTATCGCCAAGCGGCTGCAGCAGGTGCTTGAACTGAGTTATAACCGAAATCGGGTGGTTTGA	MTEFELFRQQYPFDLLSEEEFQDVFGKASVKEYSTNEFIIHEDQEDDSIDIHFMISGLAKNIMHRSNGRQLSVRFYYPGDLIGVMILLTSGEMRFSVQALEPIKTICFERESFLKIMSNNTQFSKVVMDGISHLMKSLYDEVKYKSSSTDEEDDRELYKKRADAYMEPPTFIHPQASIEKAARMLQQQKIEALIVSEDTRSMLGMIGYSEILKAYFENDHNNPVRAYMSEEAYEISEQEFIYDALSYLKHHPTEIIPVLHKDKVVGILRQSSFFTIKNSVYFDLTYKISNAVSVEAVKPLSPIYNERFQQFVRSLIKDKMLAYDIAELMTNYNDRIHKQIVQIAEDEMIREGYGAPPVNYCFLVLGSEGRKEQAFSTDQDNAMIMADYDKSRHKKKIDAYFSIFSKKINDMLNECGYPYCTGGIMAKEEKWRKQTSEWHADIDQWISKMDAEEIRDFTIFMDFRPISGDYSLAYDLKKYVTKKVQKSLNLHQLLMKDTLRFRVPVQPFGRISGIGKKRTLNIKKSAIMQIVNAIRIYSMKYGIEEINTVNRLEALAEHERFHPRDVENAKTALHRLMLFRLQSNLDQLEEGDTLSNDLKLTPLKKEERRSLREALIIAKRLQQVLELSYNRNRVV				NA	NA	NA	NA	NA
AK012_00896	741	dinG_4		3'-5' exonuclease DinG	ATGTTACCTGTTGACTTACAGATCATTAAGTATCTGCTTTTTGAAAAACCTTTATATTATTACAAAATTAAACCCTATTTAAAGTGGAATACGTATCACCAGCTGGAACAAAGGCTGAATGAGGCCGACAAAGAAGCATACTTCAAGGAACAGCCACTGTCCTCTCTGGATTTCACGATCTTCGATTTAGAGACGACGGGGTTTCTGCCTGAAATCGGGCATGAAATCATATCGATCGGAGCCATCCGCCTGAAAGGATTGGATGCCTGCCACCGGAAGACGTTTTATCAAGTGATCCGTCCGATCCGTCCTGTAAATAGACAGACTCTGCGATTAACAGGGCTGACCAAGGATCAGTTGAAAAACGCGAGCCCTTTCATCGAAGGATTTCAGAACTTCATGGAATTCAGCGAAGGTTCTGTTTTAGTCGCACATCCAGCCAAATTTGATATGCGTTTCCTTAAAACGATGCTGAAGCGCTGGAAGCTTCCGGAATATGATCCCCACGTTATTGATTCCCAGGTAATGGCCCAATGGCTCCTCCCTCACGTCAGGCATCAGCTCGACCCATTACTGAAGCATGTCGGTATCGAGAAGAGGCAGCGTCACCATGCCTTGAATGATGCCATAATGACTGCTGAATTGTTCCGTTTCCTGTTGGAGAAAACCGAACACCACGGTATCCAAACATTGCATGATTTATATAGACGGTTAGAAGGACAAAAAAAGACGAAGCCCTGA	MLPVDLQIIKYLLFEKPLYYYKIKPYLKWNTYHQLEQRLNEADKEAYFKEQPLSSLDFTIFDLETTGFLPEIGHEIISIGAIRLKGLDACHRKTFYQVIRPIRPVNRQTLRLTGLTKDQLKNASPFIEGFQNFMEFSEGSVLVAHPAKFDMRFLKTMLKRWKLPEYDPHVIDSQVMAQWLLPHVRHQLDPLLKHVGIEKRQRHHALNDAIMTAELFRFLLEKTEHHGIQTLHDLYRRLEGQKKTKP				NA	NA	NA	NA	NA
AK012_00897	1350	yclM	COG0527	Aspartokinase 3	ATGAAGGTCGTAAAATTTGGCGGCAGCTCCGTTGCCGATGCAGGACAGCTCGAAAAAGTGAAGAATATTGTTACAGCTGAAGAAGACCGGCGTGTCGTCGTCGTTTCCGCACCAGGGAAGCGATACAGCGGCGATCAGAAAGTAACGGATCTACTCATAAAGCTGGGGGAATCGATCCATAATGGAGAGGTCGACCATGATGTTTACAAAATGATCATCGATCGTTTCCAATCCATGGTTGATGAGTTGAATCTTCCGCTGGATGTACTGGAAGAAGTGAGAACACGTTTGGAATTCTCCATGGAACAGGTGCAAAAGAAGGAAGCCAAAGCGATCGATTCATTGAAATCTTGCGGGGAGGACGGATCTGCATTAATTTTAAGTGCCTATTTAAAACAGGAAGGGTATGAATCCTCCTATGTAAACCCGGAGGAAGCAGGTATCCTCGTCCGTGATGAGCCGGGCGGCGCCCTTGTACTCGAGGAAAGCTTCGAAAAGTTATACCGATTAAGAGAACGTCAGGAGATTCTTGTTATTCCTGGATTTTTCGGCTATACGCCGGAAGGAACTCTCGTGACATTCTCCAGAGGAGGATCGGACATCACCGGGTCTATTGTTGCTGCAGGACTGCAGGCGGAGCTGTATGAGAATTTCACGGACGTGGATTCGGTCTATTGTGTTAACCCAATGTTCGTGGATCAGCCGAAGGAACTGACATCCCTGACTTACAGGGAGATGCGTGAATTATCTTATGCCGGTTTTTCTGTTTTTCATGATGAGGCGCTCATTCCAGCATTTAAAGCTAGAATACCCGTCTGTATTAAGAACACGAATAACCCTTCAGCTCCTGGAACGATGATTACAGCCGATCTCCCTGACCGTGAGTCTCATGTTGTGGGGATTGCCAGTGACAAAGGATTTCTCAACTTATATGTCAGCAAATATTTAATGAACAGGGAGCTTGGCTTCGGCCGCAAACTGCTGCAGATTTTGGAAGATGAAGGTGTTTCATTCGAGCACGCTCCTTCTGGAATCGATGACATGTCTGTTGTGCTGAGAGATCATCAGCTTCCACCGGAGAAAGAGGAGATCGTTGTCCGGAGGATTAAGGAAGAGTTGAAGGTGGACACTATTATCATTGAACGGGATATGGCGATGATTATGATTGTAGGAGAAGGCATGAACCAGACGATCGGAATCGCCAGTCAGGCTGCCTGTGCCTTCAGAGAGGCTGATGTCAACATCGAGATGATCAACCAGGGGTCTTCGGAGGTTTCCATGATGTTCGGAGTGAAGACCGAGGGACTGGCCGATGCTGTTCAGTCGTTATATCACACGTTTTTTGAATGA	MKVVKFGGSSVADAGQLEKVKNIVTAEEDRRVVVVSAPGKRYSGDQKVTDLLIKLGESIHNGEVDHDVYKMIIDRFQSMVDELNLPLDVLEEVRTRLEFSMEQVQKKEAKAIDSLKSCGEDGSALILSAYLKQEGYESSYVNPEEAGILVRDEPGGALVLEESFEKLYRLRERQEILVIPGFFGYTPEGTLVTFSRGGSDITGSIVAAGLQAELYENFTDVDSVYCVNPMFVDQPKELTSLTYREMRELSYAGFSVFHDEALIPAFKARIPVCIKNTNNPSAPGTMITADLPDRESHVVGIASDKGFLNLYVSKYLMNRELGFGRKLLQILEDEGVSFEHAPSGIDDMSVVLRDHQLPPEKEEIVVRRIKEELKVDTIIIERDMAMIMIVGEGMNQTIGIASQAACAFREADVNIEMINQGSSEVSMMFGVKTEGLADAVQSLYHTFFE	PGPT0014040_1834	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
AK012_00898	273			hypothetical protein	ATGGTTTTGATGAATGACGGGTTCGGCGGCACACGATATTATCCAGAAAACAGCGAGATATCTGTCCTTTGCAGCTATTTTGATCAAGGACACAGATATGTCATTATTCAGTATTTGGACCTTCCTTTCAGTTACCGGCTGATTAACCTTGACGGCCTTGCCTTTGTAGATAAGGAAGCCCAGAACTTTTTAATGGATGAAATCCACTCCATTGACGCAGGCGTTTACGATAACGCAGAGCTTGCTGGACAAATTAAACAGTTAATGACATAA	MVLMNDGFGGTRYYPENSEISVLCSYFDQGHRYVIIQYLDLPFSYRLINLDGLAFVDKEAQNFLMDEIHSIDAGVYDNAELAGQIKQLMT				NA	NA	NA	NA	NA
AK012_00899	843	spo0A		Stage 0 sporulation protein A	ATGCCTGTCGAATACGTGTATTACGGAAATAAAGAGGACTACTCTCTTAAGGAGGAAAAAGGAATGGAAAAGATTCAAGTTTGTTTGGCTGATGATAACAGAGAGCTGGTAAAGCTTCTTGAAGAGTATTTTGAAGACACTCACGATATAGAAGTGGTCGGTACTTCGTACAACGGAAAAGATTGTCTGCAAATGGTCGAAGAGAAGAAGCCGGACGTGCTGATATTGGATATCATTATGCCACATCTCGACGGTCTTGCTGTATTGAACAAGCTGAGGGAGATGGACAAGCATCCCGAGGTGATCATGTTAACAGCGTTCGGACAGGAAGAAGTGACGAAAAAAGCCGTCGAACTTGGAGCGGCTTACTTTATGATGAAGCCTTTCGATCTTGACCACCTTGGAGAGCAGGTCCGTCAGATTAAACATGCGGGCGATCCAATCAACCGCGCCCTTGGCAGCAGTTATACCTCAACGAGATCGAAAAAACCGGATCTGGATACAAGCATCACCCATATCATTCATGAAGTAGGAGTGCCCGCTCATATTAAGGGCTATCAGTATCTCCGCGAAGCGATTACAATGGTTTATAAAGATTTGGAACTGCTCGGGTCTATTACGAAGGTCCTTTATCCGGATATCGCCACAAAATATAATACAACCGCTTCCCGCGTCGAAAGAGCTATCCGTCACGCCATTGAAGTCGCCTGGAACCGGGGCAATATCGATGCCATTTCCTCCTTGTTCGGTTATACGATTTCCAACACGAAAGCAAAACCGACAAACAGCGAGTTCATCGCGATGGTGGCAGATCGCTTACGCCTGGAGCATCGGGCAAGCTGA	MPVEYVYYGNKEDYSLKEEKGMEKIQVCLADDNRELVKLLEEYFEDTHDIEVVGTSYNGKDCLQMVEEKKPDVLILDIIMPHLDGLAVLNKLREMDKHPEVIMLTAFGQEEVTKKAVELGAAYFMMKPFDLDHLGEQVRQIKHAGDPINRALGSSYTSTRSKKPDLDTSITHIIHEVGVPAHIKGYQYLREAITMVYKDLELLGSITKVLYPDIATKYNTTASRVERAIRHAIEVAWNRGNIDAISSLFGYTISNTKAKPTNSEFIAMVADRLRLEHRAS	PGPT0014750_387	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014750-spo0A-K07699	NA	NA
AK012_00900	1227	spoIVB	COG0750	SpoIVB peptidase	GTGAAAAAACAAGCACTTAACTATATATGTGGTTCTGTTCTCCTGCTGTTTATGCTTATTTTGCCCTTTTACGCCCCCGTACAGCACTATCTGTCCATACCGGCAGAAGTAAAAGTCAGCGCAAGCCACGATGAACCTTCTGCAGATCAGGAAGCGTGGACGGCTTTTTCCTCCACGAATGATCACGAAGTGTTCTATGAGTTTGCAGGTGTACCGGTTAAGAAAACAACCCTTGAGAAGGTCAGGGATATCCGGTTGATCCCCGGAGGTCAGTCGGTAGGTGTTGAGCTTCATACGAAAGGTGTCCTTGTCGTAGGTCACCACATCGTGAACGGACAAGACGAACAACGAACATCGCCCGGAGAGCAGGCGGAAATCCAAATAGGTGACATTCTGCTTGAAGGGAACGGAGAAGAAATCAATAGTATGGAGAAATTATCCTCCATCGTAAAGGAAACCGGGGAAAGGAAAGAAGCCCTCGAACTGAAAATTAAACGGGGGAAGGAAATGACGACGGCAAGTCTGACCCCGTCCTATAACCCGAGGGAGAAGGAATATCAGATTGGTCTGTATATTCGTGACTCCGCGGCTGGAATCGGGACGATGACTTTTTATGATCCGGAAACAAAGAAGTATGGAGCCCTGGGTCATGTCATTTCGGATATGGATACGAAAAAACCGATTGAAATCCATGAAGGTACCATCGTCAAATCGCAGGTCACTTCCATTGAAAAAGGAGCGCAGGGTGTCCCCGGCGAGAAAAAAGCAAAGTTTTCCTTAAGAAACGACCGCCTGGGCATCATCACCAAAAACACGCCATTCGGCATTTTCGGTACACTGGATGATGATATGACGAATGAGGAATATCCCGAAGGACTTCCCATCGGTTTCGCTGAACAGGTGGAAGAAGGGCCGGCTCAGATCATGACGGTTCTTGATGGGGAGAAAATGCAGACCTTCGATGTAGAAATCGTCAGTAATATGCCGAAAAAATCAGCCGTGACTAAGGGCATGATTGTTAAAATCACTGATCCTGAACTGCTGGATAAAACGGGAGGAATCGTTCAGGGGATGAGTGGAAGCCCGATTATCCAGAATGGGAAAATCATCGGTGCTGTCACCCATGTATTCGTCAATGATCCGACAAGCGGATACGGTGTCCATATCGAGTGGATGCTGCAGGAAGCAGGCATTTCCCTTCATGAAGAAGAGAAGAAAGCAGGATAG	MKKQALNYICGSVLLLFMLILPFYAPVQHYLSIPAEVKVSASHDEPSADQEAWTAFSSTNDHEVFYEFAGVPVKKTTLEKVRDIRLIPGGQSVGVELHTKGVLVVGHHIVNGQDEQRTSPGEQAEIQIGDILLEGNGEEINSMEKLSSIVKETGERKEALELKIKRGKEMTTASLTPSYNPREKEYQIGLYIRDSAAGIGTMTFYDPETKKYGALGHVISDMDTKKPIEIHEGTIVKSQVTSIEKGAQGVPGEKKAKFSLRNDRLGIITKNTPFGIFGTLDDDMTNEEYPEGLPIGFAEQVEEGPAQIMTVLDGEKMQTFDVEIVSNMPKKSAVTKGMIVKITDPELLDKTGGIVQGMSGSPIIQNGKIIGAVTHVFVNDPTSGYGVHIEWMLQEAGISLHEEEKKAG	PGPT0024775_301	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024775-spoIVB-K06399	NA	NA
AK012_00901	1731	recN	COG0497	DNA repair protein RecN	ATGCTAACAGAGTTGTCTATTCGTGATTTTGCAATCATTGATGAGATCTCAATCACGTTCAAAGAAGGGTTGACTGTACTGACCGGTGAAACGGGGGCTGGGAAATCCATCATTATTGATGCGATTCAGCTTCTTTCCGGCGGACGGGGATCCGTTGAATTTGTTCGTCATGGAACAAAAAAGGCCGAAATTGAAGGGTTGTTTACAGTACAACCGGACCATCCGATCTATAAGGTCGGGCAGGATTACGGTGTGGATATTGATGAGGACGGTATGGTGGTACTTGAGCGGACCATTACCCATCAGGGGAAAAGCATCTGCCGGGTGAATGGAAAGCTGGTTACACTCGGAATCATGAGGGAGTTCGGACATTCCTTAATAGACATTCACAGCCAGCATGAGACACAGTCGCTTATGGACCCTGACCGGCACGTTGAACTTCTTGATGTTTTTGCCGGGGAAGAGCTCCGATCTGTGCTGGATGAATATGAAAGCGTTTATGACAAGTACAGGACAATGAAGAAGCGTTATAAGGAATTAAGTGAAAATGAACAGGAAATGGCTCAGCGGCTTGATCTGCTCGAATTTCAACTCCGTGAGCTTCAGGGAGCTGAAATGCAGCCGCTTGAAGATGATGAGCTTGCGGAAGAACGGAAGAAACTCATGAATTTCGAAAAGGTCTATCAAGGGATTCATGATGCTTATTACTCCTTGTACGGGGAGCAGCGTGGACTGGACTGGCTTAGTCATGCGATGACCTCTCTGGAAAGCACCTCGGATGTGGATGATAATCTGGCGAAGTTATCTGAAGAGATGACCAACACTTATTATCTGATGGAAGAGATGACTTTTAAGCTGAGTAACCATATGGCTGAACTGGAGTTTGACCCTGAGCGTCTCAACCAGATTGAGTCCAGGCTGAACGAGCTGAACCGTTTGAAGAAGAAATATGGGGCGACAGTGGATGATATGCTTCAGTATGCTTCCCGGATCGAAGAGGAGATCGATGAAATCCGCAACAAGGATTCTCATTTGAGCAAGATGGAGAATGAAATTGCAGAATTGTCTCAGGACGCCCTTCTTGAGGCACAGGGGATGCATGAAATTCGTGCGAAAGCTGCCGAACAGCTCGCCGAATTCATCCATGTAGAGCTGCGGGATCTTTATTTGGAGAAAGCAGCCTTTGCAGTCGATCTGCAGACGAAACCAGGTAGACAAGGCGATCCGGAGTTGGAAGGATCTCCTGTCCAGCTGCTTCCAAACGGCATCGACCTTGTGAAGTTTTTAATTACGACCAACCCGGGAGAACCGCTCAAAGAACTACATAAAGTAGCTTCCGGAGGAGAAATGTCCCGTATTATGCTGGCTTTAAAACGGATCTTCTCAAGACACCAGGGCATTACCAGTGTAATCTTTGATGAGGTGGACACGGGTGTCAGTGGAAGAGTGGCCCAGGCGATTGCCGAAAAGATTTACGGCATTTCTGAGGGTTCACAGGTGCTGTGTATTTCCCACCTTCCGCAGGTTGCCGCTATGGCCGATACACATGTCCGGATAGAAAAACGTGTGGAAGATGAGCGGACGTCGACAGCTGCCAAAGAGCTCTCTCTCGATGAAAAAGCAGATGAAATCTCCCGCATGATTACTGGAGCTGAATTGACAGCTACAACCGTCGAGCACGCGAGGGAACTGCTGACTATGGCCGATAAACATAAAAGTAAATCATCATGA	MLTELSIRDFAIIDEISITFKEGLTVLTGETGAGKSIIIDAIQLLSGGRGSVEFVRHGTKKAEIEGLFTVQPDHPIYKVGQDYGVDIDEDGMVVLERTITHQGKSICRVNGKLVTLGIMREFGHSLIDIHSQHETQSLMDPDRHVELLDVFAGEELRSVLDEYESVYDKYRTMKKRYKELSENEQEMAQRLDLLEFQLRELQGAEMQPLEDDELAEERKKLMNFEKVYQGIHDAYYSLYGEQRGLDWLSHAMTSLESTSDVDDNLAKLSEEMTNTYYLMEEMTFKLSNHMAELEFDPERLNQIESRLNELNRLKKKYGATVDDMLQYASRIEEEIDEIRNKDSHLSKMENEIAELSQDALLEAQGMHEIRAKAAEQLAEFIHVELRDLYLEKAAFAVDLQTKPGRQGDPELEGSPVQLLPNGIDLVKFLITTNPGEPLKELHKVASGGEMSRIMLALKRIFSRHQGITSVIFDEVDTGVSGRVAQAIAEKIYGISEGSQVLCISHLPQVAAMADTHVRIEKRVEDERTSTAAKELSLDEKADEISRMITGAELTATTVEHARELLTMADKHKSKSS				NA	NA	NA	NA	NA
AK012_00902	450	argR	COG1438	Arginine repressor	ATGAACAAAGGACAACGTCACATCAAAATCAGGGAACTGATCACAAACGACGATATTGAAACCCAGGATGAGCTGGTCGATCGATTGAAGGGTATGGGATACAATGTCACCCAGGCAACGGTATCCCGCGATATCAAAGAGCTGCATCTTGTAAAGGTGCCGATGATGGATGGCCGTTACAAATACAGTCTCCCTGCAGATCAGCGCTTCAATCCCTTTGAAAAGCTGAAACGGCTCATGATGGATGCCTTTGTCAGTATAGATCGGGCCGGACATTTTATTATTTTGAAAACACTGCCGGGGAATGCCAATGCTGTTGGTGCTCTAGTGGATAATCTTGAATGGGATGAAATTATGGGGACCATCTGCGGAGATGATACCTGCTTAATTATCTGCCGCAGTGAAGAACATACGGAGTCAATTAGTGAGCAGCTGCTAAATATGCTATAA	MNKGQRHIKIRELITNDDIETQDELVDRLKGMGYNVTQATVSRDIKELHLVKVPMMDGRYKYSLPADQRFNPFEKLKRLMMDAFVSIDRAGHFIILKTLPGNANAVGALVDNLEWDEIMGTICGDDTCLIICRSEEHTESISEQLLNML	PGPT0020105_1964	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020105-ahrC-K03402	NA	NA
AK012_00903	819	tlyA	COG1189	Hemolysin A	ATGGGCAGAAAAGTACGATTGGATGTATTACTTGTAGAAAAAGGGTATATAGAAACCCGGGAAAAAGCGAAACGAACCATTATGGCCGGTCTTGTATTTCATGAACAGGTCCGCCTCGATAAACCCGGCTTGAAGGTGGAGGAGGACTTGGAACTGACGGTTAAAGGTCGTCCTATTCCTTATGTCAGCCGGGGCGGTTTGAAACTGGAAAAAGCGTTGAAGCACTTTGACCTTTCTGTTAAAGATAAGATTATGATTGATATCGGATCTTCCACCGGAGGTTTTACGGACTGTGCGCTGCAGAATGGAGCTCGGCTGAGTTATGCTGTAGATGTGGGGTACAATCAACTCGACTGGCGTCTACGCAACCATGACCAGGTGGTTGTCATGGAGCGTACCAATTTCCGGTATGTGACGAAAGAAGATTTGACTCACGGACAGCCGCAGTTCGCTTCGATCGATGTCTCCTTCATTTCCCTCCGCATCATTCTGCCTGTCCTTGCTGAGATCCTGGAGCAGCAGGGAGATGTGGCAGCACTCATAAAACCACAGTTTGAAGCAGGCAGAGAACAAGTAGGGAAAAAGGGAATTGTGAGAGATCCCGCGATTCATAAAGAGGTTGTGAAAACAATTCTTGATTTTGCTTCCGATCACGGATATTCTGTTTATGGACTCACTTTTTCTCCGATTACCGGCGGGGATGGCAATATTGAATTCCTCGTCCACCTGCGGCTGGATCATGCCGGCAGCAAGGGAGAACAGGTGGATATCGATGCTGTAGTCAACGAAGCGCATGAAGCGCACAGCAGAAACGCATAA	MGRKVRLDVLLVEKGYIETREKAKRTIMAGLVFHEQVRLDKPGLKVEEDLELTVKGRPIPYVSRGGLKLEKALKHFDLSVKDKIMIDIGSSTGGFTDCALQNGARLSYAVDVGYNQLDWRLRNHDQVVVMERTNFRYVTKEDLTHGQPQFASIDVSFISLRIILPVLAEILEQQGDVAALIKPQFEAGREQVGKKGIVRDPAIHKEVVKTILDFASDHGYSVYGLTFSPITGGDGNIEFLVHLRLDHAGSKGEQVDIDAVVNEAHEAHSRNA				NA	NA	NA	NA	NA
AK012_00904	1893	dxs	COG1154	1-deoxy-D-xylulose-5-phosphate synthase	ATGGATCTGAGCAGAATCAACGACCCTTCGTTATTGAAGGATATGAATACGAAACAATTGGAAGAATTTGCAGCAGAAGTAAGACAGTTTTTAATTGAGAATCTCGCCACTACAGGCGGCCACCTCGGTGCGAACCTTGGAGTTGTAGAGCTGACGCTGGCTCTGCATAAAGTATATAACAGTCCTGTGGACCGCTTCATATGGGATGTCGGCCACCAGTCGTATATCCATAAAATTCTGACCGGACGTGGAGGGCAGTTTGATACACTCCGTCAATATAAAGGACTGTGCGGATTTCCGAAGCGGGATGAAAGTGAGCATGATGTATGGGAAACCGGACACAGCTCGACTTCTCTATCCGCTGCCATGGGAATGGCGATTGCACGGGACCTGAAAAAACAGGACCATTCCATTCTGCCTGTCATTGGTGATGGAGCCCTGACCGGCGGTATGGCGCTGGAGGCTCTGAACCATATCGGGCATGAGAAAAAGAATGTAACCGTTATCTTGAATGATAACGAAATGTCGATTGCTAAAAACGTAGGAGCCCTGCACGGGGCTCTCGGACGGATGAGAAGCGCCGGAAAATATAATCGTGCCAAAGATGATCTGGAATGGCTGCTGAAGAAGATTCCAGCTGTCGGCGGGAAGATTGCCCAGGCGGCTGAACGTTTGAAAGACAGTATGAAGTACTTCGTCGTTCCGGGCATGTTCTTTGAAGAGCTCGGATTCACGTACTACGGCCCTGTGGATGGACATGACTTTGAAGACTTGATGGAAAACCTGAACTATGCCAGAAAAACAGACGGCCCGGTCATCGTGCACGTGATGACGAAGAAAGGGAAGGGTTACCATCCGGCAGAAACCGATGTGAAGGATAAATGGCATGGTGTCGGCCCTTATAAGATTGAATCAGGAGAAAAAATCAAGCCTGTCAATGCACCGCCGGCATGGAGCTCCGTCATCAGTGATGCTCTAATTAAGAAAGCACACGGAGATGAGCGCATTGTCGCTGTTACACCTGCAATGATCCTTGGATCCAAGCTTGAAAAGTTCGGTGAGGAATTTCCTGATCGTTTGTTTGATGTGGGAATTGCCGAACAGCATGCGACGACGATGTCCGCCGGTCTTGCGACTCAGGGGATGAAGCCGTTTCTGGCCATTTATTCCACATTCCTGCAGCGAGGTTACGATCAGGTCGTCCATGATGTAGCCCGTCAGAAATTAAATGTGACTTTCGGTATCGACCGTGCAGGGCTGGTCGGTGCTGATGGAGAGACCCACCAGGGCGTCTTTGACATTGCGTTCCTAAGATCTGTTCCAAATATGATCATCAGCATGCCTAAAGATGAGAATGAAGCGCAGCACCTCGTCCATACAGCGGCAGAATACGATGAAGGTCCATTTGCGATTCGTTACCCGCGCGGCAACGCAAAAGGGATCGAAACGGATAAACAGATGAGGACCATACCTGTGGGCAGCTGGGAAGTTCTGAAAGAAGGTTCGGAAGCGGTTATTCTTACGTTCGGGACAACCATCGATATGGCGCTTGACGCAGCGGACCGTCTTGAAAAGGAAGGGCGCTCTGTACGGGTCGTGAATGCCCGCTACATCAAGCCGATGGACGAGTCTATGCTGCATGACATCATGAAGCAGGGCCTTCCGATTTTAACCGTAGAGGAAGCCGTTCTCCAGGGTGGATTTGGCTCAGCAGTGCTTGAATTCGCAGAGGAAAACAGCTATACCTCCCAGTGGGTGCGGCGTATGGGAGTTCCTGATCGTTTCATTGAACACGGAAGCGTACCAAAACTCTGGGAAGAAATCGGCCTGACTCCGGATAATATGGTGAAACACTTAAAAGAATTGATACCAACTAAACAGCAGAGGGCATAA	MDLSRINDPSLLKDMNTKQLEEFAAEVRQFLIENLATTGGHLGANLGVVELTLALHKVYNSPVDRFIWDVGHQSYIHKILTGRGGQFDTLRQYKGLCGFPKRDESEHDVWETGHSSTSLSAAMGMAIARDLKKQDHSILPVIGDGALTGGMALEALNHIGHEKKNVTVILNDNEMSIAKNVGALHGALGRMRSAGKYNRAKDDLEWLLKKIPAVGGKIAQAAERLKDSMKYFVVPGMFFEELGFTYYGPVDGHDFEDLMENLNYARKTDGPVIVHVMTKKGKGYHPAETDVKDKWHGVGPYKIESGEKIKPVNAPPAWSSVISDALIKKAHGDERIVAVTPAMILGSKLEKFGEEFPDRLFDVGIAEQHATTMSAGLATQGMKPFLAIYSTFLQRGYDQVVHDVARQKLNVTFGIDRAGLVGADGETHQGVFDIAFLRSVPNMIISMPKDENEAQHLVHTAAEYDEGPFAIRYPRGNAKGIETDKQMRTIPVGSWEVLKEGSEAVILTFGTTIDMALDAADRLEKEGRSVRVVNARYIKPMDESMLHDIMKQGLPILTVEEAVLQGGFGSAVLEFAEENSYTSQWVRRMGVPDRFIEHGSVPKLWEEIGLTPDNMVKHLKELIPTKQQRA	PGPT0008960_3043	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
AK012_00905	600			hypothetical protein	ATGGATAATAAATTAAAAAAAGCCGTAAATTTCAGTTTGAGCATCGCCGTTATCACATTTGTGTTAGCGGCTATTTTTTCAGTTATCTCATCTTCCGTTTTAAGTGGAGTCATGTGGATCATTGGACTAATCATTGTATTTATCATCGTATTTACCGGTGTAGTCTTTGATATGCTTGGTATAGCAGCTACAGCTGCTGAAGAGAAGCCTTTCCATGCAATGGCTTCGGAGAAGGTCCCGGGCTCCAAGGAGGCTATTGCGATTGTCAGAAATGCGGATCGATTCGCAAGTTTCTGTAACGACGTAATAGGGGATATATCTGGTATAGTTAGTGGTACGGCCTCCACTGTCGTCGTACTTCAGCTCGCTTCGAGTTTCGGGTACACAGAAGGGTCCGCCGTTCAGATTGGGATCAACGTGTTCCTTACCAGTATCGTGGCAGCTCTCACAGTGGGAGGAAAGGCACTTGGTAAATTCTTCGCCATCAATCATTCCACGCGGATTATCTTTTTTGCTGCCAGAGTGATTGCCTGGTTAGAAAACAAATTAAATGTAAGAATATTATCAAACATGATGTCGTCCACTAAAAAATCAAGATAA	MDNKLKKAVNFSLSIAVITFVLAAIFSVISSSVLSGVMWIIGLIIVFIIVFTGVVFDMLGIAATAAEEKPFHAMASEKVPGSKEAIAIVRNADRFASFCNDVIGDISGIVSGTASTVVVLQLASSFGYTEGSAVQIGINVFLTSIVAALTVGGKALGKFFAINHSTRIIFFAARVIAWLENKLNVRILSNMMSSTKKSR				NA	NA	NA	NA	NA
AK012_00907	879			Farnesyl diphosphate synthase	GTGGAGTTGAAAGCCTATTTATCAGATAAACAGTCATTCATTAATGAGCAGTTGAGGATGTATGTAAGGGACTATACGGTGCCCGGCAGACTGCAGGATTCCATTCTTTATTCGATAGAAGCAGGGGGTAAAAGGCTGCGGCCGATTCTGCTCCTTGCAACAGCCGAAGCCTTTGGAGCCCCGCCGGAAAAAGGGGTGACAGCCGCTGCTGCCCTCGAAATGGTGCATACGTATTCCTTGATCCATGATGATCTGCCGGCTATGGATAATGATGATTACAGACGCGGAATGCCTACCAACCATAAGAAATTCGACGAAGCGACAGCGATCCTTGCCGGAGATGCCCTCCTTACGATGAGCACCCAGCTGATTGCTGAAGATCCGTCTCTTGAACAAACAGAAAAAATATTTCTCATTCAAGAACTGACAAAGGCGGCCGGTCCGAGGGGCATGGTGGAAGGCCAGATGCAGGATATGCTGAGTGAAGGAAAAGAAATTTCTCTCGAGGCCCTTGAGAATATTCATAAAAACAAGACGGGTCGGTTGTTGGATTTTGCTATCTGCGCAGGGGCGAGGCTCGGAAATGCATCAGAAGAATCAATGGTGCAGATGAGTGAAATGGCAGAAGCTCTCGGTCTCATTTTCCAGATTCAGGACGACATCCTTGATGTTACCGGTGATGCAGAAGTGATCGGCAAACCTGTAGGCAGTGATGTAATCAATGATAAAAGCACCTATCCCGGTCTCCTTGGCCTGGATGGTGCTGTAAGTCAGAAGAACGATTACGTCGGAACCGCCCAGGCTGCACTGAAAGAAGCGGGTGTGGAAGGTACGGTTCTGTCACAACTTATTCACTATTTGAGCACACGTGATCATTGA	MELKAYLSDKQSFINEQLRMYVRDYTVPGRLQDSILYSIEAGGKRLRPILLLATAEAFGAPPEKGVTAAAALEMVHTYSLIHDDLPAMDNDDYRRGMPTNHKKFDEATAILAGDALLTMSTQLIAEDPSLEQTEKIFLIQELTKAAGPRGMVEGQMQDMLSEGKEISLEALENIHKNKTGRLLDFAICAGARLGNASEESMVQMSEMAEALGLIFQIQDDILDVTGDAEVIGKPVGSDVINDKSTYPGLLGLDGAVSQKNDYVGTAQAALKEAGVEGTVLSQLIHYLSTRDH	PGPT0007560_2466	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007560-crtE|ispA-K13789	NA	NA
AK012_00908	237	xseB	COG1722	Exodeoxyribonuclease 7 small subunit	ATGGAGGAAAATAAGCAGGAAATCAGTTTTGAAGAAGCCATGAATCAGCTTGAGGAAATTGTTGAGAAGCTGGAAACCGGCGAAGTTCCCCTTGAGAAAGCCATCCAGTACTACCAGGAGGGAATGAAGCTCTCGAAAGTATGCAGTGAGAAGCTGGGAACAGTGGAAGAGCAGATGCAGCAGATCATGAATGAACATGGGAACTTTGAGCCATTCACCGTACAGGAGGAAGAGTAG	MEENKQEISFEEAMNQLEEIVEKLETGEVPLEKAIQYYQEGMKLSKVCSEKLGTVEEQMQQIMNEHGNFEPFTVQEEE				NA	NA	NA	NA	NA
AK012_00909	1356	xseA	COG1570	Exodeoxyribonuclease 7 large subunit	GTGCAGGACCAGTATTTAACGGTAACGGCATTAACCAAATATATTAAGCGGAAGCTATCCGGCGATCCTCATCTGAAGACCGTGTGGCTGAGGGGGGAAATCTCCAACTTCAAACATCATTCGAGAGGGCATATGTATATGTCCCTGAAAGATGATCAGGCAAGGATTCAGTCCGTAATGTTTGCAGGAAGCAACCGCTCGTTGAAATTCATGCCTGAAAATGGGATGAATGTCCTTGTGAAAGGTGAAATCAACGTATATGAACCAATGGGCCAGTATCAGCTGTATATTAAGGAAATGCAGCCGGACGGAATTGGAGCTCTTTATTTTGCTTTCGAACAGCTGAAGGAGAAATTGGAGAAGGAAGGCTTGTTTGCGGAGGAACGTAAGAAAAAGCTTCCTACATATCCGAAACATATCGGCGTCATTACTTCTCCAACCGGTGCAGCTGTCAGGGACATCCTGACGACGATAAAGAGACGCTATCCGATCGTGCCGGTGTCCATCCTTCCCGTTCTCGTACAGGGGGAGCGAGCGGCAGCGTCGGTTTCAAATGCCATCCGGTACGCCAATGAGCATCTCGATTGTGATGTTTTAATCGTTGGTCGAGGTGGTGGGTCGATTGAAGATCTCTGGGGATTCAATGAAGAAATGGTCGCCCGGGCCATTGCAGAATCGACAATCCCCATCATCTCAGCCGTCGGCCATGAGACAGATACAACCATCAGCGATTTTGCAGCCGACCTGAGAGCTCCAACACCTACAGGAGCCGCAGAAGTGGCCGTGCCTTCCATTCAAGAACTAAGGGAGCAGGTGCAGCAGTTCAGGCAGAGACTGATAAGGTCAATGGATGGGCGACGGGCAGAATCGAGACAGAAACTGGACCGGTTGAAAAAATCCTACGCGTTCAAGTATCCGGAACAGCTGATGCGGCAGAAAGAACAGGATCTGGACCGAGTGCTGGAGCGTCTGTCGAGACAGATGAGCACGCAGCATTCCAGCCGCCGGGAACAGCTCAACTATCTCATCAAACGTCTGGAACAGCAGGGACCGGATAAAAAAATCAAGGAAGGAACCGAGGCGCTTCAAAGGGAGACGAAACAGCTTCAGAAAGCATTCGATACCATCGTTTCCCGTAAGAAAGATCGTTTTCGTTCCACGCTTGATAAACTAACACTGCTCAATCCACTGGAAATTATGAAACGCGGCTATGCCATTCCTTTTGATGAGGAAGATCAGGTCATTAAAAAGACAAGCCAGGTGTCAGAGGGAAGCCGTCTTTCCCTCAAGATCCAGGACGGTCTGATTCAATGTCAGGTTACATCGGTGAAGGAGGATGAAAATGGAGGAAAATAA	MQDQYLTVTALTKYIKRKLSGDPHLKTVWLRGEISNFKHHSRGHMYMSLKDDQARIQSVMFAGSNRSLKFMPENGMNVLVKGEINVYEPMGQYQLYIKEMQPDGIGALYFAFEQLKEKLEKEGLFAEERKKKLPTYPKHIGVITSPTGAAVRDILTTIKRRYPIVPVSILPVLVQGERAAASVSNAIRYANEHLDCDVLIVGRGGGSIEDLWGFNEEMVARAIAESTIPIISAVGHETDTTISDFAADLRAPTPTGAAEVAVPSIQELREQVQQFRQRLIRSMDGRRAESRQKLDRLKKSYAFKYPEQLMRQKEQDLDRVLERLSRQMSTQHSSRREQLNYLIKRLEQQGPDKKIKEGTEALQRETKQLQKAFDTIVSRKKDRFRSTLDKLTLLNPLEIMKRGYAIPFDEEDQVIKKTSQVSEGSRLSLKIQDGLIQCQVTSVKEDENGGK				NA	NA	NA	NA	NA
AK012_00910	852	folD	COG0190	Bifunctional protein FolD protein	ATGGCAGCAGAAGTTATTTATGGTAAGCAGTTAGCAGAAAATTTACGGGAAGAGATGAAGCAGGAGATCATCACTCTTCATGAAAAAGGTGTACACCCGAAGCTGGTTGTGGTCATTATCGGAGAGGATCCTGCATCTAAGTCTTATGTAAAAGGAAAGCAGCGGGCTTCTGAAAAAGTCGGAATGGATTCCGACCTTATTGAACTTCCTGAGGATACATCGGAGCAGGAACTTCTGGATTTAATCAGCCGGTTGAACCAGGATGATACGGTTCATGGTATTCTCGTGCAGCTTCCGGTTCCGGATCATATTTCCGACCAGAAAATAATTGAAGCGATTGACCCGAGCAAGGATGTCGATGGGTTTCATCCTGAAAACGTAGGCCGAATGCTGACAGGCCAGGATACCTTTTTCCCCTGCACACCATACGGCATTATGGTGATGCTTGAACGTGCAGCTATTGATGTAGAAGGAAAACATGCAGTCATTGTAGGTCGTAGTAATCTCGTCGGAAAACCTGTAGGGCAGCTTCTTCTGAATAAAAATGCCACAGTGACCCACTGTCACTCCCGGACAAAGGATTTAAAATCCCATACAAAACAAGCCGACATCCTGATTGTAGCGGCAGGCAGACCGGGGCTTGTGACCGGAGAGCATGTGAAGGAAGGGGCCGTCGTTATTGATGTCGGTGTCAACCGTGTAGACGGAAAGTTGACGGGCGATGTTGATTTTGAGTCAGCTCAGGAGGTGGCCTCCCACATTACTCCTGTTCCAAAAGGGGTCGGTCCGATGACCATTACCATGCTTCTCCACAATACCATTAAGGCGGCGAAGCGTATTCACCGCGTGTAA	MAAEVIYGKQLAENLREEMKQEIITLHEKGVHPKLVVVIIGEDPASKSYVKGKQRASEKVGMDSDLIELPEDTSEQELLDLISRLNQDDTVHGILVQLPVPDHISDQKIIEAIDPSKDVDGFHPENVGRMLTGQDTFFPCTPYGIMVMLERAAIDVEGKHAVIVGRSNLVGKPVGQLLLNKNATVTHCHSRTKDLKSHTKQADILIVAAGRPGLVTGEHVKEGAVVIDVGVNRVDGKLTGDVDFESAQEVASHITPVPKGVGPMTITMLLHNTIKAAKRIHRV	PGPT0008075_4659	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008075-folD-K01491	NA	NA
AK012_00911	378	nusB		Transcription antitermination protein NusB	ATGAAACGACGCACAGCACGAGAAAAAGCATTTCAGGCGCTTTTTCAGACGATTACTGAGGATATTGATACAGACGAGGCCATTCAGCATGTGGTAGAGGACCCGGAGGTGGATCCATTCCTGAACGATCTGGTCCACGGAGTCATGGACTACCGCGATGATCTCGATCAGTGGATCGCCGGCCACTTGGATAACTGGACCTTCCCACGGCTTCCAAAAGTGGAGAAAACCGTTCTTCGTATGGCCGCATACGAAATGAAGCATAACGAAGATGTCCCGACACAAGTAGCTATTAATGAAGCCGTGGAACTTGCTAAAATCTTCGGTGAAGAAGATTCCGGGAAGTTCGTCAACGGCGTTTTATCCAAGATGATCTAA	MKRRTAREKAFQALFQTITEDIDTDEAIQHVVEDPEVDPFLNDLVHGVMDYRDDLDQWIAGHLDNWTFPRLPKVEKTVLRMAAYEMKHNEDVPTQVAINEAVELAKIFGEEDSGKFVNGVLSKMI				NA	NA	NA	NA	NA
AK012_00912	408			putative protein	ATGACTGATAAACAATTGTTGAATGTGACAGATGGATCGACATTAGGCAATATTGAGATTGCTCCTGAAGTTATTGAAGTCATTGCCGGCATAGCCGTATCTGAAGTAGCAGGAGTTGCTTCGATGCGGGGGAACTTTGCCTCCGGTGTAGCCGAACGTCTAGGTAAGAAAAACCACGGCAAGGGTGTCAAGGTAGAGTTGACGGAAAGCGGCATTTTGATTGATGCCTATGTCGTTATGGGTTACGGCATCAGTATCCCGGATACGGCTCAGAAGATCCAGGACAATACCCGTCAGGCCTTGAAAAACATGACAGCTCTTGAAATCAGTGAAATCAATGTTCACATCGTCGGTATCCAAATGGACGGTACGAAAGAGGAAGAAAGCGAAACAGAAGCCTATTCATAG	MTDKQLLNVTDGSTLGNIEIAPEVIEVIAGIAVSEVAGVASMRGNFASGVAERLGKKNHGKGVKVELTESGILIDAYVVMGYGISIPDTAQKIQDNTRQALKNMTALEISEINVHIVGIQMDGTKEEESETEAYS				NA	NA	NA	NA	NA
AK012_00913	1359	accC_2	COG0439	Biotin carboxylase	TTGATTAAAAAAGTTTTGATAGCAAACAGAGGTGAGATTGCTGTCCGGATCATTCGCGCTTGTAAAGAGATGGGAATTGAGACGGTCGCCATTTACTCTGAAGCTGATAAAGAAGCCTTACACGTCCAGCTGGCAGATGAAGCCTATTGTGTTGGACCGACATTAAGTAAAGACAGTTACTTGAGCTATACCAATATTTTAAGTCTGGCTACGCTGACACAGACGGATGCGATCCACCCGGGATACGGGTTCCTTTCTGAAAACGCGGAGTTTGCGGAAATGTGTGAAGAATGCAACATCACCTTCATCGGTCCGTCCGCTTACGCCATTCAAAAAATGGGTACGAAGGATGTTGCCAGAGAGACGATGAGAGAAGCAGGGGTTCCGGTTGTTCCCGGTTCTGCGGGAATCATCAAAGGCGAAGAAGAAGGCTTGAAGGTGGCGGAGGAAATCGGCTATCCGGTCATCATCAAAGCTACAGCCGGCGGTGGAGGAAAAGGAATCCGCGTCGCCCGTAATGAAGAGGATTTGAAAACAGGGATCCGTATGACCCAGCAGGAAGCGGAAACGGCTTTCGGCAACCCGGGGGTCTATATCGAGAAATTCATTGAAGACTTCCGCCACGTAGAAATCCAGGTCCTTGCCGATAATCATGGAAACGCTGTTCACCTGGGCGAGCGCGACTGTACCATTCAACGGCGTCTGCAGAAGCTGATTGAAGAAACACCGTCTCCAGCTATTTCCGAAGAGATGAGGAAGAAGATGGGGGATGCGGCAGTTAAAGCAGCCCTTGCTGTTAATTATTCAGGAGCCGGTACGGTGGAGTTCATTTTCGATAAAGAAGCCAATTCCTTTTACTTTATGGAAATGAATACACGTATCCAAGTAGAGCATCCGGTTACAGAAATGGTGACAGGCGTGGATCTTATTAAAGAGATGCTGCTGATCGCCAACGATGAAAAGCTTTCCTTTAAACAGGAAGATATCGAATTTGAAGGCTGGTCCATTGAATGTCGGATCAACGCGGAGAACCCTTATAAAAACTTCATGCCTTCCGCAGGGAAAATTGATATGTACCTGCCGCCGGGAGGTCTCGGAGTACGTGTGGATTCAGCAGCTTATCCGGGCTATTCCATCCCTCCTTATTACGATTCCATGGTGGCCAAGCTTATTACGTACGGCCGTGACAGGGATGAAGCCATCCGCCGCATGAGACGTGCACTGGATGAATTTGTTGTAGAGGGTGTCCATACAACGATTCCGTTCCACCAGCGTATGATGGAGCATGAGGTTTTTGTAAATGGCGATTTCAACACCAAATTCCTCGAGAAATATACGATTATGAAAGATGAAGCTTAA	MIKKVLIANRGEIAVRIIRACKEMGIETVAIYSEADKEALHVQLADEAYCVGPTLSKDSYLSYTNILSLATLTQTDAIHPGYGFLSENAEFAEMCEECNITFIGPSAYAIQKMGTKDVARETMREAGVPVVPGSAGIIKGEEEGLKVAEEIGYPVIIKATAGGGGKGIRVARNEEDLKTGIRMTQQEAETAFGNPGVYIEKFIEDFRHVEIQVLADNHGNAVHLGERDCTIQRRLQKLIEETPSPAISEEMRKKMGDAAVKAALAVNYSGAGTVEFIFDKEANSFYFMEMNTRIQVEHPVTEMVTGVDLIKEMLLIANDEKLSFKQEDIEFEGWSIECRINAENPYKNFMPSAGKIDMYLPPGGLGVRVDSAAYPGYSIPPYYDSMVAKLITYGRDRDEAIRRMRRALDEFVVEGVHTTIPFHQRMMEHEVFVNGDFNTKFLEKYTIMKDEA	PGPT0001705_1667	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
AK012_00914	501	accB	COG0511	Biotin carboxyl carrier protein of acetyl-CoA carboxylase	ATGTTAAAGGTACAGGAAATCAGAGAAATCATTAAGCTGATCGATCAGTCTTCGATTGATGAATTCAGCTATGAAGCAAACGGGACGAAAGTTTCAATGAAAAAACAGCAGGAGCAGGTCGTTACAGAATCCGTACAGCCGCAGCAGCCCGTACAGGCGCAGCCGAAGCCGCAGGCTCAGGAGCCGGTGGAAAGCAGGGAAGCTGCTCAGGAGCCGGCTGCAGAGGAAGCGCCGAAAGCAGAAGCTTCTTCCAGCGATTATGATGCTGAAATCAAATCTCCAATGGTTGGGACGTTCTATGTATCGCCATCACCGGAACAGGATGCCTATGTGAAAGTCGGCGATGATGTCAAAGAGGATTCCGTTGTATGTATCGTTGAAGCTATGAAGCTTTTCAATGAAATTGAAGCGGAAGTATCTGGCGAGGTTGTAGAAATTTTGGCAAAAGACGGGGAACTTGTCGAATATGGACAGCCGTTGTTCCGAGTGAAGTCTAAGTAA	MLKVQEIREIIKLIDQSSIDEFSYEANGTKVSMKKQQEQVVTESVQPQQPVQAQPKPQAQEPVESREAAQEPAAEEAPKAEASSSDYDAEIKSPMVGTFYVSPSPEQDAYVKVGDDVKEDSVVCIVEAMKLFNEIEAEVSGEVVEILAKDGELVEYGQPLFRVKSK	PGPT0001700_653	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
AK012_00915	552	spoIIIAH		Stage III sporulation protein AH	TTGGTAAAAAAACAAACCGTTTGGCTTCTGACAATGTTGAGTCTTTTGATCGTGCTGAGTGTGTACTACATGACATCCCCGGATAATGGAGAGATGGCCTTCATTCAGGAAGAGGACTGGGCTGAAATGACGAATGAAGAGGCAGAAGGGGAAAACATTGAAACCGCAGGGGACGGTACGGTGATTTCTCAAATTTCCACGGACGAATTATTTTCAGCGATTCGTCTGGATATGAAAAACCAGCGGGATCAGGTTCAGGAGCAGCTTTCCGAGATTGTAGCGTCCAGTGATTTCACGACGGAAGAGAAAAATGAAGCTTTAGAGAAAATGGAAACCATCAAAACCAATCAATCAAAAGAATCCATCATTGAAAATACGATTCTGGCAAGCGCTCAGTATGATGATGTGCTCGTCCGCGCTGAAGATGATGTTGTGCACGTCACGGTGAAAGCTCAGGAATTATCCAAGGAAGAAACGAACCAGATCATCCAGATGGTCTCTGACGAATTCGGACATAAGCAGGTTCAGGTTCAATTCCAGCCTGCGGGATGA	MVKKQTVWLLTMLSLLIVLSVYYMTSPDNGEMAFIQEEDWAEMTNEEAEGENIETAGDGTVISQISTDELFSAIRLDMKNQRDQVQEQLSEIVASSDFTTEEKNEALEKMETIKTNQSKESIIENTILASAQYDDVLVRAEDDVVHVTVKAQELSKEETNQIIQMVSDEFGHKQVQVQFQPAG	PGPT0024755_301	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024755-spoIIIAH-K06397	NA	NA
AK012_00916	621			hypothetical protein	ATGAATAAATGGTGGAATAAGATCACTCTGTCGTCCGATAAGGAAGGAAAGAAGGTGAATAAGACCAAGTATTTGATAGGTCTTGGAATGATAGGAGTTCTAATCATTCTGGTCAGCAGCTGGTTCCAGCCGGATGCAGAGCCCCGTACCCCTCCTAAGACAGGGGATACGCAGGAGCAGGCTGTTTCAGAAACTTCTCCATCTCCAGAACAGACCGATTCCATCACACAGCTGGAAGGAGAGTATGAGAAGCAGCTCAAGCCCCTCCTCGAAAACATCCAGGGCGTTAGTGCTGTCGATATTATGATCAACCTTTCATCCACGCATAAGAAGGAGTATGACAAAAACTTAATTATAGGCAAGCAGAACACAAAAGAATCCGATAAGAATGGAGGAGAAAGAGAGATTGAAGATTATACGAGAGAACAACAGCTGGTTCTGGTCCGTCAAGGCGACCGCGAAGTTCCACTGCTTACTCAGACGTCCAAGCCTGAAGTGAGTGGTGTATTCGTAACCGCTAAGGGGGTTGATCAAATACAGGTGAAGGAATGGGTGGTTGAAGCTGTTTCCCGGGTGCTTGATGTACCGACACATAGAATATCAGTTCTGCCTAAACAATAA	MNKWWNKITLSSDKEGKKVNKTKYLIGLGMIGVLIILVSSWFQPDAEPRTPPKTGDTQEQAVSETSPSPEQTDSITQLEGEYEKQLKPLLENIQGVSAVDIMINLSSTHKKEYDKNLIIGKQNTKESDKNGGEREIEDYTREQQLVLVRQGDREVPLLTQTSKPEVSGVFVTAKGVDQIQVKEWVVEAVSRVLDVPTHRISVLPKQ	PGPT0024750_219	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024750-spoIIIAG-K06396	NA	NA
AK012_00917	606			hypothetical protein	ATGGAATTATTTATCGAGTGGATCACAAGAATCGTATTATTCCTTCTATTGGCGATGGTTGCTGATGCCCTGCTGCCATCCGGTGTCATGAAGAACTATGCCAGACTTGTCATGTCCATTTTACTGCTCCTCGTTTTTCTCGGCCCCCTGCTGCAGCTTTTACAGATCGACCCTGAACGCCTTCTGAAGTCGGCTGATCAGAAGATGGAAGAGCAGTGGGATACCGGAAGTTTGGATGACACTATTGAATCTAAGAAAAATGAAATACTGCAGGGACAAGATGCATATAAATTAGAACAAGTTACCGAAGCTCTATCTGCTGAACTTGCACCTTCGTTGAAAGAAGAGAAGGATGTCACGCTTCAGGATACGGCGATGACTTTTACTGGACAGCCATACAGCATGGAAACACTTGAAAAAGTAACCCTGACGATATCACGGAGCCAGGAGATGGGGGAAGTTGAGAATGTTGATATTTCCTTTATGGATGAGCCCTCACCAGTGGTTTCTCAGGAAGAAGATACAGAACTGGTGAAGTGGGTGGTCGGAAAACTGGACTTGAAACCTGAACAAATAGAAATCCGCTGGGAGGATCAGGATGAATAA	MELFIEWITRIVLFLLLAMVADALLPSGVMKNYARLVMSILLLLVFLGPLLQLLQIDPERLLKSADQKMEEQWDTGSLDDTIESKKNEILQGQDAYKLEQVTEALSAELAPSLKEEKDVTLQDTAMTFTGQPYSMETLEKVTLTISRSQEMGEVENVDISFMDEPSPVVSQEEDTELVKWVVGKLDLKPEQIEIRWEDQDE	PGPT0024745_243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024745-spoIIIAF-K06395	NA	NA
AK012_00918	1173	spoIIIAE		Stage III sporulation protein AE	ATGAAACGTCTATGGATGTGTCTGTGTGTGGGAATCATAGGTGGCTTTCTGTTTCCAGCGGCTTCTGCGGCATCTCCTGAAGCTCCGGAAACCACAGTTCCTCCTATGTCCGAATACATTTCAACCGACGATATGGAAGCAAATTGGGAGGAACTGCAGCACCAGTACGGGGACTATATGCCGACTTTTCAACACGACAATTTCAAGGAGTTTATTCAGAAAGAAGGAGCGCTGGAGTCCTCGGACTGGTATTCGGGCATCGTGGAGTTCTTCTTTCATGAACTTCTCTTGAATGGCCGGCTGCTTTCCTCATTATTATTTTTAACATTATTCAGCACACTGCTTCAGTCTGTACAGTCCGCTTTTCAAAATTCAGTAGTTAGTAAAGCGGCCTACATGGTCGTCTATCTGGTCCTGCTTACCCTGGCATTGGAAAGCTTCCGGCAGGTGATCGTCTATACGCTGGATGCTGTGGAGCGGATGAGCAGCTTTATGATCGGCCTCATCCCTCTTCTTCTCGGTATCATGGCTTCGTTTAGTCATTTAATGTCCATTTCATTCTTTCATCCCATCATTATCGCTCTCGTCCAGTCCAGCGGTCTGCTGGTGAAATACCTGCTCATCCCTTTATTTACATCATCCGCCCTTTTATTGATTGTCGGCAGTCTGAATGAGGATTTTAAGGTGGATCATTTAGCAGAACTGCTCCGGAAGACGGGAATGGCTGTTATGGGGATTTTCCTGACCGTTTTCCTGGGTGTTATTTCCGTTCAGGGGACGGTCACAGCTGTTCAGGACGGGATAACGATGAAAACGGCCAGGTTTGTGACGGGGAATTTTGTTCCTGTGGTTGGCCGGCTGTTTACAGATGCGACCGACACCATATTAGGAGCCTCTCTTGTATTAAAGAACACGCTTGGAATAGCAGGGGTGGTGATCCTTCTTGGAATTGCCGTCTTTCCATCGATCAAGGTCCTTGCGATTGCAATTATTTATAAACTGGCGGCTGCGCTGCTGCAGCCGCTTGGTGACGGCCCGGTCATCCACGCGATGGACGTAGTCAGCCGTCACATCTTCTATATTTTCGCTGCTCTGCTTATGGTTTCCATGATGTTTTTCCTCGTCATAGTCATTATGGTGGCGGCCAGTAATATCACAATGATGATCAGATAA	MKRLWMCLCVGIIGGFLFPAASAASPEAPETTVPPMSEYISTDDMEANWEELQHQYGDYMPTFQHDNFKEFIQKEGALESSDWYSGIVEFFFHELLLNGRLLSSLLFLTLFSTLLQSVQSAFQNSVVSKAAYMVVYLVLLTLALESFRQVIVYTLDAVERMSSFMIGLIPLLLGIMASFSHLMSISFFHPIIIALVQSSGLLVKYLLIPLFTSSALLLIVGSLNEDFKVDHLAELLRKTGMAVMGIFLTVFLGVISVQGTVTAVQDGITMKTARFVTGNFVPVVGRLFTDATDTILGASLVLKNTLGIAGVVILLGIAVFPSIKVLAIAIIYKLAAALLQPLGDGPVIHAMDVVSRHIFYIFAALLMVSMMFFLVIVIMVAASNITMMIR	PGPT0024740_279	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024740-spoIIIAE-K06394	NA	NA
AK012_00919	393			hypothetical protein	ATGGATATTATCCAGGTTGTTTCGCTGGGGCTCATCGCGGCTATGCTGATCATTCTGCTGCAGGAACAGAAATCTTCGGCCGCTTTTCTTCTTCTCCTTTTTACCGTCATCATTATTTTCCTGACCGTTCTCGATCAGCTGACCTATGTATTCACACTGCTTTCCTATATGGCTGATCAGGCGCAGGTGGAGCCGATGTATTTTAAAACGATATTAAAAATCATCGGTATTGCCTACATTGCTGAATTCGGTGCCCAGCTCATCCGGGATGCCGGTCTGAATGCTTTGGCATCGAAAGTGGAACTCGCCGGGAAATTATTCATTCTTATGCTTGCTATTCCAATTGTCACAGCTGTCATTGAAACCATACTTCAGTTTATACCCGGAGGTTAG	MDIIQVVSLGLIAAMLIILLQEQKSSAAFLLLLFTVIIIFLTVLDQLTYVFTLLSYMADQAQVEPMYFKTILKIIGIAYIAEFGAQLIRDAGLNALASKVELAGKLFILMLAIPIVTAVIETILQFIPGG	PGPT0024735_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024735-spoIIIAD-K06393	NA	NA
AK012_00920	207			hypothetical protein	GTGCTCCAAGATGCTACAATCCTTTTTCAAATAGCGGGAGTAGGAATTATCGTGGCCATGATTCACAGTATTCTAAAACAAATGGGAAAGGAAGAGATCGCCCAGGCTGTCACATTGACAGGATTCATCATTGTTTTGTTTATCGTCCTGCACCGTCTGGCTGACTTGTTCCAACAGATTAAATCTGTGTTTCTCTACCAGGGATAG	MLQDATILFQIAGVGIIVAMIHSILKQMGKEEIAQAVTLTGFIIVLFIVLHRLADLFQQIKSVFLYQG	PGPT0024730_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024730-spoIIIAC-K06392	NA	NA
AK012_00921	510	spoIIIAB		Stage III sporulation protein AB	ATGGAGTGGATGGGCGCCGTTATCATTCTAACCGTTACCACACTGGGCGGGTTTGAAATCGCATCAAGGTTCAAGAAAAGGCCTGGTCATATCAGGCAGTGGAAGAACGCACTCCAGTTGATTGAAGCGGAAATGGTTTATGGTCAATCTTCTCTCTGGGAGGTGTGTGACACCTTATCAAGGCATCTGCCAATGCCTGTGGCAGGATTTTTTGAGCAGCTGCAAAAGGAGCAGGATGGATGCCGGGAATTTGCTGTTTTATGGGAGTCCATGATGAAAAAACATTGGCCGTGGAATGCCATGGGTAAAACAGAATTGGAAATTCTGCTTCAGTTTGGCCGGACACTCGGTCAGCACGATCTCGAGCAGCAGCAGAAACAGATCCAGTTGACGATCCACCATTTGGACAGAGTGCTTCAGGAAGCATTGGAAGTAGGAGAACAGTATCAGAAAATGGCCAGAGGAATGGGGGTTTTAAGCGGTCTTCTAGTCATCATTCTTATTATATAG	MEWMGAVIILTVTTLGGFEIASRFKKRPGHIRQWKNALQLIEAEMVYGQSSLWEVCDTLSRHLPMPVAGFFEQLQKEQDGCREFAVLWESMMKKHWPWNAMGKTELEILLQFGRTLGQHDLEQQQKQIQLTIHHLDRVLQEALEVGEQYQKMARGMGVLSGLLVIILII	PGPT0024725_337	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024725-spoIIIAB-K06391	NA	NA
AK012_00922	978			hypothetical protein	ATGAAAGAGATTTTACGTCTGTTTCCGCCTTCGTTTCAGAAGGTTTTACTAGAGAAGGTGGGTTGGGGGAAGGTACAGGAAATCCGTTTAAGGGTGGACCGTCCTATAGAGGTGATCAGCAGTTCTGGTTATTCCGTTTTAGAGTCTCTGCCGGTGACTGCGGATCATCTCTCCTACGTATTGAATCAAATCAGTCAATTCTCACTCTATCGATTCAAAGATGAGTTAAAAGAGGGGTTCATTACCATTGAAGGCGGTCACCGTGTAGGTCTCGCAGGTAAAGCGAATACACAGGAGGATAAAGTCGAAACGTTGAAGCATATCTCTTTTATGAACATCCGTGTCGCTCGATCGACGAAGGGGCAGGTATCCTCGCTGCTTCCCCACCTTTATGACGAAAAGGGTTGGAGGAGTGCCTTAATCATAGGGCCCCCCCATTCCGGTAAAACGACACTGCTTCGTGAGCTGGCGTCTGTGATTGGATCCCCCACTGGTTCATACCCTTCCTCCAAAGTTGCAGTCGTGGACGAACGGTCGGAAATAGCTGCCAGTTTACGGGGGGTTCCACAGCTGGATGTCGGCGCACGCACGGATGTGATGGATGCCTGTCCAAAAGCTGACGGCATGATGATGATGATTCGGTCTATGTCTCCGGATGTCCTAATTGTCGATGAAATCGGTGGGGAAAAGGATGCACGTGCTGTCCAGGAAGCTGTTTATACAGGAGTGAAGGTCATCTGCAGCATTCACGGTACCGGGGTTGAATCTGTGAGCCGGAGACCCTCTGTTTCGGGGCTCCTGCACGACCAGGTATTTGAACGTTATATTAATCTGGAACGTCTATCTGCAGGGTCGGCCATTACATGGAAAGTGTATAACCATGTTGGACAAGTTCTTGGTGAAGGAGAAGGAGGGCGGATGGATGGAGTGGATGGGCGCCGTTATCATTCTAACCGTTACCACACTGGGCGGGTTTGA	MKEILRLFPPSFQKVLLEKVGWGKVQEIRLRVDRPIEVISSSGYSVLESLPVTADHLSYVLNQISQFSLYRFKDELKEGFITIEGGHRVGLAGKANTQEDKVETLKHISFMNIRVARSTKGQVSSLLPHLYDEKGWRSALIIGPPHSGKTTLLRELASVIGSPTGSYPSSKVAVVDERSEIAASLRGVPQLDVGARTDVMDACPKADGMMMMIRSMSPDVLIVDEIGGEKDARAVQEAVYTGVKVICSIHGTGVESVSRRPSVSGLLHDQVFERYINLERLSAGSAITWKVYNHVGQVLGEGEGGRMDGVDGRRYHSNRYHTGRV	PGPT0024720_145	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024720-spoIIIAA-K06390	NA	NA
AK012_00923	558	efp		Elongation factor P	ATGATTTCAGTAAACGATTTTCGTACAGGATTAACAATTGAAGTAGATGGTGGAATCTGGCAGGTTATGGATTTCCAACACGTAAAACCAGGAAAGGGTGCCGCTTTTGTACGTTCGAAGCTTCGTAACCTTCGTAACGGAAACATCCAGGAAAAAACGTTCCGCGGCGGAGAAAAAGTAGAACGTGCTCACATTGAAAACCGTAAAATGCAGTACCTATACGCCAACGGTGACATGCACGCATTCATGGATATGGAAACGTATGAGCAGGTTGAGATTCCTTCTGCAACCATTCAGGAACAGCTGAATTACTTGAAGGAAAACATGGAAGTGCAGATTCAGTCTTATCAGGGAGAAACGATTGGCGTTGAGCTTCCGAAGAACGTTGAACTGAAAGTAACAGAAACAGAACCGGGAATCAAAGGTGATACGGCAAGCGGGGGTACGAAACCTGCGACGCTTGAAACAGGATTAACGGTTCAGGTGCCTTTCTTCATTAATGAAGGAGAAGTCCTACTCATCAGCACAACAGACGGCAAGTATGTCTCCCGTGCGTAA	MISVNDFRTGLTIEVDGGIWQVMDFQHVKPGKGAAFVRSKLRNLRNGNIQEKTFRGGEKVERAHIENRKMQYLYANGDMHAFMDMETYEQVEIPSATIQEQLNYLKENMEVQIQSYQGETIGVELPKNVELKVTETEPGIKGDTASGGTKPATLETGLTVQVPFFINEGEVLLISTTDGKYVSRA	PGPT0016205_4710	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016205-efp-K02356	NA	NA
AK012_00924	1065	ypdF	COG0006	Aminopeptidase YpdF	ATGACAAAATTGACAGGACTGCGCACAGCAGCTGCGACAAAGGAACTGGATGCACTATTGATCACCAGTGCGAAAAACCGACGCTACCTTTCCGGCTTTACAGGTTCTTCAGGAGCTCTGCTCATTACAGATCGTGATGCTTTTCTAATTACGGATTTCCGATATACCAAGCAGGCGGCTGATCAGGCGGAAGGTTTTGATATCATCGAACATAAGCGTCCGCTTCACGAAGAGGCAGCGGCAAAAGCCAAAGAACTTGGATTGAAACGGATCGGCTTTGAAAAAGATCATGTTACATATTCATCCTACGAGCAGTACAAGCAGGTGATGGATGCTGAACTGGTGCCGACTTCAGGGCTCGTGGAAAAATTACGCTTGATTAAGACCGATGAGGAGATTAGTATATTAAAGGATGCTGTTAAGATTGCCGATGATGCTTTTGACCACATTCTAAGCTACATAAAACCAGGTGTGAAGGAAATTGATATTTCCAACGAACTGGAGTTTTTCATGAGGAAGCAGGGAGCCGTTTCCTCCAGCTTTGACATTATTGTAGCGTCCGGTTACCGTTCAGCCCTTCCGCACGGCACAGCATCGGAAAAGGAGATTCAATCCGGTGAGCTTGTCACCATGGATTTCGGTGCTCTCTATAAAGGGTATTGTTCTGATATTACGAGGACGGTCGCTGTTGGTGAGATCAGTGATCAGTTGAAAGACATTTATGATACGGTTTTACAGGCGCAGTTAAGAGGTATGGAAGGTATTAAAGCAGGCATTACCGGTAAGGAAGCGGATGCTTTGACCCGTGACTATATTAAGGAAAAAGGATACGGGGACTATTTCGGACACTCCACAGGCCACGGCATCGGTCTTGATGTTCATGAAGGTCCGGGGCTTTCCTTCCGTTCTGACCAGACCATTCTGGAGGAAGGAATGGTCGTCACTGTGGAGCCGGGGATCTATGTTCCGGATGTCGGCGGCTGCCGTATTGAGGATGATACGATCGTAACGAAGACCGGAAACGAGCGTTTGAGTCAATCAACGAAAGAGCTAATTACTTTGTAA	MTKLTGLRTAAATKELDALLITSAKNRRYLSGFTGSSGALLITDRDAFLITDFRYTKQAADQAEGFDIIEHKRPLHEEAAAKAKELGLKRIGFEKDHVTYSSYEQYKQVMDAELVPTSGLVEKLRLIKTDEEISILKDAVKIADDAFDHILSYIKPGVKEIDISNELEFFMRKQGAVSSSFDIIVASGYRSALPHGTASEKEIQSGELVTMDFGALYKGYCSDITRTVAVGEISDQLKDIYDTVLQAQLRGMEGIKAGITGKEADALTRDYIKEKGYGDYFGHSTGHGIGLDVHEGPGLSFRSDQTILEEGMVVTVEPGIYVPDVGGCRIEDDTIVTKTGNERLSQSTKELITL	PGPT0006770_6935	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
AK012_00925	456	yqhS	COG0757	3-dehydroquinate dehydratase	ATGGAAAAAAAGAAGATTTATTTATTAAATGGACCGAACTTGAACCGTCTCGGTATCCGGGAGCCCGGTACATATGGCACCGGTACGCTTGAGGATGTGGTCAGGCTCGTTTCAGAGACCGCACAGAAAGCCGGCTTCGAGGTGGAGGCGTACCAATCCAATCATGAGGGCGATCTTGTGGACTGGATTCACCAGGCCGACGCATCTGCAGACGGGATCATCATGAACCCTGCTGCTTACACTCATACGAGTGTAGCCCTGCGGGATGCGGTGAGTTCCGTTTCCTTACCAGTCATAGAAATCCACATTTCCAACGTCCACGCGAGAGAAGCTTTTCGGCATACGTCGATGCTGGCTCCTGTATGCGCTGGACAGATTGTAGGATTCGGGATGGATGGATATCGTCTGGCGGTAGAAGGGTTGATTCATAAGCTGAATGAGAGAGGAGATCGATAA	MEKKKIYLLNGPNLNRLGIREPGTYGTGTLEDVVRLVSETAQKAGFEVEAYQSNHEGDLVDWIHQADASADGIIMNPAAYTHTSVALRDAVSSVSLPVIEIHISNVHAREAFRHTSMLAPVCAGQIVGFGMDGYRLAVEGLIHKLNERGDR	PGPT0012905_1086	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
AK012_00926	573			hypothetical protein	ATGAAAGCAGGCATGAAAAAATGCGGGTTGGTTAAAATGAGGACAGAGGTGATGGAGATGGCAGAACAAACAAAAGATCAACGGAAACAAGAGCCGAGGCAGAGTGTAGCCACTAAGGCGGCAGCTACAGGTTTTGCCGGCGGGCTTCTATGGAGTGCACTGGGGGCCGGAGCCTATTATTTTCATTTTTCGGAAGTCTCAGCAGCATCCTTTATATTCCGTTCCTTCTGGCAGACAGACTGGACAGGAACGTGGCTTGCAGAAGTTCTATCGGTGCTGATTGTTGCACTTCTTTCGATCGGCACAGCGTTCGTGTACTACTTTACTCTAAGATCAAGAAAAGGCATATGGCCCGGCGCGGTTTTCGGGCTGCTTCTTTGGGGTGTGGTCTATTTCGTGTTGACACCTGTATTTCCGGCGATTCCCGGATTCATGGAACTGAGCAGTGACACGTGGGTGACCACGGCCTGTTTGTTTATCTTATACGGTGTGTTTGTAGGGTATTCCATATCTTATGAGTATCATGAATTTAATCAAACAGCAGATTCTTATTCAAATAAGGAAGGAGTATGA	MKAGMKKCGLVKMRTEVMEMAEQTKDQRKQEPRQSVATKAAATGFAGGLLWSALGAGAYYFHFSEVSAASFIFRSFWQTDWTGTWLAEVLSVLIVALLSIGTAFVYYFTLRSRKGIWPGAVFGLLLWGVVYFVLTPVFPAIPGFMELSSDTWVTTACLFILYGVFVGYSISYEYHEFNQTADSYSNKEGV				NA	NA	NA	NA	NA
AK012_00927	405			hypothetical protein	ATGCGTAACTGGATGACACCAGTCATGTACATTTTGATCGGGCTTGCCATTTTCTTCGTAGGCGTTCAGCTGTTCACCAATACATCAGGTTTCTTAATTAACATAGTGATTATGATCGGGATGGCGGCTATCCTGTATGGAGCCATCTACTACTTCTTCCTCCGCGGCCGCGGATTTAGTGGAGGCTCCGGCAACCGCACAGAAATGAAAAAGTACAAACAGGCCGTAAAACAATCCAAACAAAAGTACAAACAGCCCGCTCCAGCTATTAAGAAAAGCCCCGCTGCCAAGACAGCTGTCAAATCAGCTCCATTTACACGCAAAAACCGCAGAAGAACAAACGGGCCGCAACTCCGGGTCATTGAAGGAAATAAAAACAAAGACAAAAATCGAGCCTCTTTTTAA	MRNWMTPVMYILIGLAIFFVGVQLFTNTSGFLINIVIMIGMAAILYGAIYYFFLRGRGFSGGSGNRTEMKKYKQAVKQSKQKYKQPAPAIKKSPAAKTAVKSAPFTRKNRRRTNGPQLRVIEGNKNKDKNRASF				NA	NA	NA	NA	NA
AK012_00928	888			hypothetical protein	GTGAATGTAGATGGGGTATTCTCCGGAGGCGGGGTGAAAGCACTCGCTTTTATCGGAGCGGTCGAGGAACTGCAGAGTCAAGGCTACGTTTTCCGACGGGCAGCCGGTACTTCTGCGGGAGCGATTTTAGCTGCATTAACAGCCTCCGGCTACACGGCGGAGGAAATCAAATCACGCCTGATGTCCATGTCGTTTGAAGAATTAATCCATATCCCTCTGACGGACCGCGTCTTCCCCTTCATGAAATGGTTGTTTCTGTATTACCGCCTCGGCCTTTACAATGGGGCTCAGATGGAAACCGTACTGGCGCAGTGGCTGGAAGAAAAAGGGGTTCGGACGTTTGCCGATCTACGGCCGGGGTCGTTGAAAATTATCTGCTCGGATCTTACTTTAGGAAGAATTGTCGTTCTCCCGGATGATCTGAAGAGCACCTATGGCATTGACCCGGCAACGTTTTCCGTTGCGAAGGCTGTACGAATGAGTTCGAGTCTTCCTTATTTCTTTATTCCTGTGAAAATTCATGGAAAGCGTGGGAAATCGGTGATTGTCGATGGAGGGGTCTTAAGTAATTTTCCTTTATGGATATGGGAAAAGCAGGATGGGTGCCGGAAGAGACCTGTCATCGGCTTGAAGTTAAGCGACGAACCGGATAAGCTTCCCGAACAGAAAATCAGAAACGCCATCCAAATGTTTCATGCCCTGTTCAAAACGATGCAGCGCGCTCACGACTCCCGCTATATTTCCAAATCCATCAGTAAAGATATTCTCTTTATCCCTGTAAGTGGAATAGAAACGACCGATTTTCATATGACCCATGAAGAAAAAGAACATTTAATGAATTATGGGCGCCAGCATGCATTGGAATTTTTAAAAAGATGGACAAAATAA	MNVDGVFSGGGVKALAFIGAVEELQSQGYVFRRAAGTSAGAILAALTASGYTAEEIKSRLMSMSFEELIHIPLTDRVFPFMKWLFLYYRLGLYNGAQMETVLAQWLEEKGVRTFADLRPGSLKIICSDLTLGRIVVLPDDLKSTYGIDPATFSVAKAVRMSSSLPYFFIPVKIHGKRGKSVIVDGGVLSNFPLWIWEKQDGCRKRPVIGLKLSDEPDKLPEQKIRNAIQMFHALFKTMQRAHDSRYISKSISKDILFIPVSGIETTDFHMTHEEKEHLMNYGRQHALEFLKRWTK				NA	NA	NA	NA	NA
AK012_00929	432	mntR	COG1321	HTH-type transcriptional regulator MntR	ATGCCAACACCAAGCATGGAAGATTATATTGAACAAATTTATATACTCATAGAAGAAAAGGGTTATGCCCGCGTCTCGGATATTGCTGAGAACCTGGATGTCCACCCCTCTTCCGTGACGAAGATGGTCCAGAAACTTGATCGCGATCAGTATTTGAATTATGAAAAATACAGAGGGTTGATTCTGACCCCGAAAGGGAAAAAGGTCGGGAAACGGCTGGTCTATCGTCACGAGCTTCTGGAACAGTTTCTGGAGCTGATCGGCGTGGATAAGGAAAATATTTATGAGGATGTCGAAGGCATTGAGCACCACATGAGCTGGAATTCCATCGACCGGATCGGCGACCTTGTCCAGTTCTTTCATGAGAATGAAGGATATGTCGAGGCCTTGCGGGAAGTGCAGAAAAAAACGGAAGAACAGAATAACGAATAG	MPTPSMEDYIEQIYILIEEKGYARVSDIAENLDVHPSSVTKMVQKLDRDQYLNYEKYRGLILTPKGKKVGKRLVYRHELLEQFLELIGVDKENIYEDVEGIEHHMSWNSIDRIGDLVQFFHENEGYVEALREVQKKTEEQNNE	PGPT0003895_53	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-IRON_UPTAKE_REGULATION,PGPT0003895-mntR|dtxR|ideR|sirR|troR-K11924	NA	NA
AK012_00930	2571			hypothetical protein	ATGCAGACAACAACTTCTAAAGATGTGCATACAAAAATCAACGTAGACCGGCTGAACGCCGATATCAGACAGTTCCCCCAGGTACACCCGGTTACGGATACGATGTCCATTACCCATAAGGGAGTATCCAGGCTGGTCATGCTGGACCGATATGCGTTTAAAGATACAGAAAAACTGACGTTGTCTGAAGGAGACTTTGTCGTACTTACAGTAAAGGACGATCCCAAGTTCCCGGCACGCGGCTTCGGCTTTATCCAATCCATTGACTGGCAGGCCCATGAGGCATTTGTAAAAGTGGAAGATGAATTTGTGAATGTGCTCGACCGCGAGGAAGAAAGGGAGACCGGCGTAATCAAAAGGAATCTGGATACAATCGATAAGCCGATGGAAGTGTATTATGAACAAATTGCTCTAAGAAATGCGACCGGACTTTCAGAGGTTGAAACAGATCCGGAAAGACAGGCGCAGAGCTTTGAGGAATTTTATGAGGAACTATCCAGCCTGAACTTCATCCCTGCCGGCCGTGTCCTTTACGGGGCAGGGTCGAATACGGATGTCACGTACTTCAACTGTTATGTTATGCCCTATATCCAGGATTCACGGGAAGGGATTTCCGATCACCGGAAACAGGTTATGGAAATCATGTCCCGCGGCGGCGGCGTTGGTACGAACGGATCCACTCTGCGTCCGAGAAATACGCTTGCCCGCGGGGTAAACGGAAAGTCATCCGGTTCGGTTTCCTGGCTCGATGATATTGCGAAGCTGACTCATCTGGTCGAGCAGGGAGGATCCAGACGTGGTGCCCAGATGATTATGCTGGCAGACTGGCATCCGGACATACTTGAATTTATTATTTCCAAGATGCAGAACCCGCGCATCCTCCGCTTCCTGATCGAAAACACGGAAGACGAAACGATTAAACAGCTTGCCAAAGACAAGCTGAAATTCACGCCGTTGACCGAAGTGGAAAAGGACCTTTATCAGAGTGTCGTCAATTACAAACACATTCAAGGTCAGGGTGGTTTTACAGATCAAAGCGTGCAGGAAGCACAGGAAAAACTGGCTCTTGGAGGCACGTATACTGTTCATAACTCCGAGTTCCTGACAGGTGCCAACATTTCTGTCTGTATTACGAATGAGTTCATGGAAGCGGTGGAGAACGATGCAGAATACCAGCTCCGTTTCCCGGATGTGGAGAATTACACAGCAGAGGAAATGAACGCCTATAACGAAGAGTGGCAGGAAAGCGGCGATGTACGTGAATGGGAAAAACGCGGCTTCGGTGTACGGACATACAAATCCGTTAAAGCGAAAGAGCTGTGGAATCTGATCAATGTCTGTGCGACCTATTCAGCAGAACCGGGCATTTTCTTCATTGATAATGCCAACGAAAAAACGAACGCCACTGCTTATGGACAGAAAGTTGTAGCGACCAATCCATGCGGGGAACAGCCGCTTGCACCGTATTCCGTCTGTAACCTGGCAGCGGTCAACCTCGCGTCTGTAGCAGATAAGGAACATAAGACCGTTGACTTTGAGAAGCTTACTCAAACGGTAAAACGCGGCGTCCGTATGCAGGATAACGTGATTGATGCGACCCCGTACTTCCTGGAAGAAAATAAAGTGCAGGCTCTTGGTGAGCGTCGTGTCGGTTTGGGTGTCATGGGTCTCCACGATCTATTGATTTATTGTGAAACGACCTATGGCTCAGAAGAAGGCAACAAACTGGTGGATGAAATTTTTGAAACCATTGCAGTAACAGCTTACCGTGCATCCATCGAACTGGCGAAGGAAAAAGGGAGCTTCCCGTTCCTTGTAGGAGAGACGGATGAGGAAACACAACAGCTTCGTGAAAACTTCATTCAGACGGGATATATGAAACAGATGCCTGAAGACATCCGACAGGATATCCTGACCTATGGAATCCGTAACTCCCATCTCTTAACTGTAGCCCCTACAGGAAGTACAGGAACGATGGTGGGAGTTAGTACGGGACTGGAGCCATATTTCTCCTTCTCCTACTACCGCAGCGGTCGTTTAGGGAAGTTTATCGAAGTGAAGGCGGACATTCTGCAGGAGTATCTGGATGCTCATCCAGAGCAGGATCCTGAACAGCTTCCTGAATGGTTTGTAACGGCCATGACGATGTCTCCGGAAGCTCATGCGGATACGCAGTGCGTCATTCAACGCTGGGTGGACAGCAGTATTTCCAAAACGGTCAACGCACCGAAGGGATATACAGTAGAGCAGGTGGAGAATGTTTATCAGCGCCTGTACCGCGGCGGAGCCAAAGGGGGTACGGTGTACGTGGATGGAAGCCGTGACAGCCAGGTGCTCACTTTGAAAGCGGAGGAAAATGCTTTTGATGGGGAGCAGACGGAACTGTTTGAAGAGGACAAGAGCCCCCGCGTGGTCCTTGTCGATACGGTACATGAACTGGATAAGACGAACGTGACGATTGGTTCGGAAGTTGGTGACACCTGCCCGGTCTGCCGTCAGGGAACCGTAGAAGACATCGGCGGATGTAATACGTGCACTAATTGTAATGCCCAGTTGAAGTGCGGATTGTAA	MQTTTSKDVHTKINVDRLNADIRQFPQVHPVTDTMSITHKGVSRLVMLDRYAFKDTEKLTLSEGDFVVLTVKDDPKFPARGFGFIQSIDWQAHEAFVKVEDEFVNVLDREEERETGVIKRNLDTIDKPMEVYYEQIALRNATGLSEVETDPERQAQSFEEFYEELSSLNFIPAGRVLYGAGSNTDVTYFNCYVMPYIQDSREGISDHRKQVMEIMSRGGGVGTNGSTLRPRNTLARGVNGKSSGSVSWLDDIAKLTHLVEQGGSRRGAQMIMLADWHPDILEFIISKMQNPRILRFLIENTEDETIKQLAKDKLKFTPLTEVEKDLYQSVVNYKHIQGQGGFTDQSVQEAQEKLALGGTYTVHNSEFLTGANISVCITNEFMEAVENDAEYQLRFPDVENYTAEEMNAYNEEWQESGDVREWEKRGFGVRTYKSVKAKELWNLINVCATYSAEPGIFFIDNANEKTNATAYGQKVVATNPCGEQPLAPYSVCNLAAVNLASVADKEHKTVDFEKLTQTVKRGVRMQDNVIDATPYFLEENKVQALGERRVGLGVMGLHDLLIYCETTYGSEEGNKLVDEIFETIAVTAYRASIELAKEKGSFPFLVGETDEETQQLRENFIQTGYMKQMPEDIRQDILTYGIRNSHLLTVAPTGSTGTMVGVSTGLEPYFSFSYYRSGRLGKFIEVKADILQEYLDAHPEQDPEQLPEWFVTAMTMSPEAHADTQCVIQRWVDSSISKTVNAPKGYTVEQVENVYQRLYRGGAKGGTVYVDGSRDSQVLTLKAEENAFDGEQTELFEEDKSPRVVLVDTVHELDKTNVTIGSEVGDTCPVCRQGTVEDIGGCNTCTNCNAQLKCGL	PGPT0021340_2051	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
AK012_00931	381	glpE_1		Thiosulfate sulfurtransferase GlpE	ATGGAATTATGGATCTTACTCGGAGCACTTGTTCTGCTCATTGCTTTCGGTTTGTATAGATTCTTCAAGACAAGAAAAATATTGAACACCATATCTGAAGAAGAATTCCGCCAGGGCTACCGCAAGGCTCAGCTGATCGATGTCCGCGAACCCAAGGAATTTGACGGGGGACACATCCTCGGGGCCAGAAATATTCCGCTCTCACAGCTGAACAACCGCCTCGTAGAAATCCGCAAGGACAAGCCGGTCTACTTATACTGCCAAAGCGGCGCGCGCTCTGCACGTGCGGCTATGACCCTTCATAAAAAAGGGTACAATGACCTCAATATGCTTGAAGGCGGGTTCAAGAAATGGACCGGCAAAATCAAGACGAAGAAGTAA	MELWILLGALVLLIAFGLYRFFKTRKILNTISEEEFRQGYRKAQLIDVREPKEFDGGHILGARNIPLSQLNNRLVEIRKDKPVYLYCQSGARSARAAMTLHKKGYNDLNMLEGGFKKWTGKIKTKK	PGPT0001770_460	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK012_00932	1461	gcvPB		putative glycine dehydrogenase (decarboxylating) subunit 2	ATGGCTAATCAAGACTTTCCATTAATTTTTGAATTGAGTCAGGAAAGCCGGACAGGATTCAGTCTTCCTGAACTGGATGTGCCGGATACCGATATTGATGAGATGTTTGATGGTGCATATGTGAGGCAGGATGCTCCTCATCTGCCGGAGGTTAGTGAGCTGCAGATTATGAGGCATTACACAGGCCTGTCCAAGCGTAACCACGGGGTGGACTCCGGTTTTTATCCTCTTGGGTCGTGTACGATGAAATACAACCCGAAAATGAATGAAGATGCAGCCCGGCTGGCCGGGTTCAGCCATATCCATCCTTATCAGCCTGAGGAAACGGTTCAGGGCGCCCTCCATCTCATGTATGATCTTCAGGAATCCCTGGCGGAAATTACCGGTATGGATACCGTAACGCTTCAACCAGCGGCAGGAGCTCACGGCGAATGGACAGGACTTATGATGATTCGTGCGTTCCATGAAGCGAATGGAGATGATCAGCGGACGAAGGTCATTGTTCCGGATTCTGCCCACGGTACAAACCCTGCTTCTGCCACGGTCGCGGGATTTGAAGCGGTCACGGTAAAATCAGACGCGAGGGGTCTCGTAGATCTTGAAGACCTCAAGCGCGTCGTAGACGATCAAACGGCCGCGCTTATGCTTACAAATCCGAACACACTCGGCCTTTTCGAGGAGGATATCGAGGAAATGGCGTCGATTGTTCATGAAGCGGGTGGCAGGCTGTACTATGACGGCGCTAACCTTAATGCCATTTTAGGATATGCAAGGCCGGGGGATATGGGCTTTGATGTCGTTCACTTGAACCTGCACAAGACCTTTACCGGCCCTCACGGCGGTGGAGGACCAGGCTCCGGCCCTGTTGGTGTCACCTCAGAGCTTGAGCCGTTTCTTCCAAAGCCGATTCTTACGAAAAGAGAAGGGCGCTATCAGTTCGATGATGAACGTCCCCGTTCCATCGGGCGTGTGAAGCCTTATTACGGAAATTTCGGTATCAATGTCCGTGCTTACACGTACATCCGGACCATGGGGCCGGAAGGGTTGAAAAAAGTAAGTGAATACGCCGTTATGAATGCCAACTATATGATGCGCAGGCTGCAGGCAGCTTTCGATCTTCCTTTCGACAGACACTGTAAGCACGAGTTTATCCTGTCCGGCCGTCGTCAGAAAAAACTCGGGGTGCGGACACTGGATATGGCCAAGCGTCTGCTTGACTTCGGTTACCATCCACCGACCATCTATTTCCCGATCAACGTGGAGGAGGCGTTGATGATTGAGCCGACGGAAACGGAGTCCAAGGAAACTCTGGATGATTTTATTGACCGCATGCTTCAAATAGCCAAGGAAGCAGAAGAAGAGCCGGAAACGGTTCAGGATGCTCCTCATACAACGATTGTGAGCCGTATGGATGAGACACAGGCGGCACGGAAGCCTGTGCTGCGTCATCCGATGGAATAA	MANQDFPLIFELSQESRTGFSLPELDVPDTDIDEMFDGAYVRQDAPHLPEVSELQIMRHYTGLSKRNHGVDSGFYPLGSCTMKYNPKMNEDAARLAGFSHIHPYQPEETVQGALHLMYDLQESLAEITGMDTVTLQPAAGAHGEWTGLMMIRAFHEANGDDQRTKVIVPDSAHGTNPASATVAGFEAVTVKSDARGLVDLEDLKRVVDDQTAALMLTNPNTLGLFEEDIEEMASIVHEAGGRLYYDGANLNAILGYARPGDMGFDVVHLNLHKTFTGPHGGGGPGSGPVGVTSELEPFLPKPILTKREGRYQFDDERPRSIGRVKPYYGNFGINVRAYTYIRTMGPEGLKKVSEYAVMNANYMMRRLQAAFDLPFDRHCKHEFILSGRRQKKLGVRTLDMAKRLLDFGYHPPTIYFPINVEEALMIEPTETESKETLDDFIDRMLQIAKEAEEEPETVQDAPHTTIVSRMDETQAARKPVLRHPME	PGPT0020490_827	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020490-gcvPB-K00283	NA	NA
AK012_00933	1350	gcvPA		putative glycine dehydrogenase (decarboxylating) subunit 1	ATGGAATTTCGATATTTGCCTATGACAGAAACAGATAAAAAAGAAATGCTTGAGACCATCGGTGTCCAAAAATCCGAGGAATTGTTTGCTGATATTCCTGAACGCGTACGGTTTCAAGGCGATTTGAATATTAAACCGCCGAAAAATGAATATCAGTTAATGAAAGAGCTGTCGGATATGGCAGGTCAAAACGTCAACCTGAAGTCGCATACGTCTTTTCTGGGAGCCGGGGTTTATGATCATTACATTCCTTCCATTGTAGATCACGTCATATCCAGGTCTGAATTTTATACCGCTTATACTCCCTATCAACCCGAGATATCCCAGGGAGAGCTGCAGGCCATCTTTGAATTTCAAACGATGATCTGTGAATTGACCGGCATGGATGTCGCCAACTCTTCTATGTATGATGGCGGAACGGCGCTGGCAGAGGCTGTTAACCTTGCAGCCGGACAGACGAAAAAGAAGAAGGTTCTTGTATCCAGGGCAGTGCACCCGGAATCTCTTGCGGTCATCCATTCCTACGCAAAGGGTCCCGGGGTGGAAATCGTTGAAATCGATCATAAAGAGGGGCTGACGGACCTTGAACAGCTGGAACAACACCTCGATGAAGATACAGCCGGCGTTGTCGTTCAATATCCGAACTTCTTTGGCCAGGTGGAGCCGCTCGAATCCATCCGCAGCCTGGTGGACCAGCAGAAAAAAACGATGATGATTACTTCAAGCAACCCCCTTGCCCTCGGTTATTTAACACCTCCGGGCACATTTGGCGCTGATATCGTTGTCGGTGATGCTCAAGTGTTCGGTATCCCTGCCCAGTACGGGGGACCGCACTGCGGTTATTTTGCCACAACGAAAAAACTGATGAGAAAAGTGCCGGGCAGGCTTGTCGGTCAGACGGTGGATGAGGATGGACGACGGGGCTTTGTCCTGACGCTCCAGGCTCGTGAGCAGCACATCCGTCGTGACAAGGCGACTTCCAACATCTGCTCCAACCAGGCATTGAATGCGCTGGCTGCTTCGGTCGCTTTGTCATCTATAGGGAAACAGGGATTGAAAAAGATGGCAGCGATGAATATTAAGAAGACGTTATACATGAAGCAGCAGCTTCAAGCACAAGGGATCGACGTTTTGTATAAGGGCGCCTTTTTCAATGAGCTTGTCATCCGTTTGAAGAAACCGGTGAAAGAAATAAATCAACGGCTTTTGGAGAAAGGCTTCATCGGTGGGTATGATCTTGGACGAACAGATGAACGGCTGTCCGACTGTATGCTGGTTGCTGTTACAGAAATAAGGACAAAAGAAGAAATCGACACCTTTGCAGAGGAAATGGGGGATTTGAATGGCTAA	MEFRYLPMTETDKKEMLETIGVQKSEELFADIPERVRFQGDLNIKPPKNEYQLMKELSDMAGQNVNLKSHTSFLGAGVYDHYIPSIVDHVISRSEFYTAYTPYQPEISQGELQAIFEFQTMICELTGMDVANSSMYDGGTALAEAVNLAAGQTKKKKVLVSRAVHPESLAVIHSYAKGPGVEIVEIDHKEGLTDLEQLEQHLDEDTAGVVVQYPNFFGQVEPLESIRSLVDQQKKTMMITSSNPLALGYLTPPGTFGADIVVGDAQVFGIPAQYGGPHCGYFATTKKLMRKVPGRLVGQTVDEDGRRGFVLTLQAREQHIRRDKATSNICSNQALNALAASVALSSIGKQGLKKMAAMNIKKTLYMKQQLQAQGIDVLYKGAFFNELVIRLKKPVKEINQRLLEKGFIGGYDLGRTDERLSDCMLVAVTEIRTKEEIDTFAEEMGDLNG	PGPT0020485_534	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020485-gcvPA-K00282	NA	NA
AK012_00934	1101	gcvT	COG0404	Aminomethyltransferase	TTGACAGAACTGAAACGAACACCTTTATATTCTGAGTATGAAAAGCTTGGGGCGAAGACTATTGATTTTGGAGGATGGGACCTGCCGGTGCAGTTCTCCGGTATTAAGGAAGAGCACGCAGCTACAAGAAATGCTGCGGGTCTATTCGATGTTTCCCATATGGGGGAAATCCTGGTCAAAGGTCCCGAGAGTCTGGCTTTTCTCCAGAAAATGCTTACAAACGATGCTTCAAAGCTTGAGCCCGGAAAAGCGCAGTACACGATTATGTGCTATGAAGACGGCGGGACAGTGGATGATTTAATCGTTTACCATCTTGAGGAAAACACGTATCTGCTAGTCGTCAATGCGGCAAACCGGGAAAAGGATTTTGAATGGCTGGAGCGTCATGCCGGCGGAGACGTTTCCGTTGTGGATGTTTCTGATGCCTATGTTCAACTGGCTGTCCAGGGCCCGGAAGCAGAAAAGGTTCTACAGAAACTTACACGAACCGATTTGTCTGCAATCAAGTTTTTCCGGTTTGAGCAGAACGTTTCCCTGGAAGGTGTTCAGGACAGCGCGATTGTCTCCCGGACGGGTTATACAGGCGAAGATGGTTTTGAAATCTATCTTCCTGCAGCTTCGGGCCCGGAGCTCTGGCAGGCTCTCTTAAAAGCGGGAGAGCCGGAGGGGCTGCGTCCGATTGGTCTCGGTGCAAGGGACACCCTTCGTTTTGAAGCGAATCTCGCCCTTTATGGTCAAGAACTGAGCAGAGACATTACACCCATAGAAGCAGGGTTGAACTTTGCGGTCAAGATAAAGAAAGAAGAGGATTTCATAGGAAAGGACGTCCTTACCAAACAGAAGAAAGAAGGACCTGAACGCAAGCTGGTCGGTATTGAAATGATAGATAAAGGCATTCCTCGTACCCATTATGAAGTATATAACGAAGATGAAAGGATTGGATTTGTCACAACAGGCACCCAGTCACCGACGTTGGGGAAAAATGTCGGACTTGCTCTTCTTAACCGTGCGTATGCAGAGGAAGGGACAGAAGTAACCGTTCAAGTACGGAAGAGACGCCTGAAGGCCAGAGTCGTCCCGACGCCTTTTTATAAAAGATAA	MTELKRTPLYSEYEKLGAKTIDFGGWDLPVQFSGIKEEHAATRNAAGLFDVSHMGEILVKGPESLAFLQKMLTNDASKLEPGKAQYTIMCYEDGGTVDDLIVYHLEENTYLLVVNAANREKDFEWLERHAGGDVSVVDVSDAYVQLAVQGPEAEKVLQKLTRTDLSAIKFFRFEQNVSLEGVQDSAIVSRTGYTGEDGFEIYLPAASGPELWQALLKAGEPEGLRPIGLGARDTLRFEANLALYGQELSRDITPIEAGLNFAVKIKKEEDFIGKDVLTKQKKEGPERKLVGIEMIDKGIPRTHYEVYNEDERIGFVTTGTQSPTLGKNVGLALLNRAYAEEGTEVTVQVRKRRLKARVVPTPFYKR	PGPT0008130_1476	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008130-gcvT-K00605	NA	NA
AK012_00936	1644	rapA_1		RNA polymerase-associated protein RapA	ATGTTCACCATTCATCCAGATCAAACGTTCATTCACTCTCTGTCCAGCCACCTTGACCAATCGGAACATCTGGCGTCCTGGGAAGGGTTTAAGCTGGCTTACCAGGCCGCCCAATTCAAAACCGTGCCGGATTTCGGAGGTCTGCTGGCTCTTGAGCACCTCCCTCATGTCAATTTTATGGAGCATCAGGTTGAGGCGGCGGAAACCGTCGTCCACCAAATGAACGGCCGGGCGATTCTGGCTGATGAAGTCGGACTCGGGAAAACATTGGAAGCCGGACTGATTTTGAAGGAATACATGATCCGCGGCCGTGCCAGCAAAGTACTCATTCTAACGCCTGCTTCACTCGTGAACCAGTGGATTCAGGAATTGAACGAAAAATTCTATATCCAGGCCGCTTCCCCCAGAAAAAAGCAGGCGTCTTGGAAAGAATGGGACGTGGCGGTCACATCCATTGATATGGCTAAAAGAGAGCATCACAGAGAGGAAATCCTTTCTCAGGAATACGATTTCATCATCATTGATGAGGCTCACAAGCTGAAAAACCACCAAACGAAGAATTATCAGTTTGTCCAGTCTTTAAAAAAGACATACTGCCTCCTTCTTACAGCCACACCCATCCAGAATAAACTGAGTGATCTATTTAACCTTGTATCCATTCTGAAGCCGGGCTATTTAGGGAACCTGACAGACTTTAAAAAGAAATACCAAAAACAGGCCCGGGATGAGGACCATATCCAGCACATTCACTCCCTTGTCGGTCAACTGATGATCCGTAACCGAAGAAAAGACACAGGACTGGATTCTTCCAAACGGAAAGTAAGGAACGAAAGGCTGACCTTTACCAAAGAAGAAGCGGAACTTTACCAATCGCTTGAACAGTTGAAAGCCGATCACCCCTCGTTCACATGGCTGACTCTTGCTAAAGAATTATGTTCTTCACGGGAAGCCTGCTACATGTCTTTAAATCAATTGAAGAAAAAAGCGGCTCCGGAGAAACAAGCGGTCTACGATTCGTTTATTAAAGCACTCGGCAGCCTGCCTCATCATGTTAAAGCCGGGCGGATGGTGGATTTAATCAAGGAGAAAGAGGAGAAGTTCATTGTTTTCACCGAGTACCGCGCGACCCAGTTCTACCTGCAGTGGTACCTGCAGCAGCACGGGATCACCTCTGTTCCATTCAGCGGAAAGTTTAATAAGAGTAAGCGCGACTGGATGAAACAGCTGTTTCAGAACAAAGCACAGGTGATGGTCGCAACAGAAGCCGGAGGAGAAGGCATCAACCTCCAGTTCTGCCACCATATGATCAACTATGACCTGCCTTGGAACCCGATGCGGCTGGAACAGCGCATCGGAAGAATTCACCGTTTTGGTCAGGAATATGATGTGAACATTTACAATTTTGCTGTAGAAAACACAATTGAGGACCATATTATGCACATGCTTTATGAAAAAATCGAGGTCTTTAAAAATGCCGTCGGCGATCTTGATCACATTTTGGAGCAGATCCCCGGTGGTACGTTCGAGCAGCAGATTCAATCGATCGTCAAACAGTCCGAAAGCCAGGGGGAGATGGATATTAAGCTGAAAAACCTTGTCAGTTATGTCGAACATTCCGTGAATGAAAGGAGAGAGTCCAGTTGA	MFTIHPDQTFIHSLSSHLDQSEHLASWEGFKLAYQAAQFKTVPDFGGLLALEHLPHVNFMEHQVEAAETVVHQMNGRAILADEVGLGKTLEAGLILKEYMIRGRASKVLILTPASLVNQWIQELNEKFYIQAASPRKKQASWKEWDVAVTSIDMAKREHHREEILSQEYDFIIIDEAHKLKNHQTKNYQFVQSLKKTYCLLLTATPIQNKLSDLFNLVSILKPGYLGNLTDFKKKYQKQARDEDHIQHIHSLVGQLMIRNRRKDTGLDSSKRKVRNERLTFTKEEAELYQSLEQLKADHPSFTWLTLAKELCSSREACYMSLNQLKKKAAPEKQAVYDSFIKALGSLPHHVKAGRMVDLIKEKEEKFIVFTEYRATQFYLQWYLQQHGITSVPFSGKFNKSKRDWMKQLFQNKAQVMVATEAGGEGINLQFCHHMINYDLPWNPMRLEQRIGRIHRFGQEYDVNIYNFAVENTIEDHIMHMLYEKIEVFKNAVGDLDHILEQIPGGTFEQQIQSIVKQSESQGEMDIKLKNLVSYVEHSVNERRESS				NA	NA	NA	NA	NA
AK012_00937	816			hypothetical protein	TTGAATGCCCTCCACCCATATGCTGAATTTGTCGAACGTTTTTTCGCCGCCTACGGCTGTCCGGTCCTTGAAAAAGGTCCCACGCATTTTACTGTCCAGTTGACGAGTGACATGGATGAAGAAATCATGAACCGTCCTTTTTACTGGCACTACATGAAAAAAATGAAACGCGAAGGTGATCCGATGCGTCTCACCTTCACCCAGACAGACAGCAGTCATAAACACGGGATTTACCTGCATGCCGGAACCCCCAAACTGCATGCGCTTTATCAAACCGCTATCAATAAAGGAAAGACGGCACGGCTGTATGAGCAGATCCCTCCGGAAAATGCAGGGCATACAGCTGTAAGCCCTTGGCTTGTCGTCAATTTTCTGCTTCATTACCGCGGAAAACAGGCGAGGGATGAACCACTCTCCATCGGCTTAAACCTGATTCATGGAACGATGATGCTGAAGATGATGGAAAAACTGGAAACGGTTCCGTTCGGAAACACTGTATCCGACTATACCTTTCCCATGACTCCTGTCATATCATTGAACCATGCGTATAGAAGGATGGAAAAGCATGTGGAGACATATATTTCTTCACAAAATAATCAATGGGCAGTGGAATCCCACCAGCATCTTCAGAGAGAAACTGCGCTGCTTGAATCGTTTTATGAGTCGGAGGACATCGACCTCGAATCATTTACAAAGGAACGTGACCAGATTGATATCCGTTATAAGCCAAGCATCAAGCTTGAAGTGGTCAATGGTGGTTTGTTTTATATTTCTAAGGAGACGAGTGATCCCTGGATCCAGCAGAAAAGCCGCTGA	MNALHPYAEFVERFFAAYGCPVLEKGPTHFTVQLTSDMDEEIMNRPFYWHYMKKMKREGDPMRLTFTQTDSSHKHGIYLHAGTPKLHALYQTAINKGKTARLYEQIPPENAGHTAVSPWLVVNFLLHYRGKQARDEPLSIGLNLIHGTMMLKMMEKLETVPFGNTVSDYTFPMTPVISLNHAYRRMEKHVETYISSQNNQWAVESHQHLQRETALLESFYESEDIDLESFTKERDQIDIRYKPSIKLEVVNGGLFYISKETSDPWIQQKSR				NA	NA	NA	NA	NA
AK012_00938	186			hypothetical protein	ATGAACCAGAATGACTATGTGAAGTTTCTGACTGAGGAAATGGTCAAGTACATGCAGTTGTCCAAAGAAGAAAAGAAACAGCGGAAGCAGGAAAAGCCCTCGCGGAAATCGTCCGTCTACTGGTTTGGGTTGATTCCTCTTGCCATCCGCATGTTTAGAAGAAAACGAAAAATTTCACATCATTAA	MNQNDYVKFLTEEMVKYMQLSKEEKKQRKQEKPSRKSSVYWFGLIPLAIRMFRRKRKISHH				NA	NA	NA	NA	NA
AK012_00939	492	aroK	COG0703	Shikimate kinase	ATGAAAATGATTTATTTGATTGGTTTCATGGGGAGTGGGAAGTCGACAGTAGCATCTAAGCTTGCACAGAAACTCCAATGCTCCTACATAGAAATGGACGAAAGTATTGAAAAGCAGGAAGGACTGACGATTCCCGAAATGTTTTCACAGCATGGTGAAGACTATTTCAGAAAAAAGGAACGGGAATTTCTCCATAATACGAAGGGAGAGGCCGTTGTTTCCACTGGAGGCGGTGTGATCTTATCCCGGGAAAACCGGGAGATTTTAAGACGGGGAACGGCTGTTTATCTGCATGCGGACTGGGAAACCATTGTCGACCGCTTGAAAAATGATACTTCCCGGCCGTTATGGTCAGGGGATGAAGCAGAGAAGAAGCAGCGTTTTGAAGACAGGCTCCCGCTCTATAAAGAAACGGCTCATCATGTTGTGGTGGTGGATGACAAAGCTCCGGACGTCATTGCAGAAGAGATTGCGGCCCGTCTAAAATCATAA	MKMIYLIGFMGSGKSTVASKLAQKLQCSYIEMDESIEKQEGLTIPEMFSQHGEDYFRKKEREFLHNTKGEAVVSTGGGVILSRENREILRRGTAVYLHADWETIVDRLKNDTSRPLWSGDEAEKKQRFEDRLPLYKETAHHVVVVDDKAPDVIAEEIAARLKS	PGPT0012900_4820	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
AK012_00940	996	comGA	COG2804	ComG operon protein 1	TTGAAATCCATTGCCACTTATGCCTATGATCTTATCGTCTCCGCCGTTCAGCAGTCCGCCTCTGATATTCATTTTTCCCCCTACCGCGAATCCTGCTCCATTTATTTCCGCATTCACGGCGAAAGAATTTTCCACTCCAGTCTTCCCATGCCTTTGTACCAAAAAACACTCTCCTACTTCAAGTTTACATCAGGCATGGACATTGGTGAGCAGAAACGACCTCAAAACGGAACATTCCAACACCGCTCAGGCAGCAGTTTCTTCGATTTACGCCTGTCCACCCTCCCCATTCAGGACTCCGAAAGTCTCGCCGTCCGCATCCTCAACCCGATGGATCACACCCCATTGGAACAATTATTTCTTTTCCCCCACCAGGGAAAACAATTGAAACGCTGGCTTCATCATCGCAGCGGAATGATTTTATTCACGGGACCGACAGGCAGCGGGAAGACTACGACCTTGTACGCCCTCCTCCAGGCCCTGACGATGCAGAGCTCCTATCAGGCCATAACCCTTGAGGACCCCATTGAAAAAAACATCAACAACCTCATTCAGGTTCAGGTGAATGAGCGGGCAGGCATTACGTATGATACAGGATTGAAAGCAGCCCTCAGACATGACCCTGATCTGTTAATGGTTGGTGAAATCCGTGATAAGGCCACCGCTCAATTCGCCTTCCGTGCCGCCTTAAGCGGCCACCTCGTAATCAGTACCATCCATGCTAAAAATGCTGAGGGGACGCTTCACAGACTGAGGGAAATGAACATTCAACAGGTGGAAATGGAACAAACCCTTGTTGCTGTCGCCTCTCAACAGCTGGTTTCCATCAATGGAAAAAAACACCTCCCTAAACGGGCTGCTATCCTGGAAACACTGGAGGGAGAGCAGCTTCACCTGGCTCTGAAGGGCCGCCCCGCTTCCATTTATACTTTTCATCAATTAAGGAGGAAAGCGTATGCGCTCGGCTTCATTTCTAAAGAAGAAATGGCCGATTAA	MKSIATYAYDLIVSAVQQSASDIHFSPYRESCSIYFRIHGERIFHSSLPMPLYQKTLSYFKFTSGMDIGEQKRPQNGTFQHRSGSSFFDLRLSTLPIQDSESLAVRILNPMDHTPLEQLFLFPHQGKQLKRWLHHRSGMILFTGPTGSGKTTTLYALLQALTMQSSYQAITLEDPIEKNINNLIQVQVNERAGITYDTGLKAALRHDPDLLMVGEIRDKATAQFAFRAALSGHLVISTIHAKNAEGTLHRLREMNIQQVEMEQTLVAVASQQLVSINGKKHLPKRAAILETLEGEQLHLALKGRPASIYTFHQLRRKAYALGFISKEEMAD	PGPT0029440_204	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029440-comGA-K02243	NA	NA
AK012_00941	1053			hypothetical protein	ATGCGCTCGGCTTCATTTCTAAAGAAGAAATGGCCGATTAATCGAACACCGGTCCTTTCCGTACAACTCCAGATCGATTTCTTCCACAGAGTCAGTCATATTCTTGAAAAAGGCTACCCCCTGCTTGAAGCCCTTTCCATGACAGGGTGGGACGCACGCCTAAAACCGGTCAGCCACGAATTGATTGAAGTACTGAAAGGAGGTGACACCATAAGCCTTGCCTTGGAAAAGGCCCGCTTTTCCAATACCGTCACCCAGTACCTTGCCTTCAGCCAGTATCAGGATGACCTGCCAAAAGCGTTCAAGCAGTGCCGCGAACTCCTCCTCATGAAAAAGGAATACAAAGAGAAATTTCTATCCGCTGTCCGCTATCCTGTTTTTCTCTTCCTGTTCCTCCTTCTTACGTTCATCATCATGAAGCGGACGATTATCCCCAACTTCACCACTCTGTTCGCCGATCATGAAAGTTCGCCTCTTACCTTGATGCTTCTCCTGAATCACAGCATAAACCTCGTGGGAATCCTGGTTGTATTCGTCCTTGTCATTGGTGCAGGACTGTCTCTGTCCATACCGAGGCTTCCCCTGAAAAAGAGAATGCAGTGGATCGAAAAGCTTCCTCCGCTTCGTATGTATCATTCCTATAAGCTTTCTTTTCTATTTTCGTCCCACCTCTCCTCCCTCTTCCAGGCCGGCCTGCCCCTGAAGGATGCCCTTGTCTTGTTAAAGGAGCATAAACAGGATGATGTCCTGTCTTTCTACTGTACGAACATTCTCCACGATCTTTCTGAAGGGAGCACGATTTCTTCCTCTCTGCATCAATGCCGTTTACTACGAAAAGAGCTGACAGATCTATTCCATCATACCAATGACAGGCATGCTCTGAAGAACGAACTGGATATGTTCTCGGATTTTCTCATGACACTGATGCAGGAGAAAATCCAAAAATCCATCCAATGGATCCAGCCTGTCTTTTTTATCGGCATCGCTCTTGTCATTGTCCTGGTCTATGCCGCTATTATGCTCCCGCTTTATCAATGGATGAATCAACTTTAA	MRSASFLKKKWPINRTPVLSVQLQIDFFHRVSHILEKGYPLLEALSMTGWDARLKPVSHELIEVLKGGDTISLALEKARFSNTVTQYLAFSQYQDDLPKAFKQCRELLLMKKEYKEKFLSAVRYPVFLFLFLLLTFIIMKRTIIPNFTTLFADHESSPLTLMLLLNHSINLVGILVVFVLVIGAGLSLSIPRLPLKKRMQWIEKLPPLRMYHSYKLSFLFSSHLSSLFQAGLPLKDALVLLKEHKQDDVLSFYCTNILHDLSEGSTISSSLHQCRLLRKELTDLFHHTNDRHALKNELDMFSDFLMTLMQEKIQKSIQWIQPVFFIGIALVIVLVYAAIMLPLYQWMNQL	PGPT0029445_381	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029445-comGB-K02244	NA	NA
AK012_00942	303	comGC	COG4537	ComG operon protein 3	ATGTGGAAAAATGAAAAAGGTTTCACACTGATTGAAATGCTGATTGTCCTGCTCGTCATTTCCGTCCTGCTGATCATCACCATCCCCAACCTGTCTCAAAACACAGAAAACATCAGAAATAAGGGATGTGATGCCTTAAAAGTAACGGTTGAAGCGCAGCTGGAAGCCTACCAAGTAGAAAACAACGGCGTGCCGACCATCGACGAGTTGGAATCCGGTGGTTACATCAAGACAAAAGAGTGCCCGGATGGAACATCCCTTACCATTGTAGACGGGAAAGTTGATGAAGCTGCAGGGGAATAA	MWKNEKGFTLIEMLIVLLVISVLLIITIPNLSQNTENIRNKGCDALKVTVEAQLEAYQVENNGVPTIDELESGGYIKTKECPDGTSLTIVDGKVDEAAGE	PGPT0029450_295	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029450-comGC-K02245	NA	NA
AK012_00943	444			hypothetical protein	ATGAAGCTGCAGGGGAATAAAGGCTTCACATTATCGGAGACTCTTCTCGTCCTTCTCGCTTGGTCTGTACTGATCCTCTGCCTGACGCCGATCCACCAATCCACTTATGAGAGTGTGATGGAAACACACGTGATCGAACAGTTCAAGGAAGATGTATTCCTCATCCAACATTTATCCATGAATGATCATGCCTACCATTCCCTCCGGTTCAATGCCGATCAAGGGTACTACTCCATTTACGATTCCCTCCATAGAAAAACCATCGTAAAAACAACGCTCCCTGAAGGGTGGAAGATTGAAATGCTCACACTCCCCCACGTCGTTTACTTTAACCAGCAGGGCACCATTAGAAAAGCAGGGACAATGAGGTTGTCCACGCTTGATGTAACCTATAAAATCACGTTTCCTTTTGGGACGAGCAGGATGAGAATTGAGGAATTATAA	MKLQGNKGFTLSETLLVLLAWSVLILCLTPIHQSTYESVMETHVIEQFKEDVFLIQHLSMNDHAYHSLRFNADQGYYSIYDSLHRKTIVKTTLPEGWKIEMLTLPHVVYFNQQGTIRKAGTMRLSTLDVTYKITFPFGTSRMRIEEL	PGPT0029455_52	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029455-comGD-K02246	NA	NA
AK012_00944	333			hypothetical protein	TTGAGGAATTATAACGGCTTTACTTTCCTGGAAACCGTCACAGCCTTCAGCGTCCTGCTGGTGCTTCTCCTCACGCTCTTCCCCGCCCTCATCTCCCTTGAGAACGGAAGAACCTCTCTCTTCATAGAACGAAAAGCCGTTTCCCTCTTATACCATGAATATCACCTGCACCTCATAGAGAACCGCCCCTACCCTTATACAAAAGTTTATCAAAACCAGATTCCAGTCACACTTATTTTTACAGAGGAAGGGGGCGGCAGAGGCTGTGCCTATTGGAAAAACCCAAACGAACGTGAGAATGAATTCTGCCTTTATGATGTTCCGGCAGAATAA	MRNYNGFTFLETVTAFSVLLVLLLTLFPALISLENGRTSLFIERKAVSLLYHEYHLHLIENRPYPYTKVYQNQIPVTLIFTEEGGGRGCAYWKNPNERENEFCLYDVPAE				NA	NA	NA	NA	NA
AK012_00945	423			hypothetical protein	ATGATGTTCCGGCAGAATAAGGGCTACACATTTACGGAAGTTGTCCTCAGCTTGACGATCCTGGCAATCATCACCGCCTTACTCAGCCCTGTACTTCCATACATTAAAGGAGGGGATACCTATTCAGATGGATTTGCTGTAGAGCAGTTTGTTGATGTGCTTTATGAAGAGGTCAGCCAATCCAAGGCCTATACCTTCAGCCGGGATGTCCTTGTCGTTAAAGACAAGGATGACCGGACCATCGAAATCTCGAAAAATGACTCCTCTGTTAAACGTACAGTTAATGGAAGAGGATACGAGATCCTTCTACAGCAGGTTAAATACCTGTCGTTTACCGAGCAGGACTATACCGTTTCTGTAAAGGTGGGTTTAAAGAATGGGGCGACATTTGAAAAGACCCTTCATATCCCTCACAACCAATAA	MMFRQNKGYTFTEVVLSLTILAIITALLSPVLPYIKGGDTYSDGFAVEQFVDVLYEEVSQSKAYTFSRDVLVVKDKDDRTIEISKNDSSVKRTVNGRGYEILLQQVKYLSFTEQDYTVSVKVGLKNGATFEKTLHIPHNQ				NA	NA	NA	NA	NA
AK012_00946	393			hypothetical protein	ATGGGGCGACATTTGAAAAGACCCTTCATATCCCTCACAACCAATAACAGCGGCATGGTTTTTCCATGGGTATTGATGGTTACCCTTCTGTTCATTCTCCTTATTTCCAGGGGGGCTGCTTCCTATGAAAACCAACAGCGGATTACTCAAAGTCATCACTTCGGTATTATGAAGAAACACCTATTGGAGAGGGCCCGTCAGCATATCGATTCAGAGCTTGCGGAAGTACCACAAAGCGAAGCAGCCTTCCCCTATTCCTACCACACAGCGAACGGAACGGCAGAGGCGGATTGTATGAAAGAATCAGATCGCCTGTGGAAATGCAGCTGGGTATTAACTGTCCATGATTCGGGAGATAAATATGTCGTCACCTATCAATATCCGGACAAATAA	MGRHLKRPFISLTTNNSGMVFPWVLMVTLLFILLISRGAASYENQQRITQSHHFGIMKKHLLERARQHIDSELAEVPQSEAAFPYSYHTANGTAEADCMKESDRLWKCSWVLTVHDSGDKYVVTYQYPDK				NA	NA	NA	NA	NA
AK012_00947	384	mgsR_1	COG1393	Regulatory protein MgsR	ATGGAAGAGTTAAAATTTTATACCTATCCGAGTTGCACGTCCTGCCGCCGAACGAAGTCATGGTTGAACAGTCAGGGAGTTGTATTTAACGAACAGCATCTGTTCCGGGAAACTCCTACAGCCGATGAACTGAAGCAGATTCTCGCCCTTACAACAAATGGAATTGATGAGATATTAGCGAAAAGAAGCAAGGAATTCAAAGATTTGGATATTAATGTAGAGGACCTTTCCCTCAATGAATTTTTAAATCTTGTGATTGAAAAGCCGAAACTGCTGCGTCGCCCCATTCTTACTAATGGAGATAAACTGGTTGTAGGATATGATCCTGAGGGATTACGTGGGATTACAGATAAGCGTATGGAATACACAGAAAAAATATCATAA	MEELKFYTYPSCTSCRRTKSWLNSQGVVFNEQHLFRETPTADELKQILALTTNGIDEILAKRSKEFKDLDINVEDLSLNEFLNLVIEKPKLLRRPILTNGDKLVVGYDPEGLRGITDKRMEYTEKIS	PGPT0012940_674	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012940-spx|spxA-K16509	NA	NA
AK012_00948	246			hypothetical protein	ATGGATCGTATGTTTCGAGTTCTGGCCTTTTGGACAGGTATTTTTGCTGTCATGTTTTATACCGGTGATATGGTGGAAGCATCTCTATTATCACTAGTTCAAACGGCTTTTTTCCTTACTATTGGGTATCTTAAGCTGTCAGAACGTATGTATGTGTACATATTTTTCTCATACCTGACAGTCTTTATGATTGGTTTTACTTACTACTGTTCGTTTATTCTGGTACCGGGGTTTGGTGGACACTAG	MDRMFRVLAFWTGIFAVMFYTGDMVEASLLSLVQTAFFLTIGYLKLSERMYVYIFFSYLTVFMIGFTYYCSFILVPGFGGH				NA	NA	NA	NA	NA
AK012_00949	624			putative metallo-hydrolase	ATGATGAAAATTTCCCGACTTCCCCTGGGACCGGTATCCACAAACGCTTACATTATTCATGAGAATAAAAAAGCGCTGGTTATCGACCCGGGCGGAGATTATAAGAAATTGGAAAGTTATCTGCAGGAAAGGGAATTGGATGTACAAGCAGTTCTTCTCACTCACGCGCATTTTGACCATATCGGTGCTGTTGATGAAGTGAGGGAAGCTTACAGAGCTCCTGTTTACATACACGAGAACGAAGCCAGCTGGCTCGGAAATCCCGAGAAAAATGGTTCTCAGCTGTTTGGACTCGGTCAAATAACAGCAGCCCCTGCTGATTATTTCCTTAAGGAAGGGCCGATGGAACTGGAGGGCTTTCCGTTTGAAGTCCGTTTTACTCCAGGACATTCGCCCGGCAGTGTCTCCTTTGTGTTTAGAAATCAAAGGTTTACGATTGCCGGAGACACGCTCTTTCAGCGGGGCATTGGGAGAACAGATCTGCCCGGTGGAAGCCGCGAGGTGCTGGAAAACAGCATCAGAGAGCAGTTGTTTTCGCTTCGTGCGGATATGCGGATTTTCCCCGGGCACGGCCAGCCTACAACAGTCGGGGAAGAGATGGAAGAAAATCCTTTCCTAAATTAG	MMKISRLPLGPVSTNAYIIHENKKALVIDPGGDYKKLESYLQERELDVQAVLLTHAHFDHIGAVDEVREAYRAPVYIHENEASWLGNPEKNGSQLFGLGQITAAPADYFLKEGPMELEGFPFEVRFTPGHSPGSVSFVFRNQRFTIAGDTLFQRGIGRTDLPGGSREVLENSIREQLFSLRADMRIFPGHGQPTTVGEEMEENPFLN	PGPT0001770_7943	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK012_00950	792	fetB	COG0390	putative iron export permease protein FetB	TTGGCTCCTGAAATATCAAATCAGTCATTATTATTTTTAGTTATCTTTGTCATTGTACCGCTGGCTTTGTCTTACTTTTATCAGCTTGGTGTGAGTAAAAACGTTTTATGGTCGACATTCAGAGGTACAGTGCAGCTGTTTGCCATCGGCTATATCTTAACCTTTCTCTTCGAACTCCCGGCTTCCTACGGGATTCCCTTCATGTTGTCGGTCATGATCATAATCGCTACGTTCCATGCCAGGCAGCGGGGGAAAGAACTTCCTTATGTGGGGTACGTTTTATTCGCCGGTCTCGTAGCGATCGAAGCGGGGGTGCTTGGACTCTGGCTTGTCTTTGACATGATTCAGTTCAAGCCTTCGGAAGTCATTCCAATGAGTGGGATGGTCATTGGAAACAGTATGACCGCTATGGGACTGGCTCTTGAGAGAATGAAAAGTGAATTCAAGGAGAATAATGGGCGCCTGCTTGCTGCGTTATCCCTCGGAGCGGAACCGAAGCAGGCGTCGCATTTAATTGTGCAGAAAACCCTCCATGCTTCTTTGATCCCGAACGTCGACCGGCTGAAAACCATCGGTCTCGTCCAGCTGCCGGGGATGATGACAGGACTGATCCTCGGGGGTGTATCACCGGTGATGGCGATTAAATATCAGCTGGTCATCTCCCTGAGTATTTTTTCCTCTGTGTCGTTGAGCTCGATGTTTATTACACTTGCTATGTACAGATACTTCTTCAACAGGGAAAAACAGCTGCTGCAGTCTGAAGAGGAAATACGCAGTTCCAGATCCCAATAA	MAPEISNQSLLFLVIFVIVPLALSYFYQLGVSKNVLWSTFRGTVQLFAIGYILTFLFELPASYGIPFMLSVMIIIATFHARQRGKELPYVGYVLFAGLVAIEAGVLGLWLVFDMIQFKPSEVIPMSGMVIGNSMTAMGLALERMKSEFKENNGRLLAALSLGAEPKQASHLIVQKTLHASLIPNVDRLKTIGLVQLPGMMTGLILGGVSPVMAIKYQLVISLSIFSSVSLSSMFITLAMYRYFFNREKQLLQSEEEIRSSRSQ				NA	NA	NA	NA	NA
AK012_00951	687	glnQ_1	COG1126	Glutamine transport ATP-binding protein GlnQ	GTGTTTCGATTTGAACACGTCTATCAGCATCCGCTGGAGGATTTAAATTTCGAGATCGAGAAAAAGGATCAAGTCATTTTATTCGGTCCATCGGGTGCTGGGAAGAGCACTCTGTTATTTTTGTTAAATCGACTGAATGATCCGGAAAAGGGAGAGATCTATTATAAAGATGCACCCATATCTGATCATTCCGTAACCGAATTAAGAAAAAAAGTGGGTCTGGTTCTGCAGGCCCCCAACCTATTTCCGGGGACCGTTCTGGATAATCTTAAATATGGGCCCAGCCTTTTTGGAGAATGGAAGGAAGAGGACGGCAGGAGGCTTCTCGATTATGTGCAGCTTCCATCCAGTTATTTGGAAAGAGAAGTGGACCAGTTGTCAGGGGGAGAAAAGCAGCGGGTGTCTCTTGCAAGGACACTGGCTAATTCACCGGAAGTTTTGCTTCTGGATGAACCGACAAGTGCGCTTGATTACCGTACGGCTGAAGAGATTGAGGAAGTGTTGGAAGGTCTTATACAGGAACATGATCTGACGATGATCATGGTTACACATAATTTGAATCAGGCCCGTCGGCTTGGAACGCGCGGCCTTTTTGTTGCTGACGGAAAGCTGCAGGAGGATGGAACCATTCCGGAAATGCTGGATCATCCAGAGACGGAACGACTACGCAAATTTTTGGAACAGTAA	MFRFEHVYQHPLEDLNFEIEKKDQVILFGPSGAGKSTLLFLLNRLNDPEKGEIYYKDAPISDHSVTELRKKVGLVLQAPNLFPGTVLDNLKYGPSLFGEWKEEDGRRLLDYVQLPSSYLEREVDQLSGGEKQRVSLARTLANSPEVLLLDEPTSALDYRTAEEIEEVLEGLIQEHDLTMIMVTHNLNQARRLGTRGLFVADGKLQEDGTIPEMLDHPETERLRKFLEQ	PGPT0013585_2459	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013585-opuA|osmV|yehX-K05847	NA	NA
AK012_00952	1869	ltaS1_1	COG1368	Lipoteichoic acid synthase 1	ATGCAATTGAGAAATATTCGCATGCCTTTATTTATGATTGCTACGGTTTTGTTTGGGATAAAAACATACATCGTTTATCGATTTATGTTTGATTTATCGATTGAAAACCCGCTGCAGGAATTGATCCTGCTGTTTAATCCGATTGCGAGTGCCTATTTGATATTCGCCATCAGTGTATGGATGAAACCGAAGAATCAGCGGAAATACTTAAGGTGGACCGTGCTGCTCGGTTCTTTTATTTTGTTCGTTAATTTGATTTTTTATCGGAATTTTACAGATTTCATTACGATTCCTGTATTGTTCCAGGGGAATAATGCTGCAGATTTAACGGGGAGCTTTCTTACGCTTCTTCATATTGAAGATGTTTTCATTTTTGCTGATGCCGCCGTGGTCTGGTATTTAAGCAGACAGAAATTTGATTTGACTGTAAAACTTCCTAAACGGGGGAAAATTGCGGCTACAGCTGTTACTTTCCTGCTGCTGGCCGGGAATGTTGTCCTAGCTGAAATTGAGCGTCCGATGCTTTTCGTACGTGCTTTTGACCGCGAGTACCTCGTCAAAAACATTGGTATCTTTAATTATCATGTGTACGATGCCACCATGCAGACAAAAACGAGAGCTCAGCGGGTATTTGCCGACGGCAGTGAAATTAGTGAAATCGAAACATACCTTCAGGAAAAATCACCGGATGAACCCGATAAGGATTCCGAGTTATACGGGATAGCTGAAGATAAAAATGTGATCTTCGTCAGTGTGGAATCTTTCCAGCACTTTCTATATGACTCAGAAATCAATGGTGTGGAAACCACTCCTTTCCTGAACGATTTAAAGGATAGCAGCGACACGATCACATTCGAAAATTTCTATCACCAGACCGCGCAGGGAAAAACATCTGACTCGGAGTTTATCGTGGAAAATTCCTTGTATCCTCTTGGCAGGGGGGCGGTGTACTTTACCCATGCTGGAAATGAGTACCATGCCCTTCCTGAAATTCTTAATAATGAGGGATACGAAACATCTGTCTTCCACGCGAATAATGGGAGCTTCTGGAACAGGGATGTGATGTACGATAATATTGGCTATGATGAGTTCCATGATGAGCAGTCCTTTGAAGTGACACCGGAGAATTCCTTTGGATGGGGCCTTGAAGATAAGGCATTCTTTGAGCAGTCGATAGATTATTTGAAAGAGCAGGAGCAGCCGTTTTACAGCAAGTTCATTACGCTGACCCATCATTTCCCTTTCGAACTGCCGGAAGAAAAAGCGCATATTGACAAGTATGATTCCAATTCCAACACGTTGAATGCTTACTTCCAGACAGCCAGATATACGGATGAAGCCCTGGAGCAGTTCTTCCAGCAGCTGAAAGATGCTGATCTGTACAAGGATTCTATTATTGTTATGATGGGGGACCACTACGGCATTAGTGACTTTCATAATAAAGCGATGAGTCAGTTCCTTGGGAAGGAAGTGGACCCCTTCGTTCAGACCCAGCTGCAGCGTGTTCCATTCATGGTCCATATCCCGGGTTATGAAAATGGCGGCATTGAGGATAAGGTAGTGGGGCAGATTGATGTGAAACCGACGCTGCTGCACCTGCTGGGAATCGACTCCGATGGTGATATGACCTTTGGGGATAACATGTTCTCTGACAAGGAAAAAGATTTCATCGCCCTCCGGGACGGTAGTTTTGTGACGGAAGATTATGTTTATACCAGCGACACATGCTATGACAGAGCATCGGGAGAACCGCTGGAAGAAGAGCAGGCGGAAGCCTGTGAGCCTGTGAAGCAGGAAGTGGACCAGGAGTTGAACTACTCCGATAACATTATTTACGGGGATTTGTTCAGGTTCTACGATTTCAAATGA	MQLRNIRMPLFMIATVLFGIKTYIVYRFMFDLSIENPLQELILLFNPIASAYLIFAISVWMKPKNQRKYLRWTVLLGSFILFVNLIFYRNFTDFITIPVLFQGNNAADLTGSFLTLLHIEDVFIFADAAVVWYLSRQKFDLTVKLPKRGKIAATAVTFLLLAGNVVLAEIERPMLFVRAFDREYLVKNIGIFNYHVYDATMQTKTRAQRVFADGSEISEIETYLQEKSPDEPDKDSELYGIAEDKNVIFVSVESFQHFLYDSEINGVETTPFLNDLKDSSDTITFENFYHQTAQGKTSDSEFIVENSLYPLGRGAVYFTHAGNEYHALPEILNNEGYETSVFHANNGSFWNRDVMYDNIGYDEFHDEQSFEVTPENSFGWGLEDKAFFEQSIDYLKEQEQPFYSKFITLTHHFPFELPEEKAHIDKYDSNSNTLNAYFQTARYTDEALEQFFQQLKDADLYKDSIIVMMGDHYGISDFHNKAMSQFLGKEVDPFVQTQLQRVPFMVHIPGYENGGIEDKVVGQIDVKPTLLHLLGIDSDGDMTFGDNMFSDKEKDFIALRDGSFVTEDYVYTSDTCYDRASGEPLEEEQAEACEPVKQEVDQELNYSDNIIYGDLFRFYDFK	PGPT0023375_1109	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023375-ltaS-K19005	NA	NA
AK012_00953	960	glcK_1	COG1940	Glucokinase	ATGAACAGAAACGTGTACATAGGTGCTGATATTGGCGGCACAACCATTAAACTTGCTTTCATTAATGAAGATGGTCAAATTATGAAGAAATGGGAAGTTCCGACGAACACGGAAGAAAAGGGGGCTTCGATTCCTTCAGACATTGCTGATGCGGTGGAGCAGGTGCGCGGGGAACTTGGCATCGAGAAGTCTCAAATCATGGGAATTGGAGCAGGAGCCCCTGGTTTTGTGGGGACTTCAACCGGCTATATCCATGAAGCTGTAAATATAGGCTGGAAAGACTTTGATTTTGGAAACATTTTGAGCGGACTCACCGGCTTTGATGTATGGGTCGACAATGATGCCAACCTTGCTGCGCTGGGAGAGAACTGGCTCGGAGCAGGCCGCGGATGCTCGGAACTAATTGCGGTTACGCTTGGAACAGGAGTCGGCGGCGGTGTTATCGCCAATGGCAGTGTGTTGAATGGAGCGAATGGCACGGCGGCAGAGCTTGGCCATGTGACCGTCATTCCTGAAGGTGGGGCCCCCTGCAATTGTGGGAAGACCGGATGTCTGGAGACAGAGGCATCAGCGACCGGAATTGTTAGAAAAGCGAAAGTGGCCGTGGAGGAATATGCTGACTCTCTTCTTCATTCCCTTGTTCAATCCGGTGATTTGACAGCCAAAGATGTTTTCCAAGCTGCAGCAGAAGGGGACGAAGCTGCGACCGATGTCCTCCATCAAGTCACTGATGTGCTGGGAATGGCGATTGCCAACATGGCGATTGTCATCAATCCTGAAAAGATTGTTATCGGCGGCGGTGTTGCCAAAGCAGGGGATCAGCTGTTGGACCCTTTAAAAACGGCGTACCGTAAATATGCTCTCTCAAGAACGGCGGAAGCTTCCAGCTTTGAATTTGCTGAGCTTGGGAATGACGCTGGTGTCATCGGTGGAGCCTATTTAGTGAAAAAGAACAAATGA	MNRNVYIGADIGGTTIKLAFINEDGQIMKKWEVPTNTEEKGASIPSDIADAVEQVRGELGIEKSQIMGIGAGAPGFVGTSTGYIHEAVNIGWKDFDFGNILSGLTGFDVWVDNDANLAALGENWLGAGRGCSELIAVTLGTGVGGGVIANGSVLNGANGTAAELGHVTVIPEGGAPCNCGKTGCLETEASATGIVRKAKVAVEEYADSLLHSLVQSGDLTAKDVFQAAAEGDEAATDVLHQVTDVLGMAIANMAIVINPEKIVIGGGVAKAGDQLLDPLKTAYRKYALSRTAEASSFEFAELGNDAGVIGGAYLVKKNK				NA	NA	NA	NA	NA
AK012_00954	219	yqgQ	COG4483	putative protein YqgQ	ATGAAAACGATTTATGATGTACAGCAGTTTTTAAAAAAATTTGGAACGATCATATATATTGGTGATCGCACAGCAGATTTAGAAATGATGGAAGACGAAATCAGGGAGCTCTATCAATCCCAGTGTATGACAACAGAGGATTATCAGATGGCTGTATTGCTGCTCCGCAGTGAGATTGCCCGGGAGAGAGACCGGCAGGAGGGGGACCATAAACGATGA	MKTIYDVQQFLKKFGTIIYIGDRTADLEMMEDEIRELYQSQCMTTEDYQMAVLLLRSEIARERDRQEGDHKR				NA	NA	NA	NA	NA
AK012_00955	1461			hypothetical protein	GTGGATGAAAAGCAGGACCAGCAATTATTTGACAGTTATGAAGAAAATGTAGCCTATATGAGAAAACGTCTCGGAGTAGATGAGAGCTTTGATATGGTCCATCTGGATCTGGTTTATGCGGGCCGGGGCATGTCCCTGTTTTTTATTGATGGCTTTGTAAAGGATGATATTCTTCACTATTTAATGAAGCTCTTGTCCCGGCTTGAACCCGGACAGCTTGAACCCGACCCTTTGGATCGATTATTGAAAACACACCTTCCTTATGTAGAACTCGGTCAGGAAAAAGACATGAACCAGGCTGCCAATCTCGTACTGGGCGGACCGACAGCCCTTCTCGTAGAAGGGGTCGACGAAATTATTATTATCGATGCCCGGACCTATCCGGTACGTGGGCCGCAGGAGCCGGATCTGGAAAGGGTGGTCCGAGGTTCGAGGGACGGTTTTGTAGAAACGATCATTTTCAATACCGCCCTGACGAGAAGGCGTGTGCGTGACCGTTCCTTACGAATGGAGTACCTGCAGGTCGGACGGAGGTCGTTGACGGACGTCTGTATCTGCTACATCAAGGATATCGCCGATACAGATCGAGTGGATCATTTAAAAAGAGTGCTGCAGGAAATCGATACAGATGCGCTTCCTATGGCTGAGAAGACAATTGAAGAATACATCAGCGGTCAGCACTGGAATCCCTACCCGGTCATCCGTTATACGGAAAGGCCGGATACAGCAGCTGCACATCTGTATGAGGGGCACATTCTCGTCATCATTGATGGGTCCCCAAGTGTGATGATCACTCCGGCAACTTTCTGGCATCATATGCAGCATGCGGAGGAATACAGGCAGAAACCTTTGGTAGGAGCCTATTTAAGGTGGGTCCGGTATTTTGCGTTTTTTGCATCTATTTTTATTCTGCCTCTGTATTTCTTATTTTCCAAAAACCCCGATCTGCTGCCGGCGTCTCTTTCGTATATTGGTCCGACAGAAGCGGGAACGATCCCCTTACTCGTGCAGTTCCTGTTTGCTGAGATCGGCATTGATATGCTTCGGATGGCTGCCATTCACACCCCGTCTTCCCTCGGCACGGCACTGGGGCTTGTGGCTGCCATATTGATCGGACAGGTAGCCGTTGAAGTGGGGCTTTTCTCCAGTGAAGTCGTTCTGTATCTCGCTCTTGCTGCTGTCGGAACGTTTGCGACACCAAGCTATGAGGTCGGGCTGGCTGACCGCCTTTCCAGGCTTGCGCTTCTATTGGCTGTAGGGATTTTCGGACTGAAAGGATACGTCATTGGTATTACGTTCTGGCTGATTTATCTGACGCGGATGCAGACGTTTAAAACCCCGTACCTCTGGCCGTTTATGCCGTTTTCCTGGAAGCCTTTCAGGGACGTTCTGCTTCGTTCTCCGATCCCGTTGAAGAACAGAAGACCGGCTTTTCTACACCCGAAAGACCCTGACCGCTGA	MDEKQDQQLFDSYEENVAYMRKRLGVDESFDMVHLDLVYAGRGMSLFFIDGFVKDDILHYLMKLLSRLEPGQLEPDPLDRLLKTHLPYVELGQEKDMNQAANLVLGGPTALLVEGVDEIIIIDARTYPVRGPQEPDLERVVRGSRDGFVETIIFNTALTRRRVRDRSLRMEYLQVGRRSLTDVCICYIKDIADTDRVDHLKRVLQEIDTDALPMAEKTIEEYISGQHWNPYPVIRYTERPDTAAAHLYEGHILVIIDGSPSVMITPATFWHHMQHAEEYRQKPLVGAYLRWVRYFAFFASIFILPLYFLFSKNPDLLPASLSYIGPTEAGTIPLLVQFLFAEIGIDMLRMAAIHTPSSLGTALGLVAAILIGQVAVEVGLFSSEVVLYLALAAVGTFATPSYEVGLADRLSRLALLLAVGIFGLKGYVIGITFWLIYLTRMQTFKTPYLWPFMPFSWKPFRDVLLRSPIPLKNRRPAFLHPKDPDR	PGPT0024820_323	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024820-spoVAF-K06408	NA	NA
AK012_00956	858			hypothetical protein	ATGAAAAAAGTATGGATATACTGGGTGCTGGGTCCGCTTACTCTGGCTGTAGCCCTGGCTTTATTTACCCAGACTGGAGAGAAGCCCGTCATCAAATATTTCCCTATCGATCAATCGAAAGCTTTCGAGTCATTTGAAACCGCTCTGGAGTATGACGCTGAGGAAGATGAAGATGAATACAAGGTGTCGTGGAAGGTAGCGTCGAAAAGCAGCAGCCCGGTATATTTAAGACAGGACGTCTCCCTCCTTTATGTGAACGGAAGATTGAAGGGGGTTGTATCGAAGTGGAAGGAGAATACAGACGTTATAAAAAAAGAAACGTCGCTCCACGGAGAGGACAGTCAAAAGTATCAGGCGGTTTCCTTTCACCACGGGGAGGTTCATGAGGGTGAAAATGCAATAAAAAGTATGCAGGCTACCTCAAAGGATGAGTTGTACGTCATTGATTCCCCCCATTCCGTCCGGAGCGCCTTTAAGGAACCGGAAACAGAGGAAGAAAAAGAATGGAAACAAAGGCTTGATCACTCCATTGAACAGCAGATTGAAGCACAGTGGCAGGAACTGATGACCCATTACCAGGTACCAAGAGACAAATATACAGCGGTCGCCCTTACAGAACTTGCTGATTATAAAGACAAGCCCTTCCCCGGAACGTCTGAGGCTGACTCTGAACGAATCAAAGGACAGCTGTGGGAAGGACTTTATAAAAATTATGTGCTGGGCATCAGCGATACAAAATCATCGCACCCGATTCAAAGTTATATTCCCCTGATCCTGTTTGATAAGGATGGAAAGCATTTACTCGTTCTATACGAAGATGATACAGGCAAAAAGCACCAGCTCATCCAATATTATTGA	MKKVWIYWVLGPLTLAVALALFTQTGEKPVIKYFPIDQSKAFESFETALEYDAEEDEDEYKVSWKVASKSSSPVYLRQDVSLLYVNGRLKGVVSKWKENTDVIKKETSLHGEDSQKYQAVSFHHGEVHEGENAIKSMQATSKDELYVIDSPHSVRSAFKEPETEEEKEWKQRLDHSIEQQIEAQWQELMTHYQVPRDKYTAVALTELADYKDKPFPGTSEADSERIKGQLWEGLYKNYVLGISDTKSSHPIQSYIPLILFDKDGKHLLVLYEDDTGKKHQLIQYY				NA	NA	NA	NA	NA
AK012_00957	1533	gluP	COG0705	Rhomboid protease GluP	TTGTTTATTGAACAGGAATATTACCTTTGGAAGATGGTTGACTATATGGTCCACGTTCATCAATTCCAGGTACTCCATGTGAATACGAGTCATGGGGAGATATGGCTTGAGAAAAAGGTGAACAGAAAAAACCATGTGCTCCGACTTTCTCATAAACAGCTCAACTGGAGAAATGAGCTCTCCAGGGAATTGGAAACAGGGTACCGGCAGTTGAATCAGAACCGTTCCCTTTTCCGGGGAGGGAAACTGGAATTTCATATGGTATTCGTTTCCGAGCATCCCCCTGTGGATGAGTGGGAAGACACCGTAAAGGAGTATAACGATCGGAAAATTCCTTTACATCTGTATTATATGAGTGATGAAACAAAGGATCAGGCGTTGGAAGATCTTTTTAAACCTTTAGGGATCGAGAAGCCTGAGATCAACCGGAGTTTAAGGGAAGAGGATATGGAAGCCTCTCTTCCATCTATGAAGCATCAGCTGGTGAAGAAGCAGCGGGAACAAAGAGAGGCGGCGGCTTCCATTTTTGATTACGGCCGTCCGCGATTAACGTATGTTCTGCTCGCTGTAAACATCCTTGTCTTCCTTTACCTTGAAATGGTTGGAAGTACGACGTCCATCGAAACGTTGATCTCTTATGGGGCCAAATATAATCCAGCGATTATGGACGGAGAATGGTGGCGGATTTTCACTTCCACCTTCCTTCATATCGGCTTTATCCACCTCTTTATGAATATGCTGGCCTTGTATTATTTAGGATCTGCAGTAGAAAGAATTTACGGCACCTTACGTTTTGCCGTGATCTATTTTGCGGCCGGATTATTTGGCGGTATGGCAAGCTTTATGATCAATCCTTCAGTCGCTGCCGGTGCCTCGGGTGCTATCTTTGGATTGTTTGGGGCCTTGTTGTTTTTCGGCGTCCAGTACAAGCAGCTTTTCCTCCGGACGATGGGGTATAATCTCATTGTCATCATAGGTATTAACATTGCCTTTGGTGTGATGGTTCCGCAGGTGGATAACGGCGCCCATATTGGAGGTCTGATCGGAGGATTTACAGCCTCTGCCATGGTTCATCTGCCTAAACATGCCATGAAAAAGTGGCAGCCTGCAGCCGTCCTGCTTTATGCAGGGGCTATGGCCGCTATGGTGTACTTAGGCATTACAGGCGCATTTAATGGTGAACAATCAAGGATGGTGGTGCAGGAAGTCAGCGAGTTGAACGAACAGGAGTCCTATAGTGACGTCATTCAAATAACCACCCAGGCCCTTGAGGATCCTCAGGGGTATGAGGCGGAGCTGCTTTTCCACCGGTCCTATGCCTACCTGCAGTCCGGGGAGTCAGCAGAAGCAGAAGAGGACCTTGAGCAGGTGATCTCCATCGCGCCTGATCTGGCGGAAGCGCACTATAATCTCGCTCTTCTGCTTCAGCAGGATGGAGAATTAGAAAAAGCGGCTGAACGAGCGTCCAAAGCCGCTGAATTGAACCCTGACAATGCGGACTTCCAACAGCTGAATGAAGAACTGGCTCAATAA	MFIEQEYYLWKMVDYMVHVHQFQVLHVNTSHGEIWLEKKVNRKNHVLRLSHKQLNWRNELSRELETGYRQLNQNRSLFRGGKLEFHMVFVSEHPPVDEWEDTVKEYNDRKIPLHLYYMSDETKDQALEDLFKPLGIEKPEINRSLREEDMEASLPSMKHQLVKKQREQREAAASIFDYGRPRLTYVLLAVNILVFLYLEMVGSTTSIETLISYGAKYNPAIMDGEWWRIFTSTFLHIGFIHLFMNMLALYYLGSAVERIYGTLRFAVIYFAAGLFGGMASFMINPSVAAGASGAIFGLFGALLFFGVQYKQLFLRTMGYNLIVIIGINIAFGVMVPQVDNGAHIGGLIGGFTASAMVHLPKHAMKKWQPAAVLLYAGAMAAMVYLGITGAFNGEQSRMVVQEVSELNEQESYSDVIQITTQALEDPQGYEAELLFHRSYAYLQSGESAEAEEDLEQVISIAPDLAEAHYNLALLLQQDGELEKAAERASKAAELNPDNADFQQLNEELAQ				NA	NA	NA	NA	NA
AK012_00958	189			hypothetical protein	ATGCGTCTGTTTTTTCGATACATCATCATTACCGGGTCTCTGATTACAGCTTTATACAAATATCGTTATCAAGCGTTGGATGTGGTAACCAAGTTCCCCGCGCTGCGCCGGCTGCTTGTGCGGTTTTCCATGAATATCCCTTGGGTGCGGCAGAAATTCCTATCGCAGATGTTTCGAGGACACTCTTGA	MRLFFRYIIITGSLITALYKYRYQALDVVTKFPALRRLLVRFSMNIPWVRQKFLSQMFRGHS				NA	NA	NA	NA	NA
AK012_00959	570	yqgN	COG0212	putative protein YqgN	ATGGAGAAAACAGCGTACCGGTTTAAAGGAAAGAACATCCTTCATCATATTCCCTTAAGGGAACGCCAGACCATTGAAGCAGCCATGTATCAGAGCTTATTTTCCAGTGATGAATGGAAAAAAGCGAAGATCATAGGAGTGACACTTTCCCAGGAGCACGAGTGGTCCACAGAACCGATTATCCAGGAAGGCTGGAAAGCTGGGAAAACCATCGCAGCTCCCCGGTGCCTGCCAAAGGAAAAACAGCTGGAATTCTATCAGCTGGACAACTACGATCAGCTGGAGCGGGTATATTTTGGACTGAGAGAGCCAAAGCGGGATACAAAACGGTTTGTGGAGAAGAATGCGATTGACCTTTTGCTTGTCCCCGGGCTGATGTTTGATGCTAAAGGGTACAGAATTGGTTATGGTGGTGGGTATTACGACCGCTTCATTGAAGGCTTCCGGGGTAAGACAATGATGATTGCTTCAGAAAAGCAGCGGGAGGAGATCCTCCCGGTTGAGGAATACGACCAGCGTGTAGAGTATGTGCTCACAGAAAAGGGGATCCACTCCACCTACTCCCTCTAA	MEKTAYRFKGKNILHHIPLRERQTIEAAMYQSLFSSDEWKKAKIIGVTLSQEHEWSTEPIIQEGWKAGKTIAAPRCLPKEKQLEFYQLDNYDQLERVYFGLREPKRDTKRFVEKNAIDLLLVPGLMFDAKGYRIGYGGGYYDRFIEGFRGKTMMIASEKQREEILPVEEYDQRVEYVLTEKGIHSTYSL	PGPT0008170_4128	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
AK012_00960	150	rpmG2		50S ribosomal protein L33 2	ATGCGTGTAAATATTACACTTGCCTGCACTGAAACAGGTGACCGCAACTATATTAGCACTAAAAACAAACGTAAAAACCCTGAGCGCATCGAGCTTATGAAATACAGCCCGCGCGTTGGTAAGCATACGCTTCACCGTGAAACGAAGTAA	MRVNITLACTETGDRNYISTKNKRKNPERIELMKYSPRVGKHTLHRETK				NA	NA	NA	NA	NA
AK012_00961	381			hypothetical protein	ATGATTTATGCCGTTGCAGCGCTGGCGGGCGCAGCTATTGTTTTTTTCATTTTTTCCTTCTTTGCTAAAGACCGCATCAAACAGTTAGAGCAGCAAATGGAACAGCTGAACCTGACCATGATGCAGAACGATTATCAAATGAAGAAAAAAATGAAAGTTCTCGAAGAAGAATTGCTGGCTGGGGATTTAACACAGGAAATCGTCCATCAGCAGAGCCGAAAACAAACAAGCGGGCTTTTCAAACCGCAGAATACGGAAGATACGGTGCTTACAATGTATCAAAAGGGGTACAAAACCCATTACATAGCGAAGCAGACGCATTTAAGCGAAGATGAGGTTCTCGCCTTGGTCCATCGGCCAAAACAGGGAGAGCAGTCATGA	MIYAVAALAGAAIVFFIFSFFAKDRIKQLEQQMEQLNLTMMQNDYQMKKKMKVLEEELLAGDLTQEIVHQQSRKQTSGLFKPQNTEDTVLTMYQKGYKTHYIAKQTHLSEDEVLALVHRPKQGEQS				NA	NA	NA	NA	NA
AK012_00962	447	mltG_1		Endolytic murein transglycosylase	ATGAAGCAATGGATCCAGGCCTTTTCCATAGGATTACTGACATCAACCGCTGTTTTAGGAATAACCTACTTGAATACAGAATCCTCTGAGGCGGAAATCATTAAGGAATCTATGAGCGAACAGGACATGATGGACCAGCTGGAGCAGTCCGGTTACCGTGTACTCTCTAACGAGGAATGGGCAGCAGTAAACGCAGAAAGCCCTTCACCTCAAAGGACAGATCCGCCCAGTTCCCAGGGTACCACGTATTCCATTGATATCGCCGAAGGAACTACTACACCTGAAATTGGCGTAAAACTCGTGAATGCAGGGATTATCGGAGATACCGATGCATTTACTTCCTTTATGGAAGACAGGGACTACAGCCGGTATATTCAAATTGGACAGGCGACGGTCACATCATCGATGACCTTACAGGAAATTGCTGAGGCTGTTACATCAAAATAG	MKQWIQAFSIGLLTSTAVLGITYLNTESSEAEIIKESMSEQDMMDQLEQSGYRVLSNEEWAAVNAESPSPQRTDPPSSQGTTYSIDIAEGTTTPEIGVKLVNAGIIGDTDAFTSFMEDRDYSRYIQIGQATVTSSMTLQEIAEAVTSK				NA	NA	NA	NA	NA
AK012_00963	657	phoU	COG0704	Phosphate-specific transport system accessory protein PhoU	ATGTCCATTCGTGCTCATTTTGAGGGAGAACTTGAAAATATAAAAGTACAGATTAAAGATTTAGCTATTGATGCGAAGTATTCCCTCGATACAGCTATCCACCTGCTGTATCAGGGAGATGTCGAAGCGGCGCGGACATTAATTGAAAAAGATGCCGTGATCGATGCTAAAGAGGAAAAGATCAACGATGATGCCATCCTGATGCTGGCGAAGCAGCAGCCGGTCGCCCGGGATTTAAGAAGAATTGTAACGGCTATTAAGATTTCTTCTGACTTGGAGCGGATGGCCGACCACTCTACAAACATTGCCAAAGCCACTATTCATCTCGGCAGTAATCACGGGATTCAAATTGACCCTGAGCTGCGTGAAATGGCTATCCTGGCAATGGATATGGTCGATTTAGCTGTGAAAGCCTTTGAATATGAGGATATTTCGCTGGCGAATAAGCTTGCAGAAATGGACGATGTAGTGGACCGGAAGTGCGGAGATGTAGTGAAACAGATGCTTGAATTTACAGCTGTCAATCCCGAACAGGTACAGCATGTCATGCAGATGGCTTATGTAGCGAGGTATATAGAACGCTACGCTGATCATATTACAAACATCGGTGAAAATATCTTTTATCAGGTCAAAGGCAGAACGTATGATTTAAATTAA	MSIRAHFEGELENIKVQIKDLAIDAKYSLDTAIHLLYQGDVEAARTLIEKDAVIDAKEEKINDDAILMLAKQQPVARDLRRIVTAIKISSDLERMADHSTNIAKATIHLGSNHGIQIDPELREMAILAMDMVDLAVKAFEYEDISLANKLAEMDDVVDRKCGDVVKQMLEFTAVNPEQVQHVMQMAYVARYIERYADHITNIGENIFYQVKGRTYDLN	PGPT0002630_3759	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ARSENIC_RESISTANCE	ARSENIC_RESISTANCE-PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002630-phoU|phoY-K02039	NA	NA
AK012_00964	843	pstB3	COG1117	Phosphate import ATP-binding protein PstB 3	ATGAGTAAAGTAATGGAAAAGAAAACAAACGTAAGAAACGAACAGACAAAAAAACCAGAAGTGAAATCAGAGGTTAATAAAGAGAAAGCCAGCAGCATCATTGAAGTCAATGATTTGAATTTATGGTATGGATCGGACCAGGCTCTTTATGAAGTCAGCATGGACATCCCGCAGGAGCGTGTAACAGCTATTATCGGTCCTTCAGGCTGTGGGAAATCCACGTTCCTGAAAACATTGAACCGTATGGTCGAAATGGTACCGATTGTAAAAACATCCGGTTCCATCAAATATCGTGAACAGGATATCTTCAGCAGCAAATTCAAGCAGGAATACCTCCGTACGAAAGTGGGGATGGTTTTCCAAAAGCCGAACCCATTCCCTAAATCCATCTATGATAACGTTGCTTACGGACCGAGGATTCACGGCGTGAAGAAAAAGGAAATCCTTGATCAGATTGTGGAAAAGAGTCTGAAGGGGGCAGCCATCTGGGATGAGCTGAAAGATCGTCTTCACGAGAATGCGTACGGATTATCCGGTGGTCAGCAGCAGCGTGTCTGTATTGCGCGTGCCCTTGCTGTTGAACCGGATGTCATCCTGATGGATGAGCCGACATCAGCACTGGACCCTATTTCCACCGCAAAAGTAGAGGAATTGGTTCAGGAACTTAAAGAAAAATACAGCATTGTGATTGTTACACACAACATGCAGCAGGCAGCCCGTATTTCTGATAAAACGGCTTTCTTCCTTAACGGGGAGCTGATTGAATACGCTGATACCGACAATCTGTTCCAGAACCCTCAGGATAAGCGTACAGAGGATTATATTACAGGACGGTTCGGCTGA	MSKVMEKKTNVRNEQTKKPEVKSEVNKEKASSIIEVNDLNLWYGSDQALYEVSMDIPQERVTAIIGPSGCGKSTFLKTLNRMVEMVPIVKTSGSIKYREQDIFSSKFKQEYLRTKVGMVFQKPNPFPKSIYDNVAYGPRIHGVKKKEILDQIVEKSLKGAAIWDELKDRLHENAYGLSGGQQQRVCIARALAVEPDVILMDEPTSALDPISTAKVEELVQELKEKYSIVIVTHNMQQAARISDKTAFFLNGELIEYADTDNLFQNPQDKRTEDYITGRFG	PGPT0002615_735	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
AK012_00965	879	pstA	COG0581	Phosphate transport system permease protein PstA	ATGCTTGGACAGAATGAACAGAATATTAAGCGGCGTATGGAAGGCAGGGTAGCCGCAAATAAAATCTCTATGGTTTTATTTGGACTTGCTACAGCTGTCGGCCTGATCGTTCTAGTTCTACTCTTTTACCGTGTATTGACTCAAGGGGTTGGATACCTCAGCTTAGATTATATTTTAAACTTTCCTGCTCCGTACCCGGAGGAAGCAGGAATTTATGCCGGATTGATCGGTTCGATTTTCTTAATGATCATTGTTGCTGTATTCTCGATCATCATTGGAGTTTCTACAGCCTTATATCTTGAAGAATACGCACCCAAAAACCGCTTTACAGACTTTATTCGTGTGAACATTCAAAACCTTGCCGGCGTACCATCGATTGTATTTGGACTGTTAGGATTGACCTTCTTTGTCTATATGTTCAGCTTTGGTTATACGCTTCTTGCTGGTGGTTTGACAATGGCGCTTCTTATTCTTCCAGTTATCGTTGTTGCCTCACAGGAAGCGGTAAGATCCGTCCCTTCTGAAATCAAGGAAGCTTCCTACGGAATGGGTGCTTCCAAGTGGCAGACCATTGCGAGGGTGGTTCTTCCAGCAGCGATACCTGGAATTTTAACCGGTGCCATTATCGCTTTATCACGGGCTATCGGAGAAACAGCCCCGTTGATTATTGTAGGGGCAGCTACAGCTATTTATACACTGCCGGATTCGCTGCTTGCGAAGTATACCGTCATGCCGATTCAAATTTATAACTGGACGGGCAGACCGCAGGAGGAGTGGCAGTATGTGGCCGGTGCAGGAATCATTATTCTGCTCGCAGTCCTGCTTCTGATGAACTCCATCGCTGTTTTGATCCGGAACAAATATCAGAGACGCTTTTAA	MLGQNEQNIKRRMEGRVAANKISMVLFGLATAVGLIVLVLLFYRVLTQGVGYLSLDYILNFPAPYPEEAGIYAGLIGSIFLMIIVAVFSIIIGVSTALYLEEYAPKNRFTDFIRVNIQNLAGVPSIVFGLLGLTFFVYMFSFGYTLLAGGLTMALLILPVIVVASQEAVRSVPSEIKEASYGMGASKWQTIARVVLPAAIPGILTGAIIALSRAIGETAPLIIVGAATAIYTLPDSLLAKYTVMPIQIYNWTGRPQEEWQYVAGAGIIILLAVLLLMNSIAVLIRNKYQRRF	PGPT0002610_3902	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-PUTATIVE_PST-PHO-PIT_TRANSPORT_SYSTEM,PGPT0002610-pstA-K02038	NA	NA
AK012_00966	990			hypothetical protein	ATGGCAGTCTCACCCTGCCTTATGGATGAGAGGAGTTTAATGATGGACAAAGGTTTGCAATCAGAGGGGAATATGATTGACGTCCAGCAAATGATTGAGAACAATAAGAAAAAGAAAACGTTGGGTGAGAGAATAGAGAAAATCATCCCGTTTTTCCTTCTTTTGTGTGCAGCAGTAAGTGTTCTCACTACACTGGGAATTTTATTTACTTTATTGAGAGAATCGATTGGGTTTTTCTCTGACGTTTCAATTGTTAATTTCTATACAGGTACAAACTGGTCTCCGTGGTCCGGCGAATATGGTGTTGCTCCGTTAATTGGCGGTACACTCCTTGTTACGCTTATTTCAACACTTGTTGCAGTTCCACTTGGACTAATGGCAGCCATTTTCTTGAGTGAGTATGCGAATGATAAAGTTAGAAGGGTCATCAAGCCTATCCTGGAAGTCCTGGCTGGTATTCCTACAGTCGTCTACGGATACTTTGCTTTGACGTTCATTACTCCAATGTTTCAATCAATTATTCCTGACCTTGGAATTTTCAACGCCTTAAGTGCAGGGGTTGTAGTAGGGATTATGATTATTCCTATGGTTGCATCGCTGTCTGAAGATGCAATGAACTCTGTACCAAATGCTTTACGTGAAGGTGCTTATGGACTGGGGGCAACGAAATTGGAAGTTGTGTTTAAGGTTGTACTTCCGGCAGCGTTATCCGGAATTGTGGCTTCCATCGTGCTGGCCATATCGCGTGCAATCGGGGAAACGATGATTGTAACGATTGCAGCGGGAGCTACACCAAACCTTACTTTCAACCCGACGGAGTCCATCCAGACGATGACTGCCTTTATTGTACAGGCTGCCACAGGGGATACGACTTTCGGATCCACCATCTATTACAGCCTATATGCAGTAGGAATGACCTTGTTTGTCTTCACTTTGGTCATGAACCTTATTGCCCAGTACATTTCGCGTAAGTTCAGGGAGGAATATTAA	MAVSPCLMDERSLMMDKGLQSEGNMIDVQQMIENNKKKKTLGERIEKIIPFFLLLCAAVSVLTTLGILFTLLRESIGFFSDVSIVNFYTGTNWSPWSGEYGVAPLIGGTLLVTLISTLVAVPLGLMAAIFLSEYANDKVRRVIKPILEVLAGIPTVVYGYFALTFITPMFQSIIPDLGIFNALSAGVVVGIMIIPMVASLSEDAMNSVPNALREGAYGLGATKLEVVFKVVLPAALSGIVASIVLAISRAIGETMIVTIAAGATPNLTFNPTESIQTMTAFIVQAATGDTTFGSTIYYSLYAVGMTLFVFTLVMNLIAQYISRKFREEY	PGPT0002620_3322	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
AK012_00967	999	pstS		Phosphate-binding protein PstS	ATGAAGAACTTCAAGAGTTTAGCTTTAATGCTTGCATTCATCCTTGTAGTAGGAGTGCTTGCAGCATGCGGTGGTTCCGAAGAAGGAAATACAGAGGAACAGGACAGTGCAAATGGTGAAGGTTCTGGAGAAGAAAGTTCCGAGGAAGTATCCGGACCGATTGACATTGATGGTTCTTCTACGGTGTTCCCGATCATGGAAAACTTAACGTATTCCTATCAGCAGGAGCAGCCGGAAGTCGACGCGACATTGAACTCTTCCGGTTCCGGCGGTGGATTCAAAAAATCTACAGTTGGTGAAATTGATCTAAGTAACGCTTCCCGTGAAATCAAGGAAGAAGAAATGGCAATCGCTGAAGAAAATGACATTACTCTTGAGCCGCTGGAGCTGGCTTACGATGGTCTTTCTGTAGTAGTAAGTGCTGAAAATGATTTCGCTGAGGAGCTTACGATCGAGCAGCTCAAGCAGATTTTCCTTGATTCTTCTGACGCTCAAATGTGGTCTGACATCAACCCTGACTGGCCTGAAGAAGAAATCAAAATCTTCAGCCCTGGTCACGATTCCGGTACATTCGATTACTTCAATGAAGTAGTTCTTGAAGAAGAGCCGATGAAAGAAGGCGAAAACACAACTCTTTCTGAGGATGACAACGTTCTTGTGCGCGGAATTAAAGACAATCCAAATGCTATCGGATTCTTCGGTTATGCGTATTATGCTGAAAACGAGGACAGCCTGAAAGCTCTTGCGATTTCTGAAGGCGAAGGAGAAGCGGTTGAGCCGACTCCGGAAACGATTCAGGATGGTTCTTACACTCCACTTTCCCGTCCGTTGTTCACATATGTTAACGTGAATGCTTATAAAGAAAAAGCACAGGTTCGTGACTTTGTTGAGTACACATTGAACAATGCTGGTAAAGCAGCTGAAGAAGTTGGCTATGTAGCTCTTCCAGACGAAAAGTATCAAGAACAGCTTGATATGGTCAGCGGCTGGGCAGAGTAA	MKNFKSLALMLAFILVVGVLAACGGSEEGNTEEQDSANGEGSGEESSEEVSGPIDIDGSSTVFPIMENLTYSYQQEQPEVDATLNSSGSGGGFKKSTVGEIDLSNASREIKEEEMAIAEENDITLEPLELAYDGLSVVVSAENDFAEELTIEQLKQIFLDSSDAQMWSDINPDWPEEEIKIFSPGHDSGTFDYFNEVVLEEEPMKEGENTTLSEDDNVLVRGIKDNPNAIGFFGYAYYAENEDSLKALAISEGEGEAVEPTPETIQDGSYTPLSRPLFTYVNVNAYKEKAQVRDFVEYTLNNAGKAAEEVGYVALPDEKYQEQLDMVSGWAE	PGPT0002625_4597	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
AK012_00968	2166	pbpH	COG0768	Penicillin-binding protein H	ATGGGGAAAAACAAAAACAAACGGTATAAACATAATACACACCTTCCCTTTCGGCTGAACGTGGTGTTTTTTATTGTGTTCGTTTTATTTGCCGGGATCATCCTCCAGCTCGGCGTTGTTCAGATTTTGAATGGCGAGGAAGCTCAGGATGAAATAGACCGGACGGAAAATACAACAACGACCATTTCTGTCCCGCGGGGAGAAATGTATGATAGTCAAGGAAAGGTGATTGTTGATAACGAGCCTCTGTATTCCATTACGTATACACCACCCAAAGGTGTGCAGGCCGGGGACAAGCTGGAACTTGCTCAAACGCTGTCCTCTTACCTGGATATGGACTATGAAAATCTTACGGATCGCGATTTGAAGGAATATTATTACCTGCAGAATGAACAGGAAATCCGTGACCGTGTAGAAGATCAAGTAACAGAAGATATGGACAACGGGGAAGTGTACCAGCTGCAGCTGGACAGCATTACGGATGAGGAGATTTCCAGCTACGACAATCAGACGAAGGAAATCATCGCTGTTAAGAAAGAATTGGATCAAGCATACTCCCTGGCACCACATGTGATAAAGAATTCGGATATTACGGAAGCAGAGTATTCCGCTGTGGCAGAAAACCTGGCGAAGCTTCCAGGTGTCAATGTCACTTCGGACTGGGAACGTACATATCCGTATGAATCCGCGTTCCGCAGTTACCTCGGAAGTATCACTTCAAGTGAGCAGGGTCTCCCCCGGGACGACCTGGATTATTACATGTCTCTGGATTACAGCCGTAACGACCGTGTAGGTACAAGTGGGCTTGAGCAGCAGTATGAAGAAGTGCTCAGGGGAACCAAGGAAAAAGTGCAGTATGAAACTGACAGCAACAACAACGTCATCGATTCCAAAGTTATCAGGGAAGGCCAGGCAGGAAAAGACCTTCAATTGACGATTGATATGGAACTCCAGGAAAAAGTGAACAAAATTGTCCAGGAAGAGCTCCAGTCAGCGATTGTCAATGCACCTTCTCTAAACCGGCACTTGGAAAATGCCATTGCGGTCGTGTCAAATCCGCAGACAGGCGAAATTCTGGCTATCAGTGGCCAGACCTATAACCGTAATCCGGAAGAAGGAGAGGGCCGTTTTACAGACACTTCTCACCAGGCGCTGTATAATGCCTATATGCCGGGGTCAACGGTTAAGGGAGCGACGGTTTTGACTGGTCTTCATGAAGGTGTTGTGACACCAAATACTTGGATTAATGACAAACCAGTAACAATTGGCGGAGGCCAACCGAAAAGTTCCTACACATCCGGCATTGGAACAGTAAATGATATTGCTGCCCTGCAGCAGTCCTCCAACGTCTACATGTATTTCCTTGCGATGTATTTAGGTGGGGAAACAAGCAACCGTTATGATATGAATGCTCTGAAGCTTAAAGACGGAACGTTGGATAAGTTCGTATATAACTTCAATCAGTTTGGTCTAGGGGTGCCGACAGGGATTGATTTTCCATATGAGGCCTCAGGTGTAAAAGGAAGTCTGACTCAGCCCGGGCAGATTCTTGACTTTTCCATCGGACAGTTCAATACGTATACAGCTATGCAGCTGAATCAATACGTTTCAACAATTGCCAACGGTGGTGACCGCATCCGTCCTCGTCTTGTGAACAGTGTCCATGAACCATCCAACAGTGACGGCCTCGGACCGGTGTATAAAGATTATACGCCGGAGGTGCTGAATCAGCTTGATGCGGATACATCGTATATCGAGCGGGTTCAGGAAGGGTTCAGACAAGTGGCTCAGACGAGTGAAGGTACGGCCAGTTCCGTTTTCGGAAAGCAGCCTTATGCCCAATATGATATGGCTGTGAAGACGGGTACGGCACAGGCATCGAAAACCGTATTCAGTGAAGACGGAGAGCGGACAACCTATGATGATCTTCTGAACAAGACACTAGTCGGCTATGCTCCATCCGATAATCCGGAAATTGCCTTCTCGATTATCTCTCCATATTTAGGAGAGGGTGCATCGAGCACATTCGGCATCAGTAATAACATTGGTGCAAGAATCGGTGAGGCGTACTTTGAGCTGAAAGAAGCACGAGAAAATGGTACGGCTGACGAAGGTCCTGGAGAACAAGAGAATAACAATGGAGAAGATGCAGAAACTGAGGAGTGA	MGKNKNKRYKHNTHLPFRLNVVFFIVFVLFAGIILQLGVVQILNGEEAQDEIDRTENTTTTISVPRGEMYDSQGKVIVDNEPLYSITYTPPKGVQAGDKLELAQTLSSYLDMDYENLTDRDLKEYYYLQNEQEIRDRVEDQVTEDMDNGEVYQLQLDSITDEEISSYDNQTKEIIAVKKELDQAYSLAPHVIKNSDITEAEYSAVAENLAKLPGVNVTSDWERTYPYESAFRSYLGSITSSEQGLPRDDLDYYMSLDYSRNDRVGTSGLEQQYEEVLRGTKEKVQYETDSNNNVIDSKVIREGQAGKDLQLTIDMELQEKVNKIVQEELQSAIVNAPSLNRHLENAIAVVSNPQTGEILAISGQTYNRNPEEGEGRFTDTSHQALYNAYMPGSTVKGATVLTGLHEGVVTPNTWINDKPVTIGGGQPKSSYTSGIGTVNDIAALQQSSNVYMYFLAMYLGGETSNRYDMNALKLKDGTLDKFVYNFNQFGLGVPTGIDFPYEASGVKGSLTQPGQILDFSIGQFNTYTAMQLNQYVSTIANGGDRIRPRLVNSVHEPSNSDGLGPVYKDYTPEVLNQLDADTSYIERVQEGFRQVAQTSEGTASSVFGKQPYAQYDMAVKTGTAQASKTVFSEDGERTTYDDLLNKTLVGYAPSDNPEIAFSIISPYLGEGASSTFGISNNIGARIGEAYFELKEARENGTADEGPGEQENNNGEDAETEE	PGPT0023930_165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023930-pbpA-K21465	NA	NA
AK012_00969	1236			hypothetical protein	ATGATGAGTAAGCTGCGCACATGGCTGAGCCGCGAAAACGTTTCTAGAGATTTATTATTGTTACTTCTCATTGGAGGCTTGTACTCCCTCGGAATATTTTTATCCAGCACTTTTGTGAACATTTACTTATGGAAGCAGTCCAACAGCTACACGGATATCGCTCTTTATAATCTCAGTATATACATCTTTCAGCCGCTCACTTTTATCATCGCGGGCCGGTGGGCGAAAAAAATGGACCGGGTGATTGTGCTGAGAACAGGTGTAACGGTCCTTTCGTTATTTTTCCTGACTGTGCTGATGGTAGGGGAGCGGGCGGCTTCATTTAATTTAATGCTTGGAGCCCTGTTAGGAATCGGTTACGGTTTTTACTGGCTCGCTTATAATGTCCTGACTTTTGAAATAACAGAGCCGGACACGAGAGATTTTTTTAACGGATTTCTTGGTGTCCTTCAGTCGCTTGGAGGCATGACAGGACCGCTTCTGGCCGGGATTATTATTTCACGCCTGAATAACTTTACAGGGTACACCGTCATATTCAGTGTATCCTTTGCGCTGTTTATTGTGGCTGTTTTGGTCAGCTTTGGCTTATCAAGGAGGAAGGCGAGAGGGAATTTTTCCTTCCAGCGGATCGTCAAAGAGCGCAGGCATAATGTGGACTGGAAACGTATCTTGAATGCCCATGTAGCCCAGGGGTTTAGAGAAGGGACTTTTTTATTCGCTGTATCGATATGGATCTTCATCCTTACAAAGAATGAGCTGTCTCTCGGTGTTTTTAATTTGGTTTATTCCGGTTTTTCGTTCATGTTTTATTTTCTTGTCAGCAGGTGGGTGAAGCCGAAGCGGAGAAAAACATCGATTTTTATTTCCGGACTCTGTTTATATGCGAGCGTCGTCATCCTTCTATTCAGCAGTACGATGCCGCTGCTTTTACTATACGCAGCTGTAGCCGGGATCTTTTTCCCGCTGTTATATGTGCCTTATGTGTCTCTCACTTATGATGTCATCGGGAGATCATGGAATGCGGCTGAGATGAGGATTGAATATATCGTTGTCCGGGAGATTTTCTTGAATATGGGAAGAGTCCTGTCCATCCTCGTCTTTTTAGGGGCAATTACGTTCATTCCACCGGAAACGGGTATTCCTTACATCCTGCTTCTTGTTGGTGGTGGACACTTCCTGATCTATTTCTTCATTAAAGGAATCGACTCGAAACCTCGACGCGTGACCCATAATTGA	MMSKLRTWLSRENVSRDLLLLLLIGGLYSLGIFLSSTFVNIYLWKQSNSYTDIALYNLSIYIFQPLTFIIAGRWAKKMDRVIVLRTGVTVLSLFFLTVLMVGERAASFNLMLGALLGIGYGFYWLAYNVLTFEITEPDTRDFFNGFLGVLQSLGGMTGPLLAGIIISRLNNFTGYTVIFSVSFALFIVAVLVSFGLSRRKARGNFSFQRIVKERRHNVDWKRILNAHVAQGFREGTFLFAVSIWIFILTKNELSLGVFNLVYSGFSFMFYFLVSRWVKPKRRKTSIFISGLCLYASVVILLFSSTMPLLLLYAAVAGIFFPLLYVPYVSLTYDVIGRSWNAAEMRIEYIVVREIFLNMGRVLSILVFLGAITFIPPETGIPYILLLVGGGHFLIYFFIKGIDSKPRRVTHN				NA	NA	NA	NA	NA
AK012_00970	615	sodA		Superoxide dismutase [Mn]	ATGGCTAAATTTGAACTACCAGAACTACCTTACGCATACGATGCATTGGAACCAACGATCGATAAGGAAACAATGAACATCCACCATACGAAGCACCACAACGGATATGTAACAAAGCTGAACAATGCACTTGAAGGACATGCTGATCTTCAGGACAAATCATTGGAAGAGCTTCTATCCAACAATCTTTCAGCAGTACCGGAAGATATCCGCACAGCTGTGCGCCGTAACGGTGGCGGCCATGCCAACCACAGCCTTTTCTGGACAATCATGTCTCCAAACGGCGGCGGTGAGCCGACAGGGGATCTGGCTACTCAGATCAACGATACTTTCGGAGGCTTTGATCAATTCAAAGAAAAATTCGAAACGACAGCAACCGGCCGCTTCGGTTCAGGCTGGGCTTGGCTTGTAGTCAATAATGGCAGCCTGGAAGTGATTGATACACTAAACCAGGATTCTCCGATCATGGAAGGTAAAACGCCGATCCTTGGCTTGGATGTATGGGAGCACGCGTACTACTTGAACTACCAGAACCGCCGTCCGGATTACGTTTCTGCATTCTGGAACGTCGTTAACTGGGACGAAGTAGCGAAGCGCTTCGACGCAGCTAAATAA	MAKFELPELPYAYDALEPTIDKETMNIHHTKHHNGYVTKLNNALEGHADLQDKSLEELLSNNLSAVPEDIRTAVRRNGGGHANHSLFWTIMSPNGGGEPTGDLATQINDTFGGFDQFKEKFETTATGRFGSGWAWLVVNNGSLEVIDTLNQDSPIMEGKTPILGLDVWEHAYYLNYQNRRPDYVSAFWNVVNWDEVAKRFDAAK	PGPT0004190_3616	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
AK012_00976	1638			hypothetical protein	ATGGAAATCGATGTGCAGCAGATGATATTCGAATTCATCGGCGGGCTAGGTATTTTCCTGTTTGGAATTAAATTTATGGGAGACGGCCTTCAAAAAGTAGCGGGAGACCGTTTGAGGGAACTTTTAGACCGTTTTACCAGCAATCCGTTAATGGGAGTCATTGCGGGTGCGGTCGTAACTATTCTTGTTCAAAGTAGTTCGACAACAACTGTATTGACGGTTGGATTGGTTAACGCTGGATTTATGACCTTTAGACAAGCCATTGGTGTTATTATGGGTGCCAATATTGGGACGACTTTTACTGCATTCATTATTGGTATTGATGTGAAAGAATATGGACTGCCTATACTGGCGCTTGGTGCCTTGTTGATTTTCTTCTTCAAGAACAAAAAAGTATCCAATATCGGACAGACCGTTTTTGGACTTGGTGCGTTATTCTTCGGTCTTGAATTAATGAGTGGAGGAATGAAACCGCTCCGCTCCCTTGAAGCATTCAGGGAACTGACATTAAGTATGAGTGAGAACCCTGTTCTTGGTGTTGTCATCGGTACACTGTTTACAGTGATCGTGCAGAGTTCCAGTGCTACGATCGGTATTCTTCAGGGGCTGTTCGGAGAAGGCCTTGTTGATATTCAAGCCTCTCTTCCGGTTCTTTTCGGGGATAACATTGGGACAACCATTACTGCTGTCATTGCAGCTATCGGAGCCAGTGTAGGAGCGAAGCGCGCTGCCTTTGTGCACGTTATTTTCAACGTGCTGGGTGCTACCGTTTTCCTCATTCTATTAAAGCCTTTCACCTTATATGTGGAGTGGCTTCAGGGCTATCTGAACCTTGGACCTGAAATGACCATTGCCTTTGCGCACGGATCTTTCAACATCGCCAACACAGTGGTCCAGTTCCCATTCATCGCTGTTCTGGCGTGGATTGTAATCAAGCTTGTACCTGGGAATGATTCACTGATCGAGTTCAAACCACAGCATCTTGATCCGATCTTTATCGATCAGTCTCCTTCTCTTGCGCTTGATCAAGCGAAGGAAGAAGTGGTCCGTATGGGTGAATACGCCTATAAAGGGTTGGAAGAAACAAGTCTGTATCTGAATAACAAACAGCAGAAACACTCAGAGATTGCGATGCAGATTGAAGACGCTCTGAATAACCTTGATCGGAAAATCACGGATTACCTGGTTGATCTTTCTCAAGCATCCCTGACGGATGAAGAAAGTAGAAAGCACTCTGCATTGATGGATTCGGTCCGTGACCTGGAACGGATCGGAGACCACTTTGAAAATATCATCGAGCTCATCGATTATAAGAACTCCAACAAAGTAAATCTGACTGCTCAAGCCGTCGACGATTTGAACACGATGTTTGATTTAACGTTGATGACCGTGAAGCAGGCAACTAAATCCCTTGAAAGCATGAGCCGCGAGGAAGCACTCGCCGTTGTCCAGAAGGAAAATGAACTGGACCGGATGGAACGAAGCTATCGTAAGAAGCACATCATCCGCTTGAATGAAGGGGTATGTACAGGACAGGCTGGTATCGTATTTGTGGATATGATCAGTAATCTCGAACGAATTGGAGACCACGCTGTGAATATCGCAGAAGAAGTACTGGGAGAAAAAGAGAGTCTGTAA	MEIDVQQMIFEFIGGLGIFLFGIKFMGDGLQKVAGDRLRELLDRFTSNPLMGVIAGAVVTILVQSSSTTTVLTVGLVNAGFMTFRQAIGVIMGANIGTTFTAFIIGIDVKEYGLPILALGALLIFFFKNKKVSNIGQTVFGLGALFFGLELMSGGMKPLRSLEAFRELTLSMSENPVLGVVIGTLFTVIVQSSSATIGILQGLFGEGLVDIQASLPVLFGDNIGTTITAVIAAIGASVGAKRAAFVHVIFNVLGATVFLILLKPFTLYVEWLQGYLNLGPEMTIAFAHGSFNIANTVVQFPFIAVLAWIVIKLVPGNDSLIEFKPQHLDPIFIDQSPSLALDQAKEEVVRMGEYAYKGLEETSLYLNNKQQKHSEIAMQIEDALNNLDRKITDYLVDLSQASLTDEESRKHSALMDSVRDLERIGDHFENIIELIDYKNSNKVNLTAQAVDDLNTMFDLTLMTVKQATKSLESMSREEALAVVQKENELDRMERSYRKKHIIRLNEGVCTGQAGIVFVDMISNLERIGDHAVNIAEEVLGEKESL	PGPT0002650_1457	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0002650-yjbB-K03324	NA	NA
AK012_00977	627			hypothetical protein	ATGCTGGAAACAGATTGGATAGCACTGCTGATTACATTCTTTGGAACCATGTTCCTGATCGGTGAACTGCTTGTTAACATGCGCGGCATTTTCGCTGTGCTGGGACTCGGGTTTATTACTGTGTTTTTCTCCAGTTATCTTGCTGTGGATATGTTTATCATTATGATGTTCGTTTATTTCCTCGGTCTTACACTTATGATCATTGATGGGAAGCTGATCAATGATGGAACACTGGCCACCATAGGAGCGGCAGCGATGATTACAGCTGTGGGCTTTAGTGCGCCTACCTGGACTGCGGGATTATACAGTGTCATTGGAGTCATTGCCGGGGGCTTCGCAGCGCTTGTTTTCCTTAAGGTTTTCAAACGGAGAAACATGTGGAACAAAATGGCGTTGAATGATCAGATGACATCGGAAATGGGCTACAATTCCATGAATGAAACGTATCAGAAGCTTCTGGGGAAAACAGGGACTGCCCGGACGGATATGCGTCCTTCCGGAACCATTGAGATAGAGGGAGAGGACTACAGTGCTGTCTCGAATGGTCAGTGGATCTATAAGGATCAGCCTGTAACGGTCGCTTCTGTAGACGGGACTAAAATTATGGTTAAGAAGGTTCATGATTAA	MLETDWIALLITFFGTMFLIGELLVNMRGIFAVLGLGFITVFFSSYLAVDMFIIMMFVYFLGLTLMIIDGKLINDGTLATIGAAAMITAVGFSAPTWTAGLYSVIGVIAGGFAALVFLKVFKRRNMWNKMALNDQMTSEMGYNSMNETYQKLLGKTGTARTDMRPSGTIEIEGEDYSAVSNGQWIYKDQPVTVASVDGTKIMVKKVHD				NA	NA	NA	NA	NA
AK012_00978	1113	ispG	COG0821	4-hydroxy-3-methylbut-2-en-1-yl diphosphate synthase (flavodoxin)	ATGCCAATTACGCACAGAAAAGATACACGTCCCGTCAAAGTCGGGGACCTTACCATAGGTGGTTCAGATGAAGTTGTCATTCAGTCCATGACCACAACGAAAACGCACGACGTCGAGGCTACTGTAGCTGAGATTAAACGTCTGGAAGAGGCCGGATGCCAGGTCGTCCGTGTTGCCTGCCCTGATGACCGTGCCGCTGATGCCATTCCTGAAATCAAAAAACGTATCAACATTCCACTCGTTGTCGATATTCACTTCGATTATAAGAAAGCCTTGAAAGCCATTGAGGGCGGCGCGGATAAAATCCGTATCAACCCCGGAAACATTGGTAAACGTGAAAAAGTCGAAGCTGTTGTCAAAGCAGCGAAAGCCAAAGGGATTCCGATTCGTATCGGAGTAAACGCAGGTTCCCTTGAGCGTCATATCCTTGAAAAATACGGTTACCCTACAGCTGATGGAATGGTTGAGAGTGCCCTTCACCATATTAAGATTCTTGAAGACCTCGACTTCCATGACATCATTGTTTCCTTGAAGGCTTCAGACGTCAAGCTTGCCATTGAGGCCTACGAAAAAGCGGCGGCCGCTTTCAATTATCCGATCCACCTTGGTATTACAGAATCCGGAACACTTTTCGCCGGTACGGTCAAAAGTGCCGCCGGTCTTGGTGCCATTCTTAGTAAGGGAATTGGAAGCACCGTCCGTATCAGTTTAAGTGCTGATCCTGTAGAGGAAGTGAAAGTAGCCAAAGAACTACTGAAGACTTTCGGACTCGCGTCCAACGCAGCCACCCTGATTTCATGCCCGACATGCGGACGAATTGAAATCGACCTGATTTCCATTGCCAATGAAGTCGAGGAGTACATTCAGAGCATTAAAGCCCCGATTAAAGTAGCTGTCCTTGGCTGTGCGGTAAATGGGCCGGGTGAAGCCCGTGAAGCAGATATCGGCATCGCCGGTGCCCGCGGTGAAGGTCTTCTTTTCCGCCACGGGGAAATCATCCGCAAAGTGCCTGAGGATATCATGGTCGAAGAACTTAAAAAAGAAGTAGATAAGCTGGCTGAAGAGCACTACGAGAAAGAGCGTCAAAAAAAGCTTGAACAGCAGCAATCCTAA	MPITHRKDTRPVKVGDLTIGGSDEVVIQSMTTTKTHDVEATVAEIKRLEEAGCQVVRVACPDDRAADAIPEIKKRINIPLVVDIHFDYKKALKAIEGGADKIRINPGNIGKREKVEAVVKAAKAKGIPIRIGVNAGSLERHILEKYGYPTADGMVESALHHIKILEDLDFHDIIVSLKASDVKLAIEAYEKAAAAFNYPIHLGITESGTLFAGTVKSAAGLGAILSKGIGSTVRISLSADPVEEVKVAKELLKTFGLASNAATLISCPTCGRIEIDLISIANEVEEYIQSIKAPIKVAVLGCAVNGPGEAREADIGIAGARGEGLLFRHGEIIRKVPEDIMVEELKKEVDKLAEEHYEKERQKKLEQQQS	PGPT0007580_3338	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007580-gcpE|ispG-K03526	NA	NA
AK012_00979	522			hypothetical protein	ATGTACGATCCGAAAGAAACTGTTGAGAATCAAACAGAAAATGCGCCCCATTACGGGAATGCCCGGGAAGAGGTTCATGAAGATGAACCAACGAGGGAGCAGGTGCTGGAAGAGGCATTTGACGAAATTCAGGACAGCGATTTAAGAAAAGAAGCCGGGTATGACAAGGTGGAATCCGTGGATGATCACGGCCGCGGTCCATATCAGCCTGTTTATGGGGACAGTTATGAAGAGGAATTTGCCCAGGAGGCAGCTATCGGTCCCATTGACGAACCGATGAACAATGGGGAGCAGGAAACGACAATGGAGGAAGATGTAAAAGTAGGAATGGCCTGGCTGGGATTATCAGCCGCTATCCTTTCCTTCTTCTTTGCTCCGCTCATTCTAGGTGCCGCAGGGATTATCCTTGGAATTGTCGGAAAGAGAAGAGGAGCCGACACACTTGGAAACATGGCGATCATCATCAGTGTCGTTTCCATTGCTTTTTCTCTCTTCTTCGCTCCGTTCATTAACTTCCTGTAA	MYDPKETVENQTENAPHYGNAREEVHEDEPTREQVLEEAFDEIQDSDLRKEAGYDKVESVDDHGRGPYQPVYGDSYEEEFAQEAAIGPIDEPMNNGEQETTMEEDVKVGMAWLGLSAAILSFFFAPLILGAAGIILGIVGKRRGADTLGNMAIIISVVSIAFSLFFAPFINFL				NA	NA	NA	NA	NA
AK012_00980	729			hypothetical protein	ATGAATGAGCATCAATCTATTCTTCGAACGGTCCTTGCCATGCTGTTAATCAGTCTTGTCTTCATTACTTATCATCAATGGCATCAAAATGAACAGCAGGCAATGGCGGATGCAAATAAATCATTAAAAGAAAGTCAGGAGGAGCTTGAGGGGGAAAAGGAAAAGCTCGCTTCGGTCAACGCCTATCTAAAAGACCAGTCTTCAGAGAATAAACGAAAAAATGGGTTTTTGACATGGCCGGGGATTGAAGATCAGGCCGATATCCTTGTACAGGAAAGTGATGGAGCCTTTAAAAAGGCGTGGGCGATGTATTTAGTAAAAGAGGCTAAGCGCTACGATCTGGATCCCTACCTCGTTTATGAGCTGTTAAAGGTGGAAACCGGAGGAACGTTTGATCCTGAACTTGTAGGCCCTGAAACAGAATATGGACGTGCCTACGGCATGTCCCAGTTCATGAAAAATACGGCTCCGTGGATTGCGGATATGGCTGGACTTCCCTATGAGGAGGAGCTGTTGTTTGATCCTTATTACTCCATGCAGTTATCATTCGTTTATCTGGATTATTTAAACAATCGTTATCAAAATTGGGATGAAGCATTAACCGCTTATCACCGGGGAATGTCAGGTCTGGAACAGTATAAAGATGAACATGGTCATGCAGAGAGCTGGTATGCGGTGGAAATTCAGGAAAGCGCCGAAGCTCATACGACTCTGGCTTCAGCTGAATAA	MNEHQSILRTVLAMLLISLVFITYHQWHQNEQQAMADANKSLKESQEELEGEKEKLASVNAYLKDQSSENKRKNGFLTWPGIEDQADILVQESDGAFKKAWAMYLVKEAKRYDLDPYLVYELLKVETGGTFDPELVGPETEYGRAYGMSQFMKNTAPWIADMAGLPYEEELLFDPYYSMQLSFVYLDYLNNRYQNWDEALTAYHRGMSGLEQYKDEHGHAESWYAVEIQESAEAHTTLASAE				NA	NA	NA	NA	NA
AK012_00981	285			hypothetical protein	ATGAAGAAGATGGCCCAACAATTCATTACCCAGAAATTGAAGCAGTTAACCGTTAAAGAACTGCTTCAATACAGCAGGAAGTATCAGATTCCAATCACAGAAGAAGAAGCACAGGCCATTATTAAAGCGTTAAGAAAGAATAAGGAAAACCCTTTTGAAAAAGACGGGCGGAAAAGAATGTTGAAAAAGCTTGCGGGGCTGACCTCTGTAGACACAGCGCGGTCGGTAAATAAACTGCTTCATAAGCTGGCCAAAGAATACGGGGTCGAGGAATGGCTGAAATAA	MKKMAQQFITQKLKQLTVKELLQYSRKYQIPITEEEAQAIIKALRKNKENPFEKDGRKRMLKKLAGLTSVDTARSVNKLLHKLAKEYGVEEWLK				NA	NA	NA	NA	NA
AK012_00982	897	nfo	COG0648	putative endonuclease 4	ATGGTAAAAATTGGTTCACACGTATCAATGAAAGGGAAGAAAATGCTTTTAGGCGCGAGTGAAGAAGCAGCTTCCTACGGCTCCGGAACATTTATGATCTATACAGGCGCTCCTCAAAACACGCGCCGCCGTCCAATAGAAGAACTGAATATTGAAGCGGGCCGTGAACATATGAAAGCCAGCGGGATCGAAGATATCGTAGTCCATGCGCCTTATATCATCAATGTAGGCAATACAACCAAGCCGGAAACCTTCCAGCTCGGTGTCGATTTCCTGCGCAGTGAAATCGAGCGCACAGAGGCGCTGGGAGCAAAGCAGATCGTTCTGCATCCGGGCTCCCACGTAGGTCAGGGAGTGGATAAAGGTCTTCCGAAGATTATTGAAGGCCTGAATGAAGTGCTTCATAAGGATCAGCATGTGCAGATTGCCCTGGAAACAATGGCGGGTAAAGGCTCTGAAATTGGAAGAAGCTTTGAGGAGCTCGCACAGATCATTGATGGCGTAACCTTGAACGAAAAGCTGTCGGTATGTATGGATACATGTCATATTCATGACGCTGGTTATAATGTTGTGGAGGATTTCGATGGTGTCCTGAACGAATTTGATAAGATTGTCGGGTTGGACCGTTTGAAAGTCATCCACGTCAATGATAGTAAAAATATTCAGGGAGCGGCGAAGGACCGCCATGAAAACATCGGGTTTGGCCACATCGGTTTCGATGCGCTCCATAAAGTCATTCATCACCCACAGCTGAAGGATCTTCCGAAGATATTGGAAACTCCATACGTCGGGGAAGATAAAAAGAACAAAAAACCTCCATACCGTTTTGAAATCGATATGGTTAAACAAGGGACGTTTGATCCGGACCTTAAAGAAAAAATTCTTAATCAGGCATAA	MVKIGSHVSMKGKKMLLGASEEAASYGSGTFMIYTGAPQNTRRRPIEELNIEAGREHMKASGIEDIVVHAPYIINVGNTTKPETFQLGVDFLRSEIERTEALGAKQIVLHPGSHVGQGVDKGLPKIIEGLNEVLHKDQHVQIALETMAGKGSEIGRSFEELAQIIDGVTLNEKLSVCMDTCHIHDAGYNVVEDFDGVLNEFDKIVGLDRLKVIHVNDSKNIQGAAKDRHENIGFGHIGFDALHKVIHHPQLKDLPKILETPYVGEDKKNKKPPYRFEIDMVKQGTFDPDLKEKILNQA				NA	NA	NA	NA	NA
AK012_00983	1320	cshB	COG0513	DEAD-box ATP-dependent RNA helicase CshB	ATGAGTAAGCATACTTTTGAACAATACGCAATTTCTTCTACAGTGAGCAGAATTGTAGAAGGACTGGGCTTCAAGCAGCCCACACCAATTCAGCAGCAGGTGCTGCCACCGGCATTAAGAGGGGAAAGCTTGATCGGACAATCCCATACCGGATCCGGCAAGACACATGCCTACCTGCTGGCTTTATTCAGCCGGATGGATGAGAACGCCGATGCCGTACAGTTTGTCATTACTGCACCTACACGGGAACTGGCTATTCAGATTCACGAAGAAGTGAAAAAGGCGGTTAAACACGCAGGAAAACAGGAGGTATGGCGGTCCAAACTGTTGATTGGCGGAACGGATAAACAGAAGATGGTGGAGAAGCTGTCTTCCAATCCCCCTCAGATCATCGTAGGAACACCAGGGCGTATCCTTGATATGGTGAAAGAGGAAGCGGTGGATCTTTACCAAGCGAAGTCCTTTGTTTTAGACGAAGCCGACTTGATGCTCGACCTTGGCTTTATTGAAGAAGTCGATCAGATTCTTGTGCGGATGGCCGAAGACGTCCAGATGCTTGTTTTCTCTGCAACCATCCCTGAACGGCTGCAGCCATTCCTGAAAAAATATTTAACTAATCCGACTCATATTGAAATTGAAGACGATAAGCCTTCACCGGAAACGATGGAGCATCGACTGATTCCTCTCCGCCATAAACAGCCGGGGGAAGTCATCATGGACATTACGAAGGCGATTCAGCCTTATCTAGCTATCATTTTCACAAACGGGAAAGGGCTTGCGGACGAGCTGGCGGATGATTTGATAAGCCGCGGGCTGGAAGTCGGAGTCCTTCACGGAGGTTTGTCCCCCCGGGAAAGAAAAAGAGTACTGAAGGAAATCCAAAACCTCCGCTATCAATACATTGTAGCTACTGATTTGGCTGCACGCGGTATTGATATCCAGGGTGTCAGCCATGTGATCAATGCTCAGATGCCGAAGGAAGAGGAGTTTTATATTCACCGCGTCGGCCGGACAGCACGGGCTGGTCTTGAAGGTACAGCAATCAACCTTTATCAGGAAACGGATCTCCCTTTGATTCAAAAACTGGAAAATAAAGGTTTATCCTTCCAATTTTTCGAAGTGAAACAAGGGGAATGGAGAGAAGTGAATGCCTACAATGAGCGTCAGATTCGTGAAAAGAAGGAAACGAATCTGGATAAGCAGGCTAAACAACTCGTCCGTCGTCCGAAGAAAGTAAAACCGGGCTATAAGAAAAAGATGAAAAAACAGGCGGAACAAAATAAACGCAGATTGAAGCAGAATCGTTTTAAAAAGAAATAA	MSKHTFEQYAISSTVSRIVEGLGFKQPTPIQQQVLPPALRGESLIGQSHTGSGKTHAYLLALFSRMDENADAVQFVITAPTRELAIQIHEEVKKAVKHAGKQEVWRSKLLIGGTDKQKMVEKLSSNPPQIIVGTPGRILDMVKEEAVDLYQAKSFVLDEADLMLDLGFIEEVDQILVRMAEDVQMLVFSATIPERLQPFLKKYLTNPTHIEIEDDKPSPETMEHRLIPLRHKQPGEVIMDITKAIQPYLAIIFTNGKGLADELADDLISRGLEVGVLHGGLSPRERKRVLKEIQNLRYQYIVATDLAARGIDIQGVSHVINAQMPKEEEFYIHRVGRTARAGLEGTAINLYQETDLPLIQKLENKGLSFQFFEVKQGEWREVNAYNERQIREKKETNLDKQAKQLVRRPKKVKPGYKKKMKKQAEQNKRRLKQNRFKKK				NA	NA	NA	NA	NA
AK012_00984	957	ispH	COG0761	4-hydroxy-3-methylbut-2-enyl diphosphate reductase	ATGGAAGTTATTAAAATCGCCCCTCGCGGTTATTGTTACGGAGTCGTAGATGCCATGGTCATCGCACGAAATGCTTCAAAAGACCAGAATCTGCCGCGCCCGATTTATATATTAGGTATGATTGTCCATAATTCCCACGTGACCGAGGCCTTTAAAGAGGAAGGTATTATCACTGTTGATGGTAAAAACCGCAGCGATATGCTGGAAGGTATTCACGAAGGAACGGTGATTTTCACTGCGCACGGCGTTTCCCCACAGGTGAAGGACCGGGCCCGCGACAAAGGACTGACTGTTCTTGACGCCACATGCCCGGATGTTACCAACACCCACAATTTGATCCGCAGCAAAGTCGCGGAAGGATTCGAAGTCATTTATGTCGGTAAAAAAGGACACCCTGAGCCGGAAGGTGCCATGGGGGTTGCTCCCGGCAAAGTCCACCTTGTACAGACGGAGGAAGACGTGGAAAACCTTGAGCTGGACCATGACAAACTGATGATCACCAACCAGACGACGATGAGTCAATGGGATGTGTATGATGTCATGGAAAAAGCCAGGGAGAAGTTCCCACAGCTTGAGAAACAGCAGGAGATCTGTATGGCCACCCAAGTGCGTCAGGAGGCTGTTGCAGAACAGGCAGGGCAGGCCGACTTGACACTCGTAGTCGGTGATCCTATGAGTAATAATTCCAACAGACTTGCCCAGGTATCCAAGGAAAAGGCTGGAACCACCGCCTACCGGATTGCCGATGTCACAGAAATTGACCTGGATTGGCTGGAAGATGTCCATACCGTAGCGGTAACAGCCGGAGCTTCAACTCCGACACCGATTACAAAAGAAGTGATTAAATTCATCGAGCAGTTTGATCACGAGGACGAATCTACATGGATTCGTGAATCCAAAGTCGAACAGAAGAAAATTCTCCCTCCAGTAAGAGCCCGTAAAAAAGTGAAACGATAA	MEVIKIAPRGYCYGVVDAMVIARNASKDQNLPRPIYILGMIVHNSHVTEAFKEEGIITVDGKNRSDMLEGIHEGTVIFTAHGVSPQVKDRARDKGLTVLDATCPDVTNTHNLIRSKVAEGFEVIYVGKKGHPEPEGAMGVAPGKVHLVQTEEDVENLELDHDKLMITNQTTMSQWDVYDVMEKAREKFPQLEKQQEICMATQVRQEAVAEQAGQADLTLVVGDPMSNNSNRLAQVSKEKAGTTAYRIADVTEIDLDWLEDVHTVAVTAGASTPTPITKEVIKFIEQFDHEDESTWIRESKVEQKKILPPVRARKKVKR	PGPT0007615_1025	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007615-ispH|lytB-K03527	NA	NA
AK012_00985	1116		COG0327	GTP cyclohydrolase 1 type 2	ATGACGAAAATGACAGCCGGACAGATCATCAAAACGTTTGAAAAGTGGGCGCCGAAAAGCTTTGCTTATGACTGGGACAACGTAGGTCTTCAGGTCGGCAGTCTGAACAAGCCCGTGGAAAATGTAATGGTGACGCTGGACGTTGTGGAAAGTGTCGTAGATGAGGCCGTTGAAAAAAAGGTGGACCTTATTATAGCTCACCATCCCTTGTTATTTGTGAAGCTCCATCAAATCAATGTGGATACGCCAAAAGGCCGGGTCGTGCAGAAGCTGATCAAACATGATATCACGGTTTATGCAGCGCACACGAATCTGGATGTTGCCGAAGGCGGAGTGAATGACGTGATGGCAGATCTACTTGAAGTTCAAGACCGTCGTCCGCTTATTCCGACTGAAACAGACAAGCTGATTAAACTGGCTGTGTTCGTTCCGGATTCCCATCTGGAAGTGGTAAGGGACGCCGTGAGTGGAGCAGGTGCCGGCTTTATTGGTGATTACAGCCACTGTACCTATCAGGTTTCGGGTGAGGGAACGTTTAAACCACAAGAGGGTACGAATCCCTTTATCGGGGAGCAGGGCCGGTTGGAGCAGGTACAGGAAAAACGTTTGGAAACCATTGTCCCGCAGGAGAAGCTGTCTGAGGTTCTTCAGGCAATGGAAAGCGCCCATCCTTATGAAGAGGCGGCTTACGATCTTTATCCCCTTCTTAATGAAGGCCGGACGCTTGGCATTGGCAGGGTAGGACAACTGGAAGAGCCCGTCTCCCTTAAGGACTTTGCCGATAAGGTGAAGGAACGCTTCCATGTTGCTCATGTACGCGTGGCAGGAAACATGGAAAAGACGATTAAAACCGTTGCCCTTCTCGGAGGCAGTGGGGAAAAATATATTCATAAGGCAAAGAGAAGCGGTGCTGATGTATATGTAACAGGAGATATGACCTTCCATATGACTCAGGATGCCGTGGAGATGGGCCTGAATGTCATTGATCCCGGGCACCATGTAGAGAAGGTTGTCTGTGCAAGAGTGCAGCAGTATCTGGAGGAACACTGCAATGAGAATGGAGCATTGAAGGTCCTTCTTTCTGAAGTGGATACAGAACCTTTTGCAATCCAGTAA	MTKMTAGQIIKTFEKWAPKSFAYDWDNVGLQVGSLNKPVENVMVTLDVVESVVDEAVEKKVDLIIAHHPLLFVKLHQINVDTPKGRVVQKLIKHDITVYAAHTNLDVAEGGVNDVMADLLEVQDRRPLIPTETDKLIKLAVFVPDSHLEVVRDAVSGAGAGFIGDYSHCTYQVSGEGTFKPQEGTNPFIGEQGRLEQVQEKRLETIVPQEKLSEVLQAMESAHPYEEAAYDLYPLLNEGRTLGIGRVGQLEEPVSLKDFADKVKERFHVAHVRVAGNMEKTIKTVALLGGSGEKYIHKAKRSGADVYVTGDMTFHMTQDAVEMGLNVIDPGHHVEKVVCARVQQYLEEHCNENGALKVLLSEVDTEPFAIQ				NA	NA	NA	NA	NA
AK012_00986	708	trmK	COG2384	tRNA (adenine(22)-N(1))-methyltransferase	ATGAATGTACACCAACTATCCGGGCGTCTGGCAAAGGTAGCGGAATATCTGCCTGCAGGAGCACGGTTTGCGGATATAGGATCTGACCATGCCTACCTGCCTTGTTATGTCTGCTTAAAAGACCCGCAGGCAGAAGCCGTCGCCGGTGAGGTCAATCAAGGTCCTTATGACAGTGCAATGGATGAAGTGAAATCCCATAACCTGGAGTCCAGAATCCATGTCAGACTGGGAGATGGTCTCGACGTGGTCCAGCCTGGAGAAGTAGAACAGGTGACCATTGCCGGCATGGGAGGTCCGTTAATCCGGGATATCCTTGCCAGGGGAGAGGATAAGCTGACTGCGGTCAACCGCATCATCGCACAGCCGAACATTGATGCGCGGTCCATCCGTCAGTGGTTTTACAGCCATGGATACAACCTCGTTGATGAACAGATCATGGAGGAAGGCGGTCACATATACGAAATACTCGTTGCGGAAAAAGGGGATCCGGCCGGTGCTTATGATCCTGTCAACATGGAAAAGGAGCTTTGGCTCGGGCCTTACCTTATGAAGGAAAAGTCTAAGGCCTTCCGCAGGAAGTGGCAGGAGGAAATGGCGAAGAAAACCTATATCCTTGATCAAATGCAGAAAGCATCTGCAGTAGATACGGAAAAAGTGGAACTGCTTCAAAAGGAAATCAAATGGCTGGAGGAGGTTTTATCAAAATGA	MNVHQLSGRLAKVAEYLPAGARFADIGSDHAYLPCYVCLKDPQAEAVAGEVNQGPYDSAMDEVKSHNLESRIHVRLGDGLDVVQPGEVEQVTIAGMGGPLIRDILARGEDKLTAVNRIIAQPNIDARSIRQWFYSHGYNLVDEQIMEEGGHIYEILVAEKGDPAGAYDPVNMEKELWLGPYLMKEKSKAFRRKWQEEMAKKTYILDQMQKASAVDTEKVELLQKEIKWLEEVLSK				NA	NA	NA	NA	NA
AK012_00987	369			hypothetical protein	ATGAGAAAGAACCCTGTGATCCCATTTGCAATTATCGCTGTACTGGGGATCGTAGCCATGATCATTGTTTCTTCTGCCGGTATCAACCAACGTGAAGCGATTGAGAGCGAGGAAGAAGGCGGCGGAGAACAGACGGAAGAAACCGCATCCGCTGATCCGGAAGAAATGTACCAGAACAAGTGTTCCAGCTGCCATGGGGGCGACTTGAGTGGAGGCGCAGGTCCGAACCTCCAGGAAGTCGGATCCCGTTATTCAGCAGAAGAGATTCAGGACATTATCATCAATGGTAAAGGATCGCAAATGCCACCAGGTCTTTATACAGGTGAGCAGGCGGCTCAGCTGGCAGAATGGCTCGCTGAGAAAAAATAA	MRKNPVIPFAIIAVLGIVAMIIVSSAGINQREAIESEEEGGGEQTEETASADPEEMYQNKCSSCHGGDLSGGAGPNLQEVGSRYSAEEIQDIIINGKGSQMPPGLYTGEQAAQLAEWLAEKK				NA	NA	NA	NA	NA
AK012_00988	534			hypothetical protein	ATGCAGGAAGAGCGTACGAAAACCATCATACATGAGATTCAATACTGGAAAGAAAACCGTCTTCTTCCCTCGGAATACTGTGACTTTCTGCTGGCATTGTATACCAAAGGCGAGGAAGAAAAACCCGGCCCTGCTCCAGTACGGACTGTACAGCCGCTGGTCCCGGTCTTTGTTCTGCTCAGCCTGTTTATGATACCCCTTACATTACTTGTCATTTATTTTACTGAAATGGGATTCATAATGCAAACAGGGCTTTTGTCGTTTTTTGTAGGACTGGTATGGTTTATGAGTGGATGGTTACACTATAAACGAACAGACTGGTATTTGATCCCTTTTGTGAATGGTCTGTTGATCATTTTTTCCGCGTCCATCTTTTTGCTTGATCACTGGACAGCTTCCGTCCGGGCCATCCACCTGACCATGTTGTTTCATTTTTTTCTGTGGGTCATCCTTGGGTGGTTGATGAACATCCGTTTTTTATTGTGGAGCGGCGTAACCGCTGTCATTTTATGGATCTTTTTCATTGTTTTATAA	MQEERTKTIIHEIQYWKENRLLPSEYCDFLLALYTKGEEEKPGPAPVRTVQPLVPVFVLLSLFMIPLTLLVIYFTEMGFIMQTGLLSFFVGLVWFMSGWLHYKRTDWYLIPFVNGLLIIFSASIFLLDHWTASVRAIHLTMLFHFFLWVILGWLMNIRFLLWSGVTAVILWIFFIVL				NA	NA	NA	NA	NA
AK012_00989	1134	sigA	COG0568	RNA polymerase sigma factor SigA	ATGGCAGAGAAGAAACAACAGCCATCACGTTCTAAAGAAACTGAAAATCAGACGGAATTGACCCTGGAGCAGGCCAAGGAGCAGGTCGTAGAGTTAGGGAAAAAACGAGGGATCCTTGCATATGAAGAGGTGGCCGAGAAATTATCCAGCTTTGAACTTGACTCTGATCAGATGGATGAATTTTATGAGCATCTGAACGAGCAGGGAGTGGAAGTCATCGGTGATTCGGATTCAGACCCGAGTATAAAGCAGCTTGATAAGGAAGAGGAATTCGACCTTAATGACTTAAGCGTGCCTCCTGGTGTTAAAATCAATGACCCGGTCCGTATGTATCTGAAAGAAATCGGACGCGTCAATCTGTTATCAGCCAAAGACGAAATCAGTCTTGCCCAGCGTATTGAAAATGGGGACGAAGAAGCAAAAAGGGATTTGGCAGAAGCCAACCTTCGTCTTGTCGTAAGTATTGCCAAGCGTTACGTCGGACGCGGCATGCTTTTTCTTGACCTTATTCAGGAAGGAAACATGGGTCTGATTAAAGCCGTGGAAAAATTCGATTACCGTAAGGGATATAAATTCAGTACCTATGCTACGTGGTGGATCAGACAGGCGATTACCCGTGCCATTGCCGACCAGGCACGTACCATTCGTATTCCCGTCCACATGGTGGAAACCATTAACAAACTGATCCGGGTACAGCGTCAGCTCCTTCAGGATCTCGGACGCGAACCGACTCCGGAGGAAATTGCGCAGGATATGGATCTTACACCTGATAAAGTCCGTGAAATCCTTAAGATTGCCCAGGAACCTGTATCATTGGAAACGCCGATTGGTGAAGAGGACGATTCCCATCTTGGTGATTTCATTGAGGACCAGGAAGCAACCTCTCCATCTGACCATGCCGCTTATGAGTTATTGAAGGAACAGCTTGAAGATGTTCTTGATACGCTGACAGATAGAGAAGAAAATGTTCTGCGCCTGCGTTTCGGTCTTGATGACGGACGCACGAGAACGCTGGAAGAGGTAGGGAAAGTGTTTGGGGTAACCCGGGAACGGATCCGTCAGATTGAAGCGAAAGCCCTTCGTAAGCTGAGACACCCAAGCCGGAGCAAGCGCCTTAAAGACTTTATGGAATAA	MAEKKQQPSRSKETENQTELTLEQAKEQVVELGKKRGILAYEEVAEKLSSFELDSDQMDEFYEHLNEQGVEVIGDSDSDPSIKQLDKEEEFDLNDLSVPPGVKINDPVRMYLKEIGRVNLLSAKDEISLAQRIENGDEEAKRDLAEANLRLVVSIAKRYVGRGMLFLDLIQEGNMGLIKAVEKFDYRKGYKFSTYATWWIRQAITRAIADQARTIRIPVHMVETINKLIRVQRQLLQDLGREPTPEEIAQDMDLTPDKVREILKIAQEPVSLETPIGEEDDSHLGDFIEDQEATSPSDHAAYELLKEQLEDVLDTLTDREENVLRLRFGLDDGRTRTLEEVGKVFGVTRERIRQIEAKALRKLRHPSRSKRLKDFME	PGPT0014685_1148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-ENERGY_METABOLISM	CE-BACTERIAL_FITNESS-OXYGEN_AVAILABILITY_SIGNALLING,PGPT0014685-rpoS-K03087	NA	NA
AK012_00990	1812	dnaG	COG0358	DNA primase	ATGGCTGGACACATTCCAGAAGAAAAAGTAGATGAAATTCGGAAATCGACCGACATTGTGGAAGTGATCGGTGATTATGTTGACTTAAAAAAGCAGGGTAGAAACCATTTTGGTCTATGTCCATTCCACGGGGAAAACACTCCTTCTTTTTCCGTTTCGCAAGATAAACAGATTTTCCATTGTTTTGGTTGTGGAAAGGGAGGGAATGTCTACACCTTCCTTATGGAAATGGAAGGGTACAGTTTTGTACAGGCGCTCAGGCAGCTTTCTGAACGCACAGGTGTGGAAATTCCAGATCAATTTGCAGAGGAAAACAACACCGGGGCGGATAATCAGGAATCCCAGGCGATGCTTGAGGCTCACCAGTGGCTGACAAAATTATACCATCATTTGTTAAAGAATTCCAAGGATGGCCGCAAAGCCTATGAATATCTTTTGGAACGGGGTTTCACAGAAGAGACCATCCAGAAATATCAGCTCGGGTATTCACCGGATGATAAGGACTTTGTCGTAACCTTTCTTGAGAAAAAAGGTTTTCACCCGCAGGCGATGGTCAAAGCCGGTCTTTTAAGTGTGAATGATCAGGGGAATTATGCCGACCGCTTTCGCGGAAGGGTCATGTTTCCGCTTCGCAACCACCTTGGAAAAACGGTGGCTTTTGCGGGGAGATCCCTTGGAGATCAGGAGCCGAAATATTTGAACAGTCCGGAAACGGATCTGTTCCATAAAGGACGGCTGCTTTACAACTTTGATCTTGCCCGGTCTTCTATACGGAAGGAAAAAACCGTCGTTCTATTTGAAGGGTTCGGGGATGTTATATCCGCTGCCCAGTCGGGAATCCCTTATGCAGTAGGGACGATGGGGACATCGCTTTCCAGCACACAGGCCAATTTATTAAAAAAGTATGCGGATCAGATCATCGTCTGCTATGACGGTGACCGGGCCGGCATCGAAGCGGCAGTCAAGGCTGCCAAGCTCACAAAGAGTATTGGTTGTCAGACGTTTGTCGCCCGCGTGCCTGACGGTCTCGATCCGGATGATTTCATCCGCCGGCACGGAGGCGGCCGCTTCAAAAAAGAAGTGCTTGATACGAGTGATACGTACATTTCCTTCATGATGAGTTATCTCCGCAGGGATTATAACCTGCAGGTGGAAGGAGATCGGATCGCTTATATCGAAAAAGTACTACAGGAGATTGCCACTCTTGACCGTGCCGTCGAGAGGGAGCATTACTTGAATGAACTGTCGTCTGAATTTCAATTATCCCTGGAAACCTTAAAAGAGGAAATCAGTCAGATAAGAAGTCGTCAAGGTGTGAAGGATAATGAGCCGAGGAACCGATATACTAATCCTAAGAGGGAAACATCGGTTCAGAACAAGCTTCTTCCTGCCTTTCATAATGCAGAAAGAAAGCTGATTGCATATATGTTGAAAGATCCCTATATTGCTGATAAAGTTCAGGAGGAAATAGGAGGGGCTTTTAACATAGAAGATCATCAGGTCATTGTCACCCATCTTTACGCATATTATGAAGACGGCAATGAATCAGATATCAGTCAGTTCGTTGAAATGATTGAAGATATGTCCATCAAAAACCTCGTGATCGAGCTCGCTATGGCCCCCGTCAGTGAGGAAGTATCCGATCAGGAAATCCATGATTATATTGAACGGATTCGATTGGAAAGCTGGGATCGAACGGATATCAAGAGCCTGGAATCCGAGTTGAAACGGGCCGAACAGCAGAATGAGCCGATCAAGGCAGCGGAAATTGCGATGGAGATTATAAAGCGGAAAAAAGAATTAAAAGCGTAA	MAGHIPEEKVDEIRKSTDIVEVIGDYVDLKKQGRNHFGLCPFHGENTPSFSVSQDKQIFHCFGCGKGGNVYTFLMEMEGYSFVQALRQLSERTGVEIPDQFAEENNTGADNQESQAMLEAHQWLTKLYHHLLKNSKDGRKAYEYLLERGFTEETIQKYQLGYSPDDKDFVVTFLEKKGFHPQAMVKAGLLSVNDQGNYADRFRGRVMFPLRNHLGKTVAFAGRSLGDQEPKYLNSPETDLFHKGRLLYNFDLARSSIRKEKTVVLFEGFGDVISAAQSGIPYAVGTMGTSLSSTQANLLKKYADQIIVCYDGDRAGIEAAVKAAKLTKSIGCQTFVARVPDGLDPDDFIRRHGGGRFKKEVLDTSDTYISFMMSYLRRDYNLQVEGDRIAYIEKVLQEIATLDRAVEREHYLNELSSEFQLSLETLKEEISQIRSRQGVKDNEPRNRYTNPKRETSVQNKLLPAFHNAERKLIAYMLKDPYIADKVQEEIGGAFNIEDHQVIVTHLYAYYEDGNESDISQFVEMIEDMSIKNLVIELAMAPVSEEVSDQEIHDYIERIRLESWDRTDIKSLESELKRAEQQNEPIKAAEIAMEIIKRKKELKA				NA	NA	NA	NA	NA
AK012_00991	393			hypothetical protein	ATGAGCGCAGACTGCGGCGTAACAGCCAGATTCATTGCTACGGTTAATCATTTCAGTACAGAGAAGTCGAGGGGGTCCTGGACCTTCGTGGATGATGGGTCCCAGTCTGTAGACCTTTACATTTTGAATGCAGCTGCCAAGGGAGATGTAGTCATTACACAGGACTTGTCGCTGGCTGTTCTTCTGACCTCTAAAGGGGTTTATGTGATGACACCTCGAGGAAAACTGATAAAGGAATCCGATGCCGATCATATTATGAACCAGAAGTTTATCCGGCAGCAGACGATGAAGCAGAAGCGTAAATGGAAGGGGCCTTCCGCCTTTACGGACAAGCATAGAGAAGAGTTCCGGGAAACTTTCCAATATTTGTTGTCTGAATATGAAGGAATTTAG	MSADCGVTARFIATVNHFSTEKSRGSWTFVDDGSQSVDLYILNAAAKGDVVITQDLSLAVLLTSKGVYVMTPRGKLIKESDADHIMNQKFIRQQTMKQKRKWKGPSAFTDKHREEFRETFQYLLSEYEGI				NA	NA	NA	NA	NA
AK012_00992	813	yqfL_1	COG1806	Putative pyruvate, phosphate dikinase regulatory protein	ATGGAGAAACCATTAATTTATGTACTATCCGATTCCGTAGGGGAGACCGCTGAGCTGGTTACGAAAGCCTGTTTAAGCCAGTTTGATGACGGACCTTTTGACCTTCAGCGCATCCCGTATGTAGAAGATAAAGGGACCATTAACGAAGCTGTCCTTCAAGCGAAAGAGCACGATGCAATGATCGGCTTTACACTTGTCGTTCCTGAATACAGGACTCATCTCAAACAGGAAGCCGAAAAGCACGGGGTCCGGTGTGTAGACATAATGGGCCCGATGATGGAAGCGATGGAAAGCCACTTGAAGATTCAGCCGCGGCTTGAACCCGGTCTTGTTCATAAGCTTGATGAAGATTATTTCAAGCGGGTGGAAGCGATCGAATTTGCTGTCCGGTATGATGACGGTCGTGATCCAAGAGGCATTGCCAAAGCAGACATTGTGTTGATCGGTGTGTCACGTACATCCAAAACACCATTGTCGCAGTATCTTGCCCATAAAAGGCTGAAGGTGGCCAACGTCCCCATCGTACCGGAAGTCCAGCCCCCCTCTGAACTTTTCCGGGTGGATCCGGAGAAATGCATCGGGTTGAAAATCAGTGCAGAGAAGCTGAATGATATCCGCAAGGAACGATTGAAATCCCTGGGGCTTGGGGATCAGGCGACTTATGCCAATCTGGAGCGTATCAGCCAGGAATTGGAGCATTTCAATCGAATTGTCGATAAAATCGACTGTCCGGTGATCGATGTTTCCAATAAGGCTGTTGAGGAAACGGCTAATATCATTTTGAATAAACTGAGGAAAGATGCTCAGGAATAA	MEKPLIYVLSDSVGETAELVTKACLSQFDDGPFDLQRIPYVEDKGTINEAVLQAKEHDAMIGFTLVVPEYRTHLKQEAEKHGVRCVDIMGPMMEAMESHLKIQPRLEPGLVHKLDEDYFKRVEAIEFAVRYDDGRDPRGIAKADIVLIGVSRTSKTPLSQYLAHKRLKVANVPIVPEVQPPSELFRVDPEKCIGLKISAEKLNDIRKERLKSLGLGDQATYANLERISQELEHFNRIVDKIDCPVIDVSNKAVEETANIILNKLRKDAQE				NA	NA	NA	NA	NA
AK012_00993	630	ccpN	COG0517	Transcriptional repressor CcpN	TTGGAATTATCAAACCGGCAGGAGCAGATTATTCAAATTGTGAAGGATAATGGACCGATTACCGGAGAGAACATCGCAGAAAGACTGGAATTGACACGGGCAACCCTGCGTCCCGATCTCGCTATATTAACGATGGCGGGGTATCTGGATGCACGGCCCCGGGTTGGGTATTTTTTCACGGGGAAGACAGGTTCTGAACTTTTTACAGAAAAGCTGAAAAAGTTCAAAGTGAGGGAATACCAGTCCCTCCCTGTTGTTGTTGAGGAAGACGTATCGGCCTATGATGCGATTTGCGCGATGTTTCTTGAGGATGTCGGAACATTGTTTGTCACCAACAATAAATCCCTCCTTGTCGGCGTCCTGTCCAGGAAGGACTTGCTCAGGACAAGCATCGGATCGAAGGATTTGACGTCTGTCCCGGTTCATATGATTATGACGCGGATGCCGAATATTACGATATGTGAGCCTGAAGATCTTCTCTTGGACGCCGCCCAGAAGTTAATAGAAAAACAGATCGATGGTCTGCCGGTCGTGAACCCAGCAGCAGACGGGCTTGAAGTCGTTGGGCGTTTAACGAAGACGAACATAACGAAAGCCCTTGTAGAACTTGCACGCGATCAGCATATTTGA	MELSNRQEQIIQIVKDNGPITGENIAERLELTRATLRPDLAILTMAGYLDARPRVGYFFTGKTGSELFTEKLKKFKVREYQSLPVVVEEDVSAYDAICAMFLEDVGTLFVTNNKSLLVGVLSRKDLLRTSIGSKDLTSVPVHMIMTRMPNITICEPEDLLLDAAQKLIEKQIDGLPVVNPAADGLEVVGRLTKTNITKALVELARDQHI				NA	NA	NA	NA	NA
AK012_00994	2085	glyS	COG0751	Glycine--tRNA ligase beta subunit	ATGAGTAAGACAGTATTATTTGAGCTCGGCCTGGAAGAACTTCCTGCCCGTTTTATTAATGACGCTCTTGCCCAATTACAAGATAAAACAGAAAAATGGCTGACAGATCATCGGATTCCTTTCGGTGACATCCACGGCTTCGCTACACCGAGAAGACTGGCTGTTCAAATTACAGAAGTCGCTGATAAGCAGCCGGACATAGAAGAAGAGGCGAAGGGGCCTGCTAAAAAAATCGCCCTCGATGACGAAGGGAACTGGTCGAAAGCTGCCATCGGTTTTACTAAAGGACAAGGCAGAGATGTGGATGATATATACTTCAAGGAAATCAAAGGTACAGAATACGTGCACGTCCGTAAATTCATTGAAGGAAAGGAAACAGCTGCCCTTCTTGAGAAATTTGGAGATGTTTTCCTTTCTCTAAACTTTCCGAAGAATATGCGCTGGGGATCCCGTGATCTCCGTTTTGCCCGTCCGATCCGATGGATGGTGGCTTTATTCGGTGAACAGATCATTCCTTTCCAGATTGAAAACGTTCAGACAGACCGCCTGACATCCGGCCATCGTTTCCTTGGTTCGCAAACGGCCATACCAAATGCCGATGAATACGAACAGACACTTTCCGATCAATATGTCATGGCCTCAGTGAAAAAACGTGAGGATCGAATTATAAGCCAGCTAAAACAGCTGGAAGAGAAGCAGAACTGGAAGCTGATGATGGACGAGGACCTTCTCGAAGAAGTGACCCAGCTGGTGGAATACCCAACCGTGTTCAGCGGAGCCTTTTCTGAAGAATTTCTGGAGGTACCTGAGGAAGCCTTGATCACATCAATGAAAGAGCATCAGCGCTACTTCCCGGTACGATCCACTGAAAATGAACTGCTTCCGTATTTCGTTGGGGTGCGCAATGGAGATGACCAGAACATAGACAATGTCGCCCGTGGAAATGAAAAGGTATTGAAAGCTCGCCTGAAAGATGCACAGTTCTTTTATGAGGAAGACCAAAAAGGAAGCATTGATGAGAAAATGGAGAAGCTTTCCCGTATGGTTTATCAGGAGGAACTGGGGACGCTTGCGGATAAGGTGCAGCGCATAACGGCGATTACAGGTAAGCTGGGTGAATGGCTTGGTCTGAGTGAAGAAGAAAGCCGGAAAGCTAAGCGCGCCGCTGAAATCTGTAAATTTGACCTTGTCACCCAGATGGTCGATGAGTTCACCGAGCTTCAGGGAGTGATGGGGGAGAAGTATGCCCGCCTGTTTGGTGAAGATGAGGAAGTGGCTGCAGCCATTAATGAGCACTATATGCCACGTCAAGCGAATGGTGATGTACCTGCCTCCACCATTGGTTCCATAGTAAGCATTGCGGATAAACTCGATACCATAGTCGGCAGTGTGTCGATCGGAAATGTACCAACAGGTTCCCAGGACCCTTACGGTTTAAGAAGACAGGCGCTCGGCATTCTTCAGACGTTGAACAGCCGTGGCTGGTCTGTCTCTGTTGAGAAACTGATCGACCTTGTTCACCAGTTCTATGTAGAGCTTGAACTTCCGACGAGATCAGAGGAAGAGGTTCACAAAGATCTTCATGAATTTTTCCGTGTCCGTGCCGCCTATCTGCTCCGTGAAAAACAAGTGGATCCCGATGTGGTGGAAGCTGTTCTTGCCCAGGGAATCGGTCACTTCCCTGTTGCAGGAAGAAAGGCAGAACTGCTGGTTGAAAAACGGAATGAACCTTCTTTCAAACCTGTGCAGGAAGCGCTCGGCCGTGTATTGAATCTAGCGAAGAAAGCCGACGCGGAAACAGTGCGCCCAGAGCTGTTTGAGAACAAAGAAGAGCAGCAGCTTTACGATGTTTTCCAAACGGTCCATGAAACTTACAGCCGTCAGATGTCTGAAGGCCGAGTAGAAGAAGCCTTGGAAACCCTGTCGGAACTGGCGGATTCCATTCACGCCTTCTTTGACGCCGTTATGGTCATGGCGGAGGATGAGAAAGTCAGAAGCAACCGTCTAGGTCTGCTGAAGCAGATTTCTGAAGACATTTATCAGTATGCGGATTTGACACAAATCGAGTGGAAACAGCAGTTCTAA	MSKTVLFELGLEELPARFINDALAQLQDKTEKWLTDHRIPFGDIHGFATPRRLAVQITEVADKQPDIEEEAKGPAKKIALDDEGNWSKAAIGFTKGQGRDVDDIYFKEIKGTEYVHVRKFIEGKETAALLEKFGDVFLSLNFPKNMRWGSRDLRFARPIRWMVALFGEQIIPFQIENVQTDRLTSGHRFLGSQTAIPNADEYEQTLSDQYVMASVKKREDRIISQLKQLEEKQNWKLMMDEDLLEEVTQLVEYPTVFSGAFSEEFLEVPEEALITSMKEHQRYFPVRSTENELLPYFVGVRNGDDQNIDNVARGNEKVLKARLKDAQFFYEEDQKGSIDEKMEKLSRMVYQEELGTLADKVQRITAITGKLGEWLGLSEEESRKAKRAAEICKFDLVTQMVDEFTELQGVMGEKYARLFGEDEEVAAAINEHYMPRQANGDVPASTIGSIVSIADKLDTIVGSVSIGNVPTGSQDPYGLRRQALGILQTLNSRGWSVSVEKLIDLVHQFYVELELPTRSEEEVHKDLHEFFRVRAAYLLREKQVDPDVVEAVLAQGIGHFPVAGRKAELLVEKRNEPSFKPVQEALGRVLNLAKKADAETVRPELFENKEEQQLYDVFQTVHETYSRQMSEGRVEEALETLSELADSIHAFFDAVMVMAEDEKVRSNRLGLLKQISEDIYQYADLTQIEWKQQF				NA	NA	NA	NA	NA
AK012_00995	888	glyQ	COG0752	Glycine--tRNA ligase alpha subunit	TTGAATATTCAAGATATGATTTTAACGCTGCAGAATCACTGGTCCAACCAGGGATGTCTGTTGATGCAGGCTTATGATACTGAAAAAGGGGCCGGGACGATGTCACCAATGACGCTGCTTCGAAGCCTCGGGCCGGAGCCATGGAACGTAGCCTACGTGGAGCCTTCCCGTCGACCAGCGGACGGCCGTTACGGCCAGAACCCGAACCGTTTGTATCAGCACCACCAGTTCCAGGTCATTATGAAGCCGTCACCCGATAACATCCAGGAGTTGTATTTAGACTCTCTTCGTGCTCTGGGGATCGATCCGCTGAAGCATGATATCCGTTTTGTTGAAGATAACTGGGAAAATCCAACCCTTGGAGCCGCAGGTCTTGGATGGGAAGTGTGGCTGGATGGAATGGAAATTACGCAGTTCACGTACTTCCAGCAGATCGGTGGGCTGGAAGCGAAGCCGGTCTCAGCAGAAATCACCTACGGACTTGAACGTCTGGCGTCTTATATCCAGGATAAGGAAAATGTGTTTGATCTGGAGTGGACCAATGGGGTGACAGTCGGGGATATCTTTACTCAACCGGAATATGAACATTCCGTATATACGTTCGAAGCGTCTGATGAAAAGATGCTGTTCGATTTGTTTACGACTTATGAAAAGGAAGCTGAACGCATCATGGAGCAGGGTCTCGTGTTCCCGGCGTATGATTATGTGCTGAAGTGTTCGCATACGTTCAACCTGCTGGACGCAAAAGGGGTCATCAGTGTAACTGAACGAACGGGGTACATTTCCCGCGTCCGTAACCTGGCCCGTAAAATTGCGAAAACGTACGTCGAAGAAAGGGAACGCCTCGGCTTCCCAATGTTGAAGAAAGAAGGTGGAGCAGATGAGTAA	MNIQDMILTLQNHWSNQGCLLMQAYDTEKGAGTMSPMTLLRSLGPEPWNVAYVEPSRRPADGRYGQNPNRLYQHHQFQVIMKPSPDNIQELYLDSLRALGIDPLKHDIRFVEDNWENPTLGAAGLGWEVWLDGMEITQFTYFQQIGGLEAKPVSAEITYGLERLASYIQDKENVFDLEWTNGVTVGDIFTQPEYEHSVYTFEASDEKMLFDLFTTYEKEAERIMEQGLVFPAYDYVLKCSHTFNLLDAKGVISVTERTGYISRVRNLARKIAKTYVEERERLGFPMLKKEGGADE				NA	NA	NA	NA	NA
AK012_00996	747	recO	COG1381	DNA repair protein RecO	TTGATGGACAAAGTGGAAGGCCTTGTGATCCGTACTAATAATTATGGGGAAACACATAAGATAGTCACGATGATGACAAGGGAGAAAGGAAAAATAGGTGTGATGGCCCGTGGCGCTAAGAAGCCTAAGAGCCGTATGGCATCTGTATCCCAGCCGTTTATTCACGGAATGTATCTCATACAGTCAGGATCCGGACTTGGATCTATGAGCCAGGGTGAAATGGTATCCTCTCTCCGCTCCATCCGGGAGGATATCGTTAAAACCGCCTACGCCTCCTACATTGCGGAGCTGACCGATAAGCTCATAGAAGAAAAACAGCCGGATCCCTTTCTTTTTGAACAGCTCCTTCAGACGATGGTATGGATCAATGAAGGGAAAGATCCCAATATCCTGACCATGATGTATGAATTGAAGCTTTTTAAAAAGGCGGGTTATGCCCCGGTCGTCGATCACTGTCTGAACTGCGGCAGTATAGAGGGTCCGTATTCGTTTTCCATGGCTGAAGGGGGACTCCTCTGCTACCGCTGCAAGTCTATCGACCCTGGTGCCTATGGTCTTCCGGACCCGCTGCCAAAGCTTCTGCGTGTATTTTTACATATGGATGTAAAGCGACTTGGGCAGATTACCATGAAGGAAGAAAATAAAAAGCTTCTGCGTCAGCTGATGGATGAATACTACGATCGTTACGGCGGGTATTTTATCAAATCCAAAAAGTTCCTGAACCAGCTTGATTTATTTTCTGAGTGA	MMDKVEGLVIRTNNYGETHKIVTMMTREKGKIGVMARGAKKPKSRMASVSQPFIHGMYLIQSGSGLGSMSQGEMVSSLRSIREDIVKTAYASYIAELTDKLIEEKQPDPFLFEQLLQTMVWINEGKDPNILTMMYELKLFKKAGYAPVVDHCLNCGSIEGPYSFSMAEGGLLCYRCKSIDPGAYGLPDPLPKLLRVFLHMDVKRLGQITMKEENKKLLRQLMDEYYDRYGGYFIKSKKFLNQLDLFSE				NA	NA	NA	NA	NA
AK012_00997	906	era	COG1159	GTPase Era	ATGACAGAGAATTTTAAATCAGGCTTTATTACAATTGTCGGACGTCCGAACGTTGGTAAATCCACGTTCATGAACCGTGTGATCGGTGAAAAGATTGCCATCATGAGTGATAAGCCGCAGACAACAAGAAACAAAATTCAGGGCGTTTACACAGATGAAGAATCGCAGATGGTCTTTATCGACACCCCCGGTATCCATAAACCGAAGCATAAGCTTGGTGACTTTATGGTGAATACAGCAGAAAATACATTAAACGAAGTCGATGCCATTCTGTTTATGATTAATGCAGAGGAAGGGTACGGCCGGGGAGATCAGTTTATCATTGATCGTCTCCAGCGCGTCGATCAGCCTGTTTTCTTGATCATTAACAAAATCGACCGCGTCCATCCGGACGAACTGCTGCCTTTGATTGAGCAGTATAAGGGTATGTATGAGTTTGAAGAGATTATCCCGATTTCCGCTCTTGAAGGCAACAATGTCAATCATCTGCTCGGGGTATTAAAGGGTCATCTGCCGGAAGGCCCGCAGTTTTATCCGGAAGACCAGATCACTGACCACCCGGAACGGTTTGTTATCAGTGAATTTATCCGTGAAAAAGTGCTCCATTTGACCAGAGAGGAAATTCCACATTCGATTGCTGTCGTGATTGAAGGGATAAAACCGAGAGAAGATGCTCCCGGTGTCTATATCCAGGCGGCCATCATCGTGGAACGCAAATCCCAAAAAGGGATCATTATTGGAAAGCAGGGCAGCATGCTGAAGGAAGTCGGTAAGAGAGCCCGCAAAGATATTGAATCCCTGCTCGGCAGTAAAGTGTATCTTGAACTGTGGGTGAAAGTGCAGAAAGACTGGCGGAATAAGCAGATTCAACTTAGTGATTTCGGTTACAGGGACGACGAATATTAA	MTENFKSGFITIVGRPNVGKSTFMNRVIGEKIAIMSDKPQTTRNKIQGVYTDEESQMVFIDTPGIHKPKHKLGDFMVNTAENTLNEVDAILFMINAEEGYGRGDQFIIDRLQRVDQPVFLIINKIDRVHPDELLPLIEQYKGMYEFEEIIPISALEGNNVNHLLGVLKGHLPEGPQFYPEDQITDHPERFVISEFIREKVLHLTREEIPHSIAVVIEGIKPREDAPGVYIQAAIIVERKSQKGIIIGKQGSMLKEVGKRARKDIESLLGSKVYLELWVKVQKDWRNKQIQLSDFGYRDDEY				NA	NA	NA	NA	NA
AK012_00998	381	dgkA	COG0818	Undecaprenol kinase	ATGAATTCGGGCTCCAGCGATCCTAAAAAGAAGGGGATAGGGTTCGCCTGCGCATGGAAGGGGATCAGGCTGGTATGGAGATCGGAGCGGAATTTCCGTATTCATACCGCTGCCGCTGTCCTCGCTTTAACAGCAGGGGGGATCCTTGGTTTATCTTCGATGGAGTGGGCCGTCCTGATCGTGACGATTGCTCTTGTCCTGACACTGGAAATGGTGAACTCCGCCGTGGAGAAACTGCTTGATTACCTGCACCCGTCCCATCACCCTGCCGTCGGAGCTGTGAAGGATGTGTCAGCAGGTGCGGTACTCACAGCGGCCGGTGGTTCTGTGGTCGTAGGAATTTTCCTGTTCGGTCCGAAGCTTGCTGCTGTTTTGATGTAA	MNSGSSDPKKKGIGFACAWKGIRLVWRSERNFRIHTAAAVLALTAGGILGLSSMEWAVLIVTIALVLTLEMVNSAVEKLLDYLHPSHHPAVGAVKDVSAGAVLTAAGGSVVVGIFLFGPKLAAVLM	PGPT0024175_362	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024175-dgkA-K00887	NA	NA
AK012_00999	471	ybeY	COG0319	Endoribonuclease YbeY	GTGATCACCATTGATTTTCACGATGAAACGAATTCTGTAGATGAAGCTTTTGTAGATATGATCCAGCGCATACTTGAATTTGCTGGTGGACAGGAAGGCATCACCGGCGATGCTGAAGTATCCGTAAGCTTTGTAGATAATAAAGAAATCCAGGAAATCAACCGTAACTACCGGCAGAAGGACGAGCCGACTGATGTGATTTCATTTGCGATGCAGGAAACAGGAGAAGGCGAAATGGACGTCCTGGATGAAAACCTTCCAATGATGCTTGGCGATATCGTCATTTCTGTTGACAAGGCTAAGGAACAGGCGGAGGATTACAACCACTCCCTGGAAAGGGAATTCGGTTTTCTGGCCCTCCACGGATTCCTTCACCTGCTGGGATATGATCATATGAATGAAGAGGATGAGAAGAAGATGTTCACCCGCCAGGAGGACATTCTCCATGAATTCGGGCTCCAGCGATCCTAA	MITIDFHDETNSVDEAFVDMIQRILEFAGGQEGITGDAEVSVSFVDNKEIQEINRNYRQKDEPTDVISFAMQETGEGEMDVLDENLPMMLGDIVISVDKAKEQAEDYNHSLEREFGFLALHGFLHLLGYDHMNEEDEKKMFTRQEDILHEFGLQRS	PGPT0024340_2792	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024340-dgkA|DGK-K00901	NA	NA
AK012_01000	963		COG1702	PhoH-like protein	ATGCCGGAAGAGTTGAAAACAATCGACATCCAATTGGATAATACAACAGAAACTCTGGCCCTGTTCGGGACAGAGGACCGTAATTTAAAACAAATTGAAGAGCAGCTGCAGGTGACCATCATTTCCCGCGGCGGTCAGGTCCGGGTTTCCGGACAGGCGGAGCATGTTCAATTAGTCGAGGATATCCTCATGAGTGTCCTGGCTCTTATCCGCAAAGGACTGTCCGTGACGGAACGCGATATCGTCTACGCCGTAGAGCTGGCTAAAAAAGGAAAAATCAATCAATTTGAAGCACTGTTTGAAGATGAAATCACGAAAAACTCCAAAGGTAAGTCAATCCGGGTGAAAACGCTCGGGCAGCGGAATTATATTGCTGCAATAAAAAACCATGATCTTGTATTCGGCATCGGCCCTGCCGGAACCGGAAAAACATACTTAGCTGTAATTATGGCCGTCAATGCCCTGAAAAACGGGGATGTAAAAAGGATCATTTTGACAAGGCCTGCTGTTGAAGCCGGAGAAAGCCTCGGGTTCCTGCCTGGAGATCTGAAAGAGAAAGTGGATCCTTACCTGCGGCCGCTGTACGATTCGCTCCACGACGTCTTCGGAGCCGAGCATACCGCAAGACTTATCGACCGTGGAACCATTGAAATTGCGCCGCTGGCTTATATGAGAGGCCGCACGCTGGATGACGCTTTTGCTATTCTGGATGAAGCGCAGAATACCACTCCTGAACAGATGAAGATGTTCCTGACCCGTCTTGGGTTTGGATCGAAGATGATCATTACCGGGGACATTACACAGGTCGATCTGCCTAAAGGGGTAAAGTCCGGCCTGCGTGTCGCTGAAGAGAAGCTCGGATCCATCAAAGGTGCATCATTCATTAAACTCGATCAGTCGGACGTTGTGCGCCACCCGCTCGTACAGAGAATCATTGACGCTTACGAAAACGATAAACAATAA	MPEELKTIDIQLDNTTETLALFGTEDRNLKQIEEQLQVTIISRGGQVRVSGQAEHVQLVEDILMSVLALIRKGLSVTERDIVYAVELAKKGKINQFEALFEDEITKNSKGKSIRVKTLGQRNYIAAIKNHDLVFGIGPAGTGKTYLAVIMAVNALKNGDVKRIILTRPAVEAGESLGFLPGDLKEKVDPYLRPLYDSLHDVFGAEHTARLIDRGTIEIAPLAYMRGRTLDDAFAILDEAQNTTPEQMKMFLTRLGFGSKMIITGDITQVDLPKGVKSGLRVAEEKLGSIKGASFIKLDQSDVVRHPLVQRIIDAYENDKQ	PGPT0002700_3362	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002700-phoH-K06217	NA	NA
AK012_01001	1182			hypothetical protein	GTGGGAGACCAGCGAGGATATTTTGAAGGTGTGTTAACCATCGAGGCGTCCGGTCCGTTATTGGAACCTTTTTTACAAGCATGTACGCGTCGGGGATGTCGAATTACCAGCCTCAGGCGCCTGGACGAAACGACCGTCCGCTTCTCCATTCGTTTGAAGGATTGGAAAACCCTGCGTTCGCTGCGCAGGAAATACAAATGCCGCTTGACCATTAAAGAAGGGAAGGGGGTCCCTTTTTTATACAAGCTCATGATGAGGAGGGTCTCTGTAGTTGCTGCTTTTCTGGCTGCGCTTATACTCATCTTTCTGGCGGCGAATACCTTATGGTCCATTAAGGTGGAGGGGCTGACTCCGGAATTAGAAGCAGCTGTTGAAAAGAAGCTGACCAGCTACGGGGTTTCACCGGGCCGTTTGACTATCGGCATGAAGGATCCGAATGATATTCAGCAGAAGCTTTTGGAGGATATCCCGGACCTTTTATGGATCGGGGTGAAAAAGCAGGGGACAAGCTATCATTTGTACGGCGTTAAAAAAATAAGGCATGATACAAATCAGGACACCCGGCCTTCCGATCTCGTTGCGTCGAAGAAAGGGATGATTGTGCAGACCTTCATAAAAAAAGGGCGGCCGCTGGTTTCCGTTTACGATGTGGTTAAGAAGGGCCAGATTCTCGCCACAGGCGAACTCGTCGAAGAAGGGGAGGTTTTTGTACACACAGAAGGGCACGTAACAGCCGAGACGTGGTATCGAGTGGAGCAGGAACTTCCTCTACAGCAGATTTTAACCTTGACCGATGGGACTGTGGAGGCCGAGTACCACTTGAAAATAGGAAGCTGGTCGATTCCGTTATGGGGGTGGTGGCGCGGAAATGAGGGAAGCTACAGGGATGAAAATGTCACAACAGACTGGAAGGTCTTTTCATATCCGCTGCCTTTGAACATGAAGCGTGTGGACCATTTTACAATCGATACCGGAGCGATGGAATCATCCCGGAAAGAAATAGAGAAAATAGGACGGAAGGCGGCAGGGCAGAGCCTGCTGCAGGAGCTTGAACCAGGAGCAGAAATCAAGGACGAAAAAGTTTTGCACCTCAGTGAGGAGCATGGTAAAGTAAAATTAATCCTATTGTACAAAGTTTATGAAAACATTGCAGAGACCAAGTATATTAGTCAAGGAGATTGA	MGDQRGYFEGVLTIEASGPLLEPFLQACTRRGCRITSLRRLDETTVRFSIRLKDWKTLRSLRRKYKCRLTIKEGKGVPFLYKLMMRRVSVVAAFLAALILIFLAANTLWSIKVEGLTPELEAAVEKKLTSYGVSPGRLTIGMKDPNDIQQKLLEDIPDLLWIGVKKQGTSYHLYGVKKIRHDTNQDTRPSDLVASKKGMIVQTFIKKGRPLVSVYDVVKKGQILATGELVEEGEVFVHTEGHVTAETWYRVEQELPLQQILTLTDGTVEAEYHLKIGSWSIPLWGWWRGNEGSYRDENVTTDWKVFSYPLPLNMKRVDHFTIDTGAMESSRKEIEKIGRKAAGQSLLQELEPGAEIKDEKVLHLSEEHGKVKLILLYKVYENIAETKYISQGD	PGPT0024760_334	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024760-yqfD-K06438	NA	NA
AK012_01002	294			hypothetical protein	ATGCCAAAATGGCAGCAGCAGATTAGAACATGGATCGGCCGTTATTTTGACCTTCCGGCTGATGTGATGCTGGATTTACCACGAATCACTACGATCGGCTCCATACATGTCTACATAGAAAATCATACCGGCCTCCTGCATTTTTCAGAGGAAGAAGTACGCATTCAATACAAAAAGGGCCAGGTCCGGATTGTCGGCAGAGACCTTGGTGTGAAAATGATGCTCAAAGAAGAACTTCTCCTGGAAGGAGAGTTGAAATCCGTCGAGTTTTTCCCTGATTCGAAAGGAGGGTGA	MPKWQQQIRTWIGRYFDLPADVMLDLPRITTIGSIHVYIENHTGLLHFSEEEVRIQYKKGQVRIVGRDLGVKMMLKEELLLEGELKSVEFFPDSKGG	PGPT0024765_45	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024765-yqfC-NA	NA	NA
AK012_01003	537			hypothetical protein	ATGGCAGATCTTATTGAATTGATATTCAGTAATTTTGTCATCGTCGCTGCGATTATCGGTGGAATTATCAGCTGGTTCAGCGGGATGTCAAAAGAAAAGGATCAAAAGTCGGGAGCTCCGAAAAAACAAACGGCGCCCCGACCGTATCCGAATAAGTCCCAGGGGGAACCGCAGCAGCAGGAACAAGAGGGTCAGGAGGACCGAGGAGGCCGTCTCCGCGACTATTATGAAGAAAAGCAGAAGCGTCTGGAAGAAATAGCGGAAAAATCAAGATCTGATGCTTCTGGATACAACAGAGACCGTACGATAACGGATTCTCCAGTTTATAACGCAGAGAAATCCAGTCCAATGGAGGGAAATCCTCCAGCAGGCCGGAAAGCCTCGACAAAGGCCCCGCCGTTAACGACGGACGGCCCTCTGGTGGAGCAGGCACGGAAGTGGGATAAGAAAAAACTGGCCGAAGGAATCGTGATGGCTGAGATTCTTGGACCGCCGCGTGCGCACAAGCCGCATCGCTCGCATCCCCGAAAAAGATAA	MADLIELIFSNFVIVAAIIGGIISWFSGMSKEKDQKSGAPKKQTAPRPYPNKSQGEPQQQEQEGQEDRGGRLRDYYEEKQKRLEEIAEKSRSDASGYNRDRTITDSPVYNAEKSSPMEGNPPAGRKASTKAPPLTTDGPLVEQARKWDKKKLAEGIVMAEILGPPRAHKPHRSHPRKR				NA	NA	NA	NA	NA
AK012_01004	990			hypothetical protein	GTGACATTGCAGGAACTCATGCCGATTATTATTATCGGTATCATTATTATCGTACTGGCTGTGCTCTTCACATTTATCCCGGTTATGCTATGGATCAGTGCCCTGGCTGCCGGCGTTAAAATCAACATCTTCACACTCGTAGGAATGAGATTGAGAAGGGTTATCCCTTCCCGTGTTATTAATCCGCTGATTAAAGCCCATAAAGCGGGTGTGAACGTCAACACCAACCAGCTGGAAAGCCACTACCTCGCGGGTGGTAATGTGGACCGCGTGGTCAATGCGCTGATTGCAGCTCAGCGTGCAAACATTGAACTGAGCTTTGAACGCTGTGCCGCGATCGATCTCGCCGGCCGTGACGTTTTGGAAGCTGTACAGATGAGCGTCAACCCCAAGGTTATTGAAACACCGTTTATCGCTGGTGTGGCCATGGACGGGATTGAAGTGAAGGCCAAAGCCCGTATTACCGTCCGCGCCAACATCGACCGTCTTGTCGGTGGTGCTGGTGAAGATACCGTCATCGCCCGCGTTGGTGAAGGGATTGTATCCACCATCGGTTCCAGTGAAAATCACAATAAAGTACTGGAAAACCCGGACCGCATCTCTCAAAACGTATTGAGCAAAGGGCTGGATGCAGGAACAGCTTTTGAAATCCTTTCGATTGATATTGCTGATATTGATATCGGTAAGAACATCGGAGCGATCCTGCAGACAGACCAGGCGGAAGCGGACAAAAACATCGCCCAGGCGAAAGCAGAAGAACGTCGTGCGATGGCTATTGCCCAGGAGCAGGAAATGCGTGCACGTGTCCAAGAGATGCAGGCGAAAGTTGTGGAAGCAGAAGCACAGGTGCCTCAAGCACTTGCTGAAGCTCTTCGTTCCGGAAAAATGGGCGTCATGGACTACATGAACTATCAGAACATCAATGCTGATACGGATATGAGAAATACGCTCGGCCGCACGTCAGATGAAGAAACCGAAGAAGATAAGTAA	MTLQELMPIIIIGIIIIVLAVLFTFIPVMLWISALAAGVKINIFTLVGMRLRRVIPSRVINPLIKAHKAGVNVNTNQLESHYLAGGNVDRVVNALIAAQRANIELSFERCAAIDLAGRDVLEAVQMSVNPKVIETPFIAGVAMDGIEVKAKARITVRANIDRLVGGAGEDTVIARVGEGIVSTIGSSENHNKVLENPDRISQNVLSKGLDAGTAFEILSIDIADIDIGKNIGAILQTDQAEADKNIAQAKAEERRAMAIAQEQEMRARVQEMQAKVVEAEAQVPQALAEALRSGKMGVMDYMNYQNINADTDMRNTLGRTSDEETEEDK				NA	NA	NA	NA	NA
AK012_01005	1347			hypothetical protein	ATGACACGTACTTTGCGTCTGCGTTTGTGGCTGGCCGTGTTTATTCTTGGCGCAGCATCCCTGATGTTCAGTTTTGATTTTGCTCAAGCAGAAGGGGAAGGAGAAACCGTCTACGTGATTCCGGTGGAGGACACGGTGGAACGTGGGATGGCCGCTTTTCTGAAAAGGACGACAGAGGAAGCCAAGGAAAATGGTGTGGATCACATTATTTTTGAAGTGGATACCCCGGGAGGCCGTGTAGATGCGGCCGGAGAGATTGGAGAAATTTTTCAGGATCTTGATATACCTAACACAGCGTTTGTAACGAGCCGGGCCTATTCGGCAGGTTCCTACATCGCCTTAAATGCCGATAACATATACATGAAGCCGCAGGCGACGATGGGGGCTTCCGGAGTGATCAATTCAGATGGGACAGCGGCTGACAAGAAGGCGCAGTCTGCCTGGATCTCCTCCATGGCAGCCGCAGCAGAGACAAATGGAAGGGATCCTCTCTATGCGCGGGCGATGGCTGATGCGGACATCGACCTTCCGGATTACGGGGCTCCTGAGGGAGAATTTCTTACAATGGGGCCTGGTGAGGCGGAAGAAGTCGGCTACGCAGAAGGAATTGTCGAAGACCGAAACGAATTATTAAATGAGCTTCGTTTATCCGGAGCGGAAGTGGTGGAGCAGAACCCGACTCTATCAGAAAATGTTGCCCGATTCCTAACAGATCCCGTTGTCATTCCGATATTATTATCAGTGGCCAGTCTCGGTCTAGTGGTGGAACTTTATTCCCCAGGGTTCGGTATACCGGGAACGATGGGGGTTACAGCTCTTGTGCTGTTTTTCTATGGTCATATTGTTGCCGGCCTGGCTGGATATGAGGCGATCATTTTACTCGTGCTGGGGATTGGCCTTATCGTGGCTGAATTCTTTCTGCCTGGTGGGATTGCCGGCATTGCAGGGGTTGCGGCCATCGTCTTTTCCCTGATGCTTTCTTCAGCGGATATGGGACATATGGCGATGAGTATCGGTATAGCCCTTCTGGTTACCGTGATTGTTTCCGTAATCCTGTTTAAGACGATGGGGCTTGAACGAGGCTTTTTCCGGCATATCATCTTGAATGATTCCACCTCATCAGAGCAGGGGTATGTTTCTTCCGTCAGCCGCCTGGACCTGATTGGTCTTGAAGGGACGGCGGTGACGCCGCTGCGGCCGTCTGGAACGGCTGAATTTAATGGGGAACGGCTGGATGTCGTTACTGAAGGTGTCTTTATCGGAGTGAACCAGAAAGTGAAAATTATGAAGACAGAAGGATCCCGGATTGTGGTCCGGGAGCTGAAAAAAGAGGAGGAAACAACGTGA	MTRTLRLRLWLAVFILGAASLMFSFDFAQAEGEGETVYVIPVEDTVERGMAAFLKRTTEEAKENGVDHIIFEVDTPGGRVDAAGEIGEIFQDLDIPNTAFVTSRAYSAGSYIALNADNIYMKPQATMGASGVINSDGTAADKKAQSAWISSMAAAAETNGRDPLYARAMADADIDLPDYGAPEGEFLTMGPGEAEEVGYAEGIVEDRNELLNELRLSGAEVVEQNPTLSENVARFLTDPVVIPILLSVASLGLVVELYSPGFGIPGTMGVTALVLFFYGHIVAGLAGYEAIILLVLGIGLIVAEFFLPGGIAGIAGVAAIVFSLMLSSADMGHMAMSIGIALLVTVIVSVILFKTMGLERGFFRHIILNDSTSSEQGYVSSVSRLDLIGLEGTAVTPLRPSGTAEFNGERLDVVTEGVFIGVNQKVKIMKTEGSRIVVRELKKEEETT				NA	NA	NA	NA	NA
AK012_01006	447	yqeY	COG1610	putative protein YqeY	ATGACGATCACTGACCGTCTGACCCAGGACATGAAAACAGCCATGAAGGCACGTGATAAAGAAAAATTATCCACGATCCGTATGGTTCGTGCTTCTATGCAAAATGAAGCAATTAAATTGGGTAAAGACTCATTATCTGAAGAAGAAGCATTGACTGTTTTATCTCGTGAGGTAAAACAGAGAAATGATTCCCTCCATGAATTCAAAGAAGCTGGACGTGACGATCTTGTAGAAGGACTCGAGCGTGAAATTGAGATTTTACAAGTGTATATGCCGAAACAGCTGACTGATGAAGAACTTGAACAGATTGTCAATGAAACAATTAAGGAAGTAGGAGCTGCTTCCAAAAGCGACATGGGCAAGGTGATGAGTGCCATCATGCCTAAAGTAAAAGGCAGAGCCGATGGTTCACAGGTCAATAAGTTCGTTCTTCAGCAATTATCGTAA	MTITDRLTQDMKTAMKARDKEKLSTIRMVRASMQNEAIKLGKDSLSEEEALTVLSREVKQRNDSLHEFKEAGRDDLVEGLEREIEILQVYMPKQLTDEELEQIVNETIKEVGAASKSDMGKVMSAIMPKVKGRADGSQVNKFVLQQLS	PGPT0030490_2005	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSAMIDASE_ACTIVITY	PUTATIVE-TRANSAMIDASE_ACTIVITY-1,PGPT0030490-gatB|yqeY-K09117
AK012_01007	174	rpsU		30S ribosomal protein S21	ATGTCAAATACAACTCGCGTTCGTAAAAACGAGTCTCTTGAAGATGCTCTTCGTCGCTTTAAGCGTTCTGTATCAAAGAGTGGTACATTAGCGGAATATCGTAAGCGTGAATATTACGATAAGCCTAGCGTACGCCGTAAGAAAAAGTCTGAGGCGGCTAGAAAGCGTAAGTAA	MSNTTRVRKNESLEDALRRFKRSVSKSGTLAEYRKREYYDKPSVRRKKKSEAARKRK				NA	NA	NA	NA	NA
AK012_01008	567			hypothetical protein	ATGGAAAAACAACCGTTGAAAATGCACAGTTATCCAGGAATGGCGGTGGTGATCGGAAGTGGATATGAGGGGGAGGTAAATTTCATGTCAGCCGGGTGGCATTCCTTTTTATCTATGGATCCGCCTATGTATGGTGCAGCTGTAGGGAGAGAGCGTTACACCTATCAGCTGATCAAGCAGTCGGGGGCATTCACCATCCATTTCCTGCCCTATGAGGAGGCGGCCTTTATTCAGTATGCAGGCAGTATCTCCGGGGTGGATACAAATAAAGCCTCCAGCTTCGGTCAGAAATGGAAAAGGGGAGAAAATGGCAGTCCGGTTTTGGAGAGTGCCTATCTCACGTATGAGTGTGAGGTGGACCAGATGATTCCAACTGGTGATCACGACTGGGTGACAGGCACCATTACCGCCTGTTCCTATATTCCTGAAATTTTTAATGAAAAAGGTCTTCCTGATTTTCAAAACCTGCACATTCCTTTGTATTTAGGGCGTTCTGAGTACATAAAGCTCGATGAAAAAATAAAAAAACAGTCCTTTATTGACCCTTTATCTTATAAAAAAAGTTGA	MEKQPLKMHSYPGMAVVIGSGYEGEVNFMSAGWHSFLSMDPPMYGAAVGRERYTYQLIKQSGAFTIHFLPYEEAAFIQYAGSISGVDTNKASSFGQKWKRGENGSPVLESAYLTYECEVDQMIPTGDHDWVTGTITACSYIPEIFNEKGLPDFQNLHIPLYLGRSEYIKLDEKIKKQSFIDPLSYKKS				NA	NA	NA	NA	NA
AK012_01009	672	deoC2		Deoxyribose-phosphate aldolase 2	ATGGAACAAAATCTTGCAAAAATGATTGATCATACACAATTGAAACCAGATACACCGAAAGAGAAAATTACACAAATCTGTGAGGAAGCCAAAGAAAACGGCTTTATTTCTGTCTGTGTCAACCCTTACTGGGTTGAATACTGTGCTGAGCTGCTTGCGGATACAGATGTGAAAGTGTGCACGGTCATCGGATTCCCGCTTGGAGCGGTTACGAAAGAAACAAAAGCTTTCGAAACGAAGCAGGCCATTGAAAAAGGAGCCACAGAAGTGGACATGGTGATTAACATCGGAGAGCTCAAATCCGGCCATTTCGATAACGTCCAGCAGGATATCCAAGCTGTTGTGCGTGAAGCTGAAGGAAAAGCTCTTGTGAAAGTCATCATTGAAACATCCCTTCTGACAGAAGAAGAGAAAGTGAAAGCGTCTGAACTGGCGAAAGCCGCTGGCGCAGACTACGTAAAAACATCTACTGGATTCTCCGGTGGTGGAGCAACCGTGGAGGATATCAGCTTAATGCGTAAAACAGTAGGACCGGACATGGGAGTGAAAGCTTCCGGTGGTGTCCGTGATTATGAAGGAGCTAAAGCGATGATCGAAGCGGGCGCTACACGAATCGGGGCAAGCTCTGGTAAGGCGATTATCACGGGTGGACAAGGAACATCTGATTATTAA	MEQNLAKMIDHTQLKPDTPKEKITQICEEAKENGFISVCVNPYWVEYCAELLADTDVKVCTVIGFPLGAVTKETKAFETKQAIEKGATEVDMVINIGELKSGHFDNVQQDIQAVVREAEGKALVKVIIETSLLTEEEKVKASELAKAAGADYVKTSTGFSGGGATVEDISLMRKTVGPDMGVKASGGVRDYEGAKAMIEAGATRIGASSGKAIITGGQGTSDY	PGPT0017445_2886	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
AK012_01010	747	rsmE	COG1385	Ribosomal RNA small subunit methyltransferase E	ATGCAGCGTTATTTTATTGACGCTCCGTATTGGAGTGACACGTCGGTAACTATTACCGGGGAGGATGTTCATCATATCAGCCGAGTAATGAGGATGGGAGAGGGAGACCAGCTTACTGCTGTTCATCCTGTCCATGGACCTGCTGTATGTAAAATTGACATCCTTTCCGAAGAGATTGTATGTTCGATTATCCATTGGATTGAGGAAGATCGTGAGCTGCCTGTCAAAGTGACCATCGCTGCCGGTCTGGGTAAAGGGGACAAGCTGGAGCAGATCGTCCAGAAGGGCACAGAGCTTGGTGCGTTTTCCTTTATTCCCTATCAGGCGGACCGGTCTGTTGCCAAATGGGATGCAAAAAAAGCCCCTAAAAAGATTCACCGGCTGGAGAAGATTGCCAAGGAAGCGGGCGAACAGTCGGAGCGGACAGTCATCCCTTCTGTATCCGGTCTGCATTTACTGAAGGACATCACAGGATTGAAAGAAACGCATGACTGGTGCTTTTTTGCGCATGCAGAGGAAGCGAGGAGCGAGACCCGCCGTGAGTTTTCCGATGCCCTCCGCGCCATTCGTCCAGGTGACTCCATCGCTGTCATCTTTGGTCCGGAAGGCGGATTTTCTGAAAAAGAGGTGGAAGCCTTTAAGGAAGCCGGCTTTTTATCCATCCGGCTCGGGCCTCGTATTCTGAGGATGGAAACAGCTCCCCTTTACTTTTTATCCGCTTTGTCCTATGTGTTGGAGGAAGCATAA	MQRYFIDAPYWSDTSVTITGEDVHHISRVMRMGEGDQLTAVHPVHGPAVCKIDILSEEIVCSIIHWIEEDRELPVKVTIAAGLGKGDKLEQIVQKGTELGAFSFIPYQADRSVAKWDAKKAPKKIHRLEKIAKEAGEQSERTVIPSVSGLHLLKDITGLKETHDWCFFAHAEEARSETRREFSDALRAIRPGDSIAVIFGPEGGFSEKEVEAFKEAGFLSIRLGPRILRMETAPLYFLSALSYVLEEA				NA	NA	NA	NA	NA
AK012_01011	939	prmA	COG2264	Ribosomal protein L11 methyltransferase	ATGAAATGGTCTGAAGTCTGTGTTCATACAACGACAGAAGCGGTTGAACCTGTATCAAATATTCTGCATGAATCCGGTGCCAGCGGCGTGGTCATTGAGGACCCGGCTGATATGCAGCGCAGGAAAACGAAGCTTGGAGAAATTTATGAGCTGAACCCTGCTGATTACCCTGCGGAAGGTGTCTATGTTAAGGCTTATATGCCTATGAACAGTTTTCTTATGGAGACTGTTGATGGAGTGAAGAAAACCATCAGCAATCTGACTGAATTCGGCATTGATATCGGCCGCAATGAAATAACGGTCCAGGAAATCCATGAAGAGGACTGGGCTACAGCTTGGAAAAAGTATTACAAGCCTGTTAAAATTTCCGAGAAAATCACCATCATTCCTGAGTGGGAGGATTACACACCTGTCTCCAGTGATGAAATCATTATAGAAATGGACCCGGGTATGGCTTTTGGTACTGGAACCCATCCGACAACGGTTCTGAGCATCCAAGCACTGGAACAGTATTTGGAAAAGGGTGATGTCGTCGCTGATGTCGGTGCCGGCTCAGGAATCCTGAGTGTCGCTTCCGTTCTTCTCGGGGCTGAGCATGCGTATGCCTATGATCTGGATGATGTGGCGGTTTCGAGCACGAAAAACAATGCCGCGCTGAATGGTGTCGAAAACCAGGTGACCTCCGAAGTCAATGATCTGCTTGAAGGTGTGGATTGGGAAGCGGACCTGATCGTTTCCAATATTCTGGCTGAGATTATTGTGAAATTCACAGATGATGCTTTCCGCGTCGTGAAACCAGGCGGCTATTTCATTACGTGTGGAATCATTTCTGCCCGCAAGGAAATGGTACGCGATCGTTTGGTTGAATCAGGCTTCGAAATTGTGGAAACAAATAAAATGGAAGACTGGATCAGCATTATCGCCAAAAAGCCGGAGTGA	MKWSEVCVHTTTEAVEPVSNILHESGASGVVIEDPADMQRRKTKLGEIYELNPADYPAEGVYVKAYMPMNSFLMETVDGVKKTISNLTEFGIDIGRNEITVQEIHEEDWATAWKKYYKPVKISEKITIIPEWEDYTPVSSDEIIIEMDPGMAFGTGTHPTTVLSIQALEQYLEKGDVVADVGAGSGILSVASVLLGAEHAYAYDLDDVAVSSTKNNAALNGVENQVTSEVNDLLEGVDWEADLIVSNILAEIIVKFTDDAFRVVKPGGYFITCGIISARKEMVRDRLVESGFEIVETNKMEDWISIIAKKPE				NA	NA	NA	NA	NA
AK012_01012	1128	dnaJ		Chaperone protein DnaJ	GTGAGTAAACGTGACTATTATGAGGTGCTTGGTGTGTCCAAGGATGCCTCGAAGGATGAAATTAAGAAAGCCTACCGCAAGCTGGCTCGTCAATATCACCCAGACGTCAGCAAAGAGGAAAATGCTTCTGAAAAATTCAAGGAAGCAAAAGAAGCTTATGAAACCCTGAGCGATCAGCAGAAGAGAGCCCAGTATGACCAGTTCGGCCATGCCGGTCCAAACCAGGGAGGCTTCGGCGGATTTGGCGGAGGCGCAGAAGACTTCGGTGGATTCGGTGATATCTTTGATATGTTCTTCGGTGGTGGAGGCCGCCGCCGTGATCCGAACGCCCCTCGTAAAGGGGCCGATCTGCAATATACGATGACCCTTCAGTTTGAAGAAGCCATCTTTGGGAAATCCACGGATATTGAAATTCCTGTGGAGGAAGACTGTGATACGTGTGATGGGTCCGGAGCGAAACCGGGAACTACACCGGAAACGTGCTCCCATTGTCAAGGCTCCGGCCAGATTAATCAGGAGCAGAACACACCATTCGGCCGTGTCGTAAACCGCCGTGTCTGTCACCACTGCCAGGGCAGCGGAAAAATCATTAAGGATAAATGTAATACGTGCGGCGGCGACGGCCGCGTGAAAACACGCAACAAGATCCATCTTGATATTCCTGCGGGTATTGATGATGGCCAGCAGATCCGTGTCCAGGGCAAAGGGGAAGACGGAGCCAACGGCGGACCGGCCGGCGACTTGTTTGTTGTCATCCGTGTGCAGCCGCATGAATTCTTCCAGCGTGAAGGCGACCATATCTTCTGCGATGTCCCTCTGACCTTTGCACAGGCAGCCCTTGGGGACGAAATCCAGGTGCCTACGGTTCACGGGAATGTGAAGCTGAAGATTCCTGCCGGTACGCAGACAGGAAAAACGTTCCGTCTTAAAGAAAAAGGAGCACCGAATGTTCACGGCCGCGGCCAGGGCGACCAGCATGTGAAGACGAAAGTCATCACACCGAAGAACCTGACCGAGCGTCAGAAGGAACTTCTTCGTGAATTTAATGATATTAGTGGAAATGAAGCTGCTGAAGAACAGCACGGCAATTTCTTTGAGCGAATGAAGCGCGCTTTTAAAGGCGACTAA	MSKRDYYEVLGVSKDASKDEIKKAYRKLARQYHPDVSKEENASEKFKEAKEAYETLSDQQKRAQYDQFGHAGPNQGGFGGFGGGAEDFGGFGDIFDMFFGGGGRRRDPNAPRKGADLQYTMTLQFEEAIFGKSTDIEIPVEEDCDTCDGSGAKPGTTPETCSHCQGSGQINQEQNTPFGRVVNRRVCHHCQGSGKIIKDKCNTCGGDGRVKTRNKIHLDIPAGIDDGQQIRVQGKGEDGANGGPAGDLFVVIRVQPHEFFQREGDHIFCDVPLTFAQAALGDEIQVPTVHGNVKLKIPAGTQTGKTFRLKEKGAPNVHGRGQGDQHVKTKVITPKNLTERQKELLREFNDISGNEAAEEQHGNFFERMKRAFKGD	PGPT0014545_4202	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014545-dnaJ-K03686	NA	NA
AK012_01013	1830	dnaK	COG0443	Chaperone protein DnaK	ATGGGTAAAATTATAGGTATTGACTTAGGTACAACGAACTCTTGTGTAGCAGTGATGGAAGGTGGGGAAGCGAAAGTTATCCCTAACCCTGAAGGTAACCGCACAACGCCATCCGCAGTGGCATTCAAAAATGGAGAACGTCAGGTAGGGGAAGTGGCGAAGCGTCAGGCTATTACAAACCCGAACACACTTCTCTCCATCAAGCGTCACATGGGTACAGACTATAAGGTGGAAGTTGAAGGTAAAGAGTACACACCTCAAGAGGTTTCTGCAATCATCCTTCAATACATCAAGAACTATGCTGAAGATTACCTCGGAGAAACCGTTGATAAAGCGGTTATCACAGTTCCAGCCTACTTTAACGATGCGGAGCGTCAGGCGACAAAAGATGCTGGTAAGATCGCTGGTCTGCAGGTAGAGCGTATCATTAACGAGCCGACAGCTGCAGCACTGGCATACGGCATTGATAAGGAAGACCAGGATCAGACAATTCTTGTTTATGACCTTGGCGGCGGTACGTTTGACGTATCCATCCTTGACATCGGTGACGGTACATTTGAAGTAGTTTCTACAGCTGGTGACAACCGTCTTGGCGGAGACGACTTCGACCAAGTCATTATCGACCACATGGTAGCTGAATTCAAAAAAGAAAACGGCATTGACTTGTCCCAGGACAAAATGGCGAAACAGCGCTTGAAAGATGCGGCTGAAAAAGCGAAGAAAGATCTTTCCGGCGTAGCGCAGACGCAAATTTCCCTTCCGTTCATTACTGCGGGAGAAGCAGGACCGCTTCACCTTGAAATGAACTTGACTCGTGCGAAATTTGAAGAGCTTGCTTCTGATCTTGTTGAGCGTTCCATGAAGCCGACTCGTCAGGCTCTTAAAGATGCCGGCATGAGTGCTGGAGACATTCACAAGGTTATCCTTGTTGGTGGTTCCACACGTATTCCAGCTGTACAGGAAGCCATCAAGCGTGAAATCGGACAAGATCCTTCCAAAGGTGTAAACCCTGACGAAGTGGTAGCCCTTGGTGCCTCCATCCAGGGTGGTGTCCTTCAAGGAGACGTAAAAGATGTTGTTCTTCTTGACGTTACTCCACTTTCTCTAGGTATTGAAACAATGGGCGGCGTAACAACGAAGCTGATTGAACGCAACACAACGATCCCTACCAGCCACTCCCAGACGTTCTCTACAGCAGCGGATAACCAGACAGCTGTAGACATTCACGTCCTTCAAGGGGAGCGCGAAATGGCGCAGGACAACAAAACACTTGGACGCTTCCAGTTGACGGATATTCCACCGGCACCACGCGGTGTTCCACAAATCGAAGTATCCTTCGATATTGATGCCAACGGTATTGTGAACGTTCGTGCTAAAGATCTTGGTACAAATAAAGAGCAGTCCATCACAATCAAATCTTCTTCCGGTCTTTCTGATGACGAAGTAGAAGACATGGTTCGTCAGGCAGAAGAAAATGCGGAAGAAGACAAGAAGAAACGTGAAGCTGTTGAACTTCGAAACGAAGCTGATCAGCTGATCTTCACAACAGACAAGACCATCAAGGATCTTGGTGAGCAGGTCAGTGAAGATGAAAAACAAAAAGCAGAAACAGCTAAGGAAGAACTTCAAACAGCCCTTGAAGGCGAAGACCTTGATGCCATCAGGGAGAAGAAAGATGCCCTTCAAGAGCAGGTTCAGGCACTTTCCGTTAAGCTTTACGAGCAGGCTCAGGCGCAGGCGGAAGCCCAGCAGGGTGAACAAGCCGGCGGAGCCGATGAAGATGTCGTAGATGCTGACTATGAAGAAGTCAACGAAGACGATAAGAAGTAA	MGKIIGIDLGTTNSCVAVMEGGEAKVIPNPEGNRTTPSAVAFKNGERQVGEVAKRQAITNPNTLLSIKRHMGTDYKVEVEGKEYTPQEVSAIILQYIKNYAEDYLGETVDKAVITVPAYFNDAERQATKDAGKIAGLQVERIINEPTAAALAYGIDKEDQDQTILVYDLGGGTFDVSILDIGDGTFEVVSTAGDNRLGGDDFDQVIIDHMVAEFKKENGIDLSQDKMAKQRLKDAAEKAKKDLSGVAQTQISLPFITAGEAGPLHLEMNLTRAKFEELASDLVERSMKPTRQALKDAGMSAGDIHKVILVGGSTRIPAVQEAIKREIGQDPSKGVNPDEVVALGASIQGGVLQGDVKDVVLLDVTPLSLGIETMGGVTTKLIERNTTIPTSHSQTFSTAADNQTAVDIHVLQGEREMAQDNKTLGRFQLTDIPPAPRGVPQIEVSFDIDANGIVNVRAKDLGTNKEQSITIKSSSGLSDDEVEDMVRQAEENAEEDKKKREAVELRNEADQLIFTTDKTIKDLGEQVSEDEKQKAETAKEELQTALEGEDLDAIREKKDALQEQVQALSVKLYEQAQAQAEAQQGEQAGGADEDVVDADYEEVNEDDKK	PGPT0014555_6075	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014555-dnaK-K04043	NA	NA
AK012_01014	546	grpE	COG0576	Protein GrpE	ATGGAAGAGAACAAACAGGAAATCATTGATGAAAAAGATGAACAGCAGGAACCGGAAGAGGTTCAAGGTGAAGTTGTAGAAGAAACCGAAGAATCTCAAGGGGAAATAGAGCAGCTCCGTCAGGAAAAAGAGGAGCTCAACAACCGGCTGATTCGTCTTCAGGCAGACTATGATAATTTCCGCCGTCGTACCCAGAAGGAAAAAGAGGCGGATCGGAAATATCGATCCCAAAGTCTTATTGAAGAGCTGATTCCAGCTTTAGATAACTTCGATAGAGCCCTGCAGGTAGAGGTGGACAGTGACGCCGCCAAAAACCTTGCCAACGGTATGAAAATGGTCTACGACCAGTTCAAAACCGCTCTTGAGAAAGAAGGCGTAGAGGTCATCCCTGCCCAGGGAGAAGAGTTTGACCCACATCTTCATCAGGCAGTGATGCAGGTAGAGGATGAAAACTACGAGTCCAATATCGTAGTGGAAGAGCTCCAGAAGGGCTATCGCTTGAAAGACCGGGTTATCCGCCCGTCAATGGTAAAAGTAAACCAATAA	MEENKQEIIDEKDEQQEPEEVQGEVVEETEESQGEIEQLRQEKEELNNRLIRLQADYDNFRRRTQKEKEADRKYRSQSLIEELIPALDNFDRALQVEVDSDAAKNLANGMKMVYDQFKTALEKEGVEVIPAQGEEFDPHLHQAVMQVEDENYESNIVVEELQKGYRLKDRVIRPSMVKVNQ	PGPT0014650_5847	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0014650-grpE-K03687	NA	NA
AK012_01015	1023	hrcA	COG1420	Heat-inducible transcription repressor HrcA	ATGTTAACAGATAGACAATTGCTGATTTTGCAAGTGATTATTGATGATTTCATTCTGACCGCTCAGCCGGTAGGATCGCGTACCATAGCAAAGAAGGAAGCTGTAACATTCAGCTCCGCTACGATACGTAATGAAATGGCCGACCTTGAGGATCAGGGTTTTATTGAAAAGACCCACTCCTCATCCGGAAGGGTCCCTTCTGAGAAGGGATACCGCTTTTATGTCGACCATCTGCTCTCTCCGCTGCGGTTGTCCCGGCAGGAAATCGTTACGATCAGAGATGCCTTTAACGAAAAAATGATGGAATTTGAACGAGTGGTTCAAAAATCGGCAGGCATTCTGTCTGAAATGACCAACTATACTTCCATCATCCTGGGGCCGGAAGTTTTTGAGACGAAGCTGAAGCAGCTTCAAATCGTTCCGCTCTCTGAACATTCTGCGATTGCCATTCTTGTTACAGACACCGGGCATGTAGAGCACAGGGCGTTCAACGTGCCTGTGGAAATGAAAGGCACAGACCTTGAGAAGATGGTCAACATCCTGAACCAGCGTCTACAGGGGGTTCCCCTTGTGAAGCTGCACGAGAAGCTCTATACGGAAATTAACGAAATGTTAAGGCACCATATGGATCACCATGAAGAGGCCTTCTCTTATTTAAGGTCCGCGCTTGTGGAAGACCATCCGACAAAGCTGTATATCGGTGGTAAGACAAACATTCTCATGCAGCCGGAGTTCAGGGATCTGGAAAAGGTCCGGTCGCTGTATGCGACGATTGAACAGGAAAATGAAATGGCTGATCTGCTGCGTTCCGGTCAGGAAGGCATCCAAGTCAGAATAGGTCAGGAGAATCCATTCGATTCCATGCAGAACTGCAGCCTGATAACAGCTACCTATCACCTTGGCAATGACCAGATGGGGACCATTGCTTTATTAGGTCCGACGCGCATGGAGTATAACCGGATGTTTTCATTGATGCATGTACTATCCAAGCATATGACCAACACGTTCCGGGGCTGGTATTGA	MLTDRQLLILQVIIDDFILTAQPVGSRTIAKKEAVTFSSATIRNEMADLEDQGFIEKTHSSSGRVPSEKGYRFYVDHLLSPLRLSRQEIVTIRDAFNEKMMEFERVVQKSAGILSEMTNYTSIILGPEVFETKLKQLQIVPLSEHSAIAILVTDTGHVEHRAFNVPVEMKGTDLEKMVNILNQRLQGVPLVKLHEKLYTEINEMLRHHMDHHEEAFSYLRSALVEDHPTKLYIGGKTNILMQPEFRDLEKVRSLYATIEQENEMADLLRSGQEGIQVRIGQENPFDSMQNCSLITATYHLGNDQMGTIALLGPTRMEYNRMFSLMHVLSKHMTNTFRGWY				NA	NA	NA	NA	NA
AK012_01016	1140	hemW	COG0635	Heme chaperone HemW	ATGAATATCCCATCCGCTTATATACACATTCCTTTCTGTCAGCAGATCTGCCATTACTGCGACTTTACGAAGTTCTTTTACAATGAACGGCTGGCAGATGAATATTTAGAAGCGTTGGAAAAAGAAATACACGCATATATCCCGGGGGATAAAGCCCGTGTCCGTACGATTTTTGTCGGTGGAGGAACACCTACAGCCGTCAACCATAAGCAGCTGGAAAAGCTCCTGAAGATGATTGATGACCACTTTGATACAGCCTCATGCGAGGAATATACGTTTGAAGCGAACCCGGGTGATCTCGATCTTGAGAAAGTGCGTTTATTAAAAGCCTATGGAGTCAATCGGATATCGCTCGGTGTCCAGGTGTTTGATGATGAGATGCTGGAAAAAATCGGACGGGTGCACAAAGTCAAAGATGTGTATACAAACATCGATCGTCTTGTGCAGGCAGGTCTTACAAATGTGAGCATTGATCTGATGTATGCTCTTCCCGGCCAGACGGTGGAGGATTTTGAAAAAACAGTGGATGAAGCCGTCCAGTTCGGTCTGCCTCATTATTCTTCGTATTCGCTGCAGATCGAACCAAAAACGATTTTCTATCAGCGTTATAAAAAAGGGAAACTGACAAAAGCGCCGGAAGAGGATGAGGCCCAGATGTATGAGCTTCTCCAGCGTAAACTCGCCGCTGCTGGAGCTCATCAGTATGAGATCAGCAACTTTGCTCTTCCAGGGTTTGAAAGTAAACACAACCTGACATACTGGAATAACGAATATTACTACGGAATCGGGGCGGGGGCCCATGGATATATGCCTGGGAAACGGACAATCAATATCCGCCCGCTGCCAGCCTACGTGAAAAAGGCAGGAGAAGACGGAAAGCCGATTCTTCATGAGGAACCCATCACAACCAAAGAAGAAATGGAAGAAGAAATGTTTCTTGGGTTGAGAAAAACGCAGGGGGTATCCATGGAGCGGTTTTACAAGAAATACCAGAAGCCGATGGATAACGTATTCGGTGACGCACTTGGAACATTGAAAAACAGACAGCTGATTCAGGAAAACAACGGGTTTATCCAGCTCACACCACGGGGAAGAATCCTTGGGAACGAAGTGTTCCAGGAATTCCTGCTGGACGAATGA	MNIPSAYIHIPFCQQICHYCDFTKFFYNERLADEYLEALEKEIHAYIPGDKARVRTIFVGGGTPTAVNHKQLEKLLKMIDDHFDTASCEEYTFEANPGDLDLEKVRLLKAYGVNRISLGVQVFDDEMLEKIGRVHKVKDVYTNIDRLVQAGLTNVSIDLMYALPGQTVEDFEKTVDEAVQFGLPHYSSYSLQIEPKTIFYQRYKKGKLTKAPEEDEAQMYELLQRKLAAAGAHQYEISNFALPGFESKHNLTYWNNEYYYGIGAGAHGYMPGKRTINIRPLPAYVKKAGEDGKPILHEEPITTKEEMEEEMFLGLRKTQGVSMERFYKKYQKPMDNVFGDALGTLKNRQLIQENNGFIQLTPRGRILGNEVFQEFLLDE	PGPT0003200_3225	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
AK012_01017	1815	lepA		Elongation factor 4	TTGACAGCACAAAACAAACAGGAAAGGGTCCGGAACTTTTCGATTATTGCCCATATCGACCATGGGAAATCGACATTGGCGGACCGTATCTTAGAAAAAACAAAAGCTTTAACCCAGCGTGAAATGAAAGAGCAGTTCCTTGATGCGATGGATCTGGAACGTGAGCGCGGGATTACGATTAAACTGAACGCCGTTCAATTGAATTACGAAGCGAATGACGGTTTGGATTACACGTTTCACCTGATTGATACTCCGGGCCACGTCGATTTTACATATGAGGTTTCCCGAAGCCTGGCTGCCTGCGAAGGGGCGATTCTCGTCGTTGACGCTGCACAGGGTATCGAAGCCCAGACACTGGCAAACGTGTATCTGGCGTTGGAAAACGATTTGGAAATCATCCCGGTTATTAACAAGATCGACCTTCCTGGTGCTGATCCTGACCGGATTAAGCAGGAAATTGAAGACGTCATCGGCATTGATGCATCTGATGCGATTCTCGCTTCGGCCAAAGAAGGAGTCGGCATCGACGAAATTCTGGAACGTATCGTGACCGATATCCCTGCCCCTGAAGGCGAGGTCAAAGATCCTACGAAAGCATTGATCTTTGATTCCCTTTATGATTCCTACCGCGGTGTCGTTGCCTATGTCTGTGTCCGTGAGGGTTCAATTAAAATGGGCGACAAAATAAAAATGATGGCGACAGGCAAGGAGTTTGAAGTCAATGAACTGGGCGTCTTCCGTCCGACCCCGACCCAGAAAAAAGAACTGACGGTCGGTGATGTCGGATACTTGACGGCCTCCATCAAGAACATCGGAGACAGCCGTGTGGGTGACACGATTACGCTCTCCTCCAACCCTGCTGCTGAACCGCTTCCGGGTTATAAGCGCATGAATCCAATGGTATTCTGCGGGATGTATCCGGTGGATGCCAGCAAATATAACGACCTGCGTGATGCACTGGAGCGTCTGGAACTCAATGATTCCTCCCTCCAATTCGAAGCAGAGACCTCCCAGGCGCTTGGGTTTGGTTTCCGTTGTGGTTTCCTCGGGATGCTGCACATGGAAATTATCCAGGAGCGGATCGAGCGTGAATATAAAATCGACCTCATCACGACGGCTCCAAGCGTAATTTACAAGGTTACGACGACAGACGGCTCTGAAATGAATGTCGACAACCCATCGATGATGCCTGATAACCAGACATTGGATGAGGTACAGGAACCCTTCGTAAGAGCCACCATTATGGTTCCGAATGATTATGTAGGTCCGGTTATGGAGATCTGCCAGCGCAAGCGCGGGAACTTCATGGATATGCAGTACCTTGATGATAATCGTGTGAATATCGTGTATGAGATCCCATTGTCTGAAATCGTCTATGACTTTTTCGATTCCTTGAAATCTCAGACGAAGGGATATGCGTCCTTCGATTATGAGCTGATCGGCTACCGCGTATCCAATCTTGTGAAGATGGATATCCTTCTTAACGGAGATACCATTGACGCGCTTTCCTTCATCGTTCACAGAGACTTCGCGTATGAGCGTGGAAAGCTGATTGCTGAAAAGTTGAAAGAGCTCATCCCTAGACAGCAGTTTGAGGTTCCGGTACAGGCTGCAATCGGGAACAAAATCATCGCCCGTACCACAATCAAGGCGATGCGTAAAAACGTCCTTTCCAAATGTTACGGAGGAGATATCTCCCGTAAGCGTAAACTGCTTGAGAAGCAGAAGGAAGGAAAGAAGCGCATGAAGATGGTAGGCTCTGTGGAAGTCCCTCAGGAAGCCTTCATGTCTGTGCTTGATCTGAACGAAGACTAA	MTAQNKQERVRNFSIIAHIDHGKSTLADRILEKTKALTQREMKEQFLDAMDLERERGITIKLNAVQLNYEANDGLDYTFHLIDTPGHVDFTYEVSRSLAACEGAILVVDAAQGIEAQTLANVYLALENDLEIIPVINKIDLPGADPDRIKQEIEDVIGIDASDAILASAKEGVGIDEILERIVTDIPAPEGEVKDPTKALIFDSLYDSYRGVVAYVCVREGSIKMGDKIKMMATGKEFEVNELGVFRPTPTQKKELTVGDVGYLTASIKNIGDSRVGDTITLSSNPAAEPLPGYKRMNPMVFCGMYPVDASKYNDLRDALERLELNDSSLQFEAETSQALGFGFRCGFLGMLHMEIIQERIEREYKIDLITTAPSVIYKVTTTDGSEMNVDNPSMMPDNQTLDEVQEPFVRATIMVPNDYVGPVMEICQRKRGNFMDMQYLDDNRVNIVYEIPLSEIVYDFFDSLKSQTKGYASFDYELIGYRVSNLVKMDILLNGDTIDALSFIVHRDFAYERGKLIAEKLKELIPRQQFEVPVQAAIGNKIIARTTIKAMRKNVLSKCYGGDISRKRKLLEKQKEGKKRMKMVGSVEVPQEAFMSVLDLNED	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
AK012_01018	330			hypothetical protein	ATGAAGGGGCTGGCCGGTCTGATCATCCTGTTCGGAGTCTTTATTGCCGGCGCTTTATACGGCATTGAGAAAAATAATGAAAAGCTTGATGAGGCTGTGCCCGTCCATCAGCCGGAACGTGTCCAGGAGGTAGAAGAAAAAGCAGAAGACCGGCAGCCCCCCACTGATACAACAGAACAAAAACACGCGGACGAAAAGGACTGCCATCCTCCTTCCCAACCAGAAGATGTTCCGTGGATCACCCGCCTGGCTGCAGGGATTGGAGAAGGAGTGGCGGTTACGTTCAACGGTTTGATCGTCATTGCTTCCGAAATAATTCAGGCGGGCTGA	MKGLAGLIILFGVFIAGALYGIEKNNEKLDEAVPVHQPERVQEVEEKAEDRQPPTDTTEQKHADEKDCHPPSQPEDVPWITRLAAGIGEGVAVTFNGLIVIASEIIQAG				NA	NA	NA	NA	NA
AK012_01019	1152			hypothetical protein	ATGTCCCGTTACCCGGACAAGTGGAAGAAGAAGGACGGAAACGTTGTGAAACGCGGAACCCGGTGGGTTGTCCTGAGTGTCACCATCCTGCTTCTGCTATTCATTGGCATCGGGGTGCTTACTGGTGCGAAAACGACCTACCGGCTGTATTCCGATACGATACAGGAATGGACGGCGAAGCTGAAAGGTGGATCCTTCATCTATTTGTTTGAAATGGAGAACCGGGTGTTCAAAGATGCGCATCCGGAGGGGAACCGGATTCCCGGCCTCACCTCTCTCTCTTTTCAACTGCTGACAAGTTTGACACCCAATGACCCGCGAAGCCTCCTTGGCAGAGAAATTCCCGGTTTATCTTCCTACAACAGTCAGATTATCATTGCCGGGCAGGGAACGGACTTTTCTACACTCCCAATTGAATCAGAGCCGCCTCTTGAAGTAGAAGAACGCGGGGAAGAGGGGGAAATAGAGGAGAAGGATTCTGGTACAGACCAGGAAGCCGAACCTGTAGGAGAGGACCATGTGTATATTTACCATACGCACAACACCGAATCCTTTTATCCCCACCTTCCTGATGAATCAACCGTTTACGATGGTAAAGTGAATATCACCCTTGTAGGAGACCGTTTAGGAAAGAGTCTGGAAAGAAGAGGGGTCGGGACCATCGTTGATAAAACAGATGTAGCCGCCCTTCGAAGTGAGAAAGGAATGAAATACTATCAGTCTTATGATGCTGTCCGGCCGGTAGTGGAGGAAGCGGCAGGTACCAATGATTCGTTGATCTACTTCTTTGATCTTCACAGGGACAGCCTTGGAAGAGAGCATACGACAACGACGATAAATGGCAAGGACTACGCTCGGTTTGCTTTTGTTATTGGTGCAGAGCATCCTGGTTATGAGAAGAACCTCGCATTTGCCACCGCTCTTCACAACAAGCTGGAGGAGGCCTACCCGGGGATCAGCCGCGGGGTTATTACTAAAAAAGGGTCGGGGGTGGATGGGGTGTACAATCAGGATATCAACCCAAATGCCATTCTGATCGAATTCGGAGGCGTCTATAACAATTTGGATGAGCTGTATCGTTCGGCGGACATCATGGCTGAAGTATTCAGCGACTACTACTTCGACGAACAAAAAGTAACGACAGAACCATAA	MSRYPDKWKKKDGNVVKRGTRWVVLSVTILLLLFIGIGVLTGAKTTYRLYSDTIQEWTAKLKGGSFIYLFEMENRVFKDAHPEGNRIPGLTSLSFQLLTSLTPNDPRSLLGREIPGLSSYNSQIIIAGQGTDFSTLPIESEPPLEVEERGEEGEIEEKDSGTDQEAEPVGEDHVYIYHTHNTESFYPHLPDESTVYDGKVNITLVGDRLGKSLERRGVGTIVDKTDVAALRSEKGMKYYQSYDAVRPVVEEAAGTNDSLIYFFDLHRDSLGREHTTTTINGKDYARFAFVIGAEHPGYEKNLAFATALHNKLEEAYPGISRGVITKKGSGVDGVYNQDINPNAILIEFGGVYNNLDELYRSADIMAEVFSDYYFDEQKVTTEP	PGPT0024690_293	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024690-spoIIP-K06385	NA	NA
AK012_01020	1086	gpr		Germination protease	ATGGAAGAACGATTCAACTACTCAATCCGCACGGATCTGGCGCTTGAGGCGCAGGAAATGAATGTTAAGGATGATCCGTCATCCTCAGACAGAGACGGGGTGGAAGTCCATGAAAACAAGGAAAATGACATCACCATCACCTATGTCACGGTCGATGAGGCCGGAGCCGAGAGAATCGGCAAGAAGCCGGGGCATTATGTGACCCTGGAATCCCTGGCCATTCGTAAACAGGACAAGGAACTTCAGGAAAACCTGGCAGAAACGCTTTCGGTACAATTGAGAAAATTGATGGAAGCATGCGGCATCAAGGATATGGAACGTGGACTGATCGTCGGGCTTGGGAACCATAATGTGACCCCGGATGCTCTGGGGCCGCTTGTGACCGAAGATGTTTACGTAACCAGCCATTTGTTTGAACTGCATCCGGAAACCGTCGCGGAAGGCTGGCGTCCGGTTTCGGCGGTCACCCCGGGGGTCATGGGAGTCACGGGCATCGAAACGAGTGATATGGTCCATGGCATTATCGAGGAAATCAAGCCTGATTTTGTCCTGGTTATCGATGCTCTTGCTTCCAGGTCCATTAACCGGATCAATGCGACGATTCAGCTGTCTGACACGGGCATTCACCCCGGATCCGGCGTCGGAAACAAACGGAAGGAAATCAGCCGGGAAACGTATGGAATTCCCGTCATCTCCATAGGGGTGCCGACGGTCGTGGATGCTGTTACCATTACGAGTGATACCATTGACTATGTACTCAAGCACTTCGGGCGCGAGTGGAGGGAAAAAGACCGTCCATCCAACGCATTGTCTCCGGCTCTTAATCCATTTGAAAGAAAAACCCTGACAGAAGAAGACCATCCTGATGATGAACAGAGCCAGGCGGTGATGGGGATGTTTGGTCAGCTTGCCGAACATGAGAAAAAACAGCTGATCAAAGAAGTATTGACTCCTCTCGGTCATAACCTGATGGTGACCCCGAAGGAAGTGGACAGTTTTATTAAAGATATGGCCTGTGTTATTGCCGCCGGTATTAACGGAGCGCTTCACTCCGGTGTCGAAGACGGCCGCCTTGAGTCATACTAA	MEERFNYSIRTDLALEAQEMNVKDDPSSSDRDGVEVHENKENDITITYVTVDEAGAERIGKKPGHYVTLESLAIRKQDKELQENLAETLSVQLRKLMEACGIKDMERGLIVGLGNHNVTPDALGPLVTEDVYVTSHLFELHPETVAEGWRPVSAVTPGVMGVTGIETSDMVHGIIEEIKPDFVLVIDALASRSINRINATIQLSDTGIHPGSGVGNKRKEISRETYGIPVISIGVPTVVDAVTITSDTIDYVLKHFGREWREKDRPSNALSPALNPFERKTLTEEDHPDDEQSQAVMGMFGQLAEHEKKQLIKEVLTPLGHNLMVTPKEVDSFIKDMACVIAAGINGALHSGVEDGRLESY				NA	NA	NA	NA	NA
AK012_01021	261	rpsT	COG0268	30S ribosomal protein S20	ATGCCTAACATTAAATCAGCGAAAAAACGTGTACGTGTAAACGATGATGCCCGCGCTCTTAACGCAGCATTCAAATCCGACATGCGTACGGCGGTTAAACGTGTAGAAAAGCTTGTTGAAGCTAAAGATGTAGAAAACGCGAAAGAAGTGCTTCCTACAGCTGTTAAGAAAATTGACAAAGCTGTTCAGCGCGGCGCCCTGCACCAAAACACAGGAAACCGTAAAAAATCCCGCCTAACTAAATTAGTTAACGCACTATAA	MPNIKSAKKRVRVNDDARALNAAFKSDMRTAVKRVEKLVEAKDVENAKEVLPTAVKKIDKAVQRGALHQNTGNRKKSRLTKLVNAL				NA	NA	NA	NA	NA
AK012_01022	1029	yqeN	COG1466	putative protein YqeN	ATGGCCAAGCAGAATCAATCACAGGTGTACTTACTATATGGAGTAGAACCGTATCTAATACAGGAAAACAAAGATAAAATCATAAAGCAGGCGTTAAAGAAAGAAGATCGGGAGTTCAACGTATCCCAGTATGATCTGGAGGAAATTCCTGTGGAAGATGTCGTCACAGATGCGGAAACTTTTCCGTTTCTGGGGGATGGGAAAGTGGTCATCGCCAACAACCCTGTCTTTTTCAAAGCAAAGCCGGACAAGCTTTCCTTTGAGCATGATGTGGATGTGCTGCTGCAGTACATACAAAATCCAGCGGAATACACGACTCTGATCCTGATTGCTCCCTATGAAAAGCTCGATGAGCGTAAAAAGCTTTTTAAAGAGCTGAAAAAGCATGGCGCGGTGGTCCACTGTGAGCCGGTTAAAGAATGGAACATGGACAAGTGGATTGCAAGTCTTGCGCGGGATTTACATATTACCGTGCCGGAGGATATATACGAATTATTCACACAGGAAATTGGTGCGAACTTGATGGCGCTTCGGAATGAAATGGAAAAGCTCGCCCTTTATGTAGGAGAAGGCGGCGTTGTAACAAAAGAAACAGCCGAGCAGCTTCTTTCACACAGTGCGGAAGCTTCCGGACTGAAGCTCGTGGATGCTGTGATGGAAAGGGATCTTGGCAAAGCGATCCGTATTTACAAGGACCTTGAAAAAGTGAATGAAGAGCCGATCGCTTTGACGGCTCTGCTTTCCTCTCAATTCCGTATTATCAATCAGGCTAAAGTGCTCAAACAGAAAGGCTATGCCCAGAATCAGATGAAAACGTATATTAAAGCACATCCGTATGTCATCAAAATGGCATTAAAGCGGGAGCGTTATTTCAGTAATCAGGAACTGAACCAAATCATGAATGAACTTGCGGAGACGGATTACAATCTGAAGCAGGGGAAAATGGAAAAAGCGCTTGCTTTTGAAATGCTTCTGTACCGGTTAATCCATATTAAACAGCAGACGTCGGATGCGAAAGCATCAATATAA	MAKQNQSQVYLLYGVEPYLIQENKDKIIKQALKKEDREFNVSQYDLEEIPVEDVVTDAETFPFLGDGKVVIANNPVFFKAKPDKLSFEHDVDVLLQYIQNPAEYTTLILIAPYEKLDERKKLFKELKKHGAVVHCEPVKEWNMDKWIASLARDLHITVPEDIYELFTQEIGANLMALRNEMEKLALYVGEGGVVTKETAEQLLSHSAEASGLKLVDAVMERDLGKAIRIYKDLEKVNEEPIALTALLSSQFRIINQAKVLKQKGYAQNQMKTYIKAHPYVIKMALKRERYFSNQELNQIMNELAETDYNLKQGKMEKALAFEMLLYRLIHIKQQTSDAKASI				NA	NA	NA	NA	NA
AK012_01023	135			hypothetical protein	ATGAACGAGTTCAAAAATGATATTCAATCCAAAACGAATGATGTCATTGATTCCGGATTGGGATTTGTCTTCTCATTTGTCTTCTTCTTCATTATTTTCGCAATCGGGGTTGTATTTTCTGTCGTCGGTCAATAA	MNEFKNDIQSKTNDVIDSGLGFVFSFVFFFIIFAIGVVFSVVGQ				NA	NA	NA	NA	NA
AK012_01024	2262	comEC	COG0658	ComE operon protein 3	ATGAACGCCTTCACCGGCCGGTGGCACCTTCCCGTCCTTGCGTTTGCTGCGGGCGGGGTTCTGGCCTCTTTGGAGGGAGAGGCCCTTTATATTTTTGTCCTCTTAATTACCGTTGTTCTCTATGGTTTCCGTGCTCATATCCCTCAACTTCTTCTCTCCCTTGTTCTCCTCTCTGCCGGGTTCATTTATCTTACTCCCCAATCTCCTCCTGCCTCTATGAAAGGGCCGGAAACGTGGACAGCTGTCATTGATTCAGAAGTGAAAGAAACCTCCTATGCAGTGCAGTTTCTTATGGAAGATGAACAAGGTATAAGACGGCAGGTACGCTTAATGAAAAGCGATCCTGATGAACAGGTACCTGATTATCATCACGGAGGTCTCTGTACGGTATCCGGTACGACGGGCCCGTTTGATTCGGCCCGCAACCCGGGGGAATTTGATTATGCGGCGTATATGGCCACGCAGGGGGTCTTCACTGAAATGATGGTGGAAAACCACTCTGATATAACCTGCCTTGGAAGGTCCTATGTAAGTTATGTATATGAATGGCGGACCAATCTTCTGAAAAGGGTACAACAGCAGTTGGATCCCGGGGCTTGCAGCTGGATCGAAGCCCTTGTTTTTGGAGAAAAGGATGCCATACCTGAAGAAATTACAGAATGGTTCCAAACCTACAATCTTTCCCATATCCTGGCTATTTCAGGGCTCCACGCCGGGCTGCTTGCTGGAGGCGTCTACATGGTTCTTTACCGATCCGGTCTGGCAACGAGAAGGCAGGCCGGGGTGTTTCTTCTTCTCTTTCTCCCTTCGTATACAATCCTCGCCGGCGCTGCGCCATCGGTGATCCGGGCATGCGTGATGGCGCTTATTGTCCTTTTGTTCTCGATGATTAACCACCGGATTCCATTATCTGATGTTATTGCCTGGACAGCTGGTTTTCTTCTTGTTTGGAATCCGGATTATCTTCATCAGGCCGGCTTTCAATTTTCCTTCCTTGTCACGTTCAGTCTGATTCTGTCCGTACCTGTATTGAAGCGGGCCTCCGGTCTTTGGCAGCAGACGATAACCATCAGCCTTATCTGCCTGCTATCCATTCTTCCATTGCAAATCCGCTATTTTTATGAATTTCAACCGCTGTCCCTTTTTGCTAATGTGGCGATGGTCCCTTACTTTTCCTTTTTTGTCATTCCTGTATCCTTTCTTTTGTTTCTTTCAGCCTTCGTTCTTCCTGGCGATGTTTCCCGGGAGGTGTCTTCGTTATTTTCTGATTTTCATCACTGCATCCTTTCAGCTGCCATGAGGGCGGGAGATCTGCTTGATATTCCGTGGGTGATCGGTGAACTGGCTTCTTCCGCAGTCCTTGTCTTTATGATTTTGTTTGTCCGGATGATGATTCATTGGTGCAGAGGGAAGCTCGAGCGGTGTTTTGCTTACGGTGCAGCGTGTGCAGGGGTGCTTATGGTTTACGCCTTCCTTCCCTATTTGTCTCCGGAAGGGACGGTAACGATGCTTGATATTGGACAAGGGGACAGCTTTGTCATTGAACTGCCTTACAGAAAAGGGGTGTGGATGATTGATGCCGCAGGTCCTCCTCCGTACATGGAAGATGAGACCAAAACCGCAAAGACCGTCATTGTGCCATTTCTGAAATCGAGAGGCATCGACACCATTGATACGATTCTGATTACTCATGAGGACAGTGATCATAACGGGAGCGTTCCTTATCTGATCGATCAACTTGATGTGGAAAATGTTGTGACCTCAACTTTCTACCCTGTCCAGTATAAAGGAGTAGAGCAGAGGGAAGTGTCTGCTGGAAATCACTTGAAAACAGATGGACTCAGCATGCGTGTGCTGCACCCGGAAGAAAATACAGGGAATGCGAATGACAACTCTCTTGTTGTCACCTTTGATCTTGGGGGGAAATCGTGGATGTTCACCGGAGACATATCCGTTCCCGTTGAAAAACAGCTGCTTCAGGATCTCCCGGATGGACGTACAGATGTACTGAAAGTGGCTCATCATGGCAGTGACACTTCCTCCAGTGATGCGTGGCTCGATGAGGTCGATGCTGGTACTGCCTGGATTTCGGCTGGAGTGGAAAACCGCTACGGACACCCTCACGAAGAAGTGGTGGAGAAGCTGATGGAGCGGGATATGGTCATTCTGCGGACCGACCAATCGGGGGCAGTCCACTATAATTTTTATGGAGATGATGGAACGTTTTCGACTTTCCTTCCGTATAATGCAAGCAGAAAATAA	MNAFTGRWHLPVLAFAAGGVLASLEGEALYIFVLLITVVLYGFRAHIPQLLLSLVLLSAGFIYLTPQSPPASMKGPETWTAVIDSEVKETSYAVQFLMEDEQGIRRQVRLMKSDPDEQVPDYHHGGLCTVSGTTGPFDSARNPGEFDYAAYMATQGVFTEMMVENHSDITCLGRSYVSYVYEWRTNLLKRVQQQLDPGACSWIEALVFGEKDAIPEEITEWFQTYNLSHILAISGLHAGLLAGGVYMVLYRSGLATRRQAGVFLLLFLPSYTILAGAAPSVIRACVMALIVLLFSMINHRIPLSDVIAWTAGFLLVWNPDYLHQAGFQFSFLVTFSLILSVPVLKRASGLWQQTITISLICLLSILPLQIRYFYEFQPLSLFANVAMVPYFSFFVIPVSFLLFLSAFVLPGDVSREVSSLFSDFHHCILSAAMRAGDLLDIPWVIGELASSAVLVFMILFVRMMIHWCRGKLERCFAYGAACAGVLMVYAFLPYLSPEGTVTMLDIGQGDSFVIELPYRKGVWMIDAAGPPPYMEDETKTAKTVIVPFLKSRGIDTIDTILITHEDSDHNGSVPYLIDQLDVENVVTSTFYPVQYKGVEQREVSAGNHLKTDGLSMRVLHPEENTGNANDNSLVVTFDLGGKSWMFTGDISVPVEKQLLQDLPDGRTDVLKVAHHGSDTSSSDAWLDEVDAGTAWISAGVENRYGHPHEEVVEKLMERDMVILRTDQSGAVHYNFYGDDGTFSTFLPYNASRK	PGPT0029415_2299	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
AK012_01025	558	tadA_2		tRNA-specific adenosine deaminase	ATGGAACGAATTACGTGGAATCAATATTTTATGGCACAGAGTTACCTGTTAAAATCCAGAAGCACCTGCCAGCGGCTTGCGGTCGGGGCTGTGATTGTCCGGGACAAGCGAATGATCGCGGGTGGTTACAATGGTAGTGTAAGCGGCGGAGTGCACTGTATTGATGAAGGGTGCTATGTCGTAGGGGGGCACTGTGTCCGGACGATTCATGCAGAAATGAATGCGCTGCTGCAGTGTTCCAAGTTCGGCGTAGCTGCAGATGGAGCAGAGGTCTATGTTACGCATTTTCCATGCGTTCACTGTACGAAAGCGTTAATACAGGCTGGCATCAAAGCCGTTTATTATGGAGAGGATTATAAAAATGATCCCTATGCTGTCGAGCTCTTCCAACAGGCCGGCGTTCGAATGAAAAAGGTCCCCTTGGAAATTCCGCCTATGCAGACGGAGCAGCGCCATCTCGTCGGCCGGCTGATTGATAAGCTGGAGGATTCGCATGATCCTGAAGTGGAGCAGTTGAAGGAATTAGCCGATCATTATTTCTCCCTTCCTGAAAAATGA	MERITWNQYFMAQSYLLKSRSTCQRLAVGAVIVRDKRMIAGGYNGSVSGGVHCIDEGCYVVGGHCVRTIHAEMNALLQCSKFGVAADGAEVYVTHFPCVHCTKALIQAGIKAVYYGEDYKNDPYAVELFQQAGVRMKKVPLEIPPMQTEQRHLVGRLIDKLEDSHDPEVEQLKELADHYFSLPEK	PGPT0021380_659	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0021380-comEB|tadA-K01493	NA	NA
AK012_01026	570	comEA	COG1555	ComE operon protein 1	ATGATCAAACGATACGGATGGATTGTGATTGTGATAGTCGTGTTTGTACTCGTCTACCGGCAGAGTCAGCCGGAAGCAGAGGTTGAAAATGCTGTCGTAACAGAAGAAGAGCAGGTACCGGCCGAATCTGAAGGAAACATGTCAGAGGATGAAATTGTTGTGGATGTGAAAGGGGAGGTTGTACGGCCGGGGGTCTATGCGATGGAGGACGGGACAAGGGTGGATGATGTCATCACAGAGGCAGGTGGAATGACAGAAGAGGCTGATCCGCATAGTGTTAACCTTGCTCAAATCCTTCAGGATGAAATGGTTGTTCTAGTGGCCGGGACGCCTGAGGATGGAGAAGCCGGTTCCCGGTCATCTGGTATGGATAACGGTAAAATACGAATTAACCAGGCTTCTATGGAAGAAATCCAGACGTTGAATGGTATCGGTCCTTCGAAGGCTGAAAGCATCTTGAAATACAGGGAGGAACATGGACCTTTCGGCTCTGTAGAGGAATTGCTCGACGTACCGGGGATAGGGGAGAAAACATTGGATCAGCTTAAGGAATTCATCGCAGTTCCATGA	MIKRYGWIVIVIVVFVLVYRQSQPEAEVENAVVTEEEQVPAESEGNMSEDEIVVDVKGEVVRPGVYAMEDGTRVDDVITEAGGMTEEADPHSVNLAQILQDEMVVLVAGTPEDGEAGSRSSGMDNGKIRINQASMEEIQTLNGIGPSKAESILKYREEHGPFGSVEELLDVPGIGEKTLDQLKEFIAVP	PGPT0029410_1846	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
AK012_01027	810	proC_1		Pyrroline-5-carboxylate reductase	ATGAGATGGGGAATCATCGGAACCGGAAATATGGGAAGCATGCTGACTGCATCACTGGTTAAAAGTGGAGCTGTGCGTGGAAATCAATTAACGATTTACAATAGAACAAAAGCAAAAGCGGAAAACTTAAAAGAAGAATTGGGGTCGATTACGGTGGCGGATACGCTGCAGGACATCCAGCAAAACAGCGATATCCTTTTCATCTGTGTGAAACCGCATCATTATAAAGGAATTTTAGAAGAACTGGAAGGAAAGTGGAAAAAAGAGCAGTGTCTCGTTTCCATCACCTCACCGATTGCCGTGGAACAGCTGGAGAAGGCTGTCCCTTGTGAAGTCGCCCGGGTAGTACCGTCGATCACAAATCACGCCCTTGCCGGCGTCAGTTTGATGACATTTTCCGAAAACACAAGTGAGGCCTTCCGGAATGCTATTCACCGAGCTTTCTCCCACATTTCGACACCAGTGGAGATTGAAGAGGAATATATACGCGCAGCGTCTGATATCGTTTCCTGCGGGCCGGCCTTTATCAGTTTTCTGCTCAGTCAATGGATCGCAGCCGCAGGAGAGGTGGCCGGCATGCCGAAGGAAAAGGCGACCGTTTTAACAGAAAATATGATGACAGGGCTCGGTGAACTGCTGTCCAGGCGGATTATGACATTGGAAGAACTGATGGAGAAAGTCACAGTCAAAGGCGGGGTGACCGGGGAGGGACTTCAGGCCCTGGAGGACCACATTGGACCTTTATTCCAGAAGATGTTCGAAGCCACACAGAGGAAACATAAAGAAGATAAAACAAACATTCATCTGTAA	MRWGIIGTGNMGSMLTASLVKSGAVRGNQLTIYNRTKAKAENLKEELGSITVADTLQDIQQNSDILFICVKPHHYKGILEELEGKWKKEQCLVSITSPIAVEQLEKAVPCEVARVVPSITNHALAGVSLMTFSENTSEAFRNAIHRAFSHISTPVEIEEEYIRAASDIVSCGPAFISFLLSQWIAAAGEVAGMPKEKATVLTENMMTGLGELLSRRIMTLEELMEKVTVKGGVTGEGLQALEDHIGPLFQKMFEATQRKHKEDKTNIHL	PGPT0029420_197	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029420-comER-K02239	NA	NA
AK012_01028	714	cypM		Cypemycin N-terminal methyltransferase	ATGGCCCGGGTATACGACCGTTTGATGGAAGACGCTCCTTACAGCAGCTGGGTGTCATTCACAAAGGATCAGATGCATCACCACGGCATTACGGGGAGCAGGATTCTTGATGTAGGCTGTGGAACAGGTGAGATTACCCATAGGCTGGATCAGGAGGGGTATCAAATGACAGGTGTGGACCTGTCAGAGGAAATGCTTGCTGTGGCCCAGCAGAAAAACCCCCGTTCCACTATTCAATGGTTAAAACAGGATATGACTGAACTTGAATTTCCGGTATCTTTTGACACCGTTATCAGTTATTGTGACGTTTTCAACTATCTCCAGGAACCAGAACAGGTAAAAGCGTCTTTCAACCGTATTCATGCAGCGTTGGAAGAGGGCGGACTGTTTTTGTTTGATGTCCACTCTATAGATCATATTCAGCGGGATCTTAGTGGTTCCACCTTTGCCGAGGTTTATGATGATTTGTCCTATGTATGGTTCTGTGATCCTGGTGAAAAGGATAACAGTATCGTTCACGACTTGACCTTCTTTATTCAGGAAGGTGGCGTTTATCATCGATTTGATGAAGTTCATGACCAGCAGGGATTTGAACTCCGTGACCTTAAAGCGTGGCTGGAGGAGGCAGGTTTCTCCTTCCAGGGCGTCTATGCAGATTTCAGCACAGAACCTGATGCAGAAGGGGACCGGTGGTTGATCGCTTGTACGAAATAG	MARVYDRLMEDAPYSSWVSFTKDQMHHHGITGSRILDVGCGTGEITHRLDQEGYQMTGVDLSEEMLAVAQQKNPRSTIQWLKQDMTELEFPVSFDTVISYCDVFNYLQEPEQVKASFNRIHAALEEGGLFLFDVHSIDHIQRDLSGSTFAEVYDDLSYVWFCDPGEKDNSIVHDLTFFIQEGGVYHRFDEVHDQQGFELRDLKAWLEEAGFSFQGVYADFSTEPDAEGDRWLIACTK				NA	NA	NA	NA	NA
AK012_01029	354	rsfS	COG0799	Ribosomal silencing factor RsfS	ATGGAAAGCAGAGAATTAGTAACACTGGCCGCACAGGCCTGTGATGAGAAAAGAGCTCAGGATATTGTCGTATTGGATATGGCAGACGTATCTTTAATTGCGGATTACTTCGTTATCTGCGAAGGATCCAATGAAAGACAGGTACAGGCTATCGCCAGAGAAGTGAAGTCTCAGGCTGAAGAGAATGGGATGGAAGTGAAACGTATGGAAGGATTTGAGCAGGCCCGCTGGGTTTTAATTGATCTCAATGGTGTTGTCTGTCACATCTTCCATAAAGATGAGCGTCATTATTACAATCTGGAAAGACTCTGGGGAGACGCGGATACCGTGTTCGTTGAGGGTTTGGAAAACTAA	MESRELVTLAAQACDEKRAQDIVVLDMADVSLIADYFVICEGSNERQVQAIAREVKSQAEENGMEVKRMEGFEQARWVLIDLNGVVCHIFHKDERHYYNLERLWGDADTVFVEGLEN				NA	NA	NA	NA	NA
AK012_01030	561			hypothetical protein	ATGGAAATGACTCGTGAACAAGCTTTGGCGTATGTCAAACCTTTTCTGAAACAGGAGCGGTTTGACCATACTGTAAGAGTAACCGATCAGGCCGTCATCCTCGCCGAGCGTTTTGGTGCCGATGCTGAAAAAGCTGCCCTCGCTGGTGCCCTTCATGATTATGCCAAGTACAAGGACAGGGATCTGATGCGGCGTTGGATTGAAACCGACAGGCGTCTTCCTAAAGATCTGCTTGACTATCATCATGAGCTTTGGCATGGACCCGTAGGCGCCCTGATGCTGGAACAGGAAATTCATTTGACAGATCCCGAGGTGTCCAGTGCTGTTTCCTGTCACACGACAGGAAAGAAACATATGAGTATTTTGGATAAAGTTGTCTTTTTAGCGGATTACATTGAACCCGGCCGGAATTTCCCCGGTGTTGATGAAGTCCGGGAAACAGCAGAAACGGATTTGGATAAGGCCTGCCTTCTTGCCTTGAAAAATACGATTGTTTTTTTAGTCGGCAGGGGAAGGACCGTTTATCCGGACACGTTTCATGCATATAATGATTTATTATAA	MEMTREQALAYVKPFLKQERFDHTVRVTDQAVILAERFGADAEKAALAGALHDYAKYKDRDLMRRWIETDRRLPKDLLDYHHELWHGPVGALMLEQEIHLTDPEVSSAVSCHTTGKKHMSILDKVVFLADYIEPGRNFPGVDEVRETAETDLDKACLLALKNTIVFLVGRGRTVYPDTFHAYNDLL				NA	NA	NA	NA	NA
AK012_01031	573	nadD	COG1057	Nicotinate-nucleotide adenylyltransferase	ATGAAAAAAATCGGCATCCTCGGCGGTACGTTTGATCCACCTCATTATGGACATTTGTTAATGGCTGAATACTGCCGGGAGGATATGGGACTGGATGAGGTCTGGTTTATGCCGTCCTATATTCCCCCACATAAAAAAGAGTCTCAGACAGACGCGGAACTTCGTCTGGAGATGGTGGAGCGTTCGATTGCCGGACATCCGGATTTTCGTTTGTGTGATATCGAACTTGTGAGAAAAGGAACGTCATACACGTATGACACCTTGACCCTTTTGAATAACGAATACCCGGACCATCATTTTTTCTTTATTATAGGTGGAGATATGGTACAAAATCTCCCGCAGTGGTATAAAATAAAAGAACTGAAAACCATCGTGGATTTTGTCGGAGTGAAGCGGCCGGGGTATGAGTGGAATCCGGAAGCGGATGTTCATTATGTAGACATTCCCGGTGTCGATGTTTCTTCCACTATGATCAGGGAAAAGCTTAAAAATGGAAAAAGTGTCCGTTACCTTGTGCCGGAAGCGGTGGATTCTTATATAAAGGAGCATCACCTCTATGGAAATGACTCGTGA	MKKIGILGGTFDPPHYGHLLMAEYCREDMGLDEVWFMPSYIPPHKKESQTDAELRLEMVERSIAGHPDFRLCDIELVRKGTSYTYDTLTLLNNEYPDHHFFFIIGGDMVQNLPQWYKIKELKTIVDFVGVKRPGYEWNPEADVHYVDIPGVDVSSTMIREKLKNGKSVRYLVPEAVDSYIKEHHLYGNDS	PGPT0013435_4089	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013435-nadD-K00969	NA	NA
AK012_01032	291	yhbY	COG1534	RNA-binding protein YhbY	ATGTTAACGAGTAAACAGAAAAAGCATTTGCGTGCGGCATCCCACCAGGTGCAGCCGATCTTCCAGGTTGGTAAAGCAGGGGTCAATGAAAATATGACGACACAGATCAATGAGGCTCTTGAAAAGCGTGAATTGATCAAGGTCAGCATTCTGCAGAATTGTCTGGAAGAACCCGCTGTTGTAGCGGAAGAAATTGTGGAAGCTACGGACGCCCACATTGTACAGGTAATCGGAAGCACGATCATCCTGTACAAAGAGTCTAAAGAAAATAAGCAGATTGAACTGCCGTAA	MLTSKQKKHLRAASHQVQPIFQVGKAGVNENMTTQINEALEKRELIKVSILQNCLEEPAVVAEEIVEATDAHIVQVIGSTIILYKESKENKQIELP				NA	NA	NA	NA	NA
AK012_01033	837	aroE	COG0169	Shikimate dehydrogenase (NADP(+))	TTGTATACATTCGGGTTAGCAGGTTTTCCTGTCGGCCACTCACTGTCACCATGGATTCATGGACAATTGATGGAACAGACGGGGGTCGAAGGAGATTATCAACTGTTCGAAATCAAACCGGAAGACTTTGATGAGCAGATCAGTCAGATGAAGAATCAAGAGCTGGACGGATTCAACGTGACGGTACCTTATAAAGAAAAGATTATTCCGCATCTGGACGGCGTCGACGCCAGTGCTGCCCAGCTTGGTGCCGTCAATACAGTCAAGCGGACATCTGAGGGATGGATCGGCTATAATACAGACGGAACAGGATTCCTGCATTCACTTCAGGCCCGTTTTCCTGATCTTTTTGAAAAGAAGATCAACGTTCTGCTGCTCGGGAGCGGAGGAGCGGCCAGGGGGATCTTCGACGCTCTGATGAAACAGGCAGAGGTGCAGGTCGATGTAGCGAACCGGACGCTCAGCAGGGCGGAAAGTATGATTGCTGAAACCGGCGGGGCCGGCATTGCCCGGGCGGTTTCGTTTGATGAGGCTGAACAAGCAGCAGGAGAGTATGACCTGATCATCCAGACCACTACTGTCGGTATGAGCCCGAATGAAGACACATCCATTTTGTCCCTTCAAAACTTGAAAGAGGGGACGGTTGTCAGTGATATTGTCTACCGCCCCGTTATGACGACCTTCTTAAAAGAGGCAGAACAAAAAGGCGCCCGCCTGCATTTTGGGCATGAAATGTTATTGCAGCAGGCGGTCTATGCTTTTCAAATCTGGACGGATCTTGAGCCGGAAGCTCGTCCGCTCCTTGAAAAGTTCGAACGAAAGTTGAAAGGGGAATAA	MYTFGLAGFPVGHSLSPWIHGQLMEQTGVEGDYQLFEIKPEDFDEQISQMKNQELDGFNVTVPYKEKIIPHLDGVDASAAQLGAVNTVKRTSEGWIGYNTDGTGFLHSLQARFPDLFEKKINVLLLGSGGAARGIFDALMKQAEVQVDVANRTLSRAESMIAETGGAGIARAVSFDEAEQAAGEYDLIIQTTTVGMSPNEDTSILSLQNLKEGTVVSDIVYRPVMTTFLKEAEQKGARLHFGHEMLLQQAVYAFQIWTDLEPEARPLLEKFERKLKGE	PGPT0012890_3064	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
AK012_01034	1101	yqeH	COG1161	putative protein YqeH	ATGGCAGAGATTCAATGCCAGGGCTGCGGAGCTGAAATACAAACGACAAATCCCGAATTACCGGGATATGCCCCTGCTTCCGCATTAAACAGGGAGGATATCATTTGTAAGCGGTGCTTCAGGCTGAAACACTATAATGAAGTACAGGATGTGCCGTATCAGGATGATGATTTCCTCGAGATGCTCAATCAGATCAATGGGACGAAAAGCCTCGTTATCCAGCTGATTGATATTTTTGATTTCAATGGAAGTTTTATTCCAGGATTAAAACGATTGACCGGAAATAATCCTGTTCTTCTTGTCGGGAACAAAATGGACGTTCTTCCAAAGTCCGTGAACCATGGCAAGGTGAAGCACTGGCTGAAACGTTCGGCCAGAGAGAACGGCTTGGAAGTAGAGGATGTCTTCTTGATTTCCGCTGAAAAAAATCAGGGGATTGAAGACTTGTCAAGAGCTGTTGAGGAGTACCGGAAGGGAAGAGATGTGTATGTAGTAGGGACGACGAACGTTGGTAAATCGACGTTTATCAATACCCTCATTTCCAACACATCAGGCGTGAAGGATGCAATCACGACGTCCTATTTCCCAGGGACAACCCTCGGTTTTATCGATATTCCCCTGGATGAAGAGAGCTCTATGTTTGATACGCCGGGAGTCATCCACCGCCATCAGATGGCCCACTACGTGTCGGATAAGGATTTGAAAGTGATCACACCCCGGAAAGAAGTGAAGCCTAAGGTCTATCAGCTGAATGAACAGCAGACCCTGTTTATCGGTGGACTGGCCAGGCTTGATTTTGAAAAGGGAGAGCGATCTTCCTTTATCGGGTATTTCTCTAATGAACTGCATATTCACCGGACAAAAATGGAGAAGGCTGATGAATTGTACAAGAACCACTTAGGGGAGCTTCTTACCCCGCCGGATCCGAATACGAAAGAGAAGCTGCCACCATTGACAGCCCAAACATTGAAAATAACAGAGCCGAAGACAGATATCGTGTTTTCCGGACTGGGGTGGATCACCGTGCCGGAAGGAGACATCACCGTAACGGCTCATGTTCCTGAAGGTGTGAAAGTATCCCTTCGTTCATCACTCATATAG	MAEIQCQGCGAEIQTTNPELPGYAPASALNREDIICKRCFRLKHYNEVQDVPYQDDDFLEMLNQINGTKSLVIQLIDIFDFNGSFIPGLKRLTGNNPVLLVGNKMDVLPKSVNHGKVKHWLKRSARENGLEVEDVFLISAEKNQGIEDLSRAVEEYRKGRDVYVVGTTNVGKSTFINTLISNTSGVKDAITTSYFPGTTLGFIDIPLDEESSMFDTPGVIHRHQMAHYVSDKDLKVITPRKEVKPKVYQLNEQQTLFIGGLARLDFEKGERSSFIGYFSNELHIHRTKMEKADELYKNHLGELLTPPDPNTKEKLPPLTAQTLKITEPKTDIVFSGLGWITVPEGDITVTAHVPEGVKVSLRSSLI				NA	NA	NA	NA	NA
AK012_01035	678			hypothetical protein	GTGGAAAATGTGCATAAACTTATCCACAACCCGGATATGTCGGTAAATGTCGAACGAATTATGTTCTTAATAGAAGACCTTTTGAAACATAACGAAATTTTGTATATGATGGTGAAGGAGATTTTGCCGTTGTATAAGAGATGGAGTGAGTTGATGTTAAATAATTTTCTGCCCAATGAACACGTTCCAAGTGTATTTGATATAGATCCACAGGAACTCAAGGACAAAGGAATTAAAGGTGTTATCACCGATCTGGATAATACGCTGGTAGCCTGGGATGTTCCCGATGCTACCGAAGAAATCAAGGCATGGTTTAAAAAAATGAACAGTCATGGAATTCAGGTGACCATCGCTTCCAATAATAATGAAGCGCGTGTGAAGTTGTTTTCGGAGCCTTTGGATGCCACTTTTATTCACAGCGCCCGGAAGCCCCTGTCCAAAGCGTTCAAAAAAGCACGCAAGCAGATGAATTTAAATAAGAACGAGGTTGCTGTTATTGGTGACCAGCTTCTCACTGATGTTCTTGGAGGCAACTCTGCAGGTTACCATACCATTCTCGTCGTACCGATTGTTGAGACGGACGGTTTCATTACCCGCTTTAATAGGAAGATTGAACGCCGGATTTTAAACTGGATGAGAAGAAAAGGGAAAATTACGTGGCAGAGGAGAGATGGATAA	MENVHKLIHNPDMSVNVERIMFLIEDLLKHNEILYMMVKEILPLYKRWSELMLNNFLPNEHVPSVFDIDPQELKDKGIKGVITDLDNTLVAWDVPDATEEIKAWFKKMNSHGIQVTIASNNNEARVKLFSEPLDATFIHSARKPLSKAFKKARKQMNLNKNEVAVIGDQLLTDVLGGNSAGYHTILVVPIVETDGFITRFNRKIERRILNWMRRKGKITWQRRDG				NA	NA	NA	NA	NA
AK012_01036	168			hypothetical protein	ATGTGTGACAGCGGTATGAAGCAACTATCGGATTCCCTGCTTATACAATCTTACCACAAAGCCATTGAACTCAATCTTTCCGAAGAGTTTGTTGAACAGATCAGGAGAGAAATAAAAAAAAGGGCCATCCAGAACCAATTGGAAAAAACGGTTCCGAGGGTGGGATGA	MCDSGMKQLSDSLLIQSYHKAIELNLSEEFVEQIRREIKKRAIQNQLEKTVPRVG				NA	NA	NA	NA	NA
AK012_01037	2337	mrpA	COG1009	Na(+)/H(+) antiporter subunit A	ATGCTGGTGGCCGTATTACTGCCTTTTATTCTTGCTCTTTTCATTCCATTTTTAAGCAGATGGAAAGAAAAGCTGCACCCGGGCTTCTTTGTAACACTTGTGCCTGTGGTCATTTTTATTTACTTTGTACGTCATATTGGTACAGGCTTTGAACCTGTCATTCAGGAATACTCATGGATTCCGTCTCTTGGAATGAACATGGTTTTCCATCTGGACGGCCTGAGTCTGCTGTTTGCACTTCTTATCAGTGGAATCGGTGCCTTAGTGGCTTTCTACTCGATTTACTACTTACATAAATCGGAGCAGCTGGGCCATTTCTACGTGTACTTCCTAATCTTTATGGGGTCGATGCTTGGTGTTGTTCTTTCGGACAACGTGTTCGCCCTGTACAGCTTCTGGGAGTTTACGTCCTTGTCTTCCTTCCTGTTAATCGGGTTCTGGAACTATAAACAGGAATCTCGTTATGGCGCACTAAAATCCATGCTGATTACCGTGTTCGGCGGCCTGAGTCTGCTCGGTGCGCTGGTTTACATGAGTGTGTTAACGAATACAACAAGTATCCGCGCGATGATTGATCAGCAGCAGCTTGTTTTAAACAGTGAATACTTCCCGCTGATTTTGTGCCTGCTTCTTTTAGGAGCTTTTACAAAATCCGCCCAGTTTCCTTTCCACATCTGGCTTCCTGATGCTATGGAAGCACCGACACCTGTCAGTGCCTACCTTCACTCAGCCACTATGGTTAAAGCAGGAATTTATCTGGTTGCCAGATACTCCCCGATGCTCTCTTCCAGTGAATGGTTCTTCATTATTGTGTCCACTGCTGGGATTGTTACCTTATGCTGGGGATCTTATATGGCTGTCAGACAGACAGATTTAAAAGGAATACTCGCCTTTTCGACCATCAGTCAGCTGGGTATGATCATGGCGATGCTCGGATTCGGAACGAAAGCCGCTGTGTTCGGTGCTGTGTTCCATATTCTGAACCACGCTACCTTTAAGGGAAGCCTCTTCATGGTTGCCGGAATTATCGACCATGAGACAGGGACAAGGGATATCCGCCGGCTCGGTGGTTTAATGACCTATCTCCCGATTACAGCGACGCTGGCGTTGTTTGCTTCCTTCTCAATGGCCGGTGTACCCCTGCCATTCTTAAACGGGTTCTATAGTAAGGAAATATTCTTTGACTCCTCCCTGCATCTGGAAGCATCAGCGGCCGGATTTTCAGGATTTATGATGAGTGTTATTCCTTATCTTGCCGTATTGGGAAGTATATTTACATTCGTCTATTCCATGTACTTCTTTTTCGGTACCTTCCGTGGCAGAGCCAAGCTCGATCAGCTTCCGAAAAAACCACACGAAGCCCCGATCGGCATGCTTGTATCCCCGATGATTCTGGTGGCGGGTGTGATTATCATCGGCCTGTTCCCGTTCCTGGTGAACGGATCGTTCATCGCCCACGCAGCGGATGCTGTTAAGGGAACAGCCCTGGACGAAAAACACATTACATTCTGGCACGGCATCATCCCGCCATTTGTCATGTCCTTAACCGTTGTCGTCTTCGGCGCGATCCTGGCCATTTCAAGGAAAGTGTGGACACCTGTCTATAACTTCCTCCCGGGACGGTTGAGCCTGAACAAATTTTACGATGGGCTTGTCGACCGGACGGAACGTTATTCCGGAGTCATTACAAAGGGATATATGAACGGATCGCTCGGACGCTATGTCCGCTTGATTCTGGCAGCCATCCTGATTGTCAGTTTTGCCTTTATGGCCGTTACAGGCGGATTTACCGTGGATACGTCCAACTTATCCAGAATCACGGCACCTGAAATTGCTGTAGCTGTCACAATGGTTCTGGCAGCTGTCGGAACAGCCCTGACCAACAACCGGATTGCGGCGATCTTAATTTTAGGTGTCGTCGGATACGGGCTTTCCATGCTGTTCGTGCTTTACAGAGCACCCGACCTTGCGCTGACTCAGCTTATTGTTGAAACCGTTACGGTTGCTCTATTCCTGCTTGTGTTCTATCACCTTCCTAAACTCAGGAAGAAAGACCAGCCTGTGAGCACCCAGGTTCTTAACGTCATTATTTCTGTAGGTTTCGGAGCTCTCATGACAATGGTTGCCATCTCTGCCCACAGCAGCAAGTGGTTTGATTCCATTGCGGAATACTTTGTTAAGAACTCCTATAAACTCGGAGGCGGAGATAACATCGTCAACGTCATTCTTGTTGACTTCCGTGGCCTGGATACGTTATTTGAAATCGTCGTCCTCGGAATTGCCGCCATGGCGATTTTCGGGTTGATCCGATTAAAGAAACCGAAGGAGGGTGAATAA	MLVAVLLPFILALFIPFLSRWKEKLHPGFFVTLVPVVIFIYFVRHIGTGFEPVIQEYSWIPSLGMNMVFHLDGLSLLFALLISGIGALVAFYSIYYLHKSEQLGHFYVYFLIFMGSMLGVVLSDNVFALYSFWEFTSLSSFLLIGFWNYKQESRYGALKSMLITVFGGLSLLGALVYMSVLTNTTSIRAMIDQQQLVLNSEYFPLILCLLLLGAFTKSAQFPFHIWLPDAMEAPTPVSAYLHSATMVKAGIYLVARYSPMLSSSEWFFIIVSTAGIVTLCWGSYMAVRQTDLKGILAFSTISQLGMIMAMLGFGTKAAVFGAVFHILNHATFKGSLFMVAGIIDHETGTRDIRRLGGLMTYLPITATLALFASFSMAGVPLPFLNGFYSKEIFFDSSLHLEASAAGFSGFMMSVIPYLAVLGSIFTFVYSMYFFFGTFRGRAKLDQLPKKPHEAPIGMLVSPMILVAGVIIIGLFPFLVNGSFIAHAADAVKGTALDEKHITFWHGIIPPFVMSLTVVVFGAILAISRKVWTPVYNFLPGRLSLNKFYDGLVDRTERYSGVITKGYMNGSLGRYVRLILAAILIVSFAFMAVTGGFTVDTSNLSRITAPEIAVAVTMVLAAVGTALTNNRIAAILILGVVGYGLSMLFVLYRAPDLALTQLIVETVTVALFLLVFYHLPKLRKKDQPVSTQVLNVIISVGFGALMTMVAISAHSSKWFDSIAEYFVKNSYKLGGGDNIVNVILVDFRGLDTLFEIVVLGIAAMAIFGLIRLKKPKEGE	PGPT0013895_1111	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013895-mnhA-K05565	NA	NA
AK012_01038	339	mrpC	COG1006	Na(+)/H(+) antiporter subunit C	ATGGAATTCGTTATGGCTGTATTAGCCGGTATTTTATTTACGACCGGCGTGTATAACCTCCTTCAAAAGCAACTGCTGAGAATCATTATAGGAACAGGGCTCATTTCCCACGGAGCCCACCTGTTCATCCTTACGATGGGGGAACTGAAACGGGGAGCGCCCCCGGTTCTTACCGAAGGAATCGAGAACTACACTGATCCGCTCCCACAGGCCTTGATTTTGACATCCATTGTAATCAGCTTTGGTGTCACCAGTCTTTTGCTGGTTCTTGCCTATCGTGCCGCGAAAATCAACGGCACGGATAATATGGAGCAACTGAGAGGTAACGACTATGAGTAA	MEFVMAVLAGILFTTGVYNLLQKQLLRIIIGTGLISHGAHLFILTMGELKRGAPPVLTEGIENYTDPLPQALILTSIVISFGVTSLLLVLAYRAAKINGTDNMEQLRGNDYE	PGPT0013905_1503	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013905-mnhC-K05567	NA	NA
AK012_01039	1485	mrpD	COG0651	Na(+)/H(+) antiporter subunit D	ATGAGTAATTTAGCTATACTTCCGATTCTGCTGCCACTGCTTGCAGGAATCATAACAGCCTTTATCCACAAAAAAACGAAGCTGGTCCGCTCCTTTTCCCAGATTACTGCGGTCATCAACCTGATTGTAGTCGGGTACGTCTTTATGACCATCCGCAGTCAAGGAACAATCGTCCTTGAGCTCGGAAGCTGGGAAGCGCCGTTCGGGATTGTCCTTGTGGGTGATTTATTAGCAGCCGTCCTCGTGCTGACGACCAACATTATTGGTGTCGCTGCTGTATTTTTCGCTCCCAAGTCTCTGACGGAAAAAGAAGAATCCTTCTATTTTTACAGCTTCTTTTTCCTTTTGATCGCAGGTGTAAGCGGAGCTTTCCTTACCGGTGATTTATTCAACCTGTTTGTATTCTTTGAAGTCCTGTTAATGGCTTCATACGGATTGATTGTCCTCGGGAATGGAAAAGCACAGCTTCGGGAATCTATTAAATATGTATTGATCAACCTGTTCTCTTCCATGCTGTTTGTAACAACAATCAGCTTTCTATACTCTGTTGTCGGTACTGTTAACATGGCACAGATCGCACAGCGCGTTCAGGAAGTTGAGCAGCAGGGGATCTTAACGACCATCGGAATTCTGTTGTTCTTCGTCTTTGCAACAAAAGCGGCCGTATTCCCACTGTACTATTGGCTTCCAAGACCCTATACAGCACCAAATGCCGTCGTTTCCGCACTATTTGGAGCGTTATTGACGAAGGTGGGTATCTACTCCATCCTGCGGACATTCACGCTTATGTTCAACCAACAGGTGGATATTACACACACCCTGTTCATCTACCTTGCTGCATTGACGATGATCTTCGGTGTCATTGGCGCTTTATCCACCCACAACGTGAAACTGATTATTGCGTATAACATTATTCCAGCGGTCGGTTTCATGCTCATGGGAATTGGAATCTTTTCAGAAGTTTCCCTGAGTGGTACGATTTATTATCTTGTTCATGACATGATTATTAAAGCCGCCCTCTTCATACTCGCCGGGGCCACGGTCTATGTGGCCGGCACATCGGATTTAAGAAAAATGGGCGGTCTGATCCATCACTACCCTGTTCTTGGGTGGATGACATTCCTGGCCTCCCTTGTCCTTGCCGGAATTCCGCCATTCAGCGGGTTTATCGGCAAACTGCAGCTGATCCGTGGTGCTGCGGGGCAGGATGAAGTAATGATTATAATTGTGGCGTTGATTTCCAGTCTGTTGATTCTATTCTCGATGATTCGTATCTTTATCAGGGGATTCTGGGGAGAAAAGACCGATATCCCCCGTCCGGATCGGAAGGAAAAAGGCAGCCGCATGGTTTACCCGGCTGTATTTCTATTAACCCTTTCCGTCCTGTTAGGTGTTGGCGCTGAATGGTTCTTCCCTGTCGTGGAGTCCATCGCTCAATACTTAATGGATCCGGAAATCTACATTGAGTCTGTATTAAAGGAGTAG	MSNLAILPILLPLLAGIITAFIHKKTKLVRSFSQITAVINLIVVGYVFMTIRSQGTIVLELGSWEAPFGIVLVGDLLAAVLVLTTNIIGVAAVFFAPKSLTEKEESFYFYSFFFLLIAGVSGAFLTGDLFNLFVFFEVLLMASYGLIVLGNGKAQLRESIKYVLINLFSSMLFVTTISFLYSVVGTVNMAQIAQRVQEVEQQGILTTIGILLFFVFATKAAVFPLYYWLPRPYTAPNAVVSALFGALLTKVGIYSILRTFTLMFNQQVDITHTLFIYLAALTMIFGVIGALSTHNVKLIIAYNIIPAVGFMLMGIGIFSEVSLSGTIYYLVHDMIIKAALFILAGATVYVAGTSDLRKMGGLIHHYPVLGWMTFLASLVLAGIPPFSGFIGKLQLIRGAAGQDEVMIIIVALISSLLILFSMIRIFIRGFWGEKTDIPRPDRKEKGSRMVYPAVFLLTLSVLLGVGAEWFFPVVESIAQYLMDPEIYIESVLKE	PGPT0013910_1998	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013910-mnhD-K05568	NA	NA
AK012_01040	477	mrpE	COG1863	Na(+)/H(+) antiporter subunit E	ATGCCATTACAAATAGTACTGAACATCATAATTGCCCTCATGTGGATGTTCCTGAGTGAAAGCTATACGTTCACTTCTTTCCTTGTCGGTTACATTCTCGGGATTATTCTCCTGTTCCTTTTACGTCGTTTCGTCCCTGATTCCTTTTACATGAAACGGACATGGAAATTCGTCCAGCTGATTCTCCTGTTTATACGGGAGCTCATCCTGTCCAACCTGGATATACTGAAATATGTATACAAGCCGAAACAGGATATGCAGCCGGGGATCTTTGCTCTTCCGATCGATGTGAAAACGAACTTTGAGATTACTCTGCTTGCCAACCTGATTACATTGACACCTGGAACGCTGTCTGTTGTAGTCAGCGAAGACCACAGGAAGATTTATATTCATGCGATGGATATTCCCGATGTACAGGAAACCATTAATGATATTAAGAATTCATTTGAAAAACAAATCATGGAGGTGACGCGTTAA	MPLQIVLNIIIALMWMFLSESYTFTSFLVGYILGIILLFLLRRFVPDSFYMKRTWKFVQLILLFIRELILSNLDILKYVYKPKQDMQPGIFALPIDVKTNFEITLLANLITLTPGTLSVVVSEDHRKIYIHAMDIPDVQETINDIKNSFEKQIMEVTR	PGPT0013915_1386	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013915-mnhE-K05569	NA	NA
AK012_01041	312	mrpF	COG2212	Na(+)/H(+) antiporter subunit F	ATGGAAGCTGTTTTAGATACAACACAGAGGCTGATTGAAACATCAGCCATCATCGCCATTGTAGCCGTTGCTGCATCCGTCATCCTTCTTCTTTACAGAGCGATTCTCGGTCCGACAAACCCGGACCGGGCCGTTGCTCTGGATACCATCGGAATTAATTTAATGGCCCTCGCAGGGCTGATTGCCGTCCTGCTTGTGACAACCAAATTCAATGACGTCGTGCTGCTGATCGGAATTCTCCTGTTTATCGGAACAGTAGCTCTGGCGAAATTCTTAGAAAAGGGTGTTATTATTGAGCGGGACGTGGATTAA	MEAVLDTTQRLIETSAIIAIVAVAASVILLLYRAILGPTNPDRAVALDTIGINLMALAGLIAVLLVTTKFNDVVLLIGILLFIGTVALAKFLEKGVIIERDVD	PGPT0013920_250	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013920-mnhF-K05570	NA	NA
AK012_01042	387	mrpG	COG1320	Na(+)/H(+) antiporter subunit G	TTGAGCGGGACGTGGATTAACTTCATCTTTGATATTGTCATTTGTCTATTCCTGCTGAGCGGTGCCTTCTTCCTCGTTTCAGGGTCCATTGGGATTCTAAGGTTTCCGGATGTCTATACCCGTCTTCATGCAGCTACAAAGAGTTCAACACTCGGCGTAGCCGGCATAATGATCGGTGCTTTTCTCTTTCTCTATGTAGAGAATGGAATTGTCAGCGGGAAGCTGCTGCTCGGAATTTTCTTCGTCCTTCTGACAGCCCCTGTTTCCGGTCATATGATTTCAAGAGCCGCCTATCGTGCCGGTGTCCCTCTCTGGGATGAGAGTGTGCAGGATGATTATGCAGAAGATCTGGAAAAAGAACGGAAAAACCAGGCTCAGGATTCATAA	MSGTWINFIFDIVICLFLLSGAFFLVSGSIGILRFPDVYTRLHAATKSSTLGVAGIMIGAFLFLYVENGIVSGKLLLGIFFVLLTAPVSGHMISRAAYRAGVPLWDESVQDDYAEDLEKERKNQAQDS	PGPT0013925_408	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013925-mnhG-K05571	NA	NA
AK012_01043	714	sigK		RNA polymerase sigma-28 factor	ATGAGCAGTCTGATCGCGTCGATCCTTTACTTTTTCAAAGAGTCCCTCTTTTTCATGTCGTATGTGAAAAACCAGGCCTTCCCCAACCCCCTCTCGCCGGAAGAAGAAGCCAAGCAGCTCCAGTTGATGGCAGAAGGCAGTCATGAAGCACGGAACAAACTAATCGAACATAACCTCCGCCTTGTCGCACACATCGTCAAAAAATTCGAGAATACAAAGGAAGACTTTGAGGATTTGATATCCATTGGTACGATAGGACTGATTAAGGGCATTGAGAGCTACTCGACGGGAAAAGGAACAAAACTGGCTACTTACGCCGCCCGATGTATCGAAAATGAGATACTCATGCACCTCCGATCCACAAAGAAAATGAGTAAGGATGTTTCCCTCCAGGACCCGATCGGGCACGATAAGGAAGGGAATGAACTTAATCTACTCGATATTCTGCAGGCAGATGTCACGGATATCGTCGAGGAAATCCAGCTTCATATGGAGCTTGAAAAGATTAAAGACTTTATTAATGTGCTGGATGACAGGGAGAAAGAAGTCATTATATTCAGGTATGGACTGAACCAGACGGAAGAGAAGACGCAGAGGGAAATTGCCAAGGAGCTGGGGATATCCAGAAGTTATGTCTCCCGCATTGAAAAAAGGGCCTTAATGAAAATTTTTCACGAGTTCTATAAACAGAGTAAGCAGGGCGGCCATTCATAA	MSSLIASILYFFKESLFFMSYVKNQAFPNPLSPEEEAKQLQLMAEGSHEARNKLIEHNLRLVAHIVKKFENTKEDFEDLISIGTIGLIKGIESYSTGKGTKLATYAARCIENEILMHLRSTKKMSKDVSLQDPIGHDKEGNELNLLDILQADVTDIVEEIQLHMELEKIKDFINVLDDREKEVIIFRYGLNQTEEKTQREIAKELGISRSYVSRIEKRALMKIFHEFYKQSKQGGHS	PGPT0014795_1220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
AK012_01044	228			hypothetical protein	TTGTCATCCAAGGAAGCTCTATCCGTAAAAGTAAAAGACTATCAGAGATTTGTTATGACGCTGCTCATTTTAAACACCTACCTTTATGCAGGTATGGTGATCAGTCTGTATGTGTATGAAACCCGGGCTCATCTATATATGCTGCCTTTAATAACAGCTGCATCAGCGGCTGCCTTTTCAATGATTCTCAAAATGAAGAAGTGGAAACGGCAGGCGGCAGAAGAATAA	MSSKEALSVKVKDYQRFVMTLLILNTYLYAGMVISLYVYETRAHLYMLPLITAASAAAFSMILKMKKWKRQAAEE				NA	NA	NA	NA	NA
AK012_01045	690	mtnN_1	COG0775	5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	ATGGCTATTGGAATTATTGGAGCGATGGATGAGGAAGTTGAACGCCTGCAGTCAGAAATGACGGATAAGGTCGAAAATGAAACGGCTGGTTGCTTGTTTATTGAAGGGATGCTGCGTGGGAAAAAAGTCGTCCTGCTTAAATCAGGAATCGGCAAAGTAAACGCGGCCGTCTCCACAACCATTCTGCATGAACAGTATGGTGTTGAAAGTGTGATCAATACTGGTTCGGCGGGGGGTTTTGCTGAAGAGCTGGAAGTGGGGGATATTGTAGTTTCCGACTTTGTGACGCATCACGATGTCGACGTGACAGCCTTTGATTATGCTTATGGCCAGGTACCCGGTATGCCGGCCATGTATGAGGCAGACCCTGCACTGGTAGAAAAAGCGATGCAGGCGGTTGGGAGTACGAAGGCCCGTGCAGCCAAAGGGATTATTGCAACCGGTGATTCATTTATGCAGGACCCGGAAAGGGTGGCCCTTGTCAGGAGCCGCTTCCCGGAAATGATTGCTGCTGAAATGGAAGCCGCAGCCATTGCTCAGGTTTGTTATAAATACGGCACACCTTTTGTCGTGCTGCGCGCATTATCCGACATTGCCGGGAAGGAGTCTTCACTGTCCTTCGATCAGTTCCTTCCTGTAGCTGCTGAAAATGCAGCACAGATGATCATGACGATGATCGAAGCGGATTAA	MAIGIIGAMDEEVERLQSEMTDKVENETAGCLFIEGMLRGKKVVLLKSGIGKVNAAVSTTILHEQYGVESVINTGSAGGFAEELEVGDIVVSDFVTHHDVDVTAFDYAYGQVPGMPAMYEADPALVEKAMQAVGSTKARAAKGIIATGDSFMQDPERVALVRSRFPEMIAAEMEAAAIAQVCYKYGTPFVVLRALSDIAGKESSLSFDQFLPVAAENAAQMIMTMIEAD	PGPT0014320_2256	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
AK012_01046	672			hypothetical protein	ATGGCGGATAAACATACATCCGAGTCCCGTACCGGGCGTTTTGAGAAAAAGCGTCAATGGACCAAACGACTTCCGTGGCTTGCAGGAGCAGCCGGGATATGTGTAGTGTTGTTGATTTCTCTGATATTATTTAACGGAAATGATCAGACCGGACAAGCTCAGAAGCCGGAGGAAGAACAGCAGACCGAAATCACAAAGAGTGAAACTGAGGAAGTACAGAAGAACGAATCGCCGGAAGAACCGGAGGAAGAAACCGATCCTGATAAAACAAGTGTGTCTATGGAAGGTTTTGAGGAACTGGAGCCTATTAAGGAAGAAGAAGGCGTGAAGATAGAAGAAAGTGACAATCCGAATGTTGAAAGTGTCGTAACAAAGGACTGGCCGGTTATCCCGACAGAAATGGACACAAACGGCAGCCACAGCATTACGTACCAAGAGGGTACTCAGGACTATAAAGAGCTTCAGGAAGCTGCCAGAAGCGCTGTGAACCTTTCTGAAGACAATATTATTTATTGGTGGGTCGGAAACGACGGCGGCCCGCAAAGAGCCGTCGTCACCGTTTCTGATAAGAATAAAACCGGTTATCTCCGGGTGTATGTCCAATGGGTGGGCAACGAAGGATATAAGCCGGTGAAGCTGGAAGTATTAAAAGAAAAAGTCGTGAACAGATAG	MADKHTSESRTGRFEKKRQWTKRLPWLAGAAGICVVLLISLILFNGNDQTGQAQKPEEEQQTEITKSETEEVQKNESPEEPEEETDPDKTSVSMEGFEELEPIKEEEGVKIEESDNPNVESVVTKDWPVIPTEMDTNGSHSITYQEGTQDYKELQEAARSAVNLSEDNIIYWWVGNDGGPQRAVVTVSDKNKTGYLRVYVQWVGNEGYKPVKLEVLKEKVVNR				NA	NA	NA	NA	NA
AK012_01047	477	greA	COG0782	Transcription elongation factor GreA	ATGGCAGAAGAAAAAAGTTATTATATGACAGAAGAAGGAAAAAAGAAGCTCGAAGATGAGCTTCATCACCTGAAAACAGAGCGCCGTAAAGAAGTGGTGGAACGGATTAAAATTGCCCGCGGCTTCGGCGACCTTTCCGAAAACTCGGAGTATGACGCAGCGAAGGACGAGCAGGCCTTTGTTGAAGCACGGATTACGCAGGTGGAAAATATGATCCGTAATGCTGTTATTATTGAAAATGACAATCAAAACCCTGATACAGTAACAATGGGTAAATCCGTAACCTTCAAGGAACTTCCTGACGGAGATGAAGAAACGTACACCATCGTCGGCAGTGCAGAAGCTGATCCTTTCGAAGGGAAAATTTCCAACGATTCTCCTATGGCCCAGAGCCTGATCGGCCACGAGGTCGGCGACAAAGTGAAAGTTGCGACACCGGGCGGAGAAATTGACGTTCAAATTATTACGGTGGAATAG	MAEEKSYYMTEEGKKKLEDELHHLKTERRKEVVERIKIARGFGDLSENSEYDAAKDEQAFVEARITQVENMIRNAVIIENDNQNPDTVTMGKSVTFKELPDGDEETYTIVGSAEADPFEGKISNDSPMAQSLIGHEVGDKVKVATPGGEIDVQIITVE	PGPT0030495_2693	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-TRANSCRIPTIONAL_CONTROL	PUTATIVE-TRANSCRIPTIONAL_CONTROL-1,PGPT0030495-greA-K03624
AK012_01048	654	udk_1		Uridine kinase	ATGAACGATAAACCAGTAGTCATTGGTGTAGCGGGCGGGACAGGTTCTGGGAAAACGAGTGTAACCAGATCCATTATCCAGCGTTTCACTGATAAAACGTTATTGATGATCGAGCAGGACTATTATTATAAGGATCAGAGCGATGTACCATTTGAGGAAAGACTTGAAACGAACTATGATCATCCGCTTGCCTTTGATAATGACTTGTTAATGGAACACCTCCAGCAGCTGATCGACCAGAAATCTGTTGAAAAGCCGGTGTATGATTACAAGATGCATACCCGTTCAGAAGAGACGATCCACGTGGAGCCCAAGGAAGTCATCATCGTTGAGGGAATCCTTGTTTTAGAGGATGAACGCCTCCGTGATCTTATGGATATTAAAGTGTTTGTGGATACAGATGCTGATGTCCGGATTATCCGCCGTATGATGCGGGATATTAATGAGAGGGGACGCACCCTTGACTCAGTCATTGAACAGTATATTAATGTCGTCCGGCCGATGCACCTTCAATTTGTAGAACCTACGAAAAGGTATGCGGATATTATCATTCCGGAAGGTGGGCAGAACCACGTAGCTATTGATCTGATGGCTTCGAAAATCAAGACGGTTCTCTATGAAAAGGGTTTACTGATGGACGAAGAAAATAGTTGA	MNDKPVVIGVAGGTGSGKTSVTRSIIQRFTDKTLLMIEQDYYYKDQSDVPFEERLETNYDHPLAFDNDLLMEHLQQLIDQKSVEKPVYDYKMHTRSEETIHVEPKEVIIVEGILVLEDERLRDLMDIKVFVDTDADVRIIRRMMRDINERGRTLDSVIEQYINVVRPMHLQFVEPTKRYADIIIPEGGQNHVAIDLMASKIKTVLYEKGLLMDEENS	PGPT0021230_2432	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
AK012_01049	642	trmR	COG4122	tRNA 5-hydroxyuridine methyltransferase	ATGGAGCAGGAGAATTATCTACAGTCATTGCTCTCTAAGCCTTCCAAACCATTTCAAGATATGGAGTCGTTTGCTGAAGAACATAAAATACCGATTATGGAGCCGCTGGGGATGAATTTCCTTATGCAGCTGATCCGTATGCAGAAGCCGGAGCGGATTCTGGAAATCGGAACAGCGATCGGCTATTCAGCTCTATGTATGCTGGAGGCTTTTCCTACAGCCCGAATTACGACTGTTGAAAGAGATGAATGGCGCTATAAGGAAGCCTTGAAAAATATAGAAAACATGCAGGCAGAGAACCATATTTCTGTTATCTTTGGAGACGCCCTGGAAACAAGCGGCCAAGTGCGCACAGAAGGGCCGTATGATGTGCTGTTCATTGATGCAGCCAAAGGGAAGTATGAGGAATTTTTCCACTTATATGCTCCGATGCTGAAGGATGACGGGGTCATAATCACTGATAACGTCCTGTTTAAGGGTTATGTTGCTGATGACGGGGAAGCCAGTCCACGTATGGCAAAAATAGCGGGTAAAATCCGTAAGTTCAACGAATGGCTTGTGAAGCACCCGGATTATGATACAACGATTGTTCCTATCGGGGACGGCGTTGCCATTACAAAGAAAAAGAGCAGTCACAGCTGA	MEQENYLQSLLSKPSKPFQDMESFAEEHKIPIMEPLGMNFLMQLIRMQKPERILEIGTAIGYSALCMLEAFPTARITTVERDEWRYKEALKNIENMQAENHISVIFGDALETSGQVRTEGPYDVLFIDAAKGKYEEFFHLYAPMLKDDGVIITDNVLFKGYVADDGEASPRMAKIAGKIRKFNEWLVKHPDYDTTIVPIGDGVAITKKKSSHS				NA	NA	NA	NA	NA
AK012_01050	1125	mltG_2		Endolytic murein transglycosylase	TTGTCTAATTCTGACTTTAAATCCCAATACCAAAAGAAATTAAAGAATAGAATCGAAGAAGCCGGCAAAGTAAGGAAGATTGTTGCCATCATTCTTACGGTTTTCACTCTAGTCATGCTTATTGTAGGAATATCCGGCTACCTCTATGTGAAATCCGCCCTTGAACCTGTTGACCCAGGAAATGATAAGCAGGTGGATGTGGAAATCCCTCTTGGTTCCTCTACTTCCAATATCGCTTCCATCCTTGAGGAAAACGGAATCATTAAAAATGATATGATTTTCCGCTTTTATACCAAATTCAAAAACGAGTCTGGTTTTCAGGCAGGAGATTACCAATTCACTTCCTCGATGACCTTGGATGAGGTGATTGAATCCCTGAAGTCCGGGAAGCTGGTCAAAGATCCTGCTCTCACAGTGACTGTCCCCGAAGGCCGGAATATGGAGCAGATTGCTGACATTTACGCAGAGGAGTTCTCCTTTACGGCTGAAGAATTCATGGGCAAAGTCAATGATGACGCGTATGTAAAAACACTGATGGAAGACTATCCTCAGCTTCTTACAGAAGATATTCTGGAAGAGGATGTCCGTTATCCTTTGGAAGGATACTTGTTTGCAGCCACTTATCCGATGTATGTCGAGGATCCAAGTATCGACCAGATTGTGAGGAAAATGCTGGATCAGACAAACAAAGTGGTCGCCCCATATTACAGTCAAATCGAAGAATTGAACAACATAGAAAATGTGCACGACCTTGTAACGATGGCATCCCTGCTGGAAAACGAAGCACGGACAGCAGAAAGCCGGCAGAAGATTTCCGGTGTCTTTTATAACAGGCTCGAGGATGATATGATGCTGCAGACGGATCCTACTGTCCTGTACGCAAAAGGCGAGCACCAGGAAAAGGTGTACTACAAGGATCTGGAGATTGAGTCACCTTATAATACGTATCATGTGAAAGGCCTGCCTGCCGGGCCGATTTCGAACTTCAATAAAAACTCTCTTGAGGCCGCTGTTAAGCCGGAGGAGCACGATCACTTATACTTCCTTGCTGATAGTGAAGGTGAGATCTACTATGCTGATACCCTCGAGGAGCACAACAAGCTGAAGGAAGAGCACATTAATTAA	MSNSDFKSQYQKKLKNRIEEAGKVRKIVAIILTVFTLVMLIVGISGYLYVKSALEPVDPGNDKQVDVEIPLGSSTSNIASILEENGIIKNDMIFRFYTKFKNESGFQAGDYQFTSSMTLDEVIESLKSGKLVKDPALTVTVPEGRNMEQIADIYAEEFSFTAEEFMGKVNDDAYVKTLMEDYPQLLTEDILEEDVRYPLEGYLFAATYPMYVEDPSIDQIVRKMLDQTNKVVAPYYSQIEELNNIENVHDLVTMASLLENEARTAESRQKISGVFYNRLEDDMMLQTDPTVLYAKGEHQEKVYYKDLEIESPYNTYHVKGLPAGPISNFNKNSLEAAVKPEEHDHLYFLADSEGEIYYADTLEEHNKLKEEHIN				NA	NA	NA	NA	NA
AK012_01051	285			hypothetical protein	ATGGCACTAGAAAAAGAAGAACGAATTATTATCCCTGATGAGAATGGGGAAGAGCATTTATTTGAAGTCTTGTTTACCTTTGATGTGGAGAAGACCGGTCATTCCTATATTGCTGTCATCCCGGCTGAACAAAAGGATGGCGAGGAAGTCGAGGTCTTTGCTTTCCGCTTTGAAGAGAAAGGCAATGAGGAAGACGATCTGGCCCTTTACCAGATCGAATCTGATGAAGAGTGGGAAATGGTTGAGGAAATGCTCAACACGCTTACAGACGAAAACCTGACGTAA	MALEKEERIIIPDENGEEHLFEVLFTFDVEKTGHSYIAVIPAEQKDGEEVEVFAFRFEEKGNEEDDLALYQIESDEEWEMVEEMLNTLTDENLT				NA	NA	NA	NA	NA
AK012_01052	417	yrrK	COG0816	Putative pre-16S rRNA nuclease	ATGAAAAAAATAGGTTTGGATGTGGGCGAGAAAACGATCGGCATTGCCGTATCGGATGCCTTAGGCTGGACAGCCCAGGGGCTCACAACGCTGCACTGGGATGAACAGGACTTCTCCACAGCGCGGGAAGAGCTGAAGCGGATCATTGCCGAGCATGGGATTACGGAAGCCGTTGTCGGCTTTCCGAAGAATATGAACGGTACCGTCGGCCCGCGTGGGGAAGCCAGCCAGGCTTTCGCCACATGGATGGAAGAAGAATTTCAGCTCACATCCCATTTGTGGGATGAACGTTTGACGACAATGGCAGCGGAACGTGTGCTGCTTGATGCTGACATGAGTCGGAAGAAAAGAAAGAAAGTGATCGATAAAATGGCGGCCGTCATGATTTTACAAAGCTTTTTAGATGCAAAACGATGA	MKKIGLDVGEKTIGIAVSDALGWTAQGLTTLHWDEQDFSTAREELKRIIAEHGITEAVVGFPKNMNGTVGPRGEASQAFATWMEEEFQLTSHLWDERLTTMAAERVLLDADMSRKKRKKVIDKMAAVMILQSFLDAKR				NA	NA	NA	NA	NA
AK012_01053	273			hypothetical protein	ATGAGTTCAATGGATAAAACGATGCGGTTTAATTTTTCAGAAGAACCCTTCGATCAGGATGTCCAGTCTGTGCTGCTTTCTGTTTACGGGGCACTGCAGGAGAAGGGATACAATCCCATCAACCAGATTGTAGGTTATCTGCTTTCGGGCGACCCTGCCTACATTCCCCGTCATCAGGATGCACGGAATTTGATTCGAAAGATTGAACGTGATGAACTGATCGAAGAATTGGTCAAATTTTACATTAATGAGAATAAAGAGGGCAGTAAATGA	MSSMDKTMRFNFSEEPFDQDVQSVLLSVYGALQEKGYNPINQIVGYLLSGDPAYIPRHQDARNLIRKIERDELIEELVKFYINENKEGSK				NA	NA	NA	NA	NA
AK012_01054	2637	alaS_2		Alanine--tRNA ligase	ATGAGAAATTTGACATCTGCTGACGTACGTCAAATGTTTCTGGACTTTTTTAAAGAAAAAGGCCACAGTGTAGAACCCAGCGCATCGCTCGTTCCACATGAAGATCCGACGCTTTTATGGATCAACAGTGGTGTAGCGACATTGAAAAAATATTTCGACGGCCGCGTTATTCCGGACAACCCGAGAATTGTCAACGCCCAGAAATCCATCCGTACCAACGATATTGAAAATGTCGGCTTCACCGCCCGCCACCATACGTTTTTCGAAATGCTTGGTAATTTTTCCATCGGTGACTATTTTAAGAAGGAAGCGATGGCATGGGCCTGGGAATTCTTAACGAGTGACAAGTGGATCGGGTTTGATCCTGAGAAGCTGTCCGTAACCGTTCACCCTGAAGATGATGAGGCGTTCCAAATCTGGAGAGACAGCATTGGACTCCCGGAAGAGCGCATCATCCGCATTGAAGAAAACTTCTGGGATATCGGCGAAGGCCCGAGTGGACCAAATACAGAGATTTTCTATGACCGCGGGGAAGCCTTCGGCAGCGACTCCAACGATCCGGAATTGTATCCAGGCGGTGAGAACGAGCGTTACCTGGAAATCTGGAACCTTGTATTCTCCCAGTTCAACCACAACCCGGATGATACCTACACGCCGCTTCCGAAGAAAAATATTGATACAGGAATGGGGCTTGAGCGTATTGTCTGTGTCATCCAGGAAACGGATACCAACTTTGAAACCGACTTGTTCAAGCCGATTATTGAAGCAGCTGAGAAAATGACGTCACACAAATACGGGGACAGTGTCGAAGGCGATTCTTCCTTCAAGGTCATCGCAGACCATATGAGAACGGTCACCTTTGCTGTGAGCGATGGAGCACTGCCTTCAAATGAGGGACGCGGGTATGTCCTCCGCCGCCTGCTTCGTCGTGCGGTGCGTTTTGCCAAGCAGATCGGTATTGATAAGCCGTTCATGTATAAGCTTGTGCCTGAAGTGTCCAATATCATGGTCGACTTCTATCCAGAAGTGAAGAAGAAGGAAGCGTTCATTCAGAATGTCATCCAGACAGAAGAGGAACGTTTCCACGAAACACTGAATGATGGTCTGCAGATTCTTTCTACGATCATGAAAGAGGAAACGGATAAAGGAAGCACGGTATTCCCTGGAACTGAAGTGTTCCGACTGTATGATACGTACGGATTCCCGAAAGAACTGACGGAAGAGTATGTAGCTGAAGCCGGCTTTACCATCGATGAAGAAGGCTTTAAGCAGGAGATGGAAAAACAGCGGGAACGTGCCCGCAGTGCCCGTCAGAAAACAGATTCCATGCAGATCCAGGATGGTGTGCTTGGTGAGGTTCATGTCGACAGTACCTTTGTCGGTTATGATAAGCTTACAGCTTCTTCCGCAATTGTCGAATTGATCAAAGACAAAGAGTTTGCAGAGAAAGCAGAGGAAGGCGATACGGTGTATCTTTTCCTTGCAGAAACACCGTTCTATGCAGAAAGCGGCGGACAGATGGCGGATAAAGGCTTGATTAAGACGGAGGAAGGCCTTCTTGAAGTCACGAATGTGCAAAAGGCTCCGAACGGACAGCACATGCACGAGGCGGTCGTGAAAGAAGGAAGGATTGAAAAAGGGGCACAGGTCACAGCAGAAGTCGACCAGGGCAGCCGTTCCTTCATTGTTAAAAACCATACGGCGACCCACCTGCTTCACCAGGCGCTGAAAGATGTGCTCGGAGAGCATGTGAACCAGGCCGGATCTCTCGTTGCGCCGGATCGTCTGCGATTTGATTTCTCTCATTTTGGTGCGGTAACCAATGAAGAAATGGAAAAAATCGAAGCAATTGTCAATGAAAAGGTATGGCAGTCCCTGCCGGTTTCCATTGAAATCAACTCCATAGAGGAAGCTAAAGCTAAAGGAGCGATGGCGCTCTTTGGCGAAAAGTATGGAGATACGGTCCGCGTCGTTCAAGTCGGCGGCTACAGCCTGGAGCTGTGTGGCGGCTGTCACGTGCTGAATACAGCAGAAATCGGTCTGTTCAAGATCGTATCGGAATCAGGAATCGGAGCAGGAACACGCAGAATTGAAGCGGTGACTGCGAAAGATGCCTATCTTTATATGAATCAGAAAGCTTCTGTCCTGAAGCAGGCCGGTGCTCTATTGAAGGCATCTCCGGAGCAGGTGCCGGAGCGCATTGAAACGCTTCATAAAGAAATGAAGGATCTTCAGAAGGAGAATGACTCCCTGAGCGCGAAGCTGTCCAATATGGAGGCATCCAGTATCCTTGATGAAGTGGAGCAGATCAATGGCGTGAACGTACTGGCTAAGCAGGTGGATGTGAAAGATATGAACACACTCAGAACTATGGTTGACGACTTGAAGCAGAAGATCGATTCAGGCATTATCCTGCTGGCTGCTCCAAACGGTGAAAAAGTGCAGCTGATTGCCGGAGTATCCAAAGATCTAATCAATCAGGGCTATCATGCCGGTCAATTGATCAAAGAAGCAGCCACCCGCTGCGGCGGTGGCGGTGGAGGCCGCCCCGATATGGCTCAGGCCGGAGGGAAGGACGCTTCCAGGATTCCGGACGCGCTTGAATACGCCAAAGAATATGCCGGTCAAAACTCTTAG	MRNLTSADVRQMFLDFFKEKGHSVEPSASLVPHEDPTLLWINSGVATLKKYFDGRVIPDNPRIVNAQKSIRTNDIENVGFTARHHTFFEMLGNFSIGDYFKKEAMAWAWEFLTSDKWIGFDPEKLSVTVHPEDDEAFQIWRDSIGLPEERIIRIEENFWDIGEGPSGPNTEIFYDRGEAFGSDSNDPELYPGGENERYLEIWNLVFSQFNHNPDDTYTPLPKKNIDTGMGLERIVCVIQETDTNFETDLFKPIIEAAEKMTSHKYGDSVEGDSSFKVIADHMRTVTFAVSDGALPSNEGRGYVLRRLLRRAVRFAKQIGIDKPFMYKLVPEVSNIMVDFYPEVKKKEAFIQNVIQTEEERFHETLNDGLQILSTIMKEETDKGSTVFPGTEVFRLYDTYGFPKELTEEYVAEAGFTIDEEGFKQEMEKQRERARSARQKTDSMQIQDGVLGEVHVDSTFVGYDKLTASSAIVELIKDKEFAEKAEEGDTVYLFLAETPFYAESGGQMADKGLIKTEEGLLEVTNVQKAPNGQHMHEAVVKEGRIEKGAQVTAEVDQGSRSFIVKNHTATHLLHQALKDVLGEHVNQAGSLVAPDRLRFDFSHFGAVTNEEMEKIEAIVNEKVWQSLPVSIEINSIEEAKAKGAMALFGEKYGDTVRVVQVGGYSLELCGGCHVLNTAEIGLFKIVSESGIGAGTRRIEAVTAKDAYLYMNQKASVLKQAGALLKASPEQVPERIETLHKEMKDLQKENDSLSAKLSNMEASSILDEVEQINGVNVLAKQVDVKDMNTLRTMVDDLKQKIDSGIILLAAPNGEKVQLIAGVSKDLINQGYHAGQLIKEAATRCGGGGGGRPDMAQAGGKDASRIPDALEYAKEYAGQNS				NA	NA	NA	NA	NA
AK012_01055	1068		COG0628	Putative transport protein	ATGAGTGAGCGTTCTTCCAAATGGCTCAAACGGTTAACCATCTTCTTTATTACCTTGTTGTCTCTTCTGCTTCTGGCCTGGCTTTTTCCTTATTATGACCAGGGGCTTGTGGTGATCGGAAAGGTCCTGTTCCCTTTTGCTGCAGCTCTTGTCCTTTCCCTGCTGCTCCATCCGCTCGTACACGGACTTGAGGAAGCAGGTGTGCCCCGGACATTAGCGATCCTTGTGATCTTTTCAGCCTTTTTTACCCTGGCGAGTTACGGGTTGTACAAAGGAATACCAAGGCTGCTGGATCAGTTGAAGCTTCTCAATGAGCATCTGCCTGCTCTTGTGGAATCCTATCAAGGGTGGACGAAGGAACTGTATGCCCAGACCGAGCGGCTCCCGGACGGAATTCATGAAAAACTGGATCAGCGTTTTGAAGCCTTTGAAGGCTGGATCAGTCAAAAAGTAATGACGGTTTTTACAGGAATCAGCGGTCTTTTCAATATGATTCTGCTGCTGGCTGTGATTCCTGTGATGACCTTCTACTTTTTAAAGGATTATCAAATGATCGGACGGTACTTACTCACGCTGCTCCCGCGCACGTGGCACAGCGAAGCGGGGCGTCTGACTGTTCAATTGAATCACTCCCTTGGCGGATATATCCGGGGACAGCTGTTAATCAGTCTTGTTGTCGGGGTACTGGCAGCCGCTGGGTTTTGGCTGATCGACCTGCCCTACCCACTCGTCCTTGGGTTAATTGCGGGGCTGACCAACATCATTCCGTATTTCGGTCCGATTTTGGGAGCTGTGCCTGCTGTGGTAGTGGCGGTAACCGTTTCGGTCAACAGCCTTCTGCTTACACTGCTTGTCGTCATCGTGATTCAAGTGATCGAAGGAAATCTTTTGTCCCCGTATATTATGGGGAGGAGCATCCACACCCACCCGCTGTTCATCATTTTCGCTCTTTTACTCGGAGGTGAAATCGCGGGGATTCCCGGGTTGATTCTGGCTGTTCCACTCTTGACGTGCCTGAAGGTCATCGTTGATGAAGTCCGGGCTGGACGGCTTCATATTGACAGGTGA	MSERSSKWLKRLTIFFITLLSLLLLAWLFPYYDQGLVVIGKVLFPFAAALVLSLLLHPLVHGLEEAGVPRTLAILVIFSAFFTLASYGLYKGIPRLLDQLKLLNEHLPALVESYQGWTKELYAQTERLPDGIHEKLDQRFEAFEGWISQKVMTVFTGISGLFNMILLLAVIPVMTFYFLKDYQMIGRYLLTLLPRTWHSEAGRLTVQLNHSLGGYIRGQLLISLVVGVLAAAGFWLIDLPYPLVLGLIAGLTNIIPYFGPILGAVPAVVVAVTVSVNSLLLTLLVVIVIQVIEGNLLSPYIMGRSIHTHPLFIIFALLLGGEIAGIPGLILAVPLLTCLKVIVDEVRAGRLHIDR				NA	NA	NA	NA	NA
AK012_01056	177			hypothetical protein	ATGCGGTGCCCAAATTGCAACAATAAGAACCTAGGAAAAATCGGCAGTGAGCAGTATTACTGCTGGAACTGCTGTCTGGAGCTTTCGGTGGAGGATGGCCGAATCAACATTAACCAGATTGAAGAGGATGGCAGTCTGAGCTCCCTGAATGATATCTTTTATCAACAGGGATCCTGA	MRCPNCNNKNLGKIGSEQYYCWNCCLELSVEDGRININQIEEDGSLSSLNDIFYQQGS				NA	NA	NA	NA	NA
AK012_01057	822			hypothetical protein	GTGAATCATAGATTAGGACTGTCAGGGAGTACGATTTTATCTGATACGCATCAGCTTTCTTTTTTATTTGAACGCGGCCTGGACCATGTCGAAATCGGAGAGTTTCCAGACGAAACCGCCTATAAGAAGTTCAAGGAAATGGCAGAGGATCACCAGCTCAACAGCTTCGGTATCCATTCGCCTCTCCTCCGGGGGAGGAGCAAGTATGATTTGATTGAACGTGTGGCTGTGGACCCGGAGGACGCCCGTCAATCATTTGAGCGGGAAGTGGCCCGTCTTGCTGAGGAAGGGGCTTCCTATGTGCTCGTTCATTTCCCGTATTTTGCGGGAACCTCGACCAGCCCTTTTCAAAAAATCGAAGAAGGGTTGGAATTTTTACATAGATTGAAAGAAACCTATGCACTTCCGATCGTGTGCGAGCCCAAACTCGGCCGTAACCGTTCAGGTAAGGGAATAGATTACCTCCGGCAGTTCCCTGTCGAATTGTGGGAGCATTACGGCCTCGACATCTGTGTCGATCTGGGGGACTACCGCATGGCGGCTGGAGAGGATTGGCGTTCGTATGTGGAGCCTCTTCTGCCTTTTACGTCTGTCGTCCATCTTCACAACGTCTGTTATGTCGAAGACAAGTATTATTGGATTCCGCTTCATCCGGACAAAGGGAGATGGAACGGTGCTTATGATATGGAACCCATGCTGCAGAAGCTCGGGGAAGGCAGAGAAAAATACTTCATATTCGAACACACTCCCCATATGAATCCAACACCGGAAGAAGTGGATGAAGGCATCCGCTGGGTGAGGGACGTGCTCAGCCGGGTATGA	MNHRLGLSGSTILSDTHQLSFLFERGLDHVEIGEFPDETAYKKFKEMAEDHQLNSFGIHSPLLRGRSKYDLIERVAVDPEDARQSFEREVARLAEEGASYVLVHFPYFAGTSTSPFQKIEEGLEFLHRLKETYALPIVCEPKLGRNRSGKGIDYLRQFPVELWEHYGLDICVDLGDYRMAAGEDWRSYVEPLLPFTSVVHLHNVCYVEDKYYWIPLHPDKGRWNGAYDMEPMLQKLGEGREKYFIFEHTPHMNPTPEEVDEGIRWVRDVLSRV				NA	NA	NA	NA	NA
AK012_01058	2334	recD2_1	COG0507	ATP-dependent RecD-like DNA helicase	ATGACTCAACAATCCTTTTTTAGCGAAACGAATGAAGACGAACGTCCCTATGTCAAAGGGGAGCTCAATCGGATGATTTTTCACAACGAGTCGGAGCATTTTTCCATCGCCTCTATTAACGTGAAGGAGACGAATGAGTCCTTTGAAGAAAAAACGCTCGTCATCAAAGGGCATTTTTCCCCGTTGGAAGAAGGGGAGACCTACATCTTCCACGGGTCATTCAAAGATCATAAGAAATTCGGCAAACAGTATGAAGTAGAGATGTATAACCGGGTGCTCCCTGAAACTAAGGACGGCCTCATTCTATACCTTTCCAGTGATCTTTTCCACGGGATTGGAAAAAAGACCGCTGAACGGGTGGTGGACACCCTTGGTGAAACAGCGGTCACCCGTATTCTTGAGGACAGGGATGTGCTTGATCAAGTTCCGAAGCTGCCGAAGGAAAGAGCGGATCAGCTGTATGAGGCGTTAAAAGAGCACCAGGGATTTGAACATGTCATGATTCATCTGTCTCAGTACGGTTTCGGTTTGAAGCTTTCTCAGAAAATATATGAGGCGTTTAAGGATCAGACGCTTTCCATCATTGAAGAGGACCCCTACCAGCTTGTCTTTCACGTGGATGGGTTCGGTTTCCATCGGGCCGATGAAATGGCGCAGATGCAGAATCTTTCTTACGATCACCCTACGAGAATCCGGGCGGCCTGTCTTTATGTGATGCAGAAAAGCATGAGTGCCGGACACGTGTATCTTCCTACAGAAGAATGCCTCCTTCAGGTGGAGAGCCTGCTGAACCATGGGTCTGGAACAGCGATTACCTTTGATCAGCTGTCCGAGCAGATCATCCGTCTTGGGGAGGATAAGTTTCTTTATCTCGAGGATGAGCGTCTCTATCTTCCTTCGCTCTATTTTGCAGAGAACGGCTTCCGCGGTCATATTGAGCGTATCATGGAGGAAGAGGTGGAAGTGACGCACACCCAGGCGGACTTGATGAAAATCATCGGTGATCTGGAAGAGGAAGAAGCGATGAGCTATGGGGAAGATCAGTTCAATGCTATCGAAAAAGCCCTTCACTCCAAGCTGATGATTCTCACGGGTGGACCAGGGACAGGGAAGACAACGGTTATAAAAGGTATTATCCATACGTATGCCGCTTTGAACGAGGAGACAGTGGACCCGGAGGACTATCGTGGCGATAAGACCTTTCCGTTCATTCTTGCTGCACCAACAGGCCGGGCTGCGAAACGGATGACCGAATCCACAGGGCTGCCCGCCAGTACCATCCACCGGCTTCTTGGATGGGATGGTCATGACTCCTTTGAGCGCAACCGCAATAACCCATTGGAAGGGAAGCTTTTGATTGTTGATGAATTTTCAATGGTCGACATATGGCTGGCCAACCAGCTTTTCCGTGCTGTCCCCAATGATATGCAGGTGCTGCTTGTAGGAGATGAAGATCAGCTGCCATCGGTCGGACCCGGTCAGGTGCTTGCTGATTTACTGGCTTCCGGACAGCTTCCTTCCTCCAAACTGACAGAAGTGTACAGGCAGAAGGAAGGGTCGAAAATCATCCAGCTTGCGCATGAGATTAAAAATGATGCGTGCACCCAGGCTTCGCTTCAAAAAGAGCATGATTTCAACTTTATTCCAGCTAAAGAACACCAGCTGGCCGATCTTGTGACCAGCATTGTGAAAAAAGCAATGGATAAAGGCATCGATGCGAAGGACCTTCAGGTGCTTGCTCCGATGTACCGGACAGATGTTGGGATTCATAAGCTCAATGAAACGATTCAGCAGACGGTGAACCCGCAGAAAAAGCAGAAGCGTGATTTAAAGCATTTTGAAGTGACTTATCGTAAAGGGGATAAGGTCATCCAACTTGTCAACCAGCCGGATGACGGTGTTTATAATGGCGATATCGGAGAAGTAGCGGCTATTTTCCGCGCGGAGGAGAACGTTGATGGGGTCGAACAGGTCGTTGTGGATTTTGACGGAAAAGAAGTCGTGTATCCGAAGAAGGAATTGAACAGCATTATGCATGCCTACTGTACGTCGATCCATAAGTCGCAGGGAAGTGAGTTTTCCATTGTTATTCTCCCTGTGGTGAGGAGCTACCGGCGGATGCTGCGTAAAAATCTGCTGTACACGGCGATCACAAGGTCCAAACAGTCCCTGATCATCTGCGGGGATAAAGACGCCTTTTTAGAAGGAGTCCGGGCGACGGACACGAATACACGGTATACAAGACTTAAAGACAAGCTGCAGGAACAAAGCGCACCTGAGATTGAGCCGGAAGAGGAAGAAGAAGAGCAGCTGTCTCCTTATGACTTTATGTAG	MTQQSFFSETNEDERPYVKGELNRMIFHNESEHFSIASINVKETNESFEEKTLVIKGHFSPLEEGETYIFHGSFKDHKKFGKQYEVEMYNRVLPETKDGLILYLSSDLFHGIGKKTAERVVDTLGETAVTRILEDRDVLDQVPKLPKERADQLYEALKEHQGFEHVMIHLSQYGFGLKLSQKIYEAFKDQTLSIIEEDPYQLVFHVDGFGFHRADEMAQMQNLSYDHPTRIRAACLYVMQKSMSAGHVYLPTEECLLQVESLLNHGSGTAITFDQLSEQIIRLGEDKFLYLEDERLYLPSLYFAENGFRGHIERIMEEEVEVTHTQADLMKIIGDLEEEEAMSYGEDQFNAIEKALHSKLMILTGGPGTGKTTVIKGIIHTYAALNEETVDPEDYRGDKTFPFILAAPTGRAAKRMTESTGLPASTIHRLLGWDGHDSFERNRNNPLEGKLLIVDEFSMVDIWLANQLFRAVPNDMQVLLVGDEDQLPSVGPGQVLADLLASGQLPSSKLTEVYRQKEGSKIIQLAHEIKNDACTQASLQKEHDFNFIPAKEHQLADLVTSIVKKAMDKGIDAKDLQVLAPMYRTDVGIHKLNETIQQTVNPQKKQKRDLKHFEVTYRKGDKVIQLVNQPDDGVYNGDIGEVAAIFRAEENVDGVEQVVVDFDGKEVVYPKKELNSIMHAYCTSIHKSQGSEFSIVILPVVRSYRRMLRKNLLYTAITRSKQSLIICGDKDAFLEGVRATDTNTRYTRLKDKLQEQSAPEIEPEEEEEEQLSPYDFM				NA	NA	NA	NA	NA
AK012_01059	660	yrrB		TPR repeat-containing protein YrrB	ATGGATAAATTAAAGCAGGGAATCGAGGAAATGCAGAACCACAATTATGAGGAGGCAGCAAAACTTTTTACAGAAGCCATCGATGAAAATCCGAACGAGCCTGTAGGGTATATCAATTTCGGAAACCTGTTGATGCATATGAATGATAACGACCGGGCGGTGCGTTTCTTCAACCGTGCCATTGAAATCGATGAGACGGCTGCCACCGCTTATTATGGTCTTGGCAATGCTTATTACGAGCAGGAGAAATACACGAAGGCGCAGGAGCAGTTCCTTCTCGCTGTGAAAAACGGCCTGGAGGAAGCGGATGTCCATTTCATGCTCGGCATGACCTTCATTCATCAGGAGTATGTCAAACTGGCTCTCCCATACCTTTTACGGGCAGCTGAACTGGCTCCGGACGATGTGGATGTTCAGTTCCAATATGGCCTCTGCCTCGCGCAGAACGGGCAGATTGATGCGTCTGAAAAGGTGATGAATCATGTGCTACAATTGGAGGAACAGCATAGTGATGCGCATTATAACCTGGGCGTAGCTGCGCTTCATAAGGAAGATGCCCGCAAAGCTCTGGATCATTTCCGTCAGGCACTGGAGATCAATCCTGAGCATATGCTCGCTGCTCATGCGAAAAGTCAGGTGGAACAGGCGTTAAACGAGTAA	MDKLKQGIEEMQNHNYEEAAKLFTEAIDENPNEPVGYINFGNLLMHMNDNDRAVRFFNRAIEIDETAATAYYGLGNAYYEQEKYTKAQEQFLLAVKNGLEEADVHFMLGMTFIHQEYVKLALPYLLRAAELAPDDVDVQFQYGLCLAQNGQIDASEKVMNHVLQLEEQHSDAHYNLGVAALHKEDARKALDHFRQALEINPEHMLAAHAKSQVEQALNE				NA	NA	NA	NA	NA
AK012_01060	1113	mnmA		tRNA-specific 2-thiouridylase MnmA	ATGAAAGAACCGAAAGACACCCGCGTCGTCGTCGGTATGAGTGGTGGAGTGGACTCCTCCGTAGCGGCACTGATGCTCAAAGAGCAGGGGTATGACGTTGTGGGTATTTTTATGAAGAACTGGGATGATACAGACGAAAACGGCGTCTGTACAGCAACGGAGGATTATGAAGATGTCATCCGTGTATGTAACCAGCTGGACATCCCGTACTATGCCGTGAACTTCGAAAAGCAGTATTGGGATAAAGTATTTACCTACTTCCTCGATGAATATAAAAAAGGCCGGACACCGAACCCGGATGTGATGTGTAATAAAGAAATCAAATTCAAAGCGTTCATGGATCATGCCATGTCCCTGGGTGCCGATTATCTTGCGACCGGTCACTATGCACAGGTCCGTGAAAATGATGGACACTTTGAAATGCTGCGCGGAAAAGACAACAATAAAGACCAAACGTACTTCCTAAACCAACTTTCCCAGGATGTATTGTCGAAAGTCATGTTCCCGCTCGGCCATCTGGATAAAAAAGAAGTGCGTGCCATCGCTGAAGAAAATGATCTGGCTACAGCCAGGAAAAAAGATTCCACAGGAATCTGCTTCATCGGTGAGCGGAACTTCAAAGAGTTCTTAAGTGAATATCTGCCTGCGCAGCCGGGACGTATGGAAACGCTGGATGGAGAAGTGAAAGGACAGCATGACGGTCTGATGTACTATACGCTTGGCCAGCGCCAAGGTCTTGGAATCGGCGGTGCCGGGGATCCTTGGTTTGTCGTTGGAAAGAATGTAGAAGATAACATTCTTTACGTCGGACAAGGCTTCCATCATGATGCTCTCTACTCTGATGGTCTGATGGCTTCAGAAGCGAACTGGACGAGTGGAAAAGCACCGGAAGCTCCATTCGAATGTACAGCGAAATTCCGCTACCGTCAGGATGACAGCCGTGTAACGGTGTATCCGGCGGAAAATGGAAACTGGAAAGTTGAATTCCACGAACCAGAGCGTGCCATTACTCCGGGACAGGCGGTCGTCTTTTATGACGGAGAGGTCTGCCTTGGCGGTGCGACGATTGATACCGTATTGAAAGAGGATACAGCCCTCAACTATGTAGGATAA	MKEPKDTRVVVGMSGGVDSSVAALMLKEQGYDVVGIFMKNWDDTDENGVCTATEDYEDVIRVCNQLDIPYYAVNFEKQYWDKVFTYFLDEYKKGRTPNPDVMCNKEIKFKAFMDHAMSLGADYLATGHYAQVRENDGHFEMLRGKDNNKDQTYFLNQLSQDVLSKVMFPLGHLDKKEVRAIAEENDLATARKKDSTGICFIGERNFKEFLSEYLPAQPGRMETLDGEVKGQHDGLMYYTLGQRQGLGIGGAGDPWFVVGKNVEDNILYVGQGFHHDALYSDGLMASEANWTSGKAPEAPFECTAKFRYRQDDSRVTVYPAENGNWKVEFHEPERAITPGQAVVFYDGEVCLGGATIDTVLKEDTALNYVG				NA	NA	NA	NA	NA
AK012_01061	1140	iscS_1		Cysteine desulfurase IscS	ATGAAATCCATTTATTTGGATCATGCGGCGACGACACCTGTCCATCCGGATGTGGTGGAGGCGATGGTTCCTGTCTATCAGGAAACATTCGGCAACCCTTCCAGTGTCCATCAGTTTGGAAGGAAAGCAAGAAGCATCCTGGACAAGGCTCGTCGTAAAGCGGCATCCAGCCTGAATGCGCATGAAAAGGAAATTGTGTTTACAAGCGGCGGTACAGAGGCGGATAATCTGGCTGTCATCGGTACGGCCCGTGCAAATAAAGATAAGGGAAGTCATATCATTACCACTTCGATTGAACATCATGCTACATTACATGCAGTCGAATTTTTAGAAACAGAAGGTTTTGATGTGACCTACCTCCCTGTGGATGAAAACGGCCTCGTTCAGCTGGAAGACATCAAACAGGCGTTAAGGGAGGACACTATCCTCGTTTCGATCATGATGGTCAACAATGAAACAGGAGCTGTCCAGCCGATTGCAGAGACAGCAGAACTGTTAAAGGATCATCAGGCTTATTTTCACTCGGATATCGTACAGGCCTACGGGCTGATGGAGATTGATGTGAAGGAACTCGGTGTCGATCTTCTCGCTGTGTCCGGTCATAAAATCAACGGCCCGAAAGGTGTCGGCTTCCTTTATGTGAAGGAGGGCACCGTCCTTTCTTCCCAACAGTATGGAGGAGAGCAGGAGCGGAAACGCCGGGCGGGTACAGAAAATGTGCCGGCGGTCCGCGGGCTTCAGGAGGCGATTGAAGTGATGGAAGCCAATCGTTCGACGTATCAGGAAAAGTATCTTCATTATAAAAGAAGCTTTATCCAGACATTGAAGGATCAAGAGGTGGCGTTTGAAGTGAACGGAAACGAAGAGACGACCGCCGCTTCCATTGTGAATATCAGTTTTACCGGTATGAACGTGGAAACGCTGCTTACGAACTTCGACCTGTCAGGGATCGCCGCTTCCAGCGGGAGTGCCTGCACAGCAGGTTCTGTGGAGCCCTCCCACGTGCTGACGGCCATGTTCGGCCCTGGGCATCCGAAAACGACAAACTCGATTCGATTCAGTTTCGGTCTTGCTAATGATGAAGGTGATGTTATAGAAGCGGCTGAGAAAATCAGCCAGATCATCAAGCGTCTCGCTTGA	MKSIYLDHAATTPVHPDVVEAMVPVYQETFGNPSSVHQFGRKARSILDKARRKAASSLNAHEKEIVFTSGGTEADNLAVIGTARANKDKGSHIITTSIEHHATLHAVEFLETEGFDVTYLPVDENGLVQLEDIKQALREDTILVSIMMVNNETGAVQPIAETAELLKDHQAYFHSDIVQAYGLMEIDVKELGVDLLAVSGHKINGPKGVGFLYVKEGTVLSSQQYGGEQERKRRAGTENVPAVRGLQEAIEVMEANRSTYQEKYLHYKRSFIQTLKDQEVAFEVNGNEETTAASIVNISFTGMNVETLLTNFDLSGIAASSGSACTAGSVEPSHVLTAMFGPGHPKTTNSIRFSFGLANDEGDVIEAAEKISQIIKRLA	PGPT0000065_6351	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
AK012_01062	420	cymR		HTH-type transcriptional regulator CymR	ATGAAGATATCTACGAAAGGCCGTTACGGGCTGACCATTATGATTGAACTGGCAAGAAAGTTCGGGGATGGTCCGATTTCCCTGAAACAGATTGCCAGGGACAATGACTTGTCCGAGCATTACCTGGAGCAGCTGATTGCTCCATTAAGAAATGCCAGTTTAGTGAAAAGCGTCCGCGGAGCGTATGGCGGCTACATGCTGACGAAAGCCCCGCACGAGATTACAGCCGGTGATGTCATCCGTGTCCTGGAGGGACCGATCACTCCGGTGGAAGGTATTGAAAATGAAGAGCCTGCCAAACAGGCGCTGTGGAAAAGAGTCAGGGATGCCGTAAAAGATGTGCTTGATACGACAACTCTTGAGGATTTGAAAGATCATGTAGATGATCAGACGCAGGACGCCTATATGTTTTACATTTGA	MKISTKGRYGLTIMIELARKFGDGPISLKQIARDNDLSEHYLEQLIAPLRNASLVKSVRGAYGGYMLTKAPHEITAGDVIRVLEGPITPVEGIENEEPAKQALWKRVRDAVKDVLDTTTLEDLKDHVDDQTQDAYMFYI	PGPT0004960_1460	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE-ANTIMONY_HOMEOSTASIS,PGPT0004960-iscR-K13643	NA	NA
AK012_01063	684			hypothetical protein	GTGCAATCGACCACGAATAAAAGGCGTACCCTGTGGCTTCGCTGGAGCTTTTTTTGTATGGGATTGATCATCCTCGGGCTTGGCATTTCGATGACCATGCAGGTCAAGGATTTCGGAATAGGTCCGTGGGACGTGTTTCATTACGGCCTTTTCCTGCAGCTGGGACTGACAGTTGGAACATGGTCCATTATCGCCGGTCTTGTTATTGTCGTTGTAAGTGCAGTACTGCAGAGGAAATGGCCTCAGATCGGGACCATTTTAAATATGGTTTTTATAGGTGTATTTATTGATTTCTTTAACTGGCTGCTGCCGGAACCCGACGTGTTGTGGATGCAGCTTGTCGTATTTATTTCAGGGATTTTTGTCACTGCTCTTGGTATTGGGATCTATGTGGCCCCCGAAATTGGAGCAGGTCCGAGAGACAGTCTGATGCTGTTGATTACAGATAAAACAGGATGGAAGGTTTCGAGTGTCCGGAATGGTATAGAAATCATCATTGCTGTTTTTGGTTTTCTGCTCGGTGGACCTGTTGGAGCAGGGACCGTATTCATTGCTTTGTTTCTGGGGACATTTGTAGGATATACACTTCCTCATGCAAAAAGTTGGCTGCAGTTTTTAATAATGAAGGGTGAAGTATATGAAGATATCTACGAAAGGCCGTTACGGGCTGACCATTATGATTGA	MQSTTNKRRTLWLRWSFFCMGLIILGLGISMTMQVKDFGIGPWDVFHYGLFLQLGLTVGTWSIIAGLVIVVVSAVLQRKWPQIGTILNMVFIGVFIDFFNWLLPEPDVLWMQLVVFISGIFVTALGIGIYVAPEIGAGPRDSLMLLITDKTGWKVSSVRNGIEIIIAVFGFLLGGPVGAGTVFIALFLGTFVGYTLPHAKSWLQFLIMKGEVYEDIYERPLRADHYD	PGPT0026395_199	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
AK012_01064	1275		COG2256	putative AAA domain-containing protein	ATGAGTCAGCAACCACTCGCCTACCGGATGCGCCCGGCAGATATTCATGAAATTATCGGACAATCCCACCTCGTTTCCGAGGGGAAAACGATCAACCGCATGGTCAAAGCCGGACGGCTGGCTTCGATGATCCTGTTCGGACCGCCCGGAACAGGCAAGACATCGATGGCAACCGCACTCGCCAAGAGTCTGCGCATGCCTTTTAAAATGTTAAACGCCGTTACAGATAAGAAAAAAGATATGGAAGCCGCTGTCGAAGAGGCAAAAATGCACGGACAGCTCGTCCTCATCCTCGATGAAGTCCATCGGCTGGATAAGGCGAAACAGGATTTTCTGCTTCCTCATCTGGAAAATAACCGGATTACTTTAATCGGCTGTACGACAAGCAACCCGTACCACTCTATCAACCCGGCGATACGCAGCCGCTGCCACTTGTTTGAACTGCATAAACTGACAACAGAGGAAATTAAACAGGCTCTCACCCGGGCCGCTCAGGATGAAGCGAAAGGACTTGGCCATTTACCTATGGAGATTACGGACGATGCCCTCGACCACCTGGCAGGGGCTTCGAACGGAGATCTCCGCTCTGCAATGAACGGCCTTGAGCTCGCCGCCTTTTCCACACCGGAAAAAGACGGCACCATTATGATTGACCTTGAAGCGGCAGAGGAATGCATGCAGAAGAAAAGCTTTTCCCATGATAAGAACGGAGATGCTCATTATGATGTATTATCAGCCTTTCAAAAGTCGATCAGAGGCAGTGATGTGAACGCGGCCCTCCATTATCTCGGCCGTTTGATAGAAGCGGGGGATCTGGACAGCATCGCCAGGAGGCTTGTCGTAATTGCTTATGAAGATATCGGTCTTGCCAACCCGCAGGCAGGTCCGAGGGCGCTTGCCGCTGTTGAGGCTGCGGAGCGGATCGGTTTTCCTGAAGCACGTATCCCTTTATCCGTAACCGTCACAGAGCTTGCGCTGTCACCAAAGTCCAACAGTGCCTACAAAGCTCTGGACGCAGCCCTATCTGATATCCGCAAAGGAAAAAGCGGCGATGTTCCTGCTCATTTAAAGGATGCTCATTATAAAGGGGCCGAAGCGCTGGGACGCGGCATCGGTTATCAATACCCGCATAACTATGAAAATGCCTGGGTCGATCAGCAGTATCTTCCTGATTCCCTGAAGAAAAAGCGGTATTATGAACCTAAAACGACAGGAAAATTCGAACAGGCCCTTGAGCAGGTGTACAGCAGGATTAATAAACAGCGGACCACCTGA	MSQQPLAYRMRPADIHEIIGQSHLVSEGKTINRMVKAGRLASMILFGPPGTGKTSMATALAKSLRMPFKMLNAVTDKKKDMEAAVEEAKMHGQLVLILDEVHRLDKAKQDFLLPHLENNRITLIGCTTSNPYHSINPAIRSRCHLFELHKLTTEEIKQALTRAAQDEAKGLGHLPMEITDDALDHLAGASNGDLRSAMNGLELAAFSTPEKDGTIMIDLEAAEECMQKKSFSHDKNGDAHYDVLSAFQKSIRGSDVNAALHYLGRLIEAGDLDSIARRLVVIAYEDIGLANPQAGPRALAAVEAAERIGFPEARIPLSVTVTELALSPKSNSAYKALDAALSDIRKGKSGDVPAHLKDAHYKGAEALGRGIGYQYPHNYENAWVDQQYLPDSLKKKRYYEPKTTGKFEQALEQVYSRINKQRTT				NA	NA	NA	NA	NA
AK012_01065	657	rsfA		Prespore-specific transcriptional regulator RsfA	ATGCCTAAAGTAAGGCAGGATGCCTGGTCTCATGAAGACGATTTACTATTAGCGGAAACGGTGCTGCGGCATATTAGAGAAGGCAGTACACAACTGAAAGCCTTCGATGAAGTGGGAGACCTGTTGAACCGGACGTCCGCTGCCTGCGGGTTCCGATGGAATGCTGAAGTCCGCCAGAAGTACGAACAGGCGGTTGAACTGGCTAAAAAACAGCGCAAGGAAAAGAAGAGAAAAGAAGCCAAAGAACAGCAGGCCTACCAGAAACCCCAGCCGGCCGCTTATTACCCGCCTTCTCCTGATCCGGAAGATTTCAGACTTCCAGAACCGGAGGCAGAACAGGAAATGACCTCAAGAGCTGCATCTGAAGAAATCGGCTTGAACGATGTCATCCAGTTTCTGAAAGGGCTGGAGCAGGAATCCTCCACTCAGCCGAGTGTTCAGGCGCGTCTCAATGAATTAGAAGAGGAAAACAAGTCCCTTTCCGAACAGAACAGTCAGCTTCATAGAAAACTGGAATCCGTCACAGAAGACTATCAAGCCTTGATTCAGATTATGGACAGAGCCAGAAAAATGGTGTTATTTGAAGAACCTGAGCAGGACTATAAGCCGCAGTTCCGGATGGAAAAGAACGGAAACCTCGAAAATGTCGCCCGTTAA	MPKVRQDAWSHEDDLLLAETVLRHIREGSTQLKAFDEVGDLLNRTSAACGFRWNAEVRQKYEQAVELAKKQRKEKKRKEAKEQQAYQKPQPAAYYPPSPDPEDFRLPEPEAEQEMTSRAASEEIGLNDVIQFLKGLEQESSTQPSVQARLNELEEENKSLSEQNSQLHRKLESVTEDYQALIQIMDRARKMVLFEEPEQDYKPQFRMEKNGNLENVAR				NA	NA	NA	NA	NA
AK012_01067	1782	aspS		Aspartate--tRNA ligase	ATGATACGAACTCAGAGCGGAACACTCCGCAAAGAACATATCGAACAGGAAGTTACATTGAAGGGATGGGTACAGAAGCGTCGCGATCTGGGCGGCCTGATTTTCATTGATCTTCGGGATCGTTCCGGAATAGTCCAGGTGGTTTTCAACCCTGAAACCTCCCCGGAAGCCCTGAAGACAGCTGAAGACGTACGAAGTGAGTACGTGTTGGAAGTGAAGGGGCATGTGGTGGCACGTGATCCGAATACGGTCAATGCGAATCTTGGAACAGGGGAAATTGAAGTGGCTGCGCAGGACGTGACAATCCTGAACAAAGCCAAGACGCCTCCATTCATGATTGAGGAGCAGTCCGAGGTTTCTGAGGATCTCCGTTTGAAATACCGTTACCTCGATCTTAGAAGAAAAGAGATGCAGGAGACGTTCAAGATGCGTCACCAGACGACACAGTCCATCCGCAGTTTCCTTAACGAAGAGGAATTTCTGGATATGGAAACGCCGATGCTTACGAAGAGTACGCCGGAAGGAGCCCGGGACTATCTGGTTCCAAGCCGCGTTCATGAGGGCGAGTTCTACGCACTTCCACAGTCTCCGCAGCTGTTTAAGCAGCTGTTGATGATTTCAGGATTTGAAAAGTATTATCAAATCGCCCGCTGCTTCCGTGATGAGGACCTTCGTGCCGATCGTCAGCCGGAATTCACCCAGGTGGATATCGAAACATCCTTCATGAGTAAAGAGGATATCATGGCGATGACAGAGCGTATGATGAAGCGCGTGATGAAGGAAGTCAAAGGCATCGATATTGAAACTCCGTTCGTACGTATGCCGTATACAGAAGCGATGGAGCGGTTCGGTTCTGATAAGCCGGATACCCGGTTCGGACTGGAACTGGTCAACCTTTCAGACGTTGTGAAGGATTCCGGATTCAAGGTCTTTCACAGTGCCGTCACCTCTGGTGGACAGGTCAGTGCGATTAACGTGAAGGGGCAGGCGGACGCCTTCTCCAGAAAAGATATTGATAAGCTGACCGAAGACGTCAAAGTATACGGAGCGAAAGGACTGGCCTGGATGAAAGTGAAAGACGGGGAATTCAACGGTCCAATCGCCAAATTCTTCGCTGAAGAAGAGGCCGGAGCCATCAAAGATAAGCTTCAGGCGGAAGACGGAGACCTCCTTCTGTTTGTTGCGGATAAAACGGAGATCGTCTGGGACAGCCTCGGTTCCCTCCGCCAGAAACTTGCGCGTCGCCTCGACCTGATCGATGAAACGAAATTCAACTTCTTATGGGTAACCGACTGGCCGTTATTCGAATACGACGAAGAAGCAGGCCGCTATTTCGCAGCCCACCATCCGTTTACAATGCCTGCCGGCGGGGATGTCGAGGAATTGAAGAAAAACCCTCGTGATGTGATGGCAGAAGCGTATGACATCGTGCTGAACGGATATGAGCTTGGCGGAGGCTCCCTTCGTATTTATGAAAAAGAAATGCAGAATGAAATGTTTGATGTGCTTGGATTCAGCAGGGAGGAAGCAGAGGAACAGTTCGGTTTCCTGCTTGAGGCATTGGACTACGGCACGCCTCCACATGGGGGAATCGCCTTTGGTCTTGACCGCCTTGTCATGCTTCTTGCCGGACGCACCAACCTGAGAGATACGATTCTCTTCCCTAAGACAGCGTCTGCCTCCGATTTATTGACGGAAGCACCGGGCGCAGTCAGTGAAGCACAGCTGGATGAACTTCATCTTCAATTGAAGCCGTCTGATTCCAAAAAAACGGAACAGTAA	MIRTQSGTLRKEHIEQEVTLKGWVQKRRDLGGLIFIDLRDRSGIVQVVFNPETSPEALKTAEDVRSEYVLEVKGHVVARDPNTVNANLGTGEIEVAAQDVTILNKAKTPPFMIEEQSEVSEDLRLKYRYLDLRRKEMQETFKMRHQTTQSIRSFLNEEEFLDMETPMLTKSTPEGARDYLVPSRVHEGEFYALPQSPQLFKQLLMISGFEKYYQIARCFRDEDLRADRQPEFTQVDIETSFMSKEDIMAMTERMMKRVMKEVKGIDIETPFVRMPYTEAMERFGSDKPDTRFGLELVNLSDVVKDSGFKVFHSAVTSGGQVSAINVKGQADAFSRKDIDKLTEDVKVYGAKGLAWMKVKDGEFNGPIAKFFAEEEAGAIKDKLQAEDGDLLLFVADKTEIVWDSLGSLRQKLARRLDLIDETKFNFLWVTDWPLFEYDEEAGRYFAAHHPFTMPAGGDVEELKKNPRDVMAEAYDIVLNGYELGGGSLRIYEKEMQNEMFDVLGFSREEAEEQFGFLLEALDYGTPPHGGIAFGLDRLVMLLAGRTNLRDTILFPKTASASDLLTEAPGAVSEAQLDELHLQLKPSDSKKTEQ				NA	NA	NA	NA	NA
AK012_01068	1281	hisS	COG0124	Histidine--tRNA ligase	ATGACGATCAATGCACCGAGAGGTACACAGGATATTCTGCCGGGTACATCAGAAAAGTGGCAGTACGTGGAGCAGAAGCTGGTGGATTTATGCCGCCGCTTTAATTATAAAGAAATCAGAACCCCGATTTTTGAACATACGGAACTGTTTCAGCGCGGGGTAGGGGACAGCACAGATATTGTACAAAAAGAAATGTACACGTTTGAAGACCGTGGAGGGCGCAGCATTACCCTTCGTCCGGAAGGGACGGCCTCTGTTGTCCGCGCTTATGTCCAGAACAAAATTTACGGCCTGCCGAATCAGCCGTCCAAATACTTCTATATGGGGCCGATGTTCCGGTATGAGCGTCCACAGCAGGGAAGAATGCGTCAATTCGTCCAGTTCGGCATTGAAGCGCTTGGAAGTGACGACCCAGCTATAGATGCTGAGGTGCTGTCCCTTGCTTTGAATTCCTACAGGGAGCTGGGCCTTTCCTCCTTGAAGCTGGTATTGAACAGTCTTGGTGATGCTGAAAGCCGTGAAGCTCACAGAGCAGCGCTTGTCCGTCATTTCGACCCACACCGGGAAGAGCTTTGTTCCGATTGTCAGGTGCGTCTTGATCAAAATCCGCTGCGTGTGCTGGATTGTAAAAAAGACAAGGATCACCCGGCCATGGCAACAGCTCCTTCGATACTGGAATACTTAAATGATTATTCGAAAGATTACTTCGAGAAAGTGAAAAGTTACCTTGATGCGATGGGCATTGAATATGTGATAGATCCGAACCTCGTCCGCGGGCTTGATTATTACAACCACACCGCTTTTGAAATCATGAGTGAAGCGGAAGGGTTTGGCGCCATTACGACATTGAGCGGCGGCGGCCGCTACACAGGCCTCGTTCAGGAAGTCGGAGGTCCGGAAACGTCCGGCATCGGTTTTGCGATGAGTATTGAACGTTTGTTAATGGCACTGGAAGCAGAAGGTGTCGAGCTGCCGGTGGATGAAGACCTGGACTGCTATGTTGTGGCTCTTGGAGAGGAAGCGCAGGTCGAAGCGGTCCGTCTTTCAGATTCCATGCGCCTGGCCGGCCTTCAAGTCGACAAGGACTATCTGGGTAAGAAAATGAAAGCCCAGTTCAAATCGGCGGATCGTTTGAATGCGAAGTACGTGCTCGTCCTTGGAGAGCAGGAGCTCGAAAATGGAGTCATTAATGTGAAGGAAATGGCTACAGGGGAGCAGAAGGAAATCGAACTTGGCTCGGTAATTGAATATATGAAAGAACAAATGGCAGGAGGAAAGTAA	MTINAPRGTQDILPGTSEKWQYVEQKLVDLCRRFNYKEIRTPIFEHTELFQRGVGDSTDIVQKEMYTFEDRGGRSITLRPEGTASVVRAYVQNKIYGLPNQPSKYFYMGPMFRYERPQQGRMRQFVQFGIEALGSDDPAIDAEVLSLALNSYRELGLSSLKLVLNSLGDAESREAHRAALVRHFDPHREELCSDCQVRLDQNPLRVLDCKKDKDHPAMATAPSILEYLNDYSKDYFEKVKSYLDAMGIEYVIDPNLVRGLDYYNHTAFEIMSEAEGFGAITTLSGGGRYTGLVQEVGGPETSGIGFAMSIERLLMALEAEGVELPVDEDLDCYVVALGEEAQVEAVRLSDSMRLAGLQVDKDYLGKKMKAQFKSADRLNAKYVLVLGEQELENGVINVKEMATGEQKEIELGSVIEYMKEQMAGGK				NA	NA	NA	NA	NA
AK012_01070	1512			hypothetical protein	TTGAAAAAAGGACTTTTTCTTATTGTCTTTTTATTGGCAGCTTTCAGCTTGATGGAGGCTGAAGGCAGGACAGCACATGCAGACCAAGCCGTCATTCAGGTGGATTACCTGAACGTAAGAACAGGTCCTGACACGAGCTACAACCGCATCGGCCAGGTGCACGCCAACGAAACGTACACCATAGTCAAGAAACAGAACGACTGGCTGAAGATCAACTGGAATGGGAAAACCGGGTGGGTGGCTGAATGGCTCACCACCGTAAAGAAGGAAACATCACAGGCCTCCGGCACTTATTATTCCAAGTATGATTACTTAAGGATCCGCTCATCGGCGGGACTTAATGGAAAGATCAAAGGGTACTTAATGAAAAACGATGTCGTAACTCCGCAGAAGTCGAGCGGAAAATGGGTGTACATCCAGCACGGCAGCATCAAAGGCTGGGTACATGGGGATTATCTTGCCCAGAAACAATCTTCCAATTCCTCATCCGGAAGCTCGTCATCCAACGAAAGCTCCGGTAGTCAATCGGTTATTGGAAAAATTAAAGTAGACACACCAGTCTTGAATGTTCGAAGTCAGAATTCAACAAAAGGGACGATCCTTACTCAGATTAAAAAAGGCGGAGTTTATGAATACATAAACGAAAAAGATCGCTGGTACCAGATCAAGTGGGGAAACGGCCGGACAGGCTGGGTGGCAGGCTGGCTGGTTGATCCTGTGAGTGGAAACAGCTCCTCCGGGACCACAACGAATGCAGCCGTCACTCTGGACTATAACTACACCAATATCCGCAGCGGTCCATCCACCGGGTATAAAGTTGTAGGCCGGGCTCATAAAGGCGATCAATTCGATGTCATTGCTGAAGAAGGCCGCTGGTATAAAATTGAATTCAACGGCATGACCGCGTATGTAGCGGGCTGGATTGTCACAGAAACCACCAAAGGCGCCCAGCACACCAACTCCTCTTCGGGATCGTTAAAAGGGAAAACGATCATGCTCGACCCCGGGCACGGCGGTCGTGATTCAGGGGCTGTCGGAAGAGCCGGCAGTCACGAAAGTGATCTGACGTTAAGTACAGCCCACATCTTGAAGAAACAGCTGGAGCAGGCCGGTGCAGAAGTACTGATGACACGGAGCAGGGATGAGTATGTGGCTTTATCAGCCAGAACTTATTATTCCAATGCTTCCAGTGCCGACGCATTTATCAGTCTTCACTATAACAGCGCTCCTCTATACATTGCCGCAACCGGACTGAATACGTATTATTATCACTCCAGGAACAAAAACCTTGCTTCAGATATTCAGGCAGGCATGGTACAGAAAACGGGATTGAGAGACCGTGGAATTAAATATGGCAACTTCCATGTGATCCGGGAGAACAGGAAGCCATCCGTATTGCTGGAGCTCGGCTTCATATCGGATGCTCGTGAGGAACAGACCGTACGGACGTCCTCTTATCAACAGAAAGTCAGCCAGGGAGTGACCCAGGGCCTTATTCAATATTTCAAATAA	MKKGLFLIVFLLAAFSLMEAEGRTAHADQAVIQVDYLNVRTGPDTSYNRIGQVHANETYTIVKKQNDWLKINWNGKTGWVAEWLTTVKKETSQASGTYYSKYDYLRIRSSAGLNGKIKGYLMKNDVVTPQKSSGKWVYIQHGSIKGWVHGDYLAQKQSSNSSSGSSSSNESSGSQSVIGKIKVDTPVLNVRSQNSTKGTILTQIKKGGVYEYINEKDRWYQIKWGNGRTGWVAGWLVDPVSGNSSSGTTTNAAVTLDYNYTNIRSGPSTGYKVVGRAHKGDQFDVIAEEGRWYKIEFNGMTAYVAGWIVTETTKGAQHTNSSSGSLKGKTIMLDPGHGGRDSGAVGRAGSHESDLTLSTAHILKKQLEQAGAEVLMTRSRDEYVALSARTYYSNASSADAFISLHYNSAPLYIAATGLNTYYYHSRNKNLASDIQAGMVQKTGLRDRGIKYGNFHVIRENRKPSVLLELGFISDAREEQTVRTSSYQQKVSQGVTQGLIQYFK	PGPT0024160_1315	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK012_01071	447	dtd	COG1490	D-aminoacyl-tRNA deacylase	ATGAAAGCCGTTGTCCAGAGAGCGGTTGATGCTTCTGTCACTGTGGAAGAAGAAACGGTCGGAAGCATCGAGCGTGGTCTAGTGATCCTCCTTGGGGTTACGCATGAAGATACAGAGGAAGACGCCCGTTATTTAGCGGACAAGATTCCTCATTTGAGGATATTTGAAGATGAAAACGGGAAAATGAATCATTCTCTTAAAGATGTGGAGGGGCAGATGCTGTCCATCTCCCAGTTCACGTTATATGGAGATACACGCAAAGGCCGCCGCCCGAATTTTATGGGGGCAGCCCGGCCTGATGCAGCTGCTCAACTGTATGAGTCCTTTAATAAGATGGTGATGGATCAGGGGGTTCACGTTGAAACCGGATCGTTCGGAGCGATGATGAACGTGCAATTGACAAATGAAGGTCCTGTCACCCTGATACTGGACAGTAAAGAACGATAA	MKAVVQRAVDASVTVEEETVGSIERGLVILLGVTHEDTEEDARYLADKIPHLRIFEDENGKMNHSLKDVEGQMLSISQFTLYGDTRKGRRPNFMGAARPDAAAQLYESFNKMVMDQGVHVETGSFGAMMNVQLTNEGPVTLILDSKER				NA	NA	NA	NA	NA
AK012_01072	2205	relA_1	COG0317	GTP pyrophosphokinase	ATGGCGAAAGATACAGTTCTAACTGCTGAAGAGGTCATAGAACAGGCAAGCCAGTATTTAAATGAGTCGGATCTGGCTTTTATTCGTCGTGCCTATGAGTTCGCAGAAGAAGCGCACAGCAGTCAATTCCGAAAATCCGGTGAACCTTATATTATCCACCCCATTCAGGTTGCAGGAATCCTGGTCAATCTGGAAATGGATCCCGAAACCGTCGCAGGGGGATTTCTTCACGATGTCGTGGAAGATACGGATATTACACTGGAGGAGATTGAGAAAGCTTTTAATGAAGAGGTTTCCATGCTTGTCGATGGTGTTACCAAATTAGGTAAGATCAAATACAAATCCAAGGAAGCCCAGCAGGCAGAGAACCATCGTAAAATGTTTGTAGCTATGGCGAAGGATATGCGGGTCATTCTTATCAAGCTCGCTGATCGTCTGCATAATATGAGAACGCTGAAGCATCTCCCGGCAGAAAAACAGCGGAGAATATCCAACGAAACCTTGGAGATTTTTGCTCCGCTTGCCCATCGGCTTGGAATCTCCACAATCAAGTGGGAGCTGGAAGATACGGCGCTGAGGTACTTAAATCCACAGCAGTATTACCGGATTGTTCATTTGATGAAGCAGAAGAGGAACGAACGGGAGCATTACATTGAAGAAGTCATCGATGAAATTCGTGATCAGCTCGATGATGTGAACATTGATGCTGATTTAAACGGCCGGCCGAAGCACCTGTACAGCATTTACCGGAAGATGGTGCTGCAGAACAAGCAGTTTAATGAAATCTATGACTTGTTAGCCGTTAGAATTACCGTGAACAGCATCAAGGATTGTTACGCAGTTCTTGGAATCATCCATACCTGCTGGAAGCCGATGCCCGGCCGGTTCAAGGATTATATTGCCATGCCGAAGCCGAACCTGTACCAGTCTCTTCATACAACGGTCATTGGACCAAAGGGAGATCCGCTGGAGGTTCAGATCCGTACCCATGAAATGCATGAAATCGCTGAATACGGAATTGCTGCCCACTGGGCTTACAAAGAGGGCCGGCAGAACACATCGGTTCAATCCTTTGAAGAAAAACTGACCTGGTTCCGTGAAATTCTGGAATGGCAGAGTGAAACCCACGATGCCGAAGAGTTTATGGAATCATTGAAAGTGGATCTCTTTTCCGATATGGTTTATGTTTTTACACCGAAAGGGGACGTCATCGAACTTCCTTCCGGTTCGGTGCCCGTCGATTTTGCCTTCCGGATTCATACGGAGGTGGGCAACCAGACGATCGGTGCCAAGGTTAATGGAAAGATGGAGCCGCTGGACTACGAACTGAAAACCGGTGACATTGTGGAAATCATGACGTCCAAGCATGCGTACGGACCTTCTAAAGACTGGATCAAGCTGGCGCAGACTTCCCAGGCTAAAAACAAAATCAAACAGTTCTTTAAGAAACAGCAGAAGGACGAAAACATTTCCAAGGGAAAAGAGCTTGTAGAACGGGAAATCCGCAACTTCGGTCTCCAGCCGAAGGAAGTTTATACCCAGGACAACCTCAATAGAGTGTCTGAGAAGTTCAACTTTGCCAACGAGGAAGATATGTTTGCCGCCGTCGGATATCAAGGCATTACCGCAGCTCAGATTGCTACAAGGCTTACAGAGAAAATCCGTAAGCAGAAGCAGAAGGAACAGGACCTTGAACAGACCCTTGCCGATGTCAGCACGACAGAAATTAAGAAACCTTCCAAAACAGGCAAAAAAGATTCAGGCGTCCGAGTCGAAGGTGTCGACAACCTGCTTGTCCGACTGTCTAAATGCTGCAACCCGGTGCCCGGCGATGAAATCATCGGCTATATCACCAAAGGCCGCGGGGTGTCCGTTCACCGTACGGACTGTCCAAACGTGCATACGGAGGAGGCACAGACTCGTCTGCTTCCTGTGAAATGGGAAACATCGGTCACAGATTCCAAGCAGTATCATGTCGATTTGGAAATCTGGGGTTATGATCGGAGAGGCTTGTTGAACGAAGTTCTGCAGGCGGTCAATGAAACAAAAACCAACATTACCGCTGTTTCAGGTAAATCAGACCGGAACAAAATGGCGACCATCCACATAACGATTCTCATCCAGAATACAAACCATTTGAGAAAAATCGTCGAACGGATCAAACAAATTCAGGAAGTATACACGGTCCGCCGTGTGATGCAGTAA	MAKDTVLTAEEVIEQASQYLNESDLAFIRRAYEFAEEAHSSQFRKSGEPYIIHPIQVAGILVNLEMDPETVAGGFLHDVVEDTDITLEEIEKAFNEEVSMLVDGVTKLGKIKYKSKEAQQAENHRKMFVAMAKDMRVILIKLADRLHNMRTLKHLPAEKQRRISNETLEIFAPLAHRLGISTIKWELEDTALRYLNPQQYYRIVHLMKQKRNEREHYIEEVIDEIRDQLDDVNIDADLNGRPKHLYSIYRKMVLQNKQFNEIYDLLAVRITVNSIKDCYAVLGIIHTCWKPMPGRFKDYIAMPKPNLYQSLHTTVIGPKGDPLEVQIRTHEMHEIAEYGIAAHWAYKEGRQNTSVQSFEEKLTWFREILEWQSETHDAEEFMESLKVDLFSDMVYVFTPKGDVIELPSGSVPVDFAFRIHTEVGNQTIGAKVNGKMEPLDYELKTGDIVEIMTSKHAYGPSKDWIKLAQTSQAKNKIKQFFKKQQKDENISKGKELVEREIRNFGLQPKEVYTQDNLNRVSEKFNFANEEDMFAAVGYQGITAAQIATRLTEKIRKQKQKEQDLEQTLADVSTTEIKKPSKTGKKDSGVRVEGVDNLLVRLSKCCNPVPGDEIIGYITKGRGVSVHRTDCPNVHTEEAQTRLLPVKWETSVTDSKQYHVDLEIWGYDRRGLLNEVLQAVNETKTNITAVSGKSDRNKMATIHITILIQNTNHLRKIVERIKQIQEVYTVRRVMQ	PGPT0014310_2457	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014310-spoT-K01139	NA	NA
AK012_01073	513	apt		Adenine phosphoribosyltransferase	ATGGATTATAAAGAACATATTGCAATCGTACAGGACTGGCCGAAAGAAGGCGTCCAGTTTAAGGACATCACCCCATTGATGGATAACGGCCCTGCCTTTAAAGCCGCTGTCGATGAGATTGTAGAGTATGCGAAACAGCTGGAAATTGATATTGTCGTAGGTCCGGAAGCCCGTGGATTCATCGTAGGATGTCCGGTTTCCTATGCCCTTGAAATCGGTTTTGCACCGGTACGTAAAGAAGGGAAGCTCCCTCGTGAAACCATCAAAGTGGATTACGGCCTGGAGTACGGCAAAGACGTACTGACGATCCATAAGGATGCCATCAAGCCGGGACAGCGGGTTCTGATCGTTGATGACCTTCTGGCTACCGGAGGGACGATCGAAGCGACCATCGACCTTGTCGAGCAGCTTGGCGGCGAAGTAGCCGGATGTGCGTTCTTAATTGAGCTTACGTATTTGAACGGCCGTGAAAAACTGAAAAATAACGATGTATTGACATTGATGCAATATTAA	MDYKEHIAIVQDWPKEGVQFKDITPLMDNGPAFKAAVDEIVEYAKQLEIDIVVGPEARGFIVGCPVSYALEIGFAPVRKEGKLPRETIKVDYGLEYGKDVLTIHKDAIKPGQRVLIVDDLLATGGTIEATIDLVEQLGGEVAGCAFLIELTYLNGREKLKNNDVLTLMQY	PGPT0021455_4835	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021455-apt-K00759	NA	NA
AK012_01074	2334			hypothetical protein	ATGATAGAAAGTAAGATGAAATGGAAAATTACATATAATGAGCCGGTCGATGCAGAAGGTAACAGCCGCGCAGGCGGATTGACGCCGCTTACGAAGCAGCTGCTGGAAAAGCGGGGGATAGTTGAACCGGAAGCGGAACAGCGTTTCCTTCATCCGTCTTTTGAACAACTGCATGATCCATTCCTGATGGAAGGGATGGAAAAGGCTGTTGCGCGTATGAAAAAGGCTGCCGCTGAGGGGGAGCCTGTTCTTGTTTTTGGGGATTATGACGCAGACGGGGTCAGCTCCACGACACTGATGGTCGAGGCACTCCGAGAAGCGGGTGTGGACTGTGATTTTTATATTCCCAACCGCTTTACAGAAGGGTACGGACCGAACAAGGAGGCCTTTCAATTTGCCTTTGATTCCGGTTATGCTGTCATTATCACCGTCGATACAGGAATTGCTGCGGTCGAAGAAGCAGCCTTTGCCAGGGACCTGGGTCTGGATTTAATCATTACGGATCACCACGAAGTGCAGGAAACCCTTCCGGATGCCTATGCCATCATCCATCCGAAAACATCAGCAGATTACCCGTTTCAGGAGTTGGCAGGCGTCGGCGTTGCTTTTAAATTTGCTCATGCTCTCTTAGGGGAATTTCCGAAACATTACCTTGATCTTGTAGTTATCGGCACCATTGCGGACCTTGTGCCTCTTGTTGATGAGAACCGTGTTCTTTCCTATTTTGGTCTGAAGGCGATCTCCCAGTCCACGAGACCAGGAATCCAGGCGCTGCGAAAGGTCTGTTCCATTGAAGGAGAGATGAATGAAGAAACGATCGGTTTTACCATCGGCCCGAGAATCAACGCTGTCGGACGTCTTCAGGACGCCACACCGGCTGTTGATCTGCTGTTATCCGATAGTCTGGAAGAGGCTGAGGAAATGGCTGCTTTTATTAACCAGCTGAATCAGGAACGTCAGAAGATCGTCGCTTCCATTGCCAAAGAGGCGGAAGAGATGGTGGTGAATGAGCATGGAGAGGCTGATGAGGTGATTGTCGTAGCCAAGGAAGGCTGGAATCCGGGCGTACTGGGTATCGTCGCCTCCAAGCTTGTCCGGCAGTTCGACAGGCCTGCCATCGTTCTCGGGATTGATTCGGAAAAAGGAGTGGCCAAAGGTTCAGCCCGCAGTATTGATGCCTTTGACATGTTTGCCAATTGTATGGAGGTCCGCCACCGGTTCCTTCATTTTGGTGGACACGCCCAGGCAGCGGGTATGACCATCGAACTGGATCAACTGGATGCTTTGAGGGAAGATCTGATCGGCATTGCCAGGAAAAAGCTGTCGGCAGCCGACTACCAGCAGGTGCTTGACATCGAGACGACCGTAGACGTGGACGATGTCTCGCTGAAGCAGATTGAAGAAATCGATCAGCTCCGCCCGTTCGGCATGGGTAACCCTAAACCTTTGTTTCATCTCAAGCATACCCCTAAAGAAGTACGGTTGATCGGAAGCAGAAAAAATCATCTGAAATTTCAATTCCAAGGTCAGCAGGTAAAGGTGGACGGTATCGCCTTTGGTCTGGGTGATCTGTATACGCAGCTGTCTCCGCATGCCGCTGTAGACTTTGTTGGCGAACTGGGAGTCAATGAGTGGAATGGGCGTAAAAACCTTCAGGTCATGATCAAAGACTTAAGCGTGACCGAGTGGCAGCTGTTTGACCACCGCGGGTCAAGGCATCTCGAAAAAAACGCAGCTGTACCACAGCAGGAAAAGTATGGGGCTTTAAGCTTCAGTGATAAATCCGACGCTCCGTTCGACCTTCCTGTCCTGAAACCGGAACAGGTTATGAATGAAAAAGAGTGGGACGGTCTTCTGCTTCTTGATCTTCCGCGTGAAATGAAGGATCTCACGTCGCTGCTGGAAGTGATCCGGGTGAAGAAAGTTTATGCCTGTTATCACTTGGAAGACAGTACCTTCTTAAAAACATGGCCGTCGCGTGACCACTTCAAATGGTTTTATGGTATGCTGATGAAGCGTGGACGTTTTGACATGAATAAAGAAGCTGATCTCCTGGCCCGGAGAAAAGGCTGGGACAGATCGATGGTGGAATTTATTTCAGAGGTGTTTTTTGAACTTCAGTTTGTTAAAATAAAAGATGGGATTTTAACGGTTGAATCCGAACCATCTCAAAAAGATTTACGTGAATCTTCGCTTTACCGCGAACGCGAAGAGCAGTTGAAAATGGAACAAACGCTATATTATTCCACATATAAAGAATTGAAGGAATGGTTCGACCGCTATCTGAACCAACGTTCGAAGCAAGTCAAGGAGGAAGTAGTTAATGGATTATAA	MIESKMKWKITYNEPVDAEGNSRAGGLTPLTKQLLEKRGIVEPEAEQRFLHPSFEQLHDPFLMEGMEKAVARMKKAAAEGEPVLVFGDYDADGVSSTTLMVEALREAGVDCDFYIPNRFTEGYGPNKEAFQFAFDSGYAVIITVDTGIAAVEEAAFARDLGLDLIITDHHEVQETLPDAYAIIHPKTSADYPFQELAGVGVAFKFAHALLGEFPKHYLDLVVIGTIADLVPLVDENRVLSYFGLKAISQSTRPGIQALRKVCSIEGEMNEETIGFTIGPRINAVGRLQDATPAVDLLLSDSLEEAEEMAAFINQLNQERQKIVASIAKEAEEMVVNEHGEADEVIVVAKEGWNPGVLGIVASKLVRQFDRPAIVLGIDSEKGVAKGSARSIDAFDMFANCMEVRHRFLHFGGHAQAAGMTIELDQLDALREDLIGIARKKLSAADYQQVLDIETTVDVDDVSLKQIEEIDQLRPFGMGNPKPLFHLKHTPKEVRLIGSRKNHLKFQFQGQQVKVDGIAFGLGDLYTQLSPHAAVDFVGELGVNEWNGRKNLQVMIKDLSVTEWQLFDHRGSRHLEKNAAVPQQEKYGALSFSDKSDAPFDLPVLKPEQVMNEKEWDGLLLLDLPREMKDLTSLLEVIRVKKVYACYHLEDSTFLKTWPSRDHFKWFYGMLMKRGRFDMNKEADLLARRKGWDRSMVEFISEVFFELQFVKIKDGILTVESEPSQKDLRESSLYREREEQLKMEQTLYYSTYKELKEWFDRYLNQRSKQVKEEVVNGL				NA	NA	NA	NA	NA
AK012_01075	321	lapA		Lipopolysaccharide assembly protein A	ATGAAGGGTCAAACGTACATTATTTCAGCCCTTATTTTTGCTGTAGTGATTGCTGTATTTGCGGTCATCAACGTTGAGAATGTGCAGGTGAATTACTTATTCGGAACCGGGGAAGCCCCCTTGATTCTGGTGATCCTCGTTTCTGTGCTGCTTGGAGGTCTGGCTACTGCTTCTGTCGGGGCCGTCCGCTACTTCAGGTTAAGAAGGGAGAACCGTTCCTTACAGGAAAAACTGCAGGCATATGAGAAAGAGAGTGGAGAGAAAGCGGAGCCTGTTTCTGGAACCAGTGAAGAGGCAGATTCCAAAGAAAACATCACATAA	MKGQTYIISALIFAVVIAVFAVINVENVQVNYLFGTGEAPLILVILVSVLLGGLATASVGAVRYFRLRRENRSLQEKLQAYEKESGEKAEPVSGTSEEADSKENIT	PGPT0014665_384	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_AFFECTED_LIPOPOLYSACCHARIDE_ASSEMBLY,PGPT0014665-lapA-K08992	NA	NA
AK012_01076	2283	secDF	COG0341	Protein translocase subunit SecDF	ATGGTGAAACGAGGGCGGATTGTCGCCTTTTTCATCGTGGTGCTGTTGTTGGCAGCTACGATTGGGACGACGATTACTGGAGTTACAAAAGATATTAAATTAGGACTGGACCTTCAGGGCGGCTTTGAAATTCTTTATGATGTGGAGCCTCTGAATGAAGACCAGGAAGTGAATGATCAGGTATTGGAAGCCACGGCTGAATCGCTGAGCCAGCGTGTCAACACGCTCGGAATCAGTGAAACCAACATATCCATCGAGGATAACGGGCGGATCCGGGTGCAGCTGGCCGGTGTCGAGGACCAGCAGACCGCTCGGGAACTGCTTTCGACAACAGCGGAATTGACATTCAGGAGTACCGATGGAAAGCTGTTTCTTGACGGTTCCGACCTGGTAGAGGGAAGTGCCCAGCAGTCCTTCGATCCAAATACGAATGAACCGGTCGTAACTTTGAAGGTGAAGAGCGCCTCCGAGTTTTACGATGTTTCAGAGGAAGTCTATAATACACCGGATGATCCATCGACTCCCTACCCGGACGACCTTCTTGTCATCTGGCTGGATTACGATGAAGATACATCCTTTGCTGAGCAGTATGGATCAGCAGATCCTGAATATATTTCGGCTCCGTCCTTCCGGCAGAACGGACCGATACGCAGCAATTCCATTCAGATCAGCGGGGACTTCACAGTGGAGTCAGCCCAGCAGCTGGCGGATATTTTGAACGCAGGTTCTCTCCCTGTCAATCTGGAGGAAACATATTCCAATTCTGTCGGTGCCCAATTCGGGGAACAGGCTATGAATAAAACCATTATCGCAGGAGCGATCGGTGTTGCCGCCATCTTCCTGTTCATGATTGCCTATTACCGATTCCCCGGGGTTATCGCATCCCTGACGCTGTCTGTTTATATTTATTTGATTTTAGTGGTCTTTGAAATGATGAACGGGGTTCTTACCCTGCCGGGGATTGCAGCCTTGATTCTAGGGGTTGGTATGGCAGTCGATGCCAACATCATTACCTATGAACGGATCAAGGAGGAATTGAAATCAGGCAAGTCGCTGATGTCCGCCTATAAAGCAGGGAATAAGCGCTCGCTGTCAACGATCCTTGATGCTAACATTACAACCTTGATTGCCGCCGCTGTGCTGTTCATTTTCGGTACGAGCTCTGTCAAAGGTTTTGCAACGATGCTGATCGTCAGTATTCTGGTGAGCTTTATAACGGCGGTGTATGGAACGCGTCTCTTTATGAGTCTATGGGTGAAGAGCCGTTTTCTTAATAAACGTCCGCGCTGGTTCGGAGTAAAACCGGAAGACATTCAAAATATCGAAGACGGCAAAGAAGTGAATGCAACGTTCATGAAGCGTTCGTTCGATTTTGTAGGAAAGCGGAAGTTGTTCTTCACGATTTCCATTGCTTTGATAGTCGCCGGTATTCTTGCACTGTCTGTCTTCCGTCTCAACCTTGGCATTGATTTCTCCAATGGTTCGCGTGTCTCCATCTTATCGGACGGGGATATAACAGCTTCTCAAGTGGAGGAGACAATGGAAAGTGAATTTGACGTTTCTCCTGAGCAGGTCGTCATTTCAGGGGATAACAATGAAATCGCCGTAGCGAGGTTCGATTCTGAACTGAGCAAGGATAAAGTCGCCGAGATTCAGTCGTACTATGAAGAGGAGTTCGGCAATACTCCAAACATCAGTACCGTATCTCCGATTGTTGCCAAGGAACTGGCGAAAAACGCAGCGCTTGCGGTATTGTATGCCTCGATCGGAATCATCATCTACGTCACGATACGTTTTGAGATATTCTTTGCGATCACGGCCATTATCGCTCTCCTGCACGATGCATTCTTCATTCTGGCCTTCTTCAGTCTTACAAGGCTGGAATTCGATATCACGATCATTGCTGCTATTCTTACCATCGTCGGTTATTCTGTCAACGATACAATCGTAACGTTTGACCGGATACGGGAGAACTTGAAACTGAAGAAGAAAGTCAAGTCCTTCTCCGAACTGGCTAAGATTGTGAATGACAGCTTAATGCAGACACTGGCGAGGAGCTTCAATACGGTGATTACGGTCATCTTTGCAGCTGTCATGCTGCTCGTGTTCGGCGCATCGTCGATTACGAATTTCTCTTTCGCCCTTGTGATCGGGCTGCTGGCAGGAACGTATTCGTCCCTGTTTATCGCATCCCAGCTATGGCTCGTCTGGCGCGGGAGAAACATTAAGGATAAACCGATCAACTATGTGAAGAAAAAACGGAATGATGGACCGCAGGTATAA	MVKRGRIVAFFIVVLLLAATIGTTITGVTKDIKLGLDLQGGFEILYDVEPLNEDQEVNDQVLEATAESLSQRVNTLGISETNISIEDNGRIRVQLAGVEDQQTARELLSTTAELTFRSTDGKLFLDGSDLVEGSAQQSFDPNTNEPVVTLKVKSASEFYDVSEEVYNTPDDPSTPYPDDLLVIWLDYDEDTSFAEQYGSADPEYISAPSFRQNGPIRSNSIQISGDFTVESAQQLADILNAGSLPVNLEETYSNSVGAQFGEQAMNKTIIAGAIGVAAIFLFMIAYYRFPGVIASLTLSVYIYLILVVFEMMNGVLTLPGIAALILGVGMAVDANIITYERIKEELKSGKSLMSAYKAGNKRSLSTILDANITTLIAAAVLFIFGTSSVKGFATMLIVSILVSFITAVYGTRLFMSLWVKSRFLNKRPRWFGVKPEDIQNIEDGKEVNATFMKRSFDFVGKRKLFFTISIALIVAGILALSVFRLNLGIDFSNGSRVSILSDGDITASQVEETMESEFDVSPEQVVISGDNNEIAVARFDSELSKDKVAEIQSYYEEEFGNTPNISTVSPIVAKELAKNAALAVLYASIGIIIYVTIRFEIFFAITAIIALLHDAFFILAFFSLTRLEFDITIIAAILTIVGYSVNDTIVTFDRIRENLKLKKKVKSFSELAKIVNDSLMQTLARSFNTVITVIFAAVMLLVFGASSITNFSFALVIGLLAGTYSSLFIASQLWLVWRGRNIKDKPINYVKKKRNDGPQV	PGPT0025710_994	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025710-secDF-K12257	NA	NA
AK012_01077	294	comN		Post-transcriptional regulator ComN	ATGGAACCTTATAAGCGTGTCGGATTGTGGAAAAAGGAAGTAGCTCCGGTAACAAAGAGTAAAGCGGAGGAGTTCAAGCTGCTTGGCTACCCCCGGGCGACAGAAGCGGAAATCTGGAACTGCCTCATGTCCAAGGTGTGGAAAGGGGAGCCGGAAATGAGGCTTCACCAGGTCGTACAGGATATTTTTCATTTATCCAGTCATACATACACAAGCTATCTGACGGTTGAAGCCTATCAAAATGATGATCTGCTCGCGTCTATTGAAGCACTCAACCAGACGGAACCGGAATAG	MEPYKRVGLWKKEVAPVTKSKAEEFKLLGYPRATEAEIWNCLMSKVWKGEPEMRLHQVVQDIFHLSSHTYTSYLTVEAYQNDDLLASIEALNQTEPE				NA	NA	NA	NA	NA
AK012_01078	1557	spoVB	COG2244	Stage V sporulation protein B	ATGTCTAAACAAACTTTTCTGCATGGGGCCCTGATCCTCGTTGCCGCCGGATTGATTACCCGGTTCCTTGGGTTTGTGAACCGGATCGTGGTGGCACGGGTCATGGGCCCGGAAGGTGTCGGCCTGTATATGATGGCTCTGCCGACCTTGATTATGGCTATTACCATCACCCAGTTTGGACTTCCCGTGGCAATTTCCAAACGCGTTTCAGAAGCGGAGGCTACAGGAAACGAGGGAAAAATCAAGCGCATCTTGATTGTGTCCCTGGCAGTCACAACGACATTGAGCATCGTATTTACGATTGGCATTTTCCTGCTGGCCCCTGTCATCGCTGAGCACTTTTTGACGGATGCACGTGCCGTTTCCCCGCTGCTTGCGGTAACACCCATCATACCGATCATTGCCGTCTCCTCGGTCATCCGCGGCTATTTTCAAGGAAGGCAGAACATGAAGCCCCAGGCCATTTCCCAAGTCATTGAGCAGGTCGTCCGTATCGGATCTGTCATTCTTTTTACGAAGATGCTCTACCCCTATGGTGTCCAATACGCTGCCGCCGGTGCAATGGGAAGCGCGGTGCTTGGCGAATTGGTCTCCCTTTTGTATATGCTCAGGCAGTTCAATGTCCATAAAAGCTTTCATCTCAGGAAATCGTGGAAAAAGAATCTGGGCGAAGGACGGAAGACGTTAAATGAGTTGATGACTATTGCCCTGCCTACGACCGGAAGCCGTTTCATCGGATCGCTGACCTACTTCTTTGAGCCGATTCTTGTCGCCCAGAGCCTGGCCCTTGCCGGTTTTGCGGCTGTCGAGTCCACAAAGCTGTACGGGGAATTAACCGGTTATGTGCTGCCGCTGCTCTTTCTGCCGACGTTCCTCACGCATGCGCTTTCCACAGCACTCGTTCCCTCCATCAGCGAAGCTGCAGCCAAAGGGAACAAGGAAACGATCCGTTACAGGATCATGCAGTCCATCCGCCTGTCGATCGCTTCGGGCGGTTTAATCACGATTGTCTTCATGATCTTTCCTGTTGTTATCTTAACCGCTGTATACGGGACGAGCCATGCTTCTTTCATGCTCCAGTTCATGGCTCCCTTCTTCCTGCTCCATTATATCCAGACGCCTCTCCAGGCCGCCCTGCAGGCGCTTGACCTTGCGCGTCCCGCCATGTGGAACACACTCATCGGAGCTGTTGTGAAATTCATTGTGCTTGTCGCTCTCACTTCACGACCTGAAATCGGTATTCACGGAGCGGCAGCGGCAATTTGTGTCGGCGTCGTCATAGTCACCCTTCTTCACCTGCAGGTGCTCGTCAAATACAAGGTGCTTTCGTTTCCTTTTCTGTTGTTCCTGAAATTTTTCATCGTCATCGGAACGACAGGAGTGGTCGGATTCATATGGAAAAACAACTGGCTGCATGAAGCCCGGCCGCTTTCCCAGCTGCTCATTATGGGAGCTGGTCTAACGGCTCTTTATCTATTTTTGACGTACACCTTCCAGCTGATCCGAAATGAAGAGTGGAAGATGATCCCCTGGAGGAGAATGCTTCCGAAAAAATAA	MSKQTFLHGALILVAAGLITRFLGFVNRIVVARVMGPEGVGLYMMALPTLIMAITITQFGLPVAISKRVSEAEATGNEGKIKRILIVSLAVTTTLSIVFTIGIFLLAPVIAEHFLTDARAVSPLLAVTPIIPIIAVSSVIRGYFQGRQNMKPQAISQVIEQVVRIGSVILFTKMLYPYGVQYAAAGAMGSAVLGELVSLLYMLRQFNVHKSFHLRKSWKKNLGEGRKTLNELMTIALPTTGSRFIGSLTYFFEPILVAQSLALAGFAAVESTKLYGELTGYVLPLLFLPTFLTHALSTALVPSISEAAAKGNKETIRYRIMQSIRLSIASGGLITIVFMIFPVVILTAVYGTSHASFMLQFMAPFFLLHYIQTPLQAALQALDLARPAMWNTLIGAVVKFIVLVALTSRPEIGIHGAAAAICVGVVIVTLLHLQVLVKYKVLSFPFLLFLKFFIVIGTTGVVGFIWKNNWLHEARPLSQLLIMGAGLTALYLFLTYTFQLIRNEEWKMIPWRRMLPKK	PGPT0024825_422	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024825-spoVB-K06409	NA	NA
AK012_01079	657			hypothetical protein	ATGGACGTGCTTGTCATCTCTGTAATTTTTCGAACCCTCATCACCTATCTGATTATACTTATCGTCTTCCGGTTTATGGGAAAAAGGGAAATCGGGGAACTGAGTGTCATGGACCTCGTCGTTTTTATCATGCTGGCAGAAATTGCTGTTTTTCTGATCGAAGAGCCTGATGAAGATATTTGGAAAGCTATTGTTCCTATGGCTGTACTTCTGGCGATTCAAATCGGGAGTGCCTGGATTTCCCTCAAGAATCAGTCGTTCAGAAACTGGTTCGATGGAAAGCCTTCTGTGATCATCAAGCATGGCCGAGTGGATGAATATGAGATGAGACGCCAGCGCTATAACTTTAATGACCTTCTTCTTCAGCTCCGCGAACATGGCGTCCATGAGGTTCAGGATGTCGCCTATGCGGTGCTGGAACCTTCAGGGAAACTGTCCGTCTTTGAGAAAAAAGAAGATGGATCTTCTGATTTTGCAGTGGTTTTAATTGCAGATGGTGTGGTCCAAAAGAGCGGGCTGAAGATTATTGGAAAAAGCCGGCGCTGGCTTATGGATCAGCTTCAAAGTCAGGGGTATACCGATGTGCAGGAAGTCTCTCTATGTACGGTGAATGATCAGGGGGAGATCCACTTCGATCAAAAGAATGAATTTCACTAA	MDVLVISVIFRTLITYLIILIVFRFMGKREIGELSVMDLVVFIMLAEIAVFLIEEPDEDIWKAIVPMAVLLAIQIGSAWISLKNQSFRNWFDGKPSVIIKHGRVDEYEMRRQRYNFNDLLLQLREHGVHEVQDVAYAVLEPSGKLSVFEKKEDGSSDFAVVLIADGVVQKSGLKIIGKSRRWLMDQLQSQGYTDVQEVSLCTVNDQGEIHFDQKNEFH				NA	NA	NA	NA	NA
AK012_01080	1290		COG1055	putative transporter	ATGTCAACCGTACTGGCAATTCTCATATTTACTGCAAGTTATATCCTCATCATGACGGAGAAACTGAACCGGGCACTCGTAGCTGTTGCCGGCGGCGTCCTCTTATTAATGACTAAGGTTTACGCATGGGAGGAAGCTTTCGGTTTTATCGACTGGGAAACGGTCGCCCTTTTGTTTTCGATGATGGTCCTTGTCTCCATAACGAAAAAGACCGGCATCTTTTCGTTTATGGCTGTCCGCCTCGTCCAGCTCGTACAGGGACGACCTGTTCCACTGTTGATCGTCACCGGCATTTTTACAGCGGTAGGTTCTGCCTTCTTGGACAATGTGACGACTGTGCTTTTGTTTGTACCTGTTCTTCTCTCTCTCATTGATCAGTTGAAGCTTCCCGCTTTCCCTTATTTAATCACGACCATTTTCAGCTCAAATATCGGGGGAACAGCGACACTGATCGGGGATCCGCCGAACATTATGATCGGACAGGCGGTGGAGCATTTCAGCTTTGTCTCCTTTATGTATCACCTTGGTCCTGTCGTCATTGTCATTTTTGTCGTCATGATGGCCGGCATGATTCTTCTGTACCGGAAACGTCTGGTTTATGATGAAGCGCTCGCACGGCGGCTGATGGAACGGAACGCCAAAGCTGACTTGAAGGTGACACCACTTCTTTTTCAATCGGTGGGGGTCCTGCTCCTGACCATTACAGGGTTTATGATGCATCCGTTCATTCATATGGATATTACGACCATCGCCGTCAGCGGCGCGCTCCTGCTGCTGTTTCTTTCTGAGAAGGAACTTGACGTGGAGCATGTGTTTCAGGAGGTGGAGTGGGTCACGTTATTTTTCTTCATGGGACTCTTTATGCTTGTCGGAGGACTGGAAACGGTCGGTGTCATCGACGAGATGGCCCGGGGAATGGTCTGGCTTTCCGGCGGGGACCTGCCTGTGACCGCCATGGTGATGCTGTGGAGTGCCGGAATCCTGTCAGGGGTCGTGGATAACATTCCTTTTGTAGCAGCGATGATCCCTGTCGTTCAGGAGCTTCAGGGCTACGGCATGATGAACGTGGATCCGGTCTGGTGGGCGCTTGCGCTCGGAGCCTGCCTTGGGGGGAATGGGACGTTGGTTGGTGCTTCAGCGAATGTTGTCGTTGCCGGGCTCGCAGCCAGCCACAACAAACCGATCCCTTTCCTGAAGTTTTCCTTGTACGGGTTTCCTGTTCTGCTGGTTTCCCTGCTCATATGCAGTGTGTACATCTGGTTCCGTTATTTGCTGCCGTTCCTGTCATAA	MSTVLAILIFTASYILIMTEKLNRALVAVAGGVLLLMTKVYAWEEAFGFIDWETVALLFSMMVLVSITKKTGIFSFMAVRLVQLVQGRPVPLLIVTGIFTAVGSAFLDNVTTVLLFVPVLLSLIDQLKLPAFPYLITTIFSSNIGGTATLIGDPPNIMIGQAVEHFSFVSFMYHLGPVVIVIFVVMMAGMILLYRKRLVYDEALARRLMERNAKADLKVTPLLFQSVGVLLLTITGFMMHPFIHMDITTIAVSGALLLLFLSEKELDVEHVFQEVEWVTLFFFMGLFMLVGGLETVGVIDEMARGMVWLSGGDLPVTAMVMLWSAGILSGVVDNIPFVAAMIPVVQELQGYGMMNVDPVWWALALGACLGGNGTLVGASANVVVAGLAASHNKPIPFLKFSLYGFPVLLVSLLICSVYIWFRYLLPFLS				NA	NA	NA	NA	NA
AK012_01081	384			hypothetical protein	ATGAAGAAAATGATGCAGGGTGTGCTGGGCTACGGAATCGGATCCATCTTTATCCTGATGATTGTTTTTTCCGGGGTGCTGGCCGGCTTACTGAAGCTGACGGATATGGAATACGGCACGCTGAACCAGCTCGCATTAATCGTCGGAATCAGTATTCTGGCATTCGGGGGTGGAGCGGCCGCCTATAAAGGAGAACAGAAAGGATGGCTGGCCGGCGTTTTGACCGGGGCTGTATTTGTCGGGGCGATGGCCTTATTTCAAATCATTTTTGAAAATACAATGGTAACCCTGCCGCAGCTCAGCTATTTCGGAGGACTGGTCCTTGCAGCCTGGCTGGGCGGCATGATCGGGGTAAATCTGCCTAAAAAGACAGCAAAGCGGTAA	MKKMMQGVLGYGIGSIFILMIVFSGVLAGLLKLTDMEYGTLNQLALIVGISILAFGGGAAAYKGEQKGWLAGVLTGAVFVGAMALFQIIFENTMVTLPQLSYFGGLVLAAWLGGMIGVNLPKKTAKR				NA	NA	NA	NA	NA
AK012_01082	261	yajC	COG1862	Sec translocon accessory complex subunit YajC	ATGGAAACATTAGTAGGCCTGTTACCGATTATTCTAATGTTTGTCATTTTCTATTTCCTATTGATCCGTCCGCAGCAGAAGAAACAGAAACAAGTGCAGCAGATGCAGTCGGATTTACAGAAAGGTGACAAGATCATTACTATCGGAGGCATGCACGGTACGATACATGCGATCGATGAAGGTACGCTTATCATCAGCGTACAGGATGGAACGCAGATGAAGTTCGACCGTTCCTCCATCCGTGAAAAAGCCAGCGAATAA	METLVGLLPIILMFVIFYFLLIRPQQKKQKQVQQMQSDLQKGDKIITIGGMHGTIHAIDEGTLIISVQDGTQMKFDRSSIREKASE	PGPT0025730_3930	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025730-yajC-K03210	NA	NA
AK012_01083	1137	tgt		Queuine tRNA-ribosyltransferase	ATGGCAATCACATATGAATTAATCAAAACTTGTAAGCAGACAGGGGCGCGTCTCGGAAAAGTCCATACACCCCACGGCTCTTTCGAAACACCGATGTTCATGCCTGTCGGTACTCTTGCTACCGTAAAGACGATGAGTCCCGAGGAACTGGAACGGATGGGTGCTCAGATCATCCTTTCCAATACGTACCATCTGTGGCTCCGCCCCGGGGAGGATATCGTAGAGGAAGCCGGCGGCCTTCATAAATTTATGAATTGGAACGGTTCCATTCTAACGGATTCCGGTGGATTCCAGGTGTTCAGTTTGAGCGATCTTCGTCAAATCGAAGAGGAAGGGGTACACTTCCGCAACCACATCAGTGGAGAGAAGCTGTTCCTCTCCCCGGAAAAAGCGATGCATATCCAAAACTCTCTCGGTGCGGATATTATGATGGCCTTTGATGAGTGCCCGCCTTATCCCGCTGAACATAAATATATGAAGGACTCTGTGGAGCGGACGAGCCGCTGGGCAGAGAGGTGCCTGGAAGCTCATCAGCGCCCTCATGATCAAGGATTGTTTGGGATCATCCAAGGCGGGGAGTATGAAGACCTTCGTCAGCAGAGTGCCCGTGATCTGACATCCATGGACTTTCCGGGATATGCCATTGGAGGCTTGTCTGTAGGAGAGCCGAAAGACGTGATGAACCGCGTGCTCGATTTCACGACACCGCTTCTTCCGGATCAAAAGCCCCGCTATTTGATGGGCGTCGGTTCACCGGATTCCCTCATCGATGGAAGCATCCGCGGCATTGATATGTTTGACTGTGTCCTGCCTACCCGGATTGCGAGAAATGGAACATTGATGACCTCCCAGGGCCGTCTCGTTGTGCGCAATGCGAAATATGCCCGCGATTTCCGCCCGATTGATGAGAACTGTGACTGCCATACGTGCCGGAATTACAGCCGCGCGTACATCCGTCACTTAGTCAAATCCAACGAAACATTCGGTTTTAGACTTACGACTTATCATAATCTTTATTTTCTGTTAAACTTAATGAGGCAAGTGCGTGAAGCCATTAGAGAAGATCGACTCGGTGATTTTAGAGAAGAATTCTTTGAACAATATGGTTTCAATAAACCAAATGCGAAGAACTTTTAG	MAITYELIKTCKQTGARLGKVHTPHGSFETPMFMPVGTLATVKTMSPEELERMGAQIILSNTYHLWLRPGEDIVEEAGGLHKFMNWNGSILTDSGGFQVFSLSDLRQIEEEGVHFRNHISGEKLFLSPEKAMHIQNSLGADIMMAFDECPPYPAEHKYMKDSVERTSRWAERCLEAHQRPHDQGLFGIIQGGEYEDLRQQSARDLTSMDFPGYAIGGLSVGEPKDVMNRVLDFTTPLLPDQKPRYLMGVGSPDSLIDGSIRGIDMFDCVLPTRIARNGTLMTSQGRLVVRNAKYARDFRPIDENCDCHTCRNYSRAYIRHLVKSNETFGFRLTTYHNLYFLLNLMRQVREAIREDRLGDFREEFFEQYGFNKPNAKNF	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
AK012_01084	1026	queA	COG0809	S-adenosylmethionine:tRNA ribosyltransferase-isomerase	ATGGATATTAAGCAGTATGATTTTGATCTGCCGGAAGAGCTGATTGCACAGGTTCCGCTTGAGGACCGTTCCTCTTCCAGATTGATGGTCTGCGACCGCAGCACAGAAAACATCGAGCACAAGCACTTTGCAGATATTACGGAAGACTTAAATCCCGGCGACTGTCTTGTATTGAATGACACACGCGTCCTTCCGGCCCGGTTGTTCGGAGCGAAGGAAGGAAGCGGCGGGAAAGTAGAAGTTCTTCTTCTGCATCAGACAGAAGAGGATGAATGGGAAGTCCTTGTAAAACCGGCTAAAAAGGTGAAGGAAGGAACGAAAATCATCTTCGGCGACGGAAAGCTTACGGCTGAATGTACGGAAATTCAGGAGCATGGTGGACGGAAGGTGAAATTCAGCTACGAGGGAATTTTCCTTGAAGTCCTTGAATCTCTAGGGGAAATGCCGCTGCCTCCATACATCAAGGAGCAGCTGTCCGACAGAGAACGGTACCAGACGGTCTATGCGAAAGAAGAAGGCTCAGCGGCAGCACCGACCGCAGGTCTGCACTTTACGAATACGCTTTTAGAGGAGCTTCAGGAAAAAGGTGTGGAACTTGCCTACCTGACCCTCCACGTTGGTCTTGGGACATTCCGTCCGGTGAGCGTGGATAACATTGAAGAGCATGATATGCATGCGGAATTTTATCAGCTCAGCGGTGAAACCGCCGATCAGCTGAACCGGGTTCGTGAAAACGGTGGAAGAATTATCTCTGTGGGAACAACGTCCACCCGTACTCTGGAGACGATCATGAGAGACTACGGAACGTTTACAGAGGCGAGTGGATGGACGGATATCTTTATTTATCCTCCTCAGAAGCTGCAGGCCATCGACGGATTGATTACGAACTTCCACCTTCCAAAATCGACGCTCATCATGCTTGTCAGTGCATTTGCCGGGCGTGACTTCGTTATGGAAGCCTATCACCGTGCTGTAGAGGAGCGTTACCGTTTCTTCAGCTTCGGGGATGCTATGTTTATTAAATGA	MDIKQYDFDLPEELIAQVPLEDRSSSRLMVCDRSTENIEHKHFADITEDLNPGDCLVLNDTRVLPARLFGAKEGSGGKVEVLLLHQTEEDEWEVLVKPAKKVKEGTKIIFGDGKLTAECTEIQEHGGRKVKFSYEGIFLEVLESLGEMPLPPYIKEQLSDRERYQTVYAKEEGSAAAPTAGLHFTNTLLEELQEKGVELAYLTLHVGLGTFRPVSVDNIEEHDMHAEFYQLSGETADQLNRVRENGGRIISVGTTSTRTLETIMRDYGTFTEASGWTDIFIYPPQKLQAIDGLITNFHLPKSTLIMLVSAFAGRDFVMEAYHRAVEERYRFFSFGDAMFIK	PGPT0023660_3925	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023660-queA-K07568	NA	NA
AK012_01085	198			hypothetical protein	TTGACGGGGTTTGGCAGAATCTTTATTGTTATAGGGATTGTGTTTATTGTCATAGGAATCGCGTGGAGTCTGTTCGGCAGACTCCCTGGTGACTTTTCTTTTAAAAAAGGAAATGTCACATTTTATTTTCCAATCATGACCTCGATTATCGCCAGTATTGTTTTGTCTTTGATTTTTTACTTAATTCGGAGATTCTAG	MTGFGRIFIVIGIVFIVIGIAWSLFGRLPGDFSFKKGNVTFYFPIMTSIIASIVLSLIFYLIRRF				NA	NA	NA	NA	NA
AK012_01086	1002	ruvB_2	COG2255	Holliday junction ATP-dependent DNA helicase RuvB	ATGGATGACCGGATGATATCCGGCGAGCAGCAGCAGGCCGATCAGGATCTTGAGCTTAGTCTGAGGCCGGAACGGTTGAGCCAGTACATCGGACAGGATCAGGTGAAGAACAACTTGAGCATCTTTATCGAAGCAGCGAAGATGCGGGAAGAGCCGCTTGACCATGCCCTGCTGTATGGTCCGCCCGGGCTGGGGAAAACGACGCTGGCTTCGATTATCGCCAATGAAATGGGCGTCCAGTTCAGAACTACGGCGGGACCTGCAATTGAACGTGCGGGGGATTTGGCGGCGATTTTATCCTCTCTCGAACCCGGGGATGTTCTTTTCATCGATGAAATCCACCGGCTTCCCCGTTCCGTGGAGGAAGTGCTTTATCCGGCGATGGAGGATTTCTGTCTTGATATAGTCGTCGGGACAGGTCCGAGTGCAAGGTCTGTCCGTCTTGACCTCCCTCCCTTTACGCTTGTCGGTGCAACGACAAGGGCGGGGCTTTTGTCCGCTCCGCTCCGGGACCGTTTTGGTGTGCACAGCCGTCTGGAGTACTATGATACGAAAGCACTCTGCTCCATTGTCGAGCGGACGGCGGAAATCTTTTCCGTATCGATCGAAAAGGACGCAGCTGTCGAAGTGGCCCGCCGTTCACGCGGGACCCCGCGGATAGCCAACCGGCTCTTGAAACGGGTCCGGGACATTGCGCAGGTTAAAGGGGAAACCGTCATCTCCAAGGCGACCACACAGGAAGCGCTGAGGATGCTGCAGGTGGACGCCGAAGGTCTTGATTTTATTGATCATAAATTATTAATGGGGATTATGGACAGCTTTCAAGGCGGTCCTGTAGGGCTGGACACGATTGCAGCGACGATCGGCGAGGAATCGCAGACCATTGAAGATGTGTATGAGCCGTATCTGCTGCAGATCGGATATATTCAGCGTACACCGCGCGGACGGGTCGTGACCCCGAAAGCTTATGCCCATTTCAGCAGGGAGGTGCCCGGCTCTTGA	MDDRMISGEQQQADQDLELSLRPERLSQYIGQDQVKNNLSIFIEAAKMREEPLDHALLYGPPGLGKTTLASIIANEMGVQFRTTAGPAIERAGDLAAILSSLEPGDVLFIDEIHRLPRSVEEVLYPAMEDFCLDIVVGTGPSARSVRLDLPPFTLVGATTRAGLLSAPLRDRFGVHSRLEYYDTKALCSIVERTAEIFSVSIEKDAAVEVARRSRGTPRIANRLLKRVRDIAQVKGETVISKATTQEALRMLQVDAEGLDFIDHKLLMGIMDSFQGGPVGLDTIAATIGEESQTIEDVYEPYLLQIGYIQRTPRGRVVTPKAYAHFSREVPGS				NA	NA	NA	NA	NA
AK012_01087	618	ruvA	COG0632	Holliday junction ATP-dependent DNA helicase RuvA	ATGATTAGTTATATCAAAGGCCAGCTGACGACGCTTGAAGAAGGGTCGATCACGATAGAAGTAAGCGGGATCGGTTATGAGATTTTATGTGCCAATCCCTTTCATTTTGAAGCACAGATGAATCAAGAAGTGAAAGTACATACGTACCACTACATTCGCGAAGACAACCAATCCCTATATGGATTTAAGAAAAAGGAAGATAAACAGCTGTTCGGGCAGCTTCTCAACGTATCCGGAATCGGCCCGAAAGGAGCGCTGGCCATCCTCGGGACGGTCAGTGTACCGGAATTTGTATCCGCAATTGAGCAGGAAGACGAAAAATACCTGACTAAATTCCCCGGTGTCGGTAAAAAGACGGCCCGCCAGATGATCCTTGATTTGAAAGGCAAGCTGATCGTATGGCTTCCGGATGAGCAGAACGAAGAAACCTTGTTCTACCAGGAAGATCTGACCTCCCGTGAAAAACGGGAGCTGATCGATGACGCCATTGAAGCCTTGAAGGCACTTGGATATACCGAGAAGGAAGTGAAGATGGTCCGCACGCAGCTTGAGAAGTCCAAGCAGGGAACCGTGGATGATTACGTAAGACAAGGACTTCAAATGTTGATGAAATCCTAA	MISYIKGQLTTLEEGSITIEVSGIGYEILCANPFHFEAQMNQEVKVHTYHYIREDNQSLYGFKKKEDKQLFGQLLNVSGIGPKGALAILGTVSVPEFVSAIEQEDEKYLTKFPGVGKKTARQMILDLKGKLIVWLPDEQNEETLFYQEDLTSREKRELIDDAIEALKALGYTEKEVKMVRTQLEKSKQGTVDDYVRQGLQMLMKS				NA	NA	NA	NA	NA
AK012_01088	570			hypothetical protein	GTGAAAGCTGCAGCGTATAGGATTACCGGCTGGCTTCTGATATGTATGGTTCTTGCTTCCTGTTCTCCCGCCGTACTGGAAGGGCAAGACCACAGCTTGATGAGAAGTGTAGAGAAAACGGAAAAAGAGCCCTCAGAAGCAAGTGTTGAAACGCTTGTCCAGGCTGAGCCTTTGGAATTGACGATTGTTATGAAGGAGCACTACCTCGATGGAGTGGTGGAAACGACGACGAAACAGGAGACGATCTGGTCGATGATGGACTTCTGGGCTTCTTATGAGGGCTGGAGAATTGAGAATCAGGAGCTGGATCGCATTGTTTTTCAACGGCAGGTGGAAGACATCTCTCCGTTGACCAAACAGCATGGATACTTTGGGTTGAATGAGAACGGAGAACTGGCCGTTTTTCAAGGGATTCCCAATGAAGGAAAAGTGATGGAGTCGTTCAAACCGATTCCTGTGAAACCGTTGGAATCGAAACGCATCGATGTGTTGAAAGATGGCATTAAGATTAAGGACTCTGCCCATTTTGAGCAGGTTGTCCATCAGTATGCCGGAGAAAAACAGATGTAA	MKAAAYRITGWLLICMVLASCSPAVLEGQDHSLMRSVEKTEKEPSEASVETLVQAEPLELTIVMKEHYLDGVVETTTKQETIWSMMDFWASYEGWRIENQELDRIVFQRQVEDISPLTKQHGYFGLNENGELAVFQGIPNEGKVMESFKPIPVKPLESKRIDVLKDGIKIKDSAHFEQVVHQYAGEKQM	PGPT0014765_65	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014765-bofC-K06318	NA	NA
AK012_01089	753	yebC	COG0217	putative transcriptional regulatory protein YebC	ATGGCCGGCCATTCAAAATGGAGTAATATTAAGCATCGTAAAGGGGCCCAGGATGCAAAACGGGGAAAGCTCTTTATGAAACTGGCCCGTGAAATTTTCATGGCTGCTAAACAGGGCGGAGGGGACGAGGAAACCAACCCTGCGCTCCGAATCGCTGCCGATAAGGCCCGATCCAACAATATGCCGAAAGATAACATTGAAAGAGCCGTGAAAAAGGCGACAGGTGATCTGGAAGGCGTCAACTATGAAGAGTTTACGTATGAAGGATACGGCCCTGGAGGCGTTGCGGTTATGGTCAAAGTCCTGACGGATAATAAAAACCGTACCGCGGGGGAAGTGCGTCATGCCTTCAGCAAAAATGACGGCAACCTTGGTGAAAACGGCTGTGTCGCCTTTATGTTCAACCGTTCCGGCTATCTCGTCATTGATCGTTCCACGACGGATGCAGATGAAGAGGAAATGATGCTGGAAGTGATTGAAGCGGGTGCTGAGGAAATGGAAACGACGGAAGAGAGCTTTGAAATTTATACAGAGCCTGAAACCTTCTCTGATGTGAAAGCTTCGCTGGAAGAAAGCGGTTATGCGTTTTCTACAAGTGAAGTGACGATGATTCCTGAGACGTATACCGAGCTTGAAGAAGAGGGCGTAGAGAAAATGCTGAAGCTGATTGATATGCTGGAGGACAACGACGATGTCCAGGAAGTGTATCACAATCTCGATGCGGATGAAGCGGTTCTCGAAAAATTGTCCTGA	MAGHSKWSNIKHRKGAQDAKRGKLFMKLAREIFMAAKQGGGDEETNPALRIAADKARSNNMPKDNIERAVKKATGDLEGVNYEEFTYEGYGPGGVAVMVKVLTDNKNRTAGEVRHAFSKNDGNLGENGCVAFMFNRSGYLVIDRSTTDADEEEMMLEVIEAGAEEMETTEESFEIYTEPETFSDVKASLEESGYAFSTSEVTMIPETYTELEEEGVEKMLKLIDMLEDNDDVQEVYHNLDADEAVLEKLS				NA	NA	NA	NA	NA
AK012_01090	555			hypothetical protein	ATGTGGAAAATTATTGGAGTGTTGACTGCCGTCTGTGTGTTGAGTGCGTGTCAATCGGAGGAAGCCCTGGAACCCGGGACGTCCTCTGGTGAAATATATGAGCCGATCAGCTATGGTGAAGTAGAGGACCCGGAAAGGCGTGGACAGATTCCGACCGGCAAGGACAGCTATTTCAAGCGGACAGCAGAGAAGGATTTCCGTAACGCCCGGTATGGGGAGACGAACCGGTCGCATGATAATGATTTCAGTAATGAAGATGCCATGGCCGTCGTAGAGAAGATTCATGAAATAAAGGAAGTGACGATGGCCCAGGCCTATTCTACAGATGAAGATATGTATATCGCCGTGATGATTAATCCGACGGATCGGAGAGATACCGATGTAACGGAAAAAATCAAAAAGAAAGCCGGGGAATTGACGGATAAGAAGCTGACGATTTATACGAATAATAACAACTGGGACCATATGAAGGATTTGAACGCCCGTTTGAATGCTGCAGAAGCACCGGACCGTGTGAAAAAGCGGATTCGTGAGTTCTTCCGTCCTGAGGAGTAA	MWKIIGVLTAVCVLSACQSEEALEPGTSSGEIYEPISYGEVEDPERRGQIPTGKDSYFKRTAEKDFRNARYGETNRSHDNDFSNEDAMAVVEKIHEIKEVTMAQAYSTDEDMYIAVMINPTDRRDTDVTEKIKKKAGELTDKKLTIYTNNNNWDHMKDLNARLNAAEAPDRVKKRIREFFRPEE				NA	NA	NA	NA	NA
AK012_01091	777	nadE_1	COG0171	NH(3)-dependent NAD(+) synthetase	ATGATTAGTTATCATATGTGTGAAAGGATGAACAATCCGGTGGAAGAAAAAGTACAGCAGATAACAGCGTGGCTTCAGGAAAAAGTGAAAGAAGCCCATGTAGACGGTCTCCTTGTCGGAGTCAGCGGCGGCATTGATTCCGCAGTCGTAGCCAATTTAATTAAAAGAGCATTTCCTGACAGATCCCTGGGTGTGATTATGCCCTGCAAGAGCCAATCGGAAGATCAGGAACATGCCCGGCTTGTAGTAGAAGCCTGTGACCTCCCTGCCTTGACGGTGGATTTGACGGAGACGCATAACGTGATGTTCACAAATATTCAAACCCAGCTCGAATCAGCCGGCCAATTGAATGAAGATCAGTTGAAACTTGCGGATGCCAACCTGAGAGCGAGACTTCGCATGAGCACCCTTTATACGATTGCCACGAACCATAAATACCTTGTAGTGGGGACAGATAACGCTGCTGAATGGTATACCGGTTACTTCACGAAATTTGGTGACGGCGGTGTTGACCTTGTACCGCTTGCAAATTTGACCAAAGGTGAAGTGAGGGAAATGGCTGAATACTTAGGTGTACCGGATGAAGTCGTTCATAAACAGCCGAGTGCCGGTCTTTGGGAAGGTCAGACAGACGAAAATGAAATGGGCACTAGTTATGCTATGATTGATCGTCATCTTAAAGGCGAGGAAATCCCTGAAGAGGACCGTCAGATCATCGAGGCGATGCATAAGCGGTCCGCCCATAAGCGCCAGCTTCCTCCTGCACCCCCGCAGTAA	MISYHMCERMNNPVEEKVQQITAWLQEKVKEAHVDGLLVGVSGGIDSAVVANLIKRAFPDRSLGVIMPCKSQSEDQEHARLVVEACDLPALTVDLTETHNVMFTNIQTQLESAGQLNEDQLKLADANLRARLRMSTLYTIATNHKYLVVGTDNAAEWYTGYFTKFGDGGVDLVPLANLTKGEVREMAEYLGVPDEVVHKQPSAGLWEGQTDENEMGTSYAMIDRHLKGEEIPEEDRQIIEAMHKRSAHKRQLPPAPPQ	PGPT0013445_3209	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
AK012_01092	960			hypothetical protein	ATGAAAGCTGAATATAAAAAGGGCGATTCATACACGGATCGCCTTTTTCATTGGATACAAAAAGAGGAGAACCTTCCTGTCATTTACGAACGGATCATTAAACCGAAAGTGTATAAAGTTTCATTTGCAGGCAGGCCGATGATTTTAAAGGGTTATCGGCGGCTCCACGTCATCCAGCAGCAGATCGACTTTTTTGAACACTGGAATTACGCCTCGCGGACAGCGGCCCGTCCGGTGCCGTTCCGTCCGGGGACATTTACTCTGGGGAAACTGGGCTGTGACTGGGCGTTGTTCGAAAGAATGGAAGGAAGACATGCGGACTTTGACCGGCATCAGGACCGAAAGAAAGCGGTCCGTATTCTGCATCAGTTCCACCGGACCACAAAGGGCATTGCGGTTCTGTCGATTCCGAAGGATCCGTTGTATGTGAAGTGGGAGCGGAGGTTGGAACAGTTTTTGGAAACGAAAGATGTGTTTACGGATTTGGGCAGGCGTCAGATGTTTCAGGATATTTCCTCTTTGGTCGAGCGGAGACTGGAGGCTTTTGCCGCCTGTCCGTGGGGGGAAATAGAAGAACGTGCATGGGACAGTCATGAATGGCTGCACGGAGATGTCGCCCATCACAATTTCATTGTCACCCGTGATCAATCCATCCGGATGATTGATTTTGATCTGCTTCATACCGGTCCGCGTGTATATGACCATATTCAACTGGCCCAGCGTTTTCTTCCACATGTGGAGTCCGAGCGCTCCACATTGGTCCAATATTTTCCACATGTAAAGGAACGGGATATCTGGTGGAAAGGTGTTCTTGTTCCCTCTGATCTTCTGCGGGAATGGCTGTACGGCTATAGGAGCTGTCTGCGGGAGGAAAGCTCCTTTACCCGGCAGATGAGAAAACTGGAAAAAGCGTGGGAGAGCCGGAAGAAGTTTGTCCGATATGCAGAACATATGCTATGA	MKAEYKKGDSYTDRLFHWIQKEENLPVIYERIIKPKVYKVSFAGRPMILKGYRRLHVIQQQIDFFEHWNYASRTAARPVPFRPGTFTLGKLGCDWALFERMEGRHADFDRHQDRKKAVRILHQFHRTTKGIAVLSIPKDPLYVKWERRLEQFLETKDVFTDLGRRQMFQDISSLVERRLEAFAACPWGEIEERAWDSHEWLHGDVAHHNFIVTRDQSIRMIDFDLLHTGPRVYDHIQLAQRFLPHVESERSTLVQYFPHVKERDIWWKGVLVPSDLLREWLYGYRSCLREESSFTRQMRKLEKAWESRKKFVRYAEHML				NA	NA	NA	NA	NA
AK012_01093	1020			hypothetical protein	GTGAGAATTCACATTGTACAAAAAGGAGATACACTCTGGAACATAGCCAAGAAATATGGGGTGGACTTTGAGGAGTTAAAATCCGTAAATACCCAGCTTTCCAATCCTGATATGATTATGCCGGGTATGAAAATCAAAGTCCCTCAAGGTACAAAGTCTGTGAAGAAGGAAGCACCAAAAGCTCAGGCTCCCGCAAAGGAAATGCCTGCAGCCCCTAAGGAAAAGGCAAAGCCGATACCTTCCATTAAGGAAGATGAAAAGAAGCCGGCTCCTAAAGGTGTGAAGGAAAAACCGATGCAGCCCATGCAGCCTATGCAGCCGATCCACATGAATATGCCGATCACCATGCCGAGTATTGATCAGCAGATGCAGAATTATTATACAACCTTCCATCTGCCTCAAATGCCGGGACCGAAACCGGAAGAGTCACCAGAGTCTCCGGAGTCACCAAAAGAGGAAGTAAAAGGAGAGCAGTATCAGCCGATGCAGCAGCCCTACTGCCCTCCGATGCAGCCTCAGCTGGTGCATACGGATTACTACTGCTGTCCTCCTTATCCGGTTATGATGCCGATGCCATACGGCGGGATGCCTCACCACATGCAGCAGCCGATGCCGTATCCAACGAACCAGCCCATGTACGGTGATGATTTTGAGTCGGACGATGAAATGGTACAGGGAGCCCAATCGGAGGAGGACTGCGGGTGTGACGGAGGCTCTCCGGAAGGATATGGCCCGGGGTACGGCGGATATCATCCCGGTCATCACCCACACCCCCCTCACCCTCAGCATCCATGGCAGCAGATGCCTTATGGAGGCATGCATCAGCCGGGGGGATGGGGACATCCGTATCCGCAGCAGCCCCAGTACTCCCAGCAGCCCCAGTATCCTCAACAGGGATGGGGCCATCAGCAGCCCTATCAAGGATGGGGACCGCATCCGCAGATGGGACCATGGAACCCTCAACAGGGCGGTCAGGGGATGCCGCATTCCTGGAGAGACGATGATGTAGATGAAAGCTGA	MRIHIVQKGDTLWNIAKKYGVDFEELKSVNTQLSNPDMIMPGMKIKVPQGTKSVKKEAPKAQAPAKEMPAAPKEKAKPIPSIKEDEKKPAPKGVKEKPMQPMQPMQPIHMNMPITMPSIDQQMQNYYTTFHLPQMPGPKPEESPESPESPKEEVKGEQYQPMQQPYCPPMQPQLVHTDYYCCPPYPVMMPMPYGGMPHHMQQPMPYPTNQPMYGDDFESDDEMVQGAQSEEDCGCDGGSPEGYGPGYGGYHPGHHPHPPHPQHPWQQMPYGGMHQPGGWGHPYPQQPQYSQQPQYPQQGWGHQQPYQGWGPHPQMGPWNPQQGGQGMPHSWRDDDVDES				NA	NA	NA	NA	NA
AK012_01094	876	pheA		Bifunctional chorismate mutase/prephenate dehydratase	ATGTCGGAACAGCAGATCGGGTACTTGGGACCCAGGGGGACGTTTACAAAAATGGCGGTGGATGCATTATTTGATGGCGGGTCATTTATCGCTTACGAGAGCATTCCCGCCTGTCTGGATGCGGTGGAGCGTGGCGAAATAGGAACAGCCGTTGTTCCACTTGAAAATGCTATTGAAGGCTCTGTCCATTTGACGATTGATTATTTAGCTCATCAGGTGGATCAGTCTATTATTGCTGAAATGACCGTTCCTATTAAGCAGCATTTACTTGTTCATCCAGCCAGGAATGGGGAAGAGATCCGGAAGGTATATTCCCACAGCCATGCGATTGCGCAGTGTCATGAATACCTTCACAAACACTATCCGAACGCTGAAATTGAATATACAGCCTCAACGGCTAAAGCAGCCGAGCTTGTGGCAGCTGAGCGTGACGGAGTGGCGGCTATTGCGAACCATCTCGCGGCTGAAGGAAATGGACTGACGTTCCTGGATACGGACATTCACGATTATGATAATAATCATACACGGTTTGCTGTCGTTCAGAAGGCGGCACAGACATTGAAAGTGAAGGACCATCCTGTGAGTAAGCATAAGACGACCGTGATGGTGACGCTGCCCAAGGATTACGTCGGTGCCCTGCATCAGGTCCTCGCAGCTTTTGCCTGGAGGAAGATGAACTTATCAAAAATTGAGTCAAGACCGATGAAAACGGGTCTTGGCAACTACTTTTTCCTAATAGATGTAGATCAGCCTTATGATCAAGTGCTGTTCCCTGGTGTCCAGGCGGAACTGGAAGCTCTGGGCTGTCGGTTGAAGGTAATTGGAACGTATCCAAGCTACCAGATCGACATCCCGGCCCCTGTCCATGAAGCCTGA	MSEQQIGYLGPRGTFTKMAVDALFDGGSFIAYESIPACLDAVERGEIGTAVVPLENAIEGSVHLTIDYLAHQVDQSIIAEMTVPIKQHLLVHPARNGEEIRKVYSHSHAIAQCHEYLHKHYPNAEIEYTASTAKAAELVAAERDGVAAIANHLAAEGNGLTFLDTDIHDYDNNHTRFAVVQKAAQTLKVKDHPVSKHKTTVMVTLPKDYVGALHQVLAAFAWRKMNLSKIESRPMKTGLGNYFFLIDVDQPYDQVLFPGVQAELEALGCRLKVIGTYPSYQIDIPAPVHEA				NA	NA	NA	NA	NA
AK012_01095	450			hypothetical protein	ATGGCGGATTATAACGAAACGTTTTATTTAGTCCGTAGTGATATTCTCCCTGAAGCGATGATGAAGACGATTGAGGCGAAAGAGCTGCTGGAACGGGGAAAAGTCGGCTCGATTTATGAAGCGGTCAAGCATGTGGGATTATCCCGCAGTGCGTTTTATAAATACCGGGATGCGGTTTTTCCTTTTCAGGCCATGGTAAAAGAACAGATAATCACTCTTTTCTTCCATTTAGAAGACCGGAGCGGGACATTGTCAAACTTATTGATGACGGTGGCGGAATCAGGATGCAACGTGCTGACCATCCACCAGACGATCCCCCTTCAGGGCAAGGCCAATGTGACTCTCTCCTTAAATACGTCAGGAATGAAGGAAAGCATCGAGAAATTGTTACAACAGCTCCATAAACTCGATTTTGTCGATCGTGTTGAAATTTTAAGTTCAGGAGCTTAA	MADYNETFYLVRSDILPEAMMKTIEAKELLERGKVGSIYEAVKHVGLSRSAFYKYRDAVFPFQAMVKEQIITLFFHLEDRSGTLSNLLMTVAESGCNVLTIHQTIPLQGKANVTLSLNTSGMKESIEKLLQQLHKLDFVDRVEILSSGA				NA	NA	NA	NA	NA
AK012_01096	1284	obg	COG0536	GTPase Obg	ATGTTTGTCGATCAGGTTAAAGTATTTGTAAAAGGTGGAGATGGCGGAAATGGTCTTGTCGCCTACCGTCGTGAAAAATATGTACCAAAAGGAGGCCCTGCCGGCGGAGACGGTGGTAACGGAGGGGACGTTGTCTTCGAAGTGGATGAGGGCTTGAACACTCTCATGGACTTCCGGTACCAGCACCATTTTAAAGCGGTGCGTGGGCAGAATGGTATGAACCAGAAGCAGCACGGAAAAAATGCCGAGCCGCTGGTCATCAGCGTACCACCGGGGACAACTGTGAAAAACGCAGACTCTGATAAAGTGATAGCCGATTTGACGGAACACAAGCAGAGAGCGGTCATTGCTAAAGGTGGACGCGGAGGACGCGGAAATGCCCGGTTTGCGAACCCGAGAAACCCGGCACCTGAAATTGCCGAAAACGGTGAGCCGGGGGAAGAACTGGATGTTGTTGTCGAATTGAAGCTGCTTGCTGATGTCGGTCTTGTCGGTTTTCCGAGTGTCGGAAAGTCTACATTTCTTTCGGTCGTCACGGCTGCACGCCCGAAAATTGCCGACTATCATTTTACGACCCTGGCGCCCAATTTAGGCGTCGTGGAAAGTCAGGACCACAGAAGCTTCGTGATGGCGGATCTTCCCGGACTGATTGAAGGGGCCCATGAAGGAGTCGGACTCGGGCATCAATTCCTGCGTCACGTAGAGCGCACGCGGCTGCTTCTTCACGTGATTGACATGTCTGCTATGGAGGGCCGTGATCCTTATGAGGATTATGTAACGATTAACCAGGAATTATCCTCCTATGATGATCGACTGAAAAATCGTCCGCAGCTCATTGTCGCGAATAAAATGGATATGCCTGGAGCAGAAGATAACCTGGAGCTTTTCAAAGAGCAGCTTGGGGATCAGGAGGTCGACATCTATCCAATTTCCACTGTGACGCGTGACGGCCTTGATGAACTGCTTTATGCGGTGGCTGATAAGCTTGATCAAATGCCGAAGCAGGAAGAGGAACTGGAAGAAGTCGACGAGCGCGTCCTTTATAAATTTGAAAAAGAAGAAGCGCCATTTAAAGTGACACGGGCCGATGATGGTGCATACGTGTTATATGGAGAGAAAATCGAATCCTTGTTCAGACGGACAGACTTCTCGAGGGATCAGTCCATCAACCGTTTTGCCCGTCAGATGCGGAGCATGGGCGTGGACGAAGCCCTTAGAAAACGAGGAGCCAAAGATGGCGATACGGTAAGACTCATGGATTATGAATTCGAATTTGTTGATTAA	MFVDQVKVFVKGGDGGNGLVAYRREKYVPKGGPAGGDGGNGGDVVFEVDEGLNTLMDFRYQHHFKAVRGQNGMNQKQHGKNAEPLVISVPPGTTVKNADSDKVIADLTEHKQRAVIAKGGRGGRGNARFANPRNPAPEIAENGEPGEELDVVVELKLLADVGLVGFPSVGKSTFLSVVTAARPKIADYHFTTLAPNLGVVESQDHRSFVMADLPGLIEGAHEGVGLGHQFLRHVERTRLLLHVIDMSAMEGRDPYEDYVTINQELSSYDDRLKNRPQLIVANKMDMPGAEDNLELFKEQLGDQEVDIYPISTVTRDGLDELLYAVADKLDQMPKQEEELEEVDERVLYKFEKEEAPFKVTRADDGAYVLYGEKIESLFRRTDFSRDQSINRFARQMRSMGVDEALRKRGAKDGDTVRLMDYEFEFVD				NA	NA	NA	NA	NA
AK012_01097	516	spo0B		Sporulation initiation phosphotransferase B	ATGGAAGAGAAAGAGATCATCGGACTGCTTAGACATAAGCGTCATGACTGGATGAATCAAATTCAATTGATTCAAGGATATGCTTCGCTTGGGAAGCATGATCGTCTGATGGATCTGCTGGATACTGTGAAGGCAGAATCGGAGGAAGAGCGCAAACTGTTAAATGCAGAAGCATCGGCCTTCCCGCTGTGGCTTCTTACGTTTAACTGGATCTATGCATCGTTCCGCCTCACCTATTCGCTGGAGCAGGGGCTTGATTTATCCAGTCATGATCAGACACTGACTGCTTATGGCAGGCGGTTGATGGAAATAATGGAAAAGCATAAGGATGCCGATGAACTCTATGAAGGGACTGTGACGCTTTATCGTGGAGGTCAGGGGGCACTCGGATTAAGCTGGGAATGGGATGGACGCTTTCCGGACCCTGATCCGATGCTGAAGGCCCTTCAGGAAGAAGGGTTTATCGCTTCCATCTATGACAGGAAAGAACTTTCTATTGAAATGACAATAGAATGA	MEEKEIIGLLRHKRHDWMNQIQLIQGYASLGKHDRLMDLLDTVKAESEEERKLLNAEASAFPLWLLTFNWIYASFRLTYSLEQGLDLSSHDQTLTAYGRRLMEIMEKHKDADELYEGTVTLYRGGQGALGLSWEWDGRFPDPDPMLKALQEEGFIASIYDRKELSIEMTIE	PGPT0024635_201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024635-spo0B-K06375	NA	NA
AK012_01098	291	rpmA	COG0211	50S ribosomal protein L27	ATGCTACGTCTTGATTTGCAGTTTTTCGCCCAGAAGAAGGGTGTAGGTAGTACAAAGAACGGTCGTGACTCTGAGTCCAAGCGTCTTGGAGCCAAACGCGCAGACGGACAGCACGCATCCGCTGGTTCTATCCTTTACCGCCAGCGCGGTACGAAAATCTATCCAGGAGCCAACGTTGGCCGTGGTGGAGATGACACATTGTTTGCGAAAGTGGACGGTGTTGTTAAGTTCGAACGTTACGGACGCAACCGTAAAAAAGTCAGCGTTTATCCTGTAGCACAGGAAGCGTAA	MLRLDLQFFAQKKGVGSTKNGRDSESKRLGAKRADGQHASAGSILYRQRGTKIYPGANVGRGGDDTLFAKVDGVVKFERYGRNRKKVSVYPVAQEA				NA	NA	NA	NA	NA
AK012_01099	330			hypothetical protein	ATGATTGAAGTATCCATGTTTCGCTCCCAGGGGAATATTACAGGCTTTGAAATTTCCGGTCATGCAGAAAGCGGGCCCTACGGCCATGACTTAGTCTGCGCCGCTGTGTCAGCTGTCTCATTCGGAACCGTCAATGCTATTGTAAGCCTCTGTGAATTCGAACCTCATGTTGTACAGGGAGGCGAGGGTGGTTATTTAAAAATCACACTGCCTGACAATCTGCAGGAGCCGGTAAAAACAAAAGCCCAGACGCTTTTGGAAGGCATGCAGGTTTCCTTACAAACGATTGAACAAGATTACGATCAATATATTCATATATCCCAACGATAA	MIEVSMFRSQGNITGFEISGHAESGPYGHDLVCAAVSAVSFGTVNAIVSLCEFEPHVVQGGEGGYLKITLPDNLQEPVKTKAQTLLEGMQVSLQTIEQDYDQYIHISQR				NA	NA	NA	NA	NA
AK012_01100	309	rplU	COG0261	50S ribosomal protein L21	ATGTACGCAATTATTGAAACTGGTGGTAAGCAGGTTAAAGTTGAACAGGGCCAGGAAATCTACGTTGAGAAAATGGACGTGGAAGCTGGTGAGACTGTCACTTTTGACAAAGTTCTATTCGTAGGTGGAGACGATACAAAAGTTGGTGCTCCTTACGTAGATGGTGCTTCTGTAACAGCTAAAGTTGAAAAACAAGGCCTACAGAAGAAATTGACTGTCTTCAAATACAAGCCTAAAAAGAACTACAAGCGCAAGCAGGGTCACCGTCAGCCGTACACGAAACTTATCGTTGATGAAATCAACGCGTAA	MYAIIETGGKQVKVEQGQEIYVEKMDVEAGETVTFDKVLFVGGDDTKVGAPYVDGASVTAKVEKQGLQKKLTVFKYKPKKNYKRKQGHRQPYTKLIVDEINA				NA	NA	NA	NA	NA
AK012_01102	1425	rng	COG1530	Ribonuclease G	ATGCGAACGTTTATCATACAGACAAAAACGGCAGAACGAACCGGCCTGCTGCTGGAAGAAGGAAAGGTTCAGGAATATAAAATCGACAGGCCCGGAGCGCGGACGCTCACGGGCTCTATTTACTGTGGAGTGATTGCCCGGGTGGATCATGGACTGCAGGCCGCCTTTGTCGATATCGGTTTAGAGAAACAAGCGTTCCTCCGGGGAAATTCCATCCCCTGGGGAAGCGGAAGAATCGAGGAGAAAGTGAAGGTCGGAGAGCGGCTGTTCGTCCAGGTGGAGAAGGACCCGGAGGGCGTCAAAGGAGCAAAAGTAACGGCAGACCTTACACTGGCGGGGGTGAATATGGTTTACCGGCCCTATGGCGGAGAGACAGCCCTTTCAAAAAAGCTGACAGAAGCAGAACAATCTGAGCTGCGTGCTGTGTTTGAGCCTGTGCTTCGTGATCAGGAAGGCATGATTGTTCGAACCGGAGCAAAAGACGCATCCCGGGAGGAGCTGTTGGAAGAACTCCAGCGCTTACAGGAAGAATGGGCCCGTACGGTGGAAGAAGCAGGGAAAAAGCCCGGAAGGATTTGGCATGAAGCTTTTCTTCCGGATCAGTGGTTAAGAAAGTTCCCGGTTTCGACCATCGACCAAATCATCATCGACGACACAGCCACTGTGAAGCGTGTGAAGAAAAAGATGCCCGCCTTAGCCGGCAGAATCCAGTGGACAAGACATGCAGCTGACCATCTGCCTGTGCCGGTCCATACGTTACAGGAGAGCCTTGTGGAGCCGGAAGTCCACACGGAAGAGGGCATCAGTCTGGTCATGGAACAGACCGAAGCGATGGCTGTGATCGATGTCAACAGCCGCCACTTCAAAGGACGTTCCTTCTCCAATGCCCAGGCACTGAACGTGAATCTGCGAGCGGCAGAGGAAATTCAGAGACAGATCCGTCTAAGGAATTTGTCCGGCATCATTATGATTGATTTTATTTCCATGACTCATCCGGAACACAGGAAGAAGCTGGAGAAAACATGGAGGCAGCTGATGAAGAAGGACCCTGTTTCAACGGTCGTGTATGGACTGACCAAGCTTGGAGTTATGGAGATGACGCGTAAGAAAGAGGAGACAGGACCGCTTTCGCTGCTTGCTGCACAGAGGGCGTACACGTTCACCTATGAGACGATGGTTTTCCAGCTGGAGCGCACATTGCTGGAGCTTGGGGATACGGAAGCTGTTCTGCTCGCGGTGGATCCTGAGTGGCTGAAAATAAAAAAACGCTTGTTTTCTGAGCCTTTATCTAGTAAAATTCCACAGGAGCTGTTTGTCAGGATGGATGACAACATCCATGGCTGGCAGATAGAGCTTGAAGGGTCTTCCGACATGATTAAAGAAGTGGCGGAAAGCCGTGATGCACGTGTTGACAACTTGTTTTGA	MRTFIIQTKTAERTGLLLEEGKVQEYKIDRPGARTLTGSIYCGVIARVDHGLQAAFVDIGLEKQAFLRGNSIPWGSGRIEEKVKVGERLFVQVEKDPEGVKGAKVTADLTLAGVNMVYRPYGGETALSKKLTEAEQSELRAVFEPVLRDQEGMIVRTGAKDASREELLEELQRLQEEWARTVEEAGKKPGRIWHEAFLPDQWLRKFPVSTIDQIIIDDTATVKRVKKKMPALAGRIQWTRHAADHLPVPVHTLQESLVEPEVHTEEGISLVMEQTEAMAVIDVNSRHFKGRSFSNAQALNVNLRAAEEIQRQIRLRNLSGIIMIDFISMTHPEHRKKLEKTWRQLMKKDPVSTVVYGLTKLGVMEMTRKKEETGPLSLLAAQRAYTFTYETMVFQLERTLLELGDTEAVLLAVDPEWLKIKKRLFSEPLSSKIPQELFVRMDDNIHGWQIELEGSSDMIKEVAESRDARVDNLF				NA	NA	NA	NA	NA
AK012_01103	840	spoIVFB	COG1994	Stage IV sporulation protein FB	GTGGGCGGCTGGCTTCATATCCACCCCCTTTTCTTTCTGCTGGCTTTTTCGGCGATTCTTACGGGAGCTATTCTTGATTTTATACTTTTGTTTACGATTGTCCTCATTCATGAAATGGGGCATTTTTGGACGGCCCGTTACTACAACTGGCGGGTGGAAAAACTTGAAATCTGGCTTTTCGGTGGTGCTGTGGTCAGTGAGGAGCACCATACCCGTCCGTTCAAGGAGCAGGCTGCTGTTGTTCTCGCAGGGCCGCTGCAGCACGTGTGGATCTATCTTCTTCTGTCCGGTATTCAGATGTGGATCGGGCCCCACCCCTTTATAGCGACGGCTTTCTTCTACAACACGCTGCTGCTTGGGTTTAACCTGATGCCCGTATGGCCGTTGGATGGCGGCAAGCTTATTTTCTATCTCTTCTGCCAGACCTCCTCTTTTCAAAAAAGCTTGAAAAGGACACTCCTTTTTTCTGCGCTTGTTTTGGCGGCAGCCGCCGGCTGGTTGTTCATTGAACAGCGATGGACGCTCGCAGCCGTCCTGCTTACGGCTTTTCTCATTACAGAACATGTCCTGGAATGGAAGAAACGGGCATTCAGCCACATGCGTTATCTTCTCTTCTGCGCCTACCAGGACAGAGAAGGTATGAAAACGGAATACAAGCACGTGTCTCCGGACATGCGGATTATGGATGCGGTGAAGCACGTCCGTCCCAACCGGAGGGTGAAGTATATATTGAAACAGGCGCCCCACTTTTATATAGTAGATGAACAGGAATGTCTGCGCGCTTATTTTGAGAATAAGCAGCCGTACTTAAAGTTTAGAGACATCCGCCAATTTGCTTAA	MGGWLHIHPLFFLLAFSAILTGAILDFILLFTIVLIHEMGHFWTARYYNWRVEKLEIWLFGGAVVSEEHHTRPFKEQAAVVLAGPLQHVWIYLLLSGIQMWIGPHPFIATAFFYNTLLLGFNLMPVWPLDGGKLIFYLFCQTSSFQKSLKRTLLFSALVLAAAAGWLFIEQRWTLAAVLLTAFLITEHVLEWKKRAFSHMRYLLFCAYQDREGMKTEYKHVSPDMRIMDAVKHVRPNRRVKYILKQAPHFYIVDEQECLRAYFENKQPYLKFRDIRQFA	PGPT0024785_281	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024785-spoIVFB-K06402	NA	NA
AK012_01104	765	spoIVFA	COG0739	Stage IV sporulation protein FA	GTGAATAAGAATATAAGGGATGTACGGAGGAATATAGCAGGACGAAAGAAAAAAAAGCTGGACCGGCCGGCGTCGGGGACAGGCCCGGTCTATCTCCCACCACAGGATGAGGAGGCCCACGGTTTTCCGCCATTGTTAACAGGTGACGGAGGATCGCCGAAAGAACCTGTGGAAAACAGAAGAAGCAGCAGGATCGGTCTGCAGGTGTTCTTTGCTGTTCTGTTATTTGGTGTCATGGCTGCAGGTACTCATTCGGGTGCAGGTCTTCTGAAGACGCCTGCAGACTGGGCGGCGGGTCAAATGGAGGATGAATTTCCGTTCGCAAAAGTAACGGCCTGGTACAATGACCGGTTTGGTGATCCTCTTCAAGTCATGAAACCGAAAGAAGATCAGGGGGAAGAGCCTCTGGCGATGCCTGTGAATGGTACAGTGACCACCCCGTTTCAAAATGACGGGAAGGGAATCATTTTGACAACAGCCAGTGATTCCAAAGTACGCGCTGTCCGGGATGGAACGGTCGTCTTCGCAGGTAATGACCCCGACTCAGGAAAAACCGTGGTCCTGCAGCATCCGGACGGCACGGAAACGACCTACGGTTATTTGTCTGAGATTGATGTGTACTTGTATGAAAATGTCCAGGCCCAGGGAGGGCTCGGTTCTGTGAAAGCAGAAGAGGGGGAAAACGCTGAATTCTTCTTTGCCATAGAAAAAGATGACACGTACCTGGACCCCGTTCAGGTGATTAAAGTAAATGAAGGATCTTAG	MNKNIRDVRRNIAGRKKKKLDRPASGTGPVYLPPQDEEAHGFPPLLTGDGGSPKEPVENRRSSRIGLQVFFAVLLFGVMAAGTHSGAGLLKTPADWAAGQMEDEFPFAKVTAWYNDRFGDPLQVMKPKEDQGEEPLAMPVNGTVTTPFQNDGKGIILTTASDSKVRAVRDGTVVFAGNDPDSGKTVVLQHPDGTETTYGYLSEIDVYLYENVQAQGGLGSVKAEEGENAEFFFAIEKDDTYLDPVQVIKVNEGS	PGPT0024780_153	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_IV_SPORULATION,PGPT0024780-spoIVFA-K06401	NA	NA
AK012_01105	798	minD	COG2894	Septum site-determining protein MinD	ATGGGTGAAGCGATTGTCATTACCTCTGGAAAGGGAGGCGTCGGAAAAACGACTACAACTGCCAATCTGGGGACCGCTTTGGCCTTGCAGGACAAAAAAGTCTGCTTAGTTGATACTGATATCGGTCTCAGGAATTTAGATGTTGTGATGGGGCTTGAGAACCGGATTATCTATGATATCGTAGATGTCGTAAAAGGGCGCTGTAAAACAAAACAGGCACTGATTACAGATAAACGCTTCGAATGCCTTCATGTGCTGCCGGCTGCGCAGACGTCTGATAAATCGGAAGTCACGCCGGAAGGCATTAAAGCCATTGTGGAAGAACTGAAGCAGGATTATGATTACGTGGTTATTGACTGCCCTGCTGGAATTGAACAGGGGTATAAGAATGCTGTATCCGGTGCGGATAAGGCGATCGTCGTAACAACGCCTGAAAAATCCAGCGTGCGCGATGCCGACCGGATTATCGGACTGCTGGAGCAGGAGGAGATGGAAGCGCCGAAACTGGTCATCAACCGGATTAGAAACCATCTGATGAAGAATGGGGATATGATGGATGTAGATGAAATCGTCAACGTGTTGTCTATAGATCTTCTAGGCATTGTCATTGATGATGAAGCAGTGATCAAGGCATCCAACAGTGGAGAGCCTGTCGCTATGAAACCGAATTCCAAAGCCTCCTTAGCTTACAGGAACATTGCACGCCGGATTCTGGGTGAGACCGTACCCCTGCTGAGTCTGGAAGAAGATAAAGGTGTGCTGGCTAAAGTGAAGCGGTTCTTCGGAATGCGATCCTGA	MGEAIVITSGKGGVGKTTTTANLGTALALQDKKVCLVDTDIGLRNLDVVMGLENRIIYDIVDVVKGRCKTKQALITDKRFECLHVLPAAQTSDKSEVTPEGIKAIVEELKQDYDYVVIDCPAGIEQGYKNAVSGADKAIVVTTPEKSSVRDADRIIGLLEQEEMEAPKLVINRIRNHLMKNGDMMDVDEIVNVLSIDLLGIVIDDEAVIKASNSGEPVAMKPNSKASLAYRNIARRILGETVPLLSLEEDKGVLAKVKRFFGMRS				NA	NA	NA	NA	NA
AK012_01106	687	minC	COG0850	Septum site-determining protein MinC	ATGTCGGCGAATGGTCAGAGAATCATGATTAAAGGTACGAGAGATGGATTGATCTTGAAGCTGGATGACCAGTGTTCATTCGATCGGCTCCTCCGGGATCTGCAGGATAAGCTGTCCATGAACGGAGTAACGGAAGATGAGCCGATGATCCGGGTCATTATTCAAGTTGGAAAACGCTACTTGACAGAGGAGCAGAAGGAAGAGTTGTCTGCCGTTGTCCGTGAAAAGCAGAAACTCGTCGTTGATAAAATCGAATCGGACGTTTTGACGAAAAAAGAAGCGTTGGATTGGAAGGAAAACACAGAAATTACCCCCGTAGCCAGAACGGTCCGATCCGGACAGGTGGTGGAAGTGAAGGGTGATCTTCTTCTTGTTGGAGATGTCAATCCAGGTGGACAGGTGAATGCCACGGGGAACATCTTCATTATGGGGCGTTTGAGAGGGATTGCCCACGCCGGCTGTGAAGGGGATGGGGAAGCTGTGATTGCAGCGGCCTATATGCAGCCCAGTCAACTGAGAATCGCTGATCAGCTCAGCCGTTCCCCTGACTATGAGTCGGAAGGCGTGTATATGGAATGCGGGTTCATCGATAAGGACGTTCAGAAGATTCGTATTGATCGGTTACAGGAAGTTGTAAAGAAGAGACCGAATCTCGTGAGTTTTGAAAGGAGAATGATCAATGGGTGA	MSANGQRIMIKGTRDGLILKLDDQCSFDRLLRDLQDKLSMNGVTEDEPMIRVIIQVGKRYLTEEQKEELSAVVREKQKLVVDKIESDVLTKKEALDWKENTEITPVARTVRSGQVVEVKGDLLLVGDVNPGGQVNATGNIFIMGRLRGIAHAGCEGDGEAVIAAAYMQPSQLRIADQLSRSPDYESEGVYMECGFIDKDVQKIRIDRLQEVVKKRPNLVSFERRMING				NA	NA	NA	NA	NA
AK012_01107	528	mreD	COG2891	Rod shape-determining protein MreD	ATGAGTCGTTATGTCATCCCGCTTGTCTGCCTCTTCCTGCTCGTTATGCAGGGGATGGCCATGAGCCTGCTTCCTGCGAAGCTCGTTTACTCCGATCTCCTGATCACTCCTCACTGGATATTAATCTTTTTGTTCATCATTGCGATTTTTTATGACAAGGACCATACCTACCACGCCGTCTGGTACGGTCTTATTTTCGGACTGTTAATTGATGTGGTTTATACAGGGGTGCTCGGGGTGTATATGATTACTTACACCCTGATTATTTATGTGGTTCACGGGTTGAAGAAACTGGTGCATGCCAATTTCCCGGCTGCTTTTTTACTCGCAGTCATCGGCCTCATTCTGGCGGATGCCCTTCTTTATATCGTATATTCGTTCGTTCAAATTACGTCCATCAGCTGGGTCGATTATGGTCTGCTTCGTCTGCTCCCTACGCTGGCAGCGAATATGATCTTTTTCACCCTGCTTTATCCACTGGTTAAAGAGAGGGTATACGATTGGTCGGAAGAAATCAGCAACGTTTAG	MSRYVIPLVCLFLLVMQGMAMSLLPAKLVYSDLLITPHWILIFLFIIAIFYDKDHTYHAVWYGLIFGLLIDVVYTGVLGVYMITYTLIIYVVHGLKKLVHANFPAAFLLAVIGLILADALLYIVYSFVQITSISWVDYGLLRLLPTLAANMIFFTLLYPLVKERVYDWSEEISNV				NA	NA	NA	NA	NA
AK012_01108	882	mreC	COG1792	Cell shape-determining protein MreC	ATGCCTTCTTTATTCCGCAGAAAAAGACTGATGATTGTATTAATTGGTTTCATAGTACTTGTGACGTTAATCGGCTTTTCCATCCGTGACCGGGATTCCCTCAGCACACCGGAGAAGTTTCTTCAGGATTCCATCGGCTGGATGCAGACGATTTTTCATAAACCGGTCAGCCTCGTAGATACCACGGTTGAAAACGTTCAGGATATGTTCAACGTGTACGAGCAGAACCAGGTGCTGAAAACCCGTCTCTCTGAATATAAAGGTGTGATTCAGGAGAATCAACGGCTCAACAAAGAGGTGGATGAACTTCAGGATACCCTCGGCAAGTCTGAAGGGCTCAGTGATTACTCGTCCATTCAGGCCACCGTCATCGCCAGAAGCTCGGACCGCTGGTTTGAGCAGATGACCATCAACAAAGGAGAAGAAGATGGAGTGGAAAAGGACATGGCAGTCATGACAAGTGACGGCCTGGTCGGAAAAGTTAAATCGGCGGGAGCCTTCCATTCCACCGTCCTGTTGTTGAGCGGGTTTGATCGTTCCAACAAGATTTCCTCCTGGGTGGTCCGGGAGGATAAGGAAGAAGCTTTCGGGTTGATCGAAGGCTATGATGATGAGTCAGGGCGCCTTCTTCTTGAAGGTATTAAGCTTGATGAGGAGCTTGAGCCCGGGGATACGGTCATTTCCTCAGGACTTGGAGGTGTCTTTCCGAGTAATCTGAGAATTGGAACCGTTGAGGAAGTGGTGAATGATCAGTATGGGTTGACGAAAACGGCCTATGTGGAGCCGTTTGCTGATTTATTCGACATCAACCACGTCATGGTGGTGGACCGATCGGTGGAGACGATCGATACAAGCAGCGAAAAGGAGGGGGATGAATCATGA	MPSLFRRKRLMIVLIGFIVLVTLIGFSIRDRDSLSTPEKFLQDSIGWMQTIFHKPVSLVDTTVENVQDMFNVYEQNQVLKTRLSEYKGVIQENQRLNKEVDELQDTLGKSEGLSDYSSIQATVIARSSDRWFEQMTINKGEEDGVEKDMAVMTSDGLVGKVKSAGAFHSTVLLLSGFDRSNKISSWVVREDKEEAFGLIEGYDDESGRLLLEGIKLDEELEPGDTVISSGLGGVFPSNLRIGTVEEVVNDQYGLTKTAYVEPFADLFDINHVMVVDRSVETIDTSSEKEGDES				NA	NA	NA	NA	NA
AK012_01109	1041	mreB	COG1077	Cell shape-determining protein MreB	TTGGGGATTTTTGGATTCTCTCAAGATCTCGGGATTGACCTGGGTACAGCGAATACACTCGTATTTTTGAAAAATAAAGGGGTTATTGTCAGAGAGCCCTCTGTCGTAGCCAAGAACTCTCAAACAGGAGAGATTGAAGCTGTTGGTAACGATGCGCGGAACATGATTGGAAGGACACCCGGATACATAAATGTGATCCGCCCGATGAAGGACGGGGTCATTGCTGATTATGATACGACGGCGCAGATGATGAAGTATTACATTAAAAAAGCCTTGAAAAACCGATCTTCGTTCGCGAGCAAACCGAACGTTATGGTCTGTGTACCATCAGGGATCACGATGGTGGAGGAAAGAGCTGTCGTGGATGCCACGAAACAGGCCGGTGCCAAGGAAGCCTATCCGATTGCCGAGCCGTTTGCTGCAGCCATCGGGGCAGGACTGCCGGTGTGGGAGCCGACAGGCAGTATGGTCGTCGATATCGGCGGCGGAACGACGGAAGTCGCCATCATCTCCCTCGGCGGCATTGTAACAAGCCAGTCCATCCGTGTTGCGGGCGATGAAATGGACGACAATATCATCCAGCACATTCGCAAGAAGTACAATTTGATGATTGGTGAACGTACGGCTGAAGATGTGAAAATGGAGCTCGGCGGAGCCGGTGAAGTCAAGGATATCGAAGAAATGGATATCCGCGGCCGTGACCTTCTGACCGGTCTTCCGAAGACGATTACGATCAAGAACGATGAGATTTATGAAGCTATGAAAGATACAGTGGATGCTATTATCGAAACCGTTAAAAACACATTGGAGAAAACCCCACCGGAGCTTGCTGCTGATATTATGGAACGCGGCATCGTCCTGACGGGCGGCGGGGCTCTGCTTAAGAATATCGATACAGTCATCAGTGATGAAACCAATATGCCGGTCTTTATTGCGGATGAACCGCTTGACTGTGTAGCCATCGGAACAGGGAAATCCCTGGAATACATCCATCACTTCCGCTCCCAGCCGAACGTGGCGAGCCGGGCGAACATGGAGTAA	MGIFGFSQDLGIDLGTANTLVFLKNKGVIVREPSVVAKNSQTGEIEAVGNDARNMIGRTPGYINVIRPMKDGVIADYDTTAQMMKYYIKKALKNRSSFASKPNVMVCVPSGITMVEERAVVDATKQAGAKEAYPIAEPFAAAIGAGLPVWEPTGSMVVDIGGGTTEVAIISLGGIVTSQSIRVAGDEMDDNIIQHIRKKYNLMIGERTAEDVKMELGGAGEVKDIEEMDIRGRDLLTGLPKTITIKNDEIYEAMKDTVDAIIETVKNTLEKTPPELAADIMERGIVLTGGGALLKNIDTVISDETNMPVFIADEPLDCVAIGTGKSLEYIHHFRSQPNVASRANME	PGPT0027700_1407	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
AK012_01110	690			hypothetical protein	TTGACAACGCCAAACGTAATGATTAAAAACGTTCCAAAACAGGACCGCCCGCGTGAAAGGCTGATGGAGCTGGGACCTTCCCACTTGTCCAATCAAGAACTCCTTGCCATCCTTTTAGGAAGTGGGACGAAGCAGGAGTCGGTGATGGAGCTTTCCAACCGCCTGCTCGTCCATTTCGAAGGGATTACCCTCTTAAAGGATGCGGCTGTGGAAGAGCTTACCGCCATCAAGGGGATCGGGGCGGCTAAAGCTGTGCAGCTGCTGGCTGCGGTCGAATTCGGTAAACGGATGCACAAAATGAAACCGGTGGAACGCTATATGATCCGCAGCCCTGAGGATGGGGCGGATTTTATTATGGAGGAAATGCGGGATTTGAAGCAGGAGCACTTTATCTGCCTGTTCCTGAATACAAAAAATCAGGTACTCCACAGGCAGACCATCTTTATCGGAAGTTTAAATGCGTCCATCGTCCACCCGAGAGAAGTATTCAAAGAAGCGGTGAAACGCTCCGCGGCCTCGATTATCTGCGCCCACAACCACCCCTCCGGAGACCCTACGCCCTCCCAGGAAGATATCCAGGTCACCCACCGCTTGAAAGAATGCGGTAAAATGATCGGAATTGAACTGCTGGACCACATTGTCATTGGGGATCGTACCTTCATCAGTCTGAAAGAAAAAGGGTATCTATAA	MTTPNVMIKNVPKQDRPRERLMELGPSHLSNQELLAILLGSGTKQESVMELSNRLLVHFEGITLLKDAAVEELTAIKGIGAAKAVQLLAAVEFGKRMHKMKPVERYMIRSPEDGADFIMEEMRDLKQEHFICLFLNTKNQVLHRQTIFIGSLNASIVHPREVFKEAVKRSAASIICAHNHPSGDPTPSQEDIQVTHRLKECGKMIGIELLDHIVIGDRTFISLKEKGYL	PGPT0027205_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027205-K07318-K07318	NA	NA
AK012_01111	567	maf	COG0424	dTTP/UTP pyrophosphatase	ATGAAGACGCTCGTGCTGGGTTCTCAGTCACCCCGGAGGAAGGCTTTATTGGAGATGGCGGGCTGCTCATTGATCGTCCGTCCTTCGTATGCCGAGGAAACGCTGGAACCGTCTGTGCCCGCGGATGAAGCGGCAGCGTATCTGGCGGAACAAAAAAGCATGGCTTTACAGCTGGAGCGCAATGAGGTACTGCTGACTTCGGATACCGTCGTATCGATAGACGGTGGCATTTTGGGTAAACCCGAGGACAGACAGGATGCCCGTCAGATGCTGGAAAGGATGAGCGGCCGGACGCACCAGGTGTACACAGCTGTATGTCTGCGTTTTGAGGAGGGCAGGCGCACCTTTACAACAGGAACAGATGTCAGTTTTTATACGTTAACGGATGAAGAGATCGACCACTACCTGAATACCGATGAACCTTGGGATAAAGCAGGGGGATATGGGATCCAGGGAAAAGGCGGGCTCTTCGTCAGGGAAATTAAAGGAGACTATTACAACGTTGTAGGTCTTCCCATTGCCCGGGTCATCCGTGAGCTGAAAGAATTTGGCGTCTCCATCCACTGA	MKTLVLGSQSPRRKALLEMAGCSLIVRPSYAEETLEPSVPADEAAAYLAEQKSMALQLERNEVLLTSDTVVSIDGGILGKPEDRQDARQMLERMSGRTHQVYTAVCLRFEEGRRTFTTGTDVSFYTLTDEEIDHYLNTDEPWDKAGGYGIQGKGGLFVREIKGDYYNVVGLPIARVIRELKEFGVSIH				NA	NA	NA	NA	NA
AK012_01112	801			hypothetical protein	ATGGACTCAAAGAAGAAGATTTCGATTTCATTCCGGCCTGAGGATGGCTCCAAAAACGAAGTGGTCCGTACTCAGAAAGAACAGGCGGCGGCTGTGGATCAAGATAAGGAAAAAGAGAAACGGACCACGCCTGTTTACCCACTGCCTGTGAAAAAGAAGTGGCGGCTTCCTGGATCCTACCGTCCGGTTCTGGCAACGGCAGTGATTGCCCTCCTGCTCAGCCTGGGACTTGGTTTTGTTCTATTAAGGATGTTCGTTTCCTTGACGGATGTTACGACAGCAGGCACAGAGGTTCTTCCTGCTGCCGAGGCACCCGCCGGACAGGTGCAGGAGGCCGGGGAAGCCTCAGAAAACCAACTGCCGGACAGTGCGGCAGCCTCGCTGGATACATACATCGTCCAGGCAGGTGCTTTTTCCACTGAGGGAAAAGCCGGTGAGTGGCAGAGCCGCTTGAATGCCCAGTCCATCTCATCGGTCGTATGGAAGCGTGATGGGCAGTATTTTTTGTTTGTCGGCAGTGCATCCTCGAAACAGGAGGCCGCATATATCGCTGAAGAGATGAAGTCTAAAAGTATTGAAACCTATGTAAAGCCGTGGGTCGTGACCATTGAAAAAGAACTCCCTCCGCTTCTTCAGGAAGGGATGAAAAATCATACCCTCGGCTCCCTCACCGAGTCGGAGCGGAAAGAAATCGCCAAGGCCTCCGGCGAAGACTCTTCCCTGGGACAAGCCTTGATGAACTGGGAATCCCAGGATGAGAACAACCTGAACTGGCTGAAGGTCGCAAAATCATTAGAATAA	MDSKKKISISFRPEDGSKNEVVRTQKEQAAAVDQDKEKEKRTTPVYPLPVKKKWRLPGSYRPVLATAVIALLLSLGLGFVLLRMFVSLTDVTTAGTEVLPAAEAPAGQVQEAGEASENQLPDSAAASLDTYIVQAGAFSTEGKAGEWQSRLNAQSISSVVWKRDGQYFLFVGSASSKQEAAYIAEEMKSKSIETYVKPWVVTIEKELPPLLQEGMKNHTLGSLTESERKEIAKASGEDSSLGQALMNWESQDENNLNWLKVAKSLE	PGPT0024665_176	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024665-spoIIB-K06380	NA	NA
AK012_01113	120			hypothetical protein	ATGAAGAAACAGGGGACGGGAGCGGATGTTCAAGCTGAAATTGTCGAAGCGGCCCCGACAAAATTAAGCATGGTTTTTATTTCTTCTGTGATAGGGTTGGGACAAACGCTGCAGGAGTGA	MKKQGTGADVQAEIVEAAPTKLSMVFISSVIGLGQTLQE				NA	NA	NA	NA	NA
AK012_01114	762	comC		Type 4 prepilin-like proteins leader peptide-processing enzyme	ATGTCTATCCTTTTCCCGCTTTATTTGTTCCTCGCTGGTATTGTCTTAGGTTCCTTTTGTAATGTTGTCGGTCTGAGACTGCCTCAAAACGCTCCATTTATCACTTCAAGATCTGCCTGTCCCAGCTGTTCGACCACGTTGTCAGCTGGAGAACTGATCCCTGTCGCTTCCTATATGATTGGGAAGGCGAAATGCCGGCACTGTAAAACACGGATTTCCCTGCTTTATCCTGCAGGGGAATTGTTCACAGGGGTTTTCCTTCTGCTTTCTTACAATCACTTCGGATGGACGGTGGAATTGCTGGAGGCCGGTCTTCTCCTTTCGCTGGCTGTCATCGTGACGATCAGTGATGTGAAGTATATGGTCATTCCCAACCGGCTGCTTGTATTTTCTGCCCTTGCGTTCACACTTCTCCGGGTGTTTCATCCTCTGCAGCCCTGGTACGACCCTCTGGCTGGTGCTGGGGTCGGATTTGCCCTCGTGTTTTTCATCATTTTTCTCAGCAGAGGAGGCATGGGGGCCGGCGATATGAAACTGCTCGCTGTCCTCGGCTTGTTTTTTGGCGTTCGGTTGACCCTGCTGACCTTGTTTCTGGCTGTGGCAGCCGGGGCAGTGGTGAGCACTTTTCTGCTGGCTGCGAAAAGGATCAGCCGCCGGCAGCCTTTTCCCTTCGGCCCGTTCCTCATGGCCGGGGCGCTCATCAGTTTTTATTATGGTGACGCATTGACTGCGTTCTATCTGCGCTACTTTATTCAGCCATGA	MSILFPLYLFLAGIVLGSFCNVVGLRLPQNAPFITSRSACPSCSTTLSAGELIPVASYMIGKAKCRHCKTRISLLYPAGELFTGVFLLLSYNHFGWTVELLEAGLLLSLAVIVTISDVKYMVIPNRLLVFSALAFTLLRVFHPLQPWYDPLAGAGVGFALVFFIIFLSRGGMGAGDMKLLAVLGLFFGVRLTLLTLFLAVAAGAVVSTFLLAAKRISRRQPFPFGPFLMAGALISFYYGDALTAFYLRYFIQP	PGPT0029470_28	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029470-comC-K02236	NA	NA
AK012_01115	1731			hypothetical protein	ATGTCCAAACAAAAAATTATCGGTGTCTGGCTGGTATGGGTCCTGATCTGGCCGCTGAGCCTCGTACTGATTTACAACATGGAAACTCCTGCTGTAACCGGCAGCCGGATGAACTTGATGGTGTTTGCGCTCCTTACGGTCATTGTGGCTCTTTTTCCACTTCGGATCGGAAATCACCCTGTGTTTTTCACACAGGGGGTGGCGTTCGCTGTGTTTCTCCAATACGGCCTGTTCGTGGAAATGGCCATATCGCAGATGGCTGTCGCCGTCCTGCTTATGAAAGTGAGGCTGAGCAGACATACGATGTACAGGCTTCCCATCAATCTGCTTATGTTCCTGGCTATCTCTGTGCTTTCTGCTCTCCTTTATGAAGGGATGGGGGGCGGCCATGGCCCTGCAGCCGTGGATGAATTCAGTGATCTTTTTCCTATTACTGCCTATGCGGTCTCACAGATTTTATTGAACCAGCTTTTTTTATCGGCCATCTCCAAATGGCTGTATCGACGGCCGTTTCAATGGTTCGACCAAGGGCTGCTATGGGATGTCATGACCGCCGGTCTTGTCCTGCCGATCGGCTTTGTCCTTTTTGTCGTCTTTCTGCAATTTGGCATCAGCGGGATCTTCTTTGTTGGTATTCCTTTTGTATTCATTTCCGGCATGATGATGATGTATCACAACAGCAGTCAAGTGAATGACTACTTGAAGAAAGCGAGCCGGATTGGTCATGAATTAACCGGGAACCTCGGGGTGACAGATGTGCTGGATCTTTTCGTCGATCACATTACTGAACTCCTGCCGGTGGACCATTTGTATGTGTTTGATGTGAAAGAGAGCGGACAATTGAACTTGATCCGTTTTTTCGACCGGTCCGGGGTTCTGGATCTGCCATCCATCCTATTGGAAAAGGGGCAGAGTGTCAGTGGTCACACGCTGCTGACTGGAAAAGGGGTCTATTATAAAAAACGGACGGAATGGAGAACACTGGAAAGTCCTTATACACCGCAGGCGTCAGAAAGTGTTTTATCGGTACCGGTCGTACGGAACAATGATACGGTTGGTGTGATTACGGTGTATTCCAACCAGAAAAGGTCCTTTTTACAGTTTCAGCTCTTCATTTTGACCATCCTGGCCAACTACCTTGGTGTAGCGATCGAGAACGCCCGGAACTATGAGAAAACAAAAGAGGAAAGCGAACGCTGTGCGCTGACAGGACTGTATAATTACCGTTACTTCGATGATTACATGAAGCAGTCTTTCCTGAGGCGTGCTGGAGATGAACAGGAACCCGTCTCGCTGATCCTTCTGGACATTGATCACTTCAAGAAGGTCAACGATACGTATGGACATGAAAGCGGCAATGAACTCCTGGTTGAACTCTCCAGCCGTCTAAGGGGAGCGGCGGAAGAGGGCATGACGCTGGCCCGTTACGGAGGAGAGGAATTTGTGTTTCTCCTGCCTGGATTTGATGAAGCAGCAGCTCTTGCCTTCGCTCATCACATTCAAGCGGTCATCAGGGAAACCCCTTTTACCGCGTATGAACATATCCTGAAAAGCGGGGGACCGGTTTCAATACCGGTTACCGCCAGCATCGGAGCGGCCACTTACCCGGATTCGTGTGAGGAACCGTTCGATCTGATCCGCCAGGCGGACTGGGCGATGTATGTGGGAGCGAAGCAAAGGGGTAGAAACCGGGTGGCCGGTTATAAAGATTTGATTCAACCTGTCCAATAA	MSKQKIIGVWLVWVLIWPLSLVLIYNMETPAVTGSRMNLMVFALLTVIVALFPLRIGNHPVFFTQGVAFAVFLQYGLFVEMAISQMAVAVLLMKVRLSRHTMYRLPINLLMFLAISVLSALLYEGMGGGHGPAAVDEFSDLFPITAYAVSQILLNQLFLSAISKWLYRRPFQWFDQGLLWDVMTAGLVLPIGFVLFVVFLQFGISGIFFVGIPFVFISGMMMMYHNSSQVNDYLKKASRIGHELTGNLGVTDVLDLFVDHITELLPVDHLYVFDVKESGQLNLIRFFDRSGVLDLPSILLEKGQSVSGHTLLTGKGVYYKKRTEWRTLESPYTPQASESVLSVPVVRNNDTVGVITVYSNQKRSFLQFQLFILTILANYLGVAIENARNYEKTKEESERCALTGLYNYRYFDDYMKQSFLRRAGDEQEPVSLILLDIDHFKKVNDTYGHESGNELLVELSSRLRGAAEEGMTLARYGGEEFVFLLPGFDEAAALAFAHHIQAVIRETPFTAYEHILKSGGPVSIPVTASIGAATYPDSCEEPFDLIRQADWAMYVGAKQRGRNRVAGYKDLIQPVQ	PGPT0015900_240	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-CELL_FATE_CONTROL	PUTATIVE-CELL_FATE_CONTROL-1,PGPT0015900-pleD-K02488
AK012_01116	1281	fpgS		Folylpolyglutamate synthase	ATGAATTACGAAGAAGCGGTGCAATGGATACACGCCAGGGAAAAATTCAAAATCAAACCGGGTTTGAAACGGATGGAATGGATGATGGACCGCCTGAACCATCCGGAAGAACAGATCACAGCTGTACATGTAGCCGGCACGAATGGAAAAGGGTCCACGGTTTCTTTTCTTAGGAATATCCTCGAGGGGCAGGGGCTGTCTGTAGGGACTTTCACCTCCCCGTATATTGAAACATTTAATGAGCGGATCAGTGTCAATGGCAGGCCGATTGCTGACGAGGAGCTGGCGGAGGTGGTCGACCGGATCCGTCCCTTGTCTGAGGAGCTGAAGCATACCTCTCTCGGTGAACCGACGGAATTTGAAGTCATCACCGCTGCGGCTCTGCTGCATTTTTCCCGGATGGACCTTGATTTTGTCTTAATAGAAACAGGGCTGGGCGGGACGTATGACTCTACCAATATCATTCGTCCTGTATTAAGTGTGATTACGAACATCGGCCATGATCACATGAATATCCTCGGCTCTACGATCGGAGAAATCGCCGGCGAAAAAGCGGGAATCATTAAACAGGGGATTCCTCTGGTAACTGGTGCTGCCCAGAAGGAAGCCGCTGCTGTCCTTGCTGAAAAAGCAGCAGAATGCCATTCCTCTGTGTTCTGGTACGGGAAGGATTTCCATGCGGATCACTTAACCAGCGGTGCCGGCAGGGAGACCTTCCGTTTCATAAGTGAAAGCTTCGTCTCACCTGCTTGGAAAAGCTCGATGCTTGGGCCTCACCAGGTCACAAATGCCTCGCTTGCCATCCAGGCAGCGGAAGTTTTAAGACACCGGGGAGCCCCTCTGGAGAGGCAGCGGTACGGAGCAGCTATCGAGAAAACGTCATGGCCGGGAAGATTTGAAACAATCCGGCATAAGCCGCTGACGATCGTGGACGGCGCCCATAATGAAGAAGGGACCGGAGCCCTTGTAGAAACGGTGAAGCGTCATTACTCCGACCGGCGGATCCTGCTTGTTTATGCCGCATTGGAGGATAAACCAGTGGAGAAAATGCTGCAAAAGCTGAAGGAAGTGGCGGATGTTCTTTATGTCACGACTTTTGATTTTCCAAGAGCCTTATCTGCAGAGGACCTGGAGCAACTCTCCCCTGTCCCGCACACAGAAGCGGTTCCTGATTATAAGACAGCGGTTCGTGAGGCCGCGGCTCAGGCAGGGGGCGATGATGTCGTCCTTATCTCCGGTTCGCTTTATTTCATCTCTGCCATCCGCACATTTCTAAAGTAA	MNYEEAVQWIHAREKFKIKPGLKRMEWMMDRLNHPEEQITAVHVAGTNGKGSTVSFLRNILEGQGLSVGTFTSPYIETFNERISVNGRPIADEELAEVVDRIRPLSEELKHTSLGEPTEFEVITAAALLHFSRMDLDFVLIETGLGGTYDSTNIIRPVLSVITNIGHDHMNILGSTIGEIAGEKAGIIKQGIPLVTGAAQKEAAAVLAEKAAECHSSVFWYGKDFHADHLTSGAGRETFRFISESFVSPAWKSSMLGPHQVTNASLAIQAAEVLRHRGAPLERQRYGAAIEKTSWPGRFETIRHKPLTIVDGAHNEEGTGALVETVKRHYSDRRILLVYAALEDKPVEKMLQKLKEVADVLYVTTFDFPRALSAEDLEQLSPVPHTEAVPDYKTAVREAAAQAGGDDVVLISGSLYFISAIRTFLK	PGPT0007975_3337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007975-folC-K11754	NA	NA
AK012_01117	2643	valS	COG0525	Valine--tRNA ligase	ATGAGTGAAAAGGATCTTTCAATGCCAACCAAATATGATCCGGCCGCTGTTGAGAAAGACCGGTACAAGTACTGGGTGGAAGGGAAGTTTTTTGAAGCGGAAGGAGATACGGATAAAGAACCGTATACCATCGTTATTCCACCGCCGAACGTAACCGGGAAGCTTCACCTCGGCCATGCATGGGATACGACCCTGCAGGATATATTATCCCGTGTGAAGCGTATGCAGGGCTATGACGTGCTGTGGCTGCCTGGGATGGACCACGCCGGTATTGCTACGCAGGCGAAGGTGGATGCCAAGCTCCGTGAACAAGGCATTTCCCGACACGACCTCGGCCGTGAGAAATTCCTTGATAAAGCGTGGGAGTGGAAGCATGAATATGCCAAGTTCATCCGTGCCCAGTGGGAAAAGCTCGGTCTCGGCCTTGATTACTCCCGGGAACGATTTACGCTTGATGATGGTCTTTCCGACGCCGTTAAGGAAGTATTCGTTACTTTATATGAAAAAGGCTTGATTTACCGCGGCGAGTATATCATCAACTGGGATCCGGCTACGCAGACGGCCCTGTCTGACATTGAAGTGGAGTACAAAGATGTCCAGGGCGCTTTCTATCATATGCGTTACCCGCTGAAGGATGAGGAAGGTTCCATAGAAATCGCTACGACGCGTCCGGAGACGATGCTTGGAGATACCGCAATTGCTGTTCACCCGGAAGATGAGCGCTATAAGCATCTCATCGGGAAAAAAGCGGTTCTCCCTCTTGTCGGCAGGGAAATTGAAATTGTCGCGGATGACTACGTAGACATGGAATTCGGTTCCGGTGCCGTGAAGATTACACCGGCTCATGATCCTAATGACTTTGAAATTGGAAACCGACACAATCTGGAGCGCGTGCTTGTCATGAATGAGGACGGCACGATGAATGAAAATGCCGGCACTTATAAAGGCATGGACCGTTTTGAATGCCGTAAGCAGATTGTCAAAGACCTTCAGGAGCAGGGCGTCCTGTTTGAAATTGAGGACCATATGCATTCGGTTGGTCATTCCGAGCGAAGCGGTGCCGTTGTCGAGCCCTACCTTTCCACACAGTGGTTTGTGGATATGAAGCCGTTGGCGGATGCATCCGTGGACCTTCAAAAAGGAGACGAGGCTGTCCAGTTTGTACCGGACCGCTTTGAAAAACCTTACCTTCACTGGATGGAGAATACCCGTGACTGGTGTATTTCCAGACAGCTGTGGTGGGGCCACCGTATTCCAGCCTGGTACCATAAAGAGACCGGCGAAATTCATGTCGGCAAGGAAGAACCGAAAGATCCTGAAAACTGGAAACAGGATGAAGACGTTCTGGATACGTGGTTCTCTTCTGCCCTCTGGCCGTTTTCAACGATGGGCTGGCCGGATGAGGACAGCAGCGACTACAAACGCTATTTCCCGACCAACGTCCTTGTGACCGGCTATGACATTATCGGCTTCTGGGTAAGCCGGATGATCTTCCAGTCGCTTGAATTTACCGGAGAGCGTCCGTTCAATGATGTTCTCATTCATGGTCTCGTCCGCGATGCAGACGGCCGTAAGATGAGTAAATCGCTTGGGAACGGCGTCGATCCTATGGACGTCATTGAAAAATATGGCGCGGATTCGCTCCGTTACTTCCTGTCCACCGGATCATCTCCAGGTCAGGACCTCCGTTTCCACTGGGAGAAGGTGGAGTCGACGTGGAACTTTGCGAACAAAATCTGGAACGCCTCTCGTTTTGCTTTGATGAACATGGGCGGTTTGAAATTTGAAGAGATCGATCTATCCGGGGAAAAATCTGTGGCGGATCAATGGATTCTCACACGACTCAACCAAACGATCGAACAGGTAACCACCAACATTGATAAATACGAATTTGGAGAAGCCGGCCGTCACTTGTATAACTTCATCTGGGATGATTTCTGTGATTGGTATATTGAAATGGCGAAGCTTCCATTGTACGGAGAAGATGAGCAGCGCATTCATACGACCCGTTCGATTCTGGCTTATACGCTGGATCAGACGATGCGGATGCTTCATCCATTCATGCCGTTCATTACTGAAGAGATCTGGCAGCACCTTCCTCATGAAGGAGAATCCATCACCCAGGCATCCTGGCCTGTGGTAAGGGAGGATTTCCACAATGAACAGGCGGTTGCTGAAATGGAACGCCTCGTCTCCATTATTCGTTCCGTACGTAACATCCGTGCCGAAGTAGACACGCCGATGTCCAAGCAGATTCAGCTTCTGATCCAGGCGAAGGATGAGGAGGTCGTTCAGGAGCTCGAGAAGAACCGCTCTTATTTAGAGAGATTCTGCAACCCGAGTGAACTGACGATTGCCACCGATCTGCAGGCTCCGGAAAAAGCGATGTCGGCCGTCGTTACGGGTGCGGAACTTTATCTGCCGCTCTCAGGCCTCATCAATATCGAGGATGAGATCAAGCGTCTTGAAAACGAGTGGAAGAAATGGGACCAGGAAGTCACACGGGTGCAGAAGAAGCTTTCCAATGAAGGTTTCGTAAGTAAAGCCCCTGAGCACGTTGTTGAGGAAGAGCGGAAGAAAGAAACCGATTATCTCGATAAACGTACGAAAGTCGAAGCGCGTATTAAAGAACTGAAAGCCTAA	MSEKDLSMPTKYDPAAVEKDRYKYWVEGKFFEAEGDTDKEPYTIVIPPPNVTGKLHLGHAWDTTLQDILSRVKRMQGYDVLWLPGMDHAGIATQAKVDAKLREQGISRHDLGREKFLDKAWEWKHEYAKFIRAQWEKLGLGLDYSRERFTLDDGLSDAVKEVFVTLYEKGLIYRGEYIINWDPATQTALSDIEVEYKDVQGAFYHMRYPLKDEEGSIEIATTRPETMLGDTAIAVHPEDERYKHLIGKKAVLPLVGREIEIVADDYVDMEFGSGAVKITPAHDPNDFEIGNRHNLERVLVMNEDGTMNENAGTYKGMDRFECRKQIVKDLQEQGVLFEIEDHMHSVGHSERSGAVVEPYLSTQWFVDMKPLADASVDLQKGDEAVQFVPDRFEKPYLHWMENTRDWCISRQLWWGHRIPAWYHKETGEIHVGKEEPKDPENWKQDEDVLDTWFSSALWPFSTMGWPDEDSSDYKRYFPTNVLVTGYDIIGFWVSRMIFQSLEFTGERPFNDVLIHGLVRDADGRKMSKSLGNGVDPMDVIEKYGADSLRYFLSTGSSPGQDLRFHWEKVESTWNFANKIWNASRFALMNMGGLKFEEIDLSGEKSVADQWILTRLNQTIEQVTTNIDKYEFGEAGRHLYNFIWDDFCDWYIEMAKLPLYGEDEQRIHTTRSILAYTLDQTMRMLHPFMPFITEEIWQHLPHEGESITQASWPVVREDFHNEQAVAEMERLVSIIRSVRNIRAEVDTPMSKQIQLLIQAKDEEVVQELEKNRSYLERFCNPSELTIATDLQAPEKAMSAVVTGAELYLPLSGLINIEDEIKRLENEWKKWDQEVTRVQKKLSNEGFVSKAPEHVVEEERKKETDYLDKRTKVEARIKELKA				NA	NA	NA	NA	NA
AK012_01119	189			hypothetical protein	ATGAGCCGAATGTACCGCTACCGGCTTCCTCCGTGGTGTAAGACGTGGTTGATTGTTATTGAAACCTCCCTGCTTCCGATCGTGATTTTTCAGGCTTTACGGACCATTTTCTGGCCGACGACCCTCGATATATTCCTTCTCGGTCTCGTCATCGGTCTGTGGCTGGCTTTTAAATATAAATGGATTTAA	MSRMYRYRLPPWCKTWLIVIETSLLPIVIFQALRTIFWPTTLDIFLLGLVIGLWLAFKYKWI				NA	NA	NA	NA	NA
AK012_01120	957			hypothetical protein	TTGCCAAATAAACAAAATGTATTTTCCTTTTATCTGGATGAATCGATATGGTTTCAGGAAGGACAGGGTGTAAGAGAGCTGATTGGTATTTCTTTAGAGCCGGATATCACGATCGAGGACCGCGGGGATGAAGTGTGCCTGAAGGGAACCGTTGATCTTTGCGGTGAATATATGCCGACAGGTCCTCAAACCGATGCAGAATCTCCGGCAGCTGCCGGGGCGAGGGTCATGGACAGCGTGGAGGCTCAGGGAGAGGGGATCTATGTCTTTTCCCACGCGTTCCCAGTGGAAATAACCGTTCCCCTGGAGCGTGTTTCCAATATGGATGATGTATGGATTGATATCGAAACATTTGATTATGAACTGCCGGCTGATCGTCAGCTCCGCCTCCATGCCCAGCTCACCATTAACGGAGTTGAGGAAGCACAAAGGGACGCGTCCAATGATGATACTTTCGATGAGCCTGCCCAGGCCGGACCGGTCAATTTCAAAGAAGAAGCGCCTGAGGTGGAGCGTGCCGTTCCTGAAAAAGAAGCCCCTGTATTCAGGATGAACGGGCAGGAGCAGGAGGATGATGGGCGCTGGTTTTACAAGAAATCACAAAGTTTTCCTGAATTTTTCGGATCGCAGCAGGAGCCTGTCCAGGATATCCCGGTCCAGCAGCCCGCTTCCTCTGATAGTACCTCAGACTGGGGGGAAGTCAGTGTGGAGGAATCTTCCGAGTCCAGTGAATCGGAGTCTGCGCCGGGTGGGATGGATGGCATTAAACAAATCTTTAAACACCTGTTCCCGAATCGTGAGGATACGTATACACGAATGAAAATGTATATTGCCCAGGGGGAGGAGACCTTGACATCCATTGCTGAGAAATATGATGTTCCGGTCAGACAGCTGGAGCGTGTCAACAGCTGTGATGAGGATGTAGCCCCTGGACAGATTGTCTATATCCCTGATTAA	MPNKQNVFSFYLDESIWFQEGQGVRELIGISLEPDITIEDRGDEVCLKGTVDLCGEYMPTGPQTDAESPAAAGARVMDSVEAQGEGIYVFSHAFPVEITVPLERVSNMDDVWIDIETFDYELPADRQLRLHAQLTINGVEEAQRDASNDDTFDEPAQAGPVNFKEEAPEVERAVPEKEAPVFRMNGQEQEDDGRWFYKKSQSFPEFFGSQQEPVQDIPVQQPASSDSTSDWGEVSVEESSESSESESAPGGMDGIKQIFKHLFPNREDTYTRMKMYIAQGEETLTSIAEKYDVPVRQLERVNSCDEDVAPGQIVYIPD	PGPT0024855_196	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_VI_SPORULATION,PGPT0024855-spoVID-K06417	NA	NA
AK012_01121	1287	hemL_1	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGAAAAACTTTGATCGTTCCAAACAAGCGTATCAAGAAGCTGTAGAACTGATGCCGGGGGGAGTCAACTCTCCCGTCCGTGCGTTTAAATCTGTAGACATGGATCCGATTTTCATGGAAAAAGGAGAAGGTTCCAGGCTCTATGACGTCGATGGAAATGAATACATCGACTATGTCCTGAGCTATGGGCCGCTGATCCTTGGCCATGCCGATGAAAGGGTGACGGATGCTTTAACAAAAGTGACCGCCCACGGAACAAGCTTCGGAGCACCGACAGAGATTGAGAATCAGCTGGCTGATCTCGTCCGCGAGCGTGTACCTTCTATTGAAATGCTGCGAATGGTCAACTCCGGTACAGAAGCTACGATGAGTGCCCTGAGAGTGGCGCGCGGCTACACCGGTCGTGACAAAATCCTCAAATTTGAAGGGAACTATCACGGTCACGGTGATTCCCTGCTGATCAAGGCAGGATCCGGGGTGGCGACACTTGGACTTCCAGATTCACCGGGGGTTCCAGCCTCTATAGCTCAAAACACGATCACGGTCCCTTACAACGATCTCGAAAGTGTCAACTATGTCTTTGAAGAGTACGGAGACGACCTGGCTGCGGTTATTATTGAGCCGGTTTCTGGAAACATGGGTGTCGTACCTCCGAAGGAAAGCTTTCTTCAGGAGCTTCGTCAGCTGACTGAAGATAATGGGACAGTCCTTATCTTTGATGAAGTCATGACAGGGTTCCGGGTCGGCTACCACAGTGCTCAAGGTCATTTTGGCGTAACACCGGATATGACTTGTCTCGGCAAAGTCATCGGCGGGGGGCTTCCTGTCGGTGCCTACGGTGGAAAGCGGGAAATCATGGAGCGTGTCGCCCCTGTTGGTGATATTTACCAGGCGGGGACCCTGTCAGGAAATCCGCTTGCCATGACTGCGGGATATCAGACCATTTCAGCGATGACCGAGGAAGCCTATGCTTCCATCAGTGAACGGGTGGACCAGCTGATCGAAGGGTATCAGCAGGCAGCCGAAGCCTATGACATTCCGCTTACTGTGAACCGGGCGGGATCCATGGTCGGATTCTTCTTCACCAATGAACCTGTTTACAATTTCGAAACGGCTAATCAATCCGATCTGGACATGTTTAAGAGGTACTATCAAGGCATGATACAGGAAGGCGTATATCTTCCGCCATCTCAATTTGAAGGCATGTTCCTTTCTGTGAAGCATACGAAAGAAGACATCGAGCAAACGATTGAAGCCGTCCGTAAAGTCTTTTCGACGCTTAAATAA	MKNFDRSKQAYQEAVELMPGGVNSPVRAFKSVDMDPIFMEKGEGSRLYDVDGNEYIDYVLSYGPLILGHADERVTDALTKVTAHGTSFGAPTEIENQLADLVRERVPSIEMLRMVNSGTEATMSALRVARGYTGRDKILKFEGNYHGHGDSLLIKAGSGVATLGLPDSPGVPASIAQNTITVPYNDLESVNYVFEEYGDDLAAVIIEPVSGNMGVVPPKESFLQELRQLTEDNGTVLIFDEVMTGFRVGYHSAQGHFGVTPDMTCLGKVIGGGLPVGAYGGKREIMERVAPVGDIYQAGTLSGNPLAMTAGYQTISAMTEEAYASISERVDQLIEGYQQAAEAYDIPLTVNRAGSMVGFFFTNEPVYNFETANQSDLDMFKRYYQGMIQEGVYLPPSQFEGMFLSVKHTKEDIEQTIEAVRKVFSTLK	PGPT0003680_3961	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
AK012_01122	987	hemB		Delta-aminolevulinic acid dehydratase	ATGAAGGATCTTCAATTTAAACGGCACCGCCGTCTGCGCCGCACGGAATCCATGCGGGCGCTCGTAAGAGAAACGCATCTTCGCACAGATGATTTGATTTATCCGATCTTTGTTGTAGAAGGGCAGGATATCAAAAATCCAGTGGCTTCGATGCCGGGAGTCCATCAAGTGTCCCTCGACCATTTAACAGCAGAAATGGAGGAGCTTGTAACACGAGGGATCCGCTCGGTGATCGTCTTCGGAGTACCCGCCCATAAGGATGAGGTCGGAAGTGAAGCGTATCATGAGGAAGGAATCGTTCAGCGTGCCATCCGTCAAATTAAAGAAGAAGTGCCTTCCTTGACAGTCATTGCTGATACGTGTCTGTGTCAATATACCGATCACGGTCACTGCGGCATTGTCCGGGACGGGGATATTGCGAATGATGAATCATTGACTTACATTACGCAGACCGCTGTCACCCAGGCAGAGGCCGGTGCAGATATTATTGCTCCCTCCAACATGATGGACGGTTTTGTGGCAGCCATCCGCCGCGGACTGGATGAGGCAGGCTTCAGTCATATCCCGGTTATGTCCTATGCCGTGAAGTTTGCTTCTGCGTTCTACGGACCATTCCGTGATGCCGCTCACAGTTCTCCGCAGTTTGGAGACCGTCGTGCTTACCAAATGGATCCATCCAACCGTCTGGAAGCTCTTAGAGAAGCAGAGTCTGATGTCGAAGAAGGGGCTGACTTCCTTATCGTTAAGCCGGCGCTGGCTTATCTCGATATCATGCGGGAAGTGAAGGACCGCTACAATCTGCCGGTTGTTGCTTATAACGTGAGTGGCGAATATTCCATGATCAAGGCTGCGGCCCAGAACGGCTGGGTCAATGAAAAAGAAATCGTTCTTGAAAAGCTGACCGCTATGAAGCGTGCGGGTGCTGACTTAATCATTACGTACTTCGCTAAAGATGCGGCAGACTGGCTGAAGGAAGACCAATCATAA	MKDLQFKRHRRLRRTESMRALVRETHLRTDDLIYPIFVVEGQDIKNPVASMPGVHQVSLDHLTAEMEELVTRGIRSVIVFGVPAHKDEVGSEAYHEEGIVQRAIRQIKEEVPSLTVIADTCLCQYTDHGHCGIVRDGDIANDESLTYITQTAVTQAEAGADIIAPSNMMDGFVAAIRRGLDEAGFSHIPVMSYAVKFASAFYGPFRDAAHSSPQFGDRRAYQMDPSNRLEALREAESDVEEGADFLIVKPALAYLDIMREVKDRYNLPVVAYNVSGEYSMIKAAAQNGWVNEKEIVLEKLTAMKRAGADLIITYFAKDAADWLKEDQS	PGPT0003655_3899	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003655-hemB-K01698	NA	NA
AK012_01123	777			hypothetical protein	ATGGACGCGCCACTGCACGGGAAGAACATCCTCATCACAAGAGGCAGATCCCAGGCGGCGCCGTTGAAAGAGCGGATCGAGGAAGCGGGCGGTGTTCCAAGACACACCCCGCTTCTCGCTTTTCAATTGAACGATCAACAGACAAACGAACCCATATTAGATGAACTTCACGAATTTTCCTGGATTTTTTTAACCAGTTCCAATGCCGTGAAGTTTTTTTTCAAATGGCTGCATAAGCATGGCAGGAAACTTCCTGCGGACGTCCGGACGGCTGTCATCGGTACAAAAACGGAACGCGCTCTGCAGAGATATGGAAGAAAAGCGGATTTTTTGCCTGCATCCTTCCAAGCGGCTAAAATGGAAGAGGAATTTTTTCAAAAGTACCCGGAACCGGGAAAGCTTTTATACATACGGGGAAATCGTTCCCGGGACGTTCTTCCGGCAGCTTTTCGTAAGCGGGCCGTGTTTTTCAAATCACTCACGGTTTATGATACGCTGTTACTGACGAATGACCAGAAAAATATTACCAGCTGGCTGGAGAACGGTGACCTGGACGCCTTGACGTTTACGAGTCCGTCCACCATTCAGGCTTTTAAAACGGTGACCAAAGGCAGCCGGGAGAGCGGCCTGTCCCTGCCCTGCTTCTGCATCGGACCGACGACGGCCCGGAAAGCGGAGACAGAAGGGTTTACCGATGTGTTTACTCCGCCGCAGTATACGATAGAACACATGGTGGAACAGATGATATTATATTTCAAGAACGAAGGGAATCGATAG	MDAPLHGKNILITRGRSQAAPLKERIEEAGGVPRHTPLLAFQLNDQQTNEPILDELHEFSWIFLTSSNAVKFFFKWLHKHGRKLPADVRTAVIGTKTERALQRYGRKADFLPASFQAAKMEEEFFQKYPEPGKLLYIRGNRSRDVLPAAFRKRAVFFKSLTVYDTLLLTNDQKNITSWLENGDLDALTFTSPSTIQAFKTVTKGSRESGLSLPCFCIGPTTARKAETEGFTDVFTPPQYTIEHMVEQMILYFKNEGNR	PGPT0003665_2148	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003665-hemD-K01719	NA	NA
AK012_01124	930	hemC		Porphobilinogen deaminase	ATGAGAAAAATCATTATCGGTTCAAGAAAGAGTAACCTGGCGATCACCCAGACGGAATGGGTGATCGATCAGCTGAAACAAATTGATCCATCCTACGATTTTGAAATCAAGCGGATCACGACAAAGGGTGACCAGATCCTTGATGTGACGCTGTCCAAAGTCGGAGGCAAAGGCTTGTTCATCAAGGAAATCGAACAGGCGATGTATGACGGTACGATTGATATGGCTGTCCATAGTATGAAGGATATGCCGGCTGTGGTGGCCGAAGGGTTGACGGTTGCCTCTGTGCCCATCCGGGAAGATCACCGCGATGCGTTCGTATCCAATGATCACGTCGCTTTGAAAGACCTTCCGGAAGGGGCTGTCGTGGGGACGAGCAGTCTGCGCCGCGGGTCTCAGATCAAAGCGGTCCGCCCGGATCTTGAGATTAAATGGATCCGTGGGAACATTGATACGCGGCTTCGGAAGTTGAAAGAGGAAGATTACGACGCTATTGTGCTCGCCGCTGCCGGTCTGAAGCGCATGGGCTGGGATGACAACCTTGTCACAGAATACCTGGAGCCGGATGTTTGTGTTCCTGCTGTCGGTCAGGGGGCCCTGGCCATCCAGTGCCGTGAGGAAGATAAAGAACTGCGTGATTTTCTTATGAAATTGAATCATGAATATACACAGACGACCGTGGCAGCTGAACGGAAATTCCTTCACGACCTGAATGGCGGATGCCAGGTTCCGATCGGCGGGTACGCGTACCGGAAAGGCGATGATATCGTTCTTACCGCTCTAGTCGGGACACCGGACGGCGAAACGATTCTTCATGAGACGGTCACTGGACAGGATCCGATTGAAGTCGGGCGTCATGCGGCTGATCTTTTAAGAGAGCAGGGAGCGCAGGAAATCGTTGATCGTGCCAAAGAGGAGTATGGTCAGTAA	MRKIIIGSRKSNLAITQTEWVIDQLKQIDPSYDFEIKRITTKGDQILDVTLSKVGGKGLFIKEIEQAMYDGTIDMAVHSMKDMPAVVAEGLTVASVPIREDHRDAFVSNDHVALKDLPEGAVVGTSSLRRGSQIKAVRPDLEIKWIRGNIDTRLRKLKEEDYDAIVLAAAGLKRMGWDDNLVTEYLEPDVCVPAVGQGALAIQCREEDKELRDFLMKLNHEYTQTTVAAERKFLHDLNGGCQVPIGGYAYRKGDDIVLTALVGTPDGETILHETVTGQDPIEVGRHAADLLREQGAQEIVDRAKEEYGQ	PGPT0003660_3670	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003660-hemC-K01749	NA	NA
AK012_01125	819	ccsA_2		Cytochrome c biogenesis protein CcsA	ATGTTTGAGTTGAAATGGGTGTACGAGCTGATCCTTTTCCTTTATGGACTCAGCCTGATCGGATATTTCATTGACTTTGTCCAGACAAACCGGAAGGCCAACCGTGCGGCCTTCTGGTTACTTAGTATGGTCTGGGCATTACAAAGTGTTTTCCTGTTGTCCCAGTTCTTCATCAAGGATAACTTTCCAATCATGACGGTTTACGACGGCTTATATTTCTATACTTGGATTCTGGTGACCTTTTCTTTATTAATCAACCGGTTGTTCAAGATGGATTTCCTCGTCTTCTTTACGAATGTCGTCGGCTTTCTGATCATGATTATTCATATTTTCACAAGGGCTCAGAATGCATTGGATAATGAAGGGGTGGCGCTCGTCAATGAACTTCTTGTCATTCATATCAGTCTGGCGATTATCTCTTATGGATTTTTCACCCTTTCCTTTATTTTTTCCATCATGTATTTACTGCAGTACCGGCTGTTGAAAAAGAAAAAATGGAATGCCAAACTGTTCCGGCTCGGGGATTTAACAAAGCTGGATCATTTTTCTTATATTGCGGTCATTTTAGGCGTACCGCTGCTGCTTATAGCGATTATTCTCGGAGTTGTCTGGGGCTATGTTTCGACAGATGTGTTCTACTGGTATGATTTCAAGACGCTCGGTTCTTTCCTCGTGTTAATCGGCTATATGATCTATCTCATTCTGCGGGTGGTTAAAGGGTATCAAGGACGGACCATTTCCATTTTTAACGCCGCCGCTTTTTTATTCCTGCTTATCAATTTCTTTTTATTCAGCTCCCTATCGAACTTTCACTTTTAA	MFELKWVYELILFLYGLSLIGYFIDFVQTNRKANRAAFWLLSMVWALQSVFLLSQFFIKDNFPIMTVYDGLYFYTWILVTFSLLINRLFKMDFLVFFTNVVGFLIMIIHIFTRAQNALDNEGVALVNELLVIHISLAIISYGFFTLSFIFSIMYLLQYRLLKKKKWNAKLFRLGDLTKLDHFSYIAVILGVPLLLIAIILGVVWGYVSTDVFYWYDFKTLGSFLVLIGYMIYLILRVVKGYQGRTISIFNAAAFLFLLINFFLFSSLSNFHF				NA	NA	NA	NA	NA
AK012_01126	1374	hemA	COG0373	Glutamyl-tRNA reductase	ATGCACATTATAGCCGTCGGTCTTAATTACAAAACAGCCCCTGTGGAAATTCGAGAGAAGCTCACATTTTCCGAGGATAAGCTTGAAGAAGCTATGGCCCAGCTCAACGGGCGTAAAAGTGTATTGGAGAATGTGATTATTTCTACATGCAACCGAACGGAAATCTTTGCCGTCGTGGACCAGATCCATACGGGACGGTACTATATTAAACAGTTTTTATCAGACTGGTTTCAAGTGGATAAAGAGTCATTCACTTCTTACCTTGCGATATATGAAACAGATGGAGCGGTCGAACATCTGCTGCGCGTCACTTCCGGTCTTGATTCCATGGTCCTTGGAGAAACGCAGATCCTTGGACAGATGAAGCAGGCGTTTCAGCGTGCTCAGAATGCCGGAACGACCGGAACGATATTCAACCAGTTGTTCCGACAGGCTGTCACTATGGCGAAGAAGGCACATAAGGACACGGAGATCGGTGAAAACGCTGTCTCCGTCAGTTATGCAGCTGTTGAACTGGCACGCAAAATCTTCGGTGACCTCGTTCATAAGCACATCGTGATCCTTGGTGCTGGAAAAATGGGTGAGCTTGCAGCTAAAAACCTTCACGGCTCAGGTGTCCGTAAAGTGACCGTCGTGAACCGTACGATGGAAAAAGCCCGTACTGTCGCTGGTCAGTTCAATGGGTATGCCCGTACGATGGACGAACTGGAAGCCGTGCTGGGTGATGCGGATATCGTCATCAGTTCTACAGGTGCGTCGGAGTATGTCATTACGAAGGAAATGATGGAGCCGGTCCATAAGAAACGGAAGGGCAAACCGCTTTTCTTCGTAGATATTGCTGTACCTAGAGATCTGGATCCGGCAATGGAGGCCTTGGAAAGTGTCTTCCTCTATGATATTGATGATCTTCAGGGAATCGTGGACGCCAACCTGGAAATGCGCAGGCAGGCGGCAGAGGAAATCGAAATCATGATGGAAGCAGAAATCGTGGAATTCAAACAGTGGCTCCAGACGATCGGCGTGGTGCCGGTGATTTCTGCGCTGCGTTCCAAAGCGCTCGACATTCAGTCGGAAACGATGAAAAGCATTGAGCGGAAAATGCCGGATCTATCCGATCGTGAGCGTAAAGTATTGAACAAGCATACGAAGAGTATCATCAACCAAATGTTGAAAGAACCGATTTCCCAGGCGAAGGAACTGGCGGCTCAGCCTGATTCTGAAGAGACGCTGAAGCTGTTTACGCAGATTTTCGGCATTGAAGAACAGGTGGAAAAAGAGGCCGCTCAACAGGAAAAAAAGAACAGCGCAGCGAATGAGCGCCGGGTAGAGGCGGATCAATCTGTTTCCATCATCAGCCCTGTGATTCATTCCTGA	MHIIAVGLNYKTAPVEIREKLTFSEDKLEEAMAQLNGRKSVLENVIISTCNRTEIFAVVDQIHTGRYYIKQFLSDWFQVDKESFTSYLAIYETDGAVEHLLRVTSGLDSMVLGETQILGQMKQAFQRAQNAGTTGTIFNQLFRQAVTMAKKAHKDTEIGENAVSVSYAAVELARKIFGDLVHKHIVILGAGKMGELAAKNLHGSGVRKVTVVNRTMEKARTVAGQFNGYARTMDELEAVLGDADIVISSTGASEYVITKEMMEPVHKKRKGKPLFFVDIAVPRDLDPAMEALESVFLYDIDDLQGIVDANLEMRRQAAEEIEIMMEAEIVEFKQWLQTIGVVPVISALRSKALDIQSETMKSIERKMPDLSDRERKVLNKHTKSIINQMLKEPISQAKELAAQPDSEETLKLFTQIFGIEEQVEKEAAQQEKKNSAANERRVEADQSVSIISPVIHS	PGPT0003650_723	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003650-hemA-K02492	NA	NA
AK012_01127	483			hypothetical protein	TTGAACAAAAACCATACCCTGCTTGGGTTCCTCTTCATTGGACTTGGTGCATATTTTTTTCTTCGTCATCTCAATATTCCCCACCTGCAGCCATTTTACTCATGGCCGTTCCTGCTTGTTCTGATCGGTGCAGCCTTTCTGTTTCACAGCTATGTGAGCAGGGATACGTCCAGCCTGTTTACCGGGACAATTGTCACCGGCTTCGGTATTCATTTTCTAGCCGTGGATCAGCTGGCTTTCTGGCGCGATCACTGGGGCGTTTACTTATGTATTGTCGGTGCAGCTTTCCTGCTGCAATATCGAAAAACAAAAAAAGGACTGATTCCAGCCCTGGTCCTGCTGGGTACAGGAGCTTTTGTCCTGTTTTCACCAACGCTGCCGGCCTGGATTCAGTGGATCAACCAATTCTTTCTTTTAATCGAAAGGTTCTGGCCGCTGGCGCTGATTGCTTTCGGTCTCTATCTTCTAAAAAAGAAAACATAG	MNKNHTLLGFLFIGLGAYFFLRHLNIPHLQPFYSWPFLLVLIGAAFLFHSYVSRDTSSLFTGTIVTGFGIHFLAVDQLAFWRDHWGVYLCIVGAAFLLQYRKTKKGLIPALVLLGTGAFVLFSPTLPAWIQWINQFFLLIERFWPLALIAFGLYLLKKKT				NA	NA	NA	NA	NA
AK012_01128	735	glnQ_2	COG1126	Glutamine transport ATP-binding protein GlnQ	TTGTCTGATTATATGATAGAAGCGAATCAATTAAATAAATATTTCGGAGACCTGCACGTCTTGAAAGATATCGACTTTCAGGTGAAGGAAAGTGAAGTCGTCGTTCTCATCGGAGCCAGTGGCTCCGGTAAAAGTACGATGCTGCGCTGTCTGAATTTCCTTGAAATGAAAAACGGCGGAGAGCTGTACATTCAAGGGAAGGAGATCAATCCGAAGAAGGATAACTTGAATGCCGTCCGCCAGCGGGTCGGAATGGTGTTCCAGCATTTCAATCTATTCCCGCATAAAACCGTGCTTGGGAATGTGATTGAAGCTCCTCTGCAGGTGAAAAAGCTTTCCAAGGCCGAGGCAAAAGAGGAAGGCCGGCAGCTGTTGGAGAAAGTCGGACTTGGAGATAAAGCGGATGTATTTCCGTCCCGCTTGTCGGGCGGGCAGAAACAGCGTGTAGCCATCGCCCGTGCCCTTGCCATGAAACCGGAAATCATGCTGTTTGATGAACCGACCTCCGCTCTTGATCCTGAGCTTGTCGGGGAAGTGCTTCAAACGATGAAGACACTTGCGCAGGAAGGGATGACGATGGTCGTCGTTACGCACGAAATGGGCTTTGCCCGTGAAGTGGCCGACAGAGTGGTGTACATGCACGATGGCAGGATTGTCGAAAGCGGAACACCTCAGGAGATTTTTGAAAATCCGCAGGAAGAGCGTACGCAGGCCTTCCTGAGTTCCATCCTCTAA	MSDYMIEANQLNKYFGDLHVLKDIDFQVKESEVVVLIGASGSGKSTMLRCLNFLEMKNGGELYIQGKEINPKKDNLNAVRQRVGMVFQHFNLFPHKTVLGNVIEAPLQVKKLSKAEAKEEGRQLLEKVGLGDKADVFPSRLSGGQKQRVAIARALAMKPEIMLFDEPTSALDPELVGEVLQTMKTLAQEGMTMVVVTHEMGFAREVADRVVYMHDGRIVESGTPQEIFENPQEERTQAFLSSIL	PGPT0020790_5411	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
AK012_01129	666	artQ	COG0765	Arginine transport system permease protein ArtQ	ATGTATCTAAATGTTGTTCATTTCTGGGATTCATTGATCAGCAGTCGTGGCATTTTCTTTGAAGCGGCACAGCTGACCCTTGCCTTAACGGCTGTATCTATTTTTATTGCGATTTTTATCGGACTTATGTTTGCGTTTATGAAAATCTCCGGCATAAAGGTGCTGGAATGGATAGCTAATCTATATATTTATGTCGTCCGGGGCACCCCGTTGATTGTTCAGATCTTTGTTTTCTATTATGGATTGACAGAAATCTGGATGATCAGCGGGTTCTGGTCCGTGGCTCTTGGTCTGGCCTTCCATAACGGCGCCTATATTGCTGAAATATTCAGAGGCTCGATTCAGTCGATTGGGAAAGGACAGACAGAAGCCGGACGTTCCCTCGGAATGAGTCAGACCCTCACTATGCGCCGGATCATTCTGCCCCAGGCATTCAGGCGTGCATTGCCACCGCTCGGAAATCAGTTTATTATTGGGTTGAAAGATTCATCCCTGGCTGCATTCATCGGGGTATCGGAGATTTTTGCTGTCGCTACGACACAAGGAGCGAATACCTTTGATTACATGACCTGGCTGCTTGTCAGTGCGGTATGGTATTTGATTCTTGTCTTCCTGCTGACCCTCGTTGTCGGAGCTGTAGAGAAGAAACTGGCGGCCAGCGATTAA	MYLNVVHFWDSLISSRGIFFEAAQLTLALTAVSIFIAIFIGLMFAFMKISGIKVLEWIANLYIYVVRGTPLIVQIFVFYYGLTEIWMISGFWSVALGLAFHNGAYIAEIFRGSIQSIGKGQTEAGRSLGMSQTLTMRRIILPQAFRRALPPLGNQFIIGLKDSSLAAFIGVSEIFAVATTQGANTFDYMTWLLVSAVWYLILVFLLTLVVGAVEKKLAASD	PGPT0020795_10690	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
AK012_01130	828	fliY	COG0834	L-cystine-binding protein FliY	ATGAAGAAAATGAATGGAGTACTGCTGCTGCTCTTGACTCTGGTGCTTTTCCTGGCTGCTTGTGGAAGCGGTGAAGAAGACACGTCGGGAGATGAAGGGGACAGCGGTTCAGAGGATACAGCAGAAAATAACACGGATTACGAGCTTGTCGAAGATGGGACTTTTACTTTTGCGGCTTCCGGAGAGTTCCGCCCATTTAGTATGACCGGGGCGGACGGAGAGATGGAAGGTTTCGATATTGATGTGGCCAATGCGATCGCAGAGGAGCTGGGTCTTGAACCGAGTCCTCAGAAACAGAAGTTCGCAAGTATTGTGGAAGGTGTGAAAACCGGGCGTTTTGACGCTGCGGTAGCCAGTCATACGATAACAGAGGAACGTCAGCAGGAAGTAGACTTCTCGACGCCGTACTATTATTCCGGTGCACAGATTTTCACCCGCCCGGACAGTGACATCGAAACGCTTGAGGATTTGGAAGGCAAAGAAGTCGCTCTTTCTAAAGGATCGACATACAGTCAGTATGCAGAAGAAGTGACAGAGAATATTAAAACGTATGACAGTGATGTTGTGGCTCTGCAATCCTTGTCCAAGGGGCGTCATGATGCTGTCATCACCGACTTCTTGACTGGAAAGGAAGCTTCCGGTGAAGGGCTGGAAATCGAGGCGAAGGAAATGATTGAGCGCAGCGAACAGGCCGTTGCCGTATCGAAGGAAAACACAGAATTACTAGATGAGATCAATACAGCACTGGAAACCCTTCGAGAAAATGGGACTCTTTCTGAGATCAGCGAGGAATATTTTGGGGAAGACATCACAACTGCTCCTGAATAA	MKKMNGVLLLLLTLVLFLAACGSGEEDTSGDEGDSGSEDTAENNTDYELVEDGTFTFAASGEFRPFSMTGADGEMEGFDIDVANAIAEELGLEPSPQKQKFASIVEGVKTGRFDAAVASHTITEERQQEVDFSTPYYYSGAQIFTRPDSDIETLEDLEGKEVALSKGSTYSQYAEEVTENIKTYDSDVVALQSLSKGRHDAVITDFLTGKEASGEGLEIEAKEMIERSEQAVAVSKENTELLDEINTALETLRENGTLSEISEEYFGEDITTAPE	PGPT0020800_7601	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
AK012_01131	588	engB	COG0218	putative GTP-binding protein EngB	ATGAAGGTTAATTCCGCAGATATCGTCATTAGTGCGGCGAGCAAGAAACAGTATCCCAACCAACCGATTCCTGAGATCGCCCTCGCCGGGCGGTCGAATGTCGGTAAATCATCGTTTATCAACAAGATGATTCAAAGAAAGAACCTGGCACGGACATCCTCCAAGCCGGGGAAAACGCAGACGCTTAACTTTTATATCATCAACGATAAATTCCATTTCGTGGATGTGCCGGGTTACGGCTATGCGAAAGTTTCCAAAAAGGAACGGGCCAAATGGGGAGCGATGATGGAGGAATATTTCGCTGAACGTGAACAGCTGAAAGCGACAGCCCTTATCATCGATGTCCGCCATAAGCCTTCCGAAGATGACCAGGTGATGTATGACTATCTGAAGCATTTTGATGTGCCGGTAATGGTCATTGCAACAAAGCTTGATAAAATTAAAAAAGGGCAGCGCCATAAGCAGTTGAAAATGATTCAGGAGGTGCTGGAAATGGAAGAAGAGGATACACTCATTCCATTTTCGTCGGAAACAGGTGAAGGAAAAGATAAAGCCTGGAAAACGATGCTCTCTCATCTGCAGGTATAG	MKVNSADIVISAASKKQYPNQPIPEIALAGRSNVGKSSFINKMIQRKNLARTSSKPGKTQTLNFYIINDKFHFVDVPGYGYAKVSKKERAKWGAMMEEYFAEREQLKATALIIDVRHKPSEDDQVMYDYLKHFDVPVMVIATKLDKIKKGQRHKQLKMIQEVLEMEEEDTLIPFSSETGEGKDKAWKTMLSHLQV				NA	NA	NA	NA	NA
AK012_01132	2331	lon1	COG0466	Lon protease 1	ATGACAGACAAACAAAGAAACAATATACCTCTACTTCCTCTTAGAGGGCTGCTTGTCTACCCATCCATGGTGCTACACCTGGATGTCGGCCGGGAGAAATCTGTCCAGGCCCTGGAGCAGTCCATGATGGATGATAATGAAATTTTTCTTGTTTCTCAAAAAGAAGTAAACATTGATGAACCAGCGTATGAAGATCTTTATTCCGTAGGGACCGTAGCCCGCGTCAAGCAGATGGTGAAGCTTCCGAACGGAACCAACCGTGTGCTTGTCGAAGGACTGCACCGGGCGGGCATGGATGAATTCAATGAAGAAGGCGACTTTTTCAAAGCATCCATCCAGATCATCGATGACGAGCACGAAGATAAAAACGAAGAAGAAGCGCTGATGCGCATGCTGCTCGATCAATTTGAGAAGTTCGTGAAAGTATCCAAAAAAGTGACGCAGGAAACGTACAACACGGTAGCGGACACGGATGATCCCAGCCACCTGGCTGATATCGTCTCCTCCCACCTGCCGATTAAGCTGAAGGACAAGCAGGATGTGTTGGAAACCCGTAATGTGAAAGAGCGTCTGAATAAACTGATTGAGCTGATCGGCAATGAACGCGAAGTGCTTCAGATTGAACAGAAGATCGGCCGTCAGGTGAAAAAATCGATGGAGAAAACCCAGAAGGAGTACTACCTCCGCGAGCAGATGAAGGCCATTCAGAATGAACTGGGCGATAAAGACGGGAAGACCGGTGAAGTGGCTCAGCTGAAAGAGAAAATTGAGCAGGCTTCCATGCCGGAGCGTGTGGAACAGATCGCCCTGAAGGAACTCGGCCGTTATGAAAAGGTACCACAGAGTTCCGCAGAGAGCTCTGTCATCCGTAATTATATCGAGTGGCTTGTTGTTCTCCCGTGGTCTGAGGAAACGGAAGACAATCTGGATGTCAACCGGGCGGAAGGTATTTTAGATGAAGATCACTACGGCCTTGAAAAAGTGAAGGAGCGGGTACTGGAGTACCTGGCTGTCCAGAAGCTTACGCAGTCGATCAAGGGGCCGATTCTCTGCCTTGCCGGACCTCCCGGAGTAGGGAAGACATCCTTGGCCAAGTCCATCGCTCGATCCATCAACCGTAAATTTGTCCGTGTATCGCTTGGTGGTGTGCGGGACGAAGCGGAAATCCGTGGTCACCGCCGGACGTACATCGGTGCGATGCCGGGCCGGATCATCCAGGGGATGAAGCGGGCGGAAACCGTTAACCCGGTTTTCCTTCTGGATGAAATCGACAAAATGGCAAGCGACTTTCGGGGAGATCCGTCTTCGGCTATGCTTGAAGTGCTGGATCCGGAGCAGAACGGCACATTCAGTGACCACTTCATTGAAGAGCATTATGACTTATCGAAAGTTATGTTCATCGCTACAGCCAACAACGTAGCCAACATTCCCGGACCGTTGCGCGACCGGATGGAAATGATTACGATTGCCGGTTATACAGAAGTGGAGAAGCAGCAGATTGCCAAAGAGCACCTGCTTCCGAAGCAGATTAAGGAAAACGGCTTGAAGAAAAGCCAGCTGCAGGTAAGAGAAGATGCGCTTCTCAAGCTCATCCGCCGTTATACCCGTGAAGCCGGCGTCCGTGGTTTGGAAAGAGAGCTGGCCGGATTATGCCGGAAAGCGGCTAAGATCATCGTAGCCGGTGACAAACAGCGTGTAGTCGTAACAGAAAAAATGCTCGAGGAACTTCTTGGGCGTCCGAAGTTCCGTTATGGACGTGCTGAGCTAGAGGATCAGATCGGGGCGGCTACAGGCCTTGCCTATACGACAGCCGGCGGAGACACGCTTTCTATTGAAGTGTCCATCTATCCAGGCAAAGGCAACCTGACGCTGACGGGTAAATTGGGGGATGTGATGAAAGAATCCGCCCAGGCTGCTTTCAGTTATATCCGTTCGCGTGCAGCCGAGCTTGATATCGATCCAGAGTTTGTGGAGAAGAACGACATTCACATTCATGTTCCCGAAGGAGCGACACCGAAGGATGGTCCATCAGCAGGAATCACAATGGCTACAGCCCTTGTTTCCGCTCTTACCGGGCGTCCTGTCCGTAAGGAAGTCGGGATGACTGGTGAAATCACCCTTCGTGGACGGGTGCTTCCGATCGGCGGCTTGAAGGAGAAATCCTTGAGTGCCCACCGGGCCGGCTTGACGAAAATCATCATTCCTGATGAGAATAAGAAAGACCTGGAAGATATTCCAGACAGCATAAAAGAAGGCTTGACCTTCGTCCCTGTCAAACACTTGGATGAAGTATTGGATCAGGCACTGGTGGAGGGTGCACATGAAGGTTAA	MTDKQRNNIPLLPLRGLLVYPSMVLHLDVGREKSVQALEQSMMDDNEIFLVSQKEVNIDEPAYEDLYSVGTVARVKQMVKLPNGTNRVLVEGLHRAGMDEFNEEGDFFKASIQIIDDEHEDKNEEEALMRMLLDQFEKFVKVSKKVTQETYNTVADTDDPSHLADIVSSHLPIKLKDKQDVLETRNVKERLNKLIELIGNEREVLQIEQKIGRQVKKSMEKTQKEYYLREQMKAIQNELGDKDGKTGEVAQLKEKIEQASMPERVEQIALKELGRYEKVPQSSAESSVIRNYIEWLVVLPWSEETEDNLDVNRAEGILDEDHYGLEKVKERVLEYLAVQKLTQSIKGPILCLAGPPGVGKTSLAKSIARSINRKFVRVSLGGVRDEAEIRGHRRTYIGAMPGRIIQGMKRAETVNPVFLLDEIDKMASDFRGDPSSAMLEVLDPEQNGTFSDHFIEEHYDLSKVMFIATANNVANIPGPLRDRMEMITIAGYTEVEKQQIAKEHLLPKQIKENGLKKSQLQVREDALLKLIRRYTREAGVRGLERELAGLCRKAAKIIVAGDKQRVVVTEKMLEELLGRPKFRYGRAELEDQIGAATGLAYTTAGGDTLSIEVSIYPGKGNLTLTGKLGDVMKESAQAAFSYIRSRAAELDIDPEFVEKNDIHIHVPEGATPKDGPSAGITMATALVSALTGRPVRKEVGMTGEITLRGRVLPIGGLKEKSLSAHRAGLTKIIIPDENKKDLEDIPDSIKEGLTFVPVKHLDEVLDQALVEGAHEG	PGPT0014315_4530	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014315-lon-K01338	NA	NA
AK012_01133	1278	clpX	COG1219	ATP-dependent Clp protease ATP-binding subunit ClpX	ATGTTTAAATTTAACGATGAAAAAGGACAATTGAAGTGTTCTTTCTGCGGAAAGAGTCAGGAACAAGTCCGAAAACTCGTTGCAGGACCTGGCGTATATATATGTGATGAATGTATTGAATTGTGCACAGAAATCGTGGAAGAGGAGCTTGGCAACGAAGAAGAGGTGGAGTTCAAGGAAGTTCCAAAACCTCAGGAAATCCGTGACATTCTCAATGATTATGTAATCGGACAGGACCAGGCGAAGAAGAACCTTTCCGTAGCTGTCTACAACCACTACAAGCGTATCAACGCAGGTGTAAAAAATGATGAGGTGGAACTTGCGAAGAGTAACATCCTGATGCTTGGGCCTACCGGAAGCGGTAAAACACTGCTTGCCCAGACCCTTGCCCGCATCCTGAATGTTCCATTCGCGATCGCAGATGCCACATCACTGACAGAGGCTGGTTATGTCGGGGAAGATGTAGAGAACATTCTTCTCAAACTGATCCAGGCTGCTGATTATGATGTTGAGAAAGCAGAAAAAGGAATCATCTATATTGATGAAATCGATAAAGTAGCACGTAAATCCGAAAACCCTTCCATTACACGTGATGTGTCCGGTGAAGGTGTCCAGCAGGCACTTCTTAAGATCCTTGAAGGAACGCAGGCAAGTGTTCCTCCACAGGGTGGACGGAAGCATCCTCATCAAGAATTCATCCAGATTGACACGACAAATGTCCTGTTTATCGTGGGTGGGGCCTTCGATGGGATCGACCAGATTATCAAGCGCCGCCTGGGCAGAAAAGTGATCGGATTCGGCTCCGAACAGGTGACAGACGATGCAGAGAAAAAGGATCTTCTGACAAAAGTACTGCCTGAAGACCTTCTAAGCTATGGTCTGATTCCTGAATTCATCGGACGTCTGCCGGTTATTGGAAGCCTTGAGCAGCTGGATGAAGACGCGTTGGTTGAAATCCTTACAAAACCGAAAAACGCTCTTGTCAAACAGTATCAAAAGCTGTTCCAAATTGACCATGTGGAGCTTGAGATGGAGGAAGAAGCTCTTCGTGAAATTTCCCGCCTTGCCATTGAACGTAAGACAGGGGCACGAGGACTGCGCTCCATTATCGAAGGCATCATGCTTGATGTGATGTATGAACTTCCTTCCCGCGATGATATCGAGAAGTGTATTATCACGAAAGATACAGTGAAAGCGGAAAACGGACGTCCGAAGCTTGTGCTGACGGATGGCACCGTTGAGGATGAAAACAAGCAGTCACCGAAAGAAAGTGCGTAA	MFKFNDEKGQLKCSFCGKSQEQVRKLVAGPGVYICDECIELCTEIVEEELGNEEEVEFKEVPKPQEIRDILNDYVIGQDQAKKNLSVAVYNHYKRINAGVKNDEVELAKSNILMLGPTGSGKTLLAQTLARILNVPFAIADATSLTEAGYVGEDVENILLKLIQAADYDVEKAEKGIIYIDEIDKVARKSENPSITRDVSGEGVQQALLKILEGTQASVPPQGGRKHPHQEFIQIDTTNVLFIVGGAFDGIDQIIKRRLGRKVIGFGSEQVTDDAEKKDLLTKVLPEDLLSYGLIPEFIGRLPVIGSLEQLDEDALVEILTKPKNALVKQYQKLFQIDHVELEMEEEALREISRLAIERKTGARGLRSIIEGIMLDVMYELPSRDDIEKCIITKDTVKAENGRPKLVLTDGTVEDENKQSPKESA	PGPT0014600_2385	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014600-clpX-K03544	NA	NA
AK012_01134	1287	tig	COG0544	Trigger factor	ATGTCAGCAAAATGGGAAAAGCAAGAAGGCAACGTAGGTACATTAACAGTTGAAGTACCTGCCGGCGAGTTCGACAAAGCGCTTGATTCTGCCTTTAAAAAAGTAGTTAAACAGGTACAGGTGCCTGGATTCCGTAAAGGGAAAGTACCTCGTAAATTGTTCGAACAGCGTTTCGGAGTAGAATCTCTGTATCAGGATGCTCTTGATATCATCCTTCCGGAAGCTTACTCAAACGCCGTGGACGAAGCAGGCATCGAGCCGGTTGACCGTCCAGAAGTTGATGTGAAGCAGATCGAAAAAGGCCAGGACCTTATTTTCACAGCTGAAGTAACTGTGAAGCCTGAAGTGAAGCTTGGCGAATACAAAGGTCTTACTTTCGAAGAAGCAGACACAGAAGTTACTGATGAAGACGTAGACAGCGAACTGAAGCAGATGCAGGAGCGTCAGGCTGAGCTTGTTGTTAAAGAAGAAGGATCCGTTGAAAACGGCGATACTGTCGTTATGGACTTTGAAGGCTTCGTTGATGGGGAAGCATTCGAAGGAGGCCAGGCGGATAACTACTCTCTAGAAGTAGGTTCCGGTTCTTTCATCCCTGGTTTCGAAGAGCAGCTTGTTGGTAAACAGGCCGGCGAAGAAACAGAAGTGGAAGTAACATTCCCTGAAGAATATCACGCAGAAGAGCTTGCTGGTAAAGCGGCTACCTTCAAAGTGAAAATTCACGAAATCAAAGGCAAGGAACTTCCAGAGCTGGATGACGAATTCGCGAAAGATGTCGACGAAGAAGTCGAATCCCTGGAAGAGCTTAAAACGAAAACACGCACACGTCTGGAAGACCAGAAGAAAACCGATGCGGACAACCAGAAGCGTGAAACACTTGTAAATAAAGCTTCTGACAATGCAGAAGTTGAAATTCCGGATGCCATGGTCGACACAGAGCTTGACCGTATGGTTCAGGAATTCGAACAGCGCCTTCAAATGCAGGGCATGACAAAAGACATGTACTTCCAGTTCACTGGTCAGGACGAAGACGCCCTTCGTGAGCAGATGAAAGAAGATGCGGCGAAGCGTGTGAAAACGAACATGACTCTTGAAGCTATTTCCGAAGCGGAAAATGTCGACGTAACAGACGAAGACGTCAATGCTGAACTTGAAAACATGGCTGGCATGTACCAGACAGATGTAGCTCAGCTGACGCAGATGCTTGGCGGTAACACGGACATGATCAAAGAAGATCTGAAAGTGCGCAAAGCCATCGACGTTCTTGTCGAAAACAGCAAAGCTGAATAA	MSAKWEKQEGNVGTLTVEVPAGEFDKALDSAFKKVVKQVQVPGFRKGKVPRKLFEQRFGVESLYQDALDIILPEAYSNAVDEAGIEPVDRPEVDVKQIEKGQDLIFTAEVTVKPEVKLGEYKGLTFEEADTEVTDEDVDSELKQMQERQAELVVKEEGSVENGDTVVMDFEGFVDGEAFEGGQADNYSLEVGSGSFIPGFEEQLVGKQAGEETEVEVTFPEEYHAEELAGKAATFKVKIHEIKGKELPELDDEFAKDVDEEVESLEELKTKTRTRLEDQKKTDADNQKRETLVNKASDNAEVEIPDAMVDTELDRMVQEFEQRLQMQGMTKDMYFQFTGQDEDALREQMKEDAAKRVKTNMTLEAISEAENVDVTDEDVNAELENMAGMYQTDVAQLTQMLGGNTDMIKEDLKVRKAIDVLVENSKAE				NA	NA	NA	NA	NA
AK012_01135	954			hypothetical protein	ATGTTTCCTGGATGGAAATCGAGACTGGAGCAGTCGGGACTGGCTGCTTTGAAGGAAAAGCGTTATAAGGAAGCGGCTGAAGCCTTTGAACCGCTTGTTGAGTATGATCAGGCCGGCCATGATGTCATCACAGGGCTGCTGATGAGCTGGATCGAACTTGGTCATTTTGATCAGGCTGAGGAATTGTGTCAGGAGCAGATGAAGGAAACGATCGACCAGTATTACCATTACTTACATATATATATTACGATACTTTTTCAAAGCAGCCGTTACAGCGACATCATTGATCTGCTCGATGAAGTTTTTGAATCCGAGGACATTCCCCACCAGAGCCGCACACAGCTGTGGCAGATGTACGAGGTCAGCAGAAAGCTGCTGGAAGACAGCCGGAAAGAACAGGGGAAGGAACTATCCCTTGCCTTCAAAGAGGCCTTGAAGTCAGATGAAATACATAAGCAGTGGCAGACCCTCGAGACGTTGAAAAAGCAGGATCCCCATGATTATCTGGAGGAGTTCACCACCTATCTCCGGGAGCCTGCTGTACACCCCATGATAAAATCCTCGATTTTGGAATGGTTTAGAGATGGACGCGTAGACAAAGAAGTGGCTCTGACAAAATTCGGCATGGAAATCACCGTTGTTCCCGGTGACTTATCCATGCTGCAGCATGATTACATTATGAAACAGATCCAGATGAGGCTCGGCCGGATGGAACAGAAAAATCCGACCATGTACGAGATGGTGAATAACCTCTTGTTCCATTACTGTTATGTTCGTTACCCGCTGTTCCCGGATGAAGAGGAAGTGCCGCTGCTTGTCGAAGCATTAAAGCAGCTGGGTCATGAATACCTGCAGCTTCCTTATCAACCGGATTCCCCTGCAGAGGACGTCGCCCGGTATAAAACAGATATTGAACTGTGTGAACAGCATTATGTTTTGGTGACCGGTTCCTAG	MFPGWKSRLEQSGLAALKEKRYKEAAEAFEPLVEYDQAGHDVITGLLMSWIELGHFDQAEELCQEQMKETIDQYYHYLHIYITILFQSSRYSDIIDLLDEVFESEDIPHQSRTQLWQMYEVSRKLLEDSRKEQGKELSLAFKEALKSDEIHKQWQTLETLKKQDPHDYLEEFTTYLREPAVHPMIKSSILEWFRDGRVDKEVALTKFGMEITVVPGDLSMLQHDYIMKQIQMRLGRMEQKNPTMYEMVNNLLFHYCYVRYPLFPDEEEVPLLVEALKQLGHEYLQLPYQPDSPAEDVARYKTDIELCEQHYVLVTGS				NA	NA	NA	NA	NA
AK012_01136	150			hypothetical protein	TTGTCACTGCTTGATGATCAAACCTTGCTGGAAACCTATCTGGAGTCTGTAAAGCTTCAGCTGGACGATGAATTTGTTCACTTAGTCACACAAGAAATTGATAAACGATCCATCCAACTACCAACCGAGAATTCCGCACATCTTATATAA	MSLLDDQTLLETYLESVKLQLDDEFVHLVTQEIDKRSIQLPTENSAHLI				NA	NA	NA	NA	NA
AK012_01137	159			hypothetical protein	ATGGAAAAGAAAAATGTGCAGTGGCTGCCGGTTATCGCTTCGATCGGTATCGGTGCGGCCACATACAGCATGATGACTGGTCAGGCCGGGCAGCTGCAGAACGTCATTCCGAGTTTAGCGAAGATGTCCGGGAAACAAGGTACAGCCTCTAATCAGTAA	MEKKNVQWLPVIASIGIGAATYSMMTGQAGQLQNVIPSLAKMSGKQGTASNQ				NA	NA	NA	NA	NA
AK012_01138	393			hypothetical protein	ATGAGTGCCATCATATTATTCGACGGGGAGTGCCATTTCTGCGACAAAAGTGTCCAGTTCATCATTCAACGAGACCCCCGCAGCCGGTTCCAATTTGCATCGCTTCAAAGTGACAAGGGCCGGGAACTGCTTTTGCAGTATAATATCCCGCACGACATCGACAGCCTGGTCCTTATCCAGGACGGAAAAGCACATTTAGAATCCACGGCGGCTTTATCCATCAGCCGTCAGCTGAAAGGGATGTGGAAGCTTGCGTACATCCTGATTCTGATTCCAAGACCGCTGCGCAACGGTTTTTACCGGTGGTTTGCCGCCAACCGTTACAAATGGTTCGGCAGAAAAGAAAATACCTGTCCGATACCAACCCCGGATGTCCGTAAACGATTTTTATAA	MSAIILFDGECHFCDKSVQFIIQRDPRSRFQFASLQSDKGRELLLQYNIPHDIDSLVLIQDGKAHLESTAALSISRQLKGMWKLAYILILIPRPLRNGFYRWFAANRYKWFGRKENTCPIPTPDVRKRFL				NA	NA	NA	NA	NA
AK012_01139	891			hypothetical protein	ATGGAGGGACCTGCCATCAGTGGTCAACAAGTCCAGCACTTGAAAATTACGTCCAAGGAATTTACGAAACGTGCCGTCTTCATCACCCTCGGTGCCATCATTATGGCGGTAGGACTGGAAATTTTCCTCGTTCCGAACCAGGTTATTGATGGAGGCATTGTCGGCATATCCATTATTCTGTCGCACTTAACCGAATGGAAGCTCGGGCTGTTCATCTTCCTGTTGAATATTCCGTTCTTTTTTCTCGGGTATAATTTGATCGGAAAAACGTTCGCCTGGTCAACGGTGTACGGCATTGCCATCCTTTCAACGGCAACAACTGTGCTTCACCCTGTACCTGCCTTTACCGATGATATCCTGCTCGCGACATTATTCGGGGGATTCATCCTCGGTATTGGTGTAGGAATGGTCATCCGCTACGGCGGCTGTCTCGACGGAACAGAAATCTCTGCGATTCTGATCAGCAGCAAAATCCCGTTTTCTGTCGGCGAAATCATTATGTTCATCAACCTTTTCATCCTTGGAAGCGCGGGCTTCGTCTTCGGATGGGACCGGGCGATGTATTCCCTGCTCGCCTATTTTGTCGCTTATAAAATGATCGACATTACGATCAAGGGACTGGATGAATCGAAGGCTGTACATATCATCAGCGATGAATACGAAAGCATCAGTGAAGCCATCATCCAGCGCCTCGGCCGCGGGGTCACCTTTTTGAAAGGAGAAGGAGCCTTCTCCAACGATGAGAAGAAAGTAATCTTCTGCGTCATCAACCGCCTGGAGGAAGCAAAGCTGAAAGCGCTCGTCCAGGAGCACGATGAAGAAGCTTTCATGGCCATCGGGGATATTGCCGAAGTGCGGGGTGGACGCTTTAAGAAAAAAGAAATTCACTAA	MEGPAISGQQVQHLKITSKEFTKRAVFITLGAIIMAVGLEIFLVPNQVIDGGIVGISIILSHLTEWKLGLFIFLLNIPFFFLGYNLIGKTFAWSTVYGIAILSTATTVLHPVPAFTDDILLATLFGGFILGIGVGMVIRYGGCLDGTEISAILISSKIPFSVGEIIMFINLFILGSAGFVFGWDRAMYSLLAYFVAYKMIDITIKGLDESKAVHIISDEYESISEAIIQRLGRGVTFLKGEGAFSNDEKKVIFCVINRLEEAKLKALVQEHDEEAFMAIGDIAEVRGGRFKKKEIH				NA	NA	NA	NA	NA
AK012_01140	1629	lcfB_2	COG0318	Long-chain-fatty-acid--CoA ligase	ATGAAAAGCGAAATGAAACGGCATCAAGTAGAGAACATGTACCCTCTTGGAAAACACCCGCTTCTCGTATACGTCCAGCACCACGCAGAGGAGCGCCCGCATGAGGCTGCTTACTTTTATTATGGATCCACACTGACGTGGGCGGAGCTTTTGAATGATATTGAAAAGATGGCTGGATTTTTGTCACAGAAGGGCTTTGAAAAAGGGGACCGAGTCGGGCTTTATATGCAGAACAGCCCGCAGTATATCATTGCCCACTATGCCATTCAGTCAATTGGTGGGATTGTCTGTCCGTTGAACCCGATGTACAAAGCGAGCGAGTTAACCTATTTAATGAAGGAAGTCGGCATGAAAGGACTGTTTACCGGTGGGGAACTGTTAAGTGAGGTGAGAAAAGCAGACAGCGACCTTCATGTGGTTCTTGTTGTTTCCTATGAAGATTATATACCTGTTACTACCGATTGGGAAATTCCGGAGGACTTGAGGGTTCCGGATCTAACATTAAATGAAAAGGAAACCCACTGGAGCGATGCTGTAAACGAAGCGGAACCGCAAAAAGCGTCTGGAATTGTCAATATGGATGATACAGCACTGCTTGCTTTCACGTCAGGAACGACCGGTAGACCGAAAGCGGCGATGCTCACATATGAGAATGCGCTTTACAAAACGGCAGCGGCTGTGGAAGCGAATGGGGTGGAAGAGGAAGAGACGTGGCTTGCGGTGATGCCGCTTTGTCACATTGCGGGTATGGTGATGGGTGTGAACATCCCGGCGTTTACCGGTTCCCCCTGTGTGCTGTTTGCCAGGTTTGATCCACGGCAGGTGCTTAAAGCACTGACTGCTTACGATGTGTCGATGTGGTACAGCATCGCCCCGATGAATGAGGCTGTGTTATCCGTGGTAGACGGGGAAAAAGCGGATGCTCTGCGGCTCAATTTGTGTACGAGCTTCGGTATGCCTGTGACAGAAGACCTGGCAGAACGCTGGCGTTCTTTTGCGCCGGATTGTTCGTTGTATGAAGCGGCTTACGGTCTGAGTGAGACCCATACCGTGGACACCTATATGCCCGGTGACGGTGTGAAATTCGGATCTGTCGGCCTTCCTGTTCCTGGGTCATTACTGGCTGTCCGCGATCCCTTAACAAAAGAACAGCTGCCCCTCGATGAGTCAGGGGAAATCGCTGTAAAAAGTCCCGGTGTGTTCAAAGGCTACTGGGGACGGCCTGAGGCGACAGCGGAAGTGCTGGCGGATGGATGGATGCATACGGGTGATATCGGTTATTTCGACGAAGACGGCTATTTATACTTTCAGGGACGTCTGAAGGAAATGATCAAATCGTCAGGATTCAGCATTTTCCCTGAAGATGTCGAAGCGTTATTGAAGGAACATCCCGCCATCTCCCAGGCGGCTGTCATCGGTGTGCCGAATGAATCAAAGGGGGAGGTTGTCAAAGCGTTCATTGTTCTGAAAGAGGAAGCAGCACTGGAGGAGGAAGAGCTGATTCAATGGGCAAAAGCGCATATGGCTCGTTATAAAGTTCCAGGGTTTGTGGAATTCCGCCCATCCCTCCCTCAGACCGGCGCGGGTAAAATCCTAAGGCGCGTGCTGAAAGAAGAATCCCGAGAATGA	MKSEMKRHQVENMYPLGKHPLLVYVQHHAEERPHEAAYFYYGSTLTWAELLNDIEKMAGFLSQKGFEKGDRVGLYMQNSPQYIIAHYAIQSIGGIVCPLNPMYKASELTYLMKEVGMKGLFTGGELLSEVRKADSDLHVVLVVSYEDYIPVTTDWEIPEDLRVPDLTLNEKETHWSDAVNEAEPQKASGIVNMDDTALLAFTSGTTGRPKAAMLTYENALYKTAAAVEANGVEEEETWLAVMPLCHIAGMVMGVNIPAFTGSPCVLFARFDPRQVLKALTAYDVSMWYSIAPMNEAVLSVVDGEKADALRLNLCTSFGMPVTEDLAERWRSFAPDCSLYEAAYGLSETHTVDTYMPGDGVKFGSVGLPVPGSLLAVRDPLTKEQLPLDESGEIAVKSPGVFKGYWGRPEATAEVLADGWMHTGDIGYFDEDGYLYFQGRLKEMIKSSGFSIFPEDVEALLKEHPAISQAAVIGVPNESKGEVVKAFIVLKEEAALEEEELIQWAKAHMARYKVPGFVEFRPSLPQTGAGKILRRVLKEESRE	PGPT0008380_14259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK012_01141	1485	accD5_2	COG4799	putative propionyl-CoA carboxylase beta chain 5	ATGAATACAAACGAAAAACAAACCGATTCTTCTACAGAGCAGAAGCCTATGAAGCTCACCGCTCATGAAAGAATTCACCTGCTTGCTGATGACGCATCCTTTCTTGAACTCGGAAAATCTGCCCATTCATCTGTCCCGGAAATGGAAGAACGGACGCCTGCCGATGGGCTGATCGGCGGTTTGATCCGTGTCGATGGCCGGGAAGCGGTCGTTCAGGCGATGGATGTGAGTGTGTTGTCGGGAACAGAAGGGGAGGTGCACCTCCGGAAGAGTGAGTATTTTCATCAATACGCGAAAAAGAGGAAGCTGCCGCTATTTAATTTGTGTGAAGGTGGTGGGCTGCGGATGCCGGATGGGATGGGTTCAGACGGAATCAGTGACAAGCTTTTTCCGAACTGTCTGCTGGATCACTCCAGAGAAACCCCGATTCTTACCGCCATTCTTGGGGACAGCTTCGGCGGTCCGACGTGGATGGCCGTGACATCGGATTTTGTCACACAGGTGCGCGGAACGGGAATGGCCGTTGCCGGGCCGAGGATGTTGGAGATGGCGAGTGGAGAAGAGATTACAGCCGAAGAACTTGGAGGGCCTGATATGCATGCGGCATATACAGGACAGATTGATCACGTCGCTGAAACAGAGGAAGAAGCGATAACGGCTATGAAGCGGTTTTTCAGCTATCTGCCTTCTTCATATGAAGACACGCCTCCTTTTAAAGTATCTGTGCCTTCGCCCTCATCTTCAGGGGAAAACGCAGCGGCTGTTGTTCCTTCGAACATGAGACGGCCGTATGACATGAATAAACTCATTCGAGAGATTGTCGATCCGGAATCCTTTATGGATTTCCGACCTTTTTACGGAAAAGCACTCCTGACGGGTCTCGCGCACATGGACGGGCGGGTCACAGGAGTGGTGGCGAGTCAGCCGCTACACATGGCGGGGGCTCCAGGGCCGGAGGAGTGTGATAAGGCGGTGGATTTCATCTGCCTCTGTGATTCGTATCATATTCCTTTGATTTTTCTTCACGATACTCCCGGGTTCAGGATCAGCAGCCAGGCAGAAAAGCGGAAAATGCCTTCAAAGATTATGAATTGGAATACGGCACTTGCTAAATCCACTGTTCCGAAGTACTCCATCGTCATTCGCAAAAGCATTGGAGCGGCGTATGGGAACATGGCTGGTCCGGGCATGGGGGCGGACGTGGTGGCTGCCTGGCCGGAGGCTGAAATTAACTTTACCGGCCCCGACGTTGGTGTGAATGTTGTTTATGGAAGACAGATCAAACAGGCGGACAATCCTTCTGAAGCCCGTGCGGCTTATCTGGAACAGTGGAGCTTCGACAGCTCACCAGCGAAAGCCGCGGGTAAGTTCTTGATTCAGGAAATCATCGAGCCGGAACAGACCCGGGATTTTCTGCTTCGTTTTTTGCGAACGGCGTCGGATAAAAGTGAAAGACGGCTGGCAGACTGGCCGATGTCCACATAA	MNTNEKQTDSSTEQKPMKLTAHERIHLLADDASFLELGKSAHSSVPEMEERTPADGLIGGLIRVDGREAVVQAMDVSVLSGTEGEVHLRKSEYFHQYAKKRKLPLFNLCEGGGLRMPDGMGSDGISDKLFPNCLLDHSRETPILTAILGDSFGGPTWMAVTSDFVTQVRGTGMAVAGPRMLEMASGEEITAEELGGPDMHAAYTGQIDHVAETEEEAITAMKRFFSYLPSSYEDTPPFKVSVPSPSSSGENAAAVVPSNMRRPYDMNKLIREIVDPESFMDFRPFYGKALLTGLAHMDGRVTGVVASQPLHMAGAPGPEECDKAVDFICLCDSYHIPLIFLHDTPGFRISSQAEKRKMPSKIMNWNTALAKSTVPKYSIVIRKSIGAAYGNMAGPGMGADVVAAWPEAEINFTGPDVGVNVVYGRQIKQADNPSEARAAYLEQWSFDSSPAKAAGKFLIQEIIEPEQTRDFLLRFLRTASDKSERRLADWPMST	PGPT0002300_718	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002300-mmdA-K01604	NA	NA
AK012_01142	1266	ylmB_1	COG0624	N-formyl-4-amino-5-aminomethyl-2-methylpyrimidine deformylase	ATGAAAACCAGTAACGAGCTTGTTCGTAATAAAATAGAAGAACTATGGGAAGAAGAAAAATTGTTCTTAAAGACACTCGGAAGTTTTCCAAGTACATTAGGAAATGAAAAAGGTATTCAACAGTTTGTTTACAACTACTTACAGGATATTGGCTTGGAGACTGAGGTGGTCGCGGTCGACCCGGACCGATTAAGAAAGTATGAAAACTTTGGTGAACCTGAATGGTCTTATGAAGACCGCCCCGTAGTGGTAGGAGAATGGAAAAATAACGGACCGAAAAAAGGAAAGAGCCTCATCCTGCAAAGCCATATGGACGTGGTAAATGCGGAACCTGAAGATCAATGGGAAACTCCGCCATACTCGCCGGTAATAAAAGACGAAAAAATGTACGGTAGAGGGATTCTGGATATGAAAGGCGGGTTTGCGGCTATTGTGATGGCTGTTAAAGCACTTCGTGAATCCGGCATTGAACTCGGTGCAGATCTGCATATTCAGAGTGTCATCGAAGAAGAATGTACCGGGAACGGGGCACTTGCCTTACTACATCAGGGATACACGGCAGATGGAGCTCTTATCCCTGAGCCCACCCAATCTCGTTTGATTAAGGCACAAGTAGGCGTTATATGGGTTCGGGTGAAAGTAAAGGGAGCCGGCGCACACGTAGAACGTGCGGAAAGTGCTCAAAATGCCATTATGAAAGCGAATAAACTGATGGAATCGCTGATGGAGTACCGTGAGCATATTAATAACCGTTCAAAACATCCCGATTTTGAGCATCACCCCCATCCACTCAACGTCAGTGTTGGTCTGATTGAGGGAGGGAACTGGGCATCAAGCGTTCCAACCGAATGTACGTTTGAAGCTCGAGTCGGCTTTTATCCAGGAACCGATCCGGAAGATGTAAAAGAAGAGGTCGAGCAATGGTTGTTGGATGCTGCTGAAGAGGATGATTGGCTTAAAGAAGCAAAGCCGCAATTTACGTTTTATGGCTTTTCTGCCCCAGGCTATACGATTGCGAAAGAAGAAGAGATTATGGAGGAAATGGCTGCCTCGCATTATGCGGTAACTGGAAAAGAGGTAGAAGACCTGTCGTTTACTGCTACCACGGATTTGCGGGCGTTTGGTGAGTTCGATATTCCTGCCACGTGTTATGGTCCGAGTGGGGGCGATATGCATGCGCCGAATGAGTATATTGAGCTTTCAAGTTTAAAAGAAGTGACGCATACGATTGCTGAGTTTATTTTACGGTGGTGTAAAGAAAAGTAG	MKTSNELVRNKIEELWEEEKLFLKTLGSFPSTLGNEKGIQQFVYNYLQDIGLETEVVAVDPDRLRKYENFGEPEWSYEDRPVVVGEWKNNGPKKGKSLILQSHMDVVNAEPEDQWETPPYSPVIKDEKMYGRGILDMKGGFAAIVMAVKALRESGIELGADLHIQSVIEEECTGNGALALLHQGYTADGALIPEPTQSRLIKAQVGVIWVRVKVKGAGAHVERAESAQNAIMKANKLMESLMEYREHINNRSKHPDFEHHPHPLNVSVGLIEGGNWASSVPTECTFEARVGFYPGTDPEDVKEEVEQWLLDAAEEDDWLKEAKPQFTFYGFSAPGYTIAKEEEIMEEMAASHYAVTGKEVEDLSFTATTDLRAFGEFDIPATCYGPSGGDMHAPNEYIELSSLKEVTHTIAEFILRWCKEK	PGPT0014254_659	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014254-argE-K01438	NA	NA
AK012_01143	1218	hyuC_1	COG0624	N-carbamoyl-L-amino-acid hydrolase	GTGGACACGATTAATGAAGAACGACTCTTCCGTATGCTTTCCAAAAGTTCAGAAACAGGGGCGATTCCGGGAAATGGTCTAAGGCGACTAGCACTATCTGATCAAGATCAAGAGATGAGAAATATATATAAAGAATGGTGTGAAGAAGCAGGATTAAAGTTACGGATAGACGACTTAGGAAATATGTATGCCAGAAGAGAAGGAAAGAATAACCTCCTTCCTGTGGTGGTGGGATCCCACTTGGACACTCAGCCAGCAGGAGGGCGATTCGATGGCATCCTCGGAGTTTTATTGGCTCTGGAAGTGGTGCAGACTTTAAATGATAATGGCATAGAAACCGAACGACCTCTGGAAATCGTTAATTTCACAAATGAAGAAGGTGCTCGATTTGAACCTCCTATGCTCGGATCTGGTGGGATCGCCGGGGTATTCGATCAAGCGTATGTATATAGTAGAAAAGATGCTGATGGCTTTAGTTTCTTAGAAGAATTGGAAAGAATCGGATACAAAGGAGAAGAAGGAAACCGACTTGGTGATTTCCATTCTTTTCTCGAGCTACATATTGAACAAGGCCCCATTCTTGAAGATGAAGACAAACAGATTGGAGTTGTGGAAGGGGTTCAGGGCATCAGTTGGCTGGGAGTAACTCTTAAGGGGGAAGCGGATCATGCCGGTCCGACTCCGATGCACTTACGAAAAGATGCGATGATGGCCGCTGCAGAAATTATGAATCAATTGGAAAAAGATATTGCGACTACCGATATTACCGTAACTGTTGGTAAGATCTCCGTTTTTCCAAATTCAGTTAATTGTGTTCCTGGCGAAGTTCATTTTACAGTAGATATTCGAAGCGCCAATGATAATCTTCGAAAGCAAGCATTTGAAGGAACGAAGCACACGATTCGCCGTGTCTCTGAGGACAGAGAGGTGAGCGTGGAGATGACAGATTTGTGGGAAACTGAAAAAATTGATTTTGATAGCAGTATTACGGAAGTTATAGAAAACAGTGCAACTGAGCTCGGGTATTCTTCAAAAAGAATACTTAGCGGTGCCGGCCATGATGCAAAGTACGTCAACAATCTAGGTCCCACGGCCATGATTTTTGTGCCGAGCGTAAACGGCAAGAGTCATGTGCCCAGCGAATTAACACTTGATCGAGATATTGTGAGCGGAGCCAATACGCTCTATCATACGGTACTTACATTATCCAATGAATAA	MDTINEERLFRMLSKSSETGAIPGNGLRRLALSDQDQEMRNIYKEWCEEAGLKLRIDDLGNMYARREGKNNLLPVVVGSHLDTQPAGGRFDGILGVLLALEVVQTLNDNGIETERPLEIVNFTNEEGARFEPPMLGSGGIAGVFDQAYVYSRKDADGFSFLEELERIGYKGEEGNRLGDFHSFLELHIEQGPILEDEDKQIGVVEGVQGISWLGVTLKGEADHAGPTPMHLRKDAMMAAAEIMNQLEKDIATTDITVTVGKISVFPNSVNCVPGEVHFTVDIRSANDNLRKQAFEGTKHTIRRVSEDREVSVEMTDLWETEKIDFDSSITEVIENSATELGYSSKRILSGAGHDAKYVNNLGPTAMIFVPSVNGKSHVPSELTLDRDIVSGANTLYHTVLTLSNE	PGPT0021095_2193	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0021095-pydC-K06016	NA	NA
AK012_01144	1593	opuE	COG0591	Osmoregulated proline transporter OpuE	ATGGCCATTACGATATTTGCGCTCGTCTTACTGCTTTATGTAGGTGTAGGAGCTTTCATTAGCCGTTATGTTAAAAATAGTGATGACTTTTATACCATGGGAGGAAGAGGATCGACCATTCTTATCGTCGGTACGCTTGCAGCCACGTATCTTAGTGCTGCAACGCTGTTGGGGATAGCGGGTCAATCTTATAAAGAAGGTCCTCTGGTTATTGCTACACTCGGATCATTTGGTGCCTGGATTGGAACTCTGATCGCTGTCGTCTATATGGGAAGAAAAATGAAGGCGCTAGGTTGTAAAACGATGCCGGACTTCTTTGATAAGCGATTCAACAGTAAGTGGGTCAGCATTATTGCTATTATCATAATGATTGTAGGTTTGGTTGGGTACGGTGTTATTCAGTTTATTGGAGCAGGACTGGTACTAAGTGAAATAACGGGTATCAATTTCCAATTACTCATTGTCTTATTTACAATTGCGTTGATTGCCTTTACAGCCTTTGGTGGTATGTATGGAGTGGTCGTAACGGATACGCTCATGTTCTTCACGATGCTTGCGATCTCTATTGTAATTGCTCCGATAATTATTGGACAGGCTGGGTTTGAACAGATGAAAGGTTTATCGGAAACCATGCCTAATTACTGGACAATTGGAGGTACAGAAAATCGCTCGATTGGTTGGTCAATTTCTCAGTTTCTCGTTTGGATTATGTTCTTTGCCTGTATGCCGGCACTGGTATCACGTGTATTTCCGGCTAAAAACGATTTCGTCATTCTAAAAGCAGCTATCATCGGTGTCTTTTTCGCACCTTTCATGCAGTTGACCGTCTTTATCGCAGCAGGTGGTATGCAAGTATTGCAACCAGGTATTACGCCTACGGACAACGCGATGATTGTTGGTTTTATGGAGTTTACACCTCCGGCAGTGGCAGGTGTAGGACTCGCTGCACTCATGGCTTCCATCATGTCCACAGCTTCTACATTATTTGTCCTGGTAGGTTTCGCATTATCCAGAGATTTGTATGAAAGACTGTTTGAGAAAGAACTTAATGAGAAACAAAGCCTTACTGCAGCAAGAATTGGTCAAATCATAGTAGCGGTCGTCATCTGCGCGATTGCGCTTGCTCGACCATCAGCGATTTATTGGATTTCTATTTATGCCGGGTCCATTTTTGCGGTTGGCTGGCTGCCGACTATCGTAGCATCTTTTGAATGGAAGAAAATGAACAGTAGAGCCGCTATGATCAGCATGGTATCCGGGGTTGTTTCGTTTCTTCTCTTCGGGGAGCTGATCAGAACAGGGGTTATGACGCTGCCGACCGGTGTGGACGAACTGATGCTGGCGCTGCTTGTCTCTGTACTATCTCTCATAGGCGCTGGGATCGTAACGAAGCCGAATGCCCATGAACTGAATTATTATACAGAGATGAAGCGTTCAAGTATGGCATCGATAACTATCAAGGAATTTTTGAAGCAGCCGAACGGTCTTCAAAAGATCAAAAAGCAGTATAAACAGTTAATTACTGTTTCTGTACTATTTACATTCATATCCGTCGTGGTATGGGGATACTTTTTTATAAAACTCGGACTCTAA	MAITIFALVLLLYVGVGAFISRYVKNSDDFYTMGGRGSTILIVGTLAATYLSAATLLGIAGQSYKEGPLVIATLGSFGAWIGTLIAVVYMGRKMKALGCKTMPDFFDKRFNSKWVSIIAIIIMIVGLVGYGVIQFIGAGLVLSEITGINFQLLIVLFTIALIAFTAFGGMYGVVVTDTLMFFTMLAISIVIAPIIIGQAGFEQMKGLSETMPNYWTIGGTENRSIGWSISQFLVWIMFFACMPALVSRVFPAKNDFVILKAAIIGVFFAPFMQLTVFIAAGGMQVLQPGITPTDNAMIVGFMEFTPPAVAGVGLAALMASIMSTASTLFVLVGFALSRDLYERLFEKELNEKQSLTAARIGQIIVAVVICAIALARPSAIYWISIYAGSIFAVGWLPTIVASFEWKKMNSRAAMISMVSGVVSFLLFGELIRTGVMTLPTGVDELMLALLVSVLSLIGAGIVTKPNAHELNYYTEMKRSSMASITIKEFLKQPNGLQKIKKQYKQLITVSVLFTFISVVVWGYFFIKLGL				NA	NA	NA	NA	NA
AK012_01145	180			hypothetical protein	ATGAATGTTGAAATCTTAATTTTATTTATTAACGCAACGCTGGTAACCGTCATTTCATCCGTTGTTGTAATTGCCATTCTCAGAAAGCAATATCTGCCTGTTATCAAAGAGATGGAAAAGGAAGAGAATCAGGAAGAGTATACGGAATCGGAAGAAAAACGAATCAACAGTAATTTATAA	MNVEILILFINATLVTVISSVVVIAILRKQYLPVIKEMEKEENQEEYTESEEKRINSNL				NA	NA	NA	NA	NA
AK012_01146	1392	yhdG_1	COG0531	putative amino acid permease YhdG	ATGAAAGAACAAAAATTAAAGAAAGTCCTGTCAAACTTTGATTTATTATTTCTGGCCCTTGGAGCGATGCTTGGATGGGGATGGGTGGTGCTTTCTGGTACGTGGATTACGGAAGCGGGGTCATTGGGAGCGGTTATAGCTTTTGTGATTGGTGGATTTCTTGTGATCTGTGTGGGGTTGAACTATGCAGAACTCGCTTCAGCAATGCCCAAGGTGGGGGGAGAGCATGAATACGTACATAAGGCATTAGGAGCCAAGTACTCTTTTGTAGCCTCTTGGGCAATAACTCTTGGATATGTATCCGTAGCAACTTTTGAAGCCGTTGCTCTACCTACTGTCATCGACTACTTACTACCGGATTACCAGGCTGGTTATCTGTGGACCATTGCTGGTTGGGATGTTCACTTAAATTGGGTGTTAATTGGTTCAGTTGGAGCCTTAATAATTACGTTCATTAATTATATCGGTTTAAAACAGGCGGCAGTTCTGCAAACGGTTTTTACTTTGATGATTATTGCTGTAGGACTCATATTAATTTTCGGGTCTGCGTTCCTTGGAGACCCAGGGAATCTGTCTCTATTCTTCGTTGGAGGTGCGAGCGGTATCATGACCGTATTAGTTATGGTCCCCTTCTTGTTTGTCGGATTTGATGTGATTCCACAGGTGGCGGAAGAAGCCAATCTGCCTCGCAGGAAAATCGGTACACTATTAATTGTATCTGTAAGCAGTGCTGTTATATTTTATCTTGCTATTGCCTTAGGAGTGGGATTAGGATTAAATCCTGCTCAGCTGGCGAATGCCCAACTCGCTTCTGCAGATGCGATGGGAGCACTTTTTAATTCAAATACGTTTGCCCAAATTCTGATCCTTGGCGGTGTGGCCGGGATTATCACAAGCTGGAACTCTTTTATTATTGGGGGTAGCCGCGTCCTCTATGCGATGGCGAAATCTGGAATGCTGCCCGCCTGGTTCGGTTACCTGCACCCGAAGTACCATACACCTTCGAATTCGATATTATTTATCGGCATTCTTTCTATGCTAGCACCACTATTAGGTCGGTCCGCACTCGTATGGATTGTAGATGCTGGCGGCTTAGGAATAGTCGTTGCCTATTTCTTTGTAGCCCTATCTTTTATTGTTTTAAGGAAAAATAAACCCGAGATGGAGCGACCATTTCGCGCAGCAAAATCACCAATCTTTGGCTACTTAGCTCTCGTATTAAGTTTAGGGTTCATAATTCTATATTTCCCTGGGATGCCAGCAAGCCTTATCTGGCCGTATGAGTGGATCATGGTAGCTGGGTGGACTTTACTTGGCGCTTATTTCTTTATTCAGATGTTGCGTGGAACATATCAGAAGAAAATAAGTTCCTCGGAGGAGCGGGCTTTGTAG	MKEQKLKKVLSNFDLLFLALGAMLGWGWVVLSGTWITEAGSLGAVIAFVIGGFLVICVGLNYAELASAMPKVGGEHEYVHKALGAKYSFVASWAITLGYVSVATFEAVALPTVIDYLLPDYQAGYLWTIAGWDVHLNWVLIGSVGALIITFINYIGLKQAAVLQTVFTLMIIAVGLILIFGSAFLGDPGNLSLFFVGGASGIMTVLVMVPFLFVGFDVIPQVAEEANLPRRKIGTLLIVSVSSAVIFYLAIALGVGLGLNPAQLANAQLASADAMGALFNSNTFAQILILGGVAGIITSWNSFIIGGSRVLYAMAKSGMLPAWFGYLHPKYHTPSNSILFIGILSMLAPLLGRSALVWIVDAGGLGIVVAYFFVALSFIVLRKNKPEMERPFRAAKSPIFGYLALVLSLGFIILYFPGMPASLIWPYEWIMVAGWTLLGAYFFIQMLRGTYQKKISSSEERAL	PGPT0000711_89	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_ASPARTATE_TRANSPORT,PGPT0000711-yveA-NA	NA	NA
AK012_01147	1395	gabD_1	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)]	ATGGGGAATACGATCCAGGTAAAAAACCCGGCAACCGGGAATCTTTTGAAAGAGGTAGATGTAACCTCAGCTGTAGCTATCGAAACAGCCTTAAGAGAGGGAGATGAGGCATTCAAATCGTGGTCAAAGGTGAATGCTCATGAGCGTTCACGTCTTTTGAAAGAATGGTCTGAGAAGATTAAAGAAGAAACGGAACAGCTGGCGGAAGTAATGACGCTTGAAAGCGGAAAGCCGCTTAAAGAATCTCGTGGAGAAGTCGCCTATGCGGCAAGTTATATTGATTGGTATGCGGAAGAAGCAAAGCGGATTTACGGCAGGACGGTTCCCGCTCACACGGAAACCAAGCGGATTGTCGTAACGAAAGAACCTGTCGGGCTCGTCACGGCTATCACGCCGTGGAATTTCCCTGCGGCAATGATGACGAGAAAAGCTGCTCCTGCGTTAGCTGCAGGTTGCACGTTCGTGGTTAAACCTGCCGAAGAAACGCCGCTTACGACGATCAGATTGGTGCAGTTAGCCCATGAGGTTGGGATTCCAAAAAATGTGGTTCAATACGTGAATGGATACGGAGTAGATGTGGGGCCGATTTTCACAGATAGTCCACTCGTACGTAAGATAACCTTTACCGGTTCTACGCCAGTAGGCAAGTTACTAATGGGAAACAGTGCGGCAACCATGAAGCACGTATCCATGGAATTAGGAGGTCATGCGCCGCTTATCGTGGCAAAAGATGCTGATATTGATTTCGCTGTAAAACAGACGCTTGCTTCTAAGTTCCGGAACGCCGGACAGACATGTATCTGCGCAAATCGCGTGCTCGTCCATGAATCCATAGCGGATGAGTTTTCAGAGAAACTCACCGCTCACGTCAAAGGGCTTAAGGTTGGAAATGGTCTTCATGAAGAAACGGATGTTGGGCCGGTTATTAATGCGGGAGGTTATGAAAAGATCCATACTCAGATTGAAGACGCCGTGGATAAGGGTGCGAAAGTTCTTTATGGTCATCAATACGATAAAGATGATGTAAAAGGCTATTATTTTGTCCATCCGACTGTCCTTGAAAACGTCGGGGAAGGCATGGACATTATGCAGGAGGAAACGTTTGGTCCTGTCATTCCTCTAACAACTTTCCGGGAGAACGAAGAAGCGGTCGAGATTGCCAACAATACACCGTTCGGTCTCGCAGCTTATTTCTTCACCAATGATTATCGAACAGGCATCTACTACCAAGAGCATTTGAAGTTCGGAATCCTCGGCTGGAATGATGGTGCGCCATCTGCGGCGCATGCACCGTTCGGTGGTATGAAAGAGAGCGGCATTGGACGTGAGGGCGGTCCCGAGGGTATCGAACCTTACATTGAAACGAAGTATCTTTCCATCGGAGGCGTTGAATAG	MGNTIQVKNPATGNLLKEVDVTSAVAIETALREGDEAFKSWSKVNAHERSRLLKEWSEKIKEETEQLAEVMTLESGKPLKESRGEVAYAASYIDWYAEEAKRIYGRTVPAHTETKRIVVTKEPVGLVTAITPWNFPAAMMTRKAAPALAAGCTFVVKPAEETPLTTIRLVQLAHEVGIPKNVVQYVNGYGVDVGPIFTDSPLVRKITFTGSTPVGKLLMGNSAATMKHVSMELGGHAPLIVAKDADIDFAVKQTLASKFRNAGQTCICANRVLVHESIADEFSEKLTAHVKGLKVGNGLHEETDVGPVINAGGYEKIHTQIEDAVDKGAKVLYGHQYDKDDVKGYYFVHPTVLENVGEGMDIMQEETFGPVIPLTTFRENEEAVEIANNTPFGLAAYFFTNDYRTGIYYQEHLKFGILGWNDGAPSAAHAPFGGMKESGIGREGGPEGIEPYIETKYLSIGGVE	PGPT0001580_5787	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
AK012_01148	1308	davT_1	COG0160	5-aminovalerate aminotransferase DavT	GTGACCAATAAAACAGTAAACAAAGACAACTTACAAAGAAAGAGAATGAAATACATACCAAAAGGAATAGGGAATGGCAATACCAATATAGCCGACTATGCAAAAGGTGCCAGAGTATTCGATAATGAAGGGCGTGTATGGATTGATTTTGCAGGAGCCATCGGTACGCTTAACGTAGGGCATACGCATCCAAAGGTGACGGAAGCAGTTAAGAATCAGGCGGACCGCTACCTTCATCCGGGCTTTAATGTGATTATGTATGACAGCTACATCAATCTGGCTGAAAAATTGTGCACGATTACGCCTGGTTCATTCGATAAAATGGCTATGCTCTTTAATTCCGGGGCTGAGGCTGTAGAAAATGCGGTCAAAGTAGCCAGGAAATATACGAATCGACAGGCTGTTGTTTCCTTTGAACGCGCATTTCACGGACGTACGAATCTAACGATGGGAATGACCAGCAAGGTAAAGCCTTATAAATACAATTTCGGTCCTTATACTCCGGAGATTTATCAGGCTCCATATCCTTATATGGCCAATAAACCCAAACAGATGACCGATGAGGAATATATTGACTACAGTATCATGCGCTTTAAGGATTATTTCGTCACCGCAGTCGCACCGGAAACAGTAGCCTGTGTTGTGATGGAGCCGGTCCAAGGCGAGGGCGGTTTTATTATTCCTCCAAAACGCTTTGTGAAGGAAGTAAGAAACTTCTGCAGCGAGCATGGAATTGTTTTTGTAGCTGATGAAATCCAGACGGGTTTTGCACGAACAGGACGTTTATTCGCAAGTGAACATTTCGATATCGAGCCGGATGTGATGACGTTGTCGAAATCCCTTGCAGCAGGTATGCCGTTAAGTGCGGTAGTCGGAAAAGCAGAAATCATGGACGCTTCCTCCCCAGGGGAACTTGGTGGGACCTATGCAGGGAATCCGGTCGCCTGTGAAGCGGCTCTTGCTGTCATTGAGGTTATGGCAGAGGAAAACCTAAGCGATAAAGCAGAATACATTGGTGCTGCGTTGGAAGATAAATTAAAAGAATTGAAAGTACGCCATGATTACCTTGGCGATATTCGCAGACTTGGGGCGATGGTTGCGGTAGAAATTGTTGATACGGAAGGGAACCCGGACAAAGCAAAAACGGGTGCGATCACATCCTATGCCAACAATAATGGACTGCTGCTTCTTTCTGCTGGGGTTAAAGGTAATGTCGTTCGTTTTCTTACACCGCTTGTGATCACGGATGAGGAATTGAATGAAGGAATGGCGATTTTAGAACAGGCTTTTGACGAAGCGACAGACTAA	MTNKTVNKDNLQRKRMKYIPKGIGNGNTNIADYAKGARVFDNEGRVWIDFAGAIGTLNVGHTHPKVTEAVKNQADRYLHPGFNVIMYDSYINLAEKLCTITPGSFDKMAMLFNSGAEAVENAVKVARKYTNRQAVVSFERAFHGRTNLTMGMTSKVKPYKYNFGPYTPEIYQAPYPYMANKPKQMTDEEYIDYSIMRFKDYFVTAVAPETVACVVMEPVQGEGGFIIPPKRFVKEVRNFCSEHGIVFVADEIQTGFARTGRLFASEHFDIEPDVMTLSKSLAAGMPLSAVVGKAEIMDASSPGELGGTYAGNPVACEAALAVIEVMAEENLSDKAEYIGAALEDKLKELKVRHDYLGDIRRLGAMVAVEIVDTEGNPDKAKTGAITSYANNNGLLLLSAGVKGNVVRFLTPLVITDEELNEGMAILEQAFDEATD	PGPT0007660_1017	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
AK012_01149	1413	gabR	COG1167	HTH-type transcriptional regulatory protein GabR	TTGTTTTTCAATATTGAAAAAGGAGCCGAACAACCGGCCATTTACAAACAGATTTATACACACGTAAGAAATTTGATCCTCGACGACCGTCTCAACAAAAAAAAGCTTCCTTCCAAGCGTAAACTGGCGCAGGATCTCGGGGTCAGCCTCAACTCAGTAGCTCACGCCTATGAACAATTACTGGCGGAAGGCTACATATATACTGCAGAGCGTAAAGGATATTTTGTTGAGGATATTACGGGTTATATAAAAAAAGACGTGGAAAATGTTCCGTTCCCAGAGGAATTAATAGAGAAAGGGACGTCGGATATATTTCAGCCTGAGGTCACGTTTTCTCATATTGCAACAGATGCTGCTCACTTTCCGTTTAAGAAATGGAGAAAGTATCAGCATAAAGTCATAGAACACCATCGAACCGAGCTCGCCCTTCTTCCGCACCCTCAAGGTCCATATGAACTCCGTGATTCAATCGCCACGATGATTGCTCTCACCAGGGGTGTCCGCTGCCGACCAGAACAGATTGTCATAGGATCCGGAACCCAGCCCCTAATTCATAAACTCATGTCTCTGCAGGCAAAAGATACACAAATAGCTGTTGAAAACCCGGGATATCAGCGTTTTTATCATCTACTGAAAAACATGGAGTTCTCGGTAAGTCCAGCGACTTTGGACCGACAGGGTATCTCAATTCAGGACCTTTTGGATAGCGAACCTCAATGGGTTTTTGTAACTCCCTCCCACCAGTTTCCTACTGGGACAATCATGCCTATAAATAGAAGAATAGAGCTTCTAAACTGGGCAGCCGAGTCTCCTGGTCGTTATATTGTGGAAGACGACTATGATAGTGAATTTAAATATGGAACGGACCATATCCCTTCCCTTCAGAGTCTCGACCAGAACCAGCAGGTCATCTATACCGGGACCTTTTCGAAAACTCTGCTTCCAAGCCTACGGATCAGCTATATGGTTCTGCCACCCGACTTGTTACAAAGCTACCGGAATGCTTTTGAAGATTGGATTGACGGCCCTTCAGGACTCAACCTGTGGACCCTTAAATACTTCATTGATGAAGGGGAATACGGAAGGCACGTTAAGCGGATGAATGCCTATTATAAAGCGAAAAGAGCAGCGCTTATTCGGGAGCTGCGCCAGACGTTTCAAGACAAGGTAACAATTCACAACATTCCTGCCGGCCTTCACTTCTTAGTGGATATTGAAACGCCTCTTTCTTATGTTGAGATAGAGGAACGAGCCAGAGAAAACAAAATCGTTCTATATACGATTCGCCGCTTTTTCTTACAGGATTATGAGATGACTGAGAAAGGGAAAAAGAAACTAGTTATTGGTTTTGCTAATATGGAAGATAACAAAATAAGGGAGTCTGTAAAGCGCTTATCTTCTCTTTTCTTTTAG	MFFNIEKGAEQPAIYKQIYTHVRNLILDDRLNKKKLPSKRKLAQDLGVSLNSVAHAYEQLLAEGYIYTAERKGYFVEDITGYIKKDVENVPFPEELIEKGTSDIFQPEVTFSHIATDAAHFPFKKWRKYQHKVIEHHRTELALLPHPQGPYELRDSIATMIALTRGVRCRPEQIVIGSGTQPLIHKLMSLQAKDTQIAVENPGYQRFYHLLKNMEFSVSPATLDRQGISIQDLLDSEPQWVFVTPSHQFPTGTIMPINRRIELLNWAAESPGRYIVEDDYDSEFKYGTDHIPSLQSLDQNQQVIYTGTFSKTLLPSLRISYMVLPPDLLQSYRNAFEDWIDGPSGLNLWTLKYFIDEGEYGRHVKRMNAYYKAKRAALIRELRQTFQDKVTIHNIPAGLHFLVDIETPLSYVEIEERARENKIVLYTIRRFFLQDYEMTEKGKKKLVIGFANMEDNKIRESVKRLSSLFF	PGPT0016790_3919	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
AK012_01150	189			hypothetical protein	ATGGCAGAGGTAGATCTAACCTATGTCTTTCTACTTGAACTATTGGGTTCTTTTTTTATTTTCTATACCTCATTGCTTCTTCCCAAAAAAACAATATATCTTCTAAATATGGTCTATCTACTTGAGAAGATAACTGTTATCCAGTCATTATCCAGTCAGCAGTGGAACCATGTTTACATTAAATCATGA	MAEVDLTYVFLLELLGSFFIFYTSLLLPKKTIYLLNMVYLLEKITVIQSLSSQQWNHVYIKS				NA	NA	NA	NA	NA
AK012_01151	549			hypothetical protein	ATGGGTAAACAAAAAGTCATCTTAAAGACTATAATATTCCTATTAGCTGTTGTGGGGGTTATTACTCTTATGGTCTTTGTTCAGAGTGGAGATAATGAGACGAACAACAGCTTAATGGTGAAATGGGATCAATATATGGACACAAAGGGATATAATCCAATTGAAGTACACCAAACAAGTGAACACTTTATATTCTCTACTTTTTTAAATGAAGAGCGAAATCAGTTGGGGGTTTTGGAATATGCTGAAGGTGAAGTAATAGCTAATACTAGTGAAATAAAAGAAGACAGTACTATGAGTTACGTGTTTTTGGATGGAGATTATAGAAATTATTTAGGGGTTCGTTTCAATGAGAGTATGAATGACATTGGTAAGCTTGTAGTAGAAACAGAAGATGGTAACAAAATAACTCATGATTTATACAACAGGGAAGATGGATCAACTCGATCCAATATTTTAATAGAGACATCTTTTGGTGAAGAGGACTTACGGAATTTGATTCTAATTAGTAAGAGTGGAGAGATGTTATACAAACAGGAAGTCGAATAA	MGKQKVILKTIIFLLAVVGVITLMVFVQSGDNETNNSLMVKWDQYMDTKGYNPIEVHQTSEHFIFSTFLNEERNQLGVLEYAEGEVIANTSEIKEDSTMSYVFLDGDYRNYLGVRFNESMNDIGKLVVETEDGNKITHDLYNREDGSTRSNILIETSFGEEDLRNLILISKSGEMLYKQEVE				NA	NA	NA	NA	NA
AK012_01152	693			hypothetical protein	ATGAATTCTATTAAAAAACATTTCATGGGGATTACATTCTTATTACTTGGTCTTACCTTGCTAGTAAATCCTCAAGTCACCAATGCATCAGAGTTAAGTGGAGCAGAACCAGAGATTAACTTCACACCGGAAGTGGTTAATACATATGAAGATGAAGATGGCAATATTGTTAATGAATACTCAAAACTTCCAGATAAGTTTGTTACCGATGAGAACGGTAACATCATTGCCGAGGGTGAAGATGCTGATCCAAATAATGTGGAATCCAATTCAAATAACAATTCAGGTTCTATAGGAAGCTTAAGTTGTGGATATCAGTATTACTACGATGTAGTCGGTCGGACTAATATGGAGTATCATGCTTTTATAGACTATCACCCAGGATTTAGTGAAGCAAGGTATAACATAAAGGAGTATAATTTCACTTTATCTAGTTTAAGCTATTCAATCGGGATTTCTGGTTATGGGGGATCAGCAGAAGTATCCCTCAATACGCCTGGTTATGGCTATACCATCGATGGTGCTGAACTCAAATGGACTCGTCCAGCAGTTTATGGTACTGTTGTTAAAGAAACAGTTAAGCGCACCCGCACTGGTGGTTGTTCCGGTGGCGAGGAAGTCACTTATCAAACAAGGTACGTTGTAGATGATTCTTATATTGGAGTTAGGGAATGGAGTTATAACCCTAATTAA	MNSIKKHFMGITFLLLGLTLLVNPQVTNASELSGAEPEINFTPEVVNTYEDEDGNIVNEYSKLPDKFVTDENGNIIAEGEDADPNNVESNSNNNSGSIGSLSCGYQYYYDVVGRTNMEYHAFIDYHPGFSEARYNIKEYNFTLSSLSYSIGISGYGGSAEVSLNTPGYGYTIDGAELKWTRPAVYGTVVKETVKRTRTGGCSGGEEVTYQTRYVVDDSYIGVREWSYNPN				NA	NA	NA	NA	NA
AK012_01153	312			hypothetical protein	ATGAAACAAGAAGAATATTTAGCAACTACCATGGATGAGGTTAGTAGAGAAATTTTTGAAGAATTGGTCCAAAAAGATGGGGAGCCAAGAATTGAAACAATTACACCTGTTTTAATATTCAGGAAGATATTACAAAAATTCGACACTATAAGGATTCTGAATGAAGCTGGTGGTGGTGAAGAGGCTTTAGCTCTTTCAAGGATAGTGTTAGAAAATTACTGGTATCTAATGTTTATACTTGAAGAAGATACAGCATTTAGATCCTTATCTTATTATTACTTCGATAAAATCTTTTTGCAGAGAAATATCTAA	MKQEEYLATTMDEVSREIFEELVQKDGEPRIETITPVLIFRKILQKFDTIRILNEAGGGEEALALSRIVLENYWYLMFILEEDTAFRSLSYYYFDKIFLQRNI				NA	NA	NA	NA	NA
AK012_01156	525			Putative metallophosphoesterase MG207	ATGCCGAAAGTACTCATCATCAGTGACACACACGGACTAACCGACGAAGTAATCGAAGTGAAGGAACGTCACAGTGACGTGGATGCTATGATCCACTGTGGCGATTCCGAGCTCTCCTACGGATCAAAGGAGCTGGAAGGCTTTCATTATGCTAAAGGAAACTGTGACTTCCAACCCGAAATGGAAAACGATCAGGTTTTCTCTGTCGGAGACATCACATTCCTCGTTACGCACGGGCATTTGTTTCAAGTGAAATCCACCCTCATGCCGCTGTCCTACAGAGCAGAAGAGGCTGGAGCCCAGATCGCCTGCTTCGGACATTCTCACATTGCAGGAGCGGAAAAGGTGAAGGACACCCTCTTCATCAATCCGGGAAGCGCCAGGCTTCCGCGTGACCGCGAAGAACCGACCTACGCCATACTGGAGTGGGAGGATCTCGATCGCGTCCGCCTGCAGTATTACCATGTGAACGGGCAGAAAATCGACGGTCTCTATATGGAAACAGCAGTAGCAGCAAAGAATTAA	MPKVLIISDTHGLTDEVIEVKERHSDVDAMIHCGDSELSYGSKELEGFHYAKGNCDFQPEMENDQVFSVGDITFLVTHGHLFQVKSTLMPLSYRAEEAGAQIACFGHSHIAGAEKVKDTLFINPGSARLPRDREEPTYAILEWEDLDRVRLQYYHVNGQKIDGLYMETAVAAKN				NA	NA	NA	NA	NA
AK012_01157	594			dITP/XTP pyrophosphatase	ATGAAGGAGCTCTTAATCGCCACAAAAAACGAAGGAAAGATCAAAGAGTTCCGCGAGATGTTTTCCAAATACGGCTTCTCCGTCGTTTCTCTTCTTGATCATGACCCTTCCATCGATATTGAAGAAACCGGTACAACGTTTGAGGAGAATGCCGTCATTAAAGCAGAAGCAATGATGAACGCCTTGAATATCCCTGTTGTAGCCGATGATTCCGGTTTAGAGGTCGATGCCCTGAACGGGGAGCCGGGGGTTTATTCCGCCCGCTATGCAGGAATAGAAAAAGATGACGAAAAAAATACAGCTAAACTGCTGAACGAGCTGAACGGAGTGTCCGAAGAAGAACGGACCGCCCGTTTCGTCTGCGCCGTAGCAGTCGCACGACCGGGAGAAGCGACGTTTACGAAGCGCGGCAAGTGTGAAGGCCGGATTGCCGAGGAGCGGCAGGGAGAGCATGGGTTCGGATACGATCCTGTGTTCATTCCGGAAGGCTCCAGCCGGACGATGGCTGAGCACACGTCCGACGAAAAGAACGCCATCAGCCACCGTCATCATGCCATCGTGCAGATCGAAGACTGGCTGAAAACTCAATCCTGA	MKELLIATKNEGKIKEFREMFSKYGFSVVSLLDHDPSIDIEETGTTFEENAVIKAEAMMNALNIPVVADDSGLEVDALNGEPGVYSARYAGIEKDDEKNTAKLLNELNGVSEEERTARFVCAVAVARPGEATFTKRGKCEGRIAEERQGEHGFGYDPVFIPEGSSRTMAEHTSDEKNAISHRHHAIVQIEDWLKTQS	PGPT0021590_4386	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
AK012_01158	762	rph	COG0689	Ribonuclease PH	ATGCGAAATGATCAACGCGAAGTCAATGAATTAAGAACCGTTACAATAGAAACCGATTATGTGAAACACCCGGAGGGATCTGTACTCATCAGCTTTGGAGATACAAAAGTGATCTGTAATGCCAGCATTGAGGACCGAGTGCCTCCTTTTTTACGTGGTCAGGGCAAAGGCTGGATTACAGCTGAATACGCCATGCTTCCAAGAGCCACGGAATCACGCAACATCCGTGAATCTTCCAAAGGAAAGGTGTCCGGCCGGACGATGGAAATCCAGCGCCTGATCGGCCGTTCCCTTCGTGCGGTCGTCGATCTTGATAAAATCGGAGAGCGCACCATCTGGGTCGACTGTGACGTCATCCAGGCTGACGGTGGAACACGCACAGCTTCCATTACAGGTGCCTTTGTGGCTGTTGTGCTTGCCCTTGGAAAGCTTGTGAACAAAAAATCCATCAAAGAACTGCCGATCACCGACTACTTGACGGCGATTTCCGTCGGTGTACTGCCGGACGGTAAAGAGATCCTTGACCTCTGTTACGAAGAAGACAGCCGTGCCGAAGTAGACATGAACGTCATCATGACCGGCAAAGGCGAATTCGTAGAGCTGCAGGGAACAGGAGAAGAAGCAACCTTCTCTATGCAGCAGCTTCAGAAAATGCTTTCTCTTGCCGATGAAGGTGTCCAGGAGCTGATCAAGCTTCAGGAAGAAGCGATTGGGGAATGGGCGGACGTCATTCGGGCGAAAGCCGGAGCCGCAAAAGCATGA	MRNDQREVNELRTVTIETDYVKHPEGSVLISFGDTKVICNASIEDRVPPFLRGQGKGWITAEYAMLPRATESRNIRESSKGKVSGRTMEIQRLIGRSLRAVVDLDKIGERTIWVDCDVIQADGGTRTASITGAFVAVVLALGKLVNKKSIKELPITDYLTAISVGVLPDGKEILDLCYEEDSRAEVDMNVIMTGKGEFVELQGTGEEATFSMQQLQKMLSLADEGVQELIKLQEEAIGEWADVIRAKAGAAKA	PGPT0021590_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021590-rdgB-K02428	NA	NA
AK012_01159	1086	gerM	COG5401	Spore germination protein GerM	ATGAGAAAATACAGCTATAGATCCTTTTTGACGGCCCTTGTGCTTCTAATGTGCACAGGGCTGCTTGCCGGATGCCTGTTTGAAGGAGAGCAGTCGCTTGAGAAAATGGATGATCCGGATGAAGCTGTAACAACGTCACCGGAAGCGGAAGATGACGGTTCAGCGCCGGAAGAGGATGGAGAGAAAGCCGAGGATTCAACAGAACAGGAATCCACAGCGACCGTCCCTCGTGAGCTTTATTTACTGGATGCCAATGGCATGATCGCCCCGCAGACCGTGGAGCTGCCGGCTTCCCAGGAAGTCGCTTCCCAGGCGCTGGAATACCTTGTGAAGGATGGACCTGTCACGAACCTGCTGCCGAACGGGTTTGAAGCTGTTCTGCCGGCTGGAACAGAAATTATCGGCTTAAATACTCAAGATGACGGCACCCTTGTCGTCGATGTGTCCGAGGACTTTAAAAATTACGAAGCTGAAGATGAAGAAAAAATTCTACAGGCGATGACCTATACGCTCACTCAGTTTGATAACGTGAAGCGGATTAAGTTGTGGATCAACGGTCATGAGCAGGAAGTGATGCCTGTTGACGGTACTCCGATCTCCCAGGGAGTCTCCCGGGCGGATGGGATTAACAACCACGTCGGCGTGAAGCGTGATGTATTAAACAGTAAAGCGGTCACCGTGTACTTCCCCGCCCAGAATGGGGAGCAGGTCTATCACGTCCCTGTCACCACACGTGTTGCTGAAGACAGTGATGAGTATGCCGCAAGAGTGGAGGCCCTTTTTGAAGGGCCTGAGCTCGGCAGCTCTTTGACGAACCCGTTTCATGAAGGAGCGGAAATGGTCAGCTCCCGGCTGGAGAACGGCGTCCTCGCCCTTTCTTTCAATGAAAAAATTCTGACAGGATCGGATCAGCCAGCCCTATCTGATGCCGCCCTCGCCAGCCTCGTGTTAAGCATGACGGATCTTGAGGATGTGGAATCGGTCGAAGTTCAGGTCGAAGGATCGGAGCAGGTCATCAATGAAGCGGGTGAACCGCTCGCCGAGCCTGTGTCAAGAACCGACATTAGCGGTGCTGAAGAAATGTAA	MRKYSYRSFLTALVLLMCTGLLAGCLFEGEQSLEKMDDPDEAVTTSPEAEDDGSAPEEDGEKAEDSTEQESTATVPRELYLLDANGMIAPQTVELPASQEVASQALEYLVKDGPVTNLLPNGFEAVLPAGTEIIGLNTQDDGTLVVDVSEDFKNYEAEDEEKILQAMTYTLTQFDNVKRIKLWINGHEQEVMPVDGTPISQGVSRADGINNHVGVKRDVLNSKAVTVYFPAQNGEQVYHVPVTTRVAEDSDEYAARVEALFEGPELGSSLTNPFHEGAEMVSSRLENGVLALSFNEKILTGSDQPALSDAALASLVLSMTDLEDVESVEVQVEGSEQVINEAGEPLAEPVSRTDISGAEEM				NA	NA	NA	NA	NA
AK012_01160	819	racE	COG0796	Glutamate racemase 1	GTGAAACAGGCAATCGGAGTCATCGATTCTGGCGTCGGGGGACTGACCGTAGCGAGAGAGTTGATGAGGCAGTTACCGAAGGAGACCTTTATCTATCTTGGAGATACGAAACGGTGCCCCTACGGCCCGCGTTCAGAGGAAGAAGTACGTGCATTTACATGGCAGATGGTCAATTATCTGCTGGGCAAAAATATAAAAATGCTCGTTGTCGCGTGTAATACGGCGACGGCTTATACGCTCACAGAGCTGCAGGAAGAACTGGATATCCCGGTGATCGGGGTTATCGAACCAGGGGCGCGTGCGGCCATCAAGGTCAGCCAGAACAAGCGGATCGGCGTTATTGGTACAGAAGGGACCATTGAAAGTAAAGCCTATCCCCAGGCCCTTGTTTCCATTGATCAGGATATCCGGGTGAACGACCTTGCCTGTCCGCCTTTCGTTCCGATGGTCGAGGAAGGGATATTATCCGGTCCGAAAGCGGAAGGAATCGTTTCCCGAACGCTGCAGCCATTGAAGGACATGAATCATATCGATACGTTGATCCTCGGCTGCACCCATTATCCGCTGATCAAGGATCTGGTCCAGAACGAGATGGGGGATCACATCCAGGTCATCAGCTCCGGTGAGGAAACGGCCCGTGAAGCGAGCCTGATTCTTGCTTATCACAAAGCACTGGAAACGGATGACCACACCCCCCGGCATGAATTTTATACGACCGGTGATATGGAGAAATTCCGTCTCGTCGCCAACAGCTGGTTTGAAGAGCCGATTCAGATTCTGAAATCGGTAGAACTGGAACACGTCTCAAGCTCCGCCTGA	MKQAIGVIDSGVGGLTVARELMRQLPKETFIYLGDTKRCPYGPRSEEEVRAFTWQMVNYLLGKNIKMLVVACNTATAYTLTELQEELDIPVIGVIEPGARAAIKVSQNKRIGVIGTEGTIESKAYPQALVSIDQDIRVNDLACPPFVPMVEEGILSGPKAEGIVSRTLQPLKDMNHIDTLILGCTHYPLIKDLVQNEMGDHIQVISSGEETAREASLILAYHKALETDDHTPRHEFYTTGDMEKFRLVANSWFEEPIQILKSVELEHVSSSA	PGPT0020200_1680	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020200-murI-K01776	NA	NA
AK012_01161	459			hypothetical protein	GTGGCTGAAACCCAGCAGACATCCATGATCGCAGATGTAGAGAAGGAACTTCGTTACATATCCGGGATCATTAAACAAAGAGGACGAGTTATCCTGAATCATTACTCGATTACAGCTCCGCAGTTTGTAGCGCTGCAGTGGCTGATGGAAAAAGGGGACTTAACGATCGGGGAACTCTCCAATCATATACACCTGGCATGCAGTACGACAACGGATCTTGTCGACCGTATGGAGAAAAACGAGCTGGTCGAGCGGGTCAGGGACCCGAAGGACCGCCGGGTCGTCAGGATTCATGTGCTGAGCAAAGGACAGAAGATCATTCATGAAGTGATCGAAAAACGACAGAACTACCTGGAAAATGTGTTGAGAAATGTTCAGGAAGAAGATGTGGAAACGCTGAACCGTCTGCTCCACGTCCTTCACGGGAACATGATCGAAATCGATGAAGAAGAACATTAA	MAETQQTSMIADVEKELRYISGIIKQRGRVILNHYSITAPQFVALQWLMEKGDLTIGELSNHIHLACSTTTDLVDRMEKNELVERVRDPKDRRVVRIHVLSKGQKIIHEVIEKRQNYLENVLRNVQEEDVETLNRLLHVLHGNMIEIDEEEH	PGPT0013155_4322	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK012_01162	225	gerE	COG2771	Spore germination protein GerE	GTGAAGGAGGACGGCTATCGGCCAACACAAATTCTTACCAAGCGGGAGCGAGAAGTCTTCGAGCTTCTAGTACAGGATAAGACGACAAGGGAGATCGCAAAAGAGCTCTTCATTTCGGAGAAAACTGTGCGGAACCACATTTCAAATGCCATGCAGAAGCTAGGAGTGAAAGGCCGTTCCCAGGCAGTGGTTGAACTGCTGCGTATGGGTGAACTGGAACTTTAA	MKEDGYRPTQILTKREREVFELLVQDKTTREIAKELFISEKTVRNHISNAMQKLGVKGRSQAVVELLRMGELEL	PGPT0025270_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025270-gerE-K01994	NA	NA
AK012_01163	651	comA_1	COG2197	Transcriptional regulatory protein ComA	ATGATTCAAGTATTAATAGTCGATGACCACCCCGCTGTTGGAGCAGGCACGAAAGCGATGCTCGAGCAGGAAGGGGATATGCAGGTGGATGTCATCCACGAAACCGACCATCTGGAAAGCTGCCTTGAGAAGAAAGCCTACGATGTGCTGCTTCTGGATTTATATATGCCCGGCCTGAACGGTATTGAACTGGCCAAACGGCTCAGAAAAACGTTCCCCGATATTAAAATGCTCATCTATACCGGCTTCGATTTGAGTACGCATTTCAATATGATTGTGGAAGCGGACATCAACGGCTTTGTCAGCAAGACTGCGGCCAGTGAACAGCTGGTTACAGCGATCAAAGCCGCTCTAAGAGATGAAGTGATCATTCCGCTCCATCTTTTCAAACAGCTGCGCCGTACCGAGGCCTGCACGGCCGAAACGATCGAATCAGCTGAGAATAAAGGCATTTCTCTGAATGAGAAAGAACAGTCGATTTTAAAGGAAGTGGCATCGGGTTTCACCAACAGGGAAATCGCCCAGACCCTTCATATGTCCCAGCGGAGCGTGGAGTACACGCTCACGGGCATCTTCAACAAGCTGAACGTCCGTTCCAGGACCGAAGCCCTTTTCAAAGCCCAGGAACTCGGGCTTGTGTCTAAATCATGA	MIQVLIVDDHPAVGAGTKAMLEQEGDMQVDVIHETDHLESCLEKKAYDVLLLDLYMPGLNGIELAKRLRKTFPDIKMLIYTGFDLSTHFNMIVEADINGFVSKTAASEQLVTAIKAALRDEVIIPLHLFKQLRRTEACTAETIESAENKGISLNEKEQSILKEVASGFTNREIAQTLHMSQRSVEYTLTGIFNKLNVRSRTEALFKAQELGLVSKS	PGPT0025790_60	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0025790-comA-K07691	NA	NA
AK012_01164	2328	comP_1		Sensor histidine kinase ComP	ATGAAAAACTTCAAATGGTCTCAATGGATTGTCCTGACCTTTTTTATCGTATCGGCATGTTATTTAATTGTTTTATCGGTAACCCAGCCCTACCTGGGGATTGATGTGGAACAGGAGGACGGTGGATGGGTCATTACGGATGTAGAAAGTGGAGGCTGGGCGGACAGGCAGAACGTTCCGCCGGGGGCTGTCATCCTCTCCGTGGATGAGGAAGACCCGGGGCTCCATCATTCTCTTACCATGTTCAATGAACTGGAAAATGCCCAGTCCTTCAGTATTGAATCTTCCGGAGAAGTGCTGCGTTACAGTGACATCGACCAGTTCAGCCGGGTTCACTGGGTATTTTATATTCTGCTTCCAGCCCTGTTTTTTGTGGCGATTCTAGGAATCTCTTATCTGGTTCATAAACGGGTGCCTAAGCGGTATTCGGCAGAACAGCTGATTTTATATTTCCTGGCGATTGCGACGGCTTATTTAAGCAACAGTGGAGCGGTGAGGGATGACTTGTACAGTCTTGTCCTGAATACCAGTTTATTCCTGCTCGCACCTGTCATTCTTCTTCATTTTCTGCACAATTACTTTCAGGAATTGAAGGTCGTCTGGTTTTCGAAAAAGATCCTCTATTTCCTATACGTGCTCGTAGCTGGTGTCTCCCTGCTTGATACGTATTATTTAGTGACTTATCAAAATCCGCCCTACTTTCAAATGGTGCCGCTCACGTGTCTGCTTGGGTTGTATATCATTACCTTTGTGATTGTGTACAGGGGTGTTTATATTTACCGGCATGCCGCTGTCGGACCGGTCTTTAAGTATATGGCGATCGGGATGACTGTCGCGTTTTTCCCTTATATCCTGCTTTATCTGATTCCTTTTCTCGTATCCGGTGTGACCATTGTGTCGCTGGAGTTCGGGGCTGTCTTTCTGATCGCCCTTCCGGCGACATTCATGTATTTGATTACCCGCGAGCAGCTGATTGATATCAATTTCATCATGAACCGCCTTCGCTACTACTTTATTCTTTCCGTGCTGCCGGCCTTTGTCTTAACGGCGGTCATCGGTTGGATTGTAGATGGTGGTTTATCAATGGTTGCCTATATTCAACTGTATTTGCTGCTGCACACGACGCTGATTGTGTTCTTATCATTAAAGGAGGGGCTCGACGTCCGGATGCAGCGATTCCTCTTTTCTGCCCGGTACAGCTACCAGGAAAGTATGCACCGCCTGGCCAGTGACATGAAGGATCAGTCCAACGCGGTGGACTTGATGAAGGTTGTGCGGGATGAAATCAAAAACGTGATGAGTGTGCGGGAAATCTATATTTTCTCCAAGCACAATAAGCGGAAGATGTACTGTGTCTACAACGAAATCCCTGAAGGGGTCGTCGATCATTTTGACGACCATCTATTCCATAAACCTTATGATATCGGGTCCATTATCGAAACAGAAAAAGGATTCGGCGTCGTCGTCGGACTGTCGCTTGAGAAGATGACGATGCTCTGGTGCAGAGGGAAAAAGGACTTTACAACGTTAAACAGGGATGAAAAAACGTATTTACAAACCATCTCCCACCATGCCAACATTGCGATAGAGAATATGAATTTGATTGAGGATCTGGTTAAGGAACTCCGTACGTTGAGAAACGATCAGACGCAGAAGTACCCTGCGTGGCTGTCCCGGCTCTTGTTTACAATCGCTGAAAATCAGCGGAAACAGCTGTCGATCGATATCCATGACACTGTGCTGCAGGAACAACTGTACCTGTATCGCAAAATGGACGACCTGATCCGCAACCGGACGGATTTATCCACGAGTCTTCATGCAGAATTGAAAATGTATAAGGAATCTCTGCTGGACAGCATTCACCTCACGAGGGAGACGTGTAATGAACTGCGGCCGGCGTTTATCGAAGAGCTCGGTCTTGTCCAGTCGCTGAAGAACTTAATTCATCAGTATCAGCTGCGGTCTAATTTCACCGTCTACTTTTCCCACGAGCAGTTTGAATCAGAGCTGGACCAAGAGCGGATCCTCGGGATTTTCAGGATTGTCCAGGAACTGTTGACGAATGCCATGAAGCATTCAGGAGCCAAGATCGTCAAACTCTCGCTTTATAATGAGAACGACCAGGTCGTTCTTTACTATTCTGATAATGGAAAAGGGATGGATTATTCCATGAAGCGGGACTTGTTTTCTCATATCGGACTTTCCGGAATTGAACAGAGGGTCAACGGTTTGAATGGAAGTCTGGAAATTACTACAGCACCAGGGGAAGGATTCAGGACGAGGATCACTTTCCCTTACCCGTCACACAAGGAGGTCCAGCACGTATGA	MKNFKWSQWIVLTFFIVSACYLIVLSVTQPYLGIDVEQEDGGWVITDVESGGWADRQNVPPGAVILSVDEEDPGLHHSLTMFNELENAQSFSIESSGEVLRYSDIDQFSRVHWVFYILLPALFFVAILGISYLVHKRVPKRYSAEQLILYFLAIATAYLSNSGAVRDDLYSLVLNTSLFLLAPVILLHFLHNYFQELKVVWFSKKILYFLYVLVAGVSLLDTYYLVTYQNPPYFQMVPLTCLLGLYIITFVIVYRGVYIYRHAAVGPVFKYMAIGMTVAFFPYILLYLIPFLVSGVTIVSLEFGAVFLIALPATFMYLITREQLIDINFIMNRLRYYFILSVLPAFVLTAVIGWIVDGGLSMVAYIQLYLLLHTTLIVFLSLKEGLDVRMQRFLFSARYSYQESMHRLASDMKDQSNAVDLMKVVRDEIKNVMSVREIYIFSKHNKRKMYCVYNEIPEGVVDHFDDHLFHKPYDIGSIIETEKGFGVVVGLSLEKMTMLWCRGKKDFTTLNRDEKTYLQTISHHANIAIENMNLIEDLVKELRTLRNDQTQKYPAWLSRLLFTIAENQRKQLSIDIHDTVLQEQLYLYRKMDDLIRNRTDLSTSLHAELKMYKESLLDSIHLTRETCNELRPAFIEELGLVQSLKNLIHQYQLRSNFTVYFSHEQFESELDQERILGIFRIVQELLTNAMKHSGAKIVKLSLYNENDQVVLYYSDNGKGMDYSMKRDLFSHIGLSGIEQRVNGLNGSLEITTAPGEGFRTRITFPYPSHKEVQHV	PGPT0025805_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0025805-comP-K07680	NA	NA
AK012_01165	765	frdB	COG0479	Fumarate reductase iron-sulfur subunit	ATGAGCGAAAATAAAATGATTACGATGATCATCAAACGGCAGGACGATCCAGATCAGTCTCCGTATGAAGAAAAGTTTGAGATTCCGTATCGTGAAAATATGAATGTCATCTCTGCGCTTATGGAAATCCGTCGGAACCCCGTCAATGCTGAGGGAGAGGCGACCACCCCGGTCTACTGGGATATGGGCTGTCTGGAAGAAGTATGCGGCGCCTGTTCCATGGTGATTAACGGAACACCGCGTCAGTCCTGTACAGCGCTTGTAGATCAGCTGGAACAGCCGATCCGTCTGGAGCCGATGTCCACGTTCCCGATCAACCGTGACCTTGCGGTTGACCGGAGCCGGATGTTTGATTCCTTGAAAAAGGTCAAAGCCTGGATTCCGATCGATGGAACATACGATCTCGGTCCTGGACCGCGGATGGCCGAAAGCAAACGTCAGTGGGCGTATGAGCTTTCCAAGTGCATGACATGCGGTGTCTGCCTGGAAGCCTGCCCGAACGTCAACAGCAAGTCCGACTTTATCGGACCTGCACCATTATCCCAGGTGCGTTTGTTCAACTCCCACCCGACTGGGGAAATGAACAAGAGCGAGCGCCTGCAGACGATTATGGATGGCGAAGGTCTGATGGGCTGCGGAAACGCACAAAACTGTGTCCAGTCCTGCCCGAAAGGCATTCCTTTGACAACATCGATCGCGGCATTGAACCGTGATACCGCCGTTGAATCCTTCAAGAGCTTCTTTGGCAGTGATAAGCAGGTATAA	MSENKMITMIIKRQDDPDQSPYEEKFEIPYRENMNVISALMEIRRNPVNAEGEATTPVYWDMGCLEEVCGACSMVINGTPRQSCTALVDQLEQPIRLEPMSTFPINRDLAVDRSRMFDSLKKVKAWIPIDGTYDLGPGPRMAESKRQWAYELSKCMTCGVCLEACPNVNSKSDFIGPAPLSQVRLFNSHPTGEMNKSERLQTIMDGEGLMGCGNAQNCVQSCPKGIPLTTSIAALNRDTAVESFKSFFGSDKQV	PGPT0001600_1823	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
AK012_01166	1752	frdA		Fumarate reductase flavoprotein subunit	ATGACAAATAAGAATATTGTTGTTGTGGGCGGCGGTCTTGCCGGCTTGATGGCAACAATTAAAGCAGCAGAACAAGGGGTTCACGTAGATCTTCTATCTATTGTACCCGTTAAACGTTCTCACTCTGTATGCGCCCAGGGCGGAATTAACGGGGCCGTCAATACAAAAGGGGAAGGAGACTCCCCGTGGGAACACTTTGACGATACGGTTTACGGCGGCGACTTCCTCGCCAACCAGCCACCGGTTAAAGCGATGTGTGATGCCGCGCCCGGCATCATTCACCTTCTGGATCGTATGGGAGTTATGTTCAACCGTACACCAGAGGGTCTTCTTGATTTCCGGCGTTTCGGCGGCACCCAGCACCACCGTACAGCTTATGCGGGAGCTACGACCGGACAGCAGCTTCTGTACGCCCTTGACGAGCAGGTCCGCCGTCATGAGGTGAACGGTCTTGTAACCAAATATGAGAACTGGGAGTTCCTTTCTGCGATTGTCGGAGACGATGGAGTCGGCCGTGGAGTGATCGGTCAGAATTTGAGTACCCATGAAATAAAAGCTTTCCCTTCTGATGCCGTCATCATGGCTACCGGAGGTCCCGGCATCATCTTTGGTAAGTCCACCAACTCCGTGATCAACACGGGTTCTGCTGCCGGTTCCCTATTCCAGCAGGGTGTGAACTATGCGAATGGGGAGTTCATCCAGATCCACCCGACCGCTATTCCCGGGGATGATAAGCTCCGCCTCATGAGTGAATCCGCACGCGGGGAAGGCGGACGTGTCTGGACATACAAGGATGGAGAGCCGTGGTATTTCCTTGAGGAAAAATATCCGGCATACGGAAACCTTGTGCCGCGTGATATCGCAACGAGGGAAATTTTCGATGTTTGCGTTAACCAGAAATTGGGAATCAACGGAGAAAACATGGTTTACCTTGATCTATCCCATAAAGATCCGAAAGAACTGGATGTTAAGCTCGGCGGAATCATTGAGATTTATGAGAAGTTCGTCGGTGAAGATCCGAAGAAGGTCCCTATGAAGATTTTCCCTGCCGTTCACTATTCCATGGGCGGCATGTGGGTCGACTATGACCAGATGACAAACATTCCTGGTATTTTTGCCGCTGGTGAATGTGATTATACACAGCACGGAGGCAACCGTCTCGGCGCCAACTCTCTGCTTTCCTCCATTTACGGAGGTATGGTGGCAGGACCGAATGCTGTGAAATACCTGGACGGCCTTGAAACACTTGCGGACGATATGAGTTCAGCTCTGTTCGATAAAGCTGTGAAGGAAGAGCAGGATAAATTCGAGAAAATCATGAGCATGGACGGCGACGAGAACGCCTACCAGATTCATAAAGAGCTTGGGGAATGGATGACGGACAACGTTACGGTGGTCCGTGATAATGACAAGCTGATGGAGACAGATAAAAAGATTGTCGAGCTGATGGAGCGTTATGAACGCATCAACATCAACGATACATCACGCTGGAGCAACCAGGGAGCTATGTTTACCCGCCAGCTCTGGAACATGCTGCAGCTGGCCCGTGTCATTACCCAGGGGGCCTATAACCGTAATGAAAGCCGCGGTGCCCACTATAAGCCTGAATTCCCGGATCGTAACGATGAAGAATGGCTGAAGACAACGGTCGCAAGCTACGACAAAGAAAATAACAAGCCGGTTTTCCGTTATGACGATGTCGATACATCCTTAATCGAGCCTCGTAAACGTGACTACTCGAAGAGTAAATAA	MTNKNIVVVGGGLAGLMATIKAAEQGVHVDLLSIVPVKRSHSVCAQGGINGAVNTKGEGDSPWEHFDDTVYGGDFLANQPPVKAMCDAAPGIIHLLDRMGVMFNRTPEGLLDFRRFGGTQHHRTAYAGATTGQQLLYALDEQVRRHEVNGLVTKYENWEFLSAIVGDDGVGRGVIGQNLSTHEIKAFPSDAVIMATGGPGIIFGKSTNSVINTGSAAGSLFQQGVNYANGEFIQIHPTAIPGDDKLRLMSESARGEGGRVWTYKDGEPWYFLEEKYPAYGNLVPRDIATREIFDVCVNQKLGINGENMVYLDLSHKDPKELDVKLGGIIEIYEKFVGEDPKKVPMKIFPAVHYSMGGMWVDYDQMTNIPGIFAAGECDYTQHGGNRLGANSLLSSIYGGMVAGPNAVKYLDGLETLADDMSSALFDKAVKEEQDKFEKIMSMDGDENAYQIHKELGEWMTDNVTVVRDNDKLMETDKKIVELMERYERININDTSRWSNQGAMFTRQLWNMLQLARVITQGAYNRNESRGAHYKPEFPDRNDEEWLKTTVASYDKENNKPVFRYDDVDTSLIEPRKRDYSKSK	PGPT0001605_3964	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
AK012_01167	621	sdhC	COG2009	Succinate dehydrogenase cytochrome b558 subunit	ATGGCGGGAACGCGCGGATACGTCAATCGAAGACTACATTCACTACTGGGAGTTATTCCAATCGGGATCTTTCTGATTCAGCACCTGACTGTAAACTTTTTTGCAACACGTGGTCCACAAGCATTCAATGATGCGGCACACTTCATGGAAAGTCTGCCTTATCGATATGTACTGGAAACTTTTATCATTTTTCTACCACTGTTGTTTCACGCAATTTACGGCGTGTATATTGCCTTTACAGCCAAGAGCAACTTGTCTAATTTCGGGTATTTCCGGAACTGGATGTTCATCTTCCAGAGAATCACAGGAATTGTTACGCTGATCTTTATTGCGTGGCACGTCTGGGAAACAAGGATTGCCGTCGGTTTTGGATGGGCGGAGCTTAATTATCAGTTGATGGAAGGGATTTTAACAGAGCCGTTCTTCTTCTGGTTCTATGTCATCGGTGTCATTTCAACAACCTTCCACTTTTCCAATGGACTATGGTCCTTCTTCGTCAGCTGGGGCATTACCGTGTCACCACGCTCTCAGAAGATCATGACATATGTAAGCATTATTGTTTTCGTTGCCATTTCCTATGTAGGGGTGCGCACGTTAATTCAGTTTGCCTACGGGATTTAA	MAGTRGYVNRRLHSLLGVIPIGIFLIQHLTVNFFATRGPQAFNDAAHFMESLPYRYVLETFIIFLPLLFHAIYGVYIAFTAKSNLSNFGYFRNWMFIFQRITGIVTLIFIAWHVWETRIAVGFGWAELNYQLMEGILTEPFFFWFYVIGVISTTFHFSNGLWSFFVSWGITVSPRSQKIMTYVSIIVFVAISYVGVRTLIQFAYGI	PGPT0001595_1321	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
AK012_01168	444	yslB		putative protein YslB	ATGAGCGTCTTGAAAGAATCTACAAAACTAACAACAAGCAACATTTCATCGCTTGTGGGCACCGGAGCAGGGTTCGATTTAATGCGCTACTTCACCCTCCCTGATTTTCTCGGAAAAGATGCCCCTTATCTCCTTTATTATATGGGGAAAAACATAGCACGTCAGACCAGCCTTGAAACCTTCGATGAGCTCTTTGAATTCTTCCAGTACATGGGCTGGGGAGAGCTCGTTAAAATAAAAGAAAAAAAGAATGAATTAACGTTCCATCTTAAAGGCCACATCATCGAAAAACGCCTGCACCAGACACTGCTCGATGTGGATTTTCGACTGGAATGCGGATTTCTTTCCGAATCCATTAAACAAATGACCGATGATACATATGAATGCTTTGAAGAGATAAACAAAAAAGACAACGTCGTGGAAATCAAAGCGATGAAAGCATAA	MSVLKESTKLTTSNISSLVGTGAGFDLMRYFTLPDFLGKDAPYLLYYMGKNIARQTSLETFDELFEFFQYMGWGELVKIKEKKNELTFHLKGHIIEKRLHQTLLDVDFRLECGFLSESIKQMTDDTYECFEEINKKDNVVEIKAMKA				NA	NA	NA	NA	NA
AK012_01169	1815	uvrC	COG0322	UvrABC system protein C	ATGAATTCAACGATTAAGGAGAAACTGGCCGTTTTACCAGACCAGCCCGGCTGTTATTTAATGAAAGATAAGCACGGGACAATTATTTATGTGGGGAAGTCGAAAGTATTGAAGAACCGCGTGCGTTCCTACTTTACCGGAGCGCATGACGGAAAGACCCAGCGTCTTGTGCGTGAAATCGTCAACTTTGAATACATTGTCACAACCTCTGAAATAGAGGCACTGATTCTTGAGATGAATCTGATCAAAAAATATGATCCGAAATACAATGTTCTATTAAAAGATGATAAAACGTACCCGTACTTAAAGGTGACCGGCGAACGCCATCCCCGGTTGATCGTAACGAGGAATGTGAAGAAAGATAAGGGAAAATACTTCGGTCCCTATCCAAACGTCATTGCGGCAAGGGAAACGAAGAAACTGCTCGACCGGCTGTATCCATTAAGGAAATGCAATACGATGCCGGACCGTGTCTGCTTGTATTACCATATGCACCAGTGTTTAGGTCCCTGTGAGTATAAGGTTACAAAACAAACGAATGATGAAATCGTCCAGCAGATTACTTCTTTCCTGAACGGTGGCCATAAGGAAATCAAAAAAGATTTGAAACAGAAAATGCTTGATGCGTCTGAGGAACTGGATTTTGAGCGCGCCAAGGAACTCAGGGACCAGATCGAGCACATTGAATCGGTCATGGAACAGCAGAAGATGACGATGAACGATCAAGTGGACCGGGATATTTTCGGATACAGCTACGATAAAGGGTGGATGTGTGTCCAGGTTTTCTTCATCCGTCAGGGCAAGCTGATCGAACGTGACGTTTCTCTGTTTCCATTCTTTGATGATCCGGAAGAGACCTTCCTCAGCTATATCGCCAGGTTTTACCTGCACCAGAACCACCCATATCCGAAGCAGGTGCTTGTCCCTGTTGCGACGAACGTCGATGTACTCGAAGGGGCGATCGATACGAAAGTGATGATTCCGATGCGCGGACGTAAGAAGGAACTGGTGGAGCTGGCGATGAAAAATGCGAAGATCTCGCTCGAAGAGAAATTCGCCTTGATTGAACGGGATGAGGAACGGACGATCAAAGCGGTGGAATCGCTGGGAGAGAAGCTTCATATTGAAACCCCGCACCGGATCGAGGCGTTTGATAACTCCAATATCCAGGGAGCGGATCCAGTTTCGGCGATGGTCGTATTTACAGACGGACGTGCAGATAAAAAAGAATACAGAAAGTACAAAGTCCGTGATGTCAAAGGACCGGATGATTATGAGACGATGCGGGAAGTCATCCGGAGGCGCTACCAGCGTGTCTTAAAGGAAGACCTTCCACTGCCGGACCTGATTGTGGTAGATGGAGGGAAAGGACAGATGTCCGCCGCGCTTGATGTGCTGGAAAATGAACTGGGGATTGATGTACCACTCTGCGGGCTTGCCAAGGATGATAAACACAAAACGAGTGAGCTGCTGTATGGAGATCCGCCTTCCCCAGTAGACCTGGATAGAAAATCGCAGGAATTCTACCTCGTCCAAAGAATCCAGGATGAAGTACACCGGTTTGCGATTTCCTTCCACAGGCAGCTGCGCGGAAAAGGGGCCATCCAGTCCGAGCTGGATAACATCCCGGGTGTCGGTCAAAAGCGGAGACGCCTCCTGCTTCGGCACTTCAAGTCCGTCACAGAAATTAAGGAAGCGGATATTCAGTCGATTACGAAGCTCGGTATCCCGGAACCTGTAGCCAATACGATTCTTATCCATTTGAATGACAACCAGGAAGACCCGGATGAACAAGAAGAACCAGCTGAAGAATAA	MNSTIKEKLAVLPDQPGCYLMKDKHGTIIYVGKSKVLKNRVRSYFTGAHDGKTQRLVREIVNFEYIVTTSEIEALILEMNLIKKYDPKYNVLLKDDKTYPYLKVTGERHPRLIVTRNVKKDKGKYFGPYPNVIAARETKKLLDRLYPLRKCNTMPDRVCLYYHMHQCLGPCEYKVTKQTNDEIVQQITSFLNGGHKEIKKDLKQKMLDASEELDFERAKELRDQIEHIESVMEQQKMTMNDQVDRDIFGYSYDKGWMCVQVFFIRQGKLIERDVSLFPFFDDPEETFLSYIARFYLHQNHPYPKQVLVPVATNVDVLEGAIDTKVMIPMRGRKKELVELAMKNAKISLEEKFALIERDEERTIKAVESLGEKLHIETPHRIEAFDNSNIQGADPVSAMVVFTDGRADKKEYRKYKVRDVKGPDDYETMREVIRRRYQRVLKEDLPLPDLIVVDGGKGQMSAALDVLENELGIDVPLCGLAKDDKHKTSELLYGDPPSPVDLDRKSQEFYLVQRIQDEVHRFAISFHRQLRGKGAIQSELDNIPGVGQKRRRLLLRHFKSVTEIKEADIQSITKLGIPEPVANTILIHLNDNQEDPDEQEEPAEE	PGPT0014925_4100	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014925-uvrC-K03703	NA	NA
AK012_01170	315	trxA_2	COG0526	Thioredoxin	ATGGCAATTGTAAAAGCTACTGATCAAACATTTACAGAAGAAACAGGCCAGGGACTTGTCCTTGCAGATTTCTGGGCACCTTGGTGCGGACCTTGTAAAATGATCGCTCCTGTATTGGAAGAAATCGATGCGGAAATGAGCGACCAGGTAAAAATCGTGAAACTCGATGTTGATGAAAACCAGGAAACAGCTGGTAAATTCGGCGTTATGAGTATCCCGACACTGCTTCTTTTCAAAGACGGCCAGGTTGTTGACCAGGTCATCGGCTTCCAGCCTAAAGAAGCGCTAACTGAAATCATTACGAAACATGCCTGA	MAIVKATDQTFTEETGQGLVLADFWAPWCGPCKMIAPVLEEIDAEMSDQVKIVKLDVDENQETAGKFGVMSIPTLLLFKDGQVVDQVIGFQPKEALTEIITKHA	PGPT0013055_10443	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK012_01171	981	carE	COG2025	Caffeyl-CoA reductase-Etf complex subunit CarE	ATGAGCAAAAAAGTATTGGTCATTGGAGAAGCAAGAGAGGGGTCCCTGCGTAATGTGACTTTTGAAGCCATTGCTGCAGCAAATATCGTCAGTGATGGCGGTGAAGTGGTCGGTGTACTCTGCGGGGATGGAGAATTGAAGGAAATGGCACAGGAAATGGTGTATTACGGAGCGGCACGTGTGATCACCGTTTCGAACCCTGAATTGAAAACGTATACATCCGATGGATACGCCCAGGCGGTCCACCAGGTCATTGAAGATGAATCTCCCGAAGGCATCATTATGGGCCATACGGCGATTGGGAAGGACTTAACACCGAAGCTTGCCAGCAGGCTGGAGTCCGGGCTGATTTCAGATGCTACGGAAGTGATAGCGGAAGGCGGCGACATCGTCTTCACACGGCCGATTTATTCCGGTAAAGCCTTTGAAAAGAAAAAGATTACAGACGGGTTGGTTTTTGCCACCATCCGCCCGAATAACATCCCGGCGTTGAATCGTGACGATTCTTTGACCGGCGCGGTATCTGAGAAGGATGTCCAGATTTCCAATATCCGTACCATCATTAAAGAAGTGTTGAGAAAATCCTCGGACGGTGTGGATTTGTCCGAAGCCAAAGTGATTGTCGCCGGCGGGCGCGGAGTGAAAAGCGCAGAAGGATTCGAACCGCTTGAAAAGCTGGCAGAAGTCCTCGGCGGAACGGTGGGGGCTTCCCGCGGGGCCTGTGATGCGGGTTACTGCGACTACTCTCTACAGATCGGGCAGACAGGGAAGGTTGTTACACCGGATCTGTACATTGCCTGCGGTATTTCCGGTGCAATCCAGCACTTAGCCGGGATGTCGAATTCCAAGGTCATTGTAGCGGTCAATAAGGATCCGGAAGCGAACATTTTCAATGTCGCTGATTACGGCATCGTCGGTGACTTGTTCGACGTCATTCCGAAATTGACAGAAGAAATCAAACAAATGAAAGTAAACGCATAG	MSKKVLVIGEAREGSLRNVTFEAIAAANIVSDGGEVVGVLCGDGELKEMAQEMVYYGAARVITVSNPELKTYTSDGYAQAVHQVIEDESPEGIIMGHTAIGKDLTPKLASRLESGLISDATEVIAEGGDIVFTRPIYSGKAFEKKKITDGLVFATIRPNNIPALNRDDSLTGAVSEKDVQISNIRTIIKEVLRKSSDGVDLSEAKVIVAGGRGVKSAEGFEPLEKLAEVLGGTVGASRGACDAGYCDYSLQIGQTGKVVTPDLYIACGISGAIQHLAGMSNSKVIVAVNKDPEANIFNVADYGIVGDLFDVIPKLTEEIKQMKVNA	PGPT0001040_1767	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001040-fixB|etfA-K03522	NA	NA
AK012_01172	774	etfB	COG2086	Electron transfer flavoprotein subunit beta	ATGAACATTTATGTACTGCTTAAAAGAACGTTTGATACAGAGGAAAAGATCGCGGTCAACGGTGGAGCGATTGCCGACGATGGAGCTGAATACATCATCAATCCTTATGACGAATATGCTGTGGAAGAAGCGATCAATCTACGTGATGCCCATGGCGGTGAGGTTACGGTCGTAACCATTGGTGAAGAAGATGCTGAGAAACAGCTCCGCACAGCTCTGGCGATGGGAGCGGACAAAGCGGTCCTGGTCAATACAGAGGATGATCTTGAAGAAGGAGATCAGTTTACAACCGTTAAGATTCTGGAAGCTTTCTTCGAAGATAAGGAAGCCGACATCATTTTAGCTGGTAACGTAGCAATTGATGAGGCCAGCGGTCAGGTCGGTCCGCGCCTTGCCGAACGCCTGGATATGGCCTGTGTGACGACGATTACGAAGATCGATATCGACGGAAGCACCGTCAATATTGAGCGTGACGTGGAAGGTGATGTGGAGAAAGTAGAAACCTCCCTGCCGTTACTGGTTACCTGCCAGCAAGGGTTGAATGAACCGCGCTATCCATCTCTTCCAGGAATTATGAAAGCGAAGAAGAAACCGTTGGAAGAGCTTGAAATTGACGATCTTGATCTGGATGAAGACGATGTCGAAGCGAAGACTGCCACCATGGAAATTTTCCTTCCACCTGCGAAAGAAGCCGGAAAGGTTCTTGAAGGGGAAGTCGATGATCAGGTTAAAGAATTGGTATCTTTACTAAAAACCGAAGCGAAGGTCCTGTAA	MNIYVLLKRTFDTEEKIAVNGGAIADDGAEYIINPYDEYAVEEAINLRDAHGGEVTVVTIGEEDAEKQLRTALAMGADKAVLVNTEDDLEEGDQFTTVKILEAFFEDKEADIILAGNVAIDEASGQVGPRLAERLDMACVTTITKIDIDGSTVNIERDVEGDVEKVETSLPLLVTCQQGLNEPRYPSLPGIMKAKKKPLEELEIDDLDLDEDDVEAKTATMEIFLPPAKEAGKVLEGEVDDQVKELVSLLKTEAKVL	PGPT0001035_2121	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001035-fixA|etfB-K03521	NA	NA
AK012_01173	771	fadB	COG1024	putative enoyl-CoA hydratase	TTGTCAACGTTAACGATGGAAATCCATAACCATGTCGCCGAAATCACCCTGCAGAGTCCGCCGGCCAATGCCCTGTCCAGTCTTATTCTCCAGGATCTTTCCGAGGAGCTGGATAAGGTGGAAAACGATGCCTCTGTGAAGGCCATCCTTCTCAAAGGAGAGGGGAGGTTCTTCTCGGCCGGGGCTGACATCAAGGAATTCACGACCCTGCAGGGAGCGGATGACTATAAGTCGTTGTCCTCCAAAGGGCAGCAGCTTTTCCAACGGATTGAGAATTTCCACGTCCCTGTGATCGCATCGATCCACGGGGCGGCCCTTGGAGGCGGTCTGGAGCTTGCAATGGCCTGCCACATCCGCTATGCCGCAGAAGATGCCAAGCTCGGCCTTCCGGAAATCAACCTCGGAATTATCCCAGGTTTTGCAGGAACACAGCGGCTGCCAAGATACGTCGGAGCAGCTAAAGCTTACGAAATGATTTTGACGGGAGTTCCGATTACCGGTCAGGAAGCAGCGGCCGCCGGCTTGGTCAATAAGAGCTTTTCTGCTGAGGAAGTGCATGAGGAAGCCTCCAGACTGGCTGCTGCAATTGCAGAGAAAAGTGGTCCGACGATCCATCATGTGATGAATCTCGTTCCGATGACCCACAATCCTCAATTCGGGGAAGGAAACCGTGCGGAGGCGGAAGCCTTTGGCGGAGTATTTGGAAAAGAGGATGCCAAAGAAGGCATCCAGGCGTTTATCGAGAAGAGAAAACCTGATTTCAAACATTAA	MSTLTMEIHNHVAEITLQSPPANALSSLILQDLSEELDKVENDASVKAILLKGEGRFFSAGADIKEFTTLQGADDYKSLSSKGQQLFQRIENFHVPVIASIHGAALGGGLELAMACHIRYAAEDAKLGLPEINLGIIPGFAGTQRLPRYVGAAKAYEMILTGVPITGQEAAAAGLVNKSFSAEEVHEEASRLAAAIAEKSGPTIHHVMNLVPMTHNPQFGEGNRAEAEAFGGVFGKEDAKEGIQAFIEKRKPDFKH	PGPT0008390_196	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008390-fadB-K13767	NA	NA
AK012_01174	603	fadR		Fatty acid metabolism regulator protein	ATGAAAAAAAATAAACCGAAATTCAAACAGATTATAGATGCAGCGGTTGAAGTCATTGCTGAAAATGGGTACCACTCCTCGCAGGTATCAAAGATAGCCAAAAAAGCGGGAGTAGCTGACGGCACCATTTATTTGTACTTCAAAAACAAGGAAGATATCCTCGTTTCACTGTTCCAGGAGAAAATGGGGCAGTTCATAGAAAAAATCGAGCAGGAAACCACCTCCAGGCAGTCAGCGGATGAAAAGCTTCATACGCTGATCCACACCCATTTTGAGCAGCTGGCTGCCGATCACCATCTGGCTATAGTCACCCAGTTGGAGCTGAGACAGTCAAACAAGGACTTAAGACAGAAAATCAACAATGTCTTAAAGCGCTATTTGAATGTCATCGACCAAATTGTCGACGAAGGTGTGGAGGAAGGGCTGTTCCGGAACGGCTTGGACCGCCGTCTTGTACGTCAGATGATTTTCGGGATGATGGATGAGACGGTGACCAACTGGGTCATGAAGGATCAGCGTTATAACATAGTAGACCAGGCAAGTGAAGTCCATAGCTTGATTATCTATGGATTAGCCCGGAATCGTGAAGAAGAGGAGAGGTAA	MKKNKPKFKQIIDAAVEVIAENGYHSSQVSKIAKKAGVADGTIYLYFKNKEDILVSLFQEKMGQFIEKIEQETTSRQSADEKLHTLIHTHFEQLAADHHLAIVTQLELRQSNKDLRQKINNVLKRYLNVIDQIVDEGVEEGLFRNGLDRRLVRQMIFGMMDETVTNWVMKDQRYNIVDQASEVHSLIIYGLARNREEEER	PGPT0023505_233	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_LIPID_DEGRADATION	PLANT_PHOPSHO-|LIPID_DEGRADATION,PGPT0023505-ysiA|fadR-K13770	NA	NA
AK012_01175	1704	fadD	COG0318	Long-chain-fatty-acid--CoA ligase	ATGACAGACTTTCAGCGTCCATGGCACAAGTATTACCCGCCGGAAGTACCGGTGGAAATGGAGTACGACCAACGTCCACTGCAGGATTACCTGCGCGATACGGCCCAGTCTCACGGAGAAAAGAAAGCGCTTTATTTTATGGGCAAGGAGCTTTCCTATAAGGAAGTATATGACCAGTCCCTCGCTGTAGCGAGCTACCTGCAGCAGCTGGGTGTGGAAAAAGGGGACCGTGTATCCATTATGCTTCCCAACTGCCCGCAGTCAGTCGTCGCATATTATGGTGTGCTTTTGGCAGGAGGAATCGTCGTTCAGACCAATCCGCTGTATATGGAAAGGGAGCTGGAGTACCAGATGAAGGACTCCGGAGCGAAGGTGATCATCTGTCTGGATATCCTTTATCCGAAAGCGGCAAATGTGAAACCGGAGACCGATCTGGAACATATCATTGTTACGGGGATAAAGGATTACCTTCCATTTCCAAAGAATAAGATTTATCCTTTTATACAGAAGCGTCAGTATCAGGTGCTCGTTAAACCGGAACAATCCACAGACACCCACCTTTGGACCCACCTTTTGAAGGAGAGCACACGTGAGGTGAAACCTGTGGATGTCGATCCTTTGGAGGATCTGGCCCTGCTTCAGTACACCGGCGGTACAACGGGCTTTCCGAAGGGAGTTATGCTGACCCATTACAATTTGATCGTCAATACGCAGATGGCAAAGAAATGGTTGTACAAATGCAGGGACGGCGAAGAGCGGGTGCTTGCCATCCTTCCATTCTTCCATGTGTACGGCATGACCTCTGTGATGAATCTGTCAGTCATGATGGGCAACAAAATGATCCTTATGCCGAAATTTGATGCCGAGGCCGTTTTGAAAGTGATTGAGAAGCAGCGTCCAACGCTGTTCCCGGGAGCCCCGACCATCTATATTGCCCTGTTGAACCACCCGAATCTGAAGAAATATGACCTTTCCTCGATTGAAGCCTGCATCAGCGGCTCTGCCCCGCTCCCTGTTGAAGTGCAGGAGCAGTTCGAGAAGATTACCGGAGGCCGGCTCGTCGAGGGCTACGGTTTAACGGAAACGTCTCCGACGACACATTCCAATCTCATATGGGGGCACCGGATCAGTGGAAGCATCGGCATTCCGTGGCCGGACACAGATTCGAAGATTTTCAAGATGGATGCAGATGAAGAAGCAGATTACGGGGAAATCGGGGAGATTGTCGTTAAAGGTCCCCAGGTGATGAAGGGGTATTGGAACCGTCCGGAGGAAACGGCCCAGGTGTTAAGTGAAGATGGCTGGTTCCGTACGGGTGACATGGGCTATATGAATGAAGACGGTTATTTCTATATTGTCGACCGCAAGAAGGATATGATCATTGCCGGCGGATACAACATTTATCCGCGCGAGGTGGAGGAAGTGCTGTACGAACATTCCGAAGTGCAGGAAGCGGTGGTTGTGGGTGTGCCTGATCCGTACAGAGGAGAAACAGTCAAAGCCTTCATTGTTAGAAAACAGGGCAGTGATATAACAGAGGATGAGCTGAATGAGTTCTGTCGTAAACATATGGCCTCCTTCAAAGTGCCGAGGCTTTATGAGTTCAGAGAGGAGCTTCCGAAGACGGCTGTCGGGAAAATTCTCCGCCGTCAGCTCGTGGAGGAGGAGAAGGCGAAATATGAAGAATCCGAAAGTATTCAATAA	MTDFQRPWHKYYPPEVPVEMEYDQRPLQDYLRDTAQSHGEKKALYFMGKELSYKEVYDQSLAVASYLQQLGVEKGDRVSIMLPNCPQSVVAYYGVLLAGGIVVQTNPLYMERELEYQMKDSGAKVIICLDILYPKAANVKPETDLEHIIVTGIKDYLPFPKNKIYPFIQKRQYQVLVKPEQSTDTHLWTHLLKESTREVKPVDVDPLEDLALLQYTGGTTGFPKGVMLTHYNLIVNTQMAKKWLYKCRDGEERVLAILPFFHVYGMTSVMNLSVMMGNKMILMPKFDAEAVLKVIEKQRPTLFPGAPTIYIALLNHPNLKKYDLSSIEACISGSAPLPVEVQEQFEKITGGRLVEGYGLTETSPTTHSNLIWGHRISGSIGIPWPDTDSKIFKMDADEEADYGEIGEIVVKGPQVMKGYWNRPEETAQVLSEDGWFRTGDMGYMNEDGYFYIVDRKKDMIIAGGYNIYPREVEEVLYEHSEVQEAVVVGVPDPYRGETVKAFIVRKQGSDITEDELNEFCRKHMASFKVPRLYEFREELPKTAVGKILRRQLVEEEKAKYEESESIQ	PGPT0008380_8659	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK012_01176	408			hypothetical protein	ATGACTGATTTTTGGGAACATTCGTTAGTGGAAACAGCCGCCAGCTACAGTGTTGTCGTCCTGTGCCTGGTCGTATTCATGGCGATTTTTGAAATGGTGACTTCCTACAACAACTGGGAAGAAATAAAAAAAGGCAACCTTGCCGTAGCGATGGCTACGGGTGGGAAATTATTCGGAATCGCTAATATATTCCGCTTCTCCATTGAACATAATGATGCCCTCACCCAGACGATGGGATGGGGCCTGTATGGCTTTTGTCTCCTGCTTGGCGGGTATTTCATTTTTGAATTTTTAACCCCTTCGTTTAAGATTGACGAGGAAATTGCTGCAGACAACCGGGCTGTTGGTTTTATTTCCCTCATCATATCCGTCGGTCTTTCCTATGTCATCGGGGCGAATATCATTTAG	MTDFWEHSLVETAASYSVVVLCLVVFMAIFEMVTSYNNWEEIKKGNLAVAMATGGKLFGIANIFRFSIEHNDALTQTMGWGLYGFCLLLGGYFIFEFLTPSFKIDEEIAADNRAVGFISLIISVGLSYVIGANII				NA	NA	NA	NA	NA
AK012_01177	2349	mutS2_1		Endonuclease MutS2	ATGAATCAAAGAATCCTTCATGTACTTGAATACAAAAAAATAATCGAACAGCTGAACGAGCAGGCAGCCTCTTCTTTAGGAAAAGAGAAGACAGCGGCACTCAAGCCGTCCTCAGATCTCGACGAAGTGAGACAGCTGCAGAGAGAAACGGATGAAGCCGGCCAGGTGCTCCGTTTGAAAGGCCACGTCCCTCTTGGTGGAATCTTTGATATTAAGCCGAGCATCAAGCGGACGACCATCGGCGGCACACTGAGCCCGCTGGAGTGCCTGGATATAGCGAGCACAATTTACGGCGGACGTCAGCTGAAGCGGTTCATCGACGATATGGAAGAGCCTGAAATGCCGATTCTGAGAGAACTGGCAGGCAGTCTGGTCCCATTAAAGGAACTCGAGCAGGAAATCAGGAACTGTATCGACGAGCACGGAACGGTCATGGATGGAGCTTCTGACAAACTCCGTACCATCCGCTCCAATATACGTACGTATGAAAGCCGGGTCAGGGACAAAATGGATTCCTTTACAAAATCAAAATCCAAAATGCTCTCAGATTCCATCGTAACGATCCGGAACGAGCGTTACGTTCTTCCTGTCAAACAGGAATACAGAGGTTCAATCGGAGGGATTGTCCACGACCAGTCCTCTTCGGGTGCCACCTTGTTTATAGAACCCCAGTCCGTTGTCGACTTGAACAACAACCTGCAGGAAGCACGTGTGAAGGAAAGAAATGAAATCGAAAAAATTCTGAAAGAACTTTCGGAATCGATTGCTGAGGAGCACGAAACTCTGTCCTACAACGTGCAGATCCTTGGACAGATCGACTTTATGTTTGCAAGAGCCAAGCTCGGCCAGCAGATGAAAGCTTCCATGCCAGCGATGAATGATGAAGGCCGGATAAAAATGAAGCAGGCCAGACATCCGCTTATTGACGGAGATGAAGTGGTACCGAACGATGTTGAAATCGGTGAAGATTACACGTCCATTGTCATCACCGGTCCGAACACCGGGGGTAAGACTGTTACGTTGAAACTGGTCGGTCTTTGTACGCTTATGGCTCAGTCCGGTCTTCAGGTTCCTGCGCTGGATGGATGTGAGCTGGCGGTGTTTAAGGAAGTGTATGCGGATATTGGTGATGAGCAGTCCATAGAACAGAGCTTATCCACGTTCTCCTCCCATATGACGAACATCGTCGATATTCTAGATAAGGTCGATCACCAATCCCTTGTCTTGTTCGATGAATTAGGAGCAGGCACAGACCCACAGGAAGGGGCCGCTCTTGCCATGTCTATTCTTGATGAGGTCGTTCAACGGGATGCGCGTGTCATCGCAACGACCCACTATCCAGAGCTGAAAGCTTACGGATATAATCGTGACGGCGTCATTAATGCGTCTGTGGAATTCGATATCCAGACACTGAAGCCGACGTACCGGCTGCTGATCGGGGTGCCGGGGCGCAGTAACGCTTTTGAGATATCCCGGCGTCTTGGACTGAAGGAAGGCGTAATTGAATCCGCGAAAAGCCATATCGGTGTCGATTCACAGAGTGTTGAAAACATGATTGCCTCTCTTGAAGAGTCTAAGCGGGAAGCGGAGCGCGACTACGAAGAAGCGGAAGAGATGCTCGCCGAGGCAGAGAAGCTGAAGCGTGAACTTGAGGAAAAATGGAACCAATTTGAAAATCAGCGGGAAAAGCTGTATGAAAAAGCTGAACAGAAAGCGGAAAAAGCGATCCAGCAGGCCCGTGAGGAAGCGGAAACCATTGTCGGCGAAATCCGAAATATGAAAACCCAGTCCCAGATGAAAGAGCACGAGTGGATTGAAGCCCGTAAGATGTTCGATGAGGCCCAGCCTGAGCTGGCGAAGAAAAAAGCCAAAGAGGCTCCGGCCCCGAAAAAGAAAGAAACGAAAGAACTGAAGCCGGGCGATGAAGTGAAGCTGCTTACGCTCAATCAGCAGGGGACCATCGTGGATCAGACAGGAAAAAATGAATATCAGGTCCAGGTTGGGGTTATGAAAGTCAAAGCGAAACGAAAAGAACTTGAGTTCGTAAAGGCTAAAGAGCCTTATAAAGAAAAGCCGATGGCGACGGTCAAAGGCAAAAGTTTTCACGTGAAAACAGAACTGGATCTGCGTGGAGAGCGTTACGAAGATGCTTTGAACCGTTTGGAGAAATATGTGGATGATGCCCTGCTTGCCGGATATCCACAAGTATCCATCATTCATGGTAAAGGTACAGGAGCTCTTCGGACAGCCGTCCAGAATTACGCGAAAAACCATCGGAGCATAGCGTCCCATCGTGCTGGAGGTATGAATGAAGGTGGAAGCGGGGTTACCGTACTGGAACTCCGCTAA	MNQRILHVLEYKKIIEQLNEQAASSLGKEKTAALKPSSDLDEVRQLQRETDEAGQVLRLKGHVPLGGIFDIKPSIKRTTIGGTLSPLECLDIASTIYGGRQLKRFIDDMEEPEMPILRELAGSLVPLKELEQEIRNCIDEHGTVMDGASDKLRTIRSNIRTYESRVRDKMDSFTKSKSKMLSDSIVTIRNERYVLPVKQEYRGSIGGIVHDQSSSGATLFIEPQSVVDLNNNLQEARVKERNEIEKILKELSESIAEEHETLSYNVQILGQIDFMFARAKLGQQMKASMPAMNDEGRIKMKQARHPLIDGDEVVPNDVEIGEDYTSIVITGPNTGGKTVTLKLVGLCTLMAQSGLQVPALDGCELAVFKEVYADIGDEQSIEQSLSTFSSHMTNIVDILDKVDHQSLVLFDELGAGTDPQEGAALAMSILDEVVQRDARVIATTHYPELKAYGYNRDGVINASVEFDIQTLKPTYRLLIGVPGRSNAFEISRRLGLKEGVIESAKSHIGVDSQSVENMIASLEESKREAERDYEEAEEMLAEAEKLKRELEEKWNQFENQREKLYEKAEQKAEKAIQQAREEAETIVGEIRNMKTQSQMKEHEWIEARKMFDEAQPELAKKKAKEAPAPKKKETKELKPGDEVKLLTLNQQGTIVDQTGKNEYQVQVGVMKVKAKRKELEFVKAKEPYKEKPMATVKGKSFHVKTELDLRGERYEDALNRLEKYVDDALLAGYPQVSIIHGKGTGALRTAVQNYAKNHRSIASHRAGGMNEGGSGVTVLELR				NA	NA	NA	NA	NA
AK012_01178	1719	polX	COG1387	DNA polymerase/3'-5' exonuclease PolX	ATGGCTGTCGATAAGAAACAGGTCATTCAATTACTGGAACAAATCGCTGTTTATTTGGAATTGAAAGGCGAGAATCCCTTTAAAATATCCGCCTACCGCAAAGCGGCCCAGGCATTGGAGCGGGATGACCGCTCCCTTAGTGAGATTGATGATTTCAAGAAGATGAATGGAATAGGGAAAGGAACGGCGGCGGTCATTGACGAGTATGTCGCCAATGAAGAATCTGATACATTAAAGCAGCTGCAGGCGGAAGTTCCTGAAGGACTCGTTCCCCTCTTGGATCTGCCCGGTCTTGGTGGGAAAAAGCTGGCCAAACTCTACCAAAAGCTTGAGGTGACGGACGCAGAAACGCTGAAGGAAGCGCTGGAGTCCGGAAAAGTGGAGGAACTGGAGGGATTCGGGAAGAAGTCCGCAGAAAAAATGCTGAAGGCTCTCGAAGACGCCCATTCCCGGCCGGAACGCCTGCCGATTGCCATCATGCTTCCCCTGGCAGAAAAAGTGGAAGCCTACTTGGAGCGGGCTGAAACGTTTGACCGCTTTTCCCGCGCCGGAAGCCTGCGGAGAATGAGAGAAACGATCAAGGATCTCGACTTTATTATTGCATCGGAGAATGCAGCAGCCACAAGGGACGAACTGCTGGCTTACCCGGACGTGAAAGAAGTCGTCGCCTCCGGAGAAACGAAGGTGTCCATCGTTGTTCATGAAGGCTATGACACCGGCATTGACTTCCGTATCGTTGCCCCTCACGAATTTGCGACGACCCTTCATCATTTTACCGGGTCCAAAGACCACAACGTAGCCATGAGACAGCTGGCGAAAGAGCAGGATGAAAAAATCAGCGAGTACGGCATAGAAGACATCCATACGGGTGAAGTGAAAACCTTTGAATCCGAAGAGGCATTCTTCAAGCATTTCGATCTTCATTTCATCCCTCCTGAAGTGCGGGAGAATTATGGAGAGGTGGAGAAGTTCAAGGAACCGATCCATTTTGTCGACCTTCCTGATATACGCTCGGATCTTCATATGCACTCAACATGGAGTGACGGCGCCCAGTCCATTAAGGAAATGGCACAAAGAGCCAGGGAAAAAGGTTATGACTACATCGCCATCACCGACCACTCCAAGTATTTGAGAGTGGCGAACGGCTTAAATGAAAAACGCCTGCGCGAGCAGCGGAAAGAAATTGACGAAATCAACGAAACGATGGATGATTTTCATATATTTGCAGGCATTGAAATGGACATTCTTCCAGACGGAAGTCTGGACTTTGATGATGATTTTCTTAAAGAGATGGACTTCGTCATTGCTTCCATTCATTCGAGCTTCCAACAGTCTGAGGAGCAGATTATGGAACGGTTGATGAATGCTGTGGAAAACCCGCATGTTCATATGATTGCCCACCCTACGGGACGTTTGATCGGCCGCCGCGACGGTTACGCCGTGAACCTGGAGCAGTTGATTGAAGGAGCGGCCCGTACAGGTACCATTCTTGAGCTGAACGCCAACCCCAACCGCCTCGATTTGAACTGGGAATGGCTCATGAAGGCACAGGAAGCCGGTGTGAAGATCGCCATCAATACCGATGCCCACAGTTATGCCATGCTGGAGCATATGAGAATCGGTGTCGGTACAGCCCGTAAAGGCTGGTTAAGAAAAGGTACGGTTGTAAACACATGGACGAAAGAGAAGTTCATGGATCAATGCAGCATTCGTAAGTAG	MAVDKKQVIQLLEQIAVYLELKGENPFKISAYRKAAQALERDDRSLSEIDDFKKMNGIGKGTAAVIDEYVANEESDTLKQLQAEVPEGLVPLLDLPGLGGKKLAKLYQKLEVTDAETLKEALESGKVEELEGFGKKSAEKMLKALEDAHSRPERLPIAIMLPLAEKVEAYLERAETFDRFSRAGSLRRMRETIKDLDFIIASENAAATRDELLAYPDVKEVVASGETKVSIVVHEGYDTGIDFRIVAPHEFATTLHHFTGSKDHNVAMRQLAKEQDEKISEYGIEDIHTGEVKTFESEEAFFKHFDLHFIPPEVRENYGEVEKFKEPIHFVDLPDIRSDLHMHSTWSDGAQSIKEMAQRAREKGYDYIAITDHSKYLRVANGLNEKRLREQRKEIDEINETMDDFHIFAGIEMDILPDGSLDFDDDFLKEMDFVIASIHSSFQQSEEQIMERLMNAVENPHVHMIAHPTGRLIGRRDGYAVNLEQLIEGAARTGTILELNANPNRLDLNWEWLMKAQEAGVKIAINTDAHSYAMLEHMRIGVGTARKGWLRKGTVVNTWTKEKFMDQCSIRK				NA	NA	NA	NA	NA
AK012_01179	543			hypothetical protein	ATGATTGATTTACTGCTATTGTTTCTTTTGTTTATCGGAGTACTTACCGGGTTGAAGAGAGGATTCATCCTTCAGCTCTTTCATCTTATCGGTTTTATCGTTGCTTTTGTGGCAGCTGTCATTTACTATGACGACCTTTCCCCGAAGCTTACGCTGTGGGTTCCCTACCCCGAACTGCCGGCGGACGCCTCATGGGCTGTATTTCTTGATAACCTTCCGTTGGAGCAGGCCTTTTATAACGCTGTAGCCTTCGCTATATTGTTTTTCGGTGTGAAAATCGTGCTTCATATCATAGCCTCCATGCTGGATTTTGTTTCGGAGCTGCCGATTTTGAATTCATTGAATACCCTTCTGGGTGGCATACTAGGCTTCGTCGAGAACTATGTCATTTTATTTGTCGTGTTGTACATAGCAGCGCTGGTACCTGTAGCCGGGGTGCAGAGTGCGTTGGACGGATCCCTGTTAGCCCAGCTGATCATTGAACATACGCCGGTGCTTTCCAACGAACTGGAAAATCTGTGGATTGAACACGTAGCGGGCTGA	MIDLLLLFLLFIGVLTGLKRGFILQLFHLIGFIVAFVAAVIYYDDLSPKLTLWVPYPELPADASWAVFLDNLPLEQAFYNAVAFAILFFGVKIVLHIIASMLDFVSELPILNSLNTLLGGILGFVENYVILFVVLYIAALVPVAGVQSALDGSLLAQLIIEHTPVLSNELENLWIEHVAG				NA	NA	NA	NA	NA
AK012_01180	288	zapA	COG3027	Cell division protein ZapA	GTGTCGCAGTCAGACCAAGAGAAAAAAAGAATCACCGTGGAGATCAATAAACGATCTTACACGATAGTTGGTCATGAAGAGCCTCATCATATCCGTATGGTATCGAGTCTGGTGGATCAGAAAATGCGTGAAATCCATGAAGCGAACCCTAGCCTGGATACCTCAATGCTCGCTGTATTGACCGCTGTAAATACGATGAATGAATACATTAAATTAAAAGACGAATGTGCGGAGCTTATGAACTATATTGAAAAGCTAGAGAAAGAGGACGACAGAGAAAATGATTGA	MSQSDQEKKRITVEINKRSYTIVGHEEPHHIRMVSSLVDQKMREIHEANPSLDTSMLAVLTAVNTMNEYIKLKDECAELMNYIEKLEKEDDREND				NA	NA	NA	NA	NA
AK012_01181	933	rnhC	COG1039	Ribonuclease HIII	ATGCCTCAAGTTGTCTTAACACTACCCGCCTCTACCTTACAGAAGATGAAAACCTATTACGCATCCCAGAGTAAGCCGAACGCCCCTTCCAGTGCGTTATTTGCTGCAAAAACCGGGGCCTGCACCATCACCGCCTACCGTTCCGGGAAAGTCCTCTTCCAAGGGAAGAATCCTGAAGAAGAATCCGGCAAATGGGGGACGGGCTCTTCTACGTCCGGCCAGAAGAAAAAGAGTTCCTCCCACCACCGTTATCATCCGTCAGAAAGCCTGTTTACCAGCTCTCATATCGGTTCAGATGAAGCAGGGACCGGGGATTACTTCGGCCCCATCACCGTCGCTGCCGCTTATGTAACAGCGGAGCAGATTCCAAAGCTGAAGGCCATCGGTGTCAAAGATTCCAAAAACCTGTCAGATGCACAGATTACTGACCTGGCCAAGGACCTGATTGCCTTGAAGATTCCTTACAGCCTCCTCCGCCTGCCCAACAAAAAATACAACCAGCTGCAGAAAAAAGGATGGAGTCAGGGAAAAATGAAAACGATTCTTCACCATCAAGCCATCAACCGGCTGCTGGAAAAGATCGCTCCGGATAAGCCGGAAGGAATTTTGATTGACCAGTTTTCCCAGCCTGATGTCTATCAGAAGCATCTGCGGTCTGAAAAACAGCAGCTTCAGGAAGACGTCTACTTCATGACGAAAGCGGAAAGCTATTCCATTGCCGTAGCAGCCGGATCGATCATTGCCCGCTCCGCATTCGTCAAAGCCATGGACACCCTTGAATTTGATACCGGTCTGCCGATCCCGAAAGGTGCATCCGGCAAAGTGGATAAAGCCGCCGCCGCTGTGATTGAAGCATACGGGGAAGACAAGCTCGATGAACTGGCCAAGGTTCATTTCGCCAATACGGAAAAAGCGAAAAAGCTGGTACGATGA	MPQVVLTLPASTLQKMKTYYASQSKPNAPSSALFAAKTGACTITAYRSGKVLFQGKNPEEESGKWGTGSSTSGQKKKSSSHHRYHPSESLFTSSHIGSDEAGTGDYFGPITVAAAYVTAEQIPKLKAIGVKDSKNLSDAQITDLAKDLIALKIPYSLLRLPNKKYNQLQKKGWSQGKMKTILHHQAINRLLEKIAPDKPEGILIDQFSQPDVYQKHLRSEKQQLQEDVYFMTKAESYSIAVAAGSIIARSAFVKAMDTLEFDTGLPIPKGASGKVDKAAAAVIEAYGEDKLDELAKVHFANTEKAKKLVR				NA	NA	NA	NA	NA
AK012_01182	2427	pheT	COG0072	Phenylalanine--tRNA ligase beta subunit	ATGCTTGTATCTTTAAACTGGCTGAACGATTATATCGATGTCAGCGCCTACTCTCCGGAGGAACTGGCTGAAATCATTACAAAAACGGGGATTGAAGTAGAAAGCGTAGAGCCTGTAGCCGAAGGGGTTACAGGAGTCGTCGTCGGACATGTGACATCCTGTGTGCAGCATCCGAATGCGGATAAATTGAATCTCTGTCAGGTCGACGTCGGCGAAGAGACGCTTCAGATCGTATGTGGAGCACCCAACGTCGCCGAAGGGCAGAAAGTCGCGGTTGCTGTACCGGGAGCCGTTCTTCCGGGAAACTTCAAAATCAAGAAAACGAAGCTTCGCGGGGAAGCGTCCAACGGAATGATCTGCTCGCTTCAAGAACTTGGTGTGGATGAAAAGGATGTACCTAAGGAATATGCGGAAGGGATTTTCGTGTTTCCTGAGGATACAGAAATCGGAGCGGACGCTGTTTCTGAATTAAACCTTGATGATTTGATCATTGAGCTTGGCCTGACACCGAACCGTTCTGATGCGATGAGCATGGCGGGGGTCGCGTATGAAGTGGCTGCTGCGATTGACGGCACGTACACGCTGGCTGAAGAAAATGTTGAAACCATCGATGAGAAAGCGGAAGATATGCTGACGGTTCAAGTGGACGATCCGGACGCCAATCCATATTACGGTGCTTTTGTCATCAAGGATGTTCAGGTCGGCCCATCCCCGTTATGGATGCGTAACCGTCTGACAGCCGCTGGAATCCGTCCGATCAATAATGTTGTGGATATTACCAACTACGTGTTAATGGAGTACGGCCAGCCGCTTCACGCATTTGACTATGACCGTTTCGGTTCTCAAACCATTCTTACCCGTCGTGCAGAAGAGGGAGAGAAAATCGTTACACTCGATGACCAGGAACGCACATTGAACAGCCATCACCTGGTCATTACCAATGGTGAAAAACCGCATGCCATTGCCGGCGTCATGGGTGGAGCGGAATCGGAAGTTCAGGAAGATACGACGACCATCATCCTTGAAGCGGCTTATTTTGCTCCTTCTGTCGTCCGTGAAGCATCCAAGGATCACGGCCTGCGCAGTGAATCCAGCTCCCGTTTTGAAAAAGGGGTGGACCCGAACCGTGTAGAACGCGCTGGAAAACGTGCCTGTGAGCTTCTTCAGAAGTATGCCGGCGGCCAGGTACTGGAAGGGGATGCTTCCTTCGACCAGCTGGACCGCTCTGAAAAGCAGGTAACCGTACGTACGAGTGTGATCAATGATCGTCTAGGGACAGAGATTTCCAATGAGGAAATGGCGGATATTTTCCGTCGTCTGCAGTTTGTATACAGCTTGGACGGCGAACAGTTCGATGTAACCATCCCGACCCGCCGCGGCGATATCACCATTTTTGAAGATATGCTTGAGGAAGTCGCCCGTATATATGGCTACGACAACCTGCCGTACACCCTTCCGGAAGGTGAATCCCAAGCCGGCGGTCTCACTGTGAACCAACAGTTGAAACGCCGCGTGAAAGCCTATTTCGAGGGAGCAGGTCTTCACGAAACCATTACGTATTCCCTGACTCATAAAGAGAAAGCCGTTATGCTCGTCAGCCCGGAAGTAGAAGAAGCCGCTGAGAGCCCTGTAGGTCTTGCCATGCCGATGAGTGAGGATCACGCTTATCTGAGATTGAGCATCCTGCCGGAATTGCTGGAATCTCTCTCTTATAACGTCGCGCGTCGTCAAGAGAACCTGGCCTATTATGAAGTAGGAACGGTGTTCATCAGTGATGAGCAGGAAGTGACGAAACAGCCGTCTGAAATGCTGCGTGCCTCAGGAGCCCTCACAGGTGACTGGACGTCCCATCTGTGGCAGCAGGAGAAAAAAGCGGTCGACTTCTTTGTTGTTAAAGGTATTGTCGAAGGCTTGGGAGACCAGCTTGGACTTTCCTTCACGTACGAAAAAGCGAAACTGCCATCCATGCATCCGGGTCGTACAGCTGTGATCCGTCACGAAGGCCGCATCATCGGTTTTGCCGGTCAGGTGCATCCGAAGCTGCAGAAAGAATTCGGTCTAAAGGAAACGTACGTGTTCGATCTCAATCTTGAGGAAATGTTCCGTTCTTATGAAAAAGAAGAAACGTTCCGCGTGATTCCGAGACATCCGTCTGTTTCAAGGGATATTGCACTTGTGGTGGACGAGGACATATCAGCAGGTGCGATTGAAGCCACGATCTCTGAAGCAGGGGCGCCGCTTGTGAAGGATGTTCAAGTGTTTGACGTGTATCAGGGAGAGCACTTGGAAGCCGGGAAAAAGTCTCTCGCTTTCCGTCTCCTTTACCTTGATCCGCTTCGTACACTGAAGGATCAGGAAGTAGAAGAAGCTCACGAACAGATTTTAACCGCTGTTAAGGACAAGCACGAAGCAGAACTTCGTGGATAA	MLVSLNWLNDYIDVSAYSPEELAEIITKTGIEVESVEPVAEGVTGVVVGHVTSCVQHPNADKLNLCQVDVGEETLQIVCGAPNVAEGQKVAVAVPGAVLPGNFKIKKTKLRGEASNGMICSLQELGVDEKDVPKEYAEGIFVFPEDTEIGADAVSELNLDDLIIELGLTPNRSDAMSMAGVAYEVAAAIDGTYTLAEENVETIDEKAEDMLTVQVDDPDANPYYGAFVIKDVQVGPSPLWMRNRLTAAGIRPINNVVDITNYVLMEYGQPLHAFDYDRFGSQTILTRRAEEGEKIVTLDDQERTLNSHHLVITNGEKPHAIAGVMGGAESEVQEDTTTIILEAAYFAPSVVREASKDHGLRSESSSRFEKGVDPNRVERAGKRACELLQKYAGGQVLEGDASFDQLDRSEKQVTVRTSVINDRLGTEISNEEMADIFRRLQFVYSLDGEQFDVTIPTRRGDITIFEDMLEEVARIYGYDNLPYTLPEGESQAGGLTVNQQLKRRVKAYFEGAGLHETITYSLTHKEKAVMLVSPEVEEAAESPVGLAMPMSEDHAYLRLSILPELLESLSYNVARRQENLAYYEVGTVFISDEQEVTKQPSEMLRASGALTGDWTSHLWQQEKKAVDFFVVKGIVEGLGDQLGLSFTYEKAKLPSMHPGRTAVIRHEGRIIGFAGQVHPKLQKEFGLKETYVFDLNLEEMFRSYEKEETFRVIPRHPSVSRDIALVVDEDISAGAIEATISEAGAPLVKDVQVFDVYQGEHLEAGKKSLAFRLLYLDPLRTLKDQEVEEAHEQILTAVKDKHEAELRG				NA	NA	NA	NA	NA
AK012_01183	1035	pheS	COG0016	Phenylalanine--tRNA ligase alpha subunit	ATGAAGGAACGTTTAGAGCAGCTGAAGCAGGAAGCGCTGCAGAAAGTGGAAACCGCTGATTCCATTCAGGGATTGAAAGACATTCGTGTCGAGTACCTTGGAAAGAAAGGTCCGATTACGGAAGTACTGCGCGGCATGGGTAAATTATCGAAGGAAGAGCGCCCGGTCATCGGACAGCTCGCCAACGACGTGCGCGAGAGCATTGCAGATGCGATCGAAGCTAAACAGACAGGCCTTGAGGATGAGGCTCTTGAAAAGCAGCTGGAAGAGGAAAGCATTGATGTAACCCTTCCCGCCCGTCCAGTCAAAGTAGGCGGCCCGCACCTGCTGACGAGTATTGTTGAAGAAATTGAAGACCTATTCATCGGCATGGGCTTTGAAATCAAGGAAGGGCCTGAAGTGGAAACCGATTATTACAACTTCGAGGCGTTGAATCTGCCGAAAGGCCATCCGGCCCGCGACATGCAGGATTCCTTCTACGTTACAGAAGAATTGTTGATGCGTACCCACACCTCTCCTGTACAGGCAAGAACCATGGGTGCTAGAAACGGCGCGGAGCCTGTGAAAATGATCTGTCCTGGTAAAGTATACCGCCGGGATACCGACGATGCTACTCACTCTCACCAGTTCACCCAGATTGAAGGTCTGCTTGTTGATAAGCATGTCCGTATGAGTGACTTGAAAGGGGTATTGAATGCATTCGCGAAGCAGATGTTCGGTGCCGAACGAGAAATCCGTCTTCGTCCGAGTTTCTTCCCGTTCACAGAGCCATCGGTCGAAATGGACATTTCCTGCAAAGTCTGCGGAGGTCAAGGCTGCTCTGTCTGTAAGGGGACGGGCTGGATCGAAATCCTTGGTGGAGGCATGGTCCACCCGAACGTATTGGAAATGGCCGGCTATGATTCCAGCGAATACTCCGGCTTTGCTTTCGGAATGGGACCTGAACGGATTGCCATGCTGAAATACGGGGTCGACGATATCCGTCACTTCTATACCAACGATATCCGGTTCTTGGAACAGTATCATAAAGCTTAA	MKERLEQLKQEALQKVETADSIQGLKDIRVEYLGKKGPITEVLRGMGKLSKEERPVIGQLANDVRESIADAIEAKQTGLEDEALEKQLEEESIDVTLPARPVKVGGPHLLTSIVEEIEDLFIGMGFEIKEGPEVETDYYNFEALNLPKGHPARDMQDSFYVTEELLMRTHTSPVQARTMGARNGAEPVKMICPGKVYRRDTDDATHSHQFTQIEGLLVDKHVRMSDLKGVLNAFAKQMFGAEREIRLRPSFFPFTEPSVEMDISCKVCGGQGCSVCKGTGWIEILGGGMVHPNVLEMAGYDSSEYSGFAFGMGPERIAMLKYGVDDIRHFYTNDIRFLEQYHKA				NA	NA	NA	NA	NA
AK012_01184	735			Putative TrmH family tRNA/rRNA methyltransferase	ATGCTCACTTCCTTACAAAACGCAAAAGTGAAGAATTGGAAGAAACTACATAAACGCAAGTATAGAAATCAAACAGGCACGTTTCTTGTCGAAGGGTTTCATCTCGTGGAAGAGGTGATGAAAAGCGGGTGGACCGTCAAAGAACTGATTGTCCGCGAGGAAACGGAAGTCACTCTTCCGGATGATATTCCTTATACGATCGTCAGCCGGGACGTGTTTGCGGCCGTCGCTGAGACGGAAACGCCTCAGGGGATTGCTGCTGTTGTCGCTAAAGAAGATTATACCTTTACGCCGGGAAGCCTTACTTTGATGCTCGATGCTGTACAGGATCCGGGGAATATCGGGACACTGATCCGGACAGCAGACGCCGCCGGCTTTGATCAAGTCATTGTAGGCACTGGTTCTGTGGATATTTTCAATGATAAAGTGATCCGTGCTTCTCAAGGCTCCCTGTTTCATTTACCGGTCCTGACAGGAGACCTTACGGATTATGTGGGCGAATTGAAGGATCAGGGCGTGGAAATCTGGGCCTCTACATTGGAGAATGCCGCCTCTTACAAGGAGCTTCCGATTCCTGGGAAAGCTGCGTTAGTAGTTGGAAATGAAGGCAGCGGCATCTCTGAAGAACTTGTCGAGGCGGCGGATCAGCAGGTGTATATTCCGATATATGGACAGGCGGAGTCGCTGAATGCTGCCATTGCGGGTGCTGTTCTTATGTATCATTTGAAAAGCTGA	MLTSLQNAKVKNWKKLHKRKYRNQTGTFLVEGFHLVEEVMKSGWTVKELIVREETEVTLPDDIPYTIVSRDVFAAVAETETPQGIAAVVAKEDYTFTPGSLTLMLDAVQDPGNIGTLIRTADAAGFDQVIVGTGSVDIFNDKVIRASQGSLFHLPVLTGDLTDYVGELKDQGVEIWASTLENAASYKELPIPGKAALVVGNEGSGISEELVEAADQQVYIPIYGQAESLNAAIAGAVLMYHLKS				NA	NA	NA	NA	NA
AK012_01185	216	sspI		Small, acid-soluble spore protein I	ATGAATTTAAATCTGCGTGCAGCGATTCTGTCCAACGTCAGCAATCATAATGCCGAACAGCTCGAAGCCACTATTGATGATGCCCTGCAGAAGGGTGAGGAAAAAATGCTTCCAGGTCTCGGTGTATTCTTTGAAATGCTGTGGAAAGAATCCGATGAACAGGAACGCCAGGAAATTCTTGATACATTGGAACAGAGCTTAAAACAACAGAAATAA	MNLNLRAAILSNVSNHNAEQLEATIDDALQKGEEKMLPGLGVFFEMLWKESDEQERQEILDTLEQSLKQQK	PGPT0024900_64	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024900-sspI-K06426	NA	NA
AK012_01186	1086	ysdC_1	COG1363	Putative aminopeptidase YsdC	ATGGCTAAAAAAGATGAAACACTGCAGATGTTGAAAGATCTGACGGATGCGAAAGGTGTACCGGGTAACGAAAGAGAAGCCCGTGACGTCATGAAGCAGTACATCACTCCCTATGCGGATGAAGTGTTCACAGATAATCTGGGAAGTCTGATCGCAAAGAAAGTGGGAAATAAAAAAGGCCCGAGCGTTATGGTTGCCGGTCACCTTGATGAGGTCGGATTCATGGTAACCCGTATTGATGATCACGGCTACATTTACTTCCAGACGGTCGGAGGATGGTGGAGTCAGGTGATGCTGGCCCAGCGTGTAACGATCATGACCCGTAATGGCGACCTTACCGGTGTCATCGGTTCAAAACCGCCGCATATCCTGCCTGCTGAGCAGCGGAAAAAGGCTGTGGAAATTAAGGATATGTTCATCGATATCGGGGCTTCCAGCCGCGAAGAAGCGATGGAATTCGGTGTGAAACCGGGTGATTCCGTCGTTCCATACTTTGAATTCACTCAGATGAAGAATGAAAAAATGCTGTTGGCGAAAGCATGGGATAACCGGATCGGCTGCGCGATTGCGATCGAAGTGCTGAAGCAGCTGAAAGGGGAAAAACACCCGAATACCGTCTACGGTGTCGGAACGGTTCAGGAGGAGGTCGGCCTCCGTGGTGCACGTACGTCCGCCAACCTGATCAACCCTGATATTGCTTTCGGTGTCGATGTCGGAATCGCAGGGGATACTCCTGGTGTGTCGGATAAAGATGCTTCCAGTAAAATGGGAGACGGCCCGCAGATTATCCTGTACGATGCCTCTATGATTTCCCATAAGGGACTGCGTGATTTTGTTACGGGTACAGCGGATGAAAACGATATTCCTTATCAGTTCGATTCTCTTGCCGGCGGAGGAACAGACTCCGGGGCCATCCACTTAAGTCATGATGGAGTTCCGGCCCTTTCTATTACGATTGCTACGCGTTATATTCACTCCCATGCGGCTATGCTTCACAGGGATGATTTTGAAAATGCGGTCCGTTTAATCGTAGAAGTCATTAAAGGCCTCGATGCCGATACAGTGAAGGAAATTACATTCCAGTAA	MAKKDETLQMLKDLTDAKGVPGNEREARDVMKQYITPYADEVFTDNLGSLIAKKVGNKKGPSVMVAGHLDEVGFMVTRIDDHGYIYFQTVGGWWSQVMLAQRVTIMTRNGDLTGVIGSKPPHILPAEQRKKAVEIKDMFIDIGASSREEAMEFGVKPGDSVVPYFEFTQMKNEKMLLAKAWDNRIGCAIAIEVLKQLKGEKHPNTVYGVGTVQEEVGLRGARTSANLINPDIAFGVDVGIAGDTPGVSDKDASSKMGDGPQIILYDASMISHKGLRDFVTGTADENDIPYQFDSLAGGGTDSGAIHLSHDGVPALSITIATRYIHSHAAMLHRDDFENAVRLIVEVIKGLDADTVKEITFQ				NA	NA	NA	NA	NA
AK012_01187	486			hypothetical protein	ATGTTTTGGGAATCGTTATACCAGATGCAGAAGAAACTGGACCAATATATTGAACAACAGCACGACTTGGAGAAAAGCGGCTATGTGGAATCCAAGATTCTTGCTTTATTAGTAGAGCTTGGGGAATTGGCGAATGAAACCCGCTGTTTTAAATTTTGGAGCACCAAAGGGCCAAGCGCTCCATCCGTCATTCAGGAGGAATATGTCGACGGAGTTCATTTCCTGTTGTCCCTGGGTTTGGACCTTGGTTTCCGCTATAACCATCAGGAAGAGGAAAACCGTCCAATGACGCAGACAGAAGCCTTCCTGGAAGTGTACAGCCGGGTGGAGGTTTTCCGCCATGAAAGGACGAAGGATAATTATGAAGCGTTGTTTCACGCCTATGTTACCTTAGGCCGTACTCTTGGAATTACGGCAGAGGATTTGAAAGAGGCGTATATAAATAAAAATGAAGTGAATTTTAAGAGACAGGACCAAGGTTATTAA	MFWESLYQMQKKLDQYIEQQHDLEKSGYVESKILALLVELGELANETRCFKFWSTKGPSAPSVIQEEYVDGVHFLLSLGLDLGFRYNHQEEENRPMTQTEAFLEVYSRVEVFRHERTKDNYEALFHAYVTLGRTLGITAEDLKEAYINKNEVNFKRQDQGY				NA	NA	NA	NA	NA
AK012_01188	411	ysdB		Sigma-w pathway protein YsdB	ATGATCATCCTTTTGTTCCGACTGCTGCTGCTACTGGCTGTAGCCTTTATCATGTACACGGCCTATAAATTCATCGTTAACCCACGCAGGAAGCTGGACCTTGCCCGGGATAAGAAAGAATTTTATTTTCATGACAATCAGGAAGATACGAAGGAAAACTTCCTGATGACCTTGAAAGGTCATGTATTTGAAGGGGAGAAATATTTAGGGACAACGGAAGATGCCTTCGAGGTCGTTACCATCAATGTGAGTGCCCATGACCCGCAGAAGCTTCAAGGGCTGGAGCGGGAGGATCTTTACTTTATGGAAAAAGAAATCCTGCTCCGTTATCCGCACGCTTCTATTGAATGGAAATATCCGATCAACCGGCTGATCATCCACCCGTTGAAGAATAATGATGACTTCCATTAA	MIILLFRLLLLLAVAFIMYTAYKFIVNPRRKLDLARDKKEFYFHDNQEDTKENFLMTLKGHVFEGEKYLGTTEDAFEVVTINVSAHDPQKLQGLEREDLYFMEKEILLRYPHASIEWKYPINRLIIHPLKNNDDFH				NA	NA	NA	NA	NA
AK012_01189	573			hypothetical protein	GTGGGCGGGACAACGACAGCTGTGCTGGCATGGTTGGAACATCAGGAAGCCTGGGCGCCGCTCTTGTTTATCGGAATTCATATGCTTCGGCCGTTTTTGTTTCTGCCGGTGATGCTCGTCTGTATAACCGGAGGTGTCTTATTCGGCCCGATTGCGGGGACGGCCTACTCTGTCATTGGGACGATGATATCCAGCCTCTTGTTTTACAGGACGATCCGGATCATGCCGTGGGTGATGAAAAGGATGGCGGGGATTAAGGAGCGGTGGATGAAGAAGCAGGCGTCGCTGTCCGTCAGACAGGTGGCTGTGCTGCGCCTTGTTCCTTTCATTCACTTTCACTTATTGTCCTATTGTCTCATTGAAAGCAGTGCAGATTTTAAGGATTACGCGAAATCATCTTTATTTGCTAATTTTCCACTTGCTTTTATTTACACATCTGTCGGTCAGTGGGTCACACTTTTTTCCCTGCCGATGATGGTCGCTTTTTCGGGAGCTCTCGTCGGGGTGAGTTTTATGATCCGGAAAAAAAGTGAAGTGTTTCTCTGGCACGATTTCTTCCAGACGAACCCATAA	MGGTTTAVLAWLEHQEAWAPLLFIGIHMLRPFLFLPVMLVCITGGVLFGPIAGTAYSVIGTMISSLLFYRTIRIMPWVMKRMAGIKERWMKKQASLSVRQVAVLRLVPFIHFHLLSYCLIESSADFKDYAKSSLFANFPLAFIYTSVGQWVTLFSLPMMVAFSGALVGVSFMIRKKSEVFLWHDFFQTNP				NA	NA	NA	NA	NA
AK012_01190	273			hypothetical protein	ATGGTGTATGCAGCATTGTTGTACCTGGTGGTAAACGCCTGGCTGTTTATTCTGATGGGAGTGGACAAGAAGCGGTCGCGGCAGGAGCAGTGGAGGGTACCGGAAAAGCATTTGTGGGTGCTGGCATGGATCGGAGGCGCTTTAGGAGGCGTGCTTGGGATGAAGGTGTTTCGTCACAAGACGAAACATAAGGCATTTGCAGCAGGCTTTCCAATGCTTGCAGCTGCCCATGCGCTGTTGATCGGCTGGCTGTACATGAGGTTCTATACATAA	MVYAALLYLVVNAWLFILMGVDKKRSRQEQWRVPEKHLWVLAWIGGALGGVLGMKVFRHKTKHKAFAAGFPMLAAAHALLIGWLYMRFYT				NA	NA	NA	NA	NA
AK012_01191	357	rplT	COG0292	50S ribosomal protein L20	ATGCCACGAGTAAAAGGTGGAACAGTGACACGTCAACGTCGTAACCGTGTCCTTAAACTAGCAAAAGGTTATTATGGTTCAAAGCACGCACTATTTAAAACTGCTAAACAGCAGGTAATGAAATCAGGACAGTACGCTTACCGCGACCGTCGTCAGAAAAAGCGCGACTTCCGTAAGCTTTGGATCGCTCGTATCAACGCTGCAGCGCGTTTGAACGACATTTCCTACAGCCGTCTAATGCACGGTCTTAAACTTGCGGGTATCGAAGTAAACCGTAAGATGCTTGCTGATCTTGCTGTTAACGATGCACAAGGTTTCGCAAGTCTAGCTGAGCAAGCAAAATCTGCTCTTAAGTAA	MPRVKGGTVTRQRRNRVLKLAKGYYGSKHALFKTAKQQVMKSGQYAYRDRRQKKRDFRKLWIARINAAARLNDISYSRLMHGLKLAGIEVNRKMLADLAVNDAQGFASLAEQAKSALK				NA	NA	NA	NA	NA
AK012_01192	198	rpmI	COG0291	50S ribosomal protein L35	ATGCCAAAAATGAAGACCCATAAAGGTTCTCAAAAACGCTTCAAAAAAACTGGAACAGGTAAAGTGAAACGTTCCCACGCTTTCACAAGCCACTTGTTCGCGAATAAATCAACTAAGCAAAAGCGTAAGCTTCGTAAAGATGCATTGGTTTCTGCAGGAGACTACCGCCGCATCAAGCATATGCTTCCAAAAGACTAA	MPKMKTHKGSQKRFKKTGTGKVKRSHAFTSHLFANKSTKQKRKLRKDALVSAGDYRRIKHMLPKD				NA	NA	NA	NA	NA
AK012_01193	504	infC		Translation initiation factor IF-3	ATGAACGTTAATGAAAAAATCCGTGCCCGTGAAGTCCGTCTGATCGACGTGAATGGTGAGCAGCTTGGAGTTAAATCACGTAACGAAGCGCTTGATATTGCAGCAAACGCAAATCTTGATCTTGTTATGGTGGCCCCAAATGCGAAGCCTCCGGTTTGCCGAGTGATGGACTACGGAAAATATCGTTTCGAGCAGCAGAAGAAAGAAAAAGAAGCTCGCAAGAAACAAACCGTCATCAAAGTGAAGGAAGTGCGTCTCAGCCCAGGGATTGAAGACCACGACTTCAACACAAAACTTCGTAACGCACGCAAGTTCTTGTCTAAAGGTGACAAAGTGAAAGCATCTGTCCGTTTCCGCGGACGTGCCATCACACACAAGGAACTAGGGCAGAAAGTACTCGAGCGTCTGGCTGAAGAGTGCAAAGATGTCGCCCAGGTTGAGACCAAGCCTAAAATGGAAGGTCGCAGCATGTTCTTAATGCTTGCTCCTCTTAACGAGAAGTAA	MNVNEKIRAREVRLIDVNGEQLGVKSRNEALDIAANANLDLVMVAPNAKPPVCRVMDYGKYRFEQQKKEKEARKKQTVIKVKEVRLSPGIEDHDFNTKLRNARKFLSKGDKVKASVRFRGRAITHKELGQKVLERLAEECKDVAQVETKPKMEGRSMFLMLAPLNEK				NA	NA	NA	NA	NA
AK012_01195	1947	thrS	COG0441	Threonine--tRNA ligase 1	ATGGCGGATGTGATTCAAATCAAATTCCCAGACGGAAACATGAAGGAGTTTGAGAAAGGGACCACAGGTGAGGATATTGCTAAGTCAATTTCTTCAGGATTGAAGAAACAGGCTCTGGCGATCAAGCTGGACGGCGAACCTTACGATCTTAGACGTCCAATTGAACAGGACGGGGAGATAGAAATCCTGACTTATAAAAATCCAGAAGGTCTGGAAGTGGCGCGCCACTCTACTGCCCACCTGATGGCCCAGGCTGTGAAACGTCTGTACGGAAACGTGAAGCTTGGCGTTGGTCCGGTTATTGAAAATGGATTCTATTATGATATCGATATGGAGGAATCCCTGACTCCGGAAGATCTTCCGAAAATCGAAAAGGAAATGCAGAAAATCGTGGATGAAAACCATGAGATCGAACGCATTGAGCTTTCAAGGGAAGAAGCGATCGAGAAATATAAGGAAATCGGTGATGAGCTGAAGCTTGAGCTGATCGAAGCTATTCCTGAAGGGGAGCAGGTGACGATTTACAAGCAGGGTGAATTCTTCGATCTCTGCCGTGGTGTCCACGTGCCGCAGACGAGTAAAATCAAAGTCTTCAAGCTGTTGAGCATTTCCGGGGCGTACTGGAGAGGGGACAGCGACAACCAGATGCTTCAGCGTATTTACGGTACAGCTTTTGAGAAGAAAGCCCACCTGGATGAATACCTGCAGATGCTTGAAGAAGCGAAGGAACGCGACCACCGTAAACTAGGGAAGGAACTTGAAATCTTCACGATCAATCAGAAAGTCGGCCAGGGGCTTCCGATGTGGCTTCCGAAAGGTTCAACCATCCGCCGTACGATTGAGCGCTATATCGTCGATACAGAGGAGCGTCTCGGTTACGATCACGTGTATACGCCTGTTCTCGGCAGCGTCGATCTCTATAAAACGAGCGGACACTGGGATCACTATCAGGATGATATGTTCCCGACAATGGAAATGGACAACGAAGATCTTGTGCTTCGTCCGATGAACTGTCCTCACCATATGATGGTCTATAAAAACCAGATGCACAGCTACCGGAATCTGCCTGTCCGGATTGCTGAACTCGGGACGATGCACCGTTATGAAATGTCCGGAGCCCTTGCCGGTCTTCAGCGTGTTCGTGCGATGACCTTGAATGATGCTCATATCTTTGCCCGCCCGGATCAGCTGAAGGATGAATTCAAGCGCGTTGTCCGCCTTGTTCAGGAAGTGTACCGTGACTTCGGCATCAATGACTATTACTTCCGCCTGTCCTACCGGGACCCGGAGGATAAAGAAAAATACATCGACAATGATGCGATGTGGGATAAAGCGCAGGGCATGCTCAAAGAAACGATGGAAGATATGAAGCTGGAGTATGTGGAAGCTGAAGGGGAAGCGGCCTTCTACGGTCCGAAACTGGATGTCCAAGTGAAAACAGCCCTTGGTAAAGACGAAACACTTTCCACTGTCCAGCTGGACTTCCACCTTCCAGAGCGCTTTGACCTGACTTATGTCGGGGAAGATGGAGAGGATCACCGTCCGGTCGTTATTCACCGTGGGGTCGTTTCCACAATGGAACGCTTTGTAGCTTTCCTTATTGAAGAGTACAAAGGCGTATTCCCGACATGGCTTGCACCTGTCCAGGCTAAGATTATCCCGGTTTCTGCTGATGTCCATCTGGACTATGCTAAAAAACTGGAGGATGAACTTCGTGAAGCAGGCGTGCGTGTGGAAGTGGACGAGCGGAATGAAAAGATCGGCTATAAGATTCGTGAAGCTCAGATACAGAAAGTTCCGTTCCAGCTTGTCGTTGGAGATAAGGAGATTGAAGATCATGCGGTGAACGTCCGCCGTTACGGAGAGCAGGACTCCGCTACAAAATCTGTAGACACATTCAAGTCCGAAATCAAAAACGAAATCGACCAAAAGCTTCTAAGAAAGTAA	MADVIQIKFPDGNMKEFEKGTTGEDIAKSISSGLKKQALAIKLDGEPYDLRRPIEQDGEIEILTYKNPEGLEVARHSTAHLMAQAVKRLYGNVKLGVGPVIENGFYYDIDMEESLTPEDLPKIEKEMQKIVDENHEIERIELSREEAIEKYKEIGDELKLELIEAIPEGEQVTIYKQGEFFDLCRGVHVPQTSKIKVFKLLSISGAYWRGDSDNQMLQRIYGTAFEKKAHLDEYLQMLEEAKERDHRKLGKELEIFTINQKVGQGLPMWLPKGSTIRRTIERYIVDTEERLGYDHVYTPVLGSVDLYKTSGHWDHYQDDMFPTMEMDNEDLVLRPMNCPHHMMVYKNQMHSYRNLPVRIAELGTMHRYEMSGALAGLQRVRAMTLNDAHIFARPDQLKDEFKRVVRLVQEVYRDFGINDYYFRLSYRDPEDKEKYIDNDAMWDKAQGMLKETMEDMKLEYVEAEGEAAFYGPKLDVQVKTALGKDETLSTVQLDFHLPERFDLTYVGEDGEDHRPVVIHRGVVSTMERFVAFLIEEYKGVFPTWLAPVQAKIIPVSADVHLDYAKKLEDELREAGVRVEVDERNEKIGYKIREAQIQKVPFQLVVGDKEIEDHAVNVRRYGEQDSATKSVDTFKSEIKNEIDQKLLRK				NA	NA	NA	NA	NA
AK012_01196	111			hypothetical protein	ATGACTCCTCTCTCTGATCATACGCCACTTTCCGTTCGTATCCTTATCAAAGCCATTGATTTAATATGTACGTATTATATCCATTTGCGAAAAGGAAATCAAGGGCTTTAA	MTPLSDHTPLSVRILIKAIDLICTYYIHLRKGNQGL				NA	NA	NA	NA	NA
AK012_01197	810			hypothetical protein	GTGTTTGACTTATCTTTTTCCAAGCGTCTGGAAGCCGAAACGTTTTATAATGCCATCGTTTCCGAACAGAAGCTGTGGGTTTACGAGGAAAGCGGCAGGCGCTTTTCTGTTAAATTGATGCATTCGTCCTCAAGGGAGTCTGCTTATGTAGACGTGGTGCGGGCCCTGCACCATGTCGTACGGAAACGGAAAATCCCAGCCTGGATGGAGGGGGTCCTCCGATTCTCGTACCATTACGATGATGCCGATGAAATTCAGCGCATCCTCGAAATTGAGCAGGAATTTGACTCTCATCCTCCAGCGGGCCTGCGTCTGCCGCCTGTCCACCACTATATTAAAGCCTACATTCAGGAGTATGTGCACGTAAGGGATACGGTGGTGTTTGATGACTTGAGTGCCGGGTGCCTGGCTCATATCCACACGTGTCTTGCGGATTATACCGGAAAAGTCATCGATGAATATAAGCAGGAGGAATCGTACCAGCTGCTGGTGGATTCCTGGCGGCACCGCGTTCATCACCAGGATACAGGAGTACAGCTGCTTCATATCCTGGATGATCATGGACTGACTTACTTCCACGATGAAGGCAACCCGCTGAGTCATTCGGAGACCCGTTTGTATCAGAAACAATATCCGGATGAAGCTGTGTCTGATCTGCCTCTGGAATGGCCGGTCACGCCGGCGCTCGTCCATGCTCCCGAGGAGATCATCATCTATTCTGATCAGGCGGAGAATTCCAACCTGGAACTGTTGATGAATATCTTTGAGGAAAAGGCTGTCTGGAAGCCTAAATCACAATTTCCTTTTTAA	MFDLSFSKRLEAETFYNAIVSEQKLWVYEESGRRFSVKLMHSSSRESAYVDVVRALHHVVRKRKIPAWMEGVLRFSYHYDDADEIQRILEIEQEFDSHPPAGLRLPPVHHYIKAYIQEYVHVRDTVVFDDLSAGCLAHIHTCLADYTGKVIDEYKQEESYQLLVDSWRHRVHHQDTGVQLLHILDDHGLTYFHDEGNPLSHSETRLYQKQYPDEAVSDLPLEWPVTPALVHAPEEIIIYSDQAENSNLELLMNIFEEKAVWKPKSQFPF				NA	NA	NA	NA	NA
AK012_01198	933	dnaI	COG1484	Primosomal protein DnaI	ATGGAGCCCATCCAGCAGTCACTGAAGAAATGGATGAAAGATAATAAGCAGTTCCAGCAGCGCTATAACCAAATGAAAGCGGAGGTTCTGGACTCCAGCGAAGTCCAGCGGCTGATGCAGGAAAATGAAGGCTTGGATGAGAAGGCCGTGGAAAAGCACCTGATCAAGCTTTATGAATACCGTACTCAATCGAAAAACTGCGAAAAATGCCCCTCCAGGGAGGAATGTATCAATATTCTGCCTGGATACGTCCCGTCGCTGGAAGTTGAAGGGACAGACATTAAACTGATTTATGATAAATGCAGACGCCAGCGTTCACAGGAACAGCAGTCGTACCAGAAATCATTGGTGAGCAGTCTTCATATGCCGAGAGAAATTCTGGAAGCGTCACTGGAGCGGATGGATCTGGAAGACCCTGACCGCGGCGGGGCGGTGGCTGAAACCGTCCGATATATTGAAAGTCTCGGTGATGAACTTCCGGCTAAAGGCCTGTATTTTCATGGACCATTCGGTGTAGGGAAAACGTATTTTCTCGGGGCGATCGCCAATGCCCTTAGTGATAAGCAGATTCCATCGATGATCATTTATATGCCGGAATTTGTCAGAGAGATGAAATCATCCATCAAAGATGATTCCCTCAACGACAAAATTACCGCTTTTAAAGAAACGCCGGTGTTGATGCTGGACGATATCGGGGCAGAGTCCCAGTCGGCCTGGTTCAGGGATGAAATCCTGGGGAGTATTCTCCACTACCGGATGATGGAGCGTCTGCCTGTCTTTTTTACGTCCAATTACACGTTGAATGAGCTTGAAAAGGTATTGATGACAAGCAGCCGCGGCGATGTGGAACAAGTAAAAGCGAAGCGGATTACCGAACGCATCAAGCAGCTGAGTGAGGCGGTCTTTGTCGACGGGCAGAACAGGCGTTCATAA	MEPIQQSLKKWMKDNKQFQQRYNQMKAEVLDSSEVQRLMQENEGLDEKAVEKHLIKLYEYRTQSKNCEKCPSREECINILPGYVPSLEVEGTDIKLIYDKCRRQRSQEQQSYQKSLVSSLHMPREILEASLERMDLEDPDRGGAVAETVRYIESLGDELPAKGLYFHGPFGVGKTYFLGAIANALSDKQIPSMIIYMPEFVREMKSSIKDDSLNDKITAFKETPVLMLDDIGAESQSAWFRDEILGSILHYRMMERLPVFFTSNYTLNELEKVLMTSSRGDVEQVKAKRITERIKQLSEAVFVDGQNRRS				NA	NA	NA	NA	NA
AK012_01199	1356	dnaB	COG3611	Replication initiation and membrane attachment protein	ATGAATCATTCCATTGGCAGACTGCTGCCTGTAGACGGCTTTAAAGTCAGGAACAGCGGAGAAATGCCTCGAAATTTTCATCGTTCGTTATCCCATCTATATCAGCCGATCGTAGGACGACTGGCTGTATCCCTTTATCATCTGCTCCTGTCCGAAGCGGATCTTGCTGATCAGGATGCAGTTCAGACGCATCATTCATTGATGGCTTACCTTTCAGCTCCTCTGGATAAGATTTATGAAGCCAGAGGAAGACTGGAAGCGCTCGGGTTGTTGAGAACGTATCGTTCCAAGGAAGAAAGCGAGCAGACCGTCTATATTTATGCGGTCCATCCTCCTTTTACGCCGGAGGAATTTTTTCAGGATGACATGCTGGCGCTTCTTTTGACCCATGAACTGGGGCAGGATAAGTATGAGCAGGTGAAAAGCCGCTTTGTTAAGCCGGAGCCTTCCGTGGAAGGGTATGAGGAAATCACGGCTTCTTTTGACGCAGTCTTCCATCATAAAATGATGGAATCTGTCCAGAGGGAAACAGAAGTGATGGCTGAACAGAAGCGTTCCCAGGAGTATCGGGGGCCCCGCACCTCAGAAGGGCGCGTCGATTTCACCTGGCTCCGCCAAGCTCTTCATAAGAGAATGTATCCAAGCGAACGGATTTTAACCGGCCGGAATAAAAAATTGATTGTGCAGCTGGCCAGTTTATATGATTTATCAAACGTGGAACTGGAAAAAGCGGTGACATGGGCGATTGATGAAAACCACTGCCTGGTCGAAGAAGAGTTCAAGGCTGCGTGCCATGACTTTATGAAGGAAGAAAAAACGGGACAGCATGCGTCTGTGGATGACCGAGAGAAATGGACATCTATGGAAAAAGGGACGACGGGCTCCAAGGAAGATCAGTTTGTTGAAATGCTCGAGCAGATATCCCCGAGAGAGCTCCTTGAAGATCTATCCAACGGCAACCGCGCATCGGAGCAGGACTTGAAGCTGATCCGGGATGTCATGACGGAACAGGGAATGACGGCCGGGGTTATGAACGTGCTTGTTCACTACGTCATGTTGAAGACGGATATGAAATTGTCGAAATCCTATATGGAGAAAATCGCCAGCCACTGGGCGCGTAAAAATGTAACAACTGTCCGCCAGGCAATGAATCTCGCCAAGGCAGAACATCAGAAATACCAGCAGTGGGGCCGTCAGAAAACACAGAAGCGGGCCTCCCAAAAAGATGAAGTCATTCCTGTCTGGTTCAACAAGGAGGAAGAGAAGCAGCCTGCCGCTGCATCTTCAGCTGAGCCTCAGGTGGATAAAGAGGACATCGCAGCCCGGATTGCCAGGCTGACCAATAGAGGAAATTAG	MNHSIGRLLPVDGFKVRNSGEMPRNFHRSLSHLYQPIVGRLAVSLYHLLLSEADLADQDAVQTHHSLMAYLSAPLDKIYEARGRLEALGLLRTYRSKEESEQTVYIYAVHPPFTPEEFFQDDMLALLLTHELGQDKYEQVKSRFVKPEPSVEGYEEITASFDAVFHHKMMESVQRETEVMAEQKRSQEYRGPRTSEGRVDFTWLRQALHKRMYPSERILTGRNKKLIVQLASLYDLSNVELEKAVTWAIDENHCLVEEEFKAACHDFMKEEKTGQHASVDDREKWTSMEKGTTGSKEDQFVEMLEQISPRELLEDLSNGNRASEQDLKLIRDVMTEQGMTAGVMNVLVHYVMLKTDMKLSKSYMEKIASHWARKNVTTVRQAMNLAKAEHQKYQQWGRQKTQKRASQKDEVIPVWFNKEEEKQPAAASSAEPQVDKEDIAARIARLTNRGN				NA	NA	NA	NA	NA
AK012_01200	468	nrdR	COG1327	Transcriptional repressor NrdR	GTGAAGTGTCCTAACTGTCACTACAAGAGCACAAAGGTGCTGGATTCAAGACCTATAGAGGAAGGTCAGACAATCAGAAGACGTAGAGAATGTGAACAGTGCGGCTTTCGTTATACAACGTTTGAGCGGATTGAAGAAGTCCCTCTGATTGTCGTGAAAAAAGAGGGGACTCGTGAGGAGTTCAGCAGGGAAAAGCTGATGCGGGGACTGATCAGAGCCTGTGAGAAGCGTCCGGTTGAAGTGGAGAAGCTCGAAGCCGTTACGCTGGATATTGAAAAGGAACTGAGGAACCGCGGCGTTTCAGAAGTGCTGAGTGAGGATATCGGCGAAATGGTCATGGGGCGTTTATCTGAAGTCGATGAAGTGGCCTATGTCCGTTTTGCGTCTGTTTATCGTCAGTTTAAAGATATAAACGTATTTATTGACGAATTGAAAGAATTAATTAAAGATGAAGATCATGATGAATGA	MKCPNCHYKSTKVLDSRPIEEGQTIRRRRECEQCGFRYTTFERIEEVPLIVVKKEGTREEFSREKLMRGLIRACEKRPVEVEKLEAVTLDIEKELRNRGVSEVLSEDIGEMVMGRLSEVDEVAYVRFASVYRQFKDINVFIDELKELIKDEDHDE				NA	NA	NA	NA	NA
AK012_01201	375			hypothetical protein	GTGAAAGCATTTATTTCCAGGTATCTCAGCACTCATTCCGAAACCAGTGAACAGCATAAGGACACGGCCCTTATCACACACTATTACAAAGCGAAGCATGATGAGATTTTCCGTGCTGTGGAAGAGATGTTCCCCTCACCTTCCGAAATTAAAGCCGTCTCCAAGGAGCGCGGGGAACTGACGATCACCTATGAAGGAAAGCGGCGGGCGTTTGTTGTAGCCACAATCATTATGGTTCGTCCGTTCCGCACGGCGGTTGACTTTTCGGTCACCACTGATTCAGGCGGCCCTGTGGATTTTGGCTACAGCCGTAATCTGATCGTACAGTTCTATGAACAGCTGGACCGGCAGTTTACAGCTGTGGATCCCGGGTGA	MKAFISRYLSTHSETSEQHKDTALITHYYKAKHDEIFRAVEEMFPSPSEIKAVSKERGELTITYEGKRRAFVVATIIMVRPFRTAVDFSVTTDSGGPVDFGYSRNLIVQFYEQLDRQFTAVDPG				NA	NA	NA	NA	NA
AK012_01202	378	speH	COG1586	S-adenosylmethionine decarboxylase proenzyme	ATGGATACAATGGGAAGACACGTAATAGCTGAATTATGGGATTGTAATGAATCGAAATTGAACGATATGTCGTATATAGAGCAGGTTTTTGTTGATGCTGCACTTAAAGCCGGTGCCGAAGTGCGGGAGGTGGCTTTTCACAAATTCGCCCCTCACGGCGTCAGTGGAGTTGTCATTATTTCAGAGTCGCACCTGACGATACACAGCTTCCCTGAACACGGATATGCAAGCATTGATGTATATACGTGCGGGGACCGCATTGATCCTAATGTAGCTGCACACTATATTGTAGAAGCATTGGAAGCCGGCCGGAATGAAACCGTTGAAGTACCAAGAGGGATGGGACCTGTTGAAGTCAAGGAAGCCCGTGCCCTGTAA	MDTMGRHVIAELWDCNESKLNDMSYIEQVFVDAALKAGAEVREVAFHKFAPHGVSGVVIISESHLTIHSFPEHGYASIDVYTCGDRIDPNVAAHYIVEALEAGRNETVEVPRGMGPVEVKEARAL	PGPT0007760_2354	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
AK012_01203	1035	gapB	COG0057	Glyceraldehyde-3-phosphate dehydrogenase 2	ATGGGGAAAACAAAGATCGCCATTAATGGCTTGGGAAGAATCGGACGTATGGTATTCAGACAGGCGGCGGTAGACGATACAGTGGAGCTTGTGGCTGTTAATGCCAGCTATCCTGCTGAAACGATTGCTCATATGGTGAAATATGACAGTGTTCATGGACGATTCGATGGGGAAGTGCGTACGATTCCTGAAGGATTAATGGTAAATGGGAAGAAAATCAAGCTCTGCTCCACAAGAAACCCGGCTGAGCTCCCTTGGAAAGAGCTTGGTGTGGATATTGTCATTGAAGCCACAGGGAAGTTCCGGACGAAGGATGAGGCAGCGCTCCACCTGGATGCAGGAGCCAAAAAGGTAATCATTACAGCTCCTGGCAAGGAAGTAGATGCTACGATCGTGATGGGGGTTAATGAGGATTCCTATTCCCCTGAAACGCACGATGTCATTTCCAATGCCTCCTGCACGACAAACTGTCTCGCGCCGGTAGTGAAAGTGCTTGAAGATGAATTTGGTATTGAAAATGGCTTGATGACAACCGTTCATTCCTTTACAAACGATCAGAAGAACCTGGATAACCCTCATAAGGATCTGCGGAGAGCACGGGGGTGCACCCAGTCGATCATTCCAACCTCCACAGGAGCAGCCAAGGCTCTTGGAGATGTCATTCCGAGCATGAAGGGCAAGCTGAATGGGATGGCTCTGCGTGTCCCGACACCGAACGTCTCTTTAGTGGATTTAGTGGTTGACCTTAAGAAAGCGGTTACGAAAGAGGGATTGAACGAAGCCTTCGCATCTGCCTCAGAGAGTGAAATGAAAGGTATTCTGGAGTACAGCGATGAGCCGCTTGTATCCATTGACTATACGACTTCACCGTCGTCTGCTATTATTGATGGATTGTCAACTCAGGTGATGGAAGGGTCAAAAGTGAAAGTACTGGCCTGGTATGATAATGAATGGGGTTACTCCTGCCGGGTTGTTGATCTTGCTAAATATGTGGGAAACTTAATGAAGCAGGAAAGGACGGCGAGGGTATCGTAG	MGKTKIAINGLGRIGRMVFRQAAVDDTVELVAVNASYPAETIAHMVKYDSVHGRFDGEVRTIPEGLMVNGKKIKLCSTRNPAELPWKELGVDIVIEATGKFRTKDEAALHLDAGAKKVIITAPGKEVDATIVMGVNEDSYSPETHDVISNASCTTNCLAPVVKVLEDEFGIENGLMTTVHSFTNDQKNLDNPHKDLRRARGCTQSIIPTSTGAAKALGDVIPSMKGKLNGMALRVPTPNVSLVDLVVDLKKAVTKEGLNEAFASASESEMKGILEYSDEPLVSIDYTTSPSSAIIDGLSTQVMEGSKVKVLAWYDNEWGYSCRVVDLAKYVGNLMKQERTARVS	PGPT0018000_1616	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
AK012_01204	600	coaE		Dephospho-CoA kinase	ATGACACTGGTCATTGGTTTAACCGGCAGTATCGCAAGTGGAAAAAGTACCGTATCCCGCATGTTTGATGAGTGGGAGATTCCTGTTATAGATGCGGATCAAATATCCAGGGATGTTGTCCGTCCGGGAGAGCCCGCTTATGAGGACATTGTTCACGTTTTTGGTAAGGATGTGCTTTTTGAAGACGGAACCCTGGATCGGAAAAAGCTCGGGAAAGTAATTTTCAGCAGTAAAGAGCGAAGGAAAGAACTGAATGACATCGTTCACCCCCGCGTCCGTGAGGAAATGATCCGTCGGCGCGAATCCTATAAAGAGGAAGATTACAAGGCGGTTGTCCTGGATATCCCTCTTCTTTATGAAAGCGGCCTGACCGATTATGTAGAAAGGGTACTTGTCGTAGCGGTCGATGAGGAAACGCAGCTGCAGAGACTGATGGAGCGCGATGGTTCATCAAGGGAAGATGCCCGCGAACGGATCGCTTCGCAGATCCCTGTCAGCCGTAAAGCAGAAATGGCGGATGCGGTGATTGATAATAACGGAACCGAAGAAGAGAGCTTTCATCAATTAAGAGACATACTTCACCGGTGGAACCTCGTATAA	MTLVIGLTGSIASGKSTVSRMFDEWEIPVIDADQISRDVVRPGEPAYEDIVHVFGKDVLFEDGTLDRKKLGKVIFSSKERRKELNDIVHPRVREEMIRRRESYKEEDYKAVVLDIPLLYESGLTDYVERVLVVAVDEETQLQRLMERDGSSREDARERIASQIPVSRKAEMADAVIDNNGTEEESFHQLRDILHRWNLV	PGPT0008835_3926	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
AK012_01205	597	ytaF		putative sporulation protein YtaF	ATGGGCATCGGAATGTTCATATTTTTATTCGTTACGGCCGTAAGTGTCGACAGCTTCGGGATTGGCTGCGTGCTCGGCTTGAAAAAAGTAAAGCTTGCATTCTGGGGCATTGTGGTCATTGCCTCTGTTTCAGGTATAGTCTTTCTTCTTTCCTCCTATTTCGGTCAGCTGCTCGTTCATGTTGTCAAACCGGAAATGGCGGAAAAGGCCGGAGCTGTCGCTTTAATTGGAATCGGCATCTATTTTTTAAGGCAGTTTTTCAAAAAACATACCGAGGATCAGCAGGACCCCTGGCTGAACCCTGCGAAAGTATTGAACGATCCAGTGACCGCTGATGTGGATAAATCGGGTGGGATCCAAGGAAAAGAAGTATGGCTGCTGGGAACCGCCCTGTCTCTGGATACCATAGGCGCGGGCATCAGCGGAGCCCTTATTGGTCTTCCTGTTCTGATGACGGCGGGCCTCATTGCTTCGGCCACTTTTCTTATGCTCAGCACGGGGATCATCGCTGGATCGAAACTGACAAGCAGGGTGGAGAGCATCTCCATTCTTCCCGGGGTGCTGTTGATCATCATCGGCTTGATCAAGCTATCGTAA	MGIGMFIFLFVTAVSVDSFGIGCVLGLKKVKLAFWGIVVIASVSGIVFLLSSYFGQLLVHVVKPEMAEKAGAVALIGIGIYFLRQFFKKHTEDQQDPWLNPAKVLNDPVTADVDKSGGIQGKEVWLLGTALSLDTIGAGISGALIGLPVLMTAGLIASATFLMLSTGIIAGSKLTSRVESISILPGVLLIIIGLIKLS				NA	NA	NA	NA	NA
AK012_01206	840	mutM	COG0266	Formamidopyrimidine-DNA glycosylase	ATGCCGGAATTACCAGAAGTGGAAACTGTAAGAAAAACGTTGAAGCATTTAACCTTGGGGAAAGAAATACAGGATGTCTCTGTTTTCTGGGGGAACATCATTAAAGAGCCGAAGGATCCCAGGGCCTTCGGAGATCTTTTGAGAGGGCAGTCCATCCAGGATATCGACCGCAGGGGGAAATTTCTCATTTTTCATCTCGATGATATTGCCCTTGTTTCCCATCTGCGCATGGAAGGGAAATTCGGTGTCTATGATGGAACGCTTGAAAAACCGAAGCATACGCACGTCATTTTCCATTTTACAGACGGAACAGAGCTCCGCTACAACGACGTACGGAAGTTCGGAACGATGCATGCCTTTAAAAAAGGGGAAGAGGCTTTGAATAAACCACTGGTTCAGCTCGGGCCCGATCCTTTTGATGAAGCCTTCACTCTTGATTATTTTCATCAGAAGTTATTGAAGACCAGCCGTAACATGAAGGCGGTTCTTCTGGATCAGTCAATCGTTGCCGGTCTTGGAAACATCTATGTAGATGAAGCCCTTTTCCGGGCCGGCCTTCATCCGGAGCGGATGGCGAATACACTGACAAGAGAAGAAGCTGAAAGCATCCGGGAAGCAAGCATCGCTGTTATTTTAGAGGCCATTGAACAGGGAGGCACAACGATCCGGTCCTATTTAAACAGCCAGGGTGAAATCGGGATGTTCCAGCAGGAGCTCCAGGTGTATGGCAGACAGGATATGGAATGCCGGAACTGCGGGACATCGATCGTCAAAACAAAAGTTGGGGGAAGGGGCACACACGTGTGTCCGGTCTGTCAGCCGCTTCACGTAATTGAATAA	MPELPEVETVRKTLKHLTLGKEIQDVSVFWGNIIKEPKDPRAFGDLLRGQSIQDIDRRGKFLIFHLDDIALVSHLRMEGKFGVYDGTLEKPKHTHVIFHFTDGTELRYNDVRKFGTMHAFKKGEEALNKPLVQLGPDPFDEAFTLDYFHQKLLKTSRNMKAVLLDQSIVAGLGNIYVDEALFRAGLHPERMANTLTREEAESIREASIAVILEAIEQGGTTIRSYLNSQGEIGMFQQELQVYGRQDMECRNCGTSIVKTKVGGRGTHVCPVCQPLHVIE				NA	NA	NA	NA	NA
AK012_01207	2640	polA		DNA polymerase I	ATGGCTGAGAAAGTTGTATTGATTGATGGAAACAGTATTGCCTACCGGGCGTTTTTTGCCCTGCCGCTGCTGAATAATGATAAAGGTGTGTATACGAACGCCGTCTACGGATTTACGACGATGCTGCTCAAAATCCTGGAGGAAGATCGACCGGATCACCTTCTTGTTGCATTTGACGCAGGGAAAACGACTTTTCGTCATGAAACGTATCAGGAATATAAAGGTGGAAGGCAGAAAACCCCATCTGAGCTTTCTGAACAGTTTCCTGTACTAAAGGAGCTTCTCGACGCTTTCGGAGTGAAGTATTACCAGCTTCCTAACTTTGAAGCCGATGACATTATCGGTACGCTGGCGACCCAGGCTGGAGAGAAAGGCCTTGAGGTGAAGGTCATTTCCGGAGATAAGGACCTTCTGCAGCTGGTCAACGATCAAATCACCGTCAGTCTTACGAAAAAAGGGATCACGAACGTGGATACATACACCCCTTCTTTCCTGATGGAAAAAATGGACGTCCGTGCGGATCAGATTATCGACTTGAAAGCCCTCATGGGGGATAATTCCGATAACATCCCGGGTGTTCCGGGTGTAGGTGAGAAGACAGCTGTTAAGCTCCTGAAACAGTTTGAGACATTGGAAAACCTTTATGAAAACCTGGACGATGTGAGTGGTAAAAAACTGAAGGAAAAGCTGGAAACCAACCGCGGTAACGCCTTTATGAGCCAGCAGCTTGTAACAATCGAGAGAAATGCCCCGATAGAGATCAGCGTCGATACGATCGGCTATGAAGGATATCAAACCCAGCAGGTGAGCGGCTTCTTCAAAGAACTCGGATTCCAGTCCCTGCTTCCAAGAATACAGGAAGGGGGAGAGGGGGAGTCTGTCGCAGAGGCTCTGCCTGAAATCGAAGTAGAGGTTGTTGATGAGGTGTCTGCCGATGTGTTCACTGGTGCAGAGGCGCTCGTGGTGGAGATGCTTCATGAAAACTATCATACCGCTCCTGTTGAAGGGATTGCCATCGTCAACGATCATTCCAAACTCGTCCTTTCCATGGAGAATGCGGTAAATTCAGAAGCATTTGTTTCCTGGGCGGAAGATGCGTCCAAAGAGAAATGGGTGTTCGATGCCAAACAGACGGCTGTGGCTCTGATGAGGCACGGGGTGGATATCCAAGGGATCAGCTTTGATCTGCTCCTTGCTTCCTACCTGCTGAACCCTTCTGAAAATAATCATGATATTCCCGCCATCGCTCATCGAATGGGAGAGACAGCGGTCCAATATGATGAAGAGGTGTATGGAAAAGGGGCGAAAATGAAGCGTCCGGATGATGATCAGGTCGTTTATGAACACATTGCAAGAAAGGCAGCTGTGCTGTATAAGCTGAAAGAAAACATGGAGGAACAGCTGAAGGCCAATGAACAGTATGAGCTGCTTATTGAGCTTGAAATGCCTCTGGCTGTTATCCTCGGACGAATGGAGCACCGTGGCGTGTCCGTGGATGTCAGCCGTCTGGAAGAAATGGGGGCAGAGCTTGAAGAGCGCTTGAATAAAGTCGAACAGGAAGTCTATGAACTGGCAGGGGAAGAATTCAACTTGAATTCTCCGAAACAACTGGGCCCTATTTTGTTCGAAAAGCTTGGTCTGCCTGTCATCAAGAAAACGAAAACAGGCTACTCCACCTCCGCGGATGTATTGGAGCAGCTGGAGGAGAAGCATGAAATTATTCCTAAGATCCTTCTGAACCGCCAGCTGTCCAAGTTGAAATCCACCTACATTGAAGGGCTGTTGAAGGTCGTTCATGAAGATACAGGGAAGATTCATACCCGTTTCAATCAGGCACTAACCCAGACCGGCCGTTTGAGTTCCACGGATCCGAACCTGCAGAACATCCCGATCCGTCTGGAGGAAGGGCGGAAGATCCGTCAGGCATTTGTCCCTTCCCAAGAAGGCTGGGTGATGTTTGCCAGTGACTATTCGCAGATTGAACTGCGTGTGCTGGCCCACATCGCCGGGGATGAAAAGCTGATTGAAGCGTTCCGGCAGGATAAGGACATTCACACTCAGACCGCCTCTGAAGTATTCGGCGTACCGGCATCGGAGGTTACCGGTGAAATGCGCAGGCAGGCGAAAGCCGTCAACTTCGGGATTGTTTATGGCATCAGTGATTATGGTTTGTCCCAAAGTCTCGGAATTACAAGAAAAGAAGCCCAGGCGTTCATTGATAAATATTTGGAAAGTTACCCGGGTGTCAAAAGCTACATGGAGGAGTCTGTCCGTGAAGCGAAGGAGACAGGCTATGTGCGCACCTTTATGAACCGCCGGCGCTACCTTCCTGATATTACAAGCCGGAATTTCAATAAACGCAGCTTTGCTGAACGTACGGCTATGAACACACCGATCCAGGGCAGTGCCGCTGATGTCATTAAAAAAGCCATGATCGACCTGGAGGAGAAGCTCCGTGAAGAAAAGATGGAAGCAAGAGTTCTCCTGCAGGTACATGATGAACTCATTATTGAAGCGCCGGAAGCGGAAATCAAAAAGCTGGAAACGCTTGTGGCAGCTGTTATGGAAAGCACCGTAGAGCTTGATGTACCTTTGAAGGTGGATTCCTCCTATGGAAGCACTTGGTACGATGCGAAATAA	MAEKVVLIDGNSIAYRAFFALPLLNNDKGVYTNAVYGFTTMLLKILEEDRPDHLLVAFDAGKTTFRHETYQEYKGGRQKTPSELSEQFPVLKELLDAFGVKYYQLPNFEADDIIGTLATQAGEKGLEVKVISGDKDLLQLVNDQITVSLTKKGITNVDTYTPSFLMEKMDVRADQIIDLKALMGDNSDNIPGVPGVGEKTAVKLLKQFETLENLYENLDDVSGKKLKEKLETNRGNAFMSQQLVTIERNAPIEISVDTIGYEGYQTQQVSGFFKELGFQSLLPRIQEGGEGESVAEALPEIEVEVVDEVSADVFTGAEALVVEMLHENYHTAPVEGIAIVNDHSKLVLSMENAVNSEAFVSWAEDASKEKWVFDAKQTAVALMRHGVDIQGISFDLLLASYLLNPSENNHDIPAIAHRMGETAVQYDEEVYGKGAKMKRPDDDQVVYEHIARKAAVLYKLKENMEEQLKANEQYELLIELEMPLAVILGRMEHRGVSVDVSRLEEMGAELEERLNKVEQEVYELAGEEFNLNSPKQLGPILFEKLGLPVIKKTKTGYSTSADVLEQLEEKHEIIPKILLNRQLSKLKSTYIEGLLKVVHEDTGKIHTRFNQALTQTGRLSSTDPNLQNIPIRLEEGRKIRQAFVPSQEGWVMFASDYSQIELRVLAHIAGDEKLIEAFRQDKDIHTQTASEVFGVPASEVTGEMRRQAKAVNFGIVYGISDYGLSQSLGITRKEAQAFIDKYLESYPGVKSYMEESVREAKETGYVRTFMNRRRYLPDITSRNFNKRSFAERTAMNTPIQGSAADVIKKAMIDLEEKLREEKMEARVLLQVHDELIIEAPEAEIKKLETLVAAVMESTVELDVPLKVDSSYGSTWYDAK				NA	NA	NA	NA	NA
AK012_01208	930	hflC	COG0330	Modulator of FtsH protease HflC	ATGACCGACGATCGAATTCAGGATATCAACGAAAAGCAGCAGAAGGACTTCCGCAGGTTTATGAAAGCCGGTCTTGCTTTAGTGGCTGTCGTCGGGGTGGTTTTGATCGCTCTCAGTTCTGTTGTCATTGTAAAAGAAGGGGAATATAAAGTGGTTCGACAGTTCGGTGATGTCATTAAAATCCATGAAGAGCCCGGGTTGAAATTTAAAGTGCCGCTTGTCCAGGAAGTCTCCACCCTTTCCCAAAAGAAAATGGTGTATGACGTGGATGAGAAAGAAATCACAACGCTTGATAAAAAGCGGATGATTATTGATAACTATGCGGTTTGGAGCATATCTGATCCGGAGAAAATGATTTCCAATGCAAGAACTATGATGAGTGCGGAAGCGCGGATGGGAGAATTCATCTTCTCCATCGTCCGGGCGGAGCTCGGGAAGATGAACTTCTCGGAAATCATCAATGAGGAAGAAAGCTCCCGGGGTACCTTGAACGAGGAAATTGCCAAACGGGTGAATGAATATTTGAAACGGGACAATTATGGTATTGTCGTGGATGATGTCCGCATTAAGCGTTCCGACCTTCCTCAGGCGAATGAAGAGGCCGTTTTCAACCAGATGATTACGGACAGAGAAAAAATCGCTCAAACTTATTTGTCAGAAGGGGAAGCAGAAAAAAGCCGGATCCGTGCTTCTGTTGACAGAGAAGTCAAAGAGATGCTGTCCACAGCGAGAGCCGATGCGGAAAAAATCCGGGCGGAAGGAGAGCAGGAAGCTGCTCAAATCTATAACAATTCCTTCTCCCAGGATCCGGAGTTTTATCAGTTGTACCGGACACTGGAGTCCTACAAGAAAACCATTGACGGGGAAACAACCATTATCCTTCCCAAGGGATCGCCATACGCCGATCTGCTTCTCGGCTACTACGAATAA	MTDDRIQDINEKQQKDFRRFMKAGLALVAVVGVVLIALSSVVIVKEGEYKVVRQFGDVIKIHEEPGLKFKVPLVQEVSTLSQKKMVYDVDEKEITTLDKKRMIIDNYAVWSISDPEKMISNARTMMSAEARMGEFIFSIVRAELGKMNFSEIINEEESSRGTLNEEIAKRVNEYLKRDNYGIVVDDVRIKRSDLPQANEEAVFNQMITDREKIAQTYLSEGEAEKSRIRASVDREVKEMLSTARADAEKIRAEGEQEAAQIYNNSFSQDPEFYQLYRTLESYKKTIDGETTIILPKGSPYADLLLGYYE				NA	NA	NA	NA	NA
AK012_01209	975	hflK	COG0330	Modulator of FtsH protease HflK	ATGAGTCTGAAACAGATATATAAGTGGGCCGGTTTGGCTGCAGCAGCAGCTGTTCTGCTTGTCGTATTCATGACCACGTGGTACACCGTGGATGAGTCCGAGCAGGCTGTCGTGCTCACGTTCGGAGAAGCGGAGGATGGAATTACAGAACCCGGTCTTCATTTTAAAATGCCGTGGCCGGTCCAGGAAGTAGAGAAAATGTCCAAGGAAACATTCAGCCTGGATTTTGGCTTCGATGAGGAAGGCGAAGAGGCTGATAAAGTGACGATGATTACAGGAGACGACATGATCGTTCAAGCAGACCTCGTCGTCCAATGGAAAATCACAGATCCAGCCGGTTACCTTTTTGCGTCTGAGAATCCAGAGCAGGTGCTTTTCAATGCCACCTCTTCCACTCTGCGGGGAGTCATAGGCAGCAGTGAAATTGATGAAGCGTTGACTTCAGGTAAAGCAGAAATCGAAAATGAGGTCAGGGAAGACCTTGTCAGCCTGATTGAAGGGTATGAAATTGGGATTTCCATCATTGATGTCCGCCTGCAGGAGGTGGATCTGCCGAACGAAGAAGTCCGAAGTGCGTTTACGAAAGTGACCGATGCACGTGAACAAAAACAAAGTAAAGTAAACGAAGCTGAGAAGTATGCCAACCAGATGCGGGAAGAGGCTAAAGGTGAAAAGGATGCCATTATTCAACGAGCGGAAGGAGACAAGGTGGACAGGGTCCGTACAGCGGAAGGAGCCGTGTCCAAATTTGACGCGCTGCTTGATGAATACGAGGGCAATGAGAGTGTAACGAGAGAACGTCTTGTCATGGAAACGCTGGAGGAAGTCCTTCCGGAAGCGGACGTTTATGTAATGAATGATGAGGGAGATACGATGAAATATCTTCCTCTGCAGCAGCAGAACCCGCCGGCGGCCCCTGCACAGGAAGAATCAGAACAGGACAAATCAGAACAGGACGAGGAGGAGGAATCATGA	MSLKQIYKWAGLAAAAAVLLVVFMTTWYTVDESEQAVVLTFGEAEDGITEPGLHFKMPWPVQEVEKMSKETFSLDFGFDEEGEEADKVTMITGDDMIVQADLVVQWKITDPAGYLFASENPEQVLFNATSSTLRGVIGSSEIDEALTSGKAEIENEVREDLVSLIEGYEIGISIIDVRLQEVDLPNEEVRSAFTKVTDAREQKQSKVNEAEKYANQMREEAKGEKDAIIQRAEGDKVDRVRTAEGAVSKFDALLDEYEGNESVTRERLVMETLEEVLPEADVYVMNDEGDTMKYLPLQQQNPPAAPAQEESEQDKSEQDEEEES				NA	NA	NA	NA	NA
AK012_01210	222			hypothetical protein	ATGGCGGGACTCCTGTGGGATGAAGGTACCCCGCGGAAAGAGAGTCATTCCCAAGGCCGCCTCCTACATATCCCACGACAAAAAGGGGTGATAGGAGCTCACATGTTAAATAACAACACCAAGCAACAACAGAGTCTTTTATTTATAGACAAGCTTCTGAAACCTTTTTGTTACATATTCGTAAAGAATAGTAATCTACATAAAAAGGGGAAGTCTACATGA	MAGLLWDEGTPRKESHSQGRLLHIPRQKGVIGAHMLNNNTKQQQSLLFIDKLLKPFCYIFVKNSNLHKKGKST				NA	NA	NA	NA	NA
AK012_01211	1758	phoR	COG0642	Alkaline phosphatase synthesis sensor protein PhoR	ATGGCTTCCTCCAATACAAGACCACTCATGACATACTCCATACTCGTCGTCATCGTTATGCTTGGTCTTGGAATTATTCTTGCCCAGCTGACGCGCGGGTATTTTATTAACATTTTTGAAGAGCGGGTGGAACTTGAGAGCCGGTATTTCGTCACTTATCTGGAAAGGTTTACGAGTGATGAGAATGTCAGTCAGGAGGAACTTTTCGAATTTAGTGAACAGCTGAACACAGGAATGGTTTTCATTTCAGATGAAGGTGAAAAACTGCTGGATACCGTTGAGACCGTTCCTATAATCAGTGAGAGTGAAAAGCAGCACGTCCTGACAAGAGTAAAGACAGGTCAGATCACAGACAATGAAGGCTATTTGATAGATAACATCTTTTATTATCCTGTTAATAATGAGGTGAATGATGTCGAAGGGACACTCATTCTCTTATCCCCCGTCAACTCGCTGACCAACATTACAAAAAACATCTGGCTGTTGATTGGATGTACCCTGCTGATAGGGCTGGTGATCATCTTTGTTCTCGGCTACAATGTCTTTTCGAAATACATCCGTCCCATCCGTTCGGCTGCTGATGTAGCGAATGAACTGGCGGAAGGGAATTATAAGGCGCGTACCTATGAAGGTCACTACGGTGAAGCCGGTCAGCTGAGTCAGTCGATTAACATTCTTGCACGCAACCTTCAGGAAATGACCAGTACGAAAGGAATGCAGGAGAATCAGCTGGAAGCCGTCATTAACAATATGGGCAACGGGCTGATGCTGATTGATGAGAAAGGCTATATCCTTTTGACCAACCGTGCTTTTATGGAGACATTCGGCGGAGAGCAGAAAGATTACATCGGATATCTCTACCATGATGCCATCCCTTATACAACCATCCATGAAACCGTGAAAAAGATTTATATGTTTGAAGAAACGATCAGTGAGACGTTTGTGCTTCCAGTCAATATCAACCGGAAGCATCTTGAGGTAACTGGAGCGCCTATTTTCAGTGAAGGCCGGAAATGGAAAGGTGTTGTTCTGGTGTTTCACGACATTTCTGAATTGAAACAGTTGGAGCAGATGAGGAAGGACTTTGTGGCCAACGTTTCTCATGAACTGAAAACACCGATCACCTCCATCCGTGGATTTTCCGAAACGCTTCTGGACGGCGCGATGAAGGATGAGCAGATGCTTGAGCAGTTTCTTCAGATCATATTGAAGGAAAGCGGCCGTCTGCAGTCACTGATTCAGGATCTTCTGGAGCTGTCTAAGCTTGAGCGGGAAGATTTCCATCTCAATATCGAAAGTGTTGATGTGCAGCGTCTTCTTCATGACCTCCTCCCTATCGTCGGGCAGCATGCCGAGCAGAAAGGGGTCCATCTTCGTTCTTCGGTGGAAGGAGAAACCATTATACGCGGGGATTCCAGTCGTTTGAAACAGGTGTTTATGAACTTACTGGCGAATGCGATTAACTACAGCCGTGATGATGGAGAAGTTTCTCTTCAGTTTGAAGAAAAAGAAGATAAGGTGATTGTCTCTGTCTCTGATAATGGTGTGGGCATTCCGGAGGATGAAGTTCCCAGGATTTTCGAACGCTTCTATCGCGTAGATAAGGCGAGAAGCCGTAATTCCGGTGGTACCGGCCTCGGGCTGGCCATCGTTAAGCACATCATAGAAGCCCATCATGGAAACATCAGCGTAGAAAGTGTCGTGGATCAAGGGACAACCTTCTATGTAGAAATTCCCAAGAAGTTTACGGAAAATTAA	MASSNTRPLMTYSILVVIVMLGLGIILAQLTRGYFINIFEERVELESRYFVTYLERFTSDENVSQEELFEFSEQLNTGMVFISDEGEKLLDTVETVPIISESEKQHVLTRVKTGQITDNEGYLIDNIFYYPVNNEVNDVEGTLILLSPVNSLTNITKNIWLLIGCTLLIGLVIIFVLGYNVFSKYIRPIRSAADVANELAEGNYKARTYEGHYGEAGQLSQSINILARNLQEMTSTKGMQENQLEAVINNMGNGLMLIDEKGYILLTNRAFMETFGGEQKDYIGYLYHDAIPYTTIHETVKKIYMFEETISETFVLPVNINRKHLEVTGAPIFSEGRKWKGVVLVFHDISELKQLEQMRKDFVANVSHELKTPITSIRGFSETLLDGAMKDEQMLEQFLQIILKESGRLQSLIQDLLELSKLEREDFHLNIESVDVQRLLHDLLPIVGQHAEQKGVHLRSSVEGETIIRGDSSRLKQVFMNLLANAINYSRDDGEVSLQFEEKEDKVIVSVSDNGVGIPEDEVPRIFERFYRVDKARSRNSGGTGLGLAIVKHIIEAHHGNISVESVVDQGTTFYVEIPKKFTEN	PGPT0002705_555	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002705-phoR-K07636	NA	NA
AK012_01212	699	phoP	COG0745	Alkaline phosphatase synthesis transcriptional regulatory protein PhoP	TTGGAACAACAAAGAATACTGATTGTCGATGATGAAGAATCCATCGTAACATTGTTGAAATACAATATAGACCAGGCCGGATTTGAAACTGAAGTGGCTTATTCAGGAACAGATGCCCTCGAGAAGGCATCAAATTCCACGTTTGATCTCATCGTACTGGACGTCATGCTTCCAGGGATGGACGGAATGGAAGTGTGTAAACAGCTGCGGCAGATGCAGGTGTCCACGCCGATTCTAATGCTGACCGCCAAGGATGATGAATTCGACAAGGTGCTAGGCCTTGAACTTGGAGCAGACGATTACTTAACGAAACCGTTCAGTCCGAGGGAGGTTGTCGCAAGGATTAAAGCCATCTTGAGAAGAATGGTCCGTGAACCAGCGGCAGCGGAAATGAAAATGATTCAAGTGGCCGATTTAGTTATTTATCCTGAGCAGTATGAAGCGTCGATTAAAGATAAGCCGCTGACATTTACACCGAAGGAGTTTGAGCTGCTGCTCTATTTAGGACAGAACCTCGGCCGGGTCTTATCGAGGGACCAGCTGTTAAGTGCGGTCTGGAATTATGATTTTGCCGGGGATACCCGTATTGTTGACGTCCATGTCAGTCACCTGCGTGAGAAGATTGAACCGGATACGAAAAAACCGGTGTATATTAAGACGATCCGCGGCCTTGGCTATAAGATGGAGGAGCCGAAATAG	MEQQRILIVDDEESIVTLLKYNIDQAGFETEVAYSGTDALEKASNSTFDLIVLDVMLPGMDGMEVCKQLRQMQVSTPILMLTAKDDEFDKVLGLELGADDYLTKPFSPREVVARIKAILRRMVREPAAAEMKMIQVADLVIYPEQYEASIKDKPLTFTPKEFELLLYLGQNLGRVLSRDQLLSAVWNYDFAGDTRIVDVHVSHLREKIEPDTKKPVYIKTIRGLGYKMEEPK	PGPT0002665_1106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0002665-phoP|phoB1-K07658	NA	NA
AK012_01213	477			hypothetical protein	ATGATTGGAAAGAAAAGAAAGCTCGGTAGAAAGATACAGGATTTGAAAATCGGAGAAACCTTTACGACCACTTCGAGAGTGGAAGATCGGGATCTTCTTATGTACCTGGGGCTGACAGATGATGCGAATCCGCTTTACATTCAACACGACTATGCATCTCAAACTCCCTTCAAACAGCCGGTCGTACCCAGTGTGATGCTGTGTGGGATGGCATCTTCCATTGTTTCCATGCACCTTCCGGGACCGGGAAGTCATATTGTAGAACAGCAGTTAAGCTATCCTCATCCTCTTTACCACTATGCTGAAGTTCGGTTTCATGCAGAGATAACGGACATTAATCAGCAGGAACATCATGTCATTCTGGATATGCACGGTTATGATGAAGAGGGAAAAGAAGTCATGAAAGGAAAGATGACTGTCATTCCCCCTTATGAGCCGACGTCCATGAATGCGGTCTCCCTCGAAAACTTTTACTGA	MIGKKRKLGRKIQDLKIGETFTTTSRVEDRDLLMYLGLTDDANPLYIQHDYASQTPFKQPVVPSVMLCGMASSIVSMHLPGPGSHIVEQQLSYPHPLYHYAEVRFHAEITDINQQEHHVILDMHGYDEEGKEVMKGKMTVIPPYEPTSMNAVSLENFY	PGPT0014741_229	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_RELATED_GENES	CE-BIOFILM-POLYHYDROXYBUTYRATE_PRODUCTION,PGPT0014741-phaJ|croR-K17865	NA	NA
AK012_01214	939	mdh	COG0039	Malate dehydrogenase	ATGAGTATTCAAAGAAGGAAAATCTCCGTCATCGGTGCCGGATTTACAGGTGCAACTACGGCATTAATGCTTGCTCAGAAGGAACTGGGGGATGTTGTCCTGGTAGATGTTCCTGATATGGAGGATCCAACGAAAGGAAAAGCACTGGATATGCTGGAAGCCAGTCCTGTCCAGGGCTTTGATGCGAAGATCCAGGGAACATCGGACTATGCGGATACAGAAGGGTCCGACCTGGTGATCATTACAGCTGGGATTGCCCGTAAACCCGGGATGAGCCGCGATGATCTTGTCAGTACAAACGCCAAGATTATGAAGAGTGTTACAAAAGAGATTGTGAAAAACTCTCCGGATTGTTTCATTGTTGTATTGACGAACCCGGTCGATGCGATGACCTACTCCGTTTTCCAGGAAGCCGGTCTTCCTAAGAACAAGGTGATTGGTCAGTCCGGTGTCTTGGATACAGCCAGGTTCCGTACCTTCGTCGCAGAGGAATTGAACATTTCCATTAAGGATGTCACCGGCTTTGTTCTAGGCGGCCACGGGGACGACATGGTTCCGATGCTCCGCTATTCCTTTGCGGGCGGTATTCCGCTTGAACGTCTCATTTCCAAAGAGCGTCTCGATGCCATTGTGGAACGTACACGAAAAGGCGGGGGAGAAATCGTAGGGCTGCTTGGTAACGGCAGTGCTTATTATGCTCCTGCTGCTTCACTCGTTCAAATGGCAGAGGCCATCTTGAAGGATCAGCGCCGTATCATACCTGCTATCGCCTATTTGGAAGGTGAGTATGGGTATGACGGCATTTACCTCGGTGTGCCTACCATTCTTGGTGGGAACGGCATTGAGGAAGTCATTGAGCTGGAATTAACAGAGGAAGAGAAACAACAGCTGGATCAATCAGCCGACTCTGTTAAAAATGTCCTCCATGTATTAAAATAA	MSIQRRKISVIGAGFTGATTALMLAQKELGDVVLVDVPDMEDPTKGKALDMLEASPVQGFDAKIQGTSDYADTEGSDLVIITAGIARKPGMSRDDLVSTNAKIMKSVTKEIVKNSPDCFIVVLTNPVDAMTYSVFQEAGLPKNKVIGQSGVLDTARFRTFVAEELNISIKDVTGFVLGGHGDDMVPMLRYSFAGGIPLERLISKERLDAIVERTRKGGGEIVGLLGNGSAYYAPAASLVQMAEAILKDQRRIIPAIAYLEGEYGYDGIYLGVPTILGGNGIEEVIELELTEEEKQQLDQSADSVKNVLHVLK	PGPT0001435_2703	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
AK012_01215	1305	icd	COG0538	Isocitrate dehydrogenase [NADP]	ATGATTACAGAAAATTTAGGAGGGTTTATTTTGACACAAGCACAAAAAATCGCAGTAGAACAAAACGGAACATTAAACGTACCCGATCGTCCGGTGATCCCATATATCGAAGGTGACGGCATCGGTCCTGATATCTGGGCGGCAGCCAGCCGTGTCATTGAAGCAGCTGTAGATAAAGCCTATAACGGTCAGAAATCGATTGAGTGGAAAGAAGTTCTTGCCGGCCAAAAAGCTTATGATCAGACCGGTGAATGGCTTCCGGAAGCGACGCTTGATACGATCCGCGATTACAAGATTGCAATCAAAGGACCTTTGACAACGCCAATCGGCGGCGGTATCCGCTCCCTGAACGTAGCTCTGCGTCAGGAACTGGATCTGTTTACATGTCTTCGTCCGGTCCGCTACTTCAAAGGCGTTCCTTCACCAGTGAAACGTCCTGAGGATACGGATATGGCGATCTTCCGTGAGAATACTGAAGATATTTATGCTGGTATTGAGTGGCAGAAGGGCACTCCGGAAGTCAAAAAAGTCATCGATTTTCTGCAGAACGAAATGGGTGTACATAACATTCGTTTCCCTGAAACTTCCGGTATTGGTATCAAACCAGTATCTGAAGAGGGTACGAAACGTCTTGTCCGTGCGGCAATTGATTACGCGATCAATGAAGGGCGTAAAAACGTGACACTTGTTCATAAAGGAAACATCATGAAGTTCACGGAAGGTTCCTTCAAGTCCTGGGGTTATGAAGTAGCCGAAGAAGAGTATGCAGGGAAGGTCTTCACATGGGCTGAATATGACCGCATCGTTGAGAAAGAAGGCAAGGATGCAGCGAACAAAGCGCAGGATGAGGCCGAAGCAGAAGGCAAGATCATTGTAAAAGATGCCATTGCTGATATTTTCCTTCAGCAGATTCTAACCCGTCCGAAGGAATTCGACGTGGTAGCTACAATGAACCTGAACGGTGACTATATCTCTGATGCGCTTGCGGCCCAGGTCGGCGGTATCGGAATTGCTCCAGGAGCAAATATTAACTTTGAAACCGGCCATGCTATTTTTGAAGCCACTCACGGAACAGCTCCTAAATACGCAGGTCTTGATAAGGTGAACCCATCATCTGTCATCCTTTCCGGTGTCCTGATGCTTGAACACCTGGGTTGGAGAGAAGCAGCAGATCTTATTTCCCAATCTATGGATAAGACGATTGGAAGTAAAGTGGTTACTTATGACTTTGCCCGTATGATGGAAGGGGCATCAGAAGTGAAATGTTCTGAGTTTGGAGACGAACTTATTAAGAACATGGACTAA	MITENLGGFILTQAQKIAVEQNGTLNVPDRPVIPYIEGDGIGPDIWAAASRVIEAAVDKAYNGQKSIEWKEVLAGQKAYDQTGEWLPEATLDTIRDYKIAIKGPLTTPIGGGIRSLNVALRQELDLFTCLRPVRYFKGVPSPVKRPEDTDMAIFRENTEDIYAGIEWQKGTPEVKKVIDFLQNEMGVHNIRFPETSGIGIKPVSEEGTKRLVRAAIDYAINEGRKNVTLVHKGNIMKFTEGSFKSWGYEVAEEEYAGKVFTWAEYDRIVEKEGKDAANKAQDEAEAEGKIIVKDAIADIFLQQILTRPKEFDVVATMNLNGDYISDALAAQVGGIGIAPGANINFETGHAIFEATHGTAPKYAGLDKVNPSSVILSGVLMLEHLGWREAADLISQSMDKTIGSKVVTYDFARMMEGASEVKCSEFGDELIKNMD	PGPT0001170_2902	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
AK012_01216	1119	citZ	COG0372	Citrate synthase 2	ATGTCATCATCAACTAAAGGTCTTGAAGGGATTACAGCAACTGAATCATCCATCAGTTCCATCATTGACGATAAACTGACATATGTTGGGTACGATATCGATGATTTAGCTGATAACTCAAGCTTTGAAGAAGTGATCTACCTTCTTTGGAATTTAAAGCTTCCGAATGCACAGGAGTTGAAAGATTTCAAAGAAGATTTAATTTCCAATATGGATATTCCGAAAGAGGTCATTGATCATCTTAAATCCTATGATCTGAAAACGGTTCATCCAATGGCTGCCCTGCGTACAGCTGTCTCCATGCTGGGACTGTATGATCCAGAGTCCGATGTGATGGAAGAGGAAGCGAATAATCGCAAGGCACTGCGTCTTCAGGCGAAAATTCCGACTGTGGTCACGGCTTTTGCCCGTATCCGCAAAGGTGAAGAGCCTGTCTCACCTAAAAAAGAACTCAGCTTTGCAGCGAATTTCCTTTATATGCTGAATGGAAAAGACCCGGAGGATCTGGAAGTAGAAGCTTTCAACAAAGCCCTTGTCCTCCATGCGGACCATGAATTGAATGCATCCACATTCACCGCCCGTGTCTGTGTCGCTACATTATCTGATGTCTACTCTGGTGTAACAGCGGCAATCGGAGCATTGAAAGGACCGCTTCATGGTGGTGCCAATGAGCGTGTCATGAAGATGCTTACGGAAATTGATAGTGTGGAAAATGCCGTGCCGGCCATTGAGAAGAAACTCGAAAACAAGGAAAAAATCATGGGAATGGGCCACCGTGTCTATCGCTCCGGTGATCCACGCGCCAAGCATCTGAAAGAGATGTCCCGGGAACTCACGAAGCTTACCGGCCACTCCAAATACTATGAAATGTCTATTAAAATTGAAGATTACATCAAGGAGAACAAGGGACTTCCGGCAAACGTTGATTTTTATTCCGCTTCTGTCTATCACAGTCTTGGAATCGATCACGATTTGTTCACGCCGATCTTTGCTGTCAGCCGTGTTTCCGGATGGCTCGCTCATATCCTTGAACAGTATTCCAACAACCGCCTGATCCGCCCGCGTGCGGAATATGCAGGTCCTAAGGGACAGACGTATACTCCGATTGAAGAACGCTGA	MSSSTKGLEGITATESSISSIIDDKLTYVGYDIDDLADNSSFEEVIYLLWNLKLPNAQELKDFKEDLISNMDIPKEVIDHLKSYDLKTVHPMAALRTAVSMLGLYDPESDVMEEEANNRKALRLQAKIPTVVTAFARIRKGEEPVSPKKELSFAANFLYMLNGKDPEDLEVEAFNKALVLHADHELNASTFTARVCVATLSDVYSGVTAAIGALKGPLHGGANERVMKMLTEIDSVENAVPAIEKKLENKEKIMGMGHRVYRSGDPRAKHLKEMSRELTKLTGHSKYYEMSIKIEDYIKENKGLPANVDFYSASVYHSLGIDHDLFTPIFAVSRVSGWLAHILEQYSNNRLIRPRAEYAGPKGQTYTPIEER	PGPT0001455_5974	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
AK012_01217	1107			Sodium-lithium/proton antiporter	TTGAACAACAACCTTATTCCCATGATTCTAAGGTCCCTTCTGCTGCTTGCAGGCTTAACGGCTGCTGCTGTTCTTTTTCTGTTGATATGGAATTATTTACATCCATTTCTGAGTGCTTATGTATGTGCAGCGCTCCTGCGTCCCTTTGTCCTTCTTCTATCCCAAAGACTCCACCTGCCGCATGTTCTCTCCATTCTCCTGGTTCTCAGCATCTTCACCCTGCTGGCACTCAGCACCTTCGTTCTTGTCTTAGCAGAACTGGTCAAAGGATTTCAGCACTATTCCACGGATCTCCCTGCAAAGGCAGCGGCTTTATCGACATTTTTAATGAATCAAATAAGAGAATGGGGAGAGCCGTTGTTTTTAAGACTGCAGGCCTCCTTGGAGCATTCCGGAATCATGACTTCCTCGATTGATGAATACCTGCAGGCAGCCCAGACGCAGGCCGGGCAGATCAGTATGGATCTGCTGAAGGGTGTATTTGAAGCGGTGCAGCATCTGGCTGGGATGCTCCCAACCTCTGCAGCTTACATAGGTATCGTTGTCATCGGGACTTTTTTCTTCAGTAAAGACTGGGAGACGATTCACCGCCCTCTGCACTCGGTTATTCCTCCCATCGTCCAGGAACGTGCCTTACAGCTGCGTGCTGAAATGGAGCGGACATTCAAAGGGCTGATCCGTGCTCAATGCAAGCTTGTCAGCGTCAGTACCTTTATCATAGGAACCGGCTTATACGTGCTGGATGCCCCCCACCTTCTCACGGTGACAGCAGCAGCCTGTCTGCTTGACTTCATTCCTTATGTAGGGACAGGGGTCATTTTCATCCCCTGGATGTTGTTCCAGTTCTTTTCTGGTGATTTTCCCATGACTATTGGACTTGCTGTTTTATATACCATTGTCGTCCTTACAAGACAGCTGCTGGAACCAAAGCTGATGGCCGATCAATTCGGCGTCCCTCCCATCATCCTGCTTCTCACCTTTGCCGGGGGCTTCAAACTGCTGGGTGTTTATGGAATTATGCTCAGCCCAATCCTGCTGATGGTGATCCAGACATTGAAGAAGACAGGCGCATTGAAAGAACTCTTTCATTTTATCACAAATAAATAA	MNNNLIPMILRSLLLLAGLTAAAVLFLLIWNYLHPFLSAYVCAALLRPFVLLLSQRLHLPHVLSILLVLSIFTLLALSTFVLVLAELVKGFQHYSTDLPAKAAALSTFLMNQIREWGEPLFLRLQASLEHSGIMTSSIDEYLQAAQTQAGQISMDLLKGVFEAVQHLAGMLPTSAAYIGIVVIGTFFFSKDWETIHRPLHSVIPPIVQERALQLRAEMERTFKGLIRAQCKLVSVSTFIIGTGLYVLDAPHLLTVTAAACLLDFIPYVGTGVIFIPWMLFQFFSGDFPMTIGLAVLYTIVVLTRQLLEPKLMADQFGVPPIILLLTFAGGFKLLGVYGIMLSPILLMVIQTLKKTGALKELFHFITNK				NA	NA	NA	NA	NA
AK012_01218	393			hypothetical protein	ATGTTTCGCTGGTTATTCATCCTCATATTGATCATTCCTGCACTGGAGATCGGTCTGCTGATCGGAGCGGGAAATGTCATCGGTCCATGGTGGGTCATTCTGCTGATCATCAGTACAGGGGCGCTGGGAGCCTGGCTTGCGAAAAAACAAGGACTGGAAACCATTCAGAATGTCCAGTTATCGATGCAGCAGGGTCGTATGCCTCAGGACGCCTTGTTGGATGGAGCTTGTATCCTTGTCGGGGGAGCTGTCCTGTTGACACCCGGGTTTATTACAGATGCGGCAGGGTTTATCCTGCTTCTACCCATCACCCGGACACCTTTGAAAGCAGTTGTAAAACGAGCCATCCAGAAAGCCATGGATAAAGGAACCGTGACCATTTACAGAAAATAA	MFRWLFILILIIPALEIGLLIGAGNVIGPWWVILLIISTGALGAWLAKKQGLETIQNVQLSMQQGRMPQDALLDGACILVGGAVLLTPGFITDAAGFILLLPITRTPLKAVVKRAIQKAMDKGTVTIYRK				NA	NA	NA	NA	NA
AK012_01219	1764	pyk	COG0469	Pyruvate kinase	ATGTTTAGAAAAACAAAAATCGTCAGCACGATTGGACCAGCGTCTGAATCCGTAGAGAAGCTGACACAGCTTATTGAATCAGGGATGAACGTCGCCCGCCTGAACTTTTCACACGGTGACTTCGATGAACACGGAGCGCGTATCACAAATATCCGTGAAGCTTCAAAAGCTGTCGGTAAGACCGTAGCGATTCTTCTTGATACCAAAGGTCCTGAAATTCGTACCGGTTCTCTGAAAGGCGGAGAGTGCTACCTTGAAAAAGGCTCAACAGCCTATGTATCCATGAAAGATATCGAAGGTGATGCAGAGCGCTTCTCTGTGACTTATTCCGGCCTGATCAACGACGTACATCCAGGATCCAAAATCCTTCTTGATGACGGACTTGTAGAACTTCAGGTGGAAGAAGTGGACAAGGAAAATGAAGAAATCAAAACAACGGTTCTGAACAATGGACCATTGAAGAACAAAAAAGGGGTCAACGTTCCAAATGTGAGCGTCAACCTGCCTGGTATTACAGAAAAAGATGCCAAGGATATCGAGTTCGGTATTGAGCAGGGTGTTGATTTCATCGCTGCATCTTTCGTGCGCCGCGCGTCTGATGTTCTTGAAATCAAAGAACTTCTTGAAAAACATAATGCCAACCACATTCAAATCATTCCAAAAATCGAAAACCAGGAAGGTGTCGACAACATCGACGAAATTCTTGAAGTGAGTGATGGATTGATGGTTGCCCGTGGTGACCTTGGTGTTGAAATTCCAGCAGAAGATGTACCTCTCGTACAGAAGCAGTTGATCCGCAAATGCAACAAAGCCGGCAAGCCGGTTATTACAGCTACACAAATGCTTGATTCCATGCAGCGCAACCCACGCCCGACGCGTGCAGAAGCTTCTGACGTAGCCAATGCCATTTTTGATGGCACCGATGCGATCATGCTTTCCGGTGAAACAGCTGCTGGTGACTATCCGGTGGAAGCTGTTCAGACGATGCATAACATTGCTTCCAAAACAGAAACAGGCTTGAACCACGTATCCCTGTTGCAGGACCGTTCCAAGCATAGTGATATGACGATTACGGACGCGATCAGCCAGTCTGTTACCCACACAGCGATCAACCTGGATGCAGCAGCCATCGTTACGCCGACAGAGAGCGGACATACCGCCCGTATGATTTCCAAGTATCGTCCAAAAGCCCCTATCGTAGCGATTACGTCTGACGAAGAAGTAAACCGCAAGCTTTCTCTAGTATGGGGTGTTTATGCAGTGATGGGACCTCGTGCATACTCCACGGATGACATGCTTGATGTTGCCGTTGAACGCAGCCTTGCTTCAGGTCTTGCTGACCGCGGTGACCGTGTGATCATTACAGGAGGCGTACCTGTCGGAGAGAGCGGTACAACCAACCTGATGAAAGTTCACGTCATCGGTGATGTTTTAGTCAAAGGCCAGGGTGTCGGCCAGAAGAGCGCGTTTGGTCGTGCGATCGTCGCTAAAGATGCCCAGGATGCCATTAACCGTGTAGAAGACGGCGATATTATCGTTACACACGGAACAGACCGTGACATGATGCCGGCGATCGAAAAAGCCGCTGGTATCGTTACACTGGAGGGCGGCCTGACTTCCCACGCAGCAGTTGTGGGCCTCAGCCTTGGTATTCCGGTTATCGTCGGCGTACCAAACGCTCTTGAACTGATCAAAGATGGTTCTGATCTTACCATCGACAGTTCCCGTGGTGACATTTATGAAGGGCATGCAAGTGTCCTGTAA	MFRKTKIVSTIGPASESVEKLTQLIESGMNVARLNFSHGDFDEHGARITNIREASKAVGKTVAILLDTKGPEIRTGSLKGGECYLEKGSTAYVSMKDIEGDAERFSVTYSGLINDVHPGSKILLDDGLVELQVEEVDKENEEIKTTVLNNGPLKNKKGVNVPNVSVNLPGITEKDAKDIEFGIEQGVDFIAASFVRRASDVLEIKELLEKHNANHIQIIPKIENQEGVDNIDEILEVSDGLMVARGDLGVEIPAEDVPLVQKQLIRKCNKAGKPVITATQMLDSMQRNPRPTRAEASDVANAIFDGTDAIMLSGETAAGDYPVEAVQTMHNIASKTETGLNHVSLLQDRSKHSDMTITDAISQSVTHTAINLDAAAIVTPTESGHTARMISKYRPKAPIVAITSDEEVNRKLSLVWGVYAVMGPRAYSTDDMLDVAVERSLASGLADRGDRVIITGGVPVGESGTTNLMKVHVIGDVLVKGQGVGQKSAFGRAIVAKDAQDAINRVEDGDIIVTHGTDRDMMPAIEKAAGIVTLEGGLTSHAAVVGLSLGIPVIVGVPNALELIKDGSDLTIDSSRGDIYEGHASVL	PGPT0002020_636	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0002020-pyk-K00873	NA	NA
AK012_01220	960	pfkA_1	COG0205	ATP-dependent 6-phosphofructokinase	ATGAAAAAAATTGGAGTACTTACGAGTGGTGGAGACGCTCCAGGCATGAACGCGGCGATCCGTTCGGTTGTCAGGAAAGCCATCTATCATAACATCGAAGTGTACGGTATTAAATACGGATACCAGGGGTTAATTGATGGGGACATCGAAAAAATGGAGCTGGGATCCGTAGGTGACATCATTCAACGCGGAGGGACCAAGCTTTACTCTGCCCGCTGTGAAGAGTTCAAAACCGAAGAAGGTCAGCTGAAAGGGATTGAACAATTAAAAAAACATGGCATTGAAGGCTTGATAGCTGTCGGCGGTGATGGTACCTTTATGGGGGCTAAAAAACTTACGGAAAAAGGCTACCCATGTATCGGTGTACCGGGAACCATAGATAATGACATTCCTGGAACTGATTTCACAATTGGATTTGATACAGCATTGAATACCATCATTGACGCGATTGACAAAATCCGTGACACGGCTACATCCCATGAGCGTACGTTCATTATCGAAGTGATGGGCCGCGACGCAGGGGATCTTGCCCTGTGGGCCGGACTGGCGGATGGTGCGGAAAGTATCATGATCCCGGAAGCGGAAGATGAGCTTGAAGATATTATCGACCGTCTTCGCAGAGGACATGAACGCGGCAAAAAACACAGCATCATCATTGTTGCTGAAGGCGTCTGCACCGGAGGCGAACTGGCACGCCGTATTGATGAAGCTGCCGGCCTTGAATCCCGTGTAACTGTACTGGGACACACACAGCGTGGAGGATCCCCGAGTGCTTCAGACAGAGTTCTTGCAAGCCGCTTAGGTGCTTATGCCGTCGATCTGCTTATCGAAGGTAAAGCCGGCCGCATGGTTGGTATACAATCGAACAAACTGGTGGACCATGACATTGTAGAGATTTTAAACGCGAAGCATACGCTCGATCTTGATATGTATCGTCTTTCCAAAGAACTATCTATATAA	MKKIGVLTSGGDAPGMNAAIRSVVRKAIYHNIEVYGIKYGYQGLIDGDIEKMELGSVGDIIQRGGTKLYSARCEEFKTEEGQLKGIEQLKKHGIEGLIAVGGDGTFMGAKKLTEKGYPCIGVPGTIDNDIPGTDFTIGFDTALNTIIDAIDKIRDTATSHERTFIIEVMGRDAGDLALWAGLADGAESIMIPEAEDELEDIIDRLRRGHERGKKHSIIIVAEGVCTGGELARRIDEAAGLESRVTVLGHTQRGGSPSASDRVLASRLGAYAVDLLIEGKAGRMVGIQSNKLVDHDIVEILNAKHTLDLDMYRLSKELSI	PGPT0017595_3760	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
AK012_01221	963	accA	COG0825	Acetyl-coenzyme A carboxylase carboxyl transferase subunit alpha	ATGAAACACGTGCTAGAATTTGAAAAACCAGTCATCGAACTAAGAGAAAAGATTGTAGATTTGAAACAGCTTACAGACAGCAGTGAAATGGATCTGAGTGATGAGATCGCGAAGCTGGAAAAACGTCTGGAAAAACTGGAAACGGATGTCTATGACCGCATGGCCCCTTGGGACAGAGTGCAAATGGCCCGCCATCCGGAACGACCGACGACGCTTGATTATATCGAGCACTTATTTACAGGGTTCCTTGAGCTTCACGGTGACCGTACATTTGGTGATGATGCAGCGATCGTTTCCGGTATTGCCAAGTTCAATGAACAGCCGGTCACAGTCATCGGCCACCAGCGGGGGAAAGATACGAAAGAAAATATCCGCCGGAACTTCGGCATGCCTCATCCGGAAGGGTACCGCAAAGCTCTCCGATTAATGAAGCAGGCGGAAAAGTTTAAACGCCCGATTATTACATTCATTGATACGAAGGGAGCCTATCCGGGGAAAGCTGCAGAAGAACGCGGCCAGAGTGAGGCGATCGCCCGGAACTTGATGGAGATGGCAGGACTGACTGTGCCCATCATCTGTATCGTGATCGGTGAAGGAGGAAGCGGTGGAGCTCTGGGGCTTGGCATTGGTGATAAAATTTTCATGCTGGAAAACTCCACGTATTCCGTCATATCCCCTGAAGGCGCTTCATCCATTTTGTGGAAGGATGCGGGTCTTGCCCAGGAAGCGGCGGAATCCATGAAGATTACATCCTATGACTTAAAGAAATTGAACGTCATTGATGGTGTCATCCCTGAAGTGAGAGGTGGAGCCCACCGGGATGTAGGGAAACAGGCAGAAGAAATCAGACAGGTGCTGACCGATTCCCTGAATGAACTTCACACCTTAAATCACGATCAACTGTTGGAAAACCGCTTTGAAAAATATAAAAACATTGGCGATTACTCGTATCTTGATTTATAA	MKHVLEFEKPVIELREKIVDLKQLTDSSEMDLSDEIAKLEKRLEKLETDVYDRMAPWDRVQMARHPERPTTLDYIEHLFTGFLELHGDRTFGDDAAIVSGIAKFNEQPVTVIGHQRGKDTKENIRRNFGMPHPEGYRKALRLMKQAEKFKRPIITFIDTKGAYPGKAAEERGQSEAIARNLMEMAGLTVPIICIVIGEGGSGGALGLGIGDKIFMLENSTYSVISPEGASSILWKDAGLAQEAAESMKITSYDLKKLNVIDGVIPEVRGGAHRDVGKQAEEIRQVLTDSLNELHTLNHDQLLENRFEKYKNIGDYSYLDL	PGPT0001695_1170	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0001695-accA-K01962	NA	NA
AK012_01222	861	accD	COG0777	Acetyl-coenzyme A carboxylase carboxyl transferase subunit beta	TTGCTTAGAGACTTTTTCAGCAAGAAAAAAAGGTATGCATCCATACCAAGCCAGGAAGCCAAACAGGATGTCCCGGAAGGGTTGATGCAGAAATGCCCCGAGTGTCAAAAAATCTTCTACCGTAAAGAGTTAAATCGGAATATGAATGTCTGTCCATACTGTGACCATCATCACCGCCTCAACGCCTATGAGCGGATTGAGCACCTATTCGATGAGGGGACATTTACAGAGTGGGATAAACATATGATTTCAAGTAACCCGCTCGGCTTTCCAGATTACGAAGAGAAATTGGAAAAAGACCGGTTGAAATCCGATCTGAATGAAGCGGTAGTAACTGGTAAAGCTCAAATGAACGGCCTTGAGGCAGCAGTCGCTGTGATGGATGCCCGGTTCAGAATGGGGAGTATGGGATCCGTCGTCGGTGAAAAAATAACGAATGCTATTGAACAGGCCCGCAAGGAAGGGATTCCTTTTATCATCTTTACGGCATCCGGCGGCGCGCGCATGCAGGAGGGGGTTCTCAGTCTGATGCAGATGGGGAAAACCTCTGTGGCGCTGCAGCGTCTTCACGCGGATGGAGGCTTATTTATTTCTGTCATGACTCACCCGACGACAGGTGGTGTATCCGCTAGTTTCGCTTCCCTTGGTGATTATAACTTTGCAGAACCTAAAGCATTGATTGGTTTTGCGGGACGAAGAATAATTGAACAGACCATCCGGGAAAAGCTGCCGGATGATTTTCAGACGGCCGAATTTCTCTTGGAGCATGGCCAGCTGGACCGGGTTGTCCACCGCCATGAACTGAGAGAAACACTGACCACTGTTCTGGATCTTCACGCAGTAGGAGGAAGCCGGTTATGA	MLRDFFSKKKRYASIPSQEAKQDVPEGLMQKCPECQKIFYRKELNRNMNVCPYCDHHHRLNAYERIEHLFDEGTFTEWDKHMISSNPLGFPDYEEKLEKDRLKSDLNEAVVTGKAQMNGLEAAVAVMDARFRMGSMGSVVGEKITNAIEQARKEGIPFIIFTASGGARMQEGVLSLMQMGKTSVALQRLHADGGLFISVMTHPTTGGVSASFASLGDYNFAEPKALIGFAGRRIIEQTIREKLPDDFQTAEFLLEHGQLDRVVHRHELRETLTTVLDLHAVGGSRL	PGPT0001710_2634	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
AK012_01223	594			hypothetical protein	TTGACTAAACCAAATGGGAAGGTATATGAAGGGGTTTTATACCAATTGAAGGCTTACATCGAGGAGAATCAATTGAGCCCCGGCGATAAGCTGCCTTCTGAACGCGAACTCAGCGAACAGCTCGGTGTAGGGAGGTCTTCCATCCGTGAGGCATTCCGGGCCATGGAACTGCTCGGTCTGATAGAAACCCGACGCGGGGAAGGCACGTACATGAGATCCTACCGCCCTTATCATATGGTTGAACTGCTGTCGAACTTCCTGTTAACCGAAAAAAGGACGAAAAAGGAACTTTTGACAGCTATGCAGATGATAGAAAAAGAAGTATTGATGATTCTGCAGCACAAGCTGGACAGCCACCAGCTCCGCCGTCTAAAAGACATCATAGAAGGATATGTTGGTAAGGAACGTCATTACCATGTGTTTGAATATCTTTCTTCCACATCTGAGCAGGAGCTGCTTTCTTCCATGTGGCAGTTTATTGCCGGATTTACCAATACCGTTCATAATGTGCACTATGATAAAAGCTGGTATGAGTCCGTCGCAGAAACCCTTCAGAAGGGAGATACGATGGATATCATACAGCTCTATCGTTGA	MTKPNGKVYEGVLYQLKAYIEENQLSPGDKLPSERELSEQLGVGRSSIREAFRAMELLGLIETRRGEGTYMRSYRPYHMVELLSNFLLTEKRTKKELLTAMQMIEKEVLMILQHKLDSHQLRRLKDIIEGYVGKERHYHVFEYLSSTSEQELLSSMWQFIAGFTNTVHNVHYDKSWYESVAETLQKGDTMDIIQLYR				NA	NA	NA	NA	NA
AK012_01224	1239			NAD-dependent malic enzyme	GTGTCAAATCTGCGAGACGAAGCATTGCATATACACCGAGTGAACAAGGGTAAGCTGGAAACTCATTCTAAAGTACCCGTCCGGAATGCGAAGGATCTAAGTCTTGCCTACTCCCCTGGAGTGGCTGAGCCATGTAAGGAAATCTATGACCATAAAGAGACGGTCTATGACTATACAATGAAGGGCAACATGGTGGCGGTTGTCAGCGACGGCTCTGCGGTACTGGGACTTGGGAATATCGGCCCTGAGGCTGCTCTTCCAGTTATGGAGGGAAAGGCAGCCTTGTTCAAAAGCTTTGCAGGCGTCGACGCTTTTCCTATCTGCCTGAACACAAGAGAAGTCGATCAGATTGTGAATACGGTGAAGCTGATGGAGCCTACCTTTGGCGGCGTAAACCTGGAGGATATCGCTGCACCAAACTGCTTCATTATTGAAGATCGTTTGAAAAAAGAAACGAATATCCCTATTTTCCACGATGATCAGCACGGAACCGCTATCGTAACTGTCGCAGGTCTGATGAACGCTTTGAAGCTGACTGGAAAATCATGGTCGGACATTAAAGTAGTGGCCAATGGAGCAGGAGCAGCAGGAATCGCTATTATTAAATTACTTTATCATTTCGGTGTACGTGATATTATTATGTGTGATTCCAAAGGCGCGATCTTTGAAGGCCGCGACTATGGAATGAATGATGTCAAAGATGAAATCGCTAAAATTACGAACAAAGACCGGGTCGAAGGAGCTCTTGAAGAAGTCATGGAGGATGCCGACGTCTTTATCGGCGTCTCGGTTGGAGGGCTGTTGTCCAAGGAAACCGTTGCCCGTATGAAAGATGATTCCATCATATTTGCTATGGCCAATCCGGAACCTGAAATCATGCCCGAGGATGCGAAGGAAGCAGGAGCCCGGGTGATCGGTACAGGCCGATCTGATTTTCCCAACCAGGTCAACAACGTTCTGGCTTTTCCTGGAATCTTCAGAGGAGCACTTGATGTACGTGCGACACGAATCAATGAAAAAATGAAAATCGCAGCCGCCGAGGCCATTGCTTCACTTGTAAGTGAAGACGAATTGAATGAGGATTATGTTATTCCTGCTCCATTTGATCCGCGCGTGGCGCCGGCTGTAGCGGCAAGCGTTGCCAAGGCCGCAATGGAATCAGGGGTGGCTCGTCATCATGTCGACCCTGAAGAAGTAGCAGAAAAGACGAGACAGCTTACTTTAATTGATGAAGAATAA	MSNLRDEALHIHRVNKGKLETHSKVPVRNAKDLSLAYSPGVAEPCKEIYDHKETVYDYTMKGNMVAVVSDGSAVLGLGNIGPEAALPVMEGKAALFKSFAGVDAFPICLNTREVDQIVNTVKLMEPTFGGVNLEDIAAPNCFIIEDRLKKETNIPIFHDDQHGTAIVTVAGLMNALKLTGKSWSDIKVVANGAGAAGIAIIKLLYHFGVRDIIMCDSKGAIFEGRDYGMNDVKDEIAKITNKDRVEGALEEVMEDADVFIGVSVGGLLSKETVARMKDDSIIFAMANPEPEIMPEDAKEAGARVIGTGRSDFPNQVNNVLAFPGIFRGALDVRATRINEKMKIAAAEAIASLVSEDELNEDYVIPAPFDPRVAPAVAASVAKAAMESGVARHHVDPEEVAEKTRQLTLIDEE	PGPT0001350_2358	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
AK012_01225	3360	dnaE	COG0587	DNA polymerase III subunit alpha	ATGACTTTCACCCATTTAAACGTCCGCAGCGGCTATAGTCTGATGAAAAGTACGGTGAAGATTAACGATTTGGTCAGTGAAGCGAAAGCCCGCGGATTCCAGTCGATCGCTTTAACGGATGAGAACACGTTGAGCGGGGCGCTGTCGTTTTATCAGGAGTGCCGGGCCTACGGCATCCAGCCGGTTATCGGTATATCCACAACTATAGAAGATCGTTCTCTTCTCCATCCGGTACTGCTGCTTTCAGAAAATCAGACGGGCTATAAAAATCTGATGAAAGCAGCTACGTGGGCGAACACAAAAGACGAGCCGTTGAGTCTTGAAACGTTTGCCGGCATGAGCGATGGACTGATTGTCGTTCATAAGACATCCGCCTCGCCGTGGGCAGAGCCTATAGCCGGACGGATGTTTGAGCACATGGAAGACGGGTTGAACCGTTGGAAGGATGCAGTGAAAAAAGAGAATTTTTACTTAAGTATTCAAGATCTGGACCTTCATTCTGAACGGCAGCTGCACACCCCTTTACGGGAATGGACGGATGAGAAGGGGCTGCAGGTAACGGCAGTCGGAGATGTCCGCTATATAAGGAAAGAGGAAGCGGACGCCTATCACTGCTTAAGGGCAGTGGAGGAAGGAACACGTTTTACACCTGATCATGCTCACGGTCCTTATTACTTGAAAAGTGCAGAGGAAATGGAGGCCTTTTTCGGGGAATGGTGGCCGGAAGTCCTTGAAACGTCAAGGCATATTGCAGAGCGCTGTCACTGGGATATGAACCTGAACCAGCAGCTTCTTCCTACATATCCGGCGCCTGATGGAAAGAGCGCCGCTGTTTATCTGCGCGAGCTCTGTGAACAGGCTCTCCATGAAAAATATGAAGAAAAGGCGGAAGCTTTACAGCGCCTGAATCATGAGTTGAGCGTAATTGAATCCATGGGATTCAGTGATTACTTCTTAATTGTCTGGGACTTTATCGCGTTTGCCCGGGAAAAGGGCATCAATGCTGGTCCGGGACGGGGGTCGGCCGCAGGATCAATCGTTGCTTATCTGCTTGAAATCACGAAGGTGGACCCGCTCGAATATCAACTGCTTTTTGAACGGTTTTTAAATCCGGAACGTATTACGATGCCGGATATCGATATCGACTTTCCTGACCAGCGTAGGGATGAGGTCATCTCCTACGTTGCTGAAAAATACGGCAGGCAGCATGCAGCTCAGATCAGCACGTTCGGTACCTTCGCTGCCAAAAGTGTACTCAGGGAATTATTCAAGGTTCTCCATATTGATGAAAGTGATGCCTCTTATATTCTTCATCAGCTGCCGAAGCAGACGAATCAATCGCTTGTAGAGATCGTCCGTCATTCGGAGGAACTGAAAGATTATATTAGAAACTCGGAAAAACTGAAGCATCTATTCAAGATTGCAGCCAAACTGGAAGGCCTTCCACGTCATATTTCCACACATGCGGCAGGGGTAGTCCTTTCCGAACAGCCGCTGATGGAATATACCCCCTTGATGAAAAGTCAGGGAGATGTGTATTTAACCCAGCTCACGATGGGGGATCTGGAAAAGATCGGCCTTCTGAAAATTGATTTTCTAGGACTGCGGAACTTAACCTTTATGGAAAATCTGGAGCGTAAAATTCAAAGGACAGAAAGCCGTTCCTTCTCTCTTGACCACATTCCATTGAATGATCCGGAAACCTTTTCCCTGCTTTCAGAAGGAAAAACCAATGGAGTCTTCCAGCTGGAGTCGCAGGGAATGAAGCAGGTTTTGACGAAGCTGAAGCCGACTCACTTTGAAGATGTGGTGGCTGTCAACGCTCTTTACCGGCCGGGCCCGATGGAATATATCGATACGTATGTGGAGAGGAAGAATCAAAACGAAGCTTTCAAGCTTCCGCACCCGGATTTAAAGGGGATTTTGAGTCCTACGTATGGTGTGCTCGTCTACCAGGAGCAGATTATGCAGGTGGCAGGGCTTATAGCTGGCTATTCATTAGGGCAGGCGGACATGCTCCGAAGAGCGGTTAGTAAAAAACAGGGCGGAGTTTTGGAGAGTGAAAGGAAAGCGTTTGTAACAGGAGCTTTGGAAAACGACTACTCCGAGCAGGTGGCGGAGCAGCTGTTTGACTGGATAGTCAAGTTCTCAAACTACGGATTTAACCGGAGCCATGCGGTCGCCTATAGTTTGATTTCTTATCAGCTGGCTTTTATGAAAGCTCATTACCCCTCGGCCTTTATGGCAGAACTCATCAACGCTAATCTTGGCGATCGCGAGAAACTGGCAGCTTACATCCGGGAAGCGAGAGACATGCGCGTGAATGTGAAGGCTCCCTCTATTAATAAAAGCGGGACGACCGCCCGGGGGTCCCGAAATGAGATCATTATGGGTTTTCTTTCCATCAAAGGCGTTGGATATCAAGCGGCTAAAGCCATTGTGGAAGGACGCGGGCAGCAGCCCTTCCGCCATTTGAATGATTTCTGTCTGCGTGTGGATACGAAAATCGTTTCACGCAAGGTGATCGAGGGTCTTATTATAGCCGGGGCTTTTGATGATCTTCATCCTAATCGTGCGAGTGCCCTCGCCACGATTGATCAAGCCCTCGAGCAGGGGGAGTTGTTCAAGGAGTTTCAGGATCAGCCCGGTTTTTTTGATCAGGAAATGGTCATGGATATGGTGAACGTTGATCCATTCCCCCTTCTCAAGAATCTGGCGATGGAAAAAGAAGTCCTTGGCACGTACTTGTCCGATCATCCTCTGGAAAGTCAGCGTAAAGGTCTCAGGCGTATGGGCGTCCTGGCTCTTTCCCAGTTGTACCGAATGAAAATGAATAACAAAGTCGATACAGCTGCGGTCGTAGACAGCATTCGGGAAATACGAACAAAACGCGGGGACCCGATGGCCTTTTTATCCTTAAGTGATGAAACTGCCGAAGTGGATGCCGTCATCTTTCCGGATACGTACAGGGACGTTAAAGTGTGGCTGGCAGAGCAGATGCTTGTCACAGCCTCAGGAAAAGTCGAAGAAAGAAACGGAAGGAAACAGCTGATTATTCAGTCTCTGGATCCTTTTGAAATGGAACAGGACCGCCGTGGAGAAGAGCAGGAGGAGCGCCGGCTGTTCATTAAAGTGACAGAAGAGAATGAGAATGAAGCGATTCAGCAGTTGAAGGAAACCGCGCAGTATTTCCCGGGGAATACCCCTGTTTTCCTGTTCCGGTCTGAAGATCGGAAGACCTACCGGCTGGATGAAAGCTACGGGCTGCAGCCGACAAGAGACTGTCTGGATCAATTGAATAACTTTTTCGGGGAGAAGCATGTGGCATTAAGGAGCAATCGGAAGAAGACGGAAAATTAA	MTFTHLNVRSGYSLMKSTVKINDLVSEAKARGFQSIALTDENTLSGALSFYQECRAYGIQPVIGISTTIEDRSLLHPVLLLSENQTGYKNLMKAATWANTKDEPLSLETFAGMSDGLIVVHKTSASPWAEPIAGRMFEHMEDGLNRWKDAVKKENFYLSIQDLDLHSERQLHTPLREWTDEKGLQVTAVGDVRYIRKEEADAYHCLRAVEEGTRFTPDHAHGPYYLKSAEEMEAFFGEWWPEVLETSRHIAERCHWDMNLNQQLLPTYPAPDGKSAAVYLRELCEQALHEKYEEKAEALQRLNHELSVIESMGFSDYFLIVWDFIAFAREKGINAGPGRGSAAGSIVAYLLEITKVDPLEYQLLFERFLNPERITMPDIDIDFPDQRRDEVISYVAEKYGRQHAAQISTFGTFAAKSVLRELFKVLHIDESDASYILHQLPKQTNQSLVEIVRHSEELKDYIRNSEKLKHLFKIAAKLEGLPRHISTHAAGVVLSEQPLMEYTPLMKSQGDVYLTQLTMGDLEKIGLLKIDFLGLRNLTFMENLERKIQRTESRSFSLDHIPLNDPETFSLLSEGKTNGVFQLESQGMKQVLTKLKPTHFEDVVAVNALYRPGPMEYIDTYVERKNQNEAFKLPHPDLKGILSPTYGVLVYQEQIMQVAGLIAGYSLGQADMLRRAVSKKQGGVLESERKAFVTGALENDYSEQVAEQLFDWIVKFSNYGFNRSHAVAYSLISYQLAFMKAHYPSAFMAELINANLGDREKLAAYIREARDMRVNVKAPSINKSGTTARGSRNEIIMGFLSIKGVGYQAAKAIVEGRGQQPFRHLNDFCLRVDTKIVSRKVIEGLIIAGAFDDLHPNRASALATIDQALEQGELFKEFQDQPGFFDQEMVMDMVNVDPFPLLKNLAMEKEVLGTYLSDHPLESQRKGLRRMGVLALSQLYRMKMNNKVDTAAVVDSIREIRTKRGDPMAFLSLSDETAEVDAVIFPDTYRDVKVWLAEQMLVTASGKVEERNGRKQLIIQSLDPFEMEQDRRGEEQEERRLFIKVTEENENEAIQQLKETAQYFPGNTPVFLFRSEDRKTYRLDESYGLQPTRDCLDQLNNFFGEKHVALRSNRKKTEN				NA	NA	NA	NA	NA
AK012_01226	333	ytrH		Sporulation membrane protein YtrH	ATGGAAGACCGTTTAATCGTATCCATGATCCAATGTTTCTTTATCGCTTTTGGGGTTATTGTAGGCGGGACCCTCATTGGATGTATTGGCAGTTACTTAACCGGAGAAGCTCCGCTGACCGCCATGTTCCGTATCGCCAAAAGTTTAAGAATCTGGGCCGTTGTAGCAGCCATAGGCGGAACCTTTGATGCCATCAGCAACTTTGAAAAAGGAATCCTGGACGGCTCTACTTTTGATATGTTCAAGCAGATCGTCATTATCGTCGCGGCTATGGGCGGGGTGAAGGCAGCCCTTCTTCTGTTCGAGTGGCTGCTCGGAGAAGAGGTGACCTGA	MEDRLIVSMIQCFFIAFGVIVGGTLIGCIGSYLTGEAPLTAMFRIAKSLRIWAVVAAIGGTFDAISNFEKGILDGSTFDMFKQIVIIVAAMGGVKAALLLFEWLLGEEVT				NA	NA	NA	NA	NA
AK012_01227	498	ytrI		Sporulation membrane protein YtrI	ATGCACTTTCCCCCTTACCATAGAAGCAGGGAATGGAGACGCTTTTTCGCTGGTGTCCTGTTAGGTACCATTGCCGGCTGGCTTTTTTTTCTTTACACCCACGGACAGCTGCAGCAGAAATATACGGAAGAACATATTGCATTAACGACAGAACTGCATGAATTGGAAGTGAAGTATGAAGGGCTCCTGAACAATAAAAACAATGATATGGACACTGCACCGTTGACGGTAAGCGAAATGGACGTCTCGTACACCAATGCCAAAAAGCTTGAAGTTGACCTGCTTACCCAGCATCAGCTGACGTCTATGGTGAAAGATCAGCTCTCCTCCCTGCCGGGCAAGCGTGTGCAGGTCGTTGCAGAGCAGACGGACTTGATTTTAACTTCCCTTGAAAGCAAAAACTATGTGGTGGATGATTTTACCTACCAATTAAAAGTCAACCAGCTGATCATTTCCGAAATCATTACCTTGAGACTTGAAATAAAGCTGGTGCGCTAA	MHFPPYHRSREWRRFFAGVLLGTIAGWLFFLYTHGQLQQKYTEEHIALTTELHELEVKYEGLLNNKNNDMDTAPLTVSEMDVSYTNAKKLEVDLLTQHQLTSMVKDQLSSLPGKRVQVVAEQTDLILTSLESKNYVVDDFTYQLKVNQLIISEIITLRLEIKLVR				NA	NA	NA	NA	NA
AK012_01228	957	nrnA	COG0618	Bifunctional oligoribonuclease and PAP phosphatase NrnA	ATGTCTACACAAGCCATTATACAGTCCATTAAAGAATATTCGACCATCGTCATCCATCGTCACGTCCGTCCGGATCCGGACGCCTATGGTTCGCAGGCCGGGCTTGCCGAAATCATTCAAGCAAGCTTTCCGGACAAACAGGTGTATCTTGCGGGAGAAGGGGAGCCTTCCCTGGCTTTTCTTGCCGAAATGGACGATATTGAGGATGATACGTTCAAGGAAGCTCTGGTAATTGTCTGTGACACCGCCAATCAGGCCCGGATTGATGATCAAAGATTTGCCTCCGGAAAACAGCTGGTGAAAATCGACCACCATCCTGACGTCGACCAGTACGGGGATATTCAATGGGTGGATACGACATCCAGCTCCACATCGGAAATGATTTACCAATTATATAAGGAAGGGACCGAGGCAGGATTTAAGATGAATGAACGTTCTGCACGACTGTTGTATGCAGGAATCGTAGGCGATACCGGGCGCTTTCTTTTTCCGAGTACAACGAACAAAACGCTCTCATACGCGGCTGATTTAGTTCATTACGATTTTGATCGATCTTCCCTGTTTAATGAAATGTACAAAACCCCTGTCCATGTCGCCAGATTGAAAGGATACGTGCTGGAGAATTTCACACTTCATCCTGCCGGGTATTCGACCATTCGTCTGGATAAGGAAACGTTGGAGCGTTTTGGTGTGACAGCGACAGAAACAAGCCAGCTGGTGGGTCTGCTCGGTGATATTGAGGGAATTCTTGCGTGGGCGTTCTTTGTGGAAGAAGAAGATAATATCCGCGTCCGCCTGCGTTCGAAAGGTCCGGTGATTAACGGAGTGGCTGCTGATCATAATGGCGGTGGACACCCGATGGCCTCCGGCGCTTCTGCTTCAGACTGGGCGGAAACGGAGGAAATTGCTGGAGAATTGGAGGAGGTTTGTAAAGCTTATCAAAAGGAGAAGGGATAA	MSTQAIIQSIKEYSTIVIHRHVRPDPDAYGSQAGLAEIIQASFPDKQVYLAGEGEPSLAFLAEMDDIEDDTFKEALVIVCDTANQARIDDQRFASGKQLVKIDHHPDVDQYGDIQWVDTTSSSTSEMIYQLYKEGTEAGFKMNERSARLLYAGIVGDTGRFLFPSTTNKTLSYAADLVHYDFDRSSLFNEMYKTPVHVARLKGYVLENFTLHPAGYSTIRLDKETLERFGVTATETSQLVGLLGDIEGILAWAFFVEEEDNIRVRLRSKGPVINGVAADHNGGGHPMASGASASDWAETEEIAGELEEVCKAYQKEKG				NA	NA	NA	NA	NA
AK012_01229	303			hypothetical protein	TTGATTATTTTTCCGATTCTCATTTTAGTTTCCCTTGTCCTTTACATTTATTACAAAGTGATGGTCATCCGGGCCCGCGATCCACTCACACAGGAGTACTTGAACAGCAGGTCTAAGATTTTTCTAGGTGGATTTGTGTTTTTCTTTGCGATTAATCAATATGTATTCTATCAGACAAGGCTCTCCTTGTTTGTCGGTCTGGTGTTCCTGATTCTGGGGGCTGCCCAGGCACGGCTTGGATGGAAAGCGAGCCGCCACTATCAGCAGGAATACAAAAAACAGGAGGCCCATTCCCAGACTTGA	MIIFPILILVSLVLYIYYKVMVIRARDPLTQEYLNSRSKIFLGGFVFFFAINQYVFYQTRLSLFVGLVFLILGAAQARLGWKASRHYQQEYKKQEAHSQT				NA	NA	NA	NA	NA
AK012_01230	1314	IMPDH_1		Inosine-5'-monophosphate dehydrogenase	ATGGCTACAAAACATGAACAGATCCTGGAACATATCGAGTCCTTATCCGTAGGAAGCAAAATATCCGTACGCGGGATTGCAAAAGCGCTGAATGTCAGTGAAGGAACGGCTTACCGTGCCATTAAGGAAGCGGAAAACCAGCATCTTGTCAGTACGATGGAACGTGTGGGTACCATCCGGATTGAAAAGAAGAAAAAAGAAAATATCGAACGTTTGACCTTCGCCGAGATCGTCAACGTTGTCGATGGACAGGTGCTTGGCGGCAGGGAAGGACTTTACAAGACGCTTGGAAAGTTTGTCATCGGGGCTATGAAACTGGAAGCGATGATGCGCTATACAGAAGCGGGTTCCCTCCTCATTGTCGGAAACCGGACGAACGCCCATGAACTTGCGGTAAAAGAGGGGGCGGCCGTTTTAGTAACGGGAGGATTTGATACGACGGATACCGTGAAAAAGCTGGCGGACGAAAAGAAACTCCCTGTCATTTCCACGAGTTATGATACATTTACGGTAGCGACCATGATCAATAGAGCCATATACGATCAGCTGATCAAAAAGGAAATCGTGCTGGTGGATGATATCTATACATCTTTTGAGAATTCGAGGTTTCTCTCTACAGGAGATACCGTTCAGCGCTGGCATGATTTAAATGATGAAACAAAGCACAGCCGTTATCCTGTCGTTGATGAACAGAACCGTGTGGTCGGAATTGTAACTTCCAAGGATGTTATTGGACAGGAAAAAACGGTAAGGATCGATAAGGTGATGACCCGTAATCCGATGACAGCTCATACGACAACATCGCTGGCCAATGCGGCGCATGTGATGGTGTGGGAAGGGATCGAACTGATGCCTGTCGTTGACACGAGTCACAAATTCCAGGGGATCATTTCCCGTCAGGATGTGTTGAAGGCGCTGCAGCATATTCAACGTCAGCCGCAGGTAGGGGAAACGATTGATGATCTGGCTACCAACCGCATGGTCATGGTAGAGAGTGATCAGGATCCCCGGAGGTGGAGTACGAGGGTGACACCGCAGATGACCAACCAGCTTGGGACAATGTCTTATGGTGTGTTTGTTTCTCTGATCACAGAGGCATCAAGCCGGATGCTGCGGAAGTATAAAAAAGGGGATCTGGTCGTCGAAAATATTTCCGTCTACTTTATCAAGCCGGTGCAGATTGAAAGTGATATAGAAATCAGTCCGCAGATTTTAGAAGTCGGACGTAAATTTGCCAAGGTGGACATTGAAGTTCACCACGGGAAAGCCATTGTCGGGAAAGCTCTCCTTATGGCGCAGTTGATCGACCGATAA	MATKHEQILEHIESLSVGSKISVRGIAKALNVSEGTAYRAIKEAENQHLVSTMERVGTIRIEKKKKENIERLTFAEIVNVVDGQVLGGREGLYKTLGKFVIGAMKLEAMMRYTEAGSLLIVGNRTNAHELAVKEGAAVLVTGGFDTTDTVKKLADEKKLPVISTSYDTFTVATMINRAIYDQLIKKEIVLVDDIYTSFENSRFLSTGDTVQRWHDLNDETKHSRYPVVDEQNRVVGIVTSKDVIGQEKTVRIDKVMTRNPMTAHTTTSLANAAHVMVWEGIELMPVVDTSHKFQGIISRQDVLKALQHIQRQPQVGETIDDLATNRMVMVESDQDPRRWSTRVTPQMTNQLGTMSYGVFVSLITEASSRMLRKYKKGDLVVENISVYFIKPVQIESDIEISPQILEVGRKFAKVDIEVHHGKAIVGKALLMAQLIDR				NA	NA	NA	NA	NA
AK012_01231	681			hypothetical protein	ATGAAAGTTTCTTATCATGGACATTCCGTAGTCAAAGTGGAAGCCAATGGCAAAACGATCCTGTTTGATCCATTCATTTCAGATAATGGGAACACGGATCTGAATGCGGACCAGGTAAAGGCGGATGTGATTCTGCTTACACACGGACATAACGATCACGTGGGGGATACTTTTGAAATTGCCAAACGTACCGATGCGCAGATTGTGGCCCCATATGAACTGGCTACTTATCTCGGAAACAAAGGATTCAATGCTCATCCGATGCATATCGGCGGCGGGCATGAATTTGATTTCGGTCATGTCAAGTTCACCCAGGCTTTTCATGGTTCGGCTTATACAGAAGAAGACGGAACCATTGTCTATACCGGGATGCCGACCGGGATACTTCTGACCATTGATGGCAAAACAGTTTTCCACGCCGGAGATACCGGGTTGTTTTCTGATATGAAATTGATTGGCGAACGCAATGATATTGATCTGGCTTTCCTTCCTATTGGCGACAATTTTACGATGGGACCGGAAGATGCCTTAACAGCAGCGGAATGGCTGCAGGCGAAACAGGTGGTGCCGGTTCACTATAACACCTTCGATCTCATCAACCAGGATGGAGAAGGGTTTGCCTCTCAGGTAAAACCCGGAACGGGACGTGCCCTTCAGCCGGGAGATGTCATAGAACTATAA	MKVSYHGHSVVKVEANGKTILFDPFISDNGNTDLNADQVKADVILLTHGHNDHVGDTFEIAKRTDAQIVAPYELATYLGNKGFNAHPMHIGGGHEFDFGHVKFTQAFHGSAYTEEDGTIVYTGMPTGILLTIDGKTVFHAGDTGLFSDMKLIGERNDIDLAFLPIGDNFTMGPEDALTAAEWLQAKQVVPVHYNTFDLINQDGEGFASQVKPGTGRALQPGDVIEL				NA	NA	NA	NA	NA
AK012_01232	672	liaH_1	COG1842	Protein LiaH	ATGTTCAAATTTTTCAAACGTGTTAAAACGGTCGTAGGTTCTGAAATGAATGCGATGCTCGATAAAGCGGAAGACCCTGTGAAGATGCTGGACCAGTTCATGAGAGACATGGAAAATGATATCCGTGAAGCAGAAAGTGCGGTTGCCAAACAGATCGCCAATGAGAAAATGCTGAAGCGTAAATATGATGATGCCCAGGCTCTTGCAGATAAGCGGATGCAGCAGGCAGAGAAAGCGATAGAAGCGGGTAATGAAGATCTGGCCCGTCGTGCGCTGGAAGACAAGAAAAACCATCAGGAGCAGGCAGAGCAGTTGAAAGCTTCCTGGGAACGCGCTCAAACAGACGCTTCCAACCTCCGCGAAAAACTGGATGAGATGAAGAAAGAATACCAGGAGATGAAATTGAAGAAAGACTCCTTGAAAGCTCGTGCGGAATCGGCGAAAACGCGCACGAAAATGAACAGAACGATGTCAAGCATCGGTGGAGATGAATCCCGTCAAGGTTTTGAGCGTATGGAAGAGAAGGTCATGCAGTATGAGGCGGAAGCGGATACGAGTGACGACCTTTCATCCGAAGCCCGTTCCATTGATGATGAATTTGAAGAAATGAATAAGAAAGATGACGTCGATGATGAACTCCAGGCACTGAAGCGCAAAATGAACAAAGAATAA	MFKFFKRVKTVVGSEMNAMLDKAEDPVKMLDQFMRDMENDIREAESAVAKQIANEKMLKRKYDDAQALADKRMQQAEKAIEAGNEDLARRALEDKKNHQEQAEQLKASWERAQTDASNLREKLDEMKKEYQEMKLKKDSLKARAESAKTRTKMNRTMSSIGGDESRQGFERMEEKVMQYEAEADTSDDLSSEARSIDDEFEEMNKKDDVDDELQALKRKMNKE	PGPT0014646_1607	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
AK012_01233	513			putative protein	TTGGGTTTATTCTCTCGATTGTTTTCAAAGAAAGACCAGCAGACGCCCGAGGTGAAAGAGCGGACGCCGCTGACGATTGAAGTAGGAGACATTGTGACCTACGACCTTGCCGATTACGAAGTGGTAGGGAAAATCACCTACCGTGACGGGTCTTATGAATGGTATGCCTATCAACTGCTGGAAGGAAATCAAACCAAATGGCTTGCTGCTGAAATGGATGACGAACTGGAACTTGGGATGTATGAAAAAATCAACCTGCCTGTAAACAGGCCGTACCCCGCTTCTCTGGAGTATGAAGGAGTTACCTATACAAAGGATGAAGAAGGGGAAGCCCAGGTGACAGGCGAAGGCCGCAGCACAAATGTGAACGGCCGTACCGTCAGCTATGCAGATTATATATCTGAAGATGAAGAAACCTATCTCAGTGTGGAAGCCTGGGGCACGGAAGTCGAAGTCAGTGTCGGGTCAGACATTGAAGCGTATGAATTGAAGATTATTGCAGGTTCCAAATAA	MGLFSRLFSKKDQQTPEVKERTPLTIEVGDIVTYDLADYEVVGKITYRDGSYEWYAYQLLEGNQTKWLAAEMDDELELGMYEKINLPVNRPYPASLEYEGVTYTKDEEGEAQVTGEGRSTNVNGRTVSYADYISEDEETYLSVEAWGTEVEVSVGSDIEAYELKIIAGSK				NA	NA	NA	NA	NA
AK012_01234	759	fabG_5		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGCGCCACGCCATCATAACAGCCGGAACCAAAGGCCTTGGCAGAAAAGTTACGGAACATATGCTGGCCCGGGGATATTCAGTAACTGTGACCTATTTCAACGACGAACCGAAGGCGCAGACACTCCTGAATGACTTTGCTTCCGCACGTGAGCGTATTCAGCTCGTAAAGGCGGATGTAACAGTGGAACAGGATTTGGAACATGTGGTTCAGCAGGCGGTGGACCGCTACGGACGTATCGATTTCCTGATTAATAATGCAGGGCCCTATATATTTGAACGGAAAAAGCTGATGGATTATACAAAAGATGAGTGGAACCAAATGATCAGAGGGAATCTGGACGCTGTGTTCTACCTGCTCAAGCTGACAGTTCCGCATATGCGCCGGCAGCAGTTCGGCCGGATCATCAATTACGGGTTTCAAGGCGCCCATGCAGCTTCGGGGTGGATATACCGATCAGCCTTTGCTGCTGCAAAAGTCGGGCTGGTGTCCCTGACGAAAACAATCGCTTATGAAGAAGCAGAATACGGGATCACCTCGAACATGATCTGCCCCGGGAACATTGTCGGTGAATGGAAAGAGTCTTCCATCGACCAAAGCCGGAGCACGGCGGATCAGGAAACGCCGATTGGAAGACCCGGGACAGGGGAGGATATCGCCCGTACGATTGATTTCCTATGCGATGAACGATCGGACATGATTACCGGGACCGTGTATGAAGTCACCGGCGGTCTTGATGTCATCCACCGTCACCGTTAA	MRHAIITAGTKGLGRKVTEHMLARGYSVTVTYFNDEPKAQTLLNDFASARERIQLVKADVTVEQDLEHVVQQAVDRYGRIDFLINNAGPYIFERKKLMDYTKDEWNQMIRGNLDAVFYLLKLTVPHMRRQQFGRIINYGFQGAHAASGWIYRSAFAAAKVGLVSLTKTIAYEEAEYGITSNMICPGNIVGEWKESSIDQSRSTADQETPIGRPGTGEDIARTIDFLCDERSDMITGTVYEVTGGLDVIHRHR	PGPT0003180_10224	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
AK012_01235	1323	hyuP_1		Hydantoin permease	ATGAGAGGTGCTGCAGGCAGAACGTCTGTTGTGGAGAGGTACGGCCTGGAAGCTGTCCCTGCTCATCAAAAAAATACACCCTGGTACCGCTTCGCTTTTATCCAGATGGCGGTTGCGGCCAATGCCGGAAACTTTCTCGTTCCCGCTCTTGCCGTCATTGAAGGCGGGCTTTCCTTTTGGAGCGCTGTTTTATGCACGTGTGCCGGGGCATGGCTCGGTTTTCTATTTGTCTCTTATTTATCTTTACCCGGGGCACGGCTGGGCATCCCCGCACAGTACGCGATCCGCACGATGCTTGGTGTCCGGGGCGCGCAGTTTTTATCTTCTCCAGTGCGGAGCCTGACTTCTTTGTATTGGTTCGGTGTGCAGACGATCGGAGGAACCTATGTCATCCAGGAGCTGGTATCCAGAATCTCAGGAGCAGAGCTCCCCTTCTGGGTTGTGTCCTTCCCGCTGTCCCTGCTGATGGTTATCCTTGCCATTATCGGTTTTGATGCGGTTAAAAAAGCGACCAGTTATTTCCTTCCCCTCCTGCTTGCAGGAGAAGGGACGATGCTCTATGTATACTTTACTACAAACAATGAATCCGGTGCATCCTTGACGCTTGCCATGGATGGCTGGAGCGGCTCGTTTCCGATGATGCTCTTTTTCTCAAGCCTGGCATTTGTCCAGTATGTTTCTGGTGTGAGCGCATCTGCTGATATGACGAGATATGCAAAAACACCGGCCCACGGTTTCTGGGGACTGCTTACAGGCAACGGAGCAGGCTTCCTTCTGACTGCTGTCATTGGATGCGCTTCCGCCTCGCTGTACAGCAGCGTCAACCCTTACGTATCCTCGTCGAATCAAACGATGTCCCCTCTCATCATTGGCGTGATTACATTAACAGCTGTCATCTCTATGATCAGCATCAACGTAAGCAATGCCTACACAGGAGGATTCAGCCTTCTCAACATATTCCCGAAACTGTCGAGAGTGCAGAGCGCTGTTCTTTTTGGTGCCGCAGGAGTTGTGCTGAGTGGATTCCCAACCCTTGTGAACGAAGCTGAATCGTTTATTTCGCTTCTCGGGGGGTTGATCATACCTATTTCAGCTGTGCTCGCCAGCGACTTCTTATGGGTGAAGCGCGGCCGGCTGACCCATGAGGACTTGAATTTTCCCGCCCATGCCGCACCGTTTAACGCGTCTGCCATTGGAGCCATTTCCCTGGGCACGCTGCTGTACTTTTTCATTCCCAGCGATTGGTCCCCCGGTTTTCTTACCTTTATGGTCATTGCACTGCTTTATCCCCTGATCCATAGGAAAAGTAATGTACAGCCCTGA	MRGAAGRTSVVERYGLEAVPAHQKNTPWYRFAFIQMAVAANAGNFLVPALAVIEGGLSFWSAVLCTCAGAWLGFLFVSYLSLPGARLGIPAQYAIRTMLGVRGAQFLSSPVRSLTSLYWFGVQTIGGTYVIQELVSRISGAELPFWVVSFPLSLLMVILAIIGFDAVKKATSYFLPLLLAGEGTMLYVYFTTNNESGASLTLAMDGWSGSFPMMLFFSSLAFVQYVSGVSASADMTRYAKTPAHGFWGLLTGNGAGFLLTAVIGCASASLYSSVNPYVSSSNQTMSPLIIGVITLTAVISMISINVSNAYTGGFSLLNIFPKLSRVQSAVLFGAAGVVLSGFPTLVNEAESFISLLGGLIIPISAVLASDFLWVKRGRLTHEDLNFPAHAAPFNASAIGAISLGTLLYFFIPSDWSPGFLTFMVIALLYPLIHRKSNVQP	PGPT0009075_3445	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
AK012_01236	111			hypothetical protein	ATGAAAAAACCAATGAATCCTCTTGAAAAAGAAAGCATCGATCAGCGCCGGATCATGAGTGCTTTGAATGAAAGCTACCAGTCCGGCGATCGTCGTCAAAAGCGGCGGTAG	MKKPMNPLEKESIDQRRIMSALNESYQSGDRRQKRR				NA	NA	NA	NA	NA
AK012_01237	459			Putative universal stress protein	ATGACTTATGAATATAAAGATATCGTCGTTGCCGTGGATGGTTCCGTTACTGCAGAAGAGGCTTTTTCAAAAGCCATTGATATAGCCAACCGAAATGGAGCCAAGCTGATTCTCGCTCATGTAGTGGATACAAGAGCTTTTGCTACCGTAGAAGCATACGACCGTTCCTTAGCCATCAGAGCAGAAAAGTATGCCACGGAGCTGTTGAATGATTATCAGAAAAAAGCTGAACAAGCCGGCGTCACCAACGTCGTCATTGATATTGAATATGGGTCCCCGAAAGTGAAAATTGCTAAGGACATCGCGCCTAAACACAACGCGGATTTAATTGTCTGTGGTGCGACTGGTTTGAATGCTATGGAACGCTTCTTTATTGGAAGTGTTTCTGAACACATTACCCGCTCTTCCTCATGCGACGTTCTTGTTGTACGAGCCAATCCGGATAAAACCAAAGATTAA	MTYEYKDIVVAVDGSVTAEEAFSKAIDIANRNGAKLILAHVVDTRAFATVEAYDRSLAIRAEKYATELLNDYQKKAEQAGVTNVVIDIEYGSPKVKIAKDIAPKHNADLIVCGATGLNAMERFFIGSVSEHITRSSSCDVLVVRANPDKTKD	PGPT0002681_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002681-yxiE-NA	NA	NA
AK012_01238	513	moaB	COG0521	Molybdenum cofactor biosynthesis protein B	ATGTCTGTCCATGAACATAAACAGGCCATTCAGGGACCTGTACGCTGCGGAATCATTACCGTAAGTGATACAAGAACAGTGGAAACGGATAAGAGCGGTAGACTGATGAAGGAGAAGCTTCTCCAGAGTAATCATGAAATCATCCGCTCTTCGATTGTACGGGATGAAAAAGCCTCCATTCTCCAGGAGCTTCATGAGTATACAGCTCATCCCACCATGGATGTCATACTGATGAATGGGGGAACGGGGATTGCTTCCAGAGATGTGACCATCGAAGTGTTGGAAAGCATTTTTGAGAAAGAAATGCCGGGGTTCGGGGAAATTTTCCGTATGCTCAGCTATACAGAAGATATTGGATCCGCTGCCATCCTCTCCAGAGCTGCAGCCGGGGTGGTGGATGGAAAAGCTGTCTTTTCCACACCCGGGTCCTCAGGAGCGGTGAAGCTGGCTATGGATAAGCTGATTCTTCCGGAGCTGCGCCATGTTGTACGTGAATTGAGAAAAGATCAATGA	MSVHEHKQAIQGPVRCGIITVSDTRTVETDKSGRLMKEKLLQSNHEIIRSSIVRDEKASILQELHEYTAHPTMDVILMNGGTGIASRDVTIEVLESIFEKEMPGFGEIFRMLSYTEDIGSAAILSRAAAGVVDGKAVFSTPGSSGAVKLAMDKLILPELRHVVRELRKDQ	PGPT0008420_145	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008420-moaB-K03638	NA	NA
AK012_01239	828			hypothetical protein	TTGGCTGATGATCGAATCCGTAGAGAACTTGAGGTATGGCTCCAGCAGTTTCGGCAGTACCAGCCGAATGATTTTGAAAATATGTATGATCAATGGATGTATCAGAACTTTCAAAACCTGGACCCGGGCGTCAGGGATAAATTTTTTTCCAAGCTGGATGCGTGGTTCTTTCACACCCATGCGTTTCTTCAGGGGACGTCCTACCAATATGAGGCCCGTGAGCGTATTCTGACCGCCGGCCGGATCTTTTCCTCCAACATTCACCACATCCAGGATATGGAGAAAGAATTAACGACAGACCAGTTGACCTATATTGCTGAGCAGCAGATGGCCCGTGGCCGGCTGTATTCTTTTGCCCAGGGAGGATTGACGGGGGCCGGAGGATGGCTGTTCCTCGGTGTTGACTATCCGATGATGATGCTGATGAATATACGCGCGATCCAGTTGATTGGACTTACCTTCGGACATGAAATGAATCACCCTTATGAAATGATGATCTCTTTAAAAGTATTTCATGCGGCCACGCTTCCTAAACGGTTGAAAGGCGAGGCCTGGGAAGACTTGATTCAGGAAGTGGAAAAGAAAGAACACAATTACATCGTTGCCGGGGATGACCGGCTTACAGATGAAGGGTGGCTGGAGCAGCCGCTGAAGCATTGCTTCAAGTCGCTGTTTATTTTGATGTTCAGAAAAAAACTGGTGCAGGGGCTTCCTTTTATCAGCATAGCCATCGGTGCTTATTCGAATTATCATTTAACCAAGCGGGTGACGGAATTCGCTATGAAGTTTTACCAATATCGTCACCTTACGAGTAAAGAAGGAGGCTGA	MADDRIRRELEVWLQQFRQYQPNDFENMYDQWMYQNFQNLDPGVRDKFFSKLDAWFFHTHAFLQGTSYQYEARERILTAGRIFSSNIHHIQDMEKELTTDQLTYIAEQQMARGRLYSFAQGGLTGAGGWLFLGVDYPMMMLMNIRAIQLIGLTFGHEMNHPYEMMISLKVFHAATLPKRLKGEAWEDLIQEVEKKEHNYIVAGDDRLTDEGWLEQPLKHCFKSLFILMFRKKLVQGLPFISIAIGAYSNYHLTKRVTEFAMKFYQYRHLTSKEGG				NA	NA	NA	NA	NA
AK012_01240	1191	ackA	COG0282	Acetate kinase	TTGAGTAATAACATTCTTGCTATCAATGCCGGCAGTTCATCGTTGAAATTCCAACTGATTGAAATGCCTGAGGAAACAGTCGTTACAAAAGGCCTCGTCGAGCGGATCGGTCTTGATGACGCTGTTTTCACCATTGAGTTTAATGATGAAGAAGATAAAACGGTAACAGATATTCCAGATCATGCCAAAGCGGTAAAAATGCTTTTGAATAAGCTGACAGCCAACGGCATCATCAACTCTCTGGATGAAATTAACGGTGTCGGCCACCGTATCGTCCACGGAGGTGAGCGCTTCAGTGAATCTGTGTTAATTACAGACGAAGTGATCAAAGAAATCGAAGAAGTATCGGACCTTGCACCTCTGCATAACCCTGCCCATCTATCTGGGATCCATGCATTCCGTTCCGTGCTTCCGGACGTCCCGAACGTGGCCGTTTTCGATACAGCCTTCCACCAGTCCATGCCTGAACAGTCATATTTGTACAGCCTGCCATATGAGTACTATGAAGAGTACGGCATTCGTAAATATGGTTTCCACGGAACGTCACACAAGTATGTTTCTGAGCGTGCAGCGGAAATGCTCGGCCGTCCGGTTGAGGAGCTTCGTCTGCTTTCCTGCCACCTGGGTAATGGGGCGAGTATTGCAGCCATCGAAGGCGGAAAATCCATTGATACATCCATGGGTTTCACACCGCTTGCCGGAGTTACGATGGGAACCCGTTCCGGAAACATTGATCCGGCCGTTATTCCGTTCATTATGGAAAAGACGGGTAAAACGGCGTCAGAGGTTATGAACGTCTTGAATAAAGAAAGTGGAATGCTGGCTCTTTCCGGTTTCTCCAGCGATCTGAGAGATATCGAAGTGCAGGCGAATGAAGGAGACGAGCGTGCAGAGCTTGCTCTCGAAGTATTCGCAGCCCGTATCCACAAATATATTGGTTCCTACGCGGCACGTATGCACGGAATCGATGGCATCATTTTCACAGCAGGTGTTGGTGAAAACAGTATTACAATGCGTGAGCGCGTTCTTAAAGGACTTGAATTCATGGGCGTATACTGGGATCCATCCTTGAACAAAGTCCGTGGTAAAGAAGCGTTTGTAAACTACCCGCACTCTCCGGTCAAAGTCATGGTCATTCCTACCAACGAGGAAGTCATGATTGCCCGCGACACTGTGGAAAAAGGTTTATAA	MSNNILAINAGSSSLKFQLIEMPEETVVTKGLVERIGLDDAVFTIEFNDEEDKTVTDIPDHAKAVKMLLNKLTANGIINSLDEINGVGHRIVHGGERFSESVLITDEVIKEIEEVSDLAPLHNPAHLSGIHAFRSVLPDVPNVAVFDTAFHQSMPEQSYLYSLPYEYYEEYGIRKYGFHGTSHKYVSERAAEMLGRPVEELRLLSCHLGNGASIAAIEGGKSIDTSMGFTPLAGVTMGTRSGNIDPAVIPFIMEKTGKTASEVMNVLNKESGMLALSGFSSDLRDIEVQANEGDERAELALEVFAARIHKYIGSYAARMHGIDGIIFTAGVGENSITMRERVLKGLEFMGVYWDPSLNKVRGKEAFVNYPHSPVKVMVIPTNEEVMIARDTVEKGL	PGPT0001360_3118	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001360-ackA-K00925	NA	NA
AK012_01241	987			hypothetical protein	ATGAAGCAGGAACATGTAGAACAACTATTTCAATGGATTGATGATACAGCGACAACGATTTCAGAGGATATGAACATTACCTACCTCGAAGCCATTGCGGAAACCATGGACGTTTTATTCAATGGTCAGCCATTCGACGACATGAGTGAAAATCTTCAAACGTACCTCACAAATGAACTGACAAAAGTGAAGAAGGATCAATATGAGAAGGAAGAAATCCGGAAAGCTGTTCAACTGGCAATTTTGAAAGGGATGAAAGGGGCCACGCAGCAGCAGCACTTGATCACCCCGGATTCCGTAGCCATGTTTATGGGTTATCTCGCCTCCCGCCTATTTGAGGGCGAAGAGGAACTGAAAATCTTCGATCCGGCTGCTGGAAGTGCCAACTTGATTACGTCGGTGATGAACCAGCTTGACATGCCGGTAAACGCCTATGCCAGTGAAGTCGATCCTACATTGATCCAGCTGGCAGTCACAAACGCCAATCTGCAGAAGAACAAAATCGAGTTTTTCCACCAGGACAGTCTGGCTCCATTTTTAATGGAACCGGTTGACTTTGTAATGGGGGACCTTCCGGTCGGCTACTATCCGGATGACGTACAGGCAGCCAAATATGAGCTGAAAGCAGAAGAGGGTCTTTCCTACGCTCATCACTTATTCATTGAACAGGGGTTGAACTACACGAAAGACGGCGGGTACCTGATGTTCATCGTACCGAACTTCCTGTTTGAAAGCGATCAGTCCAAAGCTTTGAATGCCTACCTGCGTGAACACGCCCATATTGTGGGGATGCTCCAGCTTTCTGATTCCCTCTTTAAGGATGAAAAGCATGGCAAGAGCATACTAATCCTGCAGAAAAAAGGGAAGGATACAAAAGCGCCGAAGCAGGCCCTTCTTGTGAAGCTGCCGTCCTTTAAAAATCCAAATGGCATGGCGGATATTCTCAGTCAAATGAACGCCTGGTTCGATGAATATAAAAGCCGTTAA	MKQEHVEQLFQWIDDTATTISEDMNITYLEAIAETMDVLFNGQPFDDMSENLQTYLTNELTKVKKDQYEKEEIRKAVQLAILKGMKGATQQQHLITPDSVAMFMGYLASRLFEGEEELKIFDPAAGSANLITSVMNQLDMPVNAYASEVDPTLIQLAVTNANLQKNKIEFFHQDSLAPFLMEPVDFVMGDLPVGYYPDDVQAAKYELKAEEGLSYAHHLFIEQGLNYTKDGGYLMFIVPNFLFESDQSKALNAYLREHAHIVGMLQLSDSLFKDEKHGKSILILQKKGKDTKAPKQALLVKLPSFKNPNGMADILSQMNAWFDEYKSR	PGPT0027215_392	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESTRICTION|MODIFICATION_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_R-M_SYSTEM,PGPT0027215-EC_2_1_1_72-K00571	NA	NA
AK012_01242	804	nadK1	COG0061	NAD kinase 1	ATGACAGATCAACGTAGAAACCTATACTTTTATTACCATCAAAAAAGCGAACTTCAGGATAAATTAGAAGCTCTCTTCCAGCTGGCCAAAGACAATGATTTTCAAATTGTTGAAAACTCGAAAGACGCCAACATCATTATCGCAGTCGGAGGAGACGGTGCTTTTCTTCAAGCTGTCAGAAAAACGGGATTCCGTCAGGACTGCCTGTACGTAGGTATCCGCAGTGAAAATGAAGCAGGACTGTATTGTGATTTCAATATTGATGATCACGATGAAATGATTGAAGCCATGAAAAATGCAGAGGTCGAAGTCCGCCGCTTCCCTGTAATCGATACCACCATCAACGATGAATCGACTTTCTCCTGTCTGAATGAATGCAGCGTACGCTCGACATTAATCAAATCCATTGTCATTGATGTGTACATTGATGACCTGCATTTTGAAACATTCCGCGGCGACGGATTGATCATCGCCACTCCAACAGGAAGTACAGCCTACAACAAATCCATCAACGGAGCGGTTGTCGATCCGAAACTGCCGTGCTTCCAAATCAGTGAGCTGGCCTCCCTGAATAACAACCGGTACCGGACCCTCGGTTCATCCTTCATTTTAAGCGGAGAGAGAACCTTGAACCTCAAGGTCAGACAGGACGGCAATGACTACCCTATCATCGGAATGGACAACGAGGCATTTTCCATCCGGAACATTCATGATGTAACGGTAAACCTCAGTGAAAAAGTGATCAAGACAGTCAAATTAAAAAATAATACGTACTGGGACCGTGTTAAACGCACATTCCTATAA	MTDQRRNLYFYYHQKSELQDKLEALFQLAKDNDFQIVENSKDANIIIAVGGDGAFLQAVRKTGFRQDCLYVGIRSENEAGLYCDFNIDDHDEMIEAMKNAEVEVRRFPVIDTTINDESTFSCLNECSVRSTLIKSIVIDVYIDDLHFETFRGDGLIIATPTGSTAYNKSINGAVVDPKLPCFQISELASLNNNRYRTLGSSFILSGERTLNLKVRQDGNDYPIIGMDNEAFSIRNIHDVTVNLSEKVIKTVKLKNNTYWDRVKRTFL	PGPT0013490_5205	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
AK012_01243	1590	nfdA_3		N-substituted formamide deformylase	ATGAAGCTTTGGTATGGTGGGAAAATTTATACCCTGACAGCGGAAGACGCCTGGGTGGAATCTGTTGTGACGGAAAACGGACGCATTAAAGCCGTAGGGGATACTCAGGATCTTTTTGAATCCTATAAAGATGGTATTAAGGAGGAAATCGATTTGAAGGGGGCGGTGATGTACCCCGGTTTTACAGATAGTCATCTGCACATCCTCGGTCACGGCGAACGGCTGATGCGACTGGACCTTTCATTTATGAAATCCGCGGAGGAAGTTAAACAGGCTCTCCAGCTGCACGCGGAACAGCTTCCCGAAGGTGAATGGATTATCGGGGACGGCTGGAATGAGAACCAGTGGGAGGAAAAGCGGATCATACATAAGGACGAACTGGACGAAATCTCCAGAGATCATCCCATGATGCTGACACGCGTCTGTCGTCATGCCCTGCTTGCCAATACGAAGGCGATGGAGCTGGCCGGAATTACAGACAGTACTCCAGACCCGCAGGGAGGGGTGGTCGTTAAAGATGAGGACGGTCATGTGACAGGGTATTTCCACGATAAAGCCCAGGACCTGATTAAATCCGCAATGCCGGAGGTTACTCCGGAATATTTGAGAAAAGCAGCCGATCTTGCTGTCAAGGATATGCACGCCTTCGGACTTGTCGGGGGGCACAGCGAGGATTTGAACTATTACGGAGGGTTCAAAAGAACCTATGACGCCTTTTTGGATGTGATTGATGGAAAAACAACGAAGTTCAGGGCCCACCTCCTTGTCCATCACGGTGTAATTGAACAGGTGGATGAGGCCGGGCTTGGATTTAAACAAGGAACCGATTTTGTAGAACTGGGCGCGTTAAAAATATTCTCTGATGGTGCTCTTGGCGGCCGGACGGCATGGTTGAAGGAACCATATGCGGATGACCCGGATAATTATGGAGTAGCGATTCATACACAGGAGGAACTGGACGCCCTCGTTGGGGAAGCACGGAAGCGGAACATGCCTGTAGCCGTTCACGCTATCGGAGACGGAGCCGTTGAGGCTGTAGCAGACGCGGTAGCCAGAAATCCTTTGAAAACGGGGGAAAGGGACCGCATTATTCATGCTCAAATTTTAAGCAGTGAACTGATTCATAAGCTTCAACAATTGAATGTCGTTTTGGATATCCAGCCGACCTTCGTAGCCTCCGACTTTCCGTGGGTCATGGAAAGACTGGGGAACATGCGCTTGAAAAATTCGTATTCCTGGAAGACGCTTCTTGATGCAGGTGTTCAATGTGCCGGTGGGTCGGACGCTCCGATTGAAGAAATCAACCCGCTTCTTGGTATCCGGGCTGCTGTGGACCGCAGAGCCTCGTATGACAACGAAGTCTACCAGGCTGAAGAAAAATTGAGCGTATATGAGGCCGTCTGTCTGTATACGAAAGGAAGTGCGGAGGCGATTCATAAAGAGGGGGAACAGGGGATGATCCAACCTGGATTCACCGCTGACTTTACAGTGCTCGACAGAGATCTTTTTACATTGAAATCCCATGAACTTGCAGATGCCAAGGTGACGATGACGGTGGTGGACGAAGATATCGTGTATCAGCGTTCCTGA	MKLWYGGKIYTLTAEDAWVESVVTENGRIKAVGDTQDLFESYKDGIKEEIDLKGAVMYPGFTDSHLHILGHGERLMRLDLSFMKSAEEVKQALQLHAEQLPEGEWIIGDGWNENQWEEKRIIHKDELDEISRDHPMMLTRVCRHALLANTKAMELAGITDSTPDPQGGVVVKDEDGHVTGYFHDKAQDLIKSAMPEVTPEYLRKAADLAVKDMHAFGLVGGHSEDLNYYGGFKRTYDAFLDVIDGKTTKFRAHLLVHHGVIEQVDEAGLGFKQGTDFVELGALKIFSDGALGGRTAWLKEPYADDPDNYGVAIHTQEELDALVGEARKRNMPVAVHAIGDGAVEAVADAVARNPLKTGERDRIIHAQILSSELIHKLQQLNVVLDIQPTFVASDFPWVMERLGNMRLKNSYSWKTLLDAGVQCAGGSDAPIEEINPLLGIRAAVDRRASYDNEVYQAEEKLSVYEAVCLYTKGSAEAIHKEGEQGMIQPGFTADFTVLDRDLFTLKSHELADAKVTMTVVDEDIVYQRS				NA	NA	NA	NA	NA
AK012_01244	1212	thiI	COG0301	putative tRNA sulfurtransferase	ATGAAATTTGACCGTATTATGATCCGTTATGGTGAAATGGCGTTAAAAGGAAAAAACAAAAAATTATTTGAGCAAAAGCTGAAACACAATTTAGCGGGTAAACTCAAGGAGTTCCCTGAAACAACGATTGAAAAGACGCAGGGCCGCATGTATGTACATTTGAACGGCGAGCCTCCCCGGAAGGTCATGGAAGCATGCCAGAAGATATTTGGTATTCACAGCCTGAGCTTTGCTGTGAACGTTGATCAGACAGAAGAAGCGATGAAAGAAGCTGTGCTGCTTGCTTTTCGTGATGCCGAAGGAGCACAGACCTTCAAAATCTCTTCCAAGCGTACGGACAAATCGTTCCCGCTTCCTTCCCAGGAGATCAATCCGATGCTGGGCGGACATATCCTTCGGAATACCGACGGTGTCACTGTCGATGTCCACCGTCCTGACGTGGAGATCAAAGTGGAAGTCCGTCATGAGGGTGTTCTTGTCACGGCTCGGGATTACCCGGGTGCCGGCGGTCTCCCGGCAGGTACAACAGGAAAAAGTCTGTTGATGCTTTCCGGTGGAATCGATAGTCCGGTTGCCGGATATTTAACGATGAAACGCGGTGTGGAACTTGAAGCTGTTCATTTCCATTCGCCGCCTTATACGAGCGAGCGTGCGAAACAGAAAGTGATCGATCTTGCCCAGGAACTGGCCAAATTCGGAAGCAAGGTAAAAATTCACGTGGTTCCATTCACTGCTGTTCAGCAAAAAATCCACCGTGAAATGCCGTCTGGGTACAGCATGACCATCACGAGACGGATGATGATGAGAATCAGTGAGAAAATCGCGGAGCAGCAGGGGATTTTGTCCATGACTACGGGCGAAAGCCTTGGTCAGGTGGCCAGTCAGACGATGGAGAGTATGAACACTATTAATGAAGTCACCAATTACCCTGTCATCCGCCCGCTGGCTGCGATGGATAAGCTTGAAATTATTGATATTTCCCGGAAAATAGGGACCTATGATATTTCTATCCGCCCGTTTGAAGACTGCTGTACGGTCTTTGTGCCAAAGGCGCCGAAAACGAAACCGACAAGGGCCAATGCCAATTACTATGAATCCAATACCGATTTTTCTGAAGATCTTGAGAAGGCGGTTCGTGAATCCTATACCATTGAAGTCGATGCGCAGGGAAGTACGGACCAGCAGGAAGACGCTTTTGACGATCTGCTTTAA	MKFDRIMIRYGEMALKGKNKKLFEQKLKHNLAGKLKEFPETTIEKTQGRMYVHLNGEPPRKVMEACQKIFGIHSLSFAVNVDQTEEAMKEAVLLAFRDAEGAQTFKISSKRTDKSFPLPSQEINPMLGGHILRNTDGVTVDVHRPDVEIKVEVRHEGVLVTARDYPGAGGLPAGTTGKSLLMLSGGIDSPVAGYLTMKRGVELEAVHFHSPPYTSERAKQKVIDLAQELAKFGSKVKIHVVPFTAVQQKIHREMPSGYSMTITRRMMMRISEKIAEQQGILSMTTGESLGQVASQTMESMNTINEVTNYPVIRPLAAMDKLEIIDISRKIGTYDISIRPFEDCCTVFVPKAPKTKPTRANANYYESNTDFSEDLEKAVRESYTIEVDAQGSTDQQEDAFDDLL	PGPT0008940_1330	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
AK012_01245	1140	iscS_2	COG1104	Cysteine desulfurase IscS	ATGATATACTTGGATAACAGCGCGACGACCCAACCTTACCCGGAAGTGCTGGCAAGTTTCCAGAAAGCCGCCGAACAGTATTTTGCTAACCCTTCGTCCATTCACAGTTTAGGTAGTGAAGTGGAGCGTCTGCTGGATCGTTCCCGTAAACAGGCAGCCAGTCTGCTGCACGTGGATCCGCATGAAGTGATTTTTACTTCTGGTGGAACAGAAGGGAACAATATGGCGGTGAAAGGGGTGGCTCTGCAGCATCAAAATAGAGGAAAGCATCTCATTACAACTTCTATTGAGCACCCATCTGTATTGGAAGCTTTTCGGGCCTTGGAGTCATTGGGCTTTGAAGTTACCTATATAGATGTAGATCGAAAGGGTCTTGTAGATGCAGAGGCCGTCATGGATGCGGTCAGACCGGACACGATTTTAGTTAGTGTCATGTCTGTAAATAATGAACTGGGGTCGATTCAGCCGGTTGAGGAAATCGGGCGAAAACTGAAGAGCCGTCCCAAAACCTTCTTTCACGTAGACCATGTTCAGGGACTGGGGAAAATAGACCTTCCTATGAATGAGTGGGGCATCGATTTGTGTACGATTTCCGGTCACAAAATCCATGGTGTAAAAGGGACGGGTGCTCTTCTTGTGCGAAAACATGTGTCTCTATTTCCACTCCTCCATGGAGGCAGCCAGGAAGCTGAAAAGAGAGCAGGGACCGAGAATCTCCCGGGTACGGTAGCCTTCGTAAAAGCTCTGCGCATCCTGAAGGAAGAAGAACAGCTGAACAGAGATCATTTATGGAAACTGCGTGCACAGCTGCGGGAGGCGTTGAGCCGTCGTTCCTACTGTGTCCTGAATTCTTCAGAGGATGGCGTTTCTCATATTACGAATTTTTCTATACCCGGCTTAAAGCCTGAGGTGGTCATCCATGCACTTGTTGAGAAAGGGATATATATTTCGACCAAGTCCGCCTGCTCCTCCAAGCAGCCGGATGTGAGTGCTGTGCTGAAGGCGTGTAATTTCGATTATGACCGTACGACATCAGCGTTAAGAGTCAGTTTTTCTTCACAGAATACAGAAGAGGACATTAATCAATTTGTAGATGCACTGGATGAAGCTGTCCGTCACTTACAAGCTGCAATGAGGTGA	MIYLDNSATTQPYPEVLASFQKAAEQYFANPSSIHSLGSEVERLLDRSRKQAASLLHVDPHEVIFTSGGTEGNNMAVKGVALQHQNRGKHLITTSIEHPSVLEAFRALESLGFEVTYIDVDRKGLVDAEAVMDAVRPDTILVSVMSVNNELGSIQPVEEIGRKLKSRPKTFFHVDHVQGLGKIDLPMNEWGIDLCTISGHKIHGVKGTGALLVRKHVSLFPLLHGGSQEAEKRAGTENLPGTVAFVKALRILKEEEQLNRDHLWKLRAQLREALSRRSYCVLNSSEDGVSHITNFSIPGLKPEVVIHALVEKGIYISTKSACSSKQPDVSAVLKACNFDYDRTTSALRVSFSSQNTEEDINQFVDALDEAVRHLQAAMR	PGPT0000065_6861	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
AK012_01246	318			hypothetical protein	ATGAGAAGAAAACTCCTTGTTGGTTTATTCACAGGTGTCGTCCTCCTATGGACAACAGTGCTTGTCTATCTGTTCCTGCCTTCCGACCAAGGACGTCTTCCTGCTTCAGAGCACAGCTACAGCCGGCTGGAGTATGGGGTGAAAGAAAAGGTCATGGAACAGAAGGATGGAGATGAGCCCTCCTTGTTATCAAATCAAGATCATCCGGAAGATATTTTAAGGGACATCAAAGATACCCGGGCCTGGGCGGAGGATGTTTCTGAAGATGGCAGGCTCAGTATTGATACCCTCCTTGATCATCTGAAGGCAATGGAATAA	MRRKLLVGLFTGVVLLWTTVLVYLFLPSDQGRLPASEHSYSRLEYGVKEKVMEQKDGDEPSLLSNQDHPEDILRDIKDTRAWAEDVSEDGRLSIDTLLDHLKAME				NA	NA	NA	NA	NA
AK012_01247	1692	ezrA	COG4477	Septation ring formation regulator EzrA	ATGAAGTACGTCATAGGGGCTATATTACTACTAATTGCAATGTTCATCATCGGGCTGATTTGGCGTAAAAAGGTCTATGATGAAGTGGATCGTCTTGAAGGTTGGAAAATGGATATCATGAACCGGCGCGTGACGGAGGAGTTATCCAAGGTAAAGAATCTGAACCTTTCCGGCGAGACACAAGAAAAGTTCGAATCATGGCGTGAACGTTGGGATCAAATCCTTACAAAAGAACTGCCCGAACTGGAAGAATACCTTTTTGACGCAGAGGAAGCGGCCGACAAGTATCGGCTGAAGAAGGTCAGGTCTATTATTGAAAACACCGAAAAGAAGCTGGAATCCATCGAAGAAGATATTAAAACGATGTTAACAGAATTGGAATACCTTCTGAACTCTGAGAAAGAAAGCCGTGTCGAAATCGAATCCATCTCTCCGGAATTGAAAGAACTGACGAAGCGTCTGATTCAGAACCGTCATCAGTACGGTAAAGCCGTCAGCTTTTTCGAGAAAAGAGTGGATGCAGAGAAGGAAAAGCTGGCACAGTTTGAGCAGCTGACAGAACAGGGCGATTATTTGGAGGCTAACAAGCTTGTGCAGACCGTGAAGGAGGAAACCCTCCTGCTTCAGGAAGATATTGAGGCTTTCCCTGAACGGTACCGTAAAGTGAAAGTGGAAATTCCTGAACAGCTGAGGGAGCTGAAGAACGGCATCGAGGAGATGAAAGCAGAAGGCTATCGGATCACTCATTTCGAATTTCTGCCGGAAATACATAAGCATGAGCGCACGCTGACTGAAGCTTTTGAGAAGCTGGAGCAGGGGGATCAGGCCGATGTTCAGGAAGCGGTGGAAGCCATTGAATCAAGGATCCAGGAAATGTATCAGGTTCTTGAAGGGGAGGCAGTTGCTCATCAATATGTAGAAAAGCAGTTCGAACCTCTCAAATGGAAGCTGGATGAGCTGGAAAGCATGTTGGGGGCAACGGAACAGGAACTGAATGAACTGACTGTGACCTATCAGCTCGAGGAAGAAGATTTGGAATCTCATCATGGGTTGAAAAACTGGTTCAATCAGTTGAAAAAGAAAATGACCAGCCTCGAATTTAAGCGTCAGGATGGAGAAACCGCCTACTCTGAGCTTCGTGATGATTTAGAGCAGCTTCAGAAGCAGACGGCAGACCTCCAGGAAAAACATGAATTCTTCCAGGAACGCGTAGAGAATTTGAGGAAAGACGAACGTGAGGCGAAGCAGCAGCTGCGAAGAATGGAAGAACTGCTGATGGAAACCCACCGTCGACTCAAACGGAGCAATATCCCTGGAATTCCTGTTTTCATTTTTGAAGATATGAAAACAGCGAGTGTAAAAGTAGATGAGGTTTTTCAGAATCTGGAGAAACAGCCTTTGGATATGAATCATGTCCACGCCTCACTGGAAGAAGCGGTTGAACTTGTGGAGAAACTGAAGAGCGATGCCGAAAAAGTGATGGACAAAGCTCATCTATCTGAACGCCTCATTCAGCATGGGAATCGATATCGGAGCAAACATCCACTACTGGCGGCAAAGTTGTTGGAAGCAGAGGAGAAGTTCCGTTCGTACGAGTATGATGAAGCGTTAGCTCTGGCGGCCGAGGCGGTCAAAGAAGTAGACCCCGGAGCTCTTGAGAAAATGGAAGCAGAAGAAGAAGTGCTTGTCTAG	MKYVIGAILLLIAMFIIGLIWRKKVYDEVDRLEGWKMDIMNRRVTEELSKVKNLNLSGETQEKFESWRERWDQILTKELPELEEYLFDAEEAADKYRLKKVRSIIENTEKKLESIEEDIKTMLTELEYLLNSEKESRVEIESISPELKELTKRLIQNRHQYGKAVSFFEKRVDAEKEKLAQFEQLTEQGDYLEANKLVQTVKEETLLLQEDIEAFPERYRKVKVEIPEQLRELKNGIEEMKAEGYRITHFEFLPEIHKHERTLTEAFEKLEQGDQADVQEAVEAIESRIQEMYQVLEGEAVAHQYVEKQFEPLKWKLDELESMLGATEQELNELTVTYQLEEEDLESHHGLKNWFNQLKKKMTSLEFKRQDGETAYSELRDDLEQLQKQTADLQEKHEFFQERVENLRKDEREAKQQLRRMEELLMETHRRLKRSNIPGIPVFIFEDMKTASVKVDEVFQNLEKQPLDMNHVHASLEEAVELVEKLKSDAEKVMDKAHLSERLIQHGNRYRSKHPLLAAKLLEAEEKFRSYEYDEALALAAEAVKEVDPGALEKMEAEEEVLV				NA	NA	NA	NA	NA
AK012_01248	813	hisK_1	COG1387	Histidinol-phosphatase	ATGAAAGACGGTCATATCCATACCCCCTACTGCCCTCACGGGTCGAAGGATTCGCTGGAAAGTTATATAGAAAACGCCGTAAAAGCAGGGTATTCCGCCTTAACATTTACGGAACATGCCCCCCTGCCTGCATCATTCACTGATCCCGCACCAGCTGGAGACAGCAGCATGGATATCAAGGATCTGGAAAACTATCTTGCGGATCTGAATCAACTGCAGAAAAAGTACCAGAATGACCTGACGATTCTAAAAGGACTTGAAGTGGATTATATCGAAGGGTACGAGAAGGAAATTACATCGTTTCTTGAAACCTATGGACCTGAACTGGATGACAGCATCCTCTCCGTCCACTTTCTTAAAGGCAGCAGGGCGTGGTACTGCATCGATTATAGTCCGGATATGTTCAAGGAGGCGGCCGGGGACTTCGGAGGTGTAGAAGCCCTTTACCACACCTATTATGAAACCCTTTCCCAATCGGTGATAACCCCATTGGGAACATATAAGCCGAAACGGATCGGCCACATGACATTAGTCAGGAAGTTTCAGGAACTGTATCCCGGACCGGAAAACTGGCAGGCTTATGCTTCCCGTTTTCTGACACTCGCCAAAGAGCACGGCTTTGAGCTTGATTACAATGGAGCAGGGACGAAAAAACCCCACTGCAAAGAAACCTACCCGCCGCTTGCCATCGCCAGGGAGGCTTCTTCCATGGGGATACCACTCATTTATGGATCGGATGCGCATACGGCCTCAGCCTTGAAACAGGGGTGGGAAACTGTCGATCAAAGCCTTGTCAAACCTTGGCGGCGATAA	MKDGHIHTPYCPHGSKDSLESYIENAVKAGYSALTFTEHAPLPASFTDPAPAGDSSMDIKDLENYLADLNQLQKKYQNDLTILKGLEVDYIEGYEKEITSFLETYGPELDDSILSVHFLKGSRAWYCIDYSPDMFKEAAGDFGGVEALYHTYYETLSQSVITPLGTYKPKRIGHMTLVRKFQELYPGPENWQAYASRFLTLAKEHGFELDYNGAGTKKPHCKETYPPLAIAREASSMGIPLIYGSDAHTASALKQGWETVDQSLVKPWRR				NA	NA	NA	NA	NA
AK012_01249	603	yttP		putative HTH-type transcriptional regulator YttP	ATGAATCGACCGAATGGAACACGCAATAAAGTGCTGGACGTAGCCTGCCGCCTATTTTACAGCCAGGGTTTTAATGGAACCTCGGTTAGAGATATTGCTAAGGCTGCCAATGTAAATGTTTCATTGATCCATTACTACTTCAAAAGCAAGCAGGGTCTTTTTGAATCGCTCGCTGTCAGTTACTTTGAACCCTATCTTGATATGCTTGAGAGTGAGCAGCCCTCTGAAGACGGCGGCAGTCTCCATTCATTAGTGAAGAAAATTCTACATTATAAACAGAGCCATTATCAACTATCCTGTCTTTTAAACAGGGAGCTGTCCCTGAATACTGTATTCGCCAGGGAAATGCTCGTCACCTATCTGGCTAAGGAAAATCATTTATTTACGCAGATTTTATTCGATAAACATTCCCACATTGAAGTGACCTTCAAGGAGAAACTCTGCCTTCTCCAATTGAAAGGTCTTTTGAACGCACCGTTTACAATGCCTCATGAGTTCAAGGACCCGTTTATTACAGAAGCTTCCATTGACCACTTTGTTAATGTGTACAGCGGTTTAATGAATGAACATCAATCGGTGCAGCTTATCGCCGCCAAGGTTTGA	MNRPNGTRNKVLDVACRLFYSQGFNGTSVRDIAKAANVNVSLIHYYFKSKQGLFESLAVSYFEPYLDMLESEQPSEDGGSLHSLVKKILHYKQSHYQLSCLLNRELSLNTVFAREMLVTYLAKENHLFTQILFDKHSHIEVTFKEKLCLLQLKGLLNAPFTMPHEFKDPFITEASIDHFVNVYSGLMNEHQSVQLIAAKV	PGPT0029255_765	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
AK012_01250	480	msrC	COG1956	Free methionine-R-sulfoxide reductase	ATGTTCCAAGCAATGACTTATTCAGGTACGAAAGAACAACAGTATGATCTGCTTAATAAGCAGTTGAAAGCTTTAATCGAGGACGAAAAGGATGCCGTCGCAAACCTTTCCAACGCATCCTCCCTGCTGAACCAGTTCCTCGATGACGTAAACTGGGTCGGGTTCTATGTATGGAAAGAAGACGAACTCGTTCTCGGACCGTTCCAAGGTATGCCTGCATGTGTACGCATCCCTTCTGGACGAGGCGTATGCGGAACTGCTGTAGCTGAAAGAAAAGTACAGCGTGTAGAAGATGTTCATGCATTCCCCGGTCACATTGCCTGCGATGCAGCCAGCCAGTCCGAAATCGTTGTACCGATGGTTAAGAACGGTGACATTTACGGCGTGCTGGACATTGACAGTCCTTCCAAAGGCCGCTTTGATGAAGTGGATGAGCAGAAACTGGTGGAATTCGTGGAAACTCTACAAAACTATATCTAA	MFQAMTYSGTKEQQYDLLNKQLKALIEDEKDAVANLSNASSLLNQFLDDVNWVGFYVWKEDELVLGPFQGMPACVRIPSGRGVCGTAVAERKVQRVEDVHAFPGHIACDAASQSEIVVPMVKNGDIYGVLDIDSPSKGRFDEVDEQKLVEFVETLQNYI				NA	NA	NA	NA	NA
AK012_01251	603	rpsD		30S ribosomal protein S4	ATGGCACGATATACAGGTCCAACATGGAAAAAATCCCGTCGCTATGGTATTTCTTTAAGCGGAACAGGTAAGGAGCTTGAAAAGCGCCCTTACGCACCAGGACAACACGGTCCTAACCAACGTAAAAAACTTTCTGAATTCGGTCTTCAGCTTCAAGAGAAGCAGAAGCTTCGTTTCATGTACGGTTTGACTGAGCGTCAATTCCGCCGCATGTTCGAAGAAGCCGGAAATATGAAAGGTATCCACGGTGAGAACTTCATGATTCTTCTTGAATCCCGTCTGGATAACCTTGTGTACCGTCTCGGCCTTGCACGTACACGCAGCCAGGCGCGTCAGCTTGTTACACACGGTCACGTTACTGTTGATGGCGGCCGCGTTGACATTCCATCTTACCGCGTAGCTCCTGGTCAAGTGATCAGCCTTCGTGAAAAATCTCAAAAGCTTAACGTCGTAGAAGAGGCGATCGAAGTGAACAACTTCGTACCAGAATACCTTACTTTCGACGAAGACAAGCGTGAGGGTACGTACACTCGTTTCCCTGAGCGTTCTGAACTTCCATCTGAAATCAACGAAGCTCTTATCGTTGAATTCTACTCTCGTTAA	MARYTGPTWKKSRRYGISLSGTGKELEKRPYAPGQHGPNQRKKLSEFGLQLQEKQKLRFMYGLTERQFRRMFEEAGNMKGIHGENFMILLESRLDNLVYRLGLARTRSQARQLVTHGHVTVDGGRVDIPSYRVAPGQVISLREKSQKLNVVEEAIEVNNFVPEYLTFDEDKREGTYTRFPERSELPSEINEALIVEFYSR				NA	NA	NA	NA	NA
AK012_01252	465			hypothetical protein	ATGGATGAAAATCAAGGGATTATAAGAGAAGCTGCAGCAGAAGATGCACCGCAGTTGAAAGTTTGTATGCAAAAAGCATACAGGGCTTATGAAGAACGGATGAAAGGAAAAAGACTTCCACCAATGGATGTAGATTATGAAGAAGAGATCGCTTCCTATCCGGTATGGGTAATAGAAAGGGAAAGGGAAATCATAGGTGCTGTTATTCTTACGTTTGATCCCTCCTGCACACATGTCGCCAACATTGCTGTCGATCCTGATTATCAAGGACGGGGGTTAGGTCGGAAGCTTTTGGATTTTGCAGAGCAGCAGGCCCTGGATCGTGGGTGTGTGGAGATGCGCCTGGCCACGCATGTACTCCTGACAGAAAATGCAGCGTTCTATACATCCATGGGATGGGAGGAAGTGGGAAGGGACGACGCCCGTGTTTTCTTCAAGAAATCTTTAAGAATCAAGGGTAAATAA	MDENQGIIREAAAEDAPQLKVCMQKAYRAYEERMKGKRLPPMDVDYEEEIASYPVWVIEREREIIGAVILTFDPSCTHVANIAVDPDYQGRGLGRKLLDFAEQQALDRGCVEMRLATHVLLTENAAFYTSMGWEEVGRDDARVFFKKSLRIKGK				NA	NA	NA	NA	NA
AK012_01253	1266	tyrS		Tyrosine--tRNA ligase	ATGAATTTATTAGAGGATCTGCATCAGCGGGGACTGGTCAATCAAATAACAGACGAAGAAGGCCTTCAGAAGCATTTGGAGAACAATCAGGTGACGCTGTACTGCGGATTTGACCCGACGGCTGACAGCCTGCATATCGGACACCTGCTGCCTGTGTTAATGCTGAAGAGATTCCAGGTCGCGGGTCACCGTCCGATTGCTCTTGTCGGTGGTGGAACCGGGATGATCGGCGATCCGAGCGGACGGTCTTCAGAGCGTCAATTGAACAGCGCGGATGTTGTTAAAGGATACAGTGACCGCATCAAGGACCAGCTTGCCGGAATCCTGAACTTTGATCATGGAGAGAATGCTGCGGTTGCGCGTAATAACCACGACTGGCTTTCTCAAATGACGATCATAGACTTTCTGCGGGATACAGGGAAGCATTTCGGCGTCAATTACATGCTGGCGAAGGATTCAGTGGAATCCCGTATTGAACAGGGAATCAGCTTTACAGAATTCAGCTATATGATTCTGCAGTCCCTTGATTTCCAACAGCTGTACCAGAAGGAAAACTGTACGCTTCAAATCGGTGGCAGCGACCAGTGGGGGAATATTACAGCCGGCCTTGAACTTCTCCGCCGTTCTACTGCTGGTGAGGAAGAAGTAGAAGCTTACGGATTGACGGTTCCTCTTATTACGAAAGCAGATGGATCCAAATTCGGAAAAACAGCAGGTGGAGCCGTTTGGCTTGATCCTGAAAAAACGTCTCCATACGAGTTCTACCAATTCTGGATCAATACAGATGACCGTGATGTGATCCGTTACTTGAAGGTCTTTACATTCCTCAGTATGGATGAAATTGCAGAGCTTGAAAAAGAAGTGCAGGGACGTCCGGAAAAACGTGTGGCTCAGCGCAGGCTTGCGGAAGAAATGACCAAGCTTGTTCATGATGAAAAAGCCCTGCAGCAGGCAGAACGTATTTCAGAAGCTTTGTTCAGCGGTGATATCAAAGCCCTTTCTGGTGAAGAAATTGAACAAGGCTTTAAAGATGTCCCGTCCTTTACTTCTGAATCCAAGGATCCTCAGCTGCTTGATTTACTGGTGGAAGCCGGAATTTCATCGTCCAAGCGTCAGGCAAGAGAGGACATCGGCAACGGTGCGATTTACATCAATGGAGAGCGGAACCAGGATCTGAAGCACACCATTCAACAGGAAGAACGGATTGAAGACCGCTTTACGATCATTCGCAGAGGGAAAAAGAAATATTTCCTTATCCGTTACTAA	MNLLEDLHQRGLVNQITDEEGLQKHLENNQVTLYCGFDPTADSLHIGHLLPVLMLKRFQVAGHRPIALVGGGTGMIGDPSGRSSERQLNSADVVKGYSDRIKDQLAGILNFDHGENAAVARNNHDWLSQMTIIDFLRDTGKHFGVNYMLAKDSVESRIEQGISFTEFSYMILQSLDFQQLYQKENCTLQIGGSDQWGNITAGLELLRRSTAGEEEVEAYGLTVPLITKADGSKFGKTAGGAVWLDPEKTSPYEFYQFWINTDDRDVIRYLKVFTFLSMDEIAELEKEVQGRPEKRVAQRRLAEEMTKLVHDEKALQQAERISEALFSGDIKALSGEEIEQGFKDVPSFTSESKDPQLLDLLVEAGISSSKRQAREDIGNGAIYINGERNQDLKHTIQQEERIEDRFTIIRRGKKKYFLIRY				NA	NA	NA	NA	NA
AK012_01255	3102	mtgA		Biosynthetic peptidoglycan transglycosylase	ATGTCTAATAACCAGAAGAACGGTCGAAATAAGATAGATTTCCGCTCTTTATGGGAGCAGGGACGTATTCAGAAAAACACACGGATCACTTATGATGTCGTTTGGAACGTCATCTTATTTTTTATCATTATCGGTGTGATCGGTCTGTTTTTCGCCGGCGGCGTCGGAGCCGGATACTTCGCCTCTCTCGTAAAGGACGAATCAGTCCGGAGCGAAGCGGATATGAAAGAGGATATATATAATTATTCGCAGACATCGACGATGTTATTTACTGACGAAACAGAGATTGGAGATGTCAGTTCCGACCTTTACCGGGAGGTTGTTGAATTGAATCAAGTCAGCGATTACTTAAAAAATGCGGTAGTCGCGACCGAAGATGAATACTTTGAAGAGCACCAGGGTGTTGTGCCCAAAGCTGTCATGCGTGCCGTCGTCCAGGAAGTGACGAACTCCTCCGTGAAAACCGGTGGAAGTACGCTGACTCAGCAGCTCGTTAAAAACCAGATTTTAACGAACGAAGTATCATTTGAGCGGAAAGCCAAGGAAATGCTGCTCGCCCTCCGCGTAGAACGTTTCTTTGAAAAAGAAGAAATATTGGAGGCCTACTTAAACATCGTTCCGTTCGGAAGGAATGCCAACGGACAGAACGTAGCAGGTGTCCAGACAGCGGCCCAGGGGATTTTCGGCGTGAATGCCGATGAACTTTCCCTTGCCCAATCAGCGTTTATTGCCGGCCTTCCCCAGTCTCCTTTTGGTTATACCCCTTTCAACAATGATGGGACGATTAAGGATGAAGAAGGTCTGGAACCCGGGATCGACCGGATGCACGAAGTACTCGAGCGTATGCTGGAGGCGGATTACATTACACAGGATGAATACGACGAAGCAATGACCTTTTCACTGAACGATGACACACTGGCTGATGCTAAACCAACAGCGATCAGTGAGTACCCTGCCATCAACCAGGAAGTGCAGAGTCGTGCAAGAGGTCTTATTAAAGATTACTTAATGAAAGAAAACGGTCATACACAGGAAGACCTGGACAACGATGAAGAACTGGCCCGGGAGTACGTGGAGCTGGCGGAACGGGAAATGTCCTCCGGCGGTTATAAAATTCATACGACACTCGACAAAGAGGTTTATGATGCGATGCAGGATGTGAAAGAATCCTATACTAATTCTAATTGGCCACGGAAGGTTGTTCCAGTGCGTGATCAAAATGGAGATCCCACCGGTGAAACAAAAGAAATCCCTCTTCAATTAGGCAGTGTAATAATTGAAAATTCTACAGGAAAGATTTACGGTTTTATCGGCGGAGAAGATTTTGAAAATGAAAATCTTAACCATGCTACCCAGGCCTATCGATCCAACGGAAGTACGATGAAACCCCTGCTCGTCTACGGTCCGAGCTTTGACGCCGGCGCGGCCCAACCGGGGTCCGTCATTGCTGATGTCCCATATTACTATGATAGCGGGAAAGAAGTACGGAATTTCTCCAGAAGTCACAAAGGCTTTGTCAGTGCCCGATACGCGCTGGCCCAGTCCTATAACGTACCGGCGGTTAAACAGTATAATGAGATCAAGAGCAATAACCCAGTAAAGAATTATTTGGAGAAGATGGGAATGAAAGATCGATTACACAAGGATGATTACAATAATGAGTCCATGGCCCTCGGCGCATTAACCTACGGCATTTCCGTTGAACAGAACGTAAATGCATTTGCTACTTTCTCCAACATGGGTAAATTCGTTGATGCCTATATGATTGAAAAAATTGAAACCAAAGACGGGGAGACCGTCTATCAGCACGAAACAGAAGAAAAAGAGGTATTTAGTCCGCAGGCCTCCTACCTTACTCTCGATGTCATGAAAGACGTACTCGATTACGGGACAGGCTCCCGTGTACGCGGCCTGCTCGCTAACCGCGGTGTCGAGTGGGCTGGTAAAACCGGTACTTCCCAAATGACGAAAGACTCCTGGTTTGTCGCTACGAACCCGAATGTATCAGTTGGAATGTGGACAGGATTTGATGAAGGCAACATGCAGAACATGAATTACAACCAGCGGACGCAGGGGTTATGGGCCGATGTGGTCAATGCGGTTACGGAATTACGTCCGGAGCTGATGGCACCAAGTAATGATTTCGAGAACCCCGGCGGCCTTGTAACAAGTTCCTACTGCGCGACATCAGGAATGCTGCCTTCTGACCTATGCTCGTCCGCAGGCCTTGTAGACAGTGACATTTTTGATGCCGACTATGCTCCATCAGAAGTCGATGACAGCTTGATCGGCGGCGACTTTGTGAGTGTGAAAGATCAACTGGTCATCGCTGGCCCGGATACACCGCGTGAATTCGTCAAAGACGGAGGCGGCGTCACCTTGAGTCCTGAATGGCTGGAGGATGAAGGATTGACGTCCTCAGAAGAATTAAGTGAATTAATTCCTAATTCATCTCGATGGAGCAATGTAGCTCTTCCTTCGTCTTCTTCCATCGGATCAACTGTATCGTCTATTGATAATGACGGCAAAGCGCCTTCCGCTCCAGGATCTGTTTCTGCCAGCGGGTCAACCATCAGCTGGAATGCATCCGGAAGCAGCGATGTCGTCGGGTACCGGGTCTACCGCGCTTCTGAGCCGGGTGGCAGCTATTCCCTGCTCGGCAGCACAGTGAATACTTCGTACAGCTTTTCAGGCGAAGGCGTCTATGCTGTTCGAGCGGTGGATTACTTTGGTCAATCATCCGGACTTTCTTCTTCTGTGACGGTCGGCAACCCCGGGGCTCCTGAACCGGAACCAGAGCCGGAGCCAGAGCCGGAGCCGGATTCTGAACCGGAAGAAAACACGGACAATTCCACTAACCAAAACAGTAACGAAGGTAATAATGAAAACAATGAGGAGAACAATACAGGCTCCAATGAAAGCGAGTCGAACGGCCGTACAGATGAAAATGATGATACGGCCAATGAAGATAGTCAAAGTGATGAATCCAGTGAATCGGAAGAAGATTCCAATGATGATTCAAGTGAAACACCGCCGGAAGAAGATTCAGAAAACGAGAACGATGAGGAGTCTTCCGGAGAAGAATCACAAAACGAACAATGA	MSNNQKNGRNKIDFRSLWEQGRIQKNTRITYDVVWNVILFFIIIGVIGLFFAGGVGAGYFASLVKDESVRSEADMKEDIYNYSQTSTMLFTDETEIGDVSSDLYREVVELNQVSDYLKNAVVATEDEYFEEHQGVVPKAVMRAVVQEVTNSSVKTGGSTLTQQLVKNQILTNEVSFERKAKEMLLALRVERFFEKEEILEAYLNIVPFGRNANGQNVAGVQTAAQGIFGVNADELSLAQSAFIAGLPQSPFGYTPFNNDGTIKDEEGLEPGIDRMHEVLERMLEADYITQDEYDEAMTFSLNDDTLADAKPTAISEYPAINQEVQSRARGLIKDYLMKENGHTQEDLDNDEELAREYVELAEREMSSGGYKIHTTLDKEVYDAMQDVKESYTNSNWPRKVVPVRDQNGDPTGETKEIPLQLGSVIIENSTGKIYGFIGGEDFENENLNHATQAYRSNGSTMKPLLVYGPSFDAGAAQPGSVIADVPYYYDSGKEVRNFSRSHKGFVSARYALAQSYNVPAVKQYNEIKSNNPVKNYLEKMGMKDRLHKDDYNNESMALGALTYGISVEQNVNAFATFSNMGKFVDAYMIEKIETKDGETVYQHETEEKEVFSPQASYLTLDVMKDVLDYGTGSRVRGLLANRGVEWAGKTGTSQMTKDSWFVATNPNVSVGMWTGFDEGNMQNMNYNQRTQGLWADVVNAVTELRPELMAPSNDFENPGGLVTSSYCATSGMLPSDLCSSAGLVDSDIFDADYAPSEVDDSLIGGDFVSVKDQLVIAGPDTPREFVKDGGGVTLSPEWLEDEGLTSSEELSELIPNSSRWSNVALPSSSSIGSTVSSIDNDGKAPSAPGSVSASGSTISWNASGSSDVVGYRVYRASEPGGSYSLLGSTVNTSYSFSGEGVYAVRAVDYFGQSSGLSSSVTVGNPGAPEPEPEPEPEPEPDSEPEENTDNSTNQNSNEGNNENNEENNTGSNESESNGRTDENDDTANEDSQSDESSESEEDSNDDSSETPPEEDSENENDEESSGEESQNEQ	PGPT0023890_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023890-pbp1b-K03693	NA	NA
AK012_01256	648	acuA		Acetoin utilization protein AcuA	ATGAATCATGAAAAAACCTACTACAACGAATCCTTCGATACCGAGCATGGGCCGGTTATTGTTGAAGGACCCTTATCATCAGAAGAATTATCACATTATACGTTTAACGAAGGTCTTGTAGCCTTTCGTCCGCCGGAAAAACAGTTTGAGGCTGTAAAAAGCATCGCGGATTTTGATGAAGGGCGGATCATTATTGCAAGAAACAGGGAAGAAATTATCGGCTATGTGACCTACCTGCACCCGGACCCGCTGGAACGGTGGTCGGAAGGAAACATGGAAGATTTGATTGAACTGGGTGCTATTGAAGTCAGCCCGGAGTTCCGTGGGTATCGGATTGGTTCACGCCTTTTGAACCTTTCCATGATGGATGAATACATGGAGAATTACATCATCATCTCTACAGAATATTACTGGCACTGGGATTTGAAAGGGACAGGATTGAATATCTGGGATTATCGGAAGGTTATGGAAAAGATGATGGCTGCCGGCGGGTTAACCCCTTCTCCCACCGATGACCCTGAAATCATCTCCCATCCGGCCAACTGTCTCATGGTCAGAATAGGCAGCCGGGTTCCTGAGTCATCGGTCGAAACATTTGATCAACTGCGATTTTTAACAAGGCACCGAAATCGCCAGCTGAGGAGGTAG	MNHEKTYYNESFDTEHGPVIVEGPLSSEELSHYTFNEGLVAFRPPEKQFEAVKSIADFDEGRIIIARNREEIIGYVTYLHPDPLERWSEGNMEDLIELGAIEVSPEFRGYRIGSRLLNLSMMDEYMENYIIISTEYYWHWDLKGTGLNIWDYRKVMEKMMAAGGLTPSPTDDPEIISHPANCLMVRIGSRVPESSVETFDQLRFLTRHRNRQLRR	PGPT0008215_31	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008215-acuA-K04766	NA	NA
AK012_01257	654	IMPDH_2		Inosine-5'-monophosphate dehydrogenase	TTGTTAGTAGAAGAGATCATGAAGGAACATGTCATTACACTCACTCCGGATGATACGATAGAAACCGCATTGAAGCTTCTCCACCAACACCATATCCGGCATATCCCGATTATAGACGAAGAACGGGCCGTCATAGGTATTGTCTCTGACCGGGACGTCAGAGACGCCAGTCCATCGGTTTTGGAAGAAGACACCGGACAGGAGGAACTTCAACATCCGATCCATTCCATCATGACCTATCCGGTAACGACCGTACACCCTCTTGATTTTGTCGAAGAAACAGCGTCCATTTTTTATGAACAGGAGATTGCCTGTGTACCCGTCACCCGGGATGATAAACTGGTTGGAATCGTAACTGAAAAAGACATGCTCTATACGTTGATTCAGTTAACAGGCACCCACGTTCAAAGTTCTCAGATAGAAGTGAAAGTCATCAACAAACCAGGTATTCTTCCACAAGTTACCCAGGTTTTCGGAAAACGAAAAGTAAATATCAGTTCCATTCTCATCTATCCGTATAAGCCGGATGCCAAGTACAAAATTGTCGTCGTTCGTATTCAGACGATGAATCCTCTTCCAACCGTTGAAGATTTGGAAGAAGCAGGCTATGAAGTGCTGTGGCCCAAGAAACCGGAGAGTTCCTATGACTTGTAA	MLVEEIMKEHVITLTPDDTIETALKLLHQHHIRHIPIIDEERAVIGIVSDRDVRDASPSVLEEDTGQEELQHPIHSIMTYPVTTVHPLDFVEETASIFYEQEIACVPVTRDDKLVGIVTEKDMLYTLIQLTGTHVQSSQIEVKVINKPGILPQVTQVFGKRKVNISSILIYPYKPDAKYKIVVVRIQTMNPLPTVEDLEEAGYEVLWPKKPESSYDL	PGPT0008220_366	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-ANTIMICROBIAL_COMPUND_RESSITANCE-ACETOIN|2|3-BUTANEDIOL_SYNTHESIS,PGPT0008220-acuB-K04767	NA	NA
AK012_01258	1173	acuC		Acetoin utilization protein AcuC	ATGACTTGTAAAGCCGGATTCGTATACTCCAATGATTTTACTTCCTACCGGTTCAGGGATGACCATCCATTTAATCAAATGAGAGTTGTACTGGCGAAGGAACTGCTGGATGCTGTTGGAATGCTTGAGGACCATCACTTCATCACCCCTAGAATGGCGACTGAGGAAGAACTGCGCCTCGCCCACAGCCCTGCTTATATTCAAGCTGTGAAAAAGGCATCTGCAGGTCATCTATCAGAGGAAGAAGGGCTGGAATATGGGATAGGAACAGAAGATACACCGATGTTTAAAGGCATGCACGAAGCCTCTCAGCTGCTTGTAGGAAGTACGTTGTCCGCCATTGATGCTGTTCTTGATGGAAACGTCACACACGCCCTTAATCTCGGAGGCGGACTGCACCACGGATTTGAACGCAAAGCCTCCGGCTTCTGCATTTATAATGACGGAGCTGTAGGCATTAAGTACATCCGTCAGAAATACGATTATAAGGTACTCTACGTCGATACAGATGCGCACCACGGGGACGGTGTACAGTGGGCCTTTTATGATGATCCCAACGTCTGTACATTATCCATCCATGAAACCGGACGCTACCTTTTCCCGGGGACAGGGCATGTCAATGAACGCGGATTGAAAGAAGGCTATGGGTATTCCTTCAATTTACCGATCGATGCCTTCACCGAGGATGAATCATTTTTACACGTTTATGAATCCGCTTTCAGGGAGATCACTGACTATTTCAAGCCGGATATCATTATTACGCAAAACGGGGCGGATGCGCATTTCCTTGATCCGCTCACCCATTTAAGCTCGACAATGGCCATTTATGAACGCATCCCTGCCATTGCCCATGACCTGGCTCATCAATATTGCGATGGACGGTGGGTCGCTCTCGGAGGAGGTGGCTACGATATATGGCGCGTTGTACCAAGAGCCTGGGCTCAAATTTGGAAAGTCATGTTGGATAACGAGCCGTTTTCAGGTCCACTGCCTGCGGAATGGCTGAAGAAATGGGAAAAGGATTCCCCTGTTTCCCTTCCCAGCACGTGGAACGACCCACCGAATGCATTTAAACCGATACCAAGAAGAGCAGAAATTACCGAAAAGAATAACAAACTTCTGGAAAAAGCGCTGCAGCTGATTCATAACCAAAAGAAATTCAATTCCTCGTAA	MTCKAGFVYSNDFTSYRFRDDHPFNQMRVVLAKELLDAVGMLEDHHFITPRMATEEELRLAHSPAYIQAVKKASAGHLSEEEGLEYGIGTEDTPMFKGMHEASQLLVGSTLSAIDAVLDGNVTHALNLGGGLHHGFERKASGFCIYNDGAVGIKYIRQKYDYKVLYVDTDAHHGDGVQWAFYDDPNVCTLSIHETGRYLFPGTGHVNERGLKEGYGYSFNLPIDAFTEDESFLHVYESAFREITDYFKPDIIITQNGADAHFLDPLTHLSSTMAIYERIPAIAHDLAHQYCDGRWVALGGGGYDIWRVVPRAWAQIWKVMLDNEPFSGPLPAEWLKKWEKDSPVSLPSTWNDPPNAFKPIPRRAEITEKNNKLLEKALQLIHNQKKFNSS	PGPT0008225_423	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,PGPT0008225-acuC-K04768	NA	NA
AK012_01259	777	motB	COG1360	Motility protein B	ATGAGGCGTAGACCTAAAAAGCAGAAGCAGGACGGCGCTCCTAAGTGGATGACTACATACGCAGATATGATTACTCTTGTGCTTGTGTTCTTCATTCTCTTGTTTTCCATGTCCCAGATCAATCTTGATAAGTTTGAGGCTGTAGCTGAAAGCTTTCGAAACCGGATGATTCTGGATTTCTATCCTTCGGCCGTGGAAAGTGAGAATCCTACCGAACAAGTAAAGATTGAGGAAAACGGTGAAAAGAATAATGAGTATGACCGTCCTGCCGAAGAAGTGACGGCCACGGAAGCGGAGCAGGAAGAGGACCTGGATCAGCTGAAGCAGGAGATTGATGAATATCTTAAGGAAAACGAGCTGAGCGATATTATTGCGGCGACAAGCTCTGACCGCGGTGTTGTGCTTGTGCTGGAAGAACAGCTGCTGTTTGAAACGAGTGAGGCGGAAATTCTTGAACAGGCCAAACCTTTTTTATCGAAGGTAGGCACCCTGCTTGAGAACATCCCGAACTTTATCAAAGTCGAAGGGCATACCGATAACCGTCAGATATCCAGCTACCGTTATCCATCCAACTGGGAATTGTCCGGAGCGCGGGCGGGCAGTGTCATCCGTTATATTTTAAATAACTCAGACGATCTAGATCCAAAACGTTTTACAGCTGTTGCTTACGGAGAGACGAGACCGGTCGTTCCTAATGATTCAGAGGAGAACTGGAGCAGAAACCGCAGAGTTGAAATTGTTATTTTAGATCCAGCTTACGAAAATCCGGCATCGTAA	MRRRPKKQKQDGAPKWMTTYADMITLVLVFFILLFSMSQINLDKFEAVAESFRNRMILDFYPSAVESENPTEQVKIEENGEKNNEYDRPAEEVTATEAEQEEDLDQLKQEIDEYLKENELSDIIAATSSDRGVVLVLEEQLLFETSEAEILEQAKPFLSKVGTLLENIPNFIKVEGHTDNRQISSYRYPSNWELSGARAGSVIRYILNNSDDLDPKRFTAVAYGETRPVVPNDSEENWSRNRRVEIVILDPAYENPAS	PGPT0015375_3749	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015375-motB-K02557	NA	NA
AK012_01260	825	pomA	COG1291	Chemotaxis protein PomA	ATGACAAAAAAAGATTTAATGACTCCCATAGGAATTACTCTTGGATTTGCTATGGTTATGGTTGGGATTATGTCCAACGCAGGCATTGGAGGAGCGGCCTCTTTTATACAAGTATCCTCAATTGTGATTGTGCTGGGGGGACTGGCCGCCGCCATTCTCGTGAACTTCAACCTTGCTGAAGTAAAGCTGACCTTCCGCGTGACGAAGGAAGCCTTCAAGGAAAGCCGGATGAACCTCAGAGAGCTGATCAGCCTCTTTGTGAGGCTTTCCGAGCGGGCCCGGAGGGAAGGACTGCTTGCTTTGGAAGCAGAGCTTGAGGAAGTGGAGGACCCCTTTATAAAGAAGGGGATCCTTCTGGCTGTGGATGGAGTGGAGCCTGAGGTCATTAATGAAATTATGAATGCGGAAATTTCTGCTGTGGAAGAGCGGCACCAAAAAGGGAGAGCGCTTATAGAAAAGGCGGGAGAGTATGCACCCGCCTGGGGTATGATTGGAACGCTGATCGGACTTGTCCTGATGCTTTCCAGTTTATCCACTCCGGAAGAGCTCGGACCTAAAATGGCGGTCGCTCTTCTCACGACTTTTTATGGAACACTACTGGCTAATCTCGTCTTCATCCCCATGGCCGGGAAGCTGGAGAATAAAACGGATCAGGAAGTGTTCATGAAGCAGATTATCATTGAAGGGGTCATCGGTGTGCAGTCGGGCCAGAACCCGAAGCTTCTGGAAGAGAAGCTGGGTGCATTCCTCTCTGAGAATGATAAGAAAATTCTCGAGGATGAGGAACAAAGCCATTCCCTTGGAGAAGCCGCCAATGAGGCGTAG	MTKKDLMTPIGITLGFAMVMVGIMSNAGIGGAASFIQVSSIVIVLGGLAAAILVNFNLAEVKLTFRVTKEAFKESRMNLRELISLFVRLSERARREGLLALEAELEEVEDPFIKKGILLAVDGVEPEVINEIMNAEISAVEERHQKGRALIEKAGEYAPAWGMIGTLIGLVLMLSSLSTPEELGPKMAVALLTTFYGTLLANLVFIPMAGKLENKTDQEVFMKQIIIEGVIGVQSGQNPKLLEEKLGAFLSENDKKILEDEEQSHSLGEAANEA	PGPT0015370_1592	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_MOTOR|SWITCH,PGPT0015370-motA-K02556	NA	NA
AK012_01261	1002	ccpA	COG1609	Catabolite control protein A	ATGAATGTAACAATATATGATGTAGCACGCGAAGCAAACGTTTCAATGGCAACCGTTTCGCGGGTCGTCAATGGAAACCCGAATGTGAAACCCGCCACAAGGAAGAAAGTACATGATGCAATCGAGCGTCTTGGATACCGTCCGAACGCAGTAGCGAGAGGTCTGGCAAGTAAGAAGACAACCACCGTGGGTGTCATCATTCCGGATATCTCCAGCATATTCTTTGCAGAACTGGCCCGGGGTATTGAAGATATCGCAACGATGTACAATTATAATATCATTTTAAGTAACTCGGATCAGAACAAAGACAAAGAACTTCACCTGATCAATGCCATGCTCGGAAAACAAGTGGACGGTCTTATTTTTATGGGCGGCGATATTACCGATGACCATATCCGTGAGTTCAAGACGTCTTCTGTACCGATTGCCCTGGCAGCAACCGTCGATGAATCAGAGGAAACCCCGTCTGTAAACATCGACTATGAAGAAGCGGCTTATGATGCAACGAAGAGGCTTCTTGAAACGAATCAGGAAGGGATCGCCTTCATTTCCGGACCGGAGAATACATTAATCAACACAAGGAAAGTGGCCGGCTATAAGCGAGCCATGAGTGAAAAAGGTATTGAGGACGCTGATAAGTATATCGTAACCGGGGATTATTCCTACGATTCCGGTCACGAAGCGCTGGAGCAGATCCTTGAGATGGAGGAACAGCCGTCTGCCGTTTTCGTTTCTTCTGATGAAATGGCCCTGGGGGTCATTCACGGAGCCCAGGACCGCGGCATCCGTGTACCGGAGGATATGGAAGTGTTCGGCTTTGACAATACACGCCTGGCTACAATGGTGCGTCCAACGCTTTCCACAGTGGTACAGCCGATGTATGATATCGGAGCCGTAGCTATGCGTCTGCTTACGAAATTCATGAACAAAGAAGAAGTTGATGAACAAAACGTTGTTCTCCCGCACCGAATTATTGAAAGAAACTCAACTCAGCAGAAATAG	MNVTIYDVAREANVSMATVSRVVNGNPNVKPATRKKVHDAIERLGYRPNAVARGLASKKTTTVGVIIPDISSIFFAELARGIEDIATMYNYNIILSNSDQNKDKELHLINAMLGKQVDGLIFMGGDITDDHIREFKTSSVPIALAATVDESEETPSVNIDYEEAAYDATKRLLETNQEGIAFISGPENTLINTRKVAGYKRAMSEKGIEDADKYIVTGDYSYDSGHEALEQILEMEEQPSAVFVSSDEMALGVIHGAQDRGIRVPEDMEVFGFDNTRLATMVRPTLSTVVQPMYDIGAVAMRLLTKFMNKEEVDEQNVVLPHRIIERNSTQQK	PGPT0014791_309	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
AK012_01262	1059	aroA	COG1605	Protein AroA(G)	ATGAGTAATCAAAAGCTTGACCAGTTGCGCAGCGAGTTGGATAAGGTTAATTTAGACCTTTTGAGTTTAATCAATAAACGCGGTGATCTGGTAAAGGAAATTGGCCAGATCAAAGAACAACAGGGGATGAACCGCTTCGATCCAGTAAGGGAGAGAGCGATGCTGGACCAGTTGTCCCAGCACAATGATGGACCTTTCGAGGATTCAACAATCGTACATTTGTTCAAGGAAATCTTCAAAGCGGCGCTTGAGCTGCAGGAAGATGACCATCGTAAAGCACTGCTTGTATCCAGGAAGAAAAAACCTGAAGATACAGTCGTTGAAATAAAAGGTGAAAAAGTCGGGAACGGTACGCCATCCTTTGTCATGGGCCCATGTGCGGTGGAAAGCTACGAGCAGGTTTCTGAAGTGGCTAAAGCTGTGAAAGCAGAAGGTCTGACACTGCTGCGCGGTGGAGCGTTCAAACCAAGAACTTCTCCATATGACTTCCAGGGACTTGGACTGGAAGGGTTGAAGATTTTGAAGCAGGCGGCGGATGAGCAGGGACTTGCTGTCGTCAGTGAAATCGTCAATCCGGGGGATCTGGAAGAAGCCCTGGAGTACCTGGATGTCATCCAAATCGGCGCCCGTAACATGCAGAACTTCGAATTATTGAAGGCGGCAGGTTCCGTAAACAAGCCGGTATTACTTAAACGCGGGTTGTCAGCGACGATTTCTGAATTCATCAACGCAGCCGAATACATCATTTCACGTGGAAATGAGAACATCATTCTATGCGAGCGTGGAATCCGAACGTACGAAAAAGCAACAAGAAATACATTGGATATTTCCTCGGTCCCTATTCTTAAGCAGGAAACCCACCTGCCGGTCATGGTGGATGTGACCCACTCAACCGGCCGACGTGATCTTCTGCTTCCAACAGCGAAAGCCGCCCTTGCTGTAGGAGCAGACGGTGTAATGGCGGAAGTTCACCCGGATCCGGCTGTCGCGCTTTCGGATTCAGCTCAACAGATGGATATTCCAACCTTCCATTCCTTCATGGAAGAATTGAAAAAGTAA	MSNQKLDQLRSELDKVNLDLLSLINKRGDLVKEIGQIKEQQGMNRFDPVRERAMLDQLSQHNDGPFEDSTIVHLFKEIFKAALELQEDDHRKALLVSRKKKPEDTVVEIKGEKVGNGTPSFVMGPCAVESYEQVSEVAKAVKAEGLTLLRGGAFKPRTSPYDFQGLGLEGLKILKQAADEQGLAVVSEIVNPGDLEEALEYLDVIQIGARNMQNFELLKAAGSVNKPVLLKRGLSATISEFINAAEYIISRGNENIILCERGIRTYEKATRNTLDISSVPILKQETHLPVMVDVTHSTGRRDLLLPTAKAALAVGADGVMAEVHPDPAVALSDSAQQMDIPTFHSFMEELKK	PGPT0012915_328	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-PHENAZINE_DERIVATES	BIOTIC_STRESS_RESISTANCE-PHENAZINE-1-CARBOXYLIC_ACID_BIOSYNTHESIS,PGPT0012915-aroG-K13853	NA	NA
AK012_01263	324			hypothetical protein	ATGACAATTGAAGTAATCCAGGATAAGCAGGCGTTTGAACAGGTGGTGAATGAGAATGAGGCATTCATCCTGCTCAAGCATAGTTTAACGTGTCCGGTCAGTACATTTGCCCATCACCAATACAAGCAGTTTACTGACGGAGCGAACGTCCCCTGTTATATTCTTCATGTCCAGGAAGCAAGAGATTTATCGAGCCATATTGCCAGTGAATACGGCGTACAGCACGAATCCCCGCAGGCTCTTTATTTCAAAAATGGACAGGTGGTTTGGCATGACAGTCATGGCGCCATCACGGCGGATCAACTGAAAGAAGTCACAGCTTAA	MTIEVIQDKQAFEQVVNENEAFILLKHSLTCPVSTFAHHQYKQFTDGANVPCYILHVQEARDLSSHIASEYGVQHESPQALYFKNGQVVWHDSHGAITADQLKEVTA	PGPT0015028_201	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015028-ytxJ-NA	NA	NA
AK012_01264	423			hypothetical protein	ATGGGACAACAAAACAAAGAACAAAATAACGGTAGAGATTTTGTACTGGGTTCGCTGATCGGCGGTTTAGTCGGTGCAGCTGTTGCCTTGCTCTTTGCTCCGAAATCCGGACGTGAACTGCGCGAGAACATTAACCAAAGTTCCGGTGAGTGGAAAGAGCGTGCCGGCGAGTGGAAGGATGTCGCTTATGAAAAAGGCGGAGAATGGAAAGACCGCGCTGTTGAATCCTCTTCCCACCTGACAAAGTCCGTTTCTGAGAAGTCTCAGGAGTGGAGCGGCCTGATGAAGGACAAAGTGAAAAACATCCGTACAAGCGAAGAAGATGAAGCGGAAAGAGCCGCTCAGGAAGTAGCTGAAGCGATCGAGGAAGCTGCGCAGGAGCTGGAAAGACAGCAGGACTCTACGACATCATCCAATATTTAA	MGQQNKEQNNGRDFVLGSLIGGLVGAAVALLFAPKSGRELRENINQSSGEWKERAGEWKDVAYEKGGEWKDRAVESSSHLTKSVSEKSQEWSGLMKDKVKNIRTSEEDEAERAAQEVAEAIEEAAQELERQQDSTTSSNI	PGPT0015027_90	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015027-ytxH-NA	NA	NA
AK012_01265	420			hypothetical protein	ATGATCAATATCCTTTACATTGCTGCTTTAATTGCAGCAGTGGCTTTTGCTGTTCTTGTTATTTTCCTGGCAAGAACGTTAACGGCAGTACGCCGTACAATGAACAACGTAGCTGATACCCTTGAGGGTGTAGAGAAACAGATGGAAGGCATCACCCTTGAGACCACTGAGCTGTTGAATAAGACGAACAAGCTGGCTGAGGATGTAGGCGAGAAATCGCAGAAACTCAATACATTAGTTGATGGTGTGAAGGGTATAGGGGATACTGTACAGGAGTTTAATCAATCCATACGTTCTGTATCCAAAGGGTTTACCCAGTCAGCCAATGAACACACAGACTCAGCTGCCCAGGCGGTCAAGTGGGGGCAGGTGGCGATCAGCCTTTGGAAGAAAGCGAAGAAAGAAGATAAGAATTTATAA	MINILYIAALIAAVAFAVLVIFLARTLTAVRRTMNNVADTLEGVEKQMEGITLETTELLNKTNKLAEDVGEKSQKLNTLVDGVKGIGDTVQEFNQSIRSVSKGFTQSANEHTDSAAQAVKWGQVAISLWKKAKKEDKNL				NA	NA	NA	NA	NA
AK012_01266	1296	murC		UDP-N-acetylmuramate--L-alanine ligase	ATGACAACTTACCATTTCATTGGTATCAAAGGAACAGGAATGAGTTCGCTTGCCCAGATTCTCCATGACTCGGGTGAGAAAGTTCAAGGATCAGATGTAGATAAACGTTTTTTTACACAAGACGTATTAGAAGCTAAAAATATAGAGATCATGTCTTTTTCAGAAGAAAACATTACAGACGGCTTGACGATCATTGCCGGAAATGCCTTTGGGGACGACCATGAGGAAATTGTGGCTGCCAGGGAAAAGGGTCTGCCGTTTTACCGCTATCATGAGTTTCTTGGAGAATGGCTGCAGAAATTTACCAGCATAGCTGTTACAGGTGCTCACGGAAAAACATCGACCACCGGTCTTCTTGCACATGTGCTGACAGAAAATTACCCGACATCGTTCCTGATTGGGGATGGAACGGGGAAAGGCCATCAGGATAGTCAATATTTTGCTTTCGAAGCTTGTGAGTACCGTCGTCATTTTCTTGCCTATGAGCCGGATTATGCGATCATGACGAACATTGATTTTGACCACCCGGACTACTTCTCAAGTGTTGAGGACGTTTTTCAAGCGTTTCAACAGATGGCAAAGCAGGTGAAGAAGGGAATCATCGCCTGTGGAGATGATGAGCATCTCCAACATATCCAGGCCAACGTTCCTGTACTTTATTATGGACTGGCTGATTCGAATGATTTCCAGGCCCAGAACATCAGGGAGGGGTCTGACGGTACGACGTTTGACGTGTTTGTACGCAACAATTTCTATGATACGTTTACGATTCCTCAGTATGGGAACCACACGGTCTTGAATGCCCTCAGCGTCATCGCCCTCTGCCATTATGAGCAGATGCAGCCGGAGCAGATCAAAAAGCTTGCTACATTTAAAGGTGTGAAGCGCCGCTTTACTGAAAAGGTCTGGCATAACCAGATCCTCGTTGATGACTATGCCCATCATCCAATCGAAATTACAGCGACCATCGATTCAGCCCGTAAGAAATATGCCGGCCGGCCGGTCATCGCTATTTTCCAGCCGCATACATTTACACGGACGAAAACGTTCCTGAATGAATTTGCGGAAAGCTTGAAGGAAGCGGATCATGTATACTTGTGCGATATCTTTGGGTCGGCCCGTGAAAATGGCGGAAAGCTGACTATTGATCATCTGCAGGAGCTGATTCCTGAATCCAAGGTCCTTCAACTGGATGAGACCCGACAGCTGGCCGAATATGACGATGCCGTTCTTCTTTTCATGGGAGCCGGGGATATTCAAAAGTTCCAGGACGCTTACGAAAAGCAGTACAATTGA	MTTYHFIGIKGTGMSSLAQILHDSGEKVQGSDVDKRFFTQDVLEAKNIEIMSFSEENITDGLTIIAGNAFGDDHEEIVAAREKGLPFYRYHEFLGEWLQKFTSIAVTGAHGKTSTTGLLAHVLTENYPTSFLIGDGTGKGHQDSQYFAFEACEYRRHFLAYEPDYAIMTNIDFDHPDYFSSVEDVFQAFQQMAKQVKKGIIACGDDEHLQHIQANVPVLYYGLADSNDFQAQNIREGSDGTTFDVFVRNNFYDTFTIPQYGNHTVLNALSVIALCHYEQMQPEQIKKLATFKGVKRRFTEKVWHNQILVDDYAHHPIEITATIDSARKKYAGRPVIAIFQPHTFTRTKTFLNEFAESLKEADHVYLCDIFGSARENGGKLTIDHLQELIPESKVLQLDETRQLAEYDDAVLLFMGAGDIQKFQDAYEKQYN	PGPT0024120_4883	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024120-murC-K01924	NA	NA
AK012_01267	1116			hypothetical protein	ATGAAGGAAATTGCACTTAAATTAAATGGTGAGATCAGCCGACTGACAAACAAAACATTCAAATTCGATGAACGCGTTGCAGAAGGCTGGTTCTCTGCCGTCTATTTTTTGAAGACCCGGGATATCGTTAAAAGTCATCTTCCTGATAACAAGGTGACGATGCAGTTTTTCCAGAAGGATCATGCCGTTTTATGCGGGACGGATGAAGTGATTGCCCTTATCCATACCTTTGCGGACCACCCGGAGGAACTGGAGATTCATTCACTGAAAGATGGCGATAAGATCAGTCCATACGAAACTGTGCTCACAGTCACGGGCCCTTATCAATATTTCGGATTTCTGGAAGGTATCATTGACGGCATTCTGGCCCGGCGTACATCTGTGGCCACGAATGTCTACAATGTCGTAAAAGCGGCCAGATCCTCTGGAAAACAAAAGCCGATTATTTTTATGGGAGACAGGGATGACCACTTTACGCAGCAGTCTGGAGATGGTTATTCTGCATTCATCGGAGGATCGACCGCCCAGGCCACCCATGCCATGAATGAATGGTGGGGGAAAGAAGGAATGGGCACGATGCCTCATGCTCTGATCCAAATGTTTAAAGGTGATGTAGTCGCGGCTACAAAAGCCTATCATGAACAATTCCCGGACGATCAGCTCATGGCTCTCGTTGATTATAATAATGACGTCATTACAGATTCCCTTAGCGTTGCCCGAGAATTCGGAGACGAGTTGAAAGGCGTCCGCCTGGATACGTCAAGGAATCTCGTGGACAAATATTTCCTGAGAAATCAGCACCTGATGGGGACATTTGATCCAAGAGGTGTCAATCCAGAGTTGATCTTTGCCCTGCGCAGAGCGCTGGATCAGGAGGGATTCCGTCATGTGAAGATTGTTGTAAGCGGAGGCTTCACAAAGGAACGGATCCGCGCTTTCGAAGAGAAAAAAGTTCCTGTTGATATGTATGGAGTAGGTGGAAGCCTCCTGAAGATAAGCATCGGTTTTACGGGGGATAACGTCCTGATTGATGGTGAAGCCGAAGCTAAAGAAGGCCGCCGTTTCAAACCGAATCCAAGACTGGAATATGTGGAATATACAGGGTCCGCCGAATAA	MKEIALKLNGEISRLTNKTFKFDERVAEGWFSAVYFLKTRDIVKSHLPDNKVTMQFFQKDHAVLCGTDEVIALIHTFADHPEELEIHSLKDGDKISPYETVLTVTGPYQYFGFLEGIIDGILARRTSVATNVYNVVKAARSSGKQKPIIFMGDRDDHFTQQSGDGYSAFIGGSTAQATHAMNEWWGKEGMGTMPHALIQMFKGDVVAATKAYHEQFPDDQLMALVDYNNDVITDSLSVAREFGDELKGVRLDTSRNLVDKYFLRNQHLMGTFDPRGVNPELIFALRRALDQEGFRHVKIVVSGGFTKERIRAFEEKKVPVDMYGVGGSLLKISIGFTGDNVLIDGEAEAKEGRRFKPNPRLEYVEYTGSAE	PGPT0013375_4676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013375-pncB-K00763	NA	NA
AK012_01268	2994			hypothetical protein	ATGTGGAAAGACATAAAAGATAAAATGAAACGCTTGTTTGAACAGGAAGAAAACGACGTAGAAGAAGCGGCTGTACATAAAGAAGAAAGAAAAGAAGTCAACGCTAAAACAAAAATGACCTATCGATATCCCAAGCAGGGGGAATTTCGATTTCCTGTTATTCCAGATCAGCCCGGCGAGCGTGAAGAACGTCGGGAAAATGAACCTCGTGTGAGAGGTGAGCGCAGGAATCATGTCCAGGAAGAACAGTCTGAAGTGGAAAAACGACCGCAGAGAAGGAAAAGGAAACAACCGGAACAGGAAGAATCGAAAGAGACGCTTGAAACGACGTCCAATCCTTTCACCCCCACAGATGTTCCTTCACCTATTTTCGGATACCAAACCAGGCAGATGACGAAAGGCCTGCAGAAGCTGGAGTATACTGTAGAGGAAAACTCCAAACCGGAATTTTATACAGGATCCTATGAGGAGAAGAAATGGCAGGATTTAAGAGAAAAGCTGAGGGAACGTGTCCAGGTTGGAAAGAAAGAGCCCGACGACAAGCCGGCACAGGAGGAGGAACCGGAAGGACAGCAGGAAGGCGCGGCTTCTCTTGAAATGGAAGCCCGTGTCCGGAAGGAGCTTTTAAGCGGAAGCGAAGAAGCTTCGGTGATCAAGGACTCCTCTCATGATGAAATTGGTGAAGAGCCCGTACAGTCGGAAGAAGCTGACGGCGTTCCTGAACAACATCCAGGAATGAACCACGATGAACAAAATGAAACGCTGGATCCAGACCTTGAGGCAGACGCTGGTTCGACGGAGGACGAAGGCGAATCCCTTTCAGAAGAAGAGGTTGTATCCGATCAGCCTGAGGAAGAAATCTATCGATACCGTCTGCAGGATATTTTTGAACAGGAAGACCGAAGCAATGAAGAATCCAGAGGCGATCACACGGATCAGGTGCAGGTGGAAGATGAACCTCAAGAAGAATCGGAATATGAAGAACCCCCTGCAGAAGCGCATGAAGGCCGTTCTTCAGAAGAAGATGTCCCATCGGAACCTGCCTTGGACAGTGGGGAGGAGAAAGAAACGGATCTCCTCGCTTTCGAAGACCCGCAAAACCCGGAGCTTACAGATACAGAGGAAGAGACCCATCAGGATGGTTCATTGGCAGAGGATGCCTCCGAAGAATTTCTTGAATGGGAAACGGCTGAAAAACACTCGGAGGCGGACGAAGCCGGGCAGGATGCGGTGCAGGAAATAGAGGCCCCGCTTTCTGACGAAGAACCTTCGGAAGAATCTTTATCTGATAACCAAGACTCTGAAACAGAGAATAGCGGTAAGGCTGAGGAGCCTGTGGAGGAGTCCGGGGACGAGCCGTTAAGCGTCGGGGAGGCCGAAGAGGCCCCACGGAAGTCCTCTTCAAGGAGAAGCGTACCATTTAATGTGCTCATGACACCGAGAGATAAACGCACAAGAGACCACCAGAAAGCAGAAACTCCTAAACAGGAGGAATCAAAGCCGGAGGAGTCTCAAAAAGAAGAGACCCCGGAGGCGGCTCAGGAAGAAAAAGCAGACAACAGCAGCTCTGAATACGTGCGCAGTGATTATCAGACCCCGCTCCATCTGCTTGAAGATCCTGTTCGTCCCTCCACGGATGATGACAGCTGGATTACGGGGCAGATGGAACTGCTTGAAACAACGCTGCGTCATTTCCATGTCCGGGCGAATGTGGTCAACGCTATGAAGGGACCTTCCGTCACACGTTTTGAAGTTCAGCCGGAGCCGGGCGTGAAAGTAAGCAAGATCACCAATCTTGCTGATGATATAAAACTGAGCATGGCTGCAAAGGATATACGTATAGAAGCTCCGATTCCAGGAAAGCAGGCGGTAGGTATTGAAGTTCCGAACAAACAGCCTCAGATGGTGGGACTGCAGGAGATTTTTGAGGACGAATCCTTTTCTCAGGAGCAATCCCCGCTTTCTGTCGGTCTCGGTCTTGATATCGGCGGCGAATCTATCGTGACCAACCTTAAGAAAATGCCCCACGGGTTGATTGCAGGGGCTACAGGTTCAGGAAAGAGTGTGTGTATCAACACCATTCTCGTCAGCTTGTTATACAAAGCGCACTATGATGACGTGAAGTTCCTGCTTATTGACCCTAAAATGGTCGAGCTCGCGCCATACAATGATCTGCCTCACTTAGTGGCTCCGGTCATTACAGATGTAAAAGCAGCCACGACAGCGTTGAAGTGGGCCGTGAAAGAAATGGAAGAACGTTATGAGAAATTTGTAACCGAAGGTGTCAGAGATGTGGAGCGGTATAACGATAAGATGATCAAGCAGGGACGGGCTTCTGAGAAGCTGCCGTACCTTGTCATTGTCATTGATGAACTTGCCGACTTGATGATGGTCTCCCCTCAGGACGTCGAGGATGCGATCTGCCGGATTGCTCAGAAAGCACGCGCCTGCGGGATTCATCTGCTGCTTGCCACCCAGCGTCCATCGGTGGATGTCATTACAGGCCTTATTAAAGCCAACATCCCAACAAGGATTGCATTCAGTGTTTCCTCCCAGGTCGATTCCCGTACCATTATCGACTCTTCCGGGGCAGAGAAGCTGTTAGGAAAAGGGGATATGCTGTTTGTGGAGAATGGCTCAGGCCAGCCTGTCCGGATCCAGGGCGCTTTCGTATCGGATGATGAAATTGAGCGGGTCACAAGCTTTGTGAAGAAAATGGCTCCTCCGCAGTACCTGTTCCATCAGGACGAATTGATCAAACAGGTATCCACCGAAGAGGAGACGGATGAACTGTTTGATGAAGCGGTTGATTTCGTCCTTGCTCAAAACGGAGCCAGTGCCTCCTTGATTCAGCGCCGGTTTAAAGTCGGATATAATAGAGCCGCCCGTCTCATTGACCAGATGGAGGACTATGGAATCATTTCTGAGCAGAAGGGGAGCAAACCAAGGGATGTCCTTCTGACCAGACAGCAGATTGAAGAAATAATGGACTAA	MWKDIKDKMKRLFEQEENDVEEAAVHKEERKEVNAKTKMTYRYPKQGEFRFPVIPDQPGEREERRENEPRVRGERRNHVQEEQSEVEKRPQRRKRKQPEQEESKETLETTSNPFTPTDVPSPIFGYQTRQMTKGLQKLEYTVEENSKPEFYTGSYEEKKWQDLREKLRERVQVGKKEPDDKPAQEEEPEGQQEGAASLEMEARVRKELLSGSEEASVIKDSSHDEIGEEPVQSEEADGVPEQHPGMNHDEQNETLDPDLEADAGSTEDEGESLSEEEVVSDQPEEEIYRYRLQDIFEQEDRSNEESRGDHTDQVQVEDEPQEESEYEEPPAEAHEGRSSEEDVPSEPALDSGEEKETDLLAFEDPQNPELTDTEEETHQDGSLAEDASEEFLEWETAEKHSEADEAGQDAVQEIEAPLSDEEPSEESLSDNQDSETENSGKAEEPVEESGDEPLSVGEAEEAPRKSSSRRSVPFNVLMTPRDKRTRDHQKAETPKQEESKPEESQKEETPEAAQEEKADNSSSEYVRSDYQTPLHLLEDPVRPSTDDDSWITGQMELLETTLRHFHVRANVVNAMKGPSVTRFEVQPEPGVKVSKITNLADDIKLSMAAKDIRIEAPIPGKQAVGIEVPNKQPQMVGLQEIFEDESFSQEQSPLSVGLGLDIGGESIVTNLKKMPHGLIAGATGSGKSVCINTILVSLLYKAHYDDVKFLLIDPKMVELAPYNDLPHLVAPVITDVKAATTALKWAVKEMEERYEKFVTEGVRDVERYNDKMIKQGRASEKLPYLVIVIDELADLMMVSPQDVEDAICRIAQKARACGIHLLLATQRPSVDVITGLIKANIPTRIAFSVSSQVDSRTIIDSSGAEKLLGKGDMLFVENGSGQPVRIQGAFVSDDEIERVTSFVKKMAPPQYLFHQDELIKQVSTEEETDELFDEAVDFVLAQNGASASLIQRRFKVGYNRAARLIDQMEDYGIISEQKGSKPRDVLLTRQQIEEIMD	PGPT0030468_4009	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
AK012_01269	609			hypothetical protein	ATGCACGTATTTTACAACAAGCAAGGAATTGGAGACGTTTTACTTATTCCCGTTAAGGAAGGCAGCCGTGATGAAATCAAACAGGAATCCTATGGTGACGTCGTGAAAATCACGGACAAGAGAGACGGATCCCTGCTTGGATACAATATCTTCAACGCATCCAAGTACTTCAATATTGAAGGTCAGGGCAAGATCCGCTTAACGGAAGAGGTTCTGGCTCCAATCAAGGATCTTTTCACTCAAAATGAATTAAATGATGTACTTGACTTCGATCTCAGCCCTAAGTTTGTCGTAGGGTACGTAAAAGAAAAAGCCCCTCATGAAAATGCGGATAAATTAAGCGTATGTCAGGTGGATGTTGGGAATGAAACCCTTCAAATCGTCTGCGGAGCGCCTAATGTAGACGCAGGACAGAAGGTGGTTGTAGCGAAAGTAGGAGCCGTCATGCCGGGTGGAATGAAGATTAAGGATGCGAAGCTTAGAGGTGTTCCTTCTTCAGGGATGATCTGTTCCGCCAAGGAACTCAATCTTCCCGATGCTCCTGAAGAAAAGGGTATCCTGGTATTGGATGATCAATATGAGACAGGACAGACGTTTGAATTGGAATAA	MHVFYNKQGIGDVLLIPVKEGSRDEIKQESYGDVVKITDKRDGSLLGYNIFNASKYFNIEGQGKIRLTEEVLAPIKDLFTQNELNDVLDFDLSPKFVVGYVKEKAPHENADKLSVCQVDVGNETLQIVCGAPNVDAGQKVVVAKVGAVMPGGMKIKDAKLRGVPSSGMICSAKELNLPDAPEEKGILVLDDQYETGQTFELE				NA	NA	NA	NA	NA
AK012_01270	819			hypothetical protein	ATGAAAATGACAAGTATTAAAATGAAGAAGAAATTAGAGGAACGGCTGGCCCGTGATGAGTGGAAAGCTACCTTTAACAGAGATAAAGACACGTTCAGAATTGAATGGGCACAATCTGGAAAAGGAATTACCATCACCCTCCCCAACGTCATATCCAAGTATGAGGCGCGCGGGGAAGAGGCTCTTGATGAGCTTGAAGACCATGTAACAGAAGCGCTCCGGGTGATGAAAGAAGATCATAAGCTGACAGGGAAGGAACAGCATATCTTTCCTGTTATTCGTGCGGCTTCTTTTCCGACGGAAACAGAGCAGGGGAAAAAGCTCGTTTATACAGAACATACGGCCGAAACCCGTATCTATTATGCCCTTGACCTTGGTAAATCCTATCAGCTGATTGATGAGGATATGTTGAAAAAAGAACAATGGGACATAGACAGAATCCGGGAGATCTCTGGATTTAACGTCCGGTCGCTGGAAACCAACCTGAAACAGGACACGGTCTATGGCAATGATTTTTATTTTCATTCCGCCGGGGACGGGTATGACGCAAGCCGGGTTCTGAATGAAGCTCTGCTTGAAAAATTGAAGGCGGAGGCCAAAGGGGAGCTGGCAATCAGCATTCCGCACCAGGATGTTATCATTTTTGCGGATGTTCAAAATCCAGAGGGCTATGATATATTAGCTCAGATGGCTATGAAGTTCTTTGCCGAAGGAACGGTCCCTGTAACTTCTTTGAGCTTTCTTTATGAAGATAAACAATTGGAGCCGATTTTCATCCTGGCTCAGAAAAAACCGAAAAAGGACCGAAAGGAAGAGTAG	MKMTSIKMKKKLEERLARDEWKATFNRDKDTFRIEWAQSGKGITITLPNVISKYEARGEEALDELEDHVTEALRVMKEDHKLTGKEQHIFPVIRAASFPTETEQGKKLVYTEHTAETRIYYALDLGKSYQLIDEDMLKKEQWDIDRIREISGFNVRSLETNLKQDTVYGNDFYFHSAGDGYDASRVLNEALLEKLKAEAKGELAISIPHQDVIIFADVQNPEGYDILAQMAMKFFAEGTVPVTSLSFLYEDKQLEPIFILAQKKPKKDRKEE				NA	NA	NA	NA	NA
AK012_01271	318	ytpP		Thioredoxin-like protein YtpP	ATGATTACATTAGAATCTGATCAGCAATTAAAAGAATTGACAGAGAATGAATCTGTTATTTTACTCTTTTCTGCAGACTGGTGCCCGGACTGCAGAGTGATTGAGCCATTTCTTCCTGAGCTCGAAGAAAACTATTCCGACTGGACATTTGTCTATGTAGACCGGGACCAATTCATTCACGTCTGCGCCGAACATGACATTTTTGGAATTCCGAGTTTCCTTGCAGTCCGTGATGGGGAGGAAGTCGGTCGGTTTGTAAGTAAAGACCGCAAGTCGAAAGAAGAAATTGAAGCATTCTTAACGAAAGTTTCCAGTTAA	MITLESDQQLKELTENESVILLFSADWCPDCRVIEPFLPELEENYSDWTFVYVDRDQFIHVCAEHDIFGIPSFLAVRDGEEVGRFVSKDRKSKEEIEAFLTKVSS				NA	NA	NA	NA	NA
AK012_01272	1029			hypothetical protein	ATGAAAAAGTTTTTAATTAAAAAAGGGGTGCATATTTCAGTTCAAGCCTATTTCATAACGGCCCTGAGCTATATGGCTCTCGGACTTTTTTCTTCATTAATCATTGGGTTGATTATGAAAACCATTGGTGAACAACTGGATTTAGGGATGTTCTCAGCTTCTCTTATAGATATGGGAACCTTCGCGATGGATACAAAAATATGGGGAGGCGCCATAGGGGCTGCAATAGCCTACGGGTTGAAAGCCCCGCCGCTCGTAATCTTTGCTGCCCTATTCAGCGGAGCTTACGGAGCTGATCTCGGAGGACCGGCCGGCAGTTATGCTGCCGCTCTGTTTGCAGCCGAATTTGGAAAGCTTGTAAGTAAGGAAACGAAGATTGATATTATCCTCACTCCTTTTTCTACGATTCTAGTGGGATATTTTGTCGGTGTGCTGATTGGTGCCCCCATCGGAACGTTTATGACCGGTCTGGGGGAAATCATCAACTGGTCCACGCAGCAGCAGCCGTTGTTAATGGGAATTCTTGTAGCGGTTCTCATGGGTCTGGCCTTAACCGCCCCCATCTCCAGTCTGGCCATCGCTCTCATGCTTTCTCTGGAAGGAGCAGCAGCTGGAGCTGCTACTGTCGGCTGTGCGGCTCAGATGATTGGGTTTGCCGTAACCAGCTATAAAGATAATGGATTTGGAGGCGCACTTGCCCAGGGCATCGGTACATCCATGCTCCAGGTTGCCAATGTCGTAAAAAAACCGCTGATCATTCTTCCGCCGACGTTGGCAGGAGCACTGCTGGCTCCGGCAGCAACGGTGTGGCTGTCGATGGAAAACAATGCAGCCGGTGCCGGTATGGGGACGAGTGGTTTCGTCGGTCAGATTATGACCATTGAGACGATGGGGCTTTCACTTGAAGTTGGACTCGTCATTCTTTTTCTGCACTTTATAGGACCAGCCGTCATCAGCTACGGTTTCTATTATTGGTTTTCCAGAAGAGGATGGATTCAGCCTGGAGACATGACAATTGAATATGAGTGA	MKKFLIKKGVHISVQAYFITALSYMALGLFSSLIIGLIMKTIGEQLDLGMFSASLIDMGTFAMDTKIWGGAIGAAIAYGLKAPPLVIFAALFSGAYGADLGGPAGSYAAALFAAEFGKLVSKETKIDIILTPFSTILVGYFVGVLIGAPIGTFMTGLGEIINWSTQQQPLLMGILVAVLMGLALTAPISSLAIALMLSLEGAAAGAATVGCAAQMIGFAVTSYKDNGFGGALAQGIGTSMLQVANVVKKPLIILPPTLAGALLAPAATVWLSMENNAAGAGMGTSGFVGQIMTIETMGLSLEVGLVILFLHFIGPAVISYGFYYWFSRRGWIQPGDMTIEYE				NA	NA	NA	NA	NA
AK012_01273	441			hypothetical protein	ATGGAACTTACCGTATACTTAGCCGGCCAGATCCACGATGACTGGCGCAGGGAAATCAAAGCAAAGGCGGATGAGAAACAGCTGCCATTGACTTTTGTCGGTCCTCAGGAAAATCATGCACGGTCCGACGATATTGGGGAGAACATTCTTGGTGAACAACCTGGTCAAGTGGCAAGAGACGATGCTGCCTCTTCCATCAACAACTTCCGCACGAGAATTTTATTAAATAAGGCGGACGCTGTCATCGCCTATTTTGGTGAATCCTATAAACAATGGAATACAGCCATGGATGCAGGAGCGGCTGTTCAGGCAGGCCGACCACTTATTCTGATCCGACCGGAGTCCCTCGTCCATCCGTTGAAGGAGCTCTCCAATCAGGCGGATGTAACAGTAGAAACTATTGATCAGGCTGTTGAGGTCCTTTCTTATATTTATGAGTGA	MELTVYLAGQIHDDWRREIKAKADEKQLPLTFVGPQENHARSDDIGENILGEQPGQVARDDAASSINNFRTRILLNKADAVIAYFGESYKQWNTAMDAGAAVQAGRPLILIRPESLVHPLKELSNQADVTVETIDQAVEVLSYIYE				NA	NA	NA	NA	NA
AK012_01274	516		COG1986	Inosine/xanthosine triphosphatase	GTGCCTGTTATGTTGAAGATTTATGTAGGATCAAAGAACCCTACGAAGGTTGATTCGGTGAAGCGGGTGTTCCCGGAAGCCGAAGTTGTGGGGATGGAAGTTGAATCAAAAGTGGCAGCGCAGCCCTTTTCTGATGAAGAGACCTTGGAGGGCGCCGTCAATAGAGCACGCGAATGTGCGTCGCACCATAAATCTAAAATGGGCATCGGCCTGGAAGGCGGAGTCATGGAAATCGAAGATGATCTCTACCTTTGCAACTGGGGCGCGCTTGTAGATGAAAAAGAAAACGTCTACAGCGCAAGCGGAGCCAGAATCAGACTGCCGGACGAGGTGAAGGCAGGGCTGGAAAAAGGAAAAGAATTAGGCGATGTCATGGATGAATACGCAGATAAGCACGATGTCCGGAAAAACGAAGGGGCCATCGGTATATTTACGAATGGTCTGATTCATCGAGAAGATATGTTCACTCACGTTGTCCAGCTTCTTAAGGGACAGTGGGAATTTGATCAACAATAA	MPVMLKIYVGSKNPTKVDSVKRVFPEAEVVGMEVESKVAAQPFSDEETLEGAVNRARECASHHKSKMGIGLEGGVMEIEDDLYLCNWGALVDEKENVYSASGARIRLPDEVKAGLEKGKELGDVMDEYADKHDVRKNEGAIGIFTNGLIHREDMFTHVVQLLKGQWEFDQQ	PGPT0021540_792	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
AK012_01275	1068	ysdC_2	COG1363	Putative aminopeptidase YsdC	ATGAACCAAGAAACCCAAGATCTTTTCAAAACGTTGACGGAACTGCCGGGCGCACCTGGTAACGAGCATCTGGTCCGCCAATTTATGAAGGAAGAATTAGAAAAGTATTCCGATGAAATCGTCCAGGACCGCCTTGGCGGAGTGTTTGGAGTGAAGAAAGGAAAGGGGCCGACGGTTATGGCTGCCGGCCATATGGATGAAGTCGGCTTCATGGTCACTCAAGTCACCGAAAACGGGATGATTCGTTTTCAGCCGCTTGGAGGCTGGTGGAATCAGGTTCTTTTGGCCCAGCGTGTTCAAGTGGTGACAGACCGGGGTCCTGTCGTAGGTGTCATCGGATCCATTCCCCCTCACAATTTGACGCCGGAACAACGCAAAAAGCCGATGGAAATCAAAAACATGCTGATTGATATTGGAGCGGATAATAAAGAAGACGCCAGGGAAATCGGGATCAAGCCCGGGCAGCCGATTGTTCCGATCTGTCCGTTTACACCGATGGCTAATGAAAAGAAAATCCTTGCGAAAGCCTGGGATAACCGATATGGCTGTGGCCTTTCCATCGAACTCCTGAAAGAGCTTCAAGGCGAAAAGCTTCCGAATGTCCTTTATTCAGGCGCCACCGTCCAGGAAGAAGTGGGACTGCGCGGGGCACAGGTGGCAGCCAACATGATTCAACCGGATATCTTTTATGCAATGGACGCTTCACCGGCCAATGATATGAGCGGGGACAAAAAGGAATTCGGTCAGCTCGGTAAAGGAGCGCTTCTGCGTATTCTGGATCGTTCCATGGTGACGCACCGTGGAATGAGGGAATTCATTCTGGATACAGCAGAGACCCATGATATTCCATACCAGTATTTTGTTTCCCAGGGCGGAACCGATGCAGGACGGGTGCATATGGCGAATGATGGAGTTCCATCTGCAGTCGTTGGAATCAGCTCCCGGTACATTCATACCTCCTCTTCCATTATTCATGTCGATGATTATGCGGCAGCCAAAGAGCTTCTTGTGAAGCTTGTCAAAGCGACGGACCAATCGACCGTTGATGAAATCCGCCGAAACGTATAG	MNQETQDLFKTLTELPGAPGNEHLVRQFMKEELEKYSDEIVQDRLGGVFGVKKGKGPTVMAAGHMDEVGFMVTQVTENGMIRFQPLGGWWNQVLLAQRVQVVTDRGPVVGVIGSIPPHNLTPEQRKKPMEIKNMLIDIGADNKEDAREIGIKPGQPIVPICPFTPMANEKKILAKAWDNRYGCGLSIELLKELQGEKLPNVLYSGATVQEEVGLRGAQVAANMIQPDIFYAMDASPANDMSGDKKEFGQLGKGALLRILDRSMVTHRGMREFILDTAETHDIPYQYFVSQGGTDAGRVHMANDGVPSAVVGISSRYIHTSSSIIHVDDYAAAKELLVKLVKATDQSTVDEIRRNV				NA	NA	NA	NA	NA
AK012_01276	318			hypothetical protein	ATGAATTGGAAAAAAGTCGCGATAGCCGCAGGTGTAGGAGCACTGGCCGGTTATATTGTAAAAGAACAAATCAGCAGCAGTCAGAATGTTACTCCTGAAAAGGCATTGAAAATCGCAAAAGAAGCCTTCAAGAAGCAAGGGCCGATCAGCGGCTCATGGATCTACATGAAGCCGGAAGAACTGAATAAAAACGGCATCAACTATGATGTGTATCGAGGCGGCATCTCCAAGAACCAGGACGGGGAAACCTCTCAATTCGAATTTTATATCGATACAGACACCGGCACGATCGTCGATGTAGCCGAAACAACAGCGTAA	MNWKKVAIAAGVGALAGYIVKEQISSSQNVTPEKALKIAKEAFKKQGPISGSWIYMKPEELNKNGINYDVYRGGISKNQDGETSQFEFYIDTDTGTIVDVAETTA				NA	NA	NA	NA	NA
AK012_01277	855	ytnP	COG0491	putative quorum-quenching lactonase YtnP	ATGGAAAAGCTGTCAATCGGTAAAGCTGAGCTGACCTGGCTGGATGGAGGAGTAACCCATCTGGACGGAGGGGCGATGTTTGGTGTCGTACCAAGAGCGTTATGGAGCAAAAAGTATCCAGTAAACGATAAAAACCAAATTGAACTTCGGACAGACCCTATCCTTGTAGAGTGGGAAGGGAAGCGTATGCTCATCGACTCTGGTATTGGGAACGGGAAAATGAGTGAAAAACAGAGGCGTAATTTCGGAGTGTTTGAAGAATCCAAAGTTGATGAAGGACTTCAAGCGTTCAACCTGACACGTGCGGATATTGATTATGTTTTGATGACTCACCTTCATTTCGACCACGCCTGCGGTCTAACCCGGTGGGAGGGAGAAAAGCTTGTACCTGCTTTTCCTGAAGCTGTCATTTATACAAGCAGGACGGAATGGGAGGAAATGAGGGATCCGAATATGAGATCCATCAATACATATTGGGAGGATAACTGGAAACCCGTGGAACATCAGGTCCATACGTTTGAGGACAGCCTGGAGGTTGTTCCCGGACTGCGGATGATCCACACAAGCGGTCATAGTGACGGCCATTCCGTTCTTGTGTACGAGGAAGGAGAGCACGTTTGGATCCATATGGCTGATTTAATGCCTACTCATGCCCATCAGAATGTGCTGTGGGCTCTTGCTTATGATGATTATCCTGTTACATCTGTTCATGAAAAGAAGAAATGGATGGAATTTGGGTATGATAAAAAAGCCTGGTACACGTTTTACCACGATGCCGTTTATCGAGCGCTCAAATATGACCATGAGGGGAATATCATCGATCAGGTTGAGCAGAAAAAGCACCATTACACATAA	MEKLSIGKAELTWLDGGVTHLDGGAMFGVVPRALWSKKYPVNDKNQIELRTDPILVEWEGKRMLIDSGIGNGKMSEKQRRNFGVFEESKVDEGLQAFNLTRADIDYVLMTHLHFDHACGLTRWEGEKLVPAFPEAVIYTSRTEWEEMRDPNMRSINTYWEDNWKPVEHQVHTFEDSLEVVPGLRMIHTSGHSDGHSVLVYEEGEHVWIHMADLMPTHAHQNVLWALAYDDYPVTSVHEKKKWMEFGYDKKAWYTFYHDAVYRALKYDHEGNIIDQVEQKKHHYT				NA	NA	NA	NA	NA
AK012_01278	645	trmB	COG0220	tRNA (guanine-N(7)-)-methyltransferase	ATGCGTTTAAGAAATAAACCCTGGGCGGACGATTTTCTAAGGGAAGAGGATCAGATTGTCGTTCAGGACCCGTTTGCACAAAAGGGAAGCTGGAAGGCGTTATTTTCCCACCCTGAACAGCCTCTTCATTTGGAAATCGGATCAGGGAAAGGTCAGTTTATTGCCGGCATGGGTGTCCAGCATCCGGAAATCAACTTTATCGGCATTGAATTCGTAAAGAGTGTCATTGTCGGTGCGGTGAAAAAAGTGAAGGATGCAGAGACAGAGAACGTTCGGATGGTTAATGAAAATGCTAAAGATTTGACTGATCTGTTTGAATATAATGAAGTCGATCATATTTATTTGAACTTTTCCGATCCCTGGCCGAAAACGAAACATGAAAAGCGGAGACTGACTTTCCATACGTTCCTTTCTCAATACGAATCCGTTCTCAAAGAAGAGGGCAGGGTGACGTTGAAAACGGATAACAAAGGATTATTCGAATATTCGCTTGTCAGTTTTTCTGAGTACGGCATGATCCTCGAAGACGTATCTGTCGATCTGCATGCAGATGAGGATCCATTGAATGTTACGACGGAATATGAAGAGAAATTTTCAGCAAAAGGACAGCCGATTTACCGGTGTACAGCAAGGTTCACAACTTGA	MRLRNKPWADDFLREEDQIVVQDPFAQKGSWKALFSHPEQPLHLEIGSGKGQFIAGMGVQHPEINFIGIEFVKSVIVGAVKKVKDAETENVRMVNENAKDLTDLFEYNEVDHIYLNFSDPWPKTKHEKRRLTFHTFLSQYESVLKEEGRVTLKTDNKGLFEYSLVSFSEYGMILEDVSVDLHADEDPLNVTTEYEEKFSAKGQPIYRCTARFTT				NA	NA	NA	NA	NA
AK012_01279	174			hypothetical protein	ATGAAATTGATGACAAAACTTTTTGAAGTATCTGTTCTGGCCGTCTTCTCTGTTCTATTCGCAGGCTACGCCCTGTTTGTGTATCCGTTTGAAAAGATTTCTGAACTTATGAGTGCAGAAGTGAAAGCGAAAAAGCTTAAATATACACCAGCCACACAAAAAACCGCTGCCTAA	MKLMTKLFEVSVLAVFSVLFAGYALFVYPFEKISELMSAEVKAKKLKYTPATQKTAA				NA	NA	NA	NA	NA
AK012_01280	702	cpnA_1		Cyclopentanol dehydrogenase	ATGGAGAAAAACGTACTCGTGTCAGGTGGAAACCGCGGCCTTGGTTTGGAGGCATGTCGTCAGATGGCAGAAGCAGGGTTTAAGGTATGGCTCGGAGCCAGAAATGAGGAGAAAGGGAAGGAAGCGGCCTCCCGGCTTCAGGAGGAGGGACTCGATGTCCAGTTTATTTTCCTTGATGCTGCCCAGCCGGATAAGATGGATGCAGTGAGGGATGAAATTCTTGAAGAGGACGGGCGGATCGATGTCCTGATCAATAATGCCGGTATCTTCCCGGATAAAAAAAGTTCCATTCTGGACATTGACACGGTCACCTTTGAGGAAATACAACTTGTGAATTATTTTGGCCCTTATTTTCTCATGAGCAGCCTTATGCCTGTGATGCTTGAGAATAACTATGGCCGGATTGTTAACGTGGCCGCAGAGATGGGGGTCAGCCGGGCGATGGACGCTCCAATGGCCGGCGCCTATAAAGCGTCCAAGTACAGCTTGAATGCCTTGACGAGGTTGTTCGCAGGAGCAGCACGCCGGAAGAACGTGAAAGTGAACTCCGTAAGCCCCGGCTGGGTGAAAACGGACCTTGGAGGAGAAAAGGCAGAGCGGGAGCCGGAAGAAGCCATGGAAGGGATCTTATGGCTTTCGCAGCTGGAAGAGGATGGTCCGACAGGGAAATTCTTCAGAGATAAGGAGGAGCTTGAATTTTAA	MEKNVLVSGGNRGLGLEACRQMAEAGFKVWLGARNEEKGKEAASRLQEEGLDVQFIFLDAAQPDKMDAVRDEILEEDGRIDVLINNAGIFPDKKSSILDIDTVTFEEIQLVNYFGPYFLMSSLMPVMLENNYGRIVNVAAEMGVSRAMDAPMAGAYKASKYSLNALTRLFAGAARRKNVKVNSVSPGWVKTDLGGEKAEREPEEAMEGILWLSQLEEDGPTGKFFRDKEELEF				NA	NA	NA	NA	NA
AK012_01281	807			hypothetical protein	GTGAATTGGTTGGAACATATACTCGGTAGTAATTGGACAATAACACCAGCAGGCGGTTCAACAGGGGAAGCTTACTATGCCCAGACAGATGAGAAGCGGCTGTTTTTAAAACGAAACTCTTCACCTTTTTTAGCCGTCCTGTCTGCAGAAGGGATCGTTCCTAAGCTGATCTGGACCAAAAGGCTGGAGAACGGGGATGTCATTACTGCCCAGGAATGGCTGGACGGGCGGGAGTTAAATCCGGAAGAGATGAAACATCCGAGAGTCGCAGCCCTGTTAAGTAAGATTCACCATTCCACTGAGCTGCTGGATATGTTAATGAGACTGGGTAAGCATCCTTTAACCCCTGATGAAATACTTTTGGACATTAAGGAAAATCAGAAGGTTCTTGATAAGGTGGACCCGAGGATAGAAATTCATCAGGCCGTCAGATACCTTGAGCAGGAAGTTTGGAATGTTCAGCATGATGTTCACGTCGTCTGCCATTGTGATACAAATCATAATAACTGGATGTTATCAGCAAGAGATCACCTTTATCTGATTGATTGGGATAACGCTATGGTGGCTGATCCGGCTTTGGATCTTGGAATGCTTTTATATAACTATATCCCTGAGGATTACTGGGAAACGTGGCTGAAGGAGTATGGCATCCAGCCGGATTCCCATATGTTCCAACGGATGAAATGGTATTCCATCTCCCAGGCTCTTTCTTTTATCCAGTGGCATCAAATGCGGGGCGAATATCATGAATCCTCCGTACGAACGGAAAAGTTAAAAACCATTATGAAGCAGCATGGAATTATATAA	MNWLEHILGSNWTITPAGGSTGEAYYAQTDEKRLFLKRNSSPFLAVLSAEGIVPKLIWTKRLENGDVITAQEWLDGRELNPEEMKHPRVAALLSKIHHSTELLDMLMRLGKHPLTPDEILLDIKENQKVLDKVDPRIEIHQAVRYLEQEVWNVQHDVHVVCHCDTNHNNWMLSARDHLYLIDWDNAMVADPALDLGMLLYNYIPEDYWETWLKEYGIQPDSHMFQRMKWYSISQALSFIQWHQMRGEYHESSVRTEKLKTIMKQHGII				NA	NA	NA	NA	NA
AK012_01282	924	ytlR	COG1597	Putative lipid kinase YtlR	ATGTATATCCTGATTGTGAATCCTGCGGCAGGAAACGGCCGGGGGTTGAAGCTTTACAAACAGCTGAAAAAAACTAAAGAATATCATAGACAAGACATCCGGACATTTTTCACAAAGGTCTCAGAAGGGGCGGAAGCGCTGGCGGCAGAGCTGTCAAACATAGAGGCCCCTTCCTTGAAAGCCTGCCTGGTCCTTGGAGGGGACGGCACCCTTCATGAAGTGATCAATGGCTGGAAGCCGCAGGGGCAGGTTCCCATCTGTTTTTTACCAGCCGGTTCAGGGAATGACTTCGCAAGAGGACTGGGTGTAAAGGCAGGCATCCTGACCTTATTTAAGGCGGTTCTCCGTAATCCGGAGGAGCATCATGTTTATCTGGGAAACTACCATTTGCCGAAGGGAAAAGAAAGAACCTTTTTGAACAATATCGGAATCGGTTTGGACGGGGCTGTAGCCTCCTATGCAGACCGTCCGGCTTTTAGAATATGGATGCGCCGGCTTCATTTAACGAAGTGGATCTACCCCGCTGCTCTCATTTGTGCTCTACCGTCTTTCAAGCCCTTTGAGGTGGAAGTGAAGCTGGATGGTCAGGCACCTGTGATGGAAAAAGTGATGATGATTACGATGACCAATCACCCTTATTTCGGAGGCGGTATGAAATTGGCTCCCCGGTCTGATTTTCAACATCCGCGCATGTCGGTGATACTCGTTCGGGCTCTGTCCAAACAGAAACTGCTCACTCTATTCCTCAGCGTTTTTATAGGAAAGCATACAGCATTGAAGGAGGTTATGGAGTGGGAGGCAGACACGGTGCACATCCGTACAAAGCATGAAACGTTTTTCCAGGTCGACGGCCAGCCTTCCCGCTCAGATGAATGGCTGATGAAGAAAGCGTCATCAAAAACGACATTCCTCAGCAATTCATAG	MYILIVNPAAGNGRGLKLYKQLKKTKEYHRQDIRTFFTKVSEGAEALAAELSNIEAPSLKACLVLGGDGTLHEVINGWKPQGQVPICFLPAGSGNDFARGLGVKAGILTLFKAVLRNPEEHHVYLGNYHLPKGKERTFLNNIGIGLDGAVASYADRPAFRIWMRRLHLTKWIYPAALICALPSFKPFEVEVKLDGQAPVMEKVMMITMTNHPYFGGGMKLAPRSDFQHPRMSVILVRALSKQKLLTLFLSVFIGKHTALKEVMEWEADTVHIRTKHETFFQVDGQPSRSDEWLMKKASSKTTFLSNS	PGPT0024345_1083	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
AK012_01283	918			hypothetical protein	ATGGCTCAATTAATTAAACTGAATGATTATATATCCAGATATGAAGTGAATATGTATCAGTATCCTGCACAGTTTATCCGGTTAAAACAGGAAAATTGGCAGAAGATGCGCACCCTTTATGAGAGGGAACAGCTGGACTTTCAAAACGGGTCAGTCGTCCCGGATGAAACGGAAACCGAAAAAATCCCGTGGTGGAAGGCGCTGTTCCGGGAGAAGAAGGTGGAGCAGCCGGTGGAAGCGGCCGCCTCTTTAGAAAGTCGGAAAACCCCGCGCTCCTTGAGTGAATTAAAGCAGTATTATCTCGATGGCCTGCTTCCGTTTCAATTGAAATGGGCAACCACAACGCTTAAGAATAAGTCCTTTTTACACCCGTCCTATCAGGAGAATGAATCCCTTTCCTTCTATCTTCAACGCTTTCCGGACACCTATCTGCTCATGTACGATCCTGTGGCTCAGCTGAGAAATACAGATATGGAAATCGACCATATCCTGATCGGCCCAAACAGTCTGGAATTGATTACATCCCTTCCGGCGCGCGCTGGTGAAACCGCTTATGTCTTGTCAGAGCACACGTGGCTTTTGGAAGACGGGAATATCCAGAGGAAAGCCCCGAGTCCTCTAATCTCTCTAAAACGGACAGAAACTTTCGTGCGCAGTGTTTTAAAATCATATGACATTGACTTTCCCTACACCAAAGTCGTCCTATCCCCTCAATTGTCGTTTGAAAAAATGCAGGAGCCTTACGAGACGGTCTATATCGGAGATAAAGAGTACAATCGTTGGCTGTATGAGAAGAGGCAGATGCGCACACCTTTGAAACATAAGCAGTTGAAAACGGCAGAAGCCCTTTTGAAGCACTGCCGGACAAGTGCTGTCAAACGAGCAGAATGGGATACAGAAGACCCTTTGGACGAATAG	MAQLIKLNDYISRYEVNMYQYPAQFIRLKQENWQKMRTLYEREQLDFQNGSVVPDETETEKIPWWKALFREKKVEQPVEAAASLESRKTPRSLSELKQYYLDGLLPFQLKWATTTLKNKSFLHPSYQENESLSFYLQRFPDTYLLMYDPVAQLRNTDMEIDHILIGPNSLELITSLPARAGETAYVLSEHTWLLEDGNIQRKAPSPLISLKRTETFVRSVLKSYDIDFPYTKVVLSPQLSFEKMQEPYETVYIGDKEYNRWLYEKRQMRTPLKHKQLKTAEALLKHCRTSAVKRAEWDTEDPLDE				NA	NA	NA	NA	NA
AK012_01284	549	ytlP		RNA 2',3'-cyclic phosphodiesterase	ATGAACAGCCATTATTTCGTGGGTATTCAAGTACCGAGGGGGATTGCCGGGCATTTATCCAGCTGGCAGCATACTCTCCAGAAGCATATGCGTTACAAAGTATGGACGAATGCAGAAGACTTTCACGTGACTCTAAAGTTTTTAGGAGCGGCATCCGATGAAAAAATAAACAGGCTCATGTCCATGCTCCAGCAGCAAAACCTGCCGGATGCATTTTCCACAACCATCGGCCCGGCCGGTGGTTTTGGTCATCCAGAAGCTCCGAGGGTTTTTCTTGCAGAGGTGGAGAAGCATCCCAGTCTGGTAAAGCTGTACAAGCAGGTGGAGGACGCGGCAGCTGCGTCCGTCTGGGAACGGGAAAAAAGAGATTTCCACCCCCATATAACGCTTGCGAAAAAACAGGCGGAAGGACGGTCACCGCTTTCACTCAGTCACGTTCCCGCCGTTTTTCAAGAGCAGTTTTCCGTCATGGTGGAGCGCATCACCCTGTACAGGATCCACCCTGGTGAAAATCCGAAGTATAAAGACGTGTTCACCATTGATTTGTAA	MNSHYFVGIQVPRGIAGHLSSWQHTLQKHMRYKVWTNAEDFHVTLKFLGAASDEKINRLMSMLQQQNLPDAFSTTIGPAGGFGHPEAPRVFLAEVEKHPSLVKLYKQVEDAAAASVWEREKRDFHPHITLAKKQAEGRSPLSLSHVPAVFQEQFSVMVERITLYRIHPGENPKYKDVFTIDL				NA	NA	NA	NA	NA
AK012_01285	1182			hypothetical protein	ATGCAGAGTCGGGATGTTCAAAAAGCTTATCGGTCTATTCAAGGGTACTATTTTCTTGTTTTCTTTGGATTTGGTTCATTGTTCCCGCTTCTCTCCGTTTTTTTAGAAAACGAGAAAGGGCTCAGCCATACGAAGATTGGGATGATCATCGCCGCTCTTCCGTTTATTACAATGTTTGTACAGCCGGTATGGGGCATGCTGAGTGATTACACCAAACGTCCACGTATGCTGCTGATGACGGCCGCATCCGCTTCGGCTTTATTGGGGTTGTTTTACCCCATGCTTCCCTTCTTTCCAGTCCTGCTTACAGGAATCTGCTTTCTTGCTGTTTTTCAATCAGGGATTGTCCCGTTGTCAGACAGTCTTTCACTGAATTTCTCACAGCAGCACGGCAGGGAATATGGAAATATACGTTTATGGGGAGCGGCCGGTTTCGCAGTCGCTGTGTTCCTATTAGGGAAAGTGACCGAAAAAACAGGAAGTATGGATTGGATTTTTTACTTTTTCTCAGCAAGTTTAATCGTATCCTTTCTATTAATGCGACGCTTCCCTAAGCGGTCTGAAGAAATCTCCCTGCCATTTAAAGAAGGTTTTCAATCACTCCTGAAGGAAAAGAAGTTTCTGCTTTTCCTAATGGCTAACTTCCTTATATTCGGTCCTGTGCTGGCAAACAACTATTACTTTGGTACGTTCATCCTGTCTGCGGGAGGAACCCTGTCCGGGGTAGGACTGGCTTTCCTGCTCGCAGCAGGGAGTGAAGCTCCTTTTATGAAAATAGCTCAAAGGTTGATCAACCGCTTTGGCGTTCTCGTTGTATTAGTGTTCAGTGCCGTAGTTTCCTGCCTGCGGTGGTTTTTATACTATTTTGAACCGAGTACGGCTGTTATTTATGCAAGTACGGCAGCACAAGGAGTCTCTATCGGTTTGTATATCCCTGCCGGTTTGTTGTTTGTGCGGGAAATTGCACCAGCCGACGTGCGTGCTACGGCGGTTGGCCTATATTCGGCGGTGAAAAATGGACTGGGTAATGCCGTATTCACCTTTCTCGGAGGGGTTTTTATCGACTGGCACAGCGAAGCTTTTATGTACGGCATTTTCTCTTTAGTAACGTGTGGGGGGATAGCGCTGTTATTCGTACTCAGACATCAAATAAAATTATCCAGAGCGGAGGCCTGCCTATGA	MQSRDVQKAYRSIQGYYFLVFFGFGSLFPLLSVFLENEKGLSHTKIGMIIAALPFITMFVQPVWGMLSDYTKRPRMLLMTAASASALLGLFYPMLPFFPVLLTGICFLAVFQSGIVPLSDSLSLNFSQQHGREYGNIRLWGAAGFAVAVFLLGKVTEKTGSMDWIFYFFSASLIVSFLLMRRFPKRSEEISLPFKEGFQSLLKEKKFLLFLMANFLIFGPVLANNYYFGTFILSAGGTLSGVGLAFLLAAGSEAPFMKIAQRLINRFGVLVVLVFSAVVSCLRWFLYYFEPSTAVIYASTAAQGVSIGLYIPAGLLFVREIAPADVRATAVGLYSAVKNGLGNAVFTFLGGVFIDWHSEAFMYGIFSLVTCGGIALLFVLRHQIKLSRAEACL	PGPT0028051_544	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
AK012_01286	1371			Putative dipeptidase	ATGAATTTCAAACAACTCAGTGAAGATTATCTGGACTCGTTCGTCCAGCAGGCTGGTAAACTGATCAGCATCCCGAGTGTTTACACAGAAGATGAAGGGACACCATTCGGACCTTCGATACAGGAGGCCTTGTCTCATATGCTGGCTTTAGGGGAAAGAGACGGTTTTGTGACGAAGAACATCGACGGATATGCCGGCCATATTGAATTTGGAGAAGGAGACGAAATCATTGGTGTGCTCGGCCACCTTGATGTGGTTCCTGCCGGGGAAGGGTGGACTTCTCCGCCCTTTGAACCTGTTGTAAGAAATGAAAGGCTGTATGGCCGGGGAGCCCAGGATGATAAAGGACCTGTGATGGCTGCTTATATGGCAATGAAAATGCTGAAGGACCAAGGGTTTATCCCAAGGAAAAAAATACGGCTCATCCTAGGAACAGACGAAGAGCGGGACTGGCAGGGAATGGCTCATTATTTTGAGAAGGAACCAATGCCTGCAGCCGGGTTTACCCCGGATGCTTCTTTTCCAGTGATCCATGCTGAAAAGGGGCTGCTGGATGCTTATGTTACCTATCCTTCCGAATCAAGCAGGGAAGGGGAGGCTGCCCTTTTGAACGTGAAAGGCGGAGGTCCTTTGAACATGGTGCCCGATGAGGCGGTCGCTGAAATATCGGGAGACATCCGGGCTGCTTTTGAAGCTTATGTGAAGGACGATCAAGAGAGGGCATATCTGGAGGAAAAAGAAGAGTCTGTAAGGATAGTGTTTAAAGGAAGAGCGGCTCATGCGAGCCGGCCGGAGACAGGGAAAAACGCGCTGACCGATCTGCTTGGTTTATTAAAAACGCTCCCTCTCTCTGCCTCCGACCAGGCGGCTGCCGAACATCTGCACGCCAGTTTTAATGATACGAATGGGCGGGGGCTTGGATTAGAGAGCAGTGATGATGTGTCTGGTCCATTAACGTCAAACTTGGGATCTCTTGAGAAAACAAACGAAGGCTGGAAGGCCGGGGTGAACCTTCGATATCCAGTAACGGCTGATGCCGATCAGGTTATCAGAGAGCTGCATACGGCCTTGGAGAGAAACGAAGGGAAACTTGAGATTTATGACCATCTTGCTTCTATCCACCTCGAGAAAGAAGACCCTTTTGTGCAGACATTGTTGACGGTGTATAACGATGCCACGGGGGAGAAGACTGAAGCTTTATCCATTGGGGGAGCTACTTACGCCCGGGCATTAAAAACGGGTGTAGCTTTCGGAGCGATGTTTGCTGACAGCCCGGATACAGCCCACCAGGCAGATGAGCACGTGCGGCTCCAAGACATGGTCAAGGCTATGGAAATCTATGCAGAGAGTCTATACAGGCTCACGAAATAA	MNFKQLSEDYLDSFVQQAGKLISIPSVYTEDEGTPFGPSIQEALSHMLALGERDGFVTKNIDGYAGHIEFGEGDEIIGVLGHLDVVPAGEGWTSPPFEPVVRNERLYGRGAQDDKGPVMAAYMAMKMLKDQGFIPRKKIRLILGTDEERDWQGMAHYFEKEPMPAAGFTPDASFPVIHAEKGLLDAYVTYPSESSREGEAALLNVKGGGPLNMVPDEAVAEISGDIRAAFEAYVKDDQERAYLEEKEESVRIVFKGRAAHASRPETGKNALTDLLGLLKTLPLSASDQAAAEHLHASFNDTNGRGLGLESSDDVSGPLTSNLGSLEKTNEGWKAGVNLRYPVTADADQVIRELHTALERNEGKLEIYDHLASIHLEKEDPFVQTLLTVYNDATGEKTEALSIGGATYARALKTGVAFGAMFADSPDTAHQADEHVRLQDMVKAMEIYAESLYRLTK				NA	NA	NA	NA	NA
AK012_01287	1026			hypothetical protein	TTGTACTTTTTCAGGAAAATTCTTTTAAAAATGGTAAAGGTCAATAATCTTGTTCTTTTTTCAGCAAGTGTAGGCCTGCTGCTTCTATCCAGTATTTTGATCGTTTTCGTGGAAAATGATACCTTCCCGACATTTTTTGATGGGTTCTGGTGGGTCATGACCACTGTAACGACTGTCGGATACGGGGATTACTACCCTGTCAGTGCCGGAGGAAGGTTTATTGCCATCTTTTTATATGTCTTTGGGATCGGCCTCATAGGAATTGTGATTGGAAAAGTCGTCGATAGTCTGGCCATTTATAGAAAAAAGCGACTGGAAGGTGATATTGTGTATAAAGATGAAGGACATTTTGTGATTATCGGCTGGTCACAAAAAGCAGAATTTGCAGTGAGGGAAATGATGGACACACATGAAGACTGTGAAATCGTACTGATTGATCAGCTTCCAAAAGCTCCGCTGCTTACTGAGAATATCTACTACATAAAAGGGGATGCCGGAGACCAACAGACACTGGAAAAAGCCAACATTACAAAGGCGAGAGCAGTGCTGATATTTGCGGATGATCAGATGACCAGCAACCAGATGATTGACGGTAAAACCCTCCTCATTGCATCATCGGTGGAGAATCTGGCGCCGGGGGTCCACACCATTGTGGAAATCATGGAAGAAAAGCATATAAAGAACTTTAAGCATGCACAGGTGGATGAGTTCATTGTCTCCAGTGAAACGATCTCTTCTCTTGCTGTCCGGGCGGCGTTTAGAAAAGGGGTTTCGGAAATTTATGGACAGCTCTTGAAGCGTTCTGTCGGGGAAGATCTTTTTTATATTCCAACCCGGTCGGAATGGACAACGTACCGGGACGCTTTTCAAAACCTTCTCTCAGAAGGAGCCACTCTCATCGCAGACCGGAATGATCTGGCGATTAATCGAAAGCTGGATGAACGTATTCCAGCGGAGGCTGAACTTTATGTCGTTTGTGATAAAGCAACCTATGACACGATCGTTTCCAAAGGAGGACAATCATGA	MYFFRKILLKMVKVNNLVLFSASVGLLLLSSILIVFVENDTFPTFFDGFWWVMTTVTTVGYGDYYPVSAGGRFIAIFLYVFGIGLIGIVIGKVVDSLAIYRKKRLEGDIVYKDEGHFVIIGWSQKAEFAVREMMDTHEDCEIVLIDQLPKAPLLTENIYYIKGDAGDQQTLEKANITKARAVLIFADDQMTSNQMIDGKTLLIASSVENLAPGVHTIVEIMEEKHIKNFKHAQVDEFIVSSETISSLAVRAAFRKGVSEIYGQLLKRSVGEDLFYIPTRSEWTTYRDAFQNLLSEGATLIADRNDLAINRKLDERIPAEAELYVVCDKATYDTIVSKGGQS	PGPT0002715_1888	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK012_01288	219	ytzE	COG1349	putative HTH-type transcriptional regulator YtzE	TTGAATCATCCATCATCACGTATGCTCGACCGAATCAAAGCTGTCTACCTTTATATTAGAGAAAAAGGGACGGTCTCGACAAATGAGTTAGCAGATGAGTTTGGTATCACTGATCGCACAATGCAGAGGGACTTAAGCATCCTGGAATACAATGGGCTTGTAGCCAGTCCACACCGTGGAAGGTGGACAATCACTGAAAAGAGGGTCAAAATTTCATAA	MNHPSSRMLDRIKAVYLYIREKGTVSTNELADEFGITDRTMQRDLSILEYNGLVASPHRGRWTITEKRVKIS				NA	NA	NA	NA	NA
AK012_01289	720	rsuA	COG1187	Ribosomal small subunit pseudouridine synthase A	TTGAGAATTGATAAACTGCTCGCCAATATGGGATATGGAACTCGTAAAGAAGTGAAAGGCCTTTTGAAAAGCGGCCATGTCCGCATCAATGGCGAACCGGAAAAAAGCCCGAAAAGCCATGTGGATCCTAACGAAGATTTAGTGACCGTTATGGGGGATGAAGTGGAGTACCGGGAATACATCTACTTGATGATGAACAAACCTGGTGATCTGATATCCGCTACTGAAGACCCGCATGAAACAACTGTCATCGATATTCTCCAGCCGGAGGACATCGTCTTCGAACCTTTTCCTGTCGGGCGGCTGGATAAGGATACAGAAGGCCTGCTGCTGATAACGAATGATGGGCAGTTGAACCACAGGCTGACATCTCCGAAAAAAGATGTAGGTAAAACATACTTTGCCCGGATTGAAGGGAAGGTTACAGAGGGTGATGTAGAGAAATTCTCTGAAGGGGTTACCCTGGATGATGGCTACCATACCAAGCCGGGCCATCTGGTGATTCTCTCTTCTGATGAATTTTCGGAAATTGAACTGACGATTACCGAAGGCAAGTTCCATCAGGTGAAGCGGATGTTTGAAGCGGTCGGGAAAAAGGTCGTCTACCTGCAGCGGATTAAAATGGGCGAACTGGTTCTTGATGAAGAGCTGGAGCTCGGAGAATACCGTGAGCTGACGGATGAGGAACTGGAGTATTTGAGGAAGATCACGAACCTCTAA	MRIDKLLANMGYGTRKEVKGLLKSGHVRINGEPEKSPKSHVDPNEDLVTVMGDEVEYREYIYLMMNKPGDLISATEDPHETTVIDILQPEDIVFEPFPVGRLDKDTEGLLLITNDGQLNHRLTSPKKDVGKTYFARIEGKVTEGDVEKFSEGVTLDDGYHTKPGHLVILSSDEFSEIELTITEGKFHQVKRMFEAVGKKVVYLQRIKMGELVLDEELELGEYRELTDEELEYLRKITNL				NA	NA	NA	NA	NA
AK012_01290	1560	murJ_1	COG2244	Lipid II flippase MurJ	TTGTCCAAGTTCCTGGGAATGATTTATACGGTTCCGTTTGAAAATATGGTGGGCACAGAAGGAACGGATCTGTTTTCCATTGCTTACGTTCCTTACAGCATCCTGCTCAGCTTATCGAGCATGGGGGTACCTGTTGCGGTTTCCAAGTTTGTATCCAAATACAACTCGCTTGGAGATTATGAAACAGGGCAGCGGATGTTAAAAGCGGGCCTGACCCTGATGTCTATTACCGGAGTCATCGCGTTTTTAATGCTGTACTTCTCAGCTGAACAGGTAGCCATATGGACAATCGGCCCGGATTCTGACCGCCTCGGTCATGCGACGATGGTTATTCAGATGGTCAGTTTCGCCTTGCTCGTAATACCACCGATGAGTATTACACGAGGTTTCTTCCAGGGCCACGAATCGATGGCTCCGACGGCGGTCTCACAGGTCGTTGAGCAGATCGTCCGGATTGTCTTCCTTCTGGCTTCTGCGTTTATTATTGTCCAGGTACTTGGTGGACCGATCCACCAAGCTGTCGGGTTTGCAACCTTTGCCGCATTTATCGGAGGGATTGCTTCCTGTATCGTTCTTTATGTGTATTGGAGAAAACGAAAGCCGTTCCTGGAAAACCAGCTGCAGGCCCAGGAATATACGTACGGCTTGTCCAATAAGGAAATGTTTAAGGAATTGTTCACATACGCCGGCCCTTTCATTCTGGTCGGAATTGCCACGCCTTTATACCAGCTGGTCGACCAGTTTACCCTGGAGAAAGCAATTAAGGCGTCAGGCGCTGAATATAACAATGCCTTTTCGATCATTAATTTTCTAAGTCACAAATTAATTATGATTCCCGTAACCCTCGGACTTGGATTATCACTGGCCCTGCTTCCGGCAATTACCCAGGCGTTTACGAAGAATGAGATGAGCCGGTTGAACAAGCAGATTAATCAGGCTCTGCAGATTGTTGCCTTGTTGATCATACCAGCCGTCGTTGGTTTATCAGTCGTCGCTTGGGAAGCGTACGCGACGTTCTACGGCGTGGATCATATTGAATACCGCGGAGATCTCCTCAGATGGTATGCACCGGTAGGCCTGTTCCTTGCTTTATACACGGTCACTTCTTCCATTCTTCAAGGAGTGAACAAGCAGAATTTTGCTGTGGTCAGTCTTGGTACAGGAATTCTGCTGAAAATCAGCCTGAACTGGTGGCTTATCCAGCTGCTGGGTGCCAAAGGCGCGATTTTAGCTACAGGAATTGGTGTGGCTGCAGCCGTCGGGCTCAATTTCTGGCGGATATTTACGACCATCGAATTTTCTTATAAACAGCTGCTGAAGCGGACGCTGCTTGTTGTGATTTTGACAGCCGTCATGGCCATTACGGTCATTGTAGTCAAATGGCTGCTCGGTTTTATATTTGACCCAACTGAAAACCGCCTGCATGCTCTGATTGTATTGATACTCAGTATAGGGGCCGGCGGGATCGTCTACTTGTGGACGGCCTACAAGACGACACTGCTTGAACATGTACTGGGCGGAAGAGTCCGTGTGCTCGATAAGTTCTTGAAGCGCAGCTAA	MSKFLGMIYTVPFENMVGTEGTDLFSIAYVPYSILLSLSSMGVPVAVSKFVSKYNSLGDYETGQRMLKAGLTLMSITGVIAFLMLYFSAEQVAIWTIGPDSDRLGHATMVIQMVSFALLVIPPMSITRGFFQGHESMAPTAVSQVVEQIVRIVFLLASAFIIVQVLGGPIHQAVGFATFAAFIGGIASCIVLYVYWRKRKPFLENQLQAQEYTYGLSNKEMFKELFTYAGPFILVGIATPLYQLVDQFTLEKAIKASGAEYNNAFSIINFLSHKLIMIPVTLGLGLSLALLPAITQAFTKNEMSRLNKQINQALQIVALLIIPAVVGLSVVAWEAYATFYGVDHIEYRGDLLRWYAPVGLFLALYTVTSSILQGVNKQNFAVVSLGTGILLKISLNWWLIQLLGAKGAILATGIGVAAAVGLNFWRIFTTIEFSYKQLLKRTLLVVILTAVMAITVIVVKWLLGFIFDPTENRLHALIVLILSIGAGGIVYLWTAYKTTLLEHVLGGRVRVLDKFLKRS	PGPT0017190_7	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
AK012_01291	1260		COG2081	putative protein	ATGAATTACCATGTAACCGTCATTGGCGGCGGGCCTTCCGGGCTGATGGCAGCCATCGCAGCTGCCGAACAGGGTGTAAGTACCCTGTTGATTGAAAAAGGGAAGAAACTGGGCACAAAGCTGGCCATTTCCGGAGGTGGACGCTGTAATGTTACGAACCGTCTTCCAGAGGAAGAAGTGATTAAGCATATCCCGGGAAACGGGAAATTTCTCTACAGTCCCTTCTCCGTGTTCAACAATTACGATATCATCGATTTCTTCGAGGGGCTTGGAGTCGCCCTCAAGGAAGAGGATCACGGCCGGATGTTTCCGGTCAGTAATAAGGCCAAGGATGTCGTCCAGGCGCTTTTGAACCGGATGGATGAGTTGAATATCGAGGTAAGAAAAGAAACACCTGTAGAAGCCATCCACTACGGGGAAAACGAACACGAGATCATTTTGAAGTCCAAAGAGAAAATTCAAACGAATGCAGTCGTCATTGCTGCTGGAGGAAAAGCAGTCCCGCATACAGGGTCTACAGGAGACGGCTACGCATGGGCGAAAAAAGCAGGCCATACGATTACGAAGCTCTTTCCAACCGAAGTTCCCCTGCTTTCCAAAGATCCTGTGATTAAACAGAAAACCCTCCAGGGACTTTCCCTTAGAGGCGTGAACGTATCTGTTTTAAATCCGAAAGGGAAGAAAATCATTACCCACCGGATGGATATGCTGTTCACTCACTTTGGTCTTTCCGGACCGGCTGTTCTACGCTGCTCTCAGTATGTAGTGAAAGAATTAATGAAAGGGCACTCCCCTGTGCAGGTGGAGATTGACGTTCTTCCGGACCAGCATGAGCAGTCTCTGTTGGACGAGCTGCAGAAAACCATGCAGGACCAGCCCAAAAAAGCTTTTCGGAATATAGTCAAAGGGATGGTACCTGAGCGTCTGCTGGATTATGTACTCGATCAGTCCGAAATTGATCGTGAAGACAAAGCAGCGAATTTGTCCAACCAGCAGCTTCACCAGTTCGTTCAACTGCTGAAACACTTTACCTTACATGTTCATGACTCTCAGCCGCTTGAAAAAGCCTTTGTTACGGGAGGCGGTGTATCGATTAAGGAAATCGTTCCAAATACGATGCAGTCGAAATTCATGCAGGGTCTTTATTTCTGCGGAGAAGTATTGGACATCCACGGCTATACAGGAGGATACAACATTACATCAGCTATGGTCACCGGTCGTGTTGCAGGTATGCATGCCGCTTGGGAATCAATGGGCTGA	MNYHVTVIGGGPSGLMAAIAAAEQGVSTLLIEKGKKLGTKLAISGGGRCNVTNRLPEEEVIKHIPGNGKFLYSPFSVFNNYDIIDFFEGLGVALKEEDHGRMFPVSNKAKDVVQALLNRMDELNIEVRKETPVEAIHYGENEHEIILKSKEKIQTNAVVIAAGGKAVPHTGSTGDGYAWAKKAGHTITKLFPTEVPLLSKDPVIKQKTLQGLSLRGVNVSVLNPKGKKIITHRMDMLFTHFGLSGPAVLRCSQYVVKELMKGHSPVQVEIDVLPDQHEQSLLDELQKTMQDQPKKAFRNIVKGMVPERLLDYVLDQSEIDREDKAANLSNQQLHQFVQLLKHFTLHVHDSQPLEKAFVTGGGVSIKEIVPNTMQSKFMQGLYFCGEVLDIHGYTGGYNITSAMVTGRVAGMHAAWESMG				NA	NA	NA	NA	NA
AK012_01292	258			hypothetical protein	ATGTTCGGGGTGATCATCATACAACTGACGAGATGGAGTTATTCACGTAGGAAAATGGTCCGCGGATATTTTGATAAGTTCCCACATTCAACCGTATACTTCAGAAGAATACGGCGCTTCTATATTATTTATATGGTCGATTGGCATGAGCTGGATCCGGTCATCACGCCTGAGGACCGTGAAGGGATGCAGCTGCTGATCAACCGTGAGCTTGGACGCGAGGAAGAATATAATCAAAGAAAGTCGAGAAAAGGCTGA	MFGVIIIQLTRWSYSRRKMVRGYFDKFPHSTVYFRRIRRFYIIYMVDWHELDPVITPEDREGMQLLINRELGREEEYNQRKSRKG				NA	NA	NA	NA	NA
AK012_01293	270			hypothetical protein	ATGGTTCAGTTTGAAAGAAAGCGCAATACATTTTGGAATTGGAAGTATGCGGTACTGCTGCTGCTTCTCCCTCTTGGATTTTATCTTGTTTCCCTGAGAGAAGGAATCGGAGAAATCCAGCACATGATCTTTGTGGTCCTTATTATCTGGCTGGCTATTGCAGGCGTTTTCGGTTTAACAAACAGGTGGGACCGGCTCCAAGTGTACGGATATTTGTACCTTTTCAGCAGTCTATTATTCTCTTTCCTCGGACTTGTTTTTATTTGGTAA	MVQFERKRNTFWNWKYAVLLLLLPLGFYLVSLREGIGEIQHMIFVVLIIWLAIAGVFGLTNRWDRLQVYGYLYLFSSLLFSFLGLVFIW				NA	NA	NA	NA	NA
AK012_01294	1167	adhE	COG1012	Aldehyde-alcohol dehydrogenase	ATGAATCGATTTACAATTCCCCGAGATATTTACTTTGGTGAAAATGCTCTTGAAGTACTGCAGGACATCAAAGGTAACCGGGCGCTCCTTGTTATTGGCGGAGGCTCCGTTAAAGAAAATGGCAATCTGGATACAATTAAACAACATTTATCTAAAGCAGATATAGAAACGAAGGTTATTGAAGGAATTACAGAAGAACCGTCTACGGATTTAGTAAACAATCATCTGGAAGAAGTGAAGAACTTTGGACCGGATTGGATTATCGGTATTGGCGGAGGTTCTCCTATGGATGCTGCCAAAGCCCTGTGGATTTTCTATGAACATCCAGACCTTACGTTCCAGGATGCGATGCAGCCATTTAACCTGCCAGCTCTAAGAGAGAAGGCAAAGTTTGCAGGTATTCCTACCACAAGTGGTACAGCTTCTGAAATCTCCAACCTATCCGTGATTACCGAATCAGAAACAGGAGTGAAGTATCCACTCGCTGATTTTGAGCTGACTCCTGATCTTGCGGTGATTGATCCGGTAATGGTTGAATCCATGCCGAAACGCGTAACCGCCTATAGTGGTATGGACGCTGTGACACACAGCATTGAGGCGTATGTGGCTAAGCCAAGAACGACCTTCACGGATGCCTTGTCCATTGAGGCACTGGAGACGTTGAATCAGCATCTTCTGTCTTCTTATAAAGATGATCAGGATTCCCGTGAAAAAGTCCACTATGCACAAGCAATGGCAGGCATGGCTTTTGCTAATGCTGTTCTTGGGAATGTTCACAGCCTGGCTCATAAAAGTGGACCTACGTTCGGTGTTCCGCACGGTTGTGCAAACGCGATCTATCTCCCTTATGTCATCCAGTTCAACCGCAGTGTAGTTGAGGACCGATATGCGGCTCTGGCACGCCGGATCGGCCTTTCCGGTCAATCTGATGCCGAACTTGTAGACCGCTTGATCGAGTGGGTGCGCAATCTCAATAAAGAGATGGATATCCCAAATACACTAAAAGACTTTGGTGTAGAGGAAGAGTTGTTTAAAGAGCACGTGGATCAAATGGCCGCCAATGCTGTAGAAGATCCATGTACAGGCACCAACCCACGTGAAACATCTGTAGAGCAGATGAAACAATTGTTCGAAGCCGCTTATTATGGTAAAGATGTCGATTTTTAA	MNRFTIPRDIYFGENALEVLQDIKGNRALLVIGGGSVKENGNLDTIKQHLSKADIETKVIEGITEEPSTDLVNNHLEEVKNFGPDWIIGIGGGSPMDAAKALWIFYEHPDLTFQDAMQPFNLPALREKAKFAGIPTTSGTASEISNLSVITESETGVKYPLADFELTPDLAVIDPVMVESMPKRVTAYSGMDAVTHSIEAYVAKPRTTFTDALSIEALETLNQHLLSSYKDDQDSREKVHYAQAMAGMAFANAVLGNVHSLAHKSGPTFGVPHGCANAIYLPYVIQFNRSVVEDRYAALARRIGLSGQSDAELVDRLIEWVRNLNKEMDIPNTLKDFGVEEELFKEHVDQMAANAVEDPCTGTNPRETSVEQMKQLFEAAYYGKDVDF	PGPT0006370_568	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006370-yiaY-K13954	NA	NA
AK012_01296	264	bofA		Sigma-K factor-processing regulatory protein BofA	ATGGATCCGGTACTGGTCGTTTTATTGTTGAGTCTCGCTGTACCTCTTTTGTTGATTACAGGCATGCCTGCCAAGCCGCTGAAGTGGGTGGGGGCTGTGCTTACGCGGTTAATTGTTGCGGTGATTCTCTTGTTTTTCGTGAACCTGTTTGGAGCGCAGTTCGGCCTGCATATTCCCATTAATGGATTCACAGCTGGTGTGTCCCTTGTATTAGGGCTCCCCGGTGTATTATCGTTAACAGCCATTCATATCTGGATCTTATAA	MDPVLVVLLLSLAVPLLLITGMPAKPLKWVGAVLTRLIVAVILLFFVNLFGAQFGLHIPINGFTAGVSLVLGLPGVLSLTAIHIWIL				NA	NA	NA	NA	NA
AK012_01297	216			hypothetical protein	TTGTTCGGTAAACAGAAGAAATTAAAAAAAGAAATGGATCAGGAGCTGCTTGTTCGTATCAGGAAGATGAAAGACGAATGGGAAAGCCTGGACACCATTATCGAACAAAGCATTGAACCGAGTGAAGAAGGTTTGAACGATCTTGCTTTAGTGAAAGCGAAATACTTCTATCTATTAAGAGAAGCGAGGTATAGAGGCATCAACGCATTATCCTGA	MFGKQKKLKKEMDQELLVRIRKMKDEWESLDTIIEQSIEPSEEGLNDLALVKAKYFYLLREARYRGINALS				NA	NA	NA	NA	NA
AK012_01298	597	recR	COG0353	Recombination protein RecR	ATGTATTACCCGGAACCAATATCAAAACTGATTGACAGTTTTACAAAGCTGCCAGGGATCGGTCCGAAAACGGCGGTCCGCCTGGCTTTTTTCGTGCTGGAGATGGAAGAAGATGATGTGCTTGATTTTGCCAAGTCCCTCGTCAATGCCAAACGTGAGCTGACTCACTGCTCGATCTGCGGCCATATTACAGATCAGGACCCGTGCTCCATCTGTCAGGATGAATCGCGGGATGCCAAACTGATTTGTGTTGTGCAGGATCCTAAAGATGTAATCGCCATGGAGAAGATGAAGGAATTCAGCGGGAAGTACCACGTGCTTCACGGGGCGATTTCACCGATGGACGGTATCGGACCGGAGGATATCAATGTGGCGGGTCTGATCAACCGTCTGAAGGACGAAGGGGTGGAAGAACTGATTCTGGCTACCAATCCCAACATTGAAGGGGAAGCCACAGCCATGTACATTTCCCGCCTCGTTAAACCTTCGGGGATCCGGATGACAAGGATTGCCCACGGACTTCCGGTCGGCGGCGACTTGGAGTATGCCGATGAAGTAACGTTGTCGAAAGCGTTGGAAGGCCGCAGAGAACTATAG	MYYPEPISKLIDSFTKLPGIGPKTAVRLAFFVLEMEEDDVLDFAKSLVNAKRELTHCSICGHITDQDPCSICQDESRDAKLICVVQDPKDVIAMEKMKEFSGKYHVLHGAISPMDGIGPEDINVAGLINRLKDEGVEELILATNPNIEGEATAMYISRLVKPSGIRMTRIAHGLPVGGDLEYADEVTLSKALEGRREL				NA	NA	NA	NA	NA
AK012_01299	318		COG0718	Nucleoid-associated protein	ATGCGTGGTGGTGGAAACATGAACAATATGATGAAACAGATGCAGAAAATGCAGAAGAAAATGATGAAGGCTCAGGAAGAGCTTTATGAGATGACCTTTGAAGCTTCTGCAGGAGGCGGCATGGTTAAAGTGACAGCAAACGGGAAAAAGGAAATTACGGATGTTGCCATTGATGAGGAAGTTGTCGATCCGGATGATGTAGAAATGCTTCAGGATCTCATCATTACGGCAACGAACGATGTGATCAAGCAAGTGGACGACAAGACTAATGATACTATGGGACAATTCACGAAAGGGATGCCTGGAGGAATGTTCTAG	MRGGGNMNNMMKQMQKMQKKMMKAQEELYEMTFEASAGGGMVKVTANGKKEITDVAIDEEVVDPDDVEMLQDLIITATNDVIKQVDDKTNDTMGQFTKGMPGGMF				NA	NA	NA	NA	NA
AK012_01300	1731			hypothetical protein	ATGAGCTACCAGGCTTTATATCGTGTATGGCGTCCCCGGGATTTTGAAGGTGTCGTTGGGCAATCGCATATTACGCGGACACTGCAGAACGCAATTGTACAGGAAAAGTTTTCACATGCGTATTTATTTTCCGGACCCAGGGGAACGGGAAAAACGAGTGCGGCCAAGATTTTTGCCAAGGCCGTCAACTGCGAACGCTCCCCTGTAAAAGAACCTTGTAATGAATGTGATGCCTGCCTCGGCATTCAGGACGGCTCCATATCTGATGTCATTGAGATTGACGCCGCCTCCAACAACGGAGTGGAGCAGATCCGTGAGATCAGGGATAAAGTCAAATATGCTCCAAGTGCGGTGCCGTACAAAGTCTACATTATCGATGAAGTGCACATGCTTTCCATGGGTGCGTTCAACGCTCTATTGAAAACGTTGGAGGAACCGCCGAAGCATGTCATCTTTATTCTGGCGACGACCGAACCACATAAAATTCCGTTGACGATCATATCCAGATGTCAGCGTTTCGATTTCAAACGGATTTCCCAGAAATCGATGGTCGACCGCATGGTGAAGATCACAGCGGCAGAAGAGATCGCCGTGGCTTCTGAAGCCTTGGAAATCATTGCTCTTACGGCAGAAGGCGGTATGCGTGATGCCTTGAGTTTGTTGGACCAGGCTGTTTCCTACAGTGAAGAGGAAGTTACGATGGATGATGTCCTGGCAGTGACCGGCTCTGTATCACAAGCCAGGCTGACAGCTGTCTTGAGAGCTTTGAACGACCAGGATGCCCGGACGGCCCTTGAAGCGGTTGACGATCTCATCCAGCAGGGGAAAGACCCCGGTCGTTTCGTATTCGATCTGATCTACTACTTGAGGGATCTGCTGCTGTATCAAAGTGCTCCGGATCTGGAACACAACCTTGAGCGGGCTATTCCGGATGACTCATTCCGGACGCTGTCCGCAGAGTTGTCACCAGGATGGATCCAGCAGGCTATCCGGGAATTGAATCACTGCCAGCAGGAGATGAAGTGGACGACAAGTCCGAAAGTCTTCATAGAAATCGCCATGCTGAACATGGTCGAAGTGCAGGCTGGCCCCCAGGTATCCCAGACGGCGGATTCCAGTGCGGTTGAAAAGCTTTCAGGGAAGATCCAGGAGCTTGAAAAACAGCTGGCTGCCTTAAAAGAAAATGGTCCGGCCCCGCAGGCAGCCGCCCAGCCTGCTAAAAAACGCGCGCCTGCAAAATCAGGTAGAAAAGGGTATAATGTTCCATATGAGCGGATCAGACAGGTGCTCAGTGAAGCTTCCAAGGAAGAGATCAAAAATATTCAGGGCCGCTGGGCCGACTTTATGGAAGCACTCAAACAGCAGAATGCGCCGGCCCATGCCACCCTGTTGAACAGTAAACCACGGGCGGCCTCATCGAAAGCGCTCGTTCTGGCTTTCCGTTACGACATTCACTGCTCGCTGGCTCTGGAGCACCAAAAGACCATTGAGCCGCTTTTGACGGAGTATGCTGGAAAGCCGATGACAATCATCCCTATTCCTGAACCGAACTGGCAGGAATTGAGGGAGGAATATGTCCGCAAGCAGAAACAGACGCCGGATGAAGCATCGGAAGTGGATGTGGAAGAAGACGGGGAGGTTGAAAGCGCCCCGAAGCAGCCTCAGGAAGACCCGCATATTTCAGAAGCCCGTAAACATTTCGGGGACGATCTGATTGAATTTCAGGATTAA	MSYQALYRVWRPRDFEGVVGQSHITRTLQNAIVQEKFSHAYLFSGPRGTGKTSAAKIFAKAVNCERSPVKEPCNECDACLGIQDGSISDVIEIDAASNNGVEQIREIRDKVKYAPSAVPYKVYIIDEVHMLSMGAFNALLKTLEEPPKHVIFILATTEPHKIPLTIISRCQRFDFKRISQKSMVDRMVKITAAEEIAVASEALEIIALTAEGGMRDALSLLDQAVSYSEEEVTMDDVLAVTGSVSQARLTAVLRALNDQDARTALEAVDDLIQQGKDPGRFVFDLIYYLRDLLLYQSAPDLEHNLERAIPDDSFRTLSAELSPGWIQQAIRELNHCQQEMKWTTSPKVFIEIAMLNMVEVQAGPQVSQTADSSAVEKLSGKIQELEKQLAALKENGPAPQAAAQPAKKRAPAKSGRKGYNVPYERIRQVLSEASKEEIKNIQGRWADFMEALKQQNAPAHATLLNSKPRAASSKALVLAFRYDIHCSLALEHQKTIEPLLTEYAGKPMTIIPIPEPNWQELREEYVRKQKQTPDEASEVDVEEDGEVESAPKQPQEDPHISEARKHFGDDLIEFQD				NA	NA	NA	NA	NA
AK012_01302	480	tadA_3	COG0590	tRNA-specific adenosine deaminase	ATGGAAGATGAGTATTTCATGAAGCTTGCGATGAAGGAAGCGGAAAAAGCAGAAGCAGAAGGCGAAGTCCCGATTGGTGCCGTCATCGTCAAAGACGACAAAGTGATTGCTTCAGGCTACAATCAGCGTGAACAATCTCAGCGCGCTTCTTCCCATGCAGAATTCATCGCGATCGAGCGCGCCAATGAATATGAAGGAAGCTGGCGTCTGGAAGACTGCACGTTATACGTGACTCTGGAGCCTTGTCCCATGTGCGCCGGTGCCATTCTGCAGTCCAGAATTCCAAGAGTCGTATATGGAGCAGCCGACCCGAAGGCGGGCTGTGCGGGAAGCTTGTACCAGCTTCTGGAGGACAACCGCTTCAACCACGTATCAGAAGTCGTCCCTGGTGTACTGGGAGACGCATGCGGGGATATGCTGTCTCATTTCTTCCGCAGCCTCCGGTCAAAAAAGAAAAAGAAACCGGCTGTAGATAATTAA	MEDEYFMKLAMKEAEKAEAEGEVPIGAVIVKDDKVIASGYNQREQSQRASSHAEFIAIERANEYEGSWRLEDCTLYVTLEPCPMCAGAILQSRIPRVVYGAADPKAGCAGSLYQLLEDNRFNHVSEVVPGVLGDACGDMLSHFFRSLRSKKKKKPAVDN	PGPT0006855_12	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
AK012_01303	1290	sleL_1	COG3858	Cortical fragment-lytic enzyme	GTGCAGATTCATGTTGTGCAAGAGGGAGATTCTGTATATTCGATCGCCCGTCTTTATGATAGTACGCCAAACGATATCATAGAAGCAAATGAATTAGAAACTCCGGACGACCTCGTCATCGGCCAGGCTCTTGTGATCCCTATTGTCGGCCGGTTTTATTTCGTACAGCCGGGGGACAGTCTTTCTACTATTGCGGAGCGTTTCAATATGACAGCCGGCCGTCTGGCCGCCGTGAATGGTTTGAACCAGGACAGTACACTGCCCGTCGGGCTCAGGCTTTATATTCCGGATCAACCCCCGACACCGATTACGAGCAATGCTTACATTGAACCTTTTGGAGGCACCGTCTCCGATACGTTACGGCAGTCGGCGGAGAGGCGGGCCGTGAACCTGACCTATCTGGCCCCGTTCAGTTATGAGATCCAGGAGGACGGCACCTTAAAAGCGCCCCCGCTCGATAATTTCAAAGAGATAGCCAGGAAAAATGACGCGACCCTTATGATGGTCGTCACCAACCTCGCTGACGACGGATTCAGCGCCGAACTTGGTAGAAAGATCCTCAGCGATGAGGCGCTGCAAGACAAACTGCTTGATGAGATCATCCAGATTACGAAACAAGTAGGATTTAAGGACGTCCATTTCGATATGGAATTCCTCCCGCCGGAGATGAAAGAATCATACAATCAATTTCTGCGAAAAGCAAAGCAGCGTCTGTCCAAAGAAGGCCTGCTCATTTCGACGGCCCTCGCTCCTAAAACGAGCGCAGACCAAAAGGGAGCCTGGTATGAAGCTCATGACTATAAAGCTCACGGAGAGATCGTAGACTTTGTCGTGTTGATGACCTATGAATGGGGATACAGCGGAGGGCCGCCGCGGGCCGTTTCTCCAATCGGCCCCGTCACCGATGTCGTCAACTATGCACTTACGGAAATGCCGGCACAGAAAATTCTGCTCGGCCAGAATCTCTATGGATATGACTGGACGCTCCCTTATGAACCAGGCGGTGAATTCGCCAAAGCCCTCAGTCCCCAGCAGGCGATACAGACAGCCGGTAAAAATAATGTCGCTATCTCCTATGATGAAAAAGAACAGGCACCGTACTACACCTATACGGACGCAGACGGAAAGAAACATGAAGTATGGTTTGAGGACGCCCGGTCGATCCAAAAGAAATTCGATCTCATCAAAGAGAAGAACCTGCTCGGTATCAGCTACTGGAAGCTCGGGTTATCCTTCCCTCAAAACTGGGTCCTTCTCAGCAATCAGTTCAGCGTGACGAAAAACCCATAA	MQIHVVQEGDSVYSIARLYDSTPNDIIEANELETPDDLVIGQALVIPIVGRFYFVQPGDSLSTIAERFNMTAGRLAAVNGLNQDSTLPVGLRLYIPDQPPTPITSNAYIEPFGGTVSDTLRQSAERRAVNLTYLAPFSYEIQEDGTLKAPPLDNFKEIARKNDATLMMVVTNLADDGFSAELGRKILSDEALQDKLLDEIIQITKQVGFKDVHFDMEFLPPEMKESYNQFLRKAKQRLSKEGLLISTALAPKTSADQKGAWYEAHDYKAHGEIVDFVVLMTYEWGYSGGPPRAVSPIGPVTDVVNYALTEMPAQKILLGQNLYGYDWTLPYEPGGEFAKALSPQQAIQTAGKNNVAISYDEKEQAPYYTYTDADGKKHEVWFEDARSIQKKFDLIKEKNLLGISYWKLGLSFPQNWVLLSNQFSVTKNP	PGPT0025110_308	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025110-yaaH-K06306	NA	NA
AK012_01304	786			hypothetical protein	ATGATTGTTATTGAAAAGACCGACCACTTCATCATGATACCCCAGCACGAACACGCCGGCATTTCAGGAAGTATTGTGGATCATTGGAAAAACCACTTCCTGCTGCGCTCCAAACTGCGGGAAGAAGCGGACTGGGCAATCCGTCAGCACGACCGGGCCTGGATTCCCCTGGATGAGAAGCCTGTATGGAACGATGAGAAACAACGCCCGTATACGTTTGTGGATTATCCGCTCGAGGAAAAGCTGCTGGCTTATGAACGCGGAATTGGTGAGGTGGCTTCCAAGTCCTTTTATGCAGGAATGCTGTGCAGCATGCACTATGCTTCTTTCTTTCAAGAGGACAGCCACGATCCGTTGATTGTTGAATTCCTGAAGCAGGAGGAGAAGCGCCGCAAAGATTTGTATGAGTGGATGGAAATGGACATCCCATATGACGTCTATCATCTTCATTTTAAACGGCTGCAGTTCTGTGATGACCTCTCTTTGTATGTGTGCATGCAGGAGCCGGGGACACCGAAGGAACAGGAAATCCCCTGGTTTAAGGACGGGTTCAGGCAGACGTTTGATTTTGCCCCGGAGGGGATTTATCCGCAGTGGGACAGTGCCCGCCGGGTCATTCTCGATCCATTCCCGTTTGAACAGTCCTTTCATGTACAGATCCCGTATCGAAGAGTATATAAGGAAGAAATTAAGCGCCGGGGCTTGGTCGAGGCTTTCCAGGAAGCGGATATCGATCCTGTCACGGTCACATTTGTCGGAAAAGAAGAAAAGCCGCCTCTCTCATGA	MIVIEKTDHFIMIPQHEHAGISGSIVDHWKNHFLLRSKLREEADWAIRQHDRAWIPLDEKPVWNDEKQRPYTFVDYPLEEKLLAYERGIGEVASKSFYAGMLCSMHYASFFQEDSHDPLIVEFLKQEEKRRKDLYEWMEMDIPYDVYHLHFKRLQFCDDLSLYVCMQEPGTPKEQEIPWFKDGFRQTFDFAPEGIYPQWDSARRVILDPFPFEQSFHVQIPYRRVYKEEIKRRGLVEAFQEADIDPVTVTFVGKEEKPPLS				NA	NA	NA	NA	NA
AK012_01305	513	yfkM	COG0693	General stress protein 18	ATGAGTAAGATTGCATGTCTCGTAACGTCCCATTTTGAAGATGTCGAATATACACAGCCGGCGGATGCCTTCTCCAAGGAAGGTCATGAAGTGACAACGATTGAATGGAAAGCCGGCAAAGAAGTCGAAGGCAAGCAGGGAGAAGCATCCGTCAAAATCGACACGTCCATCGACGATGTAAAACCGGAGGACTTTGACGCTTTGTTCATCCCGGGCGGATTTTCCCCGGACATTCTCCGCGGTGATGAGAAGTTCGTTTCATTCGCTAAACATTTTATGGATGAGAAAAAGCCGGTCTTCGCCATCTGCCACGGGCCGCAGCTGTTGATTACAGCTAAAACGCTGGAAGGCCGTACCGCAACTGGTTTCAAATCCATCGCTGTTGATATGGAATACGCCGGTGTAGATTATAAGGATCAGGAAGTCGTCGTCTGTCAGGATCAGCTCGTAACCAGTCGTCAGCCGGATGACATTCCTGCTTTCAACCGCGAAGCATTGAAACTCCTTAAATAA	MSKIACLVTSHFEDVEYTQPADAFSKEGHEVTTIEWKAGKEVEGKQGEASVKIDTSIDDVKPEDFDALFIPGGFSPDILRGDEKFVSFAKHFMDEKKPVFAICHGPQLLITAKTLEGRTATGFKSIAVDMEYAGVDYKDQEVVVCQDQLVTSRQPDDIPAFNREALKLLK	PGPT0015010_3381	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
AK012_01306	1320	iucD_1	COG3486	L-lysine N6-monooxygenase	TTGGATAGAGAAATCAAAGACATCATTGGTATCGGCATCGGCCCCTTCAACCTTGGACTTGCTGCGCTCGTCGATCAGACGGAGGAAGTGGACGGTTTGTTTTTTGAACAGACGATCGAATTCAACTGGCACCCCGGCATGCTCATTGAAAAAATGGATCTGCAGGTTCCTTTTTTAGCCGATCTTGTTACGTTTGCTGACCCGAAGAGTCCATATACGTTTATCAATTACCTTCATGAGCACAATCGGATGTTTCCGTTTTTCTTCCACCGTCATTTTGAAATTCCAAGACAGGAATTCAACCATTATATGCAGTGGGTGGCCGGTCAGCTGGATGGGCTGCGCTTTGGCCATACCGTCATCGATGTCATCGATCATAAGGAAGAGGATACCCCGCACTATGAAGTGATCGTAGAAGAAACGACGACCGGCGAGAGAAAGCACTTCCGCTCCAGACACGTGGTGATGGGGACCGGGAATGAACCGGTTGTCCTTGATGGGATGGACCGGCTGCCGAATGAGGATGTGCTCCATACGAGCCGCTATCTGTTCCAAAAAGACCAGTTGCTGAAATCGCGTCATGTGGCAGTTATCGGTTCCGGTCAGAGTGCGCTTGAAGTGTTCCTCGATTTATTGGAGGAGCAGGAGCGGAATGATATGAAAGTGACGCTTTTGACGAGGTCAGGCGGGTTGTTTCAGCTTGATACGGCGAAGTTTGCCCAGGAGATGTTCACACCTGATTATGTGGATTATTTTCATAATTTAAGTTTTGATCAGCGGAAAGAGGCCCTGAGTACGCTCGATCCACTGCGGAAAGGAATCGCCCCGGATACGCTGACACGGTTGTATACCAAGCTGTATCACCGGACGACTGCGATGGAGGACAGCCGTGTGCTCATCCAGCCGATGACAGAGATCAACGGGGTTGAAGCTGCAAAAGAAGGCGGGTATGACCTGCAGTGCCGCCAGTGGCAGGAAGAGTATGACTACACATACCATGCCGATAAAGTCGTGTTTGCCACTGGTTACAAGCCGCATGTACCGTCCTGGTTTATGGATCGGTACAAGGATCAGGTGGAATGGGAAGCGGATCAGATGTACAAAGTGTCCCGCGACTACTACCTGGAATTCAAGGATGACCGGGACCATCACTTCTTCACTTTGACGAATCTGGTGCATTCACACGGCGCAGGGGCCACCAACCTCGGCCTTTCTGTTCACCGCAATGTGCATATCATCAACACCATCGCCGGTAAAGAAGTATATAAAAACCAAAAGGATACCACGTTCCAGACCTTTTCGATGAAGCATTCAGAGTAA	MDREIKDIIGIGIGPFNLGLAALVDQTEEVDGLFFEQTIEFNWHPGMLIEKMDLQVPFLADLVTFADPKSPYTFINYLHEHNRMFPFFFHRHFEIPRQEFNHYMQWVAGQLDGLRFGHTVIDVIDHKEEDTPHYEVIVEETTTGERKHFRSRHVVMGTGNEPVVLDGMDRLPNEDVLHTSRYLFQKDQLLKSRHVAVIGSGQSALEVFLDLLEEQERNDMKVTLLTRSGGLFQLDTAKFAQEMFTPDYVDYFHNLSFDQRKEALSTLDPLRKGIAPDTLTRLYTKLYHRTTAMEDSRVLIQPMTEINGVEAAKEGGYDLQCRQWQEEYDYTYHADKVVFATGYKPHVPSWFMDRYKDQVEWEADQMYKVSRDYYLEFKDDRDHHFFTLTNLVHSHGAGATNLGLSVHRNVHIINTIAGKEVYKNQKDTTFQTFSMKHSE				NA	NA	NA	NA	NA
AK012_01307	1299	ywdJ_1	COG2233	Putative purine permease YwdJ	ATGGAAAAACCATCAACACGATGGATGACGGAGACGCTTGAAACGGTACAGTGGTTTGTATTTCTTCTGGCAGGTGCTGTGGCCCTGCCGATCGTGATCGGATCTTTGTTCGGGCTTTCTTTTCCTGAGATAACCGGGTTGATGCAGCGGACGTTATTTGTAGTAGGGGCAGCCTCCTTTCTTCAAGGAGTGATCGGCCATAAGCTTCCGATTATGGAAGGTCCGGCCGGTATTTGGATCAGTATTTTCGCCGTCATGGCTTTCAGTGGGAAACAGAACGGCGACACGTATCTTGAAACCCTTCAAGTGCTGGAGGGGACGATGCTTTGGACCGGTCTGTTTTTAGTTTTATTCGGGCTGTTCAAATTGTCGCACAGAGTCCTGTTCGTGTTCACACCTTTTGTGACCGGGGCTTTTTTATTTATGCTGACGGTTCAGCTGAGCGGAACATTCCTTGAAGGGATGCTCGGTCTTCAGGAAGGAGCGGAGGGGATCAATGGGACAGATGCATGGACCGCCTTTGTCACTCTTGGACTTGTCCTTGGTCTGTCCATCGCAGGCCGGGGATGGATGAAAAGTTTCGCTGTGCTGATTGGGATCAGTGCAGGATGGGTATTGTATGAAATAGCCGTGCCGGCGCAGGTGGATGACTCTACAGGTGTCCAGTGGTTTTCACTCCCTGAAGTGTTTGCCTGGGGGCCGCCTGCCATGACTCCGGGGACCCTTCCCCTGGGGTTTATTACAGCAGTGATTCTGTTGTCGAATCTAGTAGCATCGGTGATTGCTGTCAGTCAGACCATATACGGAAATCCCCGTTATACATATGAGCAGATTAACCGGGGAAGCAGTTTCCTTGGCATCAACCACGGTCTGACCGCTCTTTTTTCTGCGGTGGCCAATGTGTCACTCGCTTCCTCCTCCGGTTTCATGCAGCTGACCGGCCAGAAACGGAAACAGCCGTTTCTCTATGCTTCTTTACTTCTGACCGGTCTGTCCCTGTTCCCTCCTGTGGTCAGGTTCATATCTTCTGTACCCGCTCCGGTGGCGAACGCAGCGCTTTTGGCTGCATTCGTGCAGCTGATGGGTCTTGGATTATCGAATTTGACGATGGAACCGCTGGACCAGCGGAAGCTGACTATTTTAGGTCTCTCCTTTCTGCTTGGGATCGGATTGATGTTCCTGCCGCCGGATGTATTCACAGGACTTCCAGGTGTGCTCCAGAATCTTCTAAGCAACGGGCTGCTTGTCGGAACGGTACTCGTCATTACATTGAACCAGTTATGGAAGGAATCAAATTAA	MEKPSTRWMTETLETVQWFVFLLAGAVALPIVIGSLFGLSFPEITGLMQRTLFVVGAASFLQGVIGHKLPIMEGPAGIWISIFAVMAFSGKQNGDTYLETLQVLEGTMLWTGLFLVLFGLFKLSHRVLFVFTPFVTGAFLFMLTVQLSGTFLEGMLGLQEGAEGINGTDAWTAFVTLGLVLGLSIAGRGWMKSFAVLIGISAGWVLYEIAVPAQVDDSTGVQWFSLPEVFAWGPPAMTPGTLPLGFITAVILLSNLVASVIAVSQTIYGNPRYTYEQINRGSSFLGINHGLTALFSAVANVSLASSSGFMQLTGQKRKQPFLYASLLLTGLSLFPPVVRFISSVPAPVANAALLAAFVQLMGLGLSNLTMEPLDQRKLTILGLSFLLGIGLMFLPPDVFTGLPGVLQNLLSNGLLVGTVLVITLNQLWKESN				NA	NA	NA	NA	NA
AK012_01308	1710	acsA_1	COG0365	Acetyl-coenzyme A synthetase	ATGGACATGCAGCCAATCCCAGCTCGATCAGGCAATCACAACATGGAAAACTACAAGCAGACGTATGAAAATTTTCAGTGGGACGATGCCAAAAAGCATTTTACCTGGAACGAAACCGGCCGGGTCAATGCCGCTTATGAAGCGATTGACCGCCATGCGGAAAACCCGGATAAAAAAGATCAGCCGGCGTTGATTTTTTCCGCTCCGGACAGGGAGGAAACGCTGAGTTTTTCCGACTTGAGCAGAAAAAGTAATCAGTTCGCCAATGTGTTGAAAAAACATCATATAGAAAAAGGTGACCGCGTCTTCCTTTTCATGCCGAGAAGCCCGGAATTTTACGCGGCCTTTTTCGGTATTTTGAAGGTGGGAGCGATCGCAGGACCATTGTTTGAAGCCTTTATGGAGCAGGCGGTCCGAGACCGTCTGGAGGATAGTGAGGCAACGATGCTGATCACGACCCCCGACCTTCTGGAGCGTGTACCGGCCGATGATCTGCCGAACCTGAAGCAGATTGTCCTTGTGGGCGGTGAAGCACCGGGCAATTATATTTCGTATGAAGAGGAAATGAAGGCAGCTTCTGAAACCTTCGATATCGAATGGGTCGACCTGGAGGATGGTATGCTGCTTCACTATACGTCCGGTTCAACAGGAAAGCCGAAGGGAGTGTACCACGTTCATAATGCCATGATCCAGCACTATCAGACAGGGAAATGGGTGCTTGATTTGAAGGAAGGCGACGTGTACTGGTGTACCGCCGACCCCGGCTGGGTGACCGGTACAAGCTACGGGATATTTGCACCGTGGCTGAACGGAGTTACCAACGTGATCCGAGGCGGACGTTTCAGCCCGGATGACTGGTACGGAACGATTGCGGAATATGATGTGTCGGTCTGGTATTCGGCACCGACAGCCTTCCGTAAATTGTTGAGCGCTGGTAAAGAGGCAGCAGAAAAACACGACTTATCATCACTCCGACATGTATTGAGTGTGGGAGAACCGTTAAATCCCGAAGTCGTCACATGGGGGCTTTCAGCCTTTGATCTGCGGATCCATGATACGTGGTGGATGACGGAAACCGGCGGTATGCTGATCTGTAACTATCCGGCGATGGATATCCGTCCGGGATCGATGGGTAAGCCGTTCCCAGGGATTGAAGCGGCAATCGTGGATAACGAAGGGAATGAGCTTCCAGACAACCAGATGGGGAATCTCGCTATTAAAGAAGGATGGCCGTCCATGATGCGTGCCGTATGGAACAATCCCGGAAAGTACGAAAGCTACTTCTTGAACGGTTGGTACGTCTCCGGGGACAGCGCGTATAAGGATGAAGATGGGTACTTCTGGTTCCAGGGCCGTCTCGATGATGTCATCAACACGTCCGGGGAACGCGTAGGACCTTTTGAAGTGGAAAGCAAACTGATTGAACACGAAGCGGTAGCAGAAGCTGGTGTCATCGGTAAACCGGATCCTGAGCGCGGGGAGATCATTAAAGCTTTCATTACACTGCGTGATGGATACGAGCAGTCCGATGAGCTGCTGGAAGAAATCCGCCAGTTTGTGAAGAAGGGACTCAGCGCCCATGCGGCCCCTCGTGAAATTGAAATCAAGGACACGATACCGAAAACGAGAAGTGGTAAAATCATGCGGCGTTTACTGAAGTCGTGGGAGCTCGGGCTTCCGACAGGGGATACGTCCACATTAGAAGAATAA	MDMQPIPARSGNHNMENYKQTYENFQWDDAKKHFTWNETGRVNAAYEAIDRHAENPDKKDQPALIFSAPDREETLSFSDLSRKSNQFANVLKKHHIEKGDRVFLFMPRSPEFYAAFFGILKVGAIAGPLFEAFMEQAVRDRLEDSEATMLITTPDLLERVPADDLPNLKQIVLVGGEAPGNYISYEEEMKAASETFDIEWVDLEDGMLLHYTSGSTGKPKGVYHVHNAMIQHYQTGKWVLDLKEGDVYWCTADPGWVTGTSYGIFAPWLNGVTNVIRGGRFSPDDWYGTIAEYDVSVWYSAPTAFRKLLSAGKEAAEKHDLSSLRHVLSVGEPLNPEVVTWGLSAFDLRIHDTWWMTETGGMLICNYPAMDIRPGSMGKPFPGIEAAIVDNEGNELPDNQMGNLAIKEGWPSMMRAVWNNPGKYESYFLNGWYVSGDSAYKDEDGYFWFQGRLDDVINTSGERVGPFEVESKLIEHEAVAEAGVIGKPDPERGEIIKAFITLRDGYEQSDELLEEIRQFVKKGLSAHAAPREIEIKDTIPKTRSGKIMRRLLKSWELGLPTGDTSTLEE	PGPT0002265_6140	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
AK012_01310	495	queF	COG0780	NADPH-dependent 7-cyano-7-deazaguanine reductase	ATGCCTGGAAGAAATGAAGAGGAACTCCCTCTTTCCCTGCTGGGGAACCAAGGAACAAGCTATTCATTTGAATATGACCCGGAGGTACTGGAAACGTTCGACAACCAGCATCCGAACCGTGATTATTTCGTTAAATTCAACTGTCCGGAATTTACGACCCTCTGTCCAAAGACGAGACAACCGGACTTCGCCACCCTTTATATCAGCTACATTCCTGATGTGAAGATGGTGGAAAGTAAATCCCTGAAGCTCTACCTGTTCAGCTTCCGCAACCACGGGGACTTTCACGAAGACAGCGTGAATACGATCATGAACGATTTGATTGAATTGATGGACCCCCGCTACATTGAAGTGTGGGGCAAGTTCACCCCGAGAGGCGGCATTTCCATTGACCCGTTCTGTAACTATGGAAAGCCGGGAACGAAATATGAGCAGATGGCGGACCATCGTCTGATGAATCACGACCTTTATCCTGAAAAAATCGACAACCGCTGA	MPGRNEEELPLSLLGNQGTSYSFEYDPEVLETFDNQHPNRDYFVKFNCPEFTTLCPKTRQPDFATLYISYIPDVKMVESKSLKLYLFSFRNHGDFHEDSVNTIMNDLIELMDPRYIEVWGKFTPRGGISIDPFCNYGKPGTKYEQMADHRLMNHDLYPEKIDNR				NA	NA	NA	NA	NA
AK012_01311	1452	aldA	COG1012	Lactaldehyde dehydrogenase	ATGAAGGAACATCAACTATACATTAATGGTGAATATACACAGTCCAATGGTTCGGAATGGATCGACGTTGTTAATCCGGCGACAGAAGAAGTCATCTCCCGTATCCCTAAAGGGACGGAGGAGGACGTAAATAAAGCAGTGGAAGCAGCTGCCGCAGCACAGAAGGGCTGGGAACTGACTCCGAATATCGAGCGCGGAAAAATCGTCCGACGCCTCGGAGATAAAATTGAGGAAAACCGTGAGCGGTTCATTGATCTTCTTCAGGAAGAACAGGGGAAGGATTATGAACTGGCCAGTGGAGAAATCGATCTGGCTATTGACTACTTCCGGTATATGTCGGAATGGGCCCGCCGGATCGAAGGGGAAATTGTCCCGAGTGACCGCGCAAACGAAAATATTTTCATTTATAAAAAGCCGATCGGTGTCGTAGCGGGAATCGTCCCGTGGAATTTCCCGATGTTTATTCTGGCCAGAAAAGTGGCCACGGCGCTCGTTACCGGCTGTACACTCGTCCTGAAGCCGAGTCAGCAGACACCGAATACGGCTGTCGAATTCACGAAGATCATTGACGGCATGGAGGATATTCCAAAAGGCGTCTACAACCTCGTCACCGGTACGGGCTCTGAAATCGGCAATACGCTTGCCAAACATAAAGATGTCCATATGATTACGATGACCGGAAGTGTTGGAGCTGGAACGAAAGTGATGGAGGCTGCGGCCCAGAACATTACGAAGGTCAACCTTGAACTCGGCGGCAAAGCCCCGGCTATTGTGACAGCGAATGCGGATCTTGATGTTGCAGCGGAAAACATTACAACTTCCCGTTTAGCCAACAACGGCCAGGCGTGTACGAATGCTGAGCGTGTGTACGTACACGAAAGTGTTGCGGAGGAGCTGATCAGTAAGCTCCGCCATCATTTTGAAAGCAAAACCCTCGGCAACCCGCGTGAAAACAAACAGGCGGATGTCGGCCCGCTTGTCAGCATGGACCGTATCGAAGAAGTGGAATCCATGGTGAAGGCAGCGGTCGATGCCGGCGCCCGGATTGAAATTGGGGGAGAGCGTGCGGATATGGAAAAAGGCTTCTTTTTCAAACCGACCATCCTGACCAATGTCACCCATGATATGGAGATTATGCAGGAGGAAATTTTCGGTCCGGTTATTCCGATTTCCACCTTCAAGACACTCGATGAAGCGATTGAAAAAGGGAATGACACGGAATACGGCTTGTCCTCTTCGGTGTATACAGATGATATGAATGAAGCGATGCGTGTCGTAAATGAACTGAAGTTCGGGGAAACATTCGTGAACCGCGAAAACTTTGAAGCCGTCCAGGGCTACCACGCCGGTATGAAAAAATCCGGACTCGGGGGTGCCGATGGGAAACACGGAATGGAAGACTTCCTCGTTACCCAGGTGGTTTACATGCAGTATAAAAACGATAAACAGTAA	MKEHQLYINGEYTQSNGSEWIDVVNPATEEVISRIPKGTEEDVNKAVEAAAAAQKGWELTPNIERGKIVRRLGDKIEENRERFIDLLQEEQGKDYELASGEIDLAIDYFRYMSEWARRIEGEIVPSDRANENIFIYKKPIGVVAGIVPWNFPMFILARKVATALVTGCTLVLKPSQQTPNTAVEFTKIIDGMEDIPKGVYNLVTGTGSEIGNTLAKHKDVHMITMTGSVGAGTKVMEAAAQNITKVNLELGGKAPAIVTANADLDVAAENITTSRLANNGQACTNAERVYVHESVAEELISKLRHHFESKTLGNPRENKQADVGPLVSMDRIEEVESMVKAAVDAGARIEIGGERADMEKGFFFKPTILTNVTHDMEIMQEEIFGPVIPISTFKTLDEAIEKGNDTEYGLSSSVYTDDMNEAMRVVNELKFGETFVNRENFEAVQGYHAGMKKSGLGGADGKHGMEDFLVTQVVYMQYKNDKQ	PGPT0001725_118	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
AK012_01312	252			hypothetical protein	ATGGATTTAAAGGAACATTTATTGACGGAAGGATATAACCAGATTGATATTCTTCTCGTCCGCGAAGGAGAAGACCAGACCACAGTACCTGGGATTACGCTTCATAAAGTCACAGATTTGGAGTACAAGCTTTATCTGGACCCGGAAACGATCACGTATCACCTGAAGGAAGAACACCCGTATTTCCAGGGTGATCAAAAAGTTGAATCCGGGGAAATGAAGCAGGTGAAGGGATATATTCTCGAATGGTAG	MDLKEHLLTEGYNQIDILLVREGEDQTTVPGITLHKVTDLEYKLYLDPETITYHLKEEHPYFQGDQKVESGEMKQVKGYILEW				NA	NA	NA	NA	NA
AK012_01313	105			hypothetical protein	ATGAGCGGAGGATACGGCGGCGGTTTCGCACTGCTGGTTGTTTTGTTCATCCTTTTGATCATTATCGGTGCTTCTTACATGGGCGGCCGTGGATACGGTTATTAA	MSGGYGGGFALLVVLFILLIIIGASYMGGRGYGY	PGPT0024985_309	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK012_01314	657			hypothetical protein	ATGAAACTTCAAATCATCATCGCCCTGATTCTTGCACTCCTGCTTACACAACTTCCTGTTGCGGGTAAGTATTTTGCAGTCTTGAATACTATGATACATGAAACCGGACATTCTCTCACAGCTTTAATGACCGGAGGGGAAGTGAGACATATTTCTTTATTCCCGAATACGTCCGGTGTTACGCTGACCGGTCACAGTTCGTGGTTCAGCCATGTGCTCACTAGTCTGGCGGGTTATGCTGCGGCTTCCTTTACCGCGTTTCTATTTTTTTATTTGATCAGCAGGGGGTATTGGTCATGGATGATTTATATCCTTCTCGCCATCCTTGCTGTCAACCTGCTTTTCTGGGTCCGGAATATTTACGGGGTGTTCTGGATTGTGACCTTTGGTGCGGGATTCATCTGGCTGCTCCGGACAGGGCATGACACGATCGTGCAGTATGTCCTTCTTCTGCTTGCCTCTCTTGTTCTCGTCGAGTCCGTCACCAGTGCGTTTGAGATTATGTGGATCAGCTTCGTGTCTCCGGGGCAGGCGGGGGATGCCGCTAACCTTGCCCGTGCTTTCCGGATCATCCCGTCCCCGGTTTGGGGCGTGCTGTTTTTCCTTCAGGCGGTTTATTTCGCCTTTCTTTCCCTTAAGCGTGTCTTTCCTCTCTAG	MKLQIIIALILALLLTQLPVAGKYFAVLNTMIHETGHSLTALMTGGEVRHISLFPNTSGVTLTGHSSWFSHVLTSLAGYAAASFTAFLFFYLISRGYWSWMIYILLAILAVNLLFWVRNIYGVFWIVTFGAGFIWLLRTGHDTIVQYVLLLLASLVLVESVTSAFEIMWISFVSPGQAGDAANLARAFRIIPSPVWGVLFFLQAVYFAFLSLKRVFPL				NA	NA	NA	NA	NA
AK012_01315	777	modA	COG0725	Molybdate-binding protein ModA	ATGAAAAAAAGCATATGGGCAGCATTCGTTTTCCTCCTCTTTTCAGCCGGCTGCGCGGGCGCCGAAGAAAAACCGACCCTGACAATTGCTGCTGCGGCCAGTTTAACAGATGCCATGGAAGAAATCGTGCCCCACTATGAAGATACCTACAACGTCAATGTGACATTATTACTGGGGAGTTCCGGAAAACTCGCACGTCAGATTGAACAGGGGGCTCCCGTAGACGTTTTTCTATCTGCAGATACACGCTGGACGACCTATTTAAAAGAGCGGGCGCTCACGGGTGACGATCAGACGACACCCTTTGCAGAAAACCGGCTCGTTACCATCAGCCATGAGAAACAGCCGTCCCTCAATTCTCTGAAGGCGTTGGACAGCATAGCTGGAGACCAAACGCTGGCTATCGGAAACCCCGACAGCGTCCCTGCTGGTACATATACGAAACAGGCGTTGGAAACGATTCAACTTTGGGATCGGCTGCAGGAACAGATGGTGTTTGCCGGGGACGTCCGCCAGGTGCTCACGTATGTGGAATCCGGGGATGCGGATTACGGAGTTGTCTATGCCAGTGATGCCTTGATTTCCGATAAGGTTCATGTCACGGCAGAAGTCGACCCTGCTTTACACGATTCGATCATCTACCCGGCTGCCACCATTACAAAAAGCCGGACTGAGGATGCAGCCTCCTCCTTTATAACGTTCCTGTCCACAGAAAAGGCCGTCTCGATTTTGGAGAACAACGGTTTTACCGCCCTGGGAGATGAAAAGAACAGATGA	MKKSIWAAFVFLLFSAGCAGAEEKPTLTIAAAASLTDAMEEIVPHYEDTYNVNVTLLLGSSGKLARQIEQGAPVDVFLSADTRWTTYLKERALTGDDQTTPFAENRLVTISHEKQPSLNSLKALDSIAGDQTLAIGNPDSVPAGTYTKQALETIQLWDRLQEQMVFAGDVRQVLTYVESGDADYGVVYASDALISDKVHVTAEVDPALHDSIIYPAATITKSRTEDAASSFITFLSTEKAVSILENNGFTALGDEKNR	PGPT0008435_2870	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008435-modA-K02020	NA	NA
AK012_01316	684	modB	COG4149	Molybdenum transport system permease protein ModB	ATGATGAGTATCAGCCCTCTCTTTCTCTCCTTAAAAGTAGCTGCCATTGCCACGGTCATCGTCTTTATATCCGGGACGCTTGCGGCTCGTTTGATTTCCCGGAAAATATTTCCCGGGAAAAGTCTGCTGGAATCCTTATTTCTTCTTCCGCTTGTCCTGCCGCCGACCGTGATTGGCTTTTGTCTATTGTACGCTTTCGGTAAAAATGGCTGGGCAGGGCGGTTATTGATGCATTGGTTCGATCTGCAGGTGGTATTCAGCTGGACAGGAGCTGTCATCGCTTCCGCCGTCGTGTCGTTTCCATTGATGTATCAAAGCGCGGCCGCTGCTTTTCAAAACTATGATACACAGTTGGAAAGCGCTGCTCATAATCTGGGTGCTTCCAGAAGGAAGGTCTTCTTCACTGTTGCCCTGCCGCTGGCCTGGCCGGGGCTGCTCGCCGGTCTGGTCATGACCTTTGCACGCTCCTTAGGAGAATTCGGAGCGACCTTGATGGTAGCCGGCTACATTCCGGGAGAAACCGACACCATTCCCCTCGCCATCTACTTTGCCGTCGAATCCGGACGGATGGAGGAGGCTCTTCTATGGGTGATGACCATCATAGCGCTCGGATTCAGTGCGGTCTACTGGCTGCAGACGTGGAGCAGAAGAAAAATCAATTTTTTCCGGCATCATTCTTCCTGA	MMSISPLFLSLKVAAIATVIVFISGTLAARLISRKIFPGKSLLESLFLLPLVLPPTVIGFCLLYAFGKNGWAGRLLMHWFDLQVVFSWTGAVIASAVVSFPLMYQSAAAAFQNYDTQLESAAHNLGASRRKVFFTVALPLAWPGLLAGLVMTFARSLGEFGATLMVAGYIPGETDTIPLAIYFAVESGRMEEALLWVMTIIALGFSAVYWLQTWSRRKINFFRHHSS	PGPT0008440_2906	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_TRANSPORT,PGPT0008440-modB-K02018	NA	NA
AK012_01317	612			hypothetical protein	ATGAAAATTGTTGTTTTTGGTTCTACAGGTGGAACAGGAAGGGCCTTTGTAGAGCAGGCTCTGGAATCCGGACACGATGTGACCGCTTTTTTAAGGGATCCTGAAAAGCTCCGCATAAATCATGAACGGCTGAATAGTGTACAAGGGGATGCAAGGAATGAGGCGGATGTCCACAGGGCTGTCCTCGGTCAGGAAGCGGTGGTTTCCTGTCTCGGGTCAGAATCATTAAAGGACCGCAGCACCCTTACCGTCATGACAGAGAACATGGTGGCCGCAGCCGCTCATCATGGCGTAACCCGGCTGCTCTACGTCGCCTCTGCCGGGTTATATAATGAAATCCCCGGATGGACCGGGTGGATGAGCCGGATGGTTTTGAGAAACGTCCTTCACGATCACCGACGGGCCGTCAATGCCGTTATAGCTGCCGATATGGATTATACGATCGCCCGGCCGATGCGCCTCCTGGATGGGCCTGTAACCGGGAATTACCGGACGGCTGAAACAGTTCCGGTGGGGGGACGAAGTATTTCCAGAGGGGATGTGGACCATTTCCTCCTCCACGCTCTGGAAGAAGGCACATACGTGAAGGAAACAACCGGACTCGCTGATTAA	MKIVVFGSTGGTGRAFVEQALESGHDVTAFLRDPEKLRINHERLNSVQGDARNEADVHRAVLGQEAVVSCLGSESLKDRSTLTVMTENMVAAAAHHGVTRLLYVASAGLYNEIPGWTGWMSRMVLRNVLHDHRRAVNAVIAADMDYTIARPMRLLDGPVTGNYRTAETVPVGGRSISRGDVDHFLLHALEEGTYVKETTGLAD				NA	NA	NA	NA	NA
AK012_01318	453	nudC		NADH pyrophosphatase	TTGGGATATGTGGAAGATTTACGAGCGCTCGTCGGTCACAGACCATTGATCTTCGTCGGAGCTGTCGTCGTTATTGTAGATGATCAGCAGCGCATCCTTCTTCAGCAGCGGACCTCTCCGTACGGCGTCTGGGGACTGCCGGGCGGACTGATGGAACTCGGGGAGAGTACGGAAGAAGTGGCTAAACGGGAAGTGTGGGAGGAAACCGGTCTGCAGGTGGACCATCTGAAGCTGTTCAATGTGTATTCAGGATCGGATCAATTTATCAGAGCTGATAACGGCGACGAATTTTACGTCGTCACCACGGCCTACTATACGGATACCTATTCAGGAACGTACCGCATGGACCCGGGCGAGTCCCTGCAGTTTAAGTTCGTTCCCCCTGATCAGCTGCCTGCTTCCATGGTCGGCAGCCACAGGAAAATGATTCAGGATTATTTGAAAAAAGCATAA	MGYVEDLRALVGHRPLIFVGAVVVIVDDQQRILLQQRTSPYGVWGLPGGLMELGESTEEVAKREVWEETGLQVDHLKLFNVYSGSDQFIRADNGDEFYVVTTAYYTDTYSGTYRMDPGESLQFKFVPPDQLPASMVGSHRKMIQDYLKKA				NA	NA	NA	NA	NA
AK012_01319	684	dck	COG1428	Deoxyadenosine/deoxycytidine kinase	ATGAATGCACGTGAACGCTACGGTATTCCACATGATAGTGTCATCACCATTGCCGGTACCGTCGGTGTCGGAAAATCAACGATGACCAATGCGATTGCGGATGCTCTCAAATTCCGGACATCTTTTGAAAAAGTGGAGACCAATCCGTATCTTGATAAATTTTACCAGGATTTTGAACGCTGGAGTTTTCACCTGCAGATTTATTTCCTGGCTGAACGCTTTAAGGAGCAGAAGAAAATCTTCGAATACGGGGGCGGATTCATCCAGGACCGTTCCATTTATGAGGATACCGGCATCTTTGCCCGGATGCACTATGAAAAAGGGACGATGTCAGGAACGGATTATGAAACGTATCGTAATCTGTTCGATGCCATGGTCATGACTCCCTATTTCCCTCATCCTGACCTTCTTATTTATCTGGAAGGCTCCTTCGATGATGTTCTCGGCCGTATTAAAGAACGTGGACGTCCGATGGAACAGGAAACACCTGTCGAATACTGGGAGGAAATGTTCAACCGTTATGACAACTGGATCGACAATTTCAATTCCTGTCCGGTGCTGCGCCTGAACATTGCGGACTATGATGTCCTCAATGACGAAAACAGCATTGAGCCGGTCCTTGAAAAAATCGGTCATTTTATTCAACAGTCCCGTAAATGGCGCTCCAGCCGCCTGTTGACGTAA	MNARERYGIPHDSVITIAGTVGVGKSTMTNAIADALKFRTSFEKVETNPYLDKFYQDFERWSFHLQIYFLAERFKEQKKIFEYGGGFIQDRSIYEDTGIFARMHYEKGTMSGTDYETYRNLFDAMVMTPYFPHPDLLIYLEGSFDDVLGRIKERGRPMEQETPVEYWEEMFNRYDNWIDNFNSCPVLRLNIADYDVLNDENSIEPVLEKIGHFIQQSRKWRSSRLLT	PGPT0021370_40	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021370-dck-K15519	NA	NA
AK012_01320	642	dgk	COG1428	Deoxyguanosine kinase	ATGGGAGATCTACCTTTCATTTCCGTTGAAGGGCCCATTGGGGTTGGGAAAACGTCTCTGTCTAAAAAGCTCGCCTCCCAGTTTGATTTTCACTTGTTAAAGGAAATCGTTGAGGAGAATCCCTTTTTAGGCAAGTTTTATGACAATATTGAAGAATGGAGCTTCCAGACGGAAATGTTTTTCCTTTGCAATCGTTTCAAGCAGCTGGAAGACATTGAACGTAAGTATCTGCAGGCTGGAAAGGCGGTTGTCGCGGATTATCATATTTCTAAAAATATGATCTTTGCCCGTCGAACTCTTCGAGAAGAACAATTTGATAAATATGCGCAGATTTTTGATATATTAACACATGATATGCCTAAACCGAATATGGTCGTTTATCTTCACGCGAGTCTTGATACGTTGATGGACCGGATCCGTATGCGGAACCGTGATGTCGAGGCCAATATTCAGCCCGCTTATCTCGAACAGCTTTCCAAGGATTACGAGGACTTCATGCGTCATTTTGAAGCCTCCCATCCAGATATCCCTGTGATCCGTTTGAATGGGGATCATTTGGATTTTGTAAAGCATCAGGACGATTTAAACTACATTGTTGCTCAAGTTGAACAGCATTTGAATAAAGGAGAAGTTATCAAATGA	MGDLPFISVEGPIGVGKTSLSKKLASQFDFHLLKEIVEENPFLGKFYDNIEEWSFQTEMFFLCNRFKQLEDIERKYLQAGKAVVADYHISKNMIFARRTLREEQFDKYAQIFDILTHDMPKPNMVVYLHASLDTLMDRIRMRNRDVEANIQPAYLEQLSKDYEDFMRHFEASHPDIPVIRLNGDHLDFVKHQDDLNYIVAQVEQHLNKGEVIK	PGPT0021655_453	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021655-dgk-K15518	NA	NA
AK012_01323	1275	serS		Serine--tRNA ligase	ATGTTGGATATGAAATTTTTACGTCAGAACTTTGATGAAGTGAAAGCAAAGCTGCAGAAGAGGGGCGAGGACCTGTCTGATTTAGACGCCTTTGGTGAACTCGACAGCCGCCGCCGTGAGCTGATTCAGGAAACAGAGGAGCTGAAAGCGCGCCGTAATGACGTGTCCAAGGAAATCTCCCAGCTCAAGAAAAACAAAGAAGATGCCGACGACAAGATTACAGAAATGCGTGAAGTCGGTGACCGGATCAAAACCCTGGATACGGAGCTGAAGGAAGTGGAAGAGAAGCTGGAGACGCTGCTCTTGTCCATTCCGAACATTCCGCACGAAAGCGTACCAGTCGGAGAAGATGAAGATGATAATATCGAAGCCCGCCGCTCTGGAGAAACGCCTGTCTTTGATTTTGAAGCGAAGCCCCACTGGGACATTGCTGCAGACCTCGGCATTCTTGACTTCGAACGTGCAGGAAAGGTGACAGGAAGCCGTTTCGTCTTTTATAAAGGCGTTGGTGCCCGCCTGGAACGTGCGTTGCTGAACTTCATGATGGATCTGCACGCGGATGATCATGGTTATCAGGAGATGCTTCCGCCACAGATGGTCAACCGTACATCCATGACCGGAACGGGCCAGCTGCCGAAATTTGAAGAAGACGCCTTTAAGATTGAAGACTGGGATTACTTCCTTGTCCCGACCGCAGAGGTTCCTGTCACGAACTACTACCGCGAAGAAATTTTGTCTGGTGAGGACCTGCCGCAGAAATTTGTCGCCTTCAGCACCAACTTCCGTTCTGAAGCCGGTTCTGCCGGGCGTGACACACGCGGATTGATCCGTCAGCACCAATTCAATAAAGTCGAGCTTGTCCAGCTGGCAAAGCCTGAGGAATCCTACGATGTGCTTGAGGAATTAACAGGCCATGCTGAAAAAGTGCTGCAGCTGTTGAAGCTTCCATACCGTGTGATGAGCATGTGTACCGGTGACCTCGGCTTTACCGCTGCTAAGAAATATGACATCGAAGTATGGATTCCGAGCCAGGAAACCTACCGGGAAATCAGCTCCTGCTCCAACTTCGAGGATTTCCAGGCGCGTCGTGCCGGTATCCGTTTCCGTCGTGAAGAGAAAGGCCGTCCGGAATTTGTGCATACACTGAACGGTTCCGGTCTTGCGATCGGCCGTACTGTCGCTGCTATTCTTGAGAATTATCAGCAGGCGGACGGTACTGTCGTCGTACCGGAAGCTCTCCGTCCTTACATGGGTGGAAAAGAAGTCATCCAATAA	MLDMKFLRQNFDEVKAKLQKRGEDLSDLDAFGELDSRRRELIQETEELKARRNDVSKEISQLKKNKEDADDKITEMREVGDRIKTLDTELKEVEEKLETLLLSIPNIPHESVPVGEDEDDNIEARRSGETPVFDFEAKPHWDIAADLGILDFERAGKVTGSRFVFYKGVGARLERALLNFMMDLHADDHGYQEMLPPQMVNRTSMTGTGQLPKFEEDAFKIEDWDYFLVPTAEVPVTNYYREEILSGEDLPQKFVAFSTNFRSEAGSAGRDTRGLIRQHQFNKVELVQLAKPEESYDVLEELTGHAEKVLQLLKLPYRVMSMCTGDLGFTAAKKYDIEVWIPSQETYREISSCSNFEDFQARRAGIRFRREEKGRPEFVHTLNGSGLAIGRTVAAILENYQQADGTVVVPEALRPYMGGKEVIQ				NA	NA	NA	NA	NA
AK012_01325	591	pdxT	COG0311	Pyridoxal 5'-phosphate synthase subunit PdxT	ATGACTACTATCGGTGTGTTAGGTCTGCAGGGAGCTTTCCGAGAGCATATCCGCTCTGTGGAAGCCTCTGGTGCCACCGGCGTTGTTATTAAGAAAAAAGAACAGCTGGATGACATTGACGGACTGATTATTCCCGGCGGGGAAAGTACAGCGATCCGCCGCTTAATTGATAAGTATGACTTCCTTGAACCGATCCGTGAATTCGGAAAGCAGGGGAAGCCGATCTTCGGTACGTGTGCAGGCTTGATCCTGCTTGCATCTGAAATTGACGGCTCTTATGACGTCCATCTCGGATTGATGGATATCAAAGTCCGCCGTAATGCCTTCGGCAGACAACGGGAAAGCTTTGAAGCCGACCTGGATATCGACGGGGTCGCCGATCAGTTTACAGCTGTGTTCATTCGAGCCCCTTATATCGAGGGGGTAGGAGAAGAGACGAAGGTACTGGCCCGCTATGACGGTCATATTGTGGCTGCTCAGCAGGATCACTATCTCGCCTGCTCCTTCCACCCTGAATTGACAGAAGACCACCGTTTGGTTTTACATTTTGTAAAAATGGTGGAGCAATCCCGAAAAAGCCTTGCAATGTAA	MTTIGVLGLQGAFREHIRSVEASGATGVVIKKKEQLDDIDGLIIPGGESTAIRRLIDKYDFLEPIREFGKQGKPIFGTCAGLILLASEIDGSYDVHLGLMDIKVRRNAFGRQRESFEADLDIDGVADQFTAVFIRAPYIEGVGEETKVLARYDGHIVAAQQDHYLACSFHPELTEDHRLVLHFVKMVEQSRKSLAM	PGPT0009185_1229	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009185-pdxT|pdx2|yaaE-K08681	NA	NA
AK012_01326	885	pdxS	COG0214	Pyridoxal 5'-phosphate synthase subunit PdxS	ATGTCACAAACAGGTACTGAACGCGTAAAACGTGGAATGGCTGAAATGCAGAAAGGCGGCGTCATCATGGACGTTGTCAATGCAGAGCAGGCGAAGATTGCAGAAGAAGCAGGTGCGGTTGCGGTTATGGCCCTTGAGCGTGTTCCAGCCGATATCCGTGCGGCCGGCGGCGTTGCTCGTATGGCTGACCCGACGATCGTTGAAGAAGTGATGAACGCTGTATCCATCCCTGTCATGGCCAAAGCTCGTATCGGCCACATTGCAGAAGCACGGGTTCTTGAAGCGATGGGTGTCGACTACATCGATGAAAGTGAAGTCCTGACACCGGCTGATGAAATCTACCACATCAAAAAAGACGATTATACCGTTCCTTTCGTATGTGGATGCCGTAACATCGGTGAAGCGACACGCCGTATCCGTGAAGGTGCCTCAATGCTCCGTACCAAGGGAGAGCCGGGTACAGGAAACATCGTTGAAGCTGTCCGTCACATGCGTCAGATTCAATCCGAAATCCGCCACCTTCAAAGCCTTGCAGAAGACGAAGTGATGGTCTTTGCCAAGGAAAATGGCGCACCATTCGATCTTCTTATGGAAATCCGTGAAGAAGGACGTCTTCCTGTCGTAAACTTTGCTGCAGGTGGTATTGCGACACCAGCGGATGCCGCTCTTATGATGCAGCTTGGTGCAGACGGCGTGTTCGTCGGCTCCGGTATCTTCAAGTCCAATAACCCTGCTCAGTTCGCCCGTGCGATTGTAGAAGCTACGACTCACTACGACGATTACAAGCTGATCGGCGAATTGTCCAAAGGTCTTGGAACAGCGATGAAAGGCATGGAAATGTCCACGCTTACTTCTGATCAGCGTATGCAGGAGCGCAGCCAGTAA	MSQTGTERVKRGMAEMQKGGVIMDVVNAEQAKIAEEAGAVAVMALERVPADIRAAGGVARMADPTIVEEVMNAVSIPVMAKARIGHIAEARVLEAMGVDYIDESEVLTPADEIYHIKKDDYTVPFVCGCRNIGEATRRIREGASMLRTKGEPGTGNIVEAVRHMRQIQSEIRHLQSLAEDEVMVFAKENGAPFDLLMEIREEGRLPVVNFAAGGIATPADAALMMQLGADGVFVGSGIFKSNNPAQFARAIVEATTHYDDYKLIGELSKGLGTAMKGMEMSTLTSDQRMQERSQ	PGPT0009180_1602	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009180-pdxS|pdx1|yaaD-K06215	NA	NA
AK012_01327	1332	dacA		D-alanyl-D-alanine carboxypeptidase DacA	GTGACACAAAGATTTAAAACATCTATCGCCTTAATCATGTCCTTGTTGATCGGGATTTTCGCTGTAAGTGCCAATCCCGGACATACATACGCAAGCGTAGATGTTGGGGCAAAATCAGCGATACTTGTAGATGCAGAAACCGGGAAAATTTTGTTTGAGAAAGAAGCGGATTTGACACTGCCGCCGGCCAGTATGACGAAGATGATGACCGAATATCTCGTCATGGAGGCGGTGGAAGAGGGGAAAATCAGCTGGGATCAGAAGACCCCTGTCAGTCAGTATGCTTTTGATATATCAGCCAACCCGGAATACTCCGGTGTCGGCTTACGTTTAGATGAACAATATACCGTACGTGAACTTTATGAAGCCATGGCTATCAACTCGGATAATGCCACGACGATTGCTCTTGCGGAGTTAGTGGCTGGGACCGAAGGCGAATTCGTCAAAATGATGAATGCCAAGGCAGAGGAAATGGGACTGCCGGATTATGAATTTGTGAACGCCACGGGACTAAACAACAGTCATTTGGAAGACAACTATCCTGAAGGCACCGATCCGGAAGCGACCAATATGATGTCGGCCAAATCGGCAGCACTTCTGGCGTATCACTTAACGAATGACTATCCGGAAGCCCTGGAAGTTTCAAGCAAGCCGACGCTTGAATTTGCCGGCCAGACCGTCACCAACTGGAACTGGATGCTTCCAGGCATGCCTGGTCAGAACTTGAAGCAGTTTGAATACGAGGGCATGGACGGCCTGAAGACCGGTTACACAGAGCTTGCCGGGAATACATTTACAGGGACCGCCGAGCGTGATGGTCAGCGTTTCATCTCTGTCGTAATGAAATCTGAAACACGTTCCTCCCGTTTCAATCAGACACGGACCCTTCTGGATTACGGTTTTAATCAATTTACAAGGCAGGAGATTCTTGCTGCCGGGGAAACCGTAGAAGACCAGGATTCTATTTCTGTTGCAAAAGGAAAAGAAGACGCTGCAGCCATTGAAACGAGTGAAGCTTTGAGCACCCTTTTGAAGAGCGGCGAACAAGAAGACTATGAAGTTGAATTTTCCATCTCCGAAGACCAGCTTGACGAGGACGGCAAGCTTGTAGCTCCTGTCGAGAAAGGTCAGAAGGTCGGAACAGCCAGACTGGTCTACACGGGAGACGAAAGCTACGGGAACCTTGTGAAGGAAGAGGGACAGACCGTCGATATCGTTACATCGGAAGCCGTGGAAAAAGCCAACTGGTTCATGCTGATGCTGGGTGGAATCGGTGATTTCTTCAGTGATATTTTCACTGGAGCTGTCGATATGGTGAAAGGCTGGTTCTAA	MTQRFKTSIALIMSLLIGIFAVSANPGHTYASVDVGAKSAILVDAETGKILFEKEADLTLPPASMTKMMTEYLVMEAVEEGKISWDQKTPVSQYAFDISANPEYSGVGLRLDEQYTVRELYEAMAINSDNATTIALAELVAGTEGEFVKMMNAKAEEMGLPDYEFVNATGLNNSHLEDNYPEGTDPEATNMMSAKSAALLAYHLTNDYPEALEVSSKPTLEFAGQTVTNWNWMLPGMPGQNLKQFEYEGMDGLKTGYTELAGNTFTGTAERDGQRFISVVMKSETRSSRFNQTRTLLDYGFNQFTRQEILAAGETVEDQDSISVAKGKEDAAAIETSEALSTLLKSGEQEDYEVEFSISEDQLDEDGKLVAPVEKGQKVGTARLVYTGDESYGNLVKEEGQTVDIVTSEAVEKANWFMLMLGGIGDFFSDIFTGAVDMVKGWF	PGPT0024040_1205	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK012_01328	1470	guaB	COG0516	Inosine-5'-monophosphate dehydrogenase	ATGCGAGAAGACAAGTTTGCAAAAGAAGGATTAACGTTTGATGATGTACTGCTTTTACCTGCGAAATCTGATGTACTGCCCCGCGATGTATCTCTGAGGACAGAACTTTCCCCGACGCTGAAGCTGAACATGCCGATTATCAGTGCCGGTATGGACACTGTAACAGAAGCGGCGATGGCTATTGGAATGGCACGCCAGGGTGGTCTTGGTGTCATTCATAAGAACATGTCCATTGAAGAGCAGGCCGAACACGTCGATCGTGTCAAACGCTCCGAAAGCGGCGTCATCACGAATCCATTCTTTTTAACCCCTGAGCACCAAGTGTTTGATGCGGAACACCTGATGGGCAAATTCCGGATCTCCGGCGTTCCGATCGTGAACAATGAAGATGAACAGAAGCTTGTCGGCATTTTGACAAACCGTGACCTCCGTTTTATCGAAGACTATTCTATTCAGATTCAGGAAGTGATGACGAGCGAAGACCTTGTCACAGCTCCTGTGGGGACGACGCTGGATGAAGCTGAAAAAATCCTCCAGAAATATAAGATTGAGAAGCTGCCGATGGTCGATAATCAGGGGATCCTGAAAGGCCTGATTACCATTAAGGATATCGAGAAAGTGATTGAGTTCCCGCAGTCAGCCAAGGATGAGCAGGGCCGGCTGCTGTGTGCGGCTGCTGTCGGTGTCACAGCTGATGCGATGACACGGATTGATAAGCTTGTGGAAGCCGGGGTCGACGCGCTTGTTGTGGATACGGCCCACGGTCATTCCCAGGGGGTGATCGCCCAGGTGAAACGCATCCGTGACCGTCATCCGAATATCAACATTATTGCCGGAAACGTAGCGACTCCTGACGCCACCCGTGAGCTGATCGAAGCCGGGGCGGATGTAGTCAAAGTCGGTATCGGACCGGGATCGATCTGTACGACCCGCGTTGTCGCCGGTGTCGGTGTGCCTCAGATTACAGCCGTCTACGACTGTGCACGAGAAGCAGCGAAACTGGGTAAGCCGGTCATTGCTGACGGTGGAATTAAATACTCCGGGGATATCGTCAAAGCGATCGCCGCCGGTGGACATGCCGTGATGCTCGGAAGCCTGCTTGCCGGTGTATCCGAAAGCCCGGGCGAAACGGAGATCTTCCAGGGCCGCCGTTTCAAAGTGTACCGCGGTATGGGATCTGTCAGTGCCATGGAATCCGGTTCCAAGGACCGCTATTTCCAAAACGAATCGGAATCGAAAAAGCTTGTACCAGAAGGCATCGAAGGCCGTATGCCATATAAAGGACCGCTTTCCGACAGCATTCACCAGCTGCTTGGTGGTCTCCGTTCAGGTATGGGGTACTGTGGAACACCGAACTTAGACGCATTGAGAAATGACAGTCAGTTCACACGCATCACAGGAGCGGGTCTCAGAGAGAGTCACCCCCACGATGTCCAGATTACCAAAGAATCGCCGAACTACTCCGTTTGA	MREDKFAKEGLTFDDVLLLPAKSDVLPRDVSLRTELSPTLKLNMPIISAGMDTVTEAAMAIGMARQGGLGVIHKNMSIEEQAEHVDRVKRSESGVITNPFFLTPEHQVFDAEHLMGKFRISGVPIVNNEDEQKLVGILTNRDLRFIEDYSIQIQEVMTSEDLVTAPVGTTLDEAEKILQKYKIEKLPMVDNQGILKGLITIKDIEKVIEFPQSAKDEQGRLLCAAAVGVTADAMTRIDKLVEAGVDALVVDTAHGHSQGVIAQVKRIRDRHPNINIIAGNVATPDATRELIEAGADVVKVGIGPGSICTTRVVAGVGVPQITAVYDCAREAAKLGKPVIADGGIKYSGDIVKAIAAGGHAVMLGSLLAGVSESPGETEIFQGRRFKVYRGMGSVSAMESGSKDRYFQNESESKKLVPEGIEGRMPYKGPLSDSIHQLLGGLRSGMGYCGTPNLDALRNDSQFTRITGAGLRESHPHDVQITKESPNYSV	PGPT0021445_3086	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021445-guaB-K00088	NA	NA
AK012_01329	720			hypothetical protein	ATGATGGGACGGCCGGATTCATTTTTACAGTACCTGCAGGTAACCTCCCACACCCGGCCATTTCTGCACGCCTGTTATACAGATGGTCAGCATTCCCGGGTGGAGCATCACGCCTATAACAATGCCGAACGTTTTATGTACGGACTTACCCTTGGAGGGGAATATGTCTCTTCCGCCTCTTCCACTCCCTTGAGCGTCCAGCCTCTCCTTTTATACTATGGACTGAACCATTATTTGAAGGCGTGTCTATTGACGGTGGATCCCGGTTATCCGGCTACAGCCAAAGTGCTTGCCCACGGACTTTCGACACGGAAAAGGAAAAAGCAGCAATACCGTTTTCTTGAAGATGACATCAGAATCCAGCCGCACGGTTTGTTCCCCCATGCCGCCTCTCATTTGTTCGGCTTTTCAGTGGAAAAAGAAAAGGCAGCAATGGATGAACTGCTCCGGCCTCTGCCGGCGATGCGGGAGCTTTACCTGCTGAAAAATATTCAGCCCGGACATGAAGGAAAGACATGGCCGGAGCTGCTCAGTTATTTCGCTGTTCTATATAATCTCAGTATGCTCGTCCGTTATGAAGGGGACTGGTGGGGGGAGATGGAACAGATGCGGGACAGGGAGGATTATGTCTTTATCGTTCATTTTCTGCAGTCTGCCGTCGATCAGGTGCCGGCGTTGATCAGCACATGGCTGAAAGACCGCCATCTGTCCATTCAGTGA	MMGRPDSFLQYLQVTSHTRPFLHACYTDGQHSRVEHHAYNNAERFMYGLTLGGEYVSSASSTPLSVQPLLLYYGLNHYLKACLLTVDPGYPATAKVLAHGLSTRKRKKQQYRFLEDDIRIQPHGLFPHAASHLFGFSVEKEKAAMDELLRPLPAMRELYLLKNIQPGHEGKTWPELLSYFAVLYNLSMLVRYEGDWWGEMEQMRDREDYVFIVHFLQSAVDQVPALISTWLKDRHLSIQ				NA	NA	NA	NA	NA
AK012_01330	2541	gyrA	COG0188	DNA gyrase subunit A	ATGGTCGATCAACCCGAGCGCCCGCGCGTGCAGGAAATCAATATCAGCCAGGAGATGCGTACATCCTTCCTGGACTATGCGATGAGTGTTATCGTCGCCCGGGCTCTGCCTGATGTCAGAGACGGTTTGAAACCTGTACACCGCAGAATACTATATGCCATGCACGACCTCGGTATGCATGCAGACAAAGCTTACAAGAAATCCGCACGTATCGTCGGAGAGGTGATCGGTAAGTACCACCCTCACGGTGATTCCGCCGTTTACGATACGATGGTGCGGATGGCGCAGGACTTCAACTACCGCTATATGCTTGTCGACGGACACGGAAACTTCGGTTCTGTCGATGGGGATGCAGCGGCAGCGATGCGTTATACCGAAGCCCGGATGTCGAAGATCTCCATGGAGATTCTCCGGGATATCAACAAGGATACGATAGACTACAACGACAACTACGATGGCACGGAGCGGGAGCCGGAAGTGCTTCCATCCAAATTCCCGAACCTTCTCGTTAACGGAGGGTCAGGAATTGCCGTTGGTATGGCGACCAACATTCCGCCGCATCAGCTTGGGGAAGTGATCGACGCGGTGCTTGCGCTGAGTAAGGATCCGGAGATTACGATACAGGAATTGATGGAGAATCATATTTATGGACCGGATTTCCCGACTGCTGGTAAAATCCTCGGTTTGAGCGGCATCCGGAAAGCATATGAAACCGGAAAAGGCTCTTTGACCGTCCGCGCCCATGTGGAAATCGAGGAGCAGTCCAACGGCAAATCCTTCCTGATCGTCACGGAGCTTCCTTATCAGGTGAACAAAGCCCGCCTTGTAGAAAAAATCGCCGATCTCGCCCGTGATAAGAAAGTAGATGGAATTACCGATCTTCGTGACGAATCGGATCGGAACGGCATGAGGATTGTCATTGAACTGCGCCGGGACGTCAACCCGAATGTACTGCTGAACAACCTGTACAAAATGACGGCCCTGCAGTCCACGTTCGGCATTAACATGCTGGCCCTCGTCAACGGCCACCCGAAAGTGCTCAATCTGAAGCAGTGCCTGGAATACTATCTGGATCACCAGAAGGTCGTCATCCGCCGCCGTACGGAATATGAGCTGAAAAAGGCCGAGGCCCGCGCTCACATCCTGGCCGGTTTACGAATTGCCCTTGACCACTTGGATGAAGTCATTGCATTGATTCGTGAATCCCAGACGACGGAAATCGCCCGGACTGGCTTGATGGAACGCTTCAGCCTGTCAGAAAAGCAGGCCCAGGCGATCCTTGATATGCGTCTGCAGCGTCTGACTGGTCTTGAGCGTGAAAAGATTGAAGAAGAATACCAGGACATTATGAAACTGATTGCAGAATTGAAAGCGATTCTTGCCGATGACGAAAAAGTATTGGAAATCATCCGCGGGGAACTGCTGGATATTAAAGAGCGCTACAATGATGAGCGCCGCACAGAAATCGTCCTTGGTGGTACAGACTTCATTGAAGATGAAGACTTGATTCCTGAGGAAACCGTCATTGTGACCCTGACTCATCAGGGATACATCAAACGTCTTCCGGCGAACACGTACCGCTCCCAGCGCCGCGGCGGACGAGGAGTCCAGGGCATGGGTACCCATGAAGAGGACTTTGTGGAGCATCTGCTTTCCACGTCCACGCATAATACGCTGTTGTTCTTCTCGAACAAAGGGAAGGTCTACAAGGCAAAAGGCTATGAAGTACCGGAATTCAGCCGTACAGCCAAAGGGATTCCGATCATCAACATGCTGAACGTGGAGCGTGATGAGTGGATCAATGCCGTAATTTCCGTCAACGAATTCGTCGATGACTGGTATCTCGTTTTCACAACGAAAAACGGAATCACCAAGCGGACGACCTTGTCCCAGTTTGCCAACATCCGCAAAGGCGGTCTGATTGCTCTTGGTCTGCGTGAGGATGATGAATTGATTTCCGTCCGTCTTACTGATGGAAACAAGGACATTATGATTGGTACGAAGAACGGGTACCTGATCCGCTTCAACGAAGATCAAATCCGAGCCATGGGCCGTACCGCAGCAGGAGTGAAGGGAATATCGCTCCGCGAGGACGATGATGTCGTATCCATGGAAATTCTGGATGACTCCCTGCAGGTGCTCACTGTTACGAGTAAAGGTTACGGCAAGCGTACACCGGCAGACGAGTACCGTATCACCAACCGTGGTGGTAAAGGGATTATCACATGTAACCTGACGGATAAAAATGGACATGTCGTCGCAACGAAAGCTATAAACGGTGAAGAAGATATCATGATTATCACCGAAAGCGGCGTTTTAATCCGTATGCCGATGGAAAGCATCTCGGAAACCGGCCGGAACACACAGGGTGTCCGCCTCATCCGTCTTGGTGACGGAGAGGAAGTAGCGACCGTTGCCCGTGTGGATTCCGAGAAGGAAGAAGAGGAAGCCGCTGAGCTCATGGAACAGGAGTCCCAGGAAGAGACACCTGTTGCCGGAGATCAGCCGGAAACAACCGAAGATCACTCAGATGAATCATAA	MVDQPERPRVQEINISQEMRTSFLDYAMSVIVARALPDVRDGLKPVHRRILYAMHDLGMHADKAYKKSARIVGEVIGKYHPHGDSAVYDTMVRMAQDFNYRYMLVDGHGNFGSVDGDAAAAMRYTEARMSKISMEILRDINKDTIDYNDNYDGTEREPEVLPSKFPNLLVNGGSGIAVGMATNIPPHQLGEVIDAVLALSKDPEITIQELMENHIYGPDFPTAGKILGLSGIRKAYETGKGSLTVRAHVEIEEQSNGKSFLIVTELPYQVNKARLVEKIADLARDKKVDGITDLRDESDRNGMRIVIELRRDVNPNVLLNNLYKMTALQSTFGINMLALVNGHPKVLNLKQCLEYYLDHQKVVIRRRTEYELKKAEARAHILAGLRIALDHLDEVIALIRESQTTEIARTGLMERFSLSEKQAQAILDMRLQRLTGLEREKIEEEYQDIMKLIAELKAILADDEKVLEIIRGELLDIKERYNDERRTEIVLGGTDFIEDEDLIPEETVIVTLTHQGYIKRLPANTYRSQRRGGRGVQGMGTHEEDFVEHLLSTSTHNTLLFFSNKGKVYKAKGYEVPEFSRTAKGIPIINMLNVERDEWINAVISVNEFVDDWYLVFTTKNGITKRTTLSQFANIRKGGLIALGLREDDELISVRLTDGNKDIMIGTKNGYLIRFNEDQIRAMGRTAAGVKGISLREDDDVVSMEILDDSLQVLTVTSKGYGKRTPADEYRITNRGGKGIITCNLTDKNGHVVATKAINGEEDIMIITESGVLIRMPMESISETGRNTQGVRLIRLGDGEEVATVARVDSEKEEEEAAELMEQESQEETPVAGDQPETTEDHSDES	PGPT0027705_995	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0027705-parC-K02621	NA	NA
AK012_01331	1923	gyrB	COG0187	DNA gyrase subunit B	ATGAAGGAAGATATTATCGAAGAACAGCAGGCCTATGATGAGAGTCAGATACAGGTGCTTGAAGGCTTGGAAGCTGTTCGGAAGCGCCCCGGCATGTACATTGGGTCCACCAATGAAAAAGGGCTGCACCACCTCGTGTGGGAAATTGTCGATAACAGTATCGATGAAGCGATGGCCGGCCACTGTGACCACATCCAGGTCATGATTGAAAAAGATAACAGCATCACCGTCACCGATAACGGACGTGGTATTCCTGTCGGTATCCAGGAAAAAACCGGCCGTCCGGCGGTCGAGGTTATTTTAACGGTTCTTCACGCTGGAGGTAAATTCGGCGGAGGCGGCTATAAAGTATCCGGCGGACTGCACGGTGTCGGCGCTTCGGTCGTAAACGCCCTGTCTACGAAACTGGAAGTCTTCGTCCACCGTGACGGGGAGATCCATTACCAGTCCTATAAGCGCGGTGTACCTGAAGAAGACTTGAAAGTGATCGGGGAAACCGACAAAACCGGTACCCGCATCCATTTCATCCCGGATGATGAAATTTTCCAGGAAACCCAGGAGTACAAATTTGAAATTCTGGCCAACCGGCTGCGTGAGCTTGCCTTTTTGAACAAAGGTCTGACGATCACGATTGAAGATAAACGTACGGATGAAGATCCGGTCGATTATTACTACGAAGGTGGGATCCTCTCCTACGTTGAACACATGAACCGCACCCGTGAAGCGATCCATGATGCGTTCTTCATCGAAGGGGAGCAGGATGAAATCTCCATCGAAATCGCTATGCAGTACAATGACGGTTTCGCCAGTAACATTTATTCCTATGCCAACAACATTCACACGTATGAGGGCGGGACGCACGAATCCGGATTCAAGACAGGTCTGACCCGCGTCATCAATGATTACGCCAGAAAGAACAACATGTTCAAGGAGACCGATCCGAACCTGACCGGTGATGACGTTCGTGAAGGTCTGACCGCGATCATATCCATCAAGCACCCGGACCCTCAGTTTGAGGGTCAGACGAAGACGAAGCTCGGAAACAGTGAAGCCCGTACCGTTACGGATGCGCTGTTCTCGGAATCCTTCTCAAAGTTCCTGTTTGAAAACCCGACGATGGCCAAGACGATTGTCGAAAAAGGTTTGATGGCCTCCCGTGCCCGTATGGCTGCGAAGAAAGCGCGTGAACTGACCCGTCGTAAAAACGCGCTGGAAGTCTCCAACCTTCCTGGTAAACTGGCGGACTGTTCCTCCAAGGATGCCAACATTTCAGAACTGTATATTGTTGAGGGGGACTCCGCGGGTGGATCAGCCAAACAGGGCAGGGACCGCCATTTCCAGGCCATTCTTCCCCTGCGTGGTAAGATCATCAACGTGGAAAAAGCCCGCCTTGATAAGATCCTGTCCAACAATGAGGTGCGTGCCATTATTACAGCCCTCGGTACAGGAATCGGGGAAGAGTTTGATATTTCCAAAGCCCGTTACCATAAAATCGTGATCATGACGGATGCTGATGTGGACGGTGCCCATATCCGGACGCTGCTTCTCACCTTCTTCTACCGTTACATGCGTCCACTGATCGAAATGGGTTACATTTATATTGCCCAGCCGCCTCTATACAAAATTCAGCAGGGGAAAGCGGTGTACTACACGTACAGCGACAAACAGCTGGATGCGAAACTGGCGGAGCTGTCCAGTTCACCGAAACCAAGCGTCCAGCGTTATAAGGGTCTTGGAGAGATGAACCCGGAGCAGCTTTGGGAAACGACGATGGATCCGGAAACACGGACGATGCTGCAGGTCAGCCTGGAAGATGCGATAGGAGCGGATGAAACGTTTGATATCCTGATGGGAGACAAAGTCGAACCGCGTCGTAACTTCATTCAGGAAAATGCGCAGTATGTTCAGAATCTTGATGTGTAA	MKEDIIEEQQAYDESQIQVLEGLEAVRKRPGMYIGSTNEKGLHHLVWEIVDNSIDEAMAGHCDHIQVMIEKDNSITVTDNGRGIPVGIQEKTGRPAVEVILTVLHAGGKFGGGGYKVSGGLHGVGASVVNALSTKLEVFVHRDGEIHYQSYKRGVPEEDLKVIGETDKTGTRIHFIPDDEIFQETQEYKFEILANRLRELAFLNKGLTITIEDKRTDEDPVDYYYEGGILSYVEHMNRTREAIHDAFFIEGEQDEISIEIAMQYNDGFASNIYSYANNIHTYEGGTHESGFKTGLTRVINDYARKNNMFKETDPNLTGDDVREGLTAIISIKHPDPQFEGQTKTKLGNSEARTVTDALFSESFSKFLFENPTMAKTIVEKGLMASRARMAAKKARELTRRKNALEVSNLPGKLADCSSKDANISELYIVEGDSAGGSAKQGRDRHFQAILPLRGKIINVEKARLDKILSNNEVRAIITALGTGIGEEFDISKARYHKIVIMTDADVDGAHIRTLLLTFFYRYMRPLIEMGYIYIAQPPLYKIQQGKAVYYTYSDKQLDAKLAELSSSPKPSVQRYKGLGEMNPEQLWETTMDPETRTMLQVSLEDAIGADETFDILMGDKVEPRRNFIQENAQYVQNLDV	PGPT0027710_1106	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
AK012_01332	285			hypothetical protein	ATGTTTATTCACATTGGGGATGATCATGTGATTCAGTCGAAGGATGTCGTGGCTATTATCGATCATAGTTTGATTTCCTCCTCATCCATCATCGAGGAAATGATCGTCAGCCAGCGGAAAAACAGACGCGTCATAGAATCAAAGGAAAACCAGGCAAAAGCGATTGTCATTACCAGTGATGTCATTTATTTCAGCCCCCTTTCCGTGTACACACTGAAAAAGCGGGCGAACATGATGACCACGTTGAACAAGCTCGAGGATTTTTCTGAAGAGCCGATGGAATAG	MFIHIGDDHVIQSKDVVAIIDHSLISSSSIIEEMIVSQRKNRRVIESKENQAKAIVITSDVIYFSPLSVYTLKKRANMMTTLNKLEDFSEEPME				NA	NA	NA	NA	NA
AK012_01333	1119	recF	COG1195	DNA replication and repair protein RecF	ATGTATATCCACGAGCTGTCCCTGCGTTCCTATCGTAATTACGAACAGCTTTCATTGAGCTTCGACCATACGATCAATGTGATCATTGGTGAAAATGCCCAGGGAAAGACGAATTTGATGGAAGCGATCTATACGCTGGCCTTTACCCGCTCGCACCGGACGCCGCGGGACAAAGAATTAATACAGTGGGACCAGGAATATGGTAAAATAAAAGGGACGATCTATAAACGTAACCGCCGCTTTCCTCTGGAGATCATCATTTCCAACAAAGGGAAGAAAGCGAAGTTAAATCATATTGAGCAGAAGCGTCTGAGTGACTATATCGGCGCTTTGAATGTTGTCATGTTTGCACCTGAGGATTTGAATCTCGTCAAGGGGAGTCCTCAGGTGCGTCGTCGGTTTATTGACATGGAAATCGGCCAGATCCAGCCCGCCTATATCTATCATCTTGGACAGTACCAGAAGATTTTGAAGCAGAGGAACCACCTGCTTAAGGATCTCCAGCGGAAACCGAAGGCGGACCGGACGATGCTCGGCATTCTGACCGAGCAGCTGGTGGAACACGCCGTGACCATCGTTGAACGACGGTTTAAGTTTCTTCAGCTTCTCAGGTCCTGGGCGGGTCCCATCCATGAAGGGATCAGCCGCAGTCTTGAACAGCTGGAAATTTCCTATGATGCCAGTGTGAAAGTATCAGAGGATATGAATTTGGAAACAATAAAGAATACGTATATAGAGAAGTTCCAGGAGATCGAAACGAAGGAAGTCGAACGGGGGACCACTTTGGCAGGCCCTCACAGAGATGATCTGGTTTTCTACGTAAACGGAAAAGACGTCCAGACATACGGGTCGCAAGGTCAACAGCGGACGACAGCCTTATCTTTGAAACTCGCTGAAATCGAGCTGATTCATAGTGAAGTAGGAGAATATCCCATACTGCTTCTGGATGATGTTCTCAGTGAACTGGATGATTTCCGGCAGTCCCATCTGCTTCATACAATCCAGGGGAAAGTCCAGACGTTTGTATCCACTACGAGCATCGACGGGATTGAGCATGAAGCTTTGGAAGAAGCCGCCATTTTCCGTGTGAAAGAAGGAACGATCGAGATAGAGAAATGA	MYIHELSLRSYRNYEQLSLSFDHTINVIIGENAQGKTNLMEAIYTLAFTRSHRTPRDKELIQWDQEYGKIKGTIYKRNRRFPLEIIISNKGKKAKLNHIEQKRLSDYIGALNVVMFAPEDLNLVKGSPQVRRRFIDMEIGQIQPAYIYHLGQYQKILKQRNHLLKDLQRKPKADRTMLGILTEQLVEHAVTIVERRFKFLQLLRSWAGPIHEGISRSLEQLEISYDASVKVSEDMNLETIKNTYIEKFQEIETKEVERGTTLAGPHRDDLVFYVNGKDVQTYGSQGQQRTTALSLKLAEIELIHSEVGEYPILLLDDVLSELDDFRQSHLLHTIQGKVQTFVSTTSIDGIEHEALEEAAIFRVKEGTIEIEK				NA	NA	NA	NA	NA
AK012_01334	222			hypothetical protein	ATGAGCGAAGAAATTGGAATCAGCACAGAATACATTCCACTCGGACAATTCCTGAAATTAGCGAATGTTGTCGAATCCGGCGGGATGGTGAAAATTTTTCTGGCTGAATTTGAAGTGAATGTAAATGGTGAACCAGAAAACCGAAGAGGCCGGAAACTGTACGTGGGCGATACAGTGGAGATTGAAGAATTCGGAAGCTATAAAGTCGTAAGCGAAGGGTAA	MSEEIGISTEYIPLGQFLKLANVVESGGMVKIFLAEFEVNVNGEPENRRGRKLYVGDTVEIEEFGSYKVVSEG				NA	NA	NA	NA	NA
AK012_01335	1140	dnaN	COG0592	Beta sliding clamp	ATGAAATTTGTCATCCAGCGGGATCAGTTGATGGACAGTGTCCAGAATGTCATGAAAGCCATCTCTTCAAGAACAACGATTCCAATCTTAACGGGAATGAAGTTGGAAGCGACGGCAGAAGGAATCAAATTAACAGGTAGTGATTCAGATATATCCATCGAATCTTTTATCCCGGCAGAAGAAGACGGCATTGTTTATGTAGAGGGGATTGAACCGGGGAGCATTGTTCTACAGGCTAAATATTTCCCTGACATCGTAAGAAAGCTGCCACAGAACACCGTTGAAATCACCAGTGATGAATCAAGAAATGTTACCATCCGGTCAGGAAATGCAGAATTCCATTTAAACGGCCAGGATCCTGAAGAATATCCACAGCTTCCTCAGCTTCATACCGAGGACAGCTTCGAACTGCCGATCGATCTTTTGAAGAACTTGATCCGGCAGACCGTGTTCGCTGTTTCCACATCAGAAACGCGCCCGATCCTTACAGGGGTTCACGTGAAAATGGACGAAGGCAGCCTGGAGTTTATTGCGACAGACAGCCACCGTCTGGCATCAAGAAAGGTTCCATTGGATCAGCCGGAAGGAAAATCACTGCCGGCCGTCGTGATTCCAGGAAAAAGCTTGACCGAGCTGAATAAGATTCTTGGAGATTCTGATGATAAGATTGAAATCAGCGTGACAGACAACCAGGTGCTGTTCCGTACGAAGCATTTGTACTTCCTATCCCGTCTGCTGGATGGAAACTACCCGGAAACCTCCCGCTTGATTCCGGAACAGAGCAAAACCGTAGTCAAAATTGATGCGAAGGATCTTCTACAGTCCGTCGATCGTGCGTCCCTATTGGCGAAAGAGAACCGGAACAACGTCGTAAGGCTCGTAACCAAAGAGTCGAACCATCTCGAAATTACCGGTAATTCACCGGAAGTCGGTAACGTGGTGGAAGAAGTAACCGCGAATGATGTCGAAGGAGAAGACTTGAAGATTTCCTTCAGTGCAAAATATATGATGGATGCACTGAAAGCCGTCGACTATGATCAAGTCAAAGTCGAATTTACAGGGGCCATGCGCCCCTTCCTGATCCGTCCCGTTGACGATGATCAGATCCTTCAGCTGATTCTTCCCGTACGGACATACTGA	MKFVIQRDQLMDSVQNVMKAISSRTTIPILTGMKLEATAEGIKLTGSDSDISIESFIPAEEDGIVYVEGIEPGSIVLQAKYFPDIVRKLPQNTVEITSDESRNVTIRSGNAEFHLNGQDPEEYPQLPQLHTEDSFELPIDLLKNLIRQTVFAVSTSETRPILTGVHVKMDEGSLEFIATDSHRLASRKVPLDQPEGKSLPAVVIPGKSLTELNKILGDSDDKIEISVTDNQVLFRTKHLYFLSRLLDGNYPETSRLIPEQSKTVVKIDAKDLLQSVDRASLLAKENRNNVVRLVTKESNHLEITGNSPEVGNVVEEVTANDVEGEDLKISFSAKYMMDALKAVDYDQVKVEFTGAMRPFLIRPVDDDQILQLILPVRTY				NA	NA	NA	NA	NA
AK012_01336	1356	dnaA	COG0593	Chromosomal replication initiator protein DnaA	TTGGAGAACATCCACGAACTATGGAACAATACGCTGGATCATATAAAAGAAAAAATCAGCAAACCCAGCTTTGAAACCTGGCTGAAAGCTACAAAAGCCGACTCCCTTAGTGAAAATACACTCACGATCGTCGCTCCAAACGAATTCGCCAGAGACTGGCTTGAAAACCAATATGAAAGCTTGATAACAGAAACGTTATATGAAGTAACAGGCGCGGAACTGGATACGAAGTTCATCATTCCTGAATCCAAGGATGATGCCCTTGAGGATGTGAAACTCTCTTCAAAAAAGGTTCCGAACGTGAAAAACAACGGAAATGAAGAGTCTCCCCAGAGCATGCTCAATTCCAAATATACGTTTGATACGTTCGTGATCGGATCCGGCAACCGCTTCGCACACGCAGCCTCCCTGGCGGTGGCAGAAGCTCCGGCGAAGGCCTATAACCCCCTGTTCATCTATGGAGGTGTGGGACTTGGAAAGACCCACTTGATGCACGCCATCGGGCATTATGTGCTGGATCATAATCCGAACGCCAAAGTGGTCTATTTGTCTTCAGAGAAGTTCACGAATGAGTTCATCAATTCGATCCGCGATAATAAGGCCGTCAATTTCAGAAATAAATACCGCAGCGTTGATGTCCTTCTTATTGATGACATCCAGTTTCTTGCGGGCAAAGAACAGACACAGGAGGAATTCTTCCATACGTTCAACACCCTGCATGAAGAAAGCAAGCAGATCGTCATCTCCAGTGACCGTCCTCCTAAAGAGATTCCGACACTGGAAGACCGCCTGCGCTCCCGTTTTGAGTGGGGGTTGATCACGGATATCACACCACCGGATCTGGAGACGAGGATTGCGATACTCCGGAAAAAAGCGAAAGCGGAAGGCCTTGATATTCCAAACGAAGTCATGCTTTACATCGCCAACCAGATTGACACCAACATCCGTGAGCTCGAAGGAGCCTTGATTCGGGTCGTCGCCTACTCATCCTTAATCAACAGTGACATCAATGCCTCCCTGGCTGCGGAAGCTCTAAAGGATATTATTCCAAGCTCCAAGCCCAAGGTCATTACGATTGAAGCGATTCAGGAGATGGTCGGGGAAAAGTATAATGTCAGATTAGAAGATTTCCCTGCTAAAAAACGGACAAAATCTGTCGCCTTTCCACGTCAGATTGCTATGTATTTATCAAGAGAACTGACCGACTTCTCCCTTCCGAAAATCGGGGAAGAGTTCGGCGGCCGTGACCATACGACCGTCATACACGCGCACGAGAAAATCTCTAAAATGGTCGCGGATGATCAGCAGCTCCAAAAAGAGCTCGATGAAATCAGAGAGCAGCTGAAATCCCACTAG	MENIHELWNNTLDHIKEKISKPSFETWLKATKADSLSENTLTIVAPNEFARDWLENQYESLITETLYEVTGAELDTKFIIPESKDDALEDVKLSSKKVPNVKNNGNEESPQSMLNSKYTFDTFVIGSGNRFAHAASLAVAEAPAKAYNPLFIYGGVGLGKTHLMHAIGHYVLDHNPNAKVVYLSSEKFTNEFINSIRDNKAVNFRNKYRSVDVLLIDDIQFLAGKEQTQEEFFHTFNTLHEESKQIVISSDRPPKEIPTLEDRLRSRFEWGLITDITPPDLETRIAILRKKAKAEGLDIPNEVMLYIANQIDTNIRELEGALIRVVAYSSLINSDINASLAAEALKDIIPSSKPKVITIEAIQEMVGEKYNVRLEDFPAKKRTKSVAFPRQIAMYLSRELTDFSLPKIGEEFGGRDHTTVIHAHEKISKMVADDQQLQKELDEIREQLKSH	PGPT0014800_3670	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-PILUS|FIMBRIAE_SYSTEM	MOTILITY-PILUS_SYSTEM,PGPT0014800-dnaA-K02313	NA	NA
AK012_01337	138	rpmH	COG0230	50S ribosomal protein L34	ATGAGTAAACGCACGTTTCAACCAAATAATCGTAAGCGCAAAAAAGTACACGGCTTCCGTTCACGCATGAGCTCTGCAAATGGACGTAAAGTTCTTGCACGCCGTCGTCGTAAAGGAAGAAAAGTTCTATCCGCATAG	MSKRTFQPNNRKRKKVHGFRSRMSSANGRKVLARRRRKGRKVLSA				NA	NA	NA	NA	NA
AK012_01338	354	rnpA	COG0594	Ribonuclease P protein component	ATGAAGAAAGCAAATCGAATTAAGAAAAACGAGGAATTTCAGAAGGTTTTCCAAGGGGGCCGGTCCTTCGCCAACCGGCAGCTGGTCATCTATTACATGAAGAAAAAGGAGCAGAAGCATTTCCGCATCGGTCTTTCCGTCAGCAAGAAGCTGGGACATGCGGTCAAGCGCAACCAGATTAAGCGCTACCTGCGCCAGGCCTTTCATGAGCTGGAAGACGACATCCATCCTCACTATGATCTGGTGGTCATTGCACGCAAGCCGGCCAGCCAGATGGATTTTCATGAAATCAAAAAAAGCCTGACCCATGTACTCATGAGGTCCAAGCTTCTAAATAAGAAAATTCGCATGTAA	MKKANRIKKNEEFQKVFQGGRSFANRQLVIYYMKKKEQKHFRIGLSVSKKLGHAVKRNQIKRYLRQAFHELEDDIHPHYDLVVIARKPASQMDFHEIKKSLTHVLMRSKLLNKKIRM				NA	NA	NA	NA	NA
AK012_01339	762	misCA	COG0706	Membrane protein insertase MisCA	TTGCGTAATAAAATGATAGCACTGCTTGCCATGGCGGGCGTGCTTACGTTCCTATCCGGGTGTACGCAGGTAAACCAGGAAATCAACTCGGATAGCACAGGTTTTTGGAACGAGTATATCGTATGGCCATTGTCTCAGACCCTACTATTTTTTGCTGATCTTTTCAGTGGCAGCTATGGATTGTCGATCATCGTTGTAACGATTATCATTCGATTGATTCTGCTTCCGTTGAACATTAAACAGCTGAAAAGCTCAAAAGCGATGCAGGATATTCAACCGGAACTGCAGAGTCTTCGTGAACAATATTCATCCAAGGATGCCCAGACACAGCAGAAGCTCCAGCAGGAGACGATGCAGCTGTTCCAAAAGCACGGCGTGAACCCGCTGGCGGGCTGTCTGCCGATTATCGTGCAGATGCCGATTTTGATCGGATTCTATCATGCCATCATGAGAACTTCAGAGATACAGACGCATAACTTCCTATGGCTGGAACTCGGTTCATCCGATCCATTCCTGGCCATTTTGACAGCAGGAACGACCTTCCTGCAGCAGAAATTAATGATGGCGGGCGGCGCAGCAGCGCAGAACCCGCAGATGCAGATGATGCTGTACGTCATGCCGCTGATGATCGGTACGTTCGCATTCTTCTTCCCATCTGCCCTTGCCCTGTACTGGATCGTCGGTAACATCGTTATGATTCTGCAGACAGTATTCATCCGTAAACCAATGATGAAAGATGCGACGGGAGGAGCAAGTGAGTGA	MRNKMIALLAMAGVLTFLSGCTQVNQEINSDSTGFWNEYIVWPLSQTLLFFADLFSGSYGLSIIVVTIIIRLILLPLNIKQLKSSKAMQDIQPELQSLREQYSSKDAQTQQKLQQETMQLFQKHGVNPLAGCLPIIVQMPILIGFYHAIMRTSEIQTHNFLWLELGSSDPFLAILTAGTTFLQQKLMMAGGAAAQNPQMQMMLYVMPLMIGTFAFFFPSALALYWIVGNIVMILQTVFIRKPMMKDATGGASE	PGPT0024530_6321	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
AK012_01340	615			hypothetical protein	GTGAAACAATTAACTGCTACGGGTCCATCCATTGATGAAGCGGTCCAATCTGCATTAGAGCAATTACAGACATCAAAAGATCAAGTCACCATTGATATTATTGATGAAGGTAAAAAAGGATTTCTTGGGTTTGGCTCCAAACCAGCGATCGTTAAAGTATCCATCAAGAAAAATCCTCTGCAGGATGCTGAAACATTCATCTATGAAGTAGCAGAACAAATGGGAGCTCCTGTTCAGGTTCATTCTGAAGTACGGCAGCGGGACATTTTCCTCAATCTGGAGGGAGAGCATATCGCTGTTTTGATCGGCAAGCGCGGCCAGACATTGAATTCGCTTCAATACCTGGTTCAGCTTGTCGTCAACCGCGGATCTGATGTCTTCTATACCGTCATGCTTGACGCGGAAGGATATCGGAGCCGACGGAAGGAAACATTGGAAAACCTGGCTGGACGGCTGGCGGATAAAGCGGTCCGGACCAACCGGGACGTAAGGCTGGAGCCGATGCCTTCCTATGAAAGAAAAATCATTCACAACGCTTTACAGCAGCACGAACAGGTGAAAACATCGTCGGACGGCAGCGACCCGCGCCGGCATGTCGTCATTCACCCACGCTGA	MKQLTATGPSIDEAVQSALEQLQTSKDQVTIDIIDEGKKGFLGFGSKPAIVKVSIKKNPLQDAETFIYEVAEQMGAPVQVHSEVRQRDIFLNLEGEHIAVLIGKRGQTLNSLQYLVQLVVNRGSDVFYTVMLDAEGYRSRRKETLENLAGRLADKAVRTNRDVRLEPMPSYERKIIHNALQQHEQVKTSSDGSDPRRHVVIHPR				NA	NA	NA	NA	NA
AK012_01341	1377	mnmE_1	COG0486	tRNA modification GTPase MnmE	ATGGAAACAGATACAATAGCGGCGATTTCCACCCCGATGGGGGAAGGAGCCATTGCCATTGTCCGTTTAAGCGGCCCTGAAGCCGTTGCGACAGCCGCCGGGCTCTTTCAAGGGAAGGATTTGAACAACGTCGATTCCCATACGATGCATTACGGAAAGATCATCGATCCGGAAACCGGTGAAATGGCGGAGGAAGTGATGGTTTCTGTCATGCGTGCCCCGAAAACATTTACGAGAGAAGATATCGTCGAGATCAACTGTCACGGTGGACTCGTGTCTGTGAACCGGGTGCTTGAAATTGCGCTGGCTGCAGGCTCACGACTGGCTGAACCGGGGGAATTTACGAAGCGTGCGTTTATGAATGGACGGATCGACCTTTCCCAGGCGGAAGCAGTCATGGATTTGATCCGGGCCAAAACGGACCGGGCCATGGACGTTGCCTTGAAGCAGATGGACGGCCGCCTGTCCAATCTGATTCACAATCTGCGCCAGAAGCTTCTGGAAACTCTCGCTCACGTCGAAGTGAACATTGATTATCCGGAATATGATGATGTGGAAGAAATGTCGCATGACATGATGGAGCAGAAAACGAAGGAAGTGCACGAGGAAGTCGAGCGGATTTTAGAGACCGCCAAGCAGGGGAAGATTCTGCGGGAAGGTCTCGGAACTGCGATTATCGGTCGTCCGAACGTTGGGAAATCCTCGTTGATGAATGCCCTTGTTCATGAAAACAAAGCCATCGTTACCGAAATACCGGGGACGACACGCGATGTCATCGAAGAGTATGTCAATGTCCGCGGTGTTCCTCTCCGGCTGATCGATACAGCAGGGATCCGGGAAACCGAGGATATCGTCGAGCGGATTGGTGTGGAACGCTCCCGCCAAGTGCTGAAAGAAGCCGATTTAATCCTGCTTGTGTTAAACTATGGCGATGAACTGACCGAGGAAGATGAGAAGCTGTTTGAAGCGATCAGCGATATGAATGTGATCGTCATCGTGAACAAAACCGACCTTGAGAAAAAGCTCGACCTTGACCGCGTGAAGGAGCTTGCGAACGATCAGCCGGTCATTACGACAGCCTTGATCAGGGAAGAGGGCATCGATCAGCTTGAGCAGGCGATCGGGCAGACCTTCTTTGAAGGGGACCTGGACGCAGGTGATATGACGTATGTTTCCAACGTCCGCCACGTGCAGCTGCTGAAGCAGGCCAAGCAGGCGCTTGAAGACGCACAGAACGGCATGGAGATGGGCGTACCTCTGGATGTTGTCCAGATCGATGTAACCCGTACGTGGGAGATTCTCGGGGAAATCGTCGGTGAATCGGTGCATGACAGTTTGATTGATCAATTGTTCTCCCAGTTCTGTTTAGGTAAATAA	METDTIAAISTPMGEGAIAIVRLSGPEAVATAAGLFQGKDLNNVDSHTMHYGKIIDPETGEMAEEVMVSVMRAPKTFTREDIVEINCHGGLVSVNRVLEIALAAGSRLAEPGEFTKRAFMNGRIDLSQAEAVMDLIRAKTDRAMDVALKQMDGRLSNLIHNLRQKLLETLAHVEVNIDYPEYDDVEEMSHDMMEQKTKEVHEEVERILETAKQGKILREGLGTAIIGRPNVGKSSLMNALVHENKAIVTEIPGTTRDVIEEYVNVRGVPLRLIDTAGIRETEDIVERIGVERSRQVLKEADLILLVLNYGDELTEEDEKLFEAISDMNVIVIVNKTDLEKKLDLDRVKELANDQPVITTALIREEGIDQLEQAIGQTFFEGDLDAGDMTYVSNVRHVQLLKQAKQALEDAQNGMEMGVPLDVVQIDVTRTWEILGEIVGESVHDSLIDQLFSQFCLGK				NA	NA	NA	NA	NA
AK012_01342	1890	mnmG		tRNA uridine 5-carboxymethylaminomethyl modification enzyme MnmG	ATGACATATGATGCAGGGCATTATGATGTAATAGTAATTGGTGCGGGTCATGCGGGCGTAGAGGCAGGTCTTGCCGCAGCGCGCCGCGGGGCGAAGACATTGATGCTGACCCTGAACCTCGACCTTGTCGCGTTTATGCCATGTAACCCGTCCATCGGTGGTCCGGCTAAGGGAATCGTTGTCCGGGAAATTGATGCATTAGGAGGCGCGATGGGTAAGGTGATTGATAAGACCCACATCCAGATGCGTCTATTGAACACGAGAAAAGGCCCGGCTGTACGAGCACTGCGTGCCCAGGCGGATAAGCCTTTGTATATTAAAGAAATGAAACGCGTGCTTGAGAATCAGGAAAACCTGACTCTGCGCCAGGCGATGGTGAAGCAGCTGCTTGTCGAGGACGATCAGATAAAAGGAGTCGTCACAGAAACGAAAGCGGCCTACTATGCGCCGACGGTTATCGTAACGACAGGAACGTTCATGCGCGGCCGTGTCATCATCGGTGACATTTCCTATGAAAGTGGACCGAACAACCAGCGTTCCACCGTTTCACTTTCTGAACAGCTGGAAGAGATGGGCATTGAGATGGTCCGCTTCAAGACCGGAACACCGATGCGCGTCAACAGTCACACGATTGATTATTCCAAGACAGAAATCCAGCCGGGGGAAGAAGAGCCGCGCTCCTTTTCCTATGAAACGACCGAATTCATTACGGATCAGATTCCGTGCTGGCTGACGTATACGAACGAAGACACACACCAAATCATTAACGATAACCTCGGCCTCTCTGCGATGTACTCCGGTGCAATCAAAGGAACAGGACCACGCTACTGCCCGTCCATCGAGGATAAGATCGTCCGCTTCAATGATAAGCCGCGTCACCAGATTTTCCTTGAGCCGGAAGGCCGGGACACAGAGGAAGTATACGTCCAGGGCTTATCGACTTCTCTGCCTGAATATGTGCAGAACGAAATGATGCGTACGGTTCCGGGGCTGGAAAACGCTGAAATCATGCGGGCCGGCTATGCCATCGAGTACGATTCCATCGTTCCGACACAGCTGTGGCCGACGCTTGAAACGAAGAAGATTGATGGTCTTTTCACAGCTGGTCAGCTTAACGGAACGTCCGGATATGAAGAAGCCGCGGGGCAGGGGCTGATGGCCGGGATTAACGCCGCAGCCAAAGCCCTCGATCTTGAAACATTGATCCTTGACCGTTCCCAAGGCTACATCGGTGTCATGATCGATGACCTTGTTACCAAAGGAACCGGCGAGCCGTATCGTCTCTTGACGTCCCGTGCTGAATTCCGCTTGATGCTGCGCCACGATAACGCCGACCTCCGTTTGACGGAAATCGGCTATCAGCTCGGTCTGATTCCAGAGGACCGCTATAACCGTTTCCTTGAGAAACAGCGTTTAATCGAAGACGAGAAAAAACGCCTCGACAAAGTGATCTTGAAGGAAACGGATGAAGTGCAGGCGGTTATCGAAGAAGCGGGAGGCTCCAAGTTGAAAGACGCCGTCCGTGCGGTGGATCTTTTGAAGCGTCCGGAAATGAACTACAGCCATATTGAACGGCTGAGTGCCACTGATGTCCATCTGCCGGATGAGGTCAAAGAGCAGGTGGAAATCCAGACGAAATATAACGGTTATATTAAGAAGGCGCTCGAGCAGATTGACCGTATGAAGAAGATGGAGACGAAAAAAATTCCAGAAGACATTGATTACGATGCCATCCACGGTCTGGCTTCCGAAGCGCGTGACCGCCTGAAAGCTGTGCGTCCGCTTTCTGTCGGACAGGCTTCCCGGGTATCCGGGGTGAACCCGGCGGATGTTTCGATCCTGCTTGTCTATATTGAGCAGGGTAAAATCGCACGTGTGTCTGGAGAATAA	MTYDAGHYDVIVIGAGHAGVEAGLAAARRGAKTLMLTLNLDLVAFMPCNPSIGGPAKGIVVREIDALGGAMGKVIDKTHIQMRLLNTRKGPAVRALRAQADKPLYIKEMKRVLENQENLTLRQAMVKQLLVEDDQIKGVVTETKAAYYAPTVIVTTGTFMRGRVIIGDISYESGPNNQRSTVSLSEQLEEMGIEMVRFKTGTPMRVNSHTIDYSKTEIQPGEEEPRSFSYETTEFITDQIPCWLTYTNEDTHQIINDNLGLSAMYSGAIKGTGPRYCPSIEDKIVRFNDKPRHQIFLEPEGRDTEEVYVQGLSTSLPEYVQNEMMRTVPGLENAEIMRAGYAIEYDSIVPTQLWPTLETKKIDGLFTAGQLNGTSGYEEAAGQGLMAGINAAAKALDLETLILDRSQGYIGVMIDDLVTKGTGEPYRLLTSRAEFRLMLRHDNADLRLTEIGYQLGLIPEDRYNRFLEKQRLIEDEKKRLDKVILKETDEVQAVIEEAGGSKLKDAVRAVDLLKRPEMNYSHIERLSATDVHLPDEVKEQVEIQTKYNGYIKKALEQIDRMKKMETKKIPEDIDYDAIHGLASEARDRLKAVRPLSVGQASRVSGVNPADVSILLVYIEQGKIARVSGE				NA	NA	NA	NA	NA
AK012_01343	717	rsmG	COG0357	Ribosomal RNA small subunit methyltransferase G	ATGGATACGAACACCTTTCTGAACGCTTTGAAAGAACAAGGCATTGAACTCAATGAAAAGCAGCAGCACCAGTTCCAGCGCTATTTTGAAATTCTCGTCGAGTGGAACGAAAAAATGAACCTGACCGCCATTACAGATCAGGAAGGCGTGTATCTTAAGCACTTTTATGACTCTCTGACAGCGGCCTTTTACTATGACTTTTCCGAGCCCCTCCGCATCTGTGATGTGGGAGCGGGGGCTGGATTTCCGAGTCTGCCGCTGAAAATCGCCTTTCCCCATTTGAAAGTGACGATTGTCGATTCATTGAAGAAGCGGATCACTTTTTTGAACCACTTAGCCCACGAATTGGAGCTCGATGATGTCGCTTTTTATCATGATCGTGCCGAAAACTTCGGAAAAAACGCGAACTTCCGGGAAAGCTATGACCTTGTCATGGCCCGCGCTGTTGCCCGGATGTCTGTCCTGAGTGAGCTGTGCCTTCCTTTGACCGAGAAGGGCGGCCGGTTCATGGCAATGAAGGGACCGAACCTCAGGGATGAGATGCAGGAGGCTGAGACCGCGATTCAGACGGTCGGAGGCGAAGTGAAAGACATTTATACGTTCGAGCTTCCGGAAGAGGGCAGTGAACGGAACATTGCCATCGTTGAAAAACGACGCAAAACACCGAAAAAATACCCGCGTAAAGCGGGCACACCAAATAAGACACCGATTCAATAA	MDTNTFLNALKEQGIELNEKQQHQFQRYFEILVEWNEKMNLTAITDQEGVYLKHFYDSLTAAFYYDFSEPLRICDVGAGAGFPSLPLKIAFPHLKVTIVDSLKKRITFLNHLAHELELDDVAFYHDRAENFGKNANFRESYDLVMARAVARMSVLSELCLPLTEKGGRFMAMKGPNLRDEMQEAETAIQTVGGEVKDIYTFELPEEGSERNIAIVEKRRKTPKKYPRKAGTPNKTPIQ				NA	NA	NA	NA	NA
AK012_01344	492			hypothetical protein	ATGAAAATTGTTGTGCTGTCTGATACGCATATGCCGAAAAAATCCCTGCGTCTGCCTGATCGTCTCACGAACGCTTTACAAGAAGCGGATCAGATCATTCATGCCGGTGACTGGCAGACGCCGGAACTCTACGAAGAACTGAACCGCTATGCTCCCGTCACAGGCGTCTATGGCAACGTGGACGGGGAGGACATGAAAGAGATCGTACCCGCCAGACAACTCATCACCCTGGCCGGGTATTCCATCGGGGTCGTTCACGGGCACGGAGAAGGGAAAACGACGGAAAAACGGGCGTTGGAAGCTTTCGCAGAACAACCGCCTGATCTTTTAATCTATGGACACTCCCACATTCCCGTCCTCCGCTATTTCAAAAAAACGCTGCTGTTCAACCCAGGCTCTGTCACAGACAAGCGCCGGCTGCCATACTATTCCTTCGGTCTTCTGACGATAGAGGAAGAAGGGATCCACGCGGAGCACATCTTTTTCCGCTAA	MKIVVLSDTHMPKKSLRLPDRLTNALQEADQIIHAGDWQTPELYEELNRYAPVTGVYGNVDGEDMKEIVPARQLITLAGYSIGVVHGHGEGKTTEKRALEAFAEQPPDLLIYGHSHIPVLRYFKKTLLFNPGSVTDKRRLPYYSFGLLTIEEEGIHAEHIFFR				NA	NA	NA	NA	NA
AK012_01345	831	nei	COG0266	Endonuclease 8	ATGCCGGAAGGACCCGAAATCCGCCGTGCTGCGGATCAAGTAGAAAAAGCACTCAAAGGTCGAGCGGTGCTCGACCTTTTTTTCGCGTTTGAGCGCCTGCAGGAATATGAAGACATTCTCCAGGGCGATACGATCGAGCGGGTGGATACGAAAGGCAAAGCGATGCTCATCCGTTTCCAAAGAGGGTACACGATTTACTCACACAATCAATTGTACGGCAAATGGGTGATCAGAAACGCTTATAACTATCCGGAAACGAACCGCCAGCTGCGACTCGCCCTGCATAATGAGAAAAAGTCGGCACTGCTTTACAGCTCTTCGGACATCGAAGTACTGCGGACAGAGGAAGCCGAGGCCCACCCCTTTATCCAAAAGACAGGACCGGATCTGCTCAGTGAATCTGTAACTCCGGAAGATCTGTTTGAGCGCTTCACCAGCAAAAGGTTCCGCAACCGCAGATGGACCTCTCTGCTGCTTGATCAATCCTTTATCGCCGGTATCGGCAACTACCTGCGCAGTGAGATTTTGTTCAAAGCCGGCATCTCTCCTTCTGCCCGTCCCTCTGATTGTTCTGAGGAACAGCTTTGGAAAGCGGCCGAAGCATCGATCGATCTGACATGGCAGTCCTACCGTCATAAGGGCATCACGAATGATTTGGATCTCGCCGCTCAGCTGAAAAACCAGGGCGTTAAGCGCCGGGCCTACCGTCACTGGGTGTTTAACCGCGCGGGGCATTCCTGCCGGATTGACGGAACAGAAATTGAAAAGATTCAGGCGGCTTCCAGACGTCTCTATTATTGCCCGACCTGCCAGAAATACCCGGAGCTTTAG	MPEGPEIRRAADQVEKALKGRAVLDLFFAFERLQEYEDILQGDTIERVDTKGKAMLIRFQRGYTIYSHNQLYGKWVIRNAYNYPETNRQLRLALHNEKKSALLYSSSDIEVLRTEEAEAHPFIQKTGPDLLSESVTPEDLFERFTSKRFRNRRWTSLLLDQSFIAGIGNYLRSEILFKAGISPSARPSDCSEEQLWKAAEASIDLTWQSYRHKGITNDLDLAAQLKNQGVKRRAYRHWVFNRAGHSCRIDGTEIEKIQAASRRLYYCPTCQKYPEL				NA	NA	NA	NA	NA
AK012_01346	870	ydaD_1		General stress protein 39	ATGAATCGACAACAACGTCAGACCCAGGGGCAGCCGGGGCAGGAACAGGAACGACAGCCGGGAACTGAGGGACAGATGAACCCATCGCCTCTGCAGGCCGATGAAGATTATAAGAGCGGGAATAAACTGCAGGGAAAAGTGGCGCTTATTACAGGCGGGGACAGCGGCATCGGCCGTTCTGTCGCCATCGGTTATGCAAAAGAAGGCGCCGATGTAGCGATTTCCTACTTAGAAGAGCATGATGATGCGGAGTATACGAAGAAACAGGTGGAAGCAGAAGGCCGCCGGGCGATCTTGATTGCCGGAGATGTTGGTGAAGAGTCCGTCTGTCAGGAAGCGGTGGAAAGAACCGTAAAGGAACTCGGGCAGCTGGATATTCTCGTGAACAATGCGGCGGAACAGCATCCGACAGACGACCTGTTGAACATTTCAGCCGAGCAGCTGGAGCGGACGTTCAAAACCAATATCTATTCGGTCTTCCATATGACGAAAGCGGCTCTCCCTCATTTGAAGCAGGGCAGCTCGATCATTAACACCGCTTCGGTGAATCCGTACGTCGGAAATCCCGATCTCGTTGATTATACAGCCACCAAAGGGGCCGTCGTTGCGTTCACCCGCTCTATGGCGAAACAGCTTGTCGACAAAGGCATCCGTGTCAACGGCATTGCGCCGGGGCCGATCTGGACACCACTCATTCCATCCACCTTCTCTGAGGATAAAGTGGAACAATTCGGAACGAACACGCCAATGGGACGTCCGGGACAGCCGGTGGAACACGTCGGGAGCTATGTGCTGCTGGCCTCTGATGACTCCACGTATATCACCGGACAGTTTATCCATATCAACGGCGGAATGTTCACATCCAGCTGA	MNRQQRQTQGQPGQEQERQPGTEGQMNPSPLQADEDYKSGNKLQGKVALITGGDSGIGRSVAIGYAKEGADVAISYLEEHDDAEYTKKQVEAEGRRAILIAGDVGEESVCQEAVERTVKELGQLDILVNNAAEQHPTDDLLNISAEQLERTFKTNIYSVFHMTKAALPHLKQGSSIINTASVNPYVGNPDLVDYTATKGAVVAFTRSMAKQLVDKGIRVNGIAPGPIWTPLIPSTFSEDKVEQFGTNTPMGRPGQPVEHVGSYVLLASDDSTYITGQFIHINGGMFTSS	PGPT0014705_836	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014705-gdh|ycdF-K00034	NA	NA
AK012_01347	468			hypothetical protein	ATGAAGGAAAAACGACTGGAAATCATATTATGGAGCATTGCCTTTCCCGGTTTCGGACAGATCCTGAACGGACAGTTTTTAAAAGGGCTCTCTTTTATCATCATTGAAGTGGTTTTAAACTATAACAGCCGCTTCAATATGGCCATCATACACAGCTTCCACGGAGATATCGCCAAAGCGGTTGAGGTGACCAATTACCAGTGGCTGATGTTTTATCCGTGTATTTATATGTTCGCCGTATGGGATGCCTATGCCCAGGCCGACGGAAAAGTCCCTCCCTATTCGTTTCTTCCGTTTGCGTTTTCAGCCTACTTCGTTACGGTGGGGTTGATTTTTTCGTCCACGCTGCGGATTTTGGGCGTATTGATCGGACCGATCTGGCTTCCTATACTTTTTCTCATCCCCGGGATTGGAAGCGGTTTGATTGTGCGGTCTCTTCTGCTCCGCTATGCTGACCATTCCTCCTGA	MKEKRLEIILWSIAFPGFGQILNGQFLKGLSFIIIEVVLNYNSRFNMAIIHSFHGDIAKAVEVTNYQWLMFYPCIYMFAVWDAYAQADGKVPPYSFLPFAFSAYFVTVGLIFSSTLRILGVLIGPIWLPILFLIPGIGSGLIVRSLLLRYADHSS				NA	NA	NA	NA	NA
AK012_01348	987			hypothetical protein	ATGTCGAAAAAGAAACTAACAGCCAATGAAGTGGGCGTACTGTGGACGCAGTATATCCAGAACAGTATGGCTGTTCCTGTACTCGAATACTTGAAGAATACGTGTGAGGATGAAGACTTGCCCCCCCTGATCCAGCTGGCGGGAGACCTCGCACAAAAAGGGCTGGACACCTGTACAGATTTTTTCAAGGAAGCTCGTCTGCCTGTTCCGAACGGGTATTCGCTCGATGATTTAAACCCGAGAGCAAAGAAACTGTTCACGGATGCATTTATGCTGACATTTTTAGAGCATATGGGAAAAGTCGGATTAACCTCCGACGGCTATTCCCTCGGAGCCTCTGCCAGAGACGATGTGCGCGCTTTTTTTACCGACCGGATCCAACAGCAGGATAAGCTGTACAATTTATGTATCCAAACCGCGCTTGAAAAAGGCATCTACACGAGAGCTCCTCAAATTGAAATTCTGAATGAAACCGAATATATCCACAGCAAAGCCTACTATCATCCGTTTCATAAACGATCACTGAACACGATCGAAATCACTCATATTTATGAGAATGTCAAAAACAATGCCCTTGGGGAAGTAGTCTGCCAGGCCTTCGGTCAGACGACGAAAAACAAGACTGTTAAAAAGTACATGAGGCGTGGAAAACAAATTTCCATCAATCACCGGATCTGCCTTTCCACCATCCTTGAAAAGTCCGGGGTCACCGTTCCGATGAAATCTGCCAGTTTATTGACAACCAGCACCGATCCGGTCTTTTCCGACCGTTTGATGATGTATATGATCAGTGTGCTCATATCCGCCGGACAGGGCAACTACATCAATGGAGCAGCCGTCAGCCTGCGCTATGATATCGTCTATCATTATCATAAGCTCATGCTGGAAGCCGCCGTCTATGGGAAAGACGGGCTGGACATGATGATTGAGAACGGCTGGTTTGAAGAGCCCCCGCAGGCACCGGACAGACAGAGACTCATCCAATAA	MSKKKLTANEVGVLWTQYIQNSMAVPVLEYLKNTCEDEDLPPLIQLAGDLAQKGLDTCTDFFKEARLPVPNGYSLDDLNPRAKKLFTDAFMLTFLEHMGKVGLTSDGYSLGASARDDVRAFFTDRIQQQDKLYNLCIQTALEKGIYTRAPQIEILNETEYIHSKAYYHPFHKRSLNTIEITHIYENVKNNALGEVVCQAFGQTTKNKTVKKYMRRGKQISINHRICLSTILEKSGVTVPMKSASLLTTSTDPVFSDRLMMYMISVLISAGQGNYINGAAVSLRYDIVYHYHKLMLEAAVYGKDGLDMMIENGWFEEPPQAPDRQRLIQ				NA	NA	NA	NA	NA
AK012_01349	207			hypothetical protein	ATGATTTATGCTTATCTTTCCCCGTTGGTTCTCATCGTCTGTATATTCGTCTCCACGATATTTGTTGTCGACTGGTTAGCCAAATTGTTAATCTACGGATTTCTTGTCAATTTTATATTTCTGCCATGGATCGTTCTTTACCGCCATGAACAAAAAGAAACCGAGGAGGGAAACAGCAATGTCGAAAAAGAAACTAACAGCCAATGA	MIYAYLSPLVLIVCIFVSTIFVVDWLAKLLIYGFLVNFIFLPWIVLYRHEQKETEEGNSNVEKETNSQ				NA	NA	NA	NA	NA
AK012_01350	1512	gerAA_2		Spore germination protein A1	ATGTGGAAATGGATGCGGAAAAATAAAAAAAAGCAGGGAGAGCAGAAGCCTTCCTATAATGAAAGCGACACGCTTCCTGAATTTATTGAAGTGCTGGGGAAATCTGAGGATTTTATACAATTTGAACTCGACGGGACGACCCGGTGTACTGTTTCCTATTTAAAAACGATGAGTGACTCGAAAATTTTGAACCGTTCGGTACTGACAACACTTAACAGTCACGATTTACACAGTTTAAAGGAGATCAAAGAAACCATCCCCGTTGAAAATGTTCTCATTACGGACGATCTGAAGGTCATCCAGACAAAAGTCATGTTCGGATACATTATGATCCAAGTGAAGTCGTCTTTGGAAAAAGTCCTGCTTGTTCCAGCGGTTTCCCTGGAATCAAGAGATGTGGGCATTCCGGAGGTCGAATTCAGTGTCGTAGGACCGAAGGAAGCTTTCGTTGAGACGATCAATACGAACATTAACCTGATCCGTAAACGTCTTCCGCTTCCGCAGCTCACTGTCAAAGAACTGCAGGTTGGAAAAATGACGAGCACCCGGACAGCGGTGATCTATATCGACGGGGTGGCGGACAAGGATAATGTGGAGACGGTGACGCAGCGTCTCCAGGATATCGAGTTTGATCAGCTGGTCGACAGCTCGTTTATTACACAGATCATTGCAGACAATTCCAATTCCCCTTTTCCACAGCTGCTTGACACAGAACGGCCGGACAGGGTGGTTTCCAATCTGGCGGAAGGGAAAATCGCGATCTTGGTCGACGGATCGCCTCACGCACTTACATGTCCGACAACCGTGGTCGAATTTTTCGGGGCCTCGGACGATTACTTCCTCACTTGGCACCTGGCTTCTGTTTTCCGGCTCATCCGTTTATTTGCGGTTATATTTTCTGTTCTGAGCACACCTTTGTACGTAGCCGTGCTGACGTATCATTTTGAGATGATTCCGCCGGAGTTGATGGCTACTATTGTATCCTCCAGGTCTGATATTCCCTTCCCACCGATTCTTGAAGTGATCATTCTGGAATTGACGATTGAACTCCTACGGGAAGCGGGTGCGCGGCTTCCGACGAAAATCGGCCAGACGATCGGTATCGTAGGAGGTATCGTTATTGGTACGGCTGCCGTGGATGCGGGCCTGACGAGTAACGTCCTTCTGATCATTGTGGCGCTCAGTGCCCTGGCTTCCTTTACGACACCGGTTTATCAAATTGGTAATACCATCCGTCTGATCCGCTTTCCGTTTCTGGTGGGAGCCCAGCTCTGGGGGCTCGTCGGGGTGTCGATGTGTATGGTGTTCTTTATCGGCCATCTGATCAAGCTTCAGTCCATCGGCCGCCCATTTTTTGAACCGTTGTACCCACTGCGGTTCAAGGATTTGAAGGATGCGTTCATACGTCTTCCATTTCCGAAGCAGGTGGAGCGTCCGGTGCTGATGCGGGCAGAGGATCCGAAGCGTATGAATAAAGACAGGGTGGAAGCAAAGAGGGATATCGATGAATAA	MWKWMRKNKKKQGEQKPSYNESDTLPEFIEVLGKSEDFIQFELDGTTRCTVSYLKTMSDSKILNRSVLTTLNSHDLHSLKEIKETIPVENVLITDDLKVIQTKVMFGYIMIQVKSSLEKVLLVPAVSLESRDVGIPEVEFSVVGPKEAFVETINTNINLIRKRLPLPQLTVKELQVGKMTSTRTAVIYIDGVADKDNVETVTQRLQDIEFDQLVDSSFITQIIADNSNSPFPQLLDTERPDRVVSNLAEGKIAILVDGSPHALTCPTTVVEFFGASDDYFLTWHLASVFRLIRLFAVIFSVLSTPLYVAVLTYHFEMIPPELMATIVSSRSDIPFPPILEVIILELTIELLREAGARLPTKIGQTIGIVGGIVIGTAAVDAGLTSNVLLIIVALSALASFTTPVYQIGNTIRLIRFPFLVGAQLWGLVGVSMCMVFFIGHLIKLQSIGRPFFEPLYPLRFKDLKDAFIRLPFPKQVERPVLMRAEDPKRMNKDRVEAKRDIDE	PGPT0025050_660	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK012_01351	1116	yndE_2		Spore germination protein YndE	ATGAATAAATTAAACGAAATCGAAGGATTAAACATATCCGAAAATTATTTGGTCAGCCCGTTTTATGTTTTTTTCATCATCTGCACCATGCAGGTCGGCATCGGAATTCTCGGGTTTGAGCGGTATTTAGTGGAAAAAGCCGGTTTCGATGCCTGGATTTCTGTTCTTGTCGCAGGGGGATTTCTCCACATCCTTGTTTGGGTGATGTACCGTCTCCTTCAGAATGGAGGCGGGGATATTGTTCATATTCATAAGCAGGTATTCGGAAAATACATCGGCGGTTTTTTAAGTCTTCTGTTCGCTGTTTATGCCCTGCTGCTGGCGTTTGATGTCATGATCACCTTTATTGAAGTTATTAAAGTGTGGATGTTTCCCGGACTGCAGGTCTGGATTTTTGCCTTTGTCATGATCGGGCTTGTCTACTATATCGTCTCCGGGGGTTTTCGTGTACTCACCGGCATTGCCCTGATCAGTCTCGTCATCGGCCTGCCGATCCTTCTGCTGAAGTTTTTCCCTATTCAGGCGGGTCATACGATGAATATCTACCCGAACATCCAGCACAGTCCGATGCAGATTCTGGCTGCGGCAAAGCAGAGTGCACTCAGCTTTCTCGGCCTGGAATTTCTATTGATCTTTTATCCCTTTATCAAAGATCCTCACAAATCAAAAAAATGGGCTCATTTTGCCGTCTTCTATACGACGATGCTTTACTTCATCAGCGTTCTTGTCACGTTTGTCTACTTCAGCGAGGAACAGCTGAAGCAGGTCGTATGGGGAACGATTTCCACATGGAAAATTGTCGAATTTCCGTTCATTGAACGATTTGAGTATGTCGGGATTGCCATGTGGCTGTATGTCATTCTGCCTAACGTCTGTATCGGAATCTGGGGGGCGACGCGCGTGATGAAAAGGGTCTTCCCGGTGAAGCAGATCCATTTTCTGAGGTTCACCTGTATCTCCTTGTTCTTCCCGGTCGCTCTGGTGGCTGGAAGGGACCCAATTAATGCCATCAATAACTTCATCGGTACCGTCGGCTTTTATGTGCTGCTTTACATTCCCCTTCTGCTCCTTTTGAAAACGATTACGGACAAAGTGAGGAAACGACATGAACATTAA	MNKLNEIEGLNISENYLVSPFYVFFIICTMQVGIGILGFERYLVEKAGFDAWISVLVAGGFLHILVWVMYRLLQNGGGDIVHIHKQVFGKYIGGFLSLLFAVYALLLAFDVMITFIEVIKVWMFPGLQVWIFAFVMIGLVYYIVSGGFRVLTGIALISLVIGLPILLLKFFPIQAGHTMNIYPNIQHSPMQILAAAKQSALSFLGLEFLLIFYPFIKDPHKSKKWAHFAVFYTTMLYFISVLVTFVYFSEEQLKQVVWGTISTWKIVEFPFIERFEYVGIAMWLYVILPNVCIGIWGATRVMKRVFPVKQIHFLRFTCISLFFPVALVAGRDPINAINNFIGTVGFYVLLYIPLLLLLKTITDKVRKRHEH	PGPT0025015_19	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025015-gerAB-K06289	NA	NA
AK012_01352	1089			hypothetical protein	ATGAACATTAAGTGGAAATTTTTCGTACTTCTCGGCATCCTCCTCCTGTCAGCTGGATGTGTACCGAGTAAAAGCGTCGAGGAAAATGCGATCGTCCAGATTTCCGGCTATGACCGTGGCGGCGATGGAGGAAGAATCAAAGGAACCGTATCGATTCCGCAGTACGGCAAAAGTGAAAAGAAAACTGCTGCGTCGGAACTCTATTTGACCGTCGACGCCAACTCCATCAAGGATGTGGAGAAGGAAATCCAGAAACAATCCTCCAAGCCGATTTCCATTGGTAAACTGGCGGTCACCTTATACAGTATGGAACTGGCTGAGGAAGGGATTTCCGATGTGATTGATGTATTAAGCCGGGATGCCCGTTTAAGCCGGAACATGTATCTCGGTGTGGTGGATGGACAAACCCAGGATTTGATTGAAAATGGGTATACCCAGGATGAGACTACGTCCAAGCATCTCCAGGGATTGATTGAGAATAATATCCATCACAACTTTCCAACGACAAGCCTGCACGAATTTCTGTATGCCTATTATGCGATTGGGATGGACCCTTACCTTCCTATTTTGGCGCAGAAAGAGTCCTTTGTGGAAATATCGGGCATCGGTTTTTTCAAGAAAGGGAAACTGGTGACCACGCTTTCGGATGCGAAAGTATTTACGTTCAAAATGATGAAAGAGAATTTCACGAGAGGAATGCAGGATCTCCCCTTTCAGGAGGGGACGATTATGCTTGATAACATCGGTTCCACCGTAGATTATAAACTGACAGGAACGAACGAAAACCCTGGTTTGGAGATCAATGTGAAGCTGAAGTCGGAAGTCAATGAAATGGTAGGCGTGGAAGAGGAGCCTTCCCCGCAGCTGGCCGAGGAAATGGAAGATGCGTTTGTCGACTATTTCAAAACGAATGCGGATGAGATGATCGAGTTGTTTAAGAAGGAAGGCATCGACCCGCTCGGTCTCGGCCATTTCGCCAAGACGAGGACGAGGCATTTTGATGAAAAACGGTGGGAGGATCTCTATCCGGATATGGATATTCAGTTTGATGTTGATGTTGAAATTACCGAATACGGCATTTTCTCTTGA	MNIKWKFFVLLGILLLSAGCVPSKSVEENAIVQISGYDRGGDGGRIKGTVSIPQYGKSEKKTAASELYLTVDANSIKDVEKEIQKQSSKPISIGKLAVTLYSMELAEEGISDVIDVLSRDARLSRNMYLGVVDGQTQDLIENGYTQDETTSKHLQGLIENNIHHNFPTTSLHEFLYAYYAIGMDPYLPILAQKESFVEISGIGFFKKGKLVTTLSDAKVFTFKMMKENFTRGMQDLPFQEGTIMLDNIGSTVDYKLTGTNENPGLEINVKLKSEVNEMVGVEEEPSPQLAEEMEDAFVDYFKTNADEMIELFKKEGIDPLGLGHFAKTRTRHFDEKRWEDLYPDMDIQFDVDVEITEYGIFS	PGPT0014785_161	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0014785-yfkR-K06308	NA	NA
AK012_01353	444			hypothetical protein	ATGCCGCGGGCACGCCCTCAGCTAACTTGGTCAGGAAGACCGCCTGCCCAAGTGGATCTTCGGCCCGTGCTGTTCCCGCAGGCATCACCACCGAACGCTCCTCGTGCCGACGGTAGAATATATCGAAGAGAGCTTGTGCTCTGCCCAGGTTCGCACACTCAAAATAACGGTCCGGGCTGCTTTATTGACGCTTGCAAAAGAAAAAGGGAAAGAACAGGCGCTGATGACGGTTGCCTGTCGGAATATGAAAAAGACTGCCTGCCATCCAACAAGGGTGAGCGGGATGAAGGGGAGTCTTTTTCGATTTTAAAGAACTCCCAAGGAGCGGTGCCCCTTCCACTCCTGCGGAAGAACGAGTGGTCCGAGATCACCGAGCATGGGTTTTGCGAGGAAGCTCGGGCGCTCGTCCGCGGAAAGGGAAGGGGCTTACGCTCCTGGCGGTAA	MPRARPQLTWSGRPPAQVDLRPVLFPQASPPNAPRADGRIYRRELVLCPGSHTQNNGPGCFIDACKRKRERTGADDGCLSEYEKDCLPSNKGERDEGESFSILKNSQGAVPLPLLRKNEWSEITEHGFCEEARALVRGKGRGLRSWR				NA	NA	NA	NA	NA
AK012_01354	1029	splB	COG1533	Spore photoproduct lyase	GTGGTAAAACCATTTGTACCGGAACTTGTCTATATTGAACCGCGGGCCCTCGACTACCCTTTAGGCCGGGAATTAAAAGAGAAATTCGAAGGGATGGGGATTGAAATCCGGGAGACCACCTCCCATAACCAGGTCCGGAACCTGCCGGGGGACAATGATTTCCAAAAATACCGGATGGCCAAATCGACCCTTGTTGTCGGTGTAAGAAAAACACTCAAATTTGATACGTCCAAACCGTCAGCGGAGTACGCCATCCCGCTTGCCACGGGCTGTATGGGCCACTGTCACTACTGCTATCTGCAGACAACAATGGGCAGTAAGCCGTATATCCGTACGTATGTGAACGTCGATGAAGTGCTCGACTCAGCGGAGCAGTATATGAAGGAAAGGGCCCCGGAAATGACCCGGTTTGAAGCGTCCTGTACGTCTGACATTGTGGGCGTCGACCACTTGACCCATTCCTTGAAGCGGGCGATCGAATACTTCGGTCAGTCCGAATACGGCCAGCTCCGGTTTGTGACAAAATTCGCGCACGTCGATCATCTGCTCGATGCCAAGCACAACGGCCGCACACGGTTCCGTTTCAGCATGAACGCAGATTATGTCATCAAATACCTGGAGCCCGGCACATCCAGACTTGATGACCGGATCGGGGCCGCCGTGAAAGTGGCTGAGGCCGGTTATCCGCTCGGCTTCATTATTGCCCCGATCTACCTTTACGAAGACTGGAAGGAAGGGTACAGGGTCCTGTTTGAAAAGCTGCAGGACAGACTTCCGGACCACGCCGTGAAAGATCTGACGTTCGAACTCATCCAGCACCGGTTCACGAAGCCCGCCAAACGCGTCATCCAGAAGAATTACCCTATGACAAAGCTTGAAATGGATGAAGAGAAACGCAAATACAAATGGGGACGTTACGGCATTGGGAAGTACGTGTACCAGAAGGACGAGCAGGAGGAAATGAAAAACGTCCTCGGCGGCTATATTGCCGAATATTTCCCGGAAGCCAGTCTTGAATATTTCACGTGA	MVKPFVPELVYIEPRALDYPLGRELKEKFEGMGIEIRETTSHNQVRNLPGDNDFQKYRMAKSTLVVGVRKTLKFDTSKPSAEYAIPLATGCMGHCHYCYLQTTMGSKPYIRTYVNVDEVLDSAEQYMKERAPEMTRFEASCTSDIVGVDHLTHSLKRAIEYFGQSEYGQLRFVTKFAHVDHLLDAKHNGRTRFRFSMNADYVIKYLEPGTSRLDDRIGAAVKVAEAGYPLGFIIAPIYLYEDWKEGYRVLFEKLQDRLPDHAVKDLTFELIQHRFTKPAKRVIQKNYPMTKLEMDEEKRKYKWGRYGIGKYVYQKDEQEEMKNVLGGYIAEYFPEASLEYFT				NA	NA	NA	NA	NA
AK012_01355	261			hypothetical protein	ATGGAATTTCAACAATCCTACAAAGCAGGGGACATCGTCTATGTCATTTACCGCAATCCGCACACGTATGACGTAGCGAACGTCCAGGAGGCGGCCGTCGTCAATAACCCCGAACAGCCGGGCGACCTGGCGCTGTTTCTGTATGAAACCTATTTTCCACTCGATGAAAACATCGCCGTGTATGCATCAGAAGGAGAAGCTGAACGAGCTTACTATGATGCCTTCGGCGGCGGTGCTGAATCGGAGGGACAGCTGTGGTAA	MEFQQSYKAGDIVYVIYRNPHTYDVANVQEAAVVNNPEQPGDLALFLYETYFPLDENIAVYASEGEAERAYYDAFGGGAESEGQLW				NA	NA	NA	NA	NA
AK012_01356	543			hypothetical protein	ATGATGTGGAAATTGAGTACAGAACGCCTGATTCTAGAGCCTTTCACAGAAGATCTTACTGAAAAAACAGCCGAGCTTGCGGGGGACCCGGAGGTGGCGGCAGCGACGTTGGTTCCGCATCCGTATACCGTTGATCATGCGAAAGAATGGATTGCCGCGCATGCAGCATGGATGGAGGAAAAAACGGCTTTTCCTTTCGCTGTGAAACGGAAGGAAGACGGAGAACTGCTGGGGACGATGACTCTCCGCGTGGATCAAGGACACCAAAAAGGCGAACTCGCCTATTGGATGGGGCGCCCTTACTGGGGCCGCGGATATGCGTCAGAGGCGGCGCAGCGGGTGGTCCGCTTCGGTTTTGAGGAACGGCGGCTGAACCGGATCTGGGCAGCGGCGATCTCCTCCAACCCTGCTTCTACACGGGTCATGCAGAAGGCCGGTCTCACCTATGAAGGGACCTTGAAAAAGGACATGCTTCATAGAGGGGAATTCAAGGATATCGATGTGTACGGAAGAATTCGTGAATCATCATCACGTTCCATGTGA	MMWKLSTERLILEPFTEDLTEKTAELAGDPEVAAATLVPHPYTVDHAKEWIAAHAAWMEEKTAFPFAVKRKEDGELLGTMTLRVDQGHQKGELAYWMGRPYWGRGYASEAAQRVVRFGFEERRLNRIWAAAISSNPASTRVMQKAGLTYEGTLKKDMLHRGEFKDIDVYGRIRESSSRSM				NA	NA	NA	NA	NA
AK012_01357	864	noc	COG1475	Nucleoid occlusion protein	GTGTTACATCCTTTTGGTCGTTTATTCGGGCTTGGGGACAAACCGGAATCGGATAATGACAACAATGAGGAACAAGGCTACAGCCCCGATGAAGTTGTACAGGTTCCCGTAGATCGTGTACAGCCTAACCGCTATCAGCCACGAGCGATTTTCAACAGCGAGAAGATCAGCGAACTTGCCCAGACGATACATACGCATGGGATGATTCAGCCGATCGTTCTCCGTCGGTTAAATGAAGAAGATTATGAACTGATTGCCGGTGAACGCCGTTGGCGCGCTGTTCAGTCGCTCGGATGGGAGAAGATTCCCGCGATTATCCGTGATATGAATGACTCCCAGACGGCGTCGGTGGCCTTAATTGAGAACCTGCAGCGGGAAGAATTGACCGTCATTGAAGAAGCCCTCGCCTACGCGAAACTGATCGAGCTTCATCAACTGACTCAGGAGGCCCTGGCCCAGCGTCTCGGTAAAAGCCAATCGACCATTGCGAACAAAATCCGGCTATTGAAGCTGCCGGAATCCGTCCAGCAGGCTATTATGGACAAGCAGATAACGGAACGGCACGCCCGTGCGCTGATCGCTTTGAAAGATCCGGAAGTGCAGGAGCAGGTGCTGAAGGAAATCATTGAGAAGCAGTTGAACGTGAAGCAGACGGAGGAACGGATTGCCAAGCTTTCCGATCCAAAGCCGAAGAAAAAGAAACCCACCCTTAAAGGGGTGAACAAGGATATGCGGATTGCGATGAATACCATCCGCCAGTCGTTGAATATGGTGACAGATACCGGCATTGACTTGGAAACAGACGAGCAGGATCATGACGATTATTATCAGATCACTATTAAAATACCGAAGAAAAAATCATAA	MLHPFGRLFGLGDKPESDNDNNEEQGYSPDEVVQVPVDRVQPNRYQPRAIFNSEKISELAQTIHTHGMIQPIVLRRLNEEDYELIAGERRWRAVQSLGWEKIPAIIRDMNDSQTASVALIENLQREELTVIEEALAYAKLIELHQLTQEALAQRLGKSQSTIANKIRLLKLPESVQQAIMDKQITERHARALIALKDPEVQEQVLKEIIEKQLNVKQTEERIAKLSDPKPKKKKPTLKGVNKDMRIAMNTIRQSLNMVTDTGIDLETDEQDHDDYYQITIKIPKKKS	PGPT0014815_7126	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
AK012_01358	774	soj_1	COG1192	Sporulation initiation inhibitor protein Soj	ATGGGGAAAGTGATTTCCATCGCGAATCAAAAAGGCGGTGTCGGAAAAACGACCACAGCCGTCAATTTAAGTGCATGCTTGGCTTACCTCCATCATAAAGTCCTTTTAGTTGATATCGACCCGCAGGGAAATGCGACGAGCGGAATAGGTGTGGAAAAGGGAGATATGGATCAATGCATCTACAATGTTCTCATTGATGACGTCCAAGCGGAAAAGGTCCGGACGGAAACACTCGTGCAGAACCTGGATGCCATCCCCGCCACCATCCAGCTCGCTGGTGCAGAAATTGAACTGGTGCGTACCATTTCCAGAGAAGCTCAGTTGAAAAAGTCCATGGATCAGCTGAAAACGGAATATGATTACATCATTATTGACTGCCCGCCCTCTTTAGGCCTCTTAACGTTGAACGCCCTGACCGCTTCTGATACGGTGTTAATTCCAGTACAGTGCGAATATTATGCGCTTGAAGGACTGAGCCAGCTGTTGAATACCGTCCGGCTTGTCCAGAAGCATTTGAATAAGCAGCTGATGATTGAAGGTGTTCTGCTGACAATGCTCGATGCCAGGACGAACCTCGGCATCCAGGTGATTGAAGAAGTGAAAAAATACTTTCAGGACAAAGTGTATCAATCAATCATCCCCCGTAATGTCCGGTTGAGCGAAGCTCCCAGCCACGGACGTCCGGCGATCCTGTACGATCCAAAATCAAGGGGAGCAGAAGTCTATTTAGAATTAGCAAAGGAAGTGATTACAAATGGTGAGAGGGTTAGGTAG	MGKVISIANQKGGVGKTTTAVNLSACLAYLHHKVLLVDIDPQGNATSGIGVEKGDMDQCIYNVLIDDVQAEKVRTETLVQNLDAIPATIQLAGAEIELVRTISREAQLKKSMDQLKTEYDYIIIDCPPSLGLLTLNALTASDTVLIPVQCEYYALEGLSQLLNTVRLVQKHLNKQLMIEGVLLTMLDARTNLGIQVIEEVKKYFQDKVYQSIIPRNVRLSEAPSHGRPAILYDPKSRGAEVYLELAKEVITNGERVR				NA	NA	NA	NA	NA
AK012_01359	834	spo0J	COG1475	Stage 0 sporulation protein J	ATGGTGAGAGGGTTAGGTAGAGGACTGGATTCTCTGATCACCGGCTCCATGGAGGATGATGAACTGATTGACGTGTCTGTGGGCGAATGCCGGCCGAACCCGTATCAGCCCCGCAGGCAGTTCGACAAGGAAGCACTCGAAGGGCTTCAGCAGTCGATAGAAACCCACGGCATCCTCCAGCCTTTGATTGTCCGTAAAAGCATCAAGGGCTACGAGGTGATTGCCGGAGAGCGCCGCCTGCGGGCAGCCAGACAGGCAGCGCTTGAAACGGTTCCTGTCATCGTTAAGAACTTGACGGATGAGGAAATGATGGAACTGGCTCTGCTGGAAAACCTGCAGCGGGAAGATCTGTCCCCTGTGGAAGAAGCCCGTTCCTATGAGAAGCTGATCAAGGAACTGAATGTCACACAGGAAATTCTGTCCAAGCGCTTAGGAAAAAGCCGTTCCCATATCGCCAATCTCATCCGCCTTTTATCGCTGCCGCAGGAAGTGATTGAACTGATCGAATCCGGCAGCCTCTCGATGGGGCACGGCCGGGCCCTGCTCGGCTTAAAAGACCGGGATGAACAGATCCACCTGGCCGGGCGGATCGTTAAGGAATCGCTCAATGTCCGGCAGGTGGAGCGGCTGATTCATGAAAAGAACCAGAAAAGGTCCAAAGATAAAAAGCAGCCGAAACAGGCCGATGTGTTTTTAAAGGAACGGGAAACCGACCTGAGAAACCGGCTGGGCACGGCTGTGAAAATCCAAAAAGGCCGCCGGAAAGGGAAAATTGAGATCGAATTCACCAATGAAGCCGATTTGGAGAGAATTCTCGATATGTTCCAGGAGTAG	MVRGLGRGLDSLITGSMEDDELIDVSVGECRPNPYQPRRQFDKEALEGLQQSIETHGILQPLIVRKSIKGYEVIAGERRLRAARQAALETVPVIVKNLTDEEMMELALLENLQREDLSPVEEARSYEKLIKELNVTQEILSKRLGKSRSHIANLIRLLSLPQEVIELIESGSLSMGHGRALLGLKDRDEQIHLAGRIVKESLNVRQVERLIHEKNQKRSKDKKQPKQADVFLKERETDLRNRLGTAVKIQKGRRKGKIEIEFTNEADLERILDMFQE	PGPT0014815_7992	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CELL_GROWTH_SIGNALLING,PGPT0014815-parB|spo0J|yyaA-K03497	NA	NA
AK012_01360	705	ydfK	COG1811	putative membrane protein YdfK	ATGGTGTTGACAGGCGCACTCGTCAACGGGCTCTGTATTGCGGTTGGTACAGGACTTGGACTATTTTTTACGAAGATTCCCGAGCGGTTCAAGGAAACGGTGATGAACGGGATTGGTCTTGCGGTCATTTTGATCGGACTGCAGATGGCGTTTGAAACAGAAAACATTGTGATCGTGCTTTTAAGCCTCCTGCTTGGTGGTTTGATCGGAGAGGCGGCTTCGCTTGAGGATAAGCTGCAGGCCACAGGTCGGTGGCTGGAAGAGAAATTCAGCCGTCCAGGTCAGGAAACCGGCATTGCGCAGGGCTTCATAACCGCCTCCCTCATTTTCGTCATCGGGGCGCTGGCTGTCCTGGGCGCTCTTGACAGTGGACTACGCCAGGATCACGAAATCCTGATGACCAAGGGGGTTATCGATGGATTTGTTGCCCTCGTCCTGACGTCCACGCTCGGTTTCGGCGTCTTGTTTTCCGTCGTACCGGTTGTTGTATATGAAGGGGGAATCGCCCTTCTCGCAACACAGATCAACAGCTGGGTTCCGGAGGCGATGCTTGACCAATTCATCGTAGAAATGACGGCGGCCGGCGGGCTGCTTATTACAGCTATCGGACTGAATATGCTGAATGTAACAAACATCCGCACCGCCAACCTGCTGCCTTCGCTGCTGATGGTCGGTGTAATTCTCTGGGTCTATCAGTGGTTTTGA	MVLTGALVNGLCIAVGTGLGLFFTKIPERFKETVMNGIGLAVILIGLQMAFETENIVIVLLSLLLGGLIGEAASLEDKLQATGRWLEEKFSRPGQETGIAQGFITASLIFVIGALAVLGALDSGLRQDHEILMTKGVIDGFVALVLTSTLGFGVLFSVVPVVVYEGGIALLATQINSWVPEAMLDQFIVEMTAAGGLLITAIGLNMLNVTNIRTANLLPSLLMVGVILWVYQWF	PGPT0003195_647	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BACILLIBACTIN_TRANSPORT,PGPT0003195-ydfK|yqgA-K07150	NA	NA
AK012_01361	627			hypothetical protein	ATGAATTTCAAGGACAAGTTTTCAAGAGAAGAAAGACGCGTCAGCACCGAAGATCCGGCCATGAGTGATCAGCTTGCCGACTATTTGATTGAATGGCTTCCCCCGTCAAAGGAGATTATCATCGCCTGCATCGGCACCGATCGTTCCACGGGAGATTCCTTCGGGCCGCTCGTCGGATCGATGCTTCATGATCAATTACTGGATACCTTCCATATATACGGCACCCTCGAAGAGCCGCTTCATGCACTGAACTTGAAGGAGAGACTGTCCGATATCCACCGCAGCCATGTGAATCCTTATATCCTGGCGGTCGATGCCTGCCTCGGGAAATCCTCCTCGGTCGGTTCTGTCGTTCTTGGCAAAGGTTCGCTGAATCCGGGCTCTGCATTAAAAAAAGACCTGCCTCCAGTAGGGCAGATCCATATTAGTGGCATGGTCAATGTCAGTGGGTTCATGGAGCATGTCGTCCTGCAGAACACACGCCTCCACGTTGTCATGCAGATGGCGGCTAAAGTAGCCGCAGCCATCCAGATGACAGAAGCAAAGCGCAGGAAGAAAAGCATGGAAACACAGCCGTTCCAGGCATTTACGGCAGCCCGTCCGGTCATTCATAAACGGATCCAGTAG	MNFKDKFSREERRVSTEDPAMSDQLADYLIEWLPPSKEIIIACIGTDRSTGDSFGPLVGSMLHDQLLDTFHIYGTLEEPLHALNLKERLSDIHRSHVNPYILAVDACLGKSSSVGSVVLGKGSLNPGSALKKDLPPVGQIHISGMVNVSGFMEHVVLQNTRLHVVMQMAAKVAAAIQMTEAKRRKKSMETQPFQAFTAARPVIHKRIQ				NA	NA	NA	NA	NA
AK012_01362	1020			hypothetical protein	ATGATAAAAGCGGGTTGTAAGTGGATGTTTTTAATTATCGGGACGATGATAGGGGCCGGTTATGCTTCTGGAAGAGAACTGTGGCAGTTTTTCGGGGATGACAGCAGCCTGGCCATCCTCTTGTTTTCCCTCATGTTCATCTTCTGCTGCTGGGTGATCTTATCGATCAGTTTTAAGCTGGAGAGTGGTCATTATCTCCCTGTCCTTCGTGCGGTCGTCGGACGGCGTCTGACCGGTGTATATGACTGGATGATCATCATCTACCTGTTTACGACGACCGTCATTATGCTGGCAGGCAGTGGAGCGACCCTCCAGGCCTTCAATTTCTCCTATAAGTTCGGCGTCGTGATGATTATCATTCCGCTTATTCTTCTGTTTATCTGGGATGTCAAAGGCATTGTCGTCGTGAACAGCTTTGTTCTGCCGCTGCTGATTGCCGGTCTTCTGTTCGTCCTGATCTTATTCATCAAGGATCAGGACCTGTCCCTGTTCGGTCATGTTCATGAGATGAGCAACTGGCTGGCGGCGTTTCCGTTCACCGCACTGAACATCCTCCCTTTGATTGCTGTACTCGGGGCGATCGGCAACCAGGTCCGGCGGAAGGGGGAAATCTGGGTGGCCAGTATTGGAAGCGGGGTCGTGCTCGGAGTCGTTTCCTACCTTTATAACAACAGTTTGATTCAAATTGCGGAAGATATCATTTTGTATGAAATCCCCCTTTTCGCCATTCTTAAACATTATCCTTACGAAATGATGATCTTCATGTCCGTGATGCTGTGGATTGCGATTTTTACAACTGCCGCCTCGGGGACACTCGGGCTTGTCACACGGTTCCGGGATTACGTGCGCCAGCCGCTCTGGATCCTGGCTATGATGGTGATTGCCATTATGCTGCCCTTTACTTCTTTTGGCTTTTCCACCCTCATTGAATACTTGTATCCGCTGTATGGCATCCTGAATTTATACGTGCTCCTTTCTCTTCTTTTATACCCCGTTCTTTCCAGATTCAAAATTCGCTGA	MIKAGCKWMFLIIGTMIGAGYASGRELWQFFGDDSSLAILLFSLMFIFCCWVILSISFKLESGHYLPVLRAVVGRRLTGVYDWMIIIYLFTTTVIMLAGSGATLQAFNFSYKFGVVMIIIPLILLFIWDVKGIVVVNSFVLPLLIAGLLFVLILFIKDQDLSLFGHVHEMSNWLAAFPFTALNILPLIAVLGAIGNQVRRKGEIWVASIGSGVVLGVVSYLYNNSLIQIAEDIILYEIPLFAILKHYPYEMMIFMSVMLWIAIFTTAASGTLGLVTRFRDYVRQPLWILAMMVIAIMLPFTSFGFSTLIEYLYPLYGILNLYVLLSLLLYPVLSRFKIR				NA	NA	NA	NA	NA
AK012_01363	903	mscS	COG0668	Small-conductance mechanosensitive channel	GTGAGTGAACCAACAAAAGCTGTGGAAGATGCAAAAACACAGTGGGAGGAACTCGTCAGTTATGTCAAAGATCCGGAGATTTGGTGGAGTTACGGAATCGGCGCTTTAAAAATCATCATGATCATTCTGTTATCGCTGCTGATCATCCGGATCGGACGTGGGTTGATTGCGCAGTTTTTCGCGAATAAACGCCGGGGGCCTTTTCAAATTACCCAGCGCCGGGAAGCTACGCTGAACAAGCTGGTTGTGAACGCCTTGTCCTATGTCGTATATTTCGTCGCGTTTATTATGATTCTGGAGACGCTGACGATCAACATCGCCGCCCTCCTTGCCGGTGCCGGTGTGGCGGGTCTTGCGATCGGCTTTGGTGCCCAGAACCTTGTGCGCGACGTGATTTCCGGTTTCTTCATTATCTTTGAGGACCAATTTTCTGTCGGAGATTATATCCAAACTTCCGGGGTCGAAGGCTTTGTTGAAGAAGTCGGTCTCCGGACGTGTAAGGTGAAAGCGTGGACGGGTGAGGTCCATATCCTGCCGAACGGCAATGTCACTCAGGTGACCAACTATTCCATGCATAACAGTGTGGCGGTCGTCGACGTGAAAGTGGCCTATGAAGAGGATATCGAGCGGGCCGAGCAGGTCATTTCAAAACTGCTTGAAGAACTGCCCGGACGTTATGAGGAAATCATCACTGTGCCGGAGCTGCTTGGCGTACAAAACCTCGGTGCCTCTGAAGTTGTGATGCGTGTCATCGCTGAGGTCAACCCGATGGAGCACTGGGCAGTGGCGCGGGTGATCCGTAAAGAAGTGAAAACCCGGCTCAATCAGGAAGGCATTGAAATTCCGTTTCCACGTATGGTCATGTATTCCCGTCATGACGAGGCTGAAGCGGCTGATCAATAA	MSEPTKAVEDAKTQWEELVSYVKDPEIWWSYGIGALKIIMIILLSLLIIRIGRGLIAQFFANKRRGPFQITQRREATLNKLVVNALSYVVYFVAFIMILETLTINIAALLAGAGVAGLAIGFGAQNLVRDVISGFFIIFEDQFSVGDYIQTSGVEGFVEEVGLRTCKVKAWTGEVHILPNGNVTQVTNYSMHNSVAVVDVKVAYEEDIERAEQVISKLLEELPGRYEEIITVPELLGVQNLGASEVVMRVIAEVNPMEHWAVARVIRKEVKTRLNQEGIEIPFPRMVMYSRHDEAEAADQ	PGPT0013695_2036	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013695-ykuT|ybiO-K22044	NA	NA
AK012_01364	195			hypothetical protein	ATGGCAGACAAATCCTATGAACTTAATGATGTGGTGGAGATGAAAAAACCCCACCCGTGCGGCGAAAACCGCTGGAAAATCATCCGTATGGGCGCGGACATCCGTATCAAATGTGAAGGCTGCGGGCACAGTGTTCTCGTCCCGCGCCGGAAATTCGAAACGAAGATGAAGAAAGTGCTGGAACCGAGTGAATGA	MADKSYELNDVVEMKKPHPCGENRWKIIRMGADIRIKCEGCGHSVLVPRRKFETKMKKVLEPSE				NA	NA	NA	NA	NA
AK012_01365	1098	ychF	COG0012	Ribosome-binding ATPase YchF	ATGGCACTAACAGCTGGAATCGTAGGTTTACCGAACGTAGGGAAATCTACGTTGTTTAACGCAATTACACAGGCAGGCGCCTTATCAGCCAACTATCCGTTCGCCACAATCGATCCGAACGTCGGGATCGTGGAAGTACCGGATTCCCGGCTTGAAAAGCTGACTGAGCTTGTGAACCCTAAGAAAACCGTTCCGACCGCATTTGAGTTTACGGATATCGCCGGCATCGTAAAAGGCGCAAGTAAAGGAGAAGGTCTCGGCAACCAGTTCCTCTCCCATATCCGCCAGGTGGATGCGATCTGCCACGTTGTGCGCGCGTTCGAAGATGAAAATATCACCCACGTATCCGGTCAGGTCGATCCGATCACGGATATCGAAACGATCAACCTCGAGCTGATCCTTGCTGACCTTGAAACGGTTTCGAAACGTCTGGACCGTGTGGCTAAGCTTGCCCGTCAGAAGGACAAGGACGCCGTTGCTGAATATGCTGTCCTTGAAAAGCTTAAGGAAGCATTGGAAGCTGAAACACCGGCCCGTGCGGTAGACTTCAGCACGGACGAGCAGAAAGTCGTGAAAGGTCTCCATCTTTTAACTTCCAAGCCCATCCTCTATGTTGCCAACGTAAGTGAAGATGAGATTGGCGGAGGGGACAATGACAAAGTGAAGCAGATCCGTGAATTTGCAGACAAGGAAAACGCGGAAGTCATTGTTGTCTGTGCGAAAATCGAATCTGAAATCGCTGAACTTGATGGTGATGAAAAGGACGAATTCCTGGACGATCTTGGTATTGAGGAATCCGGCCTCGATCAATTGATCAAAGCGACGTATAACCTGCTCGGCCTGGCGACGTATTTTACAGCCGGCGAACAGGAAGTGCGTGCCTGGACCTTTAAGGAAGGCATGACCGCTCCGCAGGCGGCCGGAATCATTCATACGGACTTCGAGCGCGGCTTCATCCGTGCGGAGACGGTTTCCTATGAGGATCTGGTCGATGCAGGAACTATGGGTGTGGCCCGTGACCGCGGCCGTGTCCGCCTTGAAGGAAAAGAATATCTGGTCAAAGACGGTGACGTCATCCATTTCCGTTTCAACGTATAA	MALTAGIVGLPNVGKSTLFNAITQAGALSANYPFATIDPNVGIVEVPDSRLEKLTELVNPKKTVPTAFEFTDIAGIVKGASKGEGLGNQFLSHIRQVDAICHVVRAFEDENITHVSGQVDPITDIETINLELILADLETVSKRLDRVAKLARQKDKDAVAEYAVLEKLKEALEAETPARAVDFSTDEQKVVKGLHLLTSKPILYVANVSEDEIGGGDNDKVKQIREFADKENAEVIVVCAKIESEIAELDGDEKDEFLDDLGIEESGLDQLIKATYNLLGLATYFTAGEQEVRAWTFKEGMTAPQAAGIIHTDFERGFIRAETVSYEDLVDAGTMGVARDRGRVRLEGKEYLVKDGDVIHFRFNV				NA	NA	NA	NA	NA
AK012_01366	294	rpsF	COG0360	30S ribosomal protein S6	ATGAGTAGAAAATACGAAATCATGTATATCATCCGCCCAGATATCGAGGAGGAAGCGAAAACATCTGTCAAAGATCGTTTCAGCAAAATCCTTACAGATAACGGAGCGGAGATCGAAGAAGTTAAAGAACTAGGCAAGCGCCGTCTTGCTTACGAAATTAACGACTACCGTGATGGAATCTACGTAACAGTTGATTTCAACGGTACACGTGAAGCGATCAACGAATTCGACCGTCAGGCGAAGTTCACGGATGATATTATCCGCCACATCGCAGTACGCGAAGATGACAAATAA	MSRKYEIMYIIRPDIEEEAKTSVKDRFSKILTDNGAEIEEVKELGKRRLAYEINDYRDGIYVTVDFNGTREAINEFDRQAKFTDDIIRHIAVREDDK				NA	NA	NA	NA	NA
AK012_01367	489	ssbA	COG0629	Single-stranded DNA-binding protein A	GTGTTAAATCGTGTCGTATTAGCCGGCAGATTGACGAAGGATCCTGATTTACGCTATACGCCAAACGGAGTAGCTGTCGCCAACTTTACGATCGCTGTGAACCGCCCGTTCTCAAACAATCAGGGAGATCGCGATGCCGATTTCATTAACTGTGTCGTTTGGAGACGAGCAGCGGAGAACCTTGCGAACTTTATGAGTAAAGGCAGTCTTGTCGGAGTGGACGGACGTCTACAGTCCCGCAGTTTCGACAATCAGGAAGGCAAGCGTGTGTTTGTAACCGAAGTCGTTGCAGACAGCGTACAATTCCTTGAATCCAAGGGTGGCTCTTCGCAGGGCGGAGGAAACCGTGGAGGTTCAGGATACCAGCCAAATCAGAATCAACCATCAGGAAACAACTTCGGTTCCAATAACAATAACCAACGTAATGATGACCCATTCGCAGACAATGGGGAACCCATCGATATATCAGACGACGATCTACCATTTTAA	MLNRVVLAGRLTKDPDLRYTPNGVAVANFTIAVNRPFSNNQGDRDADFINCVVWRRAAENLANFMSKGSLVGVDGRLQSRSFDNQEGKRVFVTEVVADSVQFLESKGGSSQGGGNRGGSGYQPNQNQPSGNNFGSNNNNQRNDDPFADNGEPIDISDDDLPF				NA	NA	NA	NA	NA
AK012_01368	228	rpsR		30S ribosomal protein S18	ATGGCACGTCGTGGACGCGGAAAACGTAAAAAGGTGTGTTTCTTTACAGCTAACGGAATCACACACATCGACTATAAAGATGTTGATTTGCTGAAACGTTTCGTCTCTGACCGTGGAAAGATTCTTCCTCGTCGAGTAACTGGAACTTCTGCTAAATATCAGCGTAAATTGACAAAAGCGATCAAACGCTCTCGTCAAATGGCCCTGCTTCCTTACTCTACTGAGTAA	MARRGRGKRKKVCFFTANGITHIDYKDVDLLKRFVSDRGKILPRRVTGTSAKYQRKLTKAIKRSRQMALLPYSTE				NA	NA	NA	NA	NA
AK012_01369	438	nsrR_1	COG1959	HTH-type transcriptional repressor NsrR	ATGCAGCTGAAGAAATATACAGATTATGCCCTGAGGGTGCTGATGTTTGCGGGGGCCAAAGAGGACGGTGCCCTGGCAAACAAAAAGGAAATCTCCGAGGTATTTCACATATCCGAAAACCATCTGGGAAAAATCATCCATGAATTAAGCAGGCTCGGGTTGATCGAAACGATCCGGGGAAGATCCGGAGGGATCCGCCTGGCTGAAGAGCCGAGGGACATTAACATCGGAAATGTTGTACGGGCGATGGAGGATAATTTCCATCTGCTGGAGTGCTTTGACTGTGGATCCAGCTACTGCGTCCTTACACCTGCGTGCCGGTTGAAGCAGGCGCTGCACGAAGCACTGGCTGCCTTCTTTCAAGTGCTTGACGGCTATACGCTGGAGGACCTGCTGGATAATAGGGGAGAGCTCCGGAAACTGATGGGGCTTTCCTGA	MQLKKYTDYALRVLMFAGAKEDGALANKKEISEVFHISENHLGKIIHELSRLGLIETIRGRSGGIRLAEEPRDINIGNVVRAMEDNFHLLECFDCGSSYCVLTPACRLKQALHEALAAFFQVLDGYTLEDLLDNRGELRKLMGLS	PGPT0013005_1240	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITRIC_OXIDE_REDUCTION,PGPT0013005-nsrR|yjeB-K13771	NA	NA
AK012_01370	1224	hmp	COG1017	Flavohemoprotein	ATGACCAATCACGATAAACATCCCCTTGATGAAAGAACGGTACAGATTATTAAGGCAACGGTTCCTGTGCTGGAGGAGCATGGAGAGACGATAACGACATTATTCTACAAGCGTCTTTTTGAAAATTATCCGGAACTGAAAAACATATTCAACCAGACGCATCAGCGGGCTGGCGATCAGCCGAGAGCCCTGGCCAATATGGTTTATGCGGCTGCCAGGCACATTGAAGACCTGGGCTCGGTGCTTCCTCAAGTAAGGACTGTTGCGGAAAAGCACCGCAGTCTGAATGTGCAGCCGGAGCATTACCCGATTGTTGGTGATTATCTTTTGAAGGCGATGAAGGAAGTACTTGGAGATCAGGCAACGGATGAAGTCATCGAAGCCTGGGGAGAGGCTTACGGGGTGATTGCCGGTGTATTCATTGACGTGGAGAAGAATCTATATGAAGAAGCGGAGGACCAGGACGGGGGGTGGGCAGACTGGCGCTCCATGCAGGTCGTGGATAAGGTGAAGGAAAGTGATGAAATGACTTCCTTTTATTTAAAACCGGTAGATAAGCAGCCGCTGCCCCGTTACAGAGCCGGTCAATATATTACGGTCAAAGCGCAGATCGAGGGAGAATCCTATGATCACCTTCGTCAGTACAGCTTATCTGATGCACCCGGTCATGATTATTTCAGGATCACCGTCAAGCGTGAAGCGGGTTCGGAGCACGTACCGGCGGGCATCGTTTCGACATGGCTGCATGACCATGTGAATGTTGGAGATATCCTTCCGGCAAGTGCCCCGGCCGGCGATTTTCATCTGGATGATCGTAAGCGTCCGCTTGTTCTCATCAGCGGCGGGGCTGGGTTGACCCCTCTGATGAGTATGCAGAAGGAAGCCGCAGTACGGCAGCCTGAGCGGGATGTTTATGTTGTCCATGCTGCAAGGCACGGCAATGTCCATGCATTTAAAGAGGACATGATGCAGAAGAAGGCCTGTTTTGTTTATGAGCAGCCGACAGAGGAAGACATCCGTTCGGGTGCGTTTCATGAACGGGGCTTCGTTGATCTGGATATCCTTCAGCGGACCGTACCGAAAGACGCTGACTTTTACTTCTGCGGGCCGAAGGGATTTATGACGGCTGTATACAGGAGTCTTGTGGAGTGGGGTGTTGAAGCAGATGCCCTGCATTATGAATTTTTCGGCCCTCAGGAAGCGTTGGTGCTGAGAGAATCGTAA	MTNHDKHPLDERTVQIIKATVPVLEEHGETITTLFYKRLFENYPELKNIFNQTHQRAGDQPRALANMVYAAARHIEDLGSVLPQVRTVAEKHRSLNVQPEHYPIVGDYLLKAMKEVLGDQATDEVIEAWGEAYGVIAGVFIDVEKNLYEEAEDQDGGWADWRSMQVVDKVKESDEMTSFYLKPVDKQPLPRYRAGQYITVKAQIEGESYDHLRQYSLSDAPGHDYFRITVKREAGSEHVPAGIVSTWLHDHVNVGDILPASAPAGDFHLDDRKRPLVLISGGAGLTPLMSMQKEAAVRQPERDVYVVHAARHGNVHAFKEDMMQKKACFVYEQPTEEDIRSGAFHERGFVDLDILQRTVPKDADFYFCGPKGFMTAVYRSLVEWGVEADALHYEFFGPQEALVLRES	PGPT0013000_1339			NA	NA	NA	NA	NA
AK012_01371	633			hypothetical protein	ATGAAACGCCATTACATCCGGGGCTTGTATTATCTGGCAGGCCTTTTTATAATGACTGCCGGCATTGCCTTGACGATTCAATCCTCTCTCGGTACCTCTCCTTTTGACGCGCTTCTTGTAGGACTGCACCGGACATTCGGATTGACGATCGGAAGCTGGGAGATCGTCGTCGGCCTGACGATGATTCTTTTTAATGCGGCGGCCTCCAGAAAAAAACCGGAACTTTTCGCGGTCATCACCTCACTGATGACTGGAGCGGGAATTGATTTCTGGGTGTTTATTCTAAGAGAAACCGTCCAGCCGGAAACGGCGGCTGTGCAGTTTACCTGCCTGATCAGCGGCATGATCATTGCCGGCTTTGGTATTGCGATGAATCTTCAGGCGGATTTCGCTCCGAATCCCTTTGACCGGATGATGCTTGTCATCAAGGATTTAACCGGATGGAACGTAACTATATCCAGAGCCTTCATCAGTATCATTCTTGTCATTCTGGCGGCCGTGTTCGGAGGGGCTGTCGGTATTGGTACGGTCATCATTACCATTTTCAGCGGCTACATCATTCACCTGTTTATGAAAATCATCGATCAGTTTGACCAGCGCACCTTCCAGGCAGCTCCACTGAGAGAATCGTAG	MKRHYIRGLYYLAGLFIMTAGIALTIQSSLGTSPFDALLVGLHRTFGLTIGSWEIVVGLTMILFNAAASRKKPELFAVITSLMTGAGIDFWVFILRETVQPETAAVQFTCLISGMIIAGFGIAMNLQADFAPNPFDRMMLVIKDLTGWNVTISRAFISIILVILAAVFGGAVGIGTVIITIFSGYIIHLFMKIIDQFDQRTFQAAPLRES	PGPT0026395_1077	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
AK012_01372	1683	dppE_2	COG4166	Dipeptide-binding protein DppE	TTGAGAAAACATCTGTTGGTACTTTTCAGCTTGATGTTTGTTCTCGTACTTGCCGCGTGCGGCGGGGACAGCGAAACATCATCTGAATCAGGAGAGGGAAGCAGTGAGGAATCATCGGAAGGAACAGAAGAAAGCAGTGCTTCAGGAGAACAGGAAATCACAATTACATCAAAAAGTGAGATCCCAAGCATGGACCCGTCCTTGATTACGGATTCCGTCGGATTCCAATGGGCAGGGGAAACCTATGAGGGACTTTACCGTCTCGATGAGAACAGCCAGCTTGTCAACGGAATGGCGGAAAGCTCTGAAGTGAGTGAAGACGGCCTGACATGGACATTTAACCTGCGTGACGCCGAATGGTCAAACGGCGACCCGGTTACCGCCCATGATTTCGTTTATGCATGGAGAAGAGCGGTTGATCCGGAAGTAGGATCAGAGTACGGTCCATATTTCCTTGGCGGAATCATTAAAAATGCGACAGAAATCAGCAACGGGGAAGCTTCGCTTGAAGACCTCGGCGCGAAAGCTGTGGATGATAAAACCCTTGAAGTCGAACTTGAAAAGCCGGTTCCTTATTTTGAGTCTATGACGGTCTTCATCACGTTCATGCCGCTCAACCAGGAATACGTTGAGGAGCAGGGGGACAAGTTCGCAACGGAAGCGGAATATACCATTTCCAACGGACCGTTCGAAATGACGGAATGGAGCCACGGGGAAGGCTGGTCTATTGAAAAGAGCGATTCCTACTGGGATAAAGATGCAGTACAGCTTGAAACAATCAATGCGAAAGTCGTCAAAGAAGTCTCGACCGGCGTGAACCTTTATGAGTCCGGAGAAATTGATCAAACAGAATTGAATGCTGAATTTGTGGATCAGTACCGTACCGACGAAGCCTTTAACGTTGTTGAAAAACCATACTTATACTTCTTCAAGTTCAACCAGGAAAATAACGAGGCGCTTGCCAACGTTAACGTACGTAAGGCCATTTCCTACGCGATCGACCGTCAGGGTCTTGTCGATGTCATCCTGAACGACGGATCGGTTCCTGCGGAAGGCTATGTACCATCCAACTTCGTGTCCATGCCGGACAGTGAGGAAGATTTCCGTGAAGCACAGGGACCACTTGTAGAGTCGAACGTAGAAAAAGCACAGGAGCACTGGAATAAAGCTCTTGAGGAACTGGGAACAGATTCTGTTGAAATCGAACTGCTTGGCGATGATACCGGGACGTCCAAAGATGCTCTTGCCTACTACAAAGGACAGCTTGAGGAAAACCTGGACGGCTTGACGATCAAGCTTATGGAAGTACCATTTAAGGAACGTGTCCGCCGTGACAACAATGCAGAATTCGAAATGGAAGCTGCGACATGGGGACCGGACTACGTCGACCCGAACACGTACTTGAACATGTATCTGACAGATGGTCAGAACAACAACATGGCGTACTCCAGCGAAGAGTATGACAGCTTAATTGAAAAAGCCAACACCGAGTATGCTCAGGATCCAGCGAAGCGTTTCGAAACCTTCCTGGAAGCAGAGAAGCTTCTTCTTGAAGAAGATCAGGCCGTTGCTCCTATTTATCAGGATGCAAAAGCTCAGCTGTTCCGCCCGTCCATCAAAGGCGTGTATTCTACAGCGACAGGTCCTGAGTTCGAATTCAAGTGGGCTTACGTTGAAGAGTAA	MRKHLLVLFSLMFVLVLAACGGDSETSSESGEGSSEESSEGTEESSASGEQEITITSKSEIPSMDPSLITDSVGFQWAGETYEGLYRLDENSQLVNGMAESSEVSEDGLTWTFNLRDAEWSNGDPVTAHDFVYAWRRAVDPEVGSEYGPYFLGGIIKNATEISNGEASLEDLGAKAVDDKTLEVELEKPVPYFESMTVFITFMPLNQEYVEEQGDKFATEAEYTISNGPFEMTEWSHGEGWSIEKSDSYWDKDAVQLETINAKVVKEVSTGVNLYESGEIDQTELNAEFVDQYRTDEAFNVVEKPYLYFFKFNQENNEALANVNVRKAISYAIDRQGLVDVILNDGSVPAEGYVPSNFVSMPDSEEDFREAQGPLVESNVEKAQEHWNKALEELGTDSVEIELLGDDTGTSKDALAYYKGQLEENLDGLTIKLMEVPFKERVRRDNNAEFEMEAATWGPDYVDPNTYLNMYLTDGQNNNMAYSSEEYDSLIEKANTEYAQDPAKRFETFLEAEKLLLEEDQAVAPIYQDAKAQLFRPSIKGVYSTATGPEFEFKWAYVEE	PGPT0021015_1024	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
AK012_01373	1161		COG0075	Serine-pyruvate aminotransferase	ATGAAGCGTGAATGGGATTTGCTTCATACTCCGGGACCGACGCCGATCCCGCCGAGTGTGGACCGCAGTATGAGCCAGCCGATGATTGGACACAGAGGAGAGAAATGCAAGGAATTGATGCAGGACATCGCCCCGAGATTGAAGCCGGTCTTCGGTACATCCGGAGACGTTCTTGTGATTACCGGAAGCGGAACGTCAGCGCTTGAATCCGCTGTCGTCAACGCCACCCAGCCGGGAGATGAAGTGCTTGTCGTCGTTGCCGGTGCTTTTGGTGATCGTTTTGCTCAGATTTGTCAAACCTATGAATTGAATGTCCACCGTCTGGATGTCACATGGGGAGAGGCTGTAAAGGTCGATCAAGTGACACAGGCCCTTCAGGAGAACCCGGATATCAAGGCCGTATTCGTGACGCATTGTGAAACGTCAACAGGAGTGATGCACCCGGTTGAAGCCGTCGCTGAAAAAGTGAAGGAAGTCAGTGAAGCTCTTGTCATTGTCGATGGTGTCTCGTCGATCGGCGGCGCTGGTTTGAATATGGACGCCTCTGGAATCGATATCTTAGTCTCCGGTTCCCAGAAGGCGATGATGCTCCCGGCGGGTCTGGCTTTTGTCGCCGTAGCTGATTCTGCCTGGAAGGTGATCGATGAGAATCCCAGGCCGCGCTTTTACTTGGATCTGCGCGTCTACCGCAAGCAGCTGATGGCCGGGCAGACCCCGTACACCCCGGCTCTGTCCCTCTTGTTCGGTCTTCAGGAAGCGCTGCGCCTCTTAGAGGAAGAAACGTTGGAAAAGGTTTATGAACGCCATGAATTAATGAAGCAGATGACGCGGGAAGCTTTCCAGGCCCTTCAAATTCCCCTGCTTGTATCGGACGAGGAGGCATCTACGACGGTGACCTCCGTCCGGCCGGAAACGTTCGAAGCCGAGCAGTTGAGGAAACTGGCGAGAGAAGAATTCGGCCTGCAGCTTGCCGGTGGACAGAAAGAACTGAAGGGTGAAATTTTCCGTGTCGGCCATATGGGGTATTCCCGTCCGTCCAATGTTCTGCAGTATATCGGGATTATCGAAATCATTCTGAAGCGCCTCGGTCACACATTTGAACCGGGTGCGGGTACAGCAGCTGCTCAGGCCGCGTACCTCGATTTTACAAGGGAGGATTAG	MKREWDLLHTPGPTPIPPSVDRSMSQPMIGHRGEKCKELMQDIAPRLKPVFGTSGDVLVITGSGTSALESAVVNATQPGDEVLVVVAGAFGDRFAQICQTYELNVHRLDVTWGEAVKVDQVTQALQENPDIKAVFVTHCETSTGVMHPVEAVAEKVKEVSEALVIVDGVSSIGGAGLNMDASGIDILVSGSQKAMMLPAGLAFVAVADSAWKVIDENPRPRFYLDLRVYRKQLMAGQTPYTPALSLLFGLQEALRLLEEETLEKVYERHELMKQMTREAFQALQIPLLVSDEEASTTVTSVRPETFEAEQLRKLAREEFGLQLAGGQKELKGEIFRVGHMGYSRPSNVLQYIGIIEIILKRLGHTFEPGAGTAAAQAAYLDFTRED	PGPT0001955_1	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001955-serine_pyruvate_transaminase_EC_2_6_1_51-K13290	NA	NA
AK012_01374	1587	serA	COG0111	D-3-phosphoglycerate dehydrogenase	ATGCATCGAGTGTTAATTAGTGATCCATTGAGCGAGGAAGGCATCAAACCGCTCCGCGAAGCGGATGATATAGAAATCGTCAAAGAAACGTCCATGTCTCATGAGGAACTGCTGGAAGCCATCGGTTCGGCAGAAGCTTTGATCGTCCGCAGCCAGACACAGGTGACTCGTGAAGTGATCGAACACGCTCCTCACCTGAAAATCATCGGCCGCGCAGGCGTCGGTGTCGATAACATCGATCTCGATGCAGCGACAGACCATGGTGTCATTGTCGTAAACGCCCCGGACGGCAATACGATTTCGACTGCGGAGCATACGATGGCAATGCTCATGTCCCTGGCCCGTAATATTCCGCAGGCCTACCACCAGCTTCAGCAGCAGCGCTGGGAACGGAAGAAATTCGTCGGTGTCGAGCTGAAGGATAAAGTACTCGGGATTGTCGGCTTCGGACGGATTGGACGCGAGGTTGCCCAGCGTGCCAAAGGGCACCGCATGAAAGTGGTAGCTTTTGATCCTTTCCTTAATGAAGAAAAGGCGCAGAAAGCAGGCGTCACTCACGGTACATTGGAGGAAGTGCTGCAGCAGGCGGATTTCCTGACTGTACATACGCCGCTGATTGAGAAAACGAAGCATTTGATCAATGAGGACGCGATTGCCTTAATGAAAGACGGCGCCCGTATTTTGAACTGTGCCCGCGGTGGAATCGTCGAGGAAAATGCCTTGTATGAGGCCGTCAAATCCGGAAAAATCGCTGGAGCGGCTCTCGATGTTTTCGAAGAAGAGCCGGCCACTGAGCATCCGCTGTTATCCCTGCCGGAAGTGATTGCCACTCCTCACCTCGGCGCGAGTACAGTGGAAGCACAGGAAAACGTGGCAACAGATGTCAGTGCGGATGTGCTCGAGCTGCTGCGCGGCGGAACCGTAAGAAACCCGGTTAATCTGCCTTCCGTCTCTTCCGAAATGATGGAGAAGCTGTCGCCGTACTTTACGCTTTCGGAACGTCTTGGATCTTTTGTCTCCCGTATCGCAGAGGGCACGTTTGAAAAGATCAATGTCTACTACAGCGGGGAACTGCTCGATATTGATACGACCCCGCTGACGAGAATTGCGGTGAAAGGCATCCTCGGCCGTTACATCGGCAGCCGTGTCAATGATGTCAACGCTTATAAGACCGCTGCGGATAAAGGCATTACCATTAATGAGCAGAAGTCTACGAAAACGAAAGGGTTCACGAACCTGATTACGGTGGAAATTGAAACCGACAAGGAAAAGCATAGTGCAGCAGGTACCCGTTTGAATGGTCTTGGTGCAAGAATCGTCCAGCTGGATCAATATTCCATTGATATCGTTCCCCAAGGCCACTTGATTGTCATTCACCATACCGACCAGCCCGGTGCTATCGGGCGTGTCGGAAGTCTGCTTGCCGAGCAGGACGTCAACATTGCAACGATGCAGGTGGGACGTGCAAACGAAGGTGGAGAAGCAGTCATGGTCTTAACCGTCGACAAAGCGATCGATAAGCAGGCAGCTGATCAGCTGTCTGAGATTGCCGACATCCGCCAAGTGGATTATTTAACCCTCAAATAA	MHRVLISDPLSEEGIKPLREADDIEIVKETSMSHEELLEAIGSAEALIVRSQTQVTREVIEHAPHLKIIGRAGVGVDNIDLDAATDHGVIVVNAPDGNTISTAEHTMAMLMSLARNIPQAYHQLQQQRWERKKFVGVELKDKVLGIVGFGRIGREVAQRAKGHRMKVVAFDPFLNEEKAQKAGVTHGTLEEVLQQADFLTVHTPLIEKTKHLINEDAIALMKDGARILNCARGGIVEENALYEAVKSGKIAGAALDVFEEEPATEHPLLSLPEVIATPHLGASTVEAQENVATDVSADVLELLRGGTVRNPVNLPSVSSEMMEKLSPYFTLSERLGSFVSRIAEGTFEKINVYYSGELLDIDTTPLTRIAVKGILGRYIGSRVNDVNAYKTAADKGITINEQKSTKTKGFTNLITVEIETDKEKHSAAGTRLNGLGARIVQLDQYSIDIVPQGHLIVIHHTDQPGAIGRVGSLLAEQDVNIATMQVGRANEGGEAVMVLTVDKAIDKQAADQLSEIADIRQVDYLTLK	PGPT0009155_2099	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B6|PYRIDOXINE|PYRIDOXAL|PYRIDOXAMINE_BIOSYNTHESIS,PGPT0009155-serA-K00058	NA	NA
AK012_01375	1518	abgT_2	COG2978	p-aminobenzoyl-glutamate transport protein	ATGAACGACCAACAAAAAGAAGCTTCTGCCCCGAAAAAGCTTCTCTTCCGTATATTAGACGGGATTGAGTGGCTGGGGAATAAGCTGCCTTCCCCGTTGCTGCTGTTTGCCATTCTGGCAGCGCTCGTTGTAGTGATTTCCGGGATTTTTTCCGGTGTATCTGTCACCAACCCGACTTCAGGAGAAGTTGTCGAAGTCAAAAACCTGTTTAGTCTGAGTGGACTGGAGTATATCTTCAACAGTGCCGTGGAAAACTTCATCGGCTTTCCGCCTCTCGGTGCCGTTCTTGTAACGATGCTCGGTATCGGACTTGCAGAACAGACAGGATTGATCAATGCCTCTCTGAAAGGCATCGTCTTTTCCTTTCCCCGCCGCCTGCTGACCGCCGCACTCGTCTTTGCCGGTGTTATGTCCAGTGTGGCGGTTAACGCTGGATATGTCGTTCTTCCACCGCTTGGTGCGGTGCTGTTTCTAGGACTCGGCCGACACCCGCTCGCCGGTCTTGCTGCGGCCTTCGCCGGTGTGTCCGGCGGGTTCGGAGCCAATCTGGCGCTGACATCCACCGACGCCATTCTGCTGGAGTTGACGGCCGATGCGGCCAGCACGATCGATCCAGCCTATGCAGATACGATTACTGTAACCATGAACTACTTCTTCGCTGCTGTTTCAGTCGCGTTGATTACGATTGTGGGTACGTTTGTTACCGATAAAATTGTAGAACCGCGTCTCGGCACTTATAAAGGTGACGAATCCGGTGATATTGATGAACTGACGGCCCTTGAGAAAAAAGGGATGCGCCGGGCCGGTATCGGTTTTCTCATTACATTCGCCTTTATGGCCTACCTTTCCCTAGGACCGCTCCGCGGAGATGGGGCCTACATTGAATCTCCATTCTTTAATGCTCTTGTCTTTGTTATTTTCATCCTGTTCCTCGTACCGGGACTGATCTACGGTATTGTGGTCAAGGAAATTACCAATGACAAAGATTTGACGAAGCTGTTAGGAAAAACGATGGCCACGATGAGCGGTTATATCGCTCTCGCCTTTACAGCCGGTCAGTTCATCGCCTACTTCCGTGAGACCAACCTTGGAACAGTTATCGCCTTTAGAGGGGCTGATTTCCTTGATTCCACAGGGTTTGATGGTGTCGGGCTGATCCTTACGTTCCTCGGCCTGACGATGGTCGTCAACTTCTTTATCGGAAGTTCTTCGGCCAAGTGGACGATTCTTGCACCGGTGTTCGTACCGATTATGATGAATCTCGGATACTCCCCGGAATTTACGACCCTGCTTTACAGGATCGCGGACTCCGTGACCAACATGATCACACCGCTTCTCTTGTACTTCCCGGTGGTCATCGCATTTGCTCAGCGTTATGACAAGAAGCTTGGAATCGGAACCCTCATCTCGATGATGATCCCGTATTCTGTCGCTTTTCTACTTGCATGGCTGCTGCTCTTACTCGTCTGGGTCATTCTTGGAATCCCAGTCGGACCGGGAGCTCCAATCAGCTATTAA	MNDQQKEASAPKKLLFRILDGIEWLGNKLPSPLLLFAILAALVVVISGIFSGVSVTNPTSGEVVEVKNLFSLSGLEYIFNSAVENFIGFPPLGAVLVTMLGIGLAEQTGLINASLKGIVFSFPRRLLTAALVFAGVMSSVAVNAGYVVLPPLGAVLFLGLGRHPLAGLAAAFAGVSGGFGANLALTSTDAILLELTADAASTIDPAYADTITVTMNYFFAAVSVALITIVGTFVTDKIVEPRLGTYKGDESGDIDELTALEKKGMRRAGIGFLITFAFMAYLSLGPLRGDGAYIESPFFNALVFVIFILFLVPGLIYGIVVKEITNDKDLTKLLGKTMATMSGYIALAFTAGQFIAYFRETNLGTVIAFRGADFLDSTGFDGVGLILTFLGLTMVVNFFIGSSSAKWTILAPVFVPIMMNLGYSPEFTTLLYRIADSVTNMITPLLLYFPVVIAFAQRYDKKLGIGTLISMMIPYSVAFLLAWLLLLLVWVILGIPVGPGAPISY				NA	NA	NA	NA	NA
AK012_01376	816	hisK_2	COG1387	Histidinol-phosphatase	ATGCTGACCGATTATCACGTGCATATGGCTGAAACCGGAGATTTAGACGTCGACTACCTGAGAACCTACATACAAAAAGCAGAAAATGAAGGCATTCAGGAATTAGGTATTTCTGAACACGCGTACTTTTTTCAGGAGACGAAGGACATTCTCTCCAATCCGTGGGTGAATAACCGACGGACACTGGATTTTGACACCTACCAGCAGATGTTTGATGAGGCAGAAAAGCAGGGACTTCCCATTAAAATGGGCATTGAGATGGATTACATGCCGGGTAAGGAAAAAGAAATGGAAGCTTTCATCGACACCCATCCTTTCGATTATGTGATCGGCTCCGTGCACTGGATCGACGACTGGGGCATCGATCTGGCCATTTACCGCGAGGAGTATGAAAAAAGAGACTTGAAAGAAGTCTATGAGCAGTACTTCGACCGGGTCGTGACACTGGCGGAGTCCGGACTGTTCGACTTCGTCGGTCATATCGATGTCATCAAAGTATTCGGCTACCGTCCCGACGACCGTGATTTTCTTATCCAGCAGTACAAGCGGGCGGCAGAAGCACTGGCTTCTACAAATACGTTGATTGAAATCAGTACCGCAGGGCTCAGAAAGCCGGTCGGAGAGTTGTACCCAGATCCTGATCTGCTGAGGATCTGTAAGGAAGCCGGGGTTGGAATCGTTCTCTGCTCTGATGCGCATAAGCCGGACCATATCGGTTACCGCTATGATGCCGCCATCGACCTTGCGAAATCCGCCGGCTATACGCATGTCCATACGTTTACGAACCGGAAGGCTGAACGTCATCCGATCGGGTAA	MLTDYHVHMAETGDLDVDYLRTYIQKAENEGIQELGISEHAYFFQETKDILSNPWVNNRRTLDFDTYQQMFDEAEKQGLPIKMGIEMDYMPGKEKEMEAFIDTHPFDYVIGSVHWIDDWGIDLAIYREEYEKRDLKEVYEQYFDRVVTLAESGLFDFVGHIDVIKVFGYRPDDRDFLIQQYKRAAEALASTNTLIEISTAGLRKPVGELYPDPDLLRICKEAGVGIVLCSDAHKPDHIGYRYDAAIDLAKSAGYTHVHTFTNRKAERHPIG				NA	NA	NA	NA	NA
AK012_01377	918			hypothetical protein	ATGGCAGGGATATATCTGCTATTGTTATTGGTAATTATTTTCCTGCCGGGAGGAATCGGATCGTTACTCCTGTTCATCGTGCCGGTGCCATACATTTATTACAGCAGCCGGCATGGCTGGAAGCCCGGTCTGCTTCTGTTTTGTTTAACAATGATCTTCAGTGTGCTGATCGTTCCGGTCCTGTCGGTTCCTTTTACACTGACCGCAGGAATCGGCGGCGTGGTATCCGGGGGTGTCCTGTATGCCGGCCGGTCGGCCTATGAATCTCTTGCTCTTGGAACTGTAGGGTATACAGGAGGTCTTATGCTCGGTATGGGCCTTGTCCAGCTGCTTCTCGGCATCAACCTTGTCGATGAACTGACCGCAGGAATGAATGATAGTTTAGACACTGTGGAATCTACGATGGGCGCATTTGGACAGGTGGAGAACTCAGAGGAAGCTGTTGATACGTTCCGTGAAGCGGTCACGTTCATTCCGGATATCATTCCGAGTATCCTCGTTATGACAAGTGTGATGACGGCCTTGATCAGTTTGTGGCTGACGTTCAAGCTTATGAACCGGATTGAAAATAAATCCTATGCCTTTGCTTCATTCAAAAACTTCCGATTGCCGACAGCCATTCTGTGGTACTACTTCTTTGCGATGATTTTGAACTACGTGGTGACGGACCGGGAAGGCTGGGTTTATTTCGGAGCGATCAACGTCTTCATTGTGGCGGGCACACTGATTGCCATCCAAGGTTTTTCATTCGTCTTCTATTACGCATCACAGAAGAAGTGGCCGAAGGCTGTACCTGTCCTGGTCATCGTTTTTTCATTACTTTCTCCGGGATTGATCATGTATCTTGTTCGAATTTTAGGTATAATTGATTTAGGATTTCCACTGCGCAGCTATGTCAGTGAGAAGAAAAAAAACTAG	MAGIYLLLLLVIIFLPGGIGSLLLFIVPVPYIYYSSRHGWKPGLLLFCLTMIFSVLIVPVLSVPFTLTAGIGGVVSGGVLYAGRSAYESLALGTVGYTGGLMLGMGLVQLLLGINLVDELTAGMNDSLDTVESTMGAFGQVENSEEAVDTFREAVTFIPDIIPSILVMTSVMTALISLWLTFKLMNRIENKSYAFASFKNFRLPTAILWYYFFAMILNYVVTDREGWVYFGAINVFIVAGTLIAIQGFSFVFYYASQKKWPKAVPVLVIVFSLLSPGLIMYLVRILGIIDLGFPLRSYVSEKKKN				NA	NA	NA	NA	NA
AK012_01378	1974	gdpP	COG3887	Cyclic-di-AMP phosphodiesterase GdpP	ATGCCGAATTTTTTTAAGAAACCAACAATGAGCGGACACTTATGGATCATCTACGCGATTTCCCTGATTCTGCTCGGGTTTATCTGGTATTATCAGTGGATGCTCGGATTATTGATGACGCTGTTCCTTGCGGCGTCCATATTCTACAGTGTCCGCACTGAACAGCACATGATCAACGAAACCGAAGAATATATATCGACCCTTTCCTACCGGGTGAAAAAGGTGGGCGAGGAAGCCCTGTTGGAGATGCCGATCGGGATCATCCTATACAGTGAGAACTACACCGTCGAATGGGCGAATCCGTATATGAACCGGTTCACGAAGGAGGATACGGTCGTCGGCGAATCGCTGAAAAAGCTGTCGGACCAGCTCATTCCTGCCGTGAAGGAAGAACAGGATGAAGTGTGGATTACGGTTGACGGCTATAAGTTCCAGACGATCGTCAAACGCGAGGAACGACTGCTTTACTTGTTTGACAGAACACAGCAGACAGAGATTCATAACCGTTATGAAAACGAACAAACGGTGCTTGCGATCATTTTCCTTGATAACTATGAAGAAATTACGCAGGGAATGGATGATACAGCGAAAAGTCATATCAACTCCCAGGTGACTTCCATTCTGAATAAATGGGCCGGGGACTACGGCATTTACCTGAAGCGCACATCACAGGAACGGTTTATGGCTGTGATGAACCAGGAGATTCTTTATACGCTGGAAAAAGCGAAGTTCGAAATTCTTGATGATGTCCGTGAACTGATTACGGATCAGAACGTCCCTCTGACGCTGAGTTTCGGTATCGGTGTCGGCCCGATCAGCCTGCCTGAGCTCGGGGAGCTGTCCCAGTCGAGTCTGGATCTTGCTCTCGGCCGCGGCGGCGACCAGGTCGCGATCAAGGACGATTCCGGAAAGGTCCGCTTCTATGGCGGTAAAACCAATCCAATGGAGAAACGGACACGTGTACGGGCCCGGGTCATCTCCCACGCGATGAAAGAACTCGTCCAGGCGAGTGAGAAGGTCTTGATTATGGGGCATAAATCCCCGGATATGGACTCGATCGGAGCCTCCATCGGGATCCTTAAAATTGCCCAGGCGAATGATAAAAAAGCGGCCATCGTCCTTGATCCGGATGATATCGATACAGGTGTCCAGCGGATGGTCGAGGAAATTGAAAAAGACGAGGATTTGTGGCAGTATTTCATACCACCGGAAGATGCGTTGGAAATGGTGACGAACAACACGCTGCTCGTCGTTGTCGATACGCATAAACCGTCGATGGTTATGGAAGAAAAACTGCTGTCGAAGACGGAGCATGTCGTCGTCATCGACCACCACCGCCGCGCGGAGGAGTTCATCAAGGATCCGACGCTCGTCTACATGGAGCCGTACGCGTCCTCGACGGCCGAGCTGGTCACCGAGCTTCTGGAATACCAGCCGAAGAAGCTGAAGCTGTCCATGCTTGAATCGACGGCTCTGCTTGCGGGAATCATCGTCGATACGAAGAGCTTTACGCTCCGGACAGGTTCAAGAACTTTTGATGCCGCTTCCTATCTGCGTTCCAAAGGAGCGGACACCGTCCAGGTGCAGAAATTCATGAAAGAGGATCTGGATGTGTATGTAAGACGAAGCAAGTTGATTGAGAAGGCTTCCGTATATAGAGATGGGATTGCCATATCAACAGGCGACCACGGTGAATCTTATGGTCCTGTCATCATCGCTCAGGCCGCGGATACGCTGCTTACGATGAGCGGAATCGTCGCATCGTTTGTCATATCTGAGCGCAGTGACGGCCGGATCGGCATCAGTGCCCGCTCTCTCGGGGATATCAACGTCCAGGTCATCATGGAGAAGATGAACGGCGGGGGTCACCTGACGAATGCGGCGACACAGCTGGAAGACACAACGATTGAAGATGCCAGAGATTTGCTGCAGGATATTATTGACGAATATTTTGAAGGGGGAGACACAGAATGA	MPNFFKKPTMSGHLWIIYAISLILLGFIWYYQWMLGLLMTLFLAASIFYSVRTEQHMINETEEYISTLSYRVKKVGEEALLEMPIGIILYSENYTVEWANPYMNRFTKEDTVVGESLKKLSDQLIPAVKEEQDEVWITVDGYKFQTIVKREERLLYLFDRTQQTEIHNRYENEQTVLAIIFLDNYEEITQGMDDTAKSHINSQVTSILNKWAGDYGIYLKRTSQERFMAVMNQEILYTLEKAKFEILDDVRELITDQNVPLTLSFGIGVGPISLPELGELSQSSLDLALGRGGDQVAIKDDSGKVRFYGGKTNPMEKRTRVRARVISHAMKELVQASEKVLIMGHKSPDMDSIGASIGILKIAQANDKKAAIVLDPDDIDTGVQRMVEEIEKDEDLWQYFIPPEDALEMVTNNTLLVVVDTHKPSMVMEEKLLSKTEHVVVIDHHRRAEEFIKDPTLVYMEPYASSTAELVTELLEYQPKKLKLSMLESTALLAGIIVDTKSFTLRTGSRTFDAASYLRSKGADTVQVQKFMKEDLDVYVRRSKLIEKASVYRDGIAISTGDHGESYGPVIIAQAADTLLTMSGIVASFVISERSDGRIGISARSLGDINVQVIMEKMNGGGHLTNAATQLEDTTIEDARDLLQDIIDEYFEGGDTE				NA	NA	NA	NA	NA
AK012_01379	447	rplI		50S ribosomal protein L9	ATGAAAGTAATATTCAAAACGGATGTAAAAGGTAAAGGGAAAAAAGGCGAAATCAAAGAAGTGAACGACGGCTATGCCCGTAACTACCTTCTGAAAAACAACCTGGCTGTTGAGGCGACCAAAGGCAACATGCAGGCGCAGAAAGCCAAGGATGCCAAAGCTGAGCAGCAGGCTCAGGAAGAAGTGGAAGAAGCGAAGCGGCTCAAGGATCAGCTGGCTGACCTTGAAGTGAAGCTTGATGCGAAATCCGGCGACAACGGCCGCCTGTTCGGTTCGATTACGAGCAAGCAGATTGCAGAGCAGTTGAAGAAGGATCACAACATCAAAATCGACAAACGTAAAATCGAGCTGGATGATCCCATCCGTACGCTTGGATACTCAAACGTTCCTGTGAAGCTTCACCCTGAAGTGACAGGCACGATCCGTGTCCACATCGCTGAAAAATAA	MKVIFKTDVKGKGKKGEIKEVNDGYARNYLLKNNLAVEATKGNMQAQKAKDAKAEQQAQEEVEEAKRLKDQLADLEVKLDAKSGDNGRLFGSITSKQIAEQLKKDHNIKIDKRKIELDDPIRTLGYSNVPVKLHPEVTGTIRVHIAEK				NA	NA	NA	NA	NA
AK012_01380	1362	dnaC	COG0305	Replicative DNA helicase	GTGAGTGAAATGTGGAACGACCGTACCCCGCCTCATAACATAGAAGCAGAGCAGGCGGTGCTCGGTGCGATCTTTTTAGAACCTGAAGCAATGTCGACAGCCGCAGAGAATTTACTACCGGAAGATTTTTATCGAGCGAGCCACCAGCGGATTTTCGAGGTGATGCTGACGCTTGCTGACAGAGGCGAGCCGATCGACCTGGTTACGGTCACCACGGCTCTTTCCAACAACAAGGTGTTGGAGGAGGTCGGCGGAGTTTCCTATCTGACAGATATCGCAAACTCGGTGCCGACCGCCGCCAACGTCGGTTATTATACGAACATCGTCGGTGAAAAATCGACGCTGCGCAGCCTGATCCGAACGGCGACGAATATTGTAACGACAGGATATTCAGAGGAAGAGGAGATTGATGATGTCCTGAATTCCGCCGAGAAAGACATTTTGGAAGTGTCCCAGCGGAAAAATTCCAGTGCGTTCAAAAGCATCAAGGATGTCCTCATTGATGTCTATGACAACATCGAGCAGCTGCACAACAATGATGGCTCTACAACAGGAATTCCGACGGGCTACCGTGACCTTGATCACATCACCTCCGGATTCCAGCGGAACGATTTGATCATCATCGCTGCCCGTCCATCGATGGGTAAGACGGCCTTCGCCTTGAACATTGCCCAGAATGTCGCTGTCCATACGGATGAAAACGTCGCGATTTTCAGTTTGGAGATGGGCGCGGACCAGCTTGTTTCCCGTATGCTCTGTGCAGAAGGGAACATTGATGCCCAACGCCTGCGTACCGGAAGCCTGGAGACAGAGGACTGGAACAAGCTGACGATGGCGATGGGAAGCTTGTCCAACGCCGGCATCTACATTGACGACACCCCCGGGGTGCGTGTCAGTGAAATCCGTTCCAAGTGCCGCCGCCTGAAGCAGGAGCATGGCCTCGGCATGATTTTGATCGACTACCTGCAGTTGATCCAGGGGAGTGCGAACTCGAAGGAAAACCGACAGCAGGAGGTTTCCGAAATTTCCCGTTCCTTGAAGGGGCTGGCGCGTGAGCTGAACGTCCCGTTGATTGCCTTATCCCAGCTCTCCCGTGGAGTGGAATCCCGTCAGGATAAACGCCCGATGATGTCGGACCTTCGTGAATCCGGATCAATCGAGCAGGATGCCGATATCGTCGGATTCCTTTATCGTGATGACTATTATGATAAGGAATCTGAAAGCCAGAACATCATTGAAATCATTATCGCTAAACAACGTAACGGTCCGGTCGGAAACGTCGAACTGGCCTTTGTGAAGGAGTACAACAAGTTCGTCGACCTCGATCACCGCTATACGGATGCCGATATACCGCCTGCCTGA	MSEMWNDRTPPHNIEAEQAVLGAIFLEPEAMSTAAENLLPEDFYRASHQRIFEVMLTLADRGEPIDLVTVTTALSNNKVLEEVGGVSYLTDIANSVPTAANVGYYTNIVGEKSTLRSLIRTATNIVTTGYSEEEEIDDVLNSAEKDILEVSQRKNSSAFKSIKDVLIDVYDNIEQLHNNDGSTTGIPTGYRDLDHITSGFQRNDLIIIAARPSMGKTAFALNIAQNVAVHTDENVAIFSLEMGADQLVSRMLCAEGNIDAQRLRTGSLETEDWNKLTMAMGSLSNAGIYIDDTPGVRVSEIRSKCRRLKQEHGLGMILIDYLQLIQGSANSKENRQQEVSEISRSLKGLARELNVPLIALSQLSRGVESRQDKRPMMSDLRESGSIEQDADIVGFLYRDDYYDKESESQNIIEIIIAKQRNGPVGNVELAFVKEYNKFVDLDHRYTDADIPPA				NA	NA	NA	NA	NA
AK012_01381	855	ywpJ	COG0561	Phosphatase YwpJ	ATGGACGTAGTGGCCATCGACCTCGACGGAACGCTCTTGAACAGAGAACATACGATCAGCGCAGGCAATGCAGAAGCGATCAAACAGGCGCAGCAAGACGGTGTGGATATCGTTATTGCGACAGGACGGGCCTATTTCGATGTTCAGCAGATTTTTGCCGACCTCCCGATCCGCCCATGGGTGATCAGTGCGAACGGTGCCGTCATTCATACACCGGACGGCACCCTGTTTGAAGAAAAGGCGCTGGACAGGGGGGACGCCGGGGAAGCCCTGAAGTGGCTTGAAAAGGAAGCGTATTATTATGAGGTCTTCAGCGGCTCGTCCATCTACACGCCGCAGAATGGACGGGAGCTGCTTCACGTGGAAATGGACCGCCTCATCAGCGCCAACCCGGAAACCGACAAGCAGAGCTTGAAGCATGCGCTCGATAAGCAGTTCAGCCAGAACGGGTTCGCTTTTGTCGAGTCTTATGAGGAAATTGTGGAGTCCAAGGATCCGATGTACAACATTCTCGCTTTTACCTTTGACCTGGATAAACTCGAAAAAGGAAAAGAGAAGTTCCATGACCATCCTTCTTTCACTATGGTGAGTTCTGCCGAGCATAACTTTGAGCTTGAGGACCACACCGCCTCCAAAGGCAGTGCCCTGAAGTCGGTGGCAGATCACCTCGGCATCCCGATGGACCGGACAGCAGCGGTTGGAGACAGTCATAATGACCTTTCCATGCTGGAAGCTGCCGGAAGGAGTGCCGCAATGGAGAATGCGGTCGATGATGTGAAAAAAGCAAGCGATTACATCACAAAATCCAATGATGATGATGGCGTGGCCTACGCCATCACGCACTACTTTTCTTAG	MDVVAIDLDGTLLNREHTISAGNAEAIKQAQQDGVDIVIATGRAYFDVQQIFADLPIRPWVISANGAVIHTPDGTLFEEKALDRGDAGEALKWLEKEAYYYEVFSGSSIYTPQNGRELLHVEMDRLISANPETDKQSLKHALDKQFSQNGFAFVESYEEIVESKDPMYNILAFTFDLDKLEKGKEKFHDHPSFTMVSSAEHNFELEDHTASKGSALKSVADHLGIPMDRTAAVGDSHNDLSMLEAAGRSAAMENAVDDVKKASDYITKSNDDDGVAYAITHYFS	PGPT0008595_31	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
AK012_01382	783	glcR_1	COG1349	HTH-type transcriptional repressor GlcR	ATGTATCAGGAAGAAAGACTGATCGGCGTCATCGAATACTTAAAAAAACAGCGCCGCATCACCATTGATCAAATGTGTGAGATGTTCGACATTTCACGAGATACCGCCCGGCGCGATCTGGTCAAACTGGAAGAACGCAAAGCGATTGTACGGACGAGGGGCGGGGCGATCCTGCCGAAAACACACGCCGCCATTCAGGATTATACCCATCGTTTGAAATCCGTATCCTATGAAAAACAGGAAATCGGCAGAAAGGCGGCGTCCCTCATCCACTCAGGCGATCATATTATTTTAGACACGTCGACGACCGTACAGGCCTGTGCCAGTCAGATTTCCCCGATGGAAATCAAGGTGATTACCAATTCGATTCACCAGGCGGATATACTGTCGAATGTCGGCCATGTATCTATACAACTGCTTGGCGGGTATCTGCAGAAGGAGCATCAGTTTCTTTACGGAGCGTCGGTCATTGAACGCCTGAAAAGCTACCACGTCGATAAAGCCTTTATCGGTGTGGTCGGAATATCCGAGCACGGACTGACCCTCGGTCATGAAGAAGATGGAATGGTGAAGAAGAATATGATCAAGCAGGCCGGGGAAGTCATCGTCCTCGCTGATCATACGAAGTTCGGAATGACGGAATTCTTCACCTTTGCCGGACTTGAGGACATCGACATGATCATTACCGATCAAGCCCCTGATGAATCCTTCCAGCGTCTATTAAGAGAATGCGGAGTAGAATTGATTGTGACAAAAGAGGAGGAAACAGACATATGGACGTAG	MYQEERLIGVIEYLKKQRRITIDQMCEMFDISRDTARRDLVKLEERKAIVRTRGGAILPKTHAAIQDYTHRLKSVSYEKQEIGRKAASLIHSGDHIILDTSTTVQACASQISPMEIKVITNSIHQADILSNVGHVSIQLLGGYLQKEHQFLYGASVIERLKSYHVDKAFIGVVGISEHGLTLGHEEDGMVKKNMIKQAGEVIVLADHTKFGMTEFFTFAGLEDIDMIITDQAPDESFQRLLRECGVELIVTKEEETDIWT				NA	NA	NA	NA	NA
AK012_01383	1290	purA	COG0104	Adenylosuccinate synthetase	ATGTCTTCAGTAGTTGTAGTCGGAACCCAGTGGGGGGACGAAGGTAAAGGCAAAATTACCGATTTTCTTTCACAAAATGCCGAAGTTGTTGCGCGTTACCAGGGTGGTAACAATGCGGGACACACGATTAAATTTGACGGAATTACTTATAAACTTCACCTGATTCCATCAGGAATTTTCTTTGATGATAAAATCTGCGTACTCGGAAATGGCATGGTCATTGACCCGAAAGCGCTTCTTGAGGAACTGAAATACCTTCATGACAAAGGTGTTTCCACGGACAATCTGCGGATCAGCAACCGTGCGCATGTGATTCTTCCATATCACTTGAAGCTGGATGAGCTTCAGGAGGAAGAAAAGGGTGACAATAAGATCGGAACGACCAAAAAGGGAATCGGTCCGGCTTATATGGATAAAGCGGCCCGTACAGGGATTCGTATCGCCGATCTCATGGACAAGGAAAGTTTCCGTGAGAAGCTTGAACAGAATCTTGCCGAGAAGAACCGCCTGTTTGAAAAAGTGTATGAAACAGAGCCGTTCACAGTGGATGAAATTCTTGATGAATACTACGAGTATGGTCAGAAGATCGCTTCTTATGTATGCGATACGTCTGTCGTCCTGAATGACAATCTTGATGACGGCCGCCGCGTGCTTTTCGAAGGTGCCCAGGGCGTCATGCTCGATATCGACCAGGGAACCTATCCGTTTGTGACGTCCTCGAACCCGATTGCCGGAGGAGTAACCATTGGTTCTGGTGTCGGTCCTTCTAAAATCAAGCACGTGGTCGGTGTATCCAAAGCCTATACGACCCGTGTCGGTGACGGCCCGTTCCCGACAGAGCTTGAAGATGAAACCGGTGATCAGATCCGCGAAGTCGGCCGTGAATACGGAACGACGACCGGACGTCCGCGTCGTGTCGGCTGGTTCGACAGTGTTGTTGTCCGCCATGCCCGCCGTGTCAGTGGAATTACCGATCTTTCCCTGAACTCCATTGATGTCCTGACCGGCATCGAGACATTGAAGATTTGTACGGCTTATAAGTACAAAGGCGAAGTCATTGAGGAGTTCCCGGCCAGCTTGAAAGTCCTTGCCGAATGTGAGCCGGTATATGAAGAAATGCCGGGCTGGACGGAAGATATCACGGGTGCGGAGTCCTTGAGTGATCTGCCGGCCAATGCACGCCACTACATTGAGCGTGTGTCCCAGCTGACAGGCATTCCACTCTCTGTATTCTCTGTCGGTCCCGACCGTTCCCAAACGAACGTCGTCCGCAGCGTATACAGCGAATAA	MSSVVVVGTQWGDEGKGKITDFLSQNAEVVARYQGGNNAGHTIKFDGITYKLHLIPSGIFFDDKICVLGNGMVIDPKALLEELKYLHDKGVSTDNLRISNRAHVILPYHLKLDELQEEEKGDNKIGTTKKGIGPAYMDKAARTGIRIADLMDKESFREKLEQNLAEKNRLFEKVYETEPFTVDEILDEYYEYGQKIASYVCDTSVVLNDNLDDGRRVLFEGAQGVMLDIDQGTYPFVTSSNPIAGGVTIGSGVGPSKIKHVVGVSKAYTTRVGDGPFPTELEDETGDQIREVGREYGTTTGRPRRVGWFDSVVVRHARRVSGITDLSLNSIDVLTGIETLKICTAYKYKGEVIEEFPASLKVLAECEPVYEEMPGWTEDITGAESLSDLPANARHYIERVSQLTGIPLSVFSVGPDRSQTNVVRSVYSE	PGPT0020140_3798	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020140-purA-K01939	NA	NA
AK012_01384	558	yvdD	COG1611	LOG family protein YvdD	GTGAAACGCATTTGTATTTTTGCCGGATCAAGTGCCGGGAGCAGCCCGGTCTTTGCTGAGCAGACAAGAATTCTCGGACAGGCGCTCGCTTCCCGGGGGATTGAACTCGTGTACGGAGGAGCCCGGAGCGGTCTGATGGGAGCAGCCGCTGATGAAGTGCTCGCCCATGGCGGCACCGTAACAGGCATCATGCCGACGCACCTGTTCGAAAAAGAAGTCCCCCATCCGGATATTACGAAAATGATTGAAGTGGATACCCTGCATGAGCGCAAAGCGAAAATGAGTGAGCTCGCAGATGGATTCATTGCTCTCCCGGGCGGCTTCGGAACACTGGAGGAGCTGTTTGAAACCGTCAGCTGGGCGCAGATCGGCATCCATCAGAAGCCTGTCGCTTTATTCAATATCGACGGGTATTATACCCCGGTGATGAACCTTGTGGAACACAGTGTGAAGGCCGGGTTCGTAAAAGAAGAGCATCAGGATTTGATGGTGGCTTCCCCGGATCCACATCAGCTGCTGGATGAAATGGAAGCAAAAGAAAAACCGGACCTCCGTTGA	MKRICIFAGSSAGSSPVFAEQTRILGQALASRGIELVYGGARSGLMGAAADEVLAHGGTVTGIMPTHLFEKEVPHPDITKMIEVDTLHERKAKMSELADGFIALPGGFGTLEELFETVSWAQIGIHQKPVALFNIDGYYTPVMNLVEHSVKAGFVKEEHQDLMVASPDPHQLLDEMEAKEKPDLR	PGPT0007225_470	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007225-log|yvdD-K22522	NA	NA
AK012_01385	486			hypothetical protein	TTGACGAGGATATGGTTCCGCTACCTGGTTTACGCCCTTATCTTTTTATTGGTTTCGTTCATTGCCTTCTTGAAGCTGAATCCGCCGCTTGAGCACGGATCGATCGGTTCGACAGAGGATAAACAGTCGGTCATTGTCGCTTTAGGAAATAAAAGCATGCTGGGAAGCATCCACATTACAGATGTCTCCATTAATGATGATGAAGTTCCTTCCCATGTGAATGTTCAGATCAGCGACACAGAAAAAGGTTTCACCCTTACGGATACCCATGCGCTTCTCGGTGAGACCCAGCATACACAGGCTTTCACCTCATTCTCACTAGGTCCTGACACATCCCCCCTTGCTGCTAAAACCGTTGCCGCTGCCACTGATCCAGCCCCTGCCACCATATATGGACTGAGCATTGCCGAAGATACGACCATCAGCAGAATCAATGTAACATACCGGTATTTCGGGTTGATCTTTTCAAAAACGATCCACGTATAG	MTRIWFRYLVYALIFLLVSFIAFLKLNPPLEHGSIGSTEDKQSVIVALGNKSMLGSIHITDVSINDDEVPSHVNVQISDTEKGFTLTDTHALLGETQHTQAFTSFSLGPDTSPLAAKTVAAATDPAPATIYGLSIAEDTTISRINVTYRYFGLIFSKTIHV				NA	NA	NA	NA	NA
AK012_01388	1239			hypothetical protein	ATGTGGAAGAAGATTATGATTACCGTGCTCGGGGTCGGTACATTAGGCGTGGGGACGGTTTATGCAGAGCAGTCCATGCAGACCGTTTATCATGTCCAGATGGATGGCCGGGAGATCGGAACCGTGACGGAGAAAGCTGTCGTCCAGGATGAACTGGAATCATTGGTGGAACAAAAGGAAAAGGAGCATGAGGATTGGGACATGACGGTGGCGGAAGAGATTACGTTCAATCCGGAGCGCGTCTTTTCTGTGGAAGCCGATGAAGAGAAGGTGCTTGAGCGTCTGCAGGAAGACGTGTCGTATGCAGTGGAAGCGGTGCAGGTGCAGGTGAATGGGCAGTCCGTTTCGTATCTTCCGGAGGCTGGTGATGTAGAAACCGTCATAGATACGTTAAAAGCGGAATATGTCAATGAAGAGCACGTGTCTGATGAAGAAGATGTTCCCGCCGGTGAAACCAAACTTGAAAACGTCTACGTGAATGGTGTGATCGACTATGCTCCTGTCAAAGTGGCTCCTTCATCCATCCATACGGTTGAAGAGACGGTGGACCGGATTCAAACCGGCAGCATGTCTGAGCAGGTGTCCCTGAGCAGCGGAGAACCGCTCGTCGATGTCATCGTCACGGAACAGGAACGGGAAGCGGAAATGATCGCACACAAAGTCGAAGTGCGTAACACAGATGCTCTTTATGAAGGGGAAACAGAAATCCACCAAGAGGGACAGGATGGGAAGAAGGAAACGCTCATCCAGACGGTGACAGAAAACGGGAAGATGACCGAAGAGGAAGTTCTTGAGGAAGAAATCGTCGAAGACCCTGTGACAAAAGTCGTGTTGAAAGGGACGAGGCCATCCCCGTCCATCGGATCCGGGAAGTTTATCTGGCCGGCGGTCGGTGGGGTGATTACGAGTAAACAAGGGGAGCGCTGGGGGCGTTATCACAAAGGAATCGATATCGCCGGTGTTTCTGACTTGACCATCAAAGCTGCTGATCACGGCAAAGTGACCGAAGCCGGTTATCAGGAAAGCTTCGGAAACAAAGTCGTCATTGATCACGGAAACGGCTATGAAACGCTGTATGCCCACTTATCATCGATCGATGTGCAGGTGGGGGATATCGTTCAGCAGGGAGACAAACTTGGTAATATGGGAACGACCGGACATTCCACCGGTGTCCACCTTCATTTTGAAGTGCATAAGGACGGCGGTCTTGAAAATCCGCTTTCCCACGTATCTCAATAA	MWKKIMITVLGVGTLGVGTVYAEQSMQTVYHVQMDGREIGTVTEKAVVQDELESLVEQKEKEHEDWDMTVAEEITFNPERVFSVEADEEKVLERLQEDVSYAVEAVQVQVNGQSVSYLPEAGDVETVIDTLKAEYVNEEHVSDEEDVPAGETKLENVYVNGVIDYAPVKVAPSSIHTVEETVDRIQTGSMSEQVSLSSGEPLVDVIVTEQEREAEMIAHKVEVRNTDALYEGETEIHQEGQDGKKETLIQTVTENGKMTEEEVLEEEIVEDPVTKVVLKGTRPSPSIGSGKFIWPAVGGVITSKQGERWGRYHKGIDIAGVSDLTIKAADHGKVTEAGYQESFGNKVVIDHGNGYETLYAHLSSIDVQVGDIVQQGDKLGNMGTTGHSTGVHLHFEVHKDGGLENPLSHVSQ				NA	NA	NA	NA	NA
AK012_01389	705	walR_2	COG0745	Transcriptional regulatory protein WalR	ATGGCGCAGAAAATCTTAGTCGTAGACGATGAAAAACCAATTGCTGATATATTGAAATTCAACCTTGAAAAGGAAGGCTATGAAGTCGTTTGTGCCTACGATGGTGACGAAGCTGTCGCTAAAGCAGACGAGGAAGAGCCGGAGCTGATTCTGCTTGATATTATGCTTCCGAATAAAGATGGCAATGAAGTATGCCGTGAAGTAAGGAAACGGCACAATATGCCGATCATTATGCTGACAGCCAAAGACGCAGAAATCGATAAAGTACTCGGACTTGAAATGGGTGCGGATGATTATGTAACGAAACCGTTCAGTAACCGTGAACTGATTGCCCGGGTCAAAGCGAACCTGCGCCGCCAGCAGCAGGAGCCGGAGGATACCTCCCAGCAGACGAAGGATATTGAAATCGGCCGCCTGGCGATCCATCCGGATGCCTACACCGTAACGCGTGATGGGACCTATATCGAGCTTACCCACCGCGAATTCGAGCTTCTTCATTACTTAGCCCGTCATATCGGCCAGGTCATGACACGTGAACACCTGTTGGAAACCGTATGGGGCTACGATTACTACGGTGACGTCCGTACCGTTGATGTAACCGTCCGCCGTCTCCGTGAAAAAATTGAGGAGAATCCGAGTAACCCGATGTGGATCGTGACACGACGCGGGGTCGGCTACTATTTGAGAAATCCAGAGCAGGACTGA	MAQKILVVDDEKPIADILKFNLEKEGYEVVCAYDGDEAVAKADEEEPELILLDIMLPNKDGNEVCREVRKRHNMPIIMLTAKDAEIDKVLGLEMGADDYVTKPFSNRELIARVKANLRRQQQEPEDTSQQTKDIEIGRLAIHPDAYTVTRDGTYIELTHREFELLHYLARHIGQVMTREHLLETVWGYDYYGDVRTVDVTVRRLREKIEENPSNPMWIVTRRGVGYYLRNPEQD	PGPT0013765_556	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013765-vicR|walR|yycF|micA-K07668	NA	NA
AK012_01390	1848	walK		Sensor histidine kinase WalK	ATGAAGAAAGTGGGTTTCTTTCAGTCGGTCCGGCTGAAGCTGATTGTTGTTTATATACTGCTTTTATTATTAGGCATCCAAGTGATTGGGGCCTATTTTGTTAGTCAGCTTGATAAGCAGCTGACAAGTAACTTTACCAGTTCCATTGATAACCAGTTGAACTCCCTCACATTCAGTCTCCAGAATGCGTTTAATGCAGAACGCGACGAGGACAGTCCGACACTGGAGGATGAAGTGCAGGGGCTGATCAGTGATTTTATAGAAGAAACGCAGAGCATCAACCCGCGCAAGCTGCAGATCCTGAACAGCAATGCCAACATCATCGCCTCTGTCGGCACCCGGGATGATTCATCCGATATCGGAAAAAAGGTGACGGACTACCAGCTGACCAACGTGTTATTCATTGGCGAGGCGACCGAACCGAAGTTCAAACGGGAAGAGGGCAGCAATGACCGTGTCTATGTAGGAACTCGTCCGATTACCGATGAAACAGGCGAGGAAGTCCTCGGGCTTCTCCATTACGAAGTGTATGGAGATGACATCTCCAGGCAGATGGAGGAGATCAGCAGTATTTTTGCCAAAGGGACGGTCTTAGCCATTGTCGTAACGGCCCTGCTCGGGATTTTGGTGGCGCGTACCATCACGAAACCGTTGACGGAAATGAAGCGTCAGGCGCAGATTATGGCCACAGGAGACTTCTCGCAGAAGGTCAATGTCCGGGGAAATGATGAAATCGGCGAACTTGGACACGCCTTCAATGATATGAATGATAAACTCAAGCTTGCTCAGGCAACTACCGAAGGGGAGCGCCGGAAGCTGAGCTCTGTCCTTTCCAATATGTCGGACGGCGTCATTGCCACCGACCGGCTGGGTGCGATTATTTTGATGAACGCGCCGGCTTCCAAGCTGATCGGCCAGCGTTTTGAGGATATCCAGGGGCAGTCCCTGATTGATGTTCTTGATTTGGGCGATCAGATTGAAGAAATGGGGGAAGTCGAAGAGACGAACTCCATGATTATCGATTTGAGTAATGACGACAACCACCTGTTATTAAAAGCGAACTTCTCTGTAGTGGAGGATGAAAACAATGAAATGGATGGTTTCATTACAGTGATCAGTGACGTTACCGAACAGCAGCGCGTCGAACAGGAGCGCCGCGAGTTCGTTTCCAATGTTTCCCACGAACTCCGCACACCGCTGACGACGATGCGCAGCTATATTGAAGCGCTGAACGACGGAGCATGGCAGGACCCTGATATTGCTCCCCGCTTCCTGGATGTCACCCAGAATGAGACCGACCGCATGATCCGGCTCGTCAATGATCTGCTTCAGCTTACAAAAATGGATCATAAAGAGACGACGCTTATGAAGAAGCGTGTGGAGTTCATCAGCTTTTATGAAAGCATCATCGAGCGCTTTGAAATGAACAAGGACGACAAAGTAAGCTTCGTCCGCAGCCTGACGAAGAAAAAGATGTATGTATGGATCGATAAGGATAAAATCACACAGGTGCTGGATAACGTGATTTCCAATGCCATCAAGTATTCACCGGAAGGCGGCCGCATTACCTTTGAGGCTTCCGCAACGAGAAAACAGCTGCGGGTCAGCATTACAGATGAAGGGATTGGGATGCCCCCGGATACGGTCGATAAAATCTTCGACCGCTTTTACCGCGTAGATAAATCAAGAGCCCGGGAGATGGGCGGTACCGGTCTTGGTCTTGCAATTGCCCGGGAAATAATTGATGCCCACCACGGGAAAATATGGGCGGAAAGCCGTGAAGGGGAAGGAACGACCGTTTACTTTACTCTTCCGCTCATGAGTCAGAAGCGGAGGGATAAATCATGA	MKKVGFFQSVRLKLIVVYILLLLLGIQVIGAYFVSQLDKQLTSNFTSSIDNQLNSLTFSLQNAFNAERDEDSPTLEDEVQGLISDFIEETQSINPRKLQILNSNANIIASVGTRDDSSDIGKKVTDYQLTNVLFIGEATEPKFKREEGSNDRVYVGTRPITDETGEEVLGLLHYEVYGDDISRQMEEISSIFAKGTVLAIVVTALLGILVARTITKPLTEMKRQAQIMATGDFSQKVNVRGNDEIGELGHAFNDMNDKLKLAQATTEGERRKLSSVLSNMSDGVIATDRLGAIILMNAPASKLIGQRFEDIQGQSLIDVLDLGDQIEEMGEVEETNSMIIDLSNDDNHLLLKANFSVVEDENNEMDGFITVISDVTEQQRVEQERREFVSNVSHELRTPLTTMRSYIEALNDGAWQDPDIAPRFLDVTQNETDRMIRLVNDLLQLTKMDHKETTLMKKRVEFISFYESIIERFEMNKDDKVSFVRSLTKKKMYVWIDKDKITQVLDNVISNAIKYSPEGGRITFEASATRKQLRVSITDEGIGMPPDTVDKIFDRFYRVDKSRAREMGGTGLGLAIAREIIDAHHGKIWAESREGEGTTVYFTLPLMSQKRRDKS	PGPT0013760_299	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HIGH_TEMPERATUR_REGULATION,PGPT0013760-vicK|walK|yycG|micB-K07652	NA	NA
AK012_01391	1380	yycH	COG4863	Two-component system WalR/WalK regulatory protein YycH	ATGAATAGAGAAACGTTGAAATCGATCATTCTCGTTATTCTGATTGCCTTCAGTCTTGTATTGACCGTAGCCCTTTGGAGTTACCAGCCCGCTTCGGAAACATTGGAAGAGGGCGGAAGCACGGCAGACAACAAACTTACAGGAGTCGGTACAGAAGAGGAGCTTTCCGACTTATTGATTCCTGAAATGGTTGTTTATCACGAAAACTCTGATCATTTCACCTTCCCTGAACCGAATGGGAAGACGAACTTTAATGATCAATTCAAGAAGTGGGCGCTGTCCAACTTTGATACGACCCCTGGTGAGGTTGATTTAAATAACATCGATAAAGGCGTCGAGGTCATTTTTCCGACGTCGCTTCCGTTAAAAGTGATCAAGGACTTGTTTACAGTGAACAACAACGTCATTCTTGATAACTTCAATAAGAACTTTGAACGGGTCTTCCTCATCCAGAACGATGAACGCTCAACGTCCACCTATGAGCTGTGGTTCATTCAAACCAGCAGCCAGGGCGATGAAGTGACGCTGAAGGCCAGTGTCAATGCGAGTGCGGGGGACAGAGCCATCAAGGAATTTGAAGAACGGAATGACCTGACGGAAATTGTCCGCCTTGCTGATGAAATGCCGTCTGCGGACGTGTCGAATGTCGGCGCCAACCATATTTATCTGCCGACAGATGACATCTTTGTCCCTCAGGTCGTTCTGCAGACGACGGCCGTGCCGGTCACACCGCTGCAGAATGATTTGTTCCCGTCGCCCTCCAGTACCATCTTCTATGAGGCGGGGGAAGGGATCAAACGGACGAAAACGAACGACCGGAGGCTGGATCAGAAAAAGGATGACCGGCTGATGGAGTTTCTATTTTTAACGACGAAGAGTATTAATGAATCGGGGATGACGGAGTATGATCTGCTGACCAGAAGTGTTCAGGACATCAACAGTCATCTCGGGTGGACGAACGAATTCCGGATCGAATCGTTATCCACCGGGTTGGATGAACTGAAATACCGTATGTATTTCAATGAATTCCCTGTCATGGAAAATGAGGAAACGGAAGGCTTCGCGCAGATCTCCCTGACGTATGAGGACAGCGATATTCAAAGCTACGACCGTCCGCTGATCAAGTTCGTCCGGACGCCGTATGAAACAGATTCGATGGCTGAACTGCAGTCCGTCGATGAAGTGATCAATCAAATTCAAAATTCCAATACGTATGATTTCAACAGCATCAAGAATATCGGCATCCGCTACACGTTGGAAGAACAGACGAACAATTTAGCCTATAATTTGATTCCGGAGTGGTATATCGAAACCGAATCCGAAAACTGGGCACCATTATTCAAGGAAGAGCCGATGCCGAATGGCAACGCAGCACCTTAA	MNRETLKSIILVILIAFSLVLTVALWSYQPASETLEEGGSTADNKLTGVGTEEELSDLLIPEMVVYHENSDHFTFPEPNGKTNFNDQFKKWALSNFDTTPGEVDLNNIDKGVEVIFPTSLPLKVIKDLFTVNNNVILDNFNKNFERVFLIQNDERSTSTYELWFIQTSSQGDEVTLKASVNASAGDRAIKEFEERNDLTEIVRLADEMPSADVSNVGANHIYLPTDDIFVPQVVLQTTAVPVTPLQNDLFPSPSSTIFYEAGEGIKRTKTNDRRLDQKKDDRLMEFLFLTTKSINESGMTEYDLLTRSVQDINSHLGWTNEFRIESLSTGLDELKYRMYFNEFPVMENEETEGFAQISLTYEDSDIQSYDRPLIKFVRTPYETDSMAELQSVDEVINQIQNSNTYDFNSIKNIGIRYTLEEQTNNLAYNLIPEWYIETESENWAPLFKEEPMPNGNAAP				NA	NA	NA	NA	NA
AK012_01392	912	yycI	COG4853	Two-component system WalR/WalK regulatory protein YycI	ATGCAGTGGGGCCAGATTAAATTATTGTTCATCCTCAGCTTTTTGATTCTCGACCTTTTCCTCTTGCAGCAGTTTATTAACAAACAGTCGCAGGATGTTCTGGGCCAGATTTCAACAGCTGAAGAGAATATTGAAACCGAATTAGCCGAAGACGGAATTACGATCGCCGACGGCGCCAACCCTGAGGAGCCGGGGGAAGTTTCGACGATTAAATCCTCCGGCAGTACGTTCTCTGAGGAAATTCTCGGCCAGATTGAAGACATGGACGACGAGCAGCAGACGGTTGAGGTGTTGAATGAGAACCGTGTACTGAAAGTGGAACTGGATGACCCGGTTCCCGTTACAGAAGACAACTTAATTGATAAAGTCCGCAGCCTTGTCCCGTTTTATTCCCAGTATTCATTCTGGGGCTGGAATGAAGAAAACGGAGTGGCGCTCTTTTTCCAGAAAGCCAATGATCGTACGATTTACTTTAACAACAGCGGGTCGCTGCTCGTCACGATTGAAGACGGGGAGATTACCGGCTATGTAGCGACGATGCTTGCGTTCAACGAAGGAGAAATGACCATCGATTCTGAACAGGATGGGGCGGTCATCGCTCCCTTGAATGCTGTGAGGACTCTTCACAGGCAGGGGGTGCTCCAGGACGGGGACGAGGTGACGTCGATGAGTATCGGTTATTACACCGAGATTTTCGTCGAGCCGAGTGAGGAAAAAGGTGAGCAGGTTTTTGCGCCTGCCTGGAAAGTGACCGTCAATGGAGAGCGCAGCCACTTTGTCTATGCCTTGACGGGAGGCGTGATTGACGTCGAGGAAGGGAAATTTATTGAAGAAGAGTTACAAACGTACAATCTGCAGGAAAATCCATTAGAGAGTACGACAGAGGAGAACGAAGAAAGTGAAAACAATTAA	MQWGQIKLLFILSFLILDLFLLQQFINKQSQDVLGQISTAEENIETELAEDGITIADGANPEEPGEVSTIKSSGSTFSEEILGQIEDMDDEQQTVEVLNENRVLKVELDDPVPVTEDNLIDKVRSLVPFYSQYSFWGWNEENGVALFFQKANDRTIYFNNSGSLLVTIEDGEITGYVATMLAFNEGEMTIDSEQDGAVIAPLNAVRTLHRQGVLQDGDEVTSMSIGYYTEIFVEPSEEKGEQVFAPAWKVTVNGERSHFVYALTGGVIDVEEGKFIEEELQTYNLQENPLESTTEENEESENN				NA	NA	NA	NA	NA
AK012_01393	795	yycJ	COG1235	Putative metallo-hydrolase YycJ	ATGACCTTACGCTTTAGTGTACTGGCTTCAGGCAGTACGGGGAACGCGTTTTTTATTGAATCAGGGGACGAACGGATTTTAGTGGATGCCGGTTTGAGCGGCAGGAAAATGGAAGGATTGATGGACCAGGTGGATATCGATCCAGCGACGCTGACGAGAATTCTGGTCACCCATGAGCACAGCGACCATATCAAGGGCCTCGGCATCATGGCCCGCCGTTACAACCTGCCTGTTTATGCCAATGAAAAGACGTGGCAGGCGATGGAAGGACAGATCGGGAAGCTGTCTCTGGACCAGAAGTTCCTTTTTGGAATGGAGGAAGTGCAGACCTTCGGGGGCATCGATGTGGAAAGTTTTGCGGTTTCCCATGACGCCGCAGATCCGATGTTCTATACGTTCCATCAGGACGGAAAAAAAGTCGCCCTTGTCACCGATCTCGGCTACGTGTCCGAACGTATCAAGAAGACGGTGGAAGGTGCAGATGCCTACGTGTTTGAATCCAACCATGATGTGAGCATGCTGCGGATGGGACGGTATCCTTGGAATGTAAAACGGCGGATTTTAGGCGACTCCGGCCACGTTTCTAATGAAGATGCAGCGCTTGCGCTTACCGATATTATTACCGATCAGACGAAACGGATCTACCTGGCCCATCTGAGTCTGGATAACAATATGAAGGACCTGGCCCGGATGTCAGTCTCCAACATCCTTGAGGAACGAGGCTTCGAGCTTGGGACGAAAGTGGCCTTGCATGACACGGACCCTGCTGAAGCCACACCGATTTTTGAGGTTTAA	MTLRFSVLASGSTGNAFFIESGDERILVDAGLSGRKMEGLMDQVDIDPATLTRILVTHEHSDHIKGLGIMARRYNLPVYANEKTWQAMEGQIGKLSLDQKFLFGMEEVQTFGGIDVESFAVSHDAADPMFYTFHQDGKKVALVTDLGYVSERIKKTVEGADAYVFESNHDVSMLRMGRYPWNVKRRILGDSGHVSNEDAALALTDIITDQTKRIYLAHLSLDNNMKDLARMSVSNILEERGFELGTKVALHDTDPAEATPIFEV				NA	NA	NA	NA	NA
AK012_01394	1227	htrA_1	COG0265	Serine protease Do-like HtrA	GTGGGTTATTACGATGACCATTCACCCCATACACAGCAGAAAAGGTCCCGCAGGCGCTGGGTCATGCCGACCATCGTCGGAGGGATTTTAGGCGCTGTGCTCGTCCTGCTTGCTCTCCCGGCACTCGTCCAGACCGAGCTGCTTCCGTACGATATGACGATTCCGGAAGATGAAAGCGGCCTTGTGGACGACAATCAGGGACTGACCGGCGATACGAAGAATGTCTCGGTCGATGTAACGACACAGATTACCGATGTCGTCGATCAGGTCACACCGACCGTTGTCGGTGTCGTCAATCTGCAGACGAGGGAGAATTTCTGGCAGGAAGGTGCCGAGGATTCCTCGCAGCAGGCAGGCGTCGGTTCCGGCGTCATCTATAAAAAAGAAGACGGTACCGCTTATGTGGTTACGAACAATCACGTTATTGAAGGTGCCAGTGAAATCGAAGTCGTTCTTGCAGATGAAACAAGGATTAAAGCCGAATTGATCGGCGGCGATGTATTCACAGATCTTGCTGTTTTGGAAATGCCGGGGGATCAGGTGGAGCAGGTCGCTGAGCTTGGCAGTTCTGAAAATCTAAAAGTTGGCGAACCGGCCATTGCCATCGGTAACCCGCTCGGCTTAAGCTTTGCCGGGTCCGTCACACAGGGGATCATCAGCGGGAAAGAGCGTGCTATCCCGCAGGATTTCAATGGAGATGGACTGGAAGACTGGCAGGCGGAAGTGATCCAGACCGATGCAGCCATCAACCCTGGAAACAGCGGCGGTGCGCTGATTAACATCGAAGGCCAATTGATCGGAATCAACTCGATGAAAATCGCCCAGTCGTCTGTGGAAGGCATCGGCTTTGCCATTCCGATCGATTCAGCTAAACCGATCATCGATGAGCTCGAGCAGAAGGGGCAGGTCGACCGTCCATATATCGGTATTGAGGCCTACGGACTGGATGAAGTGCCTACATCCGAATGGAACAACACATTGAACCTTCCTGAGGATGTGGAGGGCGGCCTTTATATCCGCAGCATCCGCCAGATGTCACCAGCGGCGAAAGCCGGTCTTGAACCACTGGACGTGATCACAGCCCTTGATGGTGAACCTGTTGAAGATATCATTGATCTCAGAAAGTATTTATACAATGAGAAAGACCCTGGAGAAGAGATGGATATCACCTACTACCGCGATGGAGAGCAGCAGACAACGACGATCACTCTCGGTTCACAGGAATAA	MGYYDDHSPHTQQKRSRRRWVMPTIVGGILGAVLVLLALPALVQTELLPYDMTIPEDESGLVDDNQGLTGDTKNVSVDVTTQITDVVDQVTPTVVGVVNLQTRENFWQEGAEDSSQQAGVGSGVIYKKEDGTAYVVTNNHVIEGASEIEVVLADETRIKAELIGGDVFTDLAVLEMPGDQVEQVAELGSSENLKVGEPAIAIGNPLGLSFAGSVTQGIISGKERAIPQDFNGDGLEDWQAEVIQTDAAINPGNSGGALINIEGQLIGINSMKIAQSSVEGIGFAIPIDSAKPIIDELEQKGQVDRPYIGIEAYGLDEVPTSEWNNTLNLPEDVEGGLYIRSIRQMSPAAKAGLEPLDVITALDGEPVEDIIDLRKYLYNEKDPGEEMDITYYRDGEQQTTTITLGSQE	PGPT0015105_5179	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
AK012_01395	705			hypothetical protein	GTGTCTTTATTTTCAATGATATTACTGATTCATATCGCTGCCGGGTTTACCGCCCTGACGGTATTCTGGATCCCTCTTGTGACGAAAAAGGGCGGCCATGTCCATCGGAAAGTCGGGTGGGTTTACGTCTGGGCGATGTATACTGTTGCGGCCAGCGCCTTATTTATGGGATTATACCGGCTTTTTATGGAGCCGCAGCGCTCCTCAATGGAACAGGCCTTTTCCTTTTTCTTATTATTCATCGCTGTATTGAGTGCAGCCACGGCCTGGATGGGGATTCGTGTCCTGCGTTTGAAGCGCCGGACGAAAGCTCACCGCAGTCCTTATGATTTAGGGGCAGCCGGTCTGCTCGTCATCATGTCTCTCGTCACCATGGCGGTCGGCTGGATATACGATTTTGCGCTGTTGAAGTTTTTCCCGATTTTAGGTCTATTCCTCGGCAGTGGGCAGCTGTCCTATTGGCTCACTCCGCCCAAAACAAAGATGCACTGGTATTTTGAGCACTACGGAAACTTGATCGGCTGCTCCATTGCCACCATCACGGCTTTTGTCGTCTTCGGTGCTCCAAGACTGCTGAACATTTCAAGTGTGAGCATCTGGCTCTGGTTTCTGCCTGCGGCGGTCCTGACGCCTTTGATCTACAGCTTCAATGCCTACTACAGGAAGAAGTTCAACATTTCAAAAGCCGGAAAAACCGCCTCCTGA	MSLFSMILLIHIAAGFTALTVFWIPLVTKKGGHVHRKVGWVYVWAMYTVAASALFMGLYRLFMEPQRSSMEQAFSFFLLFIAVLSAATAWMGIRVLRLKRRTKAHRSPYDLGAAGLLVIMSLVTMAVGWIYDFALLKFFPILGLFLGSGQLSYWLTPPKTKMHWYFEHYGNLIGCSIATITAFVVFGAPRLLNISSVSIWLWFLPAAVLTPLIYSFNAYYRKKFNISKAGKTAS				NA	NA	NA	NA	NA
AK012_01396	1344	alsT_1	COG1115	Amino-acid carrier protein AlsT	GTGGAACAGTTGACGCAACTTTTTAAAGATATAAACAGTGTTCTGTGGGGACCTGTCATGCTCGTCTTCCTTCTCGGAACCGGTGTATGGCTCACCTTCCAGCTCCGCTTCATCCAGGTGCGCTTCCTTGGTAAAGGCTTCAAGATTACCTTCGCACCGCTTTTCAAGAAGGAAAAGCAGGAAGGCATCCATTCATTCAAGGCGCTCGCCACATCGATTTCCGCGCAGGTCGGAACCGGAAACCTGGCTGGTGTCGCCACAGCGATTGCTGCCGGTGGTCCCGGTGCGATTTTCTGGATGTGGATCAGCTCGTTCTTCGGCATGGCGACGATTTTTGCCGAAGCCGTTCTCGCCCAGCTTTATAAGGTAAAAAAAAATGGTTCCGTCCACGGTGGTCCGGCCTATTACATCCGTGACGGTCTTGGCAGCAAATGGCTGGCCGGCTTTTTCGCTGTAGCCATCATCATTGCGCTCGGCTTTGTCGGAAACATGGTGCAGTCCAACGCGATCGCTACGGCGATGAACCAGGCGCTGGATGCCTCCTCGTTCGGTCTCAATCTCGGTCTTGGTATTGTTATTGCTATTTTAATTGGTCTTATCTTATTCGGCGGAATTGACCGGATTTCCACCTTTGCCGGAAATGTCGTCCCTGTCATGGCGCTGTTGTACATCGGCGGAAGCCTCGTCATCATGGTGGAATACTGGGATCAGGTGCTGCCGACGCTGCAGCTGATTGTACAGGCTGCGATCAGTCCGGAGGCCGCCGGCGGTGGTGTGCTCGGTGCGACGGTGAAAGAAGCGATCCGCTACGGCATTGCCCGCGGATTGTTCTCGAACGAAGCGGGAATGGGTTCCACCCCGCACGCCCATGCCGTCGCTCAAGTGAAGCGCCCGTCCCACCAGGGCCTTGTCGCCATGGTTGGTGTATTCATCGATACTGTGATCATTTGTACGATGACCGCCCTCGTCGTACTCGTAACCGGTGCCCATAAAACAGGGCTTGAAGGAAGTGCGATCACGCAGGAAGGGTTCGCCCGCGGACTCGGTGAATTCGGTATTCCGTTTATCGCAATCTGCCTCTTGTTCTTCGCCTTTACGACGATCCTCGGCTGGGCCTTCTTCGGAGAGGTGAACGTGAAGTTCCTGTTCGGAGAAAAAGCCGTGCCGGCGTACCGCGCGTTCGTGCTGCTGTTTATCGTCACAGGAGCCGTCGTCCAGGTGGAATTCGTCTGGCAGATGGCCGATACGTTCAATGCATTGATGGTGGTTCCTAACTTGATCGCTGTCCTTGCCTTGACGAAAATCATTAAAAAGACGTGGAACAGCGACCGTCTCCAATCCTAA	MEQLTQLFKDINSVLWGPVMLVFLLGTGVWLTFQLRFIQVRFLGKGFKITFAPLFKKEKQEGIHSFKALATSISAQVGTGNLAGVATAIAAGGPGAIFWMWISSFFGMATIFAEAVLAQLYKVKKNGSVHGGPAYYIRDGLGSKWLAGFFAVAIIIALGFVGNMVQSNAIATAMNQALDASSFGLNLGLGIVIAILIGLILFGGIDRISTFAGNVVPVMALLYIGGSLVIMVEYWDQVLPTLQLIVQAAISPEAAGGGVLGATVKEAIRYGIARGLFSNEAGMGSTPHAHAVAQVKRPSHQGLVAMVGVFIDTVIICTMTALVVLVTGAHKTGLEGSAITQEGFARGLGEFGIPFIAICLLFFAFTTILGWAFFGEVNVKFLFGEKAVPAYRAFVLLFIVTGAVVQVEFVWQMADTFNALMVVPNLIAVLALTKIIKKTWNSDRLQS	PGPT0014405_4581	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
AK012_01397	132			hypothetical protein	ATGATCGATTTACGAAGGGATACGGCAACGAAACAGACCGATGCCATGCGCCGGGCCGCTGTTGAAGCAGAGGTGGGGAATGTGGTGTATGAAGAAGATCCCAATTTTCCCAATACAATTGAATGTGGGTAG	MIDLRRDTATKQTDAMRRAAVEAEVGNVVYEEDPNFPNTIECG	PGPT0020465_2697	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0020465-ltaE-K01620	NA	NA
AK012_01398	573			hypothetical protein	ATGAAGCGTTATTTCATTCGTGCGTTGTGGACGATGATCCTATCGACTCTTCGATTTTTCACTCATTTAATGGTTCGAAAAAGGAACATATTGAATAGAGAGAAGAAACCATACAAAGAAACGGTCAAAAATATGAAATTTTTAGAGGAAATGCTATTAGAGAAAAACTACTTAGACAAGAGTTACCATGACCTGACTGATAAAATGAATCATAAAGCAGCTGAGAAGGCTGTCAATGCTTTTGTATCTAAAAAGGAAAAGCGGGAGGATGAAGACTTCTATTTTCTTGTGGCTCAAGAATGGGTCAAGGAATTGGATAAGAAAAGCTTCTGGACGTCTCTTATTTTTTTAGGTTTGTTCTTTGCTTTATGCGGTGCTGCGATCGGGCTCACTCAAATCGTGGGAGAAATTCAAGGGAACGCCGTTTGGGTTATATTCACAGCTCTCTTCTCCTCAATCGTCCTTGGCATTTTTAATTCCCTGCGGAGCCGAGGGTGGCGAAGGTGGTCCATGTTTTTGTCCCACGTACTGACCATTTCGTCTTTCTTCTTTCTCATTATCATCTTTAGTTAG	MKRYFIRALWTMILSTLRFFTHLMVRKRNILNREKKPYKETVKNMKFLEEMLLEKNYLDKSYHDLTDKMNHKAAEKAVNAFVSKKEKREDEDFYFLVAQEWVKELDKKSFWTSLIFLGLFFALCGAAIGLTQIVGEIQGNAVWVIFTALFSSIVLGIFNSLRSRGWRRWSMFLSHVLTISSFFFLIIIFS				NA	NA	NA	NA	NA
AK012_01399	1359	nox	COG0446	NADH oxidase	ATGAAAATTGCAGTAATAGGCAGTACACACGCAGGAACCGCTGCGGTGACGAATATGGCGGACATGTATCCTGAAGCTCAGATTACCGTTTATGAACGAAACGATAACGTCTCCTTTCTATCCTGCGGCCTCGCTCTCTATGTTGGCGGAGTCGTCGAAGATCCAGAGGGACTCTTTTATTCTTCTCCGGAGGAGCTGCAGAAGCTCGGCGTTACCCTCCGGATGCAGCACGACGTGCAAGACATTGATGCTGAAGCGAAAACCATCTACGCCGAGAACCTTGTGACCGGTGAACACCTCACCGATTCCTATGATAAATTAGTGATTACGACCGGCTCATGGCCGGTGACACCGCCGATCGAAGGCATCGATCTTGAGAACATCCTGCTTGCGAAAAACTACAACCAGGCGAATACCATCATTGAACGGGCGGAACACGCCGAAAAAGTGACCGTCGTCGGAGCCGGTTATATCGGTGTCGAGCTTGTTGAAGCTTTTGAAAAAGCAGGCAAAGAGGTGACACTGATTGACGGAGCGGGCCGGATTTTGAATAAATACCTTGATGAGGCATTCACGTCCATCGTCGAAGAGGACTTCGAAAACCGCGGGATTACGTTAGCGATGAATGAAACTGTGCAGCGGTTTGAAGGGAGCGGCGGCCAGGTCGGACGTGTGATCACGAACAGCGGAAGCTATGAGACCGATCTTGTCATCATGTGTGTCGGATTCCGTCCGAATACCGATCTTGTCAGAGGAATCGTCGACACGCTCGATAACGGTGCGATCATCGTCAATGAATATATGCAGACGAGCCATCCTGATATTTTTGCAGCGGGAGACTGCTGTGCGGTGACATACAACCCGACTGGAAAACACGCCTATATCCCGCTCGCAACGAACGCGGTCCGTATGGGAACACTCGCCGCCCGTAACATTATGGAGCCGGTCATGCCCCACGGAGGCACCCAGGGCACATCCGGGCTGCACATTTACGACTACAACATGGCATCCACGGGGCTGACAGAAACATCTGCTCAACTTTTAGATGTTCATGTGAAAAGTTTCACAATAGAAGATACGCACCGCCCGGCGTTCATGCCGACAGCCGATAATGTGAAGCTGAAAGTATCGATCGATCCGGAAACAAGGAAGATTCTCGGTGCCCAGGTTCTGTCCAAAGCTGATGTGACGCAGTCCATCAATACGTTGAGTGTCTGCATCCAGGCCGGTATGACAATCGACCAGCTCGCCTACGTCGATTTCTTCTTCCAGCCGCACTTCAACCAGCCATGGAACTTCTTGAACAAGGCGGGGCTTGAAGCACAGCAGGATTACAACCGGACACCAGCCCTCGTCTAA	MKIAVIGSTHAGTAAVTNMADMYPEAQITVYERNDNVSFLSCGLALYVGGVVEDPEGLFYSSPEELQKLGVTLRMQHDVQDIDAEAKTIYAENLVTGEHLTDSYDKLVITTGSWPVTPPIEGIDLENILLAKNYNQANTIIERAEHAEKVTVVGAGYIGVELVEAFEKAGKEVTLIDGAGRILNKYLDEAFTSIVEEDFENRGITLAMNETVQRFEGSGGQVGRVITNSGSYETDLVIMCVGFRPNTDLVRGIVDTLDNGAIIVNEYMQTSHPDIFAAGDCCAVTYNPTGKHAYIPLATNAVRMGTLAARNIMEPVMPHGGTQGTSGLHIYDYNMASTGLTETSAQLLDVHVKSFTIEDTHRPAFMPTADNVKLKVSIDPETRKILGAQVLSKADVTQSINTLSVCIQAGMTIDQLAYVDFFFQPHFNQPWNFLNKAGLEAQQDYNRTPALV				NA	NA	NA	NA	NA
AK012_01400	282			hypothetical protein	ATGAGTGAAAAACGCAGCTCTAAGGAAAAAGACGGCTTCTTCAAGCAGGTGACCAAAGAGGCCAACAACATTGTCCAGCAGACGGTCGATTCATCCGGAAAGGTCATCAAATCGATTACCGGTGAAGGCGGCCTGATCGGCAAAACCGTCGATTCATCGGGGAACATCATTAAAAAAGCATCCGAAAAAAGCACCGAAGCCATCGACAAAACGGTGGATACGTCCTCTGAAGCCTTCAAGAAAGTGAAAAATAAAACGTTCTCCCGCAAGGATAAGGAATAA	MSEKRSSKEKDGFFKQVTKEANNIVQQTVDSSGKVIKSITGEGGLIGKTVDSSGNIIKKASEKSTEAIDKTVDTSSEAFKKVKNKTFSRKDKE				NA	NA	NA	NA	NA
AK012_01401	1131			hypothetical protein	ATGATGGAGAAATTATTTTTGATCCTCTTTAGTCTTGTCTTTTTCACCGGGGGCCCGGACCTGAACGCGGCCGGAAACCTGTCTGTCCAGGAAGCGATGCAGACGTCGAACGGGACCGATGTGACCGTGGAGGGGTACATTGTCGGCGTCCCGGTATCCCAGTCGACCGTGGAGCAGAGCAACTTTTCCTCCAATTATGCCCTCGCACTTGCGGATGATGCCGGCGAAACCGATATGAACGACATGATTCTGGTCAAATTGGATTCCGAATACCGCTATGAGTGGGGACTCCAGAACCACCCCGGGCTGATGGGAGAAAAAATCGTCGTGGCCGGCACCCGTGATGCCTACTTCGGCCATGAAGGCGTCGAATATGTAAGCTCGATCGCCAATTCGTCCGGTGACTGCGGCGGTGGCGACACCGGAAGCGGGGACGGAGACGGCTCGACGTCCGGTGACTACTACAGCAGTGCGGATGGATTGACGGGGGATGCGTTGAAGCAGGAGCTGCACAACGTCATCGACGATCACACAGAGCTTTCGTATTCCAATGTATGGGATGCGCTTCGTCATACCGATGAAGATCCGAACAACGCAGGCAACGTCCTGCTTTTGTATACGGGGAACTCGATGTCCAAGTATGACAACGGCGGGTATGTCGATGATTGGAACCGCGAGCACGTCTGGGCGAAGTCCCACGGCGATTTCGGCACGAGCATGGGAGCCGGCACCGACATTCACCATCTTCGTCCGACCGAAGTATCGGTGAACTCCGCACGCAGCAACCTTGATTTTGATAACGGCGGATCGGCTTATGCCGACGCCCCGGATACGTATTCAGACAGTGACTCCTGGGAGCCCCGTGATGAGGTCAAAGGGGATGTGGCCCGGATGATTTTCTATATGGCCGTCCGCTATGAAGGTGATCAGGGTGAGCTGGATCTTGAAATAGCCGATTACACCGGCACGAGCGGTCCATACTTAGGGAAGCTTTCCACATTGAAAGAGTGGCACGAGAGCGATCCGGTCGACAGCTTTGAGCGTAACCGGAACGAAATTATTTTCAGTGACTATCAAGGTAACCGCAACCCGTTCATTGACCACCCGGAATACGTGGAACAGATTTGGTGA	MMEKLFLILFSLVFFTGGPDLNAAGNLSVQEAMQTSNGTDVTVEGYIVGVPVSQSTVEQSNFSSNYALALADDAGETDMNDMILVKLDSEYRYEWGLQNHPGLMGEKIVVAGTRDAYFGHEGVEYVSSIANSSGDCGGGDTGSGDGDGSTSGDYYSSADGLTGDALKQELHNVIDDHTELSYSNVWDALRHTDEDPNNAGNVLLLYTGNSMSKYDNGGYVDDWNREHVWAKSHGDFGTSMGAGTDIHHLRPTEVSVNSARSNLDFDNGGSAYADAPDTYSDSDSWEPRDEVKGDVARMIFYMAVRYEGDQGELDLEIADYTGTSGPYLGKLSTLKEWHESDPVDSFERNRNEIIFSDYQGNRNPFIDHPEYVEQIW				NA	NA	NA	NA	NA
AK012_01402	237			hypothetical protein	GTGAACTTTATAAAATATGGTGTTTTTCTTTTATTCGGTTCTTTTGTTCATTACAGTATAGTGATGATGTACAGCCAATGGCTCATGTTGCAGAACTTAGAGACTTTGGGGAGTGGCGGACCGGTGGAGGCACATGTCTTCATTGGCTTTCCCATGATATTCAGGACCGAACTCATCGTCGCAGCTGTACTGCTTGTCCTTGGAACTTACCAGATGTTGAAGAAAAATCGTTCATAA	MNFIKYGVFLLFGSFVHYSIVMMYSQWLMLQNLETLGSGGPVEAHVFIGFPMIFRTELIVAAVLLVLGTYQMLKKNRS				NA	NA	NA	NA	NA
AK012_01403	468			hypothetical protein	ATGGATGTACGATTCCGCAGCGACGGCCGGTTTTTCAATCACCGCGCCGCCGGCATACTGATTGAGCAGGGGCACGTGCTGTTACATAAACAAAAGAAAGATGCCCACTGGGCCCTGCCTGGGGGCGGCATTGAGCTCGGCGAGGATTCGATGAACACGATCATCCGCGAGGTGCGGGAGGAACTTGGCTGGGAGGTCGAGGTGGAGCGTACGGTCTGGATTGCCGAAAGCTTTTTCCCTCACCGCGGGGAAGCGCTGCATGAGGTGGCTTTTTACTATGCGCTGGAAACGAAGGAGCCCAAGTTCAGAGCCGGACCTTTTTACGGAAAGGAAGGCGGTCACCTGAGTTATCAGTGGGTCGCTCTGGATGATTTGTCCTTACATGAAGTGAAGCCGGCGTTTCTAAAAAAAGCGCTGCTGGAAATTCCGGATCATCTCATGCATCTGATCCTGAAGGAAACGTTCTAA	MDVRFRSDGRFFNHRAAGILIEQGHVLLHKQKKDAHWALPGGGIELGEDSMNTIIREVREELGWEVEVERTVWIAESFFPHRGEALHEVAFYYALETKEPKFRAGPFYGKEGGHLSYQWVALDDLSLHEVKPAFLKKALLEIPDHLMHLILKETF				NA	NA	NA	NA	NA
AK012_01404	1269	htpX		Protease HtpX	GTGAAGAAAAAATTTATCACATGGACGTTTATTGTCTACGGTCTCTATAGTCTGGTGCTGGGCCTGTATTTTTTCCAGTGGTCGAACCCCGGCGTACCTCCGGAATACGAAGGGACCGCCGCCGATCCGGCGACATTTATGACGGCGAGGGAGCTTGAACTCAGTCAGGAATACTCGACCTATCAGAACTTCCTCTCCTTTCTCGGCGAGCCGTTGGAATGGATCGTCTATCTCGGTGTGATGGTTTTCGGCGCGTCGATCGTCTTCAAGCAGTTCGGGGAAAAGGTGTCACGCTTCCGGATCATCCAGGTTCCGTTGTTCGTGCTGCTGTTGTCGACGCTGACATCGATCCTGTTATTCCCGATCGATTACGTAAAGCGGCGCTTGTCGGTGGAGTACGGCATTTCCACCCAGAGCTTTTCAAGCTGGATGCGCGATGAGCTGCTCAGCTTCTGGATCGGCTGGCTCATCATGGCCGTTCTCATTACCGTCTTATATTTCTTAATGAAAAAATTCGAGAAGCGCTGGTGGCTGATCGCCTGGCTGCTTATGATTCCGTTTCTCATTTTCATGATGTACCTGCAGCCCGTCGTCATCGACCCGCTGTATAATGATTTCGGTGAACTGCAGGATAAACAGCTCGAGGAAAAAATTCTCTCGCTCGCCGATGAAGCGGATATTCCCGCTGACCGTGTCTATGAAGTGAACATGTCGGAGAAAACGAACAGCATGAACGCCTATGTGAACGGCATCGGCTCCAATCTTCGCATCGTTTTATGGGATACGACGCTGAACCGTCTTCAGGAAAATGAAGTGCTTTTCATCATGGCGCATGAAATCGGCCACTACGTCATGCATCACCTGTACTGGAATCTTGCCGGTGCCATCTTCGCCACCTTCCTTGGACTGCTGGTGACCTATCACCTGCTGCGGTGGGCGGTGCGGCGCTACGGGGAAAAGCTCGGCTTCACGAAAGTGTCCGACATCGCCAGTCTGCCGATGTTTTATTTGATCCTGACGCTGCTCTCTTTCCTTGCAAGTCCTGTGGAGCTTGCAATCTCACGGAACGCGGAAGCGGATGCCGACCGTTATGCGATTGAGATGACCCAGGATACAGAAGCGGCTGTCGGGTCCTTCCAGGAGCTCACCGTCAACGGCTTGAGTGACGTCGATCCGCCGGCGCTTGTGAAATACCTGCGTTACGGACATCCGACGATGATGGAGCGGATCCATATGCTCGAAAACTATGAGCTGAGCGATGAGGAGTAG	MKKKFITWTFIVYGLYSLVLGLYFFQWSNPGVPPEYEGTAADPATFMTARELELSQEYSTYQNFLSFLGEPLEWIVYLGVMVFGASIVFKQFGEKVSRFRIIQVPLFVLLLSTLTSILLFPIDYVKRRLSVEYGISTQSFSSWMRDELLSFWIGWLIMAVLITVLYFLMKKFEKRWWLIAWLLMIPFLIFMMYLQPVVIDPLYNDFGELQDKQLEEKILSLADEADIPADRVYEVNMSEKTNSMNAYVNGIGSNLRIVLWDTTLNRLQENEVLFIMAHEIGHYVMHHLYWNLAGAIFATFLGLLVTYHLLRWAVRRYGEKLGFTKVSDIASLPMFYLILTLLSFLASPVELAISRNAEADADRYAIEMTQDTEAAVGSFQELTVNGLSDVDPPALVKYLRYGHPTMMERIHMLENYELSDEE				NA	NA	NA	NA	NA
AK012_01405	522			hypothetical protein	TTGGTTTATATCGTATGGGCAGAAGCCCTGATCATTGTCCTGTTCACCGTGTTATTAATGAAAGATCTGCTTAAGAAAAAGGCAGCGGGTGCTCCAACAGCTGCCGTTCCCCCCGCAGGAAGCGTCCCCCCGTCGAAACAGCCGTACGTAAAAAGAAGCCTCCGGGTGGATGTCCCCCATATCGAAAGCAAAATCATCATCATTGATATCGATACCAAACGGTTCAAAGCCTTGAACCAGAAATACTTTACCGGCTATATCGAGAACATCAGCCTCACCGGCTTGAAATTTTCATCAGCGTACAACATTCCGATCCAGGAGAACATCACGATTTCCCTGCACTTTTCCTTGGATGACGAAGACTTTACCCTGCAGGCCCGGATGGCCCGGAAGCACGAGGAGTTATCGAGCTCCGACGTCGTCTATGGGGTGGAGTTCATTGAAATCAGCGAAAAGAACCGGGAGCGCCTGGCGCGCATCCTTTACCAGCTGCAGATTGTGAAAAATAAGCAAGCGCTCTGA	MVYIVWAEALIIVLFTVLLMKDLLKKKAAGAPTAAVPPAGSVPPSKQPYVKRSLRVDVPHIESKIIIIDIDTKRFKALNQKYFTGYIENISLTGLKFSSAYNIPIQENITISLHFSLDDEDFTLQARMARKHEELSSSDVVYGVEFIEISEKNRERLARILYQLQIVKNKQAL				NA	NA	NA	NA	NA
AK012_01406	609			hypothetical protein	TTGTTAACAAAGTGGAAGGCTGTGCTGGTTCTTTTTACTATTTTGTTCATTTCAGCGTGCAGTTCAGAAAGTACAACAGAGAAGGATGATGAGCCGGAAGAAAAAGTGGAGGAAGAATCTTCTTCTAATGATGAAAAGGAACCTGAAATCGTGGAAACCGACCGGGGAAATTTTGAAATGGTCTCCACCGCCGAAGATATAGGTACATATGAAACAGGACCTGTTACCTTGGATTTCGCAGCGGCAAGCCTTGTTACAGGCACCTATACCGATGACTTGTTCATCGACTTGATTGGCAGAGAAGACGTAGAGTACTTGAATCTGGGAATGGACCTTGCCGTGTCCAATAAGGATATCATTTTTACATGGGATCATTTCCGTGTGGAGACAGGTACGGGTGAAATGGTTGGTCCGGATGAGAAGATGAGTGATGGCCTCGTGGAACGTATTTTTCGTGAAGAAGGTGTTTCAAGGTTGTTCACGTTCTTCTTTGATGAAACGAACGTGAAGGATATTGAGGAACTGACCCTCTATGTCGAAGCTCCGACTGATCAAACAGGAAATCCTTTAGGCGATGATCTGGAGATTGATCTTCCTTTGCATCCATAA	MLTKWKAVLVLFTILFISACSSESTTEKDDEPEEKVEEESSSNDEKEPEIVETDRGNFEMVSTAEDIGTYETGPVTLDFAAASLVTGTYTDDLFIDLIGREDVEYLNLGMDLAVSNKDIIFTWDHFRVETGTGEMVGPDEKMSDGLVERIFREEGVSRLFTFFFDETNVKDIEELTLYVEAPTDQTGNPLGDDLEIDLPLHP				NA	NA	NA	NA	NA
AK012_01407	144			hypothetical protein	ATGGACGGGTTATGGGGCTGGATCGCCTTATCTCTGGCTGTTGGTGCCTTTTATACAGCGGAGCAGGTCAAAAGGGAGAATAAAAGATTGAAAGAGCGGCTGGATCGTCTGGAGCGGGAAAGAGACGAAGAACCTCCCTCATGA	MDGLWGWIALSLAVGAFYTAEQVKRENKRLKERLDRLERERDEEPPS				NA	NA	NA	NA	NA
AK012_01408	1362	norR_2		Anaerobic nitric oxide reductase transcription regulator NorR	ATGCCATCGATGCTTGAGGAGCGCAATCATGTGCTGGAGACGCTGTTTGGCAATGTGAAGCACTGTATCGTCGTCGTCGACCGGGACGGCCGGATTTCCTATATGAACGAAAGCTACGGCCGGTTTTTAGAAGTCGACCAAAAAGAAATCACCGGCCGCCACGTCACCGAAGTGATCGAGAATACGCGGATGCACATCGTCGTGGATACCGGCGAGGAGGAGATGGCCGATCTCCAGAAGATCCGCGGCGACTATATGATCGCCCACCGTATTCCGCTCCAGGAGGACGGGGAAGTGATCGGGGCCCTCGGCATGGTGCTGTTCCGTGATACCGATGAATGGAAAATCATGAACACCCACATCAAGGATCTCCTGCTTGAGCTCGAGACATACCGCAGCCAAATGCAGCACGTGAACGGTGCCAAGTATTCGCTGCATGACATCATCACCACCTCACCGGAAGTACTGCAGGTCAAGGAAAAGATCCGTAAAACCGCCTACAGCGACGTGTCGGTGCTCGTCCGCGGCGAAAGCGGGACAGGGAAGGAATTGTTCGCCCACAGCATCCATCATTTAAGTGAGCGGAGCCAGCAGCCGTTCATCAAGGTGAACTGTGCGGCCATCCCGGAGCATTTGATCGAAGCGGAGCTGTTCGGCTATCAGGAAGGGGCATTTACCGGAGCGAAAAAAGGTGGCAAGCCGGGCAAATTCCAGCTCGCCCACGGCGGTACGCTGTTTCTCGATGAAATCGGCGACATGCCGCTGCACGCCCAGGTGAAAATCCTCCGTGCCCTGCAGGAAGGCGAAATCGAAGCGGTCGGCGCAGAGAAGCCGCAGGCCATCGACGTCCGCATCATCGCTGCCACCAACCGGCCGCTCGAAGCGCTGATCAAGGAGGACAAATTCCGGGAGGATCTCTTCTACCGCATCAATGTCGTCCAGATCGATATTCCACCGCTCCGCAGACGCCCGGGAGACATCAAGGTGCTCACGAAGTTTCTGTTGAAAAAGCTCAGTGACCGGACCGGCAAACGGGTCGAGACGCTCGCCCCGGACGTGGAAGCTCTCTTTAACAAACACGACTGGCCGGGGAATGTCCGTGAACTGGAAAACGTCATCGAATCCGCCATTCATATGACGGACGACGGAGAAATCCGATACGGCGACCTGCCGGATTATCTGTCATCATCCGGAAACGGCCAGCGCGCTGGACAGACACTCAAGGACGTGGTCGAGGATGCGGAAAAAACGGCGATCCTCCGCGCGATCGAAGAAGCGGACGGTGACAAGTGCACAGCCGCCGACCGCCTCGGCATCGGCAAATCAAGCCTGTATGACAAAGTGAAAAAGTACGACCTGTAA	MPSMLEERNHVLETLFGNVKHCIVVVDRDGRISYMNESYGRFLEVDQKEITGRHVTEVIENTRMHIVVDTGEEEMADLQKIRGDYMIAHRIPLQEDGEVIGALGMVLFRDTDEWKIMNTHIKDLLLELETYRSQMQHVNGAKYSLHDIITTSPEVLQVKEKIRKTAYSDVSVLVRGESGTGKELFAHSIHHLSERSQQPFIKVNCAAIPEHLIEAELFGYQEGAFTGAKKGGKPGKFQLAHGGTLFLDEIGDMPLHAQVKILRALQEGEIEAVGAEKPQAIDVRIIAATNRPLEALIKEDKFREDLFYRINVVQIDIPPLRRRPGDIKVLTKFLLKKLSDRTGKRVETLAPDVEALFNKHDWPGNVRELENVIESAIHMTDDGEIRYGDLPDYLSSSGNGQRAGQTLKDVVEDAEKTAILRAIEEADGDKCTAADRLGIGKSSLYDKVKKYDL	PGPT0001030_2338	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
AK012_01409	696	scoA	COG1788	putative succinyl-CoA:3-ketoacid coenzyme A transferase subunit A	ATGAAACACATTCACACATCATTTCAGGAAGCAGTTAAGGACATAAACGATCACTCAACGATTATGGTCGGAGGATTCGGACTCGTCGGAATCCCGGAGAATCTCATTTTGGCACTCGTCGAATCGAACGTGAAGCATCTCACCGTTATCAGCAACAACTGCGGCGTTGACGACTGGGGGCTCGGCCTGCTTTTGGAAAACAAACAGATTGATAAGATGATCGGCTCCTACGTGGGCGAAAACAAGGAATTCGAACGCCAGGTGCTCGCAGGCGAACTGGAAGTCGAGCTCACGCCGCAGGGAACGCTCGCCGAACGCATCCGTGCCGGCGGCGCCGGCATCCCGGCCTTCTACACACCGGCAGGCGTCGGAACACCGATCGCGGAAGGAAAAGAAGTGCGCACCTTCGACGGTAAGGACTATCTGCTGCAGACCGGACTCACCGCTGATGTCAGCCTCGTCCGTGCCCTGAAGGGTGACAAGCACGGCAACCTCATTTATAACAAAACGGCGCGCAACTTCAACCCGATGATGGCCGCTGCCGGGGCTGTCACGATCGCCGAAGTCGAAGAGCTGGTCGAGCCGGGCGAACTCGATGCCGATCAAATCCACACACCGGGCATCTACGTACAGGGACTTATTGAAGGACAGCAGGAAAAACGTATCGAACGCCGGACCGTACGCACTCACGCATAA	MKHIHTSFQEAVKDINDHSTIMVGGFGLVGIPENLILALVESNVKHLTVISNNCGVDDWGLGLLLENKQIDKMIGSYVGENKEFERQVLAGELEVELTPQGTLAERIRAGGAGIPAFYTPAGVGTPIAEGKEVRTFDGKDYLLQTGLTADVSLVRALKGDKHGNLIYNKTARNFNPMMAAAGAVTIAEVEELVEPGELDADQIHTPGIYVQGLIEGQQEKRIERRTVRTHA	PGPT0008325_1924	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008325-scoA-K01028	NA	NA
AK012_01410	681	scoB	COG2057	Succinyl-CoA:3-ketoacid coenzyme A transferase subunit B	ATGGCCGTAGAAATGGATAAAGCGGCAGTCAGGGAACTGATTGCCCGACGTGCTGAAAAGGAAATTGAAAGCGGTTACTATGTGAACCTTGGAATCGGAATGCCGACGATGGTCGCCAACTACATCGATTATGATAAGGAAGTCGTCCTGCAGTCGGAAAACGGGCTGCTCGGTATCGGACGCTCTCCGTATGAAGAGGAAGTCGACCCGGACTTGATCAACGCCGGAAAGGAAACCGTCACCGCCTCCATCGGCGCCGCCTACTGTGACAGTGCCGAATCGTTCGCGATGATCCGCGGTGAGCACCTCGACCTTGCGATTTTAGGCGGCATGGAAGTCGCAGAAAACGGTGATCTCGCCAACTGGATGATCCCCGGAAAAATGATCAAAGGCATGGGCGGGGCGATGGATATCGTCCACGGCTCCAAAAAAGTCGTCATCATCATGGACCACGTGAACAAGCATGGCGATCCGAAAATCCTGAAGGCATGCCGTCTCCCGCTCACAGGAAAAGGCGTCGTCGACCGCATCATCACCGAGCGTGCCGTTATGGACGTAACAGAGGAAGGCCTGAAGCTGATCGAAATCGCCGAAGGCTGGACAGTGGATGAAATCAAGGCATCGACAGAAGCGGATCTGATTGTCAGCGACGAGCTGATGACAATCCAGTCCAACACGTGA	MAVEMDKAAVRELIARRAEKEIESGYYVNLGIGMPTMVANYIDYDKEVVLQSENGLLGIGRSPYEEEVDPDLINAGKETVTASIGAAYCDSAESFAMIRGEHLDLAILGGMEVAENGDLANWMIPGKMIKGMGGAMDIVHGSKKVVIIMDHVNKHGDPKILKACRLPLTGKGVVDRIITERAVMDVTEEGLKLIEIAEGWTVDEIKASTEADLIVSDELMTIQSNT	PGPT0008330_121	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008330-scoB-K01029	NA	NA
AK012_01411	777	bdhA_2		D-beta-hydroxybutyrate dehydrogenase	ATGGTAGAAAATAAAGTCGTCTTCATTACAGGCGCGGCCAGCGGCATCGGCTATGAAATCGGCACCGAATTCGCGAAGAACGGTGCCAAGGTCGCCCTGAGCGATATAAACGAGGAAAAAGTGAAGGAAGCCGAAAAGCAGCTGTCTTCAGAAGGGTATGACGTCACTGGTCTCGTCTGTGACGTGACGAAGGAAAAGGATATCCAGGACGCCATTGATGCCACCGTGGACAAGTATGGCCGTCTCGACGTGCTCGTCAACAACGCCGGCCTCCAGCACGTCTCGTCCATTGAGGAGTTTCCGACAGAGAAGTTCGAGCTGATTACGAAGATCATGCTTGTTGCGCCGTTCATGGCGACGAAGCACGTGTTCCCGATTATGAAAAAGCAGGGCTTCGGCCGCATCCTCAACATGGCCTCCATCAACGGCCTGATCGGATTCGCCGGCAAGTCCGCCTACAACAGCGCCAAGCACGGCGTTATCGGTCTCACCAAAGTGACCGCTCTGGAAGGCGCGGAGGACGGCATTACCGTCAACGCTATCTGCCCGGGCTATGTCGATACACCGCTCGTCCGCAACCAGCTTGAGGATCTCGCCAGCAATCGCGGCGTCTCGCTCGATAAGGCACTCGAGGAAGTCATCTATCCGCTCGTCCCGCAGAAGCGTCTTCTAAAAGTCCAGGAAATTGCCGACTATGCGCTGTTTTTAGCCAGTGACAAAGCGAAAGGCATAACCGGTCAGGCAGCTGTCATCGACGGCGGCTATACGACCCAGTAA	MVENKVVFITGAASGIGYEIGTEFAKNGAKVALSDINEEKVKEAEKQLSSEGYDVTGLVCDVTKEKDIQDAIDATVDKYGRLDVLVNNAGLQHVSSIEEFPTEKFELITKIMLVAPFMATKHVFPIMKKQGFGRILNMASINGLIGFAGKSAYNSAKHGVIGLTKVTALEGAEDGITVNAICPGYVDTPLVRNQLEDLASNRGVSLDKALEEVIYPLVPQKRLLKVQEIADYALFLASDKAKGITGQAAVIDGGYTTQ	PGPT0008310_1905	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
AK012_01412	1179	thlA_1	COG0183	Acetyl-CoA acetyltransferase	ATGAAATCCGTATATATCGTAGAAGGAGCGCGTACGCCGTTCGGTACATTCGGCGGCGCCCTCAAAGACGTGGAGCCGACAGACCTCGGCATCACCGCAGGAAAAGAAGCACTGAAGCGGAGCGGCATCGACGCCGGCAGCATCGACTTTTCCGTCATCGGCAACGTCATTCATTCATCTCAAAACGCACCATACATGGCGCGCCACATCGCGCTGAAGACAGGCATCCCGATGGAAAGCCCGGCCCTTGCCGTCAACCGCCTCTGCGGCTCCGGCATGCAGTCCGTCGTATCCGCAGCCCAGTCCATTCTCCTCGGAGAAGGGGAAACCGCGCTTGCCGGCGGTGTCGACAGCATGAGTCTCGCCCCGTACGCCCTGCGCGGCAGCCGTTTTGGTACGAAGCTCGGCACACCGAAGGTCGATGATATGCTCTGGTCTGCGCTTACCGATGAGTACATCGGTGCCGGCATGGGCATGACAGGGGAAAATCTGGCCGAGCGTTATGAAATCTCACGCGAAGCCCAGGATGAATATGCGACCCGCAGTCACCAGCGTGCCGCCGAAGGCCGCCGCTCCGGCCGCTTTGCTGAGGAAATCGCTCCAGTGGAAGTGAAGGGACGCAAAGGCACGACCGTCGTCGATCAGGACGAGCACATCCGGGAAGACACGAATTCAGAAAAACTGGCCAAGCTGAAGCCGGCCTTCAAAAAAGACGGCAGTGTCACAGGCGGAAACGCGAGCGGCATCAATGACGGCGCTGGAGCGGTCGTTCTGGCCGGTGAAAATTACGTCCAGGACCACAGCTTAAGCCCGGTGGCAAGAATCGTCTCCTGGTCCGTGGCCGGTGTGGATCCGCACTACATGGGCATCGGTCCAGCGCCCGCGATCCGACAGGCGCTTGAGAAAGCGGAGCTCTCCCTTGAGGATATGGATCTTATCGAAGTAAACGAAGCCTTTGCCGCTCAGTATCTGGCGGTGGAAAAAGAGCTCGGCCTCGACCGTGAAAAAGTGAACGTCAACGGCGGCGCCATCGCGCTCGGCCACCCGGTCGGCGCCAGCGGGACACGCGTGTTGTACACGATGATCAAGGAATTGAAGCGCCGCGGCGGACGTTATGGCGTGGCTTCGCTCTGCATCGGAGGCGGACAGGGGATTGCCATGGTCGTCGAAACCGTCTAA	MKSVYIVEGARTPFGTFGGALKDVEPTDLGITAGKEALKRSGIDAGSIDFSVIGNVIHSSQNAPYMARHIALKTGIPMESPALAVNRLCGSGMQSVVSAAQSILLGEGETALAGGVDSMSLAPYALRGSRFGTKLGTPKVDDMLWSALTDEYIGAGMGMTGENLAERYEISREAQDEYATRSHQRAAEGRRSGRFAEEIAPVEVKGRKGTTVVDQDEHIREDTNSEKLAKLKPAFKKDGSVTGGNASGINDGAGAVVLAGENYVQDHSLSPVARIVSWSVAGVDPHYMGIGPAPAIRQALEKAELSLEDMDLIEVNEAFAAQYLAVEKELGLDREKVNVNGGAIALGHPVGASGTRVLYTMIKELKRRGGRYGVASLCIGGGQGIAMVVETV	PGPT0021765_337	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021765-thlA|atoB|bktB-K07508	NA	NA
AK012_01413	1284			hypothetical protein	ATGTTCGGGATATTACTCGGCCTTATCGTCCTGATGGCGCTCGCCTACCTCGGCTGGTCGATCATCTGGGTCGCGCCGATCGCTGCCGGCGTCGTCGCCGTCACCGGCGGTCTCGACCTGCTCGATGCTTATAAAGATACGTACATGGGCGGCTTTGTCGCCTTTGCGAAATCATGGTTCCCGGTCTTCATGCTCGGGGCGATCTTCGGAAAACTGATGGAGGACACCGGCATGGCCCGCTCGGTCGCCGTCGCATTCACAAAAGTGATCGGCACCAAGCGCGCCATCCTCGGCGTACTCGTCTCCGCCGCCGTCTTAACCTACGGCGGGGTGAGCCTGTTCGTCGTCGTCTTCGCTGTCTATCCGCTCGCCTTATCGTTGTTCCGGGAAGCCAACATCAGCCGGAAGCTCATACCAGCGACCGTCGGGCTCGGCGCCTTCACCTTCACGATGACGGCCCTGCCTGGTACACCGCAGATCCAAAACCTCATTCCAATGGAATACTTCGGTACAACCGCATCCGCAGCCCCGGTCATGGGGATCGTCGCCGCCGTCATCATGGCGGTCGGAGGCTATTTGTACCTGCGCTTTAGAGAGAAACAGCTGCGTGACAGAGGCGACATCTTCGTCGAACCGGAGGATAAAAGTTCACTCGGTGACGTGGAGCGCGAGCCGCACTTCATTCTGTCGATTCTACCGCTGCTGACCGTATTACTGACACTCAACTTGCTGCAATGGGATGTCGTCACCGCATTAATCGCAGGAATTCTTTTAATTATGCTGTTGAACATTACCTTGTTCAAAAAGTTCGTCACATCCATCAACAAAGGGGCGAGCGGATCGGTCATTGCCATCATCAATACCAGTGCCGCCGTCGGCTTCGGGACCGTCGTCCGCGAAGTGCCCGGCTTTGAGAAGCTCACGCAGATCCTCGTCGGCATCAAAGGCAACCCGCTCATCTCGGAAGCGGTCGCCGTCAACGTCCTCGCCGGTGCCACAGGTTCCGCCTCCGGCGGCCTCGGCATCGCCCTTGAAGCCCTCGGCTCCAAGTACTATCAGATCGCCCAGGAGACCGGCATCAGCGCCGAAGCGTTCCACCGCGTCGCTTCCCTGTCCTCCGGCGGTCTCGACGTACTGCCGCACAACGGAGCGGTGCTCACGCTGTTTGCGATCACCGGCATGACCCACAAGGACAGCTACCGCGACATCTTCGTCGTCGCGCTTCTGATCCCGGTCATTTCCGTTGCGGTCGTCATTCTGTTGAATACGATTGGCATTCTATAA	MFGILLGLIVLMALAYLGWSIIWVAPIAAGVVAVTGGLDLLDAYKDTYMGGFVAFAKSWFPVFMLGAIFGKLMEDTGMARSVAVAFTKVIGTKRAILGVLVSAAVLTYGGVSLFVVVFAVYPLALSLFREANISRKLIPATVGLGAFTFTMTALPGTPQIQNLIPMEYFGTTASAAPVMGIVAAVIMAVGGYLYLRFREKQLRDRGDIFVEPEDKSSLGDVEREPHFILSILPLLTVLLTLNLLQWDVVTALIAGILLIMLLNITLFKKFVTSINKGASGSVIAIINTSAAVGFGTVVREVPGFEKLTQILVGIKGNPLISEAVAVNVLAGATGSASGGLGIALEALGSKYYQIAQETGISAEAFHRVASLSSGGLDVLPHNGAVLTLFAITGMTHKDSYRDIFVVALLIPVISVAVVILLNTIGIL				NA	NA	NA	NA	NA
AK012_01414	480	rlmH	COG1576	Ribosomal RNA large subunit methyltransferase H	ATGAAACTAACCATTGTTACCGTAGGAAAATTGAAAGAGAAATACTTGAAGCAGGGGATCGCGGAATATGTGAAGCGTCTCGGCCCTTACGCTAAAGTCGAGGTCGTCGAAGTGCCCGACGAAAAAGCACCGGAGAATCTGAGTGAAGCGCAGATGCTGGAGGTGAAGCAGAAGGAAGGCGAACGCATCCTGAGCAAGATTTCCCAGGATACGTACGTCATTACGCTTGAAATTGAAGGGAAGCAGCTGACGTCTGAGAAACTGGCTAAAAAGATGGACGAGCTAGCGACTTACGGAAAGAGTAAAGTGGCGTTTTTGATTGGAGGATCACTGGGTCTGAGTGATGAGGTGCTGGAAAGAAGTGATTTCGGATTGTCGTTTTCGAATATGACGTTCCCGCACCAGTTGATGCGGTTGATGCTGGTGGAGCAGGTGTACAGGGCGTTTAAGATTAATCGGAATGAGCCATATCATAAGTGA	MKLTIVTVGKLKEKYLKQGIAEYVKRLGPYAKVEVVEVPDEKAPENLSEAQMLEVKQKEGERILSKISQDTYVITLEIEGKQLTSEKLAKKMDELATYGKSKVAFLIGGSLGLSDEVLERSDFGLSFSNMTFPHQLMRLMLVEQVYRAFKINRNEPYHK				NA	NA	NA	NA	NA
AK012_01415	378			hypothetical protein	TTGTCTAGAAAAGGATCTTCATTTGATGTAATTCTAAAAGATAATCACCTAAACTGGGGTACAAAAGGAAAATCAAGATCAAGTATAGCTAGGAACTCATACGAGGCTTATATTCCTATAAGTATGGAAAATGCAAGAGCATACGACATTCGCTCAGGGGAAGCGTTTGAGTGTACATCAGAGGATGGATATTTTGAAGGTATAGTAAAAGCTAGTGGGTCCCAAGGTCCAATGAATCAATTTGGAAAGAATCTTACAAAGAGAAACGATCTAAGGGCAATGGGATATTGGCTTAAAGACAGAATGAATGCAAAACCTGGTGATAAAATCAAGGTTCTATTTGTTGAAGAAAACAAAATCCACCTTACATTATTATAA	MSRKGSSFDVILKDNHLNWGTKGKSRSSIARNSYEAYIPISMENARAYDIRSGEAFECTSEDGYFEGIVKASGSQGPMNQFGKNLTKRNDLRAMGYWLKDRMNAKPGDKIKVLFVEENKIHLTLL				NA	NA	NA	NA	NA
AK012_01416	1149	bspRIM		Modification methylase BspRI	ATGAAATTTTATATGGGTGAATTGTTTAGTGGACCCGGAGGCATGAGTCAAGGTGCACACGAGGCAGCTATTACACATCCAAAGACGAACGAAGTCTTTAGTATAGAGCATAGATGGGCAAACGATTTCGATAAAGATACATGCAGAACTTTTGGTAAAAACATTTGTGGAGATGAAGATGCTTCTACAGTTCATTTGGGTCCAGTAGAAAAGCTTCCCATTGGTAATCGTTCTGTGCTTCCTGATATTGATTGTTTAGCTTTTGGTTTTCCATGTAATGATTATAGCCAAGTAGGTAAAAAGCACGGTTTAGAAGGAGAGTATGGCCCTTTATATTCCTATGGGGTCAAAGCTATCCAAGCTTATCAGCCAAAGTTTTTTGTAGCTGAAAATGTTGGTGGTCTTCAAAGTGCAAATGAAGGAAAAGCATTCATTCAAATTTTGAGTGAGTTAGAGGAGTGTGGATACCAGTTAACTCCTCACTTATATAAGTTCGAAGAGTATGGAGTGCCTCAATCAAGACATCGTATATTAATTGTCGGTATAAGGGATGATATTCATCAAAATGGAGTAGTCTTTAAGGTACCTGCGCCTACAACTCCTAGTAATTATGTAACATCTCAAGAGGCGATAATGGACCCCCCCATTCTTGATTTTGCTTTAAATCACGAATTTCCGAAGCATTCTCAAAAGGTGAGAGATATGTTGTCATATATTCCACCGGGGGGGAATGCTTGGCACGATAAGATACCCGAAAAATTACAGTTAAAGGTAAAAGGTGCCCGTTTAAGTTCCATTTATAAGCGCTTGGACCCTCAAAGACCTGCTTACACTGTAACCGGCAGTGGTGGCGGAGGAACTCACATGTACCATTGGAAAGAAAACCGTGCATTAACTAACCGGGAAAGAGCACGTCTTCAAACGTTTGGTGATGGTTTCGAATTCGTAGGTAGTAAAGAATCTATAAGGAAACAAATAGGGATGGCTGTACCTGTGAAAGGAGCAAAGGTAATCTTCGAAGCTATTTTAAAGTCTTTTGCAGGTATAGATTATGATTACGTGCATCCTGAACCAAAAGTACAGCTGAAAAACTTAAAAGAAAAGCAAAATAAAAAAGATGCCGGAAAAGAGCTGGCATCTCTAGTATGA	MKFYMGELFSGPGGMSQGAHEAAITHPKTNEVFSIEHRWANDFDKDTCRTFGKNICGDEDASTVHLGPVEKLPIGNRSVLPDIDCLAFGFPCNDYSQVGKKHGLEGEYGPLYSYGVKAIQAYQPKFFVAENVGGLQSANEGKAFIQILSELEECGYQLTPHLYKFEEYGVPQSRHRILIVGIRDDIHQNGVVFKVPAPTTPSNYVTSQEAIMDPPILDFALNHEFPKHSQKVRDMLSYIPPGGNAWHDKIPEKLQLKVKGARLSSIYKRLDPQRPAYTVTGSGGGGTHMYHWKENRALTNRERARLQTFGDGFEFVGSKESIRKQIGMAVPVKGAKVIFEAILKSFAGIDYDYVHPEPKVQLKNLKEKQNKKDAGKELASLV	PGPT0020015_4074	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
AK012_01417	1107	haeIIIM_1		Modification methylase HaeIII	ATGGAAAATAATAGAATGAATGTTTTGGACTTATTCAGTGGATGTGGAGGATTCTCCCAGGGATTCATAGATGCCGGCTACCGCGTGCTTCTCGGCGTGGACCAGGACCAGGCGGCTCTTGATACATACCAGCATAATCATAAGGATGCGGACATCCTTGCTGCTGATTTATCAAAGGAAAAAATTATAGATGAGATTGAAACGAAACTGAATAACCTTCCTGTAGATATTATTATAGGCGGTCCTCCGTGTCAGGGTTTTTCTCTTACAGGTTCAAGAGACATTAATGACACTAGAAATACATTGTATCTTGCTGTGGTAAGGGCTGTACGGAGATTTCAACCTAAAGCCTTTATGATTGAAAATGTTCAGGGGATCGCTACTTTATATAAAGGGAAAGTGAAGGAGCAGATTATCAATACGTTTGAAGATATGGGCTACAATGTCTCTGTTACAGACAAACCACTGTTGGCAGCGGATTATGGAGTTCCGCAGATGAGAAAGCGGCTCTTTTTTGTTGGTATAAAAAAAAGTCTGGGGAGCTTTCAATTTCCAAAACCCACCCACACGTCAGACAATTATGTAAGCTGTGAGCAGGCTGTTAGTGATCTGCCGGGACGCACTGATGATCTGGGTAAAGAATTTGATTCGTATACCACCTCCCCTTTAAGCCTTTATCAGGAATACATGAGAGGAAATGCAGATGTACTCTATAATCATGTAGCATCTAAACATACGGACGAAGTAAAATGGGTGATCAGCCAAGTGCCTGAGGGAGGTAATCATAAGGATCTCCCACCGGGAGTTGGAGAAAGCAGGAAATTCAACGAAGCCTGGACAAGATATCATAGTAAGAAACCCTCCCGTACTATTGATACAGGACACCGCAATCATTTCCATTACAAGTACAACCGGGTGCCTACGGTCAGGGAAAATGCAAGGCTTCAGTCATTCCGGGATGATTTTATTTTTAAAGGTAATCGGACACAACAGAACAGGCAGGTCGGCAATGCCGTGCCTCCTCTTCTTTCCTATCACCTGGCTTCAGCATTGAAAAAACAATTGGGGGAAATGGAAGCTGCTGCGGCTGTTACAACGAAGATGTAA	MENNRMNVLDLFSGCGGFSQGFIDAGYRVLLGVDQDQAALDTYQHNHKDADILAADLSKEKIIDEIETKLNNLPVDIIIGGPPCQGFSLTGSRDINDTRNTLYLAVVRAVRRFQPKAFMIENVQGIATLYKGKVKEQIINTFEDMGYNVSVTDKPLLAADYGVPQMRKRLFFVGIKKSLGSFQFPKPTHTSDNYVSCEQAVSDLPGRTDDLGKEFDSYTTSPLSLYQEYMRGNADVLYNHVASKHTDEVKWVISQVPEGGNHKDLPPGVGESRKFNEAWTRYHSKKPSRTIDTGHRNHFHYKYNRVPTVRENARLQSFRDDFIFKGNRTQQNRQVGNAVPPLLSYHLASALKKQLGEMEAAAAVTTKM	PGPT0020015_4437	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
AK012_01418	1245	haeIIIM_2		Modification methylase HaeIII	ATGACAAAATTTAATACGATTGAACTGTTTGCCGGATGCGGAGGCTTTGTTGACGGTTTTGAGAAATCCGGAGCGTTTCATACACTGGCTGCGGTTGAATGGAAACGTGGGGCATGTGAAGTGCTTGCTTCCAGACTTGAAAAAACATATGGATTTACAGACGCTCCCAACCGGGTTCTGAACTTTGATATACGAAGAGTATCTGAATTGTTTAATGGATGGAACAATGACCCCGAATTTGGGTCACATGAAGGCCTCAACAGTCTTGTTGGAGATACCCCGGTCGACGTAGTGGTAGGAGGACCTCCATGTCAGGCATATTCCATAGCAGGCAGGATACAGGATAAGGACGGGATGAGGAATGATTACAGAAACTATCTATTTGAAAGTTACTTGAAAGTTGTGGATGCTTTCCGCCCTAAACTTATTGTTTTTGAAAATGTAGAAGGTATGCTTTCAGCAGCTCCTGATGGTGAGAAAATAGTTGATAAAATAAAAAAAGGCTTCGACCAGTACGGGTATGAACTGGTTGAGAATATAAAAGGCCGCGCTCTTTTGAATCTGGCTGAGTATGAAGTTCCTCAGAATAGGAAGCGGGTAATCCTTGTAGGAGTACGCAGGGACTATCTGGAGGTGAGCGGGAATGCACAGAAATTTCTTGAACATTTTTATGACAGTATCCTACCAAGATATAAAGGCGTACCTGGAACGGTCAAATCCGCTGTTGGGGATCTGCCAAAATTATACCCAGGTGAGGAATACAGATCTGGGGGACGTAAGTTTTCACATAAGCCAGAAAGTACAGGCATAAACGGTCATATCCCCCGGTTTCATAATAAAAGGGATATAGAGATATTTAAAACCCTTGCCCAAGACATTAAGACTGGAGAAAACCGCTACCAAAAAGCGGAATCATTAAAAGAACTGTATCGTAAAAAAACGGGAAGAACGTCTAACGTTCATAAGTATTACGTCCTGCGATGGAACCTTCCGGGAAATACAATTCCAGCTCATTTAAAGAAAGATGGTCTCAGACACATACATCCGGATCCGGAACAGGCAAGGTCTATCACTGTCAGGGAGGCTGCACGTCTTCAAACGTTTGATGATGATTTTGAGTTCACAGAAAAACCCGGGCAGGATTATGAAATGATAGGAAATGCCGTTCCACCGCTATTCAGTTATAAGTTGGCCGGTGCGGTTAAGGAATTTATGAACCGCCTGGATAGTTTTAAAAAAGCCTGA	MTKFNTIELFAGCGGFVDGFEKSGAFHTLAAVEWKRGACEVLASRLEKTYGFTDAPNRVLNFDIRRVSELFNGWNNDPEFGSHEGLNSLVGDTPVDVVVGGPPCQAYSIAGRIQDKDGMRNDYRNYLFESYLKVVDAFRPKLIVFENVEGMLSAAPDGEKIVDKIKKGFDQYGYELVENIKGRALLNLAEYEVPQNRKRVILVGVRRDYLEVSGNAQKFLEHFYDSILPRYKGVPGTVKSAVGDLPKLYPGEEYRSGGRKFSHKPESTGINGHIPRFHNKRDIEIFKTLAQDIKTGENRYQKAESLKELYRKKTGRTSNVHKYYVLRWNLPGNTIPAHLKKDGLRHIHPDPEQARSITVREAARLQTFDDDFEFTEKPGQDYEMIGNAVPPLFSYKLAGAVKEFMNRLDSFKKA	PGPT0020015_3501	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
AK012_01419	2835			hypothetical protein	ATGAGCGAAATACATTCACACACGCATGATGTTGTGAGGTCTTACATAGTTAATCGAAGACGCGATAACGCAGAGTGGAAGTCTATTCTTTTTGAAGATAGTACAAAGTATACTCTTGACCAGTTTATAGATATTCAAAAACTAACAGGGAGTTTCCCGGAAGAAGTAACGAAAGAGACATTTTTAAAAATTGTTGAAGAGCAGAAAGAAGAGGAAGTGGAGGCGGAGAGTATAAAGGTGTCAGATGAGCAGACAGTGATGCTCTCCAACACTGAGGAAAATGATGTGAGAGTTCCAAAACATCCTGATTCTTCATGGCAGCTTTATAAAGCAAAGCTTGAAAGAAATGGGTTCTCAGAAGAGTCTGTTTACAAGTTGGAACAATCAACCTTGCAAATACTCAGAAACTTAAATCGTGATACTTCGGGTATGGACCCAAAGAAAGGTTTAATGGTAGGTCATGTTCAGTCGGGGAAAACGGCGAGTATGGCAGCATTGATGGCTATGGCAGCTGACTGGGGTTGGAATTACTTTGTAGTACTTTCCGGAATGATTGAAAACTTAAGAGGACAGACAGAAACCAGACTCTGGAGTGACTTAAATAATGGTGGAAATCTAAACTGGAAGATTGTTAAAAATCCATCCAAACATTCAGAGAACGGCCAGCGTCTTCAGGATCTGCACGTTAAAGACAGCTCTGAACGGTATATTACCGTTGCTTTAAAGAATAAGGGTCGACTGGAGGGGTTGAATCAGTGGCTGACTGAAGACGAAAATAAAATCAAAGATCTTAAAATGATTATTATAGATGATGAAGCTGACCAGGCAAGTATTAATACAAAAAATGTTAATAAGAGTGAAAGGGCTACGATCAACCGGCTTATTGTAGAACTTGTGGAAGGGAACAAACGTAAAATTCAGCCGAAATCCACTAACTTCATAAGTTATACCGCGACTCCCTATTCTAATTTTTTGAATGAATCCACACCCGAGTCTCTTTATCCAAGCCATTTTGTTGGTGCTCTACCAACTGCAAATGAATATTTTGGACCGAAGGAGATTTTCGGTTTAGAAGAAGAAAATTATGATGGGATGAATATCGTCAGGACGATCAGCGATGAAGATGTAAATGATGTGAAGGAAATGCAGAGTGGTGAAGGAGGCTCTCTTCCATATTCTTTAAAAAGATCACTTGCGTGGTTTATCTGCTCAGTAGCAAGTATGCGGCACCCCTCTATAGATTACAAGAAGCCTGTTAGTATGCTGATTCATACAAGTCAGCTGCAAGCCCACCATGATGAAATGGCAAAACAGATAGGAACTTGGTTTAAAAAACAGTCTACCGAAGATATGATCAGTTTCTGCAGGCAGGTATACGAGGAAGAGGCAGCATCTTTTTCTCCTGAGGATTTGAAGCGTAGTGTACCTAAATACCCAAAGAGTGCGGAAGAACTAAACAGCTACCCGTCCTTTGAGGAGATAAAAGAAGAAGTTATTTCCCTGATAAGGCATGAAGTGACCCATATTATGCTTGGGGAGGAAGGCGAACTCCAATATCATGAAGGGATGCACCTTTGTATAGATAACTGTTCAAAGAACGGGATCGTCGATGATTTTCACATTCGTCTTTCATACCCGGACCCTAAGGCGAAGAATTATCCCGAAAAAACACCAGCTTTCATTATTATCGGAGGCAGTACACTTTCAAGAGGTCTTACGATAGAAGGATTGGTCAGTACTTACTTTCTCAGAGGACCGAATGCTTCAGATACCTTGATGCAGATGGGGCGTTGGTTTGGTTACAGAAAAGGGTATGAAGTATTCCCGAGGGTCTGGATGACTTATGATACACAGGAAAAATTCACTTTCCTTTCCAATCTTGAATGGGAATTAAGGCGGGAACTGGAAGACTTTAAGGCGTCCGGTAAAAATCCGTCTGAATATGGACCAAGAGTTAAAAACTCTCCTAAAGTCAGCTGGATGAGAATCACAGCTGCAAATCGAATGCAGAGCGCCCAGGCAGTAGACCTTGATTTCTCTGGTACATCCAATCAGCTGATCCATTACCATAAAGATCCAGCAGTATTGAGGCATAACCTTGAAGTTACTGAAAATTTCCTGAGTGATTGTCCAGAACCTTACGAGTCAGTAACGGGTACATCAATTGTATATGAAAAAGTTGATTTTAATCATATAAAGGAAAATTTATTGAAGCGGATGACTTTCCACGAAAGATCTATTGTCTTCAATCAAATTGAAGAGTTCTGTGAGTGGTTCGAAAATGCTGAAAATGAGTTGAATTTTAAACCTTGGAATGTTGTGGTTTCCGGGGCGGGGAAAGTAAATGTAAGTGACCATTCCAAATGGAAGTTGAACGGATTCAACATTGGAAAAGTCAACCGTTCAGCTAAAGGCGATGAAAGCAATGAGAAAATTAGAGAGAAAATGGACCATGTGAATATTGGAGTGTTAAGAGCACCAAGTGATCTAATTGCTGATATTCCTAAGGCGTCTATTTCGACCTTTAAGGAAGAAGATAAAAGTTTTAAAGACATTGGTATAAAAAATATATCAACTCTTAGAGAGAAATACGGACTTGCAGATACACCGCAGCTTCTCATATATCGAATAAATAAAGATTCTGCTCCAAACCGCAGTTCTAAAAAGGGTTCAGAATCCTCTCCTAAACCAATTAGCCAAAGGACGGATCTAAACCTGGATGTAGATCCTATAGGTTTATGCTTATTTGTACCAGGCGACAGGAAAAAAGGAGCCAAGGCCAAAGCACTTCAAATAAAGATTGATCCTAAGCAATATTCTGAGTCGGAGGAATGA	MSEIHSHTHDVVRSYIVNRRRDNAEWKSILFEDSTKYTLDQFIDIQKLTGSFPEEVTKETFLKIVEEQKEEEVEAESIKVSDEQTVMLSNTEENDVRVPKHPDSSWQLYKAKLERNGFSEESVYKLEQSTLQILRNLNRDTSGMDPKKGLMVGHVQSGKTASMAALMAMAADWGWNYFVVLSGMIENLRGQTETRLWSDLNNGGNLNWKIVKNPSKHSENGQRLQDLHVKDSSERYITVALKNKGRLEGLNQWLTEDENKIKDLKMIIIDDEADQASINTKNVNKSERATINRLIVELVEGNKRKIQPKSTNFISYTATPYSNFLNESTPESLYPSHFVGALPTANEYFGPKEIFGLEEENYDGMNIVRTISDEDVNDVKEMQSGEGGSLPYSLKRSLAWFICSVASMRHPSIDYKKPVSMLIHTSQLQAHHDEMAKQIGTWFKKQSTEDMISFCRQVYEEEAASFSPEDLKRSVPKYPKSAEELNSYPSFEEIKEEVISLIRHEVTHIMLGEEGELQYHEGMHLCIDNCSKNGIVDDFHIRLSYPDPKAKNYPEKTPAFIIIGGSTLSRGLTIEGLVSTYFLRGPNASDTLMQMGRWFGYRKGYEVFPRVWMTYDTQEKFTFLSNLEWELRRELEDFKASGKNPSEYGPRVKNSPKVSWMRITAANRMQSAQAVDLDFSGTSNQLIHYHKDPAVLRHNLEVTENFLSDCPEPYESVTGTSIVYEKVDFNHIKENLLKRMTFHERSIVFNQIEEFCEWFENAENELNFKPWNVVVSGAGKVNVSDHSKWKLNGFNIGKVNRSAKGDESNEKIREKMDHVNIGVLRAPSDLIADIPKASISTFKEEDKSFKDIGIKNISTLREKYGLADTPQLLIYRINKDSAPNRSSKKGSESSPKPISQRTDLNLDVDPIGLCLFVPGDRKKGAKAKALQIKIDPKQYSESEE				NA	NA	NA	NA	NA
AK012_01420	2034			hypothetical protein	GTGACGAAGTTATCAGTAGATATAGCAAAAGTTGATAGAATGGCACAGAGTGGAAGTTCATTACTTCGATTAATTCAAAATGATGAGCTGCCAATTTTGGATCTTTTAGTAAGAGAGTCCCTTCAGAACAGTCTGGATGCAATGAAGCCGGACTGTTCCCATGTAAATGTGGATCTTTCCATACAAGGCTTTCATAAGAATGAAGCTCTTAAGCACTTTGAAGGCCTGACCAGAACGTTCACTCATGAGTTTCCTTCAGAGGAGCAGCAATCACTTATTATTAAAGACTCTAATACCGTGGGGTTAACAGGCCCCTTAAGCTATGACGAAATGGAAACCAGGGATGAGCAGGGAAATATGTTAAACCTGGTATATGAAATAGGAAGGCCGCAGCAGAAAGAAGGAGCAGGCGGATCCTGGGGTCTTGGTAAAACAGTATATTTTAGAGCGGGTGTAGGTCTTGTCATCTATTACTCTCGTATACGTAAAAAGGATGGGACATTTGAATCGAGACTGGCGGCCAGTTTAATTGAGAATGAGAAAAAACCGGAGCCATCCACTTTTATCCCATACAAAGATGAGAAATTGAAGCGAGGGATTGCCTGGTGGGGGGTCCCCCACGGCGGCCAGACGCTCCCATTGACAGATACAGAGGACATTAATGATATCTTGGAAGACTTTAATGTAGATCCCTATAAAGGGGAAGAAACAGGTACAACTGTGATAATCCCATTTATCAAGGAAAAAACACTGTTGGCAGAGAAGATAGAGGAAGACAACAGGCCTTCACCCTGGCATACATCGATAGAAAGCTACCTGAATGTATCTGTGCAGAGGTGGTATGCACCGCGACTTGACAATCATCACTATCCGTATGGAGGCTGGTTGAAATGTACAGTCAACAACAGGGAAATTACAGCAGATAATATGGAACCTTCATTTAAGGTTCTTCAATCATTATATAATCGAACACTTAGTATAAAGGGAAATAATGATATTCTTGATGGTTCAGAGGTATATGTAGAGTCAATCAATACAAGGAATGTTTTGAAGCATCAGGAAGCTGGTAGAATTTCATTTGCCATTGTTACAAGGGACTTGTTAGGAATGACCGTTCCGGACAATCTCCCAGCACCTTACAAATACTTTGATATCCCAAATGTGTCAGAATTTGAAAACTCACCAATTATTTCCTATACAAGACAGCCTGGGATGATTGTAAGTTACAATACTTCCGGAAGCTGGGTGGAGAAGATTCAATCACAAAGTGAAGAAGAATTTCTTATTGGGATCTTTGTTCCTAATTCAAAAAATCCGGTAGAAGATCCTCACTTCGTAGAAAATGCACCTACACTGGAGGCATACCTGCGGAAAAGTGAAAAGGCTGATCACAGATCCTGGTCCGACTACTTTGATAATGGTAAGGCACTAAACCTTGTGAGTCGTATTCAGACCACGATGACCAGGAAGGTAAATCAGAAGATTGATAAACAGGATAAGGACGTAAAGAACAAAAAGGATAATCAGTTAAGTAATGTAGTTGGTAAGGCCCTCCTTCCACCTCGTGGATATGGGAAGAATAATAATAAAAAAACTCCTGGAAAAAGATCCACGGGAGGAGGGGGAATATCTAAAACAAAACACTTCGTGTATACCATAGACGAGGTGAAGCCTGTCACTCTCTACCAGACAGAGATCCGATTCACAATCGAATCAAAAAAACAGCTGTCCACCGCTCAGATTGAAGTAGCAGCAACGGCTGAACGGGATACAATTAAAGCTGATAAGTGGGAATCCGACGATGGAACTGGAACAACATTTCCGTTTGTAATTGAAGGGTTCCAAATTGATGGTGAAGCTTCCGTAGAAGAAGTAATTACTGTAGAATCCGGTAGATCATATGCGGAAAAAATGTCCCTCTCCCCATCGGCTAAAGTTACCGGTACAATGACTATCAAAAGTCAGGATCCTTTGATTCAAATGAAAATTGTAGTGAATGATTTAACGGAAGCGGAGAGTATCGCCAATGAATAA	MTKLSVDIAKVDRMAQSGSSLLRLIQNDELPILDLLVRESLQNSLDAMKPDCSHVNVDLSIQGFHKNEALKHFEGLTRTFTHEFPSEEQQSLIIKDSNTVGLTGPLSYDEMETRDEQGNMLNLVYEIGRPQQKEGAGGSWGLGKTVYFRAGVGLVIYYSRIRKKDGTFESRLAASLIENEKKPEPSTFIPYKDEKLKRGIAWWGVPHGGQTLPLTDTEDINDILEDFNVDPYKGEETGTTVIIPFIKEKTLLAEKIEEDNRPSPWHTSIESYLNVSVQRWYAPRLDNHHYPYGGWLKCTVNNREITADNMEPSFKVLQSLYNRTLSIKGNNDILDGSEVYVESINTRNVLKHQEAGRISFAIVTRDLLGMTVPDNLPAPYKYFDIPNVSEFENSPIISYTRQPGMIVSYNTSGSWVEKIQSQSEEEFLIGIFVPNSKNPVEDPHFVENAPTLEAYLRKSEKADHRSWSDYFDNGKALNLVSRIQTTMTRKVNQKIDKQDKDVKNKKDNQLSNVVGKALLPPRGYGKNNNKKTPGKRSTGGGGISKTKHFVYTIDEVKPVTLYQTEIRFTIESKKQLSTAQIEVAATAERDTIKADKWESDDGTGTTFPFVIEGFQIDGEASVEEVITVESGRSYAEKMSLSPSAKVTGTMTIKSQDPLIQMKIVVNDLTEAESIANE				NA	NA	NA	NA	NA
AK012_01421	936			hypothetical protein	ATGAATAATACAATTTCTTTCTTTAAAAAATTAGACGAGGAAATGATTGAGGAGATAGGATATCAGGAAACGCCTCTCACCCTTTCTTTTGAGCAGAACGGGTTCATAAAGTACTTTGATACATCCAACTTAAGTGATGGAAGTATTAGAGAAGTTCTTTTGCAGGAGGAATCGTTCTCCTTCGACGCTGCTAAGGATGTCTTAAAGTATCACAAGAGAATTACTATCCAAAACCCGGCACGCTTGTTTGGGGATTACGGTCTGGTCTCTGAAGATGGTGAGATTGGAATTGCGGTTAAATATTATTCGAAGGACTCTCAACAGCAATATACGAAGTTCATCAGTAAAATTACCTCGGAAGACCATATGATTGTAGATCATCCTGTATCCATTGAGATACCGCCTGGCCTGTTTCGGAAACAGGTTACTATTGATGTACTGCTGTTTGCGGTAACCCCGATTGTAAAAGAGCTTCCAGGTTCCAGAGGCACCGTTTTCGGCCCGTTGGACAGTATTAAATGTATTTTGGAAGGTGAAGGAGGAGCATTCCCAATCCTATACCATGATGATGTGAATGAGCCGCTTTGGTGGGTGGACTGTAATTGGGAGGACGCTGCAATTGACGCTTTCCATGAAGACTATGTTTCTCTAAACATTAATAGAAAGCACCCAGACTCCAAGGAACTGAAATTAAACAAGATGCCTGAGGTTTCCCCCATGATGAAGCAGGTTATATCTTCAGCCTTATTTAATATCACCTTAAAGGTATTGAATGAGTACAGTTCGGAAGAACTGAAGAACCATCAAAACTTTGATGAGGGATCAATTGCTAGTGCCATCGCTTATTTCACTGAAAATGTAGAAGGCAGCGTATCCTCACCAGAACTGTTGTCCAAAGGAATTATGAAATCAGTGAGTGAAAGGTTTGAGCGATAA	MNNTISFFKKLDEEMIEEIGYQETPLTLSFEQNGFIKYFDTSNLSDGSIREVLLQEESFSFDAAKDVLKYHKRITIQNPARLFGDYGLVSEDGEIGIAVKYYSKDSQQQYTKFISKITSEDHMIVDHPVSIEIPPGLFRKQVTIDVLLFAVTPIVKELPGSRGTVFGPLDSIKCILEGEGGAFPILYHDDVNEPLWWVDCNWEDAAIDAFHEDYVSLNINRKHPDSKELKLNKMPEVSPMMKQVISSALFNITLKVLNEYSSEELKNHQNFDEGSIASAIAYFTENVEGSVSSPELLSKGIMKSVSERFER				NA	NA	NA	NA	NA
AK012_01422	714			hypothetical protein	ATGTGGAAAGACATGTCAAAAAATGAAGCCGATAAACGGTTTAAGGACTTGGAAAGCAGTGATTTCACACCAAAACTGCGGAGGAACAAGTTTGATCACCCTCTTCGGGAGCGTCTGCTTGAATTACATAAAGAAGTAATGGAACAGCACGACTTGGATGAGGAAAACTTAAATAAAAAAACTTATCTGTATGATCTACAGTTTGGCCTTAGAATGTACAACCTGTTAAATACAGATGAATATAGAATGTCGGTTCAGGAAGCAGCGACAGATGGAGTTTGGAGACATATATCTCTGAATATTATTCCTGATATTGTTTATAAAAGGTGGGGCAGTAATGATAACCGCTTTTATAAACAGCCGAGGAGAATATGGTTGAAGACTCTTTGGTGGTATATCTTCCTTTCATGGCAGGGAAACGAAGAGGATACAGAACAGGTTCTTCAGCACAATACCACGGATGACCTTGTTCAGTTGGTTGAACGGGCCGGGTCCAATGGATACCGAATTGATCTGTCCAGAGAAATTATGAAATATTATGGAAGCATTCCATCACATGATGAAGTTAGAACAAGGAATCTCTTCAGAAAGGTTATGAAGCTGAATACAGCTAAGACCAGTACACTGGAGCCGGGTTTGATAGAGGGTGGAATTGAAGTGTATGTGAGGGATCTTTTTGGAAACTTTGTTAAAGAAAAACAACCACAAAAATAA	MWKDMSKNEADKRFKDLESSDFTPKLRRNKFDHPLRERLLELHKEVMEQHDLDEENLNKKTYLYDLQFGLRMYNLLNTDEYRMSVQEAATDGVWRHISLNIIPDIVYKRWGSNDNRFYKQPRRIWLKTLWWYIFLSWQGNEEDTEQVLQHNTTDDLVQLVERAGSNGYRIDLSREIMKYYGSIPSHDEVRTRNLFRKVMKLNTAKTSTLEPGLIEGGIEVYVRDLFGNFVKEKQPQK				NA	NA	NA	NA	NA
AK012_01423	1389			hypothetical protein	TTGGAAACTTTGTTAAAGAAAAACAACCACAAAAATAAAAAAAACGATCAGCCGGCACAGCAGTATGGAGTACTGGATCTTTTCTCCGGATGCGGAGGTCTGGCCCTTGGGTTCAAACAGCATGGGTTTGATATTATTGAGAGTGTAGAGATCAATGAGGCAGCATCAAAAACGGCTGCCTTTAATCTTCAAACCAAGACAATATCACATAAAAGCCCATTTAATAAAAGCGTACTGGATTACACTTATGGAAAGCAGCATGACAGTGGAAAGGTGATTACCATTGGTGGCCCTCCCTGCCAGGCATATTCCAATATAGGGAAAGCAAAAATCAAGTCTCTTGGTGAAGACCGCTTCGGCTTAAACGATGACAGGGCTTTTTTGTACGAGGAGTTTATCAGAGTCGCTCTTGAAGCCTCATCAGATTTCATTATCATGGAAAATGTACCAGAAGCTGTGAATTTTCTAGGGGTAAATATTGCAAGTGAAGTCTGTATGGAGCTTGAAAAGAATGGATACGAAGCAGTATGGACTATCCTCAATGCTGCAGACTACGGGGTTCCACAGACAAGAGAACGTCTTTTTGTATTTGCTTTAAAGAAGGGAATCGGAAACGGAATCATCCTTCCCAATCCCACCCACCAGAAGCCTGATAAGGACTTTAAGACGCAGAATGAGAGAAGATTTAAAAGTTTCAGCAGAGATGCCTATTTTAAAGAACCAAGAAAATCTGAGGCTGATCTGCCAAATTGGGTGACTACTCATGAGGCACTTTCAGATCTTCCGGAATTATTGGTTGACGCTGAATCTGAGTATGAGTATTTTAAGCCTAATGTCCGCCTTCCTTATCTTACGGAAGCAAAAAATGACTACCAGCGGAAGATGAGAGAAAAGACAGGAGAAGCTTTATACGTGTCGGGGAACTCTTACAGAAATACAGCGAGAGACTTCAGAATATTTGAGGAGATGTACTGGGGGGAGGATTACCGTCATGCCTATGACATTGCTGTAAAAATTCTGCATCGTGAAGCAAAAAGGCTTAAAATAACGAAAACTAGAAATCCTGAGGCGTATGCAGACCTGAAGAAGAAGCTGGTCCCCCCGTATGACAGAAATAAATTTTTTACCAAGTGGAAAAGATTGTCCCCTTATAAACCATCACACACCCTCGTTGCCCACTTGGGAACAGATACGTACAGCCATATACATCCCTATGAACCCAGGGGGATAACGATCAGGGAAGCCGCGCGTCTGCAGTCATTTCCAGATGATTTTCTATTCCAAGGCAGTATGGGAGATTCTTTTAAGCAGATAGGAAATGCGGTTCCCCCACTGTTAAGTCAAGCGATTGCAGGTGCAGTAGAAAAAAGTCTGAATTCAGGAGTGTAA	METLLKKNNHKNKKNDQPAQQYGVLDLFSGCGGLALGFKQHGFDIIESVEINEAASKTAAFNLQTKTISHKSPFNKSVLDYTYGKQHDSGKVITIGGPPCQAYSNIGKAKIKSLGEDRFGLNDDRAFLYEEFIRVALEASSDFIIMENVPEAVNFLGVNIASEVCMELEKNGYEAVWTILNAADYGVPQTRERLFVFALKKGIGNGIILPNPTHQKPDKDFKTQNERRFKSFSRDAYFKEPRKSEADLPNWVTTHEALSDLPELLVDAESEYEYFKPNVRLPYLTEAKNDYQRKMREKTGEALYVSGNSYRNTARDFRIFEEMYWGEDYRHAYDIAVKILHREAKRLKITKTRNPEAYADLKKKLVPPYDRNKFFTKWKRLSPYKPSHTLVAHLGTDTYSHIHPYEPRGITIREAARLQSFPDDFLFQGSMGDSFKQIGNAVPPLLSQAIAGAVEKSLNSGV	PGPT0020015_2485	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
AK012_01424	930			hypothetical protein	ATGGAACTTGTATATAAATTAAGACAGTATTTTGCTTCTCTTCAAAATGGCAGAATTAGAAAACTTCCTGACGACCTTCTAGGAAAAGGTTATCCATGTTGGGTATTAAAAATGGGACGGGAAGTAGGCGTTGGAATTGAAACAGATTATGAGGTTAAGGTTAATGAAAAGTTTACTAACGTAAATCTTTACACACAAGAATTAACAGTTGAAGGTGAGAATAAAAACCTACTACTGCTAACTTGTGAGAGTGACGAACGAAGATATGAATTTGCGAGCATTGCTGCCGTATTTCTTGATCCAGGGACAGACGGATCTGACAGGGGTTTTGTTGCCAGTGAGCCTCTGTCTTGGTGGGAGAAGTGGAAAGATCTTCTGGGTAATGCATCCGTAGAAAAGTCTGTCCAGGGAGTATTCGGAGAACTCCTATCTTTGCGTCATCTCGCATTGCACAAGGAACAGCTCGATCTTCCTTTATGGACCGGCCCAAAAGGCGGTTCTATCGATATTGAATTTAATAATCGAAAGTACGAAGTTAAAACAACGGCAAATAAATATGAAAATATTATTACCGTCAACAGTCAGTTTCAGCTGAGTTCGATATTCAACGCTGATCTCTTCTTTATTCGAGTGGAAGAAACCTCTCAGGGAAAATCAATCAATCAACTATGTGAAGAGTTAACCAATCTTGGCTTCTCCAAGGATAGCCTTGAAGAGGGTTTAAAAAGATCCGGCCTTCCTGAGAATGCTTCTGCAAGAGATAAGGAATTCGTCGTTTTGGAAGCAAGGGTCTATAACACGGCAGGTTTATTCCCGACTAATGACTTGAAGCAGGCACTGGGAGATGCAGCATCACATATTTTAAAAATTCAATACCAAATAGATCTTACCGGTCTAAAACATGAAAACATCGATATGGATAGAGAGTAA	MELVYKLRQYFASLQNGRIRKLPDDLLGKGYPCWVLKMGREVGVGIETDYEVKVNEKFTNVNLYTQELTVEGENKNLLLLTCESDERRYEFASIAAVFLDPGTDGSDRGFVASEPLSWWEKWKDLLGNASVEKSVQGVFGELLSLRHLALHKEQLDLPLWTGPKGGSIDIEFNNRKYEVKTTANKYENIITVNSQFQLSSIFNADLFFIRVEETSQGKSINQLCEELTNLGFSKDSLEEGLKRSGLPENASARDKEFVVLEARVYNTAGLFPTNDLKQALGDAASHILKIQYQIDLTGLKHENIDMDRE				NA	NA	NA	NA	NA
AK012_01425	429	vsr	COG3727	Very short patch repair protein	ATGGATAACCTTACTAAAGAACAGCGTCGGAAAAACATGAAAAACATCACAAGCAGATCTAAAGTAGAAGATAAAGTATCTCAAGAATTATGGAGACGAGGATACCGGTTTAGGAAGAACAACAGAAAACTATTTGGTAAGCCTGATATCTCTATAAAAAAATACAAAGTTGTTATATTTATTGATTCGTGTTTTTGGCATGTATGTCCGGAGCACAGTAATATGCCAAGCACCAATCAGGACTTTTGGGAGAAAAAACTAAACAGGAATGTAGAGCGGGATAAAGAAGTAAACGAGTATTATGAATCTCAGGGATGGCACATAATGAGGATTTGGGAACACGACTTGAAGAAAAAGTTTTTCAATGACACTATTGACCGTATTGAGGATTTTTTAGAAAAAAGCAAAAAAAAAGAGAGCAACTCCTAG	MDNLTKEQRRKNMKNITSRSKVEDKVSQELWRRGYRFRKNNRKLFGKPDISIKKYKVVIFIDSCFWHVCPEHSNMPSTNQDFWEKKLNRNVERDKEVNEYYESQGWHIMRIWEHDLKKKFFNDTIDRIEDFLEKSKKKESNS				NA	NA	NA	NA	NA
AK012_01426	195			hypothetical protein	ATGATGCATATGGAACCATTAACAAAAGTAGAAGTTTTCCAGGAACTCTATCAACTCATTGATTATTATTCAGAGCATCGCGATCACCCCGCAGATCCCGACTTCGATTTCTTCAAAAATGTGAAATATTACTGTGATCAACTCGACTTGAACTATCAGGAGTTCATTCGTACGTTCGGTTTAAAACAGCTTTGA	MMHMEPLTKVEVFQELYQLIDYYSEHRDHPADPDFDFFKNVKYYCDQLDLNYQEFIRTFGLKQL				NA	NA	NA	NA	NA
AK012_01427	1059	dctP_1	COG1638	C4-dicarboxylate-binding periplasmic protein DctP	GTGTTTAAGAAGAATAATGTGGCGGCGTTGATTTTTTCTGTATTGGTACTCTTGTTTATGGCAGCCTGCAGTGGAGATGGGGAAACACAGGAAGCAAGCGGAGCAGAGGAAGATAGTTATGATCCGATTACGATTACTTTCAGTCATAACCAGCCGGTAGACAGCCCCGAACATAAGGGTGCGGAGAAGTTTAAAGAAGTAGTGGAAGAAGAAACCGATGGCAGGGTGACCGTGGATCTCTATCCTGCGCTGCAGCTTGGAAGCCTGCGTGAGCAGGTGGAAGGGACGCAGATCGGTGAAATTGATATCACGATGCAGCCGACAGCGGTCGTGTCTCCTTTCGTGGATGACATTAAAGCCGTTGACCTTCCTTACCTCTTCCCTACAGAAACAGAGAAAATGTATGAGGTTCTGGATAGTGAAGTAGGAGACGAACTGCTTGGAACGTTGAATCAAGGAGGATTCGAAGGGCTTGGCTTCTGGCCCGGCGGTTACAAACTATTCACAACGAATGACGTGGACATCCACCAGCCTTCCGACTTTGACGGGGTGGCGATGAGAACGATGGAATCCCCGATTCTCCTTGCTCAATATGAAGGATGGGGCGGAAATCCAATCCCGGTTCCATATGCTGAACTGTACAACGCGCTTCAGCAGGGAGTGGTGGATGGTCAGGAAAATCCGCTTCAAACCATTTACTTAAACAACTACCATGAAGTGCAGAACACCATTATTGAAAGCCATCACGGATTGATGACCTATGTACTTCTGACCAACCAGGCTTGGTTCAATGATTTACCGTCCTCCGTACAGGAGACAATTGCAGCGGCTGAGGAAGCGGGGCGGACAGCTGCAAGAGATACGCTGGCTGAGACAGAAGATGAGTATCGTCAGAACATCATCGATTCGGACGTCAATTATTATGAGCTTACGGATGAAGAAATAGAGAAATTCCAGGAAGCTTCTCTTCCGATCCATGAAGAGCAGTACAGCACCCCTGAACAGCAGGAACTGCTGCAGAAAATCTATGACAAGATTGATGAAGTGAACAATCAGTAA	MFKKNNVAALIFSVLVLLFMAACSGDGETQEASGAEEDSYDPITITFSHNQPVDSPEHKGAEKFKEVVEEETDGRVTVDLYPALQLGSLREQVEGTQIGEIDITMQPTAVVSPFVDDIKAVDLPYLFPTETEKMYEVLDSEVGDELLGTLNQGGFEGLGFWPGGYKLFTTNDVDIHQPSDFDGVAMRTMESPILLAQYEGWGGNPIPVPYAELYNALQQGVVDGQENPLQTIYLNNYHEVQNTIIESHHGLMTYVLLTNQAWFNDLPSSVQETIAAAEEAGRTAARDTLAETEDEYRQNIIDSDVNYYELTDEEIEKFQEASLPIHEEQYSTPEQQELLQKIYDKIDEVNNQ	PGPT0017325_930	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017325-dctP-K11688	NA	NA
AK012_01428	498	uehB	COG3090	Ectoine/5-hydroxyectoine TRAP transporter small permease protein UehB	ATGAAAGTATTGAAAAAGATAGAGGAGACCGCTATTGCCTTTGGACTATTGTCCGTGACGATCCTGTTGTTTGTGAACATTATTCTTCGCTACGTCTTTTCTGCCAATACCACGTGGGCGGAGGAATTTATCCGTTATGTCATGATTTGGATTACGTTTATCGGAGCTGCGGTATGTTTCAGGCGGGGGATGCACGTAGGTGTGGATTTCGTTCTGGATCTGCTGAAGGGAAAGGCGAAGAAGATCCTGGAGCTTTTTATCGCTCTCGCTTCTATCGTCTTCATGGCGCTTTTGATTTGGTTCAGTATGGAATTGGTGGCATTCACAAGACAGACCGGACAGATTACTCCTTCTCTCCAGATTCCGCTCTACTATGTTTACCTCGCCATCCCGGTCGGGGCGGCGCTTTCCTTATTCCATTTGATTGGGAGAGTGGTGGACATCATAAAGGACAGACCATACAAAGAGACAGCTTCAAACGACATTATACATGAATAG	MKVLKKIEETAIAFGLLSVTILLFVNIILRYVFSANTTWAEEFIRYVMIWITFIGAAVCFRRGMHVGVDFVLDLLKGKAKKILELFIALASIVFMALLIWFSMELVAFTRQTGQITPSLQIPLYYVYLAIPVGAALSLFHLIGRVVDIIKDRPYKETASNDIIHE	PGPT0017330_975	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017330-dctQ-K11689	NA	NA
AK012_01429	1278	dctM_1	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGATTAGCTTATTATTGATTTTATTGATGGTTTTCTTGTTCTCCAGCACCCCGATTTTCGTAGCTTTGGGGTTGTCGTCGTTCCTTTCCGTGATATTCCTGACAGATATCCAGCCAATGATTTTAATCCAGCGTCTGTTCGGCGGCCTGGATCAATTTGCACTCATGGCTCTTCCCTTCTTTATACTGGCAGCCAACATTATGGACGTGGGCGGCTTATCCAAGCGGATTCTCCGCTGGTCCCGGGCTTGCGTCGGACATATTACCGGAGGGGTTGCTATGACCACACAGGTATCCAGCATGTTCTTTGGAGCTTTGTCCGGATCCAGTCCCGCCACTGTTATTGCGATCGGTAAAATCATGTATCCGGAAATGCTTCGTAAGAAATATGACAAATCCTTCGCCTCCGGACTACTGGCTTCTTCCGGCGCCGTATCGCTGATTATCCCGCCCAGTATTACGCTCATCATCTTTGGGTCAGTAACCGGGGTTTCAGTGGGAAGCCTATTCATTGCCGGTATCGGGGCAGGCTTGATTTACGGCCTTTCCTCTATTCTCTATATCTACTATTATGCTAAGAAAAACAATCTTCCTAAGGATAAACGGGCGTCCGGAAAGGAGTTCTGGACGGCTACGGTTAAGGCTTTCTGGGCTTTATTGATCCCTGTCATCATCCTCGGGGGCATTTACTCCGGAATCTTCACGCCGACAGAAGCCGCAGGGGTATCCGCGGTTTATGCGCTGTTTGTCAGTGTCGTGATATACAGAGAGATGAACTGGAGGAGCTTCTATCGGACTCTGGTGGATTCAGCGATTACAACCGCACAGGTGTTAGTGCTCGTGGCAGCGGCTCAAGTGCTTGGATGGATTTTGACACGCGGAGGTGTGCCGCAGCAGATTGCTGGTTACATCGCAGAAAATATCGATTCCGTCGTTGTTTTCCTTTTGTTGATCAATGTTGTCCTGCTTATCTTAGGGATGTTCATGGAAGGGGTGGCGGCGATTACGATATTAGCTCCGCTTATTTACCCGGCGGCTCTATCCATGGGCGTCGACCCTGTTCATCTGGGTGTGATCATGATTGCCAACCTGGCTGTCGGTATGTATACACCTCCGTTCGGCATCAATATCTTTGTCACGCAGACAATCACGAAGTTGAACATGGTCGAAATGATGCCTGGATTGATGCGGTTCTTCGCGGTCAATGTTCTAGCGCTTCTGATCATTACCTATATACCGCAGAGTTCTCTTTTCCTTGTTGATTTCATTCAAAATTAG	MISLLLILLMVFLFSSTPIFVALGLSSFLSVIFLTDIQPMILIQRLFGGLDQFALMALPFFILAANIMDVGGLSKRILRWSRACVGHITGGVAMTTQVSSMFFGALSGSSPATVIAIGKIMYPEMLRKKYDKSFASGLLASSGAVSLIIPPSITLIIFGSVTGVSVGSLFIAGIGAGLIYGLSSILYIYYYAKKNNLPKDKRASGKEFWTATVKAFWALLIPVIILGGIYSGIFTPTEAAGVSAVYALFVSVVIYREMNWRSFYRTLVDSAITTAQVLVLVAAAQVLGWILTRGGVPQQIAGYIAENIDSVVVFLLLINVVLLILGMFMEGVAAITILAPLIYPAALSMGVDPVHLGVIMIANLAVGMYTPPFGINIFVTQTITKLNMVEMMPGLMRFFAVNVLALLIITYIPQSSLFLVDFIQN	PGPT0017335_2751	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
AK012_01430	1611	pucR_1	COG2508	Purine catabolism regulatory protein	ATGGCAATCACGATAAGACAGGCATTAAAAATTGGAGGATTGAAACAGTGTACGGTCGCGGCCGGGGAAGGAGGGCTCGACCGTCTGCTTGACTATGTGACTATCATGGAGGTTCCTGATATTGTCCAGTGGCTGAAAGGAAAGGAATTGATGCTGACAAGCCTTTACCCTATCAAAGGGGATGAAGAAGCCATGCACCAATTAGTGAGAGAGCTTCATGAGAAAGGGACCTCCGCTTTGGCGATCAAGCCGCAGCGGTTTATTGATGATATTCCCCAGGTGATTTTAGATGAGGCGGAGAAGTACGATTTCCCTGTGTTGAGAATTCCGGAGCATGTCAGTTATCTTGATATTCTTTCGCCTGTCATGAATGTCATTTTTGATGAAAAGGTGGTCATCCGTGAAGATCTGGAGCTTGCTTACCGCCTCCTGGACGAGATTAAAAACAGCAAGGGAGGAATCAGCCAGATGGCGGAAACGCTCGCCAATCTGATGAAGCATGAAATCAGAATCGACAGCTTCGTCCCGTACCTTAAGATTCCTTCTGTCGATAACGGCTTGCAGGGGATGACGAGCAGTCAGAAAGAGGAACTCGCTATCGTGCAGCGCCCGGTTAAAATGCTGAGGTGGAATGAGAGGCGTAAAGTGGAGCAGGAATGCCTGACAGCTCCGATTATCATAGAGGGGCAGGTGGTCGGCGCGATTACGAGTATCGGCGTAGCCTCGGAATTTTTGGAAATGGACTTAGCTATTCTGGAACGGGCGAATACGATTCTTTCCTTGGAATTCATGAGGAAGAAGGCTGCCTATGAACTGGAACAGCAATACAAGAGTCATTTCTTCAAAGACTTATTGTTCTCTAAAATTCAATATGAAGCGGCCATGCACGAGAAAGGTATCATGTACGGATTTGATGTGGATAAACAGTATATTTTTATAACCATCGAGTTCACCAGAAGGGAAAAAGGCATGACGTATGTTTCAGAAATCATGAATCAGTTGGAGCGGGTGTGCGCCCGGATTGATGATGACATCATTATCGGAGCGGTTCAGAACGGCCTTTACCTCCTTTACCCTTCCGCCGGCAAAAAAACAGAAAGAATTGAGGCGGATATGAACGATATTCTAGCTGAGATGCAGAATGGCTCAGCTGGGGAGGTATATATAGGAGTGAGCCGCGCCGCCTCGGATATTGGTGAAATCAGGGATGGGTATGAACAAGCCCGGCAGGCTGTCATGCTCGGTCGCAACCTCTATCAGAATAAGCCGATCATTTACTATGAAGAGCTGGGTTTTTACCGGCTGCTTTCAGAAATTGATAACGTAACGGAAGTCAGTAAGTTTTACAAGGAATCTATCGGCGGTTTAATAGAATACGACAAAACTCATGACCTGGAACTCGTGCATTCCCTGACCACTTATTTTGACCACAATGAATCGTTATCGAAAACGGCAGAGGCCTTATTTATACATATCAACACGCTCAAATATCGCCTTCAGAGGATCAACATGATCACTAATTTAAATGTGAAGAACTCAGAAGATAAATTGAATCTGCATATTGGGTTGAAAATTCACAACTTCACCAAAAATGATTATCGATTTAGATAA	MAITIRQALKIGGLKQCTVAAGEGGLDRLLDYVTIMEVPDIVQWLKGKELMLTSLYPIKGDEEAMHQLVRELHEKGTSALAIKPQRFIDDIPQVILDEAEKYDFPVLRIPEHVSYLDILSPVMNVIFDEKVVIREDLELAYRLLDEIKNSKGGISQMAETLANLMKHEIRIDSFVPYLKIPSVDNGLQGMTSSQKEELAIVQRPVKMLRWNERRKVEQECLTAPIIIEGQVVGAITSIGVASEFLEMDLAILERANTILSLEFMRKKAAYELEQQYKSHFFKDLLFSKIQYEAAMHEKGIMYGFDVDKQYIFITIEFTRREKGMTYVSEIMNQLERVCARIDDDIIIGAVQNGLYLLYPSAGKKTERIEADMNDILAEMQNGSAGEVYIGVSRAASDIGEIRDGYEQARQAVMLGRNLYQNKPIIYYEELGFYRLLSEIDNVTEVSKFYKESIGGLIEYDKTHDLELVHSLTTYFDHNESLSKTAEALFIHINTLKYRLQRINMITNLNVKNSEDKLNLHIGLKIHNFTKNDYRFR				NA	NA	NA	NA	NA
AK012_01431	1254		COG0624	putative hydrolase	ATGGATTCGAAAAGCAGGATTCAGACGACCTTGGACGCTTTTAATTCGATAGGAGCGACCACAGATGGAATGCAGCGCCTGGCTTATACAGAAGAAGAGAGCCGGGTGCACGCTGTTTTTTCAGAATTTTGCGTTAAAGAAAATTTACAGGTGAGAACAGATGAGGCAGGAAATGTCATTGCACGAAGGGAAGGGCGGATGAAAGAAGCCCCCGCTGTAGCTGTTGGTTCGCACTTGGATACCGTCTACTCCGGTGGAAAATATGACGGTGCCGGCGGGGTGGCCGCAGGCATTGAGCTCATTCACCGTTTGAATGAAAAAAAGGTGATCACGGATTACCCCATCGAGCTTATTGCGTTTGCCGGAGAGGAATCCTCCCGTTTTGGTCTGGCGACAATCGGCAGTAAAGCAATGACAGGATTACTGAAGGCACAGGATACGAAACAATTCAAAGATAAGGACGGCATCAGTTTGGAAACAGCTATGAACACCGCAGGATTCCCTTCATCCACTCTGGGTCAGGCCGTCCGTGAGAAAAGCGCGTTCCATGCATTTATAGAACTTCACATTGAGCAGGGCCGCGAACTGGAACGGAAGGGAAGGAAAGTCGCCATTGCTACAGGTATTTCAGCTCCTACACGGCTGAAAGTGACAGTCGAAGGGGAAGCCGCCCACTCGGGAACAACCCCTATGGATATCCGCAGAGATGCGTTAACCTCCGCTTCCCGCCTTGTTCTGGATATTGAAGAGGCCGCTAATCAGGAGAAAAAGTACCAAACGGTAGCGACCGTCGGGGTCTTTCATGTTTTTCCTGGAGCTATGAACACCATTCCAGGCCGGGTGGAATTCAATGTCGATATCCGGGGGCTCGATGTTTCATCAAAGCAGCGGATCATCACGGCGGTGAAGAAGAAAAGCCGCCAGCTGCAGACAGAGAAAGACGTGGAGGTTTCCTTCGATTTGCTTAGGGATGAACAACCGATCCTTTTAGATAAAGACGTTCAGCAATTACTGGCAGCATCATGCAGAGAGGTGAGTGTCGATCCGCTGTTCCTCCCGAGTGGAGCGGGTCATGACGCGATGAACATGGCTTCCATCTGCCCCACCGGCTTGCTTTTTGTCCCTTCCTACAAAGGGATCAGTCATAATCCAGATGAATATACAGCCGCAGAAGACTTCGTGACAGGGGTGGATGTCCTGGAACAAGCCGTCATGAAGCTTGCCGGCGCAAAAGAGGTGAAAATGAGCGGATGA	MDSKSRIQTTLDAFNSIGATTDGMQRLAYTEEESRVHAVFSEFCVKENLQVRTDEAGNVIARREGRMKEAPAVAVGSHLDTVYSGGKYDGAGGVAAGIELIHRLNEKKVITDYPIELIAFAGEESSRFGLATIGSKAMTGLLKAQDTKQFKDKDGISLETAMNTAGFPSSTLGQAVREKSAFHAFIELHIEQGRELERKGRKVAIATGISAPTRLKVTVEGEAAHSGTTPMDIRRDALTSASRLVLDIEEAANQEKKYQTVATVGVFHVFPGAMNTIPGRVEFNVDIRGLDVSSKQRIITAVKKKSRQLQTEKDVEVSFDLLRDEQPILLDKDVQQLLAASCREVSVDPLFLPSGAGHDAMNMASICPTGLLFVPSYKGISHNPDEYTAAEDFVTGVDVLEQAVMKLAGAKEVKMSG	PGPT0000875_538	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000875-allC-K02083	NA	NA
AK012_01432	783	pyrK_2	COG0543	Dihydroorotate dehydrogenase B (NAD(+)), electron transfer subunit	ATGAAACAATACCATGCACCCGTCCTTTCCAATAAACAAGTGAGCGAACGATACTGGCATATGACGGTAGATTCGTCAGCCCTGCCGTTTAAGCCGGACCCCGGACAGTTTTTCCATATCCGCTGTGCCGGTACGTACAGTCCTTTCCTCAGACGTCCGTTGAGCATCTATCAAATTCATGAACACACACTGGAGTTTCTCTATGTCGTCAAAGGTAAGGGAACAACGGCGATGACAAGGATTCAGAAGGGAGACACCCTTGATATGATGGGGCCGGTCGGAAAAGGGTTTGAACTTTATAAACAAGCAGAAACGGTCCTTCTCATCGCCAGAGGTGTAGGCATAGCCACCCTTGCAGCGGTAGCTCAGGCTGCCTTCCAGCAGAAAGCCCACTGCGTGGCTGTATTATCTGCCCGGACAGAGGAAGATCTTCTGGCTGCCGAATACTTGGAAGAATTCGGAGCCACAGTTTATAAAGTGACCGATGAAGGCGGAACAAGTGATGTCAATCATGTGAAGCAGCTCATCCAAGAGGATATCCTTCCCCGCTATAAAATAGACAGCCTCTATACGTGTGGATCACGAAGACTATCCAAACTCGCGCAATCCATTGCTTTTGACCATCAGATCCCTGGTGAGATTGCATTGGAAGAGCATATGGGCTGCGCTATGGGCGCGTGTTTCGCCTGTGTCTGTGATATACAGGAGGGCCGGGAAAGGAAATCCGTTCGTGTCTGTATGGAAGGGCCGGTCTTTCCTCTTGAAAAGGTGGTGATGGAATGA	MKQYHAPVLSNKQVSERYWHMTVDSSALPFKPDPGQFFHIRCAGTYSPFLRRPLSIYQIHEHTLEFLYVVKGKGTTAMTRIQKGDTLDMMGPVGKGFELYKQAETVLLIARGVGIATLAAVAQAAFQQKAHCVAVLSARTEEDLLAAEYLEEFGATVYKVTDEGGTSDVNHVKQLIQEDILPRYKIDSLYTCGSRRLSKLAQSIAFDHQIPGEIALEEHMGCAMGACFACVCDIQEGRERKSVRVCMEGPVFPLEKVVME	PGPT0021180_653	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021180-pyrDII-K02823	NA	NA
AK012_01433	915	pyrD_2	COG0167	Dihydroorotate dehydrogenase B (NAD(+)), catalytic subunit	ATGATCCAGATGAAAAGCACCGAAGTAAACATAGGGTCTTTAACGCTGAAAAGCCCGGTCATGCCAGCTTCAGGAGCATTTGGCTCGGAGATGGAGCAGGTAATTGATTTTAATCAGCTGGGAGCGATTGTACCGAAGAGTATTACTAAAGATCCGCAGCCGGGCAACGCCAAACCAAGAGTCTGTGAAACGGAAGCGGGAATGATCAATTCCATCGGCATCCAGAGTAAAGGGCTGGACTATTACTTGAAGCACACCATCCCTTCTTTTGAAAAATATGATTCTCCCCTGATAGCCAGCATTTCTGCGGAATCCATTGAAGAGTTTGCAGAAATGGCTTCCATTTTGGGGAACCATTCAAACGTAGCGGCGCTGGAGTTGAATATTTCCTGTCCGAACCTTAAAGGGAACGGAATGGCTTTCGGAATGGATGCGGCGGTTACGCGTTCGTTGACAGCGGAAGTTCGGAAGGTGACCCGCAAGCCGTTAATCGCAAAACTGACCCCGAACGTAACGAATATCCAGGACATTGCGTTGGCAGCAGAAGCTGGAGGAGTGGACGGCTTGAACGTTGCCAACACAATGCTGGCAATGTCTATCGACGTAGAGACGAGGAAACCGAGAATCGGCAACGTGATGGGAGGGCTTTCGGGGCCGGCTGTAAAACCGATGATTGTGCGGATGATTTATCAAGTCGCCCAAGTGACCTCCCTGCCGGTCATTGGCTGTGGGGGAATCATGACGGGTGAGGACGCCATCGAGATGATGATAGCCGGAGCAACAGCGGTTCAAGTGGGGACGGCGAGCTTTATTCAGCCAACCGCGTTAACCGATATACAAAAAGAGATTGATGATTATATGGACAAGCACAACGTAGATGATATTAAGGAATTGATTGGATCCATCCAAATATGA	MIQMKSTEVNIGSLTLKSPVMPASGAFGSEMEQVIDFNQLGAIVPKSITKDPQPGNAKPRVCETEAGMINSIGIQSKGLDYYLKHTIPSFEKYDSPLIASISAESIEEFAEMASILGNHSNVAALELNISCPNLKGNGMAFGMDAAVTRSLTAEVRKVTRKPLIAKLTPNVTNIQDIALAAEAGGVDGLNVANTMLAMSIDVETRKPRIGNVMGGLSGPAVKPMIVRMIYQVAQVTSLPVIGCGGIMTGEDAIEMMIAGATAVQVGTASFIQPTALTDIQKEIDDYMDKHNVDDIKELIGSIQI	PGPT0021175_1091	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021175-pyrDI-K17828	NA	NA
AK012_01434	1419	lhyD		L-hydantoinase	ATGTGGGATCTTAAGATTATAAACGGCAGAGTCGTAAGCAGCGGTCATGTGAATGAACACACCCTCTATATCAAGGATGGGAAAATAGGAGCGGTCACCTCAGAAGACAACGGGGAAGAAGCGTCGAGGGTTATTGATGCATCCGGAAAATATGTCCTGCCGGGACTTATCGATACCCATGTGCATTCCCGTGACCCGGGTCCAACCTATAAAGAAGATTTTGCTCATTCATCACGCGCAGCCGCAGCGGGCGGCATCACCTCTATTTTTGAAATGCCGAACACGACACCCCCGGTTGACGGTCCGGAACATTTCGACCTCCAGCATCAAAACCTTCAGTCAAAGGCCTATGTCGACTTCGGCCTTTGGGGCATCTGTCTTGGTTCTTTGAACAACGATCAAATCCAGGCATTGAACGGAAAGGGTGTAATCGGCTTTAAATTCTTCTGGGGCTATGCTGTTCATAGTGAAACGTACCAGTTGATCTACAACTACAAGCCGGGAATGGAGAACGTCATCGCTCCTTTCAACGATGGTGATGTATTCGAAATGATGCAGGAAGTTGCTCAGACCGGTAAAATTTTTGCGGTTCATGCAGAAAACAACGACCTGATTCAAACCATGATGTCACTCGTAGAGAAAAAGGGAGGGCGTTCCTATGAGGATTTAATTGCTGGACGGCCGGATCTGGCAGAGCTGCTTACGGTGAATACTGGAATCGAGCTCGCTAAAGCGTCAGGAGTGCGTTTCCATGTGCTGCATGTCAGCTCGGAAGCAGGCGTCAAAGCAGTAAAAAGAGCTCAGGAGGAAGGGTATCCGGTTACAGTGGAAACCTGTCCGCACTATTTATTTCTATCCAACGAAGACTATCCTGGAATCGGACCACAGATGAAAGTTTATCCGCCGGTCAAATATAAACAGGATCAGGAGGGAATCTGGGCCGGGATTAAGGATGGGACGATTTCGCACGTCTGTTCTGACCATGCGCCTCACACCGAAGAAGAAAAGGAGGGAGATCTCTGGTCCATCCCGGCCGGCATGTGCGGGGTGGAATCAATGGCCTCTCTCATGCTGAATGCTGTTAACCAAGGAGAAATTTCTATTACAGATTTTGTACGGTTGATGGCGGAAGAGCCGGCCCGGATGTTTGGAATATATCCACAGAAGGGATCGTTGCAGCCGGGGACCGATGCAGATATCACCATTGTTGATCTCGGTCAGGAGATGATCATCCAAAAAGAAAACCTTCATAGTAAAAGCAAGGTAACGGCCTTTGATGGCTTTGCTGTCAAGGGCGTGCCGACGGAAACCATCGTACGAGGGGCGATCGTCATGCAAAACGGTGAGATCACAGGGGATAAGGGTTATGGTCGTTTGGTAAAGCCGGTGGTAAATAAGCAGAAGCAGGTTCAGCCGTGA	MWDLKIINGRVVSSGHVNEHTLYIKDGKIGAVTSEDNGEEASRVIDASGKYVLPGLIDTHVHSRDPGPTYKEDFAHSSRAAAAGGITSIFEMPNTTPPVDGPEHFDLQHQNLQSKAYVDFGLWGICLGSLNNDQIQALNGKGVIGFKFFWGYAVHSETYQLIYNYKPGMENVIAPFNDGDVFEMMQEVAQTGKIFAVHAENNDLIQTMMSLVEKKGGRSYEDLIAGRPDLAELLTVNTGIELAKASGVRFHVLHVSSEAGVKAVKRAQEEGYPVTVETCPHYLFLSNEDYPGIGPQMKVYPPVKYKQDQEGIWAGIKDGTISHVCSDHAPHTEEEKEGDLWSIPAGMCGVESMASLMLNAVNQGEISITDFVRLMAEEPARMFGIYPQKGSLQPGTDADITIVDLGQEMIIQKENLHSKSKVTAFDGFAVKGVPTETIVRGAIVMQNGEITGDKGYGRLVKPVVNKQKQVQP	PGPT0000870_357	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_DEGRADATION,PGPT0000870-allB-K01466	NA	NA
AK012_01435	744	nfrA1_2	COG0778	FMN reductase (NADPH)	ATGGAGTATCCGGAAGCCCGATCTCTTCTGCAAAGCCACCGCTCCATCAGGCGTTTCAAGGATACGGCGGTGCCACAGAATATTATCGATGACTTGGTTGAATCGGCACGCTGGGCCCCTACATCCCATAACGTACAGGCCTACAGCATCATCGGTATTCGAAGCCAAGAGGTGAAAGAAAAGCTGCAGACCTTGTGTGGGGATCAGTCGTACATCGGCCAATGCCCGATTTTCTTTGTTTTTGTTATGGATTTCTATCGTCACGCTCTAATTAGTGAACGACAAGACGCCCCTTTTGAGGTGGATGAAATCGAAAACCTGCTTGTAGGTGCTGTGGATACGGCACTTGCCTCTGAAAACTTTCTTCTCGCTGCCAGGTCTTATGGTCTTGGCGGGGTAATGATCGGAGGGATTCGTAATGAAGCCGAACAAGTATCCTCCCTTTTGAACCTTCCGAAATGGACAGTACCGCTGATGGGGATGTGTATCGGCTACCCGGATCAGTGGCCGAAGCAGAAGCCCAGGATGGTGAAACAAGCCGTCTATCATGAGGAATTCTATCAGACAGATGGAGTAGAATCTCTGTTACTTGAATATGAACAAATCACATCCACGTATTATGCGGAAAGAACGAATGGTAAAAACTCCAGAGGCTGGGGCAGCCGTATGGTGGATTATTTTGGGGAGAAAAGAAGAGCAAAGCTGACGGATTTCATCAAAAAGCAGGGATTTTCTCTAAAATGA	MEYPEARSLLQSHRSIRRFKDTAVPQNIIDDLVESARWAPTSHNVQAYSIIGIRSQEVKEKLQTLCGDQSYIGQCPIFFVFVMDFYRHALISERQDAPFEVDEIENLLVGAVDTALASENFLLAARSYGLGGVMIGGIRNEAEQVSSLLNLPKWTVPLMGMCIGYPDQWPKQKPRMVKQAVYHEEFYQTDGVESLLLEYEQITSTYYAERTNGKNSRGWGSRMVDYFGEKRRAKLTDFIKKQGFSLK	PGPT0000290_382	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0000290-nfrA1|ywcG-K19285	NA	NA
AK012_01436	1284			hypothetical protein	ATGAGGATGATCATGACGGGGGACAGTTTCATTGCCCGCCGGATCCCGGATAAGGATGCCCGTGCTGCGGAGTTGAGACAGTGGATGGCAGATGCTGACGTGCGTTTTACAAATCTGGAAATCACAACGCATAAAAAAGAGGGATACCCATCTCCTGTGAGTGGAGGGACGTGGGCCATGGCTTCCCCGTCCGTTTTGGATGATCTGAAAGATTACGGGTTTAATTTATACAACTGGGCCAACAATCATACGATGGATTATTTATATGGAGGCTTGAAGAGGACAGAGGAAGAATTGGACGCAAGGGAGATGGTCCATGCGGGAGCAGGCCGATCGCTCGCCTCCGCATCAGAACCACGTTACATAGAAACAGAAAAAGGCAGAGCAGCACTGATTGGAGCTACGTCCACCTTTCAGGATTTTTGGAGGGCGGGTGACGGGAATGCTTATATTCCAGGAAGACCAGGGGTCAATCCTCTCCGTCATGAAGAAATGATACATATTTCTAAAGAGGAGATGGAAACATTGGTCTCCATCTCCAACCGGACTCATTTGGATGCTGCCAAGGAGCTTGATATAAAAGAGGGGTTCCTGCCCCCTGATCCTGCCGGCAGATTTGCATTTGCGGGCCGGACGTTTAAGGAGGGGGACAGGGCCTTCATCGAGCGCAGCCCCCACCCGGCCGATATGGAGCGGCTCATCCGCACTGTGAAAGAAGCGGAACGACAGGCGGATTATGTGATTGTCAGCCTTCATTCTCATGAAATGGATGGAGTGGACAAAAATAAGCCGGCTGATTTTATAAAAGAAGCCGCTCGAAACTTAATTGATGCCGGGGCTCATTGTATCGTAGGACATGGTCCTCATGTGGTCCGCGGGATTGAAATCTATCAAGGGAAACCTATTTTCTATAGTCTTGGTAACTTCATCTTCCAGAACGATTCTGTAACCCATCTGCCTCGCGACTTCTTTGAAAAATACAGGATGGATGCTGATTCCTCAGCCGCTGATGGGTTCGATAAACGCAGCGCAGGCGGCACGAAGGGGCTTGGTGTTAACCCTTTTGTATGGGAATCGGTGATGGCCGGTATGAGTTGGGAAGGCGGCCGCTTAACGGGAATTGAACTGCAGCCGATCGATTTGGGATTTGATGAACCGAGGTACCGGAAGGGCTGGCCGGAATTATCCCGCAATGAAGAAGTGCTGCAGAGGATCCAGCGTCTTTCAAGAGAGTTTCATACAGAAATTATGATCGAAAATGGAAAAGGTTATGTCCAATTGTAA	MRMIMTGDSFIARRIPDKDARAAELRQWMADADVRFTNLEITTHKKEGYPSPVSGGTWAMASPSVLDDLKDYGFNLYNWANNHTMDYLYGGLKRTEEELDAREMVHAGAGRSLASASEPRYIETEKGRAALIGATSTFQDFWRAGDGNAYIPGRPGVNPLRHEEMIHISKEEMETLVSISNRTHLDAAKELDIKEGFLPPDPAGRFAFAGRTFKEGDRAFIERSPHPADMERLIRTVKEAERQADYVIVSLHSHEMDGVDKNKPADFIKEAARNLIDAGAHCIVGHGPHVVRGIEIYQGKPIFYSLGNFIFQNDSVTHLPRDFFEKYRMDADSSAADGFDKRSAGGTKGLGVNPFVWESVMAGMSWEGGRLTGIELQPIDLGFDEPRYRKGWPELSRNEEVLQRIQRLSREFHTEIMIENGKGYVQL				NA	NA	NA	NA	NA
AK012_01437	513			hypothetical protein	TTGAAACACAAACACGTCCTATTATCAGCTTTTATCTTTATTCTGCTTACGGGTTGTCAGCATCAATCTGTGGAAGACGTAATTGAAGATGGACACAGCTCGTCTATGGAAGTCACGGAAGTCGTGGATGTGACAGACTTTGGAGATGCGAAAATGGTTTTGTATCTTACTGATCAGGAAGAAGTAAATATCAAGGTCAGTGCCCTTGTTAAGAAGTGGCATGGCTGGGACTTAAGGAGCACCACAGGTTTTTCTGCCTCGGAGAACGAATTGTACGCAAGGCACAGCAGTTGGCACGTGCTGCCTGAGGAGGATCCCTTCAATGTTCTATATGGAATGGTCAACAGCAGAGAGATCGATTCCGTTGAAGTGGAAACGGATGATGGCTATAGACAAATCCCCCTGCATGACACGGGGATGGGGAGGGTTTTTTATGCTCCGAATACCGCACCACCCGTGAGGGCACTCGATCAAGAGGGAAATGTTCTTTATGAGGAAGACTTATCAGGGTGA	MKHKHVLLSAFIFILLTGCQHQSVEDVIEDGHSSSMEVTEVVDVTDFGDAKMVLYLTDQEEVNIKVSALVKKWHGWDLRSTTGFSASENELYARHSSWHVLPEEDPFNVLYGMVNSREIDSVEVETDDGYRQIPLHDTGMGRVFYAPNTAPPVRALDQEGNVLYEEDLSG				NA	NA	NA	NA	NA
AK012_01438	357			hypothetical protein	TTGAAGAAATTATTTTTCTATTTGTTTATCGTGATGTTTGTCATGGCTGGGTGTACAAACCAAACTATTATGTTGTCAGGTGAGTCCAGCAGTTGGGATGGAGAATACATAGCAGATAACGGACCTGATTCAGAAAACGGGGAATTTACGTTCCATTACGGTAAAGAGGAAGAATTGAAAGACTTGAAAATTACGATCAACGAGGGAGAAACTGTTCAAACATGGGCAGAATTGGATAAAAGAACAGTGACGATCTCTTCTCAATGTTCAGGCTGTACGCCTGAAACAGGTGAACCTATCAGCGTGGAAGTTCAATGGGGCCGTCCGCAGCAAACAGAAAAACTAACTCTGGAGTAG	MKKLFFYLFIVMFVMAGCTNQTIMLSGESSSWDGEYIADNGPDSENGEFTFHYGKEEELKDLKITINEGETVQTWAELDKRTVTISSQCSGCTPETGEPISVEVQWGRPQQTEKLTLE				NA	NA	NA	NA	NA
AK012_01439	216			hypothetical protein	ATGATTGGAAAGGGTAAAACCACAATAGGAAAATGGCTTGCTTACTTAGGTATATGGATTTTCGCAGCTGGATTTGCATTTAGTGAAATCATCAATGGCAGCGATGATATGCCAAGTTTATTTGTGTCTGCTTCAATTCCTATGATGGTAATAGGAGTATTGATGATAATTACATCAAATTTCTTTAGGAAGAAAAGCTCAGAATATAGAAATTGA	MIGKGKTTIGKWLAYLGIWIFAAGFAFSEIINGSDDMPSLFVSASIPMMVIGVLMIITSNFFRKKSSEYRN				NA	NA	NA	NA	NA
AK012_01440	183			hypothetical protein	ATGATACATAGAAAATTATTTTGGCTGGGATTCTTAATGTTTGCAGCTGGAGGTCTAGCTTTAGCTATTATGGATAATGAACTGAATGGAAGTAATCTTTTTTCTTATATTATTGCTACTATTGGGTTGCTTCTTGCGGGAATATCTAAAATTGTAGAAAGTAGACACTCGCCCAATAAATAG	MIHRKLFWLGFLMFAAGGLALAIMDNELNGSNLFSYIIATIGLLLAGISKIVESRHSPNK				NA	NA	NA	NA	NA
AK012_01441	459			hypothetical protein	ATGAGTAATGATTCAATTATTCAAATGTGGGAAGAATATCAAAAAATTAATCCCAATGCACCAAAACATTATGAGGCATGGGCATTTGGTGATTCAAAAGAAATGGCTAATGAGCTTGCAAATTTAGTATTAGAAGGAACGAAAACAGCAACAGCATCAAACTATACGTTATATGAATTGGAAAACGAAGCATTACCATTAGTTGGTCTTCATAATATTATTCTCGACGGGGATGGAAAAGCCGTTGGAATAGCAGAAACTACATCAGTAGAGGTGGTTCCTTTTGATGAAGTTACAGCAGAGCACGCATATTTGGAAGGTGAAGGTGACCGTACATTAGGGTATTGGCGTGACGTTCATGAAACCTTCTTTAAAAAAGAGTTTAAAAATATAAATCAAGAGTTCAATTACAAAATTCCTGTTGTTTGTGAAAGGTTTAAGCTAATTTACAAGAGATAA	MSNDSIIQMWEEYQKINPNAPKHYEAWAFGDSKEMANELANLVLEGTKTATASNYTLYELENEALPLVGLHNIILDGDGKAVGIAETTSVEVVPFDEVTAEHAYLEGEGDRTLGYWRDVHETFFKKEFKNINQEFNYKIPVVCERFKLIYKR	PGPT0008170_120	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
AK012_01442	186			hypothetical protein	ATGGGAAATGAAACTCCTGAAGAAAGAAGAGAAAAACTAAGACAAAAAGAGTTAAGCAATCCTTCAAGTAGTGGACACGGAAGCAATCTTGCAGATTTAGTTGGTGGCTTAGGCTGGAAGGGAACTGGTATATTTATTCTCCTAATAATAGCTGGGTTTATAATTTATTCCTTTTTTTTTCGTTAA	MGNETPEERREKLRQKELSNPSSSGHGSNLADLVGGLGWKGTGIFILLIIAGFIIYSFFFR				NA	NA	NA	NA	NA
AK012_01443	423			hypothetical protein	ATGAATTTATTTTTGAAAATAAACTTACTTAGTATATTTTATGCTTTTGTATTGTTCTTAGCTTTGGAGCTAGGGATCAATGTACACAGAATAAGTGATTTACTTAGTTTGAATCTGGATGCTGTAATGAAAATACTAACAGTCCTTTATATTATAGGTTTTATTACCTTCAGTTTCTTATTTTTCAAGATAGCTAAAAAATGGATAGAAAAAAGAAAGTCCTCTATTTGGTCGACTATTCTTTGGTTTCCGTATTTTATTCTTTTTACTTTTATATTCGCTAGATTGTTTCCCATTAATAACCCGGGACAGGACCCTGGACCAGGAGCAGGGTTTGTAATTATATTTGCTGTATTATTTTACCCTTTTTATTTGCTAATAATTAATATATTAGGAACAGGGGTAAGGATCAAGCAAGATTAA	MNLFLKINLLSIFYAFVLFLALELGINVHRISDLLSLNLDAVMKILTVLYIIGFITFSFLFFKIAKKWIEKRKSSIWSTILWFPYFILFTFIFARLFPINNPGQDPGPGAGFVIIFAVLFYPFYLLIINILGTGVRIKQD				NA	NA	NA	NA	NA
AK012_01444	180			hypothetical protein	ATGTTCGATGCTGGTTGGCTTAATATCGGCAGTTTGGTACTTGGATTAGTAGCTTGGATAATTCCTATTGTTATTCTTGCGGTAGGTTATGCTCGAAAACAAAGCTCTTCTTGTAAGGATCTTTCTTTTGTAAAAAGGCTTGTACTTGGCTTTTTCCCTTCGCAACATCCAGGCCAATGA	MFDAGWLNIGSLVLGLVAWIIPIVILAVGYARKQSSSCKDLSFVKRLVLGFFPSQHPGQ				NA	NA	NA	NA	NA
AK012_01445	579	glpG		Rhomboid protease GlpG	TTGAGTATCACTTTTAGAAAGGAAGTTGAGAACATCGCCATATTAGATACACCTCCTGTGACACTTACTTTATTAATTATTTACATAGTTATTTTTTGTACAGATAGAATATGGAGCGATAAATTGTCTAAGTGGGGCACAGGGAAAAGTTTTGACAACATGAGAAAGGGAGAATGGTACCGACTCATTACTGCGCCATACTTTCATTTGAATATAATTCATCTTGTGGGAAACGTTTTTGGTATTTATTTCGTCGGATTAGTGTTAGAAAACAAAATTGGAAGTTTTATGTTTCTGCTCATTTACGCAATCGGAAATTTGATGGTTTCCTTATTATTTTCTTTATTGACTTCATTTAATAAGGGAACAGGAGCTTCTCCAGGAATATTTGCATTGGTAGGCTGTATATTTTATCTGTTTTCACAAACTCCTGAATTATTCAATCTCCAATTAGGAACTTGGAAAACAAACTATATTATTTTCTATTCAATTTTAGGAAACTTAATTGGCTTGGGTGGATTTGTTTCCCATGTGGTTGGTTTTATGATAGGAATCTTGTTGAGTTTTTATCTATTTTAA	MSITFRKEVENIAILDTPPVTLTLLIIYIVIFCTDRIWSDKLSKWGTGKSFDNMRKGEWYRLITAPYFHLNIIHLVGNVFGIYFVGLVLENKIGSFMFLLIYAIGNLMVSLLFSLLTSFNKGTGASPGIFALVGCIFYLFSQTPELFNLQLGTWKTNYIIFYSILGNLIGLGGFVSHVVGFMIGILLSFYLF				NA	NA	NA	NA	NA
AK012_01447	573	ydaF_3	COG1670	Putative ribosomal N-acetyltransferase YdaF	ATGAATCCTTTATTATTAGATGTTCCAATGGAAATTAAAACAGAAAGATTAATTCTTCGAGCACCATTCCAACCTGGGGATCAAACTTTAGTAAACCAAGCAATAAAAGATTCCTTTACTGAACTAAAAGCATGGTTACCGTTTGCTCAGCAATTACCAACTGTTGAAGAGACAGAAATCAATTTGAGGAATGCTCACATAAGCTTTTTAAAACGAGAAAGCTTCCGTTTTTTAATCTACCATAAAGATACAGAGGATTTTATTGGAACTACAAGCCTTCAAGGGATAGATTGGGATATTCCCAAATGCGAAGTTGGCTATTGGATTAATACTAAGTTTGGCGGCAATGGTTATATGACAGAAGCGGTAGAAGAGTTAATTAATTTAGGATTAAATCAGATTGAATTCAAAAGAATTGAAATAAAATGTGAATCTACGAATTTCAAAAGTCGATCTTTACCGGAAAAACTCGGTTTCACGTTAGAAGGTACTTTAAGAAATGATGATCTATCGGCTGATGGTAGGGAGCTAACTGATACTTGTTGTTATTCCATCATAAATTCGAAGCGGTAA	MNPLLLDVPMEIKTERLILRAPFQPGDQTLVNQAIKDSFTELKAWLPFAQQLPTVEETEINLRNAHISFLKRESFRFLIYHKDTEDFIGTTSLQGIDWDIPKCEVGYWINTKFGGNGYMTEAVEELINLGLNQIEFKRIEIKCESTNFKSRSLPEKLGFTLEGTLRNDDLSADGRELTDTCCYSIINSKR				NA	NA	NA	NA	NA
AK012_01448	249			hypothetical protein	ATGAGGGGAAATAGCTTAAAGGGAATACTGGTATTAGGTTCTTTACTAGGGATTATTGGACTAATATTCATCTTTTTTAGCAATAGTCTCGGGACGTGCTTAACAAATGCCCTAGTGGCAAACGCTGATTACGCTGCATATACTTACGATTCTAAAGTTAAAACAAATACAAATATCTTTCTACTAACTGGTATCATACTTTCTGGAATTGGTCTCTCTACAGTGATCTATGCTCTTTATAAGATGTAA	MRGNSLKGILVLGSLLGIIGLIFIFFSNSLGTCLTNALVANADYAAYTYDSKVKTNTNIFLLTGIILSGIGLSTVIYALYKM				NA	NA	NA	NA	NA
AK012_01449	192			hypothetical protein	TTGGGGATGGGGTACATTTTATTGACCGGTATAATCCTTTTAGCTATAAGCCTGATTACAATAAAAAAATTTAAGACAAAGACATTTCTCCAAAAAGTCTTACATTTGAGTGCATTGTTAATTGGTGTAGTACTTATCATTTTAGCCATCATTGGAATTGTAGGTTATGGTCAGGATATATTAAATTATTAA	MGMGYILLTGIILLAISLITIKKFKTKTFLQKVLHLSALLIGVVLIILAIIGIVGYGQDILNY				NA	NA	NA	NA	NA
AK012_01450	540			hypothetical protein	ATGACTGGAAATAATAAAGCGCCCGACGGTTGGCTTATGACGGGGGACTCACCATCTGATTATGAAACGGGTTTAGACGATAGGATTTTGCATAGTGGTAATTACTCGGCATATTTGAGTTCAAAGGATGAAAAAGCACGAGGTTTTGCTACATTGATGCAACAGATCAAGTCAGATCGCTATCGTGGAGAGCGACTCCGATTTTCTGCATTTGTTAAAAGTATGGATGTTAGAAAATGGGCCGGTTTGTGGATGCGAATTGATCATTCTTCCGGAGATGTACTTGCTTTTGACAATATGATGAATCGTCCAATCAAAGGAACGAATGAGTGGAATCATTATAGCGTTGTGTTAGATGTACCAGTAAAAAGTGAAGTGATCGCATTTGGAATGTTATTAAATGGCTTTGGACAAATGTGGATGGACGAAGTTAGTTTTGAAATTGTAGATGAAAGTGTTCCAGTAACAGAGAAAAATCCTGCTGAAGATCTATCTGATGAACCTGTCAATCTGAATTTTGAAAGTAATAATTCAATATGA	MTGNNKAPDGWLMTGDSPSDYETGLDDRILHSGNYSAYLSSKDEKARGFATLMQQIKSDRYRGERLRFSAFVKSMDVRKWAGLWMRIDHSSGDVLAFDNMMNRPIKGTNEWNHYSVVLDVPVKSEVIAFGMLLNGFGQMWMDEVSFEIVDESVPVTEKNPAEDLSDEPVNLNFESNNSI				NA	NA	NA	NA	NA
AK012_01451	264			hypothetical protein	TTGAAGAATAAAGATATTCTACTGGGGGTTTATATACTGATACTAAGCGTAGTCCCTATCTCCGGGTTTCTATCATCACTTTTTCTACCGGGTTCAAAAGATATCATAGTCATATGGACGTTTTTGATTATAGCCACGATATTATCTATACTTTCTTTTAAGAGACAAAAGTTTTTTGCGACTTTATCAATTATTATTTTATTGGGAACGGCCACCCTTATAATGTTTGCTGCAATGATGGCCGGGATGTCTCCTAACTCTTAA	MKNKDILLGVYILILSVVPISGFLSSLFLPGSKDIIVIWTFLIIATILSILSFKRQKFFATLSIIILLGTATLIMFAAMMAGMSPNS				NA	NA	NA	NA	NA
AK012_01452	189			hypothetical protein	ATGTTCTTATTGGCAACAACCAGTGGTTTAAATGTGGGTGATGTAATTGTTCAATTTGTTTTCTTGCTTATTTTGGTTGCTGTAATCGTAGGGGTGATTACATTTGTTGTGAAGGCTAGAAAGAGAAATAAACAATTAAGTCGAATCGAAGAAAAAATAGACAAGCTTTCCCAAGGGGAAAAAAAGTGA	MFLLATTSGLNVGDVIVQFVFLLILVAVIVGVITFVVKARKRNKQLSRIEEKIDKLSQGEKK				NA	NA	NA	NA	NA
AK012_01453	165			hypothetical protein	ATGAAGCAATTTGAGTATAGAGTAGAAGATATTCAAGTGCAGTTAAAAGCAAATAAAAAATTCAGTGAAGTGATGGAGGAAAAATTAAATTCACTGGGTAAGGATGGTTGGGAACTAGCTGGAGTCAATGGAACAGTCTTTTATTTTAAAAAAGAAGAAAAATGA	MKQFEYRVEDIQVQLKANKKFSEVMEEKLNSLGKDGWELAGVNGTVFYFKKEEK				NA	NA	NA	NA	NA
AK012_01454	90			hypothetical protein	ATGAGTGTGAAAGATTTGGGGAAAGCGGTCAATCAATTAAAGCAGTGGAAAAGAAGTCTCATCATGGCTTCTTTTTTCTTTGTTGTTTAA	MSVKDLGKAVNQLKQWKRSLIMASFFFVV				NA	NA	NA	NA	NA
AK012_01455	180			hypothetical protein	ATGAAAGCTTGTCTTACGTTTACCTTTATCTTTATTTACATGTTTTTATTCAGTTATCTGGGGAGTGTTTTTGAAGTCCCCAAGAATATATATTACATATTAATTGGGTTCCCATTACTCTTGGGAGGAGTTTTGTTCATCCATTATATATTTGAACGGAACGACTATGGGGGTTCATGA	MKACLTFTFIFIYMFLFSYLGSVFEVPKNIYYILIGFPLLLGGVLFIHYIFERNDYGGS				NA	NA	NA	NA	NA
AK012_01456	147			hypothetical protein	ATGGAGACTATATTAATTATTTTACCTGTTTTGGTATTGGCTTTCCTAATAAGGTGGGTCCGCATAATAAAAATCAATAGTGACATTCAAGTGGAACAAAATAAGAGGATTATATCCCTTCTGGAACAAAGGGACTCTATAAAATAA	METILIILPVLVLAFLIRWVRIIKINSDIQVEQNKRIISLLEQRDSIK				NA	NA	NA	NA	NA
AK012_01457	999	dus		putative tRNA-dihydrouridine synthase	ATGAAAGATAATTTTTGGCATGAGCTGCCCCGGCCGTTTTTCATTCTAGCGCCGATGGAAGCCGTGACAGATGTTGTGTTCCGTCATGTGGTGACGGAAGCGGCACGACCTGATGTGTTTTTTACTGAGTTTACAAATACAGAAAGCTACTGCCATCCGAAAGGGAAGGACAGCGTGCGCGGCCGCCTGACGTTCACAGAGGATGAACAGCCGATCGTCGCCCACATTTGGGGAGACAAACCTGAATACTTCCGCGAGATGAGTATCGGCATGGCGGAGATGGGCTACCGTGGGATTGATATCAACATGGGCTGCCCGGTTCAGAACGTAGCCGGAAATGGAAAAGGCTCCGGCCTGATCCGCCGTCCGGAAGTGGCGGCTGAACTCATTGATGCTGCGAAAGCCGGCGGACTGCCTGTCAGCGTGAAGACCCGTCTTGGCTACACGAACCTTGACGAATGGCGTCCATGGCTGAAGCACCTCTTGGAACAGGACATCGTCAACCTGTCCATCCACCTTCGTACGAAGAAGGAAATGAGTAACTACGATGCCCACTGGGAGCTGATCCCTGATATTATGGCGCTTCGCGATGAAGTGGCCCCGAACACGCTGATCACGATCAACGGAGACATCCCTGACCGTCAAAAGGGACTGGAGCTCGTTGAAAAATACAGCGTCGACGGCATCATGATCGGACGCGGTGTGTTCCACAATCCGTTCTGCTTCGAAGTGGAGAAGAAGGAACATACAAGTGATGAACTGCTGGACCTTCTACGTCTGCAGCTGGATCTTCACGACAAGTACTCTGAAGAGCTGGAGCCGCGTCTTTTCAAACCGCTCCGCCGCTTCTTCAAAATCTATGTGCGCGGATTCCGTGGGGCCGGTGAGCTGAGAAATCAGCTGATGGGCACCCATTCTACGGATGAAGTGCGTGCGCTGCTTGATGAGTTCGAGGAAAAAGGCGGCATAAAGGAAGAAGAAGGATTCACGATTTCTTAA	MKDNFWHELPRPFFILAPMEAVTDVVFRHVVTEAARPDVFFTEFTNTESYCHPKGKDSVRGRLTFTEDEQPIVAHIWGDKPEYFREMSIGMAEMGYRGIDINMGCPVQNVAGNGKGSGLIRRPEVAAELIDAAKAGGLPVSVKTRLGYTNLDEWRPWLKHLLEQDIVNLSIHLRTKKEMSNYDAHWELIPDIMALRDEVAPNTLITINGDIPDRQKGLELVEKYSVDGIMIGRGVFHNPFCFEVEKKEHTSDELLDLLRLQLDLHDKYSEELEPRLFKPLRRFFKIYVRGFRGAGELRNQLMGTHSTDEVRALLDEFEEKGGIKEEEGFTIS				NA	NA	NA	NA	NA
AK012_01458	948			hypothetical protein	ATGATGCAGGAACTGAAGGATGGCAGAGCAAGATTTGGTTGGAGCGGGCCTGGATCTGATTTAAGAAGAATTAAGGAAATCCCTTCATCGCAGCGGACATCAAACGAAAAAGTGACGTGGAGATACACCCAGTTTTTGATGAAGCGTTTAACTGTTGGAGATCGGCTGGTGGTTCAGTTGAAGAGGCCATTGAGGCAGTTTCTCATCGCAGAAGTGACAGGGGAATACGGTTCTACGGACCCGGAGATGGATGATTTCAACCATTATATTGAGTGCCGCCTGTTAACCAATGAATTTATTCGAGTGGATTCCCAAATGGTGTCCCAGCAGCTGCGTCATCACCTCAGCAAGCGTGGTCAGTATTATGAAATCTACAACTCCGATGCTCTCGATAATCTTGAACGTATTGAGAAAATTTCAAGGGAGGGCGGGGAGGAATTTGAGAAGTTAAATCAAGAAGGCAATGCCGCCCTTTTTGCATCACAGGCATTGGAAGAGGAGTTAATCAAGAAGACCTATGAAAGAATTTCACAACAATGGCCGAGCGCACATTTTGAAGGCTTTGTGAAGGAAATGATCGAATCGATGGCTGGAGTTGAGGTGAAAAAATCTGGGGATTCAGGAAAGGGATGGGATCTGACCATAAAAGTTCTTGACCCTTTTGATGGATCTGATTTACTTGATGATATTCCGGTTCAATGTAAGAACTATCAGGGAAACGTGAAAACGGAAAAACCGATTGAAGATCTTATCCGCTGCAGTCAGAATTCCGAATCTAATTATGCTTACCTTTTCATCATGGGAGATATATCACAGAGTTTTGAAGATAGTTTTAAAATGAGAATGGAGGAAACGAAACAGGAACTGGGCCGGGACATCGAGTGGCGGATGATTGGTCAGGAAGAGATAGCGAAATTATATTTGAAGAAACTGAATGCACTCACATAA	MMQELKDGRARFGWSGPGSDLRRIKEIPSSQRTSNEKVTWRYTQFLMKRLTVGDRLVVQLKRPLRQFLIAEVTGEYGSTDPEMDDFNHYIECRLLTNEFIRVDSQMVSQQLRHHLSKRGQYYEIYNSDALDNLERIEKISREGGEEFEKLNQEGNAALFASQALEEELIKKTYERISQQWPSAHFEGFVKEMIESMAGVEVKKSGDSGKGWDLTIKVLDPFDGSDLLDDIPVQCKNYQGNVKTEKPIEDLIRCSQNSESNYAYLFIMGDISQSFEDSFKMRMEETKQELGRDIEWRMIGQEEIAKLYLKKLNALT				NA	NA	NA	NA	NA
AK012_01459	681			hypothetical protein	ATGTTCAGATTCTATTTCTTACCGCTCCTGCTCATTTTCATGCTGTTGATTTCAGGGTGTCTTTCAGAATCCAGTGAAACGGAAAACGAAACCGTTCACCCAGATGCAGTCCCTTCTAACAAGGAACAGGAGAATAGTGACACTTCTTCCTCACCTGAAGCCTCAAACCTTCTGAAGTATCAAGAATACCAAGACGCCATTACGGCCGTTCATGAGGCTTATTTTTATGCTTTAAGACCTATGGAGGACTTCTTTATCCTGGATGCTGATTACGTCGATAGTCCTGTAGATAACAAAGAATGGATGGATATGATGGACAAGTCCTTAGAAGACTTTCGGAAGGGAAACGATCTTCTTTATTCCATAAAGACTGTGCCTGTGGAGCTAGAAGATATTCACGCCCACTTCCTGAGCATGGCTGAAAGCCTGGAAATTTACATGGATTTATACCCCAGGGTAATGGATCAGGCCAAAACAGAAGAGTATAGACAGTCAAGAGAATCCATCAATGAGTCCCTGTCTTACATCAAAGCCAAAGATGCACTTAATGATGTGATGTTCAACTACAATGAAGCCGATAACCTGATGAGAGAGTTTGGAGAAGAAAATGGACTTGAAAATTTCTACATTTTTAACGATGAAGAAAAGGGGCATATGAACTCACAGTTTAATGGCGAGTAG	MFRFYFLPLLLIFMLLISGCLSESSETENETVHPDAVPSNKEQENSDTSSSPEASNLLKYQEYQDAITAVHEAYFYALRPMEDFFILDADYVDSPVDNKEWMDMMDKSLEDFRKGNDLLYSIKTVPVELEDIHAHFLSMAESLEIYMDLYPRVMDQAKTEEYRQSRESINESLSYIKAKDALNDVMFNYNEADNLMREFGEENGLENFYIFNDEEKGHMNSQFNGE				NA	NA	NA	NA	NA
AK012_01460	333			hypothetical protein	ATGTCGTCGAGCCAAATGTTGAAAGGAATTCTTGAAGGCTGTCTGCTCGCCATTATCGGAAAAGGGGAGACCTACGGCTATGAAATGATCGAAAAACTGAACGGCTATGGCTTTTCCATGGTCAAGGAGGGAAGCATTTATCCGCTGCTTCTGAGAATGAAAAAAGAAGGGTTGGTCACCACGACGAAGAAAAAACATCCGTCCGGCGGCCCGCAGCGGAAATACTACGCCATTACCGAAGAAGGCCGACACGAGCTGGAAGCCTTCAAAGTCCGATGGAAAAGCATTTCCGGTGGCGTTGAGAATTTACTGGAAGGGGAAGAGCGTCTATGA	MSSSQMLKGILEGCLLAIIGKGETYGYEMIEKLNGYGFSMVKEGSIYPLLLRMKKEGLVTTTKKKHPSGGPQRKYYAITEEGRHELEAFKVRWKSISGGVENLLEGEERL				NA	NA	NA	NA	NA
AK012_01461	759			hypothetical protein	ATGACTTTATCAGAGGAAAGCCGGGAATTCGTTGATCATCTAAGGCTGTATCTGCTTACGAGTGGCAGGAATGAAGCCGAGGTGGAGGAGATTACAGAAGAGCTTGAGGATCATCTCCTTGAAGCTGAACAGGAAGGAAAAAGCACGGAGCATATCACAGGAAAGTCTCCGGAGAAGTATATGAAGGAACTGGCGGGGGAGATGCCTTTGGATAAGAAACAGATCGCCGGGTGGATCCAGGGGTTTATCCTCGGTATCGTCGCCTTCCTACTGCTTGGAGATGCTTTGGAAGGGGAGCTGTCGTATTCGCTTCTCGAACTGATCGGCTATCCTGTCATCGCCCTGCTTTATTTAGGAGCCATTATTTTGTCCTTCCGCTACGTATCCTCTAAGCGTCCGACGAAGAAAAAGGAATTCACCTTCTATGCGGTCATCAGTGGCGGGTTCATGCTGTTGTTCATGGGATTGATTTTCATGGATCAAATGCTTTCGATACCGGCTGTATGGACGGCTGGACCGACAGCGGAGGGGGTCATCCTTGTTTTATCCGCTTTGACCCTTGTGGCGCTCGCATGGAAGTGGAGAAGCTTCTTCTTGGTTTTCGTGGCGCTGGTCTACTATGTGCCGCCTTTACTCATGGAAGCAGCAGGCGTCCAGGCCGATACGAGCCTGATGGTTGAGGCGTTCCTTCCTTTAGGGCTGATCTTGTTGTATATCGTGATTCATACCTTTATGGAAAAAAGAAAGCCGACGACATAA	MTLSEESREFVDHLRLYLLTSGRNEAEVEEITEELEDHLLEAEQEGKSTEHITGKSPEKYMKELAGEMPLDKKQIAGWIQGFILGIVAFLLLGDALEGELSYSLLELIGYPVIALLYLGAIILSFRYVSSKRPTKKKEFTFYAVISGGFMLLFMGLIFMDQMLSIPAVWTAGPTAEGVILVLSALTLVALAWKWRSFFLVFVALVYYVPPLLMEAAGVQADTSLMVEAFLPLGLILLYIVIHTFMEKRKPTT				NA	NA	NA	NA	NA
AK012_01462	1026	adhA		Alcohol dehydrogenase 1	ATGAAAGCTGTTGTAGTCAATCCACATGCGAAAGCCAACGTTGAGGTTATCGAAAAGGATGTCCGTCCACTGAAATCCGGGGAAGCCCTCGTCGATGTGGAATACTGCGGGGTCTGCCATACGGATCTGCACGTTGCTGCCGGTGATTTCGGTGATGTCGAAGGCCGTGTGCTTGGGCATGAAGGCATCGGCGTTGTTTCACAAATCGCTGATGATGTCACAAGCTTGAAGGTCGGGGACCGCGTGAGCATCGCCTGGATGTTCCATGCCTGCGGACGCTGCGAATACTGCACGACCGGACGGGAAACGTTCTGCCGGAATGTCCAGAACGCCGGATACAGTGTCGACGGCGGTATGGCCGAGCAGTGCATCGTGACAGCTGATTATGCCGTAAAAGTACCCGATGGACTCGATCCGGCTCAGGCCAGCAGCATCACCTGCGCCGGCGTGACGACGTATAAAGCGATCAAAGTATCTGACGTGAAAGCCGGTCAGTGGATCGCCATCTACGGCTGCGGCGGCTTGGGCAACCTTGCTATCCAGTATGCCAAGCACGTCTTCAACGCCAAAGTGATCGCAGTCGATATCAATGACGATAAGCTCGCCCTCGCCAAAGAAATCGGCGCCGACATGACGATCAATCCAACAACGGATGGAGATGCAGAGAAAATCATCCAGGAGCAGATCGGCGGGGCGCACGCCGCTGTCGTTACGGCGATTTCTAAACAAGCGTTCAACTCTGCTGTCGATGCCGTCCGCGCCTGCGGTAAGGTCACAGCGGTCGGACTGCCGTCTGAAACGATGGATTTGAACATTCCACGACTCGTCCTTGATGGCATTGAAGTGATCGGCTCTCTTGTCGGTACGCGTAAGGATTTAGAAGAAGCCTTCCAATTCGGAGCCGAAGGAAAAGTCGTTCCGGTCGTGCAGACACGCCACCTCCACGAAGTTCAGGACGTCTTCGAGGAAATGGAGCAGGGTAAAATCCAGGGCCGTATGGTGATCGATTTCCATCAGCACGCATGA	MKAVVVNPHAKANVEVIEKDVRPLKSGEALVDVEYCGVCHTDLHVAAGDFGDVEGRVLGHEGIGVVSQIADDVTSLKVGDRVSIAWMFHACGRCEYCTTGRETFCRNVQNAGYSVDGGMAEQCIVTADYAVKVPDGLDPAQASSITCAGVTTYKAIKVSDVKAGQWIAIYGCGGLGNLAIQYAKHVFNAKVIAVDINDDKLALAKEIGADMTINPTTDGDAEKIIQEQIGGAHAAVVTAISKQAFNSAVDAVRACGKVTAVGLPSETMDLNIPRLVLDGIEVIGSLVGTRKDLEEAFQFGAEGKVVPVVQTRHLHEVQDVFEEMEQGKIQGRMVIDFHQHA	PGPT0006365_1687	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006365-adhP-K13953	NA	NA
AK012_01463	288			hypothetical protein	ATGAAGCTGCTTAGGATCGGTGGAGGCGGGCTCAAAATGGCCATTCTTTATATCGTTCTTACCCTCCTGTCTCCTTTCATCCTCCATCTGACCGGTAGGCGAAATGTCCTGTCCGAGCCTGAATGGATGGGCGGAAATCTTTGGTTCATTGAAGTAAATGAACATGAAATGTATGCAACAGCAACAGCGACGGGAATAATTGTTTCTTTTCTTCTTGGAGTTCTTTTGTATACCCTGCTTCCCTTTGTCTCTTTCCGCGGAAAAAAGAAAGATCGCCCAGCGATGTAA	MKLLRIGGGGLKMAILYIVLTLLSPFILHLTGRRNVLSEPEWMGGNLWFIEVNEHEMYATATATGIIVSFLLGVLLYTLLPFVSFRGKKKDRPAM				NA	NA	NA	NA	NA
AK012_01464	171			hypothetical protein	ATGAAAGAAAAATACTTGATACCCACCCTGATCTTTTTCGTCCTTGGTTCCGCTGCAATTAGTCGTATCCATTCGCTCAGCCAAACGGTTAAATCGTTCTTTTACGGTACCGCTTTAGTCGTTCTCCTTGTGATAGGGATGATACGCACCTATCACTATTTCAAATCCTGA	MKEKYLIPTLIFFVLGSAAISRIHSLSQTVKSFFYGTALVVLLVIGMIRTYHYFKS				NA	NA	NA	NA	NA
AK012_01465	1368	puuP	COG0531	Putrescine importer PuuP	ATGAGCACTCAAACCGAACTGAAAAGGACACTGACGTTATGGCAGGTCATCTTTCTCGGCCTTGCCTGGAACACCCCGATGATTTATTTCTCCGTTTTCGGCGTTGCCTATGAAGGGTCCGGCGGCTTCCTGACAGCCGCGTATATCGTAGCTGTCACGGCCGTCTTGTTTACAGGTGCCAGCTACGCGGTGATGGCGAAGAAATATCCCATCTCCGGATCCGCCTACACGTTTGCGAGAAAAGCGATCCACCCGAACGCCGGGTTCATCGTCGGCTGGGTTCTGCTGCTCAACTACTTGTTCGCACCGATCATTGCCTGCATCACATTCGGCATCTTCCTGCATGCTGAATTCCCGGCCGTACCCGCCTATGTATGGATGATTGGACTGATCGTCCTGCTTGCCGGCATCGCCATCCGCGGTGTGAATTCCTCAGCCAATATCAGTCGGATGTTCGTCATCCTCCAGATGATCTTTATGGTGATTTTTTGCTCCTACCTGGCTTATGGACTGTTCAGTGACGGTGGCGCTGCCCACCTTGTCTCCACAGCTCCTTTTCTCGATGTCGATATGTCCCTGCCCGTCGTACTTGCCGGCGCTTCCATCGTCGTCTTTTCCTTCTTAGGATTTGATACCATGACGACCCTTTCAGAAGAAACCATCCAGCCGAAAAAGACGATTCCAAAAGCCATCTTTATCATGATCGCCATTGTCGCCGTCCTTCACGTCGGAACGTCTTATTTCATCCAGACGGCCCTGCCGGAATTGATCTTTTCCGATCCTGATTCTGCCGCCCTCGAACTGATGAGCATGGTCGGCGGCAGTCTGCTGCGCTCCATCTTCATTACAGTGCTGATTGCGGCGATCTTCACTCAGGGCCTTGCCTCCGTGACGAGTGTTTCCCGGCTGCTATATGTGATGGGCCGCGACTCCATCCTTCCGAAAAAATGGTTCGGATCGCTTCACCCGACCTTCAAAACACCGGTCCTGAATATCATCGTCGCTTCCGTCATTTCCCTGCTCGCGATTTTCATCAGCATTGATGATGCCTTACGATTCGTAAACTTCGGAGCGCTCAGCGCCTTCTTCTTCGTCAATGTGTGTGTGATCCGGTTATTCTTCAAAGAAAAGAAAGCCCGCTCCTTTACAGGAACGATGAGAAACCTCATTTTCCCGCTGATCGGCGCCGGATTCATTGCCTGGCTGCTCGCTCTTCTGGACACCCCGACCATTGCCGGAGGGCTGATGTGGGTCGGTATGGGCGCGGTGTACCTCATCTACTTAACGAACTTCTTCCGCAGGCCGCTTCCGGAAGCAGAAACAGGTGAAAGCGTCGAAGCTCCGCCAGCGACGAAAAAAGCAATCTAA	MSTQTELKRTLTLWQVIFLGLAWNTPMIYFSVFGVAYEGSGGFLTAAYIVAVTAVLFTGASYAVMAKKYPISGSAYTFARKAIHPNAGFIVGWVLLLNYLFAPIIACITFGIFLHAEFPAVPAYVWMIGLIVLLAGIAIRGVNSSANISRMFVILQMIFMVIFCSYLAYGLFSDGGAAHLVSTAPFLDVDMSLPVVLAGASIVVFSFLGFDTMTTLSEETIQPKKTIPKAIFIMIAIVAVLHVGTSYFIQTALPELIFSDPDSAALELMSMVGGSLLRSIFITVLIAAIFTQGLASVTSVSRLLYVMGRDSILPKKWFGSLHPTFKTPVLNIIVASVISLLAIFISIDDALRFVNFGALSAFFFVNVCVIRLFFKEKKARSFTGTMRNLIFPLIGAGFIAWLLALLDTPTIAGGLMWVGMGAVYLIYLTNFFRRPLPEAETGESVEAPPATKKAI	PGPT0007795_255	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
AK012_01467	720			hypothetical protein	ATGGAGAAGCTGTGGAGTTTGACGCTGGAAGCAGGAGCCAAATGGTCAGGACGCATTTCGAAGGGAAAAACGATCCGCTTCCGGGCGATGGAAGACGGGGCGAACGTCTCCGGTCTCCTCTATAACGCGGCGGATGGATCGGAAAGCTACAATATGCCGGATACGCTTAAGGCCCAGCACACGTCACGCCTGACGAGAGGAAACGTACTTATGAGTGATAATGGCCGGGCGATGGCGGGCATCGTGGAAGACGATCTTGGCTGGCACGATCCGATCGGCGGCTATACATCACGCCGAAAGACCGATGACAAATACGGAAAAACCTCCTTTCAGGAAAACTTGAACGACTGGCACCGGAGCGGGGAGGAGAACTTTTCGATAGAACTGATGAGAAACGGCTTGGAATTCCGTGACATCGTCCCGGTGTTCAACCTCTTTTCCAAGATCCAGGTCGATGAGGCGGGCGGTATGCAGTACATCGAAAACCACAGTCAAAAAGGGGATACAATTACGCTGAGAACCGAAATGGATGTCATCCTGATCGTATCGAATACGCCGCATCCGCTCGATCCGCGTTCTTCTTATCCATCCGTTCCCGTAGAAATCGACGTCATGAAGGCTGCCCCGGTCAAAGAAGATGATTACTGCGTCAACTACCGCCCTGAAAATAAACGGGCCTATGAAAATACATGGAACTACGAAGCTCTTGTCACGCTGTAA	MEKLWSLTLEAGAKWSGRISKGKTIRFRAMEDGANVSGLLYNAADGSESYNMPDTLKAQHTSRLTRGNVLMSDNGRAMAGIVEDDLGWHDPIGGYTSRRKTDDKYGKTSFQENLNDWHRSGEENFSIELMRNGLEFRDIVPVFNLFSKIQVDEAGGMQYIENHSQKGDTITLRTEMDVILIVSNTPHPLDPRSSYPSVPVEIDVMKAAPVKEDDYCVNYRPENKRAYENTWNYEALVTL	PGPT0001000_809	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
AK012_01468	651			hypothetical protein	ATGACGACAATGACCGACCAGAAAGAGACACGTAAAGCTGAAGATGCCCTGTATGATTACAGTCTGCCTGCCGGAGAAGGCTGGATGTATGAACTGAAGCCCGGCCAGGTGTTCCGCATGGTCGACACCGAAGGAAACCAGGCCGCGGATACATTGTTTTATGACGCGGAGCATCCGGAAGACCATTACAGCGCCATCCAGACGATTGCGGCTCAGGAGAATGTCTACCTGACAACCGGATCGAAGCTGCTCTCTGAATCCGGAAAAGAGTTGTTGGAGATCACCGGAGACACTGTTGGACGTCACGATACATTAGGCGGCGCCTGCTCAGCACAAAGTAACACAGTTCGTTATGCGCATGACCGTCTGCCGATGCACAACTGCCGCGACACGTTCATGCACCAGCTGGCCAAGCACGGCGAAAGCTTTACAAAGCGTGACATCGCCCCGAATATCAACTTTTTCATGAATGTTCCGGTGACGCCGGAGGGCGGATTGTCTTTTGAAGACGGGATTTCAGGCCCCGGACACTATGTCGAGATGGTTGCCAGACGCCGGGTCAAAATTCTGATCAGCAACTGTCCGCAGCTGAACAACCCATGCAGCGGTTTCAACCCGACAGCCATCCGCCTGCTCGTCTGGGACCAATAA	MTTMTDQKETRKAEDALYDYSLPAGEGWMYELKPGQVFRMVDTEGNQAADTLFYDAEHPEDHYSAIQTIAAQENVYLTTGSKLLSESGKELLEITGDTVGRHDTLGGACSAQSNTVRYAHDRLPMHNCRDTFMHQLAKHGESFTKRDIAPNINFFMNVPVTPEGGLSFEDGISGPGHYVEMVARRRVKILISNCPQLNNPCSGFNPTAIRLLVWDQ	PGPT0001000_1126	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001000-ycgI-K09967	NA	NA
AK012_01469	3633	carB_2		Carbamoyl-phosphate synthase large chain	ATGTTTAACAAAGTAATGATTGCCAACCGTGGACCGATTGCTGTCCGCATTGAACGCACATTGAAAAAGCTGGGGATTGCCTCTGTCGCGGTCTACACGAAAGCGGACCAGGACAGCCTGCATGTCACTCATGCGGATGAAGCGGTGGAAATCGGGGAAGGTCCAGCCGGAGACAGCTACTTGAACGCCGAGCTGATTTTGCAGACAGCCGTCGATACAGGAGCGGAAGCCATCCACCCGGGCTACGGATTTTTGAGTGAAAATGCTGCATTTGCGAAAGCCTGTGAAGAAAAGGGCATCACGTTCATCGGGCCGACCGCCGATCAGATGGAAATCTTCGGGCTCAAGCACTCGGCACGTGCGATGGCGGAAAAGGCTGACGTGCCGCTTCTTCCTGGAACGGATTTAATCGAGGACGTGACAGAAGCGAAAGCAGCAGCGGAGGAGATCGGATATCCGGTCATTTTGAAAAGTACCGCCGGTGGCGGCGGTATCGGTATGCGGGTTTGTCAGGACGAAGCGGCGCTTGAGGAGGCGTTTGCCGGAGTCCGTCACTTAGCGGAGACGAACTTCAAGGACGGGGGATTGTTTTTGGAAAAATTCATCCCCAAAGCCCGCCACGTCGAAGTGCAGATGTTCGGCCGCTCCAATGGCGAAATCATTACACTCGGAGAACGCGACTGCTCGATCCAGCGTCGTAACCAGAAGGTCGTCGAAGAGAGTCCTGCTCCTGGATTGACGGAAAAGACGCGCACAGCGATGTCCGGGGCGGCGAAGCGTCTGGCGGCGGCTTCCGGATACCGGAGTGCGGGGACTGTCGAATTTTTATACGATCCGGAAACGGAATCCTTTTATTTCCTTGAAGTGAATACGCGGCTGCAGGTGGAGCACGGTGTTACCGAGGAAGTACTCGGTGTTGACCTTGTTGAGTGGATGGTGAAGGAAGCGTCCGGCGATCTCACGGACGACGAGACTTCTCTGTCCAGTCCACAGGGCCACAGCATCCAGGCACGGATATACGCGGAAGACTGCCATCACGACTTCCGTCCGAGTGCAGGATCGCTCGATCAGGTCACTTTTTCTGAACAGGCCCGTAATGAAACATGGGTGAAGGATGGGGTGACGGTCACGACGCTGTATGATCCAATGCTTGCGAAAGTCATCGTCCACGGGGATGACCGTGAAGCTGCCATTGCCCGTTTGAAGGAGGCTCTTGGTGAGACGAAGATGTACGGAGTGACCTCCAACATTTCCTACGTAACCGCCCTGCTTGAGGAGGAGGCTTTTGTCAAAGGGGATGTGTTCACACAGCTGCTTGCGGACTTCCATCCGGAAGAGCCGGCGCTTGAGGTGATCGACGGAGGCGTGCAGTCGACTGTGCAGGATTATCCGGGCCGCACCGGCCACTGGGATGTCGGCGTTCCGCCGTGCGGACCGATGGATGCCTACTCGTTCCGTATCGGCAATCAGCTGCTCGGTAACGCCGAGGACGCTCCGGGACTTGAGCTGACGTTAAAGGGAGGCGCCTACCAGTTCCGCAGTGCTATGTGGTTCTGTTTGACCGGAGCGGATATGGATGCCGATCTGGATGGGGAGAATGTGCCGCTGTATCAGCCGGTGAAAGCAGAGCGGGGAGAGACGCTGACGTTCTATGAATCGAAAAAAGGGATGCGCGCCTATCTTCTCGTAGAAGGCGGCTTGGATATGCCGAAAATCCTCGGCAGCTCCTCCACATTCACGCTCGGCGGTTTCGGTGGTCACGGCGGCCGCGAACTGCGCCCGGGTGACGTGCTCGGCGTGAAGAAAGGAACAGACCCCGTCGGAACATCAGCCCTGAAAGAAGAAGCTCGTCCCAAGCTTGTGAATACATGGACGATCGGTGTCATTCCAGGTCCGCATTGTACGGAGGAGTACCTGCAGAAAGACTATTTGGATCAGCTGACGGAAACCGAGTGGGAAGTCCACTTCAACAGTTCGCGGACCGGCATCCGTCTGAAAGGACCGGCCCCCTTATGGACGCGGGAGGACGGCGGTGAAGCCGGGCTGCATCCATCCAACATCCACGACAACGCTTATGTTGTCGGTGCTCTCGACCTGACGGGGGATATGCCGATTTTGATTGGTGCCGACGGTCCGAGTCTCGGGGGATTCGTCTGCCCGGTCACCACAGCCACCTCGGAATTCTGGAAGGTGGGCCAGCTGTTTCCTGGAGATAAAATCCAATTTCAGCTGATCAGTGTGGAAGAAGCGGAAGAGTTGAGAAATGCTCAGGAAGAGAAGATCCAGCGCATCGGAGAAGGCGGGTTCACCCAGGCAGATGCTCTTCCGGAAGTGAATCCTGAGATATCGTCCGATTATCCGGTCCTCCAATATGAAGAAACGGGGCATAACTTCCCGATCACCATTCGTTTGAGCGGCGTAGAGCATCTGCTTGTCGAGTACGGGGAGATGGAGCTGGATTTGAAGCTCCGTTTTCAAGTGCAGGTGTTAATGGAAGAAATCGAAAAGCAGAACACGCTTCCGGTCATTGAAATGACGCCTGGTGTCCGCTCTGTCCAGATCCACATCGACCCATCCCGAATTTCTGTGAAGGAAGCGGCCGCATACGTGCTTGCGCTTGATGCGGATCTGCCTCCATTGGAATCAATCGAGGTCCCTTCCAGGATTGTGCGCCTGCCGTTATCCTGGAACGACCCATCGACACAGCTGGCGACCGAACGTTACCAGCAGAATGTCCGGCCGGATGCCCCGTGGTGTCCGGATAACCTGGAGTTCATCCGCCGTATTAACGGTCTCGACAGCATTGAGGATGTGAAGCGCATCGTTTTTGATGCCAACTATCTTGTGCTTGGCCTTGGGGATGTGTATCTCGGAGCGCCGCTTGCTACACCGACCGATCCGCGCCACCGTCTTGTTACGACGAAATACAATCCTGCCCGGACGTGGACACCGGAAAATGCTGTCGGTATCGGTGGTTCGTACATGTGTATTTACGGCATGGAAGGGCCCGGGGGCTATCAGTTTGTCGGCCGGACAATTCAAGTGTGGAATTCGATGCAGTCGACAGAAAGCTTTGAGCCCGGTAAACCGTGGCTTCTGCGCTTCTTTGACCAGATCCAGTACTATCCGGTAACGGCGGATGAGCTGATGGACATGAGAGAGGACTTCCTCCGCGGCCGGTTTGAAGCGGATATCACCGAAACGACATTCAACCTCGGTGAATACCTGGAATTTCAGGAATCCATCAAAGACAGCGCTGCCGTGTTCAAAGAACGCCAGCAGGCCGCCTTCCAGGAAGAGCGCGAACGTTGGAAGGAACAGGGCATTGCCGAACACGTCGAGGAAGAGGACGATGGCCGCTCCATTATGGAGGAGGAAGTACCGGAAGGGGAGACAGCTGCGCGGTCACAGATGCCGGGAAGCGTCTGGAAGGTGCTCGTTTCTCCTGGGGATTATGTGCAGAAAGGCGATACCCTCTTAATCGAGGAAAGTATGAAAATGGAGTTTCCGCAGACAGCGCCGTGTGACGGCTGTGTCGCTTCCTTACATGTGGCTCCCGGGGATCAGGTACAGGCCGGCCAGTTGATTGCAAGTATAAAAGAAGAAAAAGAAAGCGTGGTGTCTGTCCATTGA	MFNKVMIANRGPIAVRIERTLKKLGIASVAVYTKADQDSLHVTHADEAVEIGEGPAGDSYLNAELILQTAVDTGAEAIHPGYGFLSENAAFAKACEEKGITFIGPTADQMEIFGLKHSARAMAEKADVPLLPGTDLIEDVTEAKAAAEEIGYPVILKSTAGGGGIGMRVCQDEAALEEAFAGVRHLAETNFKDGGLFLEKFIPKARHVEVQMFGRSNGEIITLGERDCSIQRRNQKVVEESPAPGLTEKTRTAMSGAAKRLAAASGYRSAGTVEFLYDPETESFYFLEVNTRLQVEHGVTEEVLGVDLVEWMVKEASGDLTDDETSLSSPQGHSIQARIYAEDCHHDFRPSAGSLDQVTFSEQARNETWVKDGVTVTTLYDPMLAKVIVHGDDREAAIARLKEALGETKMYGVTSNISYVTALLEEEAFVKGDVFTQLLADFHPEEPALEVIDGGVQSTVQDYPGRTGHWDVGVPPCGPMDAYSFRIGNQLLGNAEDAPGLELTLKGGAYQFRSAMWFCLTGADMDADLDGENVPLYQPVKAERGETLTFYESKKGMRAYLLVEGGLDMPKILGSSSTFTLGGFGGHGGRELRPGDVLGVKKGTDPVGTSALKEEARPKLVNTWTIGVIPGPHCTEEYLQKDYLDQLTETEWEVHFNSSRTGIRLKGPAPLWTREDGGEAGLHPSNIHDNAYVVGALDLTGDMPILIGADGPSLGGFVCPVTTATSEFWKVGQLFPGDKIQFQLISVEEAEELRNAQEEKIQRIGEGGFTQADALPEVNPEISSDYPVLQYEETGHNFPITIRLSGVEHLLVEYGEMELDLKLRFQVQVLMEEIEKQNTLPVIEMTPGVRSVQIHIDPSRISVKEAAAYVLALDADLPPLESIEVPSRIVRLPLSWNDPSTQLATERYQQNVRPDAPWCPDNLEFIRRINGLDSIEDVKRIVFDANYLVLGLGDVYLGAPLATPTDPRHRLVTTKYNPARTWTPENAVGIGGSYMCIYGMEGPGGYQFVGRTIQVWNSMQSTESFEPGKPWLLRFFDQIQYYPVTADELMDMREDFLRGRFEADITETTFNLGEYLEFQESIKDSAAVFKERQQAAFQEERERWKEQGIAEHVEEEDDGRSIMEEEVPEGETAARSQMPGSVWKVLVSPGDYVQKGDTLLIEESMKMEFPQTAPCDGCVASLHVAPGDQVQAGQLIASIKEEKESVVSVH	PGPT0001005_174	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0001005-uca|dur|urd-K01941	NA	NA
AK012_01470	1728	atzF		Allophanate hydrolase	ATGACATTTCCAAAGGAACTGACGATCCAGTGGCTCAAGGAAAACTATGAAAATGGCCGCCTCACTCCACGTGAGGTCATGAAGGAAATCATCCAGCGTTCCGGGCGTGATGAAGAGATGAACATCTGGATTACACCGCCGGACTTGGAGCATATCGAAGGGTATCTGACAAACCTGGATACCCTTGACCCGGTGGAGGCACCGCTCTGGGGCATTCCTTTTGCCGTTAAAGATAATATTGATGTAGCTGGAATCCCGACGACCGCAGGCAGCGTCGACTATACGTACACACCTGAGGAGCATTCAGGGGTGGTGGCTGAACTTGTGAAGGCCGGGGCGGTTCCTGTCGGGAAAACGAACCTCGACCAGTTTGCCACAGGGCTCGTCGGTACGAGAAGTCCGTTCGGCGAGGCACATAACGCTCTTCGTCCGGAACTGATCAGCGGCGGTTCCAGTTCCGGTTCAGCTGTAGCCGTTGCCCGCGGCCAGGCGGTATTCTCACTTGGAACAGATACGGCAGGGTCCGGGCGCGTCCCAGCGGCCTTGAACAACCTGGTCGGCTATAAACCGAGTCTTGGGGCCTGGTCGAAGCGCGGGGTCGTACCGGCCTGTGAAAGCATCGATACGATCTCCGTTTTCGCGCATTCCCTTGATGATGCTATGACGGTTGATAGACAAGTGCGCGTCCGTGATGAGCGCGACCCATGGTCGAAGGACTTTTCAAAAGCAGCGGAAGGATCGCTGCAAACCTTCTGCCTGCCTAAGGAGACACCGGCCTTTTATGGCAGCTATGCCGCGGATTATCAAAAAGCGTGGGAAAAAGCGGTCGAGAAAATTGAACGCCTGGGCGTCCCGGTCGCCTATGTCGACACGGAACTCTTTGAAAAGGCCGCGGAGATTTTGTACGGGGGGCCGTGGATTGCCGAGCGTTGGTCAGCAGTCGGAAGTTTCGTGGAAGACAACCCGGGGGCCGTCCATCCTGTAACCGAACAGGTCCTCCGCTCCGGCGCCCCGGATCAGTATGACGCCGCCGCTTTATTCGATGCGATGCATCAACTGCAGGCGCTGAAGCTGGAAGCAGAAAAACTGATCAAGGACGCTGTGCTTGTCATGCCGACGTGCGGGGGCACATGGACGAGGGAACAGGTGAGGGAAAATCCGGTTGCAGCCAACAGTGACATGGGACGCTATACGAACCACTGTAACCTGTTGGATATGGCCGGCGTCTCCGTTCCTGCCGGCTGGGCCGGTGAAGACCTGCCGTTCGGCCTCACACTGTTCAGCCTTGCCGAGCAGGAACACCTCATGGTTGAAGCTGCGGAACTTTTTACATCCTCCTATGGAGAAACCATTCCGTTCGCCGTCTGCGGACTGCACATGCGCGGCTACCCATTAGAGACGCAGATGATTGAAGCGGGAGCGGTTTTTGTAAAAGAAGAGAAAACCGCCGCGCGCTACCAGCTTGTGAAGCTTCCGGGTGAACCGGAAAAGCCGGGCATGATCAAGCAGCTTCACAGCGGCACTTCGGTGGAGGTGGAAATATGGGACATGCCTCTCCGTTCGCTCGGTGATTTCACCACTTCCATTCCAGCGCCGCTGGGTATCGGAAAGGTTGAACTGGAAGATGGATCGGAAGTGTCCGGATTCATTTGTGAAGGCTATGCGGGAGAAATCGCAGAGGATATTTCAGAGCTTGGCGGATGGAGGAGACTTCATACTGTAAAGTGA	MTFPKELTIQWLKENYENGRLTPREVMKEIIQRSGRDEEMNIWITPPDLEHIEGYLTNLDTLDPVEAPLWGIPFAVKDNIDVAGIPTTAGSVDYTYTPEEHSGVVAELVKAGAVPVGKTNLDQFATGLVGTRSPFGEAHNALRPELISGGSSSGSAVAVARGQAVFSLGTDTAGSGRVPAALNNLVGYKPSLGAWSKRGVVPACESIDTISVFAHSLDDAMTVDRQVRVRDERDPWSKDFSKAAEGSLQTFCLPKETPAFYGSYAADYQKAWEKAVEKIERLGVPVAYVDTELFEKAAEILYGGPWIAERWSAVGSFVEDNPGAVHPVTEQVLRSGAPDQYDAAALFDAMHQLQALKLEAEKLIKDAVLVMPTCGGTWTREQVRENPVAANSDMGRYTNHCNLLDMAGVSVPAGWAGEDLPFGLTLFSLAEQEHLMVEAAELFTSSYGETIPFAVCGLHMRGYPLETQMIEAGAVFVKEEKTAARYQLVKLPGEPEKPGMIKQLHSGTSVEVEIWDMPLRSLGDFTTSIPAPLGIGKVELEDGSEVSGFICEGYAGEIAEDISELGGWRRLHTVK	PGPT0001010_696	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_ATRAZINE|DERIVATE_DEGRADATION	XENOBIOTIC_CYANURIC_ACID_DEGRADATION,PGPT0001010-atzF-K01457	NA	NA
AK012_01471	204			hypothetical protein	ATGATGTCATCGATGGAGAGAAAAGCCCGAATATTACAAGTTTTATCTATTACTATATTAATCATTGCCCTATTCTTATATATTAACGGAGCAGGAGAAACGGTTTATTTTGCATCAGCCGTGATAGCGGCACTGGGAGTACTTTTAAAGTGGGCCATGATCGACCACAAGATTAAAAAGCAGGAACGGAGCAAAAGTGAGTGA	MMSSMERKARILQVLSITILIIALFLYINGAGETVYFASAVIAALGVLLKWAMIDHKIKKQERSKSE				NA	NA	NA	NA	NA
AK012_01472	885	rhaR_1		HTH-type transcriptional activator RhaR	ATGTTAAGAGATGAGCATGTGCGCACTCTGTGGGTTTCACGAATCGATTATCAAAAGAACAGCGGGGTCGGCCTTCACGCTCATGAAGATTTCTATCAAATTATTTTAATCATGGATGGAGAAGGTACAATTGATATCGGGGAAGATTCTCATGCGATTGAACCGAATGAATTTTATTTTATACCTAAAGGAACTAAACATCGATTTATCTTTTCCAGTAATACCACTACTTTGGACTTTAAATTTGAGATTATCCATGCCGACTTGGAAAAATTAATTCATGATCTTTCTATTAATGAAGCTGTTAATATGGAACATTTGATTATCAAGCTGAAAGATGTATTTCAGTTAACCGCCCAAAACCTCCATCATCCCCATTCGATTTTCCTTTACCGTATTGATGTCGAGTTGAAGGGAATGCTGCTTCTCCTCTTGGAAAAGTATTCAGCACATAAGCCGTTCGGATCACCCGCGGGGCAGGCTATTCCTGATGAACTGCATCCTGATTTTCCGATCATTAAATACCTGCGTGAGCATATGCATGAAAAAATCACCCTTGAAAGTATTGCCCGGGAGTTTAATTTTCACCCTCACTACTTAATAGAACTGTTCCGGAAGCGGATTGGAATCACGCCGATGCAGTTACTTCAGAGAATCCGCATTGAAAAAGCAAAAGAATACTTGGAATTCACCAATGATACGGTCACAGAGGTGTCTGAAAAAGTCGGGTTAAGCGCTCCGTATTTCTCCAGACTTTTCCGTGAGAGGGAAGGGGTGTCCCCGTCTGAATACAGGGAAAAGGCCGTTAATGTGATAGGTAGAGATATGATTTTGGAAGATGATTTTGAAATCGAATACCAGCCTTCTGTTGAACAAACAGAATAA	MLRDEHVRTLWVSRIDYQKNSGVGLHAHEDFYQIILIMDGEGTIDIGEDSHAIEPNEFYFIPKGTKHRFIFSSNTTTLDFKFEIIHADLEKLIHDLSINEAVNMEHLIIKLKDVFQLTAQNLHHPHSIFLYRIDVELKGMLLLLLEKYSAHKPFGSPAGQAIPDELHPDFPIIKYLREHMHEKITLESIAREFNFHPHYLIELFRKRIGITPMQLLQRIRIEKAKEYLEFTNDTVTEVSEKVGLSAPYFSRLFREREGVSPSEYREKAVNVIGRDMILEDDFEIEYQPSVEQTE				NA	NA	NA	NA	NA
AK012_01473	444			hypothetical protein	GTGAATACAGAGGAGACCTGCTTTTACTGCAAAAAAGATGACCAGTTGAGAAAATTAATGGTGGAAATAGCACCTATGGATTACTCCACCCTTTATCTCAATAGAGACCAAACCCATAAGGGGAGAGCCATTGTCGCTTTTCATACTCATAAAGACGAGCTGTTTGAGTTGGATGATTTAGAACGGGAAGGATTCATGCGTGACGTAGCCCGGGCAGCAGAAGCATTGAAGATAACTTTTGATGCCGACAAAATCAATTATGCGATATACGGTGACATCGTCTCTCACCTTCACTTTCACCTCGTCCCTAAATTTCAAGGGTCCATTGAATGGGGAGAGGCTTTTACCAACAGCCCGGAGTCTAAAGTCCATGAAGAGGAAAGCAACCTTTCTCCAACTATTCGGAACATAAGAGCTGCTTTATCCGTCACTGCAGCTCCATAA	MNTEETCFYCKKDDQLRKLMVEIAPMDYSTLYLNRDQTHKGRAIVAFHTHKDELFELDDLEREGFMRDVARAAEALKITFDADKINYAIYGDIVSHLHFHLVPKFQGSIEWGEAFTNSPESKVHEEESNLSPTIRNIRAALSVTAAP	PGPT0021690_1304	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021690-hit-K19710	NA	NA
AK012_01474	1077	gutB	COG1063	Sorbitol dehydrogenase	ATGGTTAGGAAAATGACAGTTCCTTCAATGGAATTAGTAGAACATGAAGGTCCAGACACACAATTATGCGCCGTGATGGAAGAAGCTGGGGAAATGAATGTAAGACGTGCAAAAATCCCCGAACCAGCCCCCGGTGAAGTAAGGATTAAAGTGAAATGGGTAGGCATATGCGGTAGTGACGTAGAAGTCTACCGAGGAGAACGTGACCCAGAATTCATCTCCTACCCGACCAGGCTGGGACATGAAGTGGCCGGCGTCATTGACAAGGTTGGAGAAAATGTCATGGGGCTGCAGGAGGGAGACCACGTAGCCCTTCGTTATGTATGGGGAGCATTTGCTGAGTATGTGTGCTGCAATCCGTTCTCTGTCAAGGTCATCCCGAAAGATTTCCCTTTAATTGAAGGATCATTGATTGAAGTGCTGCCTGCCTTGGTATCTGCAGCTGAACTTGGAGATTTATCGCCGAACAAAAATGTATTGATTATGGGACAAGGTGTAAGTGGACTCGCGTTAACACAAGTGCTCAGCCTTTACAGCCCTAAAAATCTAGTCGTCACAGACCTTTTTGATGAAAAATTGGAACTGGCTGAAAAGTATGGAGCAACTCACACCTATAAGCTCCCTTCGAAAGATACAGATACGATGGAAGTATTACGTGAAGACTTTCCTGACGGATTCGATGTCGTCTATCCATGTCTCCTTGAAGGAGATGGTATGGTGGATGCCATTGATGCAGCCGCACAGAACGGTACCATCGTCATGTATGGTTGTATAGGTACATGTCATAAACCAGTAGACTTCTTTAAAATCCATAAGAAAAGACTGGACATTTTATCTACAGAACCAAAACGGGACATTGATAACCGACGTTTCTTTGATGAAGGACTTAAGCTGGTGTTGGATGGGTTGGTAAATACGAAGGAGACGATTACCCACGTCTTTCCATTAAGTAAAGTAGATGAAGCGTTCAAAATACGAAATGAGCACAGCGGGGACACGATACATGTCATGATTGATTGTGAAGTAGATAAAGATGAAGACACAACTGTTGAAAAAGAAGAAGCGGACGTCCTGTGA	MVRKMTVPSMELVEHEGPDTQLCAVMEEAGEMNVRRAKIPEPAPGEVRIKVKWVGICGSDVEVYRGERDPEFISYPTRLGHEVAGVIDKVGENVMGLQEGDHVALRYVWGAFAEYVCCNPFSVKVIPKDFPLIEGSLIEVLPALVSAAELGDLSPNKNVLIMGQGVSGLALTQVLSLYSPKNLVVTDLFDEKLELAEKYGATHTYKLPSKDTDTMEVLREDFPDGFDVVYPCLLEGDGMVDAIDAAAQNGTIVMYGCIGTCHKPVDFFKIHKKRLDILSTEPKRDIDNRRFFDEGLKLVLDGLVNTKETITHVFPLSKVDEAFKIRNEHSGDTIHVMIDCEVDKDEDTTVEKEEADVL	PGPT0017541_1888	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0017541-gutB-K00008	NA	NA
AK012_01475	543			D-lyxose ketol-isomerase	ATGATTACCAAGCGTGAGTACAATGAAGTAAAAGAGCAGTCCTTACAATTATTTTCAGAAGCAGGTATTAAGCTTCGTCAAGACGAGATCAACAATCTGGAAGTGGCTGACTTTGGAATCGGCCGGATCAGGGAAATCGGACTTCAATTAATTGTCTATGTGAATACTGAACGTCACTGTGCAAAAGAAATGGCTTTGCTGCCAAAGCAGACTTGTCCGGAACACTGGCATCCTCCAGTAGGTGATGCGCCTGGGAAAGAGGAGACATTCAGATGTCGATTCGGAACCGTTTATTTATACCTTCCAGGTCAAGTCTCAGAAGAACCAAGTGCCAGAGCGCCGGAAGGAAGAGAAGACTATTACACCGTCTGGAATGAAATCCAATTGAACCCTGGTGATCAGTATACGATTCCTCCTCATACACCCCATTGGTTCCAGGCAGGAGGAAACGGAGCAGTCATTTCTGAATTTTCCACCCAGAGCACAGATGAGCATGACCAATTTACAGCGCCTGATATTAAACGAGCACCTGAGGTCAGCTAA	MITKREYNEVKEQSLQLFSEAGIKLRQDEINNLEVADFGIGRIREIGLQLIVYVNTERHCAKEMALLPKQTCPEHWHPPVGDAPGKEETFRCRFGTVYLYLPGQVSEEPSARAPEGREDYYTVWNEIQLNPGDQYTIPPHTPHWFQAGGNGAVISEFSTQSTDEHDQFTAPDIKRAPEVS	PGPT0014710_355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-PENTOSES_UTILIZATION	PLANT_DERIVED_XYLOSE|XYLULOSE_DEGRADATION,PGPT0014710-ydaE-K09988	NA	NA
AK012_01476	1023			Solute-binding protein	ATGAACAGTAAAAAAAATAGGTTGAGTATTCTTACTTTCTGTATAGCTGGTCTTGTATTTCTTTCTGCGTGTGGATCAGACGGCTCGAATGAAGCGGCTAACGCCAGTTCGGAAGGAGGAAGCTATACATTAAAAATGGCTTCTCCTAGTACACCCAGTGATTCCAATGTGATGGCTTTGATGGAATTTGAAAAAATTGTAGAAGAAGATAGTGAAGGTCAAATTGATGTAGAGGTCATGCACAGCGGACAGCTGGGTGGTCATACCGACTATATTGACAGTTTGAGTATGGGGACGATTCAAGGGGCTGAGATCAGTACCTCTGTCCTTGCCGGAGTTCGTGATGAATTTATGATTTTCAGTATGCCGTACATTGCAGAAGATATGGACCACATGGCAGAAGTTATTGATGCCGGCGTAGGGGATCAGTTAAGTGATGTTCTTGAAGAAGAAACCGGAATAAAAATCATTGGTTATATGGTAAGGGGCCCCCGGAATGTTTACAGCTCAAAAGGCGCCATTGAATCACCTGAAGACTTTGAAGGTTTAAAGATCCGGACGATGGAAAGCCCGGTAATGACACAGGCCATGGAAATGCTGGGAGCTAAACCGACGCCGATTTCCGCAGATGAACGGTATATGGCCCTTCAAACAGGAGTTGTTGACGCTGCAGAAAATTCAGCAGCCCTGGTCGTAACCGAAAAGGAATATGAAGTGACCGATTATCTTTCCCTTACCGAACATTTCATTACCCCGAATGTTATCTCTGTCGACGGAAAATTCTTTGACAGGCTGCCTGCTGATTTGCAGGAAGTCGTCTTGAACGCAGGTGAAGAAGCATCCCAATATGCAATAGAGGAAGAGAAGAGGCAGATGGATGAAGCCATTACTTCTCTTGAAGAAAAAGGGATGAAAATCAATTCCATAGAGGACAAGAATGCATTTGTAGAGAAAGTGAAACCGGTATATGACGAATATAAACAGGACATCGGTGAAGATCTTTTCGATGCCTTTCTAAAATAA	MNSKKNRLSILTFCIAGLVFLSACGSDGSNEAANASSEGGSYTLKMASPSTPSDSNVMALMEFEKIVEEDSEGQIDVEVMHSGQLGGHTDYIDSLSMGTIQGAEISTSVLAGVRDEFMIFSMPYIAEDMDHMAEVIDAGVGDQLSDVLEEETGIKIIGYMVRGPRNVYSSKGAIESPEDFEGLKIRTMESPVMTQAMEMLGAKPTPISADERYMALQTGVVDAAENSAALVVTEKEYEVTDYLSLTEHFITPNVISVDGKFFDRLPADLQEVVLNAGEEASQYAIEEEKRQMDEAITSLEEKGMKINSIEDKNAFVEKVKPVYDEYKQDIGEDLFDAFLK				NA	NA	NA	NA	NA
AK012_01477	492	yiaM	COG3090	2,3-diketo-L-gulonate TRAP transporter small permease protein YiaM	ATGAAAGCTGTCATTCATCTTATATATAATCAATTGCTCGACAAGCTTGTGAAAGGAATAGGTATCCTGCTTGTGTGCATGATCCTTATACAAATAGGCGGACGATACCTGCTGACTTCCCCTTTAGGGTGGACCGAAGAATTTTCACGTTTTCTTTTTATCTGGTTTGCTTTTTTAGGAAGTGTTCTTACATTGATAAATCATATGCACCTTGGAATCGAATTCTTTTATCAGAAATTCCAAGGTATGAGCAGAAAGGTTTTAGATATCGCGATCCAGGCGGCTGTTCTATGCTTTGGTGTAGTCATCCTGATTTATGGATTGGACTTGGTAGAATTGGGTTTCTATCAAAAATCTCCGATTATGCGATGGCCGCTGGCTTATTTTTATCTTGCTGTTCCAGTGACGGGAGCTCTTTTCGCATTATGGGCTCTGAAAATGCTTGTTGAGCTGATTCGTCCATCAAACCGCTTGCCGGAAGCAGAGCAGTGA	MKAVIHLIYNQLLDKLVKGIGILLVCMILIQIGGRYLLTSPLGWTEEFSRFLFIWFAFLGSVLTLINHMHLGIEFFYQKFQGMSRKVLDIAIQAAVLCFGVVILIYGLDLVELGFYQKSPIMRWPLAYFYLAVPVTGALFALWALKMLVELIRPSNRLPEAEQ				NA	NA	NA	NA	NA
AK012_01478	1278	dctM_2	COG1593	C4-dicarboxylate TRAP transporter large permease protein DctM	ATGGTCGCAATCATTGCATTTGTTGTTTTAATCGCGCTGATGTTCTTTAATATACCGATTGCCATCAGTACAGGTTTAGCTGTATTGGCCGGGGTTCTCGTTTCGGATAATTTGACGATCACAGTTCTGGTGCAGCGCATGGTTGCAGGAGTCGACACGTTTACTTTAATTGCCATTCCTTTATTTATTCTTACGGGGAGATTAATGGCATTGGGTGGAATTACGAAAGATTTAATTGATTTGTCCAAAACGCTGGTAGGCTTTTTACGAGGCGGACTGGCTTATGTCAACATTGTAAGCAGTATGTTTTTTGCCGGCATCACAGGTTCTGCCGCAGCAGATTCCTCATCCGTCGGGTCCATCCTTATCCCTGCTATGACCAAAAAGGGATATGATAAGGATTTCAGTGTAGCAGTGACTACGACCTCTTCAACGATCGGGGTTATGATTCCTCCGAGTATCCCATTGGTCATATTTGGCGTTTCTGCAGGTGTATCTATTGGTAAGCTTTTCTTAGGGGGAATTATCCCAGGGGTCTTAGTCGTTGCTGCTTTATGCACGGTGACGTATTTTATCGCGAAGAAGAGGGACTATCCCGTAGAAGAGCGTTTGACAGTAAAAGAAGGGGTAAACGTTATTATCCGCAGTATCCCTGCGTTAATGACAGTCATTATTATTATCGGAGGTATCATAAGTGGACTGTTTACGGCCACAGAAGCGGCCGGAGTGGCTGTCCTTTACTCGTTTTTACTGGGGGTTTTCTATTATAAAGAGCTCAAACTGAAAGACATCCCGGGTATTATTACAGAAGTTGGGATCACTACAGGGATGGTGGCATTGATGATTGCTACCGCATCTGCACTCGGGTATTTGTTCGCGATTGAAGGCATTCCTCAAATGATCGGCCAATTGATCTTGTCTATTACGGATAATATGATTATGATCCTCCTGCTGATCAATATTTTATTACTCTTTGTCGGTCTTTTCCTGGATTTGAGTCCTGCGGTTATTATATTTACACCGATTTTAATGCCAATCATCACTCAGCTTGGTATTGATCCCATTCACTTTGGAGTCATGATGGTTGTGAATTTAGCGATTGGTTTGTTTACCCCGCCCGTGGGTGTATGTTTATTTGTCTCCTGTGGGATCGCTGGAATTTCTGTGACAGATTCAATAAAAGCGCTGCTGCCTTACTTCTTTTCTATGATTGTCATTCTATTATTAATTACGTATATTCCTCAGTTAATTACATTTCTTCCGAATGCATTTATGTAA	MVAIIAFVVLIALMFFNIPIAISTGLAVLAGVLVSDNLTITVLVQRMVAGVDTFTLIAIPLFILTGRLMALGGITKDLIDLSKTLVGFLRGGLAYVNIVSSMFFAGITGSAAADSSSVGSILIPAMTKKGYDKDFSVAVTTTSSTIGVMIPPSIPLVIFGVSAGVSIGKLFLGGIIPGVLVVAALCTVTYFIAKKRDYPVEERLTVKEGVNVIIRSIPALMTVIIIIGGIISGLFTATEAAGVAVLYSFLLGVFYYKELKLKDIPGIITEVGITTGMVALMIATASALGYLFAIEGIPQMIGQLILSITDNMIMILLLINILLLFVGLFLDLSPAVIIFTPILMPIITQLGIDPIHFGVMMVVNLAIGLFTPPVGVCLFVSCGIAGISVTDSIKALLPYFFSMIVILLLITYIPQLITFLPNAFM	PGPT0017335_2518	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
AK012_01479	1485	xylB_1	COG1070	Xylulose kinase	GTGAAACATGTGGTTGGAATTGATCTGGGGACTAGTGCTGTGAAAGTCGTCGTACTGAATGAAGAGGGAGAAGTGGTAACGACCGTTTCAAGGGAGTACCCCCTCATTCAGGACAAGTCGGGGTACAGTGAACAAGATCCTGACCAATGGGTGGAAAAAACGTTGGAAGCTTTGGCGGAGGTGGCAGAAACTTTTGATGGTTACATAGAGGGAATGAGCTTTTCAGGACAGATGCACGGATTAGTTCTCCTTGATGAGCAGCGATCCGTCTTACGCCCTGCCATCCTTTGGAATGATACCCGTACGACAAAACAATGTGTGGAAATCGATGAACAGTTAGGGGATGGAACGCTTCGAGGCATTACGAAGAATGCTGCTTTAGAAGGATTTACCCTCCCTAAACTACTGTGGGTGAAAGAAAACGAGCCGGAAATCTTCGCGGGAACGGATGTATTTATGCTGCCGAAAGATTACCTTAGATTCAAGCTGACTGGAGAGGTATATAGTGATTTTTCAGATGCTGCTGGGACTCTTCTTCTTGATGTCGAGAAAAAAGAATGGAGTAAGGAAATACTCGATACCTTCCAAATCCCGATGAATTTATGTCCGCCCCTCCTCGAATCAACAGCGGAAGCAGGCACACTCACCCCATCAATCGCCCGGAAGACAGGGTTATCGGAAGGTATTAAAGTATTTGCAGGAGGAGCGGACAATGCCTGTGGAGCTGTTGGCAGTGGGATTCTTACAGAAGGAGATGTGATGTGCAGTATAGGTACATCCGGGGTTGTGCTTGCTTATGAAGAAGGCGTGCCTTCCAGTCCCGACTTACATGGTTTCAATCATGCGAAAGAAGGAGCTCATTATTCGATGGGGGTCACCCTGTCTGCCGGATTCAGTTTGACCTGGTTTAAAGACACGTTTGGCAAAGAAGAAACGTTCGATGATCTATTGAAAGATATAGAACTTTCTCCGCCCGGATCCAATGGTCTGTTGTTCACCCCTTATTTATTTGGAGAACGAACCCCACATGCAAGCTCTACGATAAGAGCGAGCTTTATAGGTATGGACGCGTCTCATGAAAAGCGGGATTTTGCCCGCGCTGTTATCGAAGGCATTACCTTCTCACTCGCTGAATCCGTAGAGATTTTGCGAAAACAAGGGAAAAATATTTCTAAGATCATTGCTATTGGGGGAGGAGCCAAAAACGAAACATGGCTTCAAATCCAAGCGGATATTTTCAATGCTGAAATTGTTAGTCTTTCTAATGAAGAAGGTCCGGGGGCAGGGGCAGCGATGCTTGCAGCCTATGGCTGCCGCTGGTTCTCATCGCTGGAAGATTGCGCTCAGCAATGGGTTCATTCATTAAACAGCTATAAACCGGTGAGTGAAAATGTAGAACAATACCAAGAACTGTTTGGCATTTATAAACGGATTTATCACCAGACAAAGGAAATGAATGAGGAATTAGCAGCGTTCAAAAGGTAA	MKHVVGIDLGTSAVKVVVLNEEGEVVTTVSREYPLIQDKSGYSEQDPDQWVEKTLEALAEVAETFDGYIEGMSFSGQMHGLVLLDEQRSVLRPAILWNDTRTTKQCVEIDEQLGDGTLRGITKNAALEGFTLPKLLWVKENEPEIFAGTDVFMLPKDYLRFKLTGEVYSDFSDAAGTLLLDVEKKEWSKEILDTFQIPMNLCPPLLESTAEAGTLTPSIARKTGLSEGIKVFAGGADNACGAVGSGILTEGDVMCSIGTSGVVLAYEEGVPSSPDLHGFNHAKEGAHYSMGVTLSAGFSLTWFKDTFGKEETFDDLLKDIELSPPGSNGLLFTPYLFGERTPHASSTIRASFIGMDASHEKRDFARAVIEGITFSLAESVEILRKQGKNISKIIAIGGGAKNETWLQIQADIFNAEIVSLSNEEGPGAGAAMLAAYGCRWFSSLEDCAQQWVHSLNSYKPVSENVEQYQELFGIYKRIYHQTKEMNEELAAFKR	PGPT0017535_1493	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
AK012_01480	3102	swrC_1	COG0841	Swarming motility protein SwrC	ATGAACTGGTTAACAAAATTCAGCTTGAAAAATACGGTCGCCATCCTGATTCTGACGGTCCTTGTGATCGCCATGGGAACCTTTGCGACGAACAAAATCAAAGTGGAAACCTTCCCGGACGTCAGCTTTCCTGTCCTGACGGTCCAGACGGTCTATCCGAACGCCTCGACGGAGGAAGTGGAGGAAAACGTGACCACCCCTCTTGAGGAAGCCCTTCTGAACATGGAGGACTATGACGCGATTACGAGTACATCTCAGGAGAACGCGTCTTTTATTACCATCACCTATCCATTCGGTGAAGATATCGAAGAAGCTCAATCAGACATCACTAATGCAATCGCCGATGTAACGACACCGGAGGATGCGGACACCGAGGTGACCGCTCTGTCGATCAACTCGACACCGATCTATCAGGCCGCGCTTTCCTCCGATGACCTGCAGGCGCTTCAGGCTGGTGTAGAAGATACGATCGTTCCGACGCTTGAAAACCTTGAAGGTGTAGCTGGTGTCCAGGTGACGGGAAGTGAGGAGTCGAAGCTGCAGATCGAAGTGGATGAAGAAGAAGCTTCCACGTACGGACTCACTCTATCTTCCATCCTTGATGCTGTTGAGCAGTCCGAATACAAGCTTCCCGCCGGATCCCTCCAGCAGGACGGTTTGTCCACACCGGTGGAAATCACAGGAACACTTGATGATGTGACCGCTCTTGAAGACCTCACCATTCCGGTTACACCGGTCGGTGCTCAACAGCAGCCACCACAAAATGCAGGTTCTGAAGCTGCCTCAGGAGCACAAGCAAATGCAGCTGTACAGGCGGAAGCCCCTCAGGAAGTGACCCTCGGGGAAATCGCCGATATCACTCAAGTGACCGAGCGCAGCGAAGTCTCCCGCTTCAACGGGGAAGACAGTGTATTGATTGAAGTGACAAAAACCCAGGACGCCAACACCGCCGACGTTGCCGATGCGGTGAAGTCCTATTTGAATGAAGAAGTGGATGACAGCGGCTATGAGCTGTACACCGTCCTCGACCAGGGCGAAGAAGTGAACAAATCCATCTCCGCATTGTTGAAGGAGGGCGGATTCGGTGCCTTGTTCACCGTCATCGTCATCCTGCTTTTCCTAAGAAACATCCGGGCGACGATCATTGCGATTCTGTCGCTGCCGATTTCGATTCTCGGATCGATCGCCCTGCTTGAAACATTTGATTACACCTTGAACATTATGACGCTCGGCGGTATGGCCGTCGCCGTCGGACGAATCGTCGATGACAGCATCGTCGTCATCGAGAACATCTACCGCTGGAAACAGCAGTATCCGGATATGAAGCAGCGGGATGTCGTCTTCAAGGCGACGAAGGAAGTGCTCGGCGCTGTCGCCTCTTCCACGATCGCTACCCTGATCGTCTTCCTGCCGCTCGCCTTTGTCGGCGGTATTCTCGGCGAATTTTTCCGACCATTCAGTCTCGCCGTTGTGTTCTCGATCACCATTTCCCTGCTGGTTGCGCTGATGCTTATCCCTGTGCTCGGCAAGTTCTTCTTCAAGGACGTGAAGCACGAAGAAAAAACGAGCCGGCTGGCCACATGGTATGAAAAATTCCTACGAGGATCCTTGAAGAAGAAAGGACTCGTCTTCACCCTTTCGTTTGTCCTGTTGTTCGGATCGTTCTCCTTCATTCCGGCACTCGGAGTATCGTTCCTGCCGAGTGAAGGCAGTGAAACGTTCGAAGTTGAACTCACCCTTCCGGATGAGACGACGTTTGAAGAAACGACAGCGCTGGCGCAGTCGATGGAAGCCACCCTTCTGGATGACGATCAGATCGACTACACGCAGGTATCCATCGGCTTTTCCAGCCACCGGCAGCTTCCAGGCATGAATGCATCTGTTTCTGAAAACATCGCCCGCTTCTACGTCCAGCTTCAGGAGGACGTCCAAGCCGATGAAGTAATGAACGACTATGAGGAAGATCTGCTTGTGCAGGCGCAGGAGGCCTACCCGGATGCTGTTGTAAGTGCTGCGGAAGTCCAGCAGGATGGACCGCCATCCGGCAATACGATTGATGTGAATTTGTACAGTGATGAGAATGGAGATTTGAGAGAGGCCGCCAACCAGGTCGCCCAGCTTTTTGAACAAAACGATCAATTAAAGAATGTATCCAACGATATGGAGGATACGCAGACGAAATACGATATTTCCCTGAACGAGGATGGCAGAGGCCTTGGCGTGAGCCCGTATCAGCTGATGCAGCCGATCCGCGAACGGCTTCAGCCCCTTGATGGCGGCACGCTTACTCTGATTGAGGAATGGGAGATGGAGCTTGCCTTCGATGAAACCTTCACAACGAAGGCGGATATCGAAACGTATACCATCATGACACAGGACGGTGCCAAAGAGCTGCAGGAAATCGCTTCGATTGAAGAAGTCGAAGTGCCGAAATCCATCAAGCACCAGGACGGTGAAACGGCAAGCACGGTCTCCGCGACGATCATCGGAGACGACACCGCCGCCGTTTCCCGTGACGTGGAGGCCGATGTCGATTCCCTCACACTGCCGGACAGCGTGGAAGTGGATCTGACCGGAGGACTGGAAATGATCAACGAAGGCTTCGCCGACCTCGGGCTTGCCATGGCCGCTGCTGTCGGACTCGTGTTCCTTGTACTCAGCATTACGTTCGGAGGCATCCTGACCCCGATTGTCATCCTGTCCTCCCTGATCTTCATCCCGATCGGCTCGCTCGCCGGCTTGTTCCTATCCGGCCAGACGCTGTCGATGAGCGCGATGATCGGCATGCTGATGCTGATCGGAATCGTCGTCACCAACGCCGTCGTGCTGCTCGACCGTGTTGAAAGCAACCGCCGCGAAGGACACGAGCTCACAGAAGCGATCGTCGAAGCGTCCCGTACGCGTCTGCGTCCGATTCTCATGACCGCCCTGGCCACGATTTTCGCTCTCGTGCCGCTCGCCCTTTCGAACTCGGCTTCCGGTCTGATATCCAAAGGACTTGCGATTACGGTCATCGGTGGACTGACGACATCGACGCTGCTCACCTTGATTTTTGTACCGGTCTTCTATTATGCGGTTGGGAAGTTCCGGAGAATGGAATAG	MNWLTKFSLKNTVAILILTVLVIAMGTFATNKIKVETFPDVSFPVLTVQTVYPNASTEEVEENVTTPLEEALLNMEDYDAITSTSQENASFITITYPFGEDIEEAQSDITNAIADVTTPEDADTEVTALSINSTPIYQAALSSDDLQALQAGVEDTIVPTLENLEGVAGVQVTGSEESKLQIEVDEEEASTYGLTLSSILDAVEQSEYKLPAGSLQQDGLSTPVEITGTLDDVTALEDLTIPVTPVGAQQQPPQNAGSEAASGAQANAAVQAEAPQEVTLGEIADITQVTERSEVSRFNGEDSVLIEVTKTQDANTADVADAVKSYLNEEVDDSGYELYTVLDQGEEVNKSISALLKEGGFGALFTVIVILLFLRNIRATIIAILSLPISILGSIALLETFDYTLNIMTLGGMAVAVGRIVDDSIVVIENIYRWKQQYPDMKQRDVVFKATKEVLGAVASSTIATLIVFLPLAFVGGILGEFFRPFSLAVVFSITISLLVALMLIPVLGKFFFKDVKHEEKTSRLATWYEKFLRGSLKKKGLVFTLSFVLLFGSFSFIPALGVSFLPSEGSETFEVELTLPDETTFEETTALAQSMEATLLDDDQIDYTQVSIGFSSHRQLPGMNASVSENIARFYVQLQEDVQADEVMNDYEEDLLVQAQEAYPDAVVSAAEVQQDGPPSGNTIDVNLYSDENGDLREAANQVAQLFEQNDQLKNVSNDMEDTQTKYDISLNEDGRGLGVSPYQLMQPIRERLQPLDGGTLTLIEEWEMELAFDETFTTKADIETYTIMTQDGAKELQEIASIEEVEVPKSIKHQDGETASTVSATIIGDDTAAVSRDVEADVDSLTLPDSVEVDLTGGLEMINEGFADLGLAMAAAVGLVFLVLSITFGGILTPIVILSSLIFIPIGSLAGLFLSGQTLSMSAMIGMLMLIGIVVTNAVVLLDRVESNRREGHELTEAIVEASRTRLRPILMTALATIFALVPLALSNSASGLISKGLAITVIGGLTTSTLLTLIFVPVFYYAVGKFRRME	PGPT0016195_1650	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
AK012_01481	1344	hssS		Heme sensor protein HssS	TTGAAAAGCCTGTATGCTCAAATCGTCGTCACATTCATCGCTGCCATCGTCATCGGGCTCGTCATCACGTTTTCGATTTCCGGGCGGCTCCACGCCCTGCAGGTAGCCGAGAAACTGGAAACCCAGATGGTGAATATCGGGAAGGAGTTCATTGAGCTGTATAAAAAAGAGCCGGACACTGATGCCGACCTCTACCTCGACGCCATGAGCTCGGGCAGTTTTGAGGTGCTGCTGTTTAAAGACGATGCGGAGGGAAGCCTTTATCACGAGGAAGGACAGGACTGGGATATCGATCAGGCCGACGTCGAGCGCGTGCTGAACGGCGACGTCCACAATGAGTACCTTCTCCCTCCACGGATCAACATCGGGCTCCCTTTTGAAAAGGACGGCAGTTCCTACGCGTTATTCCTGCGGCCCGATTTTGAATTCTTTTTCGAAGGCTTCCGTCAAATCGTCCTTATCCTTTTTCTGACCGTTCTATTGATTGGAAGCTTCGTGTTCATTCTTTCGACGCGCTGGATTGTCAGACCGATCAAAGCGATGACGGAAACGGCCGGCGAGCTTGCCAAAGGCAACTTCGATGTCCAAGTGGAGACGAAGCGGAAGGACGAGCTCGGAAGTCTGGCCCACAGCTTCAATCAGATGGCCCACGGCCTCGGTGAACTGGACGGCATGCGCCAGCAGTTCGTTTCCAACGTGTCGCATGAAATCCAGTCTCCGCTCACATCCATCCAGGGCTTTGCCCGTGCTTTGAAGGACGGCGTCGTCACGGACGAGGAAAGCAGGCAGGCCTACTACGACATCATCGAAAAGGAAAGCCGCCGTCTGTCAGTCCTCAGCCAGAATTTATTGAAGCTTGCCACTCTCGACAGCGACCACCCGCCGTATGAACCATCCTCCTACAAGCTGGATGAACAGCTCCGCCGGGTGCTCGCCCACATGGAGCCTCAATGGGCGGATAAAAAAATCAACATCGACGCAGATCTTGAGGATTGCAGCCTTTATGGAGATGCCGGCCAGCTCGAGCAGGTGTGGGTGAACATCCTCAGCAACGCTATCCGCCATACACAGACGGAAGGAACGATTGCCGTCCGTTTGAAGGCAGATGAGGATGGTGCGGAAGTGACCATCATAGATGACGGTGAAGGCATGAGCCCCGAGGATCAGCAGCGGATTTTCGAGCGTTTTTACAAAGCGGACAAATCAAGGACGAGAAAACAAGGGGGAAGCGGCCTCGGCTTATCGATCGCCGAAAAAATCGTCCAGCTTCACGACGGAGCCATCCATGTGACGAGCCGTCCCGGAGAGGGCGCGGCTTTCACTATCCATCTCCCCCGCCGCTGA	MKSLYAQIVVTFIAAIVIGLVITFSISGRLHALQVAEKLETQMVNIGKEFIELYKKEPDTDADLYLDAMSSGSFEVLLFKDDAEGSLYHEEGQDWDIDQADVERVLNGDVHNEYLLPPRINIGLPFEKDGSSYALFLRPDFEFFFEGFRQIVLILFLTVLLIGSFVFILSTRWIVRPIKAMTETAGELAKGNFDVQVETKRKDELGSLAHSFNQMAHGLGELDGMRQQFVSNVSHEIQSPLTSIQGFARALKDGVVTDEESRQAYYDIIEKESRRLSVLSQNLLKLATLDSDHPPYEPSSYKLDEQLRRVLAHMEPQWADKKINIDADLEDCSLYGDAGQLEQVWVNILSNAIRHTQTEGTIAVRLKADEDGAEVTIIDDGEGMSPEDQQRIFERFYKADKSRTRKQGGSGLGLSIAEKIVQLHDGAIHVTSRPGEGAAFTIHLPRR				NA	NA	NA	NA	NA
AK012_01482	678	hssR		Heme response regulator HssR	ATGATCCATATTCTCGTCGTCGACGACGATCCGCATATTCAGCAGCTGATCACGATGTACATAAAAAACGAAGGGTACGAAGCGCTGACCGCTGATGATGGTGAGCAGGCGCTTGACGTGCTCGCCTCCACCGCCGTCGACCTCGCTGTCATCGACGTGATGATGCCGAACATGGACGGCTATGAGCTGTGCAGAGAAATCCGCCGTTTCTATGAAATCCCTGTGCTTATGGTGACAGCGAAGGGAGAGGTCCAGGATAAAGTGAAAGGATTTGAACTTGGCACCGACGATTACATCGTGAAGCCGTTCGAGCCTGTGGAGCTGATGATGCGCATCAAAGCGCTGCTGCGGCGCTACCACATCCGTGCCTCTCATACGATTGAAGCCGGCAATGTCACGCTCAACGAAACGAACAAAACGATTACCATCAACGGAGAGAGTGACATGTGGCCGCTGAAGGAATTCGAGCTGCTGTATACCCTCGCGTCCTATCCCGAGCAGATCTTCACCCGCAACCAGCTGATTGAGCGGATCTGGGGGTTCGAGTACGAGGGCGACGACCGTACCGTTGACGTTCATATCAAACGGATACGCGACAAACTGAAGAAAAAAGGCGCCGGCATATCCGTGAAGACGATCCGCGGTGTCGGCTACCGGATGGAGGAGGTCACGTCTTGA	MIHILVVDDDPHIQQLITMYIKNEGYEALTADDGEQALDVLASTAVDLAVIDVMMPNMDGYELCREIRRFYEIPVLMVTAKGEVQDKVKGFELGTDDYIVKPFEPVELMMRIKALLRRYHIRASHTIEAGNVTLNETNKTITINGESDMWPLKEFELLYTLASYPEQIFTRNQLIERIWGFEYEGDDRTVDVHIKRIRDKLKKKGAGISVKTIRGVGYRMEEVTS	PGPT0028965_1	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AbcA,PGPT0028965-abcA|bmrA-K18104	NA	NA
AK012_01483	1422			hypothetical protein	ATGTTGCAGAATAAAAAACAGACCGCCCGGGAGCCACAGCAGAAACAGGAGAACAAAGGCATCAACATCAACGCTTTTGTACTGATTTTCTCTGTGATCGTCCTGGCCGCCATCTTGACGTACATCGTACCGGCAGGAGAGTATGAAAGGGTCGATCAGGACGGCCGTACCGTCGTCGTACCCGATTCATTCCAATTCACTGACCAGTCGCCGGTTGGATTTTTTGATATTTTTACAAGTGTTCATACAGGGCTCGTTAATAGTGCGGGCATCATCTTTTTCGTATTGATCGTCGGAGGGTCTTTCGGGATCTTAAGTGCGACAGGAGCGCTTGATGCCCTGATCCGGACGCTGACGAAGAAGCTTGGCGACAAGGAGCTGCTGTTGATTCCAGCGCTGACGCTGTTGTTTGCGGTGATGGGATCATTGATGGGGCTGGCTGAGGAGACGATTATTTACATTGCCATCGTCGTGCCGCTTGCGATGTCGCTCGGATTTGATGCGATCGTCGGGTATGCGGTGGTCGCCCTGGGGGCGAACATCGGCTTTATGAGTGCCTTGACTAACCCGTTCAACGTCGGTGTGGCCCAGAGTGTCGCGGAACTGCCGATGTTTTCCGGCATGGGACTGCGTCTCGTGCTGCTGGGCACCTTTTACGTAGCCGCCGTGCTTTACATTTACCGCTATGCGAGAAAAGTGAAGAAAAATCCGGAGCTCCGCTACATGGGCACGTTTTCCGAGAACAAGCCGAAACCAGCCGGGCCGGCAAAGCTTGAAACGCGTCACAAAGTGATCTTGACTATTTTTCTACTAAACTTCGTCGTGCTGATTTACGGTGTGCTTCAGCTTGGCTGGTACATTACGGAAATCGCTGCTTTATTCCTGTTGTTCGGGATCATCGTTGGCGCGATCGGAAAATTGAAGCCGAATGAAATGGCCGACAGCTTGATGGACGGGGCGAAAAAAGTGATGACAGGGGCTTTGATCATCGGATTCGCTCAGGCGATTCTCGTCGTCTTCCAGGAAGGACTGCTGATGGATTCTGTGCTGTATTTTGCGTCTTCCGTACTGAATCAGCTGCCCCCGGTGTTCAACGCAGCCGGCATGTTTTTCGTCCAGCTGTTCTTGAATTTCCTGATCCCATCCGGAAGTGGACAGGCCGCCCTTACGATGCCGATCATGGCGCCGCTCGCCGACCTTGTCGGAGTGACGAGGCAGACGGCTGTTCTCGCTTTCCAGCTTGGCGACGGGATTTCCAATACGATCTTCCCGACCTCCGGCGTCTTGATTGCCGGCCTTGCAATGGCGGGCATCCCCTATACGAAGTGGGCGAAGTGGGTCTTCCCATTCATCCTTATTGAAGTGGGGCTTGCGCTTGTATTTTTATTCATCGCCCACACCATCCAGTACGGCCCATTCTGA	MLQNKKQTAREPQQKQENKGININAFVLIFSVIVLAAILTYIVPAGEYERVDQDGRTVVVPDSFQFTDQSPVGFFDIFTSVHTGLVNSAGIIFFVLIVGGSFGILSATGALDALIRTLTKKLGDKELLLIPALTLLFAVMGSLMGLAEETIIYIAIVVPLAMSLGFDAIVGYAVVALGANIGFMSALTNPFNVGVAQSVAELPMFSGMGLRLVLLGTFYVAAVLYIYRYARKVKKNPELRYMGTFSENKPKPAGPAKLETRHKVILTIFLLNFVVLIYGVLQLGWYITEIAALFLLFGIIVGAIGKLKPNEMADSLMDGAKKVMTGALIIGFAQAILVVFQEGLLMDSVLYFASSVLNQLPPVFNAAGMFFVQLFLNFLIPSGSGQAALTMPIMAPLADLVGVTRQTAVLAFQLGDGISNTIFPTSGVLIAGLAMAGIPYTKWAKWVFPFILIEVGLALVFLFIAHTIQYGPF				NA	NA	NA	NA	NA
AK012_01484	1149	scmP_1	COG1473	N-acetylcysteine deacetylase	ATGACACACACCACAGCTGAATTGACCGAATGGACGGTGCAGCAGCGCCGCCATTTCCATAAACATCCGGAGCTGTCCGGACAGGAACATAAAACCGCCGCCTACGTGAAGGATTGCTTGGAGGAGTTCGGCATTCCTCTGCTTGACGGCTTCACAGCACCGAACGTCGTAGCGTTCTTCAAAGGAACCGAAGGGAGCCGGACGGTGGCCTTAAGAGCGGACATGGACGCTCTGCCGGTGCACGAGCAGGTGGAAAAGCCGTTCTCTTCCACGGTTCCCGACGTGATGCACGCCTGTGGGCACGATGCGCATACGGCGACACTGCTTGGAGCAGCGAAGTGGATGAGCGAGCATCCGGATCTTGTGAAGAACAACATCGTGCTCATTTTCCAAAGCTCCGAAGAGGAATCGCCGAGTGGGGCCCAGCAGCTCGTCAAAGATGGAGTGCTCGAAGGCGTGGATGCCATCTATGGCCTGCACTACATGTCCAATGTAGCATTGGGGAAAGTCGGCTTTGCGGAAGGCTTCTCGATGGCATCCAGTGACGACTTTGACATCGTTATCGAAGGAAACGGCGGCCACGGCGGCATTCCGCAGGATACGGTCGATCCGATTTATGTCGCGACACACGTGATCCAGAGCTTCCAGTCGATCATCAGCCGGAACCTGAATCCTTTTCACCCGGGTGTCATTTCGTTCGGCAGGATGGAAGCGGGGAATTCCTACAACGTCATTCCTGACCAGGTGACACTGAAGGGGACCATCCGTGCGCTCAGCTTTGAAGGGCAGGAGCTGATGTACAAGCGGACGGTCGAGCTGACGGAAAAAATCAGCGACAGCTTCGGCGCTGTCGGCCATTACCACTACATCGAAGGCACGCCGCCGGTGTATAACCATCCGGAAGCCTGTGCCACGGCCCGCGGCATCATCCAGTCGACGTTCGGGGACGATGTGTTCACAGAGGTCGAACCGACGATGGGAGCGGAGGACTTCGGCTATTATTTGAAGGAGAAAACCGGAGCTTTCATTAATGTCGGGATGGAAGGGGAGAAGAGTGCGTACCCCCATCACCATCCGAAGTTTGATGTCGATGAAGATACCATTCCGACGGGGCTTGAGCTGATGATTCAGCTGGCTTTGAAAGGGTAA	MTHTTAELTEWTVQQRRHFHKHPELSGQEHKTAAYVKDCLEEFGIPLLDGFTAPNVVAFFKGTEGSRTVALRADMDALPVHEQVEKPFSSTVPDVMHACGHDAHTATLLGAAKWMSEHPDLVKNNIVLIFQSSEEESPSGAQQLVKDGVLEGVDAIYGLHYMSNVALGKVGFAEGFSMASSDDFDIVIEGNGGHGGIPQDTVDPIYVATHVIQSFQSIISRNLNPFHPGVISFGRMEAGNSYNVIPDQVTLKGTIRALSFEGQELMYKRTVELTEKISDSFGAVGHYHYIEGTPPVYNHPEACATARGIIQSTFGDDVFTEVEPTMGAEDFGYYLKEKTGAFINVGMEGEKSAYPHHHPKFDVDEDTIPTGLELMIQLALKG				NA	NA	NA	NA	NA
AK012_01485	786	ephD	COG1028	putative oxidoreductase EphD	ATGACAGATAAAAAATTTGTAATGATTACAGGATCTACATCAGGACTCGGCTTTGAACTGGCCAAGCTATTTGCGAATGATGGCTATGATGTGGCTATGTCCGGGTCCAGTGAAACCATCTATCAATCTGCAGAAGAGATTGAACAATTAGGAGTGGAAGCTTATCCATTCCAGGCGGATGCATCAACGTATGATGGGGTGGAGGCTTTCTGGCAGTTTGTGAGAAACAAGGGAAGAAAGCTGGATGCGGCTGTTCTCAATGTCGGTATCGGTATGGGAGGTTCCTTCTTGGAAAATGATCTCCAAGAAGAGTTGAAGCTCATCGACATCAATGTTTCCGGAACCGTCCATATGGCTAAGCGCGTCGTTCAGCATATGGTTCCGAATCAGGCAGGCGACATCATGATTGTTTCATCGGTATCGGCGACACTGCCTACGCCTTACGAAACGGTTTACGGACCATCCAAGGCCTTCGGATTCATGTTTGCCGAAGCGTTAAGAGAAGAGTTGAAAGAAACCGGCGTCAATGTGACCGCCATGCTTCCTGGTGCCACAAACACAAGCTTCCACCACAACGCCGGTATGGATGATACTTACTTCGGGGACGAGAACAACAAAAACGATAAAGAATTAGTCGCAAGACAAGGGTATGAAGCTCTCAAAAACAAAGTGGATCAAGTCGTTGGCGGAGATGAAGCTACGAAAAAAGAAGCCGAGGAAAATAAACGTACGGCTGAAGATGTTCTGGCAGCGAAGCATGCAGAAAAAGCCAAGCCTCAGCAGTGA	MTDKKFVMITGSTSGLGFELAKLFANDGYDVAMSGSSETIYQSAEEIEQLGVEAYPFQADASTYDGVEAFWQFVRNKGRKLDAAVLNVGIGMGGSFLENDLQEELKLIDINVSGTVHMAKRVVQHMVPNQAGDIMIVSSVSATLPTPYETVYGPSKAFGFMFAEALREELKETGVNVTAMLPGATNTSFHHNAGMDDTYFGDENNKNDKELVARQGYEALKNKVDQVVGGDEATKKEAEENKRTAEDVLAAKHAEKAKPQQ	PGPT0030485_3852	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
AK012_01486	636			hypothetical protein	GTGAACATGCAAGTGAAAGAAGTATCTATTTTCGACCATACGGGAAACCGGATTGTAACCGACGACCGTGAGATTTCTGTGATTGCGAAGATGGAGGATCCGAAAATCGTCATTCTGGGAAATGTGGTCAGTGATGAAGAATGTGAGAGCCTCATCCAGTTGTCGAAGGACCGGATGAACCGTTCCAAAATCGGCTCCAGCCGTGATGTAAGTGAGATCCGGACGAGCAGCAGCACCTTCATTCCGGAAGACGATGTGAAAGTACGAGTCGAGAAGCGGATTGCGCAGATCATGAATGTCCCCGTCGAACATGGAGAAGGACTTCACATGTTGAACTATAAGCCGGGCCAGGAATATAAAGCCCACTATGATTACTTCCGTGCCAACTCAAGAGCGGCGGCCAACCCGCGCATTTCCACGCTCGTAATTTACTTGAATGATGTCGAGGAAGGCGGAGAGACGTACTTTCCGCATATGAATCTATCGGTATCCCCGCAAAAAGGGATGGCGGTCTACTTTGAATACTTCTACGATGATATGGAGCTCAATGAACGGACCCTCCACGGCGGATCGCCGGTCATTGAAGGGGAAAAGTGGGCAGCAACGATGTGGGTGAGGCGTAAACAGTACAAATAA	MNMQVKEVSIFDHTGNRIVTDDREISVIAKMEDPKIVILGNVVSDEECESLIQLSKDRMNRSKIGSSRDVSEIRTSSSTFIPEDDVKVRVEKRIAQIMNVPVEHGEGLHMLNYKPGQEYKAHYDYFRANSRAAANPRISTLVIYLNDVEEGGETYFPHMNLSVSPQKGMAVYFEYFYDDMELNERTLHGGSPVIEGEKWAATMWVRRKQYK	PGPT0020375_3037	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
AK012_01487	1110			hypothetical protein	ATGGACGATTTTGTACAGTTCCAGTTGAACGTATTTGCACTGCTTTGTCTGGCTGTTCTGTATGTCATTATGAGAACGAAATCGAAAGTGGAAAGCTTCGGCAAGCGCCTGCTCCGGATGATTATGGCGGCCACTTCAGCGGCTGTCATCCTTGAACCGCTCACGTGGATCTTCGACCGGAAGCTTTTTCCTGGAGCCTATCTGCTGGAGTACTGGACGAACTTCGGTTTGTTTCTCATCGGCCCTCTCCTCGGCGGCCTGATGCTTTCGTATGTCGATTATCACCTCTTCAAATCTCCTTCGCGTGTGTATAAGAAGCTGTTTTATCAGCACATGACGATCTTCACGTTCGTTGTTCTTCTGATCAATGTCTTCCACCCTGTTTATTTTGATGTGGACCCTGAGGTGAACAGCTTCAGCAGCGGTCCGCTCAAAGAAATTCACTACCTTATCCTTGCCGGCATCTACGTGGCGATGTTCCGGTTATTGATCAAAAACAAATCAAGAGTCAGCCGGTCGACGTACTGGATTTTCACCATTTTCTTTGCGCTTCCGATTGGAGGCATGATGGTCCAGCTGTTCGATTCCAAGCTGTACTTTTCGTGGACCTCGATTGTGCTCGGGATTCTTGTTGCCTACACGTTTCTTGAGTCGACCACTTCCGAACAGGATTTCCTTACAAAGCTCTATAACAGACAGAGCTATGAAATCTACCTCAGCCATTTAATCGAAACCAAGCAGCCTTTCAAGGTCATTCTCATCGATCTCGATCATTTCAAGGAGATCAATGACCATTTCGGTCACCAGCAGGGGGACCAGGTGCTTATCGCATTTGCAGGGGTATTGGAGAAAACGTTCAAAACCCGTGGGCTCCCGGCACGGCTCGGCGGGGATGAGTTCGTGGTGGTGCTCCATGATGAGGAGCAGCCGGTCAGTGACTATATGGAGGAAATGTCTGCCCGGCTGAAAACGTATCAGGATCCGTTCATCCAAAACCTTCAGTTCAGCTATGGATGGTCCTGTTATCAAGAGGGCATGGCGATGGAGGAATTGTATACGTCAGCCGATCAGAAGATGTACAAGGATAAGCGGGAAGGGCGCCTGGTGTGA	MDDFVQFQLNVFALLCLAVLYVIMRTKSKVESFGKRLLRMIMAATSAAVILEPLTWIFDRKLFPGAYLLEYWTNFGLFLIGPLLGGLMLSYVDYHLFKSPSRVYKKLFYQHMTIFTFVVLLINVFHPVYFDVDPEVNSFSSGPLKEIHYLILAGIYVAMFRLLIKNKSRVSRSTYWIFTIFFALPIGGMMVQLFDSKLYFSWTSIVLGILVAYTFLESTTSEQDFLTKLYNRQSYEIYLSHLIETKQPFKVILIDLDHFKEINDHFGHQQGDQVLIAFAGVLEKTFKTRGLPARLGGDEFVVVLHDEEQPVSDYMEEMSARLKTYQDPFIQNLQFSYGWSCYQEGMAMEELYTSADQKMYKDKREGRLV				NA	NA	NA	NA	NA
AK012_01488	939	yhfQ	COG4594	Putative ABC transporter substrate-binding lipoprotein YhfQ	ATGAAGTCGTCGTTGAAGTGGGTTGGGATCGTTCTCATCCTTATCGTTACAGCAGCCTGTTCGCAGCAGGAAGAAGAATCTGCACCATCCGGGGAAGCGCAGGGAATCGAGGTCCAGCATGAGCTTGGGACAACAACTGTACCGGAAAACCCTGAAGATGTCGTCACTCTGGAGCTTGGCGTTACAGAAACGGTGGCCGCTCTTGGTATAAAGCCTGTCGGAGTTGCGGATGATGATCGCCCGGAACGGATTGCCGAATCAACGATGGATGTTATCGAGGGCTACAAATCCGTAGGCGCGCGCTCTGAGCCGAGTTTGGAGTTGATCCGTACGCTACAGCCGGATGTGATCATTGCGGATGTGGACCGTCATGAGGCAATTTATGAAGAGCTGAGTGCGATAGCCCCAACTGTGGCCGTCGTGAACGATACAGCCGATTATCAGGATGTGTTAACGGCTACAGAAACGATTGGAAAAGCGCTCGATCGTGAAGATGAAACGGAAGAGCTTCTCGATGAGCACCAGGAGATGCGGAATGATTTGAAGGAGAGTCTTGAGGGCGTGGAGGGAAACGTCCTGCAGGCGCAGTATACAGAAAGCAATATCTTTGAAGCTCCGACATCCTCCTTCTTCATGCCGAGTTTCTTGGAAGAAGCAGGGCTGGAATATGCGCTCCAGAACGAAGAGGAGACATCTGAAGATCTGACCATTGAACAGCTTCTGAAAATCGATCCGGATACGCTGCTTCTGACGAAGAACGAGGATGATCCATCTGTGAAGGATCAATTGCAGGACGATAAGCTTTGGAACCAGCTGACAGCGGTCAAGGAAGACCGTGTGTTTGAGCTGAACCACAATGATTGGTCCCGCCGGCGCAGTATTCCGGCAGTCAACGAGCGGATGGACCAAATGAAAGAACTCTTTGCCGCCGGGAATTGA	MKSSLKWVGIVLILIVTAACSQQEEESAPSGEAQGIEVQHELGTTTVPENPEDVVTLELGVTETVAALGIKPVGVADDDRPERIAESTMDVIEGYKSVGARSEPSLELIRTLQPDVIIADVDRHEAIYEELSAIAPTVAVVNDTADYQDVLTATETIGKALDREDETEELLDEHQEMRNDLKESLEGVEGNVLQAQYTESNIFEAPTSSFFMPSFLEEAGLEYALQNEEETSEDLTIEQLLKIDPDTLLLTKNEDDPSVKDQLQDDKLWNQLTAVKEDRVFELNHNDWSRRRSIPAVNERMDQMKELFAAGN	PGPT0003765_8701	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
AK012_01489	990	yfiZ_1	COG0609	putative siderophore transport system permease protein YfiZ	ATGCGTGTCCGGAAAATGCTGCTTGTATATGGAACATCGTTTTTATTATTGCTGGTGGGGGCCTGGTTTTCTTTGAAAATCGGCGCCTTCTCCTTTACAACCGAAGAACTTGTCCACTTCCTGTGGGAAGGTGGTTCAACGAATGAAGCGCTCGTCTTATACGATGTGCGTCTGCCTCGTCTGATCATCACGGTTCTCGTAGGAGCTAACATGGCAGTAGCCGGTGCGCTTGTCCAGAGTCTCACTCAGAACCCGCTGGCCTCTCCGAGTGTTCTTGGGATTAATGCCGGTGCTTCGTTTTTCGTTGTTGCCGGTATTCTTTTCGTGCCGTCGCTGACAGGGCTTTCCCTTGTCGGTGCCGGCTTTTTAGGTGGAGCCCTTGCTGCCGGGGTCATCTTCCTGATGAGTGCCGTTCTCCAGGGCGGACGGATGCTTGTGAAAATCGCCCTCGTCGGCGTCGTCATACAGTCGTTGTTTGCCTCCGGGACGCAGTCGCTCATGCTTTTTAATGAGGAATCGATTCATCAGATTCTCGTCTGGCTTACAGGAACTGTGGCTGGTTCTACATGGGAGGATGTGAAGATTCTTCTTCCTTTGACGGCGCTCGGCTTCATTGCGGCTGTCATCATGTCAAAAGCCTTGTCTGTGATGTCCCTTGGAGAGGATGTCGCCCGTGGTCTTGGGCAGCGGGTGCGTCTTCAGAAATTCGCTGTCATTCTCCTCGTCGTCGTTCTGGCAGGAGCGTCGGTGGCTTTCACCGGACCGATCGGATTTGTCGGGCTCATTGTTCCGCACATCGTCCGTTACCTTGTCGGACCCAGCCACGCGCTCGTCCTTCCGGCAGGTGCTTTGTTCGGAGCGGCCCTTCTTGTCCTGGCAGATGTGGGCTCACGGTTCATTTCTTTCCCGTCTGAAACCCCTGTCGGAATCGTCACAGCCTTGATTGGTGCCCCTTACTTCATTTATCTCGCCCGAAAGACTCAACGTTAG	MRVRKMLLVYGTSFLLLLVGAWFSLKIGAFSFTTEELVHFLWEGGSTNEALVLYDVRLPRLIITVLVGANMAVAGALVQSLTQNPLASPSVLGINAGASFFVVAGILFVPSLTGLSLVGAGFLGGALAAGVIFLMSAVLQGGRMLVKIALVGVVIQSLFASGTQSLMLFNEESIHQILVWLTGTVAGSTWEDVKILLPLTALGFIAAVIMSKALSVMSLGEDVARGLGQRVRLQKFAVILLVVVLAGASVAFTGPIGFVGLIVPHIVRYLVGPSHALVLPAGALFGAALLVLADVGSRFISFPSETPVGIVTALIGAPYFIYLARKTQR	PGPT0003805_28	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0003805-fecC|htsB-K23183	NA	NA
AK012_01490	1002	yfhA_1	COG0609	putative siderophore transport system permease protein YfhA	ATGCTGAGACGTCATCCAACATTCATCCTTACCTTTACGGCTGCGGCTGTATTCATCCTCGCCATCATCAACGTCGGCATTGGTGATTTTTTCATCTCTCCTCTGGAAATCACGCAGATGCTGATCGGTCAGGGGGATGCGGACCTTAGATATATTGTGTTCAACTACCGGGCACCGCGGATTGTCCTGGCTATTCTGGTGGGAGGGGCGCTTGCTGTGGCTGGTGTGATCATGCAGACGATTTTGAACAACTCGCTGGCTGCTCCCGATACGCTCGGGGTTTCCGGAGGAGCGGCCGTCACAGCGCTTGTCACGGCGAGTGTGCTGCCCTCTATGTCGATGACATCTGTAAGTCTGGCCGCCTTTATCGGAGGAGCGGCCGCAGCGTTTATCGTTTATGCCCTCGCTTATAAAAATGGAGCCAACCCGGTCCGGCTCGCTCTTGTCGGGGTGTCGGTCAGTGCCCTCTGCGGCTCCGGTGTCGAGCTCAGTCTTTTGAAGCTCGATGCCAATGCCCAGACGTCCCTGCTCTGGCTGAACGGAAGTTTATTCGGCCGCACATGGGAGCAGGTGCTGGCACTTGCCCCAATAACCATCGGAATTCTCGTTGTCCTGCTGTTGTTTACGAAAACCCTGGACTCCTTGAAGTTGGGAGGGCAGATTGCCATGGGGCTCGGCGTGTCCGTTGAAAAAATGAAAATGCTCCTGCTCGGATTGAGCACCCTGCTGACAGGTGTGAGTGTGTCGGCTGTCGGGATGATCGGCTTCGTCGGTCTCATCAGTCCGCACATTACGAGGCAGCTTGTCGGTCTCCAGCACCGCTACGTTCTGCCCGGAGCAGCTCTTGTCGGAAGCTTTCTTCTCCTGTTGGCGGATACGATTGGGCGCAGTGTGCTGCAGCCGCTGGAGATCCCGGCCGGCATCGTCATATCATTGATCGGAGCCCCGTACTTTTTGTTTCTGCTTTATCAGGAATCCAAACAAGGAAAAAGAGAAGCCTGA	MLRRHPTFILTFTAAAVFILAIINVGIGDFFISPLEITQMLIGQGDADLRYIVFNYRAPRIVLAILVGGALAVAGVIMQTILNNSLAAPDTLGVSGGAAVTALVTASVLPSMSMTSVSLAAFIGGAAAAFIVYALAYKNGANPVRLALVGVSVSALCGSGVELSLLKLDANAQTSLLWLNGSLFGRTWEQVLALAPITIGILVVLLLFTKTLDSLKLGGQIAMGLGVSVEKMKMLLLGLSTLLTGVSVSAVGMIGFVGLISPHITRQLVGLQHRYVLPGAALVGSFLLLLADTIGRSVLQPLEIPAGIVISLIGAPYFLFLLYQESKQGKREA	PGPT0003810_11	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0003810-fecD|htsC-K23182	NA	NA
AK012_01491	870	ephA		Epoxide hydrolase A	ATGTGGAAAGAAGATTACGTAACCATTAATGACGTTGACCTGCACTATGTTACAGCCGGGGAAGGGGAGCTCATGCTGTTCCTGCACGGATTTCCTTATTTCTGGTATAACTGGCACCATCAGATCGAAGAGTTTTCCAAGGATTATCAAGTGGTGGCTGTCGATATGAGAGGATACAACCTGTCGGACAAACCGGAGGGCGTTTCCTCCTATGACATGTCGATCCTCGTGGATGATGTGAAAAAGCTGATTGAATCCTTCGGTAAAAAGGAATGCATCCTCGTCGGACATGACTGGGGCGGAGCGGTCGCGTGGACGCTTGCCTACTCAAGTCCGGAATACATCAGCAGACTGATCATGTTTGATGCGCCGCACCCGTACACGTTCCGCCGTGAGCTTGCTGAAAACCCGGCACAGCGCGAGGCGTCGAGCTATATGGGGTATTTTCAGCGCCCGGATTCCCACGAGCGCCTTTTAGCCAACGATGGAGAGAAGCTGCGTCAGATGCTGTTTGATCCCGTTGTGGAAAAAGGAGCGATGACGGAAGCCGAGGTCGAGAAGTACATAGAGGCGTGGAAACAGCCTGGTGCTATGAAGGCGATGCTGAACTATTACCGTGCGATTTCGTTCTATCCGTTTGAAGAGCATGTGAAGCAGCCGGTCCAGCTGCCTTATGAGCAGTTTGACCAGCCGGTGCTGCAGTTCTGGGGCGATGCGGACGCCGCCTTTGAAAACAGCAACCTCGACGGGATGGAAGACTACCTGTCTGATCTGAACATCCACCGCTTCCCGGGTGTCGGACATGCGCCGCACCTTGAAAAACCGGAGGAAGTGAACCGGTTGATGCGTGAATTTTTAGCGGAGAAATAA	MWKEDYVTINDVDLHYVTAGEGELMLFLHGFPYFWYNWHHQIEEFSKDYQVVAVDMRGYNLSDKPEGVSSYDMSILVDDVKKLIESFGKKECILVGHDWGGAVAWTLAYSSPEYISRLIMFDAPHPYTFRRELAENPAQREASSYMGYFQRPDSHERLLANDGEKLRQMLFDPVVEKGAMTEAEVEKYIEAWKQPGAMKAMLNYYRAISFYPFEEHVKQPVQLPYEQFDQPVLQFWGDADAAFENSNLDGMEDYLSDLNIHRFPGVGHAPHLEKPEEVNRLMREFLAEK	PGPT0015015_552	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015015-yfhM-K22369	NA	NA
AK012_01492	201			hypothetical protein	ATGAGAAAAATCGTTTCTATCATTGTTTTTCTCTTTTATCTTTCGGTGACCTGGAAAATCACCGGTGAGATTTGGGACAGATTCGTGCCTTTAAGCTGGAAAACGAACCTGATGGCTCTTCTGCTTGTGCCTTTCCTGATTGGTCTATCAATGGTATTGTCCTCGCTCACTCTGAAATGGAGCAGAACAAGCCGTAGTTGA	MRKIVSIIVFLFYLSVTWKITGEIWDRFVPLSWKTNLMALLLVPFLIGLSMVLSSLTLKWSRTSRS				NA	NA	NA	NA	NA
AK012_01493	186			hypothetical protein	ATGAATAAGGCACAGCAGATCATTTTCGGACTGGCGGTAGGAGCAGCGCTGTGTATCGGGGTGATCGCCGGGATGTCTTTCTCGGAAAATATTTTTGTCGTAATGGGTACGGGGCTGGCCGCTGGTTTTATCGTACGGTTCGTCGTCCAGCGTGCATTTGCGGAGATGAATAAAAATCAATCCTGA	MNKAQQIIFGLAVGAALCIGVIAGMSFSENIFVVMGTGLAAGFIVRFVVQRAFAEMNKNQS				NA	NA	NA	NA	NA
AK012_01494	366	cidA		Holin-like protein CidA	TTGAATAGATTTGTCATTGTCGTCTTGCAGATCGCCGGTCTTTACGGGCTGTATCTTACCGGATCCTGGATTCAGCAGGTGCTTGGATTGTTCATTCCGGGCAGTGTGATCGGCATGCTGCTGTTGTTTGTACTTTTATCTTTAAAAATTGTTCCGGAACGGCTGCTCCAGCAGGGGGTGGCCTTTATGATCCGCCACCTGCCGTTCTTTTTCATTCCGGCGACCGTCGGAATCATCAGCTATGCCCACGTCTTTAAAGGGAAAGGCCTGCTGCTCATAGCCATTGGGCTCTTCAGCACAGCACTGGTTATGGCCGTCTCCGGACGCGTCACACAGACGCTCGTCAAAAGGAGGGAGGAGGCATGA	MNRFVIVVLQIAGLYGLYLTGSWIQQVLGLFIPGSVIGMLLLFVLLSLKIVPERLLQQGVAFMIRHLPFFFIPATVGIISYAHVFKGKGLLLIAIGLFSTALVMAVSGRVTQTLVKRREEA				NA	NA	NA	NA	NA
AK012_01495	681	cidB	COG1346	Holin-like protein CidB	ATGAGTACCGCTCTTTTGATGATGGTGATGACGGTTGCCATTTACTTGGCGACCCTGTTCGTCTACCGCAGGCACAGGCGGCTGTACACCACACCCGTCATCGTTTCCACCGGACTGATTGTCATCATTCTACTCGTCTTTCATCTGCCGTATGAAACGTATATGACCGGAGGAAAATGGATTGATCGTCTGCTCGGACCCGCAGTCGTTGCGCTTGCGTACCCGCTCTATCAATTCCGGGATATCCTGAAAAAGATGTTCGTTCCGATTATGACAGGAACCGTGATTGGTGCAGTGGTTGGAATCGTTTCCGGACTGCTGCTCAGCAAATGGGCCGGGTTCAGTGACCTGATCATCCATTCGATCGTTCCAAAATCGGTAACAACGCCTGTGGCGATGTCGATTTCAGAATCGACGGGAGGGGTCATGCCGCTCACAGCCGTATTTGTCATGATTGCCGGCATAGGCGGCCTTTTGATCCACCCGTTCGTCTTGAAAGTGAGCGGGCTGACCCACCGGATCGGCCGTGGTGTCGGCATGGGCAGTGCCTCCCACGCCATCGGAACATCCGCTTCGATGGAGCGCGATACGATGGAGGGATCGATCAGCACGGTGGCGATGGTGCTGAGTGCGGTGATTGTGTCGATCATCGCTCCCGGACTGACCCTGTTGTTCATGTGA	MSTALLMMVMTVAIYLATLFVYRRHRRLYTTPVIVSTGLIVIILLVFHLPYETYMTGGKWIDRLLGPAVVALAYPLYQFRDILKKMFVPIMTGTVIGAVVGIVSGLLLSKWAGFSDLIIHSIVPKSVTTPVAMSISESTGGVMPLTAVFVMIAGIGGLLIHPFVLKVSGLTHRIGRGVGMGSASHAIGTSASMERDTMEGSISTVAMVLSAVIVSIIAPGLTLLFM				NA	NA	NA	NA	NA
AK012_01496	447	nsrR_2	COG1959	HTH-type transcriptional repressor NsrR	TTGAAATATACAAAAGCAACGAACTATGCGCTTCATACCATTTATTTCCTTTCCTTGGTTCCTAAGGAGAAAGCTGTAAGTGTTAAGCCGTTAGCGGAAATTTTCAATGTCTCCCCAACCTACCTTTCAAAGATCATTACGAAATTAGTGAAAGCGGGGTATTTAGATTCAACCCCCGGGGTAAAGGGTGGTTACAAATTAGCTCAACCTGCTTCCGATATTACTTTTTTGGATATTATTCATACCATCGAAGGAAAGGCCGCTCTCTTCAAGTGTAATATTGATGGCGATTATCACGCCCCTGGCGAAGACCATTGTCTTATTCAAGAAGTGATGGATGAGGCAGAATCCAAGATGGAAGAATTACTGAACAATCGAACCATCGCTGATTTACCACCTCTGACGAATCAAAAGATTTTAAGTTATATGGAGTCTCAGACAACTTAG	MKYTKATNYALHTIYFLSLVPKEKAVSVKPLAEIFNVSPTYLSKIITKLVKAGYLDSTPGVKGGYKLAQPASDITFLDIIHTIEGKAALFKCNIDGDYHAPGEDHCLIQEVMDEAESKMEELLNNRTIADLPPLTNQKILSYMESQTT				NA	NA	NA	NA	NA
AK012_01497	903	trxB_2	COG0492	Thioredoxin reductase	ATGATATTGGATTGTGCCATTATCGGTGGAGGGCCGGCGGGTTTAAATGCTGCCCTTGTATTAGGAAGAGCAAGGAGAAAAGTAGTTTTAATAGACAGCAGCTCCCCGAGGAATGCTGTGACCCACGAATCCCATGGATTCATCACAAGAGATGGAGTGAAGCCCGGTGATTTTAGAGACTCAGCCCATGAGGACATAAGAAAATATCCCTCTGTATTATTCAATAACACTAAAGTGTCTCATGTAGAACAAGATCATAACCATCACTTTCGATTAACAACAGAGGATGGGAATTGTTACTACAGTCGTAAGATCATTCTTGCTACCGGATTAAAAGAAGAGCTTCCAGCTGTAAATCGAATCTCCGAGTTTTATGGGAAGAGTCTATTCAGCTGCCCCTATTGTGACGGATGGGAATTAAGGGACCTGCCACTGGTGTTGATTGCGGAAAGTAAAGCAGCCTACGATAAGGCGAAAATTGTCTCCAATTGGAGCGGTCAGCTGACGGTCTGCACAAACGGCCGGGACGTGTTATCGGAAGAAGAGAAAAACACATTAAACAGGAAAGGAATACAAGTGAAGGAATCCCCCCTTACAGCTCTGGAGGGAGAAGGAGGACAATTACAGAAGGTGACATTCGAAGATGGTACGGAAGCCGCTTGTAAAGGAGGCTTCGTTATTCCAAAAGTAGAACAAGCTTCGAATTTCGGGGAGGAACTCGGATTGGAACGGACGGAAAATGGAGGAATAAAGACAGACCATATAGGGAGGACCAGTGTTAAGCATGTGTATGCGGCCGGGGATACCTCTCAGGCCATAGCCCAGCTTATTGTAGCTGCTGCAGAAGGCAGTAAAGCAGCCATCGGTGTGAATCATGATCTAACCTTAGAAGACTTTGATTAA	MILDCAIIGGGPAGLNAALVLGRARRKVVLIDSSSPRNAVTHESHGFITRDGVKPGDFRDSAHEDIRKYPSVLFNNTKVSHVEQDHNHHFRLTTEDGNCYYSRKIILATGLKEELPAVNRISEFYGKSLFSCPYCDGWELRDLPLVLIAESKAAYDKAKIVSNWSGQLTVCTNGRDVLSEEEKNTLNRKGIQVKESPLTALEGEGGQLQKVTFEDGTEAACKGGFVIPKVEQASNFGEELGLERTENGGIKTDHIGRTSVKHVYAAGDTSQAIAQLIVAAAEGSKAAIGVNHDLTLEDFD				NA	NA	NA	NA	NA
AK012_01498	543			hypothetical protein	ATGAGGAAAGTGATCTATGCAATGGTTCTCCTTGCAATAAGTTTTATCAGTTATATAGGGTATACCCATACCGCATATACCATCGAGGCTGGTGAAAAAGATGTACAGCAGAATATAAAGGAATGGCTGAATAGAAAATCAGGGGATGTGGATCCGGAGATGATCACGATTGTTCAATTGGACGATACAACATCCTACACAGCTTTATTTGAAACACAGCAGCATGATCTTGGACATGCCCACTTGATTAAGGGGTGGAATGAAAAATATAAAATTGACCATTCCGGATATGGTTCCAACACCGTTTCCTACGAAGAAGTAAAAACGAATCAAGGGACTTACGCTATCCTGACAGGAAAGAACTCCGACTTAAAAATAGAATATGTAAAAGCTGAATCCATGAATAAGGACTACATATTCTCAGCAGATGTCTCCAGTGATGAAAGATTTGTGAGATATGAGAAGCTCCCTGCTGATGTGGACCACACTTTTCCTGCAGAAGTAACGCTTTACGATAAAAACGATGAGGTCATTAGAGAATGA	MRKVIYAMVLLAISFISYIGYTHTAYTIEAGEKDVQQNIKEWLNRKSGDVDPEMITIVQLDDTTSYTALFETQQHDLGHAHLIKGWNEKYKIDHSGYGSNTVSYEEVKTNQGTYAILTGKNSDLKIEYVKAESMNKDYIFSADVSSDERFVRYEKLPADVDHTFPAEVTLYDKNDEVIRE				NA	NA	NA	NA	NA
AK012_01499	1500	mqo1		putative malate:quinone oxidoreductase 1	ATGAGCAACAGAGCAATCGAAACAGACGTGATCTTGATTGGCGCTGGAATCATGAGCGCGACACTTGGGTCGCTGCTCCACGAGCTTGCCCCGGACTGGAAGGTGACCGTGTTTGAAAAGCTCGGCCGCACAGGTGAGGAAAGCTCAAACGAATGGAATAACGCAGGCACTGGACACGCCGCCCTTTGTGAATTGAATTACACAAGCGAAAAGCCCGACGGCTCGATTGATATGACGAAAGCCGTGAAAATCAATGAACAGTTTCAAGTTTCCAAGCAGTTCTGGTCCTATCTCGTGAACAACCGCCGTATAGAAAAGCCGGAGGAATTTATCCGGCCGCTTCCACACATGAGTCTCGTACACGGAATCGAGAACATCAAGTTTTTGAAAAAACGCCATAAAACGATGACGCAGAATCCACTTTTCAAAGATATGAAGTTTTCTGATGATCCGGAAATCCTGAAAAAATGGATGCCGTTGATTATGCAGGAGCGTACGTCGGAGGAGCCTGCGGCCGCAACGAAAGTCGATGCAGGAACGGATGTGAACTTCGGTGCCCTCACACGTAAAATGTTCGACCACCTGGAGCATCAGAACGTAACGATGAACTACAACCACAGCGTCGAAAACCTCGAGCAGACGAGCGGCGGCACGTGGAGTGTGAAGGTGAAAAATGCCAATGGGGAGACAACCCGCTACTTAACGAAATTCGTCTTCATCGGAGGAGGCGGAGGCAGTCTTCACCTGCTTCAGAAATCCGGCATTCCAGAAGGAAAAGGCATCGGAGGCTTCCCGGTCAGCGGACAGTTCCTCGTCTGCAATAAACCAGAGGTCGCAGAAAAGCACCACGCTAAAGTGTACGGCAAAGCACCCGTCGGCGCACCCCCGATGAGTGTGCCGCACCTTGATACCCGTTATATCGGTGATAAAAAGACCCTCCTGTTCGGACCGTTCGCCGGATTTTCACCGAAATTCCTGAAGACCGGCTCCAACATGGACCTGCTGACATCAGTCAATGCCAACAACGTCATGACGATGCTGGCGGCCGGTATGAAGGAAATGGCCTTGACGAAGTATTTGATCCAACAGGTGCTCCAGTCCAAGGAGCAGCGGATGGAAGCGCTCAGGGAGTTTGTTCCTGACGCGAAAAGTGAAGACTGGGAGCTTGTCGTTGCCGGTCAGCGTGTGCAGGTGATCAAGGATACCGAGAAAGGCGGCAGAGGAACGCTTCAGTTCGGTACAGAAGTCGTTAGTTCTGCCGATGGAACCGTCGCCTGCCTGCTTGGGGCATCCCCGGGGGCCTCCACGGCCGTCCATGTCATGATCGACGTGCTGGAGCGCTGCTTCCCGGATCAGTTTGCCCAGTGGGAGCCGAAACTGAAGGAAATGATTCCGAGCTACGGCACATCTCTTCAGAACGACCCGGCTCTCGTTGAGAAAATCCATGCCGAGACAGGCGAAGCACTCGGACTGACGGAAAAAAAGCTCGTACTGAATTGA	MSNRAIETDVILIGAGIMSATLGSLLHELAPDWKVTVFEKLGRTGEESSNEWNNAGTGHAALCELNYTSEKPDGSIDMTKAVKINEQFQVSKQFWSYLVNNRRIEKPEEFIRPLPHMSLVHGIENIKFLKKRHKTMTQNPLFKDMKFSDDPEILKKWMPLIMQERTSEEPAAATKVDAGTDVNFGALTRKMFDHLEHQNVTMNYNHSVENLEQTSGGTWSVKVKNANGETTRYLTKFVFIGGGGGSLHLLQKSGIPEGKGIGGFPVSGQFLVCNKPEVAEKHHAKVYGKAPVGAPPMSVPHLDTRYIGDKKTLLFGPFAGFSPKFLKTGSNMDLLTSVNANNVMTMLAAGMKEMALTKYLIQQVLQSKEQRMEALREFVPDAKSEDWELVVAGQRVQVIKDTEKGGRGTLQFGTEVVSSADGTVACLLGASPGASTAVHVMIDVLERCFPDQFAQWEPKLKEMIPSYGTSLQNDPALVEKIHAETGEALGLTEKKLVLN	PGPT0001440_1034	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
AK012_01500	1296			hypothetical protein	GTGGAAGCGAAACAGACGGTGTATGTGAATACTTTTACAGATGGAGTGCTGGACCCAGGTAAAGCTATGGAATACAAAGTGAAGGACGGTGGACATATTATCGCCAATACGACCCCTGGGTGCTGGGGTCCAATGATTACGCCGGCCTTGAAGGGCGGCCATGAAGTGACGAAGCCTGTGTATGTCGAAGGGGCGGAGTCAGGGGATGCCGTCGTCATTCATATCCAGTCGATCGAAGTCACCTCTACCGCTACTGCCTCTGGTAATGATCAACCGGTGAAAGGAAGGTTTACCGGTGACCCCTTCGTCGATGGCAAATGCCCGAACTGCGGCACGAAAAATCCAGACACGTACATCGAAGGAATCGGCCAGCAGGCGATCCGCTGCCGGATCTGTGGTGAAGATGTTACACCGTTTGTATTTACGAACGCGTATACGATGGCTTTTGATGAACAGAAAGAACTTGGACTCACCCTCCCCCGGGAAGCCGCTGAAAAAGTCGCCCATGAGGCCAAGCATTACATGCGGACGCCGGAGGAATCGATCCAAAACCCGGTCGTGACGTTCGCTCCCCATGATCTCGTTGGAGCTGTGGCTCGTCTGCGTCCATTTCTAGGCCAGCTCGGCACCACACCCTCCCGTCCGATTCCGGATTCCCATAACGCTGGTGACTTCGGACAATTTTTGATTGATGCCCCGCACGATTTCGGCTTAACAGCTGAAGAGCTTGAGGAGAGAACGGATGGCCATATGGACATCAACCGTGTCCGCGAAGGGGCTGTCATCATCTGCCCCGTCAAAGTGGAAGGTGGAGGTGTGTATGTGGGCGATATGCATGCGATGCAGGGGAACGGCGAAATCGCCGGCCACACGACAGATGTTTCCGGTATCGTCAGCCTGAAGGTCGATGTGTTGAAGGGAGTCGATCTGGAGGGGCCGATGCTCCTCCCGGTGGAGGAAGATCTGCCTTACCTTGCCAAGCCTTTTTCAGAAAGAGAAAAACAGCAGGCCTTGAAACTCGCTGAAAAATGGCAGGTGGAACAGCTGGAGGATTCCTACCCCGTTTCTTTCATCGGAACTGGAGCGGATTTGAATGCGGCTACGGAGAATGGCATGGAGCGGGCAGCCAGAGCCTTCGGGATCGATGTTCCTGAAGTGATGAACCGCTCCACGATCACCGGATCGATCGATGTCGGCCGCCATCCGGGTGTAGTGACCGTGACGTTCCTGGCGCCGGTGCACTACTTGGAAAAAATAAAAATAGACACACTTGTAAAGGATCATTATAAGCGTTAA	MEAKQTVYVNTFTDGVLDPGKAMEYKVKDGGHIIANTTPGCWGPMITPALKGGHEVTKPVYVEGAESGDAVVIHIQSIEVTSTATASGNDQPVKGRFTGDPFVDGKCPNCGTKNPDTYIEGIGQQAIRCRICGEDVTPFVFTNAYTMAFDEQKELGLTLPREAAEKVAHEAKHYMRTPEESIQNPVVTFAPHDLVGAVARLRPFLGQLGTTPSRPIPDSHNAGDFGQFLIDAPHDFGLTAEELEERTDGHMDINRVREGAVIICPVKVEGGGVYVGDMHAMQGNGEIAGHTTDVSGIVSLKVDVLKGVDLEGPMLLPVEEDLPYLAKPFSEREKQQALKLAEKWQVEQLEDSYPVSFIGTGADLNAATENGMERAARAFGIDVPEVMNRSTITGSIDVGRHPGVVTVTFLAPVHYLEKIKIDTLVKDHYKR	PGPT0000620_244	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0000620-fmdA|amiE|amiF-K01455	NA	NA
AK012_01501	1179	fmdA_1		Formamidase	ATGACGAAACAAATCTTTCAAGTCGATTTGAACAAGCGTATGGATGAGCAGGACGTTGTAGGACATAATCGCTGGCACCCGGACATCCCCGCCGTCTTTTCCGTTAATCCCGGGGAATCGTTCCGTATGGAATGCCTCGACTGGACGGACGGTCAGATTAAGAACAATGATGACCCTTCAGATATCAGGGACGTCCATCTCGACCGGGTCCATGTACTTAGTGGACCGGTCCACGTTAATGGCGTGGAGCCGGGAGATTTATTAGTCGTCGATATTCTCGATATCGGCACGTTCTCCTCCCATGAGTGGGGCTTTAACGGGATTTTTGCCAAGGAAAACGGCGGCAGCTTTTTGACGGATCACTATCCGGAAGCCGCTAAGTCAATCTGGGATTTTGAAGGGATTTACGCCACCTCCCGCCATGTACCGAACGTCAAATTTGCCGGCATCATCCATCCGGGCCTGATCGGTGTAGCCCCGTCCCAGGAGATGCTGGATGAGTGGAACAGAAGAGAAGAGGAGCTTGTCAGCCAGGATCCGGACCGTGTTCCTCCGCTCGCCAACCTGCCGACTAAGGACAACGCCGTCGCAGGCAGTCTGAAGGGAGCGGACTTTGACCGTGTTGCCAGGGAAGGGGCACGGACAGTCCCTCCGCGTGAAAATGGTGGAAACTGTGACATTAAGAATCTTTCTAAGGGTTCAAAAATCTATTTTCCTGTCTTTGTCGACGGGGCCAAGCTCTCTGTCGGTGATCTGCACTTCTCCCAAGGGGACGGCGAAATCACCTTCTGCGGCGGAATAGAGATGCCTGGATGGATCGATTTGAAGGTCGAAGTCATCAAGGACGGCATGAACAAATACCAGATTAAGAGGAATCCGGCGTTCCGTCCTGGTCCCGTGATGCCACACTATAATGAATTCCTCGTCTTTGAGGGCGTGTCCGTCAACGAGTTTTCCGGGAAGCAGACGTATTTGGATGCCAATACGGCTTATCGCAATGCCTGCTTAAACGCTATCGAGTTTTTGAAAACCTTCGGGTTCACAGGTGAACAGGCGTACATGCTGCTTGGAACGGCACCTGTGCAGGGGCATTTGGCCGGCGTCGTCGATATACCGAACTCCTGCTGTACACTTGCCCTGCCGAAGGAAATTTTCACAAAAGATATTCTGCCGAAGTAG	MTKQIFQVDLNKRMDEQDVVGHNRWHPDIPAVFSVNPGESFRMECLDWTDGQIKNNDDPSDIRDVHLDRVHVLSGPVHVNGVEPGDLLVVDILDIGTFSSHEWGFNGIFAKENGGSFLTDHYPEAAKSIWDFEGIYATSRHVPNVKFAGIIHPGLIGVAPSQEMLDEWNRREEELVSQDPDRVPPLANLPTKDNAVAGSLKGADFDRVAREGARTVPPRENGGNCDIKNLSKGSKIYFPVFVDGAKLSVGDLHFSQGDGEITFCGGIEMPGWIDLKVEVIKDGMNKYQIKRNPAFRPGPVMPHYNEFLVFEGVSVNEFSGKQTYLDANTAYRNACLNAIEFLKTFGFTGEQAYMLLGTAPVQGHLAGVVDIPNSCCTLALPKEIFTKDILPK	PGPT0000620_721	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0000620-fmdA|amiE|amiF-K01455	NA	NA
AK012_01502	270			hypothetical protein	GTGGCCCATTTTTCATTTTTATGTGAAGCGTGTGGAGAATTCACAATCTGGATGACCGGCATGAAAGAAAGCAGGAGGGAGGCCTCCTGTCCGGATTGTCAGGCCGTTTCGAAGCGGGTCTTCAAGCCGCCGATGACGTCCAGGATGGACAGCCGCGTCAAGCAGCGGATCGAAAGCGGCATGGAGCCGCGGACCGTCAGGCGTCAAGACCTTCCAGCTTCACGACCGCGGCGCCAGACAACAGCCCGGCCGTGGCAGGCCGGCCATTAA	MAHFSFLCEACGEFTIWMTGMKESRREASCPDCQAVSKRVFKPPMTSRMDSRVKQRIESGMEPRTVRRQDLPASRPRRQTTARPWQAGH	PGPT0000620_980	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-FORMIC_ACID_BIOSYNTHESIS,PGPT0000620-fmdA|amiE|amiF-K01455	NA	NA
AK012_01503	987	pld1		Pyridoxal 4-dehydrogenase	ATGAAAACGTTGGAAAACGCATTAAAACATAGAGTAGGTCTTGGAACAGCACCGCTTGGCAACATGTTCCGCGATGTCCCGGAGGAAGAAGCACGGGAAACGATTCAGACTGCCTGGGATCAGGGCGTCCGTTATTTTGATACGGCTCCTTTTTACGGCGCGGGTCTGGCGGAAAGCCGCCTTGGGGATGTCTTGTCTCAGTATGACCGCGATGAATACGTGATAAGTACGAAAGTCGGCCGCTACATGAGCCAGGAGGAAGAAGACAAAGATGGCTTGTTTGCGCATGGACGTAACAACAAGGTCATTACGGATTATTCCGCAGAAGCAACGAGAAAATCGATTGAACAGAGCCTGGAACGTCTGAAGACGGACCGCCTCGATATTGTCTATGTGCACGATTTATCACCGGACTTTCACGGGGACGAATGGATTTCCAAGTTCGAAGAAGCGCGCACAGGAGCTTTCCGCGTGCTGTCCGAGATGCGTGAAAAAGGCATCATTAAAGGCTGGGGCCTTGGCGTAAATACGACCGAGCCGATTGAAATTGCGATGGAGCTTGAGGAAAACCGTCCGGATATCAACCTGTCAGCTATCCAGTATACCCTTCTTCAGCACGATCGTGCGCTTGAGCGTATGATGAAGACAGCAGAGGAAAAGGGCATTGATATCGTTGTCGGCGGCCCTTACAACTCCGGTGCCTTGTTCGGCGGGGACCACTTTAACTATGAAAAAGCGGGCGCTGACATCATCGGCCGTGTGAATCAGTTGAAGGAGATCGGTGATAAGCATGGCGTTCATCTGAAAGCGGCGGCCCTGCAGTTTTCTACCGCCCATCCGGCTGTGAAATCCGTCATTCCCGGGTCCACACGTCCGGAACGTATTAAAGAGGATCTTGATATGATTCAGCGCGACATTCCAGAGGCATTCTGGCAGGAACTCGTGGAGCGCGGCTTCATTTCCCCGCAGGCGCCACTGCCTGAATAA	MKTLENALKHRVGLGTAPLGNMFRDVPEEEARETIQTAWDQGVRYFDTAPFYGAGLAESRLGDVLSQYDRDEYVISTKVGRYMSQEEEDKDGLFAHGRNNKVITDYSAEATRKSIEQSLERLKTDRLDIVYVHDLSPDFHGDEWISKFEEARTGAFRVLSEMREKGIIKGWGLGVNTTEPIEIAMELEENRPDINLSAIQYTLLQHDRALERMMKTAEEKGIDIVVGGPYNSGALFGGDHFNYEKAGADIIGRVNQLKEIGDKHGVHLKAAALQFSTAHPAVKSVIPGSTRPERIKEDLDMIQRDIPEAFWQELVERGFISPQAPLPE	PGPT0017915_738	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FUCOSE_DEGRADATION,PGPT0017915-pld-K00064	NA	NA
AK012_01504	882	gltR_1	COG0583	HTH-type transcriptional regulator GltR	ATGGAAATCAGGCATCTCGTCACTTTTCAAGCGATATTGGAAACAGGCAGTTATACCGGAGCCGCCGTGAACCTCGGCTATACACAATCCACTCTTACCGCACACATCCAGGCACTCGAAAGCGAAATCGGGGGTCCGTTGTTCACGTACGTTGAACGAAAGCTTCAGCTGACTCCGCTGGGCCGGGAGCTGATCCCCCTTGCCGAAGACCTGCTCTCCACCCGTGATCAAATCCGGAATATGAAGCACAGCAAAAAGATGAGCGGCACCTTGACCATAGCGGCCCCGGAATCGCTGACCATCTCCATGCTCGGCCCCATCCTTCAGGACTACTCGCTCCAGTACCCGGAGGTAAATCTCGTCGTCACCAACGGCACATGCGGCGAAAACCAGAGTGATGTTCTCAGCGGCCGCGTAGATATTGCTTTCATGATTTACCCGGATTTCCAGCAGGAGAAATGCCTCCATTATTCTTTAGGGATGGAGGAAATTGTGCTTGTCACCCATCCCGACGGCTCCGATCACTTTGGGGAGATCAAGCAGAGGAAGCCTGTTTACCTAACTAATGAGAAAGGGTGCAGTTACCGGATGATGTTTGAGAAACACCTGATGAAACAGGATCTGGAGTTTCCCACGATGGAATTATGGAGCATTGAAGCCATCAAACAGATGGTGATGAGCGGCCTCGGCTTTGCAGCTCTTCCCAGACGGACGGTTCAACAGGAAATCGAAACCGGCCGGTTGAAAAAAATCGCCCATGAGGAATCCTTTTCTCCTTTGTATTCCCATATGCTGATTCGAAACAAGAAATGGCTGTCTCCAGCCGTCGAAGCCTTTTTGAATACTGTTATGTCGAAGATTACTGAGGTTGAAAAAATGTAA	MEIRHLVTFQAILETGSYTGAAVNLGYTQSTLTAHIQALESEIGGPLFTYVERKLQLTPLGRELIPLAEDLLSTRDQIRNMKHSKKMSGTLTIAAPESLTISMLGPILQDYSLQYPEVNLVVTNGTCGENQSDVLSGRVDIAFMIYPDFQQEKCLHYSLGMEEIVLVTHPDGSDHFGEIKQRKPVYLTNEKGCSYRMMFEKHLMKQDLEFPTMELWSIEAIKQMVMSGLGFAALPRRTVQQEIETGRLKKIAHEESFSPLYSHMLIRNKKWLSPAVEAFLNTVMSKITEVEKM				NA	NA	NA	NA	NA
AK012_01505	579	eamB	COG1280	Cysteine/O-acetylserine efflux protein	ATGAATATAGCTGCCTTTTTATCTTATATCATCATTACATCGGTGACGCCCGGACCGAGTAATTTATTGATGATGAATGAGGCACGTCGATACGGGTTTAAGGGAGCCTGGAAGTTTAATAGTGGGATCTTAACAGGTTTTGCGCTGCTCGGGATCGTCAGCGGGTTGTTTACCGCTGGTCTCTATCAGTGGATTCCAGTCATTGAGCCGTACTTCAAAGCGGCCGGCGCTCTCTATCTTGTCTATTTAGCCTGGAAGATCGGATTTCCTAAAGCCGGCAGCAGTCAAGCGTCAGAGCTGGAGTCCTCCTTCTATACAGGACTTCTTTTTCAATTGATTAATGTGAAAAGCATTTTGTTCTTTCTGACGGTGATGAGTGTATTCATTATGCCGGCTGCACAGTCGGTATCCATGATGATTTTCTATACTGCCGTCACGATTGTCCTGGGGTGGACAGCGCTGCTGCTTTGGTCGATGTTTGGCTCCTTGTTGAAAAATTTCTGGCACCGCTATGACCGGATTTTCAGGGTCGTAATGGCTGCTTTACTCATCTACGCGGCTTCAGCTATTCTATTTTAG	MNIAAFLSYIIITSVTPGPSNLLMMNEARRYGFKGAWKFNSGILTGFALLGIVSGLFTAGLYQWIPVIEPYFKAAGALYLVYLAWKIGFPKAGSSQASELESSFYTGLLFQLINVKSILFFLTVMSVFIMPAAQSVSMMIFYTAVTIVLGWTALLLWSMFGSLLKNFWHRYDRIFRVVMAALLIYAASAILF				NA	NA	NA	NA	NA
AK012_01506	1536	ahpF	COG3634	NADH dehydrogenase	ATGGTTCTCGATGCACAAATAAAAGCACAATTGGAACAGTACCTGCAGCTTTTAGAAGGTGACATCGAACTGAAAGTCAGCGCGGGGGACGACAATGTCTCCCGTGACATGCTGGCTCTCACCGATGAACTTGCATCCATGTCACCGAAAATTACTGTCCAGAATACAACACTTAAACGTACACCAAGCTTCAGCGTCAATCGCCCTCAGGAAGAAACAGGCATTACGTTTGCCGGTGTTCCTCTCGGTCATGAATTCACCTCTCTCGTCCTCGCCCTCCTTCAAGTGAGCGGCCGTGCTCCGAAAGTGGATGACACCATGATTGAGAAAATCCAGAATATCAAAGGCGAGTTTCATTTCGAGACATTTGTCAGCCTGAGCTGCCACAACTGTCCGGATGTCGTACAAGCCTTGAATATCATGAGCGTACTGAACCCGGGCATCACCCATACAATGGTCGATGGTTCTGCCTTTAAAGAAGAAGCAGAAAGCCGCAACATCATGGCTGTTCCATCTGCCTTCCTGAACGGCGAATTCTTCAATGGCGGCCGCATCAGCCTTGAAGAGATCGTTGCTAAAATCAGTGAAGGGCCTTCCGCTGAGGAATTTACAGAGCGTGAACCTTATGACGTTCTTGTTGTCGGTGGGGGACCTGCTGGAGCAAGCTCAGCGATCTACTCCGCCCGTAAGGGAATCCGTACCGGTATCGTAGCGGAACGCTTCGGCGGCCAGGTGCTGGATACAATGACGATTGAAAACTTCATCAGTGTGAAAAGCACCGAAGGACCGAAGTTTGCCGCAAGTCTTGAAGAACACGTCAAAGACTATGATATCGATATCATGAACCTGCAGCGTGCCAAGGATCTGCGCAAAAATGATGAAGGCATGTTTGAACTTGAACTTGATAACGGCGGCGTGCTGAAAAGTAAGACCGTCATTCTTTCCACAGGTGCCCGTTGGCGTGAAACCGGCGTTCCGGGAGAAGAAGAGTTCAAGAACAAAGGTGTCGCTTTCTGTCCGCACTGTGACGGTCCTCTATTCGAAGGCAAAGACGTAGCGGTCATCGGCGGAGGAAACTCCGGCGTGGAAGCAGCCATCGATCTTGCCGGTATCGTCCAAAATGTGACCGTCCTAGAATTTGCAGACACGCTGAAAGCCGATGATGTGCTTCAAGAGCGTCTGCACAGCCTTCCGAACGTCGAAGTGAAGACAGGCGCGCAGACAACGGAAATTACCGGCGATGAGAATGTGAACGGCATCACGTACATCGACCGTGCTTCCGGCGAAGAACAGCACGTGGACCTTGAGGGCGTATTCGTCCAGATCGGTCTCGTACCGAACACGGAATGGCTCAGCACAGATGTTGAAACGAATAAGATTGGTGAAATCATTACAGATAAACACGGATCCACAAGCATTCCTGGTTTGTTTGCTGCCGGTGACGTCACCGACAGCCCGCACAACCAGATCATCATCTCCATGGGAGACGGTGCCAATGCAGCGCTTGGCGCATTCGATTATCTGATCCGTAACTGA	MVLDAQIKAQLEQYLQLLEGDIELKVSAGDDNVSRDMLALTDELASMSPKITVQNTTLKRTPSFSVNRPQEETGITFAGVPLGHEFTSLVLALLQVSGRAPKVDDTMIEKIQNIKGEFHFETFVSLSCHNCPDVVQALNIMSVLNPGITHTMVDGSAFKEEAESRNIMAVPSAFLNGEFFNGGRISLEEIVAKISEGPSAEEFTEREPYDVLVVGGGPAGASSAIYSARKGIRTGIVAERFGGQVLDTMTIENFISVKSTEGPKFAASLEEHVKDYDIDIMNLQRAKDLRKNDEGMFELELDNGGVLKSKTVILSTGARWRETGVPGEEEFKNKGVAFCPHCDGPLFEGKDVAVIGGGNSGVEAAIDLAGIVQNVTVLEFADTLKADDVLQERLHSLPNVEVKTGAQTTEITGDENVNGITYIDRASGEEQHVDLEGVFVQIGLVPNTEWLSTDVETNKIGEIITDKHGSTSIPGLFAAGDVTDSPHNQIIISMGDGANAALGAFDYLIRN	PGPT0013150_1301	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013150-ahpF-K03387	NA	NA
AK012_01507	564	ahpC	COG0450	Alkyl hydroperoxide reductase C	ATGTCCCTAATCGGAAAAGAAGTACAATCATTCCAGGCGAAAGCATTCAAACAAGGTGAATTCATCGATGTTTCCAACGAAGACTTCAAAGGTCAGTGGAGCGTTGTTTGTTTCTACCCGGCAGACTTCTCTTTCGTATGCCCTACAGAGCTTGAAGACCTGCAGAACAACTATGCAGCCCTTAAAGAACTAGGTGCAGAAGTATACTCTGTTTCTACAGATACTCACTTCGTACACAAAGGCTGGCACGACAGCTCTGAAAAAATTGGTAAAATCGAATACGCTATGATCGGGGACCCTTCCCAGCAGCTTTCCCGTCAGTTCGACGTTCTTAACGAAGAAGACGGACTGGCTGACCGCGGAACGTTCATCATCGATCCAGACGGCGTTATCCAGACGGTAGAAGTTAACGCAGGTGGAATCGGCCGCGATGCAGATAACCTGATCGGCAAAATCAAAGCCGCTCAATACGTTCGCAACAACCCGGGTGAGGTATGCCCTGCCAAATGGGAAGAAGGCGAAGAAACCCTTACACCAAGCCTTGATCTAGTAGGTAAAATCTAA	MSLIGKEVQSFQAKAFKQGEFIDVSNEDFKGQWSVVCFYPADFSFVCPTELEDLQNNYAALKELGAEVYSVSTDTHFVHKGWHDSSEKIGKIEYAMIGDPSQQLSRQFDVLNEEDGLADRGTFIIDPDGVIQTVEVNAGGIGRDADNLIGKIKAAQYVRNNPGEVCPAKWEEGEETLTPSLDLVGKI	PGPT0003260_241	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0003260-ahpC-K24119	NA	NA
AK012_01508	579			hypothetical protein	ATGCATAAAATTTCAACTGCTTTATTAGCACTGGTCGTCGTGCTTGGGTTGTTCACACCGGCAGTCCATGCTCATACATCATTGGAAAATTCGACGCCCTCTGAAGGGGAGACGGTGGAAGAACCGCTGGATACGATCGAACTGAATTTCAATACAGTCATTGAAGAGGGAAGTACGCTTGAATTATCGAAATCGGAGGGAGAGGCTCCTGCACCGGCCGATGTGACGATCTCTGATCAGACGATGACCGCCGTGTTTGATGAAGCCCTTGAAAATGGAGCGTATACGGTCCATTGGGAAATCATCGGTGCGGATGGTCATGTCATTGAAAAGCAATTCAGCTTCACTGTTGATGGCGAAGATGTTCAAGAAGAAACGGAAACGACAGAAGAAGCTGTTCCTGAAGAGGAAACAGAAGCAGAGGGGGAAACCGATGCAGAACAGCCGGAAACAGACGTGGACAGCGAACAGGAGACAGAAGAGGAAAACAGTCTCCCTGTTTTCATGATCATCGTTGCTCTCCTGCTTCTGGCCGTTGTGATCGTGCTCGCCGTCAAGCTGTTCAGCAGCAGGAAGTGA	MHKISTALLALVVVLGLFTPAVHAHTSLENSTPSEGETVEEPLDTIELNFNTVIEEGSTLELSKSEGEAPAPADVTISDQTMTAVFDEALENGAYTVHWEIIGADGHVIEKQFSFTVDGEDVQEETETTEEAVPEEETEAEGETDAEQPETDVDSEQETEEENSLPVFMIIVALLLLAVVIVLAVKLFSSRK				NA	NA	NA	NA	NA
AK012_01509	1113			hypothetical protein	ATGGGGATTCTGATTGGACTGACTGAGCTGCTTCTGTACCTTTCTTTTTCCTTATTAATGGGGGCGTTGATCCTGCTGCTTGTACCGGATCATCTAAAGCCCCCGGTCCGTGTGAACCCCAAACTGATCCAGGCCTGTGCTCTTTTGGTGACGTTCGGATCTTTTCTTCCGGTGCTGCCGATTGTTGATCTGCTGTCATCTTCAAGGGGATGGGGGAGCGCCTTCATTCAGGTCATATTCGAGTTTGCGGTCGGCCGTGCCTTTTTATTGACCGCCCTGTTTTCTATGCTCCTTCTCCTTATCTGGACGTCAAAAGATGTGAAGGAAAAAGCGGGCCTGCTTTATTTATCCTTGGGACTGGTCGCTGCGATGACGGCTTCCTATTCGATGGCTGCTCATGCGGCATCAATGGGCGGATCGGCCGGTCACGTGTTCCATACGCTGCATTTTCTTGGAGCATCGGTATGGATCGGCCTGCTCCTGGTGGTGAGCTGGTACGCGGTGTCCAAGAAAAACTGGGGCTCTTTTCTGCGATGGTATACGCCGACAGCTGCCACCAGTCTGATTGTCGTTTTTGCCGCCGGGTACTTCACCATGTCCGTGGATCTGTACAGCTTTGGGAACCCTGACATGAATGCATTGGAAGGCTATGCGCAGGCCCTGCCCTCCAACTATGGACAGGCGCTTCTAGTTAAACACTTGTTTGTTATCGGCATCCTTCTCTTCGCCTTGATTAACGGTGTGTTATTCCGTAAAAAGGCGGGAGACCAGCACTTCAATCCATTCCCATGGACGAAGGCGGAAAGTGGGTTTGCCCTCGGCGCTTTTGCTCTGACAGCTGTGATGGGACAGGTGGGTACACCCCCTGAGGAGGGGACAAAAGGAGACGAAGCTTCCTACTTGTACCGGGCGTTTACCGGTGAGAGCGGCTCGGAGTTCATAGAAGTGACGATGTCGTTCGGACCGGTGAGCTGGCTGCTCGGTCTGATCGGCTCCCTGTTCCTGCTGCTCACCATCGCTTCCGCGGTGAAGAAGCCTTCGCTTGGGATGGTGACGGCTGCCGGCAGCCTGATGGTTGTATCGTTTTATTTGGCCGTTATGACGGCTGTGTAA	MGILIGLTELLLYLSFSLLMGALILLLVPDHLKPPVRVNPKLIQACALLVTFGSFLPVLPIVDLLSSSRGWGSAFIQVIFEFAVGRAFLLTALFSMLLLLIWTSKDVKEKAGLLYLSLGLVAAMTASYSMAAHAASMGGSAGHVFHTLHFLGASVWIGLLLVVSWYAVSKKNWGSFLRWYTPTAATSLIVVFAAGYFTMSVDLYSFGNPDMNALEGYAQALPSNYGQALLVKHLFVIGILLFALINGVLFRKKAGDQHFNPFPWTKAESGFALGAFALTAVMGQVGTPPEEGTKGDEASYLYRAFTGESGSEFIEVTMSFGPVSWLLGLIGSLFLLLTIASAVKKPSLGMVTAAGSLMVVSFYLAVMTAV				NA	NA	NA	NA	NA
AK012_01510	1347	gntT	COG2610	High-affinity gluconate transporter	ATGCCATTATTAATGGTCGCAATTGGAATCGTCGCTTTACTTATCTTGATTATGGGACTCAAACTGAATACGTTTGTTTCCCTGATTATCGTCTCCTTCGGTGTTGCCATCCTGCTCGGCATGCCGCTTACGGATATCGTTCCAACCATCGAGGCCGGTCTCGGCGGAACGCTCGGCCACCTCGCTTTGATCTTCGGTCTTGGAGCTATGCTCGGTAAGTTGATCACAGACGCCGGTGGTGCCCAGCGCATTGCCATGACTTTCGTCAATAAGTTCGGAGAAAAGAACATTCAGTGGGCGGTTGTAGCTGCTTCCTTCATTATTGGAATTGCGCTGTTCTTTGAAGTCGGACTTGTTCTGTTAATCCCGATCGTTTTTGCGATTTCAAGAGAGCTCCGTGTATCCATCCTGTATCTGGGAATCCCGATGGCAGCTGCGCTGTCCGTGACCCACGGATTCCTGCCGCCACACCCGGGCCCGACAGTTATCGCTGGTGAGTACGGGGCGGACCTCGGTGAAGTGCTGCTTTACGGAATCATCATTGCTGTTCCGACGGTTATTCTGGCTGGTCCGATTTTCACAAAAATGGCAAAGAAAATTGTCCCGGACTCGTTTAAAAAGCAGGGGAACATCGCTTCTTTAGGCGAACAGAAATCCTTCAAGCTTGAAGAGACACCAAGCTTTGGGATCAGTGTCTTCACAGCTATGCTGCCCGTCATTTTAATTGCTATTTCTACGATTATTACGTTGATTCAAGAAACAATGGGTGTAGAATCCAGTGGTTTTCTCTCTGTTATAAACTTAATTGGAAACGCATCCACAGCAATGATCATCTCCCTGCTTGTGGCGGTTTACACCATGGGAATCGCCCGTAACATCCCGGTTAAGGACGTGATGGATTCCTGTTCGACCGCTATTGCCCAAATCGGTATGATGCTGTTGATCATCGGGGGCGGCGGTGCCTTCAAGCAGGTCTTGATTGACGGCGGTGTCGGTGATTATGTGGCACAGATGTTTGAAGGCTCTTCCATGTCTCCACTGCTGCTTGCGTGGATCATCGCTGCGATTCTAAGAATCTCTCTCGGTTCCGCTACCGTAGCTGCCTTGACGACGGTCGGCCTTGTCACACCGCTTCTCGGACAGACGGATGTGAACCTGGCACTGATGGTGCTTTCCACAGGAGCCGGAAGCTTGATTGCCTCCCACGTCAACGACGCCGGGTTCTGGATGTTCAAGGAATACTTCGGTTTAACGATGAAGGAAACCTTTGCTACATGGACGCTTCTGGAAACGATCATTTCCGTCGCCGGCCTTGGCTTTGTCCTTCTGTTCAGTCTCTTTGTCTAA	MPLLMVAIGIVALLILIMGLKLNTFVSLIIVSFGVAILLGMPLTDIVPTIEAGLGGTLGHLALIFGLGAMLGKLITDAGGAQRIAMTFVNKFGEKNIQWAVVAASFIIGIALFFEVGLVLLIPIVFAISRELRVSILYLGIPMAAALSVTHGFLPPHPGPTVIAGEYGADLGEVLLYGIIIAVPTVILAGPIFTKMAKKIVPDSFKKQGNIASLGEQKSFKLEETPSFGISVFTAMLPVILIAISTIITLIQETMGVESSGFLSVINLIGNASTAMIISLLVAVYTMGIARNIPVKDVMDSCSTAIAQIGMMLLIIGGGGAFKQVLIDGGVGDYVAQMFEGSSMSPLLLAWIIAAILRISLGSATVAALTTVGLVTPLLGQTDVNLALMVLSTGAGSLIASHVNDAGFWMFKEYFGLTMKETFATWTLLETIISVAGLGFVLLFSLFV	PGPT0001340_2144	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
AK012_01511	1536	xylB_2	COG1070	Xylulose kinase	ATGACTAACTATATGATGGGTGTCGATATCGGCACCACCAGCACGAAAGCTGTCCTGTTCACGGAAAAAGGAGATGTCGTGGAAAAAGCCAATGTCGGTTACCCCCTTCATACGCCTGACATCTCGACAGCTGAGCAGGACCCCGATGAAATTTTCCAGGCCGTTTTGGAAGCGGTCACACAAATAAGAAAGGCTCACGAAGATAAAGCCATTTCCTTCATATCCTTCAGCAGTGCGATGCACAGTCTGATTGCCGTCGATGAACATGGCTTACCAATCACACCGTGCATTACGTGGGCGGACAACCGAAGTGAGAAATGGTCGGAAAAAATCAAGACTGAGTGGAACGGCCACGGCATTTACCGGAGAACCGGGACACCGATTCATCCGATGAGTCCGCTCAGCAAAATTACATGGCTCGTTCAGGAACACCCTGAAATCGATTCCAGAACTTATAAATATATCGGTATCAAAGAATATATCTTCCATAAGCTGTTTGGCACGTATGTGGTCGATCATTCCATCGCTTCGGCGACCGGATTAATGAATCTGGAGGAACTTGACTGGGATGAAGAAGCCTTAGAAGTCGCCGGCATCGGCCGTGATAAGCTTTCCGAGCTCGTTTCTACGACCACCATATTCACCGGGTTGAAAGAAGAATACGCCAGGGCGGCCGGTCTTGATGCTGACATTTCCTTTGTGATTGGCGCGAGTGACGGAGTGCTTTCCAACCTTGGTGTCAATGCCATAAAAAAAGGAGAAATTGCTGTCACCATCGGTACAAGCGGAGCGATCCGGACCGTGATCGACAAGCCGCAGACTGATGAAAAAGGCCGGATCTTCTGCTACGCGCTTACAGAAGATCAATGGGTCATCGGAGGACCGGTGAACAATGGCGGCATGATTCTCCGCTGGATCCGTGATGAATTTGCTTCATCGGAAGCAGAAACAGCGAAACGTCTCGGCATCGACCCATATGAAGTGCTGACGAAGATCGCAGAAGGCGTCCGCCCTGGATCTGACGGACTGCTTTTCCACCCTTACCTGGCCGGAGAGCGGGCCCCTCTTTGGAATCCGGATGTACGCGGCTCCTTCTTCGGACTGACACTATCCCATAAAAAAGAGCACATGATCCGAGCTGCATTGGAAGGCGTCATCTACAACCTGTACACGGTTTTCCTTGCCCTGACGGAATGTATGGACGGACCAGTGACAAGGATTCAGGCGACCGGCGGGTTTGCCCGTTCGGAAGTGTGGCGCCAGATGATGGCTGATATTTTCGAATCCGAGGTCGTCGTCCCGGAAAGCTATGAAAGTTCCTGTCTCGGAGCCTGTATTCTAGGACTCTATGCTGCAGGAAAAACCGATTCACTGGATATTGTATCTGATATGATCGGCAGCACCTTCAAGCACACACCGGAAGAAGAAGCGGTCCATGAATACCGCCAGCTGCTTCCGATGTTCATCCAGCTGTCCAGATCTCTGGAAGAAAACTACGCCAGTATTGCCAATTACCAACGAAACTTAACCAACTAA	MTNYMMGVDIGTTSTKAVLFTEKGDVVEKANVGYPLHTPDISTAEQDPDEIFQAVLEAVTQIRKAHEDKAISFISFSSAMHSLIAVDEHGLPITPCITWADNRSEKWSEKIKTEWNGHGIYRRTGTPIHPMSPLSKITWLVQEHPEIDSRTYKYIGIKEYIFHKLFGTYVVDHSIASATGLMNLEELDWDEEALEVAGIGRDKLSELVSTTTIFTGLKEEYARAAGLDADISFVIGASDGVLSNLGVNAIKKGEIAVTIGTSGAIRTVIDKPQTDEKGRIFCYALTEDQWVIGGPVNNGGMILRWIRDEFASSEAETAKRLGIDPYEVLTKIAEGVRPGSDGLLFHPYLAGERAPLWNPDVRGSFFGLTLSHKKEHMIRAALEGVIYNLYTVFLALTECMDGPVTRIQATGGFARSEVWRQMMADIFESEVVVPESYESSCLGACILGLYAAGKTDSLDIVSDMIGSTFKHTPEEEAVHEYRQLLPMFIQLSRSLEENYASIANYQRNLTN				NA	NA	NA	NA	NA
AK012_01512	729	rspR_2	COG1802	HTH-type transcriptional repressor RspR	ATGACAGATTCCATCCCTTATTTATATCCAGATAAATGGCTGAATAAAGCATCGGCCGGTGAACGCGTCGCATCTGAGCTTCGGATCCGGATAATTGCCGGGTTGATTGAAAGCGGTTCAAAACTGTCCGAAAACCAGCTGGCATCCGAATTCTCGGTCAGCCGCTCCCCGGTACGTGAGGCACTTAAGCTGCTTGCAGCTGAAAACCTGATCCGTCTTGAACGGATGGGTGCGGTTGTTCTTGGACTATCCGAAAAGGAAATCCAGGAAATCTATGATGTGCGTCTATTAATCGAAACATTCGTATTTGAACGGCTCGTCAAAATGGACACGACAGGTCTTGTGAAAGAATTGAGCAAGACACTGGAAATGATGAAAATCGCCATCAAATATAAAGATGCCGACGATTTCTCCTTTGAAGATGTCCTGTTTCACGAAACGATCATCCGTTCCATTGACCATTCCCACATTTTTATGATTTGGAAGAACCTGAAGCCGACCCTGGAAAGTCTGATTCTCATTTCCATGCGCATGCGCTTCAAGGAAAAGTACGATGATTTTGACCGGATCGTTCATAACCATGAATTGTACATTGAAGCGATCCGCCGGAAGGACCGTGACCTTATGATTGAATCCCTTCATAAAAATTTCGATGACGTCCAGGGCAGTGTGGAAGATTTATGGAGATCCCAGCAGATCTATTCAGAAGGAGTCGAAAGCGATGACTAA	MTDSIPYLYPDKWLNKASAGERVASELRIRIIAGLIESGSKLSENQLASEFSVSRSPVREALKLLAAENLIRLERMGAVVLGLSEKEIQEIYDVRLLIETFVFERLVKMDTTGLVKELSKTLEMMKIAIKYKDADDFSFEDVLFHETIIRSIDHSHIFMIWKNLKPTLESLILISMRMRFKEKYDDFDRIVHNHELYIEAIRRKDRDLMIESLHKNFDDVQGSVEDLWRSQQIYSEGVESDD				NA	NA	NA	NA	NA
AK012_01513	825	sacY	COG3711	Levansucrase and sucrase synthesis operon antiterminator	ATGCGCATTTTTAAAATTTTGAACAACAACGCTGTTGTCGTGTATGACGGAGGACAGGAAAAGATCGTGATGGGGAAGGGGCTTGCCTTTCAAAAGAAACGCAACGATATCGTCCCGAAAAATAAAATCGAAAAGATTTTCCTGCTTCGGGATCAGTCATCAGAGAAGTTCCAGCAGCTGCTTTCGACACTCCCTGAAGCTCACATAGATCTCGCTGAACGAATCATCAGCTATGCAGAGGGTCATTTGGAAGCACCGTTGAATGACCACATTCATATTGCACTCACCGATCACCTTTCCTTCGCACTTGAACGTCTGGAACAGGGGTTTCCGATTCACAATAAGCTTACACACGAAATCAAGTTTCTCTATAAGAAGGAATTTGAGGCGGGGATGTGGGCAAAAGAAGAAATCAGGAAAGTGATGGGTGTTGATATTCCACCTGATGAAGTCGCGCATATCGCGCTCCATATCCATACCGCAAAAATGGACTCCCCGTCCATGCAGGAATCTCTCCAGACAGCAACGGTGCTCAGGGACATTGTGGAGAAAGTGGAAGAACGCGCGGGAATTACGATTGAAGAAACAAGTATCAATTACCAGCGTCTGATCACCCATCTGCGCTTTGCGCTCAGCCGTGTGGAGGAAGGCAGTCAGTTCGAGCCGATTGACGAAGACATGCTCGAATTGATAAAAATGAAGTACAGCGACGCATTCCGGACGTCTGAAGAAGTGGCAGACTTCTTGAAAGCGGAGTACAATATCGATTTTCCAGAGTCGGAAATCGCCTATATCGCCCTTCATATTCAGCGTTTAATGAAGTAA	MRIFKILNNNAVVVYDGGQEKIVMGKGLAFQKKRNDIVPKNKIEKIFLLRDQSSEKFQQLLSTLPEAHIDLAERIISYAEGHLEAPLNDHIHIALTDHLSFALERLEQGFPIHNKLTHEIKFLYKKEFEAGMWAKEEIRKVMGVDIPPDEVAHIALHIHTAKMDSPSMQESLQTATVLRDIVEKVEERAGITIEETSINYQRLITHLRFALSRVEEGSQFEPIDEDMLELIKMKYSDAFRTSEEVADFLKAEYNIDFPESEIAYIALHIQRLMK	PGPT0014761_1139	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
AK012_01514	1383	sacX	COG1263	Negative regulator of SacY activity	ATGAATCACAAAGAAGTTGCTGAACAGCTGGTCTCTCTGCTTGGTGGAAAAGAGAACATTGTCAGTGCCACTCACTGTGCCACTCGTCTCCGCCTTGTTATGGACGATGAGAGCAAAATAGATAAATCTGCCGTTGAAGAACTCGATGGCGTCAAAGGAGCGTTCTCGAGCTCCGGACAGTATCAAGTCATCTTCGGAACAGGGACCGTCAACAAAGTGTTCGCCCACTTCGGCCCGCTGGTAGGCGCATCCGTGGAAGATGATGAGGACAAGAAAGACGCATCGGTCTCCCATAAAGATGCAGCGAAAAGTAAAATGAACCCGTTCGCCCGTTTCGCGCGGACGCTTTCCAACATTTTCGTTCCAATCATTCCGGCGATCGTAGCTGCCGGTATGCTGATGGGGCTGCTCGGCTTAATGCGTACGTACGAATGGATGGATCCTTCCAGCGGTCTCTTCGTTATGCTGGATATGTTCTCCTCTGCGTCCTTTATCATTCTGCCGATCCTGATCGGTTTCAGTGCAGCGAAAGAATTTGGAGGGAATACGTATTTAGGTGCCGTTATCGGGGGAATTATGACCCACCCGGCCCTCTTGAATCCGTGGGGTCTTTCCGATGCTCAGCCGGAAACCCTTGATTTCTTCGGCTTCGGTGTTGAAATGCTCGGTTATCAGGGAACCGTTATCCCTGTGCTATTGACGGTCTTCGTCATGTCCTGGCTTGAAAAGAATTTCCGTAAGATCGTTCCGAACGCGGTCGATCTTCTGCTTACACCGTTCCTGACTGTTATTTTCACCGGTTTCGTAGCGCTTCTTGTTGTAGGACCGCTCGGCCGTATGCTTGGTAATGGACTGACTACCGCTCTTGATGTGGTCTATGAAACAGCCGGGCCGATTGCCGGGCTGATCTTCGGGGGCTTGTACTCCACCATCGTATTGACCGGGGTGCACCACAGCTTCCACGCCATAGAGGCGGAGCTCTTGAATAATGTCGGCGGAAACTACCTGCTTCCAATCTGGGCGATGGCCAACATTGCTCAAGGGGGAGCGACACTTGCCGTATTCTTTAAAACACGCAACAAGAAAACGAAAGAAATCGCTCTTCCAGCTGCTATTTCTGCATTCCTTGGAATTACAGAGCCGGCGATCTTCGGTGTGAACTTGAAGCACCGCCGTCCATTTATCGGGGCAGCCATTGGTGGCGCCCTCGGCGGAGCCTACGTCGTCTTCACGAAAGTTATGGCGAACGGTATCGGCCTGACTGGTATTCCGATGTTTGCGATCGCGCAGGATCCGATCAACTACGGGATCGGCTGTCTCATCGCGGTCGGCGGTGCGGTCACTGCCACTCTTCTTCTTGGATGGAAGGAAGAAGCGAAGTAA	MNHKEVAEQLVSLLGGKENIVSATHCATRLRLVMDDESKIDKSAVEELDGVKGAFSSSGQYQVIFGTGTVNKVFAHFGPLVGASVEDDEDKKDASVSHKDAAKSKMNPFARFARTLSNIFVPIIPAIVAAGMLMGLLGLMRTYEWMDPSSGLFVMLDMFSSASFIILPILIGFSAAKEFGGNTYLGAVIGGIMTHPALLNPWGLSDAQPETLDFFGFGVEMLGYQGTVIPVLLTVFVMSWLEKNFRKIVPNAVDLLLTPFLTVIFTGFVALLVVGPLGRMLGNGLTTALDVVYETAGPIAGLIFGGLYSTIVLTGVHHSFHAIEAELLNNVGGNYLLPIWAMANIAQGGATLAVFFKTRNKKTKEIALPAAISAFLGITEPAIFGVNLKHRRPFIGAAIGGALGGAYVVFTKVMANGIGLTGIPMFAIAQDPINYGIGCLIAVGGAVTATLLLGWKEEAK	PGPT0014190_1036	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
AK012_01515	954	scrK	COG0524	Fructokinase	ATGAAAAATGGTGTCATCTCGCTCGGTGAAGCGTTAATCGATTTTATCCCTTTGGATAAAAACAATGTGAACTACCAGAAAAGTCCCGGCGGTGCTCCGGCCAATGTGTCGGTCGGTCTTGCCAGACTAGGTGTGCCTTCTACGTTCTTAGGGAAGGTCGGCGATGATGTTCTCGGACGTTTCCTGAAGACAACCCTTGAAGATTTCGGGGTGCAGACCCATGCGATGCCTTTGACGGCTGATGTGCGTACAGGTGTCGTGTTTGTAACGAACGCGGAAGACGGAGAGCGCAGCTTTGATTTTTATATCCATCCAAGTGCCGATCAGTTTTTAGAGCGTTCGGACCTTCAGGAATCCGATTTTGACACACATAAAGTGCTTCATTTCGGTTCCATCTCCATGATTGGAGATACGGTGAAAGATACAACGAAGCGGGCCGTGGAGCTTGCAAAGGAAAAGGGCATGCTGGTTTCCTATGATCCCAACCTCCGCATGATGCTGTGGCCTTCTGAGGAACAGGCACGGAAAACGATCATTTCCATGCTTGGGGAAGCGGATATGCTCAAGCTTTCTGAAGAAGAGCTGGAATTCATCACAGGAGAAAAAGAAATCATGCCCGGCCTGAAAGCCCTCGAGAAGTATGAGATCCCTCTCGTTCTCATTACCATGGGCGGGGACGGGAGCTATGTTTCTACGAAAGAAGGCGTCGAGCACGTACCGGCGATGAAAGTAAAAGCGGTCGATACAACAGGGGCTGGAGATGCGTTTGTCTCCGGTATGCTTTATCAGCTGAACCGCTATGAGGGGAACATGGAGGAACTGACGCTTGCGGAAGCTGTAAAAATGGCAGAATTCGCAGCCGTTTCCGGAGCACTGGCTGCATCGACAAAGGGAGCGATGACGGCCCTTCCGACCATTGAAGAAGTTCAAACACGCCTTCAGTCAGGAGAGTAA	MKNGVISLGEALIDFIPLDKNNVNYQKSPGGAPANVSVGLARLGVPSTFLGKVGDDVLGRFLKTTLEDFGVQTHAMPLTADVRTGVVFVTNAEDGERSFDFYIHPSADQFLERSDLQESDFDTHKVLHFGSISMIGDTVKDTTKRAVELAKEKGMLVSYDPNLRMMLWPSEEQARKTIISMLGEADMLKLSEEELEFITGEKEIMPGLKALEKYEIPLVLITMGGDGSYVSTKEGVEHVPAMKVKAVDTTGAGDAFVSGMLYQLNRYEGNMEELTLAEAVKMAEFAAVSGALAASTKGAMTALPTIEEVQTRLQSGE	PGPT0017625_1918	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
AK012_01516	1452	scrB_1	COG1621	Sucrose-6-phosphate hydrolase	ATGTCTAAAGATCAAGAACTGCGAAAGAGCGCTTATGAAGAAATCGAAAAGCATCAGTCTCTAGTAGAGAGCGATCCGTATCGTCTCCATTACCACATCATGCCTCCGGTCGGTTTGTTGAACGATCCGAACGGCTTCATTCAGTTCCAGGGCACGTACCATCTGTTTTATCAGTGGATGCCGTATAAAACCGACCACGGTGCTAAACTCTGGGGACATTATTCGTCTGAGGACCTTGTCCACTGGACGCATGAAGAGATCGCTCTGACACCGTCCGAGTGGTTTGAAAAAAACGGCTGCTATTCCGGCAGTGCCATCGAGCATGACGGAAAGCTCTACGCCTTTTACACAGGAAACGTCAAAGATGAAGAAGGAAACCGGGAATCGTACCAGTGTCTCGCAGTATCCGAAGACGGCATTCATTTTGATAAAAAAGGGCCTGTCGCCCATCTGCCTGACGGCTATACCGCCCACTTCCGCGATCCGAAAGTATGGAAGCAGGACGGCCGCTGGTTTATGGTCATCGGCGCTCAGACGGAAGATGAGAAAGGGGCTGTCGCTCTATTCACCTCAGACAATCTGATGGACTGGACCCATGCCGGTATTCTTGCCGGCGCCGGTCAGGAACCCCTCGGGGAGTTCGGGTATATGTTTGAGTGCCCGGATTTATTTGAGCTGGATGGACGTGATGTGCTTGTCTTCTCTCCACAGGGACTGGAAGCGGAAGGGATGAGCTATCAAAACGTCTATCAGGCCGGTTATGTGACAGGTACCTTCGATCCCGGGCAGGGGACGTACGAACATGGAGCATTTACAGAACTGGATCATGGTTTTGACTTTTACGCCCCTCAGACGACCCTGGATGAAAAGGGACGCCGTCTTTTATTCGGCTGGATGAGTGTACCGGATCAGAATGAGCAGGATCATCCGACGATCGCTTACAAGTGGCTGCACAACATGACGCTTCCACGGGAATTGACATGGCAGGACGGTCAGCTGTACCAACAGCCGGTTCAGGAATTGGAAGCGCTCCGCCAGGGAGAAGCGGTTGAACATCAAGTCACCCTCAACAAAGAAAGCCGGAGCTTGGACGGTGTTGATGGGAAGGCCGTTGAACTGATGATGAGTGATATCGACGTTTCAGAGGGCTGGATGAGTGTGGCCATCGGTGGAAATGCAAGGATTCTATATTCCAGGGATCAGCAGGTGCTCACCCTGGAACGTCAGAGCTATGTGGATGGAACCATTGAAAAGCGGCAGGTGGAAGTACCGCAGCTTGAAAGTCTGAGGGTTTATGTAGATACGTCCTCCATCGAAGTTTTCGCTAATGATGGTGCCTGCGTGATGACCGCCCGGTTCTATCCATCTGTTCAGGACACGGGCATTCGTTTCAGCAGTTCAGCAGCTGTAAGCTTCTATCTTTACAAATGGAACCTTGCAAAAGTTTTCTAG	MSKDQELRKSAYEEIEKHQSLVESDPYRLHYHIMPPVGLLNDPNGFIQFQGTYHLFYQWMPYKTDHGAKLWGHYSSEDLVHWTHEEIALTPSEWFEKNGCYSGSAIEHDGKLYAFYTGNVKDEEGNRESYQCLAVSEDGIHFDKKGPVAHLPDGYTAHFRDPKVWKQDGRWFMVIGAQTEDEKGAVALFTSDNLMDWTHAGILAGAGQEPLGEFGYMFECPDLFELDGRDVLVFSPQGLEAEGMSYQNVYQAGYVTGTFDPGQGTYEHGAFTELDHGFDFYAPQTTLDEKGRRLLFGWMSVPDQNEQDHPTIAYKWLHNMTLPRELTWQDGQLYQQPVQELEALRQGEAVEHQVTLNKESRSLDGVDGKAVELMMSDIDVSEGWMSVAIGGNARILYSRDQQVLTLERQSYVDGTIEKRQVEVPQLESLRVYVDTSSIEVFANDGACVMTARFYPSVQDTGIRFSSSAAVSFYLYKWNLAKVF	PGPT0018815_2034	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
AK012_01517	1986			hypothetical protein	GTGAATGATTTAAGGACCCCTGAGAAAAGGTTCCGTCCCGAGATCGAGGGCGTGCGTGCGGTCGCCGCTTTCCTTGTGGCGGTATATCACATATGGCTTGGGTCGGTTTCCGGCGGTGTCGATGTTTTCTTTATCGTATCTGGTTATTTGATAACGACATCCCTGCTTTCCAAAATGCTCAAACAGGGGAAGGTCCATTTAGGGGAATACCTGCTCGGCCTCGGACGCCGGCTGTTCCCGGTTGCGTTTATTGTCGTGCTGTTCACCCTTGTCGGTTCCATCTGGATTCTTCCGCAGGCCCAGTGGAAGCAGATCATTGCTGAAGGATTCGCTTCGGTGTTTTATTTCCAGAACTGGCAGCTGGCCATCAGTTCCGTTGATTACCTGGCACAGAACAACCAGGCGAGTCCTTTTCAGCATTTCTGGGCCTTATCTGTACAGGGACAGTTTTACATAACCTGGCCGATCGTCATCACGGCCGCTTATTTTCTGGCACAGAAAGTCTTGAAGACACCGGTACGGAAAACGCTGCTCGGTGTGTTGATCACGTTATTTGTTCTATCTATTTCTTATTCTATCTACAAAACCGCTGTGAACCAGCCGTGGGCCTACTTTGATACGTTTGCCAGGGCGTGGGAATTCAGTCTCGGCGGCATCGTTGCCCTGCTGCTCCCCTATGTTCAGCTGAAGAAGAGTATATCGCTCATCCTCGGGTGGGCGGGGCTGGCTGTGATTGCGCTCACGGGCATTCTGCTCCCGGTCTCCACCGTTTTCCCGGGCTGGGTGGCTCTGCTGCCGGCCTCCGGGGTCATTTTTGTCATTATATCGGCTGAAAACAGCGGTGGATTCGGTGTGGACCGTCTGTTGGGATCCAAGCCATTCCTGAAATTCGGAAACATTTCCTACGGGTTTTATTTGTGGCACTGGCCGCTGCTGATCTTTTATTTTGCCTGGTTCGATACAGGACAGGCGTCCATCCTCGCCGGGGCGGTCATTATTTTGACAGCGCTTGTGCTCGCCTACGTGTCGGTGACTTACATTGAAGCCCCTGTCCGGAGCTTGAGTGTGAAAACATCGAAAGTGAAAATCGGGAAAGCGCTCACCGCTTTGATTGTACCTGTCCTTCTCGTAAACGGAGGCTGGACCTTTTACATCAGTCAGATGCAGGGCAAAGCCTATGAAGCGGGGGATTATCCAGGCGCCCAGGCGGTTTTCTATAATGTAGAGGCCGATGAACTGGATCCTTATCCGTCGACCATTGAAGTGCAGGAAGAGCTCCCTGCTTTTTATGAGGACAGGGAATGCTTCATGTATACGAGTGAAGAGGGGATGAAAACTTGTTCTATGGGAGAGACCGAGGACCCGGATTACACGGTGGCTCTTGTCGGCGGCTCCCACTCCGGTCACTGGTTCCCGGCTCTCAGCGAACTGTCTGATGATCTGAATTTGAAAATCGATCTTTACAATAAAGATGCCTGCCGATTTTCGAATGATGACTTTGACGGGCTGTTGAACGAAACGTGTATGGATTGGAATGAAAAGGTGCTTCAGGATCTCCAGGAGGACCCGCCGGACCTTGTCTTTACGACATCCACTGTCAACAGTGGAACGACCGTGCCGGACGGCTATATAGAACAGTGGAGGAAACTCGAAGGAACGACCCACATCATGGCTGTCCGTGACAACCCGCGGATGGAAGAGGATACGCCGCTTTGTATTGAGGAAAAAGGGTCGATCGAGGAATGCTCGGTTTCCAGAGACGAAGCCTTAGCCGATGTCGTGCCTTGGGAAAACACGGAAGGCATTCCGGATAACGTCACGTTTGTGGATTTGTCCGATTACTTCTGCGGGGAAGAAGTGTGCGAGCCTGTCATTGGTAATGTTATTGTATACCGTGACAAGCACCACTTGAGTACGGCTTACTCCAAAACCCTTGCGCCCGCATTGAAAAAGCCTATAGAGGAAGCGCTGCAGGAACAATCCTGA	MNDLRTPEKRFRPEIEGVRAVAAFLVAVYHIWLGSVSGGVDVFFIVSGYLITTSLLSKMLKQGKVHLGEYLLGLGRRLFPVAFIVVLFTLVGSIWILPQAQWKQIIAEGFASVFYFQNWQLAISSVDYLAQNNQASPFQHFWALSVQGQFYITWPIVITAAYFLAQKVLKTPVRKTLLGVLITLFVLSISYSIYKTAVNQPWAYFDTFARAWEFSLGGIVALLLPYVQLKKSISLILGWAGLAVIALTGILLPVSTVFPGWVALLPASGVIFVIISAENSGGFGVDRLLGSKPFLKFGNISYGFYLWHWPLLIFYFAWFDTGQASILAGAVIILTALVLAYVSVTYIEAPVRSLSVKTSKVKIGKALTALIVPVLLVNGGWTFYISQMQGKAYEAGDYPGAQAVFYNVEADELDPYPSTIEVQEELPAFYEDRECFMYTSEEGMKTCSMGETEDPDYTVALVGGSHSGHWFPALSELSDDLNLKIDLYNKDACRFSNDDFDGLLNETCMDWNEKVLQDLQEDPPDLVFTTSTVNSGTTVPDGYIEQWRKLEGTTHIMAVRDNPRMEEDTPLCIEEKGSIEECSVSRDEALADVVPWENTEGIPDNVTFVDLSDYFCGEEVCEPVIGNVIVYRDKHHLSTAYSKTLAPALKKPIEEALQEQS				NA	NA	NA	NA	NA
AK012_01518	1503			hypothetical protein	ATGGTGTTACTGACCAAAGGTCTCTTCGCCTGCACCATCCTGCTTTTCTTTTTTCCCATTACAAGCTACGCCGGCTCTATTAAGGACGGAGCATCCGGGAATCCCGGGGAATGGTATATCGGAGACCTTCCCGGCTCTGTAACCGAAGAGAAACGCCCCATTCTGTTCATCCACGGCCTCAACAGCTCCTCAGAAACGTGGTACGGGAATAATGATATGTATGAAACCGCTCTTGAAAACGGCTACGAAACAGCCTTTATCGACTTGTACCCGACCAAGGATATGTGGGACAACGGAGAACTGTTAGCCGGAAAGATTGCTGATATGTACAACCATTTTGGTGAAAAAATCGTCATCGTCGCCCACAGTAAAGGAGGCATCGATGCCCAGTCCGCCCTCGTTCACCACGGTGCCTCGACCTATGTGGACCGTGTCATTACGCTTTCCACCCCTCATCACGGCTCACAGCTTGCGGATCTTGCCTACAGCAGCTGGGCGGGATGGCTCGCCGGCATCATCGGCAGTAAAAATGATGCCACGTATTCACTGCAGACCGGGTACATGAGTTATTTCCGCTCAACGACCGACAGCAGGCCGGAGATCGCAACGGTCCCTTTTTATACGTTCGGTGGTACGGTATGGGGAAGCTTCGGCAGTTCATTGTACTGGGGAGGGTTGTACTTGAATTCCTACGGCAGGAATGATGGAGCGGTTACAGTGAAAAGCTCCCGCCTCCCTTACGCTCAGGAGCTTCAGGTTGGAGAATGGGACCACTCCAGCATTAAAGAAGGTTCCTCCACCTTCTCCCTTTTCCGTCCTTACTTGAATGAGACCGCTCCGCTGGCGGCATTCGGGCTTGAAACCGCCGCTGCAGCAGAAGAAACCGATCCTGCAGCCGGCCAGTACGTCTCAGGCGGCGAATATACAGGACGAACAAGGGAGACCGTTATTGTTGAACCCGGAGCAGATACCGTCACCTTCGACTGGATCACCTCCAGTCCAGATGTGGACTTGAAGCTTGTCTCTCCTGATAAAAAAACCTACAGTGGCTTTCAGGCAGCGAAGGACGAAACCGAGGTGCTCGAGGGGTCGTACCATCACACCCTGCGGATCGATGACCCCGCAGCAGGGAAATGGAGACTGGAAGCCCGGAGTCCAGGCGGAGAATCCTACCTTCTCAACACCTCCTTTGACAGTGAGCTGAACGAAAAGATCAGCGCCACCGTGAACATGGACGAGCTGAAAGTGAAAAACAAAGATGCCCGCCTGAAATATAAGACAGATATGACCATCACCCATTATCAAAACGGACAGGAGAAAGAAACGAAGCTGAGAGTGAAGAAGAACTCCGACGGATCCTACCAGCTTCCGAAGCTTGGAGAAGGGGTCTACAGTCTGACCATTGAAGTCGAAGGGACTTACAAAAAAGCCCCCTTCGCCCGTACGATGATCTCTTCGGTCTACATCGACCACAACGGCAGCGTTTATAGTGAAGACTTTTAA	MVLLTKGLFACTILLFFFPITSYAGSIKDGASGNPGEWYIGDLPGSVTEEKRPILFIHGLNSSSETWYGNNDMYETALENGYETAFIDLYPTKDMWDNGELLAGKIADMYNHFGEKIVIVAHSKGGIDAQSALVHHGASTYVDRVITLSTPHHGSQLADLAYSSWAGWLAGIIGSKNDATYSLQTGYMSYFRSTTDSRPEIATVPFYTFGGTVWGSFGSSLYWGGLYLNSYGRNDGAVTVKSSRLPYAQELQVGEWDHSSIKEGSSTFSLFRPYLNETAPLAAFGLETAAAAEETDPAAGQYVSGGEYTGRTRETVIVEPGADTVTFDWITSSPDVDLKLVSPDKKTYSGFQAAKDETEVLEGSYHHTLRIDDPAAGKWRLEARSPGGESYLLNTSFDSELNEKISATVNMDELKVKNKDARLKYKTDMTITHYQNGQEKETKLRVKKNSDGSYQLPKLGEGVYSLTIEVEGTYKKAPFARTMISSVYIDHNGSVYSEDF				NA	NA	NA	NA	NA
AK012_01519	378			hypothetical protein	GTGGTAGAGGTGGCTGAAGCTGTTTCACGCGGGAATAACCTTATTTTTATGACGGAGCCGGGAGGTCAGACGGTTGAATCAGGAGCGACCGTGGATGTGACCAAAGATCTTCCGGGAGGTATTGATGTCCGCCCATTCTACTCGATCCGGGTCGCCGGCGGCAACCGGGTGGTTTCGGAGGGGCCGGTTACGTTCAAATTGATCATGAAAGTCGAAGGTGTGAACTTTCTTCTGCTGGATTCCTTCCGGGTCATCCCGGGCCAGCAGTTTACACGGGTGTTCAACGTACCGGGAACAGGATTGACGATAAAGACAGAAGCGGATGAAGGGTCGGGACTGAATGCTGTGGATGTCGTGGTGTTCGGGTATAAATTTTAA	MVEVAEAVSRGNNLIFMTEPGGQTVESGATVDVTKDLPGGIDVRPFYSIRVAGGNRVVSEGPVTFKLIMKVEGVNFLLLDSFRVIPGQQFTRVFNVPGTGLTIKTEADEGSGLNAVDVVVFGYKF				NA	NA	NA	NA	NA
AK012_01520	348			hypothetical protein	ATGGATGGACAACCGTTAACCATTGAACATTTCAACGAACGCTTCCAGCGATGGAGCGGTGCAGATATTATCATTACGAAGCATGAGCTGAATGATGAGGACACCACCGTCATGCATCTCGATCACATCGCCTATGGAACAGACGCCACCCGGCTGGATGAGTACCTGCCGATGCATTCCCTGTTCCTATACGGCGAAGGCGAAGCAGAAATCGGACCTCAGCAGATGGAGCCTCTTCCGGCACCTTATTATGAAATCCCCCTGCAGGATACGACGCAGTATATCTACAGCAGGGACGCCTTCGTGTTAACGACAGACCGGGCGACCTACACGATCGAGAAACGATGA	MDGQPLTIEHFNERFQRWSGADIIITKHELNDEDTTVMHLDHIAYGTDATRLDEYLPMHSLFLYGEGEAEIGPQQMEPLPAPYYEIPLQDTTQYIYSRDAFVLTTDRATYTIEKR				NA	NA	NA	NA	NA
AK012_01521	846			hypothetical protein	ATGATTGATGATGGATATGAAGGCCGTCAGCTGCTTCGGCAGGCGGTGGATATTCAAATGAAACTGGGACATTCGGATATCCGGCGGGAGTTGGTTCACCGGTCGGTCCCCGTTTTATGGCTCGGGCAGAAGCGGGACCGTCCGATTGTCACCATCGGGACAAATCCCACGTCCCGGTATTTTTTAAACGAGCAGGCTGTTTGGCAGACGACGGCGGAGCCATTTGGTCCGCAGAGCGTGGATCTGCTCGCAGCCTTTCAAAAAGAGGCTGCTCAGCAGACAGCCGTCATCAACAAATACGAGGCCTATTTCAAGGGAGGAGAAGCCTATACCCGCTGGTTCGGCAGAGCGGGCGGATCGAAGCTCGAAGGCTTTATGAATGGAATCGGCGCTTCTTTTTATGAAAGTGATCCCCCCCTCATGCATGTGGATGCATTTCCTTTTCCCACGCTTCGTTTTATGGGTAAAATAAAAAGAAAAGAAGAATGGCTGCGGCTTCCTGAAGTAACGGAAATGCTGGACAAGACGCTCGGTTATTTACAGCCTTCCTGTATTCTGCTGCTTGGAAAAGAGCACAGGAAAAGGTTTTCCGACGTTTATCCGGTGACGTACGATTTCACACGGGAAGTGGGGAAATATCCAGCGGCGCGTTTTCATATCGGCGCCCATCACGCCCTCGGTGTTCCTGTCATCGGTCTTGATTTTAAGCCGTCCGAGCCGTTCCTGGCCCTTGGAAGCCGGAGGGATGAACTTGGTACACACCACGGACGTTATGGGACACGAGAGAGTCAGAAGGAGATTGGAGCCTATATCCAGCAGTGTTTCTGGGAAAGGGGAGAAGGATAA	MIDDGYEGRQLLRQAVDIQMKLGHSDIRRELVHRSVPVLWLGQKRDRPIVTIGTNPTSRYFLNEQAVWQTTAEPFGPQSVDLLAAFQKEAAQQTAVINKYEAYFKGGEAYTRWFGRAGGSKLEGFMNGIGASFYESDPPLMHVDAFPFPTLRFMGKIKRKEEWLRLPEVTEMLDKTLGYLQPSCILLLGKEHRKRFSDVYPVTYDFTREVGKYPAARFHIGAHHALGVPVIGLDFKPSEPFLALGSRRDELGTHHGRYGTRESQKEIGAYIQQCFWERGEG				NA	NA	NA	NA	NA
AK012_01522	699			hypothetical protein	ATGAGAAAAAGGCTGGGCATGCTGTTTTTAGTCAGTCTGCTTTTCATAAGCGGTTGTGTACAGGGAGATGTGAAGCTTACCGTCAATAAGGACAAGAGTGGGGATGCCCGGGTGCAGATTGGTGTGAATGAGGAAGAGGCAGGTCTTTTCATGGACCGGATGCAGGGCGTGATTGATGAAGCGGAGCAGGACCTGGAATCCCGCGGCTATCAAGTAGAACCCTATGAGGAAGACGGCTATGTCGGGTTTACAGCCGGAAAGGCGTTTGACAATGTTGAGGAGATCCAGGTTCCGGATCAGCTGGAACAGCCGGCAGCCGCTGGAATCGGGGATGTGATGGAAGGTCTTCCCGTAGAATGGTCGGAGGAGCCCGGGTGGTTTACGACTACATATCAGGTCGAAGCTGAAATGGATCTTAAAAACAGCGGGATCATGGGCGGAATGCAGCAGATGGTTTCGGACCAGCTGGATTTGACATTCACCCTTGACCTTCCGATCGCCCCGGAAGACCACAACGCCGACCGGGTGGATGGAAATGAGCTGCAGTGGGATATTCAGACCGCCGGTACGACGAACATGATGGTGGAAATCGCTGTGCCGAACATCCGGAACATCATCATAACCGCTGTCGCAGCTCTCCTGATCATCGGAGCTGTCCTCTTTTATATGCGGAAGAAACGGAAAACGAAACAGAATTGA	MRKRLGMLFLVSLLFISGCVQGDVKLTVNKDKSGDARVQIGVNEEEAGLFMDRMQGVIDEAEQDLESRGYQVEPYEEDGYVGFTAGKAFDNVEEIQVPDQLEQPAAAGIGDVMEGLPVEWSEEPGWFTTTYQVEAEMDLKNSGIMGGMQQMVSDQLDLTFTLDLPIAPEDHNADRVDGNELQWDIQTAGTTNMMVEIAVPNIRNIIITAVAALLIIGAVLFYMRKKRKTKQN				NA	NA	NA	NA	NA
AK012_01523	1452	cry		Cryptochrome DASH	ATGAGCACCTATTCGATTGTCTGGTTCCGGAACGACCTGCGGGTTCACGACCATAAACCGCTGACGAGGGCTGCCATGGCAGGGTATCCAGTCATCGCGCTTTATATTTTCGATCCTGATGAATACAGGGATCTTTCCTATGGTTTTAAAAAAACCGGGGGACACCGGGCACAATTTATCCAGGAAAGTCTGGAAGATCTGCGGACGAATCTCGCTGAACTGAACGTCCCACTTGTCATTAGGTACAAGGACCCGGCAGACGCTTTCCTCGAGCTCTCCGATGATTTGACTATGAACGGTGTGTACCTTCATGAAGAAATCGCCACGGAAGAACAGCAGACCGAAAGAGGAGTTCGAAAGGCTCTGCCCGGCGTACCTTTTTACGTCGATCACGGACATAATCTGTTTCCCCCGGAAGACCTGCCGTTTTCCATCAAGGACGTGCCGGATACGTTTTCCCAGTTTAGAAAAAGGATCGAAAAAATTGGGATGACGCCTCCTCAAGCGCTCGCTCCACCTCAAGCGGCTGTAAAAGCGGAGCTTCCAGACAAGCTGGAGGAAGGAACAGTTCCGGGCGCAGCTGTCCCAGGCCGGGAGGTACAACGGGAAGAAACTCGTTACCGCGGGGGATCCACAGCGGCTAAACGAAGGCTCCGCGACTACATCTTCACCAAGGACCGCCTCCGTATTTATAAGGAAACGAGAAACGGGATGCTGTTGGAGGACGATTCCTCCAAATTTTCTCCTTACCTGGCCAACGGCAATCTGTCCCCGCGCGTCGTGTATGAACAGATCCAGCACTATGAGAGAGCCTATACGAAGAACGAATCGACCTACATGCTTTATTTCGAACTGCTGTGGCGGGACTACTTCCACCTCGTTCACCGAAAATACGGGGACCGCTTTTTTTACAAAACGGGGCTGACTGGCTTGGAGATCCCCTGGAAAACAAACGATGAACACCTGCAGGCGTGGATGGATGGACGCACTGGTTATCCGCTCGTCGATGCAGGCATGCGTGAGTTAAAACAGACCGGGTTCATGTCCAACCGGGCGCGTCAGAACGTGGCCAGCTTTTTCACGAAAAACCTGGGGCTGGACTGGCGGATCGGGGCCGCCTGGTTTGAATCCCAGCTCGTCGATTATGATGTAAGCAGCAACTACGGCAACTGGCTGTATACGGCCGGAGTCGGAAATGATGCTGTTTCCTTCCGGGCCTTTAACGTGGAAAAACAGGCAGAGGATTATGATCCTGATGGTGATTACCTGCGCTGTTGGCTTCCAGAGCTCCGCGAACTGCCTGTACCCTGGATCTTTAAGCCTAGGGAAATGGGGATGATTGAGCAGGAGCAGTATGGGGTTCATCTCGGAGAGGACTATCCGTTTCCGATCATTGACTTATACGAATCGATGCGGGAGATGAAGAGCGCTTTTGAAGAAGCGTCAAAATAG	MSTYSIVWFRNDLRVHDHKPLTRAAMAGYPVIALYIFDPDEYRDLSYGFKKTGGHRAQFIQESLEDLRTNLAELNVPLVIRYKDPADAFLELSDDLTMNGVYLHEEIATEEQQTERGVRKALPGVPFYVDHGHNLFPPEDLPFSIKDVPDTFSQFRKRIEKIGMTPPQALAPPQAAVKAELPDKLEEGTVPGAAVPGREVQREETRYRGGSTAAKRRLRDYIFTKDRLRIYKETRNGMLLEDDSSKFSPYLANGNLSPRVVYEQIQHYERAYTKNESTYMLYFELLWRDYFHLVHRKYGDRFFYKTGLTGLEIPWKTNDEHLQAWMDGRTGYPLVDAGMRELKQTGFMSNRARQNVASFFTKNLGLDWRIGAAWFESQLVDYDVSSNYGNWLYTAGVGNDAVSFRAFNVEKQAEDYDPDGDYLRCWLPELRELPVPWIFKPREMGMIEQEQYGVHLGEDYPFPIIDLYESMREMKSAFEEASK				NA	NA	NA	NA	NA
AK012_01524	924			hypothetical protein	ATGGAGCGTTTTCGTAAAAAATGGATGCAGAAGTCTGCGGTAATTTTGACGGCGTTCACTTTGTTCACGGCAGGAGTATCGGCTGCAGTTCCTCAAGAGGTTGAGGCGAAGAACTGGAAACAGAATCTTGACGCAGAGGAATGGAAGTACAGCGATCCGATTATGTCCACCGTTTATAAGGATAGGAGAAAGGAATTGAAGGGCACGGATTCGTTTCATGAGTCAGAATACTTGATTGAAACGATGACCAAGGCGGACGTTATGGATCATTATCTGGATCGAAACAACCGGCGGGTGACGCCTTATACATTGATCAGGGTGGTCGATGCTGTGTTCAGTATTGATCTTCAAGCCATTTCCGATCTTGGAGCTGGAAAGCAGGCAGGTACGTATTCAGACCATGTCCTTGAACGCGTGCGGGAGGCTTCTCCTAAACCGTTGAGTGATGAAGAAATCGGTCAACTTTCCAAAGTCCGCGTCATGGAACTGTACTGGTCGTCCTTCAAAAAACGCCTGACGGCTGAAGAACGGTATACAATGATCAATGAAATTTTTGGAGTGAACTTAGTAGGAATCGCAGGACTTGAAGGATCAGGTGTAGCCCTTTTCTCAAAAAATCAGTGGATTTCCCAGTATGACACGGACTTATTCATTGTAGAGACCGGCAGTGATGACGTTGATGTATGGGTATATCCGACAGAGTACTTCAAGCAGCAGACGGGACTTGAAAAAAATCCGGAGGAATTGAACAATCGTTTGACCAAACTGGGATTCTCCTACAGCGAAGAAAAAGGCGCTTTTTATTATGCTGATCCGAACGGTGAATCGGTCCCGGACAATTTCAAAGGACAGACGCTGGGAACCATCATCGGGTTCATACAGGACAATTATAAAACTCTCTTAGTAAATGGAAACGCTGCGTAA	MERFRKKWMQKSAVILTAFTLFTAGVSAAVPQEVEAKNWKQNLDAEEWKYSDPIMSTVYKDRRKELKGTDSFHESEYLIETMTKADVMDHYLDRNNRRVTPYTLIRVVDAVFSIDLQAISDLGAGKQAGTYSDHVLERVREASPKPLSDEEIGQLSKVRVMELYWSSFKKRLTAEERYTMINEIFGVNLVGIAGLEGSGVALFSKNQWISQYDTDLFIVETGSDDVDVWVYPTEYFKQQTGLEKNPEELNNRLTKLGFSYSEEKGAFYYADPNGESVPDNFKGQTLGTIIGFIQDNYKTLLVNGNAA				NA	NA	NA	NA	NA
AK012_01525	456			hypothetical protein	ATGAAACGTTTGATTCCCTGGCTGGTTCCGCCGATACTTGTTCTTATGATCTACGGCATCCAGTTCACGCTTGAATATAGTTCTTATCACGTTCCGTTTGGTGTAGGGATGGAGGGGGAGACCGTTGAAAAATATAATTGGAGGGGAAAGGTCGTGGAAACAGCCCCTCTTCCAGCTGAGAATGTATCCCACAACGGCACGCTTTTTGTAGAAAAGGAATTGAAAGAGACGTTTGGACTGCTCATTTCAATCATCGCAGCCTTTCCTTTCATCCTGCTTACGGAGGTGATTTATAAACGTCTTGGTATTGAAAGTACCGGAATGTTATCAAAGAGGTGGGGGAATATAGTGAAATGGGGATCGATCACCTTTCTATCCATTCTACTGGTTTTTATTCTCTTCATGTTCCGGGAGTCAGTAGAAGAAGGCCGGTCCTTTTTTGATGCTTTACCGTAA	MKRLIPWLVPPILVLMIYGIQFTLEYSSYHVPFGVGMEGETVEKYNWRGKVVETAPLPAENVSHNGTLFVEKELKETFGLLISIIAAFPFILLTEVIYKRLGIESTGMLSKRWGNIVKWGSITFLSILLVFILFMFRESVEEGRSFFDALP				NA	NA	NA	NA	NA
AK012_01526	627	nudL		putative Nudix hydrolase NudL	ATGAATTCGAAACATATACTCGATCAAATGAAACAACACCAGCCTTCTGTGCTTGGTCACGAGCAGTTCCGTAAATTCTCTGTCCTTCTGCCGCTCATGGAAAAGGATGGAGACATCCACGTTCTGTTTGAGGTGCGTGCCAATACACTAAGACGTCAGCCCGGGGAAATCTGTTTTCCCGGCGGGAAAATCGATCCGGATGATCCTTCGGCACGTCAGGCCGCCATCCGGGAAACGGAGGAAGAACTCGGCATCGGACGCGGACAGCTGTCCGACATCTATCCGCTCGATTACCTCGTCTCCCCTTTCGGAATGATCGTCTACGCGTTTGCAGGGTACTTGAATACCGACGAAAGTGCATTTGAAAGAAATCCGGATGAAGTGAAGGAGCTGTTTACTGTTCCGCTTTCCTTCTTTATGGACCAGGAACCGGACATCCATTACGTCCATTTTGAAGCCCAGCCGGCGGAAAACTTTCCTTACGAACTCATCCCGGGCGGGGAAAATTACAACTGGCGCACCCGTCAGATGGAAGAATATTTTTATCAATATGGAGATAAAGTGATCTGGGGGATGACCGCAAGGATCCTTGCCCACTTTGTAGACGTATTGAAAAAGGAACAGTAA	MNSKHILDQMKQHQPSVLGHEQFRKFSVLLPLMEKDGDIHVLFEVRANTLRRQPGEICFPGGKIDPDDPSARQAAIRETEEELGIGRGQLSDIYPLDYLVSPFGMIVYAFAGYLNTDESAFERNPDEVKELFTVPLSFFMDQEPDIHYVHFEAQPAENFPYELIPGGENYNWRTRQMEEYFYQYGDKVIWGMTARILAHFVDVLKKEQ				NA	NA	NA	NA	NA
AK012_01527	1926	bceB	COG0577	Bacitracin export permease protein BceB	ATGAGCATTAATCAGCTCATTCTGCGTAACTTGAAAAAGAATCTCAAGAACTACTATTTATACGTTTTCGCCCTCGTCTTTTCCGTCGCCCTTTACTTTTCCTTTGTGACCCTGCAGTACGACCCGGCTATGAGTCAGGACGGATCTGTAAAGGGAAGCGCAGGATTGATGGTCGCTTCGGTTCTATTGATTGCCATCGTGGCTGTTTTTCTGCTTTATGCCAATGCTTTATTTGTGAAGCGCCGCAGTAAGGAAATCGGCTTATTCCAGCTGATCGGCATGACGAAGAACCGGATTTTCCGCCTGTTGACCATTGAAAACCTGATCATCTATTTCGGATCGATGGCCGTCGGCATTTTCATCGGATTTGCCGTATCCAAACTGATCCTTATGGGCTTTTTCAAGATTGTGAACGTCGATGAAGTGGCTGACCTGCACTTTTCTCTGGCAGCCCTCTTCCAGACACTGATCGTATTTGCCGGCATTTTCCTGCTGATCATGGGGACGATGTACATTTTTATCCGGAAACAGTCGATCCTCTCCCTCTTCCGTGTCACCTCAAGCACCCAGGGAAAGGTGAAAAAACTCTCCCTGTGGGAACACATCATGGGAGTGCTCGGCATTGTCATGATTGCTATGGGTTATTACGTATCCACCCAGCTGTTTGAAGGAGAGATTACATCGATCAACGGGCTGTTTGCCGCAATGACGTTCATACTGGCGTCCACGATCATCGGAACATACTTTTTCTACAAAGGTTCTGTCCGTTTTGTCAGCAACCTGCTCAGAAAACGAAAAGCCGGCTATATGAACATCAACGAAGTGCTCTCGCTCTCTTCGATGATGTTCCGGATGAAATCCAATGCCTTCCTGCTCACCGTAATTACGACCGTTTCCGCCCTTTCTATAGCACTGCTGGCGCTGAGCTACATTTCCCTGTACTCAGCCGAGAGCCTGGCGGAAAACAATGCTCCTGATGATTTCGCCATCACCAATGAAGAAAAAGCGATGGCCTTTTCCGATACACTGGAGGAAGAAGGATTCGACCATTCCTACAGACAGGTGGAGGTGCTGCAGGCGAAGTTCAATGTGGAGGACATTCTGGATGTGGATCTCGAGGATATGAATTTCAACGCAGAAAATACAACCATTCCTATCATCAGTGAAACCGCCGTGCCGGAGCTCGACTTGGATAGAGAAAACATGATCATGACCGGCTACAACGATATTATGCAGTCCTACATTTCCTTAAAAGGTGATGGAAAAGTGGAATGGCTGTCTGAGAATGACTCCGTGGATCTTTCCTATCAGGGACTGCGGGAAGACTATGTGATTTCCTCCTATTATACCGCCGGCGGTCTGCCGATCGGTGTCGTGTCCGAAGAGCAGTTTATGGACATGAAAGAACAGCTGGAGCCTTCGATCTACACCGGGATCAACCTGGAGGATGACAGCAGGAACGAAGCGGCTTTTCAATTGTTTGAGGAGGCCGGTTTAACTGAAAGTTTCGAACACCGGTCCCAATGGTACGTGGAAACCTCCCAGAAACAGAACATGGGTGCCGTCATGTTCATCGTGGCCTTTTTAGGACTCACCTTCCTCATCACCTCCGGCTGCATCCTCTACTTCAAACAGATGGATGAAGGAGAAGACGAGAAGGAAAGCTATACGGTACTGCGGAAGCTCGGCTTTACAAGGGGCGATCTTCTGCGCGGCATTCAAGGCAAACAGCTTTTCAACTTCGGGGTACCGCTCCTGATCGGCCTGCTGCACAGCTACTTCGCCGTGAAGTCGGGATGGTTCTTCTTCGGTAATGAAATCTGGACGCCAATGCTGATGGTCATGGGAGTCTATACTGCTCTTTACTCCATCTTCGGTCTTCTTTCTGTCTTTTACTACAAAAGGGTGATCAAAGAAGCGCTGTAA	MSINQLILRNLKKNLKNYYLYVFALVFSVALYFSFVTLQYDPAMSQDGSVKGSAGLMVASVLLIAIVAVFLLYANALFVKRRSKEIGLFQLIGMTKNRIFRLLTIENLIIYFGSMAVGIFIGFAVSKLILMGFFKIVNVDEVADLHFSLAALFQTLIVFAGIFLLIMGTMYIFIRKQSILSLFRVTSSTQGKVKKLSLWEHIMGVLGIVMIAMGYYVSTQLFEGEITSINGLFAAMTFILASTIIGTYFFYKGSVRFVSNLLRKRKAGYMNINEVLSLSSMMFRMKSNAFLLTVITTVSALSIALLALSYISLYSAESLAENNAPDDFAITNEEKAMAFSDTLEEEGFDHSYRQVEVLQAKFNVEDILDVDLEDMNFNAENTTIPIISETAVPELDLDRENMIMTGYNDIMQSYISLKGDGKVEWLSENDSVDLSYQGLREDYVISSYYTAGGLPIGVVSEEQFMDMKEQLEPSIYTGINLEDDSRNEAAFQLFEEAGLTESFEHRSQWYVETSQKQNMGAVMFIVAFLGLTFLITSGCILYFKQMDEGEDEKESYTVLRKLGFTRGDLLRGIQGKQLFNFGVPLLIGLLHSYFAVKSGWFFFGNEIWTPMLMVMGVYTALYSIFGLLSVFYYKRVIKEAL	PGPT0010195_171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010195-bceB|vraE-K11632	NA	NA
AK012_01528	762	bceA	COG1136	Bacitracin export ATP-binding protein BceA	ATGAGTTTATTAGAAGCAAGGAAAATCCATAAGAGCTACGGAAACAAATTCATGAAGCAGCACGTGCTGGAGGGCATTGATGTCACGATTGATAAAGGAGAGTTCGTTGCCATCATGGGGGCATCCGGATCAGGCAAAACGACACTGTTGAACGTCCTCTCTTCTATTGACCGGGTCAGCCACGGGTCGATTACCATTAACGGTCAGGAAATTACCAGACAGAAGGATAAACAGCTGGCGGAGTTCAGGAAGCACCACCTCGGTTTCATTTTTCAGGAATATAACCTGCTGGATACGCTGACCGTGAAGGAAAACATTCTCCTTCCCCTTTCCATTTCCAAAACGGACCGCAAAGAGGCACAGCGGAAATTCAACGCTCTTGCCGAGGAACTTGGCATTACGGATGTCCAAAACAAGTACCCGAACGAGATTTCAGGAGGACAGAAACAGCGGACTTCAGCGGCCCGGGCCTTCATCCATGAACCGAGTATCATTTTTGCCGATGAGCCGACAGGGGCATTGGACTCCAAGTCCGCATCCGATCTGCTGGGCAAATTGAGCGGCTTGAATGAAACACGGGAAGCCACCATAGCGATGGTCACGCACGACCCGGTAGCTGCGAGCTACAGCAGCCGCGTCATCTTCATCCGTGATGGGCAGATGTATACCCAGTTGAATAAAGGCGGCCAGTCACGGGAGACGTTCCTGAAGGACATCATGAAAACCCAGGGTGTATTGGGTGGTGTGAGCTATGAGCATTAA	MSLLEARKIHKSYGNKFMKQHVLEGIDVTIDKGEFVAIMGASGSGKTTLLNVLSSIDRVSHGSITINGQEITRQKDKQLAEFRKHHLGFIFQEYNLLDTLTVKENILLPLSISKTDRKEAQRKFNALAEELGITDVQNKYPNEISGGQKQRTSAARAFIHEPSIIFADEPTGALDSKSASDLLGKLSGLNETREATIAMVTHDPVAASYSSRVIFIRDGQMYTQLNKGGQSRETFLKDIMKTQGVLGGVSYEH	PGPT0010200_241	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010200-bceA|vraD-K11631	NA	NA
AK012_01529	192			hypothetical protein	ATGTTTATTTTCACACTCTTGTCCGGTTTGTGTTTACTCTTTTTCCCTTTACAAGGGATAAGAGATTTCAAATCGGAAAAATGGTCGTACAAGATTACCCGGATGATTTTCATCGCTTTGGCTCTATTACTCCTTACAGCAGGTATCATTGGGATTATAGACTTTGTTCATAACCCCAAAGGTACTTTTTAA	MFIFTLLSGLCLLFFPLQGIRDFKSEKWSYKITRMIFIALALLLLTAGIIGIIDFVHNPKGTF				NA	NA	NA	NA	NA
AK012_01530	1290	ywdJ_2	COG2233	Putative purine permease YwdJ	TTGAATTACACCAGTCCGGCAGCCAGCCTGCTTGAAACCATCCAATGGTTCGTCTTCATGCTTGCCAATGCGGTTGCGCTGCCGATTGTGATCGGATCGATTTATCAATTAGACTACATTGAAACCGCCGGGTTGATCCAGCGGACCTTCTTTACCGTTGGGATCGCTTCCATGCTTCAAGGGCTGTTCGGCCACCGGTTACCGATCATGGAAATCCCCGCAGGCATCTGGGTCAGTGTCTTTACCGTCATGGCGGTGACCGGTGCAGAAACAGGGGGCAGTTATACAGGAACGCTCCAGGCTTTGGAAATGACGATGCTCATGACAGGTGGATTTTTGTTTCTGTTCGGGGCATTTAAAGTGTCACAGAAAATCCTGCCGATCTTCACCCCTCTTGTGACAGGGGCATTCTTCCTGTTCTTAACTGTACAGCTGAGTGGAACGCTGCTGAAAGGGATGCTCGGAATTCAGAGCGGCAGCGGAACCATTCAGGGAACGACCGCGGTCATTGCGTTTCTGACGTTTTTTATTGTGCTCGGATTATCGACATTTGCCAGAGGATGGCTGAGCAGCTATGCCGTTTTCATCGGTATTGTGATCGGCTGGGTCATTCACCGCCTGATTCTCGGCGGGCAGAAGGCGGAAGCGGAGATGCCTTTATTTTCGCTTCCCGAACTCTTTGCTTTCGGCGCTCCGACACTGGATTGGAGCCTGCTGCCGATGGCGTTCATCACAGCGGTCATTTCCATTTCCAATATCGTCGCCTCCATTACAGCGGTGAAACAGACACTGGGGGAAGGGAAAGAAAAGCAGGGCCTGCAGGTGGACAAAGGAACAATGTTTTCCGGATTGAACACGATGATTGCCGGCGGCATGGCAACCGTCGCCAACGTGCCGGGGGCTACGTCAGCAGGGTTCATTGCCATTACCGGGCAGAAACGAAAGAATCCGTTCATCTATGCTGCGGTTCTGCTGCTTTTCACAGCCTTTTTCCCACCGGTGACACGTGTGATTTCAAGCATCCCCTCCTCCGTTGCCAACGCGGCGCTTATGGCGACATTCGTACAGCTTGTCGGGATTGCCATCAACAACTTTACACTGGAACCTTTGGACTCAAGAAAGATCACCATCGTCGGCATTGCCTACCTTTTCGGGATGGGGACGATGTTTCTGCCGGCGGAAGTATTTTCTGCGATGCCGGCCCTTGTGCAGAATTTAATGAGCAACGGCCTGCTCGTCGGTACCGCCCTTGTCATTGTCATGGAACAGCTTTGGCGTCCTGGGAACTAA	MNYTSPAASLLETIQWFVFMLANAVALPIVIGSIYQLDYIETAGLIQRTFFTVGIASMLQGLFGHRLPIMEIPAGIWVSVFTVMAVTGAETGGSYTGTLQALEMTMLMTGGFLFLFGAFKVSQKILPIFTPLVTGAFFLFLTVQLSGTLLKGMLGIQSGSGTIQGTTAVIAFLTFFIVLGLSTFARGWLSSYAVFIGIVIGWVIHRLILGGQKAEAEMPLFSLPELFAFGAPTLDWSLLPMAFITAVISISNIVASITAVKQTLGEGKEKQGLQVDKGTMFSGLNTMIAGGMATVANVPGATSAGFIAITGQKRKNPFIYAAVLLLFTAFFPPVTRVISSIPSSVANAALMATFVQLVGIAINNFTLEPLDSRKITIVGIAYLFGMGTMFLPAEVFSAMPALVQNLMSNGLLVGTALVIVMEQLWRPGN				NA	NA	NA	NA	NA
AK012_01531	1035	graS	COG0642	Sensor histidine kinase GraS	ATGATCTTCACCTATCTGCGTGAACGGCTGAGCTGGATGCTGCTGTTTGGATTTCTGCAGTTTCTTGCCCTTCTCGTTGCGTATCTCGACACATCGATTCCGTTCCGCGCTGTCATTTATTACGTGTTTTTATCCCTGATCATTTTCGTCCTGTTTCTTATCCTCCGCTTCCCGAAAGAAACCCGGTTTTATAAGCAGTTGAAAGAGCGGGACAACGATCTTGACCTGACTACTTTCCCTGAAGCTGAAAGCCCTTTGGAGTCCATCATTGAAGCCGGCGTCCGGGAGCAGCTGGAACGGTTGAAAACCGAGGCCGCCTACCATCAGGATCTTCTGGAGGAGGAGAAAGACGACCTGCTAGGCTGGATTCATGAAGTGAAAACCCCCATGACAGCCATGAAGCTGATGATTGAGGGGATTGAGGACTATCCGCTGCGCTCACGGCTGACGTATGAATGGATGCGCATCCACCTCCTCCTCGATCAGCAGCTCCACCGGAAGCGGATCCCTTTTATTGAAAACGACTTATATATAGAGGAAACCGCACTTGAGCCTTTATTGTTCAGCGAAATTAAAACATTGAGGTCGTGGTGCATGCAGAAGGGCATCGGCTTTGACGTTGATCTCCCTCAGCCATCTGTACTGACCGATGCAAAGTGGCTGTCCTTCATCGTCCGCCAGCTGTTATCAAACGCCGTTAAGTACAGTCATTCCTCCGATATTATGGTGACAAGCGGCAGAAAAAACGGACGGTCTTTTCTTACGCTGGCTGATCAAGGCAGAGGGATAGCACCGCAGGACATTCCGCGCATTTTTGAAAAAGGGTTCACGTCAACGACCGATCATGGCAATGAATCAGCGTCAGGAATGGGCCTTTATCTCGTTGACCGCATCCGCCGTCCTTTGAACATCGAACTGGATGTTCAATCGCAGCCCGGCCAAGGGTCCGTGTTCACGCTCTGGTTTCCGGAACCGAACACGTTCACTAAAATCAGACACAGTCGGGACCGTCCCCCACTTCATGGCAGAACATGA	MIFTYLRERLSWMLLFGFLQFLALLVAYLDTSIPFRAVIYYVFLSLIIFVLFLILRFPKETRFYKQLKERDNDLDLTTFPEAESPLESIIEAGVREQLERLKTEAAYHQDLLEEEKDDLLGWIHEVKTPMTAMKLMIEGIEDYPLRSRLTYEWMRIHLLLDQQLHRKRIPFIENDLYIEETALEPLLFSEIKTLRSWCMQKGIGFDVDLPQPSVLTDAKWLSFIVRQLLSNAVKYSHSSDIMVTSGRKNGRSFLTLADQGRGIAPQDIPRIFEKGFTSTTDHGNESASGMGLYLVDRIRRPLNIELDVQSQPGQGSVFTLWFPEPNTFTKIRHSRDRPPLHGRT	PGPT0010225_39	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010225-bcsS-K11629	NA	NA
AK012_01532	690	graR	COG0745	Response regulator protein GraR	GTGTTTGATGTGCTGTTGATTGAAGATGACCGGACATTGTTTCAGGAAATGCAGGAAAGGCTGTCCCAATGGTCATATGAGGTTCACGGTGTGCAGGATTTCAGCCGGGTGATGGAGCGGTTCACGGCGGTTGAACCTCAGCTGGTGATCATCGATATCCAGCTGCCGAAGTTCGATGGCTTCCACTGGTGCCGGATGATCCGGGAGCATTCCAACGTCCCGATCATCTTCCTTTCCTCCAGGGACCACCCGACGGATATGGTCATGTCGATGAACCTTGGAGCGGATGATTTCGTACAAAAACCGTTCCACTTCGAAGTATTGATCGCTAAAATCCAGGCGATCCTCCGGCGCGTGTACAATTATAATTCCGACGCCTCTGACTTGCAGACATGGTTCGGAGCAACGGTGGATTTTGAGAGGGGCCGCGTAACGGTGAACGATACGTCGATTGATTTAACGAAAAACGAAAGCTTCATCTTAAAACAGCTGCTGGAGAAAAAGAACAAGGTGGTCACCCGTGAAGAAATCATCCAAAAACTGTGGGAGGATGAACGCTTCGTAAGTGACAACACATTAACTGTCAATGTAAACCGGCTGCGCAGACGACTGAACGAAATAGGTCTGGAACAGGTCATCGAAACGAAAGTCGGTCAGGGATATGTCGCAAGAGACGGAGCCGGCTCATGA	MFDVLLIEDDRTLFQEMQERLSQWSYEVHGVQDFSRVMERFTAVEPQLVIIDIQLPKFDGFHWCRMIREHSNVPIIFLSSRDHPTDMVMSMNLGADDFVQKPFHFEVLIAKIQAILRRVYNYNSDASDLQTWFGATVDFERGRVTVNDTSIDLTKNESFILKQLLEKKNKVVTREEIIQKLWEDERFVSDNTLTVNVNRLRRRLNEIGLEQVIETKVGQGYVARDGAGS	PGPT0010230_112	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BACITRACIN_RESISTANCE,PGPT0010230-bceR-K11630	NA	NA
AK012_01533	1062	ilvK	COG0115	Branched-chain-amino-acid aminotransferase 2	ATGTCCCTACCAATCGTTGAAGCCGCCTATAAAAAGGAAAAACCCGAAACGGAGCAGATTCCTTTTGGAAGAACGTTCACAGATCATATGTTTGTGATGGACTATGAAGAAGCGAAGGGCTGGCATGAGCCGCGCATCGTTCCCTACGAGCCGCTGACGCTTGATCCGGCCGCTATGATCTTCCATTACGGACAGACCGTATTTGAAGGATTGAAAGCCTATCGTACAGATGACGGACGTGTGCTTTTGTTCCGTCCGGAAAAAAACTTTGAACGCCTCAACCTATCCGGTGACCGCCTCAGCATCCCTCCTGTGGATGAAGACGAGGTGCTTGGCTATTTGAAGGAGCTTGTCGCTCTTGAAAAGGACTGGGTGCCGGAATTTGAGGGGACTTCGCTGTACATCCGCCCGTTTATCATCGCTACGGAACCGAGCCTCGCTGTCGCTCCGTCTAAATCGTATAAGCTGATGATCATCATGTCCCCGGTCGGTCCATATTTCTCCGGCGGCATCAAGCCGGTCACAATCAATGTGGAAGGTCAGTTCACAAGAGCCGTTAAAGGCGGAACCGGAATGGCCAAAACGGCCGGTAACTATTCTTCAGGCTATCAGGCACAGGCGAAAGCGGCTGAGGAAGGCAGTGCCGATGTCCTTTGGCTTGATGGTGTGGAGAAGCGCTACATTGAAGAAGTCGGCAGCATGAACATCTTCTTCAAAATCGACGGGGAAATCGTGACGCCGGCCTTGAGCGGAAGTATTCTTCAGGGGATTACGCGTACATCGATCATTGAAGTGCTGAAAAAGTGGGGCATTCCTGTAACGGAACGCCGCATTTCCATTGAAGAGCTGTATGAGGCTTATGAACAGGGGAAACTGGAAGAAGCGTTCGGTACAGGAACAGCAGCCGTCATTTCTCCCGTTGGTGAGCTGAACTGGCTCGGGAAGAAAATGGTTATTAACGACCACGAAATCGGCGCGCTCTCCCAGGAGCTGTATGATACGATTACAGGTATTCAGCGTGGAAGAAAAGAAGACAGCTTCGGCTGGACCATAGAAGTCTAA	MSLPIVEAAYKKEKPETEQIPFGRTFTDHMFVMDYEEAKGWHEPRIVPYEPLTLDPAAMIFHYGQTVFEGLKAYRTDDGRVLLFRPEKNFERLNLSGDRLSIPPVDEDEVLGYLKELVALEKDWVPEFEGTSLYIRPFIIATEPSLAVAPSKSYKLMIIMSPVGPYFSGGIKPVTINVEGQFTRAVKGGTGMAKTAGNYSSGYQAQAKAAEEGSADVLWLDGVEKRYIEEVGSMNIFFKIDGEIVTPALSGSILQGITRTSIIEVLKKWGIPVTERRISIEELYEAYEQGKLEEAFGTGTAAVISPVGELNWLGKKMVINDHEIGALSQELYDTITGIQRGRKEDSFGWTIEV	PGPT0008860_2998	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
AK012_01534	906	dapA_2	COG0329	4-hydroxy-tetrahydrodipicolinate synthase	ATGAATTTCGGGCAAGTACTGACAGCGATGGTGACCCCTTTTGACAACGATGAGAATATGGACCTGGAAGCAACGGGAGCTTTAGTCAACCACTTGATCGAGAACGGCAGTGACGGACTGGTTGTCGGCGGAACGACCGGCGAATCCCCGACACTGACCACAGACGAAAAGCTGCAGCTGTTTGAGCATGTGGCCGCAGTGGTGGACGGCCGCATACCGGTCATTGCCGGTACAGGATCCAACAACACCCGTGCGTCCATAGAGCTGACAAAGAAAGCCGAACAGACAGGCGTGGATGCCGTTATGCTTGTGACTCCCTATTACAATAAGCCGACACAGGAAGGGCTGTATCAGCACTTTTCAGCCATTGCAGCAGCTACTTCCCTTCCGGTCATGCTGTACAACATTCCGGGCCGCAGTGTCGTCAACATGGAACCGGAAACGATTATCCGTCTTTCCGAAATAGAAAACATTGTTTCGGTAAAAGAAGCCAGCGGCGACCTGGAAGCTGCGGCAGCCATCATTCGTGAAACAGACCGGGACTTTTCCGTGTACAGTGGTGAAGACTCCAACACGCTGCCGTTTGTCTCAATCGGAGGCAGCGGGATCGTGTCCGTATCCTCCCACGTGATCGGAAATGAGATGCAGCAGATGATTCAGAGTTTCCGCGAAGGAGACGCCTCGTTTGCCGCGCGTCTTCATCAGAAACTGCTCCCTGTCATGGACGCGGTCTTCTCAGCCCCGAGTCCTTCCCCGGTTAAAGCGATGTTGAATGAAATGGGTGTTCACACCGGAGGCGTACGCCTCCCTCTCCTTCCATTAACGGAAGAAGAAACCGCCCGTGTCATGGAGATCTACAACCAGCTTCAACCCAATGAAAAACAGAAAGCCCATATGGTCGGTTAA	MNFGQVLTAMVTPFDNDENMDLEATGALVNHLIENGSDGLVVGGTTGESPTLTTDEKLQLFEHVAAVVDGRIPVIAGTGSNNTRASIELTKKAEQTGVDAVMLVTPYYNKPTQEGLYQHFSAIAAATSLPVMLYNIPGRSVVNMEPETIIRLSEIENIVSVKEASGDLEAAAAIIRETDRDFSVYSGEDSNTLPFVSIGGSGIVSVSSHVIGNEMQQMIQSFREGDASFAARLHQKLLPVMDAVFSAPSPSPVKAMLNEMGVHTGGVRLPLLPLTEEETARVMEIYNQLQPNEKQKAHMVG	PGPT0002080_4478	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RHIZOPINE_METABOLISM	CE-BACTERIAL_FITNESS-RHIZOPINE_BIOSYNTHESIS,PGPT0002080-dapA|mosA-K01714	NA	NA
AK012_01535	324			hypothetical protein	ATGACAAGAGTACGCATGTGGAGGAGAATGAGATCCATCGAGGCATGCGGAAAGGGGAAATTGCCGAAGTGTACGGACTCTCATGGTCCTGAAGCTGGGTCTGATGCTGAACAGGCACAGAACTGTCATATAGGAAACTATATGGAGGGCTATCTTACGCAGGAACGGTATAAAGTTTCTACGGCAGCATCGAAGCCCTCGGTGCTGCCGTTTTTGATTTTACTGCCGTATGGCCCTCACCACCTCGAACGTACAAAATACAAGAAAAGGTGTGAGGTTAATGAATTTCGGGCAAGTACTGACAGCGATGGTGACCCCTTTTGA	MTRVRMWRRMRSIEACGKGKLPKCTDSHGPEAGSDAEQAQNCHIGNYMEGYLTQERYKVSTAASKPSVLPFLILLPYGPHHLERTKYKKRCEVNEFRASTDSDGDPF				NA	NA	NA	NA	NA
AK012_01537	309			hypothetical protein	ATGTTGAAAGCGTCTGCTGCAGGATCTGAAACCTCGGCTGCCGAGGCCGGGCCCTCGATTTTCCGTAACAGAAATTTTCTGCTGCTCTGGGGAGCGGCTCTTTTATCGAGTTTCGGTATTTCGTTCTTTTTATTTACGCAAAGCTGGTATGTCGTTCATGTCCTTGGGCTTGAAGCCTCTCTGGGCGTGCTGTACACAGCTGCAAGCATCCCGCGTCTCGTTTTTATGATTGTCAGCGGGGCGGTGGCTGACCGGTTCAGCCGGACGAAGCTTATGTTTCTCTCTGATTTCACGCGGGGGTTCTGTTAA	MLKASAAGSETSAAEAGPSIFRNRNFLLLWGAALLSSFGISFFLFTQSWYVVHVLGLEASLGVLYTAASIPRLVFMIVSGAVADRFSRTKLMFLSDFTRGFC				NA	NA	NA	NA	NA
AK012_01538	897	entS		Enterobactin exporter EntS	GTGGGCTTTGCATTTGCCTTTGGTATTTTAGATGCGTTTTTCTGGGCGGCAGAGGGGGCGGTTCTGCCATCGATCATCTCAAGAGATCAATTAACCCGTGGGAATTCAATCATTCAAATGACCAATCAGACGTCGTTCATTCTAGCCCCGATGGCGGCAGGAGTGATCATTTCCCTTGGCAGCTATGCCCTCGTATTCACGGTGACAGCCGTGATGCTGTTTACCGGAAGTCTGTTCATTTACCTCATGAAGGTGGAGGAAGAGAAGGAAACGGAAGGAGAGGAGGAAGCATTCTGGGATGCTTTCAAGGAAGGTGTTCGTTACGTCAGAAACTCCCGGGTGCTTACTCTGATTATCGGAATGAGCATTTTATTGAATCTGTTTATGGTAGGGCCGATGACGATGGGGCTGCCGCTCTTTGTGAAGCAGCGTCTGAACGGAACGGCTCTCGACTTCAGTTTTCTCGAGGCTGGTCTGGCGGGCGGTATGCTGCTTGGAGCAGTTCTGCTCGGCATCCTGAATGTGAAGAAAAGACGGGGAAGAACGAGTCTTCTTGCTCTAGTCTTTGCCGGTGGTGCTTTTTTCGCCCTGAGCTTTACAGAGGAGTTGTGGCTGAGCCTTGGCTGTCTGGTGGTATTCGGATTTTTTCTGTCCGTCTGCAACATCCCGGTCCTGGCCGTCCTGCAAAGTTTCATTGAAGATAAAATGATGGGAAGGGTGATGGGGCTTGTTTCCCTGGCTTCAATGGGTCTCGTTCCGGTCAGCTACGCGTTGACCTCCGTCATTTTAGCGGCAGGGGTGCCGATCCATCAGATCATGGCCTGGGGATCGGTGCTCGTTACCCTGTATGTCCTTTTTGTCTACATCCGTTTTAAGGAACTCCGGGAACTGGACTGA	MGFAFAFGILDAFFWAAEGAVLPSIISRDQLTRGNSIIQMTNQTSFILAPMAAGVIISLGSYALVFTVTAVMLFTGSLFIYLMKVEEEKETEGEEEAFWDAFKEGVRYVRNSRVLTLIIGMSILLNLFMVGPMTMGLPLFVKQRLNGTALDFSFLEAGLAGGMLLGAVLLGILNVKKRRGRTSLLALVFAGGAFFALSFTEELWLSLGCLVVFGFFLSVCNIPVLAVLQSFIEDKMMGRVMGLVSLASMGLVPVSYALTSVILAAGVPIHQIMAWGSVLVTLYVLFVYIRFKELRELD	PGPT0027965_681	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
AK012_01539	609	desR	COG2197	Transcriptional regulatory protein DesR	ATGATTCAAATTGTCATTGCCGAAGATCAGCGCATGCTGCTCGGTGCACTCGGAGCACTGCTTGATTTAGAAGAGGATATGGAAGTCGTCGGCCACGCCTCCAATGGCGAAGAAGCCTGCGGTCTTGTCCGCCGTCTGAATCCGGATATCTGCATCATGGATATTGAAATGCCGGTCAAGGATGGCCTGGACGCTGCGGAAGAATTGTATGAGGAACCCTGCAAAGTGATCATCCTTACCACCTTTGCGCGCCCGGGCTACTTTGACAGGGCAAGAAAAGCCGGCGTCAGCGGCTACCTGTTGAAAGACAGCCCGAGCGAGGACCTGGCTACAGCAATTCGTAAAATTACAGCCGGCCAGCGCATCTTTGACCCGGAGCTCGTCGACCTTGCCTTCGCGGACCAAAATCCGCTGACAGAGCGGGAACGGGAAGTGATGCAGCTGATGGCGGACGGTCGGAATACGAAGGATATATCCAAAGCTTTGTTCATTACACCTGGAACAGTCCGCAACTATGTATCTGTCATTCTGGAAAAGCTGGAAGTCTCCAATCGAATTGAAGCCATCTCCAGATTCAAGGAAAAAGGATGGTATAAAGGACAGCGCTGA	MIQIVIAEDQRMLLGALGALLDLEEDMEVVGHASNGEEACGLVRRLNPDICIMDIEMPVKDGLDAAEELYEEPCKVIILTTFARPGYFDRARKAGVSGYLLKDSPSEDLATAIRKITAGQRIFDPELVDLAFADQNPLTEREREVMQLMADGRNTKDISKALFITPGTVRNYVSVILEKLEVSNRIEAISRFKEKGWYKGQR	PGPT0012750_285	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
AK012_01540	1137	desK	COG4585	Sensor histidine kinase DesK	ATGCAGAAGTGGTATCATATCATTCCAAAAAACACAGGACTCAGCATTTACGTCTGGATTATCTTTTGTATCCTGCCGTTTTTCTTCATCTTCCGGGCTTCTTCCATTTATGAGATCTTGACCGGACTTATCCTTGTCTTCATTTTCTTTCTGGCCTATCGTTTTTCATTCATATCAGACAGTCGTCTCGTCTATCTCTGGGTGAGCGTTGAAATGGCCATCAGCCTCGGAATGACTGTGCTGTTCGGCTATATTTATTTTTCATTATTTCTTGCTTTCTTCATTGGAAACATCCGTCAATTCGGAGGATTCCTTGCCTTATACATTGTTCACCTGACTCTGACGCTTGCTACGATTGCCTACACCTTTGTGCAGCAGCTGGATTCCATTTTCCCGAACCTTCCGTTTATCATTATTACTGTCATCGGGGTCATTCTACTGCCGTTCACCGTCCGTTACCGCAATCAGCAGCAGGACCTTGAGAATAAGCTGGAAGACGCCAACCAGCGGATTTCCCAGCTCATGGTGATTGAAGAGAGGGAGCGGATTGCCCGTGACCTGCATGACACACTTGGTCAGAAGCTGTCCATGATCGGGTTGAAAAGTGACCTTGCCGCCAAGCTGATGACCGCTAAGCCGGAAAAGGCAAAAAAAGAAGTCGAGGATATCCAGCACACGGCCCGCAACGCTCTTAAAGAGGTCCGGGAGATGGTTTCCAACATGAGAGGAATGAAGCTGAAGGATGAATTGATCCGTGTGCAGCAGATCATTGAAGCTGCGGAAATGGAATTCACCTATGAGGGAAACCTTGGGAAGACCGCTATTCCGGTTTTAACTGAAAACGTCCTCAGCATGTGCCTGAAGGAAGCCGCCACCAACATCGTCAAACACAGCCGTGCCACTCGTTGTCACGTCCAGATTGAAGCCTCTTCCATGGAATTGACGGTCACGATTGAGGATGACGGCATCGGCCTTCCGGAAACGATGGACCCGTTCCAGGGTCACGGTCTGCAGGGGATGAGGGAACGACTGGAGTTTGTCAATGGACGGCTTGATTTGGAAAGTGAACAAGGAACGAAACTGACCCTGCATATTCCCACAGTCATTCAGCAAGGGAAAAAGGAGGAACTCTTATGA	MQKWYHIIPKNTGLSIYVWIIFCILPFFFIFRASSIYEILTGLILVFIFFLAYRFSFISDSRLVYLWVSVEMAISLGMTVLFGYIYFSLFLAFFIGNIRQFGGFLALYIVHLTLTLATIAYTFVQQLDSIFPNLPFIIITVIGVILLPFTVRYRNQQQDLENKLEDANQRISQLMVIEERERIARDLHDTLGQKLSMIGLKSDLAAKLMTAKPEKAKKEVEDIQHTARNALKEVREMVSNMRGMKLKDELIRVQQIIEAAEMEFTYEGNLGKTAIPVLTENVLSMCLKEAATNIVKHSRATRCHVQIEASSMELTVTIEDDGIGLPETMDPFQGHGLQGMRERLEFVNGRLDLESEQGTKLTLHIPTVIQQGKKEELL				NA	NA	NA	NA	NA
AK012_01541	1044	des	COG3239	Fatty acid desaturase	ATGGATAAGGAGAAAGAAAAAGAGTTGAAGAAAAGCGTCGCCCGCTTTGCTGTACCAGATCGAAACGCCGGCATACGCCAGTTGATTAATACACTCGTTCCATTTCTAATCTTATGGATTGCAGCCTATCAAAGCATGGCTGTCTCCCCTTGGCTAGCTGCCGGACTGGGAGTTGTAGCGGGAGGCTTCGTCGTCCGCCTGTTTATCATTTTTCACGACTGTACCCACCAGTCCTTTTTCAAAAATAAAAAAGCCAATCGCATCATTGGTACGATTACAGGTATCCTGACGTTGTTCCCTTTTGATAAGTGGAAGCGGAGCCACTCCATCCACCATGCGACAAGCGGCAACCTCGACAAGCGCGGGACAGGTGATATCTGGGTAATGACCGTGGATGAATACGTACAGGCTTCATTTAAAGAACGTCTCATCTACCGTCTGTACCGCAACCCTGTCATCATGTTTGGTCTGGGGCCGATCTATTTGTTCCTCGTTTCCAACCGATTCAACCGTAAGGGAGCGAAGGGAAAAGAGCGTGTGAACACCCATGTGACAACAGCTGCTGCCGCTTTGATTTACGGTATGATCATCTGGATGGCCGGATGGGAAGCATTTCTCATTGTCCAGCTCCCGATTCTCTATATATCCGGTGCCCTCGGCATCTGGCTGTTTTACGTCCAGCACCAATTTGAAGATTCCTATTTTGAAGAGGAATCTGAGTGGAACTTTGTAAAAGCTGCTGTCGATGGAAGCTCTTATTATAAGCTGCCGAAAGTTCTGCAGTGGATTTCCGGGAACATCGGCTTCCACCATGTGCATCACTTGAGCCCGAGGGTTCCCAACTATGCACTGGAAAAAGCTCATGACGCGACACCACCGCTCCAGTACGCGACAACGATTACTCTGAAGACGAGTCTGGAGTCCATCAAATTCCGTCTTTATGACACCGAGAACAAAACGTTCCGGACGTTCAGGGAAGTCCAGCCGCTCCTGAAGACAAAAGAGAGCGCACCGGTCTCCCGCCGCATGCAGAATGAAAGTTGA	MDKEKEKELKKSVARFAVPDRNAGIRQLINTLVPFLILWIAAYQSMAVSPWLAAGLGVVAGGFVVRLFIIFHDCTHQSFFKNKKANRIIGTITGILTLFPFDKWKRSHSIHHATSGNLDKRGTGDIWVMTVDEYVQASFKERLIYRLYRNPVIMFGLGPIYLFLVSNRFNRKGAKGKERVNTHVTTAAAALIYGMIIWMAGWEAFLIVQLPILYISGALGIWLFYVQHQFEDSYFEEESEWNFVKAAVDGSSYYKLPKVLQWISGNIGFHHVHHLSPRVPNYALEKAHDATPPLQYATTITLKTSLESIKFRLYDTENKTFRTFREVQPLLKTKESAPVSRRMQNES	PGPT0008400_506	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DESATURASE_ACTIVITY,PGPT0008400-desA-K10255	NA	NA
AK012_01542	699			hypothetical protein	ATGAGCCGTTTTGATATTTTTATGCATTATTCCTATTCAGCCATCATGCTGATCGGTGCTCTCACCTTTTTCATATGGAGCCGGAATCCGCGTGGCGTTTCCAAAGGGGAATATATCATCGCAATGATTATCCCCCTTTGGTCCGGAGCTGCCTACCTCTCCATCGCTCTTGGCCAGGGCGTTCTGCTGGAGCCGGATCAAACCATTTATTTTGCCCGCTACCTGGACTGGGTGGTCACGACTCCCCTCCTGCTGCTGGCGCTTTCGATGACGGCCATGTTTTATGAATCGAAGAAGGATAAAGCCTTGATCGGTGGATTGATTACAGCGGATGTGTTTATGATCTTAACCGGACTGATTGCTGATTTTTCGAATGATACGCTTAAATACGTCTGGTATGCGCTCGGCCTGGCCGCTCTCGTCATTGTACTGTATATCATCTGGTACCCCCTGCGGAAGATGGCTGCAAAGAGCGGGGACGGGCTGAGTCGTCACTATAAGCAGATGGCTGCCTATCTGACCTCCTTCTGGGTGCTTTACCCGACCGCCTGGGTTCTCGGGCCCTCGGGTGTAGGAGCTTTTCAAGAAGTGATGGAAATCACAGCCTTTATCGTGCTCCCCATTCTCTCCAAGCTTGGCTTTACACTGCTTGATTTGAAAGGACTCCGTAAATTGAGAACCCCCGGTGCGGATGCCTGA	MSRFDIFMHYSYSAIMLIGALTFFIWSRNPRGVSKGEYIIAMIIPLWSGAAYLSIALGQGVLLEPDQTIYFARYLDWVVTTPLLLLALSMTAMFYESKKDKALIGGLITADVFMILTGLIADFSNDTLKYVWYALGLAALVIVLYIIWYPLRKMAAKSGDGLSRHYKQMAAYLTSFWVLYPTAWVLGPSGVGAFQEVMEITAFIVLPILSKLGFTLLDLKGLRKLRTPGADA				NA	NA	NA	NA	NA
AK012_01543	438			hypothetical protein	ATGACTACGAAACGCATTCTTGTTGCCTATGATGGAAGTGAAATGAGTAAAAGAGCTGTAGCCGAAGCGAATCTGCAGGCAGTGGAAGCTCCGCAGCGTGAGATTCATCTGATGGCTGTCGTAACACCTACCGGCCCTGCTACAAATGCCGCCGTGTCCAAGAGCCTCGGAAGGGAAATGGCCGATCGGTTCCAATCAGAAATGGAAGAACTCAAACAGGAATTCAAGGCCCATAACATCGATGTTATTACAGAAGTTGTAGTCAGCCCTGTGAAACAAAATGCCGCCGTCCAGATTGTTGCTTATGCCAATAAGCACGACATGGACCTCATTATTATCGGAAGCCGTGGTCTCGGAAACATGAAAAAGATGCTGCTCGGCAGTGTCAGCAGCAAAGTCGTCCAGCAGGCCTCCTGTCCGGTCCTTGTCATGAAATAA	MTTKRILVAYDGSEMSKRAVAEANLQAVEAPQREIHLMAVVTPTGPATNAAVSKSLGREMADRFQSEMEELKQEFKAHNIDVITEVVVSPVKQNAAVQIVAYANKHDMDLIIIGSRGLGNMKKMLLGSVSSKVVQQASCPVLVMK				NA	NA	NA	NA	NA
AK012_01544	768	gno_2		Gluconate 5-dehydrogenase	ATGGAATTGTTTAACAATAAAGGGAAGACAGCCATTGTGACCGGTGGAGGCAGCGGAATCGGAAAAACAGCCGCCCACACTCTTGCCGAAAGCGGAGCTTCTGTCGCCCTGATCGGACGTACAGCAGAGAAAGTGGAAAAGGCTGCGGCTGAAATCAGCGAGGCGACCGGTTCTGAGGTTAAAGGTTATTCCGGCGATGTCACAAGCACCTCCGACATCGAGCGTGTAGTCAAGACCATCAACAACGATTTCGGACAAATCGATATCCTTGTCAACAATGCGGGAACAGCCGCCTTTAAAGATATCAACAGCCTGACCGAGGATGATTGGGACACGGTCATGAATACGAATGCCAAATCCATCTTCTTCATGACTCAGGCCGTTGCCCCTTATATGAAAGAACAATCGTACGGACGCATTATCAACACAGCGTCTGTCGCCGGTGAAGTGAGCCTGTCCTTCAGCTCTGTGTACGGCACAAGTAAGGCAGCAGCCATCCACCAGACGAAGCAGCTCGCCCTTGAGCTTGCGCCTTACAACATTACGGTGAACGCCATCAGCCCATGGTTCTTCAAAACCGATTTGAACGAAGAGGCACTTGCCGATGACAGCTTCCGTTCTGCCATTGAAGATCGTTCTCCAATGAAGCGTCTCGGACAGCTGGAAGAGCTTCAGTCTTCCATTCTGTACCTTGCTTCTTCAGGTTCCAGCTATGTATCCGGCCAGAATATATTCATTGACGGCGGGATGACGTCCTACGGCTTGTAA	MELFNNKGKTAIVTGGGSGIGKTAAHTLAESGASVALIGRTAEKVEKAAAEISEATGSEVKGYSGDVTSTSDIERVVKTINNDFGQIDILVNNAGTAAFKDINSLTEDDWDTVMNTNAKSIFFMTQAVAPYMKEQSYGRIINTASVAGEVSLSFSSVYGTSKAAAIHQTKQLALELAPYNITVNAISPWFFKTDLNEEALADDSFRSAIEDRSPMKRLGQLEELQSSILYLASSGSSYVSGQNIFIDGGMTSYGL	PGPT0018070_637	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_IDONATE_DEGRADATION,PGPT0018070-idnO-K00046	NA	NA
AK012_01545	186			hypothetical protein	ATGGCAGATCGTTTTAAGACTGGCGAAAAAGCACCTGAAAAGGGAACATATCAATTCGATGGGTTAGTTGATGGGGGCAGTGAGAACGACGTCACTGAAGACGAAAAACATATCGAACTGGAAAACGGGGATCAGTTCCCGCCGATCCGCTCCAATAAGGAAGCGGCTTACTGGAAAAAAGCGTAA	MADRFKTGEKAPEKGTYQFDGLVDGGSENDVTEDEKHIELENGDQFPPIRSNKEAAYWKKA				NA	NA	NA	NA	NA
AK012_01546	927	putB_1	COG0506	Proline dehydrogenase 2	GTGGTGTTCTTGGAAGCCATCAGCAAGAATTTTTTCTTATACCTCTCCAACAACAAGCTGTTAGACCGCTTTGCAAAGCGTTTTGGCGCTAAGTTCGGGGCTGACAAGATCGTGGGAGGGGAGACGTTCTCCCACGCAATTCCAATTATACAGCAGTTAAACCATGACGGGCTCGAGGTCACTGTCGACCATTTAGGGGAATTTGTGGATTGTGAGGAAGAATCGAGAGACCGCGCCGGGGAGTGTATCCGGACCATCCAGCAGATTGCTTCCGGAGGCCTCCGTTCGGAAGTGTCCCTTAAGCTTACTTCGCTCGGGCTTGATATCAGCCGGGACCTCGTCATCGAGAATTTGTCCCTGATATTAAAAGAAGCGGCTAAGCATGACATTACAGTCACCATCGATATGGAGGACTCCTCCAGATGTGGAGAAACGCTTGATATTTACAGAGAGTTGAAGCAGGAGTATCCGAATCTCGGTACGGTCGTTCAATCCTACTTATACCGTTCTGATGAAGATCTGGATGCCTTGAATGACTGTGATCCTTACCTTCGTCTTGTAAAAGGTGCCTACAAGGAATCACCGAAAGTCGCTTTTTCAGAGAAAAAGCTGGTGGATGATAACTTGAAGCACCTGATCAGGAAAAATCTTCTGAACGGTCATTACACAGCTGTTGCCAGTCACGATGACCGGATCGTCGAGTATACAAAAGCTCTCGCAGAAGAACACAATATTCCACGTGAACAGTTTGAGTTCCAAATGCTGTACGGCATGCGGAACCAAATGCAGAAGGATCTGGTGGAAGAAGGATATAAAGTACGCGTGTATCTTCCCTACGGTGAGGACTGGTACGGATATTTCATGCGGCGTCTAGCCGAGCGTCCAGCCAATATTGCCTTTGCCGTCAAAGGGATTTTCTCTAAATAA	MVFLEAISKNFFLYLSNNKLLDRFAKRFGAKFGADKIVGGETFSHAIPIIQQLNHDGLEVTVDHLGEFVDCEEESRDRAGECIRTIQQIASGGLRSEVSLKLTSLGLDISRDLVIENLSLILKEAAKHDITVTIDMEDSSRCGETLDIYRELKQEYPNLGTVVQSYLYRSDEDLDALNDCDPYLRLVKGAYKESPKVAFSEKKLVDDNLKHLIRKNLLNGHYTAVASHDDRIVEYTKALAEEHNIPREQFEFQMLYGMRNQMQKDLVEEGYKVRVYLPYGEDWYGYFMRRLAERPANIAFAVKGIFSK				NA	NA	NA	NA	NA
AK012_01547	1548	rocA1	COG1012	1-pyrroline-5-carboxylate dehydrogenase 1	ATGGTACAGCCTTACAAACACGAACCATTCACGGATTTTGAACAACAGGAGCATAAGAAAGCCTTTGAAGATGCATTGAAGCAGGTCAAGGAGCAGCTGGGGCAGCACCATGACCTTCTGATTAACGGAGAGCGTGTCCGGACAGACGACACGATTACATCCACCAACCCCGCGAATACAAAGCAGGTTGTAGGTACAATCTCGAAAGCGAATCAGGATCTCGCTGAAAAAGCCGTTCAGTCTGCGTCCGACGCTTTTGAAGACTGGAGAAAATGGGATCCAAGAGCACGTGCTGAAATTCTTTTCCGCGCTGCTTCCAAGATCCGCCGCCGTAAGCACGAGTTCTCTTCCTACCTCGTTTATGAAGTCGGTAAGCCTTGGAAGGAAGCTGATGCAGATACAGCCGAAGCGATCGATTTTCTTGAGTATTACGGCCGCCAGATGATTGAACTCAAAGAAGGAAAAGCAGTGGAAAGCCGCCCGGGTGAAGAAAACCGCTATGTTTACCAGCCGATCGGCGTGACGGTCGTCATCCCGCCTTGGAACCTGGCTCTTGCTATTATGGCAGGTACAACCGTTGCTCCGCTTGTAGCTGGTAACACAGTCGTTATGAAGCCGGCCAGTAACAGTGCCGTTATTGCTGCCAAGTTCGTTGAAGTCTTGGAAGAATCCGGTCTTCCGAAAGGCGTGCTGAACTTTGTTCCAGGAAGTGGCGGCGAAGTAGGCGACTATCTCGTCGATCATCCAAAAACAGCCTTGATTTCCTTTACAGGCTCCCGTGATGTCGGCCTGCGTATCATGGAACGTGCCTCCGTCCGCCAGCCGGGGCAGAATCATTTGAAGCAGGTCATTGCTGAAATGGGCGGGAAGGATACCGTCGTCGTCGATAAAGAGGCAGACATTGATACAGCTGTCGATGCCATCGTCGTTTCCGCCTTTGGATTCTCAGGACAGAAATGCTCCTCAGGTTCCCGGGCAGTCGTTCATGAGGATGTATATGACGAGGTACTTGAGAAAGTGAAAGCCGCTGCTGAAAAGCTGACCGTCGGCAACGCTTCTGAAGAGAATGTCTACATGGGTCCTGTCGTCGATCAAGGCGCTTATGACAAGATCATGAGTTACATGGAAGTCGGCAGGGAGGAAGGCCGCCTTGTAACAGGCGGCAAAGGAGACGATTCCAAAGGGTACTTCATCAACCCGACTGTCTTCGCTGATCTTGATCCGAATTCCCGTATGCAGCAGGAGGAAATCTTCGGACCGGTCGTCTGCTTTACAAAAGCGAAAGACTTTGATGAAGCGATCGAAATTGCCAACAATACGGAATACGGCCTGACTGGAGCCGTGATTTCCGATAACCGTGCCCACCTTGAAAAAGCGAAATACGATTTCCACGTCGGAAATCTTTATTTCAACCGCAACTGCACCGGTGCGATTGTCGGTTACCAGCCGTTCGGCGGATTCAAGATGTCCGGTACCGACTCCAAAGCCGGCGGACCGGATTACATTGCCCTTCACATGCAGGCAAAAACGATCTCCGAAAAGTTTTAA	MVQPYKHEPFTDFEQQEHKKAFEDALKQVKEQLGQHHDLLINGERVRTDDTITSTNPANTKQVVGTISKANQDLAEKAVQSASDAFEDWRKWDPRARAEILFRAASKIRRRKHEFSSYLVYEVGKPWKEADADTAEAIDFLEYYGRQMIELKEGKAVESRPGEENRYVYQPIGVTVVIPPWNLALAIMAGTTVAPLVAGNTVVMKPASNSAVIAAKFVEVLEESGLPKGVLNFVPGSGGEVGDYLVDHPKTALISFTGSRDVGLRIMERASVRQPGQNHLKQVIAEMGGKDTVVVDKEADIDTAVDAIVVSAFGFSGQKCSSGSRAVVHEDVYDEVLEKVKAAAEKLTVGNASEENVYMGPVVDQGAYDKIMSYMEVGREEGRLVTGGKGDDSKGYFINPTVFADLDPNSRMQQEEIFGPVVCFTKAKDFDEAIEIANNTEYGLTGAVISDNRAHLEKAKYDFHVGNLYFNRNCTGAIVGYQPFGGFKMSGTDSKAGGPDYIALHMQAKTISEKF	PGPT0020210_2552	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
AK012_01548	1308	putR_1		Proline-responsive transcriptional activator PutR	ATGAAACCATTCAGCCTATTGAGAAAGGTTAGGATTCCCATGGAAGTTAAAGATAGGATTCTGCAGGCGGAAGATATCCATAAAGCGACGGAGCTGCTCAGCTCCAGACTGGGTAAGCCTGTAATTATTGAAAACAAAAACTTTGAGTTGATCGCCTACAGCTCGACCCATGATGATTTCGATCAAACCCAGCAGAAAACCATCCTCTCCAAGAAATGTCCGATCTTTATTATCGACCGCCTGAAAAAAGAAGGCATTGTCCAGCGTCTGGAAATGCAGCCGGATCCGATCCGTGTCCATCCTATGGAAGAGCTTGGCTTCCAGCAGCGTGTCGTCGTGGCAGCAAGACACCTGAATCATACGATGGGGTATGTCTGGGTCCAGGATGCCGACCAGCTCCTGGATGATACGGACTTTCAGTTCCTTGAGGACATCACGAATCATATTGGGAAGCTGATTTATGATCAGTTTATGAGGGATAACGCCAAGGAAGGCCGGAAAGAGGAGCTGCTTTGGCAGCTGCTGCAGCATGAATATGGCAGCGAAAGCCAGTTCCGCCATGAAGCTGCCCTTGCCAAGCTAAATCTGGCGGAGCGTTTTTCGGTCGTCGTTTTTTCGGTGACCGCTCCGCAGTACAAAAGCATGCTCGATGACCTTTTACAAACGGTGCACCGCTTCCGGATTTCCCGTCCGATGTATGTGCTGAAAACCGAATTTCAGCTTATTCTGCTCGTGGAAGGCAGAGCGGATGACCGCTTTTCGTCCAGAGCGACAGCGAGGGATTTTATTGAGGAAGTGAAAAAAGAAACAGGCGAAGAAGCGTTTTATCATTTCCTGATTGGCGTCGGCAAGGAGTATACAACGTTATCCTTAATGAGAAAAAGCTTTCTCGAAGCACTCGAAGTCATCGAAACCGCCAACTTCATTAACCCGCGCCCGGAAACGATGCCGCGGGAATTTGCGACGCTCGGTCTGTACAGGTATCTTGCTGCCCTCTATGAAAAAAACAGTTCCGAGGATTACTACAGCGAAGACCTGCTGGCCTTAATGAAAAATGATATGGATAAGCAGACGGAGCTGCTGCTCACGCTTGAAACGTATCTCGCTAACAACGGGAAGGGAAAGCAGACGGCCGGCGAGCTGTTTATCCATCCCAATACACTCAATTACCGGATCAAGCAGATTCAGGAAATGACGACGATCGATTTCCAGGATTTCAATATGAAAGCCTACCTTTATACAGAACTCCTGCTTTTGAATAACGTCGAACACTACTACAAACGTTACCAGTCAGCACTAAGGTCGTGA	MKPFSLLRKVRIPMEVKDRILQAEDIHKATELLSSRLGKPVIIENKNFELIAYSSTHDDFDQTQQKTILSKKCPIFIIDRLKKEGIVQRLEMQPDPIRVHPMEELGFQQRVVVAARHLNHTMGYVWVQDADQLLDDTDFQFLEDITNHIGKLIYDQFMRDNAKEGRKEELLWQLLQHEYGSESQFRHEAALAKLNLAERFSVVVFSVTAPQYKSMLDDLLQTVHRFRISRPMYVLKTEFQLILLVEGRADDRFSSRATARDFIEEVKKETGEEAFYHFLIGVGKEYTTLSLMRKSFLEALEVIETANFINPRPETMPREFATLGLYRYLAALYEKNSSEDYYSEDLLALMKNDMDKQTELLLTLETYLANNGKGKQTAGELFIHPNTLNYRIKQIQEMTTIDFQDFNMKAYLYTELLLLNNVEHYYKRYQSALRS				NA	NA	NA	NA	NA
AK012_01549	1467			hypothetical protein	GTGAGAACAGACCGGGTACAGGGACACTATAACCGAAAGGACGTGACGATGATGGCAGAAAAAAGACCGGTCATTGCGCTTGCCGGAGCGAGTGGATATATAGGACAGAACCTGATGGAAAAGTTGAGAAAGCATGCCGACATCATCGCTCTATCCAGGAGCGGTGATCAAAAGGAAGATGAGGAGCAGGTGACGTGGCGTTCCTGTGACCTTTACTCAATGGTGGATGCTGAAAAAGGCCTCAAAGGCGCTGACATTGCAGTTTACCTCGTTCATTCCATGCTGCCTTCTGCTAAGCTGACCCAGGGGAAATTTGAGGATATGGACGTTATTTTAGCTGATAATTTTGCCCAGGCTGCAAAGAAACAGGGGGTCCGCCAGATCGTCTACTTGAGCGGCATCATTCCAGAGCAGGAAAAGAATCTGTCCAGGCACTTGAAGAGCCGTCTGGAAGTGGAGGAAATCCTCGGAGCCTACGGCGTACCGGTGACTACGATCCGTGCCGGTTTGATTGTAGGGCCGAAGGGCTCTTCTTTCCCGATCCTGAAGAAACTCGTGAAGCGCCTGCCATTTATGATTCTTCCGAAGTGGACACGGACGAAAACCCAGCCTATTGCTCTTCCGGATGTGCTTCATGCCCTCGACAGCAGCATTGATAATGAAGAGGTGAAGGGGCGGCCCGTCGATGTAGGCGGTCCGGATGTCATGACCTATGAGACGATGATGAAACGAACGGCTGCTGTCATGGGTAGAAAGCCGCTCACCGTGAACGTTCCTTTTCTGACCGTTGAACTTTCCAAACTGTGGGTGCGTCTTGTGACGGGTTCATCCAAAGAAATGGTCTATCCTTTGATTGAAAGTCTGACCCACCCTATGGTCACACATCAAAAGAATAAAGTCGCAGGGTTAAGTGACGGACGCATCTCTTTTGAGGAGGCAGCTGGAGAGGCGCTCGAAAAGGAAGAAGAAAATAAAAAGGGTAAGAGTGCACTTCCGATGTTTCAGCCGATGCAGCAGGATGTCCGGTCTGTGCAGCGCATTCCGATTCCAGAGGGGTATGACGCCGACTGGGTCGGACGTTACTATGTGAAATGGCTGGAAAACACACTCAACCCATGGGTGAAAACCGAAGTGGATGAAGACAACTGCTGTAAGATCGGTGTCATCTTTAATCAGTCTCCGCTTTTATCCTTCGAGTATGCGAAAGAGCGGAGTACCGGGGACCGGGCGCTGTATTACATTTCCGGAGGTATGCTCGCTGACAGCGGGAAGAATGTGCGCGGACGCCTGGAATTCAGGAAAATTCCGGGCCGGCAGGAAGCCATCGTAGCGATTCACGACTATATGCCTTCCCTGCCCTGGTTTTTCTATAAGTACACACAGGCGAAAGCCCACCTTGTAGTCATGGCGTTATTCCGAAAGCACTTGGAGAAATGGGGAAATGCTTCCGTTCTTCACCATGCATAA	MRTDRVQGHYNRKDVTMMAEKRPVIALAGASGYIGQNLMEKLRKHADIIALSRSGDQKEDEEQVTWRSCDLYSMVDAEKGLKGADIAVYLVHSMLPSAKLTQGKFEDMDVILADNFAQAAKKQGVRQIVYLSGIIPEQEKNLSRHLKSRLEVEEILGAYGVPVTTIRAGLIVGPKGSSFPILKKLVKRLPFMILPKWTRTKTQPIALPDVLHALDSSIDNEEVKGRPVDVGGPDVMTYETMMKRTAAVMGRKPLTVNVPFLTVELSKLWVRLVTGSSKEMVYPLIESLTHPMVTHQKNKVAGLSDGRISFEEAAGEALEKEEENKKGKSALPMFQPMQQDVRSVQRIPIPEGYDADWVGRYYVKWLENTLNPWVKTEVDEDNCCKIGVIFNQSPLLSFEYAKERSTGDRALYYISGGMLADSGKNVRGRLEFRKIPGRQEAIVAIHDYMPSLPWFFYKYTQAKAHLVVMALFRKHLEKWGNASVLHHA				NA	NA	NA	NA	NA
AK012_01550	168			hypothetical protein	ATGAGCAAGAAGGACAAAAAGCACGACCGGCAGTTCAAGGAACGCAGGAGTCACGGTGAACACCGTAACGGACGCCTGGCTCAATTTAAGAATCACAGTACAGAATTCGGCTCCGAGCCGGATGAATATATCGACCGTGCCCGCCTCGGCTATAAGGGCGACGCATAA	MSKKDKKHDRQFKERRSHGEHRNGRLAQFKNHSTEFGSEPDEYIDRARLGYKGDA				NA	NA	NA	NA	NA
AK012_01551	1152			hypothetical protein	ATGAACACATTATCCAAGACAGGGGTATTCGCTTTAATGATGGCGGCGAGCCTGACCGTTATGGTCGGCAGTGCCATCACCCCTGCCCTGCTCGATATATCCCAGCATTACAACATGGAGAACTCCGCCGCCTGGCTCACGACACTGCCCTCGCTCGGGGTTGTCCTGTTCGCTCCACTTGCCGGTAAATTCATCGATAGGGCAGGGCCTTACAAGGCTTTATGTACGGGACTGGTTTTATATGGAGCATTCGGTATCACAGCCATTTGGCTGGACGGACTCGTGATGGTCCTGGGTGACCGGATTCTCCTCGGCGGTGCAACAGCTGTTGTGATGTCTTCGGCCACCGGACTGCTTGCAGAATTTTTCGAGGGGGAGCAGCGCCTGAAGATGATGGCCCTTCAGGGCATGTCCATTGAAGCGGGAGGTATCATCTTCCTGAGTATCGGAGGCATTCTCGGAAGTTTCGGCTGGCAGTTCCCATTCCTGTTGTATCTTCTCGGCTGGATCGCTCTCGTTTTTCTGATTTCCTTTGTCCCCTTCCCAAAAAAGGAGACCACGCCAGAGGAAGAAACAGACGGTGCTGCCTCTTCCGAGAAGATCTGGCCCGTCCTGTTATCCGCGATGCTCGCCATGACGATCTTTTTTGTCACGATGGTCTCTGTACCGTTTTACCTGGCCGAGCACTTTAACATGACTTCCACAGGAACCGGATATTTCTTAGCGATGATCTCTCTTGTCGCCGTGATCTCCGCCAGCCAGATGCCTAAGGTGGTCAATAAAATCAGTGACTATTCGACGCTGATGGCCGGATTCTTTTTATTCGGCAGTGGGTATCTCATCCTGGGGCTCAACCAGACGTCCCTCCTGCTCGCTGTCGGCGCGGGGATCCTGATTGGTTTTGGGTTTGGGTTTACGATTCCTCTCGCCAATCATATGACGGTGGAGAAAAGCAGTGTGTCCAACCGCGGACAGAACCTCGCGTACTTTTCTTCCGCCGTTTTCCTTGGCCAGTTCTTATCTTCTTTTGTAGACAGTATTTCCAACGACCTGTCCATCGTCTATCTTCTGACGGCTGCAGCAGGGATGTTGATCAGCGCCGTTTATTTTATAACATTGAAAAAGGTGCGCACCGCTGTGCAGGAAAACTGA	MNTLSKTGVFALMMAASLTVMVGSAITPALLDISQHYNMENSAAWLTTLPSLGVVLFAPLAGKFIDRAGPYKALCTGLVLYGAFGITAIWLDGLVMVLGDRILLGGATAVVMSSATGLLAEFFEGEQRLKMMALQGMSIEAGGIIFLSIGGILGSFGWQFPFLLYLLGWIALVFLISFVPFPKKETTPEEETDGAASSEKIWPVLLSAMLAMTIFFVTMVSVPFYLAEHFNMTSTGTGYFLAMISLVAVISASQMPKVVNKISDYSTLMAGFFLFGSGYLILGLNQTSLLLAVGAGILIGFGFGFTIPLANHMTVEKSSVSNRGQNLAYFSSAVFLGQFLSSFVDSISNDLSIVYLLTAAAGMLISAVYFITLKKVRTAVQEN				NA	NA	NA	NA	NA
AK012_01552	429	slyA_1		Transcriptional regulator SlyA	ATGAATGAATCTCATAATGAGGATATTGGTTATCAAATCCAGAAAATATCCCACTCCATCAAACAATTGCAGAACGAAAGACTGCAGAAGGAAGATCTGAGCGTTTCCCATGTGAATGTGATGTTCGTTCTTTATGAGAAGGACGGAGTGACGCAGTCGTATCTTCAAAAAGAGCTGGGAATCAAAGCCTCCTCGCTGTCTAAATTGATCGATATTCTAATTCAGAAAGACCTTGTCTATAAAGCTTCGATTGAAAAGGATGCCCGAACGAAATTGATTTACCTGACTTCTTATGGAAAAGAACGGAAGGAGCAGCTTCAGCATATCCGTTATGATCTGGAAGATGAGGTGACCCGTGCACTTACACCTGAAGAGGTCATCCAGATGCAGGAGATGCTGACAAAAATGAAGAACCACCTCGAAGGGTAG	MNESHNEDIGYQIQKISHSIKQLQNERLQKEDLSVSHVNVMFVLYEKDGVTQSYLQKELGIKASSLSKLIDILIQKDLVYKASIEKDARTKLIYLTSYGKERKEQLQHIRYDLEDEVTRALTPEEVIQMQEMLTKMKNHLEG	PGPT0029244_131	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIPLE_ANTIBIOTIC_RESISTANCE,PGPT0029244-marR-K03712	NA	NA
AK012_01553	513			hypothetical protein	ATGACAACTCAACAGACGACTAAAAAAAGCGGGAGCAAAAAGCTTCCCATCGCAATCGTAACCGGAGCTCTTATCGGAGGAGCGATCGTACTTGCCAAAGATCCTGAACAACGCCGCCGCTTGAAAGAAGGCTCCCGCTCTAAGAAGGATTCTGTAGCAGAATACGCTTCCGAAGTGAAGGAAAATCCATCAGAGAAAAAAGACGATCTTGTTACACGCGTCCGTAACATTGTCAATATCGCATCTGAAGCGGCTGCCACGGTGCAGGAGGTCTTTAATAACCAGGGCAAAGAAATCACAGATAAAGTGAAGGATATTAAAGAAGAGTCTGAAGAAATTGTTTCCACGGCGAAAGATGCCGGCGAAGAACTTCAGGAAGTTGGAGACAAAGCCAGGGAAGCGAAAGATGAGCTTTCCAGCGAAGAAGAAGATCAGACCAATCAAACGGCAGGCAAGACCTTTACTCCATCCAATACACAGGACAACGTGACTGAAATCAATACACGCTCTTAA	MTTQQTTKKSGSKKLPIAIVTGALIGGAIVLAKDPEQRRRLKEGSRSKKDSVAEYASEVKENPSEKKDDLVTRVRNIVNIASEAAATVQEVFNNQGKEITDKVKDIKEESEEIVSTAKDAGEELQEVGDKAREAKDELSSEEEDQTNQTAGKTFTPSNTQDNVTEINTRS				NA	NA	NA	NA	NA
AK012_01554	216			hypothetical protein	ATGAAGGCTCTTGAGTGGCTATCAGGATTGACGGCAGGAGCTCTGACAGGTATTTGGATCAACTCCCTCACGCGTGATCCTTCCATTGCAAAAATGAAGATGGAGCGTAAAAAGGGCGAGTTTTACCAGACAGGAAAAATTCAGTACGAAGACATTCAGACCGCCAGGGAAACGATGAGGAATGAAGCTCAAAAAAATACAATGGTAGAAAGGTGA	MKALEWLSGLTAGALTGIWINSLTRDPSIAKMKMERKKGEFYQTGKIQYEDIQTARETMRNEAQKNTMVER				NA	NA	NA	NA	NA
AK012_01555	453			hypothetical protein	ATGGATTTTCTAGGAATCGGCGTACTTATCATCGGAATCGCGTTTGCTGTAGTCTCTATTTTTCTTATTAAAGCTCTGAATAACCTGGCCGGTGTTTTGAGCGGGGTCCGCGAAACAGTGGATCAGCTGCCGGAACAACTGGACTCCGTCATGAAGGAAACGACCGGGGTTCTCCATAACAGTAATGATACCCTGGCCGATGTGAATGAAAAGATCAAAGCATTGAGCCCGTTATTCTATATCGTTGGAGATATTGGTGAATCCTCCAGGAAGCTCACCTCCTCTCTTGTAGATATGACCTCCTCCCTGAAGAATACCACCCTTGAAGGAGAGCAGAAAATCAATGAAGAAGGCTGGCGGGGCATCTATGGGGCGCTTGCCATGACCTATTACCTGTCTCAGAAAAGAAAAGCGCTTAAATCAGCAGCCCAGCTGGATCGTACGACGTCATGA	MDFLGIGVLIIGIAFAVVSIFLIKALNNLAGVLSGVRETVDQLPEQLDSVMKETTGVLHNSNDTLADVNEKIKALSPLFYIVGDIGESSRKLTSSLVDMTSSLKNTTLEGEQKINEEGWRGIYGALAMTYYLSQKRKALKSAAQLDRTTS				NA	NA	NA	NA	NA
AK012_01556	417			hypothetical protein	ATGTCATTAGCAGGACTTGGACTACTCATCATTGCAATTGCATTTGCCTTCATCAGTATCTTTGTCGTAAAAACATTGAAGACAGCGTCCAATACGATGTCCAGTGTTTCCAATACCCTGGAGAAAGTAGAGGGACAGATTCAAGGCATCACATCGGAATCAGAAAGCCTGTTGAAGAAAACCAATTCCATGGCGGCTGACCTTGAAGAAAAAACCCAGAGCATCAACGGATTGATGGATGCCGTCAATAATGTGGGATCTACTGTAGGAAATGTGAACAGTTCCCTTCAGGGGGTTTCAGAAAGTGTGGCCCACGCTTCCCACGAGCGCAATGAAAACGTAATTAAAGCGATGCAGTGGGGCGATGCAGCCATTGATTTATATGTAAAATGGAAACGAAAGAAAGTAAAGGAGTGA	MSLAGLGLLIIAIAFAFISIFVVKTLKTASNTMSSVSNTLEKVEGQIQGITSESESLLKKTNSMAADLEEKTQSINGLMDAVNNVGSTVGNVNSSLQGVSESVAHASHERNENVIKAMQWGDAAIDLYVKWKRKKVKE				NA	NA	NA	NA	NA
AK012_01557	1914	glgB_1		1,4-alpha-glucan branching enzyme GlgB	GTGGTCCAGGATACATCTTTAGAACATGATATTTACTTATTCCATGAGGGGAATCTCAGGTACAGCCACAAACTGCTGGGGGCCCATCCGGATACGAAAAACGGGGAGCAGGGCATCCGTTTTGCTGTCTGGGCTCCGCACGCCGTTCAGGTGAGTGTCGTCGGTCCATTCAATGACTGGGACGGACGCGAAAACCCAATGGAAAAAATCAATGACAACGGCTTATGGATCGCCTTTCTTCCCGGCTTGGAAAAAGGGGCGCTTTATAAATACGAGATTTTAACTCCTCACGGACACCTGCGCTTGAAAGCTGATCCTTATGCTTTTTCAAGTGAACTTCGTCCGAATACCGCTTCGGTTGTCTACCCGCTGGATGATTATTCATGGGGCGACCATGACTGGATGAACCAGCGGAAAGGACGTAATCCCTATGAATCACCTATGTCGATATATGAACTTCATTTAGGTTCCTGGAAGTACATAGAGCCCGAGGTCTTTTACAACTTCCGGCAATATGCAGATATGGTGATTCCTTATGTGAAAGAGCTCGGTTATACCCATATCGAACTTCTTCCGATGACCGAGCACCCATTTGACCGCTCCTGGGGATATCAGGCGACCGGATACTTCTCCGTCACTTCCCGTTACGGCACCCCGGATGATTTCAAATACTTTGTCGATCAATGTCACAAATCTGGAATCGGTGTCATATTGGACTGGGTTCCCGGCCACTTCTGTAAGGATGAGCACGGGCTGCGCAGGTTTGATGGGGAGGCGCTTTACGAATATTCCAACCCGAGCAAAGCCGAGAAAACGCAGTGGGGAACGCTTACGTTTGACTTTGGGAGAAGTGAAGTACAGAGCTTTCTCATCTCAAATGCGGTGTACTGGTTGAAAGAATACCACCTGGACGGACTGCGCGTTGACGCTGTAGCCAGTATGCTTTACCTCGACTTCGGCAAGGAAGATGGCGAGTGGGAGCTGAATGAATATGGCGGTCGGGAAAACATTGAGGCGATCGATTTTATAAGGAAAATGAATAAAGCCGTTTTTGAAGAGGTACCGGATACGCTGATGATGGCGGAGGAATCAACGTCCTGGCCGCTCGTCAGTGCACCGACACATATCGGGGGCCTCGGGTTTAATTACAAGTGGAACATGGGCTGGATGAACGACATGCTCAAGTATATGGAAATGGACCCGATCCACCGTAAGTACCATCATAATTTAATCACATTCTCTCTTCATTACGCCTTTTCCGAGAACTTTGTATTACCGATTTCTCATGACGAAGTCGTCCATGGAAAGAAATCGTTGCTAAATAAAATGCCGGGCGACTATTGGCAGAAATTCGCCAACCTGCGTGCATTTCTGGCTTATATGTACGCCCACCCTGGTAAGAAACTTCTATTTATGGGAGGTGAATTCGGACAATTCGATGAGTGGAAGGATTTAGAGGACCTGGACTGGGAACTGCTGGAATACGACTCCCACGCCTCCATTTTGGAGTACACGAAACAGCTTCATCAGCTGTATCAGGATATGCCGGCGTTATGGGAGCTCGATCACAAGGCAGAGGGTTTCACATGGATCGATCCGAATAACTATGAGCAGAGCATTATTTCTTTTGTACGGAACAGCAGGACATCAAACGATCAACTAGTGATTGTATGCAACTTCACACCAGAGGTTTACCACGATTATAAAGTCGGAGTGCCGGAACAAGGCTCATATGAGGAAATATTCTCGAGTGATGCGGAGCACTTTGGTGGTTCCGGGCAGAGAAACGGTCTGCCGCTGGATACCGTACCCTCTCCATGGCAGGGTCAGAACCAGCATATCACCATGACGGTTCCCCCGCTCGGTGTGAGCTTCCTGAAAAGAACATCAGTAATCCAAGGAGGAGAATCATGA	MVQDTSLEHDIYLFHEGNLRYSHKLLGAHPDTKNGEQGIRFAVWAPHAVQVSVVGPFNDWDGRENPMEKINDNGLWIAFLPGLEKGALYKYEILTPHGHLRLKADPYAFSSELRPNTASVVYPLDDYSWGDHDWMNQRKGRNPYESPMSIYELHLGSWKYIEPEVFYNFRQYADMVIPYVKELGYTHIELLPMTEHPFDRSWGYQATGYFSVTSRYGTPDDFKYFVDQCHKSGIGVILDWVPGHFCKDEHGLRRFDGEALYEYSNPSKAEKTQWGTLTFDFGRSEVQSFLISNAVYWLKEYHLDGLRVDAVASMLYLDFGKEDGEWELNEYGGRENIEAIDFIRKMNKAVFEEVPDTLMMAEESTSWPLVSAPTHIGGLGFNYKWNMGWMNDMLKYMEMDPIHRKYHHNLITFSLHYAFSENFVLPISHDEVVHGKKSLLNKMPGDYWQKFANLRAFLAYMYAHPGKKLLFMGGEFGQFDEWKDLEDLDWELLEYDSHASILEYTKQLHQLYQDMPALWELDHKAEGFTWIDPNNYEQSIISFVRNSRTSNDQLVIVCNFTPEVYHDYKVGVPEQGSYEEIFSSDAEHFGGSGQRNGLPLDTVPSPWQGQNQHITMTVPPLGVSFLKRTSVIQGGES				NA	NA	NA	NA	NA
AK012_01558	1158	glgC	COG0448	Glucose-1-phosphate adenylyltransferase	ATGAAAAATAAAGAATGTGTAGCGATGCTTCTAGCTGGTGGGCAGGGAACCAGACTGAAATCATTGACGAAACAGATTGCTAAACCTGCTGTATACTTCGGCGGTAAATACCGGATCATTGACTTTCCGCTCAGCAACTGTACGAATTCAGGCATTGATACGGTCGGCGTACTCACCCAGTACGAACCGCTTATTTTAAATGATTACATCGGCATCGGGGATACGTGGGATCTGGACCGCAAATTCGGGGGTGTTTCTGTACTTCCTCCATTTATGGAGTCCGAAGGCGGTGGTTGGTATACAGGAACGGCCAATGCCATTTACCGCAACCTGAAATTCTTGAACCAGTATGATCCGGAGCACGTACTTGTCCTTTCCGGCGATCATATTTATAAGATGGATTACGGCGCGATGCTTGACTATCATAAGGAAACAGATGCGGACGTAACCATATCTGTCATTGAGGTTCCCTGGGAGGAAGCCAGCCGTTTCGGGATTATGAACGCAGATGATAATGGAAAGATTACGGAATTTGATGAGAAACCTGAATATCCGAAGAGTAACCTGGCCTCCATGGGTGTCTACATTTTCCGCTGGGATGTCCTGAAGCAGTACTTGATCGACGATGCGGAAAAAGAGGATTCCTCCCATGATTTCGGGAAGGACATCATTCCGGCTCTTCTTAACGATTATAAAAAGATGATGGCCTATACATTTGAAGGTTATTGGAAGGACGTCGGAACGGTCGACAGCCTGTGGGAAGCCAATATGGACCTGCTTAAGAGAAATCCTGAATTGAACCTTAGTGATTCCAGATGGCGGATCTATTCGAAAAACCCAAACCAGCCGCCGCAGTATATCGCTCCATCGGCTACGGTGAAGAACGCGTTGATTAATGAAGGCTGCCGGATTTACGGCCGGGTGGATACATCGGTGATTTTCTACGGTGTCCACGTTTGTGAATCTTCTGTTGTCAAGGACTCTGTCATTATGCCGGATGTTAAAATCGGCAGAAATGTCACCATCAACCGGGCCATTATATCCAAGGGAACAGTGATCGAGGATGGAGCCGTTATCGGTGATCCTTCTCCGGACAGCGAAATCACGCTGGTTGCGGATGAAGGAAGTGTTCTTGCAAAAAGCTATGCTACAAATTGA	MKNKECVAMLLAGGQGTRLKSLTKQIAKPAVYFGGKYRIIDFPLSNCTNSGIDTVGVLTQYEPLILNDYIGIGDTWDLDRKFGGVSVLPPFMESEGGGWYTGTANAIYRNLKFLNQYDPEHVLVLSGDHIYKMDYGAMLDYHKETDADVTISVIEVPWEEASRFGIMNADDNGKITEFDEKPEYPKSNLASMGVYIFRWDVLKQYLIDDAEKEDSSHDFGKDIIPALLNDYKKMMAYTFEGYWKDVGTVDSLWEANMDLLKRNPELNLSDSRWRIYSKNPNQPPQYIAPSATVKNALINEGCRIYGRVDTSVIFYGVHVCESSVVKDSVIMPDVKIGRNVTINRAIISKGTVIEDGAVIGDPSPDSEITLVADEGSVLAKSYATN	PGPT0025885_3271	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
AK012_01559	1107	glgD	COG0448	Glycogen biosynthesis protein GlgD	ATGGATCGCATCGCTGGAATTATTAACCTGGACCATGAGCAGGATATGCTCGATGAACTTACGTACTTTCGCTGTGGGGCAGCTGTACCTTTTGCCGGACGTTACCGGATGATAGATTTTGCTATTTCCAATATGACCAATTCACGGATTGAATCTGTAGCGGTCTTTGCCAGAAGAAAATACCGGTCGCTGATGGACCATTTGGAACAGGGGAAAGCCTGGGATCTGGACCGCAAACGGGGCGGTCTCTTCATCCTCCCTCCTGACTGGAATGACCCGACCGATATTTCCCGCGGGGACCTGCAGCATTTCCATAACAATATCGATTTCATTAACCGGACGCTGGCGGATTATATCGTCATTTCCGGATCGCAGCACATCTGCAACATCGATTATCAGGATGTTCTGCAGGAGCATAAGCAGTCAGGAGCGGACGTGACGGTCATTTATAAACATGTGGATGAGATGCATCACGAGCATGAACGGGCCCACAAGCTGGATATCGACGAAAACAATCGTGTGACGAATATTCACAATGACCGCAGCAGTCATAACGTCTATATGGATATGTACATCATTGACAAGGAATTCCTGTATAACCTGATTGAAAAATGCATCGCCCACGGATGCTCCAACTTTTTCCTGGATGGGATTAAAGGTAAGCTTCCGTATATTCATATCAATGCCTATGAGTACCACGGGACCCATGCCCTGGTCAATTCTGTGGAAAGTTACTACCGCAACAGCTCCAAGCTTTTGAATGCCTCAGAGCATGATGATTTGTTCAAGGAGGACGCCCCGATTTTCACGAAGGTGAAAAACGAGGCTCCTTCGAATTACACCCAGTCCTCACACGTGACGAATACGATGGTGGCCAACGGGTGTGTCATTGAAGGGGAAGTCGAGGACAGCATCCTGTTCCGTGGCGTCAAAGTGGGAGAAGGGGCGGTGGTGAAGAACTCCATCATCATGCAGCGCTGTGAAATTGAAGAAGGAGCGGTTCTGGAAAATGTCATCCTTGATAAGGACTGCACCATTTCAAGCGGCAAAACGCTGATTGGAGCACCTGAAAAGCCGTATGTACTAGCGAAGCGGCGATCAATGTAA	MDRIAGIINLDHEQDMLDELTYFRCGAAVPFAGRYRMIDFAISNMTNSRIESVAVFARRKYRSLMDHLEQGKAWDLDRKRGGLFILPPDWNDPTDISRGDLQHFHNNIDFINRTLADYIVISGSQHICNIDYQDVLQEHKQSGADVTVIYKHVDEMHHEHERAHKLDIDENNRVTNIHNDRSSHNVYMDMYIIDKEFLYNLIEKCIAHGCSNFFLDGIKGKLPYIHINAYEYHGTHALVNSVESYYRNSSKLLNASEHDDLFKEDAPIFTKVKNEAPSNYTQSSHVTNTMVANGCVIEGEVEDSILFRGVKVGEGAVVKNSIIMQRCEIEEGAVLENVILDKDCTISSGKTLIGAPEKPYVLAKRRSM	PGPT0025885_3966	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
AK012_01560	1431	glgA	COG0297	Glycogen synthase	GTGAATATTTTAATGATAGGTTCAGAATGCACCCCTTTTATTAAAACCGGTGGTCTTGCTGATGTCCTTGGATCCCTGCCTCATGCCTTGAAAAAACAAGGCGCTGATGTTCGTGTCGTTCTTCCGAAGTATGAGAACATGGATAACCACTGGAAGGAACAGCTGACTCATCTCGATGAACTGGATGTCACGCTTGGATGGCGCAGTCAGTACGCAGGGATCGAATACATCAACTATGAGGGCATCCCTGTTTACTTCATAGATAACGAATACTACTTTAAACGGTCCAACCTTTACGGATATGGAGATGAAGCAGAACGGTTCGTCTTTTTCAATAAAGCGGTCATGGACTTTATCTGCACGCTGGAGTGGACCCCTGATGTTCTGCACTGCCACGATTGGCAGACCGGACTCATCCCTGTCTACCTACATACCCATTACAAGGATGTGGAAAAGCTTCAAGGTATGAAAACGGTCTTCACCATCCATAATTTGAAGTATCAGGGAATTTATCCGCAGTCGGTGCTTCATGACTTGATGGATTTCGATGAAAGCATGATGAGAGATGACGCTTTTGAATTTTTCGGAAACATCAACTTCATGAAGGGTGCTTTGAACTACGCCGATTTTATTACCACCGTCAGTGAAACTTATGCAAAAGAGATTCAAACCCCGTATTATGGGGAAAACCTAGACGGAGTACTTCGAAAGCGGACTGACGAATTAATCGGAATTGTCAACGGCATCGATGAGCATAACTATAATCCTATGAAAGATGAAGCGTTAGCATTTCCGTATCGCAGCTCCATGGTCAAAAAGGCTCAGAACAAGATGTGGCTGCAGGCTGAATTAGGACTGCCTGTACGCAAGGAAGTACCGATGATTGGCATCGTTTCCAGATTAGTGGAACAAAAAGGGTTCGACTTGATCGGAAGGGTGATTGACGAGCTGCTTTATCATGATGATGTTCAAGTAGTCCTGCTTGGTACAGGGGAATATCAATATGAGCAGCTGTTTCAATGGGTACAGCACAGACACCCCGAAAAAATGTCAGCGAATATCCGTTTTTCAGAGCCGTTATCCCGTCAGATTTATGCGGCCAGTGACATGTTCCTGATGCCTTCCCGTTTTGAACCGTGCGGTATTGGCCAGTTGATTGCCTTAAGGTATCTGTCTGCTCCGATCGTAAGGGAAACAGGGGGACTTGTGGACACTGTTCAGCCATATAATGAAGAGACAGGGGAAGGGAACGGATTTTCATTTACAAACTATAACGCCCACGACATGCTGTACACGATCCGCCGGGCCGTCGAATTCTATCAGGAGCCTGCTTCTTGGCAGAATCTTGTAAAAAACATCTGCAAGAGTAAGTTCACTTGGAAAAACTCTGCGGAGCAGTACATGGATTTATATCAAACGATGTTCCGCTAG	MNILMIGSECTPFIKTGGLADVLGSLPHALKKQGADVRVVLPKYENMDNHWKEQLTHLDELDVTLGWRSQYAGIEYINYEGIPVYFIDNEYYFKRSNLYGYGDEAERFVFFNKAVMDFICTLEWTPDVLHCHDWQTGLIPVYLHTHYKDVEKLQGMKTVFTIHNLKYQGIYPQSVLHDLMDFDESMMRDDAFEFFGNINFMKGALNYADFITTVSETYAKEIQTPYYGENLDGVLRKRTDELIGIVNGIDEHNYNPMKDEALAFPYRSSMVKKAQNKMWLQAELGLPVRKEVPMIGIVSRLVEQKGFDLIGRVIDELLYHDDVQVVLLGTGEYQYEQLFQWVQHRHPEKMSANIRFSEPLSRQIYAASDMFLMPSRFEPCGIGQLIALRYLSAPIVRETGGLVDTVQPYNEETGEGNGFSFTNYNAHDMLYTIRRAVEFYQEPASWQNLVKNICKSKFTWKNSAEQYMDLYQTMFR	PGPT0025880_2949	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
AK012_01561	2445	glgP	COG0058	Glycogen phosphorylase	ATGGTGATGTTCAGTAGTAAAGAGGAATTCAAGGCCGCGTTTAAGGAACAGTTGGAGGACCGGTACGGCAGAACACTGGAGACAGCTTCGGAGTACGATACGTATCGGGCGTTAGGGACGTTGATTCAGGAGAAAATCAATAACCAGTGGCTTCACACCCAGCAGCACTACAAGCGTAACAAGACGAAGCAGGTGTTCTACTTCTCTATGGAGTTTTTGATGGGCCGCCTGCTTGGGAACAATCTATTAAACATGAATGTTCTCAACCTTGTAGAGGAAGGGCTGGAGGAGCTTGGTTTGTCCCTCTCCGGTTTGGAAGAGAAAGAAAGTGACGCAGGCCTCGGAAACGGCGGACTCGGCCGTCTGGCTGCCTGTTTCCTGGATTCCCTGGCATCTTTGGAAATGGCCGGACACGGCTATGGCCTGCGGTATAAGTACGGCATGTTTGATCAGCATATCATGAACGGCAAACAGGTGGAATTTCCTGATTACTGGCTTTCCGAGGATTTTGTCTGGGAAGTGAGACGGCCGGATGAGGCAGTCGAAGTCCGTTTTGGCGGACAGGTTTCATCCACACGTGATAAGGATGGAAAGCTGCATTTCAAGTATGAGCACTATGAACCGATACAGGCGGTCCCGTACGACGTACCGATCACAGGATATAATAACGAGACTGTAAATACGCTCCGCCTATGGTCCGCTGAACCGTCTGTGGGAGATACGATGTCCCGTGCAGAAAAAGAAGGCGGGTTCGGCCATTTCCTCGGGCATAAGCGTTCACTGGAATCTATATCTGACTTTCTATATCCGGATGATTCCACAGAAGAGGGGAAGCGCCTGCGCTTAAAGCAGGAATACTTCCTTGTGTCCGCCGGGGTCCAGTCAGTAGTCCGCTACTTTGAGAACCTTGGCGTTCCGTGGTCCTCCTTCCCTGAGAAAGTGGCCCTTCATATCAATGACACGCACCCGGCCCTCGTCATTCCAGAGCTGATGCGGATTCTTATGGATGAAAAAGGGATTGGATGGGAAGAGGCATGGGAGATCACCAGGACTTCTGTTTCCTATACCAACCACACTACCCTTAGTGAAGCCCTTGAGTCCTGGCCTGTAGGTCTCGTCCGATCGCTGCTTCCACGGATTTTCATGATTATTAACGAAATCAATGAGCGCTTTTGTCAGGAACTGTGGAGCACTTATCCAGGTGACTTTGACCGCATTGCCGACCTTGCCATCGTAGCAGACGGCCAGGTAAAAATGGCTCATTTATCCATTGTCGGCAGTCACAGCATCAATGGTGTGGCGAAACTCCATACAGAGATCTTAAAACAACGGGAAATGAAACGTTTTTACCATACATTCCCAGATCGCTTCAACAATAAAACCAACGGTATTACTCACCGCAGATGGCTCATGCACAGTAACCGCAAACTGACCTCACTCATTACGGAAGCGATCGGCGACAGCTGGATACGTGAGCCGCAGCAGCTGAGCCGTCTGATGAGCCGGAAGGATGACTTGAGTTTTCTCGATCAGCTTCACGATATCAAGCACCAGAACAAAGTGGAATTTGCGGAGTGGGTACAGCAGACTCAGGGAATTACCGTCAATCCACACTCCATTTTCGATGTCCAGATTAAACGCCTCCACGGTTACAAACGTCAGCTGCTTAATGCTCTTCATATTATGCATTTATACAATGAATTAAAGGCAGATCCTTCGATGGAAATGGTACCGAGGACCTTCTTCTTTGGAGCCAAGGCCGCCCCGGGCTATTATTTTGCGAAAACAGTCATTCAATTGATTAACCGTATTGCAGAAGTGGTCAACAATGATCCTGCTGTAAACGATTATATAAAAGTGGTGTTCCTTCCGAATTATTCGGTTTCCATGGCGGAAAAAATTATCCCGGCGACCAATATCAGTGAACAGATTTCGATGGCTACGAAAGAAGCTTCGGGGACTGGGAATATGAAGTTCATGATGAACGGTGCTGTTACAGTGGGAACGATGGATGGTGCTAACGTTGAAATCCATGACCACGTCGGGGACGATAACATTTATATTTTCGGTCTCACTTCCGAGGAGATCTGGGAGTATTACAATCAAGGCTCCTACTCTTCCAGTGAGATTTATCACAAGGATGACCGGATCCGCCATATTCTCGATGAATTGATTCACTACAGTCCTTTTTCTAAAGGCGAGACTGAATTCCAGGCCATTTACGATGCTTTGGTCACCTATAACGACGAGTACTTTGTACTGAAAGATTTTCCGGATTATCTGCTGGCTCAGAAGAAAGTCAGCCAGGATTATCAGAGAAAGCGTCAGTGGAACTTGAAGAGTCTCGTGAACATTGCCCAATCCGGTGTATTCTCCAGCGATCGAACGATTCAGGAGTACGCCGAAGAGATTTGGAAGATCGATCGCGTCGGGGCACTGAAGTAG	MVMFSSKEEFKAAFKEQLEDRYGRTLETASEYDTYRALGTLIQEKINNQWLHTQQHYKRNKTKQVFYFSMEFLMGRLLGNNLLNMNVLNLVEEGLEELGLSLSGLEEKESDAGLGNGGLGRLAACFLDSLASLEMAGHGYGLRYKYGMFDQHIMNGKQVEFPDYWLSEDFVWEVRRPDEAVEVRFGGQVSSTRDKDGKLHFKYEHYEPIQAVPYDVPITGYNNETVNTLRLWSAEPSVGDTMSRAEKEGGFGHFLGHKRSLESISDFLYPDDSTEEGKRLRLKQEYFLVSAGVQSVVRYFENLGVPWSSFPEKVALHINDTHPALVIPELMRILMDEKGIGWEEAWEITRTSVSYTNHTTLSEALESWPVGLVRSLLPRIFMIINEINERFCQELWSTYPGDFDRIADLAIVADGQVKMAHLSIVGSHSINGVAKLHTEILKQREMKRFYHTFPDRFNNKTNGITHRRWLMHSNRKLTSLITEAIGDSWIREPQQLSRLMSRKDDLSFLDQLHDIKHQNKVEFAEWVQQTQGITVNPHSIFDVQIKRLHGYKRQLLNALHIMHLYNELKADPSMEMVPRTFFFGAKAAPGYYFAKTVIQLINRIAEVVNNDPAVNDYIKVVFLPNYSVSMAEKIIPATNISEQISMATKEASGTGNMKFMMNGAVTVGTMDGANVEIHDHVGDDNIYIFGLTSEEIWEYYNQGSYSSSEIYHKDDRIRHILDELIHYSPFSKGETEFQAIYDALVTYNDEYFVLKDFPDYLLAQKKVSQDYQRKRQWNLKSLVNIAQSGVFSSDRTIQEYAEEIWKIDRVGALK	PGPT0018545_3450	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
AK012_01562	1920	apu	COG0366	Amylopullulanase	GTGAGACAAAAGGAAATGTATCATAACAGCTTTGAAGAATCCTACAGAGAGCCTTTCGGTGCTGCGCCGAAAGGTTCTGCTGTTACGCTGAAACTGGATGTGCTCAACCGCCATCGTGTATCCCATGTCATCCTGCACTATATCCTGGACCGCACCGATCATGAAAAAACGAAGGAAATGGATGTGTGCAGCGAGGAGCATCAGTGCACGACCTATGAAACGACGATTAAATTACCGGAAAGTCCGCAGTTGATCTGGTACTTCTTTGAGATCATCTCTGAAGACCGCACTCTTTTTTATGGGCGGGAGCGGAGCAATGAGAGCGGCGAAGGCAGGGTATACGACCATATTCCGCCGTCCTGGCAGATTACGGTTTATGATCCTGCATATGAAACACCGGAATGGTGGAAGAATGCAACAATGTATCAAATATTTCCCGACCGGTTTTATACAGCCGGCGAGATCGATATGAAAAAAGCACCGGAGACAAGTCTTGTTCATGCCCATTGGGAGAACGACCCTGTTTATATCCGCAATGAACGTGGCGAAGTCATCCGCTGGGATTTTTTCGGGGGGAATTTGCAAGGCATTACGGAAAAACTGGATTACCTGGAGACACTCGGAATCACTGTCCTCTATTTGAACCCGATTTTCGAAGCGGAAAGCAATCACCGTTATGATACGGGGGATTATCATAAAATCGATGAACTGCTGGGGACCAAGGAAGACTTTGAGACGCTGATTGAAGAAGCGGGGAAACGTGGAATGGAAGTGATGCTGGACGGGGTGTTCAGCCACACGGGAAGCAACAGTATTTATTTCAACCGTGAAGGAAAATACGATTCCCTTGGAGCCTACCAATCCAAAAATTCCCCTTATTACAGCTGGTATACCTTCCATAACTACCCTGACGAGTACGACGCCTGGTGGGGTGTAGGGACGCTGCCGACATTAAGGAAGGAAAATGAAGACTACCAGAATTTTTTGATTCACGATGAAAATAGTGTCATTAAAACGTGGCAGGAATCAGGGATGAAGCACTGGCGTCTCGATGTAGCAGATGAGCTGACCGATGATTTAATCCGGCAGATTTACACCCAGCTGAAGAAGAAGGATTCATCCAGTGTACTCCTTGGGGAAGTGTGGGAGGATGCCTCCAACAAATCCGCTTATGGAAAACGCCGCGATTATTTTCTCGGAGGGGTCCTGGACTCGGTGATGAACTACCCGATGCGCCGGATTCTTCTCGACTTTGTTAAGGGCGATATGGATGCCTATACCGTGCACAGGCGCTTGATGACCTTATGCGAGCACTATCCGAAAGAATATTTTTATGCCGTGATGAACATGCTGTCGAGTCATGACGTTGAAAGGATTTATACGATGCTTGCCGACTTTCTGCCGGATGACTTTTCAGATGAGCAGAAAGAAAAGCTGATTCTCAAGCAGATCAAGGCTCTCAGTCTCTGGATCTATGCTTTTCCGGGGGTTCCCTCTTTATACTATGGCGATGAAGCCGGGTTGACGGGAGGCGCAGATCCGGATAACCGGAAGCCTTACCCTTGGGGAAGGGAGGACCAGGAGCTGCTTGACTGGTACACGAAGATTGGGAAATGGCGCCAAGAGCACGACGTCCTCCGTACCGGGCACTGGAAATCTTTTGCGCTGGACGATGATGTCATCGGGTTTGAGAGGTGGAACGACAACAATGTCGACCATTTTGGAAATGAAGCCTCAAACGAACGGATTCTCTTTTTGTTCAACCGGAACCTTCGTGAAAAGCGGGAGATCAATATTCCCATTCAAAAAGGAAAGTGGCAGCAGCTGGAGAACAAGAAAAGTATCTTCAGTTCGAAGAATAACTGGCTGACGATCAAGCTGGATCCGTCAGAAAATATGATTCTGAGGTTAATGAAATAG	MRQKEMYHNSFEESYREPFGAAPKGSAVTLKLDVLNRHRVSHVILHYILDRTDHEKTKEMDVCSEEHQCTTYETTIKLPESPQLIWYFFEIISEDRTLFYGRERSNESGEGRVYDHIPPSWQITVYDPAYETPEWWKNATMYQIFPDRFYTAGEIDMKKAPETSLVHAHWENDPVYIRNERGEVIRWDFFGGNLQGITEKLDYLETLGITVLYLNPIFEAESNHRYDTGDYHKIDELLGTKEDFETLIEEAGKRGMEVMLDGVFSHTGSNSIYFNREGKYDSLGAYQSKNSPYYSWYTFHNYPDEYDAWWGVGTLPTLRKENEDYQNFLIHDENSVIKTWQESGMKHWRLDVADELTDDLIRQIYTQLKKKDSSSVLLGEVWEDASNKSAYGKRRDYFLGGVLDSVMNYPMRRILLDFVKGDMDAYTVHRRLMTLCEHYPKEYFYAVMNMLSSHDVERIYTMLADFLPDDFSDEQKEKLILKQIKALSLWIYAFPGVPSLYYGDEAGLTGGADPDNRKPYPWGREDQELLDWYTKIGKWRQEHDVLRTGHWKSFALDDDVIGFERWNDNNVDHFGNEASNERILFLFNRNLREKREINIPIQKGKWQQLENKKSIFSSKNNWLTIKLDPSENMILRLMK	PGPT0012200_180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208	NA	NA
AK012_01563	375			hypothetical protein	ATGGGTTTTTTAGATGGTTTAATGGGAAACGCATCAGAAGTGGATGTATCGAAGCTTGAAAAGGATTTAAAGGATATCCTGGCCGGGGATGAGCAGGTGGAGAGCGGCTATAAGGTGCTGCGCGACTCGTTCATTTTTACAAACAAACGTCTGCTGCTCGTTGATAAGCAGGGCATGACCGGCAAAAAAGTCGAGTACCACTCTATTCCGTATAAAAGCATTACCCATTTCAGTGTAGAAACAGCGGGAAGCTTTGATTTGGATTCTGAGCTTAAAATCTGGATATCAGGGTCTTCGGAGCCGATCGGGAAGCTGTTTAAGAAGGACAGCCCGATTGAATCCGTCCAAAAAACACTGGCTGAACATGTGTTGTGA	MGFLDGLMGNASEVDVSKLEKDLKDILAGDEQVESGYKVLRDSFIFTNKRLLLVDKQGMTGKKVEYHSIPYKSITHFSVETAGSFDLDSELKIWISGSSEPIGKLFKKDSPIESVQKTLAEHVL				NA	NA	NA	NA	NA
AK012_01564	1371	rpoN	COG1508	RNA polymerase sigma-54 factor	TTGAAAAATGATTCCCATTCAAGCATCATGGAAGTATATATTTATGAAAGCGTTACCAAAGAGGTGTTTTTTATGAAGCTTGAGCTTGTTCAGAAACAAACGACTGGGTTATTCATGACAACAGAAATGCGCCAGGCGGTCCAAATGCTTCAATATACATCGGGGGAGCTGTGGGAGTATGTTCAACGGGAGGTCGATGAAAACCCGCTCCTCCATTTTTCCACAGCGGACTCTTCGATGCCTTCCCATCGATCGTCCGGGAATCGTATAGAGGAGCTCACACCCGGGAACACATCATGGCGGGAAAATGTGGAGAATCAAATCCGTATGATGCCGGTCTCCGCTTTGACGAAGTCCATGCTCATTTTTCTTGCAGGGCATTTGAATGATGATGGTTTCTGTGAAGCTGCAGACGAAGAAACAGCGGACACTTTTCATACAACGGTGGAGGCGGCCAGGCAGGCACGCATGTCTATGTTCAACCTGGAACCGGAAGGCGTCGGCTCCAGGGACATCCGGGAGTATTTGATTTTTCAGGCTTCACAGCGTTTCCCCGGAGATGAGATTCTGCCGGTGATCATTCGTGATCATTTCGATGCTCTCGCCTATGGAAACTGGGAGGAAATCGAAAATCACACGGGTATTCAACAGTCTGAAGCGGAAAAAGCACTTATGCGGTTGAAGCAGCTCAATCCCCGGCCGCCAGCTTCCTCTTTGTCCTCAGCCGCACCGTCTCTGCCTCCCGATCTCATTATGGAGGAAACCGCAGAAGGCTGTCATCTGCACGATCCTTACTCCATAACGAAATACCTTGGGTGGGATCGGGAGCTTCTTGAGCTGTATGATACGGATGAGGAGACCGCCGGTTTTTTTAAAGAGGATTACAAACGGGCCCAGTGGCTGATGAAAAGTTTGGAAAGCAGAAAGAATACCTTGCTGCAGACGGCTGAAGCCATCGTGCGGCATCAGCAGGATTTTTTCAGAGGCCGTCCACTGCAGCCGCTGACACGGAAAGACGTGGCGGAACAGATCGGAGTGCACGAATCCACTGTCAGCCGGGCAGCTGCCAATAAAGTCATACAGACGCCGAAAGGGCTGTATCCTTTAAAAAGCTTCTTTGTCACAGGGTATCAAAATGACGAAGGACAAGGGTATTCATCCAGTTATGTGAAAGAATGCATCGTCCGGATCATCCGGGAAGAGACTAAGGGAAAACCGTATTCCGATCAAAGCATCAGCCGTCTCCTCTATCACCAGGAAGGGCTGCACATATCGAGAAGAACGGTTGCCAAGTACAGAGAATCTTTGAAACTCCCGTCCTCCACACGGAGAAAAGAAACCCGGGGAGAGTCTCTCCTCCTACATTCATAG	MKNDSHSSIMEVYIYESVTKEVFFMKLELVQKQTTGLFMTTEMRQAVQMLQYTSGELWEYVQREVDENPLLHFSTADSSMPSHRSSGNRIEELTPGNTSWRENVENQIRMMPVSALTKSMLIFLAGHLNDDGFCEAADEETADTFHTTVEAARQARMSMFNLEPEGVGSRDIREYLIFQASQRFPGDEILPVIIRDHFDALAYGNWEEIENHTGIQQSEAEKALMRLKQLNPRPPASSLSSAAPSLPPDLIMEETAEGCHLHDPYSITKYLGWDRELLELYDTDEETAGFFKEDYKRAQWLMKSLESRKNTLLQTAEAIVRHQQDFFRGRPLQPLTRKDVAEQIGVHESTVSRAAANKVIQTPKGLYPLKSFFVTGYQNDEGQGYSSSYVKECIVRIIREETKGKPYSDQSISRLLYHQEGLHISRRTVAKYRESLKLPSSTRRKETRGESLLLHS	PGPT0000795_2727	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
AK012_01565	825			hypothetical protein	TTGAAGACAATCATCGATTATACGAAAGCGGTTATAAAGGAATTTCAAAAAGATAACGTTCCCCTTCTCGGGGCCGCCCAGGCTTATTATTACCTGCTGTCCATCGTTCCCATGCTGATTCTGCTATTATCCATACTCCCTTATTTGAATATCGAATCAGATACGGCGATCCAGGCGATGGGGAACGTTCTTCCGGGCGGCACCGTCGATGTCTTCCGTGAGAACATCGTTGCGGTAGTGGAACAGCCGAACGGGGGACTGCTTACAGTCGGTATCCTTGGTACACTCTGGTCAGCTTCCAGCGGAATCAATGCGTTTATCCAATCCGCCAATGAAGCGTATGAAGTAGAAGAAACGAGGTCATTCATCAAAGTAAGGTTACTGGCGATTGCCTTGACGATAGGTATGATCGTAGCGATTGTTGTGGCTCTTGCGCTGCCGGTGTTCGGACAGGTCCTGATTGATTTTATCAACCTTCCTGCTCAGACGGAAATGCTCATGCAGGTGCTGCGCTGGGTCATTAGTATAGCTGTGATCGGTCTTGTGTTAATGGCCCTTTATCACTTTGCGCCTAATAAAAATATTCCATTCAAGCACATTCTGCCGGGGGCCGTCATCACCGCTCTTCTCTGGCAGGTCATTTCGCTGGCTTTCTCGTTTTACATCACGAACTTTGGGAATTATTCCGCCACCTATGGAAGTCTCGGAGGTGTCATCATTCTTATGCTGTGGTTTTTCCTGACTGGTATTATTTTAATGATCGGTGCAGAAATCAATGTCGTCTATCACCGACGCCACGGAGGAAGAAAGTCAAAAGCAGCTTAA	MKTIIDYTKAVIKEFQKDNVPLLGAAQAYYYLLSIVPMLILLLSILPYLNIESDTAIQAMGNVLPGGTVDVFRENIVAVVEQPNGGLLTVGILGTLWSASSGINAFIQSANEAYEVEETRSFIKVRLLAIALTIGMIVAIVVALALPVFGQVLIDFINLPAQTEMLMQVLRWVISIAVIGLVLMALYHFAPNKNIPFKHILPGAVITALLWQVISLAFSFYITNFGNYSATYGSLGGVIILMLWFFLTGIILMIGAEINVVYHRRHGGRKSKAA	PGPT0014525_6763	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
AK012_01566	1053	bapA		Beta-peptidyl aminopeptidase BapA	ATGGGAACAAAAACAAGAACATACGGAATTACAATCGGTCGGATGCCGGCAGGGGAACGGAATCAAATCACCGATGTACCCGGCGTCAAAGTCGGCCACCAGACGCGGATGGAAGGAAAAGCCCGTACAGGAGTAACCGTCATCCTCCCGCATGAAGGGGACCTTTTCAAACAGAAGCTGCTGGCAGCCTCACATGTCATCAATGGATTCGGGAAAACCACTGGTTTAATTCAGGTCGATGAAATGGGAACATTGGAAACCCCCATCGCCTTAACGAATACATTTGCAGTCGGTCGCGTATACGATGCGCTCGTTGATTACAGTCTGGAGCGGAACCCTGAGATCGGACGGACGACGGGAACCGTCAATCCTGTTGTGGGAGAATGCAATGATATGCATGTGAATGATATCCGAAACCGGAGTGTAACGAAAGAGGATGTTCTCCAAGCGCTCTTGGAGGCGGAAAGCAGCTTTTATGAAGGGAGTGTCGGAGCAGGGACAGGGATGCTGTGTTATTCCATGAAAGGTGGAATCGGATCAGCCTCGCGTAAGATTGATCTTAACCACGGTGCATACACACTGGGCGTTCTTACATTAACCAACTTCGGCACGTTGAATGACCTCCGGGTCGATGGAAAAGCAGTCGGCAGAGAATTGAGCCAAGCTGTTCAGCACCAGGAAAAGGACCGGGGATCGGTCATGGTCATCTGCGCGACCGATCTTCCGGTCTCAGAGAGGCAGTTGAAACGGATCCTCAAACGAGCGGCAGCCGGATTGTCCCGGACCGGTTCCATTATCGGCAATGGCAGCGGTGAGGTCGTTATCGGTTTTACAACAGCCGGCACCATTCCACATGATAAACCGGACCAGCCCCTCTCTTTAAAGATGCTCCATGAAGAAGACATGGACGAAGCTTTCCGTGCCATTCGTGAATCCTGTGAGGAAGCTGTTTTGGAATCTCTTCTTCATGCGACGCCGGTCGAAAGCAGCAAGGGTGGTCAACGCCCGACATTGAACGATCTTCTGAAGAAAACCGGCTGCTCCCTCTTATAA	MGTKTRTYGITIGRMPAGERNQITDVPGVKVGHQTRMEGKARTGVTVILPHEGDLFKQKLLAASHVINGFGKTTGLIQVDEMGTLETPIALTNTFAVGRVYDALVDYSLERNPEIGRTTGTVNPVVGECNDMHVNDIRNRSVTKEDVLQALLEAESSFYEGSVGAGTGMLCYSMKGGIGSASRKIDLNHGAYTLGVLTLTNFGTLNDLRVDGKAVGRELSQAVQHQEKDRGSVMVICATDLPVSERQLKRILKRAAAGLSRTGSIIGNGSGEVVIGFTTAGTIPHDKPDQPLSLKMLHEEDMDEAFRAIRESCEEAVLESLLHATPVESSKGGQRPTLNDLLKKTGCSLL				NA	NA	NA	NA	NA
AK012_01567	4581	gltB_1		Ferredoxin-dependent glutamate synthase 1	ATGCAAAAACACGGATATCCTGTTCCGCAGGGGCTTTATCATCCGGAAAATGAGCATGAAGCTTGTGGTATCGGAGTTATTGCCAACATCGATGGGACAAAGAGTCACAGTATCGTAGAAAATGCCATCACGATCTTATGTAACCTTGAGCACCGGGGCGGTCAGTCCGCGGATGTCAGTACAGGGGATGGTGCCGGTATTTTAACCCAGATTCCTCATAAATTCTTTGAAAAACAATGTGAGAAAGAAGATATATACCTTCCGGAGGCTGGGAAATACGGGATCGGCATGGTTTTCTTCCCGGAAGATCATGCATTAAGAGTCGACTGCATGCGCCGCTTCCAGCGTATCGTTGAGGAAGAGGGCCAGCAGTTTCTCGGCTGGCGTACTGTACCTGTCAACGATTCCTTCGTAGGGAAAGATGCGAAAAAGACGAAACCATTCATTCGTCAGGCATTTGTCGCCCCTTCTGAAACGATCCAGTCACAGATGGAGCTGGAGCGTCGTTTATATATTATCCGCAAACGGGCGGAAAGCGAAATTGCTTCCATGGAGCAGTATGATGACTTTTATATCAGCAGCCTGTCTTCCAATACCATCGTCTATAAAGGCATGTTGATTCCGGAACAGCTGGACTCCTTTTATATTGATTTGAACCACCCAGACTTTAAGACCGCCCTCGCTTTAGTGCACTCTCGATTCAGTACAAACACCTTCCCGAGCTGGAAACGATCACATCCAAACCGCTATACCATCCATAATGGAGAGTTCAATACACTGCGGGGAAATGTGAACTGGATGAGAGCAAGACAGGAGCTGTGTGAGTCTGAATACTTCAGCAAAGAAGATTTGGATAAGCTTCTGCCGGTCATTGATGCCAACGGAAGTGACTCATCCATGTTTGATAATGCTTTTGAGTTTCTTTACTTATCCGGCCGTTCACTGGCGCACACCGCAATGATGATGGTCCCTGAGCCTTGGTCCAATGATGAGACCATTCAGGAAGATAAGAAAAGTTTTTATGAGTATCACAGCACGCTGATGGAACCATGGGACGGCCCTGCTGCCCTGGCCTATACGAACGGAAAGCAGATCGGTGCCTGCCTGGACCGTAACGGCCTGCGCCCTGCCCGTTATTACGTAACGAAAGACGGCATGATCGTGCTCGGGTCTGAAGTTGGTGCGCTTGATATTTTTGCTGATGATATTTTGTACAAAGATCGTCTGCACCCAGGAAAAATGCTCCTTGTCGATCTTGAAGAAGGGAAGATCATCCCGGATGAAGAGATCAAACTGCAGATTGCCCGTGAATATCCATACCAGGAATGGATTGATGAGCATAAATTCGATTTGGAGGATCTTCCGGATCCGGTCACAGAGCATCGTCCGATCGGTAACCTGATCGATCAGCAGCTCGCCTTTGGATATACGACAGAGGAACTCAATAAAATCCTTATGCCGATGGTTACGGATAAGAAAGATCCCGTCGGTTCGATGGGGTATGATTCCCCGCTGGCTGTTCTCTCTAAAAAGCCTCAGCTGCTGTACAGCTACTTTAAACAGCTGTTTGCCCAGGTCACCAATCCGCCGATCGATGCCATTCGTGAAAAGTTAATCACCATGGTGGAGACGACGATTGGTGCCGAAGGGAACCTCGTGGATCCGAAACCGGACAGCTGCCGTCAGATCCGGCTGAAGACGCCGATTCTGACAAATACAGAACTTGAACAGCTTCGCCAGCAGACGGTGGAAGGGTTCAAGCCGGTAACGCTGCCGATTTTATTCAAAGCGGAAGAGAATGGGATGAAAGCTTCTCTTGACCGTTTATTTGAAGACGCCGATCAAGCGGTGGAAGACGGAGCAACGCTGATTATTTTATCTGACCGCGGTGTGAATGAGGAGTATGCTGCGATCCCGACGCTGCTTGCCGTTTCCGGTCTTCACCACCATCTGATCCGTAAAGGGACACGGACGAAGGTCAGCCTGCTTGTAGAATCCGGGGAAGCCCGTGAAGTCCATCATTTTGCAACGCTTCTCGGTTATGGGGCAGAAGGAATCAACCCGTATCTGGCCTATGAGTCTCTGCGTGACCTTATTGAAACCGGTCAGATTGAAGCTGAATCCCATGCGGATGCTGTCCAGACATATATTAAAGCGGCAACAGACGGAATTATTAAAGTACTGTCCAAGATGGGGATTTCAACCATCCAGAGTTACCGCGGAGCTCAGATTTTTGAAGCGGTCGGTATTCATATGGATGTGATCGACCAATACTTTACACGTACAGCCTCCCGCTTGGGCGGAATCGGTCTGGACATTATTGAAAAAGAAGTATTGATGCGTCACGAAACAGCCTTCAGCGAAGCCCGCGGCGGCAGCCGTACCCTTGATGCGGGTGACGATTACCAATACCGGAAAAACGGAGAGGATCATCAGTATAACCCGCAGACGATCGCGACACTGCAGCACGCCTGCCGTGCCAATGATTATGATCTGTTCAAGCAGTATTCACAGATGCTCACAGATGAAAAGCATAACCTTCAATCCCTGCGTGGACTTTTATCCTTTAAAAAACGGCCGTCCATTCCATTGGATGAAGTGGAATCGGTCGAAGACATTACCCGCCGCTTCAAAACCGGTGCGATGTCCTTCGGTTCCATCAGTCAGGAGGCCCACGAGGCGCTTGCTGTTGCGATGAACCGGATCGGCGGCCGCAGTAACTCCGGTGAGGGTGGGGAAGACCCGGCCCGTTTTGAACCGGAAGAAAATGGAGATTTGAAGCGGAGTTCGATTAAACAGGTGGCTTCCGGCCGCTTTGGCGTAAACAGCCATTATTTAGTCAATGCAGATGAAATCCAGATTAAAGTCGCCCAGGGGGCCAAACCCGGGGAAGGCGGCCACCTGCCTGGTAAGAAAGTGTACCCGTGGGTTGCTGAAGTCCGTGGCTCCACTCCGGGTGTTGAATTGATTTCACCTCCGCCGCACCACGATATTTATTCAATCGAGGATCTGGCTGAATTGATCTACAACTTGAAAAATGCCAATCCAAAAGCCCGTGTCAGCGTGAAGCTTGTATCGGCTGTCGGTGTCGGAACCATCGCTGCAGGTGTAGCGAAAGGCCGCGCAGACCTTGTTCTGATCAGTGGATATGACGGGGGTACAGGGGCGGCACCGCGTACAAGTATTAAGCATACCGGTCTTCCTTGGGAAATCGGCCTGGCTGAAACCCACCAGACCCTTGTGCTCGACCGTCTTCGTGACCGCATTGTTGTTGAAACGGACGGCAAAATGATGACGGGACGTGACGTCGTTGTAGCCTCTCTTCTTGGGGCGGAGGAATATGGATTTTCCACAGCGCCTCTTGTCGTGCTTGGCTGTGTCATGATGCGTGTCTGCCACTTGAATACTTGTCCTGTTGGTGTTGCTACCCAGGATCCTGAACTGCGTAAGAAATTCACGGGTGAAGCGGATCATCTTGAAAACTTCATGCGCTTCATTGCACAGGAAGCAAGAGAGATTATGGCAGAACTCGGCTTCCGTACGATCAATGAAATGATTGGACGTACCGATGTACTTGAAACGAACGAAGCGATTGATCACTGGAAAGCGAAAGGGGTCGACCTGTCCGCTCTCCTTTACCAGCCGGATGTACCTGATAACTATGGTTTATTTGCTGTGCGTAAACAGGATCATGGGCTGGATAAAACGCTTGATATGGAAGAGCTGCTTCCATTATGTGAAGACGCGATTCAAACAGGCAGCCCGATGAAATATACCGGATCGATCCGGAACATCCACCGGGTGACAGGGACGATTCTCGGCAGTGAAATCACCCGCCGTTACGGCGCGGAAGGTCTTCCTGAAGATACGATCAACCTGACATTCAAAGGTTCAGCGGGACAGAGTTTCGGCGCATTTATTCCTAAAGGGATGACCCTGCGTTTGATTGGAGATTCCAATGACTACGTCGGTAAAGGACTGTCCGGCGGGAAGATCATTGTTCATCCTTCACCGAAATCGTCCTTCCGACCGGAAGAAAACACGATTATCGGAAACGTGTCCTTCTATGGAGCTTCTGCTGGAGAAGCCTATATCAACGGCCTTGCCGGCGAACGTTTCTGTGTGCGGAACAGCGGGGCGGATGTTGTCGTTGAAGGTGTAGGAGACCACGCCTGTGAATATATGACCGGTGGCAGGGTCGTCGTCCTTGGAGGTACCGGCCGCAACTTTGCCGCAGGTATGTCAGGAGGCGTCGCCTACGTTCTTGACGAAACGGCCCACCGTTTTGAAACGAAATGCAATAAAGAGCTTGTGCTCCTGCAGCAGCTGCAGGATTCACAGGAAATCCAGGATCTATATGACATGATCGACCGTCATGTTTCTTATACAAACAGCCCGCTGGGACAGAAGATCCTTGCGGAGTGGCCGCAGTACGTCAGCCGATTTGTCAAAGTGATTCCAAGAGATTACCTGCACATGCAGGAACGCATCCAGCGCCTGAAAAAAAGTGGACTGGACAAATTTGACGCAGAAATGACAGCTTTTGAAGAGAGAAACAAACCGGTGGAAACCGTTAAATAA	MQKHGYPVPQGLYHPENEHEACGIGVIANIDGTKSHSIVENAITILCNLEHRGGQSADVSTGDGAGILTQIPHKFFEKQCEKEDIYLPEAGKYGIGMVFFPEDHALRVDCMRRFQRIVEEEGQQFLGWRTVPVNDSFVGKDAKKTKPFIRQAFVAPSETIQSQMELERRLYIIRKRAESEIASMEQYDDFYISSLSSNTIVYKGMLIPEQLDSFYIDLNHPDFKTALALVHSRFSTNTFPSWKRSHPNRYTIHNGEFNTLRGNVNWMRARQELCESEYFSKEDLDKLLPVIDANGSDSSMFDNAFEFLYLSGRSLAHTAMMMVPEPWSNDETIQEDKKSFYEYHSTLMEPWDGPAALAYTNGKQIGACLDRNGLRPARYYVTKDGMIVLGSEVGALDIFADDILYKDRLHPGKMLLVDLEEGKIIPDEEIKLQIAREYPYQEWIDEHKFDLEDLPDPVTEHRPIGNLIDQQLAFGYTTEELNKILMPMVTDKKDPVGSMGYDSPLAVLSKKPQLLYSYFKQLFAQVTNPPIDAIREKLITMVETTIGAEGNLVDPKPDSCRQIRLKTPILTNTELEQLRQQTVEGFKPVTLPILFKAEENGMKASLDRLFEDADQAVEDGATLIILSDRGVNEEYAAIPTLLAVSGLHHHLIRKGTRTKVSLLVESGEAREVHHFATLLGYGAEGINPYLAYESLRDLIETGQIEAESHADAVQTYIKAATDGIIKVLSKMGISTIQSYRGAQIFEAVGIHMDVIDQYFTRTASRLGGIGLDIIEKEVLMRHETAFSEARGGSRTLDAGDDYQYRKNGEDHQYNPQTIATLQHACRANDYDLFKQYSQMLTDEKHNLQSLRGLLSFKKRPSIPLDEVESVEDITRRFKTGAMSFGSISQEAHEALAVAMNRIGGRSNSGEGGEDPARFEPEENGDLKRSSIKQVASGRFGVNSHYLVNADEIQIKVAQGAKPGEGGHLPGKKVYPWVAEVRGSTPGVELISPPPHHDIYSIEDLAELIYNLKNANPKARVSVKLVSAVGVGTIAAGVAKGRADLVLISGYDGGTGAAPRTSIKHTGLPWEIGLAETHQTLVLDRLRDRIVVETDGKMMTGRDVVVASLLGAEEYGFSTAPLVVLGCVMMRVCHLNTCPVGVATQDPELRKKFTGEADHLENFMRFIAQEAREIMAELGFRTINEMIGRTDVLETNEAIDHWKAKGVDLSALLYQPDVPDNYGLFAVRKQDHGLDKTLDMEELLPLCEDAIQTGSPMKYTGSIRNIHRVTGTILGSEITRRYGAEGLPEDTINLTFKGSAGQSFGAFIPKGMTLRLIGDSNDYVGKGLSGGKIIVHPSPKSSFRPEENTIIGNVSFYGASAGEAYINGLAGERFCVRNSGADVVVEGVGDHACEYMTGGRVVVLGGTGRNFAAGMSGGVAYVLDETAHRFETKCNKELVLLQQLQDSQEIQDLYDMIDRHVSYTNSPLGQKILAEWPQYVSRFVKVIPRDYLHMQERIQRLKKSGLDKFDAEMTAFEERNKPVETVK	PGPT0000635_1333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000635-gltB-K00265	NA	NA
AK012_01568	1488	gltB_2	COG0493	Glutamate synthase [NADPH] small chain	ATGGGAAAACCAACTGGATTTATGGAATATACGCGCCAGGCCATACCTGAGCGTGATCCTGAAGTTCGAACAAAAGACTGGGAAGATTACACCCTTCCCCTTTCAGATGAGGAAGTACAAAAGCAGGGGGCCCGCTGCATGGACTGCGGCGTCCCGACGTGTCACTCCGGCATGGAGATCAACGGCATCACAACCGGATGCCCTGTGTATCACTTAATTCCAGAGTGGAATGACCTGGTATACCGTGGGAAATGGAAGGAAGCTCTTGAGAAGGAGCATGAAATGAACAACTTCCCGGAATTCACCGGATTTGCCTGCCCGGCTCCGTGCGAGGGTGCCTGTGTACTCGGCATTAATGAACCGCCGGTAGCCATCCGGAGCGTGGAGCGCTCAATCATTGAGAAAGGATTCGCCGAAGGCTGGGTGACGCCTCAGCCGCCGGCCTACCGTACCGGGAAAAAGGTTGCGGTTGTCGGTTCCGGGCCGGCCGGCCTGGCTGCGGCTGCGCAGCTGAACAAAGCCGGGCACTGGGTGACGGTATATGAGCGCAATGACCGTGTAGGTGGACTGCTGACCTACGGAATTCCAGAGATGAAGCTTCCGTATTCGGTTGTGGAACGCCGTGTCGACATTTTGAAGCAGGAAGGCATTCAATTCCTGACAAACACAGAGGTCGGTCGTAACTACCCTGTGTCCCGCCTGAATGAAGAATATGATTCTGTCATTCTTTGTGGCGGTGCGACCACACCGAGGAACATTGACGTAAACGGCAGGAACCTGAAAGGGGTTCACTATGCCATGGACTTCCTTCATTCCAACACGAAGAGTCTTTTAGATTCGGATCATGAAGACGGCAATTACATCAGTGCCAAGGATAAAAATGTCATCGTGATCGGTGGGGGAGATACAGGGACAGATTGTATGGCCACCTCAATGCGTCATGAATGTAAGAGCCTGACTCAATTCGATATCTATGATAAGAAGAGCAGTGTCCGCGATAATGAAACCAACCCGTGGCCGCAGTATCCGATTATCCACCGCGTCGAATATGGACAGAAAGAAGCAGAAGCTGAATTCGGAAAAGACCCGAAAGCCTATGCAGTCATGACGAAAAAGTTCGTCGGTGATGAGAACAACCGCATCAAGGAAGTGCATACCATTGATGTCGCGCTTTCCTATGATGAAAAAGGGAACAAAGTACGCACAGAAATTCCTGGGACGGAAAAAGTATGGCAGGCGGACCTTGTCCTGCTTGCGATCGGTTTCAGCGGACCGGAACAGGATCTGATTGAGAAGCTGGGCATAGAAACGACAGTGCGCTCCAATGTCGCTGCCCAGTACGGCAAATATACGACTAATGTAGATGGTGTGTTCGCGGCAGGAGATATGCGCCGCGGACAGAGTCTGATTGTGTGGGCGATCAATGAAGGTCGTGAAGCGGCCCGTGAATGCGATCGTTACCTCATGGGTGCGACTCAGCTGCCATAA	MGKPTGFMEYTRQAIPERDPEVRTKDWEDYTLPLSDEEVQKQGARCMDCGVPTCHSGMEINGITTGCPVYHLIPEWNDLVYRGKWKEALEKEHEMNNFPEFTGFACPAPCEGACVLGINEPPVAIRSVERSIIEKGFAEGWVTPQPPAYRTGKKVAVVGSGPAGLAAAAQLNKAGHWVTVYERNDRVGGLLTYGIPEMKLPYSVVERRVDILKQEGIQFLTNTEVGRNYPVSRLNEEYDSVILCGGATTPRNIDVNGRNLKGVHYAMDFLHSNTKSLLDSDHEDGNYISAKDKNVIVIGGGDTGTDCMATSMRHECKSLTQFDIYDKKSSVRDNETNPWPQYPIIHRVEYGQKEAEAEFGKDPKAYAVMTKKFVGDENNRIKEVHTIDVALSYDEKGNKVRTEIPGTEKVWQADLVLLAIGFSGPEQDLIEKLGIETTVRSNVAAQYGKYTTNVDGVFAAGDMRRGQSLIVWAINEGREAARECDRYLMGATQLP	PGPT0000640_571	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0000640-gltD-K00266	NA	NA
AK012_01569	2037	katE	COG0753	Catalase HPII	ATGAGCGATAAGCGTACAAAAAAGGATGAGCAGCTGGACCAGTACAGGGTAGATGATTCTGGAAAACATATGACCACCAACCAGGGAGTGAAAGTATCTGAGGATGAATTCTCCCTCAAGGCTGGTGAACGCGGCCCGACGCTGATGGAGGATTTTCATTTTCGCGAAAAAATGACTCACTTTGACCATGAACGAATTCCTGAGCGTATTGTGCACGCCAGAGGATTTTCTGCTCATGGAGAATTTCAATTATATAAATCTCTCGAAAAATATACGAGTGCTGACTTTTTGACAGATACATCGAAGACGACCCCGACCTTTACACGTTTCTCTACGGTTCAAGGGTCAAAGGGCTCTGCCGAAACCGTGCGTGATGCCCGCGGGTTTGCGACGAAATTTTATACACAGGAAGGAAACTTTGACCTTGTTGGAAACAACATTCCCGTTTTCTTCATTCAGGATGCCATCAAATTCCCTGATTTAATTCACGCGGTCAAACCGGAACCACATAACGGCATGCCGCAGGGGGCTTCCGCCCATGATACGTTCTGGGACTTTGTTGCCCATAACCAGGAGTCCGCGCATATGGTGATGTGGACAATGTCCGATCGTGCTATTCCACGAAGTCTACGTATGATGGAAGGGTTCGGTGTACATACCTTCCGCCTGGTTAACAAAGAAGGCGTTGCACACTTTGTGAAGTTCCACTGGAAACCTGTCCTTGGCACGCACTCCCTAGTTTGGGACGAAGCCCAGAAAATCAATGGTAAAGATCCGGACTTCCACCGCGGGGATCTTTGGAATTCCATTGAAAACGGCGACTATCCGGAATATGAACTTGGTATTCAAGTGATAGCGGAAGAAGATGAACATAAATTTGATTTTGATCTTCTGGATCCGACGAAGCTGTGGCCGGAAGAAGATGTTCCTGTTGAAATCGTCGGTAAACTGACAATGAACCGCAACGTGGATAACGTGTTTGCGGAGAATGAGCAGGTAGCCTTCCACCCAGGTCATCTTGTACCAGGGATCGACTTTACGAACGATCCGCTGCTGCAGGGACGTCTGCATTCCTATACAGATACACAGTTGATCCGTCTCGGGGGTCCAAACTTCCATGAGCTTCCGATCAACCGTCCGGTCTGCCCGTTCTTTAACAATCAGCGTGATGGGTATGGACGTCAGACGATCAATAAAGGTCCTGTGGCTTACCATAAAAATGGGCTGGCTGGTAATACACCAACACCGGCGAGCAAGGCAGAAGGCGGCTTTGAACATTACCAGGAAAAAGTGGACGGCCATAAAGTCCGTGCACGAAGTGAAAGCTTCAAAGACCACTTCTCCCAGGCAACTCTTTTCTGGAACAGCATGAGTGATCATGAGAAGAATCACATTATTAATGCGTTCAGCTTTGAACTTGGAAAAGTGCAGAGTGAAGATGTACGTGAGAAAATCGTCGAGATGTTCTCCAACGTCAGCCTTGAGCTTGCCCAGTCCTTTGCTGAGAACATCGGTGTCACCCCTCCGGAATCAGGTGGATCGAACGTTACCAAGTCTTCTCCGGCGCTCAGCCAGGCGAATACCGTTCATTCCCCGGCGACGAGAACGGTCGGTGTCATTCTTGCTGACGGGTTTAACGGACAGGATGTGCGGCAGACACTTGAACATCTGGAGTCTCAAGGGATCATGACAAACATCATCAGTAACCGTCAAGGTATGCTGAAAGGGGACGACCAATCAGAACTGAAAGTGGATCACACGTTCCTTACAGTAGATTCTGTTCTTTATGATGCGGTTTATGCCGTCGGCGGCGCTGAAGCTGACCAAACGTTTGCCAAACAGGCCGGGAATTTCCTGTCTGAGGCGTTCATGCACTTCAAACCGATCGGAGCGACCCACGAAGGTGTAGAATATGTGCAGCAGAACGATATGGACGGTCAAAGCGGCGTCATTACCGGTGACAGTGCAGATCAGTTCGCCAAACAATTCAGCGAAGCAGTCTCCGCCCACCGTTTCTGGGATCGTGAAGTTATGTAA	MSDKRTKKDEQLDQYRVDDSGKHMTTNQGVKVSEDEFSLKAGERGPTLMEDFHFREKMTHFDHERIPERIVHARGFSAHGEFQLYKSLEKYTSADFLTDTSKTTPTFTRFSTVQGSKGSAETVRDARGFATKFYTQEGNFDLVGNNIPVFFIQDAIKFPDLIHAVKPEPHNGMPQGASAHDTFWDFVAHNQESAHMVMWTMSDRAIPRSLRMMEGFGVHTFRLVNKEGVAHFVKFHWKPVLGTHSLVWDEAQKINGKDPDFHRGDLWNSIENGDYPEYELGIQVIAEEDEHKFDFDLLDPTKLWPEEDVPVEIVGKLTMNRNVDNVFAENEQVAFHPGHLVPGIDFTNDPLLQGRLHSYTDTQLIRLGGPNFHELPINRPVCPFFNNQRDGYGRQTINKGPVAYHKNGLAGNTPTPASKAEGGFEHYQEKVDGHKVRARSESFKDHFSQATLFWNSMSDHEKNHIINAFSFELGKVQSEDVREKIVEMFSNVSLELAQSFAENIGVTPPESGGSNVTKSSPALSQANTVHSPATRTVGVILADGFNGQDVRQTLEHLESQGIMTNIISNRQGMLKGDDQSELKVDHTFLTVDSVLYDAVYAVGGAEADQTFAKQAGNFLSEAFMHFKPIGATHEGVEYVQQNDMDGQSGVITGDSADQFAKQFSEAVSAHRFWDREVM	PGPT0014380_1556	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK012_01570	1353	dapE_1		Succinyl-diaminopimelate desuccinylase	GTGAAACAAGCTGTGGAAAAACATAAGGACCAATTTATTGAAGAACTCAAGCAGTATTTGCGTATACCGAGCATCTCATCGCTTTCTGAATATAAAAAAGAGGTGCGCCGGGCAGCGGAGTGGACGGCCGAAGCGTTGGAAAAAGCGGGCATGGAGCATGTGGAAGTTATTGAAACAGAAGGCCATCCACTGGTTTATGCGGACTGGCTCCACGCCCCTGATAAACCGACCGTCCTTGTCTACGGCCACTATGATGTCCAGCCTGAAGACCCTGTTGACCTCTGGGATACCCCTCCTTTTGAGCCGGTGATCCGGGACGGAAAGATCTATGCGCGCGGTGCCACCGATGACAAGGGACAGTTGTTCATTCATATCAAAGCGGCCGAGCTTTTCATGAGAGAGTATGGAAAGCTGCCTGTGAACTTGAAGTTTATCATTGAAGGAGAGGAGGAAGTGGCCAGTCCCCACCTCGGTCCTTTCATCGAGGGAAATCAGGAGCGTTTATCCTGTGACTCTGTCGTAATCAGTGACACTTCCTTCAGTGGAAAAGATCAGCCGGCGATCTGCACATCCCTGCGCGGGGCGCTTGCGCTGCAAATGACGGTGCGGACTGCGAACTCTGACCTTCATTCTGGTACATATGGCGGCGGAGTGCCGAATGCGGTCCATTCGCTCGTTTCTCTCTTGGATTCTTTTCATGATGATCAAGGAAGAATCGCTGTAGACGGCTTTTATGAAGGGGTGCCGGAACCAGCGGAAGAACTTCGCCGGGAAGTCGCTGAAGTCCCTTTTGACGAAGAAGAAACGAAACGGGAACTGGAGATTGAGGATCTTTACGGCGAAGTCGGGTTTTCTTTCAAAGAAAGAACAGGGATTCGTCCGACTCTCGAAATCAACGGCATTACAGGTGGTTTCCAGGGCGAAGGACTGAAGACGATTGTTCCAAAAGAAGCGTCCGCCAAAATCAGCTGCCGCCTGGTCGGTGATCAGGATCCACGGGCCGTTTATGACGTGGTTAAGCGCCATGTGGAGCAGTATAAGCCTGTCGGGGCGAAAGTTCATCTGGAGAAGTTCATTCAAGCGGATCCTGTTGCGATGGATTCTCAAAACGCCTTTATTCAGGCGGCGGCAGAAGCTTATGAGGATGTCTACCAGATCCGTCCGCTGTTTCCGAAGGAAGGCGGGTCCATTCCTATTGTAGAAGTGTTTGGACGCGTTCTTGAAGCTCCTGTTGTGTTGATGGGCTTCGGACTTCCGACAGAGAATCTACATGCACCGAATGAACACTTCCATCTTGATAACTTTACCAAAGGGATCGAAACGGTCACTCAATATCTTCAGAAGTTGTCCTAA	MKQAVEKHKDQFIEELKQYLRIPSISSLSEYKKEVRRAAEWTAEALEKAGMEHVEVIETEGHPLVYADWLHAPDKPTVLVYGHYDVQPEDPVDLWDTPPFEPVIRDGKIYARGATDDKGQLFIHIKAAELFMREYGKLPVNLKFIIEGEEEVASPHLGPFIEGNQERLSCDSVVISDTSFSGKDQPAICTSLRGALALQMTVRTANSDLHSGTYGGGVPNAVHSLVSLLDSFHDDQGRIAVDGFYEGVPEPAEELRREVAEVPFDEEETKRELEIEDLYGEVGFSFKERTGIRPTLEINGITGGFQGEGLKTIVPKEASAKISCRLVGDQDPRAVYDVVKRHVEQYKPVGAKVHLEKFIQADPVAMDSQNAFIQAAAEAYEDVYQIRPLFPKEGGSIPIVEVFGRVLEAPVVLMGFGLPTENLHAPNEHFHLDNFTKGIETVTQYLQKLS				NA	NA	NA	NA	NA
AK012_01571	507			hypothetical protein	ATGGGCGATGTCCAGCTTCACCATTACCAACACGTATGGCCGGAACGATTTGCTGCAGAAAAGACGAAAATACGAAGATGTCTGGGAAAGGACTATCCTGTCGAGCACATTGGAAGCACCGCTGTTCCCGGCATGAAAGCAAAGCCTGTGGTAGACCTGATGCTCGGTCTCCCCCACCTGGATATTGACCGATTTCTCATCGACGCCCTGCAAAAAGCAGACTGTACGTATGTGCCAAAGGATGAATGGAAGGAGCGGTACTTTTTCCGGAAAGGAGAACCTGGGAACGGAACCTGTCACCTTCACATCGTCGCGTATGAAGGCGGCGAATGGCGGGATAAGCTTGCCTTTCGCGACTATCTCAAAAAACACCCTGGAAAGGCTGCCGACTATCAAAAACTAAAAAGCCGTCTCGCCGTAAAATACAGAAAGAATCGATCCCGCTATACCGCGTCAAAGGAACCGTTCATTCAGCATATCCTCCATCTCGCTGCAAAAGAAAGCTGA	MGDVQLHHYQHVWPERFAAEKTKIRRCLGKDYPVEHIGSTAVPGMKAKPVVDLMLGLPHLDIDRFLIDALQKADCTYVPKDEWKERYFFRKGEPGNGTCHLHIVAYEGGEWRDKLAFRDYLKKHPGKAADYQKLKSRLAVKYRKNRSRYTASKEPFIQHILHLAAKES				NA	NA	NA	NA	NA
AK012_01572	930			hypothetical protein	ATGGATCAGAAACAACTGAAACCTAAATCATTCGGGGAAATTCTTGATACATCGTTCAGCATATCGAAGAAACATTTTCCTTCATTATTTCTGATGCTGCTGTTTTTAATCGGTCCGATTTACATAGTCGACTACTTGTTCATGATTGTAAGTGGTATGGACCTTTTCCGGGAAACATCCGGGGGAGGATTTGGGGAACAGCTGATGAACAACCTGGATAGTGCAGGGAATGTACAAGCCTCGGTTGCTGACAATCTGGGACTTGGAATGGAAATGGTGTATCTGGCATTGAATACCATCCTGAACCTTGTGCTCTACACGATGGCTCAGGCGGCTGTCATCATTGCAGCCGGTAAAGTCATCAAAGGAGAAAGCTGGACGAAAAAAACAGCAGTAAAGGGCGCCTTTTCAAGGTTTTGGCCGTTGATCGGAAGTTCTTTGCTGCTCGGGGTCATCGTCTTTGGCGTCTTTTTGATCATTTTCATTGTGATTGGATTTGGCGGGATCGGTTTAACCCTTGCGGCCGGAGACGGAGCTGGATTGTTTCCGATCATTCTCCTCGGCCTCGGTAGTATCGCGCTTCTCGCTTTTTTTGGAACAAGACTGAGTATGTTCTTCGGATCTGTTGTTTATAAAAAGACAGCACCTGGATTTACAGAGAGCTGGAAATTAACGAAAGGAAGGTTCTGGGCAACGCTCGGCGTATTTGTTGTCTTCGGCATCATTATATTCCTGTTAACTTCTATATTCGATGCGGTCTCTATCATTCTCCTTGGAGGAAGTGTCGCTGGTAAATTATTAACTGACTTGTCTTCACTCCTTGGAACATTGTTCTTTATGGTTGGTTACACGGTCCTGTTGTATGACTTGAAGATCCGGAATGAGGGTGAGGACTTGAAAGATATGATTGCTTCCTATAAAAACTCGTAA	MDQKQLKPKSFGEILDTSFSISKKHFPSLFLMLLFLIGPIYIVDYLFMIVSGMDLFRETSGGGFGEQLMNNLDSAGNVQASVADNLGLGMEMVYLALNTILNLVLYTMAQAAVIIAAGKVIKGESWTKKTAVKGAFSRFWPLIGSSLLLGVIVFGVFLIIFIVIGFGGIGLTLAAGDGAGLFPIILLGLGSIALLAFFGTRLSMFFGSVVYKKTAPGFTESWKLTKGRFWATLGVFVVFGIIIFLLTSIFDAVSIILLGGSVAGKLLTDLSSLLGTLFFMVGYTVLLYDLKIRNEGEDLKDMIASYKNS				NA	NA	NA	NA	NA
AK012_01573	654			hypothetical protein	ATGGGCAGTATGAGCGCAATACAGCAGGAAAAAGATCGTTTGAAAGAAATTTTGAGCAGGCAGGAATATAAGGCGTATGACGAACAGCCGGAGCGTGCGGGGAGCCGGATAGGTGAGCTGCTTTCCCAATGGGTCAGAGACTTGCTGGAAACCCTTTTTCCCGGGGCGGAAATTACAGGTTCCACAGTGGATGGGGTGTTGTATTTCTTTGGAGCCATCGGTATCGGCATTCTCGTGTTTTTGGCTTTCCGGCTGTTCAGCAAACTTTCAGGCGAAAAGCAGGCCCGTAGGAACCGTCCGTTTCTTCCCGGTGAAGAAGGCCCGCTTTCGCTTGAAAGTCACTGGAAGCAGGCAGATGATTGGGCGGCACAGCAGCAATGGACAGCTGCGGCCCGCCAGGTCTTTCTCGGCCTTCTGCTCCATTTGGATGATCAAGGGTTTGTAGATGTGCAGTCATGGAAAACCAATGGGGATTATGAAAAGGAATTGAGGGCTCATACCGGAGCGGATGAAGTGGAAGCGTTCCGTCGTCTGGCCTTGATGTATGACCAGATGACCTATGGGGAGCGTCAGCTCAATGAACGCGGCTACCATACCTTCCGTTCGGAAGCGTCACGGTATGTAGAGAGAGGAAGAGAGGGGGAGGCCGGATGA	MGSMSAIQQEKDRLKEILSRQEYKAYDEQPERAGSRIGELLSQWVRDLLETLFPGAEITGSTVDGVLYFFGAIGIGILVFLAFRLFSKLSGEKQARRNRPFLPGEEGPLSLESHWKQADDWAAQQQWTAAARQVFLGLLLHLDDQGFVDVQSWKTNGDYEKELRAHTGADEVEAFRRLALMYDQMTYGERQLNERGYHTFRSEASRYVERGREGEAG				NA	NA	NA	NA	NA
AK012_01574	1125			hypothetical protein	ATGAACCAAAGGAAAGCATGGCTGGGAATCGGAGCGGCTCTCCTTCTGTTGGCCGCAGTCATTTACTGGAGCTCAAAAGAAGAACCGGAAGTCTACCCTCCATACACGTCCGAATCTCCGGCACCAAACGGATTGAGAGGGTTCTACACGCTGTTGGAAGAACAGGGGCAGGGCGCCGCACGCTGGACCGCAGCTCCTGGACAGCTTCCAGAATCCAGCACATCCCGGACGCTATTGATAACAGAGCCTTTAAAGACAGTGAGCGGGGAGGAAATGCAGGAGTACAAAGAGTGGATGGAGGCAGGTCATACCATCTGGCTGATGAAACAGCATCCGGCCGGCTATTTTGATGTGGGTGTGGAGTATCCCGAATCCCGTCAAGGCTCCTCGCGCATCACAGATGCCGAAGGAAATCAGTATGATGCCGAGGTCCGGACTTCCTACAGGCTCCGTACCGAAGAAGCAGATCAGGTGCTGCTGAAGGATGAAATGGGGGCGATCGCCGTTGAACGGTCGTACGGCGAAGGAAAACTGATCGTCAGCTTAACGCCCTCGTGGCTGATCAACGACCAGATATTGGATAAGGATCATTTCACACTTGTCTCCAAACTTATGGATACAGCGGACAGCAGTGGCGGTCTTTGGTTTGATGAATATATACATACTCGGGCCGGGTTCGCTGATAAAGCGGGGGTTTATCCTTCCTGGATCTTGTTTTTCACCTTACAGATGGCTGTTTTAACAATCCTGTCGCTGTGGTGGAAAGGAAAGCGTTTCGGTCCCTATTTTACACCTCGGGAAGCTGTTGTCCGATTTGGGGATGAACGCCTGCAGGCCGTTGCAAGCTGGTATAAAAAAGGGGCGTTTTACCGGGAGTCGCTGGAGATTCAGGAATCCTATGTCCGCCAGCTGCTGCAGGAGCGCTACGGGGTCCCGGTCCACTTATCTTGGGAAGAAACGAGAGAGCGCCTGGACGGGCGTGTTGATGCGGATGTATTGGAAAGGTGGACGACGATGTCCCGTCGGATTGAACCACTGGAACATCAAAGCCATGTCGATAAAAAATCCTACCTGGAATGGTCAGGTATACTTGAAGAGATGAGGAAAGAGGTGCAGGACAGATGA	MNQRKAWLGIGAALLLLAAVIYWSSKEEPEVYPPYTSESPAPNGLRGFYTLLEEQGQGAARWTAAPGQLPESSTSRTLLITEPLKTVSGEEMQEYKEWMEAGHTIWLMKQHPAGYFDVGVEYPESRQGSSRITDAEGNQYDAEVRTSYRLRTEEADQVLLKDEMGAIAVERSYGEGKLIVSLTPSWLINDQILDKDHFTLVSKLMDTADSSGGLWFDEYIHTRAGFADKAGVYPSWILFFTLQMAVLTILSLWWKGKRFGPYFTPREAVVRFGDERLQAVASWYKKGAFYRESLEIQESYVRQLLQERYGVPVHLSWEETRERLDGRVDADVLERWTTMSRRIEPLEHQSHVDKKSYLEWSGILEEMRKEVQDR				NA	NA	NA	NA	NA
AK012_01575	930	ravA		ATPase RavA	ATGAATGAGCAGATCCAACAATTGATCGATTCCTACGAAAGAAAAGTCATCGGGCAGTCGGAAAACCTCCGGCTGATGCTGGCAGCCATATTTTCCGGTGGGCATGTCCTTTTGGAAGGTGTACCGGGAACAGGGAAGACGAAAATGGTCCGGACGCTTGCTGAACTGCTTGGCGGTGACTTTAAACGCATCCAGTTCACACCGGATCTGCTTCCGAGTGATATTACGGGAAGCATGATTTACAACATGAAGTCCGGCCTGTTTGAAACGCTCAAGGGACCGGTGTTCACAAATATACTGCTGGCAGACGAAATCAATCGTACGCCCGCGAAAACACAGGCGGCACTGCTTGAGGCGATGGAGGAAAAACAGTTGACCATACAGGGCGATACGTATCCGCTTCCTGCTCCGTTCTTTGTCGTAGCGACACAGAATCCGGTAGAGTTTGAAGGCACTTACCCGCTCCCGGAAGCCCAGCAGGACCGTTTTATGTTTAAATTGACGATCGATTTTCCTGCTCTCGAAGAAGAGGTGAGTGTCATAAAGGATACAGTCAGTGGAAGAGGAGATGGTGCTGCCGCCGCTTCTGTTCTGTCGATGGATATCTTCGAGAAGGTCAGCGGGGAGATTCAAGGGATTACGGTAACGGATGACGTCTATGAGTACATCACCCAGATGGTGAGGAAAACAAGAGAGACCGACACGATCAGGCACGGGGCGAGTACCCGGGCAGCTATAGCAATGGCTCGTGCGTCAAAAGCCTGGGCCTATTTAGGGGCGCGGGATTATGTGACACCGGACGATGTGAAGAAAGTAGCCGTACCTGCATTGAGGCACCGGGTTTTACTGGCGCCTCATATGGAATTGGAGGGAGCCACCTATGACCAGATCATTCAGGAGCTGGTGGGATCTGTTCCTGTTCCGCGATAG	MNEQIQQLIDSYERKVIGQSENLRLMLAAIFSGGHVLLEGVPGTGKTKMVRTLAELLGGDFKRIQFTPDLLPSDITGSMIYNMKSGLFETLKGPVFTNILLADEINRTPAKTQAALLEAMEEKQLTIQGDTYPLPAPFFVVATQNPVEFEGTYPLPEAQQDRFMFKLTIDFPALEEEVSVIKDTVSGRGDGAAAASVLSMDIFEKVSGEIQGITVTDDVYEYITQMVRKTRETDTIRHGASTRAAIAMARASKAWAYLGARDYVTPDDVKKVAVPALRHRVLLAPHMELEGATYDQIIQELVGSVPVPR				NA	NA	NA	NA	NA
AK012_01576	1359			hypothetical protein	ATGACCAGATCATTCAGGAGCTGGTGGGATCTGTTCCTGTTCCGCGATAGAGGGATCGCACCGACGCGGAGGCTCCTTTATCTTGCCGCCGTGCTGTTGGTGTTAGTGACGGGGCTGGCGGCGTTGGGGGTTTCCGCACCGTATCTCCTTTCCTTAAATGCTGTTGTTTTTCTTCTCAGTCTTCTGGATTTGACACTGATTCCTGCCAATAAACAGATTCACCTCCGTCGTTCAATGGATGAGGAAATCGAGCGTGGTTTAAAGAATGAAGCTGCTTTTTCTGTTGAAAACCATTCGGACCGCCCGATATTTATAGAAGTCATCGATCATTTTCCTTCATCGTTCTCCAGGCCTTTTCCGCTTAAAGGATGGATCAACGGCAGGGGGAGAAGCGACCTTGTGTTTTCCTTTACAGCCGGACAGCGTGGAGATTATAGAATTCCATCCATTTCCTATCGCTGGCGTTCACCCATCGGATTGTGGGCAAGGCAGGGGCGTAGGGATCAGGAAATGGCGGTGCGTGTTATTCCGGACTTAAGCGGCAGCCGGGATTTTCTGAAGGATGCCCAGCGTTTTCTTCTTTATGAAGGAACCCGCATCAGGAAAGACCGTGTCGGTTCTGGAGAGTTCAGTCAGATCCGGTCGTACGTTACAGGAGATGACATTCGGAAGATCAACTGGCGTCAGACAGCGAAACAGCAGGAGCTCATGATGAATGAATATGAGCCGGAGCACGGAAAGTATGTGACGATTCTCATTGACTGCGGAAGAATGATGGGGGTGGAGCTTGAAGACCATAACCGGCTCGAAAAAGCCCTGGAAGCGGCTCTTACGGTTACGACAGCGGCGTTGAAACGAGGAGACTATGTTTCTCTGGCTGCTTTTTCAAAACATGTTCATGTTTATGTGCCTCCCGGAAAAGGGATGGCCCATATGCAGACCATTCTAAAGGAAGTCTACCATTTAGAAGTGGAAGGTTATGAGTCGAACTACGCCTCCGTTTTCCAATATTTACAGTCCGTTCAAAATAAGCGCAGTCTGTTCCTTTTGTTCAGTGATGTCACTACTTTTCTATATGAAGAAACAGCGCTCCATTACTTGATGAGGCTGCGGCGTTCCCATTTATTTCTTATGGTGGGGATCCGGGACAGGACAGTGGATGAGGCTGCGGGCCGCAGCCCGGAGGATGTCACTTCAACCATGGTGAAAAGTATGGCACAGAAGCAGTTGATGGATAAAAAAGAGGAGATGAGACGCTGGGAGAGCCGTGGGCTTCCTATGGTTGAAGCTCCGGAAGAGGCTCTCGCATCCGCCTCGGTTTCCTACTACATTGATATTATGAACCGCGGGCTGCTTTAA	MTRSFRSWWDLFLFRDRGIAPTRRLLYLAAVLLVLVTGLAALGVSAPYLLSLNAVVFLLSLLDLTLIPANKQIHLRRSMDEEIERGLKNEAAFSVENHSDRPIFIEVIDHFPSSFSRPFPLKGWINGRGRSDLVFSFTAGQRGDYRIPSISYRWRSPIGLWARQGRRDQEMAVRVIPDLSGSRDFLKDAQRFLLYEGTRIRKDRVGSGEFSQIRSYVTGDDIRKINWRQTAKQQELMMNEYEPEHGKYVTILIDCGRMMGVELEDHNRLEKALEAALTVTTAALKRGDYVSLAAFSKHVHVYVPPGKGMAHMQTILKEVYHLEVEGYESNYASVFQYLQSVQNKRSLFLLFSDVTTFLYEETALHYLMRLRRSHLFLMVGIRDRTVDEAAGRSPEDVTSTMVKSMAQKQLMDKKEEMRRWESRGLPMVEAPEEALASASVSYYIDIMNRGLL				NA	NA	NA	NA	NA
AK012_01577	963			hypothetical protein	ATGAATTACCGTACATTTATCTCGCAAAACCGCCAGGACTGGGAGCGGTTGGAGAATCTCATCCATACTCTACAGCAGAATAAGAAAAAATGGACAGCCCGGCAGGTGGAAGATTTCCAGCGTACATACCAGAAGGTTACCCAGCATCTGGCCTTCAGCCAGACGTACTTTCCCGAAGAAGAGAGCACCGATTACTTGAATACGCTGACATCAAAAGCCCACAATACCCTGTATCAGGAGCAGACCTCCAACTGGAAACAGGTGAAGCATCTGTTCGGCCACACCTTCATCCACCTTCTCCGTGAGCAGTGGGCGTTTGTCATCATCAGCATGGGCCTGTTTCTTCTTGGGGGAACGGCTGCGTTTCTGGCCGTCTATCAGGATCCAATGAGCCTGTACACCATACTGCCCGACAACATCGCTCAAAACGTAGACCCTTCCCAGATCGGCAGGGGTGGCGGAGTGAATTCACCGGTGATGTCCGCTGAAATCCTGACCAATAATATACAGGTGGCCTTTCTTGCGTTTGCCGGTGGGATAACCTTTGGGCTGCTTACCGTCTATGTCCTAATTTTTAACGGCATCATCGTCGGCGCGCTGGCCGCTCTTTTCTTCACCTATGGAAAGTCCTATGATTTCTGGGCCTATATCGTCCCCCACGGCATCATCGAACTGACAGCTATCTTCATTGCCGGTGGAGCCGGACTTCTGATGGGCTTTAAATTATGGGTACCCGGATCCCGGACCCGTGCCTATCAATTGAAAACAAATGCCTACCGCTCCGTCCTGCTGTTAATCGGGACGCTGCCCTTGTTTATCATCGCCGGGATCATCGAAGGATATATCACACCTTCCGCGCTGTCCCTTGAAGCCAAATATGCTTTTGCCGGACTGACAGTAATCGGGCTGCTCATTTATATTCTCCTTGGAAGCCGGCCGTTTAAAGCAGCCCGCGGTTCATAA	MNYRTFISQNRQDWERLENLIHTLQQNKKKWTARQVEDFQRTYQKVTQHLAFSQTYFPEEESTDYLNTLTSKAHNTLYQEQTSNWKQVKHLFGHTFIHLLREQWAFVIISMGLFLLGGTAAFLAVYQDPMSLYTILPDNIAQNVDPSQIGRGGGVNSPVMSAEILTNNIQVAFLAFAGGITFGLLTVYVLIFNGIIVGALAALFFTYGKSYDFWAYIVPHGIIELTAIFIAGGAGLLMGFKLWVPGSRTRAYQLKTNAYRSVLLLIGTLPLFIIAGIIEGYITPSALSLEAKYAFAGLTVIGLLIYILLGSRPFKAARGS				NA	NA	NA	NA	NA
AK012_01578	798			hypothetical protein	ATGCAGGAAAATGTGCAAGTGAAAACACCGGAGCATGTGACGCTGAATTTCAGACTGGCTGGACTGGGCAGCCGGGGAGCGGCACAGATTACAGACACGTTGATTACTACGCTGATGAACGTCGGTCTGCTGGCAGTCATCCTGCTGATGGATAATTACATGGGTGTTTACTTCTGGCAGGCAGAGAGTTTGATTGTGGCTGTAATCATCGTGATCATTTTTATCATCAATTGGGGGTACTTCTTTTTATTTGAATGGCTCGCAAACGGAAGGACACCGGGCAAAATGCTGCTGGGTCTCCGTGTGGTCAGGGAAAATGGCGGACGACCGACCGCACTGTCCGTCCTTATTCGCAATCTGCTCCGTATTATTGATATGCTGCCTTTTTATTATCTGCTTGGTATGCTGATGGTCTTTTTCCACCCGTCCCACAAACGCCTCGGCGATATTGTAGCAGGAACGATTGTCATCCATGAGCGGAAGAAAAAGAGAAGGAAAATTTCGGATAAAAAGCTGGATAAGCTTCTCGGGGAGAGGGGGATTACGAACCGCTCCGTGCATATAGGAGAATGGGAGCGCCAACGGTTTACAAAGGAAGATTGGAAGCTTCTCAGGACGTACGTCCACCGCTATCCTGGTTTGAATGCCGTGGAACAGGAAGAATTAACGGAAGATGTAGCGGCCATCCTTCTCCCTAAACTGCAGCCGGGAGACCGTTCAGAACAGCTCGACAAAGCGGACCGCCTTTTTGCCTCCTACTTGATTTTAAAAGAAGACTGGGAGTTTGAATGGTCCTGA	MQENVQVKTPEHVTLNFRLAGLGSRGAAQITDTLITTLMNVGLLAVILLMDNYMGVYFWQAESLIVAVIIVIIFIINWGYFFLFEWLANGRTPGKMLLGLRVVRENGGRPTALSVLIRNLLRIIDMLPFYYLLGMLMVFFHPSHKRLGDIVAGTIVIHERKKKRRKISDKKLDKLLGERGITNRSVHIGEWERQRFTKEDWKLLRTYVHRYPGLNAVEQEELTEDVAAILLPKLQPGDRSEQLDKADRLFASYLILKEDWEFEWS				NA	NA	NA	NA	NA
AK012_01579	159			hypothetical protein	ATGGTTACATCACTCGCGATGTTGTCTCTGACCGTCCTGCTTATGTTTTTAATCATGTATGGAGCTGATACATGGGTGCGCCGTTACCGCAAAAGCGGGCAGAAAACAGCCGCCGCACCATCCGGTCATCTGGATGTTCAGCAGCCCTCTGCCAAATAG	MVTSLAMLSLTVLLMFLIMYGADTWVRRYRKSGQKTAAAPSGHLDVQQPSAK				NA	NA	NA	NA	NA
AK012_01580	1188			hypothetical protein	ATGACGAATAAAGCGGTCGTTTTAGGTGCGAATTATTATATTGGACTGAGTACAATCCGGTGTCTTGGTATTCATGGTGTCCATGTTGCTGCCGTAGATTATGCCTGGGAAGGGGCCTATGGGCTGGAATCTAAATATTGTTCGGAAGCGCTGATCGGCCCCCACTATAAAGAAGATCCGGCCGGACTTGCTGCCTTTCTCGTGGATTATGCAAAGAAACAGGACAGTCCTCCTGTTCTCATTCCGACAGCTGATCCGTACGTGGAGTTCGTCGATGAGCATCTGCCGGAATTACGGGAACATTTCCTTATTCCTCAAAAGGAGCAGGGACTATATACTAAGATAATGGACAAAGGAACGCTTCATACCCTGGCTTCTGAACATGGGGTGGCTGTACCTGAGACGGTTAACGTCGACCAAGAGAACTTCGTGGAACTTGTGGAGAAGGAGATTCAGTATCCGTGCCTGGTCAAACCGGTGGATTCTCCGGCATTTGTGGCCAAGTTCCGTAGAAAACTCTTTACGGTACACAATCAGGAGGAACTGCTTGAGAAAGTCAACGAGGCGAAAGCAGCCGGTATCGAAGTGATTGTACAGCGCATCATTCCCGGGTTTGATGATCATATGTATACATTTGATGCCTATCTGGACCAGGATTCCAAGGTCACTCACTGGGTGACCTGCCAGAAGCTTCGTCAGTTCCCAGTGAATTACGGAGCCTCCGTTTACACCCAGCAGAAATACGTTCCGGAATTGTACGAGCTTGGAACGAAATTCCTGGAAGGGATCCAGTATAAAGGGTTTGCTGAGATTGAATTTAAAAAAGATGCCCAAACAGGGCAGTATTATTTAATTGAAATCAATGTGAGAATTACAAACTTGAACCACCTTCTGCAGAAGACAGGTATCAATATTCCTTATATCACTTACCGGGAACTTACGGGCCGTCCGCTTGAACCGAAAGCTGTACGGGAAGATAAAAACATCGTATTCTGGTATGCCTATGAGGATCTTCTTGCCGTAAGGGAATATATCAAGACGGGGCAGCTTTCTCCGAAAAATGTCATGAAATCCTACTTCAGACCGAAAGCCCACGCCATATGGGATCCGAAAGACCCCAAACCAGCCTTTGCTTTCGGGAAGAAACTGGCCCGCCTCGTTGCCGGCCGTGTGACGAAAAAAGCATAG	MTNKAVVLGANYYIGLSTIRCLGIHGVHVAAVDYAWEGAYGLESKYCSEALIGPHYKEDPAGLAAFLVDYAKKQDSPPVLIPTADPYVEFVDEHLPELREHFLIPQKEQGLYTKIMDKGTLHTLASEHGVAVPETVNVDQENFVELVEKEIQYPCLVKPVDSPAFVAKFRRKLFTVHNQEELLEKVNEAKAAGIEVIVQRIIPGFDDHMYTFDAYLDQDSKVTHWVTCQKLRQFPVNYGASVYTQQKYVPELYELGTKFLEGIQYKGFAEIEFKKDAQTGQYYLIEINVRITNLNHLLQKTGINIPYITYRELTGRPLEPKAVREDKNIVFWYAYEDLLAVREYIKTGQLSPKNVMKSYFRPKAHAIWDPKDPKPAFAFGKKLARLVAGRVTKKA				NA	NA	NA	NA	NA
AK012_01581	1548	murE_3	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGGCTATGCTTAATCAGTTATTATCATCGATTGAGGTGCTGGAAGCCTGGAATGATCAAGACATGAACGTTCAGGGACTCGCCTATAATTCTAAAAACGTAAGCGAAGGGGATGTCTTCGTTTGCATTAAAGGCTTTAAGACGGATGGACACCGTTATGTGAAAGATGCGGTGCAGAGTGGTGCGGCAGCAATCATCGTAGAAGATTACCAGGATGGATGGGAGGATCTGCCTCAATACCGCGTAGAAGACAGCCGTCAGGCACTGGCTGCATTGAGTGATGCCTACTATAACCATCCTTCCCGTGCTATGAAGACCATCGGGATTACAGCCACGAATGGAAAGACGTCCACTTCCTTTATGACTGATGCCATTTTGGAAGAGCACGGCTTGAAAACAGGGTTGATTGGAACGGTTGTCGTGAAGTACGGCGATTATTCTGAACCGACCAAGCTGACAACGCCTGAATCGCTGGACCTGCACCGATATTTTGCGGAAATGAGAAACCAGGACGTCTCTCACGTAACGATGGAGGTTTCGTCTTCAGCGCTTGATTTAAGCCGGGTGGGCAGTGTGGATTTTGATATTGTCTCCTTGAACAATATCAGTAGAGAGCACATTGATCTTCACGGGTCTTTTGAGGAATACTTTAACAGCAAGGCAAGCCTGATCCGTAACGCGTCTGAAGGAAGCTGGGCTGTATTGAATCTTGACGATTCCTATTCAGCATCACTCGTGGAAGAAACAAAAGCCAATGTCCTTACATTCAGTGTGGAAACCTGGGATGGCGATCTGATCTGCAGGAATCTGGACCTTTCAACAGGACGAGCTAAGTTCACGGTGGAAATCCGCCGCCCATTTTCTGTAGGGGACACCAGCTATGTTCCACAGGAATTCGATATTGAATTGTCCACGCCGGGATATCATTCCGTTTACAATTCCATGGTGGCCATCGCAGCTGCTCTTCTGAATGAGGTACCGATTCCAACGATCCAGTCCGGTATTAAAGGCTTTGGCGGGGTGGAACGCCGCTTTGAAATGGTATATGAAGATGATTTCAAAATGCTGGATGATCACTTCGCCAACTATGGGAACATCAACGTTACATTGAGTACGCTCCAACAGATGGACTACGCAGACTTGAAGCTGGTGTATGCCATCCGCGGCAGCCGCGGGGTAACCGTGAACAAGGAAAATGCGAAAGCCATTGCCGAATGGGCGCCACGTCTTGGTTTGACTGACATCATTGCTACGGTGAGCCATTCTCATGTAACTGAAAAAGATGTGGTGACAGAGGAAGAGGTACGTGTATTTCAAGAGGTGATGGATGAAGCCGGCATCAACGTCCATCTTTATAAAGAGCTTGATGATGCTGTGAACCATGCATTATCTGAAGTGCAGGAAAATGATGTGCTGCTGCTTGCCGGGTGTCAGGGCATGGATCCTGGTGCGAAGATTGCTTTAGAACAGTTAAGTACAAAAAGACCAGACATCGATGAAGATCAGCTGTTCAAACCGTTGAAAAACCGGGTAGCCGGCGTTCTGTAA	MAMLNQLLSSIEVLEAWNDQDMNVQGLAYNSKNVSEGDVFVCIKGFKTDGHRYVKDAVQSGAAAIIVEDYQDGWEDLPQYRVEDSRQALAALSDAYYNHPSRAMKTIGITATNGKTSTSFMTDAILEEHGLKTGLIGTVVVKYGDYSEPTKLTTPESLDLHRYFAEMRNQDVSHVTMEVSSSALDLSRVGSVDFDIVSLNNISREHIDLHGSFEEYFNSKASLIRNASEGSWAVLNLDDSYSASLVEETKANVLTFSVETWDGDLICRNLDLSTGRAKFTVEIRRPFSVGDTSYVPQEFDIELSTPGYHSVYNSMVAIAAALLNEVPIPTIQSGIKGFGGVERRFEMVYEDDFKMLDDHFANYGNINVTLSTLQQMDYADLKLVYAIRGSRGVTVNKENAKAIAEWAPRLGLTDIIATVSHSHVTEKDVVTEEEVRVFQEVMDEAGINVHLYKELDDAVNHALSEVQENDVLLLAGCQGMDPGAKIALEQLSTKRPDIDEDQLFKPLKNRVAGVL	PGPT0024130_707	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
AK012_01582	711			Aspartate racemase	ATGAACGACAAAATTATCGGCATACTCGGGGGAATGGGACCTGAGGCAACAGCTGAATATTATATGAAAATTATCCGCGCGACACAGGCCGAAAAGGATCAGGATCATTACCGAGTGATTATTGACAGCAATGCCAAAATCCCGGACCGTACTGCGGCCATTTCGGGGCGCGGGGAAAATCCTGTCCCACAAATGATCGATGCAGCTAAAAATCTTGAAAAAGTGGATGTGGACGTGGCTTGTATTCCATGCATGACTGCGCATTATTTTATTGATGAAGTACAAAAAGCCGTATCCTTTCCACTGATGAACGCTTTTGAAGAATTGAAAAAATATATCGAGTCGCATTATCCGGAAGTCCGAAAAGTCGGTGTGCTGGCGACGACCGGGACGCTGCAGACCGGATTGTTCAAAAAGCACCTCGGTCACCTGGATGTCATTGAGCCGCAGCCGGTGACCCAGAACGAAAAAGTGATGGAATCCATCTATGGCAGCAATGGGATTAAAAGTGGAAACACGGATGCAGAACCGCTTACCCTTTTGAAATCTGCTGCTGAAGAGCTGCTTGATCAGGGGGCTGAAGTCATTGTTTCCGGCTGTACAGAAATCGGTCTCGTCCTGAAGCCTTACCACCTTCCTGTGCCCTTGCTGGACCCAATGGAAGTGGTGGCTCATGCGGTCGTTAAAGAATCTGTATACCAGAAGTCATGA	MNDKIIGILGGMGPEATAEYYMKIIRATQAEKDQDHYRVIIDSNAKIPDRTAAISGRGENPVPQMIDAAKNLEKVDVDVACIPCMTAHYFIDEVQKAVSFPLMNAFEELKKYIESHYPEVRKVGVLATTGTLQTGLFKKHLGHLDVIEPQPVTQNEKVMESIYGSNGIKSGNTDAEPLTLLKSAAEELLDQGAEVIVSGCTEIGLVLKPYHLPVPLLDPMEVVAHAVVKESVYQKS				NA	NA	NA	NA	NA
AK012_01583	300			hypothetical protein	TTGGCAGAAAAAGCGTTTGAACGCTTCTTGTTCGAGTCATTTCAAGAAGGCATTTTCTTCAGGGAACTCCGCTTATCTGAAAAAGAAGTGTCCCGCCTGAAAAAGCTCTACCCTGCTGCTGAGATTAAGCCGACAAGTACAGGGGATGCGGTGCTCCGAAAATCATGGTACGAAGTTAACCTGGACCCGGAAGCTCTGAAAAGAAAAACCTACGATTCTGTCGTGCAGGAAAATTTCCGTCTCAAAAAAGAAATTGAAAAATTAAAGAATCATCACCAGAAAAATAAGCCGTCTTCCTAA	MAEKAFERFLFESFQEGIFFRELRLSEKEVSRLKKLYPAAEIKPTSTGDAVLRKSWYEVNLDPEALKRKTYDSVVQENFRLKKEIEKLKNHHQKNKPSS				NA	NA	NA	NA	NA
AK012_01584	906	ftsX	COG2177	Cell division protein FtsX	GTGAAAGAAAAAATGAAATTTAAAACGTTCGGCCGGCACGGAAAAGAAGGCGTCAAAAACATAACCAGAAACAAGTGGATGTCGGTGGCCTCCATATCAGCGGTAACGGTGACGCTTCTACTTGTCGGGGTTTTTGCTATGCTTCTCCTGAACCTGAATGATATAGGAGAACAGATTGAGGAAGACGTTGAAGTCCGTGTGTTCATCGACCGTACCGCAGATGAGGAAAGCCGTGAGGAACTGCAGGGTGATTTAGAAGACGTGCAGGGTGTTTCCAGTGTGAATTTCCAATCGAAGGATGAAGGCCTGGATAACCTGATCAACAGTATGGGGGACGAAGGGGAAGCCTTTGAGTCTCTGAAAGATGAAAACCCATTGAATGACGTGTACGTAGTGAAGACGGCAGATCCACAAGATACGATTCAAGTAGCTGAAACAATTGAAGACTTTGATAATGTGGATAAAGTCGAATATGCCAAAGAAACCGTAGAACGTTTGTTCAGCGTTATGGATGTGGCCAGAAATGTCGGGCTTGCGATCATCGCAGGGCTGTTGTTCACAGCGATGTTCCTGATTGCCAATACGATCCGGATTACCATTGTCGCCCGGAAACGTGAAATCGAGATTATGAAAATGGTAGGGGCAACCAATTGGTTCATACGATGGCCTTTCCTATTCGAAGGCATTCTAATAGGAATCCTTGGTTCGATTATTCCTATTGCCCTTGTGATCTTTGGTTATGACGCTCTCTACAATGAGATTACGACCAGATATCCTACTTTATTTATAGACTTACTGCCGGTTTATCCGTTTGTTTTTGAAGTATCCGCCCTGCTTGTCCTTATGGGAGTAACCATTGGACTTTGGGGAAGCTTTACGTCCATCCGTAAGTATTTGAAGGTTTAA	MKEKMKFKTFGRHGKEGVKNITRNKWMSVASISAVTVTLLLVGVFAMLLLNLNDIGEQIEEDVEVRVFIDRTADEESREELQGDLEDVQGVSSVNFQSKDEGLDNLINSMGDEGEAFESLKDENPLNDVYVVKTADPQDTIQVAETIEDFDNVDKVEYAKETVERLFSVMDVARNVGLAIIAGLLFTAMFLIANTIRITIVARKREIEIMKMVGATNWFIRWPFLFEGILIGILGSIIPIALVIFGYDALYNEITTRYPTLFIDLLPVYPFVFEVSALLVLMGVTIGLWGSFTSIRKYLKV				NA	NA	NA	NA	NA
AK012_01585	1383			hypothetical protein	GTGAAGTCAAAAGTTATTATCGCCGCTCTTTCTGCCGGTCTGATTCTTTCCGGTTTACCTGTTTCAACAACGGTCAACGCTGAAACAAATCAGGACAAACTGGAAGAGAATCGACAGCAGCAGTCTGAGAATGAGCAGGAAATTCAGGAAAAAGAAGATACAATTGCTGAACTTAAAGAAGATCAGGAACAAGTAGACGCTGAAATCGCAAGTCTGGATGAACAGACGATGGAAACACTGGATAAGATCCAGACGAAAGAAAATGAAATTGCACAGACAAGAGAAAACATTGACCAGCTCAAAGAAGAAATCACTGAGCTTGAAAAGCGTATCGAAGAGCGTGACGAACTGCTTAAAGAGCGTGTGAAGTCCATGCACCAAAATGGGGGAAGCGTCGATTATCTTGATGTTCTAATGGGAGCAGAAAGCTTCGGGAACTTCCTTGAGCGGATCATGAGCCTGAATACAATTGCTACGCAGGATAAGGAAATTCTTGAACAGCACTTGGCAGACAAGCAGGCTGTTGAAGAAAAGAAAGCCCAGGTGGAAGAAGAACTTGCTTCCCTTGAGGAGAAATTATCTGAGCTTGAAGCATTGAAACAGGAGCTTGAAAGTAAGAAAGAAGAAAAAGAAGCCCTGATGTCCACTCTTGAACAGAAAGAAGAAGCTGCTCATGACCACCTGATCAGTGTGGAAGAAGAGCAGGAGACTCTTGCTGCCCAGGAAGCTGCTATTGAGAAAGAAATTGAGCGTCAGCGCCAGCTCGAGCTTGAGCGTAAGCGGAAAGCTGAAGAAGAAGCCAGAAAGAAAGCCGCAGCTGAAAAAGCCGCAGCTGAAAAAGCTGCTGCAGAAGAAGCTGCCAAGGAAGAAGAGGAAGAGGAATCTGTAAGCAGTGCATCTTCCAGTTCTTCGTCATCAAACAGCTCCAGCTCTTCTGATTCAAGCGATTCTGAAGCCGCAAGCAGCACAGGGTTTATCTGGCCTGCCAATGCACCGGCAACATCCGAGTTTGACCGCAACCGGGTTCACCCTATATATGGTACAACGAAATTCCACTCTGGTATTGACTTAGCTGCGGGCGGTACGATCCCAATCCATGCGTCCGCATCCGGTACGGTTATCCGGGCTAACTATTCATCCAGCTACGGGAATGTCGTGATGATTGCCCACCAGATTAACGGTCAGACCTTCACGACCGTCTATGCACACTTGAGAAGTACTCCAGCAGTATCCGCAGGTCAGACCGTTTCGCAGGGTCAGTTTGTAGGTAACATGGGAAGTACAGGTGCATCTACAGGGCAGCACCTTCACTTCGAAATTCATGAAGGGTCCTGGAATGGCAGCCGTACGAATGCTGTAAACCCTAGAAAATATTTACCATAA	MKSKVIIAALSAGLILSGLPVSTTVNAETNQDKLEENRQQQSENEQEIQEKEDTIAELKEDQEQVDAEIASLDEQTMETLDKIQTKENEIAQTRENIDQLKEEITELEKRIEERDELLKERVKSMHQNGGSVDYLDVLMGAESFGNFLERIMSLNTIATQDKEILEQHLADKQAVEEKKAQVEEELASLEEKLSELEALKQELESKKEEKEALMSTLEQKEEAAHDHLISVEEEQETLAAQEAAIEKEIERQRQLELERKRKAEEEARKKAAAEKAAAEKAAAEEAAKEEEEEESVSSASSSSSSSNSSSSSDSSDSEAASSTGFIWPANAPATSEFDRNRVHPIYGTTKFHSGIDLAAGGTIPIHASASGTVIRANYSSSYGNVVMIAHQINGQTFTTVYAHLRSTPAVSAGQTVSQGQFVGNMGSTGASTGQHLHFEIHEGSWNGSRTNAVNPRKYLP				NA	NA	NA	NA	NA
AK012_01586	966	isp	COG1404	Intracellular serine protease	ATGAGCCGGATGAAATTGATTCCCTACCGCACGGAAGCTATTTTAGAAACGACGAATGAACGTCCGAAAGGAATACAGATCGTTGAAGCTGAAAGCCTTTGGGAAGAGTCGGAGCAAGGAAAAGGAAGTGTTGTAGCTATCATTGATACAGGATGTCAGCTTGATCATCCTGATCTTGAGGAAAACATTATGGATGGCCGTAACTTTACCAATGATTATGGCGGAGACCCTGACAATTACGCAGATAATAATGGTCACGGTACACATGTGGCAGGTACCATTGCTGCAGTAGAGAACGGCGAAGGGGTCATTGGGACAGCACCGAAAGCAAAACTATTAATTTTGAAGGTTCTCTCTGAGGATGGGGGAGGGGAGTACGAATGGATTATTGACGCCATTCACTACGCCGTGAACTGGAGAGGTCCCAATCAGGAACGTGTGAGAGTAATATCGATGTCTCTGGGAGGTCCTCAAGATACGAAAGAGCTGAGAGAAGCTGTTACAGACGCTGTCCGTCACGATGTGTCCGTTGTATGTGCAGCCGGCAACGAGGGTGATGGAAGGGAAGATACTATGGAATACGGCTACCCTGGTGCCTATAATGAAGTCATTCAAGTGGGCGCCGTTGATGAACGCCGCGAGCTGGCTGATTTTACGAATACAAACACGCAGATTGACCTTGTTGCTCCGGGTGTAGATATCCTTTCCACCTATTTAGAAGGAAAATATGCACGACTCTCTGGTACATCCATGGCCACCCCACATGTGTCTGGAGGACTTGCCCTTTTAATTCCATTAGTTGAAAAACAATTCAATCGTTCGATGACGGAAGCTGAAATCTTCTCCCAGCTGATTAAACGTACGACTCCACTCGGCTACTCCAAAACTGCTGAAGGAAACGGCTTAATGACTTTAGCCTTAACCAAGAAACTCGAAGATTTGTTCAGCACCTATATCAAACAGTAA	MSRMKLIPYRTEAILETTNERPKGIQIVEAESLWEESEQGKGSVVAIIDTGCQLDHPDLEENIMDGRNFTNDYGGDPDNYADNNGHGTHVAGTIAAVENGEGVIGTAPKAKLLILKVLSEDGGGEYEWIIDAIHYAVNWRGPNQERVRVISMSLGGPQDTKELREAVTDAVRHDVSVVCAAGNEGDGREDTMEYGYPGAYNEVIQVGAVDERRELADFTNTNTQIDLVAPGVDILSTYLEGKYARLSGTSMATPHVSGGLALLIPLVEKQFNRSMTEAEIFSQLIKRTTPLGYSKTAEGNGLMTLALTKKLEDLFSTYIKQ				NA	NA	NA	NA	NA
AK012_01587	1191			hypothetical protein	ATGACACATGCAAGAATTGCAGCGATTGATGTTGGTAATGATGCGTTGAAAGCAAATTTCGGGAAACTGGAATCTTCCCTTTATATTCCTAACGTAGTAGCGAGAGACCTGGAGGATCGTCCGGTCATTGGAATTGAGGATCTGGATGATAAAAATCCACTCGATAATCTACATATTCGGGTGCATTCCCCTGCCCTTCGAGAAAATAATGCCATTTACCGTGTAGGGAATCTGGCAACAAAGACAACGAACTCCACCGAGCTTGATCCAGGAAGCTATAAATCAGAAGAAGATCAGACGCTGATCATGCTGTTTGCTTCACTGGCTCTTGATGCGGTATCTGGTAAAGGAGCACAATCTGCGAAAAATAATGTGGTGGAAGCCAACTATAACCTGGGTACCGGTCTTCCTCTCCGCGAAGTCAAAGAAGGAAAAGACGTGGGCTATCGCTCTCAACTGCTTGGGTCGGTCCACCAGGTTGAATTTTTGGTAACCCCTAAATATCAAGGGATGAAAGTGAACCTTAAATTTGATGAAGTGAAAGTCTATCCGGAAGGTTTCGCCGCTTATGTCAACCTTGTTATGGATAACGACCTGCACATTATCAATAAAGAACTCGTGGACAAGCAGATCCTTATCCAGGATATTGGAGGGCTATCTACAGATATCGCGGTCATCCGTAACCGAAATGTGGATGATGATAAAGCACAGGGATTCAACCTCGGCGTTTCTGAATCACTTGAAATGATCCGCGATGAAATTTTGACGAAGCATGGAGTGGAACTCGACAGCCGTCGGGACGTGGTGGATATTATTACGAGGAAGAACGACCGTCACCACATTATGGTTCGCGGAAGCCGTACGAGTGTCCACGATATTACCGATCGCATTCTTCTTGAACTGGCTAAGAAACAGTACCGTTACCTTCGTAATGTATGGCAGAAGAATTCCCAGACGGAAATCTGCTATTTCGTAGGTGGAGGATCTGCTGTCCTTAAGGAATATATCAAAATGCTGAATAATAAACTCGATGGATTTAATATTGAATTCTTCGAGGATGAGGAAGAAAGCATCTGGATGATGGCGAATGCGTATTACAAGTTGATTTCCGACTATATCCGTAAAACGAGCAAAAAACCAGTCGAACCAGCGAATAAAAAAGTGGAACAACAATCCGGATCTTCCAAGTAA	MTHARIAAIDVGNDALKANFGKLESSLYIPNVVARDLEDRPVIGIEDLDDKNPLDNLHIRVHSPALRENNAIYRVGNLATKTTNSTELDPGSYKSEEDQTLIMLFASLALDAVSGKGAQSAKNNVVEANYNLGTGLPLREVKEGKDVGYRSQLLGSVHQVEFLVTPKYQGMKVNLKFDEVKVYPEGFAAYVNLVMDNDLHIINKELVDKQILIQDIGGLSTDIAVIRNRNVDDDKAQGFNLGVSESLEMIRDEILTKHGVELDSRRDVVDIITRKNDRHHIMVRGSRTSVHDITDRILLELAKKQYRYLRNVWQKNSQTEICYFVGGGSAVLKEYIKMLNNKLDGFNIEFFEDEEESIWMMANAYYKLISDYIRKTSKKPVEPANKKVEQQSGSSK				NA	NA	NA	NA	NA
AK012_01588	594			hypothetical protein	ATGAGTTCATCTAGAAAAAGTGTCGAACGGGGGCAGTCGATTACATTTCGTGTCCCCTCGGACACTCCGGATCATTTATTGAAACAATTGACGCATTTGAAAGAGACGGAACGGCGTAATTTTTCCAGCCGCATCGCTCAGTTCGTTATGGACGGAGTGAATGAATCTCTTTCCAAGGATAAAGAAACGATTACCGTCCCCCTTCCGAAAGCCTTGTCGAAAGAGCAGAGAAACTGGATGAAGCATGAACACTCTGAAGCATTGATCGGCAGTATCCTACATCAGCTCATCATGGATCCTGTCCGTGCCACCACACTTCTGGCGTCCCTGAACAGCCGTGCGTATGATATCGACGAAGCACTGTATCTGCAGGAAGAAACGGCGGCAGCCGATGAACCTCAAACCCCTGTTATTCCTGAGGGAGAGAAAGAAGAAAAAGAGGTGCCCGAACTGGTTACAACCGGTGATGATGACTTGGATGGACTGGATCTTGGTCAGTTCCAGGATGATCTGCGTGATGTGGAATCATCGACAGAAGAAGAGGAAAATGATGATGACCTGCTCGGCGATTTTCTTTCTAGAATGAATCAATAA	MSSSRKSVERGQSITFRVPSDTPDHLLKQLTHLKETERRNFSSRIAQFVMDGVNESLSKDKETITVPLPKALSKEQRNWMKHEHSEALIGSILHQLIMDPVRATTLLASLNSRAYDIDEALYLQEETAAADEPQTPVIPEGEKEEKEVPELVTTGDDDLDGLDLGQFQDDLRDVESSTEEEENDDDLLGDFLSRMNQ				NA	NA	NA	NA	NA
AK012_01589	690	ecsA_1	COG1131	ABC-type transporter ATP-binding protein EcsA	ATGGTGCTTCATGTAGAGGGATGTTCAGTGGAAATTGGTGGAGCACAGATCCTGCATGACGTAAGTCTGGAAGCCGGAAGGGGAGAAATCCTTGCTCTGGTCGGTCATAATGGTGCTGGAAAATCCACGTTAATGAAAACGATGATTGGCATGAGAGATAAACAATCGGGGTCGATTGCCATCCATCAGGAAAACATAGATGACCATTTAAAAGGCTATAAACGTATGTTCAGTTATATACCGGAGGAGCCGCTTTTATTCAGCGAATTAACCACGCTTCAGCATTTTGATCTATATAAACAAAGCTACTCCATCGATCGTGAAACCTTTGCATCCCGGATCGAAAGGTATATGGATGCCTTTGAAATTACTGATAAGAAAGATGAATATCCAGAAGCGTTATCCAAAGGAATGCGGCAGAAAGTCCAAACAATCTGCGCTCTGCTTCCTGTTGTGCCGGTTTTGTTTATCGATGAACCCTTCATGGGGCTGGACGTTTATGCGGGGAAATTTTTAGAAGAAGAGTTGAACCGTAGAAAAGAAGAGGGCATGACGATTGTCCTGACCACCCATCAGCTGGATAAGGTGAAGACCCTGGCAGATACCTATGTCATGCTGAAGAATGGTTCGGTTTCCTCCCGTGGTCCAGTGGAATCTTTTGAAATGCTGGAAAGAAGGAAAGATCAATGA	MVLHVEGCSVEIGGAQILHDVSLEAGRGEILALVGHNGAGKSTLMKTMIGMRDKQSGSIAIHQENIDDHLKGYKRMFSYIPEEPLLFSELTTLQHFDLYKQSYSIDRETFASRIERYMDAFEITDKKDEYPEALSKGMRQKVQTICALLPVVPVLFIDEPFMGLDVYAGKFLEEELNRRKEEGMTIVLTTHQLDKVKTLADTYVMLKNGSVSSRGPVESFEMLERRKDQ	PGPT0006725_27998	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_01590	1380			hypothetical protein	ATGATGGGAGCAGAGAGCTGGCAGGCTTTTCATACATTGAAACGGAGTCGTCTGCAGAAAAAGATGCTTCTGTATAAGAAATCGTTGAAGACGTTGTATGACCCGGTTGTATTTTTTTATTCTGCGGTCATGGCTGTCGTATTACTCCTGATCAGCTATGATTGGATGAAAGATTTCACCCCGCTTTTCCATGAATGGGAGGACCGGGCTTCAACCTATCTCCCTTTTTTACCTATGGCTTTATGGGTGAGAGCCTGTATCGCAGGTTTCCGGGATTCAGCTCTCCCATTCTCTTCCTCAGAACTTCACCTCAGCCTCCTGCCTCATTCAAGGCGGGAAATCTTGTTTTACTTATATATGGAAAAGGCAGGTAAAAGTCTGTTTCTGTCAGCTCTGGTTTTGACAGCTGCAGGCATGTTAACGCCTTTATCCCTCTCTTTTACGCTTTTATTTTTCTTCATTTATGGGTGCAGTCTGCTTTTTGAAGTATGGATTCAGTGGAGACTATACAGCACCCCGTGGTATATCAAGCTGCTGCTGATCAGTATAGGGGGAACCGTCCTGGCATCCGTCTATACTGCCGGCTTCCTGCCGTGGATGATCATCGGCGGGGCTGCCTGGGTTACGGCGGCTGCGACTGCTTCCTTCTATTTTTATGAACCCTCATGGGGGAAGATAGCGGAACAGAATGATGCAAAGGTTTGGAACCTCTGGCTCGTGAACCAGGTGACGAATGTCGCTGTAAGACCTCCAAAACGATTTACAGCAGCTGCCCGTAAAACGAGGGACAGCTGGTTTTATCCGAAACGTATGTATGACCGCATCTGGCTGTCTCATGGGAAGGAATCCTACAACTATCTGGTATCCACGATCGTGGCAGGGGTTCTTATTATTGTAGTGGTTCCTCTTCAAGTGGACTGGATGAGGTTTTTGACGGTCCCGCTGGCTGTATTCATTTTCATCGAAGTGGCGTCCGGCATTTTTCATAACTTCTTCAAGCAGCCGACCGTGTTTCGGTATATTCCCGTTGAGGATGAGGCTCTGGCCCTTGTTTATGTGAAATGGGTGAAATGCTGCCTGCTCATTTATGCATGTGCCGTTCTCGTTATTCAGATGATGCTGGGTTTTCCTTTTCTTTCTTCCTGTATACAGGCTTCGGCCGTCACTCTTAGGGCGGGATATGATTTGAAAGAGAAGGTGTTGGAAGAGATGAAAAAAGTGAATGAAGAATCCTTTTACCCAGCTTCCTGGACTCGATTGGCGGGGTATGTGTTCGCAGCTGCCGTCATGATTCATCCGGTTTCCGCTGCTTTGATCCCGGCCTTTTCCTTCATGCGTGGCAGGTTCAGTTTATGGATGCGTAAAAAAAGAACCCTCTGA	MMGAESWQAFHTLKRSRLQKKMLLYKKSLKTLYDPVVFFYSAVMAVVLLLISYDWMKDFTPLFHEWEDRASTYLPFLPMALWVRACIAGFRDSALPFSSSELHLSLLPHSRREILFYLYMEKAGKSLFLSALVLTAAGMLTPLSLSFTLLFFFIYGCSLLFEVWIQWRLYSTPWYIKLLLISIGGTVLASVYTAGFLPWMIIGGAAWVTAAATASFYFYEPSWGKIAEQNDAKVWNLWLVNQVTNVAVRPPKRFTAAARKTRDSWFYPKRMYDRIWLSHGKESYNYLVSTIVAGVLIIVVVPLQVDWMRFLTVPLAVFIFIEVASGIFHNFFKQPTVFRYIPVEDEALALVYVKWVKCCLLIYACAVLVIQMMLGFPFLSSCIQASAVTLRAGYDLKEKVLEEMKKVNEESFYPASWTRLAGYVFAAAVMIHPVSAALIPAFSFMRGRFSLWMRKKRTL				NA	NA	NA	NA	NA
AK012_01591	573	bioY_1	COG1268	Biotin transporter BioY	ATGTCTGAAGAAAGCAGAAAGCTTCGTTTTTTGTTGAATAGTGCCATATTCGCTGCATTGACGGCTATTATGGCTCAAGTTGAAATCCCACTGCCTGTTGTGCCGATCAGCGGCCAGACGCTTGCCGTTGGTTTAACCGCCACCATTCTCGGAAGCCGCCAGGGCGCAGCAGCTATGGTTGGGTACATGGCTATTGGGGCTGTGGGACTTCCTGTATTTGCAGGATTCAGCGGTGGTCCACAGGTTCTTGCCGGACCGACCGGAGGCTACATATTCGGATTTATAATCAGTGCCTTTATAACCGGCTGTATTCTAGAGAAAACCTCCTTCAACTTAGGCTGGGCGATGGCAGCAAATACGGCCGGGATGGTGGTTACTCTTCTATGCGGAACCCTGCAGCTGAAATTCGTCCTCGATATAAGCTGGACGGCGGCACTCGCCACCGGTGTCTATCCATTCATCGCCGTCGGCTTGATCAAGGCTTTTCTAGCCTCCTGGCTGGGCATTACAGTTCAAAAAAGACTGGTGGCCGGACAGTTCATTAAACAATCAGCAACAAAGGAGGCCTCCTAG	MSEESRKLRFLLNSAIFAALTAIMAQVEIPLPVVPISGQTLAVGLTATILGSRQGAAAMVGYMAIGAVGLPVFAGFSGGPQVLAGPTGGYIFGFIISAFITGCILEKTSFNLGWAMAANTAGMVVTLLCGTLQLKFVLDISWTAALATGVYPFIAVGLIKAFLASWLGITVQKRLVAGQFIKQSATKEAS	PGPT0022050_1512	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA
AK012_01592	1911	ltaS1_2	COG1368	Lipoteichoic acid synthase 1	ATGTTTACAGGAAATAAATATATAAACAAAAAAACAGGACTGAAACTACTAGTCTATGCCTTAGTGATTGGTCTTTTCTGGTTGAAGATGTATTATATTCAAACCAACATATTCACATTGGGCGTGGAGAACGCGAATGAGGCGAATATTCTGGCCTTCAACCCGCTCAGCAGTATATTCCTATTGTTCGGAGTTGGAATTCTGCTTGCACGCCGGCGCGGGATGTTTGCTGCCTACATTTTAGGTTCCATCCTGCTGTACGTAAATGTGTTGTTTTATCGTGAATACAATGATTTCATAACCATTCCGATGTTAAATCAGGTAGCCAACCTCGCTGATCTTGGTGGAAGTATCACGACGATTATAAGTCCTGCTGACTTATGGTTGTTCGTTGATGTCATTGCTGCAGGCTTCCTGCTGTTTTATCTCAAACCTTCCCGCTTCCAGGCGTTCACACCGAAACGGCCGGAGGGGATTGTTCTGGCCATCGTTGCTATTCCCCTGTTCATTGTAAACCTTCAATGGGCGGAGACAGAACGTACGGATTTACTTGAACGGACATTTGACCGCAATATGCTCGTCAAATACATTGGTGTATTAAACTACCACATGTATGATATTGTTCTTCAAGGTAAGACAGAAATGAAGAAGACACTGGCGGACAGTAATGAACTTGTCCCTGTCATCAACTATTTGAACGAAAACAAGAAAGAAGACAGCGACAGACTGGAAGGTGCCGCTGAAGGCAAGAATGTGATTGCCATTTCATTGGAAAGTACACAGACCTTTGTCGTGGGTAATACGCTGCACGGCGAGGAGCTGACTCCTTACTTCAACGACCTTAAGGAAGAAGGTATCTATTTTGATAACTTCTACCATCAGGTGAAACAGGGGCGAACATCTGATTCAGAATTTTTACTGGCGAACTCCCTGTATCCTCTGAACCGCGGCGCTGTGTTCTTTACGCACTCCGGGAACGAGTATAAGGCGATGCCGAGCGTACTTGGAGAGAATGGATACTTCACCAATTCCATGCATGCCAACGATAAGACGTTCTGGAACAGGAACGTCATGTATGATTCCCTGGGGTATGATGAATTCTATTCCAAGGAAGACTATGAAGTGACAACAGAAAAGTCCCACGGATGGGGCTATCTTGATGAATACTTCTTCGAAGATTCCCTGAACAAAATGAAAGAGCTGGATCAACCTTTCTATTCTAAAATGATTACATTGACCAACCACTACCCGTTCACACTTCCTGAAGAGTTGAAACTCATCGAAGAAGGGGAAACGAGCAGTGGTACGTTAAACCGTTACTTCCAAACCATCCGCTATCAGGATGAAGCATTGAAGAAGTTTGTGGAAGATTTCAAGAACTCGGAGCTCTATGATGATACCATCCTTGTCATCTATGGAGACCACTTCGGCATTTCTGAGAACCACCAGGAAGCTATGGGTGAGTATCTCGGAAAAGAAATTAATGAGTATGAACAGTTCCAGCTTCAACGTGTTCCTTTCCTTATCTACGGAAAAGACATCGAACCTGAAGAGAATCATACGGTTGGTGGACAGGTTGACCTGCGTCCAACCCTCATGAATCTTTTAGGTATTGAAGATGAAAACCCTGTCCAATTCGGTCATGACCTGTTGGATGAAGACCGCCGTCAGCTGATGATTACACGAGACGGAAACTTTGCCAACGAAGAATACGTTGGGATCCAAGGTACATGCTACGATCGTGAAACAGGAGAAGAAGTCGAAGATGGAGCTGCCTGTGAGGATGGCTTCAGCGCTGCCCAGGAAGAATTAGAGATGTCCGACTCCATCGTGTATGGCGACCTGCTTCGCTATCTGGACGAAACGGAATTGGTCACAGAAGATGAACAATCCGAATCAAACGAAGAATAA	MFTGNKYINKKTGLKLLVYALVIGLFWLKMYYIQTNIFTLGVENANEANILAFNPLSSIFLLFGVGILLARRRGMFAAYILGSILLYVNVLFYREYNDFITIPMLNQVANLADLGGSITTIISPADLWLFVDVIAAGFLLFYLKPSRFQAFTPKRPEGIVLAIVAIPLFIVNLQWAETERTDLLERTFDRNMLVKYIGVLNYHMYDIVLQGKTEMKKTLADSNELVPVINYLNENKKEDSDRLEGAAEGKNVIAISLESTQTFVVGNTLHGEELTPYFNDLKEEGIYFDNFYHQVKQGRTSDSEFLLANSLYPLNRGAVFFTHSGNEYKAMPSVLGENGYFTNSMHANDKTFWNRNVMYDSLGYDEFYSKEDYEVTTEKSHGWGYLDEYFFEDSLNKMKELDQPFYSKMITLTNHYPFTLPEELKLIEEGETSSGTLNRYFQTIRYQDEALKKFVEDFKNSELYDDTILVIYGDHFGISENHQEAMGEYLGKEINEYEQFQLQRVPFLIYGKDIEPEENHTVGGQVDLRPTLMNLLGIEDENPVQFGHDLLDEDRRQLMITRDGNFANEEYVGIQGTCYDRETGEEVEDGAACEDGFSAAQEELEMSDSIVYGDLLRYLDETELVTEDEQSESNEE	PGPT0023375_869	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023375-ltaS-K19005	NA	NA
AK012_01593	777			hypothetical protein	ATGGAATTTGGATTTATCCTAACGATTTTCCTTATTGGATTTGCAGGTTCCTACGTCTCCGGAATGCTGGGGATTGGAGGATCGATCATTAAATATCCGATGCTTCTCTACATCCCGTCCCTCGTCGGTTTTACCGCCTTCACTCCGCATGAAGTTTCCGGCATCAGTGCAGTACAGGTCTTCTTCGCTACCATCGGCGGCGTTTGGGCTTATCGAAAAGGCGGATATTTAAACAAATCGTTGATTGTGTACATGGGAATCAGCATTTTGATCGGAAGCTTTATAGGAGGATACGGTTCCCGCTTCATGCCGGAAGCCGGGATCAATCTTGTTTATGGAATTCTCGCTCTCACAGCTACGGTCATGATGTTTATTCCGAAAAATGGATTGGATGACCAGGAGATGGATGAAGTGACCTTTAACCGGCCCCTGGCCGCTGTACTGGCTTTGATCGTCGGCATTGGAGCGGGGATCGTCGGTGCTGCCGGAGCATTCCTGCTCGTACCTATTATGCTCGTCGTCTTAAAGATTCCAACGAGAATGACGATCGCTTCTTCTTTGGCCATTACATTCATCTCATCCATCGGCGCAACGATCGGGAAGGTGACGACCGGCCAGGTGGAATACGCTCCAGCTGCTATTATGATCGTGGCCAGTTTGTTAGCCGCACCCCTGGGGGCATCTGCTGGTAAAAAAGTGAACACGAAGATTCTCCAGACGATTCTTGCCGTTCTGATCTTCGCATCTACGGTAAAGATCTGGATGGACATCTTTTAA	MEFGFILTIFLIGFAGSYVSGMLGIGGSIIKYPMLLYIPSLVGFTAFTPHEVSGISAVQVFFATIGGVWAYRKGGYLNKSLIVYMGISILIGSFIGGYGSRFMPEAGINLVYGILALTATVMMFIPKNGLDDQEMDEVTFNRPLAAVLALIVGIGAGIVGAAGAFLLVPIMLVVLKIPTRMTIASSLAITFISSIGATIGKVTTGQVEYAPAAIMIVASLLAAPLGASAGKKVNTKILQTILAVLIFASTVKIWMDIF				NA	NA	NA	NA	NA
AK012_01594	231	tusA	COG0425	Sulfur carrier protein TusA	ATGAACACAGCAAAAGTACTTGATGCGAAAGGCTTGGCATGTCCTATGCCCATTGTAAAAACAAAGAAAGCTATGAAAGACGTCGAAGCTGGCGGGATCCTTGAAATTCACGCCACAGATAAAGGGGCGAAGAGCGATTTGACAGCATGGGCGAAGTCCGGCGGTCATGAACTGCTGAAACATGAAGAAGAAGACGGCGTATTCAAGTTCTGGATTCAAAAAGGCGAGTAA	MNTAKVLDAKGLACPMPIVKTKKAMKDVEAGGILEIHATDKGAKSDLTAWAKSGGHELLKHEEEDGVFKFWIQKGE				NA	NA	NA	NA	NA
AK012_01595	1131	gloB_3		Hydroxyacylglutathione hydrolase	ATGACTGTGAAAACGATGACGGCAAAAGAAATCGCTCATAAAGTCCTGAACAACGAAGAGCTGTTTCTATTGGACGTCCGGACAGAAGATGCCTATCAGGATTGGAAAATCGAAAGTGAGCATTTCACCTATTTGAATGTTCCTTATTTTGATTTACTGGACGGCGTCGATGAATTGATAAAACAGCTGCCCAAGGACCAGCCGATTGCTGTCGTCTGTGCCAAAGGCGGCTCTTCACAAATGGTTGCAGAGATGCTTGTAGAGGAAGGATTGACTGACGTTTATTCCGTAGAAGGCGGTATGAAATCCTGGAGTGAGCATCTCGAGCCAAGGAAAGTCAGTGACCTGAAGGACGGCGGTGAACTGTATCAGTTCGTCCGTCTAGGAAAAGGGTGCCTTTCCTATATGGTCACTTCCGGAGGAGAAGCGGCCATCATTGATGCAGTGAGAATGACCGGAGCCTATACAGATATGGCTGAGAAACTCGGGGTAACGATTACGAATGTCTTTGATACCCACCTTCATGCAGACCACATTTCAGGAGGTCGTAAGCTTGCAGAGGAAACAGGAGCTGTTTACTGGCTGCCACCGGAAGATGCTGGAGATGTTGTATTCAACTATCAGCCACTAAGGGACGCCGACCACGTCCAGATCGGTCACTCCAACATTGATATTCATGCCTTGTATTCACCAGGACACACGATCGGGTCCACTTCTTTTGTCGTGGACGATACGTATCTGATGACGGGGGATATTCTATTCATCGATTCCATCGGACGTCCTGACCTGGCTGGAAAAGCCGAGGACTGGGTAGGGGACCTGCGCGAAACTCTTTATACACGTTATAAGGAGCTCTCTGATGAACTCGTCGTCCTCCCCGCCCACTTTATGATTATGGACGAATTGAACGAAGACGGCACGGCAGCAGAGAAGCTTGGAACTCTGTTTTCCCGGAACCACGGATTGAATATAGCTGATGAAGGTGAATTCCGCCGGATGGTCACAGAGAACCTGCCGCCGCAGCCAAACGCCTATCAACAGATCCGTGAAACGAATATGGGCAGAATCAGCCCTGATCATGAAGAGCAGCGGGAGATGGAAATTGGTCCGAACCGCTGTGCTGTAAGATAA	MTVKTMTAKEIAHKVLNNEELFLLDVRTEDAYQDWKIESEHFTYLNVPYFDLLDGVDELIKQLPKDQPIAVVCAKGGSSQMVAEMLVEEGLTDVYSVEGGMKSWSEHLEPRKVSDLKDGGELYQFVRLGKGCLSYMVTSGGEAAIIDAVRMTGAYTDMAEKLGVTITNVFDTHLHADHISGGRKLAEETGAVYWLPPEDAGDVVFNYQPLRDADHVQIGHSNIDIHALYSPGHTIGSTSFVVDDTYLMTGDILFIDSIGRPDLAGKAEDWVGDLRETLYTRYKELSDELVVLPAHFMIMDELNEDGTAAEKLGTLFSRNHGLNIADEGEFRRMVTENLPPQPNAYQQIRETNMGRISPDHEEQREMEIGPNRCAVR				NA	NA	NA	NA	NA
AK012_01596	570	glpE_2		Thiosulfate sulfurtransferase GlpE	ATGGATGTTAAGACAGATGTAACACTGGATGCTAAAGGAACAGCCTGCCCGATGCCGATCGTGAAAACAAAAAAATCGATGAAAGGCATGGAAGACGGGCAGGTGCTGGAAGTCCAGGCCACTGATAAAGGGTCCACAGCAGACCTGCAGGCATGGACAAAAAGTGCCGGTCACCAGTACCTGGGTACCATTGAAGAAGATGGAGTCCTCAAACACTATGTCCGCAAAGCCAATGATGATGAAACAAGAGAGAAAAAGCACCCGGATGTCGTGGACAACGAGGAGCTGAATGCCGTTCGTTCAAACTCTGAATCCATCATTGTGGATGTCCGCGAAGCTGCAGAGTATGCATTTCACCACATCCCTGAGGCTGTTTCTATTCCTTTGGGGGAAATCGATGATCGTGGAGATGAGCTCGATCAGAGTAAAACGGTCTATGTCGTTTGCCGCACAGGCAGCCGAAGCGACCTGGCTGCACAAAAGCTTGCCTCCAAAGGGTTTCATGCTGTCTATAACGTCGTTCCCGGGATGAGTGCCTGGAACGGCGAAACGAAATCACTCAACCAATAA	MDVKTDVTLDAKGTACPMPIVKTKKSMKGMEDGQVLEVQATDKGSTADLQAWTKSAGHQYLGTIEEDGVLKHYVRKANDDETREKKHPDVVDNEELNAVRSNSESIIVDVREAAEYAFHHIPEAVSIPLGEIDDRGDELDQSKTVYVVCRTGSRSDLAAQKLASKGFHAVYNVVPGMSAWNGETKSLNQ				NA	NA	NA	NA	NA
AK012_01597	297		COG0607	Sulfurtransferase	ATGAAAACATTGACGGCAAAAGAAGTAGAACAAAAGCTGAATGAAGGAAAAACATTGAATATCGTGGATGTACGCGAAGATGAAGAAGTCGCTGAAGGTATGATTCCGGGTGCCAGGCACATACCACTGGGTTCCATTGCAGACCGTGCAGATGAACTGGATAAAGAAAAACCTTATATTATGGTCTGCCGCTCGGGTGGACGCAGCGGCCGCGCCAGCCAGATTCTTGAAGATAAAGGGTTTGATATCACAAACATGGAAGGCGGCATGATGAGCTGGGAAGGCCCCACGAAATAA	MKTLTAKEVEQKLNEGKTLNIVDVREDEEVAEGMIPGARHIPLGSIADRADELDKEKPYIMVCRSGGRSGRASQILEDKGFDITNMEGGMMSWEGPTK	PGPT0001770_76	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK012_01598	480	dsrE2	COG2210	Sulfur carrier protein DsrE2	TTGTCTGAGACAAAAAAGACGAATATTATTTTATTCAGCGGGGATTATGATAAGGCTATGGCTGCCTACATCATCGCCAACGGAGCAGCAGCCTACGATCATGAAGTAACCATTTTCCACACGTTCTGGGGATTGAACGCTTTACGTAAAGATGAACCCATCCAATTGAAAAAAGGACTTATGGAGAAAATGTTCGGTCGCATGATGCCTAGAGGTGTCAATAAAATGGGCATTTCTAAAATGAACTTTGCCGGATTTGGACCGAAAATGATCAAAGACGTCATGAAAAAGCATAATGTGATGCCCCTGCCGGATTTGATCAGCATGGCCCAGGAACAGGAAGTCAACCTTGTCGCCTGCACGATGACTATGGACCTTTTAGGGCTGCAGAAAGAAGAATTGATGGATGATATTCAATATGCCGGTGTAGCCGCCTATCTCGCTGATGCTGAAGACGGCGCTGTAAACCTGTTTATATAA	MSETKKTNIILFSGDYDKAMAAYIIANGAAAYDHEVTIFHTFWGLNALRKDEPIQLKKGLMEKMFGRMMPRGVNKMGISKMNFAGFGPKMIKDVMKKHNVMPLPDLISMAQEQEVNLVACTMTMDLLGLQKEELMDDIQYAGVAAYLADAEDGAVNLFI				NA	NA	NA	NA	NA
AK012_01599	258	ricR_1	COG1937	Copper-sensing transcriptional repressor RicR	ATGGAATATAATGACGCCATGAAAAACAGAGTCAAGCGTCTCGAAGGCCAGCTGCGGGGTGTATTGAAGATGATGGAAGAAAATAAAGACTGTAAAGATGTCATTACGCAGCTCTCTGCTTCACGGAGTGCCCTTGACCGGGCGATCGGACTTGTTGTAAGTTCCAACCTTGTGGAGTGCATCCAGGAAGCAGATCAACAGGAAGACAAAGAAGCCTCTATTAATGAGGCCGTTCAACTGCTCGTAAAAAGCAGATAA	MEYNDAMKNRVKRLEGQLRGVLKMMEENKDCKDVITQLSASRSALDRAIGLVVSSNLVECIQEADQQEDKEASINEAVQLLVKSR	PGPT0004175_2138	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
AK012_01600	714			hypothetical protein	ATGGAGTTATGGAAGGACCTGTTCGTTGTTGTCATCCGAATTGTGACCATTCTCCCGCTGATGCTTGGAGTGGGAATCTTTATGGGGAAACGTTCGATCGGAGAACTTCCTGTTTTTGATTTTCTTGTTGTGCTTGTTCTGGGTTCCGTCGTTGGTGCAGATATCGCCGATCCGGACATTGATCATATACATACCGTTGCCGCTATTATTGTCATTGCCCTGCTGCAGAAATTCATTGTTACGGTCAAGCTGAAAAATAGAAAGCTTGGAAAAATGTTGACATTTGAACCGACGATCGTTGTTTATAAGGGACAAATGGTGGAGAAAAATTTATATCAGATCCGGTATTCCATTGATAACATTACACAGATGCTCCGCGAACAGCAGGTCTTCGATCTCACTCAGGTTGAGCTGGGTATTGTTGAGGCGAACGGTTCTTTATCCGTCAAGTTAATGCCGGAAAAAGAGCCGCCGGCACGGGAGGATTTCAGTCTTCCGGTAAGGGGTGGGGGGTATGATGTCCCTGTCATTCTTGATGGGAAACTCCAGCCTGATATCCTCCGGAGGATGGGGCGTAATCGTGCGTGGCTGGAGGAGGCCCTGGGGAATCACCAGGTAACGGATGTTTTTTACGGGGCTTTAACCAGTGAAGGGAGTTTTCACTATTCCTTGAAAGGACATCCCCCAGACAATATCCCGCCTTTGAGCCATTAA	MELWKDLFVVVIRIVTILPLMLGVGIFMGKRSIGELPVFDFLVVLVLGSVVGADIADPDIDHIHTVAAIIVIALLQKFIVTVKLKNRKLGKMLTFEPTIVVYKGQMVEKNLYQIRYSIDNITQMLREQQVFDLTQVELGIVEANGSLSVKLMPEKEPPAREDFSLPVRGGGYDVPVILDGKLQPDILRRMGRNRAWLEEALGNHQVTDVFYGALTSEGSFHYSLKGHPPDNIPPLSH				NA	NA	NA	NA	NA
AK012_01601	384			hypothetical protein	ATGTTTCATTATACGGTGGAAACAAATAAGAACGTAGAAGAAGCAGTGGAAAGCCTGGAAGCGAATTTAAAGGAAGAACAGTTCGGCGTCCTATGGAACTTCGACCTGAAAGGAAAGCTGAATGAAAAAGGTCTGGAATTTGAGGACGACTTCAGAGTGCTGGAAGTGTGCAATCCCAAAGAAGCACAGCGGGTCCTGAACCAGAATAAAATGGCCGGATACTTTCTTCCTTGTAAAGTGGTCGTTTATAAAGAGCAGGACCAGACAAGGATCGGAATGCCGAAGCCATCTTCCCTCACACAAATGGTAAATGACGATCAAATTCTCGCCATGGCTGAGGATATTGAATCACGCTTGATCCACTGCATGGACAAATCAATCTAA	MFHYTVETNKNVEEAVESLEANLKEEQFGVLWNFDLKGKLNEKGLEFEDDFRVLEVCNPKEAQRVLNQNKMAGYFLPCKVVVYKEQDQTRIGMPKPSSLTQMVNDDQILAMAEDIESRLIHCMDKSI				NA	NA	NA	NA	NA
AK012_01602	741	ycsE		5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YcsE	ATGGCAGAAGATATTAAATTAATCGCACTTGATCTTGATGGGACATTGGTGAATCACGACGGTGAAGTGTCAGAAGCCAATGCTGCAGCAGTGAAACAGGCGAAGGAGAAGGGCATTCATGTTGTCTTGAGCACAGGACGCTCCCTTTCCCGGTGCCGGCATATTTCTGAAGCGCTTGGCCGCTCATCGTATATTATCACCATTAATGGTGGAGAGATTTACAATCATGATTACGAATTGGTGGATCAGACAAAGCTTGATCACAGCCACGTGAATCGTCTGTGGGAATTGAAACAGGAGCACGGCCTTTATTTCTGGTCATCAACGGTTCAGGGTCTGTATAATACGCAGAATCCTTTTGACAGTGAAATTGAAGACTACGACTGGCTCAAATTCGGATTCGATATCGAAGATGATGAGGTCCGTCAGGTGATCCTGGATGAGCTTCAGGCCAATGATGCGTTGGAAGTGACGAATTCAAGTCCTACCAATATCGAGGTGAACCCGGTCGGCGTCAACAAGGCAGCTGCCTTGTTGAAAGTGTGCCAATGGCTGGAGCTGGATATGAAGAACGTCATGGCTGTCGGCGACAGCATGAACGACATAGCCATGATCCGGGAAGCGGGCCTTGGTGTAGCAATGGGCAACGCCCAGCAGGTGGTCAAAGATGAGGCGGCTTTTGTGACGAAGTCCAATGTTGAGGACGGCGTAGCCGCGGCCATTAAAAAGGTAATAGAATAA	MAEDIKLIALDLDGTLVNHDGEVSEANAAAVKQAKEKGIHVVLSTGRSLSRCRHISEALGRSSYIITINGGEIYNHDYELVDQTKLDHSHVNRLWELKQEHGLYFWSSTVQGLYNTQNPFDSEIEDYDWLKFGFDIEDDEVRQVILDELQANDALEVTNSSPTNIEVNPVGVNKAAALLKVCQWLELDMKNVMAVGDSMNDIAMIREAGLGVAMGNAQQVVKDEAAFVTKSNVEDGVAAAIKKVIE	PGPT0008595_893	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
AK012_01603	1164	mmgC_1	COG1960	Acyl-CoA dehydrogenase	ATGAAAGCGGGATACATAACGGATGAACATGAAATGCTCCGGACTTCCTTCAGAAAATTTTTGAAAAAGGAAGCTCTCCCCTATTATGACGAATGGGAAGCGAAGGGGGAAGTTCCCCGGTCCTTTTGGAGAAAGCTGGGGGAACAGGGTTACTTATGTCCATGGCTTGATGAAGCCTATGGGGGTACAGGCGCCGATTTTGGATACTCCGTCATCATTAACGAAGAGCTTGAAAAGATAGGCACGGGCTTAATTGGTATCGGCCTTCACAATGATATCGTCGTCCCTTACCTGGAAGCCTATGGAAGTAAAGAACAGAAAGCGAGATGGCTTCCGAAATGTGTGACAGGGGAGATGGTAACGGCTGTTGCCATGACAGAGCCGGGGGCAGGCTCGGATCTGGCTTCCATCCGTACGACAGCGGTGAAGGAAAACGGTCATTATATCGTCAATGGAGAAAAGACATTTATCACGAATGGCATCCATGCGGATTTAGTTGTCGTCGTCTGCAGGACAGATCCCCATGCGTCACCTCCACACAAGGGTATCAGTCTTCTCGTCGTCGAGCGGGGGATGAGCGGCTTTTCAAGAGGGAGAAAGCTTGAAAAAATCGGCCTTCACAGCCAGGATACCGCGGAGCTGATTTTTGAAGATGCCGTCGTTCCTTCTTCCCAGCTGCTGGGAAAAGAGGGGGAAGGATTTTATTATTTAATGAATCAGCTGCAGCAGGAGAGGCTGATCGTAGGCATCGGAGCCATTGCTGCCTGCGAACGGATGCTGGAGATTACCGTGGATTACGTCAATCAGCGCCGGGCTTTCGGGAGACCGGTCGCTGCCTTTCAAAATACCCAGTTCAAGCTGGCGGAGCTCCATACAGAAATTGAAATCGGCCGTACCTTCCTGAACCGTACGATTGAAGCCCATATGCAGGGAGAGGATGTCGTAAAGGAAGTATCGATGTCCAAATGGTGGACGACAGAGCTGGTGAAAAAGACAGCCCTGGAGTGTATGCAGCTTCACGGGGGCTATGGATATATGGAAGAGTATGAAATCGCCAGAAGGTTTCGTGATGCTCCTGTTACGGCCGTCTATGCAGGATCCAATGAAATAATGAAAACCATTATTGCGAAGAAGATGGGATTAGGAGGATCGAAGCATGAATGA	MKAGYITDEHEMLRTSFRKFLKKEALPYYDEWEAKGEVPRSFWRKLGEQGYLCPWLDEAYGGTGADFGYSVIINEELEKIGTGLIGIGLHNDIVVPYLEAYGSKEQKARWLPKCVTGEMVTAVAMTEPGAGSDLASIRTTAVKENGHYIVNGEKTFITNGIHADLVVVVCRTDPHASPPHKGISLLVVERGMSGFSRGRKLEKIGLHSQDTAELIFEDAVVPSSQLLGKEGEGFYYLMNQLQQERLIVGIGAIAACERMLEITVDYVNQRRAFGRPVAAFQNTQFKLAELHTEIEIGRTFLNRTIEAHMQGEDVVKEVSMSKWWTTELVKKTALECMQLHGGYGYMEEYEIARRFRDAPVTAVYAGSNEIMKTIIAKKMGLGGSKHE	PGPT0008385_7724	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
AK012_01604	1146	fadA5		Steroid 3-ketoacyl-CoA thiolase	ATGAATGAAGTTGTGATTGTTGAAGCGGTTCGAACACCTGTAGGAAAAAGAAATGGCGTCTTAAGCTCCATACGCCCGGATATCCTTCTTGCCGGTATTTTAAGCGAAGTCGTTGAACGAGCCGGTATTCAAAAGGAATCTGTGGAGGACGTGATTGCAGGGTGTGTCTCCCAGGTGGGTGAGCAGGCCGGCGATATTGCGAGAATCGCTGCCTTAACAGCCGGGTTTCCTGTGGAAGTCCCGGGCGTGACCCTTGACCGCCAGTGCGGCTCCAGCCAACAGGCCGTTCATTTCGGTGCACAGGCCATCGCCTGTGGCGATATGGATGTTGTCATTGCCTGTGGTATTGAAAGCATGTCCCGTGTTCCGATGTTTTCCAACATGAAAGGCGTGGCGTTCAATGAGACGCTGACGAAACGGTTTGACATGATCAATCAGGGGATCTCAGCTGAAAGAATAGCAGAGCGGTGGCAGCTTACGAGAGAAAACCTGGATGCCTACGCAGCAGAAAGCCACCGCCGGGCGCTGTCAGCCATCCAAGAAGGATACTTCCAACAGGAAATCATGCCTGTGGAAACAGCCGCCGGCAAGATCGACAGGGATGAAGGACCCAGACCGGGAACGTCTGAGGAAACCTTATCCACACTGACGCCTGCTTTCCAGGAGGGAGGACGTATTACAGCGGGAAATGCCAGTCAAATCAGTGACGGAGCCGCAGCCCTTCTCCTGATGTCGAGGCAGAAAGCGGCTGAGCTGGGGCTGAAGCCGAAAGCGAAAATTACGGCCCGGTCGGTTGTCGGATCCGATCCAACACTCATGCTTACAGGTCCTGTATCAGCGACCTATCATGTGTTGAAGAAAGCCGGTCTGAGCATAGAGGATGTGGATGTATTTGAGGTCAATGAAGCTTTTGCTCCTGTTCCTATGTTCTGGATGAAAGAAACCGGTGTTTCCCACGAACAATTAAATGTCAATGGCGGAGCGATCGCTTTGGGGCATCCGCTCGGGGCGACCGGAGCCAAGCTGATGACGAGCCTGGTTCACGAATTAGAACGAACGGATAAACGGTACGGGCTGATTGCCGTCTGTGAAGGACACGGCATGGCTAATGCGACTGTCATTGAAAGGATGGAAGGACAGTCATGA	MNEVVIVEAVRTPVGKRNGVLSSIRPDILLAGILSEVVERAGIQKESVEDVIAGCVSQVGEQAGDIARIAALTAGFPVEVPGVTLDRQCGSSQQAVHFGAQAIACGDMDVVIACGIESMSRVPMFSNMKGVAFNETLTKRFDMINQGISAERIAERWQLTRENLDAYAAESHRRALSAIQEGYFQQEIMPVETAAGKIDRDEGPRPGTSEETLSTLTPAFQEGGRITAGNASQISDGAAALLLMSRQKAAELGLKPKAKITARSVVGSDPTLMLTGPVSATYHVLKKAGLSIEDVDVFEVNEAFAPVPMFWMKETGVSHEQLNVNGGAIALGHPLGATGAKLMTSLVHELERTDKRYGLIAVCEGHGMANATVIERMEGQS	PGPT0001565_4976	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
AK012_01605	768			putative oxidoreductase	ATGAATGTATCGGGTGCGTCGGCGTTTGTTACAGGTGGAGCTTCCGGATTGGGAGAAGCTGTGGTCCGGAAACTTATCCGGCAGGGCGGCAGTGTGGTTATCGTCGATCAGAATGAAGAGAAAGGACAGGCTCTGGCCCGTGAACTGGGGAGCCGTTCGCTCTTTATCCAGGCGGATGTGACATCTGAGGCAGAAGTCCAACAGGCGCTTGAGAAGGGTGTGGAGACGTTTGGAGGTATTCAGGCGGTGATCAACTGTGCCGGCGTCGTTACAGCTGAAAAAGTAACGGGCAGGGACGGGCCCCACTCTCTGGAATCTTTCCAAAAGGTCATCCAAGTCAATCTGATTGGTACCTTCAATGTCATCCGCCTGGCTGCTGGAGTGATGCAGAAAAATGAAGCAGCGGAGGATGGGGAGCGGGGCGTCATGATCAATACCTCCTCTGTTGCCGCTTTTGAAGGACAGATTGGTCAGGCGGCCTATAGTGCATCAAAAGGAGGCGTGGCAGGAATGACCCTTCCTGTTTCAAGAGAACTGGCCCGCTGGGGTATCCGGGTCATGGCGATCGCCCCAGGGCTTTTTGAAACACCGATGTTTGATAACCTCCCTGAACAAGTAAAAGAAGGCCTCGGTCAGATGACCCCGTTTCCGAAGCGTCTGGGAAGGCCTTATGAATTTGCCAATCTGGTTGTAAGCATCATAGAAAATTCCATGTTGAATGGGGAGGTGATCCGTCTGGACGGAGCCATACGCATGCCGTCCAAGTAG	MNVSGASAFVTGGASGLGEAVVRKLIRQGGSVVIVDQNEEKGQALARELGSRSLFIQADVTSEAEVQQALEKGVETFGGIQAVINCAGVVTAEKVTGRDGPHSLESFQKVIQVNLIGTFNVIRLAAGVMQKNEAAEDGERGVMINTSSVAAFEGQIGQAAYSASKGGVAGMTLPVSRELARWGIRVMAIAPGLFETPMFDNLPEQVKEGLGQMTPFPKRLGRPYEFANLVVSIIENSMLNGEVIRLDGAIRMPSK	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
AK012_01606	1554		COG0318	Long-chain-fatty-acid--CoA ligase FadD13	ATGGGACCAACATTAAAAAGTATGTTTGAGCAGACGGTCGCTAAGTATCCGGAAAAAGAAGGCCTTGTGGATGTTCGTCTCGGAGTGCGGTGGACGTTCAAGGAATGGGAGGATGAAGTGAACCGGGCAGCAGCAGCTCTGGCAGCTTCCGGAGTGGAGAAGGGGGATAAAGTATCCACTGTGTTGTACAACACAGTCGAATTCACTACGATTTTATTTGCCTGTATGAAGATCGGTGCTGTCTTCAATCCTATTAACTTCCGTCTGACTGAGAATGAAATCCGTTTCATTTTGAAAGACGCCGGTCCGAAGGTTGTGCTTTTTGAAAAAGCGACAGCACCTCAAGTGGAGCCGGTGGCTGGTGGCTTGCCGGGAGTGGAATTCTGGTCTATTGATGAAGATTTCACCTTTGCGTCTCATTATTATGATCGTATGGAACAGGTGGTGGAACGCCCGCCGGTTTGTGAAGTGCGGGAGGATGACCCCTATGCAATCATGTATACATCAGGAACGACCGGCCTGCCTAAGGGCGTCATTCATACGCACAGGAATATGGTGGATCAAGCCCTCATTATAGCGGCGTCCATGCATCTTCAGGAAACAGATCGAGGGCTGACCGCTGCTCCTATCTTCCACTGCGCGGAACTGCATTGTGCCTTCTTCCCACGCGTGATGGTCGGTGCATCCAATGTCCTTGTCCATCACTTTGATGCAGCGGAAGTAATCGGAACCGTAAGAGAAGAACAGATCACGACGTTCTTCGCTGCACCAACGATGTGGAATATGATGCTTCAGGAAGATTTCTCCCATGAAGACTTTTCGACCCTCCGACAGGGGTTGTATGGAGGCGCGCCAATGGCTCCTGCCCTGACCTTGAGACTGCATGAAATTCTTGGAATTGAACTGGTCCAGGCGTATGGCATGACTGAAATGGGGCCGGCCATTACAGCGTTGTTCGATCACGAGCAGATTGAGAAAGCCGGATCGGCGGGAAGGCCGATTTTCCATCACGACATCCGGGTCGTCCGGACAAATGAACAGGGTCCCGCAGAACCCAATGAGATCTGCAAACCGCAGGAACTCGGGGAAATTATCGTGAGGGGACCGAGTATGATGAAGGAATACTATAACAATCCGGAAGCAACGAAGAAAGCCTTATATAAGGGCTGGTACCACACCGGTGATATCGGCTGTTTTGATGAAGACGGGTATTTATGGGTAAGTGACCGCGTGAAGGATATGATTCTATCCGGCGGAGAAAACATTTATTCCAGGGAAGTGGAGGACTGCTTATTCGCCCACCCGGGCGTCCTCGATGCTGCTGTCATCGGCGAACCGGATCAGCTCTGGGGAGAACGCGTAGCTGCCTATATCGTCAGAAAAGATCCCGCCTTATCCGAAAAGGAGCTGGATGAATTCTGTATTTCAGGTGGGCAGCTGGCCCGGTATAAGCGGCCGAGACGCTATGAATTTGTGGACGAGCTGCCAAGGAATGCGAGTGGGAAGCTTCAAAAGTTCAAGCTGAGGGAAACCGTTAATCAAGGAACAGAATAA	MGPTLKSMFEQTVAKYPEKEGLVDVRLGVRWTFKEWEDEVNRAAAALAASGVEKGDKVSTVLYNTVEFTTILFACMKIGAVFNPINFRLTENEIRFILKDAGPKVVLFEKATAPQVEPVAGGLPGVEFWSIDEDFTFASHYYDRMEQVVERPPVCEVREDDPYAIMYTSGTTGLPKGVIHTHRNMVDQALIIAASMHLQETDRGLTAAPIFHCAELHCAFFPRVMVGASNVLVHHFDAAEVIGTVREEQITTFFAAPTMWNMMLQEDFSHEDFSTLRQGLYGGAPMAPALTLRLHEILGIELVQAYGMTEMGPAITALFDHEQIEKAGSAGRPIFHHDIRVVRTNEQGPAEPNEICKPQELGEIIVRGPSMMKEYYNNPEATKKALYKGWYHTGDIGCFDEDGYLWVSDRVKDMILSGGENIYSREVEDCLFAHPGVLDAAVIGEPDQLWGERVAAYIVRKDPALSEKELDEFCISGGQLARYKRPRRYEFVDELPRNASGKLQKFKLRETVNQGTE	PGPT0008380_12885	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK012_01607	840			hypothetical protein	GTGAAGCGGCGTTTTCGAATCGGGGAAATGGCCCGGTTGTTTCAAATTTCTGCTTCTACGTTAAGGTATTATGATCGGATCGGCTTGTTTCAGCCTGGATATGTGGATCCGGAAACCCAGTACCGTTATTACAATTTCGAGCAGTTTGTCGTTTTGGATACCATTATATTTCTGAAAAAGAACGGATTTTCCATTGATGATATCCAGCATCAGCTGGCAAACCGGACGGCTGAAAATACGAAAGAGCTGCTGGAACGGAAACAAGAGGAGACGGAAAAGGAAATGGCAAGACTGCAGAAAGTCTCGGCTATGATTCAAAGCAAAATTGAGACCATTCAAACAGGGCTTCATCTCCGTCAATCCCCTTCGTTCGTTTACCGGCATTTTCCTGAACGGCCGATTACCTATTTGTATAACGATCAACCGGTGGATCTTTTTGTCGAGTCGGATGCGATTTTTCTTAAGGATTTGGAAGACCTGGCCTCAGCGGGCGGGGGGTACGACGGGTTTTTCACCGGCGATATGGGAACGATGGTGGATATGGACAGTCTTCATGGAGAAGGGCCGGCGAAATACTTTGCTGTGTTCGTATTTATTTCTAAGGAACAGGAAACAGCCGGAAGTCCGCATCTTCCCGAAGGGACCTATGCCTGCTATCCACACCGTGGACCTTACGAAAGCATTAAGGAAAGCTATGCCGTTATGATGAGGCAGCTGAAGGAGGATGGGCGGCAGGTATCCGGAACCCCTCTGGAAGTGGCAGTTCTGGACGAATCCGTGACCAACGATTCCGCTGCATATGTGACCTGGATTCAAATTCCCGTCACAGAAAAGGATTGA	MKRRFRIGEMARLFQISASTLRYYDRIGLFQPGYVDPETQYRYYNFEQFVVLDTIIFLKKNGFSIDDIQHQLANRTAENTKELLERKQEETEKEMARLQKVSAMIQSKIETIQTGLHLRQSPSFVYRHFPERPITYLYNDQPVDLFVESDAIFLKDLEDLASAGGGYDGFFTGDMGTMVDMDSLHGEGPAKYFAVFVFISKEQETAGSPHLPEGTYACYPHRGPYESIKESYAVMMRQLKEDGRQVSGTPLEVAVLDESVTNDSAAYVTWIQIPVTEKD				NA	NA	NA	NA	NA
AK012_01608	1329	mepA_1		Multidrug export protein MepA	ATGAGTGAAACCCATGAGACTTTGAAAACCAAACCAGTCAAACAGGTTTTCTTTCAATATTTCTTTCCGGCATTATTCGGAATGATGCTGATGTCTATCAATATCTTGATCGACGGGATATTTGTCGGGCGCGGTGTAGGGGAAGAAGGACTGGCTGGTGTCAACCTGGCGATGCCGGTCTTTTCCTTGATCTTTTCTATTTCCCTCTGGATCGGAATCGGAGGTGGGACGATCTATTCCATGCATATCGGCCGTGAAGAGCCTGACAAAGCGAGGAATGTTTTTTCGCTTTCCACCGCATCTTCTCTCGTTATTCTGGCTGTGATCGGGACGCTTGGATACTTCTTTATTGAGCCGGTCGCTTATATGCTGGGAGCTAATGCGGATACATTTGCTCCTACCGTTGATTACTTGACCGTTTTATTTCTGCTGGGCTGGTTGATTGCCCTTCAGCAGCTCCTCAGCATCTTTGTCCGGAACGATGGCAGTCCTACTTTGTCTATGGTGGCGCTGGGAGTGACTGCCATAGTGAACATTGGACTGAACTACTATATGATTTTCCTGTTGGAAAAAGGGGTGTTTGGGGCGGCGTTGGCGACAGTACTGGCAAGTGTTGCAGGATTGCTGGTGCTCTTCCTTCACTTTTTCAAGAAAAATACTCATTTACGCAAGCCGGTTTTTCTATGGTCATGGAAACTCCTTGGGGAGATTATGACCATCGGGTTTCCTAGTTTCCTTGCGGAAGCGGGGACTCTCGTATTTGTGGCGGGATACAATATAGCCATCGGGGCGTTACTTGGAACGGAAGGTGTCGCCGCCTTCTCCGTCGTAAATTACCTGCACGGCTTTATGTTTTTATCCTTCTTCGGCATTGAGTCGGCTCTTCAGCCAATGATCAGTTACTACCATGGTGCAGGAAGCAGGGATAAAATCAAGGACTCGGTGAAAATGGGGGAACGGACAGCTGCAGGTCTCGGCCTCATTTTGATTATCCTTGGAGTTTTAGCTGCCAAGCCGCTCGTTTCCTTGTTCGGCGTGGAGTCCGAAGAAGTAAAAGAGCTGGCAGTGAACGGCATCCGGCTGTTTTTTACCGGCTACCTGTTCCTGGGCTTTAACTTTGTTTATATGACTTATTTCCAGTCGGTAGGACAGATCCGCCCTTCAACGACGATTATCGTCCTGCGGAGCTTTGTATTCATCCTTCCGCTGTTGTGGCTGCTGCCTGATTGGTTCGGAGCTGCAGGTGTATGGTTGTCGCTTCCCATTGCCGAAATGCTTGTAGCTGTTCTACTCGCTGTCTTCACTCGTAAACAAGTCTTAAAGGCGTAA	MSETHETLKTKPVKQVFFQYFFPALFGMMLMSINILIDGIFVGRGVGEEGLAGVNLAMPVFSLIFSISLWIGIGGGTIYSMHIGREEPDKARNVFSLSTASSLVILAVIGTLGYFFIEPVAYMLGANADTFAPTVDYLTVLFLLGWLIALQQLLSIFVRNDGSPTLSMVALGVTAIVNIGLNYYMIFLLEKGVFGAALATVLASVAGLLVLFLHFFKKNTHLRKPVFLWSWKLLGEIMTIGFPSFLAEAGTLVFVAGYNIAIGALLGTEGVAAFSVVNYLHGFMFLSFFGIESALQPMISYYHGAGSRDKIKDSVKMGERTAAGLGLILIILGVLAAKPLVSLFGVESEEVKELAVNGIRLFFTGYLFLGFNFVYMTYFQSVGQIRPSTTIIVLRSFVFILPLLWLLPDWFGAAGVWLSLPIAEMLVAVLLAVFTRKQVLKA				NA	NA	NA	NA	NA
AK012_01609	1761	ligd	COG1793	Bifunctional non-homologous end joining protein LigD	ATGAAACGTCCGATGCTGCTTACCTCATCCGATAAACTGCCTGAAGATGGCGGGTGGATCTTTGAACCGAAGTACGACGGCTTCCGGGCGTTCCTGGAATCTTCTTCAGAAGGCATCCGTCTGATCAGCCGGAACGGTAAGGATTTAACAGAGAAGTTCCCGGAAATATGCAGCGCCGATGCTCCTCCCGGGACAGCCCCCTTTACGTTGGATGGAGAGATTGTGATTTTGAATACAGCTTTTCAAGCCAATTTCAAGCTCCTGCAGAAGCGGGGACGCCTGAAAAATCCAGAGAACATCCAAAAAGCGGCGAAGGAGCGCCCTGCTTTGTTCATGGCTTTTGATTTCGTGCTCAAAAAAACTCCGTTAGAAAAAAGAAAACAACGGTTAACCGAACTGCTCGACAAATGGCAGCACCCGGGAGTCCAGGAAATCGAGACTTATCAACATGTGGATAAACTGAGAGATCTTGTACATCTCCACCTTGGAGAAGGGATCATTGCGAAACGGTGCGCCAGTCCCTATCGATACGGGGAACGTACGCAGCACTGGCTGAAGTGGAAGCTGTGGAAAACCGTTTCTGTATTTCTCACACACCTTGACCCTTCGAATGGATATGTGGATACAGGTGTGTATAACGGGGAACAAGTTGTCGCAGCTGGACGCTTCAAACATGGTCTTTCCAATGATAAAGCAGCCACACTACATCAATTTTTTAAGGAGAAGGGAAAAAAGGAGAAGGGATTGTGGACACTGCCCCCCAGCGTATGTGCTGATATCCACTGCTTAGGAACGGAAAACGGAGAGTTCAGGGAACCTGCGTTTCACCAATTCCGCTTCGATCAAACACCATATGAATGTACAGATCAGAAGATGGCTTGGGATGTAAGTTTGTTTCCAGACCATTTCGAGCCGACAAACCTGGACAAAGAGCTGTTTCCCGGCAGGACCAAGCGGGATTATCTCGTTTACATCCGCCATATGGCTCCCTATATGCTGCCTTACATGAAAGAAAAGAAGTTGACCATCATCCGCTTTCCTGATGGAATCTACAACGATTCCTTCTTCCAGAAACACCGGCCGGATTACGCTCCGGAATCTCTGAAGCTGTGGATGGAAAAAGGGGAGCCATATATGTTGTGTGAAGAGCTTCATGGCCTGCTCTGGCTCGCGAATCAGGGAGCCGTAGAATTCCATCTCCCTTTTGAGAAAGCGGGATCCGCTCATCCGGATGAAATCGTTCTTGACTTGGACCCACCGGAGAAAGAAGCCTTCCCCCTATGCATTACAGCCGCTCAACTCTGCCGGAAATGGCTGGATGAACTCGGCGTCATCAGTTTTGTTAAGCTCTCCGGAAGCAAAGGGATGCAGCTGCATATCCCTTTTCAGGACGGGGATCTCAGCTATGAGGAAACGCGGGTCATCACCGAAACCTTAGGACGGCTTCTTGTGGAGACAAAACCAGACCTGTTTACAGTGGAGCGGTTAAAAAGAAAGCGGGGCAGCCGCCTTTATATCGACTATATCCAGCATGGGAAGAACAAAACCATCATCGCCCCCTACTCCCTGCGGGCCAAGGATAACAGCCCGGTTGCTGCCCCCCTGTACTGGGAAGAAATCGATGAGTATTTGAATCCTCGATCATTTACTTTGGATAACATGCTGGAAAGGCTGCAAGTAAGAGGAGATCCATTCCAAAGCTACGAAAAAGCCAGAACGCTTCAGCCCATCGATCAAATCAAAAAATTTCTCGACCATTAA	MKRPMLLTSSDKLPEDGGWIFEPKYDGFRAFLESSSEGIRLISRNGKDLTEKFPEICSADAPPGTAPFTLDGEIVILNTAFQANFKLLQKRGRLKNPENIQKAAKERPALFMAFDFVLKKTPLEKRKQRLTELLDKWQHPGVQEIETYQHVDKLRDLVHLHLGEGIIAKRCASPYRYGERTQHWLKWKLWKTVSVFLTHLDPSNGYVDTGVYNGEQVVAAGRFKHGLSNDKAATLHQFFKEKGKKEKGLWTLPPSVCADIHCLGTENGEFREPAFHQFRFDQTPYECTDQKMAWDVSLFPDHFEPTNLDKELFPGRTKRDYLVYIRHMAPYMLPYMKEKKLTIIRFPDGIYNDSFFQKHRPDYAPESLKLWMEKGEPYMLCEELHGLLWLANQGAVEFHLPFEKAGSAHPDEIVLDLDPPEKEAFPLCITAAQLCRKWLDELGVISFVKLSGSKGMQLHIPFQDGDLSYEETRVITETLGRLLVETKPDLFTVERLKRKRGSRLYIDYIQHGKNKTIIAPYSLRAKDNSPVAAPLYWEEIDEYLNPRSFTLDNMLERLQVRGDPFQSYEKARTLQPIDQIKKFLDH	PGPT0014910_1187	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014910-ligD-K01971	NA	NA
AK012_01610	846	ku	COG1273	Non-homologous end joining protein Ku	ATGCACACGATGTGGAAAGGTACGATCAGCTTCGGACTGGTCAATATTCCTGTGAAACTGCACGCCGCAACAGAGAATAAAGATATCAAGCTGAGACAGCTGCATGAAGAATGTCATTCCCCTGTGGAATATGAAAAACGCTGCCCTGTCTGTGACCGTGAAATTGAAAGTGATGAAATTGTAAAGGCCTATGAGTATGCCAAAAATAAGTTTGTCGTATTGGATAAGGAGGATTTGGAGCAGCTGAAGAAGGAACAGGCAGATAAAGCGGTTGAAATTCTGGATTTTGTGAAGCTGGAGGAGATCGATCCAATTTATTTTGAGCGCAGCTATTACATTTCTCCCAGCGAAGGCGGGTCCAAAGCCTACAGCCTTCTGCGCCAGGCGCTCGGGGATACAGGGAAAATCGGAATTGCTAAAATCATCATACGATCGAAGGAGCAGCTGGCTGTATTAAGGGTGTATGAGAATACACTGGTGATGGAAACGATCCATTATCCGGATGAAGTGCGCAATGTCCAGGATGTCCCCAATGTCCCGGAAGAATCGGATTTGAGTAAAAAGGAATTGAGTACTGCCGTTACACTGATCGATCAGCTGACGAGCGAATTTGATGCAGGAAAATATAAAGATGACTACCGCACAGCCCTGATGGAACTCATTGAAGCGAAGAGAAACAATGAAGAGACTGCAACAGCGAAGGACAAGCCTGCAGCCGATAATGTTACAAACCTTATGGATGCGCTTGAGAAATCCCTTGAAAAAACTAAAGGAACGACGAAAAAGCGGAAGACTAAAACCACGCGGACAAAAACGACGACATCCGGGAAGAAAAAGTCGTCCTGA	MHTMWKGTISFGLVNIPVKLHAATENKDIKLRQLHEECHSPVEYEKRCPVCDREIESDEIVKAYEYAKNKFVVLDKEDLEQLKKEQADKAVEILDFVKLEEIDPIYFERSYYISPSEGGSKAYSLLRQALGDTGKIGIAKIIIRSKEQLAVLRVYENTLVMETIHYPDEVRNVQDVPNVPEESDLSKKELSTAVTLIDQLTSEFDAGKYKDDYRTALMELIEAKRNNEETATAKDKPAADNVTNLMDALEKSLEKTKGTTKKRKTKTTRTKTTTSGKKKSS				NA	NA	NA	NA	NA
AK012_01611	960	tdcB_1		L-threonine dehydratase catabolic TdcB	TTGGAAGCGTTGAACTTAAGGGATGTTTGGATAGCGAGGAAACGTATGGAAAGCATCGTAAAACCGACACCGCTGATCTATTCGGAGTTTCTCTCTGGTCATACCGCCCAGCCGGTGTATTTGAAATTGGAACAGTCCCACCCCACAGGGTCTTTTAAAATACGCGGGGCGGCCAACAAGCTGCTATCTCTAACAGACGAAGAAAAACAGCGGGGCGTTACAACGTTTTCTACGGGCAATCACGGCATCGCCACCGCGTATGTAGCCGGACGGATGGGCATCCCTTGTACGGTCTGCTTATCCCATCGTGTTCCAGAAGCAAAGCTTGGGCGGCTGAAGCGTCTCGGGGCGTCTGTTGAGCAGATCGGTGTCAGTCAGGATGAGGCTGCTGTGCGGTGCAGAGAACTGGAGGCGGAGAAAGGGATGACGGTCGTCGAGCCCTTTGATGATCCAGCGGTTATTGCCGGGCAGGGAACCATTGGACTGGAATTGATGGAGCAGCTTCCTGATGTCAAGGAAGTGGTTATTCCCCTGTCGGGAGGAGGGCTTTTGTCCGGTATTGGTTTGGTCCTGAAAAAGTCGGACCCGGCGATTTCGATCACAGGGGTGACTATGGAACGGAGCGCCGTCATGCAGACGAGTCTGAAAAAAGGGGCTGTTGTCACGCTGGAGGAAGAAGATACGCTCGCCGACAGTCTGCTCGGGGGAATTGGAGAGGATAACCGCTATACGTTTTCTATGACCCGTTCCCTGATGGATAAAGGAGTTCTTTTACCTGAGGAGCGCATCAAAGAAGGATTATACAGCCTCCTTGATCATCATAAAATGATTGTAGAAGGGGCAGCGGCGGTTGGAGCAGGCTATCTGCTGGATCAACCGGTTCCTGAAGGACCTGTTGTCCTTATCATCACGGGAAACAATGTAGATACACATACGGTTAAGACGTGGATGGACAGCTGA	MEALNLRDVWIARKRMESIVKPTPLIYSEFLSGHTAQPVYLKLEQSHPTGSFKIRGAANKLLSLTDEEKQRGVTTFSTGNHGIATAYVAGRMGIPCTVCLSHRVPEAKLGRLKRLGASVEQIGVSQDEAAVRCRELEAEKGMTVVEPFDDPAVIAGQGTIGLELMEQLPDVKEVVIPLSGGGLLSGIGLVLKKSDPAISITGVTMERSAVMQTSLKKGAVVTLEEEDTLADSLLGGIGEDNRYTFSMTRSLMDKGVLLPEERIKEGLYSLLDHHKMIVEGAAAVGAGYLLDQPVPEGPVVLIITGNNVDTHTVKTWMDS	PGPT0001960_6227	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
AK012_01612	1683	pucR_2	COG2508	Purine catabolism regulatory protein	ATGGGTGTACCTGTTGAAGAGGTGTTGGAGCTGCCGGTACTGAAGAGTGCGAAAGTGCAGACGCCCTTGTATGAGCGCGATGTGGAGTGGATCTCAGTCATAGAGACTCCTGTTGAAAATTTTGTGAGAAACAATGAATTTGTTCTCAGCACGGGCGTAGGGTGCGGGGAGGATATAGCGGTCCTGGAGGCCTACGTGAAGGATGTGATCCAGTCTGATGCTTCTATCCTCGCTTTTGCCACAGGCCGTCATCTGTTTAAAATCCCTGACCGCATCATTACGCTTGCTGAACAACATGAGCTCGTGCTGGTGGAGATTCCCTGGGAAGTACGGTTTGCAGACATTCTCCAAGGCGTGCTCCAGCTGCTCAATGAAGAGAAGCAGAAGGCTCACAGGCATGTGGAAGGGATCCGCCAGGAGTTGATCAACTGTGTCCTGAATGGAAAGGGACTCCAGGAAATTACCACGATCCTTTATCAACACACCGGACTGCCCAATGCCATCAGCGACCATTTGAAGCATATCCGGGCCAACCAGTATTTTGATTCATCCTTGATTGAAGCATTGAACGGACAAAGGGACGTGGATGTCTCCTTAATCGAGCACCCTTTTGATTTGGAGCACCCGCTCACCCATTATATAGAAACCTATCAGATTGATGAGGAACGCTGTTATCAGCTCACGATTTTATCCAACTATAAAAAACAGGGGTATTTATTGTTCCAGCCTGAGAAGGATGAAGAGGTAACAGCAGAGATGATGACGATCCTTGAGCACACGCTGACGGCCTGTGCCCTTTATTTTGTGAAGGAAAATGCGATTGAAATGACAGAAATCCGTCTGAAAGATAACTTTATTTTAGATCTGGCCAAACGAGAGCAGCGTATAGACAAGCAGCTGCTGGCGAAAGCCGGTCTTCTCGGGTATGACTTGGAGAAGCCTTATGTCTGTTTTGTCGGAGAGGTGCAGTTCCATCAGCCTATAAGCCGCTCTGAAGGAAACGATGGACAGCTTCCCCCTTCGTCTTCTCTGCAGAGCCGCAACTATTACATCCAAAAAGAGGCCGCCTATGCCGGCCATATGGTTGGACGGCAGGTGATGACGACCTTTGATGAAGAAAGAGTCATTATCTTTTTGGAAGCGGATAAAGAAGGCAGTGAGGAAGCGGCGAACCAATTTCTGGACCTTGTCGAAAGGCGTTTGTTCGAATTGCTGGCCGGTGTCACAATCCAATGGGGGATTTCGTGTCATAAAGACGGCTGCCAAGTCTTCCATAAGAGCTGCGAAGAAGCACAGACGGCTCTGCAGATGGGCGGGCAGCAGAATGAAGCAGGCGGCCGGACATTCTTCAAGGAGACACGAATGAACAGGCTTCTGATGGCTTTGTCACATAAAAGAGAAATTGAAGAGATCGTCCAGGACACCCTGCAGCCTCTTATTGACTATGATCAAAAGAGGCAGGCGGAGCTTCTCCACACCTTTATGGTCTACAATAAATACAACAGTAATGTCAGTCAGACTTCGAGAGCGCTCAACCTGCACCGGCAGTCGCTGCTTCACCGGCTTAGAAATATTGAGCAGCTGACAGGGCTGTCCCTGTTGGATGCGGACGATTTATTTTTGCTGGAGCTCAGTGTACGTTTATGGCTCCTGAAAAAAGTAGAAAAGCCTGCTCCCCATTGA	MGVPVEEVLELPVLKSAKVQTPLYERDVEWISVIETPVENFVRNNEFVLSTGVGCGEDIAVLEAYVKDVIQSDASILAFATGRHLFKIPDRIITLAEQHELVLVEIPWEVRFADILQGVLQLLNEEKQKAHRHVEGIRQELINCVLNGKGLQEITTILYQHTGLPNAISDHLKHIRANQYFDSSLIEALNGQRDVDVSLIEHPFDLEHPLTHYIETYQIDEERCYQLTILSNYKKQGYLLFQPEKDEEVTAEMMTILEHTLTACALYFVKENAIEMTEIRLKDNFILDLAKREQRIDKQLLAKAGLLGYDLEKPYVCFVGEVQFHQPISRSEGNDGQLPPSSSLQSRNYYIQKEAAYAGHMVGRQVMTTFDEERVIIFLEADKEGSEEAANQFLDLVERRLFELLAGVTIQWGISCHKDGCQVFHKSCEEAQTALQMGGQQNEAGGRTFFKETRMNRLLMALSHKREIEEIVQDTLQPLIDYDQKRQAELLHTFMVYNKYNSNVSQTSRALNLHRQSLLHRLRNIEQLTGLSLLDADDLFLLELSVRLWLLKKVEKPAPH				NA	NA	NA	NA	NA
AK012_01614	489			hypothetical protein	GTGAATAAGACCCGCATCCTTACATTTATGGCCGTGCTTGTGGCGATAGGGACACTTGGTTCCCAGTTTTTATGGTTTCCTGCTGGAGTAGCGAGAGCCTACCCGGTCCAGCATGCCGTTAATGTTATTGCTGCAGTCGTGCTCGGCCCGCTGCCTGCGGTGGCCGTTGCTTTTGTCATCGGTCTGCTTCGTTTCCTGCTTGGGCTTGGAACTGTTCTGGCCTTTCCGGGAGGCATGATCGGTGCGTTTAGTGCCGGTGTATTTTACAAGCTTTATGCACGTACATCCTCTGCAGCAGCAGGGGAGGTGTTTGGTACAGGTGTGATCGGTGCTCTGGCGGCCGTTCCTCTCGCCAACTGGTTCATGGGAAGTTCGGCTGCGGTCTTTGCATTTCTGCCGTCTTTTCTGGTGAGCAGTCTATCCGGAGCTGTTATGGCTGTGTTTATTTTATCAAGGGTGAAGATCAAAAGCCCTCTGCTGCAGTCCTAA	MNKTRILTFMAVLVAIGTLGSQFLWFPAGVARAYPVQHAVNVIAAVVLGPLPAVAVAFVIGLLRFLLGLGTVLAFPGGMIGAFSAGVFYKLYARTSSAAAGEVFGTGVIGALAAVPLANWFMGSSAAVFAFLPSFLVSSLSGAVMAVFILSRVKIKSPLLQS				NA	NA	NA	NA	NA
AK012_01615	804	thiD		Hydroxymethylpyrimidine/phosphomethylpyrimidine kinase	ATGAAACCCGCATGTGTATTAACCATTGCCGGCACGGATCCGAGTGGAGGAGCCGGTATACAAGCTGATTTAAAAACGTTCCAGGAATTGCAGAGCTATGGAATGAGTGTCGTGACTTCCGTCGTCGCTCAAAATACGACAGGAGTGAAAAATGTACACCATCTCCCGGATGCCTTCATACGTGAACAGCTGTTCGCTGTCAGTGAAGACATGCCGGTTCACGCTGTTAAAACAGGGATGATTGCCAATAAGGAAATGATGCAGGTCATTAAGGACTGGATGCAGACGGTGGATGCCCCGTATATTATGGACCCCGTTATGATTGCCCAGAGTGGAGACCCGCTCGTGGAGCAGGAGGAACAGATATATTTGAAGAGGCATCTCGTTCCGGAATCAACTCTTGTAACCCCGAATATTCCAGAAACAGAAACACTTCTCAATAAGCAGATCGATGATGAAGAAGACATGAAGGAAGCGGCCGTGGAGATTGTAGAGCAGCTTGGGGCCGGTGCTGCGCTTGTAAAAGGCGGCCATTTAAAAGGGAAAGCGGTCGACTTTTTATATGACGGGCACCAGCTGCACACCTTCGAAGCAGAACGCATCGACTCAGCGAACACCCACGGTACAGGCTGCACCTACTCGGCCGCTATAGCCGCTTATATGAGCCGGGGATATCCGCTTGCGCAGGCGGTGGAAAAGGGCAAGCATTTTGTTACAGAGGCCATCCGCCATTCTTTCAATCTTGGTAAAGGGGATGGACCGACCAATCATTTTGCTGTACGTCAGGAGGTTTTTAACCAATGA	MKPACVLTIAGTDPSGGAGIQADLKTFQELQSYGMSVVTSVVAQNTTGVKNVHHLPDAFIREQLFAVSEDMPVHAVKTGMIANKEMMQVIKDWMQTVDAPYIMDPVMIAQSGDPLVEQEEQIYLKRHLVPESTLVTPNIPETETLLNKQIDDEEDMKEAAVEIVEQLGAGAALVKGGHLKGKAVDFLYDGHQLHTFEAERIDSANTHGTGCTYSAAIAAYMSRGYPLAQAVEKGKHFVTEAIRHSFNLGKGDGPTNHFAVRQEVFNQ	PGPT0008915_2179	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
AK012_01616	765	thiM	COG2145	Hydroxyethylthiazole kinase	ATGACACAAACGTTGATCCAGCAGCTGCGGAGCGAACGCCCGTTAATTCATAACATTACCAATGCGGTCGTCATGAATTATACGGCCAATGGTCTGCTTGCTCTCGGCGCTTCTCCGATTATGTCGAATGCCGTTCAGGAAGCCGGTGATGTCGCTCGTTTAGCAGACGGCCTTCTGTTGAATATCGGCACGTTGAACGAGCACCAGGTGGAAGCGATGCTGGAGGCAGGAAAAGCGGCGAATGAGGCCGGCGTCCCTGTCGTTCTGGATCCTGTGGGAGTGGCTGCCACCTCCTACAGAGCAGAAGCCTGCCGGAAAATATTGTCGACGGTTAATGTTGATGTGATCAAAGGCAATGCGGGAGAACTCGCTTTCCTTGCTGGAGAGAATGTTGAGACGAAGGGCGTTGATTCTGGAGAAGCTTCGAACACAGAAGAGATGGTTCTCAAGGTTTCAGAAGTCTATCAGACGATGGCGGTCTGTACCGGGAAAACTGATGTCGCCGGGTATAACGGGGAAGTATTTAAAAACGACACAGGTCATGAGTGGCTTTCAAAAGTCACAGGTTCCGGATGTCTGCTTGGGGCCGTACTTACTGCGTTTCTTTCCCTCCCGGGGGACAGAGTGGTAAACGTGCAGACGGGTCTCTATTACTTTGGAAAAGCGGCCGAACATGCAGCTTCCCTTCCTCATGTATCAGGTTCAGGGACGTTTGTGCCTGCGTTTATAGATGCCCTCGGAGCAGAAGAGGAGGTGGACCGGTGA	MTQTLIQQLRSERPLIHNITNAVVMNYTANGLLALGASPIMSNAVQEAGDVARLADGLLLNIGTLNEHQVEAMLEAGKAANEAGVPVVLDPVGVAATSYRAEACRKILSTVNVDVIKGNAGELAFLAGENVETKGVDSGEASNTEEMVLKVSEVYQTMAVCTGKTDVAGYNGEVFKNDTGHEWLSKVTGSGCLLGAVLTAFLSLPGDRVVNVQTGLYYFGKAAEHAASLPHVSGSGTFVPAFIDALGAEEEVDR	PGPT0008990_2018	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
AK012_01617	618	thiE		Thiamine-phosphate synthase	GTGAATTTGGAACAGCAGCTTAGAAAGTATTTGGTAATGGGAAGTCAGGACTGTGACAGAGATCCACTATCCATCCTGGACGAAGCGGTGGCTGCGGGAATTACCGCTTTCCAATTCCGCGAAAAAGGAGAGGGATCCCTTCAAGGGGATCAAAAATATCAGCTGGCAGCAGCGCTGCAGAAGCGGTGTGAAGCTGCCGGTGTTCTATTTATCGTGAATGATGACGTGGAGCTTTTCCGCTGTTTGAACGCGGATGGCATCCATGTCGGTCAGTCGGACGAACATGTGAAAGCCATCCGTGAGGCCCATCCTCACGCGGTGATTGGTCTGTCGGTATCCGATTTAACGGAATGGGAGAACAGTCCAGTCGAGCTTGTTGATTACCTCGGTGCAGGACCTGTGTTTCCTACAACGAGTAAAAAGGATGCCAACCCCGTTTCCGGTACAAAGTGGATCAGGGAATTAAAAGAAAAGCAGCCGGACATGCCTGTCGTCGGTATCGGAGGCATTACGACGGAAAACGCACACGAAGTTATAGAAGCCGGAGCTTCCGGAACAGCCGTGATATCCGCCATTACGCAGGCGGCGGACATCCGGAGAGCTGTGTCAGAGTTATAG	MNLEQQLRKYLVMGSQDCDRDPLSILDEAVAAGITAFQFREKGEGSLQGDQKYQLAAALQKRCEAAGVLFIVNDDVELFRCLNADGIHVGQSDEHVKAIREAHPHAVIGLSVSDLTEWENSPVELVDYLGAGPVFPTTSKKDANPVSGTKWIRELKEKQPDMPVVGIGGITTENAHEVIEAGASGTAVISAITQAADIRRAVSEL	PGPT0008995_4076	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
AK012_01618	903	ydhF	COG4989	Oxidoreductase YdhF	ATGGAACGCATACAACTAGCAGAAGACCTCTCCTATTCACGCATTGTACACGGATTATGGCGTTTAGCCGACTGGAACCAATCAAAAGAAGACACGCTTGATTTGATCGAATCCAACCTCGATCAAGGCATCACGACTTTCGATCATGCGGATATTTATGGGGGCTACACGTGTGAGAAGCTTTTCGGTGAAGCACTCAGCCTGAAGCCATCTCTCAGAGACCAAATGGAAATCGTTACGAAGTGCGGCATCGTTCTTCCTTCTGAAAACCGGCCTGACCATAAGACCCATCACTACAATACGACGAAAGAACATATCATACGGTCGGTGGAACAGTCCCTTACCGACCTTCAGACAGACTACATCGACACCCTATTGATCCATCGTCCGGATCCGTTCATGGATCCTGCATCCACAGCTGACGCTTTCATTCAGCTGCAGAAAGAGGGAAAAGTACGTACCTTCGGTGTATCCAACTTCAAGGAGCATCAATGGCAGATGCTTGAATCCTATCTACCGTTTTCTCTCGTAACCAACCAGCTGGAGCTTTCCGCCTACCAACTGGAAAACTTTCAAGATGGTACGTTGAACCTTTGTCAGCAGAAACGCGTCGCACCTATGGCCTGGTCCCCTCTGGCCGGCGGTGAAGTCTTTACATCCACCGAGGAAAAAGCCGTGCGCCTGCGCACCACGCTGACAAAGATCCAGGAGGAAATCGGCGCAGAGGGCATTGATGAAGTTATGTATGCATGGCTTTTGAACCACCCTTCCCGGATTATGCCGATCGTAGGATCCGGGAAAAAGAACCGGATTTCCGGTGCTGTGAGAAGTCTTGATTACACGCTCAATCATGATCAATGGTTTGAAATTCTTCAAAGCTCCATGGGCCACGATGTGCCGTAA	MERIQLAEDLSYSRIVHGLWRLADWNQSKEDTLDLIESNLDQGITTFDHADIYGGYTCEKLFGEALSLKPSLRDQMEIVTKCGIVLPSENRPDHKTHHYNTTKEHIIRSVEQSLTDLQTDYIDTLLIHRPDPFMDPASTADAFIQLQKEGKVRTFGVSNFKEHQWQMLESYLPFSLVTNQLELSAYQLENFQDGTLNLCQQKRVAPMAWSPLAGGEVFTSTEEKAVRLRTTLTKIQEEIGAEGIDEVMYAWLLNHPSRIMPIVGSGKKNRISGAVRSLDYTLNHDQWFEILQSSMGHDVP				NA	NA	NA	NA	NA
AK012_01619	1221	thrC_1	COG0498	Threonine synthase	ATGACGTACAGTTATATCTCTCACCTTTACTGCCCGAAATGCTCGAAAACCTACAGCACCTCAGAAACTCACCATCTATGTACATGCGGCTCACCACTGCTTGTGAACTATGATTTGGAAGCGCTGTCTGTTTCCTGGACAAAGGAAAGCCTTAAAGAACGAAGCCCGGATCTCTGGCGCTATCATGAGCTCCTTCCACTTCAGGACCCTTCCCATCGTGTAACACTGGGAGAAGGGATGACACCGCTGCTCTCCCTGCCTGTTTTAGGAAATGACATGAACATCGGCCGGCTGGATATGAAAGATGAAGGCGTTATCCCGACGGGGTCTTTCAAAGCCCGCGGAGCCGCTGTCGGAGTATCCAAAGCCCGCGAACTCGGTGTCAGGGAACTAGCCATGCCGACCAACGGCAATGCCGGGGCAGCGTGGTCCCTCTATGCCGCCCGGGCGTCCATCATTCCCACCATCGTGATGCCGGTCGATGCACCGAAAATTACACGGAATGAATGCGCGGTTTCAGGAGCACGACTCTTCCTTGTCAACGGCTTAATCAGCGATGCGGGACGAATCATATCCCAGGCCGTCAAAGATCCGGACATCTATGATGTATCCACACTGAAAGAACCTTATAGAATCGAAGGGAAGAAAACGATGGGGCTGGAAATCGCGGAACAGACGGGGTGGAAGCTTCCGGATGTCATTTTGTATCCTACCGGAGGCGGAGTCGGTCTGATCGGCATTTATAAAGCGATTCGGGAACTGCAGCAGCTAGGCTGGGTGGAAGATGGAAGGATGCCGAGACTTGTTGCTGTTCAATCAGAAGGCTGTGCTCCTATTGTGAAGGCCTGGGAAGAGGGACGGACAGAATCCGATTTCTGGGAGAATTCAGAAACGATGGCATTCGGAATCAATGTCCCTAAAGCGATCGGTGATTTCCTTGTGCTGGATGCGGTATATCAGTCCAACGGCTGTGCTGTTGCTGTATCTGAATCGTCGATTTTGGAAGAACAGCAGCGGGCTGCCCAAATGGAAGGAACATTTGTGTGCCCGGAAGGAGCGGCATCATTTTCCGCTGCCAGAAAACTGCGCCGGGAAAACTGGATCAAAGACGAGGAGCATGTCGTCGTATTAAATACCGGAGCCGGCATCAAATACCCGGATACCGTGAATCTGGATATACCAGTCCTTCAACCTGGTGACGTTTTGGAAAAAAAGGTATGA	MTYSYISHLYCPKCSKTYSTSETHHLCTCGSPLLVNYDLEALSVSWTKESLKERSPDLWRYHELLPLQDPSHRVTLGEGMTPLLSLPVLGNDMNIGRLDMKDEGVIPTGSFKARGAAVGVSKARELGVRELAMPTNGNAGAAWSLYAARASIIPTIVMPVDAPKITRNECAVSGARLFLVNGLISDAGRIISQAVKDPDIYDVSTLKEPYRIEGKKTMGLEIAEQTGWKLPDVILYPTGGGVGLIGIYKAIRELQQLGWVEDGRMPRLVAVQSEGCAPIVKAWEEGRTESDFWENSETMAFGINVPKAIGDFLVLDAVYQSNGCAVAVSESSILEEQQRAAQMEGTFVCPEGAASFSAARKLRRENWIKDEEHVVVLNTGAGIKYPDTVNLDIPVLQPGDVLEKKV	PGPT0009175_4676	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
AK012_01620	1203	doeA	COG0006	Ectoine hydrolase	ATGGTTCTTCCTTTTGACATTTTGGAGTACCAGAAGCGTCTGCAGGCCGTCAAAGGAAACATGGCGGACAGAGGGATCGACGTGCTGTTGATTACGGACCCTGCCAATATGAATTATCTCTCCGGCTATGATGCGTGGTCGTTTTATGTCCATCAAATGCTCGTTATTTTGATTGATGAACCTCAGCCGCTCTGGATCGGACGATACCAGGATGCCGGTGGTGCCAGAGCAACGACGTGGATTTACGACGATAATGTAATTGCCTATCCGGATTACTATGTTCATTCAGCGGTGTACCATCCGATGGATTTTGCAGCGGAAATTATCCGTCAGATCGGTCAGGGGAAGAGGCGCATTGGTGTGGAGATGGATCATTACTACTTTACAGGTATGGCTTTAGAACGACTGAAGAAGGGTCTTCCGGACGCTTCTTTTACAGATGGTTCCCTGCTTGTTAACGAAGTGAGAATGATTAAGTCAGACCAGGAAATTGAATACATGAGGCGGGCAGCCCGGATCGCTGATCTTGCTATGACTAAAGGAGTGGAAAGTGTCCGTCCCGGCGTACGGGAGTGTGATACGGCGGCGGAGATCTACTACCATCTTGTCAAAGGCACACCGGAATATGGCGGGGATTATCCATCCATCGTGCCCCTGCTTCCGACCGGGGATCACACCTCGATCCCACATTTAACGTGGACGGACCGGCCGTTTGTAGAGGGGAGCGCCGTCATTATAGAGCTTGCAGGGTGTTACAAACGGTACCATGTGCCTCTCGCAAGAACGGTATCCATCGGCCAGCCGAATGAGAAAATGAAACAGGTGGCTCCTGTTGTCCTGGAAGGTATCCAGACCGTCCTGGATGCTGCTAAGCCGGGGGTCACCTGCGGGGAGCTTGAAGAAGTGTGGCGGCATACGATCAAGAAATACGGATATGAGAAAGAAGCCCGTCTCGGTTATTCTGTCGGCATGAACTACCCGCCGGACTGGGGAGAGCATACGGCCAGCATCCGAAGAGATGATCCGACGGTGCTGCAGCCGAATATGACCTTCCATCTCATTCCGGCACTTTGGTTTGATACGGATGGAATTGAAATATCAGAAACGTTCCGGGTCACTGAAACCGGCAGCGAGCGCTTCACGACCTATCCCCAGGAATTAGTGATTCGTGATCATCTGGACTTGAGTGGACAAATCAGCTGA	MVLPFDILEYQKRLQAVKGNMADRGIDVLLITDPANMNYLSGYDAWSFYVHQMLVILIDEPQPLWIGRYQDAGGARATTWIYDDNVIAYPDYYVHSAVYHPMDFAAEIIRQIGQGKRRIGVEMDHYYFTGMALERLKKGLPDASFTDGSLLVNEVRMIKSDQEIEYMRRAARIADLAMTKGVESVRPGVRECDTAAEIYYHLVKGTPEYGGDYPSIVPLLPTGDHTSIPHLTWTDRPFVEGSAVIIELAGCYKRYHVPLARTVSIGQPNEKMKQVAPVVLEGIQTVLDAAKPGVTCGELEEVWRHTIKKYGYEKEARLGYSVGMNYPPDWGEHTASIRRDDPTVLQPNMTFHLIPALWFDTDGIEISETFRVTETGSERFTTYPQELVIRDHLDLSGQIS	PGPT0014046_74	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014046-doeA-K15783	NA	NA
AK012_01621	1008	arcB_1		Delta(1)-pyrroline-2-carboxylate reductase	GTGGACGTCATTCAACTGTACACGCGGAAGGAGATCGAGCGTATCATCCGTCTCGATCCTTCACTCATCAAAGTTATTGAACAAGCTTTTACATCGTTGGTTACAAAAAAAGTGACGATGCCGCCTATTATGCGTATAGATGTGCCGGAGCACAACGGAGAAGTCGATATAAAGTCCGCCTTTATCGAGGGGGAAGACAGCTTTGCCGTTAAATTATCGTCCGGGTTCTTCAACAATCCTTCTCTCGGACTTCCAACCTCAGGGGGGATGATGATCCTGCTTAACAGCCGTACAGGGCAGCCGCTCGCCGTATTGGCTGATGACGGTATGCTGACAGATCTGCGTACAGCGGCCGCAGGGGCGGTTGGTGCAGCGTACTGCAGCAGAAAAGGCGCACGAAGGGCCGGTATCATCGGTACAGGTGCTCAGGCAAGACTCCAGTTGAAAGCTTTGACGTTCGTCCGTCCTATTGATCACGTCTATGTGTACGGCCGGCGAGTGGAGCAGGCAGAAGCGTATAAGAAAGAGATGGAAAAAGAACTCAGCCTGCCGGTGACCATTTGTTCCAGTGTGAAGGAGGCCGTTGCAGAGAGTGACATCGTGGTAACGACTACACCCTCCCGGAAGCCGCTCATTTTTGCGGAATGGATGAAACCCGGGCTGCACATTACGGCTATGGGGTCGGATGCGGAACATAAGCAGGAGCTTGACCACGGCGTCCTGGAAAAAGCGGACAGCATCACATGCGATGTCATCCACCAGTCCGAGCGTCTTGGAGAGCTGAGGGGCGCAGCGGCTCTGAAAAGTCCGGTTATGGAACTCGGTGAGCTTACAAGCGGACGCAAACAGGCACGCACTTCCGATGAGGAGATAACGGTGTGTGATTTAACAGGAACAGGGGTTCAAGATACAGCCATCGCGAGGTTTACCTGGAACGCCTTGAATAATAAAGGAGATGATCATGATGAAAGAAGCCAAAATGAGCACCAAATCCATCTGGGCCGGTGA	MDVIQLYTRKEIERIIRLDPSLIKVIEQAFTSLVTKKVTMPPIMRIDVPEHNGEVDIKSAFIEGEDSFAVKLSSGFFNNPSLGLPTSGGMMILLNSRTGQPLAVLADDGMLTDLRTAAAGAVGAAYCSRKGARRAGIIGTGAQARLQLKALTFVRPIDHVYVYGRRVEQAEAYKKEMEKELSLPVTICSSVKEAVAESDIVVTTTPSRKPLIFAEWMKPGLHITAMGSDAEHKQELDHGVLEKADSITCDVIHQSERLGELRGAAALKSPVMELGELTSGRKQARTSDEEITVCDLTGTGVQDTAIARFTWNALNNKGDDHDERSQNEHQIHLGR				NA	NA	NA	NA	NA
AK012_01622	1194		COG0626	L-methionine gamma-lyase	ATGAAAGAAGCCAAAATGAGCACCAAATCCATCTGGGCCGGTGAAAAGGAACAGCTGGCATTCGGAGCCACACAGGTACCTGTCGTCCACAGCGTATCCTTTGGATATGATGACATGGATGAGTGGTACGACGTAGCGGTAGGCGCCAAGCCCGGCCATATTTATGGTAGAAACACCAACCCGACGGTTCAGGCTTTTGAAGATAAAATCCGCGTTTTGGAGGGAGCAGAGGCAGCCACAAGCTTTTCTACAGGCATGGCGGCGATCAGTAATACGCTGAGTACGTACCTGTTCCCTGGAGACAGAGTAGTTTCCATCAAAGATACGTACGGCGGAACGAATAAGATTTTTACAGAATTTCTTCCTAAACAGCAGGTGGAGGTCGTTATTTGTGAGACCGGGGATCACGCATTGATTGAAGAGGAGGTCGCCAAAGGGTGTAAGGTGCTGTACCTGGAAAGCCCGACCAATCCGACGGTGAAGATTACAGATATCAAACGGATGGCAGCGGCAGGCAGAGCTGCCGGTGCGCTTGTCATCGTTGATAATACATTTGCGACACCGGTGAACCAAAACCCGCTGGAGCTGGGGGCTGACCTCGTCATTCACAGTGCTACGAAGTTCCTTGGCGGTCATGCCGATGCGCTTGGAGGAGCAGTCTGTGGCAGAAAAGAGCTGATTGAACCCATTTACCATTACCGCGAAATTAATGGAGCCACACTCGACCCGATGGCGGCGTATCTTCTGCTGCGCGGTATGAAAACACTGAAGCTGCGTGTTGACCAGCAAAATAAAAATGCGGCAGCCATCGCTGAGTACTTGAAATCCTTTGATGAAGTGGAGACCGTATTTTATCCGGGGCTTCCTGAACATCCGCATCATCAGACAGCCAAAGAGCAGATGAGAGGTTTCGGAGGAATGCTCAGCTTTTCTGTTAAAGGTGGAATCGCAGGCGTTCGTGATTTGCTTCCCAAGTTGAAATACGCCAACAGAGCAGCGAACTTAGGGTCTGTAGAAACTGTTGTCGGTCCTTCAAGAACGACCAGTCATGTGGAGTGTACACCGGAAGAACGAGCTGCTATGGGTATTCCCGAAGGTTTGATCCGCTATTCTGCAGGAATTGAGGACATTGAGGATTTGAAGGAGGACTTAGCCCAGGCGTTTCAGTCTACAAAAAGCTGCGTCAAGCCTTAA	MKEAKMSTKSIWAGEKEQLAFGATQVPVVHSVSFGYDDMDEWYDVAVGAKPGHIYGRNTNPTVQAFEDKIRVLEGAEAATSFSTGMAAISNTLSTYLFPGDRVVSIKDTYGGTNKIFTEFLPKQQVEVVICETGDHALIEEEVAKGCKVLYLESPTNPTVKITDIKRMAAAGRAAGALVIVDNTFATPVNQNPLELGADLVIHSATKFLGGHADALGGAVCGRKELIEPIYHYREINGATLDPMAAYLLLRGMKTLKLRVDQQNKNAAAIAEYLKSFDEVETVFYPGLPEHPHHQTAKEQMRGFGGMLSFSVKGGIAGVRDLLPKLKYANRAANLGSVETVVGPSRTTSHVECTPEERAAMGIPEGLIRYSAGIEDIEDLKEDLAQAFQSTKSCVKP	PGPT0020020_813	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
AK012_01623	1185	scmP_2	COG1473	N-acetylcysteine deacetylase	GTGAAAACCAGAAACCCGGACTTGGCCCTTAGATCACGGCAGTTATTTGAACAGCTGGTCATCTGGAGGAGGGATTTCCACCGCCACCCTGAACGCAGTTTTCAGGAAAAGCGGACGAGTGAAACGATCGCTGCCGAACTTAGAAAACTTCCGCTCTATGATGTGGAGGAGATGGTGGGCGGCTATGGTGTGGTCGCTGCGATCAGTCATGGAGAGGGCCCGGTTATCGGTCTGCGGGCGGATATGGATGCACTTCCGATCCAGGAAACGACCAGCCATTCTTTTTCTTCTTTGTATCCTGGCGTGATGCATGCCTGTGGACATGATGCCCATATGGCTGTGCTGCTCGGTGCCGCCCGGCTGCTGCATGAGGATGCTGTGCAGGGGAATTTCAACGGCACGGTGAAACTGATCTTTCAGCCGGCAGAAGAGTGCTGCGACTCCGCAGGGGAAACAGGGGCTGTGAAAATGCTGCAGACCGGCAGGCTGGATGATGTTCAAAGGCTCTTGGCGCTTCACATGTGTCCGTGGCGTAAAACCGGGGAAGTGCAGTGGCACGACGGGCCGAGCATGGCGAACAATGATGAATTTTCTATTGTTATCCACGGCTCCGGAGGTCATGCCGGTTATCCCCAGCATGTAAACGATCCAATTTGGATCGCTTCGTCTCTGCTGGGCGCTTTATACAGCCTGAATGGCCGGCGCATGGACCCCCTGGATATTGGGACGCTCAGTATTGGGAAGATCGAAGCGGGTGAAGCGGGAAATATTATTCCAGACCGGCTTTTGATCAAAGGGACGATCCGCTCTTACAAGGAGTCCGTGAGAAATAAGCTGGTGAAGGATCTGAAGCAGACTGTGACCTTAGTGACGGCTCTTGGTGGGAGCTATGATCTTTCTGTTCAGCGGGGTGAACCCGCTTTAGTGAACGATCCGGAGGTTAATAGGGCAGTAAGAAAAGCGGCATCCGATTTTAAGCTTATTGAAGAGCCCTTCGGTATGGGAAGTGAAGATTTCAGCTACTACACAAAAACCATACCCGGGGCCATGTTTTTCTTAGGGTGCGGGCTGACGGAAGAAAAAAGTCTGCATCAATCCGATTTTGATTTGGACGAACAAGCCCTGCCATTTGGGGTGCAGGTGCTTTTGGGCAGTGCTTACGAACTATTAGAGCGAGGAGGATGA	MKTRNPDLALRSRQLFEQLVIWRRDFHRHPERSFQEKRTSETIAAELRKLPLYDVEEMVGGYGVVAAISHGEGPVIGLRADMDALPIQETTSHSFSSLYPGVMHACGHDAHMAVLLGAARLLHEDAVQGNFNGTVKLIFQPAEECCDSAGETGAVKMLQTGRLDDVQRLLALHMCPWRKTGEVQWHDGPSMANNDEFSIVIHGSGGHAGYPQHVNDPIWIASSLLGALYSLNGRRMDPLDIGTLSIGKIEAGEAGNIIPDRLLIKGTIRSYKESVRNKLVKDLKQTVTLVTALGGSYDLSVQRGEPALVNDPEVNRAVRKAASDFKLIEEPFGMGSEDFSYYTKTIPGAMFFLGCGLTEEKSLHQSDFDLDEQALPFGVQVLLGSAYELLERGG				NA	NA	NA	NA	NA
AK012_01624	1053	hom_1	COG0460	Homoserine dehydrogenase	ATGCCTGTAAAAATCGCTTTTATCGGTTTTGGGGGAGTAGGGCGTGCGCTTGCGGAAATCATTGAAGAAAAACGATCCCGGCTCAAGCAGCATTATGGACTGGATGCCGTCGTTATCGGAGTCAGCGACTTAATGAAAGGGTCGGTATATCACCCGGAAGGACTTGATATCCCTGTTCTTTTGAAAGGGCTCAACGATCATGGGACTGTGGAAGGCTACCCTGATCGGGCAGGGGTTGTGAAAGGCTGGGACAGCATAGAGATGATTGATCACTCTCATGCAGATGTCATCGTTGAAGTCACATATACCAATGTGGAAACAGGTGAACCTGCATTGAGTCACTGCCGCCGGGCTTTGGATCAAGGGAAGAGTGTGATTACGACGAATAAAGGTCCTGTCGCCCATGCGTATAAGGAATTGACTGAAAAAGCGTCGGAAAAGGGGGCCTTTTTTGGCTTTGAAGGGACAGTAATGAGCGGGACACCGGCGCTGCGGCTTCCAGAGCAGACCCTTGCTGGAAATACGATTCATAAAATCCGGGGTATTTTAAACGGTACGACCAATTATATTTTGTCGGAAATGGAAAAAGGGCTGACGTATCAAGATGCGCTCAAGCAGGCGCAGGACCTGGGGTATGCAGAAGCCGACCCTGTCAGTGATGTGGAAGGCTATGATGTCCGCTATAAGCTGGCCATCCTGTCGAGTCATGTTTTCGGTGTGCCTTTGTCCCCGGACGACATTTCCTGTACAGGTATCACAGGTGTGACAGCGGCTGACATACAGGAAGCTGACAAAGCGGGAGAGAAGTGGAGGCTGATTGGTACGCTGGACTGGAACGGTGGACGCGTCACAGGAACTGTCCAGCCGGAACGCGTGCCTCAACAGGAGCCCCTCGCTGGTGTAACAGGAGCTTTGAACGCTATTTTATATGAGTGTGACATGTCCGGACCAATATTTATGACAGGCGCCGGGGCAGGACTGAAGGAAACCGGATACGCGCTGTTGATTGATCTGATCCATTACCATAAGCAGCAATCGAAAATAAATGTTTAG	MPVKIAFIGFGGVGRALAEIIEEKRSRLKQHYGLDAVVIGVSDLMKGSVYHPEGLDIPVLLKGLNDHGTVEGYPDRAGVVKGWDSIEMIDHSHADVIVEVTYTNVETGEPALSHCRRALDQGKSVITTNKGPVAHAYKELTEKASEKGAFFGFEGTVMSGTPALRLPEQTLAGNTIHKIRGILNGTTNYILSEMEKGLTYQDALKQAQDLGYAEADPVSDVEGYDVRYKLAILSSHVFGVPLSPDDISCTGITGVTAADIQEADKAGEKWRLIGTLDWNGGRVTGTVQPERVPQQEPLAGVTGALNAILYECDMSGPIFMTGAGAGLKETGYALLIDLIHYHKQQSKINV	PGPT0020155_3925	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
AK012_01625	1443	gabD_2	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)] GabD	ATGAAAACAAATCACATCATTGAAAAAATGCTGTGCGCAGGAAGGTGGATGGAGGCAGCCTCTACTTTTCCTGTCTACAACCCACAGGACGGGCGTGTAATCGCCGAAGTACCTTCAGCATCAAAAACAGATATGGAAGAAGCTGTGGAAGGTGCGCATCGTGCTTTTTCTGCGGGGAATCCCTGGCCGACTCATGAGCGGATGAATGTGCTGAAGAAAGCAGCGGACTACGTGCGGGGGCATCGGGAATCGTTCGCTGAAGTGATTGCCATGGAAGGCAGCAAGACCATCACAGAAGCCCGGGGAGAAGTGAAGCGGACGATTCAAACGATCGAAATCAGTGCCGAGGAAGCCCGGCGTTTAAAAGGGGAAACCATCAATTTTGATCAGAATGAAGGCAGTGAAAACAGAGTCGGCTATTACCAGCGCTTTCCGATAGGTGTGATCGGGGCGATCACGCCGTTCAATGATCCCCTTAATTTAGTGGCACATAAAATCGGCCCTGCGATTGCTGCGGGAAACGCTGTGGTCCTGAAGCCGGCCTCGGTTACTCCATTGAGCGCCTTGAAGCTCGCAGAGGCCTTTACAGCCGCCGGTCTTCCTGAAGGCTACCTTTCTGTAATCACGGGATCTGGAAAAGATATTGGTGATGCGTTGATTACCCATCCGGCCGTCCAGATGATTTCATTTACCGGCGGTCCTGAAGCAGGAGAAGCCATTACGAAAAAAGCAGGGGTAAAGAAGTTGAGTATGGAACTCGGATCCAATTCCCCTGTCATCGTCTTACAGGACGCCGACAGGGAAGCGGCTGTGAAGGCCTGTGTCTCCGGCGCTTTTTCAGCCGCTGGTCAAAATTGTATCGGCGTTCAGCGGATCTATGTGGAAGAACAGCAGTACGGAGCCTTCCTGGATGAATTCGCAGCAGCGGCGGCTGCTCTGAACGTGGGCGATAAAATGGATGAAACTACAGATGTCGGGCCGATGATCCAGGAAAAAGAAGCAGTGCGGGTGGAAAACTGGGTGGAGGAAGCTGTCGATGAGGGAGCGGAAATTGTTCTGGGTGGAAAGCGGGATGGAACCTTTTACTATCCAACCATCCTTACCGGAGTTCCGCACGATGCAAAAGCAGCCAGGGAGGAGATTTTCGGGCCGGTCGTCCTGGTCCACCCGGTCAGAAGCCTGGATGAAGCCATTGAATTATCCAATTCCGTGAATTACGGCCTGCATGCAGGGATCTTCACCAATAACATCCAAAAAGCGTTTGAAGCTGTTCAGTATATGGATGTTGGTGGTCTTATGATCAATGACAGCAGTGATTACCGGATTGATGAGATGCCGTTTGGCGGAACGAAAGGCTCGGGAATCGGCCGTGAAGGTGTCCGCTTCAGCATGGAGGCGATGACGGAACAGAAAGTCGTCTGTTTTCAATTGAACAGCCGTTAA	MKTNHIIEKMLCAGRWMEAASTFPVYNPQDGRVIAEVPSASKTDMEEAVEGAHRAFSAGNPWPTHERMNVLKKAADYVRGHRESFAEVIAMEGSKTITEARGEVKRTIQTIEISAEEARRLKGETINFDQNEGSENRVGYYQRFPIGVIGAITPFNDPLNLVAHKIGPAIAAGNAVVLKPASVTPLSALKLAEAFTAAGLPEGYLSVITGSGKDIGDALITHPAVQMISFTGGPEAGEAITKKAGVKKLSMELGSNSPVIVLQDADREAAVKACVSGAFSAAGQNCIGVQRIYVEEQQYGAFLDEFAAAAAALNVGDKMDETTDVGPMIQEKEAVRVENWVEEAVDEGAEIVLGGKRDGTFYYPTILTGVPHDAKAAREEIFGPVVLVHPVRSLDEAIELSNSVNYGLHAGIFTNNIQKAFEAVQYMDVGGLMINDSSDYRIDEMPFGGTKGSGIGREGVRFSMEAMTEQKVVCFQLNSR	PGPT0018005_590	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATES-GLYCOLYSIS|GLUCONEOGENESIS,PGPT0018005-gapN-K00131	NA	NA
AK012_01626	777			hypothetical protein	ATGAGGAAGAATATCCTTATGATCTTATCAGTCATCATGCTGATCGGCTTGCTGGCTGCTTGTAATACAACAGAAGAACGTGCGCGTGAAAGTCAGCGCAACAACTTGAACCAGGTTACTTTTGATCCGGAAGACGAGAACATGCAGCAGGAACAAAGGTATGCTGTAGATCCCCGTTCCAATGAACAGAGCCGCTTTGATGCCAACGTTTATTTTGAGGGCATCAATCCTAATGGTCCGAATGGGACGATGGAAGGCCCGTACTTTTTTGATCAGGAAGGCCGGTATGACCAGCGTCAGGCTGCACCATCCGGGGATAACCAAGGACAGCCCGACTCTGCTGAACGAAACAATAAACAGGCGGAAAAAGACACCACTCCAAATGAAAGCCAGAGTGCATCCGGTGATTTTCAGAAGAAAGTCATTGAGTTAACGAACGAAGCCCGCAAAAAGAATGGGCTGAAGCCATTGAAAAATAGTGCGGAAGTTGAAGAGGTTGCCCAGGTGAAGTCAGAGGATATGGCGGAAAATGATTACTTTTCCCATACGTCTCCAACCTACGGCAGTCCGTTTGATATGCTGGAGGACTTTGATGTCGACTATTCTACAGCGGCTGAAAACATTGCGGCAGGACAGCAGTCTCCGAAATCCGTTGTGGATGGATGGCTCAATAGTTCCGGTCACAGGAAAAACATCATGAATAACAGTGTCACCCATATTGGCGTCGGCTATGCCAAGGATGGCAACTACTGGGTGCAGATGTTTATAGCGAAATAA	MRKNILMILSVIMLIGLLAACNTTEERARESQRNNLNQVTFDPEDENMQQEQRYAVDPRSNEQSRFDANVYFEGINPNGPNGTMEGPYFFDQEGRYDQRQAAPSGDNQGQPDSAERNNKQAEKDTTPNESQSASGDFQKKVIELTNEARKKNGLKPLKNSAEVEEVAQVKSEDMAENDYFSHTSPTYGSPFDMLEDFDVDYSTAAENIAAGQQSPKSVVDGWLNSSGHRKNIMNNSVTHIGVGYAKDGNYWVQMFIAK				NA	NA	NA	NA	NA
AK012_01627	702	lipC	COG2755	Spore germination lipase LipC	ATGAAGAAGATAGGACTTCTGCTGTTTCTGCTTCTCTGGATGACGGGCTCAGCCCATGTCTATTCTTCTGAAAAGCAGATCACAGCGCTCGGCGATTCCATCCCATATGGGTATCAGCTGACACCGGGAAACAAACAGGCCTCCCCTCAAGCTTTCCCCTATTTAATTGGGGAAAAGAGTGGGATGGCGGTTCATAACCTCAGCGTTCCGGGATTAACATCAGGTGAACTGCTTCAGGAGTTGAAAACGAATAAGGCAGTCCGCAAGACTGTAGCCGATTCGGATTATGTTCTTCTTTATATAGGGGGGAATGATCTGTTGAATTTCCTGAAGCAGAACGATCCTGGTCATGGAGTGGATTTGGATAAAGCGGCTCCCGTCATCAGGGATCTTATCTACAATGTATATTCGACGATTCTGGAAATTGACGGCCTTACAAACGGGAAAATCCTTGTCTATAACCTGTACAATCCATATCCGGCCGCCTCTGATCAGTTGAATGCCCCTCTGGCCTACATTAATCAGCAGTATCAATCGCTCGTTCAATTAGTCCGGCATTTTGCGTCTGTCACGTTAATTGACGCTTATGAAGCGTTTGACGGACATCCGGAATATATCATTGAAAGAGATGTACACCCGAACAAAAAGGGGCAGGAAAAGCTCGCTGAACTGGGCTGGAATCAATTGAAAAAGAAGCCGTAA	MKKIGLLLFLLLWMTGSAHVYSSEKQITALGDSIPYGYQLTPGNKQASPQAFPYLIGEKSGMAVHNLSVPGLTSGELLQELKTNKAVRKTVADSDYVLLYIGGNDLLNFLKQNDPGHGVDLDKAAPVIRDLIYNVYSTILEIDGLTNGKILVYNLYNPYPAASDQLNAPLAYINQQYQSLVQLVRHFASVTLIDAYEAFDGHPEYIIERDVHPNKKGQEKLAELGWNQLKKKP	PGPT0001840_758	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-BUTYRIC_ACID_BIOSYNTHESIS,PGPT0001840-tesA-K10804	NA	NA
AK012_01628	984	iolU_1	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	GTGGTGAAGTTTGCCATTATAGGTACGAATACCATTACCGAGAAGCTGATTGAAGCCGGGCGCAGTCATCCGGAGTTTGAATTAACAGGCGTTTATTCGAGAAACCAGGAGCGGGCCGATGCGTTCGCCGATCAATATGGAGCCCCGCTTCGCTTTACGAAAATAACCGATCTGGCCCTCAATGAAGAAATCGAGGCCGTATACATAGCCAGCCCGAATGCTCTTCACGCCGAGCATGCGGTCACTCTCATGAAGCACGGAAAACATGTGCTCTGCGAAAAGCCGATGGCGTCCAACCAGAAGGAAATTGCCGGGATGATTGATACCGCGAAAAATCAGAATGTCGTGCTGATGGAAGCCATGAAATCCACACTGATGCCGGGATTTGCAGCGGTGCAGCAGCATCTGCATAAGCTGGGTCCGATCCGCCGGTACGTTGGGAACTTTTGTAAGTACAGCTCCCGCTATGATGCGTATAAGCAGGGAGAAGTGCTGAACGCATTCAAGCCTGAGTTATCCAATGGCTCATTGATGGACTTAGGGATTTACGGTATTTATCCGATGGCCGTATTATTCGGAGCTCCGCGCTCGATTAAAGCCAGCGGTCTGTTTCTGGAAACCGGCGTTGACGGCCAGGGCTCTGTCACAGTGGACTACGGAAATATGGAAGGTGTCGTGATGCACTCCAAAATTATTGATTCTCATGCCCCTTCGGAGATTCAAGGGGAAAAAGGGACCATGATCATTCCGAATATTTCTGAGCCGGACCATATTCATATCCTATATCGAGACGGGACGCGGGAGGAGCTGGACGTCGAGAATGGGTACCATCCTATGTATTACGAAGTGGCCGAGTTTATCGATGTCATTCAACAGGGAGCGGAACAATCTGCTGTGAACTCTTTCGAACATACATTAATCACCGCCCGCATCATGGAGGAAGCCCGCAGGCAGATCGGTCTGCAGTATCCAGCTGATGAATGA	MVKFAIIGTNTITEKLIEAGRSHPEFELTGVYSRNQERADAFADQYGAPLRFTKITDLALNEEIEAVYIASPNALHAEHAVTLMKHGKHVLCEKPMASNQKEIAGMIDTAKNQNVVLMEAMKSTLMPGFAAVQQHLHKLGPIRRYVGNFCKYSSRYDAYKQGEVLNAFKPELSNGSLMDLGIYGIYPMAVLFGAPRSIKASGLFLETGVDGQGSVTVDYGNMEGVVMHSKIIDSHAPSEIQGEKGTMIIPNISEPDHIHILYRDGTREELDVENGYHPMYYEVAEFIDVIQQGAEQSAVNSFEHTLITARIMEEARRQIGLQYPADE				NA	NA	NA	NA	NA
AK012_01629	363			hypothetical protein	ATGGAAAGCAGAGTCGGCATTAGTGTCACACTGGAGGTCGTCTGTGGGAAATGGAAAGGGTTGATTCTCTGGAAGCTTCTGCAGGATGGATCGCTGCGGTTCAATGCACTCCGCCGTTCTCTTGATGGGAATATTTCTTCACGGATACTGGCACGAGAGCTGAAACAGCTGATGAATGACGGACTTGTGGAAAGAATGGACCATCAGACCGTCCCGCCTCATGTTGAATACCGCTTATCCTCCTACGGCCGGTCAACGGCTTCCTTTCTCCACGCTATGAACCAGTGGGGAATCAAGCACCAGGAAGAGATGCGGGCGGTGCAGCCCTACCCCGGCCGGACAGGTGACGAATCCACATCTTAA	MESRVGISVTLEVVCGKWKGLILWKLLQDGSLRFNALRRSLDGNISSRILARELKQLMNDGLVERMDHQTVPPHVEYRLSSYGRSTASFLHAMNQWGIKHQEEMRAVQPYPGRTGDESTS				NA	NA	NA	NA	NA
AK012_01630	192			hypothetical protein	TTGGACAATATAAAGCCTATTTTTCCCGTCACGGAAGAATTACTAGAACTTGTGGACTTGTTGAATCAGATATCTCCATCAGAGGAAGAGAAAATCATTCCTCAAACGATGACGGTATTAAATAAAGTATATGCCCAGGGCATCATGGAAGGCTACGAAAAAGCCATGCTGAAGCAGGGGCAGAAAAAATAA	MDNIKPIFPVTEELLELVDLLNQISPSEEEKIIPQTMTVLNKVYAQGIMEGYEKAMLKQGQKK				NA	NA	NA	NA	NA
AK012_01631	1713		COG1132	putative ABC transporter ATP-binding protein	ATGAAACGAATATTTTCTTATGCGCATCCTTATAAAAAATCCGCTGCCATCGCTTTAATGCTCATGCTGATTGAACTGGTCGTCGAACTGACTCAACCCGTACTTATGGCGAAAATCATTGACGATGGAATCGTCACAGGTGATTTGTCGGCGGTCACTTTCTGGGGCTTGGTCCTGCTCGGTTTATCGGCTGCCGCTTTTGCCGCCGGGATAACGAACTCCTTTTATGCTGCGGATTTCAGCCAGGGGGTTGGACATGATCTGCGCCGGGACTTATTTGAGAAAGTCCAGTACTTTACTGATGAACAGTTTCAAACAATTTCAACCCCGAGCCTGGTCACAAGAATAACGAATGATGTGATCCAGCTGCAGTCCCTGCTCTTTATGCTGGTCAGAATCGGCCTCCGTGCCCCTTTGTTTATCATTACCGCCCTTATCATGGCGCTGACCATTGATGTACGGCTTTCGTTGATATTGATCGGGTGTGTTCCTGTGTTTCTCCTATTCTTGTTTTTCATTTTAATCAAAGGAGTCCGGTACTTCAAAAAAGTGCAGGAGAAACTCGATGCTTTGAACAGTGTGATCAGACAAAACTTATCCGCCGTCCGGCTTGTGAAGGGATTCAATCGTAAAGATTATGAGGAAGAGCAGTTCCGTACGGCCAATGCGGAGCTCGTCGATCAGAATAAAAAGGCGCTCTGGTTGATGGAAACGGCTATGCCGATGGTGATGTTCGGGATGAATGCGGTCATTCTTATTCTGCTCTGGACAGGCTCCGGTTTTCTGAGCCTCGGAAGCCTGCAGCCCGGTGAACTCGTAGCCATCATCAACTATGCGACAAGAATCCTTTTTACGTTTTCTGTTTTTACTTTCCTCATTATTATGGTTTCCCGGGGCCAGGCCTCTGCCGAAAGGGTGGAAGAGGTCCTTTCGTCGTCTGTGGAAAATGGTCGATGCATGAATTCCGGTCGACTTGATAAAGTCCAGGGCGGAATCCATTTTCTTGATGTATCTTTCCAGCGGTCGGGTCATCAGATACTCAGGGACATATCCTTTGAAGCTGAGAGTGGGAGCACCGTGGGAATCATTGGAGAGACAGGCGCAGGTAAAACCTCTCTCCTTCATTTAATACCCCGATTATATGAAAAAGAATCCGGGCAGATTCTTTTTGATGGAAGGAATGTGGAGGCATATGCCTTACAGGCGTTAAGACAGTCCGTCAGCCTCGTTCCTCAGGAGGTCCAATTGTTCTCAGGAACGGTTCGTGAGAATATCGGCTGGGGAAAGGAAGGGGCCTCCGAAAAAGAGATCAAGGAGGCAGCTGCTCAAGCGCAGATTGCTGAATTTATCGAATCGCTTCCTGAAGGATATGATACTCAAATCGGACAGAAGGGGGTTGTTTTTTCCGGCGGACAGAAACAACGGTTATCCATTGCCCGGGCTTTAGTGCGGAAACCCTCGATTCTGCTGCTGGATGACAGCACCAGTGCGCTTGATGCCCATACCGAACAACAGCTCATGAAGAGTCTGGAAAATCAGTCCTGTACGGTCTTTCTTACAGCTCAGAAGATCAGTTCCATCCAGCAGGCCGATCTGATTCTGCTGCTGGATCAAGGGGGGATTGCTGCGAAGGGCACGCATGAGGAACTGCTTGAAACCAGTGTCTACTACAGGCAGGTCTTTGAGTCACAGAAAGAAGGGGTGATGTCATGA	MKRIFSYAHPYKKSAAIALMLMLIELVVELTQPVLMAKIIDDGIVTGDLSAVTFWGLVLLGLSAAAFAAGITNSFYAADFSQGVGHDLRRDLFEKVQYFTDEQFQTISTPSLVTRITNDVIQLQSLLFMLVRIGLRAPLFIITALIMALTIDVRLSLILIGCVPVFLLFLFFILIKGVRYFKKVQEKLDALNSVIRQNLSAVRLVKGFNRKDYEEEQFRTANAELVDQNKKALWLMETAMPMVMFGMNAVILILLWTGSGFLSLGSLQPGELVAIINYATRILFTFSVFTFLIIMVSRGQASAERVEEVLSSSVENGRCMNSGRLDKVQGGIHFLDVSFQRSGHQILRDISFEAESGSTVGIIGETGAGKTSLLHLIPRLYEKESGQILFDGRNVEAYALQALRQSVSLVPQEVQLFSGTVRENIGWGKEGASEKEIKEAAAQAQIAEFIESLPEGYDTQIGQKGVVFSGGQKQRLSIARALVRKPSILLLDDSTSALDAHTEQQLMKSLENQSCTVFLTAQKISSIQQADLILLLDQGGIAAKGTHEELLETSVYYRQVFESQKEGVMS	PGPT0029025_2622	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029025-efrA-K18887	NA	NA
AK012_01632	1809		COG1132	putative ABC transporter ATP-binding protein	ATGAATCGTCAGGAAACGGGGAGAGGGCGTCATCACTCGATTGGGATGCCGAGGGAAAAAGCCGGTCATTTCGGTTCGACATTGAGACGGATTTGGAGTTATATGAGCGGACACAGAGCTGTTTTTTTCCTCGTGTTAACGGCGATTGTACTAAGCGCCGGTTTATCGCTGCTGGGCCCTTACCTGCTTGGAAGAACGGTGGATGCCATCATTGATGATCCAGATGGAGGCCGGCTGATGACCTTCCTTGGACTTCTGCTGGTCGTGTACCTGCTGCACTCGGTCTTTTTGTGGCTCCAAAATTACTGGATGATCGGGATTGCTCAGGAGGCTATCCAGCGTATGCGGGATCAATTATTTGCTCACGTGCAGCAGCTTCCTGTCGTGTATTTTCAAAATATGCCGCAGGGGGAATTGATGAGCCGTCTTACGAATGATATTGAAAACGTAAGCCGGACATTAAACACTGCTGTCGTTCAATTTGTTACCAGCGTATTGACCATTGTGGGCACTGTCGGAATGATGCTCTGGCTCAGCCCGGTCCTGACGCTGTTGACATTGACGATTGTTCCGGTCATGTATATTGGTATGAAATGGATTACGAACCGGACAGGTCCTTATTTCAAAAAACAGCAGCGGCATCTGGGTGATGTGAATGGATATGTAGAGGAGATATTTACAGGACAATCCATCGTAAAAATGTTCTCAAGAGAACAGCACGTGATCAATGATTTTGCGAAAAAGAATAAGGCACTGAGAGAGTCCGGCTATTATGCCCAGGTGTACACCGGCTTTATCCCGAAGCTGATGAACATGCTGAATAATGTCAGCTTCGCCATTATCGTAGGAGCAGGCGGTCTTCTGGCGGTCAATGGATGGATCTCCATTGGAATCATGGTCACTTTTACGACCTACTCCCGACAGTTCACGCGTCCGCTGAATGATCTCGCCAACCAGTTTAATATGATCTTGTCGGCTGCTGCAGGGGCAGAGAGGGTTTTTCAAGTTATGGATGAACATGGGGAAACCAGTGACGAATCACAGGCTGTATCCATTCCGCTGAAGGGAAAAGTGGAATTCCAGGACATCTCTTTTGCCTATAAGGAAGGACAGGACACGTTGAAACACATCAGCTTTACAGCGGAACAGGGTCAGACTACAGCCCTTGTTGGAGCTACCGGAGCAGGGAAGACGACCGTGATCTCCTTGTTATCCCGATATTTTGAACCAAGCGGTGGGAGGATTCTTTTGGATGGTACAGATTTGAATGAAATCCGCCGGGACAGCCTGCGCAGTCAAATGGGTGTCGTCCTGCAGGATGCCGTAATGTTTAACACAACGATCCGGGAAAACATCCGGTACGGACGTCTCGATGCTTCAGACGAAGAGGTGGAGCGTGCTGCTGCTTCCGCTCACGCGCATGATTTTATCGTCCGGCTTCCTGATGGATATGATACGAAGCTTGATTCAGATGGGAAAGGGATCAGCCACGGACAACGTCAGCTTCTTTCCATCGCCAGGGCGATGATTGCTGATCCTGTCCTGTTGATTCTTGATGAAGCGACGAGCAGCATTGACACCGTCACCGAAATGAAAATCAATGCAGGCCTGGCGGAATTGATGAGAGACAGGACCAGTTTTGTCATTGCCCACCGGCTGCACACGATCCGGTCGGCTGATTTGATTCTTGTTATGGAGAAAGGGGCGGTTGTGGAGCAGGGGACACACACATCCTTGATGGAACAAGGCGGAAAATATGCCGATCTGATCCATGCTCAGTCCGGAGGGAAGCGTTCAACAGCCCGGTGA	MNRQETGRGRHHSIGMPREKAGHFGSTLRRIWSYMSGHRAVFFLVLTAIVLSAGLSLLGPYLLGRTVDAIIDDPDGGRLMTFLGLLLVVYLLHSVFLWLQNYWMIGIAQEAIQRMRDQLFAHVQQLPVVYFQNMPQGELMSRLTNDIENVSRTLNTAVVQFVTSVLTIVGTVGMMLWLSPVLTLLTLTIVPVMYIGMKWITNRTGPYFKKQQRHLGDVNGYVEEIFTGQSIVKMFSREQHVINDFAKKNKALRESGYYAQVYTGFIPKLMNMLNNVSFAIIVGAGGLLAVNGWISIGIMVTFTTYSRQFTRPLNDLANQFNMILSAAAGAERVFQVMDEHGETSDESQAVSIPLKGKVEFQDISFAYKEGQDTLKHISFTAEQGQTTALVGATGAGKTTVISLLSRYFEPSGGRILLDGTDLNEIRRDSLRSQMGVVLQDAVMFNTTIRENIRYGRLDASDEEVERAAASAHAHDFIVRLPDGYDTKLDSDGKGISHGQRQLLSIARAMIADPVLLILDEATSSIDTVTEMKINAGLAELMRDRTSFVIAHRLHTIRSADLILVMEKGAVVEQGTHTSLMEQGGKYADLIHAQSGGKRSTAR	PGPT0029030_1722	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029030-efrB-K18888	NA	NA
AK012_01633	897			hypothetical protein	ATGTCCCGTAATCACAATTATCCACTTTGGACGGAGCTGCCTTATGCAGGAGAGGATCATCCTCCGACGCTCGATTCCGGTGTTGAAGTGGAAGCCGGTGAATGGAAAACCTATTTTATTCACCACAGCCGCCGTCATGGGTTCAAGAGACTGGATGGAAGCCCGATCCGTTTAATGATTCAGGACCCGGGCACTATCCACTGGCAGGAAGAGTTGAAGAAAGTAAAACAGGTACTGGCTGGTTTGACGGATCATGATATCCGCGTAGCGAAATACTGGGGGGAAGGCCCGGCTTCCAAGCAGTGGCTTCCAATTGCCGACCGGCTGATCGACACGTATGGTGTGGAAGCTCCGCGTGCCGCCCGCATGCTGGGGGCCTTGTTCAGCGGGATGAATGATGCGTTCGTTGTCTGCTGGTCTTTGAAGTACAAGTGGCTTGTGCCGCGTCCGAATCAGCTCGATCCATCTCTTTCAACCGTCATCTGTACACCGGATCATCCATCGTATCCGTCCGGTCACGCCACCATCTCCGGAGCCGCAGAAGCCATACTATGTTACTTCTTCCCGGCAGAAAGGAAAAAAATCCGGGAGCTGGCGGAAGAAAATGCCCGGTCACGACTGCTGGCTGGAGTGCATTATCCGGTCGACAACGACCAGGGGCTTCGGCTGGGTCGTCAGATCGGGAGTATTGTTGTTGATGAGTTGAAGAAGGATGAGGTCAACGGCCGGCCGCTTGACCGCCCTTTTACGCAGTATAGAAATGCCGATCTATTTCCCACTGATTACACGCAGGCGATTCCATTTGATTATGATCAGCAGTGTCGTTCCCTGCTTCTCAGCGATGATGATGAATCATCGTCCTATACGGAATGGATTGATCCAAAGCTCTTTTTTTAA	MSRNHNYPLWTELPYAGEDHPPTLDSGVEVEAGEWKTYFIHHSRRHGFKRLDGSPIRLMIQDPGTIHWQEELKKVKQVLAGLTDHDIRVAKYWGEGPASKQWLPIADRLIDTYGVEAPRAARMLGALFSGMNDAFVVCWSLKYKWLVPRPNQLDPSLSTVICTPDHPSYPSGHATISGAAEAILCYFFPAERKKIRELAEENARSRLLAGVHYPVDNDQGLRLGRQIGSIVVDELKKDEVNGRPLDRPFTQYRNADLFPTDYTQAIPFDYDQQCRSLLLSDDDESSSYTEWIDPKLFF				NA	NA	NA	NA	NA
AK012_01634	456			hypothetical protein	ATGGAAGCATGGATATGGTCGGCGAAGAAAATCGGCCTGATTGGAGGAGCACTTGTCATTGCCCTGGCTGCTTATTTTATTGGGTCTTTCTTTTGGAAAGGAGCCGTTCTCACCTCTACAGCTCCAACAGGTGGAGAAGCAAGAGTTGTCCAGCTTGTGACAGGAGAATTCAAGGCTGAAAAAGCGGATGGAACAAAGATTGAAGCCTATCGCTGGGATCCCGGAACGATTTTCATGGAAAAAGGAGAGGATGTTCAGTTATCCATCTACGGTGTAAACGGAAAGGAGCATCCTTTTTATATTGAAGGTACAGAGATTAAGGGAGTCGTGGAACAGGGCAAGGAAACCGTGGTGGATCTACAGTTTGATAAGGAAGGGATTTACCGTCTTATCTGTACAACACACGCAGAGATTGACACCAATGGACCGATGATCGCTTATATTGTCGTCGATTAA	MEAWIWSAKKIGLIGGALVIALAAYFIGSFFWKGAVLTSTAPTGGEARVVQLVTGEFKAEKADGTKIEAYRWDPGTIFMEKGEDVQLSIYGVNGKEHPFYIEGTEIKGVVEQGKETVVDLQFDKEGIYRLICTTHAEIDTNGPMIAYIVVD				NA	NA	NA	NA	NA
AK012_01635	654			hypothetical protein	ATGGTCACTCTTCTTGCAGGGTCCATTGTACTCGGGTTGTCCATTGCAGCACCCGTAGGTCCTATTAATATAGAAATTATCCGGAGGGGGCTGGCGTTTGGCTTCTGGCCGGCTCTTTGTGTAGGGCTTGGCGGGATGTCTTCCGACTTGCTGTTGATGCTGGTCATGTTTTTAGGAGCGGGAGTCGTGCTGTCGTGGTCGTGGGTGCAGATCGCTTTGATGCTGCTTGGCTGTTTGGTTTTAACTCATGCTGGATGGACAAGCTTCCGTAAGCCTGTCGTATCCGAATGGGACGGGGAGAAAGAAAACCGGACGGAAGGCGGCGCCGCTTTGATCTCCTATGCCCGTGGAATGCTGATCGCCGGCACCAATCCAATGAATATCCTGTTCTGGGTAAGCATCTACGGGTCTGTGTTAAGCGGAGCGCTGCAAAAGGAGGATGTGTTTCATTCTTTCTTAATCAGCTCCATGGTCTTTATCGGAATCGGATTATGGAACATGAATCTCGCTTTTTTCGTTCATTTCAGCAGATCCATCATGACCTTTTCCCTGCTGAAATGGGTGCAGCGGGGAGCAGGACTGGTTCTCGTATTTTATGGAATGAAGTTCGGGTTGGAAGCTTGTCTTCTTATTGTGAGATCCGGATGGCTGTAG	MVTLLAGSIVLGLSIAAPVGPINIEIIRRGLAFGFWPALCVGLGGMSSDLLLMLVMFLGAGVVLSWSWVQIALMLLGCLVLTHAGWTSFRKPVVSEWDGEKENRTEGGAALISYARGMLIAGTNPMNILFWVSIYGSVLSGALQKEDVFHSFLISSMVFIGIGLWNMNLAFFVHFSRSIMTFSLLKWVQRGAGLVLVFYGMKFGLEACLLIVRSGWL				NA	NA	NA	NA	NA
AK012_01636	456	yvbK		putative N-acetyltransferase YvbK	TTGATCCACGAAGTAAAGATCCATAGAGCGGAACCGGATTCTTACATGGACATTCTTCTGCTGGCGGATGAAAGTGAAGAGATGATTCAAACGTATATGCATGAAGGTGATTTTCACATCATTACGGTAAACGGCAGAAACGCAGGTGGATGTTTATGTACCTATCCCGACAGCTCCACTATCGAAATCAAAAACATAGCTGTAAAAGAAGCGTTTCGCAGACAAGGGATTGGAAGAGCGGCTGTGAAAAAGATTGAAGAGTTTTACAGAAAGGAAGGAAGAACAGCTGTGATTGCCGGCACCTCCAATTCAAGCATTGAGAACCTGTCGTTTTACCAGAAAGCCGGCTTCCGTTTTCATTGCATAAAAAAAGATTTCTTCCTATCCTATCCAGAATCCTTCTATGAGAACGGCATCCAAGGCATCGACATGATTGTGTTCCACAAGAAGCTGTAA	MIHEVKIHRAEPDSYMDILLLADESEEMIQTYMHEGDFHIITVNGRNAGGCLCTYPDSSTIEIKNIAVKEAFRRQGIGRAAVKKIEEFYRKEGRTAVIAGTSNSSIENLSFYQKAGFRFHCIKKDFFLSYPESFYENGIQGIDMIVFHKKL				NA	NA	NA	NA	NA
AK012_01637	1305	iucD_2	COG3486	L-lysine N6-monooxygenase	ATGGAGCAACCAGAGAAGGTTTATGACTTAATCGGAGTAGGAACCGGACCCTTTAATCTCAGTTTAGCAGCACTTTCTGAGCCGCTGGAGGATGTAGAGGCACTGTTTTTTGAAAAACAGCCGGCGTTTGAATGGCACCCCGGCATGTTGATTGAAGGAACGAAAATGCAGGTCCCTTTTCTCGCTGACCTGGTAACAATGGCGGATCCGACCAACCCTTACAGCTTTCTGAATTACATTAATAAACAAGGACGGATGTATCCTTTTTATTTTCTGCAGCGTCTGGATATTCCGAGAAGAGAATATAATGATTACTGCCAATGGGCGGCTGAGCAGTTGTCCAGTTGTGTTTTTGGAAAAGAAGTCGTTGGGCTGACGCTTCAGGAAGAGAAATCATTGTATGCGGTCGAAGTCCAGGATGTCCGCACACAGGAGGTTCAAACGTATTACGCAGAAAATCTTGTGCTCGGTACAGGCAGTGTTCCTGTTATGCCGGCCTCATTCCGTGAAGTGGAGGGGGACGGAGTTTTTCATACATCCGAATTTCTAAACCATTATGATCGCTGCAGGAATGCGGAATCGATCACAGTCGTAGGTTCAGGACAGAGTGCAGCTGAAACGTTCCGAGAGCTTTTGAAAGAGCAGAGGAACGGGGGATACCGGCTGGATTGGATCACCAGGTCCCCGGGGTTTGAATCCATGGAGGAATCAAAGCTGAGTCTGGAGCATTTTTCTCCGGATTATGTGGATTACTTTTATCAGCTTCCCCAAAAGCAGAAGGATGACATCTTTGCCGGGCAGGGATTGTATTACAAAGGAATCAGCAATCATACCATTAATGATATTTACAATTTGTTATATGAGCATACAGTCGGACAGGAAACGTTAAACGTCGGATTGAAGGTGCTGAGTGAAATCAACAGGATCCACCGGAACGAAGCGGGTCATTATACGCTGGAAGGGCGTCATATACAGAAGGACGAAACATTCAGTCATGACTCTGAAGTAGTGATTGCGGCCACGGGGTATCAGCCATATGTGCCGGATTTTGTGAAGGAACTTACTGAACTATTGGAGTGGGATGATGATGGGCGTTATAAAGTAACAGAGGATTACCGTCTGGTCCAGAAAAACCAGGGTGCCAATCATATTTATGTCCACAGCGGCATCTCCCATACTCATGGCGTCGGTTCGACTAATCTTGGACTGTCGGTGCACCGGAATAAAGTCATTATCAATCACCTGACAAACAGGGACGTCTATCCTCTGAATGAAACGAATGTTTTTCAAACCTTTGATGTCTAA	MEQPEKVYDLIGVGTGPFNLSLAALSEPLEDVEALFFEKQPAFEWHPGMLIEGTKMQVPFLADLVTMADPTNPYSFLNYINKQGRMYPFYFLQRLDIPRREYNDYCQWAAEQLSSCVFGKEVVGLTLQEEKSLYAVEVQDVRTQEVQTYYAENLVLGTGSVPVMPASFREVEGDGVFHTSEFLNHYDRCRNAESITVVGSGQSAAETFRELLKEQRNGGYRLDWITRSPGFESMEESKLSLEHFSPDYVDYFYQLPQKQKDDIFAGQGLYYKGISNHTINDIYNLLYEHTVGQETLNVGLKVLSEINRIHRNEAGHYTLEGRHIQKDETFSHDSEVVIAATGYQPYVPDFVKELTELLEWDDDGRYKVTEDYRLVQKNQGANHIYVHSGISHTHGVGSTNLGLSVHRNKVIINHLTNRDVYPLNETNVFQTFDV	PGPT0031170_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BISUCABERIN__BIOSYNTHESIS,PGPT0031170-bsbB-NA	NA	NA
AK012_01638	1041	argC		N-acetyl-gamma-glutamyl-phosphate reductase	GTGTTGAAAGCAGGAATTGTAGGGGCAACAGGATACGGCGGCATGGAGCTGTTCCGAATCCTCAGTAATCACCCAGAGATCAATCAAATAACGCTGTACTCCTCATCAAGGGCAGGAGAGATTTATGAGGATATGTTTCCACAGTTTGCTGGAAACAGCCGTCATGAATTACAGGACCTTGACCCTGAAGAAATGAAAGCAGAGCAGGATGTTATCTTCCTGGCAGCTCCCTCAGGGGTGTCTTCAGGACTCTCGCCTGAACTACTTGGAGGAAAAGCGAAGGTTATTGATGTATCCGGAGATCTGCGCCTGCAGGACCCCGAAGCTTATCAGCAGTGGTACAAAAAACCGCCGGCACCGGTTGAAACGCTTGAGCAGGCTGTCTACGGACTGCCGGAATGGAACGCAGAAGCCATTCAGAATGGCGGATTGATTGCTAATCCGGGCTGTTACCCAACGGCTTCCCTGCTTGGTCTCGGCCCTGTCATCCATGAAGGGCTTGCGGACCCATCATCAATCATCATCGATGCCAAATCCGGTGTTTCCGGAGCGGGTAAAAATGCCAATCCATTGACGCATTTCGCTCATGCGCAGGAGAATTTCCAGATTTATAAGGTGAATCAGCATCAGCATATTCCTGAAATCGAGCAGCAGCTTTCCGTCTGGAACGGAGAGATGGGTCCGGTGACATTTTCCACCCACCTGGTTCCGATGACGAAAGGAATCATGGCTACGATCTATATGACTTTAAATGAAGAGAAGACAGCCGAAGAACTGCATTCTCTTTTTCTCAAATACTATGAATCCAAACCATTTGTCCGTGTACGAAGGCCCGGTGATTTCCCGGCTACAAAAGACGTATACGGATCCAACTATTGTGACATCGGGGTGACGGTCGATCCGAGAACGAACAGGGTGACCATCGTCAGTGTCATTGACAACCTTATGAAAGGTGCAGCCAGTCAGGCCGTTCAAAATATGAATCTATTATTCCAGCTGGATGAAAGAACAGGACTTGCTCCACTTCCTGTCTATCCCTGA	MLKAGIVGATGYGGMELFRILSNHPEINQITLYSSSRAGEIYEDMFPQFAGNSRHELQDLDPEEMKAEQDVIFLAAPSGVSSGLSPELLGGKAKVIDVSGDLRLQDPEAYQQWYKKPPAPVETLEQAVYGLPEWNAEAIQNGGLIANPGCYPTASLLGLGPVIHEGLADPSSIIIDAKSGVSGAGKNANPLTHFAHAQENFQIYKVNQHQHIPEIEQQLSVWNGEMGPVTFSTHLVPMTKGIMATIYMTLNEEKTAEELHSLFLKYYESKPFVRVRRPGDFPATKDVYGSNYCDIGVTVDPRTNRVTIVSVIDNLMKGAASQAVQNMNLLFQLDERTGLAPLPVYP	PGPT0014251_1395	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014251-argC-K00145	NA	NA
AK012_01639	1227	argJ		Arginine biosynthesis bifunctional protein ArgJ	TTGATACAAGTGGATAAATCAAAGCAGATGGAAAAAGTAACGGGAGGATCCATTCTATCTCCGAAAGGATTCCGTGCAGGCGGAATTCACAGCGGCCTCCGCTATCGTAAAAAAGACTTTGCCCTTCTGCTCAGTGAAACACCAGCTTCCGCTGCAGCCGTTTATACCCAGAGTCATTTCCAGGCTCCCCCATTGAAGGTGACTCAGGAGAGCGTCAATGAAGCAGGAAAACTGCAGGGAGTTGTGATTAACAGCGCCGTAGCGAACGCCTGTACAGGAGAAGAGGGACTGCAGAATGCTTATGAAATGAGAAGGATGATCGCTGAGCGTTATGAGCTGCCGGAACATTTCGTAGCCGTTGCTTCCACGGGTGTTATCGGGGAGCAGCTGCCTATGGAGAAAATATCTTATGGATGTGAAACGGTTGAAGTATCAGAAGCTGGGTACAGCGACTTCCAACAAGCCATTTTAACGACAGATACCTGTCAGAAATCCGCCTGCTATCAGGTAGTGATTGACGGGAAGACCGTGACGATCGGCGGCGCATCGAAAGGTTCAGGGATGATTCATCCCAATATGGCGACAATGCTTGGTTTCATTACGACCGATGCCGTTATTGAACCGGCTCTTCTGCAGCGTGCACTCAGTCAATCGATTGACAAATCATTCAACCAAATCACCGTGGACGGGGAAACGTCTACCAATGATATGGTTTTAACTCTTGCCAACGGCCATGCAGGCAATGAACCGCTTGATGAGGATCATGAGGACTGGGAAGCATTCCAAGCGACTCTTCAGCTGGTATGTGAAGATCTGGCTAAGCAGATCGCTAAAGATGGGGAAGGAGCTACCAAACTCATCGAAGTGAATGTTTCTGGTGCCGGTTCAGATGAAGAGGCAAGGACCATTGCTAAAAAGGTTGTCGGCTCAAGCCTTGTAAAAACGGCCGTTTATGGTCTGGATGCCAACTGGGGACGCATTGTTGGTGCGATTGGACACAGCGAGGCTGAAGTGAAAGCAGAAGCGTGTGATATTTATATTGAAGACCAGCTCGTCTTCAGCAAAGGGACCCCATGCCCGTTTTCAGAAGAGCAGGCAACCGAGGATCTGGACAATGAAGAGGTTCACATTTCCATACATCTCGGTGAAGGACGTGGAGCCGGGACAGCCTGGGGGTGTGACTTAACGTATGACTACGTCAAAATCAACGCCAGCTACCGGACATAA	MIQVDKSKQMEKVTGGSILSPKGFRAGGIHSGLRYRKKDFALLLSETPASAAAVYTQSHFQAPPLKVTQESVNEAGKLQGVVINSAVANACTGEEGLQNAYEMRRMIAERYELPEHFVAVASTGVIGEQLPMEKISYGCETVEVSEAGYSDFQQAILTTDTCQKSACYQVVIDGKTVTIGGASKGSGMIHPNMATMLGFITTDAVIEPALLQRALSQSIDKSFNQITVDGETSTNDMVLTLANGHAGNEPLDEDHEDWEAFQATLQLVCEDLAKQIAKDGEGATKLIEVNVSGAGSDEEARTIAKKVVGSSLVKTAVYGLDANWGRIVGAIGHSEAEVKAEACDIYIEDQLVFSKGTPCPFSEEQATEDLDNEEVHISIHLGEGRGAGTAWGCDLTYDYVKINASYRT	PGPT0014244_1665	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014244-argJ-K00620	NA	NA
AK012_01640	741	argB	COG0548	Acetylglutamate kinase	ATGCTGGATAAGCTGACGGATGACTTTTATGACAGCTTCCGGGAACTTCTTACCCATTACCGGTGCATCATCGTGCACGGGGGAGGACCTGCCATCAGCCGCCTTCTTGACCGGCTGCAGATCAAGGGCGAGTTTATTGAAGGATTAAGGAAAACAACTGCTGAAACGATGGAAGCTGTGGAGATGGCCCTTGGAGGCACCGTCAGCAGCCAGATCACAGAGAGGCTTGCCGGATGTGGAATCCAGGCGCTTGGTGTGAAAGGGTCTGAAGCCGGTTTGCTGACTGCAGACTTTGTCAACGAAGAACAGCTTGGTTTCGTTGGTAAGGTTAAGGATGTAAATCCATCCGTTTTGAATCACCTGCTTGAGGGCGGGTATGTACCTGTCATCGCTCCATTCGGAAAGACGACAGACGGACGAACGGTAAACATTAATGCCGATACAACCGCCGCAGCAGTGGCCGGGGCCGTTCAGGCAGAAAAGCTTCTCTTTGTCACAGATGTTCCCGGGATCCTGGTAGACGGACGGCTGGTCGAAGGGACAAACCCGGAGGAGATTGAACAGTATATCCAGGAAGGTGTCATTTATGGAGGGATGATTCCTAAGGTGCAGTCCGCTGTCGAAGCCTTGTCTGAATGGCTTCAGGAAGTGTGGATTGTCAGCGGGGAAGATCGCCTTGTACAGGACAGCCGCCTGAAAGGGACCTCCATCCGGGCTGGACGAAAGGAGACCGTATCATGA	MLDKLTDDFYDSFRELLTHYRCIIVHGGGPAISRLLDRLQIKGEFIEGLRKTTAETMEAVEMALGGTVSSQITERLAGCGIQALGVKGSEAGLLTADFVNEEQLGFVGKVKDVNPSVLNHLLEGGYVPVIAPFGKTTDGRTVNINADTTAAAVAGAVQAEKLLFVTDVPGILVDGRLVEGTNPEEIEQYIQEGVIYGGMIPKVQSAVEALSEWLQEVWIVSGEDRLVQDSRLKGTSIRAGRKETVS	PGPT0014249_2990	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014249-argB-K00930	NA	NA
AK012_01641	1161	argD	COG4992	Acetylornithine aminotransferase	ATGAGTTTATTTCCAACATATAACCGTTTTCCGTTAAAGATTGTATCTGGAGAAGGTACAAAAGTGACGGACGATCAAGGGAAGGAATACCTGGATTTTGTATCAGGGATCGCTGTCTGTAATCTGGGTCACCGCCCTCCAAAGGTTCAGGAGGCCCTGCAGAAGCAGCTCGATCAAGTATGGCATGTGTCCAACCTTTACGAAATCCCTGCCCAGCAGAAAGCGGCGGAGCTTTTATGTGAAGCATCCGGACTGGATTATGCATTCTTCTGTAACAGCGGCGCAGAAGCGAATGAAGCGGCTATTAAACTGGCTCGAAAGCATACAGGAAGGGAGAAGATCATCTCCTTTAAACAGTCCTTCCATGGACGGACCTTTGCGACGATGAGTGCGACAGGCCAGGCGAAAATCCAGGAAGGTTTCGGAAGCCTGCTCCAGACGTTCGAATACTTCCCTTACAACGATAAGGAAACGATTGAGCGTGTCCATGATGGCTCCGTTGCCGCCATTATGGTTGAGGTGATTCAAGGGGAAGGCGGCGTCATCCCCGGCACAACGGAATTTCTGCAGGCGGTAGAGGCCAAGTGTGACGAGCTTGGAGCGCTGATGATCATTGATGAAGTGCAGACCGGTATCGGCCGGACAGGGAAACCGTTCGCCTATCAGCATCATGGTCTCCACCCGGATATCGTAACGACAGCGAAAGGGCTGGGCAGTGGTTTTCCGGTCGGAGCGATGATTGGAAAAGAAGAACTGGCTGCTTCTTTTTCAGCTGGATCACACGGCTCTACATTTGGTGGAAACCCGCTGGCTTCCGCCGCTGTACAGGCCACGCTGGAAGAAATCTTTGTTTCTTCCTTCTTATCCGGCGTAGAGGAAAAGGGCCGTACATTCGTTCAGGCTCTCCAGGGAGAACTCGGCTCTTTAGCGAGCGTGAAGGATATCCGCGGGAAAGGGTTGATGATTGGAGTTGAAGTGGACGTGCCGGCCATTGAGCTCGTTCATTCTCTCAGGGGGAGAGGGATGCTGGCGGTTGTAGCCGGCCCCAATGTCCTGAGGCTGCTTCCACCATTAACAGTGAAAACAGAGGAGCTGCAGCAGGCAGCCGCTTTGATCAAGGACTCCCTTGTGGAACAGGAAAAAAACCTGCAGAACGCATAG	MSLFPTYNRFPLKIVSGEGTKVTDDQGKEYLDFVSGIAVCNLGHRPPKVQEALQKQLDQVWHVSNLYEIPAQQKAAELLCEASGLDYAFFCNSGAEANEAAIKLARKHTGREKIISFKQSFHGRTFATMSATGQAKIQEGFGSLLQTFEYFPYNDKETIERVHDGSVAAIMVEVIQGEGGVIPGTTEFLQAVEAKCDELGALMIIDEVQTGIGRTGKPFAYQHHGLHPDIVTTAKGLGSGFPVGAMIGKEELAASFSAGSHGSTFGGNPLASAAVQATLEEIFVSSFLSGVEEKGRTFVQALQGELGSLASVKDIRGKGLMIGVEVDVPAIELVHSLRGRGMLAVVAGPNVLRLLPPLTVKTEELQQAAALIKDSLVEQEKNLQNA	PGPT0014253_4099	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
AK012_01642	1062	carA_2		Carbamoyl-phosphate synthase arginine-specific small chain	ATGGAAAGCTATCTACATTTACAAGACGGCCAGACCTTTAAAGGGACGGCATCTTCGACGTTACAGGAACCGATGCAGGGAGAGATTGTTTTCTTTACCGGAATGACCGGCTATCAGGAAGTACTCACAGACCCATCCTATAAAGACCAGATTGTCGTTTTCACTTATCCACTCATTGGAAACTACGGCATTAATGACGCGGATGAGGAAAGCCGGGAAATTCAAGTGAGCGGGGTGGTGATGTACCAATGCACCGAGCAGCCATCCCACTTCCAGTCGACCCAGTCGCTGGGAGCATATTTAGAAGAGCAGCAGGTGCCGTATCTCACGGGAGTGGATACAAGAGAAGTAACGAAAGCGATACGGGCTCACGGGACACAGCAGGCCGCTATGAGTCATCAGGACCACCATGACTTTTCGAAGCCATCGGAGCAGCAGATATTCGCTGTCCAGGGAGAGGCTGTAGAGACGTATGGAGAAGGGGATCTTCATGTTGGGTTGATTGATTTCGGCTGGAAAAAATCCATCCTGCAGTCTTTACTGAAGCGCCACGTGAAAGTTTCCGTCATTCCTTTTACACAGGTCGAGGAAGTTCATACGGTGAAACCCGATGCGCTCATTCTGTCCAACGGGCCGGGAGACCCTAAGGATGCCCTGCCGAAGATAGATCAGATTAAAGCTGTACTCGACGAGTATCCCTCTTTCGGGATCTGCATGGGGCACCAGGTCATCGCATTGGCTTACGGCGCTGATACGGAAAAACTCCCGTTTGGTCACCGCGGTGCCAATCACCCTGTCAAAGACGCCGTGACAGGGAAGGTTTTTCTAACCTCCCAGAACCATAATTACGTAGTGAAAAAAGAAAGCTTGTCTCATACCCCGCTTACGGAGCGTTTCTCCAATGTGAATGATCGTTCGATCGAAGGGTTGATGCATCATTCAGGACAGCTGATGTCCGCCCAGTTTCATCCGGAAGCCCACCCCGGGCCGCACGATGCAGAATGGTTATTTGATGATTTTATAGGTCTTGTAAGCAGCAAAGGAGTGAAGGAACATGTCTAA	MESYLHLQDGQTFKGTASSTLQEPMQGEIVFFTGMTGYQEVLTDPSYKDQIVVFTYPLIGNYGINDADEESREIQVSGVVMYQCTEQPSHFQSTQSLGAYLEEQQVPYLTGVDTREVTKAIRAHGTQQAAMSHQDHHDFSKPSEQQIFAVQGEAVETYGEGDLHVGLIDFGWKKSILQSLLKRHVKVSVIPFTQVEEVHTVKPDALILSNGPGDPKDALPKIDQIKAVLDEYPSFGICMGHQVIALAYGADTEKLPFGHRGANHPVKDAVTGKVFLTSQNHNYVVKKESLSHTPLTERFSNVNDRSIEGLMHHSGQLMSAQFHPEAHPGPHDAEWLFDDFIGLVSSKGVKEHV	PGPT0021155_5265	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021155-carA-K01956	NA	NA
AK012_01643	3021	carB_3		Carbamoyl-phosphate synthase arginine-specific large chain	ATGTCTAAAGTATTGGTGATTGGATCAGGACCGATCATGATCGGTCAGGCCGCAGAATTTGATTATTCCGGGACTCAGGGGTGTCTGGCATTGAAAGAGGAAGGTCATGAAGTCATCCTCGTCAACAATAACCCGGCGACAATCATGACGGATTATGATGTCGCGGACAAAGTATACTGTGAACCGCTGACGGTCAAGAGTCTGGAGAAAATCATCGCAGTCGAACGTCCGGACTCTCTGTTGGCCGGGCTCGGCGGACAGACAGCACTGAACCTTGCTGTAGAACTGGAAAAAGAAGAAGTGTTGAAAAAATATGACCTCATCCTTCTGGGAACCGGCATCTCCTCGATTATGCAGGGGGAAGACCGTGAATTGTTCCGTGCCTTGATGAATGACCTTGACCAGCCGGTACCGGAAAGTGAAGTCATTACGACAATCGAACAGGCGCGTGCCTTCGCGGCGGAAGTTGGTTATCCGATCATCAGCCGTCCGGCCTACACTCTTGGCGGACGCGGGGGTGGAATCGTTCATAAGGAAGAGGATCTGGAGGAATTAATCGCCACAGGACTCAAGGCGAGTCCGATTCACCAGGTGATTGTTGAAAAAAGCATTGCCGGTTTTAAAGAGATCGAATATGAGATTATGCGTGATCATAAAGGAACGTGCATTTCTGTATGTAACATGGAGAATTTTGACCCTGTCGGGGTGCATACGGGTGATTCCATCGTTGTTGCTCCTTCACAGTCGTTGACAGATGATGATTATCAAATGCTGCGTTCCGCTTCGTTGAAAATCGTATCGGCGCTTGAAGTCATTGGAGGATGCAATGTCCAGCTGGCTCTCGATCCCGTCAGTAAGCAGTATTATGTCATTGAAGTAAATCCGCGTGTCAGCCGTTCTTCTGCTCTTGCTTCAAAGGCGACGGGCTATCCGATTGCTAAAATGGCCGCCAAGATTGCACTGGGATATACACTGGATGAACTGGAGAACCCGCTGACAGGGTATACGTACGCAAGCTTCGAGCCTGCTCTGGACTATGTTGTCGTCAAATTCCCGAGATGGCCGTTTGACAAGTTTCCACAGGCGGACCGTTCGCTTGGTACGAAAATGCGGGCGACAGGTGAAGTGATGGCCATCGACCGCACAATGGAAGGAGCGTTCCAAAAAGCGATTCAATCGCTCGACACGAAAGTTCCTGAAGTGACCAATCATTGGTACCATCTTCATCAACCGACAGATCTGCGCTTTTTCGCCATATATGACCTGCTTAAGAAGGGGACGCCGCTGGAAAAGATTCATGCAGAAACACAGATCGATCCATTATTCCTTCAGGTCATCAGTCATTTAGTCGAAACAGAACAAGCGCTTGAAACGGAAGGGCTGTCACAGCCGCTGCTGCATCAGGCGAAAGTATACGGCTTTTTGGATGATCACATTGCAGAACTGGCCGGATGCACGACAGCCGATGTAGAACAAGCGCGCAAAAACTATGATATTCAGCGCTCCTTTAAACTTGTCGACACCTGTGCAGCAGAATTTGAGGCAGCGACGAACTATGTTTACAGTACGTTTGCCGGTCTTAATGAAATTGAACCGCTGTCTGGAGACGGGAAGAAGGCGTTGATCCTCGGTTCCGGGCCGATTCGAATCGGGCAGGGCGTTGAATTCGACTATAGTGCAGTGAAGGCGATTGAAAGTCTTCAAAAACAGGGTTGGACGACCATCATGATCAATAACAACCCGGAAACGGTCAGTACTGATTACGAAACCGCCGACCGCCTTTATTTTGAACCGATACAAAAAGAAATCATCGCTTCCATCGTGGAGCACGAAAACATTGATCTTGTCTTTCCTCAGTTCGGGGGACAGACCGCCATCAACCTGGCCGAAGATCTGGAAAAAGCCGGTATTCCTTTAGCTGGAGTCCGTGCCGATGTGCTCGATGCGCTTGAGGACCGGGATAAATTCTACGCTGCATTGAAGAAACTCGACATTCCGCATGTAGCCGGAACGACCTGTCATTCCAAAAAGGAAGCACTGGAAGCAGCAGATTCCTACACCTTCCCGCTCCTATGCCGTCCTTCGTATGTCATTGGTGGGCAGGGCATGGTGATTGTACAGGATAAGCAGGAACTTGAAGGGGCCCTTGCTGAATCGGACGAACGTCATTATCCGATTGTTCTGGACTCCCTGCTCCAAGGGGCGGAAGTGGAAGTGGATCTCGTTTCGGATGGTCAGACGGTCTACCTTCCCGACATCATCGAACACATTGAACCGGGTGGCGTGCATTCAGGCGACAGTATGGCTGTTTTTCCATCCACTCTTGGAGATGAACTGAAGCAGAAAATCTACACATACAGTGAAAAGATTGCGGCGGAATTCACCTATTCCGGTTTAATGAATATCCAGTTTCTCATTCAAAAGGACGATGTGTACGTTCTTGAAGTCAACCCGCGTGCAAGCCGTACTGTTCCCATCGTCAGTAAGGTAGCCGATATCCCGATGGTGGACTGGGCGGTCCGCATTCTGATCGACGACCCTGCATTCAGCCTGTCCCGGCAGCCGGCTCCTGTTTTTCAGGAAACTGCTGTTAAATACCCGCTTTTCTCTTCCTATGCTATGACAGATTTGGATCATAAGCTCGGTCCAAACATGAAATCAACGGGAGAAGGGATGTGCCTGGGGGCGACTGTGGAGGAAGCTCTTGCTAAAGTGTTCGCCCACCTTCCTGACCTGTATGACGTGAAGGAAGCGTGTTTGGTGGATCTGGAAGGAAAACACGTTCCAGAAGGTTCTGATCTACCGTTCGAGGAGTGGATCATTCAAGAAGACGCTGCCATTTATGTGAATGATCAATCGAATGAGGAAGCGGAAAAGCGCCGGATTACAGCTGTCAAAAACGGCTTGACCGTCATGAGCGAGGCATCCACATTCGAGGCGTATTTGAAGGGGCTGGCATGCAAGGATCCCGTGCCTGTACCTCTGCCGCAACAATCCCATGAAGGAGTGAAATCCCTATGA	MSKVLVIGSGPIMIGQAAEFDYSGTQGCLALKEEGHEVILVNNNPATIMTDYDVADKVYCEPLTVKSLEKIIAVERPDSLLAGLGGQTALNLAVELEKEEVLKKYDLILLGTGISSIMQGEDRELFRALMNDLDQPVPESEVITTIEQARAFAAEVGYPIISRPAYTLGGRGGGIVHKEEDLEELIATGLKASPIHQVIVEKSIAGFKEIEYEIMRDHKGTCISVCNMENFDPVGVHTGDSIVVAPSQSLTDDDYQMLRSASLKIVSALEVIGGCNVQLALDPVSKQYYVIEVNPRVSRSSALASKATGYPIAKMAAKIALGYTLDELENPLTGYTYASFEPALDYVVVKFPRWPFDKFPQADRSLGTKMRATGEVMAIDRTMEGAFQKAIQSLDTKVPEVTNHWYHLHQPTDLRFFAIYDLLKKGTPLEKIHAETQIDPLFLQVISHLVETEQALETEGLSQPLLHQAKVYGFLDDHIAELAGCTTADVEQARKNYDIQRSFKLVDTCAAEFEAATNYVYSTFAGLNEIEPLSGDGKKALILGSGPIRIGQGVEFDYSAVKAIESLQKQGWTTIMINNNPETVSTDYETADRLYFEPIQKEIIASIVEHENIDLVFPQFGGQTAINLAEDLEKAGIPLAGVRADVLDALEDRDKFYAALKKLDIPHVAGTTCHSKKEALEAADSYTFPLLCRPSYVIGGQGMVIVQDKQELEGALAESDERHYPIVLDSLLQGAEVEVDLVSDGQTVYLPDIIEHIEPGGVHSGDSMAVFPSTLGDELKQKIYTYSEKIAAEFTYSGLMNIQFLIQKDDVYVLEVNPRASRTVPIVSKVADIPMVDWAVRILIDDPAFSLSRQPAPVFQETAVKYPLFSSYAMTDLDHKLGPNMKSTGEGMCLGATVEEALAKVFAHLPDLYDVKEACLVDLEGKHVPEGSDLPFEEWIIQEDAAIYVNDQSNEEAEKRRITAVKNGLTVMSEASTFEAYLKGLACKDPVPVPLPQQSHEGVKSL	PGPT0021150_5353	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021150-carB-K01955	NA	NA
AK012_01644	957	argF	COG0078	Ornithine carbamoyltransferase	ATGAACTTAATGGAACAAATGCATGCAGCCAACGAATCCCTCCATGGCAGACATGTACTGACATGGCTTGATTACACACAGTCAGATGTCTCCCGTCTCCTCGCATCCGCCCAGCATGTGAAGGAGAATCCATACTCCCAGTCCATGAAAGGGAAAACGCTCGGTATGATTTTTGAGAAGTCTTCAACGAGAACCCGCGTGTCCTTTGAAGTCGGTATGGTTCAAATGGGAGGGCATGCCCTGTACTTGAACTCAAGAGACATTCAAATCGGCCGTGGTGAAACCATTGCTGATACGGCACAGGTATTGTCGGGGTATGTGGATGCGCTCATGTACCGGACGACGTCCCATGAAAAACTCGAGGAGCTGGCTGCCCACGCTTCTGTCCCGGTCATTAACGGCTTGTGCGATCGCTACCATCCGTGTCAGGCGCTTGCAGACATTTTTACGATTCTTGAAATCAAGGGCCGCCTTTCCGGCTTAAAGGTAGTCTATATCGGAGATGGAAACAACGTGGCGCATTCCTTGATGATTCTATCGGCTATGATGGGAATGGAAGTGGTCATCTGTACGCCGGAAGGCTATGAACCTGATGAGGAGCTGACAGAAAAGGCCCGCGGGCTGGCTGAACAATACGACGGGAAAGTGACGGTTGAAACCGATCCTCAGCGTGCCGCCTGGAAAGCGGATGTCATTTACACAGATGTCTGGGCAAGCATGGGGCAGGAGGACGAAGCGGAGGCCCGTATCCAGGAATTCAATGGTTATCAGGTGAACGCTGATCTGCTGGATCAGGCGGCTGCCGACGTCACCTTCCTTCACTGTCTTCCTGCCCATCGGGGGGAGGAAGTAACTGCCGAAGTGATTGACGGGCCGCATTCGGTTGTTTTTCAACAGGCGGAGAACCGTATGCACGTACAGAAGGCCATCCTGCAGGCGGTTATCGGCTGGAAATAA	MNLMEQMHAANESLHGRHVLTWLDYTQSDVSRLLASAQHVKENPYSQSMKGKTLGMIFEKSSTRTRVSFEVGMVQMGGHALYLNSRDIQIGRGETIADTAQVLSGYVDALMYRTTSHEKLEELAAHASVPVINGLCDRYHPCQALADIFTILEIKGRLSGLKVVYIGDGNNVAHSLMILSAMMGMEVVICTPEGYEPDEELTEKARGLAEQYDGKVTVETDPQRAAWKADVIYTDVWASMGQEDEAEARIQEFNGYQVNADLLDQAAADVTFLHCLPAHRGEEVTAEVIDGPHSVVFQQAENRMHVQKAILQAVIGWK	PGPT0020080_2667	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
AK012_01645	486			hypothetical protein	ATGAGTGAGCAAGTGACAACAGCAGTGGAACCTAAGGTCGTTCAAAAGTCCCATTTCAAGGTGGTCGGAGTCTCTTGTCAAACGATGATGGATGAACGTTCAATCAAGGTGCCGAGACTGATGGAGCAGTTCCACACGATGAAACTGCCGAAAGTGAAAAATCGTGTCAATGCGCCCCGGTCGATCGGGATGTTTGTGGACCCGCCGAATTGGAATGAATCCAGGGATGCCTTTTATTGGATTGCTGCCGTGGAAGTCGACAGCTTTGAGAAAATCCCTCAGGATATGATTACAAAAACCGTCCCTGCTCACACGTACGCCATGATCGAATATGATCCTTCGCTGCATGATTTTGACCCGTATTCGTACCTCCACCAATGGATTGTAGAAAATGGATATCAGCAGGTGGAAGGGTTCGGCTTTGAGGAGTATCAGCCGTATACAGGGCAGGAAGGAAGATACTGTCTCTATCTGCCGATCAAATAA	MSEQVTTAVEPKVVQKSHFKVVGVSCQTMMDERSIKVPRLMEQFHTMKLPKVKNRVNAPRSIGMFVDPPNWNESRDAFYWIAAVEVDSFEKIPQDMITKTVPAHTYAMIEYDPSLHDFDPYSYLHQWIVENGYQQVEGFGFEEYQPYTGQEGRYCLYLPIK				NA	NA	NA	NA	NA
AK012_01646	1407			hypothetical protein	ATGGACTGGTTAGCCGTCCTTCCATTTGTCGTTGTCATCATAGCCGCCATCTGGACCAAACAGGTGATTCCAAGCCTCCTCTTTGCGGTTGTCGTCGCCGGATACATCATGGATTTCCACTGGCTTGGCGGGATGTTGACGGCTCTGGGATTTATCATTGAAGGTCTGAGAGATGAGAGCAACATGAAAATCATTTTGTTTTTATATGCTTTTTCCGCTTTGATTGGACTGATTAAAATGTCAGGGGGAATCAAAGGGTTCGTGCAGGAGGCGGCCGAACGGATTGAGCATAAGCGGGGAGCCTTTATGCTGACCTGGATTTCCTCCGTCGGAACGTTCAGCGCCCCGAGCTTTCGCATCGTCACGATCGGACCGGTCATGAAAGCGCTGAGAAAATCCATCCCCATGACGAAACAGGAGCTCGGATTTGTCATTGAAACGACGGCCTCCCCTCTTGTCGTTCTCATCCCGATTGCTACGGCCTTCGTCGGGTACATGACCTCTGTCATTGAATTATCACTTAATCAGTCAGGGATGGAAGGAGATGCCTACAGCCTTTATATCCAAAGCATCCCCTATAACTTTTTCGCCTTTGCCATGCTCGGTGTAGGCTTTTACTTAAGTTTCTTTCATAAAAACAAGACCCCTGCCACAGACGCTGAAAATCACGGGGAACAGCCGGACGATGACCAGTGGGAGGACTGCCACCCTGCTGTTACGAAAGACCTTCCTGCTAAGCCGTGGCATTTAATCGTCCCTTTAATCAGTGTTATTCTTCTCACATTTCTATTTATGTACAGCCTCGGCGTCCAAAACGGCCGCACAGGATTCGATGCCCTGATCAACGCCAATGTGCTGGATGCGATGGTTCTTGCAGTTGTGCTGACGTTAATTGCTTTTGTCATCTACCTTAAGTTCCGATCGGAATCTTTGAAAAAAATGATGGACAGCTTAATCGCCGGGGGAAACGATATGATGGGGGTCATCCTCCTGCTTGCGATGGTGTGGGGCCTCAGCACCGGATCAGAGGCCTTGGCGTTTGCTGATACCATATCTTCTTCTTTTGCCTGGGTGCCTGCAGGATTTGTCGCTGTCATCACGTTTATCGCAGGATGCGGCATCTCCTACTTCATCGGGTCTTCCTGGGGAACGTGGGGCATTCTTATGCCCGTGGGCGTTTCCATTGCAGCGGCCGCCGACAGCTCACTCCCTATGGTAATTGGAGCGGTTTTTGCGAGCGGGACGTTCGGAGCCTTCGCTTCTCCTTTGAGCGACGATACGAATACGACGGCTGGAATTTTAAATTTGAACCCTGTTAAGTATGCCCGTTTCAAGCTGAGGCCGGCCCTCATTGCCGCCGGTGCTGCGGCTGTTCTCTATTTCGTGCTTTCCTTCTTCCTGACTTGA	MDWLAVLPFVVVIIAAIWTKQVIPSLLFAVVVAGYIMDFHWLGGMLTALGFIIEGLRDESNMKIILFLYAFSALIGLIKMSGGIKGFVQEAAERIEHKRGAFMLTWISSVGTFSAPSFRIVTIGPVMKALRKSIPMTKQELGFVIETTASPLVVLIPIATAFVGYMTSVIELSLNQSGMEGDAYSLYIQSIPYNFFAFAMLGVGFYLSFFHKNKTPATDAENHGEQPDDDQWEDCHPAVTKDLPAKPWHLIVPLISVILLTFLFMYSLGVQNGRTGFDALINANVLDAMVLAVVLTLIAFVIYLKFRSESLKKMMDSLIAGGNDMMGVILLLAMVWGLSTGSEALAFADTISSSFAWVPAGFVAVITFIAGCGISYFIGSSWGTWGILMPVGVSIAAAADSSLPMVIGAVFASGTFGAFASPLSDDTNTTAGILNLNPVKYARFKLRPALIAAGAAAVLYFVLSFFLT	PGPT0027895_570	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027895-tet35-K18218	NA	NA
AK012_01647	435			hypothetical protein	ATGAGTTTTATGACCCAGTCGGTCGTGATTGAACGGCCGGTGGAAGAAGTATTTAAAGCTGCTGTGGATTTTTCCAACAGCCCGCAGATTATGGAAGCTGTGGTTGCGGTGGAGCTGTTGAGCGAAGGTCCTGTCAGGGAAGGGTATAAATTCAAAGAGACGAGAGAAATTAGAGGCAGGAAGGTATCAGCGGTCATTGAAGTCACAGCGATCGAAGAAAACCGGTCCTATTCGGTCAAAAGTGTTCAGAGCGGGCTTGACCTGCGGTATCACTACCAGTTTGAACCGGCACCCGAAGGGACGAAAGTGGTGTTCCAAGGCGAGCTGTTTACCCAGGGTCTGCGTAATACACTGACCCGACCGTTGATCAAGCAGATCATCAAAAAGGAAGACCAGAACCACCTGCAGCACTTGAAGAAGTTTATCGAATCTTAA	MSFMTQSVVIERPVEEVFKAAVDFSNSPQIMEAVVAVELLSEGPVREGYKFKETREIRGRKVSAVIEVTAIEENRSYSVKSVQSGLDLRYHYQFEPAPEGTKVVFQGELFTQGLRNTLTRPLIKQIIKKEDQNHLQHLKKFIES				NA	NA	NA	NA	NA
AK012_01648	1140	yfmL	COG0513	putative ATP-dependent RNA helicase YfmL	ATGACAGATAAACAACAGGAATGGCTGGATCACTTATCTCCCTCTACGAAACAGGCGTGGGAGGAATCCGGCTTTGAGACGTGGACGGCTGTGCAGGAAGCGTCCCTTCCTTTTATTGCAGAGGGAGAGGATGTGCTGGCTGAAGCACCGACAGGCAGCGGGAAAACCCTGGCTTATCTGCTTCCACTGATTGAGAAAATCGACAGCAGTCAAAAGCATACCCAGTTATTGATTCTCGCTTCTTCGCATGAACTTGTAATGCAGATTCATCAGGAGATTCAAAAGTGGACGAAGGGAAGCGGGATTACAAGCACGACGTTGATCGGCGGAGCAAATGTGAAACGTCAGATCGATAAGCTGAAGAAGAAGCCGCATATTGCAGCAGGGACGCCTGGTCGTGTAAACGAACTCATTCAGAAGAAAAAGTTGAAAGCCCATGAAATCAAGGCTGTGGTTCTGGATGAAGCGGATCAGCTTCTCGTCCCGGAGCATAAGGAAACGATCAATCATATTCTGAAGAGTGTACAGCGGGATACGCAGAAGCTTTTATTCTCGGCTACTCTTCCGGATGAAGTCATCGACCTTGCACAGACATTTATGGATGAGAATGCAGAAGTCATCCGCATTGATGAAGAGGTGAAAAAGCCTGAGGTTACCCATCATTATATTGTCAGTGAAGACCGGGACAAGATTGAAATGGTCCGGAAGCTGGCACACACCGAAGGGTTCACCGGACTTGCGTTTATGCAGGATATCGCGAAATTGAACGTGATGGCTGAAAAACTGGTTTACAAAAAACTGGACCTTGGCCTCCTCCACAGTGATGCGAAAAAAGAACAGCGTGCCAAAGCCGTCAAAGAGTTCCGCAATGGTTCCTATCCATTGCTGATGGCGACAGATGTCGCCGCAAGGGGGCTGGATATCCACGAAATCAATTACGTCGTCAACCTGGATATTCCGAAGGATCCGAGCTCTTATGTGCATAGAGCCGGAAGGACCGGCCGTATTGGTGCCGTGGAAGGCCGTGTCGTTTCCATCGTGAATCCTGTAGAAGAGAAACGCCTGAAAAAGATGGCCGAGAACCTCGGGATTCCGTTAACGAAGAGTGTCATCTACAAAGGACGACTGGAGAGCCGGTAA	MTDKQQEWLDHLSPSTKQAWEESGFETWTAVQEASLPFIAEGEDVLAEAPTGSGKTLAYLLPLIEKIDSSQKHTQLLILASSHELVMQIHQEIQKWTKGSGITSTTLIGGANVKRQIDKLKKKPHIAAGTPGRVNELIQKKKLKAHEIKAVVLDEADQLLVPEHKETINHILKSVQRDTQKLLFSATLPDEVIDLAQTFMDENAEVIRIDEEVKKPEVTHHYIVSEDRDKIEMVRKLAHTEGFTGLAFMQDIAKLNVMAEKLVYKKLDLGLLHSDAKKEQRAKAVKEFRNGSYPLLMATDVAARGLDIHEINYVVNLDIPKDPSSYVHRAGRTGRIGAVEGRVVSIVNPVEEKRLKKMAENLGIPLTKSVIYKGRLESR				NA	NA	NA	NA	NA
AK012_01649	750			hypothetical protein	ATGATAAAGAAGTTTGTCCTCTTTTCAGCCGCCTTGTTTGTCATTATTGTCGCCGCCACCCCTGTTTCTGCCCAGGACTTTTTCAAGGAAGGGCCTAAAGCCTCCTATGACAAAGTCAGTGCGCATATTCAGGGCTGGATGCAGGAAACCGATTTTCAAAAAGAAGTGGAAGGGTTTCAAACAGACCTTCAGGATTTCTTTACTTTTATAGATCAAATTGAATGGAAGTACCCGGACGAAGCCCCGTCGGAACAGGGAGGAGAACAGCCTGCCGCTGATTCTGACTCCTCTCCTCAACCGGAGGGTCAGGAAGGTTCAGAGCCGACAGCTGAAGTCCAGGCGCTGGACAGCTATACTCCTGGGGAATATGAGCAGGAGGTCGTTGTCCTCGTTAACAAAGAACGGGCTGAAGAAGGCCTGCCGCCTCTAGAAATGCATGACCGATTGAGCGGTATGGCCGATGTTAAGTCACAGGATATGGCGGACAAGAATTATTTCAGCCATGAATCGCCGACCTATGGAAGTCCGTTTGATATGATGGATCAGTTTGATTTCTCCTATCTGGCTGCCGGTGAGAACATTGCCGCCGGGCAGCGGACACCGGAGGAAGTCGTTGAAGGCTGGATGAACAGTGACGGTCACCGGGCCAACATTCTTCACGAGGATTTCACTCATATAGGAGTGGGCTATGTGGAAGGACAGGGCCGGTATGGCACGTATTGGACGCAGCTATTCATGAAGCCGAGGTAA	MIKKFVLFSAALFVIIVAATPVSAQDFFKEGPKASYDKVSAHIQGWMQETDFQKEVEGFQTDLQDFFTFIDQIEWKYPDEAPSEQGGEQPAADSDSSPQPEGQEGSEPTAEVQALDSYTPGEYEQEVVVLVNKERAEEGLPPLEMHDRLSGMADVKSQDMADKNYFSHESPTYGSPFDMMDQFDFSYLAAGENIAAGQRTPEEVVEGWMNSDGHRANILHEDFTHIGVGYVEGQGRYGTYWTQLFMKPR				NA	NA	NA	NA	NA
AK012_01650	612			hypothetical protein	GTGCAGCCTAAAATCTTCTGGACCGCTTATGCAGCTTCTCTCATGGTTATTTCCTTGTATACAAACTCCATCCACCAGGAAGGGACGCTTCAGCTGACCCGGACCTTTCTCTGCTTTGGTGCTGCTCCGGCCTTGATTGGCTGCAGCTTAGAGACGGCCATCTGGTTCCGGCATTCCTGGAAACGGCTGCTGTTGACCGCTTCCCGGCTGCCGGTAACTGCAGCGGCTTTTCTTGCCGGAACAACTGCCGCTTATGATATTCTACACGTCTACGTCACCCATCCCGCATGGACGGTCATTCATTTGATCCTGTTGTTTTGGGCGGCGCTGCTTTTCTGGTCTCCTCTTTTGATTCCCGCTCCTTTTTCACGGAAACAGACCTCAATGAAAAAGTTCACCTATCTTATTGTTACAGGGATGCTCTTCTACTTCTATCACCAGGCCGCCGGATATGTACAGGGAGGGCCCGTATCCGTCACGTTTATGACCGGAGGCACCACGGCATTGATCGTATACCTTTTCTATTTCATCCATACTTGGGCAGCAGCGGAAGAACACACCGACCGCTCGACGGTCAAAGGGCAGTTCCAACGTGTCCACCGGCATGAGTGA	MQPKIFWTAYAASLMVISLYTNSIHQEGTLQLTRTFLCFGAAPALIGCSLETAIWFRHSWKRLLLTASRLPVTAAAFLAGTTAAYDILHVYVTHPAWTVIHLILLFWAALLFWSPLLIPAPFSRKQTSMKKFTYLIVTGMLFYFYHQAAGYVQGGPVSVTFMTGGTTALIVYLFYFIHTWAAAEEHTDRSTVKGQFQRVHRHE				NA	NA	NA	NA	NA
AK012_01651	1392	nylA		6-aminohexanoate-cyclic-dimer hydrolase	ATGGAACACCGGGAACTGTATCATCTCGATGCATGGGGGCTTCGGGAGAAACTCCTTCAGAAAGAATGGAAAATTGAAGAGGTGATCGACCACTACAGATCCGTTATCGCACGGAAAAATCCGGATTTGAACGCTGTTGTTCATCAGATTGAGGAGCCGGTGAACACGGATGGCCCATTCATGGGGCTTCCCTTTTTAATTAAAGATTTGAATGCCGTGAAGGGCCATCCGTTAACATATGGATCCAAAGTGATGGATGGTTTCAAAGCTGGATGGGATGATGAATTCGTAAAGCGGTTCAGAAAAGGGGGATTGACCATCATTGGAAAGTCCAACACCCCTGAATTCGGCTTTACACCTGCTACAGAGTCTGTCCATCTCGGATTTACGAAAAATCCGTGGAACAGAGACTATTCACCCGGTGGCTCAAGTGGTGGAGCGGCAGCTGCCGTCGCGTCAGGAATGGTGCCTTTCGCCCATGCGAGTGACGGTGGAGGCTCCATCCGGATTCCGGCTTCCAACACCGGTTTGTTCGGGTTCAAGCCGACAAGGGGACGCACCCCTTTCTCTATGCATTTGAACAGCTTTGCCGTCAGTCACGGGGTTACCAAATCCGTCAGAGACAGCGCGGCCCTGCTCGATATTTTAGAAGGCCCCCAAAAAGGGGATCTATTTGCGACTCCTGCGCAGGGCAGACCTTATGCCGGCCTGGATCATCGTGATCTGGGCCCATTGAAAATCGGATATATGGCTGATTTCGGCGGCGTTATGCCGATCAGTCAAGATGTTCAGGAAGCTGTAAATAAAACGGCACGGCTGTGCGAATCGCTCGGTCACCACGTTGAGCAGGCGTACCCGGACATTGATTTGAACAAGTTTATGGACGCTTTTGTTGTGGTGTGGGTCGTAGGAGGCGCCTTAGCCGTCAAGGAAGCGGCACGGATGAACGGGAAAACGGCGGACAGCCATAACGTAGAACGGATGCTTTCCACCCTTATTGAAAAAGCGGAAGGCTATTCAGCTCTGGATTATGAGAAAGCACGTCTCTATCTGGCTTCGGAAAGTGCGAAATTCCATGCATTCTTTGAGCAGTACGATGTTCTCCTTCACCCGGTCAATGCCTCTTCCGCACTTCCGCTCGGCTGTTATAACGGGGAAGAAAAGACGATTGATGAAATCCTTGCTGTCTCAGCCGCTTATGCCCATCTGGCCCCTGCAGCCAATGTGACGGGACTGCCTGCGATGAGTGTGCCCCTGTATTGGAAAGAAAACAATGTGCCGATCGGGTCCCACTTTACCGGCCGGTTCGGAGATGAAAAGACTTTGTTTAAGCTGGCTTCCCAGCTCGAAGAGGCCGAGCCGTGGTTCCATAGATATGAAACATTGATATAA	MEHRELYHLDAWGLREKLLQKEWKIEEVIDHYRSVIARKNPDLNAVVHQIEEPVNTDGPFMGLPFLIKDLNAVKGHPLTYGSKVMDGFKAGWDDEFVKRFRKGGLTIIGKSNTPEFGFTPATESVHLGFTKNPWNRDYSPGGSSGGAAAAVASGMVPFAHASDGGGSIRIPASNTGLFGFKPTRGRTPFSMHLNSFAVSHGVTKSVRDSAALLDILEGPQKGDLFATPAQGRPYAGLDHRDLGPLKIGYMADFGGVMPISQDVQEAVNKTARLCESLGHHVEQAYPDIDLNKFMDAFVVVWVVGGALAVKEAARMNGKTADSHNVERMLSTLIEKAEGYSALDYEKARLYLASESAKFHAFFEQYDVLLHPVNASSALPLGCYNGEEKTIDEILAVSAAYAHLAPAANVTGLPAMSVPLYWKENNVPIGSHFTGRFGDEKTLFKLASQLEEAEPWFHRYETLI	PGPT0006115_5571	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
AK012_01652	1173			hypothetical protein	ATGAAGAAAGGGAAAAGTTTACACGCTTTAATCATTTTAATGTTTACTCAATTTATATCAGGCGGAGTGACCAACACCAAAGGGATTGTGCTTGACCAGGTGGAAAATGATCTTGGTCTGGACATGAGCCAGTTTGGTCTTGTCGTTTTAATCTTCCAGCTTGGCTTTACGCTTGCCAGTGTCATCATTGGATATTACACAGACAAAAAGGGTCTGCGTACGATGACCATCATCGGCTCGATTATTATGGGTCTTGGATTCCTAGGGACAGGCCTTGCCCCCAATATTATGTTTTTCCTCGGTTTTTATATGATTGTCGGTTTTGGTCTTGGAGCGCTCGGGGTAGCTTCCAACGCAATCGTTCCCGCAGCTTATCCAGAAAAGCAGAACCAGATGTTCAACCTCGCGATGGGTGTGTATGGTCTTGGGATGGTCATCTTTCCACAAGTATTGAACTTCCTTTTCCAATTCGCGTCCTGGAGATATTTTTATTTAGGCATTGCGGTTTCACTGGTTGCTGTCATTATCTATATCACAAGTGTAGCCTTCCCTTCAGGGAAAGCGGAAAAAGTCGATTTGAAGGCTTTTATTCCGATGCTGAAGGATGCTCAATTCGTTTTCCTTATGGTCTTTCTCGTCTTTCAAGTATCGGCGGAAGTTTCCTTTACAAATTTCTTCCCGGTCTACCTCAAATCGCTTGATTTAGGAGGCATGGCAACGGCAGAGAAGGAAGATCTGGTAGCGGCTATTCTATCGATTTTCTCTGTTTTCTTCATGGTTGGAAGACTCGCAGCTGCCTATATTACAAAATGGGTGAACGAGCGGGTGATCCTGATCAGCTTTTCGGCAGGCGCGCTGCTGATGGTCGGGGTCAGTTTCCTTGTAGCGGAAAGCTTCCCGTATCTTTTCGCAGGAGCCGGTCTATTCTTCTCAGCATTGTTCCCGACAGCAACAGCGTTTGGGACGCAGATGTCCAAAACCAGCGGTTCTGCCTTAGGCCTGATCTACATTGCCGCCGGTATTGGCGGGGGTATTGCCGGTTACATTGTAGGCCTGGCCTCTGAAATTTTCGGAATGGCCGGTGGATTCAGCATCGTGCTTGTATTCCTCGCCCTTATGCTGCTCATGACCTTCTTTATGAACAGCAGCAAATCCAGTCAGCAGCAGGCTTGA	MKKGKSLHALIILMFTQFISGGVTNTKGIVLDQVENDLGLDMSQFGLVVLIFQLGFTLASVIIGYYTDKKGLRTMTIIGSIIMGLGFLGTGLAPNIMFFLGFYMIVGFGLGALGVASNAIVPAAYPEKQNQMFNLAMGVYGLGMVIFPQVLNFLFQFASWRYFYLGIAVSLVAVIIYITSVAFPSGKAEKVDLKAFIPMLKDAQFVFLMVFLVFQVSAEVSFTNFFPVYLKSLDLGGMATAEKEDLVAAILSIFSVFFMVGRLAAAYITKWVNERVILISFSAGALLMVGVSFLVAESFPYLFAGAGLFFSALFPTATAFGTQMSKTSGSALGLIYIAAGIGGGIAGYIVGLASEIFGMAGGFSIVLVFLALMLLMTFFMNSSKSSQQQA	PGPT0017235_1680	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OXALATE_TRANSPORT,PGPT0017235-oxlT-K08177	NA	NA
AK012_01653	1287			hypothetical protein	ATGAACAAGTGGGTAGGGGTCACCTTTTTGGTCGTCCTTTTCTTAGTTGGATGTCAAACGGGAGAAAGGGGAGAAGATGAAAGGAGTGTTGAAATGCTGGAGGGAAGATGGGAAGGGACCATTGAAGTACCGGGACAGCCACTGGGATTTATTATACATATGGACAAAGAAGAAGAATGGGTAGGAACCATCAGCATCCCTGTACAGAATGTGGAAGACTTCAGGTTGTCGGATATCATTGTCGGCGGTGAAGAAGTCGCATTTACGATGCCGCTGCCTGGTCAATCCATTCAATTCAATGGAAGTTTAACGGATGGGGAGGTTGCGGGGACGTTTACTCAGGAAGGACAGTCTTATCGGTTTCTTATGGAGAAAACAGAGCTGGAACCAGAGGAAGAGGGGGAATTCCTCTCTGTGGAAACCTCTTCCGGCACCCTTTACGGGGAATTGCTGATGCCTGAAGGAATAGAGAAGGCGCCGGTGGCGTTGATTATACCAGGATCAGGCCCGACGGACCGCAACGGAAACTCCCAGGGCGTTCAGGGAAGGAATGACAGCTTGAAAATGCTTGCCGAAAAACTAGCAGAAGCCGGGATCGCTTCCGTCCGTTATGATAAGCGCGGTGCAGGCAGGAATCGTGCCGCAGCCATGGATGAACAAAACATGAGGTTTGAAGTGTTTGTCAATGATGCCGGCCAGTGGGTGGAAAAACTCTCCCGGGATGAGAGGTTTACGGAAACAGCGGTCATCGGGCACAGCCAGGGATCGCTTGTCGGCATGATGGCGGCTGAGGATCATGCTGTCGACGCTTTCGTATCGCTGGCGGGTGCGGGACAGCCGATTGATAAAATCCTGGAAAATCAGCTCAGGGAGAATCTGCCGGAGGATTTATATGAGGAAAGTCAGGATGTGTTGGAGAAATTGAGAGATGGAGAGGATGCCGGGAAGGTGAGTCCTCCTCTCCAGAGCTTATTCGCTTCTGAGCTTCAGCCGTTTCTCCGTTCATGGATGAGCTACGATCCAGCCGACCAGATCAGGGAGCTGGATGTGCCGGTTCTCCTTGTGAACGGTACCCATGATGTTCAGATTCCGGTAGAGGAAGCTGAGCATTTAAAGGAAGCGGCACCCGACTCGCAGCTTCTCCTTGTTGAGGGAATGAATCACGTGCTGAAGGAAGCTCCTGAGGATCGTGAAGGCAATCTCGAGACATATACAGACCCTGATCTTCCGCTGCCGGAGACTCTCACGGAGCCACTGATCACTTTTTTACAGAACAGCGGTTTTTGA	MNKWVGVTFLVVLFLVGCQTGERGEDERSVEMLEGRWEGTIEVPGQPLGFIIHMDKEEEWVGTISIPVQNVEDFRLSDIIVGGEEVAFTMPLPGQSIQFNGSLTDGEVAGTFTQEGQSYRFLMEKTELEPEEEGEFLSVETSSGTLYGELLMPEGIEKAPVALIIPGSGPTDRNGNSQGVQGRNDSLKMLAEKLAEAGIASVRYDKRGAGRNRAAAMDEQNMRFEVFVNDAGQWVEKLSRDERFTETAVIGHSQGSLVGMMAAEDHAVDAFVSLAGAGQPIDKILENQLRENLPEDLYEESQDVLEKLRDGEDAGKVSPPLQSLFASELQPFLRSWMSYDPADQIRELDVPVLLVNGTHDVQIPVEEAEHLKEAAPDSQLLLVEGMNHVLKEAPEDREGNLETYTDPDLPLPETLTEPLITFLQNSGF				NA	NA	NA	NA	NA
AK012_01654	723			hypothetical protein	TTGAGAACCAGCAACCCGATTTTAAAAACAGACGCATTCCAGCGATCCCGTGAACAGGGAAAAACGATGACGCTCGGAGGAACGATCGCCAAAATAGCCGTTTTATTCCTGTTCCTGCTTGGAACTGCCGGATATACATGGTACCAGTATGCCCAGGGAGCGGACGTAACAATGATGATGTTGATCGGAGCGCTCGGAGGATTGGTATTCGCCCTGGTGACCGCATTTATTCCAAAAGCTGCTCCTGTTACAGCTCCCATTTATGCCGCTTTGGAAGGGTTTCTGATCGGAGGCCTGTCTGCTTTTGCGGAGGGAGCTTACTCAGGCATTGTCATTCAAGCGGTCAGTTTAACACTGGCAGTTATGGCTGCCCTGCTTTTTCTGTACGCTTCCAGAATCATTAAAGTGACGAGGAACTTCCGTTTGATGGTGGTTTCTGCCACACTTGGGATTTTTCTCGTTTATCTCGTTCAATTCATTCTGCAGTTTTTCGGAATGGAAGTGCCCTACCTCCATTCCAGCGGCCCCATCGGCATTGGCATCAGCTTGTTCATTACCGCCATCGCTGCACTGAACCTTGTCCTTGATTTTGACTTTATCGAGCAGGGAGTGGACCGAGGAGCTCCTAAGCATATGGAATGGTACGGCGCCTTCGGTTTGATTGTCACGCTGGTCTGGCTGTACATTGAGATTCTCAGGCTCTTACAGAAGATTCGGCGATGA	MRTSNPILKTDAFQRSREQGKTMTLGGTIAKIAVLFLFLLGTAGYTWYQYAQGADVTMMMLIGALGGLVFALVTAFIPKAAPVTAPIYAALEGFLIGGLSAFAEGAYSGIVIQAVSLTLAVMAALLFLYASRIIKVTRNFRLMVVSATLGIFLVYLVQFILQFFGMEVPYLHSSGPIGIGISLFITAIAALNLVLDFDFIEQGVDRGAPKHMEWYGAFGLIVTLVWLYIEILRLLQKIRR				NA	NA	NA	NA	NA
AK012_01655	621	rssB		Regulator of RpoS	ATGAAAATATTAATCATGGATAATGACGAATCTCTTAGATACATGCTTACAGAATTCTGCCGGCATGCCCAATGGGATTCAGATACGGCCTCCAATGGACGCGAAGGCGTGGATATGTTTTTAAAAGGGAACTATGATGTGATTCTCGTAGACTATCATATGCCTGAGATGGACGGTTTGCAGACAGTGAGAGAAATCCGCCGGCATAACTCTGTCGTCCCTATTCTCGTCTTAACGGTAGACGAAAGGCAGGAGGTGGCCGACCGTTTTCTTGAGGAAGGGGCGACCGACTTTGCGTTAAAACCCGTGAAGGCTCCCGACCTCATTTCAAGAATCAAGCTGCACGCCCAGATCGCAAACATGAAACACGTGCAGGAAGAAGAGGAAGATGTTTTTACGGCCAAAGGCATCAGCAAAGGCACCCTCCACTCCATCGCTCAATATTTACAGGAAAACCGGGAAGCCTTTCCTGTCGATGTGATCTCGAAGGAAATCGGACTTGCCTATCCTACCGTCTATCGTTACTTAATGCACCTGCTTGAAGAAGGAAAAGTGAAGCAGGTCGTCAGCCATCAACGCATCGGCCGGCCTAAAAAATTATACAAATGGTATGCTCACTAA	MKILIMDNDESLRYMLTEFCRHAQWDSDTASNGREGVDMFLKGNYDVILVDYHMPEMDGLQTVREIRRHNSVVPILVLTVDERQEVADRFLEEGATDFALKPVKAPDLISRIKLHAQIANMKHVQEEEEDVFTAKGISKGTLHSIAQYLQENREAFPVDVISKEIGLAYPTVYRYLMHLLEEGKVKQVVSHQRIGRPKKLYKWYAH				NA	NA	NA	NA	NA
AK012_01656	1356	sasA_3		Adaptive-response sensory-kinase SasA	ATGTGGAAACAACTGCTTTATTCAAAGAGCATATGGATCAAAATAGCCAGCATCGTGATCGGCATTACGATGCCCTTGTGGCTGAGCATTGAACAGACAGGCATTGATGCCCTTATGGAAACTCTCGAGACCGACCCGGATGGGAGCACCCTGATGCTTGCCGCTTTCGGTCTGGTTATGCTGAACACCATCCGGGCGCTCCCCCATTATATCGGTGCCCTTCTTCTTGGTGACGAATTAGGAAGGAGACTGGAACGGCCCTGGCTGAAAATCGCTGTTCCGTTCGCCATCATTCCCCTTGTATATGCCATTATCAACGGGTATAATTCGATCAACTATCATTTTGGCGGCCCCGCCATCATTCTATTATTATCCATAGCCGTTCTTCACCTGTTAGGAAAGGGGCAGCTGCGTCCAATCTATAAGGCTTTCATTCTCGCCCAGCTTTTATTCGGATTCCAGTGGCTGGATACGATTACGTACCTGACAGCGTTCGGATTCGGAGGGGGAGAATTGTCGCTGCTGGTGAAAACCACAGCAGAACAGCTGGGCTTCGAGCAGGCCATCAGCCTCTACAGCTTCCTTTTCTTCGCCTTTTTCATCAGCAACGCCACCGTTCTTGCGGTATACCTGACTGTGGCTGAACAAAAGACACGGATGAGACAGGATCTGGATATTGCCCGTCTTGACATGGTGGAATCCAGGTCCGGCCGGGAAGCCCTTCACCTCGTGCATGATTTAAAAACGCCCCTTTCTTTGATGGAAGGACTCAATTCCTTGATTCAGATGAAGACAGAGGATAGGGAAATCCTGCAGTACACAAATAAGATATCCTCATCCATCCAGGCTACCAGCGATATGGTTTCGGAAATCCTCTATCACGAGAAGAAGAACTGGTGTTCATTAAAGACATTTATAGAGTATGTACGTGCCAACAAGCTGTCAGAATCAGAAACGATGTACACCTTTGACCTGGCCGCGGACGAAGAACTGGAAATCTACATTAACAAAATCCGTATGACAAGAGCGCTCGTCAACTTAATTGATAATGCGGGAGATGCAGTCGAAGGAAAAGCAGATGCTAAAGTCACGATCGCTACGAAAGAGAACAGACAAGGGGTATCGGTCGGCGTTCAGGACAACGGCCACGGCATCAGTAAAGAGAACATCAATAAAATATGGAGCGCAGGCTACAGTACGAAATCCCACCCGGGTGTCGGACTGACCTTTGTGAAAAACGTCGTGAAGGAGCATGACGCTGAACTGACGATTGAAAGCAGGAAAGGCATAGGAACAACGTTCTGGATTCATTTACCGAAGGAGAGAGTACGAGATGAAAATATTAATCATGGATAA	MWKQLLYSKSIWIKIASIVIGITMPLWLSIEQTGIDALMETLETDPDGSTLMLAAFGLVMLNTIRALPHYIGALLLGDELGRRLERPWLKIAVPFAIIPLVYAIINGYNSINYHFGGPAIILLLSIAVLHLLGKGQLRPIYKAFILAQLLFGFQWLDTITYLTAFGFGGGELSLLVKTTAEQLGFEQAISLYSFLFFAFFISNATVLAVYLTVAEQKTRMRQDLDIARLDMVESRSGREALHLVHDLKTPLSLMEGLNSLIQMKTEDREILQYTNKISSSIQATSDMVSEILYHEKKNWCSLKTFIEYVRANKLSESETMYTFDLAADEELEIYINKIRMTRALVNLIDNAGDAVEGKADAKVTIATKENRQGVSVGVQDNGHGISKENINKIWSAGYSTKSHPGVGLTFVKNVVKEHDAELTIESRKGIGTTFWIHLPKERVRDENINHG	PGPT0025285_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025285-kinB-K07697	NA	NA
AK012_01657	603	pabA_1	COG0512	Aminodeoxychorismate/anthranilate synthase component 2	ATGATCATCGTCATTGATAACTATGATTCTTTTACGTATAACTTGGTGCAGTATTTTCAGCAGATGGAGACAGAAGTCATGGTCAGAAAAAATGATGCAGTCACCATAGAGGAGATCGCCCACCTTGCTCCTGACCTGATTGTTCTTTCTCCGGGGCCTGGTAAACCATCGGAATCCGGTGTCTGCCTGGACGTTCTCCGGACATTTGAAGCTGATATTCCGATTCTCGGCATCTGCCTGGGTCACCAGCTGATTGTAGAGGCTTATGGTGGAACCGTCCGTAAAGGCAGAAAGCCGATGCACGGTAAAGTCACAGCCATGACGCATGATGGTGCCCATGTCTATGAGGGCCTCCCTGAACGTGTACAGGTCACACGCTACCATTCCCTGGAGGCAGATAAGCATCAAATGCCGGAGCAGCTCGAAGTTACAGCGGTCTCTGAAGATGGGAGTATCATGGGAGTCCGGCACCGGGACTATCCAGTAGAAGGCATCCAGTTCCATCCGGAGTCGATTCTTACAGAATGCGGATTCACGATGCTGTGGAATACGTACCAGCAGGCACTGCAGTATCAATCAGGCAGGAAAGGGGCGGTCGTATGA	MIIVIDNYDSFTYNLVQYFQQMETEVMVRKNDAVTIEEIAHLAPDLIVLSPGPGKPSESGVCLDVLRTFEADIPILGICLGHQLIVEAYGGTVRKGRKPMHGKVTAMTHDGAHVYEGLPERVQVTRYHSLEADKHQMPEQLEVTAVSEDGSIMGVRHRDYPVEGIQFHPESILTECGFTMLWNTYQQALQYQSGRKGAVV	PGPT0008000_669	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664	NA	NA
AK012_01658	1734	menF		Isochorismate synthase MenF	ATGAATCATGAACCTCTTCTGCAGTTTGAATTTGTGAACGAGCATGGTAAAAAGGAAAACAGACGTTTTGAAAAGCCGGTGGAAATTTTGACGACCGACAATCACCAGGAAGTGAAGGAACTGTTTGAACGGTTGGAAGAACTTCTTGATGAAGGCTATTATGCTGCCGGCTATGTTTCATATGAGGCGGCACCGGCTTTTGATGAGTCGTTTGTTGTGCACGAATCTCCTGAATGGCCGCTCGTCTGGTTCGGGATTTTCGAAAATGGGCAGGACGCTTCTGAACATTCCACCGGCCTTCCGTTTTATGTCTCCGAGTGGAAAATGAAGGGCAGCTACAACCACTACCGAAAAGGCATCGAACAGGTGAAGAAGGGAATTGAAGAAGGGGATACGTACCAGGTCAATTATACGACAAGATTGGAAGCTGCTTTTTCCGGTGATGACTTTTCGCTGTATCAGCGTTTAATGAACAATCAAAAGCCCGGCTATGGTGCTTATATAAATATGGGCGGCCGGAGCCTTTTATCCGCTTCACCTGAACTTTTTTTCCGGATGAATAACCGCACGATTACAACGAAACCGATGAAAGGCACAGCAGGACGTGGAAGGTTTTACTCGGAAGATGAAGAGCAGCACACGCACCTTCAAGTGTCCGAAAAAGAAAAATCAGAAAACCTGATGATCGTCGATCTCTTAAGAAATGATCTCGGCCGCATTGCCGTCCCCGGCTCCGTGCGCGTGCCGGCTTTGTTTGAAATAGAAACCTATCCGACCGTCCATCAGATGACTTCCACTGTGGAAGGGGAACTTCCTCCATCCTTAACGATGTATCAGGTGTTTGAAGCCTTGTTTCCATGTGGATCCATTACAGGGGCTCCTAAGGTGAGGACGATGGAATATATTAAAAGGCTGGAAGATTCCCCCCGGGATGTGTACTGCGGCGCCATCGGCTTTATAACCCCCACCAGGGAAGCCGTCTTTAATGTTCCCATCCGCACGATCATGATCAATCATGACAGTGGAAGGGCGGTTTATGGAACGGGAGGCGGCGTAACGTGGGATTCCACTTCAGAAGGGGAGTATCAGGAAGTGCTTACCAAAGCCCGTCTTCTCACAGAAGACCGTCCTGATTTTCAGCTTTTGGAGACGATGAGACTGGAAGAAGGGCGTGTCCACCTGTTGGATTACCACCTGCAGAGGCTGCAGAAGTCAGCGCGTTACTTTCAATTCCCATTGAACGCTTCCCGGTTGAAGCAGCGCTTACGGCAAGAGTCAGACCGACGGCCGGAAGGGCTGTACAAAATAAGGCTCCTTACAGATGAAAGCGGCCGGGAAGAAATTCAGGTGATGCCAATGGATCCACCCGCTTCTCATGTTCAGACCGCTCTTGCCGCCGCCCCTGTATCCGATCAGGATCCTTTCTTGTTTCATAAGACGACGCACAGGGAAGTATATGAGAGACACAAAGTGCCCGGTAAAGCCGCCACTCTTCTGTGGAACGACCGGGGGGAACTGACAGAATTCACAATAGCCAATCTCGTCGTTAAATATCATGGAGAGTACATCACACCGCCGGTAACCAGTGGTCTACTTGAAGGTACATACAGGCAGTACCTGTTGGACCAGGCGCGTATAAAAGAACAAATCCTTACTAAGGATCAGCTTGGGGAATTCGAGGAAATCTGGATGGTGAATGCCCTCCGGGGGTGGGTGAAGGCAGAGTTCTCATAA	MNHEPLLQFEFVNEHGKKENRRFEKPVEILTTDNHQEVKELFERLEELLDEGYYAAGYVSYEAAPAFDESFVVHESPEWPLVWFGIFENGQDASEHSTGLPFYVSEWKMKGSYNHYRKGIEQVKKGIEEGDTYQVNYTTRLEAAFSGDDFSLYQRLMNNQKPGYGAYINMGGRSLLSASPELFFRMNNRTITTKPMKGTAGRGRFYSEDEEQHTHLQVSEKEKSENLMIVDLLRNDLGRIAVPGSVRVPALFEIETYPTVHQMTSTVEGELPPSLTMYQVFEALFPCGSITGAPKVRTMEYIKRLEDSPRDVYCGAIGFITPTREAVFNVPIRTIMINHDSGRAVYGTGGGVTWDSTSEGEYQEVLTKARLLTEDRPDFQLLETMRLEEGRVHLLDYHLQRLQKSARYFQFPLNASRLKQRLRQESDRRPEGLYKIRLLTDESGREEIQVMPMDPPASHVQTALAAAPVSDQDPFLFHKTTHREVYERHKVPGKAATLLWNDRGELTEFTIANLVVKYHGEYITPPVTSGLLEGTYRQYLLDQARIKEQILTKDQLGEFEEIWMVNALRGWVKAEFS	PGPT0008015_617	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008015-pabBC-K03342	NA	NA
AK012_01659	369			hypothetical protein	GTGAAGCATGTCGTTTTTTATGATGCACAGTGTCCCTTCTGCTTCTACGTTAAAAAAATACTGATGAAGTTTGACTGGCTGGGACAGATCAAATGGGTAGCTGTACAGGAAACAGAGAAAAGTGGAAAATATCCTTATTTAGAGGGACGAAATGTCCTTGATGAAATTCATATGCTCACAAAAGAAGGGGAAATCACCCAGGGGTTTGAAACCATACGCCGGTTGATGCTGGCCCTGCCTTTCTTTGCAGCCTTCGGTGTCCTTCTATCTCTTCCAGGAGCCTCACGAATAGGCTCCCCTCTATACCGCTGGTTTTCTGATCACAGACACCAGTGGTTCGGAAGGTATGATCTTCCCCGATATGCATAA	MKHVVFYDAQCPFCFYVKKILMKFDWLGQIKWVAVQETEKSGKYPYLEGRNVLDEIHMLTKEGEITQGFETIRRLMLALPFFAAFGVLLSLPGASRIGSPLYRWFSDHRHQWFGRYDLPRYA				NA	NA	NA	NA	NA
AK012_01660	162			hypothetical protein	ATGAATAAAGCGACATTGACCATTTTTCTTGTACTCTGTCTTCTTTTCCTGACCAGGGGACTTTACATCGGTATCTCCCAGGGGGAATGGACATCCTTGATCATCGCCCTGTTGATCATCGTGTTTGGATCCTACCGGCTTTTTCAAAAAAACCAAAAATAA	MNKATLTIFLVLCLLFLTRGLYIGISQGEWTSLIIALLIIVFGSYRLFQKNQK				NA	NA	NA	NA	NA
AK012_01661	831	rsbRD		RsbT co-antagonist protein RsbRD	ATGAATAATGAGCTGTCCTACATAAAAGATAAAATTGTATCCAGCAAAAAAGTGCTGGATGAACAAGTCAAAGCGATGAAGAAAAAGGAATATGGGGTGGAGGCACTCATGACAGCTGACTGGGAGCAGCTGTTCATATATATTTCTGAAAGCCTGGAAGAAGAGACATTGGACGTTCATGAAAAAGTGAAGGTCTGGTCGGAAAAAGAAGTGGCGAGCAAAATCAACCAGGGCGGAGAATTGTCACAGTCCCTGAGAGCGGTTCATTTTGTCCGCCGGGTGCTTTGGGATCATTTTAAGGAAGAGTTGGAACAGGATGCCTTCTCTTCTTCCACCATTATCAAAGTAAGTAAAGCCGTCAGTTCCATCCTTGATGAAGTCACCAGGCACTTCAGCGAGTCTTATTCAAGAAGCATCCAGGAGGAGGCTGAGCGGAAAGAAACAAGACTTGCGGAATTGTCTGTTCCCGTGGTTACGATTGTTGAAGGAGTGGCGGTTCTGCCTCTCATTGGAGAGGTCGATCCACCAAGGGCAAGAATGGTGATGGATACATCCCTCCGCCGTAGTACCGAACTGGATCTCGATGAGCTGTTCATTGATGTATCCGGGGTCCCGATCATCGATACCTATGTAGCGAATTACATCTATCAGATTTTCCATGCCTTGGAGCTTGTCGGTGTGAAAACGACATTGACAGGCCTCAGGCCGGAAATGGCGAAAACGATGGTGGATCTTGGTGTCAACTTTAAACGGATCCAGACAAAAGGTGGTCTCGAACAGGCACTTAGTGACCTTGGGATCCAACGTCCTTCCACCTCACTTGAGACATAA	MNNELSYIKDKIVSSKKVLDEQVKAMKKKEYGVEALMTADWEQLFIYISESLEEETLDVHEKVKVWSEKEVASKINQGGELSQSLRAVHFVRRVLWDHFKEELEQDAFSSSTIIKVSKAVSSILDEVTRHFSESYSRSIQEEAERKETRLAELSVPVVTIVEGVAVLPLIGEVDPPRARMVMDTSLRRSTELDLDELFIDVSGVPIIDTYVANYIYQIFHALELVGVKTTLTGLRPEMAKTMVDLGVNFKRIQTKGGLEQALSDLGIQRPSTSLET	PGPT0014945_1149	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
AK012_01662	1011	yfmJ	COG2130	Putative NADP-dependent oxidoreductase YfmJ	ATGAGTAATCGAGAAATTCAGCTGGTAGAAAGACCGACAGCCGCTCCTACCCATGAGCATATCAAAATCGCCGAAACAGAAAAACCTGAACCAAAACAGGGAGAAGTCCTTGTGAAGCTTCTTTACGTATCTGTAGATCCATACATGCGCGGACGTATGAGTGATGCGAAATCCTACGTAGCCCCTTTCCAATTAAATGAACCGATGGAAGGCGGCGTTGTCGCTGAAGTTGTAGAATCACAAACAGACGCCCTGGCGGCGGGAGACATCGTTACAGGAATGCTTCAGTGGCAGGAATTCACAACGGCTGATCCAAATACCTTGAGAAAAATCGACCCAAGCCTGGGACCTGTCACTACATCCCTTGGTATTCTCGGTATGCCGGGACTAACCGCTTATTTCGGATTGATGGACATTGGTCAGCCGAAACAAGGAGAGACGCTTGTCGTTTCCGGTGCGGCGGGGGCTGTTGGCTCAGCTGTCGTGCAAATCGGTAAAATTGAAGGCTGCCATGTTGTTGGTATCGCCGGCTCTGATGAAAAACTCGCGTATTTAAAAGATGAACTGGGTGTCGATGAAGTCATCAACTATAAGACGGACGACGTTCCTGCCCGTCTGGATGAAGCATGCCCGAACGGGATTGATATTTACTTCGATAACGTCGGTGGCGAGATTTCCGATGCCGTTTATCCACGCCTGAATAAATTTGCGCGTATTTCCCAGTGTGGAGCTATTTCCACGTACAATACGCCGAATGCCCAGGGACCTCGCATGCAGTCCCACCTTATTAAGGCCAGTGCCCTTATCAAAGGATTCACTGTCGGTGATTATCAGGACCGTTTCAGTGAAGGCTTCCAGTACTTGTCCCAGAAACTCCAGGAAGGCCGTCTGACGTATGAAGAAACGATCGTCGAAGGTTTCGAAAACGTCCCGGATGCGTTTTTCGGATTGTTTGAAGGGACGAACCTCGGGAAACAGCTCGTGAAAGTTGCGGAACCTTCCCATTCCTAA	MSNREIQLVERPTAAPTHEHIKIAETEKPEPKQGEVLVKLLYVSVDPYMRGRMSDAKSYVAPFQLNEPMEGGVVAEVVESQTDALAAGDIVTGMLQWQEFTTADPNTLRKIDPSLGPVTTSLGILGMPGLTAYFGLMDIGQPKQGETLVVSGAAGAVGSAVVQIGKIEGCHVVGIAGSDEKLAYLKDELGVDEVINYKTDDVPARLDEACPNGIDIYFDNVGGEISDAVYPRLNKFARISQCGAISTYNTPNAQGPRMQSHLIKASALIKGFTVGDYQDRFSEGFQYLSQKLQEGRLTYEETIVEGFENVPDAFFGLFEGTNLGKQLVKVAEPSHS	PGPT0023605_623	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
AK012_01663	714			hypothetical protein	ATGAACGGGTTCAACTGTCATTCCGTGAAACGAATCGAAGGAGAAAAATACATTACGATTGAAGATACAGGGAAGCTGTCCACCCTGGAAATCTGCTCTTTAGCTGACAGGATTGATCAGGAAGCCGTTCCCGGCCAGCTGGTCACGCTTATGGTGGGGAATCATCCGGCAGCAGAGAAATATCTGTTGAACACAGGCTTTTCCAAACACAACGCGACCGTTTTTTACCGGAACCCTTTAAAGTCTCTGCCTTCTCCGGCTGCTTCATTCACATGGAAGAAGGTTTCGGATATAGGAGAACCTTTATTCAAGGAGATCTGGGAGCGGTCGATGGAGGATTCCCCAAACGGAGAATCCAATCAGACCATGGAGGAGCATATGGACAGCGTCAAACAGGAATTAGGAAAAGGGTATGAGCATTCCTGCCTGGCGGTTTATGAAAAGGAAGGGCCTGTAGGAGTCGCTATGCCTCACATTGAACCGGGGACAGAGGATGAGGGCCGTGTTTTTTATTTCGGACTGATACCTGAAGAGCGTGGAAAGGGAAAGGGGACTCCGGTGTTTATTGAAACCCTCCGCCGCCTGAAGTATGACTTCAGAGCTGCCTGTCACGTCGGTTCGACCAGTATCCAGAACAAACCGATGCTCCGGTTGTTTGAAAAAACAGGCGGTACGCAGGAAAGGATCGTGACAGCTTACAAGAAACAAATGTAA	MNGFNCHSVKRIEGEKYITIEDTGKLSTLEICSLADRIDQEAVPGQLVTLMVGNHPAAEKYLLNTGFSKHNATVFYRNPLKSLPSPAASFTWKKVSDIGEPLFKEIWERSMEDSPNGESNQTMEEHMDSVKQELGKGYEHSCLAVYEKEGPVGVAMPHIEPGTEDEGRVFYFGLIPEERGKGKGTPVFIETLRRLKYDFRAACHVGSTSIQNKPMLRLFEKTGGTQERIVTAYKKQM				NA	NA	NA	NA	NA
AK012_01664	372			hypothetical protein	ATGGTGGAACGCGTAAAAGCCACAGATGCTGCCCTGGAACTCATCGACCGGCTGAAAAAGAAGCACGGCTCTCTTCTCTTTCACCAATCGGGTGGATGCTGCGATGGCAGCTCACCGATGTGTTATGAAGAAGGCGATTTGATGATTGGCAGTCAGGATGTCCGGCTCGGGGACATTGGAGACACCCCTTTCTATATGAATAAACGACAGTTTGACTACTGGAAGCATACCCAGCTGATCATAGATGTTGTGGACGGCCGGGGAGGCATGTTTTCTCTAGAAGGTGTGGAAGGAAAAAGATTCCTCACGAGATCCCGGGCCTTCACAGATGAAGAGTATCAGCAGCTGAAAGAAGCAGAAGTACAAAAATAA	MVERVKATDAALELIDRLKKKHGSLLFHQSGGCCDGSSPMCYEEGDLMIGSQDVRLGDIGDTPFYMNKRQFDYWKHTQLIIDVVDGRGGMFSLEGVEGKRFLTRSRAFTDEEYQQLKEAEVQK	PGPT0017992_21	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
AK012_01665	1521	adh	COG1012	Aldehyde dehydrogenase	ATGGTTTATGCTTTTCCGAACACAGAAGGATCGGAAGTCCAGTTTAAGGAGCGCTATGACAATTTCATTGGTGGAGAATGGACCGCTCCCGTGAAGGGACAGTATTTTGAAAATGTGACACCTGTTACAGGCAGAACTTTCTGTCAGGTAGCACGATCCACAGAAGAGGATATTGAACTGGCGCTGGATGCAGCTCATAAAGCGAAAGATTCATGGGGGACGACCTCAGTCACCGAACGTTCCCTGATCCTTAACCGGATTGCAGATCGTCTGGAGGAAAACGCTGAAAAGCTTGCCGTTGCTGAAACATGGGAAAACGGAAAAGCTGTCCGCGAAACGCTGAATGCGGATATTCCTCTTGCTGTAGACCACTTCCGGTACTTTGCTTCTGTCATTCGATCCGAGGAAGGCACCATCGGGGAAATCGATCAGGATACCGTGGCCTATCATTTTAAAGAACCGCTGGGTGTTGTCGGTCAGATCATCCCTTGGAACTTCCCGCTTCTGATGGGAGTTTGGAAAATCGCTCCTGCCCTGGCTGCGGGTAACACGATTGTCCTTAAGCCGGCAGAGCAGACGCCTGCTTCCATCCTTTATTTCATGGAAATGGTGGAGGACCTTCTTCCGGCAGGTGTCTTGAATATCGTGAACGGATTCGGTCTGGAAGCCGGTAAGCCTCTGGCACAGAGTCCCCGTATCAACAAGGTCGCTTTCACCGGAGAAACGACAACCGGGCGGATGATCATGCAGTACGCCTCTCAAAATATCATTCCTGTTACGCTGGAGCTTGGTGGGAAATCACCGAACATTATATTTGAGGATGTCATGCGCGAAGATGACGATTTTCTTGATAAGACGATTGAAGGTATGGTGATGTTCGCCTTGAACCAGGGCGAAGTTTGTACGTGTCCGTCCCGGGCTCTCATTCAGGAGTCTATCTATGATGAATTCATGGAGCGTGCCATTAAACGGGTCAAAGAAATCAAAACGGGAAATCCACTTGATCCTGAAGTCATGATGGGTGCCCAAGCCTCCTCTGAGCAGCTGGAAAAAATCCTTTCCTATTTGGAAATCGGGAAGGATGAAGGAGCCGAATGCCTGACCGGTGGAGCACGCAATCAGCTGGACGGCGACTTTAAGGACGGCTATTATGTGCAGCCGACCGTTTTTAAAGGGAACAACAGCATGCGGATTTTCCAGGAGGAAATCTTCGGCCCCGTCTTGTCTGTGACAACGTTCAAAGACCATGACGAAGCTATGAAAATCGCCAACGATACCCTTTATGGTCTGGGGGCAGGTGTGTGGACGAGAGACATGAATACCGCCTATCGTTTCGGCCGCGGCATTGAAGCCGGCCGTGTGTGGACAAACTGTTACCACGCCTACCCTGCCCACGCAGCTTTTGGCGGCTACAAAATGTCCGGCGTCGGCCGTGAGAACCATAAAATGATGCTGGATCACTATCAGCAGACGAAAAACATGCTTGTCAGCTACAGCCCTAAAAAGCTTGGTTTCTTTTAA	MVYAFPNTEGSEVQFKERYDNFIGGEWTAPVKGQYFENVTPVTGRTFCQVARSTEEDIELALDAAHKAKDSWGTTSVTERSLILNRIADRLEENAEKLAVAETWENGKAVRETLNADIPLAVDHFRYFASVIRSEEGTIGEIDQDTVAYHFKEPLGVVGQIIPWNFPLLMGVWKIAPALAAGNTIVLKPAEQTPASILYFMEMVEDLLPAGVLNIVNGFGLEAGKPLAQSPRINKVAFTGETTTGRMIMQYASQNIIPVTLELGGKSPNIIFEDVMREDDDFLDKTIEGMVMFALNQGEVCTCPSRALIQESIYDEFMERAIKRVKEIKTGNPLDPEVMMGAQASSEQLEKILSYLEIGKDEGAECLTGGARNQLDGDFKDGYYVQPTVFKGNNSMRIFQEEIFGPVLSVTTFKDHDEAMKIANDTLYGLGAGVWTRDMNTAYRFGRGIEAGRVWTNCYHAYPAHAAFGGYKMSGVGRENHKMMLDHYQQTKNMLVSYSPKKLGFF	PGPT0007176_1677	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-BRANCHING_STIMULATION	PLANT_BRANCHING-AUXIN|IAA_METABOLISM	PLANT_BRANCHING-IAA_METABOLISM,PGPT0007176-aldB-K00138	NA	NA
AK012_01666	873	ypcP	COG0258	5'-3' exonuclease	ATGACAACCAACCGTATACTGCTTGTCGATGGCATGGCTTTGTTATTCCGGGCCTTTTATGCCACGGCTATGAGTAATTATTATATGATCAACAGTAAAGGGACGCCGACCAATGCCGTCTATGGTATGATGAAGCATTTATTCACCGCTTTGGATACGTATCAGCCGACCCATGTCATCTGCTGCTGGGATATGGGAAGTAAAACGTTCCGGAACGACCTGTACCCGGATTATAAAGCCAATCGCGGGGAGCCGCCTGTCGAACTGCTTCCTCAATTTGAACTGGCTAAAGAAACGGTCGCCGCCCTCGATATACCGAATGTCGGCCGAGTGGGGTATGAAGCAGACGACTGCATGGGGACGCTCAGCCGGGTGTATAGTGAAGATTCCCAGGTTTTCCTGCTGACAGGAGATCAGGATCTTCTGCAGCTTTTGAAACCGAATGTAAACGTCGTACTGTTGAAGAAGGGGTATGGCAATTACGCGGAGTACCATGAAGAAAGTTTTTACGAGGAGAAAGGCATTACACCATCGCAGATGATTGACTTGAAAGCTTTGATGGGGGACACGAGTGACAACTATCCAGGAGTGAAAGGGATTGGCGAAAAAACAGCCCTGAAACTTCTTCTGAAGTATGGAAATATTGAAGGCATTCTTGAAAATATCGAGGAATTAACGAAAGGTCAGCGCTCAAAGATAGAAGAGAACCTGGAGATGCTTCATTTATCCAGGAAGCTTGCTGCGATTCATTGTGAAGCAGCGGTGGACTGTTCGCTCGATGAGGCTCTGTTTTACATTGATGATGAGAAAATGGGGGCCAAATTCGACGAACTTGAATTTAAAAACTGGAAGAAAAACATTACCGGAATGTAA	MTTNRILLVDGMALLFRAFYATAMSNYYMINSKGTPTNAVYGMMKHLFTALDTYQPTHVICCWDMGSKTFRNDLYPDYKANRGEPPVELLPQFELAKETVAALDIPNVGRVGYEADDCMGTLSRVYSEDSQVFLLTGDQDLLQLLKPNVNVVLLKKGYGNYAEYHEESFYEEKGITPSQMIDLKALMGDTSDNYPGVKGIGEKTALKLLLKYGNIEGILENIEELTKGQRSKIEENLEMLHLSRKLAAIHCEAAVDCSLDEALFYIDDEKMGAKFDELEFKNWKKNITGM				NA	NA	NA	NA	NA
AK012_01667	1263	nprA_1		Transcriptional activator NprA	ATGAAAGGCTCATTAATTAAGCAACATCGTACGTTTAAAAATATGACCTTGGAAGAACTTGCATCAGGAATATGCTCGGTCTCTTATCTTAGTAAGATTGAGCATGATACGATCAATGCCAGCGAAGAAATTTACCGCCTTCTTGGAGAGCGTTTAAAAATTAAGTTGATAGATATCAATGAAGAGTTTGACGAGGCTATTTACAACAATCTACATGCCTGGCATGAGGCTGCACAATTGAGGGACTTCTCCCTTATGGAAGAACTTCATAAAGAATGTGAAAGCCAATTAAGTGAAAATCAAAATATAGAGTTGACCAATCTATTCAAAATTATCCACACCCGGCATCTTATGACTCAAACTGGAAAACCTCTGAATGATGACACCATGAAGGAACTTTCCAATATTTATAACGGTGCCAATACGGAATATAAATTCTTCTTCCATAAAACAGTGGGTGTCCATTATTTACTGGTAGCGGAATTAAAAAAATCATTGAAGCATTTTATGGAAGCAGAACATCTCATGAATAGACTTCCCATTCACGAAGGTGAGGTTTATTTCCATTTAGCTTTGGCTTATTCAAAAATCCGCTCCTTTGTTGAGTCCACCTACTATGCCCATCAGGCATTAGAGATTTATGAGAAAACTTTATATTATCAACGCTTGGTTGATAATTACATGATTATTGCCATCAACTACAATTCCCTGGGTGTCCACCAAATCGCCGAGAAGTTCCTGCTTAAAGTGTTGAAGGCCGCTAAATATCAGCTGCCTGTTACTGAAAAAAGAAGGATCTACCACAACCTCGGGATCAACTATATTAATCAGGAGAAATACTCCGACGCCTACCACTACCTTCAACAAGCCTATGAAATAGATACGAAGGAAACTATGTTCAGATCCAGCACCATATACCTGCTCGCTTTAACCAGCTACTACAGCAGCGACTTATCTCAATGCTGGAAGTACATCGAGGATGGAGAAGCTGAATCGGAAAAAGAAAATCTGCTGAAATACAAACATAAGTTTTATATTTTAAGGAATATGGTGAGTGAAACAACCCTTGAAGATTCCTTCATGGAAAAGCTTGAGAATACAATTATCCCAGACTTCCGCCGTTTGAATGAATATAAAGACTATAAAGAATTTGTAGAAATGCTCGGCAACCTCTATTACGAAAAACGCATGTACAAAAAAGCCGCCATGTACTACAAAGAAGCCAACCATTACAGAGAAACCCAGAAAAAGGATCTGCTATAA	MKGSLIKQHRTFKNMTLEELASGICSVSYLSKIEHDTINASEEIYRLLGERLKIKLIDINEEFDEAIYNNLHAWHEAAQLRDFSLMEELHKECESQLSENQNIELTNLFKIIHTRHLMTQTGKPLNDDTMKELSNIYNGANTEYKFFFHKTVGVHYLLVAELKKSLKHFMEAEHLMNRLPIHEGEVYFHLALAYSKIRSFVESTYYAHQALEIYEKTLYYQRLVDNYMIIAINYNSLGVHQIAEKFLLKVLKAAKYQLPVTEKRRIYHNLGINYINQEKYSDAYHYLQQAYEIDTKETMFRSSTIYLLALTSYYSSDLSQCWKYIEDGEAESEKENLLKYKHKFYILRNMVSETTLEDSFMEKLENTIIPDFRRLNEYKDYKEFVEMLGNLYYEKRMYKKAAMYYKEANHYRETQKKDLL	PGPT0011700_189	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-OTHER_QUORUM_SENSING_REGULATED_GENES,PGPT0011700-nprR|nprA-K20480	NA	NA
AK012_01668	636	yhfK_1	COG0702	putative sugar epimerase YhfK	ATGAAAGTACTTGTAGCAGGAGCGAACGGACATACCGGACGTCTATTAGTAGAATATTTAAAAGCAGACGGCCATGAGCCTTATGGCCTCATTCGTAAAGAAGAACAAAAAGCAGTGGTTGAGAAGCTCGGAGGTACGCCGGTCCTTGCCGATGTAACCAAGAGTGACGTAGGCTATGCGGTTAAAGGAATGGATGCAGTCATTTTCGCAGCAGGGTCAGGATCCAGCACCGGTTCCGACCAGACAGAAGCCGTTGACCGTGATGGTGCAATCAATCTCGTAAAAGCCACCGAAAACCTAGGCATTAAGAAATTCGTCATGCTGAGCAGTATGGCAGCAGGTGAGCCGGAGCGCGGACCTGAGGAATTGAAGCACTACATGAAGATGAAGGGCGAAGCGGATGATTACCTTAAATCTACGGAGCTTGACTATACCATCGTCCGTCCCGGCGGTCTGACAAATGATCCAGGCAGCAGCAAAATCCAGGTCGGGGAAAAAGTAGATGCTGGAACGATTTCCAGAGAAGATGTCGCAAAAACGATGATCGCCTGCCTTGAGGAGCAGAACTGCTACCACAAAACATTTGAAATGATTTCCGGTGATCAACAGATTGAAGAAGCTTTAAAAACATTATAA	MKVLVAGANGHTGRLLVEYLKADGHEPYGLIRKEEQKAVVEKLGGTPVLADVTKSDVGYAVKGMDAVIFAAGSGSSTGSDQTEAVDRDGAINLVKATENLGIKKFVMLSSMAAGEPERGPEELKHYMKMKGEADDYLKSTELDYTIVRPGGLTNDPGSSKIQVGEKVDAGTISREDVAKTMIACLEEQNCYHKTFEMISGDQQIEEALKTL				NA	NA	NA	NA	NA
AK012_01669	951			hypothetical protein	ATGTTTGAAATCAAACCATACCCTGAATTATCCTGGTCACTTTCCCGTCACAAGATCATGCTGACCTGTTCCAGAAAATACGCCTACGATTACTATGTTTCCCATAACGGCTGGCTTCGACAGGCGGATTCTTTAGCGAGACACGCCTATCGATTAAAGAAAATCACCAGCCTGGAAATGTTGTTTGGAAGCATTGTCCACGACCTGATTTATCAAACGCTGCAGAAAGTGCGCAGGAATGAGACCCTGCCGACCGAGGAGCATCTTTTAGATGATATCCGCCATCATCTGAATCGCGGCTTCATTGAATCCACGAAAAAAGAACACCTGTGGATGAACAGACCGAAGCACTACACCATGCTGCACGAAATCTATTACAGCCAGTCCAGCACACTTCCTAAAGCAAAGGTGGAGAAAATCACAGGCCGTCTGCAGCATGTCGTCAAACACTTCTTTAACAGCCGGACGTTCAAGGATGTTCAAGATAAACAATCGATGGAATTTATTGAATCGGAAACCTTCCGTTTCATGAAAGCGGACGGCGTAAAAATCTTTGTCGTGATGGACCTTGTGTACAAAGACACAGCGAGAAACAAATGGATCATTGTCGACTGGAAGACCGGAAAATCCTCCGAGGAAGACCGGAGCCAGCTTTCTCTTTACGCTCTATACCTGCTTCAAAAGTATGACATTCCATCTTTGGATGACATCGTTATCCGAAACGAATATTTGATTGACGGCACGCATGTCGAGCACCAGCTGGACGAGCAGGATCTGATCAATGTCCAGAACCTTTATCAAATCAGCATGGAGCAGATGAAGCTTTACCTGGCCGATCCGGATAAAAATGAACCTCTCCCCCTCCAGCAGTTTCCGATGCAGAGCAACCCTTCCATCTGTGCGCGGTGCAATTATCAGGAGCTCTGCTTTCCTTCAGATCCGAATGTTTGA	MFEIKPYPELSWSLSRHKIMLTCSRKYAYDYYVSHNGWLRQADSLARHAYRLKKITSLEMLFGSIVHDLIYQTLQKVRRNETLPTEEHLLDDIRHHLNRGFIESTKKEHLWMNRPKHYTMLHEIYYSQSSTLPKAKVEKITGRLQHVVKHFFNSRTFKDVQDKQSMEFIESETFRFMKADGVKIFVVMDLVYKDTARNKWIIVDWKTGKSSEEDRSQLSLYALYLLQKYDIPSLDDIVIRNEYLIDGTHVEHQLDEQDLINVQNLYQISMEQMKLYLADPDKNEPLPLQQFPMQSNPSICARCNYQELCFPSDPNV				NA	NA	NA	NA	NA
AK012_01670	324	atl	COG3695	DNA base-flipping protein	ATGAGACCGTTCACCGAAAGAACCATAACCATCATTAAACAGATTCCTGAAGGACACGTCATGACCTATGGACAAGTGGCCCGTACAGCCGGCAATCCCCGTGCTGCACGACAGGTTTCCCGGGTGCTTCACAGCATGAGTTCCAAACATCAGCTTCCCTGGCATCGTGTAGTGAATGCCCAGGGCCGGATTGCTTTTCAAGATGAAGACAGAGCCGCCGTCCAGCGTAACCTGCTGCAACAAGAAGGAGTCGTTGTGCTCCATAACAAAGTGTCCCTGGAAACCTATCAATACACCAATCATGAACCTTATGAATCCATATAG	MRPFTERTITIIKQIPEGHVMTYGQVARTAGNPRAARQVSRVLHSMSSKHQLPWHRVVNAQGRIAFQDEDRAAVQRNLLQQEGVVVLHNKVSLETYQYTNHEPYESI				NA	NA	NA	NA	NA
AK012_01671	804	pdxK	COG0351	Pyridoxine kinase	ATGGGACAAATACCAAGAGTCTTGAGTATCGCTGGTTCAGCCTCTCAGGGCAGTGCAGGCATCCAGGCGGATTTGAAGACATTTCAAGAATTCGATGTATACGGAATGAGTGCCATAACAGCTCTCGTGGCCAATAATAAAAGAACAGAACAGGGGATTTTCACACAGCCGCTGTCGTCGGTCGAAGCTCAAATCTATGCTTCTCTTGAGCATGTAGGTGTAGACGCCTTGAAAACAGGGATGCTGTTCACTGAAGAGATCATAAAGAGGACAGCCGAAATCATCGGGGAATCACAGATGGAGAATGTAGTAGTGGATCCCGTCATGGTCGGGAAAATGGGATCCCAGCTCCTAAAGGATGAGGCTGTTGAAACCCTTATGAACGAGCTGCTTCCTTTGGCGAAAATCATTACGCCCAACCTTCAGGAAGCGGCTCACATGCTGGGCATACCGGTTCCGGAAACACCGGAGGATATGAAGACAGCAGCACGGGATCTGTATCATCTCGGTCCGGATTATGTATTGATTAAAGGGGGAGCATTAAAAGAATATCCAGCTGTCGACATGCTGTATGATGGCAGTGGAATGATTGAACTGGAATCTGAGCGTGTCCAGACGATCCACACAAGCGGAGCAGGGTGCACATATTCCGCCGCCATCACCGCTGAACTGGCTAAAGGAAACGGAGTGGAGGAGGCTGTCCGGCGGGCCAAGTCGTTCGTAACGACGGCTATACAGCATGCTTTATCCTTTGACCGCGGGATAGGTTCCACCTATCATGCCGCTCATCGACTCAGGAAGTGA	MGQIPRVLSIAGSASQGSAGIQADLKTFQEFDVYGMSAITALVANNKRTEQGIFTQPLSSVEAQIYASLEHVGVDALKTGMLFTEEIIKRTAEIIGESQMENVVVDPVMVGKMGSQLLKDEAVETLMNELLPLAKIITPNLQEAAHMLGIPVPETPEDMKTAARDLYHLGPDYVLIKGGALKEYPAVDMLYDGSGMIELESERVQTIHTSGAGCTYSAAITAELAKGNGVEEAVRRAKSFVTTAIQHALSFDRGIGSTYHAAHRLRK	PGPT0009125_2863	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
AK012_01672	942			hypothetical protein	ATGAGCTCAAAAGATTATCGAGTTCTGCTGTATTATAAGTATGTTGACCTTCCTGATTACGAAGAGTATTGCCAGAACCACCTGAAATTCTGTAAGGATCTCGGGCTGAAAGGACGAATCATTGTATCTCATGAAGGGATCAATGGAACCGTCTCAGGTACAGTGGAACAGGTAGAAGAATATATGAACTATGTACGCTCCGATGAGCGCTTCGCAGACATCCATTTCAAGATGGATGAGCATGAAGGCCACGCATTTAAGAAAATGCACTGCCGCGTGAAGCCTGAACTTGTCAACTGGAGCATCGACGAAGATGATATCGATCCTAAAACCTTCGGAGGTAAGCACTTAAAGCCGAAGGAATTCAACGAAATGTTGAAGGATGATGATACGATCGTCATCGACGGCAGAAATGAATATGAATACCGGATCGGTCATTTCCGTAACGCTATTCAGCCGGATGTCAATCACTCCCGTGAATTCCCTGAATGGATTGCTGAAAATGCCGACCAGTGGAAGGGCAAGAAGGTCCTGACTTACTGCACAGGAGGCATCCGCTGTGAAAAGCTGACCGGCATTCTGAAGAAAAACGGCGTGGAAGATGTATACCAGCTTGAAGGTGGAATTACAACGTACAGCAAGGACCCGGAAGTTAAAGGTGAACTGTTCGATGGGAAGATGTACGTCTTTGATGAGCGTATCTCTATTCCTGTCAACCACGTAGAAGACAAGGTCATTGCTGAATGCGAACACTGTGGAAAACCCGAAGACCGGATGATCAACTGCAGCAATCCTGTCTGCAACCGTCAGTATGTCTGCTGTGAAGCTTGTGAAGAAGAACAGCATGCAGCCTGCACAGCTGAATGTAAAGAGCACCCGGAAAACCGCTGGGATGCTGTTCAGAAAAAGCAGATTGATAAATACGACCGTGTTCACGGATAA	MSSKDYRVLLYYKYVDLPDYEEYCQNHLKFCKDLGLKGRIIVSHEGINGTVSGTVEQVEEYMNYVRSDERFADIHFKMDEHEGHAFKKMHCRVKPELVNWSIDEDDIDPKTFGGKHLKPKEFNEMLKDDDTIVIDGRNEYEYRIGHFRNAIQPDVNHSREFPEWIAENADQWKGKKVLTYCTGGIRCEKLTGILKKNGVEDVYQLEGGITTYSKDPEVKGELFDGKMYVFDERISIPVNHVEDKVIAECEHCGKPEDRMINCSNPVCNRQYVCCEACEEEQHAACTAECKEHPENRWDAVQKKQIDKYDRVHG	PGPT0013330_1431	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013330-UPF0176_protein-K07146	NA	NA
AK012_01673	1362	ribZ		Riboflavin transporter RibZ	ATGATGTCACCCTCACCTGAACCGTCGATGAAATATTTTAAAACCGTGTTTATTTTAAGTGCTGCTGTCCTCATTGTTGTAATGAATACAACGATGTTTAATATTGCGCTCCCAAGCATACTTCGGGAGTTTTCACTGGAGCCGTCGGAAGGTGCCTGGATTGTTTCCGGCTACTCCATTGTCCTGGCTGTCTTTACGATTACCTATACTCGTTTAACGGATTATATCCCCATCCGCCATCTGCTGACGATCGGGATTACCATTTTCAGTTTATCTTCCATTCTGGGATTCTTTGCGGATTCCTATCTATGGCTGCTGACCGCACGCCTGTTACAGGCGGTGGGCGCCGCTGCTATACCGGGGCTGTCCATGGTATTCGCTGGAAGGTATATACCGCCGGAACGCCGGGGAAGTGCTTATGCACTAATCGCTTCCTCCTCCTCCCTCGGTTTCGGTCTGGGACCGGTGGCCGGCGGGTTCATTACGGACTACGTCAATTGGAATTTCTTATTTGTTGTAACCGTCATGGTTTTATTCATCGTTCCTGTCCTTTACAGAGTCATGCCGGCTGAAACCATTAAACGGGGAAGCTTTGATGTGTGGGGAGCAGTATGGTCAGGAGGTACGGCCACCTTTTTCCTTTTATACTTTTCAACCTTTACCCCGTGGTATTTAGCCGGGGGTATTTTATCCGCTTTGTTGTTATGGCGGAGAATCAATCATACGTCTGTCCCATTTATTCAACCTGAGATTTTAAAGAACCCTCAATACCGGAAGATCTTATATATGAGCTTTCTCGGCTTCACTCTTCACTTTGCTGTTCTATTTCTGATGCCGATTATGCTTGAACAGGTATATGGGAAAGGAGCGGCTGCAACGGGGCTGATCATATTCCCGGGTGCGATGCTTTCGGCTGTCGCAGCGGTATATATCGGACGGCTGATTGACAGCTACGGAAACATCAGAATCTTATTATTGTCGCAGGTATTACTAATCATTGCCGGCGTTATCTTTTACACGTTCTCCGGGGTAAGCGCCTATTTCATTATGGTCGGGTATATGTTTACAAGCTTCGGTTTTTCCAGCTTGTCGTCCAGTTCCACGAATGAAGTATCCAATATTCTCCCCAATGAGCAGATTGGAGCCGGGATCGGGCTTAAACAGCAGATCCAGTTTATCGGCAGTGCCTCTGGCTCTGTGCTTGCGGGGATTCTGCTGGATTTCAGGCAGCAGCCTTACACCGTGTCTGACTTCACCCTTCCGTTTGGAATATTGATTCTGCTTATGGCGCTGTCCACTCTGACACTGGCCCTGTACACAAGAAAGCCTGAAGTTCCAAACGTTCAAAAAACTGACATTTGA	MMSPSPEPSMKYFKTVFILSAAVLIVVMNTTMFNIALPSILREFSLEPSEGAWIVSGYSIVLAVFTITYTRLTDYIPIRHLLTIGITIFSLSSILGFFADSYLWLLTARLLQAVGAAAIPGLSMVFAGRYIPPERRGSAYALIASSSSLGFGLGPVAGGFITDYVNWNFLFVVTVMVLFIVPVLYRVMPAETIKRGSFDVWGAVWSGGTATFFLLYFSTFTPWYLAGGILSALLLWRRINHTSVPFIQPEILKNPQYRKILYMSFLGFTLHFAVLFLMPIMLEQVYGKGAAATGLIIFPGAMLSAVAAVYIGRLIDSYGNIRILLLSQVLLIIAGVIFYTFSGVSAYFIMVGYMFTSFGFSSLSSSSTNEVSNILPNEQIGAGIGLKQQIQFIGSASGSVLAGILLDFRQQPYTVSDFTLPFGILILLMALSTLTLALYTRKPEVPNVQKTDI	PGPT0027880_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027880-tetB-K08168	NA	NA
AK012_01674	549	pncA	COG1335	Nicotinamidase	ATGAACCGTGCATTACTAGTCATTGATTACACGAATGATTTTGTGGCAGATGAAGGGGCGTTAACCTGTGGAAAAGCAGCTCAGGCGCTCGATCCATTCCTCACCCATTTGAGCAGGGAATTTATCGATCAGGGGCAGCTGCTTGTGTACGGGGTCGATATTCATGAGGAAGATGATCTTTATCATCCGGAAACGACGCTCTTTCCTCCTCATAATATAAGAGGATCGGAAGGAAGACACTTGTATGGAAAGACAGGAGACGTCTATGCGGCGAATGCAGACAACCCTTCGGTACTGCACATCGACAAAACCCGTTACAGTGTTTTTGCTGGTACCAACCTCGATATGAAATTACGTGAACGGGGCGTGACAGAGCTTCACCTTACAGGCGTATGCACAGACATCTGCGTGCTTCATACAGCTGTGGACGCCTATAATCTCGGATATTCGCTGACCATTTATAGAGAAGGAACGGCGAGCTTCAATGAAGCTGGTCATACATGGGCGCTGTCCCATTTTGAAACCACCCTTGGTGCCAAGGTCATATAA	MNRALLVIDYTNDFVADEGALTCGKAAQALDPFLTHLSREFIDQGQLLVYGVDIHEEDDLYHPETTLFPPHNIRGSEGRHLYGKTGDVYAANADNPSVLHIDKTRYSVFAGTNLDMKLRERGVTELHLTGVCTDICVLHTAVDAYNLGYSLTIYREGTASFNEAGHTWALSHFETTLGAKVI	PGPT0013470_2371	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013470-pncA-K08281	NA	NA
AK012_01675	1230	sbnD		Staphyloferrin B transporter	ATGCAGACCAACACAGCAGAAGCCAGGAAAAATGTTTGGATGATGTGGTTTGCAAATTTCTTTATTGCAGGAAGTATCACGATGGTTCTTCCTTTTTTGTCATTGTATATTGAAACATTTGGAGAATTTTCAGATGCCTATGTCCAGACATGGTCCGGCTGGGTGTTTGGGATCACATTTGTAACAGCTTTTATATTTTCACCGATATGGGGAAAGATTGGAGATCGGTACGGACGTAAGAATATCCTCGTCATGTCTGCGCTCGGCCTGGCATTATCCGTCTTTCTCATGGGGTCTGCCACGTCCGTATGGCAGCTCTTTTTCCTGCGTTTATTTATGGGTGTATTCACCGGATTTATTCCCATGTCCCAGGCGCTTATCTCCACACAGACGCCTAAAGATATGGCCGGACGGGTACTCGGAACACTCCAGACCGGCAGTATTACCGGCAGTCTCCTTGGTCCGCTGCTCGGCGGGTGGATTGCGGATTCGATTGGTTACGCCGCTACCTTCCAATATGTTTCCTTCACTGTAGCTCTGTCCGCCATCATCGTCTTTTTTGGTGTACGTGAACAGAAGGTGAACAAGGAAAGCGCCGATGAGAAGACCAGCTATAACACCAGAGAAGTGCTCAGCCATATTGTGCACCACCCACTCCTGCTGATGGTTATGGTGGTGTCGCTGTTTGTCCAAGTTGCACACTTCAGTATTCAGCCGATTCTATCCTTATTTGTCGGAGAACTTCACGGCCCGGAAAACCTGGCATTATTCTCCGGTATTGCATTTTCCGCAGCGGGATTGGGGAACTTAATGATGGCAAGAAGATGGGGACAGGTCGCTGACCGGATCGGGTATATCAAAATTCTCATCTTTCTTCTTATTATGGCCGGAGTTGTGTATCTTCCCGCCGCCTTTGTTACGAATATATGGGAACTCGTTATTTTGAGATTCCTGCTCGGCGTATCCATCGGGGGCATCATCCCTGTTCGAACGGCTTATATTAGACAGGAAGCTCCAATAGCTATGCAGGGGGAAGTCCTTGGATACAATACAAGCCTCCGCTTTCTCGGAAACATCATCGGCCCTGCCATGGGTGGCATGGTCGCAGGAGTCTATGGATTTTCCATGGTGTTTTTTGTCACCAGTGGTTTACTCTTATTCTCCGGTAGTCTGTTATTTTTGGTCCTTCACAAAAGCAAGCCTGTATTCAGGCATGCATCCAGTCATTAG	MQTNTAEARKNVWMMWFANFFIAGSITMVLPFLSLYIETFGEFSDAYVQTWSGWVFGITFVTAFIFSPIWGKIGDRYGRKNILVMSALGLALSVFLMGSATSVWQLFFLRLFMGVFTGFIPMSQALISTQTPKDMAGRVLGTLQTGSITGSLLGPLLGGWIADSIGYAATFQYVSFTVALSAIIVFFGVREQKVNKESADEKTSYNTREVLSHIVHHPLLLMVMVVSLFVQVAHFSIQPILSLFVGELHGPENLALFSGIAFSAAGLGNLMMARRWGQVADRIGYIKILIFLLIMAGVVYLPAAFVTNIWELVILRFLLGVSIGGIIPVRTAYIRQEAPIAMQGEVLGYNTSLRFLGNIIGPAMGGMVAGVYGFSMVFFVTSGLLLFSGSLLFLVLHKSKPVFRHASSH	PGPT0029185_1104	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
AK012_01676	1410	treP	COG1263	PTS system trehalose-specific EIIBC component	ATGAATCATAAAAAACAGGCCGAAGAAATTTTAGAAGCCATTGGTGGAAAGGAAAATCTGTCAGCAGCGACGCACTGTGTCACACGGCTCCGTCTTGCGCTGCATGACGAAGGTATTGTCGATCAGGAAAAATTGAATCAGATTGAAGCCGTGAAAGGTTCCTTTTCTACTAATGGACAGTTCCAAGTTGTCGTTGGACAGGGAACGGTGGATAAAGTGTATAAGGAATTTGTAGCGCTTGCCGGGATTGGAGAGGCTACAAAAGAAGAAGTGAAAGAAGCATCAAGCGAAAAAATGAATCCGCTTCAACGTGCGATTAAAACTTTGGCGGATATTTTCATTCCGATTCTCCCGGCGATTGTAACCGCTGGTCTGCTGCTTGGGATTAACAACCTGCTCACATCCCCTGATATTTTCTTTGATGATCAGTCCTTGATTGATGTATATCCTCAATGGTCTGATATCGCAAATATGATTATCATTATAGCCAACACGGCATTCGTGTTTCTGCCCGGGCTGATCGGGTGGTCAGCTGTTAAGAAATTCGGCGGCAGTCCGATCTTAGGGATTGTCATAGGACTTGTGCTCGTCCATCCGGATCTGTTGAATGCCTGGTCCTACGGAGAAGCGGTTTCTGAAGGATCGGTCCCTACGTGGAATTTATTCGGAATGACCGTGGAGAAAATCGGCTATCAGGGTCAGGTCCTGCCGGTTCTGGCTGCGGCCTATCTGCTGACTAAGATTGAGTTGTTCCTTCGGAAGAGGATTCCGGACAGTATTCAACTGCTTTTTGTCGGTCCCATTGCTTTACTGGTCACGGGCTTTTTGACTTTCATTATCATCGGCCCGATTACGTTTGCTATTGGAAATGGGATTACAGATGGACTTGTAGCTGTATTTGATACGTTCTCCTGGCTTGGCGGACTGATATACGGCGGCTTGTACGGTGTGCTCGTTATTACTGGTATGCACCACACTTTCCTTGCTGTGGATATCCAGCTTGTCGGTTCTACAGGTACGACATTCCTATGGCCGATGCTTGCCTTGTCCAACATAGCCCAGGGCTCAGCAGCCTTCGCCATCTGGCTTGCTTCCAAGGATGAAAAACTGAAGGGTCTTGGTGTATCCTCAGGAGTGTCTGCATGGCTTGGGGTTACAGAGCCTGCTTTATTTGGTGTGAACCTGCGCTTCAAATATCCATTCATTATAGCGGTCAGTTCCTCCGCTATTGCCGGACTGTACATCTCAGCTCAAGGGGTGCTGGCTAATTCGATTGGAGTCGGCGGTGTGCCGGGGATCTTCTCCATCGTCAGTGATTACTGGGTCGACTTTGCTGTAGGGATGGTTATTGTCATTGTTCTTCCTCTTGTAGGAACGTATCTCTATGCGAAACGTAAAAAAGACGTATAA	MNHKKQAEEILEAIGGKENLSAATHCVTRLRLALHDEGIVDQEKLNQIEAVKGSFSTNGQFQVVVGQGTVDKVYKEFVALAGIGEATKEEVKEASSEKMNPLQRAIKTLADIFIPILPAIVTAGLLLGINNLLTSPDIFFDDQSLIDVYPQWSDIANMIIIIANTAFVFLPGLIGWSAVKKFGGSPILGIVIGLVLVHPDLLNAWSYGEAVSEGSVPTWNLFGMTVEKIGYQGQVLPVLAAAYLLTKIELFLRKRIPDSIQLLFVGPIALLVTGFLTFIIIGPITFAIGNGITDGLVAVFDTFSWLGGLIYGGLYGVLVITGMHHTFLAVDIQLVGSTGTTFLWPMLALSNIAQGSAAFAIWLASKDEKLKGLGVSSGVSAWLGVTEPALFGVNLRFKYPFIIAVSSSAIAGLYISAQGVLANSIGVGGVPGIFSIVSDYWVDFAVGMVIVIVLPLVGTYLYAKRKKDV	PGPT0014075_826	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014075-treB-K02819	NA	NA
AK012_01677	1686	treA	COG0366	Trehalose-6-phosphate hydrolase	ATGAATGAACAGCCTTGGTGGAAGAGAGCGGTCGTCTATCAGATCTATCCGAAAAGCTTTAACGATACAACAGGGAATGGAGTCGGGGACATTCAGGGGATCATTGAGAAACTGGATTATCTGAATGAACTCGGTGTGGATGTCCTGTGGCTGACTCCGATGTACAAATCCCCTCAGAATGATAACGGATACGACATCAGTGATTATTATGATATTCATGATGAATACGGAACAATGGAAGACTTTGAGCGTTTGCTTCATGAAACACACGAACGCGGCATGAAACTGATTATGGATATTGTCGTGAACCATACGTCAACCGAACATCAGTGGTTCCAGGAAGCCCTTCAGTCGAAAGAAAGTCCGTACAGGGATTATTACATCTGGAAAGATCCTGTAAACGGTGGTGCGCCTTCCAACTGGAAATCGAAGTTTGGAGGGAGTGCCTGGGCCTATGATGAAAAATCCGGCCAGTATTACCTTCACCTTTTCGATATTACCCAGGCGGATTTAAACTGGGAAAACGAACAGGTGCGCGGGGATATTTACGAAATGATGCGCTTCTGGGGAGAAAAAGGCGTGGATGGTTTTCGTCTGGATGTCATCAATCTGATTTCCAAAAATCAGTCTTTCCCTGATGATGATGGATCGAAAGCCCCTGGAGACGGGCGTAAATTCTATACGGATGGCCCGCGTGTCCACGAATTCATGCAGGAAATGAACCGTGAAGTTTTCCAGCCTTATGATTTGATGACAGTAGGGGAAATGTCTTCAACTACGGTCGACCACTGCATCCAATATACAGCTCCTGAACGTAGGGAACTGAGTATGACGTTTAACTTTCACCATCTGAAAGTGGACTATCCAGGCGGAGAAAAGTGGACAGTGGCCGACTTCGATTTTCATGAATTGAAAGCCATTTTATCCAAGTGGCAGAAGGAAATGAATGAAGGGGGAGGCTGGAACGCTCTATTCTGGTGCAACCACGACCAGCCACGTGTCCTCTCAAGATTTGGCGATGACGTGAACTATCCGGAGGAATCTGGAAAAATGCTTGCAACTGTTATTCATATGATGCAGGGCACGCCTTATATTTATCAGGGAGAAGAGTTTGGAATGACCAATCCTAAATTCGACCATATCGATAAATACCGGGATGTGGAATCACTGAACATGTATGAAGAATTTAAAGGAAAAGGGTTCGATGATGAGCAGATTCTGGCTGTTCTAAAGCAGAAATCCAGAGATAATTCACGGACACCTGTGCAGTGGAATGACAGCGCCAATGCTGGATTTACAGATGGTACGCCATGGATCGATCCTGCAGATAATTACAAAACCATTAATGCGGAAGCGGTTATGCAAAAGGAAACATCGATTTTCCATCATTACCGCAGGCTGATAGAGTTGAGAAAATCCCATGATATTATTACGTTCGGGGATTATCAGCTTCTTACGCCCGATCATCCTCAGGTTTTCGCCTATCTTCGTGAATGGAACGGAGAAAAGCTGCTGGTCGTCAATAATTTTTACGGAGAAGATACCGCGTTCCCTGTTCCGTCATCCGTAGATACTCAGGAGAAGACAGAAGTGCTGGTCAGCAATTATGATGACTCTCCATCTATCCGTACAGAAATACCCCTGCGTCCTTACGAATCTGTGGTTTATTATTTCCCGGGCAGCTAA	MNEQPWWKRAVVYQIYPKSFNDTTGNGVGDIQGIIEKLDYLNELGVDVLWLTPMYKSPQNDNGYDISDYYDIHDEYGTMEDFERLLHETHERGMKLIMDIVVNHTSTEHQWFQEALQSKESPYRDYYIWKDPVNGGAPSNWKSKFGGSAWAYDEKSGQYYLHLFDITQADLNWENEQVRGDIYEMMRFWGEKGVDGFRLDVINLISKNQSFPDDDGSKAPGDGRKFYTDGPRVHEFMQEMNREVFQPYDLMTVGEMSSTTVDHCIQYTAPERRELSMTFNFHHLKVDYPGGEKWTVADFDFHELKAILSKWQKEMNEGGGWNALFWCNHDQPRVLSRFGDDVNYPEESGKMLATVIHMMQGTPYIYQGEEFGMTNPKFDHIDKYRDVESLNMYEEFKGKGFDDEQILAVLKQKSRDNSRTPVQWNDSANAGFTDGTPWIDPADNYKTINAEAVMQKETSIFHHYRRLIELRKSHDIITFGDYQLLTPDHPQVFAYLREWNGEKLLVVNNFYGEDTAFPVPSSVDTQEKTEVLVSNYDDSPSIRTEIPLRPYESVVYYFPGS	PGPT0014095_201	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-PHOSPHOTREHALASE,PGPT0014095-treC-K01226	NA	NA
AK012_01678	717	treR	COG2188	HTH-type transcriptional regulator TreR	TTGAAGAATAAATACGTCGTCATCTCTAATGAATTGGTAAAAAATATTCAGCAGGGTGACTTTTCTGCCGGGGACACACTTCCATCTGAACATGAGCTGAGTGCTCAGTTTGAAACATCCCGGGAAACGATCAGAAAGGCGCTGAATTTACTTGCCCAAAACGGTTATATCCAAAAAGTGCGTGGGAAGGGTTCTGTCGTTCTGGAGCGGAACAAATTCAAATTTCCTGTTTCAGGTCTTACCAGTTTTAAAGAACTGGCCGATCAAATGGGACAGGAAGTAAAAACGAGGGTGCACGAGTTGACCATCGTTAAACAGGCTGCCCATGTCCGGAGACAGCTGGGCTGTCCGGAAGATGCAAAGCTTTGGAGACTCATCCGCTCAAGGGAAATTGACGGAGAGCGGATCATTCTTGATAAAGACTATATCCGGGAAGATTTAATCCCTGATATTACGAAAGAAACAGCGGAGCAGTCCCTCTATTACTATATAGAAGAAGAGCTGGGGCTTGAGATCAGTTTTGCGAAAAAAGAGATTGTGGTCGAAGATGTTACGGATGAAGACAGAGACCTGCTTGATTTGAAGGGTCATCAGCAGGTGGTCGTCATTCGAAGTTATGTCTACCTTGCGGACACGACAGCTTTTCAGTTTACTGAATCCAGGCACCGCCCTGATAAGTTTCAATTTGTGGACTTTGCCCGCCGGACGAAAGCTTGA	MKNKYVVISNELVKNIQQGDFSAGDTLPSEHELSAQFETSRETIRKALNLLAQNGYIQKVRGKGSVVLERNKFKFPVSGLTSFKELADQMGQEVKTRVHELTIVKQAAHVRRQLGCPEDAKLWRLIRSREIDGERIILDKDYIREDLIPDITKETAEQSLYYYIEEELGLEISFAKKEIVVEDVTDEDRDLLDLKGHQQVVVIRSYVYLADTTAFQFTESRHRPDKFQFVDFARRTKA	PGPT0014110_288	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_TREHALOSE_METABOLISM,PGPT0014110-treR2-K03486	NA	NA
AK012_01679	504			hypothetical protein	ATGTTCGTCATTGGTGCTACAAAAAAACTACAGAATGAATTGAAATCCCCTGTTCGTGATCTTAATGACTATCAGGATGTTGCTGGGATCTATAGATGGCATGCCAACTTGATAACCGTAAAGGGTAAAAAATGTCTCCTTCTCATGAACAATGAAACAGGGGTGAACTTGACGCTCCTCGGTTTAAAAGAAGAACAATTTGAGCATCTGGATAATGTCATTAAAGGGTCCCTTCAGCAGCTGTTTCAATTGCTGGACATTGATAAAAAGGCGGCCTATTACATCCTTGATGCTACTGAGGAAATCGTTTATACCAAAACAGAAAATCGCAGCGTTATAGGGATGATGAATGAAATCAAAGCGAGAATCGATGAGATGGTCCATGATCTGACTTATGAGGAAATCGATGCGGTAGCTTTGAATAAGGGGAATAATACGATTCCTATGGGGCCTCTCAACCACATAGATCCCGTCACAGCGGTAAATAAATATTTTGAAGAGTAG	MFVIGATKKLQNELKSPVRDLNDYQDVAGIYRWHANLITVKGKKCLLLMNNETGVNLTLLGLKEEQFEHLDNVIKGSLQQLFQLLDIDKKAAYYILDATEEIVYTKTENRSVIGMMNEIKARIDEMVHDLTYEEIDAVALNKGNNTIPMGPLNHIDPVTAVNKYFEE				NA	NA	NA	NA	NA
AK012_01680	1401	gloB_4		Hydroxyacylglutathione hydrolase	ATGTTTTTTAAATCATTTTTCGATGAAGAATTAGCCCAGATGTCTTATATGACCGGCTGCCAGAGAACGGGTGAAGCCATGGTGATTGATCCGGCACGTGATATAAATCCTTATCTTGAAACAGCTGACAAAGAAGGATTTACGATTACGAAAGTTACGGAAACGCATATTCATGCGGATTTTCTTTCTGGAGCAAGAGAACTGGCTCGGCACACTGGAGCCACTTTGTATTTGTCCAATGAGGGAGATAATGACTGGAAGTACCAATATTTAGATGAAGTAGACCACGTGTTGCTGAATGGCGGAGACCAGTTTCACGTAGGAAATATAAAATTTGATGTCCTTCATACCCCCGGACATACCCCGGAAAGTATATCCTTCGTGCTTACAGATGAAGGAGGGGGCTCCGAGGTTCCTATGGGGATCTTTACAGGAGACTTCGTATTTGTAGGAGACGTAGGTCGTCCGGATCTACTGGAAAAAGCCGCTGGCTCTGAAGGGACATCCAAAAAGGGAGCGCGCCAAATGTTCCGATCCCTGGAGGCGTTCAAGGAACTCCCTGATTTTCTTCAAATCTGGCCGGGCCACGGAGCCGGAAGTGCGTGTGGGAAATCATTAGGAGCCGTACCTGTATCTACAGTAGGTTATGAAAAAGCGAATAACTGGGCACTTCAACACACGGATATCGATGAGTTCACGGATGAATTAATTGATGGGCAGCCGGAACCACCGAAATACTTCGGCATGATGAAAAAATTGAACAAAGAAGGTCCATCACTGGAAAAGGAACGGGAAGTGAAGAAACTGACGATCGATCAACTCGAAGAGTATCGAGGAAATGACGCTGTCATTATTGATACGAGAGAGAAGTGGAGCTTCGCTGCAGGTCACATTCCGGGTACGATCAATATTCCTTACAATCGATCATTTTCCAACTGGGCCGGATGGCTTGTTGACTATGACCAGTCCATTGTACTGATTGGTGAAAGCAGCCTGCTCACTGATATGAAGAAATCATTGGAAGCCATCGGTCTGGATGACGTCACAGCTTATGTGGATCAGTCAGATCTGAGCCGGGGCGGAGGACTTGAAACTTATACGTCCATCACTCCCGAGGAACTGGAGAATCAGTACAAATCCGATGATCAATATGTAGTCATCGATGTGCGGAATCCAGGAGAATGGGAGGCAGGCCATATGGATGAGGCCCGGCATTTGATGCTCGGACATTTGAAAGACAGCCTTGAAGACATTCCGAAAGACCGGACGCCAATCGTTCACTGTCAATCCGGTGTTCGTTCTGCTATTGCCGTAAGTCTGCTTCAGGCCAATGGCTTTAAGGATACCATCAACCTTAAGGGCGGATATGCGGCCTGGAAAAAACAAATGAATCAAGCCTGA	MFFKSFFDEELAQMSYMTGCQRTGEAMVIDPARDINPYLETADKEGFTITKVTETHIHADFLSGARELARHTGATLYLSNEGDNDWKYQYLDEVDHVLLNGGDQFHVGNIKFDVLHTPGHTPESISFVLTDEGGGSEVPMGIFTGDFVFVGDVGRPDLLEKAAGSEGTSKKGARQMFRSLEAFKELPDFLQIWPGHGAGSACGKSLGAVPVSTVGYEKANNWALQHTDIDEFTDELIDGQPEPPKYFGMMKKLNKEGPSLEKEREVKKLTIDQLEEYRGNDAVIIDTREKWSFAAGHIPGTINIPYNRSFSNWAGWLVDYDQSIVLIGESSLLTDMKKSLEAIGLDDVTAYVDQSDLSRGGGLETYTSITPEELENQYKSDDQYVVIDVRNPGEWEAGHMDEARHLMLGHLKDSLEDIPKDRTPIVHCQSGVRSAIAVSLLQANGFKDTINLKGGYAAWKKQMNQA	PGPT0001770_697	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-LACTIC_ACID_BIOSYNTHESIS,PGPT0001770-gloB|gloC-K01069	NA	NA
AK012_01681	120			hypothetical protein	ATGAAAAAGATCATTGCATTTGTTGCTGTTCTAGGTCTGGCTGTCTCTATCGCTGCTCCATTGACTCAAGATAGTGCAGTCGAAACATACCCTAGACCATTAGCTGCTGAGCAAGTTTAA	MKKIIAFVAVLGLAVSIAAPLTQDSAVETYPRPLAAEQV				NA	NA	NA	NA	NA
AK012_01682	1284	nprA_2		Transcriptional activator NprA	ATGGAATATGGAAAAGTGCTTCGGTTCCATCGGGTGAAACAAGGGTTAACACAAAACCAGCTCGCTGATGGAATTATTTCGCCAGCGTATTTATCCAAGATTGAGAACGATCAGACCGTTCCTGCCTCTGAGGTGCTCGAACTTTTGTATGAACGCCTCGGCCTTGATTTTCACGACTCTTCCTACAACCACCCTTCCAAAGACAAGCTGAAGGAATGGTACAAAACGATTTTTTATAAGCAGAAGGAAGAAGCGGAGAAATTAAAGAAGGAGCTTTCTCATCAGAAGGATACGCTGAACAATCATCACCTGTATATTTTCTTTGAGCTCTTCCGCATTCGTCATCTTTTGTTGGAAAACAAGGTGGAGAAGGCTTACGAGGCATGGAAAGATATTAAACAGCACGAAGATACATTCGATGATGAAATGAAGTACTATTTTCATGTAAATTCCGGTCTGCTTGAATATTATCGTGGGAATTTTGATGAATCTTTTCAACAGTTGATGAAAGCCAAGAATTATATCAGTCCCGCAGGCATTGAGAAGTGGGAAGTCAGTGACTTGTATTACCACTTATCTTTAAGCTCGAGCCAGGCGCATCATGTATCAGCCTCTGTTTTCTATGCAGATCAAGCGTTGGAAGCTTACAAGAGCCAGTATGACCTTGCCAAAAGCGCAGACTGTCACATTATTCTCGGTATTAATTACAGCCGGTTGAAAAACTATGCGAAATCTCTTGAAAATTATAATCTGGCCAAAAAAATCGCTTCCCAGACCAAGGATAATCAACAGCTCAAACTGGTTTACATCAACATTGCGGTGTTGGAATCCAGAATTGAAAATCATGACTCTGCTATCCACAATTATAAGAAGAGTCTGGAATATGTTTGCGAGTCCAAGTCTACTTATGATTATCAGGAATACTTGAATATCATTCACGGTTTGATTATTGAACATTACCGTTTGGATGATAAAGCCGGATGTCTTGAATGGATTGAAAAAGGCTTAACAGAAGTTGAAAACACAGCTTCCGAGAGCCACTACCTCCATTTTAAAGTGTATGATCATCTATTGAATGAACTACCTGACACACTCCTTTTTATTGAGGAGACCGTCCTTCCTTACTTTCAGAAGAAGAAGGATCATGTTTACGTGATCAGGTATTCTAAATTCTTAGCCGATCTTTATGAAAGGCAGAGGATGTATAAACGCTCCACAGAACATTTAAGGTTAGCAATGCAATTGTTAAATAAACATTCTGACTTAGGAGGAATTATGTTATGA	MEYGKVLRFHRVKQGLTQNQLADGIISPAYLSKIENDQTVPASEVLELLYERLGLDFHDSSYNHPSKDKLKEWYKTIFYKQKEEAEKLKKELSHQKDTLNNHHLYIFFELFRIRHLLLENKVEKAYEAWKDIKQHEDTFDDEMKYYFHVNSGLLEYYRGNFDESFQQLMKAKNYISPAGIEKWEVSDLYYHLSLSSSQAHHVSASVFYADQALEAYKSQYDLAKSADCHIILGINYSRLKNYAKSLENYNLAKKIASQTKDNQQLKLVYINIAVLESRIENHDSAIHNYKKSLEYVCESKSTYDYQEYLNIIHGLIIEHYRLDDKAGCLEWIEKGLTEVENTASESHYLHFKVYDHLLNELPDTLLFIEETVLPYFQKKKDHVYVIRYSKFLADLYERQRMYKRSTEHLRLAMQLLNKHSDLGGIML	PGPT0011700_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_SENSING_REGULATORS	CE-QSR-OTHER_QUORUM_SENSING_REGULATED_GENES,PGPT0011700-nprR|nprA-K20480	NA	NA
AK012_01683	1950	leuC_1		3-isopropylmalate dehydratase large subunit	GTGGGGTACAATGTCACACAGAAACTGATCCAGGACCACTTAGTCGAGGGAGAGATGACGCCTGGATCGGAAATCGGGTTGAAAATTGATCAAACCCTTACGCAGGATGCTACAGGGACGATGGTTATGCTTGAACTGGAGGCTATGGGGATCGAACAAGCCCAGACAGAAGTTTCCGCTCAGTACGTAGATCACAACTTAATTCAGGAAGACAGCAAAAATCCAGATGACCACTTGTTTCTGGAAAGTGCTGCGAAACGCTTCGGGCTTTATTTCAGCCGCCCGGGGAATGGAGTCAGCCACCCTGTCCATATGCAGCGCCTTGCTAAGCCGGGGCAGACGCTTCTCGGTTCTGACAGTCACACATGTGCCAACGGCAGTATGGGCATGCTTGCCATGGGTGCCGGTGGGATTGATGTGGCGATGGCCATTGCCGGTGAACCTTTTTACGTGAAAATGCCGAAAGTATGGGGTGTGAAAGTGACGGGTTCGCTTCCGGACTGGGTCAGTGCGAAGGATGCCATCCTCGAAATGCTGCGCAGGCACGGGGTCAAGGGAGGAGTGAACCATGTCTTTGAATATTACGGTCCGGGATTAAAAAACCTTACAGCTATGGATAGACACGTCATTGCGAACATGGGGGCAGAACTTGGAGCGACCGGGACGGTTTTTCCTTCCGATGAGGAGACGAAACGTTTCATGAAACTTCAAGGCAGGGAAGATGAATGGATCGAACTTGCCGCAGATGACGATGCTTCGTATGATGTCCACGATGAATTGGATCTGTCGGAACTTTCACCAATGGTGGCCAAGCCCTCCAGTCCAGGAAATGTGGTTCCGGTGGAGGAAGTTGAGGGAGAAGGGATCTACCAATCCTATATCGGCTCATCAGCGAACCCCGGCTACCGTGATTTTGCGATAGCTTCGAAGATTGCAGAAAACAAACATATCGCTGACGGCGTCTCGTTTGATATCAACCCGACCTCCAGACAGATGTTGATTGATTTGTCGCAGGAAGGGCATATCGCTAATTTCCTTCAAGCTGGAGGACGTCTCCACCAGGCTGGGTGTAATGGATGCATCGGAATGGGGCAGGCACCTGCTACAGGACGGAACAGTCTGCGTACAACGCCAAGGAACTTCCCCGGCCGTTCCGGAACGAAAGAAGACAGTGTCTTCTTATGCAGCCCGGAAACTGCTGCTGTTTCTGCTTTGAAAGGAGTCATAACCGACCCGAGAAAAGCCGGATTCGACTACCCCGATGTTCAGGATTTAGATGAGCCGACGGTGGACACCCGCCTTCTTGATGAACCACTGCCTTATGAAGAGGCCAAAGAGGTGGAATTAGTCAAAGGTCCAAACGTGGCCTCCATTCCTGAAATGGATGAGCTTCCGGACGAAATGGAGCTTCCTGTTCTACTGAAGATGGGGGACGACATTTCCACCGATGAAATTCTGGCTGGAGGAGCAAGAGTGCTGCCTTATCGAAGCAACCTGCCGGAAATAAGTAAGTTCACCTTTGAAATTGTGGATGATACCTACTATGACCGGGCGATGGATCAGAAAGAAAAGGGTGGTCATGCGGTTGTTGCCGGAGCCAACTACGGACAGGGATCAAGCCGGGAGCATGCCGCCCTTGCACCTAAATATTTAGGGATGAAAGTAGCCATCGTCGAAGATTTTTCCCGGATTCACTGGCAGAACCTGGCAAACTTCGGTGTGCTGCCGCTTACGTTTAAGAATCCAGACGAATTGGAAGAAATCGAGCAGGGAGATATCCTTGTGTTCAGCGGATTGAGGGAACAAATCAAACATTCACCTGTAGTGGAAGCTGAAATCAAAGGCAGGGGCCGGACGATAAAGCTGGAACACGCGTTATCAGACAGGCAGATTGACATTATGGATAAAGGTGGTTTGATCAACTGGGTTAAAGCACGTCTCGAATCTTAA	MGYNVTQKLIQDHLVEGEMTPGSEIGLKIDQTLTQDATGTMVMLELEAMGIEQAQTEVSAQYVDHNLIQEDSKNPDDHLFLESAAKRFGLYFSRPGNGVSHPVHMQRLAKPGQTLLGSDSHTCANGSMGMLAMGAGGIDVAMAIAGEPFYVKMPKVWGVKVTGSLPDWVSAKDAILEMLRRHGVKGGVNHVFEYYGPGLKNLTAMDRHVIANMGAELGATGTVFPSDEETKRFMKLQGREDEWIELAADDDASYDVHDELDLSELSPMVAKPSSPGNVVPVEEVEGEGIYQSYIGSSANPGYRDFAIASKIAENKHIADGVSFDINPTSRQMLIDLSQEGHIANFLQAGGRLHQAGCNGCIGMGQAPATGRNSLRTTPRNFPGRSGTKEDSVFLCSPETAAVSALKGVITDPRKAGFDYPDVQDLDEPTVDTRLLDEPLPYEEAKEVELVKGPNVASIPEMDELPDEMELPVLLKMGDDISTDEILAGGARVLPYRSNLPEISKFTFEIVDDTYYDRAMDQKEKGGHAVVAGANYGQGSSREHAALAPKYLGMKVAIVEDFSRIHWQNLANFGVLPLTFKNPDELEEIEQGDILVFSGLREQIKHSPVVEAEIKGRGRTIKLEHALSDRQIDIMDKGGLINWVKARLES	PGPT0001465_5249	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
AK012_01684	951	mhqA_1	COG0346	Putative ring-cleaving dioxygenase MhqA	ATGGAATTAAAAGGTATTCATCACGTGTCGGCCATTACGGCTTCCGCTCCAAAAAACTATGATTTCTATACAAACGTGCTCGGTATGCGGCTCGTCAAGAAGACAGTGAATCAGGATTCCCCTTCGATGTATCACTTATTCTACGCTGATGAACAGGGAAATCCCGGGACAGATTTGACCTTCTTTGAAATACACCGGGCCGGAAATACCTATCCAGGGACAAGGAGTATTTCCACGACATCTTTACGGGTTAAAAATGATGAGGCCCTCCTTTACTGGCAGAAGCGCTTGAATGCTTACGATTTAGATGTCGACGCCATTCGGGAGCGGATGGGCAGAAATACCCTCTCATTCAGAGATCCGGAAGGACAGCGACTTATGCTTATATCCGACCAGAATAACTCCGGCGTTCGCGCAGGAACTCCCTGGGAAAAGTCTCCCGTTCCCCAAAGCGTCGGAATTACAGGTCTCGGTCCTGTCCATTTGACTGTTCAGGAAGCTTCCAAAACAGGTGATGTACTGACGCAGGTCCTCGGCTTCCGGAAAGTCGGAACTTATGACCAATGGACCGTTTATGAGACAGGGGAAGGTGGATCAGGAGCTGAAGTCCATGTAGAAGAAAAACCAGATGAACAGCCTGAGAAACCTGGAAGAGGAAGTGTTCATCACGTCGCTTTCCGGGTGGAAAACGAAGAAGAATTAAAAAAATGGTGGGAAGTGATTGATGCAGCGGGATACCCCAATTCCGGCCTTGTCGATCGCTTTTACTTCAAATCGCTGTATTTCAGGGAAGCAAATCACATACTATTCGAGCTGGCTACAGACGGCCCTGGATTTGACGCAGACGAAGACTCCGGACATCTGGGTGAATCGCTGGCCCTTCCTCCTTTTTTAGAACATGAGCGGGAAAAAATCGAAAGCACGCTCACTCCATTGGATACAACAAAGTAA	MELKGIHHVSAITASAPKNYDFYTNVLGMRLVKKTVNQDSPSMYHLFYADEQGNPGTDLTFFEIHRAGNTYPGTRSISTTSLRVKNDEALLYWQKRLNAYDLDVDAIRERMGRNTLSFRDPEGQRLMLISDQNNSGVRAGTPWEKSPVPQSVGITGLGPVHLTVQEASKTGDVLTQVLGFRKVGTYDQWTVYETGEGGSGAEVHVEEKPDEQPEKPGRGSVHHVAFRVENEEELKKWWEVIDAAGYPNSGLVDRFYFKSLYFREANHILFELATDGPGFDADEDSGHLGESLALPPFLEHEREKIESTLTPLDTTK	PGPT0028510_639	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028510-mhqA|mhqE|mhqO|yaiA-K15975	NA	NA
AK012_01685	702			hypothetical protein	ATGGATAGAAACCGATGGATTATGCATCAGGACTGGGATGATTTGTATTTCATACATTGGCCCGTCCCTGTAGAAGAACTACGACCTTACGTACCTGGGAAGCTCGATATTGATGAATTTGACGGCTCGGCTTGGATCGCCGTCGTCCCTTTCCGTATGAAAAATATCCGTTTCAGGGGACTGCCTGAAATTCCGTTTGGCACGGAACTGCTTGAGCTGAATGTAAGAACTTATGTTTCGTACAAAGGTGAACCGGGGGTTTATTTCATTACCCTCGACTCCGATCACCCTCTCGGAGTTTTTTTAGCGCGCTCTGTTTTCGGACTTCCTTACGTTCACGCATCCATGCGCATGGATATTGGAAATTCCAGCACACAGTTTTCCAGCCGCCGCACCCATAAAGGCTACCCAGCTGCCCAGTTTCATGCGGAGTTTCAAACGATCAGCGAGCCTATGCAGGCCCGCCCGGGCTCCCTTTTATACTGGCTGACAGAAAGATATGCTCTCTGGGTCGTTCGTGGAAACCGGGTATATAAAGGGCCGATCATTCATAATAACTGGAAGCTTCAGAAGGCAGAAGCCGCTGTGACGACTAATCATCTGCTGGATTTCCTCCCCTCTGAATATTTCCGCAGCAGACCGGTGACCTACTATTCCAAATCTGTCCAAACACGGATTTTCCCATATGAGCGTAAGTCATAA	MDRNRWIMHQDWDDLYFIHWPVPVEELRPYVPGKLDIDEFDGSAWIAVVPFRMKNIRFRGLPEIPFGTELLELNVRTYVSYKGEPGVYFITLDSDHPLGVFLARSVFGLPYVHASMRMDIGNSSTQFSSRRTHKGYPAAQFHAEFQTISEPMQARPGSLLYWLTERYALWVVRGNRVYKGPIIHNNWKLQKAEAAVTTNHLLDFLPSEYFRSRPVTYYSKSVQTRIFPYERKS				NA	NA	NA	NA	NA
AK012_01686	150			hypothetical protein	ATGGCTTTTGATAAACTATCCCCTTTCCTCCTGAAAGATGCCATTCATAAAGCCATTGAGTTGAAGCTGGAGGAAGAGTTCATCCAGATGCTGTTGAATGAGATGAGGAAAAGGGAAAGAGAAACAGGAAAGATTGCTTCTTTTGAATGA	MAFDKLSPFLLKDAIHKAIELKLEEEFIQMLLNEMRKRERETGKIASFE				NA	NA	NA	NA	NA
AK012_01687	528			hypothetical protein	ATGAGGAGCTGGCTGATCAAATTAAGAAAAGAACAGGACCTTACCCAGCAGGAGATTGCCGCAGGGGCTCATATCGATAGAGCCTATTACGCACAAATAGAGAACGGTACCAGAAATCCCAGTATGACGGTTGCTTCTCAAATTGCGTCTTACCTGCATATCAACCCATCGCTTTTTTACACTGAGCACTTGAGTGAGCCTTTTGAAAAAGCGCTCGTCCACTCACCTGTCGTCATTGCTCATTGTGATTTGAACCTTCGATATACGTGGATGTTCAACCCCCACCCGGACTTTAAAATGAATGTCGTCATCGGCAAAAGAGATGAAGAACTGGATATTAATGAAGGTACAACTGAATTAATGGACCTGAAGCAGTCGGTGATAAACGATGGAAAAACAAGAAGAGAGATCATCGCCTTTCCCCTGTCTGAAGGTCTGATCAGATATGACGTATTCGCCCAGCCTCTATATGACCAGAATGGACATATTATGGGCGCAGCGACGGTTTCCGTTGAACTGCTTATGTAA	MRSWLIKLRKEQDLTQQEIAAGAHIDRAYYAQIENGTRNPSMTVASQIASYLHINPSLFYTEHLSEPFEKALVHSPVVIAHCDLNLRYTWMFNPHPDFKMNVVIGKRDEELDINEGTTELMDLKQSVINDGKTRREIIAFPLSEGLIRYDVFAQPLYDQNGHIMGAATVSVELLM				NA	NA	NA	NA	NA
AK012_01688	612			hypothetical protein	ATGACCTGGGATATTTTAAACATCCTTGCCGTCAGTGCATTTGCGTTTAGTGGAGCCATTGTCGCACTGAACGAAAGGTATGATATATTTGGTACGTTTATTTTAGGAATAGCTACACCCTTCGCCGGGGGGATCATCCGGAATATCGCTCTGGATGTTCCGGTGATTCACGTATGGGAGCAGGGGTATCTGTTTTACGTGGCTTTAACCACCATTGCTATTGTGTATTTCTTTCCGAAAACGTGGGTGATGGCCTGGGATCGATGGAATATCTATCCGGATGCTGTCGGTCTCTCTGCGTTTGCTCTGCAGGGGGCGTCCTTTGCGGTTCAGCATGATTTTCCACTGGGCGGAATCATTTTCGCTGCGATTCTGACCGGGGTGGGCGGTGGTGTGACGAGGGATGTTCTGGCTCAGCGCCGTCCGATGGTTCTCCATCAGGAGATTTATGCAGTGTGGGCGATGGTCACGGGCGTCGTGATCGGTCTGGGCTGGGTCGACCTTTACAATCCGTTTCATACATACAGTATTTTTCTCCTGGTTATTTTATCCAGGGTATTGTCGTATCACCTTGGCTGGCATTTAAGGTTCCGGGATTTGTACCGGATATAA	MTWDILNILAVSAFAFSGAIVALNERYDIFGTFILGIATPFAGGIIRNIALDVPVIHVWEQGYLFYVALTTIAIVYFFPKTWVMAWDRWNIYPDAVGLSAFALQGASFAVQHDFPLGGIIFAAILTGVGGGVTRDVLAQRRPMVLHQEIYAVWAMVTGVVIGLGWVDLYNPFHTYSIFLLVILSRVLSYHLGWHLRFRDLYRI				NA	NA	NA	NA	NA
AK012_01689	120			hypothetical protein	ATGGAGGCCGCTGAAAAACGGAGGATTTGTGAAAAAAAGCGGATGGTATGGAATATTGTATCCATGCCATCCGCTTTTTTCTGTTTTCATGAGGCGCATGACTTCGAGATGCGAAGGTGA	MEAAEKRRICEKKRMVWNIVSMPSAFFCFHEAHDFEMRR				NA	NA	NA	NA	NA
AK012_01690	930	cysK_1		Cysteine synthase	ATGCGCGTAGTTAATAATATTGCGGATCTAATCGGGGATACTCCATTAGTGAAATTAAACCGCCTGGCTCCGGAAGGTGGAGCAGACATTTATATGAAACTTGAAAAATACAACCCGAGCGGCAGTGTCAAAGACCGGGCTGCCTTTAATATGATGGAACAGGCCGAAAAAGACGGACGCTTAAAAGAAGGGGCCACCATCATTGAACCGACGAGCGGAAATACAGGAATCGGGATTGCAATGAACGCCGCTGCCAGAGGATACCGCGCCATCCTTGTCATGCCGGATACGATGACACAGGAGCGGATCAATCTTCTGAAAGCGTACGGAGCTGAAATCGTGCTGACGCCTGGAGACGCAAAAATGCCGGGGGCCATTGCCAAGGCCAAAGAACTGGTCGAAGAGATCGAAGGCGGCTTTATGCCGATGCAGTTCGAAAACATGGCCAACCCTGATGCCCACCGCCATACCACAGCAGCAGAAATCATTGAAGCGATGGATGAGCTCGGTAAACCACTGGCTGGTTTTGTCTCTACCGCCGGGACCGGCGGGACGATCACCGGAACTGGTGAAGAGTTGAAAAAACGCTTTAAGGAGATGACGATTCACGTTGCGGAGCCGGCAGGATCTCCCGTTCTCTCCGGTGGAAAACCAGGCAGGCATAAGCTTGTCGGGACGAGCCCCGGGTTCATTCCAAGCATTTTGAATCAGGACATCTATGATGAAATCTATCAGGTCACCGACGAAGATGCCTATGACATTACTCGTCGTCTGGCTCGTGAAGAAGGCCTGCTTCTTGGTACGTCCTGCGGTGCCGCCTGCTGGGCCGCTATCCAGGCTGCCAAACAGAAAAAGCCGGGGGAAGTCATCGTCTGCATCGCTCCCGACACAGGTGAGCGTTATCTATCAGGCGATTTATTCCGATATTAA	MRVVNNIADLIGDTPLVKLNRLAPEGGADIYMKLEKYNPSGSVKDRAAFNMMEQAEKDGRLKEGATIIEPTSGNTGIGIAMNAAARGYRAILVMPDTMTQERINLLKAYGAEIVLTPGDAKMPGAIAKAKELVEEIEGGFMPMQFENMANPDAHRHTTAAEIIEAMDELGKPLAGFVSTAGTGGTITGTGEELKKRFKEMTIHVAEPAGSPVLSGGKPGRHKLVGTSPGFIPSILNQDIYDEIYQVTDEDAYDITRRLAREEGLLLGTSCGAACWAAIQAAKQKKPGEVIVCIAPDTGERYLSGDLFRY	PGPT0002810_6028	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
AK012_01691	633			hypothetical protein	ATGAAACGAATATTTCTTAATAATAAGTGGCGGACGTCCTTCTGGGTACTGGCCATCGTCAATATCGGGGTTATCGGCTGGCTGCTGGCCTTAATATTCCTGCCGAGCTCGTATACCCTCGTCAATGTTGATCGTGGAAAAGAAAATACCGATGCTGAGTTCACCATTGTCTCGACGAAGGAAAATATGGAGCAGCTTGCCAATGAATACTTATCTGAGCTGTCGAACCAGACCGTATTTGATTACTCTGTGTCCCTTGATAAAAACGTGACATTATCCGGAAATATCAAAGCTTTTGAGCAGGTCGTCCCCATTAAGGTTGAACTAAATCCGGTGGTCCAGGAGAACGGCGATCTCGTTCTGGAGCAGGAAAAAATCTCCCTCGGACAGCTGCCTCTGCCTAATAAAAAAGTACTGGAATTTTTAAAGGAAAATTACAACCTTCCTGAATGGGTTATCGTCAACCCGAATGAAGAAAACATTTATGTAGCCGTCACCCAGATGGAAACAGCCAGCAATTTCAATGTGAAAGTGGACCGGTTCAACCTGAATGCCAACCAGCTGGCTTTTAAGATTTCTGTACCGAAAGATACGTTCCAATTCGCCCAGCAGATGGTCGAAGAGAATTTCTGA	MKRIFLNNKWRTSFWVLAIVNIGVIGWLLALIFLPSSYTLVNVDRGKENTDAEFTIVSTKENMEQLANEYLSELSNQTVFDYSVSLDKNVTLSGNIKAFEQVVPIKVELNPVVQENGDLVLEQEKISLGQLPLPNKKVLEFLKENYNLPEWVIVNPNEENIYVAVTQMETASNFNVKVDRFNLNANQLAFKISVPKDTFQFAQQMVEENF				NA	NA	NA	NA	NA
AK012_01692	918			hypothetical protein	GTGAAAAAGTGGAGATGGACAGCCTCCATCCTGCTTACTCTTATCCTTGCCTTTTTTATAACGGCTTCCTTTATCTATACACCAGAAAAGCAGGAGTCATCCGGCACACCTGATGAACAGCCGTTAGAAACAGGCCCCGCGGATGTAGTGGAACAGCCGGAGACAGAGCAGGAGGAGGCGGCAGCAGAAGAAGACGAAAACGCCCTCGGTGAAGGACTTCGCGACGTTTTCACAAGTGTCATGGACAGCGCACGTGACCTTTTTATAAAAAATGATTTAACCGTTGTAGCCATTGGCGACTCTTTGACGCAGGGAGTCGGTGACGGGACGGATAATGGCGGGTATGTCGGTATTCTGGAAGATAACTTCACGAATAATAACGACAACACTTCGCTGGAAGTGATCAATTACGGAAAACGTGGAAACCGGACGGACCAGATGCTGAAGCGGATGGAGGACGAAGAGATTTCCCGTTCCATTGAACAGGCAGATATTGTTCTCATCACCATTGGAGCCAATGATGTCATGAAGGTCGTTAAAGACAACTTCACAAACTTAAACTACCAGGACTTCAGGTATGAACAGGATGGATATGAGCAACGGCTCAGGGAAATCATTGAAAAGACGCAGAATTTGAATGATGAAGCGCCCATCTATTTTGTCGGTCTGTACAATCCATTCAACCAGTATTTTGATAACATTCCCGAGCTTGGGAAGATTATGGGGGACTGGAACGAGGCCAGTGAGAGGATCATCAACACCTATGATCAGGCCCACTTCATCCCTGTCCGTGATATTTTTGATGGAAACGAAGAAGAACTCCTATGGGAAGAAGACCATTTCCACCCGAATGAGCAGGGGTATAAGGAAATGGCGGAGCGCGTACTCGCTCATATTAGAGAAGACATTGAAGAATAA	MKKWRWTASILLTLILAFFITASFIYTPEKQESSGTPDEQPLETGPADVVEQPETEQEEAAAEEDENALGEGLRDVFTSVMDSARDLFIKNDLTVVAIGDSLTQGVGDGTDNGGYVGILEDNFTNNNDNTSLEVINYGKRGNRTDQMLKRMEDEEISRSIEQADIVLITIGANDVMKVVKDNFTNLNYQDFRYEQDGYEQRLREIIEKTQNLNDEAPIYFVGLYNPFNQYFDNIPELGKIMGDWNEASERIINTYDQAHFIPVRDIFDGNEEELLWEEDHFHPNEQGYKEMAERVLAHIREDIEE				NA	NA	NA	NA	NA
AK012_01693	2277	dinG_5		3'-5' exonuclease DinG	ATGAATCGAAGTATGACGATATCTGTCAGAGAGCTTGTGTCCTACGTGTACAGGGCGGGAAGTATTGATGAAAGGTTCCAGTCCAATACAGCTCTGCTTGAAGGGACAGCCATCCATCAGGAAGTTCAAAAGAAATATACAGACGGGGACGAGAAGGAAGTTTTCCTTCAGTGTGAATATCAGTATGAAGCACTTACGATGATCATCCAGGGGCGGTGTGACGGGCTGCTTGAAGGAGAAGGCGGACCGGTTATTGATGAAATCAAGTCGACATCCAGAGATCTTGAGGAACTCGACAGCTTTTCGCATCCTGTATACTGGGCACAGGCGAAAGGGTATGCCTACATTTATTCTCTTCAGGAAAACCTCGCAGAGATGGATGTCCAGTTGACATATGTGCAGAAACGGACGAAGGAAAAGAAGCGGATACGAATCAGGTTTACGCATGATGAACTGGCTGATTTTATGGAGGAAACGGTGAAGGCTTATCAATCCTATGCCTCTGTCCTTCATTATTTGGAGGACCAGAGGGAAGCTACGGTGCCTTCCTTCTCCTTTCCATTCTCTACATACCGGTCCGGTCAGAGGAAACTGGCGGGAAGTGTGTACAGAACCATTGAAGAAAAGCGGAACCTGTTCGCTCAGGCTCCGACTGGAATTGGGAAGACGATATCGACCTTATTCCCGGCGGTGAAAGCTCTGTCCCTTGAAAAAATGGACAGGATTTATTATTTAACCGCTAAGACGACGACGAGAGCTACAGCTGAGGAAGCGCTGGCAAAAATGGAGGAGCACGGCCTCTCTCTGAGGTCGGTCACGTTGACGGCAAAAGAGAAAATTTGTTTCCAGGAGGAGACCATTTGTCAGCCGGATTACTGTGAGTACGCGGATGGATATTACGACAGGGTGAATGAAGGGATCGTCGACGTGCTGAGAAACGAAACACAGCTGACACGTCCCGTGATTGAAGCGTATGCCAGGAAACACCGTTTATGCCCGTTTGAATTTTCTCTGGATCTCACAGATGTGGCAGATGTCATCATCAGTGACTACAATTACATCTATGACCCACGGGTCGCCTTGAAGCGGCTGCTGCCTGACCGCAGGAAAAAAACAGCCCTTCTTGTAGATGAAGCTCATAATCTTGTTGAACGGGCCCGGGAGATGTATTCAGCCTCCCTGTATAAAAATCCGTTCAGGCAGGCCGCTGATACATGGGAGGATGAAGAGGGGATTCGTAAGACCACCCAGGCAGTGGCTGATGATCTGGAGCGGCTGGCGGGTTTTCAGGGCGGTGAAATGGTCATCGATGAAGTGCCGGGGGACCTGGAGGAAAACCTCGAACGGTTCATCGGAAAATCCGAGCAGATCATTCAGGAACAGACGGAGGACGTACGGTCAGAGTCTCTTGTTGATCTGTACTTCACCGCACAGAATTTCCTTAGGATTTTGGAGTTTGTCGATGGTCATTACCGCTTTATAGCAGCCAAAGGGGAAGGGGAGGATGTGATGCTGAAATTGTTCTGTCTTGACCCTTCCCACGTGTTGAAAAAAGTGACAGACGGGTTCCGGTCCGGCACTTTCTTTTCGGCGACTCTTTCTCCTTTTGCTTATTATAAAGAAATGCTTGGGGGCACGAAGGAGGATTACATCCTCCAGCTGCCCTCCCCCTATGATGCATCTCAGGTGGATGTCATGATTACGCCGTTGTCAACAAGATATAAAAACCGCAGTCAAACGGCAGGAATTCTGGCAGAGCGGTTGAAAGAACAGGCAGAGAATTATGAAGGGAACCATTTGTTCTTTTTCCCATCGTATCACTATATGGAGCTTGTCTATCAGGAGTTCCGGCAGATCTCTTCTGTTGATGCGGTTATGCAGGAAAGAGGGATGGACGAGAGCCGGCGGGAGGATTTTCTGGCCCAGTTCGTCCCCGGAAGCCGTCTGGCCGGTTTTGCCGTGATGGGAGGCGTTTTTTCTGAAGGAGTCGACCTGCGTGGAGACCGCTTGAATGGGGTGGCGGTGGTCGGTGTCGGCCTTGCTCCGAGAAACTTTGAAAAAGAGTTGATTAAGGACTACTTCAATGAAAAGGGCCGCCGGGGGTATGATTATGCTTATGTGTACCCCGGTATGAACAAAGTGCTGCAGGCTGGAGGGCGCCTGATCCGTTCAGAAGAGGATTATGGAGCTATTCAGCTTATAGATGATCGGTTCCTTTCGGGGAAATACACGAGTTTGTTTCCGGAAGATTGGAGAAATTATCGAATTATTCAATAA	MNRSMTISVRELVSYVYRAGSIDERFQSNTALLEGTAIHQEVQKKYTDGDEKEVFLQCEYQYEALTMIIQGRCDGLLEGEGGPVIDEIKSTSRDLEELDSFSHPVYWAQAKGYAYIYSLQENLAEMDVQLTYVQKRTKEKKRIRIRFTHDELADFMEETVKAYQSYASVLHYLEDQREATVPSFSFPFSTYRSGQRKLAGSVYRTIEEKRNLFAQAPTGIGKTISTLFPAVKALSLEKMDRIYYLTAKTTTRATAEEALAKMEEHGLSLRSVTLTAKEKICFQEETICQPDYCEYADGYYDRVNEGIVDVLRNETQLTRPVIEAYARKHRLCPFEFSLDLTDVADVIISDYNYIYDPRVALKRLLPDRRKKTALLVDEAHNLVERAREMYSASLYKNPFRQAADTWEDEEGIRKTTQAVADDLERLAGFQGGEMVIDEVPGDLEENLERFIGKSEQIIQEQTEDVRSESLVDLYFTAQNFLRILEFVDGHYRFIAAKGEGEDVMLKLFCLDPSHVLKKVTDGFRSGTFFSATLSPFAYYKEMLGGTKEDYILQLPSPYDASQVDVMITPLSTRYKNRSQTAGILAERLKEQAENYEGNHLFFFPSYHYMELVYQEFRQISSVDAVMQERGMDESRREDFLAQFVPGSRLAGFAVMGGVFSEGVDLRGDRLNGVAVVGVGLAPRNFEKELIKDYFNEKGRRGYDYAYVYPGMNKVLQAGGRLIRSEEDYGAIQLIDDRFLSGKYTSLFPEDWRNYRIIQ	PGPT0026940_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026940-cas4-K07464	NA	NA
AK012_01694	489			hypothetical protein	ATGCCATGGATTAAACCTGTAAAACAACAGCATATGAAAGAAATAAAAGGAGAGGAAGGCCCTTCCTCCTTGTTTGACCGTCTCATCGCGAATGAACCGGATTTATACACGGCTTTCCGGCCTCTTCAAAAGGCTGTGAAGGAAACGGATCTTCCGGAGGATTTGAGAGAGGCTGTCATTACATTTGTTTCGATGAAGAATGGCTGCCGCTACTGCACGGAAAGCCACGCTGCTTTACTCAAAGAGTTAACAGGAGTGGAAAATGTCGAGAAGTGGCTGGAGGATTTTGAAGCTTCATCTATGAGTGAGCCGTGGAAAGCCGTCCTGGAGTATGCCGGACGATTAACCGCAAAACCTGTTCAAGTGGATAAGGAGAGTGTGGACAGGCTCAAGGAAGCCGGATTTGATGCACGTGAAATCGCTGTGATTAACCATACGGTGGCCTATACAAGCTATACGAATCAGCTGTCGATGGGACTGGGACTGTAA	MPWIKPVKQQHMKEIKGEEGPSSLFDRLIANEPDLYTAFRPLQKAVKETDLPEDLREAVITFVSMKNGCRYCTESHAALLKELTGVENVEKWLEDFEASSMSEPWKAVLEYAGRLTAKPVQVDKESVDRLKEAGFDAREIAVINHTVAYTSYTNQLSMGLGL				NA	NA	NA	NA	NA
AK012_01695	588	bioY_2	COG1268	Biotin transporter BioY	ATGAAGAAGTCGAAACTGAGTGTTTATGAAATAACGCTGGGCAGTTTATTTGTTGCGCTGATGGCCATCGGTGCCAATATTACAGCGTACCTGCCATTTCTCCAGGTTATGGGAGTTCCTCTGACCCTGCAGACATTTTTTGCTATTCTGGCAGGGCTTATGCTTGGAAGCCGTCTCGGATCTTTTTCAATTCTTGTTTATGTCCTTTTAGGATTGGCAGGAGCACCGATCTTCGCTGGTTTTAAAGGCGGGTTGTCGATCCTGATTGCTCCTACGTTCGGATTTATTTTGTCTTATATCATTCTCGCTTATTTTGTAGGGAAAATCGCTGAATCAAAGCGGACGACGCCGAGGTACATGACAGCCGCCGCTGCCGGCATCCTCATCAATTACTTTGTTGGTGTCCATTTATTTTATCTCGCCCTGAATTTCTGGGTCGGGGGAGACGGTATCAGCCTTGCCCTGGCGTGGTCCAGTATGGTGCCGTTTATCATCAAGGACAGCGTTCTTGCTGTAGGTGCAGCCCTTTTCACTCAACGGTTCGAAAAGGTATGGCTCTCCAAGACGAGACTGAGGCAGGCGGCCTGA	MKKSKLSVYEITLGSLFVALMAIGANITAYLPFLQVMGVPLTLQTFFAILAGLMLGSRLGSFSILVYVLLGLAGAPIFAGFKGGLSILIAPTFGFILSYIILAYFVGKIAESKRTTPRYMTAAAAGILINYFVGVHLFYLALNFWVGGDGISLALAWSSMVPFIIKDSVLAVGAALFTQRFEKVWLSKTRLRQAA	PGPT0022050_923	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_TRANSPORT,PGPT0022050-bioY-K03523	NA	NA
AK012_01696	1101			putative peptidase	ATGAAACATCGTTTGGATGAACTGGCTGCATACCTGAAGGAAACCGGAGTGAATGCGGCTTTTATTAATTCACCGGAAAACTTCTTTTATTTAACAGGATTTCTGACCGACCCACATGAACGGCTGCTGGGGCTGGTCGTCTTCCCTGAAGCCGATCCCATTGCTGTTCTTCCGGGAATGGAAAAGGCCCAGCTCGAGGAAGCCGGCTGGACATATGAAATCATTGGTTACGCCGATCACGAGGACCCATGGCAGATGATCAAGGATTCCATGAATCAGGCAGGGATCACAAATCTTCAGCACGCGGGGATAGAAAAAGAAGTTCTTTCTTATGGGCGGAGTGAATCCTTTTTTGCTCTCTTTGATAACGTGAAGGTCCATGACGTTGAAGGAAAACTGAATGAGATGCGTGTGGTGAAAGATGAACAGGAAATTGCCGTTCTTAAAGAAGCGGCAGAGCTTGCGGATTACGGCGTGAAGGTGGGTACAGAAGCCTTAACCGAAGGAGTTACGGAAATGGAAGTTCTTGCAGCCATTGAGTATGAGCTGAAGAAAAAAGGTGTCGCTCAAATGTCCTTTTCCACGATGGTGCTCTTCGGTGAGAAATCCGGCCACCCTCACGGAAACCCGGGAGACCGCAGGCTGAAGGAAGGAGATCTCGTCCTGTTTGACCTTGGAGTCGTCTGGAAAGGCTATACGTCTGACATAACGAGAACCTTTGCTTTCCGATCTGTAGATGAGAAGCAGAAGGCCATCTATGAAACGGTTCTGGAAGCATTGAATGCCTCGCTGGCCATCAGCCGTCCTGGAACGAGAGTCGGTGATCTGGATACAGCGGCCCGTCAGGTCATTACCGAGGCGGGATACGGTGATAAATTCCCACACCGGATTGGACACGGACTGGGAATCAATGTGCATGAATTCCCATCTATGAGCCATTTGAATGACGGAGTATTAAAAGAAGGGATGACCTATACGATTGAACCTGGGATTTACGATCCTGAAATCGGCGGCGTACGTATTGAGGATGATGTGCTTGTCACGCCGGACGGTTATGTCACCCTGACAGAGACACCAAAAGAATTGACGATCATAAAGTGA	MKHRLDELAAYLKETGVNAAFINSPENFFYLTGFLTDPHERLLGLVVFPEADPIAVLPGMEKAQLEEAGWTYEIIGYADHEDPWQMIKDSMNQAGITNLQHAGIEKEVLSYGRSESFFALFDNVKVHDVEGKLNEMRVVKDEQEIAVLKEAAELADYGVKVGTEALTEGVTEMEVLAAIEYELKKKGVAQMSFSTMVLFGEKSGHPHGNPGDRRLKEGDLVLFDLGVVWKGYTSDITRTFAFRSVDEKQKAIYETVLEALNASLAISRPGTRVGDLDTAARQVITEAGYGDKFPHRIGHGLGINVHEFPSMSHLNDGVLKEGMTYTIEPGIYDPEIGGVRIEDDVLVTPDGYVTLTETPKELTIIK	PGPT0006760_2377	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
AK012_01697	348			hypothetical protein	ATGAAAAAGTTTCTGTTATTCCTCGCAGGTCTGACCGCCCTTGGATTATTGCTTGCAAACCTCGGCCCGATGATTCTGCTTGGTGCCAGTGTATGGCTGTTGTATATCGTTTTTAAGCAGTTCGTGAAAAGTGACTCAACGGCTGGGAAAATCGGATGGATTGTCGTCGGTTTGATTGTTTTAAGTATCGCCGTTTCCAACGTATACGCAGTCGTCGGTGTAGCTGCAGCTTATGTCCTCTACTGGATTTATAAAAATTGGACAAGCCGCACAAAGAACTCCACGTCTGAAAAAGGAGACGACCCATTTACAAATTTTGAGCGTGAATGGGCGGATTTAAACAAATAA	MKKFLLFLAGLTALGLLLANLGPMILLGASVWLLYIVFKQFVKSDSTAGKIGWIVVGLIVLSIAVSNVYAVVGVAAAYVLYWIYKNWTSRTKNSTSEKGDDPFTNFEREWADLNK	PGPT0028800_101	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028800-liaI-K11619	NA	NA
AK012_01698	639	liaH_2	COG1842	Protein LiaH	ATGGCCAACCTATTTACACGATTAAAGGATTCGATTACGGCAGATCTTCATGAAGCATTGGATCAGAAGGAACAGAAGAATCCAGTCGCTATGCTGAATCAGTACTTAAGGGAAAGTGAAAAAGAAACGGAAAGAGTGAGGAAGCTGGTGGAAAGGCAGCACCAGCTGAAAGGTGAGTTTACGCGGGAATATCAACAAGCGGTAGAAATGGCGGAAAAACGCAGGCGGCAGGCCGAAATAGCAGCACAGGCCGGCGAAACATCCATGCATGAGTTTGCCGTGAAGGAGCAGCAGGAGTATGAAGGACGTGCAGAAAAACTGAAGGCAGCCCGTTCGGAAAGTATGGAGCAGCTGGAAGCCCTGGAGCAGAAGTATGAAGAAATGAAGCACAAATTAAAAGACATGCACGTAAAACGGATGGAATTCATGGGCCGTGAAAATACCGCCCGCGCCCATCATAAAATGAACCGGGTACTGGAGGACGGATCGGATAAGTCTTATTCCCGATTTTCTGAGATCAACCGTTATATGGAAGATCTGGAGGATAAGGTGAACAGCGCTTATTATCGGAATACGTTTGACAGCAGGATGGCGGAAATCGAGAAAAAGGTCGAACATAAGCAGGAAGTGTCGGGTTAA	MANLFTRLKDSITADLHEALDQKEQKNPVAMLNQYLRESEKETERVRKLVERQHQLKGEFTREYQQAVEMAEKRRRQAEIAAQAGETSMHEFAVKEQQEYEGRAEKLKAARSESMEQLEALEQKYEEMKHKLKDMHVKRMEFMGRENTARAHHKMNRVLEDGSDKSYSRFSEINRYMEDLEDKVNSAYYRNTFDSRMAEIEKKVEHKQEVSG	PGPT0028805_103	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0028805-liaH-K11620	NA	NA
AK012_01699	729			hypothetical protein	ATGACCGCTGTGCTTAAAAGAATTTCAACCGATATGATGAACACGATTTTAATCATAGGGGTGATTCTCCTTATCATTGAAATAGTGTTCTTTAACGGAGGCCTCATTTTTTCTCTAGGGTTCTCAGCCGTTCTCGTTTATTTTGGATGGAAGAATTACAAGCCGGTCTGGAGGAAGGTCTTATTCTGGGTGGGCGCCGTCAGTTTCGGGCTGACCGTATTGAGTATGATCGCCGTCCGGTTTCTCGTACTGGCCATCCTTTTCCTGGCGGTTCGTCATTATTACAAAACGAAACAGCACCCGGAAAAAGTCCAGGTTGAAAGGCTGGATCCGGCTTGGGCCGACCCTCCAGGAGAACCTTTATTCACCCAGAAGTTTTTCGGTCGGCAGACGACACCACCCCATTCCTACCCGTGGCAGGATATCAATGTACACGGGGGTCTTGGCGACCGTGTCATCGATTTAAGTGAAACGGTTCTGCCTCCGGATGAATCTGTCGTTTCCATCCGGCATTTCGTAGGCAATGTCACCATCTATGTTCCATATGAAGTGGAAATTATGATCCATCACAGCGCCGTTATTGGACGAAGCACGATTTTTCAATTCAAAAAGACTAAAATGCTGAACCAGATGACGTTTTACCAAACACCGGATTATCAGAAAAATAAGCCCCGGGTAAAGGTCATTACCTCGATCTTCTCCGGCGATCTTGAGGTGAAGCGGATATGA	MTAVLKRISTDMMNTILIIGVILLIIEIVFFNGGLIFSLGFSAVLVYFGWKNYKPVWRKVLFWVGAVSFGLTVLSMIAVRFLVLAILFLAVRHYYKTKQHPEKVQVERLDPAWADPPGEPLFTQKFFGRQTTPPHSYPWQDINVHGGLGDRVIDLSETVLPPDESVVSIRHFVGNVTIYVPYEVEIMIHHSAVIGRSTIFQFKKTKMLNQMTFYQTPDYQKNKPRVKVITSIFSGDLEVKRI	PGPT0028815_269	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
AK012_01700	1038	liaS_1	COG4585	Sensor histidine kinase LiaS	ATGAATCTTTGGCAGAGGCAGATTGGCTCGGGGCTTTTCACATTCTTTGTATTTGCTCTCCTTCTGACAGGTGTGACATTTGCCGCTTTTCCGGTAGAGCGGTGGTCTGTGCTCTGGACGCGGGAGGTGCTTGATCTTCCGTATGGTTTCTTCATTTTCCTGCTTTCCTTGACGATGGGCTTTGTCACAGGTACTGCCCAGGGGTGGTACTGGCGCCGTCAGTTCACCCATATTGAGCAGCAGCTGGAAGAGGTCGTAAAAGGCAGACCCCTGGAAACGGAGGGGGCGGATTTTGTAGAAGTGAGAAGAATTGAAGATCAGATGAAACAACTGGAAGAGAAAATTTTGAAACAAACCGAACTTTCTCAACGTATGGTAACGGAAAGAGCGGAAGAACGGGAAAAAAGCCTGCAGGAAGTGGTCATACAGGAAAGGAACCGTCTGGCCAGGGAGCTCCATGACTCGGTCAGCCAGCAGTTGTTTGCGGCTTCCATGATGATGTCGGCCATTAACGAAACGAAGGAACACGGCCGTGCCGATACAGATCAGCAGTTGAAGTTGGTCGAGAAGATGATCCACCAGTCCCAGCTCGAAATGAGGGCGCTGCTTCTCCATCTGCGGCCGGTTCCTCTGAAGGATAAAACGCTCGCGGAAGGGATGGCAGAGCTGCTTCAGGAGCTGGTCCAAAAGGTTCCGCTTCATATTGACTGGACGATCGAACCGTTTCCTTTAGAAAAAGGGGTCGAGGACCAGCTTTTCCGGATCCTGCAGGAATCGGTATCCAACACACTGAGACACGCAAAGGCATCAACGCTTTCGGTCATGCTTCTGGAGCGGGACCACACCGTCATTTTGAAGGTGATCGATGACGGGGCCGGCTTTCATGTGGAAGAGAAAAAGACAAGCTCCTACGGCCTTCAAAATATGGAGGAGCGTGCGTATGAAATGGGTGGAACATTAAAGGTCGTCAGCGTGAAAGGGCAGGGCACCCGCTTGGAAGTGAAAGTGCCCCACCGACTTAAAGGAGGTCAATCCTGA	MNLWQRQIGSGLFTFFVFALLLTGVTFAAFPVERWSVLWTREVLDLPYGFFIFLLSLTMGFVTGTAQGWYWRRQFTHIEQQLEEVVKGRPLETEGADFVEVRRIEDQMKQLEEKILKQTELSQRMVTERAEEREKSLQEVVIQERNRLARELHDSVSQQLFAASMMMSAINETKEHGRADTDQQLKLVEKMIHQSQLEMRALLLHLRPVPLKDKTLAEGMAELLQELVQKVPLHIDWTIEPFPLEKGVEDQLFRILQESVSNTLRHAKASTLSVMLLERDHTVILKVIDDGAGFHVEEKKTSSYGLQNMEERAYEMGGTLKVVSVKGQGTRLEVKVPHRLKGGQS	PGPT0014865_315	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014865-liaS-K11617	NA	NA
AK012_01701	633	liaR_1	COG2197	Transcriptional regulatory protein LiaR	ATGATTCGAGTATTGTTCGCAGATGACCATGAGATGGTCCGCATCGGTGTATCCGCCTATCTGTCTTCACAGTCGGATATTGAGGTGATTGCGGAAGCCGGGGACGGGGAAGATGCGGTAGAACTTGCCTTTCAACACCGGCCGGATATTATTCTGATGGACCTTGTGATGGAAAAGATGGATGGGATTGAAGCGACAAAGCGGATTACAGCCGAATGGCCGGAGGCGAAAATCATCATCGTCACCAGTTTTCTTGATGATGAAAAGGTGTACCCGGCTTTAGAAGCGGGAGCGGTCAGTTATATGCTGAAAACGTCAAAAGCTGAGGAAATCGCCAAGGCCATCCGGGCCACATTCGAAGGTCAGTCTATTCTGGAGCCGGAAGTGACCGGGAAAATCATGACAAAAATGCGGAAGCCGGAAACCCGTGCGCTTCACGAAGAGTTGACGAACAGGGAAAAAGAGATTCTGCTTCTTATGGCAGAAGGAAAGACGAACCAGGAAATTGCGGAGCAGCTGTTCATTGCTTTAAAGACGGTAAAAGTTCACGTAAGCAGCATTCTTGGGAAACTGCAGGTATCGGACCGGACGCAGGCTGTGATCTATGCCTTCAAGCATGAGCTTGTCCATTAA	MIRVLFADDHEMVRIGVSAYLSSQSDIEVIAEAGDGEDAVELAFQHRPDIILMDLVMEKMDGIEATKRITAEWPEAKIIIVTSFLDDEKVYPALEAGAVSYMLKTSKAEEIAKAIRATFEGQSILEPEVTGKIMTKMRKPETRALHEELTNREKEILLLMAEGKTNQEIAEQLFIALKTVKVHVSSILGKLQVSDRTQAVIYAFKHELVH	PGPT0014870_374	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
AK012_01702	699	rpiA_1	COG0120	Ribose-5-phosphate isomerase A	ATGAAGTGGAGGAATCAACTTTCCGGAAGCCCGGTGTGGGCGGGGGCCATATCCAATCGGGAAGCCAAGGAGCAGGCAGCCGAAAAAGTGAGCCGGCTGGTTGAAGACCAACAGGTCATCGGTGTCGGTTCAGGCTCGACAGCCTATATTGCACTGGAAAAGATCGGAGAACGTATAAAGGACGAAGGGTTGGACGTCTACGCGGTTCCGACATCGAAAGAAGCGGAAATGAACTGTGCCTTGTTCGGGTTGAAGACGACGACATTGACTGCTGCAAAGCCCGACTGGGGGTTTGACGGAGCGGATGAAGTGGATAATGCCGGCCGGTTGATCAAAGGCAGAGGTGGAGCGTTATTCGCTGAAAAACTCGTGATGGCAAGCTCCCCTAAAACGTATATTTTAGTAGATGAAAGCAAGTACGTTCACAAGCTCGGCGAAAAGTACGCGGTTCCTGTTGAAGTGGATCCGAGGGCTGTTCATCTCGTGGAAACGAAACTGCAGGATTTCCCTTGTGAGGATATCCAGCTCCGTATGGCAGCGGCAAAAGACGGCCCTGTTCTGACAGAAGCGGGCAATCTCCTGCTGGAAGTACGGTTCTCAGACATTCATGATGGGTTGGAAAAAGAGCTCAGTGCTGTCCCCGGAGTCATAGAAACGGGACTGTTCATTGGGTATCCCGTGGAAATTTTAACGGTTTGA	MKWRNQLSGSPVWAGAISNREAKEQAAEKVSRLVEDQQVIGVGSGSTAYIALEKIGERIKDEGLDVYAVPTSKEAEMNCALFGLKTTTLTAAKPDWGFDGADEVDNAGRLIKGRGGALFAEKLVMASSPKTYILVDESKYVHKLGEKYAVPVEVDPRAVHLVETKLQDFPCEDIQLRMAAAKDGPVLTEAGNLLLEVRFSDIHDGLEKELSAVPGVIETGLFIGYPVEILTV	PGPT0017390_1433	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
AK012_01703	1527			hypothetical protein	ATGGGACTGCCAAATAGGATTGCTTACCAGGATCATCGCTACCCTCATGTTGTACTCGCACCGATCGGAAAGAAAAATAAGCACATTCGGTCCATCGGACATAAATTTGAACGGGGGTTATTATCCAGGCTTAACGATGCAGTTGTGGATCATATCGGCAGGAAGTCTCTGGACACAGCGTCCATCCAAAATTATCTCGGACTAACCGGAGATGCTGTTCTGCCTGTAGCTTTTCAAAAGGAAGAGACGATCCATCCACATTTGCTGCGCCCAGAATTGTTTTTATGGAAGTCCCTGCCTGAAGAACATGGACTACCTTTAAAAGATTCCTATTTATATCACACAGATTTCACTCAGCTTTCCTCAGATCAGTTGTATGATCATGTCGGGGAAGTATTGGAGGATTATCTGTTTCTTTCTCATATCAGCAAGGAGAGCCGCGAACACTGGCTTGATAAAATAGCAGACGCGTTTCACCGGCATCCGCTTGTCCAGCTTTTTCATCAAAAGCGTGACGTGATCGATGCTGTCGAAACGATGAACCAGTCCTCGCTGATTTCTGTCCTTAACTATCCAGAGGACATTGCGTATTGGAGGCACCGTGTCGAAATCGTCATGCGTCCGTTCCGTGCACTTCCACAGGCATGGGTGGAACGGGAAGAGGGCAGCTGCCCTCATTCGAAATGTCTACAGTTCGATGCAGAGGAGAAAACGATCTGCTGCTATTGTGAAACGTGTGATTTCTGCCTGTATTATGACACGGTGGAAGAGGCTGTCCACTTTCCGGAGGAGTTCGATGTGGATCGGGCAGTCAAACGGACGGCGACGATCGAGGAGCAGTTCAACGCCATAGCCCGGCAGAACAGCCGGCTTCTTGAGCAGCTTGCTCAGTTGAGGGCGTTGAAGAAGCAGCTGAACACGGCCCGGAAACCCCTCGATGAGAGTCTTGCAGTCGTCAGCCGAATCGAAAAATATCAGCGCCGGAAAGACGATCTGTCTGCTTACCCGTTACTGGACATGTATGACAAACTAAGCCGGGTTCATATACCCGAAAAGGGGAACGATTCAGAACTGTTGTGGCTGGCCGGTGTAGAACTGAAAGAAGTCCGGATCCTTAAAGAGTTGAGTCGTTGGCAGAAGATCGTGCCGGAGCATGTCTATCCGAATACCCGGCATGTGCTGGAGGAGTTGAAGACGCGGCTGGAAGATGTCCGCTACCATGATGAAGACATCATCCTGACCATCAAGGGCCGGTCCATCACCTATGCAGATACCCAGCAGATTCTTGATCTCATCTATTATTATGGCAGTGAGTATCCGGTTCATACGCTGGTACAGATGCTTGCAGGTAAGCCGACAAACAAGTTGAGAAGTTTGTACCTTCATGAAACACGCTGGTTCGGCCTTTTATCCAGCTGGCCGGAAAAGCATATCCAAAGATTGTTCACCCAGCTGGAAAAGCAGGGCTGGCTCATGAAGCAGCAAAAGGGTTATGCGATCAGCGATTTTGCGGAAGAAGTGATGTAG	MGLPNRIAYQDHRYPHVVLAPIGKKNKHIRSIGHKFERGLLSRLNDAVVDHIGRKSLDTASIQNYLGLTGDAVLPVAFQKEETIHPHLLRPELFLWKSLPEEHGLPLKDSYLYHTDFTQLSSDQLYDHVGEVLEDYLFLSHISKESREHWLDKIADAFHRHPLVQLFHQKRDVIDAVETMNQSSLISVLNYPEDIAYWRHRVEIVMRPFRALPQAWVEREEGSCPHSKCLQFDAEEKTICCYCETCDFCLYYDTVEEAVHFPEEFDVDRAVKRTATIEEQFNAIARQNSRLLEQLAQLRALKKQLNTARKPLDESLAVVSRIEKYQRRKDDLSAYPLLDMYDKLSRVHIPEKGNDSELLWLAGVELKEVRILKELSRWQKIVPEHVYPNTRHVLEELKTRLEDVRYHDEDIILTIKGRSITYADTQQILDLIYYYGSEYPVHTLVQMLAGKPTNKLRSLYLHETRWFGLLSSWPEKHIQRLFTQLEKQGWLMKQQKGYAISDFAEEVM				NA	NA	NA	NA	NA
AK012_01704	645			hypothetical protein	ATGAAATCCATCTACCACAAAGCGCTCGGGGAACAGTTCCATCACCTGCATCCTGAGCTGCAGAAAAAATACGGATTAACGAGTAAGCAGAATCTTATGGTCCTCGGACAGGGAAGAATGACAGAAATCAGAGGGACTCCGGCCCTTGTGCGACCATTGATGAGTGCCGGTGCCAAAGACCATCTTTTATTTGCAGAGCGTGGGAGAGACGTCCCTTTTACACTTGAGAATTATGTCTATGAAGATGAAGAGGGAAGGGAAACCATCAGCTGGATCCGCCGGTTCTTTTTCCCTTATGCCATCCGCGGGTTCGACTCTGCGGCGAGATATGATGAAGAAAAACAGTGTCTCGTTGACCATCTCGGGCGGTCCGGCCTTGTGAAGGCAGACTTTGATCTTCACGTTACTCCGGAAGGCGGTTTGTATATGGAGTCGAAAGCCAATCATGGACCGGGGGGGATGTCGATGGACGGGACTGTGACTTCTGTATATGAACATTTCGAAGAAGAAGAAGGCGCCACCCGGGTACACGTCCACACCGAACATCCTGTATTCGGAACGCTGTTGATGTATGAAGGACTCGTCCATACAGAATTTCTGCCGATGACATTTCGAAATATCCCTCAGCGGGGAGTACTGGATTAA	MKSIYHKALGEQFHHLHPELQKKYGLTSKQNLMVLGQGRMTEIRGTPALVRPLMSAGAKDHLLFAERGRDVPFTLENYVYEDEEGRETISWIRRFFFPYAIRGFDSAARYDEEKQCLVDHLGRSGLVKADFDLHVTPEGGLYMESKANHGPGGMSMDGTVTSVYEHFEEEEGATRVHVHTEHPVFGTLLMYEGLVHTEFLPMTFRNIPQRGVLD				NA	NA	NA	NA	NA
AK012_01705	837	kynA	COG3483	Tryptophan 2,3-dioxygenase	TTGACTCAAGAACCGCCGAAAGGCAGTGAAGGTGTGCATACCGATTTTTCCGAACGTATGACCTATGGAGAATATCTACGCTTAGACGAGCTGTTGGAATCCCAGAAGCCTCTCTCTTCCCATCATGATGAAATGCTTTTTATTATGATCCATCAAGTCAGTGAATTATGGATGAAATTGATGCTGCACGAACTACAGGCGGCGATCCGTTCGATTCAGAACGATGATATGCAGCCGGCCTTCAAAATGCTTGCCAGAGTTTCAAGCATTCAGAAGCAGATCATCCACGCGTGGGATGTGCTGGCGACGATGACGCCCTCGGAGTATATGGAATTCCGCGATCAATTAGGCCAGGCTTCAGGCTTTCAATCCTACCAGTACCGGATGATTGAATTCTCCCTTGGGTATAAGACCAATGCTGTGTTGAAGATTTACAGGAAAGATAAGAAACTTCACAGCCGCCTGGAAGAGGCCTATAAGCAGCCAAGCTTATATGATGTCACCCTTGAACAGCTGGCCAAGGCAGGCTTTGATCTGGACCCGGAAGTGCTGGAAAGAGATTACACCCGGATGTATGAACAGAATCCTACGGTTGAAGCTGCATGGGCGTGTGTGTATAAAGATGTGGATCGATACTGGCATTTATACCAGCTGGCTGAAAAGCTTGTAGATTTGGAAGACAGTCTCCAGCAATGGCGGTTCCGACATATGAAAACGGTGGAAAGGATCATTGGTCATAAGAAAGGGACAGGAGGATCCACGGGCGTCGGCTACTTGAAAAAAGTCCTCGATCACCGTTTCTTTCCTGAGTTATGGGATGTGCGCACCCATTTTTAA	MTQEPPKGSEGVHTDFSERMTYGEYLRLDELLESQKPLSSHHDEMLFIMIHQVSELWMKLMLHELQAAIRSIQNDDMQPAFKMLARVSSIQKQIIHAWDVLATMTPSEYMEFRDQLGQASGFQSYQYRMIEFSLGYKTNAVLKIYRKDKKLHSRLEEAYKQPSLYDVTLEQLAKAGFDLDPEVLERDYTRMYEQNPTVEAAWACVYKDVDRYWHLYQLAEKLVDLEDSLQQWRFRHMKTVERIIGHKKGTGGSTGVGYLKKVLDHRFFPELWDVRTHF	PGPT0020505_1360	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TRYPTOPHANE_DEGRADATION,PGPT0020505-kynA-K00453	NA	NA
AK012_01706	1353	pdaC	COG0726	Peptidoglycan-N-acetylmuramic acid deacetylase PdaC	ATGAGACAACCTATTTTATATATATCACTGCTGGTCGTTTTAGTTGTATCAGGATGCTCATTTATCGCAAAAGCCAATGAAAATGATTCTAAACAATCCGATGAAATCGAACCCATATACGATATCGATATGAAGACGGAGCTGGTGGAGCACAATGAATACCACATTACCATCCACTATCCGCAGACAACCAATAATCAGGTGAACCAGACGATTGCCGATTACGTCAATCAACAGAAGGCCGATTTTAAGCAGGCCAGCTATCAGAATAAACAATCCGGGGAAAGTTCTGAATCCGATGAACTTCACGTGGATTTTGAAATGCTTTATCAGGATCACCGCTTCTTTGTCATCCGTTTCATTGAAACGATGGACGTAGGCGGAAGCAGGGTTATTAAAAACCAGACCGTTATGAATTTTGATAAGAAGGACGGCCGTAAGCTTGATTTGGACGAGCTTATGAAGAACGATCCCGACGTGCTTGATGAACTGGCTGCCCTGACAGAAGAAGCACTGAGTGAAGAACAATTGTCCAGCCGCTACAATGTTCCCCTGCACGTGAATAAGCGGACATTCGAGGATGTGGCTCTTACGAAAGAAGGTGTGAGGGTGTATCTTCAGGCAGAAGACGGGACGCCGAGCTATGTGCTCGTCGATTTCGATGATGTGAAGGGGCTCATTCAGGATGAGCTTGCGGACGCTTTGGAATCCGCTTCTGCGCCTTCGGAAACCTCCTCTTCTGAACAAGTCGAATCCAGCCGGGTGGAGTCCGTGTCCACCAATGATCTGGAAGTGGAAACGGAGAAGAAGAAAGTCGCTCTCACTTTTGATGATGGTCCCCATCCGAAATGGACCAGTGAAATTCTTGCTCTTTTGGAAGAGTACGATGCCAAAGGTTCGTTTTTCATGATTGGAAAACGGGTATCCTACTACCCGGAAACCGCCCGGATGGTGGCTGAAGAGGGGCATGAAATCGGTAATCATACCTGGGATCACCCCCGTCTCGCCCGGTTGAGTCCGGAAGAGGTGGATGAACAGATTCTCGCCACCCAGGACGTCATTAAACAGGCTGCGGGAATAGAAACAGTTGGATTGAGACTGCCGTTCGGGGAAGAGCCGCCGAAAGCTTATAAAGGCGATTGGAATACGATTCCATGGACGCTCTATTCAGAGGAATGGAGAGAACAGGAGCCGGAGGAAATAGCGGAAGATATTATATCGCAGGCAGAGAATGGGTCTGTGATTCTTCTGCACGAACTGCAGAGCGAGACACCTGAAGTGGTGGAGATTGTATTGGAACGGTTAACTGCCGAAGGTTTCCAGTTCGTGAGGGTCAGCGATCTGGAGTCATAA	MRQPILYISLLVVLVVSGCSFIAKANENDSKQSDEIEPIYDIDMKTELVEHNEYHITIHYPQTTNNQVNQTIADYVNQQKADFKQASYQNKQSGESSESDELHVDFEMLYQDHRFFVIRFIETMDVGGSRVIKNQTVMNFDKKDGRKLDLDELMKNDPDVLDELAALTEEALSEEQLSSRYNVPLHVNKRTFEDVALTKEGVRVYLQAEDGTPSYVLVDFDDVKGLIQDELADALESASAPSETSSSEQVESSRVESVSTNDLEVETEKKKVALTFDDGPHPKWTSEILALLEEYDAKGSFFMIGKRVSYYPETARMVAEEGHEIGNHTWDHPRLARLSPEEVDEQILATQDVIKQAAGIETVGLRLPFGEEPPKAYKGDWNTIPWTLYSEEWREQEPEEIAEDIISQAENGSVILLHELQSETPEVVEIVLERLTAEGFQFVRVSDLES	PGPT0018645_629	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK012_01707	1065	metXA	COG2021	Homoserine O-acetyltransferase	ATGTCTTTAAAAAACCCCGCCAGCCAGACAGCCGCGTTGGAAACCATTGAGCTCGGGCCTTTCCATTTCGAATCCGGCGGCCGGCTCGAATCGGTAGAACTGGCTTATGAACGCAGCGGTCCTGTCCACGCTCCCGTGATCGTCGTCTGCCACGCTTTAACAGGAAACCAGGAAGCTGTGGGTACAGAAGAGCAGCCCGGCTGGTGGGCCGGATTAATCGGAGAAGGCTGTCCAATCGACACCTCTTTGTTTCAAGTGATTACGTTTAATGTATTGGGAGGCTGCCACGGATCCACCGGTCCTGCCAGCCTGAACCCTGATACAGGTGAACCCTTCCGTCAAAAGTTCCCTAAAGTGACCATCCGTGATATGGTCCGTGCCCAGTATGAAGCCTTGAAAAAGATGGGCATCCATCAGGTCAAGGCTGTTGCCGGCGGGTCGCTGGGAGGCATGCAGACGTATGAATGGGGGCTCCTCTATCCTGATTTCATGGAGAAATTGTTGATTATGGCTGCCACCCCCTACTTGAGTGATTACGGCATCGCCTTCAATCACATTGGTGCAAAAGCCATCAAAAACGACCCTCTTTTTCAAGGCGGGGACTATGCGACCAATGAGTCCCTTCAGGGATTTGAAATTGCGCGGATGACAGGTATGGTCACTTATCGAAGCCCCACCCTCTTCGAGAAAAGGTTTGACCGCTCCAACGGCGGGGACACCTATGAAATTCAGTCCTATCTGGATTATCAGGGAGATAAAATCAAAGAAAGATTTGATGCGAACAGCTACCTCTACCTCCTCGATGCTATGAACAACCATGACATCGGGAGAAACCGCGGAGGATGGAAAGCAGCCGCCTCTCAATACAAAGCTGACATGTTTACGTTCAGTTTTGAACACGACCTGCTTTATCCGGAAGACCTGATCTCTGCATTTGCATCAGCCGCACCAAAGGCCGTCCACAGGCATATTCCCACGGATTACGGTCATGATGGTTTTCTCGTTGAATTCGATCGATGGGGGCAATTCATCAAAGAGCAGCTGAACGGAGACGAAACACAATGA	MSLKNPASQTAALETIELGPFHFESGGRLESVELAYERSGPVHAPVIVVCHALTGNQEAVGTEEQPGWWAGLIGEGCPIDTSLFQVITFNVLGGCHGSTGPASLNPDTGEPFRQKFPKVTIRDMVRAQYEALKKMGIHQVKAVAGGSLGGMQTYEWGLLYPDFMEKLLIMAATPYLSDYGIAFNHIGAKAIKNDPLFQGGDYATNESLQGFEIARMTGMVTYRSPTLFEKRFDRSNGGDTYEIQSYLDYQGDKIKERFDANSYLYLLDAMNNHDIGRNRGGWKAAASQYKADMFTFSFEHDLLYPEDLISAFASAAPKAVHRHIPTDYGHDGFLVEFDRWGQFIKEQLNGDETQ				NA	NA	NA	NA	NA
AK012_01708	1701	metZ_2		O-succinylhomoserine sulfhydrylase	ATGACCAATTCAAATCATGTGTACAGAGACGAAACGCAGCTGCTTCACGGCGGACAGGAGGCTGATCCAGCGACGGGTTCACGTGCGGTCCCCATCTACCAGACGACCTCGTATGTTTTTAATGATACGGACCATGCCCAGAATCTTTTTGCACTTGCCGAACCGGGCAACATTTATTCAAGAATTACAAACCCGACCGTCGATGTGTTTGAACAGCGTGTAGCACTCCTTGAAGACGGGGCGGCGGCTGTAGCCACTGCTTCCGGGATGGCGGCCATCACAATGGCGGTTCTAAACGTTGCCGGATCCGGTGATACCATCGTCACTTCATCCAACCTTTATGGAGGCACGTATAACTTATTCGTCCACACCCTCCCCCGCTATGGCGTCCATGTCGTTTTTGTAGATGGGAACGATCCTAATGCCTTCGAGGAAGCCATTACACCCGAAACGAAAGCGATTTTCGCTGAAACCATCGGCAATCCAAGTCTGAATGTGCTGGATTTTGAAGCGGTGGCAGATATCGCCCACGCCCACCACATCCCGTTAATCGTCGACAACACCTTTGCTACGCCTTATGTATGCAAACCCATTTCATGGGGAGCCGATATCGTCGTCCATTCCGCGACGAAGTGGATCGGCGGCCATGGGACAGCTATCGGGGGCATCGTTGTAGACAGCGGACGTTTTGACTGGAATCACGAAAAATTCCCAGGCTTTACGGAGCCTGATGAAAGTTACAACGGCATCCGTTTCGGTCTGGACGCAGGGCCTGCGTCATATGCCATTAAGCTGCGTGTCCAGCTGTTGAGAGACATTGGTGCGTGCCTGAGCCCGCAGAACGCCTTCCTGCTGCTGCAAGGGCTGGAAACACTCCACTTAAGGATTCAAAAGCATGCCGACCAGGCTCAGGAAATTGCCGAATACCTGCAGCGTCATGAAGGCGTGGAATGGGTCAATTATCCAGGTCTCCCTGACCACCCCACCCATGACCTGGCTGAGAAGTACTTGAAAGGCGGGGCCGGTTCCATGGTTGTTTTCGGGATCAAAGGCGGACGCGAGGCCGGTCGTAAATTGATTGACCATTCCACCCTCTGGTCTCATGTAGCCAATGTCGGAGATGCAAAATCATTAATCATTCATCCGGCCTCCACCACTCACCAGCAGTTGAATGATGAGAACTTGAAAAAGTCAGGGGTAACCGAAGAACTTGTCCGCCTTTCCGTCGGTCTGGAATCGACAGCGGATCTTATCAGCGACTTGGATCAAGCCATTGAAAAAGCGAATGGGTACAGCCTGCCTTATCAGGAACAGTCACATCCGGCTGAGGAAATCCTCCGTTCCTCTCTTGATCGGTCCAATGGAGAGCTCCGCAAAAAAACGATCGGCATCGTCCCTGAACAACAGGGAGGACTTCAGGAGGAAGCGGTCAAGCTGGAACGATTCGGCTTTGATGTGAAGACATTCTCGAGTATAGAAGAAGTCCTCGAACAGAATAATACAGCTTTCGATGTACTGTACTTTGAAAGCCTCACGGAAAATCAAGCAAATTCAGCTCAGTCAGCCAGACCGGCGATCATCTGGTCCCGGGCCGCCTCTTCGTTGGAAAGTGAACGAATCCTATCCGGAGTCAGCCTTCACGAGGCTGTCGTGTCCATCCGTTCCGGACGCAGTTTATCCCAAACGCTCATCACTGTATAA	MTNSNHVYRDETQLLHGGQEADPATGSRAVPIYQTTSYVFNDTDHAQNLFALAEPGNIYSRITNPTVDVFEQRVALLEDGAAAVATASGMAAITMAVLNVAGSGDTIVTSSNLYGGTYNLFVHTLPRYGVHVVFVDGNDPNAFEEAITPETKAIFAETIGNPSLNVLDFEAVADIAHAHHIPLIVDNTFATPYVCKPISWGADIVVHSATKWIGGHGTAIGGIVVDSGRFDWNHEKFPGFTEPDESYNGIRFGLDAGPASYAIKLRVQLLRDIGACLSPQNAFLLLQGLETLHLRIQKHADQAQEIAEYLQRHEGVEWVNYPGLPDHPTHDLAEKYLKGGAGSMVVFGIKGGREAGRKLIDHSTLWSHVANVGDAKSLIIHPASTTHQQLNDENLKKSGVTEELVRLSVGLESTADLISDLDQAIEKANGYSLPYQEQSHPAEEILRSSLDRSNGELRKKTIGIVPEQQGGLQEEAVKLERFGFDVKTFSSIEEVLEQNNTAFDVLYFESLTENQANSAQSARPAIIWSRAASSLESERILSGVSLHEAVVSIRSGRSLSQTLITV	PGPT0001995_264	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760	NA	NA
AK012_01710	198			hypothetical protein	ATGAAGGAATATAGTGTAGTACCTAATAAAGATGTAACCGGCTGGTTCGTAAAAATTGAGGATGTGGCTCCGACAGATTTGTTTGACGAGCGTGACACAGCTGTAGAAAAAGCGGAGGAAATCGCCAAGCAGAATAAACCGAGCCGCTTGTACATTCTGGATCAGAATCACGAAGTTGAAGAAGAGCGTACCTTTTAA	MKEYSVVPNKDVTGWFVKIEDVAPTDLFDERDTAVEKAEEIAKQNKPSRLYILDQNHEVEEERTF				NA	NA	NA	NA	NA
AK012_01711	1218			hypothetical protein	ATGAATCACACATACGACGTCATCATCACAGGGGCGAGAGCAGCTGGAGCCAGTCTGGCTGTTTTGCTGGGAAGGATGGGTAAGCGCGTGCTTCTCATAGATAAAGCCGATTTTCCAAGTGACACACTGTCCACTCACTTCATGTCGCACACACGCTTCTTGGAGGAACTGGGTATTCTTCGACCATTGGAGGAGACCGGCTTGAGAAAAGTCACCCGGATGCGGACGTATATCGGTCAAAGCTTTATGGAAGGCCCGAGGCCTGCTTATACGATCATTCCAAAGCGGGATGTGCTGGACGCCCTGCTCATTGAGCAGGCCGAAGCCCTGGATTCGGTTACGTTTATGTCCCGGACATCAGCGAGAGGTCTCATGAAGGAGGGAGGACGCGTCATTGGTCTTCACCTTGAGACGGAAGGCCGGGCGTGGAACGCTTATGCCGAATGGGTGGCAGGAGCGGATGGGAAAAACTCGAACATCGCTGCCTGGGCAGGAGCGCAGAAATATAGAGAAACAAAACCACTCCGGCCTGTGCTGTATGGCTATTACACAGGCGTGGAGCCGCTGCGCGAACCTGTAACGGAAATCTTTCTGCATGAGGGGCGGATCGGCTTTGTCTTTCCGATGGAGGAGAACAGGGACTGTCTGGGGATTGAAATCCATCCCGAAGAGTTTGCGTCCATGATGAAAGCACCGAAAGACACGTTTGAACAAACGTTTAATCAATTTTATGGTATGAAACAGCGATTAAAGCAGGCTTCTCTGCAGGGGAAGATCATCGGAACCCCCGGAATGCCGAACTTTTTCAGGAATGCTTATGGAGAGGGATGGGTTCTTCTTGGAGATGCCGGTCACAGCAAAGACCCCAGTACGGGACTTGGTATCAATGATGCGTTTCTGCAGTCTTTCCTGCTGGCTGATGCCTTTCAGCAGATGGATGAGGGAGTCGATTGGGAAACGGCCATGGCTCGTTTTCAAAAACAAAGAGATGAGCAGCTGCTGCCTGGGTTTCAGCTGACCCTGGATTACATTCATTCACTCCGGAAATGGACCAGCAATGAAATGGCATTGTTTCAAACCATTGCTGCCAATCCCATGGCCTGGAATAAGCTCATGCCTCACCTGGGCAGACATTTAAAGGAAGACACCAAAGACTTTCCTCTTTTCTATCAATCGGTGGAATGGGAAGCCTCCTCCTTCGGTTTCAGGAAGGATTAA	MNHTYDVIITGARAAGASLAVLLGRMGKRVLLIDKADFPSDTLSTHFMSHTRFLEELGILRPLEETGLRKVTRMRTYIGQSFMEGPRPAYTIIPKRDVLDALLIEQAEALDSVTFMSRTSARGLMKEGGRVIGLHLETEGRAWNAYAEWVAGADGKNSNIAAWAGAQKYRETKPLRPVLYGYYTGVEPLREPVTEIFLHEGRIGFVFPMEENRDCLGIEIHPEEFASMMKAPKDTFEQTFNQFYGMKQRLKQASLQGKIIGTPGMPNFFRNAYGEGWVLLGDAGHSKDPSTGLGINDAFLQSFLLADAFQQMDEGVDWETAMARFQKQRDEQLLPGFQLTLDYIHSLRKWTSNEMALFQTIAANPMAWNKLMPHLGRHLKEDTKDFPLFYQSVEWEASSFGFRKD				NA	NA	NA	NA	NA
AK012_01712	456			hypothetical protein	ATGGAATGGTCAAAAGCATCGGCTTTCGATAAGCTGCAGGAAATTTACACGGATAAAGTGATGCAGGACGAAAAAAGAAGAATCTTTCAAATGGTGTACCGCCATCTGCATGGCCATCTGGACGATCTCGACGTAGAGACAGGTCTGACAGAAAAAGCTGAGAAACAATTGAAGTTTTTTAAAGAATACACATTTATGCCGGGAGATAATCTGTTTCAATCGATGCGCTGGGTCTTTTTAGTCGCCCGGGGGGAGAAACCGAAAGAAGCAGAGGAGACAAGGGGCCATCTGGATCGGATCTACCGCTCGTTGTATCAGCCGGCTGGTTTGAAGAACCCGGCCGTTCCGGAAACCTTCTGGGAAACGCCGCTTGGCGTTGCCTGCCTGGTGGCAGAAGAAGGGGTCGAGGCGGTCTATCCCATACTTGATGAGGTCCTGGAAGTCGAAAGGATATAG	MEWSKASAFDKLQEIYTDKVMQDEKRRIFQMVYRHLHGHLDDLDVETGLTEKAEKQLKFFKEYTFMPGDNLFQSMRWVFLVARGEKPKEAEETRGHLDRIYRSLYQPAGLKNPAVPETFWETPLGVACLVAEEGVEAVYPILDEVLEVERI				NA	NA	NA	NA	NA
AK012_01713	966		COG3380	Renalase	ATGGAACATTATGAAGTGACCATTATCGGTGCGGGGCTTGCAGGAATAACAGCTGCCCGCCGTCTGATGAAGCAGGGGAGGTCGAATATCCTGCTTGTTGATAAAGGCAAAAGTGTCGGTGGACGTCTGGCGACACGCCGGATTGCCGGCGGCAGAGCCGACCATGGGGCGCAGTTTTTCACGGTCCGCTCAGAAGAACTGGCTGAAGAAGTCCAGGAATGGCTGGATGCAGGATGGGTAAGGGAATGGTTCGGGGATGATCATCCGCGGTATACGGCCGTAGACGGAATGAACGGTCTTGCCAAGCAGCTCGCCGATGGTATTCCGACATTACTGGAAACAAGAATTGAAAAGCTGTTGGAAAACGATGGAGGGTACCGGGTGTACGGGGCGGATGGTTCCGAATGGCAGACGGACAGCCTGTATTTGACGATGCCTGCTCCCCAGGTACTGGAACTTTTCAGAAATAGTACTGTGAGCATGCCTGAACCTGTGAAAAAACAATTGAAAGAGATTTTATTTGAACCGACATATGTTGGTTTGTTTGAATTTAACAAACCGACGGAACTTCCTGAACACGGCCATCTGGATCAAGAACTTCCGGAAGGTGTGGAGCGTATCGTCGATCACAGCAAAAAAGGCATTTCCGACGATGTGATCGTCAGTGTCTATATGACAGGAGACTGGTCCAGAAAGTACTACGGGGAAGATTATGTGATGTCCCTGGTGAAGGAAAAGGCGGAGGCCTATCTTCCATGGGACGACCTTGAGTCTGAACAGCTGAAGCGCTGGCGGTATGCTCAGGCGAAGAAGGTTATGAAGGAATCCTGTCTTGATGTGAGTGGAGACGGGAGACTCATCGTTGGAGGAGACGCATTTCTCCGGCCGAATGATGGAGCAGGGCGTACCCGTTTCGAAAGTGCTTATCTATCTGGAAAAGATGCCGCAGCCCATCTGCGCTGGTAG	MEHYEVTIIGAGLAGITAARRLMKQGRSNILLVDKGKSVGGRLATRRIAGGRADHGAQFFTVRSEELAEEVQEWLDAGWVREWFGDDHPRYTAVDGMNGLAKQLADGIPTLLETRIEKLLENDGGYRVYGADGSEWQTDSLYLTMPAPQVLELFRNSTVSMPEPVKKQLKEILFEPTYVGLFEFNKPTELPEHGHLDQELPEGVERIVDHSKKGISDDVIVSVYMTGDWSRKYYGEDYVMSLVKEKAEAYLPWDDLESEQLKRWRYAQAKKVMKESCLDVSGDGRLIVGGDAFLRPNDGAGRTRFESAYLSGKDAAAHLRW				NA	NA	NA	NA	NA
AK012_01714	213			hypothetical protein	ATGTTTGCAAAGGGTAAAACGACACCAGGAAAATGGCTTGCTTACTTAGGTTTATGGATTTTTGCTGCTGGATTTGTGTTTAGTGGGATTGTCGGCCTTGATGGTACGCCATATTTATTAGAAGCTGCCTCAATCCCTTTGATGGTCATAGGATTATTGATGCTGCTCTCATCAAATTTCTTTACTAAGAAACGTTCAGAAAATAGAAGATGA	MFAKGKTTPGKWLAYLGLWIFAAGFVFSGIVGLDGTPYLLEAASIPLMVIGLLMLLSSNFFTKKRSENRR				NA	NA	NA	NA	NA
AK012_01715	195			hypothetical protein	ATGAGAACGCTCCAGCTTGTAGAGAAACCCCTGTTTCTTTACAAGCTTTTTTCTTTCTTACCGCCGGGAGCGAAAGCCCCTTCCCTTTCCGCGGACGAGCGCCCGAGCTTCCTCGCAAAACCCACGCTCGGCGATCTCGGATCACTCGTTCTTCCGCAGGAGTGGAAGGGGCACCGCTCCTTGAGTGTTCTTTAA	MRTLQLVEKPLFLYKLFSFLPPGAKAPSLSADERPSFLAKPTLGDLGSLVLPQEWKGHRSLSVL				NA	NA	NA	NA	NA
AK012_01716	906	rarD	COG2962	Protein RarD	ATGGAAAACGATCAAAAACTCGGGATCATCTATACAGCCGGAGCTTATATTCTCTGGGGGATTCTTCCGATCTACTGGAAATGGATACAGGACATTTCCGCTTTTGAAATTCTTGCCCACCGTATCGTCTGGTCTTTTGTCTTCATGAGCTTGATTATTGCCGTTCTTCAAAAACAGCAGCCTTTTCTCAAGGAATGCCGCAGAATATTAAAGAATAAGCGGCAGATGATCGGAATAACCCTCGCTTCTGTGACGATCAGCATCAACTGGGTCACCTACATACTTGCCGTCAATACCGACCACGTGGTCGAAGCCAGCCTCGGCTATTACATCAACCCACTGGTGAGCATTCTGCTGGGCATGATTTTTCTTCAGGAACGCTTTTCAAAAGCCCAGTGGCTCGCTTTTGCTCTCGCTGCTACAGGTGTCCTTTATATGACATTAAAGTTCGGTTCCGTCCCCTGGCTTGCCCTGCTGCTTGCCTTCAGCTTCGGTACATACGGTCTCTTGAAGAAGCTGGTACCGTTGAACGCGATGTTCGGCCTGACCATTGAGACCTTGATCGTCACACCAGCCGCCCTGTTCTTCCTCGTTCAGCAGCAGAGCGGGCCGTGGGCTTCTGTGAATTGGGGATCGCTTACAACACTCCTTGTATTCGGCGCAGGAGTCGTGACGGCTCTCCCGCTGCTTTTATTTTCTGCGGGCGCCAAACGGATTCCCCTCTCCATGGTCGGATTCCTACAGTATTTTGCCCCAACGATTATGCTGGTCATCGGTGTGTTCCTTTATGATGAACCATTCACATCGGTGCATGCTGTCGCTTTTACATTCATCTGGTCAGGACTTGCGGTTTACACGATGGCACGTATGAAACGCATGAAGAAATACGTGCCGAAAGTCAGATAA	MENDQKLGIIYTAGAYILWGILPIYWKWIQDISAFEILAHRIVWSFVFMSLIIAVLQKQQPFLKECRRILKNKRQMIGITLASVTISINWVTYILAVNTDHVVEASLGYYINPLVSILLGMIFLQERFSKAQWLAFALAATGVLYMTLKFGSVPWLALLLAFSFGTYGLLKKLVPLNAMFGLTIETLIVTPAALFFLVQQQSGPWASVNWGSLTTLLVFGAGVVTALPLLLFSAGAKRIPLSMVGFLQYFAPTIMLVIGVFLYDEPFTSVHAVAFTFIWSGLAVYTMARMKRMKKYVPKVR	PGPT0003906_1553	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0003906-rarD-K05786	NA	NA
AK012_01717	1587	petC_2		Cytochrome b6-f complex iron-sulfur subunit	ATGACACAGTACGAACATTGGACACAACCTGAACCTTTATGGAGGGAAGACACTTCCTTGTCTTCCTATGAGCCGTTAAAAGAAGATACATCTGCGGAAGTCGCTGTTATCGGTGGTGGAATTACCGGAATAACGACGGCATACCTGCTGGCGAAAACCGGCCGAAAAGTCGTCCTGCTTGAAGCAGATCGATTAATTAACGGCACATCCGGGCATACAACAGCCAAAGTCACCGCTCAGCACGGATTGATTTATCACGAGCTGATTAAGCACTTTGGTGAAGAACAAGCCTCCCTCTATTACCAGGCTCAGACGAAGGCTCTCCATACCATGAAAGAGTGGGTGGATAAGTACAACATTTCCTGTGACTGGGCGCAGGAAGACGCCTGTTTATTCGCAACCACCCGTAAAGGCTCCTTAAAGCTGGAAAAGGAGTACGAGGCCTATGAAAAACTGGACATCCCCGGGGGTACCGGTCATGCACTCCCTTTCAGCCTGGATGCTGAAAAAACGCTGCACATGAAAGATCAGGCACGGTTCCATCCTGTAAAATATTTAAAGGCACTCGCCGAAGAATTTGTAAATCTCGGCGGAGAGATTTACGAACAGACGAAAGCGGTCGATGTCACTGAAAAAGACCGGCTTGAAGTGAAAACAGGCAGCGGACACACCGTATCTTGTGAGAAATTGGTATCCTGCAGCCATTTCCCTTTTTATGATGGAAAAGGCCTCTACTTTTCCCGGATGTATGCTGAGAGATCCTATGTGATCGCTGTCGAACCGGAACAGGAAGTCCCTGAAGGCATGTATCTTTCTATCGATGAACCGAAGCGCTCCATCCGAACGGCCGATTACGACGGAAAAAAAGTGCTGATCATTGGCGGGGAAAGCCATAAAACCGGACAGGGAGTCGATACAAGCTTCCACTACCGGGCACTCGAAGAATTTGCTGCCGTGACGTTCGGCGTCAGGAAGAAGCTTTTCCAATGGTCGGCTCAGGATTTAACGACGCTTGATAAAGTCCCCTATATCGGGCCGATTACTCGAAGAAATGACCGGATTTTCATCGCGACCGGATTCCGCAAATGGGGGATGACAAATGGGACACTGGCTGCCCAGCTGATCACCGATTATGTATGTGGGGAAACGTCGTTGTTCCATGACCTTTTCAAACCTTCCCGGTTCAAGTCAGATCCGAGTATGAAACAGTTCATATCCCAGAATTTCGATGTAGCCTCCCATCTTGTGGAAGGAAAAGTCGAACTGGTGGAGGATACACCCAATCGTTTACAGAAAGGCGAAGGAATGGTCGTGCAATGGAAGGGGCAGCGGGCCGGTGCCTTCCGGGATGATGATGGACAGCTGCATGTCGTGGATACGACCTGTACACACCTCGGATGTGAGGTGGAATGGAACAGTGCGGAGCATTCATGGGACTGTCCCTGTCATGGCTCCCGCTTTTCTTATGACGGATCAGTCATGGAGGGACCGGCAGATCAGCCGCTGCTGAAGATAGCGATTGATAACCAGACCGAACTCCCGTTTCAAAGCCTTGATGATCCCGATCAGCCCCAGGACACTCCATAA	MTQYEHWTQPEPLWREDTSLSSYEPLKEDTSAEVAVIGGGITGITTAYLLAKTGRKVVLLEADRLINGTSGHTTAKVTAQHGLIYHELIKHFGEEQASLYYQAQTKALHTMKEWVDKYNISCDWAQEDACLFATTRKGSLKLEKEYEAYEKLDIPGGTGHALPFSLDAEKTLHMKDQARFHPVKYLKALAEEFVNLGGEIYEQTKAVDVTEKDRLEVKTGSGHTVSCEKLVSCSHFPFYDGKGLYFSRMYAERSYVIAVEPEQEVPEGMYLSIDEPKRSIRTADYDGKKVLIIGGESHKTGQGVDTSFHYRALEEFAAVTFGVRKKLFQWSAQDLTTLDKVPYIGPITRRNDRIFIATGFRKWGMTNGTLAAQLITDYVCGETSLFHDLFKPSRFKSDPSMKQFISQNFDVASHLVEGKVELVEDTPNRLQKGEGMVVQWKGQRAGAFRDDDGQLHVVDTTCTHLGCEVEWNSAEHSWDCPCHGSRFSYDGSVMEGPADQPLLKIAIDNQTELPFQSLDDPDQPQDTP				NA	NA	NA	NA	NA
AK012_01718	1182		COG0626	L-methionine gamma-lyase	ATGAGAAAGAAACATATGGAAACAAAGATGATCCACAATGAGTCATGTAAAAATAATGAAACGGGAAGTCTGACCACCCCGATCTATCAAACCTCCACGTTTTCGTTTGCTTCTGCGCAGGAAGGAGCGCGGAGGTTTGCTGGTGAGGAGGAGGGATATATTTATTCAAGGCTCGGAAATCCAACCGTCGCCCAGTTTGAAGAAAGAATGGCTGCTCTGGAAGGTGGGGAAAAAGGACTGGCTTTTGCATCCGGTATGGCAGCGGTTTCGGCTGTCCTTATTGCACTTACGAAAGCCGGTGACCACATTGTCTGTTCCAATGGGCTGTATGGGTGTACGTATGGTCTGCTGAAGATGATGGAAGAGAAATATGGAATCACTCACGATTTCTGCTCTATGGAGACCGAAGAGGAATTGAAGCAGACCATGACGGATCGGACGGCCTGTATCTTCGTAGAAACGCCGATTAATCCAACGATGAAAGTCATCGACTTGGAAATGGTGTCCCGGACAGCCTCTTCTACAGGCGCGCCTGTGGTTGTTGATAATACGTTCTGCACGCCCTACCTGCAGCGGCCGCTCGATCTTGGATGCGACGTTGTTGTTCACAGTGCCACGAAATATATAGGTGGACACGGCGATGTGGTGGCGGGTGTCGTCGTAGGCAGTCATTCATTCATGGAAAAACTGGCTTCTTCCCAACAGAAGGATATCGGAGGGATTTTATCTCCTTTTGATGCCTGGCTGTTAATCAGAGGTATGAAAACGATGCACCTCCGGATGGACCGTCATAGTGCCAACGCGGCAGAAATAGCCGCCCGCCTGATCCGTCATCCGAAAGTGAAGCACGTGTATTACCCGGGTTTTCAAGATGACAGGCAGGGGGCTGTCGTGCAGAATCAAATGAAGACCGGAGGGGGAGTCATTGCATTTGAATTGAACGGCGGACGGGAGGAAGCAGAGCGGTTCATCAACCGGCTGGACCTCATTAAGATTGCCGTCAGTCTGGGAGATGCCGAAACATTGATCCAGCATCCTGCTTCCATGACTCATGCGGTCGTTCCTGAAGAGCAGCGGAACGCCATGGGCATTCATGAATCGCTCATCCGTATATCCGTCGGACTCGAAGCCGTGGACGATATTTGGTATGATTTATATCAGTCCCTCTCGGAAGTTGATTAA	MRKKHMETKMIHNESCKNNETGSLTTPIYQTSTFSFASAQEGARRFAGEEEGYIYSRLGNPTVAQFEERMAALEGGEKGLAFASGMAAVSAVLIALTKAGDHIVCSNGLYGCTYGLLKMMEEKYGITHDFCSMETEEELKQTMTDRTACIFVETPINPTMKVIDLEMVSRTASSTGAPVVVDNTFCTPYLQRPLDLGCDVVVHSATKYIGGHGDVVAGVVVGSHSFMEKLASSQQKDIGGILSPFDAWLLIRGMKTMHLRMDRHSANAAEIAARLIRHPKVKHVYYPGFQDDRQGAVVQNQMKTGGGVIAFELNGGREEAERFINRLDLIKIAVSLGDAETLIQHPASMTHAVVPEEQRNAMGIHESLIRISVGLEAVDDIWYDLYQSLSEVD	PGPT0020020_1401	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
AK012_01719	495	crr		PTS system glucose-specific EIIA component	ATGTTTAAGAAATTATTCGGTAAAAAAAATGAAGAAGAGCAGCTGACTGCTCCTGTCAGCGGAAAAGTAGTCGCTCTTGATGAAGTGGATGATCCTGTATTCAGTCAGCGTATGATGGGCGATGGCGTCGCTATTGAACCCGCAGACGGAAAAGTGGTCAGTCCTGTATCCGGAGAAATCGTTCAACTGTTCCCAACCAACCATGCCGTAGGAATTAAAACGAAATCCGGCGTGGAAGTCCTTGTCCACATCGGTCTCGAAACGGTATCTATGGAAGGCGAAGGATTCGAAGGCCACGTCAAAGCCGGAGACCAGGTGAAGGCTGGAGATCATTTGATCACCTTTGATATGGACCTTGTTAAGGAAAAAGCGAAGAGCACGATTACGCCTGTCATCATTACCAACTATGACGATATCGTGGACTCTTTTGAACCATCCTATAGTGATCATGCGGAAGCGGGTCAGTCCACCGTTGCTGTCTTAACGACTAAGTAA	MFKKLFGKKNEEEQLTAPVSGKVVALDEVDDPVFSQRMMGDGVAIEPADGKVVSPVSGEIVQLFPTNHAVGIKTKSGVEVLVHIGLETVSMEGEGFEGHVKAGDQVKAGDHLITFDMDLVKEKAKSTITPVIITNYDDIVDSFEPSYSDHAEAGQSTVAVLTTK	PGPT0014090_760	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
AK012_01720	1464	scrB_2	COG1621	Sucrose-6-phosphate hydrolase	TTGGCTGATCGAGATGAGGAACTGAGGGAACTGGCAGAAGCAGAAATACGTAAAAACCAAGGCAGCGTTGAAGCGGATCCCTACCGCCTCACGTACCATCATATGCCTCCAACAGGATTGATGAATGATCCGAACGGGTGGATTCAGTGGAACGGGATCTATCACTTATTTTATCAGTGGATGCCTTTTCACACAGGGCATGGAGCCAAGTTCTGGGGGCATCGGACCTCGGAGGATTTGATTCACTGGACCGAGCAAAAGCCTGCGCTGACACCATCTGAATGGTTTGATAAGGACGGAGCGTTCTCAGGAAGTGCTGTCGTTTCCGATGATCAACTCTATCTTTTCTATACGGGAAATCTAGATGGAGAGACAGGTCCTGAAGAAGAGTATCAGTGTGCCGCTGTTTCTGTTGATGGGATGAACTTTACGAAAAAGGGTGTCGTCATCGAGCGTCCTGAAGGGTATACGAGCCATTTCCGTGATCCGAAAGTGTGGCATCATGAAGGGAACTGGTACATGATTGTCGGGGCGCAGACGATGGACAAGCAGGGGCAGGTCCTTTTATACCAATCACAGGACCTGGAAAACTGGGAGTTTATCGGCCCTGCCGCAGGGAGTTTCCAAGGGCCGCTGAAAGCATTCGGTTATATGTGGGAGTGCCCGGATCTCTTTCCTTTGAACGGCCGGGATGTATTGATTGTTTCTCCACAGGGGCTTGAACCGGATGGTATGGACTACGCCAACACTTATCAAAGCGGATTTTTCACGGGAACACTGGATTATGATACAGGGAGCTTTGATCATGGAGCTTTTCGGGAGCTTGACCGGGGCTTTGAGTTTTATGCGCCCCAGACGATGGAGGATGAGCAGGGCAGACGTCTGCTTATAGGATGGATGGGCGTTCCGGATCAAGAGGAAGAGGCTCATCCGACGACCGCCAACCATTGGATACATGCTCTTACACTTCCAAGAGAATTGACGTGGAAGGACGGCCGGCTGATGCAGTCCCCCGTGGAGGAGCTGCAGGCGATGAGGGGACCGGTCCTTCTGCATTCATCCATCACCATAGAGAATGACCAGAAGGCTGTCAGAGGAGTAGAGGGACGGTCTATCGAACTGAATCTTGAATTTGAAAAGCTCGGGGATCAGTTTGCGCTGGAATTCTATCAATATGCTTCCCTCAGCTATCGGAAAGGCGTTTTGACTTTGTCACGCCCCCGTCTGGACGAACATTCGAAAACAGAATTCCGGAGAGTCTGTCTGGAGCAGCCGTTGAACAGCTTGAGAATCTTCGCGGACACATCAAGCCTGGAAATTTTCGTGAACGGAGGCGAGGAGGTCTTCACATCCCGGATTTTCCCGCAGCCGGAGGAAGAGCATGTTTTGTTTACTTCTCTTGGGGAAAGTACCTTCTCGATCGAAAAGTGGAATCTGTCAGGGTGGACGCTTGAGCAGGGGTGA	MADRDEELRELAEAEIRKNQGSVEADPYRLTYHHMPPTGLMNDPNGWIQWNGIYHLFYQWMPFHTGHGAKFWGHRTSEDLIHWTEQKPALTPSEWFDKDGAFSGSAVVSDDQLYLFYTGNLDGETGPEEEYQCAAVSVDGMNFTKKGVVIERPEGYTSHFRDPKVWHHEGNWYMIVGAQTMDKQGQVLLYQSQDLENWEFIGPAAGSFQGPLKAFGYMWECPDLFPLNGRDVLIVSPQGLEPDGMDYANTYQSGFFTGTLDYDTGSFDHGAFRELDRGFEFYAPQTMEDEQGRRLLIGWMGVPDQEEEAHPTTANHWIHALTLPRELTWKDGRLMQSPVEELQAMRGPVLLHSSITIENDQKAVRGVEGRSIELNLEFEKLGDQFALEFYQYASLSYRKGVLTLSRPRLDEHSKTEFRRVCLEQPLNSLRIFADTSSLEIFVNGGEEVFTSRIFPQPEEEHVLFTSLGESTFSIEKWNLSGWTLEQG	PGPT0018815_1905	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-FRUCTOFURANOSIDASE,PGPT0018815-sacA-K01193	NA	NA
AK012_01721	549	nadR	COG1827	Transcription repressor NadR	ATGAGTCAATCTTCTAAGAAAATGAAAGCAAATGAAAGGCGGGAGTACATCCTCACCCTGCTGAAACAGCGGGGGGTACCGGTTACAGGAAGTGCTCTGGCTGAAGAAATGAATGTAACAAGGCAGGTGATTGTCGGTGACGTCTCTCTGTTAAAAGCGGGGAATGAACCGATTGTCGCTACCAGTCAGGGCTACATGTATATGTCAGAGGCTAAGGAGGATCTGGCTTACCAACGGACGATTGTCTGCCGTCACGAAGGCAGCGAGACGGAAGATGAATTGAATATACTGGTCGATCACGGCGTCCACGTCCGCGACGTTGTGGTAGAGCACCCGGTTTATGGTGATCTGACCGCACGACTTCAAATCTCAAACCGCCGGGATGTGAAAAAGTTCATCGAAAAAGTCCGTTCCACCAATGCTCCTTTCTTACTCGAGCTTACGGGCGGCATCCATACTCATACCATCGCTGCAGAGAGCAGGGAAGCTCTTGATGAAGCAGAGCAGGCTCTTAAAGAAGCAGGCATCCTCCTGGAATATCAGGGATAG	MSQSSKKMKANERREYILTLLKQRGVPVTGSALAEEMNVTRQVIVGDVSLLKAGNEPIVATSQGYMYMSEAKEDLAYQRTIVCRHEGSETEDELNILVDHGVHVRDVVVEHPVYGDLTARLQISNRRDVKKFIEKVRSTNAPFLLELTGGIHTHTIAAESREALDEAEQALKEAGILLEYQG				NA	NA	NA	NA	NA
AK012_01722	1446	clsA	COG1502	Major cardiolipin synthase ClsA	ATGGTAGACATATTTCCGATCTTATTAAGTATTATTCTTGGATTAAACGTCCTGCTGGCCCTGGCGATCATTTTCCTTGAGCGGAGGGATGCCAGTGCGACGTGGGCCTGGCTCATGGTGCTTTTATTCATTCCTATTGCAGGCTTCCTGCTGTACCTGATTTTCGGGAGGCGCCTGAACCGGAAAGAAATCTTCACATGGGATAAAAAAAGCCGGCTGGGCCTCCTTACAGCTGTCCAGGAGCAGTTGACGGCTATAAAGGAAGGGCATCTGGAAGTTCAGCATAAAGATATTATTCCTTATGAAGATCTTATTTACATGCATCTTAAAAATAACGATGCCCTCCTTTCCCAGAACAATGCCGTCCAGATCTTTACGGATGGACAGAAGAAATTCCAGGCCCTTCTTGAAGATATTGAACAGGCAGAGGATCACATTCATCTGCTGTATTATATCCTCCGGGATGATAATCTGGGTCAGCGCCTCGCAGACGCCTTGATCCGAAAGGCTCAAGCCGGTCTTGAAGTAAAGCTTCTCTATGACGATATGGGCTCAAGGCTTTTGAAGAAGGGCTACCTGAAGAAGATGAAGCAGGCCGGTATCCAGGTGGAGTCTTTTTTTCCATCCTTTATACCGAAAGTCAATTTAAAGATTAATTACCGCAACCATAGGAAACTTGCCATCATTGATGGAAAAATCGGCTATACGGGCGGGTTCAATATTGGGGATGAATACCTCGGGTTCAATAAACGTTTCGGCTACTGGCGGGATACCCATCTCCGTGTGGAGGGCGAAGCTGTAAACAATATGCAGACGCGTTTCATCCTTGATTGGAACCATGCTTCACGCAGGGATATTGTTTATGAAGAACGCTACTACAAGGCAGAGCCGAAGGGTGATGTCGCCATGCAGATTGTTTCAAGCGGGCCTGACTCGGAATGGGAGCAGATCAAACACGGCTATTTGAAGATGATCTTATCGGCGAAAAAATACGTGTATATCCAGACTCCGTACTTTATTCCGGATGACAGTCTCCTTGATGCGCTTCGTGTCGCCGTTCTTTCAGGTGTGGATGTCCGGATTATGATTCCGAACAAACCGGATCACCCTTTTGTCTACTGGGCGACGTATTCGAATATCGGTGATATGTTGAAGGCGGGGGCCACGGTTTATATTTATCAAAAAGGATTCCTCCATGCCAAGACGATTGTCGTAGACGATAAAATCGCTTCCGTCGGGACGGCCAATATTGATGTGCGCAGCTTCCGGCTGAATTTTGAAGTCAATGCATTTCTGTATCATCCTGACGCAGCGACAGAACTGTCCGACCGTTTTCATGAAGATATCATGGATTCTACTCAGCTTACCCTGCCTCTTTATCAATCAAGGTCAACGTGGATTCGTTTCAAAGAAGCGATTTCCCGGCTGTTGTCACCGATCTTATAA	MVDIFPILLSIILGLNVLLALAIIFLERRDASATWAWLMVLLFIPIAGFLLYLIFGRRLNRKEIFTWDKKSRLGLLTAVQEQLTAIKEGHLEVQHKDIIPYEDLIYMHLKNNDALLSQNNAVQIFTDGQKKFQALLEDIEQAEDHIHLLYYILRDDNLGQRLADALIRKAQAGLEVKLLYDDMGSRLLKKGYLKKMKQAGIQVESFFPSFIPKVNLKINYRNHRKLAIIDGKIGYTGGFNIGDEYLGFNKRFGYWRDTHLRVEGEAVNNMQTRFILDWNHASRRDIVYEERYYKAEPKGDVAMQIVSSGPDSEWEQIKHGYLKMILSAKKYVYIQTPYFIPDDSLLDALRVAVLSGVDVRIMIPNKPDHPFVYWATYSNIGDMLKAGATVYIYQKGFLHAKTIVVDDKIASVGTANIDVRSFRLNFEVNAFLYHPDAATELSDRFHEDIMDSTQLTLPLYQSRSTWIRFKEAISRLLSPIL	PGPT0007725_2644	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
AK012_01723	1149	htrA_2	COG0265	Serine protease Do-like HtrA	ATGTTGGATGATGAGAAGAACGTACATCGAAAACAGTATAAACGGTCAGGCATCGCCTTCAGCGTCCTGGGCGCCATCATTGCTGTTTTCATCGTAACGACCGTATTTCAATGGAAAGGGATTTCTATTGAAATCAACACGGAAGAGCCGACAGCGCAGGCGGATGAAGTGAATATCGGACAGAACCAGGAAGATGTCACTCAAGCTGTGAACGAGGTATCGCCGGCTGTCGTTGGTATAAGCAACATTCAAAGTTCAGCTCAGGGAACACAACAGGCCGGCACAGGTTCCGGGGTCATTTACAAAGAAGAAGGTGATCAGGCATTTGTCGTCACCAACCATCATGTTATTGAGAATGCTTCAGCCCTTGAAGTCATCCTTAGTGATGGGACCAAAGTAGAAGCCGAATTAAAAGGCAGCGACCCATTGACAGACCTGGCCGTTATACAAATAGATAGCGAACATGTCGAGAAAGTTGCTGATTTAGGAAATGCCGGTGACGTAGAGATCGGCCAGACAGCCATAGCGATCGGCAACCCGCTGGGCATGGAGTTCGCAGGCTCTGCCACTAAAGGAATCATCAGTGGATTGAACCGGAACATCCCGGTGGATATCAACGGTGACCAACAGGCCGACTGGCAGACCGAAGTCATACAGACAGATGCAGCCATTAATCCGGGCAACAGTGGTGGTGCGCTGATTAACCTTCAAGGTGAAGTCATTGGTATCAACTCTATGAAAATCGCCCAGGCCGAAGTCGAGGGTATTGGCTTTTCGATTCCTATGAACGCAGCCAAACCTGTGATTGAAGACTTAGAGAACAACGGCGAAGTACAGCGCCCTTATATGGGAGTTTCCCTGCAGGATGTAAGCCGGATCCCTAATCCTGTTCTGGAAAGTGAACTGGGCTTACCAGCTGACATCACCCATGGCGTCCTGGTCCAGGGTGTCGAAGAAGGTTCGCCTGCTCAGGAAGCAGGACTGGAACGTTATGATGTCATCACCGCCATCGACGGAAATAAAGTAGACACACTCATCAGTCTACGGCAGTATCTCTACAACCAGTCACAGAACGGAGATACCGTAGAGCTTGAAGTGTACCGGGACGGGAACCCAACCACCGTCCAACTCACACTGACCTCTCAGTAA	MLDDEKNVHRKQYKRSGIAFSVLGAIIAVFIVTTVFQWKGISIEINTEEPTAQADEVNIGQNQEDVTQAVNEVSPAVVGISNIQSSAQGTQQAGTGSGVIYKEEGDQAFVVTNHHVIENASALEVILSDGTKVEAELKGSDPLTDLAVIQIDSEHVEKVADLGNAGDVEIGQTAIAIGNPLGMEFAGSATKGIISGLNRNIPVDINGDQQADWQTEVIQTDAAINPGNSGGALINLQGEVIGINSMKIAQAEVEGIGFSIPMNAAKPVIEDLENNGEVQRPYMGVSLQDVSRIPNPVLESELGLPADITHGVLVQGVEEGSPAQEAGLERYDVITAIDGNKVDTLISLRQYLYNQSQNGDTVELEVYRDGNPTTVQLTLTSQ	PGPT0015105_5839	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
AK012_01724	687	cssR		Transcriptional regulatory protein CssR	ATGAATCGACTCATTGGATTGGTGGAAGATGATCCAAACATCAGAGATATAGTAGAAGCCTACCTGAAGAAAGAAGGCTATCAAGTGACCAGCGTGGAAACAGCGGAGGAGGCCTGGGGGATATTCGAGGAGTCTTCTCCGGATCTCTGGGTGCTGGATATCATGCTGCCGGGAATGGACGGGTATGAGTTCTGTAAGAAAATCCGTCTGACATCAGAGGTCCCTATTCTCATTATTTCAGCTAAAGATGATGAAATCGATAAAATCCTCGGACTTGAACTGGGAGGGGACGATTACTTAACGAAACCGTTCAGCCCGCGGGAGCTGGTCGCCAGGGTGAAGCGACACTTGAAACGGTGGGAGGCGATGAAGCCTCTTTCTGAAGAGGAGCTTGATGTAATCAAAGCCGGCGATCTTGAATTGAGTGAAGCAGAAAGGCGGGCTTATTTCAAAGGGGTGGAAGTGGAAGTGACAACCAAGGAATTTGAACTGCTCCGAATTCTGGCTTCCCAGGAAAACCGGGCTTTTTCCAGAGAAGAGCTTCTCATTAAGGTATGGGGGGATGACTATTATGGCAGTGACAGAGCCGTCGATGATCTGGTCAAGCGATTACGCAAGAAGATCAAGGAGCTGCCGATTGAGACGGTCTGGGGTCACGGATACAGGTTAAGGGACCAGTCCTCATGA	MNRLIGLVEDDPNIRDIVEAYLKKEGYQVTSVETAEEAWGIFEESSPDLWVLDIMLPGMDGYEFCKKIRLTSEVPILIISAKDDEIDKILGLELGGDDYLTKPFSPRELVARVKRHLKRWEAMKPLSEEELDVIKAGDLELSEAERRAYFKGVEVEVTTKEFELLRILASQENRAFSREELLIKVWGDDYYGSDRAVDDLVKRLRKKIKELPIETVWGHGYRLRDQSS	PGPT0015125_54	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015125-cssR-K07770	NA	NA
AK012_01725	1341	rcsC_1		Sensor histidine kinase RcsC	ATGAAACTGCTCTATCAACTAAATGCCGCTTTTACGGCGTTGATTATTATTGTGATGTCCATTACCGCTTTTTTTGTTTATTCCCTCTTAATGGATATGCTTATTCAGGATGAACAGCGCCAGTTGAAAGGGAGGGCGGAGCTCCTGATCGACTTGATCAATGATCAGGATGCCGACCGCACCCCGGAGTTATCGCAGTTGATTCAGGACCGCAATTATCCTATTTTGTTGTTCGACAGCGAAAATGGTGAAATCCTTTTTCGTACGATGCCCGCTTCTATTGCTGCCTCCTGGATGGAGCGTTATGAAGAAGAACTGGAAGGAGAAGAAGTGTGGGAGAGTGACGGGGAAAAGTATGTGGTTTATGATTTTCCTGTCAACGCCGGGAACAGTCAGATCCTCGTGATGGCTACACCGTTAAATGACCTGCAGGCGGTCCAGTCTGTATTTGCCATCCGGATGATCATGGTCTTCTTAATCGGGCTTCTCCTTGCTCTGATCGTCAGCTATATATTAACGTGGCGGCTTGTTACGCCGTTGACGAAGCTGAAGCAGGAAGTGAAAAAGATTGAAAAACGCCGGTTTGATGATGTCAAACAGGTCCAGGCTTCAGGGGAAATCAAAGAAGTCGAGCAGAGCGTGCGTCACATGGCTGCTGAACTTGCCCGGTACATTCATTCTCAGAAACAGTTTTTCCAAAATGCATCCCATGAGTTGAAAACGCCGCTTATGTCGATACAAGGATACGCAGAAGGGATACGGGACGGAATATTCCAGGGAGAGGCTGCGGAAAAGGGGCTGACCGTCATGGTCAGCGAAACGGAACGTTTGAAAAAAATCGTCAATGAAATGATTCTGCTTGCCAAGCTCGACAGCAGTGAAGACGTCTACCATCCTGAGAAGACAGACATCACGGAAGTGGTCATTCAGGCGAGGGACAGACTGATCCCGCTTGCAAATGATAAGGAAATGACGATAGATCTGAATGGCGGCCCCTCTTTCTATTCCTTTGTAGACAGAGAGCGTATACTACAGGCGGTCATCAACATATTAAGTAATGCTGTCCGTCACGGGACTCATCACGTGACTGTCGATATCGAAACAGCAGCGGAACAGATGAAGGTCAGGATTAAAGACGATGGAACAGGGATTCCTGAGGAACTTCTCCCGCAGATGTTTGAGCGGTTTATCAAGGGGAAAGAAGGGGAAACGGGGCTCGGTCTTGCCATAGCCCGGGCGATCATCGAAAGGAGTGGAGGGACCATCCAGGCCTACAATCGGGATGATCAACCCGGTGCTGTTTTTGAAATCCGTTTTCAAAGGAAAGACGAGCTGCTCTAA	MKLLYQLNAAFTALIIIVMSITAFFVYSLLMDMLIQDEQRQLKGRAELLIDLINDQDADRTPELSQLIQDRNYPILLFDSENGEILFRTMPASIAASWMERYEEELEGEEVWESDGEKYVVYDFPVNAGNSQILVMATPLNDLQAVQSVFAIRMIMVFLIGLLLALIVSYILTWRLVTPLTKLKQEVKKIEKRRFDDVKQVQASGEIKEVEQSVRHMAAELARYIHSQKQFFQNASHELKTPLMSIQGYAEGIRDGIFQGEAAEKGLTVMVSETERLKKIVNEMILLAKLDSSEDVYHPEKTDITEVVIQARDRLIPLANDKEMTIDLNGGPSFYSFVDRERILQAVINILSNAVRHGTHHVTVDIETAAEQMKVRIKDDGTGIPEELLPQMFERFIKGKEGETGLGLAIARAIIERSGGTIQAYNRDDQPGAVFEIRFQRKDELL				NA	NA	NA	NA	NA
AK012_01726	522			hypothetical protein	ATGGATGCAAAACCTTGTATAGATTCACTGACCGTTAAAAATTCTCATGTACTTCCACCGGATACGAATACGCACGGCACACTATTCGGAGGGAAACTGATGGCCCACATTGATGACGTGGCTGCGATTGCAGCTGTCCGCCACTGCCGTAAGCCGGTCGTCACAGCCTCCACCGATTCTGTCGACTTTCTTCAGCCGGTGTTTGAAGGCGATACGGTCTGCCTTGAAGCCTTTGTCACTTGGGCGCACAATACATCCATGGAAGTATTCGTAAAAGCAACGACGGAAAACCTGCTTACAGGAGAACGTAAAGTATGTACTACCGCGTTTCTATCCATGGTGGCTGTTGATGAAAACAATGATCCGACCCCGGTGCCGTCGGTTTACCCTGAAACAGAGGAAGAGCAGTGGCTGCATGATCACGCCCAAAAGCGTCATGAACACCGGAAAAGCCGGCGGAAGGAATCGAAGGAACTTGCTGAGAAATTCGGGACAAGCCTTCCATGGCGCCGGAATTCCTAA	MDAKPCIDSLTVKNSHVLPPDTNTHGTLFGGKLMAHIDDVAAIAAVRHCRKPVVTASTDSVDFLQPVFEGDTVCLEAFVTWAHNTSMEVFVKATTENLLTGERKVCTTAFLSMVAVDENNDPTPVPSVYPETEEEQWLHDHAQKRHEHRKSRRKESKELAEKFGTSLPWRRNS				NA	NA	NA	NA	NA
AK012_01727	234			hypothetical protein	ATGGCGCCGGAATTCCTAAGACTCAACCAGGAGGAGCCCTGCTCCCCCTGGTTTTTTTATATCCGGATGCGCGTTTTACAGAATGAGCCGAAACTTCAGTCTGCTTCCGAGAAAAAGCGCAGGAAACGGAGGAAGGCTTTGGAGGCGGGGTTCACGGAAACATCACGCTGGGGGACGGGCAGCAATTTCATCGGAAAGTCAGTAGTGGTGGACTCCAATTATATGATAAAATGA	MAPEFLRLNQEEPCSPWFFYIRMRVLQNEPKLQSASEKKRRKRRKALEAGFTETSRWGTGSNFIGKSVVVDSNYMIK				NA	NA	NA	NA	NA
AK012_01728	1419	alsT_2	COG1115	Amino-acid carrier protein AlsT	GTGCAGGAAGTCTTATCCTTTTTAAATGACTGGATGTGGGGGACCATCCTTGTCGCCGCCTTGCTGGGTGTTGGACTTTGGTTCTCGATCCGTCTGAAGTTCGCTCAGTTTCGTTACATACCTGAAATGTTCCGTGTATTGTTTGATAAGCGGTCCATCTCAGCAGAGGGAAAGAAAGGAACATCTCCTTTCCAGGCCTTCGCCATCAGTACGGCATCCCGGGTCGGTACAGGGAACCTTGCCGGCGTAGCTGCTGCTATTACAGTCGGAGGCCCCGGAGCGGTTTTCTGGATGTGGATTGTAGCTGTCCTTGGAGGGGCTTCCAGCTTTATTGAAAGCACCCTCGCCCAGGTCTATAAGGTTCCGGATAAAAACGAGTACCGTGGTGGACCCGCTTATTATATTGAAAAAGGGTTGAAGAACCGTACACTGGGTATCGTGTTTGCTGTTACCATCACCTTTACATACGGCCTTGTATTCAGTTCTGTACAGTCCAATACCATCAGGCTTGCCTTTGAAAACTCCTTTGATGTTGATAAATGGCTGATGGGAGCCATCCTGACCTTCTTTGTAGCTTTGATCATCTTTGGTGGACTTAAGCGGATCGCCCAGGTAACGCAGTATATCATCCCGATTATGGCTGTTTTCTATATTCTGATTGCCACATATGTCCTGGTGGGTAATATCGCTCAAGTCCCGGAAATGATCGGACAGATCTTTGCCGGAGCGTTCGGGTTCCGTGAAATTGCCGGTGGAACGTTCGGCGGGATGATTCTGATCGGAATCAAACGCGGACTTTTCTCCAACGAAGCTGGTATGGGGAGTGCGCCGAACGCAGCGGCCACATCAGAAGTCACTCACCCGGTCAAGCAGGGTTTGATTCAGACGCTTGGTGTATTTACGGACACCCTTCTGATCTGTAGTGCCACCGCTGTTATTATCCTGTTTGCCGGAGGTTATGAAAATACGTCCCTCGATGGGATCCAGCTGACTCAGGAAGCTTTCGAGTCCCAGCTTGGTTCCTGGGCAGCCATATTTATTGCGATTGCCATTCTCCTATTTGCCTTTAGTTCAATTGTCGGGAACTACTATTATGGAGAGACCAACATTGAATTCATAAAGACAAGTAAAAGCAGTATTTTCATTTACCGTCTGGCGGTACTGGCTATGGTTATGTTCGGTGCTGTCGCTGAGTTTGATCTCGTTTGGTCACTGGCGGATTTAACGATGGGAATCATGGCTTTAATTAACCTGTATGCCATATTCCGGTTGTCTTCGGTGGCGTACGCGGCCCTGAACGACTACGTGAAGCAGAAAAAAGCAGGGAAAGACCCTGTCTTCTACCAGGATCACCTGCCCGGAGTGGAAGGGATGGAATACTGGAGAAGAGACCAGTCCTCTGAAAAGGAAGACGCCTGA	MQEVLSFLNDWMWGTILVAALLGVGLWFSIRLKFAQFRYIPEMFRVLFDKRSISAEGKKGTSPFQAFAISTASRVGTGNLAGVAAAITVGGPGAVFWMWIVAVLGGASSFIESTLAQVYKVPDKNEYRGGPAYYIEKGLKNRTLGIVFAVTITFTYGLVFSSVQSNTIRLAFENSFDVDKWLMGAILTFFVALIIFGGLKRIAQVTQYIIPIMAVFYILIATYVLVGNIAQVPEMIGQIFAGAFGFREIAGGTFGGMILIGIKRGLFSNEAGMGSAPNAAATSEVTHPVKQGLIQTLGVFTDTLLICSATAVIILFAGGYENTSLDGIQLTQEAFESQLGSWAAIFIAIAILLFAFSSIVGNYYYGETNIEFIKTSKSSIFIYRLAVLAMVMFGAVAEFDLVWSLADLTMGIMALINLYAIFRLSSVAYAALNDYVKQKKAGKDPVFYQDHLPGVEGMEYWRRDQSSEKEDA	PGPT0014405_2670	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
AK012_01729	1890	ettA	COG0488	Energy-dependent translational throttle protein EttA	ATGAGTTTATTATCAGTCAATCAACTGAGTAAAAGTTATGGAGATAAAGATTTATTTGATGACTTGTCCTTCACGATTTCCAGTCAGCAGAGAATCGGCTTAATTGGTGTCAACGGCACGGGAAAATCGACACTGCTGAAAATTCTTGCGGGTATGGAAACCGGAGATCAGGGCGATATGGATCATGCGAAAGATTTCACAGTGGAGTATCTGCCGCAGGACCCTGAATTTGACGAAAACCAAACGGTTCTTGAACATATTTATGACGGGGAAGCTGAGATCATGGTCCTGATGCGCAGGTATGAACAGGTCATGCTCGAGCTTTCCGAGAAGCCGGAGGACACAGGCGTCCAGGAGCGGATGCTGGATCTTCAGCAGAAAATGGATGAAAAAGGGGCATGGGAAGCGAGCACAGTTGCTAAAACGGTCCTTTCAAAGCTCGGCGTTACGTACTTTGATAAAAAAGTATCGGAGTTATCCGGTGGTCAGAAAAAACGGGTCGCTATTGCCAAGGCGCTTATTCAGCCGGCGGACCTCCTGCTGCTGGATGAGCCGACCAACCATTTGGATAATGAAACCATTGAATGGCTGGAGGAATATCTCTCTTCCTATAAGGGAGCCCTCATGGTCGTTACACACGACAGGTACTTCCTGAACAGGGTGACGAACCTGATTTATGAACTCGATCAAAGCCGCCTGTATACGTATGAAGGAAACTATGAAACCTTCCTTGAGAAAAAGGCCGAACGTGAGGAATGGGAGCTGCAGGCGGAACAGAAGCATAAAAACACTCTCCGTACAGAGCTTGCCTGGCTCAAAGCCGGCGTGAAAGCGAGATCTACGAAGCAGAAAGCGCGTATTCAACGGGTGGAAGCTATGAAAGAAGAAACCTTCCATACGAAGAAAGAGAACGTCGACATGGCTATCGGGTCTTCGAGACTAGGGAACCAGGTGATTGAACTCCAGGGGGTGACCCACAGCTACAGCGGGCGGAAGCTGCTGGATCAACTTGATTACTTGGTCGTACCTGGAGAGCGTCTGGGGATTATCGGCCCCAACGGTTCCGGAAAGACGACCCTTTTGAATATTATGGCGGAACGAATCGAGCCGGATGCCGGAAATGTTCACACGGGACAGACGGTAAAGATCGGCTATTACACCCAGGACCATGATGAGCTTGATGAAAGCTTGAAAGTCATCGAATATATCAAAGAAGTGGCAGAGGTCATCCGGACCGAAGATGGTACAGAGGTTACCGCCGAGCAGATGCTTGAACGGTTCCTTTTCCCACGACCGCAGCAGTGGACGTATATTAAGAGACTTTCCGGTGGAGAGCGCCGGCGCCTTTATTTGCTACGCGTACTCATGAGCGAACCGAACGTTCTGTTCTTAGACGAGCCGACGAACGATTTGGATACAGAAACCCTCGGGGTTTTGGAAGACTATCTGGAGCATTTCCCGGGCGTCGTCATTACGGTTTCCCACGACCGGTATTTCCTTGACCGCGTCGTTAATCAGCTCCTTGCGTTCGAACAGAATGGTCAGGTGCGCCGTTTCTATGGCAATTACTCCGAGTACCAGGAAGCTGCGAAAGAAGAGCAGAGGGTACCGAAGGAAGAAAAGCAGCCGTCTGCCCAGGAAGAAACGAGAAGAGGCAACCGGAAGCGGAAGCTTTCTTATAAGGAAAAACAGGAATGGGAAACGATCGAAGACGATATTGCCGCTTTAGAAGAAAAGGTCGAGGCGCTGAACGACCAGCTCGCTGAAGAAGCTTCCAATTATGACAAGGTCAGGGACCTTACCGCCCAACAGGAAGAAGCGGAGGCAGAGCTTGAGCAGAAAATGGAACGCTGGGAAGAGCTCTCTCTCATTGTTGAAGGCCATGAATAA	MSLLSVNQLSKSYGDKDLFDDLSFTISSQQRIGLIGVNGTGKSTLLKILAGMETGDQGDMDHAKDFTVEYLPQDPEFDENQTVLEHIYDGEAEIMVLMRRYEQVMLELSEKPEDTGVQERMLDLQQKMDEKGAWEASTVAKTVLSKLGVTYFDKKVSELSGGQKKRVAIAKALIQPADLLLLDEPTNHLDNETIEWLEEYLSSYKGALMVVTHDRYFLNRVTNLIYELDQSRLYTYEGNYETFLEKKAEREEWELQAEQKHKNTLRTELAWLKAGVKARSTKQKARIQRVEAMKEETFHTKKENVDMAIGSSRLGNQVIELQGVTHSYSGRKLLDQLDYLVVPGERLGIIGPNGSGKTTLLNIMAERIEPDAGNVHTGQTVKIGYYTQDHDELDESLKVIEYIKEVAEVIRTEDGTEVTAEQMLERFLFPRPQQWTYIKRLSGGERRRLYLLRVLMSEPNVLFLDEPTNDLDTETLGVLEDYLEHFPGVVITVSHDRYFLDRVVNQLLAFEQNGQVRRFYGNYSEYQEAAKEEQRVPKEEKQPSAQEETRRGNRKRKLSYKEKQEWETIEDDIAALEEKVEALNDQLAEEASNYDKVRDLTAQQEEAEAELEQKMERWEELSLIVEGHE				NA	NA	NA	NA	NA
AK012_01730	1248			Aminopeptidase 2	ATGAAAATGCCAAGTATGGATAAACTTGAAAAATATGCTGAGCTGGCGCTGCGCACAGGCGTCAACCTTCAGAACGACCAGCTTTTAATGATCAACTCCACCATTGAAGGAGCGGAATTCACACGGATTGTCGCCCGTAAAGCTTTTGAGATGGGGGCCAAAGATGTACATATCAACTGGGGGGACGATGAACTGACACGTATGGCTTATGAGCATGCCGATCAGGAAACACTCTCCCATGTACCGGAATGGCAGCAGCAGAAATATACGTATTTCGCCGAGCAGGGGGCAGCCATCCTTTCCATCCGTTCTACAGACCCTGATCTTCTGAAAGGTATTGATGCAGGGAAAGTCGCTTCTGCTGCAAAAGCACGTTCAGAAGCCATGTCCACGTTCCGGAATTATACGATGAATGACCGGATTCAATGGTCGATCATCAGTATTCCGATTGCGAAGTGGGCGCAGAAGATTTTCCCTGGGGAAGAGGAAGATACAGCTGTGGAAAAATTGTGGGAGCAGATTTTCAGTATCGTCCGTGTCGACCAGGATGATCCAGTGGAAGCTTGGAAAAAACACAATGATACACTCATTACCGCCCGTGAATATCTGAATAAGAAACAATACCAGAAGCTGATTTATAAAGCACCGGGCACGGATCTTGAAGTAGCCCTGCCAAAAGGGCATGTCTGGAAAGGCGGGCCGGCCGGAACAGCAGAAGGAAATATTTCGTTTAACCCGAACATGCCGACAGAGGAAGTCTTTACAGCTCCTCATAAATATGGTGTGGACGGTAAAGTGACCAGCACGAAACCGCTGAACTACGGCGGCAACGTCATCAATAACTTCACCCTGACCTTCAAGGAAGGAAAAGTTGTGGACTTTACCGCAGAAGAAGGCAGTGAAACGCTGCAGCATCTGCTGGATACGGATGAAGGCTCCCGTCACCTTGGCGAGCTTGCTCTCGTTCCACATGAATCTCCGATCTCTCAATCCGGGCTGATTTTTTATAACACGCTTTACGATGAAAACGCGTCCTGCCACCTTGCGCTCGGAAAAGCGTATCCGAATAACGTACAGGGCGGTTCCGACATGAATGAGGAAGAACTGGATCAAAACGGCGTCAACCACAGCCTCACCCACGTGGATTTCATGATGGGATCCGGTGAGCTGGATATCGACGGTGTTCTCGAGGATGGTACAACGGAAGCCGTGATGAGAAAAGGCAGCTGGGCAATTACATTTGAGTAA	MKMPSMDKLEKYAELALRTGVNLQNDQLLMINSTIEGAEFTRIVARKAFEMGAKDVHINWGDDELTRMAYEHADQETLSHVPEWQQQKYTYFAEQGAAILSIRSTDPDLLKGIDAGKVASAAKARSEAMSTFRNYTMNDRIQWSIISIPIAKWAQKIFPGEEEDTAVEKLWEQIFSIVRVDQDDPVEAWKKHNDTLITAREYLNKKQYQKLIYKAPGTDLEVALPKGHVWKGGPAGTAEGNISFNPNMPTEEVFTAPHKYGVDGKVTSTKPLNYGGNVINNFTLTFKEGKVVDFTAEEGSETLQHLLDTDEGSRHLGELALVPHESPISQSGLIFYNTLYDENASCHLALGKAYPNNVQGGSDMNEEELDQNGVNHSLTHVDFMMGSGELDIDGVLEDGTTEAVMRKGSWAITFE	PGPT0020940_341	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020940-pepS|ampP|ampT-K19689	NA	NA
AK012_01731	1488	crtN_2		4,4'-diapophytoene desaturase (4,4'-diapolycopene-forming)	ATGATCTATGATGCTGCCGTTGTGGGTGCTGGTTTTGGAGGACTGGCAGCCGCCGCGGATTTAACCAATAAAGGATACAAAGTCGTCGTTTTTGAAGCGTCGAATGAACTTGGGGGAAGCGCCGGGAAGTTTGAAAGAAACGGCTACCGTTTTCAATCCGGGGCTACGGTCGGAATGGGGTTTGAGCCTGGAGGTGTACTGGACAGCCTTTTTGGACGGCTGGGCATTGAAAAGCCGTCCATGACCTCATTGGATATTATTATGGATGTTCACCTTCCGGACCGTACCATCCATTATTACCGTGACCGGAATGAGTGGTACAAGGAAATGGCCCGGGTTTTTGAAGGACCCGGGACGGCTTTTGAAAATTTCTATGACGAAGTGTTCAAAGTAGGCCGGCTGGTGGATCAGCTGACGGATAAGCTGCCTGTGTTTCCGCCGCGGACATGGGGCGACTACGCCCATCTGCTGCCGCTTGTGAATGAAAGCTCGCTACGGCTGCTGCCTTATATGACACAAACCGTGGAGGATCGTCTGAAAAAACATGGGTTGGATCAGCACCGCATGTTTAGAACATTTTTAAATGGTGAATTAATGGACAGTGTACAGACAAGTGTAGAGAACTGTCCGGCCTTTTTAGGATTTGCTGCCCTCCAAACTTTTCATAAAGGTGCTTTTGCGGTTCACGGTGGTCTTGCTGAAGCGGCAGGGAAATTGGCTGCTTATATACGGGAGCATGGCGGTGATGTTCTCATGAGGCATCCGGTTCACTCCATTGAAAAAAGAGATGGTGGCTTTACCCTGCATTCCAAGAGAAATTCTACGTTTGAAGCCCGTCAGGTCATTCTGAATAACTCCGTCCATAACCTTCATGACACGTTGACAGAAGAGCTCAGCTCCCAGTCCTATATTCGTCCTCAGAAAGAAACGGCGAAAAAAGCCTGGGGGGCGTTTATTATTCACGGCGGTGTAGATGAAGACGTATTTCGGGACACGGATGTGCTGTATCATCAGTTTATTGATCCCGATCATCCGGATGATCTCCATAATGGCGGGCAGTTCCTTTTGTCATTATCGGACCCGGAAGATAAACGGATGGCGCCGGAAGGGAAGCGTTCGTTTACCTTGTCGACCCATACGGATATTTCCCCGTGGTGGGAAGCCGGCAATTATGAAGGCGAAAAGCGGTGGATGAAGGAAAAGCTTTTACGAACGGTGGACCATTATTTTGAAGGATTCACCGATCAGCTCGACCTTGTGCTGCCCGGCACGCCTGTCACGTTCCAAAAGTGGCTCCGCCGTAAAGATGGCAAAGTAGGCGGATATGCTCCCACGGGAAAATACAGCTGGCTTACCAGTTACTCGGTAAGAACCGGCATCCCTGACTTGTATCAATGCGGAGATACCGTCTTTCCCGGAGCCGGGACGCTTGGTGTGACTCTCTCAGGATTGATGGCCGCAAAGCAGGCTGCAAAAGGACTAAAATGA	MIYDAAVVGAGFGGLAAAADLTNKGYKVVVFEASNELGGSAGKFERNGYRFQSGATVGMGFEPGGVLDSLFGRLGIEKPSMTSLDIIMDVHLPDRTIHYYRDRNEWYKEMARVFEGPGTAFENFYDEVFKVGRLVDQLTDKLPVFPPRTWGDYAHLLPLVNESSLRLLPYMTQTVEDRLKKHGLDQHRMFRTFLNGELMDSVQTSVENCPAFLGFAALQTFHKGAFAVHGGLAEAAGKLAAYIREHGGDVLMRHPVHSIEKRDGGFTLHSKRNSTFEARQVILNNSVHNLHDTLTEELSSQSYIRPQKETAKKAWGAFIIHGGVDEDVFRDTDVLYHQFIDPDHPDDLHNGGQFLLSLSDPEDKRMAPEGKRSFTLSTHTDISPWWEAGNYEGEKRWMKEKLLRTVDHYFEGFTDQLDLVLPGTPVTFQKWLRRKDGKVGGYAPTGKYSWLTSYSVRTGIPDLYQCGDTVFPGAGTLGVTLSGLMAAKQAAKGLK				NA	NA	NA	NA	NA
AK012_01732	168			hypothetical protein	ATGCTTGGTGACGGATATGAAATGAACATCTTCGGAGCAAACCCCAACCGGCACGATGAATGCTCGCGCTGTGGAAAGCCGCTCGTATCCAAAGCGGAAGAAGAGATCAACCTTTGTAAGGAATGTCAGAGGCGGCAGGAAGACCATAACGTGGAAGAGGTGGATTGA	MLGDGYEMNIFGANPNRHDECSRCGKPLVSKAEEEINLCKECQRRQEDHNVEEVD				NA	NA	NA	NA	NA
AK012_01733	1527		COG1292	Glycine betaine transporter 2	ATGGATAAACAATCGAAAGGCCGGATAGACTGGCCTGTATTTGCAATCAGTGGAGGCTTATTGACCCTCTTTGTGATTATTGCTCTTATCGACATTTCGTTCATAGAAAAAGTTGTAAGTGAAAGTTTTGCCTGGTCAGCCAATTATTTTGGCGCGTTCTGGCAGGTATTGATGCTGGCGACATTCTTCGTCGGTATATGGCTTGGATTTTCTAAATATGGAAAAATTAAAATGGGTAATATGGATAAACCGGAAATCGGTTTGTATAAATGGCTTTCAATTATCATGGCAACGCTTCTTGCCGGGGGAGGCGTATTCTGGGCAGCAGCTGAGCCGATGTGGCACTTCCTGACTGCACCACCTTCCCAGTCAGGTGTGGAATCCGGTACAGAAGCAGCGATTAATCCCGCGCTTGCTCAGAGCTTTATGCACTGGGGATTCCTTGCATGGGCCATTCTCGGTACGATCAGTGCGGTCGTTATGATGTACGGTCACTATCAAAAAGGAATGCCGATGAAGCCGAGGACGCTGCTCTATCCAATCTTTGGGGAAAAGCTCCGCAGCAGCTTTTTCGGAACCATCATTGATGCGTTTGCTGTTATTGCAGTAGCCGCAGGTACGATTGGTCCTATCGGATTCCTTGGTCTGCAGGCCAGCTATGGACTGCAGGAAATCTTCGGAATTCCTAATACATTCAGTACGCAATTTACAATCATCCTGGTTGTCGTGCTTGTTTCCACCATTTCTGCTGTGTCCGGACTTTATAAAGGGATTCAGATGTTGAGTAGCTTCAACGTCCGTCTTGCTCTTGGACTGATGATTTTCATCGTCATTTTTGGTCCAGGCGGCTTTATTATCGACCATTTCCTATCTGGATTCGGTTATTATGTGGATCAGTTCATTCCTATGAGTACGTACCGCGGGGATGAAGGCTGGTTATCTCTATGGACAGTCTTCTTCTGGGGCTGGTTTATCGGTTATGGTCCGATGATGGCCATTCTCGTCAGCCGGATTTCCAGAGGGCGTACGATCCGTGAAATTATCATAGCGGTGTCTGTATTCGCTCCAATTATTTCAACATTCTGGTTTACCGTGCTTGGCGGATCCGGAATATTCTTCGAAATGGAGAATCCGGGATCGGTTTCAAATGCCTTGAATGAGGCAGGGAACCCGGCAGCGATGTTTGCGATTACCGGGCAGTTCCCACTTGCGGAAATCGTTTCACCGCTCTTCTTGATTCTGACCATTCTATTCGTTGTGACAACGTCTGACTCCATGTCCTACACCATTGCTATGGCTGTGACAGGAGAAGGGAACCCGCAGACGTGGCTCCGTGTATTCTGGGCTGTGCTGATGGGGGCTATCGCTGTTATTCTTCTGATTACAGGTGATAGTGGTATTACGCAGCTTCAGAACTTTATCGTAGTGACAGCCGTTCCTGTGTCACTCCTTCTGCTTCCTATGATCTGGCTGGCGCCGAAAGTAGCGAAGACAATGGCTGTGGAACAAAGGATTTCAAAAAAATAA	MDKQSKGRIDWPVFAISGGLLTLFVIIALIDISFIEKVVSESFAWSANYFGAFWQVLMLATFFVGIWLGFSKYGKIKMGNMDKPEIGLYKWLSIIMATLLAGGGVFWAAAEPMWHFLTAPPSQSGVESGTEAAINPALAQSFMHWGFLAWAILGTISAVVMMYGHYQKGMPMKPRTLLYPIFGEKLRSSFFGTIIDAFAVIAVAAGTIGPIGFLGLQASYGLQEIFGIPNTFSTQFTIILVVVLVSTISAVSGLYKGIQMLSSFNVRLALGLMIFIVIFGPGGFIIDHFLSGFGYYVDQFIPMSTYRGDEGWLSLWTVFFWGWFIGYGPMMAILVSRISRGRTIREIIIAVSVFAPIISTFWFTVLGGSGIFFEMENPGSVSNALNEAGNPAAMFAITGQFPLAEIVSPLFLILTILFVVTTSDSMSYTIAMAVTGEGNPQTWLRVFWAVLMGAIAVILLITGDSGITQLQNFIVVTAVPVSLLLLPMIWLAPKVAKTMAVEQRISKK	PGPT0013600_993	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK012_01734	621	kynB	COG1878	Kynurenine formamidase	ATGATGTGGATGGATATCAGCATGAAGCTGGATACAAAGACCCCGCCATGGCCGGGGGATGAACCTTTTAAATATGAAATCACCTATTCCATGGAAGAGACCGGATCTGTCAATGTCGGTCAGTTTAAAGGAAGCTGTCATATCGGCACCCATGTCGACGCGCCTTTCCATTATGATTCTTCAGGCTCCCGGATTGCGGACCTGCCTGTCGACCGCTTTACAGGAAGAGCGGTTGTCGTCCATTTGGACCAACCGGAAATGATTCACAAAGAACACATCACTGACATCGATTTGACAGAGGTGGATAAAATTCTCTTCCGGACAAACAGCTGGCCGGACCGGTCAGCTTTCCCCTCCGCTTACACGGTTGTCGGAAGCGACCTCGCTGGCTATCTTGCAGAGCAGGGGATTGATATGATCGGCGTTGATACCCCTTCGGTCGATCCGGAAACGAGTAAAGACCTCCCTGCCCATCACAGCCTGTGTGCCCATGACCTGCTTATTCTTGAAGGTCTGGTTCTGGACAGCGTTCTGCCGGGGACTTATGAGCTGATGGCCTTTCCGCTTAAAATGGCTGAAGCCGACGGCAGTCCGGTACGTGCCGTGCTGAGAAACCTGTAA	MMWMDISMKLDTKTPPWPGDEPFKYEITYSMEETGSVNVGQFKGSCHIGTHVDAPFHYDSSGSRIADLPVDRFTGRAVVVHLDQPEMIHKEHITDIDLTEVDKILFRTNSWPDRSAFPSAYTVVGSDLAGYLAEQGIDMIGVDTPSVDPETSKDLPAHHSLCAHDLLILEGLVLDSVLPGTYELMAFPLKMAEADGSPVRAVLRNL				NA	NA	NA	NA	NA
AK012_01735	1269	kynU		Kynureninase	ATGATTACCCTGGATGATGTAAGGAAATGGGATGAACACGACGAGTTAAAAGAATATAAACAGGAATTTTTCCTGAAGGACGCCACCATTTACATGGACGGCAACTCCCTCGGACTGCTGTCCAGACGATCCGAAGCAGCGCTGAACCAATCCCTCAACGACTGGAGGGAGCATGGCATTGAAGGATGGACACAGGCTTCCGAACCGTGGTACTACATGTCGGAAAAGCTCGGCCGAATGACTGCTCCCCTTCTGGGGGCTTCCCCGGAGCAGGTCATTAACACAGGATCCATCACGACCAATCTCCATCAGCTGCTTGCTACTTTCTACACACCGGAAAAAGGGCGGACAAAAATCATTGGAGACGAACTTAATTTCCCTTCAGATATCTATGCTCTAAAAAGTCAGATGGCGCTTCACCACCTTGACCCAGACGAGCATTTCATACCAATTGAGAGCTCTGATGGCTATACGCTCAAAGAAGAAGACATCATCGCTCATATGAAGGATGATGTAGCTCTCCTTCTTCTTCCTTCTGTACTGTACAGAAGCGGTCAGCTGCTTGATATGAAAACCCTCACGAAGGAAGCTCATAAGCACGGAATTCTTGTGTTGTTTGACCTCGCCCACTCTATCGGGGCTGTGCCGCATCAGCTGGATGAGTGGGAGGTGGACTTTGCTGTATGGTGTACGTATAAATATTTGAACAGCGGTCCCGGCGGCACAGGTGGATTGTACGTCAACCGCAGACACCTCGGAACCCACCCCGGACTTGCCGGATGGTTCAGCTCGGACAAGGAAAAGCAGTTTGATATGAATCATGAGCTGACCCCCTCATCCGACGCCGGCGCTTTTCAAATCGGTACTCCGCACATTTTAAGCTCTGCCCCGCTTCTTGGCTCCCTGGAAATGTTTTTGGAAGCAGGTATCGGGAACATCAGAAAAAAATCTCTGCAGCTTACACAACTGTTTATGGACTTAATCCATCAGGAACTGGAAGACTTCGGATTCAATATCCGCAACCCTCTGGAAAATGAACGCAGGGGCGGCCACGTTTGTCTTGTACACGAGGAAGCAGCCCGGATCTGCAAAGCGCTGAAGAACGAAGGCGTCGTCCCGGACTACCGCTCCCCGAATGTCATCCGGCTCGCCCCTGTCGCTTTCTACACTTCCTACGAAGATGTTTATGAAGTCGTCAGGATTTTAAAAGAAATCGTTCAGGAAGAAAAGCATAAATCATTTAAAAATGAACGGGATATTATCGCTTAG	MITLDDVRKWDEHDELKEYKQEFFLKDATIYMDGNSLGLLSRRSEAALNQSLNDWREHGIEGWTQASEPWYYMSEKLGRMTAPLLGASPEQVINTGSITTNLHQLLATFYTPEKGRTKIIGDELNFPSDIYALKSQMALHHLDPDEHFIPIESSDGYTLKEEDIIAHMKDDVALLLLPSVLYRSGQLLDMKTLTKEAHKHGILVLFDLAHSIGAVPHQLDEWEVDFAVWCTYKYLNSGPGGTGGLYVNRRHLGTHPGLAGWFSSDKEKQFDMNHELTPSSDAGAFQIGTPHILSSAPLLGSLEMFLEAGIGNIRKKSLQLTQLFMDLIHQELEDFGFNIRNPLENERRGGHVCLVHEEAARICKALKNEGVVPDYRSPNVIRLAPVAFYTSYEDVYEVVRILKEIVQEEKHKSFKNERDIIA				NA	NA	NA	NA	NA
AK012_01736	2133	recQ	COG0514	ATP-dependent DNA helicase RecQ	ATGATGGAACAGGCCGAAAAAATATTAATGCAGTATTACGGATATTCTTCCTTCCGACCTGGACAGAAGGAAGCGATTGAACAGGTGATGCATGGGCAGAACACGCTCGCTGTCATGCCGACCGGAGGCGGGAAATCGCTCTGTTATCAGATCCCGGGACTTGCGCTTGAGGGAACAGCGGTCGTCATATCGCCGTTGATTTCCCTGATGAAGGATCAGGTCGACGCCCTTCTTTCCTACGGGGTGGCAGCCACGTACATAAACAGTTCCCTCACAGCAGAAGAACAGCGGACAAGACTGAGAGATATGGAAAAAGGGCGCTATTCCTTCATTTACGTCGCACCAGAACGATTCGAAACCCCTTCCTTCCTTTCCGCTGTAAGCCGGATCCCTCTTTCTCTTATCGCTTTCGATGAGGCCCACTGCATCTCTCAGTGGGGGCACGATTTCCGTCCAAGCTACCGTTCCATCGTCCCGACACTCAACAAGATCCCGAACCTTCCTGTACTTATGGCGTTGACGGCGACAGCTACACAGGAAGTCGTGGCCGACATCAAACAACTGATCCATGTCGAAAACGGCGATGTGATCAATACAGGATTCGCACGGGAAAACCTGGCATTCCGGATCATCAAAGGAAGGGACAAGCGTGAGTTCATCACCGAATACATGAGCCAGGTCCCCAATGAGTCCGGCATCATTTATACTGCTACACGGAAAGAAGCCGACCAGCTGCATTACGTCCTTGAGAAAAAGGGGTACGCTGCAGGCAGGTATCATGCCGGTATGACCGAGCACCAGCGTAAGCAGGCACAGATGGACTTTGTACAGGATGAGACCAAAGTGATGGTGGCTACCAATGCATTCGGGATGGGCATTGATAAATCCAACGTCCGCTATGTCATCCATTACGCCATGCCGATGAATATAGAATCTTATTATCAGGAAGCCGGTCGTGCAGGCAGGGATGGCGAACCCGGGGACTGTATCCTTCTCTTTGCGAGTAAAGACATTAATCTTCAGAAGTTCCTGATCGATCAGTCACCTTCTGAGGAAAAAAAGAAAGAAGAGTATGCCAAACTGCAGGCTATGACGAATTACTGCCACACCCATACGTGCCTGCAGAAGTATATCCTGGAGTATTTCAATGACCCGGTCCCTTATGAACGCTGTGGGAAATGCTCCAACTGTACGCACAATGGAGAAGTGGAAGACCGCACAAAAGAAGCGCAGATGGTGCTTTCCTGTGTGAAACGCATGGGAGGCGGTTTCGGAGCTGGTTTGACAGCCAAAGTGCTGAAGGGATCCCGTGACCAAAAGGTCAAACAGTTCGGGTTCCATAAACTGTCCACTTATGGAATTATGCCGAAAATAACAGAGAAGGAATTAACCCAGTTCATTCATTTCCTGACAGCTGAAGGATATTTAACAGCAGGCTCAGGGAAATACCCTTCCCTTCACCTCACCTCAGAAGCTGCAGCTGTCCTCAAAGGGGAAAAGCCTGTGGAAATGCTCGTGGAAACGGCAGCTGTCCAGCAATCGGCTGAATATAATATCCAGTATTTTGAAGAACTGCGTGGCTTAAGGAAGCAGCTGGCTGATGAAGCGGGACTCCCGCCTTATGTCATTTTTTCTGATGCGACGTTGAAGGAATTCTCCATCCACCTGCCTCGGACAAAAGAAGAAATGCTTCAGATGAAAGGGGTTGGAGAGCGGAAGTATGAGCAGTACGGGGAAACATTCCTCGAGATGATCCGCCCGTGGTCTGAACAAACCGAATCAGCCCCCCTGCCATCACGCCGGCCGGAGCCCAGAGATCCTTTCGATGACAGGCCCAGCCACATCATAACGTTTGAAATGTGGAAAAACGGCAGCCCAGCCATCCGGGACATCGCAGATCAGCGCGGGATGAGCCCGCAGACGATCGAAAACCATTTGTTCCGCTGTGTTCAGGAAGGGGAAAATATTACATGGGATTACTGGTTTGATGAAGATCAGGAAGAGCAGATTCTTCAGCAGTATCACCGGCTGGACGAAAAGAAGCTGAAGCCGCTGAAGGAAGAACTGCCCGAGACCTTTACGTACTCCATGATTAAGGCCGTATTAATCAAACACCGTTACCTGAACAGATAA	MMEQAEKILMQYYGYSSFRPGQKEAIEQVMHGQNTLAVMPTGGGKSLCYQIPGLALEGTAVVISPLISLMKDQVDALLSYGVAATYINSSLTAEEQRTRLRDMEKGRYSFIYVAPERFETPSFLSAVSRIPLSLIAFDEAHCISQWGHDFRPSYRSIVPTLNKIPNLPVLMALTATATQEVVADIKQLIHVENGDVINTGFARENLAFRIIKGRDKREFITEYMSQVPNESGIIYTATRKEADQLHYVLEKKGYAAGRYHAGMTEHQRKQAQMDFVQDETKVMVATNAFGMGIDKSNVRYVIHYAMPMNIESYYQEAGRAGRDGEPGDCILLFASKDINLQKFLIDQSPSEEKKKEEYAKLQAMTNYCHTHTCLQKYILEYFNDPVPYERCGKCSNCTHNGEVEDRTKEAQMVLSCVKRMGGGFGAGLTAKVLKGSRDQKVKQFGFHKLSTYGIMPKITEKELTQFIHFLTAEGYLTAGSGKYPSLHLTSEAAAVLKGEKPVEMLVETAAVQQSAEYNIQYFEELRGLRKQLADEAGLPPYVIFSDATLKEFSIHLPRTKEEMLQMKGVGERKYEQYGETFLEMIRPWSEQTESAPLPSRRPEPRDPFDDRPSHIITFEMWKNGSPAIRDIADQRGMSPQTIENHLFRCVQEGENITWDYWFDEDQEEQILQQYHRLDEKKLKPLKEELPETFTYSMIKAVLIKHRYLNR				NA	NA	NA	NA	NA
AK012_01737	936			Zinc-type alcohol dehydrogenase-like protein	ATGAAAGCTGTTGTGATTGAACAGTACGGAGGTCGGGAGCAGCTCGTTGAAAAAGAGGTTCCAAACCCTGTACCTGAGAACAGACAAGTGGTTGTGGAAGTATATGCCACCTCAATAAATCCTATTGACTGGAAACTGCGGGAAGGATACTTGAAAGATGCGGTTCCTTTTGAGTTTCCCATCATTCTCGGATGGGATGTCGCGGGGGTCGTTACCGAAGTGGGAGAAGATGTGAAGAGCTTTTCACCAGGTGACCGTGTATTCGCAAGACCGGATACAACAAGGTTCGGAACTTATGCCGAATATACTACTGTCGATGAACACCTTTTGGCGGCGCTGCCCGCAGGAGTGACTTTCGAAGAAGCGGCTGCTGTCCCTCTGGCGGGTCTCACAGCGTGGCAGTGCCTGGTCGATTTTTCAAATATTAAGGAAGGGGACCGGGTGCTCGTACACGCTGGTTCCGGTGGAGTGGGGCATTATGCTGTCCAGATCGCCAAACATATGGGGGCCTACGTGGCTGCCACTGCGAGCGGAAAAAATCGTGAGTGGGTGGAGAAACTGGGAGTGGACCGCTTCATCGATTACAAGGAAGAAGATTTTTCAGAAGTGCTTCAGGATTTTGACATTGTTGTAGACACACTTGGTGGAGAAGTTCAGGAAAAAAGCTTTCAGGTCCTGAAAGAAGGTGGGAAGCTTCCATCTGTCGTCCAGCCTCCTGATGAAACAAAAGCAGGTGAAAAAAACATCAAGGCCGGATTCGTCTGGCTGGAGCCTGATGGTGAACAGCTCTCCAAGCTGGGTAAGATGATGGAGGAAGGAAAACTGAAGTCCGTCATCGGTCATGAGCTCCCATTCTCCCAGGAAGGACTTCGGGAAGCCCATGAAGTCAGTGAAACCCATCATGCCAAAGGCAAAATCGTCATTAAAATGAAATAA	MKAVVIEQYGGREQLVEKEVPNPVPENRQVVVEVYATSINPIDWKLREGYLKDAVPFEFPIILGWDVAGVVTEVGEDVKSFSPGDRVFARPDTTRFGTYAEYTTVDEHLLAALPAGVTFEEAAAVPLAGLTAWQCLVDFSNIKEGDRVLVHAGSGGVGHYAVQIAKHMGAYVAATASGKNREWVEKLGVDRFIDYKEEDFSEVLQDFDIVVDTLGGEVQEKSFQVLKEGGKLPSVVQPPDETKAGEKNIKAGFVWLEPDGEQLSKLGKMMEEGKLKSVIGHELPFSQEGLREAHEVSETHHAKGKIVIKMK	PGPT0006375_1171	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
AK012_01738	1461		COG2308	putative protein	GTGTTAACCAATTATAAAACGGGTGTCTACTTTGATGAAATGATGAGGGGAGATGGACAACCCAAGCGTCACTACCAGTGGTTTTATCAATTGGTCCATCAATTTAGTGAACGGGAACTGATGAATAAACATGAAACGGCTCAGTTGAATTTTCTTAGACAGGGGATCACCTTTACCGTTTATAGTCACACCGGAGGGACAGAACGGACGATGCCGTTTGATTTTGTGCCGATTATTATTCCGCGCGGAGACTGGGAGAAGATTGAGAAAGGCATGAAGCAGCGGATGACGGCGCTCAACCATTTTCTTGATGATATTTATCATGAACAGCGCATTGTGGAAGCCGGGGTGATTCCAAGAGATCTGATAGAGAACAATCCTTATTATTATGATAAGCAGATCGGCGGGGTGCGGGTTCCGCTGAACAATCACATCTTTCTCGCAGGTGTGGACCTGATCCGTGACGAGAACGGAGAGTACCGGGTACTGGAGGATAACCTCCGTAATCCATCCGGCATGTCCTACGTATTTCAAAATCGGTATGTGATGAGGCAGGTTTATCCGGAATTGTTTAATCAGCATTCCATCGAAACACTGGAGCACCAGATATCCGAACTTCATCAGTCGTTGATCAGCCAGGTGCCGTTGAACGCAGAACCTGGAAAGAAACCGACAGCCGTTCTGCTGACTCCGGGCATCTACAATTCTGCGTATTATGATCATGTCTTCCTTGCGCAGCAGATGGGAATCGAGCTTGTGGAAGGCCGCGACCTGGTAGTGAACGATGATATCGTTTATATGAAAACGACCCGCGGTCTGCAGAGAGTGGACATCATATACCGCCGGATCGATGATGATTTTCTGGATCCCGAGGCTTTCCGGCCTGATTCCATGCTCGGGGTGAGCGGACTGCTGCGAGCGTATAAGAAGGGGAATGTGTCGATTTTGAACGGCATTGGCAACGGAGTGGCTGATGATAAAGCGATGTACGTGTACGTCCCGGATATGATCCGCTTCTATCTGGACGAGGATCCAATTATTCCGAATGTGGAAACGTATTTCCTCAGTGATCCGGATCGTCTGGATTATGTCCTGGAGAATATCGATCAGCTGGTCATTAAAAATGTCGGTGCTTCCGGTGGATACGACATGCTGATTGGACCTCAATCCGATGAAAGTGAGCAGGAAATGTTCAAGAAGAAAATTCTGGAGAAGCCGAGTCAGTATATTGCCCAGCCGACGATTAAATTGTCCAGAGCTCCTGCGTATCAGGAGGGGCGTTTTTATCCCTGCCATGTGGACCTGCGCGTATTCGTCATGAGTGGGGAGCAGATGAACGTTCTTCCAGGCGGCCTCTCCAGAGTGGCCTTGAAGGAAGGATCGCTCGTCGTCAACTCTTCCCAGGGCGGAGGCGGCAAGGATACATGGATTCTTTCAGAAAGTGGTGATCAACATGCTTAG	MLTNYKTGVYFDEMMRGDGQPKRHYQWFYQLVHQFSERELMNKHETAQLNFLRQGITFTVYSHTGGTERTMPFDFVPIIIPRGDWEKIEKGMKQRMTALNHFLDDIYHEQRIVEAGVIPRDLIENNPYYYDKQIGGVRVPLNNHIFLAGVDLIRDENGEYRVLEDNLRNPSGMSYVFQNRYVMRQVYPELFNQHSIETLEHQISELHQSLISQVPLNAEPGKKPTAVLLTPGIYNSAYYDHVFLAQQMGIELVEGRDLVVNDDIVYMKTTRGLQRVDIIYRRIDDDFLDPEAFRPDSMLGVSGLLRAYKKGNVSILNGIGNGVADDKAMYVYVPDMIRFYLDEDPIIPNVETYFLSDPDRLDYVLENIDQLVIKNVGASGGYDMLIGPQSDESEQEMFKKKILEKPSQYIAQPTIKLSRAPAYQEGRFYPCHVDLRVFVMSGEQMNVLPGGLSRVALKEGSLVVNSSQGGGGKDTWILSESGDQHA				NA	NA	NA	NA	NA
AK012_01739	975			hypothetical protein	GTGGTGATCAACATGCTTAGCCGTGTAGCGGATTCTTTGTACTGGATGTCCAGAAACATCGAGCGGGCTGAGAACAATGCCCGGGTGTTAAAGGTGCAGCTGATTCACATGCTGGAAGCCTCCAGCAAGGAAGCTCTCGACAGGGAGTGGGAAGAGATCCTGGAAGTCAGTGCTTCCACAGCGGATTACTACAGCTTCTATGAACGGATGGACCGGGAAACGATCATCCAGTATTTGACGATCAGTCCGCTGAACGTCAATTCCTTAATGAATACGATGAACTACGCCCGGGAGAACGCACGGGCGACAAGAGATATCCTTCCGGAGGAGCTGTGGGAGGTGCTGAATCAGTTCCACCTCGACCAGAAAGAGTGGCAGGAGCTTCCGAATACAAGGGATCATACCCAGCAGTACTTAAACCGGGTGATCCAGACTTCGATGACCTCCCAGGGCGTGATTGAATCCAGCATGAGCCGGGGGACGCCTTATTCGTTTATTAAAATCGGCAAGTGGCTGGAGCGGGCAGAGAAAACAGCGCGTATCCTGAATGTCACCTGTGAAAAGAACCGGAAGGAAACCGGCGGGGGAACTCATCATTATTACCACTGGATGACCGCCCTTCATTTTCTGAACGGTTATGATGCCTACATTAAGGAATACCCGCCGACAATGGAACCGAAAAATGTGCTGAGTTTCCTTATTAAAGAACAGAACTTCCCGCGATCCATCCAATACTGTATGGATCATGTTCTTGAGGCTGTGACGAATTTGGAAGGTGGAAAAGTATCGCACTACTCGGAAAACCTGTTTCACATGCTGGAAGTGATTCAAAATGAAATCGAAGAATCCTCGATTGAGGAGATGGGCATGGAAGAACTGATGCATTTCCTTGACCACTTCCAGGACCGCTGCCAGACATTGAGCCGTATGTTCTCAGAAACCTATTACTTAATTGAACCTGTTCGGGTGAAATAG	MVINMLSRVADSLYWMSRNIERAENNARVLKVQLIHMLEASSKEALDREWEEILEVSASTADYYSFYERMDRETIIQYLTISPLNVNSLMNTMNYARENARATRDILPEELWEVLNQFHLDQKEWQELPNTRDHTQQYLNRVIQTSMTSQGVIESSMSRGTPYSFIKIGKWLERAEKTARILNVTCEKNRKETGGGTHHYYHWMTALHFLNGYDAYIKEYPPTMEPKNVLSFLIKEQNFPRSIQYCMDHVLEAVTNLEGGKVSHYSENLFHMLEVIQNEIEESSIEEMGMEELMHFLDHFQDRCQTLSRMFSETYYLIEPVRVK				NA	NA	NA	NA	NA
AK012_01740	852		COG1305	putative protein	GTGAAGTTTCAAATCGAACATACCAATACCTTTTACTATGATAATTTCGTCGACCAAAGCATGAACCATATCCGGCTGAAACCAAGAACCGACGAATGTCAGCGTCTGCTCGCCTACCGGACGGAAATCACTCCGTCATCGATGACGAAGGAGCATATCGATTTGTGGGGAAACCATGTGGAGACATTTTTCATTCCGGAAAAGCATGAGCACCTCACTCTTAAGACGATTTCAACCGTGAGCATTCAAAAGAGTCCGTTCATCCGTATGATCGAATGTTCGGATGAAATGCAGTCGATTTTTCATTCAGAATTGTTCCGGCATCATTACCTGGCTTATATCAATGAAACTCCCTACACCTTCCTATATAAGGAACAAATTGAGGAATTTAAAGATCTTCTCGGCCCGATGCAGGATCCGGTCCGGTATTCCCTGAGGTTAATGGAATACATCCATGAATCCTTCCGCTATGATACAAGTACGACCCAGGTGAGTACGAAAGCTTATGAATCGTGGCCGCTTCGTGCAGGTGTCTGCCAGGATTATGCCCATATTATGATTGGGGTGCTGCGCTCACAAGGAATCCCGGCCCGTTACGTCAGTGGGTATTTGTATGTAGGGGAGGACTCCGCCTTAGTCGGAGATGCGGCTACACATGCCTGGGTGGAAGTCATGATCCCTGGAATCGGCTGGATTGGGCTGGACCCTACCAACAATGTGGAAGCGCTCGAGCAGCATATCCGGATCGGTACAGGAAGGGACTATGCAGATGTCAGCCCCCTTCAAGGGGTTTATCGTGGAGGCGGGCAGAACCTTGATGTGAAAGTCAGTGTCACCCTTATTGATCAGTAA	MKFQIEHTNTFYYDNFVDQSMNHIRLKPRTDECQRLLAYRTEITPSSMTKEHIDLWGNHVETFFIPEKHEHLTLKTISTVSIQKSPFIRMIECSDEMQSIFHSELFRHHYLAYINETPYTFLYKEQIEEFKDLLGPMQDPVRYSLRLMEYIHESFRYDTSTTQVSTKAYESWPLRAGVCQDYAHIMIGVLRSQGIPARYVSGYLYVGEDSALVGDAATHAWVEVMIPGIGWIGLDPTNNVEALEQHIRIGTGRDYADVSPLQGVYRGGGQNLDVKVSVTLIDQ				NA	NA	NA	NA	NA
AK012_01741	1317	brnQ_2	COG1114	Branched-chain amino acid transport system 2 carrier protein	ATGAGAGCCAGAGATACGCTGTTTATCGGTTTTACTTTATTTGCCCTGTTCTTCGGCGCCGGCAATTTGATCTACCCTGTCACTTTAGGAATTGAGTCAGGAACGTCCTATACACCTGCTATTCTAGGGTTCGTCATAACAGGAGTCGGTATTCCCATCATTACTGTGGCTGCCATCTCTCTTGTTCAAAACGGCGCTGTCCAGCTGGCCGGGCGGGTGCACCCTCTGTTCGGAATTCTTTTCACTTCCATGGTGTATTTAGTTATCGGGCCTTTCTTCGCTATACCAAGAGCAGCCAACGTCGCATTTGAAACAGGCGTGGCTCCTTTTGTCAACGGGGAATCCCTGACGTTATTCATCTTTACGATCGTCTTCTTCATGCTCGTGTATTGGTTAAGCCGCAACCCTTCCAAATTAGTGGATCGGATCGGCCAATTCCTAACACCTGCCTTATTCCTGGCCATCGTCGCCCTTGTGATCGGCAGCTTCTTCGCTCTGGACGGTCCCATACAGCCGGCAGGCGAAAAGTATGCGGCCCAGCCGTTTTTTACTGGTTTTGTGGAAGGGTACTTAACGATGGATGCCATCGCATCGCTTGCGTTCGGAATACTTGTCGTATCCTCATTCCGGGAACGCGGGGTTACAGAGCCCAGGCAGGTCACATTCTCCACATTAAAAGCCGGGCTTGTCACAGCCGCCGGACTTACATCCGTATATGTGGCTATCGGCTGGATTGGAGCTAAAATGGCCGTAGAAGGTACGTATGATAACGGAAGTGCCATCTTATCCGGAGCGGCCCGGATCATGTATGGAGATACAGGCACGGTACTTCTGGGGATCATTGTCGGTCTTGCCTGTCTGACCACCTGTGTCGGTTTGACCGTTGCCTGCGGCCAGTTTTTCTCTAAACGTGTCCAGGGACTGTCGTACCAAACCGTCATTGTTCTAGTTACTCTGGTCAGTCTGTCTATATCCAACATTGGCTTGAACCAGATCATTTCCTACTCTGTACCCGTCTTAGTCTTTGTCTATCCAATTACCATCGTGCTTGTCGGGCTGACATTTATGAGCAGGCTGTTCAACCACTCTCCTTATGTATATAGAGGAGCGATCATCCTGACAGCTTTCATCGGGCTTTATGATGGACTGGCTGCTTTCGGAGTGGATGTATCCGCCATTACTCCGCTTCTGAGCCGTCTTCCGTTTTATGAGCTGAACCTGAGCTGGATCTTCCCTGCGGTTGTCGGCGGGCTTGCCGGCTGGTTGTATCAAACCTTCAAAGGACAGACGAAAACATCAGAAAGTTATCAGAATTGA	MRARDTLFIGFTLFALFFGAGNLIYPVTLGIESGTSYTPAILGFVITGVGIPIITVAAISLVQNGAVQLAGRVHPLFGILFTSMVYLVIGPFFAIPRAANVAFETGVAPFVNGESLTLFIFTIVFFMLVYWLSRNPSKLVDRIGQFLTPALFLAIVALVIGSFFALDGPIQPAGEKYAAQPFFTGFVEGYLTMDAIASLAFGILVVSSFRERGVTEPRQVTFSTLKAGLVTAAGLTSVYVAIGWIGAKMAVEGTYDNGSAILSGAARIMYGDTGTVLLGIIVGLACLTTCVGLTVACGQFFSKRVQGLSYQTVIVLVTLVSLSISNIGLNQIISYSVPVLVFVYPITIVLVGLTFMSRLFNHSPYVYRGAIILTAFIGLYDGLAAFGVDVSAITPLLSRLPFYELNLSWIFPAVVGGLAGWLYQTFKGQTKTSESYQN	PGPT0014385_1584	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
AK012_01742	1854	nhaP2_3		K(+)/H(+) antiporter NhaP2	ATGATCGATTCGCTGTTACTGCAATTGACCCTTGTCGGCTTTCTCGGCGTCGGCTCCCAATGGATAGCATGGCGCTTCCGCCTGCCGGCTATCGTAGTCATGTCCATCGCCGGACTGCTGGCAGGGCCTGTATTTAATTTGATGAACCCGGAACAGGATTTTGGGGATCTTTATAAACCAATCATCTCCCTGGCTGTTGCGGTGATCTTGTTTGAAGGCAGTTTGAATCTTGATTTCAAGGAAGTCCGCGGGCTGGGGAGACCGGTGTTCCGGATTGTGACCTTCGGAGCGTTCTTCAGCTGGATTCTCGGTTCCTTTGCTGCCCATTATGTTGCCGGGCTGTCCTGGGCGGTCGCCTTTACGATCGGCGGGCTGTTTATTGTAACCGGGCCGACCGTCATTCTTCCGCTGCTCAGACAGGCGAAGCTGAAACCCCGTCCGGCTAAGATCTTGAAGTGGGAAGGCATTATTGTCGACCCGATTGGAGCGCTTCTTGCGGTTTTCGCCTTTGAAATCATTGTGTTTTTGACCGTCAATGACCCATCCGCTCTGCTGATGTTCTTTCTAGCTTCTGCTTTCGCTGTCTTTCTGGGGTGGCTGTGCGGAAAAGGCGTAGGGTGGATGTTCGAAACCGGTTATGTACCGGAGTTTTTAAAGTCACCCGTTGTATTTGCGGTGGTTATCGCCTGCTTCACAGGAGCGGACGAAGTCATGCATGAGACCGGTCTTCTTTCTGTTACAGCGATGGGGATGACGCTTGCCAATATGCACATTTCTTCCATTGCAGATATGAGGCACTTTAAGGAAAATATATCCCTGCTGTTAATTTCAACGATCTTTATTATGCTGACGGCTTCCTTAACGGTAGATACGTTGGTGGAGATTTTTAATATCCGGATTATCGGTTTTGTGCTCCTCATGTTATTTATCGTCCGTCCGTTGTCCATTTTCCTGTCGACGATCGGGACCGATTTATCCAAATCCGAAAAACTTCTCGTCGGCTGGATCGCTCCAAGGGGAATTGTGGCGCTTACGGTCGCCAGTTACTTTGCCAGCATTCTCCTTGAGGGTGGATATGAAGATGCTTCCATTCTCATATCCCTGACCTTCGCCCTTGTCTTTACGACAGTTGTGGCTCACGGTTTTTCCATCGGCTGGCTCGCTAAAAAGCTCGGCTTGTCTATGGAGGGCCCTCCCGGCGTGTTGATTGCAGGAGGGAGTGCGTTTACGACAGGACTGGCAAAAACGCTCGAGGAACTGAAAATACCTGTACTGCTGACTGATTCTTCCTGGCAGCGTCTGTCGCGGGCCCGTTCCAGAGGAATTGCTTCTTATCATGGAGAGATCCTTTCCGAACAGACGGAATACTATCTCGACATGACACCATACGAATACCTTGTAGCGGCTACAGAACTGGATTCCTACAACGCTCTTGTCTGTACCACATTCGTGCCCGAGTTTGGACGTAACAACTCCTTCCAATTGAGCCTGACAAATAAGGAAGGCGATAATCTGGAAGATCTCGTTCATACAATCGGGGGACGGGTACTGTTCGAAGAAGGAGCTTCCTGGGAAGAACTGAATGCCCGCGTTGAAAATGGGTATGTGTTTAGAAAAACGACGCTTACCGCCCAGTATTCATTTGAAGATTACCGGGAAAACATGGATGAACACGCGATGCTTCTATTTGCCAAGCGTACGTCCGGTAAGGTTGATTTCTTTACTCCAGGTCTGGAGTTCCGTCCTGAAAATGGGGATGTGATCGTTTCCTTAATGCCTCCGAGCAAGGAATTTGAAAAAATTCAGGAAAAACTTGAAGGTCAGAGGAAAAACCAGGAAGAGAAAAAATCATAA	MIDSLLLQLTLVGFLGVGSQWIAWRFRLPAIVVMSIAGLLAGPVFNLMNPEQDFGDLYKPIISLAVAVILFEGSLNLDFKEVRGLGRPVFRIVTFGAFFSWILGSFAAHYVAGLSWAVAFTIGGLFIVTGPTVILPLLRQAKLKPRPAKILKWEGIIVDPIGALLAVFAFEIIVFLTVNDPSALLMFFLASAFAVFLGWLCGKGVGWMFETGYVPEFLKSPVVFAVVIACFTGADEVMHETGLLSVTAMGMTLANMHISSIADMRHFKENISLLLISTIFIMLTASLTVDTLVEIFNIRIIGFVLLMLFIVRPLSIFLSTIGTDLSKSEKLLVGWIAPRGIVALTVASYFASILLEGGYEDASILISLTFALVFTTVVAHGFSIGWLAKKLGLSMEGPPGVLIAGGSAFTTGLAKTLEELKIPVLLTDSSWQRLSRARSRGIASYHGEILSEQTEYYLDMTPYEYLVAATELDSYNALVCTTFVPEFGRNNSFQLSLTNKEGDNLEDLVHTIGGRVLFEEGASWEELNARVENGYVFRKTTLTAQYSFEDYRENMDEHAMLLFAKRTSGKVDFFTPGLEFRPENGDVIVSLMPPSKEFEKIQEKLEGQRKNQEEKKS				NA	NA	NA	NA	NA
AK012_01743	177			hypothetical protein	GTGACTAAACAGGAAATTCGAGATGAAATTGCCTTTTTGAAATCAGACTATATACGAATTCAAGGCGATCTCGATAAATTGGAAGCCGCCGGTGGGAATATCCAGAATGCCGAGCAGCAGCTCGCACGGATGGAAGAAGAATTGAAGGTATTAAATAAGAAACTTGCAGAAGCATAA	MTKQEIRDEIAFLKSDYIRIQGDLDKLEAAGGNIQNAEQQLARMEEELKVLNKKLAEA				NA	NA	NA	NA	NA
AK012_01744	849			hypothetical protein	TTGATCATTCATAATGACGAAAGTCCCGCATCATTCTTTTCCAAGGTGGAACCCCTCCTCCTGGAAAGAGAAGCTGAAAATAATCTGCCTTTAGGTGTCCTGGAGCGTTACGTGAGTGGCAGGGAAGCAGGCTCCTGCTATACCCTGCGCATCACGGAAGGGGGGAAGACCGTCTACACGGCCTTGCGAACTCCCCCTCATCTATGGATTCTTCCGACCGTATCTGGAGATTCCGTTTCTTATATTAAAGCAGCTGCCCGCCATCTGTATACCCATGAATATGAAGTCCCGGGTGTCATTGGGGATCAAAATTCGACCGCTGTATTTGTCGAGGAGTGGACACAGTTGACTTCGGCCATCCCCCGGGTCCATGTGCAGCAGGGCGTCCATCGTCTGGATGAATTGAATGACATTCCTCAAAGCACCGGGAAACTGCAGGCTGCCGACAAATCCCATCAATCCATGGTAATAGAATGGATGACCCAGTACGGAAAAGAAACAGAGGAATCCCTCGTTGTTGAAAGGGCTCCTGAACTGGCGGAAAGCCTCATCCATGATCAGCGCTTATTTTTATGGCTGGTGGACGGAATCCCGGTTTCAATGGCCGGCCGGGCCAGGACAACGAAAAACGGGGCGACGATCAACGCTGTCTTTACCCCGGATTCTTTTAAGAAGAAGGGCTATGCTACCCAGGCCGTCTGGCACTTAACGCAGGATCTGCTCCAACAGGGGTACAGCTTCTGTTCACTATACACAGATCTTGCCAACCCCACCTCAAACTCCATATACAAAAAAATCGGTTACAACAAAATCAGTGACTCCATCGTTTATCACTTTCATAAAAGTTAG	MIIHNDESPASFFSKVEPLLLEREAENNLPLGVLERYVSGREAGSCYTLRITEGGKTVYTALRTPPHLWILPTVSGDSVSYIKAAARHLYTHEYEVPGVIGDQNSTAVFVEEWTQLTSAIPRVHVQQGVHRLDELNDIPQSTGKLQAADKSHQSMVIEWMTQYGKETEESLVVERAPELAESLIHDQRLFLWLVDGIPVSMAGRARTTKNGATINAVFTPDSFKKKGYATQAVWHLTQDLLQQGYSFCSLYTDLANPTSNSIYKKIGYNKISDSIVYHFHKS				NA	NA	NA	NA	NA
AK012_01745	555	teaB	COG3090	Ectoine TRAP transporter small permease protein TeaB	TTGAAGGTTTTTAAGGCAGTAGACAAAATCATATTAAAAATCGAAGAGTTTATATTAAGCTACGCGGTTATTATCATTGCTTTAATGGTCGTGGGTAAGGCGTTGAGCCGGGCACTGTTCAGCTACTCGCCTCCATTTGCTGATGAAGTCAGTCAGATTGCCATTGTTGTAGCAACTTTTATGGGGATCAGTTACGCCGCGCGTAAGGGAAGGCACATCAGCATGTCCGCCTTTTATGATCTTGCTCCCTTTAAGGTAAGGAAATTCCTTTCTATTCTCATTCCCTTTGGCACAGCAGCCGTGCTGTTTGTCCTTGCCTACTATTCTGCTTTATATGTGCAGGATGTGTACGAGTCCGGCAGAGTGACTTCAGCACTGGAAATGCCGGCCTATTACCTCTACATTTTCATTCCAATCGGGTTTGTGCTTGGAGGCATCCAGTTCCTCAGAAACATGTGGATCAACATTACGAACCGGGATGAAGTGTACTTGGGAACCGATGTTAAGGACTACAACGACGAAGAGACAAATGATCTGGAAGGAACGCATTTATAA	MKVFKAVDKIILKIEEFILSYAVIIIALMVVGKALSRALFSYSPPFADEVSQIAIVVATFMGISYAARKGRHISMSAFYDLAPFKVRKFLSILIPFGTAAVLFVLAYYSALYVQDVYESGRVTSALEMPAYYLYIFIPIGFVLGGIQFLRNMWINITNRDEVYLGTDVKDYNDEETNDLEGTHL	PGPT0017330_583	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017330-dctQ-K11689	NA	NA
AK012_01746	1266	teaC	COG1593	Ectoine TRAP transporter large permease protein TeaC	ATGATCGCGACTATGCTCATTATCATGGTGGTGCTTTTATTCTTAAACTTTCCCATGATGATTCCGCTGATGGCAGCCCCATTAGTCATCATGTTTATTTATTTTCCAACATTGGACCCCATGATCCTCATGCAGCAATTTTCTACAGGAATCGAACCATACGTATTACTAGCTGTACCTTTATTCATTTTCGCCGCCGATATTATGACGACAGGGAAGACATCAAACCGGCTGTTGGATTTCATCGGATCATTCATCGGTCATATCCGCGGCGGCTACGCCGTAACGACAGCCGCCGCCTGTACGCTTTTTGGGGCGATATCAGGGTCAACCCAGGCTACAGTAGTCGCCATCGGTAAGCCGATGAGAGAGCGGCTGCTGAAAATCGGTTATAAAGATCCGTCAGCCATCGCTCTCATCATCAATTCCAGTGACGTCGCACTTCTTGTGCCGCCAAGCATCGGAATGATCATATACGGCCTCGTTTCCGGGACCTCTGTCGGTGACTTGTTCATCGCTGGTATCATTCCCGGGATCATCGTATTCATCAGCTTTGCGGTCTACAGCATCATTTACGCAAAAATGGCCGATATTCCTTTGGCAGGAAAGGCGAGCTGGAGCGAACGATGGACGATGACAAGAAAAGCGATTCTGCCGCTCGGGTTTCCAATTGTCGTCATCGGCGGTATTTATACAGGACTCTTCAGTCCTACGGAAGCAGCGGGGGTTTCGGTGCTGTATGCCTTTATTCTTGAGGTGTTCATTTATCGTTCCGTACATATTAAGGAGCTTCCGAAAATCGCCAGGTCCACCGGCCTTGTCACGTCAGCTGTTTTTGTTCTTGTTGCCGGCGGACAGGCTTTTACATGGGTCATTTCCTTTGCACGGATCCCGCAGATGATTACGGAAACCGTTCTTGGAACCGATCCTAGGGCTATTTACGTACTCTTGATGGTTACGATCTTCTTCTTTATCGGTTGTATGTTCGTAGATCCGATCGTCGTCATTCTCATCCTGACACCGATCTTCTACCCGGCTGCGATGAGTGCCGGTATAGATCCGGTCCACCTTGGAGTCGTCATCACATTCCAGGCTGCTCTGGGATCAGCTACGCCGCCGTTTGGAGTGGACATCTTTACAGCCAGTGCGGTCTTCAATAAACCATATTTGGAGGTCATCAAGGGCACACCGCCGTATATTCTCATTTTGTTTGCCATCTCAGGCTTACTCATATTTTTTGACGAACTGTCACTTTTCCTTCTTTAG	MIATMLIIMVVLLFLNFPMMIPLMAAPLVIMFIYFPTLDPMILMQQFSTGIEPYVLLAVPLFIFAADIMTTGKTSNRLLDFIGSFIGHIRGGYAVTTAAACTLFGAISGSTQATVVAIGKPMRERLLKIGYKDPSAIALIINSSDVALLVPPSIGMIIYGLVSGTSVGDLFIAGIIPGIIVFISFAVYSIIYAKMADIPLAGKASWSERWTMTRKAILPLGFPIVVIGGIYTGLFSPTEAAGVSVLYAFILEVFIYRSVHIKELPKIARSTGLVTSAVFVLVAGGQAFTWVISFARIPQMITETVLGTDPRAIYVLLMVTIFFFIGCMFVDPIVVILILTPIFYPAAMSAGIDPVHLGVVITFQAALGSATPPFGVDIFTASAVFNKPYLEVIKGTPPYILILFAISGLLIFFDELSLFLL	PGPT0017335_2887	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
AK012_01747	1011	teaA	COG1638	Ectoine-binding periplasmic protein TeaA	TTGGTGCTGGCTGCCTGTGGAGGCAGTGACGAAAGCAGTGACAGCAGCGGGGGCGACGGACAGACGTATAATTGGAAGTTCGTCACAGAAGAAGTGGATGGACAGGTCCAGTATGAATACGCCGAGGAGTTTGCCAAGCGTATGAATGAAAAGTCCGATGGAGCCGTAAACATCGACGTGTATGAATTCGGCGGACTCGGCAGTGAAACCGATCAGGTCGAGCAGCTGCAGAGTGGTACCGTGGAAATGGCCGTCATGTCTCCGGGTTTTACAGGAAACATGGTGAAAGAAGGACAAGTCTTTGCGCTTCATTTCCTTTTTCCTGAAAGTGTAGAAACGACACAGAACATCCTGAACGACAGTGAAGCCTTGAATACAGATCTTCGCGAGCTGTACGAGGAACACAGCATTTCACCGCTTTCCTTCTGGTCTGAAGGTGCAATGCAGTGGACATCAAGTAAAGAAATTTCCGAACCTGCGGATTTTGAGAATTTCAAGATGCGTACACAGACCTCTCCATTAATCCTGAAATCTTATGAAGCGTATGGCGCCGATCCGACACCTATGAGCTGGTCTGAGCTTTACACAGCGCTTGACCGTGGCACGGTGGAAGGACAGGAGAACCCGATCTTCTTCATCGGAGATGCATCCTTCAACGAAGTACAGGACTACATGACGATGTCGAATCATAACAACTACGTGGCGATGACCACGGTCAACACCGACTGGTATGAAGGTCTCGACGAAGACATGAAAACGATGGTGGATGAAACGGTAACGGAAATGCAGGACTGGGTATTTGAAGAACAGAAGAAGCAGAACGAAGAATATTTAGAAACGATCAAGAACGATACGGAAAACCCGACAGAAATTGTAGAGCTTTCCGACGAACAGCGTGAAGCCTTTAAAGAAAAGGCTGAACCTGTCCGCGACTTCTACCGCAATGAAGTATCCACGGTAGATGGTGAAGTTCTTGATAAGCTGATTGAAGAAATCAATGCAGCCGAATAA	MVLAACGGSDESSDSSGGDGQTYNWKFVTEEVDGQVQYEYAEEFAKRMNEKSDGAVNIDVYEFGGLGSETDQVEQLQSGTVEMAVMSPGFTGNMVKEGQVFALHFLFPESVETTQNILNDSEALNTDLRELYEEHSISPLSFWSEGAMQWTSSKEISEPADFENFKMRTQTSPLILKSYEAYGADPTPMSWSELYTALDRGTVEGQENPIFFIGDASFNEVQDYMTMSNHNNYVAMTTVNTDWYEGLDEDMKTMVDETVTEMQDWVFEEQKKQNEEYLETIKNDTENPTEIVELSDEQREAFKEKAEPVRDFYRNEVSTVDGEVLDKLIEEINAAE	PGPT0017325_44	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017325-dctP-K11688	NA	NA
AK012_01748	1185	yhhS		putative MFS-type transporter YhhS	ATGCACAAGCCAAAATTGTGGACCTGGCCTTTTATCTTTCTCATCCTTGCCAACTTATTTACATTTATGAGCTTTCAAATGCTGCTACCCAACCTGCCTCCTTACATCGAATCCATTGGCGGCAGTACGCTGGAAGTGGGACTGATTACAACAACATTTGCCTTTGCAGCGATCGTAATCCGTCCGTTCATCGGACACCTGCTGATGACCCGGGCGCGGAAATTGTTGATTCTTATCGGTTCCGCCGCCCTGCTCATCCTGACTATGATGTATCCTGTGACACAGGTCGTCTTCTTTCTGCTGGTCATCCGCTTTATTCACGGTCTGGCCTGGGGATGGTCGACGACAGTTAATGGGACGGCTGCCGTAGATCTTGTTCCGAGGCGCCGCGTTGGTGAAGGGATGGGCTATTTCGGATTATCCGTGACGGTCGGAATGATCATGGCTCCAAGTCTCGGTATCTATCTGTACCAGAACTATTCCTTTTCTCTGCTCGTATGGATTTCCGCGGCCCTTGGAATCATTGCACTCCTTTTATTTTCAGTTACCAGCTTTACGACTCCGGATCAGGTATATGAAAATCAAAAGAATCCGCCCCGTTTCTCCTTTAAGGACGCCTTAATCGAAAAGCGGAGCTGGTACCCGGCGCTCGTTACGATTCTCAACACGTTTGGGTACGGAGCGGTTGTCACCTACATTGTCATTTTTGGAAACGAACAAGGGCTGGACGGCACGTTCCTTTTTTATTTCTTTAATGCTGTCCTTGCTACTGTGTCACGCCCAATAACAGGACGGTACTTTGATAAGCGGGGACCATGGAACTTAATAATCGTCTGTTCCGTCATATCTTTCATTGCCATGTGGGTGCTGGCAACAGCGGATTCCAATCTGGATCTCATTATCGCAGGTGCTTTATTCGGTGCCGGCTACGGTTCGATGATGCCCGCCCTGCAGGCCTGGGTCATTTCCAAAACCTCTATCGAACGGAGCGGGATTGCCAACGGGATGTACTACTCCTCCATCGATCTCGGCATTGGAGCGAGCGCCCTCATCCTCGGGTTTATTTATCAATTTGTAAACACAGCTGCCTTGTTCAAACTGTCCAGCTTTCTCTTTTTAGTCGTCATGGTGCTGACGATCATCGACTTAAGAAAACAAACAGAGCCATGGCAGTCTCCTCAATAA	MHKPKLWTWPFIFLILANLFTFMSFQMLLPNLPPYIESIGGSTLEVGLITTTFAFAAIVIRPFIGHLLMTRARKLLILIGSAALLILTMMYPVTQVVFFLLVIRFIHGLAWGWSTTVNGTAAVDLVPRRRVGEGMGYFGLSVTVGMIMAPSLGIYLYQNYSFSLLVWISAALGIIALLLFSVTSFTTPDQVYENQKNPPRFSFKDALIEKRSWYPALVTILNTFGYGAVVTYIVIFGNEQGLDGTFLFYFFNAVLATVSRPITGRYFDKRGPWNLIIVCSVISFIAMWVLATADSNLDLIIAGALFGAGYGSMMPALQAWVISKTSIERSGIANGMYYSSIDLGIGASALILGFIYQFVNTAALFKLSSFLFLVVMVLTIIDLRKQTEPWQSPQ				NA	NA	NA	NA	NA
AK012_01749	1074		COG0628	Putative transport protein	GTGGTCCAAAAAAAATGGTTTCAAGCCATCGTTACTGCCATACTGCTGGCTCTGTTGATTTTACTGCTTCATCAAATTCAATTTTTCTTTGATCCGGTCATGACCTACGTCGGGGCCATCGCCCTCCCTTTGATCGGCGGCGGCATTCTGTTTTATTTATCCCGTCCATTATTAAAACTGCTGGAACATTACAAGGTGCCGAGAATCCTCGGTATCGTCATTATCTTCCTCCTGTTCATTGTACTAGGGTACATCATCACCCAGTTCATTGCACCAGTCGCCCAGGAGCAGTTCACGCGGCTTGTGGACAACATTCCGGATATGGCTGAAATGATCGGAGAAGGTGTGACGTACTGGCAGCAGAACCAGGACATTATTCCAAGTCAGTTTAATGCGACCATCGACAATGTGGCCAACAATCTGGAATCCTACCTGCAGGATGCCTCCACGGTGGTGATCAACGTTGTCAGCCAGTTGATCAGTTTTGTGTTCGCCCTTGTGCTGATTCCATTTTTCCTTTTCTTCATGCTGAAGGATGGGGACAAGCTGATTCCTTTCATCAGGCAGTTCTTAGGCAGAAAAGCCGGGAAAAGCTTTACTAAACTGGCGCACGATATCGACCATACGCTGCATTCCTTCATTCTGGGACAGTTGACGGTCAGTATCGTAGTCGGGCTGCTGCTGCTGGTCGGATATTTAATTATCGATCTCCCTTATGCCCTGACGCTGTCCCTGTTTGCTATGGTAATGAACGTCATCCCATTTGTCGGCCCGTTTCTTGCTGTGGTCCCTGCCATCCTCGTCGGATTGTTTGAAGATCCGATCCTGGCTGTGTGGGTGGCCGTCATCACCATTATCGCTCAACAGCTCGAGGGGAATTTTGTTTCACCGAACGTCATGGGAAAAGCATTAAGCATCCATCCCCTGACCATCATCACGTTAATTCTCGCAGCCGGAAGTCTTGCCGGCTTCCTGGGGCTGTTGTTTGCTATTCCGACCTATGCGGTTATCAAAACGATCGTACGTCATTTCTATCAGGAATGGCTGGAACGGAGAACAGCTGATCACAGTTGA	MVQKKWFQAIVTAILLALLILLLHQIQFFFDPVMTYVGAIALPLIGGGILFYLSRPLLKLLEHYKVPRILGIVIIFLLFIVLGYIITQFIAPVAQEQFTRLVDNIPDMAEMIGEGVTYWQQNQDIIPSQFNATIDNVANNLESYLQDASTVVINVVSQLISFVFALVLIPFFLFFMLKDGDKLIPFIRQFLGRKAGKSFTKLAHDIDHTLHSFILGQLTVSIVVGLLLLVGYLIIDLPYALTLSLFAMVMNVIPFVGPFLAVVPAILVGLFEDPILAVWVAVITIIAQQLEGNFVSPNVMGKALSIHPLTIITLILAAGSLAGFLGLLFAIPTYAVIKTIVRHFYQEWLERRTADHS				NA	NA	NA	NA	NA
AK012_01750	1227	pepT_2	COG2195	Peptidase T	ATGAAAAAAGAACTGTTGGAACGCTTTGTTTCCTATGCAAAAATGAATACCCAATCGGATGAAACAACCGGCCGCACCCCTTCTACAGACGGGCAGTGGGCGCTTGCTCATAAACTTGTTGGAGAGCTTGAAGACATTGGAATGAGCGAGGTACGAGTGGATGAGCATGCCTATGTGACGGCCACCCTTCCGGCCAACACAGACAAAGAAGTACCGGTGATCGGCTTCCTGGCCCACCTGGATACAGCTACAGACTTTACCGGCGAACATGTCAACCCTCAGGTGGTTGAAAATTATGACGGGGGTGTGCTGCATCTGAATGAGGGGGTGGAGCTTCGCCCGGAGGAATTCCCTGAGCTTCCCGCCTATAAAGGACAGACGTTGATCACGACGGATGGAACGACTCTGCTTGGAGCTGATAATAAAGCGGGGATTGCAGAAATAATGACCGCTTTGAATCATCTTATTCAGCATCCTGACATCAAGCACGGAAAAATCCGTGTGGCGTTCACACCGGATGAGGAAATCGGCCGAGGGCCTCATAAATTTGACGTGGACCGTTTTGCCGCATCCTATGCCTATACGGTGGATGGCGGACCCCTCGGCGAACTTCAGTATGAGAGCTTTAATGCAGCGGGCGCGAAATTGACCTTTAATGGGAACAGTGTGCATCCAGGAACTGCTAAAAATAAACTGGTCAACGCAGTAAAGCTTGCTGTGGAATTCCAAAACCAGCTTCCCGCCGAAGAAGCGCCTGAACATACAGAAGGATATGAAGGATTTTTCCACCTGCTTGCTTTTCAAGGGAATGTGGATCGGGCGGAACTCTCCTATATCGTGAGAGATCATGACAGGGAAAAGTTCAAGGAGAAAAAACAGCGGATGTATGATCTGGCGGCTCAGATGAACGCAAGTCTCGGTGAAGACCGGGTGACTGTGGAGATGGAGGATCAGTACTACAACATGGGGGACAAAATTAAGCCGGTCCACCATATCGTGGAGATCGCCAAGGAAGCGATGCAGAACAAAGGAGTCGAACCTGTCATTCAGCCGATCCGGGGAGGAACGGATGGCTCCCAGCTTTCCTATATGGGACTTCCCACTCCGAACATCTTTACAGGGGGAGAAAACTTCCACGGAAAATATGAGTACATTTCTCTGGAGAGTATGGAAAAAGCAGCTGAAGTCATCGTCGAAACAGCCCGGTTATTTGAAGAAAAAGCCTGA	MKKELLERFVSYAKMNTQSDETTGRTPSTDGQWALAHKLVGELEDIGMSEVRVDEHAYVTATLPANTDKEVPVIGFLAHLDTATDFTGEHVNPQVVENYDGGVLHLNEGVELRPEEFPELPAYKGQTLITTDGTTLLGADNKAGIAEIMTALNHLIQHPDIKHGKIRVAFTPDEEIGRGPHKFDVDRFAASYAYTVDGGPLGELQYESFNAAGAKLTFNGNSVHPGTAKNKLVNAVKLAVEFQNQLPAEEAPEHTEGYEGFFHLLAFQGNVDRAELSYIVRDHDREKFKEKKQRMYDLAAQMNASLGEDRVTVEMEDQYYNMGDKIKPVHHIVEIAKEAMQNKGVEPVIQPIRGGTDGSQLSYMGLPTPNIFTGGENFHGKYEYISLESMEKAAEVIVETARLFEEKA	PGPT0020915_1087	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
AK012_01751	771			hypothetical protein	GTGGATGTTCAATTGTTGATTGAGTATGGCTGGGTTTTAATCGTACTTGTCGGTCTGGAAGGTATTCTAGCGGCAGACAACGCTCTTGTTCTGGCCATTATGGTGAAGCACCTGCCGAAAGAACAGCGTAAAAAGGCCCTCTTTTACGGATTGATGGGGGCGTTTGTTTTAAGATTTGGATCTTTATTCATTATATCCTTCCTTGTCGATGTGTGGCAGGTGCAGGCCCTTGGTGCCGCCTACCTCTTATTCATCTCGATCAAACACCTCATTGATAAATGGAGGTCCAGCGGAGAGGAAGAGGAGGAAGAGGAGGACACCGGTTCAGGCCGTGGGAAAGGCTTCTGGATGACCGTATTGAAAGTCGAGCTCGCCGACCTTGCTTTTGCTGTGGATTCCATTCTGGCTGCTGTTGCCCTTGCCGTCGCTCTTCCAGAAACAGACCTCCCTGAGGTAGGGAGTCTGGATGGCGCCCAATTCGGGGTGATTCTGGCGGGAGGAATGATCGGGATTATCATCATGCGTTTTGCGGCCAACGTGTTCGTCAACCTGCTGAAATCCCGCCCGGGTCTTGAAATCGCCGCCTTCGTTATTGTGGGATGGGTCGGTGTGAAGCTCGTCGTATCAACGCTCGCCCACCCGAATATTCAAATTCTTGATGAGCACTTTGCTCATTCAACCTTGTGGAAGATCATTTTCTATTCTGTCCTCGTCTTAATTGCTGTTCTCGGATGGTTCCTTTCCGGGAAAAAAGAAGATCCGCACGCCTGA	MDVQLLIEYGWVLIVLVGLEGILAADNALVLAIMVKHLPKEQRKKALFYGLMGAFVLRFGSLFIISFLVDVWQVQALGAAYLLFISIKHLIDKWRSSGEEEEEEEDTGSGRGKGFWMTVLKVELADLAFAVDSILAAVALAVALPETDLPEVGSLDGAQFGVILAGGMIGIIIMRFAANVFVNLLKSRPGLEIAAFVIVGWVGVKLVVSTLAHPNIQILDEHFAHSTLWKIIFYSVLVLIAVLGWFLSGKKEDPHA	PGPT0003867_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-RELATED_PROTEIN,PGPT0003867-ykoY-NA	NA	NA
AK012_01752	198			hypothetical protein	GTGGGGAAAGCTGTAGACAATACGTCCGATCAGTTCCGCTACGTTAAAAACCGGATCGATATGCTGCATCAGGTTGTGTCCAGCATGGATCCAGACGATCTCGATCCGGAAGATTTTCAGCGTATCCATCATATGGTGGAACAGCTTCATATGAAAATGGACCGTTTCAAAAAAGACCAGGACGCCCAGCAATTATAA	MGKAVDNTSDQFRYVKNRIDMLHQVVSSMDPDDLDPEDFQRIHHMVEQLHMKMDRFKKDQDAQQL				NA	NA	NA	NA	NA
AK012_01753	924			hypothetical protein	ATGGTGGTCACATTCTGCCGGATGACCCAGCAGGAAGCCGAGGAAATAGCATCATGGCACTATCCACCCCCGTATGATTTTTATGATATGACCGCCGATGAAGAAGACTATGAAGCGTTTATCGATCCTCACAGGAGAAGTCCGCACACGTACAGCGCCTACAAAGCCGGCATGTTGATCGGTTTCTTCACGATTCATCCGACTTCTGAAGAAACCGTGGATGTAGGGCTCGGGCTTCGTCCCGATTTAACAGGGCAGGGGAGGGGGGCTTCCTTTGTGGCCGCTGGTTTGGATTTCGCAGAGCGCCGCTGTGGTGCCCGTGTTTTTACACTGAGTGTTGCTGCCTTCAATGAGAGGGCCGTCGAGGTGTACCGTCGTGCCGGTTTTAAGGAAACGCACCGTTTTGATCAGAAAACGAATGGAGGCACGTATCCGTTCATTGCGATGAAAAAAGACGAAGGAGGTTGTTCTGCTGTGGCATTACACCATTTTCACTTAAAAGCAGACTGGCCGGGCGGCCGGAATGAAGTCGGCCGGATTGAGTCAGATAAATTAAAGACGGAAATTTCCATCCCAAAGGAAATGGATGGACCGGATGTAGGAACAAACCCGGATGAAATGCTGCTGGGGGCAGCGGCTACCTGTTACATCATTACGCTGGCCGCTATGATTGAAAGAGCGGACCTGCCGCTTCAGGAAATGGATATGACTTCTGAGGGCCAAGTCGATGTAACGGACGGGGTCTTCACCTACAAAAAAATCATCCACCGTCCCCGTGTCGTGCTGAAGCAGGAGGCAGGAGAAACGGATCTGAAGAAGCTGCACCGCCTTGTAGAAAAGGCAGAGAAGACCTGCATGATCTCAAGAGCAATCGAAGGAAACGTAGCATTGGAACTGGATGCGGATGTAACCGTCGCTTCCTGA	MVVTFCRMTQQEAEEIASWHYPPPYDFYDMTADEEDYEAFIDPHRRSPHTYSAYKAGMLIGFFTIHPTSEETVDVGLGLRPDLTGQGRGASFVAAGLDFAERRCGARVFTLSVAAFNERAVEVYRRAGFKETHRFDQKTNGGTYPFIAMKKDEGGCSAVALHHFHLKADWPGGRNEVGRIESDKLKTEISIPKEMDGPDVGTNPDEMLLGAAATCYIITLAAMIERADLPLQEMDMTSEGQVDVTDGVFTYKKIIHRPRVVLKQEAGETDLKKLHRLVEKAEKTCMISRAIEGNVALELDADVTVAS				NA	NA	NA	NA	NA
AK012_01754	1668	malL	COG0366	Oligo-1,6-glucosidase	ATGGAACGGGTATGGTGGAAGGAAGCGGTAGGATATCAAGTGTACCCCAGGAGCTTTCAGGATTCAAACGGGGATGGAATCGGCGATCTGCAGGGAATGATCAGCCGCCTGGACTATTTGAAAGATATGGGCATTGATTTCATCTGGATCTGTCCGATGTATAAATCCCCGAAGGACGATAACGGCTATGACATTTCTGATTATCAAGATATCCTTGATGAATTCGGAACGATGGAGGATTTCGATGAGCTGCTCCAGGAGGTCCATAAGCGTGGGATGAAGCTGATCATCGATCTTGTCCTCAACCATACGAGTGATGAGCATCCGTGGTTCATAGAATCCCGTAAATCCAAGGACAATCCTAAGCGGGACTGGTATATCTGGCGCGATGGCAGAGGCGGACGTGAACCCAACAACTGGGAAAGTATTTTCGAAGGGTCTGCCTGGGAATATGATGAGAAAACAGGTCAATATTACCTTCATGTGTTTTCCAGAAAGCAGCCGGATTTGAACTGGGAGAACGAAGACGTCCGGGAAGCTTTGTACAGTACGGTCAATTGGTGGCTGGACAAAGGGATCGACGGGTTCCGTATTGATGCCATCAGCCATATCAAGAAGCGGCCGGGCTTTCCCGATATGCCGAACCCGAAAAAGGAAAAGTACGTGTCCTCTTTTGATATGCATATGAATCAAAAAGGCATCCACACCCACCTTCAGGAATTCAAGGACCGTACCTACGCCAACTATGATGTGATGACCGTGGGAGAAGCGAACGGAGTGAGCGCCGATGAGGCGGACCAATGGGTTGGCGACAACGGCAAAATGGATATGATTTTTCAATTCGAGCACCTCGACCTCTGGGACCAGGATGCCGAACAGCAGCTGGATGTCAAAGGCTTGAAAAAAGTGTTGACCCGGTGGCAGAAAGCCCTTGAAGGAGACGGCTGGAACGCTTTGTTTGTAGAAAACCATGACAAAGCCCGTGTCGTCTCCACGTGGGGGGATGATCAGGTCTACTGGCGCGAAAGTGCGACATCCATTGCGACGATGTACTTCTTTATGCAGGGGACGCCTTACATTTATCAAGGGCAGGAAATCGGCATGACGAATATGGCCTTCCCTTCTATCGAGGATTACGATGATGTGGCTGCGAAAAACTTATACCAGACGAAAAAAGCAAAAGGCATGGCTCATGACGACATCATGGAAATCCTCTGGAACACGTCCCGGGACAACAGCCGCACACCGATGCAGTGGAGCCGTGAAGCACAGGCAGGCTTCACAACAGGAAAACCGTGGATGAAAATCAATCCGAACTATATATCCATCAATGTGGCTGATCAGGAACAAGACGCTCATTCCATTTTGAACTACTACAAAGAAATGATTGCCTTGAAAAAAGAGCAGGACGTGTTCACGTACGGCACATATGATCTTCTGCTTCCTGAGGATGAGCAGGTTTATGCCTACACAAGGACATTGAACGATCAACGGGCGGTCGTGATTGCCAATTTGACTGATCAAACAGCTTTCTTTGAGACAGAGGATCCGCTCAGCTCCAGTCAGATGGTTTTATCCAATACCATTGTAACTTTCCACGATAACGTATCAAGCTTTCCTTTGAAGCCTTACGAGGCCCGTGTTTATCTCATGGAGAAAGGACTATAA	MERVWWKEAVGYQVYPRSFQDSNGDGIGDLQGMISRLDYLKDMGIDFIWICPMYKSPKDDNGYDISDYQDILDEFGTMEDFDELLQEVHKRGMKLIIDLVLNHTSDEHPWFIESRKSKDNPKRDWYIWRDGRGGREPNNWESIFEGSAWEYDEKTGQYYLHVFSRKQPDLNWENEDVREALYSTVNWWLDKGIDGFRIDAISHIKKRPGFPDMPNPKKEKYVSSFDMHMNQKGIHTHLQEFKDRTYANYDVMTVGEANGVSADEADQWVGDNGKMDMIFQFEHLDLWDQDAEQQLDVKGLKKVLTRWQKALEGDGWNALFVENHDKARVVSTWGDDQVYWRESATSIATMYFFMQGTPYIYQGQEIGMTNMAFPSIEDYDDVAAKNLYQTKKAKGMAHDDIMEILWNTSRDNSRTPMQWSREAQAGFTTGKPWMKINPNYISINVADQEQDAHSILNYYKEMIALKKEQDVFTYGTYDLLLPEDEQVYAYTRTLNDQRAVVIANLTDQTAFFETEDPLSSSQMVLSNTIVTFHDNVSSFPLKPYEARVYLMEKGL	PGPT0018560_4102	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0018560-malz-K01187	NA	NA
AK012_01756	1095	ribD	COG0117	Riboflavin biosynthesis protein RibD	ATGGAGCGTGATGAGCAGTACATGGCTGTGGCTGTACAGATGGCCAGGGAAACGGTCGGTCAGACGAGTCCCAATCCTTCAGTAGCTGCCATTGTTGTAAAAGATAACCAAGTCGTCGGAATGGGGGTGCATGTGAAGGCAGGGGAACCTCATGCCGAAGTTCATGCCCTCCGTATGGCGGGGGAAAAAGCAGCAGGGGCGGAGATCTACGTCACCCTTGAACCGTGCAGTCACCACGGACGTACACCTCCCTGCGCCGAAGCTGTCGCAAAGGCAGGAATCCGGCGGGTGGTTACGGCTTCATCGGATCCGAACCCAAAAGTGTCCGGCCGGGGCATTGAAATGATGAAACGACAAGGGCTGGAGGTCCGGACGGGTGTGTTGAAGGACGAGGCGGATGAAGTCAACCGCGCGTTTTTTCACTACATCCAGACGGGTGAACCCTACGTCCGCTTGAAGTCAGCGATGAGCCTCGACGGGAAGATCGCTACCTCCAGTGGAGAGAGTCAATGGATTACGGGGGAAGAGGCGAGACAGGATGGACACCGCTACCGCCATCAGTCTGATGCCATCCTTGTGGGGATCAATACAGTCATGATGGATAATCCGACGCTGACGACACGAATTCCGGGAGGCGGTAAGCACCCGATCCGGATCGTACTCGATACACACCTTCGGATTCCGCCTGCCTCGATGCTGATACAAAATGATGAATCCCCGACGTGGATTTTCACGTCATCGGATATCTCTGATGAAAAGCGTCTGCTTCTGGAAGAGTATGCACATGTCCGCGTCCGGCCACTTGGACGTACCATTGATATTACGGATGTTCTTCGTTATTTAGGGGAGCATCAGGTGACCTCACTCCTTGTGGAAGGCGGGGCGACCATTGCCGACGCCTTTGTCAGATCCGGGAAGGTCAATGAGACGATTACGTATATAGCTCCCAAATTGATCGGTGGAAAAGAAGCCCTGACCCCGGTTGCCGGCCGCGGCATCCAACAGTTGAAACAGGTGAAATCTTTTGAATTTGCTTCGACCGAAAAGCTTGGAGAAGATATTAAAATTGTTTCAATAAGAAAAGGGGAATCTTAA	MERDEQYMAVAVQMARETVGQTSPNPSVAAIVVKDNQVVGMGVHVKAGEPHAEVHALRMAGEKAAGAEIYVTLEPCSHHGRTPPCAEAVAKAGIRRVVTASSDPNPKVSGRGIEMMKRQGLEVRTGVLKDEADEVNRAFFHYIQTGEPYVRLKSAMSLDGKIATSSGESQWITGEEARQDGHRYRHQSDAILVGINTVMMDNPTLTTRIPGGGKHPIRIVLDTHLRIPPASMLIQNDESPTWIFTSSDISDEKRLLLEEYAHVRVRPLGRTIDITDVLRYLGEHQVTSLLVEGGATIADAFVRSGKVNETITYIAPKLIGGKEALTPVAGRGIQQLKQVKSFEFASTEKLGEDIKIVSIRKGES	PGPT0008555_1574	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
AK012_01757	651	ribE	COG0307	Riboflavin synthase	ATGTTTACAGGAATTGTGGAGGAAATAGGAACGCTCCAATCCGTTAAAAGTAAAACAGAAGCCTTGGAAATTAAAATTGCTGCATCCAACATTCTGGAAGATATAAAGATGGGCGACAGCATTTCCATTAACGGTGTCTGTCTGACCGTCACAGATTATACGAAGGATACTGCATCCTTTGATGTGATGCCGGAAACGTACCGCGCCACCAACATCCATGAATTGAAACAGGGCAGCACTGTGAATCTCGAACGCGCCATGGCGGCAGATGGGCGGTTCGGCGGCCACCTTGTATCCGGACATATCGATGGTACGGGAGAGATTGTTTCGAAAAGACAGGAGTCCAATGCGGTTTATTACGCCATTCAGCTGCCGTCCGATTTAATCCCTTATTTTGTCTATAAAGGCTCGATAGCAGTCGATGGGACTTCCCTGACTGTATTCGGAGTAGAAGAAGATCGTGTCACCATTTCCTTGATCCCGCACACGATGGAACATACAGTGCTGGGCCGGAAAGAGCCGGGAGATAAAGTCAACATTGAATGTGACATGATTGGGAAATATGTCGCTCATTTTCTAAATGGGCAGAATCAAGAGCATCCGCGCACAGCCATCTCCAAGCAGATGCTGGCGGACAACGGATTTGCGTGA	MFTGIVEEIGTLQSVKSKTEALEIKIAASNILEDIKMGDSISINGVCLTVTDYTKDTASFDVMPETYRATNIHELKQGSTVNLERAMAADGRFGGHLVSGHIDGTGEIVSKRQESNAVYYAIQLPSDLIPYFVYKGSIAVDGTSLTVFGVEEDRVTISLIPHTMEHTVLGRKEPGDKVNIECDMIGKYVAHFLNGQNQEHPRTAISKQMLADNGFA	PGPT0008610_1509	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
AK012_01758	1194	ribBA	COG0108	Riboflavin biosynthesis protein RibBA	ATGTTTGATTCCATTGAAAAAGCGATTGATGTATTGAAGCAGGGAAAACTTGTCATCGTTTGTGATGATGAAGACAGGGAAAACGAGGGGGATCTGATCGGGATTGCAGAGTACGCTTCCACCGGGATGATCAACTTTATGATCAAGCATGGGCGCGGTCTTGTCTGTGCCCCGGTTACGGATGAAAAAGCCGAGGCGCTAGAGCTGATGCCGATGGTCCAGGATAATTCAGATCCCAACCAGACAGCATTTACGGTGAGCGTGGACCATAAAGAGACAACGACAGGGATTTCAGCCGACGAAAGAGCCCTGACGATCAGAGAAATGCTGAACCGGGATAGTACCGCTGCTGATTTTCAGCGTCCGGGCCATATTTTTCCGCTGATTGCGAAGGAAGGCGGGGTGCTGCGCAGAGCCGGCCACACAGAAGCCGCTGTTGACCTGGCGCGTCTTGCGGGAGCCCAGCCGGCAGGCGTGATTTGTGAAATCATTAAAGATGATGGAACGATGGCACGTGTACCTGATCTGAAGGAAATGGCAGAGGCGTTTGATATTCCGATGATCACTATTGCGGATTTGATTGCCTACCGTCATGAAAAGGAAAATCATGTGTCGAGGGAAATCGAAGTAAATATGCCGACGGAATACGGAGAATTTCGAGCGGTAGGCTTCAACAACGATATTGATTTTAAAGATCATATCGCTCTTGTGAAAGGAGAGATCAATCCTGATGAACCTACTCTTGTCCGGGTGCATTCTGAGTGTCTGACAGGGGATGTGTTCGGCTCCTACCGCTGTGACTGCGGCCCGCAGCTGCATAACGCGCTCCGGCAGATCTCCGAAAACGGCAGTGGTGTGCTGTTGTATATGAGACAGGAAGGACGCGGCATCGGTTTAATGAATAAGTTGAAAGCCTATAAGCTGCAGGAAGAAGGCTATGACACGGTGGAGGCGAACGAAAAACTCGGCTTCGGGCCTGATTTGAGAGACTACGGCGTTGGTGCCCAAATTCTGAAGGATCTGGGTGTAACCAAACTCCGCCTGCTGACGAATAATCCGAAAAAAATATCCGGCCTTGGGGGCTTTGGGCTTGAAGTTGTGGAGCGGGTGGCGATCCAGATGCCTTCCCGCAAGGAAAATGAGAGCTATTTGAAAACGAAGCAGTCCAAGATGGGACACTTATTCCACTACTAG	MFDSIEKAIDVLKQGKLVIVCDDEDRENEGDLIGIAEYASTGMINFMIKHGRGLVCAPVTDEKAEALELMPMVQDNSDPNQTAFTVSVDHKETTTGISADERALTIREMLNRDSTAADFQRPGHIFPLIAKEGGVLRRAGHTEAAVDLARLAGAQPAGVICEIIKDDGTMARVPDLKEMAEAFDIPMITIADLIAYRHEKENHVSREIEVNMPTEYGEFRAVGFNNDIDFKDHIALVKGEINPDEPTLVRVHSECLTGDVFGSYRCDCGPQLHNALRQISENGSGVLLYMRQEGRGIGLMNKLKAYKLQEEGYDTVEANEKLGFGPDLRDYGVGAQILKDLGVTKLRLLTNNPKKISGLGGFGLEVVERVAIQMPSRKENESYLKTKQSKMGHLFHY	PGPT0007990_2303	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
AK012_01759	468	ribH	COG0054	6,7-dimethyl-8-ribityllumazine synthase	ATGGTTAAAACATTTGAAGGAAATCTTGTAGGAACAGGACTGAAAATTGGGATTGTAACAGGAAGGTTCAACGACTTTATTACAAGTAAGCTATATGAAGGAGCCGTAGATGCTCTCAAGCGCCACGGAGTCGATTTGAATGATGTAGAGGCCGCCTACGTGCCCGGAGCTTTTGAGATTCCCCTGGCGGCTCAGAAGATGGCGGAAACAGGGAAGTACGACGCTGTCATCACATTGGGCGCCGTCATCCGCGGATCCACACCGCACTTCGACTATGTCTGCGGCGAAGCAGCCAAGGGAGTTTCCCAGGCTTCTCAGAAGAGTGGTATCCCAGTGATCTTTGGCGTCATTACCACAGACACGATCGAACAGGCGATCGAGCGCGCGGGTACAAAAGCTGGTAATAAAGGCTGGGAGGCAGCCACAGCAGCCATTGAAATGGCAACATTGATGAACGCGTTCAAATAA	MVKTFEGNLVGTGLKIGIVTGRFNDFITSKLYEGAVDALKRHGVDLNDVEAAYVPGAFEIPLAAQKMAETGKYDAVITLGAVIRGSTPHFDYVCGEAAKGVSQASQKSGIPVIFGVITTDTIEQAIERAGTKAGNKGWEAATAAIEMATLMNAFK	PGPT0008605_3120	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
AK012_01760	1662	phrB	COG0415	Deoxyribodipyrimidine photo-lyase	GTGCAGGAAACGTTGCTGGATGGTGGAACTTCCGGAACCCTGAGGTGTATGTTCAATGAGGAGGCATGGCCGTTCGTCTTTGGGAGGGAGTGGTCCTTTGCTTCTGGAGGAGCTGGACAACACGAAAGTGGCAGAGCTCTCGGTTTTACTGGGTTTGCTCGTATGGCAGGCCCTGCCTTTGGTTCTGGTTTAAGCGAAGTAGGAAAAAGGAAGGATAAAGGGAAAGGGGGAACGGCGATGACAACAAGAGCCGTCTGGTTTAGAAAAGATTTGCGGTTGAATGATCATACAGCACTGGCTAAAGCTGTTGAACATACAAAGGAAGAAGATAGTCTAGTCTTGGTTTTTCACATCCACCCGGATTTGAACAAGTCCTTTACGATGAGGCATGATTATTATTTTCAAACGCTGCAGGACCTTGTTTCCCGTGCCGAGGATATGGAAGCGCCTGTTCATTTTATAGAAGGGGAGATCGAAGAAGCTTTTCAGTCCTTCGTAGAGGAGCTTTCCGTGGATATGGTTTATTTTAACCGGGATGAAACGGGCTTTGGTAAGAAGCGGGATGATCATATGGTGGAGTACCTGGAATCGATGGATGTAGACGTCTATCATTATATGGATCATCACCTTCATGGAGCCGAAGAAATCAAGAAGCAGGATGGCGGCCATTATAAAGTGTTTTCTCCATACTTAAAGAAATGGAAGCAGCAGCAGAAACCCGGCATTCAGCGGGTGAACCACAAGAAACTGAAAAAAGCGGCCCTGGATGAGCGTTCTTCGTTTAAAAAGGGAGAAAATGCGTACCAGACGCTGATGGAAAAAACGGAAGCTGATTTCCCCGGCGTCGGAGAAGAAGCGGCAGAGGAAAGGTTCCGTCTGTTTCTGGATGCGGCTATTTATGATTATGATGAGGAGCGGGATTTCCCGGCCGTCGATGGGACGAGTTTGATGTCCAGATATCTGCGTACCGGCGCAGTTTCCATTCGGACGCTGTATCATAGAATTCAGGACGAAGTGAACTTCAAAAAGGATACATCCGGAGTGGAAACGTATATTTCCGAGCTCGCCTGGCGGGATTTCTACAACATGATTTATTATTTCTACCCTGAATCGGACGACAAAGAGCTTGTCGAGAAATACCGGGGCATTCCATGGAATAATGATGAGGATCTTCTGGAAAAATGGAAGAAGGGGCAGACTGGTTTTCCGTTGATTGATGCAGCGATGAGACAATTGAATGAAACCGGCTGGATGCATAACCGGCTCCGCATGGCAGTTGCGTCTTTCCTGACAAAGGATTTATTGATGGACTGGCGGGAAGGGGAACGCTATTTTTCTGAGAGGCTGGTGGACTATGACCCTGCCTCGAATATCGGCGGCTGGCAGTGGGCAGCTTCTACAGGAACGGACCCCGTCCCTTATTTCCGCGTGTTTAATCCAGTGAGGCAGTCCGAGCGCTTTGATCCTCACGGCCGGTTTATCAAGGAATGGGTGCCGGAACTTGAAGATGTGAGTAAGAAGTACATCCACGAACCTTCAAAGATGACGGAGAACGAACAGGAAAAAGCAGGATGCCTGATCGGCGAAGATTATCCGGAGCCCGTGGTGGACCATAAAAAAATGCGGAAGCGGGCGATTGAAGTTTTTAAAGACAAAACATAA	MQETLLDGGTSGTLRCMFNEEAWPFVFGREWSFASGGAGQHESGRALGFTGFARMAGPAFGSGLSEVGKRKDKGKGGTAMTTRAVWFRKDLRLNDHTALAKAVEHTKEEDSLVLVFHIHPDLNKSFTMRHDYYFQTLQDLVSRAEDMEAPVHFIEGEIEEAFQSFVEELSVDMVYFNRDETGFGKKRDDHMVEYLESMDVDVYHYMDHHLHGAEEIKKQDGGHYKVFSPYLKKWKQQQKPGIQRVNHKKLKKAALDERSSFKKGENAYQTLMEKTEADFPGVGEEAAEERFRLFLDAAIYDYDEERDFPAVDGTSLMSRYLRTGAVSIRTLYHRIQDEVNFKKDTSGVETYISELAWRDFYNMIYYFYPESDDKELVEKYRGIPWNNDEDLLEKWKKGQTGFPLIDAAMRQLNETGWMHNRLRMAVASFLTKDLLMDWREGERYFSERLVDYDPASNIGGWQWAASTGTDPVPYFRVFNPVRQSERFDPHGRFIKEWVPELEDVSKKYIHEPSKMTENEQEKAGCLIGEDYPEPVVDHKKMRKRAIEVFKDKT				NA	NA	NA	NA	NA
AK012_01761	1260			Aminopeptidase 2	ATGACAATAAAGCGAAATGATTTAGAGAAGTATGCAGATCTGGCTTTAAAAAACGGTGTAAACCTGCAGCGCAGGCAGGGTCTGATTATCAATGCGCCTATTGAAGCTGCCGATTTCGTCCGGATCGTAACCGCAAAGGCCTACGGGATGGGGGCGAAAAACGTTCATGTCGAATGGAACGACGAAATGCTCAGCTATATGAAAATGAAGCATGCCCCGATGGACGTCCTCAAGGATTTTCCTAAATGGAAAGCGGAAGGTCTTGAAGAAATGGTGGCGGATGGGTATGGGCTGTTAACCATTTACGGCCCGGACCCGGATTTATTGAAGAATGTAGATCAGGAACGGGTGGCTGCGGCCACGAAAGCGAGTGGCGAGGCTCTTTCCGGATACAGGGATTATTTGATGAATGATAAGACGACCTGGACCATTGTTGCCTATCCGCAGAAAGCCTGGGCGCAGAAGGTATTTCCGGATGCTTCTCCGGAAGAAGCGCAGGAAAAGTTGTGGCAGGAGATTTTCAGAATTACACGGGTGGACAAGGAAGATCCCGTTCAGGCATGGGAGGAGCACAATGCAGTGCTTCGCCGGGCAAGGGAATATCTGAATCAGAAGCAGTATAAAAAACTCCATTATTCCGGCCCGGGAACGAAGCTGACGATTGAACTTGTTTCCGATCACATCTGGCACGGAGGAGCGGCTGAATCAGAGAAAGGACGGCCGTTCAACCCCAATATCCCAACCGAAGAAGTCTTTACTATGCCTCACAAGTACGGAGTGGACGGGAAAGTGTCCAGCACGAAGCCGTTGAGTTATGCCGGGAATCTGATCGAGAACTTCACCTTAACCTTCAAGGATGGAAAAGTGGTGGACTATGCGGCGGAGTCCGGTGAGGAGACGTTAAAGCATCTGATTGAATCGGATAACGGCTCGGCCCGGCTTGGAGAAGTCGCCCTCGTACCGCACGCATCCCCTGTTTCGCAGTCCGGCCATATTTTCTTCAATACCTTATATGATGAAAATGCGTCCTGTCATTTAGCTCTAGGAAAAGCGTATCCGACGAATATTAAAGGTGGTTCGTCCTTCAACAAGGAGCAGATGGAGTCACACGGAGTGAATGACAGTCTCGTCCATGAAGACTTCATGATGGGATCGGGCGAATTGAATATTGATGGTGAAACGAAGGAAGGCCTCTACGAACCCATCTTCCGAAACGGCATGTGGGCCGTGGATTTTGAGAAGACCGAAGAGACACCCTGA	MTIKRNDLEKYADLALKNGVNLQRRQGLIINAPIEAADFVRIVTAKAYGMGAKNVHVEWNDEMLSYMKMKHAPMDVLKDFPKWKAEGLEEMVADGYGLLTIYGPDPDLLKNVDQERVAAATKASGEALSGYRDYLMNDKTTWTIVAYPQKAWAQKVFPDASPEEAQEKLWQEIFRITRVDKEDPVQAWEEHNAVLRRAREYLNQKQYKKLHYSGPGTKLTIELVSDHIWHGGAAESEKGRPFNPNIPTEEVFTMPHKYGVDGKVSSTKPLSYAGNLIENFTLTFKDGKVVDYAAESGEETLKHLIESDNGSARLGEVALVPHASPVSQSGHIFFNTLYDENASCHLALGKAYPTNIKGGSSFNKEQMESHGVNDSLVHEDFMMGSGELNIDGETKEGLYEPIFRNGMWAVDFEKTEETP	PGPT0020940_493	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020940-pepS|ampP|ampT-K19689	NA	NA
AK012_01762	1017			hypothetical protein	ATGAAGCGTGATGCTTTTTTTGATAATGCCAAAGTTGTTCTTATCTTCCTCGTCGTTTTCGGTCATATGATTCAGCCGTTTACGGATGGTTCTAAACCGATGTACACCCTTTATACGTGGATATATACGTTTCATATGCCGGCGTTCATTTTCCTTGCCGGGTTCTTTGCTAAAGGATCGGGGGAGAAAGATTATCTGATTCAGCTGGCTAAAAAACTGATTCTGCCTTACTTGATTTTTCAACTCGTCTATACCGGGTATTACTTCTTCATCGGGAAGGGAGAAGGATTTGACGGAATCTTTTATCCGCACTGGTCGTTATGGTTCCTGTTCAGTTTGTTCTGCTGGCACATTCTGTTGTACTGGTTTAAGAAAATCCCGCCGATGCTCGGCGTCGCCATCGCTGTGCAGATCGGTGTGCTCGTCGGATATTTTACGGATATCGGACATCACTTCAGTTTGTCCCGCACATTCGTTTTCTTCCCGTTTTTCCTGGCCGGCTACTGGCTGACGAAGGAGCATGTGCATAAGTGGAGAACACGGCGTGTCCGGGAAATCAGTATGGTCATTATGGCTGCTGCAGCAGGTGTGATTGCCGTACTCCCTGAAATCAACTCCGGCTGGCTGCTCGGATCCAAATCCTATGAAGTTCTCGGCAGTCCGGAAATGGGAGGATTGTTCCGGCTGGCTGTGTATGCTCTTGCCGGCATTATGGTCGTCAGTGTGCTTTCCTGGATTCCAAATACCCAGTACAAGATCACGTACCTTGGCGGGAAAACCTTGTATGTGTACCTGCTGCACGGCTTTTTCATCCAGTTCTTCCGTCAGGCGGACTTGTTCAAAGTCGATAACCTGTTTGACGTCATCGGACTGGCCATCATCTCAGCAGCCATCGTCTACCTGTTATCAAGCAGCCTGATCCGCACGCTGACCCAGCCTTTCATCGAAGGGCGCATTCAGCTGATCAAACGCTGGTGGCAGCGGACCTTTGATAAAGATTCGACGCTTCAATCATAA	MKRDAFFDNAKVVLIFLVVFGHMIQPFTDGSKPMYTLYTWIYTFHMPAFIFLAGFFAKGSGEKDYLIQLAKKLILPYLIFQLVYTGYYFFIGKGEGFDGIFYPHWSLWFLFSLFCWHILLYWFKKIPPMLGVAIAVQIGVLVGYFTDIGHHFSLSRTFVFFPFFLAGYWLTKEHVHKWRTRRVREISMVIMAAAAGVIAVLPEINSGWLLGSKSYEVLGSPEMGGLFRLAVYALAGIMVVSVLSWIPNTQYKITYLGGKTLYVYLLHGFFIQFFRQADLFKVDNLFDVIGLAIISAAIVYLLSSSLIRTLTQPFIEGRIQLIKRWWQRTFDKDSTLQS				NA	NA	NA	NA	NA
AK012_01763	663	hchA_1		Protein/nucleic acid deglycase HchA	ATGTCTAAAAAAATCTTGATGATTGTGACGAATGCTGCCCGCATGGATGGGCATGAAACGGGTTTGTGGCTGTCTGAGTTTGTGGAGCCTTCGGTGGAGTTCGGGGAGGCCGGATATGAGGTGACAGCTGCCAGTCCACGTGGAGGGCGTCCGCCCATTGACGAAAACAGTTACAGCAATCAGCTTCCTGAGGTGTGGGACGGGGTGATGGAACCGATCAGCCGGACGGTGGCGCTGGGGGAAGTGGATCCTACATCGTATGCCGCCATCTTTTTATGCGGCGGACACGGGACCATGGTTGATTTTCCCGAAAATGACCAGCTGGCCGAGCTGCTCCGCCATTTTCTTACGGAAGGAAAGGTGATCGCTTCTGTCTGCCACGGGCCGGCGGGCTTTATTGGTGTGACGGATCACAACCAGCAGCCCTTCGTAAATGGTAAAAAGCTGACAGGGTTTTCAAATGAAGAGGAAACGCTGACTGGCTTGGAGGGACATGTACCTTTTTCACTGGAGGATCGGTTGATAGAAGAAGGAGCGGAATTCAAGAGAGGAGAGCCGGATGAAAGCCACGTCGTGGTCGACTTTCCATTTGTGACTGGTCAAAATCCTTCGTCCAGTCTCGAAACCGCCCAAAAGGTACTGGAACAATTAAAAGACCGCTGA	MSKKILMIVTNAARMDGHETGLWLSEFVEPSVEFGEAGYEVTAASPRGGRPPIDENSYSNQLPEVWDGVMEPISRTVALGEVDPTSYAAIFLCGGHGTMVDFPENDQLAELLRHFLTEGKVIASVCHGPAGFIGVTDHNQQPFVNGKKLTGFSNEEETLTGLEGHVPFSLEDRLIEEGAEFKRGEPDESHVVVDFPFVTGQNPSSSLETAQKVLEQLKDR	PGPT0027880_2	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027880-tetB-K08168	NA	NA
AK012_01764	1350			hypothetical protein	ATGAAAGCGAAAGATTTTAAAACTTCTTCGCATCTGCGTTTTATCATACCGTCTTTAATCGGTATTTTCTTATTCATGTTCCCCATCATTGGTGATGACGGAGCCGTCACTATTCCGATTGCTGTATTGGCAGGAGAAGTAGAGGAACGACTTGCCGGCTCCCTGTCTTTAATCATGACCATCATTATTACGATTACGGCGATTGCCACTGTATCCGCTAAGCTGCTGGGATCGGATGGATCCAAATTTCCGTTTTTCCATTCCTTATTTAATGTACCCGCGGTATGGGTCGTTACCCGTGTGCTGGGGATGATTTTTGCCATTATGGTTTACTTCCAGATCGGACCGGAGGCAGTCATTTCCGCAAATACAGGCGGGCTGCTGCTGGATTCCCTGCTGCACGTCCTGTTTGCCGTCTTTTTATTTGCAGGACTCTTCCTTCCACTGCTGCTGAATTACGGGCTGTTGGAATTGTTCGGCGTGATTCTTACGAAAATCATGCGCCCGCTTTTCCGTCTGCCGGGGCGTTCTTCCATCGATTCCCTCGCCTCCTGGCTTGGGGACGGGACGATCGGTGTCCTGCTGACGAGTAAGCAGTATGAAGAAGGATACTACACGAAAAGAGAAGCAGCGGTGATCGGAACCACCTTCTCCATCGTTTCTATCACCTTCAGTCTTGTCGTGATCCAGGAAGTCGGACTCGGTCATATGTTTGTGCCGTTTTACCTCACTGTGGCCCTTGCCGGGTTTGTCGCAGCATTAATTATGCCGCGGATCCCACCGCTGTCCAGAAAGCCGGACACTTATGTGACCGATGAAGCCGAAGGACAGAGCGAAGATATCCCCGAAGACCATAATGTGTTTACCTACGGATATACAAGAGCCGTTGAGCGCGGAAGCAAGTCCATTGGACCCGGGGGCTTTATGAAGCAGGGAGCTCAAAACATCCTTGATATGTGGATGGGGGTGGCTCCGATCGTTATGGCTCTGGGAACCATCGCTCTGATCATTGCGGAATTCACGCCTTTCTTCACATGGATTGGTATGCCGTTCATTCCGCTTCTTGAGCTGATGCAGGTCCCTTACGCAGCGGAAGCCTCTGAAACCATTCTTGTAGGCTTTGCGGACATGTTCCTGCCTGCTATTATTGGTGCGTCCATTGAGAGCGAGATGACACGGTTCATCATTGCCGCCCTTTCTGTGACGCAGTTGATTTACATGTCGGAAGTCGGTGGACTGCTTCTTGGTTCCAAAGTTCCGGTTAACCTGAAAGACCTGTTCATCATCTTCCTTGAACGTACCATTATTACACTTCCAGTCATTACACTGGTTGCTCATCTTCTATTTTAA	MKAKDFKTSSHLRFIIPSLIGIFLFMFPIIGDDGAVTIPIAVLAGEVEERLAGSLSLIMTIIITITAIATVSAKLLGSDGSKFPFFHSLFNVPAVWVVTRVLGMIFAIMVYFQIGPEAVISANTGGLLLDSLLHVLFAVFLFAGLFLPLLLNYGLLELFGVILTKIMRPLFRLPGRSSIDSLASWLGDGTIGVLLTSKQYEEGYYTKREAAVIGTTFSIVSITFSLVVIQEVGLGHMFVPFYLTVALAGFVAALIMPRIPPLSRKPDTYVTDEAEGQSEDIPEDHNVFTYGYTRAVERGSKSIGPGGFMKQGAQNILDMWMGVAPIVMALGTIALIIAEFTPFFTWIGMPFIPLLELMQVPYAAEASETILVGFADMFLPAIIGASIESEMTRFIIAALSVTQLIYMSEVGGLLLGSKVPVNLKDLFIIFLERTIITLPVITLVAHLLF				NA	NA	NA	NA	NA
AK012_01765	969			hypothetical protein	ATGCAGGAATTTGCCAAGCCGAAAGTCGTCGTGAGCCGTTGCCTGGAATTTGCAGAGGTCCGGTATAACGGGGCGGTTATACCAGATAAAGCGGTAGAACGTATGAAAGCTCATGTTGAGTTCATCCCTGTCTGTCCGGAAGTGGAGATAGGACTGGGGGTGCCGAGGGATGTAATCCGCATCGTGGATGGAACGGAAAGACGTCTTGTTCAGCCGAAGACAGGGGAGGATCTTACTGAAAAAATGACTGGTTTTTCCAAGTCTTTTCTCAATCATCTTGGTGAAGTGGACGGATTTCTCTTAAAGAACCGTTCTCCTACGTGCGGCATGCACGATGTGAAGGTGTATCACAGTGCAGAGAACTCCCAGGTGACGGGAAAGACATCCGGATTGTTTGCTTCAGAAGTACTCCAGCGTCACAGTGGACTGGCTGTGGAAGAGGAAGGGCGGTTGAAGAATTTCACGCTGCGCCATCATTTTTTGACGAAATTGTTTACGCTGGCTTCCTTCCGGGAGATGAAAAAGGAAAGACAGATGAAGGCGCTGCAGCAGTTCCACGCCCGTCATAAATATTTGTTCATGGCCTACCACCCAGGCCTGTTGAAGAAAATGGGACAGACTACCGCCAATCATGCCCATCACGACATCGATGAGGTGCTGGACGCCTACGAACGCCATCTGCATGAACTGATGCAGGAGCCTGCAAAAGCGAGTGCCCACATAAATGTCTGCCAGCACATCGCCGGCTACTTTAAAAAGCAGCTGACGAGTGAAGAAAAGCAGAGTTTTGCTGATCTTCTTCAACAATATAAGGAAGAAAAAGTTCCGTTAAGTGCTGTGATCAGTGTACTGCGCTCCTGGACAGCCCGTTTTCAAAGCGGGTATTTGAAGCAGCAGAGTTATTTTCAACCCTATCCGGTGGATCTGTTGGAAATATCAGACTCAGGAAAGGGAAGAGCCTATTCCTGA	MQEFAKPKVVVSRCLEFAEVRYNGAVIPDKAVERMKAHVEFIPVCPEVEIGLGVPRDVIRIVDGTERRLVQPKTGEDLTEKMTGFSKSFLNHLGEVDGFLLKNRSPTCGMHDVKVYHSAENSQVTGKTSGLFASEVLQRHSGLAVEEEGRLKNFTLRHHFLTKLFTLASFREMKKERQMKALQQFHARHKYLFMAYHPGLLKKMGQTTANHAHHDIDEVLDAYERHLHELMQEPAKASAHINVCQHIAGYFKKQLTSEEKQSFADLLQQYKEEKVPLSAVISVLRSWTARFQSGYLKQQSYFQPYPVDLLEISDSGKGRAYS				NA	NA	NA	NA	NA
AK012_01766	864			putative ketoamine kinase	ATGGAAATCATCCAAAAAACCCTGAGCAGAATCGGAGATGACAGTGAGATTCAGAAACAGACCGCGGTCAGCGGTGGAGATATCAACCAGGCTTTTTATGTACAGACACAGAGGCAGGAATACTTTATGAAAACAAATGCAGGTGTCCCTTCTCACTTTTTCCGGGTAGAGGCCGAGGGACTACAGGCGATTCAACAGACAGGAACCATCCGTGTCCCGGAGGTCTATCATTATGATCAGCCTGAAGACGGTGAGCCTGCTGCGCTGCTTATGGAATGGATCCATTCCGGAAGCATGAACGATCATGCAGCGCTCGGCAGCCAGCTTGCGCACATGCACAGTCATACGAATGCATCTTATGGATACGGCACTCCGACGTTTGTCGGCCAGCTCGATCAACCGAATACATGGGTCCCTTCCTGGGTGGACTACTACCGCACCTGCCGGCTGGGAGCACAGCTTGATATCGGTATATCCAAAAACCGTCTGACCTCCAAAAGACGCTCACGCCTGGAAGCATTGATGGACAAACTCGATCAATACCTTCCCGCCCATCCTAAAGCCTCTCTGCTCCACGGCGATTTATGGGCCGGCAATTACATGATGGATGAACAGGGACGGCCGGTATTGATTGACCCTTCCATTCTATACGGCGACCATGCTTTCGAGCTGGCATTTACAGAAGTCTTCGGCGGCTTTCCTACTGATTTTCACGAGCATTATCAGGAGGTCTTTCCCCTTCCGGACCATTATGAGGAAACCAAAGCTCTATACCAGCTGTTTTATCTGCTGGCCCACCTCAATATGTTCGGAGAAAGTTACGGACCACCCGTAGACCGTATTCTCAAACACTATACAGGCTGA	MEIIQKTLSRIGDDSEIQKQTAVSGGDINQAFYVQTQRQEYFMKTNAGVPSHFFRVEAEGLQAIQQTGTIRVPEVYHYDQPEDGEPAALLMEWIHSGSMNDHAALGSQLAHMHSHTNASYGYGTPTFVGQLDQPNTWVPSWVDYYRTCRLGAQLDIGISKNRLTSKRRSRLEALMDKLDQYLPAHPKASLLHGDLWAGNYMMDEQGRPVLIDPSILYGDHAFELAFTEVFGGFPTDFHEHYQEVFPLPDHYEETKALYQLFYLLAHLNMFGESYGPPVDRILKHYTG				NA	NA	NA	NA	NA
AK012_01767	900	mshD		Mycothiol acetyltransferase	ATGATTCAGATTCGCGAACTGGAAGTCAGGGAACTACATAAAGCAGCGGAGTGGCTGTATCAGATGAACGGCCAGGACCGGCATTATGTGGCCTGGATGGCTTCTGAGAAAAATGAAATCTTCGAGCAGATCTGGACGTTAACCCAGTTCACAGAACCCCTGGCCTATGTCGCCTGGGAAGGTTCGGAGATTGTAGGGTTCTTAGGCATCGTTCCGTTTTTTGAGCAGAAATTCTGCCGCCTTCTCGGACCTTTTGCCATAAAGGAAGAGTCCGATGTCATTGAGCGTTTATGGGATAAAGCCTCCTTAACGGCCCAGCTTCATTTTGACGCGGTTAAAGTAGCCTGCTACGGAGCGAATGAAGAGTTGAAGCATTTTGCTGAAAAGCATGCGTTCGAACTTTACAATGTCGAGAAAACGCTGGCCCTTTTCCAGGCCCATTACCAGGCTCCGAAGTCCGGGAAGACCCCGTCGATTTTTCAGATTCATGAAGAGGATAAAGAAAGACTGGATCGTCTCCATCCAGATGCGGCTTACTATACAACAGAAGAAATGATCGGTCTTTCCAAACAGCCGGGGAATTATATCTGGGGATATGAAAAGGAAGGGGAACTTGCCGGCTACCTTTATTTTGAAACCATTGCCGAAGGAGAAGAAGGAGAAATCTGCTTTGTAAATGTCCACCCTTCCCATCAAAGCAGCGGCATCGGAACAGATTTAATGGAACATGCTCTTCAGTATGCGTTTTATGCCCTTGACCTTCAGGCTGTAACCATCTCTGTAAGATCTATGAACGCCAAGGCCGAGCAGTTGTACAAGGATATCGGTTTTCAGGAATTACATGAGATCCACGCCTATCAGAAACTATTTACGCCGACACCGCCTGCGCCACTGCATTAA	MIQIRELEVRELHKAAEWLYQMNGQDRHYVAWMASEKNEIFEQIWTLTQFTEPLAYVAWEGSEIVGFLGIVPFFEQKFCRLLGPFAIKEESDVIERLWDKASLTAQLHFDAVKVACYGANEELKHFAEKHAFELYNVEKTLALFQAHYQAPKSGKTPSIFQIHEEDKERLDRLHPDAAYYTTEEMIGLSKQPGNYIWGYEKEGELAGYLYFETIAEGEEGEICFVNVHPSHQSSGIGTDLMEHALQYAFYALDLQAVTISVRSMNAKAEQLYKDIGFQELHEIHAYQKLFTPTPPAPLH				NA	NA	NA	NA	NA
AK012_01768	1752	ubiB		protein kinase UbiB	ATGCGCCGGGATTGTCGAATGGCAGGATTGACCGCCGGGTTTGCGGGGAAAGGTAAGGTACAGAAGCATGGAAAGGAGGCGGGTGCAGTGCAGCAGCGGTTGAAATACATAGCCATTTACCGGATTACGGTCATCGTCTGGATGTCTGTCCGTTTTCTGCTCCGCATTTTCTGGTTCGAAAAAAGACACCGGATCTGGGATGAGCAGACGAAAAGGAAATGGGAAATGATGCTGGCGGATATGGCGGAAGAGTACAGGCAGAAAGCAGTGGCCCTCGGCGGGCTGCTTATTAAATTCGGCCAGTTCCTCAGCTCCCGCGGCGATCTGCTTCCGCCCTCCTTTATTAAAGAACTGGAGGGGCTTGTCGACCGCGTGAAGCCTGTCCCGTTTTCCTATTCCAAAAAAACGATCGAGGAAGACTGGAATGCCCCGTTGGAAGACTACCTTGCATCCATGGATGAAAAAGCGGTCGCCTCCGCCTCCATTGGAGAAGTATACAAAGCCCGTCTGAAGGACGGGACACCGGTGGCGGTCAAAGTACAGCGCTACAGAGTCCGTGATACGTTCCGGATGGATTTCAAGGCGTTAAAGATCGTCTTCTGGCTTGTTGACCGGCTGACCGTTTATGGAAAAAAAGCGGATCTCCAGGCCCTTTATACGGAAGTTGTCCGTGTCATCAGCAATGAGCTCGACTTCACGATGGAGCTTCAGAACGGCCGTGCCTTTCAAAAACGTTTCCGTGATTTCGAGGATGTATATGTGCCCCACTATTATGAAGATCTTTCGACGAAGCGAGTGCTCGTCATGGAGTGGGTGGAAGGGCATAAAATCACAGATGTTTCTTTCATGGACAGGCATGGAATCGACCGGAGCCGTATTGCTTATACGTTGTTTGAACTGTGTATCGAACAATTTTTATATGCCGGAATGTTCCACTCTGATCCCCACCCGGGGAACTTAATGATTAAAGAGGACGGAACCGTCGTCGTCCTGGACTTCGGTATGGTGGGGGAAATCAAGAAAGAGGATGCGGATTCCATCCGCAAAATGATCCAGGGTTTCATTCTGGATGACTATGACCGGGTGATTGAAGCGTTACAGGACATGGACTTTCTCCTGCCGGAAGCAGATACTGAAAAAGTGAAAAAGCTGTTGAAACAGACTACGGACATGTACCTGGAAGGGAACTTTGACAAGCTGGACGCACATATGATGAATGACATGCTGGAAGATCTGCAGCAGTTTGTCAAAGAACAGCCGATCCAGCTGCCTGCCGACTATGCTTTTCTTGGACGTGCGGCATCCATCGTTGTAGGAGTGCTGAGCACGGTCTATCCTCAAGTGGATTTGATCGCCTGGGGACGTCCGGTCATCAAGGAATGGGTATCCGGAAAGGATTCCACCTCGTCCCTTTACACAGATGTGTTAAAAGAGACGGCGAGGCCGCTTCTCTCTCTTCCTCGTGCCCTTGTTGAATATTTGGAGGATGGGGATAAAGAGAGGGAATGGAAGACGACCCGGCAGAAGAATCAGTTGTTCCATCAGTATTATCTATTCATGACTCTGCTTTCCTTCATCCTCATGATGATTGGAGGCGCTGCTTTCTTTTATACAGGCATCACGGAAGTACTGCCGAGCTGGTGGATTGGCGGCATCATCTTCGGGACGGGGGCTGCCGGGTTTATGATCAGTTCCATCAATCATGTGAACATGCTGCGGAAGCTCAATCATAATAGGAGGAATAGAAAATGA	MRRDCRMAGLTAGFAGKGKVQKHGKEAGAVQQRLKYIAIYRITVIVWMSVRFLLRIFWFEKRHRIWDEQTKRKWEMMLADMAEEYRQKAVALGGLLIKFGQFLSSRGDLLPPSFIKELEGLVDRVKPVPFSYSKKTIEEDWNAPLEDYLASMDEKAVASASIGEVYKARLKDGTPVAVKVQRYRVRDTFRMDFKALKIVFWLVDRLTVYGKKADLQALYTEVVRVISNELDFTMELQNGRAFQKRFRDFEDVYVPHYYEDLSTKRVLVMEWVEGHKITDVSFMDRHGIDRSRIAYTLFELCIEQFLYAGMFHSDPHPGNLMIKEDGTVVVLDFGMVGEIKKEDADSIRKMIQGFILDDYDRVIEALQDMDFLLPEADTEKVKKLLKQTTDMYLEGNFDKLDAHMMNDMLEDLQQFVKEQPIQLPADYAFLGRAASIVVGVLSTVYPQVDLIAWGRPVIKEWVSGKDSTSSLYTDVLKETARPLLSLPRALVEYLEDGDKEREWKTTRQKNQLFHQYYLFMTLLSFILMMIGGAAFFYTGITEVLPSWWIGGIIFGTGAAGFMISSINHVNMLRKLNHNRRNRK				NA	NA	NA	NA	NA
AK012_01769	309			hypothetical protein	ATGAATGACTTGCTGAAAAAAGGTTTTCATTTAGGTCTCGGAGCCGCTGTCAGTGGAAAAGAAAAATTCGAAAAGCTCGTGAATGATATGGTGAGGCGGGGGGAAATCAGTCCTTCGCAGGCGAAGAGTGTGGTGAATGAGCGGATGCAGGCATGGATGGCCAAAGGTCAGTCGAAGGATCAGGAGTGGAATGAGCAGATGAAGGCGAAATTCCAGGATCAAATGAATGAACTTGGATTCGTTTCCCGTGAGGAATATGAAAAACTGGAAGCGCGGATTCAGCGTCTTGAAAACGAACGCGGATACTAA	MNDLLKKGFHLGLGAAVSGKEKFEKLVNDMVRRGEISPSQAKSVVNERMQAWMAKGQSKDQEWNEQMKAKFQDQMNELGFVSREEYEKLEARIQRLENERGY				NA	NA	NA	NA	NA
AK012_01770	1338			hypothetical protein	ATGGTAAGAGAAAAGTGGGGGACGAAGCTTGGTTTTATGCTGGCAGCCATGGGTTCCGCTGTTGGGCTGGGGAATATTTGGAGGTTCTCCTTTGTAGCAGGAAACAGTGGTGGAGGAGCCTTTCTGCTGTTGTACCTGACCTTCGTCATTTTACTGGGGGTCCCGCTGCTTCTTGCTGAAGTGAGTATTGGTCGAAAAGCAGAGAGTGATGTTGTCGGGTCCTTCAAGAAGCTGGCACCAAACACACCGTGGTATTTAACCGGGTTTTTCGGTATTGCCAGTTCCTTCTTAATCTTGAGTTTTTACGCCGTGGTAGCCGGCTGGGCGATCTTTTATTTCTGGAATTATTTAAATGGGTCTTACTTTTCGTCACCGGAAGTCGGCTACGAAGGGGCATTCGGTCAGTTTATCAGTCATTCGTGGCATCCAATTGCCTGGACAGCCCTGTTTATGATCCTCACCATCATCATCGTGTTGAGTGGGGTGAAAAAGGGGATTGAAGCAGCCAACAAAATCTTTATGCCGCTGCTTGCCCTCATCTTGATTGGATTGGCATTTTTCAGCTTATCCCTGGACGGTGCATCAGAAGGGGTGAAGTTCCTGTTTCAGCCGGACTGGACTGCTTTAAGTGATCCGTCCATTTACATCGCTGCCCTCGGGCAGGCGTTTTTCTCATTGAGCCTGGGGATGGGAGCTATGCTCACGTACGGAAGCTATTTGAGGAAAGAAAACAAACTGCCAAGTGCCGCTCTTGGGATCGGGATTATGGATACCTTCTTTGCAGTTATATCCGGCCTCGTCATTTTTCCGGCTGTTTTTGCCTTCGGTATCGACCCAAGCTCAGGACCGCCGCTTGTATTCATTACACTGCCAAGCATCTTTGAGCAGATGCCGATGGGTGGAATCGTAGGGCTTGTCTTCTTCTTCGCCCTGATTCTTGCTTCCTTGTCTTCTTCTGTTTCCATACTGGAAGTGCCGACAGCCTACTTTATGAGAATTCTGGGATGGACCCGGTTTGCCACGAGTGTTGTCATGGGAGCGATCATGTTTGTTATGGGGATCGGGGTTTCTCTCGGCTTCGGAATCTGGTCAGGCGTCACACCGATCGGGGATTTGAACATTCTGGATTCCATGGATTACATTGCATCCAACATTCTTCTGCCGCTGGGCGGTCTTTCCATGGCGCTGTTGATCGGGTGGTATTTCTCTAAATCGGAAGCCCTGGAAGCTACAGATTTCACAGGATCCGGTATCGGACAAGTCTGGTACTACCTCGTGAAGTTCGTCGCACCGGTCATGATCATCCTGATTTTCCTAAACAAATTAGGGGTTATTTGA	MVREKWGTKLGFMLAAMGSAVGLGNIWRFSFVAGNSGGGAFLLLYLTFVILLGVPLLLAEVSIGRKAESDVVGSFKKLAPNTPWYLTGFFGIASSFLILSFYAVVAGWAIFYFWNYLNGSYFSSPEVGYEGAFGQFISHSWHPIAWTALFMILTIIIVLSGVKKGIEAANKIFMPLLALILIGLAFFSLSLDGASEGVKFLFQPDWTALSDPSIYIAALGQAFFSLSLGMGAMLTYGSYLRKENKLPSAALGIGIMDTFFAVISGLVIFPAVFAFGIDPSSGPPLVFITLPSIFEQMPMGGIVGLVFFFALILASLSSSVSILEVPTAYFMRILGWTRFATSVVMGAIMFVMGIGVSLGFGIWSGVTPIGDLNILDSMDYIASNILLPLGGLSMALLIGWYFSKSEALEATDFTGSGIGQVWYYLVKFVAPVMIILIFLNKLGVI	PGPT0013950_2583	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
AK012_01771	294			hypothetical protein	ATGGCAGTAACCAATCACAGCGTTTTAAAAAGAATGGCCAATGAAATACAGGAAGCGATGCTTCAGCATGGAAACGAACAGAGAGTGAGGGAGCATGTCCGTTCTGTGAAGCTTCTGGCTGAGCTTCTGCTGGAGGAAGATGCCCAGGGAGGGCGCCCGGAGCCTTCGGTCAATGAACCAACCGCAGAGGAAATCCGGAAAATGATGGGGGCGGATAAAGCGCCGGCGAAACAGTCCCAGCCGGATACAGTGGATCATGAAGAGGCCAACGGGCCGTCTATATTTGATTTCTAG	MAVTNHSVLKRMANEIQEAMLQHGNEQRVREHVRSVKLLAELLLEEDAQGGRPEPSVNEPTAEEIRKMMGADKAPAKQSQPDTVDHEEANGPSIFDF				NA	NA	NA	NA	NA
AK012_01772	369			hypothetical protein	ATGAAATTTTTACTGATCGCCGCAGTTATCAATGGTTTTTTGTCTGTAGCCCTTGGAGCCTTTGGAGCCCACGGTCTGGAAGGGAAAGTTTCTGAAAAAGGCCTGGACCAGTGGGGGAAAGCCGTGGATTATCAAATGTTCCATACGATGGCGTTGTTTGGAACGGCCTTGTTGATGGGCAGAATCCAGGCCGGAATGATGACCGGCGCCGGGTGGTTTTTCCTGATTGGTATCCTCTTGTTTTCCGGCAGCCTCTACATTTATGCCGTTACGGAAATCAAGACATTTGCCATGATCACACCTCTGGGCGGTTTGTCATTCTTAATCGGATGGATTCTGCTTGGATATGCCATCATCAAGCATCTGTAA	MKFLLIAAVINGFLSVALGAFGAHGLEGKVSEKGLDQWGKAVDYQMFHTMALFGTALLMGRIQAGMMTGAGWFFLIGILLFSGSLYIYAVTEIKTFAMITPLGGLSFLIGWILLGYAIIKHL				NA	NA	NA	NA	NA
AK012_01773	249			hypothetical protein	ATGAGACCTCCTTATGAGAACTACCAGCGGGCCTTGCTGGGAACCCTCCTTCTTGCGGTCGTCCTGGCGGTCCTGGCCTTATTTCAGCTGGAACATCAATGGCTCGTTCTTCTTTTATTCTATGTCCTGACGGCCGGCTTTGTTTTAGAGGGGCTCGTAGCCATGAAAAAGCAGCTGCAGATCGACATGATCATCCAGCTGCTGCGCGCCTTTATCATTTTTGTATTTGCAACCATTCTTTATTTCTGA	MRPPYENYQRALLGTLLLAVVLAVLALFQLEHQWLVLLLFYVLTAGFVLEGLVAMKKQLQIDMIIQLLRAFIIFVFATILYF				NA	NA	NA	NA	NA
AK012_01774	504			hypothetical protein	TTGGCACAAAAACCACAATCCGGAGGCCAGGGACAGCCGATGTACGGGCAGATGTCCTCCCCCTATTATGGTCAGAACCCTTATATGTACCAATATCCAAGTGCCCCTTTTCCCAACCAGGGAATGCCTCAGGGGCAGCAGGGAGGCAGCCTCCAGGTTCCACCTATGCAGCAGGGAAGTTTCAAAGGAGGGGTGAACCCGCCGAACATGCTCCCTTCTGAGGAATCCTACATTGAAAATATTCTCAGACTCAATGCCGGTAAACCAGCTACTGTATACATGACCTTTGAAAATAACGATCAATGGAATGCGAAAATTTTCAAAGGGGTCATTGAAGCGGCTGGAAGGGATCATATTATTTTAAGCGATCCACAGACAGGGAAGCGCTACCTCCTATTGATGGTCTACCTCGATTACATTACATTCGACGAAGAAATCAACTACAACTACCCATTCGGATCAGGATCCAGTCAGGGCATGGCCAACTACCAGTCCCGCCCTTAA	MAQKPQSGGQGQPMYGQMSSPYYGQNPYMYQYPSAPFPNQGMPQGQQGGSLQVPPMQQGSFKGGVNPPNMLPSEESYIENILRLNAGKPATVYMTFENNDQWNAKIFKGVIEAAGRDHIILSDPQTGKRYLLLMVYLDYITFDEEINYNYPFGSGSSQGMANYQSRP	PGPT0025095_142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025095-gerQ-K06305	NA	NA
AK012_01775	450	cwlJ_2	COG3773	Cell wall hydrolase CwlJ	ATGCCTTTCGTAAAGCGAGGTGACAGCGTGGCTGTTATTCCTTCTACTGAAGCTGACGTGAAGTTACTGGCGAGGCTGATGCGGGCAGAAGCTGAAGGTGATGGGGAACTGGGAATGCTGATGGTTGGGAACACGGGCGTCAACCGTGTGCGCGGAGACTGTATTGATTTCACTGATATCAACACCATCCGTGATATGGTCTATCAAAGCCCGGGAGGATTTGAGGCTACCCAGAAGGGCTACTTTTACCAGCGGGCAAGAGAAAAGGATATCCGTCTGGCAAGAAAAACGATCAAAGGGACGCGCTACCACCCGGCCTCCAACTCCCTCTGGTTTTTCAAGCCTTCAGGTGACTGCCCTGAACAATGGTTCGGACAGTGGAATACAGGGCGCTATAAATCGCACTGCTTCTACTCTCCGACCCGGTCCGACTGTCCAAGTGTGTATTAA	MPFVKRGDSVAVIPSTEADVKLLARLMRAEAEGDGELGMLMVGNTGVNRVRGDCIDFTDINTIRDMVYQSPGGFEATQKGYFYQRAREKDIRLARKTIKGTRYHPASNSLWFFKPSGDCPEQWFGQWNTGRYKSHCFYSPTRSDCPSVY				NA	NA	NA	NA	NA
AK012_01776	738		COG3253	Putative heme-dependent peroxidase	ATGCCAGAAGCAGTAGTAACGATGGATGGATGGTATTGCCTTCATGATTTCCGCACATTGGACTGGACAGCCTGGAAGTACGCCTCCGAGGAGGAGCGTGGACAGGCCATCTCAGAGTTCCGTGAGTTGATCGGACAATGGGAGGAAACAGAAGAAAATAAGGAAGGCAGCCATGCCCTCTACACAATCGTCGGTCAGAAAGCTGATTTTATGATGATGATTCTCCGCCCGACGATGGAAGAATTAAACGAAATTGAAACAGCCTTCAATAAAACGAAACTGGCTGAGTTCACCACTCCAGCCTATTCCTACGTTTCTGTTGTCGAGCTCTCCAACTATATGGGAAGCGCCAATGAAGAAGACCCGGAAATCCAGGCCCGCCTTCGTCCGAAGCTTCCGAAGTGGAACCATATCTGCTTCTATCCGATGGATAAGCGCAGACAAGGAAACGACAACTGGTACGTTCTTGAAAAAGATGAGCGCGCCAAGCTGATGTATGCCCACGGTATGACCGGCAGACAGTATGCCGGCAAGATCCGTCAGATCATCACCGGATCCATCGGTTTTGATGACTGGGAGTGGGGCGTTACCTTGTTCGCTCACGATGTCCTTCAATTCAAGAAACTCGTGTATGAAATGAGGTTCGATGAAGTGACATCCCGCTACGGCGATTTCGGCTCTTTCTATATCGGAAACATTTTGAAGCCTGAAGCTGTAGATCAATTCCTTCAAATCTAA	MPEAVVTMDGWYCLHDFRTLDWTAWKYASEEERGQAISEFRELIGQWEETEENKEGSHALYTIVGQKADFMMMILRPTMEELNEIETAFNKTKLAEFTTPAYSYVSVVELSNYMGSANEEDPEIQARLRPKLPKWNHICFYPMDKRRQGNDNWYVLEKDERAKLMYAHGMTGRQYAGKIRQIITGSIGFDDWEWGVTLFAHDVLQFKKLVYEMRFDEVTSRYGDFGSFYIGNILKPEAVDQFLQI	PGPT0008490_402	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0008490-hemQ-K00435	NA	NA
AK012_01777	972	pta_2	COG0280	Phosphate acetyltransferase	ATGAGTAACCTATTTGATACTATGAAAGCGAAAATTGATGGAAAAGGTACGAAAATCGTACTTCCGGAAGCGATGGACGAGCGTATTCTGACAGCTGCCGGCCAATTAACTGCGGATGGTATGGTGACACCTGTACTAGTCGGAGATAAAGAAAAAGTAGAACAGAAAGCGAAAGATTTGGGTGTGGACATTTCCGGAGCTGAAGTGTTGAACCCGGCAGACTACCCTGAATATGATGACATGGTAGCGAGCTTCGTCGAACGCCGTAAAGGCAAGGCGACAGAGGAAAAAGCCCGTGAAATCCTTCAGGACGAAAACTACTTTGGTACAATGCTTGTTTATATGGGCAAAGCGGATGGTCTTGTGAGCGGCGCGGCTCATTCCACAGCGGATACGGTACGCCCAGCTCTTCAAATCATCAAAACGAAGCCGGGTATTAAGAAAACCTCAGGTGTCTTCGTCATGGTCCGTGAAGACGAGAAATATGTGTTTGCTGACTGTGCCATCAATATCAGCCCGGACAGCCAGGACCTTGCAGAAATCGCGTTGGCGAGTGCGGAAACGGCTGCATTGTTCGATGTGGATCCAAAAGTAGCGATGCTCAGCTTCTCCACGAAAGGTTCTGCGAAATCTCCGGAAACGGAAAAAGTAGCTGAAGCCCTGACGATTGCCAAAGAACAGAACCCTGATCTTGTCATCGACGGTGAATTCCAGTTCGACGCTGCTTTCGTTCCATCCGTAGCTGAGAAAAAAGCGCCGGATTCCCCGCTGAAAGGCGAAGCGAATACATTCGTATTCCCTAGTCTCGAAGCAGGTAACATCGGGTACAAAATTGCCCAGCGTCTTGGCGGTTTTGATGCGGTAGGTCCGGTTCTTCAAGGTCTGAACCAGCCGGTCAACGACCTTTCCCGCGGCTGCAGTGCAGATGATGTGTACAAGCTGGCCATCATTACAGCGGCTCAATCTCTATAA	MSNLFDTMKAKIDGKGTKIVLPEAMDERILTAAGQLTADGMVTPVLVGDKEKVEQKAKDLGVDISGAEVLNPADYPEYDDMVASFVERRKGKATEEKAREILQDENYFGTMLVYMGKADGLVSGAAHSTADTVRPALQIIKTKPGIKKTSGVFVMVREDEKYVFADCAINISPDSQDLAEIALASAETAALFDVDPKVAMLSFSTKGSAKSPETEKVAEALTIAKEQNPDLVIDGEFQFDAAFVPSVAEKKAPDSPLKGEANTFVFPSLEAGNIGYKIAQRLGGFDAVGPVLQGLNQPVNDLSRGCSADDVYKLAIITAAQSL	PGPT0001365_1453	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0001365-pta-K00625	NA	NA
AK012_01778	1110	futA1		Iron uptake protein A1	ATGAGAAACAAATGGTTGATCTTAGGTTTAACACTTCTACTATCCGTATTCGTACTGGCTGCATGCGGAGGGGACGGACAGGAGGAAGACACTGCTTCTGATCAGGAAGCAGCAGACACAGAAGAAACGAATGAAGAGAATGCTTCTGAAGAAACAGGTGGCGAAGTCAATCTGTATACCGGTCGTCATTATGATACAGATCAGGAGCTCTATGATACGTTTACAGAAGAAACAGGGATTGAGGTCAATGTCATTGAAGGCGATGATGACGAATTGATTGCCCGTCTTGACCGTGAAGGAGAGGCTTCTGAAGCCGATCTTCTAATTACAGCTGATGCTGGTCGTCTGCACCGTGCAAAGTCTCAGGATCTGCTGCAGTCTTTGGAAAGTGACACATTGAATGAAAACATCCCGGAAAAATTCCGTGATCCGGATAACAACTGGTTTGGTCTGACCAAGCGTGCACGTGTCATTGCTTACCACAAAGAGCGTGTGGATGAAGAAAACCTTCAAACGTATATGGATTTAACAAACGAGGAGTTCCAGGACAAAGTCTTGATTCGTTCGTCCTCCAACATCTATAACCAGTCTCTTGTTGCTTCTATGATTGCCACAGAGGGTGAAGATGCTGCCAAGGAATGGGCACAGGGCATCGTCGATAACATGGCTCGTGATCCTCAGGGAGGAGATCGTGACCAGGCGAAAGCTGTCGCTGCCGGTGAAGGGGATGTGGCAGTGATGAACACGTACTACCTCGGAAAAATGCTGAACTCTGAAGATGAGGAAGAAGTGAAAGTGGCGGAACAGCTGGGCATTATCTTCCCGAACCAGGATTCCACAGGAACTCACGTGAATATCAGCGGTATTGGGGTGACAGCGAGCAGCCAGAATACTGAGAACGCTCAGAAATTCATTGAATTCCTTTCTGGTGAGGAAGCTCAGAAACAATTTGCTGAAGCCAATTACGAGTATCCGGTAAACCCGGATGTCGAAGCTTCTGAACTGCTTCAAAGCTGGGGCGAGTTCAAAGAGCAGGACATCTCCCTTAATGAACTTGGAGAAAACAACGACCGTGCCATTCAGATTATGAATGAAGTGGGCTGGAAATAA	MRNKWLILGLTLLLSVFVLAACGGDGQEEDTASDQEAADTEETNEENASEETGGEVNLYTGRHYDTDQELYDTFTEETGIEVNVIEGDDDELIARLDREGEASEADLLITADAGRLHRAKSQDLLQSLESDTLNENIPEKFRDPDNNWFGLTKRARVIAYHKERVDEENLQTYMDLTNEEFQDKVLIRSSSNIYNQSLVASMIATEGEDAAKEWAQGIVDNMARDPQGGDRDQAKAVAAGEGDVAVMNTYYLGKMLNSEDEEEVKVAEQLGIIFPNQDSTGTHVNISGIGVTASSQNTENAQKFIEFLSGEEAQKQFAEANYEYPVNPDVEASELLQSWGEFKEQDISLNELGENNDRAIQIMNEVGWK	PGPT0003725_524	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003725-afuA|fbpA-K02012	NA	NA
AK012_01779	1707			hypothetical protein	ATGAAGCAAGTCTTCAGGCTTTTTTCATTCAAGGCTGAGGGACTGGTAGAAAAGGACGTGTCCTCTTTGAATGTACTTCGCAGACTGCCTGCTTACAGAAATAGCTGGTCAATACTCAGTTTAATCATTGTCATCTTAATTCTCGTTCCCAACGTGACGATTTTATTTAACTTCTTTACAAATAAAGCAGAAAACTGGGATCATATCACTGAGTATATACTTCCGGATCTATTGAAAAACACCTCCCTGCTTATCGTTTTTACAGGCCTTTTAACCATTATCATAGGCACCAGCCTGGCATGGCTGATCTCCGCTTATGATTTTCCCATGAAGAAGTTTTTTAAGTGGGCGCTAATCTTACCGCTTGCGATCCCGCCTTACATTGCTGGATACACGTACAATGGGATTTTGAATTATACAGGAGTGATCCAGACGACATTGCGGAATACGTGGGGGATCGAAGTGGACCAGAAATACTTCGATATTCTGAATCTTCCGGGTGCTGTTTTTATTTTCACTCTTTTTCTATATCCATACGTGTATACGATTACAAGAGCTTTTCTCGCCAATCAGTCTGCATCTTTAATTGAAAATGCCCGGCTGCTTGGCGGGTCACCGCTGGAAGTGTTTTTCCGGGTGGTTCTGCCGATTTCCCGTGGAGCTGTCGTCGGGGGTGTCAGCCTTGTTCTCCTCGAGGTTTTGAATGATTACGGGGTGGTGCAGTACTTTGGTGTTCCCACGTTCAGTACCGCCATATTCCAAACATGGTTCGGCATGAATGACTTGAATTCAGCCATTAAATTATCAGCGACCCTGATGTTTATCGTCTTTTCTATTTTGATACTGGAGAAATTACTGCGCGGCAGGAAGAAATACGCGTCTACGACGGCCAAAGCCCGGCCGCTGCGTGCTGTTCAATTAAGCAGAGGACGTGGGTGGGCGGCCTTCAGTTATTGTCTGATCATCTTTATGCTCGGGTTTCTCATCCCGTTGGTTCAGCTTGTGGACTGGATGTTTTTAACCTTTGAAAAAGTAGCCTCCCCTGAATTTTTGACGTTGATCTGGAATTCCCTGTTCGTATCCCTGGCTGGAGCGCTGTTGATTGTTCTCTTTGCCGTGATTATCGGCAACTTCGCCCGGACTCATCAGAGCCGGCTGTCGAAGTCTGCAGCCAAAGTGACGATTCTCGGCTATTCCATTCCTGGAGCCGTCATTGCCGTTGGTATCAGCACGGTCTTTATTGAACTGGACAGTGGACTCTCCCGTTTTTATGAATCTACAGGGATGGAAAGCCGGCTGTTTTTGAGTACAAGTTTAGTCATTCTGATCTCGTCCTATATCATCCGATTTTTGGCGATCGGGTATAATTCCATCGAGTCCGGATTCGATAAAATCGGAAACAAGTATACGGAAGCCTCACGGATGCTGGGAATGAATATGACGAAAACCTTTTTCAAAGTGGATGTAAGGATGCTCCGGGCCCCTTTGATCAGTGGTTTTCTGCTTGCTTTTATTGAAATCATTAAAGAACTTCCGCTGACGTTGATTCTGCGTCCGTTTAATTTCGGAACGCTTTCGACCAACGCATTCAAATATGCGGGTGATGAGCAGATCCATGAAGCGGCGCTTGCCTCCCTCATCATTGTCGTCATCAGTGCAGCAGCTGTTTTTATTTTTCATCAGGTATTAGAAAAGGAGTCGAATTGA	MKQVFRLFSFKAEGLVEKDVSSLNVLRRLPAYRNSWSILSLIIVILILVPNVTILFNFFTNKAENWDHITEYILPDLLKNTSLLIVFTGLLTIIIGTSLAWLISAYDFPMKKFFKWALILPLAIPPYIAGYTYNGILNYTGVIQTTLRNTWGIEVDQKYFDILNLPGAVFIFTLFLYPYVYTITRAFLANQSASLIENARLLGGSPLEVFFRVVLPISRGAVVGGVSLVLLEVLNDYGVVQYFGVPTFSTAIFQTWFGMNDLNSAIKLSATLMFIVFSILILEKLLRGRKKYASTTAKARPLRAVQLSRGRGWAAFSYCLIIFMLGFLIPLVQLVDWMFLTFEKVASPEFLTLIWNSLFVSLAGALLIVLFAVIIGNFARTHQSRLSKSAAKVTILGYSIPGAVIAVGISTVFIELDSGLSRFYESTGMESRLFLSTSLVILISSYIIRFLAIGYNSIESGFDKIGNKYTEASRMLGMNMTKTFFKVDVRMLRAPLISGFLLAFIEIIKELPLTLILRPFNFGTLSTNAFKYAGDEQIHEAALASLIIVVISAAAVFIFHQVLEKESN	PGPT0003730_3219	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003730-afuB|fbpB-K02011	NA	NA
AK012_01780	717	fbpC		Fe(3+) ions import ATP-binding protein FbpC	ATGTATGTTGAAATCAAAGATCTCTGTTTTGGATATACCAACTCCAAAGAACGAACCGTCCGTGATTTTAACCTGGAGATTGAACAGGGGGAAATCATTTCGATCCTTGGAGAGAGCGGAAGTGGAAAGAGTACCGTGCTCCGCCTCCTGTGCGGTTTGGAAATCCCGGAGAAAGGGACCATTCATATCGCAGGCCGCACGATGACAGATGAGCGGACGTTTGTCGCTCCTGAAAAAAGAGGCATCGGCATTGTTTTTCAGGACTATGCCCTTTTTCCACATATGACGGTTTATGAAAATGTGAAATTCGGGTTGAAGGCGTGGAAGCGGAAGGATCGCAGCCTAAGAGTGCAGGAAGTGCTGGAACTTGTAAACATGGGGGACTTTTCCAAAAGGTACCCACATGAACTGAGCGGGGGACAGCAGCAGAGGATTGCGCTGGCCCGCTCACTGGCACCGGCACCGGAGCTGTTGTTGTTGGATGAACCATTCAGTAATCTTGATGCAGACCTGCAGGTGAAAATCAGAAATGAGCTGAAAGCCATTCTTAAAAAAACGGGTACCACCTGCATCTTTGTAACGCACGACAGGGAGGATTCCCGGGCCCTTGCTGATCGTATGGTTACGATGAGGGACGGCGCTTCCTATGACTGGGATTCCTTATGTACGACACGGGAAGAAGAAAGTCAAAAACCTGAACTGGTCCGCCTGAAATAA	MYVEIKDLCFGYTNSKERTVRDFNLEIEQGEIISILGESGSGKSTVLRLLCGLEIPEKGTIHIAGRTMTDERTFVAPEKRGIGIVFQDYALFPHMTVYENVKFGLKAWKRKDRSLRVQEVLELVNMGDFSKRYPHELSGGQQQRIALARSLAPAPELLLLDEPFSNLDADLQVKIRNELKAILKKTGTTCIFVTHDREDSRALADRMVTMRDGASYDWDSLCTTREEESQKPELVRLK	PGPT0003735_4319	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_III_TRANSPORT_SYSTEM,PGPT0003735-afuC|fbpC-K02010	NA	NA
AK012_01781	849	lipL	COG0095	Octanoyl-[GcvH]:protein N-octanoyltransferase	ATGTGCATGAGTACAATCCATACGTTATTAAAAACCAATACCTACCGCTTCATCGACCAAAGCAGCCTGGGGCCGTCATTCTCAGCGCTTCAGTCGTTCGCCATGGACGACACCCTGTCTATTTCGGTCGGAGAGGGAATCAGTCCGACGACGGCCCGTTTATGGGTCCATCATAATACCGTCGTCCTCGGTATTCCTGATGCCCGGCTGCCTTACATCGATGAAGCCATCGAATATTTAAAAACCAACGGCTATCAGGTCGTTGTCCGGAATTCCGGCGGCCTTGCCGTCGTGTTGGATGAAGGTGTCATGAACCTCTCCTTCATTTTCCCAGACTCAAAGGAAGTAAACATCCATGAAGGCTACGATGCGATGGTTTCGTTCATCCACTACCTGTTCCAGGACGTGACCGAGGACATTGAAGCTTATGAGATTACCCGGTCCTACTGTCCGGGCACCTATGATCTCAGCATCGACGGGAAGAAGTTTGCCGGCATTTCCCAGCGGCGTGTGAAAAACGGATCAGCTGTCCAGATCTACCTGGACGTCACCGGGAGCGGAGCGGAACGAGCGGCTCTGCTGAAACACTTTTATGAAATCGGGAAAAAGAATGAAGAGACCCGGTTCACCTATCCGGATATTGAACCGTCCGTCATGGCTTCCCTCAATGAGCTGCTGGACACCCCTCTGACCGTAGCGGATGTCCGGGACCGAATCCTGACCAAGCTGTATGAGCTTTCCGGACATATCGTAACCGACCCGCTGAACGACACGGAAATCGAATGGTTCCAGAAACGGTTTGACCAGATCGTCAAACGCAATGAAAAAGCGCTCGACCACCTCCGTTGA	MCMSTIHTLLKTNTYRFIDQSSLGPSFSALQSFAMDDTLSISVGEGISPTTARLWVHHNTVVLGIPDARLPYIDEAIEYLKTNGYQVVVRNSGGLAVVLDEGVMNLSFIFPDSKEVNIHEGYDAMVSFIHYLFQDVTEDIEAYEITRSYCPGTYDLSIDGKKFAGISQRRVKNGSAVQIYLDVTGSGAERAALLKHFYEIGKKNEETRFTYPDIEPSVMASLNELLDTPLTVADVRDRILTKLYELSGHIVTDPLNDTEIEWFQKRFDQIVKRNEKALDHLR	PGPT0003940_177	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003940-lipL-K16869	NA	NA
AK012_01782	1296			hypothetical protein	ATGGCTTATCGTGATGAGAAACTAAGTGAAGAAAAGGTTTTTAAAGACCCGGTTCACCGTTATGTCCATGTGCGGGAACGGGTGATATGGGATTTGATCGGAACGTCGGAGTTTCAGCGTCTGCGTCGTGTGAAGCAGCTCGGAACTTCCTATTTGACGTTCCACGGAGCTGAACACAGCCGCTTCAATCATTCGCTCGGTGTTTATGAAATTGTGCGGAGGATCATTGAAAATTTCAAGGACCGGCCGCATTGGAACCAGGAGGAGAGACTGCTCTGTCTTTGTGCGGCTCTTCTGCACGACCTCGGCCACGGTCCGTTTTCCCATTCCTTTGAGAAGGTGTACAAACTGGATCATGAGGAATTCACCCAGGCGATTCTGCTTGGGGATACGGAGGTCAATCAGGTCCTCAGCCGTGTGGAAAAAGGATTCCCGAAAAAGGTCGCCGATGTGATCAACAAAACGTACGAAAATAAACTGGTGGTCAGTTTGATCTCCAGTCAGATTGACGCCGACCGGATGGACTATCTGCAGCGTGACGCTTATTTCACAGGGGTCAGCTATGGTCATTTCGATATGGAGCGGATTCTACGGGTCATGCGTCCAATGGAAGATCAGGTCGTTGTAAAGGAAAGCGGCATGCATGCGGTGGAAGACTACATTATGAGCCGGTACCAGATGTACTGGCAGGTTTATTTCCACCCGGTTACCCGGAGTGCTGAAGTGATTTTGACGAAGATCCTGCACCGGGCGAAAGAGCTGTATGAAGACGGCTATACATTCAAGCTGGAACCGGTCCATTTTCTTTCCTTTTTTGAAGGAAAACCGAGCTTGAAAGAGTATTTAGCCTTAGATGAAGCTGTTGTGCTTTATTATTTCCAGATGTGGATGGAAGAAGAGGATGATGTATTGAGTGATCTCTGCCAGCGGTTCGTCAACCGCCGGCTGTTCAAATACATCGAATTCAACCCGAATGCTCAGATGAATGAATGGATGGAGCTGTATAAGCTGTTCACCAAAGCGGGATTGAACCCGGATTATTATCTTGTCGTGGATTCCAGTTCCGACCTGCCTTATGATTTCTACCGTCCCGGTGAAGAAGGAGAGCGTCTTCCGATTCACCTGCTCCAGCCGAGCGGTGAACTGAAGGAACTGTCCAGGCTTTCAGATATCGTTGAATCGATTTCCGGGAAGAAGCGGACCGATCATAAGCTGTATATTCCTCTTGACCGCCTGGAGGAAATGTCCAATCGAAGTAAAACGAAGAAACGGATTATGGAAATATTGTTTGGATAA	MAYRDEKLSEEKVFKDPVHRYVHVRERVIWDLIGTSEFQRLRRVKQLGTSYLTFHGAEHSRFNHSLGVYEIVRRIIENFKDRPHWNQEERLLCLCAALLHDLGHGPFSHSFEKVYKLDHEEFTQAILLGDTEVNQVLSRVEKGFPKKVADVINKTYENKLVVSLISSQIDADRMDYLQRDAYFTGVSYGHFDMERILRVMRPMEDQVVVKESGMHAVEDYIMSRYQMYWQVYFHPVTRSAEVILTKILHRAKELYEDGYTFKLEPVHFLSFFEGKPSLKEYLALDEAVVLYYFQMWMEEEDDVLSDLCQRFVNRRLFKYIEFNPNAQMNEWMELYKLFTKAGLNPDYYLVVDSSSDLPYDFYRPGEEGERLPIHLLQPSGELKELSRLSDIVESISGKKRTDHKLYIPLDRLEEMSNRSKTKKRIMEILFG				NA	NA	NA	NA	NA
AK012_01783	501			hypothetical protein	ATGTTGGAGAATCATGCGAAGTTGATGCAGTTTTTTTCAAGCACGGAAGAAATCGTCGGAAGGAAGAAACTGCAGAAGATGATCTATATCTTGAAAAAGTGTGAAATCCCATTTGAGGAGCGGTACCAATTCCACTTTTACGGCCCCTATTCAGAGGAACTGACGCTCAGGGTGGAGGAAATGTGCAACCTCGGTTTCGTTACGGAAACGAAAGAAGAAAAGAAGAATTATTACCAATACCGCTACCAGCTGACAGACAGCGGCCGTAATTTCCTTAAACACTATGAAATGGATCTGCCGCCTCTGAATGAGCATATCGATATGATGAATGAACGGAGCTCCAGGTTTTTAGAACTTGTTTCAACCATGCTTTTCTTTGAGGATCTGCCCAAAGAAGAGGTGGCTGAGAAAGTGTTTACGGTCAAAAGTGCCCAGAATTATTCCGATGAAGACATTGAAGAGGGCTGGACCTTCATTGAAACGATCCGCGGGATTCATTAA	MLENHAKLMQFFSSTEEIVGRKKLQKMIYILKKCEIPFEERYQFHFYGPYSEELTLRVEEMCNLGFVTETKEEKKNYYQYRYQLTDSGRNFLKHYEMDLPPLNEHIDMMNERSSRFLELVSTMLFFEDLPKEEVAEKVFTVKSAQNYSDEDIEEGWTFIETIRGIH				NA	NA	NA	NA	NA
AK012_01784	543			hypothetical protein	ATGAAAGAATTTGACCAGTTTAAGAAAGATAGTGACAGCAGTGATAAGAAGAAAAACCAATTTACAATCATTAAAGACGATGCCACAGACGGACACGGCGGCTATGGGGTTGGTTCCATCAGTCTTGAAAATATGACCCCGGTTATCGTCGATCCGAATGAAGAAGAAGCCTATGTGGATATGGGTGCCCTTCATGCCCGCAGTAAAGTGGAGAAGCGGATCAAATTCATCACAGATCGAGACGTAGTCGCCAATGGTCTTCAATACTGGATCGCCTGGGTGACCGTGGATTACCGTGGAGGCAATCCATGCTACTACGGAGTGGCCGCCAGTGAGATCGTTGTCGACCGTTCGATTAAGCGTGGGTATAAGCTGATGCCGCAGCATGTGAATCATATGGACAAATCGTTAAAAGGACGTTTCGTCGTCGAACATGTGGATGAAAAAAGCCGAAAAATCCTCGGTGAATATCTTCGTGAATTTAAGCCGGAACTGTGGGAGAATACCGCACAGGAATTAAAGGACGCTCTAGGCGTTTCGTAA	MKEFDQFKKDSDSSDKKKNQFTIIKDDATDGHGGYGVGSISLENMTPVIVDPNEEEAYVDMGALHARSKVEKRIKFITDRDVVANGLQYWIAWVTVDYRGGNPCYYGVAASEIVVDRSIKRGYKLMPQHVNHMDKSLKGRFVVEHVDEKSRKILGEYLREFKPELWENTAQELKDALGVS				NA	NA	NA	NA	NA
AK012_01785	342			hypothetical protein	ATGGATAATCGAAATCGGGATCGGGGAACCATTAAGTGGACGTCTTTGATGCTGCCGGAACACGTGGAGATGGTGAAGAAGCTCTGGAAAGAGGATCAGAGGGTAGAGAAGGGGATCATTGATGAGCAGAAGGCGGTGGAAATCGATTTTCTGCTGCAGCGGGCTGTGAAGGATGATTTAACGGTCTGCCTCAGGGTCCACAACGGATTTGATTATGAGGAATGTCTGATGAAAATCCAGGAAGTGAGCCGGTGGGACCGGGTGGTCAAAGGCGTTCACTGGGAAACAAAGGAACGGGTCCGTTTTTCGTTGGAGGACATCATTGATTTAACGATCGCCTGA	MDNRNRDRGTIKWTSLMLPEHVEMVKKLWKEDQRVEKGIIDEQKAVEIDFLLQRAVKDDLTVCLRVHNGFDYEECLMKIQEVSRWDRVVKGVHWETKERVRFSLEDIIDLTIA				NA	NA	NA	NA	NA
AK012_01786	2052	pbpG	COG0744	Penicillin-binding protein 2D	ATGTGGTCATTTATCAAAACTTCATACAAATGGCTGATCATCAGCCTGAAACTGACGGGCATCGGTGCCCTCCTCGGCCTGATCGCCGTCATCGTTGTATTCATGACGGCTGTTATCCAGGGCCCCCCGTCTTTGAAAACAGAACAGAACACCCTCATCTATGGCAGCAGTGGAGATGTCATTGGAGAGGATAAAGGGTCTGAGGAAAGGTACTGGATTGCGATCGAGGATATGCCTCAGTCGATTAAAGACGCTACACTGGCCATTGAGGACCGGCGGTTTTACAACCATTTCGGCTTTGATTTCAAAAGAATCGCTGCCGCTGCCTTAACAGACTTAAAGCAGATGCGGATGGCTCAGGGGGCCAGTACGATTACCCAGCAGTATGCCCGCAACCTCTACCTTTCGCATGATAAGACATGGAAACGAAAGCTCTATGAAGCGATGTATGCCCTGCGTCTGGAAATCTTCTATAACAAAGACGAGATATTGGAAGGGTACCTGAATACCATTTATTACGGGCACGGGGCCTATGGTATTGAAGCGGCAAGCCGCCATTATTTCAACAAGCACGCCGGAGAACTTTCACTCACAGAAGCTTCCATGCTTGCCGGCATCCCTAAAGGTCCCAGTTATTATTCACCTCTGAACAATGAAGATAGAGCCGTATCCAGACAGGAGCAGATTCTAGCGGAAATGGAACGCCACGGCTACATTACGTCGACAGAAAAGGAAGAAGCCGTGGAGGCCAGCCTGAGTTATGCTGATGATCAGGGTAAGAAAACGCAGGAAACCGCTCCTTATTTTCAAGATGAAGTGATTTCTGAAGCGGCCCGTCTGCTCGGCGTTGACAGGGAAAGCATTCAAACCGGCGGGTATCACATCCATACGACGCTTAACGAAGAGCATCAACAAACGCTTGAGGAGATGGCCGCCCGTCACCTTCCGGACAGCAGCGACGTCCAGACTGCCGCAGCTGTTATGGACAGCCGCACCGGTGCCGTCACGGCGCTGATCGGGGGCAGGGATTACGAGGAAAGTCCGTTCAACAGGGCGGTGCAGGCAAAGCGGCCCATCGGATCAACCATTAAACCGCTCCTCTATTACAGGGCACTGAAGTCTGGAGAGTCGCCAGTTACGATGCGTGAAAGCAAACCGGTTGAATTCCCCGTGGAGGGAAAAAGCGACCCCTACGTTCCGACCAATTTTAATGATCAATACGCCGAAAAGCCGATAACGATGGCGCAGGCTTTAGCTGTATCCGATAATATTTACGCCGTTTCCACCCATATGGACCTCGGCCCCGAAAAACTCGTTGAAACGATGAAGACATTTGGACTGCAGGGATCTTTTGAGCCCCACCCTTCCCTTGCCCTCGGCTATTCATCCGTATCCTTATACGATATGGTCACAGCCTACGGGAAGATGGTTAAAGGATCCGACTCCCTTGAAGGGCATACGATTCACAAAATCACCGACCGCCATGAACATGTGTTATATGAATACAAACCGGTCGTACTGAAAAACGACCCTGTGGATGACGAGCTGGCTTTTACAGTCACCCATATGATGACAGGCATGTTCGATCCAGCCCTTGATGCGTCCTATGCTTCCGTCACAGGCACTCCTATTAAAGGGAAGCTGACCCGGATGTACGGAGGTAAATCAGGAACGACCGATACAGACAGCTGGATGATCGGGTTCAGTCCGCAATATGTCACAGGGGTATGGATCGGCTACGATGAAGGGGGACGCCCTTTGGAAACCTTCAATGAGCACCGGTATGCCAAGTCCATTTGGGCGGATACGATGGAAGGCATCCACGAATCGCTCCCATCAGCAGCTTTCGTCCCGCCACCGGGGGTGAAAGGGGTCTATGTCGATCCGGATACCGGCTATCTTGCCGGCCCCGATTGTCCGCAGGAACGGCTTGTCTACATGAAAAAGGCGGACATCCCGAAGAAAGTATGTGGAAGCAGCGAAGAAAAGGATATCGAGGATGAATTCAAGGACGACCCGTGGTTCAAAGATGTTGTGGACTGGTTCTTCTAA	MWSFIKTSYKWLIISLKLTGIGALLGLIAVIVVFMTAVIQGPPSLKTEQNTLIYGSSGDVIGEDKGSEERYWIAIEDMPQSIKDATLAIEDRRFYNHFGFDFKRIAAAALTDLKQMRMAQGASTITQQYARNLYLSHDKTWKRKLYEAMYALRLEIFYNKDEILEGYLNTIYYGHGAYGIEAASRHYFNKHAGELSLTEASMLAGIPKGPSYYSPLNNEDRAVSRQEQILAEMERHGYITSTEKEEAVEASLSYADDQGKKTQETAPYFQDEVISEAARLLGVDRESIQTGGYHIHTTLNEEHQQTLEEMAARHLPDSSDVQTAAAVMDSRTGAVTALIGGRDYEESPFNRAVQAKRPIGSTIKPLLYYRALKSGESPVTMRESKPVEFPVEGKSDPYVPTNFNDQYAEKPITMAQALAVSDNIYAVSTHMDLGPEKLVETMKTFGLQGSFEPHPSLALGYSSVSLYDMVTAYGKMVKGSDSLEGHTIHKITDRHEHVLYEYKPVVLKNDPVDDELAFTVTHMMTGMFDPALDASYASVTGTPIKGKLTRMYGGKSGTTDTDSWMIGFSPQYVTGVWIGYDEGGRPLETFNEHRYAKSIWADTMEGIHESLPSAAFVPPPGVKGVYVDPDTGYLAGPDCPQERLVYMKKADIPKKVCGSSEEKDIEDEFKDDPWFKDVVDWFF	PGPT0023955_242	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023955-pbpG-K21464	NA	NA
AK012_01787	831	speE_1	COG0421	Polyamine aminopropyltransferase	ATGGGTACTTGGTTTACAGAAAAACAGACCGATCATTTCGGGATTACAGCGAAAGTCAATCGTTCGCTTCATAAAGAGAAAACCGATTTTCAAGAATTGGAAATGCTGGAAACAGAAGAATGGGGGAACATGCTCGTTCTCGATGACATGGTCATGACGACGGAGAGGGATGAATTCGTTTATCACGAAATGGTCGCCCATGTACCTTTATTCACCCACCCAAACCCTGAACATGTGCTGGTTGTCGGCGGGGGAGACGGCGGTGTCATAAGAGAAGTGCTGAAGCACGAAAGTGTAAGGAAAGCCACGCTTGTCGAAATTGACGGCAAGGTCATCGAGTATTCCAAAAAGTATCTGCCATCCATTGCGGGCACCTTGGACGACGAACGGGTCGAAGTCAAAGTGGATGACGGATTTATGCATATTGCCCAAAGTACGGAGCAGTACGATGTCATCATGGTGGACTCCACAGAACCGGTCGGACCTGCGGTGAACTTGTTTTCGAAGGGCTTTTACGAGGGAATTGCCAAAGCATTGAAAGAGGACGGCATCTTTGTTGCCCAGACAGATAACCCTTGGTTCAAGGCTGATCTGATCCGTCAGGTGCACCGTGATGTTAAGGAGAGCTTCCGGATTACCAAAGTGTACACCGCCAACATTCCGACGTATCCGAGTGGGCTGTGGACATTCACGATGGGAAGTAAGACGTATGATCCGCTTCGGGTTCCAGAAAATCGTTTCATGGAACTGGATACGAAATACTACACCGAAGAGATCCACCACGCCTGCTTTGCTCTGCCGAAATTTGTGAAAGACTTGACGAAGGAGTGA	MGTWFTEKQTDHFGITAKVNRSLHKEKTDFQELEMLETEEWGNMLVLDDMVMTTERDEFVYHEMVAHVPLFTHPNPEHVLVVGGGDGGVIREVLKHESVRKATLVEIDGKVIEYSKKYLPSIAGTLDDERVEVKVDDGFMHIAQSTEQYDVIMVDSTEPVGPAVNLFSKGFYEGIAKALKEDGIFVAQTDNPWFKADLIRQVHRDVKESFRITKVYTANIPTYPSGLWTFTMGSKTYDPLRVPENRFMELDTKYYTEEIHHACFALPKFVKDLTKE	PGPT0007750_3316	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
AK012_01788	873	speB	COG0010	Agmatinase	ATGAGGTTTGATGAAGCCTACTCGGGCAAAGTATTCATTATGAGCCGCGCTACCGAGGAAGAAGCGGACGCTGTGATTTACGGCATGCCTATGGACTGGACGGTCAGCTTTCGTCCGGGCTCCCGTTTTGGACCGAACCGGATCCGTGAAGCTTCCATCGGTCTTGAGGAGTACAGCCCTTATTTGGACCGCCATTTGGAGGACGTAAACTATCACGATGCCGGCGATCTGCTGCTGCCATTCGGAAACGCAGCCCGCAGCCTCGACATCATTGAGGATTATATGGATGAACTGATGGAAAAAGGGAAGTTCCCTCTTGGGATGGGCGGGGAGCACTTAGTTTCCTGGCCGGTCATTCAGTCCGTTTATAAAAAGTACCCCGATCTGGCCGTCATTCATATCGATGCCCACGCAGATCTTCGGGAGGAATATGAGGGAGAGGTGCTTTCCCATTCCACGCCGATCCGCAAGACGTGTGAGCTTATTGGTGCGGAGAACGTCTATTCTTTCGGGATCCGTTCCGGCATGAGAGAAGAGTTTCAATATGCGGCTGAATCCGGTATGCACATGTATAAGTTTGAGGTGCTGGAACCTTTGCAGAAGGTCCTGCCTGATCTGGCCGGGCGTCCGGTTTATGTCACCATCGACATTGACGTGCTTGACCCTGCCTATGCTCCCGGGACAGGAACGGCTGAAGCCGGCGGCATTTCCTCTAAAGAACTGCTGGCAGCTATTCATGCCATCGCAGGAAGTGAGCTGAATATCGTAGGAGCTGATCTGGTGGAAGTAGCCCCGGCCTACGATCATTCCGAAAAGACACAGATTGCGGCTGGCAAACTGATGCGTGAAATGCTTTTAGGGTTTGTTCAATAA	MRFDEAYSGKVFIMSRATEEEADAVIYGMPMDWTVSFRPGSRFGPNRIREASIGLEEYSPYLDRHLEDVNYHDAGDLLLPFGNAARSLDIIEDYMDELMEKGKFPLGMGGEHLVSWPVIQSVYKKYPDLAVIHIDAHADLREEYEGEVLSHSTPIRKTCELIGAENVYSFGIRSGMREEFQYAAESGMHMYKFEVLEPLQKVLPDLAGRPVYVTIDIDVLDPAYAPGTGTAEAGGISSKELLAAIHAIAGSELNIVGADLVEVAPAYDHSEKTQIAAGKLMREMLLGFVQ	PGPT0007775_2779	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
AK012_01789	450			hypothetical protein	TTGACGAAAAAAGGGATCGGTCTCATTTCCGCCTATGCCTTGGTGATGGTCGTACTTTTCACCGCCACTTTTGCAGGGGAATGGAACCCATCAAATTACAGCTATACATTGAATGAAGACACGTTGACGATTGAAGAAGGATTATGGAATAAAGAACAAATGGAAATAGAAAGGGAAGGGAACATCAACGAGATCCTCATGTTCCAGGTTGCGGTTTCTGAAGAAAGGCAGCAGTGGAGGCTGGATCTGGGTGTGATCGCTGTTCTTCTCCCTCTATTGATGTTTATCACTGCTCCCGGCCAGCGCCCGTTCAGGAAATATCTTCCGTTCAAGTGGTACACAACGGTTGTTTTGGCTATCCTTGTGATATACACCGCCTGGTCCATTCCGGCACATCTCTCCTCTATCGATGACATTCAGAGGTATGTCAGTCTGCTGACAAGTTCCTGA	MTKKGIGLISAYALVMVVLFTATFAGEWNPSNYSYTLNEDTLTIEEGLWNKEQMEIEREGNINEILMFQVAVSEERQQWRLDLGVIAVLLPLLMFITAPGQRPFRKYLPFKWYTTVVLAILVIYTAWSIPAHLSSIDDIQRYVSLLTSS				NA	NA	NA	NA	NA
AK012_01790	441	ywiB	COG4506	putative beta-barrel protein YwiB	ATGCCTGCAAATGCAAAAGACATCCAGGTCCAGCTTGTTACCGAAATCCAGGATCAAGATCGCAGGGAGACCATGGAAATCGAAGAGACCGGCCGTTTTTTAGTCCGCGGCGATACGCAGGTGCTGACCTTTACGGAGCACCCGGAAGACGGTGACCCTGTCCACACAATGGTGACGATCAAACAGGAGCACGTGAGCATTAAGCGCAGCGGTGGTGTGGAAATGCGCCAGGTTTTTAAGCCGCTGATGGAAACGGAGAATTTATATCACCACACGTACGGTGATTTTCATATGAAAACCTATACGAAAGAATTGGATTATACCTCGCTGAAAGAATCCGCGCAGGGACGACTGTTTTTAGACTATACAATGACGTTAAATCACGAGGTAACGCAGGCGCACAGCTTGACGTTGACGTTTGAGGAGGAGAGCGATTCATGA	MPANAKDIQVQLVTEIQDQDRRETMEIEETGRFLVRGDTQVLTFTEHPEDGDPVHTMVTIKQEHVSIKRSGGVEMRQVFKPLMETENLYHHTYGDFHMKTYTKELDYTSLKESAQGRLFLDYTMTLNHEVTQAHSLTLTFEEESDS				NA	NA	NA	NA	NA
AK012_01791	1668	argS_1		Arginine--tRNA ligase	ATGAATATCGTTGAACAAATGGAACAAAACCTGAAAGAAGAGATTGTTCGTTCTGTGCTGGCAGCGGGTCTTGCCGGAGAAGAGGAAATGCCGGAAGTCGTGCTCGAACAGCCGAAGGACAAAGCTCACGGCGATTATGCCACCAATATGGCTATGCAGCTGGCACGTGTAGCGAAAAAGAACCCGCGTGCGATCGCATCTGAACTGGTCGAGCAGTTCGATCATTCGAAAGCATCCATTGACAAAATTGAAATCGCAGGCCCGGGCTTCATTAATTTCTACATGAACAACCAGTATTTGACGGAGCTTGTCCCTTCTGTACTGGAAGCAGGCGATGAATATGGACGGACCAGCACGGGTAACGGTCATAAAATCCAGATCGAGTTCGTTTCAGCCAACCCGACGGGGACCCTCCACCTCGGACACGCCCGCGGAGCTGCTGTCGGCGATTCCTTATGCAATGTACTGGATGCAGCCGGCTATGACGTCTCCCGTGAATATTACATCAATGATGCCGGAAACCAGATGATGAATCTGGCGAAGTCTCTGGAAGCCCGCTACATGCAGGCGCTCGGCCGTGACTGGGACATGCCGGAAGACGGTTACCACGGTAAAGACATCATCCAGCTGGGAGAAAAGCTTGCGCAAGAGGCCGGTGAAAAATGGGCGGAAGCCGAGCAGGAAGAACGACTGCAGTTCTGCCGCGAATATGGTTTGAAGTTCCTTTTGAATCGAATCAAAACCGACCTGGAAGAATTCCGTGTCCCGTTTGATGAATGGTTCTCTGAAACCTCCCTGTATCAGGACGACCAGATTACCGATGCCCTGAAAGTCCTCAGCAGCCAGGGGTATGTGTATGAAAAAGACGATGCCACATGGTTTGAAACGACGCAGTTCGGCGATGATAAGGATCGTGTCCTGATTAAGAATGACGGTTCGTACACCTACTTAACGCCGGATATTGCCTATCACAAAAATAAACTGGACCGCGGCTTTGATACGCTCATCAACATCTGGGGAGCTGATCACCACGGCTACATTCCTCGTATGAAAGCGGCTATTCAGGCGCTTGGTTATGAAAAAGACACGATGGAAGTAGAAATCATCCAGATGGTCAATTTATTCCAGGACGGCGAAAAGGTGAAAATGAGTAAGCGTACCGGAAAAGCGGTCACGCTTAGAGAGCTGATGGAGGAAGTCGGTGTGGACGCGATGCGTTACTTCTTCTCCATGCGTTCCAGCGATTCCCACCTGGACTTCGACATGGATCTCGCCCGTTCAGAGTCCAATGAAAACCCTGTGTACTACGTGCAGTATGCGCACGCCAGAATCTGCACGATGTTGAAGCAGGCGGAAGAAAAAGGGCTCATGAAGGAAAACTACGACAACAGCTGGTTGACAGCTGAGAAGGAAGAAGACCTGTTGAAAAAACTTGGGGAATTCCCTCAGGTTGTAGCGGATGCTGCTGACAAGCGTACCCCGCACAGGGTTACCCAGTATGCCTTTGACCTGGCGTCTGCCCTGCACAGCTTCTACAATGCAGTGAAAGTACTGGATGGCGACAATCCTGAGAGGACAGCCGCTCGGATTGCCCTGATGAAAGCCGTACGGATCACCTTGAACAACGCACTGAAACTTGTCGGTGTTTCTGCACCGAATCAAATGTAA	MNIVEQMEQNLKEEIVRSVLAAGLAGEEEMPEVVLEQPKDKAHGDYATNMAMQLARVAKKNPRAIASELVEQFDHSKASIDKIEIAGPGFINFYMNNQYLTELVPSVLEAGDEYGRTSTGNGHKIQIEFVSANPTGTLHLGHARGAAVGDSLCNVLDAAGYDVSREYYINDAGNQMMNLAKSLEARYMQALGRDWDMPEDGYHGKDIIQLGEKLAQEAGEKWAEAEQEERLQFCREYGLKFLLNRIKTDLEEFRVPFDEWFSETSLYQDDQITDALKVLSSQGYVYEKDDATWFETTQFGDDKDRVLIKNDGSYTYLTPDIAYHKNKLDRGFDTLINIWGADHHGYIPRMKAAIQALGYEKDTMEVEIIQMVNLFQDGEKVKMSKRTGKAVTLRELMEEVGVDAMRYFFSMRSSDSHLDFDMDLARSESNENPVYYVQYAHARICTMLKQAEEKGLMKENYDNSWLTAEKEEDLLKKLGEFPQVVADAADKRTPHRVTQYAFDLASALHSFYNAVKVLDGDNPERTAARIALMKAVRITLNNALKLVGVSAPNQM				NA	NA	NA	NA	NA
AK012_01792	183			hypothetical protein	GTGGGGAAAGAAGTACTGCTGGCATTACTGACCGGATTCGTGGTCGGATTATTATTCGCTGCTGTTAAACTGCCGATCCCGGCTCCACCTGCTTTTGCAGGAGTGGCCGGTATCATCGGCATTTATCTTGGGTTTAAAGTATATGGCTGGGTCGGGCCGATGCTCACGGAATTGTTTAAATGA	MGKEVLLALLTGFVVGLLFAAVKLPIPAPPAFAGVAGIIGIYLGFKVYGWVGPMLTELFK				NA	NA	NA	NA	NA
AK012_01793	1191	clsB	COG1502	Minor cardiolipin synthase ClsB	ATGTTCTACATTATTCTACTATTACTAGCAGTCATTCTTATTTTCCTGCTTTTCCTGGATTTTAAATTTGGGAGATCCCAACATCATAAACAGGCCCGTACCATTCCCCTGGAGGAAACGACAGGCAGCTATCATTTATATAAGAACGGATCCCGGCTGTATGAGCAGCTTTTCCGGGATATTTCCGAGGCAGAAAAACAGGTGGATGTTTATTTCTTTCTTATAGAAAATGATTATATTGCGGAGAATTTTCTCCAGGTGCTGAAAAACAAAGCGTCTGAGGGTGTCCCTGTACGGCTGATGGGTGACCGCGTGGCCAGCTTTAAAATAACGAAAAAGCGCCGGGAGGCACTTGAGGCGGCGGGTGTACGCTTCGCTTTTGCAGAAACCCCCGGATTTCCTTATTTCTTTTACCGCTTCCATCGGAGAAACCATCGGAAAATCACCGTCATAGATGGAAAGATCGGCTATGTCGGAGGATTTAATATCGGAAAGGCGTATATCGGGGAAACTTCGAAATTCGGAGACTGGCGGGATTATCATATCCGTTCCTTCGGTCCTGTCGTCCATCAGCTTCACACGGTTTTTCTTGATGACTGGTATTTGGCAACAGGAGAAAAAGACGATCCTTTTCCTCCCACAGAAACCGAGCATCCCTACCGGATGAGGGTTGTAGCAACAGATGGCGTAGAGCTTGAACAGGACTTCAGGAAAATGATCGATTCTGCTGAACGTGAAATTTTAATCGGCACGCCCTATTTCATTCCTACTCCTACGCTGCAGAATGCCTTGAAAACAGCACTGAAGCGGAATGTCTCGATCCATATTATGATTCCGATGAAAGCAGACCATCCATTTGTAAAGGAAGCTGCCGTGCCGTATTTAAAGGAGTTGAAGGAGGCCGGTGCAGATATCCGCTTCTTCAATGCAGGCTTTTATCATTCAAAGGTCATCATGATTGACGGACAGTTCGCAGACATCGGTACCGCAAACTTCGACCGGCGCAGCTTCTTTCTGAACAAAGAAGTGAATACCTACTTATATGACGAAGCCTTTATAGAAGATTTAAGAGACTTTTACTTCGAGGATGTGGCAGATGCTGTCCCGTTCGACGACCGCTGGCTGAAAAAACGTTCACTCGGAACGAGAGTCAATCAGAAGATTGCTGTTCTGCTCCGGCCGTTTCTATAG	MFYIILLLLAVILIFLLFLDFKFGRSQHHKQARTIPLEETTGSYHLYKNGSRLYEQLFRDISEAEKQVDVYFFLIENDYIAENFLQVLKNKASEGVPVRLMGDRVASFKITKKRREALEAAGVRFAFAETPGFPYFFYRFHRRNHRKITVIDGKIGYVGGFNIGKAYIGETSKFGDWRDYHIRSFGPVVHQLHTVFLDDWYLATGEKDDPFPPTETEHPYRMRVVATDGVELEQDFRKMIDSAEREILIGTPYFIPTPTLQNALKTALKRNVSIHIMIPMKADHPFVKEAAVPYLKELKEAGADIRFFNAGFYHSKVIMIDGQFADIGTANFDRRSFFLNKEVNTYLYDEAFIEDLRDFYFEDVADAVPFDDRWLKKRSLGTRVNQKIAVLLRPFL	PGPT0007725_4945	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
AK012_01794	2133	fadF	COG0247	putative iron-sulfur-binding oxidoreductase FadF	ATGAATCCACTGCTGACCGCCAACTGGATTTTGTTCCTTGGGGTGCTGATTTATGGACTTTATTTATTTGTCCGTGTCGTTCAGACTCGAATCGCTTATATTAAATTGGGGAAAAAATTCGAGTATGACAACCAGCTGAAGTCACGATTACGCAAGATCTGGGTTTATGTATTCGGGCAGAAGAAGCTGCTTAAGGATAAGAAATCCGGAATTATTCACGTTATGATGTTTTACGGCTTTATCCTCGTGCAGTTCGGGGCGATTGATTTTATCTATAAAGGACTTGTGCCGGATGCCCATCTGCCGCTCGGACCTTTTTACGCCGGCTTCACGTTTTTCCAGGAGCTGGTGACTTTAATGATTCTGACCGCTGTCATCTGGGCTTTTCACCGGCGGTATATTGAAAAGCTTGTCCGTCTGAAGCGGGGGTTTAAAGCCGGACTTGTTCTCATCTTTATTGGAACGCTTATGGTCACGGTGCTGGTCGGTAATGGCATGAGTATGATCTGGCATGCTCATGAAGGGGCATGGACAGAACCTGTTGCGAGCGTTATTGCAAGCGCTTTCGGTTGGGTACCTGAACCTGTTGCCATCACGGTATTCTTTGTTATGTGGTGGATCCACCTGCTTATTCTGCTTACATTCCTAGTCTACGTGCCGCAGTCCAAGCACGCCCACCTTCTTGCTGCGCCTGTGAACGTCTTTTTAAGTCGTGAAGAGCCGCCGGGGAAATTGAAGTCCATTGATTTTGAAATGGATGAGGATGCCGATGAAGAGGATGTATCCTTCGGGGTTGGAAAGATTGAGGATTTCAACCAGCTTCAAATGATTGATTTTTATGCCTGTGTCGAATGCGGCCGCTGTACAAACGTGTGTCCGGCGTCTGGTTCCGGAAAAATGCTCTCGCCGATGGATCTGATTGTGAAGCTCCGCGATCACCTTACGGAAAAGGGAGCCGCCGTTACAGGTAAATCTCCATGGGTGCCTGCCTATGCGTTCTCAGGTACAGAAGGGAATACGCTTGCTCAAATGGCCCGGAGCCACGGGACGGATGAGGCCGCAGCAACGCTTGAAGCGGTCCAGAATAAGAGCTTGATCGGAGACGTTATTACTGAAGAAGAGCTGTGGGCCTGTACAACATGCCGGAACTGTGAGGATGCCTGCCCGGTCATGAACGAGCATGTCGATAAAATCATCGATCTCCGCCGCTATCTTGTCCTTACAGAAGGGAAGATGGATGCCGACGGTCAGCGTGCCATGATGAACATCGAGCGTCAGGGTAATCCATGGGGGCTTTCCAAGAAGGAAAGAGAAGACTGGAGGCAGCTGGATGAAGATGTCCATATCCCTACAGTGAAAGAGTTGAAGAAATCAGGGGAAGAGTTTGAATACTTATTCTGGGTCAGTTCCATGGGGTCCTACGATAACCGCAGTCAGAAAATCGCCATGGCCTTTGCGAAACTGATGAACGAAGCCGGCATCAAGTTCGCTATTCTCGGCAATAAGGAACAGAACTCCGGAGATACAGCCCGCCGCATGGGGAACGAATTCCTTTTCCAGGAGCTGGCGGAAAAGAACATGAAGGAATTTGAGAAAAACGATGTGAAGAAGATCATTACGATTGACCCGCATGCGTATAACATTTTCAAGAATGAATATCCGGACTTCGGTCTGGAAGCTGAAGTGTACCACCATACGGAACTGCTGGCGGAATGGCTGAAGGAAGGCCGCTTGAAGCCGCAGGGCGTTGTTAAAGAAAAAATCACGTATCACGACAGCTGTTATCTTGGCCGCTACAACGAAGTCTACCAGCCACCGCGTGAAGTTCTGGAGATGATCCCTGGAGTGGAAGTGGTGGAAATGAAACGCAACCGTTCGAACGGGATGTGTTGTGGAGCTGGAGGCGGCATGATGTGGATGGAGGAGAAATCCGGGAACCGCGTCAACGTAGCACGGACCGAACAGGCGCTTGAAGTGGAGCCTACAATGATCTCCAGCGGCTGTCCATTCTGTCTGACGATGCTTTCGGACGGAACGAAAGCGAAAGAAGTGGAAGAAGAGGTCAGTACGATGGATATTGCAGAGATTCTCGCTAAGTCAATCTTTGGAAATACAAAGGAAAAGAGTGCTTGA	MNPLLTANWILFLGVLIYGLYLFVRVVQTRIAYIKLGKKFEYDNQLKSRLRKIWVYVFGQKKLLKDKKSGIIHVMMFYGFILVQFGAIDFIYKGLVPDAHLPLGPFYAGFTFFQELVTLMILTAVIWAFHRRYIEKLVRLKRGFKAGLVLIFIGTLMVTVLVGNGMSMIWHAHEGAWTEPVASVIASAFGWVPEPVAITVFFVMWWIHLLILLTFLVYVPQSKHAHLLAAPVNVFLSREEPPGKLKSIDFEMDEDADEEDVSFGVGKIEDFNQLQMIDFYACVECGRCTNVCPASGSGKMLSPMDLIVKLRDHLTEKGAAVTGKSPWVPAYAFSGTEGNTLAQMARSHGTDEAAATLEAVQNKSLIGDVITEEELWACTTCRNCEDACPVMNEHVDKIIDLRRYLVLTEGKMDADGQRAMMNIERQGNPWGLSKKEREDWRQLDEDVHIPTVKELKKSGEEFEYLFWVSSMGSYDNRSQKIAMAFAKLMNEAGIKFAILGNKEQNSGDTARRMGNEFLFQELAEKNMKEFEKNDVKKIITIDPHAYNIFKNEYPDFGLEAEVYHHTELLAEWLKEGRLKPQGVVKEKITYHDSCYLGRYNEVYQPPREVLEMIPGVEVVEMKRNRSNGMCCGAGGGMMWMEEKSGNRVNVARTEQALEVEPTMISSGCPFCLTMLSDGTKAKEVEEEVSTMDIAEILAKSIFGNTKEKSA				NA	NA	NA	NA	NA
AK012_01795	1188	mmgA	COG0183	Acetyl-CoA acetyltransferase	ATGCGTAAAACAGTCATCGTGGATGGAGCACGAACACCATTTGGGAAATTTGGAGGGAGCCTGGCACCCCTGACCGCAGCGCAGCTTGGAGGTCTGGCTATCAAAGCCGCTTTGAAAAAAGCGCAGGTCCACGTTGAGGACGTGAACGAAGTCATTATGGGCACGGTTCTTCAGGGAGGACAGGGACAGCTTCCTTCCAGACAGGCGGCCCGGGAAGCAGGAATTCCGTGGGATGTCAAAACAGAAACCGTGAATAAAGTGTGTGCATCCGGTATGCGCAGCGTTACGATGGGAGATCAGTTCATCCGTCTTGGGGAAGAAGAAATCATCGTCGCCGGTGGTATGGAAAGCATGAGCAACGCGCCTTACTTCATGCCGAAAGCACGATGGGGGCTCCGAATGGGAGATGCTTCTGTGAAAGATATGATGGTGCATGACGGATTGACTTGTTCTTTTGAGAACGTGCATATGGGCAGCTACGGCAATCGGACAGCCGAGCAGTATGAATTGACACGTGAGGCTCAGGATGAGTGGGCATACCGCAGTCATCAGCGGGCCGTCCAGGCCACAGAAGATGGGAAGCTGGGCGAAGAAATCACTCCTGTTGAAATCCCGCAGCGTAAAGGAGATCCTGTCGTCGTGGATCAGGATGAAGCTCCACGAAAGAGCACAACAATGGAAGCGTTATCAAAACTGCGGCCCGTTTTTGACAAGTCCGGGACGATTACAGCGGGAAATGCACCGGGTGTCAATGACGGAGCGTGTGCCATGGTCTTAATGTCAGAAGAAAAGGCTGAGGAGACCGGATCAGCTGTGCTTGCGACTATTCTCGCTCACGATGAGATTGCAGTGGAAGCCCAGGATTTCCCACAGACGCCGGGACTTGTCATTAATAAACTCCTGAAAAAAACCGGAAAGACCATAAAGGATATCGATTTATTTGAGGTGAATGAGGCGTTTGCGGCTGTTTCACTGGCCAGTGGGAAAATTGCCGGTCTGGATCCGGAGAAAGTGAATGTCAACGGTGGAGCCGTTGCTCTTGGACATCCAATCGGAGCCAGTGGAGCACGTATCCTTTTGACACTGGCTTATGAACTGAAACGCCGGGGCGGCGGTACAGGAATTGCAGCCATCTGCTCAGGCGGCGGCCAGGGAGATGCGGTTCTAATCGAAGTACCGAAACAATAA	MRKTVIVDGARTPFGKFGGSLAPLTAAQLGGLAIKAALKKAQVHVEDVNEVIMGTVLQGGQGQLPSRQAAREAGIPWDVKTETVNKVCASGMRSVTMGDQFIRLGEEEIIVAGGMESMSNAPYFMPKARWGLRMGDASVKDMMVHDGLTCSFENVHMGSYGNRTAEQYELTREAQDEWAYRSHQRAVQATEDGKLGEEITPVEIPQRKGDPVVVDQDEAPRKSTTMEALSKLRPVFDKSGTITAGNAPGVNDGACAMVLMSEEKAEETGSAVLATILAHDEIAVEAQDFPQTPGLVINKLLKKTGKTIKDIDLFEVNEAFAAVSLASGKIAGLDPEKVNVNGGAVALGHPIGASGARILLTLAYELKRRGGGTGIAAICSGGGQGDAVLIEVPKQ	PGPT0008320_6789	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
AK012_01796	852	mmgB	COG1250	putative 3-hydroxybutyryl-CoA dehydrogenase	ATGTCAATGAATAAAGTCATGGTCATCGGCGCAGGACAGATGGGCGCAGGGATTGCTCAAGTCTTTGCTCAGGCCGGTTTTTATGTGAAATTGAATGATCGAGATCAGGAAGCATTGAATAAAGGAAGAGACGGAATTGAAAAGCGTCTGGAAAGAGCTGTGGATAAGGGGCGCATGACTGATGGGAAACGTGACGAGACGCTGAAGAACCTGACCATTACGACCGACCTGCAGGACGCCTCGGACTGTGACCTCGTCGTGGAAGCTGTCGTGGAGAATATGAAAGTGAAGATCGATGTGTTCCAGCAGCTGGATGAAATCACACCTCCTCATGCAGTTTTGGCGACCAATACTTCGTCCCTTCCGATCACCGAAATTGCGGCAGCGACGAAGCGTCCGGAACAGGTCATTGGCATGCATTTTATGAATCCGGTCCCGGTTATGAAGCTTGTAGAAATCATCAGGGCGATTCAGACCAGTGATGAAACGTATGCATCCGTGAAAGACATGGCCGAAAAACTCCAGAAGACACCGGTAGAGGTGGAGGATTTCCCTGGCTTTGTCTCCAATAGGATTTTGATGCCGATGATCAATGAGGCAATTTACACGGTTCATGAAGGTGTCGCTTCTCCAGAGGATGTGGATGCTGTTATGAAGCTGGGCATGAATCATCCGATGGGGCCGCTGACCTTGGCGGATTTTATCGGACTGGATACGTGTCTTTACATTATGGAGATCCTGCATGACGGATTTGGCGACAGCAAATACAGACCATGTCCGCTTCTCCGTAAATACGTCAAAGCCGGCTGGCTCGGGAAGAAGTCCGGCCGCGGTTTTTACATCTATGAATAA	MSMNKVMVIGAGQMGAGIAQVFAQAGFYVKLNDRDQEALNKGRDGIEKRLERAVDKGRMTDGKRDETLKNLTITTDLQDASDCDLVVEAVVENMKVKIDVFQQLDEITPPHAVLATNTSSLPITEIAAATKRPEQVIGMHFMNPVPVMKLVEIIRAIQTSDETYASVKDMAEKLQKTPVEVEDFPGFVSNRILMPMINEAIYTVHEGVASPEDVDAVMKLGMNHPMGPLTLADFIGLDTCLYIMEILHDGFGDSKYRPCPLLRKYVKAGWLGKKSGRGFYIYE	PGPT0006075_4324	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
AK012_01797	1152	mmgC_2	COG1960	Acyl-CoA dehydrogenase	ATGACCGTGGATCTTCAATTTACAGATGAACAGAAAATGATGCGCCGGATGGTGCAGGACTTCGCACAAAACGAGGTGGCACCGGCCGTCGAGCGTATGGAGCAGGAAGACCGGTTTCCGGAAGAATTGATCCCTGAAATGGGGGAGCTCGGTTTAATGGGGATTCCCATTCCTGAAGCCTATGGAGGAGCGGAAATGGATTACACCTCCTACATTATTGCTATTCATGAACTATCCAAGGTAAGTGCGACACTCGGGGTCATTTTATCTGTCCATACATCGGTGGGGACCAACCCCATCCTATACTTCGGATCCGAAGAGCAGAAATCCAAATACATTCCCAAACTCGCCACCGGACAATACCTGGGTGCGTTTGCCCTGACCGAACCAAGCGCCGGCAGTGATGCCAGCAGTCTGAAGACACGTGCCGAGAAGAAGGGGGACCGGTACATTCTCAATGGCTCCAAGGTGTTCATCACCAACGGAGGCAATGCAGATACCTTCATCGTTTTTGCGCGGACGAACCCTGATGTACCTCCGAGTAAAGGCTTGAGCGCTTTTATTGTGGAACGCGGAACGCCTGGATTTGCTATTGGTAAAGCGGAAAGGAAAATGGGCATGCACGGATCGAGCACGGTATCCTTGAACTTTGATGCCTGCGAGCTGCCTGCCTCCCAGCTCTTGGGGAAGGAAGGGGAAGGCTATAAAATTGCCCTTTCCAACTTGAATATCGGACGGATCGGCATTGCTGCCCAGTCGCTCGGGATTGCGGAAGCCGCTTTGGAGCATGCGGCAGCCTACGCAAAGGAAAGGGAGCAGTTCGGCCGGCCGATCGCCCACCTGCAGGGGATCTCCTTCAAATTGGCAGATATGGCTTCAGAAGTGGAAGCTTCCAAGCTGATGGTTTACAACGCAGCATCCATGCAGGCACTGGGAAAGCCGTGCAGTAAAGAAGCGTCGATGGCTAAGCTGATAGCTTCCCGCACGGCAGTCAAAGCGGCCATTGAGGCAGTACAGATACACGGAGGCTATGGATATACAGAAGATTATGCGGTGGAACGCTTCTTCAGAGACGCGAAAGTCTGCGAGATTTACGAAGGAACGAGCGAAGTCCAGCGTGTGGTCATCGGCAATCATCTGGTGAGAGATTAG	MTVDLQFTDEQKMMRRMVQDFAQNEVAPAVERMEQEDRFPEELIPEMGELGLMGIPIPEAYGGAEMDYTSYIIAIHELSKVSATLGVILSVHTSVGTNPILYFGSEEQKSKYIPKLATGQYLGAFALTEPSAGSDASSLKTRAEKKGDRYILNGSKVFITNGGNADTFIVFARTNPDVPPSKGLSAFIVERGTPGFAIGKAERKMGMHGSSTVSLNFDACELPASQLLGKEGEGYKIALSNLNIGRIGIAAQSLGIAEAALEHAAAYAKEREQFGRPIAHLQGISFKLADMASEVEASKLMVYNAASMQALGKPCSKEASMAKLIASRTAVKAAIEAVQIHGGYGYTEDYAVERFFRDAKVCEIYEGTSEVQRVVIGNHLVRD	PGPT0002285_601	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
AK012_01798	1140	acdA_2	COG1960	Acyl-CoA dehydrogenase	ATGAATTTCACATTAACAGAAGAGCAGGAAATGCTTAGAAAAATGGTCCGGGATTTTTCCAAGAACGAGGTGGAACCAACAGCGGCTGAGCGCGATGAAGAGGAGCGTTTTGATCGTGAAATTTTTGATAAAATGGCTGAACTCGGGCTGACTGGCATCCCATGGCCGGAAGAATACGGGGGCATCGGTTCGGATTTTATCAGCTATGTCATTGCTGTGGAGGAACTTTCCAGAGTATGTGCTTCCACGGGGGTCACGCTCTCCGCCCATATCTCTCTGGCCAGCTGGCCGATTTATACATTTGGAACAGAAGAACAGAAGAAGAAGTTTCTAGCGCCCCTGGCTGCTGGTGAAAAACTGGGGGCCTACGCTTTATCCGAACCCGGAGCGGGAAGTGATGTGTCCTCCATGCGCACACAGGCGAAGCTTGATGGAGACAGCTATGTATTGAACGGAAGCAAAGTGTGGATCACCAATGGCGGTGTGGCAGATACGTATGTCGTCTTTGCTAAAACGAATCAGGACGAAGGGAACCGGGGCATCAGTGCATTCATCGTAGAAAAAGACACTCCGGGATTCTCCACAGGGAAAAAAGAGAAGAAGCTCGGCATTCGTTCCTCTCCAACGACCGAGTTGATTTTTGAAGACTGCCGGATTCCTAAGGGGAATCTGCTTGGAGAAGAAGGACAAGGATTTAAGATCGCTATGATGACGCTCGACGGTGGTAGGAACGGAATCGCTGCACAGGCTGTAGGAATCGCCCAGGGGGCGCTTGATGAATCCGTTGCTTATGCTAAAGAGCGGGAGCAGTTCGGGAAGCCGATCGCTGCTTTACAGGGGATTTCGTTTAAGCTGGCGGATATGGCCACTGAAATCGAAGCTTCCCGCCTGCTTACGTACCAAGCCGCATACTTGGAATCTGAAGGTCTTCCGTACTCCAAAGCATCGGCAATGGCGAAATTGTTTGCCGGCGATACGGCGATGAAAGTGACTACGGAGGCCGTTCAGGTACACGGCGGATACGGATACACGAAGGATTACCCGGTCGAACGGTACATGCGGGACGCGAAGATCACGCAGATATATGAGGGAACACAGGAGATTCAGCGTCTCGTTATCGGCCGGATGGTAACGAAGTAG	MNFTLTEEQEMLRKMVRDFSKNEVEPTAAERDEEERFDREIFDKMAELGLTGIPWPEEYGGIGSDFISYVIAVEELSRVCASTGVTLSAHISLASWPIYTFGTEEQKKKFLAPLAAGEKLGAYALSEPGAGSDVSSMRTQAKLDGDSYVLNGSKVWITNGGVADTYVVFAKTNQDEGNRGISAFIVEKDTPGFSTGKKEKKLGIRSSPTTELIFEDCRIPKGNLLGEEGQGFKIAMMTLDGGRNGIAAQAVGIAQGALDESVAYAKEREQFGKPIAALQGISFKLADMATEIEASRLLTYQAAYLESEGLPYSKASAMAKLFAGDTAMKVTTEAVQVHGGYGYTKDYPVERYMRDAKITQIYEGTQEIQRLVIGRMVTK	PGPT0002285_601	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
AK012_01799	942		COG1703	putative GTPase	ATGATGCATCCGTTGGCGGAACGAATACAAAATCAGGATATGAGGGCGCTTGCCCGTGCCATCACGCTCGTTGAAAATGAGGATCCGGAAAAGCTTCCGCTGATGAGTGACATCTTTTCGATACAGAAGCAGGCCCACTACATCGGCATCACAGGATCACCCGGGGCGGGGAAAAGTTCGTTGATCAACCGGCTGCTGACTTATTTGAGAGAGCAGGAGCTTACCGTTGCCGTCATTGCCGTTGACCCTACGAGTCCATTCAGCGGCGGTGCCCTGCTCGGGGACCGTACGAGGATGAACCAGCATTTCCTTGATCCAGGGATTTTCATCCGCAGTATGGCAACGAGGGGCAGTCTTGGAGGTTTGGCGAGGGCGACGAAGGACAGCATCCGGGTCTGTGATGCATATGGCTTTGATGTCGTACTTGTGGAAACCGTCGGGGTCGGTCAGTCCGAGCTGGATGTCATGAAGGTGGTGGATACAACCGGGCTTGTATTGACACCAAACAGTGGAGATGTGCTGCAGATTTTCAAGGCGGGGATTATGGAAATTGCTGATCTCTTTCTTATTAATAAAGCAGACCTTCCGGGTGTTCGTAAGCTGAAGTCGACCCTTGAGGAATATTTGATGATCATCCAGCCGGAGGGTTGGCAGCCGCCTATCGTGGAGACGGTGGCGGTCGAGTCCAGAGGTATGAGTGATGTCTGGGAGAAGATGAAGGAGCACCGTACGTATTTATATGAAACCAAGGCAGGGACGAAGCGGAGGAAAGAACAGCTGCAGCTGGAAGTCTATGATCTGATCCGCGAAGAAATATGGCGGAACGTCAAATCTTCTGTAGAGAAGGATCCGCAGAAAACGGCAGCCTTCGAAAATCCCGATGCCGATCCATACCAGTTGGCCCGAGCATGGTTGCAGGAATGGGCCGGGAAGGGTGAGTGA	MMHPLAERIQNQDMRALARAITLVENEDPEKLPLMSDIFSIQKQAHYIGITGSPGAGKSSLINRLLTYLREQELTVAVIAVDPTSPFSGGALLGDRTRMNQHFLDPGIFIRSMATRGSLGGLARATKDSIRVCDAYGFDVVLVETVGVGQSELDVMKVVDTTGLVLTPNSGDVLQIFKAGIMEIADLFLINKADLPGVRKLKSTLEEYLMIIQPEGWQPPIVETVAVESRGMSDVWEKMKEHRTYLYETKAGTKRRKEQLQLEVYDLIREEIWRNVKSSVEKDPQKTAAFENPDADPYQLARAWLQEWAGKGE				NA	NA	NA	NA	NA
AK012_01800	591			hypothetical protein	ATGATCAAGGGTGCCGTGACGCTGTTTATGGAGAAAGGCTTTCATAAAACGACGACACGCGAAATCGCAAAAGCGTCCGGGTTCAGCATCGGAACCTTATATGAATACATCCGCAAGAAAGAGGATGTATTATTTCTCGTCTGTGACTCTATTTATCAGCGTGTCAAAGAGAGAATGGAAGCCTCGATTGATCCGGAGCAGACATCAGTGAACAGTCTGGTTCAAGCGGTCCGTTCTTATTTTCAATTGATGGATGATATGCAGGATGAAGTCCTGGTGATGTATCAGGAAGTGAAGTCCCTGTCACGGGAAGCTCAGGATTATGTCCTCCAGAAAGAGCGGGATATGGTCGCCATGCTGGAGCAGGTCATCATCAACAGCCTCCCCGGGGAATGTTCCGAAGCGGAAGTACGTTTGATTGCCAATAATATATTTGTTCAAGGACAGATGTGGGGGTTCAGACGCTGGATTCTGCAGCGTACGTTTACGATTCAATCGTATACCGATACCCAGATCCACCTGCTTCTAAAGGGTCTGGGAAAAGAGGCAGAAGGAATCATACAGCCGGTTGACGGCGCAGGGAATGCGTAA	MIKGAVTLFMEKGFHKTTTREIAKASGFSIGTLYEYIRKKEDVLFLVCDSIYQRVKERMEASIDPEQTSVNSLVQAVRSYFQLMDDMQDEVLVMYQEVKSLSREAQDYVLQKERDMVAMLEQVIINSLPGECSEAEVRLIANNIFVQGQMWGFRRWILQRTFTIQSYTDTQIHLLLKGLGKEAEGIIQPVDGAGNA				NA	NA	NA	NA	NA
AK012_01801	3249	icmF_2	COG1703	Fused isobutyryl-CoA mutase	ATGGAACAACCGACAATCTATAAGCCGAAGAATCCTGTCCGATTCGTTACGGCTTCCAGTCTTTTCGATGGTCATGACGCTTCCATTAATATTATGAGGAGAATTCTGCAATCCACCGGTGCGGAAGTGATCCACCTCGGTCATAACCGGTCCGTTGAAGAAGTGGTCAATGCGGCGGTACAGGAAGATGCCCAGGGCATTGCCATTTCGTCCTACCAGGGAGGACATGTGGAATATTTCAAGTACATGGTCGACCTTTTGAATGAAAAGGGTGCCGGTCATATCCGCGTTTATGGAGGCGGGGGCGGTGTGATCATTCCCCGTGAAATCAAAGAGCTTCACGACTACGGCGTTGCCCGGGTATTTTCTCCTGAAGACGGTCGTTCCCTTGGTCTGCAGGGCATGATCAACAAGATGATGGAGGAGTGTGATTTTCTCCCACCCCTTGATGTGGAAAAAGGAGTGGCCGATTTATCTGAAGGAAATCATCAGGCAGTCGCCCGCTTTATTACGTACGTTGAAAATACGTCCAAGGAAGAGCGGGAGGCTGTAGCTGCCTTTGAAACAGCGGTAGAGAAAACCCAGGATAAAACGATTCCGGTTCTCGGAATTACCGGTACAGGGGGAGCAGGGAAAAGTTCGCTGACCGATGAACTGATCCGTCGTTTTATTCACGAGGTCCCGGAAAAGAAAATCGCTGTCCTGTCTGTCGATCCGACGAAAAAGAAAACCGGAGGCGCGCTTCTTGGGGACCGGATCCGTATGAATGCGATCTTCCATCCCCGCGTTTATATGAGGTCGCTGGCGACACGTGACGCCCGCTCAGAGTTGTCTACCGCAGTGGAGGAGGCCATTCAGGTTGTGAAAGCTGCCGGCGTGGATTTTATTATTGTCGAAACGAGCGGGATCGGACAGGGTGATGCCGCGGTTACGGACATTACGGATTTATCCATGTATGTGATGACTGCGGAATTCGGAGCCCCTTCCCAGCTTGAAAAAATCGATATGATTGATTTTGCCGACTTTATTGTCATTAACAAGTTCGAGCAGAAAGGTTCCGAGGACGCGTTTAATCAAGTGAAAAAGCAGTATCAGCGCAGTCATATGCTGTTCCATGAGGATGACAGCCGTTTCCCTGTCTATGGGACGATTGCCAGCCAGTTCAATGACCCGGGGACAAACACCTTGTTCGCGGCGCTGCTGGAGAAGTTGAATGACACCTATGCCTGGCAGGAGGAAACTTCTTTCTCCTCCCTGAACCAAAAGGCGGAAAAGCAGAATGTGATTATTCCGAATGAGCGGAAGCAGTATCTGCGGGATATTTCCATGGCTGTCCGCGATTATCACCAGCATACGGACACACAGGCGGAAGCGGCGAGTAAGCTGTATCAGCTTCAGGGGACCCTCGATATGCTGGAAGATGAAGACGTCAAAGAGAACCTTCACCGTTTAATGGAGGATTATGAACGGACCATCGACCGGGATGCGCTCGACAAGCTGGGGGACTGGGATGGTCTTCACGAACGATACAGCGGCGATACGTATACATTTGAAGTCAGAGGCAGAGACATCACGATGGACCTGACAACTGAAAGTCTGAGTGGAACGAAAATCCCGAAAGTGGCCCTCCCACGCTATAAGGACTGGGGAGACCGGCTGACGTGGCTCCTTCAGGAGAATGTTCCGGGCGCCTTTCCTTTTACAGCCGGCGTTTTTCCTTTCAAACGGAAAGGGGAAGATCCGAAGCGTCAGTTTGCCGGGGAAGGAACTCCGGAGCGGACGAACCGCCGTTTTCATTATTTATCGGAAGGCGATGAAGCGAAAAGACTGAGTACAGCCTTTGATTCCGTTACGCTGTACGGGGAGGATCCCGATGAGCGGCCGGATATCTATGGAAAGGTCGGCGAGAGTGGAGTAAACATCTGTACCCTTGAAGATATGAAAAAACTGTATGACGGCTTTGATCTCGTCGATCCCACGACGTCGGTATCGATGACGATTAACGGACCGGCGCCGATTATTCTGGCCATGTTCTTCAATACAGCCGTCGACCAGCAGCTGGAGAAGTTCCAGGAGGAGGAAGGACGGGCGCCGACGGCAGAGGAAGCCGAAAAGATCAAAACAGAAACGATTCAAGTCGTCCGCGGCACCGTTCAGGCAGATATTCTTAAAGAAGACCAGGGGCAGAATACCTGCATTTTCTCTACAGAATTTGCCTTGAGGATGATGGGCGATATTCAACAGTATTTCATTGACCATCAGGTCCGCAACTATTATTCCGTCTCCATATCGGGCTATCATATTGCTGAAGCAGGGGCAAACCCGATTACACAGCTGGCCTTTACCCTCGCCAATGGTTTTACTTATGTGGAATATTATTTGAGCCGTGGGATGGACATCGACAAGTTTGCACCCAATTTATCCTTCTTCTTCTCCAACGGACTGGATCCGGAATACACCGTGCTTGGCCGCGTAGCGAGGCGGATCTGGGCCGTCGTCATGCGGGATAAATATGGAGCGAATGAGCGGAGTCAGAAGCTGAAGTATCACATCCAGACTTCCGGACGATCCCTGCACGCGCAGGAAATAGATTTTAATGATATCCGGACGACGCTGCAGGCACTGATTGCGATTCAGGACAACTGTAATTCCCTGCATACCAACTCCTATGATGAAGCCATTACAACACCTACCGAAGAGTCGGTAAGAAGGGCGATGGCGATTCAAATGATCATCAGCAAGGAGTTCGGTCTCACGAAAAATGAAAACTCCCTCCAGGGGGCGTACATTATCAGAGAGTTGACCGACCTGGTCGAAGAAGCGGTGCTTCAGGAGTTCGAACGGATCAACGACCGCGGGGGTGTGCTGGGAGCGATGGAGCGCCAGTATCAACGAGGGAAAATTCAGGAGGAGTCTCTTTATTATGAAGGGAAGAAGCATTCAGGGGACCTGCCGATCATCGGTGTGAATACGTACTTGAATCCGAATCCTCCTTCCGAAGAGGAAATCGATTCGATGGAACTGGCCCGTGCCTCCAAGAAAGAGAAGAACCACCAGATTACAGAACTCCGCCGTTTCCAGCAGTCGAATGAACAGAAGGCGGCTGCGGCTCTTCATCGGTTGAAGCAGACAGCGGCCGGAGGCGGAAACATCTTTGCTGAACTGATGGAAACCGTCAAAGTGGCCAGTCTCGGACAGATTACCAACGCGCTTTATGAAGTAGGGGGACAGTATAGAAGAAACATGTAG	MEQPTIYKPKNPVRFVTASSLFDGHDASINIMRRILQSTGAEVIHLGHNRSVEEVVNAAVQEDAQGIAISSYQGGHVEYFKYMVDLLNEKGAGHIRVYGGGGGVIIPREIKELHDYGVARVFSPEDGRSLGLQGMINKMMEECDFLPPLDVEKGVADLSEGNHQAVARFITYVENTSKEEREAVAAFETAVEKTQDKTIPVLGITGTGGAGKSSLTDELIRRFIHEVPEKKIAVLSVDPTKKKTGGALLGDRIRMNAIFHPRVYMRSLATRDARSELSTAVEEAIQVVKAAGVDFIIVETSGIGQGDAAVTDITDLSMYVMTAEFGAPSQLEKIDMIDFADFIVINKFEQKGSEDAFNQVKKQYQRSHMLFHEDDSRFPVYGTIASQFNDPGTNTLFAALLEKLNDTYAWQEETSFSSLNQKAEKQNVIIPNERKQYLRDISMAVRDYHQHTDTQAEAASKLYQLQGTLDMLEDEDVKENLHRLMEDYERTIDRDALDKLGDWDGLHERYSGDTYTFEVRGRDITMDLTTESLSGTKIPKVALPRYKDWGDRLTWLLQENVPGAFPFTAGVFPFKRKGEDPKRQFAGEGTPERTNRRFHYLSEGDEAKRLSTAFDSVTLYGEDPDERPDIYGKVGESGVNICTLEDMKKLYDGFDLVDPTTSVSMTINGPAPIILAMFFNTAVDQQLEKFQEEEGRAPTAEEAEKIKTETIQVVRGTVQADILKEDQGQNTCIFSTEFALRMMGDIQQYFIDHQVRNYYSVSISGYHIAEAGANPITQLAFTLANGFTYVEYYLSRGMDIDKFAPNLSFFFSNGLDPEYTVLGRVARRIWAVVMRDKYGANERSQKLKYHIQTSGRSLHAQEIDFNDIRTTLQALIAIQDNCNSLHTNSYDEAITTPTEESVRRAMAIQMIISKEFGLTKNENSLQGAYIIRELTDLVEEAVLQEFERINDRGGVLGAMERQYQRGKIQEESLYYEGKKHSGDLPIIGVNTYLNPNPPSEEEIDSMELARASKKEKNHQITELRRFQQSNEQKAAAALHRLKQTAAGGGNIFAELMETVKVASLGQITNALYEVGGQYRRNM				NA	NA	NA	NA	NA
AK012_01802	315			hypothetical protein	ATGGAAAACCGCCCTTTCAACTGGACAGCCCTCATTCTGTTTGCTGCTGCTCTTGGGATCTGGCTTTATTCAAGTTTCGGGATCATCCACTCCGAACACCTCGAGGAAGCAGAAGTAACGAAAAAGACCCATAATGATGAGGGTTATTATGTCACGATCGATGACAAGAAAGTATCTGTCAAGGATACGAGCACATGGATGCTCCTTGAAGAAGGAGGAACCTACAACATTACTTATGAATGGTACGGCATGAAAAAACCGTATGTGACAGAAGTGAACCAGGCCCACGATGACGATCAGGTGGGCGGCCACTAA	MENRPFNWTALILFAAALGIWLYSSFGIIHSEHLEEAEVTKKTHNDEGYYVTIDDKKVSVKDTSTWMLLEEGGTYNITYEWYGMKKPYVTEVNQAHDDDQVGGH				NA	NA	NA	NA	NA
AK012_01803	534	rpoE_2		DNA-directed RNA polymerase subunit delta	GTGAGCGTAAAAGAACTCAGCCCACAGAAGATTGAAGAAATTTCCATGATCGAACTGGCGACCCTGATATTAGAAGAGGAGCGCGAAGCCATTGATTTTAATGAAATCTTTAACCGGATTTCAAAAATGAAAGGTTTCACAGAAGCTCAGGACGAAGAGTACATTGCCCAGTTCTACACAGATATGAACATTGACGGCCGTTTCATGACGATAGGAACGAACCGCTGGGGTTTGAAGAAGTGGTACCCGGTCGAGCAGATGGAAGAAGAAATCGCCAACCTGCCTCAGAAACGCAAAAAGAAGAAGAAAAAGAAAAAACCTTCCAAGCTGCTTGAAGATGAGCTCGGTGCAGATGAATACAATGATGAAGACGAAAATCTCGAAGACGATCTTGAACTTACCGATGAAGACCTTGACCTTGATGATGACGATGATTACGATGGTGATTATGAAGATGATGACTTGGATGAGGAAGAGGAAGAAATGGTGGAAGATGATCTCAGCTTCGTTGGAGATGACGACGAAGATAAATAA	MSVKELSPQKIEEISMIELATLILEEEREAIDFNEIFNRISKMKGFTEAQDEEYIAQFYTDMNIDGRFMTIGTNRWGLKKWYPVEQMEEEIANLPQKRKKKKKKKKPSKLLEDELGADEYNDEDENLEDDLELTDEDLDLDDDDDYDGDYEDDDLDEEEEEMVEDDLSFVGDDDEDK				NA	NA	NA	NA	NA
AK012_01804	1605	pyrG		CTP synthase	GTGGCAACAAAATACATTTTTGTAACAGGCGGAGTGGTTTCATCTCTGGGAAAAGGGATTACAGCTGCTTCATTAGGACGTTTATTGAAAAACCGTGGCTTGAAGGTAACCATCCAGAAATTTGATCCATACATCAACGTAGATCCGGGAACGATGAGCCCGTACCAGCACGGGGAAGTTTTCGTCACAGATGACGGCGCTGAAACGGATTTGGACCTTGGTCACTACGAGCGCTTCATTGACATCAATTTGAACAAATTCAGTAACGTGACAACAGGTAAAGTCTACTCCACCGTTATTAAAAAAGAACGCCGCGGCGATTACCTCGGCGGGACCGTACAGGTTATTCCGCATATTACGAATGAAATCAAAGACCGTGTTTTCCGCGCCGGCCATGAAACGAATGCCGACGTCGTCATTACGGAAATCGGCGGAACGGTCGGGGATATCGAATCCCTGCCATTCCTTGAGGCGATCCGACAAATCAAGAGTGATATCGGACGCGAACACGTCATGTACCTTCACTGCACGCTGGTGCCGTATTTGAAAGCTGCAGGGGAAATGAAGACGAAACCCACCCAGCACAGTGTCAAAGAGCTGCGCTCTCTCGGCATTCAGCCGGATGCAATTGTCCTTCGTACAGAGATGGAAATTTCCGAAGACATGAAGGAGAAAATTGCTCTGTTCTGTGACATCAACAAGGAAGCGGTCATTGAAATGGCGGATGCCGACACGCTGTACAATGTTCCGATCAACCTACAGGAGCAGAAGCTGGACCAGCTGACATGCGACCACTTCGGTCTGGACTGTGCACCTGCGGATATGACGGAATGGAACAAGCTGATCGATCGAGTGAAAAACCTTCAGCACAAGACGACGATTGCACTTGTCGGTAAGTATGTAGAGCTTCCAGATGCCTACATTTCTGTTGTCGAGGCTTTGAAACACGCAGGATACAGCTACGATTCCGATATTGATGTGAAGTGGGTCAATTCAGAAGGGCTGAATGCGGCCAACGTGGAAGCTGAACTGAATGGTGTAGACGGAATCCTTGTACCCGGCGGCTTCGGGGATCGTGGTATTGAAGGCAAAATCGATGCCATCCGTTACGCAAGGGAAAGCCGTATTCCTTTCCTTGGTATCTGTCTTGGTATGCAGCTGGCAACGGTTGAATTTGCCCGTAACGTTCTCGGTCTTGAAGGAGCGCACTCGGCGGAAATCGATCCATCTACGGCGCATCCGATCATTGATCTTCTTCCTGAGCAGAAAGAGGTATCTGATCTTGGCGGTACGCTGAGACTGGGGATTTACCCTTCCCGACTGAAAGAAGGCTCCAAAGCGCTGGAAGCTTATGGAGAAGAAGTGATCTACGAGCGTCACCGCCACCGTTTTGAGTTTAACAACCATTACCGTGAGCAGATGGAAGCGGCCGGCTTCAAGTTCTCTGGAACAAGTCCTGACGGCCGGCTTGTCGAAATCATCGAAGTGGAAGACCATCCTTGGTTCGTAGCGAGCCAGTTCCACCCGGAATTCAAGTCACGCCCGACGCGTCCGCAGGAACTGTTCCATGGATTTATCGGGGCGGCTATGAAGACCTATCAATAA	MATKYIFVTGGVVSSLGKGITAASLGRLLKNRGLKVTIQKFDPYINVDPGTMSPYQHGEVFVTDDGAETDLDLGHYERFIDINLNKFSNVTTGKVYSTVIKKERRGDYLGGTVQVIPHITNEIKDRVFRAGHETNADVVITEIGGTVGDIESLPFLEAIRQIKSDIGREHVMYLHCTLVPYLKAAGEMKTKPTQHSVKELRSLGIQPDAIVLRTEMEISEDMKEKIALFCDINKEAVIEMADADTLYNVPINLQEQKLDQLTCDHFGLDCAPADMTEWNKLIDRVKNLQHKTTIALVGKYVELPDAYISVVEALKHAGYSYDSDIDVKWVNSEGLNAANVEAELNGVDGILVPGGFGDRGIEGKIDAIRYARESRIPFLGICLGMQLATVEFARNVLGLEGAHSAEIDPSTAHPIIDLLPEQKEVSDLGGTLRLGIYPSRLKEGSKALEAYGEEVIYERHRHRFEFNNHYREQMEAAGFKFSGTSPDGRLVEIIEVEDHPWFVASQFHPEFKSRPTRPQELFHGFIGAAMKTYQ	PGPT0021215_4068	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021215-pyrG-K01937	NA	NA
AK012_01805	372	spo0F	COG0784	Sporulation initiation phosphotransferase F	ATGACGAATAAAATCCTGATTGTAGATGATCAACCGGGGATCCGCCTGCTGCTTGAGGAAATCCTGAAAGCAGAAGGCCATGAGACGATTTCAGCGAAAACAGGAAAAGAAGCATGCCGGGTGGTAAAGGAAGAGCGCCTGGATCTTATCATCATGGATTATAATCTTCCGGTCATGCATGGGAGAGATGTCCTTCAATTCCTGGAGGAAATGAATTATTCTTCTCCGGTTATGATTATTACGGGGGATTCTGAGGAATCAGTCAGGAAGGACATGGATTTCCATTTCGTCACCCATATCATAACAAAACCGTTTGACATCCATAATTTGAAGGAAATGGTAAACGGAACGCTTGTCCACAGCCGGTCATGA	MTNKILIVDDQPGIRLLLEEILKAEGHETISAKTGKEACRVVKEERLDLIIMDYNLPVMHGRDVLQFLEEMNYSSPVMIITGDSEESVRKDMDFHFVTHIITKPFDIHNLKEMVNGTLVHSRS	PGPT0024650_221	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024650-spo0F-K02490	NA	NA
AK012_01806	864	fbaA	COG0191	putative fructose-bisphosphate aldolase	ATGCCACTAGTATCAATGAAAGAAATGCTAGAAAAAGCTAAGGAAGAACGCTACGGTGTAGGTCAGTTCAACCTTAATAACCTAGAATATGCCCAGGCCATCCTGCAGGCTGCGGAAGAAGAGCAGTCTCCGGTCATCCTTGGTGTTTCTGAAGGTGCTGGACGTTACATGGGCGGCTTCAACGTAGTCGTTGACATGGTGAAAGCACTTATGAAATCCTACGGTACCACTGTACCGGTTGCGATTCACCTTGACCACGGTTCCAGCTTCGAAAAATGTGCAGAAGCGATCCACGCCGGATTTACTTCTGTCATGATCGATGCTTCTCATGATCCATTGGAAGAGAACATCGCTGTTACGAGAAAAGTTGTTGAGCTTGCTCACATCCACGGGGTATCTGTTGAAGCAGAACTCGGCCGTGTTGGTGGTCAGGAAGATGACTTGATCGTAGACGATGCAGAAGCTGCCTACGCTATTCCTTCCGAGTGTAAGCAATTGGTTGACGAAACAAACGTTGACGTATTTGCACCGGCACTTGGTTCTGTCCACGGCCCTTACAAAGGTGAACCAAACCTTGGCTTTGACCGCATGGAAGAAATCATGGGACTTGTAGACAAGCCGCTTGTTCTTCACGGTGGTACAGGAATCCCTACAGCTGACATTAAGAAAGCCATTTCTTTCGGTACAGCTAAAATTAACGTGAACACTGAAAACCAGATCGCACAAGGGAAAGCCGTACGTCAAGTTCTTGCTGACCAGCCTGAACAGTACGACCCTCGTAAATATCTTGGACCCGGCCGTGACGCTATCAAAGAAACGGTTATCGGCAAGATGCGTGAATTCGGTTCTTCCAATCAAGCGTAA	MPLVSMKEMLEKAKEERYGVGQFNLNNLEYAQAILQAAEEEQSPVILGVSEGAGRYMGGFNVVVDMVKALMKSYGTTVPVAIHLDHGSSFEKCAEAIHAGFTSVMIDASHDPLEENIAVTRKVVELAHIHGVSVEAELGRVGGQEDDLIVDDAEAAYAIPSECKQLVDETNVDVFAPALGSVHGPYKGEPNLGFDRMEEIMGLVDKPLVLHGGTGIPTADIKKAISFGTAKINVNTENQIAQGKAVRQVLADQPEQYDPRKYLGPGRDAIKETVIGKMREFGSSNQA	PGPT0017615_4386	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
AK012_01807	642	tal	COG0176	Transaldolase	ATGAAATTTTTCATTGATACAGCCAATATTGAGGATATCCGGGAAGCCAATGCTTTAGGCATTCTGGCAGGGGTTACGACAAACCCGAGCCTTGTTGCAAAGGAAGGGGTTTCTTTCCACGACCGTTTAAGAGAGATTACGGCAGAAGTAGCCGGGTCTGTCAGTGCTGAGGTGATTTCTGAAGACGCAGAAGGAATGATTCGGGAAGGGAAGGAACTCGCAGCCATTGCGCCGAATATTACGGTAAAGGTCCCCATGACAATGGAAGGGTTGAAAGCTGTAAAGGCATTTAGTGACCTGAATATCAAAACAAACGTCACCCTTGTGTTTTCAGCAAACCAGGCGTTGATGGCAGCCAGAGCAGGTGCCTCCTATGTGTCTCCGTTTCTCGGCCGTCTCGATGATATTGGTCAGAATGGCATGGAATTAGTCGCTCAGATCTCGGAAATCTTCGATCGTCATGCAATTGATACAGAAATCATCGCTGCCTCTGTCCGCCACCCCGTTCATATTACTGAAGCGGCCCTGCATGGTGCGCACATTGCAACGGTTCCTTTTAAAGTTCTGAATCAAATCGTGAAGCACCCTTTGACGGATCAGGGAATAGAAAAATTCCTGAATGACTGGAATAACCAAAAATAA	MKFFIDTANIEDIREANALGILAGVTTNPSLVAKEGVSFHDRLREITAEVAGSVSAEVISEDAEGMIREGKELAAIAPNITVKVPMTMEGLKAVKAFSDLNIKTNVTLVFSANQALMAARAGASYVSPFLGRLDDIGQNGMELVAQISEIFDRHAIDTEIIAASVRHPVHITEAALHGAHIATVPFKVLNQIVKHPLTDQGIEKFLNDWNNQK	PGPT0017375_5707	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
AK012_01808	1287	murAB	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase 2	ATGCGTAAACTATTAGTAAAAGGCGGGGCCCCGCTGCGGGGAGAGGTGAGGGTGAGCGGCGCCAAAAACAGTGCGGTTGCTCTTCTCCCGGCTGCAATTCTGGCCGAATCTCCTGTAACGATTGAAGGCCTGCCGGATATATCGGATGTTGGTATTTTGGCTGATCTTCTGGAAGAGATCGGTGGCACGGTGGCGAAGGAAGGAAGAACCGTACATATCGATCCGTCCAATATGGTGGACATGCCGCTTCCGAACGGAAAAGTGAAGAAGCTGCGGGCTTCCTATTATTTCATGGGAGCCATGCTCGGAAGGTTTAATAAAGCTGTCATCGGCCTTCCCGGCGGCTGTCATCTCGGTCCTCGTCCGATCGACCAGCACATCAAGGGGTTCGAGGCGCTCGGGGCAGAAGTGACGAATGAGCAGGGAGCCATTTATCTAAGAGCGAAGGAGCTCCGGGGTGCGCGTATTTATCTTGATGTGGTCAGCGTCGGAGCAACCATCAACATTATGCTTGCTGCTGTCAGGGCTAAAGGGAAGACTGTGATCGAAAATGCCGCCAAAGAGCCGGAAATCATTGATGTGGCCACCCTGCTGACAAGTATGGGAGCTAAAATTAAAGGCGCCGGAACGGACGTCATCCGTATTGAAGGGGTCCAGAACCTTCAGGGATGCCTCCATACGATCATTCCTGACCGGATTGAAGCCGGCACATACACCATCATGGCAGCTGCGCAGGGAGACGGGATGGTCATTGATAACGTCATTCCCCAGCACCTGGAATCCCTGCTCGCCAAGCTCAGGGAAATGGGCGTAACCATTGAGGAAAATGATGAGCAGTTGTACGTCCGGCCTGGAAAACAGCTTCGGAGTGTCGATATAAAAACACTCGTTTACCCCGGGTTTGCCACAGACCTCCAACAGCCGTTCACTTCCCTGCTCACGCAGACACAGGGGACGGGGGTTGTCACGGATACCATTTACCAGGCCCGGTTCAAGCACGTGGATGAGCTCAGGCGTATGAATGCCTCCATTAAGGTGGAGGGAGGATCTGCCATTGTAACAGGTCCTTCCAAACTGCAGGGGGCCAAAGTGAAAGCCACAGATCTGAGAGCCGGTGCAGCTCTGGTGATTGCCGGCTTAATGGCTGATGGGATTACGGAAATTACCGGCGTGGATCATATCGAACGAGGGTATGAGAATATCACGAACAAACTGATTGATTTGGGCGCCGACGTCTGGTACGAGGAAATGTCGGAAGAAGAAATCGAACAGTTCCAAAATTCTTAA	MRKLLVKGGAPLRGEVRVSGAKNSAVALLPAAILAESPVTIEGLPDISDVGILADLLEEIGGTVAKEGRTVHIDPSNMVDMPLPNGKVKKLRASYYFMGAMLGRFNKAVIGLPGGCHLGPRPIDQHIKGFEALGAEVTNEQGAIYLRAKELRGARIYLDVVSVGATINIMLAAVRAKGKTVIENAAKEPEIIDVATLLTSMGAKIKGAGTDVIRIEGVQNLQGCLHTIIPDRIEAGTYTIMAAAQGDGMVIDNVIPQHLESLLAKLREMGVTIEENDEQLYVRPGKQLRSVDIKTLVYPGFATDLQQPFTSLLTQTQGTGVVTDTIYQARFKHVDELRRMNASIKVEGGSAIVTGPSKLQGAKVKATDLRAGAALVIAGLMADGITEITGVDHIERGYENITNKLIDLGADVWYEEMSEEEIEQFQNS	PGPT0024090_2387	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
AK012_01809	1287	rho	COG1158	Transcription termination factor Rho	GTGGCAGATTTAACAATCTCCAATTTAGAAACATTGACCCTGAAGGACCTTTATACAAAAGCCAGGCAGTATAAAGTTTCCTATTATGCAAAGCTTACGAAGCGTGAATTGATTTTTGCCATTCTGAAGGCACAGGCAGAAAAAGACGGCTTTTTGTTTATGGATGGAATTCTGGAAATTATCCCTTCCGAAGGATTCGGCTTCCTGCGTCCGATTAACTATTCTCCAAGTGCCGAGGATATTTACATCTCCGCCTCCCAGATCCGTCGTTTTGACCTTCGTAATGGAGACAAGGTGTCCGGTAAAGTCCGTCCGCCGAAAGAGAACGAAAGGTATTATGGTCTGCTTCACGTAGACGCGGTGAACGGAGAGGACCCGGACTCTGCGAAAGAGCGTGTCCATTTCCCGGCTTTGACACCGCTTTATCCTGATAGACAGATGAAGCTTGAAACAGAAACGAAAAAGCTTTCCACACGGATCATGGATTTGATGGCTCCGGTGGGATATGGACAGCGTGGTTTGATTGTCGCTCCTCCAAAAGCAGGGAAAACGATGCTTCTGAAGCAGATGGCAAACAGTATTTCCGCCAATCATCCTGACGCGAAGCTGATTATTCTGTTAGTCGATGAACGTCCGGAAGAAGTCACCGATATTGAACGGTCTGTCGCTCCGGATGTGGATGTAGTCAGCTCCACATTTGACGAGGTTCCTGAAAATCATATCAAAGTATCAGAGCTGGTGCTGGAGCGGGCGATGCGCCTTGTGGAACATAAGCGTGATGTGATCGTGCTGATGGACAGCATCACCCGTCTGGCCCGCGCGTATAACCTTGTCATCCCACCCAGCGGGCGGACATTATCCGGTGGTATCGATCCGGCAGCCTTCCACCGTCCGAAGCGTTTCTTCGGTGCTGCCCGTAACATCGAAGAGGGGGGAAGCCTGACAATCCTGGCTACAGCCCTCGTTGACACCGGCTCCCGGATGGATGATGTCATTTATGAGGAGTTCAAGGGAACAGGGAACATGGAACTCCACCTTGACCGCAGCCTGGCAGAACGCCGGATTTTCCCTGCCATTGATATTGTACGCTCCGGTACAAGGAAAGAAGAGCTGCTTCTTCCACAGACACATCTGGACAAAATCTGGGCCATACGGAAGACGATGTCCGATTCCCATGATTTTGCCGACCGGTTCCTCCGTCGACTCCGTGCTTCGAAAAACAACGACGAATTTTTCGACCTCATGGATAAGGATATGAAAGGCAAAGCGTCACCGGCACGCCGCTGA	MADLTISNLETLTLKDLYTKARQYKVSYYAKLTKRELIFAILKAQAEKDGFLFMDGILEIIPSEGFGFLRPINYSPSAEDIYISASQIRRFDLRNGDKVSGKVRPPKENERYYGLLHVDAVNGEDPDSAKERVHFPALTPLYPDRQMKLETETKKLSTRIMDLMAPVGYGQRGLIVAPPKAGKTMLLKQMANSISANHPDAKLIILLVDERPEEVTDIERSVAPDVDVVSSTFDEVPENHIKVSELVLERAMRLVEHKRDVIVLMDSITRLARAYNLVIPPSGRTLSGGIDPAAFHRPKRFFGAARNIEEGGSLTILATALVDTGSRMDDVIYEEFKGTGNMELHLDRSLAERRIFPAIDIVRSGTRKEELLLPQTHLDKIWAIRKTMSDSHDFADRFLRRLRASKNNDEFFDLMDKDMKGKASPARR				NA	NA	NA	NA	NA
AK012_01810	246	rpmE2	COG0254	50S ribosomal protein L31 type B	ATGAAATCAGGAATTCATCCAGAATACCGTAAAGTTGTATTCCTAGACACAAGTTCTAATTTCAAGTTTCTAACAGGATCTACTAAGACTTCTGAAGAAACGATCGAGTGGGAAGATGGCAACACTTACCCATTGATCCGCGTAGAGATTAGTTCTGCGTCCCACCCGTTCTACACAGGTAAGCAGAAAGCTGATAAAGCTGGCGGCCGTGTGGATCGCTTCAAGAAGAAATATAACCTTTCATAA	MKSGIHPEYRKVVFLDTSSNFKFLTGSTKTSEETIEWEDGNTYPLIRVEISSASHPFYTGKQKADKAGGRVDRFKKKYNLS	PGPT0014325_2297	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014325-rpmEB-K02909	NA	NA
AK012_01811	639	tdk	COG1435	Thymidine kinase	ATGGAGAAGGGAGCGACAGTGGACGTGTATGTGATGAAACAGAGCGGATGGGTTGAACTGATCTGCGGAAGCATGTTCAGTGGAAAATCAGAAGAGCTGATCCGCAGGGTGAGACGGGCGACCTTTGGAAACTTGAATGTGCGCGTGTACAAACCTGCGATCGATGACCGTTATAAGGAAGATGCTGTAGTTTCTCATAATGGGACTTCAGTGACGGCGCGGCCGGTGAAGAACTCACTGGATATTCTGCAGCATGTGACGGATGAGATGGATGTTGTAGGAATTGATGAAGTGCAGTTTTTCGACGAACATATCGTGGAAGTAGTCGAATGCCTTGCAGATAAAGGCATACGCGTCATCGTCGCTGGTTTGGATACGGACTTCAGGGGAGAACCTTTTGGAAAGATGCCTGATCTTATGGCTCTGAGCGAAAGTGTGACGAAACTGAACGCGATCTGCCCTGTATGCGGATCACCGGCAAGCCGTACACAGCGTTTGATTGATGGGAAACCGGCTTCCTATGACGACCCGGTTATTCTGGTAGGGGCATCGGAATCCTACGAGCCACGTTGTCGTCATCATCATGAAGTGCCAAACAAACCCAGGCAGAAAGAAATAAAAGCCGCTTATGCGGAATAA	MEKGATVDVYVMKQSGWVELICGSMFSGKSEELIRRVRRATFGNLNVRVYKPAIDDRYKEDAVVSHNGTSVTARPVKNSLDILQHVTDEMDVVGIDEVQFFDEHIVEVVECLADKGIRVIVAGLDTDFRGEPFGKMPDLMALSESVTKLNAICPVCGSPASRTQRLIDGKPASYDDPVILVGASESYEPRCRHHHEVPNKPRQKEIKAAYAE	PGPT0021390_1156	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021390-tdk-K00857	NA	NA
AK012_01812	282			hypothetical protein	ATGAAAAAAGGCGCTTTTCTTATGGAAAAAACCAATGTATTGGAAGAGTGTATGAATGCCTATAAGTATGCGGTCGAAGTCGTTCAAAAAAACAGTCCCTTGAGTCGTGATTTAACTCAATCATGTGCTGAAGTCTGCCGGTCTTGTGCCAATGAATGTCTGAAGCTCGGAGAAAGCCGTTCCGGCAGAACGTACAAGATGTGTCTGGACTATGCGGAATTATGTGAAGAGCTTGAGCATGAGATTCAGGAGGACCTCGGCAGTTTAAGGAAACTCGTGTAA	MKKGAFLMEKTNVLEECMNAYKYAVEVVQKNSPLSRDLTQSCAEVCRSCANECLKLGESRSGRTYKMCLDYAELCEELEHEIQEDLGSLRKLV				NA	NA	NA	NA	NA
AK012_01813	405			hypothetical protein	GTGAAGCACTGTTTCATAATTCCTGCCACTCTGCTGTGCCTGTTTGCTGCCGGCTGTGGGACGCAGGTGGAAAAATACCAGGGACAGACGAGCCGGGATGATGTAGAGAACATGGGCTTGAACAATGAAGTGACGATGGAAGACGAAAATCCGCGGTCTGTGAATAAAGTCGGTCACACATGGGGGCTGAAACAGGATCGTGAAATGGCGAAGACAGCCGCTCAGCAGCTGGAAGGGGTGACGGTTAAACGAGTCATCATGGAGGCGGACCAGATCTGGGTCACTGTCGACGTAGCTGGTGAAGACGAAATGTCGGATGAGGAACGGGATGAATGGAAGGAACAGATTGGTCAAGCTGTTTACAAAGCCGTCCCACGTTATGATATTCATGTCAAAATAAAGTGA	MKHCFIIPATLLCLFAAGCGTQVEKYQGQTSRDDVENMGLNNEVTMEDENPRSVNKVGHTWGLKQDREMAKTAAQQLEGVTVKRVIMEADQIWVTVDVAGEDEMSDEERDEWKEQIGQAVYKAVPRYDIHVKIK				NA	NA	NA	NA	NA
AK012_01814	1071	prfA	COG0216	Peptide chain release factor 1	TTGATCGAACGTTTACAAACATTAGAAGATCGTTATGAAAAGCTGAACGAACTATTGAGTGATCCGGAAATTATTTCTGATACAAATAAACTGCGTGAGTATTCCAAAGAGCAGGCAGGCCTTCAGGAGACGGTGGATGACTACAGGGAATATAAAGAAGTGGCTGAACAGCTGAAGGATGCCAGAGCTATGCTTGAAGACCGGCTGGATGCTGAGATGGAAAGTATGGTGAAGGAAGAAATCAGTGAGTTGTCCACACAGAAGCAGGACCTGGAGGAGCGGCTGAAAGTGTTGATGCTTCCCAAGGATCCAAACGACGACAAAAACGTTATCATGGAAGTCCGCGGCGCAGCCGGTGGTGATGAAGCGGCCTTGTTTGCTGGTGATTTGTACCGGATGTACGCCCGTTATGCGGAAGCGCAGGGCTGGAAAACAGAAGTCATTGAAGCGAACGCCAATGATGTAGGTGGGTATAAGGAAATCATCTTTATGGTCACTGGTGAAATGGCTTATTCCAAAATGAAATTTGAAAACGGGGCCCACCGTGTCCAGCGTGTTCCCGAAACGGAATCCGGTGGTCGTATCCACACCTCTACAGCCACAGTTGTGGTTATGCCGGAAGCTGAAGAAGTAGAAGTGGAGGTCCACGATAAGGATATACGGGTGGACACGTTCGCTTCCAGTGGTCCCGGCGGCCAGAGTGTCAATACGACGATGTCTGCTGTGCGTCTTACCCACGAACCCACAGGGATTGTGGTGTCGTGTCAGGATGAGAAGTCCCAGATTAAAAACAAGGAAAAAGCGATGAAGGTTCTGCGTGCCCGTATTTATGATAAATACCAGCAGGAAGCGCGTGCCGAATATGATGAGAACCGCAAATCAGCAGTAGGAACGGGAGATCGTTCCGAACGGATCCGCACGTATAACTTCCCGCAGACCCGTGTGACGGATCACCGTATCGGTTTAACCCTTCAAAAGCTGGATCAAGTTCTTCAAGGGAACATGAACGAAATTATTGATGCCTTACTGATTGAAGAACAGACGAAGAAACTGGAACAGCTTGGTGAATAG	MIERLQTLEDRYEKLNELLSDPEIISDTNKLREYSKEQAGLQETVDDYREYKEVAEQLKDARAMLEDRLDAEMESMVKEEISELSTQKQDLEERLKVLMLPKDPNDDKNVIMEVRGAAGGDEAALFAGDLYRMYARYAEAQGWKTEVIEANANDVGGYKEIIFMVTGEMAYSKMKFENGAHRVQRVPETESGGRIHTSTATVVVMPEAEEVEVEVHDKDIRVDTFASSGPGGQSVNTTMSAVRLTHEPTGIVVSCQDEKSQIKNKEKAMKVLRARIYDKYQQEARAEYDENRKSAVGTGDRSERIRTYNFPQTRVTDHRIGLTLQKLDQVLQGNMNEIIDALLIEEQTKKLEQLGE				NA	NA	NA	NA	NA
AK012_01815	879	prmC	COG2890	Release factor glutamine methyltransferase	GTGAATAGTATGCAGCCTACTTTTACGACGATTCAGGAAGCCCGCCGCTGGGCTTCCCTTTTTTTGCAGAAGCATGACAGGGAACCGCAGGCCGCCCAGCTTTTACTCGAAGGGTTTCTCGGATGGAGTTTTTCAAAAATCCTTGCTTATGAGGATGAACCGATGAGTGAAGATGTGAAGGGATCCTTTATCAAAGCTGTCCGGGCCCATGCGGAAACTGGAGAGCCTGTTCAGCATCTGCTGGGTTCTGCGTCCTTTTTCGGCCGGACGTTTAAAGTGACACCGGATGTTCTCATTCCACGTCCGGAAACGGAAGAGCTTGTCCTCGGTGTTATGGACTGGGCGAGGGAAGAAAAAATAGAAACGCCGAGCATCGTGGATCTTGGAACGGGAAGCGGGATTATTGCCATTACAGCTTCACTGGAAATACCGGGGAGTCACGTAACCGCTGTGGATATTTCTTCTGAAGCGCTCGTAGTAGCAGAGGATAATGCCCGGCAGCATGGAGCGGATATCCAGTTTCGACAGGGGGATTTCCTTACCCCGGTGATGGATGAAACGTTTGATATTCTCATTTCAAATCCTCCGTACATCTCGGAAGAGGAAAAGGCGTTGATGGATGACACGGTACTTGATTTCGATCCTTCCCTGGCCTTGTTTGCTGAGGAGGAGGGGCTGGCTGCGTACAAAAGTATTCTTCATCAGGCCGCACGCTTGGAACAAAAGCCGCTGCTCATTGCTTTCGAAATCGGGTGGCGTCAGGGAGAACAAGTTTCGTCCTTGGTCGAACGGCTCCTGCCCGGCTTTCGCGCGGAGGTCAGACAGGATATCCATGGCCGGGACCGGATGGTTTTTGCCACCCGAAGGGAAACGGTGTAA	MNSMQPTFTTIQEARRWASLFLQKHDREPQAAQLLLEGFLGWSFSKILAYEDEPMSEDVKGSFIKAVRAHAETGEPVQHLLGSASFFGRTFKVTPDVLIPRPETEELVLGVMDWAREEKIETPSIVDLGTGSGIIAITASLEIPGSHVTAVDISSEALVVAEDNARQHGADIQFRQGDFLTPVMDETFDILISNPPYISEEEKALMDDTVLDFDPSLALFAEEEGLAAYKSILHQAARLEQKPLLIAFEIGWRQGEQVSSLVERLLPGFRAEVRQDIHGRDRMVFATRRETV				NA	NA	NA	NA	NA
AK012_01816	597			hypothetical protein	ATGAAAAACAGCGGATGGCTATTATTAAGTTTAATTATTCTTATTACCGTTCTTCCATGGGGACAGAAATCAGAAGCCGATATAGATTACCAAGTGATTCCGGATGAAGCGATCCGCCTCCGGATTCTGGCAGACAGCAATAATGGGGAAGATCAGCGTATCAAGCGGGAAGTTCGTGATCAAGTCAACGGCGAAATTACGAAATGGGTCCAGGACCTCACTTCTGTAGAAGTTGCCAGACAATTAATTGAATCCCGCCTGCCTGAATTGGAAACGATCGTCCAGGAGACGCTGGAGGCCGAGGGGAAACGCTACTCCTATACAGTGGCTTACGGAGAAAGCGTCCAGTTTCCAACGAAACTTTATGGTTCCTACATTTATCCGGCGGGGGAGTATGAAGCGGTATTGATCACCCTTGGAGAAGGGGATGGCGACAACTGGTGGTGTGTGTTGTTCCCGCCTCTCTGCTTCCTTGATTTTTCAAATGGTACCAGCGTAGCTGAAGCCGAAGAAGAACCTTCAGAAAAGGTGGAAGAAAAAGAAGAAAAAGAAGTGAAGTTTTTCGTTGTAGAGATATGGGAAAATCTATTTTCCTAG	MKNSGWLLLSLIILITVLPWGQKSEADIDYQVIPDEAIRLRILADSNNGEDQRIKREVRDQVNGEITKWVQDLTSVEVARQLIESRLPELETIVQETLEAEGKRYSYTVAYGESVQFPTKLYGSYIYPAGEYEAVLITLGEGDGDNWWCVLFPPLCFLDFSNGTSVAEAEEEPSEKVEEKEEKEVKFFVVEIWENLFS	PGPT0024700_383	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024700-spoIIR-K06387	NA	NA
AK012_01817	318			hypothetical protein	ATGTTTATTAAGGAAGTAGACGATCAAAATTATCAGCTTATAAAGGAAAACACGGCTGTCGGGTCTTTTTGTCTGACCCCCGTTTCAGATGGCGGGCGGAAATTAGGGAAACTGCATGTGCAGGATACGGTGACGCCGGGAACGATCCTGCAGATTTTTGAGCTGATACAAGTCTATACTCAGAAAGAAGGGATTGGGCCGATTCATGTGGAAAGTCATTCACAGACGCTGGACCTTCTTCTCCAGCACCAGGGGTTTCAATTGGAAGATGTCGAAAAAAGATTGTGGATATATAAAGCTTCTAAGGCGGAATTGTGA	MFIKEVDDQNYQLIKENTAVGSFCLTPVSDGGRKLGKLHVQDTVTPGTILQIFELIQVYTQKEGIGPIHVESHSQTLDLLLQHQGFQLEDVEKRLWIYKASKAEL				NA	NA	NA	NA	NA
AK012_01818	1044	ywlC	COG0009	Threonylcarbamoyl-AMP synthase	ATGAGTATGCAAACAAGGATGTGGAAAAAGTTGCATCATCCACAGAAAAATGATGAAGCTGTCCGTGAAGCGGCGCAGCTGCTGCTTGATCAACAGGTGGTGGCCTTTCCAACAGAAACCGTCTATGGGCTGGGCGCTGATGCCACGAACAAACAGGCGGTCCAGAGAATCTTCGAAGCGAAAGGACGCCCCTCGGATAATCCTTTGATTGTCCACGTATCGGATCGTGCACAGGTGGAAAGTCTGACAACGGAGATTCCTCCGGTAGCAGCTGAACTGATGGATGCTTTCTGGCCCGGTCCGCTCACATTGATCTTTCACAGCAATGGAGCTGCGGCGGAAAATGTAACGGCTGGACTGGCAACGGTGGCGGTCCGTATGCCGGATCATCCACTGGCTCTGGCTCTTTTAAAGGCGGCCGATAAACCGCTGGCCGCTCCGAGTGCCAACCGCTCCGGTCGTCCAAGTCCAACAACGGCTGCGCACGTCTATCAGGATCTGGATGGGCGGATTGCCGGCATTCTTGACGGTGGGTCGACGGGCGTTGGTCTGGAATCGACGGTACTGGATATTACCGCAGACATTCCAGTCATTTTAAGACCGGGTGGAGTGACAAAGGAAGATTTAGAGACTGTGCTTCCCCGTGTTGTGGTTGACCCGGCTTTGGCAGGAGGCACTGAAGAAGCTCCTAAATCGCCGGGGATGAAATACAAGCACTATGCACCGGAAGCCCCTTTATGGCTTGTGGAAGGAAAAGACTCGTTTTTCGCTGAAACGCTGGCCGCATGCAAAGCCAGGGGGGAACGTGTCGGGATCATCGCCAGCCGGGAACTGGCGGACGCCCTTGATCATGACCGGATCATCCGCTGTGGATCCCGCCGCCGGCTTTCTGAAGTGGCGGAAAGCTTGTATGGCGCGCTCCGTGCATTTAAGGAAGCCGACGTAGATGTTATTTTGTGTGAGTCCTTCCCGGAAACCGGGGTAGGTGCTGCTGTTATGAACCGTCTGAATAAAGCGGCTGAAAAAAAGGTCAAAGACCAATGA	MSMQTRMWKKLHHPQKNDEAVREAAQLLLDQQVVAFPTETVYGLGADATNKQAVQRIFEAKGRPSDNPLIVHVSDRAQVESLTTEIPPVAAELMDAFWPGPLTLIFHSNGAAAENVTAGLATVAVRMPDHPLALALLKAADKPLAAPSANRSGRPSPTTAAHVYQDLDGRIAGILDGGSTGVGLESTVLDITADIPVILRPGGVTKEDLETVLPRVVVDPALAGGTEEAPKSPGMKYKHYAPEAPLWLVEGKDSFFAETLAACKARGERVGIIASRELADALDHDRIIRCGSRRRLSEVAESLYGALRAFKEADVDVILCESFPETGVGAAVMNRLNKAAEKKVKDQ				NA	NA	NA	NA	NA
AK012_01819	537	mntP	COG1971	putative manganese efflux pump MntP	TTGGAACAAATATCTTCGCTTCTACTGCTTTCCATTGCCTTGGGACTGGATGCCTTTTCTGTCTCTTTAGGAATAGGGATGCAGGCGGTCCGTATGAAATATGTTCTGCTGACAGGGCTGGCGATCGGCCTTTTTCATATTTTCATGCCGGGTCTTGGGATGCTTCTCGGACAATGGTTGTCCGCCGGGGCCAGCGAGTGGGCTGAACTGGCTGGTGGCTTCATGTTGTTCGGCCTCGGAGCCTATACGGTTTTTGCTTCCTTTACAGAAAAACACGCCGTCTCTTACCGCCTCAGTGGGATTGGATTCTGGCTTTTCGCCTTAAGTGTGAGTATCGACAGCTTTCCTGTCGGCTTCAGTCTCGGTCTTCGGGAAGCGGATGTGATGATAACGATTGCCTCTTTTGGGCTGTTCAGTATGCTGTTGACGTGGACAGGTTTTCTTATTGGAAGAAGGGCAGGAGCTGTGATGGGGATTTACAGCGAGCTTCTCGGCGGCAGTATTCTATGTGCTCTTGGTCTCTATTCTATCTTTTAA	MEQISSLLLLSIALGLDAFSVSLGIGMQAVRMKYVLLTGLAIGLFHIFMPGLGMLLGQWLSAGASEWAELAGGFMLFGLGAYTVFASFTEKHAVSYRLSGIGFWLFALSVSIDSFPVGFSLGLREADVMITIASFGLFSMLLTWTGFLIGRRAGAVMGIYSELLGGSILCALGLYSIF	PGPT0004375_1069	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004375-mntP-K23242	NA	NA
AK012_01820	609	arsC_1		Arsenate reductase	ATGAATATATTATTTGTATGTACAGGCAATACATGTAGGAGTCCTATGGCGGAGGCGATTCTCAAATCTAAGTATGATCAGGATAAGGTCCGATCGGCAGGAATCTTTGCAGGGAAAGGTGAGCCGCTGGCGGAGAACTCCAGTGTCGTCCTTGGTGAAATTGACCTGACGCTGAATCACCAGACCAGTCCGGTGACGGTGGACGGCCTGGAATGGGCGGATCTTGTTCTGACGATGACCGACCGTCATAAGCAGACACTTGCTATTCAATATCCTGATTATCAGGACAAATTCTTCACGCTGAAGGAGTACGTTCTTATTGATGAGGATCAATGGAAGCAGCTGAAGGAGTTGTACAGCCATTTTGAAGAAAAAAGAACGAATCTGCTGGCCAGGTACAAAAATCTTAATGATGAAGAGATTGAAGCCAAGCTGCGTGAAGAACTGGAAGATGATATCAGACGTATTGAACGCATGGAGGGGCAGCTTCCTGATTTGAACATCACCGATCCGTTCGGCGGGAGTTTGAGCGTGTATCGAAGAACGAGGGATGAAATCAGTCATCATATTGAAGTACTCGTGAACAAACTGAAGGATGAGCAGTCATAG	MNILFVCTGNTCRSPMAEAILKSKYDQDKVRSAGIFAGKGEPLAENSSVVLGEIDLTLNHQTSPVTVDGLEWADLVLTMTDRHKQTLAIQYPDYQDKFFTLKEYVLIDEDQWKQLKELYSHFEEKRTNLLARYKNLNDEEIEAKLREELEDDIRRIERMEGQLPDLNITDPFGGSLSVYRRTRDEISHHIEVLVNKLKDEQS	PGPT0014530_3800	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
AK012_01821	441	ywlF	COG0698	Putative sugar phosphate isomerase YwlF	ATGAAAGTCATTCTTGCCTCCGACCACGGCGGTGTGAATTTACGTAAAGAAGTAGCAGAGGTCCTGACTGAACTGGACGTGGCATTTGAGGATGCCGGCTGTGACTGTGAAGGGTCGGTCGACTATCCGGATTATGCGATACCGGCAGCAGAACGTGTAGCGGCTGGTGAATTTGATAAAGCTATTTTAATCTGTGGGACAGGCATCGGAATGTCCGTTTCCGCAAACAAGGTGAAAGGCATCAGAGCTGCCTTGGTGCATGATTTATTTACGGCAAAGGTCACACGTGAACATAATGACTCCAATGTCCTGTGCATGGGAGAGCGCGTCATAGGGCCCGGCCTGGCGAGGGAAATTGCCAGAACCTGGGTAACAACAGATTTCGAGGCCGGTCGTCATGAAAGACGCGTAAGTAAGATTGCCGAATATGAAAATAAGTAA	MKVILASDHGGVNLRKEVAEVLTELDVAFEDAGCDCEGSVDYPDYAIPAAERVAAGEFDKAILICGTGIGMSVSANKVKGIRAALVHDLFTAKVTREHNDSNVLCMGERVIGPGLAREIARTWVTTDFEAGRHERRVSKIAEYENK	PGPT0017395_2548	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
AK012_01822	570			hypothetical protein	ATGGCACAATGGCATCATGTGGAGAAGGGTATGAAGCAGGTCACAGATGAACTGCTTGAATCGAATATTCTTCAGAAGGGTTTATTTGTTATCGGCTGTTCGACCAGTGAAGTTGCCGGGGAGCGTATCGGCACCTCGGGCAGTGAAGCGATAGCCGAATCTGTATTCAGCGCCTTGATGAGGATCCAGTCGGTCGATGGAGTCGATCTGGCTTTTCAATGTTGTGAACATTTGAATAGAGCCTTGGTCGTGGAACGCTCCGTGCTTGAACGGGAGCGGCTGCAGGAAGTGGCGGCTGTTCCTGTACCGAAGGCGGGTGGATCGATGGCTTCCTATGCCTACAAGCATATGAAGGATCCTGTTCTTGTTGAAGCTGTTGAAGCAGCAGGAGGACTGGATATAGGGGATACCTTGATCGGTATGCATTTGAAGCGGGTGGCTGTTCCTGTCAGGCTGAAGCAGAAGACGGTCGGACAAGCCCACATGACCGCTGCTAAAACCCGCCCTCCACTCATCGGAGGAGCACGGGCTGTGTATGAAAGGGATACAGAAGGATCGTTTTGTGACTAA	MAQWHHVEKGMKQVTDELLESNILQKGLFVIGCSTSEVAGERIGTSGSEAIAESVFSALMRIQSVDGVDLAFQCCEHLNRALVVERSVLERERLQEVAAVPVPKAGGSMASYAYKHMKDPVLVEAVEAAGGLDIGDTLIGMHLKRVAVPVRLKQKTVGQAHMTAAKTRPPLIGGARAVYERDTEGSFCD				NA	NA	NA	NA	NA
AK012_01823	1257	glyA	COG0112	Serine hydroxymethyltransferase	ATGAATCATGTAAAAACAGCAGATGCAGAAATCTTTGCCGCGATGGAGAATGAAAGACAACGCCAACAGGATAATATCGAACTGATCGCCTCTGAGAACTTTGTTTCTGAAGCCGTCATGGAAGCTATGGGTTCTGTACTCACGAACAAATATGCAGAAGGATATCCAGGGCGCCGCTACTACGGTGGCTGTGAGCACGTGGATGTTGTGGAAAACCTGGCGCGCGATCGTGCCAAAGAGCTGTTTGGTGCTGAACACGTAAACGTTCAGCCTCACTCCGGAGCGCAGGCGAATATGGCTGTTTATTTTACAGTGTTGGAGCACGGCGATACGGTGCTTGGAATGAACCTCAGCCATGGTGGTCACTTAACACATGGAAGTTCTGTGAACTTCAGTGGGAAACTGTACAACTTTGAAGAGTACGGTGTTGATGAGAAGGATCAGAAAATCGATTATGATGCCGTGCTTGCAAAAGCGAAAGAAGTTCAACCAAAGCTGATTGTTGCTGGTGCCAGTGCGTATCCGAGAGAAATTGATTTTGCGAAATTCCGGGAAATTGCAGATGAAGTGGGTGCTTATCTCATGGTGGATATGGCTCACATTGCAGGACTTGTAGCATCCGGCCTTCATCCAAATCCTGTTCCTCATGCTCAATTTGTTACAACAACGACCCACAAGACGCTCCGTGGCCCACGAGGCGGAATGATCCTCTGTGAAAAAGAGTTTGCGAAGAAGATTGATAAGAACGTCTTCCCTGGAATGCAGGGCGGTCCGCTTATGCACATCATCGCGGCCAAGGCGGTCTCTTTCAGGGAAGCTCTTCAGCCTGAATTCAAGCAGTATTCCCGTCAGGTGATCGCCAATGCGAAACATCTTGGTGAGGCTCTTGTCAACAAAGGTGTGGATATCGTTTCAGGCGGCACCGACAACCACTTGATTCTTCTGGATTTGAGAAGTAAGGAATTGACGGGGAAAGTCGTAGAAAAAGCCCTGGACGCCATTGGGCTGACAACGAACAAAAACACCATTCCATTCGACCCTGAAGGTCCTTTCGTTACAAGCGGTATCCGGATCGGAACAGCTGCCGTAACGAGCCGCGGCTTTAAGGAAGCGGAGATGGAGGAAATCGCAGATTTGATCGCCTTCACCCTCGAACATCATGAAGATGAAGAGAAAATGAAAGACGCTGAGAAGCGCGTTCGTGAACTTACCTCCCGCTTCCCTCTATACCAAACGTTAAATTATTCGTCCATCTGA	MNHVKTADAEIFAAMENERQRQQDNIELIASENFVSEAVMEAMGSVLTNKYAEGYPGRRYYGGCEHVDVVENLARDRAKELFGAEHVNVQPHSGAQANMAVYFTVLEHGDTVLGMNLSHGGHLTHGSSVNFSGKLYNFEEYGVDEKDQKIDYDAVLAKAKEVQPKLIVAGASAYPREIDFAKFREIADEVGAYLMVDMAHIAGLVASGLHPNPVPHAQFVTTTTHKTLRGPRGGMILCEKEFAKKIDKNVFPGMQGGPLMHIIAAKAVSFREALQPEFKQYSRQVIANAKHLGEALVNKGVDIVSGGTDNHLILLDLRSKELTGKVVEKALDAIGLTTNKNTIPFDPEGPFVTSGIRIGTAAVTSRGFKEAEMEEIADLIAFTLEHHEDEEKMKDAEKRVRELTSRFPLYQTLNYSSI	PGPT0008090_5118	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008090-glyA-K00600	NA	NA
AK012_01824	633	upp		Uracil phosphoribosyltransferase	ATGGCAAACGTTTATGTACTGGATCACCCTTTGATTCAACATAAGTTGACCTACATACGTAAAAAAGAGACGGGAACGAAAGACTTTCGTGAACTTGTGGACGAAGTAGCGGCTCTTATGGCATTTGAAATCACACGTGATCTTCCATTGGAAGAAGTTAATATTGACACACCTGTTGTGGAAGAGGCCAAAGCGAAAGTGCTGACAGGGAAGAAGATCGGTCTTGTGCCTATTTTACGTGCGGGCTTAGGTATGGTGGATGGAATCATTCAATTGATTCCAGCTGCGAAAATCGGGCACGTTGGACTTTATCGTGATCCTGAAACGCTGCAGCCGGTCGAGTATTATGTCAAACTTCCAAGTGACATTGAAGAACGTGAACTGATTGTCATCGATCCGATGCTGGCCACAGGCGGATCCGCCAATGAAGCAATCCACTCCTTGAAGAAACGTGGAGCACGACAAATCCGCCTGATGTGCCTCGTAGCGGCTCCTGAAGGTGTAGAAGCTGTTCAGGAAGAGCACCCGGACGTCGACATCTACCTGGCCGCCCTGGATGAGAAACTTAATGAAAAAGGCTATATTGTCCCTGGTCTCGGCGACGCCGGCGACCGTCTATACGGAACAAAATAA	MANVYVLDHPLIQHKLTYIRKKETGTKDFRELVDEVAALMAFEITRDLPLEEVNIDTPVVEEAKAKVLTGKKIGLVPILRAGLGMVDGIIQLIPAAKIGHVGLYRDPETLQPVEYYVKLPSDIEERELIVIDPMLATGGSANEAIHSLKKRGARQIRLMCLVAAPEGVEAVQEEHPDVDIYLAALDEKLNEKGYIVPGLGDAGDRLYGTK	PGPT0021240_2498	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021240-upp-K00761	NA	NA
AK012_01825	1152	mnaA	COG0381	UDP-N-acetylglucosamine 2-epimerase	ATGGCAGAGCGAATTAAGGTAATGACCATATTCGGTACAAGGCCGGAAGCGATCAAAATGGCTCCGCTTGTATTGGAATTGAAAAAGCGCAGTGATCAGTTTGAACCCATTGTGACGGTAACCGCCCAGCACCGTGAAATGCTGGATCAAGTGCTGACGATCTTTGACATCACTCCTGATTTCGATTTGGATATTATGAAAGATCGGCAGACACTGGCCCAGGTGACAACTAGGGCGCTGGAAGGTCTGGACAGCGTCATGAAGGAGACGAAGCCCGATGTCGTTTTGGTACACGGTGATACGACTACGACATTCGCTGCCTCCCTTGCGGCGTTCTATAACCAGATCCCTGTCGGACACGTAGAGGCAGGACTTCGTACGTGGAATAAATACTCCCCGTTCCCGGAGGAAATGAACAGACAGCTGACAGGAGTCATGGCAGATCTGCACTTTGCGCCGACGAACAAGTCCAGAGATAACCTGATGGCTGAGAATAAATCGGAAGATCACATTTTCGTAACCGGAAATACAGCGATCGATGCACTGCAGACCACTGTTCGTGATGATTATCAATCGGCTGTACTGGATGAAGTCGGCTCCAAGCGTCTGGTGTTAATGACAGCCCACCGCAGGGAGAACCTCGGTAATAATATGGAACAGATGTTCAGAGCCATTAAACGTCTCGTTCAGGAGCATGAGGATATTGAAGTGGTTTACCCTGTCCATTTGAACCCCGTGGTGAAAGAAACAGCGGACAAGATTCTTGGCAATGATGACCGGATTAAATTGATCGATCCGCTCGATGTCATCGACTTCCATAACTTTGCCTCCCGTGCCCATTTGATTCTGACCGATTCCGGAGGCGTGCAGGAAGAAGCGCCATCCCTCGGTGTGCCGGTTCTTGTCCTTCGCGATACGACGGAACGCCCGGAAGGAATTGAAGCAGGTACATTAAAACTTGCAGGGACAGATGAAGATCATATCTTCCATCTTGCTCATGAGCTTCTATCCGAGAATGAGAAGCATGAACAGATGGCTGAAGCATCCAACCCTTATGGGGATGGACAGGCTTCTGCACGTATTGCAGAAGCCATCCAATACTATTTCGGCCGCAGGCAGGAGAAGCCGGCGCCTTTTGAAATTGAAGAATAG	MAERIKVMTIFGTRPEAIKMAPLVLELKKRSDQFEPIVTVTAQHREMLDQVLTIFDITPDFDLDIMKDRQTLAQVTTRALEGLDSVMKETKPDVVLVHGDTTTTFAASLAAFYNQIPVGHVEAGLRTWNKYSPFPEEMNRQLTGVMADLHFAPTNKSRDNLMAENKSEDHIFVTGNTAIDALQTTVRDDYQSAVLDEVGSKRLVLMTAHRRENLGNNMEQMFRAIKRLVQEHEDIEVVYPVHLNPVVKETADKILGNDDRIKLIDPLDVIDFHNFASRAHLILTDSGGVQEEAPSLGVPVLVLRDTTERPEGIEAGTLKLAGTDEDHIFHLAHELLSENEKHEQMAEASNPYGDGQASARIAEAIQYYFGRRQEKPAPFEIEE	PGPT0018905_867	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
AK012_01826	2157			hypothetical protein	ATGAAGCTTTTGGTTTCCATGATTTCTGTTCTGCTGATGGTTTCAGGCTTTCGTGCTCCGGATCCTCAGGAAGAGGTCACGATTATCATCGAGATGGAAAAACCCGTGGATGAGTTTGCAGATGATCTGGAACGGAGGTTTCCGAGACTTGAAGTTGTGGCCCGGTACGACACGCTGTTAAATGCGGTGGCCGTTAAGGGTACCGTGCAGGATTTGGAAAAAGTGGCCCGTATAGAGGGAGTGAGGAACCAGCATGCGGTTACCCGTTATCGAGCGCTTGCTGTGGAAGAAATCCCTTATTCCACGCATGCCCTTCGTGATCAGATGTCTACACCCTATACAGGGAAAGGAGTTAAAGTGGGCGTTATTGATACGGGGGTGGATTATACCCATCCTGATTTAACGAAGAATTATCAGGGAGGATATGACACGGTCGATTTTGATGAAGATCCAATGGAGACGGAGGGAGAAGGTGCTACCATTCACGGAACGCACGTAGCTGGAGTCATTGCGGCAGATGGAGAGATGAAAGGGATGGCTCCTGATGCGGAATTGTATGCTTATAGAGCTCTCGGACCGGGGGGGATGGGGACATCCGTTCAGGTCATTGCCGCCCTTGAAGAAGCTGTGGAGGAAGGGATGGATGTCGTGAACCTTTCTCTTGGGAATGATGTGAATGGACCGGACTGGCCCACGACCCATGCTGTGAACAAAGCGGTGGAAATGGGAACGGTCGTTGTCGTTGCCGCAGGAAATTCGGGCCCGGGTGCATGGACGGTCGGATCCCCAGCCACTTCCAGTCCGGCCATAACGGTCGGCGCCTCTTCTATGAACACGAAAGTACCTGTTTTGAAGGTCCCTGGAGAAAAACGGCAGATCAACATCCAGACGTTGTCGGGGTCGGTTCCCTGGTCGCTGGACAAAAAGTACCCCGTCATATTTGCCGGGACTGGCGGGAACACGCTTCCTGATGTCCGCGGACATGTGGTGTTATTTGAACGTGGAGGCATTCCGTTTTTTGAAAAAGTCCTTAAGGCGTATCAAGCGGGAGCTGAGGCTGTGCTGATCTACAACCATGAAGAAGGTTCTTTCAGTGGTGGATTGAATGGGGGAGCCATTCCGATACCGGCCGCCTCGCTGACGAGAAAGGAAGGGCTGTGGCTGAAAGAGAATGCTGTAGAGGAAAGTCAATGGGTCGAAACCGTCATGGTGCCGGAGGCTGAACAGGTAGCCCCCTTCAGCTCACGAGGCCCTGTAACCACGAATTGGGAGGTTAAGCCTGATCTGCTTGCTCCTGGTGTGGCCGTGTGGAGCACAATCCCGGGCGGATACACATCGCTTCAAGGGACGAGTATGGCTGCTCCGCACATAGCCGGCGCAGCAGCTCTGCTGAAAGAAGCTCATCCGGACTGGACGGCGGAGGATGTCAAAAGAGCTTTAATCAGTACCGCAGATCTTATAGAGAAGGAGGAGGGGACTTTCGATCCTACAGAACAAGGGGCAGGTGTGTTCGATATCAAGGAAGCCCTCCAGCCACAGCTGCTGTTGCATAGTGAAAGCATGACCATTGGAAAAATTGAAGGACGTCTGGAAAGGAAAAACCTGACATTGACGTTGGAAAACGAGACCGACACCGGGATAGAGGTTCGGTTTCAACAACCAGAAAGGAAAAAGGGAGAGACATGGGAGCTGCCTATGCCGTTCCGTCTTGATGGGAACGAAACCAAAGAGGTGAGCATCAGCCTCGGATTGAATGGATCCTTTCTGGAGGACGGAGTGCAGGAAGGATACCTTTCCTTTCGAGCAGGGGCCGCTTTCTACAATATTCCTTATATGTATGTGAATCAAAAATCGACGTATGACTGGGTCTCCGGCTTTGAATTCAATCAAGGCTGGCCGGACAAAGGAACGGCTGATTATCGATTTCATCTGTCAGATCCCGTGGACGCAGTGACGATTGACTTTTACCGCGCAGGGACGATGATGTGGGCAGCCACAGTTGTTGAACTGGGGGAGCAGCATGCCGGGATGGTCGAAGGGGAAGTCTCTACAAAAGAAGCCGGACTGGCAGGGATGTATACGGCTGTAGTTGAAGTAACACGTGCCGGGGAAACGGACAGCTATGCCTTCCCTGTTTATATAGAAGGAAATCCATAA	MKLLVSMISVLLMVSGFRAPDPQEEVTIIIEMEKPVDEFADDLERRFPRLEVVARYDTLLNAVAVKGTVQDLEKVARIEGVRNQHAVTRYRALAVEEIPYSTHALRDQMSTPYTGKGVKVGVIDTGVDYTHPDLTKNYQGGYDTVDFDEDPMETEGEGATIHGTHVAGVIAADGEMKGMAPDAELYAYRALGPGGMGTSVQVIAALEEAVEEGMDVVNLSLGNDVNGPDWPTTHAVNKAVEMGTVVVVAAGNSGPGAWTVGSPATSSPAITVGASSMNTKVPVLKVPGEKRQINIQTLSGSVPWSLDKKYPVIFAGTGGNTLPDVRGHVVLFERGGIPFFEKVLKAYQAGAEAVLIYNHEEGSFSGGLNGGAIPIPAASLTRKEGLWLKENAVEESQWVETVMVPEAEQVAPFSSRGPVTTNWEVKPDLLAPGVAVWSTIPGGYTSLQGTSMAAPHIAGAAALLKEAHPDWTAEDVKRALISTADLIEKEEGTFDPTEQGAGVFDIKEALQPQLLLHSESMTIGKIEGRLERKNLTLTLENETDTGIEVRFQQPERKKGETWELPMPFRLDGNETKEVSISLGLNGSFLEDGVQEGYLSFRAGAAFYNIPYMYVNQKSTYDWVSGFEFNQGWPDKGTADYRFHLSDPVDAVTIDFYRAGTMMWAATVVELGEQHAGMVEGEVSTKEAGLAGMYTAVVEVTRAGETDSYAFPVYIEGNP	PGPT0020990_355	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020990-vpr-K14647	NA	NA
AK012_01827	219			hypothetical protein	TTGGAAAAATACGATCCTCCTTTTAAAGCGATGGCACTGACCAGCAGTATCCTTTCCCAGCTTGCAGGCGGTCCGCTCGCAGGTGTTTTTTTAGGGAAATGGGTGGACAGTCACTATTCCACTGAACCCACATTCTTAATCATTGGATTATTCCTTGGGTTAGGTGCAGGTACATATGGAACCATTCATTTAGTACGGACGTATACGGGAGACGATTAA	MEKYDPPFKAMALTSSILSQLAGGPLAGVFLGKWVDSHYSTEPTFLIIGLFLGLGAGTYGTIHLVRTYTGDD	PGPT0030480_3206	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
AK012_01828	369			hypothetical protein	ATGCAAGGATATCATCAGATGATTACCCGTCAGCGAAAATGGATGTTCTATCTTCTGGCATTTTTTGTACTTGGTTGGGGGATCACCCCTTGGCAGCCAATTTTCCTTGGACTTCTGCTTGGAAGTGCACTGAGCTACTATAACCTCTGGCTCATGCAGAGAAAAATCCGCAAACTTGGAGAAGCTTCCTCAGACAACCGCTCCGTAAGAGGGATTGGCACATTTACGCGACTGGCTTCCGGCGCTTTAGCTGCAGTCATCGCCCTTCAATATGAAGAATATTTCCATTTAATTTCTGTAGTTCTGGGCTTAATGACAGCCTACATTGTCATTTTGATAGATTATCTGTTCAATAAATCAACAGTATAG	MQGYHQMITRQRKWMFYLLAFFVLGWGITPWQPIFLGLLLGSALSYYNLWLMQRKIRKLGEASSDNRSVRGIGTFTRLASGALAAVIALQYEEYFHLISVVLGLMTAYIVILIDYLFNKSTV	PGPT0030480_1875	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-ATP_SYNTHASE_ACITIVTY,PGPT0030480-atpI-K02116
AK012_01829	732	atpB	COG0356	ATP synthase subunit a	GTGAACAGTTTGAATCATGAAGCACCGATTTATGAGGATGCGTTTGGTATTGGTTGGCTGGATTTTAACTTATCAAACGTTCTGATGATGTTTGTCGCATCATTGATTGTCTTTATCCTCGGCGTAGCGGCAACACGTAACATGAAGCGTTATCCAAAAGGTTTCCAAAACTTCATGGAATGGCTCATTGATTTCATTAAAGGGATCATAGGGTCCAACATGGACTGGAGGACAGGTAGGTTATTCCTGCCGCTTGGGTTGACATTATTTGCCTACATATTTGTGGCCAACATGCTTGGGGTCGTCACGAATGGTGTAGTAGGACACACTCTCTGGTGGAAATCTCCGACAGCTGATCCGGGTATTACATTAACCCTGGCCACACTCGTTGTCGTATTATCCCACTATTATGGCGTGAAATTGAGAGGCGGAAAGGAATATGCCAAAGGCTTTGTCCGTCCGCTGCCATTCTTATTGCCATTTAAGATTATTGAGGAGTTCTCCAATACGCTGACACTTGGTCTGCGTCTTTACGGGAACATCTATGCTGGTGAAATTCTGTTGAGCTTATTGGTTGGATTGGCAACAACAGGCGTCGGCGGTTTCCTTGGTGCTGCGGTACCAATGGTTGCGTGGATGGGCTTTAGTACGTTTATTGGTTTCATCCAGGCGTTTATTTTCGTTATGTTAACGATGGTCTACATGTCTCACAAAGTGAGCGAAGATCATTAA	MNSLNHEAPIYEDAFGIGWLDFNLSNVLMMFVASLIVFILGVAATRNMKRYPKGFQNFMEWLIDFIKGIIGSNMDWRTGRLFLPLGLTLFAYIFVANMLGVVTNGVVGHTLWWKSPTADPGITLTLATLVVVLSHYYGVKLRGGKEYAKGFVRPLPFLLPFKIIEEFSNTLTLGLRLYGNIYAGEILLSLLVGLATTGVGGFLGAAVPMVAWMGFSTFIGFIQAFIFVMLTMVYMSHKVSEDH	PGPT0014303_3671	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014303-atpB-K02108	NA	NA
AK012_01830	213	atpE		ATP synthase subunit c	ATGGGTCTTTTAGCAGCTGCAATTGCAGTAGGTTTAGCAGCACTGGGTGCTGGTATTGGTAACGGTCTAATCGTAAGTCGTACAGTCGAAGGTATCGCACGTCAGCCGGAACTCCGCAGTGCTCTTCAAACAACAATGTTCATCGGTGTTGCACTAGTTGAGGCGATTCCTATCATCGGCGTCGTTATTGCATTCATCGTAATGGGACAATAA	MGLLAAAIAVGLAALGAGIGNGLIVSRTVEGIARQPELRSALQTTMFIGVALVEAIPIIGVVIAFIVMGQ	PGPT0014302_3095	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014302-atpE-K02110	NA	NA
AK012_01831	525	atpF		ATP synthase subunit b	GTGCAAGGATTCGCAGCTAATATGGTCCTCGGTGCTGAGGGAGGACTGTTAATCGGTGATATGATCGTTCAGCTTGTTTTCTTCCTTGGTCTTCTTGCCCTGTTAGGGAAGTTTGCCTGGGGACCGCTGATGAAGATGATGAAAGATCGTGAAGATTATGTAGCTAATGAAATAAATACGGCTGAAAAAAGTCGTGAAGAAGCTCACCGCATGCAGCGTGAAGCTTCAGATGAATTAAAGGCCACTCGTCAGGATGCACAGAAGATTATCGAAGATGCTCGTAAAACGGCCGGAGAGCAGGAACGTGATATTCTCGATTCTGCCCGTGCGGAAGCTGAACGCCTGAAAGAATCAGCGCGTCAGGAAATCGAGCAGGAGAAAGAAAAAGCCGTACAGGCCCTTAAAGATCAGGTAGCGGGCATGTCTGTCATGATCGCTTCCAAAGTGATTGAAAAGGAACTTTCTGAAAAAGATCAGGAAGCATTGATCAATCAGTACATCAATGAGGCAGGCGAGAAGCGATGA	MQGFAANMVLGAEGGLLIGDMIVQLVFFLGLLALLGKFAWGPLMKMMKDREDYVANEINTAEKSREEAHRMQREASDELKATRQDAQKIIEDARKTAGEQERDILDSARAEAERLKESARQEIEQEKEKAVQALKDQVAGMSVMIASKVIEKELSEKDQEALINQYINEAGEKR	PGPT0014301_2456	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014301-atpF-K02109	NA	NA
AK012_01832	549	atpH	COG0712	ATP synthase subunit delta	ATGAGTCAGTCTATCATTGCCAAACGTTATGCCGATGCTCTTTTTCAGCTGGGGCAGGAACGATCCAAGCTGGAAAAGTTCGAAACCGAACTGCAGACGCTGAAAGAAGTATTCCGCAGTAATCAAGAGATCATCTCTTTCCTTAAGCATCCGCGTTTTTCCATTGAACAAAAGAAGAAAATGATCACCGAGTCTTTTCAGTCCTTCTCTGAGGAGATCGTCAACTTATTGAAGCTTCTGGTGGAAAGACACCGTGAGGATATTATTCTGGATATGATCCAGGATTACGTTCGAATGATCAATGATGCCAAAGGAATTGCAGATGCGGATGTCTACTCTGTCCGTCAGCTTTCCGAAGCTGAAAAACAGCGTATATCTGAATCTTTTGCACCGAAAGTCGGTAAGCAATCCTTGAACCTGACAAATATCGTAGACCCCTCCATTATCGGCGGCATCCGCCTGCGGGTAGGGAATCGGATTTTTGATGGTTCTGTCAGTGGAAAACTGCGCCGTATTGAGCGGAAGCTTCTTTCCACGAACAATAGATGA	MSQSIIAKRYADALFQLGQERSKLEKFETELQTLKEVFRSNQEIISFLKHPRFSIEQKKKMITESFQSFSEEIVNLLKLLVERHREDIILDMIQDYVRMINDAKGIADADVYSVRQLSEAEKQRISESFAPKVGKQSLNLTNIVDPSIIGGIRLRVGNRIFDGSVSGKLRRIERKLLSTNNR	PGPT0014299_2192	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014299-atpH-K02113	NA	NA
AK012_01833	1509	atpA	COG0056	ATP synthase subunit alpha	ATGAGCATTAAAGCTGAAGAAATCAGTGCGCTGATTAAGCAGCAGATTGAAAACTATGAATCAGATATAGAAGTCAATGATGTGGGAACTGTTATCGAAGTGGGTGACGGTATTGCCCGTGCTCATGGCCTTGATAATGTCATGGCTGGTGAGCTCGTTGAATTCTCAACCGGTGTCATGGGACTGGCACAGAACTTGGAAGAAAGCAACGTTGGTCTTGTCATTCTTGGACCATATACAGATATTAAAGAGGGCGATGAAGTACGTCGTACCGGTCGTATCATGCAGGTTCCCGTAGGTGAGGAACTGCTTGGACGTGTTGTCAATCCACTTGGTCAGCCGGTGGATGGTCTCGGACCAATCGAAACAGATAAAACCCGCCCAATCGAATCTCCAGCACCTGGAGTTATGGATCGTAAATCGGTGGATGAGCCGCTTCAAACAGGAATCAAGGCGATTGACGCCCTTGTACCTATTGGACGTGGACAGCGTGAACTGATCATCGGAGACCGTCAGACTGGTAAAACATCTGTAGCGATTGACGCTATCCTTAACCAGCACGATCAGGATATGGTATGTATTTATGTAGCCATCGGACAGAAAGAATCCACCGTCCGCGGAACAGTGGAAACACTACGCCGCCATGGTGCTCTTGATTACACGATTGTCGTTACAGCAAGTGCATCCCAGCCTGCTCCACTCTTGTACCTTGCACCATATGCCGGTGTATCCATGGGTGAAGAATTCATGTATAACGGCAAGCACGTGCTTGTTGTTTATGATGACTTGTCCAAACAGGCCGCTGCATATCGTGAACTTTCCCTGCTGCTTCGTCGTCCGCCGGGTCGTGAAGCATTCCCGGGTGACGTTTTCTATCTGCACTCCCGTCTGCTTGAGCGTGCAGCAAAACTTAGTGATGCAAATGGAGGCGGCTCTTTGACAGCTCTTCCATTCGTTGAGACACAAGCCGGTGATATTTCCGCATACATCCCGACGAACGTTATTTCCATCACAGATGGACAGATATTCCTTCAGTCGGACCTGTTCTTCTCAGGCGTACGTCCGGCCATCAACGCCGGCTTGTCCGTCTCCCGTGTAGGTGGTTCTGCACAGATCAAAGCGATGAAGAAAGTTGCCGGAACTCTAAGGCTTGACCTTGCGTCCTTCCGTGAGCTTGAGGCCTTCGCCCAGTTCGGTTCTGACTTGGATAAATCCACTCAGGCGAAGCTGAACCGTGGTGCCCGTACAGTAGAAGTGCTGAAACAGGGGCTTCACCAGCCGCTTGCTGTTGAAAAGCAGGTTATGATCATTTATGCACTGACAAAAGGTTTCCTGGATGAAATTCCAACAGAGGACATCACACGTTTTGAAGCGGAATTCCACAACTGGCTGGATAACAACCGCAAAGAACTGCTGAATCAGATCCGTGAAACAGGTAAGCTTGCGGAAGATGATGATATGAGTGGTGCTGTGAAGGAATTCAAGAAAACATTTGTCGTTTCTGAATAA	MSIKAEEISALIKQQIENYESDIEVNDVGTVIEVGDGIARAHGLDNVMAGELVEFSTGVMGLAQNLEESNVGLVILGPYTDIKEGDEVRRTGRIMQVPVGEELLGRVVNPLGQPVDGLGPIETDKTRPIESPAPGVMDRKSVDEPLQTGIKAIDALVPIGRGQRELIIGDRQTGKTSVAIDAILNQHDQDMVCIYVAIGQKESTVRGTVETLRRHGALDYTIVVTASASQPAPLLYLAPYAGVSMGEEFMYNGKHVLVVYDDLSKQAAAYRELSLLLRRPPGREAFPGDVFYLHSRLLERAAKLSDANGGGSLTALPFVETQAGDISAYIPTNVISITDGQIFLQSDLFFSGVRPAINAGLSVSRVGGSAQIKAMKKVAGTLRLDLASFRELEAFAQFGSDLDKSTQAKLNRGARTVEVLKQGLHQPLAVEKQVMIIYALTKGFLDEIPTEDITRFEAEFHNWLDNNRKELLNQIRETGKLAEDDDMSGAVKEFKKTFVVSE	PGPT0014298_4387	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014298-atpA-K02111	NA	NA
AK012_01834	864	atpG	COG0224	ATP synthase gamma chain	GTGGCGTCCCTTAGAGATATTAAAGGCCGGATTACGTCTACCAAAAAGACGAAACAGATCACAAAAGCGATGGAAATGGTCTCAGCTTCCAAAATGAACCGTGCGGAACAGAATGCTAAAAATTATGTGCCGTACAGTGAGAAGATTGAGGAAGTTGTATCAAGTATCGCCCAGGGCGGTGGAGATGCAAGTCATCCCATGCTTGAAGCGCGTGATGTGAAAAAGACCGGTTACCTTGTCATTACATCGGACCGGGGGCTTGCAGGTGCTTTTAACAGCAGCATTCTGCGCCGTGTCTACCAGCAGATCCGCAGTAAGCATACATCCGCTGAGGAATATACGTTGATTACGATCGGACGTATTGGACGTGATTTCTTCCGTAAGCGTAATATGCCGGTCGACATGGATATTACAGGCGTTTCCGATCAGCCGGATTTTGCCGACATTAAAGATATCGCATCCAACACCGTTCAATTGTATACCGACGAACGGATCGATCAGCTCTATATCTTCTATAACCACTATGTCAGTGCGATCACTCAGGAAGTGACGGAGAAGAAAATTCTTCCACTGACGGATTTCAATGCAGAAGGAAAAGCAAGCCGGAGCTCGTATGAATATGAGCCGAATCAGGAAGAAATTCTTGAAGTGCTGCTTCCTCAATATGCTGAGAGTTTGATTTACGGGGCTCTTCTTGACAGTAAAGCAAGTGAGCACGCAGCCCGTATGACAGCCATGAAGAGTGCAACCGATAACGCCGATGAACTTATCGGTGATCTGACACTCTCCTATAACCGTGCCCGTCAGGCTGCGATAACCCAGGAAATCACCGAGATTGTCGGCGGAGCCGCAGCCCTCGAGTAG	MASLRDIKGRITSTKKTKQITKAMEMVSASKMNRAEQNAKNYVPYSEKIEEVVSSIAQGGGDASHPMLEARDVKKTGYLVITSDRGLAGAFNSSILRRVYQQIRSKHTSAEEYTLITIGRIGRDFFRKRNMPVDMDITGVSDQPDFADIKDIASNTVQLYTDERIDQLYIFYNHYVSAITQEVTEKKILPLTDFNAEGKASRSSYEYEPNQEEILEVLLPQYAESLIYGALLDSKASEHAARMTAMKSATDNADELIGDLTLSYNRARQAAITQEITEIVGGAAALE	PGPT0014297_3781	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014297-atpG-K02115	NA	NA
AK012_01835	1413	atpD	COG0055	ATP synthase subunit beta	ATGAGTAATGGACGCGTAACCCAGATTATGGGACCCGTTGTTGACGTAACCTTCGATGACGGACATCTCCCGGATATTAATAACGCGCTTCATGTTCGCTACGAAGCGAAAAATGAAAACGAAAAAAGCGTCGACCTTACTTTGGAGGTTGCCTTGCACCTAGGTGATAATACGGTTCGTACCGTTGCCATGTCATCAACCGATGGTGTCATGCGTGGAACGTCAGTGACAGATGCCGGTAAGCCGATTTCTGTACCTGTCGGAGAAGTAACTCTTGGACGTGTATTCAACGTAGAGGGCGGAACCATCGACTTGGATGAGCCGCTTCCTGCTGATGTGCGTCGTGACCCGATCCACCGTGAAGCTCCTAAGTTTGAGAACCTTGCCACAGAGACTGAAATTCTGGAAACAGGAATTAAAGTCGTTGACCTTCTTGCCCCTTATGTTAAAGGTGGTAAGATCGGATTGTTCGGTGGAGCTGGTGTAGGTAAAACCGTATTGATTCAGGAACTGATCAACAACATCGCTCAAGAGCACGGCGGAATTTCCGTATTCGCTGGTGTAGGCGAGCGTACCCGTGAAGGGAACGACCTTTACTGGGAAATGACAGATTCCGGAGTTATTAAGAAGACAGCCATGGTCTTTGGACAGATGAACGAGCCGCCTGGTGCACGTATGCGTGTAGCCCTGTCCGGACTGACAATGGCCGAGTACTTCCGTGATGAGCAGGGACAGGACGTACTGTTCTTCATCGATAACATCTTCCGTTTCACCCAGGGTGGTCTTGAGGTGTCTGCCCTTCTTGGACGTATGCCATCTGCCGTAGGTTATCAGCCGACGCTGGCTACGGAAATGGGACAGCTCCAGGAGCGTATCACATCAACGGATAAAGGTTCTGTAACGTCCATCCAGGCCATTTATGTTCCTGCCGATGACTACACAGACCCGGCTCCTGCGACAACGTTCGCACACCTTGATGCAACGACCAACCTTGAGCGTAAGCTTTCCGAGCAGGGAATCTACCCGGCCGTGGATCCGCTTGCTTCTACATCCCGCGCGCTTGATGCGGATATCGTAGGAGAAGAGCACTACAATGTAGCCCGTGAAGTTCAGCGTACGCTTCAGCGGTACAAAGAGCTCCAGGACATCATTGCCATCCTCGGTATGGATGAGCTTTCTGATGAAGATAAACTGACCGTGTCCCGTGCACGCCGTGTTCAGTTCTTCCTTTCTCAGAACTTCCACGTAGCCGAGCAGTTCACCGGCCAGAAGGGATCCTATGTCCCTGTTGCTGAAACAGTTAAAGGCTTCAAGGAGATTCTGGACGGTAAATACGACGATATTCCTGAAGATGCCTTCCGTCTTGTCGGACGCATCGAAGAAGTCGTTGAGAAATCAAAACAAATGCAATAA	MSNGRVTQIMGPVVDVTFDDGHLPDINNALHVRYEAKNENEKSVDLTLEVALHLGDNTVRTVAMSSTDGVMRGTSVTDAGKPISVPVGEVTLGRVFNVEGGTIDLDEPLPADVRRDPIHREAPKFENLATETEILETGIKVVDLLAPYVKGGKIGLFGGAGVGKTVLIQELINNIAQEHGGISVFAGVGERTREGNDLYWEMTDSGVIKKTAMVFGQMNEPPGARMRVALSGLTMAEYFRDEQGQDVLFFIDNIFRFTQGGLEVSALLGRMPSAVGYQPTLATEMGQLQERITSTDKGSVTSIQAIYVPADDYTDPAPATTFAHLDATTNLERKLSEQGIYPAVDPLASTSRALDADIVGEEHYNVAREVQRTLQRYKELQDIIAILGMDELSDEDKLTVSRARRVQFFLSQNFHVAEQFTGQKGSYVPVAETVKGFKEILDGKYDDIPEDAFRLVGRIEEVVEKSKQMQ	PGPT0014296_2674	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014296-atpD-K02112	NA	NA
AK012_01836	405	atpC	COG0355	ATP synthase epsilon chain	ATGAGCACACTAACGGTGAGTGTAGTCACTCCTGACGGCCCGGTGTTGGAAGATGCATTTGAAATGGTAAGCTGTAAGGCAGAGAGCGGTGAACTTGGAATTCTTCCAGGACATATTCCAATGGTCGCCCCTTTGACCATCAGCGCTGTCCGTTTAAAAGGCGAAGGAAGATCTGAACGAATTGCTGTCAGCGGCGGTTTTTTAGAAGTGCGTCCGGAAAAAGTGACCATCCTTGCGCAGTCTGCTGAAAAACCAACGGACATAGATGCCGATCGTGCCCGTATGGCTAAAGAACGTGCAGAACGACGCCTTCAGGATAAGCAGGCCGACATTGATTTCCAACGGGCTGAAATGGCCCTTAAGCGAGCCATTAATCGTTTAGACGTTTATGAAAACAATTTTTAA	MSTLTVSVVTPDGPVLEDAFEMVSCKAESGELGILPGHIPMVAPLTISAVRLKGEGRSERIAVSGGFLEVRPEKVTILAQSAEKPTDIDADRARMAKERAERRLQDKQADIDFQRAEMALKRAINRLDVYENNF	PGPT0014295_2524	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014295-atpC-K02114	NA	NA
AK012_01837	234			hypothetical protein	ATGGAACAATATTTTGCTGAAGAAGCATTGATGAGCATGACCTCACATTTAATTTTCATTATTATCACTTGGCGTGCCCTGCAGTCCGTAAACTTTGATGCGTTCTTCCGAAAAAACCGTGTCTTTGAAGCAAGAGCTCTCCTTATCATCATAACGATTGCCCTTGGAACGACGGTCAGTAATTTTTTCCTCGACTTTCTGTCGTGGTCGAACAGTCTGGTGTACTTGTTTTAA	MEQYFAEEALMSMTSHLIFIIITWRALQSVNFDAFFRKNRVFEARALLIIITIALGTTVSNFFLDFLSWSNSLVYLF				NA	NA	NA	NA	NA
AK012_01838	711			hypothetical protein	ATGTGGAAGAATATTTTTGCCGGAGTGCTGGCAGCTGCCATTGTAGGAACAGGTGCTTATCCACAGGAAATGACACAGGCGGAGGAACCATTAATGATGTTTGCGTCATTTGCTGCGGATAAGCAGCTCAACGTAGAAGAATGGACCATGACGATGAAACGGAAAGTTTCTCCTGATCAAACCGGGGGAATGATGGAACAGATATTAGATCAGGGACAGCACACGGATGTCTCCAGTGAGGAAACCGCACACGCTGAAAAATGGATAGTCACAAACCGTCACAAAAAGGAAAAGATCGTCGAAACGTATAGTGTGATTTCTCCCAGAAATATGAAGAACAAGGCAGAATTGGTTTATACGATACAGGGAGAGGGAACATCTTCACTGACACAGGACTTGTTCCATCGTGTGGAAGACGTAAAAAGTCGATATTTCTCTAAAACTGCTACAATTTTCTCTTGTCTTAAGGCTGTAAGCAATGGTATTATAGACGATGTTTTAGTGTATGAAAAATTCAAAGAAACTTTCGACGTAGCAACAATAGATGAAATCGACGAGAATGGCTGGACGAGCAGATCCGGCCGGACAGAGAAATGGGATCAGTCAATACCCTCAGGTAAACAATCAATGAATGTTCAATTCGCCACAAGAACTTTGGGCGGGGAGACAAACATCACTATTGGCACACCCATTATTACTGCTGAATATTAA	MWKNIFAGVLAAAIVGTGAYPQEMTQAEEPLMMFASFAADKQLNVEEWTMTMKRKVSPDQTGGMMEQILDQGQHTDVSSEETAHAEKWIVTNRHKKEKIVETYSVISPRNMKNKAELVYTIQGEGTSSLTQDLFHRVEDVKSRYFSKTATIFSCLKAVSNGIIDDVLVYEKFKETFDVATIDEIDENGWTSRSGRTEKWDQSIPSGKQSMNVQFATRTLGGETNITIGTPIITAEY				NA	NA	NA	NA	NA
AK012_01839	1311	murAA	COG0766	UDP-N-acetylglucosamine 1-carboxyvinyltransferase 1	TTGGAAAAAATCATCGTCCGTGGTGGGAGGCAGCTGAATGGTACCGTTAAAGCTGAAGGTGCTAAGAATGCCGTACTGCCTGTCATCGCAGCAAGTATTATTGCAAGTGAAGGAAAAAGCGTACTACACGAAGTACCAACTCTAGCTGATGTATATACGATCAACGAAGTGATTCGACATATGAATGCAGATGTCAATATGGTGGGGAACTCTGTTACAGTAGACGCCTCTGGTGAGTTGTTGACAGAAGCTCCGATCGAGTATGTTAGGAAGATGCGTGCTTCTGTTCTTGTACTGGGACCACTTTTGGCCCGCTATGGCCATGCTAAGGTAGCCATGCCTGGCGGCTGTGCTATCGGATCACGTCCTATCGACCAGCACCTGAAAGGCTTTGAAGCCATGGGAGCTGATGTAACCGTAGGAAACGGATACGTCGAAGCGGAAGTAAAAGGCCGTCTCAAAGGTGCAAAAATCTATTTCGATGTTCCAAGTGTAGGGGCTACAGAAAACGTCATGATGGCGGCCGCTCTTGCCGAAGGAACGACCACTCTGGAAAACTGTGCGAAAGAACCTGAAATTGTCGACCTTGCCAACTACTTGAACAAAATGGGCGCCCACATCGTAGGCGCAGGTACGGAAACGATTCGTATCGAAGGTGTGGAAAAGCTTTACGGAGCCGAGCACACCATTATTCCGGACCGGATTGAAGCAGGAACCTTCATGGTAGCTGCAGCGATTACCGGCGGAAACGTTCTTGTACAAGGTGCCATGCATGAACACCTGAGATCTCTTGTCGCCAAGATGGAGGAAATGGGTGTCAGCATCGAAGAAGAGGATGAAGGTCTGCGTGTAATCGGCCCGGATATCTTGAAAGCAACAGATATCAAAACGATGCCGCACCCTGGATTCCCGACAGATATGCAGTCTCAAATGATGGCTTTAATGCTGAATGCTACCGGCACAAGTGTCATTACAGAAACTGTATTTGAGAACCGCTTCATGCACGTGGAGGAATTCCGCCGCATGAACGCAAGTATCAAAATTGAAGGCCGCAGTGTAATTATTGAAGGGCCGTCCGCTCTGCAGGGCGCAGAAGTAGCTGCGACAGACCTGCGTGCAGGTGCAGCCTTGATTCTTGCAGGTCTTGTTTCTGAAGGTTACACAAGAGTCACAGAACTCAAGCATCTGGACCGTGGATATGTAAACTTTGCAGAAAAATTAGCCCAACTCGGCGCTGATATTGAACGCGTGAAAGAAGATGATGTATACAGCGAAGAGCACGAACCAAGTGAATCTGTATCGACCTTATAA	MEKIIVRGGRQLNGTVKAEGAKNAVLPVIAASIIASEGKSVLHEVPTLADVYTINEVIRHMNADVNMVGNSVTVDASGELLTEAPIEYVRKMRASVLVLGPLLARYGHAKVAMPGGCAIGSRPIDQHLKGFEAMGADVTVGNGYVEAEVKGRLKGAKIYFDVPSVGATENVMMAAALAEGTTTLENCAKEPEIVDLANYLNKMGAHIVGAGTETIRIEGVEKLYGAEHTIIPDRIEAGTFMVAAAITGGNVLVQGAMHEHLRSLVAKMEEMGVSIEEEDEGLRVIGPDILKATDIKTMPHPGFPTDMQSQMMALMLNATGTSVITETVFENRFMHVEEFRRMNASIKIEGRSVIIEGPSALQGAEVAATDLRAGAALILAGLVSEGYTRVTELKHLDRGYVNFAEKLAQLGADIERVKEDDVYSEEHEPSESVSTL	PGPT0024090_1261	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLGLUCOSAMINE_MODIFICATION,PGPT0024090-murA-K00790	NA	NA
AK012_01840	1011			hypothetical protein	ATGAAAAAAAGCAATCGAACGGGTCTTATGGTTGTTCTCGGCTTGATGATCACCATACTTGTACTACCGACTTTAATCGTTATCCCTTTCACGAGTCCTGCCGATACAACGGAAGTGGAAGAAACAGCACCGAAGGATAAGCAGGAGGAAGAGGATTCTCCATTTCTTGTGAAGGTTCTGCGGTCGCAGTCTGATCAGGTGGAAGAAGTCCCGCTGGAGACGTACGTATCCAGAGTGGTTGCTTCCGAAATGCCGGTCAACTTCGAATTGGAAGCCTTGAAGGCCCAGGCACTGGCTGCCCGGACGTACATCACCCGACATATGATTGAGGGCGGGAAGGTATCGGAAGAAGCCGATGTTACAGATACCGTCACCCATCAGGTGTACAAAAATGAAGAGGAGCTCAGAGGTCAGTGGAAAGAAGCGTTTAACAGCAATATGGAAAAAATCGAGCAGGCGGTAAAAGCGACTCAGGGGGAAATCATCACCTATGATCACAAACCCATTACGGCTTCTTTTTTTTCTACCAGCAATGGTTACACGGAAAACGCCGGGGACTACTGGGAGCATGACATCCCTTATTTGAAGAGTGTGGAAAGCCCCTGGGATGAGGATTCCCCTAAATTCGCAGATCAGAAAATCATTTCCACAGCGGAATTAGAGCAGACGCTTGGTCTTTCGCTGGATGGAGATATCCAGACATCCACGATGACGAAAACAGAAGGCAACCGGGTCGATGAAGTTCACTTCGGAACCCAGACATTTTCTGGACGGGAAATTCGTGAAAAGTTCGGATTGTCCTCCAGTGATTTCACCATTGAACAGAAAGGCGATCATGTGATATTCACGACTAAAGGCTACGGACACGGCGTAGGCATGAGCCAGTATGGAGCCAACGGCATGGCGAAGACCGGGAAGAATTACAAAGATATCATCCACCACTACTATCAGGACACTGAAATCAGCCCGCTGAGCACCCAGACCGCCCTCCTCAGCTCAGCAGCTGAATAA	MKKSNRTGLMVVLGLMITILVLPTLIVIPFTSPADTTEVEETAPKDKQEEEDSPFLVKVLRSQSDQVEEVPLETYVSRVVASEMPVNFELEALKAQALAARTYITRHMIEGGKVSEEADVTDTVTHQVYKNEEELRGQWKEAFNSNMEKIEQAVKATQGEIITYDHKPITASFFSTSNGYTENAGDYWEHDIPYLKSVESPWDEDSPKFADQKIISTAELEQTLGLSLDGDIQTSTMTKTEGNRVDEVHFGTQTFSGREIREKFGLSSSDFTIEQKGDHVIFTTKGYGHGVGMSQYGANGMAKTGKNYKDIIHHYYQDTEISPLSTQTALLSSAAE	PGPT0024670_929	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024670-spoIID-K06381	NA	NA
AK012_01841	888	spoIIQ	COG0739	Stage II sporulation protein Q	ATGAAAGATGAAGGTAAAAAAAGCGTAACTAAATTAAAGTTCAAACGCTTGATGCGCAAGAAGTGGTTGTATCCAGCTTTGTATTTGTCCGTAGCTGCTTTAGTCCTTGTAGGCGTATTCTGGTATCAACAGAGTGCCAATGATGTAGAAAAACAGATAGCTGACGAACAGAAATCACAGAGTCAGGATGAATTCCTTGTCAATGAAGATGGAGAGTCCGTACCAGTAATGGATCACCAGGAAAACCTGCAGATGCCTGTTGCTGATGAAAAGACAGCATCCATCGTCACAAAATTCTACGACTACGAAGCTTCTGAGCAAGATCAAGAAAGTGCACTGGTCCTATACAACAATAAATACTACCAAAGTGAAGGCGTAGATATTACAAGAGAAGATGGAGAAGCCTTTGAAGTAACGGCCGCTCTATCAGGAACAGTGACAGAAGTGAAAGAAGATCCGCTGTACGGCAATGTTATTGAAGTCCAGCACGACGAGAATCTCTCTACCGTGTATGCTAGTTTAGAAAGTGTCGATGTACTGGCCGGATCTGATATCGCTCAAGGAGATGTCATTGGATCAGCAGGACGTAATTCCTTTGGGCAGGCAAGCGGTGTGCATGTGCATTTTGAAGTCCGCAATGACGGCCAGCCAGTGAACCCGGAGGCATTCTTCGGTCAGCCGGTCAGCCAGATTGTGGAAAGTGCAGAAAAAGAACCCGCTGAAGCTGAGCAGACAGAAGAAGGCAGTCCTTCCGATACTCCTGAAGAAGAAAACGGGGAACCATCGGATGAACAATTGAATAATGAGGAAGACCCTGCAGAAACAGAAGGCGGCGAACAAACGCCTGATGAAGAAAGCGCTTCTTCCATCTCTACAACACAAGCGTAA	MKDEGKKSVTKLKFKRLMRKKWLYPALYLSVAALVLVGVFWYQQSANDVEKQIADEQKSQSQDEFLVNEDGESVPVMDHQENLQMPVADEKTASIVTKFYDYEASEQDQESALVLYNNKYYQSEGVDITREDGEAFEVTAALSGTVTEVKEDPLYGNVIEVQHDENLSTVYASLESVDVLAGSDIAQGDVIGSAGRNSFGQASGVHVHFEVRNDGQPVNPEAFFGQPVSQIVESAEKEPAEAEQTEEGSPSDTPEEENGEPSDEQLNNEEDPAETEGGEQTPDEESASSISTTQA	PGPT0024695_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024695-spoIIQ-K06386	NA	NA
AK012_01842	282	spoIIID		Stage III sporulation protein D	GTGCATGATTACATCAAAGAGAGGACCATCAAGATCGGAGAGCACATTATCGAAACGAAAAAAACAGTAAGAGTGATCGCCAAGGAATTCGGCGTTTCAAAAAGTACGGTTCATAAAGATTTAACGGAGCGGCTACCGGAAGTCAATCCAGAGCTGGCTAAAGAAGTGAAAAAAATCCTCGACCATCATAAGGAAATCAGACATCTCCGTGGTGGTGAAGCGACAAGGCGTAAATATAAGACGCAGCTGATCGAAGAACAGCCTGTGCAGCCTCAATTGTGA	MHDYIKERTIKIGEHIIETKKTVRVIAKEFGVSKSTVHKDLTERLPEVNPELAKEVKKILDHHKEIRHLRGGEATRRKYKTQLIEEQPVQPQL	PGPT0024715_100	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_III_SPORULATION,PGPT0024715-spoIIID-K06283	NA	NA
AK012_01843	999	mbl	COG1077	Cell shape-determining protein Mbl	ATGTTTGCGAGAGATATAGGTATAGACCTGGGTACAGCCAATGTACTTATCCACGTAAAAGGTAAAGGTATCGTTTTGAATGAGCCATCGGTCGTTGCGATGGATCGGAATACAGGCAAGGTATTGGAAGTCGGAGAAGAAGCAAGACGGATGGTCGGACGGACACCGGGCAACATTGAAGCCATTCGTCCTCTTAAAGATGGCGTCATTGCTGATTTTGATGTAACAGAAGCGATGCTGAAACATTTTATACAAAAGACGAATGTAAAGGGATTCTTGTCTAAGCCGAGAATGCTGATCTGCTGCCCGACGAATATTACGAAAGTGGAGCAGAAGGCGATTAAGGAAGCGGCTGAGAAATCCGGCGGGAAGAAAGTGTATTTGGAAGAAGAGCCTAAAGTGGCAGCTATTGGTGCCGGCATGGATATCTTCCAGCCAAGCGGAAATATGGTCGTCGATATCGGTGGCGGAACAACGGATGTGGCTGTTCTATCCATGGGTGATATCGTAACAGCTTCTTCTATTAAGATGGCCGGAGACAAATTCGACCATGAAATCCTTCAGTATATTAAGAAAGAATACAAACTGCTGATCGGTGAACGGACGGCTGAAGATATCAAGATCAGTGTAGCGACCGTCTTCCCGGGATCCAGAAGTGAGGAGATCGAAATCCGCGGACGTGATATGGTTTCCGGACTTCCAAGAACCATTACAGTGAATTCAACGGAAATTGAAAAATCACTTCGTGAATCTGTCCAGATGATCGTGCAGGCTGCCAAACAGGTGCTTGAACGCACACCACCTGAATTATCGGCAGACATTATCGACCGCGGCATCATCATGACTGGCGGCGGAGCCCTTCTTCACGGCATTGATCAGCTGCTTGCAGAAGAATTGAAGGTTCCTGTTCTTGTAGCGGAGTCCCCGATGGACTGTGTGGCTACAGGAACAGGAATTATGCTTGAAAACATAGACAAGCGTATCTCTACAAAGTTATAA	MFARDIGIDLGTANVLIHVKGKGIVLNEPSVVAMDRNTGKVLEVGEEARRMVGRTPGNIEAIRPLKDGVIADFDVTEAMLKHFIQKTNVKGFLSKPRMLICCPTNITKVEQKAIKEAAEKSGGKKVYLEEEPKVAAIGAGMDIFQPSGNMVVDIGGGTTDVAVLSMGDIVTASSIKMAGDKFDHEILQYIKKEYKLLIGERTAEDIKISVATVFPGSRSEEIEIRGRDMVSGLPRTITVNSTEIEKSLRESVQMIVQAAKQVLERTPPELSADIIDRGIIMTGGGALLHGIDQLLAEELKVPVLVAESPMDCVATGTGIMLENIDKRISTKL	PGPT0027700_3921	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
AK012_01844	828	flgG_2	COG4786	Flagellar basal-body rod protein FlgG	TTGCTGAGAGGGTTTTATACGGCCGCATCAGGAATGATGGCCAGCCAGCGGATGCAGGAAATGTTATCGAATAACATATCGAACGTAGAAACACCGGGGTATAAACAGACCCAGGGAAGTTTACGGGCTTTTCCAGAGCTGCTTTTACAGCAGATGGGCTCGAAAACACTGCCGGGATCAACGGCTCCTGTAGTTCCGGGTCAAAGCAGAGTCGGGTCCCTTCACACGGGTGTATATCTTCAGGAGACCACGCCTGACTTTTCGCAGGGCGCTTTAAAAGAAACGGGAGTCTCTACAGACATGGCTCTTGTCGCAGATCAGCTGCCTGATGCAGATGGAGCTGTCCTTTTTCAAGTGGAAAACGGAAATGGGGAAACCCGATACACGCGGAATGGAAGTTTTACAGTGGATGATGAAGGATTTCTGACTACGAATACAGGGTACAGAATCCTTGATGACAACGGAAATCCGATCAATACGGATGGACAGGCTTTTCAAGTATCCAGAACAGGCATGCTCACCACAGCGGATGCCGGCAACAGCCAGCTGGCCGTCGCTTATATACCAGCTGCCCATGCTCTCGTTCCGGAGGGCAGTGACCTTTATGTTCCCGGAGAAAATGCCGGGCCTATAGAGAACGCTCTGGAAAATGAAGGTGTCGATTTTTCTGTTCACCAGCATTTCATTGAAAGGTCCAATGTGGATTTGAACCGGACCATGACAGATATGATGAACACCTACCGTTCATTTGAAATGAACCAGCGTGTCCTGAAAGCTTATGACCAAAGTATGCAGCAAGCCGTATCTGAAATCGGCCGTATCCGCTGA	MLRGFYTAASGMMASQRMQEMLSNNISNVETPGYKQTQGSLRAFPELLLQQMGSKTLPGSTAPVVPGQSRVGSLHTGVYLQETTPDFSQGALKETGVSTDMALVADQLPDADGAVLFQVENGNGETRYTRNGSFTVDDEGFLTTNTGYRILDDNGNPINTDGQAFQVSRTGMLTTADAGNSQLAVAYIPAAHALVPEGSDLYVPGENAGPIENALENEGVDFSVHQHFIERSNVDLNRTMTDMMNTYRSFEMNQRVLKAYDQSMQQAVSEIGRIR	PGPT0015490_246	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015490-flgF-K02391	NA	NA
AK012_01845	828	flgG_3	COG4786	Flagellar basal-body rod protein FlgG	ATGATTAATCGGTCCATGATTCAATCGGCTGCAACAATGGGGCAGCTGCAGCAGAAACTTGATGGGGTTGGGAACAATATGGCCAACAGTCAGACGACAGGCTACAAGAGTACAGGAGCTGATTTTTCCTCCCTGCTCGTCCAGCAGCTGAATAATCAGTCCAATAAACAGGCCGAAGCGGGGCGTTTGACTCCTGACGGTATACGAGTGGGGACAGGCGCTAAACTGGGAAGTACGCGTGTGGATCTCAGCCGGGGAAGCCTGAAGGAAACAAACAGGGCTCTGGATGCCGCACTATTGGAGGAAAATCAGCTGTTTGCCCTTAACGTCTCTGATCTGAATGGCGGCTCGGAAACCCAGTACACAAGAGCCGGACATTTTTACTTGAATCCTCTTGGTAACGGACAGGTGATGCTTACAAACGCTGAAGGGCACGCCGTCATTGGAGAAGATGGAGATCCGATCATTCTCGAGGATACCTTCGATGGCATTTCCATCGCTGAAGATGGATCCCTGCTCGTCCAACGGAATGGGGATCAGAGAGTGGAAGGCCGCCTTCAGGTTGTTGAAGCTGCCCGTCCCCACCTGCTGGAACCGCAGGGAGGAACCCGTTTCCGGAACCCGGAAGGAAATGACGGAGCCGTCCTGATTGAGGAACTTGGAGCCGCAGATATCAAGCTTCAAGGAGGAGCACTGGAGCAGTCGAACGTGGACATCGGTGCACAAATGACGGAAATGATGACAGCTCAGAGAGCCTATCAATTGAATGCTCAGTCCATTTCAACAGGAGACCAGATGATGGGACTGGTTAACCAGCTGAGATCATAA	MINRSMIQSAATMGQLQQKLDGVGNNMANSQTTGYKSTGADFSSLLVQQLNNQSNKQAEAGRLTPDGIRVGTGAKLGSTRVDLSRGSLKETNRALDAALLEENQLFALNVSDLNGGSETQYTRAGHFYLNPLGNGQVMLTNAEGHAVIGEDGDPIILEDTFDGISIAEDGSLLVQRNGDQRVEGRLQVVEAARPHLLEPQGGTRFRNPEGNDGAVLIEELGAADIKLQGGALEQSNVDIGAQMTEMMTAQRAYQLNAQSISTGDQMMGLVNQLRS	PGPT0015495_207	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015495-flgG-K02392	NA	NA
AK012_01846	297			hypothetical protein	ATGGCGACAGATCCAAAATCAAAAGGTAAAAAACTGAATAATAAACAAGAGAAGGAAAACAAGCCCACAGATACGGGTAAGAAAGCAGGGTCTCAGGCGGATAAGAAAGATAAACCGGCCCGCCGGCGTATCCTGCCGATCTGGCTGCGTATCATTCTTGTTGTGCTGTTCAGTGCGGCCGCTTTGATCATCGGATTAATGATCGGTTACGGCGTTCTTGGTGATGGAGATCCCACGGATGCTCTCAAGCTGGATACATGGAAGCACATCCTGGATATTGTAACGAAAACAGAATAA	MATDPKSKGKKLNNKQEKENKPTDTGKKAGSQADKKDKPARRRILPIWLRIILVVLFSAAALIIGLMIGYGVLGDGDPTDALKLDTWKHILDIVTKTE				NA	NA	NA	NA	NA
AK012_01847	1326	kmo		Kynurenine 3-monooxygenase	GTGAAAGCAGAAGTGTTTATCGCAGGTGGCGGTGTCGGTGGACTTGCTCTTGCTGCTAAACTCGCATCAAGGGGTGTGCACGTCATTATCGCAGAACAATTAAAGAAAGAGTCCCCTGCCTACAAAGGGGAACTTCTGCAGCCCAAAACACTGGCTATACTGGAACGACTCGGAGTGCTTGATGAGATGGAGGCGAACGGCCATGCGCTGGATGAACTTCGGTTTCAGGAAGTGCATCGGCGGAAGGGACAGCCGCCTGAGGAGATCAATCTTACTGAATTAAGCTACAGCCGTGTGGCGGCATCGTATGACCATTCCTTGATGGTCCCCCACGAAAAGACGAAGGAGATTCTCCGCAATAAGGGAAAGGAATATGAAGAGTATTTTCATTACCTTCCAGGGGCCCGCTTCCTCGGATTTGAGAACGGGATGGCTAAAGTCAAACAAAAGAGGGAAATCCTTTACATCCAAGCCGGCGTGTACATAGGAGCTGAAGGCAGGAGCTCTCCTACACGGGATGCGATGAACGTGGAAGTGAACCGCAAGGATTACAATCACCACTTTCTTACGGTAACCATCCCCCGGCCGGAGAGCTTTACAAAAGGAAAAATCATTACGACCTCCAGCTGTTTTCTCGGCTTATTTCCGCTTCCTGACCGTGAAGTCAGGACAGTATTCCTGATCAAGGCTGGAGACTACAAAAAAATAAAGGAACAGGGACTTGAGCATTTGTATCAAGCCTACAGCGAGCTTGAGCCGGAGCTTGCCGAGGGTGTCAGGGCGATCAAAGACTGGAAGACGGTTCAATTGATGATTCCCTTTACGTATCACGTCGACAAGTACTACTCAGGCAACCTCGCCATCATAGGGGATGCGGCTCATACCGTTCACCCGATGGCCGGGGAAGGGATGAACCTGGCCATTCAGGACGCCGATGTGCTCGGCGAACTCCTGGCGTGGTGCTGGGAGGAAGGCAGATCCTACGCGGATCATCTGCATTATTATGAAGAGGTACGGAGACCGAGGGTGGAGTTCCTGCTGAATCTAAGCCATATGTCCGCTCTCGTTTATTCGTTTAGAAACGAGTGGTGGAGACGATTCAGAATGAAAGCCGTGCAGCGGATTTATGATGATGATTACCTTCATGTTAAGCAGATGCTGAACATATCAGGACTTGGGAAATGGAATTTTACTTTCATTGACAGAGGCATCCAGGGAAGTGTCCTGCCTGTGAGAAAGAAGAAAGTGTCGGATAAGGAACAGCATCGTTACTTGTTTTCTGAAGCAGAGGATTATCCTTGGAAAAGATCAAAGAAAGGAAGATGA	MKAEVFIAGGGVGGLALAAKLASRGVHVIIAEQLKKESPAYKGELLQPKTLAILERLGVLDEMEANGHALDELRFQEVHRRKGQPPEEINLTELSYSRVAASYDHSLMVPHEKTKEILRNKGKEYEEYFHYLPGARFLGFENGMAKVKQKREILYIQAGVYIGAEGRSSPTRDAMNVEVNRKDYNHHFLTVTIPRPESFTKGKIITTSSCFLGLFPLPDREVRTVFLIKAGDYKKIKEQGLEHLYQAYSELEPELAEGVRAIKDWKTVQLMIPFTYHVDKYYSGNLAIIGDAAHTVHPMAGEGMNLAIQDADVLGELLAWCWEEGRSYADHLHYYEEVRRPRVEFLLNLSHMSALVYSFRNEWWRRFRMKAVQRIYDDDYLHVKQMLNISGLGKWNFTFIDRGIQGSVLPVRKKKVSDKEQHRYLFSEAEDYPWKRSKKGR				NA	NA	NA	NA	NA
AK012_01848	1089	tam_1		Trans-aconitate 2-methyltransferase	ATGAACGAGTGGGTCACAGCCATGCAGGCAAGAAAATGGATGAAGAAAAATGAATCCTTTTTACCGAGCTGGCACGCGTACGTTGGAGCGGAGCTTGGATTATTCGATGAGTTCAGAACAGCAAGGACCGTGGAAGCCATCAGTGAGAAAACCGGCTACCCTCATGACCTCCTTGCATCATGGGTGAAAGTGGGAGTGGCTGTCAAACATTTGAAAAAGCGCCCGAACAACCGATTCAGAACCTCGAAGCGGCGGTGTGCCGCTCTTATGGGAGAGGATGCTTCTCCAGGTGTCAAAGCCCTGCTGAAAGAAATGATGGAACTGCACATTCCGACGATGCTTAGATACCCGGATATCATTACATCCCAGGAGCGGGCGGAATTCGATCATGAACGTCACGGGGGTGTAGTGGCTGAGACTTCTGCCCTGCTTGAACATTTTGCAATTAAGAAAATCAAGAAAATGATCCGCGAAAAACAGGTGCGTTCCATTGTAGACTTAGGCTGTGGCCATGGCGGCTATTTGAGGAAGCTGGCTGCAGAGTTTCCGGACGTACAGATGATCGGTGTGGATATTAACCAGAAAGTCATTGATAAAGCCAGGGAAATGTCCGGAGATTATACAAATGTCCGTTTTCAAGTCGGGGATATCAATAGCTGGACCCCGGAAGGTGAAAACGTGGATGTGATCCTTCTGCACAATATATTTCATTATATCCATCCGGATGACCGGGCACCATTATTGGATCACCTCTACTCCTATGTACGTCCGGAGGGGCTCATATCGGTGATTACGCCTATCAACGAAACGGAGCATGGAGAAGCTTTTTCTTCCGCGTTCAACAGCTTTTTTGTGGCTCACTCCAATCTGTTTGCCCTTCCTACGAAAAAAGAACTGCAGCAAGTATCACAGAACTGTAAATTTGACCTGTTTGACTTGAGCCCGATTGTTAAGGAAGGATCATGGTACACCTTCTGGCTGAGTCCGGCAAGTCCGGTGGAGGAAATCCATCAGACCGGGTGGTCAGGAGAAACGACACAGTCATTGAAAACGGAAACCCGTACCGGCGAATTGACCAGAAGTTCATAA	MNEWVTAMQARKWMKKNESFLPSWHAYVGAELGLFDEFRTARTVEAISEKTGYPHDLLASWVKVGVAVKHLKKRPNNRFRTSKRRCAALMGEDASPGVKALLKEMMELHIPTMLRYPDIITSQERAEFDHERHGGVVAETSALLEHFAIKKIKKMIREKQVRSIVDLGCGHGGYLRKLAAEFPDVQMIGVDINQKVIDKAREMSGDYTNVRFQVGDINSWTPEGENVDVILLHNIFHYIHPDDRAPLLDHLYSYVRPEGLISVITPINETEHGEAFSSAFNSFFVAHSNLFALPTKKELQQVSQNCKFDLFDLSPIVKEGSWYTFWLSPASPVEEIHQTGWSGETTQSLKTETRTGELTRSS				NA	NA	NA	NA	NA
AK012_01849	423	fabZ	COG0764	3-hydroxyacyl-[acyl-carrier-protein] dehydratase FabZ	ATGTTGGACATTAATCAAATCAAGGAAATCATTCCCCACCGCTACCCCTTTCTTCTGATCGATCAGGTCGAAGAGCTTGTAGAAGGGGAGCGGGCTGTAGGCTATAAAAACGTCACGATGAACGAACCCTTCTTTCAAGGGCACTTCCCGGATTACCCGGTCATGCCTGGTGTTTTAATCACGGAGGCCATGGCTCAGATGGGCGCAGTGGCCATGTTGAAGAAAGAAGAAAACCAGGGGAAACTGGCCTTTTTCACAGGTATTGATAAGTGCCGGTTCAAACGTCAGGTTAAACCCGGCGACCGCTTGAAGCTTGAAGTGGAAATTGTACGCCTGAAAGGCCCGGTAGGTAAAGGAAAGGCCAAAGCCACCGTCGATGGTGAGCTGGCGTGTGAAGCGGAGATTATGTTCGCTTTGAAATAA	MLDINQIKEIIPHRYPFLLIDQVEELVEGERAVGYKNVTMNEPFFQGHFPDYPVMPGVLITEAMAQMGAVAMLKKEENQGKLAFFTGIDKCRFKRQVKPGDRLKLEVEIVRLKGPVGKGKAKATVDGELACEAEIMFALK	PGPT0008365_3746	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008365-fabZ-K02372	NA	NA
AK012_01850	255			hypothetical protein	ATGAAATCCTTATTACTTAAACTTATGACAGCTCTATTTGCCATCACTTTACTCGGGGCGTGCGCGTCTGAAGAAGAGCCTGCGGAAGAGGAAAACGACACAGAAGAAAACATGCAGGAAGAAGAAGAAAATATGGAAGAAGAAGAGAACATGGACGAAGAGGAAAATATGGATGAAGAAATGAAAGAGGAAGAGAAGGAGCAGGAAGATATGACCGATGAAAATGCTCCCGAAGATGAAGAAAATAACGAGTAA	MKSLLLKLMTALFAITLLGACASEEEPAEEENDTEENMQEEEENMEEEENMDEEENMDEEMKEEEKEQEDMTDENAPEDEENNE				NA	NA	NA	NA	NA
AK012_01851	180			hypothetical protein	ATGGATGCTGCTGCTTTATCAATGGCCCTCGGACAGACCCAGCTCAAACAGCAGACGAACCTGGCCTTGATGGATAAAGTGAAGGATGAAGCTGAGGCGAAAGGAAATCAGATGGTGGAGATGCTGAACCAGTCCGTCTCCCATCCGGATCTTGGGAACCACGTGGATCTAAGAGGGTAA	MDAAALSMALGQTQLKQQTNLALMDKVKDEAEAKGNQMVEMLNQSVSHPDLGNHVDLRG				NA	NA	NA	NA	NA
AK012_01852	624			hypothetical protein	ATGATGAAGTATAGAACGGCGAACGATTTAAAAGATCTGCTTCTGGAAGACTATGAAAAAGTAGTGAACCACATCCCGCTCGAAAAACTGGATGTCTACGTATACCTTCATTCCGTCTTCCAAGATACTTACGTACCGGACGACACGTTGTATCAATTCATTTTCCGCCATTTCTTCCGGCTCGATAATCCAAGCTTAACGAAGGAATTCGAGACCTGCTACTTTAAACTGATGGAAGAACAAAGGGGATATGAACGTCCGAATATCGTCCAGATCACCAGGGATTTATATGAAGTGAAGAATCATAAGGGAAACCCTACGATGCAGTTTCCTCTGGCGGCTTCCATGCTTCATACCATCAATCCGAGCTTTCCTTCCTATGACAGTGATATTGTGAAAGCCTTTGATTTCTCCTCTACCTATCACCTGTCCGGGTTTGAAAAGAAAATGAAACGCTATATCGGACAGTATCAGCATACATTCAAGACGTATGAAGAGCTGACCCAGGATGAAGCGCTTGAACCGATGTTCAACCATTTTGATGAACGGTTCCCGGAATATGATCTGCCTAAGATTAAAAAATTGGATCTTATGGTTGCCCAGCTCGGCAACCTCCTTCAATGA	MMKYRTANDLKDLLLEDYEKVVNHIPLEKLDVYVYLHSVFQDTYVPDDTLYQFIFRHFFRLDNPSLTKEFETCYFKLMEEQRGYERPNIVQITRDLYEVKNHKGNPTMQFPLAASMLHTINPSFPSYDSDIVKAFDFSSTYHLSGFEKKMKRYIGQYQHTFKTYEELTQDEALEPMFNHFDERFPEYDLPKIKKLDLMVAQLGNLLQ				NA	NA	NA	NA	NA
AK012_01853	1365			hypothetical protein	ATGGAAGGGAAGTCTTTAATGAAACGGTTGTTGTTACTATTTATACTGCTTTTCTTTGTAACCGCTTGTATGCAGGAGGAAAGTTCGGAAGAGACAGAAGAACGGGTGACTCCGGTGAAGGTCGATCGTGTTGAAAATGAAGATTTTGTGATTGAAAGGAAAATTGCAGGGCGCGCCGCCTCTCCGGATTCCTCGCCGGTGATGCCTGAGACACCAGGAGAAGTGGCCACCTTAAACATTTCTAAAGGAGACCGGGTGGAAAAAGGGGAAACGATTGCAGTAGTTCGACCTGGAGGGAACGTAGGAGATCAGGTGGAGCTCCAGGAGATTGCCGTCCGCCAGGCAGAAAAACAGCTGGATAACGCCAGAATCTCCAAAGAACAGGCTCAGCTCGGCGTTGAAAACGCTGAAGACCAGGTAGAACTGGCCAAGCAGGCATCTCAGTCTGAGGCCAGTCAGTCCGCTCAAGCGGCCGAAGCTGCCAAGCAGCAGTATGAGCAGGCGCAGCAGATTGCCGATGAAACGAAGAAACTTGTGGATGAAGGGACCATTCCTGAAGCCCTCTATAATCAGGCACAGAATAGAGCTGATCAAGCTCATGCCCAGTATCAGCAGCTTCAAGGACAGAAGTCCCAGTCTTCCTCAGCCGTTTCCCAGGCGGAGGCTCAGGTGGACCAGGCTCAGCAGCAGCTCGAACAGGCCCAGGTGGCTGTCGAGCAGGCGGAACTTCAAGTAGAGCAGGCAAACGTGCAGTTGAATCAGGCCGAGGAGCAGGCAGCGAATGAGGCGATTACCGCCCCTGTGACAGGAGAAGTGGCGAGCCTGAGTGCCGAGGAAGGGGACATGGTGACAAACCAGCAGCCCTTTGCAACGGTCGTCAGTTTGAACCCGATGACCATTTCCGCTTCCGTCACGCCTGAACAGCTGGATCTTTTTGAAAAAGGACAGGAGCTTCAAGTAGATCTTCCCGCCTTGGAAGAGGAAGCAGCGGCTGTGATCGATTATATCTCATCTGTTCCTGATGACACCGGGCTTTATCCGGTTGAAGCCACGGTCGATAATGCTGAGGAGGACATCAAGCCGGGGATGATGGCTTCCTTCCTGCTTCCAGAGAATGTTGTGGAAGATGCTCTGATCATTCCTACAGACGGCCTGGTGGAACAAAATGATGAGACGTTCGTTTATAAGGTGGAAGAAGAGAAAGCCGTACGCGTAGATGTGGAAGTGATTGAATCACAGAGTGACTTCTCCGCCGTTTCCGGCGAAATAACGGCGGAGGATGACATTATCACTTCAGGGCAGCTGACCCTTTCGGATGGGGACAAGGTCACCATCATGAAGGAGGATTCTGATGAAGCTCGTTAA	MEGKSLMKRLLLLFILLFFVTACMQEESSEETEERVTPVKVDRVENEDFVIERKIAGRAASPDSSPVMPETPGEVATLNISKGDRVEKGETIAVVRPGGNVGDQVELQEIAVRQAEKQLDNARISKEQAQLGVENAEDQVELAKQASQSEASQSAQAAEAAKQQYEQAQQIADETKKLVDEGTIPEALYNQAQNRADQAHAQYQQLQGQKSQSSSAVSQAEAQVDQAQQQLEQAQVAVEQAELQVEQANVQLNQAEEQAANEAITAPVTGEVASLSAEEGDMVTNQQPFATVVSLNPMTISASVTPEQLDLFEKGQELQVDLPALEEEAAAVIDYISSVPDDTGLYPVEATVDNAEEDIKPGMMASFLLPENVVEDALIIPTDGLVEQNDETFVYKVEEEKAVRVDVEVIESQSDFSAVSGEITAEDDIITSGQLTLSDGDKVTIMKEDSDEAR				NA	NA	NA	NA	NA
AK012_01854	3078	swrC_2	COG0841	Swarming motility protein SwrC	ATGAAGCTCGTTAATCTTTCCGTCAAAAGACCTGTGGGTGTCATCATGATCGTGGCTGCCATCTTAGGACTTGGGTTCGTTTCCCTGAGAAGTTTAACCATCGACTTATACCCTGAAATTGAGCTTCCCATTGCGGTGGTATCGACCTCATATGAAGGGGCGGCCCCGCAGGAGGTGGAGAAGCTGGTCAGCCGGCCGGTGGAATCGTCGGTCAGCAGTATCGAAGGGCTGGAGGTACTCCAGTCCCAATCACAGGCGGGAGCGTCTCTGGTTCTTCTTCAATTTAATACAGGTGTCAATTTAGACAGCACACTTTTACAAGTAAGAGAGAATGTTGATCAAATCACCGGTATTCTTCCTGAGGGAGCGTCCGATGCAAGTGTGCTCCGTTTTGATCCGCAGCAGCTTCCGATTATGACCGTCGGCCTTTCAGGAGATACGCCGGATGAACTGCAGCAGGTAGCGGAGAATCGGATCGTTCCGTTTCTGGAAAGGCAGGAAGGTGTAGCGTCCGTCAATATCGAGGGTGGACAGACCAGCGAAATCCAGGTGCTTGTCGACCGGGCGCAGATGGCTCAGTATGGTCTCAATTCGCAAACCGTGATTCAGGCACTTAATGCTTCCAATCAATCCGCTTCCGCCGGAACGATCGAAAAAGGGCAGAAAGACCTGCAGATCAGGGTGGACGGCGAATTTGGCTCGATTGAAGACGTGAAGAGTACGAGAATCCAATCGCAGACAGGCGCCCAGGTCACTCTCGACCAAATTGCAGACGTCAGTGAAACACTGACGAACTCTGATACAGTGAGTAAAGTGAACGGTGAATCGTCCGTCGTTCTTTCCATATTGAAAAAATCAGAAGCCAATACCGTGGAAACGGCGGACAACGTCAGGGAGGCCCTTGATGAGGTGCAGGGCGATCTTCCGGAAAAAGTCGGCACGAATATTGTTCTGGATACATCCGAGTTTATTAAAATTTCCATCAACAGTGTCGTATTGAATATTATTCTTGGTGGAATCTTTTCTGTGCTCGTCCTGCTGCTATTTTTGAAAAGCATCCGGGCGACCCTTGTCATCGGCCTTTCCATTCCGATTGCAATCATTTCCACCTTTACATTGATGTACTTCACAGGAGAGACGTTGAACGTGCTGACGATGGGAGGTCTGGCTCTTGGAATCGGGATGATGGTGGATAGTTCCATTGTCATTCTGGAGAATATCGTCAGCTATCGGCAGCGGGGCTATTCAATGGTGGAGGCAGCCAAGCAGGGAGCTTCAGAGCTTGCGCCGGCCGTTGTTGCTTCAGCAACGACAACGCTCGTTGTCTTTCTACCTATTATATTCGTAGAAGGTATTGCATCAGAGCTCTTTACTCCGCTTGCGCTGACGATTATGTTTGCTTTGATTGCATCGCTGGCCGTTTCGGTCACCTTAATACCGATGCTGTCCTCGAAGCTGTTAACCAAATCCCTGAAGGAAAACGGACGCCGGTATTGGTTCGATCGATTCCTCGATAAAGTCAATGATGGATACCGGTCGATGCTTCGCTGGGTGCTGAAATTCCGGAAAACGACGATAGCGATTACGACAGCCTTGATCGTCGGAAGCGCTGCCTTAGTGCCTCTGATTGGAACGGAATTTATTCCACCCTCTGACCAGGGACAGATAGAAGTCAGGGTCAATATGCCGCCCGGTACGTCCCTCGATGAAACGGAGGCTGTAACGTCACAGGTCGACGAGCAGCTGGATACTTTTGAAGAGCTTGTGGATGTCCGTTACCTGTCTATCGGCGGAGGTAATATGGGCGGCTTCGGTGCGAGCTCCTCTGACTTTGCTTCCTACACGATTCAACTGGTTGAACCTGATCAGCGGGAGAAAACAACCCAGACGGTGATGAAGGAAATGTCCGAAGCGGTATCTGATATACCTGGAGCTGAAATTGAAGTGAGTGAACTGGATGCAGGACTCGGAACAGGCGCCCCGCTTCAAGTGCAGCTGAACGGGCCTGAATATGAAGTGCTTGATGAACTTGGCGGTCAGGTTGCCTACTTAATGAATGAAGTGGATGGTGTTCAGAACGCTGCCTCTTCGACTGATGAGGGACGGCCGCAGATGAACATTACAGTCAACGAAGCGAAAGCATCTCAATACGGTCTGACAGAGCAGCAGGTGATCAGCCAGGTCCAGCTTGGATTCAATGGACAGATTGCCACGCGCTATCGGGATGGAACAGATGAAAAAGATGTACGCTTCCTTCTGCCGGAGGAAGAACGGCAGACGATTGCAGATTTAGAGGGGATGCCTGTACAAACGCCGAACGGGGCTTTAATTCCACTTGCTACGATTGCAGAGTTGGAGCAGGTTCAAGGTCCGGTCTCCCTGCTCAGGGAGAATCAGCAGCCCCAGGTGAACGTGGAAGCTGAAATTTCGGATATTGATCTTGGGACAGCTACCGAAGAGGTTCGATCCGAGCTGGATTCCTTGAACTTCCCGGATGGATACTCCTATACGATCGGTGGTCAGGCGCAGGACATGCAGGAAGCCTTCGGTGATTTATCCCTGGCGCTGCTATTCTCTGTGTTCCTCGTATATGCGGTTATGGCGGTCCAATTTGAGAACTTCCTGTTTCCGTTCATTATTATGTTCTCCCTTCCTGCCACCATCATTGGCATCAGCGGAGGGTTGTTCATTACCGGACTGCCATTCAGTCTGCCGGCTTTTGTCGGTATAATCATGCTGGCCGGGATTGTTGTGAACAACGCCATTGTATTAGTGGATTATATCAATATCCTGAGGAGGAAATCGTACGACAGGTATGAAGCGATTTTAGAAGCCGGTCCGAGCCGTCTTCGCCCGATTTTGATGACGACGTTGACAACGGTACTTGGAATGGTGCCTCTGGCTATAGGAATCGGCCGTGGTGCAGAAGCCCAGCAGCCGCTCGCGGTCACCATTATTTTCGGCCTTACAGTGTCCAGTTTCTTCACGTTAGTCTTAATTCCGGTTGTCTATACGTATTTTGATGACCTGTCTGCAAAAATTACAGGGTTTTTCCGAAAGCGATCGGCGAAGGAATAA	MKLVNLSVKRPVGVIMIVAAILGLGFVSLRSLTIDLYPEIELPIAVVSTSYEGAAPQEVEKLVSRPVESSVSSIEGLEVLQSQSQAGASLVLLQFNTGVNLDSTLLQVRENVDQITGILPEGASDASVLRFDPQQLPIMTVGLSGDTPDELQQVAENRIVPFLERQEGVASVNIEGGQTSEIQVLVDRAQMAQYGLNSQTVIQALNASNQSASAGTIEKGQKDLQIRVDGEFGSIEDVKSTRIQSQTGAQVTLDQIADVSETLTNSDTVSKVNGESSVVLSILKKSEANTVETADNVREALDEVQGDLPEKVGTNIVLDTSEFIKISINSVVLNIILGGIFSVLVLLLFLKSIRATLVIGLSIPIAIISTFTLMYFTGETLNVLTMGGLALGIGMMVDSSIVILENIVSYRQRGYSMVEAAKQGASELAPAVVASATTTLVVFLPIIFVEGIASELFTPLALTIMFALIASLAVSVTLIPMLSSKLLTKSLKENGRRYWFDRFLDKVNDGYRSMLRWVLKFRKTTIAITTALIVGSAALVPLIGTEFIPPSDQGQIEVRVNMPPGTSLDETEAVTSQVDEQLDTFEELVDVRYLSIGGGNMGGFGASSSDFASYTIQLVEPDQREKTTQTVMKEMSEAVSDIPGAEIEVSELDAGLGTGAPLQVQLNGPEYEVLDELGGQVAYLMNEVDGVQNAASSTDEGRPQMNITVNEAKASQYGLTEQQVISQVQLGFNGQIATRYRDGTDEKDVRFLLPEEERQTIADLEGMPVQTPNGALIPLATIAELEQVQGPVSLLRENQQPQVNVEAEISDIDLGTATEEVRSELDSLNFPDGYSYTIGGQAQDMQEAFGDLSLALLFSVFLVYAVMAVQFENFLFPFIIMFSLPATIIGISGGLFITGLPFSLPAFVGIIMLAGIVVNNAIVLVDYINILRRKSYDRYEAILEAGPSRLRPILMTTLTTVLGMVPLAIGIGRGAEAQQPLAVTIIFGLTVSSFFTLVLIPVVYTYFDDLSAKITGFFRKRSAKE	PGPT0016195_1668	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
AK012_01855	411			hypothetical protein	ATGGACTTAACTGACCATTTAAGAAAGAGGTGGCCGCCATTGCACGAAAGAAGACAAGAACCTTTCCGATATCCATTCCAATCACCTCTGCCCGGGTTTTATAACAAAAAGTTCAGCCCGCAGGTTTCCGGGCCGCTTGAAGTGAACGACATCAGCCTGAATGGTATGCGCTTTTCCTGCTCCCCCCAGCCTCATCTATCAATGAGAGATGAAGTGATTATCTCCTTTATGATGGACGGGGAAACCTTCACCTTTGAAGGCAGGGTGATCTGGTTGAAAACGAATGAAGAGAAAACAACGTGCGGTGTTCATGTCTTTGATTATCCAGAACGCTTGAAGAGTAAAATTCAAAAGCTTGGAGATTCTTTGGCCGAACATCAAAAAAATCATATAGAAACGAAGTCTCCTTAA	MDLTDHLRKRWPPLHERRQEPFRYPFQSPLPGFYNKKFSPQVSGPLEVNDISLNGMRFSCSPQPHLSMRDEVIISFMMDGETFTFEGRVIWLKTNEEKTTCGVHVFDYPERLKSKIQKLGDSLAEHQKNHIETKSP				NA	NA	NA	NA	NA
AK012_01856	723			hypothetical protein	ATGCATGATCTTGTAGAAGAGTTTGAAATAACCTTCAATCAAATCCATCAGCACCTGAAGGAACTGAACGGATTTCCTAAAAACGACAATTTCGTAGAGCTTCTGCAGCATTCTAAACTGAAGCACAGCGTCGTTCGTGTATATTTCGACCAGCTGAAACAGTACGCCAAATTAAGAAACGCCATTGTTCATGAACGGATCAGCGGCGATTATTATATTGCCACCCCTCATGAAGATGTTGTCCATCATTTGAAGAACATAAAAAAGACGTTGGAACAACCACCTGAAGCCTTGACTTTCGCCACGCGGCCGGTCCTTTTCTTCAAGACGGATACAAACCTGCTTCACATTATGGAAGCGTTCGGACAGCACGGGATTTCCCAGTTTCCCATTTATGATGAAAACCGCTGCTTCTCCGGTCTGCTTACCAATGATGGCATTGTCCGCTTCCTGGCACAGATGGCAGACAATGGAAAGATTGCTTTACTTCATGCTGAAGCCTCCGATGTCCTTGCCTGTGAAAAACACGCCAACGTGCAGTTTCTTTCCTCTACAGCCTCTGTGTTTGATTTAGAGGAAAGGTTTGAAACCAGCCTGAATGAGAATAACAAATTGAAAGCTGTCATTCTGACTGAAACAGGGCAGCCGGATGAGCTTCCTATGGGAATCGTTACGACATGGGATTTGATCAAAGTGGACAGAAGAGATCAGGATATTTCGTAA	MHDLVEEFEITFNQIHQHLKELNGFPKNDNFVELLQHSKLKHSVVRVYFDQLKQYAKLRNAIVHERISGDYYIATPHEDVVHHLKNIKKTLEQPPEALTFATRPVLFFKTDTNLLHIMEAFGQHGISQFPIYDENRCFSGLLTNDGIVRFLAQMADNGKIALLHAEASDVLACEKHANVQFLSSTASVFDLEERFETSLNENNKLKAVILTETGQPDELPMGIVTTWDLIKVDRRDQDIS				NA	NA	NA	NA	NA
AK012_01857	330	sinR_1	COG1396	HTH-type transcriptional regulator SinR	ATGATCGGTGAACGCATACAGAAAATACGTAAAGACCGACATATGTCGCTGTCAGAACTGGCGGAGAGGGCAGGGGTCGCAAAGTCTTATTTGAGCTCGATCGAGCGGAATATTCAGACGAATCCATCCATACAATTTTTGACGAAAATTTCCCAGGAACTCGATGTTTCCATTAATTTTCTCCTTCACGGCGAATCCGAACCGATGGATGAAACATTGGATCAGGACTGGATGACACTTGTCCAGGAAGCCATGAATTCGGGGATATCCAAAGAGCAGTTCCGTGAGTTTTTAGAGTTTAACAAATGGAGAATCCATCAGAATAAATGA	MIGERIQKIRKDRHMSLSELAERAGVAKSYLSSIERNIQTNPSIQFLTKISQELDVSINFLLHGESEPMDETLDQDWMTLVQEAMNSGISKEQFREFLEFNKWRIHQNK	PGPT0014755_106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014755-sinR-K19449	NA	NA
AK012_01858	765	iolE		Inosose dehydratase	ATGACCACAATACCATTTGCTGTCCAGCTTTATACCTTAAGGAATGAAACAGAAAGAGATTTTGAAGGAACGGTAAGAAAAGTAGCGGAATTAGGCTTCCACGGGGTCGAGTTCGCAGGGTTCGGCGGGCTTTCTCCGGAAAAAGTAAAAGCGCTCCTGGACGAGCTGGGTCTGAAAGCAGCCTCCAGTCACGTACCATTTGAGCAGCTGAAAGAAAACCTCAGCCAGGTGATTGAAGAGCACCAACTCATTGGTTGTCCTTATATTGTCTGTCCTTATATTGAGAATCGTGAGCCTGAGGATTACGAGGTTTTGATTGAGGATTTGAAGAGAATCAGTGCCGTCTGCCGTGATCATGGCATAACGCTGTGCTACCATAATCACGACTTTGAATTGACTCCACTTCCGGACGGAACACTCCCATTGGAAAAAATACTTCAGGAAACCGGAGAAGCGGAAGTCCAGGCGGAATTTGATATTTACTGGATCCAGAAAGCCGGCGGCGATCCCGCAGCCTGGATCGACCGCTATCAGGGACGCACTCCTCTCATCCATCTGAAGGATATGACCCTCGATGAGGAGCAGTTTTTTGCAGAACTGGGAACCGGAGGCGTCGATTTGGATACCATTTTCACCCTAGGTGAAAAGAATGGTGTGAAATGGTGGGTGGTGGAACAGGACGAGAGCCGCCGGACCCCCATGGAAAGCCTGGAAATCAGCATGTCCTACGTTAAAAATAAATTTCCGCATTTAGTAGAAAACTGA	MTTIPFAVQLYTLRNETERDFEGTVRKVAELGFHGVEFAGFGGLSPEKVKALLDELGLKAASSHVPFEQLKENLSQVIEEHQLIGCPYIVCPYIENREPEDYEVLIEDLKRISAVCRDHGITLCYHNHDFELTPLPDGTLPLEKILQETGEAEVQAEFDIYWIQKAGGDPAAWIDRYQGRTPLIHLKDMTLDEEQFFAELGTGGVDLDTIFTLGEKNGVKWWVVEQDESRRTPMESLEISMSYVKNKFPHLVEN				NA	NA	NA	NA	NA
AK012_01859	246			hypothetical protein	ATGCCTGTATCCGTCGTCTTTAACCAGATTGCTGTCAATTCCTTAAGTGAAAATGGCCTGATCTCTACGGGGCAGAATAACCAGCCGGACTGGTCATGGCAGGGGAAGAACAACAATGCAGCAGGTCTTCCAGTGGGCTTCTTCATTGCTACCAACAATGTGAACACGATTTTTGATAATGACTTCACAGATACTCCAATCAACAACCCTACGGTCAATAACCCTCAACCAAACGTTCAAGTCTAG	MPVSVVFNQIAVNSLSENGLISTGQNNQPDWSWQGKNNNAAGLPVGFFIATNNVNTIFDNDFTDTPINNPTVNNPQPNVQV				NA	NA	NA	NA	NA
AK012_01860	294			hypothetical protein	ATGGCTTATTTATCACCGAATTTTTTCATCGGAAGTATCCGGATCGGAACGATTGAAAATGCTTCCTGCTTGAATATGGGGAATAATGTCCCGACTGGTTTTGAGGGGCATCAGAAACTCAATCAAGGATTCGGAACCATACACGGGGATGGAAATACACTGGAGGAACTAAGGTCCATCCTCAGTGACTCCGCCCTTTTGGATTTCATGTCCAGGGAACAAGACACAGAGCTGCCGGAATGGCTTCAAAAAATGATGGAAGAAAAAATGAGAGAGGCTCAGGAAGCTGAATAG	MAYLSPNFFIGSIRIGTIENASCLNMGNNVPTGFEGHQKLNQGFGTIHGDGNTLEELRSILSDSALLDFMSREQDTELPEWLQKMMEEKMREAQEAE				NA	NA	NA	NA	NA
AK012_01861	324			hypothetical protein	ATGTTTTTTTCACGAAAGCGGCGGCATTCCAATAGAAAAACGCAGGACCTGGAAAAGCAGATCGAAGAATTAAAAGCAGCCCTGCAGCAGGTAAAGGGACGTCCGATCGAATACCATATCCACATTGATCATGTAACGATCAAAGAACCTTCCCTGGAACAGCTGACCTTTCAGCTTGATCAATTGGATATTGAGGAGCTGAGCGGCGCCTTGAACCTGGGGAATAACTTCGGTGTTCATGTGAAGCCGAAGGATTCTTCCGCCCCGAGGCTCCGACAGACCAATGATGGTTTGAAATTCACCTTCCCTTCCAAGGAGGAGTAG	MFFSRKRRHSNRKTQDLEKQIEELKAALQQVKGRPIEYHIHIDHVTIKEPSLEQLTFQLDQLDIEELSGALNLGNNFGVHVKPKDSSAPRLRQTNDGLKFTFPSKEE				NA	NA	NA	NA	NA
AK012_01862	201			hypothetical protein	ATGTGCCGCATCCAATTCGATCAGCTGTCGATCCATCAGGTCTCCAAATCCTCAGGGGTTTTCCCGGGTACGAACTTCCAGTCCGGCTTCAAGGCACACGCCCGTGTGTTTGAAGGGAATGGAAAAGTCGTGGGTCACCGCAACTCCCTCCTCCACAATAAACATCTTATTATGAAACGTCCTTCTGCCGATGGGGACTAA	MCRIQFDQLSIHQVSKSSGVFPGTNFQSGFKAHARVFEGNGKVVGHRNSLLHNKHLIMKRPSADGD				NA	NA	NA	NA	NA
AK012_01863	441			hypothetical protein	ATGATGGACTTTATGAAATGGTTCAATCCAGCCGGCGGTGATCAAGACAGCTGGAATGGCCCTGTACCGAACTGGATGAATGGGGATAAGATGAATGATTTTCTGCAGCAGTCGATGAAGGAAGCTTTGTCTTCCACCCCTTTTCACCATGAATCACAGATACATCAGGAGAAAGGACAGGAACAGGTGAAGGTCGTTGAGTTAATGAATGAAGTAGTAGTTACGATTGCTCTCCGTCCTCCTGTGGATCCAGATGCAGTCAGGCTTAGTGTCGGCAGCGGATATTTATATGTGGAAGGGGTGGAGGCCGGCCGGATGACCATTAAACTGCCGGCGGCCACAAGCAGAAGGAACGTATATGCCCAGTACCGGGAAGGTGTGATTGAAGTTCGTCTCCAGAAAAAACAGACAGATGAAAAGGAAATCTTCCTCCACTATTGA	MMDFMKWFNPAGGDQDSWNGPVPNWMNGDKMNDFLQQSMKEALSSTPFHHESQIHQEKGQEQVKVVELMNEVVVTIALRPPVDPDAVRLSVGSGYLYVEGVEAGRMTIKLPAATSRRNVYAQYREGVIEVRLQKKQTDEKEIFLHY	PGPT0014635_4516	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
AK012_01864	435			hypothetical protein	ATGAAGAAAAAGAACAATTCCATCAACTGGGAAGCTTTCTCTGAAAATGTTGAAAAGGTTCTGGGAGAAGACTTCTGGAATGATATGCACCACGTCATTCCCAAACGTGGACCATCGTATGACTTATTTGAAACGAAGGATCAGGGGGTTGTCGTCGTTGAACTCCCCGGGTTCAGTAAAGACGATCCACTCCATCTTTCCCAGCAGGGTACACACCTCCTTCTTCAAGGTGAAATCACCCCTCATTATCCCGTTCCTTTAGAAGAGCTTCATCACAATGAACGAATGAAGGGGAAATTTAAGAGAGTCATCCCGATCCCGTTCCATTTTGCCTTTGAGGATGTGGTCACTTCCTATAAAGAGGGACTGTTGATCATCACCATTTTCAAGCGTGCGCACCGTCAGGAAATGAAGGTCATATTTGAGGATCAATAG	MKKKNNSINWEAFSENVEKVLGEDFWNDMHHVIPKRGPSYDLFETKDQGVVVVELPGFSKDDPLHLSQQGTHLLLQGEITPHYPVPLEELHHNERMKGKFKRVIPIPFHFAFEDVVTSYKEGLLIITIFKRAHRQEMKVIFEDQ	PGPT0014635_5760	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
AK012_01865	1314			hypothetical protein	ATGAAAAAGAACAAACTTTATTCGGGTTTTGCTACCGCTGTACTCGCTTCAACTGTCGCTCTTGCAGGCTGTTCCTTCGGTTCTGACAGCAGCGGGGACTCAGGATCCTCTGATAGTGCATCCGGTGATCAGACAACTGTAGATATCTTTCAATTCAAAGTAGAGTTTAAGGATCAATTTGAAGAATTAGTTTCCATGTATGAAGAAGAAAATCCTGACGTGAATATCAATGTCAAAACGGTTGGCGGAGGAAATGATTACGGAGCTTCCCTGAAAACATCCTTCTCCTCCGGCGAAGAGCCTGACATCTTCAACGTTGGAGGACCGACGGATGTAGATGAGTACGAGCAGTATCTTGCCGACCTGTCGGATACAGAAGCCGCTGGAGCCGCTTTGGAAGGAACGTTGACAGGCGTATCCCGTGATGATCAGGTACTTGGACTTCCATTCAACCAGGAAGGCTACGGCATGCTTTATAACAAGGAAGTTTTTGAAGAGGCCGGTATCAACGCTGAGGAAATCACAACGTTTGATGCTTTCGAAGAAGCTTTGGAAACGCTGGATTCCCAAAAGGATGAGCTTGGAATTGAAGCGCCGATTGCCTTCGCTGCCAAAGAAAAGTGGGTACTTGGTAACCACCTTTCCAATGCATACTTGGCGGATGAGTTCAATCACAGTGTGACAGAAGCTTATGAAGCGGATACGGTTGAATTCCAAATGGGGGATCAGATGAAACGCTTTACGGATCTTCAGAAAGAATACTCCGTCCAGCCTGTATTGAGTCTCGATTATTCCCAGCAGGTGGAAGAAAACTTCTCCCTTGGCAAAGTAGCTATGATTCAGCAGGGGAACTGGGTTTACAACACGGTTGAATCCATGGATGAGGAATTCGCTCAGAACAACGTAGGCATCCTGCCAATTCCAGTGGAAGGTTATGAAGGCAGTATCCCTGTCGGCGTACCAAACTATTGGGTTGTCAACAAAGAGTCTGAAGATGAAGTGGTTCAGGCAAGTAAAGACTTCCTTGATTGGATGTACACATCTGAAGAAGGTAAGAAATTCGTAACCGAAGAATTCAAGTTCATACCTGCTTACGAAGGCTACGAGGATCTTGAAATTGCCGATCCGATTTCCCAGCAGATCTACGAGTACGCAAGTGAAGGCAACACACTTGGATGGGTCTTCCTCGGCGCTCCTACAGGCTGGACAGAAGACGCCATGGGTGTAGCGATGCAGGAATACATTGCCGGTGATATCACTTGGGAAGAAGTAGAGCAGAGAGCTACAGAAGCCTGGGAGAAAGCCCGTCAGTAA	MKKNKLYSGFATAVLASTVALAGCSFGSDSSGDSGSSDSASGDQTTVDIFQFKVEFKDQFEELVSMYEEENPDVNINVKTVGGGNDYGASLKTSFSSGEEPDIFNVGGPTDVDEYEQYLADLSDTEAAGAALEGTLTGVSRDDQVLGLPFNQEGYGMLYNKEVFEEAGINAEEITTFDAFEEALETLDSQKDELGIEAPIAFAAKEKWVLGNHLSNAYLADEFNHSVTEAYEADTVEFQMGDQMKRFTDLQKEYSVQPVLSLDYSQQVEENFSLGKVAMIQQGNWVYNTVESMDEEFAQNNVGILPIPVEGYEGSIPVGVPNYWVVNKESEDEVVQASKDFLDWMYTSEEGKKFVTEEFKFIPAYEGYEDLEIADPISQQIYEYASEGNTLGWVFLGAPTGWTEDAMGVAMQEYIAGDITWEEVEQRATEAWEKARQ	PGPT0016330_1356	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016330-msmE-K10117	NA	NA
AK012_01866	861	melD	COG1175	Melibiose/raffinose/stachyose import permease protein MelD	ATGCAGAACCGCAGCTTATCATTCTGGCTGTTTTTGACACCAGTAATCCTTGGATTGGGGATTGTCGTCGTCATTCCATTCTTCTACGGTCTATTCTATTCATTTACAGACTGGAATGGAATATCGGCTACAACTTTTATCGGGTTGGAGAACTACATCAACCTGTTTCAGGAAAGTGAATTTATGGATTCCATCTGGTTTACTGTGAAGTTTGCCCTTATTACTGTCGTCCTGCTCAACATTATGGGTCTGGGTCTGGCCCTGCTTGTAACACGGAACATTAAATCAAGCAGCCTTCTGCGGACCGTCTTCTTTATGCCGAACTTGATCGGTGGCTTGATCCTCGGTTTCATCTGGCAGTTTATTTTCATCAGTGTGTTTGGGGATATCGCCGGCATCACCGGTATTGAAGGCTTCAACGGCTGGCTGTCTACGACAAATACCGGCTTCTGGGGTCTTGTTATTCTGACGGCCTGGCAGATGGCTGGTTATATTATGATCATCTACATTGCTTATCTTGAAAACATTCCGAAAGAATTGATTGAAGCAGCGAAAATTGATGGAGCAAGCAGTTTCCAGCGTTTTAAGAACATTACGTTCCCGCTTGTGGCCCCGGCTTTTACGGTAAGTATGTTCCTGACTCTGTCCATGGCCTTCAAGATCTATGACCAGAACTTGTCTCTCACCAACGGTGGACCGTTCAACTCCACGCAGATGGTGGCGATGGAAATTGTCCGGACAGCTTTCTCTGACAATGATATGGCTTATGCCCAGGCGAAAGCGGTTATTTTCTTCCTGATCGTCGCTGTGATTGCATTGACTCAAGTGTATTACAACAAGAAGCGGGAGGTTGAGATGTAA	MQNRSLSFWLFLTPVILGLGIVVVIPFFYGLFYSFTDWNGISATTFIGLENYINLFQESEFMDSIWFTVKFALITVVLLNIMGLGLALLVTRNIKSSSLLRTVFFMPNLIGGLILGFIWQFIFISVFGDIAGITGIEGFNGWLSTTNTGFWGLVILTAWQMAGYIMIIYIAYLENIPKELIEAAKIDGASSFQRFKNITFPLVAPAFTVSMFLTLSMAFKIYDQNLSLTNGGPFNSTQMVAMEIVRTAFSDNDMAYAQAKAVIFFLIVAVIALTQVYYNKKREVEM	PGPT0016335_2297	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016335-msmF-K10118	NA	NA
AK012_01867	825	melC	COG0395	Melibiose/raffinose/stachyose import permease protein MelC	ATGAAGAAGAACAAGGAAAGAAGAAATTTACTATCCATAGAAATTCTCGGCCTTCTGCTCGGATTGATCTGGATCTCGCCTTTTTACCTGATGATTGTCAACGCGTTCAAAACGAAGCGTGATATTTTCAGCGGGGTTCTCGGCTTCCCGAGTGAACCGGTTTTTGAAAACTTCGTCGAGGCGTTTATTGATCTTGAATTTTTGAAATCCCTTTTCAACTCATTAATGATCACGGGGTTGAGTATTGCGATCATTATCCTGTTTTCATCGATGGCTGGTTATGCGCTGGCGAGGAACAAGAGTAAGCTGAGCAGTGTCATCTTCTTCATCTTTGTTGCTGCGATGCTGATTCCGTTCCAGTCGGTCATGATCCCGCTGGTATCTATTTTTGGACAGGCCGACATGCTGAATGCCGGTGGATTGATCTTCATGTATCTAGGATTTGGGTGCAGTCTTTCTATCTTCCTCTATCACGGAGCAATGACCGGGGTATCGAAATCGCTGGATGAAGCGGCCATCATTGATGGAGCGAACCGCTTCCAGACGTTCTGGTACATCATTTTCCCGCTGCTTAAACCGATTTCCGTTACGGTGGCGATTCTGAATGTCATCTGGATCTGGAACGACTACCTGCTTCCATCCCTTGTCCTTAACGAATCCAATGCAACCATTCCGTTGAAGATGTTCTATTTCTTCGGTCAGTATACCAAGCAGTGGCACCTGGCGCTGGCTGGACTTACCATCGCCATCCTGCCGGTCATCATCGGATACTTCTTCGCACAGAAGCAGATTATCAATGGTGTATCAGAAGGTGCTGTTAAATAA	MKKNKERRNLLSIEILGLLLGLIWISPFYLMIVNAFKTKRDIFSGVLGFPSEPVFENFVEAFIDLEFLKSLFNSLMITGLSIAIIILFSSMAGYALARNKSKLSSVIFFIFVAAMLIPFQSVMIPLVSIFGQADMLNAGGLIFMYLGFGCSLSIFLYHGAMTGVSKSLDEAAIIDGANRFQTFWYIIFPLLKPISVTVAILNVIWIWNDYLLPSLVLNESNATIPLKMFYFFGQYTKQWHLALAGLTIAILPVIIGYFFAQKQIINGVSEGAVK	PGPT0016340_2012	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_REAFFINOSE|STACHYOSE|MELIBIOSE_TRANSPORT,PGPT0016340-msmG-K10119	NA	NA
AK012_01868	1050	malR_1	COG1609	HTH-type transcriptional regulator MalR	ATGAACGTGTCCGTAACAATCAAGGATGTTGCCAAAAAGGCCGATGTCGCGCCATCTACCGTATCCCGTGTCATCTCGGATAGTCCGAGAATCAGTGAAAAAACGAAGCGGAAAGTCCGGAAAGTCATGGACGAGCTCGGCTATCATCTGAACTATAACGGCCGTGTCCTTGTCAGCCAGTCCACGCAGACCATCGGCATTGTAACGAAGGTTTCCTCTGATCATTTTTTCGAAAATCCGTTCTTCTCTGAATTGTTGAGGGGCATCAGTGATGCCTGCCATGACCGGGATTACAGCATGTACCTGACAACGGGGAATACAGAGGAAGCCATTTTTCAGGAAGTCGTCAAAATGGTGCAGGGGAAACGGGTGGACGGTGTGCTCGTTCTTTACTCCAGGGAAGATGATCGAGTCGTTCCGTTTTTAAGAGAGTCCAGCTTTCCTTTTGTTGTCCTTGGAAAGCCTGTCGATCGACCGGGGGAAACGATGTATGTAGACAATGACAACGTACAGGCCAGTAAGGAAGTGACCCGGTACTTGATTGAACTTGGTCACGAAAGAATCGGATATGTCGGAGGAAACTCCCAGTTTGAAGTCGCCCGTGACCGGTTAGAAGGATACCGTGCAGCGATGAAAGACCACAGTCTTCCCATTGACGAAGAATGGCTGAAGAATGTGCCGGCAGACAAGCAGGATCCAGACCAGGTGGCAGAACAGCTACTCGGTCTTGAAAAAAAGCCGACGGCTCTGATCTTCACCGATGAATATAATGCCCTCACGGTGATGCGGTCTTTGTCCCGCAGGGGAGCCTCCATACCAGAGCAGATCAGCATCGCTGCCTTTAACAATACCGTTGTTTCAAGACTCGCTGATCCGCCGCTGACGACGGTGGATACGCAGGCGATTCAGCTGGGACATGAATCTGCCTCCAGTTTAATCGACCTTCTAAAGCGTCCGGATATGGTGAAGAAAAGCATGATTATTCCAACACGGATCATCGAACGGGATTCCTCCCGGAGGCTGGAGCCTGAAAGCCGGGTGGAAAGCTGA	MNVSVTIKDVAKKADVAPSTVSRVISDSPRISEKTKRKVRKVMDELGYHLNYNGRVLVSQSTQTIGIVTKVSSDHFFENPFFSELLRGISDACHDRDYSMYLTTGNTEEAIFQEVVKMVQGKRVDGVLVLYSREDDRVVPFLRESSFPFVVLGKPVDRPGETMYVDNDNVQASKEVTRYLIELGHERIGYVGGNSQFEVARDRLEGYRAAMKDHSLPIDEEWLKNVPADKQDPDQVAEQLLGLEKKPTALIFTDEYNALTVMRSLSRRGASIPEQISIAAFNNTVVSRLADPPLTTVDTQAIQLGHESASSLIDLLKRPDMVKKSMIIPTRIIERDSSRRLEPESRVES	PGPT0014791_153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
AK012_01869	723			hypothetical protein	ATGAATGTACTAGTATGGAATGAATACCGACACGAAAAAGAAAATCAAGTCGTTGCTGATGTGTATCCCGACGGCATTCACGGAGCGATCGCAGAATTCCTCGGAGAAGATCATGTTCAGGTGAAAACCGCCACGCTTGATGAAGAAGAGCATGGCTTGACGGATGAAGTGCTGGCAGACACCGATGTCCTTGTCTGGTGGGGCCATAAAGCCCATGACGAAGTACAGGATGAGATTGCTGAGAAGGTGAAGCAGCGTGTCCTTGACGGTATGGGACTTGTCGTTCTTCATTCCGGTCACTTTTCCAAGCCGTTTAAGAAATTGATGGGGACCACTTGTGATTTGAAGTGGCGGGAAGCTGATGAGAAGGAACGTCTATGGGTCGTCGATCCCACCCATCCGATCGCTGACGGAATCGGGGAATACATCGAACTGGAAAAGGAAGAGATGTACGGGGAGCACTTTGATATTCCGGCTCCGGATGAGCTGGTCTTCCTCAGCTGGTTCGAAGGCGGCGAGGTGTTCCGAAGCGGCGCGACGTTCAAACGCGGACGTGGAAAGATCTTTTATTTCCGTCCGGGCCATGAAACGTATCCAACCTATTACAACAAAGAAATACAAAAAGTCATCCGTAACGGTGTAAACTATGTCCGTAACGCCGATACACCGAAGCCGGTGTATGGAAACGCCCAGCCTTTAGAAAATATTACGAGTCAATCATAA	MNVLVWNEYRHEKENQVVADVYPDGIHGAIAEFLGEDHVQVKTATLDEEEHGLTDEVLADTDVLVWWGHKAHDEVQDEIAEKVKQRVLDGMGLVVLHSGHFSKPFKKLMGTTCDLKWREADEKERLWVVDPTHPIADGIGEYIELEKEEMYGEHFDIPAPDELVFLSWFEGGEVFRSGATFKRGRGKIFYFRPGHETYPTYYNKEIQKVIRNGVNYVRNADTPKPVYGNAQPLENITSQS				NA	NA	NA	NA	NA
AK012_01870	1041	gfo_1		Glucose--fructose oxidoreductase	ATGACAATGTTGAGAGTTGCTGTAATCGGATGTGGCAGTATCGCGCAGAACCGCCATCTGCTGGAATATGAAGCCAATGAAAACGTAGAGATCAAAGCCGTATGTGATATTGCTGAAGAACGGGCGCGGAAAGTAGGACAGCTGTATGGTGCTGTGGTCTATACGGATTATGAAGAACTGCTGGAAAAAGAAGAGGTTGATGCGGTCAGCGTCTGCCTGCCGAACTACCTGCATGCACCTGTCTCCATCGCGGCCTTGAACAAAGGCGCCCATGTGCTTTGTGAAAAGCCGATGGCTACTTCAAGGGAAGAAGCGGAAGACATGATCGCTGCGGCAGAAAAGAACGGGAAGAAACTGATGATTGCCCACAATCAGCGCTTTGTGCCGTCCCACCAGAAAGCCAGGGAGTTGATTGCGTCCGGCAGCATCGGTAAAGTATACAGCTTCCGTACGACTTTCGGACATGGTGGTCCGGAAGGCTGGAGTGCGGAAGGCGAGGACAGCTGGTTCTTTAAAAAAGATCAGGCTTTCATCGGTGCCATGGGAGATTTAGGTGTACATAAAGCCGATCTTCTCCGCTATATCCTTGGTCAGGAATTTGTGGAAGCAGCCGGCTTTGTAGAAAACAATGCGAAAAAAGACATCACTGTAGACGACAATGCCGTCTGCATTCTCCGCTCAGAAAACGGAATCGTCGGTACGATGACCGCCAGCTGGGCCTACAACACACATGAAGATAACAGCACAGTCATTTACGGAGAGAAGGGAACACTCCGTCTGGAGGATGACCCGGCCTATTCCCTGATTGCCCAGTACACGAACGGGGATGTCGTGAATTATCAGCTCGGAAAAATCCAGTCCAATGATGAAGGCGGTCAGACAAATACACAGGTCATCGACCATTTTGTAGACAGTATCCTGAATGACACGGAACCCTTGATTACGGGGGAAGAAGGTCTGAAGTCACTGGAATTGATTCTGGCAGCACTCCGATCAGGAGAAACGAAAGAAATCAGCCGTATTGAGCGTGTTCTTCCATGA	MTMLRVAVIGCGSIAQNRHLLEYEANENVEIKAVCDIAEERARKVGQLYGAVVYTDYEELLEKEEVDAVSVCLPNYLHAPVSIAALNKGAHVLCEKPMATSREEAEDMIAAAEKNGKKLMIAHNQRFVPSHQKARELIASGSIGKVYSFRTTFGHGGPEGWSAEGEDSWFFKKDQAFIGAMGDLGVHKADLLRYILGQEFVEAAGFVENNAKKDITVDDNAVCILRSENGIVGTMTASWAYNTHEDNSTVIYGEKGTLRLEDDPAYSLIAQYTNGDVVNYQLGKIQSNDEGGQTNTQVIDHFVDSILNDTEPLITGEEGLKSLELILAALRSGETKEISRIERVLP	PGPT0022715_483	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0022715-wlbA|bplA-K13020	NA	NA
AK012_01871	1062	gfo_2		Glucose--fructose oxidoreductase	ATGACACGGCTGCGGATGGGAATCATTGGAGCAGGGGGAATTGCCCAGGGGCGGCATATTCCCTCTTTCCTTGAATGGAGCGGGAAAGTAGAACTGACCGCTGTTCAGGATGTGAACCGTGACCGGGCGGAAGAAGTGGCGGAGACGTTCGATATCCCTTATGTCTTTTCTTATTATAAAGATATGTTTCAGGAAGTGGATGCCGTAACGATCTGTACACCGAACAAGTTTCATGCGGAGATTGCGATTGCAGCCTTGGAAGCCGGCGTACACGTGCTCTGTGAAAAACCGATGGCCATGACCACAGCAGAGGGAGAAGCGATGGTCGAGGCGGCAGAGCGGAATAACTGCATCCTTGACATTGCCTACCACTACCGTTTTACTCCAGAAGCGCAGCTGGCGAAGAAAGTGTTGATGAACAATGAAATTGGAGATCCCTTTGTGACGAGAGTCCAGGCGATGCGCCGCCGGAAAGTCCCCGGCTGGGGGGTATTCACAAACAAGGACCTCCAGGGTGGAGGGAGTCTGATTGACTTCGGCTGCCACCTGCTCGATCTTGCGCTCTGGCTTCTGGATGATCCGGAACCGGTAGAAGTGACGGGCCGGACCTATGACCGGCTGAGTAAAACACCGGGCCTCGTGAACGACTGGGGAAGCTTTGATCATGAAAGCTTTAACGTAGATGATCATGTAACGAGTTATATAACGTTTGAAAATGGCGAGTCGCTGCAGTTTGAGTGCTCCTGGGCAGCGAATATCAAAGAAGACCATACCACCCTGACCATCTCAGGTACAGAAGGTGGTTTGAGTGTCTATCCGTTTGAACTCTACCAGGCGAAATACGGCGCCTTGTTCGACAGTTCAGCTAAAATCCGTGAAGGAGAACCTGAAGTGGGGGTTGTTCAGGCGGAGAATTTCATTGATGCGTGCCTCGGTCAGGCAGAGCTTATCGTCAAACCGGAGCAGGCACTGAAAGTCACCAGACTGATGGAAGCGATCTATGAAAGCAGTCAGACCGGAACAAGTGTTAAAATCAATAAAAGAGCGGAGGATGCTGAATGA	MTRLRMGIIGAGGIAQGRHIPSFLEWSGKVELTAVQDVNRDRAEEVAETFDIPYVFSYYKDMFQEVDAVTICTPNKFHAEIAIAALEAGVHVLCEKPMAMTTAEGEAMVEAAERNNCILDIAYHYRFTPEAQLAKKVLMNNEIGDPFVTRVQAMRRRKVPGWGVFTNKDLQGGGSLIDFGCHLLDLALWLLDDPEPVEVTGRTYDRLSKTPGLVNDWGSFDHESFNVDDHVTSYITFENGESLQFECSWAANIKEDHTTLTISGTEGGLSVYPFELYQAKYGALFDSSAKIREGEPEVGVVQAENFIDACLGQAELIVKPEQALKVTRLMEAIYESSQTGTSVKINKRAEDAE				NA	NA	NA	NA	NA
AK012_01872	969			hypothetical protein	ATGAAACTAGGAGTGTTTACTGTCCTTTTTTCCGATAAATCGTTCGAAGACATGCTCGACCACGCGAAAGAATCCGGCTTGAAAGCCGTTGAAATCGGGACAGGGGGCTATCCAGGCAATGCCCATTGTAATCTGGACGAACTGCTTGAAAGTGAAGACAAGCGGAAAGAATACCTGCAGAAAGTCCATGACAGAGGTTTGACAATCAGTGCTTTCAGCTGTCACGGCAACCCGATTTCTCCTGACCAGGCGTTTGCGGAGGAATGTCATGAAACCTTTGTGAAAACCGTCAAACTGGCAGGATTGATGGACGTACCTGTCGTCAATACCTTTTCCGGTACGCCTGGAGGACATGAAAATGACACGGCTCCGAACTGGCCTGTGACTCCATGGCCGCCGGAGTATTCCGACATTCTGGAATGGCAGTGGGACAAGAAGCTGGTTCCATATTGGAAAGAACAGGCACAGCTGGCTGAGGAGCATGGCGTGAAAATCGGTCTTGAACTGCATGCCGGCTTTCTCGTCCACACCCCTTACACGATGCTGAAGCTCCGTGAAGCCGCGGGAGAAGCGATCGGTGCCAACCTTGATCCGAGTCACTTATGGTGGCAGGGGATCGATCCGGTGGCAGCCATTAAGATTCTGGGACGGGAGCAGGCCATTCACCACTTCCACGCCAAGGATACGTATATCGATCAGGAGAACGTGAACATGTATGGGCTGACGGATATGCAGAATTACGCAGCCGTTCAAACAAGAGCATGGAGTTTCCGGTCTGTCGGCTACGGCCATGGCACGAAGGAATGGTCCGATATCATCAGTGCTCTGCGGACCTTCGGATATGATCATGTCGTCAGTATTGAACACGAAGATCCGATCATGTCCATCCAGGAAGGGTTCCAGGCTGCAGTGAAGAATTTGAAAGATGTGATAATCGAGGAACCGGCAACAGACATGTGGTGGGCCTGA	MKLGVFTVLFSDKSFEDMLDHAKESGLKAVEIGTGGYPGNAHCNLDELLESEDKRKEYLQKVHDRGLTISAFSCHGNPISPDQAFAEECHETFVKTVKLAGLMDVPVVNTFSGTPGGHENDTAPNWPVTPWPPEYSDILEWQWDKKLVPYWKEQAQLAEEHGVKIGLELHAGFLVHTPYTMLKLREAAGEAIGANLDPSHLWWQGIDPVAAIKILGREQAIHHFHAKDTYIDQENVNMYGLTDMQNYAAVQTRAWSFRSVGYGHGTKEWSDIISALRTFGYDHVVSIEHEDPIMSIQEGFQAAVKNLKDVIIEEPATDMWWA				NA	NA	NA	NA	NA
AK012_01873	687			hypothetical protein	ATGGAACAGACATCAGGAGTAAGAGGAGGACTTTATGCCGTAAGTGAATGGATCAGCCGGCTGGCACTGGCCAATCTTTCCTGGACATTCTTCAACCTTCCCGTTGGACTGCTGCTGCTGAGTTTGCTGTACAGCACCGGAGCCCGGGATCTATGGTATCTGCTTCCACCACTGGTGATTCTGCTTCCGTTCGTTTTCTTTCCGGCAACGACTGCGTTGTTTGCCCAGGCACGCGAGTGGGTTCGTAAAGATGAAGTGAAAGCATCCCGGCGTTCTTATTGGAGCTATTACAAGGAAAATTATAAAACGAGTGCGGCGGCCGGAACGTTCCTCACAGTTTTGTGGGGACTGCTTGTGGCGGATCTGTACTATTTTTCTGCTGTGAACCAGCTTCTGATGAACGTTTTCCTTGTGCTCGGTATTCTATTATTCGTCTATACCATCAACTGTTTTTCTGTTATGGTTCACTATGATATGAAGGCCCGGCAGGTGATGAAGCAGGCGCTGCTGATTACCATTACAAGTCCTGTTCTGTTTGTGGCTGTTGCGGTAAGTGCAGGGTTTATGCTGATGGTCAGCTTGTATATTTTCCCGCTGATCATCCCTATTTTTACAGGCTCCATCATTGCGTTTCTATCATTTTCCGCCTTTTTCCGGGTGTACAGGAAACTGAATACAGAGGACTGA	MEQTSGVRGGLYAVSEWISRLALANLSWTFFNLPVGLLLLSLLYSTGARDLWYLLPPLVILLPFVFFPATTALFAQAREWVRKDEVKASRRSYWSYYKENYKTSAAAGTFLTVLWGLLVADLYYFSAVNQLLMNVFLVLGILLFVYTINCFSVMVHYDMKARQVMKQALLITITSPVLFVAVAVSAGFMLMVSLYIFPLIIPIFTGSIIAFLSFSAFFRVYRKLNTED				NA	NA	NA	NA	NA
AK012_01874	456			IS1595 family transposase ISBsu3	ATGAAGATTAGGAAACTGGAAAGCTCCGAATATGACCGGGTTCTTTCTTTCACGCATCAAATGATTTATGAAGGGACCATGCGTACGATCAAGGTGGGGCAGGAGCAGGCGAAAACATTCGTCCAGCCGGTTCTTGATGAAGGGGGAACGTACATTATCGCAGAGAACGAACAGGGGCAGCTGCTTGGCTGGCTGCTGTCGGGTGAGAAAATCGATACCTTTTCCGGAGAGAAGTTCGGGTTCATCTATGAGTTGTTTGTTCTTCCGGAATTCAGAGGCCGGGAGATCGGTCGTGCCCTTATGGAAGAGGGGATCAGCCGTCTGCAGAAGCAGTACCGGGAAATCCGCTTAAGCGTCTATGCGGGGAATGGCGCGTCAAATCTTTATGAATCGCTCGGTTTTCAAAAGAAGACCATAACGATGAGCCTTACGAAAGAAGAAAAAGGAAATGGGTAA	MKIRKLESSEYDRVLSFTHQMIYEGTMRTIKVGQEQAKTFVQPVLDEGGTYIIAENEQGQLLGWLLSGEKIDTFSGEKFGFIYELFVLPEFRGREIGRALMEEGISRLQKQYREIRLSVYAGNGASNLYESLGFQKKTITMSLTKEEKGNG				NA	NA	NA	NA	NA
AK012_01875	249			hypothetical protein	ATGGGTAAGCCGATTTTCTTCCGCCCCATGACATCTCAGGAGAAAAAGGGATGGAACAAAGGCATTTATGTCGGTTTTTATACGTACCTGATTGTTCTGTTCATCAACTTCTCTTACGAATCCTTTGCTTCCGGCTCCCTGTTTTCCGCTCAGACATTATTCTGGTCGGGAATCGCCGCCGCTTTCATAACCGAACTGATCTATGTGTTTGTGCAGAAGCGGAGATACTCACAGGCCGACCATACATAA	MGKPIFFRPMTSQEKKGWNKGIYVGFYTYLIVLFINFSYESFASGSLFSAQTLFWSGIAAAFITELIYVFVQKRRYSQADHT				NA	NA	NA	NA	NA
AK012_01876	438	hutP		Hut operon positive regulatory protein	GTGCCCCAGCAGATTAAGATTGGTAAACTGGCTGTCCTGGCCGCCTCTTTGACAGAAGAAGAACTGTCCGGGTTTACCGACCATTTCAATCAGGTCCGCTGCTGTCAGGGTAAGGCCGGATCCATGGACGTTCAGAAAATTATTGCTGCTGTAGAAACGGCAGCGAAACGTAACGGCATCATCAAGGAAAATGTCTACAGGGAAACCCATGCGCTTTATCATGCGATTCTCGAAGGGCTGCACGGCGTTACCCGGGGGCAGATCGGCGTAGGCACAATGATGCGCACAGTAGGACTCCGGTTTTCCGTCGTCCGCGGCCGCCCCTATGACCACCCGGGAGAAGGGGAATGGCTGGCCGTTGCGTTTTACGGGACGATCGGAGCTCCCGTAAAAGGTTTGGAGCACGAGACATGTGGACTTGGAATCAATCATATATAA	MPQQIKIGKLAVLAASLTEEELSGFTDHFNQVRCCQGKAGSMDVQKIIAAVETAAKRNGIIKENVYRETHALYHAILEGLHGVTRGQIGVGTMMRTVGLRFSVVRGRPYDHPGEGEWLAVAFYGTIGAPVKGLEHETCGLGINHI				NA	NA	NA	NA	NA
AK012_01877	1548	hutH	COG2986	Histidine ammonia-lyase	ATGGTCGAATTGGACGGAGATCATTTGACGCTGGAGGAAATGGAGAGGATCTGTGTACACAACGAACAGGTTCGTGTGGCCCAGGGCAGTCTGATCCGTGTACGTGTGGGAAGAGAGACGGTGGAGAAGATTGTAGCGGATGGTCATACGGTTTACGGAATCAATACAGGCTTTGGGAAGCTGAGTGACGTCAGGATTGCCGCTGAAGACGTCGATAGCCTGCAGCGGCATTTAATCCGGTCGCATGCCTGCGGGGTTGGGGAGCCTTTTCCTGAAGTGATCAGCCGGGCGATGCTTGTGCTCAGGCTCAATACCTTGTTAAAAGGGGTTTCAGGGGTCCGGGAAGTCTTGATTCAACGGCTTCAGCTGTTGATCAATGAAGGCATTCATCCCGTTATTCCTTCGCAGGGCTCCCTCGGCGCTTCCGGGGATCTCGCCCCTCTTGCCCATTTAGCCCTGGTCATTATCGGGGAAGGCGATGTATGTATTCGAGGAAAACAACGGGCAGCAGCGGATGTTTATGCCGAATTATCGATTCCGCCGTTGTCATTAAAAGCGAAGGAAGGGCTGGCGTTAATCAATGGAACCCAGGCCATGACAGCTGTCGGCGTCATGACCTGGCTTCGGGCCAGGAAATTAGCCGTGCAGTGCGACTGGACGGCAGCCGTTACCCTGCAGGCGCTTGAAGGGATCCGTGATGCCTTTCATCCGAGCATTCATTCAGCAAGAGGCTATCCGGAGCAGGAGGCTGTCGCTGAGCGCATCCGGCACCTGACGGATGGAAGCCAGCTGATGACTTATCAAGGAGAGAAGCGGGTGCAGGACGCCTATTCGTTACGGTGCATCCCCCAGGTCCACGGAGCTACATGGCAGACCCTTCGTTATGTAAAAGAAAAGCTGACCATCGAGATGAACGCAGCTACGGATAATCCGCTCCTTCTTGAAGGAGGGAGCGTCGTTGTATCCGGAGGGAATTTTCATGGGCAGCCCATTGCATTGGCCATGGACTTCTTGAAAATCGGGCTGTGTGAGCTGGCTTCCATTTCAGAACGGAGGATTGAACGGCTCGTCAACCCGCAGTTGAATGACCTTCCCGCTTTTTTAAGTCCGGATCCGGGGCTTCAGTCAGGGTTCATGATTGTTCAGTATGTGGCTGCTTCGCTGGTATCGGAAAATAAAACACTCGCTCATCCGGCCAGTGTGGATTCCATTCCTTCCTCCGCCAACCAGGAGGATCACGTCAGTATGGGGACGACGGCGGCCCGCCATGCCACGCTTATCCTTGAAAATGCCGAAAAGGTTGCGGCCATCGAGATGATCTGCGGCCTGCAGGCGCTTGAATGGCGCGGCATCGACCGGGCATCACCGCTGACGAAGAAGCTGTGGCAGAAAGCACGGACGGTGGTTGCACCGCTGACCGAGGACAGAGTCCTTGCTGCAGATATTGAAAATATGACAGCATGGATGACTTCCTGTTCGTTTGACTGGGAGGAGTGGCGGTCGATTCACGAAGGAGGAGATACTTATGTCGACAAGCCGTATCATTAA	MVELDGDHLTLEEMERICVHNEQVRVAQGSLIRVRVGRETVEKIVADGHTVYGINTGFGKLSDVRIAAEDVDSLQRHLIRSHACGVGEPFPEVISRAMLVLRLNTLLKGVSGVREVLIQRLQLLINEGIHPVIPSQGSLGASGDLAPLAHLALVIIGEGDVCIRGKQRAAADVYAELSIPPLSLKAKEGLALINGTQAMTAVGVMTWLRARKLAVQCDWTAAVTLQALEGIRDAFHPSIHSARGYPEQEAVAERIRHLTDGSQLMTYQGEKRVQDAYSLRCIPQVHGATWQTLRYVKEKLTIEMNAATDNPLLLEGGSVVVSGGNFHGQPIALAMDFLKIGLCELASISERRIERLVNPQLNDLPAFLSPDPGLQSGFMIVQYVAASLVSENKTLAHPASVDSIPSSANQEDHVSMGTTAARHATLILENAEKVAAIEMICGLQALEWRGIDRASPLTKKLWQKARTVVAPLTEDRVLAADIENMTAWMTSCSFDWEEWRSIHEGGDTYVDKPYH	PGPT0020230_1755	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020230-hutH-K01745	NA	NA
AK012_01878	1674	hutU	COG2987	Urocanate hydratase	ATGTCGACAAGCCGTATCATTAAAGCTAAAACAGGACAGACGCTTGAATGCAGGGGATGGGAGCAGGAAGCCGTGCTGCGTATGCTCTCCAACAACCTTGATCCAGAAGTGGCGGAAAAACCGGAGGACCTCATCGTCTACGGCGGCATCGGACGGGCGGCGAGGAACTGGGCGTCGTTTGATGCGATCGTATCCGTGTTGAAGCGGCTGGAAAATGACGAGACGCTGCTTATCCAATCCGGCAAGCCGGTGGGTGTTTTCCGCACCCACCCGTCAGCCCCGCGCGTCCTGCTCTCCAATTCCGTCCTCGTTCCGAAGTGGGCGGACTGGTCCCATTTTCACGACTTGGACAAAAAAGGATTGATGATGTACGGGCAGATGACCGCAGGAAGCTGGATTTATATCGGCTCCCAGGGAATTCTGCAGGGAACCTATGAAACGTTTGCTTCCCTGGCTGCCAAGCACTTTGATGGCTCATTAAAAGGGACCATCACCTTGACCGCAGGACTCGGCGGCATGGGAGGTGCCCAGCCGCTGGCCGTCACGATGAACGGCGGCGTCGTCATTGCTGTAGAAGTCGATCAGGAGCGGATTTCAAAAAGGCTTTCATCCGGGTACTGTGACAGACAGGCTCGCAGCCTGAAGGAAGCCCTGCACTGGGCAGAGGCAGCGAAGCAGCAGGGGGAAGCACTGTCCATTGCCTGTCGCGGTCACGCAGAAGACATTCATAAACAAATACTGGATCTGGGGGTTCCGATCGATATTGTCACGGATCAGACCTCCGCCCATGATCCACTGAACGGGTACATCCCGACAGAACTTTCGACAGCCGAGGCGGATGAGTTAAGGAAGCAGAACCCGGCATTATATGTGGAAAAGGCCTCCCGTTCCATGGCGGCACATGTCCGGACCATGCTGGAGTTTCAGAAACGCGGCAGCATTGTCTTTGATTATGGCAACAATCTGCGGCAGGTGGCTTATGATGCCGGGGTCAAAGACGCGTTTGCCTATCCCGGCTTTGTCCCTGCTTATATCCGGCCGCTATTCTGCGAGGGAAAAGGACCGTTCCGCTGGGCTGCCTTATCCGGGGACCCGGAAGACATTTACCGCACCGATCAGCTCGTGGGCGAACTCTTTCCCAATCAAAAGCCCCTCCTCCGCTGGATCGAAAAGGCACAGGAGAAGGTCCAATTTCAAGGGCTTCCCTCGAGGATCTGCTGGCTCGGGTACGGGGAGCGGCTGAAGATGGGTCTTGGCATCAATGAACTCGTCCGAACCGGAGAATTAAAAGCACCGGTCGTCATCGGGCGTGATCATCTTGACTGCGGTTCCGTAGCTTCGCCCAACCGAGAGACAGAAGCGATGAAGGACGGCAGTGATGCTGTCGGAGACTGGGCGGTATTGAATGCGTTGATCAATACGGCTGCCGGTGGTTCATGGATCTCCTTCCATCACGGGGGCGGAGTCGGGATGGGCTATTCGCTTCATGCCGGTATGGTGGCCGTAGCTGACGGGACAGACCTCGCAGAAGAACGGCTGAAACGGGTATTGACGACAGACCCCGGCATGGGCATCCTGCGCCATGCAGATGCCGGCTACGAAAAGGCTGAGCAGGAAGCCCGGAAGCACAATCTCGATATTCCAATGCTGGAGAGGGAGAAGTATGATGGATGA	MSTSRIIKAKTGQTLECRGWEQEAVLRMLSNNLDPEVAEKPEDLIVYGGIGRAARNWASFDAIVSVLKRLENDETLLIQSGKPVGVFRTHPSAPRVLLSNSVLVPKWADWSHFHDLDKKGLMMYGQMTAGSWIYIGSQGILQGTYETFASLAAKHFDGSLKGTITLTAGLGGMGGAQPLAVTMNGGVVIAVEVDQERISKRLSSGYCDRQARSLKEALHWAEAAKQQGEALSIACRGHAEDIHKQILDLGVPIDIVTDQTSAHDPLNGYIPTELSTAEADELRKQNPALYVEKASRSMAAHVRTMLEFQKRGSIVFDYGNNLRQVAYDAGVKDAFAYPGFVPAYIRPLFCEGKGPFRWAALSGDPEDIYRTDQLVGELFPNQKPLLRWIEKAQEKVQFQGLPSRICWLGYGERLKMGLGINELVRTGELKAPVVIGRDHLDCGSVASPNRETEAMKDGSDAVGDWAVLNALINTAAGGSWISFHHGGGVGMGYSLHAGMVAVADGTDLAEERLKRVLTTDPGMGILRHADAGYEKAEQEARKHNLDIPMLEREKYDG	PGPT0020250_2534	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020250-hutU-K01712	NA	NA
AK012_01879	1263	hutI_1	COG1228	Imidazolonepropionase	ATGGATGATCAAATCATTGAAAACATCGGCAGCCTCCTCCTTCCAAACGCGGGTCCTTTGAAGGGGGAGGCGATGAAGGAGCTGCCCGTCCGTCATCAGGCAGCCCTCGCTGTAAAGGGAGAGCAGGTCATCTGGACAGGATCTACCGAAGAGGCGCAGACCCGTAAGGCTCATCAACGGTTCAATGCAGAAGGGAAAGTCGTATCGCCGGGATTAGTCGACCCGCACACCCACCTCGTTTTCGGAGGATCAAGAGAAGAGGAACTGGCTCTTAAACAGGCGGGGACGGCGTATCTGGATATTTTGAAAAGGGGTGGCGGCATCCTTTCGACAGTCAGGGCGACCCGGCAGGCGGATGAACAATTCTTGTTTGAGAAGGCCCGGTCGTTTGCAGGGCGTATGGCGGCCTATGGCGTCACTACGCTGGAAGCGAAAAGCGGCTACGGATTAGACGAAGAAACAGAGCTGAAGCAGCTGTCTGTCATTGACCGGCTCAACAACGAGGGCCTGCTCGACATCGCAGCCACCTTCCTCGGGCCTCATGCCATCCCCCCGGAGTTTAAGGGGCGGGAGGACGTATTCCTTGATCAGATGATTGATCTTCTTCCGGTCATGAAAGAAAAAACATCTGCGGCTTTTACGGATATATTCTGTGAGACGGGGGTCTTTACGACCGAACAGGCCGCCCGGTTCATGGAGGCATCGCATCGGCACGGGTTTCAGGTGAAAATCCATGCCGATGAAATTGACCCGCTCGGAGGTACAGAACTGGCGGTTCAATACGGGGCTGTATCGGCCGATCATCTTGTGGCGGCATCTGCTGAAGGCATCCAACAACTGGCAGCGTCCGAGACGATGGCCGTCCTGCTTCCAGGAACGACGTTCTATTTAGGAAAAGATACGTATGCGGATGCCCGGCGGATGATCCAGGCCGGGGCGGCGGTGGCACTGGCGACGGATTTCAACCCGGGCAGCTGTGTCACCCATAACCTGCAGATGATCATGGCGCTGGCTGCCTTGAAAATGAAGATGACCCCGGAAGAAATCTGGAACGCCGTCACGGTCAATGCCTCCCATGCGATCGGCATGGAGAAAACAGCCGGAAGAATAACAGTAGGCGGGCAAGCGGACCTTGTTCTCTGGGACATTCCGAATTATAAGTACCTTCCTTATCATTATGGTGTGAATCATGCCCGTGCGGTATGGAAGCGCGGACGGTTGATCTGGGAAAGGAGGGAGGCGGATGTCTTTCCGATATCTTAG	MDDQIIENIGSLLLPNAGPLKGEAMKELPVRHQAALAVKGEQVIWTGSTEEAQTRKAHQRFNAEGKVVSPGLVDPHTHLVFGGSREEELALKQAGTAYLDILKRGGGILSTVRATRQADEQFLFEKARSFAGRMAAYGVTTLEAKSGYGLDEETELKQLSVIDRLNNEGLLDIAATFLGPHAIPPEFKGREDVFLDQMIDLLPVMKEKTSAAFTDIFCETGVFTTEQAARFMEASHRHGFQVKIHADEIDPLGGTELAVQYGAVSADHLVAASAEGIQQLAASETMAVLLPGTTFYLGKDTYADARRMIQAGAAVALATDFNPGSCVTHNLQMIMALAALKMKMTPEEIWNAVTVNASHAIGMEKTAGRITVGGQADLVLWDIPNYKYLPYHYGVNHARAVWKRGRLIWERREADVFPIS	PGPT0020235_270	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020235-hutI-K01468	NA	NA
AK012_01880	939	hutG	COG0010	Formimidoylglutamase	ATGTCTTTCCGATATCTTAGCCCGGGTCCGCAGCGGGTGTTCAAAGACCGGTTTACGACGAAGGTGGATGAAAAGAAACAATGGTTTGAACAAGGAAGGACGGGAGAAATCGGTCTGCTGGGGCTCCCTTACTCGAAATCCTCCATCTCTGTCTCCCAGGCGTCTGAGGCCCCGCAGAGCATCCGCCGGGCCCTCGGGTTTTATACGACGTATTCCCTTGAAAAGGATCAGGACTTTACCGATGTGACGATGCTCGACTTTGGGGATGCCGGGGTTCATCCGACAGATTTGGAGAAGACGACAAAGCAGCTGCAGGAAAGTGTGAAGGAGATGCTGGATGCAGAAGCCTGCTCCCGTTACATCCTCCTCGGAGGAGACCACGGGGTCAGTTTTCCCGCCATCACTGCTTTTCATGAAAGGATGGGCCGGGTCGGGGTGCTTCAATGGGACGCTCATCATGACGTCAGGAACACGAAAGACGGGGGCCGAACGAACGGCACCCCTTTCCGCAGCCTGCTCGAATCCGGTGCTTTAAAGGGGGAGGATCTGGTTCAGATCGGCATACGGGATTATTCCAATGCGAAGGAATATGGAGATTACTGCGCCCGCCAAGGGGTGACGGTTTATACCATGGCAGACATAGAGGAAGGGGACATAGCATCCATTGTAAAAAAAGAAATACAGCGGCTGAAGCAGCAGGTGGACGTCATCTATTTATCTGTTGATATGGATGTCGTGGATCAGGCCTTTGCTCCCGGCTGTCCGGCAATCGGTCCGGGGGGGTTAACGTCACGGGAACTGTTGCTGAGTGTACAGGCTGCATCCTGTGATCCTATCGTCAAAGCCATGGATATCGTCGAAGTCGATCCCTCTAAGGACTTCCGTGATATGACAAGCCGTCTGGCCGCTCATGTCATGATGCGGTACATGTTTCAATAA	MSFRYLSPGPQRVFKDRFTTKVDEKKQWFEQGRTGEIGLLGLPYSKSSISVSQASEAPQSIRRALGFYTTYSLEKDQDFTDVTMLDFGDAGVHPTDLEKTTKQLQESVKEMLDAEACSRYILLGGDHGVSFPAITAFHERMGRVGVLQWDAHHDVRNTKDGGRTNGTPFRSLLESGALKGEDLVQIGIRDYSNAKEYGDYCARQGVTVYTMADIEEGDIASIVKKEIQRLKQQVDVIYLSVDMDVVDQAFAPGCPAIGPGGLTSRELLLSVQAASCDPIVKAMDIVEVDPSKDFRDMTSRLAAHVMMRYMFQ	PGPT0020240_839	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020240-hutG-K01479	NA	NA
AK012_01881	894			hypothetical protein	ATGACACCGATGAACCAGACCCGAATCAGCCGTTTTTTCAATCGTCTTTCCCCCTTTCAGATCATCGTCTTCTTCTACTTTTCCGCCGCCCTCGTCTCTACACTGCTGATCAGCCTTCCTTTCCTCCATAAAGAAGGAGCAGACGTAAGCTTGATCGACAGCTTATTCACAGCCGTCAGCGCGGTGAGTGTGACAGGACTCGGCGTCGTTTCCACACCGGAAACCTTTAACACAGCAGGCTATTTCGTGCTCATGTTTGTCCTGCAGTTCGGAGGCATCGGTGTGATGACACTCGGCACATTCATCTGGATGCTGCTCGGACAGAAAATCGGATTGAAGCGGCGTCAGTTGATCAAGACCGATCAAAACCGGTCCACCTTTGCAGGGATGGTTCAGCTGATCCGCCAGATCCTCCTGATGGTTCTGCTCATTGAATTGATCGGAGCGGTCATTCTCGGTCTTCACTATACATCGTATTTTCCGAGCTGGGAGGAGGCGTTCATTCAAGGAGCCTTCGCTTCTGTGAGTGCCACAACGAATGCGGGATTCGATATCACCGGTTCTTCACTCGTCATGTTTCAGGACGACTATTTCGTCCAAATCGTCACGATGCTGCTGTTGACGCTTGGAGCTATCGGTTTTCCTGTATTGATCGAAATCAAGGATTATGTCACCCGGACTAGAATGGAAGTGATTTTTGAAGCCTGCTCAGCCTTTGGGACCACCGGCCTGTCCATGGGGATCACCCCGGAGCTTGGAACAGCCGGTAAGCTGATCATCATCGGTCTGATGTTCATTGGACGAATCGGAATCTTCTCCTTCCTGTTCATTCTAAGACGCCGGAACATTCAGGATGTGTACCGCTATCCAAAAGAACAGATGATCATCGGTTAA	MTPMNQTRISRFFNRLSPFQIIVFFYFSAALVSTLLISLPFLHKEGADVSLIDSLFTAVSAVSVTGLGVVSTPETFNTAGYFVLMFVLQFGGIGVMTLGTFIWMLLGQKIGLKRRQLIKTDQNRSTFAGMVQLIRQILLMVLLIELIGAVILGLHYTSYFPSWEEAFIQGAFASVSATTNAGFDITGSSLVMFQDDYFVQIVTMLLLTLGAIGFPVLIEIKDYVTRTRMEVIFEACSAFGTTGLSMGITPELGTAGKLIIIGLMFIGRIGIFSFLFILRRRNIQDVYRYPKEQMIIG	PGPT0002735_3684	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-POTASSIUM_TRANSPORT,PGPT0002735-trkG|trkH|ktrB-K03498	NA	NA
AK012_01882	411			hypothetical protein	ATGAAAGAAATCATTCTATTGCTGGCAGAAGTCGTCAATCTGTGGCATGATGTCATCGCGAAATTTTCCGGCATGATGGGCTGGGAGCTCACAGATAAGGATCTGCATTTCTGGGTGATCGGGATCCTTGGAATCATTGGTCTTATTTTTGTAGATATACTCTTTCATGCCCTTGCGAAATGGAGCATTACGGTTATTTCCTTTCTATTTACATTCGCCATGGTGCTTGTTTTCGTATTTGCAGTGGAAATCCAGCAGAAGGTCACGGGCCGCGGCAATATGGAATTTGCGGACGCGCTCGTCAGTGTGCTCGGGTTCTTTTTCTTCTGCAGCATCTACATGGTTTTTCGTTTGATTACAAAAGGAATCCAGCGTTACAGGAAGAATAAAGAAGATGAAACCGCCGCTTGA	MKEIILLLAEVVNLWHDVIAKFSGMMGWELTDKDLHFWVIGILGIIGLIFVDILFHALAKWSITVISFLFTFAMVLVFVFAVEIQQKVTGRGNMEFADALVSVLGFFFFCSIYMVFRLITKGIQRYRKNKEDETAA				NA	NA	NA	NA	NA
AK012_01883	1713		COG1132	Putative multidrug export ATP-binding/permease protein	GTGCTGAAGCGTTTTTTCAGTTATTACCGGCCGCATAGAAAACTGTTTTTCATCGACTTTTTCTGTGCGGTCTTTGTTGGACTGCTTGAACTGGGGTTTCCGATTGCTGTCTCCTGGTTTATTGATGATCTCCTTCCTGAAGGGAACTGGGGGACGATCGTAGCGGTCAGTACAGGGTTGCTGCTTTTGTATATCCTAAGCTCAAGCATGCAGTTTGTCGTCAATTACTGGGGACATAAACTGGGCATCAACATTGAAACAGACCTGCGCAGAGACTTGTTTCTGCACGTGCAGCGGCAGTCCTTCGGTTTCTTTGATAATACGAAGACCGGAAATATTATGAGCCGGATCACGAATGACCTCATGGACATCGGAGAGCTTGCCCACCACGGGCCGGAGGACTTTTTCATTGCGATCATGACGTTCATCGGAGCCTTCTGGATTATGCTGACGATCAATGTAAAACTGGCGCTTGTCGCCATCATTATCGTTCCGTTTCTTATCTGGCTCATCTATTATTCCAATATCAAAATGAATGCCGCCTGGACGAAAATGTTCGGCAGTATTGCGGAAGTGAATGCGCGGGTGGAGGACAGTGTTTCCGGAGCGCGTGTGGTGCAGTCGTTTACGAACGAGACCTATGAAATGGAGCGCTTCAACAAGAACAATCAATTGTTTCGAAAGGCGAAGCTGGCCGCATATAAGGTTATGAGTATGAACTTGACCGGTATCTACCTGACTACGAGGCTGATGACGATCACCATCCTCGTGTACGGCGCCTGGCTCAGTTTTTCCGGAGCGCTCAGCTACGGTGAGCTGGTGGCATTCATTTTATACTTGAACATTTTGTTTAAGCCGATTGAAAAAATCAGTGCGCTTCTGGAACTTTATCCAAAGGGGATGGCCGGGTTCAAGCGGTTCACACAGCTGATGGATACAATCCCTGATATTCAGAACCGCCCCGGAGCGGTGGCTGTCCCCCACCTCAGCGGGGATATCCGCTTCCAGCACGTCACGTTTGGATATGAGGAGAACCGGGAGATCTTGAAGGATTTGAGTTTATCCGTCAAGTCCGGCGAGACCATCGCTTTTGTGGGGCCTTCGGGGGCAGGAAAATCGACGATCTGTTCGTTGATCCCCCGTTTTTATGACGTCAAGGATGGTGCGGTAACCATTGACGGGATCGATGTTCGTGACATGACGAAGGAATCGCTGCGTTCTCAGATCGGCATTGTGCAGCAGGATGTTTTCCTGTTTACCGGAACGATAAAGGAAAATATTGCGTACGGACGCCTGGATGCCAGCCAGGAAGAAATTGAAGACGCCGTGGAAAAAGCTCATCTGAAAGAGATGATTGAAAACCTCGCGGATGGATATGATACACAGATCGGGGAGCGGGGACTGAAACTTTCCGGAGGTCAGAAGCAGCGTTTAGCGATTGCGAGGATGTTCCTGAAAAATCCGCCTATTCTTATTTTGGATGAGGCGACATCCGCTCTGGACACAGAAACTGAAACACAGATCCAAAAGGCGCTGACAGAACTTTCAAAGGACCGGACGACGCTGATCATCGCCCACCGTCTGGGAACGATAAAAAAAGCGGATCGCATCCTCGTCATCACAGAGGATGGCATCGCTGAGGACGGCAGTCATGAAGAACTGCTCAGCAAAGACGCCGGTCTTTTTGCGAAGCTCCATGCCCTTCAGCACTAA	MLKRFFSYYRPHRKLFFIDFFCAVFVGLLELGFPIAVSWFIDDLLPEGNWGTIVAVSTGLLLLYILSSSMQFVVNYWGHKLGINIETDLRRDLFLHVQRQSFGFFDNTKTGNIMSRITNDLMDIGELAHHGPEDFFIAIMTFIGAFWIMLTINVKLALVAIIIVPFLIWLIYYSNIKMNAAWTKMFGSIAEVNARVEDSVSGARVVQSFTNETYEMERFNKNNQLFRKAKLAAYKVMSMNLTGIYLTTRLMTITILVYGAWLSFSGALSYGELVAFILYLNILFKPIEKISALLELYPKGMAGFKRFTQLMDTIPDIQNRPGAVAVPHLSGDIRFQHVTFGYEENREILKDLSLSVKSGETIAFVGPSGAGKSTICSLIPRFYDVKDGAVTIDGIDVRDMTKESLRSQIGIVQQDVFLFTGTIKENIAYGRLDASQEEIEDAVEKAHLKEMIENLADGYDTQIGERGLKLSGGQKQRLAIARMFLKNPPILILDEATSALDTETETQIQKALTELSKDRTTLIIAHRLGTIKKADRILVITEDGIAEDGSHEELLSKDAGLFAKLHALQH				NA	NA	NA	NA	NA
AK012_01884	1290			hypothetical protein	ATGAGTGAACATCAACGATCACTTGGGATTGTCACACCCCCTGGTTATCCCAAGGAACTCAGTCAAACCATCAACACGCAGCTTCCTGAAATGCTCAAATATTACGTAAAAGATGATTGCGAATGGCAGGTTGAAACCTTAATCGATCCTCTGACAGGGGTCACGGAGGATCCGGAGGAAGTATTCGAAGCCGGATTGAAGAAAAGGGATGAGGAAAACTGGGATTACATTGTCTGTCTGACGGACCTTCCATTCTTCCATGATCGGAAACCGATCATGGCTGAAGCGTCCACCAATGATGGCGTAGCCATTATTACACTGCCGGGTCTCGGATCAACGCCTATGCTGAAACGTGTCCGTCAATCCATTCTGCAGCTGGTTAATGAAATGTATTATGGAAGTGATGAGGAAGACAGGGAAAAAGCGCAGGAAAGGCTGCAGTCCCAAGAGGACGGCGAGCACGAAAACCTGAAGAAAAAAGGCTCGCGTCGTCTTGTAGAAAAGCGCGGCATTGACCGGTTCTCCCCGATCAAACGAGTAACACCGGACGAAGATGATGATACGTATATGGACGTTCGATTTATCGTCCAGTCCCGGATCAGTGGAGCGTTGAGAGTGCTGACCGGTATGGTGCGGGCGAACCGGCCGTGGGCGATTTTCCCTGCCTTTATGAAAGTCATCATCTTTGCTTTTGCAACCGGTTCCTACGCCCTCGTCTTCCCGACGCTGTGGCGGTTGAGTAATAATTACAGCTCCTGGCGGATGCTTCTCCTTACCGTCCTGTCCATTTCGTTAATGGTCGGCTGGATCATCCTTGCCCACAATTTATGGGAGAAGCCCCGAAAAGACCGGGCCCCCTATCTGCGGAAGCTGTACAATATGACTACGCTGCTTACGCTTGGGGTGACCGTCGTCATCTATTATTCGATCCTTTTTGTCATGTTTTCAGCCGCTGTTCTCGTCTTTATCCCGATGGGGCTGTTGGAGTCGGAAGTTTCGGGCGCCGTTGGCTACGATAATTATTTCTACATTGCCTGGACAGCTACCAGCATCTCCATCATTATCGGCGCGCTTGGATCAGCTCTTGAAAACGAAGAAGTCGTTCTATCGTCCACCTACGGCTACCGCCAGCAGCAGCGGTATAAGACAGCCAATGAAGAGGAGCAGGACGAAACAAAAACGGCGCAGCAGGATGAAACAAAGAAACGAAGAGAAAAGAATGATAAACAGGAAGTATCCCCGGAAAAGAAACGCCCGTCCAATGAGGATCAGGAAAAAACAGCCCAGTAA	MSEHQRSLGIVTPPGYPKELSQTINTQLPEMLKYYVKDDCEWQVETLIDPLTGVTEDPEEVFEAGLKKRDEENWDYIVCLTDLPFFHDRKPIMAEASTNDGVAIITLPGLGSTPMLKRVRQSILQLVNEMYYGSDEEDREKAQERLQSQEDGEHENLKKKGSRRLVEKRGIDRFSPIKRVTPDEDDDTYMDVRFIVQSRISGALRVLTGMVRANRPWAIFPAFMKVIIFAFATGSYALVFPTLWRLSNNYSSWRMLLLTVLSISLMVGWIILAHNLWEKPRKDRAPYLRKLYNMTTLLTLGVTVVIYYSILFVMFSAAVLVFIPMGLLESEVSGAVGYDNYFYIAWTATSISIIIGALGSALENEEVVLSSTYGYRQQQRYKTANEEEQDETKTAQQDETKKRREKNDKQEVSPEKKRPSNEDQEKTAQ				NA	NA	NA	NA	NA
AK012_01885	546			hypothetical protein	ATGGATAACGCTTTATGGGAAGAAATCACATCCACACGCAGGCAATTACGTGACCAGTATTGGGACTACTGGGTCAGCGAAAATGTTTTCTCTTATCAATGGTGGATCATGATTGCTGTTAACGTCGGATGTATATTATTGTGGCGGCTTTACATAGACCGGTCGAGACTTTTTGAAGTCCTTACGGCTGGTTTTCTTGTCGTTGTGATCACGACCGTTCTGGATACGCTGCTGATTCAATATATCGTCACTTCATATCCGATCAGTCCTACGCCCTTGTCTCCGTCCTTTTTCGTTTCCACTTATGTTGTTCTTCCCGTTTTATTTATGTGGATTTATCAGCGGTATTCCACGTGGAAACAATACCTCCCTGTTTTGCTGGCAGCGTCCTTCGTTTCCGCCTACATCGGGGAAGGTCTTTTACGGATCCTTCATATTTATGAATACATCCATTGGAAAGCTTTTTATTCTCTTCTCGTATTCACAACCATTGGTGTGACCGTTAAACTAACGATGATGGGATGGCGTGCGTTTGAAAAAAATTAG	MDNALWEEITSTRRQLRDQYWDYWVSENVFSYQWWIMIAVNVGCILLWRLYIDRSRLFEVLTAGFLVVVITTVLDTLLIQYIVTSYPISPTPLSPSFFVSTYVVLPVLFMWIYQRYSTWKQYLPVLLAASFVSAYIGEGLLRILHIYEYIHWKAFYSLLVFTTIGVTVKLTMMGWRAFEKN				NA	NA	NA	NA	NA
AK012_01886	399	yybR	COG1733	putative HTH-type transcriptional regulator YybR	ATGAGTGCGGAAAACAAAGATCAGACGGTTGTAAAACCGTTTTTGAACCAATACTCCTGTCCTGTAGAAGGGACGGTCGATGTTATCGGTGGAAAGTGGAAAAGTGTCATCATTTTTCATCTGCTGGATGGAACGAAGCGGTTCAATGAATTGAAAAGGCTGAACAACGGAATTACCCAGCGGATGCTGACGCTGCAGCTGAGGGAACTGGAAGCAGACGGAATTGTACACAGAGAAGTGTATCCGGTCGTTCCTCCGAAAGTAGAATACTCCCTGACGGATTTTGGGTTTTCCCTGAAGCCGATCGTCGTCATGATGCGGGAGTGGGGGACGGCAAACATGGAAGCGGTCCTTTCTCATAGAGACGCGTATCAGGAAAAGGAAAAGAGGAATGGATGA	MSAENKDQTVVKPFLNQYSCPVEGTVDVIGGKWKSVIIFHLLDGTKRFNELKRLNNGITQRMLTLQLRELEADGIVHREVYPVVPPKVEYSLTDFGFSLKPIVVMMREWGTANMEAVLSHRDAYQEKEKRNG				NA	NA	NA	NA	NA
AK012_01887	1146	garK	COG1929	Glycerate 2-kinase	ATGAATATTTTAGTAGCCTTGGATTCATTTAAAGGAAGCCTGTCCTCCAGGGAAGCGAATACAGCGGTCAAAAAGGGGCTGTTGAACGCATCCGGCTTCTTCCGTGTCGATACCGTCCCTGTGGCGGATGGAGGAGAAGGGACCATCGATGCCCTTGTAGATGCTTCAGGAGGAAGGAAGGTGCATAAAACCGTCTGCGGCCCACTCAGGCGCCCGGTCAAAGCAGCTTATGGTGTCATCCGCCAGGACACCACCGCTGTCATTGAAGTGGCAGAAGCGTGTGGACTTCCGCTGGTCACTGAAGAAGAGAGAGATGCCTTATCCGCCACCTCCTACGGCGTCGGCGAATTGATGGTGGATGCTCTTGAAAAGGGGTGCCGGGAAATGATCATCGGCCTGGGGGGAAGCGCCGTCACTGATGGAGGCACAGGGATGCTCCGGGCCCTCGGCTATCAATTTCTGGACTCAGACGGCCGGAACATCGGGGACGGTGGCGGTCCATTATCACGAATCGCTCACATCGATTCCACCTGTGTTCATCCACGGTTGAAGGAAGTGGTCATTCACACGATGTGCGATGTCTCCAATCCGCTCTATGGGCCGAATGGGGCCGCTCACATTTTCGCACCACAGAAAGGGGCTTCTCCCGGAGAGGTTGCTCTCCTCGATAAAGGACTGGAACACTTTGCGCAGCTCGTTCAAGCCCAGACCGGTATTGACCTTCAGTCCACGGCCGGAAGCGGAGCCGCTGGTGGGCTCGGCGCGGCCTTCTCAGGATTTCTCCAATCTTCCCTGCAGTCAGGTGTCCAGTTCATTCTCGACGAGGTGAAGGTGGATGAACGCATAGCCGAGGCTGATCTCATCATTACCGGCGAAGGAAAACTTGATGCCCAGAGTTCAATGGGAAAAGTCCCCTCCGGTATAGCGGATCGAGCGAAGCAGCATGGGAGACCCGTCATCGCTCTTGCCGGTGATATCACCGCTGCTGAAAAAGGGGTGCATGAGGCGGGAATCGATGCCTGCTTTTCGATTATGAGAGGCCCTTCCTCCTTACAGGACGCTTTGGATCCGGATACGGCCAGGGACAATATATCGGAGACATCTGAACAGATCGGCCGTCTCTTGAACGTAAAAGCAGGCCTATGA	MNILVALDSFKGSLSSREANTAVKKGLLNASGFFRVDTVPVADGGEGTIDALVDASGGRKVHKTVCGPLRRPVKAAYGVIRQDTTAVIEVAEACGLPLVTEEERDALSATSYGVGELMVDALEKGCREMIIGLGGSAVTDGGTGMLRALGYQFLDSDGRNIGDGGGPLSRIAHIDSTCVHPRLKEVVIHTMCDVSNPLYGPNGAAHIFAPQKGASPGEVALLDKGLEHFAQLVQAQTGIDLQSTAGSGAAGGLGAAFSGFLQSSLQSGVQFILDEVKVDERIAEADLIITGEGKLDAQSSMGKVPSGIADRAKQHGRPVIALAGDITAAEKGVHEAGIDACFSIMRGPSSLQDALDPDTARDNISETSEQIGRLLNVKAGL	PGPT0018175_428	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
AK012_01888	729	glvR	COG1737	HTH-type transcriptional regulator GlvR	ATGAGATTTGAAGAACGTGTCCACAAATATGAATATAAGCTGAATGATACCGATGATCAGATCATCGACTACATCCTTCAATATAAAGAAGATGTGACCGGCCAATCCATCCAGGTGCTTGCGTCACAGGCCTATACTGTGCCGAACACCATTACAAGACTTTCAAAAAAACTCGGCTATGACGGATTCTCGCATATGAAGAACAGTCTGAAAGTAGAACTCGAGGAACCTTATGAAGTGCCGGATGACGATTCCTATTCCTTGATTCAGAAAACCTTTGAAATCCTTGATAAGGACCGGATGATGGAAGCGGCCCGCCAGCTGGCCGAGTCCAGACAGGTGCTCCTTTTCGGTCTTGGCGATTCTTCAGACCTCTGCGAAATGATGGCCAGGAACCTGCGGGTTGTCGGCAAGCCGACAAGCCATCACATACATAGACATGAAATTCTCCACAGCCTGGACCAGGCCAATCAGCAGAGCATCCTTTTCCTAATCAGCCTTTCCGGAGAAACCCCGCTTGTCCTGGAAGCGGCTGAAAAAGCGGTGGAAAAGAACATTCCTATCATTTCGTTAACCCATTTTACGAAGAACCCGCTGCAGGCGATGGCGGCTGTCAACCTTTATTGTTACGCCCCGAAAAAAACGAAAAACGGGTACAACATAACAGGGCGGACGCCGGTCATGGTTGTTTTAGAAACATTATCCCAGTATTTTTGGAAATATGACTGA	MRFEERVHKYEYKLNDTDDQIIDYILQYKEDVTGQSIQVLASQAYTVPNTITRLSKKLGYDGFSHMKNSLKVELEEPYEVPDDDSYSLIQKTFEILDKDRMMEAARQLAESRQVLLFGLGDSSDLCEMMARNLRVVGKPTSHHIHRHEILHSLDQANQQSILFLISLSGETPLVLEAAEKAVEKNIPIISLTHFTKNPLQAMAAVNLYCYAPKKTKNGYNITGRTPVMVVLETLSQYFWKYD				NA	NA	NA	NA	NA
AK012_01889	1944	mngA	COG1299	PTS system 2-O-alpha-mannosyl-D-glycerate-specific EIIABC component	ATGGAATTAAGAAAATTGACCTCACCCCATTTGATAAGTACGAAAATACATCTTGCTTCAAAGCAGGAAGCCATTGAGTATTTAGTCAAACAGCTGGACGAAGAGGGAAAGCTTCATTCCAAAGAAGAATTTTTGAAAGCGGTTCAAGACAGGGAGGAATTGTCCCCGACTGGATTTGAAGGAGGTCTCGCAATCCCGCACGGGAAATCGACGGCTGTTAAGGAAGCGGCCTTCGCCGTAGCGACAATTGCAAAACCGTTGACAGACTGGGAAAGCATCGACCCTTCCAATCAGGTCGAACTTATTATCCTATTAGCCATTCCGGATCAGGAAGCGGGTTCTACGCATTTATCTTTATTATCCGAATTTGTCACCCGTTTATCAGATGATGCTTATAAACAGGGGCTTCTGAACGCTTCTTCAAGCGAAGAGCTTTTTGAGCGGCTTGATGCGACAGGAGAGGAAGCGGAGGAATCAGAGGAAAACGCAGAACAGTCTGCGGAAAGCCGTCTCATTCTTGCCGTCACAGCCTGTCCCGCCGGAATTGCCCACACGTACATGGCAGCAGAAGCCTTAACGAAGGCAGGAAAAGAGATTGGCTGCCGGGTTCTTGTAGAAAAACAGGGAGCCAACGGTATCGAAGATCGGCACACGAAGGAGAACTTAAGAAAAGCGGATGCGGTCATTTTTGCCAACGATGTTGCTGTCAAAGATGAAGAGCGCTTCGCTCACCTGCCGAAGGTGAAAACATCCGTGGCGGCACCGCTTAGAGATGCCCGCGGAATATTGGAGAAGGCTGAAGCGAAGGCGGCCGCCCATGTAAAGGGTGAGCAGGTTTCAGAAGCTGCGGCCACTGATGATTCAGAAGAAGAACAGGACGGAAAAGGATTTAAAGCCGAGGTCAAAGATTCTATTCTTACCGGGATTTCCTATATTATCCCGATTATCGTCGCCGGCGGGATGACGCTTGCTGCGGCCGTACTAATTTCTCAGGCCTTTGATCTGCAGGCGCTCTATGATACGGAAGGTTCCTGGCTCTGGATGCTCCGTCAGCTCGGCGGTGGTCTCCTCGGTCAACTGATGGTGCCGATTCTGGCTGCCTATATGGCCTATTCGATTGCGGATAAACCGGCGCTTGGACCTGGTTTTGCAGCCGGTGTGGCGGCCAACTTGATCGGCTCCGGGTTTCTCGGCGGAATGCTCGGGGGATTCCTGGCCGGATTCTTCCTGAAATTCTTGAAGAACAAAATCAAGCCTAAGGGTACGTTTGCCGGATTTATCAGCTTCTGGGTCTACCCCGTACTTGGCACGCTTGTCGTCGGTTCGATTATGCTGTTTGTCATTGGTGAACCACTGGCCTGGGTCAACAACGGACTGATCAACTGGCTGGGAAGCTTGTCCGGAGCCAACGCGCTGATCCTTGGCGCGATTCTTGGCGCTATGGTTTCCTTTGATCTCGGCGGACCTGTCAACAAAGCCGCCTACACGTTCTGTATCGGAGCGATGGCGAGCGGAAACTTCATTCCATATGCCGCTTTTGCGTCGGTTAAGATGGTGTCCGCCTTTGCGGTCACTGGAGCAACCGTTCTTGGTAAGAAGTATTTCTCTCTTCAGGAACAGGAAATCGGAAAACAGACGTGGCTGCTCGGCCTTGCCGGCATTACGGAGGGTGCGATTCCATTTATGATCAACGACCCGCTCCGTGTCATTCCATCCCTTGTGGCTGGATCAGCGGTTACAGGAGCGATCGTCGCCTACTTTGACCTTGGATTGAATGTACCGGGTGCCGGAATCTTCTCCCTCGCTCTCCTTCAGGGACAGCCGATTCTGCTTGCAGCCGGTCTCTGGTTCGGAGCGGCTCTGCTCGGCGCCCTGATTTCCATGGTCCTGTTGATCGCAACAAGAAAAAGAAAAATAACGAAAGAAGCGGCTGCTGCCGCCTGA	MELRKLTSPHLISTKIHLASKQEAIEYLVKQLDEEGKLHSKEEFLKAVQDREELSPTGFEGGLAIPHGKSTAVKEAAFAVATIAKPLTDWESIDPSNQVELIILLAIPDQEAGSTHLSLLSEFVTRLSDDAYKQGLLNASSSEELFERLDATGEEAEESEENAEQSAESRLILAVTACPAGIAHTYMAAEALTKAGKEIGCRVLVEKQGANGIEDRHTKENLRKADAVIFANDVAVKDEERFAHLPKVKTSVAAPLRDARGILEKAEAKAAAHVKGEQVSEAAATDDSEEEQDGKGFKAEVKDSILTGISYIIPIIVAGGMTLAAAVLISQAFDLQALYDTEGSWLWMLRQLGGGLLGQLMVPILAAYMAYSIADKPALGPGFAAGVAANLIGSGFLGGMLGGFLAGFFLKFLKNKIKPKGTFAGFISFWVYPVLGTLVVGSIMLFVIGEPLAWVNNGLINWLGSLSGANALILGAILGAMVSFDLGGPVNKAAYTFCIGAMASGNFIPYAAFASVKMVSAFAVTGATVLGKKYFSLQEQEIGKQTWLLGLAGITEGAIPFMINDPLRVIPSLVAGSAVTGAIVAYFDLGLNVPGAGIFSLALLQGQPILLAAGLWFGAALLGALISMVLLIATRKRKITKEAAAAA	PGPT0016950_20	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNOSYL-GLYCERATE_PTS_SYSTEM,PGPT0016950-mngA|hrsA-K11200	NA	NA
AK012_01890	2613	mngB_1	COG0383	Mannosylglycerate hydrolase	ATGAAGCAGGCCCACATTGTACCGCATATGCACTGGGACAGAGAATGGTATTTCACAACAGAGGAGTCCCGTATCCTCTTGGTGAACAATATGGAAGAAATCATGGATAAGCTTGAGAACGATCCCGATTATCCGTATTATGTGCTCGATGGACAGACGTCCATTTTGGAAGATTACTTCGCTGTGAAGCCGGAAAATGAAGAACGGGTCCGCAAGCTCGTTCAGAAAGGGAAGCTGATCATCGGACCGTGGTATACGCAGACTGATGAAATGGTAGTCGGGGCAGAATCCATCGTCCGCAACCTGCTGTATGGTCATAAGGATTCCGAAGCCTTCGGGGCACCGATGAAAATCGGCTACCTGCCCGATTCGTTCGGGCAGTCGGCCCAGATGCCGCAGATATTCAACGGCTTTGACATCCATTATTCAATTTTCTGGCGCGGTACATCGGAGCGTCACGGCACGGATAAAACGGAATTCCACTGGGAAAGTGAGGATGGCTCCCGCGTACTCGTCCAGCTCTTCCCGCTCGGCTATGCGATAGGAAAATACCTGCCGGAGGATGAGGAAGCGCTCCAGAAGCGGATCGATAAGTATTTCGGCGTGTTGGATCGTGGGGCGACGACTGATCACATCATCCTTCCGAATGGACACGACCAGATGCCGATCCAGCAGAACATCCATACCATCATTGAAAAGCTGCAGCGTCTGTACCCTGACCGGGAATTTTTCTTAAGCCGCTATGAGAACGTGTTTGAGGAACTGGAGAAGAACGATGACCTGCCGTTGTTATCCGGAGAATTCCTGGATGGAAAGTACATGCGCGTACACCGCAGCATCTACTCTACAAGAAATGATATCAAGGCAGCGAATACACGGGTGGAGAATAAGCTGACCAATATCCTTGAGCCGCTGGCGTCCATGGCGTATTCCCTCGGCTTTGAATACCATCACGGGCTGATTGAACTGATTTGGAAGGAAATCATGAAAAACCATGCCCATGACAGTATCGGATGCTGCTGCTCCGATAAGGTGCACAGGGAAATCGTGAACCGCCTGTTCCTTGCTGAGGAGAAAACAGACCAGCTGATTGAATTCTACAAGCGTAAAATCACTGATGCAGTTCAAGCGGATCATGATGTTGTGACAGCGTTTAACTTCCTTCCTTATGAACGGGAGGAAGTCATTACGGATAAAGTCGTGACCAAACTGGAATCCTTCGTCATGGAAGGTCACGACGGCCGGGAAGTTCCTTTTGAAGTTCTGGAGAAAAACGTTCTTGATCCAGGCCTGATTGACCGTCAGATCGTCCACTACGGCAACTATGATCCGTTCTACGAGTACACCATCCAGTGGAAGGATAAGCTTCCTTCCATGGGATATAAGACGTATGAAGTGAAACCGGAGGAAGGAACGCTTGCTGCCGAGGGCCTTAGGCCATCCGGAAAACCGGAAGTCGATACCGATCATTACCGGATTCAAGTGAACAGCAATGGGACCCTGACCATCTATGATAAACAGAATGACGTTGAGATCCATGATGTCCTTCTTCTTGAAAATGGCGGCGATGACGGAGACGAATATGATTATTCCCCGTTAGAGAATGAGACGCTGATTTACAGCCGCCCTGTGGATGCCGAGGTTCACGTCTATGAAAATGAATACAGCGCTGAGCTGGATATTGCTCTAGACCTTCCTGTGCCAGCGAACCTGGAGAGCCGGAAAGCCGGAAACATCGACAGTTTGGTTTCCGTTCAGTGGAAGATCCACGTGGCGAAGCATAATCCGGTCATTGAGGTGAAGGCAGACATCAACAACCAGGCCGGCGATCATCGTCTGCGTGTGCTTATTCCGACACAGATTGCCTCCGCTTTCTCATGGTCGGATAATCAGTTCGGCATGATCAAGCGCGACGTCGTCGACAGCGCCATGGATGATTGGGAAGAGGAAGGCTGGGATGAACGCCCGGATTCCATTTACCCGATGCTGTCGTATGTCGGTTTATCAGATGACAAGCGCGGAGTAACCCTGCTTACGAACAGCGTGCGTGAATATGAAATCATCGGAGACGCTTTTGATACGATTGCAGTCACGCTGTTCCGAAGTGTCGGCCTTTTAGGAAAAGAAGAACTGGTGAGGCGTCCAGGGCGTCCGTCAGGAATTAAACTTCCGACACCGGATTCCCAGATGATCGGCTGTTTGGAACTTGACTTTGCGCTGGTGCTTCATGAAGGATCACTCTCAGATGCCGGAGCAGGGAGAATTGCGAAAGAGTATACAACTCCTGTGGAGATTTATAATAGAATTCCTTACAATGCAATGAAACTGAATGAATCCGGCCTCGAGACCCCTGGATCGTATTCACTGCTGAAGGAAGGAAATGAAGGAGCCGTTCTGAGTACGCTCAAAAAAGCAGAAGATGAGGAACGTCTGCTGCTTCGCTTTTTCAATCCGAAAGAAGAGGAGCAGGAAGCGGAATTTTACCTTTCCTCCAATTCGGAGAACATCCAGGAGGCGAAACTGAACGAGGTTCCTCAGGAGACGATCCCTCATCGGGCGGGAAGAGTTTCTGTATCCTTGAAACCGAACCAGGTGACATCCATCTTGTTTTGA	MKQAHIVPHMHWDREWYFTTEESRILLVNNMEEIMDKLENDPDYPYYVLDGQTSILEDYFAVKPENEERVRKLVQKGKLIIGPWYTQTDEMVVGAESIVRNLLYGHKDSEAFGAPMKIGYLPDSFGQSAQMPQIFNGFDIHYSIFWRGTSERHGTDKTEFHWESEDGSRVLVQLFPLGYAIGKYLPEDEEALQKRIDKYFGVLDRGATTDHIILPNGHDQMPIQQNIHTIIEKLQRLYPDREFFLSRYENVFEELEKNDDLPLLSGEFLDGKYMRVHRSIYSTRNDIKAANTRVENKLTNILEPLASMAYSLGFEYHHGLIELIWKEIMKNHAHDSIGCCCSDKVHREIVNRLFLAEEKTDQLIEFYKRKITDAVQADHDVVTAFNFLPYEREEVITDKVVTKLESFVMEGHDGREVPFEVLEKNVLDPGLIDRQIVHYGNYDPFYEYTIQWKDKLPSMGYKTYEVKPEEGTLAAEGLRPSGKPEVDTDHYRIQVNSNGTLTIYDKQNDVEIHDVLLLENGGDDGDEYDYSPLENETLIYSRPVDAEVHVYENEYSAELDIALDLPVPANLESRKAGNIDSLVSVQWKIHVAKHNPVIEVKADINNQAGDHRLRVLIPTQIASAFSWSDNQFGMIKRDVVDSAMDDWEEEGWDERPDSIYPMLSYVGLSDDKRGVTLLTNSVREYEIIGDAFDTIAVTLFRSVGLLGKEELVRRPGRPSGIKLPTPDSQMIGCLELDFALVLHEGSLSDAGAGRIAKEYTTPVEIYNRIPYNAMKLNESGLETPGSYSLLKEGNEGAVLSTLKKAEDEERLLLRFFNPKEEEQEAEFYLSSNSENIQEAKLNEVPQETIPHRAGRVSVSLKPNQVTSILF	PGPT0019330_139	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0019330-mngB-K15524	NA	NA
AK012_01891	936	tagU_1	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGGAAGAGCGCAGACGTTCCAAGAAGAAAAAGCGCAGAAAGAAAAAACGTTGGAGAATCCTCCTGGCTGTCCTGGCCCTGCTGTTAGTCGCAGGAGGAGTTTATGCATATATGATTCTTCAGGATGTCCGCACCACGGTGAATGAAGATTTACATGAGAGTGTGGCTTCCATTGATAATGAAGAAACAAAGCAGAAAGTAGACAATAAAGACCCGATCAACATCCTTCTGCTCGGCGTCGACGAACGAGAAAATGACGTCGGCCGTTCGGATACGATGATTGTGATGACCCTTGATCCGAATAATGATCAGATGCAGATGGTCAGTATCCCCCGCGACACCCGGGCGGAAATCGCTAATGACGGGCGGGTCACAAGAATCAACCATGCCTACGCCTATGGCGGAAGTGACATGGCCGTCAATACTGTGGAAAACTTCCTTGATATCGACCTGGACTATTATATACGTGTGAATATGGAAGGTCTTTCCCAGGTGGTGGATGCTGTAAACGGCGTAACGGTTCAGAACGACATGACCTTTACGTCCGGCAACTACACCTTTGAGGAAGGAGAGCTTGAGCTCGATGGACAGGAAGCATTATCTTATGTCCGGATGAGGAAGAACGATCCAAACGGTGATCTCGGCCGGAACGAGCGTCAGCGCGAGGTCATCACCGGCATCATTGATAAGGGAGCAAGCCTTGATGCGGTGAATAAGGTCGGAAATGTGATGGATGTGCTTGGAGATAATGTCAGTACGAACATGCAGTTTTCGGATATGAGACGTCTGGCGACAAACTACAGCAGCGCCCGTAAGAATACATCCACGTACCAAATGTCCGGAGATGGGCAGATGGTGAACGGCATGTACCTGATTTTCATGTCTGATGCAGAAATCCAGAACACGCATGATATGATCGTGAACTTCGGTTCCTGA	MEERRRSKKKKRRKKKRWRILLAVLALLLVAGGVYAYMILQDVRTTVNEDLHESVASIDNEETKQKVDNKDPINILLLGVDERENDVGRSDTMIVMTLDPNNDQMQMVSIPRDTRAEIANDGRVTRINHAYAYGGSDMAVNTVENFLDIDLDYYIRVNMEGLSQVVDAVNGVTVQNDMTFTSGNYTFEEGELELDGQEALSYVRMRKNDPNGDLGRNERQREVITGIIDKGASLDAVNKVGNVMDVLGDNVSTNMQFSDMRRLATNYSSARKNTSTYQMSGDGQMVNGMYLIFMSDAEIQNTHDMIVNFGS	PGPT0023440_3171	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
AK012_01892	1329	atoE	COG2031	Putative short-chain fatty acid transporter	ATGTTAAAACGAGCCATTCACGTATCCAACACACTCATGCAGCGGTATCTGCCCGACCCGTTTCTTTTCGTCATCCTGTTGACGATGGTGGTCTTCGGACTCGGTTTGATTTTCACAGGAAGCACGCCTGTCCAGATGGTGCAGTACTGGGGAGAAGGGTTCTGGAATCTATTATCCTTTTCCATGCAGATGGTACTCGTGCTTGTCACCGGTTTTGTTCTGGCCAGCAGCCCGGTGTTCAAACAAGCGCTCGGACGTCTCGCATCAACGGCACGTACGCCGGGCCAGGCGGTCGTCATTGTAACCGTTGTTTCGCTGGCAGCGAGCTGGATCAACTGGGGTTTCGGACTCGTCATTGGAGCCTTGTTCGCCCGGGAACTTGCGAAAAGGGTGGATCGGGTCGATTACAGGCTTTTGATTGCAAGCGCTTACTCGGGGTTCCTCGTCTGGCATGGAGGATTGGCCGGATCGATTCCATTGACGATTGCTACTCCTGATCACTTTACAGCAGAATCCATTGGAATCATTCCTGCATCGGAAACGATCTTTGCCGGATTCAACCTGATGATTACAGCGGCTTTGTTTATCGCCGTACCCCTTCTGAACAGAAGAATGACACCAGCGGAGGAGGAAAGGTTTGTCATTGACCGGTCCTTACTTGACCAGCCTCGTCATCAGGAAGCAGCCGGGCTGGAGGCTGAAGCAGTGACCCCTGCGGTCCGTATGGAAAACAGCCGGATCCTGTCCATGATAATCGGCGGACTCGGGGTCGGCTTTCTGGTGTACTATTTTGTCACGACCGGCTTTCAACTGAATTTGAACATCGTCAATTTTGCCTTCCTATTCCTTGGTATCCTTTTCCACGGCACACCCCGGCATTTCCTCGATGCTGTGGGCGATGCCGTGAAAGGAGCAGGAGGGATCATCATCCAGTTTCCGTTCTACGCTGGAATCATGGGCATGATGGTCGCTTCCGGTCTGGCTGCGCTCATGTCGGAAACTTTTGTGTCCATCTCCACTCCTTTTACGTTTCCCTTCTTCGCTTTTTTAAGTGCAGGGATCGTCAACTTTTTTGTCCCTTCCGGGGGCGGCCAGTGGGCTGTGCAGGCACCCATTATGCTTGATGCCGCCCAGCAGCTCGGAGTGTCCATACCTAAAACAGCGATGGCGGTCGCGTGGGGAGATGCGTGGACCAATATGATCCAGCCGTTCTGGGCCCTGCCGGCACTGGCAATCGCCGGTCTTAAGGCGAAGGATATCATGGGCTTTTGTCTCATCATCCTTTTTGTAAGCGGTATCATAATTTCACTCGGCTTACTGTTCCTCTAA	MLKRAIHVSNTLMQRYLPDPFLFVILLTMVVFGLGLIFTGSTPVQMVQYWGEGFWNLLSFSMQMVLVLVTGFVLASSPVFKQALGRLASTARTPGQAVVIVTVVSLAASWINWGFGLVIGALFARELAKRVDRVDYRLLIASAYSGFLVWHGGLAGSIPLTIATPDHFTAESIGIIPASETIFAGFNLMITAALFIAVPLLNRRMTPAEEERFVIDRSLLDQPRHQEAAGLEAEAVTPAVRMENSRILSMIIGGLGVGFLVYYFVTTGFQLNLNIVNFAFLFLGILFHGTPRHFLDAVGDAVKGAGGIIIQFPFYAGIMGMMVASGLAALMSETFVSISTPFTFPFFAFLSAGIVNFFVPSGGGQWAVQAPIMLDAAQQLGVSIPKTAMAVAWGDAWTNMIQPFWALPALAIAGLKAKDIMGFCLIILFVSGIIISLGLLFL	PGPT0021760_727	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0021760-atoE-K02106	NA	NA
AK012_01893	1131			hypothetical protein	ATGGTTTCCGATTTTTTTATTAATATCTGCATCCTGACCGCCTTGTTTTTTTCCTATCTCCAATTAAGGTGGCATACCCTTGAAAAACATCTGCCTCAAAAAGCCATTTGTGCCATTGACGGAGTGGCGGCCGGCATTATGGGAAACTTGATGATGTATTATTCCATCCAGGTGAATGATCTGACGCTTGTGGACCTGCGGCATATTCCAGTCCTTATGATTCTGTTAATCAGCGGTGTCCGCCCGGCAGTCCTCAGTACTATGCTCATTATTGGAGGACGTTTCCTTTACGGATTCAACCTTTCTTCATCAATGGCTGCGATCATTTTCATGACAGTGACCCTTGCCGGCATTATTATCATCGATCGAATGAGAAAAAGTCACCAGCCCCGCTATATTTCAGGGTTTTACATGATTTTTTATTCCAACCTCGTTTTCTCCGTTGTGCTTTCTGTGGTCGTGAGGGACTGGGACCTGCTTGCAACCCTCCTTCCTGTTTACTGGGTAATCAGCTGTCTCGGCGGTGTGGGGATCATTTACCTCATTCAATACCTCGACCACTCCCACGCCCTGTTCAAAAGCTACGAGCAAAAAGCGTCCATGGACCATCTGACAGGGCTGAACAATGTAAGGCAGTTCGATATCCAATGGAATCAGCAGCTTGAGAGTAGCGAGAAGAAAAAGAAGGAACTCTCACTCCTGATCATTGATGTGGATCACTTCAAGCATGTCAATGATACTTACGGGCATCCGGCCGGTGATCAGGTGCTCAAACAGCTGGCCCGGCTTCTCCAGGAACATACCAGAGATACGGATATCGTCTCCCGGAACGGCGGAGAAGAGTTTTCCGTGATTCTCCCAGACTGCTCCAACTCCTGTGCCTGTCATGTTGCCGAACGGATCCGCAGGGAAGTGATGGCCCATACATTTTGGATCAATGCCTCGTCGCATATACCGATAACGGTTTCCATAGGGGCAAGCACGTACCCTTCCACCACAGAGGACAGGGAGGAGATCATCGATTTGACTGACCAATCCTTGTATCAGGCGAAACAGCTGGGTAGGAACCGTGTCGTCTCCTTCACTTCCGGCGGGTTCGTCCCAGCCGATGACCGGACTTACTCGATGTAG	MVSDFFINICILTALFFSYLQLRWHTLEKHLPQKAICAIDGVAAGIMGNLMMYYSIQVNDLTLVDLRHIPVLMILLISGVRPAVLSTMLIIGGRFLYGFNLSSSMAAIIFMTVTLAGIIIIDRMRKSHQPRYISGFYMIFYSNLVFSVVLSVVVRDWDLLATLLPVYWVISCLGGVGIIYLIQYLDHSHALFKSYEQKASMDHLTGLNNVRQFDIQWNQQLESSEKKKKELSLLIIDVDHFKHVNDTYGHPAGDQVLKQLARLLQEHTRDTDIVSRNGGEEFSVILPDCSNSCACHVAERIRREVMAHTFWINASSHIPITVSIGASTYPSTTEDREEIIDLTDQSLYQAKQLGRNRVVSFTSGGFVPADDRTYSM				NA	NA	NA	NA	NA
AK012_01894	183			hypothetical protein	ATGAGAGAGAACCTGGACCACAAATGGCAGGAACTCGTTGAAAAAGCAATGGATGGACCGGTTTCCAAAGAGGATTTCCGCCGGTATTTGAATGAACAGAAAATCCTGAAGGCCTGCCGGAGCCATAAAGAGAAGGATTCCAGCGGCAGGAACGACCATTTGGCTTTAGTTCCGCGTGACTGA	MRENLDHKWQELVEKAMDGPVSKEDFRRYLNEQKILKACRSHKEKDSSGRNDHLALVPRD				NA	NA	NA	NA	NA
AK012_01895	612			hypothetical protein	ATGAATACGAAACAAACCATACTTGAAAATGCGCTTCAGTTTTTTGCTTCCTATGGGTATGACGGGGCCTCCATGTCATTGATTGCCAAGGAAACGCAGATTACGAAAGCCGGAATTTACAGTTATTTCAAAAATAAAGAAGATTTGTACATAGCTGTATTGGATCATTTGACCGCGTTTCACAAAGATTACTGGATGCAGAAGAAACAGCGGATGAAAACAGCGTCCTGTGAAAAAAGATTGAAGGACAGCTTCATCTTTTCCATTCAAACGGCTGTGAAGGAACCGGCTTTGATTGCGTTCTGGCAGATGGCCCAGATTTCTCCGCCACGGTCACTGGAAGGCGTCGTTACCGAAAAAATTTCAGCATCCAGAAATTTTTTACTCTCTTATTTTGAGGAGATCATTGAGGCTGGAAAAGCTTCCGGTGAAATTCAGACGTCTCACTCGTCCTCATCACTGGCTCATGCGTTTTACTGCCTTATGGAAGGGGCTTCCCTAAAGCATGTCAATGGGAATTTCCCCGATCAGGAAGAGGTCCTGCTGACATTGTTTCATCTATATTGGGACGGCTTGAACGCCCGGGGTACAGACGGATTACAGACGATGTGA	MNTKQTILENALQFFASYGYDGASMSLIAKETQITKAGIYSYFKNKEDLYIAVLDHLTAFHKDYWMQKKQRMKTASCEKRLKDSFIFSIQTAVKEPALIAFWQMAQISPPRSLEGVVTEKISASRNFLLSYFEEIIEAGKASGEIQTSHSSSSLAHAFYCLMEGASLKHVNGNFPDQEEVLLTLFHLYWDGLNARGTDGLQTM				NA	NA	NA	NA	NA
AK012_01896	1368	ulaA	COG3037	Ascorbate-specific PTS system EIIC component	ATGGTTGATTTGATTATGAAAGATATTTTGGGAACACCCGCCATCCTCGTTGGATTATTCGCTCTTATCGGGCTTCTTGTACAGAAGAAAAATTCCGGGGATGTCGTCTCCGGTACACTGAAAACCGTGATGGGATTTGTCATCCTGGGGGCCGGGGCGAATGTACTCGTCCAGTCTCTCGGGAACTTCAGCAGCATGTTTGATGAAGCCTTCGCTGTCGAAGGAGTCATTCCCAACAACGAAGCGATCGTTGCGCTCGCCCAGGAAAGCTTCGGTACAGAAACAGCTATGATTATGCTGTTCGGGATGGTCGTCAACATTATCCTGGCCCGCCTCAGCCCTTTTAAATATATCTTCTTGACCGGGCACCACACGATGTTTATGGCTTGTCTCATCTCAGTTATTCTCACAACCGGTGGTTTTTCCGGTGCAGGTATGATCCTCCTCGGGTCCATCATCCTCGGGGCGATCATGGTGTTATTCCCGGCCATGCTGCAGCCCTATACGAGAAAAGTTACCGGATCTGATGATTTTGCTGTCGGCCACTTCGGTTCCGTCGGCTACCTTGTTGCTGCTTCAATCGGCAGAGTGGTCGGCAAAAATTCAAGGTCGACTGAAGAAATCAAAGTTCCCAAGTCTCTCAGTTTCCTAAGAGATACCTCTGTTTCCGTCTCCCTCACGATGGTTATACTCTTTTTCGTCGTCGCTGGAGCAGCGGGACCCGGCTTTGTAGAATCCGAGTTAAGCGGCGGTCAGAACTTCCTCGTGTTTTCCTTCATGCAGGGACTGACTTTTGCCGCCGGCGTCTACATCATTCTTGCTGGTGTGCGGATGCTGCTTGGAGAAATCGTACCGGCGTTTAAAGGGATTGCGGATAAGATCGTACCGAATGCCAAGCCAGCACTCGACTGTCCAGCCATTTTCCCATTCGCAGGAAATGCGGTCATCATCGGTTTTCTCTTCAGCTTCGCAGCCGGGTTAATCAGTATGCTGTTCCTCCCACTGCTTGGGTTGAAAGTTATTGTACCGGGTCTTGTCCCCCACTTCTTTACTGGTGCAGCCGCCGGTGTGTTCGGAAATGCAACAGGGGGCCGGAAAGGTGCCATCTTCGGATCAATGGCCAACGGTGTCATGATCAGCTTCCTTCCTGCCCTGCTTCTCCCCGTTCTCGGATCCTTAGGCTTCCAGGGAACAACGTTTGGTGATGGAGACTTTGGAGTCGTCGGCATCGTCCTCGGCAACTTGATCAACCTCGTCGAATCCAACGTGGTCGTGGTCGGCATCATCCTTGCGCTGCTGGCTCTTCCGTTCGCCCTATCCATCAAAAAACACGGCAGAAACAAACAGAAAGATACAAGTGCCGCCTGA	MVDLIMKDILGTPAILVGLFALIGLLVQKKNSGDVVSGTLKTVMGFVILGAGANVLVQSLGNFSSMFDEAFAVEGVIPNNEAIVALAQESFGTETAMIMLFGMVVNIILARLSPFKYIFLTGHHTMFMACLISVILTTGGFSGAGMILLGSIILGAIMVLFPAMLQPYTRKVTGSDDFAVGHFGSVGYLVAASIGRVVGKNSRSTEEIKVPKSLSFLRDTSVSVSLTMVILFFVVAGAAGPGFVESELSGGQNFLVFSFMQGLTFAAGVYIILAGVRMLLGEIVPAFKGIADKIVPNAKPALDCPAIFPFAGNAVIIGFLFSFAAGLISMLFLPLLGLKVIVPGLVPHFFTGAAAGVFGNATGGRKGAIFGSMANGVMISFLPALLLPVLGSLGFQGTTFGDGDFGVVGIVLGNLINLVESNVVVVGIILALLALPFALSIKKHGRNKQKDTSAA	PGPT0017105_765	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
AK012_01897	267			hypothetical protein	ATGAAAAAAGTATTAGTCGTATGTGGAAATGGACTAGGCAGCAGTATGATCGTGGAGATGAATGTGAAATCAGCCCTTCAGGACATGGGGAAAGAAGCGGAAGTCTCCCACACCGATTTAACAACAGCCAAAACCGAGCAGGCGGATCTTTTCCTTGGATCTGAGGATATCGTGGAGAGTCTCGAGGATGGACAGAAAAACGTAGTGAAGCTGCAGAATCTGATGGATAAAAATGAGTTGAGAACCGCCTTGGAGCAAAATCTGTAA	MKKVLVVCGNGLGSSMIVEMNVKSALQDMGKEAEVSHTDLTTAKTEQADLFLGSEDIVESLEDGQKNVVKLQNLMDKNELRTALEQNL	PGPT0017110_1085	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
AK012_01898	2097	manR_1	COG1762	Transcriptional regulator ManR	ATGGTTTTAGATAAAAGGCGTGCACACCTGTTATCTATTTTGAATCAGTCGACCGCTCCTGTCCCTGTTCAAGAGCTCGCTTTCCAAATGAACGTCTCGTCCCGCACCGTGTACTACGATGTAGAGCAGATCAACGATTGGTTATCTGCTCAGGACCTGGCTCTGCTGGAAACAAAACATGGAAAAGGGCTGTGCTTACCTGAATCATCCAGAAAGCAGCTGAAAAGCACAGTTATGGATGTCGGAGGCTGGCATTACCAGCTGTCGAAAAAAGAACGCACCCTGTTAATTAAAGCAAACGTTCTGTTACAGCAGCATGTATCGATGAGTACATTCATGGACCTGACTCATATGAGCAGAGGGACGGTCGCTAAAGTGATTGCAGATCTCAAACGGGAGTTTGAACAAGCTGGATTGACGCTTCATTACCAAAAAGGGACCGGCTACAAGGTCGACGGCGCGGAGGATGCGCAAAGGCTGATGCTTTTAAATCTGGTTGTTGATGCCTTCTCACACCCGGAATGGGTGACGGTCCAAAACAATATCCAGGATATGGCGCTTCCCTCTTTTGTCCCGCCTGAGGACAACAGCCGGGTGATCAAACGGCTCCTTTTCAATGTAGAGGAGCAGCTCGGGGCTACATTTACCGATGAAATGGCCGACATGCTCGCCCTGCAGATGTTAATGATGGTCAAACGGATGGAAATGAACCGCTTTGTCCAGCTGCAGCCGGAAGAAAAGGAAGTGTTGAAACAAACGGATGCCTGCCGTTCCGCTTCCGCTATTACTCAGGAGCTGGAAAGGATCTGGCCCGTGACTTTTCCAGAAGATGAAATTTGTTTTTTGACGATGAACCTGCTCAGTTCCAAGGTGCAGCACAATGACATCAGCCGATATTCGGAGCGGGAGAGTGACGGTCTGCGACAGGTCATCCATCAAATGATTGAGGATTTTCAAATCTACTCTTTTGTCGTCTTTGATGACCGCAGAGGACTGGAGGAGAACCTGCTGTCCCATATCAAACCTGCTTATTACCGGATCAAGTATGGCGTCAAAGTCACTAATGAACTGGCTCAAACCATCCAGGAAACCTATGCAGACCTTTATCACCTGACCAAACGCGTCATCAAACATTTGGAGTTGTTCATCGGCAAGCCGGTGCCTGATGAGGAAACGGCCTATATCACCCTGCACTTCGGGGGATGGCTGAACAAAGAGAAAAAAGCGGTCGAAACAAAATACAGAGGAATTATCGTCTGTGAGAACGGAATCGGCACGTCCAACATGCTTCGCTCCCAGCTGGAAGAATTAGTTGCAGGACTGCGGATTACCGCCATTCTTTCAAAAAGAGAGTATCAAAAAAACAGACACGAGGCCGACATCGTCTTCTCTACCAATTATGTGAAGGCTTCCGAGATACCCGTCATCCACGTACCGGCCATCTTAAACAATTATGAAAAAGAACGCGTCATCCAAAGCATGAACCAGCTATTCGAAACAGAACCCGCAGACAGGAGCCTGCCGGCCGCATTGATGGACACGATTCAAAAGTATGCGACCATTCATCAGAAAGATCTGCTTCAAAAAGAGATCATGATGATGCTGGACAGTCTCCATACCGACAGAAAGGAGCTGAGAAAGCCGATGCTTCACGAGTTATTGACCAACGATACAATCCAGCTTCAGGACCAGTCTCCGGATTGGCAGGAAGCCATCCGCACGGCTGCCCAGCCGTTAATCAACAGAGCTTCCATCCACCCTGAATACGTCGAGGCCATGATTACAAATGTGAAGGAACTGGGGCCTTACATCGTCATCGCCCCGGGAATTGCCATCCCGCATGCCCGGCCTGAAAGTGGTGTGGAACAGCTTGGAATGAGCCTGTTGAAGCTGGACGAACCCGTTGCTTTTTCAGATAAGGAAAAGCATAAAGCCCAGCTGATCATCATTCTGGCAGCGATTGATAACCAAACCCATCTGAAAGCTCTGGCCCAGCTGACCGAACTGCTTTCGGATGAACAGGCCGTCGACCAAATGATCCAGGCGGCGTCCAACGAAGAGATTCTTCAGCTGATTCGTCAAACTATTGAAGTATAA	MVLDKRRAHLLSILNQSTAPVPVQELAFQMNVSSRTVYYDVEQINDWLSAQDLALLETKHGKGLCLPESSRKQLKSTVMDVGGWHYQLSKKERTLLIKANVLLQQHVSMSTFMDLTHMSRGTVAKVIADLKREFEQAGLTLHYQKGTGYKVDGAEDAQRLMLLNLVVDAFSHPEWVTVQNNIQDMALPSFVPPEDNSRVIKRLLFNVEEQLGATFTDEMADMLALQMLMMVKRMEMNRFVQLQPEEKEVLKQTDACRSASAITQELERIWPVTFPEDEICFLTMNLLSSKVQHNDISRYSERESDGLRQVIHQMIEDFQIYSFVVFDDRRGLEENLLSHIKPAYYRIKYGVKVTNELAQTIQETYADLYHLTKRVIKHLELFIGKPVPDEETAYITLHFGGWLNKEKKAVETKYRGIIVCENGIGTSNMLRSQLEELVAGLRITAILSKREYQKNRHEADIVFSTNYVKASEIPVIHVPAILNNYEKERVIQSMNQLFETEPADRSLPAALMDTIQKYATIHQKDLLQKEIMMMLDSLHTDRKELRKPMLHELLTNDTIQLQDQSPDWQEAIRTAAQPLINRASIHPEYVEAMITNVKELGPYIVIAPGIAIPHARPESGVEQLGMSLLKLDEPVAFSDKEKHKAQLIIILAAIDNQTHLKALAQLTELLSDEQAVDQMIQAASNEEILQLIRQTIEV				NA	NA	NA	NA	NA
AK012_01899	369			hypothetical protein	GTGAGAAAGTGGCTGGGATACATCCTTGTTATTCTATTATTAGCCGGTTGTGGGGCAGGTGCTTCACAGCGTGCCATTCAGGATCTGACATCCACGATGGAAAATGAACTTCATATCGTTTACTTCTATGAACAGGAACGTCCGTCCGAGCAGATGGAGGCCCAGCTGACAGGGATGAAAGTGTTCCTGGCGAGAAAAAACATCCCGTCTTCCATCAGCTACAGGAAGATCGATGGGGAGAAGAACTATGAAGAACTATTGGGAGTCAAAGACGGACAGATCCTCGTATTCGATTATAAGGGCATCCGTTTTAACGCCCGTAATATACACGTACTGGAAGGCATGATTCTACAGCTTTCCAACCCATAA	MRKWLGYILVILLLAGCGAGASQRAIQDLTSTMENELHIVYFYEQERPSEQMEAQLTGMKVFLARKNIPSSISYRKIDGEKNYEELLGVKDGQILVFDYKGIRFNARNIHVLEGMILQLSNP				NA	NA	NA	NA	NA
AK012_01900	954			hypothetical protein	ATGATCGATGTATCGACCTGTCAAAAGACGACGTTCAAAGGACTGAAGGCAGTAGTACTGGAAAATGAATATGTGCGCTCTGTCATCCTTCCTGACTACGGAGGAAAGATGGTCAGTTTCTATGATAAGTCCATTCAGTATGAGTGGCTGTATCAGGCACGTGAAGAATCACTCCGGGTGCCGCCGTACGGGGCGGATTTTTCGAAGTATGATTCCAGCGGATTTGATGAAATGTTCCCCGGCATCGATCAAGGTCCGCATCCTGTAAGCTGGGACGAAATTCCCGATCACGGGGAAGTATGGACGATGCCATGGGCATGGAAGGCTACCTGCGATGGCATGGAGTTGACGGTGGAAAGTGACCGTTTTCCCTATCGATTGATGAAGCGGATCAAGCTTGGAAAAAACGATGTGGAAATCACCTATAAGGCAGTCAATAAGGGATCGGTTCCATTTCCTTTTATATGGACACCTCATGCGCTTTTGAACTATAACGATCAGACCGAGATCCAGGTACCTGAAGGGATGAAGGAAGTGATGAGTGTGGAAGCTTCCTCCACTCATTTAGGTGGATGGGGCACGGTACACAGCTATCCGGTAACATCATCTGTTTCAACGGGAGAATCTCTCAATCTGGCAGAGCTGGAACCCTCAGAAGAAGGGACGGCCGAAAAGTTTTACTTCACGCAGCCCCTCAGTGAAGGCTGGTGTGCACTTGTCCAGCCGGACCTTGGGAGAAAGTTGACGTATCATTTCCCTAAAGAAAAAGTCCCTTACCTCGGCATCTGGAAAACGCGCGGCGGTTACAGGGGCGAGCATAATATCGCACTTGAGCCATGCACAGGTGTCTATGATGACGTGTATGTAGCAGACAAAATCGGCAGAGCTTCCTACATCCCTGCCAACGGGTCCTACACATGGAAGTTCAAGATGGAAACAGGCAGTAGTCTATAA	MIDVSTCQKTTFKGLKAVVLENEYVRSVILPDYGGKMVSFYDKSIQYEWLYQAREESLRVPPYGADFSKYDSSGFDEMFPGIDQGPHPVSWDEIPDHGEVWTMPWAWKATCDGMELTVESDRFPYRLMKRIKLGKNDVEITYKAVNKGSVPFPFIWTPHALLNYNDQTEIQVPEGMKEVMSVEASSTHLGGWGTVHSYPVTSSVSTGESLNLAELEPSEEGTAEKFYFTQPLSEGWCALVQPDLGRKLTYHFPKEKVPYLGIWKTRGGYRGEHNIALEPCTGVYDDVYVADKIGRASYIPANGSYTWKFKMETGSSL				NA	NA	NA	NA	NA
AK012_01901	1590	yidK	COG4146	putative symporter YidK	ATGAATGCATTTACAGTCGTATCATTCTTATTTTTTACAGGTTTCGTTGCTCTCGTAGCCTGGTGGTTTACTAGAAAGGAAAAACTAGATACACAGGACGGCTATTTCCTCGGAGGTCGTAACTTGAGTGCCTGGGTCATTGCCGGTTCCTTGATGTTGACGAACCTATCCACTGAGCAGCTGGTCGGCCTGAACGCCCAGGGCTATTCCGATACCATTGCCGTCATGGGCTGGGAAGTCGGGTCTGCAATCGCGCTGGTCATTGTGGCTTTCTTCCTGCTGCCACGTTATATGAAAGGCGGCATCACGACGATTCCTGATTTCCTGGAGGATCGTTATGATTTTAATACAAAACAGATTGTGACCGTTCTTTTCTTATTCGGATATGTCTTCAACCTGCTTCCTCCGATTCTTTATTCCGGTGCTGTAGCCATCAACGGTTTGTTTGATATCCCTGGGGCACTCGGAGTGAGTCGTACCGTCGGAATATGGATTTCTGTCTTTGCTATCGGAATTGTCGGCTCCATTTATGCTGTTTTTGGAGGATTGAAAGCGGTTGCCGTATCCGACACGATCAATGGCGTCGGTCTTTTGATCGGTGGATTGATGATTCCGGTTCTTGGTCTGTTTGCTCTTGGAGACGGATCGATGACAAACGGGATCCAGACGATTGTTCAGGATTCCCCGGAAAAATTGAATTCCGTCGGCGGTCCGGACAGTCCGGTACCATTTGGAACGATGTTTACAGGAATGCTGCTTGTGAACCTGTTTTACTGGGGGACGGCGCAGCACATCATGCAGCGGGCGATTGCTGCGAAAAACTTAAAAGAAGGGCAGAAGGGTGTCCTGATCGCGGCATTTCTGAAGCTGCTCGGACCCGTTTTCCTGATCGTTCCTGGAATCATCGCCTTCAATATGTTCGGACCAGGTCTTGAACCGACAGATGCTTATCCGCGTCTTGTTGCAGAAGTGCTGCCGGCACCACTTGTCGGATTCTTTGCCGCTGTCTTGTTCGGAGCGATTTTATCCTCCTTCAACTCAGCCTTGAACTCTTCGGTGACCTTGATTGCCCTGAACATTTACAAACCTTATTTCAACCCGGACGCCCCGGATAAGGTGGTCGTGAGAAAAGGGAAATTTGTCGGTATTATTCTTGCTGTATTCGCTATGTGTATCGCCCCGCTTATCGATAAGGTGCCGCAGGGATTCTTCCAGTACCTGCAGATCGTCAACGGGTTTTATAACGTACCGATTTTCACCATTCTTATTGTCGGCTATTTAACGAAACGCGTGCCGTCCATTGCGGCGAAAATCTCGTTGTTTGTGTTCATTTCCATTTACGCAACAACGCAGCTCTTCTGGGATACCGGTCTTCACTTCCTGCACATTCTCGGCATCTTGTTTGTCCTTTGTACCGGATTGATGCTTCTGATCGGGAAACTGCGTCCGAGGGATACAGATTTTGTTCTGGAGGAAAAGGCGAAAGTGGATATGACGCCATGGAAACTCGTCTATCCTGTCGGTCTTGCAGCCACGGCTGCCATGGTCGTGATCTATCTGCTGCTTTCCCCGATCGGCATTCTGTCCTGA	MNAFTVVSFLFFTGFVALVAWWFTRKEKLDTQDGYFLGGRNLSAWVIAGSLMLTNLSTEQLVGLNAQGYSDTIAVMGWEVGSAIALVIVAFFLLPRYMKGGITTIPDFLEDRYDFNTKQIVTVLFLFGYVFNLLPPILYSGAVAINGLFDIPGALGVSRTVGIWISVFAIGIVGSIYAVFGGLKAVAVSDTINGVGLLIGGLMIPVLGLFALGDGSMTNGIQTIVQDSPEKLNSVGGPDSPVPFGTMFTGMLLVNLFYWGTAQHIMQRAIAAKNLKEGQKGVLIAAFLKLLGPVFLIVPGIIAFNMFGPGLEPTDAYPRLVAEVLPAPLVGFFAAVLFGAILSSFNSALNSSVTLIALNIYKPYFNPDAPDKVVVRKGKFVGIILAVFAMCIAPLIDKVPQGFFQYLQIVNGFYNVPIFTILIVGYLTKRVPSIAAKISLFVFISIYATTQLFWDTGLHFLHILGILFVLCTGLMLLIGKLRPRDTDFVLEEKAKVDMTPWKLVYPVGLAATAAMVVIYLLLSPIGILS	PGPT0013955_2349	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
AK012_01902	255			hypothetical protein	ATGGGAAAAGCCAGTCAGCCGATTGAGTCTTTTTATCATAAAGTGTACGAAAACCTGGATGCGCTCCATGAAGAAGCGCAGACCCTTCAACAGAAAGAGGGCGGCGGAGATCCAGTGGATGACGAAAAGCTGGAGCGGACGGAATTTGCTCTGCAGCTCGCCAAGGATGTACTGGAAAACTTCGTCGATGATGGCAAGAGCATGACCATCAACTACGATAAACGCGCAGTCACCATCGAAGTACCAAAACGTTGA	MGKASQPIESFYHKVYENLDALHEEAQTLQQKEGGGDPVDDEKLERTEFALQLAKDVLENFVDDGKSMTINYDKRAVTIEVPKR				NA	NA	NA	NA	NA
AK012_01903	864	rhaR_2		HTH-type transcriptional activator RhaR	TTGACCCCTTCTTCTTTGACATACGGCTCCTATGGCTACCGGTTTTCCGACCCGGAACTGCAGCAGATCGCACAAATCTGGTCGCTCGGCTGGGACGAACAGAAGACGACGCTGTACGACTGGGACGGAACGAACCGCCGCGACCGCGGGAAGTACATTTTCCAATATACGACCGCTGGAAAAGGAGCCATCGATATTGAAGGAACGACGTATGAGCTGACACCCGGGCAGGCGTTTATCGTTAACATCCCCGGGGATTACCGCTATTATCTCCCTGATCACAGCGATAAATGGGAATTCATGTTTTTGACGCTGTACGGAAATGTGGTGGAATCCTACTGGAACCAGATCCAGGAGAATGTCGGCGCTATTCTGCATATGCCGCCCGACGCGCCACCGGTTTCCTATGTTCACCAGCTGCTTACATCGGCAGCCAATAAGGAAATCGCCAACGCCCACCAGGCTTCCGGGTACGCCTATCAATTCACGATGGAGCTGTTTCATTACTGCTCCACCTTGGAAAAGGGGCTCGTCCAGTGGCCGGATGCGATCATCGCCGCCAGTATGTATGCCAAAAACCACTATACCGAGGAAATCAGTCCGGATGACATGGCGGAGGCCTCAGGCATGTCGCGCTATCATTTCACGAGGCAGTTCAAGGCGGCCACCGGCCAGACACCTATTCAGTACTTAACATCGATCCGGATCAATAAAGCGAAGGAACTGCTGGCGAATACGAAATATTCGGCTGAGGAAATCGCTGTCCTTGCCGGCTACAAAAACGCCAATTATTTTACAAAGGTGTTTAAAAAGCAGGCCGGCATCACTCCCGGCAGATTCCGCGAATCTCATAAACATTTGTAA	MTPSSLTYGSYGYRFSDPELQQIAQIWSLGWDEQKTTLYDWDGTNRRDRGKYIFQYTTAGKGAIDIEGTTYELTPGQAFIVNIPGDYRYYLPDHSDKWEFMFLTLYGNVVESYWNQIQENVGAILHMPPDAPPVSYVHQLLTSAANKEIANAHQASGYAYQFTMELFHYCSTLEKGLVQWPDAIIAASMYAKNHYTEEISPDDMAEASGMSRYHFTRQFKAATGQTPIQYLTSIRINKAKELLANTKYSAEEIAVLAGYKNANYFTKVFKKQAGITPGRFRESHKHL				NA	NA	NA	NA	NA
AK012_01904	2445	agaA		Alpha-galactosidase AgaA	ATGATCAATTTTCGTTATTCCCTTCATATCATAACAGCTAACCTTCCATGGAGGAATATCGAAAAGCAAAAATGTGCAGAATACATCGTTTTATTTACCATTGATAGAACGGGGGTTCATTTTTACAATAAAGCTAACAAGCACTTGGAAGCGTTTGCGGAAAAGATACGAGGAGGGAACCACTTGGCGATTCACATCAAGGAAGACAGCCGTCAGTTTCACTTGCAAGGAAAAAATATCAGTTACATCCTGCACATTTTAAAAAATGGTCAGATCGGCCATCTCTATTACGGAAAGAAAATACGGGACAGGGAGGACTTCCGTCATCTGTCCAAAAAGGAATTCCGCGTCACCTCTTCCTACGTCTATCAGGACGATCCATCATTTTCACTGGATATGATTCCTCAGGACTATCCGGGATATGGGACATCCGATTACCGGGAGCCGGCTTTTCATATCCGGCAGCCGGATGGATCGAGGATATCGAACTTCGTCTATCAGTCCCACAGCGTCCATCCGGGCAAGCCTTCCCTTGAAGGGCTTCCGGCCACTTATGTCGAGGATGAGGGAGAGGCGGAAACCTTGACGATCACCCTCGTGGATGACTATACGGACATGAAGCTTGACCTGTTGTATACGGTCTATCATGACAAAGATGTGGTCGTACGGTCGGCACGGTTTACGAACGAAGGGACACAAGCGCACCAGCTGGACAGAGCGTTGAGTGCTTCCATGGATTTTCCGGACAGTGATTTTGAATGGATCCAGCTTTCCGGTGGATGGTCAAGAGAACGCCACATCCATACCCATCCACTTCATGCGGGGATCCAGAAAATCCAGAGCACGCGCGGTACAAGCAGTGCCCAGCACAACCCTTTCATCGCAGTCCAGCGGCCGGGGACCACGGAGCACACCGGGGATGTGTACGGCTTCAGTCTCGTTTACAGTGGGAACTTTTTAGGGCAGATCGAAGTCGATCAATATGAGCGGGCCCGTGTCAGTATGGGCATCAATCCCTTTGATTTCAGCTGGAAACTGGAGCCCGGCGGATCCTTCCAGACTCCTGAACTCGTATCGGCCTTTTCATCCGATGGACGTAACGGCTTGAGCCATACGTATCACGAGTTATATCAGAAGAGACTTGCGCGGGGGCGCTGGAGAGACAAGGAGCGTCCCGTACTTATCAATAACTGGGAGGCGACGTATTTTGATTTCGATGAAGAGAAGCTTCAATCGATTGCAGAACAGTCCAGCCGCCTTGGGGTCGAGCTGTTCGTCCTGGATGACGGCTGGTTCGGCAGAAGGAACGACGACACAACGTCTCTTGGCGATTGGTTCGTAGATGAAGCGAAGCTCCCGAACGGATTAAAACCGCTCGTGGATAAAGTGAATGATACAGGGATGGCTTTCGGCCTTTGGTTTGAGCCGGAGATGGTATCCAGACAAAGTGAGCTGTATGAAGCGCATCCGGACTGGATCATCCAGGCAGCCGGAAGACACCCTTCGACGGGAAGGCATCAGCTCGTGCTCGATTTTTCCAATCCGGAAGTCGTCGACTATATTTATGAGCGCATGCAAGCCATTTTATCCAGCAGCAATATCGAATATGTGAAATGGGATATGAATCGCTATATGACAGAAATCGGCTCTGCCCGGCTGGCCTCTGATCAGCAGATGGAAGTCCCCCACAGGTACATCCTCGGGGTTTATGACTTATATGAGCGTCTCACCACGGCGTTTCCGCACATTCTGTTTGAATCGTGTGCCAGCGGCGGGGCGAGGTTTGATCCCGGTATGCTTTATTACGCGCCGCAGGGATGGACGAGTGATGATACCGATGCGGTCGAGCGTCTGGCGATTCAATACGGCACGTCCATGGTGTATCCACTAAGCAGTATGGGCGCCCATATTTCGGCGGTGCCGAACCATCAGGTGAAACGGGTGACAAGTTTGAAAACACGCGGCGATGTCGCCTTTTTCGGAGCGTTCGGATATGAACTGGACGTGACGAAAATGAACGAAGAAGAAAAAGAACGGATGAGTGAACAGATCGCTTTTTATAAAAAGCACCGCGCTTTATTCCAGTTCGGTACCTTTTACCGGCTGCAGAGCCCGTTTGAAAAAGGCGGGAATGAAACGTCATGGATGGTCGTATCCGAAGACGGACGGCAGGCGGTCGCTGCCAGCTATCAAGTGCTGGCCCGTCCCAACCCGGGTTTCCCCCGCCTAAAGCTTACGGGGCTCGACCCGGAAACGGAATACAGGATCGAAGGTCTGGAACGCACGTATTATGGAGACGAACTGATGCACGCCGGTCTGCAGCTGGAAAGCGGCTACGACGGCTCACAGACAGGCGGGCTGGAGGAGTCCGGGGACTTTTCCTCCCAGCTGTTTGTCCTGACAGCGGTAACGAATTCTACGACAATGGATGAGGTGGAAAAATGA	MINFRYSLHIITANLPWRNIEKQKCAEYIVLFTIDRTGVHFYNKANKHLEAFAEKIRGGNHLAIHIKEDSRQFHLQGKNISYILHILKNGQIGHLYYGKKIRDREDFRHLSKKEFRVTSSYVYQDDPSFSLDMIPQDYPGYGTSDYREPAFHIRQPDGSRISNFVYQSHSVHPGKPSLEGLPATYVEDEGEAETLTITLVDDYTDMKLDLLYTVYHDKDVVVRSARFTNEGTQAHQLDRALSASMDFPDSDFEWIQLSGGWSRERHIHTHPLHAGIQKIQSTRGTSSAQHNPFIAVQRPGTTEHTGDVYGFSLVYSGNFLGQIEVDQYERARVSMGINPFDFSWKLEPGGSFQTPELVSAFSSDGRNGLSHTYHELYQKRLARGRWRDKERPVLINNWEATYFDFDEEKLQSIAEQSSRLGVELFVLDDGWFGRRNDDTTSLGDWFVDEAKLPNGLKPLVDKVNDTGMAFGLWFEPEMVSRQSELYEAHPDWIIQAAGRHPSTGRHQLVLDFSNPEVVDYIYERMQAILSSSNIEYVKWDMNRYMTEIGSARLASDQQMEVPHRYILGVYDLYERLTTAFPHILFESCASGGARFDPGMLYYAPQGWTSDDTDAVERLAIQYGTSMVYPLSSMGAHISAVPNHQVKRVTSLKTRGDVAFFGAFGYELDVTKMNEEEKERMSEQIAFYKKHRALFQFGTFYRLQSPFEKGGNETSWMVVSEDGRQAVAASYQVLARPNPGFPRLKLTGLDPETEYRIEGLERTYYGDELMHAGLQLESGYDGSQTGGLEESGDFSSQLFVLTAVTNSTTMDEVEK	PGPT0018835_280	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0018835-rafA|galA-K07407	NA	NA
AK012_01905	1170	galK	COG0153	Galactokinase	ATGAAACAGGTAATCGAAGCATTTTATGAGCAGTTTGGAAGCGGAGGAGAGATTCAGTCCTTTTTTGCTCCAGGAAGAGTAAACTTGATCGGCGAGCACACCGATTATAACGGAGGGCACGTCTTTCCATGCGCGCTGAGCGTCGGCACCTATGCAGCAGCCAGAAAGCGCAGCGATGCAAAATTGAGACTGTATTCGATGAATTTTCCTGAACTTGGTATGATAGAAGCGGACCTGTCTGCGCTCGTTTACGAAAAAGAGCAGGAGTGGGCCAATTACCCTAAAGGGGTAGCGGCTAAAATCAGGGAGGCGGGATATCCACTCTCTGAAGGAGCGGATATCGTCTATTACGGAAATATTCCGAACGGTGCCGGTCTTTCTTCGTCGGCCTCCATTGAGCTCGTCACAGGCGTCGTGCTCGATGCATTTGCAGGGCTGTCCATTGACCGGGTGGAGCTTGTGAAGCTCGCCCAGGCCGCAGAAAACGAGTTTGTCGGAGTGAACTGCGGGATTATGGATCAGTTTGCCATCGGTAAAGGAGAGAAGGATCATGCCCTGCTGTTAAACTGCCAGACGCTGGAGTATCAGAAAACACCGATTCACCTGGAAGAGGAAACGCTCGTCATCGCGAATACGAATAAGCGCAGAGGACTGGCGGATTCGAAGTACAATGAGCGCCGCCGCGAATGTGAAGAAGCGTTGGAGCAGCTGAAGACCCAACTGGAAGCCGACTTTCTCGGCGATATATCTGTAGAAGATTTCGAGGCGCACAAGCACGTGATTGATGATCCAGTCACACGCCGGCGCGCCAGACACGTCATTTATGAAAATGCGCGTACGATTGAAGCGGTGGAAAAGCTGAATGCCGGAGATATCAACGGTTTCGGCCGTCTGATGAATGAATCACACCGCTCACTGCGGGATGATTACGAAGTAACGGGACATGAATTGGATGCTTTAGTGGAAGCGGCCTGGGAAGAAGGAGCGGTCGGCTCACGGATGACCGGTGCCGGCTTCGGAGGCTGTACCATCAGCATTGTGCCTAAAGCGGATATTGAAACCTTTAAGGAAAACGTAGGAGAACAGTATTATAAGCAAACCGGCCTTGAAGCGGACTTCTACGTGGTGGAAATCGGCGACGGGGCGAAACGGTTGGAGGAGGAAGAGTGA	MKQVIEAFYEQFGSGGEIQSFFAPGRVNLIGEHTDYNGGHVFPCALSVGTYAAARKRSDAKLRLYSMNFPELGMIEADLSALVYEKEQEWANYPKGVAAKIREAGYPLSEGADIVYYGNIPNGAGLSSSASIELVTGVVLDAFAGLSIDRVELVKLAQAAENEFVGVNCGIMDQFAIGKGEKDHALLLNCQTLEYQKTPIHLEEETLVIANTNKRRGLADSKYNERRRECEEALEQLKTQLEADFLGDISVEDFEAHKHVIDDPVTRRRARHVIYENARTIEAVEKLNAGDINGFGRLMNESHRSLRDDYEVTGHELDALVEAAWEEGAVGSRMTGAGFGGCTISIVPKADIETFKENVGEQYYKQTGLEADFYVVEIGDGAKRLEEEE	PGPT0017840_1734	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
AK012_01906	990	galE	COG1087	UDP-glucose 4-epimerase	ATGACTGTATTAGTATGTGGAGGCGCCGGATATATCGGCAGCCACGCCGTGGCCCAGCTGCTGGACCGCGGAGAAAAGGTAATCATTGCAGACAATCTGCAGAAAGGCCATGAACAGGCCGTTTTGGAGGGGGCTGTTTTATATAACGGGGACTTGCGGGATGAAGCCTTCATGAACCGGGTGTTCGAGGAGAATGATATTGATTCGGTCATTCATTTTGCAGCGGATTCTCTTGTAGGGGAAAGCGTCGAGGACCCGCTGAAATATTACGACAATAACGTATATGGAGCGGTCTGCCTGTTGAAGGCAATGGCTGCGCATAACGTGAAACGAATCGTCTTTTCTTCCACGGCCGCGGTTTATGGGGAACCGGACCAGGTGCCGATTCAGGAGGATGACCGTACGTTCCCGACCAATCCATACGGCGAAACGAAGCTTGCCATTGAAAAGATGCTCAAATGGGCTGAACAGGCGCACGGGATCAAGCACGTGGTGCTCCGCTACTTTAACGTAGCCGGCGCTGACCCGGACGGACGCATCGGGGAAGACCATCGTCCTGAGACCCACCTCATTCCGATTGTGCTGCAGGTGGCGCAGGAGAAACGCGAAAAGATTATGATTTTCGGTGATGATTATCCGACCGCAGATGGTACCTGCATCCGTGACTATATCCATGTGACGGACCTTGTGGAAGCCCATGTGCTGGCGATCGATAAGCTGAAACGTACAGAAGAAAGCGGCATATACAATCTGGGGAACGGCCAGGGCTTCAGTGTCAAGGAAGTCATTGATACCGCCCGCCGTGTGACCGGCCGGGATATTCCTGCCGAAGTGGCTCCGCGCCGTGCTGGAGATCCGGCTCAACTCGTCGCATCCTCCGGCAAAGCGATGGAGGAGCTCGGCTGGTCCCCGCAGTATGCCGAACTGGAAACAATGATTCAAACCGCATGGGATTGGTTCCAAAACCACCCGGCCGGTTACAACCACTAA	MTVLVCGGAGYIGSHAVAQLLDRGEKVIIADNLQKGHEQAVLEGAVLYNGDLRDEAFMNRVFEENDIDSVIHFAADSLVGESVEDPLKYYDNNVYGAVCLLKAMAAHNVKRIVFSSTAAVYGEPDQVPIQEDDRTFPTNPYGETKLAIEKMLKWAEQAHGIKHVVLRYFNVAGADPDGRIGEDHRPETHLIPIVLQVAQEKREKIMIFGDDYPTADGTCIRDYIHVTDLVEAHVLAIDKLKRTEESGIYNLGNGQGFSVKEVIDTARRVTGRDIPAEVAPRRAGDPAQLVASSGKAMEELGWSPQYAELETMIQTAWDWFQNHPAGYNH	PGPT0019010_440	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO|NUCLEOTIDE_SUGAR_UTILIZATION	PLANT_DERIVED_UDP-ARBINOSE-XYLOSE_POOL,PGPT0019010-uxe-K12448	NA	NA
AK012_01907	1500	galT		Galactose-1-phosphate uridylyltransferase	GTGTCCATTTATCACAACATTGAACGACTGCTTCAGTACGGATTATCCAAAAAAATGATCGCCGTGTGGGATGTCGATTATACCCGCAACCGCCTGTTCCATCTGTTCCAACTGGAAGGGAAAAATCCGGAGGAAACGCCGAAAGAGCCGGTCCCCGATACACCTGCAGGGATATTGGAACCGATGCTTGATTACGCAGCGGAACAGGGATTGATGGAAGACAACACAACGACAGAACGGGACTTGTTCGATCCGAAGATTATGGACTGTCTCGTGCCCCGCCCGTCGGAAGTGACCCGTGATTTTTATCATGCCTTTGAAAAGCAGGGGCCAAAAGCAGCAACCGATCGTTTTTATCAGCTGTCCAAGGATGCGCATTACATCCGCACCGACCGGATTGCCAAAAACAAACACTGGTACAGTGAAACCGAGTACGGCGATCTTGAAATTACGATCAACCTGTCCAAGCCGGAAAAAGATCCGAAGGCGATTGCCGCGGCAAAGAATAAAAAAGCCGACAGCTATCCGGACTGCCTGCTTTGTAAGGAGAATGTCGGCTATGCCGGGCGTCTCGACCATCCGGCGCGGGACAACCACCGCGTCATCCCTGTCGATTTGGAAGGCGAGCATTGGTTCCTCCAGTATTCGCCCTATGTCTACTACAACGAACATGCCATTGTGTTATCACGGGGACACCGTCCGATGAAGATTTCCAAAGAAGGGTTCGACCGGCTGCTTGATTTCGTCGACCAGCTTCCTCACTATTTTGTCGGCTCTAATGCGGACCTGCCGATTGTCGGCGGATCGATTTTGAGTCACGACCACTTCCAGGGCGGTCATCATGAATTTCCGATGGCGAAGGCGCCTGTCGAAGAAAGCTTCAATATCCCGGGATATAAGGATGTGGAAGCTGGAATTGTACGCTGGCCGATGTCGGTGCTTCGTCTCAGGAGCGCGGACCGGACACGTCTCGCCGAGCTTTCCGACCGGATTCTGACCACGTGGCGCTCGTATAGTGATGCCTCAGCTGATCTTTATGCAGAGACCAGTGGCGAGCCTCATAACACGATTACACCGATTGCCCGTTATCGAAACGGGGCTTTTGAAATGGATCTCGTTTTCCGCAACAACCGTACAAGCAGCGAGCATCCGATGGGGATTTTCCATCCTCATGAGGAAGTGCATCACATTAAGAAAGAAAACATCGGCCTCATCGAAGTGATGGGACTGGCTGTCCTGCCGGGACGCCTCATTGATGAGATGGAGGCGCTTGCCGGCTACATTAAGAAAGGGGAGCTTCAGGGAGAAGCCCTTAAAGATGAAAAGACAGCCAAGCATGTGCCGTGGGCGCAAGGCATCCGCTGGGAACAGGATGAGGTATGGCCGCAGCTTCAGGATGAAATCGGCCGCCGTTTTTCAGTCGTGCTGGAGCACGCCGGCGTATTCAAGCGCAGTGAAGAAGGACAGCAGGCATTCCGTCGTTTTCTTCAAACGATATAG	MSIYHNIERLLQYGLSKKMIAVWDVDYTRNRLFHLFQLEGKNPEETPKEPVPDTPAGILEPMLDYAAEQGLMEDNTTTERDLFDPKIMDCLVPRPSEVTRDFYHAFEKQGPKAATDRFYQLSKDAHYIRTDRIAKNKHWYSETEYGDLEITINLSKPEKDPKAIAAAKNKKADSYPDCLLCKENVGYAGRLDHPARDNHRVIPVDLEGEHWFLQYSPYVYYNEHAIVLSRGHRPMKISKEGFDRLLDFVDQLPHYFVGSNADLPIVGGSILSHDHFQGGHHEFPMAKAPVEESFNIPGYKDVEAGIVRWPMSVLRLRSADRTRLAELSDRILTTWRSYSDASADLYAETSGEPHNTITPIARYRNGAFEMDLVFRNNRTSSEHPMGIFHPHEEVHHIKKENIGLIEVMGLAVLPGRLIDEMEALAGYIKKGELQGEALKDEKTAKHVPWAQGIRWEQDEVWPQLQDEIGRRFSVVLEHAGVFKRSEEGQQAFRRFLQTI	PGPT0017835_267	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GLYCAN_BIOSYNTHESIS,PGPT0017835-galT-K00965	NA	NA
AK012_01908	1953	bgaA	COG1874	Beta-galactosidase BgaA	ATGACGTACTTAGGTGTAGATTATTACCCGGAGCACTGGCCGGAGGAAAAGATCGACGAAGATATTGAAGGCATCAAACAGCTGGGAGCCAACATCGTGCGGATCGGTGAATTCGCCTGGCACCTGATGGAACCCGAGGAAGGGAAATTTGATTTTTCCTATTTCGATCAAGTCATTGAAAAGCTGAAGCAGGAGGATTTCCATATCATGTTCGGCACGCCGACTGCGACGTTTCCGGCGTGGCTGGCGGATCAATACCCTGAGATTCTATCGGCCGATGAATACGGCCATCCGCGCGTTTTCGGAGGCCGCCGGCAGTACTGCTTCAACTCCGACGTCTATCGTTCGTATGCAGCAGCGATTACGCGGAAGCTGGTTGAGCATTATCAGGACGAGCCGGCGATCATCGCCTGGCAGATCGATAATGAATTCGGACATGAAGGCAGCGATATGTGCTGGTGTGACTCGTGTGAAAAGAAATTCCAGACGTACCTGGCTGAAACATATGACAGCATCCACCAGCTGAATGAGGAGTGGGGAACGATTTTCTGGGGCCAGACGTACAACGCCTTCTCAGAAATCCCTGCACCGAAGCCGACGATTACGACGCATAACCCGAGTTTGAAGCTTGAGTGGGCGCGCTTCCGTTCCGATTCCCTGAACGGTTTCGCTCATGAAATGACCAGCATCGTAAAGGAAACGAAGGGGGATCACCAACAGGTGACGACGAACGTTTCCGGCGGCTTTTTCTCCAAATGGTTCGACCATGCGGAGAACCTCCGCCCGATGGATTTCGTCTCGTATGACAACTATCCGGTCTGGGGCGGGCTGGAAGAACCGATTTCACCGGCTGCGATTGCGATGATGCATGATTTCAACCGCGGGCTGCTGGACAAAAACTATTGGATCGTCGAGGAGCTGATGGGGGCGCAGGGCCATGATGTCATCGGATACCTGCCGCGTCCGAACCAGGCGAAAATGTGGTCCTACCAGGCGTTCGCCCACGGCTGTTCCAACCTGCTCTATTTCCGCTGGCGCGGGATGACGAAAGGGGCGGAGCAGTTCTGCTACGGCGTCGTAGATCACGACGATGTGTACGGCCGCAAGTATAAGGAAGTCCAGTCGTTGTTCAGCGAAATTAAAGATTATGGCGGACTGCTTGATGCGCCAATCCAGGCCGATATAGCCGTTCTCTATGATTATGACAACATTTGGGCGTGGCGTTCCCAGATTCAGAGCCGCGACTTTGATTTTACTGACGAGCTCGTGCGTCTGTACCGTCCTTTTTATGAGCAGAATACAACCATCGATGTCATTCCGGCGGACAGAGAGCTGACCCGCTATAAGGTTGTGATCGTTCCTGTGATGCATGTGATGGATGAGGCGCTTGCCGAGCGTCTGCGGGCCTTTGTACAGGACGGAGGGACCGTTCTATTCTCCTACCGTACCGGGTTGAAAGGGAAAGACAACAACCTCCGTCTCGGGGAAATCCAGCCGGGGCTCGTCCGTGACCTCGTCGGTGCACGGATTGAAGAAATTGAATCGCTCACGAAAGATCATCATCTGGAGCTCCAGGGACAGGGACGCTTCTCAGAAGTTCCCGGTGCCATCAGCATCTGGCGTGACCTGCTCGTACCGGAAACAGCGGAAGCGCTGTACCAGTATACCGATGCCTTTTATAACAGCTATGCAGCTGTCACGAAAAACAGCTTCGGACAGGGGCAGGTCTACTATATCGGTGGTGGACTCAACGAAGAAGCTCTTGATGTCATTGCCGAGGAGATTACGGAACACCATCAGATTGAAACGATCTCTTCGGAACGCGGTGTCGAAGTGTACCGCCGCAGAAGCGGGGAGGACTCCTACTTGTTCGTGATGAACCACACCAGTGCCGAGCAGCCGTTCAATGGAGAAGTGCTGGCACCTTTTGAAAGCCGCTTAATCCAGGAGTAA	MTYLGVDYYPEHWPEEKIDEDIEGIKQLGANIVRIGEFAWHLMEPEEGKFDFSYFDQVIEKLKQEDFHIMFGTPTATFPAWLADQYPEILSADEYGHPRVFGGRRQYCFNSDVYRSYAAAITRKLVEHYQDEPAIIAWQIDNEFGHEGSDMCWCDSCEKKFQTYLAETYDSIHQLNEEWGTIFWGQTYNAFSEIPAPKPTITTHNPSLKLEWARFRSDSLNGFAHEMTSIVKETKGDHQQVTTNVSGGFFSKWFDHAENLRPMDFVSYDNYPVWGGLEEPISPAAIAMMHDFNRGLLDKNYWIVEELMGAQGHDVIGYLPRPNQAKMWSYQAFAHGCSNLLYFRWRGMTKGAEQFCYGVVDHDDVYGRKYKEVQSLFSEIKDYGGLLDAPIQADIAVLYDYDNIWAWRSQIQSRDFDFTDELVRLYRPFYEQNTTIDVIPADRELTRYKVVIVPVMHVMDEALAERLRAFVQDGGTVLFSYRTGLKGKDNNLRLGEIQPGLVRDLVGARIEEIESLTKDHHLELQGQGRFSEVPGAISIWRDLLVPETAEALYQYTDAFYNSYAAVTKNSFGQGQVYYIGGGLNEEALDVIAEEITEHHQIETISSERGVEVYRRRSGEDSYLFVMNHTSAEQPFNGEVLAPFESRLIQE	PGPT0017815_1799	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017815-bgaB|lacA-K12308	NA	NA
AK012_01909	813			hypothetical protein	ATGAAACAAGAGCTTACAAATTTATGGAAAGACTGGCGTTTACATACGATTGTGCTCGCCATCGTACTCCTGACAGAGGCGATTGGTACGCATTCCTTTACGGTCGGTCCCGGCGTAGTGCTGCTGCTGCCGATGCTTTATGCCATCATTATAGGTCTTGGATTATTTTTTACACCGCTCATTAAGGAAAAACAATCGAAAAACGCCGAGCCGCTCATCGTTCTCGGTGTCACGCTGCTGATTGCCAAAATCGGCGTGATTATCGGACCGTCGCTTCCGCAGATCATTGAGGCCGGTCCGGCTTTACTACTGCAGGAATTCGGGAACCTTGGGACGATTTTCATTGCGCTGCCTGTCGCGATTATGCTCGGACTGAAGCGCGAAAGTATCGGCATGACCCACTCGGTCGCCCGTGAACCGAACGTCGGCCTCATCATGGACAAGTATGGATTCAACTCACCGGAAGGCCGCGGCGTCATGGCTATTTACATATTCGGTACCGTATTCGGTGCCGTATTCATGGGGTTGATTTCCGGTTTCCTTGCCACCCTGACACCGCTCAATCCGCTGTCCTTTGCCATGGCTTCGGGCATCGGAAGTGGAAGCATGATGGCAGCTGCCAGCGGCTCACTCGTTGCTGCTTTCCCGCAGATGGAGAATGACATCCTCGCCTTCGCCGGAGCAAGTAACCTGCTTTCGTTATCCACAGGCCTGTATATGAGTATATTCATCGGCCTGCCGCTAACAGAAAAGCTGTATGAAATCATGACGCGCAGAAAGAGCACCAGCTCTCGCGTAGAAAAGGGGGCGTAA	MKQELTNLWKDWRLHTIVLAIVLLTEAIGTHSFTVGPGVVLLLPMLYAIIIGLGLFFTPLIKEKQSKNAEPLIVLGVTLLIAKIGVIIGPSLPQIIEAGPALLLQEFGNLGTIFIALPVAIMLGLKRESIGMTHSVAREPNVGLIMDKYGFNSPEGRGVMAIYIFGTVFGAVFMGLISGFLATLTPLNPLSFAMASGIGSGSMMAAASGSLVAAFPQMENDILAFAGASNLLSLSTGLYMSIFIGLPLTEKLYEIMTRRKSTSSRVEKGA				NA	NA	NA	NA	NA
AK012_01910	453			hypothetical protein	ATGCTTAGAAACATACAGGAATGGGTGCTCATGCTGGCCATTTTCGGAGTGACCGCCCTTTTGGGTAACTGGATCGGCTATGACGTCATCGTCTGGGATGCCGTGCCGGGGATGCTCGTACTGATCGGCATCTGCCTTGTCGGATTGATTTTAGGAAAAGTGCTGCCGGGAAGCATCCCGAGTGTCGCCTATGTAGCGCTTGTCGGCGTGCTCGTATCGATGCCGTGGATTCCGGGTTCATCCTTTATCGTCGAAATGACGAGTGAGGTGAACCTGCTGGCGCTGACAACACCGATTCTCGCCTACGCCGGTATTGCCATCGGCCGCTCCTGGGCGGACTTCGTCAAGCTCGGCTGGCGCAGCATCGTCGTTGCGATGTGTGTCATGCTTGGGACATACATCGGTTCGGCGTTAATCGCCGAAGTGATTTTACGCTTCCAGGGAATCATCTAA	MLRNIQEWVLMLAIFGVTALLGNWIGYDVIVWDAVPGMLVLIGICLVGLILGKVLPGSIPSVAYVALVGVLVSMPWIPGSSFIVEMTSEVNLLALTTPILAYAGIAIGRSWADFVKLGWRSIVVAMCVMLGTYIGSALIAEVILRFQGII				NA	NA	NA	NA	NA
AK012_01911	717			hypothetical protein	ATGAAAATAGAAGTATGGTCCGATTTCGTCTGCCCTTTCTGCTATATCGGAAAGGCGCGTCTGGAGGAAGCGCTGAAGCAGTTTCCCAACGAAACGGTAGAAGTCGAATATAAGAGCTTTGAGCTTGATCCTAATGCGGAGCGAAACACAAAACCCGTCATGCATGAGCATCTGGCTCATAAATACGGCCGCTCTCTGGAAGAAGCCCGCGGCATGACAGCCAACATGACCGAGCAGGCAAAGAGCGTCGGCCTTGATTTCCATTTTGATACGATGATTCCGACGAATACGTTCGCCGCCCACCGTGTGGCTCAGCTGGCGAATGAAAAAGGCCTCGGCAAGGAAACAGCGGAACGCTTCTTCAAAGCTGTGCTGACGGATTCTGAGGATATCGGTGATCATGAAACGATTACCCGCCTGGCCGTAGACGCCGGTCTTGAGCGCAGCGAAGTGGAAGACGTGCTGAACAGCGACGCCTACACAGAAGCTGTGCGGATGGAAGAACGCGAAGCGCATGAAATCGGTGTCCAGGGCGTTCCTTTCTTCGTCATCAACCGTAAGTACGCTGTATCCGGCGCGCAGCCGACGGAAGTCTTCGTCAACGGTCTTCAGAAAGCTTTTGATGAAGAAAACAAACCAGCGTTTGAAAATCTTTCGACAGACGATGGAGCCGCATGCACCGAAGACGGCTGTGAAGTCCCTTCCGGAAAAGAATAA	MKIEVWSDFVCPFCYIGKARLEEALKQFPNETVEVEYKSFELDPNAERNTKPVMHEHLAHKYGRSLEEARGMTANMTEQAKSVGLDFHFDTMIPTNTFAAHRVAQLANEKGLGKETAERFFKAVLTDSEDIGDHETITRLAVDAGLERSEVEDVLNSDAYTEAVRMEEREAHEIGVQGVPFFVINRKYAVSGAQPTEVFVNGLQKAFDEENKPAFENLSTDDGAACTEDGCEVPSGKE				NA	NA	NA	NA	NA
AK012_01912	318			hypothetical protein	ATGCTTAAAACACCCATTGGTAAATTGCGAGTGATGGGATTCCTTGAGGGGATGTCCTTCTTAATTCTTTTGTTCATTTCAATGCCGCTGAAGTATATGTTCGATTATCCGGAGGCCGTTTCTGTCAACGGGGCCATCCACGGTGGCTTGTTCGTCATTTATATGGCTGTCGTCGCCTATGTGACCTTTACCGTCCGCTGGCCGCTTAAATGGGCCGCAGGAGCGTTTGTGGTCGCTTTTATTCCATTCGGGAACTTCATTCTGGACCACCAGCTGAAGAAGAACTACACAAGTCAGCCGGACAGTTTGACCGCTTAA	MLKTPIGKLRVMGFLEGMSFLILLFISMPLKYMFDYPEAVSVNGAIHGGLFVIYMAVVAYVTFTVRWPLKWAAGAFVVAFIPFGNFILDHQLKKNYTSQPDSLTA				NA	NA	NA	NA	NA
AK012_01913	834			hypothetical protein	ATGATTGCATTGGAAACGTTGAAATCGCGGAGCAGGAATAATATGGGGAACGTCCATCCGGAAGTGGAGAAGAAAGTGGACAAGCTGTTGACGGAAGCCTACGAGCGGGGCTTGTTCGTCCAGATCTCCTCCGGCTACCGGAGTTATGAGGAGCAGGCAGCCCTGTATGGAAAAGGGCGTCCCGGCTACACGTATAAAGGAAAAGCGTATGGCAGAAGCGGAGCGATCGTGACGTATGCCGAACCAGGGGAGAGCAATCATCACAGCGGACGGGCCGTTGATTTCTTTTTAGTCACCCCTGATGGACGGACAGCCCTTTGGACAGTTGATCATAACTGGCGCTGGGTGGCGGAACGGGCGAAGGAACTGGGGTTTTCCTGGGGCGGAGACTGGTCCAGCTTTAAGGATTACGCCCATCTTGAACTTCCGATCGTCCATTACGTCCGGCGCGGCAGTCAGGGGAGTCTCGTGAAGGACGTGCAGGAGAAACTCCGGAAGCTCGGCTATTATACAGGAGATATAGACGGAAGCTTCGGGCCGTTGACGGAAGAGGCGGTTCTCGCATTCCAGCGAAAAGAAGCGCTTCAGATCGATGGAAGTGCCGGTCCGGAAACACTGACAAGACTGGACGTCAGAACGTATCCCGGCAGACCGATTCGAAAAGGCGCACGCGGGGATAAAGTAAAAGCCATACAGAAAAAAACAGGGGCAGAAGCGGATGGGATTTTTGGCAGCCGGACAGAAGCAGCCGTTCGGTCTTATCAGAGTGCCCAACGCCTCGCAGTCGACGGAATTGTAGGTCCGAAGACATGGAGGTCGCTGTTCGGCAGGTAA	MIALETLKSRSRNNMGNVHPEVEKKVDKLLTEAYERGLFVQISSGYRSYEEQAALYGKGRPGYTYKGKAYGRSGAIVTYAEPGESNHHSGRAVDFFLVTPDGRTALWTVDHNWRWVAERAKELGFSWGGDWSSFKDYAHLELPIVHYVRRGSQGSLVKDVQEKLRKLGYYTGDIDGSFGPLTEEAVLAFQRKEALQIDGSAGPETLTRLDVRTYPGRPIRKGARGDKVKAIQKKTGAEADGIFGSRTEAAVRSYQSAQRLAVDGIVGPKTWRSLFGR	PGPT0024025_215	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024025-cwlK-K17733	NA	NA
AK012_01914	186			hypothetical protein	GTGCTGATTCCGCTGCTTCTTGCTCTCATAACCATCGTCTCCGTGGCGGCTGCGGTGAAGAAGAAAAGGCCGGTGCTGTTTGCTGTACCGCTGGCTGCTTTATTCGCCGCCGCGCTGATCAAGGTGATCATGGTGCCGATGCCGTTCTGGGAGACGGTCGTCTTTATTTTCAACTTAAAAGGATAG	MLIPLLLALITIVSVAAAVKKKRPVLFAVPLAALFAAALIKVIMVPMPFWETVVFIFNLKG				NA	NA	NA	NA	NA
AK012_01915	300			hypothetical protein	ATGAAGAAGATGGATCCAGAGCAGGCCAAAGCGTATTTCCGGCTGAGAACGACACTGATTATGATCTACCTCGGTATCGGTATGCTGGTGTCCTTTGGCATCGTTTTGTTTGCCGAAAGTCTTTCGTCCTTCACAGTGATGGGGATTCCGCTGCCGTACTACATGGGGTCCCAGGGAGCCATTGTAACATTCATCGTCCTTCTTTTTTTCAATGCTTTCATTAGTGATTACGTAGATAAAAAATTCGGCCTGGTACCTAAGGACAGCTCCAAGGAATCTGATCAGGCTGCCAATCAATAA	MKKMDPEQAKAYFRLRTTLIMIYLGIGMLVSFGIVLFAESLSSFTVMGIPLPYYMGSQGAIVTFIVLLFFNAFISDYVDKKFGLVPKDSSKESDQAANQ				NA	NA	NA	NA	NA
AK012_01916	1659	actP	COG4147	Cation/acetate symporter ActP	ATGGATGCTCAGTTTCTCGTTTCATTAGGATTAATTGCCGGGACGTTTGCCCTGTACATCGGTATTGCCATCTACAATAAAGCGAAAGAGACGTCGGACTTCTATGTAGCTGGACGCGGGGTGCCGCCGGTATTCAACGGCATGGCGATCGGGGCCGACTGGATGAGTGCGGCTTCCTTTATCGGACTTGCGGGTACGGTCATGATTCTCGGTTATGATGGCCTTGCCTACATTATGGGATGGACAGGCGGTTATCTGCTGCTTACCTTCCTGCTCGCCCCGCAGCTCCGGAAATACGGACGCTACACGGTACCTGAATTTATCGGTGACCGCTACCGCAGCAATACCGCCCGGCTGATCGCCGCTGTGGCAACGATCATCATCAGCTTTACATATTCCGTCGGACAGCTGTCAGGATCCGGTGTTGTCATCGGGCGCCTGCTTGAAGTGGATACGATGATCGGAACGCTCATCGGTGTTGTGCTGATCGCCTTTTATTCGGCGATGGGAGGAATGAAGGGGATTACGTGGACACAGGTTGCGCAGTATCTCGTCTTAATTGTTGCTTATTTAATTCCTGTGATTTTCATGTCCCTTCAGCTGACGCAGAACCCGGTCCCATGGCTTTCCTACGGGGAAGTCATATCGGAAATGCGCTCCATTGACCAGGAGCTCGGCATCTCGGAATACATTATTCCATTTACGGAAGCGTCCAAATGGCAGTTCATGGCGCTTATGTTCACCCTCATGGCCGGGACAGCCGGTCTGCCGCACGTCATTGTCCGCTTTTATACAGTAAAAACGATGAAGGCGGCTCGCTGGAGCGGGGCATGGGCGTTATTGTTCATCGGCCTTCTCTATTTATCGGCGCCCGCCTATGCTGCTTTTTCCCGCTTTATTTTAATGACGGAAGTGGCAGGCTCTTCCTTGGGGAATCTGCCGGCCTGGACACAGCCGTGGGTGGATACCGGCAAGCTCTCCCTTGCTGATGGGAACAACGACGGCGTCCTTCAGTGGACGGAGCTGGTCATCAGCAACGATATCGTCGTCATGGCTACACCGGAAATCGCCAATCTGGGGATCTTTGTCATCGGTCTGATGGCCGCGGGCGCGATGGCGGCGGCTTTGTCGACGGCAGGCGGTCTGATGATTGCCATTTCCGCTGCGTTGTCCCATGACATTTACTACCGCTCCATCAACCCGAACGCCAGTGAGAAAAAACGGCTCTCCGTCGGACGCTGGTCGATCGTTCTCGCCACTGTAGCGGCCGGACTCATCGCCCTCAACCCGCCGGGAGCCATCACCCAGATTGTCGCCTGGGCCTTTGCGCTCGCTTCCGGTTCCTTTTTCCCGGCCCTGCTGCTCGGAGTCTGGTGGCGCCGTGCCAACGGTCCCGGCGTCATCGCCGGCATGATCGTCGGCCTCTCGGTCACCCTTGGCTACATTTTCGCCGCTAAATACGGGGGCTTTACGATTCTGGGGATCATCGACACAGGTGCCGGGGTCTTCGGAGCTTCAGCCGCCATCATCGCCAATGTCACCGTCTCCCTGCTGACGGCTCCGCCGAGTAAACAGACGCAGGATGAGGTCACCGACCTGCGCTACCCGGAGCAGATTCAGTACAAAAACGGCGAATACTATAAAAAGGATGTGCTTTAA	MDAQFLVSLGLIAGTFALYIGIAIYNKAKETSDFYVAGRGVPPVFNGMAIGADWMSAASFIGLAGTVMILGYDGLAYIMGWTGGYLLLTFLLAPQLRKYGRYTVPEFIGDRYRSNTARLIAAVATIIISFTYSVGQLSGSGVVIGRLLEVDTMIGTLIGVVLIAFYSAMGGMKGITWTQVAQYLVLIVAYLIPVIFMSLQLTQNPVPWLSYGEVISEMRSIDQELGISEYIIPFTEASKWQFMALMFTLMAGTAGLPHVIVRFYTVKTMKAARWSGAWALLFIGLLYLSAPAYAAFSRFILMTEVAGSSLGNLPAWTQPWVDTGKLSLADGNNDGVLQWTELVISNDIVVMATPEIANLGIFVIGLMAAGAMAAALSTAGGLMIAISAALSHDIYYRSINPNASEKKRLSVGRWSIVLATVAAGLIALNPPGAITQIVAWAFALASGSFFPALLLGVWWRRANGPGVIAGMIVGLSVTLGYIFAAKYGGFTILGIIDTGAGVFGASAAIIANVTVSLLTAPPSKQTQDEVTDLRYPEQIQYKNGEYYKKDVL	PGPT0001400_1681	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CATION_TRANSPORT,PGPT0001400-actP-K14393	NA	NA
AK012_01917	222			hypothetical protein	TTGTTTCAGTCGAGAAAAGAACGACAAAATGAAATGGAAATCGTAACTATAGAAGAGCTTGTCGAGGAGGTGTCCGGCCGGGATCGCCGAGCGTGGGTTTTGCGAGGAAGTTCGGGTGCTCGTCCGCGGAAAGGGAAGGGGCTTTCGCTCCTGGCGGTAAGAAAGAAAAAAGCTTGTAGAGAAACAGGGGTTTCCCTACAAGCAGAGGACCTTCTGTTGTAG	MFQSRKERQNEMEIVTIEELVEEVSGRDRRAWVLRGSSGARPRKGKGLSLLAVRKKKACRETGVSLQAEDLLL				NA	NA	NA	NA	NA
AK012_01918	633			hypothetical protein	ATGAATAAAACGCTGCGACGCTTCCTTATCGGTGCCGGTATTTTTGCTGCCGTCGGTCTGCTGGCTGTACTGGTCGTTTTCATCGCCATCAGCGGCAACAATGAGGATGCAGTAAAAGAGGATGCCGAAGCCTATACAGAAAACCGCTTCCAAAGCGAAACGGACGTTTACGGAGTCCTGTATGATTCGATGGGCAATCAGCCGTTCAAGGCTGCCGCCCAGGTCAGACACGTGGACGACGGGATTGAATTTCTTGTGTACCGGAATGAAGATAATCAGCTGGTCGATACGTACGTATCCTCCAAATGGGAAGAAGAAGTCACAGAGACGGCGATGGCATACCTGGACGAGCAGTTGTCCGGGGTCGAAAACCTCGATATCCGTTTCGAGAAATCCACGAGCAGTCAGCACCGCTACACACCTGAAGATGTGCCAAGTGTACGGGAAGTGGAGGCCGCTCCATCCATCTATCTCGATTTGAACCGCGAACCGGAGGATGGCGATGAGGATGTTTTCGAGGCATTCGCCACTCTTCTCGAGGACGAATTTTCATTTACAGACGGACGGGTCACCGTCCAGTATTTTGATGGTGACACGAAGATCAAAGGCGGATGGACACAGGAATTTTCATAA	MNKTLRRFLIGAGIFAAVGLLAVLVVFIAISGNNEDAVKEDAEAYTENRFQSETDVYGVLYDSMGNQPFKAAAQVRHVDDGIEFLVYRNEDNQLVDTYVSSKWEEEVTETAMAYLDEQLSGVENLDIRFEKSTSSQHRYTPEDVPSVREVEAAPSIYLDLNREPEDGDEDVFEAFATLLEDEFSFTDGRVTVQYFDGDTKIKGGWTQEFS				NA	NA	NA	NA	NA
AK012_01919	897			hypothetical protein	ATGACGATATTCTTCCAAGTCGTTCTGCCAGTCATCCTTGTCTTTGTGGCCGGATATGTCCTGCAGAAGAGTCTCCATCTGGAAATCAAATCATTGTCCACGGTTACGTTGTATTTAATGCTGCCGTGTCTCGTGTTCACAACGTTTTATGAAGCGGATTTCAACAGAGATTACTATATGATGATCGTCTTCTCATTGACGCTTTTGACTAGTATTCTCATCCTTAATAAACTCGGTGCCCGCTTGTTCGGCTACGGAACACCCACGGAAAGCGGCTTGATCTTGTCCACGGCCTTTATGAATGCCGGGAATTACGGTACGCCCATTGTCCTGTTCGCCTTTGGAGAGCAGGGATTTGTCTATGCGGTGACGTTCATGGTCCTCCAGCAGATCGTCATGAACTTCTTTGGTGTCTATTATGCCGCCAAAGGTACGGCCGGATTCAGCATGGCCGTCCGCACCATTTTGAAAATGCCGCCCACCCATGCTGTCTGGATCGCCTTGTTATTCAAAGCGGCCGACTTTCAGATTCCGGATAATCTGTATTCCAGCATTGAACTCGTCGGGGATGCGACCGTACCGAGTATTATGATTCTGCTCGGCATGCAGCTGGCGAACATTACGGTGAAGAACCTCGACTGGAGCAAAGTCTCCTTGGCCGCATCCATCCGTCTTGTGGCTTCTCCCCTGATCGCCTGGGGACTGACCACGGTCCTTCCGATGAATGACCTGATGGCCTCGGTTCTGATCATTGCCGCAGCGATGCCTTCCGCCGCCACGACGACCATGTATGCCGTCCAGTTCGACGCCAAGCCCGACCTTGTTTCCAGCATTACACTCGTGACAACCATCCTGAGTGTGGTCACGCTTCCGATTCTTCTGAATATATTGACGTAG	MTIFFQVVLPVILVFVAGYVLQKSLHLEIKSLSTVTLYLMLPCLVFTTFYEADFNRDYYMMIVFSLTLLTSILILNKLGARLFGYGTPTESGLILSTAFMNAGNYGTPIVLFAFGEQGFVYAVTFMVLQQIVMNFFGVYYAAKGTAGFSMAVRTILKMPPTHAVWIALLFKAADFQIPDNLYSSIELVGDATVPSIMILLGMQLANITVKNLDWSKVSLAASIRLVASPLIAWGLTTVLPMNDLMASVLIIAAAMPSAATTTMYAVQFDAKPDLVSSITLVTTILSVVTLPILLNILT	PGPT0007208_6368	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
AK012_01920	168			hypothetical protein	ATGCTTTATCTTGCATTTGCCGGATTCTTTCTCATTTATGTGCTGCTCGGATGGTTCACCGACGCTGTGGAAATGTCAGCAGTCGGCGGCGTTCTGAGTGTTGCTTTTTTCTTTGGGAATCTTTATTTGTTCTGGCGCGAAAAACGCAATGCTTCAAAAAGTGAATAA	MLYLAFAGFFLIYVLLGWFTDAVEMSAVGGVLSVAFFFGNLYLFWREKRNASKSE				NA	NA	NA	NA	NA
AK012_01921	285			hypothetical protein	TTGGAAGAGACATCCCGCTCCCTGACTCCCCTTGCCAGCGTCTGGCTCGACGAGGCACCAACGACCTTCACCCACGCCTTTGTAGAACGGCTTGCGTATGAATGGATGATTGAAATCGTGAACCCCTTCCCCATTCCGATTATGGAGCATAAGGAATACGTTCTTTCCATATCGATTGAACAGATAGACGGTACGTTTTATGATGCGATTCCGATTGAATCCTACAGCATCGAGATGGGAGAGGAATTCACCGTCTACCGCTTCCATATGTATCCCCCGGCATAA	MEETSRSLTPLASVWLDEAPTTFTHAFVERLAYEWMIEIVNPFPIPIMEHKEYVLSISIEQIDGTFYDAIPIESYSIEMGEEFTVYRFHMYPPA				NA	NA	NA	NA	NA
AK012_01922	450			hypothetical protein	ATGACACTTGTTCCGGAATTTCATGAACTGGAAAAGCTCATTTACAACGTTATGCACAAACTGTACCTCCCGCCTCCGTACGATGATTATTTCCAGGAAAGCTACCTCGTCTATCATGCTGCCAAAGCACGCTATGATCCTTCCAGAAGCCAGTTCTCTTCGTATTACCACTCAAAACTGGAGTATCATTTCCTCACCCTTGTATCCAACGAACAGAAAAGAACCCAAGCCCAGGACCGCCTGCACCGCTGCCTCCCTGCCAACCATCTCCTCCCATCTGTACGGCTTTATCTCCCCCCTTGTCTATCTCCCTGCGAAAAGCGCATCCTCTCCGATCTACTCAAAGGCTATAAAAATATAGAAATCGCGTACCGCCTGAAGATCAGTCCCTCGACTTTTTACCGCAGACGGAAGACTTTAAGAGCGAAGCTTGCGCGTTTACGGATGTAA	MTLVPEFHELEKLIYNVMHKLYLPPPYDDYFQESYLVYHAAKARYDPSRSQFSSYYHSKLEYHFLTLVSNEQKRTQAQDRLHRCLPANHLLPSVRLYLPPCLSPCEKRILSDLLKGYKNIEIAYRLKISPSTFYRRRKTLRAKLARLRM				NA	NA	NA	NA	NA
AK012_01923	495			hypothetical protein	ATGCATACGGAACAAGACTTTGAACAAATCCTGGCTGAATGGGAAAGAAGCATACATTATCACATCCGGAAGCTGCACATCATTGATGCGGAGGGCGACTTTTATGCCGAAGGGCTGTTTGCTTTGTGGCAGGCCCACCGTACATACAACCCTGAGGCGGGTGAATTTTCCACCTACGCACACTGGAAGATCCGGAACGCCCTCATCGACCAGATCCGCCGGGAGAATAACCGACAGGAGAGAGAAAACCGCTTCGTCGAAGAAATCATCCACAGCGAAGGTTTCATTTGGGAGGACGAGCTGGTAGATACATATTTATGGGAACAGGTGAAGAAACTCCTCACCGCGAACCAGTGGAAATGGGTGTGCCATCGGATCATTCACAGCCGTTCGGTCGCTGAAACCGCCCGCATGGAAGGAGTGACCCAGGATGCTGTGAAGAACTGGGGCCGGCATGCCCGAAACAAGTTGAAGCACTACAGGCACCTTCTTTAA	MHTEQDFEQILAEWERSIHYHIRKLHIIDAEGDFYAEGLFALWQAHRTYNPEAGEFSTYAHWKIRNALIDQIRRENNRQERENRFVEEIIHSEGFIWEDELVDTYLWEQVKKLLTANQWKWVCHRIIHSRSVAETARMEGVTQDAVKNWGRHARNKLKHYRHLL				NA	NA	NA	NA	NA
AK012_01924	381			hypothetical protein	GTGGCAAAGAAAAGCAAACAGTACGATTACGATCTTGGCGAAGTGAAGCGTCTGATCGGCGAGACTGATAAAAATTATCGCGAAATCGCGGCCGAAACAGGATGCCCTTACGCAAGTGTGGTTTATCATGGTCGTAAGATCCGCGGACGCGTCAACCGTATGCGTCAGGAAGAAATCCAGGCGGAACAGCAGCAGCCCCAGTCCCTGCTGGCTTTAGCTCAGGAGACTCCGGAGGAACCAACCGTGTTGTCTGGCGGGACAACATTAAGTATATCCAGGAACGAAATCCATATCCAGAATGCCGAACAGGAGGCAGCGAAGATGATTAAGGCTGCCCGGGCTATGGGACTGACGAAAATCAACATAACGATCGACCGATGA	MAKKSKQYDYDLGEVKRLIGETDKNYREIAAETGCPYASVVYHGRKIRGRVNRMRQEEIQAEQQQPQSLLALAQETPEEPTVLSGGTTLSISRNEIHIQNAEQEAAKMIKAARAMGLTKINITIDR				NA	NA	NA	NA	NA
AK012_01925	393			hypothetical protein	ATGCGCCCATCGCTGTCCATGTATCTGCCCCTCGATCTGCTCAGACCGCTGCTTGCGCCTGTTTCTTTTACGTACCATGGCGGAGAAGTCAGCCTGGCCACCCACGGGATCGACGGCCTGGTGGAATTCTTCATTCGGAAGGGGGCTCATATCAGTATCTTTTTCTTATTGATGATTACCACGTATGCGGCCTTCCTCGTAAATACCAGCTGGAACAGAAGAACGGCAGCCATCAGTGCTCTGGTCGTGACGGTGCTGTATGCCTGTTTCGATGAATACCACCAGTCGCTGACCCCGGACCGCACGCCATACATCGGAGACGTCGGGCTCGACAGCGCCGGTGCCCTGATCGCTCTGGGTGTCATTTATGCAGGAAACAAAAGAAGAAAATAA	MRPSLSMYLPLDLLRPLLAPVSFTYHGGEVSLATHGIDGLVEFFIRKGAHISIFFLLMITTYAAFLVNTSWNRRTAAISALVVTVLYACFDEYHQSLTPDRTPYIGDVGLDSAGALIALGVIYAGNKRRK				NA	NA	NA	NA	NA
AK012_01926	921	thrB	COG0083	Homoserine kinase	ATGAGCCGGTTCCAGATCCGGGTTCCTGCAACATCCGCCAATTTAGGGCCGGGATTTGATTCGGTCGGCATTGCGCTTTCCAAATATGTGACGCTGGACTGTGAGCCTGCCGAGGCGTGGCACTTCTCTGTCCCCGCGGAAGATCAGGACCATATCCCTTCGGATAAGCGGAACTTGATTTATAAAACGGCACTGGCCGCCGCTCAGACACGGGGGCATGATTCCCTGCCTGCCACGCACGTAACCTTGACGAACGACGTCCCGGTCGCACGTGGGCTCGGGAGCTCCTCCACCGCGGTCGTCGGCGGAATTGAGCTCGCCGACCAGCTGCTGGATCTGCAGCTGACGCGCTTCGAGAAATTCAAGATCGCCTGTGATATCGAAGGGCACCCGGACAATGTCGGACCTGCCGTATACGGAGGCATCATGGTCTCCAACTATGACGGCGAACATCTTGACTTCGTCCATTTCACAGAAGACCTGGACGCATTAACGTGGCTTTCTGTCGTTCCTGATTATCATTTGGAAACGGAAAAGGCCCGGAGCATTCTTCCTTTGGAAATTGACTACAAGCAGGGCGTGCGCAACAGCTCCAGAGCCAACGTCCTCGTTGCTGCTCTGGCATCCAAAGACTGGACACTTGCCGGAAAGATGATGAAGGAAGACCAGTGGCATCAGCCCTACAGGAAAATGCTCATTCCGGGATTTGATGCTGTCACAGATGTCCTGGAAGCCGAAGAGTCGCTCGGCTATTACATCAGTGGTGCCGGCCCGACGATGGTGGCTGTTTTTGGTGAATGGACGAAAGAGAAGGAAATCCGGCTTCAAGAGAAGCTTTCTTCCTACACAGTCGAAGCTCTTGCTGTCGAATTGGACGGCGTCACGACTATTCAAAAACATGAAATTCCAGCCGAATCCTGA	MSRFQIRVPATSANLGPGFDSVGIALSKYVTLDCEPAEAWHFSVPAEDQDHIPSDKRNLIYKTALAAAQTRGHDSLPATHVTLTNDVPVARGLGSSSTAVVGGIELADQLLDLQLTRFEKFKIACDIEGHPDNVGPAVYGGIMVSNYDGEHLDFVHFTEDLDALTWLSVVPDYHLETEKARSILPLEIDYKQGVRNSSRANVLVAALASKDWTLAGKMMKEDQWHQPYRKMLIPGFDAVTDVLEAEESLGYYISGAGPTMVAVFGEWTKEKEIRLQEKLSSYTVEALAVELDGVTTIQKHEIPAES	PGPT0020275_2324	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020275-thrB-K00872	NA	NA
AK012_01927	1056	thrC_2	COG0498	Threonine synthase	ATGTGGCAGGGATTAATCCATAAATATGCGGAGTTTCTTCCCATCAATGAACGCACACCAAAACTGACGCTTCATGAAGGGAATACCCCGCTGCTGCCGATTCCGGCGATCTCTCAGGATCTGGGAATCGAAGGCTATGTAAAATTTGAAGGAGCCAACCCGACCGGTTCCTTCAAGGACCGTGGTATGGTGATGGCGATGGCTAAGGCCATCGAAGAAGGATCCGAAGCGGTCATCTGCGCTTCTACAGGGAATACGTCTGCAGCCGCTGCCGCTTTCGCTGCACGGGCAGGCATCCGCTGTATCGTCGTCATTCCGGACGGGAAGATTGCAGAAGGCAAGCTCGCCCAGGCGGTCATGTACGGTGCTGAAATTTTTGCCATCAAAGGCAATTTCGATGATGCGTTGAGGATGGTCCGGAAAATTGCGGAAACCGAACCGGTGACACTGGTAAACTCTGTGAATCCCTACCGGATCGAAGGTCAGAAAACGGCAGCATTTGAAGTGGTCGATGCGCTCGGTTCTGCCCCGGATATTCTCAGCATCCCTGTCGGCAATGCCGGGAACATTACGGCTTACTGGAAAGGGTTCAAAGAGTATCACGAACGCTTCCAATCCGGTCTTCCGAAAATGATGGGCTTTGAAGCGAGTGGTTCTGCAGCCATCGTCCGCAACCAGGTGATTGAAGATCCGGAGACACTGGCGACCGCCATCCGTATCGGAAACCCTGCGAGCTGGGATAAAGCCCTGCAGGCCCGGGACGAGTCCAAGGGATTGATTGATGAAGTGACCGATGAAGAAATCGTCGAAGCTTATCAGCTGCTGGCACAGAAGGAAGGCATTTTCGCTGAGCCTGCCTCCTGCGCCTCCCTTGCCGGCATGATTAAAAAAGTGAAAGACGGTTCAATCCCTCAGGGGTCTAAAGTCGTTCACGTTCTGACCGGGAACGGGTTGAAAGATCCAAACACAGCGATTGAAACGAGCCCTGTCAAACCGGCACGGATTGAAAACGACTATGAGGTGTTCGCTTCCGCTGTCACAGGAGTACAGTCATGA	MWQGLIHKYAEFLPINERTPKLTLHEGNTPLLPIPAISQDLGIEGYVKFEGANPTGSFKDRGMVMAMAKAIEEGSEAVICASTGNTSAAAAAFAARAGIRCIVVIPDGKIAEGKLAQAVMYGAEIFAIKGNFDDALRMVRKIAETEPVTLVNSVNPYRIEGQKTAAFEVVDALGSAPDILSIPVGNAGNITAYWKGFKEYHERFQSGLPKMMGFEASGSAAIVRNQVIEDPETLATAIRIGNPASWDKALQARDESKGLIDEVTDEEIVEAYQLLAQKEGIFAEPASCASLAGMIKKVKDGSIPQGSKVVHVLTGNGLKDPNTAIETSPVKPARIENDYEVFASAVTGVQS	PGPT0009175_6468	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0009175-thrC-K01733	NA	NA
AK012_01928	1293	hom_2	COG0460	Homoserine dehydrogenase	ATGAACAAATCCATTACGGTAGGACTGCTCGGTCTGGGAACAGTCGGATCAGGTGTCATTGAAATTCTGCGCGATCATAAAGAACGCATTGAACATAAAACGGGGTGCGATGTCACGATTAAGTCGGTGCTTGTCAGTGATATGGCGAAAGAACGGGAGATTCCGGCTGAAACGGAACTGACGGACCGCTACGAAGACATTACGAGAGATCCGGAGATTGATGTCATCGTAGAAGTGATGGGTGGAATCGATCACACGTTGACTATACTGCTGGAAGCCATTGAACACGGAAAACATATCGTAACGGCGAACAAGGACCTTGTCGCCCAGCACGGAGAGCAGCTGTTCGAAGCCTGCCAGAAATACAGCTGCGACCTTTATTATGAAGCCAGTGTGGCTGGCGGCATTCCGATCATCCGCTCAATCATGGACGGCCTTTCTTCCGACCGCATCACAAAAATGATGGGGATCGTGAACGGGACGACCAACTACATTATGACGAAGATGGCCCAGGACGGCGTCGATTTCGACAGCGTGTTGAAGGAAGCGCAGGACCTCGGCTTTGCTGAAGCCGATCCGACGGCTGACGTTGACGGCCTTGATGCGGCACGTAAGATGACGATCTTGTCCATTCTCGGCTTTTCCATGCCATACAGTTTGGAAGACGTCGATGTGAAAGGCATCCGCGGGATTTCTTCTGATGACATTACGTATGCCGAGGAGCTCGGCTACCGCATCAAACTGATCGGCATTGCGGAAAACGATGCCAACGGTGTAACCGTTAGTGTCGAACCGACACTGCTGCCGGCGGAGCATCCGCTCTCTTCCGTCAACGACGAATTCAATGCGGTCTATGTTTACGGGGATGCCGTGGGAGAAACGATGTTCTACGGCCCCGGCGCCGGCAAACTTCCGACAGCCACAGCCGTTGTTTCCGATTTGATTGCGGTCTTGAAAAATATCCGCCTCGGTACGACTGGAACCGCCTACGTGCAGCCGCAGTTCCCGAAACAGGTGCGCGCCCAGAGCGAGAAGCTGACGAAGAAGTACATCCGTCTTCATGTCGATGATAAATCCGGCATGCTGAAGGAGCTGACGAATATTTTTGCCGAGTACTCGATCTCCTTTGATCAGTTCACTCAGAAAGCGACCGACCAGGAAGGCGAGCGGGAGCTGATGATGGTGACGCATAAAGTCAATGAAGAAGACTTTGAGAAAGCTCTTCACGAACTGGAAACCTTGGATTCGGTTAGAAAAATCGACAGCGTCTTCCGTGTCGAAGGAGGAGAATGA	MNKSITVGLLGLGTVGSGVIEILRDHKERIEHKTGCDVTIKSVLVSDMAKEREIPAETELTDRYEDITRDPEIDVIVEVMGGIDHTLTILLEAIEHGKHIVTANKDLVAQHGEQLFEACQKYSCDLYYEASVAGGIPIIRSIMDGLSSDRITKMMGIVNGTTNYIMTKMAQDGVDFDSVLKEAQDLGFAEADPTADVDGLDAARKMTILSILGFSMPYSLEDVDVKGIRGISSDDITYAEELGYRIKLIGIAENDANGVTVSVEPTLLPAEHPLSSVNDEFNAVYVYGDAVGETMFYGPGAGKLPTATAVVSDLIAVLKNIRLGTTGTAYVQPQFPKQVRAQSEKLTKKYIRLHVDDKSGMLKELTNIFAEYSISFDQFTQKATDQEGERELMMVTHKVNEEDFEKALHELETLDSVRKIDSVFRVEGGE	PGPT0020155_2379	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020155-hom-K00003	NA	NA
AK012_01929	252			hypothetical protein	ATGTATCGCGGAGGCCTGTTTTTCTCTGGACTGATGATCAAATACGAAAAGTACTACAAGGTTCTGCTGTTGGATCTCGGGTTAAGCGGCAAAGAACATGAATTCGTCCAGGATGCTCAGGAAGTGGTTCAGGACATTCAGAGGAAGCTGGAGACAGCGGCGAGTGATCAGGAGAAATGTGCACTGTTTTATTCGGCCCTGAGAAAAAGGCTTGTCGACATCTATGGTGAAAATGGAAGCACCCCCGTTTGA	MYRGGLFFSGLMIKYEKYYKVLLLDLGLSGKEHEFVQDAQEVVQDIQRKLETAASDQEKCALFYSALRKRLVDIYGENGSTPV				NA	NA	NA	NA	NA
AK012_01930	1707	pgcA		Phosphoglucomutase	ATGTGGAAAGACGAATACACACGCTGGAAAGACTTTTCCGATTTGGATGAGAAGCTGGCTGTTCAATTGGAAAAGATCGTAGAAGACGAGGCATCACTGGAGGATGCTTTCTACAAAAACCTTGAGTTCGGTACAGGCGGGATGCGCGGGAAAATCGGTCCTGGAACAAACCGCATGAATATTTATACCGTTCGCAAAGCCGCCGAAGGCCTTGCTTCTTACGTGAACGATCAAGGGATGTCCAAGCGTGGCGTTGCGATTGCATATGATTCCCGTTACATGTCGAAGGAATTCGCTGTCGAAACAGCCAAAGTGCTCGGACGTCACGGCATTCCGTCCTACGTATTTACTTCATTGAGACCGACACCGGAGCTGTCTTTCGCGGTCCGCCACTTGAAGGCAGCGGCAGGCGTTGTTGTTACCGCCAGCCATAACCCGCCGGAATACAACGGCTTCAAAGCCTATAATGAAGACGGCGGACAACTGCCTCCAGCCCAGGCTGAAGTGATGATCGACTTCGTCAACCAGGTCGAAAATGAGCTGAACGTTGAAGCGGCTGATCAAGAGCAGCTGGAACAGGACGGCCTGCTTCGCTGGGTGGACGAAGATGTCGATGCTGCTTATATGGAAGCCTTGAAAACCGTCAGTGTGCGTGATGATCTGCCGAAAGATCTTTCTGTCGTCTTCACACCGCTGCACGGCACAGCGCGTCATCTCGTTGAACAGGGCTTGAAGCAGAATGGCTTCCGTTCCGTTCACATTGTAGAAGAACAGGCGCAGCCGGATCCGGAGTTCTCTACAGTGGCTTCACCGAACCCGGAGGAACACCAGGCGTTTGAACTGGCGATCGATCAGGGGAAAGCTGTTGGAGCGGATATTCTGATGGCTACAGACCCGGATGCTGACCGTCTCGGAGTCGCCGTTCCGGATGAGAACGGCGAGTATAAAGTGCTGACCGGAAACCAGACAGGGGCCCTGCTTCTCGATTACATCCTCGGGCAGAGTGCTTCCATTCCGGAAAACGGCCTGCTGGTCAAAACGATCGTAACCTCTGAATTCGGCCGGGTCATCGCAGATTCCTACGGGATTTCCTCTCTGGATACATTGACCGGCTTCAAATTCATCGGAGAGAAAATCCGTGAGTATGAGCAGTCCGGCGAGTATAAGTTCCTCTTCGGATACGAAGAAAGCTACGGCTATCTGGTGAAGGATTTCGCCCGTGACAAGGATGCGGTCCAGGCGGCTGTCCTCGCTGCAGAGGCAGCTGCCTACTGGAAGAGCCAGGGCAAAACATTGGTCGAAGCGCTGGATACCCTGTATCAAAAACACGGCTATTTCCTGGAAGACTTGAAGTCCGTCACGCTGGAAGGGAAATCGGGAGCCGATACGATTGAAAAGATCATGGACGATTTCCGTCAGGCGGATATTCAGGAAGCCGGTGGAAAGAAAGTCGTTGCGGTGGAGGATTACGCCACAACGGTCCGGCAGCTGGTCCAGGAAGGAACGAGCGAGGAAATCGATCTTCCGACATCCAATGTCGTCAAATTCATTCTTGAGGACGACTGCTGGTTCTGCCTGCGACCATCCGGAACAGAGCCGAAAATCAAATTCTATTACGGAGTGAAGTCCAGTTCACGCCGTGAGAGTGAAGAACTGCTTGCGTCCGTCAAAGCTGCGGTCGACGAGCGTCTGCACGCCATCATCTAA	MWKDEYTRWKDFSDLDEKLAVQLEKIVEDEASLEDAFYKNLEFGTGGMRGKIGPGTNRMNIYTVRKAAEGLASYVNDQGMSKRGVAIAYDSRYMSKEFAVETAKVLGRHGIPSYVFTSLRPTPELSFAVRHLKAAAGVVVTASHNPPEYNGFKAYNEDGGQLPPAQAEVMIDFVNQVENELNVEAADQEQLEQDGLLRWVDEDVDAAYMEALKTVSVRDDLPKDLSVVFTPLHGTARHLVEQGLKQNGFRSVHIVEEQAQPDPEFSTVASPNPEEHQAFELAIDQGKAVGADILMATDPDADRLGVAVPDENGEYKVLTGNQTGALLLDYILGQSASIPENGLLVKTIVTSEFGRVIADSYGISSLDTLTGFKFIGEKIREYEQSGEYKFLFGYEESYGYLVKDFARDKDAVQAAVLAAEAAAYWKSQGKTLVEALDTLYQKHGYFLEDLKSVTLEGKSGADTIEKIMDDFRQADIQEAGGKKVVAVEDYATTVRQLVQEGTSEEIDLPTSNVVKFILEDDCWFCLRPSGTEPKIKFYYGVKSSSRRESEELLASVKAAVDERLHAII	PGPT0017710_1757	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0017710-pgm-K01835	NA	NA
AK012_01931	456			hypothetical protein	ATGTTGAACATAAAGATGTTGAAGCCATATTATGTTAAAGAAGATAAACGTTTCATCCGTATCGTCTTAGCCTACCAGTACTTTTCTTTGTTTATTGATGACGAACTTTATCAGTTTATTCCTATGGAAGCAAGAGAAATAATCATCGACCGCAATCGGCAGAAGGTGCATAATGTCTTCGATATTTTCGTGTTTCAGCGCGGTAAAAATATGGTGTATGTATCGGTGGCGGATCTGCTGCAGCTGCCGGAATTTCTGACGCACCTTCATTCGATTGTGTCGCCGTATTATGAAGAGGGGATCGACATCAGCCAGCAATCATCTAAAGAAGTGAAAGCGATTATCCGTGAATTGGAGAAAGAAAACCTCCGGCGCCTGATCGATCAGGCGATTGATGAGGAGGATCAGGAAGCTTTCCAGGTACTGACGGAGAAATGGAAAGCGATGAACCAATAA	MLNIKMLKPYYVKEDKRFIRIVLAYQYFSLFIDDELYQFIPMEAREIIIDRNRQKVHNVFDIFVFQRGKNMVYVSVADLLQLPEFLTHLHSIVSPYYEEGIDISQQSSKEVKAIIRELEKENLRRLIDQAIDEEDQEAFQVLTEKWKAMNQ				NA	NA	NA	NA	NA
AK012_01932	138			hypothetical protein	ATGAGATCAAAGCCTAAAGACCGTCTGCTGGATGATGAGTGGGTAGACTTGATACAGGAAGCGAAAGCTTTAGGCCTGAGCAAGGAAGAAGTGGAGCACTTTCTGCGGAATGGAACGGAAACCTATAAACTAGTATAA	MRSKPKDRLLDDEWVDLIQEAKALGLSKEEVEHFLRNGTETYKLV				NA	NA	NA	NA	NA
AK012_01933	1191	rhaR_3		HTH-type transcriptional activator RhaR	ATGAAAAACTTTGAAATGATCACTCTACTTAAAGACTGCGCCATTGCATTCCATATACCAGTTCATTTAATTAACAAAAAAAACGAAGCCATCTTTCAATATCCTGACACCTTTCTTAAACCACCGGAAAGTATTCTGGATACCCGTCATCCATTTCTCCAGGAAAGCAGGGAAGCCGCCGGCACCCTTCAGCTGGTGAAGGATCCCTTCAACCAGTACGCTTTTTTTTATGCGTATGAAAACCCGCAGCAGGAAGTACTGGTCGCTCTGATCGGACCGTTTCTACATGAGCAGCTGTCCTGGAAAGAGGTCCAGTTGAGTTTGATCATGAACGATCTGTCATCCTCCCTGACAGATGATTTCGCGGGCTATCTGGAACAGCTTCCTGTCAGGACACCGAAAGAGCTGGCGTCCATGCAGCGCGTGTTGCAGCATGTCCTGCCGGTGAAGAAGAAAGAGAAGAAAACCTTGATGGAGCCGGATCTGCAGCATCATTATGAAGAGTATGCAGCGTCGCTGGAGTCTTATCCGGACACGGTGGCGTCCAAGCAGGAATTTATAGAACGTTTCAAACGAGGAGAGAAACAGGCGGTCGATGAGTATTATGCATTGATGGACAACAACCTGTCCTATGTGAAAAACTATGTCCGCTCTTTCAAAAATCATTTGATCCGTCTCGTCACAGAATTGAGTCTGCTTTGTATAGAAAAAGGAGCCAAGCCGGATGAAACCGCGTCCTTGAGTGATTTCCATATCAGCTTTCTGGAGACGAAAGAAACCGTGGAGGAGCTGGAAGGGCTGGAATCTATCATTCTGCGCTCGTTTTTGGAAAGGATTCAGACCGTCGGGAGGCAGTCCTTTTCCCCATTGGTGGAACGCGCCCAGAAATACATTTTCCAAAACTTAACGAAGGACTTGACGTTGAAAAGCATCGCTGAAACCTTGAATGTGAATCCAAACTATTTATCCGGCGTGTTTACGAAGGAAACCGGAGGATCGATTACGCAGTTCATCAATCAGCAGCGGATCACCGAAGCCAAAGAGCTCCTCTGCATCACCGAGCATTCCCTGATGGACATCAGCATGCTGCTCGGCTACAACAGCCAGAGTTACTTTACGAGAGTGTTCAAAAGCGTCGAGGGAATCGGCCCGAAGGAGTTCAGACAAAAATACCGGATAAAGGAAAAGTAA	MKNFEMITLLKDCAIAFHIPVHLINKKNEAIFQYPDTFLKPPESILDTRHPFLQESREAAGTLQLVKDPFNQYAFFYAYENPQQEVLVALIGPFLHEQLSWKEVQLSLIMNDLSSSLTDDFAGYLEQLPVRTPKELASMQRVLQHVLPVKKKEKKTLMEPDLQHHYEEYAASLESYPDTVASKQEFIERFKRGEKQAVDEYYALMDNNLSYVKNYVRSFKNHLIRLVTELSLLCIEKGAKPDETASLSDFHISFLETKETVEELEGLESIILRSFLERIQTVGRQSFSPLVERAQKYIFQNLTKDLTLKSIAETLNVNPNYLSGVFTKETGGSITQFINQQRITEAKELLCITEHSLMDISMLLGYNSQSYFTRVFKSVEGIGPKEFRQKYRIKEK				NA	NA	NA	NA	NA
AK012_01934	234	sinR_2	COG1396	HTH-type transcriptional regulator SinR	GTGACGCCGATTGGTGAAAAAATCCGTGTCCTGCGCACCGGAAGAGGTTTATCTGTCAACGAGTTTGCCAAACGTTCTGGTGTATCCAAGTCATATATCAGCAATATTGAAAGAGGGGTACAGAAGAACCCCTCCTTAATCGTGATGGGAAAACTGGCCCGGACGCTGGAGGTACCGCTGGAAGAATTATTAACGCATAAGTATGCTGAAGAAACGAGGAATGGACAGAGCTGA	MTPIGEKIRVLRTGRGLSVNEFAKRSGVSKSYISNIERGVQKNPSLIVMGKLARTLEVPLEELLTHKYAEETRNGQS	PGPT0014755_24	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014755-sinR-K19449	NA	NA
AK012_01935	153			hypothetical protein	ATGAAGAGAGAACAGGAGGAATACCGGCAATGGCTGGCTTTGATGGAAGAGGCCCGGCAGATCGGCTTGAGTCAGGAGGACGTCCGGCGTTTTCTTGATGATCCGCATATACCAGAGCTTTTAAAGGAAGGGACCCGAGGTCATGAAAGGTAA	MKREQEEYRQWLALMEEARQIGLSQEDVRRFLDDPHIPELLKEGTRGHER				NA	NA	NA	NA	NA
AK012_01936	549			hypothetical protein	ATGAAAGGTAAAACCGTCTTTACGAGGGAAGCCGGATGGAGAAACGTAAAGGACATGTCCACCCGCTTCCCGGTTACAGACAACCACTGTTCTTATGACCTCTCTTCCGTTGTGGAGCAGTATTCCCAGTTGAAAATGAAGCCCGGCTGGGAAATTTTCGCCCAGCACGGCGGAGTATGGGGGAAGAAGAAAGAAAATCCTGCGTGGGAAACAGGATTCATGAAGGCTGTGACCGGTGATGAGTCGCCTCTTTCCTATCTGCAGGCTTCAAACTGCTATCATCATCTACAGGAATATACGGATGAGACTGTCCATGTACTGCCTCAGGCCGTCCTTGATGATGCATATGCCTGTATGCTCGATTTATTCGGTGCATGGCCGTTTGGGAAGCAGATCCGCAGTTTCAATCCCCTGTTCTTCTATGACTCTCTCTTCCATCCGGCCGTCGTTTTCTTTACGTTCCATCGGGAAGGGCTTCCGATCATTCAAAAGCATGTCCATCGTTTCGCTCATGGAAGCTATGAACTGAAAACACTGACGCGTACGTAG	MKGKTVFTREAGWRNVKDMSTRFPVTDNHCSYDLSSVVEQYSQLKMKPGWEIFAQHGGVWGKKKENPAWETGFMKAVTGDESPLSYLQASNCYHHLQEYTDETVHVLPQAVLDDAYACMLDLFGAWPFGKQIRSFNPLFFYDSLFHPAVVFFTFHREGLPIIQKHVHRFAHGSYELKTLTRT				NA	NA	NA	NA	NA
AK012_01937	111			hypothetical protein	ATGGAGAATCTTAAAGAAGTGCTGGAGAACATCATCCAGCGGACGGAGAACTCAGAACTCCTATCATCGCAGGAAGTCATCAATCAGCTGATTCAGCAGCTGCAGGAATAG	MENLKEVLENIIQRTENSELLSSQEVINQLIQQLQE				NA	NA	NA	NA	NA
AK012_01938	1092	tagO_1	COG0472	putative undecaprenyl-phosphate N-acetylglucosaminyl 1-phosphate transferase	ATGAACATTACTGTTGAAATTATCGTGGCGCTGCTGCTGTCGATGGCTGTCAGCTATGCGCTTGTATTCCCTGTTATGAAGCTAGCTGTAAAATGGAAAATGATGGACTACCCGGAGCTGCGGAAAATCCATAAAGAAATCACCCCCCGTATGGGAGGACTGGCGATCTTTGGAGGAGCAGCAGCCGGGATGCTGTGGATCCGGCCGGATATGCCGTATATCACACCGATTATTATCGGAGCGTTCATCATCGTATTGACCGGACTGTTTGACGACCGTTATCAGATCCGTCCGATCTTTAAGCTTGGCGGTCAGGTGGCCGCAGCAGCTGTGCTTATTTTTTCCGGTTTGAAAGTGGATGTGCTCAGTATTCCGTTCATCGGAATGGTTTCCCTGAGTGATCCCATCAGCATCATCTTTACCTTTCTCTGGATCATCGGTATCACCAATGCCATCAACCTGATTGACGGGCTGGATGGGCTGGCCGCCGGTGTATCTACGATTTCCTTAATCAGTATTGCCGTGATGGCGCTTGCGATCGAACCGCAGATTTCCATCGTTTATTTATGCATTGTGCTGATCGGAAGCAATATTGGATTCCTGTTCCACAACTTCAACCCTGCCTCGATTTATATGGGGGATACAGGATCGCTGTTTCTAGGTTACTCGATGGCTGTCATTTCCATGGTCGGCCTGTTCAAGAACGTGACGCTGTTCAGCTTTGTCATTCCGATCATCGTTCTCGCCGTCCCCGTCTTTGATACGTTGTTCTCGATTTTACGGAGAATGATCAACAAACAGAAGATTATGATGCCGGATAACAAACATATCCACTATCAGATTCTTGCGGCCGGATTCAGCCACAGGGCAACGGTCTTGATCATTTATGCCTTCAGTGCCCTGTTCGGCCTGTTGGCGCTCTTATTCTCACTGACATCCTTCGGGGTTTCCTTGATCATTACGTTCGTCCTGCTGTTTATGCTCCATCTCTTTGCAGAAATGACGGGAGTCGTCTACCGCGGGAAACGGCCGATTATCGGTTTGTTCTCCAAAACGGAACGCGAAAAAAATAAAGACAAAGATGAAGCATAA	MNITVEIIVALLLSMAVSYALVFPVMKLAVKWKMMDYPELRKIHKEITPRMGGLAIFGGAAAGMLWIRPDMPYITPIIIGAFIIVLTGLFDDRYQIRPIFKLGGQVAAAAVLIFSGLKVDVLSIPFIGMVSLSDPISIIFTFLWIIGITNAINLIDGLDGLAAGVSTISLISIAVMALAIEPQISIVYLCIVLIGSNIGFLFHNFNPASIYMGDTGSLFLGYSMAVISMVGLFKNVTLFSFVIPIIVLAVPVFDTLFSILRRMINKQKIMMPDNKHIHYQILAAGFSHRATVLIIYAFSALFGLLALLFSLTSFGVSLIITFVLLFMLHLFAEMTGVVYRGKRPIIGLFSKTEREKNKDKDEA	PGPT0015240_1678	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
AK012_01939	1017			hypothetical protein	ATGGCAGTCCGCCGTTATCAACCGGGAGATGAATCACAGATTCAGACCCTTTTCAAAAAGACCTTCCACCAGGAGCGGCCTCTCTACGCTTGGGAATGGAAATTCAAACAAAACCCTGAACATAAAGAACCCTTCATACTCGTTTTCGAGGAAAACGGGAAAATCCTCGGTCACATCAGCTTATGGCTGATGAGCGCCTATATCAAAGGATGCGTCGAAACGATAGGCGTCCGTGTCGATACGATGGTGGACCCCGATGCCCGCGGCAAGGGGATCTACAAACACTTGAATGACGCCTTGATTGAAGAAGGACGGAAAGCAGGTATCACATACCTTTACGGTTTTCCTGCCCCGAAGGCGAAGGAATTATTCCTGCGCTACACCGGAGCGACCCACTTGACGGACATGCCCCGCTGGATGTATGTCCAGAAGCCCGTCAGCCTGCTGTCATCCAAGCTTTCCCCGCTGAAAGTTCTCAAGCCGCTTGACCGCGTGTACGGGAAGATCCGCCAGACGAAAAAGGCTCCGCACGCGTATGAAGTGAAACGCATCACCCAATGCGATTCAGCGTTCGATGAGCTGGCCGAAAAGACGAAGCACACCGCGGACGGCCTTGTCGTACGAAATGCCGCCTACTTGAACTGGCGCTTCTTCGACCACCCTTCCCACACCTATAAAATGACGGCGCTCTATAAGCAGGGAGACCTGCAGGGCTATGTCATCACTCATGAAAAAGAAGGGCGGTTCCGCAACGGGATGATCGTCGACTGGCTGGCGGTCGATGACGATGCGTGGCAGGCGCTCCTTGATGAGGCCCTTGTCGTTTTAAGTGAGGCCGATGTCGTCCAGTCGTGGGCTCTGCCGTCCATGATGCCGGCTCACCTGATGAAGCAGAATGGATTCGTGCATAAAGACAGCCCGATGCCGCTTGTCGGCAAAGAAATCGATTCGGAGAACACGGACATGAACGACCCGGATAAATGGTTCATCACCCCCGGCGATGTCGACTCCTATTAA	MAVRRYQPGDESQIQTLFKKTFHQERPLYAWEWKFKQNPEHKEPFILVFEENGKILGHISLWLMSAYIKGCVETIGVRVDTMVDPDARGKGIYKHLNDALIEEGRKAGITYLYGFPAPKAKELFLRYTGATHLTDMPRWMYVQKPVSLLSSKLSPLKVLKPLDRVYGKIRQTKKAPHAYEVKRITQCDSAFDELAEKTKHTADGLVVRNAAYLNWRFFDHPSHTYKMTALYKQGDLQGYVITHEKEGRFRNGMIVDWLAVDDDAWQALLDEALVVLSEADVVQSWALPSMMPAHLMKQNGFVHKDSPMPLVGKEIDSENTDMNDPDKWFITPGDVDSY				NA	NA	NA	NA	NA
AK012_01940	1278	wecC	COG0677	UDP-N-acetyl-D-mannosamine dehydrogenase	ATGAAGAAGTCACTATGTGTAGTCGGATTAGGATATATTGGTCTTCCTACATCCGTCATGTTCGCCATTCACGGACACCAAGTGCATGGAGTGGACGTCAATCAGAAAGCTGTCGACATGATCAATGCCAAGCAGCTTCATATAGAAGAAAACGGTCTTCAGGAACGTCTGGAGGAAGCGGTAGATGCCGGGAACTTCAAGGCGGCGGTGGAGCCGGAAGAGGCGGATGTATTCATCATCGCCGTTCCTTCACCGATCCGTGAAGATAAAACCGCCAACCTCGACTATGTACGTAAAGCGACACAGGCGATTGTCCCCTACGTGCGCGAAGGCAACCTTGTCATCCTGGAATCCACGGTTCCTCCACGTACCGTTGAAGATGTCATGCTTCCGGTTCTTGAGGAAACGAATCTTGAAATCGGAACGGAACTATTCGTTTCCCACTCTCCGGAGCGCGTCATTCCAGGGAAGGTCTTTCAGGAGCTTGTCGAGAACGACCGGATCGTCGGCGGCATCAATGAAGCATCCTCAGAAATGACGAAGGATCTTTACCGCTCTTTCGTGAAAGCGAATATCCACTTGACGGATGCTACGACAGCCGAAATGGCGAAGGTCATTGAAAATACGTACCGGGATGTGAACATTGCGTTTGCCAATGAGCTGGCCCTGATCAGCGACCAGATTGGTGTGAATGCCTGGGAAGCGATCAAGCTTGCCAACTATCACCCCCGGGTCAACATCCATACGCCTGGACCGGGCGTCGGCGGCCACTGCATCGCGGTCGACCCGTGGTTCCTTGCTGAAATCCAGCCGGATCTGTCCAAGATGATCCAGCTGTCCCGGAATACGAACGACAACATGCCGGTGTATACGGCGAACCAGATTGAGAAGCTGATGAAGGATCAGTTCATCCAGGATCCGAAGGTGGCCTTGTTCGGCCTTTCCTTCAAAGCCAACATCGATGACCAGCGGGAAAGCCCGTCCTTGAAAGTCATTCTGGAACTTGTTGAAAAAGGAATCAGCTTCAAGACGTTCGATCCGCATATCAAGGAAAACGTCGCTTCCAACCAGACTCAGGACATGGATGAAGCGCTTGAAGGAGCGGACATCCTTGTCATTCTGACGGATCACGATGAATTCAAGAAGCTCGACCCTGCCTACATCAAGAGTAAGATGAACAATCGTGTGGTTTATGATACGAAGAACGCCCTGAACCTCGATAACTGGACAGAAGCCGGTTTTATCGCCAAGCGTCTGGGCGACTCCAAAAACGGATAA	MKKSLCVVGLGYIGLPTSVMFAIHGHQVHGVDVNQKAVDMINAKQLHIEENGLQERLEEAVDAGNFKAAVEPEEADVFIIAVPSPIREDKTANLDYVRKATQAIVPYVREGNLVILESTVPPRTVEDVMLPVLEETNLEIGTELFVSHSPERVIPGKVFQELVENDRIVGGINEASSEMTKDLYRSFVKANIHLTDATTAEMAKVIENTYRDVNIAFANELALISDQIGVNAWEAIKLANYHPRVNIHTPGPGVGGHCIAVDPWFLAEIQPDLSKMIQLSRNTNDNMPVYTANQIEKLMKDQFIQDPKVALFGLSFKANIDDQRESPSLKVILELVEKGISFKTFDPHIKENVASNQTQDMDEALEGADILVILTDHDEFKKLDPAYIKSKMNNRVVYDTKNALNLDNWTEAGFIAKRLGDSKNG	PGPT0022670_437	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
AK012_01941	711	tagA	COG1922	N-acetylglucosaminyldiphosphoundecaprenol N-acetyl-beta-D-mannosaminyltransferase	ATGAAGGAACAGTTTTTAGGTGTAGATGTCAGCAGCCACTCGTACGAGCAGCTGAAGCAGAATGTATTGGATGATATCAATGAAAAGCGCCAGTCTTTCATCGTGGCCATTAATCCCGAAAAGATATTGAAAGCCCAGGAAGATCAGGATTTAAAGGCGCTTCTGAATAAAGCCACGTACCAGATTCCTGATGGTGTCGGCGTTCTTTTGGCTTCCAAGCTGAAAAAAGGCGGCATCAAGGAGCGTGTCACGGGGATTGATATGCTGCTCACCCTCTGCGAACAGGCCGCAGCCAATGGGAAGTCTGTGTTTCTCTATGGAGCCAAGCCCGGAGTGGCGGCGGAAGCGAAGGATAAGCTTGTCGAGCAGTACCCCAATCTTCACGTAGCTGGTGTGATGGACGGTTACGAAAAGGATGAACAAAAGGTGATCCAGACGATCAATGAGTCCGGGGCGGATATTTTATTCGTCGCCCTCGGCAGCCCCCGGCAGGAGTACTGGATCGTCGATCACATGAAAGAGCTCAACGTCCGCATCTTCCAGGGTGTCGGCGGCTCCTTCGATGTGATTTCCGGCCGTGTCAAACGCGCGCCGGCGCTGTTCCAACGCTTCGGTGTGGAATGGCTTTACCGGCTGATTTCCGAGCCGTGGCGGATCAAACGCCAGATTCGTCTGCCTTTGTTCTTAATGAAGGTATGGAGAGATAAATAG	MKEQFLGVDVSSHSYEQLKQNVLDDINEKRQSFIVAINPEKILKAQEDQDLKALLNKATYQIPDGVGVLLASKLKKGGIKERVTGIDMLLTLCEQAAANGKSVFLYGAKPGVAAEAKDKLVEQYPNLHVAGVMDGYEKDEQKVIQTINESGADILFVALGSPRQEYWIVDHMKELNVRIFQGVGGSFDVISGRVKRAPALFQRFGVEWLYRLISEPWRIKRQIRLPLFLMKVWRDK	PGPT0023455_1873	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023455-tagA|tarA-K05946	NA	NA
AK012_01942	2214			hypothetical protein	ATGAAAAAGATACATATAGGCGGTTTCTTTTTGCTGTTCGCATTTTTTATTCTTTATCCCGCTCAGGCCCAGGCTGAGAAAACAGTCATTCTCGATCCAGGTCATGGAGGAAGCTTTTCCGGAACGACCGGATACTCCGGCATATCCACTGGATATTATGAAAAGCATTTCAACTTGGAAATGTCCAAAGAAATTAAGGAAGAACTGGAGGCAGCCGGCTACACCGTACATATGACACGCACAGGTGACAGCCATTTTTCCCGGCGTCTCCACGATGATCTGCAGGCGCGTCTGGATATCGCCCATGACGCGGTCAGTGGCAGTAATGATAACGCGATTTTCTTATCTGTTCACTCCAACGCCCTTCCATCCAACCCTTATATGAGAGGGTATGAGACGTATTACTTTGATATCGATGAAGGGATCAACGAAGATTACCCTCCATCAGAGGAACAGATCGAACATTCCCCGGAAAGTAAGCGCCTGGCCTACACTGTCCACGAAAAAATCCTCGATGGTACACCGTTGAGTGAGGGCCGCGGTCTTGTGCCTTCTGATTTATACGTGACCCGGAATGCCCATATGCCGGCGGCTCTGCTGGAGTTCGGTTACATGTCCAACCCGGACGAAGAAGCCCTTATCAAAACCTCATCCTTCCAGCAAAAAGCAGCAGAGGCGGTCGTGGACGGGGTGAATGCCTATTTCCATGTGTATGAAGTGTACGACATGGACGGCAGAAGACTTGAAATCTTTTACGATCGACAGGACGCGATCGATTTCGCTAAAGACGAAGCCAACGTTTATGTTCTGGATAAGTACACACGAGAGAAAATCTATGATAATACCAAAAAACGCTATGGTGCCTATCATTCCAACCAGTCTTCTGTTACGAAGCTGTTCGTGAAAAAAGAAGATGCCATCGATTACGCGGACGATTGGAAGAACATGCGTGTCGTTGATAACGAAGCAGGAGAAGTCGTCTGGAGCAACTACTTAAATAAAGACTATGTCGTTGAGCATCCCAACAAAGGGGCCCTTTACGAATCTTACAATCTTGATGATGCTGTCGCCTATGCAGTGAAGTGGAAAAACACATCTGTGGTTGATCAAGCGGAAGAGGAAGTGGTCTGGAGCAATTACTTGGATGAAGACTACACGGTTTCCCACTCCAACAAAGGGGAACTGAAATCCTTCTACCGTGAACAGGAAGCGGTCGCTTATGCAAAGCAGTGGAAGAACACGGAAGTCATAAACGACGGCAAGGTCATCTGGTCCAATATGGATGACAGTTACAGCTATTCCTTTGAAACGAACCTGCTTGCGGGTAAAGACCGGATCAAGACAGCGATTGAAGTGTCCAAGCAGCTGTATCCGAATGGACTGGACGGAGAAAAAACAGTGGTGCTCGCGACTGCGTTTGAGTTCGCCGATGCCCTGTCCGCCGGACCTCTCGCGGCCCAATATGACAACGCGCCGATTCTTTTGAACCGTGACGATGAGCTCAGTGATGATGTGAAACAGGAGCTTCAGCGTCTCCATACGGAAAAAGTCGTCATCCTTGGCGGGACGAATGCCATCTCTGAAGGCATCGAACAAGAACTGGAGCAGAACTATAACGTCGACCGCATCTCAGGATCCACGCGTATCGAAACGAATCTTGAAATCAATGAAAATCTGAAAGGCGCAGAAGGGGTGTTTGTAGCATCAAGCACCAGCTTCCCGGATGCTCTGGAAGCCTCCTCTGTAGCCGCAGCCAATGGCTGGTCCATCGTCTTGACAGGAGAAGATGAAATCAGCAGCGACAGCTTGAACTACTTGACCGGAAAAGAAGTGGTCATTCTCGGAGGAACCGCTGTCGTTTCGGAGGATGTTGAAAAACAGCTGGTCGAAGCGAACGGAGCGGACCGTGTGGAGCGTCTGTCCGGTGCGACCCGTTATGAAACGGTAGCGGCAGCACTCCAGTATTTCCAGGATGACATGAATTCCGATACCGTCCTTGCGGCGACAGGGAAGAACTACCCGGATGCATTAACAGCTTCGGCCCTGTCGTCACGAACGTCGGCCCCTCTTGTACTCGTGGGTGACAAGCTGAATCCTGAACTGGAGAAACAGCTGGACCTATATGGTGGGGAAAACGTCGTCGAACAGCTTCAGATCATCGGAGCGGTCGTCGATGAAAGCAGTCAGCAGCAGATCGCTGACCACTTGAACTAA	MKKIHIGGFFLLFAFFILYPAQAQAEKTVILDPGHGGSFSGTTGYSGISTGYYEKHFNLEMSKEIKEELEAAGYTVHMTRTGDSHFSRRLHDDLQARLDIAHDAVSGSNDNAIFLSVHSNALPSNPYMRGYETYYFDIDEGINEDYPPSEEQIEHSPESKRLAYTVHEKILDGTPLSEGRGLVPSDLYVTRNAHMPAALLEFGYMSNPDEEALIKTSSFQQKAAEAVVDGVNAYFHVYEVYDMDGRRLEIFYDRQDAIDFAKDEANVYVLDKYTREKIYDNTKKRYGAYHSNQSSVTKLFVKKEDAIDYADDWKNMRVVDNEAGEVVWSNYLNKDYVVEHPNKGALYESYNLDDAVAYAVKWKNTSVVDQAEEEVVWSNYLDEDYTVSHSNKGELKSFYREQEAVAYAKQWKNTEVINDGKVIWSNMDDSYSYSFETNLLAGKDRIKTAIEVSKQLYPNGLDGEKTVVLATAFEFADALSAGPLAAQYDNAPILLNRDDELSDDVKQELQRLHTEKVVILGGTNAISEGIEQELEQNYNVDRISGSTRIETNLEINENLKGAEGVFVASSTSFPDALEASSVAAANGWSIVLTGEDEISSDSLNYLTGKEVVILGGTAVVSEDVEKQLVEANGADRVERLSGATRYETVAAALQYFQDDMNSDTVLAATGKNYPDALTASALSSRTSAPLVLVGDKLNPELEKQLDLYGGENVVEQLQIIGAVVDESSQQQIADHLN	PGPT0024160_154	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK012_01943	894			hypothetical protein	ATGAAGAAACTCAGCTTTATCGCCCTGTTCTTTGTTCTTCTGGTTTCAGCCTGTTCCGGCACCGATGTCGACCAGGCTGATCAGCTGGAAGAACCAGAGAACAGCGAAACGGAAACTACCGAAGACGAGGCCGCCTCTGAAGGGACTCCTTCTGAAGAATCTGAAGAGGAAGCAGAACCCGCAGAAGAGGAACCGTCTGAAGAAACGCCTGTAGAAGAAGAACCATCCACAGAAGAGGCACCAACAGAAGAAGAACCTGCAGATAAAGAAGAGGATCATGCGGAGTCAGATACCACAGAGGATCCAGAAGAAGAGGAAGAGCCTGAAGAATCCGCAGAACCTGAAGAGGATACCGTCGAGTCTGCATCCAATGACTCCGAGGATACGGAAGCCTCCGGTTCTTCCGCCGGCCTGAAGGCGTATATGCCGAAAGGACCGATGACGAAGACCTTTACCCAGGATGAGGATTATCAAGTGGTCCATGAAGTGGTGGATGTGAACGACCGCTTCGTCCAGCAGATTGTCACGTTCGGAGACATGGTGACCCTGCAGATTCTTGAATTTACCGAAGGAAGAATTTCCGTGGTCCACCAGGAGTCCAACCCGGAAGATACGTCCAGTCAGCTTGATTCATTTGAAGCGCATGAAACCATCGACGTCCTTGTCGATGCCACAGGGAGTTCCGCGAAGTTTCAGATTCTTGATGAAGCCCAGACGACTTCCACCCCCTACGGAGAATTCGAAGACGTATTTGTCGTGCAAAGGATGTCCGGTTCCGACGTAACGTCCATGTATCACTATGCCCCGGACTACGGTCTGATCCGCGAAAAAGTGGAGGACAAAGGGGACAACGGCTATACGATGACCTCAGAACTGACGGAGATTCAGGAATAA	MKKLSFIALFFVLLVSACSGTDVDQADQLEEPENSETETTEDEAASEGTPSEESEEEAEPAEEEPSEETPVEEEPSTEEAPTEEEPADKEEDHAESDTTEDPEEEEEPEESAEPEEDTVESASNDSEDTEASGSSAGLKAYMPKGPMTKTFTQDEDYQVVHEVVDVNDRFVQQIVTFGDMVTLQILEFTEGRISVVHQESNPEDTSSQLDSFEAHETIDVLVDATGSSAKFQILDEAQTTSTPYGEFEDVFVVQRMSGSDVTSMYHYAPDYGLIREKVEDKGDNGYTMTSELTEIQE				NA	NA	NA	NA	NA
AK012_01944	2370			hypothetical protein	GTGAAAAGACTATTAACCTATCTTTCTGCTTTTCTATTGGCCTGTCTGACTGCGCCGGCCCTTGTCAGTGCAGAAGCTTCAAAATCATGGGTGGTCGAGGAAAGCAGCGCTTCCTTTGACATCAATGACGCTGTAACCGCAGATGTTGAAAACAAAGAGCTCGAAACGAACCTTTCTGTAACGAAGGAGGGGCAGGAGCTTATCGACGAAACCACAAAGCTCAGCACAATCACCGACCTTATTCTTATCGATGAAACACTGATCGTTATCTACCGCGCCGACGGGTCAGCCCAGAGTTTGTTCTTTGATGCTTACGACTTGTCTAATGGAGAAAAAGTGTACGAATCCGATGCCTATGACCGTTCGACCTTTGAACAGTCCGGCGACGAACTTATTATTCAATATCCAATTCTTGAAGAAGACAGCATTGACACAGAACCTGAAGCACTGGCGGAAGATGCCTTCAGCATCGCCGGCGGTGAAGTGACGAAAGCGAAGACAGAGGAAAAGATGTCGCTTCAAAGCTCAGTCACGACGCAGTCCACGAAGGTTCATGAAAAATACGAAAACCCGAGCTATGCCGAAATCAGCCGTATCCTGACAGAAGAAGCCGAGAATTTCGATATTCCCCCGGAAATAGTCAAAGCGGTGGCATATCAGGAAAGTGGCTGGCAGCAGTACTGGGAGCCGGGCCGGACGCCTGTGAACCACTATGAGAATGCCTGCACACCATCCAAGACACGCGGGATTGCCTGGGACGGTACGAACTTGAAGCTTGGCTATGACTGTATCGGGATCGGCATCATGCAGGTATCCGACTACCGTTTCATTGAAAATGACGTGGAACGGGCGGAAGAAGTGGAGCGTCTGTCCACGGATATCCGCTACAACATCCGTGAAGGCTTGAAAATTCTTGAGTCCAAGTGGAATTATGCCGATTATGACCTTATCCCTACAGTCAATGACGGCGACCGTGATGTAATTGAGAACTGGTATTTCGCCATTTTAGCCTATAACGGGATTTCACAGCGCAACAACCCGATCACGAACGGCTACATTGCCTATCAGGAAAAGATTTATGACCGCATGCGCCATTATGGCTTGTTTAACGTCACTCCGTTCCCGACCCACAAGCTGAACCCTTATCAAGACGGTATCATGCGCTTTGAGGAAAGCAACGTCGAAACCACCGGGCCGCTGCATACGACCAAGCATGCTTTCGGTATAGGTGAAAAGGTATACGTAACCGCAGGCAGCTTGAACCTGCGCAAAGCACCGAACAGCACCATCGTGACAAGCTTGAAGCGTGGCGATCAGCTGACTGTTACAGGCGCACCGATCGGCTATGACAGCAACACCCAGCACTGGGCATGGTACCCGGTGAAAACCACCGGTGGAAAGACCGGCTATGTCGCCTCCAGCTACCTGTCTGCAGCAGAGGAGCCGGACAGCTACCGTCTTTCCGGAATCAACCGCTATGAAACAAGTACCGCTCTGTCCAACTACGGCTGGCACTGGGATGAACCGAATGCTGCCGTCATCGGCCGCGGTGACCTGCCGATTGACTCTCTGACCGGAAGTGTACTGGCCGCTTATCATAATTCACCGCTTCTTTTGACACAGACCGACCAGCTTCCGGCCACAGTGGAAAAAGAACTGGAGCGTATGGATCCGACGAAGATTTACCTTCTCGGAAGTGAAGGAGCGGTTTCCGCTTCTGTTGAAAACCAGCTGAAGCAGAAATACGGCTCTTCGAACGTCGAGCGTTTATCTGGAGCCAACCGCTTCGAAACCGCTTATGAAGTCGCTGACGAAGTCGCCGATGAAGTGGACGTCGACGAAATCTTCATCACAACCTCTGATGAAACATCACCGGACGCGCTTTCCATCGCGCCTTATGCAGGTGATGAGAACACGCCGATCCTTTTGACGCTTCCGTATAAGCTCGAAGACAACGTCATCAACTTCATCCATGAAAACGATGTGGAAAAAGCAACGATCGTCGGCGGAACAGGTGCCGTGCACCAGACCGTTGAAAATCAGCTGAAAGACATCGTCGATACGGTCGAGCGTGTCAGCGGACCCGACCGCTACAGCACAAGCGTGCAGATTGCCGAGAAGTACTTCAACGAACATCGTCTGGAAGAAGTGTTCTTCGCCCAGGGCGAGGAAGTCGTAGATGCCCTTGCCGGCTCCCCGCTGGCCGCTTCCTATGAATCACCGATTCTTTTGACGAGAAAAGACACCGTACCATCCACGGTGAAAACCTACATCGACAGCATGCCGATCAGCCCGGAGAATTATTACCTGGGTGGGAATGCTGCGATTTCCGAAGAGGCAGAGGTGGAGCTGGAAAGCATCCGCCGCTGA	MKRLLTYLSAFLLACLTAPALVSAEASKSWVVEESSASFDINDAVTADVENKELETNLSVTKEGQELIDETTKLSTITDLILIDETLIVIYRADGSAQSLFFDAYDLSNGEKVYESDAYDRSTFEQSGDELIIQYPILEEDSIDTEPEALAEDAFSIAGGEVTKAKTEEKMSLQSSVTTQSTKVHEKYENPSYAEISRILTEEAENFDIPPEIVKAVAYQESGWQQYWEPGRTPVNHYENACTPSKTRGIAWDGTNLKLGYDCIGIGIMQVSDYRFIENDVERAEEVERLSTDIRYNIREGLKILESKWNYADYDLIPTVNDGDRDVIENWYFAILAYNGISQRNNPITNGYIAYQEKIYDRMRHYGLFNVTPFPTHKLNPYQDGIMRFEESNVETTGPLHTTKHAFGIGEKVYVTAGSLNLRKAPNSTIVTSLKRGDQLTVTGAPIGYDSNTQHWAWYPVKTTGGKTGYVASSYLSAAEEPDSYRLSGINRYETSTALSNYGWHWDEPNAAVIGRGDLPIDSLTGSVLAAYHNSPLLLTQTDQLPATVEKELERMDPTKIYLLGSEGAVSASVENQLKQKYGSSNVERLSGANRFETAYEVADEVADEVDVDEIFITTSDETSPDALSIAPYAGDENTPILLTLPYKLEDNVINFIHENDVEKATIVGGTGAVHQTVENQLKDIVDTVERVSGPDRYSTSVQIAEKYFNEHRLEEVFFAQGEEVVDALAGSPLAASYESPILLTRKDTVPSTVKTYIDSMPISPENYYLGGNAAISEEAEVELESIRR				NA	NA	NA	NA	NA
AK012_01945	1527	murJ_2	COG0728	Lipid II flippase MurJ	GTGAAATCTAAATTAGGTTTAGCGAGCATACTGTTTATCGGCGCCACCCTGATCCTGAAGGTCTCCGGACTGATCCGGGACATGGTCATCGCCTACTACTTCGGGGCAAGCTACGTGGCGGATGCGTACCTGGCTGCCTTCATTATTCCGAATATGCTGATTTTATTCATGCAGAACGGGATGAAGAATGCGCTCGTTCCGAGTTATATCCAGGCGGCGGAGGAACAACGCGGCCGCTCGCATCTGGGACAGGTCTTCAAAGGAACGGCCGGACTTGCTCTTATTCTTTCGATTATCGGAATGGCCATCGCACCGGTGCTGATTCCGCTCCTGTATCCGGATTTCAGTCCGGAAGCGACCCAGATCGCCATCTGGGTGACGGTCATCTTCTTTGCATGTATATCGTTCGTCGGCATGAACTCGGTATTGGAAGCGTTCTTTGACGCGGAAAACAAGTTCTCCCTGTCGATTGTTTCTCAAATCATCGTCATTTTAAGCTCGATTGCCGGCGCATTCCTATTCGCCAATCAGATCGGTGCGTATTCGCTGGCGATCGGTTATGCGGTGGGTACGGTCCTATCCCTGATTTTCAAGTCGTTCATCGTCGTCCCGCAGAGGTCGCTGACGCTGAAGGAGAAATTCGACTGGCCGGAAGTGCGCCAGTTTTACTGGATCTTCCTTCCGGTAGGGCTGACGGTTATGGTCGGTCAGGTGAACCTGCTTGTCGGTTCGGTCTTCGCCAGCTACCAGGGTGAGGGTGCGGTCATGTATATCAATACGGCGAAGAACTTCGTGCACATGCCGCAGGCGATTTTCGGCGTGACGATAGCGACGATCATCTTCCCGTTATTGTCTAAAGCGATTACAACGAACGATACCGGGCAGTTTAAAAAGGGTATCGAAAAAGGGCTCACAACGATGTACCTCGTTCTGATGCCGTCGATCATCGGCATGATGCTTTTGATGCCGAACTTGATCGAGCTGTTGTATGAAGGCGGTGCCTTTGATAGCAAGGCGACCGAAGCCACGACCCAGGTCGCGTATTTCTACTTCGGATCCGTCCTGTTCTTCAGTCTCAATAACATCATCAACAAAGGTTTCTATACCATGAAAAAAGGGCACCTGATCCTCATGATCAGTGTCGGTTCCATCCTATTGAATGTCGTCTTCAACTTCGTGTTTGCCGAATGGCTCGGATACCTCGGCATCCCGCTCGCGGCATCTGTCATGGCGCTCTTCTATACAGGGGCATGCCTCATCGTTTTCACAAAGCGTGTCGGGGGCCTCAATTTCAAAGCGATCCTCGTCGATTATGTGAAAATCACAGGCGCCACAGCGCTCATGACGGGAGCGGTTCTGGCGGTCAAGCCGTTGATTACAGAACTTCCCAACGTGTTCATTATCATTATCGTTGCCATCGTCGGCGCGATTGTATTTGTGGGAGCCGCTTTTGTTATGAGGTCCGACGCCTTTATGTTTCTACTCAATAATGTTACGAAACGCAAAAAGAAAGGAGCAACGTCATGA	MKSKLGLASILFIGATLILKVSGLIRDMVIAYYFGASYVADAYLAAFIIPNMLILFMQNGMKNALVPSYIQAAEEQRGRSHLGQVFKGTAGLALILSIIGMAIAPVLIPLLYPDFSPEATQIAIWVTVIFFACISFVGMNSVLEAFFDAENKFSLSIVSQIIVILSSIAGAFLFANQIGAYSLAIGYAVGTVLSLIFKSFIVVPQRSLTLKEKFDWPEVRQFYWIFLPVGLTVMVGQVNLLVGSVFASYQGEGAVMYINTAKNFVHMPQAIFGVTIATIIFPLLSKAITTNDTGQFKKGIEKGLTTMYLVLMPSIIGMMLLMPNLIELLYEGGAFDSKATEATTQVAYFYFGSVLFFSLNNIINKGFYTMKKGHLILMISVGSILLNVVFNFVFAEWLGYLGIPLAASVMALFYTGACLIVFTKRVGGLNFKAILVDYVKITGATALMTGAVLAVKPLITELPNVFIIIIVAIVGAIVFVGAAFVMRSDAFMFLLNNVTKRKKKGATS	PGPT0024200_3867	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
AK012_01946	888			hypothetical protein	ATGAGTCGTAAAGAACTGTTCATGAACGCGGTGCGTCCGGTGAACGCACCGATGACTAAATTTATTCTCGGCCGTCACTACAATGCTGATTTGATGGCGCTGAAAAATGAACCGGTCAAGAAGGTGCTCGTCCTTGCGCCGCATATGGATGACGAAACGATCGGCCCCGGCGGCACCCTCCGTCAGCACGCCGATCAGGGAGCAGAGGTCCACTGTCTCTTCATTACCGATGGAGCGGGCAGCGTTTCTGAGATGAGTGCGGAGGAGCTGAATGCCAAGCGCCGCCAGGAGATTGATCAAGTGAAGGACATCCTCGGACTGACGACCGTCTCCTACCTCAACCTGCCGGACGGCGGTGTAACGAGTACACCGGATGCGGTGCAGTACTTGAAGGAAAAGATTGAAACCTTGAGCCCCGATATCATCTACACGACGCCGTTCATCGATGCCCATACCGATCACAGCGCTACAGCGAAGCTGCTCAGCGATACGCTGAAGCGGATGGACAACGTACGCTCCAAAATCCGGATGTATGAAATCAACTGTGCCTTCCCGCCGGATTCCATCAACTGCCTCGTCGATACGACGGAGCAGCATGCGAAGAAAGTGGAGGCGACCGAAGTGTTCGATTCCCAGGCGATCGCTTTCGACGGCTTCCTCGAGTTGAACCACTACAAAGGAAAACTGGCGGCTGAACCTGTCGATACAGCGGAAGCCTTCATCGAATGGGACAAATCCAACTTTGTCAGGCACGTGGATACGCTTGATCAGATGGGCTACCATTTCCCGGAGAAGTTCAAGCAGGTCAACCGGACCGATACACTGCTGTGGGCGATTTTCAAAAACTACGCCATGAAGAAGGATCTGTACCGCAAAACCATCAACTAA	MSRKELFMNAVRPVNAPMTKFILGRHYNADLMALKNEPVKKVLVLAPHMDDETIGPGGTLRQHADQGAEVHCLFITDGAGSVSEMSAEELNAKRRQEIDQVKDILGLTTVSYLNLPDGGVTSTPDAVQYLKEKIETLSPDIIYTTPFIDAHTDHSATAKLLSDTLKRMDNVRSKIRMYEINCAFPPDSINCLVDTTEQHAKKVEATEVFDSQAIAFDGFLELNHYKGKLAAEPVDTAEAFIEWDKSNFVRHVDTLDQMGYHFPEKFKQVNRTDTLLWAIFKNYAMKKDLYRKTIN	PGPT0019575_16	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019575-bshB2-K22135	NA	NA
AK012_01947	1443			hypothetical protein	ATGCCTATCCCATGGAGAAAACTATACTTCGTGTTCGTCGCGCTTGCGCTTTTCTTCATCGGCGCAGCTCTCGATAACACGGTGATCGACCTGTTGATCATGCTGTTCTTCGCCGGCTATGCGCTCTTCAAGCCGAAGAACTCGCTGCTGATCTTATTCACGTATTTCCCGATCCGCCCGTTTCTGCTGGAATTCAACCCGGCCTTAAAGGGAATCGGAGACATCATCATCTTTGCGCTTTTATTCCGTGTCTTACTTATGTACCGCAAGGATTTAAAAAAGCTGTTCCAATTCTACTGGTTTGAATACGCCTTTTTCGCCTTCCTCATTGTCGGAGCGGTTTCGGCGTACTTCACAGGGGTATCCCTGACAGCGATCATCTTCCAGATCCGCGGCTTCCTGCTGTTCTACCTCGTGTTCTACATAGCAAGAAGGCTGCACATTACGAAGGAAGACATCAACAAGTTCATTATGACCACGCTGATTATGACCTTCTTAATCTGTATCCACGGCATGGTTGAAAAGCTCTCCTTACGAGGCGTCTTTCTGCCGCAGAGCTGGCAGGATATGCCGCTGTCTGCGACCAACCGGATCCGTATTTACGGAATGACAGGAAACCCGAACGTCCTGGCGTATTACCTGTCCTTCTCCATCGTTATCATCATGTACTTCCGCAACCGTTTTACAGGCAAATGGCTGTGGCTCACGTACATTTCCCTTGCCTGCCTGTTTGGTGTCTGGAGTCTCACCTATTCCCGTGGAACGTGGATCGCGTTCGCGCTTGCGCTTGCGATTTACGTCGTCGTAGCAAGAAAGTGGAACTTCCTGAAGCCGCTGCTCATCTCGCTTGCGGCCGGAGTCGTCCTCATCGCTGTTCCGGTGAGCATCGGAACGTCGATCGTCGAGAACACCGACTTCGGAAAAGAGAAAAAAGAAAAGCAGTCGCAGTATGACGACAGTGAAGGAAGCTTCAAGGACCGGCTCGGCTCCACGATCGATAAAGAAACCCGTGAGCAGTCCAGTCAGTCCGGGCGTATCTGGATTGTCAGCAAAGGCTTTGAAATCTACCTCGATCACCCGATCATCGGTACCGGCTTTGCTACGTTCGGGGACGGAGCGACATTGAGCTATGATTCACCGATTTACGATGACTACGGCATCGAGCGGGAGTTTTTCTCAGACAACCAGTACATCCAGATCATCACCCAGACAGGAGCGGTCGGTGTCATTCTATTCGCCATCTTCCTGCTGAACATGCTGTACCACATTTGGAAAAAGCGGAACGAAACGCTGCTCGGCCCTGTGCTGTTCGCCGTCCTGCTTGCGGCCTATGCTGCCGGGATGGTGTACAACATCTGGGAAGGCGATTCGTTCACGATCTTCTACTTCGCCATGCTCGGCTATCTCTTGAATATGCGGCCGGAGCATGAATATGACCTCTAA	MPIPWRKLYFVFVALALFFIGAALDNTVIDLLIMLFFAGYALFKPKNSLLILFTYFPIRPFLLEFNPALKGIGDIIIFALLFRVLLMYRKDLKKLFQFYWFEYAFFAFLIVGAVSAYFTGVSLTAIIFQIRGFLLFYLVFYIARRLHITKEDINKFIMTTLIMTFLICIHGMVEKLSLRGVFLPQSWQDMPLSATNRIRIYGMTGNPNVLAYYLSFSIVIIMYFRNRFTGKWLWLTYISLACLFGVWSLTYSRGTWIAFALALAIYVVVARKWNFLKPLLISLAAGVVLIAVPVSIGTSIVENTDFGKEKKEKQSQYDDSEGSFKDRLGSTIDKETREQSSQSGRIWIVSKGFEIYLDHPIIGTGFATFGDGATLSYDSPIYDDYGIEREFFSDNQYIQIITQTGAVGVILFAIFLLNMLYHIWKKRNETLLGPVLFAVLLAAYAAGMVYNIWEGDSFTIFYFAMLGYLLNMRPEHEYDL				NA	NA	NA	NA	NA
AK012_01948	1092	tuaC	COG0438	Putative teichuronic acid biosynthesis glycosyltransferase TuaC	ATGAGTAAACGTGTACTCGTCATCAGCAACATGTACCCGAGTCACCGCACACCGACGTACGGCATTTTCGTCAAGAATCAGGTGGAGGCGCTGAAAGAAAAAGGAGTCTCCATTGATACTGCCGTCAACCGGGACAACCGCGGCGGGAAAGGGAACCTGATCCGTAAGTATGTGATCTGGCTTCTGAAAATACTCGCCCGACTCCTCACAAAAGGGCGGTCGTATGATGTCGTGCACGCGCACTACATCTTTCCGAGCGGCCTGCCCGGGCTGTTGTTCAAAAAGCTGTTCAAATCGAAGCTCATCGTCACCTCCCACGGCGGCGATCTCGATCAAATGGCGAAAAAAAGCGGCCTGATCAAAAAGCTGACGAGAAAGATTCTTCACGAAGCTGATCACGTCATCGTGGTTGGTGAAGCATTGAAATCGGAAGTGATTCACGGCTTTGGGGTGAATGAAACCAAAGTATCCGTCATTAACATGGGTGTCGACCGCGGCGTCTTTCAGCCGGTCGACAGTACCGAGGCAAAGAAGAAGCTCGGACTGAATCCCGATCACTTTCATATCCTGTTTGTCGGCAACCATATCAAGGCCAAAGGACTCACCGAGCTTCTGGAAGCCGTCCAGAACATCCAGAAGCAGGATAAACAAGTGGAGCTCCACCTCGTTGGAAGCGTCAAAGAAGAACGTTACCTCCAGGAATTGAAAGACAGCGTCCAACAGGAGAACAGCTCCCTGATCCATTTTCACGGACCAAAAGACCAGCAGACGGTCGCGGCTTGGATGGCAGCGGCGGATGTGTTCACCCTGCCGTCCTACATCGAGGGCTTCGGCCTCGTCGCTCTTGAGGCGATGTCGTGCCACACCCCTGTCGTCGGATCCGATGTCGGCGGTTTATCCTATCTGCTGGCGGAGGATCACGGCGTCCTCGTCGAGCCGAAAAGTGTGTCTTCCCTGCAGTCCGGCATCGAGCGGGTGATGGAGGACGAGCTGCTGCGTAAGCGGCTGATCGAAAACGGCGAACAGGCCGCCGGAGAAAGCGACTCGGAACGCCTGCTGAGTAAAATCATGGACCTTTACAACCGTGCATAG	MSKRVLVISNMYPSHRTPTYGIFVKNQVEALKEKGVSIDTAVNRDNRGGKGNLIRKYVIWLLKILARLLTKGRSYDVVHAHYIFPSGLPGLLFKKLFKSKLIVTSHGGDLDQMAKKSGLIKKLTRKILHEADHVIVVGEALKSEVIHGFGVNETKVSVINMGVDRGVFQPVDSTEAKKKLGLNPDHFHILFVGNHIKAKGLTELLEAVQNIQKQDKQVELHLVGSVKEERYLQELKDSVQQENSSLIHFHGPKDQQTVAAWMAAADVFTLPSYIEGFGLVALEAMSCHTPVVGSDVGGLSYLLAEDHGVLVEPKSVSSLQSGIERVMEDELLRKRLIENGEQAAGESDSERLLSKIMDLYNRA	PGPT0015210_333	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015210-tuaC-K16697	NA	NA
AK012_01949	1503	zwf	COG0364	Glucose-6-phosphate 1-dehydrogenase	ATGGATGAACAAAGCAACCAAACGCAGCTTGGAATCGATTCCGAACAGCTTATGGACGATATGACTTTCGTATTATTCGGGGCCAGCGGAGATCTGGCCAAACGTAAAATTTATCCGGCCTTATACAATTTATATGTCGAAGGAAAAATGCCTTCCGCTTTATCTGTCGTCGGCTTAGGCCGCCGACCGTATTCACAGGAGGACTTCCGTGAAATCATCAAGGAGTCGCTGTCTACGTTCTCCCGTAGAGACGTCGACCCATCCCATATGGAAGAGTTTCTGGAAAGCTTCCGCTACTTCATCTTTGACGCGATGGAGCCGCAGTCGTACGCCGACTTGAAGGCTTTCATTGAAGAGCGTGAAACAGAAAAATCCATCCCACAGAACCGTCTGTTCTACTTATCTGTGGCGCCGAGTCTTGTCGAGCCGATCACGGCATCTCTTCAAAAGAGCGGCATCACAGAAACCGACGGCTGGAAAAAGCTGATCGTGGAGAAGCCGTTCGGCAGTGACCTGCATACCGCCCGTCACCTGAACGCTGAATTAAGAAAAGCCTTCGATGAAGAAGAAATCTTCCGCATCGACCACTACTTAGGCAAGCCAATGGTGCAGAATCTGGAATCCCTGATCCGCCCGAACCCGATTCTGAAATCCTTGTGGAATCATGATCAGATCGCCAACGTACAGATTACCGCCAGTGAAACCGTCGGTGTCGGAACGCGTGCCGGTTATTACGATAAATCCGGAGCGATCCGCGATATGGTGCAGAACCATTTGTTACAATTGGTCATGATGACCGCACTTCACCACCCGGAAAAGCTGTCCGCCAAGCAGATCGAAGAGAAAAAATCTGCGATCATGGAGGCGCTGCGCCCGGTCGATGAGGGGAATATTCAGCAGGATGTTGTCCGCGGCCAGTATGAAGCAGGCGAAGTGGATGCCCAGTCCGTGGTCGGCTATCAGGAGGAAGACGGTGTCGAAGAAGGGTCCAACAACGACACGTACTTCGCTGCCCGTCTTTATATCGATAACGAATACTGGAAAGGCATTCCGTTCTACATTCGTACCGGAAAGCGCCTTGCCCAGAAATCGACCCGCATCATCATCGAGTTTAAGAATGAAGTCGAGGATGAGCCGGATTCCGAAGGCGCCACATCCAACCTGCTTCTGATTGAAATCAACCCGAATGAAAGCATCGGTCTGCGCGTCAACCTGAAGGATGACGGCAACGAGAAATTCGAACCGGCCTACGTCAACTTCACGAAAAACCTGGATGAGCAGCCGGAAGCGTATGAAAACCTGTTGAACGATGCCATGGCAGGAAATGCGACGTACTTTGCGCACTGGAACGAAGTGGAGCTTTCCTGGCAGTGGATCCAGCCGGTCCTTGAAGCCTTCGAAGCCGACGAGCTTCCGCTTCACACGTACACCGCAGGATCCCACGGGCCGGAAGCAGCGGAGAAACTGCTGAACGAAGACGGCTTCACCTGGTGGGAAGTATAA	MDEQSNQTQLGIDSEQLMDDMTFVLFGASGDLAKRKIYPALYNLYVEGKMPSALSVVGLGRRPYSQEDFREIIKESLSTFSRRDVDPSHMEEFLESFRYFIFDAMEPQSYADLKAFIEERETEKSIPQNRLFYLSVAPSLVEPITASLQKSGITETDGWKKLIVEKPFGSDLHTARHLNAELRKAFDEEEIFRIDHYLGKPMVQNLESLIRPNPILKSLWNHDQIANVQITASETVGVGTRAGYYDKSGAIRDMVQNHLLQLVMMTALHHPEKLSAKQIEEKKSAIMEALRPVDEGNIQQDVVRGQYEAGEVDAQSVVGYQEEDGVEEGSNNDTYFAARLYIDNEYWKGIPFYIRTGKRLAQKSTRIIIEFKNEVEDEPDSEGATSNLLLIEINPNESIGLRVNLKDDGNEKFEPAYVNFTKNLDEQPEAYENLLNDAMAGNATYFAHWNEVELSWQWIQPVLEAFEADELPLHTYTAGSHGPEAAEKLLNEDGFTWWEV	PGPT0017380_4765	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0017380-zwf-K00036	NA	NA
AK012_01950	1413	gndA	COG0362	6-phosphogluconate dehydrogenase, NADP(+)-dependent, decarboxylating	ATGGAGAAACAGAACATCGGTGTCATTGGTTTAGGAGTCATGGGTGCCAACCTTGCCCTGAACATTCAAGATAACGGATATAAAGTATCGGTGTACGACTACTGGACCGACCGTGTCGATGAGCTCGTCCAAAACAAAGAAAACACCGGCAACGTCAGCGGAGCCTACAGCGCCGAGGAATTCGTAGCTTCTCTGGAATCACCGCGGAAGATCCTTATGATGGTGAAAGCCGGCGAAACCACAGACAAAGTGATCGAAAGCCTCGTGCCTCACCTTGATGAAGGCGACATGTTGATTGACGGTGGAAACACGTATTACGAAGATACCGAGCGCCGTGCCGCTTACTTAGAGGAAAAAGGCATCCACTTCATCGGTACCGGCTTCTCCGGCGGGGAGGAAGGCGCGCGCCGCGGTCCTTCCATCATGCCCGGCGGACCGATCGAAGCGTACAAAGAAGTGCAGCCCATCTTTGATGCGATCGCAGCGAACGTTGAAGGTACAGCGTGTGCCGCCTATATGGGACTCGGCGGTGCCGGTCACTATGTGAAAATGGTGCACAACGGCATCGAATACGGCGACATGCAGCTGATCTGTGAAGCGTACTTCATTATGAAAAACGTCCTCGGCCTGTCTGCTCAGGAGCTTCACGAAGTATTCAAAGAGTGGAACGAAGGCGAGCTGGACAGCTATCTGATTGAAATCACAGCCGACATCTTCACGAAAGTGGACGAAGAAACAGGCAAGCCGTTGGTTGAAGTGATTCTTGATACCGCCGGCCAGAAAGGAACCGGAAAATGGACGAGTAAGAGTGCCCTTGATTTAGGTGTACCGCTTCCGATCATTACCGAGTCCGTATTTGCCCGCTTCATCTCTGCGATGAAGGAAGAGCGTGCGAAAGCAAGCAAGTACTTGACCGGGCCTGAAGTGAACTTCACCGGCAACAAGGAAGAAGCGATCGAATCGATCCGCAAAGCGCTGTACATGAGTAAAATCTGCTCCTACGCGCAAGGATTCGCTCAGATGCAGTCCATGAGTGAAGAAAAAGGCTGGGATCTTCAGTACGGCGATATCGCCATGAACTTCCGCGGCGGCTGCATCATCCGTGCGCAGTTCCTGCAGAAGATCAAAGAAGCGTATGACCGTGAAGACCACCTGTCCAACCTGCTTCTGGACCCGTACTTTACAGACATCGCAACAACGTATCAAAAAGAACTCCGCGAAACGATCGCGCTTGCGATCCAGAACGGTGTTCCAGTACCGGCGTTCTCCAGTGCGCTTGCCTACTACGACAGCTACCGCACAGAGAAGCTCCCTGCGAACCTGCTTCAGGCGCAGCGTGACTACTTCGGTGCCCACACGTACAAGCGTGTCGACAAAGAAGGAACGTTCCATACGGATTGGATGAATATCTAA	MEKQNIGVIGLGVMGANLALNIQDNGYKVSVYDYWTDRVDELVQNKENTGNVSGAYSAEEFVASLESPRKILMMVKAGETTDKVIESLVPHLDEGDMLIDGGNTYYEDTERRAAYLEEKGIHFIGTGFSGGEEGARRGPSIMPGGPIEAYKEVQPIFDAIAANVEGTACAAYMGLGGAGHYVKMVHNGIEYGDMQLICEAYFIMKNVLGLSAQELHEVFKEWNEGELDSYLIEITADIFTKVDEETGKPLVEVILDTAGQKGTGKWTSKSALDLGVPLPIITESVFARFISAMKEERAKASKYLTGPEVNFTGNKEEAIESIRKALYMSKICSYAQGFAQMQSMSEEKGWDLQYGDIAMNFRGGCIIRAQFLQKIKEAYDREDHLSNLLLDPYFTDIATTYQKELRETIALAIQNGVPVPAFSSALAYYDSYRTEKLPANLLQAQRDYFGAHTYKRVDKEGTFHTDWMNI	PGPT0017385_2671	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
AK012_01951	453			hypothetical protein	ATGAACGATAAGATGGCGGCAGGATTCTGGGTGAGGCTGGGCGCAAGGGTCATTGACGGACTTTTGATAGGTATCGTTGTTGCTGCCTTGAACTTTATCATTTTTCAAGGCTTCAATCAGGACACTCCTGCTTTTAACTCCGTTGGAACCCTTTACTATGTTATCCTGCCGGCGCTGTGGGCCGGATACACAGTAGGGAAGAAGGCCGTCGGCGTACGGATCGTGAAACAGGAGGGCACAGATGTAGGATTCGGGAAAATGATATTGAGAGAGGTTGTCGGTACACTTGTCTACATCTTAACTCTCGGCATTGGAGCGATCGTCAGTGCGTTTATGGTCGGGATCCGCGAAGACAAGCGGGCTATCCATGATTTCATCGCCGGCACGTATGTGACGCATCGGGAACCGGAAACATCGGAAACAGGTCAGGCTGTTGAAAGCTCAAATATATAA	MNDKMAAGFWVRLGARVIDGLLIGIVVAALNFIIFQGFNQDTPAFNSVGTLYYVILPALWAGYTVGKKAVGVRIVKQEGTDVGFGKMILREVVGTLVYILTLGIGAIVSAFMVGIREDKRAIHDFIAGTYVTHREPETSETGQAVESSNI				NA	NA	NA	NA	NA
AK012_01952	1386			hypothetical protein	ATGGCGAATTACTTGTTTTTAAGGGGCAACAGAAATAAGCATTTCTTTTCTGACGTAGCTTCTGAATTAGAAGAAAAAGGGCATACGTGTTATCAACTGAAATTCGAGCTGGGTGAACTCTTAATTCCAAGTAAAATTAAGACAGTTTTCGTTCCTAAATACATATCACAAGAGGTTTACCCGATTTCGGATGAAGAACTGCTCGAAATGAAGATCTATAACATCACGTATAAGAGAGAGATAAAAAATACGCAGGTGTCAGAGAAAGAACTCCGCATGTACAAGCAGTATATGCACTTTATTGATCAGTTCATCGAAGAACATCATATTGATTTCATCTGCATGTTCAACGGCTATCACTGGATCGATCAAGTATCAAAATACCTGGCGGAGAAGAGAAATCTGCAGACGATTTATTTCGAACAGGGCTACTTCAGACCTTATACGCTTACGTGTGATCCTCAAGGAATCAATAATGATGCCTCCATTCCCAGAAGCAGACATTTCTATGAAGCTATTCAAATGGACCACAGGCGGATGAAGCATCACCTGACTCATCCGGAAAATGAAGACCTCCTAAACGTCAAAGGGGAAAACTTGACGCAGGTGGCTTTAGTGAAAGTGGCTAGTATGCTCGGAAGTGTACTGAAGGTCAACCCGAATCTTTATGCCCACATCACGTGGCATGAAGCCATCAAATACTTCATCTTCAAGCAGGGATTTAAATTCATGAAAATGGATGAGCAGCCTCTTCCTGAGGAATTTCTATTCGTCCCCTTTCAAGTATCCAGAGATACACAGATCTTCTACAATTCCTCGATTAAAAGCATGGAAGAACTCGTTGACCTTGCCTGCGCCCACGTAGAAGAGGTCAATCGGAAGCAGAACCGGAACATCCACCTGGTGTTTAAGGAACATCCGGAGGATATGCCGCGGAACAACTATAAAACGTTGAAGAAACGGTATAGAGACAATCCGAAAGTCATGTTTCTCCAGAAACGCAGCGTCCCTGAGTTAATCAGGAAAAGTCTCGGGGTGATCACCATCAATTCCACGGTGGGGATTGAAGCGCTGACCCAGCACAAACCGGTCATTACGCTGGGGGATGCCTTTTATAACATTGATGGTGTCGTCCGCCACTGTACAAACCTGAGTCAATTGGATGAAGAAATAGAGTTTATACTCAACCATCCGGTGAACCACCATCTCATATCTCAATTTTTATACTATCTGAGATTCAATTATCAGCTGGAAGGCAACCTGATCAGCCGGAATCCGGCCACAGCTGCGAATGTAGCGGAGCATTTAGACAGTGTTCCCGACTATAAATCATTATTTAGGGGTGAACAGAATGAAAGTCGTTGGCATCATACCTGCAAGATATAA	MANYLFLRGNRNKHFFSDVASELEEKGHTCYQLKFELGELLIPSKIKTVFVPKYISQEVYPISDEELLEMKIYNITYKREIKNTQVSEKELRMYKQYMHFIDQFIEEHHIDFICMFNGYHWIDQVSKYLAEKRNLQTIYFEQGYFRPYTLTCDPQGINNDASIPRSRHFYEAIQMDHRRMKHHLTHPENEDLLNVKGENLTQVALVKVASMLGSVLKVNPNLYAHITWHEAIKYFIFKQGFKFMKMDEQPLPEEFLFVPFQVSRDTQIFYNSSIKSMEELVDLACAHVEEVNRKQNRNIHLVFKEHPEDMPRNNYKTLKKRYRDNPKVMFLQKRSVPELIRKSLGVITINSTVGIEALTQHKPVITLGDAFYNIDGVVRHCTNLSQLDEEIEFILNHPVNHHLISQFLYYLRFNYQLEGNLISRNPATAANVAEHLDSVPDYKSLFRGEQNESRWHHTCKI				NA	NA	NA	NA	NA
AK012_01953	726	kpsU	COG1212	3-deoxy-manno-octulosonate cytidylyltransferase	ATGAAAGTCGTTGGCATCATACCTGCAAGATATAACTCCTCCAGATTCCCTGGAAAACCATTAGCTGATATTTTAGGCAAGCCGATGGTTCAGCACGTTTTTGAAAGGGTCCGTGCATCACAAGTGATTGATGACGTCGTTGTAGCAACCGATCATGAAGAAATTAAACAGGCTGTTCTAGATTTCGGTGGACGCGTCGTCATGACGAGTGAAGATCACGAAACAGGCTCTGACCGAATTGCCGAAGTCGTTTCCAAAATTGAAGGAGATATCTTCGTCAACATTCAAGGCGATGAGCCTTTAATACATACAGGCACGATTGACAAAATCGTAGAAACAGCGCTTGAGAACCCTGAAAGTGTGGTTACAGCGAAAACGAAGCTGGAAAACATGGAGGATGTTCAGGATCCGAACATCGTGAAGGTGATCGCGGATCGGAAAGATTCAGCTATTTACTTCTCAAGATCACAGATTCCATACAACCGTTCCAAGGAAGCCATCAACTATTACAAGCACCTGGGCATTTACAGCTACCCGCGTGAAGTAATTACTCAATTTGTAGATCTGCCACAATCCCCGCTTGAGCGGGTGGAAGTCCTTGAGCAGCTCCGTCTCCTGGAGAACGGCTACTCCATTAAAGTGATTGAGACTTCCTACGATGCTGTAGGCGTTGACGTACCAGAAGATATCCAAAAAGTAGAAAATATTATGGGGGTAACACAATGA	MKVVGIIPARYNSSRFPGKPLADILGKPMVQHVFERVRASQVIDDVVVATDHEEIKQAVLDFGGRVVMTSEDHETGSDRIAEVVSKIEGDIFVNIQGDEPLIHTGTIDKIVETALENPESVVTAKTKLENMEDVQDPNIVKVIADRKDSAIYFSRSQIPYNRSKEAINYYKHLGIYSYPREVITQFVDLPQSPLERVEVLEQLRLLENGYSIKVIETSYDAVGVDVPEDIQKVENIMGVTQ	PGPT0023065_2590	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
AK012_01954	831	kdsA	COG2877	2-dehydro-3-deoxyphosphooctonate aldolase	ATGAACATTGAAACAAAACTAAACGATCAGATTACATTCGGCGGTAACAATCCATTTGTCCTTATTGCAGGACCATGCGTACTGGAGGATCTGCAGGAAGCGATTGATAATGCGAAAAAAGTCAAAGAAATCACTGACAGACTCGGCATTCCTTATGTGTTCAAAGCATCTTTCGATAAAGCCAACCGCTCCTCCATCCACTCCTATCGCGGACCTGGGTTCGAGAAAGGTCTGGAAATGCTTGCAGCCATCAAAGAAGAAGTAGGCGTACCTGTTACATCTGATATCCACGTTCCTTCCCAGGCGGCAGCCGCCGGTGAAGTCCTGGATATCATTCAGATTCCAGCGTTCCTATGCCGTCAGACAGACCTTCTTGTTGAAGCAGCGAAAACAGGAAAGATCGTCAATGTGAAAAAAGGACAGTTCCTCGCACCGAACGACATGAAGAACGTTGTTACGAAACTGCAGGAATCTGGGAACGATAACACACTGCTGACAGAGCGTGGATCCACATTCGGTTATAACAACCTTGTTGTAGACATGCGTTCTCTTGTAACGATGAGAGAGCTTGGTGCTCCTGTTGTCTTCGATGCGACACACAGTGTGCAGATTCCAGGCGGAAACGGAACATCTACTGGTGGTAAGCGCGAGTTTGTTCCATACCTGTCCCGTGCAGCCGCAGGTGTAGGCATTGATGGATTGTTCATGGAAGTTCACCCAGAGCCTGAGAAGTCACCTTCTGACGGTCCAAACATGGTAAGAATGGAAGATTTGGAAGACGTACTGAAGCCAATCGCAGAAATCGACCGCTTAGTAAAAAATATCAAATAA	MNIETKLNDQITFGGNNPFVLIAGPCVLEDLQEAIDNAKKVKEITDRLGIPYVFKASFDKANRSSIHSYRGPGFEKGLEMLAAIKEEVGVPVTSDIHVPSQAAAAGEVLDIIQIPAFLCRQTDLLVEAAKTGKIVNVKKGQFLAPNDMKNVVTKLQESGNDNTLLTERGSTFGYNNLVVDMRSLVTMRELGAPVVFDATHSVQIPGGNGTSTGGKREFVPYLSRAAAGVGIDGLFMEVHPEPEKSPSDGPNMVRMEDLEDVLKPIAEIDRLVKNIK	PGPT0023060_2346	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
AK012_01955	981	kdsD	COG0517	Arabinose 5-phosphate isomerase KdsD	ATGTTGGATTTGCAAACCGAAGTAGATTACCGTTCAATCGTGGAAGAAGTTTTGGATGTCGAAGCAGGTGCGATTACAAGCCTGAAAGAGCATTTGGATGAAAACATAGATAAAGCAATCGAAATGATCTTATCAACCAAGAATCGTACGATTATAACGGGTATGGGTAAATCAGGTCTCATCGGTAAAAAAATTGCTGCAACTCTGGCTAGTACTGGAACACCGGCGATTTACATGCACCCTTCTGAAGGTCTTCACGGCGACCTTGGTATGGTCACTTCTGAAGATACGGTCATTGCCCTGTCCAATAGTGGAGAGACCGAGGAAGTTCTTAACCTACTGCCTTCCCTTCAAAAGATTGGTACAAACCTGATCTGTATTGTGAAAAACCCGATGTCGACTTTGGCTATCAAATCTGATGTAGTTCTGACCCTGGGCAGATTTGAAGAAGCGTGCCCGCTTCGCCTGGCACCAACAACAAGTACGACCGTCACGCTGGCCCTTGGAGATGCGATTGCAGTCGCTCTGTTGAAAAAACGCAACTTCCAGCCGGAAGACTTTGCACTGTTCCATCCCAGCGGTTCACTGGGACGCCGTCTGTTAATGACGATCGACAACCTTCTGGCTGCATCGAAAAAAAGCCCGATGGTTACCGAATCCTGCACAGTGAAAGATGCTTTGTTTGAAATGACGAAGCATGGTCTCGGAGCCACCTGCATCGTCGGGGAAGATGGAACGCTTCAAGGCATTCTGACCGATGGTGATATCCGCCGTGCAATGGCAAGCGGAGAAGACGTCATGGATCAGACAGTAAAAGAGCTCGGCAACACGATGCCGATTACAACCCAGGCCGATGTGCTGGCGACCAATGTACTTGAAATAATGGAAGAAAAGCGAATCAACGTCATGCCGGTCATTGATGAAAATAACAAGCCGCTTGGCATGATTCACTTTCACGATATGATGAATTTGGGGATTTAA	MLDLQTEVDYRSIVEEVLDVEAGAITSLKEHLDENIDKAIEMILSTKNRTIITGMGKSGLIGKKIAATLASTGTPAIYMHPSEGLHGDLGMVTSEDTVIALSNSGETEEVLNLLPSLQKIGTNLICIVKNPMSTLAIKSDVVLTLGRFEEACPLRLAPTTSTTVTLALGDAIAVALLKKRNFQPEDFALFHPSGSLGRRLLMTIDNLLAASKKSPMVTESCTVKDALFEMTKHGLGATCIVGEDGTLQGILTDGDIRRAMASGEDVMDQTVKELGNTMPITTQADVLATNVLEIMEEKRINVMPVIDENNKPLGMIHFHDMMNLGI	PGPT0023075_1423	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
AK012_01956	546	kdsC	COG1778	3-deoxy-D-manno-octulosonate 8-phosphate phosphatase KdsC	ATGAGTGCACAAAACGTAAAGCTTATGGTCCTTGATGTAGACGGTGTCCTGACAGACGGCCGCCTCTACATTGGATCTGATCAAGTCGAATATAAACCATTTCACACAAAAGACGGCATGGGCATCAGTCTTGCCCGCTATGCCGGCATTAAGACAGCCATCATCACCGGCCGTCAATCACCAGCCGTTGAAAAACGCGCCGGAGAACTGAAAATCGATTTTGTCTACCAGGGGATCCATCACAAACAGAAAGTGTTGGATGAGATTCTGGAGTCACTCAATCTAACGATGGATGAGGTCTGTTATGTTGGTGATGACATCAACGATCTTCCTGTCCTTCGTCAATCAGGATTCGCCTGTGCCCCGAATGACGGGGTGGCGATCGTGAAGGAAAATGTCCACCTCGTAACAGAGGCCAAAGGCGGGGAAGGGGCTGTCCGTGAGGTAGTCGAGACCATTCTCGATGCGAAAGGTGATTTGAATGAATGGATCGAAGATTATCTTGCCGGTGTCACAAAGTCGGAAACGGTAAAAGTCCAGCAGTAA	MSAQNVKLMVLDVDGVLTDGRLYIGSDQVEYKPFHTKDGMGISLARYAGIKTAIITGRQSPAVEKRAGELKIDFVYQGIHHKQKVLDEILESLNLTMDEVCYVGDDINDLPVLRQSGFACAPNDGVAIVKENVHLVTEAKGGEGAVREVVETILDAKGDLNEWIEDYLAGVTKSETVKVQQ	PGPT0023070_1685	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
AK012_01957	432			hypothetical protein	ATGACAACATGTCCAATTTGTGAAAAACATCAGAAGAACGACCCTGGCATCCTCTTTGAGAATGACGCCTGGGTAATCAGCGCAGGTCCTCACGCTTCTCATGTCTTAGGCTATGTGTATTTAGAGCCGAAGCGACACGTGGAAGATTGGGCGGAATTGTCAACGGAGGAATTCTCCCAGGTTGGCCCGCTGGTCAAAAAGGTCGAAGTTTTTTTGAAAGAGCAGGGAAAGGCTGAGCGTCTCTATATGGTGACGATCAGTGAAGCAGTCCGGCACCTTCATATTCACTTGATTCCGAGAGAAGAGGGTGGAGAATTGAAGGGACTGCCTTTAATTGAACAAGCTACTCAGCAAAAAGGAAAAGAGAACCCTGTCGCACTGGATGATTACGAAGCATTCGTAGATCAGATGAGGGCGTATTTGGCTGAGTAA	MTTCPICEKHQKNDPGILFENDAWVISAGPHASHVLGYVYLEPKRHVEDWAELSTEEFSQVGPLVKKVEVFLKEQGKAERLYMVTISEAVRHLHIHLIPREEGGELKGLPLIEQATQQKGKENPVALDDYEAFVDQMRAYLAE				NA	NA	NA	NA	NA
AK012_01958	783	tagG	COG1682	Teichoic acid translocation permease protein TagG	ATGTCACGTTCACTATCTAAGATTATTGAACATAAAGATTTTATTCTAACCTTGTCCAGAAGAGAGATCATATCGAAATACCAACAGTCTCTTTTAGGGAGTCTTTGGGTTCTGATTCAACCGATGGGATTGATGATTGTTCTCACGATTGTCTTTTCTTTGTTTGTTAAGCTTCCTAGTGAAGGGCTGCCCTATGCTCCTTTCTTGTTTGTAGCTTTACTTCCTTGGTTGTTTTTCAATACAGCGGTCAATTCATCCTCGAAGATCATTGTGAGCAACGCAGGTTTAATCAGGCAGCGGAATTTCTTCCGTCCGGCGCTGGTTTTTGTGAAATTGTCATCAGAAACGGTGAACTTTGGGATTACATTAATCGGTTTAGTGATCGTTTTTATCTATTACGGCATTGTTCCTGGAATAAACGCTTTATATTCCATTCCAATCCTGATGGTTCAAATGATGCTTACACTTGGTTTAATGCTGTTCCTGTCAGCAGCCAATGCTTATATAAGAGACTTTGGATTGATCACCCCTATTATTCTTAGAATGGGGCGCTATTTATCTCCTGTGATGTATTCCTACCACACGATTCCAGAAGAGTATCAGCCCATTATGGCTTTAAACCCAATGACGGGGCTCTTTGACGGTTATCGTCAATCTTTACTGCATAACAGCCCGCCGGATTTCACGCTGCTTCTTTATTCGTTTGTCGTAAGTGTCGTGGTCCTGGGTATTGGATGGATCACCTTTATGAGATTAGAGCGGAACTTTGCAGATGTAATTTAA	MSRSLSKIIEHKDFILTLSRREIISKYQQSLLGSLWVLIQPMGLMIVLTIVFSLFVKLPSEGLPYAPFLFVALLPWLFFNTAVNSSSKIIVSNAGLIRQRNFFRPALVFVKLSSETVNFGITLIGLVIVFIYYGIVPGINALYSIPILMVQMMLTLGLMLFLSAANAYIRDFGLITPIILRMGRYLSPVMYSYHTIPEEYQPIMALNPMTGLFDGYRQSLLHNSPPDFTLLLYSFVVSVVVLGIGWITFMRLERNFADVI	PGPT0023304_1774	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
AK012_01959	729	tagH	COG1134	Teichoic acids export ATP-binding protein TagH	ATGAACAACTATGCAATTGAAGTAGATCAGGTAGGGAAGATTTTCAAGCCGCAACCTGCTACTATTTTCAGTTTCAGAAAACGTCTTTTCAGTAAAGAAGCAAATCCAGGTCACCAATCCCTGCAGGATATTTCGTTTAATGTTAGTCCCGGGGAATCGGTAGCTATATTAGGTGATAATGGTTCTGGTAAGAGTACACTGCTGAAGATTATTTTAGGAGTGACTTCTCCTTCTGAAGGAGAAGTCGTCATTAATGGGAAAATCGGTGGATTGATCGAGCTTGGCGCGGGATTCCAAAAAGAACTATCCGGCAGAGAAAACATCTATATGAACGGCGTTGTCCTCGGGATGAAAGAAAAGGAAATCGATGAAGTAATTGACGACATTATCGCCTTTTCTGAATTGGAAAATCATATCGATAAGCCGATTAAACAATATTCTTCAGGGATGAAGGTCCGGCTTGGTTTTTCCATAGCTATTCATGTGAAGAGTGACATTGTTCTTCTGGATGAAGTTCTTGCTGTAGGTGATAAACGCTTCCGTAAAAAAGCCATGCAGGCAATCAAGACCTATCTGGACGGGAAAACGATCATCTTTGTCTCTCATAGTACCCACCAAGTCAGGCAGCTATGTAAAAAGGGTGTTGTACTGGAACACGGGAAGATGGTCTTTAACGGTGATATAGAAGATGCTATTGACTTCTATGAAAATAAAACGAATCAATCATGA	MNNYAIEVDQVGKIFKPQPATIFSFRKRLFSKEANPGHQSLQDISFNVSPGESVAILGDNGSGKSTLLKIILGVTSPSEGEVVINGKIGGLIELGAGFQKELSGRENIYMNGVVLGMKEKEIDEVIDDIIAFSELENHIDKPIKQYSSGMKVRLGFSIAIHVKSDIVLLDEVLAVGDKRFRKKAMQAIKTYLDGKTIIFVSHSTHQVRQLCKKGVVLEHGKMVFNGDIEDAIDFYENKTNQS	PGPT0023305_32	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
AK012_01960	4488			hypothetical protein	ATGAAAAAGTTTCTTAAGAAAGTACTGAAGAAAACCGGATTCATACAGCAGGCACAACCAAAAAAACCTTATGTTGAAATTGGAGACAACTGGGATGATGAGACACTCCCTATTGCTCTTATGTTCGGGTTCAACCCATGGAAACGCGAGCACGTGAGCCATTTCTTCCCGGAGTACCGCACTGCGTATGTGTTCGGGAATGTAACAATGGAAAGGTTGTCTCCCTACATAGAAAATAAAGAGCAAGTTGTTTTTGTTGTATGGGGATACAAAGAACCAAAAAAAATACGGGATTATGCGCAGCAGAATGGTATAAAGTTGATTCGTACAGAGGATGGTTTTGTAAGGTCCTTAGGGCTTGGGGCTGGCCACAGCCTTCCGATGTCGATTGTAGCTGATGACCAAGGGCTGTATTTTAATTCTCAAAAGCCCTCTCAGCTGGAATCCATTTTGCAGAACCATAATTTCAAAAAGGATAAAGGGACAGTGAAGCGGGCAGCTAAGATTAAGGATCATCTATTAAACACAAAGATTAGTAAGTATAATCACGTGGATCCAGTAAACGCTGCAGCTATTTATGGTGAGAAAACGAGAAAACGTATATTAGTTATTGGCCAGGTGGAAGAGGATGCTTCCATTAAGTATGGAGCAGACCGCAAAATCACAAACAATGACCTTGTCCGTGAAGCTTCGAAAGAAAATCCAGATGCCGAAATCATTTATAAGCCTCATCCAGATGTCCTGAACGGGCATCGTAATGAAGTAAGCAATCCGGATCAGGTGGCCCACATTGCTAAAATCGTGAAAGAGCCACTAAGTTTAGTGGATGCTTTGGATACAATTGACCACGTTTATACCATCACATCACTGGCTGGATTTGAAGCCTTGATCAGAGGTATTCCAGTGACATGTTTCGGCATGCCGTTTTATGCAGGCTGGGGACTTACGGATGACCGCCAATCCTGTGAGCGCCGTACAAAAAAACGGACAGTTGAAGAACTCTTTGCCGCAGCCTACCTTCTTTATCCACGTTATATCAGTCTGAAAACCAATCAGTTGATCAGCTGTGAAGAAGCGATTGATGAGTTAAAAGAAGCTGTTGATTCGGATCGCAGGGTCAAAGAAGAGGAAACAAAACAGAAATTAATCGCCAAGCAGAATGAAAATAAACTTCCTTTTGTCAGAGTAGGGGACAATTGGGATCATGATCACCTGCCAGTCGCTTACATGTTCGGATTCAACCCTTGGAAGCGTGAGCACATGAGTAAGTTCTTCAGTGAATATCGAACGGCTTATGTATTTGGAAGTGCTGAACTGGATCGTCTCCTTCCCTATTTAGTCGATGACACAGAAAATGTGTTTGTTGTCTGGGGTTTTAAAGAATCCGAAGAATATCGGAAGTATGCTGAGGATAACGATGTGAAGTTGATCCGTGTGGAAGATGGATTTGTAAGATCACTTGGTCTCGGTGCAGGTCACAGTCTTCCTATGTCCATCGTTGCAGACAGCCGGACGCTTTACTTTGATTCGCGTCAGGCTTCCGACTTGGAGGTAACCCTTCAAACCTACAACTTCAAGAAAAACAAAGATTTAGTCAGGCAGGCGGAATCCAACCTGCAGAAGCTTCTCGATACGAAGATTAGTAAGTATAATCACGTGGGTCCAGCTAAAGCAGAAAGGATTTACGGTGAAAAGACGAAGAAGCGGATTCTTGTTATCGGACAGGTGGAAGAGGATGCTTCGATTAAATATGGATGTGACCGCGAAATAACAAATAATGATTTAGTTAGAGCCGCCTACAAGGAAAACCCCGATGCCGAAATCATTTATAAACCCCATCCTGATGTTTTGAATGGCCACCGTGAAGAGGTAAGCAGTCCACGTGATGTAGAAGATATCGCTATGGTTGTCCGTGAACCATTAAGCTTGATCGATTCGTTGGAGACGATTGACCATGTCTACACCATTACCTCGCTGGCTGGTTTCGAAGCCTTGATCAGAGGAATTTCCGTTACATGTTTCGGTATGCCGTTTTATGCAGGCTGGGGACTGACCGACGACCGTCAATCCTGTAATCGTCGTACGAGAAAACTGAAGATCGAAGAGTTGTTCGCGGGCGCTTACCTTCTTTATCCACGTTACATCAGTTTAGAAACTCACGAACTCATCAATTGTGAGGAAGCGATCGATGAATTGAAAGAGGCCGTGGAAAAAGATCGGAAGGAAAAAGAAGAAGCCTACAAGCAGGAATTAATGGCCAAGCGTAATGATAAAAAGCTTCCGTTTGTTAAAGTAGGGGACAATTGGGAGGATGAATCTCTTCCAATTGCCTATATGTTTGGTTTTAATCCATGGAAAAGAGAGCATATGAGTGTCTTCTTCAACGAATATCGTACGGCTTACGTATTTGGCAGTGCGGATCTGGAAAGACTGCTTCCTTATCTTGTAGCAGATGATGAAAAAGTATTTGTTGTCTGGGGATTCAAGGAAGACGATGAAATCAGAGAGTACGCAGAGGACAATGATATTAAGATGTTCCGTACAGAAGATGGGTTTGTTCGTTCTCTCGGTTTAGGTGCAGGGCACAGTCTGCCATTATCCATCGTAGCCGATTCTCAGACCTTGTACTTTGATTCCCGCGGACCATCTGATCTTGAAACACTGCTGCAGAATTATGATTTCAACCATAATCAAGATGTGCTGCAAAAAGGACAGAGAAACCTTGAAAAGCTTATCAATACAGGGATCAGTAAATATAACCACGTCGGTCCGGCAGACGTTGAAAAAATTTACGGGCCGAAAACAAGGAAAAGAATTCTCGTTATCGGGCAGGTGGAGGAAGATGCCTCCATCAAATACGGTTGTAACCGTGAAATCACCAATAATGACTTAGTGTGGGCGGCTTACAACGAGAATCCGGATGCCGAAATCATTTATAAACCTCACCCGGATGTTTTAACCGGACACCGAAATGCCGTCACCGATCCAATGGCTGTAGCTCACATATCGACGGTTGTCACTGAGCCATTGTCATTGATTGATTCGTTCAAGACGATTGACCATGTCTACACCATTACCTCTCTCTCCGGATTCGAAGCGTTGATCCGAGGCATCAGTGTCACCTGCTTCGGTATGCCGTTCTATGCAGGCTGGGGACTGACCGATGACCGCCAAGTTTGTGAGAGGAGAACCAGGAAACTGACGATTGAGGAACTCTTTACTGGTGCCTACCTTCTTTATCCGAAGTATGTAAGCTTGGAAACGGGTAAACCAATCGACTGTGAACAAGCCATTGATGAATTGCTTTCTACGAAAATCAATCATTTGATGGATGAGATGAAAGCTTCTAAAGAATACAGCTCGATCGACCAAGTGAAGAACTTTATACACCGTGCGATCGACTACGAAGTGAATCCGGCGGAGAACTATGTGTTCTTAGCAGAAATAGCGGACATCCAGGAAGAAAAGGATTTGAGCATCCGTTATTATGAGAAGGCCTTGGTATTAAATGAGAGAAATCCGTTGAAGGCCGGTGAAATTTCCTACAGTCTGGCACTGATTTACCTGAACGATGGAGATTTCCCACCACGGCTTAAAGAGCTGTTGTACTATGCAGATCGTACGACGGGCACTCATCAACCATTGATGAGCTTAATCACACACGTGTGGAAACAGGAAGGGATTACAAAAGAACTGCTGTTTCTTCTTGAGAAAATCAAGGTTAAGTTTGAGGATTTAACGTCTGAAGAAATCGTGCTCCTTGCAGCGGTTTACAATGATGCCGGCTATTATAACGTGGCATTGAATTATTTAGAAAAAGCGATGGAAATCAATCCTGCAGTGATCAAGGAAGAGAGATACTTTGCTCTAACAGCTACGGCTCACGGCAGAAGACCGGAACTGGTCGAAGGTTCAGAAGTTGAATTCTTTTATCATGAGCGGGTGCTTGAGCATGAAAAGTCGTTCGAGCAGCTGGTCCGGAGTGCCGGAGGAGACATCTGCCTGGTCGGAGATGGTGAGACAGCATCCGACTTCCATCAAGGCGAGTATGTGGACGCGCACGCCGTAGTCGTTAGATTTAATAATTACTCCACCGATTATCCGTACAGTCAAACAAAAGGAACAAAGACCAGTGTATGGGCGAAAAGTCCATTCTTTGATTACGTTGGAAGAAAGAATGTGACGGATTTGGATGCGGTCCTTATCGGAGGAGCGAACCCGCTTCACAGCTATAAACATGGGATGGATTCCATTGTGGACTTCATTGATCAAAGAACAGCTGTTCAAAGTGTTCCTCACTATATTTATAAGGAACTTGTGGAGATACTTGAAGCTGAACCAAGCCTCGAACTCTCGATTCTTTACTGGATTTACAAGATTCAGGGGCCTGTGAAGCAGTCTTCCCTGCTTGGATTCGAATGGAAGAGAGAAGAAGAAGCTCTTCTGAACACTCTTACAGACAGGGAGCCTCAAGTTACCAGGGTATGA	MKKFLKKVLKKTGFIQQAQPKKPYVEIGDNWDDETLPIALMFGFNPWKREHVSHFFPEYRTAYVFGNVTMERLSPYIENKEQVVFVVWGYKEPKKIRDYAQQNGIKLIRTEDGFVRSLGLGAGHSLPMSIVADDQGLYFNSQKPSQLESILQNHNFKKDKGTVKRAAKIKDHLLNTKISKYNHVDPVNAAAIYGEKTRKRILVIGQVEEDASIKYGADRKITNNDLVREASKENPDAEIIYKPHPDVLNGHRNEVSNPDQVAHIAKIVKEPLSLVDALDTIDHVYTITSLAGFEALIRGIPVTCFGMPFYAGWGLTDDRQSCERRTKKRTVEELFAAAYLLYPRYISLKTNQLISCEEAIDELKEAVDSDRRVKEEETKQKLIAKQNENKLPFVRVGDNWDHDHLPVAYMFGFNPWKREHMSKFFSEYRTAYVFGSAELDRLLPYLVDDTENVFVVWGFKESEEYRKYAEDNDVKLIRVEDGFVRSLGLGAGHSLPMSIVADSRTLYFDSRQASDLEVTLQTYNFKKNKDLVRQAESNLQKLLDTKISKYNHVGPAKAERIYGEKTKKRILVIGQVEEDASIKYGCDREITNNDLVRAAYKENPDAEIIYKPHPDVLNGHREEVSSPRDVEDIAMVVREPLSLIDSLETIDHVYTITSLAGFEALIRGISVTCFGMPFYAGWGLTDDRQSCNRRTRKLKIEELFAGAYLLYPRYISLETHELINCEEAIDELKEAVEKDRKEKEEAYKQELMAKRNDKKLPFVKVGDNWEDESLPIAYMFGFNPWKREHMSVFFNEYRTAYVFGSADLERLLPYLVADDEKVFVVWGFKEDDEIREYAEDNDIKMFRTEDGFVRSLGLGAGHSLPLSIVADSQTLYFDSRGPSDLETLLQNYDFNHNQDVLQKGQRNLEKLINTGISKYNHVGPADVEKIYGPKTRKRILVIGQVEEDASIKYGCNREITNNDLVWAAYNENPDAEIIYKPHPDVLTGHRNAVTDPMAVAHISTVVTEPLSLIDSFKTIDHVYTITSLSGFEALIRGISVTCFGMPFYAGWGLTDDRQVCERRTRKLTIEELFTGAYLLYPKYVSLETGKPIDCEQAIDELLSTKINHLMDEMKASKEYSSIDQVKNFIHRAIDYEVNPAENYVFLAEIADIQEEKDLSIRYYEKALVLNERNPLKAGEISYSLALIYLNDGDFPPRLKELLYYADRTTGTHQPLMSLITHVWKQEGITKELLFLLEKIKVKFEDLTSEEIVLLAAVYNDAGYYNVALNYLEKAMEINPAVIKEERYFALTATAHGRRPELVEGSEVEFFYHERVLEHEKSFEQLVRSAGGDICLVGDGETASDFHQGEYVDAHAVVVRFNNYSTDYPYSQTKGTKTSVWAKSPFFDYVGRKNVTDLDAVLIGGANPLHSYKHGMDSIVDFIDQRTAVQSVPHYIYKELVEILEAEPSLELSILYWIYKIQGPVKQSSLLGFEWKREEEALLNTLTDREPQVTRV				NA	NA	NA	NA	NA
AK012_01961	1092			hypothetical protein	ATGGACAAGATAAAAAAGATGGTAAAGAAAACAATTAAAACAGTGCTTGCTTATATGACCATCACCTACTGGAAACTGGCTCCAGCAGGTGATCAAGGTCAAAAAACAGCTTTTCTTTTTCATGTATCCAAGTGGAAGAGACCTTTCCTCGTCCGCTTTTTAACGGAATACAAGGTGAAATTCGTACCCTTTGACTACAACTTAAAATACCTCCGACACGAAATCGAGAGGTATGACGATGTGGATTTTATTGTCTGGGGCTACAATGCCGGCAGAGAATTAAAACAGTATGCAGCCGATAAGGATATCCCGCTGTATAGGATAGAGGATGGGTTTGTCCGCTCCAAAGGCCTTGGAGCGCTGCATACCCCGCCCTATTCGGTTTGTCTTGACCGAAAAGGAATGTACTTTGATTCTTCAAGACCGAGTGATTTGGAGGATATTCTGAATCAATTTCCTTTTAAAGAACATCCTGCTTTATTAGAAGAAGCGGAAAAGAACATCAGAAAACTGAAAGAGCTGGGTGTCAGTAAGTACAACCACGTCGATAAAAGAAGTGTTCATGACATTTATGGTCCGAAGACAACGAAGCGGATCCTGGTTATCGGACAGGTGGAAGATGATGCTTCTATTAAAATGGGAAGCTCTGAAAAATGGACGAACAACGACTTAGTGCGAATGGCCAGAAGTGAACATAAAGAAGCGCAGGTCATTTATAAGCCACATCCGGATGTTCTAACCGGCCGCAGGGAAAAGCAGTCCAACCCGGAGGATATCCGTCATCTGGCTATGATTCTAGAATCTCCGTTAAGTTTGGTGGATGCTCTGGAAACCATCGACCATGTATATACCATCACATCTTTGTCAGGTTTTGAAGCGCTGCTCAGAGGAATCCCTGTGACGACAGCTGGTGCCCCGTTTTACTCAGGGTGGGGGTTAACTGATGACCGGCAGGCGGTGGATAGAAGAAAAAGAAATCTCAGCGTCACCGAATTGTTTGCCGGTGCTTACCTACTGTATCCAAGGTATAAGGATCCACATACAGGTGAGGAATTGACACTGAGTGAAACTATTAACCGCATTATAAAATAG	MDKIKKMVKKTIKTVLAYMTITYWKLAPAGDQGQKTAFLFHVSKWKRPFLVRFLTEYKVKFVPFDYNLKYLRHEIERYDDVDFIVWGYNAGRELKQYAADKDIPLYRIEDGFVRSKGLGALHTPPYSVCLDRKGMYFDSSRPSDLEDILNQFPFKEHPALLEEAEKNIRKLKELGVSKYNHVDKRSVHDIYGPKTTKRILVIGQVEDDASIKMGSSEKWTNNDLVRMARSEHKEAQVIYKPHPDVLTGRREKQSNPEDIRHLAMILESPLSLVDALETIDHVYTITSLSGFEALLRGIPVTTAGAPFYSGWGLTDDRQAVDRRKRNLSVTELFAGAYLLYPRYKDPHTGEELTLSETINRIIK				NA	NA	NA	NA	NA
AK012_01962	771	dapH_2		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGACTAAGGTTACTAAAGAAGTTTTACTGGAAGAAGGTATCATGGTGGATGATACCAATTGTTTTGCGGAAAAATCAAAAGCCATTTTTGAACCTCCTGTTCGTGTGCTGGATACGAATTTAATCAACTCGGGAATTATTGGCGCTTACACGAACCTAAGAGGCGGTACCATTCGAAACCTGAAATCAATCGGCAGGTTTTGTAATGTAGCACCAGGCGTAACGATTGGTATGGGAGAGCATCCACTTCATTACTTAAGCACCCATGATTTTCAATACGCAGATAAATTTGGTTACAACTTCTGGGATGAAGCGGCGGATTTCGATACAACCGTCGACCGCATAGAAAGCAAACCCAGCCCGGTTATTGGCAATGATGTCTGGATCGGCTCCAATGTGACGATTCTTAAGGGTGTCACCATCGGTGATGGGGCCGTGATAGCTGCAAGCGCCGTTGTGAACAAAGATGTCGAGCCTTACAGCATTGTTGGTGGAATTCCAGCTAAGCATATTAAATACCGCTTTGATGAAAGCATGAGAGAGCGGCTGCTCCAGTTACAGTGGTGGAATTACACGATGGAATCATTGGAAGGTATTCAATTCGATGATATCGAAACAGCCGTTCAACAATTAGAACAAAGAAAAGAAGAAGGCAGGCTCACTTTAAGAAATAACCCCCGGGTAAAAGTCATCAATAAGCAGCTTGTTAACAAGAAACCCTCACAGGAAACAAAAGAAGAAGATGACCTTGTGAATACAGGGAATTCGTGA	MTKVTKEVLLEEGIMVDDTNCFAEKSKAIFEPPVRVLDTNLINSGIIGAYTNLRGGTIRNLKSIGRFCNVAPGVTIGMGEHPLHYLSTHDFQYADKFGYNFWDEAADFDTTVDRIESKPSPVIGNDVWIGSNVTILKGVTIGDGAVIAASAVVNKDVEPYSIVGGIPAKHIKYRFDESMRERLLQLQWWNYTMESLEGIQFDDIETAVQQLEQRKEEGRLTLRNNPRVKVINKQLVNKKPSQETKEEDDLVNTGNS	PGPT0028000_807	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0028000-vat-K18234	NA	NA
AK012_01963	1077			hypothetical protein	ATGAAAAACAAAAAAACACTGCTGATTATGACGGTACTTATTGCTGCTGTCATCTTAGCTGTAGGTCTTTATAGTTCTACAATGGCCAACAATAACAAGAGCATGGCAGAAAAGATTAAGGATGAGGAGCCTATTCAATATCTAGTTGTTGGAGATAGTATCGGGAAAAGTACTGGAGCTTCCTCTGAAGAACAGACGTGGACGGCCCAGCTGAACAGTAAAATCACTGATGAGTACGGAATTGATGTAAAAAACATCGGCCTTACTAAGGGCGGATCCAATTCTTTTGATGGTCTGATGGAATTCAATCAATATGAAACGAGTAAAGTGTATGACAGCATCTTTGTTTCTTTCGGTGTCAACGATCAAATTTCTCTGACGGAGGAAGAATTTCAAGAAACTTACTCAGACCTCATTGAAAATATTAAGCTTCGTTTTCCAGATGCTGAATTATATTCCATTGTAGAGAATGGGCTGGAACCTGAGTATCAGGAAGTTTTATCTGATATATCCGACCAGTATCAATTGACGAAAGTGGATGTCCAGAAGGCTTTTGAGGAATCCGAACAGGATACAGAAGAGCTGACAGCGGACGGTATCCATCCGAATGACCAAGGCTATGGTCTGTATGCGTCTGCGATCTTTGATTCCATACAAAACAAGGTTGAAGCGGATGAGGAAACTGGAGAAGCAGATACGCAGGACGAGGAATATGAAAAGAATGAAATTTCTCTAACCAACGAACCTGTAAATGATGAAGGGTTCCTTGATAAAGAATCCTACTTTGTTTCGGATGAGGAAGGGAAAACACTGAGTTACAAGGTTTCTGAAGACTCATCGAAGTGGCTCGGAGTTTCGGTGATCACTCATAAAGATGGCGGATCCTTCGATGTGTACGTCGATGGTGAACTAGAAAAAACGATCAGTGCCTACTCCCCATATAAAAAGACCAAATATCTTCTTATCGATTCACAGTTGAGCGAAGGAGATCATGAAATTGAAATCACAATCAATGGAGATAAGAGTAAAAACTCCAGCGGTCATATAGTGAGAATCAAAGGGTTACTATTAAAATAA	MKNKKTLLIMTVLIAAVILAVGLYSSTMANNNKSMAEKIKDEEPIQYLVVGDSIGKSTGASSEEQTWTAQLNSKITDEYGIDVKNIGLTKGGSNSFDGLMEFNQYETSKVYDSIFVSFGVNDQISLTEEEFQETYSDLIENIKLRFPDAELYSIVENGLEPEYQEVLSDISDQYQLTKVDVQKAFEESEQDTEELTADGIHPNDQGYGLYASAIFDSIQNKVEADEETGEADTQDEEYEKNEISLTNEPVNDEGFLDKESYFVSDEEGKTLSYKVSEDSSKWLGVSVITHKDGGSFDVYVDGELEKTISAYSPYKKTKYLLIDSQLSEGDHEIEITINGDKSKNSSGHIVRIKGLLLK				NA	NA	NA	NA	NA
AK012_01964	1992			hypothetical protein	ATGAACAAGAAGTACATCCTGCTTGTGCTGGCAGGTCTTTTGATTATCGGCGGCATGGCCTTCTTTACGATGAATGCTGTGCAGGCCGATACAGCCGAAGAGATCTATAAAAAAGCAAAAGCTGCTTTTGAGAATGAGGAATATGAGGAAAGTGCAGAGCTTTATCACGATGTGCTAGATATGGACCCTTCTCATGAAAAGGCACGGCTTGAACTCGGGGAATCATACATAGCTTTATCTGACTATGAAGCAGCCGTACAAGTCTTGAACGATGGAATCTATGAAAATCCGGAACGCGCTTCCAATTACATCGCTTTGTCTGATGTGTTCCTTATGCAGAAAAAGGTGGGAAAAGCCGTCAGTACCCTTGATAAAGGCCTGAATTACAGTGATCAAGAACCCATCCAGAAAAAGCTGGACCAAATCAATGATAAGATATCGGTCCACCTGGAACGCTCCATGGTCCAGGTGGGATACAAGCGGGATTTGGAGCTCGTTTGGGAAGACAACGAAGGAAACCTTGTATCTCTGGAAGCCGACTGGAAGGTGGAAGACCCTTCGATTGGAGAAATTGTCATAGATGAAGAGAGCGGCAGCAACCAGTTCTTCGCTGACTCCACGGGAACGACCGACGTGACAGCCGTTTGGGAATCCCTCACCTATTCCAAAGAAGTGGAAGTCGCCGAGCAGGTGCTGGATGAAGTAACGGTCGAACCGGAAAACATTGAGCCTCTCGCTGTCGGGCAGACGGTCGACATAAGCGTCCAAGGTAAAGATGAGGCCAGGGAAGAAATGGAAATCGCACCGGAGTGGTCTACGGAGAAAGAGTTGATTGAAATCGACGTCCAGGAGGATTCCGATGAGATATCGATTACAGCTGCTGAAGAAGGAATCGATACCTTAACGTTGGAATACCAAACGTATAAACACGAAATGAAAGTGAAGGTGCAGGGAGACGAAAATTTGATTGAAACGGATGCCGAAGGAAATGGAACGGTTTCCGTGTTCCCGGATATGGATACTTATCCGACAGGAGAGGAAATCACCTTTGATGCTCATCCGGAGGAAGGATGGGAGTTTGTCCGATGGGAAGGGGATATCGATTCGGATGAGACGGACGATTCCGTAAATTGGACAGTGGAAGGATCCATGGCTGTGACCGCTGTCTTCGAACCGGTAAGCTATGACCTGAACTTATCGATTGAAGGAGACGGCAGAATCGTCCGGGACTCGCTCGCCACCACCTACAGCCATCTGGCTGATGTGTCCCTAAGACCAAGAGCCGCGGATGGCTGGGAATTTGCCCGGTGGGAAGGATTGTATGCAGGAACGGAAGCGGATATCCATGTCAGTATGGATGAAGATAAGACTTTAACCGCTGTGTTTGAAAAGAAAGAGGAAGAAGAACCTGAAGAATCCGTTGAAGATGAACCACAGCCTGAACCAGAACCCGAGCCTGCGCCTGAGCCCGCTGTGTATCAATTAAATGTCGGGATCAATGGACAGGGGAATATTCACAAAGACAAATCAGGAAGTCAGTTCAGCAAAGGAACGACGGTGAACCTAAGCGCCGTACCTAAAGAAGGATGGACATTTGCTGGATGGAGCACGGGAAGCTATTCTTCCAACATCAGTATCACGATGAACAGCGACCGGGCAATTTCAGCGAATTTCAAGAAGAAAGCGGAGCCTGAACCCGATCCAGAACCAAAGCCGGAACCGGAGCCCGAACCGGACCCGGAGCCTGAACCAAAGCCCGAGCCTGAACCAGAGCGATTCACACTTTCTACGTCCGTGGAAGGAGAAGGATCCGTTGAGGCTTCCGAAAAGGAGGTACAGGCAGGACAAAACGTCACGGTCACCGCTTCACCTGCAGAAGGCTGGACGTTTGTCCGGTGGCAGGGGGACCTTAGTGGTTCGAAGCGGTCTGCGACGTTCATGATGGATAAGGACAAGACCGTAACCGCTGTATTTGAAAAGAAAGAAGAATAA	MNKKYILLVLAGLLIIGGMAFFTMNAVQADTAEEIYKKAKAAFENEEYEESAELYHDVLDMDPSHEKARLELGESYIALSDYEAAVQVLNDGIYENPERASNYIALSDVFLMQKKVGKAVSTLDKGLNYSDQEPIQKKLDQINDKISVHLERSMVQVGYKRDLELVWEDNEGNLVSLEADWKVEDPSIGEIVIDEESGSNQFFADSTGTTDVTAVWESLTYSKEVEVAEQVLDEVTVEPENIEPLAVGQTVDISVQGKDEAREEMEIAPEWSTEKELIEIDVQEDSDEISITAAEEGIDTLTLEYQTYKHEMKVKVQGDENLIETDAEGNGTVSVFPDMDTYPTGEEITFDAHPEEGWEFVRWEGDIDSDETDDSVNWTVEGSMAVTAVFEPVSYDLNLSIEGDGRIVRDSLATTYSHLADVSLRPRAADGWEFARWEGLYAGTEADIHVSMDEDKTLTAVFEKKEEEEPEESVEDEPQPEPEPEPAPEPAVYQLNVGINGQGNIHKDKSGSQFSKGTTVNLSAVPKEGWTFAGWSTGSYSSNISITMNSDRAISANFKKKAEPEPDPEPKPEPEPEPDPEPEPKPEPEPERFTLSTSVEGEGSVEASEKEVQAGQNVTVTASPAEGWTFVRWQGDLSGSKRSATFMMDKDKTVTAVFEKKEE				NA	NA	NA	NA	NA
AK012_01965	765	ywqC_1	COG3944	putative capsular polysaccharide biosynthesis protein YwqC	ATGGAAGAAACCATTTCCTTGAAAGAAATTTTCGAGGTCATCAAGAAGAGACTGTGGATGATTATCGGTTTAGCCGCCACAGCAGCTGTGATCAGTGCCCTTTATACGATCTTTTTAGTCACTCCGACCTATGAGGCTTCATCTCAATTCATCGTGAACCAGACCCAGAGTGAACAACAAAATGCCGCTTATGACATTAACGACATACGTACGAACGTGGAACTCATCAATACATACAATGTCATTATTGAAAGTCCGAGAATCCTGGACCAGGTCGCTTCTGAGTTGAACTTAGATATTTCAGCAGGCGCCCTTGCCAACAAGCTTCAGGTGTCTAACGCCAATGAGTCACAGGTGGTGAATGTCACAGCCACAGATAATAATGCGTTAATGGCAGCCGATATCGCCAATACAACGGTGGAAGTATTTAAAGAAGAAGTCCCTCAGTTGATGAACGGGGTCGACAATATCAACGTACTGACAGAAGCAAACGTTGGTTCAAATCCGGCGCCGGTCAGCCCGAATACGACCTTGAACATTGCCATCGCCCTTGTTGTCGGGTTGATGCTCGGTGTCGGCCTGGCGTTCCTACTGGAATACTTGGATACTTCGATTAAGTCTGAAACCGATATCGATGAGACGTTAGGACTTCCGGTTCTTGGAGTGGTTTCTACCATCTCATCAGAGAACACAACCAACCCCGGCCGTTCAAAAAAAAAGAAGCATGAAGCCGGTACAGTGAGAGGTGAGTCCGTTGGCACGTAA	MEETISLKEIFEVIKKRLWMIIGLAATAAVISALYTIFLVTPTYEASSQFIVNQTQSEQQNAAYDINDIRTNVELINTYNVIIESPRILDQVASELNLDISAGALANKLQVSNANESQVVNVTATDNNALMAADIANTTVEVFKEEVPQLMNGVDNINVLTEANVGSNPAPVSPNTTLNIAIALVVGLMLGVGLAFLLEYLDTSIKSETDIDETLGLPVLGVVSTISSENTTNPGRSKKKKHEAGTVRGESVGT				NA	NA	NA	NA	NA
AK012_01966	693	ywqD	COG0489	Tyrosine-protein kinase YwqD	TTGGCACGTAAAAAGCAGAATGTTAACACAAGAGCAAGAAACCTGGTAACCAAGGAGAATCCTAAATCGCCGATTGCTGAACAGTTCCGTACCATCCGAACGAACCTGCAGTTTGCTTCGGTCGATACAGATCTTCAAACAATGGTCGTAACGTCCCCCAATCCGTCGGAAGGTAAATCTGTAACCACAGCCAATACCGCAGTTGTTTTCGCCCAGCAGGGGAAGAAAACGCTGCTTGTAGATGCGGATTTGCGGAAACCGACGATTCATTATACTTTCCGTGTGCCCAATACAGCCGGATTGAGCAACTACTTGATCGGGGCCCAGCGGATCGAGGATATAGTGAATCCTACAGATTTAAATAAGCTGGATGTCATGACGTGCGGACCGATTCCTCCAAACCCTTCTGAACTGCTTGGATCGAAGAAGATGCAGGAGTTCATTGAAGAAGCAAAGCAGACGTATGACATAATCATTTTTGATACACCGCCGGTTCATGCCGTCACAGACTCGCAGGTCCTTTCCAATTTCGTGGACGGTGTGCTGCTGGTTGTCCGCAGCAAACAGACAGATAAAGAGTCAGCCCTGAAGGCGAAAGAACAGCTGGAGCAGTCTCAGGTCAACCTTCTTGGTGTAGTTCTAAATGACCGGGACGTTAAATCCAGTAACTATTATTATTATTACGGGCAGTAA	MARKKQNVNTRARNLVTKENPKSPIAEQFRTIRTNLQFASVDTDLQTMVVTSPNPSEGKSVTTANTAVVFAQQGKKTLLVDADLRKPTIHYTFRVPNTAGLSNYLIGAQRIEDIVNPTDLNKLDVMTCGPIPPNPSELLGSKKMQEFIEEAKQTYDIIIFDTPPVHAVTDSQVLSNFVDGVLLVVRSKQTDKESALKAKEQLEQSQVNLLGVVLNDRDVKSSNYYYYYGQ	PGPT0026560_2255	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT	CE-EPS-EXOPOLYSACCHARIDE_TRANSPORT-1,PGPT0026560-exoP|vpsO-K16554	NA	NA
AK012_01967	774	ywqE_1	COG4464	Tyrosine-protein phosphatase YwqE	TTGATCGATTTACATAGTCACATCTTACCTGGTGTAGATGATGGAGCACAGACAGTTGAAGAAAGTATCCAGATGGCGAGGGCGGCCGTTGCCGACGGGATCAAAACGATTGTAGCTACGCCGCATCATAAGAACGGCGCCTACGATAACTATAAACACAATATTTCGATTCAGACCGCTGAATTGAACCGTACCTTCCAGGAACACGGTATAGACCTGGAAGTCCTGCCGGGGCAGGAGACACGGATTTACGGGGAGTTTCTGGAAGGGTTGGAAGCTGATGAAATCCTTCCCATTAATCTTAAGAGCAGGTATGTCTTTGTGGAATTTCCTTCCGGTTCCGTACCACGTTATGCATCGAAGTTGTTCTTTGACCTGCAGGTCGCCGGTTATCAGCCGGTCATCGTCCATCCGGAACGAAATAAAGCCATTATGGAAAATCCGGACCTGCTTTATTCTTTTGTGAAAAAAGGTGCCTATGCGCAGCTGACAGCAGGCAGCCTGTGCGGTCACTTCGGGAAGAAGATTAAGAAATTCTCCGATCAGCTGGTTGATGCAAATCTGATTCATTTGATCGCATCAGATGCGCACAACACAAAAACAAGACGTTTTTGTTTGTCAGAAGCTTATCATGAAGTCCGTAAGAAATACGGAGAAGAGATGGTTTATATTCTCTCGGAGAATGCGCAAGATGTTCTCACTGGCAGGGTATTGCAGGCCGATCCGCCGGAGCATGTGAAAAAATCCAAAATCTTAGGGCTTTTCAGCCGTTAA	MIDLHSHILPGVDDGAQTVEESIQMARAAVADGIKTIVATPHHKNGAYDNYKHNISIQTAELNRTFQEHGIDLEVLPGQETRIYGEFLEGLEADEILPINLKSRYVFVEFPSGSVPRYASKLFFDLQVAGYQPVIVHPERNKAIMENPDLLYSFVKKGAYAQLTAGSLCGHFGKKIKKFSDQLVDANLIHLIASDAHNTKTRRFCLSEAYHEVRKKYGEEMVYILSENAQDVLTGRVLQADPPEHVKKSKILGLFSR	PGPT0014530_1882	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
AK012_01968	1866	pglF	COG1086	UDP-N-acetyl-alpha-D-glucosamine C6 dehydratase	ATGACAGCAGCCTATCGAAAGAGGCTTTTATTACTCATGGGGATTGATTCGTTTATCGTCTCCTTTTCCATTTATATGTCGCACTTCTTCTTAAACCCCTATGTCGCTGTTTTTGATGAAATCATTCTCGTCTTATCAATTGCCTTATTACTTACGCATCATTTATTCTCAAGCCTTCTGGGCATGTATAAGAAAAAGTGGCGCTATGCCAGTACAGAGGAACTTATTGGCATTATCGCTGTGGTGAGCTTGTCGATATTATCCAGTGCCCTTATTCAAGTCGCTGCTTTTGGAGAAATGTATGAACGGGCTTTAGTTATCACCTGGATGTTACATATTTTACTACTCGGTGGGGTGCGTTTCGTCTGGCAGTACTATAAAACGTATGGCCTGACCATCGATCCTAAATTGAAAAAAGCCAAAATTGTGAAGCGTGACCCAAACCGGCAGCGGACGCTTATCGTAGGTGCCGGCTCTGCGGGGAGAATGCTTGCCCGTCAGATGAAAAACTCCATTGAAGTGGATGCAGACCTTGTCGGATTTGTAGATGACGATGTGACGTTGCACCACCTTGTTGTGGCGAACCTTCCTGTCCTTGGAAGCACAAACAACATTAAAGAAATAGCTGAAAAACATCATGTAAACCACATTGTGATGGCGATGCCGTCTGTTGAGCATGAACGTGTGAAAGATATCATTCGAAATGCCAAACAGGTTGTGAAAAATGTACAGACGCTTCCTATGATTGAGGATATCGCCTTAGGAAATATCTCTGTGAATCAAATTCGTGATGTGCAGATTGAAGATTTACTTGGAAGAGAGCCTGTTGAGCTTGACATTGACACGATTGAATCCGAAGTCAAAGGGAGAACAGTTATGGTGACAGGTGCCGGCGGGAGTATAGGTTCAGAGATCTGCCGCCAGCTCGTAAAGTTCCAACCTGCGAGACTTATTTTACTTGGTCACGGGGAGAACAGTATCTATACGATACATATGGAACTTAAACAGCTGGGTTTAGATACGGAACTTGTCACCGTAATTGCTGATGTACAGGATCGCGAGCGTATCTTCCAAATTGTTGAGGACTATCATCCCTCGTACATTTATCATGCGGCTGCTCATAAGCATGTGCCTTTAATGGAAGCCAACCCGAAAGAAGCGGTGAAGAATAATGTCATCGGTACGAAAAATGTTGCGGAAGCGGCTCACCATGCAGGTGTTAAAGCATTCGTGCTGGTTTCCACCGATAAAGCAGTGAACCCTCCAAACGTTATGGGAGCAACGAAACGGATTGCTGAGATGGTTGTACAGAACCTGGGACGACAAAGCCAGACGAAATTCGTGGCTGTTCGTTTCGGAAACGTGCTTGGAAGTCGCGGGAGTGTGATTCCACTATTTAAGAAACAGATTGCTGCAGGCGGCCCGGTGACGGTTACCCACCCTGACATGACCCGTTACTTTATGACGATACCAGAAGCATCAAGACTGGTTTTACAGGCTGGCGCTCTTGCACGTGGTGGAGAAGTGTTTGTGCTTGATATGGGTGAACCGGTGAAGATTGTCGATCTTGCGAAAAACTTGATTCATCTTTCTGGTTTTAACGAAGAGCAGATTCCGATTCAATTTAGTGGGATTCGTCCTGGTGAAAAGATGTATGAGGAGCTTCTGAGTGATAAAGAAGTGAATAAAAAGCCTGTTTTTCCTAAGATTTTTATTGGGAAGACTGTGGATTTTGATTATCAGCTTGTTGATTATTTAGTCGAGCATCATGCTGAAAGCAGTGTCGAAGATTTAAGGAAATATGCGATTGACTTAGCTAATAATAAACTTCCAGCCAATAAGAAAGTTCTTGAACAAGTGTTATAG	MTAAYRKRLLLLMGIDSFIVSFSIYMSHFFLNPYVAVFDEIILVLSIALLLTHHLFSSLLGMYKKKWRYASTEELIGIIAVVSLSILSSALIQVAAFGEMYERALVITWMLHILLLGGVRFVWQYYKTYGLTIDPKLKKAKIVKRDPNRQRTLIVGAGSAGRMLARQMKNSIEVDADLVGFVDDDVTLHHLVVANLPVLGSTNNIKEIAEKHHVNHIVMAMPSVEHERVKDIIRNAKQVVKNVQTLPMIEDIALGNISVNQIRDVQIEDLLGREPVELDIDTIESEVKGRTVMVTGAGGSIGSEICRQLVKFQPARLILLGHGENSIYTIHMELKQLGLDTELVTVIADVQDRERIFQIVEDYHPSYIYHAAAHKHVPLMEANPKEAVKNNVIGTKNVAEAAHHAGVKAFVLVSTDKAVNPPNVMGATKRIAEMVVQNLGRQSQTKFVAVRFGNVLGSRGSVIPLFKKQIAAGGPVTVTHPDMTRYFMTIPEASRLVLQAGALARGGEVFVLDMGEPVKIVDLAKNLIHLSGFNEEQIPIQFSGIRPGEKMYEELLSDKEVNKKPVFPKIFIGKTVDFDYQLVDYLVEHHAESSVEDLRKYAIDLANNKLPANKKVLEQVL	PGPT0022960_37	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_QuiNAc_MODIFICATION,PGPT0022960-wbpM-K24300	NA	NA
AK012_01969	888	gtaB_1	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGAAAAAGGTAAAAAAAGCAATTATTCCAGCTGCAGGATTAGGGACTCGTTTCCTTCCGGCCACAAAGGCGATGCCAAAAGAAATGCTGCCGATCGTTGATAAGCCTACGATTCAATATATTGTTGAAGAAGCGATTGAGTCTGGCATTGAGGATATTATTATTGTAACAGGTAAAGGGAAACGGGCGATTGAGGATCACTTTGATAAGAACTTTGAGCTTGAAGACAACTTGATACAGAAGGAAAAGTATGATCTCCTTGAAAAAGTTAATGCGACTTCAAATGTCGAAATTCATTTTATACGTCAGAAAGAGCCTAAAGGGCTTGGACATGCCGTATGGTGTGCACGCAAATTCATTGGCGATGAACCATTCGCTGTTCTTCTTGGAGATGATATTGTTCGTTCGGAAAAGCCTTGTCTCCGTCAGTTAATGGATCAGCAGGAAGAAACGTTATCTTCAGTTATTGGAGTTCAAACGGTTGCAGAAGAAGAAACGCACCGTTATGGAATTATTGATCCATTAAATCAAGATGGTCGTCGCTATCAGGTGAAAACATTTGTAGAAAAACCTAATCAGGGAACTGCTCCTTCGAACCTTGCGATTATGGGAAGATACATATTAAACCCTGAAGTCTTCATGTTTTTGGACAAGCAGGAAAAGGGTGCTGGTGGTGAGGTTCAGTTAACGGATGCGATTCAGAAATTAAATGAGATTCAACGTGTGTTTGCTTATGATTTTGAGGGTAAGCGGTATGATGTCGGGGAGAAGCTGGGGTTTGTAAAGACGACGTTGGAGCTTGCACTTGAGCGCGAAGAATTGAAAGATGACGTTCTAGGTTATATGGAAGAGACTTTGAAGAGAGCAGAAGCTCTATCAAATTTATAA	MKKVKKAIIPAAGLGTRFLPATKAMPKEMLPIVDKPTIQYIVEEAIESGIEDIIIVTGKGKRAIEDHFDKNFELEDNLIQKEKYDLLEKVNATSNVEIHFIRQKEPKGLGHAVWCARKFIGDEPFAVLLGDDIVRSEKPCLRQLMDQQEETLSSVIGVQTVAEEETHRYGIIDPLNQDGRRYQVKTFVEKPNQGTAPSNLAIMGRYILNPEVFMFLDKQEKGAGGEVQLTDAIQKLNEIQRVFAYDFEGKRYDVGEKLGFVKTTLELALEREELKDDVLGYMEETLKRAEALSNL	PGPT0014875_3272	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
AK012_01970	1125	epsN	COG0399	Putative pyridoxal phosphate-dependent aminotransferase EpsN	ATGGGAGATCGGATTTTTCTTTCATCCCCTCATATGAGTGATGAAGGCTATGAACAACAATACATCCAAGAAGCGTTTGATACTAACTGGATTGCCCCTTTGGGTACTAATGTGGATGAATTCGAAAATGAATTGGCATCTAAAATTGGATCTAAATCAGCCGCAGCCCTATCTTCAGGGACTGCCGCTATACATTTGGCTTTAAAAGCTGCTGGTGTAGGGGAAGGGGATGTTGTATTTTGTCCAACGTTAACTTTCTCTGCAACAGCGAACCCGATAATATATCAAAATGCCACACCGGTGTTTATAGACAGTAACTACGAAACTTGGAATATGTGTCCACTTGCTCTCGAAGAAGCTTTTCAAAAATACCCGCAAGTGAAAGCTGTTATAGTCGTTCACTTATACGGGCTTTCAGCAGATATGGACTCTATAATGGGCATTTGTAAGAAATATAAAGTTACTGTCATTGAGGACGCAGCAGAGTCATTGGGTGGCTATTATAAAGGTCAGCAAACAGGAACATTTGGAGACTATGGGATTTTCTCTTTTAATGGGAACAAAATCATTACGACATCTGGTGGTGGGATGCTTGTGTCCAATAATGAAGAGAAGATTAAAAAAGCTCGATTTTGGGCTACTCAATCTCGTGATCAAGCAAGGCATTATCAGCATACTGAATTAGGGTTTAATTACAGGATGAGTAATGTGGTTGCAGGAATTGGACGAGGACAATTGAGAATACTGGAACAAAGGGTGGAAAAGAAGAAATATATATTCGAATACTACAAAAATGAACTTAACCATCTCGATGGAGTTGAGTTCATGCCAGTAAATGATTGGGATGAACCAAACTATTGGCTAAGTTCAATGAGTTTAAATAGTAATGTTAGACCAATAGATGTGATGGAAGCTTTAGATAAGGAAAATATTGAATCTAGACCTATTTGGAAACCGATGCATATGCAACCGTATTTTGAGGAATATGACTTTATTGGAACGGGTGTATCGGAGAAGTTATTTCGTAATGGTATTTGTTTACCATCGGATACAAAAGTGACAAATAATGAATTATCAAAAGTAGTTAAGACAATTAAGAATGTCTTTATTAACAATCAGTCGTAG	MGDRIFLSSPHMSDEGYEQQYIQEAFDTNWIAPLGTNVDEFENELASKIGSKSAAALSSGTAAIHLALKAAGVGEGDVVFCPTLTFSATANPIIYQNATPVFIDSNYETWNMCPLALEEAFQKYPQVKAVIVVHLYGLSADMDSIMGICKKYKVTVIEDAAESLGGYYKGQQTGTFGDYGIFSFNGNKIITTSGGGMLVSNNEEKIKKARFWATQSRDQARHYQHTELGFNYRMSNVVAGIGRGQLRILEQRVEKKKYIFEYYKNELNHLDGVEFMPVNDWDEPNYWLSSMSLNSNVRPIDVMEALDKENIESRPIWKPMHMQPYFEEYDFIGTGVSEKLFRNGICLPSDTKVTNNELSKVVKTIKNVFINNQS	PGPT0026645_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	EPS_POLYSACCHARIDE_METABOLISM	CE-EPS-EPS_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026645-epsN-K19430	NA	NA
AK012_01971	1251			hypothetical protein	ATGGAGAAGTTGGAAAAGAGAATGTTCTCTCTCAAAAAAAATTTTTCATGGACTTTGTTGGGAAATGGAATATATGCATTCTCACAATGGTACATAATTTTCCTATTAGCCAAACTTGGTTCCCCAGAGATGGTAGGAATTTATTCTTTGGGACTAGCAATTGCTGCACCTGTTTTTATGTTAACAGGTTTACAACTAAGAATGATTCTAGCTACTGATTCAAAAAAACCTAGAGATTTTGGAATTTATTTTGGAACTAGAATAATATTCACTACTTTAGCATTAGTGATTTTATTTGTAATTATTTATATTCAAACTTCTAATGAAATTGAGTTATCGGTTCTATTAGTAATAATATTTTGGAGAGCGACAGATACTTTAAGTGATATTGTATATGGCCTTTCACAAAGACATGAAAGAATGGATTTAATTGCGAAGTCAAGAATCATTAAATCCATAACTATCATGTTGTTTTTCACTCTTTCAATTACTATTTATAACAGTTTATTATTGGGTAGTCTAACTATTTTAACAGTTTCAATACTTTCGTTTATTTTTATAGATATAAAGGTTGCGCGTAAATATGGATCTATCCGTCCAATTTTTAATATTACAGAACATATTAAACTTTTCAAAGTGGCTTTGCCTCTAGGAATAGTGTTAATGTTTGCTTCTCTAAATACCAATTTACCAAAATATTTTATAGAATTTGAGTTTGGTGTAGAAGAACTTGGTTATTTCACAGCTATAGCTTACTTTCTTTCAGCTGCTCAAACCGTTATAACGGCGTTGACTCAATCGGCCGCTCCTCGATTATCTAAGTTATATAGTAAAGGTAATATAGGTGGTTTTAGAAGTTTACTATTAAAGTTAATTTATTTAGGGTTAGTACTCAGTTCATTATTTATATTAGTATCTATATTTTCAGGGGAGTTTTTATTAAGTTTGTTATATCACCCTACCTATTCAGTTTATAATACCTTGTTTATAATATTAGCATTTTCTTCATTGTTTGTATTTATAGGGTCCTTTTTAGGTTGCGCTTTAACTTCAATAGGTAGATACCGTGTTCAGCCTTATATTGAGGGTGTTTCGGTCTTAATAATTACCTTATCATCTATCATATTAATACCAAAATTTGGCTTAAATGGTGCAGGCATTGCTATATTAACCTCCTTATTTATTCAAATGGTTTTAAAGTATTTTGCGTTAAAGTTATATCTTAAAAATAATAAAAAGTGGGTAAGATAA	MEKLEKRMFSLKKNFSWTLLGNGIYAFSQWYIIFLLAKLGSPEMVGIYSLGLAIAAPVFMLTGLQLRMILATDSKKPRDFGIYFGTRIIFTTLALVILFVIIYIQTSNEIELSVLLVIIFWRATDTLSDIVYGLSQRHERMDLIAKSRIIKSITIMLFFTLSITIYNSLLLGSLTILTVSILSFIFIDIKVARKYGSIRPIFNITEHIKLFKVALPLGIVLMFASLNTNLPKYFIEFEFGVEELGYFTAIAYFLSAAQTVITALTQSAAPRLSKLYSKGNIGGFRSLLLKLIYLGLVLSSLFILVSIFSGEFLLSLLYHPTYSVYNTLFIILAFSSLFVFIGSFLGCALTSIGRYRVQPYIEGVSVLIITLSSIILIPKFGLNGAGIAILTSLFIQMVLKYFALKLYLKNNKKWVR				NA	NA	NA	NA	NA
AK012_01972	1080	mshA_1		D-inositol-3-phosphate glycosyltransferase	ATGTTCATAAATTATTTAAAAGAAATGAAATATAGAAATCCTAATGATTTAGATAAGCAAATAGTTTTTGCATTATCATTATCAGAAGACTTTAAAAAAGAATTAGATAGTCTTCAAATAACATACTACGTTAATGAGTTTAACATTAAGAGTAATAAGTTATTTAAAAAACTGTTTTACCTTATAAAAAATAATGACATTAAATATCTTTATGGTCAAAATTTTTTAGGGAATTTAGTTGCTAGTATATGTAAATTGAGATTTAGAAGTTTGAAGTTTGTTGCTCATGAGCATGGATCAGCATGGAGTGAATCTACTAAAGTACACTTATTAAATTTTATGTGGATAAGACTTTCGGATGAGATAATATGTAATTCCAATGCTGCCAAGTTTATATTAGAAAATAAATACCATGCTAACTCAAGAAAAGTTTCTGTAGTTTATAATGGTGTGCCTAGAAAAAGTTTATTAGAAAAGAAGAAAAAGAACCAACTATTGTTTATTGGTAGATTGGTGAACATTAAATCTACTATAACTGTATTAGAAGCTTTACCAAAGGTATTAGAAAAAGAAAATGACATGCAATTAGTTATTTTAGGTGATGGACCGCTAAAAAGTAATTTAATGAAGAAAGCACAGGACTTAGGAATTCAATCTAATATTAAATTTAAAGGGAACGTAAACAATGTTGAAGAATATATATCCGAATCAAAGTTATTAGTAATCCCTTCTATTAGAGAACCTTTGGGAAATGTAATAATAGAGGCTGCAATGCAAAAAGTGCCCTCTATTGGTACTAATGTTGATGGAATTCCAGAAGTGATTATTGATGGGTATACAGGAAAATTAATATCTCCTACTGAAGCTGTCCTTGAAAAAAATGTTCCAAAATTTGTTTACTCGAGTGTATTAAAAAAATTAGTACGACCTAAAAAAATCAACCATAACATTTTGGCGGATTCAATAATAGATTTGTTAGAAAGCGATTGTCTTGAAAGCTATGGTGATAGAGCACGTGAACATGTTTTAAATAAGTTTGACCTTAAAATTTATTACGAAACAATAAATAATAAATTTTAA	MFINYLKEMKYRNPNDLDKQIVFALSLSEDFKKELDSLQITYYVNEFNIKSNKLFKKLFYLIKNNDIKYLYGQNFLGNLVASICKLRFRSLKFVAHEHGSAWSESTKVHLLNFMWIRLSDEIICNSNAAKFILENKYHANSRKVSVVYNGVPRKSLLEKKKKNQLLFIGRLVNIKSTITVLEALPKVLEKENDMQLVILGDGPLKSNLMKKAQDLGIQSNIKFKGNVNNVEEYISESKLLVIPSIREPLGNVIIEAAMQKVPSIGTNVDGIPEVIIDGYTGKLISPTEAVLEKNVPKFVYSSVLKKLVRPKKINHNILADSIIDLLESDCLESYGDRAREHVLNKFDLKIYYETINNKF				NA	NA	NA	NA	NA
AK012_01973	1122	mshA_2		D-inositol-3-phosphate glycosyltransferase	ATGAGCAAACTTACTATATTAATAGTTGCTCCTATAACAGGTGACAACTTCTCTGGCTTAACTTATTCAGTTCCAAGTACTGCACAAGCATTTAATAATATAGGTTCACCTACTTGTATCTTAACGACTCACCCTAGTAAACCATACGTAAGAAAAGAAGAATTTCCAGTTTATTATTATAAGGATAATGAGGATAAACCAATATCGATAAATGATTTACCTTATCCTTTTAATAACCCTAGTATAATAATTTTTCAGAGTACATATATCCCTTATCATTCCCGACTAGCTAAAGAGGCTGTAAGCCGAGGGATTCCTTATGTAATAACACCTAGGGGGGGGATGACTAAACACGCTCAGAAAAGTAAATTTATAAAAAAGAAATTAGGCAACTTCCTTTTTTATAATAAGATGGTTAAAGAATCTACATCAATACATTGTCTTACTAAAAAAGAAGAAGAGGATTTGAAAGGTTGGAACGAGAGTTCCTTTATTGTTCCTAATGGAGTAGGCATACCGAAAAATCGTAATAAGGTAGCAGGAAAAAGGGATAAGTTTGTAATTTCATTTATAGGACGTCTTGATATTAACCATAAAGGGTTAGATTTACTTTTAGAAGGGTGTAGTATCGTAAAATATAAGCTAGAGGAGAATAATGTAAAACTAAACGTTTATGGACCAAGTGTGCAAAAGAGTAAAGAAAAATTAAAAGGTATGGTAAGTGATCTTGGTTTGGAAAGAATCGTAACAATTAATGACGGGGTAGGTAAAAAAGAAAAGGAAGAAATTTATTATGACACAGATTTATTCGTTCATACATCTCGCTTTGAAGGACACCCTATTGCTGTTTTAGAAGCCATGGCTTTTGGCTTACCTTGTTTAATAACGCCTGGAACAAATATTACTAAAGTTGTTAGTGAAAGTAATTCGGGTTTTATTACACCAGAAGATCCAAATGACATTGGAAATAAGATAATTGAAATACTACACCATAAAGAGGAGTTATTGGCAATTGGTGATAAGGCGAGAAATTTTGTTAGTGAAACTTATAGGTGGGAAGATGTCGCAAATAAATTGCTGAAGGAATTTAATAATATAGTATACCACAATTATAATGCTTAA	MSKLTILIVAPITGDNFSGLTYSVPSTAQAFNNIGSPTCILTTHPSKPYVRKEEFPVYYYKDNEDKPISINDLPYPFNNPSIIIFQSTYIPYHSRLAKEAVSRGIPYVITPRGGMTKHAQKSKFIKKKLGNFLFYNKMVKESTSIHCLTKKEEEDLKGWNESSFIVPNGVGIPKNRNKVAGKRDKFVISFIGRLDINHKGLDLLLEGCSIVKYKLEENNVKLNVYGPSVQKSKEKLKGMVSDLGLERIVTINDGVGKKEKEEIYYDTDLFVHTSRFEGHPIAVLEAMAFGLPCLITPGTNITKVVSESNSGFITPEDPNDIGNKIIEILHHKEELLAIGDKARNFVSETYRWEDVANKLLKEFNNIVYHNYNA				NA	NA	NA	NA	NA
AK012_01974	630	epsL	COG2148	putative sugar transferase EpsL	TTGTATAAAAAGTTTCTCAAAAGATGGCTGGATTTCACATTAGCCTCTCTAATACTCACTATTTCATTCCCAGTTTTAATAGTTATATGGAACCTGATTAGACTCAAGCTAGGGAGACCAATACTTTTTAAACAAAATAGACCTGGCAAGGATGGAAATATATTTACTATGTATAAATTTAGAACTATGACAGATGAGAAAGACACTGAAGGCAATCATTTATCCGATAACCAAAGGTTAACTAAATTTGGCGCTTTTTTAAGAAAAACTAGTTTAGATGAAATACCCGGATTAATAAATGTATTAAAAGGTGAAATGAGCTTGGTTGGACCACGACCTCTGGCCGAAATATACTTACCTTATTATACTCAACGTGAGAATCAGCGGCACAGCGTTTTACCTGGATTAACAGGATTAGCACAAGTCAATGGTCGTAACACTTTAAATTGGGAAGATCGATTTGAATACGACATAGAATATGCTAATAATATAAACTTTTCAGTAGACCTTAAGATTATATTATTAACTATAAAAAAGGTTTTTCAAAAAGACGGTGTTGTAACGAGAGGGTCATCTAACATTACAGATTTTCATACTCATAGAATTAATCAAATGAAAAGGAGGAAATAA	MYKKFLKRWLDFTLASLILTISFPVLIVIWNLIRLKLGRPILFKQNRPGKDGNIFTMYKFRTMTDEKDTEGNHLSDNQRLTKFGAFLRKTSLDEIPGLINVLKGEMSLVGPRPLAEIYLPYYTQRENQRHSVLPGLTGLAQVNGRNTLNWEDRFEYDIEYANNINFSVDLKIILLTIKKVFQKDGVVTRGSSNITDFHTHRINQMKRRK	PGPT0024571_30	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_PHOSPHOGLYCOSYLTRANSPFERASE_ACTIVITY,PGPT0024571-pglC-K15915	NA	NA
AK012_01975	528	speG_3		Spermidine N(1)-acetyltransferase	ATGAATATCGTTGATAATGATTTAATATTAAGAGGAATTGAAGTAGAAGATTCACAACTGTTAAAAGATATGATAAATGACCCGACTATTGAAAAAATGGTAGTAGGTTATTCATTTCCAGTTTCTACACATGCACAAATAGATTGGATAAGGAATATAAGTACTGACAAGAATAATATCCGTTTCATTATAGAAATAAAAGATCAAGGGGCAATTGGATTAATAACCCTAAGTAGCTTAGATTTCAAAAATAGTACATGTGGGATAAATATAAAATTAAGTTCAGATAAATTCAAGAAAAAGAATATTGGTTTTAGGGTAGTGAGTTTAGTAGTTGAATATGCTTTTATGAGTTTAAATATAAATTGTATCAATGCTAGGATATTATCATACAATAGCGGATCTAAGAAATTATTTGAAAAATGTGGATTCAGTTATGAAGGGACACTAAGGCATAGAGTTTATAAACAAGGTGAATATCAAGATCTTTTCTCATATTCGCTTTTGAAGGAAGATTATTATGCCTAA	MNIVDNDLILRGIEVEDSQLLKDMINDPTIEKMVVGYSFPVSTHAQIDWIRNISTDKNNIRFIIEIKDQGAIGLITLSSLDFKNSTCGINIKLSSDKFKKKNIGFRVVSLVVEYAFMSLNINCINARILSYNSGSKKLFEKCGFSYEGTLRHRVYKQGEYQDLFSYSLLKEDYYA				NA	NA	NA	NA	NA
AK012_01976	1104			hypothetical protein	ATGCCTAATGAAATTGGCAGTGAATTTTGGTACTCCCGATCACTAAATGATAGAACTAAATCAAGTTTCGCACCTAATTGGTTAAATATAGGGGATGACACAAGAATATTATTATCAGGTAGGACAGCTTTAGACTTTATAATTAGAGATATTTTGTGCAAAGAAGAAATAAATAGTGTGTATTTTCCTTCATACTCGTGTCAATCAATGATTCAACCTTTTGTTGATAATAATATCAATGTGATTTTTTATAATGTGAATGTTAATAAAGAAAGCGGTGATTTGGAATATAATATTGATGTTGACACAGAGTGTGATGTGTTCTTTGCAATGAATTATTTCGGATTTCATAGTGGGAATATGGATTATTACATAGATGCATTTGTGAAAAGAAACAAGATTGTAATAGAAGATATAACGCATTCTTTACTTTCAAAGAGGAAATATAACTACAATACTCATTATGTTTTTTCTAGCTTAAGGAAATGGTTCCCCATACCATCAGGAGGATGTGCTTCAAAAATCAAGGGGAATTTTAATATTGAATTAAATAGTACTACAAACAATGAATTTGTTACACTTCGCAAAACGGCAATGCTTCAAAAAAAGCAATTTATGAATGGACTCTCAACTAAAATCAATAAAAGAGATTTTTTGGAAAATTATAAACAAGCTAGTTTATCCCTTTTGAATTCTTATTCTGGATATCCTATTGATAATAACTCAATGGAAATATTGAATAATTTAGACATTGATGAAATAGCGATGAAAAGAAAAACCAACACTAAGACATATTATGATGAATTATCTCAAAGTAATAAAGTTGATTTCTTATATGATAAATTTTCAATTGATGAGGATTGTCCAATATTTGTTCCTATTATTAACATGAAGAGAGAATTTAGAAATGCTTTACGAGAGTATTTAATTAAGAATAAAGTTTATTTACCAATTCACTGGCCACCACCTCATTCTTATGGCCAACATATTAATTTAGGTGCTATTTATAACTCAGAGCTGTCTTTAGTTAATGACCAAAGGTATGATGTGGATGATATAAAAAAAGTAGCAAGTCTTATACTTAGTTTTATAAGGGGATTTTAA	MPNEIGSEFWYSRSLNDRTKSSFAPNWLNIGDDTRILLSGRTALDFIIRDILCKEEINSVYFPSYSCQSMIQPFVDNNINVIFYNVNVNKESGDLEYNIDVDTECDVFFAMNYFGFHSGNMDYYIDAFVKRNKIVIEDITHSLLSKRKYNYNTHYVFSSLRKWFPIPSGGCASKIKGNFNIELNSTTNNEFVTLRKTAMLQKKQFMNGLSTKINKRDFLENYKQASLSLLNSYSGYPIDNNSMEILNNLDIDEIAMKRKTNTKTYYDELSQSNKVDFLYDKFSIDEDCPIFVPIINMKREFRNALREYLIKNKVYLPIHWPPPHSYGQHINLGAIYNSELSLVNDQRYDVDDIKKVASLILSFIRGF				NA	NA	NA	NA	NA
AK012_01977	1002			hypothetical protein	ATGGAAAAGAAGCCAGATATCTATTTTGAAGAAGATTATGGAAGGTTATATGAGGAAGTTGAAGATGGTGTATTGGAAGTATTTAATTTTAAGTGTGAATATGGTGAAGTAAATCACCAATTCATCAAAAAAAGAATACCACAAATAATTAATGGAGAACAATACTTTGATATAGTTACACCATACGGTTACGGAGGACCTTTAGTAAAGCTATATTATAATGACCAGAAAAATAAATTGTTAGAACTATTTGAAAGGAAATTTGGAGATTATTGCTTGAAGAGTAATATCGTTAGTGAGTTCATAAGGTTCCATCCAGTTTTTAACAATAGTGAAGATTTCAAGAGTATTTATAAAGTTCAATACTTAAAAAATACATTAGGGACCGATTTAACAAAAGAGGATCCTTTCCAAGAAGAATTTACTAAAAAGTGTCGTCAAAATATAAGAAAATCTTTAAAGAAAGGTGTAACTTATGAGGTTATAGATACACCGGATAACTACGCTGAATTTATTACTCTTTATTATTCTACTATGGATAGAAATAGTGCATCATCTTATTATTATTTTAAAGAAAGTTATTTTAATCATTTATTAAAATTTCTTAAAAAACATATTATAATAGTTAAAGCGATTTACGATGGAAAAGTTATTGCTGCAGGTTTATATTTTAAGTATAAAGACATGTTACATGTACATTTATCTGGTACATTAACTAGTTATCTTAATTTGTCTCCGGCATATATATTGCGATACGCAATTACTCTGTGGGGAAAAGAAAATGGTTACAAATTAATTCATCATGGTGGAGGAAGGTCCAACTCTGAAGATGACTCGCTCTATAAATTCAAGAGAGGTTTTTCTAAGAATATTAGTTATAATTTTAGTGTAGGAAAAAAAATTTGGAATGAAAAAATATACAGAGAACTCTGTGGAATTTATGGAGTTCATACTAATAATGACTTTTTTCCAGCTTATAGAGTAGAAAAGGATAGAGAATAA	MEKKPDIYFEEDYGRLYEEVEDGVLEVFNFKCEYGEVNHQFIKKRIPQIINGEQYFDIVTPYGYGGPLVKLYYNDQKNKLLELFERKFGDYCLKSNIVSEFIRFHPVFNNSEDFKSIYKVQYLKNTLGTDLTKEDPFQEEFTKKCRQNIRKSLKKGVTYEVIDTPDNYAEFITLYYSTMDRNSASSYYYFKESYFNHLLKFLKKHIIIVKAIYDGKVIAAGLYFKYKDMLHVHLSGTLTSYLNLSPAYILRYAITLWGKENGYKLIHHGGGRSNSEDDSLYKFKRGFSKNISYNFSVGKKIWNEKIYRELCGIYGVHTNNDFFPAYRVEKDRE	PGPT0023735_181	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-REGULATION_FACTOR,PGPT0023735-murM-K05363	NA	NA
AK012_01978	1200			hypothetical protein	ATGATTGCTCATTTCACACAAGTACCAGGCGAGCAAGGGAACAGTAGATTTCCTTATCTTGCTCAAATGCTATCCAATGAAACAAACCATGTAGAGATGGTAACTAGTTCCTTCTCGCATAGAACTAAATCTCAACGCATAGTTAGTAAAGATGGGTTGAATTTATTGAACTATAAATTAACTATGTTATATGAACCTAATTATGAAAAAAACGTTTCTTTAAAAAGGTTCTATAGCCACTACTATTTCTCTAAATCTCTGCGTAAATATCTTAAACATAGAAATAAGCCGGATATTATTTATTGTGCCGTTCCATCAATTGATGTAGCTCACGAGGCCACAAAATATGCAAAAAAGAATTCTATTCCGTTTATAATTGATATCCAAGATCTTTGGCCAGAAGCCTTTAAAATGATTTTTAACCCTCCTTTACTTAATAGAATTCTATACTATCCTATGACAAATAAAGTGAATAGAGTATATCGGAAAGCTGACGAAATTATTGCTGTTTCTAAAACCTATGTAAATAGAGCGTTATTAGTAGGTAATAAAAATAATGGAATTAGCACTTATTTAGGGACGGATTTAGATTACTTTGATTCTTTGATAAATAACAATATAGATAAACCTTTTAATGAGTTTTGGATTGGTTACATTGGTACATTAGGACATAGCTATGATATCCCCACGGTCTTTAAGGCTTTACAATATCTAAATGAGAAAGGTTATAAGAATATCAAGTTTATTGTAATGGGTGATGGCCCCTTGTATAGTGAATTTAAAGAACTGGCTACCAAAAAAAATATTCATGCTCGCTTTACTGGAAGAATTAGCTATCCTGAAATGGTTAATTTATTGTATATGTGTGATATTGCGGTTAATCCAATAAGAAAGGGAACAGCAGCGTCTATAATAAATAAAGTTGGAGACTATGCTGGTGCGGGATTGCCCGTAATTAATACTCAAGAATCCAAAGAGTATATGGACCTTCTTAATACTTATAATGCGGGCTTAAATTGTGAAAATGGAAACTATATAGATATGGCAAAGAAGGTTTTATTACTTTATGAGAATAAAACCTTAAAAGAAGAACTAGGAAGAAATAATAGAAAATTGGCTGAAGATAAATTTAATAGACAGATTACTTATAGGGAGATCGAAAAAGTTGTAAATAATGTAACGGTAAGGATTAAAAATTAG	MIAHFTQVPGEQGNSRFPYLAQMLSNETNHVEMVTSSFSHRTKSQRIVSKDGLNLLNYKLTMLYEPNYEKNVSLKRFYSHYYFSKSLRKYLKHRNKPDIIYCAVPSIDVAHEATKYAKKNSIPFIIDIQDLWPEAFKMIFNPPLLNRILYYPMTNKVNRVYRKADEIIAVSKTYVNRALLVGNKNNGISTYLGTDLDYFDSLINNNIDKPFNEFWIGYIGTLGHSYDIPTVFKALQYLNEKGYKNIKFIVMGDGPLYSEFKELATKKNIHARFTGRISYPEMVNLLYMCDIAVNPIRKGTAASIINKVGDYAGAGLPVINTQESKEYMDLLNTYNAGLNCENGNYIDMAKKVLLLYENKTLKEELGRNNRKLAEDKFNRQITYREIEKVVNNVTVRIKN				NA	NA	NA	NA	NA
AK012_01979	1368	ywqF_2	COG1004	UDP-glucose 6-dehydrogenase YwqF	ATGTATCAGATAGCTGTAGCCGGAACAGGTTATGTTGGACTAGTGGCAGGAGTATGTTTCGCTGAAATGGGGCACCAAGTTACCTGCGTAGACATTGATGAAGAAAAGGTGAAAATAATGAAGTCAGGTTTTTCTCCTATTTATGAAAAAGGATTGGAAGATTTGATGAAGAAAAATTATGCGGCAGGTCGAATTGATTACACAACTGATTACAAAACAGCTTACCAAGATGCTGACGCTATATTTCTCGGTGTGGGAACCCCCGAAAAAGCGGATGGATCTGCAGATCTTTCTTACATAGCTACTGTTGCTAGACAGGTAGCTGAATCCGTACTAAAAGACTGTTTAGTAGTTGTGAAATCTACTGTACCCGTTGGAACTAATGATAAAGTGGAACAGTTTATTCAGGACTTTTTAGTGAATAGTGTAAATGTTGAAGTAGCTTCTAACCCAGAATTTCTAGCTCAAGGGTCTGCTGTTCATGATACGCTCCATGCGGAAAGGATTATCATTGGTACGGAAACTAAATGGGCAGAGCAACTTTTAAAGGGAATATATGAACCCTTTAATCTTCCGATAGTATCTGTAAATAGAAGATCAGCAGAAATGATTAAGTATGCATCCAATGATTTTTTAGCATTAAAGATTTCTTATATGAATGATATTGCTAACTTATGTGAATTAGTTGGTGCTGACATCAAAGACGTTGCAGAAGGTATGAAATATGATGAGCGTATTGGGGCAAAGTTTTTAAATGCGGGTATAGGTTTTGGAGGCTCTTGTTTTCCAAAAGATACTGAAGCCCTTAATTATTTAGCTCAGCAGAATGGTTATGAACTCAAGACCGTAAAAGCAGCAATTGATGTTAATAAGAGTCAAAAAACATCGCTATATAAAAAGGCAAGTAATCGATTGATCACTTTCAATGGTCTAAAAGTTGCAGTCTTAGGATTAACCTTTAAACCAGGTACGGATGACCTGCGTGAAGCGCCATCATTAGATAATGTGCCTTTGTTGTTGGAACAAGGAGCTGACGTTTATGCATACGACCCCGTAGGGGCAGAAAACTTTGCAAAGGTCTATCCTGCTGGTCCTAATCGACAAGGGTCAATCACTTATGTAGGTAATTTAGAAGAAGCATTAGACGGTGCAAATGTTTGCTTTGTATTTACAGAATGGGGAGAGATTAAAGCTGTTACGCCGGAGTTGTTTCGTGGCTTAATGCGCACTCCTTTGGTCTATGATGGACGTAATATTTATGATATTGAAGGGATGAAGAGGGCGAAGGTAGAATATCACTCGGTTGGAAGAAAACCAGGAAGTATGAATGTAATGAGAGGGGAAGCATATGAACTACAATCCACTTGA	MYQIAVAGTGYVGLVAGVCFAEMGHQVTCVDIDEEKVKIMKSGFSPIYEKGLEDLMKKNYAAGRIDYTTDYKTAYQDADAIFLGVGTPEKADGSADLSYIATVARQVAESVLKDCLVVVKSTVPVGTNDKVEQFIQDFLVNSVNVEVASNPEFLAQGSAVHDTLHAERIIIGTETKWAEQLLKGIYEPFNLPIVSVNRRSAEMIKYASNDFLALKISYMNDIANLCELVGADIKDVAEGMKYDERIGAKFLNAGIGFGGSCFPKDTEALNYLAQQNGYELKTVKAAIDVNKSQKTSLYKKASNRLITFNGLKVAVLGLTFKPGTDDLREAPSLDNVPLLLEQGADVYAYDPVGAENFAKVYPAGPNRQGSITYVGNLEEALDGANVCFVFTEWGEIKAVTPELFRGLMRTPLVYDGRNIYDIEGMKRAKVEYHSVGRKPGSMNVMRGEAYELQST	PGPT0017855_1536	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
AK012_01980	1032	wbgU		UDP-N-acetylglucosamine 4-epimerase	ATGAACTACAATCCACTTGATTCTAGTAAAACCTATCTAGTAACCGGCGCTGCTGGTTTCATTGGTTATTACCTATCTAAGAAGTTGCTTGATGAAGGATGTAAGGTTGTCGGTTTGGATAATATAAATGATTATTATGATATAGGGCTTAAAGAAACACGTCTTAGTTTATTAAATCCATATGAGTCCTTTACATTCGTTAAGACTGATCTCTCGGATAAAGAAGCTACTAATGATATCTTTAAGAATTACCAACCAGATATTGTAATCAACTTGGCAGCACAAGCAGGTGTCAGGTATTCCATTGAAAATCCTGATGCATATATGCAAAGCAATGTCATTGGCTTTTATAATATTTTAGAGGCTTGTCGTCATAATCCTGTTGAACATTTAGTTTATGCGTCTTCAAGTTCTGTGTATGGCGCGAATAAAAAGGTACCTTTCGAAGAGACAGATTTTGTTGATCACCCTGTATCTTTATATGCTTCAACTAAAAAATCTAATGAGTTAATGGCCTTTACGTATAGTCATCTTTACAACATACCTGCAACAGGATTAAGGTTTTTCACAGTCTATGGTCCGATGGGACGCCCAGACATGGCTTATTTCGGCTTTGCAGAGAAATATTTCTCAGGGGAACCTATAAAGATATACAACAACGGAGACTTTGATAATGATCTTTACCGTGATTTTACTTATATTGATGATATTGTAGTAGGTATTGAACGATTGTTGAGTAATAAGCCGAATTCAGATCAAGGTGCTCTGCATAAAGTCTACAATATTGGTAACAACAGTCCTGAGAAATTAATGGATTTTATTGGATCACTAGAGAAGGCGTTAAGTAATGCACTAGGTGAAAATGTTGAGTTCAATAAAGAATATGAACCGATCAAGCCAGGGGATGTCCCAGCTACTTATGCTTCTACTGATCAATTACTAGAAACAGTAGGGTATACACCGAGTACGAGTATTAAAGATGGCTTGCAAAAATTCGCTGATTGGTATGTAAGTTATTATAACAAGGGGTGA	MNYNPLDSSKTYLVTGAAGFIGYYLSKKLLDEGCKVVGLDNINDYYDIGLKETRLSLLNPYESFTFVKTDLSDKEATNDIFKNYQPDIVINLAAQAGVRYSIENPDAYMQSNVIGFYNILEACRHNPVEHLVYASSSSVYGANKKVPFEETDFVDHPVSLYASTKKSNELMAFTYSHLYNIPATGLRFFTVYGPMGRPDMAYFGFAEKYFSGEPIKIYNNGDFDNDLYRDFTYIDDIVVGIERLLSNKPNSDQGALHKVYNIGNNSPEKLMDFIGSLEKALSNALGENVEFNKEYEPIKPGDVPATYASTDQLLETVGYTPSTSIKDGLQKFADWYVSYYNKG	PGPT0019020_926	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
AK012_01981	1062			hypothetical protein	ATGTATATATATATACTATTATACGCCATTATTTACATATTTGCTGTTTTAGACCTAACTGATTATAAAAAAAGTAAATTTATATGGTTTGCTTTTTTATTAGGTTTGTGTACTTTATTCGCAGGTCTTCGTTATAATATTGGTGCGGATTATTTAGGCTACTATAGCTACTTTAACAAAGCATCAATTAATTTATTTGGGGGGCTAGAGGTCGGCTTTGAAGTTTTAGCTGTATTCATAAGAGAAATATTTGGATCATATGAATTATTCGTTTTTGTACTTGTAACATTAACCTTCATTTTTATATACTATTCGATAAAAAGTATATCCACACTATATTTTATCCCCTTATATGTATATGCAGTACAATATTTATTAGGTGGACCTATGGGGCAAATGAGGCAAGCGCTAGCAATAGCTATCCTTCTATTTTCAGTAAAATATATTATAAACAAAAATTTTAAAAAGTATTTATTCTTTGTCCTGATGGCTACGAGTTTTCATGTAACATCTTTTGTCTTCATAATCGCATACATATTTAATCATATTAAATTAAATAAAATAGTAATGTTATTGTTGTTATTAGTAGCTATTCTTGTTGGAGAAACATCTATACCAAGTATTTTACTTATAAATTTAACGTCACTCTTTCCTGGTGAATTATTTAACACACTTTCTTTATATATTGAAAGCGAAGATTATGGGGAAGCATACAGCGGTTCCATATTTGCATACGTAGAGAGATTATTAGTTTTTATAATCAGCCTATTATTTTACAGGAAAAGGGAGAAAAACATTAAAATACTCTTGCAAATTTATTGGTTGTCATTATTGATATTTTTCTTCTTTTCTGATATATCAATCCTAGCTCAAAGAATATCTAGGCCCTTTAAAGCTGTAGATATTTTTATATACAGCTATTTATTATACACTTTTACCAATAATAAACACCTAAAAGTAATTGGATTTATATTGTTTTCTTTATTATTATATAAGCCGATTTATATGATAATTTCAAGACCAGGTCAATATATCCCTTATTTAAGTATACTAGGGAATTGA	MYIYILLYAIIYIFAVLDLTDYKKSKFIWFAFLLGLCTLFAGLRYNIGADYLGYYSYFNKASINLFGGLEVGFEVLAVFIREIFGSYELFVFVLVTLTFIFIYYSIKSISTLYFIPLYVYAVQYLLGGPMGQMRQALAIAILLFSVKYIINKNFKKYLFFVLMATSFHVTSFVFIIAYIFNHIKLNKIVMLLLLLVAILVGETSIPSILLINLTSLFPGELFNTLSLYIESEDYGEAYSGSIFAYVERLLVFIISLLFYRKREKNIKILLQIYWLSLLIFFFFSDISILAQRISRPFKAVDIFIYSYLLYTFTNNKHLKVIGFILFSLLLYKPIYMIISRPGQYIPYLSILGN				NA	NA	NA	NA	NA
AK012_01982	768			hypothetical protein	ATGCTAGCAATGACTTTAATCAATCATATCAAAAATTTACGTAATCTAGAAGATGTATCAATAAGTGAAATCACCAAAAGACTTAATGTGAATTGGAGGACAGCCAAGAAATACGCAGATACTGACCAGATTCCAACAGAAAAATGCATTAAACATAAAGGAATGATGAATGAAGAGAAATGGGGAGAGATTGTAACAGATTGGTTAATTGAAGATCAAAAGCTGAAGAGAAAGCTTAGAAGAAATAACAACACAATTTATGAACAGCTGAAAGAGCTGGGGTTCACCGGTTCTTACAGAACCGTTTGTTACTTTATCGCTCAATGGAAAGATGGAAAGGATAACGAGGGTGATGCTAAAGATAAGAATAGCGAAAGGTTAAATCATCCTCCAGCTGAAGCCCAAGTGGATTTCGGAATAACAGAAGCAGTGAAAGGTGGGAAATACATAGATGTTCACTGTTTGATTATGAGTCTTCCTTATAGTAATACGGGATTCTCAATTGCCCTTCCTGGAGAGAATCAAGAATGTTTCCTATACGGATTAAAGAAGGTCTTTGATCAATTAGGCTCTGTCCCTAGAAAAATTCAAATTGATAATTTGAAAGCTGCGGTAGTTAAAGCCAGAGATAAGCATGGCGAAGCTACTTTCACAGATGAATTCCTAAAGTTCGCCAACTTTTATGGATTTGAAATTCAGGCGTGTAATGCAAGAAAAGGCAACGAGAAAGGACACGTAGAAAAAAAAAGTCGGGTATGTTCGCTATAA	MLAMTLINHIKNLRNLEDVSISEITKRLNVNWRTAKKYADTDQIPTEKCIKHKGMMNEEKWGEIVTDWLIEDQKLKRKLRRNNNTIYEQLKELGFTGSYRTVCYFIAQWKDGKDNEGDAKDKNSERLNHPPAEAQVDFGITEAVKGGKYIDVHCLIMSLPYSNTGFSIALPGENQECFLYGLKKVFDQLGSVPRKIQIDNLKAAVVKARDKHGEATFTDEFLKFANFYGFEIQACNARKGNEKGHVEKKSRVCSL				NA	NA	NA	NA	NA
AK012_01983	624			hypothetical protein	TTGACCAGCATTTTGAATGAAAAACTAACTAAGGATCGTCAACGAATTCATTACTCCAAAGGAGTACGGATTCAAGAATTACTTGAAGAAGGAGTTAATTATACTCTGTCCCTTCCAGAAGAGGATTATCCAATCTTCAAGGAAACAAAATTGACTGCTAATAAGTATGGTGAAATTACGATTGACGGGGCGAAAGAACGAATCCCAAAAACCTATAATTTCAGTTACCTTCACGTCGTTCAATATTGGGATCGTTATAAAGTCATTTCTCCTTATGGAGAAATCCTCCATTCGGATTATCGCCCTTATATGAATAAAGGTCGTAATATACCTTGGTTATCGATAATGCGGGGATGGGCATCAAAACCGCGTGCTGTGACATATTCAAGATACAATCCTTATTTGCCGGGCCAGATAGCCACTTACTTAAATATCGATGAATTAAACATACGTAAGCAGCGTTTGGATTGGTTAATTAGTTTATTAGTGAATCATGAGATAAGAGAAATTGATGAAAAGTTCTATGATTTATTAAAAGAACAGCCGGAAAAGTCTCTGATTTTATTCCACACCCTTACGATGTGGATTGGTCTAAATATGATTTGTTACAACCAGCCTCAGTAG	MTSILNEKLTKDRQRIHYSKGVRIQELLEEGVNYTLSLPEEDYPIFKETKLTANKYGEITIDGAKERIPKTYNFSYLHVVQYWDRYKVISPYGEILHSDYRPYMNKGRNIPWLSIMRGWASKPRAVTYSRYNPYLPGQIATYLNIDELNIRKQRLDWLISLLVNHEIREIDEKFYDLLKEQPEKSLILFHTLTMWIGLNMICYNQPQ				NA	NA	NA	NA	NA
AK012_01984	708			IS21 family transposase ISKol3	GTGAATATTAAAGAGATGTGTAAGAGTCTTAGACTTGCATATGTCGCGGACATATACGAGCAAATACCTTTTGAAAACGAAACCCAGTACTTAGAAGCCATTTTCCAAAAGGAATTTGAATTAAGAGAAGAAGCGAAGGCTGAACGACTGATTAAGAAAGCGAAATTTATAAATCATAAGGATCTCTCGAAATTTCATTGGGGAAACCAAGTCCGGTTTCCTCCTCAGCTAGATCGAGCAGAATTAGAGGGTTTGCATTTTATCGAAAAGAAAGAAAATGTGGTAATAACAGGCTCACCAGGGACTGGGAAGACTCACTTAGCGACCGGGTTAGGCCGCGCGGCCTGTCAAAAAGGATATGAAGTCAGGTTTTATAGAGTGTCTGATTTAGTGGATACACTGGAGAAAATGTGGAGAGAAGGAAAGCTACAGCAATTTAGAAATCGGTTCAAAAAAGTGGATCTCATTGTTTTGGATGAAATGGGGTATATCCCCTTTAGTAAAGAGGGCGCAGAGCTTCTATTCCAGCTTATTACCGATTGGTACGAACAGAAAAGCATCATCATAACTTCGAATTTAGAATTCAGTCAATGGAATCGCATTTTTGTAGATTCGAGGCTAACAGCAGCCCTAGTTGACCGTGTGATACACCATGCACATATCCTTACTTTCACAGGTGATAGTTATCGAGGCAAAACAACTAAATGA	MNIKEMCKSLRLAYVADIYEQIPFENETQYLEAIFQKEFELREEAKAERLIKKAKFINHKDLSKFHWGNQVRFPPQLDRAELEGLHFIEKKENVVITGSPGTGKTHLATGLGRAACQKGYEVRFYRVSDLVDTLEKMWREGKLQQFRNRFKKVDLIVLDEMGYIPFSKEGAELLFQLITDWYEQKSIIITSNLEFSQWNRIFVDSRLTAALVDRVIHHAHILTFTGDSYRGKTTK				NA	NA	NA	NA	NA
AK012_01985	189			hypothetical protein	ATGACTGATTCTTTAAAGAAAGAGTATCTACTCCTCCCCACTTCAACTTCTTCCATCTATATTGAATTCCTCGGCCAAAATCCTGTTATGGCCATGACCACTTGGAAACACACCCACATTAAAGCAGAGGCTCCTACGAAAACTGAAGTCATTCAAGAGATGTTAGCTATAATTCAAGAAGGTCCTTAA	MTDSLKKEYLLLPTSTSSIYIEFLGQNPVMAMTTWKHTHIKAEAPTKTEVIQEMLAIIQEGP				NA	NA	NA	NA	NA
AK012_01986	1500	panF_1	COG4145	Sodium/pantothenate symporter	ATGCTTACAAGCTCCAGCGTATTGCTATGGACCGTCATTCTTTTACTAGCTGTATACTTTGCCGCTGTGACGTGGGTCGGTAAAAAAGGCCGGGCACACAGCCAGTCGATGGCCGGCTTTGCCACCGCCCGCGGAAAAGTGAGCCCCTGGCTTGTCGGCGCAAGTTTCGCCACCAGTTACGCCAGTGCCAACCTGTTCATCGGTGTCCCAGGACTCGCTTACGAACACGGAACGGCCGTCCTCTGGTACACCCTCGGCTGCTTTGGCGTCAGCTGGGTAGGACTGCTGCTTTTTGCCAAAACGTTCTGGCGGTACGGAAAAAAATTCGGCCACGTGTCGACCCTTCCCGAGTGGCTTGGGAAGCGTTATAACTCGAAAGCCCTGCAGGCGATCGTCTCTTTACTGATCTTATTCAATGTGTATTATATCGTCGGGCAGAACGTCGGGCTTGCGACCATCTTTGAAACCGTCATCGGCATCCCCTACTCCTGGGGCATCATCATCGGTGTCGCCATCACGATTCTGTACATCGGTCTTGGCGGCGCCTTCGCACAGATCATTACCGACGGCATCCAGGGCATTCTGATGGCCGTCACTTCGATCTTCATCGTCGTATCCTTTTTTTGGACGATCGGTGGAGGGTGGAACGTCTTCGGTGTGCTGACCGACCGCCTGCACAGCATCGATCCGAACCTGACCGCCGCCATTGCCGACAGCGGGCCCTATAACAGTGCGCTCGCCATCATGGCTGTCCAGTTCCTGCTCTTCAGTTTTGTCCTGATGCCGCACCTGTTAAACAAAGTGCTCTCGATTGAAAAAGAGGAAGACCTGGCTCCATTCACCTTATCCGCTGGGCTCGTGCTGTGCATCATTTCCACGCTGATGGTCCTCGGCGGACTTGCTGCCCGCGTCCTGTTCCCGAGCCTGCAGAGTGCCGATGCAGCGATTCCGACCTATGTCATCGAGGCCTTCCCGAGTGTCATCGCAGCCATCATGATCGTCGGCATCATCTCTGCGATCTTATCGAGCACAGACAGCCTGTACCTAGGCATTACGACAAGCATCGGCAACGACTTGTACCGCGTCGTCGCACCGATCCTGTCCTCGAAGAAAATGTCCGCCCAGGACCTGGACAACAAGGCATTGAAAGTGGCTAAAGGATCGCTGATCGTCGTCGGCCTGCTGTCCCTCTACTTCTCGCTGGAACGACCAGACTCGCTGGCCTTCCTGATCCAGTTCAGCTTCTCCGCGATCATATCCGGGATCATCGCACCGATTACCCTCGGGTATTTCTGGAACCGGGCGAATCACTACGGGGCGATCGCCGCTGTGGTGACGGGGGCTTCCTTATATGTCGCCTTTACGACGCTGAACGTATTCGGAAATATCTTCATTGCCATGTTCTTCAGTGCTGCTGCAGCCTTTATCATTATGGGAGTTGTGAGCGTGTTGACTGGTAAAGCGAAAGAAGAAAATCTGGTACTGGAGAAATCCAGTTAA	MLTSSSVLLWTVILLLAVYFAAVTWVGKKGRAHSQSMAGFATARGKVSPWLVGASFATSYASANLFIGVPGLAYEHGTAVLWYTLGCFGVSWVGLLLFAKTFWRYGKKFGHVSTLPEWLGKRYNSKALQAIVSLLILFNVYYIVGQNVGLATIFETVIGIPYSWGIIIGVAITILYIGLGGAFAQIITDGIQGILMAVTSIFIVVSFFWTIGGGWNVFGVLTDRLHSIDPNLTAAIADSGPYNSALAIMAVQFLLFSFVLMPHLLNKVLSIEKEEDLAPFTLSAGLVLCIISTLMVLGGLAARVLFPSLQSADAAIPTYVIEAFPSVIAAIMIVGIISAILSSTDSLYLGITTSIGNDLYRVVAPILSSKKMSAQDLDNKALKVAKGSLIVVGLLSLYFSLERPDSLAFLIQFSFSAIISGIIAPITLGYFWNRANHYGAIAAVVTGASLYVAFTTLNVFGNIFIAMFFSAAAAFIIMGVVSVLTGKAKEENLVLEKSS				NA	NA	NA	NA	NA
AK012_01987	96			hypothetical protein	ATGATCCTTACGTACTTCATCGCAGTGGCTCTATTCTGGCTGCTCGGATTAATCCTATGGAAGAATTTCTACACGACGAAGAAAGGAGAACGTTAA	MILTYFIAVALFWLLGLILWKNFYTTKKGER				NA	NA	NA	NA	NA
AK012_01988	423			hypothetical protein	ATGAGCCAGCAGCCAAACATTTCACTGCCCGGTCCAACGATTACACCCATCAGCCAGCCTTTTTGGGAAAGCATCCAGGCCGGACATCTCAGCCTTCAGCAGTGTGACAAGTGTGAGCGATGGGTCTTCTATCCACGCGCACACTGTCCCCACTGTTTTCATGATTCATTAACATGGAAAGAAGCATCCGGACGAGGCAAATTGAAAACTTGGAGCGTCATCCACCGTGCGGGACATCCCGCCTGGCAGGCCCATACTCCTTATGTCGTCGGCGTCGTCGCCCTTGAGGAAGGACCTTCCTTATTAACGCACGTCCTGGTAGAAGGAGACGCCTTAACTCATAACCTGAACGTCGAAATCGACATCACTGACATCGGTCCGCACCCCTTGCCATTCTTTAAAAAACAGGAGGAAACCACATGA	MSQQPNISLPGPTITPISQPFWESIQAGHLSLQQCDKCERWVFYPRAHCPHCFHDSLTWKEASGRGKLKTWSVIHRAGHPAWQAHTPYVVGVVALEEGPSLLTHVLVEGDALTHNLNVEIDITDIGPHPLPFFKKQEETT				NA	NA	NA	NA	NA
AK012_01989	1161			hypothetical protein	ATGACCACCGCCATAAAAGGGGCGATCACCGGCATCGGTGAATTGAAGCCCGTCCGTTATTCAGAAGGAAAAACCACCTTAAGCTTGATAGCAGAATCCGTCCGCCTCGCTGTCCAGGATGCCGGCCTTTCCAAGGATGACATCGACGGCCTCCTCGTCGGACCTCAAGTCGGAGAGACGCCGCAGCATGTGCCGGCAACGGTTTCCGAATACTTAGGAATCGATCCCACGATGTCCAACACCGTCGATCTCGGCGGAGCGACCGGGCCGGGGATGATCTGGAGAGCAGCCGCGGCCATCCAGGCAGGCATGTGTGAAACCGTCGTCTGTGTTTTGGCAAACAAAAATGAAAAAGGGGAAACACTACGCTCCCCCAACCGCAATCCGATCCGTGAATTTGATGTACCTTTTGGGGCTTCCGGAGCAAATACGTCCTATGCCCTGTTAAAACGTCAGCACATGGAAGAATACGGATCCACCCAGGAAGACTTTGCAAGAATCGCTTGGTGGCACAGAAAAAATGCCCAGCTGAACCCGGATGCCATCTTTTATAATAAACCGCTCGACCTTGAAGATATTCTCGCCTCTCCGATGATTTCCGATCCGCTTCACATGCTGGAAATCGTCATGCCGGTGGCCGGGGGAGCAGCTGTTGTCGTCACTTCTCCGGAAAAAGCAGCGAACGGGAAGCATAAACCGGTCTACTTGAAAGGAGCGGGGGAAAAAATCACCCACCGTGCGGTCAGCCAGGCACCAGACCTGGACGCCCTGCCGTTTAACGCTTCCATTCCCAGAGCGCTGGAACAAGCCGGGACAAACGTGAAAGAGATCGACCTTTTCTCCCTGTATGACTGTTATACGAGCGTCGTCGCCATCACCCTGGAGAGTGCAGGATTGTGTAAGCCCGGGGAGTTCGGAGAGTTCGTCAAAAACCACAGCTTCGACCATGACGGGGATTACCCATTAAACACCCACGGCGGCCAGCTGGGCTTCGGCCAGGCCGACCTGGCCGGCGGCATGTCCCATGTGGTAGAAGCCGTCCATCAATTGCGAGGCGAAGCCGGGAACCGTCAAATTCCGGATGCCGCACAGGCCCTTGTGACAGGAAACGGCGCCACATTAAGCGAAACGACGGCGCTTGTGTTAGGAGGAGAACAATGA	MTTAIKGAITGIGELKPVRYSEGKTTLSLIAESVRLAVQDAGLSKDDIDGLLVGPQVGETPQHVPATVSEYLGIDPTMSNTVDLGGATGPGMIWRAAAAIQAGMCETVVCVLANKNEKGETLRSPNRNPIREFDVPFGASGANTSYALLKRQHMEEYGSTQEDFARIAWWHRKNAQLNPDAIFYNKPLDLEDILASPMISDPLHMLEIVMPVAGGAAVVVTSPEKAANGKHKPVYLKGAGEKITHRAVSQAPDLDALPFNASIPRALEQAGTNVKEIDLFSLYDCYTSVVAITLESAGLCKPGEFGEFVKNHSFDHDGDYPLNTHGGQLGFGQADLAGGMSHVVEAVHQLRGEAGNRQIPDAAQALVTGNGATLSETTALVLGGEQ	PGPT0008320_3559	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
AK012_01990	1944	acsA_2	COG0365	Acetyl-coenzyme A synthetase	ATGAATACACCCATTACAGCTCAGCGTTCCCCTTATCTGTGGGAACCATCAAACGAACGAATCGAACAGTCGCATATCAAAGCTTTTGCTGACTATACCAACCAGGCGCTCTTCCCTTATGAACGGTTCCACCGCTGGTCCGTTTCCCACCTTTCCGAGTTTTGGTCGGCCGTATGGGATTACGCAGGGATCATTGGAGAAAAGGGAGACCGTGTGTTTGTTCCCGGTCCTTCGATGCCGGATAGTGTATGGTTTCCGGACGCCCGCTTGAATTTCGCTGAAAACCTGCTGCGCGGGTCGCTTGACCGGATCGCGGCCTATGAAGCGAATGAGGAAGGCCTCACCCGAAGCATCACGCTGCAGGAACTGAAACAATCCGTGGCCAAAGCCCAGGAAGGGTTAAAACATTTGGGTGTCCAGGAAGGTGACTGTGTCGCCGGCATCACGACGAACGATATCCAGGGACTCGTCGCCCTGCTTGCTACGACATCACTAGGCGCCACCTGGACATCCTGCTCCCCGGACTTCGGAACAAAAGGAATCGTCGACCGCATTGGTCAGGTGAAACCGAAAGTATTGATCGCGGCACTCTCCTATCAATATAAGCAGAAGCCCTTCGATATCGAAGATAAAATCAAACAGACGACCGAGCAGCTGGAAGGACTATCCGCGGTCGTCACGTTCGGAGGAGAAACGTCGATTGAAGACATCCCGACTCTATCCTGGGACGAGCTTTGCCGCAATGAAGCTGAAGAGCCAGTGTTTCAACCCGTTCCCTTTAACCATCCTCTGTATATTTTATATACATCCGGAACGACGGGGCTTCCGAAAGCGATCGTCCATTCTGTCGGAGGCACCCTCCTGCAGCATGTAAAAGAACACCAGCTCCACTGTGATGTCCAGCAGGATGATGTGTTGTTCTGGTACACCAACACCGCCTGGATGATGTATCCGTGGCTCGTTTCCGGACTCGCCAGTGAAGCCGCCATCCTATTGTATGACGGCTCTCCCGTAAGAAAGGATTCCCTCACCCACTTGTGGGACATTGCGGATGAAGCCGGCATCACCCATTTCGGCACAAGCCCGAAATATTTAGACACACTGATGAAGGCAGGCGTTGATTTGAAAAGCAGTCACTCGCTTCACTCCTTGAAAAGTGTACAGTCGTGCGGAGCTCCCCTGGCACCCGAGCAGTACACCTGGATCTATCAAACCATCAAAGAGGATCTGTTCCTCGCTTCCATTTCCGGCGGAACGGAAATCATCGGCTGTTTCGTGATGGGCTCTCCGGTCCACCCTCTGAAGCAGGGCGAAATCGCCTGCAAAGCGTTAGGGATGGCGGTGGATGTCTTGGATGAGCGCGGCGCATCGGTCTACGAAGAGAAAGGCGACCTTGTGTGTACGAAACCATTCCCAAGCATGCCGCTCACCTTCTTCGGTGAAGGCGGCGAAGAACGCTACAGGAAGAACTACTTCTCCAAGCGGCCGGGGATTTGGACACACGGGGACTTAGCTGAACAAACCATCGATCAGTCCTTCATCATTTACGGACGGGCGGATACGACCTTGAATCCCGGCGGCGTCCGGATCGGGACGGCAGAAATCTACGGGGTCGTGGATCATATCAAGGACATTCAAGACAGCGTCGTATTCGGATTACCGAAGGATCATGATGAAGAAATCGTTCTCTGCATCGTGACCGAGCAGCTGAAAGATGACCTGGCGAAAGACATCCGCGGGCAGATCCGGAAGAAGGCTTCTCCACGCCACGTTCCGAAGCGGATTTATCAAGTCGAGGAAATCCCCCATACCATCAATGGAAAAAGAGTCGAAGGAGCAGCGAAAACAGCCGCTTTGGGAGAAGAAGTGAAGAATGAAGCTTCTCTGCGCAACCCATCAAGTCTAAGAGCGTTCCGCAAGCTCTCAGAAAGGACGTTCGTGTAA	MNTPITAQRSPYLWEPSNERIEQSHIKAFADYTNQALFPYERFHRWSVSHLSEFWSAVWDYAGIIGEKGDRVFVPGPSMPDSVWFPDARLNFAENLLRGSLDRIAAYEANEEGLTRSITLQELKQSVAKAQEGLKHLGVQEGDCVAGITTNDIQGLVALLATTSLGATWTSCSPDFGTKGIVDRIGQVKPKVLIAALSYQYKQKPFDIEDKIKQTTEQLEGLSAVVTFGGETSIEDIPTLSWDELCRNEAEEPVFQPVPFNHPLYILYTSGTTGLPKAIVHSVGGTLLQHVKEHQLHCDVQQDDVLFWYTNTAWMMYPWLVSGLASEAAILLYDGSPVRKDSLTHLWDIADEAGITHFGTSPKYLDTLMKAGVDLKSSHSLHSLKSVQSCGAPLAPEQYTWIYQTIKEDLFLASISGGTEIIGCFVMGSPVHPLKQGEIACKALGMAVDVLDERGASVYEEKGDLVCTKPFPSMPLTFFGEGGEERYRKNYFSKRPGIWTHGDLAEQTIDQSFIIYGRADTTLNPGGVRIGTAEIYGVVDHIKDIQDSVVFGLPKDHDEEIVLCIVTEQLKDDLAKDIRGQIRKKASPRHVPKRIYQVEEIPHTINGKRVEGAAKTAALGEEVKNEASLRNPSSLRAFRKLSERTFV				NA	NA	NA	NA	NA
AK012_01991	1155		COG0183	putative acetyl-CoA acetyltransferase	ATGACGACAGTACTTCTAGACGGCATCCGCACCCCCTTCGGTAAGTGGAAAGGGGCTTTGAAAAAGAAATCCGCAGCAGAACTTGGAACGCATGCGCTGAGCGCTCTATTAGAGAGAAACCCGTCCGCAAAACAAGCCGATGGCGTGCTCCTCGCCCAGGTAATTCAGGCGGGAGGCGGCCAAAATCCTGCGAGACAGGCCGCTTATCAAGCGGGGGTGGATATCGCTACACCCGCCATCACACTGAACAATGTCTGTTTGGGAGGCATCGCTACAGTTGCCGACGCCTCCCGCAGGCTGAAATTGAAGGAAGGGGAGCTGTACATCGTCGGCGGATTCGACTCGATGACGAATGCTCCTCATACCGCTCCTGTCCGGGCTTCTAACGGACTCGGTCACAGCCTGCTGAAGGACACCTTACTGAACGACGGGTTATGGTGCGCCTTGAGCGATGTATCGATGGGAGCTCTGACCGATGAGAAGAACCGATCCTTCGACATCAGCCGGGAGGAACAGGATGAATACGCCGCCCTTTCCCAGAAGCGGGCATCGGACGCTCAGGAAAATGGCTGGCTGGAGCCGGAAATCGCTCCTTTTACTGAACGACTCGCAGAAGATGAAGGCATCCGTAAAGGGACGACAGCCGAAAAATTATCGGATCTCTCTCCCGCCTTTTCCAGTGAAGGCACGATCACTGCAGGCAACGCCTCTCAAATGACGGACGGCGCGAGCGTTGGGATCGTTACCACGAAGGAAAAAGCCGAAGCCCTCGGCCAACAGCCGCTGGCGGAAGTCATCGACTGGTCAGAGATTGCCGGACCAGATCCAAGTTTACAAACGAAGCCATCGCAGGCCATTCAGAAACTGTTAGACAAACACCAGTTGACCACGGACGACATCGATCTGTTTGAAATCAATGAGGCCTTTGCCAGTGTCGTGATTGCCAGCTGCCGGGAGCTCGGAATTGGTTATGACCGCGTCAATGTGAACGGCGGCGCGATCGCTCTCGGCCACCCGTTAGGCGGTACAGGCTTCCGGCTCGTTCTGACGCTTGCCCATGAACTGAAACGACGCGGCGGAGGGAAAGGCATCGCTTCCCTTTGCGGCGGTGGCGGCCAGGGGATGGCCCTGTTGATCGACGTTCCCCATTCATAA	MTTVLLDGIRTPFGKWKGALKKKSAAELGTHALSALLERNPSAKQADGVLLAQVIQAGGGQNPARQAAYQAGVDIATPAITLNNVCLGGIATVADASRRLKLKEGELYIVGGFDSMTNAPHTAPVRASNGLGHSLLKDTLLNDGLWCALSDVSMGALTDEKNRSFDISREEQDEYAALSQKRASDAQENGWLEPEIAPFTERLAEDEGIRKGTTAEKLSDLSPAFSSEGTITAGNASQMTDGASVGIVTTKEKAEALGQQPLAEVIDWSEIAGPDPSLQTKPSQAIQKLLDKHQLTTDDIDLFEINEAFASVVIASCRELGIGYDRVNVNGGAIALGHPLGGTGFRLVLTLAHELKRRGGGKGIASLCGGGGQGMALLIDVPHS	PGPT0008320_12508	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
AK012_01994	783			hypothetical protein	GTGTTCAAAAGATTTTCTACTTATGTACTGCTATTAATAACCAGTACTTTAACAGCAGGCTGTGGAGTGACAGACTGGGTAAGTTCCAACGAAATGAAGCCTGAGGAAATTATTCAATCCGCCCAAATAAATATGCAGCAGCTGGAATCCATACGCACGGAAGGCACATCCGTTTTAGAAGGAAATCTATTAGGCTCCTCTTTTGAATATCAAATGTATACAGTTTCGCAATCGAAATTAAAGAAAGGCTCACCTGTCGAAACCTATATGGAAACTTCGATGCTGGGTGAGGGCATACCAGAAAGGACAGAAACCATTTATTTCAGCGATACTCAATACGGGGCCTACAATCCTTCCACCTCTTCCTGGGATATCACTGATTTTACTGCGGAAGATCAAGCAACTGTGCAATTATTCCTATCTTCCTTTGATCCTTCCAGCTCCCTTAACAAATATGCCGATTCCAAGATCAAACAAGACCTAAAAATCATTGGGAAAGAAGATGTGAATGGGGTTTCGTGTATCGGTATTTCCATTGAGACCGACGCAGACGAACTGATCAAAGACATGACGCCCACTTTAACAGCAATAGCAGGCGAATCGATGAATTTAGCAGCTTCTATTGCCGGTGGAATGGTGAAGGATATCAATCTGGAATACTGGATAGGTGAAGCTGACAGTCTCGTATATGGGATGAACATGGAGCTTACAACTCCCTTTGGAAACTACCATTCCGATGTAAAGGTGTATGACCACAACGAACCTTTCGAATTACCAAAATAA	MFKRFSTYVLLLITSTLTAGCGVTDWVSSNEMKPEEIIQSAQINMQQLESIRTEGTSVLEGNLLGSSFEYQMYTVSQSKLKKGSPVETYMETSMLGEGIPERTETIYFSDTQYGAYNPSTSSWDITDFTAEDQATVQLFLSSFDPSSSLNKYADSKIKQDLKIIGKEDVNGVSCIGISIETDADELIKDMTPTLTAIAGESMNLAASIAGGMVKDINLEYWIGEADSLVYGMNMELTTPFGNYHSDVKVYDHNEPFELPK				NA	NA	NA	NA	NA
AK012_01995	288			hypothetical protein	ATGAAGGTTATTATTTGGATCCTTAGAATATCTTTTATCTTTGGAATTGTTTTTACTGCTGTAGAGGGTATGCTTTTCTATGAGGAATATGATTCTGATCTACTTTTAGTTGATTCTGCTGTACAAGCTACTCAATTATCAAATGAATACATGTTAAGATCGATTAGCCATTTAATGTTTCTAGTGGCTGAAGGAGTATTTTACATCACATTTGAAATTGCTGTGAACACATTCTATGTGAAGAAGTCAAAGAAAAAGGAAAGTCAGCCCCTTCCATTAAGTGCTTAA	MKVIIWILRISFIFGIVFTAVEGMLFYEEYDSDLLLVDSAVQATQLSNEYMLRSISHLMFLVAEGVFYITFEIAVNTFYVKKSKKKESQPLPLSA				NA	NA	NA	NA	NA
AK012_01996	1509			hypothetical protein	ATGGAAAAGTTATCTAGTGGTTTCAGGATAAATCGTGCTTCTGATGATGCAGCTGGACTATCGATCTCGGAAAAGATGAGAGGTCAGATCAGAGGACTGGAGCAGGCTCAAAATAATATCCAGGATGGAATAAACCTGAGTATAATAGCCGATAGCGGGTTGGAGGGAGTACAGCAGCAGCTACATAGAGCAAGAGAGTTAGTTATACAAGCTGGAAATGGTACTTTAACAACGAGTGATAAGCAGGAAATCCAAAAGGAACTGGATCAGATAAAAGAAGGTATTAATGATATAGCTCATGGCACAGACTTTAATGGTATAAACCTGTTAAATGGACAAAAGCCCCATCACTCTTCTGCAAATGATAACCAGCCACGGTTCAATTATGAAAATGTATTGTCATTGAATGTAGATGCAGCAGGACAACTGGCATTGAAAACAGGGGAGGGGTATCCATCTACGTCCGACGATGATAATAAAATATTAATCTATGGGGAGGGGGATACGTCTCATCCGGCCGTTCTTATTGATGGTACCGCCCACCGATTAGGGCCGGAAAATGTATCCACTCAAACCATTCATGAGTCTGGTGTATATAAAACGGTCTTTACAGTAGAAAATGTGGAAGTCACGCAGACCGCTCAGATTATAGAAGATAAATTTGAATTTGATTATTCAATGAAAAATCTAGGCAGCGGAGAAAAGGAAATCGGATTTTACTTTCACATCGATACGATGCTGGGAGATGATGATTGGGCACCATTTAAAGTCAATAATGAAGACATCACTGAAGAAGAAGCTTACAACGGAGCTGACCTGCCGGATTCCTTCACCGTTTATAATAACAATGGCAATCAAGATATCAAAGCCCAGGGGATCATTTCAGGTGAGGGTATTAAAGTGCGTCCCGATGAATTCAGGGTTGGGAAATATTCGGATGTAGCTCAACCTATGACTTGGACAGATACAAATGAAGCGGTAGGAGACAGCGGCTATGCCTTGAAATGGGAAGAAAGAAGTGTCTCAGGAAATGATACGTTTTCTGTAAATACCTTTTATGGAATATCCGTCCCTCCCACTATTGAAGATCCTACAGAAATAGTTGAGGAAGGTCCCTATGATATAAAAATACAGGACGGCCCTAACAGCGGCGATCAATTCCGTATTCAACTCTCAGATGTCCGGACAGAAAAGCTGGGTGTGGGGGATATGGCTGTAGATCCTTATGAAGAAATACAAAGAGCTTTGGAACGTTTGGACAGCGCTGCGACTCTAGTTTCATCAGAGCGGAGTAAATATGGCAGTTATCAGAACAGGCTGCAGTTCAAGCAGAATTATGCCTCTAATTATCATGAAAATCTTACTGCAGCAGAATCCCGTATCCGTGATGCAGATATGGCAAAAGAAATAATGAATCAAACCAAAAACTCTATTCTCGGCCAGACGTCACAAGCCATGCTGGCCCAGGCGAACAATGCGCCTCAAGCTGTATTGCAGTTACTCAAATGA	MEKLSSGFRINRASDDAAGLSISEKMRGQIRGLEQAQNNIQDGINLSIIADSGLEGVQQQLHRARELVIQAGNGTLTTSDKQEIQKELDQIKEGINDIAHGTDFNGINLLNGQKPHHSSANDNQPRFNYENVLSLNVDAAGQLALKTGEGYPSTSDDDNKILIYGEGDTSHPAVLIDGTAHRLGPENVSTQTIHESGVYKTVFTVENVEVTQTAQIIEDKFEFDYSMKNLGSGEKEIGFYFHIDTMLGDDDWAPFKVNNEDITEEEAYNGADLPDSFTVYNNNGNQDIKAQGIISGEGIKVRPDEFRVGKYSDVAQPMTWTDTNEAVGDSGYALKWEERSVSGNDTFSVNTFYGISVPPTIEDPTEIVEEGPYDIKIQDGPNSGDQFRIQLSDVRTEKLGVGDMAVDPYEEIQRALERLDSAATLVSSERSKYGSYQNRLQFKQNYASNYHENLTAAESRIRDADMAKEIMNQTKNSILGQTSQAMLAQANNAPQAVLQLLK	PGPT0015190_587	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
AK012_01997	657	rspR_3	COG1802	HTH-type transcriptional repressor RspR	ATGAATAAAAAGAAAAACGAAGAAATTGCGTATGAAAAGATTAAGCGGGCCATTATGCTGAAGCGCCTGGTGGCAGGACAGCGGGTAACGGAAGACTGGGTAAGTAATGAGCTTGAAATGAGCCGTACGCCCATCCGTGCCGCCTTTACCAAACTCGAAAATGAGGGATTGATTGAACTTGTTCCACACAGAGGCGCTTTTGTCTGCAGTCCCTCTGATAAAGAGCTCGAAGATGTGTTCAATCTCCGGATCGTTCTTGAAAGCTATGCGGCAGAGCTGGCTGTTCATCAAATGACGAGTGAACATTTTCAAGAAATGGATCGACTGTTAGAGAAAGAAGTAAAGGCTTATGAGGATAAAGATTATGAGGAATTCCTCCGTATCAATGCCCTTATTCACGCGTACCCGGCGCAAGTGTCGGGGAACAGGTTTCTTCTTCAGGAAATCCAAAGGCTGAACCAATGGTCTGACTGTTATTTGATTCTAAGAGACAACTTTTATACAACACCGATGGATGAGGTTCTCTCCGTACCCGAGCACTTGGCGGTGGTGAAAGCGCTGAAGAAACGTGATGTGGCCGCTGCTAAAAAAGCGATTGAAGCCCATATGCTGTCCACGCTGACGGACCTTGCAGAGCGAACGTCCATTTTCAATTGA	MNKKKNEEIAYEKIKRAIMLKRLVAGQRVTEDWVSNELEMSRTPIRAAFTKLENEGLIELVPHRGAFVCSPSDKELEDVFNLRIVLESYAAELAVHQMTSEHFQEMDRLLEKEVKAYEDKDYEEFLRINALIHAYPAQVSGNRFLLQEIQRLNQWSDCYLILRDNFYTTPMDEVLSVPEHLAVVKALKKRDVAAAKKAIEAHMLSTLTDLAERTSIFN				NA	NA	NA	NA	NA
AK012_01998	1350	davT_2	COG0160	5-aminovalerate aminotransferase DavT	ATGACAACACACGCGTCCATCCAAACACAGCTTCCAGGTCCTAAGGCAGGTGAGCTTTTAGAAAGGCGTCACAACATTGTACCGAATGCCGTCAGTTACGGCATCCCGACGTTTGCGGCAAAAGCAGAGGGAGCGAAGGTGACCGATGTGGATGGCAATACGTTCATCGACTTCGCCGGTGCGATTGGCACAATCAACGTCGGACACTGCCATCCGACCGTGAAGGCAGCTCTCCATGATCAGGTTGATCAGTACATCCACACGGGTTTTAACGTGATGATGTATGAACCCTATATTGAACTGGCCGAGAAGCTGGCGGCCCTTGCTCCTGGCACACACGATAAAAAAGTGCTGCTGCAGAACAGCGGAGCGGAAGCGGTGGAGAATGCGGTGAAAATCGCAAGGAAATACACGGGAAGGCAGGCCGTCGTTACGTTTGAAAATGGCTTTCACGGCCGGACGTTGATGACGATGTCGATGACGAGTAAGGTGAAGCCTTATAAGTTCGGCTTCGGACCTTTTGCTCCGGAAGTGTATAAGGCACCCTTCCCGTATCCATATCGGAAGCCGGAAGGGATGAAGGATGACGAGTACAGCGCGTTTATGATCGAAGAATTCAAGAAATTCCTCCTCACAGAAGTTGCCCCTGAATCTATCGCAGCCGTCGTTATGGAGCCGGTGCAGGGAGAGGGTGGCTTCATCGTTCCTGAAAAGAGCTTTGTCCAGGCGGTTAAAGGATTGTGCGAGGAACACGGCATTCTTTTTGTTGCTGATGAAATCCAGACGGGCTTCGGCCGGACAGGAAAGTATTTTGCGATTGATCACTATGATGTGACGCCGGATTTGGTTACCGTATCCAAATCACTAGGAGCGGGAACGCCGATCAGCGGGGTCATCGGACGCCGGGAAGTGATGGATGCAGCCGGTGCTGGTGAGCTCGGGGGTACATACAGCGGGAATCCATTAGGATGCCGTGCGGCTATTGCGGCTATTGAAGTCATTAAAAATGAGAGGTTGAATGAGCGGGCTGTTCATATCGGAAATCTCGTCAAAGACAGGTTCCATCAGTTATCCGAAGACCTCGATTGTATCGGTGAAATCCGTGGCCTCGGGGCCATGGTGGCTGTAGAGATTGTAGAAGACAGGGAAACGAAGGCACCGGACAAGCTGTTGACTCAGAAAGTCATTTCCGAAGCCCAGCATGCAGGACTACTCGTGTTAGGGGCAGGTTTGTACGGGAATGTCATCCGCTTCCTGATGCCGCTTGTCATTACAGATGAAGAATTAGACGAAGGATTATCCATTTTAGAAGCAGCGATCAAGAACTGCTCGACACCCCAGCATGTGTAA	MTTHASIQTQLPGPKAGELLERRHNIVPNAVSYGIPTFAAKAEGAKVTDVDGNTFIDFAGAIGTINVGHCHPTVKAALHDQVDQYIHTGFNVMMYEPYIELAEKLAALAPGTHDKKVLLQNSGAEAVENAVKIARKYTGRQAVVTFENGFHGRTLMTMSMTSKVKPYKFGFGPFAPEVYKAPFPYPYRKPEGMKDDEYSAFMIEEFKKFLLTEVAPESIAAVVMEPVQGEGGFIVPEKSFVQAVKGLCEEHGILFVADEIQTGFGRTGKYFAIDHYDVTPDLVTVSKSLGAGTPISGVIGRREVMDAAGAGELGGTYSGNPLGCRAAIAAIEVIKNERLNERAVHIGNLVKDRFHQLSEDLDCIGEIRGLGAMVAVEIVEDRETKAPDKLLTQKVISEAQHAGLLVLGAGLYGNVIRFLMPLVITDEELDEGLSILEAAIKNCSTPQHV	PGPT0007660_475	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	INSECTICIDAL_COMPOUNDS	INSECTICIDAL-GAMMA-AMINOBUTYRIC_ACID_BIOSYNTHESIS,PGPT0007660-gabT-K07250	NA	NA
AK012_01999	1416	gabD_3	COG1012	Succinate-semialdehyde dehydrogenase [NADP(+)]	ATGAATATCGTCATTGACGGAGAACAAATACAGACAGATAAAACCTTCCCGGTCTATAATCCGATCAACGGAGAAATCGTTGCTTCTGTACCGGATGCCGGAGAAAAAGAAGCGAAGCAGGCGGTGGAAGCTGCCCATCGTTCCTATCAAGCTTGGAAAAATACGACGGCGGATGAACGCGCTGCTTTTCTAACGAATTGGTTTCAATTGATAGAGGAGCACACCGATGAGCTCGCTGAAATCATGACAAAAGAGCAGGGCAAGCCGCTGAAGGAAGCCAAGGGCGAGATTGGGTATGCCAACAGCTATATCTCCTGGTATGCCGCGGAAGCGAAGCGTGTGTACGGGCAGACCATACCAGCCTCCAAGCCTGATAAGCGGATTCTCGTTCAAAAGCAGCCTGTCGGAGTGGCAGCGGCGATTACGCCGTGGAATTTTCCGGCGGCAATGATCACTCGGAAAGTCGCGCCCGCCATTGCGGCAGGGTGCTCAGTCCTGATTAAACCAGCAGAAGAAACGCCTTTAACGGCGATCCGATTAGTAGAATTGGCTATAGAAGCGGGGGCACCTGCAGGGCTGATCAACGTTCTGACCGGTGATGCGGAAACAATCAGTGATGTGTGGCTCTCAGATTCCAGAGTAAGGAAGCTGTCATTTACAGGATCCACGGAAGTCGGGAAGCTGCTTATGAAAAAATCTGCGGATACGATGAAGCGAGTGTCCTTGGAACTCGGTGGGCAGGCTCCTTTTGTCGTGCTGGCGGATGCAGATCTTGATAAAGCGGTCGCTGGAGCGATGGCCTCGAAGTTCAGAAATGCCGGGCAGACGTGTATCTGCTCCAATCGTTTCTTTGTTCATGCATCCATCGTTGATGCTTTTACCGACAAATTAAAAGCAGCTGTTGAAGCGCTTAAAGTCGGTGACGGCATGGACCCTGATACAGATATCGGCCCGCTTATTAATCAGAGCGCCTGCGATAAAGTAGCTCGACATATTGAAGATGCGGTCTCCCGAGGGGCAGAGCTTGTAACCGGTGGAGCGGACTCCATCTCTGAAGGAAGTCTTATCATGCCGCCGACGATTTTGAAAAACGTCGATGAGTCCATGATCTGCATGAAGGAGGAAACGTTCGGTCCCGTCGTACCGATCACATCGTTCAGTGATGAGGAAGAGGCTCTACAACAGGCGAATAATACCCCGTTCGGTCTGGCCGCTTACTTGTTCACGGAAAATATGAGTAAAGCGTTAACCCTCTCGGAAGCTCTGGAATACGGCATCGTCGGTGTCAATGACGGAGCCCCGTCGGCTGCTCAGGCACCATTCGGAGGATTCAAGGAAAGTGGTCTCGGTCGAGAAGGTGGCCCCCAGGGGATCGAGGAGTATCTGGAAACGAAATACATTTCATTAGGTCTTTAA	MNIVIDGEQIQTDKTFPVYNPINGEIVASVPDAGEKEAKQAVEAAHRSYQAWKNTTADERAAFLTNWFQLIEEHTDELAEIMTKEQGKPLKEAKGEIGYANSYISWYAAEAKRVYGQTIPASKPDKRILVQKQPVGVAAAITPWNFPAAMITRKVAPAIAAGCSVLIKPAEETPLTAIRLVELAIEAGAPAGLINVLTGDAETISDVWLSDSRVRKLSFTGSTEVGKLLMKKSADTMKRVSLELGGQAPFVVLADADLDKAVAGAMASKFRNAGQTCICSNRFFVHASIVDAFTDKLKAAVEALKVGDGMDPDTDIGPLINQSACDKVARHIEDAVSRGAELVTGGADSISEGSLIMPPTILKNVDESMICMKEETFGPVVPITSFSDEEEALQQANNTPFGLAAYLFTENMSKALTLSEALEYGIVGVNDGAPSAAQAPFGGFKESGLGREGGPQGIEEYLETKYISLGL	PGPT0001580_5439	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
AK012_02000	963	gbh		Guanidinobutyrase	ATGTATAAACCGATTGATTCTTCATTGTCCCCACGCTTTTGCGGGTTGAGCACGTTCATGAGATTGGAAGCTGTGAGAACGGAGGAAAACGTCGATTTCGCTGTGCTCGGGGTTCCTTTTGATACGGCAGTTTCAAACCGGACAGGTCAAAGAGGCGGCCCACAGCATATCCGGAACTCATCCGTGCTGCTGCGCCCGTACAACCCTGATCAGGACATCAATATTTTTGACTATGCGTCTGGTGTCGATTATGGCGATATCGATGTGATCCCAGGCAACATCCACCGTACATACGACAACATCGTCGAAGGACTGGAACCTCTTCTTGAGAAATCCGTCACGCCGATCATTTTAGGCGGTGATCATTCGATTTCCCTTGGAAACCTGCGCGCCTTCCATAAAAAATACGGCAAGATGGCGTTTGTTCATTTTGACAGCCACGGCGATACGTGGGACGACTATTTTGGTGAAAAGTATATGCACGGGACACCATTCCGGAGAGCGGCGGAAGAAGGGCTGCTGGATATGGATCGTTCGATACAAATTGGTTTACGCGGACCTCTTTACGGACCGGAAGACTATAAGGATGCCGAAGACCTCGGCTTTGAAGTCCTGCCGATGAAAAAGGTCCGCAAGATGGGCTATGAAAAAGTCATCGAACGCATTCATGAGAAAATCGGACCGGACCATCCGGTATTTGTCAGCTTCGACATCGATTTTGTGGACCCGGCTTATGCACCGGGAACAGGAACGCCTGAAGTCGCAGGGCCGACGAGCTTTGAAGCGCTGGAATGCGTGAGAGGCCTGCATGGACTGAACCTTGTCGGATTCGATTTAGTGGAAGTGCTGCCGACGTACGATGCCGGTGATATCACAGCAGGTCTTGCTTCTGCCGTTGGCTTTGAAATGATCAGCCTCGTCGCGATGAAAAAAAGAGCAGAACAGAAGGCTTTGACCAGATAA	MYKPIDSSLSPRFCGLSTFMRLEAVRTEENVDFAVLGVPFDTAVSNRTGQRGGPQHIRNSSVLLRPYNPDQDINIFDYASGVDYGDIDVIPGNIHRTYDNIVEGLEPLLEKSVTPIILGGDHSISLGNLRAFHKKYGKMAFVHFDSHGDTWDDYFGEKYMHGTPFRRAAEEGLLDMDRSIQIGLRGPLYGPEDYKDAEDLGFEVLPMKKVRKMGYEKVIERIHEKIGPDHPVFVSFDIDFVDPAYAPGTGTPEVAGPTSFEALECVRGLHGLNLVGFDLVEVLPTYDAGDITAGLASAVGFEMISLVAMKKRAEQKALTR	PGPT0007775_1300	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
AK012_02001	1389			hypothetical protein	ATGCAACCACAAGAAAGAGTAGAACAATGGGAGGAAAAAAGAACGTCGACGTTCGCCAAAAGTGATTACATGAAGTTTATCATTCCATCCGTTTTTGGCGCTCTGCTTTTCTTAGTGCCCATCTATTACAACGGAAAAGTCACGATCGGTGTCGGGATTATGGCAGAATCGCTTCAAACCATTTTTGAACCGTACCTGTATATTTTCATGACGGTTATTCTCACCCTGTCAGCTCTCGGGGCGGCTTATACGAAAGCCGCCAAACCCGGGTGGATCATGAAATCGAGCTTTCTACAATCGCTCTTTTATGTCCATCCTTTTTGGCTGACCATCCGTACGATGGGCGCTGCATTTGCCATTTGTACGATTTTTGAATGGGGTCCGAGCTGGCTCTATGCCGATATTACCGGGGGAACGGTCCTTTATTCCTTGATTCCCGTTCTGACGACATGGTTTTTGTTTGCCGGCTTACTGATGCCTTTAATGCTGGAGTTTGGCTTAATGGAATTTGTTGGCTCCATCTTCCGGAAGATCATGTATCCCCTTTTCAAATTGCCGGGACGTTCCTCCATCGATGCGTTCGCTTCATGGATGGGAAGCGGCACGGTTGGCGTTCTCATTACCACAAGACAGTATGAAGAAGGCTTTTATACCAAACGTGAAGCAGCCGTCATCTCTACCACTTTCTCCGTCGCTTCCATCGCCTTCAGCTTAGTCGTTATTACCTTCATCGGACTTGAACACATGTTTGTCCCGTTTTATTTAACAACGGTAGTGGCCGGGTTGGCTGCTGCTGTCATTTGTCCGCGTATCCCTCCTCTATCGAAGAAAAAAGATGAATACTATGAACCCGTCGGAAAACAGATCAGTGAAGCGGTTCCTGAGAACACATCTGATTTCCAATGGGGACTGCAGAAAGCATTGGAAAAAGCGCAGAAAGTCACCGGATTCAAGCAAGTAGCCAAGCAGGGCGCCCAAAACGTTCTGGATATATGGTTCGGCCTGCTGCCTTTAGTAATGGCGCTTGGAACCCTCGCCTTGATTTTAGCCGAGTTCACACCCGTCTTTACGTATCTGTCCTATCCATTCGTCGGACTGTTGAATCTCCTGCAGATCCCATCTGCGGTAGAAACCGCACCAGCGATGCTCGTTGGTTTTGCGGATATGTTCCTTCCTGCTGTCGTTGGAAGCGGGATTGAAAGTGAGCTGTCCAGGTTCGTCATTGCTGCTGTATCATTGACTCAGCTGATTTACATGTCTGAAGTGGGTATTCTGCTTATTAAATCGAAAATTCCGGTCGGTATTGTCGACCTTATTGTGATTTTCCTGCAGCGGACGTTGATTACGCTCCCGATTATAGCTGTGATGGCACACGTGTTCTTTTTTTAA	MQPQERVEQWEEKRTSTFAKSDYMKFIIPSVFGALLFLVPIYYNGKVTIGVGIMAESLQTIFEPYLYIFMTVILTLSALGAAYTKAAKPGWIMKSSFLQSLFYVHPFWLTIRTMGAAFAICTIFEWGPSWLYADITGGTVLYSLIPVLTTWFLFAGLLMPLMLEFGLMEFVGSIFRKIMYPLFKLPGRSSIDAFASWMGSGTVGVLITTRQYEEGFYTKREAAVISTTFSVASIAFSLVVITFIGLEHMFVPFYLTTVVAGLAAAVICPRIPPLSKKKDEYYEPVGKQISEAVPENTSDFQWGLQKALEKAQKVTGFKQVAKQGAQNVLDIWFGLLPLVMALGTLALILAEFTPVFTYLSYPFVGLLNLLQIPSAVETAPAMLVGFADMFLPAVVGSGIESELSRFVIAAVSLTQLIYMSEVGILLIKSKIPVGIVDLIVIFLQRTLITLPIIAVMAHVFFF				NA	NA	NA	NA	NA
AK012_02002	750	ydjF	COG1349	putative HTH-type transcriptional regulator YdjF	ATGATACAAGCAGAAAGACGGTTTGAGATTTTGAAACATCTTCACACAGAAGGAGCGGTTTACATTGATCAATTATCCTCCCTGTTTGATGTGTCACCGATGACCATTCGAAGGGATCTTGCTTCGCTCGAAGAAGAAGGCAGACTCATTCGTTCCCATGGTGGCGCAGTTTTGCCGGAAACATTGACTCAAGAGATACCTTATCAAACGAAGCTGTCCAGTTATACAGCAGAGAAACAAGAAATAGCCAGAAAAGCGGTCGAACGTATTCCGGAGCATTCCAGAGTGTTATTGGACTCCGGAACAACCAACCTTGAAATCGCTAAGCTCTTAAGCAAGAGAGATGACCTTTTAATTGTGACCAACGATGCGAAAATATCTATGGAACTCCTCAATTCAGAATGCCAGGTCATATCAACAGGGGGAGAACTCCAGAGAGGTGTCGGTGCTTTCATCGGTGCCCATGTACAGGAATTTTTGAAACAGATTAAAGTGGATATCGTCTTTATCGGCGCAAATGCTGTTCATCCAACAGAGGGGATTTCGACTCCTACGCTAGAGAAATCGTACATCAAAAAGCAGATGCTCAAAAATGCGAGTGTCAAATGGGTCGTTGCAGATTACAGTAAATTCAACAAACGATCTTTTGCTCACGTATGTGACTTAGAAGAAATCAACGGTATTATCACAGGTGGTCAAATAGATAGTAATACAGTCGAAGAATTACTGAAAGTAACCAACGTCTATTAA	MIQAERRFEILKHLHTEGAVYIDQLSSLFDVSPMTIRRDLASLEEEGRLIRSHGGAVLPETLTQEIPYQTKLSSYTAEKQEIARKAVERIPEHSRVLLDSGTTNLEIAKLLSKRDDLLIVTNDAKISMELLNSECQVISTGGELQRGVGAFIGAHVQEFLKQIKVDIVFIGANAVHPTEGISTPTLEKSYIKKQMLKNASVKWVVADYSKFNKRSFAHVCDLEEINGIITGGQIDSNTVEELLKVTNVY				NA	NA	NA	NA	NA
AK012_02003	1296	denK	COG3395	D-erythronate kinase	ATGAACAATATTGTCGTGCTTTGTGACGACCTGACTGGAGCCAATGCAACAGGAGTAAAGCTAAATAAAAAAGGGTTCAAAACGGCAACCATCATTCATGGTCTGCCTGTTCCGGATGCTGGATACCAAGCGATCTGCTTGGACACTGACAGTCGCTATGCTTCAAAGGATCTGGCAAGAAGCAGGGTGAAAGCAGCCCTTGAGAAGAGTGAACGTGTTGGACAGGGGGGAATTTACAGTAAGCGAATCGATAGTACTTTGAGAGGAAACATCGGAACCGAAATGGAGACAATGCTTGAATTCCTCGGCGAGGATGCAGTAGCTGTAGTCGTCTCCTCCTTCCCGGATTCGGCGCGAACCACTATTGGAGGATTTTTATTGGTGGACAATATTCCTCTCCAACAAACAGATGTAGCAGCAGACCCCGTTAAGCCTTTAACTACGTCAAAAGTGGAGGAAATCATACGATGTCAGACGTCCCTGCCAATTACTTCCATAGGTCTCGATATGGTCATGGGTGATCCGGCTGCATTAAAGAAAAAAATTGATGACGTAAAGCAACATTCGAAAGTCATTTGTTTCGACGCTGTTACCGATGAGCATATTGAGTCGATTGCGGAAGTTGTCAAAGACATCGACAGTCCTATTCTTGCCGTAGATCCGGGCCCATTCACCGCTGCCTATGCAAGTAAGAAGTTGAACCATGTCCGAACGAATGAAAAATATTTAATAACCATAGGCAGCGCCACTTCCCAAACCGGTCTTCAAATTGATTATTTCACGCAGAAAACAAATGTTAAACCGATACATGTGGATCCTGCTCGCCTGGCTACTTTTTCAGAAACTTGGGATCAGGAAGTAAATCGGATAGTCGATATAGCGGAGGAAAGAATTAGGGACAGCGATATTCTGCTCGTGACAACCTATCATCCGGGACAGAAGATGCTGAACCTTTCTCAAATAGCAGAGGGAGAAGGGACAACGGAAGAAGGGCTCGCCAAGAGAATAACAGATGGTCTCGGCGTCATCAGCCGCCGGCTTTTGCAGAGTCATAGTGAATCATTTAAGGGCTGCTATTTAAGTGGTGGAGATGTAACTGCTTCTGTAGCCTCGATCACTAGAGCACATGGGATTGCCCTAAAAGACGAAATACTACCGCTTGCCGCCTATGGAAACTTTACAGGAGGCTATCTGGATGGCCTGCCGATAGTCACTAAGGGTGGAATGATTGGGGATAAGAAAGCTTTGTACACTTGTATGAACTATATGATGTCTTCTACAAAAAACTATAATTAA	MNNIVVLCDDLTGANATGVKLNKKGFKTATIIHGLPVPDAGYQAICLDTDSRYASKDLARSRVKAALEKSERVGQGGIYSKRIDSTLRGNIGTEMETMLEFLGEDAVAVVVSSFPDSARTTIGGFLLVDNIPLQQTDVAADPVKPLTTSKVEEIIRCQTSLPITSIGLDMVMGDPAALKKKIDDVKQHSKVICFDAVTDEHIESIAEVVKDIDSPILAVDPGPFTAAYASKKLNHVRTNEKYLITIGSATSQTGLQIDYFTQKTNVKPIHVDPARLATFSETWDQEVNRIVDIAEERIRDSDILLVTTYHPGQKMLNLSQIAEGEGTTEEGLAKRITDGLGVISRRLLQSHSESFKGCYLSGGDVTASVASITRAHGIALKDEILPLAAYGNFTGGYLDGLPIVTKGGMIGDKKALYTCMNYMMSSTKNYN	PGPT0018125_130	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
AK012_02004	1008	pdxA2	COG1995	D-erythronate 4-phosphate dehydrogenase	ATGAAAAATAACCAACCTGTCATAGTAATTCCAATTGGAGATCCCGCTGGTATCGGACCTGAAATTGTTATCAAATCCTTAGCAAAGCAGGAAATTTATGATGTATGTAATCCTGTTGTCATTGGTGATCAAGGCGTCCTGAAAGTAATCATGGAATCCATTAATACTCACCTGAACTTGAATGTTATCAAACAGACGTCAGAAGCACTTTTTAAAACCGGTACCATCGATCTGATGCATCTTGACAATGTCGACCTCGACAAGTATGAAATGGGGTCTGTTTCGGGGATGTGCGGGCGTGCTTCCTATGAGTATATTAAAGCAGCTCATGACTTAATTGAGTCTGGAGAAGCTGACGCCATCTGTACTCCTCCAATAAACAAGGAGTCCCTGCAAGCAGCAGAAGAAGTCCCTTATATTGATCATACAGCGATGCTGTCAGCGTTTACAAAGGCTGATGATCCGATGACGATGTTTGAAGTAAACGACTTGCGCATCTTTTTCCTTACCCGTCACGTTTCTCTCGCCGATTCCATTCCTATGATGACAAAGGCGCGGGTGGAAGATTACTTGATTCGTTGTAAGAAAGCTTTGGAGTTGTTGGGGATAGAAGAGCCAAAACTGGCGCTTGCCGGTTTAAATCCCCACTCTGGAGAAGGCGGGCTGTTTGGGCGCGAAGAGATAGAAGAGCTGAAGCCCGGTTTAGAAGCTGCTCGTGAACAAGGAGTTGATGTGAATGGACCAGTTCCAGCAGACTCTGTTTTCCATCAGGCTGCAAACGGAAGATATGACGCTGTGCTTTCGTTATATCATGACCAAGGGCACATTGCTGCAAAAATGTACGACTTTGAACGGACTGTATCTGTGACAAACGGTCTCCCGTACTTGCGCACCTCTGTTGATCATGGGACGGCTTTTGATATTGCTGGTAAAGGAATAGCAAGTCCGGTCAGTATGGTGGAAGCTATTAAGGCTGCAGCGAAATACACACCATTTTTCAAAAAATAG	MKNNQPVIVIPIGDPAGIGPEIVIKSLAKQEIYDVCNPVVIGDQGVLKVIMESINTHLNLNVIKQTSEALFKTGTIDLMHLDNVDLDKYEMGSVSGMCGRASYEYIKAAHDLIESGEADAICTPPINKESLQAAEEVPYIDHTAMLSAFTKADDPMTMFEVNDLRIFFLTRHVSLADSIPMMTKARVEDYLIRCKKALELLGIEEPKLALAGLNPHSGEGGLFGREEIEELKPGLEAAREQGVDVNGPVPADSVFHQAANGRYDAVLSLYHDQGHIAAKMYDFERTVSVTNGLPYLRTSVDHGTAFDIAGKGIASPVSMVEAIKAAAKYTPFFKK	PGPT0018130_352	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ERYTHRONATE_UTILIZATION,PGPT0018130-pdxA2-K22024	NA	NA
AK012_02005	1374	ygbN	COG2610	Inner membrane permease YgbN	GTGGAAGCACCAGGTGGACAAATAATATTAGGTTTGGTTATTGGTATTGCTCTGCTTGTTTTCTTAGTTATGAAAACTAAAATACATGCCTTTATCGCATTGATTATTTCAGCCTCGATCATCGGTTTAGTAGCAGGTATGACTCCTCCCAATGTGGCAGATGCTATAACAGATGGCTTTGGGGGAACCCTTGGTTCAATCGGTATCGTCATCGGTTTTGGAGTCATGTTAGGGCGAGTCATGGAAGTCGCGGGTGCTTCAGAAAGGCTTGCCTATTCATTCGTGAAAATGTTAGGGAAACGACGAGAGGACTGGGCGATGGCGTTAACTGGTTACGTCGTTTCCATTCCTATTTTTGTCGATTCAGCATTTGTTATTTTAACGCCGTTATTGAAAGCGATTTCAAAGAAAACCAGACGTTCTATCGTAACCTTGGGTGTCGCACTGGCCATCGGACTAGTAGTAACGCACTCGCTCGTTCCTCCTACTCCAGGACCGCTCGGGGTTGCAGGAATATTCGACGTCAGTGTGGGGCTCATGATTTTATGGGGGCTGATTTTCTCTATTCCACTGATCATCGTCGGTGTATTCTATGCAAAATGGATAGGTAAACGAATTCACCAGCTTCCGGACGAAGAGGGGTTAGGATGGATACGGCCGGAACAGCCGGCTGATACTTATGAAGAATTTATTAATCAGCAAGAGAACAAACGTCTGCCATCCCTATTCATGTCTATGGCTCCAATCTTAATACCGATTTTATTAATTTTTGCAAACACAGTCGTCTCTGCGCAGGAATTAACAGAGGGGATCTTCGGCTATATTCAATTCTTCGGGAACCCTGTTATTGCTGTCGGTATCGGTTTGGTTTTTGCGATTTATACTTTGACGACGAGGTTAAGCCGTACAGATTCTCTTGACCGAATGGAAGAGGGGATTAAATCTGCAGGTATTATTTTACTTGTCACAGGTGCTGGTGGCGCTCTGGGAAACGTTCTTCGTGAAAGTGGATCAGGGGACTATGTTGCTGAATTGATTGTAAACATGTCCGTGCCGCTCGTTCTTCTGCCGTTCTTTGTTTCTAGCTTTGTACGACTAGTTCAAGGAAGTGGAACAGTGGCAATGATTACGGCGGCTTCCATCACCGCTCCTATATTAGCGGGAGTGGATGGAGTGTACATGCCCCTTGCAGCAATAGGAGCAACAACAGGGTCACTATTGTTCTCTTATTTTAATGATAGTTTTTACTGGGTTGTGAACCGTATGCTTGGTATTAAGAATGCGAAAGAACAAATAATGGTATGGTCAATACCAACTACTCTGGCATGGCTGACGGCTTTTGTTATGTTGGTTTTAGTTTCATTCTTTGTTTAG	MEAPGGQIILGLVIGIALLVFLVMKTKIHAFIALIISASIIGLVAGMTPPNVADAITDGFGGTLGSIGIVIGFGVMLGRVMEVAGASERLAYSFVKMLGKRREDWAMALTGYVVSIPIFVDSAFVILTPLLKAISKKTRRSIVTLGVALAIGLVVTHSLVPPTPGPLGVAGIFDVSVGLMILWGLIFSIPLIIVGVFYAKWIGKRIHQLPDEEGLGWIRPEQPADTYEEFINQQENKRLPSLFMSMAPILIPILLIFANTVVSAQELTEGIFGYIQFFGNPVIAVGIGLVFAIYTLTTRLSRTDSLDRMEEGIKSAGIILLVTGAGGALGNVLRESGSGDYVAELIVNMSVPLVLLPFFVSSFVRLVQGSGTVAMITAASITAPILAGVDGVYMPLAAIGATTGSLLFSYFNDSFYWVVNRMLGIKNAKEQIMVWSIPTTLAWLTAFVMLVLVSFFV	PGPT0001340_1280	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
AK012_02006	705			hypothetical protein	ATGGTAAGGAGCTTCATCTCAAGTCATTCAATAAAGAGCGTTTTTCTGAAAAAAACAGTCACGTACAGATTGCTGAAATCAGGGGAAGCCCTAGATGATTGTGTCGACCTTCTTTTAGTTCATGATGGAGACGATTATTTAGAACTTGGGAAGCTGAAAGAACAGTTTGAGAACGATTTACAGAAAGGACTGGGGAGAAACACTTGCTTCATCCTTTTACCACCAGGCACCTCCATAGACCGTTGGCATTATTACCATTCTGAAGGCAGAGATGTGCAGGCATTCCAACAGTTTATTTATGAAGAGCTGTTGCCGGAACTCAGGGAGACATTCAAAATCAGAAAGCTCGGAATGCTGGGGGATTCACTAGCAGGAGCAGTAAGCTTGCGACTTGCCCTGCATGATCCGAATCAATGGACCCATATCCTTCTTCAATCTGCCGCTTTTTCTGAAAAGGATATAGAAGGTGGAGCAAATCTCCATAAAGGTCTGCCCTGGGTGATCTATCAATCGGTAGGGACAGAAGAAGATGACTTTGTTTCCCCCATTACGAATGAATATCTCTACATACTTACAAGAAACCGACAACTAAAAACGAGTATTCAAACAGCACAACATATTTATGTCGAGGGCGATCATGGTCACTTATGGGAATGTTGGCGGGAAGATCTATCCTCCGCCGTTAACATATTTTATACAAAATAA	MVRSFISSHSIKSVFLKKTVTYRLLKSGEALDDCVDLLLVHDGDDYLELGKLKEQFENDLQKGLGRNTCFILLPPGTSIDRWHYYHSEGRDVQAFQQFIYEELLPELRETFKIRKLGMLGDSLAGAVSLRLALHDPNQWTHILLQSAAFSEKDIEGGANLHKGLPWVIYQSVGTEEDDFVSPITNEYLYILTRNRQLKTSIQTAQHIYVEGDHGHLWECWREDLSSAVNIFYTK				NA	NA	NA	NA	NA
AK012_02007	1302			hypothetical protein	TTGAAGAAGTTTTCATTTTTGTTGGTGATTACCTTTTCTTTCATGCTGATTCTAGCTGCTTGTTCAGGTTCAAGTGAAGAAGGGTCGGCGGAAGGAGAGGATTCTTCCGATTCCGGAGAAACTTCGGAAATTGAGTTCTGGACGATGCAGTTGAAACCGACCTTTACAGAGTACATTGAGGGAGTCATTGCAGACTTTGAGGAGGAAAATCCTGATATCAAGGTTAAGTGGGTGGATGTACCTTGGGGTGACATGGAGAAGAAGATTCTATCCGCTGTATCTTCTGAAACCGCACCGGATGTGGTGAACTTGAACCCGCAATTCGCCTCTCAATTAGCAGAACTCGATGCGCTTGTGAATATGGATGAAGCGGTTTCTGATGAAAAGAAACAGGAGTATTTTGAAGGCATTTGGAAGTCGAACTCCTTCGGTGGTCAAACGTTTGGAATTCCGTGGTATTTATCCTCCCAAGTTAGTATGTACAACAACAATATCCTGGAAGAAGCGGGGATGACTGGCGATGATGTCCCTACGAAGTATGCAGATGTACTGGAATTTTCGAAGACAATTAAAGAGAAAACAGGGCAGTATGCTTTCTTTCCATCCATCGATGGAAGCCATTTACTAGAAACGATGGTTACCATGGGTGTTGAACTGACGAATGAAGATATGACAAAAGCGACCTTCAACACAGACAAAGGAAAAGAAGCGTTCCAATTTTTTGTTGATATGTATGAAAATGAATTGATTCCACGTGAAGTGCTGACAGAAGGGCACGGGAAAGCGGTCGATATGTATCAAGCAGGACAGCTGGCTGTTCTATCCTCCGGCCCACAATTCTTAAATACAGTGAATGAGAATGCGCCTGATATTTATGAAGCTACCGATGTAGCTCCTATTATTACGGGGGAAACGGGATTGATGAATGTTGCCGCGATGAACCTGGTGGTACCGAAACAAAGTGAAAAGCAAGAGGCGGCTGTTACGTTCTCCCTTTTCATGACGAATGCTGAGAACCAAGTGGAATTTGATAAAATTGTACCTATTCTTCCATCCATTGAGACAGCTCTGGATGACCCATACTTCAATGAACTTCCAGAGAACCCTTCTCCAGAAGACGAAGCACGTATCATATCAGCAGAACAGCTGAAAGACTCCGAAGTCCTTGTTCCACCAATGAAGAATTACTCTGACCTTCAAAAAGCGATGACTGATGCTCTTCAAGCGGCGATGCTCGGTGAAAAGTCGATCGAAGATGCGCTGGCTGATGCTGAACAGAAGTGGAATGCAGCATTGCAATAA	MKKFSFLLVITFSFMLILAACSGSSEEGSAEGEDSSDSGETSEIEFWTMQLKPTFTEYIEGVIADFEEENPDIKVKWVDVPWGDMEKKILSAVSSETAPDVVNLNPQFASQLAELDALVNMDEAVSDEKKQEYFEGIWKSNSFGGQTFGIPWYLSSQVSMYNNNILEEAGMTGDDVPTKYADVLEFSKTIKEKTGQYAFFPSIDGSHLLETMVTMGVELTNEDMTKATFNTDKGKEAFQFFVDMYENELIPREVLTEGHGKAVDMYQAGQLAVLSSGPQFLNTVNENAPDIYEATDVAPIITGETGLMNVAAMNLVVPKQSEKQEAAVTFSLFMTNAENQVEFDKIVPILPSIETALDDPYFNELPENPSPEDEARIISAEQLKDSEVLVPPMKNYSDLQKAMTDALQAAMLGEKSIEDALADAEQKWNAALQ	PGPT0016460_75	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CHITOBIOSE_TRANSPORT_II,PGPT0016460-chiE-K17244	NA	NA
AK012_02008	759	nanE		Putative N-acetylmannosamine-6-phosphate 2-epimerase	ATGGATGGTGGTGAAGGGATGAAAAAAGAGGATTTTTTTGAAAAGGTGGAAGGTCAGCTGATCGTCTCCTGTCAAGCGTTAGAGGATGAACCTCTTCATGGGTCACATCTAATGGCTAAAGTAGCTGCGGCAGCGGAACTTGGAGGAGCAGCGGGCATTCGTGCGAATGGCTATGACGATATAAAAGCAATCCAATCGGTCACAAAGCTTCCGATCATTGGTTTGGTCAAGCAAGATTATTCCGAGTGTGACATTTACATTACGCCTACAAGAAAAGAAGTCGATGAATTACTGAAAGCGGGCGTTGATGTCATTGCATTGGATGCGACAGGCCGGGAAAGGCCGGAGAAAGAGAGATTGGAAGAATTAATTCAGTACATTAAAGAAAAGAATACTCTCGTTATGGCCGATGTTTCAACAGTGGACGAAGGGGTGGAAGCAGAAAGAATCGGAGCGGATTGTATCGGCACAACCCTATCCGGCTACACAGACTATTCGCCTCAACTTACTCAACCGGACTTCAACCTGGTCCATCGGTTAGTGAAAAGAGTCAAGGTTCCTGTCCTCGCTGAAGGGCGGTATTGGAGTCCGGATGAAGTGGTCCATGCGCTTGGACTTGGAGCCCATGCCGTTGTGGTCGGTTCAGCAATTACCAGGCCGCAAGTGATTACGAAACGTTTTACAGATCAAATGAAGAAAGCAGGTGTTCAACATGACGCAAAAGTTGTTGGGGGGGAATTTACTAAGCGTAATCCGTAG	MDGGEGMKKEDFFEKVEGQLIVSCQALEDEPLHGSHLMAKVAAAAELGGAAGIRANGYDDIKAIQSVTKLPIIGLVKQDYSECDIYITPTRKEVDELLKAGVDVIALDATGRERPEKERLEELIQYIKEKNTLVMADVSTVDEGVEAERIGADCIGTTLSGYTDYSPQLTQPDFNLVHRLVKRVKVPVLAEGRYWSPDEVVHALGLGAHAVVVGSAITRPQVITKRFTDQMKKAGVQHDAKVVGGEFTKRNP	PGPT0018900_313	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
AK012_02009	843	ybbH_1	COG1737	putative HTH-type transcriptional regulator YbbH	ATGACGCAAAAGTTGTTGGGGGGGAATTTACTAAGCGTAATCCGTAGCTACTATCCTTCTTTGACAAAGTCGGAGCAGAAAGTGGCGGACAAAGTGTTAGAGGATATCGAAAGTGTCCTCTATTGTTCGGTCACGGATCTAGCGGACAAATCAGGGGTAGGAGAGACGACCGCGTTACGTTTTTGCAGAAAACTGGGATTCAAAGGTTATCAGGAATTCAAGCTGACGCTGGCTAAAACCTTATCAAATGATGCAAAGGAAGACGAAGTCGTTGAGCAGGGGATGCAGTATGCGATAGCTAATAATACGAAGTCTGTGATCGATGAGACGTTGAAAATGGTAGATGAAGAGCTGCTACATTCCTGTATTTCAGCGATTGCCAAGGCGGACCATCTTCATTTTTATGGAGTAGGAACGTCGGGGCTGACGGCTCTTGACGCCAAAAACCGCCTGATCAGAATTGGAAAGCATAGCGATGCCATCATCGACCCACATATTCAGGCGATGGGGGCAGCTACCTTAGGAAAAGGGGATGTCGTTGTAGGAATCAGCTTATCCGGAAGTACGAAGGACACGTTGGATTCATTGGAAATTGCAAAGAAGAATGGAGCTACGGTCATTGCCATCACCTATTACGCCCGGTCACCGATCACGCAGCTTGCGGATTATGTGCTCCTTAGTGGAGGAAAAGAGTCTCCTCTTGAAGGTGGCTCCCTGTCTGCGAAGATTTCCCAATTATTTATCATCGATTTATTGTGCACAGGACTTGCTTTAAATGATAAAGAGCGGTCACTGGAAATGAAAGAAAAGACGGCGAGATCTGTCATTAATAAAATTTACTAA	MTQKLLGGNLLSVIRSYYPSLTKSEQKVADKVLEDIESVLYCSVTDLADKSGVGETTALRFCRKLGFKGYQEFKLTLAKTLSNDAKEDEVVEQGMQYAIANNTKSVIDETLKMVDEELLHSCISAIAKADHLHFYGVGTSGLTALDAKNRLIRIGKHSDAIIDPHIQAMGAATLGKGDVVVGISLSGSTKDTLDSLEIAKKNGATVIAITYYARSPITQLADYVLLSGGKESPLEGGSLSAKISQLFIIDLLCTGLALNDKERSLEMKEKTARSVINKIY				NA	NA	NA	NA	NA
AK012_02010	921	glcK_2	COG1940	Glucokinase	ATGCATGTCATTGGGATCGATATCGGAGGTACAACGGTTAAAGGTGTCCTTCTTGATGAACAGATGGAATTGGTTCATAAGAGCACATCCCCGACGGATGCGAAGGCGGGTAGGGATGCTATTTTATCCAGTTTAAGTGGTGTGATCGGAACCCTGACAGAAGCAAGTGAAACACCTATACGAGGCATCGGGATAGGGAGCGCCGGCAGGATCAATGTGGGTACGGGAGTCGTCGAATATGCCACCGAAAATCTGCCGGGTTGGCATGGGTTCGCTTTGAAATCCTGGGTTGAAGAGAAATACAACCTCCCTGTAATCGTAGATAATGATGCAAATACGGCGTTGATTGGAGAATTGTATTTCAATCATCTACTCATTGAAACGCAGCATACCATCATGTTGACTCTTGGTACCGGGGTGGGCGGTGCGAACTATTTTTCCGGTCAGGTTGTTCGCGGTGCCCATCACCAGGGTGGTGAGTGGGGACACATGGTGCTCTACCCTGGAGGACGTCCGTGCAACTGCGGAAAATCCGGGTGTTTGGAGCAGTATATATCTGGTTCTGCTTTACGAAAAGAAGCGGAAAAGGAGACGGGCAGAACTTTTCTTCAGGGGCGGGATGTTTTCAAGGCTGCCCAACAGGATGCACGAGTAAATAAGGTTGTGACGCAATTTATCAGCGATCTTGCTTTAGTCATTGAGAACATTTCTATAAGTCTTGATCCTGACCGAATCCTCTTAGGTGGAGGGGTTACTGAGTCGAGAGACTATTGGTGGGAGGATATGCAGGACCTCTTAAACCAGAAAGGAGTGGAAACAGAAGTGACGCCCTCCCTGTATAGGAACCGTTCAGGGATGTATGGTGCAGCTCTTTTAGCATCACAGATGAGGAAGGAAGTGAAAAGTCATGAATCAACGTAA	MHVIGIDIGGTTVKGVLLDEQMELVHKSTSPTDAKAGRDAILSSLSGVIGTLTEASETPIRGIGIGSAGRINVGTGVVEYATENLPGWHGFALKSWVEEKYNLPVIVDNDANTALIGELYFNHLLIETQHTIMLTLGTGVGGANYFSGQVVRGAHHQGGEWGHMVLYPGGRPCNCGKSGCLEQYISGSALRKEAEKETGRTFLQGRDVFKAAQQDARVNKVVTQFISDLALVIENISISLDPDRILLGGGVTESRDYWWEDMQDLLNQKGVETEVTPSLYRNRSGMYGAALLASQMRKEVKSHEST				NA	NA	NA	NA	NA
AK012_02011	879	lacF_1		Lactose transport system permease protein LacF	ATGAATCAACGTAAATTCACCCCGCTTTTATTTCTACTGCCAGGCTGTGCAATTCTGGGAGCATTTATTTTTTACCCCATGATTCAGGCGATTTGGTTAAGCTTTACCGATTACAATATGATTCAAAAGAATCCTGATTTCGTAGGATTGGCCAACTATAAAGAACTATTTGCAGATCCGTTGTTTTGGAAGGTGCTTGGCCAGACTCTTTTATACTTAGTCATTGTGGTTCCTGCGCTTGTCTTTCTGCCTATTTTCCTTGCTATTCTTGTCAATCAACAGCTGAAGGGAATCACCTTCTTCCGATCCATTTACTACCTTCCTGTTGTAACATCCATGGTTGTTGTTGGGATTGCGTGGAAATGGATGTATGCCGATCAAGGTGTCTTGAACTATGTACTGGATACGTTCGGTGTCATTGATGAACCTATCCACTGGCTGACTTCCACGTCGACTTCTTTGTTCGCGGTTATGGCGGTAACCGTCTGGAAGGGGATGGGCTATTATATGGTTATTTATTTAGCAGGGTTACAAGCCATACCTACTAACTTATATGAAGCGGCAGATATCGACGGAGCTAGTAAATTCCGCCAAATCCTTCATATAACCATTCCGTTATTGATGCCTTCCATCATGATTGTGACGATCATGTCTTCGATTTCCGCGATGAAAGTGTTTGAAGAAATCTACGTGATGACTCAGGGAGGGCCGTTAAACAGTTCGATGACTCTTGTGTATTATATTTATAATGAGGCTTTCGATAGCTTGCAGATGGGCTACGCCAGTGCTGCGGGAGTTATTCTGTTCATTGTTACACTCATGTTTTCCATTGTTAATATAGCTTTCATGAACCGTCGTGAACAGGCGATGAAAGGGTGA	MNQRKFTPLLFLLPGCAILGAFIFYPMIQAIWLSFTDYNMIQKNPDFVGLANYKELFADPLFWKVLGQTLLYLVIVVPALVFLPIFLAILVNQQLKGITFFRSIYYLPVVTSMVVVGIAWKWMYADQGVLNYVLDTFGVIDEPIHWLTSTSTSLFAVMAVTVWKGMGYYMVIYLAGLQAIPTNLYEAADIDGASKFRQILHITIPLLMPSIMIVTIMSSISAMKVFEEIYVMTQGGPLNSSMTLVYYIYNEAFDSLQMGYASAAGVILFIVTLMFSIVNIAFMNRREQAMKG	PGPT0016465_296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CHITOBIOSE_TRANSPORT_II,PGPT0016465-chiF-K17245	NA	NA
AK012_02012	948	araQ_1	COG0395	L-arabinose transport system permease protein AraQ	ATGAAGTTAAATGCTGAAGCATTGAAACAAGAACCTCACGAACGAATTGCTGAAAATGAAGCACAACAAACTCATCCCAAGCCAAAAAAAATGAAACGAAAACAAAAAAAGACAAAGCCTGCACCAAGAAAAATCATAAAAACGACCTTATCTTATATAACGCTGGTTCTTGTATCGATCATCATGGTCGGCCCTTTTCTATGGCTTTTAGCAACGTCACTCAAATCGGGGTCTGAAAATATCTTTGCTTATCCTCCGAAGTTCATTCCTGAGAATCCAACGCTGGCGAATTTCGGGGCAGTCTTGGAATACTTTCCTTTCTTTACGTATCTCTTCAACAGTACCGTCGTAGCTGTTTTGACGGTCGGTGCCAACCTTTTATTTTGTTCTCTTGCTGCATACCCGTTGGCAAGAATGAACTTCAGAGGAAAGAATATCGCTTTCATCTTGATCATCAGTACTATGATGATTCCATTTCAGTTATTGATGATCCCCATCTATATTCTCGCATTGAATCTAGGGCTGCAGAATACTTACTTAGGTTTGGTATTGCCGCACGCTACGACAGCCTTTGGAATATTCCTGATGAGGCAGGCTTTCTTGACGATTCCCTATGAGCTTGATGAATCAGGACGGATGGATGGAGCGAATGCCTTTCAAATTTGGTGGAGAATCCTTATGCCTCTTGTACGTCCATCCATGGTAACCTTAGCCATTTTCACTTTTATGATGGCATGGGGAGACTTTTTGTGGCCGCTCATCATTCTGAACGATCAAAGCATGTACACGTTACCACTAGGAGTTCAGTCTCTGCAGGGGAACTTCTCTTCGAATTGGCGCTATATTGCCGCAGGTTCGATCATTTCCGTCCTGCCAATCATCATTGTATTTGCTATCCTTCAGCGCTACTTCATTGCTGGAGCTATGAAAGGAGCTGTTAAAGGATGA	MKLNAEALKQEPHERIAENEAQQTHPKPKKMKRKQKKTKPAPRKIIKTTLSYITLVLVSIIMVGPFLWLLATSLKSGSENIFAYPPKFIPENPTLANFGAVLEYFPFFTYLFNSTVVAVLTVGANLLFCSLAAYPLARMNFRGKNIAFILIISTMMIPFQLLMIPIYILALNLGLQNTYLGLVLPHATTAFGIFLMRQAFLTIPYELDESGRMDGANAFQIWWRILMPLVRPSMVTLAIFTFMMAWGDFLWPLIILNDQSMYTLPLGVQSLQGNFSSNWRYIAAGSIISVLPIIIVFAILQRYFIAGAMKGAVKG	PGPT0016470_161	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CHITOBIOSE_TRANSPORT_II,PGPT0016470-chiG-K17246	NA	NA
AK012_02013	2499	mngB_2	COG0383	Mannosylglycerate hydrolase	ATGAAGCAGGAAACCTATCTGTGCCATGTTGTATTCCAGACCCACTGGGACAGGGAATGGTATTTTCCATTTGAAGTCTTCCGGCACCGCTTCATTCATGTAATGGAACGGATTGTAGAAGGAATCGAGACAGGAGATATTGAACGTTTCGTACTAGACGGGCAGATGGCTGCCCTTGAGGATTATTTTGAAGTATGCAGCGATCAGCAGAAAGAAAAGGTTTGTCAGCTGATAAAAGAAGAGAAGTTAATCGTCGGCCCCTGGTATGTTCTGGCTGATGAATTTCTTGTCTCCGGCGAATCCTTATGGCGGAATTTGGAGCTGGGACTGGAGATGGCGAATGATCTGGGGCGCTCACAAAGGATTGGGTATTTACCTGATACCTTCGGCCATATCAGTCAAATGCCGCAGATTCTGGCATCCTTTCAACTGAAACATGCCGTCCTTTGGAGGGGCGTTCAGCCTTCAAAATCAGAGTTCTGGTGGCAGAGTCCTGACGGCAGCCGTGTATTAACCGCCTTTTTACCCGAAGGATATTACCAGCCGATTCTGAATGAAGAAAAACCTTTGAAAACATTTCAGGCATACGTAGACAAAGTGAAGCCTTATACAGATACGAAGCAGCTGCTATTAACCAACGGTGGGGACCATTTAATGCCGGCATGGGTGGGTATGAAAGACCGGATGAGTCAGATGGAAACAGAGGAAGTGAAGCTTATCCAGTCGAGCTATGAGCAATATTTTAAGAGCGTTGAAAAAGAATGTGGTGAACTAGACGTTTATGAAGGCGAATTACGGTCCAATGATCATATTTATCTTCTTCCTAATGTTCTTTCAACGAGAACGTACCTAAAAGAACAGAATCAGAGAATGGAAGATCAGTTGACGAGATATGTGGAACCGATGCTCGCTTTAGCGGGCGTCAGTCACATGGAAAAATACATGCAGCAAACATGGAAGCTGCTTATCCAAAACCATCCTCATGACAGCATTTGCGGATGTAGTATCGATGAGGTACATAGAGAAATGGAAACGAGAACGTTGAAGCTTTCTCAAAGGATAGAGGTTTTGAAGAAGGAAGCGGCCTATCGAATGGGAATGCAGGATTTTGCTGTGAGTGGAGCGGCTTCAGGAAAGCCATTTGAAGAGATGACTCAATTTGTCGTCTTCAATCCTCACGCCTATGAATTCAACGGTTGGATCGAAGGAGAGATTTGGTTGTATGAGGATCGCTCATTTGTCGTAAAGAATCATAAGGGAGAGGTTTTAAATACGGTTGTGCTCGATAAGAAACAAGAGCGGCATTTTGATTCTCCGACAGATGCTTTTCCAGAATTCAAAAGCGTCTGGCTGTACAAGCTGGCCATACAAGTCAAGGGACTTCCGGCCTTATCCTTCCAAACGTTTTCGATTGAAGAAGGAAAGCCTCAGCTGCCAGACACTCACTCTCAACCTGTGATTGAGAATGAATATATGACAGTAACCTTAAAAGAAGGTGAACTGTATGTGGAGGATCTCACTACAGGGGAAAGCTTCTCTGGGCTAAACCGATTATACAGCTCGCTGGATGCTGGAGATGAATACAATTATTCTCCACCTGTAAATGATGTCGTGACAAAAGGTATTCATAAAGGAACGCCTGAAGTGAGGAAAAGCCAGGATTTTCAAGAATTACGTTATTCCCTTCATTTACGTACACCTGCCGCTCTTAATGCAGAGAGGACCGGCCCTTCGGAAAACGAGAGTACCATCGAAGCTCATTTTGTCATTCGCTTATACAGACACAATCCAATGGCGGACGTTCAGGTGGAAATCGTCAACAACGCTCAGGACCAGCGACTCCGTCTAGTCTTCCCTGCCAATAAAGAGATCCATTCATCCTACAGTGATACGGCGTTTGATGTTGTACACCGACCAGCGATTAAAGAAGAGCATGATGAGACAGAAAAGCTGAAGGAGGTACCAGTGGTCGTTGAACCCAGTGCTTCATTCATCCATGTTCATGGGTTCAGCTTTGTGCATCGTGGTCTGCAGGAATATCAGATTAATAGTCGGGATGAATTAGAAGTGACACTGATACGGGGTGTCGGCTGGCTTTCAAGGGATGATTTAAGAACACGTGGAGGCGGAGCGGGGCCGTCATTCGAAACCCCTGAAGCTCAGTGCGAGGGAGACTATTCTTTTCGATATGGCTTTGGTTTTCAGGGAGATGCGGTGTCTGCGTTAAATCAGGCCAATCGATTCCGATATCCTCCAACAATACAGTCTGGTATAGGCGGGACGCCTTCACTGATGACGTTTTCTAATCCAAGCGTCCAGATAAGTGCTGTCCGTCAAAAAGATGAAGGAATCGAGGTTAGACTATGGAATCCTCAAGTGGAACCTTTGGAAACAGACGTGTTCTCCGATTATTTGATCTACCAAGGAATGGAACGTTGTCAGGACACCTTGACGATCCCAGCTAAAGGCATACGGACTTTAAATTTAATTCGGAAGTGA	MKQETYLCHVVFQTHWDREWYFPFEVFRHRFIHVMERIVEGIETGDIERFVLDGQMAALEDYFEVCSDQQKEKVCQLIKEEKLIVGPWYVLADEFLVSGESLWRNLELGLEMANDLGRSQRIGYLPDTFGHISQMPQILASFQLKHAVLWRGVQPSKSEFWWQSPDGSRVLTAFLPEGYYQPILNEEKPLKTFQAYVDKVKPYTDTKQLLLTNGGDHLMPAWVGMKDRMSQMETEEVKLIQSSYEQYFKSVEKECGELDVYEGELRSNDHIYLLPNVLSTRTYLKEQNQRMEDQLTRYVEPMLALAGVSHMEKYMQQTWKLLIQNHPHDSICGCSIDEVHREMETRTLKLSQRIEVLKKEAAYRMGMQDFAVSGAASGKPFEEMTQFVVFNPHAYEFNGWIEGEIWLYEDRSFVVKNHKGEVLNTVVLDKKQERHFDSPTDAFPEFKSVWLYKLAIQVKGLPALSFQTFSIEEGKPQLPDTHSQPVIENEYMTVTLKEGELYVEDLTTGESFSGLNRLYSSLDAGDEYNYSPPVNDVVTKGIHKGTPEVRKSQDFQELRYSLHLRTPAALNAERTGPSENESTIEAHFVIRLYRHNPMADVQVEIVNNAQDQRLRLVFPANKEIHSSYSDTAFDVVHRPAIKEEHDETEKLKEVPVVVEPSASFIHVHGFSFVHRGLQEYQINSRDELEVTLIRGVGWLSRDDLRTRGGGAGPSFETPEAQCEGDYSFRYGFGFQGDAVSALNQANRFRYPPTIQSGIGGTPSLMTFSNPSVQISAVRQKDEGIEVRLWNPQVEPLETDVFSDYLIYQGMERCQDTLTIPAKGIRTLNLIRK	PGPT0019330_344	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0019330-mngB-K15524	NA	NA
AK012_02014	1509			hypothetical protein	GTGAGAAGGAAAATTGCTCTACTACCGGTTGATGGTCGACCAGTAACAAGAAAACTTCCAATAGACATGGCTCGGATAGCGGATTGGGAAGTGATAGCTCCTTCGGTTGAGGAGTTAGGCTTCTTAAAACGTCCAGCTGATACAGATTCCCTTGAAAAATGGCTGATCAATATGGCTTCCCAAGTTGATGGCGTCATCCTCTCTATGGACATGCTCCTTTATGGGGGACTTGTCCCATCTAGAATTCATCCGTACACGGAACAACGTTTACTACGTAAGCTTGCTATTTTGAAGCAGGTGAAAGAATACGCCCCATCATTGAAGATCATGGTATTCAGTTCAACCATGCGGATGTCCAACAACAATATAAATGAAGAAGAAAAAGAATACTGGAAGGACTATGGCAAAGCTATTTGGTCACTTTCTTATCATGAGCATCGTTTTGAAAAACTGGGAGAGCAAGAAGATGCACACATGGTAGAAGAGATGAAAGGTTTGATCCCTGAGGAGGTGTTGGAGGATTACAAAAACGCAAGAGCTGTCAATTTCTCTGTCAACCGTCAGTTAGTGAATGAGGTGAAAGAAGGGTGGATTGATCATCTTGTCTTCCCTCAAGACGACACGAGCGAATATGGATGGAATGTGAAAGAACAGGAGCTGTTAAGGGAGACAGCTCGTGAGCAGGGTGTTGACGACTCTGTTTTCTTATATCCTGGAGCTGATGAAGTGGCCGTGACGCTTTTAACGCGGATGATTTTTGAGTTGGAAGAAGCGGATGTGCCGGTATTTTACCCTGTCTACAGTGGCATAGCCGGCGCACTAAGTCGTGCTATGTATGAAGATCGTCCGATCATGGAATCGGTAAAGGGGCAGATTTACGCGATAGGTTCCAGGACAGAAGAAGATCTGACGTATGCCGATGTCGTGATAGGCGTCAATGTTCCTGGGCATCGTCAGGGCGACTTAGCGCTAAGCCTTCATCTCAACCAAGTGGACACCAACCACCGTAACGTTCCGGAGTGGCTGTCAAGATTACGGTCCTACATGAAACGAAGGCCTGTCGCCATTGCTGATGTTGCTTACGCCAATGGTGCGGATCCGAGGCTGTTTCCTTTGCTGTTCAAACAATTGAATTGGAGAAACTTGTACGCATTCGCAGCCTGGAATACAGCAGGGAATACACTGGGGACGGTGGTGTCGCAAGCAGCATTATCCTGGCTTTCAGAAAAAAGCGGTATGGAAAGACAGAAGCACAGAGAGGGGCTTTTAGTGGAACGTTTCCTCGATGACTATGTATATCAATCGGTTGTGAGAAAAGAAGGTAGAAAACGTTTAGACGTTCAACCATCAGAATCACTTCAGACTGTTGTGACCCCCGTTTTTGAAGGAAGGGCTTCTCAACTGCTGGATGACTGGGCACAGGAATATGAGCTCACTGATGTGCACTATCCTTGGAACCGAACATTCGAAATTGGGTTTCGGTGTGTAAGAAAGGAGGGGGAATCTTGA	MRRKIALLPVDGRPVTRKLPIDMARIADWEVIAPSVEELGFLKRPADTDSLEKWLINMASQVDGVILSMDMLLYGGLVPSRIHPYTEQRLLRKLAILKQVKEYAPSLKIMVFSSTMRMSNNNINEEEKEYWKDYGKAIWSLSYHEHRFEKLGEQEDAHMVEEMKGLIPEEVLEDYKNARAVNFSVNRQLVNEVKEGWIDHLVFPQDDTSEYGWNVKEQELLRETAREQGVDDSVFLYPGADEVAVTLLTRMIFELEEADVPVFYPVYSGIAGALSRAMYEDRPIMESVKGQIYAIGSRTEEDLTYADVVIGVNVPGHRQGDLALSLHLNQVDTNHRNVPEWLSRLRSYMKRRPVAIADVAYANGADPRLFPLLFKQLNWRNLYAFAAWNTAGNTLGTVVSQAALSWLSEKSGMERQKHREGLLVERFLDDYVYQSVVRKEGRKRLDVQPSESLQTVVTPVFEGRASQLLDDWAQEYELTDVHYPWNRTFEIGFRCVRKEGES				NA	NA	NA	NA	NA
AK012_02015	1557			hypothetical protein	TTGAACGCTGATGTATTAATTATTGGCGGGGGAATTGGCGGGACGCTTGCTGCCTTTTCTGCCGCTCGTATGGGCAGAAGTGTCATACTGACAGAAGAGACGGATTGGATCGGCGGTCAACTGACTTCGCAGGCGGTACCTCCGGATGAACACCCCTGGATTGAACAGTTTGGCTGTACAGACACATACAGGGAGTTTCGCAATCGTGTCCGTGATTATTATCGTGATCATTATCCGATACGCGAGGAAGGAAAGAAGAACCCACATGTAAACCCTGGAACTGCATGGGTCAGCAGGATTTCCCATGAACCAAGAGTAGCGAAGAAAATTCTGGAGGATATGCTCCAGCCCTATGAGAGCAATGGACAAATTCAAGTGTTGATGAATTGTAAAGCTGTGGAGGTCGAAGTGAGGGACGAGCGTATTGCATCTGTGAAAGTTCATTCCCAGGAAAAGGGGCCGCTGGTATTACGGGGAACTTTTGTTTTAGATGCGACAGAATGTGGAGACCTTCTGCCACTTGCAAAGGTGGATTACCGTATCGGAGCAGAATCTAAAGCGATGACTGGTGAGCCGCATGCGCTGGAGAGTTATCACCCGGAGGATATGCAGTCATTTACGCAAGTGTTTGCCCTTGAGTATGATCCATCTGAAAGTCATGTCATTGATGAACCAGAGATGTACAGTTATTGGCGTTCCTACCAGGCAGATTTCCTGGACCATCTCCAGCTCAGCTGGGAGATCCCTGATGCGGATACCGGAAAATCCAAGGCGTTCCGGATGTTTACTGAAGGTCAGCAGTTAGGGTTATGGGAATATCGTAGAATTATTGATCAAACCCTGTTTCAGGACGGTTTTTTCAAGGGAGATATCTCGCTGATCAACTGGCCTCAGAACGATTACTGGGAAGGTCCTATCATCGATGTTTCTCCTGAAGAACGTGAGAAGCATCTGACGCATTCCAGACAGCTCAGTCTCTGTCTGTTGTACTGGCTGCAAACGGAAGCCCCACGCGATGACGGTGGCTATGGCTATCCAGGGTTGAGACTTAGACCAGATATCATGGGGACGGTAGACGGGCTTGCCAAACATCCATATATTAGAGAATCAAGACGTATTGAGGCATTAGAAACCGTTGTCGAACAAGATATCAATGTCGATCATTCCCCTTATGGAGGCGTTCGTGAACGTCCAAACTCCGTTGGTATCGGGGCTTACCGGATTGATCTTCATCCAACTACGAAAACCAACCGACTTTTTTACGCCCCCAGCTATCCTTTTGAAATCCCATTAGGTGCCTTAATTCCAAAACGAATGAAAAATTTGATTCCTTCATGTAAGAACATTGGCTGTACACATTTAACAAACGGGTGTATGCGTGTGCATCCTGTCGAGTGGAATATAGGAGAGTCAGCTGGAGCATTAGCTGCTTTTGCGATAGAGAAAGAGACTGGCTTGAAAGACATTCACAGTGATAAAACATATACCAAAGAATTTCAGGAGCAGTTAGTGAGATTAGGCGTCCAGCTCCATTGGCCGGAAGCAGGCGTCCTCTAG	MNADVLIIGGGIGGTLAAFSAARMGRSVILTEETDWIGGQLTSQAVPPDEHPWIEQFGCTDTYREFRNRVRDYYRDHYPIREEGKKNPHVNPGTAWVSRISHEPRVAKKILEDMLQPYESNGQIQVLMNCKAVEVEVRDERIASVKVHSQEKGPLVLRGTFVLDATECGDLLPLAKVDYRIGAESKAMTGEPHALESYHPEDMQSFTQVFALEYDPSESHVIDEPEMYSYWRSYQADFLDHLQLSWEIPDADTGKSKAFRMFTEGQQLGLWEYRRIIDQTLFQDGFFKGDISLINWPQNDYWEGPIIDVSPEEREKHLTHSRQLSLCLLYWLQTEAPRDDGGYGYPGLRLRPDIMGTVDGLAKHPYIRESRRIEALETVVEQDINVDHSPYGGVRERPNSVGIGAYRIDLHPTTKTNRLFYAPSYPFEIPLGALIPKRMKNLIPSCKNIGCTHLTNGCMRVHPVEWNIGESAGALAAFAIEKETGLKDIHSDKTYTKEFQEQLVRLGVQLHWPEAGVL				NA	NA	NA	NA	NA
AK012_02016	2346			hypothetical protein	ATGAAAGACGTGGTAAGTCGTTGGGGCGTAGGGATGGCAATAGTCGTGATGGTGGTAACGTTTTGGGCGGTCGGTTTGAGTGCAGAAGAAAACGATGTGACTACAGTGACCAATAAAGATGGAAAGACAATGGAGATTCATGCAGTAAATGATAGAAATAACACAGACAAGCTTGTTTTGTTTGATCCAACATTCAGCTATTATACGGAAACGAAGGAATCGTCCTATGAAGTTGTCTTTGAAAAAAACGGCTTAACTACTTATGAGGTGAAACATTCTGGAAATGGTGATCAGGGTATCCCGGAGGATGGCGTCGTTTTATCAACAAGCTCTCCATCCACAGAAGAAATTACGAGCTTCTTAAAAGGGCTGGATGACGGGGAAACCATCAAGATTGTTGAACCTGTTGAAAAAAAGTATGCCAGCAGCCTGGATGATGTTGATCCTACAGATGATTCAAATCCAGATGGAGCGCCTTTTCCTGGCAATCGAGGCGCAGACCAGTTGTTAGTGTACACTCCTGAGTTTGGTACCAGCACGGGAACAAATCCTTATGGGTATGAGATTACCGTGAAAGATGGAGTTGTGACTAAAATCGGTGGCGGAGACAGTGCGATCCCTGAAAACGGATTTGTCGTGAGTGGTCACGGAACGGAAGCGGACTTTTTGAAGAAAGCGGAAATCGGTATGAAGGTAGAGTTCGAAGTAGAAGGCAGCGTGGAATTGATACGTGATGCTTCGACGTATATTTTCAAGAGTAAGCAAGCTCTTCAGGAAGCGAAAGATCGTATAACCTATGCAAAAGAGAACTATGTAGATGCCGAATATGAAAAAGCGGGCGAATCCATCACGTTAGCTGAAGAATTCCTGCAAAAAGCAGCCGAAAACCAAAGCAGCAATCCACAAAAGGCTTTGGATTATACGAAGCAGGCTACACAAGCAGCTTATGACGGGTATTATTATTCCCTTCCTTCAGATGCAGCGGAACAGCGCGCTATCTGGTATCGTCCAGAGGAACAAGATTTGGATGATGTTCAAACAACCTTAGACCGTATGGAAAAAGCGGGTTTTAATTCTCTCTATTTAGAGACGACCTTCTGGGGCTACACCATTTTCCCTAGTGAAACGATGGAAGCATATGGATTGCCGAAGCAGCACCCTAATTTCGCTGACAACTCCTATGGCACGTATGGATCAGACATCCTTCAGGCTTTTATTGAAGAAGGTAAAAAAAGAGGGATTACCGTTCAATCCTGGACAGATGGCTTCATGATCGGACACAGCAGTCTTGGACTGCCTTCTCAATTTGAAAAATATCCGGAGTGGAGTGCGGTTCAAAGAAACGACGAACCGGGTACAGTGGGTTCCGACTCCAGTAACAACTATTACTGGTTGGATATAGCCCAGCCAGAAGTGCAGAATTTCATGTTGGAAATCTACGAAGAACAGCAGAAAAGCTATGACATCACTGGTTTAAATATTGACTACATGCGCTACCCTCACCATCGTTTTGAAGAAAGCTACAGCTTCAGCCAATCCAACCGCGAACGCTTCAAAGAAGAGTACGGTGTAGATCCAAGGGAGCTATCTGAAAACGACGATTTGTGGGAGAAATGGGAGCTGTGGCTGCGCGAACAAGAAAACAAGTTCGTAGATCAGCTGCATGAGCAAAGCAAAGATATAGAGTCTTCCTTTATGCTGACAGCTACCCCCGAGCCTGGGGCAGAAGCCAAATTGATCAGTGACTGGGTGGATGATATTGACGGTGTCATTCCGCAAGCGTACGGGCACGATTTTAACAGTATCCAGTCAACGATTAAGGCCAGTAAGGAATTGACTCCCGAATGGATGATGTACTATACAGGGATATATTCCTTCTATCACCATCTTGGAGAAAAGGCAGCGGTGAATGATGTGTTAGCTGCTGCTCATGGAACATCAGGCGTTAATATGTTTGCTTTCGGACAGGCAAGCGCTCCTTCTGTAGATGCTTTAGGGAAAGGACCTTGGCGTGAGAAAGCTGTGAACCCGGGAGAATCTCCTAGAGAAGCTGTTCTGAAGACGGTTCAGGAAATCAGCGCACATACCAATGACATCTATGTAGTAGAAGGTGCTGTGAGTGAGGATGAGGGGCAGAAGATTATCAATGCCATGCGTAAGTGGGAAGTGATGATGGAGCGTCCTGATCATTCTCTAAGGCCTTATAAAGTAACAAAGGAACTGAAAAAAACTAAGGCGACGATTAACGAACTGGAAACGGTTGTGCCGATTGTGCGGGAACGATTGTTAGGCAAAGTGGAAGACATTGAAAAGTGGTTGTATTACTCTTTTAGAAAGCAGCAATAG	MKDVVSRWGVGMAIVVMVVTFWAVGLSAEENDVTTVTNKDGKTMEIHAVNDRNNTDKLVLFDPTFSYYTETKESSYEVVFEKNGLTTYEVKHSGNGDQGIPEDGVVLSTSSPSTEEITSFLKGLDDGETIKIVEPVEKKYASSLDDVDPTDDSNPDGAPFPGNRGADQLLVYTPEFGTSTGTNPYGYEITVKDGVVTKIGGGDSAIPENGFVVSGHGTEADFLKKAEIGMKVEFEVEGSVELIRDASTYIFKSKQALQEAKDRITYAKENYVDAEYEKAGESITLAEEFLQKAAENQSSNPQKALDYTKQATQAAYDGYYYSLPSDAAEQRAIWYRPEEQDLDDVQTTLDRMEKAGFNSLYLETTFWGYTIFPSETMEAYGLPKQHPNFADNSYGTYGSDILQAFIEEGKKRGITVQSWTDGFMIGHSSLGLPSQFEKYPEWSAVQRNDEPGTVGSDSSNNYYWLDIAQPEVQNFMLEIYEEQQKSYDITGLNIDYMRYPHHRFEESYSFSQSNRERFKEEYGVDPRELSENDDLWEKWELWLREQENKFVDQLHEQSKDIESSFMLTATPEPGAEAKLISDWVDDIDGVIPQAYGHDFNSIQSTIKASKELTPEWMMYYTGIYSFYHHLGEKAAVNDVLAAAHGTSGVNMFAFGQASAPSVDALGKGPWREKAVNPGESPREAVLKTVQEISAHTNDIYVVEGAVSEDEGQKIINAMRKWEVMMERPDHSLRPYKVTKELKKTKATINELETVVPIVRERLLGKVEDIEKWLYYSFRKQQ				NA	NA	NA	NA	NA
AK012_02017	123			hypothetical protein	ATGTTACTTTCCAAATATGCCGGAGAGAATGACCAAATGGCTGAGAAAATGGTGCAGGATATGAATGAATCCTACTATCCAGAGCTGCAGAAATGGTATGAAATACTGAAAGAGGAAGTTTAG	MLLSKYAGENDQMAEKMVQDMNESYYPELQKWYEILKEEV				NA	NA	NA	NA	NA
AK012_02018	360			hypothetical protein	ATGTCTGGATTGTTAAGCAAAGATATAGAGTATAGGAACAAAGCGCTGTCACAAGTTGAGAAAGTCAATACGGCTGATCTATTTGGCAGCCGTGCGCTGGGGAATTATAAACAAGGATCAGCTGTAGATGTTGCTTTCATAGGCGAAGACATAGGCTTCAATGAGTTAGGCCTTTTAGATAACTTGTTAAATGAAGAATATCCACTGCCTTATTTTTTTGATCTTATTCATTATCAAACGTTATCCAACCCAAACTTGAAAGAACATATTGATCAGCATGGCATCATTATTTATCAAAAAGAATCGAGCTGTGAGGCGAGAAGCCAATTCGTACCACTAAAAAATAGCCTCCATCCATGA	MSGLLSKDIEYRNKALSQVEKVNTADLFGSRALGNYKQGSAVDVAFIGEDIGFNELGLLDNLLNEEYPLPYFFDLIHYQTLSNPNLKEHIDQHGIIIYQKESSCEARSQFVPLKNSLHP				NA	NA	NA	NA	NA
AK012_02019	1143			hypothetical protein	GTGAATGAAGACCAGCAAGCGGTACTGACATTATTTAAACAAAAGCAGACCGACTATGACGAACATATGGAGGCCATCACGCATATTTGGAGGGAATACGGCCGGAGAAAACAGCCTGATATCCAGGATTCTGCCGGTTTCGCTGCAGGGCTTGAGTACCTCGCTTCAAAAACGTTTCTTGGACCCAAAATTTCGCAAAAGGCTTGTGCAGACAAGTATGGCGTTACCTCCCACAAAGTGTCCCAGGCGTACCGCAGGCTCAGGGATACGGCAGGAGATATCATATCTTCCTACTGGAGGGCGGCCGTTGAAGGAAGGTTCCAGACACCGCCCCCAAACTCTAAGCTGTTGGATGAAATGGTGGATCAAGTTCTCCACATGCAGACCTATCCCGGCAATTTCAGCACGGAACTTACCATGGACCAGCGTTTTATGCTCGGGGACCTCTTTTCCAGTTTTTACGGGGCGTCCTTTCAAGAGAAAATCGAATTATGCGTAGAATTGTTTACGATCCACCCGTACCATCCAGACCTTTACATCATTCTCGCAGAATTCTCCCCGTATAATCACAGGAAGAAAAAGATACTGACAAAAGCCATGATCAATGGAGAAAACGCGATGGATCCTTTTATGATGAAAGATTTAACAGGAGAACTCTGGATGGAGGCTGATGCCCGTCCGTATTTACGTGCAAAAGCGGCGTATGCCGAACAGTTGATCCGTGAGTACGACTTTGACGGAGGGATCCTTCATTACCGCGAACTGCTGCGGTTGAATGAGGGGGACAACCAAGGAATCCGGTATAAGCTGCTTCCGCTGTATTTAGAACACGGATATTATACAGAAGCAAGGGCTTTACTGGATACTATACAGGAACCCGATACCTTCTTCCTGTTTTATGAAGCCATTCTTGCTTATTTAACAGAAGGGCTGACAAGGAGAACAAAAACTCTCCTTCAAAAAGCCGATCATCACAATCCCTATGTAAAGGATTTCGTTCTTCACCCCAAGAAACGTCCGGAAGATCTGCCCGACTATTATGGTGTAACGGACGAATCGGAAGCCGCCGTCGTTGCCGCCGATACTTTTTGGGTATGGAACCAGCATAAAACGTTTACACAGGCCTTTCTGGACCTTAAGTAA	MNEDQQAVLTLFKQKQTDYDEHMEAITHIWREYGRRKQPDIQDSAGFAAGLEYLASKTFLGPKISQKACADKYGVTSHKVSQAYRRLRDTAGDIISSYWRAAVEGRFQTPPPNSKLLDEMVDQVLHMQTYPGNFSTELTMDQRFMLGDLFSSFYGASFQEKIELCVELFTIHPYHPDLYIILAEFSPYNHRKKKILTKAMINGENAMDPFMMKDLTGELWMEADARPYLRAKAAYAEQLIREYDFDGGILHYRELLRLNEGDNQGIRYKLLPLYLEHGYYTEARALLDTIQEPDTFFLFYEAILAYLTEGLTRRTKTLLQKADHHNPYVKDFVLHPKKRPEDLPDYYGVTDESEAAVVAADTFWVWNQHKTFTQAFLDLK				NA	NA	NA	NA	NA
AK012_02020	1044	pgl	COG2706	6-phosphogluconolactonase	ATGCCGAAATACGTTGGTTACATCGGTACGTACACCAAACAGGAAAGTAAAGGCGTCTATCAGTTCACCCTTGATACAAATGCTAAGGAGCTGAAAGACGTTCAGCTGGCTGCAGAACTGCAGAACCCTACTTACGTCACCGTGAGTGATGATCAAAAGAATCTTTATGCGGTTTCTAAAGACGGGGAAAGCGGCGGCGTCACGTCCTTTTCTATCAATGAAGAAACGGGAGAACTCACGAAATTAAACGCTCAGACAGCTGCGGGCTCTCCGCCGTGTCACGTGAGCGTGGATCATTTGAATAACAATGTTGTCACGGCTAACTATCATACAAAAGAAGTGGTCTCCTACCTGACGAATGAAGATGGATCCCTGAATCCTGCGGTTTCGATCGTGGAACATGAAGGAACGGGTCCTCATGAGCGTCAGGAAAAGCCGCACATGCACTATGCAGGCTTTACCCCTGATGAAAAATACGTGATAGCGATTGACCTTGGCAGCGATCGTGTCATCACTTACGCCGTAGACAATGGCGAGTTGAGCCAGGTGCAGGTGTTCAACACGAAACCGGGTTCCGGGCCGCGTCACATTACTTTCCATCCGAACAAAAAGTATGCCTACGTGATGACGGAGCTCAGCTCAGAAGTGCTTGTCCTTCATTATGATGTAAAGGACGGCAGCTTCACCGAGCAGCAGGCCATTGCGGCGATTCCTAAGGACTTTGATGAAACCAATGATGGCAGTGCCATTCATATTTCTTCGGATGGACAGTTTGTTTATGCCGGCAACCGCGGGCATAATTCCATCGCTGTTTATGAAGTTAATCAGGATACAGGGAAACTTACTTTTGTAGAGTGGACCTCAACAGAAGGGAACTGGCCGCGTGATTTCGTGATGGATCCTTCCGAGGAGTTCCTGATTGCGACAAACCAGAAGTCCAATACGATGACGTTGTTCGAGCGGGACAAATCAACCGGCAGGCTGACGCTTGTTCAATCCGATGTATTCGTACCCGAGCCGGTCTGCGTGAAGTTTATAAAGTAA	MPKYVGYIGTYTKQESKGVYQFTLDTNAKELKDVQLAAELQNPTYVTVSDDQKNLYAVSKDGESGGVTSFSINEETGELTKLNAQTAAGSPPCHVSVDHLNNNVVTANYHTKEVVSYLTNEDGSLNPAVSIVEHEGTGPHERQEKPHMHYAGFTPDEKYVIAIDLGSDRVITYAVDNGELSQVQVFNTKPGSGPRHITFHPNKKYAYVMTELSSEVLVLHYDVKDGSFTEQQAIAAIPKDFDETNDGSAIHISSDGQFVYAGNRGHNSIAVYEVNQDTGKLTFVEWTSTEGNWPRDFVMDPSEEFLIATNQKSNTMTLFERDKSTGRLTLVQSDVFVPEPVCVKFIK	PGPT0014975_1634	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
AK012_02021	1389			hypothetical protein	ATGGAAGTATGTAAACACTGCGGTCATGAGATGGGCGGGGAAGAAACCTTCTGTACCGAATGTGGTGCACCCAAGGATGCTCCGCTGACCCGGGCAGAAGCAAAAGCACCCAAAGCACCGATGCCGCGGAAAAAGAAAATCACGCTGATCTCGATAGGGGCGGTTTTGGTTGTGCTGCTGACCGCTCATTTGATTTTGTCATCGATGCTTGATCCGACGACGAAGATCCGGGCAATGGATCGAGCGGTCACGAATAATGATGCGGCGGCTTTTGTAAGTGAACTGTCTCTTGATAAAAAAGCATGGCTGAATGAGAAGGAATACCTGCAGTACATGAAGGAGAACGACTGGGAGACCATCCGTGAACAGATGTTGGATGCCGTCAGCGGACAACAGCGGTTCGATACCATCATCCGCGATGAATACGGCAGCCCGCTTTTGTCTGTCAAAAAAACAGCCGTAATTCCTGGAATGTACAAGACGTATGAAATTGAAGCGGTTCCGACTGAGATCAGATTCTTAACGAACATGGATGATGCTTCCTTTACAGTCGGCAAAGAAAAAATCACCGTGGAGAATGCTGCCGAGGACGATGTCACGGTCAAAGCCTACCCCGGTCTTTATAGGGTGAAAGGAGAGGCATCGAACGTATATGGGAAGTTCAAGGACACGTGGGAATACCAGGTGCTGGCGGAGGAATCGGATTACTATATGGAACTATATTTTGCAGGGACTACGTATGATGTCGATACCAACCAGCCGGAAGCGGTTCTTTTTGTAAACGGAAAGAGTACGAAGAAGTCGCTGGATGAGCTGGGCGTTATCGGTCCTGTGCCGGACGGAAACAAGCTGGCCCTTCATGCGGAGTGGACAAACGATAAGAAAGAGGTGATCAAGTCCGGACAGGTCCGTACGGAGGATGGCGACTACTGGGGTGAATTGAGCTTTTATTTTGAAGAGGAAGAACTGGAGGAACCGGAGGAATCGGTCTTTGAATACGTACCGGAATCGGATGACTCCGAAGCAGCCGAGGATCACGTGCTCGATTTCCGGGAGGTCTATGAAGAAGCGTTGAATGAGGAGGACTTCTCGATGATTGCTCCTTTCCTCGAGGATGGCAGTCAGGCGTCCGCTGAGTTTAAGGACTATTTGGACGGGATTTCAGGCAAAGGCTTCACCTATGCGTTCACGGAGAATAACATTGTGAAATCTACTGCTTATGGAGTGGATGGCTATGTGGTGACGACGGATGAAGCGTTCATCTTTACCGACTCGGAAGGAGAAAAAACGCACTACGAGCGGACGAAGGATTATACCGTCATCAAAGACGGGGACAGCTGGAAAATCGAAGAGGTAGCCATCAATGAGACCAATCGTTCAGACGGGTGA	MEVCKHCGHEMGGEETFCTECGAPKDAPLTRAEAKAPKAPMPRKKKITLISIGAVLVVLLTAHLILSSMLDPTTKIRAMDRAVTNNDAAAFVSELSLDKKAWLNEKEYLQYMKENDWETIREQMLDAVSGQQRFDTIIRDEYGSPLLSVKKTAVIPGMYKTYEIEAVPTEIRFLTNMDDASFTVGKEKITVENAAEDDVTVKAYPGLYRVKGEASNVYGKFKDTWEYQVLAEESDYYMELYFAGTTYDVDTNQPEAVLFVNGKSTKKSLDELGVIGPVPDGNKLALHAEWTNDKKEVIKSGQVRTEDGDYWGELSFYFEEEELEEPEESVFEYVPESDDSEAAEDHVLDFREVYEEALNEEDFSMIAPFLEDGSQASAEFKDYLDGISGKGFTYAFTENNIVKSTAYGVDGYVVTTDEAFIFTDSEGEKTHYERTKDYTVIKDGDSWKIEEVAINETNRSDG				NA	NA	NA	NA	NA
AK012_02022	774			hypothetical protein	ATGCATTGTGCGACATGCGGAAATCCATTGAATGAAGACAGTAAATTCTGCGGGAAATGCGGGGCCTCTGTTCTTGCGGAGCATGCGTCGGCATCGACGGTGGAAGCGGCCGCATTACCTCCGCAGAAGGATTATACAGAAACGGCTAAACAAACAGGCCGTCAGTTTTACCGTTTTGCCCTCCAAGCGCTGCAGGAACCGTTTCGAGCCAGTCAGCGGGCGGATGCTTCCCAGCGGAGCAATGGTCTGATTGCTCTGCTGCTGCTCGCTTTTCTCATGCCGTTCTTTTCTTATTTAGCGGCCAGAAACGCGGCTGTGTGGACCTTCGGTGATGCTGTGCCGGATGTATTCTTTGGTGTGCTCGTCCTGCAGCCTTTCCTTTATCAACTGCTCTTTTTAGCGGTGTTTATCGCAGTCAACCTCGGCGTAGGGAAATGGATGAGAGTGGAGATCACTTATATGAGCGTTCTTGCGAAATATGGATCACTCGTCATCCTGCCTGTGACCGGACTTCTAGCCGCCAATTTATTCATGCTGCTATCTTTGAATACCGTCGGGACGTTTTTCTTTTTTGTGAGTATCGCTTTATATATAACGGCAAGTACAGCTCTTTTATTTTCGATTCAATCGGGTGGAAGAGCTAAAGGTCTGGATGTGTTTTACGGCGTTATAATGACGAATGTGGCGATGGCAGTTTTCTTTTTGATTGTGATGATGAGTATGTTTGACCGGATGATGGGTGAGCTTGGTGAGCTGTCCAGCTGGTTGATGTAG	MHCATCGNPLNEDSKFCGKCGASVLAEHASASTVEAAALPPQKDYTETAKQTGRQFYRFALQALQEPFRASQRADASQRSNGLIALLLLAFLMPFFSYLAARNAAVWTFGDAVPDVFFGVLVLQPFLYQLLFLAVFIAVNLGVGKWMRVEITYMSVLAKYGSLVILPVTGLLAANLFMLLSLNTVGTFFFFVSIALYITASTALLFSIQSGGRAKGLDVFYGVIMTNVAMAVFFLIVMMSMFDRMMGELGELSSWLM				NA	NA	NA	NA	NA
AK012_02023	1497			hypothetical protein	ATGTCCTGCCCCGGTCTGGCGCAGACCGGGGATTTACATATTCAAAAAAAGGAAAGAAGGCCCCTCCTCTTCTCAGGGTTGGGGTATAATATGGAAAAGGAGGTCGGTGTCATGTTGTGTCCGAAATGCCAGGCTCCTAATGAAGATCGAGAAGCCAAGTTCTGTTTTAAATGCGGCTGTTCTCTGACCCGTTCAAAGAAGAAACGGGGATGGCGGCTGCCGGTACTGGTGCTCGCTTTCTGTGTGCTGTGGACAGGGATGATCTTTGGATATTTTCAATGGCAGGATCGATCGGAACCGACTGGAACAGAAACTGATGCGGCAGCTGACACAACAGCTCCGGCCGAAGAGACAGAAGTGGAACAGGCAGCAGAGCCTGTCGTAAAAGGAGAGAAAGCAGCAGAATCGACCGAGGATCCCCCATCCCCGCCGCCTCCTGAAGAAGCTGATCAACCAGCCAAGGAAGAGAAAAGTCACAAGGACATTATTCAGGATGTCCAATCCCGTGTGTATACGATACTTACCAATGATGTTCAGGGGTCCGGATTTTTATACAGAGAAGGTGGACTCGTAGTGACGAACGCTCATGTGGTCGCCGGATATTCGGATGTAGAAGTGCGTAATTCAGAGGATGAAGCTTTATACGGGCGTGTGGTAGGGATATCGAATGAATTTGATATCGCCTTGATCCAAGTGGATGAGTTGAAAGGGGCCTCCCCCCTGCCGTTGGAATTGCAGCCGTCTGAACTCGGTACAGAAGTGATTGCACTCGGAAGTCCGCTCGGGTTGACCAATACAGCTTCAATGGGAAGTGTGACAGGTCTGGACCGCAGTTTTGAAACAGAGTTTCAGTATGAAAAGATGTATCAGGTCGATACACAGATGTCACCGGGAAGCAGCGGTGGCCCGTTAGTGGATGCTACGACTGGAAAAGTCATTGGTATCAATGCCGCTACACTAAACGCGGATGATTCGATCGGTTTTTCCATCCCGCTGTATACGATGGAACCACTGTTAACGACATGGGCCCGGGATCCGATGGCCGCGGGCGAAGTGATGGACGTGTTTGCCTACAGTGATGAAGACGCTGTGGACAGTATGGACTCCTACACGGAAGAAGAGGAATATCCTTCATGGTTTGATGAAAGGACGCTGGAAAGCTTCATTTATGATTTTCGCAGCATGTATGAATCAGCCCTCCTGTATGAAGACTTTTCCTATGTTGAAGGTATGCTTCATCCGGCCAGTCCTGTCTATGGGGAGTATTCCGATTACATCCATGAAATCAGTGGTCAGGGAATGGAATTTATCTTTACATCCAATGAAGTGACGGACGTAAGTATTCAAGAGGATTATGCCGTGGTTACAACATATGAGGTCTTTGATTTTAAAAACGCGGCCGGTGAGTGGAGTGTCTATGAACGGGTGAAGGACTACACGGTCGTTGTGGATAAGTATGACAGCTACAAAATTACAGATATCTATATTTATGAATAG	MSCPGLAQTGDLHIQKKERRPLLFSGLGYNMEKEVGVMLCPKCQAPNEDREAKFCFKCGCSLTRSKKKRGWRLPVLVLAFCVLWTGMIFGYFQWQDRSEPTGTETDAAADTTAPAEETEVEQAAEPVVKGEKAAESTEDPPSPPPPEEADQPAKEEKSHKDIIQDVQSRVYTILTNDVQGSGFLYREGGLVVTNAHVVAGYSDVEVRNSEDEALYGRVVGISNEFDIALIQVDELKGASPLPLELQPSELGTEVIALGSPLGLTNTASMGSVTGLDRSFETEFQYEKMYQVDTQMSPGSSGGPLVDATTGKVIGINAATLNADDSIGFSIPLYTMEPLLTTWARDPMAAGEVMDVFAYSDEDAVDSMDSYTEEEEYPSWFDERTLESFIYDFRSMYESALLYEDFSYVEGMLHPASPVYGEYSDYIHEISGQGMEFIFTSNEVTDVSIQEDYAVVTTYEVFDFKNAAGEWSVYERVKDYTVVVDKYDSYKITDIYIYE	PGPT0015105_3138	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
AK012_02024	2865	recD2_2		ATP-dependent RecD-like DNA helicase	ATGGAGCCTGTGAAAGAATTAACTCAGTATTTCAGGGATAGTCTAGCGGTTAAACCCATTCTGCCATTCAAGAAAAAGCCCTATAAAACATTAGAAGAAGATCAGTTAAAAAAAGGGAACCTGGGCTCTGATTTCTGGGACGGAATGCCAAAGGAAAGAGCTATGATTATCGTTGCTAAAACCATTCAATGCTCATTCTTAGGACAAAGAAGGGTATCAGGAGATGAAGGTGAACTTGCAGGCTTATTCTACATTCCGTGCAGACTATCAAGCAAAGGTAACCTTCTGCCGCCCGAAGGAGATGAACCGTGGATCGCCAGGGACTTTTTATTACCGAATATCGACCCGGATCGTACAGTTGGAAAACTTGATGATATGGATCGATTCCTTAGTGAACATCGCGCTAAAGTCATGAATGATCAGAATTTAACGTGGAAAAAATATTTAAATTTTGCAGCACAATTATATGAAGCGGTGGTGGATCATCGTTTTGAAGATAAGAAGGCTGGTCCATTCACTGTGGAACCGCACATTTACATAATAGAAAACGACCAGATTGACACAAGTAAGCAGATAAGGGAGTTATATGAAAATTTGATGGAACGAGAGGACCTTCCTTCACTTTATAAGAAATTTTTGAGTGCGGAAAACAGCATTACAGAAATCAATGAAGAGAACACATTGGAAAATATGAAACACCATAAAGGGCAGATGGGGGGAGCGTACCCTTTGTCCACTTCTCAAAGAGAGAGCATGAATCATTTTACAAATATCGAGGACGGGGAAATTCTTGCCGTTCATGGACCTCCTGGGACAGGGAAAACAACGCTGATCCAATCTTTAGTGGCGACGCTTTTTGTTGAAAGAGCTCTTAAAAAGGGGCCGCCGCCTTTAATTGTTGCTTCATCGACGAATAACCAGGCCGTTACGAATATTATTGAGTCGTTTCAAAATATGAAAGGTTCAGAGTCGCTTTTAATGGAGCGCTGGATTGGAGATAAGGTTAATGATTTTGCTACCTATTTTCCTTCCGCTATGAAAATGGATACCACAGGGTTTCAAATTACAACTAAAGAAGGGGGACACTTTGTCCAGGAAGTAGAGCATCAAGAATATAAACGCTCTGCAGAAAAAATGTTCCTGCGAAAAAGTGAGGAATATTTTCAGTATTCCAACCTCAGTGTGAAAAGCGCAAAAAAGCAGATTTATGAAAAGCTGTTGTTGGAAAACAAGTATTGTCATGACCTGCTTACGCTATTTCAAGAATATGAACAAAAATTTGGTCAGTCGGTAGGTGTGTATCAGCAGATCAGTACAATTGATAAACGTATCCAGGAGATTAAGGAAGAATACACTCGTATCCAAGCCAGATCTGAGGAATGGGAAGGGTTTTTCAAAAGCCTGCCCTTTTATTGGAAGTGGTTTTCTTTTCTCCCTATGTTCAAGAAAAGAATTTCGCTGCGCTTGTTACAATACCGAAATGTAGAAGAAACACATATTGCAGAGGATAGTTCATATGAAGATATTATGGGGGCTTTAACCAATCAATTATCCACCCTAATTGAAGAGAAAGAGGAGAAAATAAAGCAGCGGAACTTTTTGAGAGAGATGGAGACTCAATTGCAGGACTTAGAACAACGGATTACAGATAACCCTTCTATGGAGATAAACCAATCACGTGAAAAAATGAATAGTGCTGCATCGGTAAATGAACTGCTGGATACAACAGTCAAACATTCTATGTTTTGGCTTGCTGTTCACTATTATGAAGCTCAGTGGTTACTTGAGAAGCCCCTTACCTCTAAGCAGTCAGGTAAGACATATCCAAATATTATCCAGCATCGTTATAAGCTGTTATCTATGATCAGTCCTTGTTTTGTAATGACCTTCTATCAATTACCGAAAAACTTTAAAGCCTACAATCCTGGAGGTTCACCTTATTTATCAGAGCTTATCGATTTATTAATTGTAGATGAGGCGGGTCAAGTAACACCAGAAGTGGCTGCAGCTTCTTTTTCGCTTGCTAAAAGAGCGGTAGTAGTCGGAGACGTTCATCAAATTGAACCGGTATGGAATATTACAGAAGCGCTGGACCTTACTCTTATACGAGACGCTTTTCATTTAAACGAGGTTCATACAGTAAAGGAAATATACTCACAGTTATTAGAACTTGGCTTAAACGTATCCCAATCGAGTGTAATGAAAGTTTCCGCCAAGAGTACTAAATATGAAAAGCATGACCAAAGGGGAATGTTTCTGAGTGAACATAGACGATGCTATAACGAAATTGTGGGTTACTGTAACGATTTAGTTTATGAAGGGAAGTTGGAACCTCTGAGAGGTACAAGGGAAAGTGATGAGAAAAATCAGCTTCCTGGGAGTGTCCCTCCAATGGGACATGTAGAAACAGCCTCCGCACAATCCCTAAAAAGAAACGGAAGTCGCTACAATCTCTTAGAAGCAGACGCCATTGTAACTTGGATTAGTGAGAATTTTGAGACCATTCGTATGTCTTATAATCAAAAGGAAGTTCCAAATGAAGCTTTAGTAGGAGTTATTACTCCATTTAAACAGCAGGAGATAGAAATAAAGAAGAAACTAAAGAAACGAATAAATGGAGCTGAAAATATTGAAGTAGGTACTGTCCATAAATTTCAAGGTGCGGAAAGAAAAGTGATTATACTTTCTACAGTTTATGGGGGGGATGAAAACCCAACGTTTATGAATCGAAATACGAGCATGATGAATGTAGCCGTATCCCGAGCAAAAGATTCATTCATCGTTATTGGAGATAGGAAGTGCTTAGGAAGTCGTCTTAATACTCCTACTGGGTTGTTGAATACAAAGCTGAAAAATATCAATTAG	MEPVKELTQYFRDSLAVKPILPFKKKPYKTLEEDQLKKGNLGSDFWDGMPKERAMIIVAKTIQCSFLGQRRVSGDEGELAGLFYIPCRLSSKGNLLPPEGDEPWIARDFLLPNIDPDRTVGKLDDMDRFLSEHRAKVMNDQNLTWKKYLNFAAQLYEAVVDHRFEDKKAGPFTVEPHIYIIENDQIDTSKQIRELYENLMEREDLPSLYKKFLSAENSITEINEENTLENMKHHKGQMGGAYPLSTSQRESMNHFTNIEDGEILAVHGPPGTGKTTLIQSLVATLFVERALKKGPPPLIVASSTNNQAVTNIIESFQNMKGSESLLMERWIGDKVNDFATYFPSAMKMDTTGFQITTKEGGHFVQEVEHQEYKRSAEKMFLRKSEEYFQYSNLSVKSAKKQIYEKLLLENKYCHDLLTLFQEYEQKFGQSVGVYQQISTIDKRIQEIKEEYTRIQARSEEWEGFFKSLPFYWKWFSFLPMFKKRISLRLLQYRNVEETHIAEDSSYEDIMGALTNQLSTLIEEKEEKIKQRNFLREMETQLQDLEQRITDNPSMEINQSREKMNSAASVNELLDTTVKHSMFWLAVHYYEAQWLLEKPLTSKQSGKTYPNIIQHRYKLLSMISPCFVMTFYQLPKNFKAYNPGGSPYLSELIDLLIVDEAGQVTPEVAAASFSLAKRAVVVGDVHQIEPVWNITEALDLTLIRDAFHLNEVHTVKEIYSQLLELGLNVSQSSVMKVSAKSTKYEKHDQRGMFLSEHRRCYNEIVGYCNDLVYEGKLEPLRGTRESDEKNQLPGSVPPMGHVETASAQSLKRNGSRYNLLEADAIVTWISENFETIRMSYNQKEVPNEALVGVITPFKQQEIEIKKKLKKRINGAENIEVGTVHKFQGAERKVIILSTVYGGDENPTFMNRNTSMMNVAVSRAKDSFIVIGDRKCLGSRLNTPTGLLNTKLKNIN				NA	NA	NA	NA	NA
AK012_02025	1488			hypothetical protein	GTGAATAAAAGAAGGTGGTTTATATGGTGTTTCTATTCTATGTTGATTTTCACGCTAGTTGGTTGCGGTAATGAAGAAGCTTCTAAAGATACACCAGTGTCACAAGAGCCAGTTGGGTCTGAAGAAAAACCGGTAGAACCGATCTCTCCTGAAGATTCTGAAATGGATGATGAATCAATAAAAGAAAGCAAAGAAGACATTGAAGAAACACCGGATGAATCAGAAAAAGCGAACGATGAAGTTCAGGGAATTGTTGTACAAAACCAGGAAACCACCCTATATGAATCAGAAGAAGGTAGCATCGTTTACCAAGGCAAGAACAGTTCCATGGATGGCGACTATTATGTCTTTATCGTGAGTGGAGGTTTGAAACATACTGATAAAAACCCCAAAACGTTCAATTTTATTTATCCCACGGGAGATACAGTAGAAATAGGAGAAAGAAATCTATCCTTCATACACCCAATAGATAAGAACAAGGAAGTACAGTTTTATACTGATGATGAGTCTATGGATGAGTTTCCAATGCGTGTGGATTTTAAGGCATGGCCTAAAAACCCTGAAAAGGCTTCTTTAGAGGAAGACCAGGTATCCATCGAATCTAAAGAAATTTCGGAACCGGCTGAAGAGGTTACTGTCCCGTTGGCTACAACTATTGAAAATTTTACGGAAACCTTAGAAATTTCTAAGGAGACCATTAACAGTACAGTGAATTTGTCAGGCATCAAGTTGTTTCATGATGAAATTACAGTTAGGGGTACGTTAGATTACAAAGAAGATTCAGAAGATGAACCTATGTTCAGTTATTATCTCCCCACAGATGATTCCTATGATTCTTGGAGCATAAGCGGAATTGAAAGGCAGCAATACAAGGGGACAAGCATTCCTTTTGAAGAGACCATCACAATGGACGATTTTAAATTAACCCAATACAATCCGGTCATTCATTTCAATGTGGCTGGTGCTTTATTTAGTTTCAATCTATCCACCCGTCAGTTAGAAGAACAAGCGAAGCCTTTCGGAGAATATTTAATGGCTAAACGCTTCACAAAAATTGATGGATGGGAGACCAATGATGGGGAATTCTTATATGAAGGTTACTTCCATGATTATTTCTGTTGCAACAATGACATTACATCAGATACTGTAAAACGAAACTTTACTAAAGAAAAACTCTATCTAGGGACAAGCTATAATACTTTGTCTTTTGATGTGTACGTTGGTAACACGGAGCAGTCTGAAGATGTTAGTTATCTATTGCGCTTTTATGATGGAGACCCTGAAGGGAACAGTTGGGAAACAACAACAAAACCTTTATATGAGGCTCGAATTCAACGCGATGATGAGAAGACATCTCATTCCTTAGATGTAAGCCAATTAAGCAGTGACTTTATAACCATGGTGCTTACCGAAGATGCGGAATCTCCTGAAGTTGAATTAGATACAGAAGAATTCGGTGTTTACTTCACCAATATAATGGTCCAGTAA	MNKRRWFIWCFYSMLIFTLVGCGNEEASKDTPVSQEPVGSEEKPVEPISPEDSEMDDESIKESKEDIEETPDESEKANDEVQGIVVQNQETTLYESEEGSIVYQGKNSSMDGDYYVFIVSGGLKHTDKNPKTFNFIYPTGDTVEIGERNLSFIHPIDKNKEVQFYTDDESMDEFPMRVDFKAWPKNPEKASLEEDQVSIESKEISEPAEEVTVPLATTIENFTETLEISKETINSTVNLSGIKLFHDEITVRGTLDYKEDSEDEPMFSYYLPTDDSYDSWSISGIERQQYKGTSIPFEETITMDDFKLTQYNPVIHFNVAGALFSFNLSTRQLEEQAKPFGEYLMAKRFTKIDGWETNDGEFLYEGYFHDYFCCNNDITSDTVKRNFTKEKLYLGTSYNTLSFDVYVGNTEQSEDVSYLLRFYDGDPEGNSWETTTKPLYEARIQRDDEKTSHSLDVSQLSSDFITMVLTEDAESPEVELDTEEFGVYFTNIMVQ				NA	NA	NA	NA	NA
AK012_02026	4458			hypothetical protein	ATGAAAGAAAAATCCACACTCTTCTGGAGACGAATGAAGGAACTTCTCTGGGTTTACCGTTATGATGCCATCGCTGTCACGTTTATGACCGCTTTTATCATTGTGTACCTGCTACCGGTCTACGGGCCGGGGCACGTCGTCTTCAGTGATCTTGCGTTCGGCTTTTCAGCAGAGCGGTATTTGTCAGAGATTTTCGGTGGATGGAACGAACGATGGAGTACGTCCACCCTGTTCAACGTCCCAAGGCTGATGTACATCCTCCCGCTTTACATACTTGCCCAAGTTTTTGAAGGGAGCGGCCCCTTATTGATCAAAGGGTTCATTACGGTCCTTCTCCTTCTGTCTGCCGTCACGATGTACCTGTTCATAAAACGTGTGGTCAGTATTTACTTTACGAAACACTTTACATTCTTTATGATTATGGGCTTATCCATGGGGGCTCTCTTTTATGCGGTCAACCCGTGGGTACTCTTCCGGGTCCAGCACATCTATCTGCTGTGTGGATACAGCCTCTTCCCTCTAATTATCATGCTGTTCTTCAACTTGTTTGATCCAAAGTTCCAGACCCAGCTGATTTCAGGGTATGATGTGACGAAAAAGCGGCTGTATACGCGCAACGTCATCGATGCCGTCCTGCTGGCCCTCACTTTTTCGGTAGCCGCAGCGGCGATCCATTACTTTTTCTTCGGAGCGATTTATCTCGGCATCATCGGCGTTCTTTTATTGGTGAAAGCGTACTGGAAACACCGAAGGACGGGCTTTCGTGTTCTGGGATCGATTACGACACATTTCATTCTGCGGATCCTGTTGTTCGGTTTCCTATTCTTTTTCTTCAGCTTCTACTGGCTGAGCATGTACGGTGGCAGTATTCTGCTTGATGCCCAGGCCAGTCAGCACAATATCAACGTTGTAGACACGCTGTCCTTGTTCAGCAGGAACAGCAGTCTCGTCAATGTCCTTTATTTCATCAGCTACTGGTGGCCGATGTTCCCGCTCACCGAACTCCCTTGGACGTTCTATGCCGGCGGCGGATTCTTATTCCTGTTCATTCTATTCGCCATTCTCACAAGGGCATACAGGAACGCTATCATCCTTTACCTTTCGGTTTTGAGTGTATTCTTCCTAATTGGTGCAACCGGTGTGTACTATTCATGGTTCGCCGAATCCTTCGTCCTGCTCGTAACCAAAACACCAGTCATCGGAAGTATTTTCAGAGACCCCAACAAATTCATCGGCCTCTTGGCGGTCAACTTCTCTGTCTTTCTATCTGTCGGAGTCATTCAGTGGATGCAGTTCATGAAAGCTCAGGAAGGACGGAAATCGTATATTGTCCAGTTCCTCTCTCTTGCTGCTGTGACGGTCTGCCTGATCTTGTATGCCGATCCAATGCGTCATTATTTCGTGGAGGGTTACTATTCCCCTGTCGAAGAGCCGGATGAATATGCCGCCTTGGAGGAAGAGTTAATCGAACCGGATGCGTTTGACAGCCGGGTGTTATACATCCCTGTCGCAGACCAGATGACCCAGCCCTATGCCGGAATTGCTACACCTTACTGGAATAATGCCTCTGCGGATGGGGCGATGCCGAAAGCAACGGGGGATATCCACGTCTATTCATCACCGAAGAATACATTGTTCCATCACGAAGGCAATAAAAAAAGCATAACCCAGACATTGAACTATTATCAGGAGCTTTTAGATACAGGCCGCTCCTCCAACCTGTCCAGCTTATACAGCACGTTCGGGATCAATGAGCTCGCCTATCACAAGGAATACCTGTCCCAGGAAGAAAGGCAGAACTTTAACGAAAAGATCCTTTCGATCCAGGACGGGATGGACCTTCATCATACCGGTGATATTTTCACACTCTATGAACTCAAGCAGCAGCTTCAGCTTCCCTATCTGTATGAAGTGCCGTCCAGAATCTATACCCCTTACGGCCTGTCGCGTCTCGAAAGCTATCATGGGTTTGATGCCTTTCATTTCAGGGATTACGGGGTACTGTTTACCTCGTTGAATCAGGACAGTCACCTCTCTGATGCCACACCGGACGATTATGTCGAAGTGAACAAGAAGGAAGACCTTCTCCTGTCAGAGATCCCTGAGGATTATTACCTGTACCCATTCGATGCAATTGATCAGGCCAATGCCTTTATGAAATGGGGGAAAACGCTGGTCGAGAATTCAGAATGGAACTGGTTCCTTGAGTCCCAGGATATCCGTGATGACTCGAGAGATTTCGCCTACGACACAGGCGTCGGTGTCACCTTTGCCTCGGCAGAGCTGGATATCCTGCCTTATGAGAAGGACCAGGTGGAAGGTGAGTTGATTGAGGACTTCGATAGTCTGCTTAGAAAAGAGATCTTTTTCACTCCGGATAATCCAGAGTTGTTCGAAGTCCAGGCCAATCCGTCGAATGAATACAATAACCTTCCCGTCGTTTCCGGAGATGTCACAGCTGCAGATCCAAAGAATATCTGGCAGGTGGCCAAAAGTGGGATGATTGACGCCGAAGAAAACACCCCGTACACGTTCAACATGCTCATCTCCGGGCGCGGGGTCGACCGTCTCCACTTAAAGGCGCGTTTCTATGACGATGAAGGAGAGGAAATCGGGGTGAGCTACGTCGTCTCTCCTGAAAATCAGGAATCCTTTGATGCGCTGAATTTCACCGGTGAATACGTATCCCCGCCTGGTACGGAACAAGTGCGCCTTGATCTATTAACCTACCAGCAGCCTGAAGAGAAAACGTACTGGTGGATTCATGACGTCGAGATACACAGCTATGAAGCCTACACCAAAGAAAATACGTTCACAATGACAAAAGACGTACAGGAATCCGGAGAATATGCGTTATACATGAGGACGTTCACCGGTGAAACAGGTGGAGATCTGGAAATTGAACTGGATGGAGAAGTTGCGACCCTCTCCTCTGTTTCCTCTCTCAATCAGTTCCAATGGATGAAAGTCGGAACGTATTCGTTAGCAAGCGGCTCCTATGACATCGACGTAACCAACCGGTCCGGCTTCAATGCCGTGAATGTATTCGCACTCGTCCCGGAAGACGTCCTGAACGAAACAGAAAAGCAGCTTTCAGAAACGCTGAAGGAACCGAAGGTCTTCATGAACCTTGAAGGTGAACGGGACTTTGAAGTCGATGGACATGTCCAGACAGAACGCTCCTTTCCGGAATTGAGCAGTGGAAAAGGCATCAGCCTGGCGGAAGGCACGCTGTCAAAAACGGTAGACATCTTAAAATCGGGCACCTACTCTTTTTCGCTTGCGGCCAACGCCCTTCCCGAGCAGGACGGAGACGTGACCATCACGCTGACACCAGAAGACTCACAAAACGAAGTCCAGACGTTCCCCTTCAGCAATGAGGACTTCACGTCCACAGATACAGGGAGCGATGTCGTCATTGATTACATGCAGTTCAACGAGCACCCTTACGTATATCGGGATCTGGAAGGTTATTATGACAACCTTCACACGTTGAACACACCGGAAATAAATCTTACAGAGGGCTCCTACACGCTGAGCATCGATATTGAAAGTGATGCACCGCTCCTCAGCACCGTAGACGACCTGCATAAGTTCGATCCAAATGAAGTCAATATCGAAGAGGATATTCCGGACCCTTACAATGACGACTGTACCGACTGCCTTTCGATCAACCCGAGCATGTACAACGACGTAAAAAATGACAGCGGCATGGACATTTCCTACGAGCCGACCTGCTCCTGTGACTGGTACATTTACGCTTCAAAAAAAATTGATGTGGAAGCGTACGGTGAATACCTCGTCCGTATCAAGGCCCGATCTGAATCTGTCGTCAAACGCCATATGAAGGTTTTCTTCCTGGATGAAGAAGACCGGATCATCGATACCGCCTTTATCCAGGATGTTGAGGAAAAGGACAAGGATCAGTGGACCGATTACGAACAGATCGTCCAGGCTCCTGAGGAAGCGGTACGCATGCAGTTTCACATCTGGGCACGCGGCAATAAAGAGGAGGAAGGAAGCCTTGAGCTTGAGGACTACTCCATTGTTCGCTACTCCGATTTAACGCTGGTGGATCAGCTGTTCTTATATGAAGGATCATCTATGGAGAGCTTTCTTCCCGACCGGAGTGAAACAAACACAACCGCCTGGGAGCGGGTGGATACGATGAAACGCACCTTCACCCTCGACAATGAGGCGAATGAAAGCAAAACGCTCCTATACCGCGAGTCACCCAACCCGCTCTGGGAACTGGAGATCGGTGATGACAAGATGCGTGGAAAGACGGTCATTAATGGCGTTTCGACGGCCTTTATTACGGATCAGTCTGGAGAAGGGACGCTTTCCGTTGTGCTACGAACAATTTATTACATCGGGCTTGGACTGTTCCCATTAGGTTTCTTATCCGCTTTTCTTCTATATATATGGATTAGAAAAAGTGAAATCTCAGTAGATTAA	MKEKSTLFWRRMKELLWVYRYDAIAVTFMTAFIIVYLLPVYGPGHVVFSDLAFGFSAERYLSEIFGGWNERWSTSTLFNVPRLMYILPLYILAQVFEGSGPLLIKGFITVLLLLSAVTMYLFIKRVVSIYFTKHFTFFMIMGLSMGALFYAVNPWVLFRVQHIYLLCGYSLFPLIIMLFFNLFDPKFQTQLISGYDVTKKRLYTRNVIDAVLLALTFSVAAAAIHYFFFGAIYLGIIGVLLLVKAYWKHRRTGFRVLGSITTHFILRILLFGFLFFFFSFYWLSMYGGSILLDAQASQHNINVVDTLSLFSRNSSLVNVLYFISYWWPMFPLTELPWTFYAGGGFLFLFILFAILTRAYRNAIILYLSVLSVFFLIGATGVYYSWFAESFVLLVTKTPVIGSIFRDPNKFIGLLAVNFSVFLSVGVIQWMQFMKAQEGRKSYIVQFLSLAAVTVCLILYADPMRHYFVEGYYSPVEEPDEYAALEEELIEPDAFDSRVLYIPVADQMTQPYAGIATPYWNNASADGAMPKATGDIHVYSSPKNTLFHHEGNKKSITQTLNYYQELLDTGRSSNLSSLYSTFGINELAYHKEYLSQEERQNFNEKILSIQDGMDLHHTGDIFTLYELKQQLQLPYLYEVPSRIYTPYGLSRLESYHGFDAFHFRDYGVLFTSLNQDSHLSDATPDDYVEVNKKEDLLLSEIPEDYYLYPFDAIDQANAFMKWGKTLVENSEWNWFLESQDIRDDSRDFAYDTGVGVTFASAELDILPYEKDQVEGELIEDFDSLLRKEIFFTPDNPELFEVQANPSNEYNNLPVVSGDVTAADPKNIWQVAKSGMIDAEENTPYTFNMLISGRGVDRLHLKARFYDDEGEEIGVSYVVSPENQESFDALNFTGEYVSPPGTEQVRLDLLTYQQPEEKTYWWIHDVEIHSYEAYTKENTFTMTKDVQESGEYALYMRTFTGETGGDLEIELDGEVATLSSVSSLNQFQWMKVGTYSLASGSYDIDVTNRSGFNAVNVFALVPEDVLNETEKQLSETLKEPKVFMNLEGERDFEVDGHVQTERSFPELSSGKGISLAEGTLSKTVDILKSGTYSFSLAANALPEQDGDVTITLTPEDSQNEVQTFPFSNEDFTSTDTGSDVVIDYMQFNEHPYVYRDLEGYYDNLHTLNTPEINLTEGSYTLSIDIESDAPLLSTVDDLHKFDPNEVNIEEDIPDPYNDDCTDCLSINPSMYNDVKNDSGMDISYEPTCSCDWYIYASKKIDVEAYGEYLVRIKARSESVVKRHMKVFFLDEEDRIIDTAFIQDVEEKDKDQWTDYEQIVQAPEEAVRMQFHIWARGNKEEEGSLELEDYSIVRYSDLTLVDQLFLYEGSSMESFLPDRSETNTTAWERVDTMKRTFTLDNEANESKTLLYRESPNPLWELEIGDDKMRGKTVINGVSTAFITDQSGEGTLSVVLRTIYYIGLGLFPLGFLSAFLLYIWIRKSEISVD				NA	NA	NA	NA	NA
AK012_02027	1398	rfbM	COG0662	Mannose-1-phosphate guanylyltransferase RfbM	ATGGTAAACAATATGAAGCTCATGCTGATGTCCGGGGGTTCTGGAAAAAGACTCTGGCCGTTATCCAATGATTCTAGGTCCAAACAGTTCTTGAAAGTCCTTCCTGATGAGGATCACGGGCGGATTTCCATGCTTCAGCGGGTCTACCGCCAGCTCCAGGATACCCCTTTCGGAGAAGATTCTTTCATTATCACAAACCGGATGCAGAAGGATTTAATCAAGAGTCAGCTTGGTGCGGATGTGCGGACGATTCTTGAACCCTCAAGAAGAGATACGTACCCGGCCATCGCACTCGCCTGCAGCTATCTCTATTCGGTCGAAGGCTGTGTGGAAGATACGTGGGTCGGTGTCACGCCGTGTGATTCCTTTACCTCCACCGAGTTTTTCCATAAACTTACGACACTGGCTGAAACATGTGAAAAGCAGAACGCCAGCCTTGGGCTGCTGGGCCTCGTGCCCTCCCACCCGACCAATAAGTACGGATACATTGTTCCAAAGGAAGAGGACGGCGTCACGTGGGTTGATCATTTCGTAGAAAAACCGGAAACAAAAAGAGCCGAGGCGTTGATCGAAGACGGAGCCTACTGGAATGGCGGCGTATTTGTTTTTAAACTTGGCTACCTGATCGACCATTTGAGAAACCATGGCTTTCCCGTTGATTATTTTGAACTCCGGGATACGTACGACACCCTTCCAAAAACGAGTTTTGACTATGCTGTCGTAGAACAGGAAAACTCCATGATTGTCGAGGAATTCGACGGCTTCTGGAAGGACCTCGGAACATGGAATACGCTCACAGAGGAATCCGGCAGCCGGATTGTCGGACGCGGTACGTTGTCGTCCGAATGCCACAACACCCATATCTTTAATGAACTCGACCTTCCCGTTTTCGTCCACGGCATAGACGATGCCATCGTTGCCATCGGGGCTGATGGCGTGCTGGTGGCCGATAAGGAAAAAAGTGCAGAAATCAAGAATTTAATCGAAGACACGAGCCACCGGCCGATGTACGAAGAAGGACAATGGGGACACCAACGCATTCTTGATTTTCGCAAGAACGAGGAGAATCAGGAAGTCCTTACGAGCAAATTATGGCTTCATAAACAGAAAAACTTGAGCTACCACTCCCACCGCTTCCGTACAGAAATCTGGACGATTGTACAGGGGACGGGATGGGTCGCTCAGGATGAAATCATTACCAAGGTGAATCCCGGTGACGTGCTGACAATTCCACCAGAGAAAAAACACGCACTCAAAGCAGAAACGGACATGGAAATCATCGAGGTTCAGCTGGGAGAGTCAACGTCCTCAGATGATATCGATATTTACTTCCACACATGGGCGGAGATTGAAGAACGGTGCATTATAAGAACCACACCGTCCCACCAGTTCAAGTAA	MVNNMKLMLMSGGSGKRLWPLSNDSRSKQFLKVLPDEDHGRISMLQRVYRQLQDTPFGEDSFIITNRMQKDLIKSQLGADVRTILEPSRRDTYPAIALACSYLYSVEGCVEDTWVGVTPCDSFTSTEFFHKLTTLAETCEKQNASLGLLGLVPSHPTNKYGYIVPKEEDGVTWVDHFVEKPETKRAEALIEDGAYWNGGVFVFKLGYLIDHLRNHGFPVDYFELRDTYDTLPKTSFDYAVVEQENSMIVEEFDGFWKDLGTWNTLTEESGSRIVGRGTLSSECHNTHIFNELDLPVFVHGIDDAIVAIGADGVLVADKEKSAEIKNLIEDTSHRPMYEEGQWGHQRILDFRKNEENQEVLTSKLWLHKQKNLSYHSHRFRTEIWTIVQGTGWVAQDEIITKVNPGDVLTIPPEKKHALKAETDMEIIEVQLGESTSSDDIDIYFHTWAEIEERCIIRTTPSHQFK	PGPT0022660_720	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
AK012_02028	681			hypothetical protein	TTGGAAGGAACCATTTTATTTGTGGATGACGATCCACTGGTTTTATCAATTATTAGACGTTCGCTGATCGACACTCCCTATAAAGGACTGTTTACCTCATCGTCCACCGATGCTCTCGACATCCTGAATGAAGAAGAGGTCGATGTCATAGTAACAAACCTCCGGATGCCGAAAATAGACGGTGTCGAACTTTTGAAAAGTGTGCGTGCCGAGTTTCCCTTTGTTACCCGTGTGGTTTTGACCGGATATCTTCAGGTTCACTCCATCATGGCAGCCATCAACCACGGAGAGGTTTTCCGTTTTCTTACCAAGCCGCTCCCTGTGCATGGGCACTTCATGAAAGTGCTTGAGGACGCAGTCCAATATTCCAAAACACTGAAAGAGAAGTACAGTGTCATGCTGTCCATCATCCAAGACGTTTTCAACTCCATTCAATATGAGTTCATTTGTGTGGATGAACATTACAATGTCTTAGAAAAAAGTCCAACGATAACGGAATATGAAAAAGGAGAAAACCTCTACTCAGACGTTGTTTTTCTGGACGATGATGATTCAGTGGACCGAAAGAAGACAGTTCATCTAGCCGCCCTCGGTCCGATGACGTCTATTGGTAACACCAATCATTACGGACAGATTTATTTCTTTTTCAGAGAGCTGTCATTTCGACAGGTTCTTCAATAA	MEGTILFVDDDPLVLSIIRRSLIDTPYKGLFTSSSTDALDILNEEEVDVIVTNLRMPKIDGVELLKSVRAEFPFVTRVVLTGYLQVHSIMAAINHGEVFRFLTKPLPVHGHFMKVLEDAVQYSKTLKEKYSVMLSIIQDVFNSIQYEFICVDEHYNVLEKSPTITEYEKGENLYSDVVFLDDDDSVDRKKTVHLAALGPMTSIGNTNHYGQIYFFFRELSFRQVLQ				NA	NA	NA	NA	NA
AK012_02029	876	hyaD		Hyaluronan synthase	ATGAGCGGAAAAACAGGAATTGTCTTTTCTACCTACAACAGCGCCGCGTATGTGAAAGAATGCTTGGTGAGCTGTATTTATCAGGATCATCCGGATGTCGAAATCGTTGTTGTCGACGATGGCTCCGAAGATGAAACAGCCGCGGTCATTAAAAAGTACGCGGCATTAAGCCCCCGCGTCCACTTTATCCAGCTTCCCCACGGGGAACGGGGTATTGCCAGGAAGACAGCTATCGATCATGCCCTTGAACTTGGTGTGGATTACTTATTCATCATTGATTCCGACATGATGCTCGAGAAAACCCTCGTATCGAAATGTACCGTATATCTGGAACAAGGAGATACCGGTGCTCTTGTGATTCCCGAGGTGGCCTACTCCCGTCATAAGAACCTTTTTTCACGTGTAAAAGTGTTTGAGCGGAACCTCTATCATATTTCAGACCCGGACATCGGACGCAACTCCATTGAGGCTGCCCGATTCTGGAAGGTGGAGGAATACTTGAAAACCGGCGGCATGAATGTGGAGCAGATCTCTTTCGAGGAAATCCAGCCGACGATCCGTTATATGGAAATGGGCGGACTCGTAGAACGAGCCGTGTTCACAGCTGTCTACCATGATGAGAAACATGTCAGTTATAGAGAGTTGATGAAGAAAAAAATGTACTACTTTGAGGTGATGCCGAAAACGCTGGAGTCAGAAGATCAAGGCATCAAAAAAGCACTGCAGCGGTGGTATTTCTTCCGTCCGATCTTATATAAAAGGGAGAATTTGAAGAAGTACGCCGCCCGCCCACACTTAGCCGGTGGTCTTGTCTTTATGTATGTATCCTTAAGTGTCGGCGGCGGTGTCCAGTTATTGAAGAACCTGTCGAAATGA	MSGKTGIVFSTYNSAAYVKECLVSCIYQDHPDVEIVVVDDGSEDETAAVIKKYAALSPRVHFIQLPHGERGIARKTAIDHALELGVDYLFIIDSDMMLEKTLVSKCTVYLEQGDTGALVIPEVAYSRHKNLFSRVKVFERNLYHISDPDIGRNSIEAARFWKVEEYLKTGGMNVEQISFEEIQPTIRYMEMGGLVERAVFTAVYHDEKHVSYRELMKKKMYYFEVMPKTLESEDQGIKKALQRWYFFRPILYKRENLKKYAARPHLAGGLVFMYVSLSVGGGVQLLKNLSK				NA	NA	NA	NA	NA
AK012_02030	1167	mshA_3		D-inositol-3-phosphate glycosyltransferase	TTGATCAAAACGAATGAAACCAATGCTCCTGTCCTGTTTTTCTTATCCTGGAGGGATATATACTCCCCCAAACGCGGCGGTGCGGAAATCTTCACACACGAAATGGCAAAACGCGCCGTCCGGAGTGGCTGGAGGATCGTTCACTTTTCCCCGCAGTATGAAGGTCTGGCACCGGAAGAGTACATCGACGGTGTCCAGTATGTGCGAAAAGGGGACATCCGCACCGTCATTTCTCATGCCCGCCGGTTCTATCGGACACACAGAAAGGAAATCTCCTATGTGATCGACCAGTGCAATACCCACCAATTCTTTTCACCTTTATGGGTGGAACGCGGTAAACGGATCTTTTTCATCCATCAGCTGACGAGGGAAATCTGGTTTCGCAATCTTTCCCTTCCTTACAGCTTTTTCGGGTATCTATCAGAAACCCCTCTTCTTAAGATCCACAAAAAAGATCCCACGATCACTGTATCCTCCTCGACCAAGCAGGATCTCGTGAAAGCAGGATTTTCAGAAGATCAAGTATGGGTCCTTCCGGAAGGAATTGATTTTGCCCCGTGGTCGAAGGACGAATGGAGGCCGAAGGAGCCGGAGAAAACCTTTATTTATGTCGGAAGAATGGCCAATTACAAAGGCATTGATGCGGCCGTGAAGGCCTTTATCCAGTATCGTAGAACCTATCCATCCGGCAGACTCTGGATCATCGGGAAGAAGAATGAAGACTATCTGAAGAAGGAAATCTATCCGCTTTTACAAAAGGCCGGTATCTCCTGGAGTGATCAGGAGGATCATGCGCCTGTCACATTCTTCGGCTTTGTATCGGAAGAAGAAAAGCTGGAGCGGATGAGCCGGTCCCATGCGCTGATGTTTCCGTCCATGCGTGAAGGCTGGGGGTTGATTGTGACCGAAGCAGCCGCTGTCGGCACACCGAGTATCGTCTACAACTCCCCCGGAATCCGGGACGCCGTTAATGAAGGAAACGCAGGATACATAGTGAAGAAGAACACCCCGGGACAACTGTTCGAAAAAATGCGGCTCGTTACCGATGACCCCGTCCAATACGCCATTATGCAGAAACGGTCGTACGAATTTGCCAGCCAGTTTCACTGGGACCACACAGGAGAATCCTTTGCAGCTTTTCTCGAACAAAAGGAGGTAAAAGAATGA	MIKTNETNAPVLFFLSWRDIYSPKRGGAEIFTHEMAKRAVRSGWRIVHFSPQYEGLAPEEYIDGVQYVRKGDIRTVISHARRFYRTHRKEISYVIDQCNTHQFFSPLWVERGKRIFFIHQLTREIWFRNLSLPYSFFGYLSETPLLKIHKKDPTITVSSSTKQDLVKAGFSEDQVWVLPEGIDFAPWSKDEWRPKEPEKTFIYVGRMANYKGIDAAVKAFIQYRRTYPSGRLWIIGKKNEDYLKKEIYPLLQKAGISWSDQEDHAPVTFFGFVSEEEKLERMSRSHALMFPSMREGWGLIVTEAAAVGTPSIVYNSPGIRDAVNEGNAGYIVKKNTPGQLFEKMRLVTDDPVQYAIMQKRSYEFASQFHWDHTGESFAAFLEQKEVKE				NA	NA	NA	NA	NA
AK012_02031	1233			hypothetical protein	TTGAAGAATCTCATGCTCCGCTATCAGTCAATCCTTTTCCTTTCTCTGGATCTATTACTGAATGCGGCCAACTATTTTTTCCATATTTTCATGAGCTGGTACTTAGCCGCCCAGGACTATGGCCGTCTTAGTGCTGCGCTTTCCATCCTTGCTGTATTATTTGTACTTGGCATGTCGATACAGACGTTCGTCGCCAAGCGGGTGGCTGAACGGGAGTGGACGAGAGCGATGAGAAATTGGAGTGGAGGGAACATCCTTGCTCTCAGCACCCTTTCTCTCATTCTATTAACCTTTCTTTCACCATGGATGACCGACCTTCTCCGTATGTCCCTGCTGGAATGGAGTCTGCTTCTGGCTATCTTCTTTATTCATATTGCCGTCTCCTACTTGAGAGGGATCTTTCAGGGAAGAAAGAAATTCTATTACATCAATATCAGCCTCTATGTCGAAAACCTCACGAAACTATTGATTGTTCTTCTATTCATTCCGAAATACCCGAGTGTTGTCATGACACTCATCTGCGTACTCGCCGGCATGCTGTTATCGCTCGGAACAGCGGTATGGCAGGCGTTTCACCTATACCGTAAACCATCGGAACATGCCGACCGCCAGACTCAGCCCGCCTTTTGGAACGTGTATATTTTCATCCTGGGGGCCAATTTCTTTTTCTACTTCTTTACATCTTTTGATATGATTATCGTCAACTATCATCTGCCGGAGATTTCCGGGGCTTTTGCAGTCGTCTTGAAATACAGCCAGCTGCTGCTTTTTGTAGCTCTCAGTCTGATTACCCTGTTTATCCCCTACTTGAACGAGAATGTGAAAAGCCGTCAAGCATTCATCAGAATGGGAGCGCGGCTTGTCGGCCTCATTGCTGCAGTAGAAGTGACCGCCCTTCTTGTTTATTTTACATTCCTGGACGAGACCGTCGCTTTGTTCTTCGGAGACGAATACATAGAAGCCGGTCAGTATCTCGGACTTGGCGCACTCGTTTACTGTATTTTTGTCCTTATCATGGTTTTTGTGAATATCAACATCGCCCTTGAGCGGTACCGGTATATGATTTATATGGGGGGCGGCGCCATAGCTCTTGCACTCTTATTAAATCAATTTCATACATCGCTCGCTCAGGTTCTCTGGATTGAGTTCACCTGCTATTCCGCTGTTTTTCTACTCATTTTAATAGACACACTACGCTCTTTGAGGAGGATGCCTTTTGATCAAAACGAATGA	MKNLMLRYQSILFLSLDLLLNAANYFFHIFMSWYLAAQDYGRLSAALSILAVLFVLGMSIQTFVAKRVAEREWTRAMRNWSGGNILALSTLSLILLTFLSPWMTDLLRMSLLEWSLLLAIFFIHIAVSYLRGIFQGRKKFYYINISLYVENLTKLLIVLLFIPKYPSVVMTLICVLAGMLLSLGTAVWQAFHLYRKPSEHADRQTQPAFWNVYIFILGANFFFYFFTSFDMIIVNYHLPEISGAFAVVLKYSQLLLFVALSLITLFIPYLNENVKSRQAFIRMGARLVGLIAAVEVTALLVYFTFLDETVALFFGDEYIEAGQYLGLGALVYCIFVLIMVFVNINIALERYRYMIYMGGGAIALALLLNQFHTSLAQVLWIEFTCYSAVFLLILIDTLRSLRRMPFDQNE				NA	NA	NA	NA	NA
AK012_02032	1107			hypothetical protein	ATGGAAAAAATAGCCGTCTTCTCCACAACCAATCGCAGGATTCCTTTTAATGACATTATCCCTTATTTTTCTGTCGAGAGCAAAACAATTGACGAGATTCCTTCCATTTCAACTCACAAACTCGTCATTCTGGATTTCAGAGACTGGCAGAAATGTCTGGATGTCAGTATTCAAATCAGGAAGCAGAATGAAAAAATCCCCCTTCTTTTGATTGCCTGCCCGACCGCAAGTGTCAATTACAGTCGTTTGAAGGAAATTCCAGGTTCCGGCCCTGTGAAAATCCTCCGTTGGCGAGGGAAATTTGCGGATGAATTATGGGAAGGCATCCAGTCGATCCTCCATCCCGAATACCCCTCCAAGCCGAAGAACATTGTTTTCGTCCTGCCCATTTTTAACGAAAGCGAACGGTTCAGTCATGTGAAGGATTTTCTCGCCCAGCTTCACCTTCTCCTTGAACTGGGCTACACGAATACAAGTGTCCATTTAATCAATGACGGAAGTGTCGACAACTCCCAGGAACTCATTCAACAGTACTATGACTACTTCAATGAATCTTCAACTATCATTCCATCAGTACAGCTCGTGTCCTCCTCCGATCTGGACCGTAATACAAGAAAAGCGGGCACCTACATCGAAGGCATGAAAAAGATTGAAGCTGAATATTACATCTTTGTCGATGCGGATAACAGCTTCAAAGTAGAGGACATCGTCAGGATGATCAATATCCTCCAGACGGGCTATTACGATATGGTTCTCGGTTCTAAAGACTTCTCTTCAGAAAAGCGGAGTCCCGTGCGCCATCTCCTCAGCTTTGGCAAAAGAACACTGACAAGGACTTTCTTACCGAATAAAGTATATGACTCCCAAACCGGATTGAAGATGCTGAACCGGACTGCAGTCGATACGCTGCTGCCTCATCTTCATATCGAGACCGGCCTTGCGATTGACTTGGAAATGCTTTACCTCGCTAAGAAAAAGCAGCTGCGCGTCCTGCAGATGCCTGTCGAATGTATTGACCGTGAGGGATCACACATCAACGTGTGGAAGGATTCCCTTCAGTTCGTGAAGTCGATGGGAATGATCCTACAGTTTCATAGGAAGGTATAG	MEKIAVFSTTNRRIPFNDIIPYFSVESKTIDEIPSISTHKLVILDFRDWQKCLDVSIQIRKQNEKIPLLLIACPTASVNYSRLKEIPGSGPVKILRWRGKFADELWEGIQSILHPEYPSKPKNIVFVLPIFNESERFSHVKDFLAQLHLLLELGYTNTSVHLINDGSVDNSQELIQQYYDYFNESSTIIPSVQLVSSSDLDRNTRKAGTYIEGMKKIEAEYYIFVDADNSFKVEDIVRMINILQTGYYDMVLGSKDFSSEKRSPVRHLLSFGKRTLTRTFLPNKVYDSQTGLKMLNRTAVDTLLPHLHIETGLAIDLEMLYLAKKKQLRVLQMPVECIDREGSHINVWKDSLQFVKSMGMILQFHRKV				NA	NA	NA	NA	NA
AK012_02033	696			hypothetical protein	ATGACATTTTCAATGAAACGGATTTATGCGATTTTCCAAAAAGATTTGAAGGAATTATACCGGAACCTCTTTGTATCCTCCACGATCATTCTTCCGATTATGATGGCTTTCATGATGAGTCAGGCGGAAGGTGTCACAACAGCCAGCGTCACCTTAGTGATTACACTGAGCTTTGCGGCTGTCGGGACCTTTGTCCAGTCTGCGATGATTGCGGAAGAGAAAGAGAAGAATACATTGAGAAGTTTAATGATGTCCCCCGCTTCCACCTTGGATATTCTAGCCGGAAAAAGCCTCGTCACGTTTGTCATGACGCTTGCCACACTGATTGTCAGCTTGTTGATCGTCGGCTATTCCATTCCAGAACCTGTGTGGATGACCGGCATGCTTCTCCTGCTCCTTGTTTTCTACATTACCCTTGGAACATTGATCGGCCTGCTGACACGTACATTAATTGAAGCCTCTGTCGTCCTTATGCCGATTTTACTTTTGTTTGGGATGAACGTTACTTTTGAACCGTTGATGGCGAGTTATGAATTCCTTTCGTTTCTTGAGTACCTGCCAAACTATCAAATCCAGCTGTTTATTGAGGACCTCGGTCAGCGTATCTCATGGGTACCGGCCGGCATTATTACGATTTGGACGGTGGTTACACTTATGGTTACGGTCGGTGTATATAAAAGGACATTCACAAGCTAG	MTFSMKRIYAIFQKDLKELYRNLFVSSTIILPIMMAFMMSQAEGVTTASVTLVITLSFAAVGTFVQSAMIAEEKEKNTLRSLMMSPASTLDILAGKSLVTFVMTLATLIVSLLIVGYSIPEPVWMTGMLLLLLVFYITLGTLIGLLTRTLIEASVVLMPILLLFGMNVTFEPLMASYEFLSFLEYLPNYQIQLFIEDLGQRISWVPAGIITIWTVVTLMVTVGVYKRTFTS	PGPT0006730_24358	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK012_02034	849		COG1131	Fluoroquinolones export ATP-binding protein	ATGGATCACATTATTGAAGTCAATCATGTTCAAAAAACATTCGGAAAAGAACAGGCCTTGAGGGATTTAACCTTCGGAGTAAAAAAGGGAGACATTTTTGGATTTCTCGGACCAAGCGGAGCTGGAAAAACGACAACCATTGAGGTTCTGACCGGCCAGCAGGTCCCGACTTCCGGCGAAGCCCGTGTTTTTGGCGTACCATCCAAAGATATGCACCATCCCCATTATTTGAAGCGGATCGGTGTGATGTCGGATTCGAGCGGTTTATACGAGCGCTTATCGATTCGTGACAACCTCCTTCTTTTCTGCGAATTGTACGATCAGCCTTCTAAACAAATCGAAGAGGTCCTTGAAATCGTTCATCTGACAGCAGAAAAAAATAAGCGGGTATCGAAGCTGTCCAAAGGGATGAAGCAACGGACGATGCTCGCCCGTGCTCTTCTGCATCAGCCCGATCTCCTTTTCCTCGATGAGCCGACAGGAGCTCTTGATCCGGCCAACGCTCAGCACATTCATCAAGGTCTACGAACTTTAAATGAGCGGGGGACGACCATTTTCTTAACGACGCACGATATGAATGAAGCGGAAACGCTCTGCAGCACCGTTGCATTTCTGGATAAAGGAAGTATCCAACTGCTCGACTGCCCGAAAAAGCTTAGAAAGCAGTTCGGTGACGGACATTTGATGGTGGGACTGACAGACGGCCGGGAAATCATGCTTCCGAACGAGCCCGCAAGCGCAGAGGAAATCTACCAATGGATGAAGAACAGCGAAGTGGAAACGATTGAGATGAATACACCAACCCTCGGCGATATTTTCGTAGAGGTCACAGGGAGGAATCTTGTATGA	MDHIIEVNHVQKTFGKEQALRDLTFGVKKGDIFGFLGPSGAGKTTTIEVLTGQQVPTSGEARVFGVPSKDMHHPHYLKRIGVMSDSSGLYERLSIRDNLLLFCELYDQPSKQIEEVLEIVHLTAEKNKRVSKLSKGMKQRTMLARALLHQPDLLFLDEPTGALDPANAQHIHQGLRTLNERGTTIFLTTHDMNEAETLCSTVAFLDKGSIQLLDCPKKLRKQFGDGHLMVGLTDGREIMLPNEPASAEEIYQWMKNSEVETIEMNTPTLGDIFVEVTGRNLV	PGPT0006725_19795	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_02035	996			hypothetical protein	ATGGACGGACTTACTATTACGAAGGCGGAAAAAAGCCGGGGTGGTACGACGATTTTTTCCCCATTTGATTTACGTATTGAACCAGGACAGGTCGTGTCTGTTTACGTTCATACAGATCTCCGACACTGGCTGATTGATATTCTTAATGGAGACGAGACGTTATCTGGAGGCTGTATTTCCTTCCATGGCCGCCCTTCTCCTATTCCTTTAGGACTGCTCAGCCTGGATGCCCCTCTTTATGAACGCTTGAAGGTGAAGGAGTTGTTCCGTTTCCATAGGGACCTTTATCACTCCAGCGTTTCCTTGGAATCAGTCATGGATTGGACACGCCTGTCAGACCTTCAGCACCATCAGGTAAAAAAGCTGACCTTCTCCGAGAAAAAACGGGTACAGCTGGGCTGTCTCATTTTACAGGACCCCCCATTCTTTCTCATGGAGGAACCCGATCAAAATGTAGACCTTGAAACGAAACAGATTTTGATGAAGATCTTACAACGACTGAAAGAAGAAGGTAAAACCGTTATGATCTTGTCCAGTAACCTGGAGAGCGCCATTATGATGGGCGATCACACCCACCGTCTCCATCAGGATGGTATACATAAAGTGGAAAAAGAGCACGAAGAGTCCGCTGAGCCTGAAACAGACGGTGCATCCGTCACCTTCCATAAAATCCCGACTAAAGTGCAGGAAAACATGATTTTATTTGACCCGCCTGAAGTCGATTACATCGAAAGCATTCAGGGGCAGTCATATGTCCATATCCGTGGGGAAGCCTTCCAGGGAATGTTCACGCTGAACGATCTGGAAGCCAGATTGAAGCTGTTCGGATTCTTCCGCTGCCACCGGTCTTATATCGTGAACCTTCAGAAGGTCCGAAAAGTCATCACTTGGACCAAAAACAGCTACAGCCTCCAGCTCGATAACGCAGAAAAGACCGAAGTCCCGCTTTCCAAAGGTAAAATGGCTGAACTAAAGGAACTGCTGGGCCTCAAATAG	MDGLTITKAEKSRGGTTIFSPFDLRIEPGQVVSVYVHTDLRHWLIDILNGDETLSGGCISFHGRPSPIPLGLLSLDAPLYERLKVKELFRFHRDLYHSSVSLESVMDWTRLSDLQHHQVKKLTFSEKKRVQLGCLILQDPPFFLMEEPDQNVDLETKQILMKILQRLKEEGKTVMILSSNLESAIMMGDHTHRLHQDGIHKVEKEHEESAEPETDGASVTFHKIPTKVQENMILFDPPEVDYIESIQGQSYVHIRGEAFQGMFTLNDLEARLKLFGFFRCHRSYIVNLQKVRKVITWTKNSYSLQLDNAEKTEVPLSKGKMAELKELLGLK	PGPT0006725_2005	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_02036	459	lrpC_1	COG1522	HTH-type transcriptional regulator LrpC	ATGAAAAGTAACGAGTTTGATCAAACGGATCGTATCATTGTCGATGAACTAGTAAGAGACGGTCGAATCTCGTATGTGGAATTAGCTGAAAAAGTCGGCATTTCCCGAGTCGCCGTCAAAGATCGTATCAATAACCTGATCAATAAAGGCGTGATTGAAAACTTTACAGCCGTCATCAATTCTGAGCGATTCGGTCAAAACATTTCCGCCTTTTTCGAAGTTGATGTCGAACCAATGAATCTGCAGGCGGTGGCCCAGAATCTGGCAGATAATCCGAGTGTGGCAAGTATCTACCAAATGACCGGCCCAAGCACACTGCACATGCACGTGCTTGTGGAGGATTTCAAGATGCTGGAAGCCTTTATCAATGATGAACTCTACTCAGTGGAAGGAATTACCCGTGTCGACAGTTCAATTATTTTGAAACGATTTAAAAGCAGGAAAGGGTACAAGTTGTAA	MKSNEFDQTDRIIVDELVRDGRISYVELAEKVGISRVAVKDRINNLINKGVIENFTAVINSERFGQNISAFFEVDVEPMNLQAVAQNLADNPSVASIYQMTGPSTLHMHVLVEDFKMLEAFINDELYSVEGITRVDSSIILKRFKSRKGYKL	PGPT0004196_5	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_CHROMATE_RESISTANCE	CHROMATE_RESISTANCE-CHR_TRANSPORT_SYSTEM,PGPT0004196-chrS-NA	NA	NA
AK012_02037	975			hypothetical protein	ATGAAAAAAATGATGGGGGCACTTATTCTTGGAAGCAGCTTAGTTTTATCCGCGTGTAGTTCAGCAGGGGGCTCGACGGAAGCAGAAGGAGAAAGCTATCCGGAACAGCCGGTTCAGATTGTTGTTCCGTGGGATGCCGGGGGAGATACCGATGCCATTAACCGCGTTATAGCCGAGGAGTTGGAAAAGGAACTGGACCAGGATGTCATTGTTAAAAATATTTCAGGTGGGAGTGGTGTCATCGGAGCGCAGCAGACGCTTGATGCCAAGCCGGATGGTTATACGCTTCTTGCGATTCATGATTCCATGGCGATGTCCGAATTGATGGGGCAGGCAGACTTCGGTTATTTTGACTTCCAGCCTGTATCGCTTATGACATCGACCTATGATCTTGTCGCTACGCACCCGGAAAACCCGTGGGACAATATGGAAGACGTCGTCGCTGATGCAGAAGGAAATCCTGAAAGTATTACATATGCAGCTTCCATCGGTTCTACTTCCCAGCTTGAGCCGGCATTGATCCAAAACGCTGCAGATATTCAGTTCAACATTGTCGGGTATGAAGGGACTGCCAAACGGATGAAGGCGATTGTTGCCAATGATGTGCACCTCGGTAGTGTATCGATTGCCGCTGGTAAGGAATACATGGCTGATGATCGTATGAAACTGCTTGGGTACACAGGAGAAGAACGCAGTGATGAATTCCCGGATGTGCCAACATTGAAAGAACAAGGGATTGACGTTACCTCTGCAGTAAGCCGTGGGATTGCTGCACCGAAAGATACGCCGGAGGCAATTGTAGAGAAGTTGAGTGATGCTCTTCAAAACGTTGCAGAAAGTGAGTCCTTCCAGGAAAGAATGGAAGAGCTCGGAAGCGAAGTCTCCTACAAAAATACAGAAAAATACGTTCAGTTCCTTGAAGAAAATGAAGTGGAAATGAAAGAGTCCCTTGAAACAAGCGGGCTGCTTGAATAA	MKKMMGALILGSSLVLSACSSAGGSTEAEGESYPEQPVQIVVPWDAGGDTDAINRVIAEELEKELDQDVIVKNISGGSGVIGAQQTLDAKPDGYTLLAIHDSMAMSELMGQADFGYFDFQPVSLMTSTYDLVATHPENPWDNMEDVVADAEGNPESITYAASIGSTSQLEPALIQNAADIQFNIVGYEGTAKRMKAIVANDVHLGSVSIAAGKEYMADDRMKLLGYTGEERSDEFPDVPTLKEQGIDVTSAVSRGIAAPKDTPEAIVEKLSDALQNVAESESFQERMEELGSEVSYKNTEKYVQFLEENEVEMKESLETSGLLE	PGPT0017360_1654	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017360-tctC-K07795	NA	NA
AK012_02038	489			hypothetical protein	ATGATGACCGTTAAAAGAGATGCCATGAATGCTGTAATCCTCTTAGCCTTTTGCGGACTGGCCTTTTACGGATCCACATTAATTCCGGAAAGAAGCCTCGGCAAAACCGAAGGAGACTTCTTTCCAAATATTATCATTGGTATCCTTGCCGTTCTGAGCCTTCTTTTGCTCGTGAAAAGTGTGTATGCGTATGTAACATCAGAAAAACAGCAGCGAACAGAACCAAAGACAAGCTTGAAAGAGCGGTGGGCGGAAGGGAAGAAAGTGTGGTACACGTTCGCTTTGTTTGGTGCCTACATCTTCATCATGCCATTAGCCGGGTACTTTTTATCTTCGGTTGCGTTTCTGTTCACGCTGTATCTGCTTCTATCATCCAATAGAAAGCGTCTCTGGCTTGTGCTGATCATTTCTATCGTTGTGACGTATGTCTTGAGCTTTATCTTCCAAAAGTTCCTGCTAGTCTTTCTGCCATCAGGAGTTCTTTTTTAA	MMTVKRDAMNAVILLAFCGLAFYGSTLIPERSLGKTEGDFFPNIIIGILAVLSLLLLVKSVYAYVTSEKQQRTEPKTSLKERWAEGKKVWYTFALFGAYIFIMPLAGYFLSSVAFLFTLYLLLSSNRKRLWLVLIISIVVTYVLSFIFQKFLLVFLPSGVLF	PGPT0017355_1388	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017355-tctB-K07794	NA	NA
AK012_02039	1515			hypothetical protein	ATGGATAGTATTTTATTAAGTTTCGAATCCATATTGAATATACAGACGATCCTCATCCTGCTTGCCGGCGTTGTTGCCGGGATCATTGTGGGAAGCATCCCGGGCTTTACCATAACGATGGGGGTAGCCTTGACGCTGCCATTCAGCTTCAGCATGGATCCGGTCAACGGAATTGCGTTAATGATGGGCGTACAGGTAGGGGGAAGCGCTGGAGGTTTGATTACATCCTGCCTGTTCGGGATTCCAGGAACTCCTTCGTCCGTCGCAACAACGTTCGACGGCTATCCGATGGTGAAAAACGGAGAAGCTGGAAAAGCGCTGGCCATTGGGTTGTGGTCATCATTCATCGGTACGATCATCTCCGGTATCATACTTATTTTCACAGCTCCGATTCTAGCAGAATGGGCGCTGGAGTTCGGTCCTTGGGAAATGTTCGCTTTGATGCTGTTTGGCATCAGTGCCATCGCCAGCTTGAGTGACGGGTCCTTAATTAAGGGATTGATTTCCGGGATGCTCGGTATATTGTTCGCCCTGGTCGGTTCCGATCCGCTGACCGCGATTCCACGTTTTACGTTCGGAATGTCTGAACTCATGTCAGGATTCAATTTTCTTCCGGTGCTGATCGGATTGTTTGCCTTTTCCCAACTGATGAGTGATATCAAAAGACCGCCCGCTCCTGTTCCGTTCAATGAGGCGTCCAACGTCAGCTACCCACTGCCGAAGCTTTTAAAGGATATGTGGTCGTCCGGAACGAATGTGATAAGGTCGAGCTTTATCGGGACACTTGTCGGTATTCTCCCGGCAGCCGGCGGAAGTATTGCGAATATCTTAAGCTATGATATCGCGAAGAAGTTTTCCAGGAAGTCTCACGAATTTGGAAAAGGGACGAAAGAAGGGATTATTGCAGCGGAATCTGCGAATAATTCGTCCATTGGAGGGTCCTTCGTACCAATGCTTGCCTTCGGAATACCCGGCGATGCGGTAACGGCGATGATGCTGGGGGCCCTGTTGATACACGGCATTCAGCCTGGACCATTGTTGATGGAAAACCAGCCGGTTCTTGTCTATGGAATCTTCATTTCCTTCTTCCTGGCGGCGTTCCTGATGCTGATTGTTCAGAGCCTTGGGATTAAAGTATTTTTGAAGATCAATAACATTCCCCAGCATGTGTTAATTCCAGTGATTCTGCTGCTTTGCGTGCTCGGAAGCTTTGCTGTGAACAATCGTATGTTTGATGTGTGGGTGCTGCTTGCCTTTGGTTTGATCGGGTATTGGATGAAAGCCAATCTATTTCCTCTGGCCCCGTTCATTCTTGGCATCATCCTTGGTCCGATGATTGAAGAAAACCTGCGTCAGGCAATTTCCGTAAGTCCAGATCTGACCACCTTCTTTACCAGACCGATTTCAGCTGTGCTTCTGGTGATGGCCGCCGCGTCCTTAACGTACGGGATTATCAGCAGTATGAAACAGAGCAAACCGAATGAATATGAACAAGAGAACAAGGAGAGTGCTTGA	MDSILLSFESILNIQTILILLAGVVAGIIVGSIPGFTITMGVALTLPFSFSMDPVNGIALMMGVQVGGSAGGLITSCLFGIPGTPSSVATTFDGYPMVKNGEAGKALAIGLWSSFIGTIISGIILIFTAPILAEWALEFGPWEMFALMLFGISAIASLSDGSLIKGLISGMLGILFALVGSDPLTAIPRFTFGMSELMSGFNFLPVLIGLFAFSQLMSDIKRPPAPVPFNEASNVSYPLPKLLKDMWSSGTNVIRSSFIGTLVGILPAAGGSIANILSYDIAKKFSRKSHEFGKGTKEGIIAAESANNSSIGGSFVPMLAFGIPGDAVTAMMLGALLIHGIQPGPLLMENQPVLVYGIFISFFLAAFLMLIVQSLGIKVFLKINNIPQHVLIPVILLLCVLGSFAVNNRMFDVWVLLAFGLIGYWMKANLFPLAPFILGIILGPMIEENLRQAISVSPDLTTFFTRPISAVLLVMAAASLTYGIISSMKQSKPNEYEQENKESA	PGPT0017350_3239	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_TRICARBOXYLATE_TRANSPORT,PGPT0017350-tctA-K07793	NA	NA
AK012_02040	1614	ywrD	COG0405	Glutathione hydrolase-like YwrD proenzyme	ATGATATCATTTAACCACCATGCCCAGCCCTACCCGGTCTCACGCAAGGCCGTCTATGCCAAGAACGGGATGGTCTCGACCTCCCAGCCGCTGGCGGCACAGGCGGGCCTCGACATTTTGAAAAAAGGAGGCAACGCCATTGATGCGGCGATTGCCACGGCCGCCTGCCTTACGGTTGTCGAACCGACCTCCAACGGCATTGGCGGAGACGCCTTTGCGCTGGTTTGGACGAAAGGAAAGCTGCACGGACTGAATGCGAGCGGGCGCTCGCCGCAGTCGATTTCCATTGACCAGATTAAGGCAGAGGGTCATGAGGAAATACCGAAATACGGATGGGTGCCTGTCACTGTGCCGGGAGCGCCGAGTGCCTGGGCGGAACTGAGCGAAACGTTTGGAAAGCTTCCATTAGAAGAGGTGCTTGCACCCGCTGTACAGTATGCTGAAGAAGGCTTCCCAGTTTCGCCCACACTCGCGAAATACTGGAACAAAGCTGTCCAGACGTTTGAAAAGGAACTGGAGGATGATGTATTTTCGGAATGGTTCCATACGTTCACACCAAAAGGACGGGCGCCAAAAGCAGGGGAGATCTGGTCCTCCCACGATCATGCAGAAACACTGCGTTCGATTGGAAAAACAAAGGCGGCCTCTTTTTATGAAGGAGAACTGGCGGAGAAAATCGCTGCTTTTTCAGAGGAGCACGGCGGATACATAACGAAGGAAGATTTAGCACAGCACCGCTGTGAGTGGGTCGATCCGATCGGTGTGAACTACCGCGGCTATGATGTGTGGGAAATCCCGCCGAACGGTCAGGGGCTGATTGCGCTGCAGGCGTTGAATATTTTGAAGGGTTTTGAGTTTCCGGCGAAGGATTCGGTGGATACGTATCATAAGCAGATGGAAGCGATGAAGCTTGCTTTTGCGGATGGACAGAAGCATATTACCGAACCTTCCTATATGAGGCATACGGCAGAAGATCTATTGAATGAATCCTACGGGGAGGAGCGCCGGCAGCTCATCGGGGAAGAAGCGCGTCAGCCGGAAGCGGGTGAACCATCTTTGAGCGGGACGGTTTATTTAGCGGCAGCGGACGGAGAGGGCAATATGGTTTCTTTCATTCAAAGCAACTATATGGGTTTCGGGTCAGGGCTGGTCGTTCCCGGCACAGGCATCGCCCTGCAGAACCGCGGGCATAATTTTTCCATGGATCCTGACCATGTGAATGGTCTTGAAGGTGGAAAGCGGACGTATCATACAATCATTCCAGGATTTTTAACAAAAGACAACAACCCCGTCGGTCCATTCGGTGTGATGGGTGGCTTCATGCAGCCGCAGGGACACGTACAGGTCGTCATGAATACCATTGATTTCGGATTGAATCCACAGGCGGCCCTTGATGCGCCGCGCTGGCAGTGGCTGAAGGATAAGCAGGTGGAAGTGGAACAGACCTTCCCCTCCCACATCGTCCAGCAGCTCGTGGATAAAGGCCATGACATTACGGTTCAGGTCGAGCCGAACAGCTTCGGCCGGGGGCAGGTGATCTGGAGAGATCCGGAAAGCGGCGTCCTCGTCGGAGGAACGGAATCGCGGACCGATGGTGTAACCGCGGGGTGGTAA	MISFNHHAQPYPVSRKAVYAKNGMVSTSQPLAAQAGLDILKKGGNAIDAAIATAACLTVVEPTSNGIGGDAFALVWTKGKLHGLNASGRSPQSISIDQIKAEGHEEIPKYGWVPVTVPGAPSAWAELSETFGKLPLEEVLAPAVQYAEEGFPVSPTLAKYWNKAVQTFEKELEDDVFSEWFHTFTPKGRAPKAGEIWSSHDHAETLRSIGKTKAASFYEGELAEKIAAFSEEHGGYITKEDLAQHRCEWVDPIGVNYRGYDVWEIPPNGQGLIALQALNILKGFEFPAKDSVDTYHKQMEAMKLAFADGQKHITEPSYMRHTAEDLLNESYGEERRQLIGEEARQPEAGEPSLSGTVYLAAADGEGNMVSFIQSNYMGFGSGLVVPGTGIALQNRGHNFSMDPDHVNGLEGGKRTYHTIIPGFLTKDNNPVGPFGVMGGFMQPQGHVQVVMNTIDFGLNPQAALDAPRWQWLKDKQVEVEQTFPSHIVQQLVDKGHDITVQVEPNSFGRGQVIWRDPESGVLVGGTESRTDGVTAGW	PGPT0002935_4814	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
AK012_02041	564			hypothetical protein	ATGAGAACCTATTGGGATATTTTTATCGCCTTTTTCCGGGTCGGTATGCTCGGTTATGGCGGGGGCCCGGGGTCGATTCCATTGATTCATAAAGAAGTCGTGGACAAATACAAATGGGTAACAGCAGAGGAGTTCGGCGACATCCTGGCGCTTGGCAATACGCTGCCCGGGCCGATTGCTACGAAGCTGGCCGGCTATATCGGCCATCAGGTGAAGGGAATGACAGGGATGCTGATCGGGGTTCTGGCGACGATTATCCCGACCATCCTGCTGATTATTATCCTCTTAACCTCCCTGTCATCCATCAAGCAGTTCGACTGGGTGCAGGGGATGACAGCCGCTGTTATTCCTGTCGTGGGCGTGATGCTGGCGGTGTTGACGTGGCAGTTTTTAGATAAGGCAGGCAAAGGGATGGGGTGGCGGAACACAATCATCGCTGCTGTCGTGCTGGTCATCTTGATGGAAGTGCTCTCCATCCACCCGGGGATCATTATCGGAGCCCTGTTAATATTTGCCCTTGTGAAAAAAGATAAGCAGAAAGCGAAGGAGGCGGGAGCTTCATGA	MRTYWDIFIAFFRVGMLGYGGGPGSIPLIHKEVVDKYKWVTAEEFGDILALGNTLPGPIATKLAGYIGHQVKGMTGMLIGVLATIIPTILLIIILLTSLSSIKQFDWVQGMTAAVIPVVGVMLAVLTWQFLDKAGKGMGWRNTIIAAVVLVILMEVLSIHPGIIIGALLIFALVKKDKQKAKEAGAS				NA	NA	NA	NA	NA
AK012_02042	531			hypothetical protein	ATGATGATTTACTGGCAGCTTTTTCTCGCCTTCTTCATTCCCGGCATCCTCGGCTACGGCGGGGGGCCGGCTTCGATTCCGCTTGTGGAAAATGAAGTGGTCCAGAACTATGAGTGGATGGATGTGCAGGAGTTCAGTGAAGTGCTCGCACTCGGGAATTCACTTCCCGGACCGATTGCCACAAAGATGGCCGGTTATATCGGCTATGAAGTGGCCGGAGTGCCCGGAGCCCTTGTTGCTGTCTTTGCTACGGTAGCCCCGTCCTTGATATTAATGATCATGCTGCTAGGGCTGTTGTTCAAGTATAAGGATTCACCAAAAGTGAAGCGGATGACAATGTATGTCCGTCCCGTCATCGCCGTGCTGCTCGGCGTGATGGCGTGGAGCTTTTTCAAGGAATCATTTGAAGGCATCGGCTGGCTGCAGACGGCCATTCTGATCGTGGCCGGCTATGTGCTGATGGAGCGGGTGAAGGTGCATCCCGCTTTCGTGATCGCGGGAGCTTTAGCCTATGGAGGATTTTTCCTTTGA	MMIYWQLFLAFFIPGILGYGGGPASIPLVENEVVQNYEWMDVQEFSEVLALGNSLPGPIATKMAGYIGYEVAGVPGALVAVFATVAPSLILMIMLLGLLFKYKDSPKVKRMTMYVRPVIAVLLGVMAWSFFKESFEGIGWLQTAILIVAGYVLMERVKVHPAFVIAGALAYGGFFL				NA	NA	NA	NA	NA
AK012_02043	201			hypothetical protein	TTGAATAGAAATAGAGAGGCCCCTTTTAAGGGGCTTCTTTTCGTTTGTAGAGAAAAAATGCTTGTCATTGCGGGGCAGTGTCACGAGGAGCTTTCGGTGGTGACGCCTGCGGGAACAGCGCGAGCCGAAGATCCACTTGGGAAGGTGATTTTCCTGACCAAGTTAGCTGAGGCCGTGCCCGCGGCAGGCACCCACCGATAA	MNRNREAPFKGLLFVCREKMLVIAGQCHEELSVVTPAGTARAEDPLGKVIFLTKLAEAVPAAGTHR				NA	NA	NA	NA	NA
AK012_02044	423	ohrA	COG1764	Organic hydroperoxide resistance protein OhrA	ATGGAAAAAGCTTTATATACAGCAGCAGCAACAGCACAGGGAGGACGTCAAGGTACGGTAACGTCCAGCGACGGTACACTGAACCTTGATCTATCCATGCCGAAAGCTCTTGGCGGGTCAGGAAAAGAAGGGGCGACAAACCCGGAACAGCTTTTCGCAGCCGGTTACTCTGCATGCTTTGACAGCGCTCTTCAACTCGTGGCCTCTCAAGCGAAGAAAAAAATCACATCTGCAATTACAGCCAACGTAAGCATCGGAAAAGAAGGCGAAGGTTTCGGTCTTGCCGTTGAACTTGCGGTGGAAGTCGAAGGCGTTTCCCAGGAAGAAGCAGAAGAGCTTGTTGAAAAAGCCCACCAGGTCTGCCCGTACTCCCGCGCGACACGCAACAATATTGAAGTTAAACTGACAACAACTGCAAAATAA	MEKALYTAAATAQGGRQGTVTSSDGTLNLDLSMPKALGGSGKEGATNPEQLFAAGYSACFDSALQLVASQAKKKITSAITANVSIGKEGEGFGLAVELAVEVEGVSQEEAEELVEKAHQVCPYSRATRNNIEVKLTTTAK	PGPT0013160_2962	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
AK012_02045	447	ohrR_1		Organic hydroperoxide resistance transcriptional regulator	ATGGCTGAAGAGCATTTGAAATTGGAAAACCAGATTTGTTTTTCCATTTATGCAGCGGCACGGGAAATGACGAAAATGTATAAACCCCTGCTTCAAAAGCTGGATGTCACCTACCCGCAGTATTTGGTGCTGCTCGTGTTATGGGAGGAGGACGGGATCACGGTCAACGAGCTTGGCCGGCGGCTGTATCTGGATTCCGGAACGCTTACACCAATGCTGAAGCGGATGGAAACATCGGGACTGCTTGAACGGAAGCGGTCGCCGGAGGATGAGCGCCGCGTCATCGTAACGTTGACCGAGCAGGGGAGAAACGCTGAAAAGGATGCCAGTGACATCCCGTTTCAGGTCATTGATCACCTCGCTATGGATGAAGCCGAACTGAAGCAGTTCAAGGCGTCGCTCGTGAAGGCTCTTGAACATCTGCATGAAAGAAATGAAAAGTCATAA	MAEEHLKLENQICFSIYAAAREMTKMYKPLLQKLDVTYPQYLVLLVLWEEDGITVNELGRRLYLDSGTLTPMLKRMETSGLLERKRSPEDERRVIVTLTEQGRNAEKDASDIPFQVIDHLAMDEAELKQFKASLVKALEHLHERNEKS	PGPT0013155_4329	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK012_02046	1626	lctP	COG1620	L-lactate permease	ATGTGGTTACAACAGTACGATCCTTTTGGTAATCTGGGCGTGAGCGCGCTTTTAGCCGCTCTCCCCATCTTTTTCTTCTTTTTAGCATTAACCCGGCTCCGTATGAAAGGGATCCTTGCTGCCTTTCTCACTCTCATCATGAGCCTGGTGATTGCTGTATTCTTGTTTGACATGCCATGGGGCAATGCGCTCGCCGCAGCCCTCCACGGCATAGCCAATGGTCTCTGGCCGATCGGATATATCGTCATTATGGCGGTCTGGTTATATAAAATCGCTGTACATACCGGGAAGTTCACGGTCATCCGCTCCAGTATCGCGAACATCTCCCAGGATCAGCGTCTCCAGCTGCTGCTGATCGGCTTCAGCTTCAACGCTTTTCTTGAAGGGGCTGCCGGATTCGGTGTACCGATTGCCATCAGTGCCGCTCTGCTTGTGGAACTTGGCTTCCGCCCGCTGAAGGCTGCTGCGTTATGCTTGATTGCCAATGCCGCTTCCGGTGCGTTCGGAGCGATCGGGATCCCTGTCATCGTCGGGGCTCAGATGGGAAACCTGGAAACGATGGACTTGTCACGAACCCTCGCCTACCTGCTTCCTGTCATCTCCTTTGCCATTCCGTTTCTGCTCGTCTTTTTGCTGAATGGATGGAAAGGTGTGAAGGAAACGCTGCCTGCCCTGTTAGTCGTCAGCGGCATTTACACAGGTACCCAGCTGTTCACGATTCTTTTTCTCGGACCTGAACTTGCCAACATCCTTGCTGCGCTCTTAAGTATGGCCGGTCTTGCGCTGTTCTTAAGAAAATGGCAGCCAAAAACGATTCATAGAGAAGCGGATGCACCCGCTGTGCAGACCGGCGACACGTACAGCCTCAAGGAAATCATCAAAGCATGGTCTCCGTTCTACATCTTGACCGCTGTCATTACAATCTGGAGCCTGCCTGCTTTTAAAGCCCTGTTCAACGAAGGGGGTCTGCTTGCTGGTACGACCCGTCTGGTATCGATTCCATATCTGCACCAGCAGATTCAGAAGGCCCCGCCGATTGCGCCGGAAACAACTGCGCTTGATGCTATTTTTAAACTTGATTTTATTTCTGCAACCGGCACAGCAATCCTGGTGGCTGTTCTTCTGACAGGATGGTTCAGCTCTGCGATCACCCTTCCGGAAGGGATGAAGAACTTAAAGGCGACGATCAAGGAATTATGGATTCCCATCCTGACAATCTGCTTCGTCATGGGCTTTGCAAACTTATCCAATTTTGCCGGACTGAGCTCCACCATCGGACTCGCCTTAGCTAAAACCGGCAGCCTGTTTCCGCTCGTCAGCCCTGTGCTCGGCTGGATCGGCGTCTTCATTACAGGTTCTGTCGTCAGCAACAACGCCTTGTTCGGTCACTTACAGGCGGTTACGGCTGATCAAATCACCGCGAACCCGGCCCTGCTTCTGGCTGCCAATACGGCCGGCGGCGTGATGGCCAAGCTGATCTCTCCGCAGTCCATCGCGATTGCGACAGCAGCAGTTAAACAGACCGGCCAGGAGTCCACGTTATTCAAAATGACGCTGAAATACAGCTTCATTCTGCTGGTGGTGGTCTGTGTAACGACTTATGTTTTATCCCTGATCGGTGTATAA	MWLQQYDPFGNLGVSALLAALPIFFFFLALTRLRMKGILAAFLTLIMSLVIAVFLFDMPWGNALAAALHGIANGLWPIGYIVIMAVWLYKIAVHTGKFTVIRSSIANISQDQRLQLLLIGFSFNAFLEGAAGFGVPIAISAALLVELGFRPLKAAALCLIANAASGAFGAIGIPVIVGAQMGNLETMDLSRTLAYLLPVISFAIPFLLVFLLNGWKGVKETLPALLVVSGIYTGTQLFTILFLGPELANILAALLSMAGLALFLRKWQPKTIHREADAPAVQTGDTYSLKEIIKAWSPFYILTAVITIWSLPAFKALFNEGGLLAGTTRLVSIPYLHQQIQKAPPIAPETTALDAIFKLDFISATGTAILVAVLLTGWFSSAITLPEGMKNLKATIKELWIPILTICFVMGFANLSNFAGLSSTIGLALAKTGSLFPLVSPVLGWIGVFITGSVVSNNALFGHLQAVTADQITANPALLLAANTAGGVMAKLISPQSIAIATAAVKQTGQESTLFKMTLKYSFILLVVVCVTTYVLSLIGV	PGPT0001800_1383	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
AK012_02047	966	ldh1		L-lactate dehydrogenase 1	ATGCCAAAACAAAATGTAAACCGTGTCGCTTTAATTGGAGCAGGATCCGTCGGAAGCAGCTACGCTTTTGCGATGTTGAACCAGGCGGTAGCCGAAGAATTCGTGATCATTGATTTGAACGAAAACAAAGCCATGGGCGATGCAATGGATTTGAACCACGGAAAAGTGTTTGCCCCGAACCCTACGAAAACTTGGTATGGAACATATGAAGACTGCCGCGATGCCGATATCGTCTGCATCTGTGCCGGCGCCAACCAGAAGCCGGGCGAAACCCGTCTCGATCTCGTCAAAAAGAACCTGGTCATCTTCAAATCCATCGTGGACGACGTAATGGCTAACGGATTTGACGGCATCTTCCTTGTGGCCACCAACCCGGTCGATGTGCTCACCTATGCCACATGGAAATTCAGCGGCCTCCCTAAAGAACGAGTCATTGGAAGTGGAACGATTCTGGATTCCGGCCGGTTCCGCTACCTGCTTGGAGAGTACTTCGACGTTTCTCCATCCAGCGTACACGCAAGCATCATCGGGGAGCACGGCGATACAGAGCTTCCTGTATGGAGCCACGCGACCATCGGCGGTGTTCCAGTCCTTGAATTGATTGAACGTCACGACCACTATACAAAAGAAGATCTCGACGAAATCTTCGTGAATGTCCGCGATGCGGCCTATCAGATCATTGAGAAAAAAGGAGCCACCTACTACGGTATTGCCATGGGTCTGACCCGCATCACAAAGGCGATTCTCTATAATGAAAACAGCATCATGACCGTCAGCGCCTATTTGAACGGAGAGTACAATGTGGATGATGTGTATATCGGTGTCCCAGCTGTCCTCAACCGTACAGGCATCCGCAATGTCATGGAGATCAACCTGAACGAAGAAGAACAGAGGAAGCTGAATCACAGTGCCACCGTATTGAAGGATATTCTAAGCGAGCAATTCGATGTGAAACAGACGAACTAA	MPKQNVNRVALIGAGSVGSSYAFAMLNQAVAEEFVIIDLNENKAMGDAMDLNHGKVFAPNPTKTWYGTYEDCRDADIVCICAGANQKPGETRLDLVKKNLVIFKSIVDDVMANGFDGIFLVATNPVDVLTYATWKFSGLPKERVIGSGTILDSGRFRYLLGEYFDVSPSSVHASIIGEHGDTELPVWSHATIGGVPVLELIERHDHYTKEDLDEIFVNVRDAAYQIIEKKGATYYGIAMGLTRITKAILYNENSIMTVSAYLNGEYNVDDVYIGVPAVLNRTGIRNVMEINLNEEEQRKLNHSATVLKDILSEQFDVKQTN	PGPT0001760_1287	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001760-ldh-K00016	NA	NA
AK012_02048	690			hypothetical protein	ATGACCGAAAATCAAAAACCGGTATTCTATAGAAGAAAGATGTTCTGGATCAACACCGCTGCTGCTTTGGTGCTAATCCTAACCGCTTTTATGATTGGATCCTACACGAGTACCACTTCACTAAATGGAGAAAAGCTGAAGTACGAGGAAATACAGGCAGAAGTAGAAAAAGTTGAAGAAAGGCTCACGCAGAAACAAAGCGACCTGAAGGATTTAGACAAGGATCTTGAACGCCTCCATGAGAAAAAAGAGGAAACAAATGAACAGCTGAAAGCCCTGGATAAAGAGAGAAGTGAAGCCGAAGCTCTGGTGGCGGAAAAAGATACCCTGCAGGCAGATATTAAGAAGCTGGATGAGTCGAAGAAATCCAAGGGCAGTGAATTGGATGCGGTGGAAGAGGAAATAGATACGAAGAAGGAAGAGCTTGCCACCGTTACTGGTAAAATCATTGAGTTGAAGGAAGAACCAAAAACGCTCCCAGCCGGATTCTTCACTGTAGGAAAAGACATTCCTGCCGCCCGCTACAAAGTAACTCCAAATGGCAATGGCAATTTCTTCGTAAACGGAGGGGCTAAAGTGAACATCATGATTGGAAGCGGAAGCTTCTATGAAAGCGAATATGTCTTCGAGGCGGTGGAAGGCGACGAAATCGAACTGACCACATCTGCGCATTTTACACCCGTTCAATAG	MTENQKPVFYRRKMFWINTAAALVLILTAFMIGSYTSTTSLNGEKLKYEEIQAEVEKVEERLTQKQSDLKDLDKDLERLHEKKEETNEQLKALDKERSEAEALVAEKDTLQADIKKLDESKKSKGSELDAVEEEIDTKKEELATVTGKIIELKEEPKTLPAGFFTVGKDIPAARYKVTPNGNGNFFVNGGAKVNIMIGSGSFYESEYVFEAVEGDEIELTTSAHFTPVQ				NA	NA	NA	NA	NA
AK012_02049	1260	cdaR_1	COG3835	Carbohydrate diacid regulator	ATGACCATCTCCTCCCTGAAATCTGTGCTAGGATGGATAACAAGAAGTACGGCGGAGAGGGGAATAGGAATGCTGATCCCAAGAGAGGTAGCTCAATCGATTGTTCAGGAAACGGAACCGATCATGAACAAAAATATCAACTTCATGGATGAAAAGGCGAAAATCATCGCCAGTCTTGATAAAAAACGGATCGGTGATTTTCACGAGGGCGCAGCCAAAGTGCTGGAGACCGGCCGCACGTTAATCATATCCTCGGAAGAAACGTATGAAGGAGCAAAAGCCGGCATCAACCTCCCCGTCCGGCTGCATGAGCAGATCGTCGGGGTGATCGGGATCACCGGTGAACCGGAGGAACTGAGCCAGCAGGGGGCGCTGCTTCAGAAAATGACGGAAATCCTCATTAAGGAAGCGTACCTGGATGAACAGGTGGAGCTTGAGACGCAGGCGAGGGAAACGTTTGTGAACGAGTGGATCCGGAACCAGTATCAGGATGAAAAGCTGTTTGCGACAAGGGGATGGATGTTCGGCATCAACATTTATAAACCCCGGGTGGCTGTGCTGCTGGAGCTGAGCGGCTTTCAGGATTACTGGTATGACAAATTGGGTTCGCCACTCGGAGATGTCAATGATGAAGTACAGATGCAGCGGTACCGGAGAAACGTAGAAAAGCTGATCCACCGCCATTTTCCGGACTACAATGAACACGTGTTGATTCCGGATGGCAGTTCCCGCTATTTGATTCTGCTGTCTGTGAACGAACATAAAGATCCGCTCTACCAAAAAGAAAGAGTAAGCGCACGGGTACGGGAAATCCAGGAGGCACTGGTGAAGACGTATGAGCAGGAGAGCTCTGCCGGTGTCGGCAGTGTGTGCCGGAACCCCGGTGCTATGTGGAAGTCGGTGGAAGAGGCCGACCGTGCGCTCCGCTATGCCTCTGATCACCATCAACCGCTTTATTTTTATGAAGATCTGGGTGTGGAGTCGCTCATGTATGATGTGCCCGAATCCGTACGACGGGATTTTATTATAAGAAAGCTCCAGCCTGAAGACCTCGGGTCCATTCCAGACTGGCAGCATACCCTGGAGACATTTTATCAACAAAAGGGTTCGATTAAAGCGACCTCGGAGGTGCTTCACATTCATAAGAACACCCTTCAGTACCGGTTGAAAAAAATCAAGGACGTGACCGGTTATGACCCCCGTGATATCAATGATTCGACATTACTGCAGATGGGGCTTGCCTTCCATAAAATCACCTGA	MTISSLKSVLGWITRSTAERGIGMLIPREVAQSIVQETEPIMNKNINFMDEKAKIIASLDKKRIGDFHEGAAKVLETGRTLIISSEETYEGAKAGINLPVRLHEQIVGVIGITGEPEELSQQGALLQKMTEILIKEAYLDEQVELETQARETFVNEWIRNQYQDEKLFATRGWMFGINIYKPRVAVLLELSGFQDYWYDKLGSPLGDVNDEVQMQRYRRNVEKLIHRHFPDYNEHVLIPDGSSRYLILLSVNEHKDPLYQKERVSARVREIQEALVKTYEQESSAGVGSVCRNPGAMWKSVEEADRALRYASDHHQPLYFYEDLGVESLMYDVPESVRRDFIIRKLQPEDLGSIPDWQHTLETFYQQKGSIKATSEVLHIHKNTLQYRLKKIKDVTGYDPRDINDSTLLQMGLAFHKIT				NA	NA	NA	NA	NA
AK012_02050	1707	ycjM	COG0366	Glucosylglycerate phosphorylase	ATGACTCAAACGGCTGTCGATCAAATTAAACAGAACCTTTATGACGTATATGGAAATGAAAAGGGAGAGCGTCTTTACCGGAAAACGCTTGATATTATAGATACCTATAAGCAGAAGCCCCAGACGAAGGACTGGGTGGATGAGCGCGATGTGATGCTGATTACGTACGGAGACTCCATCAAGCAGGAGGAGGAAAATCCGCTCACAACGCTGAAGCAGTTTCTGCAGGAGTATGTCGGACAGACCATCAATTCCGTCCACATTCTTCCGTTTTACCCGTTCACATCCGATGACGGCTTTTCCGTCCAGGACTACATGGAGGTCAACCCGGAGCTTGGTGACTGGGGGAACATACACGCGTTGTCTGAGGACTATGACTTGATGTTTGATGCGGTCATCAATCATATTTCAAGAAAAAGTAACTGGTTCCAAAATTACCTAAAAGGGGAAGAGGAATACCAGGATTACTTTGTGGAATCCGATCCTTCGCTTGATTATAGTTCCGTTGTCCGTCCAAGAGCTCTTCCGCTGTTAACCAAAGTGGAGCACGCCGAAGGGACAAAATATGTCTGGACCACGTTCAGTGATGATCAAATTGATTTGAATTACGAAAGTGAGGCGTTATTCGCAGAGGTGCTTCAAATTCTTGCCGCGTACGTTCAGCACGGAGCGCGCTATCTGCGTCTGGATGCCATCGGCTTCTTGTGGAAGCGTCTGGGCACGACGAGCATCCACCTTGAGGAAACGCACAAGATTGTTCAAGTGATGCGGCACGTCCTGGAGGAAATCTCCCCGGGTACGATCGTGATTACGGAAACCAATGTGCCGCACAAGGATAACATCAGCTACTTCGGGAGCGGGCATAATGAAGCGCATATGGTCTATCAATTCCCGCTGCCTCCATTAACGCTGCACTCGTTTGTTTCTGGAAATGCCCGTCATTTATCCGAGTGGGCTGATGCCCTGGAAGACACGAGTGACCACACATCATTCTTTAATTTCCTGGCTTCCCACGACGGCGTCGGACTCCGTCCTGTGGAAGGGATATTGAATGAAGGGGAAGTACAGAGTCTTGCTGATCGTGCGAAGGAACAGGGAGGATTCGTTTCCTACAAAGATAATGGAGACGGTACAAAGAGTCCATATGAACTGAATATCAACTATTTGAGTGCGTTGACGAAACCGGAGGAAGCGCCGCAGGAAGCGGTCGACCGTTTCCTTGCTGCGCAGACGATCCTTCTTTCTGTCAAAGGTGTTCCCGGCATTTATGTCCATAGTCTGCTCGGGTCACTGAATGACTTAGCAGGAGTCGAAGCGACGGGAAGGAACCGTTCCATCAACCGGGAGAAGCTGGAGGCGGACCAGCTCAAGAAAGACCTGGATACGGAAGGAACGCTGCGAAACCGGGTGTTCACGACGTTCATGGACAGAATCGAACGTCGGAAACAGCAGAAGGCCTTCCATCCGAACGCCAGGCAGGATGTATTGTTCCTCGATGACCGGTTGTTTACCATCGTCCGCGGCGGTGAGCTCGTTTCGATTGTGAACGTATCCGAAGAAGCTGTTGAAGTGGATCCAGAAGAGTTTCAGGACCAATTGAAATCAGCAACCTTGATGGATGCTTTAAGCGGCGTCCCGTATTCGTCGGAAGAAAACATTACCGTCCAGCCTTACGGAGCGCTGTGGCTGAAGGCGGGAGAACAATGA	MTQTAVDQIKQNLYDVYGNEKGERLYRKTLDIIDTYKQKPQTKDWVDERDVMLITYGDSIKQEEENPLTTLKQFLQEYVGQTINSVHILPFYPFTSDDGFSVQDYMEVNPELGDWGNIHALSEDYDLMFDAVINHISRKSNWFQNYLKGEEEYQDYFVESDPSLDYSSVVRPRALPLLTKVEHAEGTKYVWTTFSDDQIDLNYESEALFAEVLQILAAYVQHGARYLRLDAIGFLWKRLGTTSIHLEETHKIVQVMRHVLEEISPGTIVITETNVPHKDNISYFGSGHNEAHMVYQFPLPPLTLHSFVSGNARHLSEWADALEDTSDHTSFFNFLASHDGVGLRPVEGILNEGEVQSLADRAKEQGGFVSYKDNGDGTKSPYELNINYLSALTKPEEAPQEAVDRFLAAQTILLSVKGVPGIYVHSLLGSLNDLAGVEATGRNRSINREKLEADQLKKDLDTEGTLRNRVFTTFMDRIERRKQQKAFHPNARQDVLFLDDRLFTIVRGGELVSIVNVSEEAVEVDPEEFQDQLKSATLMDALSGVPYSSEENITVQPYGALWLKAGEQ	PGPT0024590_66	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_REMODELLING_SURFACE_GLYCOSYLATION_PATTERNS	CE-REMODELLING_PHOSPHORYLASE_ACTIVITY,PGPT0024590-ycjM|gtfA-K22597	NA	NA
AK012_02051	1158	glxK_2	COG1929	Glycerate 3-kinase	ATGAAGATCATAGTAGCGCCCGATTCTTTTAAAGGATCGATGAGCAGTGCAGAAGCCTGCGAAGCCGTGAAGCAGGGACTTCAAGCAGGCAGTACCTCAGTCGATGTTCAATCCATTCCGATGGCGGATGGCGGGGAAGGGACCGTTGAAGCATTGATGCAGATATTTGATGGAGAACTCATAGAAGAAACCGTTCATGATCCATTAGGAAGAACAATGACCGCCTCTTATGGATGGATTCCGGAGGAGCGGATGGCTGTGATTGAAACAGCTTCCGCTTCCGGTCTTCCTCTTTTGAACGAAGCAGAGAGAAACCCTCTTCAAGCGTCCACCTACGGAACGGGGGAACTGGCAGAAGCGGCGATTGAAAAAGGAGCGGAAACGATCATCCTCGGTCTTGGTGGAAGTGCCACCGTCGATGCCGGGAGTGGTTTTTTCCAGGCGCTGGGCGTTCAGTACGTCGATGAGGACGGAAATGAGCTGCACATGAATGGCAGGGAGCTTGGAAGAGTAGCGGACGTCAAAACAGACGCCTTCAAGCAGAGGGTGAAAGGTGTGGAATGGCGGATTGCCTCGGATGTTTCCAATCCACTGCTTGGCAGAGAAGGAGCGGTAACGATTTTCGGCCCGCAGAAAGGCGCCGATGAATCGTGCCTGGCTGAACTGGAGGCCGGCATGACAAGATATGCCGCTGTGATTGAACAGCATACCGGAAGGACCGTCCGTGACAAACATGGAAGCGGTGCCGCCGGAGGCTTCGGTTTTTCTTTACTCAGCCTGCTTGATGAGTATCATGTGGAGAGCGGCTTTGAAATGATTGCAGAACTCGGGAAGCTGGAGGAGCAGATTGCCGGAGCGGATCTTGTGATCACCGGTGAAGGGAAAGTCGATGCCCAGTCGCTGTACGGCAAAGGCCCGATCGGTCTTTCGAGACTTGCGAAAAAGCATCAAGTGCCGTGTGTCGCTTTTGCCGGCATGATGGAAGGAGACTTGTCGGAAGCGGAAAACGAAGGGCTTCTGGCCGTGCTTCCGATTGTAGACAAGCCGATGACACTAAAGGATGCTGTCGGACAAGGGCCTGAGCTGCTGAAGCTTGCGGCCCGCCGGTTTATGGATGTATACACGTTAGATCAACGAAATGGGGAGAGGACAAAATGA	MKIIVAPDSFKGSMSSAEACEAVKQGLQAGSTSVDVQSIPMADGGEGTVEALMQIFDGELIEETVHDPLGRTMTASYGWIPEERMAVIETASASGLPLLNEAERNPLQASTYGTGELAEAAIEKGAETIILGLGGSATVDAGSGFFQALGVQYVDEDGNELHMNGRELGRVADVKTDAFKQRVKGVEWRIASDVSNPLLGREGAVTIFGPQKGADESCLAELEAGMTRYAAVIEQHTGRTVRDKHGSGAAGGFGFSLLSLLDEYHVESGFEMIAELGKLEEQIAGADLVITGEGKVDAQSLYGKGPIGLSRLAKKHQVPCVAFAGMMEGDLSEAENEGLLAVLPIVDKPMTLKDAVGQGPELLKLAARRFMDVYTLDQRNGERTK	PGPT0018175_611	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018175-garK|glxK-K00865	NA	NA
AK012_02052	1626	sglT_2		Sodium/glucose cotransporter	ATGAGCAGTTTTACAGTCATTGATTACATCATTTTTGTCGTATATGTACTTGGAACCGCTTTTATCGGAGCAGCGTTCGGGAAGAACCAGAAGTCGACAAAAGACTATTTCCTAGGCGGAAGAAGCATTCCTTGGTGGGCCATCGGTCTGTCGGTCATGGCGACACAGGCCAGTGCCATCACATTTATCGGGGCCCCGGGGTGGGGCTATGACGGAGGGCTGACGCGGATCATCACGTTCATTAACGTGCCGCTTGCCATGGCCTTCCTCATTGCGACGATCGTTCCATTTTTCTATAAAACGGAAGTCTATACAGCCTATGAATATCTGGAACGACGGTTTGATGTGAAAACGCGTACATTAACCGCCGGCCTGTTCCTGATTGCCCGTGGTCTGGCGACAGGGGTCGTCTTGTATGCGCCGGCGCTTGTGTTGTCGGTCATTACTGGTGTTGACGTTAATATTATGATCATCCTCATGGCCGTGATCGCTGTTTCTTATACAGTCCTCGGCGGTATCAGCGCCGTCATCTGGACGGACGTTATTCAAATGGTCGTTCTCTGGATCGGTGCCGGGCTGAGTGTCTTCATCATCTTCCAGGATGTTCCCGGTGGATGGGGAGAGGTCATGTCGACAGCGTCCCAGACCGGCATGCTGGAATCGATTGATTTCTCTACAGATCTGAGCGTGGAATACAGCATCTGGGCCGGTGTGATCGGTGGTTTCTTCCTGCATGCGGCCTACTTTGGAACCGATCAAAGTCAGATCCAGCGTGTGCTGACGAGTAAATCGATCCGTGAAAGTAAGCTGTCTCTTGTGCTGAGTGGTGTCCTGTTGATTCCACAGATGCTGTTGTTCCTGCTTATTGGTGTACTGCTGTACATTTTCTATCAATACGCAGGAGATCCAAACATCAACAACTTGAACGAATTGTTCCCGCGTTTTGTTGTGAATGAGCTTCCGGTCGGTATTTCCGGATTGATCATTGCCGGCGTATTCGCTGCAGCGATGTCCAGCCTGGACTCTGCGCTGAACTCCTTGTCTGCCGTATCTGTGCGTGACTTTTACAGCAAATTCATGAAGAAAAACCAATCCGAAGAGCATTACTTGAAAGCCTCCCGTTATGCGACGGTATTCTGGGGGATCTATGCAACGATCTTTGCCTTCTTTGCCGGCAACCTTGGACCGGTGATCGAAGCGGTCAACCAGATTGGTTCCTACTTCTACGGTGCGCTGCTCGGGGTTTTCATCCTGGCGATCTTCATTAAGCGTGTCAACGGAACAGGCGCCTTTGCCGGTGTCATTGCCGGTATGCTTGCGGTGTGGGCGGTGAACGTTTTTGCGGAAATATCCTGGTTGTACAACAACCTTGTCGGTGCTGTCGTGGCTGTTGCGGTCGGTTATGCGGTCAGCTTCTTATCGAAAGCGCCTCCAAAGGAAAAGCTGGAAGGTCTGACGATCGACCGGACGAAGAAAGACGTCCAGGAAACCCTGCAGGGACGTGCGGAAGCCGCGGCCTCCGTGGAGGAAGTGGAAGAAGAGAAGAAAACGAAAAGATGGCCGATCTACCTTGTCCTTTATTTCTTCGTCGTCTTTGCTTTCCTGATGTATCTGCAGAATTTATAA	MSSFTVIDYIIFVVYVLGTAFIGAAFGKNQKSTKDYFLGGRSIPWWAIGLSVMATQASAITFIGAPGWGYDGGLTRIITFINVPLAMAFLIATIVPFFYKTEVYTAYEYLERRFDVKTRTLTAGLFLIARGLATGVVLYAPALVLSVITGVDVNIMIILMAVIAVSYTVLGGISAVIWTDVIQMVVLWIGAGLSVFIIFQDVPGGWGEVMSTASQTGMLESIDFSTDLSVEYSIWAGVIGGFFLHAAYFGTDQSQIQRVLTSKSIRESKLSLVLSGVLLIPQMLLFLLIGVLLYIFYQYAGDPNINNLNELFPRFVVNELPVGISGLIIAGVFAAAMSSLDSALNSLSAVSVRDFYSKFMKKNQSEEHYLKASRYATVFWGIYATIFAFFAGNLGPVIEAVNQIGSYFYGALLGVFILAIFIKRVNGTGAFAGVIAGMLAVWAVNVFAEISWLYNNLVGAVVAVAVGYAVSFLSKAPPKEKLEGLTIDRTKKDVQETLQGRAEAAASVEEVEEEKKTKRWPIYLVLYFFVVFAFLMYLQNL	PGPT0013955_1913	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
AK012_02053	540			hypothetical protein	ATGACTCACTATCTTCAACCTGTCATTGAAAAAGAGGAAGCCGTCCGAAAAATGTCCGGGCAGATTCACACAGGCTTATGGAAGAAGCTCAGGAAAACGAAGCAGCTGACCTCCATGGAGCAGGTGTACATTCCCTTTTACTGCTTTGATTATAAGGCAGTCACTCACTCCCTACCCGACGGTCTGGAGGGCCGGATGGCAATCGAGCCTTTAAGCCGCATGAGTGCGATCTTACCTGTGGATCTTCCTTTGGAAGAAAGCAGCCGGAGCTTCTGGCCGGTGCAGGGAGAAGTGTCGAAGCAGGAAGCCCGTGAAGTGCTGTACTGGGAAATGTTCTCGAAGGAAAAGCGGCGCGAGAAAATCCAGGTGGAGATTGTGAACCGTTTTGTCGTCTATGTGCCGTACTGGCTCGGTTATATCAAAGACGGAAAAGGCTACGATGTGCTGGCTCTGGATGGATTGAACGGGAAAGTGGATGTTCCGATTAAAGATACGGTGTTGAGCTATGTTTGTGCACACGATGAAGTGAATATGGGGTAA	MTHYLQPVIEKEEAVRKMSGQIHTGLWKKLRKTKQLTSMEQVYIPFYCFDYKAVTHSLPDGLEGRMAIEPLSRMSAILPVDLPLEESSRSFWPVQGEVSKQEAREVLYWEMFSKEKRREKIQVEIVNRFVVYVPYWLGYIKDGKGYDVLALDGLNGKVDVPIKDTVLSYVCAHDEVNMG				NA	NA	NA	NA	NA
AK012_02054	864	mtnN_2	COG0775	5'-methylthioadenosine/S-adenosylhomocysteine nucleosidase	ATGTCTTACCTGACACGCACACTTACATCTGCACTTCTTTTCATCCTTTTATTAGCAGGATGCAGCAGCAACGAGCCGGCCACAGAAGCGAGCGCTGAAGAAGAAAATCAACAGCCCATCCTTATCCAGGGACCGATGCCGATTGAAGCGGAAAACTTTGCGGAGCGCCTGGAAAACGTGGAAGAGGAAGAATCCGGTACGTTTGTATTTTATAAAGGGACGGTGGATGACTATCCTGTCATCGTCATGAAAACAGGAAAAGGTATGGAAAACACAGCAGCCGCAACCGCCTTGGCCATCGAAAAATTCAATCCGGCAGCCATCATTAACCAAGGGACCTCCGGCGGACATGATCCGGATTTGAACGTCTTTGATATCGTTCTTGGGGAACGGACCGTCAACCTTGGTTCCCTGAAGACAGGAAACCGAGAAGACGGTGAAGGCATCACGCCGACCGAGTGGATTCCAATGGACTTGATGGCGTCTGAAGGAAGTGCCGGGGAAGATCCGGATGCCGAAAACATCCGCTACTTTGAAGGAGATAAAGACCTTCTGGAAGCAGCCAAAGCAGTTAAGGAAACGCACAAGGAAGGGAAAGTCGTAGAAGGTACAATTGGCTCCGCAGATGTTTGGAACAATGAAGTCGACCGTATTCAATGGTTTCACGAGAACTTCGGTTCCAGCGTAGAAGAAATGGAAGGAGCGGCCGGTGCCCAGATCGCCAAAGCCTATGATACGCCGTACCTCGGCATCCGCATCCTCTCCAACAACAAGACCAACGGCGGCGAATACAATCCAGAAACCGCCGCTTCCAACCAGGACTATGTCTATGAAGTCGTTAAGGAATACATCCAGACGAAATAA	MSYLTRTLTSALLFILLLAGCSSNEPATEASAEEENQQPILIQGPMPIEAENFAERLENVEEEESGTFVFYKGTVDDYPVIVMKTGKGMENTAAATALAIEKFNPAAIINQGTSGGHDPDLNVFDIVLGERTVNLGSLKTGNREDGEGITPTEWIPMDLMASEGSAGEDPDAENIRYFEGDKDLLEAAKAVKETHKEGKVVEGTIGSADVWNNEVDRIQWFHENFGSSVEEMEGAAGAQIAKAYDTPYLGIRILSNNKTNGGEYNPETAASNQDYVYEVVKEYIQTK	PGPT0014320_180	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
AK012_02056	609	pcp		Pyrrolidone-carboxylate peptidase	ATGCCGACGCTTTTACTCACTGGTTTCGAACCATTTCTCAACTTTCCAATCAACCCAACGGAAAAAATTGTGAATAAGCTTCATGGCCGCCGGATCAACGGATATCACGTAGAAGGACGTATCCTTCCTGTGGATTATCAGACAGCCGGAGAGGAAGTTCTATCTCATGTCGAAGATGTCCAGCCGGATATCGTCATCTCCCTCGGACTTGCAGCGGGGAGGCATACGATCACTCCGGAACGGATTGCAGTCAACTGCAATGAAAGCAGTGAAAAAGATAACCGAGGAAATATGCCTGACGGGGAACCGATTCATGACGGTGGTCCTGATGGCCTGTTTTCGTCACTGCCGATTCGAAGATTCATGGAAGTCCTCCATGAGAACGGGTATCCGGCAGAAATTTCGAATACGGCTGGGACGTATGTATGCAACCATGTCATGTATCAGGTCCTCTATCATTTTCAAAAGAAAGGCGAACCGGTTCCTTCCGGGTTTATTCACCTCCCTGCCTCTCATGAACTGGCTGTGCAGCATGGGAAGCTTCCGAGCTGGCCGCAGCAGGATTTAACGGAAGCGGTCGAATGTGTCATTCAATCGATCGACTCTTAA	MPTLLLTGFEPFLNFPINPTEKIVNKLHGRRINGYHVEGRILPVDYQTAGEEVLSHVEDVQPDIVISLGLAAGRHTITPERIAVNCNESSEKDNRGNMPDGEPIHDGGPDGLFSSLPIRRFMEVLHENGYPAEISNTAGTYVCNHVMYQVLYHFQKKGEPVPSGFIHLPASHELAVQHGKLPSWPQQDLTEAVECVIQSIDS				NA	NA	NA	NA	NA
AK012_02057	609			hypothetical protein	ATGACGCTGCGACGTTCCTTGTTTTTCATATTGTGGTTGCTTTTCATCTTATACGCAGTCTTCACAGCTCCGGATGGGAACGAAGGTTATCTTACCCAGCTGATCCAAATGAATGACCCTGATCCTATGCTTCTCATGGTTTTCAGCTTTTTAGGCATCTATCCGTTGGCTTTCGCAGCTTTTCTCCTTGGGGAGGATGACGACCGTGTGCCTGTATGGCCTTTTGTGATCGGCTCCTTTATGCTTGGAGCTTTTGCCTTGATGCCTTATTTCTTCTTAGCTGGAAATGGTTCGGATCGAAAGGTAAGGACGCCCGGATGGATCATTCGCGTGCTTCGTTCGAAAGTACTTCTTTTGATCATGAGCCTTGGAACAGCGGCTCTTTTCCTTTATGGAATGACTGCGGGTCGTCCGGATGAATACGAATATGCCTTTCGAGTGTCGCAGTTTGTTCATGTGATGACGATTGATTTCTTTGTGCTGACGGCATTGTCTGTGTACGCCATCTACTGGCGGGAGCGGAAGTATGGAAGAGAGAATCAAAAGCATTGGATCGGGTGTCTACCGATTATAGGGATGCTTGCTTACTTGGTAAGGGCCCGCTCATAA	MTLRRSLFFILWLLFILYAVFTAPDGNEGYLTQLIQMNDPDPMLLMVFSFLGIYPLAFAAFLLGEDDDRVPVWPFVIGSFMLGAFALMPYFFLAGNGSDRKVRTPGWIIRVLRSKVLLLIMSLGTAALFLYGMTAGRPDEYEYAFRVSQFVHVMTIDFFVLTALSVYAIYWRERKYGRENQKHWIGCLPIIGMLAYLVRARS				NA	NA	NA	NA	NA
AK012_02058	837	murR		HTH-type transcriptional regulator MurR	ATGGATGACTCCATCCTGCAGACGATTAAAACGTATTATCCATCCCTCTCGCAGGGACAGAAAAAGGTGGCTTCCTATCTCATCGATCATAAAGAGGAAGGGGCCATTATGACGGCCTCGAAATTGGGGAGGAAAGTCGGTGTCAGTGAAACGACGGTGATCCGTCTGGCGCATGTTCTCGGCTTCCACGGGTACTCGCATATGCAGGACGCCATCCGTTCGAATTGGCTGCAGTCCTCTCAATCTCCTTCAATGGGGGAAGCGGTCAAGGAGGAAGATCGATTCTATCAGGTGGCTGAGCAGGAAAAGAGAGTGTTCTCCCATATGATGGATCAGCTCAATCCGGATGAACTGCGGAAAGCGGCGGATTATATGATGAACGCGGACCGGGTGTTTATTGGTGGGTTCGGCGGATCCTATGCGGCAGGGTACTGGTTTTATTATGCCTTAAGGCAGCTTCGGGAGCGTGTCATGTTGTCCAGCTCGGAGGGGCTTATGCCTGAGGATATGGTGGATATGGATGAGCGTTCCACCGTCATCATTTTTTCTTTCCCGAGATATCGGAGAGAAGGAAAAGAACTGGTCGATGCAGCCCGTAAAGCCGGGGCATCCATCATTGCCTTCACAGATAAGCCTTTATCACCAGTGGGGCGTGAAGCAGATGTAACCATTACGACGGAAGAGCGCATGGACACGGATTATCATTCCATTGCGGGTGCTGTCAGCGTTTCAGAAATGGTTATCCAGACGGCTGCGGACAAGTACGGGGACCAGGTGCAGGCGAGGCAGCAGAAAATTGAGCTGATGTATGCAGAGCAGGGGATGTTTTTGGAGTAG	MDDSILQTIKTYYPSLSQGQKKVASYLIDHKEEGAIMTASKLGRKVGVSETTVIRLAHVLGFHGYSHMQDAIRSNWLQSSQSPSMGEAVKEEDRFYQVAEQEKRVFSHMMDQLNPDELRKAADYMMNADRVFIGGFGGSYAAGYWFYYALRQLRERVMLSSSEGLMPEDMVDMDERSTVIIFSFPRYRREGKELVDAARKAGASIIAFTDKPLSPVGREADVTITTEERMDTDYHSIAGAVSVSEMVIQTAADKYGDQVQARQQKIELMYAEQGMFLE				NA	NA	NA	NA	NA
AK012_02059	1377			hypothetical protein	ATGCAGGGAGAGTTTCAATCGGCGAATGTTACAGAGAAAACCTATACGAAGAAGGATTACTGGAAATTTATACTGCCGTCTTTATTCGGTCTTTTATTTTTTATTATTCCTATCAATACAGAATCAGGGATGACGGTTCCGGTAGCTTATTTTGCCAACAGCATCAACGGTGCTCTTGGTGCCTATATCCCGTCCTTTACAGTCGCGGTCATCACGCTTTCGGTCCTCGGTTCAATCACAGCCCGGGGAATGAAGCCTGGGTGGATCATGAATTCCGCCTATTTGAAGAACCTTTTTTACGTGAGTAACAACTGGCTCCTCACACGGACGGCCGGGATGGTTTTCGGGTGGATGGTGCTGCTTGCTCTAGGTCCGGACTTTCTCGTTTCTGATGTGACCGGTGGACTGCTGTTGAATGACCTGCTGCCTGTTTTGTTTACCACGTTTCTTTTAGCGGGATTCCTCCTGCCTCTGCTTCTCAACTTCGGTCTTCTGGAATTTGTCGGCGCCCTGCTGATGAAAGTGATGCGCCCGTCCTTTACCCTGCCTGGACGTTCATCCCTGGACTGTCTGGCTTCCTGGGTCGGAGATGGGACGATCGGGGTTCTTTTAACTTCTAAACAATACGAAGAAGGCTATTATACGAAGCGGGAATCCGCCGTTGTAGCCACGACGTTTTCTATTGTTTCCATCACGTTTACGATTGTTGTCATCACTTATTTGAATATGGAGGCGTACTTCCTGCCTTACTATGCGACGATTATCATTGCCGGCCTGGCCGCTGCGATTATCATGCCGCGGATCCCGCCGCTGTCAAGAAAATCGGATGATACGTATGAAGGCGCTGAACGAAGAACGGAGGAACTGATTCCGTCCGGGGTTTCGGTCGTCAAATGGGGGAAAGGCCAGGCTCTTGAAAAAGCACGGCACAGCGGAGGAGCGAAGGCCACGATGAAAGAGGGCCTGCAGAATGTGCTGGATATGTGGATCGGTGTTATGCCTGTCGTGATGGCCATTGGGACAGTCGCGGTCGTCATTGCAGAATTTACTTCGTTCTTCACGATTATCGGAAAGCCGTTTGAATGGCTTCTTGTGGCCATGCAGGTGCCTGAGGCAGGAGCCGCCGGTCAGACGATGGTCGTCGGATTTGCCGATATGTTCCTTCCTGCTGTTATCGGAAGCGGGATTGAGAGTGAAATGACCCGCTTCATTATTGCTTCGGTTTCTGTTACCCAGCTTGTCTATATGTCGGAAATGGGCGGACTTCTGCTTGGATCGAAGCTTCCGGTAAGCTTCAAGGATCTAGTGTTTATTTTTCTATTACGTACCCTCATTACACTGCCGATTGTTGTCGGTATAGCTCATCTTATTTTTTAG	MQGEFQSANVTEKTYTKKDYWKFILPSLFGLLFFIIPINTESGMTVPVAYFANSINGALGAYIPSFTVAVITLSVLGSITARGMKPGWIMNSAYLKNLFYVSNNWLLTRTAGMVFGWMVLLALGPDFLVSDVTGGLLLNDLLPVLFTTFLLAGFLLPLLLNFGLLEFVGALLMKVMRPSFTLPGRSSLDCLASWVGDGTIGVLLTSKQYEEGYYTKRESAVVATTFSIVSITFTIVVITYLNMEAYFLPYYATIIIAGLAAAIIMPRIPPLSRKSDDTYEGAERRTEELIPSGVSVVKWGKGQALEKARHSGGAKATMKEGLQNVLDMWIGVMPVVMAIGTVAVVIAEFTSFFTIIGKPFEWLLVAMQVPEAGAAGQTMVVGFADMFLPAVIGSGIESEMTRFIIASVSVTQLVYMSEMGGLLLGSKLPVSFKDLVFIFLLRTLITLPIVVGIAHLIF				NA	NA	NA	NA	NA
AK012_02060	1125	scmP_3	COG1473	N-acetylcysteine deacetylase	GTGAGTCAGCATCAGGATGATCTGATACAAACGTACGAAGCGCTCCATGCTCTTGCGGAGCCGAGCGGAAAAGAAGAGAAAACCTCCCATTATTTACAGAGCCGGCTGAAGGATGCCGGCTATCACGTGCACAGCTTCGCCCGTCACTATGGGTTTTACGTGGATTATCCCGGCGGGACAGAGGAAGTCATTGCGTTGAGGGCGGATATGGACGCGCTTGTTCAGGAAGTGGACGGCGAAGTGCGCCCGAATCACTCGTGTGGTCATGACGGACACAGTACAATGGTGCTTCATACAGCATTAAAGCTTGCGGAATCCGGTGAAAAGCCACATCATACGGTCCGTTTCATCTTCCAGCCCGCAGAAGAAACAGCCGCCGGCGCTCTGCAGATGATGGAGAGCGGGGCGCTTGCGAACGTGAGATTTCTTGGGGGCATCCATCTGCGTCCGGAACAGGAAGTGCCTGATGGGAAGGCAGCACCCGTGATTCTGCACGGGGCGATTATTACATTGAAGGTAACGATCAAGGGTGTGCCGGCTCATGCGGCACGTCCGGAGCTTGCCAACAATCCGATTGAAGCCGCCGGCCGGCTCATGTCGGCCCTGCAAAGCGTGCACGTGGATCATCCGTATTCCTTAAAGCCTACAGAACTGCATTCCGGGGAAGCGGCGAACCTCATTCCGGAAACAGCGAGGATGACGTTCGATATCCGCTCGGTTTCCAACGATGGGCTGGAGGAGCTGATTGACCAGACGAAAGCAGTGATCGAACAGGTGGAAGAGGAAACAGGAACATCGATCAGTTCGGAGTGGGTGGAATTTTCTCCTGCAGCGGTCCAAAACGATCAGGCCGTCCAGCTCGCTGCAAAAGCGGTTGTGAAGGCCCGTTCCGAGGAAGCGCTGGCACCTGCGTGTGTTTCACCGGGAGCCGAGGACTTTCATTTTTACACATACCATAACAAAGGTTTGTCGGCGACGATGATCGGACTTGGCTGCGGCCTGGCACCCGGGCTTCACCATCCGGCTATGGATTTTAACAAACAGGCTTTACACACAGGACGGGATATTTTATATGAAATGCTGTGGCAGGCCGATCAAGTGAACTGGAAGGAGGGGGATCAATGA	MSQHQDDLIQTYEALHALAEPSGKEEKTSHYLQSRLKDAGYHVHSFARHYGFYVDYPGGTEEVIALRADMDALVQEVDGEVRPNHSCGHDGHSTMVLHTALKLAESGEKPHHTVRFIFQPAEETAAGALQMMESGALANVRFLGGIHLRPEQEVPDGKAAPVILHGAIITLKVTIKGVPAHAARPELANNPIEAAGRLMSALQSVHVDHPYSLKPTELHSGEAANLIPETARMTFDIRSVSNDGLEELIDQTKAVIEQVEEETGTSISSEWVEFSPAAVQNDQAVQLAAKAVVKARSEEALAPACVSPGAEDFHFYTYHNKGLSATMIGLGCGLAPGLHHPAMDFNKQALHTGRDILYEMLWQADQVNWKEGDQ	PGPT0013588_13	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013588-opuAC-NA	NA	NA
AK012_02061	1137	menC_1	COG4948	o-succinylbenzoate synthase	ATGAATATCGAAAAAGTGATTCTCCGCCAGATTAAAATGGATCTCCTTCACCCTTTTACGACAAGTGTCGGAACCGAATATGATAAGGACGTCATCCTTGTGGAAGTTCAATCTTCCAACGGTCATTCCGGATGGGCGGAGTCTGTATCCATCAATGAGCCGATTTATAATGAAGAAACGATTGATACCAACTGGCCGATGCTTCGGAAGTTTCTCCTTCCCGAACTGTTGAAAGCACCGATCGCTCATCCGAGTGAAGTTTCGCAGCGCTTCCAGTCCATCCGGGGTCAGTTCAATGCCAAGGCTGCCGTGGAACAGGCGGTCTGGGATTTATACGCGAAAGAACAAGGCCGTCCGCTGGCAGAAGTGCTCGGTGGTACGAAGTCATCCATTGATGTCGGCGTCAGTATCGGGATTACGGAAAGTGAAGACGCCCTGCTTGAAAAAATAGCCGGTTATGTAGAGGAAGGGTATAAGCGCATCAAGGTAAAAATCAAGCCCGGATGGGATGTAGAACTGCTCCGTGCCGTCCGCCGCCGTTTTCCCGATCTTGAAATGATGGCGGACGCCAACTGTGCCTATACGCTGGATGACATCCCCCGGCTCAAGCAGCTGGATGAGCTGAACCTGACAATGATTGAACAGCCGCTGGCTCATGACGATATTATTGATCATGCGGAACTGCAGAAGCACTTGAATACACCGATCTGTCTCGATGAGAGTCTGCACTCCTATGACGATGTACGGAAAGCCATTGAGCTTGGCAGCTGCCGGATCGTCAACTTGAAGATCGGACGTGTCGGAGGCCTGCAGGAAACGCTGAACATTCATAAACTCTGTCAGGACCATCACATTCCTATGTGGTGCGGGGGTATGCTGGAAACCGGCATCGGACGGGCTCATAACATTGCCGTCACAGCTCTGCCGCAGTTCCTTTATCCAGGAGATACAGCCCCGTCCAGTCATTATTGGGAGCGTGACATCATCCAGCCGGAGGTGCGTATGAACCGGGGGGAAATACCAGTTCCGGACAAGCCGGGCATCGGCTTTGAGCCGGATACCGGCTATATTGAACAATTAACGAGCCGGAAAGAAACGTTTCGTCCCAAGGACACGGCTGTAATACAGCAGGATTAG	MNIEKVILRQIKMDLLHPFTTSVGTEYDKDVILVEVQSSNGHSGWAESVSINEPIYNEETIDTNWPMLRKFLLPELLKAPIAHPSEVSQRFQSIRGQFNAKAAVEQAVWDLYAKEQGRPLAEVLGGTKSSIDVGVSIGITESEDALLEKIAGYVEEGYKRIKVKIKPGWDVELLRAVRRRFPDLEMMADANCAYTLDDIPRLKQLDELNLTMIEQPLAHDDIIDHAELQKHLNTPICLDESLHSYDDVRKAIELGSCRIVNLKIGRVGGLQETLNIHKLCQDHHIPMWCGGMLETGIGRAHNIAVTALPQFLYPGDTAPSSHYWERDIIQPEVRMNRGEIPVPDKPGIGFEPDTGYIEQLTSRKETFRPKDTAVIQQD	PGPT0009375_440	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549	NA	NA
AK012_02062	711			hypothetical protein	GTGGGGAAAGGTATGATTGCCGAAGGCCGATTGCGCCATCAACAAACAGGACAGGAAGAGACCTATACCGTCCATGTCCTTTCTATAGGGGCTTTGGAAGAACTGCAGGCGATGCAGAAGAAAGTGGAGGGGCACGTCAGCGATCCATCTACGCTTCAACCGCTCAGTGAAGAAGAATTTACGAACATTCTAAAAGGAGAAGGGCTGCTGATCGGTGTCTACGCCGGACAGACCCTTGCAGCCTTCCGTGCGTTATGGTATCCCGGACACCACATCGAAAACCTGGGACGTGACACAGGTCTTCCGGAATCGGAATGGGAGCAGGTTGTCCATCAGGAGATTTCCTGCGTGCTGCCGGAATATAGAGGGAACGGCCTGCAGAAGAAAATGGGCGTCTGGATTATGGATGCGTTCCATCAGAGCAGCCATGATAAAACACACCTCTTCTGTACGGTTCACCCTGACAATCCGGGGAGTCTGAAAGATAAGTTTTCCCAGGGGATGGTCATCGCCGCGGTGAAGGAAAAGTATGCCGGTATGCTCCGCTATATTTTCTACCGTCCGGTTTCCGGTCCCGTCCACTGGGATGAGTCGACGGCCGTAACCGTTGGGCAGAGAGATTACGATGAACAAAAATCTTTGATTGAGAATGGATATGTAGGCGTGCAGTGGCACCCTTCCACCCTTCTCTTCGCGAAAAAACAGCCATAA	MGKGMIAEGRLRHQQTGQEETYTVHVLSIGALEELQAMQKKVEGHVSDPSTLQPLSEEEFTNILKGEGLLIGVYAGQTLAAFRALWYPGHHIENLGRDTGLPESEWEQVVHQEISCVLPEYRGNGLQKKMGVWIMDAFHQSSHDKTHLFCTVHPDNPGSLKDKFSQGMVIAAVKEKYAGMLRYIFYRPVSGPVHWDESTAVTVGQRDYDEQKSLIENGYVGVQWHPSTLLFAKKQP				NA	NA	NA	NA	NA
AK012_02063	1362			hypothetical protein	GTGCGCCATTGGTCGAATTATTTATACGTATTCTACTCGTTTGTCTTTTTACTGAATGTCCTGCATACGTTCTGGACAGACGAAACTTTGTACATAATCATCGGATTCCTGGGGATGGTGATGACGGCCGTCAGTTTCCCAAGGTCGGACCGCGTCTTTAAAATTTTAGGAACCGTGCTGCTGACAGCCGGCGGCTTTTTCTACTTTTCCAGTGATGCGGTCCTGTCTGATATTCCCCGGTTCTTTGCCGGAAATATCAGTCTCCTTCTGCTCATTTCCATGCTGCCGTGGATGAATAGTGTCGTAAAGGCAGGGCGGTATAACAAGCTGCTTCAGTCGCTGATCGGAGGAGGGAACCAGAGCTTAAGCGGATTGTACGCGCGAAGTGAAGTCACGATGGTTTCTCTTGCGGCCTTCTTGAACCTTTCTTCCGCTGCGGTTTCTCAGGATCTTCTGAAGGAAAAATTGAAGCAGATGAACACAAAAATGAAGAATAACTTTATTTTGATGGTCACGCTGCGGGGCTATTCGCTCGCTCTTTTATGGAGCCCGCTGGAGATTCTGCTGGCCACATCGATCTTTATTACCGGAGCTGACTATCTTCAAGTGCTGCCGTGGATGCTTGTGATTTCCGTGATTGGCATTGCTCTTGACTCATTTGCAGCGAAATTCATGTACCGTGGTGAATCGATTCCAGAAGACCGGGCGGACGCAGCTCCCTTGAACAAACGGAAGTTCATTCAGTTTATTGCTGCCCTCGTGTTGTTCTTGTGCCTGGTGGTTTTCCTCGGAAATGTCGTCCAGCTTGATTTTCTATTTTCCGTCACGATTGCCATCTTTCCGTTTGCCTTTGTCTGGTCGCTGCTGATCAAGCGCAGGCGCAGCTTCATGAATATTGGATGGCCGACGTGGAAATGGAAAACGAACCGGCTTGATAATTTCATCGTCCTCCTTTTGACCTTGTCGTTCCTGACTAAGACATTGAATGCCTCTCCTTACCTCCAGTACTTACAGGACCCTCTGATCGCTATGGAAGGGCAGCCGGTTTTCATTATGCTGTTTATCCAGGCTGCGTTCTTAGTGATGACTCTGCTCGGTGTCCACCCCATCGCTACGATGGGGATCTTTGGAGGAGTCAGCGGCCTTTTGACCAGTGCGTTTCCGCCAGTGACCCTGACTATTCTGCTTTCGGCCTGTGCGATTGCGACCGTCCCGTCAGCCCCTTACGGCTTGATTGTGACCTTGACGTCTGTGGCCCTGAAGGTGAACCCTTATCAGATTGTGCTGCGGAACCTTCCCTACAGTATCGGGCTTGGTTTTGTCGGTATCGCTGTCGCTCTATTCTCGATGTGGATCTATTAA	MRHWSNYLYVFYSFVFLLNVLHTFWTDETLYIIIGFLGMVMTAVSFPRSDRVFKILGTVLLTAGGFFYFSSDAVLSDIPRFFAGNISLLLLISMLPWMNSVVKAGRYNKLLQSLIGGGNQSLSGLYARSEVTMVSLAAFLNLSSAAVSQDLLKEKLKQMNTKMKNNFILMVTLRGYSLALLWSPLEILLATSIFITGADYLQVLPWMLVISVIGIALDSFAAKFMYRGESIPEDRADAAPLNKRKFIQFIAALVLFLCLVVFLGNVVQLDFLFSVTIAIFPFAFVWSLLIKRRRSFMNIGWPTWKWKTNRLDNFIVLLLTLSFLTKTLNASPYLQYLQDPLIAMEGQPVFIMLFIQAAFLVMTLLGVHPIATMGIFGGVSGLLTSAFPPVTLTILLSACAIATVPSAPYGLIVTLTSVALKVNPYQIVLRNLPYSIGLGFVGIAVALFSMWIY				NA	NA	NA	NA	NA
AK012_02064	156			hypothetical protein	ATGAGAGAAGATATGATCCGTGTGTTAGATCAGAGAGATATCCTTGTGAAGGAAAATGAAAAACTGCAGCAGCAGCTGGAAGAAGAGCGTCAAAAAGTAGCCGCGCTGGAGGAAAAGCTGCAGCAGGATCAGCTGCTTTCTAAAAGCGGTGCTTAA	MREDMIRVLDQRDILVKENEKLQQQLEEERQKVAALEEKLQQDQLLSKSGA				NA	NA	NA	NA	NA
AK012_02065	372			hypothetical protein	ATGATGAAATTAGCAAGCTTGGGTGAGCTCTATGAGGCAAAAGAAGATATCCAGGACATCCGCACCCGCTATCCGGACGTCTACGCCATTTTAAACCATGTGGTCAGTTTCACACGACAGCTCCAGATCAAATACGGTTATATGGGTGCCCTCTTAATGGAAGAAGAGCTCGACACCTGCCGTCCTGAATTTATTAAGGGATCGATTCTCTCTGTCTATCAGCGGGAGGTGAATCAGTTGAAAAACCATGAGGACTTCCCCGTCGTCCAGGAATTCCTCAACAAGCACCGGGAAGTCGGGGACGCCAAGCTGTTCCTCCTCATTCTAGGGGCCAAACCCGAGCTGCTGCGCGGATCAACCATTATGAAGTAA	MMKLASLGELYEAKEDIQDIRTRYPDVYAILNHVVSFTRQLQIKYGYMGALLMEEELDTCRPEFIKGSILSVYQREVNQLKNHEDFPVVQEFLNKHREVGDAKLFLLILGAKPELLRGSTIMK				NA	NA	NA	NA	NA
AK012_02066	555			hypothetical protein	ATGACAGGTAAACGAGCGAAGGAAAGTCTTGTAATCAATACAGACCAAGTGATGATTAACGATTTGAATAACTACAATACATTGTTCGGGGGGGTGCTGATGAAAAAACTCGATAACAACGCCACCCTTTCGGCGAGAAGGCACGCCCGGGTGAAAGAATGTGTGACGGCGTCTACAGACTCCATCGATTTCCTTCACCCCATCCATCAGACAGACTCGGTTTGTGTGGAATCCTTTGTTTCTTATACAGGTAATAAATCGATGGAGATTTTCTGTAAGGTCATTGCCGAGGATATGATTACCGGAGAGCGTCGGATGGCTGCGACCGCCTTCTTGACGTTTGTAGCCCTTGATGAAAACAAACGGGCTGTGAAGGTTCCAAAGGTCATTCCGGAAACCGAAGAAGAGAAGTTCCTCTATCAATCCGGAGAGGAAAGGGCCAAGCGCCGCCGTTTCCGCCGCGATCACAGTGCTGAATTAACAAGAATCATTGGGTTGGAGAAACCATGGGAAAAAGGAGTGGATGAACATGATGAAATTAGCAAGCTTGGGTGA	MTGKRAKESLVINTDQVMINDLNNYNTLFGGVLMKKLDNNATLSARRHARVKECVTASTDSIDFLHPIHQTDSVCVESFVSYTGNKSMEIFCKVIAEDMITGERRMAATAFLTFVALDENKRAVKVPKVIPETEEEKFLYQSGEERAKRRRFRRDHSAELTRIIGLEKPWEKGVDEHDEISKLG				NA	NA	NA	NA	NA
AK012_02067	891	cynR		HTH-type transcriptional regulator CynR	ATGGACATCCGCCACCTGCAGTATTTCATTGAAGTCGCAAACTTCCAGAGCTTTACGAAAGCAGCCGAACACCTCTATATCTCCCAGCCGACCATCAGCAAAATGATCAAAAACCTCGAAAACGATCTCGGTGTCGAGCTTTTTGAGCGGCGGAGAAAAAAAGTTGTCCTTACCGACGCCGGCCGGCTCATTCTCACCCAGGCAAAAACGATTGATAAAGCTTTCCAGAACCTGACGACGCAGCTGGATGACCTTCTCGGTCTGCAGAAGGGTCATCTGCGTATCGGTCTACCTCCGATTATGGACGCCGAGGAATTCATCCAGACCCTTGGGAGTTTCCATAAACAATACCCGCACATTACCTTTCAGCTCGTCGAGAGTGGTGCAAAAAAAATTGAGGAACAGATTCTCCAGGAGGAACTGGATGTCGGGATCACGGTGCTGCCGACGGATGAAGAACGTTTCCATTACTTTTTCCTGTTGAATGAAGCGTTGGAGGTTGTGCTCCACCCGGACCACCCACTGGCTGATCTCGAGGAAATCGAGTTAGCTGAATTAAAAGAGGAATCCTTCATCCTGTTCAACAAGGACTTCGTGTTGAATGACCGGATTTCCACCGCCTGTCAGGAAGCCGGCTTTCTTCCTAAGATCGTGTCGGAAAGCTCCCAATGGAACTTTATCGGAAAAATGGTGGCTTCCAACTTCGGGATTTCCCTGCTGCCTAAGAGCGTCTCCCAGCTTTTGAATGACAACGTCCGGAGAATCAAGGTCACCCAGCCTTCCATCGCATGGGAACTGGCAATCATCTGGCCGAAAGATCAATACATATCCTTTGCCGCCAAAGAGTGGCTCACCTATACCCAGAACCGTATGAGCAGCATTGAAGATTAA	MDIRHLQYFIEVANFQSFTKAAEHLYISQPTISKMIKNLENDLGVELFERRRKKVVLTDAGRLILTQAKTIDKAFQNLTTQLDDLLGLQKGHLRIGLPPIMDAEEFIQTLGSFHKQYPHITFQLVESGAKKIEEQILQEELDVGITVLPTDEERFHYFFLLNEALEVVLHPDHPLADLEEIELAELKEESFILFNKDFVLNDRISTACQEAGFLPKIVSESSQWNFIGKMVASNFGISLLPKSVSQLLNDNVRRIKVTQPSIAWELAIIWPKDQYISFAAKEWLTYTQNRMSSIED				NA	NA	NA	NA	NA
AK012_02068	930	iolS	COG0667	Aldo-keto reductase IolS	ATGGATAACAAAACAAAACTCGGTAAATCAGATTTGTATGTCAATCCCATCGGCCTTGGTACAAATGCCGTCGGAGGGCACAACCTTTACCCGAACCTTGATGAGGAAGCCGGGAAGGACGTCGTCCGGACAGCACTGAACCACGGCATGAATTTTCTCGATACGGCCTTTATTTACGGACCGAAACGTTCAGAGGAGCTTGTCGGACAGGTGATGAGCGAATATAAACGTGATGATATCATTCTTGCGACGAAAGGTGCTCATGAATTTAAAGGAGAAGATGTTGTGTTCAACAACTCTCCAGCTTTCTTAAAGCAGTCTGTTGAGGACAGCCTGCAGCGTCTGCAGACCGATTATATCGACCTGTATTACATTCATTTCCCGGATGAGGATACACCGAAGGATGAAGCGGTCGGTGCCCTTAAAGAACTGAGGGATCAAGGGAAGATACGATCCATCGGTGTTTCCAACTTCTCTGTTGACCAGTTGAAGGAAGCCGACAAAGATGGATACGTGGATGTCATTCAAAGTGAGTATAATCTGTTCAAGCGTGGGGCGGAGGAGGATATGCTGCCATACACAGCGGATAATCAAATCAGCTTTGTTCCGTACTTCCCGTTTGCTTCCGGCCTGTTAGCTGGTAAGTATGATAAAAACACGACGTTCAACGACCTGCGGGCAGAAAACCCATTGTTCCAGGGAGAAGAGTTCAAAAAGAATCTGGATAAAGTTGAAAAACTTCGTCCGATCGCTGAGGAAAAAGGCGTGGATATTCCACATATTGTCCTGGTGTGGTATTTGAATCAACCGTCCATTGATGCGGTTATCCCCGGTGCCAAACGTACCCAGCAGGTCGTCGATAACCTGAAAACGCTGGATGTGAAGTTGAGCGATCAGGAAATCTCCAAGATCGATCAGATCTTCTCTTAA	MDNKTKLGKSDLYVNPIGLGTNAVGGHNLYPNLDEEAGKDVVRTALNHGMNFLDTAFIYGPKRSEELVGQVMSEYKRDDIILATKGAHEFKGEDVVFNNSPAFLKQSVEDSLQRLQTDYIDLYYIHFPDEDTPKDEAVGALKELRDQGKIRSIGVSNFSVDQLKEADKDGYVDVIQSEYNLFKRGAEEDMLPYTADNQISFVPYFPFASGLLAGKYDKNTTFNDLRAENPLFQGEEFKKNLDKVEKLRPIAEEKGVDIPHIVLVWYLNQPSIDAVIPGAKRTQQVVDNLKTLDVKLSDQEISKIDQIFS	PGPT0018520_286	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_INOSITOL_DERIVATE_DEGRADATION,PGPT0018520-iolS-K06607	NA	NA
AK012_02069	345			hypothetical protein	ATGAAGATTCTTGGATACAGGTATGTAGATGTTTCTGAACACAGCAAGGCCATGGTGGATTTTTTTCAGAACAAACTGGGCATCGAAAATGCTTGGGAGGATACGGAAGAATACCGCGGCGGTATTTTTAAAGCAGGAGACAGCTGGCTCGAGTTCTGGCACAAAAATGAGTGTATGATGCCTGTGAAAATGCTGCAGCTGGTCGTGGATGACGCGGATGCTTTTGCGGAACATGCAAGAGAGCAGGGGGTTGAGATTCACGGCCCAATAGAAGAGCACGGGGAAAAGATGTACTCGACAACCGCCCCTGACGGGATGCCTGTGACCATCTTATCCTCTTTATAA	MKILGYRYVDVSEHSKAMVDFFQNKLGIENAWEDTEEYRGGIFKAGDSWLEFWHKNECMMPVKMLQLVVDDADAFAEHAREQGVEIHGPIEEHGEKMYSTTAPDGMPVTILSSL				NA	NA	NA	NA	NA
AK012_02070	3954			hypothetical protein	ATGAAAAAGAAAGGCCTCGTCAAAGGGGTTCGTTCAGTTGTTGTAAGTTCTATGGTGCTGGGGATGTTTGCCGGACCCGCTTATAATGTCAAAGCGGAAGCACCTGCAGCAGATACGCTGTTGTTTTCGGAATATGTAGAAGGCGGTTCCTACAATAAAGCGCTGGAACTGTACAATGGGACGGAAAAGGATATAGACCTTAGTCAGTTTACGCTTGATAACCATAATGGTGGTTCCGAGGATCCTGCCTATTCCTTCGAGCTGAAAGGCACACTGGCTGCCGGTGAAACCTATGTCATCGCGAATGAGAAAGCGTCACCGGATATTCTCGACGTGGCGGATGAAATAACCAAGGATCAGACGATGGGCTTCAATGGTAATGACACCCTTGTTCTTAAAAAAGATGGGGTGGTCGTTGACTCCATCGGACAAGTCGGGTTGAGTGATGATTTTGCGAAAGACGTTACACTCACCCGGAAAACGGATCAGCTGACTGGAGATACCGATCTATCAGACAGTGTTGATGTAGACGCTTCGTACAACAGCCACGCCAAAGATACCTTCTCTTACTTAGGAAAATACCCGGACCTATCAGATGTTGATGTAAGCACGATCAAGGATGCCCGGAGTGTGGAAGAGGGGACGACGGTAAAAGTTCAGGGGATTGTGACAGCATCCTTTGTAGAGGGCGGACAAACCAACTTATACATACAGGATGATACGGGAGGAATTGTCGTCCGTGCCGCTGGTCTGGATGCTTCTATTGGGGATGAAGTGACGGCACAGGGCCCTTTTGGAGCGTATAACGGCCTCCAGCAGATTGCCACGAGTGCGGATCAGGTGACCGTAACGACTGAAAACAAAGGAATGCCGGCTGTCCAGCTTGTGACAAGCACTGATTTCTCTTCTGATCAGGGGGAAAGTGTTGAAAGTGAATATGTGCAGGTCCAGGACATTACGATCACGGATGTCAATCAGTATGGGGACTATACGGCTGAAGATGAGAATGGGACGTTCCTGATTTCCCCGAAAACGGACGTGGAGATGGAAGTCGGTCAAACGTATGAACTTGTCGAAGGGGTGGTTACATACGCATACGATGATTACCGCCTTGTTCCAAGAGAAGAAGCCGACGTCGTTGAAACCATTTTCTCGGTAGCTGCAAGTCCATCCTCAGGCAGTGTAGTCGAGGGTTCAGAAATCGAACTTCGCACCGCCCAGAAAGATGCGTCGATTTACTACACGATGGATGGAAGTGAGCCGACAAAAGAAAGTACTGTCTATACTGGTCCTATCACACTGAAGGAAGATACCACGATTAAAGCAGTTGTGATCAAAGACAGTGGGGAAGTGAGTGAAACGGCGGATTTCTCCTACGAAGTGCTGGCACCGCTTGATCATGTAGATATTCATGATATCCAGGGGGCTGCTCATGAATCCCCTTATAAGGATATGAACGTGAAAAATGTCGACGGGGTGGTAACCGCTCTGGATGGAACCGATGGATTCTATATGCAGGACCAGAATCCTGACAGTGAAGTGGCAACCTCTGAAGGCATTTACGTGTATGCCGGAAATTCAGAAGTAAGCGTTGGAGATGCTGTCCACGTCAATGGTCAGGTGAAAGAATGGAGAGAAGACGGCTATGCTGATGCGGACGATCTTTTAACGACGCAGATCACGGCCTCAGCTGTTGAAATCACTGCCTCTAATCAGACGCTGCCGGATACGACGGTCATCGGCGAGGACCGCATCCAGCCGACGGAGAATATTGAGGATGACGGCTTGACCAGCTTTGATGCTGAAGAGGACGCGATTGACTTTTACGAAAGTCTGGAAGGCATGGTCGTTGAACTGAAAGAGGCCACGGTCACTGGTCCGCCGAAGTACGATGAAGTGGCTGTTTATGTGGACAAAAGTGAAGATCAGCTCCTTACAGACGCCGACGGTCTGCTGATTTCCTCTGATGACTACAACCCGGAGCGCGTCCTTGTGGATATCGACGGATACGATGTTGATGTCACTGTAGGGGATCGAATGGACGGGTCGATCACCGGTGTCGTCGGATATGATTACAGCAATTTCAAAATCCGTACGACCGGAGAGTTCCCAACCGTTAAAGATGGCGGGACGGAACGTGAAACCTCTGACCTTCAGGTCGAAGAGGATAAGCTGAATGTCGCCACGTACAATATGGAAAACTTCTCAGCGGAAACCTCCCAGGAAAAAGTGGACCGTATTGCCGAATCGATGGTGAACAACCTCAACCAGCCTGACATTATCGGACTTGTCGAAGTCCAGGATAATAACGGTCCAACCGATGATGGTACTGTGGAGGCTGACGAGTCCTACAAGAAGCTGATCCAAGCGATTGAGGATGCCGGCGGACCGACCTATGCGTTTGCGGATATCGCCCCGTTGGATAAGACGGATGGCGGCCAGCCGGGAGGTAACATCCGTGTCGGATTCATCTACAACCCGGAGAGAGTGTCACTTCCTGACAAAGAAAAAGGTGACGCTGTAACAGCGGTGGATGTGGACGAAAACGGACTGACGCTGAACCCCGGGAGGATTGACCCGGAAAATGAAGCCTTCGATGATTCCCGTAAACCACTCGCGGCCGAATTCGAGTTCAATGGGGAGAAAGTCGTTGTCGTAACCAGCCACTTTAACTCCAAGGGCGGAGATGACGCCTTGTTCGGTGCCAGCCATCCGATTGAACTGGGCAGCGAAGTCCAGCGGATGAAGCAGGCGGAAGTCGTGAATGGCTTCGTCCAGAAAGTAGTCGATCAAGTCAGTGATGCAAATGTCGTCGTTATGGGCGATTTGAATGATTTTGAATTCTCCAGCCCCATTAATGCCCTTGAAGGCGATGTCATGACGAATATGGTGGAGCAGCTTCCTGCAGAAGAACGTTATTCCTACAACTATCAAGGAAACTCCCAGGTGCTGGACCACATATTAGTAACGAATAACCTGTCTGAGCGTACCGCTATCGACAGTGTGAATATTAATGCTGATTTCTCAGAAGAAGCAGGACGCGCAAGTGACCACGATCCCATGCTTGCACAGATTGATTTCACGGATACAGCAGAAAGGATCTCCGGCGTCGATCGTTACCAAACGGCCATTGAGGTTTCAAAGCAAGGCTGGGAGCAGTCGGAAACGGTCGTCATTTCACGCGGGGATTCATTCCCTGACGCCCTGGCCGGAGCCCCGCTTGCGTATAAGCTGGATGCCCCGATTCTCCTGACAAAATCTAATAAACTATCATCCGAAGTCAAAACAGAGTTGAACCGCCTGGGTGCGGAAAAAGCGGTCATTCTCGGCGGCGGCGGTGCCGTATCCGATTATGTCCGCTATCAGCTGGAAGGTCAGGGGCTTTCTGTTGAGCGTATTGACGGGAAAGACCGCTATGAGACGGCTGCCAACATTGCCGCCCGTCTGGATGGCAGCCCGGATAAAGCGATCGTAGCAGACGGAAGAAATTATCCGGATGCTCTGTCTGCGGCTTCCTATGCTGCTCAAAATGGATACCCGATCCTTTTGACTAAAACGAACGAATTACCTGATGAAACCAAGCGTGCCTTGAAAAGCATGGACAGTACGATTGTTACAGGTGGAACAAAAGCCGTCAGTGATGATGTTCTGAATCAGCTTCCCGACGCCATGCGCGTCAGTGGAGCCGACCGCTACGCCACAGCAGCTAAGATTGCCGGTGGACTTTCCACCGATTCCAAGACGGCTTTCGTTTCTACAGGACGTGACTTTGCCGACGCTTTGACCGGGTCTGTACTTGCTGCCAAATACAATGCGCCTATGCTTTTAGTGAAGCCGGACGATATTCCGGAAAGTATTGATGATGTCATCAATACGAAGGATTACCGTAACTTTCGTGTACTTGGCGGAACAAAAGCCGTAAGCGATGATGTACTGAACGATTTGCAGGACTAA	MKKKGLVKGVRSVVVSSMVLGMFAGPAYNVKAEAPAADTLLFSEYVEGGSYNKALELYNGTEKDIDLSQFTLDNHNGGSEDPAYSFELKGTLAAGETYVIANEKASPDILDVADEITKDQTMGFNGNDTLVLKKDGVVVDSIGQVGLSDDFAKDVTLTRKTDQLTGDTDLSDSVDVDASYNSHAKDTFSYLGKYPDLSDVDVSTIKDARSVEEGTTVKVQGIVTASFVEGGQTNLYIQDDTGGIVVRAAGLDASIGDEVTAQGPFGAYNGLQQIATSADQVTVTTENKGMPAVQLVTSTDFSSDQGESVESEYVQVQDITITDVNQYGDYTAEDENGTFLISPKTDVEMEVGQTYELVEGVVTYAYDDYRLVPREEADVVETIFSVAASPSSGSVVEGSEIELRTAQKDASIYYTMDGSEPTKESTVYTGPITLKEDTTIKAVVIKDSGEVSETADFSYEVLAPLDHVDIHDIQGAAHESPYKDMNVKNVDGVVTALDGTDGFYMQDQNPDSEVATSEGIYVYAGNSEVSVGDAVHVNGQVKEWREDGYADADDLLTTQITASAVEITASNQTLPDTTVIGEDRIQPTENIEDDGLTSFDAEEDAIDFYESLEGMVVELKEATVTGPPKYDEVAVYVDKSEDQLLTDADGLLISSDDYNPERVLVDIDGYDVDVTVGDRMDGSITGVVGYDYSNFKIRTTGEFPTVKDGGTERETSDLQVEEDKLNVATYNMENFSAETSQEKVDRIAESMVNNLNQPDIIGLVEVQDNNGPTDDGTVEADESYKKLIQAIEDAGGPTYAFADIAPLDKTDGGQPGGNIRVGFIYNPERVSLPDKEKGDAVTAVDVDENGLTLNPGRIDPENEAFDDSRKPLAAEFEFNGEKVVVVTSHFNSKGGDDALFGASHPIELGSEVQRMKQAEVVNGFVQKVVDQVSDANVVVMGDLNDFEFSSPINALEGDVMTNMVEQLPAEERYSYNYQGNSQVLDHILVTNNLSERTAIDSVNINADFSEEAGRASDHDPMLAQIDFTDTAERISGVDRYQTAIEVSKQGWEQSETVVISRGDSFPDALAGAPLAYKLDAPILLTKSNKLSSEVKTELNRLGAEKAVILGGGGAVSDYVRYQLEGQGLSVERIDGKDRYETAANIAARLDGSPDKAIVADGRNYPDALSAASYAAQNGYPILLTKTNELPDETKRALKSMDSTIVTGGTKAVSDDVLNQLPDAMRVSGADRYATAAKIAGGLSTDSKTAFVSTGRDFADALTGSVLAAKYNAPMLLVKPDDIPESIDDVINTKDYRNFRVLGGTKAVSDDVLNDLQD	PGPT0013420_16	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013420-yfkN-K08693	NA	NA
AK012_02071	2478			hypothetical protein	ATGAAAAACCTGAATCTGAAAGTGTTGGCAACTGCCGCTGTTACAAGTGCCATTGCGCTGGGGACTCTGGCCATTCCCGGAGGAGAAGTGAAAGCTGCGGAAGGTGATTTTGACTTAACGATCATGCATACGAACGATACGCATGCCCACTTGGAGAACGTGCCGCGCCGTGTGACGATCATCGAGCAGATCCGTGCTGATCGTGACAACTCTATTCTTCTCGACGCCGGGGACGTGTTCTCAGGTACGCTTTTCTACAATCAGTACAAAGGACTTGCCGACGTCCAGTTCATGAATATGCTCGATTATGATGCAATGGTTCCAGGAAACCATGAATTTGATGACGGGCCGTCTGTGTTTGCTGATTTTATTGATCAAGCCGAATTCCCGATCGTCAGTGCCAACATTGACTACAGCCAGGATGAGCGCTTGAACGGACTGTTCAACGATGAAATCGGCATGCCTGGGGACAATGGAAATATCTATCCTGCTTCCGTCATCGATGTCGATGGGGAAAAAGTCGGGGTATTCGGTTTGACGACAGAAGAAACGAAGTTCCTTGCCAATCCCGGGGACACCATTGATTTCGAAAACTATCTCCAAAAGGCTGAAGATACAGTGAAGATGCTTGAAGGAGAAGGTGTCGATAAGATCGTCGCCCTGACTCACCTCGGTGTTAACTATGACAAAACGCTTGCTCAGGAAGTGGAAGGTGTAGATGTTGTCGTTGGATCTCACAGCCATACAAAGCTTGAGGAGCCGCTTGTCTATAACGAAGAGGGTGAGCCGACACTTGTCGTCCAGGCAGAGGAATACGGAAAATACATCGGTGATTTGGAAGTTTCTTTTGATGATGAGGGTGTCCTTACGGAGTGGGACGGAAAACTCATTGACGTTGATGAAAAAGATGAAAACAAGGAATATGTGTATGAATCCGATGAAGAAGCAGCCGAACTGCTTGCTGAGCTGGAGAAGCCTCTTGATGAACTCAAACAGGAGATTGTCGGGGAGTCCGACGTCTTCCTTAATGGTGAGCGCGAAGATGTTCGTACGGGAGAAACCAATCTCGGGAACCTGATTGCTGACGGGATGCTGGCGAAAGCCAAGCAGAAAGTCCCATCCACTTCCATCGCTATTCAGAACGGTGGAGGAATTCGTGCTTCCATTGATGATGGACCGATTTCCATGGGAGAAGTCTTGACGACGATGCCTTTTGGCAATACGCTCGTAACCCTTGATTTAACCGGGGAACAGATATGGGACGCTCTTGAGAACGCAGTCAGCGATATTGAAAATACAGCCGGACGCTTTGCCCACGTATCAGGGTTGAAGTATACCTTTGACCGGTCCATGGAACCTGAAGACCGCATCGTCGATGTGAAAGTGAAAACAGATGCCGGGTATGAAGCGCTTGATATGGACAAGGAATACACAGTAGCGACGAATGCGTATATCGCTGATGGCGGTGACGGTTATGAAACATTCAAGGAAGCGAAAGATGCCGGGAAGATGACAGAATTATTCTTTGTAGACTATGAAGTGTTCAATGAATACCTGGAAGAGCAGGGCACAGTCTCTCCTGATGAAGAATCCCGTATCGTTGAAAAAGCGACGGAACGTGTGAGCGGAGAGGATCGTTACCAAACCGCTGTTGAGATTTCCAAAAAAGGCTGGGATTCTGCCGATACGGTCGTCATTGCACGTGGAGATGAGTTTGCGGATGCTCTTGCCGGTGCTCCTCTTGCCTATAAGGAAGATGCCCCGATTCTATTGACGAAGTCCGGAAACCTGAACAGCGAAGTAGCTGCGGAAATCAAACGCCTCGGTGCTGAAAAAGCGATTATCCTTGGTGGAACCGCTGCTGTTTCTGAATACGTGAAGTACAAATTATCAGGAATGGGTGTCGATGTAGACCGGATTTCCGGGAAGACCCGCTTTGACACAGCGGCTAATATTGCCGCCCGTCTGGATGGAAATCCTGAAAATGTTATTGTAGCGGATGGCTTCAACTATCCGGATGCTCTTGCTGTGGCTCCTTATGCGGCGAAGGAAGGGTATCCGATTCTCCTTTCTAAAACGGATGAGCTTCCATCCATCACCAAAACAGCTCTTGGTGATTTCGATCAAAGTATCGTTGTAGGTGGAACGAATGCGATTTCTGAAGAGGTCGAAGCGATGCTTCCTGATGCGTCCCGTTACAGCGGGCATACACGTTATGAAACGGCCGCTGCCATTGCCGAACAGCTTAGTGTCCAGGAAGGGAAGACCTTTATAGCCAACGGTCAGAATTTTGCTGATGCATTGGCCGGGTCTGTTCTGGCTGCTAAAGAAGAAGCATCCATGCTTCTCGTTAAGCCGGACGAGCTGCCGGAATCCACGCAGGATACGATTGGAAAGCTTGACATCAACAACTTCCAGGTTCTTGGCGGTACAAATGCTGTCAGCGATGAAGTGGCAGAGCAATTGGAACAGAAATAA	MKNLNLKVLATAAVTSAIALGTLAIPGGEVKAAEGDFDLTIMHTNDTHAHLENVPRRVTIIEQIRADRDNSILLDAGDVFSGTLFYNQYKGLADVQFMNMLDYDAMVPGNHEFDDGPSVFADFIDQAEFPIVSANIDYSQDERLNGLFNDEIGMPGDNGNIYPASVIDVDGEKVGVFGLTTEETKFLANPGDTIDFENYLQKAEDTVKMLEGEGVDKIVALTHLGVNYDKTLAQEVEGVDVVVGSHSHTKLEEPLVYNEEGEPTLVVQAEEYGKYIGDLEVSFDDEGVLTEWDGKLIDVDEKDENKEYVYESDEEAAELLAELEKPLDELKQEIVGESDVFLNGEREDVRTGETNLGNLIADGMLAKAKQKVPSTSIAIQNGGGIRASIDDGPISMGEVLTTMPFGNTLVTLDLTGEQIWDALENAVSDIENTAGRFAHVSGLKYTFDRSMEPEDRIVDVKVKTDAGYEALDMDKEYTVATNAYIADGGDGYETFKEAKDAGKMTELFFVDYEVFNEYLEEQGTVSPDEESRIVEKATERVSGEDRYQTAVEISKKGWDSADTVVIARGDEFADALAGAPLAYKEDAPILLTKSGNLNSEVAAEIKRLGAEKAIILGGTAAVSEYVKYKLSGMGVDVDRISGKTRFDTAANIAARLDGNPENVIVADGFNYPDALAVAPYAAKEGYPILLSKTDELPSITKTALGDFDQSIVVGGTNAISEEVEAMLPDASRYSGHTRYETAAAIAEQLSVQEGKTFIANGQNFADALAGSVLAAKEEASMLLVKPDELPESTQDTIGKLDINNFQVLGGTNAVSDEVAEQLEQK	PGPT0013400_43	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013400-ushA-K11751	NA	NA
AK012_02073	1410	rocC_1	COG0833	Amino-acid permease RocC	ATGGAACATCAGTTTAAACGAGAAATGAAGACGAGACACCTGGTGATGCTTTCACTGGGAGGAGTTATCGGCACGGGGCTGTTTTTAAGCTCAGGGTACACCATCCAGCAGGCCGGCCCGTTCGGGACGATCCTGGCCTATTTGATCGGTGCTTTGGTCGTGTATCTGGTTATGCTCTGTTTAGGAGAGCTGGCCGTTCATAACCCTGACACAGGGGCTTTTCATACATACGCTCATAACTACATAGGGCCGGGGACAGGCTTTACCGTAGCATGGCTGTACTGGCTGACGTGGACGGTAGCTCTTGGGTCGGAATTCACTGCTGCCGGCCTCTTGATGCAGCGGTGGTTTCCCGATGTAAGTGTGTGGATTTGGAGTGCGTTGTTTGCCGTTCTTATTTTTGGATTGAATGCCTTCAGCGTGAAGTTTTTTGCTGAGGCAGAATTTTGGTTTTCCTCTGTCAAAGTGGCAGCCATTGTCCTTTTTATCATCATCGGATTTGGGGCCGCCTTTGGGTGGATGCAGATGCCGGGAGCAGAACCGGCGCCATTCTTTTCAAATCTTACGAGTGAAGGCTTGTTTCCAAATGGAATAACAGCCATTTTCATGACGATGCTTGCGGTCAATTTTGCTTTTTCCGGTACAGAATTGATCGGGATTGCTGCAGGGGAAACGAAGGATCCAGCAAAAAACATACCGACGGCAATTCGGACAACAGTGGCACGGCTGATCATTTTCTTCATTGGAACGATTGTCATTCTATCCATCTTCCTTCCCAGTGAGGCGGCGGGCGTTGTGGAAAGTCCGTTTGTCGCTGTCCTTGACCGCATCGGTATCCCTTATGCGGCTGATGTCATGAACTTTGTCATATTAACCGCTATCCTTTCCGCGGCCAACTCCGGATTATACGCATCGGCCCGGATGCTGTGGTCACTCGCGGACAAGGAAACCATCTCACCGGTGTTTGAGAAGCTGACAAAAAAGGGAGTTCCCTTGACAGCGATCATCTTCAGTATGCTTGGCGGCGGTCTGGCGCTGCTTTCCAGTGTCATTGCCCCGGATACGGTTTATATCGTTCTGGTATCGATCTCAGGGCTGGCGGTTGTGGTCGTCTGGATGAGCATCAGCGCTTCGCACTTCCTTTTTCGTCGGGCGCACCGGCGTGCAGGAGGAGAGGATGGTGACTTATCCTACAAAGCTCCGTGGTACCCGGTGGTTCCGATTGCGGCATTCCTTCTATGCCTGGCCTCCTGCATCGGCATCGCTTTTGATCCGGCCCAGCGGATCGCCTTGTACTGCGGAGTTCCATTCATCGCCTTCTGCTATGCGGCTTATTATGTGAGAGAATCTATGAAAAAGAAAAGGGGAATAAAGCATGTCCAACAAACAAAATCGATCCAATCCCATTGA	MEHQFKREMKTRHLVMLSLGGVIGTGLFLSSGYTIQQAGPFGTILAYLIGALVVYLVMLCLGELAVHNPDTGAFHTYAHNYIGPGTGFTVAWLYWLTWTVALGSEFTAAGLLMQRWFPDVSVWIWSALFAVLIFGLNAFSVKFFAEAEFWFSSVKVAAIVLFIIIGFGAAFGWMQMPGAEPAPFFSNLTSEGLFPNGITAIFMTMLAVNFAFSGTELIGIAAGETKDPAKNIPTAIRTTVARLIIFFIGTIVILSIFLPSEAAGVVESPFVAVLDRIGIPYAADVMNFVILTAILSAANSGLYASARMLWSLADKETISPVFEKLTKKGVPLTAIIFSMLGGGLALLSSVIAPDTVYIVLVSISGLAVVVVWMSISASHFLFRRAHRRAGGEDGDLSYKAPWYPVVPIAAFLLCLASCIGIAFDPAQRIALYCGVPFIAFCYAAYYVRESMKKKRGIKHVQQTKSIQSH	PGPT0020525_397	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020525-mmuP-K16235	NA	NA
AK012_02074	948	mmuM	COG2040	Homocysteine S-methyltransferase	ATGTCCAACAAACAAAATCGATCCAATCCCATTGAAGCCCTCCTGGAAAAACAATCGGTTGTTCTCCTGGATGGAGCTCTGGCAACAGAACTGGAATCCTACGGCTGTGACCTTGATGATCCTTTATGGTCCGCGAAAGTGTTATTGGAAAAACCGGAAGCGATCAAAGCTGTCCATGCCTCCTACTACAGGGCAGGAGCAGATATCAGTATCACCGCCAGTTATCAGGCGACCATTGATGGTTTCGCTAAACGAGGGTTATCGGAAGAAGAGGCGGTCACTCTTATTCGAAAAACGGTCACCCTGGCCGGTGAAGCACGGGATGAAGTGTGGAAGGAGAATCCAGAGAGGCCGAGGCCGCTTACAGCCGCTTCTGTCGGACCCTATGGTGCTTATTTAGCGGATGGTTCGGAATATGCCGGTCATTACGGCGTCACGGATCAGGTTTTATATGATTTTCATCAACCACGTATACAGGCGCTTGTTGAAGCCGGTGCTGACGTTTTAGCGGTTGAAACGCTGCCTTCTCTACAGGAAGCAAAGGTGATTGGTTCTATTTTGCAGGAGTATCCGTCCGCCACTGCATGGATTTCCTTTACATTAAAGGATGGTCAATCCATCAGTGAAGGAACTCCGCTTAAGAAGGTCGCTGAAGCATTGGAGGGCAGCAGTCAGGTGGCAGCGTTCGGGGTGAACTGTGCGCCGCTGGAGCATGTGGCTGAGGCTTTACAAGAGCTGGGGCGCTATTCGACCAAGCCGCTCATTGTCTATCCAAACTCAGGGGAAGATTATAATCCGGAAACGAAAACGTGGCATGGATCCACCAGCCGTCTTGATTTTCATGAGCAGTCCAGCATCTGGTACGCGTATGGGGGAAGGCTTATCGGTGGCTGCTGCAGAACGACGCCCGCTCATATAAAAAAGCTGGCGGAAATGTGGAAATCATAA	MSNKQNRSNPIEALLEKQSVVLLDGALATELESYGCDLDDPLWSAKVLLEKPEAIKAVHASYYRAGADISITASYQATIDGFAKRGLSEEEAVTLIRKTVTLAGEARDEVWKENPERPRPLTAASVGPYGAYLADGSEYAGHYGVTDQVLYDFHQPRIQALVEAGADVLAVETLPSLQEAKVIGSILQEYPSATAWISFTLKDGQSISEGTPLKKVAEALEGSSQVAAFGVNCAPLEHVAEALQELGRYSTKPLIVYPNSGEDYNPETKTWHGSTSRLDFHEQSSIWYAYGGRLIGGCCRTTPAHIKKLAEMWKS	PGPT0017810_252	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSIDASE,PGPT0017810-lacZ-K01190	NA	NA
AK012_02075	1878	ltaS1_3	COG1368	Lipoteichoic acid synthase 1	ATGAAAGATTCGATAAAACATTTACTAAAAAGCTATTTCTTTTACTTTTTTATAATGATTTCCTTCAAGTTTATTATACTGAGATATCTTCTGCTTCAGGATACGAGCATTTGGGCAGGGATCTGGTATGATGCTTCATTCATCCTGATCTTTATGGCTCTCATTGAGCTTGTCTTTAAACGTGGGAAAGTCATCGCTTATACGGTTCTTGATTTGTTCTTGTCGCTTCTATTTATCGGCATGTTGATTTATGAACGGTATTTCGGCACTGTGCCTACATATTATGACTTGTCCCAGCTGAATCAGGTTGGAAGTGTCAATGAAAGCATGTGGCTGCTCGTCAATGGCACGGATTTTCTATTTCTCGCAGATCTGCTTCTGCTTGCTGTCATTGGGATTGTGGGCAGGAAGTGGACGTACCCGGCGAAACAGACCTCCAACTTTGCCATGTCTGTCTTCCTTATTGCAGGGCTTGTCATTGCCATATTCAACTTCCAAATGAACAAAGGGGAACCTATTCTTGACAGCGCGCTGTTTGCAAAGGAAAACGGGTTGTTTACTACACAGTTTGTTCAGTATTACCAGGACCAGACCAACAGTGAAAAAGCCTTCGCCTTTTCCGGGGAGGATCAGAATGTGACCCAGCAGAAAATCGAGGAATTGAAGGGCAATTCCTATACCCCGATGAGCGGGCATGAACATTTCGGGGTGGCGGAAGACCGGAATTTGATTGTCGTCCAGATTGAATCGCTGCAGGACTTCGTCATCGGTGAGTCGATTGCTGGGCAGGAAATTACTCCGAATATTAATGAATGGCTGAAAGAGAGTATGTACTTCACTGATGTGTATCAGCAGATTGGTTCAGGCAACACATCAGATGCTGAATTCCTTATGAATACATCTCTTTATCCATTAGGTAAAAAAGCGACCACCGATCAAGTCGGCGGCATGGAGCTTCCATCTCTGCCGAGAATGCTGGATGAGCAGTCGTATCATACCGTGACGATGCATGCGGACGAGGTGGAGTACTGGAACAGGGATGAACTTTATCCCGCCCTTGGATTTGATGATTATTACGACGATAAGTTCTACGGTGAGAAAGATATGGTAGGCTTCGGGCCGTCGGATGGCTGGTTTTATCACCGTTCGATGGGCGCAATCAATGAAATCAATGAGGAGTACGACAAGTTCTATGCTCATGTGCTTTCGTTAACGAGCCATACCCCATTTGAAATGCCTGATGACAAAGAAGGCCTGGATCTCCCTTCTGATTACGAAGGAACGTTAACAGGGAACTATCTCCAGTCCGTTCACTATGCGGATAAAGCCCTTGGGGAATTCTTTCAGGACTTAAAAGACCGTGGTCTCTGGGAAGAGTCGGTCATTGCCCTTTACGGGGACCACTCTGGTCTTCATGGTAAACTGCTGAAATCAGAGGACCAGGACCTGCTTGCGGACTTCCTGGGTGAGAGGTATTCGCTGTTGAACCGTTTTAATATTCCATTCATCGTTGGCGTTCCAGGAGAAAAAGATCTGACCGGAACGAATGACCATACCGGCGGGCAGATTGATATGATGCCGACGCTGCTGAATCTGCTTGGCGTGGAGCCGGAGTCCCTGTACTTTGGACATAACCTGCTTCATTACGAGAATAACCTGCTCGGCATGCGCTATTATGTTCCAACGAGCTCCTTCTTTAATAATGGAACCTTTTATATCGCCCGGAACAGCCGCTTCGATGCCCGAATATTGAACATGAACACGAATGAACGGATTGAAGACACATACGAAGACCCAAATAACGCATTCGAAGATGAAAGGGAAGACATTCTCCAATTGCTCCAATGGTCGGATGCCTACTTCGAAAGCCTGCGTTAA	MKDSIKHLLKSYFFYFFIMISFKFIILRYLLLQDTSIWAGIWYDASFILIFMALIELVFKRGKVIAYTVLDLFLSLLFIGMLIYERYFGTVPTYYDLSQLNQVGSVNESMWLLVNGTDFLFLADLLLLAVIGIVGRKWTYPAKQTSNFAMSVFLIAGLVIAIFNFQMNKGEPILDSALFAKENGLFTTQFVQYYQDQTNSEKAFAFSGEDQNVTQQKIEELKGNSYTPMSGHEHFGVAEDRNLIVVQIESLQDFVIGESIAGQEITPNINEWLKESMYFTDVYQQIGSGNTSDAEFLMNTSLYPLGKKATTDQVGGMELPSLPRMLDEQSYHTVTMHADEVEYWNRDELYPALGFDDYYDDKFYGEKDMVGFGPSDGWFYHRSMGAINEINEEYDKFYAHVLSLTSHTPFEMPDDKEGLDLPSDYEGTLTGNYLQSVHYADKALGEFFQDLKDRGLWEESVIALYGDHSGLHGKLLKSEDQDLLADFLGERYSLLNRFNIPFIVGVPGEKDLTGTNDHTGGQIDMMPTLLNLLGVEPESLYFGHNLLHYENNLLGMRYYVPTSSFFNNGTFYIARNSRFDARILNMNTNERIEDTYEDPNNAFEDEREDILQLLQWSDAYFESLR	PGPT0023375_1126	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023375-ltaS-K19005	NA	NA
AK012_02076	1182	capB		Capsule biosynthesis protein CapB	ATGCTACTGATCCCTATTGTGCTGATCATCGTTCTTGCTGCTGGAATCTATGAATGGCAGCGTCATAAAAAGAACATCGATGCTCTGCCGATACGCGTCAACATCAACGGTGTACGTGGAAAATCCACAGTGACACGTCTTGTTACAGGGATTGTGAAAGAAGCAGGTTATAAAACGATTGGAAAAACAACAGGAACGTCTGCGCGGATGATTTTCTGGGATACGCCGGAAGAACAGCCGATCAAGCGGCGTCCGGAAGGCCCGAACATCAGGGAGCAGAGAATGGTTGTGAAGGAAGCCGTCGACCGAGGTGCGGAAGCCCTTGTCAGTGAGTGCATGGCTGTCAATCCTGATTACCAGATCACGTTCCAGGAAAAAATGCTTCAGGCCAATATTGGAGTCATTGTAAACGTTCTGGAAGACCACATGGATGTGCTGGGGCCGACATTGGAGGAAGTAGCCGAGTCCTTTACCGCTACAATTCCATACAACGGTCATTTGATTGTGTCAGAAAGTCCGTATGTAGAAATGTTTAAAGAGATTGCAGCGAAACGAAACACCGAGGTGATTGTTGCGGATAACAGCAGAATTTCCGATTCGTTTTTACTGCAATTTGAATATATGGTATTTCCTGAAAACGCTTCGTTAGCATTAGGCGTCGCACAAGCCCTCGGCATTGATGAGGAAACCGCCTATAAAGGGATGCTGAACGCTCAGCCGGACCCGGGAGCTATGAGAATCCTTCCTATGGGAGATCAAGAAAAACCTTCTTACTTTGTCAATGGTTTTGCGGCAAATGACGCGGTTTCAACAATTAATATTTGGAAACGAGTGGAATTTCTCGGATATCCGACAGAAAATCCGATTGTCGTCATGAACTGCCGGGAGGATCGTGTCGATCGTACGGAACAGTTCGCCCGTGACGTTCTTCCTTACATTCCTACAGATACGCTCGTGTTGATTGGGGAGACGACCGAACCGATCGTTACAGCGGTGAACGAAGGGAAAATCAAAGTGGAAACCCTGCTTGATTTAGAAGGAAAGACGACGGAACAGATTATGGATGTCTTATCGGAAATGTTCACAGACCGCGTGATTTATGGAGTCGGAAATATTCACGGAGCTGCAGAACCGATGATTGAACGAATGCAGGATTATAAGATTCAAACAAGCGTCAGCTGA	MLLIPIVLIIVLAAGIYEWQRHKKNIDALPIRVNINGVRGKSTVTRLVTGIVKEAGYKTIGKTTGTSARMIFWDTPEEQPIKRRPEGPNIREQRMVVKEAVDRGAEALVSECMAVNPDYQITFQEKMLQANIGVIVNVLEDHMDVLGPTLEEVAESFTATIPYNGHLIVSESPYVEMFKEIAAKRNTEVIVADNSRISDSFLLQFEYMVFPENASLALGVAQALGIDEETAYKGMLNAQPDPGAMRILPMGDQEKPSYFVNGFAANDAVSTINIWKRVEFLGYPTENPIVVMNCREDRVDRTEQFARDVLPYIPTDTLVLIGETTEPIVTAVNEGKIKVETLLDLEGKTTEQIMDVLSEMFTDRVIYGVGNIHGAAEPMIERMQDYKIQTSVS	PGPT0026665_180	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULE_BIOPSYNTHESIS,PGPT0026665-capB|pgsB-K01932	NA	NA
AK012_02077	450	capC		Capsule biosynthesis protein CapC	ATGTTTGGTTCGGATTTATATATATCCCTTGTGTTAGGGATCATTTTAAGCTTGATTTTTGCTGAGAAAACGGGTGTCCTGCCCGCAGGCCTTGTTGTACCGGGCTATCTGGCCCTGGTCTTTGACCAGCCGATTTTTATTGCGGTTGTCTTTTTTATCAGTTTACTCACGTATGTCATTGTTACATTTGGAGTCTCGAAGTTTACGATTTTGTACGGACGTAGAAAGTTTGCGGCGATGCTGAGTGTAGGGATTGTACTCAAGCTGCTGTTTGATTTCCTTTATCCGGTTGTTCCATTTGAAATTATGGAGTTCCGCGGCATCGGAGTTATTGTACCAGGGTTGATCGCTAATACGATGCAGAAGCAGGGCTTAGTTGTGACAACAGCAAGTACATTGCTGCTCAGCGGTCTGACTTTCTTGATCATGACGGTTTATTACCTGATTTAA	MFGSDLYISLVLGIILSLIFAEKTGVLPAGLVVPGYLALVFDQPIFIAVVFFISLLTYVIVTFGVSKFTILYGRRKFAAMLSVGIVLKLLFDFLYPVVPFEIMEFRGIGVIVPGLIANTMQKQGLVVTTASTLLLSGLTFLIMTVYYLI	PGPT0026670_170	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULE_BIOPSYNTHESIS,PGPT0026670-capC|pgsC-K22116	NA	NA
AK012_02078	1158	capA_2		Capsule biosynthesis protein CapA	ATGTCTAAACAATTAGATTTCAAAGAGAAACTGCTGAAGAGAATTAAACGTGATAAAAAGGCCACCCCGAAGCATGTATTGATTGCTTTGGTCGTGACGTTCCTGTTTATTGCGGGTTTTGAAATGTTTTACACCCAGCCAGTCCCGGAAGCCGAATCCAAGGAAGATTCTGCTTTTAGTGCTTCATTCGTCGGCGATATGATGTTTGGCAGGCACGTGCTGGAGGTTACAGAAAATGAAGGGACCGACTTTCTTTTCGAAAATGTAGCCCCGTATTTCCAGAATTCTGATTATGTGACAGGAAACTTTGAGAATGCTGTCACCCTTCAGGAGGAAGAGAATTACCAGAAGCTCGAAAAGTCCATTCATTTAAGTTCAGATGCTTCGCCTGTCCAATCACTGGCCAGGATGAACTTCACGAATGTCAACCTCGCCAACAACCACACGATGGACTTCGGGGAGCAGGGGATGATTGAAACGATGGCATCCCTTGATGAAGCCGGCCTTCCTTATGTTGGTGCAGGTCAGAACATTGAAGAAGCACAGGAGATTGATTATCAGGAAATCAAAGGTTTGAACGTAGCGACCCTTGGGTTTTCCGATGTGCCTGTATCCGGCTCAGAGGCTCTTCAATTCCGGGCAGGGGTTGCAGATGCAGACCCTGAACAATTCCTCCCTCTGGTACAGGAGGCGAGTGAAAACGCGGATATGGTCTTTGTCCACATCCACTGGGGAGCCGAGTACGATAACGAGCCTCACCCGAGGCAGCGGAAATTGGCAGAGGCGATCGTGGATGCAGGCGCAGATGTCATTATCGGCCACCACCCCCACGTTCTGTCCCCTGTGGAAGTCTATAAGGACTCTGTGATTTTTTACAGTCTCGGAAACTTTATTTTTGACCAGGGGTGGTCCAGAACGCGTGACAGCGCGCTGGTCAATTACAACTTGATGAATGACGGAACAGGCCGCTTCGAGATCCTGCCTATGAGGATCAGGGAAGCGAGACCGGCCTTAACGACCAATCTTTATAACCAGAAGAAAATCTTTCTGCAGTTGACTCGTGGAGAGCCGGAGGAAAACTTCACAGAGGAGAACGGCAGATTAACAATAGAAGTGGATCATTCTTCCATTTTAGAGCAGAAAAATAACCGCCGGTAA	MSKQLDFKEKLLKRIKRDKKATPKHVLIALVVTFLFIAGFEMFYTQPVPEAESKEDSAFSASFVGDMMFGRHVLEVTENEGTDFLFENVAPYFQNSDYVTGNFENAVTLQEEENYQKLEKSIHLSSDASPVQSLARMNFTNVNLANNHTMDFGEQGMIETMASLDEAGLPYVGAGQNIEEAQEIDYQEIKGLNVATLGFSDVPVSGSEALQFRAGVADADPEQFLPLVQEASENADMVFVHIHWGAEYDNEPHPRQRKLAEAIVDAGADVIIGHHPHVLSPVEVYKDSVIFYSLGNFIFDQGWSRTRDSALVNYNLMNDGTGRFEILPMRIREARPALTTNLYNQKKIFLQLTRGEPEENFTEENGRLTIEVDHSSILEQKNNRR	PGPT0026660_34	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-CAPSULE_METABOLISM	CE-EPS-CAPSULE_BIOPSYNTHESIS,PGPT0026660-capA|pgsA-K07282	NA	NA
AK012_02079	384			hypothetical protein	ATGAAGATGAAAGTAGTTAAATCGGTGTTTCCATTTGTTTTGTTGATCGGAGCTATGTTTTTTATGACGGAGTATAAGCAGCTGGAAACATTGTCTGCTTCAGAGGCGTACCAGATTGATGTATTCCAGCAGGAAGCGGAGGCAGCTGCAGAAGAACAGACCGAATCATTGACGGCATCAGCCGAAACAAGTGCCGGCATGGAAAGCGTCCAGACGGAACAGCCGCAGACCGAAACTGCTGAAGAAAATAATTTTGCCGTCACAAGCGATGGAAGTATTGTACGCGTGTATAATGATTCCGGTGACCAGGTCTATCAAACGACGTTGACCGACTGGGAGCAGAACCGCGAGCAGTATTATGAAAAGTATAAGCTTGGGTCATGA	MKMKVVKSVFPFVLLIGAMFFMTEYKQLETLSASEAYQIDVFQQEAEAAAEEQTESLTASAETSAGMESVQTEQPQTETAEENNFAVTSDGSIVRVYNDSGDQVYQTTLTDWEQNREQYYEKYKLGS				NA	NA	NA	NA	NA
AK012_02080	1644	capD		Capsule biosynthesis protein CapD proenzyme	ATGGAGAATAAAGGGTTATTTATTACCCTCTTTATCATTGTGGTTGTAGGAGTAGGTATCGTTTACTACAGCCAGGGGAAATTCGAGAGTGATGAAGTGGATTACGAAGTGGAGACAACGGACCCGATTGAAACGACAAATGGCTACGGGGTCAGTTCGACCCACCCGCTTGCGGTTCAGGTCGGTATGGAAGTTATGGAGAATGGAGGAAATGCAGTCGATGCAGCTGTTGCGGTTACCTATACCCTTGGTGTGGTGGAACCGTATGGCTCAGGGATCGGGGGCGGCGGAGAGATGCTCGTTCTTCCAAGTGGCGAGGAAACTCCGAAAAGTTATAACTATAAAGAAATCGCACCGCCTTCCGGTGGCGATCCGCAGTACAATTTTGCCATTCCAGGTACGGTTAAAGGTATGGAAGCCATCCATGAAGACTACGGAACGACAGACATAGCGGAGTTGATTGACCCTGCTGTCCAATATGCCGAAGAGGGTTTTAAAACAGATAAGCATTTGACCGACCGTCTCCAGGGAGCGGCCTACCGTATGAACATGAGCCAGCTTCAGAACTTTTACCCTGAGGGACAGCCTGTCGGGCCGAACCAGACCCTCAAACAGCCGGAACTTGCAGAAACGCTTCGTAAAATCCAGGAGCAGGGATCTTCCGTGCTTTATTCCGGCGAAATTGCGGAGCAGATTGCCGCAGAAGTCAATGGCGTGGAAGTCAGTGATTTCGGCGAATATGAAGTCGTAGAGAATGAACCGGTCCAGGGAGAGTTTGCCGGGTTTGATGTGTTTGCTTCTCCGCCTCCCCTTGCCGGGCCGACGACCATTCAGTCGCTGCAGATGGCTGAAATGCTCGATATAGAAAGCTCACAGGGAACCTCTTCGGATTTTATCCATTTAATCGGAGAGATTTCCAAGCGTACGTATGACGATCGGTTAAGTGAAATTGCCGATCCGGAATTTCATAACATTGAAACGGATAAAATCATGACCAAGGAATATTCCGAGGACATGGCCTCCACGATTTCCATGGATAAGCTATCGGAAAACTATGAAGTGGATGATTCCATTGCCGATATCGAAGATGATGATAACACGACCCACTTCGTCATTGTGGATAAAGACGGGATGGTTGTGACAGCTACTCACTCCTTGAGTAACTTCTTCGGATCTGGTAAAAATGTTGCCGGAATCTTCCTGAATGATACGATGCGGAACTTCAGTATGAACGGGTTGAAACCGAATGATAAAGAGCCTGGAAAACGCCCGCGCAGTTTTACGTCGCCGATGATTTTAACCAATGATGAGAAAAAAATCGGCATCGGTACGCCTGGAGGAAAACGGATTCCGCAGGTGCTGACACAGGTGCTGACCAGGAATATCTTATTCAATGAGCCGATAGAAGAGGCCATTGCATCTCCACGTTTTTACATCGAGGATGACAACATCTTTGTAGAAGAAGATTTCGACCCTGCGGTAAGGCAGGAACTGGAAGAAAGAGGATATACCGTATACCTTGAAGACTCTGCTTTCTATTACGGCGGAGTGCAGGCGCTTGTGGTTGATGAAGTCAACAACACCATGTATGGCGGTAAGGATGACCGTCGTGATGGAGCCTGGCAGGTGAAAGACAGCGAATAA	MENKGLFITLFIIVVVGVGIVYYSQGKFESDEVDYEVETTDPIETTNGYGVSSTHPLAVQVGMEVMENGGNAVDAAVAVTYTLGVVEPYGSGIGGGGEMLVLPSGEETPKSYNYKEIAPPSGGDPQYNFAIPGTVKGMEAIHEDYGTTDIAELIDPAVQYAEEGFKTDKHLTDRLQGAAYRMNMSQLQNFYPEGQPVGPNQTLKQPELAETLRKIQEQGSSVLYSGEIAEQIAAEVNGVEVSDFGEYEVVENEPVQGEFAGFDVFASPPPLAGPTTIQSLQMAEMLDIESSQGTSSDFIHLIGEISKRTYDDRLSEIADPEFHNIETDKIMTKEYSEDMASTISMDKLSENYEVDDSIADIEDDDNTTHFVIVDKDGMVVTATHSLSNFFGSGKNVAGIFLNDTMRNFSMNGLKPNDKEPGKRPRSFTSPMILTNDEKKIGIGTPGGKRIPQVLTQVLTRNILFNEPIEEAIASPRFYIEDDNIFVEEDFDPAVRQELEERGYTVYLEDSAFYYGGVQALVVDEVNNTMYGGKDDRRDGAWQVKDSE	PGPT0002935_4387	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_TAURINE_UTILIZATION,PGPT0002935-ggt-K00681	NA	NA
AK012_02081	1608			hypothetical protein	ATGGTGAGAGGATTTTATTATGGTGTGCTGATGTTGATGGTTTGTACGGTTTTATTAGTTGAAAAGCCTGTCTATGCCGCTGTGTCGTCCATTGTAGAAGAAGCTGAAAAGCATGTGGGTGTTCCTTATCAATACGGAGGTGAATCTCCTTCCGAAGGGTTTGACAGCTCAGGGTTCAGTCAGTATGTCTATCAGGAAGCCATTCAAATGGATCTACCGAGGACGGTCAGTGATCAGGCTGCGTCCGGAACATCTGTCCAGAAGAGTGAGCTTAAACCCGGAGACCTGCTGTTCTTCAGTAAGGATGAAGCCAGCGGGGTGACGCACGTGGGTCTGTATGCAGGAGATCAGACGATGATCCATGCCTCTGCATCAAAAGGAATTGAGAAGATCAATTACGAAAACAGCAGCTATTGGTCTTCCCGGTATACAAAGGCGGTCCGGGTGAATGCGGAACCGGACGGATCTTCGGTTTCAGCTTCCCATCCTGTTACAGTGGAAGCCTTAACGCATGTAGGGGCGCCCTATGTCTATGGAGGAGAGAAGCCGGATGGTTTCGACAGTTCGGGATTTGTACAGTATGTCATTCAGCAAGCGCTGGATTTTGAAATGCCGCGGACGTTATCCCAGCAGATCGGTATGGGAGAATCTGTGGACAGGGAAGCCCTTCAGGAAGGGGATATCCTTTTCTTCAGTAAGGATGGAAGTACCCCTTCCCACGCGGCGGTTTACGCCGGCCGTGATCAAATCGTCCATCCTACCTTGTCGAGTGGTGTGAAGATTACGGCTTTTGAAGGGAGCAGCTATTGGAGCGGGAACTTCATAGAAGCCCGCAGAATTACAGAGGCTCCGAAAATTGCTGAGGACCATGACATTGTAGCAGAAGCATTGAAATACTTAGGCGTTCCTTATGTCTTTGGTGGAGAGTCGCCGGAAACAGGCTTCGACTGCTCCGCTTTCACGCGCCACGTCTTTGAAAAAGCACGGCAGATCTTCCTGCCTCGCTCCACCGATCAGCAGTGGCAGGTCGGTGAAGACGTAGCCCTCGCTGATATTCAGCCGGGGGACGTCGTCTTTTTCAGTGATACGTACAGAGAAGGGATTTCTCATAATGGGATTTACGTCGGGGACGGGCAGTTCATTCATGCGTCCCGTTCGGAGCAGGTGACGATTTCCTATTTGTCTGAATCCTACTGGCAGGACAAGTTCACCGGTGTAAAACGGTTTAACGGTCTGCAGATACCGAAGGAGCATCCGGTCGTCTCAGCAGCGACCCAGTTCATTGGAGAGGTGCCCTACCAATCCGGAGGCACGACACCGGAAGGATTTGATACGGCAGGCTTCGTTCAATACGCCTTCAAGCAGGGAGCGGGAATTTCTCTTCCACGCTATGCTGGTGATCAGTGGAATGAAGGAACGGAAGTATCGAAAGAAGACTTACAGCCTGGAGATATCGTCTTCTTCCAGGGCAGCTACTTGAATCCTTCGATTTATATCGGGAACGGCCAGGTGGTCCATGTGACGTTATCGGATGGTGTGAGAGTCACGAATATGCATACCAACAGCTACTGGGCTCCTAAATATTACGGCGCTAAAAGGATCAACTGA	MVRGFYYGVLMLMVCTVLLVEKPVYAAVSSIVEEAEKHVGVPYQYGGESPSEGFDSSGFSQYVYQEAIQMDLPRTVSDQAASGTSVQKSELKPGDLLFFSKDEASGVTHVGLYAGDQTMIHASASKGIEKINYENSSYWSSRYTKAVRVNAEPDGSSVSASHPVTVEALTHVGAPYVYGGEKPDGFDSSGFVQYVIQQALDFEMPRTLSQQIGMGESVDREALQEGDILFFSKDGSTPSHAAVYAGRDQIVHPTLSSGVKITAFEGSSYWSGNFIEARRITEAPKIAEDHDIVAEALKYLGVPYVFGGESPETGFDCSAFTRHVFEKARQIFLPRSTDQQWQVGEDVALADIQPGDVVFFSDTYREGISHNGIYVGDGQFIHASRSEQVTISYLSESYWQDKFTGVKRFNGLQIPKEHPVVSAATQFIGEVPYQSGGTTPEGFDTAGFVQYAFKQGAGISLPRYAGDQWNEGTEVSKEDLQPGDIVFFQGSYLNPSIYIGNGQVVHVTLSDGVRVTNMHTNSYWAPKYYGAKRIN				NA	NA	NA	NA	NA
AK012_02082	318			hypothetical protein	ATGGTTGTAACCTTAGGGGCATGTCTTGAAGCCATGCATTTGATAGAGTTCGCCCTGTTATATGGGTTGATCATCACAGCTTTGTGCGTTCATGGGAAATTGACCCAAGGGACAAGTGCCGCTGCCGGTATATTCAGCATGATGTACGGGGTCGTGGATGAGTGCCACCAATGGTTCACTCCCGGCCGTTCCTTTTCCTGGATCGACATCGCTAAAGACTGGACCGGCGTCCTTATCTTGATGGCCGTGGTCCACGGGAAGCTGCGGAAGTCCACGTTCCATAAAAAAAGACCGCGCAGGGAAGCGCGGTCTTCCTAA	MVVTLGACLEAMHLIEFALLYGLIITALCVHGKLTQGTSAAAGIFSMMYGVVDECHQWFTPGRSFSWIDIAKDWTGVLILMAVVHGKLRKSTFHKKRPRREARSS	PGPT0026178_3	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RUGOSE_PHENOTYPE	CE-BACTERIAL_FITNESS-RUGOSE-EXOPOLYSACCHARIDES,PGPT0026178-vpsQ-K20950	NA	NA
AK012_02083	942	tagU_2	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	ATGAGCCGCTTACAAGAAAAAAAGAAAAAGAGAGGCCGTTGGTGGAAGATTCCCCTGCTGTTTGTGAGTATCCTCATCGCAGCCGGAGGGATTTATCTGTTTACGGTCTATAATGGTGCCAAAGCGACGGTCGACAAAAAAATGAACGAGGAAGTCGCTTCCATTGATCATGAACTGACGGAAAAGAAAGTCCAGGATAAAGAACCTTTGAATATTCTCCTGCTTGGAGTGGATGAGCGGTCCAATGACTCCGGCCGGTCCGACGCTTTAATGGTGCTCTCTCTTGATCCGGATAACAACCGGAGTCAGATCGTCAGTATTCCAAGAGATACCCGGACAGAGATGGTCGGGGAGTCCAGTCATAATGGCGAACAGGATAAAATCAACCATGCCTACGCTTTTGGCGGGACGGATATGGCGATTCAGACCGTAGAGAATTTCCTCGACATCGATCTGGATTATTATGTACGGATGAACATGGAAGGCCTTGCTGAAATGGTGGATGCTGTCGGCGGCATTACCGTCCAGAACTCCCTTGACTGGCAGGGAAGCAACGGCTACCACTATAAAAAAGGAGAACTGAACCTGAATGGCAAAGAGACTCTCGGGTACGTCCGCATGAGATATGAGGATCCTCAAGGGGATGCTGGACGTAACGAACGTCAGCGCGAAGTCATCCAAGGTGTGATTGAAAAAGGAGCAAGCTTCGGATCCGTGAATAAAATCGGGGACATGCTTGATGTGCTTGGTGGGAATGTCACGACCAATATGGACTTTACGGTTATGAAGGACCTGATGTTGAATTACGGCAGTGCCCGCAAAAACATGACGACCTATCAGATGACCGGAAGCGGGACGAGAATTGACGGCATCTATTATCTGCTGGTTTCCGATGATGAAGTCAATAAAGTCCGTTCACAAATTCAAGAATATCAATCCTGA	MSRLQEKKKKRGRWWKIPLLFVSILIAAGGIYLFTVYNGAKATVDKKMNEEVASIDHELTEKKVQDKEPLNILLLGVDERSNDSGRSDALMVLSLDPDNNRSQIVSIPRDTRTEMVGESSHNGEQDKINHAYAFGGTDMAIQTVENFLDIDLDYYVRMNMEGLAEMVDAVGGITVQNSLDWQGSNGYHYKKGELNLNGKETLGYVRMRYEDPQGDAGRNERQREVIQGVIEKGASFGSVNKIGDMLDVLGGNVTTNMDFTVMKDLMLNYGSARKNMTTYQMTGSGTRIDGIYYLLVSDDEVNKVRSQIQEYQS	PGPT0023440_3084	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
AK012_02084	1017			hypothetical protein	TTGGATATCGAAAGTTTTACGGAACTTTGTAAAAATCAGGATACGGAGATTGACGCACGAATACCACCTGACAGTACCTATACGATTTTCGACTCTACGGACGGCGGAACCTATTCAGGGCTTATTACCCTGCGCAGTTCCATTGATTTATTGACTCCTGCCTCTGTCGAATTTTCTTCTGGCTGCAGCGGGAACTGGAAACAAAGTGTAAGTCTGAGTCCCGGCCAGGCAGTCACTATACCTTTTGAAAAAACACAAACCATAAATCTAATAAACAATGATTTGGATACTAGAGCGGATATTGAATATACGATCTGCACCATTTTATCTTCGAATTGTGTGAATGATGAAAGAATAACAGAATCATGTACGTTCATAGACCCTGATATTGGTGTAGATTTAGCTCCAGGAGCCGAATACACAATCTTCACTTCAACCACAAACAAAGAATATACGGGTATGATAACCTTGGACGAAGTAGGAAGTATTACGACACCGGATTTATCTTTGACTTTAAGCTTTATGAGTCATACAGGAGAAACAAAAACGTTTGTCGTGTTGAACGAACAGGGCATTACGATACCATTTACAAATATTAAGGAAATCAGAGTGCGGAATAACAGCAGCGTCTCAGAGTATGATTTTGATTATGCGATCTGTGTGTTTCTACCAGATCCGGGAACAAAAAAGGAAAGGCTCTGCAGTCAGGATTGCCCGGATATCATCTCCTTCATTCCTGCAGCCACAACGTATTCCATTTTCAGAGGAAAGAAATGTGAATCCTATACAGGCATGCTCTCTGTTGAATCTGTGGATGAACCGATGACGATTCGATTCATTCCTTCCACTCCATTAAAAGACCGCCTCATCTTTGCTTTAGATGCAGGGAATTCCATTACCATCCCCTTCGAAAATGTGAAAGAAATACAGGTGACGAATGATAGCGCTCTAGATGAAATATCCCTTCAAACACAATTCTGTGTATTCTTAGAAGAGCCCCGTTTAAAAAAGAGCTAA	MDIESFTELCKNQDTEIDARIPPDSTYTIFDSTDGGTYSGLITLRSSIDLLTPASVEFSSGCSGNWKQSVSLSPGQAVTIPFEKTQTINLINNDLDTRADIEYTICTILSSNCVNDERITESCTFIDPDIGVDLAPGAEYTIFTSTTNKEYTGMITLDEVGSITTPDLSLTLSFMSHTGETKTFVVLNEQGITIPFTNIKEIRVRNNSSVSEYDFDYAICVFLPDPGTKKERLCSQDCPDIISFIPAATTYSIFRGKKCESYTGMLSVESVDEPMTIRFIPSTPLKDRLIFALDAGNSITIPFENVKEIQVTNDSALDEISLQTQFCVFLEEPRLKKS				NA	NA	NA	NA	NA
AK012_02085	435			hypothetical protein	ATGGGGAACAAATTTCATGCCAAATGCACTCAAAAAATTCCTATGGACAAGAAGAAAAAGGAGAAGAAAATCGAAAAGGTGGAAAAAAGAGAATTATGCAGCCAATTCGATCCTTCAATCAATATAACTGTTCCAGCCTCTACAGAATATACCATTTTCAATCCTATTACATTCCAGGGATACAACGGAATGATTTCCATTGAAAACCCTGATTTTGGGGATAACCTTGATACGATTACGGTCACTTTTATTCCGCAGTCTTATGGAGATTATCTGCCTGTAACGCTGCAGCCCGGACAATCTCAAACCATTCCCTTTGAGAACATCAGGGAAATTAGAGTGAGAAATAACAGCACCGAAAATTCCGTAAATGTAGATTATGAGATTTGTGTGTTCTTATCAGGTATCGGAAAAGAAAGGAAACATTACAGATAA	MGNKFHAKCTQKIPMDKKKKEKKIEKVEKRELCSQFDPSINITVPASTEYTIFNPITFQGYNGMISIENPDFGDNLDTITVTFIPQSYGDYLPVTLQPGQSQTIPFENIREIRVRNNSTENSVNVDYEICVFLSGIGKERKHYR				NA	NA	NA	NA	NA
AK012_02086	1728	bmrA	COG1132	Multidrug resistance ABC transporter ATP-binding/permease protein BmrA	ATGCAGCCAAAATGGAAACAACTCATCACCCTCATCCGCACCACCCAGCCACCCAGGCTGTTATTCAGCATCGGAATAGGGCTCAGTCTGCTGACTACGTTGGCCAGCCTTGCCATCCCCCTGCTTGCCAGCCGGCTGATCGACAACTTTGATGTCAATCAGCTGAGTACAGCCGTCATCATCGGCATCATTGCCGCCTTCTTTATCCAGGCTGTGGCCGGCGGCGTCTCCGTTTATGTACTGGCTAAAGTAGGGCAGCACATCATTGCTTCGCTTCGGGAGCGGTTGTGGAAAAAACTGCTGGTGCTCCCCGTCAGTTATTATGATGAACATGAAACCGGGGATGCGGTCAGCCGGATGACCAACGATACGGGTGTCATCAAAAATTTGATTACCGAGCATTTCACCGGCTTTATTACAGGTGTGATTTCCGTCGTTGGCGCTGTCATTATTTTGTTTTACCTCGACTGGCCTCTGACCCTTGTCATGTTTTCCATCATTCCCTTATCCCTGCTGTTTCTGATCCCTGTCGGACGGAAAATGGCCGAAATATCACGGAACCTGCAGGCAGAGACCGCCGGGTTTTCCGCCCACCTCACGCGGGTGATTTCTGAAATCAGGCTTGTGAAAGCATCAAACGCAGAGACGATGGAATGGGACAATGGACGGAGGGATATCCGGAAGCTGTATCGTCTCGGCGTACGTGAAGGGGTCATTCAGGCTTTGATGTCTCCTCTCGTGTCTTCCTTGATCATCGTCGTTCTCGTGTTAATCATCGGATTCGGAGGCATCCGGGTGAGTTCCGGAGCCATGACAGCCGGCGAACTGGCGGCCTTTTTCATCTACCTGTTCCAGATCATCATGCCGATTACCCAGATGGTCGTATTTGTGACCCAGTTCCAGAAAACGATCGGGGCGACAGAAAAAGTACTGACCATTCTTCATATGGATGAGGAGGAGCTTGAGGCAGGGAAAGCAGCCGTTCCTGACCATCAGGCTTTGTCGATCCAACATGTTTCCTTTCACTATCAGCCGGATGAACCGATTTTGAAGGACGTGTCCTTCACTGCTGAAAAAGGGCAGGTCACAGCGGTCGTCGGCCCAAGTGGAAGCGGGAAAACGACGATGTTCTCGTTAATCGAGCAATTCTACAAGCCTGTGTCCGGTCAGATCTCATATGGAAACGAACCGATCAGCCGGTATGCTTTGAAATCGTGGCGGAAAAAACTCGGCTATGTCTCCCAGGACAGCCCGATCTACGCAGGCACCATCATGGAGAACCTTACTTACGGCCTTGACGGCGAAGTGCCGAGAGACAGAGTTATTCAGGCCGCTGAAATGGCGTATGCCCACCCGTTTATCAATGAACTGGTTCATGGATATGAAACGGAAGTCGGAGAACGGGGAATTAAATTATCCGGAGGGCAGCGGCAGCGGATTGCTATCGCCCGCGCCCTGCTCAGGGATCCGGAGATTCTGATGCTTGATGAAGCCACCTCCAGCCTGGATAGTCAGTCAGAAGTCGTGGTGCAGCACGCATTGAAGAATTTGATGAAGGGCCGGACAACGCTTGTCATTGCACACCGGTTATCGACTATTGTGGATGCCGACCGGATTGTCTTTCTGGAAAAAGGCGAAGTCACAGGTGTCGGCAGTCATGAGGAGCTCTTCGCCACACACGCTCTTTATCAGGATTTCGCCCGCCAGCAGCTGCGTATCGAGGGATAA	MQPKWKQLITLIRTTQPPRLLFSIGIGLSLLTTLASLAIPLLASRLIDNFDVNQLSTAVIIGIIAAFFIQAVAGGVSVYVLAKVGQHIIASLRERLWKKLLVLPVSYYDEHETGDAVSRMTNDTGVIKNLITEHFTGFITGVISVVGAVIILFYLDWPLTLVMFSIIPLSLLFLIPVGRKMAEISRNLQAETAGFSAHLTRVISEIRLVKASNAETMEWDNGRRDIRKLYRLGVREGVIQALMSPLVSSLIIVVLVLIIGFGGIRVSSGAMTAGELAAFFIYLFQIIMPITQMVVFVTQFQKTIGATEKVLTILHMDEEELEAGKAAVPDHQALSIQHVSFHYQPDEPILKDVSFTAEKGQVTAVVGPSGSGKTTMFSLIEQFYKPVSGQISYGNEPISRYALKSWRKKLGYVSQDSPIYAGTIMENLTYGLDGEVPRDRVIQAAEMAYAHPFINELVHGYETEVGERGIKLSGGQRQRIAIARALLRDPEILMLDEATSSLDSQSEVVVQHALKNLMKGRTTLVIAHRLSTIVDADRIVFLEKGEVTGVGSHEELFATHALYQDFARQQLRIEG	PGPT0028965_168	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_AbcA,PGPT0028965-abcA|bmrA-K18104	NA	NA
AK012_02087	954			hypothetical protein	TTGAATAAGAAAACGGTTCTTATGGTTGTTGGTCTTTCATTTATTACGACGGTTGTCGTTTATTTGGCGATGATGTACATATTCTCCGGCTCTGCGGATCATGAAAGAGAAGGGTTCGTAAATGCAGCAGATTTTGGAGCTGTCGCAGGGGATGAAAACGATGATGCTGCGGCGATTCAAAAAGCTGTCGATTACAGTGCTGAGCATAACATCGGTACTGTGAAAGTGACAGGTGCAGAGCGTTACAGGGTAGCGGATGAGGTGGTTGTGAAGCAGGGAGTCGAGATAGAGTTTGGTCGGAATACCGTCGTTGAAGTCGTTGGGGATTTTACAGTTTTTACGTTGGAGAAGAATGCTTCGATGATCAATGGAGTCATAGAAATTTCGGATCCTTCCTTCCGTTCCAACGTCATTAGGCTGGATGGAGAAGAGCAGTTCTGGTCATGGGAGACTACGCAGGTGCAAGGGATGACTCTTATCAATACAAGCGGTGAAAATCTTGGGACAGGAATTCAAATCACCGCGGATCAAACGAATGAGTATGTGAGTTTTGTGGATTTTGATTCAATCACCATTGTAGGATTCAACCGGGGCATTCACTTAACAGCGGCACCTTCTGATGGAGAACCAAACTTTGTAAACGGAAACCGGTTTACGGATATGACACTGGAAGATTGTGTGGAATGTATCGTGATGGAAGGAGCTGTAACCGTTCCTAATGAGGTATCCGGCAACCAGTTCACTAATATGCAGATCCAGCCGACTGAGAAAACGGAGTCGGTGATGATCGTGTCGGGAACGAACAACTATTTTCAAGGCATGATCTGGGATGTTCAACTGCTTTCCAGCAATCAGCCGTTAACCCTGACCGATCAATCGAGCGGGAATACAATCAGGACGAATTTAGATGCCACTTATATCCTGGATGATGGCACGGAAAACATCTATGAATAA	MNKKTVLMVVGLSFITTVVVYLAMMYIFSGSADHEREGFVNAADFGAVAGDENDDAAAIQKAVDYSAEHNIGTVKVTGAERYRVADEVVVKQGVEIEFGRNTVVEVVGDFTVFTLEKNASMINGVIEISDPSFRSNVIRLDGEEQFWSWETTQVQGMTLINTSGENLGTGIQITADQTNEYVSFVDFDSITIVGFNRGIHLTAAPSDGEPNFVNGNRFTDMTLEDCVECIVMEGAVTVPNEVSGNQFTNMQIQPTEKTESVMIVSGTNNYFQGMIWDVQLLSSNQPLTLTDQSSGNTIRTNLDATYILDDGTENIYE				NA	NA	NA	NA	NA
AK012_02088	756	ywqC_2	COG3944	putative capsular polysaccharide biosynthesis protein YwqC	ATGGAAGAAAACATGGATATTAAACGTTTCCTTGCTGTTCTTAAGCGCCGGATCGTGACGGTTATTCTGGTGAGCAGCTGCTTGTTTCTTTTAGCCTGTGCGGTTACATTTTTCGTTATGAAGCCCACGTACGAATCGGTGGAAAACCTTGTTGTAGGGAAACTGAATAAGGAAGACTCGGAATACGGAGAATCCAAGGATTTGAGCATGCTTCTTGCTTCGACGATCGACATCGTCCAAAGTCCGAATGTTCTGAATACAGTCAGCCGGGAATTCAATATTCCGTATGATGAATTGAAGGAACAGATTGTTGTGAAGAATTCCCAGGACTCTCAGGTTGTCAGTATTCTGGTGAGAGGCGAGGATCCGGAGGAGGTTAGTAAAATAGCTAACTATACGGCCTTGACCACCGTACAGAAAATGAATGATCTGTTTGAAGTGAAAGATATCCTCGTTCTCAATGAATCTTCCGGTGAAAACCGCGGGGAAGAGGTCGGCAGCCAGCTCGTTAATTTAGCGATCGGACTTGTCGTTGGTTTGTTAGCGGGTATTGGAGGAGCGGTCGTGAAAGAACATCTGGATGGCTCGGTCCAATCGGCTGCTCAAATAGAGAAGGAGATAGGAGTCAGGAGTCTCGGCGAGGTGAATCTCAGGAAAAAGCTGCGGGGAAGAAAAATTCATAAGAAACATAGAGGGAAAGAGACGCTGAGAGTCGTGGACGAAGAGAAAGAGAAAAGAGGTGAAATGAGTGTTTAA	MEENMDIKRFLAVLKRRIVTVILVSSCLFLLACAVTFFVMKPTYESVENLVVGKLNKEDSEYGESKDLSMLLASTIDIVQSPNVLNTVSREFNIPYDELKEQIVVKNSQDSQVVSILVRGEDPEEVSKIANYTALTTVQKMNDLFEVKDILVLNESSGENRGEEVGSQLVNLAIGLVVGLLAGIGGAVVKEHLDGSVQSAAQIEKEIGVRSLGEVNLRKKLRGRKIHKKHRGKETLRVVDEEKEKRGEMSV				NA	NA	NA	NA	NA
AK012_02089	648	yveL	COG0489	Putative tyrosine-protein kinase YveL	GTGTTTAAAGCAGGTGATAAAAACGCGAAGAACCTCTCAAAGGCTGTGTTGGATGAGCGCTATGTCAGTACCGAACAAATTCGGATGATTCAGCTGCGTGTTCAACACTTCATGGGGAAAGACACCGTCAACATCATGGTGACTTCAGCTGATAATAAAGTGAAAAAATCGCTGCTTGCCGTCAAATTGTCCATGGCGATGGCTGAGCAGGGGAAAAAGGTTCTCCTTGTCGATATGGATACGGGAAAACCGAGTATTCACCGCTGGTTTGGGGAAAGCAACCGCTCCGGATGGGCCGAGGCGGTCTACGGTGGTAAAAAAGCAGGCGGGTTGATACAGGATACTTTCCAGCCCGGCCTTTACACTCTGATGGCAGGGAACGGCAGATATGGTCTGCAGGATGTGCTGCTCCTTGAAGAGGTGAAAAGGACAGCAGCTGAATGCCGGAAGCATTTCGATTTAGTGATTTACCACGCACCGTCGTACAGGTCCTCAGCGGCTGCCCAGCTGGTCGTTCACGAGTGTGATGGTGTGATTGTTACGGCGAAAACCGGAAAAACGAAAACAGCTGACCTTCTGTTAACGAGGAAAGAAATAGAGAAGGCAGGGAATCAGGTATTTGGTGTGGTTTTACAGACGGGCGGATAG	MFKAGDKNAKNLSKAVLDERYVSTEQIRMIQLRVQHFMGKDTVNIMVTSADNKVKKSLLAVKLSMAMAEQGKKVLLVDMDTGKPSIHRWFGESNRSGWAEAVYGGKKAGGLIQDTFQPGLYTLMAGNGRYGLQDVLLLEEVKRTAAECRKHFDLVIYHAPSYRSSAAAQLVVHECDGVIVTAKTGKTKTADLLLTRKEIEKAGNQVFGVVLQTGG				NA	NA	NA	NA	NA
AK012_02090	1461			hypothetical protein	GTGAACAAAAAGAAAAATTCCATTATGGCCAACATTGCACACCTCTTTTACAGTACCATTCTATCGAGCCTGCTGAATGCCGGCGCCCTTGTCGTCCTTGCTTCCTATCTTCAATCCTATCACTATGGATTGTTTAGTGTGACTCTTGCTTTCGCCATGATCATGGGATACTTCACAGATGCAGGCTTAAGCGGTGTTGTCCTTCGTGAAGGAGCAAAAGAAGAAGTGGATCAGAATGTTCTGGTGACCTCTTTTATCAAGCTGCGGATCCTTCTGTTGTTCCTTACGTTTGTCCTTGGTCTTACGTTGATCTATCTCATGAACAGGGATCATACAGAGCTTCTGGTGACCGCGGTCGTTTTGATTCTCCCCATGGTGAGCGGTTTAGCTATGCAGAGCATCGGAACGACGTTTTTTCAAATGAGAGAGAAAATGCATATGAGTGGTGTGATCCGGATGACTTCTGCCTTTTGTCTGGTGACCTCCATGACTGTGGGTATCTTTTTGGAACTGCCGCCTCTCTGGATGACGGCGCTTTACGGCGCCTCTTATTTATCGGCTGGACTGCTGAGCGTCCTTCTCGTTATCAAGCATGTAACGATTCGTTTTACACTGCCTTTCCACAAAGGATTGATGAAGAACTTAGGGGCCTTTACCCTGGGAGGATTGTTGTTCGTCATGCTTCCCCATCTGGGGCCGATCCTTTTGGAAAAGACGATTCCGCTCGCTGCCGTCGGTTTGTTTGCTGTCGCCTACCGGATTCCACAGGCTCTGCAGCAGGTCCCGTTCATTGTAGCGGGGGCTTATTATCCGGTGTTATTCAAAGCGTATCAAAGGAATAACAGGAGGGAACACCTGCATCTGCATGTCACTCAGATTAAGATTATGAGTCTTGCCGGGATGATGATGACCATTCCCTTTTTTTATCTATCCCCGTTTATCATCGAGCTTCTTTTTGGTAAGGAATGGGCCGGAGCCGCCACTCCGCTGAAGATCATGTCATTGATGCTCACGGTACAGGCGGTGAATATAGCGGTTGCCGATGGATTAACAACGATGGAAAAGCAGACATCGAGGACGGTTGTACAATTGACGGCCGTTATTATCGGGGCCGGGTTGTATACGGGATTAAGCCTGTCCTTTGGTGTGACAGGAGCCGCATGGGCCGGGGTGAGTATCGAAGTGGCGGCTTTAATGGGATTCTGGATTTGTTCACCGGTTCGCATGGTCTTATTGAAAAAGTCTATCTTTCCGTATCTTTCCTACTTCATCGTCACGCTGGTTGTTTTGGAACAGCTGGCTTTCCCATCATTTTTCAACGCAGCCATCCATCTTCTTCTGGTCATGGCACTGCCTGTGATGGATGCTGACCTTCGCTCCAAGCTGATCAAGGTGGGCGGAATGGTATGGAATCGATATACAAAAAGAAGGATGAAAGAGGAAGTGAATCATGGATCATAA	MNKKKNSIMANIAHLFYSTILSSLLNAGALVVLASYLQSYHYGLFSVTLAFAMIMGYFTDAGLSGVVLREGAKEEVDQNVLVTSFIKLRILLLFLTFVLGLTLIYLMNRDHTELLVTAVVLILPMVSGLAMQSIGTTFFQMREKMHMSGVIRMTSAFCLVTSMTVGIFLELPPLWMTALYGASYLSAGLLSVLLVIKHVTIRFTLPFHKGLMKNLGAFTLGGLLFVMLPHLGPILLEKTIPLAAVGLFAVAYRIPQALQQVPFIVAGAYYPVLFKAYQRNNRREHLHLHVTQIKIMSLAGMMMTIPFFYLSPFIIELLFGKEWAGAATPLKIMSLMLTVQAVNIAVADGLTTMEKQTSRTVVQLTAVIIGAGLYTGLSLSFGVTGAAWAGVSIEVAALMGFWICSPVRMVLLKKSIFPYLSYFIVTLVVLEQLAFPSFFNAAIHLLLVMALPVMDADLRSKLIKVGGMVWNRYTKRRMKEEVNHGS				NA	NA	NA	NA	NA
AK012_02091	1245			hypothetical protein	ATGGATCATAATCTGACGCAGCCTGCCAGGGGACATGTGAAAACCGTATTCTTCCTCATTCTCTTTGTCACGTTTGCAAACTTTTATTTGTATATAGGATTCGCCTTGAAACCTTACATGCTCTTCTGTTTTTTATATCTGGTTTTTTCCTTGAAATTCTTCCGTTTGTACCCGGTGCAGCTTTTTGAAAGTGCTCTTTTCTGTTTTTATCTGTGCTATGCCTTTTCCGGAGTATTTGCTTTATATCCGATGTCCAGTGTAAGAATATCTGTCGGCATATTGATCTATCTTGTATGCTATTTCATTATGAAATCCATTCTGGGGCGGGCGCAGACAGGGGCGGTCCATAAAGGATTGGCTTGGACAGGTGTCATCTTCAACCTATGCAGCCTTCTCTTCTATGTGGCCGGCATGCAGAAAGCCGGGTTCAATTTTGACAGGGAAGGAGAGAGGGTTACCGCCTATGGCTTAATGATTGATCGGGATTATCCTCGTTTGATCGGTCTGCTGCAGGATCCCAATTTCTTCGTCTTTTATAATACGCTCTTTTTTGCTTTCTATTTGTGTAATCCGAGAGGGCTGCTCAATAAAACGGGTTTAATGCTGTGCATTACGGCGAATCTCCTCACGTTCTCGCGCGGGGGCCTGCTGGTCATGCTTGTCCTGTTCCTGATTTACGGGATCATCCATCATCCGCTGAAGCAGTTGAAGATGGTCCTTGGTGCGGGATTATCCATGGCATTTCTCTCCTACGTGCTCGTCATTTACTTCAAATTCGATTTGTATGGAATCCTGGAATCCCGCATGGAAGATTTCGGCGAAGATGGTGGAAGCGGACGTTTTGAATTATGGGGAAAAGCGTGGGGGTATTTTGAGGATCATATCGTGACAGGGATCGGCGCCTTTAACTTTCCGGACTACAATGCGTACGAGTACGGGGAAGCCCTATCTGTCCATAATACATTTCTGGATATATTATCAGAGTCCGGGCTGGCGGGGATGTTCCTGTATCTTCTGTTTATTCTTCTACTATTCTATCAGCTGGTTCAGAAAAAAGTGTACAAAGAACGCCCCTATCTATTCCTGACGTTCATCGGACTGCTGCTTCAAATGGCTTTTTTATCTGTAATTATTAATGACATGTTCTTCTTATACCTGGCTTTGGTTTCCACTTATCTGCACAAAAGGACAAATGCAGCTGTAAATGAGAGAGTCGGGAGCCCTGTAGATCAAAGAGCTTCCTAA	MDHNLTQPARGHVKTVFFLILFVTFANFYLYIGFALKPYMLFCFLYLVFSLKFFRLYPVQLFESALFCFYLCYAFSGVFALYPMSSVRISVGILIYLVCYFIMKSILGRAQTGAVHKGLAWTGVIFNLCSLLFYVAGMQKAGFNFDREGERVTAYGLMIDRDYPRLIGLLQDPNFFVFYNTLFFAFYLCNPRGLLNKTGLMLCITANLLTFSRGGLLVMLVLFLIYGIIHHPLKQLKMVLGAGLSMAFLSYVLVIYFKFDLYGILESRMEDFGEDGGSGRFELWGKAWGYFEDHIVTGIGAFNFPDYNAYEYGEALSVHNTFLDILSESGLAGMFLYLLFILLLFYQLVQKKVYKERPYLFLTFIGLLLQMAFLSVIINDMFFLYLALVSTYLHKRTNAAVNERVGSPVDQRAS				NA	NA	NA	NA	NA
AK012_02092	1095	mshA_4		D-inositol-3-phosphate glycosyltransferase	ATGAACGTATTGTTGCTGACGGACAAGTTGATCGTCGGTGGAGCAGAAACATATTTCTGTAAGCTGGAAAATCATTTAGCCCACAGGAATCTTACCTTCTATTACGGAGCGGCGGAGGGAGAGCTTCAAAGCCGGCTCCTGCATCAAGACAAGTTTGTGAAGTTGACAAGGCACTCTCACAGGCGGAATTACAGGACACTTTCGCGCTTCATAAAGAAGCATGGGATCAAGGTCATCCACGCGAACAGTCTGCGCATGCTGGGATACGGAATCTTATTGAAGCATTTCTGTAAGTGGGATATCCAATTGGTCTATACGAAACACAATGTCACTATTCTCGAAAAAAAGATGCCCTTTCTTTTCAAGAAATTGTTAAACGCGTATGTGAAACGGATCATTACAGTAAGCCAGTTTGAAAGGGATTCGCTCGTCATGCTCGGGGTCAACCCGAAGCGGATTCAGACGATCCACAACGGAGTTGATCTTCAACAATTCCCTTTAAAAAAAGCCGGACAGGCATCTCCCATCCATGTAGGCATTCTTGCGCGTTTATCAGAGGAGAAGAATCACGAACTGTTCATTGAAATAGCAGAAAAAATGGAGGATGACAAACTGTTCCGCTTTTTCATCGGAGGCGACGGGCCCGAGAAGGACCATCTGCAGCAGTTGATCACCCATAAAAAGTTGGATGATCAGGTCGTCATGTGTGGGGAGATCAAGGATCCGGAAGCCTTCATTAAAGATATGGATGTCATGCTGGTCACTTCGAAAAGGGAAGTCTTTCCAATGGTTGTAATTGAGTCCATGGCTGTCGGAACCCCGGTGGTTTCCATCGATCGTGGAGGGATCAAAGAAGCTGTCAGGGATGGTGTGACAGGCCACCTGGTTCCCCGGCACTCGGCTGACTTATTCAAGGAAAAAATCACGCAGTTGTTTTCCAATCCCAGGCTGCAGAGTCATATCGTGAAAAACTCCAGAGAGCGGGTGGAACAGGATTTTTCCCTTGATCAAATGGTTAAAAAAACACTTCAGGAATATTTGTTCATTGCAGAAGAAACGAAAAAATTTTCCTCTGTCGTTCTTAATAAAGAATAA	MNVLLLTDKLIVGGAETYFCKLENHLAHRNLTFYYGAAEGELQSRLLHQDKFVKLTRHSHRRNYRTLSRFIKKHGIKVIHANSLRMLGYGILLKHFCKWDIQLVYTKHNVTILEKKMPFLFKKLLNAYVKRIITVSQFERDSLVMLGVNPKRIQTIHNGVDLQQFPLKKAGQASPIHVGILARLSEEKNHELFIEIAEKMEDDKLFRFFIGGDGPEKDHLQQLITHKKLDDQVVMCGEIKDPEAFIKDMDVMLVTSKREVFPMVVIESMAVGTPVVSIDRGGIKEAVRDGVTGHLVPRHSADLFKEKITQLFSNPRLQSHIVKNSRERVEQDFSLDQMVKKTLQEYLFIAEETKKFSSVVLNKE				NA	NA	NA	NA	NA
AK012_02093	1266			hypothetical protein	ATGGATTTCATGACTCCAAATGGATGGTTCATTACAGCGGTTTGTTTTAGTGCTGCCCTTGTGATTTTCGGACTTGTGTTGTATATCAAGTCAACGGTTTTCCCGGTATCACGCAGCTTGAGGATCCTTCCTCTGAAGCCAATAGGATGGATGGCGGGTGCTGTCGTTCTCTTCCTGTTGAATATAAGCGTATTAACAGAAGCTCCTTCTCTGTCGAACGTTCAACGCGTACTGCTTACGCTCGTTCTCCAGACAGGTGTGCTTCTCCTGATTCTCCCTGTTTTCGGGTCAGCAGGAAAAACGCGAAAACACACCCGCGTTCTCTTTATTGGTGAGGATCCCTTTTCGGCTGGACATTTCTTTCATGAAAATACGAGAGATGAATTGTTCGCCTTTGTCGAAGATGCCGATGAGCCATTCTTCAGCCGGCAGAAGGACGCCTTTGATCGAGTCGTGATCGATCATACGATTCCTTCGAATAAGAAAGTGGAGTTGACGAACCTTGCTTTGAAGTATGACAAAGATATTTTTATTATTCCTGAGCTTTATGATCTCGGTGTTCATCAGGCAAAGACGGGATATGCCGGTGATTTCATGGTTTTTACGATTAAACCCTTTCATATGACGACTCTCCAGAAGATCTTGAAAAGAGGGATGGACCTCTTGTTATCTGCATCCTTACTTCTAATAACAAGTCCTGTCCTTGCTGTGCTGACGATTCTCATCCCGCTCACTTCCAAAGGACCTGCTTTTTATAAACAGGAAAGGCTGGGGATGAATGAAAGACCGTTTTCCATTTATAAGTTCAGAAGTATGGTGGTGGATGCCGAGAAGCACAGTGGGCCGGTGCTTGCCCAGGATAAGGATCCGCGGATTACGCCGGTAGGGGCAGTCTTACGGGCCGCCCGGCTGGATGAGCTGCCTCAGCTTTTCAATGTACTCAAAGGAGATATGAGTCTCATTGGCCCAAGACCGGAACGTGATTACTTTGTCAAACAGTTCAAGAAAGAAAACGAGGAATACCGTTACCGGTTTAAAGTCAAACCGGGGATAACCGGGCTGGCCCAGGTGTACGGGAAGTACACCACTTCTCCTCTTAATAAGCTGCGCTTTGATCTGACTTATGTGAGGAAATACAGTATTCTGCTGGACATCAAGGTGTTGCTCCTGACAATCAAAGTCATTTTCCAGCGTGATCAAGCCCGGGGGGTGGAAGTCACAGACGCGAAAATGAAGCGCATTGAAAAAAAGCAGGCCATTCATTAA	MDFMTPNGWFITAVCFSAALVIFGLVLYIKSTVFPVSRSLRILPLKPIGWMAGAVVLFLLNISVLTEAPSLSNVQRVLLTLVLQTGVLLLILPVFGSAGKTRKHTRVLFIGEDPFSAGHFFHENTRDELFAFVEDADEPFFSRQKDAFDRVVIDHTIPSNKKVELTNLALKYDKDIFIIPELYDLGVHQAKTGYAGDFMVFTIKPFHMTTLQKILKRGMDLLLSASLLLITSPVLAVLTILIPLTSKGPAFYKQERLGMNERPFSIYKFRSMVVDAEKHSGPVLAQDKDPRITPVGAVLRAARLDELPQLFNVLKGDMSLIGPRPERDYFVKQFKKENEEYRYRFKVKPGITGLAQVYGKYTTSPLNKLRFDLTYVRKYSILLDIKVLLLTIKVIFQRDQARGVEVTDAKMKRIEKKQAIH				NA	NA	NA	NA	NA
AK012_02094	768	tuaG	COG0463	Putative teichuronic acid biosynthesis glycosyltransferase TuaG	ATGATGAGCAATGACAAGGTGAGTATCATTACGCCTGCCTATCATGCAGCAGGTCATATTATGGAAACCATTCGAACGGTTCAGCATCAAACCTATACCGATTGGGAAATGATTATCGTCGATGACTGCTCCCGGGATGAAACTGTATCCATCGTGAGAAAAGCGCAGGAAGAAGACGATCGAATCCGGTTGATCTGCCTGCATGAAAACAAAGGTCCCGCCTACGCCAGGAACCGGGCGATTGAATCAGCCCGGGGAAGATATCTTGCCTTTTTAGACAGCGATGATTTATGGATGCCCGAGAAGCTGGAAAAGCAGCTTTCCTTTATGAAAGCCAGACATGCTGCTTTCAGCTTCACAGCCTATAAAATGATGAAAGAAAGCGGGGAAGAGACCAGCCTTATTTTCAAGGCACCGAGTGAAGTCCGGTACAAAGACCTTTTGAAGAACACTTCGATTGGAACACTGACGGTGATGTTGGACCGCCGCAGGTTCGGGTCCATCCGGATGCCCCTTTACAGAGATTGCTCAGAAGATTACGGCTTATGGCTGATGCTGTTATCCTCTGGGTCAATGGCTTATGGATTAAATGAGCCTCTGGCTTTCTACAGGAAGTGCAGCGATTCTTTATCCAGCAACAAATGGAAATCTGCCAAAAAGACGTGGAATACGTACCGGAAAGTAAAAGGGATCAATGGTGTGCGTTCCCTTTGGTATTTTATAAATTACACGGTTCATGGGGTGAAGAAGCACTTTCGTCCTGTCTAA	MMSNDKVSIITPAYHAAGHIMETIRTVQHQTYTDWEMIIVDDCSRDETVSIVRKAQEEDDRIRLICLHENKGPAYARNRAIESARGRYLAFLDSDDLWMPEKLEKQLSFMKARHAAFSFTAYKMMKESGEETSLIFKAPSEVRYKDLLKNTSIGTLTVMLDRRRFGSIRMPLYRDCSEDYGLWLMLLSSGSMAYGLNEPLAFYRKCSDSLSSNKWKSAKKTWNTYRKVKGINGVRSLWYFINYTVHGVKKHFRPV	PGPT0015205_118	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-LIPO-|TEICHURONIC_ACID_METABOLISM	CE-EPS-TEICHURONIC_ACID_METABOLIC_PATHWAY,PGPT0015205-tuaG|ggaB-K16698	NA	NA
AK012_02095	1110			hypothetical protein	ATGAAAACCGTTCAGCATCTTAAAGATAAGGGGAAGAAAACGGCCGTATGGATGTTCGTGATCCTTTTGGTCATCATAGGAGGGAGACTCATTTACGGAAATGAAGATAATCAGGATACCCTTATCTTCCTGAAAACATCCTTAACCAACGATAACCACACACCTGCCACCTATATGAAACCGGAAACCGCTCTGGATTCTGATGAAGTACAGGGGCGGGAAAGCTTATCTGAATCGATGGGCTTCCTCCTCCTTTATGCCGTCGAAGCTGGAAATGAGTCGTTATTTGAAGAACAGTATCAATTACTTGTGGATTACTTTATGGATGAGGAAGGATTGATCTATTGGAAAATCGACTCTTCCGGCAGCCCCGGGGTACCTGTCAATGCTTTAGTGGATGACTTAAGAATTGTAAAAGCCTTGTATGCTGCAGGAGATCAATGGAACAAGACAAAATACACAGACACAGCAGAACAGGCCGGCAGCTATATCAGCCGGTCCTTGACATACCAGTCCACCCTTGTCGATTATTCGGATCAGTCCAGCGGAGGAACAGCTCATTCCATCACCCTCTCTTATATTGATGTGGAAGGTATAGACCTCCTCCGTCAGCAGGGGCACATTGATCCAGCCGTATATGATACGACCATCGATGTGCTGGAAGAGGCAGAACCAAAGAACGTGTTCTATCCAAAGGCCTACAATGTCGAAAAAGATTCATTTTCCTACGATGAGGAAATCAACATGATCGACCAGATGATCACCGCCAATAACCGGGCACAGCTGGGACTGCCCTCCAACGCTTTAATTTCATTCATTAAAGAAGAAATGGAGCAGAACGGTGTTCTCTATGGAAGATACAACCCCTCTGACTTTGAGCCTGTCGTAAAATATGAATCTCCAGCGGTTTACGGATTCTTAATCATGTACGCCATCCAGCTGGAGGATAAAGAGCTGGCTCTAAAGGCTTATGATCGTATGACGGCGTTCCGCTCCAACCATGTGAGTTACCGCGGCGGGTATTCCATCTATGAAGGAAATACCCACATTTTTGACAACCTCGTTCCTTTATTAGCCATTGAAAAACTGAAACATACGGGATGGATCTAA	MKTVQHLKDKGKKTAVWMFVILLVIIGGRLIYGNEDNQDTLIFLKTSLTNDNHTPATYMKPETALDSDEVQGRESLSESMGFLLLYAVEAGNESLFEEQYQLLVDYFMDEEGLIYWKIDSSGSPGVPVNALVDDLRIVKALYAAGDQWNKTKYTDTAEQAGSYISRSLTYQSTLVDYSDQSSGGTAHSITLSYIDVEGIDLLRQQGHIDPAVYDTTIDVLEEAEPKNVFYPKAYNVEKDSFSYDEEINMIDQMITANNRAQLGLPSNALISFIKEEMEQNGVLYGRYNPSDFEPVVKYESPAVYGFLIMYAIQLEDKELALKAYDRMTAFRSNHVSYRGGYSIYEGNTHIFDNLVPLLAIEKLKHTGWI				NA	NA	NA	NA	NA
AK012_02096	1281			hypothetical protein	TTGGCTGATATTCTTCTCTATATCTCCCTTTTCCTTATATGGGCCATGCTGTTCTATCATATGTTCCTTATGCAGGGCGGCTATCGACATTCCATTGAATACCGCCGGACAAAAGATCGATGGGAGAAGAAACCTTTCCATTACCCGTCCGTCAGTGTTCTGATACCTGCTCACAACGAAGAAATGGTAATTGAAGAAACGATGAAGGCGATGCTGAACCTCAATTATCCAGAAGACAAAATTGAAGTCATCGTCGTCAATGATAATTCCAGTGATGCGACAGGCGAAATCGTTGATGCCTACGCCAAACAGCACCCAAGAATCAAGGCGCTGCATACGAAACCCCCGCATGCTGGAAAAGGAAAGTCCGGGGCGTTGAACCAGGGATTAAAGAAATCCACAGGCGAAGTAATTGTCGTCTATGATGCCGATAACACTCCGGAACCGGATGCAGTCCGCTATCTGGCGCTCGGCATTGAGAACGATGCCAAAGCCGGGGCCGTCGTCGGTAAGTTCCGGGTGACCAATGGAAACAAAAATCTGCTTACCCGCCTGATCAATATTGAGACCATTACCTTCCAATGGCTTGCTCAGGCCGGAAGATGGTTCTGGTTCAAAATGGCTACCATCCCAGGTACAAACTTTGCGATCCGGAGATCGATCCTTGAAAAACTCGGCGGATGGGATGAGAAAGCCTTATCCGAAGATACCGAGCTGAGTTTCCGCGTGTACAATCTGGGCTACCACATCCGCTTCTTCCCAGCGGCGATCACCTGGGAACAGGAACCTGAAGTATTAAAGGTTTGGTGGAAACAGCGGACCCGGTGGGCGCGAGGGAATGAATATGTCATTTTCAAATACCTGTTCTCCCTTCATAAGCTGGAGAAAAAGAAGATCGTGATCGACCTCGTCTATTTTCTGTTCACTTATCTCTTATTCTTTGGCGGCGTCATGATTTCCCACTCGATCTTCATTATGAATCTATTCTGGGATCTGAATTTGTCTATGGGAATGGTCTCTTATGTCCTTCTCGTGCTCGGGTTCCTGCTTTTCGTCACAGAGGTGACACTCAGCCTCAGCTTCGAAAGAGGACAATTGACGTGGAAGAACTTTGCTGTGGTCCTGTTTATGTATTTCACCTACTCCCAGCTCTGGATCATCCTCGTCGTCTACGCCTCCTTCCTTGAGGCGAAACGCATTCTATTCAAACAGGAAGTGAAATGGTATAAAACACAGCGGTTCCAAGGTAAACAGACGAATGAAAACCGTTCAGCATCTTAA	MADILLYISLFLIWAMLFYHMFLMQGGYRHSIEYRRTKDRWEKKPFHYPSVSVLIPAHNEEMVIEETMKAMLNLNYPEDKIEVIVVNDNSSDATGEIVDAYAKQHPRIKALHTKPPHAGKGKSGALNQGLKKSTGEVIVVYDADNTPEPDAVRYLALGIENDAKAGAVVGKFRVTNGNKNLLTRLINIETITFQWLAQAGRWFWFKMATIPGTNFAIRRSILEKLGGWDEKALSEDTELSFRVYNLGYHIRFFPAAITWEQEPEVLKVWWKQRTRWARGNEYVIFKYLFSLHKLEKKKIVIDLVYFLFTYLLFFGGVMISHSIFIMNLFWDLNLSMGMVSYVLLVLGFLLFVTEVTLSLSFERGQLTWKNFAVVLFMYFTYSQLWIILVVYASFLEAKRILFKQEVKWYKTQRFQGKQTNENRSAS	PGPT0015297_17	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION	CE-EPS-PUTATIVE_EXOPOLYSACCHARIDE_FUNCTION-1,PGPT0015297-ydaM-NA	NA	NA
AK012_02097	1722			hypothetical protein	ATGAAGAAATACCTGATCGTCTTATGTGCTCTCCTGATGGTATTCGCCAGTACAGGTCCGGTATCTGCTGAACCTGCAGCAGAAGATAAGAAAACCCTGGTGGTTTATTCATCTGTGAACCATCAAGTGGACGAAGACGAACGTAAATTGGACATGCTTTTGAGCCATTTCACACAAAACATCGATTTCGTCCATGTCTCTGAATTTCAGCCGGACGATACGAAAGATACCACTCATATCTTTTATTACGGGAGCCGGAATGAGCAGCTCCCCGACTCTTTTCTGGCATCCATGGATTCTTATGAGGGCACACTGACTGTCATCGGGCACAATCAGAATCAATTCAAAGACCATTTCAGCTTTGAAGCATCACCTAAGTTATCCAACTTCAACTTTATGTATCTTGATGGGGAAAAGGAAGAAAAAATAAAAATCCCTCTCCAGTCTGTATTCACCGTTCCTGTAAACGAGGAAATAGAAGTGCTCGCCTGGGCGGAAGGTGGAAAAAAAGCCAAGCCATTAGTGATGGAAGAAAACGGCGCTTATTACGCAGCGTCTCCCGACGTCATCTCCCCTGTATCCACACTGTTCGGGGATGTGCTTCATGACATATACCAAAGCTCCCATGAGGAGAGCCACCCGGGATACATCCGCCTTGAAGATATTCATCCGCTCGTGGATCCTGAAAAACTAAAAGAAACAGGAGAGGTTCTGATCGAGAACGATATTCCTTTTATGATGGCGGTCATCCCTGTATACACAGATCCCGAAACTGGAAGAAGGTCCCACTTCTCTGATTATCCGGAGACCTTGGAAGTTATTCAATATCTACAAGAGAATGGCGGTTCCGTGGTTCTTCATGGTTACACCCACCAGTACCGTGCCTCAGAGACAGGGGAAGGGTTTGAATTTTGGGATGTTGAAAACAATACGCCTATTTATAAAGAAGGGCGTGATCCATCTCCGATAAAAAGACCCGATGATTTCCACACGAGGGACGCTTATGAGGACTATATGGCAGAACTCAAAGATTTTGAAAGGGACTATACGGAAACAAAACTAAACAAAGGAATACAGGAGCTTACCGGGTTCGGCCTTTATCCCCTTGCCTTTGAAGCCCCCCACTACACGATGTCCCAGCACGGATACGAAATCGCATCTGAATTCTTTTCCACCTATGTGGGACAGATGCAGCTATCCGACGAAAACTGGCAGGTCATGGACAGTGCTCCCTACAGCACCTCTCCTTCTTTCACACATGGAATGACCGTTCTGCCGGAAACGCTGGGCTACGTGGAACCCGATAACAAACGGGCAGCGGAAGAGATTATCCAGAAGGCCGAACAGCAGATGATGGTAAGAGACGGCATGGTCTCGTTCTTCTATCATCCTTATCTCGGGGCCGAACGTCTGTCAGAAGTGGTAGATGGACTGAAGGATCTGCCGATTGAATGGATCGACTTGAAAGAAGAAAATACAAAGGTCCAGTCCGACGAAGTCACCATTACAGCCGCGGATGGAAACGTGAATGTAGATAAGAATACGTTCCAATTATTCACGGACTCGAAAACCCTTTTTCATTATTTTGTTCAAAATACAGCAGATAAGGTGACGTGGACGATGGTCGGAGTCAGCTCTCTCAGTGTAATGCTGTTCTGTTTTTACACATTTGTTTCCTACAGACGCCTAACCCAAAACGAACGGAGTGATCAAGTTGGCTGA	MKKYLIVLCALLMVFASTGPVSAEPAAEDKKTLVVYSSVNHQVDEDERKLDMLLSHFTQNIDFVHVSEFQPDDTKDTTHIFYYGSRNEQLPDSFLASMDSYEGTLTVIGHNQNQFKDHFSFEASPKLSNFNFMYLDGEKEEKIKIPLQSVFTVPVNEEIEVLAWAEGGKKAKPLVMEENGAYYAASPDVISPVSTLFGDVLHDIYQSSHEESHPGYIRLEDIHPLVDPEKLKETGEVLIENDIPFMMAVIPVYTDPETGRRSHFSDYPETLEVIQYLQENGGSVVLHGYTHQYRASETGEGFEFWDVENNTPIYKEGRDPSPIKRPDDFHTRDAYEDYMAELKDFERDYTETKLNKGIQELTGFGLYPLAFEAPHYTMSQHGYEIASEFFSTYVGQMQLSDENWQVMDSAPYSTSPSFTHGMTVLPETLGYVEPDNKRAAEEIIQKAEQQMMVRDGMVSFFYHPYLGAERLSEVVDGLKDLPIEWIDLKEENTKVQSDEVTITAADGNVNVDKNTFQLFTDSKTLFHYFVQNTADKVTWTMVGVSSLSVMLFCFYTFVSYRRLTQNERSDQVG				NA	NA	NA	NA	NA
AK012_02098	771	ywqE_2	COG4464	Tyrosine-protein phosphatase YwqE	ATGATTGATTTGAACTGCAAAATCCTCCCTGGAACAGGGGATGGGCCGGAATCCATGCAGGGGAGTCTGGCAATGGCGCAGAAAGCGTCCGACCAAGGGGTGGAAACCATAGTGGCCGCTCCGCGCTTTCAATTTGAGAGAGGACCGAGGGAAGTTAAACTCCAGTGTGAAGAACTGAACAAGGAGTTATTTGATCAGGGCATCGAGGTGCGTATCCTCCCTGGACATGAAGTTAAGGTTTATGGTGAACTTGTCGATGATCTGAAGAATGGGCACATTATACCGATGAATGAACAAACTCCATACATTTATGTGGTGTTCTCCAACAAGGACATCCCGCACTACGCCAAGCAGGTACTTTATGATATGCAGCTGGAAGGGTATATTCCGGTCATTGTTCACCCGGAACAGAACCAGGTATTTCAGCAGCAGCCGGATCTCCTTTATCAATTTGTGAAAAATGGTGCGGTCACTCAAGTATCAGCTGCCAGTTTAGCGAATAAGCAGGGAAAGCCGTCTCAAAAGCTTGCGCTGCAGATGATCCGCCATAACCTGGCCCACGTTGTGGCCTCCCACGCTGTGGATGATAAGAAGAAAGGCTTTTTCTTAAGGCAGGCGTATGATAAGATCCAAAAATCTTTCGGCTCCGACGTGATGTATCAGTTTATGGAAAATGCACATGTCCTCCTGGATGGGGAAATGGTTTATACAGATCCACCGGAACGGATTAAAACGAAAAAGGCGCTTGGGATTTTTCCCTTTCAATCGTAA	MIDLNCKILPGTGDGPESMQGSLAMAQKASDQGVETIVAAPRFQFERGPREVKLQCEELNKELFDQGIEVRILPGHEVKVYGELVDDLKNGHIIPMNEQTPYIYVVFSNKDIPHYAKQVLYDMQLEGYIPVIVHPEQNQVFQQQPDLLYQFVKNGAVTQVSAASLANKQGKPSQKLALQMIRHNLAHVVASHAVDDKKKGFFLRQAYDKIQKSFGSDVMYQFMENAHVLLDGEMVYTDPPERIKTKKALGIFPFQS	PGPT0014530_2092	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
AK012_02099	2067			hypothetical protein	ATGAACAGGAACTACGTACGATCTATTATTTCTGTGGCAGTCATGTTTGTGATGTTCAGTTTAATGATACCGGTGATCCACGCGGAGGAAAAAGAGCAGGTTCACTTCATTGTGAAGTATAAAGAGGAAGTCACCTCCCAGTCAGGGAAAAACTCCTTCCCGATCGATGTGGTTCCGGTTGATAAAAATCAGGCAGAAAAGAAACAGAAGGAACTAGAAGAAGATCCCGATGTGGAATACATAGAAACAGATGTAAAAGTATATGCCCAGGGGGATGTTCCCGACGACCCTTTTTATCCTGATCAGAAAAAGACCTTCGATGCCGTCCATGCAGAAGAATCATGGATGGACTATAAAAAGGTATCAGAGGAGGTTCCGGTCGTTGCGGTCATTGATTCCGGGATGAGTCTCACCCATCCGGACCTGGAAGGCCAATTGATCCAAGGAACAAATATTCTCGAACCGTCGGAATCCCCGGAAGACACCTTTGGTCATGGTACTCATGTGGCCGGACTGATTGGAGCTGTCACAAGTAATCACCTTGGCGTTTCTTCCTTATCCAGAGGGGATGTTCGGATGATGCCGGTGAAGGTGATGGAGGCTGAGTCCGGGAATTTGTCCGACGTCATTGAAGGGATTGACTACGCTGTCGAGCAAGGCGTGGATATCATCAATTTAAGTCTGGGAACTTACGTATACCGTACTGCACTTGCCGATGCGATTGAATATGCCAGGCAGGAAGGCGTCATCGTCGTTGCTGCTGCAGGGAATGATGATCGGGAAAAAGCTTTGTATCCTGCAGCTTTGGATCAGGTCATTTCTGTCGGAAGTTATGACTTGGAAGATAACGAAAAAGCTTCTTTTTCCAATTATGGCCCTGAAGTTGATGTGATTACACCGGGGACAGACCTGTATAGTACGTATCTCGATGACGGATATAAGAGAATGGGCGGAACGAGTATGTCCTCTGGTCATGTGAGTGCGCTTGCGGCTTTAGTTGAAAACCATGCGCCCTATTTAGAAGCGGAGCAGGTGCAGCGGCTGATTGTGGATGGCGCGGAACCAGCAGCCAGTACATATGAATTGGGAGAGGGAATGATTAATGCGGAGAAGACGCTTAACCAGGTTCGCGATTACCAGCGGATCTCAGGAGCTACTTCCGTCGAAACGTCCACAGCCATCTCTAAAAAAGGATGGGACGCTCTGGAAGAAGAAACGCTTACCATTGATGGGGAGAAAGAGCAGGGGAAATTTGTGATTCTCGCTACGGGAAAAGATTTTCCGGATAGTCTTGCAGCTTCCCCCCTCGCCTCTTATTTAGACAGTCCTGTTCTATTAGAAAGGCGAAGTAATCTATCATCTTCCATTAAAGAGGAATTGGCCCGGCTGAACGCCACGGATGTCATCATTATCGGAGGAGATGTGGCTGTTTCCGCTGATGTAGAGAGCGATGTAGAAAACGAAGGCTATGATGTTCACAGGATCAAGGGGTCTGACAGGTATGAGACAGCAGTGGCTGTGAACGAATTGATTCCTTATGAGACGAATAAAGGCTTTGTCGTATCAGGACAGGAATTTCCGGATGCGCTATCAGCTTCAGCATACAGCGGAGTAAAGCAGTATCCTATTTTATATGTGAAGCAGGATGAGATCCCGGAAGTCGTCCAAACGTATATGGAAGAGGAAGGGATTACTAAGAATTATATTGTTGGAGGGACCCAGCCGATCTCAGAAAAGGTCGCCTCTACTCTTCCCGATGCCCACCCCCTCCGCGTTTCAGGGAAAAACCGCTATGAGACCAACGAGGCTATGCACCGGACCTTCGGCCGTTCTTCCGCTGAGACGCTTTATTTTTCAACAGGTCAGAACTTCCCGGATGCGATGGCCGCCGCGCCTCTTGCCGTGAAGACAGCAAGCCCGATTATTTTGACTAACGAGAGATATGCTCCTGTAACAGCGGACAGCATTCGACTATTTAAGGACCGTTCCAGTTATTCCATCATTGGAGGCACTTACCCCGTCCCTGCCGAACATGCGTGGCAGATTGATGATATTTTTTATCGGTAA	MNRNYVRSIISVAVMFVMFSLMIPVIHAEEKEQVHFIVKYKEEVTSQSGKNSFPIDVVPVDKNQAEKKQKELEEDPDVEYIETDVKVYAQGDVPDDPFYPDQKKTFDAVHAEESWMDYKKVSEEVPVVAVIDSGMSLTHPDLEGQLIQGTNILEPSESPEDTFGHGTHVAGLIGAVTSNHLGVSSLSRGDVRMMPVKVMEAESGNLSDVIEGIDYAVEQGVDIINLSLGTYVYRTALADAIEYARQEGVIVVAAAGNDDREKALYPAALDQVISVGSYDLEDNEKASFSNYGPEVDVITPGTDLYSTYLDDGYKRMGGTSMSSGHVSALAALVENHAPYLEAEQVQRLIVDGAEPAASTYELGEGMINAEKTLNQVRDYQRISGATSVETSTAISKKGWDALEEETLTIDGEKEQGKFVILATGKDFPDSLAASPLASYLDSPVLLERRSNLSSSIKEELARLNATDVIIIGGDVAVSADVESDVENEGYDVHRIKGSDRYETAVAVNELIPYETNKGFVVSGQEFPDALSASAYSGVKQYPILYVKQDEIPEVVQTYMEEEGITKNYIVGGTQPISEKVASTLPDAHPLRVSGKNRYETNEAMHRTFGRSSAETLYFSTGQNFPDAMAAAPLAVKTASPIILTNERYAPVTADSIRLFKDRSSYSIIGGTYPVPAEHAWQIDDIFYR				NA	NA	NA	NA	NA
AK012_02100	405			hypothetical protein	ATGGAAATCTCCTATACGGCTAATATGGAAAATATGACGAAAGAAAACCTTCAGCGATTATTTCTCTCTGTAGAATGGGAGTCAGGAAAGTACCCTGAAGAATTGTTACAGGCTGTTAAAGGCTCTCATTCTTTTATCACAGCTTGGGATGGAGATCAGTTAATTGGATTAGTGAATGCCTTGTCCGATGGCGTATTGACCGCCTATTTCCATTATGTGTTAATCCACCCGGATTACCAGGGCAGAGGCATAGGCAAAGGCATGATGGACCGCATGCTTCTTCGTTATAAAGGTTACCAGACGAAGGTATTGATCGCGTATCCGAACGTCGTCGAGTTTTACGAAAAACTGGGCTTTGAAGAAGAAGATGGAACAACGCCTCTGTTCATCTCAGACCTCATGTAG	MEISYTANMENMTKENLQRLFLSVEWESGKYPEELLQAVKGSHSFITAWDGDQLIGLVNALSDGVLTAYFHYVLIHPDYQGRGIGKGMMDRMLLRYKGYQTKVLIAYPNVVEFYEKLGFEEEDGTTPLFISDLM				NA	NA	NA	NA	NA
AK012_02101	4293			hypothetical protein	TTGGTGGCTGAGAAAAACAAAAAGAACGTGAAAAAGAAGGCGTTGTCTGTTTTAGCCAGTGCGGCTATCGTTGCGTCTTCGTTTGCAGGGATTGGTACATATGGAACAGCCGGGGTTCAGGCAGAAACAAAAGCGGCGAAGTCTTTTAATACGTTAATGAATTATGATGAAGTCGTTTCTCTGGCTAACAGTTCGGAGTCAAAACAAGAGCTGGTCATTATCGGTAATGGCAAGACAGATGCGACGAAGCAGCTGGAAGAACTGGGTGTCAAAGTCATCCAGAACCACAAGAACTATGGCTATCTGGCTGAAGTCCCAACAAATAAAATCCTTGATATCGTGAAGCTTGACTCGGTTCGTACAGTAGGGGAGAACCAGGAGCTTGAGCTTGCTCCCGTCAATCCTGATGAGTTGAACACGGATGGGCAGGATGAGGTGGATCAAGATGCAGTGGTTGAACCGGATCAGCTGGAAACCCACCCATCTACTGGAGTAGACGGATTCCACGATAAATTCAGCGGCGAGGGTGTCCGTATCGGAATCATTGACTCTGGTCCAGACCCAGGGCACGAATCCTTCACCAATCTTCCTGAGGTTGATGAGGATGCGGAAGAAACTTCAGAGGAAGTATTTGAAGAAACGAGAAAATACGGCAGTTCTCATATTACAGATGTGCGGGACTACACGATTTCGAATGAATTCATAGACCGTCCTTACGCAGCTGAGGAGCGTTATTCCAGCTACAAGGAATATACGGGTCAGAACGCCAACTATCTGGCGGAAGGGGATGTTCCATTCTTTGATGAGTTTGAAGAAGGGGACACCATCTACGAAGGCATTTTCAAGACCGAGGGAATTGACTCTCCGGATGATAAGCTGTACTACGGAGAAACCTGGTTTGAAGCCAAGGCCGACCTTAACGGAGACGGTGAGTCTGGAGAAACCTTCGGCGACTGGTTCCCTGTCCTTCTAGCAGGGGATGAAGTCTATGTGGATACAGACTTTGATTTTGACTTTACAGATGAGACAGCTTATAAGGAAGGCGAAACGGGTACTTTTGACATCGATCCTTCCGATGATGTAGCAGGTGCGAACTTCCGTGTAAACAACTTGGAAGAGCAAAAGCTATTAAACAATGAAACTCAGGAATTCGATGCTGTGAAGAAGGTCAACTTGTTTACGGACTTTAACGGTCACGGTTCCCACGTTGCCGGAATTTCTGCAGCCAATGGGCCGCTGAAATCCAATGCAACAGGGGCGGTAGCCGGTGAAGGTGTGGCTCCGGAATCCGAGCTTGTCGGTCTTCGTGTGTTCAAAGAAGAAGGCGGAGCTTATACGTGGAGCATTCAACGTGCGATGATTGACGCTGCCCTGCCGGAATCAGAAGGTGGATTCGGTGTCGATGTCGCCAACTTGAGCCTTGGCTCTCTGCCTGATTTGAATGATGGCGGCGGAAGCTACGGAGAGTTGATGACACTGCTCAGCGATCAGTACGATATTGTTTTTGTTACTTCTGCAGGTAACAGCGGACCGGGGATTGATACGGTCGGTTCACCTGGGGACGTAGCCAGCGTCATTTCTGTTGGTGCGCACATTGATGAGCAGATGTGGGCGAAGGAATACGGCGCCTACCCTTACGGTAAAGATGAGGACGGCAATCCACTTGAAGGGGACGGCCTCTGGTACTTCTCCTCTGTAGGACCGAATGAAGCCGGGGATCAAAAACCGGATATCGTAGGTCCTGGGTCTGCCTATGCGGCCCAGCCTGTCCACCAGTTCCCGGAAGGTCATGCGTATGATGTGCTTCAGGGTACAAGTATGTCAGCACCACACGTCGCCGGGGCTGTAGCTTTGCTTAAATCAGCTGCAGAGAAAGATCGTCTGCCGTTCAATTATGAACTGGCCCGTGAAGCACTTGTTCAGACAGCGGACAAACTGGACGGCTATAACCGTGCTCAGGAAGGTCAGGGGCTGATCAATGTTCCAGCTGCCTATGAGTACATGAGAGATAACTTCGTCAACGACGTTGAAAATGTCGATGTGACGGTATTCCACGGGGAGAAAATTTCCGGCGGACCTGGATTGTATGTCCGTAACAAAGATATCCCGGAAACCGTCGAAGTTTTGATTGAGAACCCAGGTGATGAAGCGAAGACTCTTGATATTTCTGCTTCCCACGACTGGTTTACGCCATCCGTTGATGAAGTCAAGCTCGGCGCAGGAGAATATGAGTATATTGATGTCGAGTATGATGCATCCAAGCTGGAAACGGGCGTGAACGCAGGGAACTTAATCATTGATGATGCTTCTACACCTTATGTCGAAGCAAGAAGTGCTCAGACAATCATCACTGGGTATGAGTTTACGAAAGAAAACAAACACCGCTTCAGAACGACAGACGAAGTGCAGTCTTCCCAGACAAAAGGCTACACCTTCGACGTTGATTCCGGTGTCAGTGAACTACGCTTCTCCTTGAACGCTCTGAAGGAAAGTGGAGAATTCCAAGGTCGTGTCCGTATGCTTGTGTTCAATCCAGATGGCACACAGGTGAATGAGTTTGTCGGGTATGCCGGATACGATGGGCTGGATGTGGAAGATGTGGTTGTTCCATCTCCGAAAGCCGGTGTATGGGAAGTCCATGTTTATGGAACGATTGCTCCTGAAGAAGGTAAGGAAATGAACAAGTATACCTTAGACGCTGTCGCCCAGGATGTTGTCAGCGAGCCGGGAAGCATCGATCTTGGTAAAGTCGGATCTTCTGAAACCTTCGAAAAAGAAGTATCCTTTACCAACTACATGAAAGAAGCGGCTAACGTGAAGTTTGAAACGGTCGGCTTCAGCGGCCCTATTAATAAAACCATCGAAGGAACCGTCACTCAGGAAGTCGACGAAATCCCGACTGATGGTGATTTGATTGATGTTGAAATCAAAAACAATGTCTCCTTGAGCGTAGATGTGGCTCCTGCTGAGCCGGTGGATCTGGATCTGTTCCTATTCAATGAAGAAGGCGAAGAGGTCGCATCCAGTGCTTCCAGCTCCAATGATGAAGCTTTCGCGGTAACGGGTCTTCCTGATGGAAACTACCAGATTGCTGTGGATTACTTCGGTACAGGTTCGGCTTCTGTTGATTACACATTGAACATGACGGAAGAGAAACTTCTATCCTATAATTCTGATGAAAAAGGAGAGGGATCCGTTACAACAGATGCCAAAGCTACTAAACTAGGGGTCGGCGAAACGGTGGACGTTCCTCTTTCCATCACGACTCCAGAGCAGCCGATCAAAGGCTATGCCGGCTTGTACATGGTTGATGCCGATACAGATGAAGTGCTTGACCTTGTACCAGTTACAACGGATGCGGACGTCGTCAATGTCCTTTCCGGTAAAACACGTGAAGGTACAGCGCTTGATATTTCCCAGGACCTCTATCCGGATGGCGGTGCAGATACTGTTGTCGTAACGACCGCTTATAACTTCCCGGATGCCTTGTCTGCCGGACCGATGGCTTCTGCTGCAGAAGCACCGGTTATCCCTGTAAACAGAGATGGGAAGCTGAGCAAGGAAGCGCTGAAAGAAATTGACCGCCTTGGTGCGGAAAACGTTTATCTTGTCGGTGGTGAAGGCGTCGTTTCCCCTGATGTCTTCGCTCAGTTGAATACGATCAGCATTGCTTCTGATCAAATTGAGCGGGTGTCCGGCGATACACGTTACAGCACGAACCTTGAGATTGTAGAAAAACTGCAGAACGACTTTGATTTTGAAGGAAACGGTGTATTCCTTGCCACAGGTAAAAACTATGCGGATGCTTTGAGTGCTGCTTCCATCGCAGGTGCTGAGGGCATGCCGATTGTACTGACGAACGGCAAAGATCTATCCGACGAAGCTCTGGCTGTCCTTGAAAATGAAGACGTTTATGTAGTCGGTGGAACAGGCGTCATTTCTGATGAGGTCGCTGCTCAGGCGAAGGAAGTCGCTGTTTCCGTGGAGCGATTGTCCGGTGCGAACCGTTACGGCACCCTCGTCAGCATTTTGAAAGAGTTCGAGCCGAATGCAACCAATCTATTTGCCGCAAGCGGACGTAACTATCCGGATGCCCTTGCATCTGCACCGCTTGTAACAGGTAAAGATGGGATGCTCCTGCTTGTTCAGCCTGATGATCTTCCAAAAGAGGTGGATGCGTACTTAACGAAGTATGTGTACACTCATGATATCTCTTCTGTTACTGTTCTCGGCGGCGATGCTGCGGTAGGACCGGAAGCGAAAGAAGATCTACAGAACAAAGTAACCAAATAA	MVAEKNKKNVKKKALSVLASAAIVASSFAGIGTYGTAGVQAETKAAKSFNTLMNYDEVVSLANSSESKQELVIIGNGKTDATKQLEELGVKVIQNHKNYGYLAEVPTNKILDIVKLDSVRTVGENQELELAPVNPDELNTDGQDEVDQDAVVEPDQLETHPSTGVDGFHDKFSGEGVRIGIIDSGPDPGHESFTNLPEVDEDAEETSEEVFEETRKYGSSHITDVRDYTISNEFIDRPYAAEERYSSYKEYTGQNANYLAEGDVPFFDEFEEGDTIYEGIFKTEGIDSPDDKLYYGETWFEAKADLNGDGESGETFGDWFPVLLAGDEVYVDTDFDFDFTDETAYKEGETGTFDIDPSDDVAGANFRVNNLEEQKLLNNETQEFDAVKKVNLFTDFNGHGSHVAGISAANGPLKSNATGAVAGEGVAPESELVGLRVFKEEGGAYTWSIQRAMIDAALPESEGGFGVDVANLSLGSLPDLNDGGGSYGELMTLLSDQYDIVFVTSAGNSGPGIDTVGSPGDVASVISVGAHIDEQMWAKEYGAYPYGKDEDGNPLEGDGLWYFSSVGPNEAGDQKPDIVGPGSAYAAQPVHQFPEGHAYDVLQGTSMSAPHVAGAVALLKSAAEKDRLPFNYELAREALVQTADKLDGYNRAQEGQGLINVPAAYEYMRDNFVNDVENVDVTVFHGEKISGGPGLYVRNKDIPETVEVLIENPGDEAKTLDISASHDWFTPSVDEVKLGAGEYEYIDVEYDASKLETGVNAGNLIIDDASTPYVEARSAQTIITGYEFTKENKHRFRTTDEVQSSQTKGYTFDVDSGVSELRFSLNALKESGEFQGRVRMLVFNPDGTQVNEFVGYAGYDGLDVEDVVVPSPKAGVWEVHVYGTIAPEEGKEMNKYTLDAVAQDVVSEPGSIDLGKVGSSETFEKEVSFTNYMKEAANVKFETVGFSGPINKTIEGTVTQEVDEIPTDGDLIDVEIKNNVSLSVDVAPAEPVDLDLFLFNEEGEEVASSASSSNDEAFAVTGLPDGNYQIAVDYFGTGSASVDYTLNMTEEKLLSYNSDEKGEGSVTTDAKATKLGVGETVDVPLSITTPEQPIKGYAGLYMVDADTDEVLDLVPVTTDADVVNVLSGKTREGTALDISQDLYPDGGADTVVVTTAYNFPDALSAGPMASAAEAPVIPVNRDGKLSKEALKEIDRLGAENVYLVGGEGVVSPDVFAQLNTISIASDQIERVSGDTRYSTNLEIVEKLQNDFDFEGNGVFLATGKNYADALSAASIAGAEGMPIVLTNGKDLSDEALAVLENEDVYVVGGTGVISDEVAAQAKEVAVSVERLSGANRYGTLVSILKEFEPNATNLFAASGRNYPDALASAPLVTGKDGMLLLVQPDDLPKEVDAYLTKYVYTHDISSVTVLGGDAAVGPEAKEDLQNKVTK				NA	NA	NA	NA	NA
AK012_02102	831	glpF_1	COG0580	Glycerol uptake facilitator protein	ATGTCCGAATTCTTAGCTGAACTGATTGGGACGATGATTCTGATCATATTTGGTGGCGGTGTTGTTGGAGGGGTCGTTCTTAAAAATTCAAAAGCAGAAGGAGCCGGCTGGGTCGTTATCACCATTGGGTGGGGACTTGCTGTTGCTATGGGTGTGTACGCTGTGGGAAGCTTCACGGGTGCTCATATCAATCCGGCCGTAACGATAAGTTTTGCTGCAATTGGAGAATTTCCTTGGGCGAAGGTGCCCCTTTACGTAACCGCTCAGATGATTGGTGCGGCGATCGGTGGAGTTATCGTATTCTTAAATTATCTGCCGCACTGGAGAGAAACGAAAGATCAAGGAGCCAAACTGGCGGTGTTTGCTACTGATCCAGCCGTTCGCAGTCCTTTTTCCAACCTTGTCAGTGAAATCATTGGAACATTCGTCCTTATTATGGGGCTGCTGTTTATCGGTGCCAACGAATTTACAGAAGGATTGAATCCACTGATTGTGGGTGCGTTGATCATTGCGATCGGTATGTCGCTTGGCGGAGCAACAGGATACGCAATCAACCCTGCCCGTGACCTTGGCCCCCGTATTGCCCACGCGCTGCTTCCGATTCCTGGAAAGGGCGGATCAGACTGGGGTTACTCCTGGATACCGGTTGTCGGACCGATTTTAGGCGGTATCTACGGAGCATTATTCTACCGGGCCATGTTTATGTCTGATTTCTCTGCAGGCTTCTGGGTAATGTCTGTCGTGATGGCGGTTATCCTGGTTGGAGCAGCTAATGCGGAAATCAAGAAGGGGAAGTCCCTGGGTAATCAAGTAGAAGAAAAAATCAGCTAA	MSEFLAELIGTMILIIFGGGVVGGVVLKNSKAEGAGWVVITIGWGLAVAMGVYAVGSFTGAHINPAVTISFAAIGEFPWAKVPLYVTAQMIGAAIGGVIVFLNYLPHWRETKDQGAKLAVFATDPAVRSPFSNLVSEIIGTFVLIMGLLFIGANEFTEGLNPLIVGALIIAIGMSLGGATGYAINPARDLGPRIAHALLPIPGKGGSDWGYSWIPVVGPILGGIYGALFYRAMFMSDFSAGFWVMSVVMAVILVGAANAEIKKGKSLGNQVEEKIS	PGPT0004760_694	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
AK012_02103	1494	glpK_1	COG0554	Glycerol kinase	ATGTCAGAACAGTATATCTTATCCATTGATCAGGGAACGACAAGCTCAAGAGCCATTCTTTTTAACAAAGCGGGTAACATCGTTGAAACCGGCCAGAAGGAATTTGAACAGTTCTTCCCGAAGCCGGGCTGGGTGGAACATGATGCGAATGAAATCTGGACATCCGTTCTTGCCTGTATTGCGGATGTATTAAGGAAAGCGGATGTAGAGCCGTCCCAGATTGCCGGGATCGGCATTACCAACCAGCGTGAAACGGCCGTTGTATGGGACCGGAACACCGGTAAGCCGATCTATCACGCTGTTGTCTGGCAGTCCCGTCAGACCGAAGACATCTGTAAAGAGCTTCGTGCCGCCGGCCATAACGACCTGTTCCGCAGCAAGACGGGTCTTCTGCTTGATCCTTACTTCTCCGGGACAAAAGTGAAGTGGATTCTTGATAACGTTGAGGGAGCAAGGGAGAAAGCGGAAAATGGCGATCTTATGTTTGGAACGATCGACACATGGCTTGTTTATAAGCTTTCCGGTGGAAAGACGCATATTACCGACTATTCCAACGCTTCCCGTACATTGATGTACAACATTTATGATCTGCAGTGGGATGACGAACTGCTGGATATCCTTGGTGTACCAAAATCCATGCTGCCGGAAGTGAAGCCTTCTTCTGAGGTATATGCGCAGACGGTTGATTATCATTTCTTCGGTCACGAAGTTCCAATCGCCGGTATAGCTGGAGATCAGCAGGCCGCCTTATTTGGACAAGCCTGCTTTGAAAAAGGCATGGCCAAAAATACGTATGGGACAGGCTGCTTCATGTTGATGAACACCGGTGAGGAAGGCGTTGCGTCTGAGCACGGCCTGTTAACAACACTTGCCTGGGGTCTTGACGGTAAAGTGGAATATGCGCTTGAAGGAAGTATTTTCGTTGCGGGTTCGGCCATTCAATGGCTGCGTGACGGACTGAAAATGATTGAGAGCGCACCGGAATCTGAAGGATATGCCACATCTGTAGAGTCTTCCGACGGCGTTTATCTTGTACCGGCGTTCGTTGGTCTTGGAACACCTTACTGGGATAGTGATGCCCGCGGTGCGATGTTCGGATTGACACGTGGAACAACAAAAGCCCACTTCATCCGTGCCACTCTTGAATCACTGGCTTATCAGACGAAAGATGTCCTTGACGCGATGATCGCTGATTCCGGCATTGATCTGAAATCCCTGCGTGTAGATGGGGGAGCCGTGAAGAACGATTTCCTTATGCAGTTCCAAAGTGACATCCTTGGTGTGCCTGTTGAGCGTCCAATTGTACAGGAAACAACAGCCCTTGGTGCTGCCTTCCTGGCAGGACTGGCTGTCGGCTACTGGAAAGACAAAGAGGAAATCAAACAGCACTCGGATAATGACCGTACATTTACAGGGCAGATGGATGCTGATGAGCAGGAAGAGCTTTACAGCGGATGGAAGAAAGCTGTGGAAGCGACACGTAAATTCAAGTAA	MSEQYILSIDQGTTSSRAILFNKAGNIVETGQKEFEQFFPKPGWVEHDANEIWTSVLACIADVLRKADVEPSQIAGIGITNQRETAVVWDRNTGKPIYHAVVWQSRQTEDICKELRAAGHNDLFRSKTGLLLDPYFSGTKVKWILDNVEGAREKAENGDLMFGTIDTWLVYKLSGGKTHITDYSNASRTLMYNIYDLQWDDELLDILGVPKSMLPEVKPSSEVYAQTVDYHFFGHEVPIAGIAGDQQAALFGQACFEKGMAKNTYGTGCFMLMNTGEEGVASEHGLLTTLAWGLDGKVEYALEGSIFVAGSAIQWLRDGLKMIESAPESEGYATSVESSDGVYLVPAFVGLGTPYWDSDARGAMFGLTRGTTKAHFIRATLESLAYQTKDVLDAMIADSGIDLKSLRVDGGAVKNDFLMQFQSDILGVPVERPIVQETTALGAAFLAGLAVGYWKDKEEIKQHSDNDRTFTGQMDADEQEELYSGWKKAVEATRKFK	PGPT0018435_4199	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
AK012_02104	996	dhaK	COG2376	PTS-dependent dihydroxyacetone kinase, dihydroxyacetone-binding subunit DhaK	ATGAAAAAATTAATCAACGATCCAAATCTTGTGATTACAGAAATGCTTGATGGGTATGTCGCTGCTCATGCTTCCACCGTGAAGAGAGTGGAGGATACAACCGTTGTAGCGAGGAAAAATGCCCCCGTGTCCGGAAAAGTCGGTATCGTCAGTGGAGGTGGAAGCGGTCATGAACCGGCCCACGCTGGTTATGTCGGGGAAGGCATGCTGGATGCTGCTGTTTCCGGTGAAGTATTCACATCACCTACACCTGATCAGGTCTTTGAAGCCATTAAGGCTGTAGACAGTGGGAAAGGGGTCCTGCTGGTTATTAAAAACTATACCGGTGATGTGATGAACTTCGAGATGGCTGCTGAACTTGCTGAAGCCGAAGGGATTCAAGTAGATCAAGTCGTCGTCAATGACGATGTCGCCGTAGAGGATAGTTCCTTTACAACGGGCCGCCGCGGAGTTGCAGGGACGGTATTCGTTCATAAACTGGCAGGCGCAATGGCTGAGACCGGAGCTTCCCTTGAAGAAGTGAAAAAGACCGCCGAAAAAGTCGTTCAGCAGGTGCGGACGATGGGTGTCGCACTAAGTCCATGCATCATGCCGTCTTCAGGGGAAGAGAGCTTCGAGCTGGGCGGTAAGGAAATCGAAATGGGGATTGGAATCCACGGCGAACCGGGGATTGAGAAAAAACCGCTCGTATCCGCAGACGAAATCACGTCCGAGATGGTCGAACGCATTCTTCCTGAACTTGAATTGAATGAAAACGACGAGGTCGCCGTCATGGTGAACGGCATGGGAGCGACACCGGAAATGGAACTTTATATCGTGAATCGGAAAGTTCATGAAATGCTGGCTGAGAAGAACCTCACCGTTTCCCATACCTTTGTGGGTGAATATATGACGTCCCTTGAAATGGCGGGATGTTCTGTAACGGTGTTGAAAGTGGATGATCAATTGAAAGAACTGCTGGATGCCCCTAGTCAAGCACCGGCTTTCCGTATATAA	MKKLINDPNLVITEMLDGYVAAHASTVKRVEDTTVVARKNAPVSGKVGIVSGGGSGHEPAHAGYVGEGMLDAAVSGEVFTSPTPDQVFEAIKAVDSGKGVLLVIKNYTGDVMNFEMAAELAEAEGIQVDQVVVNDDVAVEDSSFTTGRRGVAGTVFVHKLAGAMAETGASLEEVKKTAEKVVQQVRTMGVALSPCIMPSSGEESFELGGKEIEMGIGIHGEPGIEKKPLVSADEITSEMVERILPELELNENDEVAVMVNGMGATPEMELYIVNRKVHEMLAEKNLTVSHTFVGEYMTSLEMAGCSVTVLKVDDQLKELLDAPSQAPAFRI	PGPT0018460_1044	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018460-dhaK|dak-K05878	NA	NA
AK012_02105	609	dhaL	COG2376	PTS-dependent dihydroxyacetone kinase, ADP-binding subunit DhaL	ATGAATGTCAATCAAACGGCAGCTTGGATCCAATCCTATAACCAGCATCTGCAGGAGCAAAAAGACTACTTAACTTCCCTGGACAGGAAAATCGGCGACGGTGACCACGGCATTAATATGGCGAGAGGGTTTGCTGAAGCTGCCAAGGCAGTGGAGGCAGAAACGTTTGAGACTTCAGCAGACGTGTTGAAAAAGGCCGCTATGACCGTGATGTCCAAGGTTGGCGGAGCTTCGGGCCCGTTATATGGCACAGCCTTATTGAAGATGTCCATGGCCGCTAAAGGAAAAGACGTCGAAGGGGATGTTTTTGCGGAAATGTTTGAAGCCGCGATTGACGGGATCAAACAGCGTGGAAAGGCGGAAACCGGAGAAAAAACGATGCTTGATGTGTGGGTCCCGGTTTTAGAGGAAGTGAAAAGCAGCGGATTTGATGCAGCTCAAGTGGAAGAAACCGCCCGGGAAGCCATGGAGGCGACGAAGGATTTAACTGCTACAAAAGGAAGAGCCTCCTACTTGAAAGAGCGCTCCAAAGGGCATCTGGATCCTGGTGCTGTATCCTCCTATTACTTATTCGCAAGCCTTGCCGAGGCCCTGAAGGAGGAAGCTTAA	MNVNQTAAWIQSYNQHLQEQKDYLTSLDRKIGDGDHGINMARGFAEAAKAVEAETFETSADVLKKAAMTVMSKVGGASGPLYGTALLKMSMAAKGKDVEGDVFAEMFEAAIDGIKQRGKAETGEKTMLDVWVPVLEEVKSSGFDAAQVEETAREAMEATKDLTATKGRASYLKERSKGHLDPGAVSSYYLFASLAEALKEEA	PGPT0018455_1214	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018455-dhaL-K05879	NA	NA
AK012_02106	381	dhaM	COG3412	PTS-dependent dihydroxyacetone kinase, phosphotransferase subunit DhaM	ATGAGTGTAGGCATTCTTTTAGTCTCACACAGTAAAAAAGTTGCCGAAGGGGTAAAGGACCTGATTCATCAGGTGGTCGGCGATCTTCCTATCGAAGCCGCCGGAGGTACAGATGAAGGAGAGCTTGGCACAAGCTTTGAAAAAATCCAGACCGCTTTGGAGAAGGTCACAGAAAAAGCCGGGAGCACGATCGTTTTTTATGATCTCGGCAGTGCACGAATGAATGCTGAAATGGCCATTGAAGTCATAGAGTCCGATCAAATCAAACTGGTTTCCCACCCGATTCTGGAAGGGGCTTATCTTGCGGCTGTCGAAGCGAGTATAGATAAAAGTCTGGAAGAGATCCTGGAATCGCTTGAGAAAGAATTCGGAAAATCGTAA	MSVGILLVSHSKKVAEGVKDLIHQVVGDLPIEAAGGTDEGELGTSFEKIQTALEKVTEKAGSTIVFYDLGSARMNAEMAIEVIESDQIKLVSHPILEGAYLAAVEASIDKSLEEILESLEKEFGKS	PGPT0018450_820	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_PHOSPHOTRANSFERASE_ACTIVITY,PGPT0018450-dhaM-K05881	NA	NA
AK012_02107	372			hypothetical protein	TTGATTGAGTGGAGTGTCAGCATTGCAGCGGTCGGGTTTATTTGTCTCGTCATCTTTTTAATTTTCACTTTACGGAAACTCATGGCCACACTGACGGAGACCAAAGAGACGCTGTCTGACGCTAGAAAATCAGTCAACAGCATTACAGATGAGGCTGAAGAGCTGATCCATGAAGCTAACAAAATTTCAACTGATGTCAAAGGAAAAATGGAAGCCGTTGACCCTTTAATCGATTCCGTTCATGATATGGGCGATATGATACACGATGTCACAAGTTCAATAAAACGAACAGCGCTGCAAAAGGAAAACCGAAAAACAGTGGATTCCAAGGATAACCAGAAAAGCAAGCCGGTTCAAATCAAATTGAAGTAA	MIEWSVSIAAVGFICLVIFLIFTLRKLMATLTETKETLSDARKSVNSITDEAEELIHEANKISTDVKGKMEAVDPLIDSVHDMGDMIHDVTSSIKRTALQKENRKTVDSKDNQKSKPVQIKLK				NA	NA	NA	NA	NA
AK012_02108	906	ilvE_1	COG0115	Branched-chain-amino-acid aminotransferase	ATGGCCGTTATGTTTGATAAAGATCACTTTGTCGATGATCGTTCGCTGAGTGTTAGTGTGAAGAATAAAGGTTTGAATTACGGCCTGGGTTGTATAGATGGTATCCGAGCTTTTTGGAATGCCGGCCAGGAACAGCTATTATTATTCCGACTAGACGATCATTTAAAGAGATTTGAGCAGTCTGGTGAGAGTTTGTTTATTAAAATCCCTTATTCTATAGAGGAATTATCGTACATCATAAAAAAGATGCTGATCATCAACCGGGTGACTCAGGATGTGTATATACGTCCGATTTGTTTTAAAGACAGCAATACCTTACGTCCCGACTTGAGAGATCCATTTAATCATCTGGCTGTCTACATGGATGAATCAGAATACAAGTCTGAACCTTCCTTTAAGGTGGGGGTTTCTTCCTGGACGAGAATAGGAAGCAATATGATTCCTCCTCAAGCGAAGACGACAGCTGGTTATATGAATTCAGGGTTAGCGATACTTGAAGAATCCTTGAATGGATATGATGAGGCCATCTTCTTAACAAAAGAAGGAAATGTGAGCGAAGGGGCTACGGAAAATATTTTCATCGTTAAAGGAAATGAAGTCTTCACTCCCCCTGTGTCTGATGACATTCTCCCGGGCGTCACTCGTAATACGGTTGCGGAAATATTGGCAGAAGAGTTGAAGTTACCACTGCATGAAAAGAGTTTAGCAAGATTCCAATTATATGATGCGGATGAAATTTTCTTAACGGGAACGGCTGTTGGAATTAAACCGGTGGTGGAAGTTGATCGAAGAGTCATCGGGCAAGGGGAGCCGGGAAAGGTTACGTTGGAAATCCAGCATCTGTACAATCAGATGGTACGGGGCGAAATGCCGGCTTATCTCCATTACTGTACTTCTGTATATTAA	MAVMFDKDHFVDDRSLSVSVKNKGLNYGLGCIDGIRAFWNAGQEQLLLFRLDDHLKRFEQSGESLFIKIPYSIEELSYIIKKMLIINRVTQDVYIRPICFKDSNTLRPDLRDPFNHLAVYMDESEYKSEPSFKVGVSSWTRIGSNMIPPQAKTTAGYMNSGLAILEESLNGYDEAIFLTKEGNVSEGATENIFIVKGNEVFTPPVSDDILPGVTRNTVAEILAEELKLPLHEKSLARFQLYDADEIFLTGTAVGIKPVVEVDRRVIGQGEPGKVTLEIQHLYNQMVRGEMPAYLHYCTSVY	PGPT0008860_5903	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
AK012_02109	822	rutD_2		Putative aminoacrylate hydrolase RutD	TTGTTAGAATATAAGATTTTCGGTAATGATCCAAATAAAGAGTATGTATTCTTGATTCACGGAATTGGGGGAAGCGCCAATATCTTCTTCCCTCAAATAAAAAGCTACCGCAGCCATTTTAATGTGGTGGCGGTGCATTTGAGATGTCATAAAAAGTCTCCAAGCGTTCTTGATGTTGACGATTTCTCATTCCAGCAGGCCGCCCGGGACGTCGTCGACGTACTGGATGACATCGGTGTGAACAAAGCGCACATGGTAGGGATTTCGCTGGGAGCTGTTGTCACACATCAAATCCTCGCGATTGCTCCCAATCGCGTCGAAACGGCTGTCCTTGGCGGAGTGATTACGAAAATCACACCACTGCCTAAACTGCTGCTGCTGATCGGCAGCATGGCCAAAAATTTCGTTCCGCACATGTGGCTTTACACGATATTCGCTCATATTCTTATGCCGCGCAGAAATCACCGGGAGTCAAGAAACTCATTCATTAAAGAAGCAGCCCAGATGAAAAGAAACGAATTCCTCGGCTGGTATGACATTGCTCCGACCGTCAGAGGGACGTTTACAGAAGCCGCCGTACCTTCAGCCCATGTCCCGAAGCTCTACATGATGGGCGAAGGAGATCATATGTTCATCGATCATGTGCTGGAGGATATCTCAGGGCTTCCTCATGCTGATTTTATTGAAGTGAAAGGATCGGGCCACGTCGTAAACCTGGATGCTCCTCACACATTCAACCAGTATTCTTTGTCGTTTATGAAATCAAAAGGGGCTGAGACTGAGGCGCCGGAACAAGAGACCGACAGGAGGCTCCGCTCTTAA	MLEYKIFGNDPNKEYVFLIHGIGGSANIFFPQIKSYRSHFNVVAVHLRCHKKSPSVLDVDDFSFQQAARDVVDVLDDIGVNKAHMVGISLGAVVTHQILAIAPNRVETAVLGGVITKITPLPKLLLLIGSMAKNFVPHMWLYTIFAHILMPRRNHRESRNSFIKEAAQMKRNEFLGWYDIAPTVRGTFTEAAVPSAHVPKLYMMGEGDHMFIDHVLEDISGLPHADFIEVKGSGHVVNLDAPHTFNQYSLSFMKSKGAETEAPEQETDRRLRS				NA	NA	NA	NA	NA
AK012_02110	1170	carC	COG1960	Caffeyl-CoA reductase-Etf complex subunit CarC	ATGCATTTACGCTTGACCGATGAACAGGAAATGGTAAGAAAAACCATTCGTAAATTTGTGGAAAAGGAATTAATACCTCTGGAAAATGATGTGCTGCGCAATGAAAGGGAAGGAAAGCCGAGCCTTCCGGAAGGGAAAATGGAAGAGCTTCAGCAGAAGGCGAAGGAAGCTGGCTTCTGGGGAATCAATACTCCGGCTGAATATGGCGGCGCAGATTTAGGGCAGATGATGCTGGCGATCGTCCAAATGGAAGTCGCACGGACATTTGTGCCGTTCCAGTTCGGCGGCTCGGCAGACAATATTCTCTATTATGGCAATGAGCAGCAGAAGGAAACGTACTTAATCCCGACTATTCAAGGAGAAAAGAAATCCTGCTTTGCGATGACAGAACCGGGGGCTGGATCGGATACGAGAAACCTCCGGACAACAGCTGTGAAGGATGGCAGTGACTGGGTGATCAATGGGGAGAAAACATTCATCACCGGTGGAAATGAAGCAGACTTTGTGATGGTCATTGCGGTGACAAACAAAGAGCTTCATCAAGAATCGAAAGGACGGAAAGGAGTGACCTGTTTCATAGCAGATCGTTCGATGGGATGGGAATCGGAATATATCCATACGATGGGCGAGTGGGGACCGGCTGCTCTTATTTTCGATAATGTCCGGGTTCCGGAGGAAAACATCCTTGGCGAGATTGATCATGGCTACGACCTGGGTCTTGAGTGGATCGGGTTTGCCCGCTGGATCGTCGGAGCACGGGCGGTTGGTGCAGCGGAGCGTCTGCTGAACATGGCCATCGATTATGCGAACGAACGCAAAACCTTCGGAAAACCGATTGGGGAGCGGCAGGCGATTCAATGGCAGATTGCGGATTCCGCTGTAGAGGTGGAAGCAGCGAAGTGGCTCGTATTAAACGCAGCCTTTACGTTGGACCAGGGAGAGGATAACCGGCACTACGCATCGATGGCGAAGCTGTATGGAGCGAATATGGGCAACAATGTCATCGACCGTGTTCTGCAGATTCACGGCGGCATGGGATATACACGGGAACTTCCGATTGAACGATGGTACAGGGAAGCGAGGCTGTGGCGGATTTATGACGGGACAGACGAAATCCAGCGCTTGATCATATCCAGAAATCTACTAAAAGGCCATGTAAAGATTGGTTGA	MHLRLTDEQEMVRKTIRKFVEKELIPLENDVLRNEREGKPSLPEGKMEELQQKAKEAGFWGINTPAEYGGADLGQMMLAIVQMEVARTFVPFQFGGSADNILYYGNEQQKETYLIPTIQGEKKSCFAMTEPGAGSDTRNLRTTAVKDGSDWVINGEKTFITGGNEADFVMVIAVTNKELHQESKGRKGVTCFIADRSMGWESEYIHTMGEWGPAALIFDNVRVPEENILGEIDHGYDLGLEWIGFARWIVGARAVGAAERLLNMAIDYANERKTFGKPIGERQAIQWQIADSAVEVEAAKWLVLNAAFTLDQGEDNRHYASMAKLYGANMGNNVIDRVLQIHGGMGYTRELPIERWYREARLWRIYDGTDEIQRLIISRNLLKGHVKIG	PGPT0008385_5667	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
AK012_02111	765	fabG_6		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAGTGGGAGATTTAAAGACAGGACAGCTTTTATCACTGGTGGAAGCCGGGGGATCGGGAAAGGCATTGCCCGGCATTTCGCAGAAAACGGAGCGAAGGTTTCCGTCATTGATGTGAATGAGGAGGCGCTTCAGGAGCTGGAGGCGGAATTCCGCGAAGAAGGCTTTGAAGTCCTCTGCCAAACAACCGATGTGACCCAGTATAAAGAAGTGGAAGGGGCTGTGAAGGAAACATACGAGCGGTTCGGGTCGGTCGATATTTTGATTAATAACGCAGGCGTCATCCGAGACAATATGCTGTACAAAATGACGGATGAGGATTGGGATACCGTGATGGATGTCCATTTAAAAGGGTCCTTTCATGCAGCCAGAGCCGTTCAGTCGTATATGGTGGAACAGAAGTACGGCCGGATTGTGAACATTTCCTCGACCTCTGCGCTCGGAAACCGTGGTCAGGCGAACTATGCCACCGCTAAAGCCGGTCTGCAGGGCTTCACCAAAACACTTGCGATTGAGCTTGGCAAGTACGGCGTAACTGCCAATGCGGTGGCCCCTGGTTTCATTGAAACTGATATGACAAAAGCGACCGCCGCACGGATCGGGATTACTTTTGATGAGCTTGTCCAGGCCAGCGTGTCCCAGATTCCTGTCGGCCGGAGCGGTAAGCCGGAGGATATAGCAAATACGGTGGCTTTCTTTGCGGATGAAGCGTCATCCTTTGTCAACGGCCAGGTCATCTACGTCGCAGGTGGACCAAGAACGTAA	MSGRFKDRTAFITGGSRGIGKGIARHFAENGAKVSVIDVNEEALQELEAEFREEGFEVLCQTTDVTQYKEVEGAVKETYERFGSVDILINNAGVIRDNMLYKMTDEDWDTVMDVHLKGSFHAARAVQSYMVEQKYGRIVNISSTSALGNRGQANYATAKAGLQGFTKTLAIELGKYGVTANAVAPGFIETDMTKATAARIGITFDELVQASVSQIPVGRSGKPEDIANTVAFFADEASSFVNGQVIYVAGGPRT	PGPT0003180_7156	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
AK012_02112	435			hypothetical protein	GTGTTTAAAGAAGCAGTAGGGAAAAAATCGAGGCCGGTAAAGAACGTCGTTGAACGCGGGGCTGTGAAGAAATTCGCAGAAGCCATCGGTGACCCGCATCCTTTGTTTACCGATGAAGAAGCGGTGCAGAGAAACATAGCTCCACCTACGTTTCCCCGGGTATTCGAGTACGGCGGAATCGAGGGGCTCCATCTTCCCGAAAAAGGTTTGATTCACGGGGAGCAGCACTATCACTACAACCGGCCTTTATATGTAGGAGAAGAAGTCTTCTGTTATGCCCAGGTGGACGATTATTATGAGCGGAACGGGCGCAGCGGTGATATGGGTTTTCTCAAAGTGAAGCGGTACGGCGAAGATATCGACGGCCGTCTTATTTTCTCTGAGGAGCAGGTCGTGATTATTACGGAAGCGGTCAGGAAGGGGATGAACGTATGA	MFKEAVGKKSRPVKNVVERGAVKKFAEAIGDPHPLFTDEEAVQRNIAPPTFPRVFEYGGIEGLHLPEKGLIHGEQHYHYNRPLYVGEEVFCYAQVDDYYERNGRSGDMGFLKVKRYGEDIDGRLIFSEEQVVIITEAVRKGMNV				NA	NA	NA	NA	NA
AK012_02113	420			hypothetical protein	ATGAACCCATTGGACGGCGTCCAGCCCGGAGACAAGCTGAAGACGGTGACACTTCCGGCTGTGACACGATTGGATCTAATCAAATATGCCGGGGCATCCGGGGATTATAATCCGATTCATACGATTGATGAAGAAGCGGAAAAAGCCGGGCTTCCCGGTGTGATTGCGCATGGCATGTGGACGATGGGGAGTCTGGCCAAGCTGTTCACTCCTTTTTATGAAGATGGATTTATCCAGGATTACTCCATCCGGTTTCAAGGGATGGTGTACGTCGGAGATGTCCTGACGCTTCATGCGGATGTCGTCAGTCATGAAGCCTCCATGATTACATTTGATGTTTATGCGAGAAATCAGCAGGAGAAAGATGTGATTCGTGGAAATGTGGTATTCAGGAAGCCTTTAGAAACTTCAGCTACATAA	MNPLDGVQPGDKLKTVTLPAVTRLDLIKYAGASGDYNPIHTIDEEAEKAGLPGVIAHGMWTMGSLAKLFTPFYEDGFIQDYSIRFQGMVYVGDVLTLHADVVSHEASMITFDVYARNQQEKDVIRGNVVFRKPLETSAT				NA	NA	NA	NA	NA
AK012_02114	1233	bbsG		(R)-benzylsuccinyl-CoA dehydrogenase	ATGTATTTTGAGCATTCCGAGAAAGTGAAAGAACTGCAGGAGAAACTGACGACATTCATGGAGAAGCACATTTATCCCAACGAAGCCTTGTATGAGGAGCAGTTGAAAAAGGAGGACCGTTTTTCGGAAATCCCACCGATCATGGAGGAATTGAAAGCGAAGGCAGAAGAAGAGGGGTTGTGGAACTTATTCCTCCCTGAAAGTGAATACGGGGCCGGTCTTACGAATATGGAATATGCGCCGCTCTGTGAGATCATGGGACGTTCGGCGATTGCCCCTGAGGTATTCAACTGTGCTGCCCCTGATACAGGGAACATGGAAGTGCTCGTCCGCTACGGGACAGAGGAGCAGAAACAGCAGTGGCTGGAGCCTTTGCTGCGCGGGGAAATCCGCTCCTGCTTTTCAATGACCGAGCCGGATGTCGCTTCTTCCGATGCCACAAACGTACAGACAAGTATCACGAGAGTTGGAGATGAATATGTCATTAACGGGACGAAATGGTGGTCCTCGGGTGCTGGTGATCCCCGCTGCAAAATCAGTATCGTAATGGGTAAAAACGATCCGGATGCGGCACGGCATGAACAGCAGTCGATGATCCTTGTGCCGCTTGATTCCGAAGGTGTTACGATAAAGCGCTTACTTCCGGTTTTCGGCTATGATCATGCCCCACATGGGCACGCAGAGATTGAATTCAAGGATGTCCGTGTTCCAGCCTCCAACCTGCTGTGGGACGAAGGCAAAGGTTTTGCTATCGCCCAGGGACGGCTTGGACCGGGGCGGATTCATCACTGCATGCGCACAATCGGCGCCGCAGAACGGGCGCTCGAACTGATGTGTGAACGGGTGAAAAGCAGACAGGCTTTTGGTAGACCACTGGCCGATCAAGGAGTAGTCCGTGAGTGGATTGCGGAATCACGAATGGAAATTGAACAAGCCCGGCTTCTTACTCTGAAAGCGGCCTATATGATGGATACCGTCGGCAACAAAGAAGCTAAATCAGAAATCGCCATGATTAAAGTGGTGGCACCGAACATGGCGTTGAAAGTCATCGATCGTGCGATCCAGGCCTTCGGGGCTGCCGGCGTAAGCGGAGATTTTGAACTGGCGGCCAACTGGGCCAACATCCGTACATTACGGCTGGCAGACGGACCGGATGAAGTCCACCGCAGGGCAGTAGCCAAATATGAACTGGCGAAAGATTATGGAAGGAGCCCTGTCCATGCACGCCGGTGA	MYFEHSEKVKELQEKLTTFMEKHIYPNEALYEEQLKKEDRFSEIPPIMEELKAKAEEEGLWNLFLPESEYGAGLTNMEYAPLCEIMGRSAIAPEVFNCAAPDTGNMEVLVRYGTEEQKQQWLEPLLRGEIRSCFSMTEPDVASSDATNVQTSITRVGDEYVINGTKWWSSGAGDPRCKISIVMGKNDPDAARHEQQSMILVPLDSEGVTIKRLLPVFGYDHAPHGHAEIEFKDVRVPASNLLWDEGKGFAIAQGRLGPGRIHHCMRTIGAAERALELMCERVKSRQAFGRPLADQGVVREWIAESRMEIEQARLLTLKAAYMMDTVGNKEAKSEIAMIKVVAPNMALKVIDRAIQAFGAAGVSGDFELAANWANIRTLRLADGPDEVHRRAVAKYELAKDYGRSPVHARR	PGPT0008385_3042	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008385-acd-K00249	NA	NA
AK012_02115	774	gno_3		Gluconate 5-dehydrogenase	ATGCACGCCGGTGAGCTGTTCAATCTCACGGGTCAGGTAGCGGTCGTTACAGGCGGTGGGCGCGGTCTTGGCAGACAGATGGCTGAAGGTTTGGCAGAGTCCGGCGCTCATGTCGTCGTCTGTTCCAGGAAGTATGAGCCCTGCCGGGAAGTGAGCGAGCAGTTGAAGGAGCTCGGCGTGGATTCTCTGGCATTCGCTTGTGATGTCACCGAACCGGACGCCATCCAGGAGATCGTGGACAAAACCGTCGATCACTTCGGGAAAATTGATATTCTCGTCAACAACAGCGGAGCGACCTGGGGTGCTCCGGCTGAGGAGATGCCGCTGGCGGCCTGGAACAAGGTATTCCAAGTGAATGTGACCGGCACCTTCCTCATGTCCCAGGCGGTCGGCCGTGTGATGCTGGAGCAGGGAGAAGGAGCGATCATCAATATCTCTTCTGTCGCAGGCATGAAAGGATCGGACCCGGAGTATATGGATACGATCGGCTACAATTCCAGCAAAGGTGCCGTTTTAACCTTTACTAAAGATCTGGCGGTGAAATGGGGGCCGCGCGGCATCCGCGTCAATGCCATCGCGCCGGGATTTTTCCCGACAAAAATGTCGAAAGTGCTTATGGAGCGGAGCGGGGAGGCATTCTTGAAGAATACGCCGCTCCGGAAGTTCGGCTGTGAAGATGACTTAAAAGGTGCGGTGATTTTTCTCAGTTCGAAAGCATCAAAACATATCACGGGCGATGTGATCATCGTTGATGGTGGATCACATGCCATGTGA	MHAGELFNLTGQVAVVTGGGRGLGRQMAEGLAESGAHVVVCSRKYEPCREVSEQLKELGVDSLAFACDVTEPDAIQEIVDKTVDHFGKIDILVNNSGATWGAPAEEMPLAAWNKVFQVNVTGTFLMSQAVGRVMLEQGEGAIINISSVAGMKGSDPEYMDTIGYNSSKGAVLTFTKDLAVKWGPRGIRVNAIAPGFFPTKMSKVLMERSGEAFLKNTPLRKFGCEDDLKGAVIFLSSKASKHITGDVIIVDGGSHAM	PGPT0018065_1198	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
AK012_02116	1176	thlA_2	COG0183	Acetyl-CoA acetyltransferase	ATGAGTGATCGACAGGCTGTCATCGTTTCAGCCGTAAGGACCGCGATAGGCAGGCAGGGCGGAGCGCTGGCTTCTGTGCCCGCCCACGTTCTTGGAGCGGAAGTGATCAAAGAAGCGGTGAAGCGTTCGGGTGCACAGGCAGACAGCATAGAAGACGTCATTTTTGGAAACGTGCTGAGTGGCGGTGGGAACATTGCGAGACTTTCAGCCCTGCAGTCCGGGTTATCAATGGAACTTCCCGGCCTGACTGTCGACCGCCAGTGCGGATCGGGGTTGAATGCGATCCACCTGGCAGCCCAGGCGGTTGCGGCTGGACATGGGGATGTTTATGTGGCAGGGGGAACGGAAAGTATGAGCCGGGCACCGTACTTGATGGACAAGCCTGAACGGGCTTACAGTCCGTCACCACCGCAATTTAGAGGATCACAGCTGTCTCCGGAGGAAATCGGCGATCCACCGATGGGAATGACAGCGGAAAACCTGGCTGAAAAATACCGGATCTCCAGAGAGGATCAGGACCAGTTTGCACAGACAAGTCAGGAACGGATGGCAGCTGCTGTGGAAGCCGGCCGTTTTGCTGAGCAGATCGTCCCCCTTCACATCCCAGTGAAAAAAGGAGACCCGGTCGTATTTGATACAGATGAGCATCCACGCCCGAACTCTACGCTTGAGGGCATGGCGAAACTTCCACCGGCTTTTCGGAAGGACGGGTCCGTAACGGCAGCCAACAGCTCGGGATTAAATGATGCGGCTTCAGCTCTTACAATCATGTCGCGGGCCAAAGCGGAGGAAATCGGAGCTTCTCCTATGGCTGAAGTCCTCGGCTGTACGGTTGCAGGTGTAGACCCCAACATTATGGGGATCGGTCCGGTGCCGGCTGTGAAGAAGGTCCTGAAGAAAACGGGCTTATCCCTGGAAGATATGGACGTCATTGAAATCAATGAGGCGTTCGCAGCCCAAGTATTAGCCTGCCAGGCGGAACTGGACATGAACATGGATAAAGTGAATGTGAACGGCGGTGCCATCGCTCATGGTCATCCCCTCGGAGCAACAGGAGCGATCCTTGCAGTGAAAGCTATTTACGAACTGCACAGGCAGGAGACGTCTTATGCCCTGATCACCGCGTGTATCGGCGGCGGGCAGGGGATCGCTATGATTTTGGAACGTTCGAAATAA	MSDRQAVIVSAVRTAIGRQGGALASVPAHVLGAEVIKEAVKRSGAQADSIEDVIFGNVLSGGGNIARLSALQSGLSMELPGLTVDRQCGSGLNAIHLAAQAVAAGHGDVYVAGGTESMSRAPYLMDKPERAYSPSPPQFRGSQLSPEEIGDPPMGMTAENLAEKYRISREDQDQFAQTSQERMAAAVEAGRFAEQIVPLHIPVKKGDPVVFDTDEHPRPNSTLEGMAKLPPAFRKDGSVTAANSSGLNDAASALTIMSRAKAEEIGASPMAEVLGCTVAGVDPNIMGIGPVPAVKKVLKKTGLSLEDMDVIEINEAFAAQVLACQAELDMNMDKVNVNGGAIAHGHPLGATGAILAVKAIYELHRQETSYALITACIGGGQGIAMILERSK	PGPT0008320_11613	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
AK012_02117	570	kstR2_2		HTH-type transcriptional repressor KstR2	ATGAAACAGGAAATCATTCAAACAAGTATTCATTTATTTGATAAAAAAGGCTTCACCGAAACATCTCTCCAGGAAATTGTCGAGGAGATCGGCGTGACCAAAGGAACATTTTATTACTATTTTAAAAATAAGCAGGAGCTGCTGACAGATATCCATCTGGATTTCATCGAATTCCTGCTCGGAAACCAGCAGAAAATCTTAAACGACACCAAACAGAATTCCAAAGAGAAACTCCGCTCGATGATTTTCATGGTGCTCGACAGCATCAAGTACAGAAAAAAGAGTGCACGGATCTTTTTCCGTGAAATTCGTAACCTCGGTCCAGATTATTTAGAACAGATTGTGGAAAAGAGGGATCAATTCCGCGTAAACCTCCAACAGCTGGTGGAAGAGGGAATTGAAAAAGGAGATTTCCAGAGCAATCTGGACCCCAACATGGTGACAAGAGGTATCCTGGGAATGACAAACTGGAGTTATTACTGGTTTGATCCGGACAGGGAAGTATCGGCTGAAGAACTGACGAACATATACTTGTCCATGATCTTAAATGGAATCAGCTCCAACGAGTGA	MKQEIIQTSIHLFDKKGFTETSLQEIVEEIGVTKGTFYYYFKNKQELLTDIHLDFIEFLLGNQQKILNDTKQNSKEKLRSMIFMVLDSIKYRKKSARIFFREIRNLGPDYLEQIVEKRDQFRVNLQQLVEEGIEKGDFQSNLDPNMVTRGILGMTNWSYYWFDPDREVSAEELTNIYLSMILNGISSNE				NA	NA	NA	NA	NA
AK012_02118	414		COG0824	Putative esterase	ATGATTTATAAAAATACGGCAGCGATCCGGTTTTCGGAAACGGATATGGCCGGGCATGTGAATAACACGAGCTATTTCATCTACTTGGAGGAGGCGCGGGGGAAGTTTTTTCGCGACTTGTTTCAGGCGCAGGAGGATACGCCTGGCCGATTTATCCTCGCGTCAACGAAGTGTGATTTCATCAGTCAGGTCTATTTCGGACAGAACCTGCTCATTGAAACGACGATAGCTGAGATTGGAACTTCCAGTTTTACGTTTGCCCACCGCGTTTATGTAGAAGGCACGGATCTGCTTGCAGCTGTATCCGAAGCGGTTGTTGTCCATTTCAATTATGAAAAACAGAAGAGCGAAGCCCTGCCGGCAGAATGGCGGATGATGCTTGAGGATTACGTAACAAAGGGGGTGAACCTATGA	MIYKNTAAIRFSETDMAGHVNNTSYFIYLEEARGKFFRDLFQAQEDTPGRFILASTKCDFISQVYFGQNLLIETTIAEIGTSSFTFAHRVYVEGTDLLAAVSEAVVVHFNYEKQKSEALPAEWRMMLEDYVTKGVNL	PGPT0001850_7906	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
AK012_02119	762	cpnA_2		Cyclopentanol dehydrogenase	ATGAGCCGTTTTAAAGACCGCGTGGCCGTCGTGACAGGAGCCGGCAGTGGAATCGGGGAACAGACGGCGAAAAAGCTCGCTCTTGAAGGCGCAGCTGTTGTCCTTGTTGGTCGGACAAAGGAAAAGCTGGACCGGGTGGCCGCTGACATTCTCGAAGGCGGGGAAGCGGAAGTTTTTGTTTTCCAGGCGGATGTGAAGGAAGAGAGTCAAGTAGCTGGACTGGCTTCCTTCGTCAAAAAAACGTTTGGAGACGTTCATATCCTTGTGAACAATGCAGGAACATCCGGCAATGCGGCGATTATGGATTTGGATGCCGATGAATGGGACAGGATACAGGAAACGAACGTTAAAAGTGTTTTTCTCATGTCCAAGGCGCTCGGGAAAATCATGATGGAAGGCCCCGAGGGTGCGCGGGCGATCGTCAATGTAGCTTCGCTGTCCGGCCATAAGGCAGGAGCGCAGATCCCGCACTACAGTTCATCCAAAGCGGCGGTGATTCATTTCACGCGATCCCTTGCCCTTGAATTTGCTGAAAAAGGGATCCGCGTCAATTCCGTTTCGCCGGGGTTCGCTGAAACCCCGATGACGTCGGAAGGCTTGAAGAATAAACGTTTTGAAGAGGCTGTGAAGCGCAATACAGCGCTTGGGAGAGTCGGACAGCCGGAGGAAATCGCAAGCGTCATCTGTTTTGCTGCTTCAGAGGAGGCCTCTTACATGACAGGCTCGGATCTTCTGGTTGATGGAGGATGGCTCATAAGGTAG	MSRFKDRVAVVTGAGSGIGEQTAKKLALEGAAVVLVGRTKEKLDRVAADILEGGEAEVFVFQADVKEESQVAGLASFVKKTFGDVHILVNNAGTSGNAAIMDLDADEWDRIQETNVKSVFLMSKALGKIMMEGPEGARAIVNVASLSGHKAGAQIPHYSSSKAAVIHFTRSLALEFAEKGIRVNSVSPGFAETPMTSEGLKNKRFEEAVKRNTALGRVGQPEEIASVICFAASEEASYMTGSDLLVDGGWLIR	PGPT0008190_461	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
AK012_02120	1680	lcfB_3	COG0318	Long-chain-fatty-acid--CoA ligase	ATGCTGACCAAGCATTATGATTTCTGGCCGACGTTAACGAAGACGCTCACGATTCCTGAAACGACCCTTTATGATAATCTGCGTATGTCCGCCGAGCGCTATCCGTCGCACGAAGCGATTCGTTATTATGGAACAGGTTTGTCCTACGGGGATTTGAAGGAACAGGTGGACAGCCTGGCCGGGTACCTTCAAGTCCATCTGAATGTGGACAAAGGAGATAAGGTGCTGTTGTTTATGCAGAACTCTCCGCAGTTCATCATCGGGTATTATGCGATAGTAAGGGCAGGGGCGGTCGTTGTACCGATCAACCCGATGCTGAAAACAGGTGAACTGGAGTTTTATGTGAAAGACGGGGCGATCAAGCATGCTCTCGCTGGTCAGGAATTGATGGATGTTGTGGAGCCGCTGCTGAAATCGACGTCTTTGGAATATATCGTGTCTGCTGCCTATTCCGATTATGTGAAGGAAACCGGAACGGTAGATCTCCCGCCGGAAGTGTCCGCCGCTAAACAAGTGTATACCGAAGAGGCGGTCCATATATGGTCCGAAGCTCTGGGGTTACATGTGCCGGCTGAAGATGTCGCCGCGAGCGCAGACGATCTTGCTGTCATGCCGTATACGTCAGGGACGACCGGACTTCCGAAAGGCTGTATGCATACACACCGGACCGTCCAGGCGAATACCCTCGGCGCCTATTACTGGTCCCGGGTGACGATGGATGCCCGTTCGCTCGGGACGCTTCCATTGTTCCACGTCACAGGTATGGTCCACAGCATGCACATGCCGATTTACAGCGGCAGCACGATGGTGCTTATGACGCGTTGGAACAGGGAAACCGCCCGTCAGCTGCTGCGCGGGGAGCAGTGTACCCACTGGGTTACCATCAGTACGATGCTTGTTGATTTCCTTGCGAACACTGAGCTGCAGGCGGAGGATATGGCTTCCCTCCATGGCATATCCGGAGGCGGTGCGGCTTTTCCGAAGGCGCTTGGAGAAAAGCTGTACAAGCTGACAGGCCTTGAATTTGTCGAAGGGTACGGGCTTTCAGAAACCATCGCCCAGACCCATTTCAACCCCCAGGAGCGGCCGAAGATGCAGTGCCTCGGTATCCCTTCTTTTGATGTCGATTCGAGAATCATCGATCCCGGAACTCTTGAGGAAGTGGGCGTTGGTGAGATTGGCGAAATTGTCGTCAACGGACCGCAGGTGATGACCGGTTATTACAACCGGGAGGGTGAAAACGAACATGCGTTTATCGATATCGAAGGAAAATCCTTCTTCAGGACCGGAGATATTGGACGCTATGATGAAGAAGGCTACTTCTTCATGGTTGATCGTCTGAAGCGGATGATCAACGCATCGGGCTACAACGTCTGGCCGACAGAAGTCGAGTCGGCGTTATACGACCATCCGGCTGTCCAGCAGGCGTGCGTTGTCGGAGTTCCCGACCCTAGAAAAGGAGAGGAAATCAAAGCTTTTGTCATATTAAATGACGGCTGGGAAGGACAAGTCGCTGAAGAGGAGATCATTTCCTGGTCCAAAGAGAAAATGGCCGCCTATAAATATCCGCGCAAGGTGGAATTTGTGCGGGCATTCCCGATGACCAACAGCGGGAAAATTCTCTGGCGCAAGCTTCAGGAACAGGAAAGGCAGAAGGCAGAAACCGGACCAGTGGAATAA	MLTKHYDFWPTLTKTLTIPETTLYDNLRMSAERYPSHEAIRYYGTGLSYGDLKEQVDSLAGYLQVHLNVDKGDKVLLFMQNSPQFIIGYYAIVRAGAVVVPINPMLKTGELEFYVKDGAIKHALAGQELMDVVEPLLKSTSLEYIVSAAYSDYVKETGTVDLPPEVSAAKQVYTEEAVHIWSEALGLHVPAEDVAASADDLAVMPYTSGTTGLPKGCMHTHRTVQANTLGAYYWSRVTMDARSLGTLPLFHVTGMVHSMHMPIYSGSTMVLMTRWNRETARQLLRGEQCTHWVTISTMLVDFLANTELQAEDMASLHGISGGGAAFPKALGEKLYKLTGLEFVEGYGLSETIAQTHFNPQERPKMQCLGIPSFDVDSRIIDPGTLEEVGVGEIGEIVVNGPQVMTGYYNREGENEHAFIDIEGKSFFRTGDIGRYDEEGYFFMVDRLKRMINASGYNVWPTEVESALYDHPAVQQACVVGVPDPRKGEEIKAFVILNDGWEGQVAEEEIISWSKEKMAAYKYPRKVEFVRAFPMTNSGKILWRKLQEQERQKAETGPVE	PGPT0008380_9014	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK012_02121	864	livH	COG0559	High-affinity branched-chain amino acid transport system permease protein LivH	ATGGATATCTTCATTCAGCAGGTGTTTAATGGTTTGACGATTGGCAGTGTCTACAGTCTCGTGGCGCTTGGTCTGACGCTGGTGTACGGCATCCTTCACATTCCGAACTTTGCCCATGGCGCATTATACATGCTGGGTGCGTACATAACCTTGACGATGATGCTTTTGTGGGGCATTCATTACTGGATTGCAATGGCCGTGTCTGTTCTCGTCGTCGGTCTGCTCGGGGTTTTAATGGACAGACTGGTGTTCCATCCCCTCCGAAATGCACCACCGATTCATGACAAAATAGCGGCGATCGGTATTCTGTTGTTTCTCGAAGCCTTTGCCCAGCTGATCTGGGGAGCGGACTACCGTACGATGGAAACCCCGTATGGCCAGGTCGTCAACCTTTTTGGTATGACAGCAACTACGCAGCGTGTCCTGATTAATATCGGAGCGGTCGTCGTCATGATTCTGCTTTATGTGTTTTTAAAGAAGACGTACACCGGCTCCACAATTATTGCCATGGCGCAGAACCGTGAAGGGGCCAGCCTTGTCGGGATCAACACGAGCAGAGTAGCCATGTTGACGTTCATGCTGTCCGGCGGGCTCGCTGCTGTTGCTGCTTCCTTGTCAGCCCCTATTAACCTTGTATTTCCCGGTATGGGGCATCTCGTTATTCTGAAAGCTTTCGTCATTATTATCCTTGGAGGGATGGGGAGCGTCCCCGGTGCCATTTTAGGGGGATACATTCTCGGGTTTACTGAAAGTCTCGGAGCCACGTACATTTCGAACGACTACAAGGATATCATCGCCTTTTTAATGCTTGTGGTCATTCTGTCGATCAAGCCTAAAGGATTGTTTTCAAGGGAGGGCTTTTAA	MDIFIQQVFNGLTIGSVYSLVALGLTLVYGILHIPNFAHGALYMLGAYITLTMMLLWGIHYWIAMAVSVLVVGLLGVLMDRLVFHPLRNAPPIHDKIAAIGILLFLEAFAQLIWGADYRTMETPYGQVVNLFGMTATTQRVLINIGAVVVMILLYVFLKKTYTGSTIIAMAQNREGASLVGINTSRVAMLTFMLSGGLAAVAASLSAPINLVFPGMGHLVILKAFVIIILGGMGSVPGAILGGYILGFTESLGATYISNDYKDIIAFLMLVVILSIKPKGLFSREGF	PGPT0020770_9058	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
AK012_02122	1026			hypothetical protein	TTGGTCTCACTTCTGAGAAACAGAGGATGGATCATTGGGTTCATCGCTGCCGGTGTTTTATTTCCTTTTGTTCTGCCCAACGCCTATTTTCTGCATATTTTAACGCTCGCCTTTATTTGGATGATCGCCGTGTACGGCCTGAATCTCCTCGCCGGCTATACCGGTTACTTGTCCCTGGCCCACGCTGGATTTTTTGCCGTTGGAGCCTATGGTTTGGGACTATTGACGGTCAAGACAGGAATGAACTACTGGATCGCGCTCCTTCTGGCCTGTGTAATCACCAGTGCTCTCGGATTGGTCGTCGGTCTCGTTGCCTTAAGGACGAGGGAGCACTTTTTTGCCATCTATACGCTGTGTGTCGGATACATCATCTACCTCATCATCGATAAATGGGACAGCTTAACCGGCGGCGTACGCGGGTTGATCGGCATCCCGGAACCTTCCAATATCGGACCGATATCCTTCCAGACACCGATTTCTCAATACTACTTAATTTTTGCTTTTCTTCTGCTTACCATTCTGATTATGTACCGTATTGTCCATTCATTGACCGGCCGGACGTTTATAGCGATCCGCAACAGTGAAGATCTGGCCCGCACGCTTGGCATATCCACGATGAAAAATAAACTGATGGTTTTTGTCCTTACGGCTTTTTTTGCGGGACTTGCCGGAGCTTTATACGCCTCCTTTATCCGCTTCATCGGTCCGGATATCGGTTACATCACGATTATCTTTGATCTGCTGACTTATTTGTTGGTTGGCGGAATCGGAACACTCGCCGGTCCTATCGTAGGAACCTTCCTCATTGTCGCCCTGTCCCAGTCGCTGCAGTTTCTTCAGGATTACCGGATGCTCATATTCGGTCCGCTTTTAACTATATTGATCATTTTTTATCCACGGGGGATTGTGGGAGCTTATCATGACTGGCGTTTGAAACGGAAGGCTGCTCAACGGACGCGCCCGCAGAAGGAGCAGGAGTACTTCGAGACAGAAGAAGAAACAGAGAAGCAGGTGAAGGAGGGATGA	MVSLLRNRGWIIGFIAAGVLFPFVLPNAYFLHILTLAFIWMIAVYGLNLLAGYTGYLSLAHAGFFAVGAYGLGLLTVKTGMNYWIALLLACVITSALGLVVGLVALRTREHFFAIYTLCVGYIIYLIIDKWDSLTGGVRGLIGIPEPSNIGPISFQTPISQYYLIFAFLLLTILIMYRIVHSLTGRTFIAIRNSEDLARTLGISTMKNKLMVFVLTAFFAGLAGALYASFIRFIGPDIGYITIIFDLLTYLLVGGIGTLAGPIVGTFLIVALSQSLQFLQDYRMLIFGPLLTILIIFYPRGIVGAYHDWRLKRKAAQRTRPQKEQEYFETEEETEKQVKEG	PGPT0020775_5817	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
AK012_02123	765	lptB	COG1137	Lipopolysaccharide export system ATP-binding protein LptB	ATGTTGATGGAGACAAAAAAACTGACGAAGCGGTTTGGTGGTCTTACTGCTGTCAACGATGTGGATTTTACAATTGAAAAAGGGAAGATCAATGCCATTATCGGACCGAACGGAGCCGGAAAGTCCACCTTTTTCAACCTGCTGAGCGGGACCTACACCCCTTCCGAGGGTCAGGTATTTTATAAAGGACAGGACATTACGAAACGCCCGCCCGACAAAATCGCCAGGCTTGGCGTGGCCCGGACGTTCCAGACGAACCATTTGTTTGAAGAATCCACCGTGCTGGATAACGTGATCGTTGGTCACCGCCTCCGGACTTCCTCGAATTTATGGGACGCTGTTTTTCGTACAAGGCGGTTCAAATTCGAAGAAAAGAAATGCCGGGATAAAGCGATGGAAGTGCTGGACTTTGTGGAACTCACCCATGTCATGGACGAGCCGGCCGGAAGCATTACACAGGAGGAGAAGAAGAGGGTGGCGTTCGCCCTTGCTCTGGCCACTAATCCCGAAGTGGTCTTTCTGGATGAGCCGACAGCAGGTATCAACCCCGGGGAAACCGAGGGTCTGGCCTCACTTATGGAAAAAATGGTGCAGCGGGGTATTACCGTCTGTTTGATTGAGCACAAAATGAAAATGATCATGAAGCTGGCGGACAAAATCATGGTGCTCAATTATGGAGAGAAAATCGCTGAAGGAACGTCCGAGGAAATCATGAATAACCAAGCGGTCATCGAAGCTTACTTAGGAGGCGGTGCAAGTGCTTGA	MLMETKKLTKRFGGLTAVNDVDFTIEKGKINAIIGPNGAGKSTFFNLLSGTYTPSEGQVFYKGQDITKRPPDKIARLGVARTFQTNHLFEESTVLDNVIVGHRLRTSSNLWDAVFRTRRFKFEEKKCRDKAMEVLDFVELTHVMDEPAGSITQEEKKRVAFALALATNPEVVFLDEPTAGINPGETEGLASLMEKMVQRGITVCLIEHKMKMIMKLADKIMVLNYGEKIAEGTSEEIMNNQAVIEAYLGGGASA	PGPT0020780_7028	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
AK012_02124	708	livF	COG0410	High-affinity branched-chain amino acid transport ATP-binding protein LivF	GTGCTTGAGTTAACCGATGTTTCCATTCAATATGGATCCTTTACCGCTGTAGAAAAAATCAATATTCAAGTAGGAAAGGGAGAACTGGTCGTTCTGCTCGGTTCAAACGGAGCAGGAAAAAGTTCGACGTTCAACACCATCAGTGGTCTGCAGAAGCCGAGTTATGGAACCATCTTTTTGGAGGAACGCCCGATTCAAGGGTTGGGTCCTGACAAAATCGTCCGTTCTGGAATTGTGCAGTGCGCGGAAGATCGAAAGCTTTTTCCGCAGATGACGGTGAAGGAGAACCTTGTTATGGGAGGCTATGTTCACCGGAGGAAGCGGAAGCAGGTCAATCAGTCTTTGCAGGATGTCTTTGAACTTTTTCCGGTTTTACAGGAGAAAAAAGATCAGCCCGCAGGGTCCTTAAGCGGTGGACAGCAGCAGATGCTCGCGATTGGGCGTGCGCTCATGGCGAAACCGAAGCTGCTGCTGCTTGATGAGCCGTCCATCGGTCTTGCGCCGCTCATTGTGGAGCAGATGTTTGAAGTGATTCAAAAAATCAATAAAGACGGTACGACAGTGCTGCTTGCCGAGCAGAATGCTTTTGCAGCTTTGAAGATCGCCGACCGCGGCTATGTTTTTGAAAGTGGATCCGTTGTTGTAGAGGGGACAGCGGAAGAACTGCTTGCTAATGATACGGTCCGTAAAGCTTATATCGGGGCCTGA	MLELTDVSIQYGSFTAVEKINIQVGKGELVVLLGSNGAGKSSTFNTISGLQKPSYGTIFLEERPIQGLGPDKIVRSGIVQCAEDRKLFPQMTVKENLVMGGYVHRRKRKQVNQSLQDVFELFPVLQEKKDQPAGSLSGGQQQMLAIGRALMAKPKLLLLDEPSIGLAPLIVEQMFEVIQKINKDGTTVLLAEQNAFAALKIADRGYVFESGSVVVEGTAEELLANDTVRKAYIGA	PGPT0020785_6868	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
AK012_02125	1224			hypothetical protein	ATGCAGATGATCAAAGGTTCAGGCGTTTTCCTATTCGCCGTCCTGCTTCTTCTTCTCGCCGGCTGTATTGATAATCCATCGAACCAGTCCGCAAGCGGAGGAGGCAGTGAGACGGAGTCCGAAGCACCGGAGGTTGAAGAAGGAGAGGAAGTTGTCAGTATCGGCTACAGTGGTCCATTGAGCGGACCGGCTGCCTATTACGGCGAGCGTACATTAAACGGACTCAAGCTTGCGGTGGATGAAATCAACAACAATGGCGGCTTTGAGATCGAAGATCAGACGTATAAGTTCAATCTCGTGTCGCTGGATGATAAGTATCTGCCGAATGAAACAGCCGCCAACGCCAAGCGGCTGATTCAAGAAAACAATACACCGGTCATTTTCTCCCCGCACAGCGGCGGGATCAAGGCGATGCAGGTATTCAATGAACAGGAGAACTTTTTGATTGGTGCCTACACGAGTGAGCCTGCGGTTACATCTGAAGGAAACACGCTGACGGTCCGTGTTCCCCCAAGCTATGACGGCTATCTTGAACCATTTACATCTTATGCGATGGAAAATCACGGCATGAAGCTGGCGGCCCTGCCAACGGCCTCGCAGTATGGGAAGGACTGGACAGAAGCCGTTGTGCCTTACTGGAAGGAACAAGGCGGGGAAGTGGTGTACAATTCCTCGATTGATTTTTCCAAGGATACTGACTTTTTCACTCTCGTGACCAATGCGTTGAAGGAAGATCCGGACGTTCTGTTTATCGGCGGCCCCTCAGAGCCGACCGCTAAAGTAGCGAAGCAGGCACGGGAGCTTGGATTCGAAGGCGGTTTTATGGTTATGGACCAGGCCAAGCTTGATGAAATGGAGGCGGTTACAGGATCATATGAATCGCTGGAAGGTTCCGTCGGTGTCCTGCCGCTGGCCAATTCTGAATACCCTGGCACCCCTGCGTTTATTGAAAAGTATAAAGAAGAGCACAATGAAGTGCCGGGATCTGAAGCGGGTTACCATTATGTAGCGCTGAATATATTGATGGAAGCGATGAAGGCCGCAGGCAGCGTCGACGATCCAAAAGCCATCCGCAGTCATATTCAGGATGGGCTCGATGCGCTGCCGGAGGAAAAAGAGGTGTACACCATTGAAGAGGTTGATGAAGATGGCGGTTTTGCGACGGATTTAAGCATTGCTGCTGTGGAAAACGGCGAAATAGTAACGATTGAAGTCAACGATTGA	MQMIKGSGVFLFAVLLLLLAGCIDNPSNQSASGGGSETESEAPEVEEGEEVVSIGYSGPLSGPAAYYGERTLNGLKLAVDEINNNGGFEIEDQTYKFNLVSLDDKYLPNETAANAKRLIQENNTPVIFSPHSGGIKAMQVFNEQENFLIGAYTSEPAVTSEGNTLTVRVPPSYDGYLEPFTSYAMENHGMKLAALPTASQYGKDWTEAVVPYWKEQGGEVVYNSSIDFSKDTDFFTLVTNALKEDPDVLFIGGPSEPTAKVAKQARELGFEGGFMVMDQAKLDEMEAVTGSYESLEGSVGVLPLANSEYPGTPAFIEKYKEEHNEVPGSEAGYHYVALNILMEAMKAAGSVDDPKAIRSHIQDGLDALPEEKEVYTIEEVDEDGGFATDLSIAAVENGEIVTIEVND	PGPT0020765_4344	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
AK012_02126	1158	mmgC_3	COG1960	Acyl-CoA dehydrogenase	GTGGCCATGGATTTTCAACTGGACGAACAGACGACAGCTTTGAAAAAGAGTGTCAGGGATTTTGTGCAGACAGAGGTGGAAGGGGCTGCCACAGTGATTGAAAAGGAAGACTGTATTCCGGAATCGATTATGACGATGTCCCGCGACCTTGGGCTGTTCGGATTGAGCATCCCGGAGGAATACGGCGGACTGGGGATTTCTATGGTCGGAAAATGCGCCCTCTATGAAGAAATCGGTGCGACACACAACGGATATACAACAGTGATCGGCGCACATACAGGCATTGGCAGCGTGGGGATTGTCGAGCTTGGGACCAAAGAGCAGAAAGTCAAGTACCTGCCACGGATGGCGGCAGGAACATCGCTGGGGGCTTTTGCCCTGACCGAGCCTGGAGCTGGGTCCAACGCCAGTGCTTTAAAGACGACGGCGGTGAAAAAAGGTGACCGTTATATTTTAAACGGAACCAAGCATTACATCACCAATGCCACCGTAGCGGATGTGTTTACAGTTATGGCCGTCACAGATTCTGAACAAGGGGCGAAGGGAATCACCTCGTTTATCGTAGAAAAAGATTATCCCGGCTTCAAGGTCGGGGCTGTGGAACCGAAGATGGGCCTCCACGGTTCTCAGTCGGCTGAGATCATTCTCGAAGATTGTGAAGTGCCGGAGGGTAACGTGCTCGGGAAAGAAGGGGAAGGGTATGTGAATGCCTTGAAGATTCTCGCCAACGGCCGGGCTGGTCTTGCTGCAAGGAACCTGGGCTCCTGTCAGAAACTGCTGGACATGTCGATGCAGTATGCCGAAGATCGCCGACAGTTTTCTGTACCGATCATTGAGCATCAGGCTGTCGCGCATATGATTTCAGAAATGGCCGTAGAAATCGAAGCACTCCGCTCCTTTACGTACCGCGTAGCCTGGATGGTGGATCAGGGTAAGAAGGTCATCAAAGAAGCCGCCATGCTGAAGCTTTATGGATCGGAAGTCTATAACCGCGTGGCTGATAAAGCGGTCCAGATACATGGCGGGATCGGCTACATCTCGGATTATCCGGTGGAGCGCTTTTACAGAGATGCGAGGATCACAAGGATTTATGAAGGAACATCTGAGATTCAAAAAAATATCATAGCCGGGCAGCTGCGGAAGGAGTATGCCCGCTGA	MAMDFQLDEQTTALKKSVRDFVQTEVEGAATVIEKEDCIPESIMTMSRDLGLFGLSIPEEYGGLGISMVGKCALYEEIGATHNGYTTVIGAHTGIGSVGIVELGTKEQKVKYLPRMAAGTSLGAFALTEPGAGSNASALKTTAVKKGDRYILNGTKHYITNATVADVFTVMAVTDSEQGAKGITSFIVEKDYPGFKVGAVEPKMGLHGSQSAEIILEDCEVPEGNVLGKEGEGYVNALKILANGRAGLAARNLGSCQKLLDMSMQYAEDRRQFSVPIIEHQAVAHMISEMAVEIEALRSFTYRVAWMVDQGKKVIKEAAMLKLYGSEVYNRVADKAVQIHGGIGYISDYPVERFYRDARITRIYEGTSEIQKNIIAGQLRKEYAR	PGPT0006200_459	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_CAPROLACTAM|DERIVATE_DEGRADATION	XENOBIOTIC_ADIPATE_DEGRADATION,PGPT0006200-dcaA-K06446	NA	NA
AK012_02127	1185	thlA_3	COG0183	Acetyl-CoA acetyltransferase	ATGAAGGAGGAAATCGTTGTCGTAAGTGCTGTACGGACGCCTGTCGGCCGGTACGGCGGTACACTGAGGAATGAATCTTCCGGCCACCTGGCTGCTCATGCAGTTGAGGGAGCCGTGGACGCTGCAGGATTGAAGAAAACTGATATCAATGAAGTGATTCTCGGGGAGGTCCGGCAGACGACGGAGTCTTCCAACGTCGCCCGTGTGGCTTCGTTAAGAGCAGGAATTCCTGACTCATCACCGGCGTATACGATCAATCGGTTGTGTGCATCCGGGATGGAAGCCATCGCTTCTGGTGTGCAGCAGATTGCTTTTCAACAGGCTGATATTGTAGTGGCGGGCGGTACAGAGAGTATGAGCCGCGCCCCCCTCTATTTAAGACAGGCAAGGTTCAGGGAAGGAGATCCGGTCTTAGTGGATTCCCATAAGGAAGCCGGTCAGCAGCCGAAAGAATTGTACGGACCTGATCTCGGGATGGGTCTAACCGCTGAAAATGTCGCCGAACGTTACAGCATCTCCAGAGAAGATCAGGATGAATTTGCGCTTGAGAGCCAGCGGCGTGCTGCGGCCGCTGTAGAGGCAGGAATTTTTTTAGACGAAGTGATCCCTTATGAAGTGAAGGGTAGAAAAGGCGTTCAAACTCTCCGGGATGATGAGCATCCCCGCCCGGAAACGACAAAGGATAAGCTGGCCGCTCTTCGTCCGGTATTTAAGGATAACGGCACAGTAACCGCCGGCAATTCCTGTGGACGTAATGACGGGGCCTCAGCAGTTGTCATGATGACGAGGGAAAAGGCAGATGAAATGGGGTGTGTCCCTCTTGTCAAAATCACGGACTGGGCGGTGGCCGGTGTCTCCCCGGAAATCATGGGGATCGGTCCTGTACCCGCTGTCCAAAAGCTGATGGACCGCACAGGTCTGAGTCTGAAGGATATCGGGTTGATAGAGTTGAATGAAGCTTTTGCTGCCCAGGCACTTGCCGTTATCCGGGAGCTGGAAGTGGATTCCGATATCGTGAATGTCAACGGCGGAGCGATTGCTCTAGGGCATCCGGTCGGGGCAAGTGGGACACGGATTGTGACGACGTTGATTCATGAAATGAAGCGGAGAAAGGAAAGGTATGGACTCACTGCGTTGTGTGCAGGGGGCGGTCAAGGCATGGCGATGCTGTTTGAACGGGTTTAA	MKEEIVVVSAVRTPVGRYGGTLRNESSGHLAAHAVEGAVDAAGLKKTDINEVILGEVRQTTESSNVARVASLRAGIPDSSPAYTINRLCASGMEAIASGVQQIAFQQADIVVAGGTESMSRAPLYLRQARFREGDPVLVDSHKEAGQQPKELYGPDLGMGLTAENVAERYSISREDQDEFALESQRRAAAAVEAGIFLDEVIPYEVKGRKGVQTLRDDEHPRPETTKDKLAALRPVFKDNGTVTAGNSCGRNDGASAVVMMTREKADEMGCVPLVKITDWAVAGVSPEIMGIGPVPAVQKLMDRTGLSLKDIGLIELNEAFAAQALAVIRELEVDSDIVNVNGGAIALGHPVGASGTRIVTTLIHEMKRRKERYGLTALCAGGGQGMAMLFERV	PGPT0008320_7783	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008320-atoB-K00626	NA	NA
AK012_02128	780		COG1024	Crotonyl-CoA hydratase	GTGGAATATGAAAACATAGTGTATGTCAAAGAAGGTCGGCTTGCTTATATTGTGATCAATCGTCCTGAGGTCCGCAATGCATTGAACCAGGCCGTTCTTGATGAAATAGAAGACGCACTGGACCGGGTAGAGAGAGATGATGAAGCCGGCGTCGTTGTTTTTACTGGACAAGGAGAGAAAGCATTCGCCGCCGGGGCTGATATTCAGCAGCTGACGGAAGCGGAAGCCCTGGACGCCTTGAAAAACGGTGATATGCAGCAGTTGTACGACAAGGTGGAAGCTTTTCAAAAGCCGACCATAGCCATGATCAATGGATTTGCTCTCGGAGGCGGCTGTGAATTGGCCATGAGCTGCGATATCCGTATCGCTTCCATCCATGCTTCCTTCGGCTTTCCGGAATTGACGTTATCCATCATTCCAGGCGCCGGAGGTACCCAGCGCCTGACCCGATTAGTGGGAAAAGGAAAGGCACTGGAAATGATTTTGACAGGGAAAATGATTTCAGCGGAAGAAGCCCTGGCGGTCGGTCTTGTCACAAAAGTCGTGACACCGGAACGGCTCCGCGCAGAGGTGGAGGAAACAAGTGCGGGCATTCTGGCTAAGGGTCCGCTCGCCGTTCAGCTCGCAAAGCTTTCTGTGCATATGGGAGCGGAAACGGATATGAAGACAGCTTTAATGCTCGAGCGGCTGTCTCAGGCGGTCCTGTTCAACTCAGAGGACAAAAATGAAGGTGCCCGGGCATTTCTCGAAAAAAGGAAGCCTTCTTTTGAGGGCAGGTAA	MEYENIVYVKEGRLAYIVINRPEVRNALNQAVLDEIEDALDRVERDDEAGVVVFTGQGEKAFAAGADIQQLTEAEALDALKNGDMQQLYDKVEAFQKPTIAMINGFALGGGCELAMSCDIRIASIHASFGFPELTLSIIPGAGGTQRLTRLVGKGKALEMILTGKMISAEEALAVGLVTKVVTPERLRAEVEETSAGILAKGPLAVQLAKLSVHMGAETDMKTALMLERLSQAVLFNSEDKNEGARAFLEKRKPSFEGR	PGPT0001860_5326	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
AK012_02129	438	slyA_2		Transcriptional regulator SlyA	ATGGATCGATCTCATCATAATATTCTGCACTTGTTAAACCAACAGGTGAGACGGTTAAACCAAAGGATGAATGAAAAGCTGAAAGAATATGATCTGTACATGTCCCAGTGGGCGGTCATTTATACGCTCCACACGATGGGGCCGATGACACAGAAAGAAATCTGGCAGTATTTGAATGTGGAAGCACCAACTGTCACCCGTACGATTACCCGTCTGGAGGAAAAAGGGTGGCTCGTCCGTAAGCAGGGAGCCGATAAGCGGCAGCGCATCATTCATATTTCGCCGGAGGCAGAACAACGGAGGGATGAGATTGCCGCAAGTATACGAAAGTATGAAGATGAACAGCTGCTTGGACTCACAGAAGAAGAAGAAAAGCAGCTCCGAGGTCTCCTGGAAAGAATGATCATACAGGAGGATGATCACGATGGAGAAGACTAA	MDRSHHNILHLLNQQVRRLNQRMNEKLKEYDLYMSQWAVIYTLHTMGPMTQKEIWQYLNVEAPTVTRTITRLEEKGWLVRKQGADKRQRIIHISPEAEQRRDEIAASIRKYEDEQLLGLTEEEEKQLRGLLERMIIQEDDHDGED	PGPT0016255_1970	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016255-sylA-K06075	NA	NA
AK012_02130	1209	cntE_1		Staphylopine export protein	ATGGAGAAGACTAAACAGCCGATTTGGACAAGAAACTTTATCAGCGTTTCGCTGACGCATTTCTTTGTCTTTGTGACCTTTTACGCGCTGCTTACCACCCTCCCCATTTACGTGATCGATGAACTGGGCGGCAACGAGGCCCAGGGAGGGCTCGTCGTGACGGCCATCATGGTGGCTGCCATCTTGATCCGGCCTTTTTCCGGCAGGTTTTTGGAGAAGACCGGGAAGAAAAAAGGTCTGATTGCGGCGGTCTCCCTTTATATGATGACGATGATCTTTTATTTGACGATCTCGCAATTTGAAGGACTGATGGTCTTGAGATTTATTCACGGTCTTTCCTTTGCCGTTGTAACGACAGCCACGGGAGCTATTGCAGCCGATGTTGTTCCCGCACAGAGACGCGGAGAAGGGCTTGGCTATTTTGCAATGTCCATGAATGTGGCAGTCGTTGTCGGTCCGTTTGTCGGTCTATCGATTCTTCAGGCCGCCCCTTTTGAGACATTGTTTATTGTTTTGAGTGTGTTTATGCTGCTTGGTGTGATCAGTTCATTGATGATCCGCTCTTCAGGTGAAAAAGCTGTACCGAAGACTGAACAGAAAGCAGCCAAGGTATCTTTTCATGATTTATTTGAAACGAGAGCCCTGCCGACAGCGTTGATCGCCAGCCTTGTTGCTTTTTCCTATTCCAGTATTGTGTCGTTTATATCCGTATATGCGAATTCTCTGGGACTTGGAGGAGTATCCAGCTATTTCTTTGTCGTCTTCGCTGTTGTGATGATTGTTTCACGTCCTTCTCTCGGCCGGGCATTTGATAGGAAAGGACCAAGCATTGTCATTCTGCCGAGTCTGCTTCTTTTTGCAGGAGGATTGATCCTGCTTGGGTATATCGATTCCTTATGGGGAATGCTGCTCGCCGGAGCCATCATCGGACTTGGCTATGGATCGCTGCTTCCGAGTTTCCAAACGATGGCTGTCCAGTCTGCTCCAGAGCATCGGAGCGGCCATGCCACAGCCACTTTTTTCATGATGTATGACACAGGAATCGCAGCAGGCTCCTATGTTTTAGGTTTGCTCGTTTCCATGACAAGCTTTCGTATGACCTATCAAATCAGCGGAATGATCGTTCTTCTCGTACTCGGGATCTTTTATTATGCTTATACACGTCAGCAGAAAACGCAGATGGTAAAAGAGAGGGCCGAGGAATTATGA	MEKTKQPIWTRNFISVSLTHFFVFVTFYALLTTLPIYVIDELGGNEAQGGLVVTAIMVAAILIRPFSGRFLEKTGKKKGLIAAVSLYMMTMIFYLTISQFEGLMVLRFIHGLSFAVVTTATGAIAADVVPAQRRGEGLGYFAMSMNVAVVVGPFVGLSILQAAPFETLFIVLSVFMLLGVISSLMIRSSGEKAVPKTEQKAAKVSFHDLFETRALPTALIASLVAFSYSSIVSFISVYANSLGLGGVSSYFFVVFAVVMIVSRPSLGRAFDRKGPSIVILPSLLLFAGGLILLGYIDSLWGMLLAGAIIGLGYGSLLPSFQTMAVQSAPEHRSGHATATFFMMYDTGIAAGSYVLGLLVSMTSFRMTYQISGMIVLLVLGIFYYAYTRQQKTQMVKERAEEL				NA	NA	NA	NA	NA
AK012_02131	936	glaH		Glutarate 2-hydroxylase	ATGTGTGCTGTAGACGTTAGAAAAGAGTCATTACCGGTGTTTTCAGGAAGCGGATATACCATTCAACCACATGAAAGGCATGAACGTTTGTATACGATTGAACTGGATCCAGAGGCGGTTCAAAAATTCCTGGAAGACGTGAAAGGCATCAGTGATGAGCAGCTGGAGTATATCCCTTACCAGCGGCTGTTGACGGCTCAAGCTTTACTGAATGTGTTGGACGATGATTTCCAAACATATGTGACGACGATTTTGAATGACCGGCGTTCCGGAGGGTTTACAGCAGGGGTGGAGGGCACGACGATGGATGCTCAGGATTACGTAAAATTTTCAACGGCGTTTTCCCACCTGGCAGGCATTCCGAATTTTGATGCGATGTCGAAAAAATATTACGCCCGTTTCTCTGTCCAGCACACGGATGACAGTGATTCCTACCTTCGTCAGGCTTACCGGCGGTTTACCCTTCATACGGACGGGACGTATGTCGATGAGCCGACGGACTGGCTGCTGATGATGAAGATGGAAGAGGAGAATGCCACCGGTGGACATTCACGCCTTCTTCATTTGGATGAGTGGGAGGACCTGGATTACTACAGAAGTCATGCGCTGGCGGATTATCCGTTTACGTACAAGGCACCTGCAAGTAAAAATGTAAGCGAGGATGTACAGAGGGAGACCTTTTATACGTGGAACAACGAAACGTGCATCTGCTTCATTGATCAATTTGTTTATCCAGAAACGATCAAACAGGCACAGTATTTGAAGGATCTATCCCAGTCGATGGAGAACTCGGCAAACTTAGTCGAGCTGGAACTCCCAGCAGGAGATCTGGTCATGCTGAACAACCGTTTCTGGCTTCACGGGCGCGGAGCTTTCGAAGAGAATACCAACCTTCACAGAGAGCTTCTCCGACAGCGGGGGCGGTTTTCCAAGTAA	MCAVDVRKESLPVFSGSGYTIQPHERHERLYTIELDPEAVQKFLEDVKGISDEQLEYIPYQRLLTAQALLNVLDDDFQTYVTTILNDRRSGGFTAGVEGTTMDAQDYVKFSTAFSHLAGIPNFDAMSKKYYARFSVQHTDDSDSYLRQAYRRFTLHTDGTYVDEPTDWLLMMKMEEENATGGHSRLLHLDEWEDLDYYRSHALADYPFTYKAPASKNVSEDVQRETFYTWNNETCICFIDQFVYPETIKQAQYLKDLSQSMENSANLVELELPAGDLVMLNNRFWLHGRGAFEENTNLHRELLRQRGRFSK	PGPT0019545_138	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
AK012_02132	1212	lhgD	COG0579	L-2-hydroxyglutarate dehydrogenase	ATGTATGATTACACGATTATCGGGGCAGGGATTGTCGGGCTGTCTACAGCTTATGCGCTGCAGAACAAATACCCACACGCCTCCATCGCTATTGTTGAAAAAGAAACGGAGATTGCGGCTCATCAAACCGGCCGGAACAGTGGGGTGATCCATTCCGGTGTTTATTATAAACCTGGAAGCCTCAAAGCGAGGATGGCCGTTCAAGGCAGGAATTCTATGGTGCAGTTTTGTGAGGAGCACGAGGTGCCCCACGATGTCTGCGGGAAAGTTCTTGTGGCCACAGAACCCGGGGAGCTTCCCCGCATGGAAGCACTTTATGAACGGGTCGGGCAGAATGGGTTGAACGTTACTCGCCTTACAAAAGAGGAGCTTCATGATGTGGAGCCTTATGTCAACGGGCTCGCCGGGTTGAAAGTACCGAGCACGGGTATTGTCGATTATAAAGAGGTCAGCCGGAAACTCATGGAGCTATTGAAAAAAGGGGGAGCCGACATTTTCCTGGGCTCCCCTGTACAGGATATCGTGGAGAAGCAGGATGAGGTTGTCATTGAAACGACTGGCCGGACCATTTATGCCAGGTATATGGTCAACTGTGCCGGCTTATTCAGTGACCGGATAACAGCCATGAGCGGCATTCATACGGATGTGAAGATTGTCCCGTTCCGTGGTGAATATTTCGAATTGGTGCCGGAAAAACGCCATCTTGTAAAAGGGTTGATCTACCCGGTTCCCAATCCGGACTTCCCTTTTTTAGGAGTTCATTTGACGAAAATGATGGATGGAGGTGTTCATGCCGGGCCGAATGCGGTGTTAAGTCTTAAACGGGAAGGTTACCGCAAAGTGGACATGCAGTGGAAGGACATGAAAGAGGTGTTGACATTCCCGGGTTTTTGGAAGCTTGCGGGAGCCAATATGAAGGAGGGGATGAAAGAAATGATCCGCTCCTTCCATAAGGAAAGCTTTGTGAAGAGCCTTCAGCGTCTCGTCCCCGATATCAAAGCGGATGATGTTGTACCGACGGATGCCGGCGTACGGGCTCAGGCGATGTTGAAAAATGGGAAGCTCGTGGACGATTTTTATATCATTCCAGGGAAACGGACCGTTCACGTATGCAATGCCCCTTCCCCGGCAGCCACCGCTTCATTGGAGATCGGGAAGGAGATTGCTCGTAAACTGCCTGCTCTGGAAAGGGAAAGGGTTTCGATGAGCTGA	MYDYTIIGAGIVGLSTAYALQNKYPHASIAIVEKETEIAAHQTGRNSGVIHSGVYYKPGSLKARMAVQGRNSMVQFCEEHEVPHDVCGKVLVATEPGELPRMEALYERVGQNGLNVTRLTKEELHDVEPYVNGLAGLKVPSTGIVDYKEVSRKLMELLKKGGADIFLGSPVQDIVEKQDEVVIETTGRTIYARYMVNCAGLFSDRITAMSGIHTDVKIVPFRGEYFELVPEKRHLVKGLIYPVPNPDFPFLGVHLTKMMDGGVHAGPNAVLSLKREGYRKVDMQWKDMKEVLTFPGFWKLAGANMKEGMKEMIRSFHKESFVKSLQRLVPDIKADDVVPTDAGVRAQAMLKNGKLVDDFYIIPGKRTVHVCNAPSPAATASLEIGKEIARKLPALERERVSMS	PGPT0013225_526	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
AK012_02133	306			hypothetical protein	ATGAATACGATTTTTGTAGCCGGCCACGCCAAACTCCCTGCAGGGATGGCCGCCAACCATATTTCAGAATCTTTAACTTTGACACTTGAGGTGGATAGAAAATACGGAGTGATCGTCGATGCTTCCTGTACCCTCGCTACCGAGCACGGCCGGAGTTTCGTTAAAGCGTTATTAAAGGGATACAGTTTGCAGGACGGTGTGGATGAGCCGGCCGCCAAGCTGAAAGAAGGGTACTTAGGAAAGGCCGGGAACGCTCTGGAGGCTGCTCTTAAAGATTCCCATAAGCAGTACCTTCTCCACCAATAA	MNTIFVAGHAKLPAGMAANHISESLTLTLEVDRKYGVIVDASCTLATEHGRSFVKALLKGYSLQDGVDEPAAKLKEGYLGKAGNALEAALKDSHKQYLLHQ				NA	NA	NA	NA	NA
AK012_02134	1050	dctP_2	COG1638	C4-dicarboxylate-binding periplasmic protein DctP	TTGAGAACATTTGCACTCATTGCTCTCTTCATTTTCAGCGGAGTGCTGGCGGCGTTTGTTTTCGGTTTTGATCTTAAAGATACAATCCAGCCGCTGGAATATGATGATGAACAGGAAGGCCTGGAGGATCAGGTGGTCATCAAATTCAGTCACGTCACTTCTGAGCACACCCCTAAGGGTTTGGCGGCCCGTAAGTTTGCCGAGCTTGTAGAGGCACGGACCAATGGGACCGTTTCTGTAGAAATCTATGCCAACGGATCTTTGTACAACGATCAGGATGAGCAGCAGGCCCTTAAAGAAAACCGGGTACAGATGATTGCACCCGCTACGTCTAAGCTCACTTCGCAATTTCCCAAATTTCAAATTCTCGACCTTCCTTATGCTTTCTCCTCCTATAAGGAAGTCAGAAAAGCATATGAGGGAGCAATTGGACAGACACTGCTTGCTGAACTGCATACGTCCGAAATGAAGGGGATGGGGTTCTGGTATAACGGCTTCAAGCAAATGACAAGCCGTACAGAGGCTCTGCTCCATCCGGCCGACTTTGAACAGATGCATTTCCGAAGGATGCCAAGCCCGGTGATTGAGAGGCAGTTTCAGGCGCTGGATGCGAGTACAAGCCTGCTCCCCTTTAATAAAACCTATCAAAACTTGAATGTGGAATTCATTCAAGGCCAGGAAAACACCACTTCGAACATTTATACGAAAAAGATGTATGAGACGCAGGACCATTTAACAGTAAGCAATCACGGCTACCTTGGGTACATCGTCCTGACGAATGAAACCTTCTGGAAGAACCTATCTCCTGAACAGCAGAAGATCATCGAAGCTTCGCTGGCCGATACAACCGATTGGATCCGCCGCCATTCCATTGAAACAAACGATGCCCACCTCAGAGATTTGAAGCGCACCGAATCCATCAGCATCCATTATCTGGACAAGGAGCAGCAGGAGATATGGAGACATGCGCTGGAACCGGTTTACATAGAAACAGAGAAATTCACAGGCAGAGAATTGATGCAGGAACTTAACCAAATCAAAGAACAGTAA	MRTFALIALFIFSGVLAAFVFGFDLKDTIQPLEYDDEQEGLEDQVVIKFSHVTSEHTPKGLAARKFAELVEARTNGTVSVEIYANGSLYNDQDEQQALKENRVQMIAPATSKLTSQFPKFQILDLPYAFSSYKEVRKAYEGAIGQTLLAELHTSEMKGMGFWYNGFKQMTSRTEALLHPADFEQMHFRRMPSPVIERQFQALDASTSLLPFNKTYQNLNVEFIQGQENTTSNIYTKKMYETQDHLTVSNHGYLGYIVLTNETFWKNLSPEQQKIIEASLADTTDWIRRHSIETNDAHLRDLKRTESISIHYLDKEQQEIWRHALEPVYIETEKFTGRELMQELNQIKEQ	PGPT0017325_79	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_C4-DICARBOXYRATE_TRANSPORT,PGPT0017325-dctP-K11688	NA	NA
AK012_02135	1623	dcuS	COG3290	Sensor histidine kinase DcuS	ATGTCACTGAAACGCATGCCGATTCGCTGGAAGATTACCATTCTATCGTTTGGTATGGTCCTTTTCTCGTTGATGATCGGTGGTATCCTCATTGTCGGCCATACGGTCGAGACGAAAGAAGAAGAGCTGGGGGAACGGGCGCTCCTGACCGGGCAGACGATCGCGAATCTTCCGGAGATCCGGAATAACCTCCAAGAGCCGAGAGGCTGGAAGAACATCCAGCCTGTAGTCGAACAGATGCGCACCGTGTACCAATCGAATTACATCGTTGTTCTGAACATGAACCGCATCCGCTACTCGCACCCTGTCGAAGACCAGCTGGGCAGTCTTTCTTCAGGCAGGGACGAAGGGCCGGCTTTTGCTGAGCACAGCTACACCTCCAAAGCGGAAGGAGAATCCGGGACGGCTGTCCGCGGGTTTGTCCCTGTCATGGATGAAAACCATGAGCAGATCGGAGTCGTAGTAGTCGGTGAAATCCTCCCCTCTATGGGGGAAATCATCTGGGGGATGAAAAGCGAAATAGGGATTGTTCTTCTGCTTACTTCTCTTTTTGGGATTGCCGGGTCCTGGCTGCTTGCCCGTCATTTAAAAGAGCAGATGTTTGCTTTGGAGCCCCACGAAATTGTCCAGCTTTATGAAGAGCGGACCGCAGCATTTGAAGCCATGAATGAAGGAATTGTGACGGTGGATGCATCGGGAAAAGTCACTTTAATGAACCAAAAAGCAAGAATCCTCCTTCATTTTACCGGACTGTCCAAAGGAAAGTCTTTACATAATCTCACCCCCGGTCTGAAACTTGATCATGTCCTCACGGTGGGAGAGCCCGTGTTTAATCGAGAAATCAGGGCCGGCATGAAGCTCCTTCTTTTCACGAGCATTCCGATCAAAGTGGAGGGCCGGTACGCCGGAGCTGTCCTGATTTTCCAGGATCGTACAGAAGTGACCCGTCTCGCCGAAGAGCTGACGGGGGTGAAGGCTTTTGTCGACGCGCTGCGTGTCCAGAACCATGAGCATCGCAATAAGCTTCATACGATTGCTGGGATGATTCAGCTGGAACAGAACGAGGAAGCACTTCAGTATGTATTTGACATATCGGAAAAGCAGGAGAAGCTGTCGCGCTCGCTTCTGGCCGCCTTCCAGGATTACAGTATTGCCGGCCTTCTTTTAAGTAAAATAGCCAGAGGTAAGGAATTGGGCATTGATGTTTCTGTAGAGGAAGACAGCGGACTGCCTGTATTCCCTCCGCTCTGGGACCATCATGACATGGTGCTCATACTGGGAAATCTGATAGAAAATGCCTTTCACGCCTTCGAAGGAATCCAGCAGGATGAAAAGACGATCCGGGTGGCAGTTCTACAGGACGAAGAAACGTGCTCGATCATCGTAGAAGATAATGGGATGGGGATGAGTCCTTCGATAAGCCGGCAGATGTATACCAAGGGCTTTTCCACGAAAGGAGATCATGGGTCCGGAATCGGGTTGTATCTGGTCAAAAATCTTGTGGATCAGGCCATGGGAAAAATAACAGTAAAATCAACGGAAGGAGAGGGAACAACCATGATCATTGATCTACCACTTATCATCGAGGAGGGACAGGATGAGCAGGCAGTCAGAAATGCTTGA	MSLKRMPIRWKITILSFGMVLFSLMIGGILIVGHTVETKEEELGERALLTGQTIANLPEIRNNLQEPRGWKNIQPVVEQMRTVYQSNYIVVLNMNRIRYSHPVEDQLGSLSSGRDEGPAFAEHSYTSKAEGESGTAVRGFVPVMDENHEQIGVVVVGEILPSMGEIIWGMKSEIGIVLLLTSLFGIAGSWLLARHLKEQMFALEPHEIVQLYEERTAAFEAMNEGIVTVDASGKVTLMNQKARILLHFTGLSKGKSLHNLTPGLKLDHVLTVGEPVFNREIRAGMKLLLFTSIPIKVEGRYAGAVLIFQDRTEVTRLAEELTGVKAFVDALRVQNHEHRNKLHTIAGMIQLEQNEEALQYVFDISEKQEKLSRSLLAAFQDYSIAGLLLSKIARGKELGIDVSVEEDSGLPVFPPLWDHHDMVLILGNLIENAFHAFEGIQQDEKTIRVAVLQDEETCSIIVEDNGMGMSPSISRQMYTKGFSTKGDHGSGIGLYLVKNLVDQAMGKITVKSTEGEGTTMIIDLPLIIEEGQDEQAVRNA				NA	NA	NA	NA	NA
AK012_02136	690	dcuR	COG4565	Transcriptional regulatory protein DcuR	ATGAGCAGGCAGTCAGAAATGCTTGATGTTCTTTTGATTGAAGATGATCCAATGGTTCAGGAAGTCAACCGGCAGTTTATAGAAAGGGTGCCTCCTTTCAAGGTGCAGGCTGTGGCTTCCAATGGGAGGGAGGGCGTCGAGCTCGCGGTCCAACATAACCCTCAGCTGATTATCATTGATGTGTACATGCCCGAATTAGACGGGGTAGAGACGTTGAAGCTGCTGCGTGCAAACGGTGTCCAAGCCGATGTGATCGCCATTACGGCTTCAAAAGAGAAAGAAACCATTCGAACGATGTACCAGTACGGAGTTATTGACTACATCATCAAGCCATTCAAATTTGAACGTCTGCAGCACGCTCTGGACAAGTACAGAACCTACCGGACGACCGTCAGCGGGGACGGGGAACTCAGCCAGATCCAGCTGGATGAACTTTTTGGGGCAGCTGTCCCTGCGGGGAATAAAGTGCTTCCGAAGGGCTTGAATGAGCAGACGCTCAATCAAGTGCTCCATGTCTTACAATCCGCCCCGCACCCGTTGTCGGCAGAGGAAGCGGCCGAAGAAATCGGAGCGGCCCGCGTCACGGCAAGAAGATATCTGGAATATCTTCAGAAAGAAGGATCAGTGGTCATCGATATCCAGTATGGGACGGTAGGCCGCCCGGTGAACCGCTATCGGATAAAATCTTGA	MSRQSEMLDVLLIEDDPMVQEVNRQFIERVPPFKVQAVASNGREGVELAVQHNPQLIIIDVYMPELDGVETLKLLRANGVQADVIAITASKEKETIRTMYQYGVIDYIIKPFKFERLQHALDKYRTYRTTVSGDGELSQIQLDELFGAAVPAGNKVLPKGLNEQTLNQVLHVLQSAPHPLSAEEAAEEIGAARVTARRYLEYLQKEGSVVIDIQYGTVGRPVNRYRIKS				NA	NA	NA	NA	NA
AK012_02137	990			hypothetical protein	ATGATGAAGCGTGTATTTCTTATATCTGTACTGATTCTGACGGCATTTTTAGCTGCTTGTGGAGGCAGCGGAGATTCAGAAGAGGCGTCCGGATCCGGGGGCTCTGAATCGATTGTATTTGGAACAGGGGGAACATCAGGGACATACTATCCCATCGGCGGTGCTGTTAAACCTGTATTTGAGGAAAGTGACAGTGTAGCGAACGTAACTGTGGAATCCACAGGAGCCTCTGTCGCAAATATCCAGAATATCAAGGATGGATTGAACCAGATGGCAATCATTATGAGTGATGTCGGTTATGACGCGATTGAAGGGCAGGGACAGTTTGATGGAAATGCGGTCGATATTCAGGCTATGGCAGGGATGTACCAGAATGTTGTCCAGATTGTCGCATTAAAAGACAGCGGCATAACATCTGTGGCTGATTTGAAAGGCAAAAAAGTCGGAGTTGGAAAAGTCGGTTCCGGCGTGGAACAGAGTGCGAAGAAAGTCCTGGAGGCCGAAGATATTACGTATGATGATCTTTCCAAAGTTACGCATACGGGCTACGCCGACAGCGTGCAGGAAATGAAGAACGGAAATCTGGATGCGGCCTTTTTTACATCAGGCGTTCCCAACAGCAATATTACCGATTTGATGCAGCAGACAGACATTCAGTTTGTTGAAATCAGCGGGGAGACAGCCGAGACGTTAATGGACAAGTACCCTTTCTATAAGGCGAATACCATCGAAGCTGGAAATGAAGCAGCCTATGATCTTGATGAAGCAGTGGAAACGGTTGGAATTCAGAACATGATTATCGTTTCCAAAGATGTAAGTGAAGACGTCGTTTATGACATGACAAAACGGTATTACGAATATTTGGGTACCGAGGAAGTTTCCGTTGGAGCTTTGAAACAACTGGACAGAGATGAAATTGCGAAAGGCCTGATTGCACCGCTGCATCCCGGTGCCGAGAAATTTTATGAAGAACAGGGAATTTTAGAGTAA	MMKRVFLISVLILTAFLAACGGSGDSEEASGSGGSESIVFGTGGTSGTYYPIGGAVKPVFEESDSVANVTVESTGASVANIQNIKDGLNQMAIIMSDVGYDAIEGQGQFDGNAVDIQAMAGMYQNVVQIVALKDSGITSVADLKGKKVGVGKVGSGVEQSAKKVLEAEDITYDDLSKVTHTGYADSVQEMKNGNLDAAFFTSGVPNSNITDLMQQTDIQFVEISGETAETLMDKYPFYKANTIEAGNEAAYDLDEAVETVGIQNMIIVSKDVSEDVVYDMTKRYYEYLGTEEVSVGALKQLDRDEIAKGLIAPLHPGAEKFYEEQGILE				NA	NA	NA	NA	NA
AK012_02138	495			hypothetical protein	ATGAAAATCTACTATGTCTTCCTCATCGGTGTCTGCTCTATTATCCTGTTCTCTGTCTTTTATACGTTCGAAGCGTTCACCCTATCCAAAGAAGAGAAGATCGAGGTTGTTCATCTTACGGATCCGGAGCAGGAGTTCCGCATCCGCTGGGAGCACTCCGTTGAGAAAGAGGATTGGGAAGAACGATTCATCGTCCAGGATGGGGGGATCACCCTGACAGGGACACGCTTTAAAACATTCGGGGCCGGTGTTCCCCATAATACAGGGGAGGATACGTATGTCCGGGACGGCTGGGTGTACATGGACGGCTTTCATCAGCCGATCGGGAGCAGTCTCGCTTTCCGCACGGGAGAAACAACAGAACACCGGCTTTCCTATGGGAAAGATATCACGTACCAGCTGGATGAAAAGACGGCTTATCAAGTATCGGTCAATCGTATGCCCGCCTGGAAGTTTATCGTTCTGAAGTGGCAGGGTTGGAAGGGAGAGTTATGA	MKIYYVFLIGVCSIILFSVFYTFEAFTLSKEEKIEVVHLTDPEQEFRIRWEHSVEKEDWEERFIVQDGGITLTGTRFKTFGAGVPHNTGEDTYVRDGWVYMDGFHQPIGSSLAFRTGETTEHRLSYGKDITYQLDEKTAYQVSVNRMPAWKFIVLKWQGWKGEL				NA	NA	NA	NA	NA
AK012_02139	2160			hypothetical protein	ATGATGAACAAACAGAACAGTGACACTGCAGAAAGGTATGATCGGGAAAGCACAACGCGGACGGACTTTGTAAAGCCAATGGCGCTTGCGATTTCTGTCCTGGCTGTTTCGTTATCCTTATTTCATTTATACACGTCCTATGCCGGTTCGCTCGTGGATATAAAACAACGGAGCATCCACCTTTATACTTTAATGACACTCGGATTTTTACTGTACCCTTTTGTTAGAAAAAGGGGAAGCAGGAACGTCCCGGTTTATGATTACATCACGGCAGGGCTTTCGATATTTGCCGGCTTGTACATGTTCTTGACGGCTGAACGGATTATTCAATCCGGGGGTCAGATCAACGATATGGATTTCTATGTCGGGATCCTCATTCTGCTTCTTCTATTTGATATTACAAGAAGGGTGACGGGATGGGGGCTTACCCTGCTTGGGCTCGGCTTTTTGGTTTACGGATTTTATGTGAAATTGTCCGTCTATCCTGATTTGAACGGCGTCATTATTACCAGTGTGTCGAAACAGATCATTGCCCAGCTTGTTTTCATCACGGAAGGGGTTCTCGGAACAGCCATCGGGGTGTCGGCGAGCTACATCATTCTGTTCATCTTATTCGGGGCTTTTCTTGCCCGGTCCGGTATGGGGCAGTTGTTTAACGACCTGGCGCTTGCCGTGGCCGGTCATACGAAAGGCGGTCCTGCCAAGGTGGCGGTCATCGCCAGTGGGTTTTTAGGTTCGATTAATGGCTCGGCGATCGCCAATGTCGTTACGACAGGAACGTTTACGATTCCCTTGATGAAGAAAATCGGCTATAAAAAGAACTTTGCGGGAGCCGTTGAATCCGCAGCCAGTGTGGGTGGACAGATCCTTCCTCCAATCATGGGCGCGGCCGCTTTTATTATGGCCGAAAATTTGAATGTCGCTTATACCAAGATCATTCTTGCTGGAATTATTCCCGCTCTTTTGTTCTACGTAGGAATTTTACTTCAGGTTCATTTCCGCGCGGCGAAGCGGGGGCTTCAGGGACTGCCTAAAAGTGAACTGCCATCGGTGAAAGAAGTGATCGCTGAACGCGGCCACCTCATCATTCCGATGCTCACCCTGCTCTACCTGTTGTTTTCCGGGAAGACTCCGTTTTATGCGGCATTCTGGTCCATTATCGCGACTGTCGTCATTGCCGGTTCAAAGCGGATGATTCCTGTTATCCTGGGAATCTCTCTATTTCTCATCTTCCAGCCGCAGCTGTCTGCGGTTCTTTCCGGCAGCGCCGTCCCGAACGTACGGAGTGACTGGTGGGAGCTGATGCTGATCGTAGCCGTTCCACTGGCTATTAATCTATGGAGAAAACGTCTCCGGATGGAAGGCGATGAAGTGGGCATTGTCGACTGCCTGAAGGCTTTGGAGGAAGGGGCCAAAACAACGGTACCCGTTGCCATTGCCTGCGGAGCGGTAGGAATTGTTGTAGGAATTGCCTCCTTAACAGGTGTAGCCCTGGAAATCGCCAACAGTATCGTAAGTATTGGAAGTGCGGTGAACAGTCCGCTGATCCAGCTGATCATTACGCTGGTGCTTACGATGATCACGTCCATTATTTTAGGTATGGGGCTGCCGAGTATCCCGACGTATATCATTACAAGCACGATGGCTGCGCCTATTCTCCTCCAGCTGCCGCTTTACAGAGAGCTGGCAGGATCGACAGAAACGGCGACGTTTGTTGCCCATATGTTTGTGTTTTACTTTGGGATCTTCGCCAACATTACTCCACCTGTAGCTCTGGCTGCCTTCGCCGGAGCCGGAGTCGCAGGCGGTGATCCGAACAAAACCGGTTTCCAAGCGATGAAGCTGGCGATTGCCGGATTTATTGTGCCCTTCATGTTTGTGTTTTCGCACGAAATGTTAATGATCGATGCGACGATTATGAACATCGTGACGATTACCGTTACGTCACTCATCGGCGTTTTCCTTCTGTCCATCATGACGGAGGGTTACTTGAAGACAAAGGTTTCCACAGGGTTTCGTTTTCTTGCCGGAGCAGGCGCTCTGCTGCTGATTTATCCCGGCCTATGGACCGACTTTATTGGATTGGCGGCTTTTGCGGTCATCCTTCTATTCAATCTTAGACAGACGAATGCAGTCAGTGAGCAGAGATCTGCTCTTTAA	MMNKQNSDTAERYDRESTTRTDFVKPMALAISVLAVSLSLFHLYTSYAGSLVDIKQRSIHLYTLMTLGFLLYPFVRKRGSRNVPVYDYITAGLSIFAGLYMFLTAERIIQSGGQINDMDFYVGILILLLLFDITRRVTGWGLTLLGLGFLVYGFYVKLSVYPDLNGVIITSVSKQIIAQLVFITEGVLGTAIGVSASYIILFILFGAFLARSGMGQLFNDLALAVAGHTKGGPAKVAVIASGFLGSINGSAIANVVTTGTFTIPLMKKIGYKKNFAGAVESAASVGGQILPPIMGAAAFIMAENLNVAYTKIILAGIIPALLFYVGILLQVHFRAAKRGLQGLPKSELPSVKEVIAERGHLIIPMLTLLYLLFSGKTPFYAAFWSIIATVVIAGSKRMIPVILGISLFLIFQPQLSAVLSGSAVPNVRSDWWELMLIVAVPLAINLWRKRLRMEGDEVGIVDCLKALEEGAKTTVPVAIACGAVGIVVGIASLTGVALEIANSIVSIGSAVNSPLIQLIITLVLTMITSIILGMGLPSIPTYIITSTMAAPILLQLPLYRELAGSTETATFVAHMFVFYFGIFANITPPVALAAFAGAGVAGGDPNKTGFQAMKLAIAGFIVPFMFVFSHEMLMIDATIMNIVTITVTSLIGVFLLSIMTEGYLKTKVSTGFRFLAGAGALLLIYPGLWTDFIGLAAFAVILLFNLRQTNAVSEQRSAL				NA	NA	NA	NA	NA
AK012_02140	1293	aldH1_2	COG1012	4,4'-diaponeurosporen-aldehyde dehydrogenase	ATGGAAAACTATCAAGAACTGGTACACAAGCAGAAATCCTTTTTCCGTAGTGGAAAGACGAAGGATCCAGCTTTTCGTAAAGAAGCTTTAACAACTATTAAAGAATATATGACGTCTCATCAGCAGGAGATCATCGATGCGGTGAAGGCGGATTTGAACAAGCCGGAAGAAGAGACCAAACGTGCAGAAATCGGTCTGGTGCTGGCAGAAATTGATTTTATGCTTGAAAATCTGGATACATGGACGGCCACGCAGGAAGTGCCGACTCCTGACACTCATGGCGGTGCCAAAAGCTTCATCCAGCCTGAGCCTTATGGTTCCACCCTGGTGATTTCTCCGTGGAACTATCCGGTCCAGCTGGCTGTGGCACCACTTGTAGGCGCTGTGGCCGCAGGGAATACCGCTGTTTTGAAGCCGTCTGAGTTAACGCCGAATACGTCCAGCTTGTTAGCCGCAATGATTAATGAGAACTTTAAGGAAGAATATATCCATGTAGTGGAAGGGGAAGTGGAAACAAGTACCGCACTGCTTAAAGAAAACTTCGACTACATTTTCTTCACAGGTAGTACAGGCGTCGGACGAATCGTAGCCGAAGCTGCTGCGAAGACCTTGACTCCGACGACCCTTGAGCTGGGTGGCAAGAGTCCGGCCATTGTACACAAAGACGCTGACCTTGACCAGACGGCTGCCCGTATTGCCGGAGGTAAATTCATGAATGCCGGACAAACGTGTGTCGCTCCTGATTATGTCCTCGCCCACAGCGACGTAAAAGAGGAATTGATGCAGAAAATCAAAGAAGCGAAAGTCAACACGTACGGGGAGATAGTTTCCGCTGAGACCTACCCACACGTGGTAAGCGGGAAGCACTTCGACCGTCTTGAAAACTTCTTAGATAACGGCGGGCTCTTCATGGGCGGCCGTACGGATAAGGATAACCTGTTTATCGAGCCGACGCTTCTCGATCAAGTTTCCTGGGAGGATGATGTGATGCAGGACGAAATCTTCGGTCCGATTCTCCCGGTGCTCACATTTGATGAAGTGTCTGAAGCCATTGAGGCTGTCATGGACCGTCCGAAGCCATTAGCCTTATACCTGTTTACAGAAGACGAAGACGTTCAGAATGATGTCTTTACCAACATTTCCTTCGGAGGCGGCGCGATTAATGATACGATCAACCATATGACCTCCCACTACCTTCCGTTCGGTGGTGTAGGAAACAGTGGTATGGGCGCCTATCATGGAAAAGCAAGCTTTGACACCTTCACTCACTTCAAGAGTGTATTGAAGCGCTGA	MENYQELVHKQKSFFRSGKTKDPAFRKEALTTIKEYMTSHQQEIIDAVKADLNKPEEETKRAEIGLVLAEIDFMLENLDTWTATQEVPTPDTHGGAKSFIQPEPYGSTLVISPWNYPVQLAVAPLVGAVAAGNTAVLKPSELTPNTSSLLAAMINENFKEEYIHVVEGEVETSTALLKENFDYIFFTGSTGVGRIVAEAAAKTLTPTTLELGGKSPAIVHKDADLDQTAARIAGGKFMNAGQTCVAPDYVLAHSDVKEELMQKIKEAKVNTYGEIVSAETYPHVVSGKHFDRLENFLDNGGLFMGGRTDKDNLFIEPTLLDQVSWEDDVMQDEIFGPILPVLTFDEVSEAIEAVMDRPKPLALYLFTEDEDVQNDVFTNISFGGGAINDTINHMTSHYLPFGGVGNSGMGAYHGKASFDTFTHFKSVLKR	PGPT0006875_10083	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
AK012_02141	903	fmdA_2		Formamidase	ATGACGGTTACCTTATCCAAAGAACATTTTGTTTATGCGATGGACAAACAGAATCAACCAGCCCTTCACGTTTCTTCCGGCACAACGATTCAAGTGCATACATACGACTGCTTCCAGGGACAGATCCAGTCAGAGGACACCGAAATCAATGCCGTCGACTGGAACCGGATCAATCCAGCCACCGGCCCTGTCTATATTGAAGAAGCAGAGCCAGGAGATACACTGAAAGTCACGATCGAGGATATCCAGTTAGGGGACAAAGGAGTGATGGTCACCGGCCCTGACCTTGGTGTGATGGGCCACCGGATGGAAACATTCCAGGCGAAAATCATTCCGATCCAAGGTGGAAAAGCGGTTTTCAATAAGGATTTATCCCTTCCGCTTAATCCTATGATCGGAGTGATTGGAGTAGCTCCTGAGGGGGACGCTGTGTCCTGCGGCACACCAGGCGCTCACGGGGGAAATATGGATACAAAAGAAGTAACGACAGGAGCCTCGCTCTTCTTCCCCGTTTTTCAGAAAGGAGCCCTGCTTTCCCTTGGAGATCTGCATGCAGCCATGGGAGACGGGGAAATCAGTGTCTCCGGTGTGGAAATTCCAGCTGAAGTTTCTATTCACGTAGAGGTGATCAAAAACCGGACACTTCCTTTTCCTTTCCTGAAAAATGAAGATGGGCTGAGTATTCTTGCCTCCAAAGAAACCCTGGATGAAGCAGTGGAAGCAGCGGTCGAACATATGATTGATTTCCTTCAGCCGAAGACAGACCTTTCTTTATCAGAACTGACGATGCTGATGAGTGCCGCCGGGCAGGTACAGGTCAGCCAAGTGGTCGATCCGTTGAAAACCGCCCGTTTCTTCGTGCCTGACCAAGTGCTTGAAGCCTATTCGATCTCCATCGAATAA	MTVTLSKEHFVYAMDKQNQPALHVSSGTTIQVHTYDCFQGQIQSEDTEINAVDWNRINPATGPVYIEEAEPGDTLKVTIEDIQLGDKGVMVTGPDLGVMGHRMETFQAKIIPIQGGKAVFNKDLSLPLNPMIGVIGVAPEGDAVSCGTPGAHGGNMDTKEVTTGASLFFPVFQKGALLSLGDLHAAMGDGEISVSGVEIPAEVSIHVEVIKNRTLPFPFLKNEDGLSILASKETLDEAVEAAVEHMIDFLQPKTDLSLSELTMLMSAAGQVQVSQVVDPLKTARFFVPDQVLEAYSISIE	PGPT0006115_7545	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
AK012_02142	1659	npr		Thermolysin	ATGAAAAAGAAGCACGTCATTCCAGTAGCTGTCTTATCGTCCGCTTTGTTCATGGGAACATTGGCCCCCGTACAGACCCAAGCCGTCAGCACATCAGACCAGACACAGGTTCAGCAGCAGATTGTACATAATCAGCAGAATAAGCCTTTTTTCAACAAAGAAAAAGGAGAGACATCCTCAAGTGCCACGGAAAAGTCAGCCCAGGAGCATTTGAAGAAAAATAAAAAGACGTATAACATTTCCACTCCGGATCAAAGCCTCAAACAGACCGACCTGAAAACCGATGATCTCGGGATGACCCATGTTACTCTCCAGCAGACGAAAAACGGTGTACCGGTCGAGGGCCACCTCGTTAAAGTGCATTACAACGAAGACGAACAAGTGGAAGCGGTCAACGGACAGTTTAATACTTCCATAGAAAAATCAAGCATGTCTACGAAACCATCGATTACGAAATCCAAAAGCATCGCCACCGCTGAAAAAGCAGTTTCCGCACCTGATGAACTAGTTGAATCTCCAACTGCAGAGCTCGTCGTCTACCCGTTCAACGACGAAAATCATCTGGCTTATAAAGTAAATGTCAACTTCCTTGGAGAATCACCGGGCAACTGGTTTGTTTATGTAGATGCACAAACAGGGAACGTCATCGACCAGTACAATACAATTATGCATGCCAGCTATAAAACGTCCCGCGGCTTCGGTATCGGTGTTTTAGGTGATTACAAGACGCTTCATATATCCAAGGATATGAGCACTCAGGGGCGCGATTACTACCTGCTTGATCAGAGTCATGAGAACTTGGATGGCATCTATACCCTGGATGCTGAAAATCAATGGGTGCTTCCAGGCAAACTGTTCTCTTCCTCGGATGCGGCTTTCCGCACTTCCTATGAACGACCGGCGGCAGATGCCCACTACAATTCCGAAGAAGTATACAAGTACTTCCTGGAGGAACACGATCGAAACTCAATCGATGGAGAAGGCATGCCGATCGTATCAACGGTTCATTTTGGTGAGGATTACAATAATGCCTTCTGGAATGGACAGCAGATGACCTACGGAGACGGTGATGGAGACTTCTTTATTCCTCTATCTGCAGGTCTTGACGTTGCTGCCCACGAAATGACCCACGGGGTGACGACTTTCTCAGCGGGGTTGAAGTACCGCTTCCAATCAGGAGCGTTGAATGAAGCTTTCTCCGATATTTTCGGAGCCTTGGTTGATGAAAGTGACTGGGAAATGGGGGAAGATATCATGGGAGCTGGAGCGAAAGAAGACGGCCGGACAGCCCTCCGCAGTTTGAGTGACCCGAGTAAATTCCCTGTCAACGAAGCCTATGTCTCTTATGGAGATGGAAACGGCATGTATCCTTCCCATATGGACGAGTATTACGACCTGCCTATTGAACTCGATAACGGAGGCGTCCACATCAACTCCTCCATCATCAACCATGCCGCCTATCTGACCGCGCAGAAAATCGGCAGAGATAAGCTCGGTCACATTTACTACCGGGCTCTTACGGTATACCTGATGCCTGATTCTGACTTTGATCATGCACGGGAAGTGATCATCCAATCAGCCGTCGACTTATACGGAGAAGACAGTCCTGAAGCAGAAGCCGCTGCCTACGGACTCGATGAAGTCGGTATCACAGGCTGA	MKKKHVIPVAVLSSALFMGTLAPVQTQAVSTSDQTQVQQQIVHNQQNKPFFNKEKGETSSSATEKSAQEHLKKNKKTYNISTPDQSLKQTDLKTDDLGMTHVTLQQTKNGVPVEGHLVKVHYNEDEQVEAVNGQFNTSIEKSSMSTKPSITKSKSIATAEKAVSAPDELVESPTAELVVYPFNDENHLAYKVNVNFLGESPGNWFVYVDAQTGNVIDQYNTIMHASYKTSRGFGIGVLGDYKTLHISKDMSTQGRDYYLLDQSHENLDGIYTLDAENQWVLPGKLFSSSDAAFRTSYERPAADAHYNSEEVYKYFLEEHDRNSIDGEGMPIVSTVHFGEDYNNAFWNGQQMTYGDGDGDFFIPLSAGLDVAAHEMTHGVTTFSAGLKYRFQSGALNEAFSDIFGALVDESDWEMGEDIMGAGAKEDGRTALRSLSDPSKFPVNEAYVSYGDGNGMYPSHMDEYYDLPIELDNGGVHINSSIINHAAYLTAQKIGRDKLGHIYYRALTVYLMPDSDFDHAREVIIQSAVDLYGEDSPEAEAAAYGLDEVGITG	PGPT0020995_276	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020995-nprM-K01400	NA	NA
AK012_02143	222			hypothetical protein	ATGAGAAGAGTGAATACTATTTTTGCAGTTATCATCCTGATATTTGCAGCCCTGCATTTATTTGTTCCAGACTTTAATATAAGTGATGATGTCATTTTTACTACCATAGCCATCCTAAATTTACTGCTTGGTATTGAATTTCTTATCGATAAAAGCAAGTGGCTTGGTTATATCTTTACAGCATCCTCTGTTCTTTTATTCTATTTGATTCTACCCATATAG	MRRVNTIFAVIILIFAALHLFVPDFNISDDVIFTTIAILNLLLGIEFLIDKSKWLGYIFTASSVLLFYLILPI				NA	NA	NA	NA	NA
AK012_02144	1131	ald_1	COG0686	Alanine dehydrogenase	ATGATTATCGGAGTACCGAAAGAGATTAAAAACAACGAAAACCGTGTAGCGATTACACCATCAGGGGTTGTAAACCTTACAAAAGCAGGACATAAAGTATACATCGAAGTCGATGCCGGCCTTGGCAGTAACTTTACGAACGAGGAATACCAGGAAGCTGGTGCTCAATTAATTGAAAGCGCTGTAGATTTGTGGGCAGGTTCTGAAATGGTTATGAAAGTTAAAGAGCCGCTGCCATCTGAGTACACCTATTTCCGTAAAGGTCTGATCCTTTTCACCTACCTTCACCTGGCCGCGGAGCCTGAATTGACGAAGGCGCTTGTGGAAAACGAAGTAACGGCCATTGCTTATGAAACGGTGTCGGTTGACCAGAAACTTCCTCTGCTTACACCGATGAGTGAAGTAGCCGGACGGATGGCTACACAGATCGGTGCTCAGTATCTTGAGAAATCTTACGGCGGCATGGGCATTCTGCTAAGCGGCGTGCCTGGCGTTTCCCGTGGTAAAGTGGTCATTATCGGCGGTGGTATCGTTGGTACAAACGCGGCGAAAATTGCCATTGGTCTCGGTGCTCAGGTGACCATCCTTGACCTAAACCCGACACGTCTCCGTGAACTCGATGACCAGTTCGGTTCTGACATCCAGACATTAATGTCCAACCCGTATAACATCGCTGAATCGGTCAAAGAGGCAGATCTTGTCATCGGCGCTGTTCTCATTCCAGGAGCTAAAGCACCGAAGCTGGTTTCGGAAGATATGGTGAAATCCATGAAGGAAGGCTCCGTCATTGTTGATGTGGCTATCGATCAGGGAGGAAACTTTGAAACGGTGGATCACATTACGACGCATGATGATCCGATTTATGAAAAACACGGCGTTCTTCACTATGCTGTTGCCAACATCCCGGGGGCTGTACCACGCACGGCAACCATCGGGTTGACGAATGTGACCATTCCGTATGCGCTGCAGATCGCCAACAAAGGGGTTACAGCTGCAGTGAACGACAATAAAGCCATCGAAGAAGGAGTCAACACAGCCAATGGTCATTTGACCTACGAAGCGGTTGCCCGTGATCTTGACTACTCCTACACACCGGTTTTGGAAGCTTTAAAAGAAATCGCCCACGCGTAA	MIIGVPKEIKNNENRVAITPSGVVNLTKAGHKVYIEVDAGLGSNFTNEEYQEAGAQLIESAVDLWAGSEMVMKVKEPLPSEYTYFRKGLILFTYLHLAAEPELTKALVENEVTAIAYETVSVDQKLPLLTPMSEVAGRMATQIGAQYLEKSYGGMGILLSGVPGVSRGKVVIIGGGIVGTNAAKIAIGLGAQVTILDLNPTRLRELDDQFGSDIQTLMSNPYNIAESVKEADLVIGAVLIPGAKAPKLVSEDMVKSMKEGSVIVDVAIDQGGNFETVDHITTHDDPIYEKHGVLHYAVANIPGAVPRTATIGLTNVTIPYALQIANKGVTAAVNDNKAIEEGVNTANGHLTYEAVARDLDYSYTPVLEALKEIAHA	PGPT0020070_778	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
AK012_02145	1251	putR_2		Proline-responsive transcriptional activator PutR	ATGAGTCCAACACCACGTACCGCTAAAACATTGAACGATCTGATTGATTCTCCCGAAGGTTTAGCTGACCGCATCGCCGAAAACCTGGGCTGTCCAGTGACGATTGAAGATGCCAATCACCAGATTGTTTCCTACAGCAAACATGAAGAGCGTGTGGATGACGCCAGGACCGCCACCATCATGCGGCGCAAAGTTCCGGAAAGCGTCGTTAACGGGCTGTGGAAACACGGCATCATGGCCCGCCTTTTTGAGAGTGGCCGGCCGGTCATCGTCCCACCGATTGAAGAGATCGGACTCGGCCGCAGGCTCGCCGTTTCCGTCAGACATAAGGAGGAAATCCTCGGTTTCATATGGGCCCAGACCGCCGAATTGACAATTACAGAAGAACATCTTCAAACGATTGAAGATGCCTCCAGAATTGTCAGTCAGCACCTGCTCCGTCAGCAGGCAAAGAAGAAGAAATCCGAAGAGAATCAAAAGGAGTTCTTCTGGCAGCTGCTCACCGGTTCCCTGGAAAACACCTCCGATATTAAACGCCTCGGTAAAAAATATCAGATGAACCTGCAGGGCCAGCTCTGTGTAGCCGTCTTTGAATTTACAGAAGACCTGAGCCAGTCTGTCGAACGTCAGGCGTACTATTTATCAGAAACCCTGTACCAGACGAGAATTGTCAGCAGGATTTTCGATAATCACCAGCTGATTCTGCTTGTACGGACAGACCCCAAGGAAGATGCGGAGCACTTAAGCCGCGCTTTCCTGAACGACTTTACGCTGAAAATGAAAGAGCGCTTGAATTTTGACGATTTAAAAGGAGCCGTCGGCCTCGTTTATCATACGCCCTCTTTCATCCACTCCAGTTATAAGCAGGCGCTCAAAGTGCTTGAATTGAAGGATCAGTTTCCAAAAGCGCTCGCTGAAGTGGATCATTACCAGGATCTCGGCATCTATCAGTTCATTAATGAAATCGCTGAACTGCAGAGGAACGAGCACTACCATAACCATGCGCTGAGGAAAATCAAATCGTACGATGCGGATAACCGGGCGGCTCTGCTTGAAACGTTAAAGGTTTTTCTCGCCCATAACAGCAACGTTCACAAAGCAGCTGAAGAAATGCATATTCATACCAATACCTTGAATTACAGACTCAAAAGGATCAGGGAAATCGGCGGCATCGATTTTAAAAATGCCAATCAAAAAATGATGCTCTTCATCGATCTGCTGATTGATGAAAAAGAAAAAGAGGATTTGTGA	MSPTPRTAKTLNDLIDSPEGLADRIAENLGCPVTIEDANHQIVSYSKHEERVDDARTATIMRRKVPESVVNGLWKHGIMARLFESGRPVIVPPIEEIGLGRRLAVSVRHKEEILGFIWAQTAELTITEEHLQTIEDASRIVSQHLLRQQAKKKKSEENQKEFFWQLLTGSLENTSDIKRLGKKYQMNLQGQLCVAVFEFTEDLSQSVERQAYYLSETLYQTRIVSRIFDNHQLILLVRTDPKEDAEHLSRAFLNDFTLKMKERLNFDDLKGAVGLVYHTPSFIHSSYKQALKVLELKDQFPKALAEVDHYQDLGIYQFINEIAELQRNEHYHNHALRKIKSYDADNRAALLETLKVFLAHNSNVHKAAEEMHIHTNTLNYRLKRIREIGGIDFKNANQKMMLFIDLLIDEKEKEDL				NA	NA	NA	NA	NA
AK012_02146	1080			hypothetical protein	ATGAGTAGAATTTTTAAGATTGCCAGTGCATTTATTGGAATTATCGTTGGAGCCGGTTTTGCTTCCGGCCAGGAAGTGTTGCTTTATTTCACAAGTTTTGGGCATTTGGGAACAGCAGGAGCCATACTGGCCACAGCTTTCTTCGCCTACATGGGAATGATGCTGACGAAGCTCGGTACCCGGATGAAAGCAGAGTCTCATAAGGAAGCCATTTACCGTGTCAGCGGCTGGAAATGGCTGGGGTGGATCGTCGATGCGGTTATCATCTTTACGTTATTTGGTGTAGGGGTCGTTATGATTGCCGGTGCGGGTTCAATTCCCAGCCAGCAGTTTGGTCTGCCGGCGTTGATCGGTGTCATCTTTATGTGCCTCATTGTTACCGCGGCCATTCTCCTCAATGTCGAAAAAGTAGTGAAAATCATCGGGAGTATTACACCATTTCTGATTTTAACGGTCGTGATGATTTCTATTTACAGTTTAGTGTCGATGGATGAAAGTTTCTCCGTATTGGAAACGACAGCGTTGCAGCAGCCGAATGACTTTTCCTATTGGTTTGTTTCCGCTATGAACTATGTGTCCTTTAATATTGCTGTCGGAGCTTCGATGGCTCTGTTGATGGGCGGGAATGAAACGGATGAAAGGATTTCTGCCCTCGGTGGTCTCTTTGGAGGTCTTGGCCTTGGTATGATGATCGTACTCAGCCATCTGGCTATTTTCTCCCGGATTGATACGATAGCTGCCTACGATATGCCGCTGCTTGCCTTGGTGGATGAACTCTCTCCTATCCTTGGGACCTTCTATTCGGTCGTTTTATTCGGAATGGTCTTCAACACAGCGGTCAGCATGTTCTTTTCTTTGGCCGCCCGTTTTACAACGCTGGGAACTGTTGGACATAAGAAGTTCGTTCTTATAACGATTACAGCTGCCTTTGGGTTGAGTTTCCTCGGGTTTACCGATCTTGTTTCTCTGTTCTATCCAGTTATTGGATACATGGGGCTCTTCTTAATTGCAGCACTCCTTCTTGCGCCGTTCCGGTTTAAGGCGGAGGAAAGAAAAATAGAAAACAGGCAGCGTAGCTGA	MSRIFKIASAFIGIIVGAGFASGQEVLLYFTSFGHLGTAGAILATAFFAYMGMMLTKLGTRMKAESHKEAIYRVSGWKWLGWIVDAVIIFTLFGVGVVMIAGAGSIPSQQFGLPALIGVIFMCLIVTAAILLNVEKVVKIIGSITPFLILTVVMISIYSLVSMDESFSVLETTALQQPNDFSYWFVSAMNYVSFNIAVGASMALLMGGNETDERISALGGLFGGLGLGMMIVLSHLAIFSRIDTIAAYDMPLLALVDELSPILGTFYSVVLFGMVFNTAVSMFFSLAARFTTLGTVGHKKFVLITITAAFGLSFLGFTDLVSLFYPVIGYMGLFLIAALLLAPFRFKAEERKIENRQRS				NA	NA	NA	NA	NA
AK012_02147	960	murK	COG2971	N-acetylmuramic acid/N-acetylglucosamine kinase	ATGACGTACATCATTGGTATTGACGGTGGAGGGACAAAAACGACCTGCCTGTTTTTCGAATGTGGCGGAACGACGTATCCGAAGCATCCGCTGATGGTAAATGGGCCGGGGACAAATCCACACGTGGTTGGTTTTGAGGAAGCCGGCCGGAGACTGGAGCGCCTGATCAGGCACGGCATGCAGACTTTTTCCTTAACGCCCCGGGATATCTCCGGAGCGGGAATGGGATTGGCGGGAGTCGGCCGGCCGGATGAGGTCGAACAGATGACCGGAATTGTACAGACGCTTTTTTTTAACCTTAAATTTTCGGAAAATTTAAATTTGTTTATCACGTCCGATGTTCATGCTGCCTTAAAAGGGTCGCTGCCTCCAGGTATAGACGAAGGCATGCTGTTGATTTCCGGCACAGGCTCTAATGCTGTTGGAATAACTGCAGCAGGAAAAGTCGTAAAGTGTGGAGGATGGGGGCATTTGATGGGGGATGAAGGCAGCGGTTATCAGCTTTCTTTGAAAGCGCTGTCAAAAGTGGCGAAGGCCGCCGATGGACGGGAAGAATCTACACAGCTGACCTCTCTCATTCTGCAGACCTGTGGCTTAGAGAGGCCTGAGCAGTTAATTCGATACATGTATGAACGTCCTTTTGAAAAAAAGGAAATCGCTGCTTTTGCTCCCTGTGTCATAAAAGCCTCTGAACAGGGCGATCAGACGGCGGTGAACCTGCTGAAGGAGGCGGCAGAAGAACTCGTCCTTCATATTAGAAGCCTCGTAAAGCAGGGAGTGGATCCGAAAGCGCCGGTATCGGTGGCCGGTTCCATCTTCACACACTCCCACGTTCTGAGAAATCACGTTGGAAGGCTGTTGGAAGACAGACAGTTCGGTTCGTTGACAGACCCTTACGCTCCTCCGGAATATGGAGCCGCTTTACTTGGAAAACCAGCTGGAATGGATAAAGAAAGGTGA	MTYIIGIDGGGTKTTCLFFECGGTTYPKHPLMVNGPGTNPHVVGFEEAGRRLERLIRHGMQTFSLTPRDISGAGMGLAGVGRPDEVEQMTGIVQTLFFNLKFSENLNLFITSDVHAALKGSLPPGIDEGMLLISGTGSNAVGITAAGKVVKCGGWGHLMGDEGSGYQLSLKALSKVAKAADGREESTQLTSLILQTCGLERPEQLIRYMYERPFEKKEIAAFAPCVIKASEQGDQTAVNLLKEAAEELVLHIRSLVKQGVDPKAPVSVAGSIFTHSHVLRNHVGRLLEDRQFGSLTDPYAPPEYGAALLGKPAGMDKER				NA	NA	NA	NA	NA
AK012_02148	948	murQ	COG2103	N-acetylmuramic acid 6-phosphate etherase	TTGGAAAACCAGCTGGAATGGATAAAGAAAGGTGATGGGCATATGACGGATTCCCTGACATATTTAACAACGGAACAAAGGAACGAGCGCACGATACATATGGACCAGATGACAACGGTGGAAATGCTGACCGTAATGAACGATGAGGATCATAAAGCGGCGGAGGCTGTGAAAAAAGTGCTGCCGGCGATTACAAAGGCCGTGGATCACATTACAGAAGCCCTGAAAAGCGGAGGACGCTTATTTTACGTAGGCGCAGGCACGAGCGGAAGGCTCGGGGTCCTTGATGCGTCGGAATGTCCGCCTACGTTCATGGTTGACCCTTCGCTCGTGCAGGCAGTCATGGCCGGTGGGGGTGGAGCGTTCACAGAGGCCAAGGAAAACTCTGAAGATAACGAAAAACAGGGCAGGGAAGACTTGAAGGCCCGTGGACTTACTAAACAGGATGTAGTCGTAGGGATTACCGCCAGCGGGCGGACACCGTACCCGATCGGAGCTTTAGCCTATGCGGGGGAGATGGGAGCCTTTACGATCTCGCTATCCTGTAATGATCATTCTGAAATCAGCCAAAAGGCCGCCTGTCCAATTGAAGTCATCGTAGGTCCGGAAGTGTTGACAGGGTCCACCCGGTTGAAGTCGGCGACGGCTCATAAGATGGTGCTGAACATGCTGAGTACAGCGGTGATGGTCAAGCTCGGGAAAGTGTATGAAAACCTGATGGTGGATGTGCATGCCAACAATTATAAACTGCGGGAGCGGGCTAAAAGCATTTTAATGGAAGCGGCCGGGACTTCCTATGAAGAAGCAGAAGAAGCCCTGCAGAAGGCCCAACATCAAGTGAAGCCGGCCATCGTTATGCTGAAAAAGAAGGTCTCGTTCCAGGAAGCAGGGCGTCTGCTGGATGCTCACGGTGGAAAGCTCCGGGACGCAGTGGAAGCAGAAACTTAA	MENQLEWIKKGDGHMTDSLTYLTTEQRNERTIHMDQMTTVEMLTVMNDEDHKAAEAVKKVLPAITKAVDHITEALKSGGRLFYVGAGTSGRLGVLDASECPPTFMVDPSLVQAVMAGGGGAFTEAKENSEDNEKQGREDLKARGLTKQDVVVGITASGRTPYPIGALAYAGEMGAFTISLSCNDHSEISQKAACPIEVIVGPEVLTGSTRLKSATAHKMVLNMLSTAVMVKLGKVYENLMVDVHANNYKLRERAKSILMEAAGTSYEEAEEALQKAQHQVKPAIVMLKKKVSFQEAGRLLDAHGGKLRDAVEAET	PGPT0019040_1095	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
AK012_02149	1377	ngcE		Diacetylchitobiose binding protein NgcE	ATGTTGAGTTTATGTCGGAAAACATCAGCTTGGTTGATTGTCGCAGTTTTATTAGGTTTTCTTATACTTGTCGGTTGTGCGCCCGGAGCAGGAACAGAAGAGACAGATGGAGAGGGCACGGAGGAGGATACTTCTTCTGAAGGCAGTGGAGAAGAAACAGGGGAGGTTTCCGGAGAACTTGAAATTCAATATTTTGTCGGCGGTTATGGAGATTCCTGGTGGAAAGAGGTCATCGGGGATTTCCAGGAGGAGTACCCGGATGTCACGATTACAGAACATGCCGGTCCGAATATTAACGAAGAAATGCGATCGCGCTGGGTATCGGATGATCCGCCTGATGTCGTCTACATCGATGGAGCAGGATCCAGTGAAACTCAGATGGTGGAAGACGGTCAGCTGATGGACTTGACGGATTGGATGGAAGGTGTCGAACTTGAGGATGGTACAGCCTTGAGCGAAAGCTTTATCGTCGATCCGGCTGACTATGATGGCAGCGTATACAGTCTGCCTCTGGTCTTTGATACATGGGGCACGTGGTATGACAACGCCTGGTTCGAAGAAAAAGGATGGGAGGTTCCGAAAGACTTCCCTGGGTTTATGGACACGATGAGTCAGATTAAGGATGAAGAAGGCATTGCTCCTTTCGTCACGACAGGTCAGTATCCATACTACTTCCTGCGAGGCGTCCTGTATCCAGCGTTCGGTGCCGCCGGCGGGGACGAGCTTTTGACAGATGTGATTAAAGGGAAGGAAGGAGCCTGGACGAGCGAGCCTGTGCTGGACGTTATGAAAAAAGTAGAGCAGATGCAGGCAGAAGGCATGATCGACGACGGGTTTGGTGCCTTGAATCATACCCAGTCACAGATGAATTTCCTTCTTCACGACAATGCGTTCATTCCTGTAGGATTCTGGCTGCCTAATGAAATGGCCAATGATACGCCGGATGATTTTGAGTATGGATTCATTCCGTCTCCGATGCAGGATGAAGGAGAGCCTTATGCTATTGTTCCTGATCTCCGTCCACTGGCTATCGCTGAAAAAGCAGAAAACAAGGAAGCAGCCAAAGCGTTTGTCGAGTTTGTTTTCACAAAAGAGTATGCGAAGAGCTTCTCAGAACATACAGGAGCGATCATGAACCTCCAGGGTGTTGATTTGTCTTCCAGTGAAGAAGTGCCTTCCTTCCTGATTGAAGCGAATGAAATGATCAACGATCCGGAACAGGTGCAGATCCATCAGAAGCCTCACCCAATGAGTTCAGAGCTGGAAACGCCGATCAGCAACTCCCTCGTTTCCCTCATGCTTGGAAACATTACAGCTGAGGAATTCGTGGAGGAAGCAGAGAAAGCCGCAGCTGAATACCGCAGCAGTTTAGAGTAG	MLSLCRKTSAWLIVAVLLGFLILVGCAPGAGTEETDGEGTEEDTSSEGSGEETGEVSGELEIQYFVGGYGDSWWKEVIGDFQEEYPDVTITEHAGPNINEEMRSRWVSDDPPDVVYIDGAGSSETQMVEDGQLMDLTDWMEGVELEDGTALSESFIVDPADYDGSVYSLPLVFDTWGTWYDNAWFEEKGWEVPKDFPGFMDTMSQIKDEEGIAPFVTTGQYPYYFLRGVLYPAFGAAGGDELLTDVIKGKEGAWTSEPVLDVMKKVEQMQAEGMIDDGFGALNHTQSQMNFLLHDNAFIPVGFWLPNEMANDTPDDFEYGFIPSPMQDEGEPYAIVPDLRPLAIAEKAENKEAAKAFVEFVFTKEYAKSFSEHTGAIMNLQGVDLSSSEEVPSFLIEANEMINDPEQVQIHQKPHPMSSELETPISNSLVSLMLGNITAEEFVEEAEKAAAEYRSSLE	PGPT0016415_229	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_N_ACETYLGLUCOSAMINE_TRANSPORT,PGPT0016415-ngcE|ABC_NGC_S-K10200	NA	NA
AK012_02150	894	ngcF	COG1175	Diacetylchitobiose uptake system permease protein NgcF	ATGGTCCAATCGCGCAGGCAGAGGAATCTATTTCTTGCATTTTGTCTAGTTCCAACGTTCATTCTGTTTTCTGTTTTCACCCTGTATCCGTTGTTCAACGGCCTTTATTATTCCTTTTTTGAATGGTCCGGTGCGTCGTCGTTGGCGGAGTTTGTCGGGTTTGATAATTACCGCCGGTTGTTCAGTGATGAGATTATCCCCAGAACCATCCTTCACGATTATTTCCTTGTTGTGACCAAAGTGGTCGGGATCATGATTTTATCGACATTTTTTGCCGTCGCTTTGACACAGCTGAAAATTAAAGAAGCCCCTTTTTACCGCATCGTCTTCTTCTTTCCCAACATTATGTCGGTGGTGGTCATCGGTATTTTATGGATGTTCATCTATAATCCGAGTCTTGGCCTGGTCAACTCCGGTCTTGAGCTGATCGGCTTGGAAAGCTGGACGAAACCGTGGCTCGGCAGTGAAGACTGGGCGCTTCCAAGCCTTGTTCTTCCATCCGTCTGGGCGGGGATCGGCTTGTTCATGCTCATGCTGATGGGCGGAATTTCCAACATTTCCAAGAGCTATTATGAAGCAGCGGAAATTGACGGCGCAACAGAGTGGCAGCAGTTTTGGAAAGTGACCCTGCCGCTGATCTGGCCGCAGATTAAGATCAGCATTTTATACATCATCATTACGACATTAAATGGTTCCTTCATTATCGTTCAGGTTATGACCAAAGGCGGGCCGAACAACTCGACCCATGTGATGGGATCGTATTTATATGAGCAGGCCTTTGTGAAATATAATTTCGGCTATGGAGCCACCATTGGTGTGATGATTTTAATTCTATCCTTGGTCACAGTGCTGATTATGCAGTTTTTCATGAGAAGGGAAAAAGTGGAATATTAA	MVQSRRQRNLFLAFCLVPTFILFSVFTLYPLFNGLYYSFFEWSGASSLAEFVGFDNYRRLFSDEIIPRTILHDYFLVVTKVVGIMILSTFFAVALTQLKIKEAPFYRIVFFFPNIMSVVVIGILWMFIYNPSLGLVNSGLELIGLESWTKPWLGSEDWALPSLVLPSVWAGIGLFMLMLMGGISNISKSYYEAAEIDGATEWQQFWKVTLPLIWPQIKISILYIIITTLNGSFIIVQVMTKGGPNNSTHVMGSYLYEQAFVKYNFGYGATIGVMILILSLVTVLIMQFFMRREKVEY	PGPT0016420_216	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_N_ACETYLGLUCOSAMINE_TRANSPORT,PGPT0016420-ngcF|ABC_NGC_P-K10201	NA	NA
AK012_02151	837	ngcG	COG0395	Diacetylchitobiose uptake system permease protein NgcG	GTGCAGACAGGAAAATTCTTTTCACGTACCATCGTTCGAATTCCTTTAATCATCTGGACACTCGCTGTCCTGTATCCGATCGTCTGGATGGTTCTGGGCGCGTTTAAATCGAACGCGGAAATTTACGCCAACCCGTGGGGACTGCCGGAATCCTTCAGCCTTGCCAATTTTGTGGATGCCTGGAGCAACTACAATATCGATACCAGCGTGTTTAACAGTTTCATTGTCACAGGTCTCGGGGCTACGCTGACCCTTATGATGGCCATACCGACATCCTACGCTCTGGAGCGCATGCGCTTCCGCGGCAACCGTCTGTTGTTTACCCTGTATATTTCTGCGATGATGATTCCAATGGTTCTCGGCTGGATTCCATTGTTCTTTTTATTGATGCAGCTGAACCTTCTTGATAACATTTTCGGGTTGAGCATCGTCTATGCGGTGAGTCAGCTTCCCTTCAGTATATTTGTGCTGACAAGCTTTATGGCGACGATACCCAAGTCCCTGGAGGAAGCGGCAGCCATTGACGGGATGTCGCCTTATGGAATTCTGTGGAAGGTGATTACACCGCTCTCAACAACGGGTATCATAACCGTAACGATTATGAATATGATTCAATTCTGGAATGAATATTTTATGGCTTTGATCTTCCTGCAGTCGGAAGAAAATTATACGCTGGCCCTGGCGATTGATTACATAAGCAATGAGACCCAGTACACCAACGCGTGGGGGACCTTATTCGCAAGCTTAGTCATTGCCATCGTTCCTGTCATCGTCCTGTATGCGATCTTCCAGCGGCGCATCGTCAAAGGAATGACAGAAGGAGCTATTAAAGGATAA	MQTGKFFSRTIVRIPLIIWTLAVLYPIVWMVLGAFKSNAEIYANPWGLPESFSLANFVDAWSNYNIDTSVFNSFIVTGLGATLTLMMAIPTSYALERMRFRGNRLLFTLYISAMMIPMVLGWIPLFFLLMQLNLLDNIFGLSIVYAVSQLPFSIFVLTSFMATIPKSLEEAAAIDGMSPYGILWKVITPLSTTGIITVTIMNMIQFWNEYFMALIFLQSEENYTLALAIDYISNETQYTNAWGTLFASLVIAIVPVIVLYAIFQRRIVKGMTEGAIKG	PGPT0016425_275	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_N_ACETYLGLUCOSAMINE_TRANSPORT,PGPT0016425-ngcG|ABC_NGC_P1-K10202	NA	NA
AK012_02152	894	ybbH_2	COG1737	putative HTH-type transcriptional regulator YbbH	ATGAAAAACTCATTGAAAGGCGGTCTTGTCATTCTGAATGAAATGAAGGACAAGCTGCCCCCGTCAGAAAGAAAAATTGCCGCATTTATACTGGATCAGCCTCATGAGGCCATCCACTGTACAGCTACACAGCTTGGGGAACTGAGTTCCACCAGCAGCGCTGCCGTGATCCGTTTGTGCAAGTCCCTTGGACTGAAGGGACTGCAGGAGCTGAAGCTGCGCATTTCCGGAGACCTCCAGAAAAAGCCCGAGAACCGGTTCCGGGATATCCAGCCCGGGGAATCCTCCGATTCCATTGTTGAAAAAGTGACCAACAACAGCCTGCAGGCGATCAAGGAAACGACGGAAATGGTCGATTACCGGACGCTTGAAAAAGCCGTGGATGTCCTCAAAAAAGCGGATACGATCCACTTTTTCGGAGTTGGCGCCTCCGGGATCATTGCTCAGGATGCCCAGCAGAAGTTTCTCCGGATGAACAAAGCGACGTCCGCATTTACAGATATGCACAATGCGGCGATGAACATCGCGAACGTAAAGGAAAATGATGTCGTATTCGGTATTTCTTTTTCCGGTGAAACATATGAAACGGCGAAAATCATGGAAATTGCGAAGTACAAGGGAGCTAAAACGATCAGTCTCACCCGCTATGGTCAGTCGCCTGTGACCTCGCATGCGGATGTTTCGCTGTATATTTCAGCCTCCAGGGAAATTCCCGCTCCATTCCGAAGCGGGGCGACCTCCTCAAGGCTCGCACAGCTGCATATGATCGACATTCTTTTTGTCAATCTGGTCACCGACCAGTGGAATGAAGCGTCCGATTACTTTAATGAAATTACCGACGTCATGGATGTGTTGAAAGGTAAACCGCTTCGTCAGAAAAAAGCCCAATCTTAA	MKNSLKGGLVILNEMKDKLPPSERKIAAFILDQPHEAIHCTATQLGELSSTSSAAVIRLCKSLGLKGLQELKLRISGDLQKKPENRFRDIQPGESSDSIVEKVTNNSLQAIKETTEMVDYRTLEKAVDVLKKADTIHFFGVGASGIIAQDAQQKFLRMNKATSAFTDMHNAAMNIANVKENDVVFGISFSGETYETAKIMEIAKYKGAKTISLTRYGQSPVTSHADVSLYISASREIPAPFRSGATSSRLAQLHMIDILFVNLVTDQWNEASDYFNEITDVMDVLKGKPLRQKKAQS	PGPT0017985_484	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-GENERAL_USAGE	PLANT_DERIVED_CARBOHYDRATE_UTILIZATION_REGULATION,PGPT0017985-hexR|yebK-K19337	NA	NA
AK012_02153	1404		COG0277	putative FAD-linked oxidoreductase	ATGGACGAATGGATCGAGGAACTCCGCCGCATTATCCCTGAAAAAAGGGTGCTGACCGACCTCGCCGACCGGCACAGTTACAGCTTTGATGCCTCGTTCGGGGAGCATCTGCCGGATGTTGTGGTCCAGCCGAAAACCAAGCAGGAAACCGCTGATGTTTTGAAACTGGCCAACCGTTATAGAATTCCTGTTCACCCGAGAGGGTCAGGTACATGTCTGAGTGGCGGGCCGCTCCCGGTGCACGGAGGAATTGTCCTGGATATGTCCCAGTATCCCGCTGAAATCAACCTTCGTCCGCGGGATCTCACCGTGGACGTGACCCCGAGTGTGCTCACGGCTGATATCAATAAGTCCGCTGAGGAGCACGGCCTCATGTACGCGCCGGACCCAAGCAGTGCCCACGTCGCTACGATCGGCGGCAATCTTGCAGAGAATTCCGGAGGGCCGCGCGGGTTGAAATACGGCGTGACGAAAGATCATGTCCTTGGCCTTGAGGTCGTCACACCGGAAGGGGAAATCATTCGCACCGGTGGCCGGACGATCAAAAACGTCACCGGCATTGACTTAACGAAACTCATTGTTGGCTCGGAAGGGATTTTAGGGGTGATCGTCGGAGCGACATTGAAGCTGATGCCGAAGCCCCCGGCCGTCCAGACGCTGATGGTCACGTTTGATGAAGTACGGAAGGCAGGAGAAGCGATTTCCCAGACCCTTACCTCCGGGATCCTTCCGTCCAAAATGGAATTTATGGATCAGGCTTGTGTCGTGGCTGTTGAAAAATTTCAGCCGGCCGGTCTCCCTGTCGATGCTGCCGCTGTGATTATTATTGAACTGGACGGTCATCCAGAGACGCTGAAAGTCGAGCGCCGGCTCATCGAAGAGATTATGGAGGACATGGGTGCGCTGGATGTGATCATTCCCAAAACAGACGAAGAAGCAGCCAAGCTGTGGCATGCGCGGAAACAGGTGTCGCCTGCGATTGCAAAAATCAAGCCGACGAAAGTTTCTGAGGATGCTACCGTGCCCCGCAGTAAAATCCCGGACTTTATGGACCGCCTTCAGGTTATTAAGGAAAAGTATGACGTGGAAGTGGTGGCTTTCGGTCATGCCGGGGATGGCAATCTGCATCCGAATGTACTTTGTGATAAACGTGACGTCGAGGAAATGAAGCGGGTGGAAAAAGCCGTGGAAGAAATGTTTGAAGCGGCCCTGGAGCTCGGCGGCACTTTATCCGGCGAACATGGAATCGGAACGATGAAAGCTCCGTTCATGGAGATGGAGCTCGGTGAAGTCGGGCTGGATATGATGAAGAGGATCAAGGACAGCTGGGACCCGAACGGCATCCTGAACCCTGGCAAGGTCTTCCCGGAAAAAGGGCAGAAGCTGGTGCTGCATCATGAATAG	MDEWIEELRRIIPEKRVLTDLADRHSYSFDASFGEHLPDVVVQPKTKQETADVLKLANRYRIPVHPRGSGTCLSGGPLPVHGGIVLDMSQYPAEINLRPRDLTVDVTPSVLTADINKSAEEHGLMYAPDPSSAHVATIGGNLAENSGGPRGLKYGVTKDHVLGLEVVTPEGEIIRTGGRTIKNVTGIDLTKLIVGSEGILGVIVGATLKLMPKPPAVQTLMVTFDEVRKAGEAISQTLTSGILPSKMEFMDQACVVAVEKFQPAGLPVDAAAVIIIELDGHPETLKVERRLIEEIMEDMGALDVIIPKTDEEAAKLWHARKQVSPAIAKIKPTKVSEDATVPRSKIPDFMDRLQVIKEKYDVEVVAFGHAGDGNLHPNVLCDKRDVEEMKRVEKAVEEMFEAALELGGTLSGEHGIGTMKAPFMEMELGEVGLDMMKRIKDSWDPNGILNPGKVFPEKGQKLVLHHE	PGPT0001890_783	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001890-dld-K00102	NA	NA
AK012_02154	1296	lutA_3		Lactate utilization protein A	ATGAATAGCCTGCTGCAGGAAAAGCTCAGCTATGATAAGACGTTTGACTGTGTGCAGTGCGGCTACTGTCTTCCTGCCTGTCCGACGTATGAGACGATGGAAAGAGAAACGCACTCGCCCCGCGGCCGGATCAACCTTGTGAAAATGGTGGCGGAAGGCAAAGCATCCGTCGAGGATTTGAAAGAGCCGATCGAAAAATGTCTTGGCTGTATGGCCTGTACAACCGTATGCCCGACCAACGTCCAGTACGGAGAAATCCTTGAGAGTGCCAAGCACGTCATTGATGAACAGGAGGAAAAAAGCAGACCGAGGAAGCTTGTGGAGAATTTTATGTTCCAACGTTTTTTTCCCTCCTCAGTATGGATGGATTCGCTTGGACATGCCAGTTGGCTCTATCAAACCAGCGGCTTGAAAAAAGTGTCCCAGCGGTTCGGTCTGACGAAGCGGGCGCCGCTGCACATCCATGAATTTGAGGCCGTACTTCCTGAGATGCCTTCCCCGAAGCGGCGGAAATCAAGGGCGGGCCGATACGTCCGTAAACGTCCGGCCACAGCTAAAGTTGCTTTTTTCAAGGGCTGTATCATGGATAGTGTGTTTTATGAAACGAACAAAAACACGATGGAGCTGCTGTTACGAAGCGGGGCGGAAGTTGTTTTTCCAAAGCAGCAGACGTGCTGCGGAGCTCTTCACGCGCACTCCGGTAAAATAGACGAATCCATCGAACTTGCCAAGCGGAATATCGAAGCCTTTGAAGAGGAAGGCTTTGATTACATCGTTAACAATGCCGGCGGGTGCGGTGCCCGTCTGATTGAATATCCCCATCTGTTTGAAGAGGGGACAGAATGGCACAGCCGTGCTTCTGCCTTTGCGGCCAACGTGAAGGATATCTCCGAAGTGCTGGTGGAAATGGACGGCCTCCGGTTTGAGCAGTCCGTATCACGCACCGTGACCTATCAGCCCTCCTGTCACCTGCGTAACGTACAGAAGGTGACGGAAGCGCCTGTCGCGCTGTTGGAAAAAGTGCCCGGACTGACGCTGAAACAGATGGACCGGCCGGAATTCTGCTGCGGCTCCGCAGGGATTTACAACATCGTCAACTATGAAGAGGCGATGGATATTCTGGATGTGAAAATGAAGGATGTCTGCGGCGTAGACCCTGACGGCATCGTCACCTCCAACCCGGGCTGCCTGCTGCAGATGAAGCTCGGCGTTGTCCGCGAAGGTGCCGATGATCGGATGGAAGCCGTGCATTTGGTGGATCTATTGATGGAAGCGGATCCTCAGCCGAAAACGTAA	MNSLLQEKLSYDKTFDCVQCGYCLPACPTYETMERETHSPRGRINLVKMVAEGKASVEDLKEPIEKCLGCMACTTVCPTNVQYGEILESAKHVIDEQEEKSRPRKLVENFMFQRFFPSSVWMDSLGHASWLYQTSGLKKVSQRFGLTKRAPLHIHEFEAVLPEMPSPKRRKSRAGRYVRKRPATAKVAFFKGCIMDSVFYETNKNTMELLLRSGAEVVFPKQQTCCGALHAHSGKIDESIELAKRNIEAFEEEGFDYIVNNAGGCGARLIEYPHLFEEGTEWHSRASAFAANVKDISEVLVEMDGLRFEQSVSRTVTYQPSCHLRNVQKVTEAPVALLEKVPGLTLKQMDRPEFCCGSAGIYNIVNYEEAMDILDVKMKDVCGVDPDGIVTSNPGCLLQMKLGVVREGADDRMEAVHLVDLLMEADPQPKT				NA	NA	NA	NA	NA
AK012_02155	945			hypothetical protein	ATGATAAAAAAAGAACGCACGCTTCCCCGAGATATCAAAGTTCTGCAGGCTTTGAAGCGTAGGCTGGTGGACAATCACCCTCAATCCGCAGCTGTAAATGACCAGTTGAAGCTCCGATTAACCGGCTTCAAAGGCGAACTCGCCTTGAATTATCCTCTTACTTTCCTCCCCTCGGACCATTATATTTTCCACGACCTGCGTCTGTATGACGGCACCCACCATTTTCAAATCGACTGCCTTGTTGTAACCGCATCTCTCCTAATCATTCTTGAAGTGAAAAATATTGGAGGGGAGCTGTTTTTCAACCAGCGCTTCCACTACCTTGAACGAAAATGGGAGGAAGATCATTCTACGTTTGCCGATCCAGTCATTCAGGTAGACCGTCATACCCGGCAGCTTCGGAAGCTGCTGAATCTCTGGCAGATTCCTCATGTTCCAATTTATGGACTGGTCGTCAACAGCCACCCTGCGGCAAGGATTGATACAGACGATGATGAGCTTGAGAACGTCATCCGAATTGAAACGCTGCCTGAGAAAATATCCACCCTGTTGGAAGGCCGCATACCCATTTTAAATGCCGCGCCAATGAACCGCTTAACCACCCACTTGCTCACCAATCACGAAAGTTACTTTTATGACTATGTAAAATGTTTCAAACTGGAAAAAGAAGTTTTCAAGAAGGGGGTTTTCTGCCCGAAATGTTCCTCACTGCCAATGAAACGTATGCACGGCAGATGGAAGTGCGTGAACTGCGCTCATCTCAGCAAGTCCGCTCATGTGGATGCCCTGGAAGACTACTCGCTCTTAATTGGAAAAACCATCACAAACAAACAGGCCAGAGATTTTCTGCGTGTTCCCTCTCCCTCAGCTGCTAACATTCTGCTAAAAGCGTTGAAGGTTAAAACAGTAGGCAGGAATAAAGGAAGAATTTATGTATTGGAATGA	MIKKERTLPRDIKVLQALKRRLVDNHPQSAAVNDQLKLRLTGFKGELALNYPLTFLPSDHYIFHDLRLYDGTHHFQIDCLVVTASLLIILEVKNIGGELFFNQRFHYLERKWEEDHSTFADPVIQVDRHTRQLRKLLNLWQIPHVPIYGLVVNSHPAARIDTDDDELENVIRIETLPEKISTLLEGRIPILNAAPMNRLTTHLLTNHESYFYDYVKCFKLEKEVFKKGVFCPKCSSLPMKRMHGRWKCVNCAHLSKSAHVDALEDYSLLIGKTITNKQARDFLRVPSPSAANILLKALKVKTVGRNKGRIYVLE				NA	NA	NA	NA	NA
AK012_02156	966			hypothetical protein	ATGGTTTATTTTATTTTTCTACTGTCCGCTGTCATCGTCGTATATGCGGCTGTTTACCTGAACCGCTTCGGCGATGTGATCAGCCGGAAATCAACACTGAGCGGTGCTGTCGTCGGCACCTTTCTCATCGCCGGGGCCACCTCACTTCCGGAATTGACGACAAGTTTAACGGCCGTCTACATCGACAATCCTGACATCGCCGTCGGTAACATGCTCGGAAGTAACGTATTCAACCTGCTTATCATTGCCGTTGTAGATATGATCTACCGAAAAAGAAAAATGTTTAACGCCATTGATGAAAAGCAGCATATGCCGACAGCAGTTGCCGGTATCGTGTTTACCTTGATTGTAGTCGCCGCCCTAATCCTGCCGTTTGATTTTTCCTTGTTTAACATAGGAATTGAAATGTTCATCCTCGTCGGCCTGTATATCGCGGCCACTCGATTTATCAATCAGGGAGAAGAAGAGGAGATAGATGAAGCGGCTGCCGTTGGCAAAGATTATTCACTAAAAGGCGCTGTGGCCGGATTTATTATCACCGCTCTACTCGTTTTCGCCTCCGGAAGTGCCTTATCGATTTCCGGTGATCAGCTGGCGCAGCAGACTGGCATGAGTTCAAGCTTTGTCGGAAGCTTCCTTATTGCCGCTTCCACATCGCTGCCGGAACTCGTCACTGTTCTCGTCGCCATGAAGATGTCCAACTACGGAATGGCGCTTGGATCAATTCTGGGAAGTAATCTGTTTAACCTGCAGCTTCTTGCTGTGACGGATATCTTTTACCAGAAAGGTGCTATTCTGCAGTCCCTCAGCTCCACCCATCTGCCTGTGGCACTTCTGAGTGCAGCCATGTTGTTCTTGACCGTGTTCATGGTGAACCGGAAGCCGAAAGAGAGCAGCTTCCGCTATGCGGTACCGTCGCTGATCATGATCGTCATTTATTTTGCAGCATCCTATCAGATGTTTTAA	MVYFIFLLSAVIVVYAAVYLNRFGDVISRKSTLSGAVVGTFLIAGATSLPELTTSLTAVYIDNPDIAVGNMLGSNVFNLLIIAVVDMIYRKRKMFNAIDEKQHMPTAVAGIVFTLIVVAALILPFDFSLFNIGIEMFILVGLYIAATRFINQGEEEEIDEAAAVGKDYSLKGAVAGFIITALLVFASGSALSISGDQLAQQTGMSSSFVGSFLIAASTSLPELVTVLVAMKMSNYGMALGSILGSNLFNLQLLAVTDIFYQKGAILQSLSSTHLPVALLSAAMLFLTVFMVNRKPKESSFRYAVPSLIMIVIYFAASYQMF	PGPT0014400_2222	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014400-yrbG-K07301	NA	NA
AK012_02157	1209			Thermophilic serine proteinase	TTGAAGTTTAAAAAGCTTGCTTCCCTGTCCCTTGCCGCTGCACTTGTACTTATGCCGTCCACTGGAGGAGTCCTGGCTGATTCACTTTCCGACAAAACATCATCAGAACGGACAAACAAAATTGATACTTATCTCGAAAAAGGAAAGTATGTGCCAGGTGAAGTCGTCGTAAAATACAAGGAAGGACGGGCGTTAAACAAAAAAGAGATGAACCAGATGGACGCCGTTGTCCTTGATGAAGAACAGGAAGTTGTAGAATCTGAGGAGAAAGTGTTGAAGGTGAGAAACGTTGAAAAAGTGGTCGAAGCCTTAAACAAAAATCCTAATGTGGAATACGCAGAGCCGAACTACGTATTCCAAGCCACGTGGACACCGAATGACACGTACTACAGCGGCTATCAATACGGCCCGCAGAATACCGATACACCAAGGGCCTGGGACATCACACGCGGAAGCAGCAGCCAGGAAATCGCCATCATCGATTCCGGTGTCGACTATAACCATCCGGACCTTGATGGAAAAACGATCAAAGGCTATGACTTCGTCGATAACGATAACAATCCAATGGACTTGAACGACCATGGGACCCACGTAGCTGGAACGGCAGCAGCTGAAACAAACAACGCGAGAGGTGTCGCAGGAATGGCACCGAATACGAAAATCCTTGCCGTCCGCGCCCTCGATGCGAATGGAAGCGGCTCCTTGAACGATATTGCGGATGCGATCCGCTATTCAGCTGATCAGGGCGCAGAGGTCATCAACCTCTCCCTAGGCTGTAACTGTGATACACAGACATTGGAAAATGCCGTCAACTACGCCTGGAACAAAGGATCGGTCGTCATTGCAGCGGCAGGAAATGACGGGGTTTCCACAACCTTCGAGCCTGCCTCCTATGACAACGTCATCGCCGTCGGGGCCGTCGACCGCTATGACAGAAAAGCCTCCTTCTCCAACTACGGAACATGGGTGGATGTAACAGCGCCAGGCGTCAGTATTGCCTCTACCATGCCGAACGGCGGCTATGCCTACATGTCTGGAACGTCCATGGCAGCCCCGCACGTGGCTGGTCTGGCCGGACTTCTCGCTTCTCAGGGACGCTCCAACAGCAATATCCGGGCTGCAATCGAGCAGACGGCTGATCCGATCAGCGGCACAGGATCCTACTTCGAGCATGGATTGATCAACTCCTATGAAGCTGTGAACTATTAA	MKFKKLASLSLAAALVLMPSTGGVLADSLSDKTSSERTNKIDTYLEKGKYVPGEVVVKYKEGRALNKKEMNQMDAVVLDEEQEVVESEEKVLKVRNVEKVVEALNKNPNVEYAEPNYVFQATWTPNDTYYSGYQYGPQNTDTPRAWDITRGSSSQEIAIIDSGVDYNHPDLDGKTIKGYDFVDNDNNPMDLNDHGTHVAGTAAAETNNARGVAGMAPNTKILAVRALDANGSGSLNDIADAIRYSADQGAEVINLSLGCNCDTQTLENAVNYAWNKGSVVIAAAGNDGVSTTFEPASYDNVIAVGAVDRYDRKASFSNYGTWVDVTAPGVSIASTMPNGGYAYMSGTSMAAPHVAGLAGLLASQGRSNSNIRAAIEQTADPISGTGSYFEHGLINSYEAVNY				NA	NA	NA	NA	NA
AK012_02158	93			hypothetical protein	ATGAATTCCTGCGATATCGGGGTTGGGATAGAGGTGCTGGAAAATGACCTCTTAAGTGTGGTTTCGACATCTGGGTTGGGCAACTTTTTGTAA	MNSCDIGVGIEVLENDLLSVVSTSGLGNFL				NA	NA	NA	NA	NA
AK012_02159	222			hypothetical protein	ATGGATCATATGCTGAGAAAATTTGTGAAAGCCGCTAATATGAAGGACTTTTCCCTGGACATTACGTTAAACGTCAACGGAGCTCTGGTGACAGGGACGACCGTTTCCGCTGAAAAATACTTCCGTTCTTTAAGTGGTACCCTTGCCGAAGGATCGTTTTTCTGGCGGGGGCGTCTCGACAAGATCGATGGGTTTTTCCTCGGCCGGGTTGATGCAAAATAG	MDHMLRKFVKAANMKDFSLDITLNVNGALVTGTTVSAEKYFRSLSGTLAEGSFFWRGRLDKIDGFFLGRVDAK				NA	NA	NA	NA	NA
AK012_02160	1140			hypothetical protein	ATGAAAAAAGAAAGAATTGAGTCCATCTACTTTCTGCGCATTTTTGCCATGGTCATGGTCGTCCTCGTACATGTCAGTGCGGCTTACGTGAAGGTCCTTACGGAAGGCACGGGTATGTATGAGGCCTATCATTTTATCAACCGGATCATCCGGATTGAAGCCGGCATCTTCATCATGCTGACGGCGATGGTCTTTTTCTATAAGTATATCGATCAGAAAATGGATAAACAGGAGCTCTTCACTTATTTCCGGAAGAGAGCTCTCTATATTGTTGTTCCCTATTTCTTGTGGGCACTTTTCTATGAAGCTTTCTCTATTTACCTCGGAGTGGTATCGACGACGCCGGAGAACATTCTGACGCGGGTGTTTACAGGGGATTCGTTTTATCATCTGCACTTTATTTTCTTAATTGTCCAGTTTTATTTGTTTTTCCCTGTCGTTCTCTATGCCGCACAGAAATCGGCTTTCTTCAGAAAGTACATGTGGTTGTTCGGAATGATCCTGCAGGTCGGCTACTACTTCTTCAACCGGGAATTCCAAGTGTTCTCATTTAATCTGTTTATGACGAGTATGGGACCTTACCTTCTCGGTGCGTGGATCGGCGCCCATTATAAACAGCAGAAGACGGCAGCCTTTTCAAGGACAACGCCTGTATGGGCTGTCGGAGGCCTGCTTGCCGGTCTGACCACTGTTTACCTGCATGGAAGCGGGTATCAGATCTTCGGCGTACAGCTGCCGACATGGGGCTATCTGGTTATCAATATGCTGTTCCTTGTCGGAGGAAGCTATGCCATGTTCCGGATTGCGGAACGGTTGGTCGTCAAGCGGCCTGTCGCTTTGACCTACGTGAAGAATATTGCTGTTTATTCCTTCGGCTTTTACCTTCTTCACCCGTTTGTATTGAAAATCTATGAGTTTACCATTCCGATACAGGCAGGAAACTTGTTCCACGTATCCATTGTCGTCCGGCTGGCGGCCACATTGATGTCCTGCTATGTCATCATCTGGCTGTGCCACCGCTATCTGCCGGCCGCCGGTTTGTTTTTCGGTAAACTGCCGACTAAAAAACCAGGATTTTTTGAAGGTGATCGATCGAAAGGGAACAAGTCTGAGCAGGAAACAGGAAAAGCTGCCTTATAG	MKKERIESIYFLRIFAMVMVVLVHVSAAYVKVLTEGTGMYEAYHFINRIIRIEAGIFIMLTAMVFFYKYIDQKMDKQELFTYFRKRALYIVVPYFLWALFYEAFSIYLGVVSTTPENILTRVFTGDSFYHLHFIFLIVQFYLFFPVVLYAAQKSAFFRKYMWLFGMILQVGYYFFNREFQVFSFNLFMTSMGPYLLGAWIGAHYKQQKTAAFSRTTPVWAVGGLLAGLTTVYLHGSGYQIFGVQLPTWGYLVINMLFLVGGSYAMFRIAERLVVKRPVALTYVKNIAVYSFGFYLLHPFVLKIYEFTIPIQAGNLFHVSIVVRLAATLMSCYVIIWLCHRYLPAAGLFFGKLPTKKPGFFEGDRSKGNKSEQETGKAAL				NA	NA	NA	NA	NA
AK012_02161	1737	cstA_1	COG1966	Peptide transporter CstA	GTGAGCGGGATTTGGCTGGCGGTTGTCGGTATGTTTGTCTTTTTTCTAGGGTATCGGTATTATTCCAAGTTTATTGCTGAAAAGATTTATAAGCTTGATCCGGATTATGTCACCCCCGCCCATCAGTTTAAGGATGGGGTCGATTTCGTACCAACCAATAAGTTCGTTCTCTGGGGCCACCATTTCACATCGGTTGCGGGAGCGGCCCCGATTGTCGGGCCGGCAATTGCGGTGTACTGGGGCTGGCTCCCGGCGGTGCTCTGGGTTCTGCTCGGTACAGTCTTCGCTGCAGGTGTCCATGACTTCGGTACACTCGTCTTATCGGTCCGAAATAAAGGACAGTCGATTGGGACGCTGGCGAGCAAGTTGATTGGACAAAAAGCGAAGGTATTGTTTTTGTTCATCATCCTTCTGCTCGTTCTTATGGTCAACGCTGTGTTCGCCTGGGTCATTGCCAACTTGTTCATCTCGTTTCCTGCGAGTGTATTATCCGTCTTTATTCAAATTCCACTGGCTGTCTGGATTGGTTACAGTGTGTACAAAAGACAAGGCAGTATGCTCCTGCCATCACTTGTAGCCCTTGCCGTCATGTATATATCAGCCATTATCGCAAGCTATGTTCCCGCCCTGCAGATTGACCTCGTCCGTTATTTCGGAGGGGAAGGGGCAGAGACCGCCTTTGGATTGAGTGCGACATCCATGGCATTTTTCGTCTGGATCATCGTGCTCATGGTCTATGTGTATATTGCCTCTACGCTTCCTGTTTGGAAACTGCTTCAGCCGAGGGATTATATCAACTCCCATCAGCTGATTGTCGGGCTGGGTCTCCTGTATCTCGGGCTGTTGTTTTCCAATCCGCAAATTACAGCACCGGTAACCAATGCATCAGCGGATACGTCCTGGTTCCCGCTTTTGTTCATTACCATCGCCTGTGGAGCGATTTCAGGATTCCATGGTCTCGTCTCTTCCGGAACTTCATCTAAACAGTTGAACAATGAAACAGAAGCACGGTTTGTCGGCTATCTTGGATCTGTAGGAGAGGGAGCTCTCGCCTTGGTCGCGATCATTGCTGTTGTCACCTTCTTCCCGACAGCGGCGGAATTCACAGCAACCTACAGCGGTTTTGCGGTAGCCAGTAATGCCGGGCTTGGTGTTTTCATCCAGGGGGCCGGCCAGCTGGCCACAGGACTCGGGATCCCAGCCTCTGTTGCTGCGACAATCGTGAGTGTGATTGTCGTCAGTTTCGCTGCGACAACACTGGATTCTTCGGTTCGATTGATGCGGTATATTATCGCAGAGCTAGGCACCGAATATAAAATCACACCCCTGACGAAAATGCATGTGGCCACAACGATGGCGGTTGTTTCCAGTGCGGCCTTGACGCTGATTCCACAGGGGCCAAAGGGATTCGGCTCCGGAGGTTATCTGCTGTGGCCGTTGTTCGGAACATCGAATCAGCTGCTGGCGGGCATCAGTCTCCTGCTCGTATCCATTTGGTTGAAGCGTCAGGGAAGAAACTATCTTCCGACGATCATCCCTATGGTTTTCCTGATGTTCATGACACTCTGGGCGATGATTTCCCAGGTGCTGACGGAATGGGCGCCGTGGAATGAAAACAGTGACTGGATGCTGTTTACGTTCGGTGCGGTCATCCTCGTTTTCACCTTCTGGATTTTACTGACAGCCTTCTCGGCCATTACGAAGGATCATAAAAATTCCATCGAACGAAGTGCTTAA	MSGIWLAVVGMFVFFLGYRYYSKFIAEKIYKLDPDYVTPAHQFKDGVDFVPTNKFVLWGHHFTSVAGAAPIVGPAIAVYWGWLPAVLWVLLGTVFAAGVHDFGTLVLSVRNKGQSIGTLASKLIGQKAKVLFLFIILLLVLMVNAVFAWVIANLFISFPASVLSVFIQIPLAVWIGYSVYKRQGSMLLPSLVALAVMYISAIIASYVPALQIDLVRYFGGEGAETAFGLSATSMAFFVWIIVLMVYVYIASTLPVWKLLQPRDYINSHQLIVGLGLLYLGLLFSNPQITAPVTNASADTSWFPLLFITIACGAISGFHGLVSSGTSSKQLNNETEARFVGYLGSVGEGALALVAIIAVVTFFPTAAEFTATYSGFAVASNAGLGVFIQGAGQLATGLGIPASVAATIVSVIVVSFAATTLDSSVRLMRYIIAELGTEYKITPLTKMHVATTMAVVSSAALTLIPQGPKGFGSGGYLLWPLFGTSNQLLAGISLLLVSIWLKRQGRNYLPTIIPMVFLMFMTLWAMISQVLTEWAPWNENSDWMLFTFGAVILVFTFWILLTAFSAITKDHKNSIERSA	PGPT0015060_1679	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
AK012_02162	381			hypothetical protein	ATGGTGGATGTATTGATGATACGGGCGGAAAAGGAAATCGGCATGGGGTGCTGCGGAGGGGTCTGCTCTGACCCGGACGGTCTGATCCACATGGAAGACGAGTTTTCCCATCATGATGAAGAGCGGAGAGAACTGCAGCAGCTTTATCAAAAGACGCTGGACATCGACTCTGAGATCCATGTTCAGTTCATGGATCCAAGGAATCTCCTTGGTGTCGCTGCTTATTTCTGGAAGCAGCACTCCCGGGGATCCATCTCTTTACGGCAGGGGGCAGCCTCCTTGCTGCTGCACATCAAATATCGGGCAGTGTTCGTGAACGGTGAATATATAGGTAGTCCCGACCGCTATGAAGAGAGACTGATGGAACTGACAGAAGCCTGA	MVDVLMIRAEKEIGMGCCGGVCSDPDGLIHMEDEFSHHDEERRELQQLYQKTLDIDSEIHVQFMDPRNLLGVAAYFWKQHSRGSISLRQGAASLLLHIKYRAVFVNGEYIGSPDRYEERLMELTEA				NA	NA	NA	NA	NA
AK012_02163	264			hypothetical protein	ATGGAAAAGAAGCTGTCCTTGAAAAGAATGGTCGAACTGTATGATGAAATATTAAGTCTGCCTCATAAACAGGAGGTGGCCAGGGAGCTGAGAGATGAAGAGGACCTTTTTCTTCTGCTGCTTTACTCCGATCTGCTCGGTATTCCCAACCCCGCTTTTTATTACACGCTTGAACTGTATCCTCACATTGTTGAAAAATTTCACGACTGGCATTTGCGGATGGGCATGGAGAAATCCCCGCTCGACGGCATCCGCTGCTGTTAA	MEKKLSLKRMVELYDEILSLPHKQEVARELRDEEDLFLLLLYSDLLGIPNPAFYYTLELYPHIVEKFHDWHLRMGMEKSPLDGIRCC				NA	NA	NA	NA	NA
AK012_02164	954	arsA_1		Arsenical pump-driving ATPase	ATGAAGGATATCCAGCATCATTCCATTATTTTTGTAGGGGGAAAAGGAGGTGTCGGAAAATCAACATCTTCCGCTGCTCTCGCGCTCTCCTTGGCTGAACAGGGCTATGAAACGCTTGTCGTATCGACAGATCCCGCCCATAATCTCGGCGATGTTTTTCATAAGACGTTATCCCACACGAAAACGAAACTGGCTGAGCATTTGTACGGGATTGAAATCGACCCTGTTCATGAATCAAAGCGGTATATTGAAGGTGTCAAAGGACATTTGGAAGGGCTTGTGAAGTCCAAAATGGTCGAGGAAGTGCATCGGCAGATCGACCTGGCCTCTGCATCACCGGGAGCGGATGAGGCCGCTTTGTTCGACCGCCTCGTATCCATCATTTTGGAAGAGTCCGGTCCGTTTGATAAGATCGTTTTCGACACGGCACCGACGGGGCATACGATACGCCTCCTTACCCTGCCGGAGATCATGAACGTATGGATCGATGGAATGCTGGAGCGGCGCAGCCGGATGAATGAGACGTATACGCAGCTGCTTCATGACGGAGAGCCTGTGGATGATCCGATTTTCAACGTGCTCCAGAAACGCCGGGAAAAATTCGCCCAGGCACGAGAGATCATTTTAGACAAAGAGAAAACAGCTTTTGCCTTTGTCCTTATTCCTGAGCGCCTCCCTATCCTTGAGACAACAAAAGCGGTAGAGCGGCTGGGGAAACATAGGCTTCACGTTCAGTCTCTGATTGTAAATAAAGTTCTGCCTGACTATGCAGACGGCGCTTTTCTTGCAAAGAGGAGACAACAGGAGTGCGTTTACCTTGAGGAGATTGAGCGGACGTTTACGGATCAGGAGCTGGTGTATGTGCCTCTGTTTGAGGAGGATGTATCAGATATGAAAAAACTCCATACGTTTGCGGAAGCATTCCGGAAGTCTATACATGCTGCTGATTCCTAA	MKDIQHHSIIFVGGKGGVGKSTSSAALALSLAEQGYETLVVSTDPAHNLGDVFHKTLSHTKTKLAEHLYGIEIDPVHESKRYIEGVKGHLEGLVKSKMVEEVHRQIDLASASPGADEAALFDRLVSIILEESGPFDKIVFDTAPTGHTIRLLTLPEIMNVWIDGMLERRSRMNETYTQLLHDGEPVDDPIFNVLQKRREKFAQAREIILDKEKTAFAFVLIPERLPILETTKAVERLGKHRLHVQSLIVNKVLPDYADGAFLAKRRQQECVYLEEIERTFTDQELVYVPLFEEDVSDMKKLHTFAEAFRKSIHAADS	PGPT0004700_2188	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004700-arsA-K01551	NA	NA
AK012_02165	1128			hypothetical protein	ATGCTGATTATCGATGAACAAACTGTGTCTCCTATCCTGGTACAAACGGCCCTGAATCACCATCTTCCTATTTATTATAAGGACGATGAAAGGCCTCTGGATATCAAGGAACACTCAAAAATACTAACCAATTCGGAGAGCTGTCTGCAGATGCTGCAGCACCATCATCCGGAACATATACATACGAAAGTTTCTCAGCTGGTCAAAAACAAAGCCCGGTTCCGTGGAATGATCGCTGATCTGGATGAAAACTATAATTTCAAGCTTGTCACGGTTGATGAGCTGTTGTGTACGAAGAAGGAAAATGTACCGTTTCCGGTCGTGATTAAGCCGAATCGAGGTTATTCCAGTGTCGGTGTTTATATTGTGAAGGAAGAAAAGGAGTGGGACCAGGCAGTACAGCGGCTGTATTCCGATCTGCTTCTTTCCAGGTCCATGTATTCAGGTGCGGTGCTGGACAGTGAACAGATTATCATCGAAGGATACATCGAAGGTCAGGAATACGCTCTTGACTGCTACTATGATGAAGCGGGGGAGCCCGTCATTTTGAATATCCTGAAACGCCGGTTCGCCCATGATCAGGATACGTCGGATCGGATTTATTACACCTCCAGTCTGATCCTCGACGAAGTCCGGGACCAGGCGCTGGATTACCTGCGTCTTTTAAATGACCGGCTTCATCTGCAAAACTATCCTTTTCATATAGAAATGCGGAAAAACGAAACCGGCGTCATCCCGATTGAGATGAACCCGCTTCGATTTGCCGGTGCCGGCACGACGGATGTGAGCCACTATGCTTATGATATCAACTCCGCCTTGTCCTACTTCAAAGGAGTAAAGCCGGATTGGGAGACGATCGTAAATCGGGCTGATGAAGCGTACTACGGTTTTTTCTGTGCAGAGGTGCCGGTCCAGATCAGCATGAATCTTATTCAGTCGATTGAGCACGACAAATTGAAAGAACAATTCAGTGATGTGCTGGAGTACCGGGGCATTCAATCGGCCGGCGACCGGACGTTTGCGGTCGTATTTTTCAGAACCCATTCTCTAAAAGAATTCGATCGTTTACTCACCCTTGATTTAGAACCTTTTCTTACAATGAAACCCGTGAAGGAGGCTGTTCGATGA	MLIIDEQTVSPILVQTALNHHLPIYYKDDERPLDIKEHSKILTNSESCLQMLQHHHPEHIHTKVSQLVKNKARFRGMIADLDENYNFKLVTVDELLCTKKENVPFPVVIKPNRGYSSVGVYIVKEEKEWDQAVQRLYSDLLLSRSMYSGAVLDSEQIIIEGYIEGQEYALDCYYDEAGEPVILNILKRRFAHDQDTSDRIYYTSSLILDEVRDQALDYLRLLNDRLHLQNYPFHIEMRKNETGVIPIEMNPLRFAGAGTTDVSHYAYDINSALSYFKGVKPDWETIVNRADEAYYGFFCAEVPVQISMNLIQSIEHDKLKEQFSDVLEYRGIQSAGDRTFAVVFFRTHSLKEFDRLLTLDLEPFLTMKPVKEAVR				NA	NA	NA	NA	NA
AK012_02166	1701			hypothetical protein	ATGAATGGGCAGGTGTTGAACCCGAAGAAGTCCCTGAAGTCCCAGTTGTTTGTTAATTTTATTATCCCGATTCTTCTTCTTGGCGGGATGACGTTTGGATTTGTGAAGCTTGTAACCGGCAGTATTATTGATGATCACGTCCTCCCCCAGTTTGAACAGGTTCTGCTGACAAACGGGCAGGAGCTTGTCCGCTCGATTGAACCAAACGCCGTAAGGGAGGCGATTGACAACCCGTCGGACAACCATGCCAATTTGATTAACACCCTGGACAGCTTCATTGAAGGGCAGGAGCGTCTGGAGTACGCTTATGTTTTGACGAAACAGGGGGGAAACGAGTACATTGTCGCTTTGAGCGGTTCTGAAGATGTGATGGTGGAATCTCCTTTTACGGACGAGCAGAGTGAGGCATTTCAGACAGGGGATACAGTCGTAACGTCCATATATGAGGATGAGTGGGGCGTGCATAAGTCCGTGTTTATGCAGATTGGCAGCATGGATGCCATCGTCGGGGTCGATATGAGTACATCCTTTATCGGAAATCTTCAGAAGGAGATCAACGGGTTCCTCGCTGTCTTTTTAGCGGTCGCTGTACTGCTGGGAGCTGGATTTGCCTACTTCTTCGGCAGCCGTCTGACCAAAGCTGTCCGGTCGCTTTTGGATTCTGTGAACAGAATTAGTGACGGAGATTTGACCGAGAACATTGAAACGAAACGGAAAGATGAAATCGGTCAGCTGTCGATGGCTATGAATGAAATGGTGGAAAGTCTGAGAACACTCGTTCAAAGGGTGGCGTCAGCATCCAGTGAAGTGTCTGCCCAGAGTGAGGAGCTTACGCAGTCAGCCAACGAAGTGAAAGAAGGCAGTGAGCAGGTGGCTTCCACAATGCAGGAACTATCCTCCGGTGCAGAATCTCAGGCGGACAGCTCCAGCAGTCTTTCGGAAGTCATGGACAGCTTCGTTCGTCGTCTGGATGAGGCGGACGAAAGCGGAAAAGCCGTGTCTACTACATCAAAAGAAGTTCTGTCTATGACCGAGGAAGGAAAAGGATTAATGGAGGTATCTGTTCAGCAGATGACTACCATCAATGGCATCGTAAAAGAGTCTGTGGAACGGGTGCATGGGCTGGACAGGCAGTCCAAGGAGATCAATAAACTCGTTCAGGTGATTCAGGATATTGCGGAACAGACCAATCTTTTATCCTTGAACGCAGCCATAGAGGCGGCCAGAGCAGGGGAGCACGGAAAAGGCTTTGCCGTTGTGGCTGATGAGGTCCGGAAGCTTGCAGAGCAGGTGTCCACCTCCATCATTGATATTACGTCGATAGTGGACAGCATCCAGTCGGAGTCGAACCGGGTGGCTCAATCACTTGAATCCGGCTACCAGGAAGTAGATAAGGGGACGAAGCAGATTGAAGTGACCGGGGAGACATTCCACCGCATCCACACCTCCGTCAGCGATATGTCCGGCCGTGTCGGAGAGATTTCCAATCATCTATCGGATATTGCTGTGAACAGTCAGCAGATGAACCAGTCTATTGAAGAGATTGCAGCCGTCTCTGAAGAATCGGCAGCGGGAGTGGAGCAGGTGGCTGCTTCCTCCCAGCAGACGACAAGTTCGATGGAGGAAGTCTCCCACAGTGCACGTCAGCTTTCCGAACTGTCTGAGCAGCTGAATGACGAGATCCAGCAATTTAAGCTGTAA	MNGQVLNPKKSLKSQLFVNFIIPILLLGGMTFGFVKLVTGSIIDDHVLPQFEQVLLTNGQELVRSIEPNAVREAIDNPSDNHANLINTLDSFIEGQERLEYAYVLTKQGGNEYIVALSGSEDVMVESPFTDEQSEAFQTGDTVVTSIYEDEWGVHKSVFMQIGSMDAIVGVDMSTSFIGNLQKEINGFLAVFLAVAVLLGAGFAYFFGSRLTKAVRSLLDSVNRISDGDLTENIETKRKDEIGQLSMAMNEMVESLRTLVQRVASASSEVSAQSEELTQSANEVKEGSEQVASTMQELSSGAESQADSSSSLSEVMDSFVRRLDEADESGKAVSTTSKEVLSMTEEGKGLMEVSVQQMTTINGIVKESVERVHGLDRQSKEINKLVQVIQDIAEQTNLLSLNAAIEAARAGEHGKGFAVVADEVRKLAEQVSTSIIDITSIVDSIQSESNRVAQSLESGYQEVDKGTKQIEVTGETFHRIHTSVSDMSGRVGEISNHLSDIAVNSQQMNQSIEEIAAVSEESAAGVEQVAASSQQTTSSMEEVSHSARQLSELSEQLNDEIQQFKL	PGPT0015710_16173	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
AK012_02167	1038	malR_2	COG1609	HTH-type transcriptional regulator MalR	TTGGACGTAACCATTAAGGATGTAGCCAAAGCGGCTGGTGTAGCCCCCTCGACGGTTTCCCGTGTGATTGCGGACAATCCGCGGATCAGCCCGGCTACGAAACGAAAAGTGAAGCGGGCGATGGAGGAGATGGGCTATCATCCGAATGTGACCGCTCGTAATTTGGCGAGCCGGAAGACGAAAGCGCTGGGAGTGGTTCTGCCTTTCAGCGCAGACAAAGCTCTCCAGAATCCTTTTTTTCCAGAAGTGCTGAGGGGGATCAGTTCCATCGCTCATGACATGGACTATTCCCTCGTTCTCTGTACGGGGGAAACGGATGAAGAAATGCTGGAGGGTGTCCAGAGGATGGTATACAGCAGTCAGACGGACGGTATTCTTCTGCTGTATTCACAGGTCCGGGATCCGATTCAGACGTTTTTGCTGAAGCAGAAATTTCCCTTTGTCGTTGTCGGACGTCCGGCAGAAAACGGAAGCGAAGTGACTCATGTGGATAATGATAATATTCAGGCTTCCAAGGATATCACGAGCCATCTACTGGATATCGGCCATGAACGTATCGCGTTTATCGGCGGATCGCGGGAGCTCGTGGTCACCCTCGACCGCCTCCAGGGCTATGAAAGGGCGTTACGGGAAGCAGGGATCTCTTCTTCAGAAAGCTATAAAGTCCATACCGAATTTTTGAAATCAGGCGGCCGTTCCGCTGTTCGTGAGCTCATGTCCCTTTCCGACCCTCCGACAGGGCTCGTCGTCGCGGATGATCTGATGGCGATCGGGGTCATTTCCACGTTGGAGGAAGCGGGCATCCATGTCCCTGAGGATTTATCGATCGTCAGTTTTAACAATGTGTATCTGGCTCAGGTTTCCCGCCCGGCGCTCACGACTGTGGACGTCCACATCCATGACTTAGGTAAAGAAGCCGCCGCCTGCCTCATTGCACACGTGCAGCGGCGGGATCAGCCGGCCAAGCGTGTCATCATTCCACATAAAATTGAATACCGGTCTTCGGCCATCTCCCGTCCGGCACCGTCTGAAGCGTAA	MDVTIKDVAKAAGVAPSTVSRVIADNPRISPATKRKVKRAMEEMGYHPNVTARNLASRKTKALGVVLPFSADKALQNPFFPEVLRGISSIAHDMDYSLVLCTGETDEEMLEGVQRMVYSSQTDGILLLYSQVRDPIQTFLLKQKFPFVVVGRPAENGSEVTHVDNDNIQASKDITSHLLDIGHERIAFIGGSRELVVTLDRLQGYERALREAGISSSESYKVHTEFLKSGGRSAVRELMSLSDPPTGLVVADDLMAIGVISTLEEAGIHVPEDLSIVSFNNVYLAQVSRPALTTVDVHIHDLGKEAAACLIAHVQRRDQPAKRVIIPHKIEYRSSAISRPAPSEA	PGPT0014791_153	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	SESSILE_ROOT_COLONIZATION,PGPT0014791-ccpA-NA	NA	NA
AK012_02168	1023			hypothetical protein	ATGAGTAAGACAAAAAGGAATGATCCCTGCTTTTGTGGAAGCGGGAAAAAATATAAAAAATGCTGCATGGTGAAGGACGATCAGGCCGTCGGCTCCAACAGCCTTCATGAGGAACTGCAGAAAAACTACAGCCACTTTATGGCTTATGTGAACCGCAATTACCCGAACGTTACACCATCAGAGCCGAGAGAAACGCAGGAAGAAGAAGTCGAGGCGGCGTTCCAGATGGTCCAGCGTGTTCTGATCGACAAACAGGAAGACGGCTCCACGTTGTATGAGGAGTTCTTTGAAAAGAAACAGGACAAAATCATTCGTCCAGCTACGATGGCGACGATGGAAGCCTGGAAATCTCCGCATGTGAGCCTGTTCAAAATCAACGGCTCCGCCTCTGAATACACAGCTTCCGTAGAAGATGTGTGGAGCGGGGAGACGTTTGAAGTGAAGAAAGACGGCATCCCTTTGAAAGAGGAAAACTATGCGCACATGCCTTACTGTATCGGTGTGCTCTTGAAGTGGGGACCTGTTCATAACTTTGTTCCCTTGGCGATTCCAAACTATGAGTCTTCGTATGTGACGTTCCGTCAGCAGCTGGAGCAGGCATTTGAAGCGAGTCAGGCATCCACGATCTACGACTATATGCAGGAAACGATTCTTGAGCAGCTGCGCAGCTGGATGTATATGACATCTTCAGAAGAGACGGAAGAAAGCCCGGCCGAGCAGCCGGTCGAAGCTTCTGATGAAGGCGATGAAGTGCTTGACTTGTTCGATGAAGACTTGAAGAAGGAAGACGGGTTCGAACAGTTGAAGCAGCGCTGGGAATTGTACAAACAGGAGGAGAACCCGACGTTCCGTAAGCCGGAAGTCGTGACCGCTGCTCTTGAGCATATTTACCGCAGTACTACAGCCTTCCGTTCCGAGCCGGAGAAAGTAACGAAAAAAGCGGTGGCTGAGAAATATGAAGTGAGCCCGAGCAGCATGAGCAAGCGCATTACGCAGCTCACCGGACACCTCAATCCATCATAA	MSKTKRNDPCFCGSGKKYKKCCMVKDDQAVGSNSLHEELQKNYSHFMAYVNRNYPNVTPSEPRETQEEEVEAAFQMVQRVLIDKQEDGSTLYEEFFEKKQDKIIRPATMATMEAWKSPHVSLFKINGSASEYTASVEDVWSGETFEVKKDGIPLKEENYAHMPYCIGVLLKWGPVHNFVPLAIPNYESSYVTFRQQLEQAFEASQASTIYDYMQETILEQLRSWMYMTSSEETEESPAEQPVEASDEGDEVLDLFDEDLKKEDGFEQLKQRWELYKQEENPTFRKPEVVTAALEHIYRSTTAFRSEPEKVTKKAVAEKYEVSPSSMSKRITQLTGHLNPS				NA	NA	NA	NA	NA
AK012_02169	1680	katA	COG0753	Catalase	ATGGACAAACATAACGAACAGGGACCGGGCGGAGCGGATGACCATCGTTTTGCCGAAGGAGAAAGCGAAAAAACGCTGACGACAAGGCAGGGTCACCCGGTCCGGACGAACCAGAATTTAAGGACGATCGGGAACAGGGGACCGGCGACACTTGAGAACTATGATTATATCGAAAAGATTTCCCACTTTGATCGGGAACGTGTCCCTGAACGTGTCGTCCACGCCCGTGGAACCGGAGCGCACGGATACTTTGAGACCTACGGGAAAGCAGGCGATGAACCGGTAGAGAAGTATACGCGCGCTAAAGTTTTTTCCGGAGCCGGAAAGAAAACACCGGTCCTCGTCCGCTTTTCTACAGTGACACACTCGGCGGGCTCTCCGGAGACATTGAGGGACCCCCGCGGATTTGCGGTTAAATTTTATACCGAAGACGGCAACTGGGATCTGGTCGGGAACAACTTGAAAGTGTTTTTCATCCGCGATGCGATGAAGTTTCCGGACTTGATCCATTCCTTTAAGCCGGACCCGGTCACGAATATACAGGACAGTGAGCGGATTTTCGATTTCCTCAGCCAGACACCGGAATCGATGCACATGGTTACGTTCCTGTTTTCCCCGTGGGGCATTCCCGCCAACTACAGACAGATGCAGGGGTCAGGGGTGAACACATACCGATGGGTGAATGAAGAAGGAAAAGCGGTTCTTGTGAAATACCACTGGGAGCCATTGAAGCAGGGAATCAAAAACCTGACGCAGGAGGAAGCGAACCAGATTCAGGCGGAAAACTTCAACCATGCGACACAGGATTTGTATGAGGCGATTGAAAGTGGGGATTACCCGGAGTGGGAGCTCTGCGTTCAGATCATGGATGACCATGAGCATCCGGAGCTGGACTTCGATCCGCTCGATGATACGAAATTATGGCCGGAGGATCAGTTCCCGTTTTTGAAGGTCGGGAAAATGGTGCTCAACAAAAATCCGGATAATTACTTCAATGAAATTGAGCAGGCGGCGTTTGGAACAGGTGTCCTTGTGGACGGTCTCGATTTTTCCGATGATAAAATGCTTCAGGGACGAACGTTCTCCTATTCGGATACACAGCGGTACCGGGTCGGGGCCAACTACCAGCAGCTGCCCTCCAATGCTCCGAAAAAACATGCCGCCACCAACTATGAAGGGGGAAGCATGTCCTACTTCGTGGACCGGCCGGAAGGAGCTAACCCTCACGTGAACTATGAGCCTTCTTCCTTGAACGGCCTGGAAGAATCTCCTGCGAAAAAGGCTCCACATCAGCCGTATGCCGAAGGGAAATTGAAAAAAGAGCCGATCGACAGGGAAAACAACTTCAAGCAGGCAGGAGAACGCTACCGGATGCTGAAGGACTGGGAGCGGGATGATTTGATCAACAACCTTGTCGTTTCCCTCAAACCCTGCCAGGCACATATCCAGAAAAAGATGGTGGCTCTGTTGACCCAGTGTGATGAAGACTATGGAAACCGTGTGGCAGAAGGGCTGGGGATGCATGAAGCAGCCGGCCGGATGAAGGAGGAGTTTGCCGGGGATATGACTCCATCCAAAGGGAAACTGCCGAAGCGGGGCGGTTCTCCCCTGGGCAGTAAAGGTGCAGCGGATGCTGTAGATCAAGCAGAAGAAAAAGGACACGAAGCGGATCCATATTGA	MDKHNEQGPGGADDHRFAEGESEKTLTTRQGHPVRTNQNLRTIGNRGPATLENYDYIEKISHFDRERVPERVVHARGTGAHGYFETYGKAGDEPVEKYTRAKVFSGAGKKTPVLVRFSTVTHSAGSPETLRDPRGFAVKFYTEDGNWDLVGNNLKVFFIRDAMKFPDLIHSFKPDPVTNIQDSERIFDFLSQTPESMHMVTFLFSPWGIPANYRQMQGSGVNTYRWVNEEGKAVLVKYHWEPLKQGIKNLTQEEANQIQAENFNHATQDLYEAIESGDYPEWELCVQIMDDHEHPELDFDPLDDTKLWPEDQFPFLKVGKMVLNKNPDNYFNEIEQAAFGTGVLVDGLDFSDDKMLQGRTFSYSDTQRYRVGANYQQLPSNAPKKHAATNYEGGSMSYFVDRPEGANPHVNYEPSSLNGLEESPAKKAPHQPYAEGKLKKEPIDRENNFKQAGERYRMLKDWERDDLINNLVVSLKPCQAHIQKKMVALLTQCDEDYGNRVAEGLGMHEAAGRMKEEFAGDMTPSKGKLPKRGGSPLGSKGAADAVDQAEEKGHEADPY	PGPT0014380_1779	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0014380-katE|CAT|catB|srpA-K03781	NA	NA
AK012_02170	468			hypothetical protein	ATGAAGAAGAAAGGTTCCGGCGGAAAATTCCTCGTCATCACGTCTATGATCCTTCTGGCCGCTGCGGTCACGGCTGTCATTCTGTTCATCACGTCGCGTCCGGGTTATCAGGCGGAAAAGGCGGTGGAGACCTTTTACAGCTACGAACAGAAAGGGCAGTACGCCGACTCCTGGTTACTGCTTCATTCCCGGATGAAAGAAAAATTCGGGAAAGGTCATTACATACAGGACAGGGCCCACGTGTTTATGAATCATTTCGGCGTGGAGACCTTCACATTTACTACTGGAAAGGTGGCTCAGATCGATAGCTGGTCGATGGAAAAGGGGACGGATCCGTTCAAAAATGTATACGCTGTGCCGGTTGTGCAGACATTCAAAGGGAAGTACGGTCTTTTTCGTCTTCATCAGGAAGTTTATGTGACAGAGGAAAAGGGAGAGTGGAGGATTCTCTGGGATTATAATAAATAA	MKKKGSGGKFLVITSMILLAAAVTAVILFITSRPGYQAEKAVETFYSYEQKGQYADSWLLLHSRMKEKFGKGHYIQDRAHVFMNHFGVETFTFTTGKVAQIDSWSMEKGTDPFKNVYAVPVVQTFKGKYGLFRLHQEVYVTEEKGEWRILWDYNK				NA	NA	NA	NA	NA
AK012_02171	2757	glgB_2		1,4-alpha-glucan branching enzyme GlgB	ATGAGAAAATTCTGGATCTGGATGATCGGACCGGCCCTTTTATTTTTACTTTTTGTGCAACCGGTTGCACAAAACGTTCAAGCCGATGCGAAAACGTACGACAAGGTCGTGTTGCGCGGAAGTGCCGAGTCCCTTGATTGGAGCTCTGATAACCACCCGCTTCAGTACGATGAGGAGGAAGGCGTATGGCTGAGCGGTCCTGTTGCTCTTAAGGGCGGTGAAACAACGGAATACAAGTTTGTCTACGACGGGACATGGATGTCCGGTTCCAACTTGTCGGTGACCGCCCCGCAGGATGATGCCTATGTTTTTGCTTTCCATCCGGAAGAGGAGCGTACCGTGGATATCCGTCCTGCAGGAACGCATGAAGCAGCAGCCACATTGGAACTAACCGTCCCGGAAGAAACGCCGGCCTGGGTGAAGCCGACCGTTGCCTCAAGTACGAACGACTTTCATTACACCGCTGCCCCGATGACAAAGACAGGGGACCGCACCTATACGTTCACCCTTGTCGGTGATGCCGGACAGGACGTTTCCTATACGTACAGCCTGGCAGGAGAAGCCTATGGGGAAGTCCGCGGTGAGCGCCGCACGGTCACCCTGACAAAGGATTCGAAGATCCAAAAAGATACAGTGGATCAATGGAAAACGATTCCCGTTGCCCAGTCCGTCACTCACGATTTCAACCATGAACCGTATACCCCCGGCAGAAAAGATGAAGTCAAAGTTTCTGTAGAAGTCGAACATTTCGGTCCGATTGATGCAGGTGCCGCTTATTATACGACAGACGGCTCTTCTCCGTCCGGTAAACGCGGAGAAGCAGAGAATGGGAAGACCACGGAATTAACCGTTGTAGAAACGAGTGAGGACTCAAATGGATTACAAACAACGATATTAACAGGAACGATTCCGGCCCAACAGGACAAAACCCGTGTGAAGTACAAGATTGATGTGTGGAACAGCCGTTCTGAAGGCTCGCAGTTTGCAGATAACAACGTCCTCGACCCTGAAGAAGCGACAGAATTTGCGTATTACGTCGAAGACTATCAGTCACCAGACTGGGCCAAAGAAGCTGTCATCTACCAGATTTTCGTCGACCGCTTCCGGGATGGCAGTAAGGAAAACAACACCTCTGTCAATCCGGACCTGCCAAAGGATGAGCAGTTGAAAGGATGGATGGGCGGCGACCTCCAGGGCGTGCTGGAGAAAATCGATTACCTCGATGAGCTTGGGGTGAATACACTCTGGATTTCGCCGATTTATGAAGGACCGTATTCCCACGGTTATCATCCGACAGATTTCATGAACATCGACCCCCGTTTCGGAAGCAACCAGCTGATGAAGGAACTCGTCGATGAAGCTCATGACCGCGATATGAAAGTCGTATATGATCTCGTCCCGAACCATACCTCCAACCAGCACCCGTTTTTCCAGGACGCGGTTGAAAAAGGGGAAGCCAGTTCCTATTACGAATGGTACACCTTCTTGAAATGGCCGGATGAATACGAAACGTTCTACGGGGTTCAGGAACTTCCGGAACTGAACAATGACAACCCGGAAACACGGGAATATATGCTTGATGAAGTCGTTCCTTTCTGGATGGAGGACATCGGTGTCGACGGCTTCCGTCTGGATTATGCCAAAGGGCCGAGCCAGAGCTTCTGGGTCGATTTCCGCCACCAGGTTAAATCCATAGACTCCGACGCTTTCATTTTCGGGGAAGTGTGGGACAGCTTGGAGACGATTGATTCCTATGCTGGAAAACTGGACGGGGCCATTGACTTCGAAACCCAGTCCGCGATTGTCCATACGTACATTGATGGTGGATCCATGAACGCCTTAGCCGATTCCTTGATGACGATTCACGAAACCTATGATGAGGAATTCGTTCCAGCCACCTTCCTGGATAGTCATGATGTGCCGCGGTTTATTTATGAAGCAGACGAGAACGTGACGACCATGAAAAATGCGGCCACACTGCAGTTCGCCCTGCCGGGAGCTCCGATTATCTATTACGGTGATGAAGTCGGATTATCCCAAAGCGGGGATCATACGAAAGTGGAAGAATGGAAGGACCGCTACTACCGGGAAATGATGCCGTGGGATGAAAGCCGGCAGAACCTTGACCTTAAAGCCCACTATGAAGAGCTGATCCAAGCAAGAAAAGACCAGCCCGCCCTTACCCATGGAGATATGAAGGTCATTTATTCAGATGACGACGTCCTCGTGTTCGAACGGAGAATGCCTCAGGATCATGTGCTTACCATCATCAACAAAGGAGAAAACAGCCGGACATTGAATATCAAAGAGTTGTATAACCAGGACACTCCAAATAAAGTGATGCTTCAATCTGTGCTCAATGACAGCCGCATGCTGAGCCGCCGGGATGACCTTTACGTTAAAGCCGGCGCACATTCCGCTCAAGTGTATGATGTAAAAGGCACATTGACCTACGAAGCGCCTTCGGAAGCGAAAAAGTACAACAAAGTGGTGCTCCGCGGGTCTGCTCCCCTGGACTGGGAAACAGACAAGCACGCCCTTACGTACAATGAAAAAGCAGGCGTCTGGACGAGTACCCCTGTTGCTCTGACAGCAGGGGAAACCGTCGAGTATAAATTCGTCCGTGACGGCGAATGGATGGAAGGGGATAATTTGATGTTCACCCCGGAATCAAGCGGGGAGTATATCTTCCACTTTGATCCTCAGCAGGAGTATACAGTCAAAGTCGTCCAGACTCCCTCCTCAAAAGCATCTTAA	MRKFWIWMIGPALLFLLFVQPVAQNVQADAKTYDKVVLRGSAESLDWSSDNHPLQYDEEEGVWLSGPVALKGGETTEYKFVYDGTWMSGSNLSVTAPQDDAYVFAFHPEEERTVDIRPAGTHEAAATLELTVPEETPAWVKPTVASSTNDFHYTAAPMTKTGDRTYTFTLVGDAGQDVSYTYSLAGEAYGEVRGERRTVTLTKDSKIQKDTVDQWKTIPVAQSVTHDFNHEPYTPGRKDEVKVSVEVEHFGPIDAGAAYYTTDGSSPSGKRGEAENGKTTELTVVETSEDSNGLQTTILTGTIPAQQDKTRVKYKIDVWNSRSEGSQFADNNVLDPEEATEFAYYVEDYQSPDWAKEAVIYQIFVDRFRDGSKENNTSVNPDLPKDEQLKGWMGGDLQGVLEKIDYLDELGVNTLWISPIYEGPYSHGYHPTDFMNIDPRFGSNQLMKELVDEAHDRDMKVVYDLVPNHTSNQHPFFQDAVEKGEASSYYEWYTFLKWPDEYETFYGVQELPELNNDNPETREYMLDEVVPFWMEDIGVDGFRLDYAKGPSQSFWVDFRHQVKSIDSDAFIFGEVWDSLETIDSYAGKLDGAIDFETQSAIVHTYIDGGSMNALADSLMTIHETYDEEFVPATFLDSHDVPRFIYEADENVTTMKNAATLQFALPGAPIIYYGDEVGLSQSGDHTKVEEWKDRYYREMMPWDESRQNLDLKAHYEELIQARKDQPALTHGDMKVIYSDDDVLVFERRMPQDHVLTIINKGENSRTLNIKELYNQDTPNKVMLQSVLNDSRMLSRRDDLYVKAGAHSAQVYDVKGTLTYEAPSEAKKYNKVVLRGSAPLDWETDKHALTYNEKAGVWTSTPVALTAGETVEYKFVRDGEWMEGDNLMFTPESSGEYIFHFDPQQEYTVKVVQTPSSKAS	PGPT0012200_22	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-HYDROLASE,PGPT0012200-cd|ma|nplT-K01208	NA	NA
AK012_02172	594			hypothetical protein	TTGGCTGTATCAGTTTACAAAGTAAAACGGACCATCCTGATCTTATTCGGGGTTTTTCTTGCAGCTACGGCAGCAGGCATTATCACACTCTACCAACTGGGGACGGACTTTCTCACCCTCGAAGACACCGTAAAGGAAAACCTGCAGGCTGATGCCGTTATTGTTTTAAGTGGAAGTGCGGAGAGATTGGAACGCGGAGCGGAATTATACGCCGGGGGAGCGGCGGACAAGGTCATCTTAACGAATGCAGCAGAAAAAGGGACAACGCCGGACCGGGCGGTTTCCCTCGGCATATCCAAAGATGACATTTTAGAAGATACTAAAGCCCAAAGCACCTATGATAACGCGCTGTACGCCAGGGACATTATGGAAGAACAGAACTTTTCCTCAGCCATCGTCGTCACGAGTGAATTCCATTCACGAAGAACGAAGATGACGTTCGATGACATCTTCGGCACCGACTATACATTAAGCTATGCCTTTACCTCTTCCTCCTACGATCCTGCCGATGGATTGACGGAAACGGAAAAGAAAACGACGTTCAGCGAATATACGAAAATGATTTTTTATTCGATCCGACTGCTTTTCGACTGA	MAVSVYKVKRTILILFGVFLAATAAGIITLYQLGTDFLTLEDTVKENLQADAVIVLSGSAERLERGAELYAGGAADKVILTNAAEKGTTPDRAVSLGISKDDILEDTKAQSTYDNALYARDIMEEQNFSSAIVVTSEFHSRRTKMTFDDIFGTDYTLSYAFTSSSYDPADGLTETEKKTTFSEYTKMIFYSIRLLFD				NA	NA	NA	NA	NA
AK012_02173	210			hypothetical protein	ATGATACAACCCGATGATCGTATTGCAGAACCTGGTCAAATTGTTACGTTTGAACGAAATGATATTACCTTTACAGGAAGAGTCATCCCGAGTCAATGTCAGCAGTCTGTCATTGTTGATTTAACAATTATGGACAATCTTAATGAGATTGATTTTGAATATGATAGGACGGTTGTGGCTCATACAAACTATCGCATTATTGAGGAGTAA	MIQPDDRIAEPGQIVTFERNDITFTGRVIPSQCQQSVIVDLTIMDNLNEIDFEYDRTVVAHTNYRIIEE				NA	NA	NA	NA	NA
AK012_02174	258			hypothetical protein	GTGCATGTCACCAAGCTTTTACTGGATCAGACAGAGCTGCCGGTGAGCGGCCGCTGCAGTGTGCGTATTGACAAAACGATTGTCGTGGAACCTTTCAGGCATTTAACCGAAGATACGTTCCGCCGGATTTTAAAGGAAAAAGCCTTGATTCAGCGGATCAGACTGGAAAGCGAGGAGGAGGGGTTTCCACAGGAGTATGAGGGACCCTATACATCCAAGCGGACCAATGGGATTTTGATTTTTACCAGGACAGCTTAA	MHVTKLLLDQTELPVSGRCSVRIDKTIVVEPFRHLTEDTFRRILKEKALIQRIRLESEEEGFPQEYEGPYTSKRTNGILIFTRTA				NA	NA	NA	NA	NA
AK012_02175	1038	tagV	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagV	ATGGCGAAAAAACTCGTCCGCGTCCGCAGACGCAAGAAAAAAAGAAGAATAAGAAGATGGATCGTCTTTTTATTTGTCCTGTCGCTGCTGATCGGTGGTGGCTTTTATTACGTAAATAAAGTCTACACCGCCTCTTACGAAGATCTGGACAGGGGAGAAAAATCCGATCTGCGTGATGAAGCCGTAGACATTGGTGATGATCCGATTTCCCTTTTATTAATGGGGGTGGAAGATTATTCAACGGACGGTGGAGCCGGCCGTGCAGATACCCAGATTGTGATGACCCTCGACCCTGATACGAAGGAAATCACGATGACTAGTATTCCGCGGGATACCCAGGTGGATATCCCAGCTTACAAAGTCGGTGATCAATATGCCGGCACCCACAAGCTAAACGCTGCTTATTCCCTCGGAGAAGTGTCCGGATACGGCGCTGAAAAGCTGACGATCGAAACGGTCGAAGACTACCTCGGCATTCCGATTGATAAGTTCGCTTCCGTCAACTTTGAAGGATTTATGGAAATCGTCGATCTTATGGGCGGCGTCACGATTGATGTGAAGGAAGGCTTCTGGGAGCGGAGCAGCCTGGATTATGATAAGAAGATTGAATTTGAAGCTGGTGAGACAACAATGAACGGGGAGGAAGCTCTCGCTTTTGTAAGGATGCGCAAACGCGATGTCGCGGTGTCCTATCCACGGGACGAACGACAGCGTCAGTTCATCCGGGCGGGCATTGATGAGGCCCTCTCTGCCGACAATCTGCTGAAAGCAGGAGAGTTTGCGGATATCCTCGGTGACAGTGTCAGTACGAACCTGACCATCTCTGAGCTGTACGCCATTCAAAAAACGCTGTCTTCGGAAAACCCTTCGACAACGACCTATACCATTGAAGGACAGGACATGCGCCTGGAAGACGGGCTGTATTATTTCGTCCCTGACGACGGAGCTCTGCAGGAAACGAAGCAGAAACTGCAGCAGGCTCTTGATATTGCACCTTCCGGATCCTACGGGAACACCAGCAGTGATCCAAGTGAATAA	MAKKLVRVRRRKKKRRIRRWIVFLFVLSLLIGGGFYYVNKVYTASYEDLDRGEKSDLRDEAVDIGDDPISLLLMGVEDYSTDGGAGRADTQIVMTLDPDTKEITMTSIPRDTQVDIPAYKVGDQYAGTHKLNAAYSLGEVSGYGAEKLTIETVEDYLGIPIDKFASVNFEGFMEIVDLMGGVTIDVKEGFWERSSLDYDKKIEFEAGETTMNGEEALAFVRMRKRDVAVSYPRDERQRQFIRAGIDEALSADNLLKAGEFADILGDSVSTNLTISELYAIQKTLSSENPSTTTYTIEGQDMRLEDGLYYFVPDDGALQETKQKLQQALDIAPSGSYGNTSSDPSE	PGPT0023440_2166	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
AK012_02176	1461	yhdG_2	COG0531	putative amino acid permease YhdG	ATGGCAACTAGAGAACGAAGAAAATTAGAAAAGACGTTAAAACCCCACTGGGTGTGGGCCATCGCCTTTGGTTCAGCAATTGGCTGGGGCGCTTTTGTACTCCCCACAGACTGGATTGGTCAGGCCGGCCCTGTCGGTGTAGTTCTCGGCCTTTTACTCGGCGCCGCACTTATGATGATTATCGGCGTCAGCTATGGATTTTTGATTGAAAAATTCCCTGTTACGGGTGGTGAATTCGCTTATGCCTATATTGGATTCGGCCGGCGGTTCGCTTTTATGGCTGGTTGGTTTTTAACCCTCGGCTATATATGTATTGTTGCATTAAATGCCTCAGCTCTCGCGCTGCTGGCTAAATTCCTTTTCCCTGATTTTGTACAGACAGGGAATATGTACACGGTGGCTGGCTATGACGTTTCCATTATCCAGATCGCCATCGCATCTCTTGCCCTTATCGTTTTTGCTCTGCTGAATATCCGCGGTGCCAGTTTTTCCGGTCAGACACAATTCGTGTTCAGCCTGATTTTAATTGCCGGTATCGTCCTGCTTGGTGTCGGCGCCATCATGACAGAAGGCCCAAGCGTATCCAATATATCTCCCGGATTCACTCCGGATCAGACTGCGATCGCCTCTATCTTAACGATTCTTGCGATTGCCCCGTTTGCGTATGTTGGGTTTGACAACATTCCGCAGACAGCGGAAGAGTTTGAATTTGAACCGAAAAAAGCGTTCAGCCTGATCATCTGGTCGCTGCTCGCGGCAGGACTTGCCTACAGCGCCATGATTCTGATTACCGCAAGCACCATGCCGTGGCAGCAGCTGCTGGCCATGATCAACGATACCCAGTCCGTCTGGGGAACCGGTGACGCTATTGAGAGCTATCTCGGACGCGCAGGCGTCTTCATTATCGCTGTCGCTGTCTGCATGGGGATCTTCACCGGATTGAACGGTTTCTACATTTCAGCAAGCCGTCTGACGTTCGCAATGGGTCGTGCCCGCATTCTGCCGGACAGCTTCCGCAGACTGCACCCGAAGTATAAGACTCCTTATGTCGGCATCCTGTTTACGATGGCCATCTGCCTTGTAGCTCCCTGGTTCGGAAGAGAAGCGCTGCTGTGGGTCGTGGATATGTCTTCCACCGGCGTCGCCATCGCGTACTTCTTCTGTACGGCCACAGCTTATAAGTTTTTCCGCTGGTCAGAGAGTACCAAGGGAGAGAGTGAAGCAAGCACGGTTTCCCCGGGACGTAAGCTTCTTTCCCTGATCGGAATGATCAGTTCGATCGGCTTTCTCGTTCTCCTTCTGCTGCCTTGGTCACCGGCAGCTTTAGGGAAAGAATCCTACATCGCTCTCGGCGTATGGATCATCATCGGAATCGTCTTCTATCTATTGAATGCGAAGCGTTACAACGAGATCAGCCGCAAGGATATGAACTACCTCATTCTAGAAAAAGAAGAATTATAA	MATRERRKLEKTLKPHWVWAIAFGSAIGWGAFVLPTDWIGQAGPVGVVLGLLLGAALMMIIGVSYGFLIEKFPVTGGEFAYAYIGFGRRFAFMAGWFLTLGYICIVALNASALALLAKFLFPDFVQTGNMYTVAGYDVSIIQIAIASLALIVFALLNIRGASFSGQTQFVFSLILIAGIVLLGVGAIMTEGPSVSNISPGFTPDQTAIASILTILAIAPFAYVGFDNIPQTAEEFEFEPKKAFSLIIWSLLAAGLAYSAMILITASTMPWQQLLAMINDTQSVWGTGDAIESYLGRAGVFIIAVAVCMGIFTGLNGFYISASRLTFAMGRARILPDSFRRLHPKYKTPYVGILFTMAICLVAPWFGREALLWVVDMSSTGVAIAYFFCTATAYKFFRWSESTKGESEASTVSPGRKLLSLIGMISSIGFLVLLLLPWSPAALGKESYIALGVWIIIGIVFYLLNAKRYNEISRKDMNYLILEKEEL				NA	NA	NA	NA	NA
AK012_02177	1047	tagO_2	COG0472	putative undecaprenyl-phosphate N-acetylglucosaminyl 1-phosphate transferase	ATGGAGTATAAGGCCTTGCTGTTCTGCCTGATCCTATCGCTGGCGATTACGCCGCTGGTCAAGAGGGCAGCAATTAAAATCGGTGCGACGGATCAGCCGAACCACCGGAAAGTGCATAAAAATGTGATGCCGCGTCTCGGCGGTTTAGCAATATATTTAAGCTTTGCGTCAGGCATTGTTTTCTTTTTTCCGGAAAGTGAGTTAACCTGGCCGGTCCTGCTCGGCGGAACCATCATCATCGTGACAGGTGTACTGGATGATTTGAGAGAACTGTCCGCGAAAATGAAGCTGGCCGGACAGCTGCTTGCGGCAGGTGTCGTCGTCATCGGCGGTGTGCAGGTGGAGTTCATCAACCTGCCGTTCGGCGGAGAACTGGAGCTGGGGTATTTCAGCATTCCACTGACGATCGTCTGGATCATTGCGATTACCAATGCCATCAATCTGATTGATGGTCTGGACGGCCTGGCTGCAGGTGTGTCGGCCATTGCGCTGTTAACCATATCCGGCATGGCGATTACCATGGGGAATGTCTTTGTCGTTTTTGCCGGCTTAATGATGCTTGGAAGCACCCTCGGCTTCCTCGTCTACAATTTCTACCCTGCAAAAATCTTCATGGGGGATACAGGGGCGCTGTTCCTGGGCTTTATGATCAGTGTGCTGTCCTTACTCGGATTCAAGAACGTCACGTTATTTTCTTTAGTCATTCCGGTCATCATTTTAGGTGTTCCGATTTCGGACACGCTCTTTGCGATCGTCCGCCGTGTCATTCAGCGGAAACCGCTGTCGGCGCCGGATAAATCGCACCTCCATCACTGTCTGCTGAATCTCGGCTACAGCCATCCGGAATCTGTACTGATGATATACGCCGTCAGCGCTTTGTTCAGTCTTGCTGCCGTCATTTTCTCACAGGCAACGATGTACGGAGCGGTTCTTGTCGTCGCTCTCCTCGCCTTAATGATTGAAATGATTGTGGAGATTACAGGATTGATTGGTAAAGATTATAAGCCGATTTTGAATATGATCCGCGGTACTCGAACCCGGAGATAA	MEYKALLFCLILSLAITPLVKRAAIKIGATDQPNHRKVHKNVMPRLGGLAIYLSFASGIVFFFPESELTWPVLLGGTIIIVTGVLDDLRELSAKMKLAGQLLAAGVVVIGGVQVEFINLPFGGELELGYFSIPLTIVWIIAITNAINLIDGLDGLAAGVSAIALLTISGMAITMGNVFVVFAGLMMLGSTLGFLVYNFYPAKIFMGDTGALFLGFMISVLSLLGFKNVTLFSLVIPVIILGVPISDTLFAIVRRVIQRKPLSAPDKSHLHHCLLNLGYSHPESVLMIYAVSALFSLAAVIFSQATMYGAVLVVALLALMIEMIVEITGLIGKDYKPILNMIRGTRTRR	PGPT0015240_2343	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
AK012_02178	1023	tagT	COG1316	Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagT	ATGAAGCTGAAAAAGCTGACCATCTTCCTGTGGACAGTGGCTTTCCTCGTGCTTGCCGGGATCGGTGCGGCGGCCGGCTATGCGGTTTATTTAACCGATCAGGTGAAAGAGACCGCCACCGAATCCCATGAAGAGCTGGACCGCGGCGGCATGTCGGATAAACGCGTGGAAGAAGTGAATCCTGCTAAAGACCACACGTCTGTATTGTTCATCGGTATTGATGACAGTGAAAAACGGACAGGTCAGGAAGAACTGCCCGCACGTTCAGATGCTCTCGTCCTTGCAACATTCAACCAGGATGATAAATCGATCAAGATGTTGAATATCCCGCGGGACTCCCTCACCTATATCCCTGAAGTCGGTTATGAGGACAAAATCGCTCATGCCCACGCGTTCGGCGGTGTGGACGCCACCGTTCAAACAGTTGAACAGCTGCTTGATGTCCCTGTTGATTATTATGTCCGGTTGAACTTCAATTCATTTGTGGATGTTGTCGATGCCATCGGAGGAATCTCTTATGACGTCCCTTTTGACATCACCGAGCAGAACAGTTCGGATACGGCAGGAGCTGTAGAACTTGAAGAAGGCTACCAGACCATTAACGGGGAAGAAGCTCTGGCCCTGGCAAGGACACGGAAGTATGACAGCGACCTTGCCAGAGGCGACCGGCAGATGAAACTGATTCAGCAGATCTTCGATGAAACAATGTCCACCAAAGGATTGAACAACTTTGACGACATCCTCGCCTCTGTGAGCAGCAATATGAAAACGAACCTGACGTTTGATGAGATGATCTCGTTCAAAGATTATTTCCTCCAGAAGGATGGATTTACGTTTGATAAAATGCAGCTGGAAGGAGAAGGGGGCTTTACCGGACACGGCTGGTATTACCAGGTGAATGACGAAGAGCTTACCGCGGCCTCTCAAACGCTTAAGGATCACTTGAATTTATCCAGCCCACTCGCCAAAGACGATGAGATGGACAACTTTTCCAACGGCGGCGAAAATAATAATTCCATGTGA	MKLKKLTIFLWTVAFLVLAGIGAAAGYAVYLTDQVKETATESHEELDRGGMSDKRVEEVNPAKDHTSVLFIGIDDSEKRTGQEELPARSDALVLATFNQDDKSIKMLNIPRDSLTYIPEVGYEDKIAHAHAFGGVDATVQTVEQLLDVPVDYYVRLNFNSFVDVVDAIGGISYDVPFDITEQNSSDTAGAVELEEGYQTINGEEALALARTRKYDSDLARGDRQMKLIQQIFDETMSTKGLNNFDDILASVSSNMKTNLTFDEMISFKDYFLQKDGFTFDKMQLEGEGGFTGHGWYYQVNDEELTAASQTLKDHLNLSSPLAKDDEMDNFSNGGENNNSM	PGPT0023440_2329	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
AK012_02179	642	yigZ	COG1739	IMPACT family member YigZ	ATGCTGGAAAGTTATTATACCGTAAAACCTGAGGGTTCTGAAGAAATCACCATACAGAAATCCCGCTTCATCGGCTATGTGAAGCGGTGTGAAACAGAAGAAGAGGCTCAGGCTTTTATTCAGGAAATTAAAAAGAAACACAATGATGCCACCCATAACTGCTCTGCTTATATGATTGGAGAGCACGATCTGATCCAGAAGGCGAATGACGACGGAGAACCGAGTGGAACGGCCGGCGTACCGATGCTCGAGGTATTGAAAAAACGCGGTTTAAAGGATACGGCCGTCGTCGTCACCCGTTACTTCGGGGGCATTAAACTGGGGGCAGGCGGGCTCATCCGGGCGTATGGATCGACCGCTTCCGAAGCAATCAATACGACCGGTGTCGTCAAACGGCAGCTGATGCAGGAAATCAAGGTGAAAATCGACTATACCCTGCTCGGAAAAGTGGAAAATGAAGTAAGAAATTCGACTTATACACTTGAAACGGTTAATTACCTCGAAAATGTGGAATTAATAATATACGTAGAAAGCGGACTGGAAGAGGAATTCGAATCTTGGATGGTCGATTTGACGAGCGGTCAGGCCGATATCACAAGAGGCGGAACCTCCTACGTAGAATTTGACGTCACACCGGAGTAA	MLESYYTVKPEGSEEITIQKSRFIGYVKRCETEEEAQAFIQEIKKKHNDATHNCSAYMIGEHDLIQKANDDGEPSGTAGVPMLEVLKKRGLKDTAVVVTRYFGGIKLGAGGLIRAYGSTASEAINTTGVVKRQLMQEIKVKIDYTLLGKVENEVRNSTYTLETVNYLENVELIIYVESGLEEEFESWMVDLTSGQADITRGGTSYVEFDVTPE	PGPT0006760_3380	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
AK012_02180	1140	degS		Signal transduction histidine-protein kinase/phosphatase DegS	ATGAGCGAACAGAAAACAGGGGACATAGCCCTTGACCATATCATTGATGAGATGGTGGATACCGTCACCAACAGCAAAGACGAAATCTTTGAGATTGGTGAAGGGTCCCGTCAGGAATATGAGAAGCTGTACAATGAGCTTCAGGAAACGAAACAGCTGGTGACCACCTATATTGAAGAAGGTGATCAATTGGATCAGAAGGTTCGTTTCTCGCGCAAGCGTTTATCTGAAGTGAGCCGTCAGTTCCAGAAATATTCAGAGGAAGAAATCCGCGAAGTCTATGAAAAAACCCACGCTCTGCAGATGGAACTCTCAATGAAAAGAGAAAAAGAGAAACAGCTGCGCTGCCGGAGGGACGACCTTGAGCGCAGACTCCGTCAGCTTGAGGAAACGATCGGACGTGCGGAAGCGCTGGGCGGGAAAATATCCGTCGTTTTAAATTATTTAACGGAAGACTTCAAACACGTCAGTGATGCCTTGGAGACAGCAAAAGAGAAGCAGCAGTTCGGTCTTCAGATCATTGAAGCACAGGAAGAAGAACGCCGCCGCTTATCCAGGGAAATCCACGATGGTCCGGCACAGATGCTTGCCAACGTCATGCTCCGCTCCGATCTCGTGGAGAGAACATACAGAGCCCGCGGCATCGAGGATGCGATGCAGGAAGTGAAAAGCGTCCGCTCGCTCGTCCGGTCGGCCCTATATGAAGTACGGCGGATCATTTATGATCTCCGTCCGATGGCCCTTGATGACCTCGGTTTAATTCCTACATTGAAAAAGTACCTGGCAACCGTCCAGGATTATACCGATGGACTGACCATCACCTTCGCCCCTTTCGGCAAAGAGGGAAGGCTGGAGTCCAAATATGAAGTCGCATTGTTCCGTCTCGTGCAGGAAGCCGTCCAGAATGCGGTGAAACACGCAGAAGCGGAAGAGATCAAAGTGAAGGTGGAAATCATGTCCACCAGTGCGATGATCATCGTCAAGGACAACGGGAAAGGGTTCGATTTGAATAATAAGAAGGAAAAATCGTTCGGCCTGATGGGGATGCGGGAACGTGTCGAGATGCTCGAGGGAGAGCTGAACATTGATTCCAGCATCGGTGAAGGGACGATAGTCACAATTCACCTGCCATTAAATTGA	MSEQKTGDIALDHIIDEMVDTVTNSKDEIFEIGEGSRQEYEKLYNELQETKQLVTTYIEEGDQLDQKVRFSRKRLSEVSRQFQKYSEEEIREVYEKTHALQMELSMKREKEKQLRCRRDDLERRLRQLEETIGRAEALGGKISVVLNYLTEDFKHVSDALETAKEKQQFGLQIIEAQEEERRRLSREIHDGPAQMLANVMLRSDLVERTYRARGIEDAMQEVKSVRSLVRSALYEVRRIIYDLRPMALDDLGLIPTLKKYLATVQDYTDGLTITFAPFGKEGRLESKYEVALFRLVQEAVQNAVKHAEAEEIKVKVEIMSTSAMIIVKDNGKGFDLNNKKEKSFGLMGMRERVEMLEGELNIDSSIGEGTIVTIHLPLN	PGPT0014285_341	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS_SIGNALLING,PGPT0014285-degS-K07777	NA	NA
AK012_02181	678	degU	COG2197	Transcriptional regulatory protein DegU	ATGACGACCAGAATCGTACTGATTGACGACCATAAATTGTTCAGGGAGGGCGTAAAAAGAATCCTCGACTTCGAATCCAGTTTTGAAGTTGTAGCCGAAGGTGATGACGGGGATGCAGCACTGCGGATCGTCGAGGAACACCTGCCGGATGTTGTGCTGATGGACATTAACATGCCAAGCATGAACGGCGTAGAAGCGACAGCAGAAATTACGAAGCGTTATCCTGAAATGAAGGTCATCATCCTGTCCATTCACGATGACGAGAACTATGTCACCCACGCCTTGAAAACAGGGGCGCAGGGGTACCTGTTGAAGGAAATGGACTCCGATGCGCTCATCGATGCCATCAAAGTCGTCGGCGCGGGAGGTTCTTATCTGCATCCGAAGGTAACGCACAATCTAGTTGCGGAATACCGCCGTTTGTCAGAAAGCAAAGGAAGCAGCGGCTATCGTACGATTGAATACCGCAAACCGCTTCATCTGCTTACCCGCCGCGAATGCGAAGTGCTGCAGCTGTTGGCGGACGGTAACAGCAACCGCGGTGTAGCAGAAGCGCTATACATCAGTGAAAAGACCGTTAAAAACCATGTCAGCAATATTTTACAGAAAATGAATGTGAATGACCGTACGCAGGCGGTTGTCACGGCCATTAAAAACGGCTGGGTGGAAGTCATTTAA	MTTRIVLIDDHKLFREGVKRILDFESSFEVVAEGDDGDAALRIVEEHLPDVVLMDINMPSMNGVEATAEITKRYPEMKVIILSIHDDENYVTHALKTGAQGYLLKEMDSDALIDAIKVVGAGGSYLHPKVTHNLVAEYRRLSESKGSSGYRTIEYRKPLHLLTRRECEVLQLLADGNSNRGVAEALYISEKTVKNHVSNILQKMNVNDRTQAVVTAIKNGWVEVI	PGPT0012750_180	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
AK012_02182	846	degV	COG1307	Protein DegV	ATGAAAACAGCAATCATAACGGACAGTACGGCTTACCTTCCGAAACAAGTAAGACAAGCCCATCATATACATATGGTCCCCTTGAACGTCATCTTCGGGGAAGAATCCTATCAAGAAGAGATTGATATAAACGCTGATGATTTTTATGACATGGTCAAGGAGGACGGGAAGCTTCCAAAAACCTCCCAACCCTCCATCGGCATCATGACACAGAAGCTCGAGGAGCTCGCCCAGGACTATGACGCTGTCATTTCCATTCACTTGTCGAGCGGAATATCCGGCACCTGCCAGGCGATGATGACCGCCGGTGACATGGTCGATGATATTGATGTGCATGTGTTTGATTCAGAAATCAGCTGTCACATGCAGGGCTTTTATGCACTGGAAGCTTCAGATATGGCAGAGCGCGGAGCGGGTCCTGAAGAAATTTTGTCCCGTCTGAAGAAAATGAAGGAGACGATGCACGCCTACTTCATGGTGGACGATTTGTCCCACCTGCAGCGGGGCGGCCGTTTGAATGGAGCGCAGGCATTCGTCGGCAGCCTGCTGCAGGTGAAGCCGGTGCTGCACTTTGTGGATACGAAAATCGTTCCCTTCGAAAAAATCCGCACACGTAAAAAAGCGCTGAAACGAATCCTCTCCCTGCTTGCCGAATCGGTGGAACAGGGCGGCGGATACCAGGCAACCTTGATTCACGCCAACCGTCCGGCTGAGGCCGCAGAATTGAAAAAGGAAATCGAAGCCCGGCACTCCAATGTCGAAGTGACTTTAAGCTACTTTGGCCCTGTCATCGGCACCCATCTCGGTGAGGGTGCGATCGGCCTTGGCTGGTATCGTCAGTCCTGA	MKTAIITDSTAYLPKQVRQAHHIHMVPLNVIFGEESYQEEIDINADDFYDMVKEDGKLPKTSQPSIGIMTQKLEELAQDYDAVISIHLSSGISGTCQAMMTAGDMVDDIDVHVFDSEISCHMQGFYALEASDMAERGAGPEEILSRLKKMKETMHAYFMVDDLSHLQRGGRLNGAQAFVGSLLQVKPVLHFVDTKIVPFEKIRTRKKALKRILSLLAESVEQGGGYQATLIHANRPAEAAELKKEIEARHSNVEVTLSYFGPVIGTHLGEGAIGLGWYRQS				NA	NA	NA	NA	NA
AK012_02183	1416	comFA	COG4098	ComF operon protein 1	GTGCTCTCGTATTTTCAACGAAAGAAACCTCAGGATTTTTCCTGGATCCCCTCCAATCCTGTTCCTCATTCCCATCTTGATCTCGCCGGGAAACTTCTCCTCCAGCACGAAATCCCCTACAGTGAAAAAGACCTCCAGATGTTGTTGTCAGAAAGAATCATAACGAAAATAGAAAGCATGGAACAGCACCTGTTTCAAACCTTCTGCCACCGCTGCGGAAATTCGCAGGCCCACCTTTTTGCCGAGCTTCCCCATCAAACCTGCGGGAAGACCTGTGTGTACTGCCGGAACTGCATCCAAATGGGACGTGTATTGGAATGTGAGCCGTTGTATATAGGAAGCGCAAACGTCCAATGGCCTGTATATGAGGATCCGTGCGCATGGAAGGGGACGCTGACTCCCGGCCAGCAGCGGGCGGCTGATGATCTCACCGCACAGGTTCAAAAAGGCTCCGGAGAGCATCTTGTGTGGGCGGTCTGCGGGGCAGGGAAAACGGAAGTCCTTTTTCCTGCGATTACAAAAGCACTGGAAACCGGTAAACGAATCTGCCTCGCCACACCAAGAACCGATGTTGTCCGGGAGCTGCAGCCCAGGTTGCAGAAGGCTTTTCCTGCGGTCGATACAGCGGCTCTGTACGGTGATAGTCCCGACAAGAACGGGCGGGCCCCTTTTGTCATTTCCACTACCCACCAGCTGTTCCGATATGCGCATGCGTTTGATGTGCTCATCATCGATGAGGTGGATGCCTTTCCTTTTCACAACGATCCCACGCTTCATTTTGCAGCCAAAAGGGCCGCAAAGCCTGATGCCGCCGTCATTTATTTAACCGCGACACCGAGAAAAGAACAGAAGCGGCGGCTCCGTCAAAAATCGCTCCCCGTCACATTTATTCCGAGGCGCTTCCACGGCCATCCTCTCCCTGTTCCTGCATTAAAGCTGACCCCCATGCTGCACCGCTCTTTAAACAAAGGGCAGCTCCCGGCCCATCTCTTGAGAACCATCGCGGCCCAGCAGACAACAGCCAGGCAGCTGCTTCTTTTTCTTCCTTCCATCAAAAAGGCCGAAGAGATCGCCTCTTTTTTAAAAGAAGCAGGGTATGAGGTGAAGTCGGTCCATGCCGAAGACGATCACCGGGCGGAAAAAATCCAGAGCTTCCGCAATAAAGAGTACCGGATCCTCGTGACAACGACGATTTTAGAGCGCGGTGTTACGTTTCCCTCGGTTGATGTCTACGTTATTGATGCCGGTCATGTCGTTTTTGATGAAGCCGCTCTTGTGCAGATTGCCGGGCGCGCGGGGAGAAGCGCTGACGATCCGGACGGAGATGTGCGTTTTTACCACATTGGCAAAACGGATGAGATGCTGGATGCAGTGGAAGCTGTGAAAAAGATGAACAAACTGGGGCAGAAGCTGTGA	MLSYFQRKKPQDFSWIPSNPVPHSHLDLAGKLLLQHEIPYSEKDLQMLLSERIITKIESMEQHLFQTFCHRCGNSQAHLFAELPHQTCGKTCVYCRNCIQMGRVLECEPLYIGSANVQWPVYEDPCAWKGTLTPGQQRAADDLTAQVQKGSGEHLVWAVCGAGKTEVLFPAITKALETGKRICLATPRTDVVRELQPRLQKAFPAVDTAALYGDSPDKNGRAPFVISTTHQLFRYAHAFDVLIIDEVDAFPFHNDPTLHFAAKRAAKPDAAVIYLTATPRKEQKRRLRQKSLPVTFIPRRFHGHPLPVPALKLTPMLHRSLNKGQLPAHLLRTIAAQQTTARQLLLFLPSIKKAEEIASFLKEAGYEVKSVHAEDDHRAEKIQSFRNKEYRILVTTTILERGVTFPSVDVYVIDAGHVVFDEAALVQIAGRAGRSADDPDGDVRFYHIGKTDEMLDAVEAVKKMNKLGQKL	PGPT0029425_133	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029425-comFA-K02240	NA	NA
AK012_02184	663			hypothetical protein	GTGAACTGTTATCTCTGCTTTTCCCCTATCGTACCGGAAGTGAACTGGACAAACTTCCTGCTGCCCGGCATCGAAAAGAAAATCTGCGTGACGTGTGAGGAAGGATTTGAACGGATTTCTGATGAATGCTGTCCGATGTGCTCAAGGCCGGGAGAAGGGCGCTGCGGTGACTGCACCCGCTGGGAAGAGATGCTCCCTGGTGTCCTTGATCTAAACCATTCCGTATTGACGTACAATGCTTTTGCCAAAGACTTCGTCGCGAAATGGAAATACCGCGGCGATTATGCTGCTGTTGAAGCACTTGAGGCGTCCATAAAAGAGAAATGGAGGCTGTTGAACCTGGAGGATTATCTGGCTGTCTGTGTTCCTTTGAGCCCGGAGCGCGGAAAGGAGCGCGGCTTTAATCAATCCGAAGCCTTGATCAGAATGGTCGGAAAAGACCCGGCTCATCTGTTTGAACGCATCCACGGGGAAAAGCAGTCCAAGCGGACGAGAAGGGCGAGGATGGAGGCGGAGAATCCATTTTCTCTGATCAAACCGACAAATCAGCCGGTCATCATCGTTGACGATATTTATACGACAGGAAGGACGGTCCGGCACATGGCTTCGCTGTTGAAAGAAAACGGATGCCCCCGGGTGCGGTCATTTACAATTTTTCGATGA	MNCYLCFSPIVPEVNWTNFLLPGIEKKICVTCEEGFERISDECCPMCSRPGEGRCGDCTRWEEMLPGVLDLNHSVLTYNAFAKDFVAKWKYRGDYAAVEALEASIKEKWRLLNLEDYLAVCVPLSPERGKERGFNQSEALIRMVGKDPAHLFERIHGEKQSKRTRRARMEAENPFSLIKPTNQPVIIVDDIYTTGRTVRHMASLLKENGCPRVRSFTIFR	PGPT0029435_508	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0029435-comFC-K02242	NA	NA
AK012_02185	429			hypothetical protein	ATGGGAGAATTAGCGAACTGCCCGCGGTGTCATGCGGTATTCATGAAAGGGACAGCGGCCATCTGCCAGACATGTGTAAAAAAAGAAGAGCAGGACTTTCAGACGGTGTATGGTTTTTTACGGAAAAAATCCAACCGTACGGCTTCCGTGAATGAAATAGAAGCGAAAACCGGCGTTCCGGAAAAGCAGATCCGTGCGTTCGTCAAACAGAAAAGGCTCCATCCTTCACTCTTCCCTTCATTGGATTACGGCTGTGAGAAGTGTGGAGCACCTATTCAGGAAGGGCGGATCTGCGGGTCCTGCACAGAGGAATTTGGTCAGAACCTCAAGCAGCTTGAACGAAATCAGCAGTTTGCTGATCGGATCAAAGAGCAGGAGAAACCAAAGGCTAAGACTTATTACTCATCTGAATATGATTCATTTGAATGA	MGELANCPRCHAVFMKGTAAICQTCVKKEEQDFQTVYGFLRKKSNRTASVNEIEAKTGVPEKQIRAFVKQKRLHPSLFPSLDYGCEKCGAPIQEGRICGSCTEEFGQNLKQLERNQQFADRIKEQEKPKAKTYYSSEYDSFE				NA	NA	NA	NA	NA
AK012_02186	264			hypothetical protein	ATGAAAATCAATCGACCGCATCATACCCAGATGAACCCCTATCAAAAGCAGCTGAATCAGCAGACGGAAGCCAGGACCCATCAGGCGAAGGATAAGCTGGAAATCTCCCCGCAGGCGAAGCAGATGCAGGAGAATGATTCGGTGTCTCCGATGCGTCAAAAGCTTGTCGAACAAATCAAACATGATGTAAATACAGGGAATTATCAGGTGGATGCCGGAACATCAGCGAAAAAGATGATCGATTTCTTTTCAAACAAGGAATAA	MKINRPHHTQMNPYQKQLNQQTEARTHQAKDKLEISPQAKQMQENDSVSPMRQKLVEQIKHDVNTGNYQVDAGTSAKKMIDFFSNKE	PGPT0015530_1629	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0015530-flgM-K02398	NA	NA
AK012_02187	483	yvyG		putative protein YvyG	ATGACAATCGATACGATGACAACTTTAATGAACAAACTGACTCAGCTGCATAAGAGCCTGCTTACGGTATCACTGGCAAAAACAGAGGCTTTGAAGCACAACGGCATCGAAAAGGTGCAGAAGCTGCTGCAGCAGGAGCAGAAGCATGTCCAGGCGGTGAAGCAGATCGAAAAGCAGCGCGTGGAAGCGGCGGCCGAGTGGTTTGAAGAGCAGGGATATACCGGACAGGAACAGACCGTTTCAGCAATGCTCGAGCTTCTTTCAGGAGAGGAAAAAGAGGAGCTGCAACGTGCGTATGAAGCGCTCATTTTCGTTCTATCCGACTTGAAGCAGCAGGAGGCTTTGAATGCTGAGCTCATCCGACAGTCGATGCAGTTTATCCATCTGTCTCTGAATACACTGGAGCCGTCCATCCAGTCGATGAATTACGGAAATCAAAGGCAGGAAGCTCCGAAGCGCTCCCTGTTTGATTCAAAAGCTTAA	MTIDTMTTLMNKLTQLHKSLLTVSLAKTEALKHNGIEKVQKLLQQEQKHVQAVKQIEKQRVEAAAEWFEEQGYTGQEQTVSAMLELLSGEEKEELQRAYEALIFVLSDLKQQEALNAELIRQSMQFIHLSLNTLEPSIQSMNYGNQRQEAPKRSLFDSKA				NA	NA	NA	NA	NA
AK012_02188	1542			hypothetical protein	ATGACATCTACGTTTCACGGGCTTGAAACAGCTAAACGCAGCTTGTTTACCCAGCAGGCGGCCTTATATACAACCTCCCATAATATCGCCAACGCCAACACCGAAGGATATACGAGACAGCGCGTCAATTTCGAGCAGACTGGTCCATACCCTGCCGCCTCAAGAAACCGTCCGGAAATTCCGGGTCAGATGGGAAGCGGAGTGGAGGCGGCTTCCATTGAGCGTGTACGTGTCGGTTTTCTTGATCAACAGTACCGCGGGGAAGCCGGTAAAGCGGGCTATTATGATTCGCGGTCGGACGCCCTTGCGCGCCTGGAGAGTGTCATGAACGAGCCTTCTGAGGACGGCTTGTCCAGCACGATGGATCGTTTCTGGGGAGCTCTGCAGGATTTGTCCGTCAACCCGGAGGATTCCGGTGCCCGTTCTGTCGTCCGGCAGCGCGGCCAGGCGGTGGCGGATACGTTCAACTATCTTTCCAACACGATCCAAACGATGCAGAAGGATGTTCAAAGGGAAGTGGGCGTCACAGAAAAGTCGATCCATTCCATCGCCAATCAGATTCATAACATCAATGAGCAGATCAGTGAGGTCGAGCCTAACGGGATGGTACCGAATGATTTGTATGATGAGCGTGACCGCTTGATCGACCAGCTTTCCGAGCACGTCAACGTCCAAGTGAGCTATGAAGATACATCCCCCTCGGCGAGTCCCCTGGCTATGGGAAGAGCGACGATATCCTTAGTCAATCAGGACGGGAGAGCGATGTCTCCGCCGGCCACACTTGTAGACGGAACCGTCGGTGGCGGTGTGAATAAACTGGAGGTCACCTATGAGGCAGACAGTGCTCTCGCTGCAGGAATAACGGTAGGGGGGAGCTCTTACACGATTGAGGAATTTTCTTCACCCGGGAAATTGAAAGGCTTAATCGAATCGGGTGGGTATGTGGAAGCCGGAGAGAAAAAGGGCAGCTACGAAAGCATGCTATCAGATTTAGACCGGATGGCCACAGGCTTTGCGGATGCATTCAATACCGTTCATCAAAACGGGGAGTCTTTGAACAGCATCAATAATGGAACAGCTGTACCGAAGTTTTTCGATATCGATATGTCACAGGCAGACGATGACGGCGTCGTGGAAGGCATTGCAGGTACGCTTGATCTAACGGATGAAATCAAAGCCGACGGCGACAACATCGCAGCAGCGGTGACGAATGAGTCGGGAGACGGTGAAAACGCCCGGAATCTTGCTGAAGTGAAAAACGATAGTAACGGTCTTTTCGGTGAGGAAGCGTCCCTCTCCAATTTTTATGAATCCATCATTGGAACGATGGCCGTGGAAACACAGGAGGCGGAGCGGATGTCGAAGAACGCCGGCACACTGAAGGCTTCTGTAGAGGAGCAGCGGCAGTCGGTCAGCTCTGTCTCCCTCGATGAAGAAATGGCCAGCATGATCAAATATCAGCACGCCTATAATGCGGCCGCCCGTAACATAACGGTCATTGATGAAATGCTCGATACCATCATTAACCGGATGGGCGTCTAA	MTSTFHGLETAKRSLFTQQAALYTTSHNIANANTEGYTRQRVNFEQTGPYPAASRNRPEIPGQMGSGVEAASIERVRVGFLDQQYRGEAGKAGYYDSRSDALARLESVMNEPSEDGLSSTMDRFWGALQDLSVNPEDSGARSVVRQRGQAVADTFNYLSNTIQTMQKDVQREVGVTEKSIHSIANQIHNINEQISEVEPNGMVPNDLYDERDRLIDQLSEHVNVQVSYEDTSPSASPLAMGRATISLVNQDGRAMSPPATLVDGTVGGGVNKLEVTYEADSALAAGITVGGSSYTIEEFSSPGKLKGLIESGGYVEAGEKKGSYESMLSDLDRMATGFADAFNTVHQNGESLNSINNGTAVPKFFDIDMSQADDDGVVEGIAGTLDLTDEIKADGDNIAAAVTNESGDGENARNLAEVKNDSNGLFGEEASLSNFYESIIGTMAVETQEAERMSKNAGTLKASVEEQRQSVSSVSLDEEMASMIKYQHAYNAAARNITVIDEMLDTIINRMGV	PGPT0015195_1976	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015195-flgK-K02396	NA	NA
AK012_02189	873	hag_1	COG1344	Flagellin	ATGCGCGTAACTCAATCGATGTCAGCGGGCAATATGCTTCGTAATTTAAGCAGAAGCTATGAAAATATGGGCACCTATCAGGATCAGCTGGCGACCGGTAAGAAGATCACCCGCGCCTCCCAGGACCCTGTTACTGCGATGAAGGGCATGAATTACCGCTCCCAGCTTTCCGGCGTCGAGCAGTATAAGCGGAACATCAGTGAAGTGCATAACTGGATGGACAGCAGTGATTCTTCTATGAATGAAGCCACACAGGCGATGCAGCGTGTGCGAGAACTGACGGTTCAGGCAAGTAACGGCACGTATGAAGGAGAACAGCTTGCCAACATTGCAAAAGAAATCCGCCAGTTGAAGGAGCATGTCGGAAGCATTGCCAACACGAAGGTGAACGATAAATACATCTTTAACGGGACCAATACGACAGCCGCACCGGTCAATATGGACAATGCGGCTTTTACGATCAATCAAAGCGCAAGTCCGGTCATGATTGAAGTGTCGGACGGTGTCCGGATTCAGACGAACGTGAACGCCGGTAATGTGTTCAATGAAGATTTATTCAACGACCTTGAAAGCTTCGCCAATGCTTTGGAAAGCGGAACAGACCTTGATGGATTTCTCGGTAAATTCGATGGTCATATCAACAATATCGTCAATGAGCGGGCCGACCTCGGCGCGCGGATGAACCGGATCGAGCTGATCGAGGACCGCCTGGCCACTCAGGAGGTATCAGCCTCCAAGCTCGTTTCCGATAATGAAGATGCCGATATTGAAAAGGTCATCATGGATTTGAAAACACAGGAAACGATTCACAGGGCTGCCCTCGGAGCCGGATCACGCATCATCCAGCCGACGCTGATGGACTTTCTAAGGTAG	MRVTQSMSAGNMLRNLSRSYENMGTYQDQLATGKKITRASQDPVTAMKGMNYRSQLSGVEQYKRNISEVHNWMDSSDSSMNEATQAMQRVRELTVQASNGTYEGEQLANIAKEIRQLKEHVGSIANTKVNDKYIFNGTNTTAAPVNMDNAAFTINQSASPVMIEVSDGVRIQTNVNAGNVFNEDLFNDLESFANALESGTDLDGFLGKFDGHINNIVNERADLGARMNRIELIEDRLATQEVSASKLVSDNEDADIEKVIMDLKTQETIHRAALGAGSRIIQPTLMDFLR	PGPT0015505_2675	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015505-flgL-K02397	NA	NA
AK012_02190	552	yviE		putative protein YviE	ATGAACATACCAAAGCTCCAGTTGCAGACGACACAGGCACGGCTCGGTCATCAGGTGGAAGACCCCCGGCAGACGATCCGTCAGCCGAAAGCGGAATTGTCCATCCAGCAGCCGGCGTCGGAAATGCATATCCGGCAGCGTCCTGGAAAACTGACGATCGATCAGACGAAGGCGTGGAACAATATTGATTTGAAAAGCGTGGCGAAGCGGAGTGATGAGCTTGCCGCTGATGGCCGGCAGCTGCTGCTGGAAGGCATCGCCCGGATGGCGCGTGAAGGCGATGAACTGATGAAAATCGAAGACGGCGGAAACCCAATCGCCTCTCATGGGGCGGAAAATGCCGAGCTGGACTTTACGTTTGCGCCGGGAGGGATGCCTGCGTATGATCTTGTACATGTATCATATGAGGCCGCGCCTGTAGACATAGACGTAGAGCCGCAGAAGCCGGAGATCCAGGCACAGCCGCAGAAGCCACAGCATACGTATCAGCCTGGAAAAGTGAGCTTTCAGTTAGAACAGTATCCGGACGTACAGATCGACTGGAAAGTGTAA	MNIPKLQLQTTQARLGHQVEDPRQTIRQPKAELSIQQPASEMHIRQRPGKLTIDQTKAWNNIDLKSVAKRSDELAADGRQLLLEGIARMAREGDELMKIEDGGNPIASHGAENAELDFTFAPGGMPAYDLVHVSYEAAPVDIDVEPQKPEIQAQPQKPQHTYQPGKVSFQLEQYPDVQIDWKV				NA	NA	NA	NA	NA
AK012_02191	456	fliW	COG1699	Flagellar assembly factor FliW	ATGAATATCAATACAAAGCATTTCGGTGAACTTGCTGTAGAGGAAAAGGATCTCCTCACCTTCAAGCACGGGCTGCCGGGATTTGAAGATGATCATACATATGTGCTGCTGCCTGTGGATGAAGCTGGTGTATACTATGCGCTGCAGTCTGTGGACAAAGCCGAGGTGGCGCTCATCCTCACCAATCCGTACCTGTTCTTTGCGGATTATGAGTTCCATATCGAAGACGCGGTTGTTGAAGAGCTAGGCTTGAATGGTCCGGAAGATGTAGCCGTCTACAGCGTGCTCACATTAAAAGAGCCTTTCAAAGCCTCAACAATCAACTTGAAAGCCCCGATTGTTGTGAACGTCCATAACAAAAAGGCGAAGCAGGTCATTCTGAAAGAAGATCGCTACCAGAGAAGGCAGCTTCTTTTGACAGAGGATAAAGGCGGTGAAGCTGATGCTCGTCCTTAA	MNINTKHFGELAVEEKDLLTFKHGLPGFEDDHTYVLLPVDEAGVYYALQSVDKAEVALILTNPYLFFADYEFHIEDAVVEELGLNGPEDVAVYSVLTLKEPFKASTINLKAPIVVNVHNKKAKQVILKEDRYQRRQLLLTEDKGGEADARP	PGPT0015630_319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015630-fliW-K13626	NA	NA
AK012_02192	216	csrA	COG1551	Translational regulator CsrA	ATGCTCGTCCTTAACCGGAAGTTCGGGGAATCGATCAAAATCGGCGACGACATCGAAATTAAAGTCGTTTCGATTGAAGGCGGACAGGTGAAGCTCGGCATTGACGCTCCCCGTCATATCGATATCCACCGCAAGGAAGTGTATGTCAGTATTGAAGAGGAGAATAAGGAAGCCTCTACGCTTTCAAAAAATTTACTGGATCTGCTGAAAAAGTGA	MLVLNRKFGESIKIGDDIEIKVVSIEGGQVKLGIDAPRHIDIHRKEVYVSIEEENKEASTLSKNLLDLLKK	PGPT0015065_649	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
AK012_02193	1044	hag_2	COG1344	Flagellin	ATGAGAATTAATCACAATATCGCGGCTTTGAATACTTATCGTCAGCTGGGTTCTGCGAATAATGCGCAGCAATCTTCAATGGAAAAGCTTTCTTCTGGTCTTAGAATTAATAAAGCTGGAGACGATGCAGCAGGTCTTGCTATTTCTGAGAAAATGCGTGGTCAGATTCGCGGATTGGATCAAGCCAGTCGTAATGCTCAAGATGGTATTTCTATGATTCAAACAGCTGAAGGAGCACTAAATGAAACGCACGATATTCTTCAACGTATGAACGAATTAGCAACACAAGCAGCAAACGGCAATCTTCAGTCTGAAGATAGAGAAGCAATAGACGATGAGATTACTCAATTGAACAGTGAAATTGATCGTATTGCAAGTTCTACAAATTTCAATGGTAAGAAGTTGCTAGATGGTAATTTTGGTGTGCAACTGGATACTGCTAATACTGGTATAGCCGTAGGTAGTCAAGGTGTAACCGCCATTGATATAAGCGGTGCTTCATCATCAACAACCTTTACTATGACTGCAGGAACTAATGCTGGTGAATATGTTTTATCAGATGGAGCTGATACACAAACAGTGACTCTTGCTGATAATACATCTGGAACACTTAATTTTGATAAGCTTGGAGTGAGAATATCTGTCAATGGGACTCAGACAAGGGCGAACATCTTATCGGCTGCGAATGGAAGTGCTGGTGCCGGAACAGCAGGCAATATTGTCACCGGTGCACAAGCTGATGTGAACATTCAAATAGGAGCTAATACCTCTAGTGCTGAAAGGTTGGGTATATCTATCTCTGCAATGGACACCTCCGCTTCATCATTAAATACTGGGGCCATAAGTGTTTTAACTGATTCAGATGCAAGGAGCGCTATGGATACTACTAAGGCTGCAATCAATAAAGTGTCCGCAGAGCGATCGAAATTAGGTGCCTATCAAAACCGTCTTGAGCACACTATTAATAATTTGGGTACATCTTCAGAAAACCTAACTTCTGCAGAATCACGTGTGCGTGACGTAGATTATGCTATAGCTGCTTAA	MRINHNIAALNTYRQLGSANNAQQSSMEKLSSGLRINKAGDDAAGLAISEKMRGQIRGLDQASRNAQDGISMIQTAEGALNETHDILQRMNELATQAANGNLQSEDREAIDDEITQLNSEIDRIASSTNFNGKKLLDGNFGVQLDTANTGIAVGSQGVTAIDISGASSSTTFTMTAGTNAGEYVLSDGADTQTVTLADNTSGTLNFDKLGVRISVNGTQTRANILSAANGSAGAGTAGNIVTGAQADVNIQIGANTSSAERLGISISAMDTSASSLNTGAISVLTDSDARSAMDTTKAAINKVSAERSKLGAYQNRLEHTINNLGTSSENLTSAESRVRDVDYAIAA	PGPT0015190_2470	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
AK012_02195	1542	fliD	COG1345	Flagellar hook-associated protein 2	ATGAGTGATATGCGGATCGGAGGCTTGGCTTCCGGTATGGATATTGACGGTATCGTCAAGGATCTGATGACTGCGGAGAAGCAGCCGTTAAACAAAATGGAGCAGGATAAGGAATGGCTCACATGGCAGCGGGATTCGTACCGTGATGTGAACAAGCAGTTGAAGGAACTTGATGATATGGCCTTTAACATGAAACTGCAGTCAACGTTCAATTCCAAAACAGCGACTTCTTCCAGCTCAGCCGTTTCTGCAACAGCCAATTCTTCCGCTGGAAACGGCGATTATACCCTGAGTGTCGAACAGCTGGCGACGGCTGCCTACAACTATAGTGAAGAAAAGATTACAAAAGATGGTTCGTCATTTGATCCGAGTGCTTCGTTAAGCAGCCAGCAGAACAGCTTCAAAAATGGTCTGACGCTTGGCGAGACATTTTCGATAACGACGTATAATGAAGACGGCTCAAAAAATACGAAGTCGTTCGAAGTGACCGGAGACAAGTCACTGAATGACGTTCTCTCTGAAATCAGCAAGTCTGATCTCGGTGTCCGTGCGTTTTATGATAAAAGTGCGGATAAAGTGATGCTTGAACGGACCGTGACCGGAAACTTCAATCAGGATGATAATGAATTCTTAGGTGCGGAAATTGGTTTTGATGGAAGTGCCTCGTTTCTGTCTACGACCCTTGGTATTAAAAATGGGGATAACTCCTCCGGCTCGTGGAAGCTGAATGAAAAAGGCGGACAGGATGCGAAGTTCACCTATAACAACGGACTGGAAATTTCCTCTAAGACCAACAACTACACGTTAAATGGTGTGAACTTCACCTTCAACGAAGTGACCGATGGCAACGTCAAGGTCCATGTGACCAACAATGTAGATGATGCGTTTGATAAGATTGTCAAATTCGTCGATAAATACAATCAGATCATTGAGGACTTAAACGGGAAGGTACAGGAAAAGAAGAACCGTGACTATCCACCACTGACAGCCGAACAGAAAGAGGATATGGAAGAGAAGGAAATCGAGCTGTGGGAAGAGCAGGCGAAGAGCGGGATGCTCCGGAATGATGCTGCTGTTTCTGGAGCGCTCAGCAAAATGCGGGAAAACTGGTACACCCCTGTTCAGACAGACGGAGCGTTTTCCATGCTGTCGCAGATCGGCATCACATCCTCCTCCAACTACCGTGACGGCGGTAAGCTCATCGTCGACGAGGACGATTTGAAGAATGCCCTTCGCAACGACCCGGAATCGGTCTATCAGCTGTTTACGGGTACAGAGGAGAATCCTGGTATTGCGCGGCGTCTGGAAACGACGATCGACAGCACTGTGAAATCGATCGAGCAGAAGGCAGGAAAAGCGACGACGCTGGATAACAATTTCCTGCTCGGCCGGCAGATTGAGGATTTAGATGATGAAATGGACAGCTTCCAGGACCGCTTGAATCAAATGGAAGACCGCTACTGGAGAGAGTTTACCGCGATGGAGAAGGCCATTTCACAGATGAACTCCCAGTCCGCTTTTATTATGCAGAACTTTGGCTAA	MSDMRIGGLASGMDIDGIVKDLMTAEKQPLNKMEQDKEWLTWQRDSYRDVNKQLKELDDMAFNMKLQSTFNSKTATSSSSAVSATANSSAGNGDYTLSVEQLATAAYNYSEEKITKDGSSFDPSASLSSQQNSFKNGLTLGETFSITTYNEDGSKNTKSFEVTGDKSLNDVLSEISKSDLGVRAFYDKSADKVMLERTVTGNFNQDDNEFLGAEIGFDGSASFLSTTLGIKNGDNSSGSWKLNEKGGQDAKFTYNNGLEISSKTNNYTLNGVNFTFNEVTDGNVKVHVTNNVDDAFDKIVKFVDKYNQIIEDLNGKVQEKKNRDYPPLTAEQKEDMEEKEIELWEEQAKSGMLRNDAAVSGALSKMRENWYTPVQTDGAFSMLSQIGITSSSNYRDGGKLIVDEDDLKNALRNDPESVYQLFTGTEENPGIARRLETTIDSTVKSIEQKAGKATTLDNNFLLGRQIEDLDDEMDSFQDRLNQMEDRYWREFTAMEKAISQMNSQSAFIMQNFG	PGPT0015200_870	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLAR_ASSEMBLY	MOTILITY-FLAGELLUM_ROD|HOOK|FILAMENT,PGPT0015200-fliD|flaB-K02407	NA	NA
AK012_02196	390	fliS	COG1516	Flagellar secretion chaperone FliS	ATGTCTATTCAAGCCTATCAAAACAACTCAGTTGAAACAGCCTCCCCTGGCGAACTGACACTGATGCTCTACAACGGCTGTATCAAATTCATCAAGGCAGCGGGAAAAGCGATGGAGCAGAAAGATATGGAAAATAAAAATACGAACATCCAAAAAGCCCAGCGCATCATCCAGGAACTGATGGTGACAATGGACCAGAATACTGACATCAGTGCACAGGTGCTTCCGCTGTACGACTACATGAACCGCCGTCTGATTGAAGCGAATACGAAAAATGATGCAGAGATCCTTGGTGAAGTGGAAGGGCTCGTTGTCGAGTTCCGCGATACGTGGAAACAGGTTATCCTGCAGACAAGAAAAGCCCAGTACGCCCAGGGTGGAAACGCATAA	MSIQAYQNNSVETASPGELTLMLYNGCIKFIKAAGKAMEQKDMENKNTNIQKAQRIIQELMVTMDQNTDISAQVLPLYDYMNRRLIEANTKNDAEILGEVEGLVVEFRDTWKQVILQTRKAQYAQGGNA	PGPT0015620_1730	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015620-fliS-K02422	NA	NA
AK012_02197	348			hypothetical protein	ATGGTGTGGCAGACATTTTTAACACGGACGAAAGAGCTGGAGGAAATGGTTCACCAGCCCTCCTCTCAGACTCGCTCTCAGCGGATGGAACGGATCGAAGACCTGTTAGAAAAACGCCAGGCGCTGTTATCCAAGCTGCCGCAGCCTTCGACGGATGAAGAAAAAGCGGTCGTACAGGAAGTGAAGAAGCGGGACTTGGTAATCAATCAGAAGATGGAGTTTCTGCTTATGGATTTGAAGAATCAGATGCGGAATAATAAGAAGCAGAAATCCAGTAAACAGCGCTATATCAATCCGTACCAAAGCGTATCGACCTATGACGGCATGTATCTGGATCATAAAAAGTAG	MVWQTFLTRTKELEEMVHQPSSQTRSQRMERIEDLLEKRQALLSKLPQPSTDEEKAVVQEVKKRDLVINQKMEFLLMDLKNQMRNNKKQKSSKQRYINPYQSVSTYDGMYLDHKK	PGPT0015625_365	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	MOTILITY-FLAGELLUM_CONTROL	MOTILITY-FLAGELLUM_CHAPERONES,PGPT0015625-fliT-K02423	NA	NA
AK012_02198	1368			hypothetical protein	ATGAAGAAATGGTTAGGACTGGCAGCCACCGCTCTGGCAGCGGCAGGACTTTTTCAAGCATCAACCGTCGAAGCGGCGGAACCCATCGAAGTAGAAAAAGTTGAAGCACAGAATACATATGAGGAAGAGGAACCAAACGATGAAAGGGAAGATGCCACACAAGTTCCGTTGAACTCTTACATATCCGGGGAATTTACGGATGAGGATGTGGATTATTACCGTGTAGAAGTGAATGGAGATACAACGGTGAGATTTACCTTTCATCTATTCGAATATATAGAGGAAAAGACAGATATGAAGTTTCAAGGCAGACTCCTGAGTGAACAGGGAGAGGTTTTGTCACCTTACAGCATGAATGGAAATGAATATGGTTACATAGAGTCCCATCTTTTAGGTCCGGGCGTCTACTATATGAAAGTGTGGGATAAGGCAAACCTTGCGGATGGCAGCACCTACTATCTGGGTACTGGAGCAGAACTGTTGGACGCATCAGCAGAAAGAATCTGGGGAGTCGACCGTTACTGGACAGCGGCCAATATAGCAAGAATGGGAGATGCCGATCGTCACCCATCTGAAAATGTTGTGCTGGCAACCGGAGAGGATTTCCCAGACGCACTGGCAGGTGCTCCATTAGCAGAGCACCTCGATGCACCGATCCTTCTAACCCGGGAGGACAAGCTTCCTGAGATCACTGAACAAGTGATGAACACCTTTGATACCGAAAAAGTGACGATTCTTGGCGGAACAGGCGCTGTTTCCGCTGATGTAGAAACGTATCTGGAAAATGATCTCGGAATGGAAGTCGACCGCATTTCCGGAAAAAACCGCTATGAAACCGCCGCAGCGATTGCGGACCGTCTCCCTGAAAGTGATCAAGCGGTCGTCGCCTACGGACGCAATTTCCCGGACGCGCTTTCTATCGCCCCGATCGCGGCTGGAAAAGGGATGCCGATTCTGTTAACCAAACAGGATGAACTTCCGGAAGCCACAAAGCAAAGCCTGAAAAACTATGGTGAAAGCATCGCTGTCGGAGGAACAGGTGTCATCAGCTCGGACGTACTCGCTGAGATGCCGGAAGCGGAGCGGATTTCAGGCAAGAACCGTTACCTGACGTCGCTTGCAGTAGTGGAACACTTCAACGTCGGAGGAGTGAAAGCGAGCTTTGCGACAGGATCCCATTTTGCTGATGCTCTTGCCGGATCTGTGAACGATGTCGACCAGCCGCTTCTTCTGACACCGAAGGATGAGCTGAACGAAGAGATCAAAGCTTATGTGAAAGAGCAGGAGATGTTCCGTTTCAACATTTTCGGCGGTACAGCCGCTGTTGAAGAGAGTGTGGAACAGGAGTTGGAAGCTCTTTATGAATAA	MKKWLGLAATALAAAGLFQASTVEAAEPIEVEKVEAQNTYEEEEPNDEREDATQVPLNSYISGEFTDEDVDYYRVEVNGDTTVRFTFHLFEYIEEKTDMKFQGRLLSEQGEVLSPYSMNGNEYGYIESHLLGPGVYYMKVWDKANLADGSTYYLGTGAELLDASAERIWGVDRYWTAANIARMGDADRHPSENVVLATGEDFPDALAGAPLAEHLDAPILLTREDKLPEITEQVMNTFDTEKVTILGGTGAVSADVETYLENDLGMEVDRISGKNRYETAAAIADRLPESDQAVVAYGRNFPDALSIAPIAAGKGMPILLTKQDELPEATKQSLKNYGESIAVGGTGVISSDVLAEMPEAERISGKNRYLTSLAVVEHFNVGGVKASFATGSHFADALAGSVNDVDQPLLLTPKDELNEEIKAYVKEQEMFRFNIFGGTAAVEESVEQELEALYE				NA	NA	NA	NA	NA
AK012_02199	558	hpf		Ribosome hibernation promotion factor	ATGCTACAGTACAACATTCGTGGTGAGAACCTTGAAGTGACGGATTCTATTAAAGATTATGTGGAGAAAAAGGTGAGCAAGCTTGAACGCTACTTTGACACTCCCCCGTCCTCAGAGGTGCACGTAAATTTAAGTGTCTATAATGATGAGCAGACTATCGAGGTCACAATCCCGATGAAAAATCTACTACTCCGAGCGGAGGAGCATAATACAGATTTATACGCTGCCATCGACCTTGTGGTTGATAAATTAGAAAGACAGATCCGTAAGCATAAAACGAAGGTAAACCGCCGATTCCGTCAGGAGGGTGCACCGAAATACGTATTTGCTGAATTAGAGCGCGAAGCCAATCAGGAGCAGATGCAGTCGGATGACGAATTCGATGTGGAAATCGTGAAAACGAAGCGCTTTGACCTGAAACCGATGGATAGTGAAGAAGCGGCCCTTCAAATGGATATGCTCGGCCACAACTTCTTCGTCTTTACAAATGCGAACACTGATGAAACAAATATCGTATACAAACGACGTGACGGCCGCTACGGTTTAATTGAAACGTAA	MLQYNIRGENLEVTDSIKDYVEKKVSKLERYFDTPPSSEVHVNLSVYNDEQTIEVTIPMKNLLLRAEEHNTDLYAAIDLVVDKLERQIRKHKTKVNRRFRQEGAPKYVFAELEREANQEQMQSDDEFDVEIVKTKRFDLKPMDSEEAALQMDMLGHNFFVFTNANTDETNIVYKRRDGRYGLIET				NA	NA	NA	NA	NA
AK012_02200	183			hypothetical protein	ATGACCTGCAGAAACTGTGATGAGATGGATCAGCGGTTAAAACAACAGGAAGATACAATCGTCCAGCTCGTCCACATCATCGGCTCCACCAATAAGCGTGTAAAAGAACTGAACGAAAGACAGCTCCAGCTGCAGCCGGCCTTCATAAATGAACCCGCCCCGGCCCCTGCCTCAACCACATAA	MTCRNCDEMDQRLKQQEDTIVQLVHIIGSTNKRVKELNERQLQLQPAFINEPAPAPASTT				NA	NA	NA	NA	NA
AK012_02201	2514	secA	COG0653	Protein translocase subunit SecA	ATGCTTGGAACTTTAAAGAAAATCTTTGGCGACGGCAATACTCGTCAACTGAAACGATTAGAAAAGATCGCTGATGATATTGATGCAATGGAATCAGATATTGAGAAATTGTCAGAAGAAGATTTAAAGAATAAGACAGCAGAATTCAAAGAACGCTATCAAAATGGCGAAAAATTAGATGATATGTTAGTCGAAGCCTTCGCGGTTGTTCGTGAAGCTTCGAAACGTGTGTTGAATATGCGCCCGTTTCGCGTGCAGCTGATGGGTGCGATTGCCCTTCATGAAGGCAACATTGCGGAGATGAAGACAGGGGAAGGTAAAACCCTTGCCTCCACCATGCCGGCGTACTTGAACGCCATCACAGGTAAAGGCGTCCACATCATTACCGTGAACGACTACCTGGCGAGCCGTGACTCCACGGATATGGGTGAGCTTTATCAATACCTCGGACTGACGGTCGGTTTGAACTCCAACGGCATGTCCAAGGATGAGAAAAGGGAAGCCTATGCCGCTGATATCACGTACGGGACGAACAATGAGTTCGGTTTCGACTACCTGCGTGACAACATGGTGCTGTATAAGGAGCAGATGGTCCAGCGGCCGCTGCACTATGCCATCATTGACGAAGTCGATTCAATCTTAATTGATGAGGCGCGTACACCGTTGATCATTTCCGGTTCCGCGTCAAAATCCGCCGATCTTTATGTCGGGGCCAATTCGTTTGTCCGTCTCCTTGCCCGTGAAGAGGACTTTACGTATGATGAGAAAACGAAAAACGTCCAGCTCACAGAAGAAGGTATCAACAAGGCCGAGCGTTTCTTCAAGATTGAAAACCTGTTTGATCTTTCCAATGTATCGCTCATCCACCATATCAACCAGGCGCTGAAGGCTCACACGTCGATGCAGCGTGACACGGATTACGTGGTGGAGGAAGGCGAAGTGGTCATCGTCGACCAGTTTACCGGCCGTTTGATGAAAGGCCGCCGCTACAGCGATGGTCTGCACCAGGCGATTGAAGCGAAGGAAGGGCTTGAGATCCAGAACGAAAGCCAGACGCTCGCTTCCATCACGTTCCAGAACCTCTTCCGGATGTATGAAAAGCTTTCCGGTATGACCGGTACAGCAAAGACCGAGGAAGAGGAATTCATGAACATCTACAACATGCGTGTTGTTGTCATTCCGACGAACCGCGATATTCAGCGGGATGATAAAGCCGATCTCGTTTACAAAACGATGGATGGGAAGTTCAAGGCCGTTGTTGAGGATATTAAGAACCGCCATGAAAATGGTCAGCCGGTGCTTGTCGGTACCGTAGCGGTGGAAACGTCTGAAATTATTTCCCGTTACTTGACTAAAGCCGGCGTGCCGCACAATGTCTTGAACGCGAAAAACCACTTCCGTGAAGCGGAAATCATCGAGAACGCCGGACAAAAAGGTGCCGTAACGATTGCGACCAACATGGCCGGTCGTGGTACGGATATCAAGCTTGGAGACGGTGTGAAAGAAGCCGGCGGTCTGGCGGTTATTGGTACCGAGCGTCATGAATCACGCCGGATTGATAACCAGCTTCGTGGTCGTGCCGGACGTCAGGGGGACCCGGGGATGTCCCAGTTCTACCTGGCGACAGATGACGAACTGATGCGCCGCTTCGCCTCTGATAACATCCGCAACATGATGGATCGTCTCGGTATGGATGATTCCCAGCCGATTGAAAGTAAAATGATCTCCCGTGCGGTTGAGTCGGCACAGAAACGTGTGGAAGGGAACAACTTTGATGCCCGTAAGACAATCCTTTCTTACGACGATGTGCTTCGTCAGCAGCGTGAAGTGATCTACAAGCAGCGTTATGAAGTGCTCACATCTGAAAATCTTCGTGAAATCATCGAGGGTATGATCGACCGTACAGTTGCCCAGACCGTCGATGTGCATACGAGTGATGAGGAAGATGAAAACTGGGAGCTTGACAGCATCGTGGATTACCTGCGTGCCAACCTGCTCTTTGAAGGCGACGTCACCGCTGCAGACTTGAAAGGAAAAGATCCGGAGGAAATGAAGGAGCTTATCTTTGCTAAAGTGAAGGAGCGGTATGACGAGAAGGAAGAAGAGCTGACACCTGAGCAGATGCGTGAGTTTGAAAAAGTCATCCTGCTTCGTACGGTCGACCAGAAATGGATGGACCATATCGATCAGATGGACCAGCTCCGTCAGGGGATCCACCTGCGTGCGTACGGACAGAATGATCCGCTTCGTGAATATAATTTCGAAGGCTTCCGTATGTTTGAACAGATGGTTGCAAGCATCGATGAGGAAGTGGCCCGTTATGTCATGAAGGCGCAGATCCGAAGCAACCTGCAGCGTCAGGAAGTAGCGAAAGGTGCAACAGCCGTTTCCGGCGGAGAAGAAAGTAAGGAGCCGAAAAAGAAAAATCCTTACGTGAGAAAAGACACCGTCGGCCGTAATGACCCTTGTCCTTGCGGAAGCGGCAGGAAGTATAAAAATTGCCATGGTAAATAA	MLGTLKKIFGDGNTRQLKRLEKIADDIDAMESDIEKLSEEDLKNKTAEFKERYQNGEKLDDMLVEAFAVVREASKRVLNMRPFRVQLMGAIALHEGNIAEMKTGEGKTLASTMPAYLNAITGKGVHIITVNDYLASRDSTDMGELYQYLGLTVGLNSNGMSKDEKREAYAADITYGTNNEFGFDYLRDNMVLYKEQMVQRPLHYAIIDEVDSILIDEARTPLIISGSASKSADLYVGANSFVRLLAREEDFTYDEKTKNVQLTEEGINKAERFFKIENLFDLSNVSLIHHINQALKAHTSMQRDTDYVVEEGEVVIVDQFTGRLMKGRRYSDGLHQAIEAKEGLEIQNESQTLASITFQNLFRMYEKLSGMTGTAKTEEEEFMNIYNMRVVVIPTNRDIQRDDKADLVYKTMDGKFKAVVEDIKNRHENGQPVLVGTVAVETSEIISRYLTKAGVPHNVLNAKNHFREAEIIENAGQKGAVTIATNMAGRGTDIKLGDGVKEAGGLAVIGTERHESRRIDNQLRGRAGRQGDPGMSQFYLATDDELMRRFASDNIRNMMDRLGMDDSQPIESKMISRAVESAQKRVEGNNFDARKTILSYDDVLRQQREVIYKQRYEVLTSENLREIIEGMIDRTVAQTVDVHTSDEEDENWELDSIVDYLRANLLFEGDVTAADLKGKDPEEMKELIFAKVKERYDEKEEELTPEQMREFEKVILLRTVDQKWMDHIDQMDQLRQGIHLRAYGQNDPLREYNFEGFRMFEQMVASIDEEVARYVMKAQIRSNLQRQEVAKGATAVSGGEESKEPKKKNPYVRKDTVGRNDPCPCGSGRKYKNCHGK	PGPT0025735_4790	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025735-secA-K03070	NA	NA
AK012_02202	987	prfB		Peptide chain release factor 2	ATGACAGAGCCGGGCTTCTGGGATGACCAGAATACGGCGCAGAAGGTCATTGATGAAGTGAACGGCCTGAAAGGTCTTGTTCACACCTTGGAAGAACATGAAGAAACGCATGAGAACCTGGAAGTTTCCTATGAGCTGGTCAAGGAAGAAGAAGACGAAGAACTGCTTGAGGATCTTGTCCAGGAAGTGCAGAAGCTGTCAAACGACCTGAACCAGTTTGAGCTGAACATCCTTCTAAGCGAGCCGTACGACAAGAACAACGCGATTCTTGAACTGCACCCGGGTGCCGGTGGTACAGAGTCCCAGGACTGGGCAAGCATGCTGCTTCGTATGTACACGCGCTGGGCGGAGAAGAAAGGTTTCTCTGTGCAGACGATGGATTACCTTCCTGGTGATGAAGCCGGCGTTAAGAGTGTGACCCTTCTTATTAAAGGGCACAATGCGTACGGTTACCTGAAAGCGGAAAAAGGCGTACACCGTCTCGTACGTATTTCTCCGTTCGACTCCTCCGGCCGTCGTCACACGTCATTCGTATCGTGTGAAGTGATGCCGGAGTTCAACGACGAAATTGAAATCGATGTACGTTCGGAAGATCTGAAAATCGATACGTATCGTGCCAGTGGTGCCGGTGGTCAGCACGTCAACACCACAGATTCCGCGGTTCGTATTACCCACACCCCGACGAACACGGTTGTAACGTGCCAGTCGGAGCGTTCTCAGATTAAGAACCGTGAACAGGCGATGAAGATGTTGAAGTCGAAGCTGTATCAGCTTGAAATCGAACGTCAGCAGCAGGAGCTTGACGACATCCGTGGCGAGCAGAAGGAAATCGGCTGGGGAAGCCAGATCCGCTCCTATGTTTTCCACCCGTACTCCATGGTCAAAGACCACCGGACGAACGAAGAAGTCGGAAACACGCAGGGCGTGATGGACGGCAGTCTCGATAAATTTATCGATGCCTACCTCCGCTCACAAATGGATGGATGA	MTEPGFWDDQNTAQKVIDEVNGLKGLVHTLEEHEETHENLEVSYELVKEEEDEELLEDLVQEVQKLSNDLNQFELNILLSEPYDKNNAILELHPGAGGTESQDWASMLLRMYTRWAEKKGFSVQTMDYLPGDEAGVKSVTLLIKGHNAYGYLKAEKGVHRLVRISPFDSSGRRHTSFVSCEVMPEFNDEIEIDVRSEDLKIDTYRASGAGGQHVNTTDSAVRITHTPTNTVVTCQSERSQIKNREQAMKMLKSKLYQLEIERQQQELDDIRGEQKEIGWGSQIRSYVFHPYSMVKDHRTNEEVGNTQGVMDGSLDKFIDAYLRSQMDG				NA	NA	NA	NA	NA
AK012_02203	876	gtaB_2	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGAAGGTGAAAAAAGCGATTATTCCCGCCGCCGGCCTTGGAACGAGGTTCCTTCCGGCTACAAAGGCGATGCCGAAGGAAATGCTTCCGATTGTTGATAAGCCGACCATACAGTACATTGTTGAAGAAGCCATCCAGTCGGGGATCGAAGATATCATCATCGTTACCGGTAAAGGGAAACGGGCGATTGAGGATCATTTTGACCACGCCTTTGAGCTTGAGGACAACCTTTATAAAAAAGGCAAAATCGATCTGCTTGAAGAAGTGCAGCAGTCCGCAGAAGTGGATATCCACTACATCCGTCAGAAAGAGCCGAAGGGACTCGGCCATGCCGTCTGGTGTGCCCGGAAGTTTATCGGCAATGAACCGTTTGCCGTCCTTCTCGGGGACGATATCGTCCGCTCTGATGAGCCGTGTCTCAAACAGCTGATTGATCAGTATGAAGAGACGCAGTCCTCTGTCATCGGGGTGAAGCAGGTACCGGAGGATGAAACGGACCGCTACGGCATTATCGCCCCTAAAGACCAGCAGGGCCGTCGTTATGAAGTGGAGCACTTTGTGGAAAAGCCGCCTGTTGAGGAAGCACCATCCAATCTGGCCATCATTGGCCGTTACGTGTTCACGCCTGAAATCATGGACCTGTTGGCTACGCAGGAAACTGGAGCCGGCGGTGAAATCCAGCTGACGGATGCGATTGAACGCCTGAACCTCGATCAGCCGGTGTACGGCTATGAGTTTAAGGGAGACCGTTATGATGTCGGTGATCAGCTCGGCTTTATTAAGACGACGCTTGCCATCGCGATGGAAAGAGACAACATGCGCGATGATGTGCTCGAACTGCTTGCGGAAGTTATGGAAAAACAGGAATCAAGGTGA	MKVKKAIIPAAGLGTRFLPATKAMPKEMLPIVDKPTIQYIVEEAIQSGIEDIIIVTGKGKRAIEDHFDHAFELEDNLYKKGKIDLLEEVQQSAEVDIHYIRQKEPKGLGHAVWCARKFIGNEPFAVLLGDDIVRSDEPCLKQLIDQYEETQSSVIGVKQVPEDETDRYGIIAPKDQQGRRYEVEHFVEKPPVEEAPSNLAIIGRYVFTPEIMDLLATQETGAGGEIQLTDAIERLNLDQPVYGYEFKGDRYDVGDQLGFIKTTLAIAMERDNMRDDVLELLAEVMEKQESR	PGPT0014875_3921	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
AK012_02204	873			hypothetical protein	ATGATGATGGCTAAAAAATACCGCAGGGAGCCGGTGCCGCCGCTGCTTCGACATACAATGGATTACGGACTCGTCATTCTCGGATCCTTTTTTGTAGCAATCGCTTTTAACTTGTTTTTACTTCCCAATAACGTGGCTTCCGGGGGTGTCGCGGGGATCAGTACAATTACCAAAGGTGTGTTCGGCTGGGAGCCGGGCGTTGTGCAGTGGGTGCTCAACATTCCATTGTTCATCATGGGCTGGCTGGTTCTTGGGAAAAACTTCGGTGTCAAATCCCTTGTAGGGACGATCGTTCTGCCGTTTTTCGTCCTGCTTACGAGCTCCATGGATGCGGCGACCCCTGATCCGCTTCTCGGAGCTATTTTTGGAGGAATGGGGGTCGGTCTCGGCCTCGGCATTGTGTTCCGTGGACGAGCGTCCACAGGGGGCATCGACCTTGCCGCTCAAGTGATTCATAAATTCACTCATCTTCCGCTTGGCATCTGCGTAGCGATGCTGGACGGGCTGATTGTCATTACGTCGGCTTTCGTATTTTCCCTGGAAGAAGGGTTGTACGCGCTGATCGGTCTTTTCGTCACAAGCCGTACCATTGATTTCGTACAGGTCGGGTTGAATACATCGAAAAACGTCATGATCATTACCGAAGAGGTGGATGAAGTCCGTGATGAGATTTTCCGGCAGATTGACCGCGGAGTGACCGTGTTGAGCGGCGCCGGCGGCTATACCGAACGTGAGCGGCGTGTCGTTATGTGTGTAGTTCAGCAGAATGAATTCATCAAATTGACACAAACGGTCAAAACCGTCGATCCGGGGGCTTTTGTCGTCGCGATGAATGCCACAGAGGTGCTTGGAGAGGGTTTCAAAACGACTTGA	MMMAKKYRREPVPPLLRHTMDYGLVILGSFFVAIAFNLFLLPNNVASGGVAGISTITKGVFGWEPGVVQWVLNIPLFIMGWLVLGKNFGVKSLVGTIVLPFFVLLTSSMDAATPDPLLGAIFGGMGVGLGLGIVFRGRASTGGIDLAAQVIHKFTHLPLGICVAMLDGLIVITSAFVFSLEEGLYALIGLFVTSRTIDFVQVGLNTSKNVMIITEEVDEVRDEIFRQIDRGVTVLSGAGGYTERERRVVMCVVQQNEFIKLTQTVKTVDPGAFVVAMNATEVLGEGFKTT				NA	NA	NA	NA	NA
AK012_02205	366	cccA		Cytochrome c-551	GTGAAAAAACTATGGCTGGCCATGATGTTGGGACTTGTACTTATTCTCGCAGCCTGCGGGGGCGGAGAAGAATCCTCCGATGAAGGTACGAACGAAGAAACGACAGAAGAACAGTCCGACAGTGGATCTGATGGTACTGTAGACGCATCCGCTGCCGAAGGTGTTTACAAGAGCAGCTGTGCCTCCTGCCACGGCGGGGACCTTGAAGGTGCGATGGGGCCGGCGTTAACTCAGGTCGGCGGCAAGTATTCTGCGGATGAAATTGTCAACATCATTAAAAACGGAAAAGGGCAGATGCCTCCCCAGGGCGACGTAACGGATGAAGACGCCCAGCTTGTTGCCAGCTGGCTGGCAGCCAAGAAATAA	MKKLWLAMMLGLVLILAACGGGEESSDEGTNEETTEEQSDSGSDGTVDASAAEGVYKSSCASCHGGDLEGAMGPALTQVGGKYSADEIVNIIKNGKGQMPPQGDVTDEDAQLVASWLAAKK				NA	NA	NA	NA	NA
AK012_02206	687	ftsE	COG2884	Cell division ATP-binding protein FtsE	ATGATACAGATGCAAGGGGTTTATAAAACCTATCGGAACGGAGTGACCGCGCTGAACGGTCTCGACGTGCAGATCGATCAGGGTGAATTCGTTTATGTTGTCGGACCGAGTGGGGCAGGAAAATCGACGTTTACCAAATTGATTTACCGTGAGGAAAAGCCGACGAACGGAACGGTTTTAATCAATGATATCAACACATCTACGATGAAGGAGCGCCGCATTCCAATGCTGCGCCGTAAGATTGGTGTCGTATACCAGGACTTCCGTCTGCTTCCGACATTGACCGTTTATGAGAACGTCGCGTTCGCGCTGGAAGTCATTGAAGAAGACAGCGCGAATATCCGCCGCCGCGTCATGGACGTTCTTGACCAGGTGCATTTGAAAAATAAAGCGCGTTTTCTACCGGATGAGTTGTCCGGCGGGGAGCAGCAGCGTGTTTCCATTGCACGTGCGATGGTGAACCATCCGAAAATTTTGATTGCCGATGAGCCGACCGGTAACCTTGACCCGGATACGTCATGGGAGATCATGCACATTCTTGAGGAAATCAATACAGGGGGGACGACCGTCCTGATGGCAACGCACAGCAAAGAGATTGTCAACACGATTCGTAAGCGTGTCATTGCCATTGAAGACGGCATGATTGTCCGCGATCAGGCGCAGGGCGACTACGGCTACGATATGTAA	MIQMQGVYKTYRNGVTALNGLDVQIDQGEFVYVVGPSGAGKSTFTKLIYREEKPTNGTVLINDINTSTMKERRIPMLRRKIGVVYQDFRLLPTLTVYENVAFALEVIEEDSANIRRRVMDVLDQVHLKNKARFLPDELSGGEQQRVSIARAMVNHPKILIADEPTGNLDPDTSWEIMHILEEINTGGTTVLMATHSKEIVNTIRKRVIAIEDGMIVRDQAQGDYGYDM	PGPT0020520_4102	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
AK012_02207	1497	ctpB	COG0793	Carboxy-terminal processing protease CtpB	ATGAATATAAAACCGCGTTACGTGGTGCTTTTTCTAGCGCTTGCGGTGCTTTTGGGGGCAGCCGGCTCTTATATCGGCCTGGAGTATTTCGGGGGCGGCTCCAACGAACAATCGCAGGAGCAGTACGCGAATACCGAAGCTGAGAACTTTGGTAGTTTAACAGAGGAACAGCAGAAAGAAGTCATAGAAAATATGGGCGGCGACGCTGACCTGAAGAAGGTCGAACAGGCCTATTCCGTCATCGAAGAGAACTACTTGGAGGAAGTGGACAAGCAGACGCTCGTGGAAGGCGCTGTGCAGGGAATGCTGGATACACTGGAAGATCCCTACAGTGTTTACATGGATCAGGAAACGATGGAACAGTTCAACCAGACAATTGAATCAAGCTTCCAGGGCATCGGCGCTGAAGTCAGCATGGTGAACGACAAAGTGACCATCGTCGCGCCGATCAAGGGTTCTCCAGCTGAAGAAGCGGGCTTGAAGCCGAACGATCAGATTTTAACCGTCGATGGGGAAAGCGTGGAAGGCCTGGACTTGTATGAAGCTGTCCTGAAAATCCGCGGTGAGAAAGGGACGGAAGTAACGCTTGAAGTAGAGCGTCCCGGCGTGAGTGAACCGCTCAGCATCGACATCACCCGTGATGATATTCCGCTTGAAACCGTTTATTCGGATATGAAAACGGTCGACGGTAAAAAAGCGGGCGTAATCGAAATCACATCCTTTTCGGAAAAAACATCCGATGAATTTCATACCGCTCTTGAAAAACTTGAAAAAGACGGTATGGAGGGACTCGTGATTGATGTCCGCGGAAACCCGGGTGGATTGTTCACCGACGTCCAGGAAATCCTGAAGGAATTCATTCCGAAGGACAAGCCGATTGTGCAGGTGGAAGACCGCAGCGGTGAGAAAACGGAATATTATTCTGAGATTACCGAGAAAAAAGATTATCCGGTTACGGTCTTGATGGACGAAGGCAGTGCGTCAGCCTCTGAAATTCTAGCTGCGACGATGAATGAAGCCGGCGGGTATGATCTTGTCGGAACGAAGAGTTTCGGAAAAGGGACCGTCCAGCAGGCCATTCCTATGGGGGATGGCAGCACAATCAAGCTGACGCTGTTCAAATGGCTCACGCCTGAAGGCAACTGGATTCATGAAAAAGGCATAGAGCCGACAGTTGAAGTGAAACAGCCGGAGTACTTCTATACCAACCCTGTGGATATTGAAGATACGCTCACGTATAACGACAACAATGAAAAAGTGAAAAATGTGCAGGAAATGCTGAAAGGTCTCGGACATGATCCCGGCCGTACGGATGGCTACTTCAGTAAAGAGACCGAAAAAGCGGTGAAAGCTTTCCAGAAAGACGCTGATCTTGAAGCCACTGGAGAAGTGGATGAAAAGACAGGCGGCAAGCTGGAAGAAGCGATTATCGAACAAGTCAGAGACGAAGCCAACGATAAGCAGATGGACAAAGCGGTGGAGGTCTTGTTTGAATAA	MNIKPRYVVLFLALAVLLGAAGSYIGLEYFGGGSNEQSQEQYANTEAENFGSLTEEQQKEVIENMGGDADLKKVEQAYSVIEENYLEEVDKQTLVEGAVQGMLDTLEDPYSVYMDQETMEQFNQTIESSFQGIGAEVSMVNDKVTIVAPIKGSPAEEAGLKPNDQILTVDGESVEGLDLYEAVLKIRGEKGTEVTLEVERPGVSEPLSIDITRDDIPLETVYSDMKTVDGKKAGVIEITSFSEKTSDEFHTALEKLEKDGMEGLVIDVRGNPGGLFTDVQEILKEFIPKDKPIVQVEDRSGEKTEYYSEITEKKDYPVTVLMDEGSASASEILAATMNEAGGYDLVGTKSFGKGTVQQAIPMGDGSTIKLTLFKWLTPEGNWIHEKGIEPTVEVKQPEYFYTNPVDIEDTLTYNDNNEKVKNVQEMLKGLGHDPGRTDGYFSKETEKAVKAFQKDADLEATGEVDEKTGGKLEEAIIEQVRDEANDKQMDKAVEVLFE	PGPT0015095_3041	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0015095-prc|ctpA-K03797	NA	NA
AK012_02208	1188	minJ	COG0265	Cell division topological determinant MinJ	TTGGGCGCTTGGTTTATGGAAATTCTTCAAGGGACGGGCAGACTTTTTTTGCTGCCTTTTCTATACATTGCTCTCATCATGAGTGTGATGGTATCTGCAAATCGAATCAAAAAAGAGAGGCGTATGTTCGGAACGCGGGTATTCGATCGTTTTTCTGAATGGAAAGGAACGTGGAGCGTTTCGCTTCTCACAGGACTCATCATCAGTATGATCGGGCTGGGAATCGGACTGACCGTCTCCTACCCGTTTCTTTTTCTCGCAGCAGCGATTCTGCTGCTTGTAAGTCTTACAGGAAAGCTTTCCTGGTATTCCCCATCCTATACGTTGGGATTATCGGGACTTGCTCTTTTACTCCTCCCTTATCTTCCGGAAAATTGGAAATCCCACCCTTGGATGGAGACTTTGTTCGAAACCTCTCTGCCGATGGTGGCGCTGCTGTTGAGCCTGCTGCTGATCAGAGAAGGCTTCATGCTGTTGAAAACGTCGCCTTCTCATACCTTTCCTGAGCGGACTAAAGGACGGAGGGGGCTGTGGATCGGGCAGCACAAGGGCAAACGAATGACGATGGTGCCTTTCTTCTCTCTTATACCCGGAGGCCTGATTGAACCGTTCGCCTCCTGGTGGCCGGTCATTACCGTCAATGGGGACACCTATGGAATCATTCTCGTTCCTTTTGTTCTTGGAGCCGAATGGCTTGTACGCGGACAGTCGCCTGAGATGGCATCCAAAACGATCGGACGTCATACATTCCTGCTTGCTCTCGTTCTTACCGCTCTTTCTGTAGGGAGTTTCTTCGTGGAAGCTCTATCCATTGCCGTATTTGCCCTTGCCTTGATTGGACGGGAATGGGTTTACCTCCGCCACCGGACAAGGGAGAATAAGACACCGTTCTTCACATCGACGCCAAAAGGGGTGCGTATCCTCGGTGTTATTCCGAACAGCCCGGCTGATCAGATGGGACTGATCCCCGGGGAGCTTATTGAACGCGTGAACAGCATCCCGGTCCGCACCGAAAATCAATTTTATGAAGCCCTCCAAAATACAGGCGCATTCACAAAAATTGAAGTACGTGACGAATGGGGCGAAAACCGCTATGTGCAGCGGGCGATGTATGAAGGCGAGCATTATGAGCTCGGTCTTGTATTCGTGGAACCGCCGACCCATGAGAGTTCGGTTGGGTTCTTTTAA	MGAWFMEILQGTGRLFLLPFLYIALIMSVMVSANRIKKERRMFGTRVFDRFSEWKGTWSVSLLTGLIISMIGLGIGLTVSYPFLFLAAAILLLVSLTGKLSWYSPSYTLGLSGLALLLLPYLPENWKSHPWMETLFETSLPMVALLLSLLLIREGFMLLKTSPSHTFPERTKGRRGLWIGQHKGKRMTMVPFFSLIPGGLIEPFASWWPVITVNGDTYGIILVPFVLGAEWLVRGQSPEMASKTIGRHTFLLALVLTALSVGSFFVEALSIAVFALALIGREWVYLRHRTRENKTPFFTSTPKGVRILGVIPNSPADQMGLIPGELIERVNSIPVRTENQFYEALQNTGAFTKIEVRDEWGENRYVQRAMYEGEHYELGLVFVEPPTHESSVGFF	PGPT0016196_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	MOTILITY-SWARMING_REGULATOR,PGPT0016196-swrB|ylxL-NA	NA	NA
AK012_02210	294			hypothetical protein	ATGAAGCAATCATTACATACATTAGGTTCCATCATTCTTTTTGTCGGAGTGGTGCTGTTCATTCTAAGGCTTCAATCAGGCATACATCTCCTTTACACCCCATATCTCTTATGCATTACAGGGGCGGGGTTCCTGGCTTTTACTGCAATTGCAGCTAAAAAAGAAGCGAGTCTTTTGTGCAGGGTAGGTTTGCACAAGTATGAGAAAATCGGCTGGGATGATGAAGTAAAGTCCAGGACAGTGTACCAGTGCCGGAAATGTGGAAGGAAGAAGAAAGTGTTCAGAGCTGTCTAA	MKQSLHTLGSIILFVGVVLFILRLQSGIHLLYTPYLLCITGAGFLAFTAIAAKKEASLLCRVGLHKYEKIGWDDEVKSRTVYQCRKCGRKKKVFRAV				NA	NA	NA	NA	NA
AK012_02211	1146			hypothetical protein	TTGAGTAACAGGAGAATAAAAAAAGCGATAGATGATCAAATCAGTGAAAAACCACTATTCACAAATAAAGATCGGCGCCGCTTTTACGCCAACAAACAAAAAAGCCGATCACCTTTGTTGCAGCAGGTCTTCCCCAAGTTGTTGACAGTGATGACAGCATTACTAATGCTGGCCGGATCCTTTTACTTTTTCACTTCGGGAAACCCGCTGCAGTCTCCGGCTTCTCCTGATGAAGAAAGATTCATAGAAGGGCCGGATACGGAAGAGGAAAAGGAAGAAAAAATAATCGAAGAAACAACTCCGGATCTTGATACAAAGATTGAAAGAATAAAAGAGGTTGTCATTAGTCAGAAGAAAGAAAAACAGATAAGAAAAATCGTCCAAAAACTCAACGGGAAGGAAGTAAAAGTATCTCAAGAAGAAGGAGCAGAAAGAATATCCTTCGTTTTCTCACCAGATGCCGAGGCGCCGGATACATCCTATTCGAGTCATTTGCCCCCTCCCAAGGAAGCGTACCGAAACAGTGAATTGGATTTGTTTCTGGTTGTTCAATGGAATGATGAATACAATGTCTTCCTATCAGCTGAATTGACTTACCTGTCCACAGACGGGAAATCCCTGACGAAAGAAAAATACAACATAAATAGAAACCAAAGAGAATTTGTAAAAGTCATGGGGGCTGATGAACCTGTTTCTATGCAGGGTCTCCTGTTACGGTCCATTGCTCGTTCTTTAGATAAAGAACCAGACACTCTTACCAAAGGCGACCTAATGGATCTTGAAGAATTAACTATCAATGCCTCCCATTTGACCGAAACATTTCGTGTCGATGCTGATCCTGATGACTTCAAGGCCATGAAATCCTTGAAAGTACTAAAACTGAATCAGGCTCTAATCCCAGGTGAATTGTTAAAGGAGGTACCGACCCTCGAACAAGTCACTTTCATCGGTTCTACAGTCACTGATTTGAGCCAGGTCTCTGAAGGCATGCAGCATGTGCAGTATTTAAACTTAATTAATTCTTCCTTCCGGGGGACAGCTGAAGATATCCTGAAGCTACCATCACTGACCATCGTCAGGGTCGATCCCGCTGTAGTTCCGGAATATGAAGAGCTGCAGTTTGAAGGAATTGACGTGCGCTGGTAA	MSNRRIKKAIDDQISEKPLFTNKDRRRFYANKQKSRSPLLQQVFPKLLTVMTALLMLAGSFYFFTSGNPLQSPASPDEERFIEGPDTEEEKEEKIIEETTPDLDTKIERIKEVVISQKKEKQIRKIVQKLNGKEVKVSQEEGAERISFVFSPDAEAPDTSYSSHLPPPKEAYRNSELDLFLVVQWNDEYNVFLSAELTYLSTDGKSLTKEKYNINRNQREFVKVMGADEPVSMQGLLLRSIARSLDKEPDTLTKGDLMDLEELTINASHLTETFRVDADPDDFKAMKSLKVLKLNQALIPGELLKEVPTLEQVTFIGSTVTDLSQVSEGMQHVQYLNLINSSFRGTAEDILKLPSLTIVRVDPAVVPEYEELQFEGIDVRW				NA	NA	NA	NA	NA
AK012_02212	537	sigW_1	COG1595	ECF RNA polymerase sigma factor SigW	GTGACCAGTCAGACACAATTACACTTCTCACGTGATGAAGTCATCGAATATATTATGACTCACTATGGTGAAGTGATGAAACGAACAATTTATACATATGTAAAAAACCACCACACCACCGACGACATTTTCCAAGACGTCCTCATTCTCATTTATCGGAAATGGGATCAATTCCATGGACAGTCCCAGTTAAAAACCTGGGTCATGAGAATTGCCATCAATCGATGCAAAGACTATTTACGTTCTCCTATACACCGGATCAAAATTGTTAAGGACCAATGGCTGGATAAAAAAGATCCTGAGCATTTGGAGGAGAGGATTATACAAAAAGAAGAATGGGACGAAATTGCGGAAGCTATTCTGAAGCTGCCTGTAAAATATCGGGAAGTGATGATTCTCACTTTCCAACAGAATATGACCCAGAGGGAAATCGCGGATGTTACCGATACGGCCTTGTCCACAGTTAAGACGCGTATGCAGCGGGCTCGTCAATTGTTAAAACAACAAGTTAACGAGGAGGGACTGACTCTTGAGTAA	MTSQTQLHFSRDEVIEYIMTHYGEVMKRTIYTYVKNHHTTDDIFQDVLILIYRKWDQFHGQSQLKTWVMRIAINRCKDYLRSPIHRIKIVKDQWLDKKDPEHLEERIIQKEEWDEIAEAILKLPVKYREVMILTFQQNMTQREIADVTDTALSTVKTRMQRARQLLKQQVNEEGLTLE	PGPT0014960_9257	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK012_02213	1155	htrA_3	COG0265	Serine protease Do-like HtrA	ATGAGTGAAAAGAAAACATCACTATTAAAAATTTCCGGCATCGCTTTATCTTCAGGAATCTTGGGGGCAGCTCTTACTTTAGGGGCCGCTTCTCAAATGGAAGAACTTCCGAATGCGTCGGACACGGTCAGTGCTTCGCAAAATACGGTAGAGGCTGAAACTGAACCATTATCCTCTACGACTGCCTTGTCTACAGCGGATATTGCTGAACAGGCCTCGGAAGCGATTGTCGGGGTCGTCAACTTAACGAATCAGCAGTCCCCGTTTACTTCTGCAGAGGAAATGACGGAGGCGGGTACTGGTTCGGGTGTTATTTATAAGGTAGAGGAAAACGCCGCTTATATTGTGACAAATAATCACGTCATTGAAGGGGCATCAGAAGTGGACATCTCGCTTTTTGATGGAGAGACAGCCTCTGCTGAAGTGATCGGCTCCGATGCGCTTACGGATATTGCGGTACTGAAAATTGAAGGAAGCTATGATGTGGAGCCGCTGGCGTTCGGGGATTCTGATTCCATCCGGGCTGGCGAGGAGGTTCTTGCAATCGGGAACCCGCTCGGCCTGGATTTATCCCGCACGGTCACTCAGGGGATTGTCAGTGGTGTCGACCGGACAATTTCTGTAACGACGTCAGCCGGGGAATGGGACCTTGATGTTATCCAGACGGACGCAGCAATCAGCCCTGGGAACAGCGGTGGGGCGTTAATCAATGGTTCAGGTGAGCTGATTGGAATCAACAGTCTGAAAATGGCCGATGAAGATGCAGAAGGGCTTGGCTTTGCGATTCCGGTTAATGATGTGGAAACGCTGATTGCGGATATGAGTGACGATGGCCAGGTCGACCGCTCCTACCTTGGTGTGGGTGTCCTCGGGGTCCATGAAGCACCTGCCCAGTACCGGATGTCACTGCCGGAGGAAACCGAAGAGGGAGTCATTGTCGCGTCTGTCGATGAAACGTCAGCAGCGGCTGGGGCCGGCCTGAAGGTTGAAGATGTGATCACTTCCATAGATGGAGTGACGATATCAGACAGTACAGACCTCCGAAAATATTTATATACAGAGACGAATGCCGGGGATACCGTAACGGTGGAATTTTACCGCAATGGAAATGCGCAGACAGTGAACGTGACGCTTACGGAACAAGTCAATGAGTAG	MSEKKTSLLKISGIALSSGILGAALTLGAASQMEELPNASDTVSASQNTVEAETEPLSSTTALSTADIAEQASEAIVGVVNLTNQQSPFTSAEEMTEAGTGSGVIYKVEENAAYIVTNNHVIEGASEVDISLFDGETASAEVIGSDALTDIAVLKIEGSYDVEPLAFGDSDSIRAGEEVLAIGNPLGLDLSRTVTQGIVSGVDRTISVTTSAGEWDLDVIQTDAAISPGNSGGALINGSGELIGINSLKMADEDAEGLGFAIPVNDVETLIADMSDDGQVDRSYLGVGVLGVHEAPAQYRMSLPEETEEGVIVASVDETSAAAGAGLKVEDVITSIDGVTISDSTDLRKYLYTETNAGDTVTVEFYRNGNAQTVNVTLTEQVNE	PGPT0015105_5431	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
AK012_02214	870	prsA1	COG0760	Foldase protein PrsA 1	ATGAATAAAAAAATACTGCTTGGAGGAGTGGTTGCGGTTTCCGCGGTCCTCCTGATTATTTTGAGTCTAAGTATGGATCCGAAGGAAAGTGTTGCTTCTGTGAACGGGGAAGACATTGAAAAGGAGGAATTGTACGATACGCTGGTGGAGCAGTACGGCCAGGAAACGCTGGATACCCTGATTACAAATAAAATCGTTGAATTGGAAAAAGAAGAAAACGATATTACAGTAAGTCAGGATGCCGTGGATGAAGAACTGGCTGTGTACTATGATCAGTATGGTGGTGAGGAAGCCTTCCAGTCCACCCTTGAAGCAAGTGGAATGACGATTGCGGACGTAGAGAAGGATATTGAAGATTACTTAGCTGTTGATCAGCTGCTGGCTGAAAGGATTTCAGTCACTGATGAAGAAAAGGAAACGTATTTTGAAGAAAACAAGGAAAGCTATGATCAACCGGAGCAGGTAAGTGCCCGCCATATTCTGACCGAGACGGAAGAGGAAGCGGAGGAAGTGCTGACGAAACTGGAGGATGGAGAGGCGTTCGAGGATCTTGTAACGGAATACTCCATCGATGATACAACGGTGGCCTCTGGAGGAGACCTGGGAGCGTTCAGTGAAGGTGAGATGGTCGAAGCCTTTGAGGAAGCTGCATTTTCCATGGAAGTTGGAGAAGTCAGTGATATCGTTGAGACAGAGTATGGCTATCACATCATTGAAGTGACCGACCATACCGAAGCGCAGGAAGCAGTTTATGAAGAAGTGGAAGAAGAAATAGGAGAAACGTTATATCAATCCAAAGTCAGCGAAGAATACAACCTCTGGATGCAGGAAAAAATGGAGGAGTACGATATTGATAACTCTCTGGATTAA	MNKKILLGGVVAVSAVLLIILSLSMDPKESVASVNGEDIEKEELYDTLVEQYGQETLDTLITNKIVELEKEENDITVSQDAVDEELAVYYDQYGGEEAFQSTLEASGMTIADVEKDIEDYLAVDQLLAERISVTDEEKETYFEENKESYDQPEQVSARHILTETEEEAEEVLTKLEDGEAFEDLVTEYSIDDTTVASGGDLGAFSEGEMVEAFEEAAFSMEVGEVSDIVETEYGYHIIEVTDHTEAQEAVYEEVEEEIGETLYQSKVSEEYNLWMQEKMEEYDIDNSLD				NA	NA	NA	NA	NA
AK012_02215	777			Thermostable monoacylglycerol lipase	ATGATGAAGGAAGCCTATCCGGTTATTGATGGTGCGGAGTCGTTGTTTTTTGAAGGAAATGATACAGGGGTGCTGCTCTGTCATGGCTTTTTAGGAACGCCCCAGAGTCTGAGAGAGGTGGCAGAAGGGCTGGCGGATCAAGGTTATACCGTATCGGTCCCCCGGCTTCCAGGTCACGGAACGCACTATAAAGACCTGAATTCCTGCTCGTTTTCCGATTGGTATTTGGAAATCGAAAACGCTTATCTGGAGCTGGATTCCCAATGCAGGGAGGTGTTCGTCATCGGTCAGTCGATGGGAGGCACGCTGACCTTGGACCTCGCTGCTCAATATTCCGGTATTTCCGGCATAACCTTAATCAATCCGGCCATGGATATCCCCGCGTTTTCCCAGCTGGAACAAGCTTCCGTGCCGTTATATATAGAGGAAGGAAAACCGGACATCAAGGACCCAGGTGCAGTGGAGATCACCTATACCCACACACCGTTGACCGCTTACCAGGAACTGTTGAAGTATATGAAGGTTGTCAGACGAAAATTATCCGGCATCCGATGTCCGCTCACCTGCTTTGTGTCCCGTGTGGACAATGTCGTCCCACCGGAAAATACCGACTATATCCTAAAAAAAGTGTCCTCCCAACGCGTATCGAAATACGTCCTGGAGAATTCCTACCACGTTGCCTCGATGGACTACGATAAGGAACAAATCATCGAAGAGCTGCTTTCTTATCTAGAAGCACACTCCTCCATCGATCACAGAAAAAAAGTCAGCCCATAA	MMKEAYPVIDGAESLFFEGNDTGVLLCHGFLGTPQSLREVAEGLADQGYTVSVPRLPGHGTHYKDLNSCSFSDWYLEIENAYLELDSQCREVFVIGQSMGGTLTLDLAAQYSGISGITLINPAMDIPAFSQLEQASVPLYIEEGKPDIKDPGAVEITYTHTPLTAYQELLKYMKVVRRKLSGIRCPLTCFVSRVDNVVPPENTDYILKKVSSQRVSKYVLENSYHVASMDYDKEQIIEELLSYLEAHSSIDHRKKVSP				NA	NA	NA	NA	NA
AK012_02216	426			hypothetical protein	ATGCGGAATCTTCTTGCTGCTTTAATCAGCAGTTTTATAACAGCTTTAATAGTATCCATTTATCTCACATCGGATTACAGCAATCTGGTGCATAACTTATATTTTAATGCGATGTTTATTTATCTTGGGCATGGCGTTTTTGCTCTGCCCCTGTCTTTTGCCATTGATCGGTTAAGCCGGCGGATGGCACTGGGCCGGTTCTTTATCGAAGGGGGGATCTATCTTTCTATCGGAGCCTTCTTTGCTGTATGTCTGGCTCTTTTCACGATGTTCTTAAGCTTGTATCTCATACCGATCAGCTTCATTTTTCCAATCACCTACACGCTCGTTAAAAAAATTCCTGCTGCTTACATAAAGAAAAGTCTGACAGCGGCTGTCCTTTTATCCGCTGGGTTCATAGCTGTCATGTATTACAGTATCCGTTAG	MRNLLAALISSFITALIVSIYLTSDYSNLVHNLYFNAMFIYLGHGVFALPLSFAIDRLSRRMALGRFFIEGGIYLSIGAFFAVCLALFTMFLSLYLIPISFIFPITYTLVKKIPAAYIKKSLTAAVLLSAGFIAVMYYSIR				NA	NA	NA	NA	NA
AK012_02218	1287	ylmB_2	COG0624	N-formyl-4-amino-5-aminomethyl-2-methylpyrimidine deformylase	ATGATTCAATTAGAGGAACTGCTGCAGAGAGTAGAGGAAAAGGAAGCGGAGATGCATCAGCTTCTGGGCGACTTGGTCGCTTTTCCGACGGTGAGCCCTCCGGCGCGGAATGCAGCGGAAGCACAGCGGTACATAGAAGAGTATTTAAGACGGTTGGATTATGAAATAGACACATGGGAACTTTATCCCGGCGATCCGATTGTCGTCGGAACGAAAAAAGGAACCGGCCGGGAACACAGCAGAAGTCTCATCTTAAATGGTCATATTGATGTGGCTGCGCTGGATGAAGGGGAATCATGGGAGCATGATCCCTTTACTCTGACTTTGAAGGACGACCGCTTGTACGGTCGCGGCACGGCGGATATGAAAGGTGGAATGGCAGCCGTTCTGTTTGCGCTCAACCTGCTTCATGAAGCGGGAATCGAGCCGGCAGGCGATCTTCATGTGCAGTCAGTTGTTGGTGAAGAGGTCGGTGAAGCAGGAACAAAATCCTGTGGAGAAAGAGGTTACCACGCAGATTTAGCTATCGTAGCCGATACGAGTAACTGCGCCATTCAGGGGCAGGGAGGCGTCATTACCGGATGGATAACGATTGAAAGCCCGGAAACTTTCCACGATGCCGAACGCCGGTCGATCATTCATGCCGGGGGAGGCAGACACGGGGCCGGGGCGATTGAAAAAATGATGAAAATCATCCAGTCGCTGCAGGAATTGGAGCGGCACTGGGCGGTGACGAAATCGAGCCCTGGCTTTCCGGCAGGCTCGACGACAATTAATCCTGCTGTCATTGAAGGGGGAAGGCACGCCGCGTTTATCGCCGACCGCTGTGCTTTATGGATTACCGTGCACTATTATCCAGAAGAGCATTACGAAGATGTGATTGAAGAAATTGAAGCACATGTCCGTGCTGCCGCCCAGGCCGATCCATGGCTGAAAAACCATGCCCCTCAATTCAAATGGGGAGGAACGTCCATGATTGAGGACCGAGGAGAAATTTTCCCTGCCTTTTCTGTCGATCCTGCTCATTCAATGGTCCAGCAGCTGAAGCAGGCCCATGAAGCGATTCACGGCACCCCTGTGGAAACGTCCATGTCTCCGACTGTGACAGATGGGGGATGGCTTTCAGAAGCAGGAATTCCAACCATTTTGTATGGCCCCGGCACGCTCGATCAGGCGCATGCAGTGAATGAATCGCTGGACCGCAGACAGCTGTTGGATTATACGAAAACGATGACGGCTTTTTTATACCATTGGTTTCAGCAGACAAATAACGAGGAGGAAGTGTAA	MIQLEELLQRVEEKEAEMHQLLGDLVAFPTVSPPARNAAEAQRYIEEYLRRLDYEIDTWELYPGDPIVVGTKKGTGREHSRSLILNGHIDVAALDEGESWEHDPFTLTLKDDRLYGRGTADMKGGMAAVLFALNLLHEAGIEPAGDLHVQSVVGEEVGEAGTKSCGERGYHADLAIVADTSNCAIQGQGGVITGWITIESPETFHDAERRSIIHAGGGRHGAGAIEKMMKIIQSLQELERHWAVTKSSPGFPAGSTTINPAVIEGGRHAAFIADRCALWITVHYYPEEHYEDVIEEIEAHVRAAAQADPWLKNHAPQFKWGGTSMIEDRGEIFPAFSVDPAHSMVQQLKQAHEAIHGTPVETSMSPTVTDGGWLSEAGIPTILYGPGTLDQAHAVNESLDRRQLLDYTKTMTAFLYHWFQQTNNEEEV	PGPT0009060_125	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0009060-ylmB-K20895	NA	NA
AK012_02219	687	tenA_1	COG0819	Aminopyrimidine aminohydrolase	ATGTTTACAGACCGTTTATATGAAAGTGCCCGTCCGATTTGGGAAGCCTACCTTGATCATCCGTTTGTCAAAGGAATTGGGGACGGCACGCTCGATCTTGAGAAATTCCAGTTTTTTATGCGTCAGGATTATTTGTACTTGATCGATTACTGCCGGGTGTTTGCTCTTGGTTCCGTGAAGGCGAAAAGTCTGGATACGATGACCATGTTTTCTGAACTGCTTCATTCCACCTTAAGTGAGGAAATGGAGCTGCACCGGAACTATGCAGTACGGATCGGAATCAGCCGGGAGGAACTGGAGGAGACGGAACCTTCTGCCACTCTCCTTGCCTACACGAGCTACATGCTGAATAAGGCGAATCAAGGATCAGAAATTGAAGTGGCCGCCTGTGTCCTTGCCTGCACTTGGAGCTACAACGTGATCGGCCTTCACCTTGCTGAACAGACTCAAGGGGAAAAGCACGAATTTTACGGCGACTGGATTGAGATGTATGCGTCTGATGAATTCTCGGAACTCGCTTCCTCCTTGAAGACATTAATCAATGAGCTGGCCGGCGGACTTCCGGAACGGGAAAAAGCTCACCTCGAAGAGATCTTCATTCATACGAGTAAGCTGGAGTATATGTTCTGGGAGATGGCGTGGAAACAAAAGATGTGGGTCGAGGAAGACAGCTTTTTGAATACCTGA	MFTDRLYESARPIWEAYLDHPFVKGIGDGTLDLEKFQFFMRQDYLYLIDYCRVFALGSVKAKSLDTMTMFSELLHSTLSEEMELHRNYAVRIGISREELEETEPSATLLAYTSYMLNKANQGSEIEVAACVLACTWSYNVIGLHLAEQTQGEKHEFYGDWIEMYASDEFSELASSLKTLINELAGGLPEREKAHLEEIFIHTSKLEYMFWEMAWKQKMWVEEDSFLNT	PGPT0009055_556	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
AK012_02220	492			hypothetical protein	ATGGTTGCCTTTCATACATCCATTTTAAAAAATGTGGATCATCTTTTCCGAAGAACCTCCTTTCCTAAATGGAGAGGGTGTCAGGCTGTAGAAAAAGTTCGTCCTATCCAGTTAGAGTTGTCCGTATGTCGTGTTGAGAGGGCACGATCCGCTTATCGGTGGATGCTTGCCGCGGGCACGGTCTCAGCTAACTTGGACAGGAAGACCACCTGTCCAAGTGGATCTTCGGCTCGTGCTGTTCCCGCAGGCGTCACCACTGAACGCTCCTCGTTCCGGTGCCTGTGGAAAACAGCTTTACGCTATGAAATAGAGAAAGGTGAGCATAGCCCCTTCGCCGTTTCTAAAGAACCGTGCAGGCGGCGTTCCTCCCGCTTGCGTGGGACAGATCCTACCCATGACCAAGTATGGATGCCCGCTCCTTTGGACTCACTAGAAAAAGGGTTTCTCTCCAAGCTGACCCCCTCTCCGATCTGGAGAGGGGGTTGTCGTTAA	MVAFHTSILKNVDHLFRRTSFPKWRGCQAVEKVRPIQLELSVCRVERARSAYRWMLAAGTVSANLDRKTTCPSGSSARAVPAGVTTERSSFRCLWKTALRYEIEKGEHSPFAVSKEPCRRRSSRLRGTDPTHDQVWMPAPLDSLEKGFLSKLTPSPIWRGGCR				NA	NA	NA	NA	NA
AK012_02221	1944	manR_2	COG1762	Transcriptional regulator ManR	ATGAAGGAAATCCAACAGCAGATCCTCCAGTATTTCACCGGAATTCCAAACACGTTCATTCCGACAGGGAAGATCGCGGAGTCCCTCGGATATTCTGATAAAGCTATTCGAAACCATCTCCCTGCGGTCCAGGATTATTTAAACGATCAGGGGCAGCTAGGTATGATTGAAAAGAAAGCCGGACGCGGGGTGCGTCTTGCTATTACAGAAGCCGACAACACTCGGCTCATGGACCGTCTCCATCATTCCTTTCCTCACAGTGAGGGTCGGGATCGTTCCCTCCGGACGACAATGGCCTTTGATTTGTTATCGGCATCCAAACCGATCACCATCCAGAAACTCCGGAAAGACTATTACTTATCCCACTCAGCGGTCAGAGGCCTTCTGGATGAAGTGGAAGCATGGCTGGAGCCTTTCGGACTGGATATGATCCGTAAGCAGAAAATCGGCGTCTATATTTCCGGAGAGGAAAAACAGATTCGACAGGCTGTAACAGGACTTTCCTCGCTGAACGAAGGTTCGTCCAGTGTGACAGAATCCCTTTTTGATTCGTTCTTCATCCGGACGATCCGGCACGAATTAGCGGCTTTACAGGAAAAACACAATGTCGATTTTACAGATGCTTCCCTTGAGTCCCTGCTTTTACATACCGCTTTCATGATCAAGCGGGTTCAGCTCGGACAGGTTATTTCGCTGCCGGAAGAAGATGTCCAGTCTCTCCAGACACATGCAGAATTGCCGTGGGCAGAGGAAATGTGTGAGCGGCTGGAACGAGTGTTTGCGATGACGTTTCCGAAAGAGGAAATCCTCTATTTAACCATCCACCTGAGAAGTGCCAAAACCCACCACGCTTCCCAGAGCACCCTGACAGCTGAGCTTCCCGGAGAAATATCGGAAATGATCGACTGGTTGATTAAGGAAGCAGCACGGCAGACCGGGTACCGTTTTGCAGAAGATGCAGTCCTGCGGGATCATTTATATGTGCATTTGAAAACGACTCTGGCCCGCCTTTCCTATGGGTTGTCCATTTCCAATCCACTGCTCAGGACCATTAAGAAAAAGTATCCCTATCTTTTTGACACGCTCGTCTGGATTATAGACCAGCACAAGGAAGAACTTCTCTATCCGATTCCGGAAGAAGAGGTCGGCTATTTGGTGCTGCATTTTCAGGCAGCGCTTGAAAGGCAGGCGACGGTGAAAAAGGAAAAGGTGGAAGTAGTGATCGTCTGTCATATGGGCATGGGACTTTCCCAGCTGCTGGCTGCCCGTATGGAAAAATTGTTTCCGGACATCCATATTCACGGCAGTATCGCGGCCCACCGCCTGCGCTCATTTACAAAGGAGCATCCTGTGGACGGGATTATTTCTACAGTACCGGTCCAAGAACAGGGGATTCCGACAGCTGTCGTTTCCCCATTGTTTGAAGCGGAGGATCAATCTCTTGTGAAACGTCTGATCAAGCGGCTGCAGCAGGGGAAAGACCAGGGGGGAATGAAGGAGAAAGAATCGCTCCTGCTGCAGCATATGTCCCCTTTTCTTTTTCAGACAGGGGTGTCCGGATCATCCAAATACGAAGTCATTGAAGAGCTTTCCAGCATGCTCGTGAAAAAAGGGTATGTCAAAGAAGGATACCCAGCATCCTGCCTGCACCGGGAATACTTGTCTTCTACAGCCATTGGCGGCGGGGTCGCCATTCCTCATGGACAGGCAGGGGAAGTGAAGAGCTCCGCCATAGCTGCTGCCGTTTTTTCTGAGCCTCTGGAATGGAGCGGTGAGCCTGTGCATGTTGTTCTGCTTCTTGCGATGAAATATGAAAATACTCAGGAAGCCCGGCAGTTGTTCAGGGAAATCCATACGTTGACCACCGATCCCGCTTTTGTGAAACAGCTGGCTGGGCAGAAGGATGGGGTCTCATTTATGAATGCGCTTAACAATAATCCATAA	MKEIQQQILQYFTGIPNTFIPTGKIAESLGYSDKAIRNHLPAVQDYLNDQGQLGMIEKKAGRGVRLAITEADNTRLMDRLHHSFPHSEGRDRSLRTTMAFDLLSASKPITIQKLRKDYYLSHSAVRGLLDEVEAWLEPFGLDMIRKQKIGVYISGEEKQIRQAVTGLSSLNEGSSSVTESLFDSFFIRTIRHELAALQEKHNVDFTDASLESLLLHTAFMIKRVQLGQVISLPEEDVQSLQTHAELPWAEEMCERLERVFAMTFPKEEILYLTIHLRSAKTHHASQSTLTAELPGEISEMIDWLIKEAARQTGYRFAEDAVLRDHLYVHLKTTLARLSYGLSISNPLLRTIKKKYPYLFDTLVWIIDQHKEELLYPIPEEEVGYLVLHFQAALERQATVKKEKVEVVIVCHMGMGLSQLLAARMEKLFPDIHIHGSIAAHRLRSFTKEHPVDGIISTVPVQEQGIPTAVVSPLFEAEDQSLVKRLIKRLQQGKDQGGMKEKESLLLQHMSPFLFQTGVSGSSKYEVIEELSSMLVKKGYVKEGYPASCLHREYLSSTAIGGGVAIPHGQAGEVKSSAIAAAVFSEPLEWSGEPVHVVLLLAMKYENTQEARQLFREIHTLTTDPAFVKQLAGQKDGVSFMNALNNNP				NA	NA	NA	NA	NA
AK012_02222	1953	manP	COG1299	PTS system mannose-specific EIIBCA component	ATGAAAATCTTAGCGATTACATCGTGTCCCAACGGCATCGCCCATACGTACATGGCTGCAGAAAACCTGCAGAAAGCGGCCGATGCAATGGGCATCGATATAAAGATTGAAACCCAGGGGTCCATCGGGGTGGAAAATGAATTCACTCAGGCAGATATTGATTCAGCAGACGGCATTATCATTGCGGCTGATAAAACCGTCAACAAAGAACGGTTTGTCGGAAAGCCGCTGACCGCTGTCGGGGTCCAGCAGGGGATCAATGCACCTGAACAATTGATTCAGCGGATTGTAGACGGACAGGCGTCCGTTCATGAAGAAAGCGGACAGCATGCCGGCGAAGATGCTGGCAGCGGATCCGGAGGAAAAGGGCAGAATGCTTTCTACCGCCATTTGATGAACGGGGTTTCCTATATGATTCCGTTTATCGTTATCGGTGGACTGTTGATTGCGATCTCGCTCACGCTTGGCGGAACGTCTACACCGGAAGGGATTCAAATTCCAGAGGATTCATTCTGGAAGACGATAGAAAACATCGGGGCGGCCTCGTTCAGCTTTATGGTTCCGATCCTGGCCGGTTTTATTGCGATGAGTATTGCGGATCGTCCAGGGCTCGCTCCGGGTATGGTCGGCGGGTATATTGCCATGAATGGAAGCTTTTACGGCAGTGAAGCCGGAGCCGGCTTCCTTGGTGGGATTATCGCCGGTTTTATTGCGGGTTACATCGCGCTTTGGATTAAGAAAATTAAAGTGCCGAGTGTCGTTCAGCCGATTATGCCGATCATCGTCATCCCGGTGCTTGCCTCTCTTGCTGTCGGATTGATTTTTGTAACAGTTGTAGGGGCACCGGTCGCTCAGATATTTGAATCATTGACCAACTGGCTGCAGAACATGCAGGGGACCAGCTCGATTCTTCTCGCCTTAATCTTAGGCGGCATGATCGCCTTTGATATGGGCGGGCCGGTCAACAAGGTGGCTTTCCTGTTCGGGTCTGCCATGATAGCCGAAGGAAACTACGAAATTATGGGGCCGATTGCTGTTGCTATCGCCGTACCACCGATTGGTATGGGAATTGCTACCTTCTTAAACCGCCGGAAGTTTGCAGCAACGGAAGTGGAAACAGGCAAAGCATCCTTTACGATGGGACTTTTCGGAATTACCGAAGGGGCGATCCCGTTTGCTGCGCAGGATCCTTTCCGTGTCATCCCGAGTAACATGCTCGGTGCTATGGTCGGAGCCGTCATCGCCATGATGAGCGGAGTCGGTGACCGTGTCGCTCATGGCGGACCGATTGTCGGTGTGCTTGGTGCTGTGGATAATGTGCTGATGTTCTTCGTGGCTATTATTGCCGGCAGCTTTGTAACAGCGATTACGGTGAACCTTTTGAAGAAAGAAGTAGGCGCGGAACCGGCGTTGGCAGGAGTGCCTGGGAAAGCAGCGGATGAGAGAAAAGAGGAGAAGCCTGGTGGAAGTCAACAGCTGGAGCCGGAAGCAGAAAACACGGACCTTCATTCGCTCACGAATAAAAACCTGATCCAAGTGAATGTAAAGGCAGAAACAAAAGAACAGACCATTGATGAGTTGATCGATCTTCTGGCAGCGGAAAACGTGTTAACATCCCGGGCCGATGTAAAAGAAGCCATATTAGAGCGGGAAGCGGAAGGCTCCACTGGAATTGGAATGAACATCGCCATTCCACATGCCAAATCGACCGCTGTGAAAGAACCACGAGTCGTCTTCGGGGTGAAACAGGAAGGCGTCGACTGGAGCAGCCTTGATGGAACAGAAGCGAAGCTGATTTTCATGATTGTTGTACCGAAGGAAAGTGAAGGAACCCAGCACCTGAAAATTCTCCAGATGCTGTCCAGAAAATTAATGGATGATCAATACAGGGAACAGCTTTTACAGGTCACATCGACCGATGAAGCGTATCAACTGTTAAAAGAAGTGAAATAA	MKILAITSCPNGIAHTYMAAENLQKAADAMGIDIKIETQGSIGVENEFTQADIDSADGIIIAADKTVNKERFVGKPLTAVGVQQGINAPEQLIQRIVDGQASVHEESGQHAGEDAGSGSGGKGQNAFYRHLMNGVSYMIPFIVIGGLLIAISLTLGGTSTPEGIQIPEDSFWKTIENIGAASFSFMVPILAGFIAMSIADRPGLAPGMVGGYIAMNGSFYGSEAGAGFLGGIIAGFIAGYIALWIKKIKVPSVVQPIMPIIVIPVLASLAVGLIFVTVVGAPVAQIFESLTNWLQNMQGTSSILLALILGGMIAFDMGGPVNKVAFLFGSAMIAEGNYEIMGPIAVAIAVPPIGMGIATFLNRRKFAATEVETGKASFTMGLFGITEGAIPFAAQDPFRVIPSNMLGAMVGAVIAMMSGVGDRVAHGGPIVGVLGAVDNVLMFFVAIIAGSFVTAITVNLLKKEVGAEPALAGVPGKAADERKEEKPGGSQQLEPEAENTDLHSLTNKNLIQVNVKAETKEQTIDELIDLLAAENVLTSRADVKEAILEREAEGSTGIGMNIAIPHAKSTAVKEPRVVFGVKQEGVDWSSLDGTEAKLIFMIVVPKESEGTQHLKILQMLSRKLMDDQYREQLLQVTSTDEAYQLLKEVK	PGPT0017120_887	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
AK012_02223	960	yvyI	COG1482	Putative mannose-6-phosphate isomerase YvyI	ATGTATACAGATCTAATACGACTATCCCCGATCTTCAAGGAAAAAGTGTGGGGCGGCAGTTCTCTACATACGAATTTTGATTACGACATTCCAAGTGACCACACAGGCGAATGCTGGGGGATTGCTTCCCACCCGAGCGGCTCCTCCACCATTGGGAACGGACCGCTGGAAGGCTGGACGCTTATGGATGCCTGGAAGGAACATAAAAAAGCGTTGTTTAATGAAGACAATGACGAGAAGGCCTTCCCTCTTTTGATTAAGCTTCTGGATGCCAATGATGATCTATCTGTCCAAGTTCATCCTGATGATGCCCAGGCCCATGAACTTGAAGATAATGAAGCGTATGGAAAAACAGAATGCTGGTACATTGTAGACTGTAAGGAAGACTCTGAAATCGTTCTCGGCCACCATGCCAAAACACGCGGGGAACTTGAGGAATATATTGAACAAGGAAACTGGGACGGACTTCTGCGCCGGGTCCCTGTCCAACCAGGGGATTTCTTCTTCGTCCCCGCCGGGACCATTCACGCGATTGGAGAAGGAATTGTCATCCTTGAAACCCAGCAGAACTCAGATACCACCTACCGCGTCTACGATTATGACCGCCGGGATGACCAGAATCAGACTCGTGAGCTTCATTTAGATAAAGCGGTCCAGGTTACAACGATTCCAGATGAAAAGCAGGAGAATGATTTTTCTTACAGACAGGACCAGGATCTCTCGATAACGACCCTGACGGCAAATGACTTTTTCTCTGTCTTCCATCTGGATCTCAATGGAACATATGAAGGCAGCAAACCGGCCGATTACCTGCTGGCCACTATTCTCGAAGGTGAAGTGACGTTCACAGGGACAGACACCCATCTTCTGAAAAAGGGCGATCATTTTATTCTTCCTTATGGATTGGAAAACTTCACACTGGAAGGAACAGCAAAAGCGATTGTTTCTTATCCAAAATAA	MYTDLIRLSPIFKEKVWGGSSLHTNFDYDIPSDHTGECWGIASHPSGSSTIGNGPLEGWTLMDAWKEHKKALFNEDNDEKAFPLLIKLLDANDDLSVQVHPDDAQAHELEDNEAYGKTECWYIVDCKEDSEIVLGHHAKTRGELEEYIEQGNWDGLLRRVPVQPGDFFFVPAGTIHAIGEGIVILETQQNSDTTYRVYDYDRRDDQNQTRELHLDKAVQVTTIPDEKQENDFSYRQDQDLSITTLTANDFFSVFHLDLNGTYEGSKPADYLLATILEGEVTFTGTDTHLLKKGDHFILPYGLENFTLEGTAKAIVSYPK	PGPT0017860_2329	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
AK012_02224	495			hypothetical protein	ATGGAAGTGATGATGGAACCCCCATTACAGCGGTTATCCAAGGACAGTATAAAAGTATGGGTATGGAAGGAAGTCATCGAAAATATCGTCGGATCGGCTGTGTTGGTCCTTTTATTCATTCTGGACCGTCTGTTTTCCTGGCCGGTCTGGGCTGGATGGATTTTGTACGGTCTTGTCGGTTTAACGGCTGCGGGAATGATCTGGGCTGTTTTTAGAATAAATTTATTACATAAGCACTGGCGGTACGGAATGAATGCAGACTTTCTTTATATAAAATCAGGGGCTTTAAAAGAAGAATACAAGGTCATTCCAATGACGAAGGTCCAGTCTGTTTCCACGAGTGAAGGGCCCCTGCTGAAAAAATATGACCTCTCTTCTGTGGAAGTCAGTACGATCGGACGCATGCACGTCATTCCTGCTCTACCGAAAGCTGATGCACAGAAGCTGCGTCGGCAGATCGCTCTATACTCCAATGTCGAGGTGGAAGACGAATGA	MEVMMEPPLQRLSKDSIKVWVWKEVIENIVGSAVLVLLFILDRLFSWPVWAGWILYGLVGLTAAGMIWAVFRINLLHKHWRYGMNADFLYIKSGALKEEYKVIPMTKVQSVSTSEGPLLKKYDLSSVEVSTIGRMHVIPALPKADAQKLRRQIALYSNVEVEDE				NA	NA	NA	NA	NA
AK012_02225	1560			hypothetical protein	ATGATAAAGAACGAAACAAACAGATATCATCCGATGGCCATGCTTCATGATTACATCCATCTGCTCAAGACGAGTGTTCCATTATTCTTTTTGTTTTTTGTGTTAAAGGCGGATTCAAGCGCATGGTTGTTCACTTATGGCCGGTATGTCCTGCCTGCAGGGGTTATCTTCTCAGCCTTGTATATTCCGGTGAAGTGGTATAGTCAGACATATGAGATTCTGCCCTCGTCCATCATCGTGTCAACCCGCCTTTTCACAACATCCACAAGGACGATTCCCTATTCAAAAATCCAGCAGGTGAAAAGGAAGACGACATGGGTGCACCGGTTGATCGGAATGACGTCGCTTACTTTGGAAACGAGTGCAGAAGGCCGGGAAGGAACCGTCACATTTGATGTTTTAAGGCCATCAGAAGCTTTGTCCATTGAACAGCGCGTCCAGAAGGAAAAGCCGGATCCTGGATTTGAAACGTTCAAGGGAGAGGCCGCAGAAGAAACTTCTCCGGGAGATACAAGCCCGCAGGAAGAAATAGAGCGGATGGAGCCTGAAGAACCCGCTTATCCATTGGAATCAAGGAATACGGGGGAGAAAACGATTCACTTCAAACCTATGAAGGTGGATATCCTCAAAGCCTCCCTCGTATCCCTCAGTTTTCTTGCGGTTTTGCCGCTTGCCGGTTCGTGGCTTTCCAAAGCGGAGGATCTGCATTTTGAAAACCAGGTGAACGGGTTATTCAAACACATCTTATCGTCGGTCTGGACGATTACAGGAACACTTGCCTTCCTGGCCGCTGCAGGTGTTGTAGTCGGAATCGTGCGTACATATAAGAAGTATGGAAGATTTGAACTGGCTTCAACAGCAGAGAGAATCTTACTAACGAAAGGAGCCTGGGAGCAGGACTACCTTTCAGTCGAGAAGGAAAACGTGCAGGCTGTTTTAATCGAGCAGTCCCTCATGAAGCGTTTGCTTGGGTTAGCTTCATTGAAGCTTGTGATTTCCGGAGAAAATGAGGGGGAGGAGGAAGTGACCTCCCTTTACCCCTTTCTCCCAGTGAAACGTGCGTATAGTCTAGTCCGTGATATGCTCCCGGAATATCGTGTGCTTAAGAATATGGACAAGCTGCCCCGGCAGGCGCTTTATTTCCGCCTGTTCCGCCCCAGCTGGCTATGGATGGTCGTGACAACAGGATTGTATATCTTTAAACCATCCCCGTTCCATATCGATCTGCCGTGGTGGGTGTTTTCATCGGTTCTTCTCGTCGTTATTATCCTGTCCCGGATCCAAGGGTATCTTCACACCTGTTTCCAAATGGATGACACGTTCATCCAAACCCAGACGGGCGGGTTCACAAAGACGCTGTATCTTTCTAAGCGAAGTAAAGTGATCGAAGTGGAAGTATCCCGGGACTATTTTCAGCAGAAATCAGGGCTCGCTTCGCTCACTTTGATCAACCGTGCTTCCCCTGTGCGTGAAACGACTGTGGAGGATGTGCCGTCAGCCTTCGCTGAGCGTCTGAAGGTGTGGTATACCTGTAAAGGTCATAAAGAAAGAGCTTCTTAA	MIKNETNRYHPMAMLHDYIHLLKTSVPLFFLFFVLKADSSAWLFTYGRYVLPAGVIFSALYIPVKWYSQTYEILPSSIIVSTRLFTTSTRTIPYSKIQQVKRKTTWVHRLIGMTSLTLETSAEGREGTVTFDVLRPSEALSIEQRVQKEKPDPGFETFKGEAAEETSPGDTSPQEEIERMEPEEPAYPLESRNTGEKTIHFKPMKVDILKASLVSLSFLAVLPLAGSWLSKAEDLHFENQVNGLFKHILSSVWTITGTLAFLAAAGVVVGIVRTYKKYGRFELASTAERILLTKGAWEQDYLSVEKENVQAVLIEQSLMKRLLGLASLKLVISGENEGEEEVTSLYPFLPVKRAYSLVRDMLPEYRVLKNMDKLPRQALYFRLFRPSWLWMVVTTGLYIFKPSPFHIDLPWWVFSSVLLVVIILSRIQGYLHTCFQMDDTFIQTQTGGFTKTLYLSKRSKVIEVEVSRDYFQQKSGLASLTLINRASPVRETTVEDVPSAFAERLKVWYTCKGHKERAS				NA	NA	NA	NA	NA
AK012_02226	762			hypothetical protein	ATGAAATATACGGTTATTACTGGAGCGAGCTCAGGGATTGGTTATGAATCGGCGTTGGTTTTCGCAGCACGCGGGAAAAACCTCGTCATCGCCGCCCGCAGAACAGAGCAGCTGGAACAGTTGAAAAAGGAAGTCCATGATATCAACGCTGATTTGGATGTGATCATCCGTGAAGTGGACTTGTCCATTTCTGAAAATGTCTATGACTTTTATGAGAGCCTGAAAGACCTTGACATTGAGACCTTCATTAACAACGCCGGCTTCGGGAACTTTGCGGCAGTTGGAGAACAGAAGCTTCCTAAAATCGAATCCATGCTTCGTTTGAACAATGAAGCTCTTACAATTCTTTCTTCTTTATATGCACGGGATTATGCGGATGTCGAAGGAACACAGCTGATCAATGTTTCTTCCGGCGGAGGCTACACGATTGTGGCGGACGCTGTCACTTATTGTGCAACGAAATTCTTCGTGAGTGCCTTCACCGAAGGGATGGCCCAGGAGCTTGAGGAAAAAGGAGCGAAAATGAAGGCGAAGGTCCTTGCACCGGCAGCGACAGAAACCGAATTCGCCGACCGCTCCATGGACACCGAAAACTTCGACTATCAAGGGAACATTCCACAGTTCCACACAGCAAAGGAAATGGCCCGTTTCATGCTCGACCTGTATGACAGTGACAAAGTCGTCGGGATCGTTGATGGGGAAACCTATGAATTCCAACTGAAGGATCCCATCTATCCCTACGCGCGCAGAACCCGCAAATAG	MKYTVITGASSGIGYESALVFAARGKNLVIAARRTEQLEQLKKEVHDINADLDVIIREVDLSISENVYDFYESLKDLDIETFINNAGFGNFAAVGEQKLPKIESMLRLNNEALTILSSLYARDYADVEGTQLINVSSGGGYTIVADAVTYCATKFFVSAFTEGMAQELEEKGAKMKAKVLAPAATETEFADRSMDTENFDYQGNIPQFHTAKEMARFMLDLYDSDKVVGIVDGETYEFQLKDPIYPYARRTRK	PGPT0030485_3996	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
AK012_02227	366	adhR	COG0789	HTH-type transcriptional regulator AdhR	ATGTATACCATCAGTGAAACCGCAGCAAAACTCGGAATGAGTGCACATACTCTCCGCTACTATGAAAAAGAAGGGATTATCGCCCCGCAGCGAAATGAAGCGGGAGTCAGGGAATTCGATGAGCAGCACATTCTATGGCTGCAGTTCGTCAAAAAAATGCGGGAAACGCAGATGCCTGTGACACAGATTAAAGAATATACAAAGCTCTTCCAGGAAGGAGAGCACACAGCCGGAGAGAGGCTGAAGCTCCTTGAGGAACATCAGCAGTACATTAAGAGCCAGATCGAAACACTAAAGGCGACTGATGATATGTTGACGAAAAAGGTTGCCGCTTATAAAGAAGCCATGAAAGGTGTCCTGAATTAG	MYTISETAAKLGMSAHTLRYYEKEGIIAPQRNEAGVREFDEQHILWLQFVKKMRETQMPVTQIKEYTKLFQEGEHTAGERLKLLEEHQQYIKSQIETLKATDDMLTKKVAAYKEAMKGVLN				NA	NA	NA	NA	NA
AK012_02228	204			hypothetical protein	GTGGAAAACCGGCTCGCTGAATTGAGAAAAAAGCGTGGGTGGTCGCAGGATAGACTTGCGGAAAAGCTCCACGTGTCCAGACAAACGATCATTTCTATAGAGAAAAACAGGTATTCTCCTTCACTTCCCCTCGCTTTTGAAATCTCGCGTGCGTTTGGTGTTTCGATTGAGGATATTTTTATTTACCGCGAAGGAGGAGAATAA	MENRLAELRKKRGWSQDRLAEKLHVSRQTIISIEKNRYSPSLPLAFEISRAFGVSIEDIFIYREGGE				NA	NA	NA	NA	NA
AK012_02229	378			hypothetical protein	ATGGATTATTACCCAAAGACATTCATCATGTTAGGATCGCTGCTCGGAGCTATGGGCCTTTCTGTACTGATCATTGGCCTTCTGGCGGACGGCACGGTGCAGGGGCATTCATTTTCAATGCTTTCTTTATCGGTTCTTGCCTTCTGTATGAGTTATTTATATCCACAGTTTAAACAGAAGGATGAACGTATGAAGGCCATCAGACAGAAAGCTGTTGCTTATGCCTTTACGGCCGTGATCGGATACTTGCTCGTCTTTTCCTTGTTGGCTGAGCTGAATGTCCTGACGATGGACGTAACCGTCATTCTTTCACTGATCACCGCCCTGAGTATGACGACCTTGTTCCTGCTGCTCGTTTTTCTGGCGCGGAAATATTGA	MDYYPKTFIMLGSLLGAMGLSVLIIGLLADGTVQGHSFSMLSLSVLAFCMSYLYPQFKQKDERMKAIRQKAVAYAFTAVIGYLLVFSLLAELNVLTMDVTVILSLITALSMTTLFLLLVFLARKY				NA	NA	NA	NA	NA
AK012_02230	171			hypothetical protein	ATGAGTTGGTTTTTCCCTGTTATGTTTTTATTCACATTTGGCATCAGCTATATCATTTTGAAAAAGGAAACGACGAACGGTTCCCTATCAAGGAAAGGCTTCTACCAAATCGCAGCTTTTTTGGTTATTATCTTCCTCCTGGCGTTTGTTACAGCTTCCTGGGCGGTGTGA	MSWFFPVMFLFTFGISYIILKKETTNGSLSRKGFYQIAAFLVIIFLLAFVTASWAV				NA	NA	NA	NA	NA
AK012_02231	438			hypothetical protein	ATGGCTAAAATGAATGAAAAAATCACAGCAGTATCTAAAGGGATGAAAACAGAAGGTGTTTCCGGCGAACACAAGGTTGTCATTGATGAACCCGCCAAAATGGGCGGAACCGACGAAGGCGCCAATCCACTTGCCACACTACTTGTATCTCTTGCAGGCTGCGAAAACGCGATTGCAAACTTTGTAGCAAAAGAAATGGAGTTCGACCTGCAAGGCATCGACTTCGAAATCGAAGGAGAACTGGACCCCCGCGGTATGATGGGAGAGGAAGGCGTCCGCCCTTACTTCCAAAAGGTTACCGTAAACGCAACTGTTCACACTAGTGAATCAGAAGAGCGTCTCGCTCAATTCCAAGAAACGATCGATTCCCGCTGCCCTGTTTATACAACATTAAAAGCAGCTGACGTTGAAATGATCCCGAACTGGGTTAAAGCATAA	MAKMNEKITAVSKGMKTEGVSGEHKVVIDEPAKMGGTDEGANPLATLLVSLAGCENAIANFVAKEMEFDLQGIDFEIEGELDPRGMMGEEGVRPYFQKVTVNATVHTSESEERLAQFQETIDSRCPVYTTLKAADVEMIPNWVKA				NA	NA	NA	NA	NA
AK012_02232	231			hypothetical protein	ATGAATGTGCTGTATATTATGAACAGCTGTCCGCTCTGTGCAAAAGCTGTCAAACACCTGCAAGAAAGAAACTATCCGTTTGTTGCAGTCAACATCCTCGAGGACCCGCAGGCCCGCTTGAAGTTGAAGGAAACGGCCGGAGAAGTATATACTCCGGTTCTCTTTCATCATGGGAGGATGACAAAGGGAAAAGATATCCTGAACCTTTCTGGAGAAGAGGAGTCCTCGTAG	MNVLYIMNSCPLCAKAVKHLQERNYPFVAVNILEDPQARLKLKETAGEVYTPVLFHHGRMTKGKDILNLSGEEESS				NA	NA	NA	NA	NA
AK012_02233	177			hypothetical protein	ATGAAATTAACTCTAAGTCTAATAGGCTTATTTTTAATAGTGGTTATATCACTCTATAATGTTTTTAACAGAGAACTTCCCAGTACCCAGATATCTGCTTTTACCGTACTTGCTTTTACAATAGGTGGATTATTTAGTATATATGTAAGTTACATTAGAAAAAACAGTAAAAAATAA	MKLTLSLIGLFLIVVISLYNVFNRELPSTQISAFTVLAFTIGGLFSIYVSYIRKNSKK				NA	NA	NA	NA	NA
AK012_02234	192			hypothetical protein	ATGGAAGTATTAGCTGTCGTTTTAGTTATGATTGGGATAATAGCTGTCCGGGTGATCAGCTTTTTCTATCCAGATTGGAAAGCTTTGAGAGGTGAGTACTTGTCAGAACGTAAACACCTTGGATATAGCGCGTTAGGAATTGGCATATTACTTGTAATGTATATACTAAGTCAATTAATCCTAAGACTATAG	MEVLAVVLVMIGIIAVRVISFFYPDWKALRGEYLSERKHLGYSALGIGILLVMYILSQLILRL				NA	NA	NA	NA	NA
AK012_02235	1365	phoA	COG1785	Alkaline phosphatase 4	ATGTTAAAAAAATTAGGTGTTTTTACAATGAGTGCCGGTTTAATCCTGGGCGCAGGAGCGGGATGTGTTCAGTCTGAAGCCCAGCAAGGGGATGAAAAAGGAAAGCCTGACCAGGCAGGCCCTCCTCAAGAAAAAGTTGAAAACGTAATTTATATGATTCCTGACGGTTTCAATACGGATTACGCTACAAGCTATCGCTGGTATAAGGGGGAAGATGCCATTTGGGACAAACATTTAAAAGGCCTGCACAAAACTTATTCTGATGACTCCAGGGTTACCGACTCCGCCGCTGCCGGAACAGCAATGGCAACGGGTGTTAAAACAAATAACGGGACGGTCGGATTAGATGACGAAGGAAATGAAGTGGAAACCATTTTAGAGGCGTCAGAAGACAAAGGAAAATCTACTGGATTAGTTGCCACCTCTACGATTACTCATGCGACACCTGCTGCTTTTGCCTCCCATGTGGAGTCACGTGACAATCAACCTGAGATTGCCAGACACATGCTGGATAACGACGTCGACGTAATGCTTGGTGGAGGCAGGGATTTCTTCCTCCCACAGTTTGAGGGCGGAGAGCAGCAGGAAGAGAATCTGTTAGAGCAGGCCGAGGAAGCAGGATATAAAGATGTAGAAACGCGTGATGGTCTATTGGAAGCTGGAAACATTGATGTAGAAGAAGGGGACAAGCTGCTCGGCTTATTTGCCGATGGACCATTAAACCCCGAAATGGAGCGGGAAAACACAGAACAGCCAAGTCTCTCAGAAATGACCGAACAAGCTATCAATGTTCTTGATAAGGACCAAGATGGATTCTTCCTGATGGTCGAAGGCAGTCAAATTGACTGGGCAGGCCACGATAATGATCCCACATGGGCATTCAAGGATACAGAAGCTTTTGAGGAGGCAGTGGAACAAGCCATTGCATTCGCTGAAAAAGACGGAAACACCCTTGTAGTTATAGCTGGCGACCACGAAACCGGCGGCATGACCGCTGGCTCTAATGGCGAGTATGATACCAAGCCAGAGCTTGTAAAAGATGTTACAGCAACAGGGGCAGCTATGGCTGAGGAATTAAACGAGAATCGTTCCAATGTTAAAGAAGTCGTAGAGAGTCATACACCATTTGATTTAACCGAAGAAGATGTTGAAAAAATCCAGGAATCTGATGAACCAAAATTTGCAATCAACCAATTTGTCAGTGATAAAGCCCTTATCGGATGGACCAGTACTGGACATACAGGTGTAGACATTCCAGTTTATGCCTACGGACCTCAATCGGAGGCGTTCAGTGGCATTATTGATAACACAGATCTTCCTAAAATTATGTCAAAAGCTATGAAAATAAATTTAGAGAATAAGTAA	MLKKLGVFTMSAGLILGAGAGCVQSEAQQGDEKGKPDQAGPPQEKVENVIYMIPDGFNTDYATSYRWYKGEDAIWDKHLKGLHKTYSDDSRVTDSAAAGTAMATGVKTNNGTVGLDDEGNEVETILEASEDKGKSTGLVATSTITHATPAAFASHVESRDNQPEIARHMLDNDVDVMLGGGRDFFLPQFEGGEQQEENLLEQAEEAGYKDVETRDGLLEAGNIDVEEGDKLLGLFADGPLNPEMERENTEQPSLSEMTEQAINVLDKDQDGFFLMVEGSQIDWAGHDNDPTWAFKDTEAFEEAVEQAIAFAEKDGNTLVVIAGDHETGGMTAGSNGEYDTKPELVKDVTATGAAMAEELNENRSNVKEVVESHTPFDLTEEDVEKIQESDEPKFAINQFVSDKALIGWTSTGHTGVDIPVYAYGPQSEAFSGIIDNTDLPKIMSKAMKINLENK	PGPT0002570_3183	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
AK012_02236	423			hypothetical protein	ATGGGATTTAGTTTAGATAGAGCAGGTTTTGGAATGAGGTTGCTTGCTGGGGTATTAGACACGTTGATTATTGTGATTCCAATTGGAGTTGTCGTTTCTCTTTATACGGGTACACCATCATTAAATTGGACGCAAGGCGTCACCTGGAACAGCTTGTATCTCCTTTATTCCATCATCCTTCCAGTAATCTGGGGAGGCTTCAATATAGGGAAGAGGTTGGTGAACATAAGGATTAAAAAAACGAATGGTAAGGAATTAAACCTGGCAGATATGTTTTTCAGAGAGTTCATCGGTAAGTTTCTTATCGGTTATGTAACTCTTGGTCTATCTACAGTGGTGAGTGTGTTTATGATTGTTTTCCGCAAAGATAAAAGAGCCATTCACGATTTTGCAGCTGGAACTTTTGTTTCAAATGAAGGATGA	MGFSLDRAGFGMRLLAGVLDTLIIVIPIGVVVSLYTGTPSLNWTQGVTWNSLYLLYSIILPVIWGGFNIGKRLVNIRIKKTNGKELNLADMFFREFIGKFLIGYVTLGLSTVVSVFMIVFRKDKRAIHDFAAGTFVSNEG				NA	NA	NA	NA	NA
AK012_02237	540	rimJ	COG1670	[Ribosomal protein S5]-alanine N-acetyltransferase	ATGATCAAAGGGGAACATGTATATATCAGAAGTTTCAATCCTGCAGACGCTGAACAATTGACAGCATTACTAAATAAAAACCGTTCATTCCTCCAGGAAACCTCAATCGGACCATCGAATGATGAAGAGTCGATCAAAACCCAGCGTAAAGCCATTGAAAAATGGATAAAGAATGTCGAATCAGATCTTGAGTATAATTTCGGCATTTTCAAAAGAAAAGGGAACGAGCTGATTGGAAAAATTGGACTCTTTCATGTTATTCGAGGCCCTCTTCAAAAGGCGACCCTGGGATACTTTTTAGACGAGGATCATAATGGAAAAGGCTACACTACTGAAGCCGGTCAATTAATGGTTGATTACGGCTTCAAAACCCTTCATCTGCACCGTATTGAAGCCGGCGTCATGCCCGGGAATATAGGTTCATTAAGGGTTTTGGAAAAATCTGGTTTTCACAAAGAAGGAATCGCCAAAAAAAGCGTAAAAATCAATGGGCAGTGGGAAGATCATCAAATGTTGGCAGTCATCAATCCCTACGACTAA	MIKGEHVYIRSFNPADAEQLTALLNKNRSFLQETSIGPSNDEESIKTQRKAIEKWIKNVESDLEYNFGIFKRKGNELIGKIGLFHVIRGPLQKATLGYFLDEDHNGKGYTTEAGQLMVDYGFKTLHLHRIEAGVMPGNIGSLRVLEKSGFHKEGIAKKSVKINGQWEDHQMLAVINPYD				NA	NA	NA	NA	NA
AK012_02238	186			hypothetical protein	ATGAAACAATTATTGGCAGTGTGTATCTTAGGCCTGGCCTTTAGCGGCGCCGCTCTCATTCTCGCAGTCCCTTTATTGTTCCATTCCCCGACAGGAGCCTTTGAATGGATGTTTGCTGCCGGGGCAGCAGGAGCTGTCGGAGTTTTCGATGTTTCAATCTCGGTGCTGCGGAAGCGATCATTCTAA	MKQLLAVCILGLAFSGAALILAVPLLFHSPTGAFEWMFAAGAAGAVGVFDVSISVLRKRSF				NA	NA	NA	NA	NA
AK012_02239	333			hypothetical protein	ATGACAATTATTCATGCCATTTTTCTGTTTATACTTGCCGGGATAGCCGAAATAGGCGGGGGTTATTTGATTTGGTTATGGCTGAGAGAGGGAAAACCTCTGTACTGGGGCCTGGGTGGAGGAGCAGCTTTAGCTCTCTATGGTGTGATTGCTGCCTTTCAATCCTTCCCCTCCTTCGGGAGAGTTTATGCAGCGTATGGGGGAGTGTTTATCGTTCTATCTATTTTATGGGGATGGGGGATCGATAAGAAAACGCCGGATTTATATGATTGGCTTGGTGCAGGTATATGCTTGATTGGAGTATCTGTTATGCTGCTTGCCCCACGCTCATAA	MTIIHAIFLFILAGIAEIGGGYLIWLWLREGKPLYWGLGGGAALALYGVIAAFQSFPSFGRVYAAYGGVFIVLSILWGWGIDKKTPDLYDWLGAGICLIGVSVMLLAPRS	PGPT0029120_1074	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
AK012_02240	684	ntcA		Global nitrogen regulator	ATGGACAAGCTATCGCTGCTTTCCCAAATCAGTTTGTTTGAAGAACTGTCCCAAGATGAATTAATGAGTATTGATCAAATGAGTGAAATGAGTCCTGTCAAAAAAGGAACTGTGATTGTGTCCCCCGACAACCCCATGGATGCGCTTTTCCTGTTGAAGAAGGGGCAGGTGCGCTTATACCGCATGAATGAAGACGGCCGTCAGTTTACGGTGGATATATTAGTCGACGGCAATATTTTCGGTGAAACATCCACCATCAGCCTGACTGATGACCAGACCTATGCTGAGGCTATGACCGATACGTATATCTGCACGCTCAGCCATGACGACTATGAAAGCTTTATGAAAGAAAATCCCCACGTGGCTTTGAAATTAATTGATATCCTTTCCTCACGTCTGAAGGATTTTTACAGCCTGAGTGAAAAAATCGCCCTCAGTGATGTAAAGCAGCGTCTTTTATACCTGCTGCTCATGCTCAGTCAGAAAACCGGGCGCCGGAAGAAAAACTGGCAGACCATCGAAATGAAGCTGACCCACCAGGATCTCGCCAACATGATCGGAGCCACCAGAGAAACGACAAGTGCGATTATGAGTCAGTTAAAAAAAGACGGCTATGTAAAAAAAGTCCGCTACCTCTCGATTGATGCGGATAAAACAGAGGAGCTGCTGAATGGAAGATCCTGA	MDKLSLLSQISLFEELSQDELMSIDQMSEMSPVKKGTVIVSPDNPMDALFLLKKGQVRLYRMNEDGRQFTVDILVDGNIFGETSTISLTDDQTYAEAMTDTYICTLSHDDYESFMKENPHVALKLIDILSSRLKDFYSLSEKIALSDVKQRLLYLLLMLSQKTGRRKKNWQTIEMKLTHQDLANMIGATRETTSAIMSQLKKDGYVKKVRYLSIDADKTEELLNGRS				NA	NA	NA	NA	NA
AK012_02241	567	yxaF		putative HTH-type transcriptional regulator YxaF	ATGCAGATGAGTAATAAAAAGCAGCAGATCATCCTGGCTGCCGCAGCATTGATTCACGGGAAGGGCTACGAAGCGACCAAGCTTAGTGACATCATGGGAGCGGCCGGTATTGGGAAAGGTCAGTTCTATCATTATTTTTTTTCGAAAAGAGAGCTGGGTCTTTCCATTGTCGATTATTATGCACAAATGTGGCAGGCCGAATTGATTGAAGGAATATTAAAGTCCCGCCGGTCTCCAGAAGAGAAAATGGAAGCGATGCTTCAATGGGCGGTTCAGTTTCATGAAACGCCGGCCAAGCTTCACGGCTGTCCGTTTGGGAATCTTGCCCTTGAAATGAGCGAGCATGATGAAGAGTTCCGCTTGAAAATCAACCGTATTTTCTCCGATTGGATTAAAGAGCTGACGCATGTCATTGAAAGCCTGAAAGGAAAAAAGCACGCGAAACGGAAAGCCCGAATGGTCGTGGCACAGATTGAGGGAGCGATCCTCCTCATGAAAAACCATCAGGATTCTGAAGTTCTTCTTGATATTATTGAAGGCATACGAATGGAATATCTCAGCAGCTGA	MQMSNKKQQIILAAAALIHGKGYEATKLSDIMGAAGIGKGQFYHYFFSKRELGLSIVDYYAQMWQAELIEGILKSRRSPEEKMEAMLQWAVQFHETPAKLHGCPFGNLALEMSEHDEEFRLKINRIFSDWIKELTHVIESLKGKKHAKRKARMVVAQIEGAILLMKNHQDSEVLLDIIEGIRMEYLSS				NA	NA	NA	NA	NA
AK012_02242	831	yusV_2	COG1120	putative siderophore transport system ATP-binding protein YusV	ATGGATACCTTATTGGCAAACAATCTCACACTTGGATATGGAGACTCGGTCATTATTGACTCTCTTGATGTGAAAATACCGAAAGGGAAAGTAACGGTCCTGATCGGCGGGAACGGATGCGGGAAATCAACCCTTCTCCGCTCCATGGCACGTCTTTTAAAGCCGAAGTCCGGTCAGGTGGTTCTTGATCAGAAGGATATTTCCAAAATGCGGACCAAGGATGTTGCCAAAAAAATGGCGATTCTTCCCCAGAGTCCGACGACTCCCGAAGGATTAACTGTGTACCAGCTCGTGAAGCAGGGGCGTTATCCTTATCAGGGGTTTGCTAAACGCTGGTCTGATGAAGATGAAGAAGCCGTTACACGAGCCTTGAATGAAACGAACCTTATGGAATTGAAGGACCGCTCGGTCGATTCCTTATCCGGAGGGCAGCGGCAGCGGGCGTGGATAGCCATGACCCTTGCCCAGGATACAGATACTTTGCTGCTGGATGAACCGACCACTTACCTGGATATGACCCATCAGATTGAAATCCTTGATCTTCTCTTTGATTTGAATCAGGATAATGGCCGGACGATTGTCATGGTCCTGCACGATATCAACCTGGCGTGCCGGTATGCCGACCATATTATTGCAGTCAAGGATAAGACGGTGTACACGCAGGGGCGTCCGGAGGATGTTGTGACCTGTGACATGATGCATCACGTGTTTGAAATGGTCTGTGACGTAAGAGAAGATCCTCTCTTCGGCACACCGATGTGTATTCCGCATGGAAAAGGGCGCTGTCTCATTAAACAGGCCCAGGCCGATGCTCAGAAACAAACCGTATAG	MDTLLANNLTLGYGDSVIIDSLDVKIPKGKVTVLIGGNGCGKSTLLRSMARLLKPKSGQVVLDQKDISKMRTKDVAKKMAILPQSPTTPEGLTVYQLVKQGRYPYQGFAKRWSDEDEEAVTRALNETNLMELKDRSVDSLSGGQRQRAWIAMTLAQDTDTLLLDEPTTYLDMTHQIEILDLLFDLNQDNGRTIVMVLHDINLACRYADHIIAVKDKTVYTQGRPEDVVTCDMMHHVFEMVCDVREDPLFGTPMCIPHGKGRCLIKQAQADAQKQTV	PGPT0003760_3126	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FeuABC|YusV-TRANSPORT_COMPLEX,PGPT0003760-yusV|ABC_FEV_A|feuD-K02013	NA	NA
AK012_02243	2073			hypothetical protein	GTGAAGCAGATAGAAGATAAGCACGGTACGGATACAGTGGAGGAGGTAAGCAGTCATATTTCCGAAAATGATCTGCTTCCCATGTTGATGAACGGCGTTTCTGATTTTATATTTTTTATGGAGGTGGCTGGCCGGCGCCGGTTTACATACAGGTACATGAACGAGTCAGCCATCAACGATTTATTGGGCAGAGAAGCCGATTGGAAAGGGAAATACATAGAAGATCTACTGGACGACGCTGCCTCGTCCTCCCTTATTGACGCCTATGAACAAGTCGTTGTGACAAAGAGGCCGGTCACGTATGAAGATGAGAGGATGGTTAACGGACAGGTTTATCGGGGGCATTCTGTACTGACGCCGACAATCGATGAAGCAGGCCGTGTTACACATATCCTGGCGGTGACGAGAAACCTGACGGAAGTGTTGGAAAAGGAAAAGGCGCTTGAGAGCATGAATGCGGTGTACAAGTCGTTAATGGGGAATACGACCGATGCGGTAATCATCCTGGGTACAGACGGGAAAGTGTTCGATGTGAACGAGGCGTTTACGGATCTTTACGGCTTTTCTAAGGATGATATGCCCGGATGTACGTATCCTTTTGTTCCCGAAGAATTCACTGATGAGGCCCGTGATCTCGTTCGACGGGCTTTGGAAGGGGCCGGAACTTCGGGGTATGTAACGAAACGAAAGTCACGCGATGGACAGCTCCTGGATGTATCCATCAGTGTTTCCCGTATTCAGAATGAGGAAGGCGAAACCATCGGAGTCAGTTCAATCATCCGGAATGTGACCGAACAGAAGAGGGAGGAACGGAAGCGGGAAAGCAGCCGCTCACGCTACCGCTCCTTGTTTAAGCACAACCCACAGGCCATTTTAACACTGACATTCCGCGGCACCATTACCAATGCGAATCCAGCCAGCCTGGAAATGCTTGATAAAGAAGGGAATGAACTGCTGCACACGTCGATCATGCAGTTGGTTTCCAAAGAGCAGGAACGTGCTGTGCGAAAGGAGATTGCCGGCTCCTTTTTTAACCACGGAGGCCGGTTTCGGACAATGGTGGATGTCGGAGGCAACGAGAAAATTCTCCACGTCTCATTAGTGCCGATTATTATTCAGGGGAAGAAAGAGGGGATCTATGCCATATTGGATGACATTACAGAAAAAGAACGAGCTTATGAGGGGATGCGGCAGAGTCAGGAAAGCTTCCGCTTGATTGCCAATTACTCCAATGATCTGATTTCTGTATTTACTCCAAATGGAAACCTGATTTATGCCTCTCCCTCCCAGCGGGAATTTTTCGGTGAGGACCCTTTGAACTGGTCCATGGAAAAGTTGATGGAGAAAGTTGAGCCCGGGGATCTGCGGAGACTGCAGGACCGATTTATGAAAAGCCATCAAAGCAGGGAAGGCTTCACCATAACAATCAAGCTGACAAGCTTTAACGGGGAGCCGGTGTGGTTTGAATGCCGTGCCACACCTGTGATCGATGATGATCATGCAGTCAGTCATATGGTCATGGTGGCCCGGGATATTTCTGAACAGAAGAGTTACGAAGAGAAACTGGAAAGGTTCGCCTACTATGATTACTTAACCGGCCTTCCAAACCGTCTGTTATTTGAGGAAAACGTATGGAAAGCTGTCGAAAAAGGACATCGGACAGGCCAGGCGTTTGCGATTTTATATTTGGACGGCGACGGATTCAAAGCCATCAACGATCATTATGGCCACGATATGGGCGATGAATTCTTGAGAGAGGTCGGAAAACGGCTCCGTTCTTGTATTCGTGGAGGCGATTCGGTGGCAAGAATCGGCGGGGACGAATTTTCCATCCTGATTGAAGAATTGAAGGACCGGCGTTTGATCCGAGATGTATCGACAAGAATGCTGAGAGAACTGCGTGAACCGTACTACGTGAAAGGGGTGGAGATTCGAACGTCCTTTTCCATCGGAGTTGCCTGCTTCCCGGAAGACGGGGAAACGCACGACGCCTTGTTCCGAGCTGCTGATACAGCTTTATACGAAGGGAAGAGAAACGGGAAAAATCAGGTTCTGCTCTATGAAGACCAATAG	MKQIEDKHGTDTVEEVSSHISENDLLPMLMNGVSDFIFFMEVAGRRRFTYRYMNESAINDLLGREADWKGKYIEDLLDDAASSSLIDAYEQVVVTKRPVTYEDERMVNGQVYRGHSVLTPTIDEAGRVTHILAVTRNLTEVLEKEKALESMNAVYKSLMGNTTDAVIILGTDGKVFDVNEAFTDLYGFSKDDMPGCTYPFVPEEFTDEARDLVRRALEGAGTSGYVTKRKSRDGQLLDVSISVSRIQNEEGETIGVSSIIRNVTEQKREERKRESSRSRYRSLFKHNPQAILTLTFRGTITNANPASLEMLDKEGNELLHTSIMQLVSKEQERAVRKEIAGSFFNHGGRFRTMVDVGGNEKILHVSLVPIIIQGKKEGIYAILDDITEKERAYEGMRQSQESFRLIANYSNDLISVFTPNGNLIYASPSQREFFGEDPLNWSMEKLMEKVEPGDLRRLQDRFMKSHQSREGFTITIKLTSFNGEPVWFECRATPVIDDDHAVSHMVMVARDISEQKSYEEKLERFAYYDYLTGLPNRLLFEENVWKAVEKGHRTGQAFAILYLDGDGFKAINDHYGHDMGDEFLREVGKRLRSCIRGGDSVARIGGDEFSILIEELKDRRLIRDVSTRMLRELREPYYVKGVEIRTSFSIGVACFPEDGETHDALFRAADTALYEGKRNGKNQVLLYEDQ				NA	NA	NA	NA	NA
AK012_02244	648	dhlB		(S)-2-haloacid dehalogenase	ATGTATAAAGCTTACGTTTTTGACGCGTACGGCACCGTCTTCGATGTGCACAGCGTCATGGAAAAAATTCATCAATTCTATCCTGAAAAAGGGGAAGCCATCAGTCAGAAATGGCGCAGTAACCAGATTCATTATTTCCTTGTCCGTCAGCTGATTCAAGATTACCGTCCTTTTACGGATATTACAAGATGGGCGCTTCTTGATGCCCTGTCCACAAGTGGTGTGGAAGTGAAAGAAGAGGTCGTCAGTGAGCTGATGGAGGAATACCAGCACCTTTCCCCTTATGAAGAAGTTGCTTCTATGAGCGAAAAGCATCCGGACAAGACGTTCACCATCTTTTCAAACGGAACGACATCCATGCTTGAACCGCTCCTTGAAAATAACCAGTTGTCCGATACCTTCCAGCTGCTGAGTGCCGATGATGTTCTGGTGTACAAACCACATCCGGAAGCTTATGCCTATGCTCAGGAAAAACTCGGATTGAATAAAGAAGACATTCTATTCTTCTCCAGTAATCCTTGGGACATCACTGGAGCAGCATCGTACGGATTCCATACGGCCTGGGTGAACCGCAAGGAACAAAAGTGGCCGGAACTCGGCATTGAACCCACATATATCATTGATAACCTGACAAATATTCCACAATAA	MYKAYVFDAYGTVFDVHSVMEKIHQFYPEKGEAISQKWRSNQIHYFLVRQLIQDYRPFTDITRWALLDALSTSGVEVKEEVVSELMEEYQHLSPYEEVASMSEKHPDKTFTIFSNGTTSMLEPLLENNQLSDTFQLLSADDVLVYKPHPEAYAYAQEKLGLNKEDILFFSSNPWDITGAASYGFHTAWVNRKEQKWPELGIEPTYIIDNLTNIPQ	PGPT0006885_189	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
AK012_02245	555			hypothetical protein	ATGAACACGTTACACCATGGATACTGGACATTTTTTGCCACCCGGAAAAAGAAATACACCGGCTGGTTCGTGTTCGGCAGCATCCTTCCAGACATCGTCTATTATGTCATGTTTCTATATTTGAGCGTAAGCAGAAGGGCTTGGGAGGTCGCGGATGATGAGAACCCGATGCAGTCGCTGTTTCGTCTCGTCCACGATCTATTTGAACATCCGGTCGTCTTCGTTCTGCGCCAAGCCGGCCATTCCGTTTTTGTATGGGCGGTGGTATTTGCTGTGCTGCTCGTTTGGAAGGGGAGGAAATTGAATGCATGGACGGCCCTGGCCTACGGCTGGCTCGGACATATCGTTCTGGATCTTCTCACCCATGTGGAGGATGCGGTTCCGATGTTTTACCCAGTCAGCAGCTACACGTTCCGCGGACCTGTTTCCTACTGGGATGATGATTATCATGCTGCCGCCTTTTCCCTTGTCAATACGACACTGATCGTCCTCTCACTGCTCTATATGTTTGTAAAAAAAGTGAGGGATAAACGTTCGTTCACAAAAAGTTCATGA	MNTLHHGYWTFFATRKKKYTGWFVFGSILPDIVYYVMFLYLSVSRRAWEVADDENPMQSLFRLVHDLFEHPVVFVLRQAGHSVFVWAVVFAVLLVWKGRKLNAWTALAYGWLGHIVLDLLTHVEDAVPMFYPVSSYTFRGPVSYWDDDYHAAAFSLVNTTLIVLSLLYMFVKKVRDKRSFTKSS				NA	NA	NA	NA	NA
AK012_02246	891	ctaA	COG1612	Heme A synthase	ATGAAGAAATTTTCTATTCTTACAACGTTTGTCACGTTCCTCGCCCTTATACTCGGAAATCTCGTCGTTGCGACAGATTCCGGCGATGCTTGTGGAACGTCATGGCCGTTTTGTAATGACCGGATTATCCCCGATTTCACGGATTATCACGTCATTATCGAATATTCCCACCGGTTGATGGTGCCGCTGCTTATTGTACTGACGGGCCTCAATGCGATAGGAGCCATTTATAAGTACCGAAAACATAAATCTGTACTTGTTCTCGCTATTCTAAGCCTGGTCCTGCTTGTTCTTCAGTCCATTATTGGTGGATTGAATGTGCTGCTTGGAACCCCGCCTGGATTTACGACCTTTGATGTTACGTTCAGTCAACTCCTTTTAGTTGTCCTCGTGCTGTTGAGCTACAGTCTGCATGAGACGAAAATCGAGCTCGACAGGAGCCGCTGGTCTTCCATTGCGATGAGTTACCGGACGTTCCTGATCGGTTACGGGCTGTATGTGCTGCAGGTGATTTTAGGCGCCTTCTTCAAGCACAGTCGTGCCAGTAATGTGATGATGGACATTCCGGCCGTGGAGTATTTGATTACGAGTGAATCGGTGGCTAATGCTGTCTATTCGCTTCACTGGGTGGCGACGATCGTCATTATCGTAGCCGCTGTTTATTTTGTCATTTACGCCTCAAGGTTCAAGTATCATATCTCGTTGTCCTGGCTGTATTTGATTTCCATTCTGATGAATGCGGCGGTCGGCTTTATCATTGTTGTAACAGGAAATGTCGTGCTGGCATCCTCGATCCACATGATCATTTCAACCGTGACGATGACGATTGGCGCCTGTATCCTTGGCGGGTACTGGTTTAAACTGCAGAAAAAATCCTTAACGGTAGAATAA	MKKFSILTTFVTFLALILGNLVVATDSGDACGTSWPFCNDRIIPDFTDYHVIIEYSHRLMVPLLIVLTGLNAIGAIYKYRKHKSVLVLAILSLVLLVLQSIIGGLNVLLGTPPGFTTFDVTFSQLLLVVLVLLSYSLHETKIELDRSRWSSIAMSYRTFLIGYGLYVLQVILGAFFKHSRASNVMMDIPAVEYLITSESVANAVYSLHWVATIVIIVAAVYFVIYASRFKYHISLSWLYLISILMNAAVGFIIVVTGNVVLASSIHMIISTVTMTIGACILGGYWFKLQKKSLTVE	PGPT0008525_3424	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008525-ctaA-K02259	NA	NA
AK012_02247	3204	rapA_2		RNA polymerase-associated protein RapA	ATGCAGAGCTACTTATTACAACCGAAAGATATAAAGAAAATTACCGGCGAAGCCTTCTATGCACGAGGGAAGCAGTATTATGAATCCGGCAAAGTCTACGGGCTCTCCCATAACAGTGCCATCCATTCGTGGCGCGCTGTTGTTGCGGGTACGCATGATTATGAAGTACGCGTCTTCTTTTTTGAGGATGATGATGTGGAAGCAACATGTGAATGTGCCGCCTACTCCACCTATTATACGTGTAAGCACATCGCAGCGGTACTGATTGCAATCCGCGAAAAAGCACTGGAGGAACTCGCTCCGAAACTGGCAGAAAAAGGCCGGAACCGGTCGCCCCGGACGACTAACCAGGACCGGATGTTCGCGGTCAGTTTATTCGAAGCTTTCCGTCAGCGTCAGGAAAGCCGGACGGGGATGGATCTGAAAAAACCTCTGCGCGTTCACTATTCCCTCCACATTCAATCCATTCTTGGAGCGCGGAGCCTCGGAATCGAATTAAAGCTCGGGGAGAAGTACCCGTATGTCATTAAAAATATCCGGGAGCTCCTGGAGTATATCCGAAAGCAGCAGCCCTACCGCCTGACTAAGTCGTTCACATACGATCCTGCTGAACATACGTTTTCGGAGGAGGACCAGGCTGTATTCCAGCTGCTTCAAAGGGCTTATGAGCAGGAACAGTTTTTTGAGCAGCAGTGGAACACCGCCGAACAGAAAATCCTGAAAATCTCCCCCGCCCTCGTCCACCAGCTCCTGCCGCTGCTGGAAAAGCAGGAGGCCGAGGTTATTGAGCGGGGAACCCAGGCCGGCCCGCTTCGATATGAAGAGTCTTTTCCTGAACTAACGTTTTATGTATCGGAAGAGCGCGGGCATTTTCACATGCATATGAATCATTTGAAGGATTATGATTACTTATCCGATTACCATCTGCTTTATAAAGAAGGAAGCTTCTATCCTGTCGCCCGTGACAAAGAGGAAGTGATCCGGACTTTGTACTCCATCCTTCCCTACAACTCCAACGGCAGCCATACGATCAGCCATAATGATATGGAAGGAATCGTCTCCTATGTCCTGCCGGAACTGGAAACGATCGCCGACGTGAACCTGGATACGTCCGCACAGAAAAAGATCAACCAGGAAGAACTGAAAGCCGAGGTGTATCTTGATTTCCAGCAGTGGACATTAACGATTGATGTGAAATTTCATTACGGGGACCTCGTGATCGATCCTTTCAATGATCAGGAGCGCCCGGGTCAGACCATTGTTCAGCGCGACTTCGAAACCGAGCAGAACATTATGCAGATCATTGAATCCGCTGAATTCAAATTCGACGGGGAGATGGTTTATTTAGAGGACGAAGAAGAACTGGAAACGTTCCTTTATCAGTATCTGCCTTCGTTAAAGAAATACAGCGACGTATTCTTATCCGCGGCTGTCCGCTCGCTGTTCGACGATCAGCAGCATGAACTGCAGGCGTCCATTGACCTCGAATCGAATGGCAGCTGGCTCGACATCAGCTTTGCCATTGAAGGGATCAGTACGGATGACGTTACGGAAGCTTTAAAAGCAGTCATTGAACGGAAAAAGTATTACCGTTTATCAGATGGGGCGCTGATGTCCTTGACTTCTGATTCATTCGAGCGCTTCCAGCGACTGGTGGAGGACTTGAACTTGACCACCGGCGATGTGGAAGACAACCACTTTCAGGTTGCCGCCGCACGAAGTCTGCAGGTGGATGAAACGCTGGACACAAACCTTGCCGACCGCAGCGGCCGCTACGAAGAACTGGTTACACGGCTCCGGTCCCCTCAGTCCTTTGAGATCGATCCACCCGAGAATCTCCAGGCTGACCTTAGAACATATCAGCTGACGGGTTTCCGATGGATGAAAATGCTCAGCCATTACGGACTCGGGGGTGTACTTGCTGATGATATGGGGCTCGGAAAAACGCTTCAGACGATTTCCTACATTCTTGATGAGAAGCAGGAGGGCTCCTTAACCGCTCCAGCTGTTATCGTCGCTCCGGCCTCCCTTGTGTACAACTGGAAAAAGGAGCTTGAAAAATTCGCCCCTTCCCTGACGGTGCAGGTGATGACCGGTGATCCTTCAGAACGCCTGGACGCTTTTGAAGAGGCTCAAGGAAAGGACATCTGGATCACCTCCTATCCTCTGCTCCGGCAGGATATCGACCATTACAAGGGGAACGACTTTCACGTCATGGTGCTTGATGAATCGCAGGCTATCAAGAACGAATCAACTAAAACAGCCTCTGCCGTCCGGTCCTTACGTGCGAGACACCGGTTTGCCCTGAGCGGTACGCCAATCGAAAACTCCCTGCAGGAACTGTGGTCGCTGTTCCGCGCGATCATGCCCGGCTTCTTTACCAGTAAAAAGAAGTTCACACAGCTGAAACCGGCTAAGATCTCACAGATGACACGCCCGTTCATTCTGAGGCGGATGAAGACCGAAGTGCTGGATGAACTTCCGGACAAAATAGATTCGGTTCAATACTCCGAGCTGACCCGTGAACAAAAAGAGGTGTACCTGGCTTATTTAGAACGAATCCAAAACGATATCCAGGAAACGATCGCAACGAAAGGGATTCAGCGCGGAAAGCTGGAAATCCTTGCAGGTCTCACACGCCTCCGGCAGATCTGCTGCCACCCCGCCCTGTTCCTGGAAAACTACGAAGGACAGTCCGGAAAGCTGGAGCAGTTGAAAGAACTGGCTGAAGAAATGAAAGCCGGCGGGCACCGGATGCTGATCTTCTCCCAGTTTTCCAGCATGCTGACCCTCATGCATAAAGAGCTGACCGACAACGGTCTGGAGGCTTTTTATTTAGATGGAAGTACAAAATCCGAAAAACGGATGGAAATGGTGGAAGCCTTCAACAACGGTGAAAAAGATGCCTTCTTTATTTCCCTGAAGGCCGGCGGCACCGGGCTCAACCTTACAGGCGCTGATACAGTCATCCTTTATGACCTGTGGTGGAACCCGGCCATTGAAGAACAGGCGGCCGGACGTGCCCACCGGATCGGTCAGGAGAAAGCCGTCCAGGTGATCCGCATGATATCTGAAGGAACGATCGAGGAGAGGATTTATCAGCTCCAACAGAAAAAACGCGACCTCGTCGACCAGATCATCCAGCCTGGAGAATCCATGCTTACATCACTGAGCGAGGAAGAGATCCAGCAGCTTTTCCAATAG	MQSYLLQPKDIKKITGEAFYARGKQYYESGKVYGLSHNSAIHSWRAVVAGTHDYEVRVFFFEDDDVEATCECAAYSTYYTCKHIAAVLIAIREKALEELAPKLAEKGRNRSPRTTNQDRMFAVSLFEAFRQRQESRTGMDLKKPLRVHYSLHIQSILGARSLGIELKLGEKYPYVIKNIRELLEYIRKQQPYRLTKSFTYDPAEHTFSEEDQAVFQLLQRAYEQEQFFEQQWNTAEQKILKISPALVHQLLPLLEKQEAEVIERGTQAGPLRYEESFPELTFYVSEERGHFHMHMNHLKDYDYLSDYHLLYKEGSFYPVARDKEEVIRTLYSILPYNSNGSHTISHNDMEGIVSYVLPELETIADVNLDTSAQKKINQEELKAEVYLDFQQWTLTIDVKFHYGDLVIDPFNDQERPGQTIVQRDFETEQNIMQIIESAEFKFDGEMVYLEDEEELETFLYQYLPSLKKYSDVFLSAAVRSLFDDQQHELQASIDLESNGSWLDISFAIEGISTDDVTEALKAVIERKKYYRLSDGALMSLTSDSFERFQRLVEDLNLTTGDVEDNHFQVAAARSLQVDETLDTNLADRSGRYEELVTRLRSPQSFEIDPPENLQADLRTYQLTGFRWMKMLSHYGLGGVLADDMGLGKTLQTISYILDEKQEGSLTAPAVIVAPASLVYNWKKELEKFAPSLTVQVMTGDPSERLDAFEEAQGKDIWITSYPLLRQDIDHYKGNDFHVMVLDESQAIKNESTKTASAVRSLRARHRFALSGTPIENSLQELWSLFRAIMPGFFTSKKKFTQLKPAKISQMTRPFILRRMKTEVLDELPDKIDSVQYSELTREQKEVYLAYLERIQNDIQETIATKGIQRGKLEILAGLTRLRQICCHPALFLENYEGQSGKLEQLKELAEEMKAGGHRMLIFSQFSSMLTLMHKELTDNGLEAFYLDGSTKSEKRMEMVEAFNNGEKDAFFISLKAGGTGLNLTGADTVILYDLWWNPAIEEQAAGRAHRIGQEKAVQVIRMISEGTIEERIYQLQQKKRDLVDQIIQPGESMLTSLSEEEIQQLFQ				NA	NA	NA	NA	NA
AK012_02248	1590	prfC		Peptide chain release factor 3	ATGAATGATATACAAAATGAAATGAAAAAACGCCGCACGTTTGCTATTATCTCCCACCCGGACGCCGGTAAAACGACGATGACGGAGAAAATGCTCCTGCTCGGTAACTTAATCCGCTCGGCGGGTACAGTAAAAGGTAAAAAATCCGGGAAATTCGCTACATCCGACTGGATGGAAATTGAGAAACAGCGTGGAATTTCCGTCACATCCAGTGTGATGAACTTCCCTTATAAAGACTATCAGGTCAACATCCTCGATACACCGGGTCACGAAGACTTTAGTGAGGATACGTACCGGACACTGACGGCCGTAGACAGTGTGGTCATGGTCATCGATGGAACAAAAGGGATCGAGGCACAGACCTTGAAGCTGTTTAAAGTTTGTAAGATGCGTGGAATTCCGATCTTCACTTTCATTAACAAAATGGACCGTGAAGGCCGTGAGCCGTTTGAGTTGATGGAAGAGATCGAAGAGACGCTGAACATCGAAACCTATCCAATGACATGGCCGGCGGGGATGGGCAAACGTTTCCTTGGTGTATTTGACCGCCAGAACGAGCAGTTCGTTCAATATACCGGGAATGAGGAAGAAGAATATATTCCTTACGCTGAGCTTGACCAGCACCCTGAGCTGACCGAAAACGCAACGTATAAGGAAGCGGAAGAAGAAATGATGCTTGTCGATGAAGCGGGGGAAGATTTTGATATGGATAAAGTCCTGCGCGGTGAGCAGACCCCTGTCTTCTTCGGGAGTGCTCTCGCTCCGTTCGGCGTGGAGACGTTCTTCAACAGCTTTATTGATATGGCACCGGAACCGGCACCGAGGAAGTCAACGGAAGGCGTCGTTTCACCGGATCATGAAGAGTTCTCTGGATTCATCTTTAAAATCCAGGCCAATATGAACCCGCAGCACCGGGACCGTGTCGCTTTCGTAAGGATCTGCTCCGGTAAATTCGAGCGTGGCATGAACGTGACGCTTTCACGGACAGGGAAATCCTTCAAGCTCGCCCAGTCCCAGCAGTTTGTGGCTTCTTCAAGAGGAACCGTCGAGGAAGGCTATGCCGGAGATATCATCGGCATCTATGACCCGAACGTGTACCGGATCGGGGATACGATCGTTACAGGTAAATCGAAGTTCCAATATGATGAACTGCCCCAGTTCCCGCCGGAAATCTTTAAGAAGGTGACCGCTAAAAACGTTATGAAATCCAAGCAGTTCCGCAAAGGGCTTGAACAACTCGTGCAGGAAGGGGCGATCCAGCTGTTCAAACGCTATCGCTTTGAGGATTACATCATTGGAGCAGTCGGTGAACTTCAATATGAAGTGTTCGAATACCGTATGAAAAATGAGTACAATGTCGATATAGAATTGACACAGCTCGGGGAAAGGATCCCGCGCTGGCTGAATGAAGACCAGGTGGATGAATCGTTGTTCGATGAACGGAACATGCTTGCCGAAGACCGTGAAGGCAATCCGCTTGTCCTGTTCAAAAACGATTTCTCACTCCGCTGGTTCAAGGACAAGAACCCGGATATCGAACTGACCGATCTATTTGAAGTGAATCAGTACAACCAGACATTCGAAAATTAA	MNDIQNEMKKRRTFAIISHPDAGKTTMTEKMLLLGNLIRSAGTVKGKKSGKFATSDWMEIEKQRGISVTSSVMNFPYKDYQVNILDTPGHEDFSEDTYRTLTAVDSVVMVIDGTKGIEAQTLKLFKVCKMRGIPIFTFINKMDREGREPFELMEEIEETLNIETYPMTWPAGMGKRFLGVFDRQNEQFVQYTGNEEEEYIPYAELDQHPELTENATYKEAEEEMMLVDEAGEDFDMDKVLRGEQTPVFFGSALAPFGVETFFNSFIDMAPEPAPRKSTEGVVSPDHEEFSGFIFKIQANMNPQHRDRVAFVRICSGKFERGMNVTLSRTGKSFKLAQSQQFVASSRGTVEEGYAGDIIGIYDPNVYRIGDTIVTGKSKFQYDELPQFPPEIFKKVTAKNVMKSKQFRKGLEQLVQEGAIQLFKRYRFEDYIIGAVGELQYEVFEYRMKNEYNVDIELTQLGERIPRWLNEDQVDESLFDERNMLAEDREGNPLVLFKNDFSLRWFKDKNPDIELTDLFEVNQYNQTFEN				NA	NA	NA	NA	NA
AK012_02249	1980	uvrB	COG0556	UvrABC system protein B	GTGGATGAGAAGTTTGAGTTAGTTTCGAAATTTTCCCCACAGGGAGATCAGCCGAAAGCCATTGAGAAAATGGTGGAGGGGATCCAGAGCGGGAAAAAGCACCAGACACTGCTGGGCGCAACAGGTACCGGAAAAACGTTTACGATGTCCAATGTCATTGCACAGGTGAACAAACCGACCTTAATTATCGCCCATAACAAAACACTGGCTGGACAGCTGTACAGCGAATTCAAGGAGTTCTTTCCTAATAACGCTGTGGAGTACTTTGTCAGCTATTATGATTATTATCAGCCGGAAGCATATGTACCCTCTTCCGACACCTTCATAGAAAAAGACGCGAGCATCAATGATGAAATCGATAAGCTCCGACACTCGGCCACCTCGGCCCTGTTCGAGCGGAATGATGTGATTATCGTTGCCAGTGTCTCCTGTATCTACGGCCTCGGTTCTCCAGAAGAATACCGGAGCCAGGTGCTTTCCATCCGTTCCGGCATGGAAAAAGACAGGGATCAGCTTCTCCGCGAACTTGTAGATATTCAATATGCCCGTAACGATATCGATTTCCAGCGCGGTACGTTCCGTGTGCGCGGCGATTCAGTGGAAATCATTCCTGCATCGAGAGAAGAACATGCCATTCGTGTGGAGTTTTTCGGAGACGAAATCGATCGGATCCGCGAGGTGGATGTGCTGACAGGTGAAGTGACCGGTGAACGGGAGCACGTGGCCATCTTCCCTGCTTCCCACTTCGTCACACGTGAAGAAAAGCTGAAAAAAGCCATTGCCAACATCGAAGCAGAAATGGAAGCGCGGGTCAAAGAACTGCGTGACCAGGAAAAGCTGCTGGAAGCCCAGCGTCTTGAACAGCGGACGAACTATGACCTGGAAATGATGAGGGAGATGGGATTCTGTTCCGGTATCGAGAACTATTCCCGTCACCTTACTTTCCGTGAAGAAGGGGCAACTCCTTATACACTGCTTGACTTCTTTCCCGACGACTTTTTAATTATGGTCGACGAATCGCACGTGACCCTTCCCCAGGTGAGAGGGATGTATAACGGGGACCGCGCCCGTAAGCAGGTGCTTGTCGATCACGGTTTCCGGCTTCCATCTGCTCTTGATAACCGTCCGCTCATGTTCCCGGAATTTGAGGAGCATATCAACCGCATTGCCTATGTATCAGCGACACCGGGTCCGTATGAGATTGAACATACCCCTGAAATGATCGAACAGATCATCCGCCCGACGGGGCTGCTTGATCCTGAAATTGAAGTGCGCCCGATCCACGGCCAGATTGATGATCTAGTCGGTGAGATTCATAAGCGGAAAGATAAGGACGAGCGTGTACTTGTCACCACTTTGACGAAGAAAATGTCTGAGGATCTGACCGCTTACTTGAAGGACCTCGGCATCAAAGTGGCGTATCTCCACTCGGAGATTAAAACATTGGAACGGATTGAGATCATCCGCGATCTGAGGGTCGGTAAATATGACGTTATTGTAGGAATCAACCTGCTCCGGGAGGGACTGGATATACCGGAAGTATCACTCGTGACCATTTTGGATGCGGATAAGGAAGGCTTCCTGCGCTCCGATCGATCCCTGATTCAGACGATCGGCCGGGCGGCGCGTAATGAGAACGGCAGAGTCATCATGTACGCCGATAAGATGACCAAATCCATGCAGTATGCCATCGATGAAACGTACCGGCGCCGTGAAAAACAGATGGCTTACAATGAAGAGCACGGCATTACACCACAGACTATTAAGAAAGATGTCCGTGATGTTATTAAGGCGACTGCCGTTGCTGAGGAAGATATCAGCTATGAGACAGGCAAGAAGCCGTCTGAAATGACGAAGAAGGAACGTCAGGAAATGATCGACAATATGGAAACAGAAATGAAGCAGGCCGCGCGTGATCTCGACTTTGAACGGGCCGCTGAGCTGCGCGACATTCTGCTGGAATTAAAAGCGGAGGGATGA	MDEKFELVSKFSPQGDQPKAIEKMVEGIQSGKKHQTLLGATGTGKTFTMSNVIAQVNKPTLIIAHNKTLAGQLYSEFKEFFPNNAVEYFVSYYDYYQPEAYVPSSDTFIEKDASINDEIDKLRHSATSALFERNDVIIVASVSCIYGLGSPEEYRSQVLSIRSGMEKDRDQLLRELVDIQYARNDIDFQRGTFRVRGDSVEIIPASREEHAIRVEFFGDEIDRIREVDVLTGEVTGEREHVAIFPASHFVTREEKLKKAIANIEAEMEARVKELRDQEKLLEAQRLEQRTNYDLEMMREMGFCSGIENYSRHLTFREEGATPYTLLDFFPDDFLIMVDESHVTLPQVRGMYNGDRARKQVLVDHGFRLPSALDNRPLMFPEFEEHINRIAYVSATPGPYEIEHTPEMIEQIIRPTGLLDPEIEVRPIHGQIDDLVGEIHKRKDKDERVLVTTLTKKMSEDLTAYLKDLGIKVAYLHSEIKTLERIEIIRDLRVGKYDVIVGINLLREGLDIPEVSLVTILDADKEGFLRSDRSLIQTIGRAARNENGRVIMYADKMTKSMQYAIDETYRRREKQMAYNEEHGITPQTIKKDVRDVIKATAVAEEDISYETGKKPSEMTKKERQEMIDNMETEMKQAARDLDFERAAELRDILLELKAEG	PGPT0014920_4512	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014920-uvrB-K03702	NA	NA
AK012_02250	2877	uvrA		UvrABC system protein A	ATGCCGAGCAAACATATTAGTATACGGGGAGCCCGTGCCCACAACTTGAAAAATATAGACATTGATATCCCGAAAAATAAACTGGTTGTCATGACCGGGTTGTCGGGGTCCGGAAAATCGTCACTGGCCTTTGATACGATTTACGCAGAAGGGCAGCGGCGGTATGTAGAATCGTTGAGCGCTTATGCCCGTCAGTTTCTCGGACAGATGGACAAGCCCGATGTAGACTCCATTGAAGGTCTGTCCCCGGCGATTTCCATCGATCAGAAAACGACGAGCCGCAACCCTCGTTCCACAGTCGGAACGGTGACGGAGATTTACGACTATCTCCGTTTGTTATTTGCCAGAATCGGGCGTCCGACCTGCCCGAATCACGGCATAGAAATCAGTTCTCAGACCGTCCAGCAGATGGTGGATCGTCTGATGGAATATCCGGAGCGCACGAAAATGCAGATTCTTGCCCCTGTCGTCTCCGGGCGTAAGGGTGAGCACGTTAAGGTTTTTGAACAGCTTCAAAAAGAAGGGTACATCCGTCTCCGTGTCGACGGGGAAATGCGCGAAATTTCCGAGGAAATAAAACTCGAAAAAAATAAAAAGCATTCTATTGAGGTCGTCATCGACCGTGTCGTCATTAAAGACAGTGTGGAAGGACGTCTTTCCGACTCCTTGGAGACGGCGCTGAATCTTGGGAATGGAAATACAATCGTGGATGTTATTGGGGAGGAAGAACTGACATTCAGTGAACACCACGCCTGTCCGATCTGTGGGTTCTCGGTCAGTGAACTGGAGCCGCGGATGTTCTCCTTTAACAGTCCCTACGGCGCCTGCAGCCGCTGCGATGGACTTGGAACACAGCTGGAAGTCGATATTGACCTCGTTATTCCGGACTGGGGACGCTCCTTGAACCAGCATGCGATTGCAGCATGGGAACCGCAGAGCTCCCAGTACTACCCGCAGCTTCTGAAAAGTGTCGCTGATCATTACGGCATTGATATGGACAAACCGTTCCGGGAGCTTCCGGAGGAGCATAAGGAGCGTATTCTTTATGGAAGTGGGGATGAGAAAGTCTACTTCCGCTACGAAAATGACTTCGGCAAAGTTCGTGAAAATGAAATTTTCTTTGAAGGGGTCATTCCTAACATTTCCCGTCGTTACCGGGAAACAAGTTCTGATTACATCCGCGAGCAAATGGAAAAATACATGGCTCAGAAGCCTTGTCCAAAGTGTAAAGGCAACCGTTTGAACGAAGAAGCTCTTTCCGTTTTGGTCAATGGCCGCCATATCGGAACAACGACGGACTTTTCTGTCACAGAAGCAAAAGAGTTCTTTGAATCCGTTGAACTGACGGAAAAGGAAGAGACCATCGCCCGGATGATCTTGAAGGAAATCTGTGAGCGCCTCAGCTTCCTTGCCAATGTGGGTCTTGACTACCTGACCCTTTCCCGCTCTGCCGGTACGCTTTCCGGAGGGGAAGCCCAGCGGATCAGACTGGCGACTCAAATCGGTTCTGCGCTTACAGGTGTATTATACGTGTTGGATGAGCCTTCGATCGGCCTTCACCAGCGCGATAATGACCGCCTGATCAATACACTGAAGCGGATGCGTGACCTGGACAACACATTGATTGTCGTGGAACATGATGAAGATACGATGCTTGCCGCGGACTACTTGATTGATATCGGCCCGGGAGCCGGTGCTCATGGCGGCCATATCGTTACACAGGGGACGCCGAAGCAGGTGATGAAAAACCGCAAATCCTTGACAGGTCAATATTTATCCGGTCGTCAATTTATCCCGCTGCCGTCTGAACGACGGAAATCTGACGGACGCTCCCTGAAGGTGACAGGAGCCGAGGAAAACAACCTGAAAAAAGTCAATGCAGAAATACCTCTCGGTGTCTTTACAGCGGTCACGGGAGTTTCAGGGTCTGGTAAAAGTACCTTGATTAACGAAATCCTCTACAAAACGTTGTCCATGAAGCTTCATAATGGAAAGCAGAAGCCGGGACAGCATAAATCCGTAGAAGGGATTGACCAGCTGGACAAAGTCATTGATATCGATCAGTCTCCGATTGGACGTACACCAAGATCCAACCCGGCGACCTATACAGGTGTTTTTGACGATATCCGTGATGTTTTTGCCCAGACGAACGAGGCGAAAATCCGAGGCTACAAAAAAGGGCGGTTCAGCTTTAACGTCAAAGGCGGACGTTGTGAAGCCTGCCGCGGGGATGGGATCATTAAAATAGAAATGCACTTCCTCCCGGACGTTTATGTTCCGTGCGAAGTCTGTGACGGAAAACGGTACAACAGGGAAACCCTCGAAGTGAAATATAAAAACAAGAGCATCGCAGACGTTCTCGCGATGACCATCGAAGAAGCGCTGGACTTTTTCGCCAACATCCCGAAAATCAAACGCAAACTGCAGACGGTTGCGGATGTGGGTCTCGATTATATTAAATTGGGACAGCCGGCTACGACATTGTCCGGCGGGGAAGCCCAGCGGGTGAAGCTGGCGAGCGAACTGCACCGCCGCTCCAATGGAAAATCCTTCTACATCCTGGATGAGCCGACCACTGGTCTTCATGTGGATGATATCTCCCGGCTCCTGAAAGTTCTCCAGCGTCTGGTGGATAACGGGGATTCCGTCCTTGTCATTGAACACAACCTTGATGTCATCAAAGAAGCGGATCACATTATCGATCTGGGGCCGGAAGGCGGAGAAAACGGCGGACGTATTATTGCGAGTGGTACGCCGGAGCATGTGGCTGAACAGGAGATTTCCTACACAGGACGTTATTTGAAGCCCGTTCTGGAGAGAGACCGTGAACGGATGGAGAAACAGATGGACAGTCGTGAACAAGTGGCCGGCAAGTAG	MPSKHISIRGARAHNLKNIDIDIPKNKLVVMTGLSGSGKSSLAFDTIYAEGQRRYVESLSAYARQFLGQMDKPDVDSIEGLSPAISIDQKTTSRNPRSTVGTVTEIYDYLRLLFARIGRPTCPNHGIEISSQTVQQMVDRLMEYPERTKMQILAPVVSGRKGEHVKVFEQLQKEGYIRLRVDGEMREISEEIKLEKNKKHSIEVVIDRVVIKDSVEGRLSDSLETALNLGNGNTIVDVIGEEELTFSEHHACPICGFSVSELEPRMFSFNSPYGACSRCDGLGTQLEVDIDLVIPDWGRSLNQHAIAAWEPQSSQYYPQLLKSVADHYGIDMDKPFRELPEEHKERILYGSGDEKVYFRYENDFGKVRENEIFFEGVIPNISRRYRETSSDYIREQMEKYMAQKPCPKCKGNRLNEEALSVLVNGRHIGTTTDFSVTEAKEFFESVELTEKEETIARMILKEICERLSFLANVGLDYLTLSRSAGTLSGGEAQRIRLATQIGSALTGVLYVLDEPSIGLHQRDNDRLINTLKRMRDLDNTLIVVEHDEDTMLAADYLIDIGPGAGAHGGHIVTQGTPKQVMKNRKSLTGQYLSGRQFIPLPSERRKSDGRSLKVTGAEENNLKKVNAEIPLGVFTAVTGVSGSGKSTLINEILYKTLSMKLHNGKQKPGQHKSVEGIDQLDKVIDIDQSPIGRTPRSNPATYTGVFDDIRDVFAQTNEAKIRGYKKGRFSFNVKGGRCEACRGDGIIKIEMHFLPDVYVPCEVCDGKRYNRETLEVKYKNKSIADVLAMTIEEALDFFANIPKIKRKLQTVADVGLDYIKLGQPATTLSGGEAQRVKLASELHRRSNGKSFYILDEPTTGLHVDDISRLLKVLQRLVDNGDSVLVIEHNLDVIKEADHIIDLGPEGGENGGRIIASGTPEHVAEQEISYTGRYLKPVLERDRERMEKQMDSREQVAGK	PGPT0014915_2276	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014915-uvrA-K03701	NA	NA
AK012_02251	372	yojF		putative protein YojF	GTGGAATCAATACAACCGAACAAAGTTCAGGATAAAATCAACCAGTTAGCTGATAAAACGGTATATGTGCATTTGGAAACAACCAACGGTGCCTATGCAAGTCATTTTGATGAGAATGCCTATAACGTAGGGGCTTTCATCCGCAATGCAGAAGTTTCTTACCAACACGGGAAAATCGTCAGCACAGGCGGTGCCTACCGTGTAGGTCTTAAACTCGATCTGGGGTGGGTGTATGCCGAAGGTCTGAGTGATTATGAAATCGATGAAAAGGGTCGTCTGCTGATGGCCGGTCATGACCGCGAAGGCCGCTTGATGGTCGCGTTGGAAATCAGCGAGACTCCGTTCTCACATGGGGCGGATCCGGATGAGTGA	MESIQPNKVQDKINQLADKTVYVHLETTNGAYASHFDENAYNVGAFIRNAEVSYQHGKIVSTGGAYRVGLKLDLGWVYAEGLSDYEIDEKGRLLMAGHDREGRLMVALEISETPFSHGADPDE	PGPT0019575_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019575-bshB2-K22135	NA	NA
AK012_02252	654	bshB2_1	COG2120	putative N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 2	ATGAGTGAAGGCCATGTCGTCGTGATTTTCCCGCATCCGGATGACGAATCCTTCGGGGCTTCCGGCACCATCTCTAAATTCAGGGATGAAGGCGTACCAGTCACTTACCTGTGTGGTACGCTGGGGGAAATGGGCCGGAACATGGGAAGTCCTGTGTTTGCCAACAGGGAAACATTGTCTGCATTCCGTAGAGAGGAATTGAAGGAAGCGGCTGCTCAGCTCGACATTGACGTCGAATTTCTCGGTTACAGGGACAAGACACTTGAATTTGAGCCTCGGGATCAGGTGGCTGCTCATTTAAGGAAAAGACTGGAGGAGCTTGAGGCAACAGTTGTCATTACGCACTATCCAGGGTATGCCGTCCACCCGGATCATGATGCCCTCGGTGCCGCTGCCGTTGAGGCTGTGAAGTCGATGGATGAAGCATCACGTCCTGATGTATGGATGCATGCCATCTCCAACAATCATGCTGATGTATTAGGAGAACCGGACATCGTATATGACATCCGCCCTTATTGGGAACGGAAGCTTGCGGCAATTCAGGCCCATCTTTCCCAGGCAGACGGAATGATGAGTTTGATCGAAAATCACGATCAGGCTGCCGAACAGCTGGAACGATTGAAAACCGAACGTTTTTACCGCTGTCACTTTTAA	MSEGHVVVIFPHPDDESFGASGTISKFRDEGVPVTYLCGTLGEMGRNMGSPVFANRETLSAFRREELKEAAAQLDIDVEFLGYRDKTLEFEPRDQVAAHLRKRLEELEATVVITHYPGYAVHPDHDALGAAAVEAVKSMDEASRPDVWMHAISNNHADVLGEPDIVYDIRPYWERKLAAIQAHLSQADGMMSLIENHDQAAEQLERLKTERFYRCHF	PGPT0019575_402	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019575-bshB2-K22135	NA	NA
AK012_02253	1029			hypothetical protein	ATGCCGGTAAATGAAGAACGTATGAAAATATTGGAGATGATTGAAAAGGGTACAATCAATGCAGAAGAAGGCGCGAAGCTCCTGAGTGCTCTGGAGCATGAAGGAGACGAGCAGCAGGAGAAGAAAAAGTACGGCATCATGAATTTTCTCGATGACGCAGTGGATAAAATTAAAAACGCCGACTTTGACCTTGCTTTCGGAGAATCGGTGGAGATTGAAGAGGAATCTTTTCTCGACGCTGAAGAATTGAACGAAGTCGATTTGATGATTGCCAACGGCTCCCTGAATGTTTACACATGGGAGGAAAACCAGGCGAGGGCATCCTCCAGAGTGAAAGTGTATCAGGCAGGCACGGAAGAAGAGGCAAGGGAACGTTTTCATGGAGATGTCCAGTTTGACATTAAATATGGACTGCTTCGATTGGCCAGTCCTTCCAAGAAGATCAAGATGCATACGGACCTTTACTTACCGAAACGTTTCTATGAATTTATGAAAGCCCAGCTTCAGAACGGCTCGATCCATGCGGAAGGCCTGGAAGCGCAGCATTTCCATTTGAAGACCTCCAATGGCCCTGTCAAAGGATCCCGACTCAAAGGCGGGAGCTGCAAAATTCATACGGCCAATGGACCGATCAAGCTTGAAGAAGGTGAGTTTGAGCAGGTGGAAGCAGACACGATCAACGGGCCGGTGACTCTGGAAGGAACCTTCGGAAAAGTTGATGGATCTTCTGTGAGCGGCGGTATTTCAGTCAATCATAAAGGAAGTACGGCTCACACCGCCTTTTTGAAAACGACGGCAGGGGCCATTCAAGTCTCCCTTCCCGTGGAACGTAAAATTGACGGGATTTTGAAAACGAAATTCGGTTCCCTCCAATGTGGTCTGGATAATTATAAAATCCTGAAAGACCAGAAAGATGTAATGAATAAGTCGCTGGAATTTGAAGCGTATGAACAATTTGAAGATGTTTATCATATAGAAGCAGAGACGAAGACTGGTTCAGTGAAGATTCAGCCTCCTGTCCAGCTTTAA	MPVNEERMKILEMIEKGTINAEEGAKLLSALEHEGDEQQEKKKYGIMNFLDDAVDKIKNADFDLAFGESVEIEEESFLDAEELNEVDLMIANGSLNVYTWEENQARASSRVKVYQAGTEEEARERFHGDVQFDIKYGLLRLASPSKKIKMHTDLYLPKRFYEFMKAQLQNGSIHAEGLEAQHFHLKTSNGPVKGSRLKGGSCKIHTANGPIKLEEGEFEQVEADTINGPVTLEGTFGKVDGSSVSGGISVNHKGSTAHTAFLKTTAGAIQVSLPVERKIDGILKTKFGSLQCGLDNYKILKDQKDVMNKSLEFEAYEQFEDVYHIEAETKTGSVKIQPPVQL				NA	NA	NA	NA	NA
AK012_02254	357			hypothetical protein	ATGAAAAACTGGCTCCTGCATATTTTAGTCAATGCTGTTGCCATTATTGCTGTTGGAGCCCTGCTCGACAGCGTCCAGATTGATGGGGTGGGTGGTGCTCTTCTTGCCGCTTTTATCCTTTCTATCCTTAATGCGGTCGTCCGTCCGTTTCTTGTCATTTTGACTCTTCCGATTACCATTGTTTCGCTGGGGCTTTTCTTGTTTGTGATCAATGCCATCACACTGGCTCTGACTGACTTGTTCCTCGGAAGTACATTTGATATTGATGGGTTCGGCATGACGATTGTTGCCGCCGTCATCATTTCATTCTTGAACCTTGTATTAAACAGCCTGTTAAAAGATATGAAAAACGGATGA	MKNWLLHILVNAVAIIAVGALLDSVQIDGVGGALLAAFILSILNAVVRPFLVILTLPITIVSLGLFLFVINAITLALTDLFLGSTFDIDGFGMTIVAAVIISFLNLVLNSLLKDMKNG				NA	NA	NA	NA	NA
AK012_02255	933	hprK	COG1493	HPr kinase/phosphorylase	ATGAGCAAGGTCCGCACAGAAGATTTACTGGAACAATTTCAGCTTGAATTAGTAACCGGAAAAGATGGAGTTCACCGTGAAATACATATGAGTGACATATCCCGCCCCGGTGTAGAAATGACCGGGTATTTCAAGTTTTACCCGAAAGACAGACTGCAGCTTCTCGGGAAGACAGAGCTGTCCTATTTCAATGAACTGACAAAGGAACAGCGTCAGGAGCGGGCGCAAAAACTCTGCACGGACGTCACCCCCGGTATTGTGATTACGAGAGGGATGGATATCCCTGAAGAACTGTTTGAAGCAGCGAAGGAAGCGGGCGTCCCGCTGATGATTTCGCCCTATAAAACAACGAGAGTCATCAGCCGGCTGACCAATTTCCTGGAGTCCAAGTTTGCCCCGTTCACAGCAATCCATGGGGTGCTGGTAGATATTTACGGGATTGGTGTGTTGATTACTGGTCAGAGTGGTGTGGGTAAAAGTGAAACAGCGCTTGAACTTGTGAAACGCGGCCACCGTTTAGTAGCGGATGACAGCGTGGAAATCCGTCAGGAAGATTACGATACGCTGATCGGAAACAGCCCGCCTCTGATTGAGCATCTTCTGGAAATCCGGGGACTCGGTATTATAAATGTGATGACGCTGTTCGGCGCTGGTGCTGTCCGCAGCTTTAAACGCATCACCCTTGTCATCAATCTGGAAATTTGGGATAAGAACAAGCAGTATGACCGTCTGGGCCTCGAGGAAGAGACGATGAAAATTATGGACGTTCATGTGCCGAAAGCGACGATCCCTGTCCGTCCGGGACGTAACCTTGCCGTCATTATTGAGGTGGCAGCGATGAACTTCCGCCTGAAGCGGATGGGCGTCAATGCGGCGGAGGAGTTTTCCGAACGCTTAACCAAAGTGATCGATCAAGATCAAACGGGAAAATAA	MSKVRTEDLLEQFQLELVTGKDGVHREIHMSDISRPGVEMTGYFKFYPKDRLQLLGKTELSYFNELTKEQRQERAQKLCTDVTPGIVITRGMDIPEELFEAAKEAGVPLMISPYKTTRVISRLTNFLESKFAPFTAIHGVLVDIYGIGVLITGQSGVGKSETALELVKRGHRLVADDSVEIRQEDYDTLIGNSPPLIEHLLEIRGLGIINVMTLFGAGAVRSFKRITLVINLEIWDKNKQYDRLGLEEETMKIMDVHVPKATIPVRPGRNLAVIIEVAAMNFRLKRMGVNAAEEFSERLTKVIDQDQTGK				NA	NA	NA	NA	NA
AK012_02256	837	lgt	COG0682	Phosphatidylglycerol--prolipoprotein diacylglyceryl transferase	ATGCAGACATGTGAAGCACAGCCTCTTGATCCCGTCTTTCTTCAACTGGGTCCACTCTCTATTTACTGGTACGGCCTGATCATTGCAACAGGCGCCTTTTTAGGATTATGGATTGCTACAAGAGAAACAGAAAGATTGGGATTGAAGAAGGATTACATGGTGGACATCGTTGTGTTCGCTATACCCGCGGCCATTTTATGCGCCCGTCTTTATTATGTAATCTTTGAATGGGAGCGGTATGCCGGCGGTCCGTTCTGGAAGGTATTTGCCGTCTGGGAAGGCGGAATTGCCATACACGGGGCGTTGATCGGTTCGGTACTGACCGCTTATATTTACACAAAAGTCAAAGGAATCTCCTTCTGGATGATGGCGGATATCGCTGCGCCGAGTATTATCCTTGGGCAGGCGATCGGCCGCTGGGGGAACTTTATGAATCAGGAAGCCCATGGCGGTCCTGTTTCACAGGCCTTTTACGAAAATTTCATGCAGTATCTGCCGGCATTTATTAACCAGCAGATGTGTATTGACGGAACGGTGTATCATCCGACGTTCCTTTATGAATCCGTCTGGAATATCATCGGTTTCGCCCTTCTGCTCGTTCTGCGTCACCGCTTTAACCCGCGTCGTGGGGAAGTTTTCTTAAGCTATGTCATATGGTATTCTGTCGGACGTTTCTTCGTAGAAGGACTACGTACGGACAGTCTCTACTTGTTTGCAGATATCCGCATGGCTCAATTTATCTCCATCGTCCTGGTCATTGCCTGTGCTGTTCTTATCTATTACCGCAGAAAGAGTGGAATGGCAGATAAATATTACAACGGAAAGAAAGTAAAATAA	MQTCEAQPLDPVFLQLGPLSIYWYGLIIATGAFLGLWIATRETERLGLKKDYMVDIVVFAIPAAILCARLYYVIFEWERYAGGPFWKVFAVWEGGIAIHGALIGSVLTAYIYTKVKGISFWMMADIAAPSIILGQAIGRWGNFMNQEAHGGPVSQAFYENFMQYLPAFINQQMCIDGTVYHPTFLYESVWNIIGFALLLVLRHRFNPRRGEVFLSYVIWYSVGRFFVEGLRTDSLYLFADIRMAQFISIVLVIACAVLIYYRRKSGMADKYYNGKKVK				NA	NA	NA	NA	NA
AK012_02257	957			hypothetical protein	ATGAAAGGAACGCTGCTGCGTGGTGGAAAAAAGGGCCTGGATTTAACATGGACACTGGGAAAAGTTATTTTTCCTGTAACCTTGATCGTGACAATTCTCCAGTATACTCCCGTACTGCCATGGGTGATGGATAAGCTGGAGCCTTTGATGGGGTGGCTCGGCCTTTCCGGCCAGGCCGCGGTTCCTTTAGTTCTTGGGAATTTCCTGAATCTGTATGCAGGGATCGCTGCGATTCTTTCCTTTGACTTTACGGTAAAGGAAGTGTTTATTTTAGCCGTCATGCTGTCGTTTTCCCATAACCTGTTGATTGAATCAACTGTGGCTAAAAAGGTGGGCGTCAGCTGGTGGATTGTTATTGGCGTGCGTCTTTCTCTTGCATTCTTTTCTGCTTTTTTCATCCATTTGTTCTGGGACGGCGGAGGGGCACAGGCGAAGTACGGCCTGGCCCCATCCAATCCAGTTGAACCGGAAGGATGGACGGAAATCATCATCCAGGGAGTGCAGACAGCGGGCATGGGGATTATCCAGCTTGCGTTTATTGTCATCCCTCTGATGGTCGTGATGCAGATTATGCGGGAAAAAGGATGGCTCGACAAATTTTCGGAATGGCTCGCTCCCTGCACCAGGTTTTTAGGTATGGAGCGGAATACGTCCATGACGCTGGCCGCCGGCTTGACAATTGGTCTTGCCTACGGCGCCGGGTTAATGATTCAGGCCGTGGAGGAAGATGGTGTATCGAAGAAGGATATGTATCTGGCCGTCATTTTCCTTGTCGCCTGTCATGCCGTTGTTGAAGATACGCTCGTATTCATTCCACTCGGCATTCCTGTCTGGCCGCTTCTCATCATCCGGTTGACGACAGCTGTTCTTTTAACAGCAGCCGTAGGGTTTGTTTGGAATAAATTACAACATAATAGAAAGGATACATCACATGAGCATACGTACCATTCTCTTTGA	MKGTLLRGGKKGLDLTWTLGKVIFPVTLIVTILQYTPVLPWVMDKLEPLMGWLGLSGQAAVPLVLGNFLNLYAGIAAILSFDFTVKEVFILAVMLSFSHNLLIESTVAKKVGVSWWIVIGVRLSLAFFSAFFIHLFWDGGGAQAKYGLAPSNPVEPEGWTEIIIQGVQTAGMGIIQLAFIVIPLMVVMQIMREKGWLDKFSEWLAPCTRFLGMERNTSMTLAAGLTIGLAYGAGLMIQAVEEDGVSKKDMYLAVIFLVACHAVVEDTLVFIPLGIPVWPLLIIRLTTAVLLTAAVGFVWNKLQHNRKDTSHEHTYHSL				NA	NA	NA	NA	NA
AK012_02258	639	ppaX	COG0546	Pyrophosphatase PpaX	ATGAGCATACGTACCATTCTCTTTGATTTAGACGGCACACTGATTGATACGAATGAACTGATTATCGCCTCCTTCACCCATACGATCTCGCAATACGGGGACAGAGACTATACGCGTGAAGAGATTTTAGATTTTATCGGCCCTCCTCTTGTGGAGAGTCTGGCTAAAATCAACCCGGACAAGGTGGAGGAAATGGTGGAAACCTACCGTGAACATAATATCAAAAACCATGATCGCTATGTCACCGCCTATGATGGAGTTGTCGAAACGATGCACACCCTGAAGGAGCAGGGCTTCCGGCTTGGTGTTGTGACGACAAAGATGAAAAACACGGTGCATATGGGGCTTGAGCTCACGAATTTGGACGGCTTGTTTGAAACGGTGGTCACTCTTGATGACGTGACCAATGCTAAACCGCACCCGGAGCCGATTGTGCGGGCGCTTCAGGAACTTGATACGCCGGCATCGGAAGCTCTCATGGTTGGGGATAATACCCACGATATTGAAGCCGGGAAGAATGCCGGTACGAAAACAGCGGGGGTAGCGTGGACCGTTAAGGGCAGAAAAGTACTGGATGATCTTCATCCGGATTATATGCTGGACAACATGCGCGACCTGCTGCAGATGACCGGGAGATAA	MSIRTILFDLDGTLIDTNELIIASFTHTISQYGDRDYTREEILDFIGPPLVESLAKINPDKVEEMVETYREHNIKNHDRYVTAYDGVVETMHTLKEQGFRLGVVTTKMKNTVHMGLELTNLDGLFETVVTLDDVTNAKPHPEPIVRALQELDTPASEALMVGDNTHDIEAGKNAGTKTAGVAWTVKGRKVLDDLHPDYMLDNMRDLLQMTGR				NA	NA	NA	NA	NA
AK012_02259	513	dapH_3		2,3,4,5-tetrahydropyridine-2,6-dicarboxylate N-acetyltransferase	ATGAGAAAAACGGACCGCTATCCTGTAAGGGGCGCGAATTCTTTATGGCATATTTATAAAACCGTGCCGTTTTTGAAAGTCGTAAAAAATTTCATCGTTATTCAGATGGCACGTTACACCCCTTTTCTCGGAATGAAAAATTGGTTGTACCGCACGTTTTTGAACATGAAGGTCGGTGATCAGACGGCCTTTGCGTTAATGGTCATGGTCGATATTATGTTTCCCGAAAAAATAAAAGTCGGGTATAATACGGTGATTGGGTACAATACAACCATTCTCGCTCATGAATATTTGATTGATGAATACCGTCTGGGAGAGGTGATCATCGGAGATGAGGTGCTGATCGGAGCCAATACGACGATTCTTCCGGGAGTTACGATTGGAGACAGAGCCGTTGTATCAGCGGGCACGTTGGTGAATAAAGATGTTCCACCCGGCAGCTTTGTCGGGGGAAACCCGATGAAGGTCATTTATACGAAAGAGCAGATGGCGCAGCGGGAGGCGGAAGAATGA	MRKTDRYPVRGANSLWHIYKTVPFLKVVKNFIVIQMARYTPFLGMKNWLYRTFLNMKVGDQTAFALMVMVDIMFPEKIKVGYNTVIGYNTTILAHEYLIDEYRLGEVIIGDEVLIGANTTILPGVTIGDRAVVSAGTLVNKDVPPGSFVGGNPMKVIYTKEQMAQREAEE				NA	NA	NA	NA	NA
AK012_02260	552	glpP	COG1954	Glycerol uptake operon antiterminator regulatory protein	ATGAGTTTTACACAAACGGTTTTACCGGCAGTGAAGAGAATTAAAGAATTTGAGGCTTTGCTGGAGTCGGATACAGAGTATATCATCCTACTGGAAAGCCGGCTTGGTCTGCTTCGCAAACTCGTCCGTCTCGGGCAGAAGTCCGGAAAAAAAGTCCTGGTCCATGTGGATTTGATTCAAGGCCTGAAGGCGGATGATTACGGGATGGAATATCTTGGTCAGGAAGTTAAGCCGGACGGAGTGATTTCCACGAGAGGGCACGTGATTCATCAGGCGAAAAAATACAATATCTTATCTGTGCAGCGCCTGTTTCTGATTGACAGTCAGGCCATTGAGCATAATGTGAAGCTGATACAGAGAACGGAGCCTGATTACGTCGAAGTTTTGCCCGGGATTGTGCCGGGAATGATAAAAGAGATAAAAGAGCGGATCGGGGTTCCTGTCATCGCTGGTGGACTCGTCCGTACGCAGGAGGACGTAGAGCAGGCACTGGCCTCCGGGGCTTCGGCTGTTTCTACTTCTCGTACCGACTTATGGAAGTTTTCCAAATAG	MSFTQTVLPAVKRIKEFEALLESDTEYIILLESRLGLLRKLVRLGQKSGKKVLVHVDLIQGLKADDYGMEYLGQEVKPDGVISTRGHVIHQAKKYNILSVQRLFLIDSQAIEHNVKLIQRTEPDYVEVLPGIVPGMIKEIKERIGVPVIAGGLVRTQEDVEQALASGASAVSTSRTDLWKFSK	PGPT0022030_398	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULE_REGULATION,PGPT0022030-nodX-K02443	NA	NA
AK012_02261	801	glpF_2	COG0580	Glycerol uptake facilitator protein	ATGACGGAATTTATGGGTGAATTGATTGGAACGATGATTTTGATCATTTTTGGAGGCGGTGTCATAGCCGGCGCGAACTTGAAAGCTACGAAGGCGGAAGGGAACTGGGTGCTGATTACAATTGCCTGGGGCCTTGCTGTGGCCATGGGCGTGTACGCGGTTGGAAGCGTTACAGGCGCTCACATTAATCCGGCGGTTACGCTTGGGTTTGCTGTAGTCGGAGATTTTCCGTGGGCAAAAGTTCCACTGTACATCACCGCACAGATGATGGGGGCTTTCATCGGGGCGGCAATCGTGTTTTTCCATTACCTGCCTCATTTCAAGGATACGGAAGATCAGCTGGCTATCAAGTCCATCTTCTGTACGGATCCGGCCATCCGCAGTCCTATTTCCAATTTGGTCAGTGAAATTATCGGAACCTTTGTACTGGTGATGGGGCTGCTGTTTATTGGGGCGAATGAATTTACAGATGGGTTGAATCCACTTATCGTCGGCCTGTTGATTGTGGCCATCGGGATGTCCCTTGGTTCTACAACCGGCTATGCGATCAACCCTGCCAGGGATCTGGGGCCGAGACTGGCGCATGCTGTTCTTCCTATCCCAGGTAAGGGAGGATCTGACTGGGGTTATTCTTGGATTCCTGTGGCCGGTCCGGCTATCGGTGGAATGTATGGCGGATTATTTTATCAGGCCATTTTCCAGGCGCAGTTTACCGTCTGGTTCTGGGTAGGATCTGCGGTGATCGCCGCTGTTCTTCTCAGCTCAATGAACGTCGAGTTAAAAAAAGTGAAACAAGCATAA	MTEFMGELIGTMILIIFGGGVIAGANLKATKAEGNWVLITIAWGLAVAMGVYAVGSVTGAHINPAVTLGFAVVGDFPWAKVPLYITAQMMGAFIGAAIVFFHYLPHFKDTEDQLAIKSIFCTDPAIRSPISNLVSEIIGTFVLVMGLLFIGANEFTDGLNPLIVGLLIVAIGMSLGSTTGYAINPARDLGPRLAHAVLPIPGKGGSDWGYSWIPVAGPAIGGMYGGLFYQAIFQAQFTVWFWVGSAVIAAVLLSSMNVELKKVKQA	PGPT0004760_959	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_GLYCEROL_UPTAKE,PGPT0004760-glpF|pduF-K02440	NA	NA
AK012_02262	1500	glpK_2	COG0554	Glycerol kinase	ATGGGAGATTATATTTTATCAATTGATCAGGGTACAACGAGTTCACGGGCGATCCTGTTCAACCGCGATGGAGAAATTGTGGAGACGGCGCAGAAGGAATTTCAACAGTACTTTCCAAAAAGAGGATGGGTGGAGCATGATGCCAATGAAATCTGGACATCTGTGCTTGCCTGTATTTCCGATGTGCTCCGCCTTGCTGATGTAGACGCCGGGGACATTGCTGGAATCGGTATCACCAACCAGCGTGAAACCACCGTCGTCTGGGATAAACATACAGGGAAACCGATTTACAAAGCGGTCGTCTGGCAGTCCAGACAGACCCAGGGCATCTGTAACGAACTGAAGGAGCAGGGCCTGGAAGATACATTCCGTGAGAAAACGGGTCTATTGCTGGATCCTTATTTTGCAGGGACGAAAGTGAAATGGATCCTGGACAATGTAGATGGAGCAAGAGAAAAAGCGGAGAACGGTGACCTGCTGTTCGGAACGATCGATACGTGGCTCGTTTATAAGCTGTCCGGCCAGAAAGCCCACGTTACGGACTATTCCAACGCTTCCCGTACGCTAATGTACAACATATATGATCTGGAATGGGACAAGGAGCTTCTGGAACTGCTGAACGTTCCTGAAAGCATGCTTCCTGAAGTGAAGGAGTCTTCCGATATCTATGCTCATACCATTGATTATCATTTCTATGGAAAAGAAGTACCGATCGCAGGGATTGCCGGAGACCAGCACGCAGCTCTGTTCGGACAGGCCTGCTTTGAAAAAGGAATGGCTAAAAATACTTACGGTACCGGTGGTTTCATGTTGATGAATACGGGAGAAGAACCGGTCAAATCCAACCACGGTCTCCTTACAACACTGGCCTGGGGGCTGGATGGCAAAGTCGAATATGCCCTGGAAGGCAGTATCTTCGTATCCGGTTCAGCGATCCAGTGGCTTCGTGACGGTCTGCAGATGATTGAAACATCTCCTCAGAGCGAGAAAGTCGCAGGAGAAGTGAATTCTTCTGACGGCGTCTATGTCGTGCCGGCCTTTGTCGGTCTTGGAACACCTTACTGGGACAGTGAAGCACGCGGGGCTGTATTCGGTCTGACACGTGGAACGACGAAAGCCCATTTCGTAAGAGCCACCCTCGACTCCCTGGCATACCAGACAAAAGATGTTGTCAATGCCATGGTGGAAGACTCCGGTCTTGAATTGAAAACCCTCCGTGTGGACGGCGGAGCTGTGAAAAACAACATGCTGATGCAGTTCCAGAGTGACCTGCTTAACGTCAATGTAGAGCGTCCGGAAGTCAATGAAACGACAGCGCTTGGGGCCGCTTATCTTGCCGGTCTTGCGGTTGGTTTCTGGGAAGACCGCCGGGAAATCGAAAATCAGTGGAAAGTGGAGCGTGAATTCCAGCCGGGTATGGAGGAGAAGAAAACGCAGACACTATATAAAGGATGGCAGAAAGCTGTGGAAGCTACCCGGGTCTTCAAGCCTGAAGAATAA	MGDYILSIDQGTTSSRAILFNRDGEIVETAQKEFQQYFPKRGWVEHDANEIWTSVLACISDVLRLADVDAGDIAGIGITNQRETTVVWDKHTGKPIYKAVVWQSRQTQGICNELKEQGLEDTFREKTGLLLDPYFAGTKVKWILDNVDGAREKAENGDLLFGTIDTWLVYKLSGQKAHVTDYSNASRTLMYNIYDLEWDKELLELLNVPESMLPEVKESSDIYAHTIDYHFYGKEVPIAGIAGDQHAALFGQACFEKGMAKNTYGTGGFMLMNTGEEPVKSNHGLLTTLAWGLDGKVEYALEGSIFVSGSAIQWLRDGLQMIETSPQSEKVAGEVNSSDGVYVVPAFVGLGTPYWDSEARGAVFGLTRGTTKAHFVRATLDSLAYQTKDVVNAMVEDSGLELKTLRVDGGAVKNNMLMQFQSDLLNVNVERPEVNETTALGAAYLAGLAVGFWEDRREIENQWKVEREFQPGMEEKKTQTLYKGWQKAVEATRVFKPEE	PGPT0018435_3425	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0018435-glpK-K00864	NA	NA
AK012_02263	1668	glpD	COG0578	Aerobic glycerol-3-phosphate dehydrogenase	ATGCAATCATTTTCAAGCCTGGAAAGACAACGTCAATTTGAACGCCTGACTCAGGAAGAGTGGGATGTACTCGTTATTGGTGGAGGAATTACCGGTTCAGGAATCGCTCTGGATGCTGCCAGCCGCGGCATGAAAACTGCAGTTGTTGAAATGCAGGACTATGCAGCCGGAACATCCAGCCGCTCTACGAAACTCGTACACGGGGGACTGCGTTATTTGAAGCAGTTTGAAGTTAAGATGGTGGCAGAAGTCGGAAAAGAACGGGAAATCGTATATGAAAACGGCCCGCACGTAACGACTCCTGAATGGATGCTGCTTCCATTCCACCAGGGTGGAAACTTCGGCCCGTTCTCTACCAACATCGGTCTGCGCGTCTATGATTACCTGGCTGGTGTTAAGAAATCCGAGCGCCGCTCCATGATGAGTGCAGAAGAAGCGCTTAAGCGTGAACCTCTCATCAAACAGGATGGATTAAAAGGAGCCGGTTATTACGTAGAATATAAAACAGATGACGCCCGCCTGACTCTTGAAGTCATGAAAAAAGCGGTTGAATATGGCGCCAACTCTTCCAACTACTCCAAAGTTGTGGACTTTATCTACAGTGATGAAGGTAAAATCGTTGGAGCCGTAGTGGAGGATTTAATCACAGGTGAGCAGTATAACGTGAAGGCGAAGAAAATCATCAATGCCGGCGGTCCATGGGTGGATGAGCTTCGTGAAATCGATGGCTCCAAGAAAGGGAAAACACTGCAGCTGACCAAAGGTGTTCACCTTGTATTCGACCAGTCCGTATTCCCGCTGAAGCAGGCGATTTACTTCGACAGCCCGGACGGTCGTATGATTTTCGCTATTCCTAGAAACGGTAAAACGTATATTGGTACAACGGATACAGTGTACGATCAGGATATTTCCCACCCGACGATGACGGAAGAGGACCGCGATTATATTATCAAAGCGATGAACTACATGTTCCCAACCGTCAAAGCAACGAAAGAAGATGTGGAATCCAGCTGGGCCGGCCTCCGTCCTCTTATTCATGAGGAAGGCAAAGATCCATCTGAAATTTCCCGTAAAGATGAAATTTTCGTTTCTGATTCCGGTCTGATTTCCATGGCTGGTGGTAAGCTGACAGGTTACCGTAAGATGGCTGTGACTGCCGTGGATCTTGTCCGCGATCAGTTGATGGAAGAAACCGGCGTCCGCTATTCTGATTCCGAGACGAAGCGCATGGCTATTTCCGGAGGAGAAGTAGGCGGTTCTAAAGGATTCAAGCAGTTCAAGGAAGAACGCTTGAAAATTGCTGAGTCCATCGGTATCGATAAAGAGGAAGCAGATAAACTGATCCAGCTTTACGGTGCCAACGTGGATAAAGTGTTCAACAACTTCCAAAACCGTAAGCAGGAAGCAGAGAACGAAGGCATCGATCCAATCGTCTTTGCTCAGCTTGCTTATGCTCTTGAAGAGGAAATGACCTTCAAGCCGGTGGACTTCTTCATCCGTCGTACGGCTGCCCTGTTCTTCAATATCCAATGGGTACGCGATCATAAGGACAGCGTTATTGACTATATGGCTGAATCCTTGAACTATACAGATGAGCAGAAGAAAGAATACACGGAGCAGCTGGATCAGCTTCTAAAAGAAGCCGTCACACCTGTTGAATATGTATAA	MQSFSSLERQRQFERLTQEEWDVLVIGGGITGSGIALDAASRGMKTAVVEMQDYAAGTSSRSTKLVHGGLRYLKQFEVKMVAEVGKEREIVYENGPHVTTPEWMLLPFHQGGNFGPFSTNIGLRVYDYLAGVKKSERRSMMSAEEALKREPLIKQDGLKGAGYYVEYKTDDARLTLEVMKKAVEYGANSSNYSKVVDFIYSDEGKIVGAVVEDLITGEQYNVKAKKIINAGGPWVDELREIDGSKKGKTLQLTKGVHLVFDQSVFPLKQAIYFDSPDGRMIFAIPRNGKTYIGTTDTVYDQDISHPTMTEEDRDYIIKAMNYMFPTVKATKEDVESSWAGLRPLIHEEGKDPSEISRKDEIFVSDSGLISMAGGKLTGYRKMAVTAVDLVRDQLMEETGVRYSDSETKRMAISGGEVGGSKGFKQFKEERLKIAESIGIDKEEADKLIQLYGANVDKVFNNFQNRKQEAENEGIDPIVFAQLAYALEEEMTFKPVDFFIRRTAALFFNIQWVRDHKDSVIDYMAESLNYTDEQKKEYTEQLDQLLKEAVTPVEYV	PGPT0006775_1877	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DEHYDROGENASE_ACTIVITY,PGPT0006775-glpA|glpD-K00111	NA	NA
AK012_02264	819			hypothetical protein	ATGACAGATATTCGGGCGTTGATGCTAAAAGATGCAAGGAGACAGGTGGTAACGGGGGGCTTGCTGCTGCTTATGGGCATTTTCTTTCTTATTTCCATTTTATTTTACCAGGAGGCCTCCTTTATTCTTTCCCTGATCTACTTTCCTTTGTTTTTCGTAACGGGAGCGGGGTTGTTTGTCAATGGGATGAACGATTTCAAAAAGTCCAGGTATACAAGTATTCCGACAGTGGTCTCCGGGGTTGAAACCACCTATCCTCTTTTCCCGAAGCGGATGTATCTCGGCCAGCAGGATCTCAGAGATGATCAGGCGGGTCTTTATGATATGAATGGAGAACGATATGCCCGGGCGGACGAAGAACATCATTGGAAACATAAACCTGCAGCTGTTGTTTCCCGCTGGCTTTCTTTTCCGGCTGTTAAATCAGGTTCTTTTATTTATAAAGATGAGCATCATGCATTTCAGTACCGCCTGGAGAAAAAGGGCGGCTTCAAGTGGCGGGGCTATATTCAGAATGAAGAAGGACGATATACGGCTTACACAAAAGAGTGGAAAGGCGCAGGTGGGAAGCGGAGCATCGCTTTTATTGAAGGGAATGTGCTCCGATGGCAGCTCGAAGGCGACCGGTATCTCGGCCAATACAAGTTGAAAGATGAGAATGGCAGGGTCTGGGCGGAGATTAAGCAGGGAGCTATTCCGACCGAAGCGGCCGACCGTTTCGGGAATATGCCGGGATTTATCGTAGAATGGTCTGTAAGGGAGCAGGTTCCTTCCTCCCTTGTCGCTTTTCTCTTTTTATTTCAATACGGGAACTATTAA	MTDIRALMLKDARRQVVTGGLLLLMGIFFLISILFYQEASFILSLIYFPLFFVTGAGLFVNGMNDFKKSRYTSIPTVVSGVETTYPLFPKRMYLGQQDLRDDQAGLYDMNGERYARADEEHHWKHKPAAVVSRWLSFPAVKSGSFIYKDEHHAFQYRLEKKGGFKWRGYIQNEEGRYTAYTKEWKGAGGKRSIAFIEGNVLRWQLEGDRYLGQYKLKDENGRVWAEIKQGAIPTEAADRFGNMPGFIVEWSVREQVPSSLVAFLFLFQYGNY				NA	NA	NA	NA	NA
AK012_02265	1185	hisZ	COG3705	ATP phosphoribosyltransferase regulatory subunit	TTGGTGAAACGTCTGATGTTTGAAAAACCATTGGGAATGCGGGACACGCTTCCCTTTTTTTATAAACAGAAATCAAAAGCGAGAAGAAATTTATCTGAAACCATTTTATCCTACGGCTATTCGTTTATGGATACGCCGATTATGGAATATCACGATACCGTCGGTCAGGTGAGTGCGACGCTTGATCAGCAGCTGTTCAAGCTGCTTGACCAGCAGGGGCATACTCTTGTCCTCCGCCCGGATCTAACGGCTCCGATCGCCCGCGTTGCGGCTTCTCAGTTGAAAAACAGCGAGTTCCCTCTCCGCCTGGCTTATGACGGCCCGGTCTTCCGTGCGCAGCAGGCAGAAGGTGGAAAGCCCGCGCAGTTTGAACAGGTGGGGACAGAACTCATCGGTGACCATTCGTCCTATGGAGACGCAGAAGTGATCGCTCTCCTTGTTGACTCATTGAAGCAGACAGGACTGGACGACTTTGTCATTACAGTCGGCCATATCGGCTATGTCAAAGCTTTTTTCACCGACCTGCTTGGCGATGATGAAGAAACCATTGATGAGCTGTTGAACTATCTCTATCGAAAAAATTATGTCGGCTATAGAGAAGCTGTGAAATCCCTGGATGCCCAGGCGGATAAAAAGCAGTCCCTTCTTCAGCTGCTCACGTTAAAAGGCGGAGAGGAAATCTTCGAATACAGCCGCTCGCTTGCCCGCAACCAGTCCTGCATGCAGGCGGTGAACGAGTTGAAGCAGCTGCACCGTCTTCTGGAGCAGTACGGCGTACAGCAGTACATTCAGTTTGATTTGAATTTGATCAGCCATATGGATTACTACACAGGGGTGTTGTTCGAAGGATACGCCCCTCACCTTGGAGCGATGCTCTGTAATGGAGGGCGCTATGATACACTTCTGCCTTCTTTCCAGTTGAACGCATCAGCAACAGGATTCGCCATTCACCTGGAGCGTTTGGTCGAGGCCTTGAATGACCAGGAGGATGAAGACGGGCGCATGGCTGTCATTGTGGACGACGAAACACACAGCCGCGGCATCGAAGAAGCGAAAAAATACCGCCGGGAAGGATACGCCGTTCTGCTGCAGCACGTCGATCAGATCCCTGATATTCAGGCTTTCCAGCAGGAGCTTTCCCAAACGGTCGATTTAACGAAAAAAGGAGGGAATCAGAATGAGTAA	MVKRLMFEKPLGMRDTLPFFYKQKSKARRNLSETILSYGYSFMDTPIMEYHDTVGQVSATLDQQLFKLLDQQGHTLVLRPDLTAPIARVAASQLKNSEFPLRLAYDGPVFRAQQAEGGKPAQFEQVGTELIGDHSSYGDAEVIALLVDSLKQTGLDDFVITVGHIGYVKAFFTDLLGDDEETIDELLNYLYRKNYVGYREAVKSLDAQADKKQSLLQLLTLKGGEEIFEYSRSLARNQSCMQAVNELKQLHRLLEQYGVQQYIQFDLNLISHMDYYTGVLFEGYAPHLGAMLCNGGRYDTLLPSFQLNASATGFAIHLERLVEALNDQEDEDGRMAVIVDDETHSRGIEEAKKYRREGYAVLLQHVDQIPDIQAFQQELSQTVDLTKKGGNQNE				NA	NA	NA	NA	NA
AK012_02266	639	hisG	COG0040	ATP phosphoribosyltransferase	ATGAGTAAGCCTTTAACAATTGCCATGCCGAAAGGACGAATTTATAAAGAAGCGGCTGCCCTTATGGAAAAGGCCGGCTATTCACTTGGAGCCGATCTGGACGATTCCCGTAAATTGATTCTCGAGTTTCCTGACCAGAATATCCGGGTCATGATGGCCAAACCGATGGATGTAGTCACGTACGTAGAATACGGGGCAGCTGATATCGGCATTGCCGGAAAGGATGTCCTGTTGGAACAGGACCGGGATGTCTATGAAGTGCTGGATTTGAAGATCAGCCCGTGCTACGTAGCGGTTGCCGGTCTACCTGATCAGCCGTTAAGCCGGATTGCTCCTAAAATTGCCACGAAATATCCGAAAGTCGCCTCCGATTATTTCCGGGAGCAGGGCGAACAGATTGAAATTATCCCCCTGAATGGTTCGATTGAACTTGCCCCGCTGATTGGTCTGGCCGATCGGATTGTCGATATTGTATCTACCGGACGAACGCTGAAGGAGAACGGTCTCGTCGAGTATGAGAAGATTGCCGATATCACCTCACGATTGATCGTGAATCCTGTCAGCTACCGGTTGAAGAGTACAGAGATTGAACAGATGGTCACCAATTTAAGCGAAGTGATGGAGGGGACCCGCCCATGA	MSKPLTIAMPKGRIYKEAAALMEKAGYSLGADLDDSRKLILEFPDQNIRVMMAKPMDVVTYVEYGAADIGIAGKDVLLEQDRDVYEVLDLKISPCYVAVAGLPDQPLSRIAPKIATKYPKVASDYFREQGEQIEIIPLNGSIELAPLIGLADRIVDIVSTGRTLKENGLVEYEKIADITSRLIVNPVSYRLKSTEIEQMVTNLSEVMEGTRP	PGPT0017400_3869	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
AK012_02267	1275	hisD	COG0141	Histidinol dehydrogenase	ATGAGGATCATGAATAAATCGGATCTGCCTTCATTAAAGCGCAGTGTTGACCAGGGGACAGAAGAGCAGCGGAAATCGGTCCAAACGATCATTGCCCGCGTGAAAGATGAGGGCGATGAAGCTGTACGAGCTTTTACCGAACAGTTCGACGGTGTCACCCTTGAGGATATGAAAGTAACGAAAGAAGAGTTTGAACAGGCCTATCAATCCGTCGATGGAGAGTTTGTCAGCATTCTGGAGGAAGCGGCGGCCAACATCCGCTCCTTCCATGAGAAGCAGAAAACTTCCTCATGGTTCGATACGAATTCCGACGGGACGATGCTCGGACAGAAGATTACGCCGATTGAGGCTGCCGGCGTTTACGTCCCGGGTGGAACAGCGGCTTACCCCTCTTCGGTATTTATGAACGTCATTCCTGCTCAAGTAGCCGGTGTAGAAAAAATCGCCATGGTTACGCCTCCGGGTAAAGATGGACGAGTACCGGACGGGGTGCTGCTGGCCGCCCATATTCTTGGTGTGGACCATGTCTATAAAGTGGGCGGAGCCCAGGCGGTTGCCGCTCTTGCCTATGGTACGGAAACGATTCCGGCTGTCGATAAAATCACAGGCCCCGGGAACGTATTTGTAGCTCTTGCCAAGCGTGAAGTATTCGGTGATGTAGATATCGATATGATCGCCGGGCCGAGTGAGATCGCTGTCCTTGCCGACGAAACGGCGAAGGCAGAAGAAATCGCTGCAGATCTGTTGTCCCAGGCTGAACACGATGCCCGCTCTTCCAGTGTCCTTGTAACAACGAGCCCGGGACTTGCGGAGAATGTCAAGGAAGCGGTGCTCCAGCAGGTAGAGAAACTACCCCGTAAGGAAATCGCCGGGAAAAGTGTGGAAGACTATGGGATGATCGTTCTGTGCAGGGATCATGAAGAAGCGGTGGCGGCTGTTAATGAAATCGCCCCCGAACACCTCGAAGTGATGACTGCAGCCCCTTTTGATGATCTTGGAAAGATCAAGCATGCGGGCGCTATATTCCTCGGCCCATACAGCAGTGAACCTGTGGGGGATTATTTCGCCGGACCGAACCATGTTCTCCCGACCAATGGGACCGCACGTTTTTCCAGCCCGTTGAATGTCGATGACTTTGTGAAAAAATCAAGCATTATCTCTTACAGTGAACAGGCGTTGAAGACGCATGCAGATAAAATTGCCCGCTTCGCCAGACTGGAAGGCCTTGAAGGCCACGCCCGGGCCGTTGAAATCAGAAAGGAGCGCTGGACATGA	MRIMNKSDLPSLKRSVDQGTEEQRKSVQTIIARVKDEGDEAVRAFTEQFDGVTLEDMKVTKEEFEQAYQSVDGEFVSILEEAAANIRSFHEKQKTSSWFDTNSDGTMLGQKITPIEAAGVYVPGGTAAYPSSVFMNVIPAQVAGVEKIAMVTPPGKDGRVPDGVLLAAHILGVDHVYKVGGAQAVAALAYGTETIPAVDKITGPGNVFVALAKREVFGDVDIDMIAGPSEIAVLADETAKAEEIAADLLSQAEHDARSSSVLVTTSPGLAENVKEAVLQQVEKLPRKEIAGKSVEDYGMIVLCRDHEEAVAAVNEIAPEHLEVMTAAPFDDLGKIKHAGAIFLGPYSSEPVGDYFAGPNHVLPTNGTARFSSPLNVDDFVKKSSIISYSEQALKTHADKIARFARLEGLEGHARAVEIRKERWT				NA	NA	NA	NA	NA
AK012_02268	594	hisB		Imidazoleglycerol-phosphate dehydratase	ATGACAGAACAAAGAAACGCCGGCATCGAACGAAAAACAAGAGAAACAGATATCAGCCTCGACTTTACGATTGACGGTCAAGGCAGGGCGGATCTGGACGTACAGGTTCCGTTTCTTTCCCACATGCTGGAACTGTTCGCCAAACACGGACTCTTTGACCTGACAGTCAGAGGGTATGGAGATGTGGAGGTGGACGACCACCATTTAACCGAGGATATCGGTATTTGTCTCGGCCAGACGCTGCGCCGGGCCATGGGAGATAAATTCGGAATGAAACGGTATGGATCGATGACGCTTCCGATGGATGAAACGCTCGTAACTGTAGCCGTTGATTTAAGTGACCGGCCACATTTGGAATGGCGTGCTGAACTTCCGAAAGACCGGGTGGGTACCTTTGATACCGAGAATGTCCATGAATTCTTCTGGAAGCTGGCGGTGGAAGCCAGAATGAACCTTCATATCGTCCTTCACCACGGGCACAACACCCACCACATTATTGAGGCTATGTTTAAGGCTTTGGGACGCGCGTTGGATGAAGCCACTCAGATTGATCCACGGGTACAGGGAGTGCCTAGTACGAAGGGGAGTTTGTAA	MTEQRNAGIERKTRETDISLDFTIDGQGRADLDVQVPFLSHMLELFAKHGLFDLTVRGYGDVEVDDHHLTEDIGICLGQTLRRAMGDKFGMKRYGSMTLPMDETLVTVAVDLSDRPHLEWRAELPKDRVGTFDTENVHEFFWKLAVEARMNLHIVLHHGHNTHHIIEAMFKALGRALDEATQIDPRVQGVPSTKGSL	PGPT0020305_15	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020305-hisC-K00817	NA	NA
AK012_02269	630	hisH	COG0118	Imidazole glycerol phosphate synthase subunit HisH	ATGATTGGTGTGATCGATTACGGTATGGGCAATCTCTTCAGTGTTTCCAAAGCACTGGAGCGTTTAAATATTGAATACAAAATCGGGGACCGTCCCGATCAGCTTCATGGATGTGATGGGTATATCCTTCCTGGAGTAGGAGCTTTTCCTGATGCGATGAAGGCATTAGCGGAGCACCAGTTCATCGGTTTCATCCACCAGAAAGTAGACGAAGGGGTGCCGCTGTACGGCATATGCCTCGGGATGCAGCTTCTTTTTGAAGGCAGTGAAGAAGGTGGTCAAACGGATGGGCTTGGACTCTTCACCGGGACGATCCGCCGTTTTTCCGGAATGGATGAAAGCGGCCGGGCCTACAAAGTCCCGCATATGGGGTGGAATCAGATGAATATCCATCGTCCGGAAAAAGAACTGCTGACAGACGTGGAGGATGAATATGTCTATTTCGTTCACTCCTATGCCGCTGTCACCGACGATGAGGATCTATTATATGCCACCGCAGATTATCATGGAGCCGTGCCGGCCATTGTGGGACGGGATCACGTGGTGGCCAGTCAGTTCCACCCGGAAAAAAGCGGTCGTGCAGGGATGCAGCTGTTGGAAAATTTCTGCCGGGTGATGTGCAGACAATAA	MIGVIDYGMGNLFSVSKALERLNIEYKIGDRPDQLHGCDGYILPGVGAFPDAMKALAEHQFIGFIHQKVDEGVPLYGICLGMQLLFEGSEEGGQTDGLGLFTGTIRRFSGMDESGRAYKVPHMGWNQMNIHRPEKELLTDVEDEYVYFVHSYAAVTDDEDLLYATADYHGAVPAIVGRDHVVASQFHPEKSGRAGMQLLENFCRVMCRQ				NA	NA	NA	NA	NA
AK012_02270	732	hisA	COG0106	1-(5-phosphoribosyl)-5-[(5-phosphoribosylamino)methylideneamino] imidazole-4-carboxamide isomerase	ATGAGTTTTACGATTTATCCTGCGATCGACATGCGCGGCGGGAAATGCGTGCGATTGGAACAGGGAGATTTTAATAAAGAGACCGTATATGGGGAAAACCCTTTTGATGCTGCGAAGCAGTTTGCGGAAGCCGGCGCGTCCTGGATTCATATGGTGGACCTGGATGGAGCGAAAGAAGGGTCCAGACAGAATGCTGAATTTGTGCTTCAGGCAGCTGAGGAGTTGAATTGCCGGGTTCAGATCGGCGGCGGTATCCGGTCTGAAGCGGATGTTCAGTATTACTTGGATCAAGGCGTCGATCGTGTCATTATTGGTTCCCTTGCGGTGAGTGATATCAAAACGACTAAGAAGCTTCTTTCTAAATACGGCAGCCGCATCGCTATCGGGCTTGATGCGAGAGACGGGTTTGTGTCCACGGCCGGATGGCTGGAACAGTCTGAAATCAAAGCTGTTGATCTGGCGAGGGAACTGGTGGAAGCCGGAGCCCGGACCTTCATTTATACGGATATTGCTAAAGATGGAATGCTCTCAGGCCCGAATACGAAAGAAATAGTGCGCCTGGCTGAAGAAGCCGGCGTCGATGTCATTGCCTCCGGAGGCATCAAGGACCTTGGAGATCTTCAGGAATTAAAACAGTACCGGGATCGGAATGTTTCCGGCTCAATCGTAGGAAAAGCGCTGTATACGAATCAGTTCACGCTGCAGGATGCCCTCGCTGTGGAGGTGGAGTAA	MSFTIYPAIDMRGGKCVRLEQGDFNKETVYGENPFDAAKQFAEAGASWIHMVDLDGAKEGSRQNAEFVLQAAEELNCRVQIGGGIRSEADVQYYLDQGVDRVIIGSLAVSDIKTTKKLLSKYGSRIAIGLDARDGFVSTAGWLEQSEIKAVDLARELVEAGARTFIYTDIAKDGMLSGPNTKEIVRLAEEAGVDVIASGGIKDLGDLQELKQYRDRNVSGSIVGKALYTNQFTLQDALAVEVE				NA	NA	NA	NA	NA
AK012_02271	759	hisF	COG0107	Imidazole glycerol phosphate synthase subunit HisF	ATGCTTTCCAAAAGGATTATTCCATGTCTTGATGTGAAAGAAGGACGGGTGGTCAAAGGGATCCAGTTTGTTGATATAAGGGATGCCGGAGATCCTGTTGAACTTGCCAAGGTTTATGATGAGCAGGGAGCTGATGAACTCGTCTTCCTTGATATATCCGCCAGTCACGAAGGAAAGAAAACGATGATTGACGTCGTCCGCTCGGTTGCTTCAGAGCTTGCGATTCCTTTTACAGTCGGTGGGGGGATCCGGACCCTTGAGGATATCAAGGAGGCGCTGAGAAACGGGGCCGATAAAGTATCCTTGAATTCATCCGCCGTCCAGCGTCCTGAGTTAATTACCGAAGGCGCGGATTATTTTGGCAGCCAGTGCATCGTCGCGGCCATTGACGCCAGATACGATGAGCAGACCGACAATTGGATCGTCTACACCCATGGAGGACGGACGCCGACGGAATGGCTCCTGACCGACTGGGCTCAGGAAGCGGTGAAGCGCGGCGCGGGTGAAATTCTGCTGACATCCATGAATAAGGACGGGGAAAAGACTGGTTTTGATCTGCCGATGCTGGAAGCTGTCCAAAACGTCGTAAGCGTTCCGGTCATTGCATCAGGCGGTGCCGGCTCCAGTGAGCATTTTTATGATGTATTTACAAAGGTGGATGCAGACGCGGCTCTGGCTGCTTCGATTTTCCACTACAAAGAAACATCTGTAGGAAACGTGAAACGTTACTTAAAAGATAAAGGGGTGCCGATCCGATGA	MLSKRIIPCLDVKEGRVVKGIQFVDIRDAGDPVELAKVYDEQGADELVFLDISASHEGKKTMIDVVRSVASELAIPFTVGGGIRTLEDIKEALRNGADKVSLNSSAVQRPELITEGADYFGSQCIVAAIDARYDEQTDNWIVYTHGGRTPTEWLLTDWAQEAVKRGAGEILLTSMNKDGEKTGFDLPMLEAVQNVVSVPVIASGGAGSSEHFYDVFTKVDADAALAASIFHYKETSVGNVKRYLKDKGVPIR	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
AK012_02272	624	hisI		Histidine biosynthesis bifunctional protein HisIE	ATGAACATCAGTGAAGTGAAATTTGACGAACAGGGCCTAGTACCGGCGATTGTCCAGGACGAGCGCTCAAAAGAAGTGCTGACACTGGCTTATATGAATAAAGAATCCCTCAAAAAAACGCTGGAGGTTGGAGAAACCGTCTTTTACAGCCGTTCAAGAGAAGAGTTGTGGCACAAAGGAGAAACGTCCGGAAACACTCAGAAGGTGAAACAGATCAAGTATGACTGTGATCAGGACGCTCTGCTCCTGCAGGTCATCCCGGCTGGTCCTGCCTGCCACACGGGGAGCTACAGCTGTTTTTCTAAAACATTGACCGGAGAACACACAGAAGGTGAGGAAAACCGCTATGCTATTCTCGATGAACTGCAATCGGTCCTGGCGGAAAGGAAATCTCTTCTTCCGGAAGGCTCTTATACGTCCAAGCTTTTCCAGGAGGGTGTCGACAGGATCGCTAAAAAAATCGGGGAAGAAGCAGGGGAAGTGATTATTGCCGCTAAAAATGATGACCCTTCCGAGATGGCTCTTGAATCTGCCGATCTTCTTTTCCACCTTCTGATGATTCTGACAGACCGTGGTGTGCCGTTTGATGATGTTCTTCGTGTGCTGGAGGAAAGACATTCCTAA	MNISEVKFDEQGLVPAIVQDERSKEVLTLAYMNKESLKKTLEVGETVFYSRSREELWHKGETSGNTQKVKQIKYDCDQDALLLQVIPAGPACHTGSYSCFSKTLTGEHTEGEENRYAILDELQSVLAERKSLLPEGSYTSKLFQEGVDRIAKKIGEEAGEVIIAAKNDDPSEMALESADLLFHLLMILTDRGVPFDDVLRVLEERHS				NA	NA	NA	NA	NA
AK012_02273	1026	bepA		Beta-barrel assembly-enhancing protease	ATGACAACATCAGTAAAAGGGACAGCGGCACGGCAGGATACGAACATTATCCCATTTCTGCCATCCGGTAAGTTTTATTTTACCCATGGGATTCAGGCTTTTCAGAAGCGTCGTTTCAATGCCGCTGTCAAGTGGCTGAAGAAAGCTATCGAAGCCTCTCCCGAAGAACCTCTATATCCATGCCAGCTTTCAGTGGTCTACACGGAAGTTGGCTCTTATCATGCAGCCAACCAGGTGTTGACGGAAGTACTTGCCAATTTTGGCAGAGAATACGTCGACTGCTATTATTTGATGGCGAACAATTACGCTCACCTTGGGCTGCTCAGTGATGCGAAAAAGTATGTCGATACGTACCTTGAACAACCAGGTGATGGGGAATTCGAGGAAGCGGCTGAGCAGTTGAAGGAAATGCTGGATTCGCTGGAGGAAGAGGAAGAAGAGGATGAGGACGAGTGGGCTTTTGAAGACGAAGATGAGCTTTTGATCTATCAGGAAACGGCCTTTTATCATTTGGAGCAGGAAGAATGGGACCAGGCGCTCCAGCTTCTTGAAGAAATGATGGACATGTTCCCTGAATTTACGATGGCGAAGCATAAGTATGCCTTCGCTCTATATATGAACGGCAGTCAGGAAGAAGCGGTGGATCTCGAGCGTTCCATTTTGGCGGAGGACCCTTCCGACATTCACAGTCATGTGAACCTTGCTGTATTTTACTTGAAAAATGGGCAGCAGGAGGAAGCTATGCATCATATCCATCAGCTGCGCAATGTCTTCCCCATGCATGAACAGCAGAAACTGGCTGTAGCAGAAACGCTGGCACGGGCAGGGTTTTATCAGGAATCCATTGAACGGTTCCGCGCGCTGAAGGATAAGCAGGTGGTGCGTAGACGTGTGTACTACAAGTGGTACAGCATCGCTCTTTACCATACCGGTCAGCCGGCGAAGGCTCTCCAAATGTGGGAAAAGGGCTGCAAGCAATTCCCTAAACTGGCTGAGGAAGGCGGTCCCTGGTCGAATCAGCTGTAA	MTTSVKGTAARQDTNIIPFLPSGKFYFTHGIQAFQKRRFNAAVKWLKKAIEASPEEPLYPCQLSVVYTEVGSYHAANQVLTEVLANFGREYVDCYYLMANNYAHLGLLSDAKKYVDTYLEQPGDGEFEEAAEQLKEMLDSLEEEEEEDEDEWAFEDEDELLIYQETAFYHLEQEEWDQALQLLEEMMDMFPEFTMAKHKYAFALYMNGSQEEAVDLERSILAEDPSDIHSHVNLAVFYLKNGQQEEAMHHIHQLRNVFPMHEQQKLAVAETLARAGFYQESIERFRALKDKQVVRRRVYYKWYSIALYHTGQPAKALQMWEKGCKQFPKLAEEGGPWSNQL				NA	NA	NA	NA	NA
AK012_02274	951	trxB_3	COG0492	Thioredoxin reductase	ATGAGTGAAGAACGTATTTATGATGTGATTATCGCCGGCGCCGGCCCTGCTGGTATGACAGCAGCCGTTTACACGTCCCGTGCGAACCTGGATACGCTCATGATCGAGCGTGGAATTCCGGGTGGACAGATGGCCAATACCGAAGATGTAGAAAACTACCCGGGCTATGAAAGTATTCTTGGACCGGACCTTTCCAATAAAATGTTCGACCATGCGAAAAAGTTTGGTGCTGAATACGCGTATGGCGATATTAAAGAAGTGATTGACGGGAAAGAATATAAAACAGTTAAAGCCGGTAACAAGGAGTATAAAGCCCGTGCTGTCATCGTAACGACAGGCGCGCAGTACAAAGAACTCGGCGTACCGGGAGAAAAAGAACTCGGTGGACGCGGTGTATCCTACTGTGCCGTATGTGACGGAGCATTCTTCCGTGACAAAGAACTTGTCGTAGTCGGCGGAGGGGATTCTGCTGTGGAAGAAGGCGTATACTTGACCCGTTTTGCAAGCAAGGTAACGATTGTGCACCGTCGTGATGAACTTCGTGCCCAGAAAATCCTTCAGGATCGTGCCTTCGATAATGATAAGATCGATTTCATCTGGGATACAGTTGTGAAATCCATCAATGATCAAGATGGGAAAGTGGGCAGCGTGACCCTTCACAATAGAAAGACAGATGAAGAGTATGAATTCGATACCAACGGTGCTTTCATTTATATCGGCATGATTCCGTTGAGCCAGCCGTTTACAAGCCTGGGCATTACAAATGAACAGGGATATATCGAAACGGATGAAAATATGGAAACGAAAGTGCCGGGCGTCTTCGCAGCTGGAGATATCCGTGAAAAAGAACTGCGTCAAATTGTTACAGCAACAGGCGACGGCAGTATTGCAGCTCAGTCTGCACAGCACTATATTGAGAATCTTCTAGAGGAATTAAAAGTCGTCAATTAA	MSEERIYDVIIAGAGPAGMTAAVYTSRANLDTLMIERGIPGGQMANTEDVENYPGYESILGPDLSNKMFDHAKKFGAEYAYGDIKEVIDGKEYKTVKAGNKEYKARAVIVTTGAQYKELGVPGEKELGGRGVSYCAVCDGAFFRDKELVVVGGGDSAVEEGVYLTRFASKVTIVHRRDELRAQKILQDRAFDNDKIDFIWDTVVKSINDQDGKVGSVTLHNRKTDEEYEFDTNGAFIYIGMIPLSQPFTSLGITNEQGYIETDENMETKVPGVFAAGDIREKELRQIVTATGDGSIAAQSAQHYIENLLEELKVVN	PGPT0013060_6562	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK012_02275	363	mutX	COG0494	8-oxo-dGTP diphosphatase	ATGGAGGCAGGAGAGAACATTAAAGATTCGGTCGTGCGTGAGTTTAAAGAAGAAACAGGACTGGATATCGAAAACCCTGAACTGCGGGGGTCTTTTACTTTTATTATGAGGGAAGAAGAGAAGACTGCCCAGGAATGGATGATGTTCACCTTTTATACGACCAATTATTCAGGTGAACTGCTTGATGAAAGTGAAGAAGGTGAACTGGAATGGGTGCCTGTGGATGAAGTGCTGAAGAAGCCCATGGCTGAGGGAGACCGTGAGATCTTCAGACATATCCTAAGCAGTGATCACCAACTTTATGGAACATTTGTATATACGACGGATTTCCGATTGATTGATCAGGATCTGGATCCGTCTTGA	MEAGENIKDSVVREFKEETGLDIENPELRGSFTFIMREEEKTAQEWMMFTFYTTNYSGELLDESEEGELEWVPVDEVLKKPMAEGDREIFRHILSSDHQLYGTFVYTTDFRLIDQDLDPS				NA	NA	NA	NA	NA
AK012_02276	885	yvcJ	COG1660	Nucleotide-binding protein YvcJ	ATGCATGTAGATGCAAATGAAACTCAGCTGGTAATTATTACTGGAATGTCGGGGGCAGGAAAAACCGTGGCTGTTCAAAGCTTTGAAGATCTCGGTTTTTTTTGTGTGGATAACCTGCCGCCTGCCCTTCTGCCTAAATTTCTGGAATTGATGAAGGATTCCAGCAACAACATACAGAATGTGGCGCTTGTCATGGATCTGAGAGGCAGAGAATTTTTTGATGCGCTTTTTGATTCCCTGGACAGGCTTGGGAAGGAAAACTGGCTGCAGGAGCATATTCTTTTTCTTGATGCGGAGGATCAATCCCTCGTTTCAAGGTATAAAGAAACGCGCCGCTCCCACCCGCTTGCCAAAGAAGGGCTTCCTCTTGAAGGGATCCGCAAAGAACGGAAGATGCTCGATGAGCTGAGAGGCCGTTCCCAGACCATCATTGATACCACTTCGCTCAAGCCGAAAGAACTGCGGGAGCGCATTATTGAAAGCTACCGTCAGCAGGAGCAGCAGGTGTTTTCGGTTCAGATGGTATCCTTCGGTTTCAAATATGGGGTGCCGATTGATGCGGATTTGATGTTTGACGTGCGTTTCCTTCCCAATCCCCATTACGTGGAGCAGATGCGCCCGCTGACAGGGCTGAATTCTGAGGTGTCCTCGTACGTGTTCAAGTGGAGCGATACTCAGAAATTCCTGGAAAAGTTGAAGGACCTGCTTCAGTTCATGCTTCCCCAATACAAGCGGGAAGGCAAGAGTCAGCTGGTTGTGGCCATCGGCTGTACGGGTGGTCAACACCGTTCTGTAGCTTTGGCGGAGCATCTCTCCGAATATTTCTCCAGCGATTTCGTGACCCATGTGACCCACAGGGATATCGAAAAAAGGAAGGGTTTGTAG	MHVDANETQLVIITGMSGAGKTVAVQSFEDLGFFCVDNLPPALLPKFLELMKDSSNNIQNVALVMDLRGREFFDALFDSLDRLGKENWLQEHILFLDAEDQSLVSRYKETRRSHPLAKEGLPLEGIRKERKMLDELRGRSQTIIDTTSLKPKELRERIIESYRQQEQQVFSVQMVSFGFKYGVPIDADLMFDVRFLPNPHYVEQMRPLTGLNSEVSSYVFKWSDTQKFLEKLKDLLQFMLPQYKREGKSQLVVAIGCTGGQHRSVALAEHLSEYFSSDFVTHVTHRDIEKRKGL				NA	NA	NA	NA	NA
AK012_02277	903		COG0391	Gluconeogenesis factor	ATGCCCGTCCTCCTGCGGGGACTGAAAAAATTACCCGTTGACCTTTCGGCGATCGTAACGGTCGCTGATGACGGGGGAAGTTCTGGAAGACTGCGGACGGAAATGGCCATCCCTGCTCCAGGAGATATCCGCAATGTCGTCGCTGCTCTGTCTGATGCAGAGCCAATGCTGCTCGACCTGTTTCAGCACCGTTTTTCCAACGGGAACGGCCTTTCCGGCCATTCCATGGGAAATCTCCTGTTGGCAGCTATGGCGTCCATGACAGGGGATTTTTATAAAGGCATTAAGGAAATATCCCGGGTACTTAATGTACGCGGAAATATATATCCGATCGCCAATCACAGCATGAATCTTCATGCTGAAATGGAAGATGGAACGATTGTAACAGGCGAGTCGAGCATACCGAAGCAGGGAAAAAAGATCAAACGGGTGTTTGTCAGTCCTACACCGGTTCAGCCGCTCCCGGAAGCCGTTGATGCCATACAATCGGCAGATTTAATTGTCATCGCTCCGGGCAGTCTATATACGAGCATTCTGCCGAACATTATCATTCCTGAAATCGGCCATGCTCTTAAAGAAACAAAAGCGAAAGTAACGTATATCTGCAATGTCATGACGCAGGAAGGTGAGACGTCCGGCTATTCTGCGGGCGATCATATCCAGGCGTTGGTTGATCATATCGGCCGGGACGTGGTACAGTCAGTTATTGTGCATAACAGACCGATCGATCAGCAGGTCAGGAAAAAATATGCCGAAGAAAATGCCGAACCGGTTGTGTATGATATCGACCGGATTAAGTCCATGGGTGTCCAGGTAATTGAAGAAGATATTATTGACCATGATAAAGTGATGCTGCGCCACGATACAGCTAAATTGGCGCGTCTTTTACATTCCATGCTCTAA	MPVLLRGLKKLPVDLSAIVTVADDGGSSGRLRTEMAIPAPGDIRNVVAALSDAEPMLLDLFQHRFSNGNGLSGHSMGNLLLAAMASMTGDFYKGIKEISRVLNVRGNIYPIANHSMNLHAEMEDGTIVTGESSIPKQGKKIKRVFVSPTPVQPLPEAVDAIQSADLIVIAPGSLYTSILPNIIIPEIGHALKETKAKVTYICNVMTQEGETSGYSAGDHIQALVDHIGRDVVQSVIVHNRPIDQQVRKKYAEENAEPVVYDIDRIKSMGVQVIEEDIIDHDKVMLRHDTAKLARLLHSML				NA	NA	NA	NA	NA
AK012_02278	957	whiA	COG1481	putative cell division protein WhiA	ATGTCCTTTGCATCTGAAATAAAAAAAGAACTGACGAACGTGGAAGCGGATATGGGATCTATGGAAGCAGAACTGGCTGCGCTCGTACGGATGAACGGAACATTTTCTTTATCCAATCGACAGTACATTCTGGATGTGCAGACGGAAAATGCAGCTATAGCACGCAGGATCTATACGCTGATTAAGAAGCTGTATCCATACCCCGTTGAACTTCTTGTGCGGAAGAAAATGCGGTTGAAGAAGAATAATGTTTATATTGTAAGGCTTGCGGAAAAGGCTGATGTCGTTCTGGAGGACCTGGAGATATTAAAAGGCCCGTTATCCATCAATCCGAATATTCCAGAGAAATACTTGAAAGATACGGGGTGTAAACGGGCGTACTTGAGGGGAGCCTTTCTTGCGGGAGGTTCTGTCAATAATCCGGAAACTTCGTCTTACCATCTGGAGATTTATTCCGCTGATGAGGAACACAACGAAGCGTTGTGTAAGCTGATGAACAGTTTTGACCTGCACGCCCGTACGTTAAGCAGGAAAAAGGGGTACATCACCTATTTGAAAGAAGCGGATAAAATTACGGAGCTGATCAGCAATATCGGAGCCCATCAGGCGTTGTTCAAGTTTGAGGATGTCCGGATCGTTCGAGATATGAGAAACTCCGTAAACCGTCTCGTCAACTGTGAGACGGCGAATTTAAATAAAACCATCGGTGCGGCTTTCCGGCAGGTGGAAAATATTAAATTCATTAAACGGACCGTTGGTCTTGAGGCTCTTCCAGACAAGCTGCAGGAGATTGCCTCCCTGCGCCTGCAATACCAGGAAGTTTCATTGAAGGAACTTGGTGAATATGTTTCCGGTGGAACGATCAGCAAATCCGGCATTAACCATAGACTGAGAAAAATCGATGAATTCGCTGACCGTGTCAGAAAAGGTGAAGTCACAGAAAAGTCCATAAACTGA	MSFASEIKKELTNVEADMGSMEAELAALVRMNGTFSLSNRQYILDVQTENAAIARRIYTLIKKLYPYPVELLVRKKMRLKKNNVYIVRLAEKADVVLEDLEILKGPLSINPNIPEKYLKDTGCKRAYLRGAFLAGGSVNNPETSSYHLEIYSADEEHNEALCKLMNSFDLHARTLSRKKGYITYLKEADKITELISNIGAHQALFKFEDVRIVRDMRNSVNRLVNCETANLNKTIGAAFRQVENIKFIKRTVGLEALPDKLQEIASLRLQYQEVSLKELGEYVSGGTISKSGINHRLRKIDEFADRVRKGEVTEKSIN				NA	NA	NA	NA	NA
AK012_02279	255	crh	COG1925	HPr-like protein Crh	GTGTTGGAAAAAACGATTAAAATCGAATTGGAAACAGGTCTGCAGGCAAGGCCGGCTGCCTTATTTGTTCAGGAAGCCAATAAATTTTCTTCGGATATCTTTATTGAAAAAGAGGAAAAGCGTGTCAACGCGAAGAGCATCATGGGATTGATGAGTCTGGCGGTCGGCACAGACGAGGAAGTGAAAATCATCGCGGATGGCTCGGACGAAGAGCAGGCGATTCAAATGTTAACGGCTTTTGTACAACCTGCGTAA	MLEKTIKIELETGLQARPAALFVQEANKFSSDIFIEKEEKRVNAKSIMGLMSLAVGTDEEVKIIADGSDEEQAIQMLTAFVQPA	PGPT0016875_2530	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
AK012_02280	585	clpP	COG0740	ATP-dependent Clp protease proteolytic subunit	ATGAATTTAGTCCCTACAGTTATTGAACAAACAAACCGGGGAGAGCGTGCTTATGACATTTACTCCCGCTTGCTTAAAGACCGGATCATTATGCTCGGCAGCCCGATTGATGACAACATCTCGAACTCTGTTGTAGCTCAGCTGCTATTCCTTGCAGCCGATGATCCTGAAAAAGATATTTCCCTATACATCAACTCACCGGGTGGGTCTATCACTGCAGGAATGGCGATCTACGATACCATGCAGTTCATCAAACCGAATGTATCCACCATCTGCACAGGAATGGCCGCTTCCATGGGTGCCTTCCTTCTGAACGCTGGTGAGCCTGGGAAGCGTTATGCTCTTCCAAACAGTGAGGTCATGATCCACCAGCCTCTTGGCGGTACACAGGGTCAGGCTTCTGACATTGAAATCCACGCGAAGCGTATCATTAAAATGCGCGAAAAACTGAACCAGATCCTTGCTGAGCGCACAGGTCAGCCTTATGAAGTCATTGAGCGCGATACAGACCGCGACAACTTCATGTCCGCTCACGAAGCTGTAGAATACGGCTTGATCGATAAGGTCATGGAAAAGAACGTATAA	MNLVPTVIEQTNRGERAYDIYSRLLKDRIIMLGSPIDDNISNSVVAQLLFLAADDPEKDISLYINSPGGSITAGMAIYDTMQFIKPNVSTICTGMAASMGAFLLNAGEPGKRYALPNSEVMIHQPLGGTQGQASDIEIHAKRIIKMREKLNQILAERTGQPYEVIERDTDRDNFMSAHEAVEYGLIDKVMEKNV	PGPT0014595_8331	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014595-clpP-K01358	NA	NA
AK012_02282	984	xerD_2	COG4974	Tyrosine recombinase XerD	ATGCGCAAAATTAGACGGAGAGGCGTTGTGAAGCGTAGGGAAGCAGGCTTGGAGTACGAAGTTCATCGAGTATCTTTATCGCCTGAGAAAGCGGCTGAGCGACTCAGAAGCGTATATGAGTCGGAAGGATACCGGCCCAGAACGGTTAGGGACTATCTGAAGTATTGGCGTGAGTATTTCGTCATTATAAGTAAGGCGAATGTTCTCGAAGTTAACAAAGAAGATTTCAGACGGTATATTAACACTTTGCTAAACTTGCGGGGGTTATCCCCGGTCACTGTAAACATTCGTCTTGTGAGCGTCAAAGCGATGTTCTCAAGGCTAGTACAAGAGGAGATTCTTCAGGAAAACCCTGGTAAGGATATCCCTAAGCTCCGCATAGACGAGCAAAGAATATACGCTTTATCGGATCATCAGATTAGACGGCTATTTTCGATTATTAACATGGAAACGGTGGCCGGATATCGAGACTATTGCGCTATGCTTACGGCTTTATATTGTGGGTTGCGTTCGAACGAGCTGAACGCTTTGGAGATAGAGGACATAGATTTCGATAATAAAGTGATGATGTTACCTGGAGCAAAGAACAAAAATCGGAAAACACGTATGATTCCGATGACTGAAAAGATACGTGATGAACTAAGACAGTTAGTCTCTGAAAATCAAGAGAACTTTGGAAGAGATGTTACTCATGTGTTTGTTAACGCTTATGGTGATCCAATCAGGCATGATTTAATCCGGAAAAGGATGAATCAATACGGTAAAAAGAGCGGGTTAGATAAAGAGGGATGCCGTATATCCCCGCATACTCTCAGGCATAGTTTTGCCGTTCGATTCTTACGTGCAGGTGGAGACATTAAGACGTTGCAGACAATTATGGGTCACAGTGATATCTCAACTACTCAGGTTTACTTAAGGTATTCCGACAATGATTTATTTGAGAGATACCAAAAGACAAGTGAAAGAAATCAATTAGACATTTGA	MRKIRRRGVVKRREAGLEYEVHRVSLSPEKAAERLRSVYESEGYRPRTVRDYLKYWREYFVIISKANVLEVNKEDFRRYINTLLNLRGLSPVTVNIRLVSVKAMFSRLVQEEILQENPGKDIPKLRIDEQRIYALSDHQIRRLFSIINMETVAGYRDYCAMLTALYCGLRSNELNALEIEDIDFDNKVMMLPGAKNKNRKTRMIPMTEKIRDELRQLVSENQENFGRDVTHVFVNAYGDPIRHDLIRKRMNQYGKKSGLDKEGCRISPHTLRHSFAVRFLRAGGDIKTLQTIMGHSDISTTQVYLRYSDNDLFERYQKTSERNQLDI	PGPT0022000_2243	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MOBILE_ELEMENTS	CE-BACTERIAL_FITNESS-INTEGRASES|RECOMBINASES,PGPT0022000-xerD-K04763	NA	NA
AK012_02283	792			hypothetical protein	ATGGATAAGGAATACTTAACGATCGACCTGACAAAGTTATCGGATCAAGCAACGTTTGCTGCTCAAACGGAAATGGACGAGCGTATCTACGAATACATCGAACAGCTCCGGGATAATGAGGTGCCTGAGTCTGTCATCGAGGTACTACGATTTTTTGGGCGTTCCAGCCTTCGTATTTTAGGCGTATCCTTCGCCAAGTACCAAACGATTGCTAATGCAGTTGGAGTATCGAAAAGGACGGTCATACGTGCAATAAATAAGCTAGAAGATTACGGCATGGTCGAGCGTATCCCTACGTTGAAGAAGTGGACAAACGAACGTGGCGGTAAGCCCCGTAGAAAGTCCGTAAACATCATACGTATCTTGGCGGTGGCACCTCAAAGCGGCACTTCAATAGAAAGTGATGAGACTAGCACTACCGAGGGTTCGTGTGTCAAAAACTCTGTCGAACCATCTGAATCTAAACATATTCAAAAGCACTTACTAGATACGGGAGCTGCTACCGTAGAATCGTTGAAGAACTCGATACCTCCTACGTTGTACGATACGATGAGTCCGTTCTTTAACTTGAAGGACATGTATAAAGCCGTAGGAGCCTTGTATCGTGCCAAGTCAACCATCGATAGGGATATAAGGGTCGAGGATCATAGCGAATACATGGAGGCTTTCTTGTCCTGCATAAGGCGTTACAAAACGGGTAAGGTGCGAAATCTATCAAGCTATCTTTACCATGCGTGGGTTCGAGTGAGCAGAATGGTTAAACTGCGGGAAATGGCCGACCTCTATACCTAA	MDKEYLTIDLTKLSDQATFAAQTEMDERIYEYIEQLRDNEVPESVIEVLRFFGRSSLRILGVSFAKYQTIANAVGVSKRTVIRAINKLEDYGMVERIPTLKKWTNERGGKPRRKSVNIIRILAVAPQSGTSIESDETSTTEGSCVKNSVEPSESKHIQKHLLDTGAATVESLKNSIPPTLYDTMSPFFNLKDMYKAVGALYRAKSTIDRDIRVEDHSEYMEAFLSCIRRYKTGKVRNLSSYLYHAWVRVSRMVKLREMADLYT				NA	NA	NA	NA	NA
AK012_02284	636	xerC_2		Tyrosine recombinase XerC	ATGAACGTATGGTATCATTGTTTAATCGGTAAAACCATACATTCGGAAAGGGCGATGAATATGTCTTATGAAGGCGGAAAAAAGGGTGATGTAGTTAACGTTGAACCATTACGTACACCCGAGGAAATTAAGGAGTTTAGAGAAGCGTTAGTGATGTCGAAGCAAGCGGACAGGAACTTGTTACTCTTTAACATCGGGATCAACACGGGGCTGCGGATAGGGGATATCGTTAAATTACGTATAGAAGACGTTCGAGGTGTCTCAACGTTGAGGGTGTCCGAAGGGAAGACGAAGAAACCACGTCCGGTGCAGTTGAACGCCATTATGGGCGACATAGCCGATTATCTAGCCGGCAAACCCAGCGAGGGTTGGCTCTTCCCTAGTCGGAAGGGAAACAGTCATATAACGCCTACACAAGCCTATCGCGTCTATGCGAAAGCAGCGGATTTGCTAGGACGTAATGACATCGGCACTCACACCGGAAGGAAAACATTCGGCTACCACTATTATCAACGGACAAAAGACGTGGCGACGTTAATGGAAATATTCAACCACGCGGACCAGGCTACTACTAAACGCTACATCGGCATACGAAAGGACGAAATAGCGGATACATTGAAAGACTTCCGACTATAA	MNVWYHCLIGKTIHSERAMNMSYEGGKKGDVVNVEPLRTPEEIKEFREALVMSKQADRNLLLFNIGINTGLRIGDIVKLRIEDVRGVSTLRVSEGKTKKPRPVQLNAIMGDIADYLAGKPSEGWLFPSRKGNSHITPTQAYRVYAKAADLLGRNDIGTHTGRKTFGYHYYQRTKDVATLMEIFNHADQATTKRYIGIRKDEIADTLKDFRL				NA	NA	NA	NA	NA
AK012_02285	345			hypothetical protein	ATGTTGAAGTATATAAGACCGTCAATCTTCGGGGGATACAGTAAAGGCGTTAACCTTAAGAACATGACGTCGTTGGATCTAATGGAGATTGAATACGAGAACTTACGGAAGGACCCGCGTATCTACGAGGACGACGAGGAAGTGTTTGCGGAGTATCTTGAGGACGTTAAGAAGGTCGAAGATGCCATCGTTCATACTTACTTCGAGCTTAAAGGTGTGCCTCGGAATACCTCGTGGGAGCTGGCGAAGAACGGGAATTGGACACACGTCGATGTGTTGCGGTTCTTCAAAGAAGCATCGAAGGAAGCGGAGAGGATAAGGACGGAAAGTAAAGGGCGGACGTAG	MLKYIRPSIFGGYSKGVNLKNMTSLDLMEIEYENLRKDPRIYEDDEEVFAEYLEDVKKVEDAIVHTYFELKGVPRNTSWELAKNGNWTHVDVLRFFKEASKEAERIRTESKGRT				NA	NA	NA	NA	NA
AK012_02286	1209			hypothetical protein	ATGAAAGAACAAACGAGAATCAAAGTGGTGGATTCGATTATGGGGAGCGGGAAAACGCAATGGGCGATACAAACGATGAATGAAGCATCGATCGATGAAAAGTTCGTTTATATAACCCCGTATCTAGACGAGGTGCAGCGGATTAAAGATAACACGGACGGTTTCGTAGAACCTAATAATAGAAACTCGGAAGGAAGTAAAATGCGTAGCCTAAAGGAGCTGCTTGTTGCCGGTAAAAATATCGTTTCAACACACGCTTTATTTCGTACGGCCGACGAAGAATTGCTCGACTTGTTAAATGGAGCGGGCTACACGCTAATTATGGACGAGGTAATGGATGTTATCGACAAGGCAGATGTTACACAACGGGATATTCGAGACCTTATTGAATTAGGTCATATCGTCATTCGTAACGGGAAGGTTGTGTGGACCTGTGATGACTACGATGAAAGAGCAAAATATTCCGAAATAATGAACCTAGCGGAAAGTGGAACGCTTTTCTATCATCGAGATACGTTCCTTATATGGGCTTTCCCATCGCAAGTATTCGAAGCTTTTAATGAAGTGTACGTAATGACGTATTTGTTCAATGCTCAAATTCAACGTTATTACTTCGATTTATACGGTTTTGGATACGAATATTATGCCATCCGAAACAACGGTGAGAGTTACGAATTAGTCGAGCGTGACCTTCAAAACGAAGGGCGCGAAAAACTGCGGAGACTTATTAACGTCTATGAAGGTAGAAAGAACGAAGTGGGTAACCGAGAAAATGCTTTTAGCTCTACTTATCTAAGATACATGGATAGCAGTAAAGCAAAAGATATCAAGAATAAAATTTATGGTTACTTTAGGAATGATGTTAAGGCCAAAAGTAATCAAATTATCTGGACGACTCTAAAGGATACTCAGTCAAAACTTAGTGGGCAAGGTTATTCAAAAGCGTTTTTACAATGCAATGCTAGAGCGACTAATGAATATCAAGACAGGTGGGCGCTTGCTTATGTATTCAATCGATACATGAACCCCGTGGAAAAAGCTTTCTTTCAAGAGAATGGTGTAGAAGTTAATGAAGAGTTATTGGCAGTAAGCGATCTTTTACAATGGATCTACCGTTCTAGGATAAGGAAAGGTGAGAATGTGGAGTTATACCTGCCCTCGATGCGAATGCGCAGGCTCTTGGACAAGTGGGCTGACTATGAATTGTAA	MKEQTRIKVVDSIMGSGKTQWAIQTMNEASIDEKFVYITPYLDEVQRIKDNTDGFVEPNNRNSEGSKMRSLKELLVAGKNIVSTHALFRTADEELLDLLNGAGYTLIMDEVMDVIDKADVTQRDIRDLIELGHIVIRNGKVVWTCDDYDERAKYSEIMNLAESGTLFYHRDTFLIWAFPSQVFEAFNEVYVMTYLFNAQIQRYYFDLYGFGYEYYAIRNNGESYELVERDLQNEGREKLRRLINVYEGRKNEVGNRENAFSSTYLRYMDSSKAKDIKNKIYGYFRNDVKAKSNQIIWTTLKDTQSKLSGQGYSKAFLQCNARATNEYQDRWALAYVFNRYMNPVEKAFFQENGVEVNEELLAVSDLLQWIYRSRIRKGENVELYLPSMRMRRLLDKWADYEL				NA	NA	NA	NA	NA
AK012_02287	240			hypothetical protein	ATGAAGTTAACTGGTGAAATAATCCGGATTGTCAGGATGAACTTGGGGGTTAACCAAAGAAAGCTAGCAATGACGGCGGACGTCTCTGGTGCTTTAATCGGTCATATTGAACGTGGTGAACGAGTATTGACCGATAAAGTTGAACAGAAGATACGTAAAGCCCTCCCACTTACTGACTATGAAATTCAACTGGTCGTACAAGCAAACAGAACTATTAACAAGACGAAAAAATTAAATTAA	MKLTGEIIRIVRMNLGVNQRKLAMTADVSGALIGHIERGERVLTDKVEQKIRKALPLTDYEIQLVVQANRTINKTKKLN				NA	NA	NA	NA	NA
AK012_02288	216			hypothetical protein	ATGGCATACTACCCGAAAGAAGAACAAGAAACACTTTATAACTACGACGCACTGGACGGCTACTGGAGAGTGCACTCCACCTATCATCCTCATATTCGGAAGCTCCTGGATTATGCAACGATAATTAAGAAAGAAGAAGATGACATTGGCCGGGTGATTCTAGTTGATGGATACGTTGACAAGAATCAAATCCGCCTCTTTAAACCCCGCTTATAA	MAYYPKEEQETLYNYDALDGYWRVHSTYHPHIRKLLDYATIIKKEEDDIGRVILVDGYVDKNQIRLFKPRL				NA	NA	NA	NA	NA
AK012_02289	183			hypothetical protein	TTGGAATACAAACTAATGAACATAAGTATCGAGCAGAAACCACCGAGAGGTCGTTATGAGGACAAGGACGTCCACGCGAAGTCCAGCGATATTCTCGTATACAATCTCTACGATCAAACAAAGGAAGCTATCGAAGCAAACGGTCTATCAAGCCTATGGGCAAGGTTGGACCGGAGAAAATAA	MEYKLMNISIEQKPPRGRYEDKDVHAKSSDILVYNLYDQTKEAIEANGLSSLWARLDRRK				NA	NA	NA	NA	NA
AK012_02290	345			hypothetical protein	ATGAGCGAAGCGGAAAAAAGATTCACCCAAAAGGACGTCGATAGAATCGTCGAAGAACGGCTGAAACGAGACCGGATGAAGGCGGAAAAGGATCGTAAGGAAGTAGAGCAAGAAAAACGATCGAATTCACCCGATTATAAAGCGATCTACTTCAAGACGTTGAAGGAGGTAAAGCTGTTGCAGGCCGGGTTTGCACCGGAACAGACTGCGCGGTATAGCCGATATTTAGACGCGGAGACACCGGAGGGAGTCGAGGAACAAGCTCGTGAACTAGCTGAAATGGCCGTAGGCCGACAGCCGAGGAAACAGAGTCAATCGTCGATGAACGGCATTAGCTTTAAGTAA	MSEAEKRFTQKDVDRIVEERLKRDRMKAEKDRKEVEQEKRSNSPDYKAIYFKTLKEVKLLQAGFAPEQTARYSRYLDAETPEGVEEQARELAEMAVGRQPRKQSQSSMNGISFK				NA	NA	NA	NA	NA
AK012_02291	693			hypothetical protein	ATGGAAAGAAGAATATTCATGTACGAAGATAACGGGGATTATGAGCAGCATCGAGTCTACAAGGTTGGGTACGTAGAATCGTCACGGTTGATTACGGAAGGAAAGGGAACTGAAGTCATGTTTAGAGAGTACGATGCTTTCCGTAACCAGGCTCGAAAACTGGCCGATTCTTATAAGAGGGCAGAGACGAAGGTTAAAACGAGCGACAATCCGTTGCATACCGACGACTACAAGAACTATGAGCTCCGTAAGTTAAAGCGGAAATTCGAAGAAGACACGCAAGCGGTGGAAGACGAGTACCAGAAGTATCGTGAAAATGAGATCGAGGAAGCGAGGCAAAAGTCGGCACAGGCGACGATCCGCGTCACACAATCGGACAAACAGCTCGCGGAGCAACTAGCAAACCGTTTGGACTTGGAAGCGCAAGCAGCGATAAGTGACGCTCAAAAGGCAAATTTTATCGATCAAGCGAAGGAAAGTATCGGAAGACTTACGGATGAGCAGCGCACAGCCTTGCAGGGCGTAATCGGAAAGGTTCTCGTTCACTTGGACCAACGCCAGAAGCGCATGCTGATCAATAAAGTCTCGGACATTCGTAACATGGACGTCTTAGGAGCGAAGGTTGCCGAGCAGCTCCCGCCTAAGGTATCGATTGAATACGATCAACTCCGATTGATCAGACGTTGGAGCTAA	MERRIFMYEDNGDYEQHRVYKVGYVESSRLITEGKGTEVMFREYDAFRNQARKLADSYKRAETKVKTSDNPLHTDDYKNYELRKLKRKFEEDTQAVEDEYQKYRENEIEEARQKSAQATIRVTQSDKQLAEQLANRLDLEAQAAISDAQKANFIDQAKESIGRLTDEQRTALQGVIGKVLVHLDQRQKRMLINKVSDIRNMDVLGAKVAEQLPPKVSIEYDQLRLIRRWS				NA	NA	NA	NA	NA
AK012_02292	129			hypothetical protein	ATGCTTGAACATCGAGCACCAAAGCAGGCTTCAGTACGCGTACAGACGGCTTGCAAAACGGAGCAGCTCGCTGAGTTAGAAGGAACGGTTCGGCATAAAGGTGGAAGAATCATAGAGACGCACGCTTAG	MLEHRAPKQASVRVQTACKTEQLAELEGTVRHKGGRIIETHA				NA	NA	NA	NA	NA
AK012_02293	915			hypothetical protein	TTGCCTAAAAGAAAAAATGTCCGATTCGATTATTATAAAGTTTATGCAAAAACATTGAATCACGAAAAAGAAATCATGGAAGAAGCGCTTTGTGACTTAGATGATTTATTTAATCAACTTAAGGATATGGATGTTGTGGACAGAGTGTATAGAGTTGGTGATGATCAGGCTAGACTTCAAGGCTTAAACCAAAATAAAGATATGTGGGAGTTGCATTTTGTACGAATTAGAAAAAATGGTTTCCCTATAAAAACTCATGATGATGGAACCTATGGCTACTTTCAAGACTTGGGGGAAGAAGAAGGTTTTGGCGAGGAAGTATCAGTCTTATACGATCCAACTAACTATGTAATTATGGTTAGACGAAATATGCACAGTCTTGCTCCGTCGGCTATATCTAGTTATTTTACGGATGTCATAAATGAACCTGGTTTTACAGTGTTTTTTAAGCCTTTAATTCATCCGAAAGCTACTGACCTTCTGAAAAAAGACCATTTGATCAGAGGAGCAGAGATTTCTGTAGCAGACGTTAAGAATGCTAAGCCCAAAACTAGAAAATCTCTAGGGCAGATACTAAATAAGACAGATGAGATTAACGAAAATGTAAAGGTGACATTCAAAATTGGCATCCAACAAGAAGGGTCTAAAAAATATAGCCGCCTACCAGTGTATGAAGAGTTAGATGATTTAGTGGAGGACCCTGCTGTAGAGAGCGTAAAAGTTCGAAGGAAAGCTGATGAAGATGCTAAAGTGGAACCTATTGATTTGGTTAAACATAGATTGATAGATTATAGCGCCTTTACAGAAAAAGACATAAGTCCATTGTCCAGGAATATCCTTCATTCTACTGTAATGACTCGTATGCATATGCTTTATAAGAGAAGGATTGAGGAAATTAATGATGTTTACGTGTAA	MPKRKNVRFDYYKVYAKTLNHEKEIMEEALCDLDDLFNQLKDMDVVDRVYRVGDDQARLQGLNQNKDMWELHFVRIRKNGFPIKTHDDGTYGYFQDLGEEEGFGEEVSVLYDPTNYVIMVRRNMHSLAPSAISSYFTDVINEPGFTVFFKPLIHPKATDLLKKDHLIRGAEISVADVKNAKPKTRKSLGQILNKTDEINENVKVTFKIGIQQEGSKKYSRLPVYEELDDLVEDPAVESVKVRRKADEDAKVEPIDLVKHRLIDYSAFTEKDISPLSRNILHSTVMTRMHMLYKRRIEEINDVYV				NA	NA	NA	NA	NA
AK012_02294	507			hypothetical protein	TTGAGAATCGCAGAAAAAACTTACCCATATGTTCTAGGTGTAATAGTCGGGGCTGTTATTTTGTATTTGAAGGTTGAAATAAAAGATATTACTAATTTTAAAGACATTTTGAGTGCCACTATAACATTTAGCTCAATAATAATAGCCTTTTTAAGTACTATGGTATCTATTTTCGTATCACTCGCTAACTCAGATGTAATGCAAAGGATCAAGAATCAAGATGGTGAGGGGTTACTAACTTCATACATTGTTCAAACAGTAGTAGGTGGTCTGATTTTAGTGGTTTATTCCATGGTTCTTTTAATGTGCTTAAAGTATGAAGGGGATTACTCGAAGTATTTAATGAGCTTATACTTGTTCTTACTAACTTTTTTAATTTTTTCATCGTATAGAATTTTGAGTTTAACTTCTAATATTCTAAAAAGCGCATTAAAGGAATCCAAGAAGTTAAACCCTTCTTCCAAAAAAGAAATTGTCACGCCTAGGATTAAAAACCCCTCTGAATAG	MRIAEKTYPYVLGVIVGAVILYLKVEIKDITNFKDILSATITFSSIIIAFLSTMVSIFVSLANSDVMQRIKNQDGEGLLTSYIVQTVVGGLILVVYSMVLLMCLKYEGDYSKYLMSLYLFLLTFLIFSSYRILSLTSNILKSALKESKKLNPSSKKEIVTPRIKNPSE				NA	NA	NA	NA	NA
AK012_02295	507			hypothetical protein	GTGGGCGGGAAGAAAGCGGAGCTTATCACGAGGGTGTCGGAAAACTTTTCGGAATCCGAGGTTAAATCATTCGTTGGTGATAACACTGTCTTGACCATAGCTCCTAAAGGCGAAGAAGCGTTAAACGAGTTCTATTACATCGTTCCGGCTCACCGCAATCCTTCAAGGGATGGCGCTTACCACGTTGCAAGTGCGATTAGGCACGTTAAGAAATTCGACTACAATCCTCCCAACGGTGATATCTCATTTACGCTGATCCACCAACAACTCGGAGAACATGCGCTCAATCGTAAGTACGGTTTAATGCGAAACAGTATCCAATGCCTCGCCGACCAATTAAAACGTGAGAACCAGTATGATGACGCTCTATTCCATAACTTACGTGCATTCATATCCGAGACCAGCGGAATGTGGAACGGGAATCGCTTGTCACTCGTTAGAAACCTATTGATAGACGGGTTTTCGTCATATAAGCCCGTTAAAGGATTGGCGGAAAGCATGGAATGA	MGGKKAELITRVSENFSESEVKSFVGDNTVLTIAPKGEEALNEFYYIVPAHRNPSRDGAYHVASAIRHVKKFDYNPPNGDISFTLIHQQLGEHALNRKYGLMRNSIQCLADQLKRENQYDDALFHNLRAFISETSGMWNGNRLSLVRNLLIDGFSSYKPVKGLAESME				NA	NA	NA	NA	NA
AK012_02296	117			hypothetical protein	ATGAACGATAAGGAACTACGTGATATGTTCGACTACGCATGGGGAAAACCCAGGGAGAGTTACCATACCATTACCTCACAAAAGACGAGTGTTATCGATGCCTTCAGCTTACGATAG	MNDKELRDMFDYAWGKPRESYHTITSQKTSVIDAFSLR				NA	NA	NA	NA	NA
AK012_02297	792			hypothetical protein	ATGGCTGAAGTAAAAACACAATTAAAAGAATTATTAGCTACAGGCGAACAGTTTAATTACGTGAACTTTTCAGTAAAGGGGAAGTATGGTGTAACACAGTCTATAAAGCCTGCATATATAGCTTGGAAGATAAGTGTTGAAACGATACTATTAGATACCTTTGGTAAAAGTAGTCCAATTTTTGAAATGTTTAAGAAGAATGAGGGCTTTCGAATAAAGGGGAATGGCGAGGATCAATTCAATCCTTCTCACGCTTACATAATAGGTGCTATTAGGGCAGGTCTGGATTTACTTGAGTATCAACCAACATCTAAAAGCGAAAAGCAGTTTAATGAAGGAGATAATAGAATTTTTCTAGTACATGGTCGGGATGAAACTACCAAAATTCAAGCGGAGGTCTTCTTGAATGAGGTAGGGCTTGAACCGATTGTACTCCATCGACAAGCTGATGAAGGACAGACTATCATTGAAAAATTTGAAAGATACAGTGATGTGCCATTTGCTATTATATTATTGACCCCTGATGATGTAGGGTACTTAGCTGAGAATATAGATAAGGATGATGGGGAAAAAGGAATAGAATATCGTGCAAGACAGAATGTCATTTTTGAATTCGGCTATTTTGTAGCTAAATTAGGAAGGAACAGGGTTTGCTGTTTATATAAAGAAGGAGTTACACTACCTAATGATGTATCGGGGTATATTTACAAACAGATTAACAGTAGTGTAGAAGAAGCAGCCTTTTCAATATTAAAAGATCTAAAAGCTGCGGGGTTAAGACCGCAATTCTAG	MAEVKTQLKELLATGEQFNYVNFSVKGKYGVTQSIKPAYIAWKISVETILLDTFGKSSPIFEMFKKNEGFRIKGNGEDQFNPSHAYIIGAIRAGLDLLEYQPTSKSEKQFNEGDNRIFLVHGRDETTKIQAEVFLNEVGLEPIVLHRQADEGQTIIEKFERYSDVPFAIILLTPDDVGYLAENIDKDDGEKGIEYRARQNVIFEFGYFVAKLGRNRVCCLYKEGVTLPNDVSGYIYKQINSSVEEAAFSILKDLKAAGLRPQF				NA	NA	NA	NA	NA
AK012_02298	225			hypothetical protein	ATGACAAACCTAATCCGTTACAAAATCATGTCCACCGAACAAGTATCTGAAGACAGGCGGATTCACGTGTTTGATATGCAGAAGCAGCAGAAGTTGTCGTTTAATTACGAGTCCCTGAAACGAACTCCGGAAAACTATGTAGGCGAAGGGTTGGCGGAATTTCTACATCGCAGAAAACTCAAAATAGATAATGGCTTTTACGATAAAAAGGGACACGCATCTTGA	MTNLIRYKIMSTEQVSEDRRIHVFDMQKQQKLSFNYESLKRTPENYVGEGLAEFLHRRKLKIDNGFYDKKGHAS				NA	NA	NA	NA	NA
AK012_02299	222			hypothetical protein	GTGCAGGGAATTGTCCTCTATACGAAGAAGGAATGTACCTTGTGTGATGAAGTGAGAGCTTTATTGGATTTATTTTCCGTGGAGGTCACGGAAATAGATATTGAATCAAACCCGGAGCTTCATGAGAAGTATTTTCTTGAAATACCAGTCGTGAGGATCAAGGGAGAGGAACTGGACTACCGGTCCATTGATTACTTTGAGCTGCAAAAGCGTTTACAATAA	MQGIVLYTKKECTLCDEVRALLDLFSVEVTEIDIESNPELHEKYFLEIPVVRIKGEELDYRSIDYFELQKRLQ				NA	NA	NA	NA	NA
AK012_02300	1029	cggR	COG2390	Central glycolytic genes regulator	ATGAGAGCGTTCATCGATCTACAAAAAAAATTATTCCCTGATGTCCTGGACGTTATTCAGAGGCGCTATCAGCTGCTTCATTACATCCAGATCATGCAGCCCGTCGGGAGGAGAGCGTTGGCGGAAAACGTCAATCTTGCCGAACGGACGGTACGCAGCGAGGTGGACTTCTTAAATCAGCAGGGAGCTGTCGAGATTACATCGAGAGGCATGCACCTGAGCTACGAGGGGCAGAACATCCTTGAGCAGCTGGCTGAATTTATTAAGGAAGTTACCGGCATTAAGGTTTTGGAACAACAGTTAAAGGATAAATTAAATCTGGACCACGTTGTTGTTGTTCCTGGTGATAGTGATGAGCTCAATTGGGTAAAACAAGAGATGGGAAAAGCTTGTGTCCAGTATTTGAAAGATCATATGAGTCCTGAACAAGCCATTGCCATTACAGGTGGAACAACGATGGCATCAGTGGCCCAGATGATGACCTCATTCAAGGGCGCTGATCAATGCCTGTATGTACCTGCCAGAGGCGGCTTGGGCGAAAGAGTGGAAAATCAGGCCAATACGATTTGTGCGGAGATGGCTAAAAAAGCCAAAGGGGACTACCGTTTGTTATATGTACCCGATCCGCTGAGCGAGGAATCCTATAAGACGATAAAAGAAGAGCCTTCCATCAAGGAAGTTCTGGACATTATCCGTCACGCTGACATCGTTATCCACGGTGTTGGAGATGCGATGACCATGGCCGAACGGAGAAAAACGTCTCCGGAGCAGCTGGAGCTGATCCAGCAGTATGAAGCTGTGGGAGAAGCGTTTGGTTACTACTTCAACCGTATGGGTGAAATCGTTCATAAAGTTCGAACCGTAGGTCTGCAGCTTGAGGATCTGAATAGATCCAGGCATGTTATTGCCGTTGCCGGAGGCCGTTCAAAGGCCCAGGCGATCGCGTCTTATTTTCAGCCCGGACAAAGCAATGTCCTCATCACAGATGAAGGGGCTGCCCAGGAGTTAATAAGGGAATTTTCCCTTTAA	MRAFIDLQKKLFPDVLDVIQRRYQLLHYIQIMQPVGRRALAENVNLAERTVRSEVDFLNQQGAVEITSRGMHLSYEGQNILEQLAEFIKEVTGIKVLEQQLKDKLNLDHVVVVPGDSDELNWVKQEMGKACVQYLKDHMSPEQAIAITGGTTMASVAQMMTSFKGADQCLYVPARGGLGERVENQANTICAEMAKKAKGDYRLLYVPDPLSEESYKTIKEEPSIKEVLDIIRHADIVIHGVGDAMTMAERRKTSPEQLELIQQYEAVGEAFGYYFNRMGEIVHKVRTVGLQLEDLNRSRHVIAVAGGRSKAQAIASYFQPGQSNVLITDEGAAQELIREFSL	PGPT0019460_359	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_USAGE-OTHERS	PLANT_DERIVED_CARBON_CATEBOLITE_REGULATION,PGPT0019460-cggR-K05311	NA	NA
AK012_02301	1008	gap		Glyceraldehyde-3-phosphate dehydrogenase	ATGACAGTAAGAATTGGTATTAATGGTTTTGGACGTATCGGACGTAACGTATTCCGTGCTGCACTTGACAACAATGATGTAGAGGTAGTGGCGGTTAACGATCTAACAGATGCGAATATGCTTGCACACCTTCTTCAGTACGACACTGTACACGGTGCTCTATCTGAAAAGGTAACAACAAACGGTGACAACCTGATTGTTGGCGGCAAAGAAATCAAAGTACTATCTGAAAAAGATCCAGCACAACTCGGCTGGGGCGATCTTGGAGTAGATGTTGTAATCGAATCTACAGGACGCTTCACTCAGCGCGAAGATGCGAAGAAACACATCGACGCCGGTGCTAAGAAAGTCATCATCTCTGCTCCAGCGAAGCAGGAAGACCTTACAATCGTTATGGGTGTTAACGAAGATCAGTATGATAAGGATTCCCATCACGTTATTTCCAATGCTTCCTGCACAACGAACTGCCTGTCTCCAGCAGCGAAAGTTCTTGATGAGAAGTTCGGTCTTAAGCGTGGTATGATGACAACCATCCACTCTTACACAAACGACCAGCAAATCCTTGACCTTCCACACAAAGACTACCGTCGTGCGCGTGCTGCAGGTCAAAACATTATCCCAACAACTACTGGTGCTGCACAAGCTGTTGCAAAAGTACTTCCACACCTTGATGGTAAACTAAGCGGAATGGCTATGCGTGTACCAACAATGAACGTGTCTATCGTTGACTTCGTTGCGGAGCTTGAAAAAGACGTAACAGCTGAAGAAGTAAACGAAGCACTTCGTGAAGCTGCTGAAGGCGACCTTAAAGGCGTGCTTGCTTACAGCGACGAGCCACTTGTATCTTCCGACTACAATGGCAACACGAACTCTTCCATCATTGATGGTCTTTCTACTGCAACTCTTGAAAACAACATGGTTAAAGTTGTCACTTGGTACGACAACGAAACTGGTTACTCCAACCGTTGCGTAGACTTGGCTGTATACCTTAAAAACCAAGGCTTGTAA	MTVRIGINGFGRIGRNVFRAALDNNDVEVVAVNDLTDANMLAHLLQYDTVHGALSEKVTTNGDNLIVGGKEIKVLSEKDPAQLGWGDLGVDVVIESTGRFTQREDAKKHIDAGAKKVIISAPAKQEDLTIVMGVNEDQYDKDSHHVISNASCTTNCLSPAAKVLDEKFGLKRGMMTTIHSYTNDQQILDLPHKDYRRARAAGQNIIPTTTGAAQAVAKVLPHLDGKLSGMAMRVPTMNVSIVDFVAELEKDVTAEEVNEALREAAEGDLKGVLAYSDEPLVSSDYNGNTNSSIIDGLSTATLENNMVKVVTWYDNETGYSNRCVDLAVYLKNQGL	PGPT0018000_5178	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
AK012_02302	1182	pgk	COG0126	Phosphoglycerate kinase	ATGAATAAACAAACGATTCGCGACGTTGAAGTGAACGGAAAAACGGTTTTCTGCCGTGTAGACTTCAACGTGCCTATGAGCGATGGAGAGGTAACAGATGACACAAGAATCAAAGCAGCTCTCCCAACCATCCAGCACCTGACTGGAAACGGAGCAAAAGTCATTCTTGCCAGTCACCTGGGACGACCTAAAGGAGAAGCGGTACAGGAGCTTCGTCTTGATCCTGTAGCCGATCGTCTAAGTGATCTTCTTGGACAAACGGTTACGAAAACAGATGAAGTTTACGGAGACGAAGTCAGCCAGGCCATTTCTGAATTAAACAGTGGTGATGTGCTTCTTATCGAGAACGTACGCTTCCATCCTGGTGAAGAAAAGAATGATGCTGAGCTGGCGAAGGCTTTCGCTGACATGGCTGATCTTTTTGTTAACGATGCCTTCGGTGCTGCCCACCGTGCCCATGCGTCCACAGCTGGCGTAGCGGAACATATCCCTGCCGTAGCCGGTTTCCTTATGGAAAAGGAAATCAACGTACTCGGCAAAGCTCTTTCCAACCCTGAGCGTCCTTTCACAGCGATTGTTGGTGGAGCAAAAGTAAAAGATAAAATCGGTGTCATTGATAACTTGATTGATAAAGTTGACAACCTGATTATCGGCGGCGGTCTGGCTTATACTTTTGTAAAAGCCCTCGGTCACGAAATCGGAAAGTCTCTTCTTGAAGAAGACAAGATGGATCTTGCCAGAGAATACATGAAGAAAGCGGAAGAAAAAGGCGTGAACTTCTACATGCCGGAAGATGTTGTCGTTGCTGATGACTTCTCTGATTCCGCCAACAAGAAAGAAGTAGCGATCGACAGCATCCCGGCCGATTGGGAAGCGCTCGACATCGGTCCGAAAACGAGAGAGAAATACGCCAATGTCATCAAAGAATCCAACCTGATCATCTGGAACGGTCCTATGGGTGTATTTGAAATCGAATCATTTGCCAATGGTACAAAAGCCGTTGCTGAAGCTCTGTCCCAGACAGAAGGCTACAGCGTCATCGGCGGCGGAGATTCAGCTGCAGCTGTTGAGAAATTCGGCTATGCATCTGATATGAACCACGTATCCACCGGCGGCGGTGCTTCCCTTGAATTTATGGAAGGTAAAGAACTTCCAGGGGTTGCTCTACTAAACGATAAGTAA	MNKQTIRDVEVNGKTVFCRVDFNVPMSDGEVTDDTRIKAALPTIQHLTGNGAKVILASHLGRPKGEAVQELRLDPVADRLSDLLGQTVTKTDEVYGDEVSQAISELNSGDVLLIENVRFHPGEEKNDAELAKAFADMADLFVNDAFGAAHRAHASTAGVAEHIPAVAGFLMEKEINVLGKALSNPERPFTAIVGGAKVKDKIGVIDNLIDKVDNLIIGGGLAYTFVKALGHEIGKSLLEEDKMDLAREYMKKAEEKGVNFYMPEDVVVADDFSDSANKKEVAIDSIPADWEALDIGPKTREKYANVIKESNLIIWNGPMGVFEIESFANGTKAVAEALSQTEGYSVIGGGDSAAAVEKFGYASDMNHVSTGGGASLEFMEGKELPGVALLNDK	PGPT0018015_4856	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
AK012_02303	762	tpiA	COG0149	Triosephosphate isomerase	ATGCGTAAACAAGTAATCGCAGGTAACTGGAAAATGAACAAAACGCACCGTGAAGCAGAAGATTTCATTCAGACAGCTAAAAACGAAGTGCCATCTGCCGAACAGGTGGAATCCATCGTTGTAGCTCCATTTCCTTTTCTACAAAAGCTTGTAGAGGAAACAGAAGGAACGAGCCTGAAAATCGGTGCACAGAACATGCACTTTGAAGAGAATGGTGCTTTCACAGGTGAAGTCAGCCCTGTCATGCTGAAAGAACTTGGGGTGTCCCACGTTGTTCTCGGCCACTCTGAACGCCGTGAAATCTTCAAAGAAACAGACGAGGATGTCAACAAAAAAGTCCACGCCGCTTTCAAACACGGTCTGACTCCAATCATCTGTGTCGGTGAATCTCTTGAACAGCGTGAAGCCAGCGAAACAATGGATGTTGTGGAAGGTCAAGTGAAAAAAGCCCTTGAAGGACTTACAAACGAGCAGTGTGCAGAAACAATCATTGCCTATGAGCCGATCTGGGCGATTGGTACAGGCCGCACAGCGACTTCTGAACAGGCCAATGAAGTATGCACCCACATCCGTAAAGTTGTCAGCGAATACGTCAATGCTGATGCTGCAGATGCTGTCCGCATCCAGTATGGCGGAAGCGTTAAACCTGCAAACGTGGATGAACTGCTTTCCCAGTCTGACATTGACGGAGCTCTTGTCGGAGGCGCAAGCCTTGAAGCAGATTCCTTCCTAAAACTTGTGGAGGCAGGTAAGCATGAGTAA	MRKQVIAGNWKMNKTHREAEDFIQTAKNEVPSAEQVESIVVAPFPFLQKLVEETEGTSLKIGAQNMHFEENGAFTGEVSPVMLKELGVSHVVLGHSERREIFKETDEDVNKKVHAAFKHGLTPIICVGESLEQREASETMDVVEGQVKKALEGLTNEQCAETIIAYEPIWAIGTGRTATSEQANEVCTHIRKVVSEYVNADAADAVRIQYGGSVKPANVDELLSQSDIDGALVGGASLEADSFLKLVEAGKHE	PGPT0017995_2770	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
AK012_02304	1539	gpmI	COG0696	2,3-bisphosphoglycerate-independent phosphoglycerate mutase	ATGAGTAATCAGAACTTAGCTGCGTTGATCATTCTTGACGGCTATGCCATCCGTGATGAAGAATTCGGAAATGCCGTGAAGCAGGCCAACACACCGAACTTTGACCGTTACTGGAACCAGTTCCCTCATTCCCAGCTCACAGCGAGTGGAGAAGCGGTCGGTCTTCCCGAAGGCCAGATGGGGAACTCTGAAGTAGGTCACTTGAACATTGGTGCCGGCCGTGTGGTTTACCAAAGCTTAACCCGTATTAATCTTGCGATCCGTGAAGGGGACTTCTTTAACAATGAAGTTCTCAAGGATGCTGTCAAGCAGGCGAAAGAAAAAGGAAAAGCCCTTCATATATTCGGCCTGTTGTCTGATGGTGGTATTCACAGCCATATCGAGCATATGAAAGGCACATTGAAACTGGCACAACAGGAAGGAATCGAAAAAGTATTCCTTCACGCTTTCCTTGATGGGCGTGACGTTGGTCAGCAATCAGCCAAAACCTATGTGAAACAGGCTCAGGAAGCTATGGAGGAAATCGGCGTCGGTCAGATGGCTACGATTTCCGGCCGTTACTACGCCATGGACCGCGACAATCGCTGGGAACGCGTGCAGAAGGCTTATGATGCCATCGCTTACGGCGAAGGTCCAACTTATCAGGATCCCATTCAGGCGATTGATGATTCCTACAAGCAGGAAGTCTATGATGAATTCGTAGAGCCTGTCGTTCTTACGGATGATGAAGGTCAGCCTATTGGGAAAGTGGAGGATGAGGACAGTATCATCTTCTTCAACTTCCGCCCTGACCGTGCCATTCAGCTGTCCCGCACATTTGCCAATGATGATTTTGATGGATATGACCGCGGGGAGAACGCCCCGAAAAACCTTCATTTTGTCAGCATGACGCAGTACAGCGACCAAGTGAAAAGCCAGATCGCCTTCCCACCGAACGATTTGAAAAATACGATCGGGGAAGTACTGGCCGATAACGATATGAAACAGCTTCGTATCGCAGAAACGGAAAAGTATCCGCACGTAACCTTCTTTATGAGCGGCGGCCGTGAAGCTGAATTCGATGGGGAAGAGCGCATCCTTATCGATTCACCTAAAGTGGCTACGTACGATTTAAAACCGGAAATGAGCGCTTATGAAGTAACCGATGCTCTGCTTGCAGAGCTTGATGCGGATAAGCACAACGCGATTCTTCTGAACTTCGCCAACCCGGATATGGTCGGTCACTCAGGTATGCTTGAGCCGACGATCAAAGCGATTGAAGCTGTTGACGAATGTCTCGGTAAAATCGTTGATAAAATTCATGAAAAAGGCGGACACGCCATTATTACAGCGGACCACGGAAACTCTGACGAAGTGACGACTTCAGATGGAGATGCCATGACCGCTCATACGACAAATCCGGTTCCTGTCATTGTGACTAAAGAAGGAATCGACCTCCGCGAAGGCGGAATCCTTGGTGACCTTTCACCGACACTGCTTGAGCTGTTGAATGTGGAACAGCCAGAGGAAATGACTGGACAGTCACTAATTAAAAAATAA	MSNQNLAALIILDGYAIRDEEFGNAVKQANTPNFDRYWNQFPHSQLTASGEAVGLPEGQMGNSEVGHLNIGAGRVVYQSLTRINLAIREGDFFNNEVLKDAVKQAKEKGKALHIFGLLSDGGIHSHIEHMKGTLKLAQQEGIEKVFLHAFLDGRDVGQQSAKTYVKQAQEAMEEIGVGQMATISGRYYAMDRDNRWERVQKAYDAIAYGEGPTYQDPIQAIDDSYKQEVYDEFVEPVVLTDDEGQPIGKVEDEDSIIFFNFRPDRAIQLSRTFANDDFDGYDRGENAPKNLHFVSMTQYSDQVKSQIAFPPNDLKNTIGEVLADNDMKQLRIAETEKYPHVTFFMSGGREAEFDGEERILIDSPKVATYDLKPEMSAYEVTDALLAELDADKHNAILLNFANPDMVGHSGMLEPTIKAIEAVDECLGKIVDKIHEKGGHAIITADHGNSDEVTTSDGDAMTAHTTNPVPVIVTKEGIDLREGGILGDLSPTLLELLNVEQPEEMTGQSLIKK	PGPT0018040_1589	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
AK012_02305	1287	eno	COG0148	Enolase	ATGCCATTTATTACTGACGTATACGCACGTGAAGTCCTTGACTCTCGTGGTAACCCAACAGTAGAAGTTGAAGTTTATACTGAATCCGGAGCTTTCGGTACAGCTCTAGTCCCAAGTGGAGCCTCTACAGGTGAATATGAAGCTGTAGAACTTCGTGATGGTGACAAAAACCGTTACCTAGGAAAAGGTGTTCAAAACGCCGTTGATAACGTGAACGAAAAAATTGCTCCGAAACTTATTGGTATGGATGCAACCCAGCAGGTCATCATCGACCAGATGATGAGAGAACTTGATGGTACAGAAAACAAAGGAAACCTTGGTGCCAACGCAATCCTTGGTGTTTCCATGGCTGTTGCCCATGCAGCATCCGAAGTTGTTGGACAGCCTCTTTACAAATACCTTGGAGGATTCACAGCGAATACTCTTCCAACTCCAATGATGAACATCCTTAACGGTGGAGAGCACGCAGACAACAACGTAGATATCCAGGAATTCATGGTTATGCCTGTTGGTGCTCCTACATTCAAAGAAGCTCTTCGCATGGGTGCGGAAATTTTCCACTCCCTTAAGAAAGTACTAAGCAGCAAAGGCTACAACACTGGTGTCGGTGATGAAGGTGGATTTGCTCCTGACTTAGGTTCCAACGAAGAAGCTCTTTCTACAATCATCGAAGCGATTGAAGCAGCTGGCTACAAGCCGGACGCTGAAGTGAAGCTTGCGATGGACGTTGCCTCTTCTGAAATCTACGAAGATGGTAAGTACAACCTGAAAGGTGAAGGTGTTGTCCGTACTTCTGAAGAAATGGTGGACTGGTACGAAGAGCTTGTGAACAAGTACCCAATCGTTTCTATCGAAGATGGTCTTGACGAGAACGACTGGGAAGGTACAAAACTTCTTACAGACCGTATCGGCGACCGCGTACAGCTTGTAGGGGACGACTTGTTCGTTACCAACACGGAAAAGCTTTCCCGTGCCATTGAAGAGGGTGTAGGTAACTCCATCCTTATCAAAGTGAACCAAATCGGTACGCTTACAGAAACCTTCGAAGCGATCGAAATGGCGAAACGTGCCGGCTATACAGCTGTCATCTCCCACCGTTCTGGTGAAACAGAAGATGCGACAATCGCTGATATCGCTGTTGCGACAAACGCTGGTCAAATTAAAACAGGTGCTCCGTCCCGTACGGACCGCGTAGCGAAGTACAACCAGCTTCTTCGTATTGAAGATCAGCTGCTTGGTACAGCCGTTTACGCTGGCGAAAAAGCTTTCTACAACCTGAATAAGTAA	MPFITDVYAREVLDSRGNPTVEVEVYTESGAFGTALVPSGASTGEYEAVELRDGDKNRYLGKGVQNAVDNVNEKIAPKLIGMDATQQVIIDQMMRELDGTENKGNLGANAILGVSMAVAHAASEVVGQPLYKYLGGFTANTLPTPMMNILNGGEHADNNVDIQEFMVMPVGAPTFKEALRMGAEIFHSLKKVLSSKGYNTGVGDEGGFAPDLGSNEEALSTIIEAIEAAGYKPDAEVKLAMDVASSEIYEDGKYNLKGEGVVRTSEEMVDWYEELVNKYPIVSIEDGLDENDWEGTKLLTDRIGDRVQLVGDDLFVTNTEKLSRAIEEGVGNSILIKVNQIGTLTETFEAIEMAKRAGYTAVISHRSGETEDATIADIAVATNAGQIKTGAPSRTDRVAKYNQLLRIEDQLLGTAVYAGEKAFYNLNK	PGPT0018050_3997	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
AK012_02306	585			hypothetical protein	ATGAAGAAGTTCATTGGAATAGGAATGGTCATCACCCTGTTGTACAGCGTATACACGGCGTATTCAGTATGGACCTTTGGGGAAGGCAGCCAGCCGCCTGAGGCGGATGCTGCGATTGTTCTTGGAGCCGCTCAGTGGAACGGAAAGCCAAGTCCGGTATTTGAGGGACGCTTGAAACAGGGGATTGAGCTTTATGAGGAAGGACATGTCGACTACTTGATCTTTACGGGTGGTAAGAGTGAACAGGCCGCCTCCTCTGAAGCAGAAGTAGGACGGAATTACGCTTTGGAAAAAGGGATTCCTGAAGAAGACATTCTGTATGAGGACAGCTCTTTGATGACGGAAGACAATATCATCAACGCAAAAGAAGTAACAGAGGAAAAAAATTTAGAAACGTTTTTAATCGTCAGTGATCAATTTCATTTAAAACGGGCGGTCGCCATGGCGGAAAGTCATGGGATGTCTGCCAAAGGTGTACCTACCCAGTATTCGGCGTATCAGTCGCTTGATACAAAGCTTCCTTTCTTCCTGCGGGAGTGGGGATTCTGGATGGGGCACCAGCTGACCAATCTGCTGATTGTTTGA	MKKFIGIGMVITLLYSVYTAYSVWTFGEGSQPPEADAAIVLGAAQWNGKPSPVFEGRLKQGIELYEEGHVDYLIFTGGKSEQAASSEAEVGRNYALEKGIPEEDILYEDSSLMTEDNIINAKEVTEEKNLETFLIVSDQFHLKRAVAMAESHGMSAKGVPTQYSAYQSLDTKLPFFLREWGFWMGHQLTNLLIV				NA	NA	NA	NA	NA
AK012_02307	579			hypothetical protein	ATGGATTTAGTGGAAGCCGTAGAAAAACGCCGTTCTATTCACGAATATGAACAAAGGCTCGTGGATGAAGAGGTGTTACGAAATATTTTCCTGACAGCTGCATGGGCGCCCACCCATCGGATGAAGGAGCCCTGGAACATCCATCTTTATCAGGAACATGGCAGGGAGCATTATGCGGAGGCTGTGCTCGACAGCTATGAGCGACAGGGTTTCTTTGAAGGTTATGATGAAGAAAAATCCAGACAGTTAAAAAAAGGGATTGGTGATTTTCTTCTCCAGATCCCGCATCATGCTCTGATATATATGCCAAGGGATGAAGATGAGGGGAAGTTTGAAGAGGATTATGCAGCGGTATGTGCGTATATCCAAAACGTACAGCTGCTCGCCTGGGAGGCTGGTATAGGCGTTCTATGGACGACCAGTCCTTACCTTCACGACCCAGCGTTTGCAGAAGCGGTGGGACTGGATCCGGCCGTCTATAAACTGGTCTCTGTCCTTCAGATGGGGTACCCAAAGCGGATCCCACGAGCAAAACAGCGCACCGATATCATGGATAAGATGAAGGTTATCCGAACATAA	MDLVEAVEKRRSIHEYEQRLVDEEVLRNIFLTAAWAPTHRMKEPWNIHLYQEHGREHYAEAVLDSYERQGFFEGYDEEKSRQLKKGIGDFLLQIPHHALIYMPRDEDEGKFEEDYAAVCAYIQNVQLLAWEAGIGVLWTTSPYLHDPAFAEAVGLDPAVYKLVSVLQMGYPKRIPRAKQRTDIMDKMKVIRT				NA	NA	NA	NA	NA
AK012_02308	1719	ptsI	COG1080	Phosphoenolpyruvate-protein phosphotransferase	ATGACACAGCTTCAAGGTATTGCAGCTTCCAGCGGTATTGCCATTGCAAAAGTATACCGCCTGGAAGCTCCGGACCTTTCTTTCGACAAAAAGAAAGTGGAAAATCCGGAACAGGAGATTTCCCGTCTTCAAGACGCACTTGAAATCTCAAAGTCAGAACTTGAAAAAATCAAGGCACATACGAAAAAATCACTCGGTGATGAGCATGCAGAAATTTTCTCTGCCCACCTTCTGGTTCTTAGTGACCCGGAATTGATCCAGCCGATTGAAGACAAAATCAAAAATGATAACGTTAACGCAGAAGCCGCTCTTTCTGAAACGGCGAATATGTTCATCGACATGTTCAAGGGCATGGATAATGAATATATGCGCGAACGTGCAGCAGACATCAATGATGTAACCAAACGCGTAATGGCTCACCTGCTTGGCGTTACGTTCCCGGATCCTGCGCTGATTAATGAGGAAGTCGTCATTGTAGCCGATGACCTTACCCCTTCTGATACGGCACAGTTGAATAAGCAGTTCGTTAAAGGATTCACGACAGATATCGGTGGACGTACATCCCACTCAGCCATTATGGCCCGTTCTCTTGAAATCCCGGCGGTCGTCGGTACCAAAGAGATCACTTCCAAAGCTGGAAAGGATATCATGATCATTGTAGACGGCATCAACGGTGACGTAATCGTCGATCCATCTGATGAGCAGATTGCCACTTACCAGCAGAAGCAGGAAGATTTCGAAAAACAGAAGCAGGAATGGGCAAAGCTGAAGGACGAACCTACCCTGACATCTGAAGGCGAGCATGTGGAGCTTGTAGCCAACATCGGTACACCGGAAGATGTAGAAGGCGTTCTTAACAATGGCGGCGAAGGTGTCGGCCTTTACCGTACAGAGTTCCTATACATGGGTAAAAGTCAGCTTCCAACAGAGGAAGAGCAATTCGAAGCGTACTCTTCCGTACTGAAACAGATGGGCGACCAGCCTGTCGTTGTTCGTACGCTTGACATCGGTGGAGATAAGGAGCTTTCTTACCTTGACCTGCCTGAAGAAATGAACCCGTTCCTTGGGTACCGCGCGATCCGCCTGTGCCTCGAGCGTGATGATATCTTCCGTGTCCAGCTTCGTGCACTGCTTCGTGCAAGTGTCCACGGAAACCTGAAGATCATGTTCCCAATGATCGCCACTCTTGATGAGTTCCGTCAGGCTAAAGCGATCCTTGAAGAAGAACGTGCCAACCTGACAAGTGAAGGTCACGAAATTGCTGATGGCATCGAAGTCGGTATGATGGTGGAAATTCCAGCGACAGCTGTTATTGCCCGCCAGTTCGCTAAAGAAGTGGATTTCTTCAGTATCGGAACCAATGACCTGATTCAATATACAATGGCCGCTGACCGTATGAACGAACGCGTCTCCTACCTGTATCAGCCGTACAATCCGGCGATTCTGAACTTGATCAACAATGTGATTGAGGCCGCTCACGCAGAAGGCAAGTGGGCCGGCATGTGTGGAGAAATGGCCGGCGATGAGATTGCCATCCCAATCCTGCTTGGACTCGGTCTGGATGAGTTCAGCATGAGCGCAACGTCCATCCTTCCTGCCCGTACACAGATCAAGGATCTGTCCAGAAAAGAACTCGCTTCCTACAAGGACGCTATTCTTTCTATGGGTACATCTGAAGAAGTCGTTGCATTTATCAAAGAAAAAACGCAGATGAAGTAG	MTQLQGIAASSGIAIAKVYRLEAPDLSFDKKKVENPEQEISRLQDALEISKSELEKIKAHTKKSLGDEHAEIFSAHLLVLSDPELIQPIEDKIKNDNVNAEAALSETANMFIDMFKGMDNEYMRERAADINDVTKRVMAHLLGVTFPDPALINEEVVIVADDLTPSDTAQLNKQFVKGFTTDIGGRTSHSAIMARSLEIPAVVGTKEITSKAGKDIMIIVDGINGDVIVDPSDEQIATYQQKQEDFEKQKQEWAKLKDEPTLTSEGEHVELVANIGTPEDVEGVLNNGGEGVGLYRTEFLYMGKSQLPTEEEQFEAYSSVLKQMGDQPVVVRTLDIGGDKELSYLDLPEEMNPFLGYRAIRLCLERDDIFRVQLRALLRASVHGNLKIMFPMIATLDEFRQAKAILEEERANLTSEGHEIADGIEVGMMVEIPATAVIARQFAKEVDFFSIGTNDLIQYTMAADRMNERVSYLYQPYNPAILNLINNVIEAAHAEGKWAGMCGEMAGDEIAIPILLGLGLDEFSMSATSILPARTQIKDLSRKELASYKDAILSMGTSEEVVAFIKEKTQMK	PGPT0002025_1900	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
AK012_02309	267	ptsH_1	COG1925	Phosphocarrier protein HPr	ATGGTAGAAAAAACTTTTACTATTACATCTGCTGATGGTGTACACGCTCGCCCTGCAACCGTTCTTGTACAGAACGCAGGAAAGTACGAGTCTGATATTAATCTTCACTACAAAGAGAAAGCCGTTAACCTCAAGTCCATCATGGGGATCATGAGCCTTGGGATTCCAGCTAATGCTGAAGTGAAAATCACAGCCGAAGGCAGTGACGAACAGGAAGCGATTGATCACTTGGAAACAACAATGAAGAATGAAAGCTTGGGGGAATAA	MVEKTFTITSADGVHARPATVLVQNAGKYESDINLHYKEKAVNLKSIMGIMSLGIPANAEVKITAEGSDEQEAIDHLETTMKNESLGE	PGPT0016875_2430	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
AK012_02310	1902	fruA	COG1299	PTS system fructose-specific EIIABC component	ATGAGAATTACAGACTTGTTAACAGAAGAGACGATTGTTCTGAACATGTCCGCTTCATCAAAGCCGGAAGCCATTGACGAACTGGTCGGCAAGCTGGATGAAGCCGGCCGTCTGAACGACCGCGGCGGTTTTAAGAAAGCCATTGAAGATAGAGAAGGTCAGAGCACAACAGGGATCGGAGATGGGATCGCCATCCCCCACGCGAAAACAAGTGCTGTGCAGAATCCCGCAATTGCATTCGGCCGCTCCCAGGACGGTCTTGACTATGAATCCCTGGACGGTCAGCCGACGCATTTATTCTTTATGATTGCTGCTTCCGAGGGGGCCAACAACACTCACCTGGAAACCCTGTCGCGCCTCTCTTCCTTCTTGATGGATACGAAGTTCCGCGAGCAGCTGGAAGCCGCTCAAACGAAAGAGGAGATCATTGAAGCCATCAATGCAAAGGAAGCCGAGGATGAAGAACCCGAGGAGGAAACCAGCGATCAGCCTTCAGGAAAGGTTCTCGCGGTTACCGCCTGCCCGACAGGGATTGCCCACACGTACATGGCTGCTGATAAGCTGAAAGCTACAGCGAAAGAAATGGGCGTACCGATTAAAGTACAGACGAACGGATCCAGCGGTGTGAAGAATCGTTTGACGAAAGAAGACATCGCTGAGGCGGCAGCTATTATCGTAGCTGCTGACACAAAGGTGGATATGGAAGATTTCCAAGGAAAACATGTGATTGAAGTTCCTGTAGCCAAAGCGATTCACGAGCCGAAGGAATTGATCAATAAAGCCTTGAATCAGGATGCTCCTGTGTTTCAAGGAAGTGGAGGCGGCTCCAAGGAAGCTTCCAGTGAAAAAGGTCAGCGTACAGGCTTTTACAAGCACTTAATGAATGGTGTATCCAACATGCTTCCATTCGTTGTCGGAGGCGGAATTCTGATTGCCATTTCCTTCTTCTGGGGAATCAACTCAGCCGATCCGAACAGTGCCGACTACAACCGTTTCGCTGAAATGCTGAGCATTATCGGCGGCTCCAACGCATTCTTCCTGCTCGTTCCTGTACTGGCCGGCTTTATCGCTTCCAGTATTGCGGACAGACCCGGTTTTGCTCCCGGTATGGTTGGTGGTTTGATTGCCATCACACAGACAGTGGAAGGTGCAGGAAATGGTTCTGGTTTCTTAGGTGGACTGATTGCCGGTTTCCTTGCTGGTTATTTAACACTTGGTGTGAAGAAAATACTCGAAGGTCTTCCTGCTGTTATGGATGGCTTGAAAACAGTTCTGCTGTACCCTGTGTTTGCCATCTTCGGTACAGGTATGATTATGCTCCTGATCAACCCGGCACTAACAAGTGTCTACACATGGCTGTTTGATCTGCTTGACTCCATGAGCGGTTCCAACCTTGCCCTGCTCGGCTTGATCGTCGGCGGTATGATGGCTGTCGATATGGGTGGTCCTGTCAACAAAGCCGCCTATACATTCGGTATCGCAGCGCTTGACGCCGGTAACTATACGTTCATCGCTGCTGCCATGGCCGGCGGCATGGTTCCACCGCTTGCTATGGGACTGGCAACAACATTCTTCAAACATAAATTCACGAAGGAAGAACGCGAAACAGGTAAAGCTGCTTACCCTCTCGGCGCATTCTTCATTACTGAAGGTGCGATTCCTTTCGCAGCCGCCGATCCTGCCCGTGTCATTCCATCCATGGTTGCCGGAAGTGCTCTCGCCGGTATGCTGACGATGTTGTTCGGTATCGGCCTGCGCGCCCCGCACGGCGGAATTATCGTAGCTCCTCTCGTCGAAGGTGGGGCTGGGCAGATCCTTCTTTACCTGCTGGCTATTATTGCCGGTTCAATTCTTTCTGCAATTGTCGTAGGATTCTTGAAAAAAGACCTCCGAAAGGCTTAA	MRITDLLTEETIVLNMSASSKPEAIDELVGKLDEAGRLNDRGGFKKAIEDREGQSTTGIGDGIAIPHAKTSAVQNPAIAFGRSQDGLDYESLDGQPTHLFFMIAASEGANNTHLETLSRLSSFLMDTKFREQLEAAQTKEEIIEAINAKEAEDEEPEEETSDQPSGKVLAVTACPTGIAHTYMAADKLKATAKEMGVPIKVQTNGSSGVKNRLTKEDIAEAAAIIVAADTKVDMEDFQGKHVIEVPVAKAIHEPKELINKALNQDAPVFQGSGGGSKEASSEKGQRTGFYKHLMNGVSNMLPFVVGGGILIAISFFWGINSADPNSADYNRFAEMLSIIGGSNAFFLLVPVLAGFIASSIADRPGFAPGMVGGLIAITQTVEGAGNGSGFLGGLIAGFLAGYLTLGVKKILEGLPAVMDGLKTVLLYPVFAIFGTGMIMLLINPALTSVYTWLFDLLDSMSGSNLALLGLIVGGMMAVDMGGPVNKAAYTFGIAALDAGNYTFIAAAMAGGMVPPLAMGLATTFFKHKFTKEERETGKAAYPLGAFFITEGAIPFAAADPARVIPSMVAGSALAGMLTMLFGIGLRAPHGGIIVAPLVEGGAGQILLYLLAIIAGSILSAIVVGFLKKDLRKA	PGPT0017120_1268	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
AK012_02311	915	lacC	COG1105	Tagatose-6-phosphate kinase	ATGATTTATACATGCACGTTGAATCCATCCATTGACTACATCATGCATGTGGATTCATTTGAATCTGGTGGATTAAACCGGGCGGAGCAGACATTTTTCTATCCTGGAGGAAAAGGGATCAATGTATCCAGGGTCGTCGGTCGGCTCGGTGTAAAGTCCAGGGCGCTCGGATTCATCGGTGGTTTCAGTGGTGACTTCATCAATGATTTCCTTGACCAGGAAGGTGTCCAGCACGAGTTTATTAACACCGGTCAAAAAACAAGAGTCAATGTAAAGCTGAAATCTGGAGACGAAACGGAAATTAACGGCCCCGGCCCAGCATTGTCTGAAGAGATGCAGCAGTCATTACTGAATCAGATTCAAGAACTGAACAGCAATGATATCTTAGTCCTTGCAGGCAGCGTTCCCTCTTCTCTACCAGATGATTATTATGAACAGATCACTAATATCTGCAGAAAAAATCATACAAAGGTCGTTCTCGATACCTCTGGAGAAGCGCTGGAGCAGATTCTCGGACAGCCGTTGTTCCTGATGAAGCCCAATCACCACGAACTGGGGGACTTATTCAATGTAGAAATCCGTACGCCTGAGGACGCGGCATTATATGGAAAGAAACTCGTAGAACGTGGTGTCGAAAACGTCATTGTTTCCATGGGAGGCCAGGGAGCTGTCTATGTGGGCCGCGACGAACAATGGTTTGCCAATGTCCCGAAAGGCACGGTCAAAAACTCAGTAGGTGCCGGGGATTCCGTCGTTGCAGGGTTCCTGGCTGCTTATTCGGAAGGAAAGTCCATGACAGAAGCTTTTCGATTCGGCGTCGCATCAGGGAGCGCTACAGCGTTTCAGGATGATCTTTGTCAGCAGGAAGATGTCCTTCAGCTGCTTGAGCAAATCAACGTATCACCAATTCAATAA	MIYTCTLNPSIDYIMHVDSFESGGLNRAEQTFFYPGGKGINVSRVVGRLGVKSRALGFIGGFSGDFINDFLDQEGVQHEFINTGQKTRVNVKLKSGDETEINGPGPALSEEMQQSLLNQIQELNSNDILVLAGSVPSSLPDDYYEQITNICRKNHTKVVLDTSGEALEQILGQPLFLMKPNHHELGDLFNVEIRTPEDAALYGKKLVERGVENVIVSMGGQGAVYVGRDEQWFANVPKGTVKNSVGAGDSVVAGFLAAYSEGKSMTEAFRFGVASGSATAFQDDLCQQEDVLQLLEQINVSPIQ	PGPT0017580_1887	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
AK012_02312	750	glcR_2	COG1349	HTH-type transcriptional repressor GlcR	TTGCTTACACCTGAAAGACATGAGCGGATAATAGAAACAGTCAAAAACAATCAAACCGCATCAATCAAACAGCTCGTGGAAGTTACTCAGGCGTCCGAGTCTACCATCCGCCGCGACCTTGATGAGCTGGAAAAACAGGGTCACCTGCGGCGTGTCCACGGCGGAGCATCGATCAAACAGTCTGCTGCAGATGAACCGGCTATGAAGGAGAAACAGACGAAATACCAGCGTGAAAAGCGGGCCATCGCTTCCTATGCCGCGTCTTTTGTTAAAGATGGGGATTCCATATTTGTAGATGCGGGATCGACGACCTACGAAATGATTCCTTTTCTTAAACAGAAGGATATTATCGTCGTGACCAATGGGCTGGACCACCTGCTGGCTCTTACAGAACACGGCATCCGTACTTATGTCCTTGGCGGACTGGTGAAATCCCGTACAGGGGCTGTCGTAGGAGCCGGAGCTTTACAGAACCTTAAACAGTACCGCTTTGACAACTGTTTCATGGGTGTCAACGGCATTACTCTTGAAGATGGGTTTACCACCCCGGATCCAGAGGAGGCAGCGATCAAGCAGCGGACCCTGCAGATCTCACGCGAACGGTTTATATTAGCCGACCATACCAAGTTCGGCGAAACGTCGTTCACTCAATTTGCTGATATACATGAGGCGGATATTATTACAAACAATAACGGCACAACGTATAAGGACTATGCCGAAAAAACGAATATAAAGGTTGTGACAACATGA	MLTPERHERIIETVKNNQTASIKQLVEVTQASESTIRRDLDELEKQGHLRRVHGGASIKQSAADEPAMKEKQTKYQREKRAIASYAASFVKDGDSIFVDAGSTTYEMIPFLKQKDIIVVTNGLDHLLALTEHGIRTYVLGGLVKSRTGAVVGAGALQNLKQYRFDNCFMGVNGITLEDGFTTPDPEEAAIKQRTLQISRERFILADHTKFGETSFTQFADIHEADIITNNNGTTYKDYAEKTNIKVVTT	PGPT0017590_1706	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_FRUCTOSE_METABOLISM|DEGRADATION,PGPT0017590-fruR2-K03436	NA	NA
AK012_02313	231	secG	COG1314	putative protein-export membrane protein SecG	ATGGAAACACTTGTTATTACTTTGCTGACCATAGATACAATCGCACTTATCGTTTTAGTACTTCTACAATCCGGGAAGAGTGCCGGTTTGTCCGGAGCTATCTCCGGAGGAGCTGAGCAGTTGTTCGGAAAGCAGAAAGCGCGCGGGATTGATGCCGTTCTTCATAGATCAACGGTTGTGACCGGCGTCTTGTTCTTCGTTCTGGCTTTCCTTACAGGCTATATCGTTTAA	METLVITLLTIDTIALIVLVLLQSGKSAGLSGAISGGAEQLFGKQKARGIDAVLHRSTVVTGVLFFVLAFLTGYIV	PGPT0025720_3667	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025720-secG-K03075	NA	NA
AK012_02314	744	est		Carboxylesterase	ATGAAGATTAAACAACCTCAGCCATTTACGTTTGAGGGAGGAGACCGTGCGGTATTATTATTACATGGATTTACCGGCCATTCTGCCGATGTGCGCATGCTCGGCCGGTTTTTGCAGAAGCACGGTTATACCACCCATGCCCCTATTTATGCCGGTCATGGCAGAGAATTCGAAGCACTGTTGGATGCAAGACCTGAAGACTGGTGGAGTGATGTCCAGGAAGCGCTGAATCACCTGCGGGAACTGGGACATAAAGAAATCGCCGTGGCAGGATTGTCCCTGGGCGGTGTCCTTGGATTGAAGACGGCGTATTCCACTCCTGTCAAAGGCCTGGTAACGATGTGTTCACCTATTTTCTTCGATAACGAAAAACAGCTGACGAAGACATTTGAATTCAAAGCCCGTCAGTATAAGCAGCTGGAAGGAAAAGATGAAGAGACGATTGAAAAGGAAATCCAGGAACTGCTTGAGGAATCGAAAGACATGTTCACGGAACTCGGCGGGTTGATCAACGACGTTCATGACAACGTCGATCAAATTTATACGCCGACCTTCGTTGTACAGGGAACGCAGGATGATATGATTAATACAAGCAGTGCCGATTATATATACGAGCAGGTGGAAACAGACGATAAACAAATCAAATGGTACGAAAATTCCGGACATGTCATTACGATGGACAAGGAAAAGGAAGAGCTGCACGAAGATATTCTGCAGTTCCTGAACTCCCTTGACTGGTCGTAA	MKIKQPQPFTFEGGDRAVLLLHGFTGHSADVRMLGRFLQKHGYTTHAPIYAGHGREFEALLDARPEDWWSDVQEALNHLRELGHKEIAVAGLSLGGVLGLKTAYSTPVKGLVTMCSPIFFDNEKQLTKTFEFKARQYKQLEGKDEETIEKEIQELLEESKDMFTELGGLINDVHDNVDQIYTPTFVVQGTQDDMINTSSADYIYEQVETDDKQIKWYENSGHVITMDKEKEELHEDILQFLNSLDWS				NA	NA	NA	NA	NA
AK012_02315	2295	rnr	COG0557	Ribonuclease R	ATGACGACTGAATTAAAACAGCAGATTTTGAACTTATTTAAAGAAACCGCTTCGAAGCCTCTATCTGTCCAGGAACTGCAGGACACGATGGAACTTGGGAGTTCTGATGAATTTAAAGTATTAATGAAATCCCTGAATGAGCTGGAAGAAGAAGGGGAGCTTGTCCGAACGAGGAAAAACCGCTTCGGGCTGCCGGAAAAGATGAACCTGATCCGCGGCCGCATTCAAATGCATGCGAAAGGGTTTGCTTTTCTCATCCCCGATGAAGAAGGCAGTGATGATGTATATATCCATCATTCCGACCTTCATTCAGCGATGAACAATGACAAAGTCTTTGTCCGCATTGAAAAGCGGAAGGAGGATGGTTCCCGTCCTGAGGGCGCTGTCATCCGTATATTGGAAAGAGCGACAACAAAAGTCGTAGGTACGTATGAATCCAGCCGTAACTTTGGTTTTGTTATTGCCGATGATAAGCGCATCCCCAACGATATCTTCATTCCTAAATCCCAAAACAACGGAGCTGTAGACGGTCACAAGGTCATTGTGAATATTACGAAGTTCCCTGAAGATCGGATGAGTGCAGAAGGAGAGATTGTTGAAATCCTCGGTCACAAAAATGACCCGGGCATCGATATCCTTTCCATCATTCATAAGCATGGGATAAAGATTGATTTTCCTAATGAGGTCCTGGAACAAGCGGCTGAAACCCCTGATCAGATCAGTGAGGACGAAATCAAGAACCGCAGAGATCTGCGTGATGAGACGATCGTAACGATTGATGGTGCAGACGCCAAAGATCTTGATGATGCTGTAGCAGTCAAACAGCTGGACAACGGCAATTATCATCTGGGCGTCCACATTGCTGATGTCACGTATTACGTCGGGGAAGGCTCTCCGATCGACCAGGAAGCCAGACAGCGTGCTACAAGTGTGTACCTCGTTGACCGCGTCATTCCAATGATCCCTCACAGGCTTTCCAATGGTATCTGCTCGCTGAATCCGCAGGTGGACCGCCTCACACTTTCCTGTGAAATGGAAATCAGTCCAAAAGGGGAAGTGGTTTCCCACGAGATTTTTCAAAGCGTGATCAAAACAAACGAGCGTATGACCTATAAAGATGTCAATGAAATCTTAACGAACGAAGATCCTGCCTTAATGGAAAAGTATAAAGACCTTGTTCCGATGTTCCGGAACATGGAAAACCTTGCCTCGATTCTTCGTGGTAAACGGATGGACCGCGGTGCGATTGATTTTGACTTCAAAGAAGCGGGTGTCGTGGTAGATGAGGAAGGCAAAGCCGTTGATGTGCGCCTGCGTGAGCGTTCTGTAGCAGAACGTCTCATTGAGGAATTCATGCTTGCAGCGAACGAAACGGTGGCTGAACACTTTCACTGGATGGAAGTCCCATTCATCCACCGTATCCACCAGGAGCCGGCTGAGGATAAACTGCAGACGTTCTTCGACTTTGTTGCCAACATGGGCTATGTCGTAAAAGGAACGGCAGACAGTGTCCACCCTCAAGCGCTGCAGAAGGTGCTGGAAGAAGTGAAAGGGACGCAGGAGGATATGATCATATCCAAACTGATGCTCCGCTCCATGCAGCAGGCGAAATATGATCCGCAGGGACTTGGGCACTTCGGACTTGCTACAGATTATTATACGCACTTCACTTCCCCGATCCGCCGTTACCCAGACTTGATTGTTCACCGGTTAATCCGGACGTATCTGGTAGAGAAGAAGGTGGATTACAACACGCGGAAGCATTGGAAAGACCAGATGCCTGAAATCGCCCGCCACTCTTCTGAAATGGAGCGTGCGGCCGTTGATGCCGAGCGTGAAACCGATGACCTGAAAAAAGCCGAATACATGCAGGATAAAGTCGGTGAGGAGTATGAAGGTGTCATCAGTTCTGTCACCAGCTTCGGAATGTTCGTCGAGCTGCCGAACACGGTGGAAGGTCTCGTCCATGTCAGTACACTGACGGATGACTACTACCATTTCCACGAGAAGCAGTATGCGATGATCGGGGAACGAACTGGAAATGTGTTCCGTATCGGTGATGAAGTCACCATCCGTGTAACCAACGTCAATATTGAGGAAAGAGTCGTCGACTTTGAAATTGATGGGATGAAGCCGCGTAAAGAGCGAAAGCGTCCGGAACGTCCGAAGAAGATTGAATCCAAGGGCCCCGACCGGAAGAAAGAGAAAGAGAAAAAGAAAAACAAACAGAAAGGGAACAAACCTTTCTATAGAAACAAAGGCGTTCCTAAAAAAGGACGTAAGAAAAAGAAATAG	MTTELKQQILNLFKETASKPLSVQELQDTMELGSSDEFKVLMKSLNELEEEGELVRTRKNRFGLPEKMNLIRGRIQMHAKGFAFLIPDEEGSDDVYIHHSDLHSAMNNDKVFVRIEKRKEDGSRPEGAVIRILERATTKVVGTYESSRNFGFVIADDKRIPNDIFIPKSQNNGAVDGHKVIVNITKFPEDRMSAEGEIVEILGHKNDPGIDILSIIHKHGIKIDFPNEVLEQAAETPDQISEDEIKNRRDLRDETIVTIDGADAKDLDDAVAVKQLDNGNYHLGVHIADVTYYVGEGSPIDQEARQRATSVYLVDRVIPMIPHRLSNGICSLNPQVDRLTLSCEMEISPKGEVVSHEIFQSVIKTNERMTYKDVNEILTNEDPALMEKYKDLVPMFRNMENLASILRGKRMDRGAIDFDFKEAGVVVDEEGKAVDVRLRERSVAERLIEEFMLAANETVAEHFHWMEVPFIHRIHQEPAEDKLQTFFDFVANMGYVVKGTADSVHPQALQKVLEEVKGTQEDMIISKLMLRSMQQAKYDPQGLGHFGLATDYYTHFTSPIRRYPDLIVHRLIRTYLVEKKVDYNTRKHWKDQMPEIARHSSEMERAAVDAERETDDLKKAEYMQDKVGEEYEGVISSVTSFGMFVELPNTVEGLVHVSTLTDDYYHFHEKQYAMIGERTGNVFRIGDEVTIRVTNVNIEERVVDFEIDGMKPRKERKRPERPKKIESKGPDRKKEKEKKKNKQKGNKPFYRNKGVPKKGRKKKK				NA	NA	NA	NA	NA
AK012_02316	225			hypothetical protein	ATGACTGACGGCTGCCTGCCTGAATATGAAAAAGACTGCCCTCCATCCAGCAAGGGTGAGCTGGGTGAAGGAGGGTCTTTTTCGATTTTAAAGAAAGCCCAAGGAGCGGTGCCCCGTTCACTCCTGTGGAAGAACGAGTGGGCACAGATCACCGAGCGTGGTTTGTGCGAGGAAGCGCGGGCGCTCGTCCGCGGAAAGGGAAGGGGCTTACGCTCCTGGCGGTAA	MTDGCLPEYEKDCPPSSKGELGEGGSFSILKKAQGAVPRSLLWKNEWAQITERGLCEEARALVRGKGRGLRSWR				NA	NA	NA	NA	NA
AK012_02317	420			hypothetical protein	ATGGACTTTATGAATGCCGCACAACTGTTAGATGAAGGTCATGCTTTGAAACGTCATTCCTGGAAGAACCCTGGATATATAACGAAGGATAAAGAAGGCGTCATCGTCTTTTTTGATCATAACGAACCATCTGTTTATCAGCTGACTGCTGAAGATGCGCTTGCCTCTGATTGGGAAGCCTCTGCGAAAGATAACTGGAAGATCGTCTCTGTCTCCCACGACCGCGAATTGATGGAAGGCAGGTTGTTCATTTCCTATCACATCCGCTCTGAAAATGAAGGACACATTTTGAACAACCATATCGTTCCGCAGGAAGAGCTTTCTCTATGGTCCACATACGTTGATCTGGACCTGGAAGAGTCTGCGCGTCACTTAAATGAACAAGATGTGGCCACCGTTCAACACACATTAAGCGCCTAA	MDFMNAAQLLDEGHALKRHSWKNPGYITKDKEGVIVFFDHNEPSVYQLTAEDALASDWEASAKDNWKIVSVSHDRELMEGRLFISYHIRSENEGHILNNHIVPQEELSLWSTYVDLDLEESARHLNEQDVATVQHTLSA				NA	NA	NA	NA	NA
AK012_02318	873			hypothetical protein	ATGAATCAGGTGCTCCACGTCAAAACATTAACCATCGATGATTTAAACAGCCTGAAGGCGATGGAAACAGGGATCGAGGACGATTATGTCGTCCGGATATTCGATCGCCTTGTGACATCAAAAAGCCACCGTCTGTTCGGCTTATTTCAAGACGACCGGATGCTCTCCGTCGCCGGTTACAGTCTATTTGGAAGGAAACAGTTTGCTATGATGGGAAGACTCCGCAGCGACCAGCGATTCATCGGGAAAGGGCATGCCACCTACCTTCTCACCGCTGTTATAAATGATTTAAAGGCGTCCTCCCACGTCCGCTGGCTGGGAGCGAATACGCACATTGGCAATCTTCCGGCAAGGCGTGTCCTCGCAAAAATCGGGCTTGAACAAGGACCGGTAAGCCATTACCTCACCCTGAAACGACCGGACTTTCTGACCGGACACACAAAAGGCCGCGTGTGGACAGCAGTCAACACCCTCAGAGAAAAGAGACACCTCCTGAATTCGCTGAAAACAAATGCGCTCGGTACCTTCCCTTATGAGTGTTATTATCCATTTCCCTATGATGACGCCTTTTTCACCAATGATTACTTGGAAGACTCCTCTTTTTATATCAGTCCCGATCATCAGCGGTTCGTCATCATAAAAAATGATACAAAAAAGCACGATTATTCCCATGTTAAGTACTTCTGGGATGACCACTATCACCAGCCTGGTTTTTTTGAAACGCTGCTTCACCACTGGGAACAGAACCCTGGAAATGCAGGGTGCTGGATTGATTTTTCTCCCCGGGGCTTCAAGAACATTCCTGATCTGACCCCCTACGATGTGCAGGAGCCATGGATCCTGTATGGACAGTGGGTAAAAACTTCAAACTAA	MNQVLHVKTLTIDDLNSLKAMETGIEDDYVVRIFDRLVTSKSHRLFGLFQDDRMLSVAGYSLFGRKQFAMMGRLRSDQRFIGKGHATYLLTAVINDLKASSHVRWLGANTHIGNLPARRVLAKIGLEQGPVSHYLTLKRPDFLTGHTKGRVWTAVNTLREKRHLLNSLKTNALGTFPYECYYPFPYDDAFFTNDYLEDSSFYISPDHQRFVIIKNDTKKHDYSHVKYFWDDHYHQPGFFETLLHHWEQNPGNAGCWIDFSPRGFKNIPDLTPYDVQEPWILYGQWVKTSN				NA	NA	NA	NA	NA
AK012_02319	465	smpB	COG0691	SsrA-binding protein	ATGCCTAGAGGAAATGGAAAGACGCTGGCTCAGAACAAAAAAGCCCGCCACGACTATACGATAGAAGAAACATTTGAAGCAGGTGTGGTTCTGCAGGGGACAGAAATCAAGTCGATCCGTAACGGTCGGTTGAACTTAAAGGACAGCTTTGCCCGTATTCATAAAGGAGAAGTATATCTTCATAACATGCACATTTCTCCATATGAACAGGGCAATATTTTCAACCATGATCCTACACGGGCGCGTAAGCTCCTGCTGCACCGCAAGGAAATCAACCAGTTGATTGGACAGACACAGCAGAAAGGCTATTCTCTTGTACCTTTAAAGGTCTATATTAAAAATGGTGTCGCTAAAGTTTTAATCGGCCTCGGTAAAGGGAAAAAGAAATATGATAAGCGTGAAGACCTCAAGCAGAAACAGCAGAAGCGTGAAATTGACCGCGCGATCAAGGAAAGCTTAAAATAA	MPRGNGKTLAQNKKARHDYTIEETFEAGVVLQGTEIKSIRNGRLNLKDSFARIHKGEVYLHNMHISPYEQGNIFNHDPTRARKLLLHRKEINQLIGQTQQKGYSLVPLKVYIKNGVAKVLIGLGKGKKKYDKREDLKQKQQKREIDRAIKESLK	PGPT0014355_3046	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
AK012_02321	432			hypothetical protein	ATGAACTTACAATCTATGAAAGTGTCCATGCCGTCTTATATGGCTGAGGAATTCGAGCAGATGGAAAAAATAACAGAACCAAAAACGAAGAAAATGCGGAGATATTCGCTCCTATCTTTATTTATGCTGCCGATGGCTGTTTTCAATATTGTCAGCCTTGTCTTTTTTTCAGAAACGATGCCGGTCTTGCCGGTCCTTTTGTTTAGTGCCGCAGGGGCTGTAGCTCTGGCCCTTCAGAAGGAAGTTAAGGTTCTTTTGAAAGAAGTGCAGGAGCTTATGGTCGCGTATATGAAAGAGCGGATGGACAAGGCGGCAGAGATGAATCCGATGCGGCTCAACCGGTTCAAAACAGAACTGGAAGAAAACCCGAACCAATCCGTTAAAGTGTTTGCAGAGTTTCTGGAAGCGGAAAGGAAATGGGGAGAAGAATGA	MNLQSMKVSMPSYMAEEFEQMEKITEPKTKKMRRYSLLSLFMLPMAVFNIVSLVFFSETMPVLPVLLFSAAGAVALALQKEVKVLLKEVQELMVAYMKERMDKAAEMNPMRLNRFKTELEENPNQSVKVFAEFLEAERKWGEE				NA	NA	NA	NA	NA
AK012_02322	642	ywaC	COG2357	GTP pyrophosphokinase YwaC	ATGAATGAAGAAGCCGTTACAGAAATGACAAAGCTGGAACTGGAAGAATGGAAAGATCTTTTAATTTTGTACAAATTCGGGCTGGATGAAATCAATACGAAGCTGAAAATTCTTAACGAAGAGTTTAAATACATGTATAACCACAACCCAATTGAACATTTAAAATCGAGAGTGAAGGATCCGGCAGGCATCGCAGAAAAGTTAAAGAGAAAAGGCTGTGCGGCTACAAAGGAAAATGCCCGGCAATATGTTCAGGATATTGCGGGGATCCGGATCATCAGCTCCTTCGTTTCTGATATCTATAAAATTTATGACATGCTTAACCAACAGGATGACATCCGGGTGATTGAAGTGAAGGACTACATCAAAAAACCGAAACCGAATGGCTATAAGAGTCTCCATCTAATCCTTGAAATCCCTGTGTTTTTGTCCAATCGAACAGAGATGGTCAAAGTAGAGGTCCAAATCCGGACGGTGGCTATGGACTTCTGGGCAGGTATCGAACATAAGCTGTACTACAAAGACGAAAAAAAGGTTCCCGATCATCTGGCGGGGGAGCTGTTAAAGGCAGCAGAAACCGTTCACGCCCTTGACGCTAAGATGGGCGTATTAAAAAAAGAAGTGGATCTGCAGGAATCGTAA	MNEEAVTEMTKLELEEWKDLLILYKFGLDEINTKLKILNEEFKYMYNHNPIEHLKSRVKDPAGIAEKLKRKGCAATKENARQYVQDIAGIRIISSFVSDIYKIYDMLNQQDDIRVIEVKDYIKKPKPNGYKSLHLILEIPVFLSNRTEMVKVEVQIRTVAMDFWAGIEHKLYYKDEKKVPDHLAGELLKAAETVHALDAKMGVLKKEVDLQES	PGPT0014825_1196	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
AK012_02323	153			hypothetical protein	ATGGACACGTATACAGGAAGGAAAGAACGAGAAACATTTATCCAACGGCTTAGAAGTCAGGGGGTGAATATCCAGTTTACGTCAAAAAAGAAAAAAGAGTTGAAACCATTTCTTGATCTGGACTTCACAAAATGGAGAAAGGTCTTTCACTAA	MDTYTGRKERETFIQRLRSQGVNIQFTSKKKKELKPFLDLDFTKWRKVFH				NA	NA	NA	NA	NA
AK012_02324	846			hypothetical protein	ATGGATCAGAAAAAACTCAACATTATCGAGACATCTATAAAATTATTTGCCAAAAAAGGGTTCAGCTCCACATCCGTCCAGGAAATTGCGAAAGCTGCCAATATTTCCAAAGGAGCGTTTTACCTTCATTTTGATACGAAAGACGACCTTCTTTACGAGTTGTTCGAACATTACTGGAGACGGATGCAGAAGAGAATCAACGAAGTGTCTTCCACCCCGATGACGCCAAAGGAAAAATTCATTCATCAATTGAAAGTGTCCATGGAGGAAGTCGCAGACCATCGGGAATTTATCATTATGCAGATCCGCGAGCAGGTCATTCCCTTCAATGACATGATTGAAAATTTAATCAGACGGATGCGGTATCACTCCGTTATGTTCTACCGTAATCATATCCTTGCGATATATGGATCAGAGGCGGAACCGTTCGCCTGGGAAGCAAGCCTGACCGTTCAGAGCTTGTTTAAAACCTATATAGATTTAATGATTATGGATAAAATGGAATTCAGTCTGTTGAAAGTCGCCGAGTCGATCGCAAACAAAATGGATGCTGTCATGGAGGGGTATAAAAGCGGCCATGACTGCCCTGTCATTACGGATGAAGTGATCAGCCGGGTGATTCCGGAAAATTTCCAGCTGAACCAGATGGAAGACATCATGACCCAGCTTCAAGAGATCTATGACCAGGAAAATGACGTGGATTTAAAGGATACCGCCGACCTTCTGCTTCAGGAATTAACATCCAAAGCGCCGAGACCAGCGGTTATTAAAGGAATGGTGTTTAACTTGGAAAGGTATGATGAGTATATTGACCTTTCCTCCCAGATCCGCGCCCATTATATGTAA	MDQKKLNIIETSIKLFAKKGFSSTSVQEIAKAANISKGAFYLHFDTKDDLLYELFEHYWRRMQKRINEVSSTPMTPKEKFIHQLKVSMEEVADHREFIIMQIREQVIPFNDMIENLIRRMRYHSVMFYRNHILAIYGSEAEPFAWEASLTVQSLFKTYIDLMIMDKMEFSLLKVAESIANKMDAVMEGYKSGHDCPVITDEVISRVIPENFQLNQMEDIMTQLQEIYDQENDVDLKDTADLLLQELTSKAPRPAVIKGMVFNLERYDEYIDLSSQIRAHYM				NA	NA	NA	NA	NA
AK012_02325	3150	swrC_3	COG0841	Swarming motility protein SwrC	ATGAAAAAGATCATTGATTTTTCAATGAACAACAAGTTTGCTGTCTGGTTAATGACTATTATTATAACAGCAGCAGGGCTCTATTCAGGCTTGAATATGAAATTGGAAACCATTCCTGATATTGACCCGCCGATTATAACCGTTACAACGGTTTATCCCGGAGCAACTCCAGCAGAAGTAGCAGGGGAAGTTTCAGAACCCATAGAACAGCAGGTTCAAAACTTAAGTGGAGTGAAAACAGTAAGTTCGAGTTCTTTCCAGAACGCTTCAAATATCCAGATGGAATACGGATACAGCAAGGATTTAGATGAAGCTGAGGACGAACTGCAGGAAGCTGTGGATTCCGTTACACTTCCTGATGATGTTCAGGAACCCGATGTATCCCGGATCAACTTTAACGCTTTTCCTGTCTTAAGCATGAGCGTTATCAGCGAAGGACAGAGCCTTGAGGAACTGACTGCTGAGGTTGAAGATTCAATCAAACCAGAGCTGGAAGGTCTGGAAGGTGTGGCGGATGTTCAAATATCCGGTCAGCAGGTCCAGGAAGTGCAGATGTCCTTTGATGAGGAAGCACTGGCTGAAAGAGGCATGGATCAACAAACGGTAAAGAATATCATACAGGGGTCGAATGTGACTTTCCCTCTTGGACTTTACACTTTTGACGATACACAGAAGTCGGTCATGATTGACGGCGATGTATCTTCACTTGAAGATTTAAAACAACTTGAAATTCCTGCCGTTCCATCGCAGGGTGATCAGTCCGCTGCTCAAAGTCAGCAGCAGGCGCCAGGTGCAGGCCAGCAGAGCGATGCAGCGGCAGCCCAGCAGGGAGCAGCTGATGCCCAGGCACAGCAGGCTCAGGGGATTCCAACTGTTCAGCTTCAGGACATTGCAGACCTTGAAATTGTCGGACAGACGGAATCGATTTCAAGAACCAATGGAGAAGAATCCATCTCCATTCAGATTATAAAATCACAAGAAGCCAACACTGTGGACGTAGTGAACCTTGTGAAGGAAACGACCTCAGATCTTGAAAGTGATTTAGATGGTCTTGAATTCATCTACTCCTTTGACCAGGGAGAGCCGATTGAAGAATCTGTAAGTACGATGCTGAATAAAGCGTTGTTCGGTGGATTATTTGCGATTCTTGTTATTCTGTTGTTCCTTCGTAACTTTAGGACAACATTGATTTCCGTGGTTTCCATACCATTATCGCTTCTGATTGCAATCCTTATTTTGAATCAGATGGGTATTACCTTGAACATTATGACCCTCGGGGCCATGACTGTAGCCATCGGACGGGTAGTCGATGATTCAATCGTTGTTGTTGAGAACATATACAGGCGGATGGCTCTTAAAGATGAGGAACTGGAAGGGAAAGCCCTTGTCCGGGCTGCGACCAAAGAAATGTTTATGCCGATCCTTTCTTCAACCATCGTAACTATTGCGGTTTTCCTTCCATTAGGGTTGGTTGAAGGTGTCGTCGGCCAGGTATTCCTGCCATTCGCACTAACTGTCGTCTTTGCCCTTCTGGCTTCCCTTGTCGTGGCCGTTACAATTGTGCCGATGATGTCTCATTCACTTCTTACGAAGGAAAGAGCTCAAAAGGGACACCAGGAAGGCCCTGGTAAAATTGCGAAATGGTACCGCTCTGTATTAAACAGTGTGTTAAACCATAAGATCATCACTTCCATCGTAGCAGTAGCTGTTCTTGTAGGAAGTATCGCATTAGTGCCTCTTGTAGGGGTGAGTTTCCTTCCTTCAGAAGAGCAGAAGATGGTCATGCCGACATACAGTCCGGCACCGGGCCAGACGATTGAGGATGTTGAAGAAATCGCGTCTGAAGCCTATGAATACTTTGACGGCCGGGACAACGTGCAGACCATTCAATATTCTGTCGGTGGAGAAAACCCGATGAATCCGGGAGCGTCCAATCAGGCGGCTTTCTTCGTTGAATATGACAGCGAAACAGAAAACTTCGAATCAGAAAAAGAACAGGTTCTCGAAGATTTGAAAGCCATGTCGGATGATGGGGAATGGGCCAGCCAGAACTTCTCCTCCACAGGTTCAAGCAATGAAATCGAAGTTCAAGTATTCGGTGATAATACAGATGAAATTAAGCCTTATGTAGAAGAAGTCCAGACACTTCTGGAAGAAGAGGATGAATTGAAGGATGCCTCTTCCTCCCTTTCTGAGTCTTATGAGGAATACACTCTCGTGGCCGACCAGGAAAAAATGAGCCAGCTCGGGTTAACTGCTGGTCAACTGGGCATGGAGCTCAGCTCCAATGGTGAACGGACAGAAATCACCACGATCCAGGAAGATGGAGAAGACCTTCAGGTTTATCTGGAAGTCGAAAAAGATAATTACAACAATATCGATGATTTAACTGGTAAAGAAATTGAATCACCACTGGGTACAGCTGTACCGATCAGTGAAGTTGTGGAAGTCGAAGAAGGCACAACTGAAGATACGATCAGCCGCCGGAACGGTCAGGTGTATGCAAGTGTCAGTGCCAAGACGACTACAGATGACATTGGATCTGTATCACAAAGCGTTCAGGAAGAGCTGGATAAGATTGACCACCCGGCCTCCATTGACCTTTCCATCGGCGGTGTAACCGAGGACATTAATGAGTCCTTCAGTCAGCTTGGATTAGCCATGCTGGCAGCTATTGCCATCGTGTATGTTGTACTGGTCATCTTCTTTGAAGGTGCGCTCGCGCCATTTGCGATTCTGTTCTCTCTTCCATTTACCATTATCGGTGCTGTCGTCGGCTTATTGATTGGCGGGGAAACGTTAAGTATCTCGGCTATGATCGGAGCCTTGATGCTCATTGGTATTGTAGTAACGAACGGGATTGTACTGATCGACCGCGTGATTCAAAGGGAAAAAGAAGGATTCTCTACGCGTGAAGCGCTGCTTGATGCGGGGATGACGCGTATTCGTCCGATATTGATGACAGCTCTGGCAACGATTGGAGCGCTGCTTCCATTAGCCCTCGGCTTTGAAGGTGGATCCATCATCAGTAAAGGACTCGGAATTACCGTGATCGGCGGTCTTGCAAGCTCCACATTGCTGACGCTGCTGATTGTACCGGTGGTTTACGAAATGCTCAGTAAGGTTGGTAAAAAGAAAAAAGCATCATAA	MKKIIDFSMNNKFAVWLMTIIITAAGLYSGLNMKLETIPDIDPPIITVTTVYPGATPAEVAGEVSEPIEQQVQNLSGVKTVSSSSFQNASNIQMEYGYSKDLDEAEDELQEAVDSVTLPDDVQEPDVSRINFNAFPVLSMSVISEGQSLEELTAEVEDSIKPELEGLEGVADVQISGQQVQEVQMSFDEEALAERGMDQQTVKNIIQGSNVTFPLGLYTFDDTQKSVMIDGDVSSLEDLKQLEIPAVPSQGDQSAAQSQQQAPGAGQQSDAAAAQQGAADAQAQQAQGIPTVQLQDIADLEIVGQTESISRTNGEESISIQIIKSQEANTVDVVNLVKETTSDLESDLDGLEFIYSFDQGEPIEESVSTMLNKALFGGLFAILVILLFLRNFRTTLISVVSIPLSLLIAILILNQMGITLNIMTLGAMTVAIGRVVDDSIVVVENIYRRMALKDEELEGKALVRAATKEMFMPILSSTIVTIAVFLPLGLVEGVVGQVFLPFALTVVFALLASLVVAVTIVPMMSHSLLTKERAQKGHQEGPGKIAKWYRSVLNSVLNHKIITSIVAVAVLVGSIALVPLVGVSFLPSEEQKMVMPTYSPAPGQTIEDVEEIASEAYEYFDGRDNVQTIQYSVGGENPMNPGASNQAAFFVEYDSETENFESEKEQVLEDLKAMSDDGEWASQNFSSTGSSNEIEVQVFGDNTDEIKPYVEEVQTLLEEEDELKDASSSLSESYEEYTLVADQEKMSQLGLTAGQLGMELSSNGERTEITTIQEDGEDLQVYLEVEKDNYNNIDDLTGKEIESPLGTAVPISEVVEVEEGTTEDTISRRNGQVYASVSAKTTTDDIGSVSQSVQEELDKIDHPASIDLSIGGVTEDINESFSQLGLAMLAAIAIVYVVLVIFFEGALAPFAILFSLPFTIIGAVVGLLIGGETLSISAMIGALMLIGIVVTNGIVLIDRVIQREKEGFSTREALLDAGMTRIRPILMTALATIGALLPLALGFEGGSIISKGLGITVIGGLASSTLLTLLIVPVVYEMLSKVGKKKKAS	PGPT0016195_1211	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
AK012_02326	939	arcA		Arginine deiminase	ATGCTTATACACCCTTATTGCTGTAATGAATATGATGAATTGAAAAAAGTGATTATGTGTTCTCCCTCCACCTCTGCAATTCCCAATCAGGCAGCTGCCGATGATGTTCAATGGGAAAAGCCTGTGAACCCTGAGAAAACAGCTGCAGCTTTTCAGGAAATGACAGATGCCATGGCTGAAGAAGGCGTAGAGGTCATTGATTATGCCAGCCACCTGCCCGATCATACCCAGTCCTTTCACTCCCGATTGATCAACCGCGTCTTCGTACGGGACCTCGCCTGTGTTATCGGCACGCTCGTTGTTCCTGGTGAAGCCGGCATATCCATGAGAAGGCCCGAATACCTTCATGCCCACACCCTTTTTAAAGACTGGTTTCCGAGAGACCGATTTTCCATTCAGGCCAACAACCCCGTCAATGCGCTGGAATTCGGCGATGTCCTCGTTCTCCGTAAAGATGCCGTGTTCATCAACACCGGACTTCGAACCAGCTTTGAAAGTGTCCAGAAGCTGCTTCCACAGCTTTGGAAAGAAGGAGTTACAGAAGTGGGTGTGATCGATCTTCCAAGACGCGGGGATACGATGCACATGGATATGAACTGCAATGTGGCAGCACCTGATCTTTTTATTGCGAAAAGTTATATGAAGTATTTTCCAGTTCAAGTTTTCACAGACAAAGAGAGCACGTATATGATGATGGATGATTTCATTACCCGTCATGGCTATGATATTTTCTGGACAGATGAGATCCATCACACCGTTGCCGATATTAACTTCCTGAATATAAACCCTGAAACCCTCCTGGTGAGCACGAAGGCCCATAAAAAAGTCCTTCACCATGAGAAATTAAAGAAGAAAAACATCATCCGCGTCGATGTGGATGAGCTGGAAAATGGCGGAGGCGGCATCCGCTGCATGACCCTCCCCGTAGAGCGAAGGTGA	MLIHPYCCNEYDELKKVIMCSPSTSAIPNQAAADDVQWEKPVNPEKTAAAFQEMTDAMAEEGVEVIDYASHLPDHTQSFHSRLINRVFVRDLACVIGTLVVPGEAGISMRRPEYLHAHTLFKDWFPRDRFSIQANNPVNALEFGDVLVLRKDAVFINTGLRTSFESVQKLLPQLWKEGVTEVGVIDLPRRGDTMHMDMNCNVAAPDLFIAKSYMKYFPVQVFTDKESTYMMMDDFITRHGYDIFWTDEIHHTVADINFLNINPETLLVSTKAHKKVLHHEKLKKKNIIRVDVDELENGGGGIRCMTLPVERR	PGPT0020075_1512	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020075-arcA-K01478	NA	NA
AK012_02327	1320	rocC_2	COG0833	Amino-acid permease RocC	GTGAAAAAGGAAAATTCCCAGGGAACACTAACGTGGTGGCAGATGTCGTTTATAGGAATTGGATGCATCATTGGAACCGGCTTTTTTCTAGGATCGAGCATAGCCATTACCAAAGCAGGACCAGCTGTTATCTTCGTTTATCTTGCCGCCGGTACAGGGACGTATATTGTCTTTCGCTGCCTTGCTGCATTAACAGCCGCACACCCGGAAAAAGGTTCCTTTCGTACGTATGCCAAGCAGGCTTTCGGAGCGTGGGCGGGGTTCAGCAACGGGTGGGTGTACTGGTCGTGTGAAATGTTAATTATGGGCAGTCAGCTTACGGCGCTGGCCATCTTTGCTCAATTCTGGTTTCCGAAGCTTCCATTATGGGTGTTTGCTCTTATTTTCGCTCTTTTAGGTCTCCTTGTTCTCTGGCTTGGTGTCCGCAAAGTAGAGCAGATGGAAAACATTTTCGGTATCATCAAAATATCGGCTATTCTTATGTTTGTTATCATTGCAGCCTTAGCTTTGACAGGGGTGATCGACCGCTCCAGTGGTTCCTCCGATCCTACAGGTATTTTCCGGGGATTCTTTGAAAATGGATGGTCAGGCTTGTGGGTGGCGCTGCTTTATGCGTTTTACGCCTTTGGGGGGATTGAAGTGATGGGGTTGATGGCAGGAGAGTTGAAAGATCCAAAAGATGCTCCTAAATCAGGGACGTTGATGCTTATCGTATTGACGCTGTTGTATATGGCTGCTTTTTATTTTGTCGTCTCGTTGACATCTATTGAAAAAATAACTACCGACGAAAGCCCGTTCTTAACTGCGCTTACTGACTATCCGCTTCCCTGGGTGCCGCATATCTTCAATGCTGTCCTGATCATCGCCGGCTTTTCAACGATGGCTGCTTCGCTGTATGCGGTCACAACAATGGTGATGACGTTGAGCGAGGAAGGAGACGCGCCCGGCCTCTTTAGTCAGAAAGAAGAAGGAAAGGTATCCAAACCGGCTTTCATTCTCACGATATTGGTCGTTGTATTGTCCATTGTCCTGGCTGTTCTCCTGCCGGACCGGCTGTTCGAATATGTCACGACAGCAGCGGGGTTGATGCTTTTATATAACTGGGCGTTTATCCTGCTTTCCTATCGTAAACTCATGGGGAAAGGGTTCAGGGATGGATTATTAGTGACAGCTGGACTGCTCTTTTTAGGTCTTGCCATCAGTGGAACGCTTCTCGATTCCATGACAAGAATCGGCTTTTTCGTGAGTCTCGCTTTTTTAGTAGTCATTGCGCTTGCAACGTGGGTGAAAATGAAAAAAGCCCCTGGGTCAGGGGCGTAG	MKKENSQGTLTWWQMSFIGIGCIIGTGFFLGSSIAITKAGPAVIFVYLAAGTGTYIVFRCLAALTAAHPEKGSFRTYAKQAFGAWAGFSNGWVYWSCEMLIMGSQLTALAIFAQFWFPKLPLWVFALIFALLGLLVLWLGVRKVEQMENIFGIIKISAILMFVIIAALALTGVIDRSSGSSDPTGIFRGFFENGWSGLWVALLYAFYAFGGIEVMGLMAGELKDPKDAPKSGTLMLIVLTLLYMAAFYFVVSLTSIEKITTDESPFLTALTDYPLPWVPHIFNAVLIIAGFSTMAASLYAVTTMVMTLSEEGDAPGLFSQKEEGKVSKPAFILTILVVVLSIVLAVLLPDRLFEYVTTAAGLMLLYNWAFILLSYRKLMGKGFRDGLLVTAGLLFLGLAISGTLLDSMTRIGFFVSLAFLVVIALATWVKMKKAPGSGA	PGPT0020806_230	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020806-ycgH-K16237	NA	NA
AK012_02328	747			hypothetical protein	ATGCTACACACAAAAGAAGAGATAGAAAACCCGAAGACCTCACTGGAAAAGTGGCAGGAGCTTGCCTATACAGCTTTTGGAGACATGATGACGAGCAGGGAGCATGCCTATCCCTGCGTCCCTGGTATCCAGGGATACACGAACGGGATGCTTCGTTTCGGTTTTCTGGAAGACCCCCGGTATTCTTCCGCTCCCAAACAGCTGGCTGCACTTTTAAAAGAGTACGGTAAAGTTTCCAGAGAAGCCGGCAGGTATACGTCGCTGGTTGTCTTCTGTGACACAACTTCATTATTGAAAGACCCGCTCGCCATCAAAGACTACGAGCAGCTATTCTGGTCCCTGCTTAATCAGACCCACGCTCTGGATGAAACGGACTGGCCCGGGGATATTTCCCAGGACCCCGAAGATCCTTCCTGGGAATTCTGCTTTGGTGGAGAACCTTATTTCGCCTTTTGTGCCACACCCGCTCATATAAAAAGAAACAGCCGGAGTTTTCCTTCCATGCTGCTTGCTTTTCAACCCAGGTGGGTGTTTGAAGATATCAATGATTCGACGACCTACGGACGAAGGCTCAAAAACGTCATACGAAAACGACTCGTTGACTACGATGACCTTCCCGTCCATCCATCCTTGAAATGGTACGGCCAGCAGGATAACCATGAATGGGAACAGTATTTTCTACGTGATGATGACTCCTCTTTACCTGAATGTCCATTTCTGGCTAAATCCAGGAGTCTACGCCCCTGA	MLHTKEEIENPKTSLEKWQELAYTAFGDMMTSREHAYPCVPGIQGYTNGMLRFGFLEDPRYSSAPKQLAALLKEYGKVSREAGRYTSLVVFCDTTSLLKDPLAIKDYEQLFWSLLNQTHALDETDWPGDISQDPEDPSWEFCFGGEPYFAFCATPAHIKRNSRSFPSMLLAFQPRWVFEDINDSTTYGRRLKNVIRKRLVDYDDLPVHPSLKWYGQQDNHEWEQYFLRDDDSSLPECPFLAKSRSLRP				NA	NA	NA	NA	NA
AK012_02329	624			hypothetical protein	ATGCTTTTCAGTTACATTTTACTCGGCCTGTCGTTATCCGCCCCCGTTGGTCCAATCAATGCAGCGCAGTTAGATAAAGGGATCCGCTACGGCTTCTTTCATGCCTGGCTTGTCGGGGTGGGGGCCATGGCTGCGGACGGACTGTTCATGCTGCTTATTTATTTTGGTCTGGCTGACTACATACAGATCCCGCTCATCAAAACCTTTTTATGGTCATTCGGTGCTTTCGTTCTGATATACACAGGTGTCGAAAGCATCGCCGGGGCGGGCAATGTGGAAACTCAAAGATCGGACCCTTCCAAAGGTTCCAAAGGTAAATCATTTCGGACCGGCTTTTTTATGGCTTTATCCAATCCGCTGAATATTTTATTCTGGATCGGGATTTACGGATCCATTCTTGCAGAAATCTCTTCCCAGTATGAACAGGCTCAGCTTCTTCTTTACAGCGGGGGCATCTTTATCGGCATTATGATCTGGGACATTACAATGGCGGGCGCTGCCTCAGGAGCCAGAAGGTGGCTGACGGGACGCTTCCTCTCTTCCATTTCTATTTTGTCAGGAATTATTTTAATCGGTTTCGGTCTTTACTTCGGTGTTCAGGCGGTTCGAATGATTATGGGTTAG	MLFSYILLGLSLSAPVGPINAAQLDKGIRYGFFHAWLVGVGAMAADGLFMLLIYFGLADYIQIPLIKTFLWSFGAFVLIYTGVESIAGAGNVETQRSDPSKGSKGKSFRTGFFMALSNPLNILFWIGIYGSILAEISSQYEQAQLLLYSGGIFIGIMIWDITMAGAASGARRWLTGRFLSSISILSGIILIGFGLYFGVQAVRMIMG	PGPT0020651_847	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
AK012_02330	624			hypothetical protein	ATGAAACAGAATCAACCAATGAATCAACCACAAGATGCACAGATGCCCCCGACTCAAATGAACCCGAATCACGGGGGGCATGAACTTTTCGATGCGCATGAGGTCATTGCAAGCCTCATCAATATGCTGGATCAGTATCAAATGTACAGTCAGCACATCCAGGATCCTGAGCTTCAATCCATTCAACAGCGCCAACACGCTTTTGTCACGCAGATGTATAATACAATTGTCCAGAGTTTCAGCAGTGGACAGGACCCTGCACAGGCGACGCAGCAGTATAAAATGCAGCAGAGCAATGAAGTCGTTTACGGTGTGAAGCCCGGACAGCCTAAAAAACCGAACCAATCCGTCAGCGAACTGGCCGACAAAGGTTTGTCTGCCTATATGCTGGGACAGACAAAGGGGCTTGCTACGCTTCTGTCGATGACCGCTCTTGAAATGACCAACCCTGTCCTGCGCCGCGTCATTGCAGACAGTGTCCCGAACTTTATTGAGATGAGCTACGAGATCTTCCTTTATCAAAATAAACACGGGTATTACCAAGTGCCTCAGCTTCAGCAGCAGGATATGAATCTGATGCTGCAAAGCTACACAACGGTACCAAATGGCAATACTCCTCATTAA	MKQNQPMNQPQDAQMPPTQMNPNHGGHELFDAHEVIASLINMLDQYQMYSQHIQDPELQSIQQRQHAFVTQMYNTIVQSFSSGQDPAQATQQYKMQQSNEVVYGVKPGQPKKPNQSVSELADKGLSAYMLGQTKGLATLLSMTALEMTNPVLRRVIADSVPNFIEMSYEIFLYQNKHGYYQVPQLQQQDMNLMLQSYTTVPNGNTPH				NA	NA	NA	NA	NA
AK012_02331	597			hypothetical protein	ATGAAGCCACTCATGAGAAGGATATTTGTCGTACTTATTTCTGTATTAACGCTCGGTCTGTACATCCCGCCGGCCCATGTTGATACAGAAGCCGCTGAAAAGAAGGAAATCACTGACGCCGGCCACCTGAATGAACCATCAGTAGTGGAGGATGACCAGCAGATTCTTCCGGACGTTCTCACAGAAGACAGGGATGAAGATCCCTTCCGTTCCATAACGGAGGAAGCTTTTGCCCGTACAGAAGCCAAAATGGGTCCGAGAATTATGGAAAAAGTGGACGATGAGTTGTCGGAAGTGATTTTTCCTGAAATGGAAAAAGTCATGGTCGATCTCTTATCCAACACGGATGAAGAGCACGTTCCCTACATGAAAATCACAGAAGATCCTGCCCCTGGCTATGGGGAGAGAATGTTCAACTTATATAATGGACATACCGATGAAGAAATCGCCCGCTTCCATGTGCGGAGAGATAAACGTCCCGGGGAAGGGTACTGGTTCAATTTCCATTACCATTTAAAAGAAGATGCCTATGCGAAACACCATGAGATTGGGGAGATTTACTGGGAGAAGAACACGCCTCCGAAGTGGATGTCCTGA	MKPLMRRIFVVLISVLTLGLYIPPAHVDTEAAEKKEITDAGHLNEPSVVEDDQQILPDVLTEDRDEDPFRSITEEAFARTEAKMGPRIMEKVDDELSEVIFPEMEKVMVDLLSNTDEEHVPYMKITEDPAPGYGERMFNLYNGHTDEEIARFHVRRDKRPGEGYWFNFHYHLKEDAYAKHHEIGEIYWEKNTPPKWMS				NA	NA	NA	NA	NA
AK012_02332	978	tdh_2		L-threonine 3-dehydrogenase	ATGAGAGCGTTGCTTTTGCATGAAAAGCGTGATTGGCGGGAAATGCAGGTAGAAGAGATTGAAAAACCAACCGCAGGAAACGGGGAAATTGTCGTTGAAGTCCATGCGGCGGGACTGAACCCTGTGGATTACAAAACGGCAGGTAATGGGAACCCCAGCTGGGAGTACCCTCATATCCTTGGTCTTGATACAGCAGGGATTGTAACAGACAAGGGTTCGGACGTTTCCTCATTTGAAATCGGCGATCGTGTCGTGTATCACGGGGACTTAACTAAAAAAGGTGGTTTTGCAGAATATGCAGTCATTCCAGCTCATACTGCATCAAAAATCCCTGACGAAGTAAGCTTTACCGAAGCGGCGGCTCTTCCTACGGCGGGATATACAGCCTATCAAGCGATTCACCGTAAGCTTCCGCTGGATCAGGTTCAGACCATCCTTATTCACGCCGGTGCCGGCGGGGTAGGCGGGTTTGGGATACAGCTGGCTAAAGCAGCCGGGAAAACGGTCTTAACGACAGCTTCTTCTTCCAACCACGATTATGTATTGTCCCTTGGAGCGGACTATGCGATCGATTACCGCAATGAAGACGTGTATGAAAAAGTGATGGAAATCACAGATGGTCGAGGGGTTGATGCTGTCGTCGATGCGGTGAGCGGCGAAAATGCAACAGCTTCGCTCGATTATACCGCCTTTATGGGACACTTGGTGTACATCGCAGGAGCTCCTGATTTTAAAAAGGTACAACCGTTCACAACGGTCGTCTCTTATCATGAAATTGCTCTGGCAGCCGCCCATAAGGCAGACTTCCAGTCCCAGAAAGATCTTGCCGTTATCGGAGATCACTTGCTGAAACTGGTGAAAGAGGGGAAAGTCTCTCCACTTGTGGAGGAAACCATTTCGCTTAAAGACGTACCTGATGCTCTCATTCGTCTATCTGAACGCCATGTGAAAGGCAAGATTGTAGCTGAATTGAAGTAA	MRALLLHEKRDWREMQVEEIEKPTAGNGEIVVEVHAAGLNPVDYKTAGNGNPSWEYPHILGLDTAGIVTDKGSDVSSFEIGDRVVYHGDLTKKGGFAEYAVIPAHTASKIPDEVSFTEAAALPTAGYTAYQAIHRKLPLDQVQTILIHAGAGGVGGFGIQLAKAAGKTVLTTASSSNHDYVLSLGADYAIDYRNEDVYEKVMEITDGRGVDAVVDAVSGENATASLDYTAFMGHLVYIAGAPDFKKVQPFTTVVSYHEIALAAAHKADFQSQKDLAVIGDHLLKLVKEGKVSPLVEETISLKDVPDALIRLSERHVKGKIVAELK	PGPT0013255_5739	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
AK012_02333	921	murB	COG0812	UDP-N-acetylenolpyruvoylglucosamine reductase	ATGGAAAAAAAACAAATGATTTATAATAAACTGTTGAACCTTGTCAAAGAGGAAAACGTAAAGGTGGATGAACCTTTAAAGGATCACCTTTATACAAAACTGGGCGGAAAAGCGGACTTCTTTATCACGCCGACGTCTTATGAAGAAATTCAAAATGTCGTCAAGCTGTCCAATGAGGATGAAATCCCGTTTACACTGCTGGGGAACGGCTCCAACCTCATTATTAAAGACGGCGGAATCCGTGGAATAGTCATTAACTTAAAGCATTTGAATGCCATCCATGCCGATGAAGAAATGGTGACAGCCCAAAGTGGAGCCCGAATCATTGACGCCTCCCGCTTTGCTCTTGAAAAGCATTTAGCCGGTCTTGAGTTCGCCTGCGGTATTCCCGGGACCGTAGGAGGCGCGTTGTATATGAATGCTGGAGCCTATGGCGGTGAAATCAAGGATGTCCTTGACCATGCTTATGTCGTCGACAACGAAGGCAGACTCGTAAAACGGATGGCTTCTGAACTCGATCTGGATTACCGTACCAGCAACATCCCCGACCGGGGTGACATTGTTGTAGAAGCGTGCTTCCGCCTGAAGCCTGGAACACATGAAGAGATTAAAGAAATGATGGATGACCTGACGTTCAAAAGGGAGTCCAAACAGCCGCTTGAGTATCCCTCCTGTGGCAGTGTGTTTAAACGCCCCCCTGGTTATTTCGCAGGAAAGCTGATTCAAGACAGCAACCTGCAGGGAACGAATATCGGCGGAGCTGAAGTTTCCACCAAACACGCCGGTTTCATCGTGAACAAGGATAATGCCACGACTACTGACTACATCTCACTGATCGAGCATGTGCAGAAAACAGTCAAAGAGAAGTTTGGTGTAGACCTTGAGCGTGAGGTCCGCATCATTGGTGAAGATAAAGAATAA	MEKKQMIYNKLLNLVKEENVKVDEPLKDHLYTKLGGKADFFITPTSYEEIQNVVKLSNEDEIPFTLLGNGSNLIIKDGGIRGIVINLKHLNAIHADEEMVTAQSGARIIDASRFALEKHLAGLEFACGIPGTVGGALYMNAGAYGGEIKDVLDHAYVVDNEGRLVKRMASELDLDYRTSNIPDRGDIVVEACFRLKPGTHEEIKEMMDDLTFKRESKQPLEYPSCGSVFKRPPGYFAGKLIQDSNLQGTNIGGAEVSTKHAGFIVNKDNATTTDYISLIEHVQKTVKEKFGVDLEREVRIIGEDKE	PGPT0024115_3514	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024115-murB-K00075	NA	NA
AK012_02334	159			hypothetical protein	ATGGCACTTGATGTCCGTTGTGAGGTTAAAAACTGTGTCTACAACAAAAATGGCTCTGCCTGTGGCGCTGATGAAATTTTCGTCGTGAGCCATAAGGGAACAAAAGCCGCAAACAGTGAAGAAACCGACTGTAAAACATTTAAACCGGCAAATGTGTAA	MALDVRCEVKNCVYNKNGSACGADEIFVVSHKGTKAANSEETDCKTFKPANV				NA	NA	NA	NA	NA
AK012_02335	1701	ilvD	COG0129	Dihydroxy-acid dehydratase	ATGGACAAGACTAAAAAAGATTTGAGAATCAGAAGTAAAGTCATCAGTGAGGGTGTCAACCGGGTCCCGAACCGTTCGATGTTGAGAGCTGTTGGATTTAAGGATGAAGATTTCAAAAAACCTATGATCGGCATTGCCAGCACGTGGAGTGAAGTAACCCCGTGTAACGTACATATTGATAAACTGGCTGAACAGGCAAAAGGTGGAGCATCGGATAATGGCGGGGCTCCGATGATTTTTAATACCATTACAGTGGCCGACGGGATTGCAATGGGCCACGAAGGAATGTTTTATTCCCTTCCGAGCCGTGAAGTCATTGCGGATTCCATTGAAACAGTCACGAATGCCGAACGTCTTGACGGAATTGTAGCTATTGGAGGCTGTGATAAGACAACACCAGGCTGTCTCATATCGCTGGGCCGATTAAACGTTCCATCGGTCTATGTCTACGGAGGTACCATCCAGCCGGGTAAACTCGATGGGGAAGATATTGATATTGTTTCCTCTTTCGAAGCCGTTGGTCAGTATCACGAAGGCAGTATAGATGAAGAACAGCTGCACAGAGTCGAATGCCATGCATGTCCTGGTGCCGGAGCCTGCGGAGGAATGTACACGGCTAACACGATGGCTTCCGCCGTAGAGGCTCTTGGAATGAGTATCCCAGGGTCTTCCTCCACCCCTGCCGTTAATGACTATAAGGAAAATGAATGTCGTCAGGCTGGAGAGCTCGTTGTTGAGCTGCTTGAAAAGGAAATCTATCCACGGGATATCATGACAAAAGAAGCATTCGAAAATGCCATCACGGTTGTCATGGCCCTCGGCGGATCGACCAACGCGTTTCTGCATCTGTTGGCTATGGCTCATTCGGCAGGAGTCGATCTGGAACTGGATGACTTTGAGCGCATCCGTCAGGAAGTTCCTCACATTGCCGACATGAAGCCGAGCGGGAAATATGTGATGCAGGACCTGTATGAAAGCGGCGGCGTGCCTGCGGTCATGAAGCTGCTTTTGGAAGAAGGGCTGCTTCACGGAGACTGTTTGACGGTTACCGGAAAAACAGTAGCTGAAAATCTGGCAGAGGTCCCATCGTTGAAAGACGGTCAGAAAGTTATTGTTCCGTTCGATCAACCGATCAAGCCGAAAGGTCCTCTAGTTGTGCTGAAAGGGAATCTGGCACCGGAAGGCGCTGTAGCCAAAATGTCCGGTCAGAAAATCAGCCGCTTCGAAGGACCTGCTAAAGTGTATAACAGTGAAGAAGAAGCAACGAATGCCATTGTCGGTGATGACGTACAGGAAGGCGATGTCGTTGTCATCCGGAATGTAGGTCCAAAAGGCGGACCTGGTATGCCGGAGATGCTTTCCATTACCGCTATGATCGTAGGAAAAGGTCTTGGAGGGAAAGTGGCTCTGATTACCGACGGCCGTTTCTCCGGGGGATCCCACGGATTCGTCATCGGTCACGTTGCTCCTGAAGCCTTTGTAGGCGGACCGATCGGCCTTCTGGAAACCGGTGATACCATTACCATTGACAGTGAAACACAGCAGATCAATTTTGATGTTAGTGATGAAGAGTACGAACGACGGAGACAAGCATGGAAAAAACCTGAACCGAAACATAAAACAGGAGTCCTGGCCAAGTATGCCCGTCTTGTATCCTCTTCTGCCAAAGGAGCCGTTACTGACCTCGATTTAGATGAATAG	MDKTKKDLRIRSKVISEGVNRVPNRSMLRAVGFKDEDFKKPMIGIASTWSEVTPCNVHIDKLAEQAKGGASDNGGAPMIFNTITVADGIAMGHEGMFYSLPSREVIADSIETVTNAERLDGIVAIGGCDKTTPGCLISLGRLNVPSVYVYGGTIQPGKLDGEDIDIVSSFEAVGQYHEGSIDEEQLHRVECHACPGAGACGGMYTANTMASAVEALGMSIPGSSSTPAVNDYKENECRQAGELVVELLEKEIYPRDIMTKEAFENAITVVMALGGSTNAFLHLLAMAHSAGVDLELDDFERIRQEVPHIADMKPSGKYVMQDLYESGGVPAVMKLLLEEGLLHGDCLTVTGKTVAENLAEVPSLKDGQKVIVPFDQPIKPKGPLVVLKGNLAPEGAVAKMSGQKISRFEGPAKVYNSEEEATNAIVGDDVQEGDVVVIRNVGPKGGPGMPEMLSITAMIVGKGLGGKVALITDGRFSGGSHGFVIGHVAPEAFVGGPIGLLETGDTITIDSETQQINFDVSDEEYERRRQAWKKPEPKHKTGVLAKYARLVSSSAKGAVTDLDLDE	PGPT0001875_3622	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
AK012_02336	573	gpmA_2		2,3-bisphosphoglycerate-dependent phosphoglycerate mutase	ATGAAAATTGGATTGGTAAGACACGGCAGTACATCATGGAATAAAGAGAAACGGGCCCAGGGAGGCTCGGATATCCCTTTGGACGATGAAGGTACTGAACAGGCAGCCAGACTTTCCACCCGGCTGAAAAAGGAAACGTGGGATGCTTTGTACAGCAGTCCGTTAAAAAGAGCCGTCCAGACGGCAGAGGTGGCTGCCAAGGAGCTGAACATAGGCATTCAACTGGATGACCGTCTTCAGGAAGTCGGGGGAGGTCAAATAGAAGGGACAACAGAAACGGAGCGGGTTGAAAAATGGGGGGAGAACTGGCGGGACCTGGAACTGGGGAGAGAGCCGCTTGAAGATGTTCTCAAGCGCTGCCGATCTTTTATAGAGGACTTGATGGAGAAACACCCGGGGCAGCATGTTTTAGTAATAAGTCACGGCGGCATCATCAGTCAAATTCTCCAGATGCTGGACTCAGCGCATGTAAAGGAAGAAACGATGAAAAACACATCGGTTTCAGAAGTCGTGTTCCGTGATAACGAATGGTCTTGTGAACCTTTCAACTGCACACGGCATCTGGATGTATAA	MKIGLVRHGSTSWNKEKRAQGGSDIPLDDEGTEQAARLSTRLKKETWDALYSSPLKRAVQTAEVAAKELNIGIQLDDRLQEVGGGQIEGTTETERVEKWGENWRDLELGREPLEDVLKRCRSFIEDLMEKHPGQHVLVISHGGIISQILQMLDSAHVKEETMKNTSVSEVVFRDNEWSCEPFNCTRHLDV	PGPT0018035_1442	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
AK012_02337	411			hypothetical protein	ATGAAAGATCAGGCTGTCCCGTATTTCACTTTTAATGGTCAGGCAGAAGAAGCACTAAACTATTACAAGGAAATATTTGAAGGTGAGATTACAAACAGGCAGACGTTCGGTGAGGCAGACTTCGAAACGCCATCTGAAATGGATGACCGGCTCATGCATGCCCGGTTCAAAAAAGGCCCGCTCTTTTTCATGGTCTCTGACTCTTTCTTAGATCAGCCTGTTGAAATTGGAAGCAACATTTCCATGGCTTTGGAAATGGACAGTCAGGAAGAGATCGGAACGATTTACAACCGCCTGCAGGAAAAAGGGACGGTGATCATGGAACTGCAGGATACCTTCTGGGGAGCCACATTCGCTAAAGTGAAAGACCCCTACGGAATCACCTGGGACTTGAACTATACGAAAGAATAA	MKDQAVPYFTFNGQAEEALNYYKEIFEGEITNRQTFGEADFETPSEMDDRLMHARFKKGPLFFMVSDSFLDQPVEIGSNISMALEMDSQEEIGTIYNRLQEKGTVIMELQDTFWGATFAKVKDPYGITWDLNYTKE	PGPT0030505_2703	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM	PUTATIVE-POLYCYCLIC_AROMATIC_HYDROCARBON_CATABOLISM-1,PGPT0030505-phnB|yjdN-K04750
AK012_02338	117			hypothetical protein	ATGAATTATCCGAAAGCTGTTTCCATGCCGTGTCCGCAATGTGGTTCTGAAGTTGAAAACCATCATTATACCTATATGTTGGAATGCGACCACTGTCTGTCTAAAAAAGAGGAGTAA	MNYPKAVSMPCPQCGSEVENHHYTYMLECDHCLSKKEE				NA	NA	NA	NA	NA
AK012_02339	1287	aceA	COG2224	Isocitrate lyase	ATGAACGAACGTGTTGAAGCATTGAAGGAGACCTGGAAAGAAGATGAGCGGTGGAAAGGGATTGAAAGGCCTTATGAACCTGAAGAAGTCATTCGGTTGAGAGGTTCCATTGATATTACACATACGCTGGCAGAGAATGGAGCCCGTAAGCTGTGGAATCTTCTTCATCAGGAAGAGTATGTGCATGCGCTGGGAGCTTTAACGGGCAATCAGGCGATGCAGCAGGTGAAAGCCGGGTTGAAGGCGATATACTTAAGTGGATGGCAGGTCGCAGCTGATGCGAACCTCTCGGGCCAGATGTATCCTGATCAGAGCCTGTACCCAGCCAACAGCGTTCCCCAGGTGGTTAAGCGGATCAATCAGGCCCTTCAGAGAGCGGACCAGATTCATTATATGGAAGGCAGGGAGGAAATCGATTGGTTTGCGCCGATTGTCGCGGACGCAGAAGCCGGTTTTGGAGGACAGTTGAATGTATTTGAGTTAATGAAGGGGATGATCGAGGCAGGGGCTGCCGGTGTACACTTTGAGGATCAGCTCTCTTCAGAGAAAAAATGCGGGCATCTTGGAGGCAAGGTGCTGCTGCCGACGCAGACCGCTGTCCGTAACTTGATCTCCGCCCGGTTTGCCGCTGATGTCATGGGGGTACCTACCTTGATCATTGCGCGAACGGACGCCAACGCCGCTGACCTCATTACCAGTGATATTGATGGTCAGGATGCTCCATTTCTAACGGGGGAGCGGACGGCAGAAGGCTTTTATAAAACGATGCCTGGGATTGATCAGGCGATTGCCAGAGGGCTCGCCTATGCCCCTTATGCTGATCTGGTCTGGTGTGAAACTTCTGAGCCGGACTTGGACGAAGCCCGCCGTTTTGCTGAAGCGATTCATGAAAAATTCCCTGGGAAATGGCTGGCCTACAATTGTTCTCCTTCATTTAACTGGAAGAAAAAGCTGAGCGATGAAACCATTGCCTCTTTCCAGAGAGAACTGGCGGCTATGGGATACAAATTCCAGTTTGTCACACTTGCCGGATTCCATGCCTTGAACCACAGCATGTTCGAATTGGCGCACCAATATAAAGACCACGGCATGGCTGCCTATTCCCAATTACAGCAGGCAGAGTTTGCAAGCGAAGCACATGGGTACTCAGCCACACGTCACCAACGGGAAGTGGGGACAGGATATTTTGATGAAGTGGCTCAAGTGATTACGGGAGGCACGTCATCCACAACCGCGTTAAAAGGATCCACCGAGACCGAACAGTTTTCCGGGACCATCCATTCTTAA	MNERVEALKETWKEDERWKGIERPYEPEEVIRLRGSIDITHTLAENGARKLWNLLHQEEYVHALGALTGNQAMQQVKAGLKAIYLSGWQVAADANLSGQMYPDQSLYPANSVPQVVKRINQALQRADQIHYMEGREEIDWFAPIVADAEAGFGGQLNVFELMKGMIEAGAAGVHFEDQLSSEKKCGHLGGKVLLPTQTAVRNLISARFAADVMGVPTLIIARTDANAADLITSDIDGQDAPFLTGERTAEGFYKTMPGIDQAIARGLAYAPYADLVWCETSEPDLDEARRFAEAIHEKFPGKWLAYNCSPSFNWKKKLSDETIASFQRELAAMGYKFQFVTLAGFHALNHSMFELAHQYKDHGMAAYSQLQQAEFASEAHGYSATRHQREVGTGYFDEVAQVITGGTSSTTALKGSTETEQFSGTIHS	PGPT0001550_1887	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-GLYOXYLIC_ACID_BIOSYNTHESIS,PGPT0001550-aceA-K01637	NA	NA
AK012_02340	1440		COG2368	4-hydroxyphenylacetate 3-monooxygenase oxygenase component	ATGCCGGTGATTACTGGAAAAGAATACATCCAACGCATCAATGCCAGGCAGTCAGACGTATGGCTGCGCGGAAAACGGGTGGAAGGAAACATCTCGGATCATGAAGCCTTTGAAGGGGTAATGAAAAGTCAGGCCGCTCTTTATGATTTACAAAACTCTCCATCCTTGGAAGGGCAGATGGTGTATAAATCTGAAACGACGGGAAACAAAATCGGCCTTTCCTACCTCATTCCGAAAACACGGGCGGAGCTGGAGAAACGAAGAACAATGATTCAGCATTGGGCGCGTTATTCCGGTGGTGTGATGGGGAGGAGTCCGGATTATATGAATACGGTCCTAGCTTCTTTTGCCGCATCCGTAGATGTGCTTGATAATGAGCCCGGCTGTTTTCCGGACCGGCTGTTGTCTTTTTATGAGTACGCCCGGGAGAATGACCTTTCCTTTACCCATACCTTCGTCAATCCCCAGACCAACCGCTCCAGTCTTGCCTTTTTAGAAAAAGACGTCACGAACGCAGCTATTATCGATCATACGGAGGAAGGAATCGTCATTGACGGGGCTAAGCTTCTTGCGACACAGGGAGGGATTACCGATGAGCTCCTGGTCTTTTCAGCGCCCGGCGCCCAGGACAGCTCACAGGCGTATGGTTTTTCCATTCCGAGTAATACACAAGGGGTGTCTTTTGTCTGCCGGGAGTCCTTTGCTAAAAGCGGTTCACATTTCGATTATCCCCTTTCCTCCCGCTTCGAAGAAATGGACACGGTTGTTTTGTTTAATCAAGTTCTCGTGCCGTGGGACCGTGTCTTTCTTTATGAAAACCTCCGTGCTGCGACCAACCTTTATGTCCATGGCAAGTTTGTTCCCTTTACCCTTCATCAAATTGTTTCCAGGCAGATTGTTAAGACGGAGTTCATTCTCGGTCTTGCTCAATCCATCGTAGAGATGATTAATATCAGCGATTATCAGCATGTGCAGAGTAAAGTGGTGGAAATCATGAAAGGGCTGGAGACAATGAAGGCCCTGATGGTAAAGGCTGAATTTGAAGGTGAAGTGGATGGAACGGGGGTGTTCGTTCCGAATCAAGTGCCTCTTTATGTAGCGGTCAATCAATTTCAAGAGCTGTATCCGCGCTTTACAGAAATCATTCAGCTCCTGGGTGCGAGTGGGATGATGACCATCCCTTCTGACGCCGATTTTCAGGGTGAGCGGGGCGGAGATCTGGAGCATTATCTCAGGGGCGCCGAAAAAGAAGGAAAAGAGCGGGTCGCGTTGTTCCGCCTGGCCTGGGATATGACGATGAGCAGCTTCGGAGCTCGGCAGACGTTATATGAACGGTTCTTTTTCGGAGACCCTGTCCGTCTTTCCCAGACCATTTACCGGCTGTACGATGATACGGAAATGGTAAGCTGGATCGATCAGTATATAAAAAAAGCTGACTAG	MPVITGKEYIQRINARQSDVWLRGKRVEGNISDHEAFEGVMKSQAALYDLQNSPSLEGQMVYKSETTGNKIGLSYLIPKTRAELEKRRTMIQHWARYSGGVMGRSPDYMNTVLASFAASVDVLDNEPGCFPDRLLSFYEYARENDLSFTHTFVNPQTNRSSLAFLEKDVTNAAIIDHTEEGIVIDGAKLLATQGGITDELLVFSAPGAQDSSQAYGFSIPSNTQGVSFVCRESFAKSGSHFDYPLSSRFEEMDTVVLFNQVLVPWDRVFLYENLRAATNLYVHGKFVPFTLHQIVSRQIVKTEFILGLAQSIVEMINISDYQHVQSKVVEIMKGLETMKALMVKAEFEGEVDGTGVFVPNQVPLYVAVNQFQELYPRFTEIIQLLGASGMMTIPSDADFQGERGGDLEHYLRGAEKEGKERVALFRLAWDMTMSSFGARQTLYERFFFGDPVRLSQTIYRLYDDTEMVSWIDQYIKKAD	PGPT0020455_679	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_TYROSINE_DEGRADATION,PGPT0020455-hpaB-K00483	NA	NA
AK012_02341	138			hypothetical protein	ATGAGCAGAAAAAGTAATGCATTTAAAGGAAGAGGAAAAACTTCGGTCAATCCACAAGGATTAACCGAAGATGCGGCTGATCAGCAGCCGGATTCCCAGCTCGAACAGAAAGCCAAAAAAAGCAATGCAAAACGATAA	MSRKSNAFKGRGKTSVNPQGLTEDAADQQPDSQLEQKAKKSNAKR	PGPT0024915_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024915-sspL-K06429	NA	NA
AK012_02342	198			hypothetical protein	ATGAAGAAGAAGCGTAAACAAGCACCATCTTATGCGGAGGAGTTTTCTGCTGATGGACTTGCCGTAACGAGAGAGCAGGTGTCGGATACCTTGACGGAGGGTACGTATGATGCAAAGATCGATCAACAGAAGGATGAGGGCAGGATGATCACGAGTGATGGGATTGAGATCAAAAAGCCAGGGAAAAAGCAGCGGTAG	MKKKRKQAPSYAEEFSADGLAVTREQVSDTLTEGTYDAKIDQQKDEGRMITSDGIEIKKPGKKQR				NA	NA	NA	NA	NA
AK012_02343	378			hypothetical protein	ATGGAACAATATTTATATGTCGTAAAACCTTTTGAATATCGTACAGAAACCACTGAAGATTCTCAAGCTGACGTAAAGACCTTAACCGAAGGCGATGTGTTACACGTGACCGGTCTTCCGCTTTATGTAGATCAGATGGGCTGGTTTGTTGAAGTGCAGATCAATGATGACGCTCCTTTTTCCATGTCCATCCCTTCTATGGATAATTGTTACGATCAAGGTCTGCTTTTCACAGAAATGGACCTGGATCTTGCCATCAATTATTATGAATTTAAAATAGATCAAAGTCTGGTCAGTAAAAACGAAGTCTCATTCCATGAGAGCAAGCATGCTCTCGACCGATTCAAACAACTGCACCCAGAATTTATGAAAGCATAA	MEQYLYVVKPFEYRTETTEDSQADVKTLTEGDVLHVTGLPLYVDQMGWFVEVQINDDAPFSMSIPSMDNCYDQGLLFTEMDLDLAINYYEFKIDQSLVSKNEVSFHESKHALDRFKQLHPEFMKA				NA	NA	NA	NA	NA
AK012_02344	594			hypothetical protein	ATGGATGTCCAAACCCTTGTGAAGGAAGTTGTGTTCCATGACTCACAGATTATTCATATCCCTTCGTCCTTCGAGTTGATCGGGAAAGGGAGAAGCGCTTCTGTTTTTCGTCTGCGGGACACGGATCTTGCTGTTAAAGTGTTTTACCCAGGCTGTGAAAAATTGGCTGAAATAGAAGCGGGAGTGTATGAAAAGCTGGATAACCATGATTTCTTCCCGGCCTTTTACGGGAAGGGGGATCACTTCATCGTTATGGAGTATGTGGAAGGGATAACGTTTTATGAATGTCTGGTGACCGGTGTCCCGATAACGGAGGACATGATCGAGCGGGTGGATGCGGCTCTGGATTTTGCCTGTCATCTCGGACTAAACCCTTCCGATACGCATTTGAAAAATATGATGCTGACAAACGATGGCCAGGTCAAAGTCATAGATGTGGTGCGGTTTACCCAGGACTTTGAATGTCCGCAGTGGAACGATTTGAAAAAGGTCTACCGCGTCCTGTACCGGCGGAAATTTGTGCCGAAAAAATATCCGGTTTTCTTCATTGAGTTCATTATCCGGCTGTATCGAAGGAAGCTGCTGCCGATTTAG	MDVQTLVKEVVFHDSQIIHIPSSFELIGKGRSASVFRLRDTDLAVKVFYPGCEKLAEIEAGVYEKLDNHDFFPAFYGKGDHFIVMEYVEGITFYECLVTGVPITEDMIERVDAALDFACHLGLNPSDTHLKNMMLTNDGQVKVIDVVRFTQDFECPQWNDLKKVYRVLYRRKFVPKKYPVFFIEFIIRLYRRKLLPI				NA	NA	NA	NA	NA
AK012_02345	240			hypothetical protein	GTGGCAGAATATCGATTAAGTGATGTAGAAGTAGGAAAAAACTATAAAGCGAAAGAACTGGACAGCTTTGTTTCGACAACGGACGTCGTCGTTTTATCCAACAACGAGTCCCAGCTCTTTACGGAACCTGAAAGGGAATATAAGGTAGTGGATACATTCGAAGGTTTCTTTGAGCATTCTTCCGATGATGGAGAGAAATATTTCCGTAATAAAAAAACATACATTGTAGAAAAAGTATAA	MAEYRLSDVEVGKNYKAKELDSFVSTTDVVVLSNNESQLFTEPEREYKVVDTFEGFFEHSSDDGEKYFRNKKTYIVEKV				NA	NA	NA	NA	NA
AK012_02346	759			hypothetical protein	ATGTTACAAAATTTCGGTTTTACCCAGTATGAAAGTCAAGTTTATGAAGTCCTGTCCGCGAGCGATCACGCCTTGGATGCTGCTACAGTCGTTAAGTTTTCACATGTACCGAAGTCCAAGGTTTATGAAGTCCTCCAGCGTCTCGTGGAAAAAGGATTGATCTTAACGTCCTTTCATGAGAAGAAGAAGTTATATACAGCGCTTCCCATAGAAATGACGATAAAAAAGCTTACAGCTGAATTTGAAGATCATATTGAGCAGCTGCGTAACCACAAATCAGAAATTCCTGATGCCGATGAACGCGTATGGACATTAAAAAACAACCACAGCATTCACGCCCTTATGGAAAACTTGATCGAGAAGTCTGCCGGGGAAATTTTGTTGACGGGCTGGAACGATGAACTGGCCCCATTCGTGGACCTTCTTGAAAGAAAACAAGCGGAAGGCATCCATGTGGAATTGTTATCTGTCGGCAGTATTCATACCGGAGAACTGACTCCTCATGTCCTTGTCCCGGACGAGAAACACGAAGGGCTGGAGCGTCATAAACTATTGATCATTGACGGAAAGGAAGTCCTGTTTGCGGGGATGGAGGCGGATCAATTCCAAGGCGTGCACACGTTTTCCAAGCCTCTCGTAAAGTTTTTCACGGAATTTTTCTATCACGATGTAGCGCTTTTGGAGATTACGAAGAAGCATCATGAAACATTACAGCAGGATGATGCTATCACCTCCATATTAATGAAACTCCGCTATTAA	MLQNFGFTQYESQVYEVLSASDHALDAATVVKFSHVPKSKVYEVLQRLVEKGLILTSFHEKKKLYTALPIEMTIKKLTAEFEDHIEQLRNHKSEIPDADERVWTLKNNHSIHALMENLIEKSAGEILLTGWNDELAPFVDLLERKQAEGIHVELLSVGSIHTGELTPHVLVPDEKHEGLERHKLLIIDGKEVLFAGMEADQFQGVHTFSKPLVKFFTEFFYHDVALLEITKKHHETLQQDDAITSILMKLRY				NA	NA	NA	NA	NA
AK012_02347	1164	pbuE	COG2814	Purine efflux pump PbuE	ATGAATAAAAAAGTATACCTGTTGGCGCTCGTCGCTTTTGTCGTTGGTACGGTTGAACTAATTATTGGCGGGATTCTGGACCTGGTGGCTGAAGACCTGAATGTCTCCCTTGGCAGGGCAGGACTCCTCATTTCAGTATTTTCCTTAGTATTCGCTATAGCGTCTCCCGTTCTTCTGACGGCAACCGCACGTGTGGAACGAAAAAAATTGATGATTACGACTTTAGTCATTTTCTTCGTGGGCAACCTGCTTGCATTCTGGAGTCCTACGTATGCTGTTATCATGACTGCGAGGGTTCTGACTGCCGCTGCAGGATCACTGCTTGTGGTACTCGCTGTAACGATGGCCTCCTCTGTAGTTGAAAAGCAGTATAGAGGGAGAGCGATCGGTACTATTTTCATGGGGGTCTCGGGCTCGCTGGTCCTTGGTGTTCCCATCGGACTTACGATAGGGAATGCGTTTGGATGGCGTGCTCCGTTCCTGCTCATCAGCATCCTGACACTTCTATCCATGGGCGCTGTCATGCTTTTACTGGAGAGGGTGGCTCCTAAGCCGGTCTTATCAGTGAAAAAGCAGCTTCAGACGTTGAAAAACAAAAAAATATGGAGTGCTCAGCTGACTTCTTTTCTGTTTTTGACTGGTCATTTGACCCTTTACGCTTATTTAACCCCTTATTTGAAAACGGTGATGGGAATGAACGGCACGTGGGTCAGTGTGGTTTACTTCGTATTTGGAACGGCGGCGGTCATTGGTGGAGGAATTGGAGGTGCCCTGTCTGATAAATTCGGCTCAGAGAGGAGCATTCTCGGAATTATCCTTGTCTTTGCAGCTGCTATTTTTACGATCCCTTTTACGACGTCAGTACTTCCAGTCTTCCTTGTCGTCCTCGTCGTGTGGAGTGCACTCAGCTGGGCAGTTACTCCTGCACAGCAGAATTATTTGATTTCCTCTGCCCCGGAGTCTGCAGACATTCAGCAGAGTTTAAATAATTCCGCGCTGCATTTTGGAATCGCATTTGGATCATTGATTGGAGGCTTTGTGATCGAACAGGCGTCGGTTTCCCTAAACCCGACCATCGGAGGCTTCTTTATCCTGGCCGCCCTTGTAACAGCTGCATTTTCGATTACACGTAAAACCGAACAGAAGAAGGAAAAAGCAGCCTGA	MNKKVYLLALVAFVVGTVELIIGGILDLVAEDLNVSLGRAGLLISVFSLVFAIASPVLLTATARVERKKLMITTLVIFFVGNLLAFWSPTYAVIMTARVLTAAAGSLLVVLAVTMASSVVEKQYRGRAIGTIFMGVSGSLVLGVPIGLTIGNAFGWRAPFLLISILTLLSMGAVMLLLERVAPKPVLSVKKQLQTLKNKKIWSAQLTSFLFLTGHLTLYAYLTPYLKTVMGMNGTWVSVVYFVFGTAAVIGGGIGGALSDKFGSERSILGIILVFAAAIFTIPFTTSVLPVFLVVLVVWSALSWAVTPAQQNYLISSAPESADIQQSLNNSALHFGIAFGSLIGGFVIEQASVSLNPTIGGFFILAALVTAAFSITRKTEQKKEKAA	PGPT0021080_222	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021080-pbuE-K18567	NA	NA
AK012_02348	612		COG0655	NAD(P)H dehydrogenase (quinone)	ATGGCTAACGTAAAAGCAGCTGTCATTTTTTATACGATGGGTGGAACAAACTATACGATGGCTCAATGGGCAGCCAAAGGAGCAGAAGAGGCGGGCGCTGAAGTAAGATTGCTAAAGGTGGATGAACTCGCTCCTCAATCCGTTATTGAGGCAAATGAAGGATGGAAAACAACGGTGGAAAAAATCAAAGATGTACCACCCGCTTCGTCTGAGGACATTGAATGGGCGGATGCCATCATCTTTAGTATGCCGACGCGGTTCGGGAACCTGCCTTCCCAGATGAAGCAGTTCCTCGATATGCAGGGAGGCCTCTGGGCGAACGGAAAGACCATTAATAAAGTCGTCAGCGGTATGACTTCCGCCCAGAACCCTCATGGCGGCCAGGAAGCGACCCTTCTTTCCCTCTATACATCCATGATGCACTGGGGAGCCATCATTGCAGCTCCGGGATACACGGACCCTGTGATTTTCGGCGCTGGTGGAAACCCTTATGGCACAAGTGTTTCTGTCGATCAGGAAGGGAATATGGTCGAAGATGTAGAAGCTGCCGCTAAGCACCAGGCCGCCCGGACGGTTCAGATCGCTCAAACGATGAAAAAAGGACAGCAGTAA	MANVKAAVIFYTMGGTNYTMAQWAAKGAEEAGAEVRLLKVDELAPQSVIEANEGWKTTVEKIKDVPPASSEDIEWADAIIFSMPTRFGNLPSQMKQFLDMQGGLWANGKTINKVVSGMTSAQNPHGGQEATLLSLYTSMMHWGAIIAAPGYTDPVIFGAGGNPYGTSVSVDQEGNMVEDVEAAAKHQAARTVQIAQTMKKGQQ	PGPT0009460_1433	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
AK012_02349	183			hypothetical protein	GTGGGCAGAGATGAACATCACAAAGGAAAAGGGAAGCAGAAACGAAAGCTTCCACAGACTCCTAAAAGTCAAAAACATGCGAACATCGATGTTGAGTTTTCTGAAGAACTGGCAGACAGAGAAGATAAGATCGCTCAAGAACGAGCGAAAGCGGCCGATCGCAGAGCTCACAAACGAATGTAA	MGRDEHHKGKGKQKRKLPQTPKSQKHANIDVEFSEELADREDKIAQERAKAADRRAHKRM				NA	NA	NA	NA	NA
AK012_02350	891			hypothetical protein	ATGAGACAGTGGAAAAAATGGCTGCCTGCATTCCTGATGGCTGGTTTGATTATATTAACGGCCTGTGGGGAGTCCACAGAAGAAGGCAGTGGAGACCAACAAAGTGCTGAAGAATCAGATACGATACATATCGGAATGAATAACTGGGCAGAGAATGTGGCTGTATCCAACATGTGGAAACTCATTTTGGAGGATCAAGGGTATACAGTGGAACTGGAACAGGTTGAAAAAGGCTTTCTATATGAGGCACTTGCCAGTGGAGACCTCGATATCGGAACTGAAATCTGGCTCCCGAATACAGATCAGCCGTTTTATGAGAAATATAAGGATGAAATCGACTGGCGGGAAACATGGTATGAAGGGACGGAACTTGGGCTGGCTGTTCCAGCTTATATGGAAGACATCAATACGATAGAGGATTTGAAGGATGCTGAACAGTTTTCCGACAACCAGATTGTAGGGATTTCTGCCGGAGCAAGCATTATGAATTTGACGGAAGAAGCCATTGAAGAATATGAACTGGATTATTCTCTGCTTTCTTCCGGAGAACCGACAATGATTACAGAATTGAAAAATGCTATCGCTGATGAAGAGCCGATTGTGGCGACATTATGGAAACCGCACTGGGTCTTCGCTGAGATGGATGTGAAGCTTCTCGAGGACACGAAAAACGTATACGGAGATTCGGAAAACATTTCTTATGCAGCAAGACTTGGTCTTAAAGAGGACCATCCAGAAGTGGTGAAGTGGTGGGACAGTTTTGAACTGGACGACAATCAGCTTGGAAGTCTGATGGCTTCCATAAATGAAGCAGATTCTGAAGAAGAAGGTGCCCGTCAATGGCTGGATGAGCACCAGGATCTGGTCGATGAATGGACAACGGAATCATAG	MRQWKKWLPAFLMAGLIILTACGESTEEGSGDQQSAEESDTIHIGMNNWAENVAVSNMWKLILEDQGYTVELEQVEKGFLYEALASGDLDIGTEIWLPNTDQPFYEKYKDEIDWRETWYEGTELGLAVPAYMEDINTIEDLKDAEQFSDNQIVGISAGASIMNLTEEAIEEYELDYSLLSSGEPTMITELKNAIADEEPIVATLWKPHWVFAEMDVKLLEDTKNVYGDSENISYAARLGLKEDHPEVVKWWDSFELDDNQLGSLMASINEADSEEEGARQWLDEHQDLVDEWTTES	PGPT0013640_3084	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
AK012_02351	951			hypothetical protein	ATGAAAGAAATTGGAGCCGTCCAAAAGGCCCGTGCCTTTTTAGGCCGGCGAATATTAGGAAATGATCAAACGATTGAATTGTTATTTACTGCTGTCATTGCAGGCGGGCATGTGCTTCTAGAAAGTGTGCCCGGATCAGGTAAAACGCAGTTAGCTAAAATGTTTGCGCGTCTGATTCATGGGAAGTTTTCAAGGATCCAGTTCACCCCTGATGTGCTGCCGAGCGATGTGACAGGGGTTAGGGTATACAATCCAAAGACGATGGAATTCGAACTGTACCAGGGTCCGGTCGTTACCAATATTCTGCTGGCCGATGAAATTAACAGGGCAGCTCCAAAAACTCAGTCCAGTCTTTTGGAAGTGATGGAGGAACGGCAGACGACGGTGGATGGACAGACGATTCCCATTGCTCCTCCTTTCATGGTCATCGCGACGCAGAATCCTGTGGAAACCGGCCAGGGGACGTTTCCTCTACCGCAGGCACAGCTGGATCGTTTCTTATTTCAAGTGGATATGGGGTATCCATCGGAGGAAGAGGAAAAGCGTATTTTGAAGGAATACCAGCAGGAGAAGCCGTTGGCCGATGCAGCGCCTATGCTCTCTTTGGAGGAAATCCTGTACTTGCGGACAGAGGCGGGTAAAGTTCAGCTTGAAGAAGATACGTTGAACTATCTGCTTGATGTCGTCCGTATGACAAGGGAGAAGTCCGGGATTGAAACAGGGGCAAGCACGCGCGCGTCTATAGCCTTAATGAGAGCATCCCAGGCCAGGTCCCTGCTGAAAGGGCGGAGCTATGTCCTTCCGGATGACATTGCGGTGCTTGCTCCGTTTGTGTTGGAACACCGAATCGTCTTATCTATGGAAGGGGCTCTGCGCCGGACCAAATCGGAAATGCTGCAGGACATCATGCGTGAAATCCCTGTCCCTGTCGAAGGCGGTTTTCACGCATGA	MKEIGAVQKARAFLGRRILGNDQTIELLFTAVIAGGHVLLESVPGSGKTQLAKMFARLIHGKFSRIQFTPDVLPSDVTGVRVYNPKTMEFELYQGPVVTNILLADEINRAAPKTQSSLLEVMEERQTTVDGQTIPIAPPFMVIATQNPVETGQGTFPLPQAQLDRFLFQVDMGYPSEEEEKRILKEYQQEKPLADAAPMLSLEEILYLRTEAGKVQLEEDTLNYLLDVVRMTREKSGIETGASTRASIALMRASQARSLLKGRSYVLPDDIAVLAPFVLEHRIVLSMEGALRRTKSEMLQDIMREIPVPVEGGFHA				NA	NA	NA	NA	NA
AK012_02352	1200			hypothetical protein	ATGAAAGCCTGGATGAAAGAAGGAAGAGATGAGAAAAGATTTTATGATGGAGGAATAGCAGCCTTCATTGTGATGTTCGTCATTTCCGTGATTGCAGATCGTTCGATCCTCTTTGTTCCTGCAGCTTTGCTTCTGCTTCTTGTCGTAATGGGGAAAGTGTATGATCAATACAGCGGAAGGGGGCTTCAGCTTCACCACCAGGTGAAAACAGTCCGCCTTTTCCCCGGAGAATCCACATCACTTCAGCTCGCTTTGGAAAACACTTCACACTTCCCGATGCTGAACGGGAAGCTGTCCTTTCAAACGGGGAGCTCTGTCGGCAACATTGAGAAACAGACCGGTCATAATGGTGACTATCATTATAAATTGCCGCTCACACTTCACGGAAAAAAGACCGTTCAACTCTCCCTTCCCCTTGAAGCGGTTCACAGGGGTGCGGCGAAAATAAAGAAGGTCTCTTTTACTTACCCTCACATCATTACCTTTCTTCCTGTTCGCTTAACATATCAGAAGCTGGTGCAGACGGAGTTTCTCGTGTACCCTGAGCTGATGGAAATCAATGGTGTGGATGAATTTTTTCAGAAAAGACCGGGCGCTCATCAGGCCCGTTTTTCATTATTTGAAGATCCAGGCTCGCCTGCAGGAGTAAGGGATTACATATCGGGAGATTCAATGGATCGGATCCACTGGAAGGCTTCGGCTAAGACCCAGGGCCTGAAGACCAAAGTCCTGGAAAAGCAGGTCAATAAAGAATTGACGGTTTTTATAAACCTTACCCAGCAATCCCCGCTTGGTCATGCCTACCCTTCCGAGCATTTAGAACAACTTCTTTCTGCTACAGGTTCGCTTTGTTTAAAGATGGCTCATTTTGAAGTGCCTTACGAACTGCACATTAATTTAAAGAGAGCTCATCAAGCATCCATATTTAAGCAGGAATGTGGTGGTGGCGTCTTTCATTTAAGGCAGTCGCTCGAACTTTTGGCACGTGTGGATAAATCTTTTCCGGTTGAGAGAATGTCTTCAATCATGTACAGGTGGGATCAGCAGGCAGAAAAACAAAACACAATGGTGATCGTCGGGGAAGTGGATCCAGAGATGCACGTGTTTCTTCAAAAGTGGCAGTGGGAAGGGCTGCGGATCATGGTTGTGGAAACCAACGAGAGTGGAGCCGTTCTTTATGAATGGAGGGGGAGGACATGA	MKAWMKEGRDEKRFYDGGIAAFIVMFVISVIADRSILFVPAALLLLLVVMGKVYDQYSGRGLQLHHQVKTVRLFPGESTSLQLALENTSHFPMLNGKLSFQTGSSVGNIEKQTGHNGDYHYKLPLTLHGKKTVQLSLPLEAVHRGAAKIKKVSFTYPHIITFLPVRLTYQKLVQTEFLVYPELMEINGVDEFFQKRPGAHQARFSLFEDPGSPAGVRDYISGDSMDRIHWKASAKTQGLKTKVLEKQVNKELTVFINLTQQSPLGHAYPSEHLEQLLSATGSLCLKMAHFEVPYELHINLKRAHQASIFKQECGGGVFHLRQSLELLARVDKSFPVERMSSIMYRWDQQAEKQNTMVIVGEVDPEMHVFLQKWQWEGLRIMVVETNESGAVLYEWRGRT				NA	NA	NA	NA	NA
AK012_02353	1218			hypothetical protein	ATGAAAGGCTATTCCCGTATTTCTATTGTATTTATGTACCAGTTTACAGCGGAGGCGGTTGTCTTCTATCTGCTTCTCTCCTTATTCCCTATGGTTTTATCTCTGCCCTCGTTTACGTCCTACCTCCTATATACGATTGTGGCCCTCCTGCTGTATACGGTTTTTCACCCGGAATCCAGCACTCCTGTTCGTTTGCTTCTGCTTATCATCAGTCTTCTCGGTGCAGGTTATTGGTCAGGGTTGTCCTTGTTACCCTTGGCGGCCTGCGGGGCGTTCTTTTTATGGCGTCTCTTTCTTCATAGTAAAGAAGACGATCTAGAGAATGAACGTTTAGTTTTGATCAGCGCAGCCATCCTTGCTTTTGTCCATCTGCTGTTGTATGACCGTCCCGTGGCGGCTGGAGCTCTGCTGTTCGCTTACGCGTTGATCTGGATCGGTCACGTCACAGCCAATCTATCACAGGGAAAAGGTGCTTCCAGAAGGGGAAGTCTGCGTAATGTCTTGATATACAGCAGCATCATGGCGGGATTTTACGCAGTCATTGCAGGGATGTATCCTTTATTCAATCGAATGGTGACCCTGCTGCTGAAAGGGATGCTGTATGGGCTCACAGCTCTTTTTACAGGGTTCCTCTACCTTCTTTCATTCTTTGGAGTAGACATGGAGAGCGCTGCTGTTTTTCGAACGAACCCTTTTGAACAGATGAATTGGAATGAAACAGAATTTCATCAGATGATCAATGAAGAGAGTGGAGCGGACGGAAGCAGTTCCGAGCAGGTAGCGGAAACCGTGGAATGGTGGGTATACGGAATCGCGGTCATGTTTATCCTTGTGATGATCATTTTTCTTTATAAAAGATGGAATCAGAAAAACGAAGGGCGCCCGAAAAAAAACGAATGGACCTATACACCGTCCATGCCCCGGACAGAAAACACCCGCGAATCCATTCAGCGGACGTTCCGCAGGTCTTCCTCCTCAGGGTTTGTAAGGAAACATTTCCGTCATTTCGAAAAAGAAGCGGAGAAGCTTGGGTTTCCCAGGTATACCTATGAATCCGCTGCTTCCTGGTTTCACAGGATTGATCTCTCCAAGTCTGTGATAGAAGTCTATGAAAAAGTCCGTTACGGGGGGATGGACCTTACAGACCAAGAGAAAAAACACTTTGCAGATACTCTCGCTGAATTGAAGAAGCAGCTTGCAGAAAGAAAAGAAGTTTAA	MKGYSRISIVFMYQFTAEAVVFYLLLSLFPMVLSLPSFTSYLLYTIVALLLYTVFHPESSTPVRLLLLIISLLGAGYWSGLSLLPLAACGAFFLWRLFLHSKEDDLENERLVLISAAILAFVHLLLYDRPVAAGALLFAYALIWIGHVTANLSQGKGASRRGSLRNVLIYSSIMAGFYAVIAGMYPLFNRMVTLLLKGMLYGLTALFTGFLYLLSFFGVDMESAAVFRTNPFEQMNWNETEFHQMINEESGADGSSSEQVAETVEWWVYGIAVMFILVMIIFLYKRWNQKNEGRPKKNEWTYTPSMPRTENTRESIQRTFRRSSSSGFVRKHFRHFEKEAEKLGFPRYTYESAASWFHRIDLSKSVIEVYEKVRYGGMDLTDQEKKHFADTLAELKKQLAERKEV				NA	NA	NA	NA	NA
AK012_02354	807			hypothetical protein	ATGGATTTAAACAAAGAACTAGAGAAATTAGAACATATTCACTTAGAAAAGCCTCAGAAAGTATTTACAATGTACCTGAATACAGATCCATCCGATCCGGACCAGCAAGGCGGCGAATGGAAAATTCATTTGAAGAACGGATTGAACAACTTTGAATCCTATCTGCAGGAAGACGGGGATTCAGACGAAAAAAGAAACTACTGGGCTGTAAAAGAAAAAGTTGAAAACTTCATAGAAGAGAACGAGCAGCATTTTGCTAAAAGTGTTGTCCTGTTCGCTACAGGTGATGAAACCGTCTGGTTTGCTGAAAGATTCCAGATGCCTGTCAAAACAGAATTTTATTGGGAAGAGACTCCGGTATTGGATCAGCTGAAGGAAATGCAGCAGCAGTTCCCTAAAACCGGTGTCATTTTGACTCAGAAGAACCAGATCAAGCTGCTTGATGCAGAACTGGGCAGATTGAAGGATACACAATTATACGAACTGGATCTGAATACAGAAGACTGGCGCATGCACCAGGGGCCTCACAGAGCCCAGCCATCTATGGGTTCAGGTGGAGCGAAGAATTCGAAGCAGGATCAGTTTGAAGAACGCTTTGAAGCCAACCGCTACCGCTGGTATAAGAGTGTAGCTCCTAAAATTGACCGCGCGGCTAAGCAGTATGGCTGGGAGCGCTTCTATCTTGTTGGTGATAAGGAAGAATTGAAAGATCTTCAAGATCATATGAACAAGGAAGCCGACGATATGATTAATAAAAACCTTCTGGACCATGAAGAAATGCATGTGCTGGATGAGGTTGTGCAATAA	MDLNKELEKLEHIHLEKPQKVFTMYLNTDPSDPDQQGGEWKIHLKNGLNNFESYLQEDGDSDEKRNYWAVKEKVENFIEENEQHFAKSVVLFATGDETVWFAERFQMPVKTEFYWEETPVLDQLKEMQQQFPKTGVILTQKNQIKLLDAELGRLKDTQLYELDLNTEDWRMHQGPHRAQPSMGSGGAKNSKQDQFEERFEANRYRWYKSVAPKIDRAAKQYGWERFYLVGDKEELKDLQDHMNKEADDMINKNLLDHEEMHVLDEVVQ				NA	NA	NA	NA	NA
AK012_02355	312	isdG		Heme oxygenase (staphylobilin-producing)	ATGAACATGTTTGTTGTAGACTCCACCGTAGTGGTGCCGGAGCATAAAGCTGATGATCTCATTCAAATTTATCAAAATCGCTCTCGCCTCGTAGATGAAGCAGAGGGGTTTTTATCTTTTCAGCTTCTCCAGAACGATCGGAAACCAGGAGAGTTGACGGTGCACCTGGAGTGGGAATCTAAACAAGCTTATTTGAATTGGGCACGAAGTGAGCAGTTTAAAAAAATTCATGAGCTTGAAAAACATTACCCTGACGAAGATTTGCAGGGAATTGTGCCAAAAGTGAAGAAGTATGAGGTGGTGGCGACATGA	MNMFVVDSTVVVPEHKADDLIQIYQNRSRLVDEAEGFLSFQLLQNDRKPGELTVHLEWESKQAYLNWARSEQFKKIHELEKHYPDEDLQGIVPKVKKYEVVAT				NA	NA	NA	NA	NA
AK012_02356	369			hypothetical protein	ATGAATAAAAGCGAACAGTCCCATCTTGTACAAGCTGTAACCGAAGAAATTTATGAAGCTTATCCCTATCTTTGGGAAAAATTCGGCCAAAACGGAAGAGACCGGACTGAAGAGGATAATCATCACCACCTGGACCATCTGGCCGCAGCTTATGAGATGAGAAGCGTGGATTTTTTTATGGACTATACCGAATGGCTGAACAATGTATTGACGTCCAGAAACGTCCCGACCTTATTGATTATCGACAATTTTCAACGGCTTCTCCGACTGCTGAATGAACAGTCTCTTGTCGATGAGGACGAGAAACGAATGTTCATCATTTATTTAGAGCAGGGTCTCAACCGTCTTCATACTCTGAACGAGAGGTGA	MNKSEQSHLVQAVTEEIYEAYPYLWEKFGQNGRDRTEEDNHHHLDHLAAAYEMRSVDFFMDYTEWLNNVLTSRNVPTLLIIDNFQRLLRLLNEQSLVDEDEKRMFIIYLEQGLNRLHTLNER				NA	NA	NA	NA	NA
AK012_02357	654			hypothetical protein	TTGGATCTGCATCATGAACAACTCGCTCAAGTTTTTTTGAGCGGAGATGAAGAGAAAGCGCTGGATTACACCTACCGTCTTCTGGAGAACTATCCGAGGGCTCACGTATTTGAAAAGGTGATTACACCAGCCATGTACCATGTGGGGAAGCTGTGGGAGAATAATGCCATATCTGTTGCGGATGAGCATCTGGCTACAGCCGTATGTGATTTTGTTCTTTCAAGAATAGAATCAGACCATCAGACCCCTCGGAAGAAGCAGCATTATAAAGTGCTTCTTTTCGGTGTGGAAGAGGAGCAGCACTACATCGGACTGAAAATGGTCGCGGATACGTTCAAAGAACATGGCTGGAGAGTACGTTATTTAGGGCCGGATCTTCCAATCGAACACTCTCTGTTACAAATTAAAAAATACCGGCCGGATGTGATTGGGATTTCCGCAGCTTTATCCTACCGTATTCCTATGATAAAAAAATCCATTGAAGCGTTTGCTCAGCTGGAATGGAAACCAACCATTATGATCGGCGGCCGTCTCGCCTATAAATTTGATTTGTCGGAATTTGAGTCCAGTCAGGTTATGGTGATCAAAAATATCGGTCATCTGACTCATTGGTTCAAAGAAGGAAGGGAAGAATCCATCAATGAAACGAGTTGA	MDLHHEQLAQVFLSGDEEKALDYTYRLLENYPRAHVFEKVITPAMYHVGKLWENNAISVADEHLATAVCDFVLSRIESDHQTPRKKQHYKVLLFGVEEEQHYIGLKMVADTFKEHGWRVRYLGPDLPIEHSLLQIKKYRPDVIGISAALSYRIPMIKKSIEAFAQLEWKPTIMIGGRLAYKFDLSEFESSQVMVIKNIGHLTHWFKEGREESINETS				NA	NA	NA	NA	NA
AK012_02358	783			hypothetical protein	ATGAAACGAGTTGACCATTCTTTTCCTCTGCCCGTCTTCACAATCAACAAAAATTTCATCATACAATCTTATTCTAAAGAAGCGGAAGATCATTTCGTTCTAACAGAGAACTTCATGGACCTATTTGATGAGGGCAGCCTTTCCAAGCTGAAAAAGTGGATCAATCCTGAAGTGAAGAAGGTTACACTGGAAGTCCAGCTGAAACCTTACGGGAACGCCAGTAACCCTGTCACCTGCGATCTGCACGTCAAATGGAATAATGATCTGCATGCAGAAGTTCTGCTTATCTTGAAGGATGACCAGATGGAGCGCGTAACGACGATGATGAACCAACTGCGCGCCCGTCTTAATGATACCAACTTTCAACTTTTGGAAGAGAAAGAGAAACTGGAGGAAGCACTTGAACTGAACAACCGCCTCTCGGCTCCTTTTATCACTCTTACACCGGACACAGCGCTGATCCCCCTGTTTGGTGATCTATCCCTGGACAAGATGGATGTCATCGAAGAACCGCTTCTTCACCGCGTGAATCAAGGCGGTATGGAGCGGGTACTGCTCGATTTCACCGGTGTTGGAGATATTCCGAAAGACGGAGCTCAGGCATTAAAAAGCCTGACTGCTTCTTTATTTTATATGGGAGCTGCCGTGGTCATTACAGGTGTAAGGCCTGAGCAGGTGCCAAAACTTCAACAGATCCGTTTTCCTGTTGACGTATCGTATCTGCATTCCCTTCAGCAGGCGGTTAGCAGGTACTGTCTGCATTATGATCCGTCATCCAGTTAA	MKRVDHSFPLPVFTINKNFIIQSYSKEAEDHFVLTENFMDLFDEGSLSKLKKWINPEVKKVTLEVQLKPYGNASNPVTCDLHVKWNNDLHAEVLLILKDDQMERVTTMMNQLRARLNDTNFQLLEEKEKLEEALELNNRLSAPFITLTPDTALIPLFGDLSLDKMDVIEEPLLHRVNQGGMERVLLDFTGVGDIPKDGAQALKSLTASLFYMGAAVVITGVRPEQVPKLQQIRFPVDVSYLHSLQQAVSRYCLHYDPSSS	PGPT0014945_1374	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
AK012_02359	207	copZ_2		Copper chaperone CopZ	ATGGAAATGACACTTGAAGTGAATGGCATGACGTGCGAGCACTGCCAGAAAACCGTTAAAGATACAGTAGAAAACCTTGAAGGTGTGCACGGAGCAGAGGTTCATCTCGACAGTGGTAAAGTCAATGTAGTCTACGATGAAGCCTATGTCGGCAAAAACTTAATCAAAGAATCCATTCATGCCCAGGGGTATGAGGTAGTTGGATAA	MEMTLEVNGMTCEHCQKTVKDTVENLEGVHGAEVHLDSGKVNVVYDEAYVGKNLIKESIHAQGYEVVG	PGPT0004125_2580	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE_MEDIATION,PGPT0004125-ATOX1|ATX1|copZ|golB-K07213	NA	NA
AK012_02360	336			hypothetical protein	ATGAACTCAAACCAACCGCAGAAAATCCAAAATCCTGAAACAACTGTACCTCAGACGCCGCAGATGAACGAACGGGATTTCGTTAACGATCTGCTCGCTACGGAAAAGTATATGACATCGTCGTACAGTACTGCATTGAATGAGGCGAGTAACCAGGCGATCTATCAGGATTTAGCAACCATCTTCAAAGAGACGCAGGACTGCCAGAGAAACCTTTACAACCTCATGTTCAAACATGGCTGGTATGCGCTTGAGCAGGAAGAGAATCAAAAGCTGGACCAGGCCTACCAGAAATTTTCCGGCTATCAATCCCAGCTTCCCTACACCGTACAATAA	MNSNQPQKIQNPETTVPQTPQMNERDFVNDLLATEKYMTSSYSTALNEASNQAIYQDLATIFKETQDCQRNLYNLMFKHGWYALEQEENQKLDQAYQKFSGYQSQLPYTVQ				NA	NA	NA	NA	NA
AK012_02361	264			hypothetical protein	ATGCAGCAGAACCAGGCACCAGGGTCCATGCAGGGGGCACAGCCGATGGCTCAGGCCCCTGATATTGTGACCATTAAAGATCAATTGTACCTTGCAGATATGCTTTCCTGGAATTTGACAGCATGTAAAAAATCTCATTTTTATGCTCAAAATTGTCAAACCCCGGAACTTCAGGCAGCACTGGACGAAGCCGGACAAATGCATCAGCGGCACTATAATAAAATATTGGAGCATCTGAATACACAATCCAACAAACCGAATTAA	MQQNQAPGSMQGAQPMAQAPDIVTIKDQLYLADMLSWNLTACKKSHFYAQNCQTPELQAALDEAGQMHQRHYNKILEHLNTQSNKPN				NA	NA	NA	NA	NA
AK012_02362	918	putB_2	COG0506	Proline dehydrogenase 2	ATGGAAAAGGTTATGCGCAATTTCTTTCTTTTTTTATCGAAAAACCGCTTTTTTACCAAGCTTGCAAAAAAATATGGACTCCGCTTTGGTGCGGGTAAATTTGTAGCGGGTGTTTCTGTACCTGATGCCGTCCAAACGATCCGGACGTTGAATGAACAGGGACTGGCCGTCACGATTGATCACCTTGGAGAGTTCATTGACAGGGAAGCAGAAGCAAGGGACGCAGCAGACGGATGTATCGCCGCAATTGAAGCCATTGCCGAATATCATCTGGACTCTCAACTATCCTTGAAGCTGACTTCCATGGGCCTGGATATTTCTGAATCGCTTGTAATGGAGAACATGCGCAGGATTCTAGATGCAGCGGAAAAAAATGATGTGTTCGTGACCATTGATATGGAAGATTACGAACGCTGCGGGAAGACTCTGGACATTTTCAAGCAGTTGAGGGAGGAATATGATCATATCGGGACTGTTCTCCAATCCTATTTATATCGTACAGTCGAAGATATAGAAGAGCTGGATCATTACTCCCCGAACCTGAGACTGGTCAAAGGGGCTTATAAGGAATCCGCCAAAGTGGCTTTTCCGGATAAAAAGGATGTTGATGACAATCTAAAGAAGATTATCCGGATCCACTTGATGAACGGGAATTATACAGCGGTAGCTACACATGATGATGAAATGATTGAGTATACTAAAAAATTGGTGGAGAAAGAGGGCATAGCAAAGGATCAATTCGAATTCCAAATGCTTTACGGCATTCGAGTGGAACGTCAGAAGGAACTGGTGGAGGAAGGATATAAAATGCGCGTGTATGTACCTTATGGGAATGACTGGTACGGGTATTTTATGCGCCGCCTTGCTGAACGCCCGGCAAACGTCGCTTTTGTCCTGAGAGGAGTATTCGGCAGATAA	MEKVMRNFFLFLSKNRFFTKLAKKYGLRFGAGKFVAGVSVPDAVQTIRTLNEQGLAVTIDHLGEFIDREAEARDAADGCIAAIEAIAEYHLDSQLSLKLTSMGLDISESLVMENMRRILDAAEKNDVFVTIDMEDYERCGKTLDIFKQLREEYDHIGTVLQSYLYRTVEDIEELDHYSPNLRLVKGAYKESAKVAFPDKKDVDDNLKKIIRIHLMNGNYTAVATHDDEMIEYTKKLVEKEGIAKDQFEFQMLYGIRVERQKELVEEGYKMRVYVPYGNDWYGYFMRRLAERPANVAFVLRGVFGR				NA	NA	NA	NA	NA
AK012_02363	2403	fadN	COG1024	putative 3-hydroxyacyl-CoA dehydrogenase	ATGAATCAAAAAATTAAACGGGCTGCAGTTTTAGGCTCAGGGGTGATGGGGGCCGGCATTGCTGCCCATCTGGCCAACACGGGAATCCCTGTACTGATGATGGATATTGCACCCCGGGAATTAACCGAACAGGAAAAGAGTAAAGGGTTAACGATCGAACAGCCAGCGGTACGAAACCGGATAGCGGTTGAAAATAAAAAAGCTCTTTTAAAGCAGAAGCCGTCCCCGCTGACTAGTAAGAAGAACCTTGATTTAATCGAGACGGGCAACTTTACCGATGATATGAGCCGGCTGGGAGAAGTCGACTGGATTATCGAAGTCGTCGTCGAAAACCTGGATATCAAAAAGAAAGTGCTGGCTCAGGTGGATCAATATCGTAAACCCGGTTCGATTGTAAGTTCCAATACATCCGGCATTTCCATAGAAGCGATGTCTGCAGACTGCAGCGATGATTTCAAGAAGCATTTTCTTGGAACGCATTTCTTCAACCCGCCGCGTTACCTGAAGCTTCTGGAAGTTATCCCGACGGCTTCAACAGATCCGGAAGTACTCTCGTTTATGAAAACATTCGGAGAGGATGTCCTTGGTAAAGGTGTCGTGGAAGCCAAGGATACACCGAACTTCATTGCCAACCGTATCGGCACATACGGACTCCTCATCACGGTGCAGAAGATGCTTGAAAAGGGATACTCCGTCGGTGAGGTGGATTCTGTCACCGGCCCGTTGATCGGCCGTCCGAAAAGCGCCACCTTCCGTACGCTTGATGTTGTAGGCCTGGATACCTTTATCCATGTCGCCAACAATGTCTATGAACAGGTGGAAGGAGACGAAAAGAAAGCTTTTGAAGTTCCAGGCTTCATGACGGCGATGCTTGAAAAAGGCTGGCTTGGATCCAAAAGCGGCCAAGGATTCTTCTTGAAAAATAAAACCGCGGAAGGAAGCGAAATCCTTCAATTGAATCCGGAAACCCTTGATTATGAACCGCGTGGAAAATTAAAAACAAAAGCAACAGAAGCGGCAAAACAGGAGAGAGGGCTGCACCGTAAGCTGAAAACCCTTGTCAATGCTGAAGGTGACCGTGCCGGCGACTTGATCTGGTCCATCATTAAACCGGTGCTGTTGTACTCAGGAGAGCTGGCGGGCGAAATAGCTGATGATATTTCTGCTGTTGACGATGCGATGAAATGGGGCTTCGGATGGGATGCGGGCCCATTTGAAATCTGGGACGCCGTCGGGGTTGCGGCTTCCGTCGAACGAATGAAAGCCGAAGGGGAAACCATTCCCGCATGGGTGGAACAAATGGTCGCAGAAGATATCCCGTCCTTTTATAAACAAGAAAATGGAAACGTTTACTATTATCACAATGGGGAGTACATGGAAAAGTCCTTTAATAAAAAACAAATCAACCTGAAGCGTCTAAAAGAGAAAAAAGACGTGATTAAGAAAAACGCAGGTGCGAGTCTCATTGATTTGGGGGATGGAGTCGCTGGTCTTGAATTCCACTCCCGAAGCAATGCCATCGGTCTGGATATTGTCCAGATGATGAACTTTGCTGTCGATTATGTTGATGAAAACAACTGGCAGGGTCTCGTGGTCGGAAACCAGGCGAAAAACTTCTGCGTGGGTGCCAATCTAGGCATGATGCTGATGGAAGCGCAGGATTACAACTTTTTTGAAATAGAAATGGTCGTAAAGAACTTCCAGGACAGCATGATGAAACTGAAGTATTCTGATAAACCGGTCGTAACAGCTCCGTTTGGAATGACCCTGGGCGGCGGCGCAGAGGTCTGCCTTCCATCTGCAGCGGTTCAAGCCTCTCCAGAGACGTACATGGGCCTTGTGGAAGCCGGAGTCGGTCTGATTCCCGGCGGTGGTGGAAACAAAGAGCTTTACATCAAGCATCTCAGAAATATTCCTGAAGGTGTAGAGGTTGACCTCCAAAAGGTGGCCGTCAGTGTGTTTGAAAAGATTGCAATGGCAAAAGTATCTACATCCGGTGAAGAAGCCTTGGAGAATGGGTTTTTGGATCAACAGGATGCTGTAAGCACAAATAGTGATCATCTGCTCTATGATGCCAAACAGAAAGTCCTCGGTCTGGCCGGTTCCGGGTACAAAGCGCCTAAACGAACGAAGGTTCCTGTCACAGGAGAGCAGGGATTAGCCACTATGCTCCTTGGTGCCAAGTCGCTTGTTTTGAGCGGGTACGCAAGTGTGCATGATATGAAAATTGCCGAAAAGCTGGCTTTTGTACTGGCCGGCGGACGTCTGAAGCAGGGGACACTCGTCGATGAGCAGTACCTGCTGGACTTGGAGAGGGAGGCATTCCTCAGTCTGATCGGTGAGCCTAAGTCACAGGCGCGTATGCAGCACATGCTTATGAAAGGAAAACCGCTCCGTAACTAA	MNQKIKRAAVLGSGVMGAGIAAHLANTGIPVLMMDIAPRELTEQEKSKGLTIEQPAVRNRIAVENKKALLKQKPSPLTSKKNLDLIETGNFTDDMSRLGEVDWIIEVVVENLDIKKKVLAQVDQYRKPGSIVSSNTSGISIEAMSADCSDDFKKHFLGTHFFNPPRYLKLLEVIPTASTDPEVLSFMKTFGEDVLGKGVVEAKDTPNFIANRIGTYGLLITVQKMLEKGYSVGEVDSVTGPLIGRPKSATFRTLDVVGLDTFIHVANNVYEQVEGDEKKAFEVPGFMTAMLEKGWLGSKSGQGFFLKNKTAEGSEILQLNPETLDYEPRGKLKTKATEAAKQERGLHRKLKTLVNAEGDRAGDLIWSIIKPVLLYSGELAGEIADDISAVDDAMKWGFGWDAGPFEIWDAVGVAASVERMKAEGETIPAWVEQMVAEDIPSFYKQENGNVYYYHNGEYMEKSFNKKQINLKRLKEKKDVIKKNAGASLIDLGDGVAGLEFHSRSNAIGLDIVQMMNFAVDYVDENNWQGLVVGNQAKNFCVGANLGMMLMEAQDYNFFEIEMVVKNFQDSMMKLKYSDKPVVTAPFGMTLGGGAEVCLPSAAVQASPETYMGLVEAGVGLIPGGGGNKELYIKHLRNIPEGVEVDLQKVAVSVFEKIAMAKVSTSGEEALENGFLDQQDAVSTNSDHLLYDAKQKVLGLAGSGYKAPKRTKVPVTGEQGLATMLLGAKSLVLSGYASVHDMKIAEKLAFVLAGGRLKQGTLVDEQYLLDLEREAFLSLIGEPKSQARMQHMLMKGKPLRN	PGPT0008395_524	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0008395-fadN-K07516	NA	NA
AK012_02364	1176	fadA	COG0183	3-ketoacyl-CoA thiolase	TTGAAAGAAGCAGTGATTGTAGCGGGGGCAAGAACACCGGTGGGGCGTGCCAAGAAAGGCGCGCTCGCTCATACGAGACCGGATGACCTGGCCGCTTTAACGATAAAGGAAACGTTGAAAAGAGCCGGAGGTTATGAAGGGAATATTGACGACGTCATTATCGGATGTGCCATGCCGGAAGCTGAACAGGGGATGAATATGGCCCGCAATATATCAGGCCTGGCAGGACTTCATCACAAAGTCCCTGCCATTACCATTAACCGGTACTGTTCTTCCGGTCTGCAGAGTATCGCCTATGCAGCTGAAAAAATTATGCTTGGTCACAGTGACACCGCTCTTGCCGGAGGGGCTGAATCGATGAGCCTGATTCCAATGGGCGGACACGTTATAAAACCAAATATCGAACTGGTGGAACAGGCCCCTGAATATTACATGTCCATGGGGCATACGGCCGAAGCGGTAGCCACCCGTTTTGGAATTTCAAGAGAGGATCAGGATGCTTTTGCTGTTCAGAGTCACGAGCGTGCGGCACGGGCGATTCAGGAAGGGAAATTCGAGGATGAAATTGTCCCGGTGGAAGTGATAAACCGGGATCTTGGCTCCGATCATAAAGTGAAGGAATCCAAAAAGATGTTCGCTGTCGATGAAGGGGTGCGGCCTGGTACAAGGCAGGAAATACTGGCGAAGCTGAAGCCTGCATTTTCTGCCAGAGGTTCAGTAACAGCGGGAAACTCTTCACAGATGAGCGACGGCGCCGCATCTGTTCTTGTAATGGATCATGACAAGGCAAAGTCTGAAGGGCTGCAGCCCCTGGTGAAATTCCGTTCCTTTGCTGTAGCTGGAGTCGAACCTGAAATTATGGGAGTAGGCCCTATTGAAGCAGTGCCGAAAGCACTCAAAATGGCCGGATTGTCCACCCGGGATATTGGCTTATTTGAACTGAATGAAGCATTCGCCTCTCAATCGCTTCGCGTCATCCGTGAGCTTGGTCTTGATCCGGAAAAAGTCAACGTGAACGGAGGAGCCATCGCTCTTGGTCATCCGCTGGGATGCACAGGGACGAAGCTGACATTGAGTCTTATTCATGAAATGAAAAGAAGAAACGAACAATTCGGTGTTGTAACAATGTGTATCGGCGGCGGTATGGGTGCTGCTGGAGTCTTTGAACTAATCTAA	MKEAVIVAGARTPVGRAKKGALAHTRPDDLAALTIKETLKRAGGYEGNIDDVIIGCAMPEAEQGMNMARNISGLAGLHHKVPAITINRYCSSGLQSIAYAAEKIMLGHSDTALAGGAESMSLIPMGGHVIKPNIELVEQAPEYYMSMGHTAEAVATRFGISREDQDAFAVQSHERAARAIQEGKFEDEIVPVEVINRDLGSDHKVKESKKMFAVDEGVRPGTRQEILAKLKPAFSARGSVTAGNSSQMSDGAASVLVMDHDKAKSEGLQPLVKFRSFAVAGVEPEIMGVGPIEAVPKALKMAGLSTRDIGLFELNEAFASQSLRVIRELGLDPEKVNVNGGAIALGHPLGCTGTKLTLSLIHEMKRRNEQFGVVTMCIGGGMGAAGVFELI	PGPT0001565_3826	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
AK012_02365	1782	fadE_1	COG1960	putative acyl-CoA dehydrogenase	ATGAGTGAATTAAAAGAGATGATTAAAGGTGGCGGATTTATTGTCGAGGACGTGACGGCGGACCAGGTCATTACGCCGGAGGATTTTACAGATGAACACTTGATGATTGCCAAGACAGCCGAAGATTTTGTTCTTGGAGAAGTTGTTCCAAAGATTGAGAATCTGGAAAACCACGAATTTGAACATTCTGTTGCTCTTCTGAAAAAGGCGGGCGATCTGGGACTGCTCGGAGCCGATGTCCCTGAAGAGTATGGCGGCCTGCAGCTTGATAAAATCAGTTCATCCTTAATTACAGAGAAGTTCTCCCGTGCCGGCGGTTTTTCTGTCACTCATGGGGCGCACGTTGGAATTGGTTCACTTCCAATTGTATTTTTCGGAAACCATGATCAGAAAAATAAATACCTTCCTGTTCTTGCTGCTGGGGAGAAGATTGCGGCTTATGCCCTGACTGAGCCGGGCTCAGGATCTGATGCCCTCGGAGCTAAAACGACAGCGAAGCTTAATGAAGCCGGCACCCACTACATTTTGAACGGGGAAAAACAATGGATCACCAACTCTGCTTTTGCCGATGTATTTGTCGTTTATGCCAAGATTGATGGAGACAAATTCACAGCCTTTATCGTAGAAAGGGAGTATCCAGGTGTATCCACGGGTCCGGAAGAGAAAAAGATGGGGATCAAGAGCTCATCGACCCGTACCCTCATTCTTGAAGATGCAGAGGTTCCAGTGGAAAACGTCCTTGGGGACATCGGAAAAGGCCACGTCATCGCCTTCAACATTCTGAATGTCGGTCGTTATAAACTGGCCATCGGCGGTGTGGGTGGAGCGAAGCGCGCCATTGAACTTTCTGTTAAATATGCCAAAGAAAGAAAACAGTTCAAAACCCCGATCGCTCAGTTCCCATTAATTCAGGAGAAAATAGGATCGGTTGCAGCGAATACGTACGCCAATGAAAGCTCCGTCTACCGTACGGTGGGCTTGTTTGAACAGAGTATGGGTAAGCTTTCTGATGAAGAGCTGAAAGACGGGGCTGCTGTTGCCAAGGTTATTGCGGAGTATGCCATTGAATGCTCCTTGAATAAAGTGTTCGGAACAGAACTGCTCGACTTTGCTTCGGATGAAGCTGTACAGATCCACGGGGGATATGGATTTATGGCGGAATACGAAGTAGAAAGAATGTACCGCGATTCCCGGATCAACCGGATTTTCGAAGGGACGAACGAAATCAACCGGATGATCGTACCGGGGACGCTCCTGAAGAAAGCGATGAAAGGCGAGCTTCCTCTCCTGCAGAAAGCGCAGGCACTACAGGAGGAAATCATGATGATGATGCCGGAAGAGCCGGGTCTGGAGCCGCTGGAGCAGGAGAAATATTTAGTGAAGAATGCGAAGAAGATCGGTCTTCTTGCTGCTGGTCTTGCGGCACAGAAATATGGAGAAAAGCTGGATAAGGAACAGGAAGTCCTCGTCAATATTGCTGATATGGTCGGTGAGATTTACAATATGGAATCGGCTCTGCTCCGTACAGAGAAAGCCATCAGCCGTTCAGGAGAAGAAAAGAACAAGCAGAAGCTCCTCTACACCCAGGTGTACGTCCAGGAAGCGTTCAACCGTATCGAGGCTCACGCGAAAGAAACGCTGATTGCAGCTGAAACCGGAGATTCGCTTCGTATGATGCTCGGTGCGCTTCGTAAACTGACGCGTCATACGCCGACAAACGTCATTCCGAAGAAGCGGGAAATTGCCCGGGGATTAATTGAATCAGAAAAATATTACGTCTAA	MSELKEMIKGGGFIVEDVTADQVITPEDFTDEHLMIAKTAEDFVLGEVVPKIENLENHEFEHSVALLKKAGDLGLLGADVPEEYGGLQLDKISSSLITEKFSRAGGFSVTHGAHVGIGSLPIVFFGNHDQKNKYLPVLAAGEKIAAYALTEPGSGSDALGAKTTAKLNEAGTHYILNGEKQWITNSAFADVFVVYAKIDGDKFTAFIVEREYPGVSTGPEEKKMGIKSSSTRTLILEDAEVPVENVLGDIGKGHVIAFNILNVGRYKLAIGGVGGAKRAIELSVKYAKERKQFKTPIAQFPLIQEKIGSVAANTYANESSVYRTVGLFEQSMGKLSDEELKDGAAVAKVIAEYAIECSLNKVFGTELLDFASDEAVQIHGGYGFMAEYEVERMYRDSRINRIFEGTNEINRMIVPGTLLKKAMKGELPLLQKAQALQEEIMMMMPEEPGLEPLEQEKYLVKNAKKIGLLAAGLAAQKYGEKLDKEQEVLVNIADMVGEIYNMESALLRTEKAISRSGEEKNKQKLLYTQVYVQEAFNRIEAHAKETLIAAETGDSLRMMLGALRKLTRHTPTNVIPKKREIARGLIESEKYYV	PGPT0002285_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
AK012_02366	360	mgsR_2	COG1393	Regulatory protein MgsR	ATGCCTGTTACCTTCTACTGGTACCCCAATTGTGGTACTTGTAAAAAAGCGAAGAAATGGCTGGATGATGAAGGGGTTGCTTACGAGCCCGTACATATTGTTGAACACCCCCCTTCTCAAGAGGAGTTGAAAAACCTGGCAGCCAGGAGTGAAAAACCTTTGAAGAAGTTTTTCAACACCAGTGGGAAGAAGTATAGGGAATTAAACTTGAAGGAAAAGCTGAAAGAAGCGGATGAAGAAGAGATGCTGCGGCTGCTGTCTTCGGACGGTATGCTTATCAAACGGCCGATTGTGACCGATGGAACAAACGTAACCGTAGGTTTTAAAGCTGATGAATTTGATAACGTCTGGGGCAGATGA	MPVTFYWYPNCGTCKKAKKWLDDEGVAYEPVHIVEHPPSQEELKNLAARSEKPLKKFFNTSGKKYRELNLKEKLKEADEEEMLRLLSSDGMLIKRPIVTDGTNVTVGFKADEFDNVWGR	PGPT0004720_2064	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004720-arsC1-K00537	NA	NA
AK012_02367	384	gcvH	COG0509	Glycine cleavage system H protein	ATGAGCTTACCAAAAGATCTGCGTTATTCTCAGGAACATGAATGGGTAAAAGAAGAAGGGGAAAAAGTAAGAGTCGGAATCACGGACTTTGCTCAATCTGAACTTGGGGACATCGTGTTTGTAGAGCTTCCTGAAGTAGGCGAGGAACTGAAAACAGATGAGCCTTTCGGAAGTGTGGAATCTGTTAAAACGGTTTCCGAATTGTATGCTCCGATCAGTGGTAAAGTGGTGGAAGTGAATGAAGACCTGGAAGACAGTCCTGAATTTGTGAACGAGTCTCCTTATGATAAAGCCTGGATGGTTGTTGTTGAACCAAGCGACTCTTCTGAAGTTGAGAAGCTTATGTCCTCAGAAGAATATGAAGCGATGATTGATGAAGATTAA	MSLPKDLRYSQEHEWVKEEGEKVRVGITDFAQSELGDIVFVELPEVGEELKTDEPFGSVESVKTVSELYAPISGKVVEVNEDLEDSPEFVNESPYDKAWMVVVEPSDSSEVEKLMSSEEYEAMIDED				NA	NA	NA	NA	NA
AK012_02368	348	rnmV_1		Ribonuclease M5	ATGGATGGAGAACGGATTGTGATTGTTGAAGGGATTACTGATAAGAAAAAATTAAACAAAGTGCTTGATGAGAAGATTGAGATCATCTGTACGCATGGAACGCTCGGTATTGAGCGGATGGAAGAAATGATCTTCGAGCATAACCTGGATGAACGAACCGTCTATATCCTCGTCGATGAAGATGATTCAGGCTTTAAACTTCGGAAGATGCTGACAGAAGAACTGCCGCACGCCGAGCATATTTATATTGATAAAGCCTTTAGAGAAGTGGCGGCTACTCCCGAGCCGGAACTCGCTCGTGCCCTGTTAAGCCGTCATTTCAGCGTGAAGTCGATGTATTTAATTTAG	MDGERIVIVEGITDKKKLNKVLDEKIEIICTHGTLGIERMEEMIFEHNLDERTVYILVDEDDSGFKLRKMLTEELPHAEHIYIDKAFREVAATPEPELARALLSRHFSVKSMYLI				NA	NA	NA	NA	NA
AK012_02369	309			hypothetical protein	TTGCAGAATTTAATACAGAATGAGGCAGCCCGGGTGCTGTCCTCGGACGAAAAAACGATGACATTTATTCACAGCCCTTTCTGCGGGACGTGCCACCTTGCCCGCAAAATGCTGATAACATTGGAAGAGATGTATGAAAAACCACTATTCAAGGAAATGAACGCCTCTCTGCATCCTTCATTGATGGAGCATTATCGAGTTGAAAGTGTTCCATGCCTCTTAATCACACATAAAGGAGAAGTTCTTGAAAAGGTCTACGCTTTTCAATCCGTCCCACACATGTATGAAAAGATTATCAGGTATCTATAA	MQNLIQNEAARVLSSDEKTMTFIHSPFCGTCHLARKMLITLEEMYEKPLFKEMNASLHPSLMEHYRVESVPCLLITHKGEVLEKVYAFQSVPHMYEKIIRYL	PGPT0013063_12	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013063-yusE-NA	NA	NA
AK012_02370	420	resA_4		Thiol-disulfide oxidoreductase ResA	ATGAAGGAACGTGCGCCTCTATTCGAACTGCCCTATATCGATCAACCATTCACCTATCATTTGAGCGATCATTTAGGGAAAGTGATTGTCCTCACTTTCTGGGCCTCCTGGTGTCCTGACTGCGGAAGAGACCTGCCTAAAAAAGAGCAGCTTTTTGAAACAATGGATAAAGATAAAGTCGAGATGGTCACGATCAACGTCCCGGGCCGTGAACGCAGTCCGGAAGCCGGCAAAGAATATGCCGAAAAGTTTTTGAAGCAGCCCACATTGCTGGATGATGGGCGGCACTTCTATGATACGTTTGCGTGCCCGGGCGTCCCTTCCACCATTATCATTGACCAGGACGGCAGGATTCACCGAGCTTTCGGGGATAAAGCTTCCTTCCTTGATATTGTTCAGTCTTTAGGTGAAATTGTTTGA	MKERAPLFELPYIDQPFTYHLSDHLGKVIVLTFWASWCPDCGRDLPKKEQLFETMDKDKVEMVTINVPGRERSPEAGKEYAEKFLKQPTLLDDGRHFYDTFACPGVPSTIIIDQDGRIHRAFGDKASFLDIVQSLGEIV				NA	NA	NA	NA	NA
AK012_02373	1026	metN_3	COG1135	Methionine import ATP-binding protein MetN	ATGATTACAATCAAGGATCTTTCTAAAGTTTTTCAAACGAAGGATCGGGAAGTGAAAGCTGTTGATGGCTTAAGCCTTACGATAAATAAAGGGGAAATCTACGGCGTCATTGGTTATAGTGGAGCGGGTAAAAGTACTTTTATCCGGCTGTTGAACCGTTTGGAGGATCCAACAGAAGGCAGCATCCACGTCGGTGATCAGGATTTAACGGGCCTCAGTAAGAATAAACTGCGTATCGCCCGCCAGGATATCGGAATGATTTTTCAGCATTTCAATCTGCTTTGGTCCAGAACAGTCTATGATAACATCGCTTTTCCGCTGGAAATCGCCGGTGTACCGAAGGAGGAGCGGAGCCGAAGGGTCAACGAACTGATTGACCTGGTCGGTTTATCCGGCAGAGGAAACTCCTATCCATCCCAGTTGAGTGGTGGACAGAAACAGCGTGTAGGAATTGCCAGGGCGCTTGCCAACAATCCGAAAGTCCTTCTTTGCGACGAAGCTACATCCGCCCTGGACCCGGAAACGACGGACTCCATATTGGATCTTCTCGTTGATATCAACGAAAAGCTCGGACTGACCATTGTACTGATTACCCACGAAATGCACGTCATCCGTAAAATTTGTCATCAAGTGGCAGTCATGGAGCAGGGGAAAATCGTTGAAAAAGGCGATGTGCTGGACGTATTCCTTCACCCCGAACAACCAGTGACGAAGAAATTCGTTGACCAGGTAATGGGCGATCAGGAAAAAGAGCATTCTTTGAAATTGATCAAAGATAAGTACCAGTCCGGCAGAATAGTCCGGCTGCATTTTGTAGGAGAAAGTACCAACCAGGCGCTGATCAGTGAGGTCTCCAGGAAATTCGTCCTGGATGTCAATATTCTTCACGGGAAGATCACGCAGACGCAAAAAGGAGCTTACGGAACGATGTTTGTCCAGTTTGTCGGAGACGATGAGGAAGCAGCCCGGGCGATCGAATATATACGCTCGACTTCTGTGGAAGTGGAGGTGAACCCGGATGCTTAA	MITIKDLSKVFQTKDREVKAVDGLSLTINKGEIYGVIGYSGAGKSTFIRLLNRLEDPTEGSIHVGDQDLTGLSKNKLRIARQDIGMIFQHFNLLWSRTVYDNIAFPLEIAGVPKEERSRRVNELIDLVGLSGRGNSYPSQLSGGQKQRVGIARALANNPKVLLCDEATSALDPETTDSILDLLVDINEKLGLTIVLITHEMHVIRKICHQVAVMEQGKIVEKGDVLDVFLHPEQPVTKKFVDQVMGDQEKEHSLKLIKDKYQSGRIVRLHFVGESTNQALISEVSRKFVLDVNILHGKITQTQKGAYGTMFVQFVGDDEEAARAIEYIRSTSVEVEVNPDA	PGPT0020520_2533	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020520-metN-K02071	NA	NA
AK012_02374	669	metP_2	COG2011	Methionine import system permease protein MetP	ATGCTTAATGGATTACTGCCAAACGTACGCATGGAAGACATGATTACAGCAACAAATGAAACGTTGTATATGACTCTGATTTCCGTAGCCGGCACATTTATCCTCGGAATCCTGCTCGGCCTGCTGCTTTATCTATCTGGTCCGGGAGGGCTCTGGCAGAACAAAGTGGTCAATGCAGTGACAGCTTCTGTCGTAAACATTTTCCGTGCCATTCCTTTTATTATATTGATCCTGCTTCTGTTCCCGTTTACAGACTTCTTGATTGGAACGATCCGCGGTCCGAACGCAGCCCTTCCGGCGTTAATTATCGGAGGAGCTCCGTTTTATGCGAGACTTGTGGAGATTGCATTGAAGGAAGTGGAAAAAGGTGTCGTAGAGGCAGCGAAGGCGATGGGAGCTAAATCATCAACGATCATCTTCAAAGTCCTGCTGCCTGAATCCATGCCTGCCCTTATTTCAGGAATTACGGTGACCGCCATTGCATTGATTGGTTATACCGCCGTGGCGGGTGCGATTGGTGCCGGTGGTCTTGGAGACTTTGCTTATTTCTACGGTTTCCAGCGTAGTAATTTCGATGTTGTCTTCATTTGCACGGTGCTCATCATTATTATTGTGTTTATTTTCCAATTCATCGGAGATTATGCTTCCCGTAAATTGGACAAAAGATAA	MLNGLLPNVRMEDMITATNETLYMTLISVAGTFILGILLGLLLYLSGPGGLWQNKVVNAVTASVVNIFRAIPFIILILLLFPFTDFLIGTIRGPNAALPALIIGGAPFYARLVEIALKEVEKGVVEAAKAMGAKSSTIIFKVLLPESMPALISGITVTAIALIGYTAVAGAIGAGGLGDFAYFYGFQRSNFDVVFICTVLIIIIVFIFQFIGDYASRKLDKR	PGPT0020515_1592	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020515-metI-K02072	NA	NA
AK012_02375	843	metQ_2	COG1464	Methionine-binding lipoprotein MetQ	ATGAAAAAAATCTGGACATCAGCGGCTGCGCTGTTATTAATTCTCATTCTTGCCGCCTGTGGTTCTTCTGAGGAAGATTCCTCCAGCGGTGAAGGAAATACGGAAATTACAGTAGGAGCAACAAGTGTTCCTCACGCCGAAGTTCTTGAAGAAGCAAAGCCGCTTCTTGAAGAAGAAGGGATTACGTTAAATATCGAGGAGTATCAGGATTACATCCTTCCAAACCAGGACCTGGCCGAAGGACGTATTGATGCAAACTATTTCCAGACGATTCCTTATATGGAACTTCAAGAGCAGGATAATGAAGATTATGATTTTGTCAATCTCGGCGGGATTCACATTGAGCCCATCGGTGTGTACTCCCAAAAGTATGACAACCTTGAAGACGTAGAAGAAGGTACCGAATTCGTCATGAGCCGTTCTGTATCCACCCACGGCCGTGTATTGACACTTCTTGAAAAAGAAGGATTGATCAAACTGGACGAGAGTGTGGAAAAAGTGGATGCCACGGTCAATGATATTGTTGAGAACCCTAAAAACCTTCAGTTTGATACCGGCGTGGACGCAGCCGGCCTTCCTGAAGTGTATAACAAAGAGGAAGAAGTCCTTGTAGCGATTAACACGAACTACGCGATTGAAGCTGACCTTGTGCCCAAAGAGGATGCCATCATTCTTGAAGGGACAAACTCCCCTTATGTGAACGTCATCGCTGCCCAAAGCAAAGATGAGGACAATGAGGCCTTGAACACGCTTGTAGAAGTCCTGCGTTCTGAAGACATTCAAACCTTCATTGAAGAGGAATACGAAGGAGCAGTTATCCCTGTCTCCGAGGATTCTGAATAA	MKKIWTSAAALLLILILAACGSSEEDSSSGEGNTEITVGATSVPHAEVLEEAKPLLEEEGITLNIEEYQDYILPNQDLAEGRIDANYFQTIPYMELQEQDNEDYDFVNLGGIHIEPIGVYSQKYDNLEDVEEGTEFVMSRSVSTHGRVLTLLEKEGLIKLDESVEKVDATVNDIVENPKNLQFDTGVDAAGLPEVYNKEEEVLVAINTNYAIEADLVPKEDAIILEGTNSPYVNVIAAQSKDEDNEALNTLVEVLRSEDIQTFIEEEYEGAVIPVSEDSE	PGPT0020510_1022	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_METHIONINE_TRANSPORT,PGPT0020510-metQ-K02073	NA	NA
AK012_02376	366			hypothetical protein	ATGCAGGATCAGAATATGACGTGGACGCAGACATATTTACATGATTATAAAGAAGGAATGGGCGTCTTTGCGGAACACATGCCTGAAGTCGCTCATCAGTTCAGTCAATTTTCCCAGGAGTGTTTTAAAGCTGGAGAGCTTTCACAAAAAGACAAGCAGCTGATGGCTCTCGGAATCAGCATCGTTGCCCAGGATGAATATTGTATGATCTACCACACAAAAGGCTGTGTCGATCAAGGAGCTTCTGAAAAAGAGATTTTAGAAGCCTGCGGAGTGGCGGCAGCATTCGGAGGAGGGGCAGCTCTCAGCCAGGCGGTCACTCTTGTCCAGGACGCCTATAGTGATTTAACGGACAACGTTAACTAA	MQDQNMTWTQTYLHDYKEGMGVFAEHMPEVAHQFSQFSQECFKAGELSQKDKQLMALGISIVAQDEYCMIYHTKGCVDQGASEKEILEACGVAAAFGGGAALSQAVTLVQDAYSDLTDNVN				NA	NA	NA	NA	NA
AK012_02377	780	sufC	COG0396	Vegetative protein 296	ATGGCAGGATCAACATTAGAAATTAAAGATCTTCACGTAGAGATTGAAGGTCAGGAAATCCTTAAAGGTGTAAACTTAACAATCAACGGCGGTGAATTCCACGCAGTTATGGGACCAAACGGAACAGGTAAGTCCACTTTGTCCTCTGCAATCATGGGGCATCCGAAGTATGAAGTAACGAAAGGTGAAATCATCCTTGATGGTGAAAACGTACTGGAGATGGAAGTAGACGAGCGTGCGAAAGCCGGTTTGTTCCTGGCCATGCAGTACCCGAGTGAAATCAGCGGTGTAACCAACTCCGACTTCCTGCGTTCTTCCATTAACGCCCACCGTGAAGAAGGTGACGAAATCTCTCTTATGAAATTCATTAAAGAGATGGACAACACGATGGATACGCTTGAAATGGACAAAAACATGGCTCAGCGTTACTTGAACGAAGGTTTCTCCGGCGGTGAGAAAAAACGGAACGAAATTCTGCAGCTGATGATGATTCAGCCGGCGATTGCCATTCTGGATGAGATTGATTCCGGTCTGGATATCGATGCCCTTAAAGTTGTTTCCAAAGGGATCAACGAAATGCGCAACGACTCCTTCGGCTGCCTGATCATTACTCACTACCAGCGTCTATTGAACTACATCACTCCTGATAAAGTACACGTGATGATGCAGGGTCGTATTGTGAAGTCCGGTGGTCCGGAACTTTCCCAGCGCCTTGAAGAAGAAGGATACGACTGGATCAAGCAGGAGCTTGGCATCGAAGACGAAACGGTCAACGCGTAA	MAGSTLEIKDLHVEIEGQEILKGVNLTINGGEFHAVMGPNGTGKSTLSSAIMGHPKYEVTKGEIILDGENVLEMEVDERAKAGLFLAMQYPSEISGVTNSDFLRSSINAHREEGDEISLMKFIKEMDNTMDTLEMDKNMAQRYLNEGFSGGEKKRNEILQLMMIQPAIAILDEIDSGLDIDALKVVSKGINEMRNDSFGCLIITHYQRLLNYITPDKVHVMMQGRIVKSGGPELSQRLEEEGYDWIKQELGIEDETVNA				NA	NA	NA	NA	NA
AK012_02378	1308			hypothetical protein	ATGACAGTAGAAGTCACACTACCATACGATAAAGAGTATGTTACAAACTTTTCCCAGGGTCTTCAGGAACCTGAATGGATGAAGAATCTTCGTCTAAGTGCTCTGGAGAAATCAGAATCTCTTCCACTACCAAAACCAGATAAAACCAATATTTCTAAATGGAACTTCACAGAATTCGATCACCATGTCACGAGTGATAAGATTGAAAATCTGGATGATCTTCCAGTGGAAATCAAAGACTTTTTAGATCAGGAAAAAGAACAGCAGAATCTTGTGATTCAGCGTAACCATACCGTTGCCTATGCAGCGATTGAACAGCAGCTGAAGGACAAGGGTGTCATCTTCACTGACATGCTGACAGCCGTCCGTGAACACAGTGATCTTGTTGAGAAATATTTCATGAATGATGCGGTTCACGTGGACGAGCACCGTCTGACAGCGCTGCATGCGGCCCTTATGAACGGCGGAGTTTTCCTTTATGTCCCGAAGAACGTCCAGATCGAAGAACCGATTCAGGCGATCTTCTGGCAGGAGGATCCTAAAGCTTCTCTAATTAACCACATTCTTGTTGTGGCAGAGGAAAACAGTTCTGTCACGTATGTGGAGAACTATATTTCCCACAATAAAGAAGAGAAAACCTCTTCCAACATTGTGGCAGAAGTTATCGCTAAAGACGGAGCGAAGGTTTCCTTCGGTGCGGTGGATAACTTTGAAGCCGGAACGACTGTTTATGCAAACCGCCGTGGCGTAGCCTACCGTGATGCTGTCATTGAATGGGCTCTTGGGCAGATGAATGAAGGAGACACCGTCTCTGAAAACATCACCCACCTGATCGGTGACAACTCCCACTCCAATGCGAAAACTGTAGCTATCGGCCGCGGGGCGCAGAAGCAGAACTTTACGGCGAACATCACCCATTTCGGTAAAGGATCGGATGGATATATCCTTCAGCACGGGGTTATGAAAGATAAGGCCTCTGCGATCTTTAACGGAATCGGCAAAATTGAACACGGCGCTAGTAAATCCAATGCAGAGCAGGAGTCCCGTGTACTGATGCTCAGCAAAGATGCACGTGGTGACGCGAACCCGATTCTTCTCATTGATGAAGATGACGTTACAGCTGGTCACGCTGCTTCTGTCGGCCGTGTCGATCCAATTCAGCTTTATTATCTTATGAGTCGTGGAATCTCTCGTTTTGAAGCGGAGCGTTTGATTATTCACGGATTCCTGGCACCTGTGGTGAACCAACTGCCTGTAGAGGCAGTGAAACGCCAGCTTAGACAGGTTATTGAAAGGAAAGTCTATTAA	MTVEVTLPYDKEYVTNFSQGLQEPEWMKNLRLSALEKSESLPLPKPDKTNISKWNFTEFDHHVTSDKIENLDDLPVEIKDFLDQEKEQQNLVIQRNHTVAYAAIEQQLKDKGVIFTDMLTAVREHSDLVEKYFMNDAVHVDEHRLTALHAALMNGGVFLYVPKNVQIEEPIQAIFWQEDPKASLINHILVVAEENSSVTYVENYISHNKEEKTSSNIVAEVIAKDGAKVSFGAVDNFEAGTTVYANRRGVAYRDAVIEWALGQMNEGDTVSENITHLIGDNSHSNAKTVAIGRGAQKQNFTANITHFGKGSDGYILQHGVMKDKASAIFNGIGKIEHGASKSNAEQESRVLMLSKDARGDANPILLIDEDDVTAGHAASVGRVDPIQLYYLMSRGISRFEAERLIIHGFLAPVVNQLPVEAVKRQLRQVIERKVY				NA	NA	NA	NA	NA
AK012_02379	1221	sufS	COG0520	Cysteine desulfurase SufS	ATGGATGTAAAAGCTGTACGCGAACAGTTCCCGATCCTTCATCAGGAAGTGAATGGGCATCCGCTCGTGTACTTGGATTCGTCGGCGACTTCTCAAAAGCCTGTACAGGTCATCGAGAAGCTTGATGAATACTACCGGGGATATAATTCCAACGTTCACCGCGGTGTGCATACACTGGGAACGAAAGCAACAGATGAATATGAAGGTGCCCGCGAAAAAGTACGCCGCTTCATAAATGCTTCCAGTACACAGGAAGTCATTTTCACACGTGGTACAACGACAGCTATCAATACAGTAGCAGCAAGCTACGGACGCGCGAACCTTTCTGAAGGTGACGAAGTCGTCATCACTCAGATGGAGCACCACAGCAACATTATTCCATGGCAGCAGATTGTGAAAGAAACAGGGGCGGAATTGAAGTATATTCCGATGCAGCCGGATGGCACCGTCCGCCTGGAGGATGCGGAAGCAACGATTACTGAGAAAACCAAGATTGTAGCTATGATGCATGTATCCAACGTACTCGGTACGATCAACCCGGTGAAGGAAGTCGCTGAAATCGCCCACCGTAAAGGTGCTGTTATGCTCGTGGACGGAGCTCAGAGTGTCCCTCACATGAGCATTGACGTCCAGGACCTGGATGCAGATTTCTACGCCTTTAGTGGTCACAAAATGTGCGGCCCGACCGGCATCGGTGTGCTGTACGGAAAGAAAGACCTGCTGAACAAAATGGAGCCGGTGGAATTCGGTGGTGAAATGATCGATTTTGTTAACCTGTATGATTCTACGTGGAAAGAACTCCCGTGGAAATTTGAAGGGGGTACACCAATCATCGCAGGCGCTGTCGGTCTTGGCGCAGCGATCGACTTTCTAATTGATATCGGTCTTGATAACATCCGTAAACATGAAGAGAAGCTGGCTGCCTATGCCGTCCGGGAAATGAATAAAATCGACGATATGAAGATCTTCGGACCTGAACATCGTGCTGGACTGGTGACGTTCAACCTGGGTGATGTCCACCCTCACGATCTTGCAACCGTGCTTGATGCAGAGGGCGTGGCCGTACGTGCAGGACATCACTGTGCACAGCCGCTCATGCGCTGGTTGAATGTTTCGGCTACGGCCAGAGCGAGCTTCTATCTATATAACACAGAAGAAGATATAGACCGACTTGTCGCTGGATTACAAACAACAAAGGAGTATTTTGGTGATGTCTTTTAA	MDVKAVREQFPILHQEVNGHPLVYLDSSATSQKPVQVIEKLDEYYRGYNSNVHRGVHTLGTKATDEYEGAREKVRRFINASSTQEVIFTRGTTTAINTVAASYGRANLSEGDEVVITQMEHHSNIIPWQQIVKETGAELKYIPMQPDGTVRLEDAEATITEKTKIVAMMHVSNVLGTINPVKEVAEIAHRKGAVMLVDGAQSVPHMSIDVQDLDADFYAFSGHKMCGPTGIGVLYGKKDLLNKMEPVEFGGEMIDFVNLYDSTWKELPWKFEGGTPIIAGAVGLGAAIDFLIDIGLDNIRKHEEKLAAYAVREMNKIDDMKIFGPEHRAGLVTFNLGDVHPHDLATVLDAEGVAVRAGHHCAQPLMRWLNVSATARASFYLYNTEEDIDRLVAGLQTTKEYFGDVF	PGPT0020195_3876	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
AK012_02380	444	sufU_1	COG0822	Zinc-dependent sulfurtransferase SufU	ATGTCTTTTAATAACCTGGATACCCTTTATCGTCAAGTCATTATGGATCACTATAAAAACCCGCGCAACCGTGGTTCCATTGAAGGAGACCCAATGATCGTGGATATGAATAACCCGACCTGTGGAGACCGCATCCAGGTTTACCTGCAAGTGGAGGGCGGACTGGTTCAGGACGCGAAGTTTGATGGAGAGGGCTGTTCCATCAGCCTTTCCTCCGCATCCATGATGACACAGGCGATTAAAGGCAGACCCGTTGATGAAGCATTAAAAATGTCCGAGCTGTTTTCTGACCTGATGCAGGGGAAAGATATTGATGAAAACGGCATTGATCTTGGCGATATTGAAGCCCTTCAGGGTGTAGCCAAGTTCCCGGCACGCATCAAATGTGCGACACTGGCATGGAAAGCCATGGAAAAAGGTGTCGGAGAAGAGAAGCAGGACTAA	MSFNNLDTLYRQVIMDHYKNPRNRGSIEGDPMIVDMNNPTCGDRIQVYLQVEGGLVQDAKFDGEGCSISLSSASMMTQAIKGRPVDEALKMSELFSDLMQGKDIDENGIDLGDIEALQGVAKFPARIKCATLAWKAMEKGVGEEKQD	PGPT0000075_1260	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
AK012_02381	1398			hypothetical protein	ATGGCCAAAAAAGCGCCAGAAGTGGGAGAGTACCAATATGGTTTCCACGAAAAAGATATATCCATTTTCCGTACACAAAAAGGTTTGACGAAGGAAGTCGTTGAACAAATTTCCAACTATAAAGAAGAGCCGAAGTGGATGCTTGATTTCCGCCTGAAGTCTCTTGAGCAGTTCTATAAAATGCCGATGCCGCAGTGGGGCGGCGACCTTCAGGAACTGAACTTTGATGATATTACGTATTACGTAAAACCATCTGAGCGTTCTGAGCGTTCCTGGGATGAAGTACCGGAAGAAATCAAGAATACGTTCGACCGTCTTGGAATTCCGGAAGCGGAGCAGAAATACCTTGCCGGTGTATCTGCCCAGTATGAATCCGAAGTGGTTTATCACAACATGGAGAAAGAACTGGAAGACATGGGTGTGGTCTTTAAGGATACGGATTCAGCCCTTAAAGAAAACGAGGACCTTTTCAAGGAATACTTCGGAAAAGTCATTCCTCCATCCGATAACAAATTCGCAGCGTTGAACTCTGCCGTTTGGTCCGGTGGTTCCTTCATCTATGTTCCAAAAGATACGAAGGTGGAAACGCCGCTTCAGGCTTATTTCCGTATTAACTCGGAAAACATGGGACAGTTTGAGCGTACGCTGATCATCGCGGACGAAGGTTCTTCCGTGCACTATGTAGAAGGCTGTACAGCTCCTACGTATTCGTCCAGCTCCCTGCACAGTGCGGTCGTTGAAATCTTCGTTAAAGATAATGCGTACTGCCGTTATACAACGATCCAGAACTGGGCGAACAACGTATACAACCTGGTTACAAAGCGTGCCGTAGCTGAGTCCAATGCAACGATGGAATGGGTCGACGGGAACCTTGGTTCCAAATTGACGATGAAATATCCAGCCGTCCTTCTTAAAGGAGAAGGGGCGCGTGGAATGACATTGTCCATCGCTCTTGCCGGTAAAGGACAGCACCAGGATGCCGGTGCGAAAATGCACCACCTGGCACCGAACACGTCCTCTACGATCGTATCCAAGTCTATTTCCAAGCACGGTGGTAAAGTAACCTACCGCGGAATCGTCCAATTCGGCCGTAAAGCTGAAGGCGCGCGTTCCAACGTAGAGTGCGACACCCTCATCATGGATAATGAATCTACGTCAGATACGATTCCTTACAACGAAATCATGAACGAGAACATCTCTCTTGAGCACGAAGCAAAAGTTTCCAAAGTGTCTGAAGAGCAGTTGTTCTACCTGATGAGCCGTGGTATTTCTGAAGAGGAAGCGACAGAAATGATCGTAATGGGCTTCATCGAGCCATTCACGAAAGAACTTCCAATGGAATATGCCGTTGAGATGAACCGCCTGATCAAATTTGAAATGGAAGGTTCCATCGGTTAA	MAKKAPEVGEYQYGFHEKDISIFRTQKGLTKEVVEQISNYKEEPKWMLDFRLKSLEQFYKMPMPQWGGDLQELNFDDITYYVKPSERSERSWDEVPEEIKNTFDRLGIPEAEQKYLAGVSAQYESEVVYHNMEKELEDMGVVFKDTDSALKENEDLFKEYFGKVIPPSDNKFAALNSAVWSGGSFIYVPKDTKVETPLQAYFRINSENMGQFERTLIIADEGSSVHYVEGCTAPTYSSSSLHSAVVEIFVKDNAYCRYTTIQNWANNVYNLVTKRAVAESNATMEWVDGNLGSKLTMKYPAVLLKGEGARGMTLSIALAGKGQHQDAGAKMHHLAPNTSSTIVSKSISKHGGKVTYRGIVQFGRKAEGARSNVECDTLIMDNESTSDTIPYNEIMNENISLEHEAKVSKVSEEQLFYLMSRGISEEEATEMIVMGFIEPFTKELPMEYAVEMNRLIKFEMEGSIG				NA	NA	NA	NA	NA
AK012_02382	813			hypothetical protein	ATGTTTCTTTTAATGTTCTTGATTGGTGTTGTGACGGCTTTAGTGGGGAGCATCGCCGGCCTCGGCGGCGGTGTTATTTTAGTGCCTGTGCTCCTCTTTCTGGGCGATCACCTTCCATCCTTCGACTGGGTGAGCCCCCAGTCCATCGTTGGAGTTTCGCTGGTCGTTATGATTTTCACCGGTATGTCCTCGACGATTTCATATATCCGGCATAACCGGGTGGATAAAAAAATCGGTTTTATATTTTTATATGGAAGTATTCCTGGAGGCATCTTCGGTTCCTGGCTGAATCAGTTTTTTAAAACAGATGGCTTTTCCCTGTTCTTTGGGATAGTCATGATTCTTGTATCCCTGCTGTTTTTTATTCCAAGAAGACCTCCAGGTACACCTTTGTTCTCCAGTGGCATAAAAAGAGAGAGAACGATAAATGGACAAACGTACACATATCAAATGCCTCTATGGCTGGGGCTGTCCCTGTCGTTTGCTGTAGGCATGCTCTCCGGTCTGCTTGGTATCGGTGGTGGTTCGCTGATGGTGCCTGCGATGATTCTACTGCTGAATATCCCGCCACACATCGCGACAGCTACATCGATGTTTATGATTTTCTTTGCAAGCATCAGCAGTTCAGCTACCCACATTGCAATGGGTCACGTGGATTGGGCGGTTACACTCTGGTTTATTCCGGGAGCTTATGCAGGCGGGATGCTTGGAGCTAAAATCAACCGCCATCTGAACGGGAAAGCGGTGGAGTGGTTCTTAAGAGTGCTGCTGATTATGATAGGGATACGCTTAATCTGGCAAGGGTTAGGGTGA	MFLLMFLIGVVTALVGSIAGLGGGVILVPVLLFLGDHLPSFDWVSPQSIVGVSLVVMIFTGMSSTISYIRHNRVDKKIGFIFLYGSIPGGIFGSWLNQFFKTDGFSLFFGIVMILVSLLFFIPRRPPGTPLFSSGIKRERTINGQTYTYQMPLWLGLSLSFAVGMLSGLLGIGGGSLMVPAMILLLNIPPHIATATSMFMIFFASISSSATHIAMGHVDWAVTLWFIPGAYAGGMLGAKINRHLNGKAVEWFLRVLLIMIGIRLIWQGLG				NA	NA	NA	NA	NA
AK012_02383	1386	mggB	COG0737	Mannosylglucosyl-3-phosphoglycerate phosphatase	ATGAAGGAAAAACTGCACGTTTACTATACGAGTGATCTGCACAGTCACTTTGAAAACTGGCCGCAGATTGTCGGCTATTTTCGGGAGAAGAAAAGAATCCATGATCAAAAAGGAGAAGACTACTGGCTGTTGGATAACGGTGATCACGTCGACCGGTTTCATCCCATTACAGAAGGGCTGATGGGCAAGGGAAACGTCGATCTTTTGAATCAGGCTGGTTACTCCGTCGCGACGCTTGGAAACAATGAGGGAATTACGCTTGCCAAAGAGGACCTTCATGAACTCTATGACGATGCGGATTTCCAAGTGGTCTGTGCCAACTTGGAGTGCTTGGAATCCCCTGCGCCCGAATGGCTTAAACCGTACCATATCCTGCATTCAAGCCGAGGGACGAGAGTGGCCGTCATCGGTTTAACCGCTCCTTTCCAAGCTTTTTATCAAAAACTTGGCTGGGACGTTCATTCCCCCTATGACTGGCTCGATAAGCTGCTGCCTGAAGTGAATGAACAAGCGGATATTATTGTATTACTGTCCCACCTCGGGATAAATGAGGATGAAGAAATTGCCAGAAGATACAATGGAATTGATCTCATTATCGGGGGTCACACGCACCACCTCTTTCAAAACGGTGAGTATGTGGAAGGCACTCTCCTGACAGCGGCTGGGAAGCATGGCACCCACCTTGGAGAGGTCCTGTTAGAATGGGATGCGGAGGCTGGTGAGATCACCAGAAAAGAAGCCTATGCTGTTCCAACAGAGCAGATGAGAAAAGATGATGAGGTGACCGACTACTTAGGGCAGATCCGCGGGGAGGCTGTCCACCGGTTGAAAACCCCTGTAGCCTATTTGGAAGAGCCGATGCATATTGCCTGGTTCCAGGACAGCCCTCTCATGTCGAGGCTGACGGAACAGCTGCGCAGCTGGACTTCTTCCGATATAGCTATGCTGAATGCCGGGGTTCTCCTCGACCATCTCCCGGCCGGAGAAATTACGTATGAGGACGTTCATCGTATCTGCCCCCACCCGATGAATCCCTGCAAGGTCCATTTGAGAGGGAATGAACTTCTGGAAGTCATCCGGGCAGCTCATACGAGAAAATTGACAGAGATCCGCCTGAAAGGGTTCGGTTTCAGGGGAGAAGTCATAGGTCGCATGGTATTTTCCGGTATTGAAATTGAACAGAGGAAAGACGAGGACGGAGAAGAACGTGTCGTTCAAGTGCTCTACAACGGAAAACCTCTGGACTACGATAAAACCTACAGTTTTGCAACAGCAGATACGTTTACGTTCGGTCGTTTCTTTCCTGAAATTGCCTATGCGGAAACAAAGCATTACTTTATGCCGGAGCTGTTACGTGACCTGTTGACAAAAGAATTAAAAAAATAA	MKEKLHVYYTSDLHSHFENWPQIVGYFREKKRIHDQKGEDYWLLDNGDHVDRFHPITEGLMGKGNVDLLNQAGYSVATLGNNEGITLAKEDLHELYDDADFQVVCANLECLESPAPEWLKPYHILHSSRGTRVAVIGLTAPFQAFYQKLGWDVHSPYDWLDKLLPEVNEQADIIVLLSHLGINEDEEIARRYNGIDLIIGGHTHHLFQNGEYVEGTLLTAAGKHGTHLGEVLLEWDAEAGEITRKEAYAVPTEQMRKDDEVTDYLGQIRGEAVHRLKTPVAYLEEPMHIAWFQDSPLMSRLTEQLRSWTSSDIAMLNAGVLLDHLPAGEITYEDVHRICPHPMNPCKVHLRGNELLEVIRAAHTRKLTEIRLKGFGFRGEVIGRMVFSGIEIEQRKDEDGEERVVQVLYNGKPLDYDKTYSFATADTFTFGRFFPEIAYAETKHYFMPELLRDLLTKELKK	PGPT0013395_1928	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
AK012_02384	777	yunB		Sporulation protein YunB	ATGCCTAAAAACCGCGTGACTAAGCGTTCTAATATCGGCAGGCGGATAGTGATCAGCCTGTTGTTTTTCGCCCTTTTCACTGTGCTGAGTCTATGGTATATCAACAGAGGTGTAACTCCTGCGCTGGTGGAAATTGCTGAAACGAAAGCCCAGCAGCTGGCAAGGGATGCCATTAACGAAGCGGTAAGTAAACAGATTGCAGAGGATCTGCAGTTTGATGATTTGGTGAAAATGGAAAAGGATGATCAGGGAAATGTCGTTTATATGGGATGGAATTCTGTACTTGTAAACAGAGCTCTCCGGGATACCACCATCCGAGTTCAAAATTTCCTGAAGCGGATGGAACTTGGAGAACTACCGATGGAGGACACGACGCTGGAGCCGGACCTTGATCCGGACCGCACCCCGGAGGAGCAGGGGGAACAGCCGGCCACACTTATTGAACTCCCCATTGGGATGGCAACAAACAACAGCCTGCTCGCCAACCTTGGACCTAAAGTACCGGTACAGCTGCGTGTGATTGGAGATGTGCAATCCGAAGTAGATATAGAAATGACGGAATACGGCATCAATGCCGCATTATTTGAATTGACCATCCACTTTGAGGTGAATGTCCGTATCGTAATTCCTTTCTCCACCGAAACGACCGTTGTTACCAACAACATACCGATTGATCAGGCAACTATTCTCGGGGAAGTGCCGGAATATTTCGGAGGCATGTCCGGGGGCGATGGCGGGAATCCTTCCTTCTCCCTTCCTATGGAACCCTTGCAATAA	MPKNRVTKRSNIGRRIVISLLFFALFTVLSLWYINRGVTPALVEIAETKAQQLARDAINEAVSKQIAEDLQFDDLVKMEKDDQGNVVYMGWNSVLVNRALRDTTIRVQNFLKRMELGELPMEDTTLEPDLDPDRTPEEQGEQPATLIELPIGMATNNSLLANLGPKVPVQLRVIGDVQSEVDIEMTEYGINAALFELTIHFEVNVRIVIPFSTETTVVTNNIPIDQATILGEVPEYFGGMSGGDGGNPSFSLPMEPLQ	PGPT0025000_67	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025000-yunB-NA	NA	NA
AK012_02386	1551			hypothetical protein	ATGGAAGGAACCATCTTTTCTTTAGTTCCAGCAATACTTATGCTCATCCTTGTCCTTGTGACAAGGCGGGTCATCTTATCCCTTGGCATAGGGATCATCGTCGGGGCATTCATGCTCACACAAATGGATATTGGAGCAGGTCTCAGTTTGATCTGGTCTATATTTGCCGGTATTTTCGTCAGTGAAGGGGCATTAAATACAGGCAGTATTTATCTATTGTCTTTCTTATTTTTACTCGGAGTCGCTACAGCCTTTATGACAGCCTCCGGAGGCAGCCGTGCTTTCGGTAAATGGGCCGTTGAAAGGATCCGGACGAGAAAAGGAGCCAAGCTCGTTCCGTCTATTCTAGGTATCATTATTTTTATTGATGATTACTTTAATGCTCTGGCTGTTGGACAGGTTGCACGTCCTGTGACAGACCGCTATAAAGTATCCAGAGCAAAACTGGCTTATTACATTGATTCCACTTCAGCACCGATTACGGTCATATCACCGATTTCCAGCTGGGGCGCTTATATCATCGGGACGATTGGAAGCATTCTTGCCGCCAATGAAATTTCTGAGTATCAGGCGTTTGAAGCTTTCGTTCTTATGATTCCGGCAAACTTTTATGTATTTGCTGCACTGCTTCTCGTATTTTTGACGATTTATCTGCGCCTGGATATTGGTGCGATGAAAACGCACGAAAACAGAGCCAAGGATACCGGCGAACTTCACAACCCGGATAAAGGGGATGTGCCCGGCGACTTGAATAATGAGTTCAGGGAGCATGATAACGGGAAGATTTCACATTTAATCTGGCCGATTGTAACATTGATTATTGGTACAGTCGGAATGATGGTTTATACAGGAATTCAAAGTTCAGAAGGAACCGCAGATATCCTTTCCATCTTCGCCAATACGAACGTAAATATTTCCTTATTCACCGGAGGGATCATTTCCGTGGTCACGGCCCTGCTTTTATATGTCGGGCAGCCGTCACCGAAATCCGGACTGATGCACGTATTTCTACAAGGGTTAAAAGCAATGCTGCCGGCGATCTATATCCTGATTGCTGCTTGGATGATCGGCGACATCATCAGCCGCCTTCAGACAGGGGAATATCTCGCTCAGCAGTTCAGCCAGGCGGATATTAACATTGCTTACCTGCCGCTGATCATTTTCTTATTATCCGGTTTTATGGCCTTGTCTACAGGGACGTCGTGGGGAACCTTCGGAATTATGCTTCCGATCGCTGGAGAAATTGCTGCTGTTACCGATCCAGCATTCCTTCTCCCGGCCCTTTCAGCCGTTCTGGCAGGTTCTGTGTTCGGGGATCACTGTTCACCAATCTCCGATACAACGATCCTTTCGTCCACAGGAGCGGGAGCCAACCACATTGATCACGTATTGACACAGCTGCCATATGCCATTATTGCCGCGGTGGCTGCTTCTGTCGGTTATGTTGTCCTCGGCCTGACCGGTCAGGTATGGATGCCGCTGCTGCTGGCTCTTGTCATTGTGCTCGTCACAGCACTGGTGATTCATAAACTGAATCCTGAAAAAGGATAG	MEGTIFSLVPAILMLILVLVTRRVILSLGIGIIVGAFMLTQMDIGAGLSLIWSIFAGIFVSEGALNTGSIYLLSFLFLLGVATAFMTASGGSRAFGKWAVERIRTRKGAKLVPSILGIIIFIDDYFNALAVGQVARPVTDRYKVSRAKLAYYIDSTSAPITVISPISSWGAYIIGTIGSILAANEISEYQAFEAFVLMIPANFYVFAALLLVFLTIYLRLDIGAMKTHENRAKDTGELHNPDKGDVPGDLNNEFREHDNGKISHLIWPIVTLIIGTVGMMVYTGIQSSEGTADILSIFANTNVNISLFTGGIISVVTALLLYVGQPSPKSGLMHVFLQGLKAMLPAIYILIAAWMIGDIISRLQTGEYLAQQFSQADINIAYLPLIIFLLSGFMALSTGTSWGTFGIMLPIAGEIAAVTDPAFLLPALSAVLAGSVFGDHCSPISDTTILSSTGAGANHIDHVLTQLPYAIIAAVAASVGYVVLGLTGQVWMPLLLALVIVLVTALVIHKLNPEKG	PGPT0027895_268	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0027895-tet35-K18218	NA	NA
AK012_02387	1527			hypothetical protein	ATGGAAAATCGCGCGCAATGGGGTACACGTGCCGGATTTATCCTGGCAGCCGTAGGTTCTGCCATTGGTTTGGGGAACATTTGGCGTTTTCCAGCTGTTGCTTATGAAAATGGAGGCGGAGCATTTTTTATTCCTTATTTGTTCGCTCTTCTAACCGCGGGTATTCCTCTATTGATCATGGAGTTTACCATCGGTCATAAGTACCGTGGATCTGCACCGTTATCCTTTTTCCGGATGAGCAGAAAAACAGAGTGGATCGGCTGGTGGGGTGTACTGGTCGCATTTGTAATATCCACTTATTATGCGGTCATTATCGGCTGGGCCATTTCCTACAGTGTGTTTTCGTTCAATTTATCATGGGGGGAAGATACCGAAGGCTTTTTATTCAGTGATTACCTGCAATTATCTGTAAATCCCGGCGAGACCGGTAGCCTTGTTCCCGGTGTATTGATTCCTCTGCTTATTGTGTGGGCGATTACACTTGGAGTTCTATTCAAGGGAGTTAAAAAAGGGATTGAGACAGCGAACAAAATCTTCATTCCTACGCTTGTCGTCCTTTTCATGATCATTGTTATACGTGCCCTTACACTGCCTGGAGCAGCACAGGGTCTGCAGGCATTCTTCGAACCGAACTTCTCGGCGATTATGGACAGCTCGGTATGGGTGGCGGCCTATGGACAGATCTTCTTCAGTCTTTCGATTGCTTTTGCTATTATGATTACTTATTCCAGTTATCTTCCAAAAAAGTCGGATATCACAAATAATGCGTTTATTGCCGGTTTCAGTAACTCAGGCTTTGAATTGCTGGCAGGTATCGGGGTATTCGCTGCCCTTGGCTTCATGGCCTCCCAGAGTGGAGTACCTGTAAACGAAGTCGTAAGCGGCGGAGTGGGACTTGCCTTTGTGGTCTTCCCGCAGATCATTAATGAATTTCCAGCATTGAATGGATTGTTTGGATTCCTGTTCTTCCTTTCACTCGTACTGGCCGGGTTGTCTTCCTTGATTTCCATTTCGGAGACATACGTAGCCGGGATCAGCGAGAAATTTGGAATTTCCAGAACGAAGGCTGTCGCTTTCGGCGGCGGTACAGCTGCCGTTATATCCCTGTTATTTGCCACGCAGGGTGGATTGTTCTTCCTGGATGCGGCAGACTATTTCATCAACCAGTTTGGTGTCGCATTTGTCGGACTTGTTGAAGTCGTCGTGATTGCCTGGTTCCTACGCAAGCTCAACGACTTTCAGTCGCACGCCAATGCAATATCCGACATCCGTCTGGGAACTTGGTGGAAAGTGTCTCTTGGTCTTATTACTCCCATCGTTCTCGGGTACATGATGTTCGACCTGTTTAAAAAGAACCTGGCGAAAGAGTTCGACACAGATACAGGAAACTATGAAGGATACGCTGATGGGTTCATTCTTTTCGGTGGCTGGTTTGTGGCAGCGTTCGCCCTTATCGCTGGGGTGTTGATGATGTTGAAACGCTGGAACGCCAAAGCTTTCGAAGAGGAAAAAAAGGAGGTAAGCTGA	MENRAQWGTRAGFILAAVGSAIGLGNIWRFPAVAYENGGGAFFIPYLFALLTAGIPLLIMEFTIGHKYRGSAPLSFFRMSRKTEWIGWWGVLVAFVISTYYAVIIGWAISYSVFSFNLSWGEDTEGFLFSDYLQLSVNPGETGSLVPGVLIPLLIVWAITLGVLFKGVKKGIETANKIFIPTLVVLFMIIVIRALTLPGAAQGLQAFFEPNFSAIMDSSVWVAAYGQIFFSLSIAFAIMITYSSYLPKKSDITNNAFIAGFSNSGFELLAGIGVFAALGFMASQSGVPVNEVVSGGVGLAFVVFPQIINEFPALNGLFGFLFFLSLVLAGLSSLISISETYVAGISEKFGISRTKAVAFGGGTAAVISLLFATQGGLFFLDAADYFINQFGVAFVGLVEVVVIAWFLRKLNDFQSHANAISDIRLGTWWKVSLGLITPIVLGYMMFDLFKKNLAKEFDTDTGNYEGYADGFILFGGWFVAAFALIAGVLMMLKRWNAKAFEEEKKEVS	PGPT0013950_409	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
AK012_02388	99			hypothetical protein	ATGACAGCAGGTGCAGTAATTACCATGATCATCGGGATGGTTGTCATCTGGGGAGGTCTGGCAGCAAGCATTACGAATGCTGTGAAAAAAGCTAAATAA	MTAGAVITMIIGMVVIWGGLAASITNAVKKAK				NA	NA	NA	NA	NA
AK012_02389	246			hypothetical protein	ATGGATAAGGTAGAGCGGATAATGAAGCCCATTCATAAAGGCTTTGCTACACTATGTTTGATTTATTTACTTTTAGTATTCATCACTGATATAGTTTTGTCGCCACCCATTCTTTTTGCTTTTTTCATTGTCATTACGTTGGGGAGGGCAAGCTTTCGACAAAGGGAAGGCCGTAAAATTGATGCTGCTGCCTCTCTTGGTTTGAGTTTGTTTTTCTTGACAGCACTCGTTATTACTTTGACTTAA	MDKVERIMKPIHKGFATLCLIYLLLVFITDIVLSPPILFAFFIVITLGRASFRQREGRKIDAAASLGLSLFFLTALVITLT				NA	NA	NA	NA	NA
AK012_02390	945	lytH	COG0739	L-Ala--D-Glu endopeptidase	ATGAAAGGCACAGCACTCGTAACAGGAATCTTGATTGCCGCTCTTTCTTTTTCAACTGGATCCGTACATGCACAACCAGATGAAAAGGAAAGCAATGAGCGGATGGCGCTTTACAAAAAAACCTCAGCCGTTACGGATATCCCGTGGGAATACCTGGCTGCTGTCGACCAGTATGAGCGTCAGGTGCACGACGACCCGGATGAAGGCCGGGTCACAGCTATTGAATTTGATCCGTTGTTCTGGTCCGGGTCCACGGATGCTTTTCCTCCAGCAGTCTCCCCTGAAGGTTGGGGGTCAGATGGAAACGGAGATCAAAAAGCAGACATCCAAAATGATGAAGATGTATTATGGTCTCTCGGCCGCTACTTGAAATCCTTCGGAACAACAGAAGATGATATTAAAATTGCGTTATTTCAATACTACAAACGGGATTTAACCGTACAGACGATCATGCACTCCGCCGAAGTGTTCCGTAAGTTCAAAACGGTGCATTTAACGAACCGTGACTTCCCTCTTCCTAAACAGCACAACTACAGCTACCGGAGCACATGGGGAGATGCGCGGGGATTTGGAGGACGCCGAATCCATGAAGGGACCGATATCTTTGCCGGCTACGGGGTCCCTGTCAAATCCACGACGTACGGCGTCGTCGAAATGAAGGGATGGAATACGTATGGAGGCTGGCGCATCGGAATCCGTGATATCTACAATATTTACCACTATTACGCCCATCTTCAGAACTTCTCGGAAGATATCAAAGTCGGAGATGTTGTGCAGCCCGGAGATGTCATCGGCGCTGTCGGCGCATCCGGCTACGGGCCACCAGGAACGTCCGGAAAATTCCCGCCGCATTTACATTACGGCATGTATCAGGATAATGGAAAGAATGAATGGTCCTTTGATCCCTATCCGTTTTTAAGACGATGGGAACGAATGGCGGAATAG	MKGTALVTGILIAALSFSTGSVHAQPDEKESNERMALYKKTSAVTDIPWEYLAAVDQYERQVHDDPDEGRVTAIEFDPLFWSGSTDAFPPAVSPEGWGSDGNGDQKADIQNDEDVLWSLGRYLKSFGTTEDDIKIALFQYYKRDLTVQTIMHSAEVFRKFKTVHLTNRDFPLPKQHNYSYRSTWGDARGFGGRRIHEGTDIFAGYGVPVKSTTYGVVEMKGWNTYGGWRIGIRDIYNIYHYYAHLQNFSEDIKVGDVVQPGDVIGAVGASGYGPPGTSGKFPPHLHYGMYQDNGKNEWSFDPYPFLRRWERMAE	PGPT0024030_362	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024030-lytH-K21472	NA	NA
AK012_02391	624			hypothetical protein	ATGAAGATAAAACAAGCAGGCACTGCCCTTCTCCTTATCGGTCTTCTTGCCGGATGCCAGGAGACGAAGGAAGAAGAAGCGCAACAGTTAATGGACGGTGATACACTCAGTGGAAATGCCATGGATGGATATAACACAGAACCGAAAGACGGCCAGGTAGGGTATGTACGTTTTGAGAAAAGCCAGCTTGATCAGGATGAGGAAAGGAACCGTCAGATCAAAGTGAATCGAGAACAGATGGCGGATATGATTTCCCGCATGATTCTAAGGTATGATCAGTTTGATGACGTAGCTACAGCTGTCACGGACAATGAAGTGCTGGTGGCCTATAAGCGTGCGGACGACACCGACCGCGGGACAGCCGCAGACATGGTACAGAAAACCGCCTATTCTCTTGTCCCGAGTTTTTACCACGTTTATGTGTCTGATAATCCAGCTTCCTTTGGCGATGTCCAGAGCCTGAGCAACTCCACCGTTTATGATGAAGGATACAACAGTACGATCAGCAGCATTATTAAAAAAATGAAGCAGTCCCCTCAAGGAAAAGTCGATGAAACCAATCCGAATCAGCCGAATGTGGGACCTAATACGAATACAGAAGCTGAGACAGGGATGGAAAATTAG	MKIKQAGTALLLIGLLAGCQETKEEEAQQLMDGDTLSGNAMDGYNTEPKDGQVGYVRFEKSQLDQDEERNRQIKVNREQMADMISRMILRYDQFDDVATAVTDNEVLVAYKRADDTDRGTAADMVQKTAYSLVPSFYHVYVSDNPASFGDVQSLSNSTVYDEGYNSTISSIIKKMKQSPQGKVDETNPNQPNVGPNTNTEAETGMEN				NA	NA	NA	NA	NA
AK012_02392	276	yutD	COG4470	putative protein YutD	GTGGTTGAAATTTCAGGTAAAACGTTTGATATACTGGAGAACCACCAGGAAGGCTTTCAACAGGAAGAAGTGGAAGGCCGCTTCAGCGACATACTAAACAAATACGATTTTATCGTCGGGGACTGGGGATACGGTCAGCTCCGTCTTAAGGGGTTTTATGATGATCAGAATTCCAAGGCAACCTTCGACACGAAAATCAGCACATTGGAAGATTACTTATATGAATACTGCAATTTTGGCTGTGCTTATTTTGTTCTTAAACGAATTCGACAGTAA	MVEISGKTFDILENHQEGFQQEEVEGRFSDILNKYDFIVGDWGYGQLRLKGFYDDQNSKATFDTKISTLEDYLYEYCNFGCAYFVLKRIRQ				NA	NA	NA	NA	NA
AK012_02393	291			hypothetical protein	ATGAGTGACAAGAAAAAGAAAAACTATTCCGACTTTGCCAACGTTGAAGCCCAGCGGAATTATCTCGTTCCAGAACAGCTTCCTGAAGGGGCCTATGGTTCCCCGCGGAATAAGCATGAGCCTGTCTCCAACGAAAAAAGCTCACCCTGGACAGATAAACAAAGATATTACAGTGCGTTTAACTATGAATACAAGTCCCTTCATGAGGATCTGCCCCGTCAGGAGGATGGAGCCCATCCCCTGCACGACGAATCGAATGCCGACATTAAACCCTCACAGGAAGACCATTAA	MSDKKKKNYSDFANVEAQRNYLVPEQLPEGAYGSPRNKHEPVSNEKSSPWTDKQRYYSAFNYEYKSLHEDLPRQEDGAHPLHDESNADIKPSQEDH				NA	NA	NA	NA	NA
AK012_02394	267			hypothetical protein	ATGTACCAACGCCCATTACTAGAAGATGTCACACAGGATACGAGCACACGATTCGTTTCGTTTACAGCAGGCAGCCATCGATTTGAGCTTGCCATTATGAAAGCTGAGTATTTCAAGAATCAATCGCTTGTCATCAATCTCCCTAAAAACAGGCAGGGGCTGCTGGATGAAGAGAACATCAACAAAGATGGGTATCTGGAGCATTTATTTCAGCTGAGTACCATGGAAGCTGAAGAGCTGAGGAACTATCTCCCGTATCTTCTGTAG	MYQRPLLEDVTQDTSTRFVSFTAGSHRFELAIMKAEYFKNQSLVINLPKNRQGLLDEENINKDGYLEHLFQLSTMEAEELRNYLPYLL				NA	NA	NA	NA	NA
AK012_02395	456			hypothetical protein	ATGTATTTTGTGGATCGGGAAAAGATCGAAAAGATTTTATCTTATATGGAAACCATACAAGCGGAAGTGAAAAAGCAGGGATTTTTTTCTTTCAGAGAGAAACTTGTGCTGGAACGTTTGACCCATCTCACTGTCGAGGCCTTTCTGGATGTGGGCAATATGATGATTGATGGGTTTATTATGCGCGATCCCGGCAGTTATGATGATATGATCGATATACTACTGGACGAAAAGGTTCTTCCTGCTGAAGAGGAGGAAGCGTTCAAACAGTTCATCCAGCTGCGGAAAATGATTGTCCATGAGTATACAGAAGTGGATCATACAGCCGTGGCAGAGGCGTGGACGACATACCAGGAGGCCCTGGAAGCTTTCCCGGAGCGGATCCGCACGTATCTCGACCAGGAACTCGGTCCTGTTTCCGCCTTTTCAAAAGATAATACGAAAGGGGAAGCGTAA	MYFVDREKIEKILSYMETIQAEVKKQGFFSFREKLVLERLTHLTVEAFLDVGNMMIDGFIMRDPGSYDDMIDILLDEKVLPAEEEEAFKQFIQLRKMIVHEYTEVDHTAVAEAWTTYQEALEAFPERIRTYLDQELGPVSAFSKDNTKGEA				NA	NA	NA	NA	NA
AK012_02396	777	yutF	COG0647	Acid sugar phosphatase	ATGAAACATTACCAGGGATACCTGGTGGATCTGGATGGGACGATGTACAAAGGAGAAGCGGCCGTTGACGGCGCCTCCCACTTCATCGACCATCTCACCGGCCTTCAGGTGCCTTTTTTATTTCTGACTAATAACTCCTCCCGGACGCAGGAGCAGATTGCAGCTAAATTGAACAACCTCGGGGTGAAAGCCCGTTCTGATCAAGTCTATACCAGCAGTTTAGCGACAGCTGACTTCATCAGGGAAAAGAAGCAGCACGCACGTATCTATGTCATCGGAGAGGAAGGGCTTCATAAGGCTCTAACAGACCGGGGGCATGTACTTGTTGAGGAGGACGCAGACTTTGTAGTGATTGGCATTGACAGGGAAATTTCCTATGCCAAGCTTGCCCGGGCCTGTCTGGAAGTGCGGAAAGGGGCCGGTTTTGTGAGTACGAACAGTGATACAGCCATCCCGACGGACAAGGGGATGCTCCCTGGAAATGGAGCTCTGACCAGTGTGATCGCTGTCAGTACAGGGGTAGAACCGATTTTTGTCGGCAAGCCGGAGCCGGTCATTATGGAAAGGGCACTTAAGGAGCTGAACCTCCGGAAAGAGGATGTATTGATGGTGGGAGACAACTATCACACAGATATTCTTGCCGGGATGAAGGCAGGGGTGGACACTTTGATGGTGGAAACCGGACTGAGCTCTTTTCATGAAATTGAAGATCATGCTCATCAGCCCACCTATAAGAAGCTGAACTTACATGAATGGGTAACAGAGTATCATCGATAA	MKHYQGYLVDLDGTMYKGEAAVDGASHFIDHLTGLQVPFLFLTNNSSRTQEQIAAKLNNLGVKARSDQVYTSSLATADFIREKKQHARIYVIGEEGLHKALTDRGHVLVEEDADFVVIGIDREISYAKLARACLEVRKGAGFVSTNSDTAIPTDKGMLPGNGALTSVIAVSTGVEPIFVGKPEPVIMERALKELNLRKEDVLMVGDNYHTDILAGMKAGVDTLMVETGLSSFHEIEDHAHQPTYKKLNLHEWVTEYHR	PGPT0005420_603	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AROMATIC|PHENOLIC_COMPOUND_UTILIZATION	PLANT_DERIVED_NITROPHENYLPHOSPHATE_DEGRADATION,PGPT0005420-nagD|yutF-K01101	NA	NA
AK012_02397	1560			hypothetical protein	TTGAAGACGCTACGTCCAAAACTCGTATGGATCCTGCCGCTGCTGATCATCACAGCTGGAATTCTGCTTTTATTTTATGAGAATTATCAGGAAGTAACGGAACCTGCCGATCAGGACTGGAGCAGGGATTGGGAGATCGGGGAAACAACGGCTGTTAAGCAGCCCCATATCCAGAAAACAGACGAAGGCATACAAATCTCTTACCTCACGGAAAGCGGAATTACCCGTCATACATATGATAACGACTACACTGAAACGGATGTGCAGCAGTACGCCATCCCCGTAGATACGTTTACAAGCTTTTACCTGGAAAATGACGCCCTCCTCTACTCGGATTACTACAGCTTATACCGCGGGGATACAGAGGAAAAAATCATGGACATCGATGGGTTTATTCCTATGTCTACTGCTGCACTTTACCAGAAGGGGGATACCCTTTACGCTATTGATCCTTCCAATTACGAAAGCAGTGAGCTGATGACACTGGCATCCGTTGATTCTACAGTGAAAACGGCCGAGACAGAAGAAGGCGCTTACCTTATGGAGGAGTATACCGACGGGGAAGGTCGTCAGCTGCACTTCTACGAACACCTGGATAATCAGGTTGAAAAGATAGGGGAAGCCACTTTCCTGCCTTCCGGCTCTGAGAGTATCAAGGACATCCAGTTTACGATGCAGGGCAATGAAGCATCTGTCCTTATTTCGACAGTCCAGAAACAATCGGCTTCCGGGCAGATGGAAAACCATTACTATTACGGCACCACTACATTTCAAAATGCTTTAAAGACCACCAGGCTTTCGTTCACCGACCCTGTTTCTGCGCAGCCGCTTAGAGAAGTGTCCGATATGAGTCTTCACCCTCAGAAAGACGGAGCCTCCCTTCTGTTTAAAGCGGTTGGGGCCACCAATACAAGATTTGGTGAAAGCAGCCAGTTTAACATTTATAAAGCGCATCTCGGTACATCCGGCGTTGGGGAAGTCACACGGATCAGCAACACGCCGGATCTTTCCACCCACCCGGTCCAAACCAATGATGGGAGTGTAGTATGGGTTGATAAAGGCGGAGACAGCCACAAACTTCTCCTCTCTTCCCAGAACCCTGAAATCATTGAGAAGGCGGACACATGGAACACCCGTGTTCTTTTAGGGGCCCTTGGAAAGACGATGGGGATGCTTTCCTACAGCTTTTTCGGCCTGCTCATCATGACCTTCTGGTACATCTGGCCTCTTTTGTTTCTTGTTATTCTTCTATTTGTGAAGAGGGATGCCCTGGACCAGGACAGAACCTGGATCCTTCTGTCCGGGATCGTCATCTATCTGGCAGCCGCCATTATCGTCCGCAGCCCTTTATTTTCCGAAAAACTGCTCGCCCGGGCTCCGGATTATTTAAGTTTTCCCGGCAGTCCCATTATCTTCATTCTAGGGTTCGCCCTGATTGCTTTTGGAATTATGAAAACCGGCGCAAAACTGAGAGATTGGTCAATCCCTATACAGATCACCTATTTCATCGGGGTGCATGTCGCATTGATCACCATTTTCTTCGGTCCTTATGTGCTGTAA	MKTLRPKLVWILPLLIITAGILLLFYENYQEVTEPADQDWSRDWEIGETTAVKQPHIQKTDEGIQISYLTESGITRHTYDNDYTETDVQQYAIPVDTFTSFYLENDALLYSDYYSLYRGDTEEKIMDIDGFIPMSTAALYQKGDTLYAIDPSNYESSELMTLASVDSTVKTAETEEGAYLMEEYTDGEGRQLHFYEHLDNQVEKIGEATFLPSGSESIKDIQFTMQGNEASVLISTVQKQSASGQMENHYYYGTTTFQNALKTTRLSFTDPVSAQPLREVSDMSLHPQKDGASLLFKAVGATNTRFGESSQFNIYKAHLGTSGVGEVTRISNTPDLSTHPVQTNDGSVVWVDKGGDSHKLLLSSQNPEIIEKADTWNTRVLLGALGKTMGMLSYSFFGLLIMTFWYIWPLLFLVILLFVKRDALDQDRTWILLSGIVIYLAAAIIVRSPLFSEKLLARAPDYLSFPGSPIIFILGFALIAFGIMKTGAKLRDWSIPIQITYFIGVHVALITIFFGPYVL				NA	NA	NA	NA	NA
AK012_02398	513	ypjQ	COG1267	putative protein YpjQ	ATGGCAAATGAAAAGAAAGTATCCAGTCTTGAAAAGACAGCACGGGAATGGCTGACAGAAAGAGGAGTTACGATTGACGATATCGCCGATCTTGTCTATTATCTGCAGTCGAAATACCATGATGACTTATCGATGGATGAGTGCCGGTTCAATGTAAATAAGGTGCTCACAAAACGGGAAGTCCAGAATGCCGTCATCACAGGAATCGAGATGGACCGGCTGGCAGAAAAGAAAATGCTGACAGAGCCGCTTCAATCGACCATTGAAGTCGATGAAAGCTTGTATGGGATCGACGAAATCATTGCCTTTTCCATCGTCAATGTGTATGGCTCCATTGGTTTTACCAACTACGGTTATATTGATAAGCAGAAACCTGGAATTCTCCAGAAACTGAATGATAAATCCTCCGGCGAATGCCACACATTCCTCGATGATATTGTTGGAGCCATTGCTGCGGCAGCTTCAAGCCGTCTTGCTCACAGCATTGAAGGCGACGACGAAGATGATGAATAA	MANEKKVSSLEKTAREWLTERGVTIDDIADLVYYLQSKYHDDLSMDECRFNVNKVLTKREVQNAVITGIEMDRLAEKKMLTEPLQSTIEVDESLYGIDEIIAFSIVNVYGSIGFTNYGYIDKQKPGILQKLNDKSSGECHTFLDDIVGAIAAAASSRLAHSIEGDDEDDE	PGPT0007710_785	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATASE_ACTIVITY,PGPT0007710-pgpA-K01095	NA	NA
AK012_02399	969	ghrB	COG1052	Glyoxylate/hydroxypyruvate reductase B	ATGGGGAAACCGTCAATTTTTATTACCCGCCGTCTGCCGGCGGAAGTTGTGGAACCTTATCAGGAGCAGTTGGATATCGAGATGTGGCCCGAAGAGGCTGAAGCCGTCGACCGGGGAACGCTTTTAGAAAAGGCGGGCCAGGTAGACGGCCTTGTAACGATGCTGACCGATCGTGTGGACCAGGAACTTCTGGACGCCGGCAGTCGTCTTGGGATCGTAGCTAATATGGCTGTTGGATATGATAATGTGGATGTGAAAGCTGCAGAGAGCGTCGGAACCGTCATTACAAACACTCCGGATGTTTTGACAGAAACGACGGCGGATTTGACATTCAGTCTCCTCATGGCAGCCGCGCGACGGATTGTGGAGGCAGGAAACTACATTAAAGAGGACGCCTGGAACCACTGGTCTCCCCTGCTGCTTGCCGGAACCGATGTGCACCATAAAACCATCGGCATCGTCGGTATGGGGCGGATTGGAGAAGCTGTCGCCCGGAGAGCCAAAGGTTTTCAAATGGATGTCCTTTACCATAACCGCTCCAGGAAAGAGGATGTGGAACAAGACATCGGTGCACGGTATGCATCATTTGATGAGCTGTTGAAAAACGCAGATTATGTGGTCAGTCTGGCACCGCTCACGGATGAAACCCACCACATGTTCAACGCGGAGGCCTTTCAGAAAATGAAGGACACGGCGATCTTTATCAACGCATCGCGGGGAGCGCTGATGGATGAAAAGGCACTGGAAAAAGCGTTGGAGGAACAGCAGATTGCCGGAGCGGGCCTTGATGTATTCGAACAAGAGCCGATCAGAGCCGACCACCCGCTTGTTTCCATACCGGGTGTTGTCTGTCTTCCTCACATTGGATCAGCGACAAAGGAAACCCGCTATAAGATGATGCGCCTCTGCCTGGATAATATTGTCCGCTATTTTGAAGAAAAACCGCTGCTCAGCCCGGTATCCCAATAA	MGKPSIFITRRLPAEVVEPYQEQLDIEMWPEEAEAVDRGTLLEKAGQVDGLVTMLTDRVDQELLDAGSRLGIVANMAVGYDNVDVKAAESVGTVITNTPDVLTETTADLTFSLLMAAARRIVEAGNYIKEDAWNHWSPLLLAGTDVHHKTIGIVGMGRIGEAVARRAKGFQMDVLYHNRSRKEDVEQDIGARYASFDELLKNADYVVSLAPLTDETHHMFNAEAFQKMKDTAIFINASRGALMDEKALEKALEEQQIAGAGLDVFEQEPIRADHPLVSIPGVVCLPHIGSATKETRYKMMRLCLDNIVRYFEEKPLLSPVSQ	PGPT0019780_1096	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_OXALIC_ACID_DERIVATE_UTILIZATION,PGPT0019780-gyaR-K00015	NA	NA
AK012_02400	222	nfuA		Fe/S biogenesis protein NfuA	ATGCATGAACAGGTTCAAGAAGTACTAAACAAACTTCGCCCATTTTTACTTCGTGACGGTGGAGACGTTGAGCTGGTAGATGTAGAGGACGGTATTGTACGTCTGCGTCTTATGGGTGCCTGCGGGAACTGCCCAAGTTCAACCATCACTTTGAAAGCGGGTATTGAGCGTGCGCTTTCTCAGGAGATCCCTGGCATTTATGAAGTGGAGCAGGTTTTCTAA	MHEQVQEVLNKLRPFLLRDGGDVELVDVEDGIVRLRLMGACGNCPSSTITLKAGIERALSQEIPGIYEVEQVF	PGPT0012225_450	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
AK012_02401	336			hypothetical protein	ATGAATCAACCGGTCATTCGCGTTTATGTATACGGGGCAGAAGTGAAATGTGCGAGCTGTGTGAACGCCCCCGGCTCTAAAGAGACCTTTGAGTGGCTGGAAGCAGCCTTGACAAGGAAATACGGAGAAAAGAGCCTGCAGTTTACTTATTATGATATCCATACGGAGAATCAGGAAGGTGTGGATATGGCCATTGTTCAGCAGCTGTTGGATGATGAACTTTTCTACCCGCTTGTCCTTGTGGAAGACCGTATCGTAGCGGAAGGGAACCCGAGGCTGAAGGCCATTTGCAAATCTCTGGAAGAACACGGCCTTCAACAGGTAAGTAATTCCTAA	MNQPVIRVYVYGAEVKCASCVNAPGSKETFEWLEAALTRKYGEKSLQFTYYDIHTENQEGVDMAIVQQLLDDELFYPLVLVEDRIVAEGNPRLKAICKSLEEHGLQQVSNS				NA	NA	NA	NA	NA
AK012_02402	231			hypothetical protein	ATGAATCCATTAATTGAATTCTGCATCAATAATTTAGCCGACGGTTCCCAAAAAGCGAAGGACGAACTGGAAAAAGATCCGGACCTTGATGTGATGGACTACGGCTGTCTGAGAAACTGCGGTCTTTGTTCACAGACCAACTATGCGCTTGTTGAAGGAGAACGTGTCATTGCCGATTCACCTGAAGAGCTCGTCGATAAAATTTATCAACACTTGGATGAAACCCTGTAA	MNPLIEFCINNLADGSQKAKDELEKDPDLDVMDYGCLRNCGLCSQTNYALVEGERVIADSPEELVDKIYQHLDETL				NA	NA	NA	NA	NA
AK012_02403	360	erpA	COG0316	Iron-sulfur cluster insertion protein ErpA	ATGATTTTAAACATCACAGAAGCTGCGGGTCATCAGATCAAAGAAATGATGAAGGAAGAAGAAGGAGATGTCCGTCTCCGTTTCGGTGTGAAAGGCGGCGGCTGCAGTGGGTTGTCATATGCGATGGGCTTCGAGGATGACATCAATGAAGAACTTGATCTTCTTGAAGACTCCGGCGGTATTCCGATTGTCATCAACCGCCAGGATGCGGCGATTGTAGAAGGCACGACCATTGACTTCAAACAGAATATGATGGGCGGAGGCTTCACGATCGACAATCCGAACGCCATCGTTTCCTGTGGCTGTGGGTCTTCCTTTAAAACGGCGACAAACGCTGGAACACCAGATCCGAACTGCTGA	MILNITEAAGHQIKEMMKEEEGDVRLRFGVKGGGCSGLSYAMGFEDDINEELDLLEDSGGIPIVINRQDAAIVEGTTIDFKQNMMGGGFTIDNPNAIVSCGCGSSFKTATNAGTPDPNC				NA	NA	NA	NA	NA
AK012_02404	987	yumC	COG0492	Ferredoxin--NADP reductase 2	ATGAGCGATAAAATATACGATATTACAGTCATCGGCGGCGGTCCTGTCGGTCTGTTCACAGCTTTTTACGGTGGAATGCGTGAAGCGAGTGTCAAAATCATTGAAAGCCTCCCGCACCTCGGCGGACAGCTGACCGCCCTTTATCCGGAGAAATATATATTTGACGTGGCCGGTTTTCCTAAAGTCCGTGCCCAGGAACTGATTGACAACCTGGAAGAACAGGCAATGGCTTTCAATCCCACCATCGCCCTTGAGGAGGAAGTCATCCATGTGGAACGAATGGAAGATGAGTCATTAAAACTGACCACGAACAAAGACGTCCACTACACGAAAACCGTGATTGTCACAGCCGGAAACGGAGCCTTCCAGCCACGCAAGCTTAAAGTGGCCGACTCCGAGCGGTTTGAAGATACCAACCTGCATTATCACGTCAGCAACATGGATAATTTCCGTGATAAAAACGTGATGATTGCCGGAGGCGGAGATTCAGCTGTAGACTGGGCCCTTATGCTGGAGCCGATTGCCAAACAGGTCACACTCGTCCACCGCAGGGATAAATTCAGAGCTCATGAACACAGTGTGTCCCAGTTGAATGAATCCAACGTCAACGTCATGACACCATTCACACCTGAGCAGTTTATCGGAGACGAACGGATTGAAAAAGTCGAGCTTCAGGAAGTCAAGGGAGACCGGACAGAGACGATTGATGTTGACGATGTCATCGTCAATTACGGGTTTATTTCCTCCCTTGGTCCAATCAAGGATTGGGAGCTTGAGATCGAAAAGAACAGCATTGTCGTTAATTCCAAAATGGAAACGAATATTAAAGGCATCTATGCGGCTGGAGATATCTGCACCTATCCAGGCAAAGTAAAACTGATTGCTTCTGGTTTTGGGGAAGGTCCTACTGCCGTTAACAACGCGAAAGCCTATATAGACCCGGGAGCACGCGTGCAGCCGAAACACTCGACAAGCATGTTCTCTTAA	MSDKIYDITVIGGGPVGLFTAFYGGMREASVKIIESLPHLGGQLTALYPEKYIFDVAGFPKVRAQELIDNLEEQAMAFNPTIALEEEVIHVERMEDESLKLTTNKDVHYTKTVIVTAGNGAFQPRKLKVADSERFEDTNLHYHVSNMDNFRDKNVMIAGGGDSAVDWALMLEPIAKQVTLVHRRDKFRAHEHSVSQLNESNVNVMTPFTPEQFIGDERIEKVELQEVKGDRTETIDVDDVIVNYGFISSLGPIKDWELEIEKNSIVVNSKMETNIKGIYAAGDICTYPGKVKLIASGFGEGPTAVNNAKAYIDPGARVQPKHSTSMFS	PGPT0013060_2097	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK012_02405	1224		COG1252	NADH dehydrogenase-like protein	ATGAAGAATCCGAACATTGTCATTATCGGTGCCGGTTACGGGGGCATCATGACAGCCGTCAAACTTCAGAAGAGCCTTGGAGCAAACGATGCGAACATAACGCTGGTGAACAAGCACAGCTACCACTACCAAACAACATGGCTGCATGAAAACGCAGCAGGTACGCTTCACCATGACCGCACACGTATTGCCATCAAAGATGTTGTGGACACAAGCAAAGTCAACTTCATCCAAGATACAGTTACAGACATTAAAGCTGCCGATAAAAAGGTGATCCTGGAAGACGGCGAGCTATCTTATGACTATCTTGTGATTGGTCTTGGATTTGAATCAGCTACGTTTGGTATTCCTGGACTTAAAGAGCATGCTTATACGATTAACAGCATCAACAGTTCCCGTCTGATCCGCCAGCACATTGAATACAACTTCGCAAAGTATAACAACGAGCCTGAAAAACAACAGAAGCGCCTGAACATTGTTGTCGGCGGTGCCGGCTTTACAGGTATTGAATTTGTTGGTGAACTGGCAAACCGTATCCCTGAATTATGCAAGGAATACGATGTTCCACGTGACAAAGTACGTATTATCAACGTAGAGGCTGCACCGACAGCTCTTCCAGGATTCGATCCTGAACTTGTTGAATATGCGATGAATTCTTTGGAAGCGCGCGGTGTTGAGTTTAAGATTGGCGCAATGATCAAAGAAGTAACCGAAAACAAATTGGTTTTCGAAAAAGACGAACAGCGTGAAGAAATCGATACAAACACAGTCGTATGGGCGGCTGGTGTACGCGGGAACTCGCTTGTTGAAGAAGCAGGCTTTGAAGCGAACCGTGGACGTATCCCTGTACGCAAGGACCTTCGTCCGGAAGGCTATGATGATGTATTCATCGTAGGGGACTGTGCTCTTATTATGAACGAAGAAACAGAGCGTCCTTACCCGCCGACTGCGCAAATTGCGATTCAGGAAGCTGAGCACACAGCGAAAAACCTCGCTCGTCTCGTAAAAGGTGAAGACCACCTTGAGCCATTCAAGCCTAACATTCAAGGTACAGTTGCTTCCCTTGGGCACAACGATGCCATCGGTGTAGTCTTTGATGATAAGAAACTCTTCGGCTGGTCAGCTACTGCCATGAAGAAAGTCATCGATAACCGCTACCTTCTGAAATTAGGCGGTCTTCCGCTCGTTCTCAAGAAAGGGAAGTTGAACTTCTTTAACTTCTAA	MKNPNIVIIGAGYGGIMTAVKLQKSLGANDANITLVNKHSYHYQTTWLHENAAGTLHHDRTRIAIKDVVDTSKVNFIQDTVTDIKAADKKVILEDGELSYDYLVIGLGFESATFGIPGLKEHAYTINSINSSRLIRQHIEYNFAKYNNEPEKQQKRLNIVVGGAGFTGIEFVGELANRIPELCKEYDVPRDKVRIINVEAAPTALPGFDPELVEYAMNSLEARGVEFKIGAMIKEVTENKLVFEKDEQREEIDTNTVVWAAGVRGNSLVEEAGFEANRGRIPVRKDLRPEGYDDVFIVGDCALIMNEETERPYPPTAQIAIQEAEHTAKNLARLVKGEDHLEPFKPNIQGTVASLGHNDAIGVVFDDKKLFGWSATAMKKVIDNRYLLKLGGLPLVLKKGKLNFFNF	PGPT0004020_4232	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
AK012_02406	318			hypothetical protein	TTGAATATTGTCCAATTTGCTGTATCCATTCTCTTGTTTTTTGTATTGTTTTTCGGGATTTCCTTTCTATTAAATATGATTTTGCGCTCTTCCTGGATCATGTCCTTCGTTTATCCTGTCATTGTGCTGTTCATCGTGGATAACTTTCCTTGGACGGAATATTTTTCGCAGCCGGGCACAGCCTTTCCTGCTGTGTTTAAACAGCTCGGACGACTCGGTATCGTGGACGTTGTTATACTGGCCAGTGGTTTTGTCGGAACCATTGCTGCTGGAATCGTCATTAAGAAATTAAGGAAAAGCGGTTATCAAATGTTTTAA	MNIVQFAVSILLFFVLFFGISFLLNMILRSSWIMSFVYPVIVLFIVDNFPWTEYFSQPGTAFPAVFKQLGRLGIVDVVILASGFVGTIAAGIVIKKLRKSGYQMF				NA	NA	NA	NA	NA
AK012_02407	624	yuiC	COG3584	putative protein YuiC	ATGTTTCCAAGACGTATGAAAAGATGGCTTCTTCCTTTTTTATTCGCAGGGGCTGTAGTAAGTACGGCCTCGTACGTGACCAATCTATCTCTATTTGATCTAGGAGAATGGATGACAGCTGAACTAAAAAACAAGGACAGGGAACAAGAGCCTGCCCCCCTTGTGAAAAGCGCCGTCATGGAGGCTGTCGAGACGTTGGAGCAGTCGATTGATTTGTCCCGGTATCAAAGCCGGGAAGTTACAGCTACAGGCTACACAGCCGGCTATGAATCAACAGGAAAAACGCCGGAACATCCGGCTTACGGCATTACCTTTTCAGGGGTTAACGTAACGAGGGATCTCTATTCCACCATCGCTGCTGATCTAAGTGTTTTTCCTCTAGGAACAATCCTTTTCATCCCGGGGTACGGGTATGGTGTGGTGGCTGATATCGGTGGTGCAATTAAGGGGGACGAGCTTGACCTTTACTTTTCCAGTGTGGAGGATGTGTATGATCAATGGGGGAAAAGAACGTTGGACGTGTACGTAATTAAAGAGGGAGAAGGACAGCTGACGGAAGGAGAGCTGGCCGCTCTGAATGAAAATGAAGCCCAGCAGGTGTTTCGGTCTGAAATCAAACAATAA	MFPRRMKRWLLPFLFAGAVVSTASYVTNLSLFDLGEWMTAELKNKDREQEPAPLVKSAVMEAVETLEQSIDLSRYQSREVTATGYTAGYESTGKTPEHPAYGITFSGVNVTRDLYSTIAADLSVFPLGTILFIPGYGYGVVADIGGAIKGDELDLYFSSVEDVYDQWGKRTLDVYVIKEGEGQLTEGELAALNENEAQQVFRSEIKQ	PGPT0025263_54	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025263-spsC-NA	NA	NA
AK012_02408	483			hypothetical protein	ATGCTTTTAGATTTACTGCAGAATTTCCCCCTGTGGGCCTCCATCGCTGCCATCGTTTTTGCCCAGGCAGTAAAAGTCCCTATCCAATTTATTGCTTCCAGACAGTTCAATGCAAGTCTAGCCTTCAGTACAGGCGGGATGCCGAGCAGCCACTCCGCTGCTGTAACGGCCCTGGCGACGGGCGTAGGGGTTGAACAGGGCTTCGGCTCATCCATTTTCGCTGTCGCCTGTGTTTTTTCCATCATCGTCATGTTTGACAGCACAGGTGTCCGACGGCAGACAGGGGAGCAGGCCATCATGTTGAACATATTATTGAATGACTTCAACCGCTTCGTCAGTGAAGCGAAAAGCTGGCAGCAAAAAGAAGGGTATCAGAAGAAAGAGGAATTGAAAGAACTGCTCGGTCACCAGCCTATCGAAGTATTCTTCGGGGGACTGACAGGTGTTCTGCTTACGTTCCTGCTTCATTCTCTGATCTATTAA	MLLDLLQNFPLWASIAAIVFAQAVKVPIQFIASRQFNASLAFSTGGMPSSHSAAVTALATGVGVEQGFGSSIFAVACVFSIIVMFDSTGVRRQTGEQAIMLNILLNDFNRFVSEAKSWQQKEGYQKKEELKELLGHQPIEVFFGGLTGVLLTFLLHSLIY	PGPT0024535_479	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0024535-yuiD-K09775	NA	NA
AK012_02409	1476	pepA	COG0260	Cytosol aminopeptidase	ATGTTCACAGTAACAGAGAAGTGGAAACCGGAAGATCCTCTGGTCATAGGGGTATTCGCGGACGAGGATCAGACCAGCCTGCTCAAACAACTGAATGAATCAGCAGGGTTACATACGCCGGAGTATTTGGAGAGAGGCCTTGCCCGACTTTCTCAAGGTCGTGTGGAAAATGTCATTCTTCCGTATGAAAATCAGATGGTCCGGGTCATCTGTATCGGTCTTGGGACCAGGTCGATGGCTGCAAAAGCAGAGAGTAGAAAGCTGTGGGGACAGGCTTTTCAACAGATTCAGGCCCAAGGAATAGAAAGGTGTACCCTTTTTCTGGATACTCTCATTCCGGATGACGAGAAATATAAAGAGTGGATGACGTTGTTAGGAGAAACGATCTATTTAGCCACTTATAAGCTGGAAAATTATAAAACCGCCCCTGTAGAGGAACAACGACTGAAAAGTATCCAATTGTTTTCTGATTCATTTGATGCAGCGTCTGTGGAAAAGGCATTCACGGAAGGGACGGCTTATGCAGAAGGAGCGAATACAGCGAGAAATCTTGTTCACCTTCCCGCCAACATCCTTACTGCATCAGAGCTCGCCGCGCATGCCCTTAAAATGGCAGGACGCTTTGGGTTCGATGCCCGGATTCTTGAGAAGCAGGATATGGAGGAGCTGGGGATGGGCGCACTCCTCGCTGTCAACCAAGGTTCTGTAGAGCCGCCAAAGCTGATTGTTCTCAAGTATCAAGGACTGGAGGAGTGGAGGGATGTAACCGCTCTTGTAGGCAAAGGCATTACGTACGATACCGGGGGCTATTCAATCAAATCCAAAACAGGTATGCCGGGTATGAAAGGGGATATGGGAGGCGCTGCTGCTGTTCTGGGAGCTATGGAAACCATTGGCCGCATCAAGCCCGAAAAAAATGTCCTGGCTGTGATTCCGTCCACGGATAATATGATAGCAGGCGGGGCGTTTAAACCGGATGACGTCCTTACTTCCATGAGCGGACAGACCATCGAAGTATTGAATACCGATGCCGAAGGACGGCTGGCACTGGCCGATGCGGTCACTTACGCCCGCACAGAAGGGGCGGACAGAGTCATCGATGTGGCCACACTTACCGGCGGGGTTGTCACGGCACTGGGATCCTGGATGACGGGTGCCATGACCAACGATGCATCGTTTTATAAACAAATTGAAAACGCCGGGCAGGAGAAAGGGGAACCGATCTGGCTGCTGCCCTATAATGAGGATTATAAAGCACAGGTGAGAAAGAGCAGTATCGCTGATTTGAATAATTCTCCAACACGCAAAGCTCATGCCATAATGGGCGGCGCTTTTGTCGGGGCATTTGCAGAAGGTGTGCCATGGGTCCACCTGGATATCGCCGGAACGTCTACAGCAGAAACTTCCCACGCCTTAGGACCTAAAGGCCCTACAGGAGTCATGGCAAGGACGCTTGCCTATTATGTGAATCAATAG	MFTVTEKWKPEDPLVIGVFADEDQTSLLKQLNESAGLHTPEYLERGLARLSQGRVENVILPYENQMVRVICIGLGTRSMAAKAESRKLWGQAFQQIQAQGIERCTLFLDTLIPDDEKYKEWMTLLGETIYLATYKLENYKTAPVEEQRLKSIQLFSDSFDAASVEKAFTEGTAYAEGANTARNLVHLPANILTASELAAHALKMAGRFGFDARILEKQDMEELGMGALLAVNQGSVEPPKLIVLKYQGLEEWRDVTALVGKGITYDTGGYSIKSKTGMPGMKGDMGGAAAVLGAMETIGRIKPEKNVLAVIPSTDNMIAGGAFKPDDVLTSMSGQTIEVLNTDAEGRLALADAVTYARTEGADRVIDVATLTGGVVTALGSWMTGAMTNDASFYKQIENAGQEKGEPIWLLPYNEDYKAQVRKSSIADLNNSPTRKAHAIMGGAFVGAFAEGVPWVHLDIAGTSTAETSHALGPKGPTGVMARTLAYYVNQ				NA	NA	NA	NA	NA
AK012_02410	711	deoD		Purine nucleoside phosphorylase DeoD-type	ATGACAACACATATTGGAGCACAACAAGGAGATATCGCGGATAAGATTCTACTCCCAGGAGATCCACTCCGCGCCAAATACATTGCCGAAAACTTCCTGGAGGATGCCGTCTGCTATAACGAAGTACGCGGAATGTACGGATACACAGGTACATATAAAGGAGAGCGCATTTCCGTTCAAGGAACTGGAATGGGTGTACCTTCCATCTCCATTTACGTCAATGAATTGATGGAAAGCTATGGCGTTCAAAAATTGATCCGCGTCGGCTCATGCGGGGCGCTGCAAAATGACGTAAACGTACGTGACGTTATTCTTGCCTCCACATCTACGACAGATTCCCAGATGAACCGCATGGTATTCGGCGGCATTGATTATGCACCGACCGCTGATTTCAGCCTGTTGAAAAACGCGTATGATGCCGGTACGGCGAAAGGGCTTGATTTAAAAGTCGGAAACGTCTTTACAAGCGACAGTTTCTACCGTGACAATGCCATGGATCTATTCAACCTGCTTGCAGACTACAATGTGCTTGCAGTAGAAATGGAAACCACTGCCCTTTATACGCTTGCAGCAAAATACAATCGTCAGGCGCTGTCTGTTCTTACCGTAAGTGATCACATTCTTACCGGAGAAGAAACGACGGCCCAGGAACGTCAGACGACCTTTAACGAAATGATCGAAGTGGCTCTGGAAGCAGCCATTCAGGACTAA	MTTHIGAQQGDIADKILLPGDPLRAKYIAENFLEDAVCYNEVRGMYGYTGTYKGERISVQGTGMGVPSISIYVNELMESYGVQKLIRVGSCGALQNDVNVRDVILASTSTTDSQMNRMVFGGIDYAPTADFSLLKNAYDAGTAKGLDLKVGNVFTSDSFYRDNAMDLFNLLADYNVLAVEMETTALYTLAAKYNRQALSVLTVSDHILTGEETTAQERQTTFNEMIEVALEAAIQD	PGPT0013385_933	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013385-deoD-K03784	NA	NA
AK012_02411	384	kapB		Kinase-associated lipoprotein B	ATGTCTGATATTCAAATCGGCTCTATAGTGAAAGCGCATTATAAAACAGGCATATACATCGGAGAAGTGAAAGAGGACCGGGGGAAGTTTTATCTGGTTCAAATGCTCGCCGTCGACAAACACCCGATGCAGGGGGATCTTCACAATCCTGGTCAGACAGAAAATGTTTTTTTCCATCAGCGGAAAGCGTTGAGTTATCTTGAAAAAGCCAACGTTCAGAAAGAAGCGGTCCACCCTTATGAAGAGACAGAAATACCGGATTATAATGATTCTCTCAAACAATCCGTCGAAAAGCTGAAACAAAAATTAAATCGCCGGGATACCGATTTTAACAGCCATGCCGCAGATCAGCTGAGTGATCTCGAAAAACAGTATTTCGGGTGA	MSDIQIGSIVKAHYKTGIYIGEVKEDRGKFYLVQMLAVDKHPMQGDLHNPGQTENVFFHQRKALSYLEKANVQKEAVHPYEETEIPDYNDSLKQSVEKLKQKLNRRDTDFNSHAADQLSDLEKQYFG	PGPT0025295_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025295-kapB-K06347	NA	NA
AK012_02412	195			hypothetical protein	ATGATGGAATTTTTGTATTTTCCAGAAGATAAGTCTGAATATATTCCTGCTGTCCTGATGCTTCTGCTGTTCATTGTTGCTGCAGCGGTTACCATGATCTGGATTATTAAAGCTTCTCAAAAAGAAGAGCATACATTTGATCAGAACTACTCCATAAATGAACAGAAGAATCACGAATCCAAAGAGCCGCATTAG	MMEFLYFPEDKSEYIPAVLMLLLFIVAAAVTMIWIIKASQKEEHTFDQNYSINEQKNHESKEPH				NA	NA	NA	NA	NA
AK012_02413	570			hypothetical protein	ATGAAGCGTGCCCTTATGTTTGCTGGTGCGGTAGCTGTTGTTTTGACGGCCTGTTCCGGAGAAGAAAGATCCCCCCTGGAAACGTCGATGTATAACAAGGATAATGACAAAATCGGGACAGCCGTGTTGACTGAACAGCCTGAAGGCGTTCAGGTGAAACTGAAAGTAGAGGGACTTGAACCGGGCATGCATGGAATCGCGGTTCATGAGTTCCCGAAATGTGAGGCTCCTGAGTTTAAGACGGCGGGGAATCACTTCAACCCAACGTCCAAAGAGCACGGTCTCATGAATCCTAAAGGTGCCCACGTAGGTGATATGCCCAATGTGGAAGCTGATCCAAGCGGCATGATTGACGTGGAAGTCATGCTTCCGCAGGCAAAGTTGAAAGAAAATCAGAAGTCGCTCCTGAGGCAGGAAGGGACCTCCTTAATCATTCAGAGCGGCCCGGATGATGGGATGACCCAGCCGGCGGGCGATGCTGGAGAACGTGTCGCCTGCGGGGTCATTACGTTGGATGCAGACAAGGATGAAACGAGTGACCCGACGGAACCGGATAAACAACAGGAATAA	MKRALMFAGAVAVVLTACSGEERSPLETSMYNKDNDKIGTAVLTEQPEGVQVKLKVEGLEPGMHGIAVHEFPKCEAPEFKTAGNHFNPTSKEHGLMNPKGAHVGDMPNVEADPSGMIDVEVMLPQAKLKENQKSLLRQEGTSLIIQSGPDDGMTQPAGDAGERVACGVITLDADKDETSDPTEPDKQQE	PGPT0013181_938	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_SUPEROXIDE_ANION_RADICALS,PGPT0013181-sodC|sod1-K04565	NA	NA
AK012_02414	1197	patB	COG1168	Cystathionine beta-lyase PatB	ATGGAGGCGAGAACTTTGGAAGAATTCCAGCAATATACCCCAAGAACCGGGACACGCTCGGTCAAATGGGACCTCATTGAAGACTTTTATCAAGATAAAGATGTCCTGCCCATGTGGGTGGCGGATATGGATTTCAAGACACCACAGGCCGTCACAGATGCCCTGACATCAAGGGTCGAGCATGGCATCTTCGGATACACGATCCCCGATCAGGACGTGAAGGAATCCATTACAGCATGGCTCCGTGATCGTCACGGGTGGGAAACAGAAACCGACTGGATCACATTCAGTCCCGGTGTCATCCCCTCCCTGCACATGATCATTCAATCGTTGACAGAGATCGGGGATAACGTCCTCATCCAGACGCCGGTCTACCCTCCTTTTTACAGTGTGGTAAGAGACCACGGCAGACATATCGTCAAAAACCAGCTCCTTTATAAAGAGGACCGGTATGAAATAGACTTCGAGGATTTCGAGAACAAAATCAAGGACAACCATGTTACGATGTTTATCCTCTGCAACCCGCATAATCCTGTCGGCCGTGTCTGGACGAAGCAGGAACTGGAGGAAATGAGCCGGATCTGCAGGAAGCACGGCGTCAAAATCGCAGCAGATGAAATTCACGCGGATTTGATTCTGCCTCCGAACAAACATATACCAATCGCTTCCCTTTCTGAAGAAACGAACCAGCAGACCATTACATGCCTTTCTCCTACGAAGACATTCAATCTTGCAGGGCTTCAGGCATCTTATGTGATGACAGCCAACAAGGAATATAAGGAAAAGCTGGATAAACACTTTAAGAACCAGGGCATGATGATGCTGAACACCCTCGGGATAACAGCTATGGAAGCCGCCTACAAGCATGGATCGGAGTGGCTGGATACGCTGACAGAAGTGCTGAAGGACCACCGCGACTATGTCATCCAGCGACTGGAGAATGAAACAAAGTCTGTACGGGCGCTTCCGATTGAAGGTACGTATCTGTTGTGGATCGACTGTACCCAAATGGGGCTTTCCCAGGCGGAATTGAAATCATTCATGCAGAAAGAAGCGCGCGTCGGATTAAACGATGGAGCGTCCTTCGGCGAAGAAGGCCGTGGATTTATGCGCCTCAATCTGGCAGCACCGATGTCTACACTGGAAGAAGGCGTCACACGTATCATCCATGCGGTGCAGGCATTCGAACAATCCTAA	MEARTLEEFQQYTPRTGTRSVKWDLIEDFYQDKDVLPMWVADMDFKTPQAVTDALTSRVEHGIFGYTIPDQDVKESITAWLRDRHGWETETDWITFSPGVIPSLHMIIQSLTEIGDNVLIQTPVYPPFYSVVRDHGRHIVKNQLLYKEDRYEIDFEDFENKIKDNHVTMFILCNPHNPVGRVWTKQELEEMSRICRKHGVKIAADEIHADLILPPNKHIPIASLSEETNQQTITCLSPTKTFNLAGLQASYVMTANKEYKEKLDKHFKNQGMMMLNTLGITAMEAAYKHGSEWLDTLTEVLKDHRDYVIQRLENETKSVRALPIEGTYLLWIDCTQMGLSQAELKSFMQKEARVGLNDGASFGEEGRGFMRLNLAAPMSTLEEGVTRIIHAVQAFEQS	PGPT0001990_1592	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001990-patB|malY-K14155	NA	NA
AK012_02415	357			hypothetical protein	ATGTCCGTAGGAAACAATATCCGAAAGTACCGGGAAATGAAGAAATTCTCAAAAGAGGAACTGGCTCTTAGAGCAAGAATGGGCGTTCATACATTGGAAAGTTATGAATCTAATGAACGTACACCAGAACTCGATACCGTCTTGAAAATATCGACGGTTCTTGATATTCCCGCTTCCGAATTGATGGAATTCCACGATGAAGATGAATCTCCTTTTGACGAAGAACTTACACAGCTCGTTCAGGACATCGGCGTCAAAAGCTCCAAACTGATTTTAAGAAAAGCCCGCGACTTTTCAGAACAGGACGTGCTTCGGGCTATGAATCTGCTTTATGACCTGAATCAGCAGAAAAATTAA	MSVGNNIRKYREMKKFSKEELALRARMGVHTLESYESNERTPELDTVLKISTVLDIPASELMEFHDEDESPFDEELTQLVQDIGVKSSKLILRKARDFSEQDVLRAMNLLYDLNQQKN				NA	NA	NA	NA	NA
AK012_02416	384	yugI	COG1098	General stress protein 13	ATGTCAGAGAAGTTTCAAGAAGGTCAAGTATTAGAAGGTAAAGTCACAGGCATTCAGCCTTACGGCGCGTTTGTAGCATTGGATGAGCAGGTTCAAGGTCTTGTACACATTTCCGAGGTTACTCACGGTTATGTAAAAGATATTAACGAGCATCTTTCTGAAGGCGATGAAGTTCAGGTTAAAATTCTGAACATCGATGAGAAGAGCAACAAATATTCTCTATCCATCCGCGCTACTCAGGAAGCGCCAAAACAACAGGAGCGTCGTCCACGTAAACAGGCGGCTCCAAAACAGCAGGAAGAAGCTGCAGGCTTCAACACGCTGAAAGACAAGCTTGAAGACTGGATCAAACAGTCTGATGACCGCGAAAAATTCCGTAAATAA	MSEKFQEGQVLEGKVTGIQPYGAFVALDEQVQGLVHISEVTHGYVKDINEHLSEGDEVQVKILNIDEKSNKYSLSIRATQEAPKQQERRPRKQAAPKQQEEAAGFNTLKDKLEDWIKQSDDREKFRK	PGPT0014890_108	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014890-yugI-K07570	NA	NA
AK012_02417	246			hypothetical protein	ATGAGCTGGATACAACGAACGGCTCTCCTGCTGATAATTGTCGGCGCTGTTAACTGGGGGCTGATCGGACTGTTTCAATATGATCTTGTTGCAGGTCTGTTTGGCGGGGGTGAACAGAGTGCCGTACTCTCACGCCTCATCTATACGACTGTAGGGATCAGCGGACTTATTGCGATTTCCCTTTATTTTATCCCTGCAGCACAAAACAGCGATGTGAAGACGGATGCAGCCGTTGAACACGAATAA	MSWIQRTALLLIIVGAVNWGLIGLFQYDLVAGLFGGGEQSAVLSRLIYTTVGISGLIAISLYFIPAAQNSDVKTDAAVEHE				NA	NA	NA	NA	NA
AK012_02418	1167	adh2_1	COG1979	Long-chain-alcohol dehydrogenase 2	ATGGATACATTTGCATTTCATAACCCAACGAAACTGATCTTTGGTAAAGATCAAATTGAACAACTGCCAAGCCAGCTGCCGGAAGGAACGAAAAAGGTTCTTGTTGTTTACGGCGGAGGCAGTATTAAGAAAAACGGCGTTTATGACCAAGTCATGGACCAGCTGAAAAAAGCTGAGGTTGAAGTTCTTGAGCTTTCCGGTATTGAACCAAACCCTAAATTGACAACCGTTGAAAAAGGGGTGGACATTGCTAAACAGGAAAATGTGGACTTTCTTCTTGCTGTCGGTGGAGGTAGTGTCATTGATGCTACGAAAACCATCGCTGCAGGTGCTAAATATGATGGGGCGCCTTGGGATCTCGTTACCCGTCAAGCGACCCCTGAAGACGCCCTTCCGTTCGGTACAGTACTGACGCTTGCGGCGACAGGCTCTGAAATGAATGCCGGTGCGGTTATTACCAACTGGGAAACCAATGAAAAATACGGATGGGGTGCAGCACCACTGACCAACCCTGCCTTCTCTATTCTCGACCCGGCTTATACAGCTACGGTTCCTGAAGACCAGACGGTTTATGGCGTGGTGGATATGATGACCCACTTGTTCGAGCAGTATTTCCACAATCCGACACCGTCTCCGGTGCAGGACGAAATGATTGAAGGTGTGCTGCGCTCTGTTATGGAAACAGCTCCGAAGCTGCTTCAAGATCTTGAGTCTCTTGAGCACCGTGAAACCATCCTTTACGCAGGTACGCTTGCATTGAACGGTATGATGCAGATGGGCTACCGCGGTGACTGGGCAAGTCATAACATTGAGCACGCGGTTTCAGCGGTTTATGATATCCCGCATGCCGGAGGACTGGCCATTCTGTTCCCGAACTGGATGAAGCATAACCTTGAGGTCAACGTTTCCCGTTTTGCCCGTCTGGGTGAAAAAGTCTTTGGTGTGGAAACAGAAGGGAAATCTGAACGCGAAGTCGCTGAGGAAGGTATCCAGGAGCTTCGTAAATTCTGGACGTCCCTGGGCGCGCCTCAAACACTTGCCGATTATGACATCGGTGATGACAAATTTGATGTAATCGTAGATCGTGCGATGAAACGTGGACCATTCGGAAACTTCAACAAGCTGCATGAAGAGGATGTCCAGGAAATCCTTGAAATGTCTAAATAA	MDTFAFHNPTKLIFGKDQIEQLPSQLPEGTKKVLVVYGGGSIKKNGVYDQVMDQLKKAEVEVLELSGIEPNPKLTTVEKGVDIAKQENVDFLLAVGGGSVIDATKTIAAGAKYDGAPWDLVTRQATPEDALPFGTVLTLAATGSEMNAGAVITNWETNEKYGWGAAPLTNPAFSILDPAYTATVPEDQTVYGVVDMMTHLFEQYFHNPTPSPVQDEMIEGVLRSVMETAPKLLQDLESLEHRETILYAGTLALNGMMQMGYRGDWASHNIEHAVSAVYDIPHAGGLAILFPNWMKHNLEVNVSRFARLGEKVFGVETEGKSEREVAEEGIQELRKFWTSLGAPQTLADYDIGDDKFDVIVDRAMKRGPFGNFNKLHEEDVQEILEMSK	PGPT0008295_255	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008295-adh2_2-K19955	NA	NA
AK012_02419	162			hypothetical protein	ATGATCATAGAAGAAGGCGCGGAGACCCGTGCCTTTTTCTTTTATAAAACATTTTCATTGTGTATCCGTTTACAAACGGAGCTTTGCTTGATTTGCCCTGAAGGTTTCGATAAAGTGAAATTGGTCAGGCATAAAAATGACGATTTGGAGGCTATCATATGA	MIIEEGAETRAFFFYKTFSLCIRLQTELCLICPEGFDKVKLVRHKNDDLEAII				NA	NA	NA	NA	NA
AK012_02420	1347	pgi	COG0166	Glucose-6-phosphate isomerase	ATGACACATATTCGTTTTGATTATGAAAAAGCGCTGCCATTCTTTGGCGAACATGAACTGGATTATATGCAGGGAGCTGTATCGACAGCACACCAGGCACTCCATGAAAAAACAGGAGCAGGGAACGACTTTCTAGGGTGGGTCGATCTTCCGGAGGACTATGACAAGGAAGAATTCGCCCGCATTAAAAAATCCGCAGAAAAGATTAAATCCGACTCTGACGTACTTCTTGTCATCGGTATCGGCGGTTCCTACTTAGGGGCACGAGCGGCTCTTGAAATGCTCAACCACAGCTTCTACAATACACTTGCAAAAGAGGACCGTGATACACCGCAGGTCTTCTTCGTAGGAAACAGCATCAGTGCCCCGTATATGAATGAGCTGTTTGATGTACTTAAAAACAAAGACGTTTCGATTAATGTCATTTCTAAAAGTGGAACGACGACGGAGCCGGCCATCGCCTTCCGTATCTTCCGCAAATTCCTTGAGGACAAATACGGTCAGGAAGAGGCCCAGAAGCGTATTTATGCGACAACAGATGCCAATAAAGGGGCATTGAAAACTCTTGCTGATGAACAGGGATACGAATCCTTTGTCGTACCTGATGATGTTGGCGGCCGTTACTCTGTGCTTACAGCTGTCGGGCTGCTTCCGATTGCAGCAAGCGGCATTGATATTGATGCCATGATGGAAGGTGCACAGAAGGCTCGTCAGGAACTGAGCAGTGAACAACTTTCTGAAAACCCTGCGTATCAATATGCGGCGGTTCGTAATGTCCTTTACAACAAAGGGAAAACCATCGAAATGCTGATCAACTATGAGCCATCCCTGCAGTACTTCTCTGAATGGTGGAAGCAGTTGTTTGGTGAAAGTGAAGGGAAAGACCAGAAAGGGATTTTCCCTGCTTCTGCGAACTTCTCTACCGATCTTCACTCTCTTGGCCAATACGTTCAGGAAGGACGCAGGGACTTGTTTGAGACGGTGCTTCACGTCGAGTCACCAAGCTCTGATATCACCATCGAAGAAGATGATCAGAATCTTGACGGTTTGAACTATCTGGCTGGAAGCACAGTGGACAAGGTCAACGAAAAAGCGTACCTTGGTACAATGCTGGCGCATACAGACGGAGACGTTCCAAACTTGATCGTCCACCTTCCGAAGCGTGACGCTTATACGTTTGGTTATCTCGTTTATTTCTTCGAGAAAGCATGTGCCATCAGCGGCTATCTTCTTGGTGTCAATCCATTTGACCAGCCTGGAGTAGAAGCGTATAAGAAGAACATGTTTGCCCTCCTTGGCAAGCCTGGATTTGAAGAAGAAAAAGAAAAGCTCGAAAAACGCCTGTAA	MTHIRFDYEKALPFFGEHELDYMQGAVSTAHQALHEKTGAGNDFLGWVDLPEDYDKEEFARIKKSAEKIKSDSDVLLVIGIGGSYLGARAALEMLNHSFYNTLAKEDRDTPQVFFVGNSISAPYMNELFDVLKNKDVSINVISKSGTTTEPAIAFRIFRKFLEDKYGQEEAQKRIYATTDANKGALKTLADEQGYESFVVPDDVGGRYSVLTAVGLLPIAASGIDIDAMMEGAQKARQELSSEQLSENPAYQYAAVRNVLYNKGKTIEMLINYEPSLQYFSEWWKQLFGESEGKDQKGIFPASANFSTDLHSLGQYVQEGRRDLFETVLHVESPSSDITIEEDDQNLDGLNYLAGSTVDKVNEKAYLGTMLAHTDGDVPNLIVHLPKRDAYTFGYLVYFFEKACAISGYLLGVNPFDQPGVEAYKKNMFALLGKPGFEEEKEKLEKRL	PGPT0017735_5083	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
AK012_02421	417			hypothetical protein	ATGATACCTTTAACCTCTTCATTGACAGGGCAGGTGTTTTCTTTTCAGGATGCAGAAGCAGCTTTGAAAACGGTCGGGTTTAAATTAGCGGATAACTGGGATTATGAACACGGTTATTTTGATTATAAAATTGACGACCGGGTCGGCTATCAATTTATCCGCCTTCCTTTCGTTGTAACATCCGGATCGCTCGATGCTCCTTCGGATTATGCCATGATTGAAATGACGGAACCGTTTCTGCTTTCCCATAAATATAATCCCGGCCTCGATGACAACGTGAAAGAAGGGAATATCCGGGCCATTTTTGACCAGTTCCAGGAACCCGTGGATAAAGATGCCTCTTTTCCGGAAGAACACATCCAATCAGGTCAAGAGCTTCTTCAGGCAGCAGAGGAAGCGTTACTTTCTCAGCGGTGA	MIPLTSSLTGQVFSFQDAEAALKTVGFKLADNWDYEHGYFDYKIDDRVGYQFIRLPFVVTSGSLDAPSDYAMIEMTEPFLLSHKYNPGLDDNVKEGNIRAIFDQFQEPVDKDASFPEEHIQSGQELLQAAEEALLSQR				NA	NA	NA	NA	NA
AK012_02422	999			hypothetical protein	ATGCAGCACCTCATCCGCCTTTACTTTCAACTGCCCTTATTTATCCGCCTTTTGAGTACTGTTTTTTTCACGATGACTTTATTCGGCATCATTATCCATATCATAGAACCGGAAAACTTCCCCACCTTTTTTGATGGACTATGGTGGGCTTTTGTTACGGGAGCGACCGTAGGGTACGGGGATTATGTGCCGTTAAGTCCTGCCGGAAAAGCCGTAGCCATCCTTTTAATCCTGTCCGGCGGCGGGCTCGTCACCTTTTATATGGCGACATTATCTGCCTCTACAGTTAAACATGAAACCAGCTTATCCGAGGGACGTGTCCCCTATAAGGGGGCCGATCACATTGTGCTGATCGGCTGGAACGAGCGGACGCGGCATTTGATTGATATGCTCCAGGATCAGAACCTTCACGAGCGGATTGTTATGATTGATCAGACGATGAATCAGTTTTACCAGCGTCTCCCGAGCGTCCACTTTATCAGCGGCAGCGCGACGAATGAAGAAACGCTGGAGCACGCCAATATTAAAGATGCACGGATGGCAATCATTACCGCGGATCCATCCATGGAGGAACAGCAGTCCGATCAGGCCGTCATTCATCAGATTGTCGCCTTGAAAGGACACCACCCGGAACTGTTCATTATTGCGGAAGTACTGACGGACCGCCAGAAAATTAACGCACAGCGCGCCGGTGCCAGCACGATCATCCGCTCCAATGACTTTATGAGCAGCCTTTTTTACCAGGAGCTTTACCGGAATGATCCCGTCAAACCATTTGAACTCCTCCTTTCCCTGTTGACTGAGCGTCAATTCCATGAAGAGACCGTTCCCGAAAAACTCACAGGCCATCCAATTTTAACGGCTTATGAATTTTTCTTAAAAAAAGGATGCCAGATTATCGGCATCCGAAAGAATGGAGAGCTGTCCTTTCATCTGGACGAAAGCATTGAATTGGAAAAGGGGGATGAACTCATCTTATTCTCACCGCTGAGAAAGTAA	MQHLIRLYFQLPLFIRLLSTVFFTMTLFGIIIHIIEPENFPTFFDGLWWAFVTGATVGYGDYVPLSPAGKAVAILLILSGGGLVTFYMATLSASTVKHETSLSEGRVPYKGADHIVLIGWNERTRHLIDMLQDQNLHERIVMIDQTMNQFYQRLPSVHFISGSATNEETLEHANIKDARMAIITADPSMEEQQSDQAVIHQIVALKGHHPELFIIAEVLTDRQKINAQRAGASTIIRSNDFMSSLFYQELYRNDPVKPFELLLSLLTERQFHEETVPEKLTGHPILTAYEFFLKKGCQIIGIRKNGELSFHLDESIELEKGDELILFSPLRK	PGPT0002715_2335	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK012_02423	555			hypothetical protein	ATGGACTTGGACCAGCAGTTTCACGAAGGAATGCATCCGCAGGAATACGTCGATCAGATGCAGTCCCACCAAAATGACTTATTGTACATATATGAAAACTTCTCTACCCAGGTGGAGGATGTGCCGCTGTTTGAAGAAGTACAGAACAAACAGTGGAGAGCGTTGGTACTGACCGAGGACTGGTGTGGGGATGCGATGCTGAACCTGCCTATTTTCCTCAGAATTGCAGAAGCGGCTCAAATTGATACCCGCTTTTTCCTGAGGGATGAAAACCCCGGCCTGATGGATCACTATTTAACGAATGACACGTCCCGTTCCATTCCAAAAATCATTCTGATCGATTCAGCCGGGAATGAAGCCGCTGTCTGGGGCCCGCGGGCGCCAGAGTTGGAGCAGTTCGTTTCCGAGGCATTAACCAGCCTTCCCGGAAAAGAGGCACCCGATCACGAGGAAAAGCGCAGAGAGGTCCTGCTTTTTGTCACGAAAGCCTTTCGTGACAACCAAGATTTCTGGCATTACGTTTATGAAGATATGAAACAGACCCTGAAATTCTGA	MDLDQQFHEGMHPQEYVDQMQSHQNDLLYIYENFSTQVEDVPLFEEVQNKQWRALVLTEDWCGDAMLNLPIFLRIAEAAQIDTRFFLRDENPGLMDHYLTNDTSRSIPKIILIDSAGNEAAVWGPRAPELEQFVSEALTSLPGKEAPDHEEKRREVLLFVTKAFRDNQDFWHYVYEDMKQTLKF				NA	NA	NA	NA	NA
AK012_02424	1059	ysdC_3	COG1363	Putative aminopeptidase YsdC	GTGGAAAAAGAACGTCTCGACTTTTTATTGGAATTGTTAAATACACCGTCACCGTCAAGTATGGAGATGGAGATCCAGAAACGCTGGATTGAGGAAATGCGTCCCTATGCGGATGAGATTCAAACGGACCACGCGGGCAATGCCATTGCTGTGCTCAACCCGGAAGCTGATTTTAAAATTATGCTGGCCGGTCACTGTGATGAAATTGCCCTTGTCGTCAATCGGATTGATGATGACGGCTATGTGTACGTGGATAAGATGGGCGGCGTCAACCCTAAAGCGGCCGTTGGAATGAAAGTCAGTATTCAAGGGCATGGCGGAACATTAACAGGAGTTATTGGAGTCAATGCTCAGCACCATGGCGGGTTGAAGGGAGACTTCGGACTTGAGGAACTGTTTATCGACTGCGGAGCCAAGTCCAAGGAAGAAGTCATGAAGTTCGTGCAGATTGGCGATCTGGCTGTATATAAAAGAGAACCGGAAGTATTGATGGACCGTTACATAGCCGGCCGTGGTCTTGATAACCGTACTGGTCAGTTCGTTGTCGGAGAAGTGCTGCGCCGCTTATCTGAGAAAAAATTGAATGTCGGTGTGTATGCAGCGAGCACGGTGAATGAAGAAACGAATATGGGCGGTGCCTATTTTGCAGCGGCCGGTGTGGAACCTACAATGGCCATTGCCTGCGATGTAACGTTTGCCACCGATTATCCTGGTGTAGACAAACGGAAACACGGTGATGTCCGTCTCGAGAAAGGGCCTGTCCTTGCTAAAGGGGCGCCGATCAACCGCAAGATCAATCAATTGCTGGAAAAAACAGCTTCCTCTCTGGACATGGCTGTTCAATACGAATTGACACCACGCATGACAGGGACGGATGCTGATAAGATGCGCACGACAGGAAAAGGTGTGCCGGTCAGCCTTGTCTCTCTGCCGCTGCGGTATATGCACTCCCCTGTAGAAACCGCGAGCATTCAGGATATAGAAGAGGAAATCACCCTTCTTGTGGAAATGATCGCCGGTATGACAGGGAAGGAAAGCTTAAATCCACTGGACGATTAA	MEKERLDFLLELLNTPSPSSMEMEIQKRWIEEMRPYADEIQTDHAGNAIAVLNPEADFKIMLAGHCDEIALVVNRIDDDGYVYVDKMGGVNPKAAVGMKVSIQGHGGTLTGVIGVNAQHHGGLKGDFGLEELFIDCGAKSKEEVMKFVQIGDLAVYKREPEVLMDRYIAGRGLDNRTGQFVVGEVLRRLSEKKLNVGVYAASTVNEETNMGGAYFAAAGVEPTMAIACDVTFATDYPGVDKRKHGDVRLEKGPVLAKGAPINRKINQLLEKTASSLDMAVQYELTPRMTGTDADKMRTTGKGVPVSLVSLPLRYMHSPVETASIQDIEEEITLLVEMIAGMTGKESLNPLDD	PGPT0018620_5219	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-CELLULASES,PGPT0018620-celJ|eglA|eglS-K01179	NA	NA
AK012_02425	213			hypothetical protein	ATGGATCGTGAAGCGCTGCATCAGCAGATTATGATGTTGAAGGGGAGAATTAATGCCGGCCAGGTTCACGTGCAGGGGTATGATGACTACATTATGCTTCAGCTTGGAAAAGTAAAAGACAGTGAAGACGGACTCGTAGACGTCTCAACCGTCTCAGCAACACTTCGACTGCTGCTGGACGCCACGGATAAAGTAGATGGTCCTGCTCATTAA	MDREALHQQIMMLKGRINAGQVHVQGYDDYIMLQLGKVKDSEDGLVDVSTVSATLRLLLDATDKVDGPAH				NA	NA	NA	NA	NA
AK012_02426	219			hypothetical protein	ATGGTCCTGCTCATTAAGAGCGGGATTTTTTTATGCCCTTTTACATTGAAGGTGGCTGGTGACATTACAACGAGACACAATGAAATGACATGGACGGTGGAGGAGCTTCAGGATGTATCTTTGAACTTAAATCCCCGTGCAGAGGAAGGGATGGAGGATATGAAGGCGTTGAATAGTCAGGTTTTCCTCATTAAAGACATTTCTATGAAGAAAACGTAA	MVLLIKSGIFLCPFTLKVAGDITTRHNEMTWTVEELQDVSLNLNPRAEEGMEDMKALNSQVFLIKDISMKKT				NA	NA	NA	NA	NA
AK012_02427	387			hypothetical protein	ATGCAGGCGCAGAACATTCAAGAGGTGGTTAAAACCATTAAGGACATTGCCTCTCGGTTTAATCTACTGTCGTTAAATGCAGCTATTGAAGCTGAGAGGGTCGGGGAGGATGGGCGTGGATTTGATATCGTCGCTAAAGAAGTCCTGAAGCTCTCAAATAAAGTGAAGCATTCCATTGGTGAGGTTCGGGAAAATGTCGGTCTGGTCACCGAAGAGATTTCCCGGATGAACAAAGAGCAGGTTCGCTTGAACCGGCTTTCCAATGAAGGAAAGTGGATATACCGTATGAGAAAAGAGAAGGTCGAGCGTAGCTGCGCAGATTCAAAAGAACGGCATTGCGTTGTTACCGCTTGCGCGGATAAGAAAAAGGGAAAGAACAGGCGCTGA	MQAQNIQEVVKTIKDIASRFNLLSLNAAIEAERVGEDGRGFDIVAKEVLKLSNKVKHSIGEVRENVGLVTEEISRMNKEQVRLNRLSNEGKWIYRMRKEKVERSCADSKERHCVVTACADKKKGKNRR				NA	NA	NA	NA	NA
AK012_02428	714			hypothetical protein	ATGGCGAATTGCAGGAAAATTTCCGTTCCGGGGAAACTGCCGATGAAGTTTCCAAAGAAAAAAGAGAAACATGAGAAAAAGCATGACTGCCCGACCGGATGTAAGTGTCACTTCAAAAAGCCCGGACTTAAGCCAGCTAAGCTGAACAGCGACTGCTTCGTGGAAAATGCTCTCGTTGGAACCAAACAGGTCCAGAAGGTAGCTGAAGCTACTCTACCACTCACTCTATTTTCAACTCTAGGCGTCGGCAGCATTGTATCCGTAGAGGTCGTTCCTAACTTGGAAAACATCACAATGAATGCCCGCATCATCAAAAACAAAGTCGTCAATATTGGATTGATCCCAGCTACCATTACCCTTAACTTCTTAGATGTAGATGGCGGATTACAACTCGGTGTACTCAATACAACGATTCCTTTTCAAGCGCACACGGACTTTCCAGGCGCCTGTCCGGAAGATAACCTGACCGAGACACCGCTGGAAGTCGAAGGAATCTTCACCCAGGAGGGTGTGCCTGTAGTCGACGTTGCAGGAATCACCCTGGTGGAAGGGATTATTGTAAAAATCATCCTTAAAACGACAATCACTGTTACGCGTCCTGTCATCCGTGACGCGCATGGAAATGTGTGTGATTTGAACCCTGACCGCTGCAAACAAGATACGGACGCCCCATCCTTCACCTTCCCAGGGCCGGATAACGAAGGCATCCTATAA	MANCRKISVPGKLPMKFPKKKEKHEKKHDCPTGCKCHFKKPGLKPAKLNSDCFVENALVGTKQVQKVAEATLPLTLFSTLGVGSIVSVEVVPNLENITMNARIIKNKVVNIGLIPATITLNFLDVDGGLQLGVLNTTIPFQAHTDFPGACPEDNLTETPLEVEGIFTQEGVPVVDVAGITLVEGIIVKIILKTTITVTRPVIRDAHGNVCDLNPDRCKQDTDAPSFTFPGPDNEGIL				NA	NA	NA	NA	NA
AK012_02430	600	fmnP	COG3601	Riboflavin transporter FmnP	ATGAACCGTAATCCGGCTCAGTCATCAAAGAAATTATTTACACTGATTACCATTGCTTTATTCGGGACGATTTCCATGGTCCTGATGCTGTTGAATTTTCCGCTGCCATTGCTGCCGTCGTATTTGAAAGTAGATTTCAGTGATGTACCGGCCTTACTTGCAGGCATTATGTTTACGCCTGCTGCAGGAATACTTGTTGAAGCGTTAAAAAATGGTCTTTATTTTATATATACCGGCGCAGGAGACCCGGTGGGAGTGGTGGCAAACTTTGCCGCAGGCATTTTGTTCATCCTCCCCGTTACGATGATCTATCATAAATTTAAGAGCGTTAAATCGCTTGTATCGGGACTCGTGACGAGTTCACTGGTTATGGCGTTCGGCATGGGTGTGCTGAACTACTTTGTCATTCTCCCGGCTTACAGCTGGTTTATGGGATGGGAAACGATGAGTGCACAAGTGAAATGGATAACGATCGTGGCAGGGATTCTGCCATTCAATGCCCTTAAAGGTATCATTGTGAGTGCGTTGTTCACCCTGCTCTTTGTACGTATGAAGCCCTGGATTGAACAGAAAAGTCCACGTTCCTCATCCGCGGCGTAA	MNRNPAQSSKKLFTLITIALFGTISMVLMLLNFPLPLLPSYLKVDFSDVPALLAGIMFTPAAGILVEALKNGLYFIYTGAGDPVGVVANFAAGILFILPVTMIYHKFKSVKSLVSGLVTSSLVMAFGMGVLNYFVILPAYSWFMGWETMSAQVKWITIVAGILPFNALKGIIVSALFTLLFVRMKPWIEQKSPRSSSAA				NA	NA	NA	NA	NA
AK012_02431	309			hypothetical protein	ATGAAAAAAATCATAGGTGCTGCTTTACTGGTGATGATGACCGCAGGCGGCTGTGGAATGAATGGGAATGAGGACGGTCCGGAGGATATCAATTATGAACCTGCCCGTTATGAGCGTACGGATATGAATGAGATGCCGGAAGAACAGCGTTTCCGCAATAACCGGGAGCATCAGGATATTGATGAAATGAGAAGGGATTATGAAAGAGATGTGCGCCGGAGTGGGGAACGGGACACGCCGTTCAATATGGACGAAGAAGAGCCGGATCTGGATGAAGAACCTTCCGAACAGCGCCGGGAGATGGATTGA	MKKIIGAALLVMMTAGGCGMNGNEDGPEDINYEPARYERTDMNEMPEEQRFRNNREHQDIDEMRRDYERDVRRSGERDTPFNMDEEEPDLDEEPSEQRREMD				NA	NA	NA	NA	NA
AK012_02432	381	dksA_1		RNA polymerase-binding transcription factor DksA	ATGTTATCGGATAAACAGATTCACCAATTCAAACAACAGATTATAGAAATGAAAGAAGAAGCAGAACAGGAAATGGAGAAATACAAGGAGGACGATGCGAAGGAGCTTTACCCGAATGACCGCACTGGGGAAATCTCCAGTGTCGCAGACCATCCGGGAAACCTTGGGACAGATCAGCACGAACGGGAAAAACGCCAGACGTTTTATGAACAGGCTAGAGAGAAACACATGGAGGCGGAAGATGCCCTGAAACGCATCGAGGAAGGCCGTTTCGGTGTCAGTGAGAAATCAGGGGATCCGATCCCTGTCGAACGCCTTGAAGCTCTCCCTACCGCCCGCTATACCGTTGAAGAAGAACGGGAAATAGAAAAGGATGCCTGA	MLSDKQIHQFKQQIIEMKEEAEQEMEKYKEDDAKELYPNDRTGEISSVADHPGNLGTDQHEREKRQTFYEQAREKHMEAEDALKRIEEGRFGVSEKSGDPIPVERLEALPTARYTVEEEREIEKDA	PGPT0014560_2962	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
AK012_02433	396		COG2050	Putative esterase	ATGAATGAAATGATGATGAAGAATACGTTGATGGACGCCCTGGGGATGGAAGTGATCAAAGCAGAACCGGATTGTGTGGAAATGCGGATGCCTGTGGACGCCCGCACCCATCAGCCGATGGGCTTCCTTCACGGGGGCGCGAATGTCGCCCTCGCAGAAAGCGCAGCAAGTATCGGCGGATTTTTAAATATCGATACCAACGAGCAGCAGGTCTTCGGTCTTGAAATCAACGCCAATCATATTAAAAGCGCCAGAGAAGGGTATGTAACGGCTGCAGCTGTCCCCGCCCATATCGGAAAAACAACCATGGTATGGGAAATCCGGATCGTACATGAGAACGGTACACTCCTCTGCCTTTCCAGATGCACCCTCGGGGTTGTTCCTTTAAAAAAGTAA	MNEMMMKNTLMDALGMEVIKAEPDCVEMRMPVDARTHQPMGFLHGGANVALAESAASIGGFLNIDTNEQQVFGLEINANHIKSAREGYVTAAAVPAHIGKTTMVWEIRIVHENGTLLCLSRCTLGVVPLKK	PGPT0001845_2089	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
AK012_02434	942	menA	COG1575	1,4-dihydroxy-2-naphthoate octaprenyltransferase	ATGAGTTCCATACAAAATCAAAATATAAAAGCTTCCTTGAATGAACGTGAAGGTTTTCAAGTGTGGTGGAGACTCCTTCGTCCCCATACCCTGACCGCTGCTTTTGTCCCCGTTTTTGTCGGGACGATGCTTGCAGCCATTGAACAGTCCTTTGATTTCTGGTTGTTCGCGGCCATGCTGCTGGCTTCCATTCTCATTCAAGCGGCTACGAACATGTTTAACGAATATTATGATTATGCCAGGGGGCTGGATAATGAGAACTCCGTCGGCATCGGCGGTACCATTGTGCGTGACGGCATACGGCCGCAGATGGTGCTGCTGCTCGCTCTCAGCTTCTTTGCAGCAGCCGGACTCCTCGGCGTTTATATATGCGCCTCGTCCAGCTGGTGGGTGGCTGCTGTCGGACTAGTATCCATGTTGTTTGGATACCTTTATACCGGCGGACCTTTTCCCATCGCCTATACGCCGCTCGGTGAACTGACAGCCGGATTTTTCATGGGCACGATCATCATCGCTATCAGCTACTTCATTCAAACGATGACGCTCACAGCTGACGTGCTGATCGTTTCTGTTCCGGTCGCTATTTTTGTCGGCTGCATCCTCCTGGCCAATAACATCCGCGACAGGGTAAACGACGCCGAAAACGGCAGAAAAACGTTAGCGATCCTGTTCGGACATCAAGGATCCATCCGATTTTTGACAGCTCTTTTTGCCGTCGCTTATCTCTGGACAGCCGTTCTCATGATCATCGGACTCCTGCCATGGTGGTCCCTGCTGACTTTCATTAGTGTAGGAAAAGCCAGAAAGGCCATTCAGGGATTTACAGGAAAAAAAGAGCCTCTGGAAATGATGCCGGCTATGAAAGCGACCGCGCAGACGAATACCATTTACGGATTCCTCCTTGGGTTATCGCTGCTTATACAACTGTATTTCCCTCTTTGA	MSSIQNQNIKASLNEREGFQVWWRLLRPHTLTAAFVPVFVGTMLAAIEQSFDFWLFAAMLLASILIQAATNMFNEYYDYARGLDNENSVGIGGTIVRDGIRPQMVLLLALSFFAAAGLLGVYICASSSWWVAAVGLVSMLFGYLYTGGPFPIAYTPLGELTAGFFMGTIIIAISYFIQTMTLTADVLIVSVPVAIFVGCILLANNIRDRVNDAENGRKTLAILFGHQGSIRFLTALFAVAYLWTAVLMIIGLLPWWSLLTFISVGKARKAIQGFTGKKEPLEMMPAMKATAQTNTIYGFLLGLSLLIQLYFPL	PGPT0009395_491	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009395-menA-K02548	NA	NA
AK012_02435	1392	pchA_1	COG1169	Salicylate biosynthesis isochorismate synthase	ATGCTTCATACGAAGGCCCCTCATATAGAAGAAGCAGCAGGGGAAGCCCTTCAGAGAGCGCATCTTCTTGGGGAACCTCAATGTATAAGTATCGTTGAACATATAGATGATATGGATGCTTTTCAGTTTTTTCATGCCGGTGGATCGGTCGATCTTCACCGGACGTTCTGGCAGAGCGCGGATAATGACTTGACGATGGTCGGCATCGGACGGGCCAGCCAGCTTTATGCAGAACGTACCGATCGTTTTCAGGAAGTGCAGAGGTTATGGCAGAAGCTTATGGACAATGCGGTTGTCTATGACGACTATCAGAAGAAAGGGACAGGGCTGACCGCTTTGGGAGGGTTCAGCTTTGATCCGGAAGAATCAGACGATCATCTTTGGGGGAGCTTCCCTGACAGTCAGATGACGATTCCGGCTTTTATGCTTACGAAAGTGGGCGGAGCTTCGTATTTGACGATGAATGTGCTTATTTTTCCGGAAGACCATTTGAAGCAGATTGTTCACCAGCTTCTGGACCAGCGGGAAACGCTGATGGAGTCGGAAAATTTCGAGGCGGCTTTTCCTGTAGTGACAGGGAGAGAGGAAGCAGCGCCTGTCCAATGGAAAGAAACGGTGAAAAAAGCGACAGAAGATATTAAAAACGGAAAAATCAGCAAGGTGGTACTGGCCAGGGAAATCCGTCTGAAGTTCCAGGATGCTGTACAGGCCGCTTCTGTTATTAAGGAGCTTGCTGATTCACAGCCGAACAGTTACATCTTTGCTTTTGAAAGTGGTGGGGATTATTTTGTCGGGGCTACTCCTGAGCGGCTTGCCAAACTCGAAAACCGCCGGCTTGTGTCCACCTGCCTGGCAGGAACAACCCCAAGGGGAGCGACATCCGAAGAGGATGAAGCTCTTGGGCTTGAGCTTTTGAATGATCCGAAAAACCGCCAGGAACACCAATTTGTCGTAGATATGATTAAAGATGCGGTGGAAGCCTGCTCCAGTAATGTCTCCATTCCGGAGGTTCCTGTGCTGTACCCGCTGAAAAACCTTCAGCATTTGTATACACCTGTAACGGCCGTTCTGGATGAAGGATATACACTCCTGGACGTTGTCGAAAAGCTTCACCCGACACCTGCTCTAGGTGGAATGCCACAGCAGGAAGCCGTTTCATATATCCGGCAGCATGAACAGTTGAACAGAGGCTGGTATGCCGGTCCTGTAGGCTGGTTTGATGCGAAAAATAACGGGGAGTTTGCCGTAGCCATCCGTTCGGCACTCATCCAGCAGGATCAGGCATCTTTATTTGCCGGCTGTGGAGTAGTGGAAGATTCCGATCCACAGGCGGAATATGAAGAAACCGCCGTTAAACTTAAGCCAATGCTGACAGTTCTAGGAGGCTTGTAA	MLHTKAPHIEEAAGEALQRAHLLGEPQCISIVEHIDDMDAFQFFHAGGSVDLHRTFWQSADNDLTMVGIGRASQLYAERTDRFQEVQRLWQKLMDNAVVYDDYQKKGTGLTALGGFSFDPEESDDHLWGSFPDSQMTIPAFMLTKVGGASYLTMNVLIFPEDHLKQIVHQLLDQRETLMESENFEAAFPVVTGREEAAPVQWKETVKKATEDIKNGKISKVVLAREIRLKFQDAVQAASVIKELADSQPNSYIFAFESGGDYFVGATPERLAKLENRRLVSTCLAGTTPRGATSEEDEALGLELLNDPKNRQEHQFVVDMIKDAVEACSSNVSIPEVPVLYPLKNLQHLYTPVTAVLDEGYTLLDVVEKLHPTPALGGMPQQEAVSYIRQHEQLNRGWYAGPVGWFDAKNNGEFAVAIRSALIQQDQASLFAGCGVVEDSDPQAEYEETAVKLKPMLTVLGGL	PGPT0009360_428	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009360-menF-K02552	NA	NA
AK012_02436	1746	menD	COG1165	2-succinyl-5-enolpyruvyl-6-hydroxy-3-cyclohexene-1-carboxylate synthase	ATGGGACACGTGGAAGCTTTAACGAAGTATGTCACACATTTTGTCGACCAGCTCGCATTTTCAGGAGTCAGGCAGGTCGTCATTTCACCAGGGTCCCGGTCCACACCGCTGGCCCTGACATTTGCTGAGCATTCAGAGGTGAAACACTGGGTTCACCTTGATGAGCGCTCAGCAGCTTTTTTTGCTTTAGGGATCGCCAAACAGACCAATGAGCCGGTAGCTCTTGTCTGTACGTCCGGCACAGCCGCCGCCAACTATTATCCGGCGGTTGTCGAAGCGTACTACAGTCGTGTTCCACTCGTTGTTCTGACAGCCGACAGGCCGCACGAACTTCGTGAAACCGGCGCACCCCAGGCAGTCAATCAGCTCCAGATGTATGGAGATTATGCAAAGTTTCATGTGGATTTAGCGCTTCCTGAGGAAAATAATTTCATGTATGCACGAAGACAGGCAGCAAGAGCCGCAGGGGAGGCCGTCACTGGACAGCCGGGCCCGGTTCACGTAAATCTTCCGTTCAGGGAGCCTCTCATCCCCGACTTTTCCCTGGAGGGGGCCTGGCGCGGAGACACGCTTCCCGTTCCGGTTCCTTCTGCAGGGAAAAAACAGCTTGATTCGCATGCTCTCCGTCATTTGTTGGAGCAGCTCGGGCGTTCGGATAAAGGGTTGATTGTTGTAGGCCCGCAGATTCATGAGGAGCTGGCAGAAGCCGTGACGGAGTTTGCCGCCCGCCTTGGTGTGCCGGTCTTTGCTGATCCCTTATCCCAGCTGAGGGCCGGGGATCATGATAAACGCCATGTAATTGAAAATTACGGATCGCTGCTGAAGTCATCCTGGGTTAAAGAGAACATGAAGCCGGACTACATTCTACGGTTTGGGGCCATGCCTGTATCCAAAACCTATTTAAAATGGGTGCAGCACCATGAGGAAACGATAGACCATTATGTCGTTGATGATGAACCGGGGTATCGGGAGCCGGCTGGTCTTGCTGTCCAGTATATCTGGGCAGAAGCTGTGGAACTCTGTCGACAGCTGGCCACTGAACTGCCCGAGGGGAATGTTCAGACAACATGGCTGGAAGAATGGCAGCAGATGAACACGATGGCCAAAACCGAAATGTTGAAAGACCCGGGTGAAACATTGAACGAAGGCCATGCTGTTGCTTATCTTGCCGAGGCTCTTCCGGATCAGTCCACCTTTTTCATTGGAAACAGTATGCCGATCCGGGATGTTGACAGCTTTTTCATGTCAACGCCGAAGCGGGTGACTATGATGGCCAACCGGGGGGCCAATGGAATTGACGGCGTTATTAGTACAGCGCTCGGTACGGCGGCAGCCGGCCGGAAAACAACCCTGCTCCTTGGGGATATTTCCTTCTTCCATGATATGAACGGTCTTTGGATGGCAAAAAGTCAGGGGCTTCCTTTGACTATTGTTGTCATCAACAATGATGGGGGAGGCATTTTCTCTTACCTTCCCCAGTCCCGGGATCCAAAGCATTTCGAGGAACTCTTCGGGACACCTCTTGGACTCGATTTGAAGCCGGCGGTTGAAATGTATGGAGGCCGCCACCTGCGCGTGCAGACGTGGGAGGAGTACCGACAGGCGCTGGCTGAGAGCGCATCGTCACAGCAGCTGATGGTAATTGAAGCCATGGTAAGCCGTGATGATCATGTCGACTTTCACAATAAGCGCTGGAATGACGTTCATGATGCCGTAGTGCGCTGGAGGGACGACAATGAACAGTAA	MGHVEALTKYVTHFVDQLAFSGVRQVVISPGSRSTPLALTFAEHSEVKHWVHLDERSAAFFALGIAKQTNEPVALVCTSGTAAANYYPAVVEAYYSRVPLVVLTADRPHELRETGAPQAVNQLQMYGDYAKFHVDLALPEENNFMYARRQAARAAGEAVTGQPGPVHVNLPFREPLIPDFSLEGAWRGDTLPVPVPSAGKKQLDSHALRHLLEQLGRSDKGLIVVGPQIHEELAEAVTEFAARLGVPVFADPLSQLRAGDHDKRHVIENYGSLLKSSWVKENMKPDYILRFGAMPVSKTYLKWVQHHEETIDHYVVDDEPGYREPAGLAVQYIWAEAVELCRQLATELPEGNVQTTWLEEWQQMNTMAKTEMLKDPGETLNEGHAVAYLAEALPDQSTFFIGNSMPIRDVDSFFMSTPKRVTMMANRGANGIDGVISTALGTAAAGRKTTLLLGDISFFHDMNGLWMAKSQGLPLTIVVINNDGGGIFSYLPQSRDPKHFEELFGTPLGLDLKPAVEMYGGRHLRVQTWEEYRQALAESASSQQLMVIEAMVSRDDHVDFHNKRWNDVHDAVVRWRDDNEQ	PGPT0009365_577	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009365-menD-K02551	NA	NA
AK012_02437	798	menH	COG0596	2-succinyl-6-hydroxy-2,4-cyclohexadiene-1-carboxylate synthase	ATGAACAGTAATATCAACGGCCGTGAATATAAAGTGATGCGGACCGGCGAAGGGGAACCCCTTCTTCTTCTCCACGGGTTTACAGGTACGTCCGGTACGTTTGATGAGCCATTGTCGTATTTATCGGGTTCTTATGATATCGTTAAAGTCGACCTGCCGGGTCATGGAGGCACAGGGCCGCTTGGCGCGGTTTCAATGGAGCGCTTCTGCAGGGATCTGCATGAACTGCTGGATCGATTGGAAATTGAACAGGTTCACCTGCTTGGATATTCGCTTGGCGGTCGTGCTGCGCTTTCCTTTGCTGTGCTTTATCCTGATAAAGTGAAAAGTATCCTGTTGGAAAGTGCTTCTCCCGGCCTTGCATCGACGGAAGAACAGCTTGCGAGACAGGCAAAGGATAAAGCGCTGGCTGATATGCTTCTGCGGGACGGTCTGGATGCTTTCGTTGATTATTGGGAGCAGATCCCGCTCTTCCGTACGCAGGACAGTCTTCCTGAAGAGAAGAAGCAGGAGATCCGGACGGAGCGGCTCAGCCATCAGGGACAGGGGCTTGCGGAATCACTTTCAGGAATGGGGACGGGACATCAACCATCCTGGTGGGAACAATTAACCACTCTAACCATCCCTGTCTGTCTTATTACAGGGGCTGAGGATGAGAAGTTCAAAAATATCAACAAACAGATGTCTGAACTGCTGCCGAAGGTCCACTGGGAAGAGGTGGAAGGAGCCGGACATGCCGTACACCTTGAGAAACCGCGAATTTTTGCTAAAATTGTAGATAGCTTCATGTTAAAATAG	MNSNINGREYKVMRTGEGEPLLLLHGFTGTSGTFDEPLSYLSGSYDIVKVDLPGHGGTGPLGAVSMERFCRDLHELLDRLEIEQVHLLGYSLGGRAALSFAVLYPDKVKSILLESASPGLASTEEQLARQAKDKALADMLLRDGLDAFVDYWEQIPLFRTQDSLPEEKKQEIRTERLSHQGQGLAESLSGMGTGHQPSWWEQLTTLTIPVCLITGAEDEKFKNINKQMSELLPKVHWEEVEGAGHAVHLEKPRIFAKIVDSFMLK	PGPT0009370_610	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009370-menH-K08680	NA	NA
AK012_02438	819	menB	COG0447	1,4-dihydroxy-2-naphthoyl-CoA synthase	ATGTCTTTTGATTGGATTCAAGACCGCGAGTACGAAGATATTATGTACGAGCGTTTCGAAGGGATTGCTAAAATTACGATAAATCGTCCGGAGGTCCGCAACGCGTTCCGTCCACAGACGGTTTCCGAACTGATCGACGCATTTGCTTATGCCCGTGACGATTCCAGAATTGGTGTAATTGTTCTTGCCGGAGCCGGTGATGATGCATTCTGTGCCGGAGGTGACCAGAAAGTACGCGGTCACGGTGGCTATGTTGGAAACGACCAGATCCCACGCTTGAACGTCCTGGATCTTCAACGTTTGATCCGTGTTATTCCTAAACCGGTTGTAGCTATGGTTTCCGGTTATGCTATTGGTGGAGGTCACGTCCTACATATTGTCTGTGACCTGACGATTGCAGCGGATAATGCCATCTTCGGTCAGACAGGTCCGAAAGTCGGCAGCTTTGACGCCGGTTACGGCGCTGGTCTGCTTGCACGTATCGTCGGCCATAAGAAAGCCCGTGAAATTTGGTACCTGTGCCGTCAATACAGTGCAAAAGAAGCGGAGGACATGGGTCTTGTCAACACAGTTGTTCCTTTGGAGGAGCTCGAAGCAGAAACGGTTCAATGGTGCCGTGAAATGCTCGAGAAATCCCCGACAGCCCTGCGTTTCCTGAAGGCTTCCTTCAACGCAGATACAGACGGCCTTGCCGGGCTGCAGCAAATGGGTGGAGACGCAACTCTTCTTTACTATACAACAGATGAAGCGAAAGAAGGCCGCGACGCCTTTAAGGAAAAGAGAAAGCCTGATTTCGATCAGTTCCCTCGTTTCCCTTAA	MSFDWIQDREYEDIMYERFEGIAKITINRPEVRNAFRPQTVSELIDAFAYARDDSRIGVIVLAGAGDDAFCAGGDQKVRGHGGYVGNDQIPRLNVLDLQRLIRVIPKPVVAMVSGYAIGGGHVLHIVCDLTIAADNAIFGQTGPKVGSFDAGYGAGLLARIVGHKKAREIWYLCRQYSAKEAEDMGLVNTVVPLEELEAETVQWCREMLEKSPTALRFLKASFNADTDGLAGLQQMGGDATLLYYTTDEAKEGRDAFKEKRKPDFDQFPRFP	PGPT0009385_1814	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009385-menB-K01661	NA	NA
AK012_02439	1458	menE	COG0318	2-succinylbenzoate--CoA ligase	ATGGGGGAAAAGATTCCTCACTGGCTGGATAAACAAGCCTTTTTAAACCCGGAAAAAACGGCGCTGGAAACACCGGAAGGCAGCGCGTATACATTTATGGAGCTTCAGGAAAAAAGCAGGCAGATGGCTCATTACCTCATTCGTATGGGAGTGGAGGAAGGTGACCATATTGCTTTTCTTTCAGGAAACGATATTCATTTTCCTGTGTTCATCCATGCGGTCAGCTATATCGGGGCTGTCGTCGTTCTGTTAAATACACGGCTGGAAGCGCCGGAAATATCTTATCAGCTGCAGGATGCGGACGTATCCCGTTTGTTTGTGCAGCCTTCCTTCACGGGCACAGCTATACGGGCGGTGGAGAATACGGAAGTGGATGTCGTTGAATTCGAGAATGCCCCCCCTGTAAGCAGTGGGGAAGGAGCATTAAAAAAAGAGATCGATTTTGATGCACCTTATACGATGATGTACACATCCGGAACGACCGGGAATCCGAAGGCTGTGATTCATACGTATGGGAATCATTGGTACAGCGCCGCTGCTTCCGCATTGAACCTTGGCCTGACCCCTGATGATAAATGGCTCATCTGCCTGCCGCTTTTCCACGTCGGCGGTTTTTCTGTATTGATTAAGAGTATGGTTTACGGGATGTCTGTGTACCTTATGGATAAATTTGATGAAAATCAGTTCCATAAGGCTGTAATGAAAAAACGTGTGACCCACGCCTCGGTGGTTACGGTCATGCTCCAGCGTCTTTTGAAACAAACAGGGTCATCTGGTTATCCTGATACGTTCCGCTGTATGCTGCTCGGGGGAGGGCCGGTTCCGTCCCTGCTGCTAAAAGACTGCTCTGCAAAGGGGATCCCTGTCTTCCAGACTTATGGGATGACGGAAACGTCCTCGCAAATTGCCACATTAAGCCCTGCCTCCGCTTTTGATAAAGCTGGATCAGCAGGAAAGGCATTAAGCCTTGCGGATCTTTGGATCGACAGCGCTGTCCCGGGGGAAATTGGAGAGATCATTGTCCAGGGACCTATGGTTTCGAAAGGGTATTATAACCGCCCGCCGCGGCAGGAAGCTTATATTCATACCGGGGACCTAGGGTATCAGGATGCGGACGGCTTTTTATACGTCGTGGACCGGGTCAAGGATATGATTATATCCGGTGGAGAAAATGTGTATCCTGCTGAAATCGAGAGCGTACTTTCAGAAATCCCGGGAATTAAAGAAGCGGGGGTCACAGGCCGTCCGGATGACCGCTGGGGGGAAGTGCCGGTAGCTTTTCTGGTCACAGAGGATCAGACGCTGACGGATAAGGCTGTCTATCAGTATGTGGATGAAAGAATGGCGAAGTATAAGCGTCCGGCTGCAATATACTGGGTCCGTGAGCTGCCGCGCAATGCCTCCAACAAGTTGTTGAGAAGGGAACTGCTGTCCTTAACCCGGGGAGAAAATCCATGA	MGEKIPHWLDKQAFLNPEKTALETPEGSAYTFMELQEKSRQMAHYLIRMGVEEGDHIAFLSGNDIHFPVFIHAVSYIGAVVVLLNTRLEAPEISYQLQDADVSRLFVQPSFTGTAIRAVENTEVDVVEFENAPPVSSGEGALKKEIDFDAPYTMMYTSGTTGNPKAVIHTYGNHWYSAAASALNLGLTPDDKWLICLPLFHVGGFSVLIKSMVYGMSVYLMDKFDENQFHKAVMKKRVTHASVVTVMLQRLLKQTGSSGYPDTFRCMLLGGGPVPSLLLKDCSAKGIPVFQTYGMTETSSQIATLSPASAFDKAGSAGKALSLADLWIDSAVPGEIGEIIVQGPMVSKGYYNRPPRQEAYIHTGDLGYQDADGFLYVVDRVKDMIISGGENVYPAEIESVLSEIPGIKEAGVTGRPDDRWGEVPVAFLVTEDQTLTDKAVYQYVDERMAKYKRPAAIYWVRELPRNASNKLLRRELLSLTRGENP	PGPT0009380_300	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009380-menE-K01911	NA	NA
AK012_02440	1104	menC_2	COG4948	o-succinylbenzoate synthase	ATGAAAATCGAAAAAATCGTTCTGAAAAAAATTGAGTTGAGTATGAAGAACCCTTTCCGTACAAAAAGAGGAAGCTTAACGTCACGCCCGCTCATTATCGTTGAAGCCCGCGATGGCACAGGTTTGACCGGATACGGAGAAGTAACAGCATTTCCGGATCCATTCTACACCTATGAAACCACATCCACCGCTTGGCACGTGCTTGAGGATTTTCTTATTCCTTTATTCGCAGAGAACACGCTGTCGCATCCGGAACAGGTTCCTGAAATCATGGATTCCATCCAGGGGCATCCGATGGCGAAAGCAGGTCTGGAGGGAGCTGTTTGGGATCTCTACGCGAAACAGAAGGAAAGAAGTCTCGCTTCTTTGATCGGTGGGACGCGGAAATCTGTACGGGCAGGGGCTGTCCTCAGTTTAAGTGATCATATCGAGCAGGATATTTCCGATCTGCAGGAGGAGGGCTATGAAAGGTACAAGCTCAAAATCATTAAAGGGAAAGAGCAGGAGATGATTGAAAAAGTACGAGCCTCCTCTCCAGATCTGCCGATTATGATCGATGGAAATGGGCAGTACGATGAAACGGATATGGATCATCTGGCCGCGCTGGACCGTTATGGGATGCTGATGATTGAACAGCCCTTCCGAGCGGGTGATTTCCATCTCCATCAACAACTGCAGAAGCGGATGCGGACACCGATCTGTCTGGATGAGTCCATCACATCCTTTGAAGATGCTGTTCAGGCGGTCGAGCTCGGAAGCTGCCGGGTCATCAACGTGAAGATCAGCCGGGTAGGGGGGCTGACAGCAGCTAAAAAAATCCATGATTTCTGTGCCGCCTCCGGAGTTCCGGTGTGGTGCGGGGGCATGGTGGAATCGGGGATTTCCAAAGCTCATAACCTGGCGCTCGCCTCGCTCTCTAATTTCTCCATCCCTGGAGACTTGTCCGGGTCGGCACGCTATTTTGAATCGGATATTGTACAGCCTCCGTTAAAGGTGGAGAAAGGAGCTTTAGCCGTGCCTCAATGTCCAGGTATTGGGATTGACGTTGATAAGGAAAAGCTTGCAGAAGTGACGCAGCAGTCTTCCGTCCATACTCTTTTGTAA	MKIEKIVLKKIELSMKNPFRTKRGSLTSRPLIIVEARDGTGLTGYGEVTAFPDPFYTYETTSTAWHVLEDFLIPLFAENTLSHPEQVPEIMDSIQGHPMAKAGLEGAVWDLYAKQKERSLASLIGGTRKSVRAGAVLSLSDHIEQDISDLQEEGYERYKLKIIKGKEQEMIEKVRASSPDLPIMIDGNGQYDETDMDHLAALDRYGMLMIEQPFRAGDFHLHQQLQKRMRTPICLDESITSFEDAVQAVELGSCRVINVKISRVGGLTAAKKIHDFCAASGVPVWCGGMVESGISKAHNLALASLSNFSIPGDLSGSARYFESDIVQPPLKVEKGALAVPQCPGIGIDVDKEKLAEVTQQSSVHTLL	PGPT0009375_699	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009375-menC-K02549	NA	NA
AK012_02441	312			hypothetical protein	ATGGAACGAAATCAATATTACATTAACATAGGTACGCGGGAAATTTCCTTGAATCATGACGCCAACAATGATGATTTTATTATCTATGCCACCCCTGAGGAAGTGAGGGCTCTCCGTGAGGTGTTTGATGAAATAGCTCAATCCGATGTCCGGTCCTTTTACAGGGCCCACATTCCATTCATGCCTTACCATCAGGATCAGGATAACGATGATACCGATGCCGACATGCATAAGGCTTTCCAGCGGATCTATGAGCTGGGCGATGAGATGACGAAGAAGCATATCGAGGATATGGGTGTTTTAAGAAATTGA	MERNQYYINIGTREISLNHDANNDDFIIYATPEEVRALREVFDEIAQSDVRSFYRAHIPFMPYHQDQDNDDTDADMHKAFQRIYELGDEMTKKHIEDMGVLRN				NA	NA	NA	NA	NA
AK012_02442	465	ytkD	COG0494	Putative 8-oxo-dGTP diphosphatase YtkD	ATGAAAACTTTTTATGATTTTTATCACAATCCTGTCCGGTTATCCTTTGAGGATCACCCTTTTTCTGAAGAGCCTAAACATGTGTGGGTCATCTGCCGCTTTCGCGACCAGTGGCTGTTAACCCGTCACAAAGACAGAGGGCTTGAATTTCCAGGAGGAAAAGTGGAAGAAGGAGAGACGGCGGAACAGGCAGCAGTAAGAGAAGTGAAGGAAGAAACAGGAGCGGATATTGATGCTCTGACTTATCTCGGCCAGTATCATGTTGATGGAAAAGGCGGAACTGTGATCAAAAACGTCTATTTCGCTTCAATATCTGAGCTTGCTGATCAGGATCATTATTTTGAAACGCATGGCCCTGTTCTTTTCCGGCACCTGCCGGGCAACCTGAAAAACAACGACCGGTTCAGCTTCATGATGAAGGATGAGGTTCTTCCGGAATGTTTAAAGCGGCTGGAACACCGCTGA	MKTFYDFYHNPVRLSFEDHPFSEEPKHVWVICRFRDQWLLTRHKDRGLEFPGGKVEEGETAEQAAVREVKEETGADIDALTYLGQYHVDGKGGTVIKNVYFASISELADQDHYFETHGPVLFRHLPGNLKNNDRFSFMMKDEVLPECLKRLEHR				NA	NA	NA	NA	NA
AK012_02443	1593	pckA		Phosphoenolpyruvate carboxykinase (ATP)	ATGAGTACCATTAACCAATTGTCAGAACTTAATCTTCTACTCTCTCAGGACCATGTCTACCACCAACTATCTGTTCCACACTTAGTGGAGAAGATTTTATACCGCAATGAAGGTACATTAACAGAAAAAGGGGCGGTGCAGGCCACAACCGGCACTTACACGGGCCGTTCCCCCAAAGACAAATTCATTGTCCGTGATGACGTGACTGAAGATAAAGTCGAATGGGGGGCTGTAAACCAGCCCATTGATGATGATACGTTTGTGAAATTATACCATAAAGTGCTCGGTTATTTGAAAGACCGCCGTGAGTTATTCGCGTTTAAAGGGTTTGCCGGAGCGGATGAGCGCTACCGCCTTCCTATGCAGGTGCTTACAGAATTCGCCTGGCACAATTTATTTGCCCGCCAGATGTTCATCCGGCCGGAGGCATCCGAATTGGAGGAGCATGACACAGAATTCACCGTTATATCGGCTCCGACATTTAAAGCGGACCCTGACGTGGACGGCACGAATTCCGAAGCGTTCATCATGGTTTCCTTCAAGCACCGTATTGTCCTCATCGGAGGAACGGAATATGCAGGAGAAATTAAGAAGTCCATCTTCTCCGTCATGAACTATCTGCTTCCGGAAAGAAACGTACTGCCTATGCACTGTTCCGCCAACATCGGGAAAGAAGGCGACGTGGCTCTGTTCTTCGGCCTTTCCGGCACTGGAAAAACGACATTATCCGCCGATCCTCAACGACGGTTGATCGGAGACGATGAACATGCCTGGTCCCCTTACGGCGTCTTTAACATTGAAGGGGGATGCTATGCGAAGTGCATCAACCTGTCGAAGGAAAAAGAACCACAGATTTACGACGCCATCCATTTTGGTTCCGTCTTGGAAAACGTTGTCCTCCATCCGGATTCGCACGCCCCGGATTATGACGACACCAGCCTGACGGAAAACACACGGGCGGCGTACCCGCTTGATCATATTGATAATACAGTCCAGCCGAGCATTGCCGGTCATCCGAATGCCATCATTTTCTTAACAGCCGATGCCACAGGGGTGCTCCCGCCGATCAGCCGTTTAACAAAAGAACAGGCGATGTACCATTTCCTCAGCGGCTATACGAGTAAGCTGGCCGGGACGGAAAGAGGAATCACGAAACCGGAAGCCACTTTCTCGGCCTGCTTCGGTTCCCCTTTCCTGCCGCTCGCTCCATCTGCTTATGCAGAGATGCTTGGCGAGAAAATTGACCAGTTCAATACTGATGTGTTTCTTGTCAATACAGGCTGGTCCGGAGGAGCGTACGGAGAAGGAGAACGCATCAAACTGAGTTACACCCGCTCTATGATCCACGCAGCCCTGGAAGGCGAGCTGAGTTCAGCTGAAACGTACAAGGATCCGGTGTTCGGTCTTCATATCCCGACGCACTGCCCGGGAGTACCGGACGAAGTCTTATTCCCGAGAAAGACGTGGAAAAACCCCGCTGCCTATGATGAGAGTGCAAAGGAACTGGCCGATAAGTTCCATGCAAATTTCAAAAAATTCACGTATGCCAGTGAAAAAATCAAGCAGGCCGGTCCGATCCACCATACAAACTGA	MSTINQLSELNLLLSQDHVYHQLSVPHLVEKILYRNEGTLTEKGAVQATTGTYTGRSPKDKFIVRDDVTEDKVEWGAVNQPIDDDTFVKLYHKVLGYLKDRRELFAFKGFAGADERYRLPMQVLTEFAWHNLFARQMFIRPEASELEEHDTEFTVISAPTFKADPDVDGTNSEAFIMVSFKHRIVLIGGTEYAGEIKKSIFSVMNYLLPERNVLPMHCSANIGKEGDVALFFGLSGTGKTTLSADPQRRLIGDDEHAWSPYGVFNIEGGCYAKCINLSKEKEPQIYDAIHFGSVLENVVLHPDSHAPDYDDTSLTENTRAAYPLDHIDNTVQPSIAGHPNAIIFLTADATGVLPPISRLTKEQAMYHFLSGYTSKLAGTERGITKPEATFSACFGSPFLPLAPSAYAEMLGEKIDQFNTDVFLVNTGWSGGAYGEGERIKLSYTRSMIHAALEGELSSAETYKDPVFGLHIPTHCPGVPDEVLFPRKTWKNPAAYDESAKELADKFHANFKKFTYASEKIKQAGPIHHTN	PGPT0001405_1873	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
AK012_02445	1197	metK		S-adenosylmethionine synthase	ATGCCAGCGAACCGCCGGTTATTCACATCAGAATCCGTGACAGAAGGTCATCCGGACAAAATCTGTGACGCTATTTCTGATGCTATTTTAGATGAAATTTTAAAAAACGACCCGAATGCAAGGGTGGCATGTGAGACAACAGTAACTACGGGACTTGTACTGGTTTCCGGTGAAATTAGTACGAATACCTATGTTGATATTCCATCGATCGTGCGCCAGACGATTAAAGATATTGGATATACACGCGCAAAATACGGCTTTGATGCTGATACATGTGCCGTTTTAACGGCTATTGACGAGCAGTCTCCCGATATTGCGGGCGGGGTGGATGTTGCGCTTGAATCCCGCGAAGGAAAAATGAGCGATGATGAAATAGAAGCCATCGGTGCTGGTGACCAGGGATTGATGTTCGGGTTTGCCAACAATGAAACGCCTGAACTGATGCCTCTGCCTATTTCTCTTGCCCATAAACTCTCCAAGCGTCTATCTGATGTAAGGAAAGATGGTACGCTCGATTACCTTCGTCCTGATGGGAAGACACAGGTAACGATCGAATATGACGAAAATGACAAACCGGCCCGTGTGGATACGATTGTTATTTCCACACAGCACGCCGAGGAAGTGACGCTTGAACAAATCCAGAAAGATTTGAAGGAGCAGGTCATTGCACCGGTTGTACCGGAAGGCTATATTGATGACGAGACAAAATATTTCATTAATCCGACCGGACGTTTTGTGATCGGAGGTCCTCAAGGGGATGCCGGCTTAACAGGACGTAAAATCATTGTCGATACGTACGGTGGTTATGCACGTCACGGCGGTGGTGCCTTCAGTGGGAAGGACGCGACCAAAGTGGACCGTTCCGCTGCGTACGCAGCCCGTTATGTAGCGAAAAATATCGTAGCCGCAGGCCTGGCGGATACGGTGGAAGTACAGCTCGCCTATGCTATCGGTGTAGCTCAGCCTGTTTCCATTTCCATCAATACGAGTGGATCCGGGAAAGTATCTGAGGAGAAGCTGGTGGACGCTGTCCGTGACCTGTTTGATCTCCGTCCGGCAGGAATCATTAAAATGCTGGATCTTCGCAAGCCGATTTACAGGGATACGTCTGCGTATGGTCATTTCGGCCGTACAGATATCGAGTTTCCTTGGGAACGCACAGATAAAGCCGAAGAGCTCAGCCGTCGTTTTCAATAA	MPANRRLFTSESVTEGHPDKICDAISDAILDEILKNDPNARVACETTVTTGLVLVSGEISTNTYVDIPSIVRQTIKDIGYTRAKYGFDADTCAVLTAIDEQSPDIAGGVDVALESREGKMSDDEIEAIGAGDQGLMFGFANNETPELMPLPISLAHKLSKRLSDVRKDGTLDYLRPDGKTQVTIEYDENDKPARVDTIVISTQHAEEVTLEQIQKDLKEQVIAPVVPEGYIDDETKYFINPTGRFVIGGPQGDAGLTGRKIIVDTYGGYARHGGGAFSGKDATKVDRSAAYAARYVAKNIVAAGLADTVEVQLAYAIGVAQPVSISINTSGSGKVSEEKLVDAVRDLFDLRPAGIIKMLDLRKPIYRDTSAYGHFGRTDIEFPWERTDKAEELSRRFQ	PGPT0020000_2604	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
AK012_02446	513	yrdA	COG0663	Protein YrdA	ATGATTTGCGAATATAAAGGAAAACAACCTCAGATTCATCCGACCGCTTTTACAGCAGAAGATGCCGTAATCACCGGTGATGTTGTCATAGACGAGAACGCCAGCATCTGGTTTAAGACAGTCATCCGCGGCGATGTTTCACCCGTACATATCGGTAAAAACACGAACGTCCAGGATCTGAGCATGCTGCATCAAAGTCCTGGTCAGCCGCTCATCCTGGAGGATGGTGTTACAGTCGGCCACCAGGTCACCCTCCATTCCGCACACATTAAAAAAGACGCCTTGATCGGCATGGGCTCGATGATTCTTGATGGCGCTGTCATCGGAGAACGCGCCTTCATTGGAGCCGGAAGTCTCGTTCCACCCGGCAAGGAAATCCCACCGGACACTCTTGCCTTCGGCCGCCCGGCCAAGGTCGTGCGTTCCCTTACAGAGGAGGACTACAAGGAGATGGACCGGATCAGAGCATCTTATGTAGAAAAAGGACACGAGTATAAAAGCCTGCGGGGCTGA	MICEYKGKQPQIHPTAFTAEDAVITGDVVIDENASIWFKTVIRGDVSPVHIGKNTNVQDLSMLHQSPGQPLILEDGVTVGHQVTLHSAHIKKDALIGMGSMILDGAVIGERAFIGAGSLVPPGKEIPPDTLAFGRPAKVVRSLTEEDYKEMDRIRASYVEKGHEYKSLRG	PGPT0002425_599	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILISATION-OTHER_ACID_METABOLISMS	K-SOLUBILISATION-CARBONIC_ACID_BIOSYNTHESIS,PGPT0002425-GAMMACA_like-K01726	NA	NA
AK012_02447	777	ytpA	COG2267	Phospholipase YtpA	GTGGAAAAACTGGAATCAGCCCGTGACCGGGCGACGATCATTCTCGTCCATGGGGCATTTGAGCATATGGGAAGATATAAGGAACTCGTCGGACGTTTTCGGCGGGACGGTTTCTCGGTAATCTATGGAGACCTCCCGGGCCAGGGACTGTCTGATGGGAAGAAAGGTCATATCCGTTCTTTTGGTGATTATGTTGAAACCATTCAAAGCTGGTACGAGCAGGCGGATCCGGAAAAAGCGGTTTTTCTCCTTGGCCACAGCATGGGAGGACTGGCCGCGATCCGTTTCATGGAGGAGAAACAGCCGGAGCTTGCCGGCGTTGTGTTATCCTCTCCTGCGGTAAGCATCCGGAATAAAGCAGCGCGTCCGTTGGAGGCTTTGTCTTATCTATTGAATGTTTTTACACCTTCCCTGCGTATGAAAGCAGGACAAAACCCCGAAAATGTAACTAGAAATCAAATAAAGGTCGAAGAATTCCGTCAGGATCCCCTTGTCATTGATAAAGTTTCTGTCCGGTGGTATCGTGAGTTTCAAAAGGCAGGAAACCGGGCGTTTCAGCAGGCCGGTCGTTTTCCGGATGTCCCTCTCTTAGTTATGCAGGCAGCGGAAGACTTGTTGGTAGAGCCGGGACGCACGAAGGAATGGTTCAACCTTGTTGATACAAGTGAAAAAAGTTATAAACTCTGGCCGGGGCTTTATCATGAGATTTTCAATGAACCTGAAAATGACCAGGTCTACCAATATACCCGGTCTTTTCTGAATCAACATATTACATGA	MEKLESARDRATIILVHGAFEHMGRYKELVGRFRRDGFSVIYGDLPGQGLSDGKKGHIRSFGDYVETIQSWYEQADPEKAVFLLGHSMGGLAAIRFMEEKQPELAGVVLSSPAVSIRNKAARPLEALSYLLNVFTPSLRMKAGQNPENVTRNQIKVEEFRQDPLVIDKVSVRWYREFQKAGNRAFQQAGRFPDVPLLVMQAAEDLLVEPGRTKEWFNLVDTSEKSYKLWPGLYHEIFNEPENDQVYQYTRSFLNQHIT	PGPT0023520_1323	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_LYSOPHOSPHOLIPASE_ACTIVITY,PGPT0023520-pldB-K01048	NA	NA
AK012_02448	1074	ytpB		Tetraprenyl-beta-curcumene synthase	TTGAAGGAGTCCGTTCCAAGCAATGCTGTCCATCTGCTTTATGAAGTGTATCGGAATGTGTTTCCACGTGTACATAAAGAATTAGCGTATTGGAAAGATGCCGCTGCCCGAATCCCTGACGAGGAATTAAGAACACAGGCACTAGCCAGTATCCAGGAGAAGACCTTCCATTGTGAAGGCGGGTCCATTTATTCCGTACTGGCCGGTGACAACCCTGGTCCGGCGGTCCGTTTTATTGTAGCTTACCAGACTATCAGCGACTATCTGGATAACTTGTGTGACCGGAGCACTTCCATGGATCCCAATGATTTTGAGATGCTTCACACGTCGATGGCGGATGCGTTAACCCCCGGCAATCCGTGCCGGGATTATTATTATTACAGGAATGAGAAGGATGATGGAGGGTACCTGCATGATCTTGTGAAAACCTGCCAGGAAGTACTGAGCCAGGCGGATGGGTATAGGTTTGTACATAATAGAGCCCTCCGTCTCGGCCGATTGTATTGTGACCTGCAGGTGCATAAGCACGTCATCGAAGAGGAAAGGATTCCAAGGCTTCAGCAGTGGTTTGAACATCATCAGACCGACTGGCCGGAATTGAAGTGGTATGAATTCTCCGCCTGCACCGGTTCCACTCTCGGCATCTTCTGTCTTGTTTCCTATGCGCTCGGAAACAAAATGGATGAGGAGCTTGCCGGGATGATCGAGGAAAGTTACTTTCCATTTATGCAGGGCCTTCACATTCTGCTCGACTATTATATCGATCAAGAAGAGGATGAACGGGAAGGCGACCTGAATTTTTGTTCTTATTATGATCATCAGGAGCAGATGAAAGGAAGGTTTGAATATTTCGTTCGAAAAACGGATGAAGAGGTGCAGAAACTTCCGGATCGTGCGTTTCATCAGATGATTCATAAAGGGCTTGTCGGTATGTATCTGGCCGACCGGAAAGTCGGAAGGTTATCCAACGCCAGGAGTTTTGTGAAGGATATGCTGAAAATCAGCGGCCGTAAAACCGCGTTCTTCTATTTTAATACGAAAATGTATCATAAATTAAAGCCTGGCAGAGGTTAA	MKESVPSNAVHLLYEVYRNVFPRVHKELAYWKDAAARIPDEELRTQALASIQEKTFHCEGGSIYSVLAGDNPGPAVRFIVAYQTISDYLDNLCDRSTSMDPNDFEMLHTSMADALTPGNPCRDYYYYRNEKDDGGYLHDLVKTCQEVLSQADGYRFVHNRALRLGRLYCDLQVHKHVIEEERIPRLQQWFEHHQTDWPELKWYEFSACTGSTLGIFCLVSYALGNKMDEELAGMIEESYFPFMQGLHILLDYYIDQEEDEREGDLNFCSYYDHQEQMKGRFEYFVRKTDEEVQKLPDRAFHQMIHKGLVGMYLADRKVGRLSNARSFVKDMLKISGRKTAFFYFNTKMYHKLKPGRG				NA	NA	NA	NA	NA
AK012_02449	576	rsmH_2		Ribosomal RNA small subunit methyltransferase H	ATGATTTTAAATAAAATACTCGACCAGGCCCACGCCCTTATGAAGAAGGCTGTTCATGAAGGCAGTGCTGTCATCGATGGAACGTGCGGCAACGGTCACGACACCTTATTCCTATCCAACCTTGTCGGAGATGACGGGCACGTTTATGCCTTTGATATCCAGGAACAGGCCGTTGAAAATACAAAGGCACGTTTAAAAGAGCATCACAGACTGGAGCGGACCACGGTCATTCATGACTCCCATACCCATATTGAAGAGCACCTGCAGGAAGATCATAAGGGCATGATCCAGGCGGCTATCTATAACTTAGGATATCTGCCCGGCAGTGATAAACGTGTCATCACAAAACCCGATGACACCATTACATCCATCCAAACCGTACTTAAATCACTGAAAAAGGGCGGACTCGTCGTCCTCGTCGTCTACCATGGCCATCCGGGAGGGAAAGAGGAAAAAGACGCCGTGCTTGATTATGTCTCCTCTCTGGATCATAAAGACTATGAAGTGCTCAACTACAGCTTTATCAACAAGGACCGGACCCCGCCGTTTATTATCGCCATTGAGAAAAACGTATAA	MILNKILDQAHALMKKAVHEGSAVIDGTCGNGHDTLFLSNLVGDDGHVYAFDIQEQAVENTKARLKEHHRLERTTVIHDSHTHIEEHLQEDHKGMIQAAIYNLGYLPGSDKRVITKPDDTITSIQTVLKSLKKGGLVVLVVYHGHPGGKEEKDAVLDYVSSLDHKDYEVLNYSFINKDRTPPFIIAIEKNV				NA	NA	NA	NA	NA
AK012_02451	2415	leuS		Leucine--tRNA ligase	GTGGCTTTTGATCATAAAACGATAGAGAAAAAGTGGCAGAATTACTGGTTGAACGAAAAAACGTTCAAAACAGACAGTTATTCAGACAAACAGAAATTTTACGCATTGGATATGTTCCCATATCCGTCCGGTGCAGGTCTGCACGTCGGACACCCGGAAGGTTACACAGCAACAGACATCCTTTCCCGTATGAAACGGATGCAGGGTTATGAAGTTCTGCATCCGATCGGCTGGGATGCCTTCGGTCTTCCGGCGGAACAGTATGCATTGGATACAGGGAATGACCCGGAAGAATTTACAAAGCAGAATATTGATAACTTCCGCCGTCAAATCCAGGAACTTGGTTTTTCCTATGACTGGGACCGTGAAGTCAATACGACCGATCCGGATTATTATAAGTGGACACAGTGGATCTTCCTGAAGCTTTATGAGAAAGGTCTCGCCTATATTGATGAAGTGGCTGTAAACTGGTGCCCTGCTCTTGGTACGGTGCTGGCCAATGAAGAAGTCATTGACGGAAAGAGTGAGCGCGGAGGACATCCTGTTGAGCGTCGTCCGATGAAACAGTGGATGCTGAAAATCACGGCTTATGCTGACCGCCTGTTGGATGACCTCGAGGAACTGGACTGGCCCGAAAGCATTAAGGATATGCAGCGTAACTGGATCGGGAAATCTGAAGGAGCCGAAGTTACTTTTGGACTGGATGGGACAGACCGTACTTTTGACGTATTCACAACACGTCCGGATACTTTATTCGGAGCCACCTATGCGGTCCTTGCACCAGAGCACCCATTAGTCGATGAAATCGTAACAGGTGAACAAAAAGAAGAGGTTTCCGCTTATATTGAAAAAGCGAAACATAAGAGCGACCTTGAGCGTACAGACCTGGCGAAGGACAAAACCGGGGTATTTACCGGAGCCTATGCAGTCAATCCGATCAACGGAGAAAAACTTCCGGTATGGGTGGCTGACTATGTACTTATGAGTTATGGAAGTGGAGCGATTATGGCGGTCCCTGCTCATGATGAGCGGGATTACGAATTTGCTCAAGCTTTCGATCTGCCCATCACCCCTGTAGTCGAAGGCGGGAATGTAGAAGAAGCGGCCTATACAGAGGACGGACCGCACATCAATTCCGACTTCCTGAACGGCCTTCAAAAAGACGAAGCGATTCAAAAAGCCATTGAATGGCTGGAAGATAAGGGCCGGGGCCGGAAACAGACGACATACCGTCTGCGGGACTGGTTGTTCAGCCGTCAGCGTTACTGGGGCGAGCCAATCCCTGTCATTCACTGGGAAGATGGATCGATCACCCCGGTCAAAGAAGCAGATCTTCCTATTGAACTGCCGAAAACAACGGAGATCAAGCCATCTGGTACTGGGGAATCTCCATTGGCTAATATCGATGAGTGGGTAAATGTTGTGGACCCTGAAACGGGAATGAAGGGACGCAGAGAAACGAATACCATGCCACAGTGGGCAGGAAGCTGCTGGTATTACCTTCGTTATATTGATCCATCCAATTCCGAAACCTTTGCAGACTATGAAGCCCTGAAGAAATGGCTTCCTGTGGATGTGTATATTGGTGGTGCTGAACATGCTGTCCTTCACCTTCTTTATGCCCGCTTCTGGCACAAGGTTCTATACGATGCAGGTGTCGTTCCAACAAAAGAACCGTTCCAAAAGCTGTTCAACCAGGGAATGATCCTTGGGGAGAATAATGAGAAGATGAGTAAATCCAAAGGGAACGTTGTGAATCCTGATGACATCGTTCATTCACACGGAGCAGATACTCTGCGCCTCTATGAAATGTTCATGGGACCATTGGAAGCTTCTATCGCATGGTCGACGAACGGTCTGGACGGTGCCCGTCGTTTCCTTGATCGTGTATGGAGGCTCTTCATGCCGGACGGTGAGCTCTCAAGCTCCATTCAACCAGAACAATCCGGTCATCCTATGGAAAAGGTCTATCATGAGACGGTTAAGAAAGTAACGGAAAACTTTGAGGAACTGCGTTTCAATACAGGAATCTCTCAGATGATGGTCTTCATTAATGAAGCCTATAAAGCCGATACGATTCCTAAAGCCTATGCCGAAGGCTTTGTCCAGCTGCTTTCCCCGGTTGCCCCGCACATTGCTGAAGAACTATGGGAGAAGCTGGGCCATGAGGAAACCATCACGTATCAGCCGTGGCCTTCTTTTGATGAATCCAAACTCGTCGAAGATGAAGTGGAAATTGTCGTACAGGTTATGGGTAAAGTAAGAGCGAAAATGATGGTTCCGGCTGAGGCATCCAAAGAGGATCTTGAAAAACAAGCGCTGGAAAATGGAGATGTTCAGGAGTGGCTGGAAGGAAAAACGGTTCGTAAGGTTATAGCAGTACCAGGGAAACTTGTGAATATTGTAGCTAACTGA	MAFDHKTIEKKWQNYWLNEKTFKTDSYSDKQKFYALDMFPYPSGAGLHVGHPEGYTATDILSRMKRMQGYEVLHPIGWDAFGLPAEQYALDTGNDPEEFTKQNIDNFRRQIQELGFSYDWDREVNTTDPDYYKWTQWIFLKLYEKGLAYIDEVAVNWCPALGTVLANEEVIDGKSERGGHPVERRPMKQWMLKITAYADRLLDDLEELDWPESIKDMQRNWIGKSEGAEVTFGLDGTDRTFDVFTTRPDTLFGATYAVLAPEHPLVDEIVTGEQKEEVSAYIEKAKHKSDLERTDLAKDKTGVFTGAYAVNPINGEKLPVWVADYVLMSYGSGAIMAVPAHDERDYEFAQAFDLPITPVVEGGNVEEAAYTEDGPHINSDFLNGLQKDEAIQKAIEWLEDKGRGRKQTTYRLRDWLFSRQRYWGEPIPVIHWEDGSITPVKEADLPIELPKTTEIKPSGTGESPLANIDEWVNVVDPETGMKGRRETNTMPQWAGSCWYYLRYIDPSNSETFADYEALKKWLPVDVYIGGAEHAVLHLLYARFWHKVLYDAGVVPTKEPFQKLFNQGMILGENNEKMSKSKGNVVNPDDIVHSHGADTLRLYEMFMGPLEASIAWSTNGLDGARRFLDRVWRLFMPDGELSSSIQPEQSGHPMEKVYHETVKKVTENFEELRFNTGISQMMVFINEAYKADTIPKAYAEGFVQLLSPVAPHIAEELWEKLGHEETITYQPWPSFDESKLVEDEVEIVVQVMGKVRAKMMVPAEASKEDLEKQALENGDVQEWLEGKTVRKVIAVPGKLVNIVAN				NA	NA	NA	NA	NA
AK012_02452	312		COG0607	Sulfurtransferase	ATGAATCAAATCAAAGAAGTAACACCACAGGAAGTCGAAAATAAATTGGAAGAAAACGAAGAATTTACAATTATAGATGTGAGGGAAGATGAAGAAGTGGCTGAAGGTATGATCCCTGGTGCCAGACACATTAAACTGGGCGACATTCCGCAGTCTGTGGATCAGCTTCCGAAAGATGAATCCTACGTGATGGTCTGCCGTTCCGGCCGTAGAAGCATGAACGCATCAGAATTTATGAAAGAAAAAGGCTTCTCCGACGTATCCAACATGGAAGGCGGTATGTTGAAATGGAACGGGGAACTCGTCTTTTAA	MNQIKEVTPQEVENKLEENEEFTIIDVREDEEVAEGMIPGARHIKLGDIPQSVDQLPKDESYVMVCRSGRRSMNASEFMKEKGFSDVSNMEGGMLKWNGELVF	PGPT0014648_1000	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-PHAGE_DEFENSE_SYSTEM	CE-BACTERIAL_FITNESS-PHAGE_SHOCK_PROTEINS,PGPT0014648-pspE-K03972	NA	NA
AK012_02453	333			hypothetical protein	ATGGAATTTGTATATGGATCAGCCATCCTTTTATTCCTGACCACCCTGTTCTACTATGCACGGAAGTCTTCACCGAAACCTTACTTTACCCAGTCGGCTTCAGGAGAGGATGTGTGCGTAATCGATATCAGGGACTATATCATTGCCCACCGTTCTCCTTATCCGGGTGCAGAGAATATTCCGTTGAATTATCTGCCCCGGGCGTTGAAAGAACGGTTTGACTGTACGAAGGATATACTGGTAATTTCTGATAATAAGCGGGCCGCCAGAATGGCCGCACGTATGATTAGAAAGAAAAAAAGAAACGCTGTCTATTACATGCAGCCGGAATGA	MEFVYGSAILLFLTTLFYYARKSSPKPYFTQSASGEDVCVIDIRDYIIAHRSPYPGAENIPLNYLPRALKERFDCTKDILVISDNKRAARMAARMIRKKKRNAVYYMQPE				NA	NA	NA	NA	NA
AK012_02454	885			hypothetical protein	ATGGAAGATTTATTACGTCCGATATATCAGGAAAGAGCCAGCCAGAGCAGTACCCTGGGCATCCTGATCCTTGAAAAGAACAAACCAATCAGTCCGGTCACGGATAACTTTGATGTGATCCTCTTTATTATCGTCCGTGATGCGGAAGAGCTGTGGTATGTGAAGCATTATGAATTTGAGAACAAATCAGCAGCTATGCATATTGTGGATGAAACCCTCCTCCATCACTGGATAGATACCAGCTCCTACCGGCGGGCGGTGGAATGGGTGATCAATGGAAGCATTATCTTTGAAAGAAATGAATATGTGACATTAATGAAAGAGCACCTTAGGGAATTCCCTCAAAAGAACCGCAACCTGAAGAAAGCGATAGAATTTGCCAAGCTGATACGAAGCTACAGTGAATCCAAGGATCTTTATGATTCCGAACAATATCTGGACTCCTACAGCAGGATGGTCAGTTCGCTCCATTATTTAGCCAGGTTGTCCATTATAGAGAAAGGTTTTCATCCGGAAGTCACAGTATGGAATCAGGTGAAGCGGATTGAGCCTGAAATCTATAAACTCTATCAGGAGTTGATTGAAAGTGGGGAACCGACGGATAAACGGATCCAGTTAATGATTCTGGCCGTGGAGCATTCCATCAGCAAACGCGCCCGTTCCAGCGCCCAGCATCTCCTGGAGTTGATGAACGAGAGGGAGGAGCCATGGTCGTTCGGTGAATTGAAAGTGCATCCGGAAATCCAGGAATACATTCTGGATCTGTCCTCGATGATTGAGTATCTCGTTGAACATGGAGCGATAGAGGTGATCCCGCAGGAAACGAAGGGACCGCAGATTTTCCACCGCACCTATAAACCTGTAGAACAACCGATAAACGAATAG	MEDLLRPIYQERASQSSTLGILILEKNKPISPVTDNFDVILFIIVRDAEELWYVKHYEFENKSAAMHIVDETLLHHWIDTSSYRRAVEWVINGSIIFERNEYVTLMKEHLREFPQKNRNLKKAIEFAKLIRSYSESKDLYDSEQYLDSYSRMVSSLHYLARLSIIEKGFHPEVTVWNQVKRIEPEIYKLYQELIESGEPTDKRIQLMILAVEHSISKRARSSAQHLLELMNEREEPWSFGELKVHPEIQEYILDLSSMIEYLVEHGAIEVIPQETKGPQIFHRTYKPVEQPINE				NA	NA	NA	NA	NA
AK012_02455	378			hypothetical protein	GTGGCGTTAAAATACAGCAGTAAAATCAACAAGATCCGTTCTTTTGCTTTCTGGCTGATTTTTCTCGGTATCGGAGTCATGTACATCGGGCTGTTGTTTAAGGACATCGTCTGGCTCATGGCTACGTTCATGATTCTCGGCATGGGTTTTGTCGGATTGAGTACCGTCGTTTACTTCTGGATCGGTATGCTCTCCACCAGAACCATCCAGATCATCTGTCCTTCGTGTGAGAAACCCACCAAGATGCTTGGACGCGTTGACGCGTGCATGCACTGTGATCAGCCGCTGACGATGGACAAGTCTCTGGAAGGTAAAGACTTTGATGAAAAGTACAATAAGAAGAAATACCGCGGCGAAAAGGCTCCTACACAGTCCTGA	MALKYSSKINKIRSFAFWLIFLGIGVMYIGLLFKDIVWLMATFMILGMGFVGLSTVVYFWIGMLSTRTIQIICPSCEKPTKMLGRVDACMHCDQPLTMDKSLEGKDFDEKYNKKKYRGEKAPTQS				NA	NA	NA	NA	NA
AK012_02456	438	perR	COG0735	Peroxide operon regulator	GTGTCTGATCATCGACTCCAGGATGCAATAGATACATTGAAATCATCCGGCGTCCGAATCACTCCACAGCGTCATGCGGTGCTTGAATTCCTGCTTAATGCAATGACCCACCCAACAGCTGACGAAATATATAAAGCGCTGGAAAGTAAATTCCCTAACATGAGTGTGGCCACTGTTTATAACAACCTGCGCGTGTTCAAGGATATCGGACTGGTGAGGGAGCTTACGTATGGAGACTCATCCAGCCGGTTCGACTGTAATACGAGTGACCACTACCATGCTATCTGCAACAACTGCGGAAAGATCGTGGATTTCCACTATCCAAGCCTTAACGAAGTTGAATCATTAGCTGAACAGGTGACGGGATTTGACGTAAGCCATCATCGTATGGAAGTCTATGGAACGTGTTCCAAATGTCAATCGGAAAAGGCCCACTAA	MSDHRLQDAIDTLKSSGVRITPQRHAVLEFLLNAMTHPTADEIYKALESKFPNMSVATVYNNLRVFKDIGLVRELTYGDSSSRFDCNTSDHYHAICNNCGKIVDFHYPSLNEVESLAEQVTGFDVSHHRMEVYGTCSKCQSEKAH	PGPT0012945_565	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012945-perR-K09825	NA	NA
AK012_02457	558	yvqK_2	COG2096	Corrinoid adenosyltransferase	ATGCGTATTTATACAAGATCCGGTGATAAGGGACAGACATCGTTGATTTATGGACAGCGTGTCCCGAAGAATGATGTCAGAGTGGAGGCTTATGGAACGTGTGATGAGGCCAACTCGACGATAGGAACGGCGCTCAGTCACCTGAGGAAGGAGGACTGGACGGATAAGGCAGCATTCATGCAGACGATGGAGAAAATCCAGACGATCCTCTTCCATGTAGGGGCGGAGCTTGCCACACCCAAGGGGAAGGATGTCACATGGAAGCTGAAGCAGGAGCATATCGACGATCTTGAACAGCAGATCGACTCGTGGGATCAGGATCTTGCCCCGCTGAAGAACTTCATACTACCATCAGGGCATGAAGCTTCAGCCGCCCTCCACTTGGCACGGACCGTTGTGCGGAGAGCGGAAAGACTGGCCGTCACTCTGGAGGAGGAGCTGAATAACCCGCTTGTCGTCTCCTATTTGAACCGTTTATCCGATTTCTTATTTGTAGCCGCCAGGTATATTAATAAGAAGCTGGGTGGCAAAGAGACGCCTCTTCATCCGGATGTGTAA	MRIYTRSGDKGQTSLIYGQRVPKNDVRVEAYGTCDEANSTIGTALSHLRKEDWTDKAAFMQTMEKIQTILFHVGAELATPKGKDVTWKLKQEHIDDLEQQIDSWDQDLAPLKNFILPSGHEASAALHLARTVVRRAERLAVTLEEELNNPLVVSYLNRLSDFLFVAARYINKKLGGKETPLHPDV				NA	NA	NA	NA	NA
AK012_02458	954		COG0111	Hydroxypyruvate reductase	ATGAAGATTGTTTCAGCGATTAAGAGGGTTCCAGAGTCAATCCGGATTCATTTGAGTCATCGTTTTCAAGATGTAGATTTCGTTTTCTGCCACGGTATGCATGAGGCGCAGCATTACTTACCAGAAGCGGATGTATTCATTACATACGGGGAGGATCTGGATGAAGCAAAGATCCAGGTGGCCAAGAAATTGAAATGGATCATGGTTTTATCTGCCGGTATGGACCGGATGCCGTTTGACGAAATTAAAAAGCGCGGCATCCTTGTGACCAACGTCCGGGGCATTCATGCCAAGCCGATGGCGGAATATGCCATATCCATGCTGCTGCAGGTGTCAAGGAAAGCTAAGACGCTGATTAAACAGGAGCAGAAGCGGGAATGGAGCCGGAGAGCCGTAATGAATGAAATCAGTGAACGTACAATCGTCCTGCTCGGCACAGGAGCGATTGCCCAGGAAACGGCCCGCCTTGCCGGAGCTTTTGGAATGACAACGATCGGTCTGTCCAAGTCCGGCGTGCCGAAGGATCATTTTGATCAGGTGTATCCGATTTCTGATATCCATCTTATTCTGCCGAAAGCCGATTTTGTTGTGGCCGTTCTTCCAAGTACCAAGGAAACGAGAGGCATGCTGACTCATGCCCATTTCTCCGCGATGCCTGACCATGCGGTGTTTCTGAATATGGGCAGAGGGGACCTTGTTCCTGCCGAGGTCATTATGGATGCTGTGACAACCGATCAGATTGCCCATGCAGTCCTGGATGTATTCGAAGAGGAACCGCTGCCGGAAGCTCATCCGTTCTGGGGGGAGGAAAACGTAACCGTAACGCCGCACATCTCCGGCATTTCGCCTCATTATGTACCGCGGGGCTTTGAGATTTTTGAAGAAAATCTTGACGTGTTCCTGAATGGAGACGGAGAGTTAAGAAATATCATTGATTTAGAACGGGGGTATTGA	MKIVSAIKRVPESIRIHLSHRFQDVDFVFCHGMHEAQHYLPEADVFITYGEDLDEAKIQVAKKLKWIMVLSAGMDRMPFDEIKKRGILVTNVRGIHAKPMAEYAISMLLQVSRKAKTLIKQEQKREWSRRAVMNEISERTIVLLGTGAIAQETARLAGAFGMTTIGLSKSGVPKDHFDQVYPISDIHLILPKADFVVAVLPSTKETRGMLTHAHFSAMPDHAVFLNMGRGDLVPAEVIMDAVTTDQIAHAVLDVFEEEPLPEAHPFWGEENVTVTPHISGISPHYVPRGFEIFEENLDVFLNGDGELRNIIDLERGY				NA	NA	NA	NA	NA
AK012_02459	471	bcp	COG1225	Putative peroxiredoxin bcp	ATGTCTATAGAAAAAGGAAAGCAAGTCGAAGATTTCACACTGCCGGCCAGTAACGGGGAGTCCGTTTCTTTGTCCGATTACAAAGGGAAAAACGTTGTCCTGTACTTTTATCCGAAAGATATGACACCGGGCTGCACAACAGAAGCCTGTGACTTCCGTGATCATCATGAAAGCTTCGAAGATCTGGATGCGGTTATTCTCGGAGTCAGCCCGGACCCGGTTGAATCTCATGAGAAGTTCATTAACAAGCATGACCTGCCGTTTATGCTTCTTGCAGATGAAGACCACAAGGTTTCCGAGGAATTCGGTGTATGGAAGCTTAAGAAAAACTTCGGTAAGGAGTATTACGGCATTGAGCGCTCCACATTCATCATTGATAAAGAGGGGAACCTTGCAGAGGAATTCCGCAAAGTGAAAGTAGACGGCCACGTGGAAGCAGCTCTTGAATACATTCGTGAAAACCTTCAATAA	MSIEKGKQVEDFTLPASNGESVSLSDYKGKNVVLYFYPKDMTPGCTTEACDFRDHHESFEDLDAVILGVSPDPVESHEKFINKHDLPFMLLADEDHKVSEEFGVWKLKKNFGKEYYGIERSTFIIDKEGNLAEEFRKVKVDGHVEAALEYIRENLQ	PGPT0013120_3146	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013120-bcp|PRXQ|DOT5-K03564	NA	NA
AK012_02460	411			hypothetical protein	ATGATTACGATTATCCTCAGCATCCTTTTACTTCTTCTGATGGGGGCGAGCCTCCGGCAGATCTTTCACTCCCTGGAAGTCGAGCATAAAATCTTTTCAAGTCAGCTGTTTATTGCGGTGATGCTTCTGTACACCATCGTGATGACCGGGTTCGGCATGATCTATACCGTGCTGATTCTGGAAGGGATCGAGGTATACCGGACAGGCCTCCCCTATAGACGAGTATCATGGGTCGAGGAATTCATCCGAAGTATCTATTTCAGCGGTGTGACGTTGTTTACCGTCGGCTATGGAGACATGCTGCCTGTAGGAGTGGGGAAGTGGCTGGCAATATTAGAAGCCATGATCGGCTACACGCTGCCCGCTGCTCTTGCGGCTAAGGTATGGCAGAGTAACAAAAACAGAGACTGA	MITIILSILLLLLMGASLRQIFHSLEVEHKIFSSQLFIAVMLLYTIVMTGFGMIYTVLILEGIEVYRTGLPYRRVSWVEEFIRSIYFSGVTLFTVGYGDMLPVGVGKWLAILEAMIGYTLPAALAAKVWQSNKNRD	PGPT0013815_49	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013815-lctB-K08713	NA	NA
AK012_02461	1296	hemL1	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase 1	ATGAACATCAAACGTTCAGAACAATTATATAAAGAAGCTGAAGAACATATCGTCGGCGGGGTGAACTCTCCTTCACGTGCCTACAAAGGTGTCGGTGGTGGTACACCGGTGTACATGGACAGAGCTGAGGGCTCCCGTTTCTATGACGTCGACGGCAACGAATACATCGATTACCTCGGGGCTTACGGTCCAATCATCACCGGACACGCCCATCCGCATATTACAGAGGCCATTTCAAAAGCCGCCCAAAACGGCGTCCTTTACGGCACACCGACGATCCTGGAAAACCGCTTCGCCAAAATGTTGAAGGAAGCGGTCCCTTCCCTTGATAAAGTCCGGTTTGTAAACTCCGGAACAGAAGCGGTGATGACGACGATCCGTGTTGCCCGGGCCTATACCGGCCGGAACAAAATCATTAAATTCGCCGGCTGTTATCACGGCCACTCGGATCTTGTGCTTGTCGCCGCCGGATCCGGGCCGTCCACGCTGGGAACACCGGATTCAGCGGGAGTACCCGCGTCTATCGCCCAGGATGTCATTACGGTTCCGTTTAACGATATTGAACCGTTCAAAGAAGCTCTACGGAAATACGGAGACGAAATCGCAGGAGTGCTCGTCGAACCGATCGTAGGCAACTTCGGAATCGTTGAGCCGAAGCCAGGCTTCCTGGAAGCCGTCAATGAGCTGACCCATGAGGCAGGCGCCCTCGTCATTTATGATGAAGTCATCACAGCCTTCCGCTTTACATACGGGAGCGCGCAGCAGTTGTTGAACATCGAACCGGACATGACCGCAATGGGCAAAATTATCGGCGGCGGACTGCCGATCGGTGCCTACGGCGGACGCGCGGACATTATGGAACAGGTCGCACCGCTCGGCCCGGCCTATCAGGCAGGAACGATGGCAGGCAACCCCGCTTCGATGTCCGCAGGAATCGCCTGCCTGGAAGTCCTTCAGCAGGAGGGTGTCTACGATGAAATGGACCGCCTCGGCCAAAAGCTTGAAGAGGGCATTCTCAAGCACGCCGAACATACAGGCGTACCCATCCAGATCAATCGCCTGAAAGGGGCCTTAACGGTTTACTTCACCGATGAAAAAGTAGAAAACTACGAACAGGCGGAGAATACAGACGGAGAACGGTTCGCCCGCTTCTTCAAACTGATGCTTGCCGAGGGCATTAACCTCGCTCCATCTAAATATGAAGCCTGGTTCTTAACGACCGCACACACGGATGAAGATATCGACGAAACGCTCAAAGCTGTAGAGAAAACATTCACTATTATGGCAGCTGAATAA	MNIKRSEQLYKEAEEHIVGGVNSPSRAYKGVGGGTPVYMDRAEGSRFYDVDGNEYIDYLGAYGPIITGHAHPHITEAISKAAQNGVLYGTPTILENRFAKMLKEAVPSLDKVRFVNSGTEAVMTTIRVARAYTGRNKIIKFAGCYHGHSDLVLVAAGSGPSTLGTPDSAGVPASIAQDVITVPFNDIEPFKEALRKYGDEIAGVLVEPIVGNFGIVEPKPGFLEAVNELTHEAGALVIYDEVITAFRFTYGSAQQLLNIEPDMTAMGKIIGGGLPIGAYGGRADIMEQVAPLGPAYQAGTMAGNPASMSAGIACLEVLQQEGVYDEMDRLGQKLEEGILKHAEHTGVPIQINRLKGALTVYFTDEKVENYEQAENTDGERFARFFKLMLAEGINLAPSKYEAWFLTTAHTDEDIDETLKAVEKTFTIMAAE	PGPT0003680_2914	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
AK012_02462	1068			hypothetical protein	ATGAAACTGGGCGCACGGATGATGAAGACAGGTCTTGCGGTCGGCATAGCTCTGTATTTCGGCCACTTGATCGGATTCATCTCTCCCCTACTCGCTGCCATTGCTGTTGTTTTTTCCATTCAACCTTCGATCTACCGTTCCTATCAATCGATTATCGAACAGCTGCAAGGGAACATTATCGGGGCCTTGATCGCCGTTGTTGCGGTATTCACACTTGGAAACGATCCCTTTGTCGTCGGTTTTGCCATTATTCTCGTCATCGGCGTCACTTCCACTTTAAAGATGAACGAAAATACAATTTCTCTTGCGGTCGTAGCGGTTATCGCTTTGATGGATGCCACAGACCAGACGTTCCTATACTTTGCCGGCTCACGACTCTCATCCATGATTCTCGGTATTCTGGCCGCTTTCATCGTGAACCTCGTCTTCCTGCCGCCGCGGTATGAGACACGATTATTCACGAAAATCGACAGAGCCACCAATGATATTCTGCAATGGCTCCGTGTGACAACAAGACAGCTGTCGGACGAGCCTGCCTTAAAATATGAAATCACCAGGATCCAGGATGACATGCGCTGGGTGGATCACACGTATCTGTTGTATTCCGAGGAACGGACATACTTTAAGGGCACGCGTTTTTCCAAAGGCCGGAAGATGGTACTGTTCCGCCAGCTGATTACGACAACGAAAAAATCCTTCGATGTCCTGAAGGCTTTCTACAGGCTGGATCATAAGATCGAGCAGATTCCGGAGGAGTTCCAGGATGCGGTCGTCCAGGAACTGGACAAACTGATCAACGCTCACGAAAAACTTGTGCTGAGCCTGAAAGGCCGAATCAAACGGACGCACAAGCAGTCGCTGCGGAGAATAGAGGAACCGGATATCCCTTTGTTGGTCGAGCGGTTGATGCATGTGTACGAAGAAACCAACAATCCAGACAAACTCGTTTTCCTTCCCCTCGCCTCTCAGCTGATGGAATACCATTATCAGCTCGAGCGGTTGAAAAAGCTCTTGAAAAGTTATCAGAATCACCATCAGGATCATTTCATCCAGACATCAGACAAGTAA	MKLGARMMKTGLAVGIALYFGHLIGFISPLLAAIAVVFSIQPSIYRSYQSIIEQLQGNIIGALIAVVAVFTLGNDPFVVGFAIILVIGVTSTLKMNENTISLAVVAVIALMDATDQTFLYFAGSRLSSMILGILAAFIVNLVFLPPRYETRLFTKIDRATNDILQWLRVTTRQLSDEPALKYEITRIQDDMRWVDHTYLLYSEERTYFKGTRFSKGRKMVLFRQLITTTKKSFDVLKAFYRLDHKIEQIPEEFQDAVVQELDKLINAHEKLVLSLKGRIKRTHKQSLRRIEEPDIPLLVERLMHVYEETNNPDKLVFLPLASQLMEYHYQLERLKKLLKSYQNHHQDHFIQTSDK				NA	NA	NA	NA	NA
AK012_02463	1770		COG1132	Putative multidrug export ATP-binding/permease protein	TTGGACAGCATCAAGAGGTACTTGAAGTTTGTCAAACCGTATAAAGGAAAGATTATTTTAACTGTTCTTATTGGAATCATTAAATTCTCCATTCCGCTGCTGATGCCATTGATAACGAAATACGTGATTGATGACATCATTAATGCGGATCAGCTGGCCCAGTCGGAGAAAATGGACCAGCTTCTCTGGCTGATGGGGGGAGCGCTCTTCGTTTTCCTCATTCTGAGACCACCGGTGGAATATATCCGCCAGTATCTCGCCCAGTGGATCGGGAGCCATATTCTTTACGATATCCGTGAAAAGCTGTTCGATCATATCCAGCGCCTCAGCCTGCGGTTTTACTCCAAAACCAAAACAGGGGAGATCATTTCACGTGTCATTCACGACGTAGAACAGACGAAGACGTTTGTCATAACGGGTTTGATGAACATCTGGCTCGATATGATCACCATTGTTGTTGCGGTTATTATTATGCTGACGATGGATCCGTGGCTGACGCTTGTAGCGATTGCTTTGTTCCCGTTTTACGGATTTGCGGTCAAATACTTTTACGCCCGTCTCCGCCAGTTGACGCGCGACCGTTCCCAGGCGCTTGCTGAAGTACAGGGGCACCTGCATGAACGGGTGCAGGGGGTTCCGGTTACACGGAGTTTCGCCCTGGAAGATCATGAACAGGCCCAGTTCGGTACCAAAAACAAAAATTTCCTGGATAAGGCGATTACCCACACCAATTGGAATGCCTACACGTATACCGTCACCAATACGATTACAGATCTGGCTCCACTGCTCGTCATTACATTTGCGGGTTATCAGGTCATTACCGGCTCCTTGACCGTTGGTACGATGGTCGCGTTTATCGGGTATATGGACCGGGTGTACAATCCGCTGCGCAGACTGGTGAACTCAGCCACGGTCCTGACTCAGTCGATCGCTTCTATGGACCGTGTCTTCGAGTTTGTCGATGAGGAATATGACATCGTCGATGAGCCCGGAGCCAGGAAGCTGGAGCATGTCGATGGCGATGTGCGCCTGGAGGGAGTTTCCTTCCGGTATGACGAAGAAGATCCGCTCGTTCTGAAGGACATCGATCTGCATATCCAAAAAGGAGAAACGATCGCCTTTGTCGGTATGAGTGGAGGCGGCAAGTCTACACTGATCAGCTTGATCCCGAGGTTTTACGACGTGACAGCAGGAAAAATCCTGTTGGATGGCACGGATATCCGAGAGGTTCAGGCTCGTTCGCTCCGTGATAAAATCGGGATGGTACTGCAGGACAACATTTTGTTCAGTGAATCCATTGCGATGAACATCCGTATGGGGAACCCAGATGCGACAGATGAGGAAATGTTCGAAGCGGCCAAGGCAGCCAATGCTCATGACTTCATCATGGATCTTCCCAACGGGTATGACACCCTTGTCGGTGAGCGTGGAGTGAAGCTTTCCGGAGGACAGAAGCAGCGCGTCGCGATTGCGCGTGTCTTCCTGAAAAACCCGCCGCTGTTGGTGCTCGATGAAGCGACGAGTGCGCTTGACCTGGAAAGTGAGCATCTCATCCAGGGAGCGCTGGAGCGTCTGGCATCATCCCGGACGACCTTCATCGTGGCGCACCGCTTATCCACGATTACTCACGCTGATCGGATCGTTCTGATTGAAAACGGGGAAATCGTTGAAGTGGGTCCCCATCATGAGTTGATGAGTAAAAAAGGTCACTATTACGATCTTTATCAGGTTCAGGAACTGGATGAACCGACAACTTATACGAATATGTAA	MDSIKRYLKFVKPYKGKIILTVLIGIIKFSIPLLMPLITKYVIDDIINADQLAQSEKMDQLLWLMGGALFVFLILRPPVEYIRQYLAQWIGSHILYDIREKLFDHIQRLSLRFYSKTKTGEIISRVIHDVEQTKTFVITGLMNIWLDMITIVVAVIIMLTMDPWLTLVAIALFPFYGFAVKYFYARLRQLTRDRSQALAEVQGHLHERVQGVPVTRSFALEDHEQAQFGTKNKNFLDKAITHTNWNAYTYTVTNTITDLAPLLVITFAGYQVITGSLTVGTMVAFIGYMDRVYNPLRRLVNSATVLTQSIASMDRVFEFVDEEYDIVDEPGARKLEHVDGDVRLEGVSFRYDEEDPLVLKDIDLHIQKGETIAFVGMSGGGKSTLISLIPRFYDVTAGKILLDGTDIREVQARSLRDKIGMVLQDNILFSESIAMNIRMGNPDATDEEMFEAAKAANAHDFIMDLPNGYDTLVGERGVKLSGGQKQRVAIARVFLKNPPLLVLDEATSALDLESEHLIQGALERLASSRTTFIVAHRLSTITHADRIVLIENGEIVEVGPHHELMSKKGHYYDLYQVQELDEPTTYTNM				NA	NA	NA	NA	NA
AK012_02464	528			hypothetical protein	ATGCCCGGCCCGGAAGCAGGGAAGCGGATTGAAATTCAAAGCTATAAGCATAATGGGCATTTACACCGTGTTTGGGAAAGTACAACGATATTAAAAGGAACGAGGCATGTCATTATTGGTGCCAACGATCGGACGACCGTCACAGAAAGCGACGGCCGCCGCTGGGTGACAAGGGAGCCTGCCATCTGTTATTTCCATTCCAAGTACTGGTTTAACGTCATCGGGATGATCAGAACAGACGGCGTATACTATTACTGTAATATCAGCTCTCCCTTCATCTATGAGGACGAAACCATCAAGTACATCGACTATGATCTCGATGTGAAGGTGTTTCCGGATATGACGTACAAAATTTTAGATGAGGACGAGTATGAAGTTCATAAAAGAAGAATGAACTATCCTCACGTTCTGGATCGTATCCTTTATAACAATGTGGATATTTTACTTAGATGGATCAGGCAGAGAAAGGGACCTTTCTCGCCGGAATTTATTGATCAGTGGTATGAACGGTATTTAACGTATAGATAA	MPGPEAGKRIEIQSYKHNGHLHRVWESTTILKGTRHVIIGANDRTTVTESDGRRWVTREPAICYFHSKYWFNVIGMIRTDGVYYYCNISSPFIYEDETIKYIDYDLDVKVFPDMTYKILDEDEYEVHKRRMNYPHVLDRILYNNVDILLRWIRQRKGPFSPEFIDQWYERYLTYR				NA	NA	NA	NA	NA
AK012_02465	177			hypothetical protein	ATGGCTAAGCAACCGAAACAAAACAAAACAGCAGCTGGTACGGATGTTAATCACGTAAAACAACAAAACCAACAGGCTGCTCAAGGGAAATCCCAATACGGCGCTGAGTTTGCCCAGCAGACTGATGCACAGCACGTAATCGAGCAGAACCAAAAATCTCAGGCGAAGAAAAAGTAA	MAKQPKQNKTAAGTDVNHVKQQNQQAAQGKSQYGAEFAQQTDAQHVIEQNQKSQAKKK	PGPT0024880_141	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024880-sspE-K06422	NA	NA
AK012_02466	1062	lytE		putative peptidoglycan endopeptidase LytE	ATGAATAAGAAAAAATTGGTTACGGCGGTCAGTGGAGCTTTGCTTGGGGCATCTGTTATGGGAACTTCAGTTTTTGCGGATGAATTACACAAGGTTAAGTCCGGGGATACAATCTGGGACTTGAGCAGGCAGTATGACGGATCTGTTTCAGAAATCAAATCATGGAATGGTCTGAATTCCAGCATAATTTATGTAGGTCAGAGTTTGATTGTTGAAAAAGATGCATCATCTTCACAGAAATCAACGTCGTCTTCCAATTCCGGAAGTGGATCCTACACTGTTAAAAGTGGTGATTCCCTTTGGGCGATTGCAGTAAACCACGGCATGTCCGTTTCTAAGTTGAAGAGTATGAACAATCTTTCCAGTGATATCATCCACCCTGGGCAGAAGCTTTCTCTATCTGGAAGTTCTTCCAGTTCCAGTGAGTCTGCGTCTTCCAGCAGCTCAAGCTCTTCTTCAGAATCAACAAGCACGTATACAGTGAAGAGAGGCGATTCTCTATCTGTCATTGCGTATAAATACGGAACTTCCGTATCCAGCCTTAAGAGCCTGAACGGCTTGTCCGGCACTACGATTTATGTAGGGCAGAAGTTGAAAGTAAGTGGTGAGGCGTCCACATCATCCTCATCGTCATCTTCATCCTCTTCTAGTCATACATCTACCACGAATTCTTCAAGTTCAAACTCTGGATTTGTAGATGGCCTGGTTGCAGAAGCTAAAAAACATATCGGTACACCATATGTATGGGCAGGAAGCACACCATCCGGTTTTGACTGCAGTGGATTCCTTAACTACGTATTCGCTCAGGAAGGCGTAAGCATCCCGCGTACAGTGGCTACCATTTATGCAGACAGCCGCATGCAGTCTGTCAGTGATTCCCATCGTCAGGTCGGAGACATCGTCTTCTTTGAAACGTACAAGCCTGGAGCATCCCACGCAGGGATTTACCTCGGGAACGGCAAGTTCATCCACACAGGTTCTACGAACGGCGTGGAAATCAGCTCCCTTTCCAGCAACTACTGGGGCAGCCGCTACATCGGTACGAAGCGTCTTGCCAACTAA	MNKKKLVTAVSGALLGASVMGTSVFADELHKVKSGDTIWDLSRQYDGSVSEIKSWNGLNSSIIYVGQSLIVEKDASSSQKSTSSSNSGSGSYTVKSGDSLWAIAVNHGMSVSKLKSMNNLSSDIIHPGQKLSLSGSSSSSSESASSSSSSSSSESTSTYTVKRGDSLSVIAYKYGTSVSSLKSLNGLSGTTIYVGQKLKVSGEASTSSSSSSSSSSSHTSTTNSSSSNSGFVDGLVAEAKKHIGTPYVWAGSTPSGFDCSGFLNYVFAQEGVSIPRTVATIYADSRMQSVSDSHRQVGDIVFFETYKPGASHAGIYLGNGKFIHTGSTNGVEISSLSSNYWGSRYIGTKRLAN	PGPT0024005_124	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0024005-lytE|cwlF|yocH-K19224	NA	NA
AK012_02467	225	yfhS		putative protein YfhS	ATGTATGTCGGAAGAGATTTAGCAGGATTGACGATGGAACCGAAGCAGAATTGGGAAGAGAAAGAGCTGGGGTATTTTCATACATCCCTGTCACAGGCCGCGCCCTACCTGAATGCTGAGGGCGTCACACTGCTCAGGGAAATCAACAAAGAAATAGAGCGCCGCGGCGGTCTGGAAGAAAAGGAAGCTTCCTGGACCAGCGGCACTCATACAGTTACGGACTAA	MYVGRDLAGLTMEPKQNWEEKELGYFHTSLSQAAPYLNAEGVTLLREINKEIERRGGLEEKEASWTSGTHTVTD				NA	NA	NA	NA	NA
AK012_02468	1089	mutY	COG1194	Adenine DNA glycosylase	GTGAAACCGAAAGAAAGAGTTCCCTTCCTATTGAATCATACGAATATTGATGCTTTTCAAGATGATCTTATTTCCTGGTTTAAAAAAGAGCAGAGAGTCCTGCCCTGGCGTGAAAACCAGGATCCATACAGAGTCTGGGTATCAGAAATTATGCTCCAACAGACTCGTGTTGATACAGTCATTCCTTATTTTAACCACTTTATGAGCAGATTCCCAAATCCCAAAGCCCTCGCAGACGCCGATGAGCAGGAGGTTTTGAAAGCATGGGAAGGACTAGGTTACTATTCCCGTGCTCGAAATTTGCAAAACGCTGTCAGGGAAGTTGTCGAATCCTATGGGGGTGTAGTCCCTGATGATCCTGATGAACTTGGAAAATTAAAAGGCGTGGGCCCCTATACGAAAGGGGCGATCTTAAGTATAGCTTACGATACGCCGGAACCCGCTGTCGACGGCAACGTCATGCGGGTACTCTCACGCATTCTTTATGTAGAGGATGATATCAGCAAACAGAGCACGAGAAAACTGTTTGAAGCGCTTGTCCGTGAATTGATTTCCAAAGAAGACCCATCCGCCTTCAATCAAGGGCTGATGGAGCTCGGTGCCCTTATATGCACACCGAAAACACCGTCCTGTATGCTGTGTCCGGTGCAGGATCACTGTCAGGCATTTGAAAAAGGAGCGGAAACGGAACTCCCGATTAAAGCATCGAAGAAAAAGCAGAAGAAGATCCCTTATCTTCTGCTCTTGGTTGAAAATGACAAAGGTGAGGTATTGATCGAGCAGCGTCCCGGCGAAGGACTTCTGGCTTCGCTGTGGCAGTATCCGATGGTCCCGCTGGAAGATGTGGACGAGGATTCCGTGCCGGTCTGGATGTACGGGGAATATGGTTTGAAGGTGGAGCTTGGAGAAAAGGTGGACCATGTCAGGCATGTGTTTTCCCACTTGATTTGGGAAATGGATGTAGTCAGAGCCGTTGTGAAAAGCGGCAGACTTGATCATGAGCGTGCGAAGTTTGTCACTCCTGAAGCCATGCTAGATCATCCATTTCCCGTATCCCATCAAAAAGCCCATCCGTATATTAGTCCGTAA	MKPKERVPFLLNHTNIDAFQDDLISWFKKEQRVLPWRENQDPYRVWVSEIMLQQTRVDTVIPYFNHFMSRFPNPKALADADEQEVLKAWEGLGYYSRARNLQNAVREVVESYGGVVPDDPDELGKLKGVGPYTKGAILSIAYDTPEPAVDGNVMRVLSRILYVEDDISKQSTRKLFEALVRELISKEDPSAFNQGLMELGALICTPKTPSCMLCPVQDHCQAFEKGAETELPIKASKKKQKKIPYLLLLVENDKGEVLIEQRPGEGLLASLWQYPMVPLEDVDEDSVPVWMYGEYGLKVELGEKVDHVRHVFSHLIWEMDVVRAVVKSGRLDHERAKFVTPEAMLDHPFPVSHQKAHPYISP				NA	NA	NA	NA	NA
AK012_02469	1002	yfhP	COG1988	putative protein YfhP	TTGGATACTGGTACTCATGTGGTGATGGGCGTGGCCCTCGGTGGAATAGCTACACTTGATCCGGCCGTCAGCTCCGACCCGGCTTTATTCAATGCCGTGCTGATCGGTACGCTGGTCGGATCACAGGCACCGGACATCGACACCGCCCTGAAACTTAAAAACAATGCCGTCTACATCCGCCATCACCGAGGAATTACCCATTCGATTCCGGCGGTCCTTTTGTGGGGAATCAGTATCCCCGGCATCATATACTTATTTAACCCGGAGGTCAACTTTCTCCATTTATGGCTTTGGAGCTTCCTGGCGGTCATCCTGCACGTATTTGTAGACATCTTCAACGCATACGGCACCCAGGCCTATCGTCCGATTACAAAAAGGTGGGTCGCCTATGGCTTCATCAACACCTTCGATCCCTACATTTTCATTCTGCACATTGCAGGGATTGTGGCGTGGAATCTTGGAGCTTCACCCGGAATCATGTGGCTGATCATTTATGGGGTCATCGCCATTTATTATGTGAAGCGGTATTTCGATAAACGGGAGCTTGTCCGTTTGATTCATGAGCATGTGGAGGGAGTTACTCAGATTGCCACCTCTCCCACCATCAAGCAGAACATATGGCGGATTGCCATCACAACGCCCGACCATTATTACGTAGGAAGAGCGGAGAACGGACATTTGAAAATCCTGGACACATTCGTAAATAAACCGATTGATGAAGATGATCCGGTTGTCCAAAAAGCGCTGACAGATCATAACATCAAAGCTTTTCTGTCCTTTTCACCGGTGTACCGCTATGAATTGAGCTATTTTGACGAGTACACGGAAGTCCGCTTCATCGATCTGCGCTACCGCTCCCGGGGACGCTATCCCTTTGTGGCTGTGGCCCAGATTGATGACGAGCACGGCGACAACCTGAAAATCCTCAATTCCTATACCGGCTGGGTCTTCACGGAAGAAAAACTTCAGAATAAGCTCAGCCCGATGGAATCGAAGTCGTAA	MDTGTHVVMGVALGGIATLDPAVSSDPALFNAVLIGTLVGSQAPDIDTALKLKNNAVYIRHHRGITHSIPAVLLWGISIPGIIYLFNPEVNFLHLWLWSFLAVILHVFVDIFNAYGTQAYRPITKRWVAYGFINTFDPYIFILHIAGIVAWNLGASPGIMWLIIYGVIAIYYVKRYFDKRELVRLIHEHVEGVTQIATSPTIKQNIWRIAITTPDHYYVGRAENGHLKILDTFVNKPIDEDDPVVQKALTDHNIKAFLSFSPVYRYELSYFDEYTEVRFIDLRYRSRGRYPFVAVAQIDDEHGDNLKILNSYTGWVFTEEKLQNKLSPMESKS				NA	NA	NA	NA	NA
AK012_02470	267			hypothetical protein	ATGAATGAAATTTATCAGCGTCTGGCTGAAGCCCTATATAAGAAAAACGAAAACCTGACAATGGATGAGGCCCTTACATGGGTTGAGCTTTTGTGGGAGGATTTCGAAACGACACGGGCAAAAGCTGGTCGTGAATACGAAGGCAAGAAAGTGACGGAGCAGATTGTGACGCAGTGGATCCAGAATTACGGGCCAAGGCTTCATGAATTCGCAGCCACCAATTCCAAATACAAGAAGATGCTTGAGAAAAAAGGGTATCTGCATTAA	MNEIYQRLAEALYKKNENLTMDEALTWVELLWEDFETTRAKAGREYEGKKVTEQIVTQWIQNYGPRLHEFAATNSKYKKMLEKKGYLH				NA	NA	NA	NA	NA
AK012_02471	174	sspK		Small, acid-soluble spore protein K	ATGCGTAACAAGGCCAAAAATTTCCCGAACGTGCATATGACCCACGCACCGGATGATCAGAGTGAATACTCCAACAAACGTCCGAATGGAACGATCAACAATAAGCCGCAGGAACGAGCGGCCCGATCGAGACACCGCGATGTCAACGACACAGGGAGGAATTACCATGGGTAA	MRNKAKNFPNVHMTHAPDDQSEYSNKRPNGTINNKPQERAARSRHRDVNDTGRNYHG	PGPT0024910_9	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024910-sspK-K06428	NA	NA
AK012_02472	336	yfhH		putative protein YfhH	ATGGAACGGAGATACAGTGAATATTCAGAGAGAGAGCTAAGGGATGAAATAGCCGAGCTGACAGAAAAAGCCCAGAAGGCGGAGCAGCTTGGCATGGTCAATGAATACGCTGTCCATGAACGGAAAATCATTATGGCTAAAGCCTATATGATGAATCCGGACGATTTCTCAGCAGGGGAAACCTACGAAATGGACGGAGACTATGAGCATACCTTCTTCATCGAATATATGAACGGCATTTTTGCCTGGGGGTATCGAAAACAGAATGGTCAAAAAGTGAGTACAGAAGAAGAGGCCCTGCCGATTTCCGTGCTCGGCCGTCACGTACAGGAATAG	MERRYSEYSERELRDEIAELTEKAQKAEQLGMVNEYAVHERKIIMAKAYMMNPDDFSAGETYEMDGDYEHTFFIEYMNGIFAWGYRKQNGQKVSTEEEALPISVLGRHVQE				NA	NA	NA	NA	NA
AK012_02473	660			Sepiapterin reductase	TTGGCAAAGATTTGGATTACAGGTGCCGGAACAGGACTCGGAAGATCTCTCGCGCATACCTATGCCCGGGAAGGGAACGCTGTTGTATTGAGCGGCAGGAAGTATGAACCCTTAGCTGCTGTGCAGAGAGAGATTGAACAGAACGGCGGAAGTGCTGAGGTTATCGTCTGCGATATTACAACCCCTTCCTCCATTGCTTCGGCTGTAGAGAATATCGAGCATGTTGATGTATTGATCAACAATGCCGGAACAGGCATTTTCGGCGGGCTCTCCACGTACTCGGAAGACGATATAGATCAGCTGCTGGACACCAACGTCAAAGGGACAATCCTAATGACACAGGCAGTCCTTCCCCGACTCCAGCAGTCTAAGGGCCGGGTATTGAATATCATTTCCACAGCCGGTCTGCGCGGGAAAAAGAATGAAAGCATCTACTGCGCCAGTAAATTTGCTCTCAGAGGCTTCACAGAGAGTCTGCAGAAGGAATGGGAGGAGGAAAGCCTCACAGCCACCGCTGTCTATATGGGCGGGATGAATACACCCTTCTGGAAAGATACCGATCACGTCAAACATCCGGAGAAAATGAAGAGTCCGGAAGTCGCAGCAGAGCAGATTTATAAAGAGGATGACGGCCGCGCCGAAATATTTGTTGACCGTTAA	MAKIWITGAGTGLGRSLAHTYAREGNAVVLSGRKYEPLAAVQREIEQNGGSAEVIVCDITTPSSIASAVENIEHVDVLINNAGTGIFGGLSTYSEDDIDQLLDTNVKGTILMTQAVLPRLQQSKGRVLNIISTAGLRGKKNESIYCASKFALRGFTESLQKEWEEESLTATAVYMGGMNTPFWKDTDHVKHPEKMKSPEVAAEQIYKEDDGRAEIFVDR	PGPT0008195_1096	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
AK012_02474	267	ptsH_2	COG1925	Phosphocarrier protein HPr	ATGGCACAACAAACAATGAAAATCACATCTGCGGACGGTGTACACGCACGTCCAGCAACAGCACTTGTACAAGTAGCCGGCAAATTCGAATCTGACGTAAACCTTGAGTACAATGGCAAGTCCGTAAACATGAAATCCATCATGGGCGTCATGTCCCTTGGAATTCCGAACGGCGCTGAAGTCACGTTCTCTGCTGAAGGTGCAGACGAAGAAGAAGCAGTAAACGCTGTAGTTGCAAAAGCAAAAGAAGAAAACCTTGGTGAGTAA	MAQQTMKITSADGVHARPATALVQVAGKFESDVNLEYNGKSVNMKSIMGVMSLGIPNGAEVTFSAEGADEEEAVNAVVAKAKEENLGE	PGPT0016875_2365	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
AK012_02475	2037	ptsG	COG1263	PTS system glucose-specific EIICBA component	ATGTTTAAGAATGCTTTCGGCACACTGCAAAAAGTCGGTAAAGCGTTGATGACCCCTGTGGCACTCCTGCCCGCAGCTGGTATTCTTCTCGCTTTTGGTACGAGTTTTGCACAGGACAGTTTTGTCGACAAAGTTCCATTCTTCGGTACCAGCTGGGTGCAGACACTGCTCCAGGTCATGGCTGAAGCTGGTGGAATCGTCTTTGCCAACCTGCCGCTTCTTTTCGCCGTTGGTGTAGCAATCGGACTTGCTAAAGGCGATGGTGTTGCAGGTCTTGCTGCGATTATCGGTTACTTAATTATGAACGTAGTTATGGGCGTGCTCGGGAATGTCGATGCCGACATGGTCTCTGATCCCGCTTATGCGGAAGTCCTTGGTATACCGACGCTCCAGACCGGGGTCTTCGGTGGTATTATTGTCGGTATACTAGCCGCTTCGATGTACAACCGGTATTTCAATATAGAACTACCACAATTCCTCGGATTCTTTGCCGGTAAACGTTTCGTTCCGATTATCACAGCGTTTACGTCCTTGATCCTAGGTGTCATTATGCTTTGGGTATGGCCGTTTGCACAAGCCGGTCTGAATGCTCTTTCCCAGCTGATGCTTGAAGGAAACCAGACCATCTCTGCTTTCTTCTTCGGCCTGATTGAGCGTTCCATGATTCCATTTGGTCTGCACCACATTTTCTATTCACCATTCTGGTTTGAGTTTGGTTCCTACACCAACGCAGCTGGTGAAATTATCCGTGGTGACCAGACGATCTTCTTTGAACAGCTGAAAGACGGCGTTGATTTTACAGCCGGTACATTCATGGTCGGTAAATTCCCGTTCATGATGTTCGGTCTTCCAGCGGCTGCGCTTGCGATCTACCATACAGCGAAGCCGGAACGTAAAAAAGTGGTCGGAGGAATAATGGCTTCTGCAGCCCTGACCTCTTTCCTGACAGGGATTACAGAACCGATTGAATTCTCATTCCTGTTCGTAGCACCGGTTCTCTTCGGTATCCACGCCGTATTTGCCGGATTCTCCTTTATGATCATGGAGATTCTTGGTGTGAAAATCGGACAAACCTTCTCTGGTGGTCTGATCGACTTTATTCTCTTTGGTGTCCTTCCCAACCGTACAGACTGGTGGTGGGTCATTATCGTCGGACTTGTATTTTCCGTAATCTACTACTTCGGATTCCGCTGGGCGATCCTTAAGTTCAACCTGGCTACTCCAGGTCGTGAAGACGAAGCAGAAGATGAGGAAGAAGATGGAGAAGTGGGCGATCTGCCATTTGAAATTCTTGAAGCGATGGGCGGTCAGAAAAACATCGACCACCTCGATGCTTGTATCACAAGACTGCGTGTCTCTGTAAATGATAAAAATGATGTAAACAAAAACCGTTTGAAAAAATTGGGGGCTTCCGGTGTTATGGAAGTCGGAAACAACATTCAGGCCATCTTCGGACCTGTTTCTGATACCCTTCGCGGACAGATGCAGGACATCATTGATGGTAAAACTCCTCGTTCCAGAGAAGACGTTGCTGAAATTATGAACGAACAGAAGCAGGCGGAAGCGCCTGTTGCTGAAGGCGAGCTTGCGTTTGTCAGCCCGCTGAAAGGAAAAATCATGCCGATTACAGAAGTTCCTGACCAGGTCTTCTCTGGTAAAATGATGGGAGACGGTTTTGCGATTGAACCTGTTGACGGCAAAGTGGTATCCCCGATCAATGGTAAAGTGCTGAACGTATTTCCTACCAAACACGCCATTGGTCTGGAAGCGGACAATGGCATGGAAATCCTGCTTCACATCGGAATTGATACGGTGGGATTGAAAGGTGAAGGATTTACAGCTAAAATAGCTGAAGGAGACGAAGTGAAACAGGGGCAGGCGTTGATGGAGGTCGATCTTGACTTCGTTAAGGAAAACGCTCCGTCCATTGTGACACCGATTATCTTTACAAACCTTCAGGAAGGCCAGAGCGTCAGCCTGAAAGCATCTGGTGAAGTGAACCACAACCAACCGGATATTGTAGAAATTACTGAATAA	MFKNAFGTLQKVGKALMTPVALLPAAGILLAFGTSFAQDSFVDKVPFFGTSWVQTLLQVMAEAGGIVFANLPLLFAVGVAIGLAKGDGVAGLAAIIGYLIMNVVMGVLGNVDADMVSDPAYAEVLGIPTLQTGVFGGIIVGILAASMYNRYFNIELPQFLGFFAGKRFVPIITAFTSLILGVIMLWVWPFAQAGLNALSQLMLEGNQTISAFFFGLIERSMIPFGLHHIFYSPFWFEFGSYTNAAGEIIRGDQTIFFEQLKDGVDFTAGTFMVGKFPFMMFGLPAAALAIYHTAKPERKKVVGGIMASAALTSFLTGITEPIEFSFLFVAPVLFGIHAVFAGFSFMIMEILGVKIGQTFSGGLIDFILFGVLPNRTDWWWVIIVGLVFSVIYYFGFRWAILKFNLATPGREDEAEDEEEDGEVGDLPFEILEAMGGQKNIDHLDACITRLRVSVNDKNDVNKNRLKKLGASGVMEVGNNIQAIFGPVSDTLRGQMQDIIDGKTPRSREDVAEIMNEQKQAEAPVAEGELAFVSPLKGKIMPITEVPDQVFSGKMMGDGFAIEPVDGKVVSPINGKVLNVFPTKHAIGLEADNGMEILLHIGIDTVGLKGEGFTAKIAEGDEVKQGQALMEVDLDFVKENAPSIVTPIIFTNLQEGQSVSLKASGEVNHNQPDIVEITE	PGPT0016870_350	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_GLUCOSE_DEGRADATION,PGPT0016870-ptsG|glcA|glcB-K20118	NA	NA
AK012_02476	843	glcT	COG3711	PtsGHI operon antiterminator	ATGGAACAGCAGTTAAAAATAAAAAAAGTATTGAATAATAACGTCATCATTGCTGCCCACCCGTCCTACGAGGAAGTGGTGCTGATTGGAAAGGGGATTGGTTTTAACAAGTCCAAGGGGGAGGAAGTCTCCTTTGATAAAGCCGACAAAACCTTTCTTTTGAGCAATGAACAGGAAAAGGAGCAGTATGTCAATCTGCTGCCGCACATCGATGAAGCGCTGATTGATTTCATGAATGATATTCTGCATCATATTGAAGCGAGGATGGGGCAGGAGCTGAATCAGCATATTCACGTGGCGCTGACCGACCATATCGCTTTCGCCATCAACCGGGCGAAAAAAGAAATGCAGTTCACCAATCCTTTCCTGTTCGAAATCGAATCGCTTTACCCGAAGGAATACCAGGTGGCAACAGAAGTGGTGACGATGATCTACGACCAGATGGGGATCCATTTTCCGGAAGGGGAAACCGGTTTTATTGCCCTGCACATTCATAGTGCGGTTACCGACAAAACGCTTAGGGAAATCAACAGGCATAACCAGTTGATCACCCGGCTTGTCGGAATCGTAGAGGAGACGATGGACATAGAGATTGACAAGAAAAGTGTGGATTATCACAGACTTGTCCAGCACCTGCACAGAGCCATCGACCGGGTGTATCAGGGGGAATCGGCAGGAGATGAAATTCGTCTCGCTGAGATGTTGAAACAGGAGTACCCGGTGTGCTATAATTTAGCTTGGAAGTTGATTAAAGTGATGCAGAAACAGCTGAATAAACCCGTGGATGAATCAGAAGCCATTTATCTGACGATTCATCTGCAGCGTTTAACCCATAAATCCTAA	MEQQLKIKKVLNNNVIIAAHPSYEEVVLIGKGIGFNKSKGEEVSFDKADKTFLLSNEQEKEQYVNLLPHIDEALIDFMNDILHHIEARMGQELNQHIHVALTDHIAFAINRAKKEMQFTNPFLFEIESLYPKEYQVATEVVTMIYDQMGIHFPEGETGFIALHIHSAVTDKTLREINRHNQLITRLVGIVEETMDIEIDKKSVDYHRLVQHLHRAIDRVYQGESAGDEIRLAEMLKQEYPVCYNLAWKLIKVMQKQLNKPVDESEAIYLTIHLQRLTHKS	PGPT0014761_223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_GLYCOSIDE_UTILIZATION	PLANT_DERIVED_GLYCOSIDE_USAGE_REGULATION,PGPT0014761-licT|bglG-K03488	NA	NA
AK012_02477	819	yigL	COG0561	Pyridoxal phosphate phosphatase YigL	ATGATCAAATTGTTTGTTACAGACCTTGATGGCACCCTGCTTGGTCAGGACCATTATATAAAGAATGAAGATGTAGATGCCTTGAAAAAAATGATCGACCACGGAACTCCGCTCGCGGTAGCATCCGGACGGATGGACCATGAAATCAGCGAGGTTCTGAAACGCGTCGGTGTCAACGGCCACCGTGTCAGCCAGAACGGCGCTTTCGTCTTCGACGACCAAAACAAACCGGTCCACGCCAAGACCTTCGACCCGGACCTTGCCCGTCGTATTGTCCATGAAATCGACGCTGAACCGATGGTGAAAACCGTCTCTACAGCGGATGAAACCTTTACGAAGGAGCACAGTCACTGGATCGACCTGATTTCTGAGCAGATGTTCCACGACATCATTGTTAAACCGGAGCTCCATGAACTGATCGGTACAAAAGTGACGCCGTCCAAAATTACGCTCCACGGGAAGGAATCCGATGTGATCAAGGCTGCCGATAAAGTCGCCCGCACATTCGGGGAAGAAATCGACAGCTTCATCTCCCACGAGACATGCGTCGATATGATGCCTAAAAACATCAATAAGCAGAGCGGACTGAAAAAACTGATCGAAGGACTCGGACTGGCGCCGGAAGAAGTCGCCTGTGTCGGGGATTCCTTTAATGATGTAAGCATGTTCGAAATGACTCCGCACAGCTACGTGATGTCCACCGCCCGTGACGAAGTGAAAGAGAAAGCCGGTACGGTTGTCGATCATGTCCACGAAGCCATCGAAGATCTCGATAAAAAAGGGCTGCTCAAAAAACAAGAACAAGTAGTTGACGTTTAA	MIKLFVTDLDGTLLGQDHYIKNEDVDALKKMIDHGTPLAVASGRMDHEISEVLKRVGVNGHRVSQNGAFVFDDQNKPVHAKTFDPDLARRIVHEIDAEPMVKTVSTADETFTKEHSHWIDLISEQMFHDIIVKPELHELIGTKVTPSKITLHGKESDVIKAADKVARTFGEEIDSFISHETCVDMMPKNINKQSGLKKLIEGLGLAPEEVACVGDSFNDVSMFEMTPHSYVMSTARDEVKEKAGTVVDHVHEAIEDLDKKGLLKKQEQVVDV				NA	NA	NA	NA	NA
AK012_02478	813	recX		Regulatory protein RecX	ATGGCTAAACTGACAAAAATTACAACGCAGAAAAAGAATAAGGCACGGTATAATATTTTCCTTGATAAAGGCCGGGGAGAAGAGTACGGGTTCAGTGTCGATGAAGATGTCCTCATCAAACATAAACTCCAGAAAAATATGGAGCTTGATGATGCCGCTGTCCAGGCATTGATTCAGAGTGATAACCTTCATAAATCCTATACCCTTGCCATCAATTATTTAAGCTACCGCATGCGTTCGGAAAAGGAGATCCGCGATTATCTTACGGAGAAGGAAACCGACCCCGAACAATTGGATGAAATCATCCAGCGGTTGAAAAACGAACGGCTTCTGAATGATCAGGAATTTGCCCGCTCCCTTGTCCGGACGAGGGTGACGACATCGAGTAAAGGTCCCCTTATGGTGAAAAAGGAGCTGATTGAAAAAGGGGTCCATGATCAGATCGCAGCGGATGCGCTCCATCATTATTCCTTCGACGAGCAGTTTGAAAAAGCCTTGAAATTTGCAGAAAAGAAAATGAGGAACGATGGCAGGAAGTCTTATAAGCAGCAGATTCAGAATGTGCAGCAGACGCTCATGCAGAAAGGCTTTACCGGAGATGTCATCAAAGAGGTGATTACACAGCTTCCCGATGAGGAAAATGAGGATGCCGAGTGGCAGGCGGTCGTTCATCAAGGAGAAAAGCTGCTTCGGAAATATGCATCCAAGGCGGAAGGGTATGAACTGAAGCAGAAGGTGAAGTCGGGGCTCTATAGGAAAGGGTTTACGTTTGATTCCATAGACAGGTTCATGGAGGAATATATCGAGGAGTAA	MAKLTKITTQKKNKARYNIFLDKGRGEEYGFSVDEDVLIKHKLQKNMELDDAAVQALIQSDNLHKSYTLAINYLSYRMRSEKEIRDYLTEKETDPEQLDEIIQRLKNERLLNDQEFARSLVRTRVTTSSKGPLMVKKELIEKGVHDQIAADALHHYSFDEQFEKALKFAEKKMRNDGRKSYKQQIQNVQQTLMQKGFTGDVIKEVITQLPDEENEDAEWQAVVHQGEKLLRKYASKAEGYELKQKVKSGLYRKGFTFDSIDRFMEEYIEE	PGPT0007240_340	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007240-recX-K03565	NA	NA
AK012_02479	906			Epimerase family protein	ATGAAAATTGCCGTTACGGGCGGAACAGGATTTGTAGGACAGAAACTCGTACAATCGTTACAAGAGGAAGGTCATGAAATCTACATACTGACCCGGAGTCCCGAAAAGCATCAAAACACGGATCAGGTCACTTATGTCGGATGGTTGAAGGAATCCTTCTCCCCGGAGAAAAAGCTTCCCGTTCTGGACGCTGTGGTCAACCTGGCCGGTGAGTCGCTGAACAGCGGCAGATGGACGGAAGAGAAAAAACAGTCGATCCTCCAGAGCCGGATTGAAGCCACCGAGGGCGTCCTTGACTTAATCGATGCCCTTCCCGGGAAGCCGGCTGTACTCGTCAACGCCTCCGCTGTCGGCTTTTATGGACAGTCCAAAACAAAAATGTTCACGGAAGAGACGACAGAGGCTGGAAACGACTTTCTGGCACGGGTGGTTGTCGAATGGGAGGAAAGAGCGGCTAAGGCGAAGGAAAAAGGGGTCCGGACTGTCTACGTACGCTTCGGAATCATCTTAGGTGAGGAAGGCGCCCTGCCTAAAATGGTCCTGCCTTACAAAATGATGGTCGGCGGAAACCTGGGATCCGGAGAACAGTGGATGTCCTGGGTCCACGTCCAGGACGTCGTCGGGCTTATCCAGTTCGCCCTCATCCATCCGGATCTTGAAGGGCCGTTGAACGGGACAGCGCCCAATCCGAAACGAAACAAAGATTTCGGACAGACTTTAGGGGACGTCCTCAACCGGCCGCACTGGCTCCCGGCTCCAGCATTCGCACTGAAGGCAGCCCTCGGCGACATGAGCACCCTGCTGCTGGATGGTCAGGCTGTCCTTCCGAAAAAAGCGCTTCGCGAAGGGTACAGCTTCCAATACCCCGAACTGAAGCCGGCGCTTGCCTCCATTTTAGAAGAATAA	MKIAVTGGTGFVGQKLVQSLQEEGHEIYILTRSPEKHQNTDQVTYVGWLKESFSPEKKLPVLDAVVNLAGESLNSGRWTEEKKQSILQSRIEATEGVLDLIDALPGKPAVLVNASAVGFYGQSKTKMFTEETTEAGNDFLARVVVEWEERAAKAKEKGVRTVYVRFGIILGEEGALPKMVLPYKMMVGGNLGSGEQWMSWVHVQDVVGLIQFALIHPDLEGPLNGTAPNPKRNKDFGQTLGDVLNRPHWLPAPAFALKAALGDMSTLLLDGQAVLPKKALREGYSFQYPELKPALASILEE	PGPT0014730_1949	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	LOW_TEMPERATURE-RELATED_ENZYMES,PGPT0014730-yfhF-K07071	NA	NA
AK012_02480	1122	hutI_2		Imidazolonepropionase	ATGATGACTATCATTAAGAATGTCCATATTCACCCAATCACCTCCCCTTCTATTCCGAACGGTTCCGTCCACATTATAGACGGGAAGATTCAGGATTATGGAACAGATCTTCCTATTCCTAAGCAGGCTGAATGTATCGATGGAAAAGGAATGGACTTGTATCCCGGATTCATTGATGTCCACACCCATCTCGGGCTTTATGATGAAGGGACAGGGTGGGCCGGAAGCGATGCGAACGAAACCATTGAAGCCATCACACCCCACTTGAGAGCGATTGATGGTGCCCATCCGCTGGATCCTGCCTTTTTTAATGCGCGGAAAGCCGGTGTAACGACCGCCCATATTATGCCCGGGAGCGCCAACATGATCGGCGGAATGACCTCTGTCATCAAAACAGTGGGCCATACGATCAACCAGATGATTCTCCGTCAGACAGCCGGGCTGAAGCTGGCTCTCGGTGAAAACCCGAAGCGTATCCACTCCCAGTCCAAAAATGCGTCCATTACGCGCCTTGGAATTATGGGAACGCTGCGGGAAACCTTTTACACAGCCATGAAGGACCCTGATCCCGGTCTCCGTGTCCAGCCGATACTCAAAGCGTTGAATAAGGAGATTCCCGTCCGAATCCACGCCCACCGAGCTGATGACATCGTCACGGCCCTCCGGTTTGCGGACGAGTTTGACCTCGACTTAAGAATTGAACACTGTACGGAAGGCCACCTGATTGCTGATGAACTGGCGGGTCGGGACCTGCAGGTGTCGGTCGGCCCGACCTTTACGAGGGCCTCTAAAATTGAACTGCGTAATAAAACGTGGCAGACGTATAAAATCCTGCATGATTACGGCATCAAAGTATCAATTACGACCGATCACCCCTATACGCCTATCCAATACTTAAACATCTGCGCCGCCCTTGCGGCCAGAGAAGGCATGGAAATTGAAGATGCTCTACGCGGCATTACCATTACTCCAGCTAAAAACCTTGGTGTGGATGACCGGGTCGGCTCAATCGAAAAAGGAAAGGATGCCGATCTCGTTTTATGGAGCGGCCACCCTTTCGAGTATCTCTCCAAGCCGATCTGGACGATGATTGACGGAAAAATGGTCTATTACCAGGAATAA	MMTIIKNVHIHPITSPSIPNGSVHIIDGKIQDYGTDLPIPKQAECIDGKGMDLYPGFIDVHTHLGLYDEGTGWAGSDANETIEAITPHLRAIDGAHPLDPAFFNARKAGVTTAHIMPGSANMIGGMTSVIKTVGHTINQMILRQTAGLKLALGENPKRIHSQSKNASITRLGIMGTLRETFYTAMKDPDPGLRVQPILKALNKEIPVRIHAHRADDIVTALRFADEFDLDLRIEHCTEGHLIADELAGRDLQVSVGPTFTRASKIELRNKTWQTYKILHDYGIKVSITTDHPYTPIQYLNICAALAAREGMEIEDALRGITITPAKNLGVDDRVGSIEKGKDADLVLWSGHPFEYLSKPIWTMIDGKMVYYQE				NA	NA	NA	NA	NA
AK012_02481	558	hxlB	COG0794	3-hexulose-6-phosphate isomerase	ATGAATGTACAAGCATATTTGAAGAAAATCACTGCTGAGCTTGAAGAAAGTGTTTCGTTCATCTCTCACGAAGAAACGGAAGCGCTGATCAACCCGATGCTTCAGTCCAGAAGGATATTCGTTGCGGGAGCCGGCCGGTCCGGATTAATGGGGAAGTCCTTTGTCATGCGACTCATGCATATAGGGTTGGAAGCCTATGCGGTCGGTGAAACGGTCACGGCCGGGATGGAGGAAGGAGACCTCTTAATTATCGGGTCAGGGTCAGGAGAAACGGCCACGCTTGCTGCTGTCACAGAGAAAGCCCGGCGTTTAGGTGGAAAAACAGCCGCTGTAACGATTCAACCGGATTCTACTATTGGACGAATGGCGGATATTACGATTCAAATGCCGGGCGCTCCGAAGGACCGGGGCCAAGAGGATTTCGGTACGATCCAGCCGATGGGATCCTTATTTGAACAAACGATGCTCGTTTTATATGATGCATTGATTTTAGGCCTGATGGAGAAAAAAGGACTGGACTCGGAAACGATGTACGGCAGACATGCCAATCTTGAATGA	MNVQAYLKKITAELEESVSFISHEETEALINPMLQSRRIFVAGAGRSGLMGKSFVMRLMHIGLEAYAVGETVTAGMEEGDLLIIGSGSGETATLAAVTEKARRLGGKTAAVTIQPDSTIGRMADITIQMPGAPKDRGQEDFGTIQPMGSLFEQTMLVLYDALILGLMEKKGLDSETMYGRHANLE	PGPT0013290_478	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013290-hxlB|yckF-K08094	NA	NA
AK012_02482	633	hxlA	COG0269	3-hexulose-6-phosphate synthase	ATGAAATTACAACTAGCATTAGACCTTGTAAATATCAACGGAGCGATTGAAGTGGTGAAGGAAGTGGAAAGCCACGTCGATGTTGTAGAAATCGGAACGCCTGTCGTCATTAACGAAGGTTTGAAGGCTGTAAAAGAAGTGAAGAAAGCTTTCCCGGATATGACGGTTCTTGCCGATCTTAAAATTATGGATGCGGCGGGTTACGAAGTCAGCCAGGCGTCTGCTTCCGGTGCAGACATCGTTACCATCCTTGGAGCTGCTGAAGACGAATCCATCAAAGGAGCTGTTGAGGAAGCGAAGAATCAAGGCAAACAGATCCTTGCTGACATGATTGCCGTTCAGGATATTGAAACCCGCGCCGGAGAACTGGATCAGCTTGGAGTAGATTATATCTGTGTCCACACAGGTTATGATCTCCAGGCCGTTGGAAAGGACTCCTTCGAGGACCTTGCCGCTATTAAAAAAGTGGTTAAACATGCGAAAACCGCAATTGCGGGCGGCATCAAGCTTGAAACCCTTCCGGAAGTGATCAACCACAACCCTGATCTGATCATTGTCGGCGGTGGGATCACCGGGCAGGATGATCAAGCAGCTGCGGCCAAGCAAATCAAAGAGCTTATCAACCAAGGCTGA	MKLQLALDLVNINGAIEVVKEVESHVDVVEIGTPVVINEGLKAVKEVKKAFPDMTVLADLKIMDAAGYEVSQASASGADIVTILGAAEDESIKGAVEEAKNQGKQILADMIAVQDIETRAGELDQLGVDYICVHTGYDLQAVGKDSFEDLAAIKKVVKHAKTAIAGGIKLETLPEVINHNPDLIIVGGGITGQDDQAAAAKQIKELINQG	PGPT0013295_394	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-FORMALDEHYDE_FIXATION,PGPT0013295-hxlA|yckG-K08093	NA	NA
AK012_02483	300	hxlR_2	COG1733	HTH-type transcriptional activator HxlR	ATGCTGATTCTCTGGCATTTGGGTAAGGAAGGTACGAAACGATTCGGAGAGCTTAAATCTCTTATGCCCGGGATCACCCAGCGGATGCTCGTCCATCAACTCCGGGAACTTGAGGCTCACGAAATCATTCACAGGGAAGTGTACCCTGTCGTCCCTCCGAAAGTGGAATATTCATTAACCAGACATGGAGACAGCCTCCTCCCCATTTTAGATGCGATGTACGACTGGGGAAGGAATTATGTTGATGAGGTGCTGGACGGAAAAAATGACTTCACGATAGCAGAGGATCACAGCGGATAA	MLILWHLGKEGTKRFGELKSLMPGITQRMLVHQLRELEAHEIIHREVYPVVPPKVEYSLTRHGDSLLPILDAMYDWGRNYVDEVLDGKNDFTIAEDHSG	PGPT0012970_179	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012970-blc-K03098	NA	NA
AK012_02484	795			hypothetical protein	ATGAAGAAATTGTTATCAAGTCTTGCTGCTGTTGTTTTGATTTTTGGAATGTTCGCCCCGGCTGTTTTCGCAGACCATCACGAGGAAGCTATGCTCCGTGTCGTACACGCTTCACCTGATGCACCTGCGGTTGACGTATACTTAAATGATGAAGCCGCTGTAGAAGGAGCTGAGTTCAAAGCAGCTACCGATTATATGAAAGTTCCTGCTGGAGAACATACCGTTGAAATATATGCAGCCGGTACAAAAGGTGAACAAGACCCTGTCATCTCCACAAACGTAACCGTGGAAGCAGGGAAAGCTTATACAGCAGCAGCTGTTGATAACCTCGACAACCTTCAGTTGAAAGCTTTGGAAGATTCCATGGAAGCAAGTGAAGATATGGCTAAAATCCGTGTCGGACACTTCATTCCTGAAGCACCAGCCGTTGATGTAGGCCCAATTGATGGAGACGCGGTCTTCTCTGGTGCCGAATTCCCAATGGTGACCGATTATAAGGAACTTGAAGCTGGAACGTATGACCTTGAAGTACGTACCACAGATGGCACACAGCTGATTGACCTTTCCGGAACAGCTCTGGAAGCAGGTAATGTCTATAGTGCATTTGCTGTAGGAACGGCTGATAACCCTGAAGTGATCCTTCTTCAAGATTCATCCGCTATGCCTTCTGATATGCCGGAAACTGGTTTCGGTGGAGTGGATCAAACATCCAATGCCCTTCTATATGCTGGTATCCTGGGGCTGGCAGCAGCAGGTGCTGGTGTATTCCTGACACGCAGAAAATCTGAAGCGTAA	MKKLLSSLAAVVLIFGMFAPAVFADHHEEAMLRVVHASPDAPAVDVYLNDEAAVEGAEFKAATDYMKVPAGEHTVEIYAAGTKGEQDPVISTNVTVEAGKAYTAAAVDNLDNLQLKALEDSMEASEDMAKIRVGHFIPEAPAVDVGPIDGDAVFSGAEFPMVTDYKELEAGTYDLEVRTTDGTQLIDLSGTALEAGNVYSAFAVGTADNPEVILLQDSSAMPSDMPETGFGGVDQTSNALLYAGILGLAAAGAGVFLTRRKSEA				NA	NA	NA	NA	NA
AK012_02485	687			hypothetical protein	ATGAAAAGGGTCTTAACCCCTGTCATCCTCGGTCTCTTCGTTTTCTTCGCAAGCTATTTCCTGCTCAGCGAAGAACCCTTGAAAGAGGCCGGGGTTCTTTCTACCTCCAGCCAGGATGAGTTCATGAAAGAAACAAAGGCAGGAGAAAAAGAAGCCCGGGACGCTCTTGAAAACGAGCCGATTCAGCAGAATTACACCCCCGCAGCCACCGTATCTCCGGATAAGCAGCAGGGCATCGAGCCGAAGCGGATTGAAATTCCGGCCATTGAAGTCAATGCCCCCATCCAGGCCTTGGGGTATACCGATGAAGGTGGAATGGCGGTTCCTGCTAATTTGACGGACACAGGCTGGTTTGAACCCGGGACAAAACCAGGGAACCAGGGGAATTCCGTTATTGCCGGGCACGTAGATGGGAGAAGCGGCCCCGCGGTATTTTTTGATTTAAAAGAACTGTCAGAGGGCGACGAGATTTATCTATACGATGATGATGGAGCACGCTTAACGTTCACAGTGGAAAAGACAGCCTCCTATCCTTTTCAAGATTCGCCGATCCGCGAACTTTTCGGTCCTTCCAGCGACCAGCGGTTGAACTTGATCACGTGTACGGGAGCGTACAACCAGGAAGCTTCTACGTACTCGGAGCGGCTGGTCGTTTTTACAGTACTGACAGAAGTGAAGGAAACTTAA	MKRVLTPVILGLFVFFASYFLLSEEPLKEAGVLSTSSQDEFMKETKAGEKEARDALENEPIQQNYTPAATVSPDKQQGIEPKRIEIPAIEVNAPIQALGYTDEGGMAVPANLTDTGWFEPGTKPGNQGNSVIAGHVDGRSGPAVFFDLKELSEGDEIYLYDDDGARLTFTVEKTASYPFQDSPIRELFGPSSDQRLNLITCTGAYNQEASTYSERLVVFTVLTEVKET	PGPT0024075_1892	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
AK012_02486	549			hypothetical protein	ATGCTGAAAAAGCGTGAGCTGCATGACGCCCCGGTTTTGTTCGATTTGATGAGTCACCCTGAAGTTTTTCCATATGTCCGCCATAAAGCTTCATCAAGTGATGAGTTTTACTTTCTAACGAAGCAGACCATAGAAGCAGAAGATCGGGGTGAATTGGTTTCACGTACGATCCTGGATGAGTGGGCCCAGCCAATCGGAACAATCAATCTGTTTGATATACAGGAAGGAAGAGGATTCTTAGCTACTTGGATCGGCCGGTCATATTTCGGTATGGGGTACAACAAGCCTGCTAAGGAAGCTTTTTTTGAAGAGTTATTCTTCCAGCTGGACATTCAGGCGGTATTTATGAAGATCCGCCGTACAAATGTCCGTTCCATGAAAGCCGCACTCAAAATTCCGTATGTATCCTGCGCCAATGAGGATCATCCGGACGTTTATGAATGGATCAACCGCAGTGAGGACGTTTATGACCTTTATGTCATTACAAAAGAACAGTACTTGTTCCATTATTATGGAGAGCAGAATAGTGAGGAAATGATGGAAGCATAA	MLKKRELHDAPVLFDLMSHPEVFPYVRHKASSSDEFYFLTKQTIEAEDRGELVSRTILDEWAQPIGTINLFDIQEGRGFLATWIGRSYFGMGYNKPAKEAFFEELFFQLDIQAVFMKIRRTNVRSMKAALKIPYVSCANEDHPDVYEWINRSEDVYDLYVITKEQYLFHYYGEQNSEEMMEA				NA	NA	NA	NA	NA
AK012_02487	666			hypothetical protein	GTGAAGCGATTATGGGTAATGGCTCTGATGTTGATCCTGATCACATCAGAAGCTGTTTCAGCGGAAAGCTTATATAAGATCATGCACAAAGATAAAGTGGCGGAGGATTGGGAGGTTCACGCGGACTATCCTTTGTTTACAAACCTTGAGAACGAAGAGCTGCAGAACATCGTCAACCACAGGATCATCCAAAAGCTCGAGCATACCGCAGGCCGGGTACAGAAGGGAGCGGCTGACTTTACAGGAGTTCCCTATTTGTATTACGAAGAGTCCGCCGTTTATCAGGAAAAAAATTTCTATTCCGTCGTGATGATTTCCCATATTTCGCGGGGGAACCGCTACAATTCAACGGTAACATCGGTGAATTTTGAAGACAGGACGGGAGGGGAAGTGAAAAAGCTTCAGGATCTGTTTGACATGGGGAAATTGAACAAGGAAGTGAAAAAAGTATTGGATGCCGACCCGGACCTCCGCGCTGAGCAGCCATTCGCAGGTGTCCGTGAAAATACGGCGTTTTACATTAAAGATGAGCATCTCGTGCTTGTATTCAATAAGTTTGAAGTGGCCGCAGGTGTCCACGGTACACCAGAAGTGCCCGTTCCTGTGAAAGGGCTGTTGAAAACAGAAATCAACGCCCCGCAGGTTCCTATTCCTTCGGTCACATGA	MKRLWVMALMLILITSEAVSAESLYKIMHKDKVAEDWEVHADYPLFTNLENEELQNIVNHRIIQKLEHTAGRVQKGAADFTGVPYLYYEESAVYQEKNFYSVVMISHISRGNRYNSTVTSVNFEDRTGGEVKKLQDLFDMGKLNKEVKKVLDADPDLRAEQPFAGVRENTAFYIKDEHLVLVFNKFEVAAGVHGTPEVPVPVKGLLKTEINAPQVPIPSVT				NA	NA	NA	NA	NA
AK012_02488	360			hypothetical protein	ATGGATCAACTAATGTTTATACAAACCGGCATGGGAACGGATGTGCACGGACAGAACGTGACAAAGGCAGCGGTCAGAGCGGTCAAAAATGCCATTCATACCAATTCAATGCCCGGCATCCGGACCGTCCTGCCGGAACAGTCTCTGGATAACATGAAAATCAATGTCAAACTGGCTGTCCCCCGCGATTTCGATCAGCTGGACCATGAGGAAGTGAAAAAAGCCATTCCATTCGGGGAAGTAAACATCACCGTTATGGAAGGCGGCATGGTCACAAGCAGCGGCATTTTTCTTGAAGAAAAAGAAGACAAAAATGATTTGATGTACATCGTGAACGCTGCCGTTGAAGTCGGTTATTAA	MDQLMFIQTGMGTDVHGQNVTKAAVRAVKNAIHTNSMPGIRTVLPEQSLDNMKINVKLAVPRDFDQLDHEEVKKAIPFGEVNITVMEGGMVTSSGIFLEEKEDKNDLMYIVNAAVEVGY				NA	NA	NA	NA	NA
AK012_02489	675	dksA_2		RNA polymerase-binding transcription factor DksA	ATGGATTATACACATTATAAAAAGCAGTTGGAAGACCGGAAAAAGGAATTGGAACAGCGGATGATGGATGAGGACCAGTATGGACTTAAACGGGGATTTGCAAGTGATATGGCCTCAGGGGAATTGTCGCAGTACGACAATCATCCTGCTGATTCTGGGACAGAGTTGTATGAAAGGGAGAAGGATATGGCTCTGCTTGCCCATTATAAAGAAGAACTGCAGGACATTGAGTATTCGCTGCAGCAGATGCATGACGGTACGTACGGTATTTGTGAAGTAACAGGGAAGCAGATTCCTGCAGAGCGTCTGGAAGCACTCCCGACGGCACGAACCACTGCTGAAGCATCACCGAATGAGGAGGTTCCCTCGGACCCTCCGGTCGAACAGGACGTTTTGACTCATCTTGAGAATGACTATGGAAGAGACACAGATGATCCGGAATATAATGAACAAAATGCCTATGAACAGGTGGCTTCCTTTAACCAAAGCAGCATGACTTATGATGATTCGTCCCTTATTGATAATCAGGACGGCGTCGGCTATGCAGAAGAATTTGAGTCGTTCGTGTCGACGGATATGAACGGGTATACAGGGGCGGAAGATGTCTCTTTTCAAAGAAATGAGCATTACGATAAATACATGGATGATATGGATGAGAGAGAAGAGGAGCAGTAA	MDYTHYKKQLEDRKKELEQRMMDEDQYGLKRGFASDMASGELSQYDNHPADSGTELYEREKDMALLAHYKEELQDIEYSLQQMHDGTYGICEVTGKQIPAERLEALPTARTTAEASPNEEVPSDPPVEQDVLTHLENDYGRDTDDPEYNEQNAYEQVASFNQSSMTYDDSSLIDNQDGVGYAEEFESFVSTDMNGYTGAEDVSFQRNEHYDKYMDDMDEREEEQ				NA	NA	NA	NA	NA
AK012_02490	1137	mccB	COG0626	Cystathionine gamma-lyase	ATGAGGAAAAAAACACAGTTGATTCACGGTGGAATAACAGGCGATGAAAAAACAGGAGCGGTCAGTGTGCCGATTTATCAGGTCAGCACCTATGCTCAGGATGGTGTGGGACAGCACCGCGGGTATGAGTATTCGCGAACAGGCAACCCGACCCGTTTTGCCTTGGAAGAACTCATTAAGGACCTGGAAGGCGGGCACCGAGGATTTGCGTTCGGATCAGGGATGGCAGCCATTACGGCGGTGCTGATGACGTTCAATCACGGAGATCATATTATTTTCACAGACGATGTGTACGGCGGTACGTACCGCCTCGTCTCCCAAGTGATCAACCGCTTCGGCCTGGAAGCAAGCTTCGTGGACACGAGTGATACAGCGAATATTGAAGCCGCAATCACGGAGCGTACGAAAGCCGTATACGTCGAAACCCCGACGAATCCGCTTCTGAAAATTACGAATCTTGATCGAACAGCCGAGTTAGCGAAAACGCATGACTTAACGTTCATCGTGGATAATACGTTCAGTACGCCTTACTGGCAGAACCCTTTGGAGCACGGTGCGGACATCGTTCTTCATAGTGCGACGAAATATCTGGGCGGACATAGTGATGTTGTCGCAGGGCTTGTCGTCGTGAATTCTGAAGAACTCGCCGAAGACGTTCACTTTGTGTTGAATTCATCCGGTGGTATCCTCGGTCCTCAGGATTCCTGGCTGTTAATGCGAGGAATAAAAACGCTCGGCATCCGTATGGAGGAAATTGAAGAAAATACCCGCCAGTTCGTCGAGTTTCTGCAGGAGCTCCCGGAAGTGACCGACATTTACTACCCGGGACTTTCTTCGCATAAAGGCCATGACGTTCACAGCGGCCAGGCGCGTGGAAACGGCGGGATGATCAGCTTCGACGTCGGCAGTGCTGAAAAAGCGGACCAGGTGCTCCGCCACGTGAATTACTTTACATTGGCAGAGAGTCTGGGAGCCGTGGAAAGCTTGATTTCTGTTCCTGCCCAAATGACGCACGCGTCCATCCCTGAAGACCGCCGGGATGAGCTTGGCATTACTGCTGGTCTTGTCCGTGTGTCCATCGGCTTGGAGGATATTGAAGATTTGAAGGAAGATTTCCTTCAAGCGTTAAGAAAATAA	MRKKTQLIHGGITGDEKTGAVSVPIYQVSTYAQDGVGQHRGYEYSRTGNPTRFALEELIKDLEGGHRGFAFGSGMAAITAVLMTFNHGDHIIFTDDVYGGTYRLVSQVINRFGLEASFVDTSDTANIEAAITERTKAVYVETPTNPLLKITNLDRTAELAKTHDLTFIVDNTFSTPYWQNPLEHGADIVLHSATKYLGGHSDVVAGLVVVNSEELAEDVHFVLNSSGGILGPQDSWLLMRGIKTLGIRMEEIEENTRQFVEFLQELPEVTDIYYPGLSSHKGHDVHSGQARGNGGMISFDVGSAEKADQVLRHVNYFTLAESLGAVESLISVPAQMTHASIPEDRRDELGITAGLVRVSIGLEDIEDLKEDFLQALRK	PGPT0001985_151	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001985-mccB-K17217	NA	NA
AK012_02491	918	mccA	COG0031	O-acetylserine dependent cystathionine beta-synthase	ATGGGCTACGTGAAGAATATCCAATCTTTGATTGGGCAGACACCTATGATTGAACTCACTCATTCAGCCATCCCGAATCAAGCCCGTATATTTGCCAAGCTTGAATTCATGAACCCAGGCGGTAGTATCAAAGACCGCCTGGGTTTAAAACTGATTGAGGATGCTGTAGCACGTGATCTGCTGAAGCCCGGCGGGACCATTGTGGAACCGACCGCAGGCAATACAGGGATCGGCGTTGCTCTTGCTGCCATTGGGAAAGGCTTCCGGGTGATTTTTGTCACACCGGAGAAGTTCAGTGTAGAAAAGCAGACGCTGATGAGGGCTCTTGGAGCAGAAGTGGTCAATACGCCGACAGCTGAGGGCATGAGAGGCGCGATTGATAAAGCAGCGGAGCTGTGTGAGCAGATTCCGGATGCATTCAGCCCGCAGCAGTTCAACAACCAGGCCAACCCCGACGCTTATTACGAATCCATTGGGCCGGAGATTTATTCAGACCTTGATGGGGACGTCGATGTTTTCATAGCAGGGGCCGGAACAGGAGGCACCTTTATGGGGACATCACGTTACTTGAAAGAGCAGGATCCTTCGATTAAAACGGTCATCGTTGAACCGGAGGGGTCCATTTTGAATGGCGGAGAAGCCGGATCACACCGAACCGAAGGCATCGGTATGGAGTTTCTACCCTTTTATATGGATACCGATTACTTTGATGCCATTCACACGATTTCGGATGAGGATGCCTTTGCCCGTGTGAAAGAGCTGGCTCTCAACGAGGGGCTGCTTGTGGCGAGCTCTTCCGGGGCTGTATTTGAGGCAGCGCTCAGGGAAGCGGAACAGGCGGAGCCAGGTGCCCGGATTGTCACCATTTTTCCAGACAGCAGTGAACGGTATTTAAGCCAAGGAATATACGAGGAGTGA	MGYVKNIQSLIGQTPMIELTHSAIPNQARIFAKLEFMNPGGSIKDRLGLKLIEDAVARDLLKPGGTIVEPTAGNTGIGVALAAIGKGFRVIFVTPEKFSVEKQTLMRALGAEVVNTPTAEGMRGAIDKAAELCEQIPDAFSPQQFNNQANPDAYYESIGPEIYSDLDGDVDVFIAGAGTGGTFMGTSRYLKEQDPSIKTVIVEPEGSILNGGEAGSHRTEGIGMEFLPFYMDTDYFDAIHTISDEDAFARVKELALNEGLLVASSSGAVFEAALREAEQAEPGARIVTIFPDSSERYLSQGIYEE	PGPT0002810_5916	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
AK012_02492	456	luxS		S-ribosylhomocysteine lyase	ATGCCTATGAACGTAGAAAGCTTTAACCTTGATCATACGAAAGTCAAAGCGCCTTATGTACGCCTTGTTGGTGTGACCGAAGGAGAAAAGGGAGATAAGATCTACAAATATGACCTGCGTATCAAGCAGCCGAACCAGGAACACATGAACATGCCGGCCCTTCATTCTCTTGAACATCTGATGGCAGAAAACAGCCGGAACCATCATGATCGTATCGTTGATATCGGACCGATGGGATGCCAGACCGGTTTTTATATTGCGGTATTGAATGATGACAGCTATGACAATATCCTGAATGTCATTGAAAAAACGCTTCAGGATGTATTGGAAGCGGAAGAAGTACCGGCCTGCAACGAAGTTCAGTGCGGTTTTGCGGCCAGCCACAGCCTGGAAGGGGCACAGGAGCTTGCCCGCGAGCTTCTGAACAAGCGTGACGAATGGACGGAAGTTTTTTAA	MPMNVESFNLDHTKVKAPYVRLVGVTEGEKGDKIYKYDLRIKQPNQEHMNMPALHSLEHLMAENSRNHHDRIVDIGPMGCQTGFYIAVLNDDSYDNILNVIEKTLQDVLEAEEVPACNEVQCGFAASHSLEGAQELARELLNKRDEWTEVF	PGPT0016265_1313	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0016265-luxS-K07173	NA	NA
AK012_02493	642			putative methyltransferase	ATGGGAATGGAATTCGTCGACCTATTTAATCAATGGGCGAGTTCATATGATGATACAGTAGCAGGAAAAGATCCAGAATATAGAGAAGTCTTCGATGGTTACGAGGAAATGCTGGAGCGTTTAGCCAAACTCTCTTTATCTCCCGTATTGGAATTCGGAGTAGGAACGGCCAACCTGACAAGAAAAATGGTCGACCAGAACAAAGTGGTACTGGGCGTGGAGCCTTCTTCGGAAATGCGGAGAATTGCCAAAGTGAAATGTCCCGAAGCAGCGATTTACGAAGGGAATTTCCTGGAATACCCTATGCTTCAATCGCCAATACGTTCCATTGTCAGCTCGTTTGCTTTTCATCACTTGACTTCTTCAGAGAAGAAAGCGGCCATTGTCGACTTTCATCAGCGTCTCGAAGAAGACGGCCAGGTGATTTTTATCGATACACTCTTCAAGGATGAAGCCCATAAGCATGCTTTGATTAAGGAAGCAGAACAGGCGGGATTCTTGAATTTAGCGCAGGATTTGCAGGAAGAGTACTACCCTTATCTAGAAGAGATAAGAGAGATGTTTGTGGAAGCAGGATTTGAGGTATCGTTTGAACAAATTAACAAATATGCCTGGCTTATCCAGGCGGAAAAAGGAGAATGA	MGMEFVDLFNQWASSYDDTVAGKDPEYREVFDGYEEMLERLAKLSLSPVLEFGVGTANLTRKMVDQNKVVLGVEPSSEMRRIAKVKCPEAAIYEGNFLEYPMLQSPIRSIVSSFAFHHLTSSEKKAAIVDFHQRLEEDGQVIFIDTLFKDEAHKHALIKEAEQAGFLNLAQDLQEEYYPYLEEIREMFVEAGFEVSFEQINKYAWLIQAEKGE				NA	NA	NA	NA	NA
AK012_02494	1140	cshE	COG0513	DEAD-box ATP-dependent RNA helicase CshE	GTGAAAAAAACTTTTGAACAACTGGGTATGTCCCGGGAAATGATTGAGCGTTTGAAGAAACAGGGCATTGCCGTGCCCACCCCCATCCAGGAACAGGCGGTCCCGGTTATTATGGACGGACAGGATGTTATGGGACAGGCACAGACAGGAACGGGAAAGACGTTTGCTTTTGTCGTGCCAATCTTAGAGAAAATGGATCCATCCAAGCCTCACGTGCAGGCGTTGATTATATCACCGACAAGGGAACTGGCGCTGCAGATTACAGAGGAGACGAAGCGCCTCGCTCCGGAAGGGGTTCACGTGCTCCCGGTTTATGGGGGACAGGATACGATCAAACAGCTGCATAAGCTTGAAGGCACGGTTCATATCATTGTAGCGACACCAGGCCGGCTGCTGGATCATCTGCGCCGGCAAACGGTCGACCTCAACCAAGTTGATTATCTTGTCATCGATGAAGCGGATCAAATGCTGGAAGCCGGGTTCTATCCAGATGTCATGGACATCCTGGATCAAACAAATCCAGACAGACAGTCGATGCTGTTTTCGGCAACGCTGCCGTCTACTGTGAAAAAACTCGGCCGCGAAATGCTTCGTGAACCGAAAACGATTCACGTCAAGCCGGAAAAAGAGACCATCGGGCATATTAAGCAGCTGCTGTATCAAACAACAGACAGAGCCAAACAGGATGCATTGATTACGATCATGCAGGAGCACCGCCCATTCCTTGCTGTCATCTTCTGCCGGACGAAACGCCGGGCGAAGAAATTAAACGACGCGCTGCTCGCTGAAGGCTTCCTCAGTGATGAACTGCACGGAGATCTCACTCAGGCGAAGCGGCAGAAAGTGATGAAACGGTTCCGGGAAGCGGACATTCAGTATTTAGTGGCCACTGATGTAGCCGCGAGGGGTCTCGATGTAGAAGGAGTCACCCATGTCTTTAACTACGACATTCCCCAGGATGCTGACAGCTATATCCACCGCATCGGGCGTACAGGAAGAGCAGGAGGAAAAGGCCTCGCCATCACCTTCGCGGCTCCCAAGGATAAGCAGATGCTGAACATCATTGAAAAACAAACGAAGCAGAAACTCGAACGCAGATCGCTCGACAGCCTTTCCCCGGGGAAGAGGGAGAAAGAGTGA	MKKTFEQLGMSREMIERLKKQGIAVPTPIQEQAVPVIMDGQDVMGQAQTGTGKTFAFVVPILEKMDPSKPHVQALIISPTRELALQITEETKRLAPEGVHVLPVYGGQDTIKQLHKLEGTVHIIVATPGRLLDHLRRQTVDLNQVDYLVIDEADQMLEAGFYPDVMDILDQTNPDRQSMLFSATLPSTVKKLGREMLREPKTIHVKPEKETIGHIKQLLYQTTDRAKQDALITIMQEHRPFLAVIFCRTKRRAKKLNDALLAEGFLSDELHGDLTQAKRQKVMKRFREADIQYLVATDVAARGLDVEGVTHVFNYDIPQDADSYIHRIGRTGRAGGKGLAITFAAPKDKQMLNIIEKQTKQKLERRSLDSLSPGKREKE	PGPT0013740_2907	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
AK012_02495	663		COG0450	Peroxiredoxin	ATGGCTCAGTTTGATACAGAAGTTTCCCAGGTCACGATGCCCAGAATCGGGGACCGTGCCCCTTATTTTGAAGCACCCACCAACCATGGAAATATCAGTTTGAATGATTACAAAGGAAAATGGCTCGTGCTGTTTTCCCACCCTTCCGATTTCACACCCGTCTGTACTACGGAATTTGTCGGCTTTCAGGAAATTTATCCGGAACTCCATCAGCTGAACACCGAACTGCTTGGATTAAGTGTGGATTCCGTCAACTCCCATATCGCCTGGATCCGCAGCATTGAAGAAAATTTCAACACGTCCATTGATTTCCCGGTCATTGCCGATCTGGATAAGGAAGTGTCCATGAAGTACGGCATGATTATGCCGGGAGAAAGCCAGGTGGAGACGAGTCGTGCTGTCTTCGTTATTGATGACCAGCAGAAGATTCGTTCCATCATCTATTATCCTCTTACGACAGGCCGGAATATGCAGGAAATTCTGCGTCTCGTCAAAGCTCTGCAGACGACGGATGAGCATGGTGTATCCACACCCGCGAACTGGCAGGAAGGGGACAAGGCTGTTGTTTCTCCGCCTAAATCCCAGGAGGAAGCTGCCAAGCGCTCCGAACAGGAGGATATTGACTATATCGATTGGTATATTTCCAAAAAAGACATTCAATGA	MAQFDTEVSQVTMPRIGDRAPYFEAPTNHGNISLNDYKGKWLVLFSHPSDFTPVCTTEFVGFQEIYPELHQLNTELLGLSVDSVNSHIAWIRSIEENFNTSIDFPVIADLDKEVSMKYGMIMPGESQVETSRAVFVIDDQQKIRSIIYYPLTTGRNMQEILRLVKALQTTDEHGVSTPANWQEGDKAVVSPPKSQEEAAKRSEQEDIDYIDWYISKKDIQ	PGPT0013130_743	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
AK012_02496	1188			Gamma-D-glutamyl-L-diamino acid endopeptidase 1	TTGGACGTACAGGTAAGAAAAGGAGATACACTCTGGTATTACGCCGGGCTTTTCGATATTCCTCTCCCACTGCTCTTGGATTCCAATCCCGGCCTCTCTCCTGAGACCCTTCAGATCGGAAGTCCCATTCAAATTCCCGGCTGGCGGACCTCTACACACACCATCGAACAAGGCGACACCTTGTGGAAGCTGGCCGGCGAGACCCGCCTCTCCCTCGATGCACTGTTTCTGTTAAATCCGAATGCAGATCCAGGGCGTCTTCAAGTGGGAGACCCTCTTCTTATTCCGGAGCGTGTAACAAACCGGGTGGTCAACGGGAACCGCCCCTATACGTATACAGCTTTGACAGGAGATCTCCAGGCACTGTTTAAGCTTTATCCATTTATACGACGGTCCGCCATCGGTCAGTCGGTCATGGGAAAAGAACTTCAGGAGCTGCGCATCGGACGAGGAAATGAGAGCGTTCACTGGAACGGATCCTTTCATGCCAACGAATGGATTACAACCGGAGTGATCATGCAGTTTTTAAATGATTATTTACTTGCCCTCACCAATAAAGAGCCGATTCGCGGAATGGATGTCCAGCCGTTCTATAATCGGATCCGCCTGTCTATCGTACCCATGGTCGATCCGGATGGTGTCGATCTCGTCCTGAACGGGCCTCCGGAAGGAGCATTCGGTGAAACTGCGCTCTCTATTAATGAGGGAAGCCGGGACTTTTCCGGTTGGAAAGCGAATATCCGCGGCGTGGATCTCAATAACCAGTTCCCGGCCAAATGGGAGGTCGAAGCAGAGCGTAAGCCGAAAGCCCCTGCTTTCCGGGATTTTCCCGGCTATGAACCTTTGAGTGAACCGGAAGCCGTGGCGATGGCCGGGCTTGCCCGCCAGAGGAACTTTTCAAAAATGCTCGCTTTTCATACGCAGGGAGAAGTCATTTACTGGGGCTATGAGGGGCTTGAGCCTCCACGGTCGATGACGATCGTGAAAGAGTTCAACCGGGTAAGCGGCTATGAGCCGATTCGTTTCGTAGACAGCTATGCCGGATACAAGGACTGGTTCATCCAGGATTTCCGCCAGCCGGGGTTTACTGTGGAACTCGGACAGGGAGTCAATCCGCTTCCACTTGAACAGTTTGATGAAATCTACCAGGAATCCATCGGCATTTTCCTGGCCAGCCTCTACATGTAA	MDVQVRKGDTLWYYAGLFDIPLPLLLDSNPGLSPETLQIGSPIQIPGWRTSTHTIEQGDTLWKLAGETRLSLDALFLLNPNADPGRLQVGDPLLIPERVTNRVVNGNRPYTYTALTGDLQALFKLYPFIRRSAIGQSVMGKELQELRIGRGNESVHWNGSFHANEWITTGVIMQFLNDYLLALTNKEPIRGMDVQPFYNRIRLSIVPMVDPDGVDLVLNGPPEGAFGETALSINEGSRDFSGWKANIRGVDLNNQFPAKWEVEAERKPKAPAFRDFPGYEPLSEPEAVAMAGLARQRNFSKMLAFHTQGEVIYWGYEGLEPPRSMTIVKEFNRVSGYEPIRFVDSYAGYKDWFIQDFRQPGFTVELGQGVNPLPLEQFDEIYQESIGIFLASLYM				NA	NA	NA	NA	NA
AK012_02497	348			hypothetical protein	ATGTCTAAAACCGTTCAAGCTTATTTCCAGACAGAAAATGATGCCGAAAGCGCCAAAGCCGATCTGCAGTCGTTATCCGTCCAGCAGGAAATGGTGGAGGCCATTCCGGGGGATGTGGACCTGACCCCGGTTGTCCCTGTAGCAGGCTCTGCCAATACAGGCGGCGGGACATTCAATTTTACAGAGGTCATCACTCCAAAGCACGACCGTGAGGAAGCCCTATCCGATAAAAGGCATTTGACCCATGTACTCCATTTTTCCGTGAAGGAGGAAGAGTATGAACGAGCCGTTGGGGTCATTAAAGATCATAACGGACATATGAACCGAAACGACCTTGATGATGAATAA	MSKTVQAYFQTENDAESAKADLQSLSVQQEMVEAIPGDVDLTPVVPVAGSANTGGGTFNFTEVITPKHDREEALSDKRHLTHVLHFSVKEEEYERAVGVIKDHNGHMNRNDLDDE				NA	NA	NA	NA	NA
AK012_02498	1377	argH	COG0165	Argininosuccinate lyase	ATGAGTAAACTGTGGGGCGGACGCTTTACGAAACCAACCAATCAGCTGGTCGAAGAGTATACCTCTTCGATCGGCTTCGATCAAAAGCTGGCCCTCCAGGATATCAAAGGAAGTCTCGCTCACGTGGAGATGCTTGCCCACTGTGACATCATTTCCAATGAAGAGAAAAACCAGATCATCCGCGGGCTCCACACCATCCAAGGGAAAATCGAAAACGATGATGTGGCATATTCCGTAGCGGATGAAGACATTCATATGAATATCGAGAAGCTGTTGATTGAAGAAATCGGTCCTGTCGGCGGTAAGCTTCATACGGGGAGAAGCCGGAATGACCAGGTTGCCACCGATATGCATCTTTATCTCCGTGGAAAAACCGAGGCCATCATTGAGCTTGTGGAAAAAGTCCAGACGGCTCTGCTGGGGCAGGCGGAAGCGAACGTAGAAACAATCCTGCCGGGCTATACCCATCTGCAGCGGGCCCAGCCGATTTCCTTCGCCCACCATGTGCTCGCCTACTTCTGGATGTTTGAACGTGACAAAGACCGTCTGCAGGACAGCTTGAAGCGGATCAACTGGTCTCCCCTTGGAGCTGCAGCGCTTGCCGGGACACCGTATCCGATTGACCGGCAGATGAGCGCGGATCTTCTAGGCTTTGAAAAGGTATACCCAAACTCTCTCGATGCGGTGAGCGATCGGGACTTTATTCTAGAGTTTCTGTCGATTTCATCGATTATGATTACTCATATTTCCCGTCTTTCTGAGGAATTGATTTTATGGAGCAGCGAAGAGTTCAACTTTGTTGAGCTTGATGATGAATTCTGTACAGGATCAAGCATCATGCCTCAGAAGAAAAATCCTGACGTGCCGGAGCTGCTGCGCGGAAAAACGGGACGTATTTATGGGAACCTGATGGGGCTGCTGACCCTCCTGAAAGGGCTGCCGCTCGCCTACAATAAGGATATGCAGGAAGATAAGGAAGGCATGTTCGACACGGTCGACACTTTGGAAGGGGCACTGGCGCTGCTTGCTCCTATGCTGGATTCGATGGAAGTGAAGGCAGGGGAAATGAAAAAAGCAGTGAAAGAGGATTACTCCAATGCCACTGACATTGCCGATTATCTGGCTGTCAAAGGCATGCCGTTCCGTCAGGCTCATGAAGTGATCGGAAAGATTGTGTTGTACGCCATTCAGGAAGGACGCTATCTCCTGGATCTTTCCATGGAGGAGTACCAGCAGTTTTCTGAGTTGTTCGAAGCGGATATTTATGACAAGCTCGCTCCGGAACACGTGGTTGCTGCAAGGAACAGTGAAGGCGGCACCGGCTTTGAACAGGTTCATGTTCAGATTAAAACAGCAAAAGAGCACCTCTACGAATAA	MSKLWGGRFTKPTNQLVEEYTSSIGFDQKLALQDIKGSLAHVEMLAHCDIISNEEKNQIIRGLHTIQGKIENDDVAYSVADEDIHMNIEKLLIEEIGPVGGKLHTGRSRNDQVATDMHLYLRGKTEAIIELVEKVQTALLGQAEANVETILPGYTHLQRAQPISFAHHVLAYFWMFERDKDRLQDSLKRINWSPLGAAALAGTPYPIDRQMSADLLGFEKVYPNSLDAVSDRDFILEFLSISSIMITHISRLSEELILWSSEEFNFVELDDEFCTGSSIMPQKKNPDVPELLRGKTGRIYGNLMGLLTLLKGLPLAYNKDMQEDKEGMFDTVDTLEGALALLAPMLDSMEVKAGEMKKAVKEDYSNATDIADYLAVKGMPFRQAHEVIGKIVLYAIQEGRYLLDLSMEEYQQFSELFEADIYDKLAPEHVVAARNSEGGTGFEQVHVQIKTAKEHLYE	PGPT0014242_28	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014242-argHA-K14681	NA	NA
AK012_02499	1263	argG		Argininosuccinate synthase	ATGGACAAAAATATGGAGGAGGACGTTAAAATGACAAAACCAAAGGTAGTATTAGCATATTCTGGTGGATTGGATACTTCAATTTCTGTAAAGTGGATTCAGGAGAAATACGGATATGATGTGATTGCACTCGGGCTTGATGTTGGAGAAGGGAAGGACCTTGAGGCCATCCGCCAGAAGGCGCTGGATGTCGGAGCGATCAAAGCGATCATGGTCAATGCCAAAGAAATTCTTGCTGAGGAGTATTTGATGCCTGCTTTGAAAGCCAATGCCTTGTATGAAGGCAAATATCCATTATCTTCTGCCTTGTCCCGTCCGCTCATTTCCAAGCTTCTTGTAGAAGTGGCAGAACAGGAGGGTGCGGTGGCAGTCGCTCACGGCTGTACAGGAAAAGGGAATGACCAAGTGCGTTTCGAAGTTTCCATCCAGGCGCTGAATCCGGAGCTTGAAGTCATTGCTCCCGTCAGAGAGTGGGGCATGACCCGTGATGAACAGATCGTGTATGCCGAAGAAAAAGGAATTCCTATTCCGGTGAATCTGGAAAATCCGTTTTCCATCGATGCCAACATCTGGGGCCGTGCATGCGAAGCCGGTGTCCTGGAGGATCCATGGCAGGAAGCACCGGAAGCAGCATACGCCTGGACCAACCCGTTGGAAAAAACACCGGATACACCTGAAATCCTTGATATCGATTTCAAGGAAGGGAAGCCTGTAGCCCTGAACGGGGAAGAAATGGACATTGTGCCATTGATTGAAAAGCTAAATGAACTCGGCGGTCTGCATGGTGTCGGAAGAATCGACCATACCGAAAACCGTTTAGTCGGAATCAAATCAAGAGAAGTGTACGAAAATCCGGCAGCGATGATTTTGATCAACGCCCATAAAGAACTGGAATTCCTTACGCTGACCCGTGAAGTATCCCAGTACAAAACGAACGTGGATCAGCAGTTGTCCAAGATGATTTATGACGGTCTTTGGTATTCTCCACTTCAGCCGGCACTGTCCGCCTTCGTGGAAACGACTCAGCAGGTGGTCACTGGAACAGTGAAGGTGAAATTATTTAAAGGCCATGCCATCGTCATTGGTAAGAAGTCACCGGTCAGCCTTTACAATGAAGAGTTGTCCACGTATTCCAAGGAAGATGCTTTTGATCACAACGCAGCGGTCGGTTTCATTAAGCTGTGGGGACTGCCGACAAAAGTCCACGCGGATGTGCATCAAAAGAAGTTGATCGATCAGGCAGCGGTGAAGGTCAATGAGTAA	MDKNMEEDVKMTKPKVVLAYSGGLDTSISVKWIQEKYGYDVIALGLDVGEGKDLEAIRQKALDVGAIKAIMVNAKEILAEEYLMPALKANALYEGKYPLSSALSRPLISKLLVEVAEQEGAVAVAHGCTGKGNDQVRFEVSIQALNPELEVIAPVREWGMTRDEQIVYAEEKGIPIPVNLENPFSIDANIWGRACEAGVLEDPWQEAPEAAYAWTNPLEKTPDTPEILDIDFKEGKPVALNGEEMDIVPLIEKLNELGGLHGVGRIDHTENRLVGIKSREVYENPAAMILINAHKELEFLTLTREVSQYKTNVDQQLSKMIYDGLWYSPLQPALSAFVETTQQVVTGTVKVKLFKGHAIVIGKKSPVSLYNEELSTYSKEDAFDHNAAVGFIKLWGLPTKVHADVHQKKLIDQAAVKVNE	PGPT0020130_1863	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0020130-argG-K01940	NA	NA
AK012_02501	1662	lutP	COG1620	L-lactate permease	GTGGATATGATGACTTTTCTTCAACTAATCACGGCACTGATGCCGGTTGCTGCTGTCTTTATTCTACTCGTTTTATTCCGCTTTCCGGCCGTCCGGGCCATGCCGGTCAGTCTTCTTATCGTTGCTGTATCCGCCGTCTTCATTTGGAAGGTTCCTTTAGTCAGGGCTGCGGCGGCTTCCCTTGAGGGGATCATGATCGCCCTGTCTATTTTGTGGATTGTATTCGGGGCGGTGCTTCTGCTGAACACGTTGAAAAACAGCGGCGCACTCGGGGTGATTCGGACAGGTTTTTCCGGTATTACGAGTGACCGCAGGGTCCAGCTGATTATCATCGCCTGGCTGTTCGGATCCTTTATTGAAGGGGCAGCTGGATTTGGAACGCCTGCTGCGATTGCTGCGCCTTTGCTTCTGACCCTCGGTTTTCCAGCGCTCGCCGCAGTCTCTCTTGCTTTGATCGCGGACAGCAGTGCTGTGTCTTTTGGTGCCGTCGGTACACCGTTAATTGTCGGCGTGGATCAAGGGTTGAGGCAGGGGGCGGCTGTAGCCGAACCGGTGCAGCAGGCCCTTGGAAATCAGACGTTAACGCAGTTTGTTTATGAGGTGGCTCAATCGGCTGTTCTGATGGACTTGTTTATCGGCAGTTTTATTCCTCTCGTTCTCGTCCTGATTCTGACAAAGCTCTTCGGTGAGAACCGCTCGTTTATGGAAGGCCTTGAAATTTGGAAGTTTGCCCTTTTTGCAGGTGTGAGCTTTACGCTTCCAGCTTTACTCGTCGTTCATCTCCTTGGACCGGAATTTCCGTCTATTATCGGGGGTCTTGTCGGCTTGGCGGTCGTCGTTCCGGCGGCTAAAAAAGGATTTCTTCTTCCGGATGAACCCTGGGACTTTGGAAAAAGGGAGGAAGGGGAAGCGGTGGAGGAAATCAGCGCCAACGCTGTCACCATGCCTTTATACAAAGCCTGGGCGCCTTACATCGTGGTCGCTGTCCTGCTCGTTCTGACCCGTGTGAATGTTCTTCCTCTGAAAAGCTGGCTGACCTCTGTCTCTGTGACATGGGACGATATTTTAGGAACAGGCATCACAACTTCTTTTCAGCCGTTCTATCTGCCTGGGACGATCTTCGCCGCAGCTGTCCTGTTCACCATTTTTTATCACAGGATGAGAAAGAAAGAAGTGCTGGCAACATTGAAAACGTCCACGCATACCATGGTGGGGAGTGCCATAGCCCTGGGCACAGCTGTTCCAATGGTTCGGATCTTCATCAACTCCGGCGTCAATGATGCCGGTCTTGCCAGCATGCCGATGGAGCTTGCCGAAATCGTTTCTGCTTCTGTCGGGGAAGCGTGGCCGCTGGCTGCCCCTGTGATTGGTGCGCTTGGTTCCTTCATATCCGGAAGTGCGACGTTCAGCAACATGATGTTTTCTTTATTCCAGTTCAGTGTAGCGGATCAGATCCAGGTGGCCCAGCAGCAGGTGACAGCCCTTCAAGTGCTCGGTTCCAATGCGGGGAACATGGTGTGCATCCTCAATGTTGTGGCCGCTGCTTCTGTCGTAAACCTCGTCGGTGAGGAAGGAACAATCATCCGCCTGACAATGATTCCTATGCTGCTGTATGTATTGATGGCAGGGATGCTTGGGATGGCGGCCGTCTATCTCTTTTAA	MDMMTFLQLITALMPVAAVFILLVLFRFPAVRAMPVSLLIVAVSAVFIWKVPLVRAAAASLEGIMIALSILWIVFGAVLLLNTLKNSGALGVIRTGFSGITSDRRVQLIIIAWLFGSFIEGAAGFGTPAAIAAPLLLTLGFPALAAVSLALIADSSAVSFGAVGTPLIVGVDQGLRQGAAVAEPVQQALGNQTLTQFVYEVAQSAVLMDLFIGSFIPLVLVLILTKLFGENRSFMEGLEIWKFALFAGVSFTLPALLVVHLLGPEFPSIIGGLVGLAVVVPAAKKGFLLPDEPWDFGKREEGEAVEEISANAVTMPLYKAWAPYIVVAVLLVLTRVNVLPLKSWLTSVSVTWDDILGTGITTSFQPFYLPGTIFAAAVLFTIFYHRMRKKEVLATLKTSTHTMVGSAIALGTAVPMVRIFINSGVNDAGLASMPMELAEIVSASVGEAWPLAAPVIGALGSFISGSATFSNMMFSLFQFSVADQIQVAQQQVTALQVLGSNAGNMVCILNVVAAASVVNLVGEEGTIIRLTMIPMLLYVLMAGMLGMAAVYLF	PGPT0001800_1244	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_LACTATE_TRANSPORT,PGPT0001800-lctP-K03303	NA	NA
AK012_02502	663	queC	COG0603	7-cyano-7-deazaguanine synthase	ATGGAAAAAAACAAGAAAGCCGTCGTCGTGTTCAGCGGCGGACAAGACAGCACGACCTGCCTTTTCTGGGCTTTACAACAGTTTGATCACGTGGAAGTGGTCACTTTTGACTATAATCAGCGTCATAAACAGGAAATCGAAGTGGCAGAGGAGATCGCCGGAGACCTGGGTGTCCGACAGCATGTGCTCGACATGTCCCTGTTAAATCAGCTTGCACCAAACGCGCTGACCCGGGACGATATCGAAGTGAAGGACGGAAAAGACGGAGAACTTCCTTCCACGTTCGTACCAGGAAGAAATCTTCTTTTCCTATCTTTCGCTACCATTCTCGCACGTCAGATTGGTGCCAAGCACATTATTACTGGTGTATGTGAAACGGACTTCAGCGGGTATCCCGACTGCCGCGATGTGTTCGTTAAATCGTTGAACGTTTCCCTTAACCTGTCGATGGACGATGAATTCGTCATCCATACCCCGCTCATGTGGCTGGATAAAGCGCAGACGTGGAAAATGGCCGATGACCTGGACGCCTTTTCCTATGTACGGGAAAAAACACTCACCTGCTATAACGGTGTCCGTGGTGACGGATGCGGAGAGTGCCCGGCCTGCCAGCTGCGCAGACAGGGACTGGAAAATTACCTCACTGAGCGGAAGGAGGCGTGA	MEKNKKAVVVFSGGQDSTTCLFWALQQFDHVEVVTFDYNQRHKQEIEVAEEIAGDLGVRQHVLDMSLLNQLAPNALTRDDIEVKDGKDGELPSTFVPGRNLLFLSFATILARQIGAKHIITGVCETDFSGYPDCRDVFVKSLNVSLNLSMDDEFVIHTPLMWLDKAQTWKMADDLDAFSYVREKTLTCYNGVRGDGCGECPACQLRRQGLENYLTERKEA				NA	NA	NA	NA	NA
AK012_02503	468			hypothetical protein	ATGTACGGATTTACAATTGTGGAAAACCTGCAGAAAATCGATGAAGATATTAAGCGCCATGAGTTGAAATACCACCAGAAGCGGGTGATGGTCAGCAAGGAGTTCACGTTCGACGCTGCCCACCACCTGCACTGTTATGAAGGGAAATGCAAAAACCTTCACGGCCACACGTACAAAGTCATCTTCGGTATCAGCGGCTATACCGATGAGATCGGCCTTGTGATTGACTTCGGAGATATCAAGAAAATCTGGAAGGATGAAATTGAAATCCACCTCGATCACAGATACTTAAACGATACACTTCCGCAGATGAATACAACGGCAGAGAACATGGTCGTCTGGATTTATGAAAAAATGCAGGAGTCGCTTCGTTCCTATCCGAATGATTACCGCGTTGAATTTGTAAAGCTGTATGAAACGCCGACAAGCTATGCGGAAGCGCGACGGGAGTGGATGAATGATGCATAA	MYGFTIVENLQKIDEDIKRHELKYHQKRVMVSKEFTFDAAHHLHCYEGKCKNLHGHTYKVIFGISGYTDEIGLVIDFGDIKKIWKDEIEIHLDHRYLNDTLPQMNTTAENMVVWIYEKMQESLRSYPNDYRVEFVKLYETPTSYAEARREWMNDA				NA	NA	NA	NA	NA
AK012_02504	732	queE	COG0602	7-carboxy-7-deazaguanine synthase	ATGATGCATAAGTTCCCTGTGCTCGAAATTTTCGGACCGACCATCCAGGGGGAAGGGATGGTCGTCGGTCGGAAAACGATGTTCGTCCGGACAGCCGGCTGTGATTACAGCTGCGCCTGGTGCGACTCCGCCTTCACATGGGATGGCAGTGCCAAAGAGGATATCGAACGCCTGACAGCCGATGACATCATCGACAGACTGATAGAAGAAGGCGGCGACCGATTCGATCACGTCACCATCTCCGGTGGAAACCCCGCCCTTTTGAAAAACCTGCATGAGCTTATACAGCCGCTGCACGAACGCGGCATTGAAGTGGCCCTTGAAACGCAGGGAAGCCGGTGGCAGGACTGGTTTGTTGATATCGATGATTTAACGATTTCACCAAAACCGCCAAGCTCGCTGATGACGACAAACTGGGACGTGCTTGATGACATTATCCAGCGGCTTCAGGAGCAGGGGCGCTCCTCGCATGTCAGTCTGAAGGTCGTTATTTTCAACGACGAGGATCTGACGTATGCGGAAACCGTGCATCAGCGGTACCCGGACATCCCCTTCTTTTTACAGGTCGGCAATGATGACCTTGTTGAAGAGAAGCCGGGCAGCCTGGCCTCCCACCTGCTTGATCAGTATGAATGGCTGATCGACAAGGTAACGGCCTCTGAAAACCTGAATCATGTACGTGTGCTGCCTCAGGTGCACGCCCTCGTCTGGGGAAACAAACGAGGCGTATAA	MMHKFPVLEIFGPTIQGEGMVVGRKTMFVRTAGCDYSCAWCDSAFTWDGSAKEDIERLTADDIIDRLIEEGGDRFDHVTISGGNPALLKNLHELIQPLHERGIEVALETQGSRWQDWFVDIDDLTISPKPPSSLMTTNWDVLDDIIQRLQEQGRSSHVSLKVVIFNDEDLTYAETVHQRYPDIPFFLQVGNDDLVEEKPGSLASHLLDQYEWLIDKVTASENLNHVRVLPQVHALVWGNKRGV				NA	NA	NA	NA	NA
AK012_02505	954			hypothetical protein	ATGATTCAGAGGTTGAACCGGCTGCTGCAGAAGCTGATGCCCTGCATCACACCTGGAGCTGTCGTTTTCGGTGTGATTTTCGCCAAGTGGCTTGAACCGCTTGTTTTTCTTGTACCATGGATCTTTGCGGTCATGACCTTTGCCGGCAGTCTTGGTTCCAATTTTACAGATTTGAGAAAGGTGCTGCGTCACCCTTTAGGGTTAATCATCTGTCTCCTCGTTTTACATATTCTCATGCCTGTCATAGCCCTTGGAACAGGAACGGTATTTTTCAGCGGGGATGTGAACACAACTATCGGGCTTGTTTTATCCTTTGTCATTCCAACCGGGATTACGTCGCTGATCTGGGTATCGATCTATAAAGGAAATGTCGTGCTGACGCTGTCGATTATTCTGGTCGACACGATGCTTGCTCCATTTATCGTTCCGATCGTCATGAAACTGCTTGTCGGGAATGCGGTGGAAATGGATGCGCTGTCGATTATGATGGGGCTGCTCTGGATGATTGTGATCCCGTCCATAGCCGGGATGTGTGTGAATCAGTGGGGAAAAAGGGAGTGGACGGAGCGTTTGGAGAGGAGCCTGGCTCCGACAACCAAGCTGGGGATTGCTTCGGTCGTGATGATCAACAGCTCAGCGGTCGCCCCATACTTGCGGGAGATGAACGGGAAGCTGGCAGGGACAGCGCTGACGGTATTTCTTCTCGCAGTAGCTGCCTACACGCTCGGCTTCTGGTCGGCAAAGCTTGCGAAGCTGGAAAACGAAAGTGTCCTATCGCTCACGTTCAACAGCGGTATGCGCAACATAAGTGGCGGAGCCGTGATTGCGATCACCTATTTTCCAGCGGCGGCCGCTGTGCCGGTCATCGTCGGGATGCTGTTCCAGCAGGTGCTTGCTTCGTTTGCCGGGAAGTTTTTCGAAAAGCGGGCGGTACGGGTGAAAGAGGCCGGTTAA	MIQRLNRLLQKLMPCITPGAVVFGVIFAKWLEPLVFLVPWIFAVMTFAGSLGSNFTDLRKVLRHPLGLIICLLVLHILMPVIALGTGTVFFSGDVNTTIGLVLSFVIPTGITSLIWVSIYKGNVVLTLSIILVDTMLAPFIVPIVMKLLVGNAVEMDALSIMMGLLWMIVIPSIAGMCVNQWGKREWTERLERSLAPTTKLGIASVVMINSSAVAPYLREMNGKLAGTALTVFLLAVAAYTLGFWSAKLAKLENESVLSLTFNSGMRNISGGAVIAITYFPAAAAVPVIVGMLFQQVLASFAGKFFEKRAVRVKEAG	PGPT0013890_1444	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013890-panS|yocS|ybaS-K03453	NA	NA
AK012_02506	1245			L-lactate transporter	GTGAAAAACAGATGGCTCATTGCCTTATGTGCCGTCGGCATTCATATTTCTATCGGTTCGGTCTATGCGTGGAGTAATTTCACAGGACCGTTGAGTGAAGAGTTTGGCTGGTCGGCCAGCCAGGTGCAGTTTACGTTTAGTGTCGCTATCTTATTTCTAGGTTTATCTGCTGCTTTTCTTGGCTGGTTTGTAGAAAAATACGGTCCGCGGGTGGCGGGGATCACGGCAGCGATTTTCTTCGGCATCGGAGTCGCGGGATCAGGGATTGCGGTACAGGCCGGATCACTCTGGCTGCTGTACTTTTTTTATGGGGTTCTTGGAGGGATCGGTCTTGGAGTCGGTTACATTGCACCGGTATCCACGCTTGTGAAATGGTTCCCTGACCGTCGTGGACTGGCGACCGGTATGGCGATTATGGGCTTTGGCTTCGCCGCTGCGATTGCCAGTCCGCTGATGAACTTTTTTATCAATCAGACAGGCATTGCCGCAACCTTCTACATTCTCGGGATCTCCTATTTTGTCGTTATGATTGGTTCTTCCCTTTATCTGTCCCGTCCGCCGGAGGACTGGGTTCCGGAAGGCTACGATCCGGAGGAACAGGAATCTTCGGATAAACAGGACCTCGCCAATATGCGGGCGAAGGAAGCGGTCAAGACGAAGCGTTTTTATTACTTATGGGTGATGCTCTTCATCAATGTGACGTGCGGGATCGCCGTCATCTCCGCCGCCAAGCCGCTGCTTGAGGAAAGTGTCGGTGTAGCAGCTGGGACAGCAGCAACCCTTGTCGGTGTGATGGGGATCTTTAACGGTCTCGGCCGGATCGGCTGGGCGAGTGCGTCGGACTATATCGGCCGTGGAAATACGTATTTAGCATTTTTCGTTCTGCAGATTGGTCTTTTCCTGATTGTGCCTTATACATCCATTACATGGGTGTTCGTCGTGGCGTTTTCCATCATTTACACTTGCTACGGTGGAGGATTCGCAGCAATGCCGGCCTTTATCGGCGACTTGTTCGGAACGAAGGAGCTTGGTGCCATTCACGGGTACATTTTGACCGCGTGGGCAGCTGCGGGCCTTGCCGGACCTGTGTTTGCAGCATGGATGAAGGATACGACAGGCAGTTATGAGAACAGCTTGATCTACTTTGCCGGGTTGTTTGTGATCGCACTCGTCGTTTCAATCTTAACGAAGCGTGACGAAAAACAGAAACGCCAAGCGCTGAAGGCAGAATCACGTACAGCGTAA	MKNRWLIALCAVGIHISIGSVYAWSNFTGPLSEEFGWSASQVQFTFSVAILFLGLSAAFLGWFVEKYGPRVAGITAAIFFGIGVAGSGIAVQAGSLWLLYFFYGVLGGIGLGVGYIAPVSTLVKWFPDRRGLATGMAIMGFGFAAAIASPLMNFFINQTGIAATFYILGISYFVVMIGSSLYLSRPPEDWVPEGYDPEEQESSDKQDLANMRAKEAVKTKRFYYLWVMLFINVTCGIAVISAAKPLLEESVGVAAGTAATLVGVMGIFNGLGRIGWASASDYIGRGNTYLAFFVLQIGLFLIVPYTSITWVFVVAFSIIYTCYGGGFAAMPAFIGDLFGTKELGAIHGYILTAWAAAGLAGPVFAAWMKDTTGSYENSLIYFAGLFVIALVVSILTKRDEKQKRQALKAESRTA	PGPT0017235_962	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_OXALATE_TRANSPORT,PGPT0017235-oxlT-K08177	NA	NA
AK012_02507	1203			hypothetical protein	ATGAAGGAAAATAAATTTATAGATACATATTCAGATGATATTTTATACTTATACCACATGAGGGAGGCATCGTTAAGCCATCCTTTAAAATACACAAATCCGCTTTTGTTTTCTGCTTCTTTTACTAGAATTTATTGTGTATTTATGATTGGTAGTATTGAAGCAATGCTTAAACAATGGTCAGATATTCAGGGTAATGAATATCTCGGTGATTTCCTTGACAATAAAAAGTGCAATAGATCAAGGGTTGACAATCTTCGAAGGTCATTTGAACTCAACGACATACCAGTAGACAAAGAGGTTTTAGAAGATTATTTAGCAATTAAATATATAAGAAATATAATTGTTCACAGTGAGCAAAGTAATTCCCAATTGAATCGACGAGAGGAGTTCATTCTAAAACGTCATTTCCCAATAGATCCTAGAGAATTAAATGATACTCATTTGAAAAAAATGCATAATGTTAATGAGAATATGATGATGTACATAGGGTTAACCTCATTAATACGAGGTGGAAAGTCTAAATCTTTTAAAAAAGGGAGTCTCTTAAGGATTGATCATGAAGTACCTAGTGTAGATGATATTATTTATAGCAGTCAAATTCCAAAAGTAATTTATAATAATATTTCAAAAATCCTAATGCGTTTCGAACAAATATTTGAGCAAGAAGAGTCTGAAAAGCAAGATGAGTTATTTTATTTATCAAACGAAACTTTATTATTTTGGAATGAATTTAAAAGGCATAGATTTAATGAAAGACTGTCTAATAAATTCTCATTAGAATCTAGTTTAGATATATTGAAAAGTTTATTGGAAAATGGTAATTTTATGAAATACCCAATTGAACCTAATCAGATTAAAAAACTATATGATAGAGTAAAAGATAATGAAATCTCTGAAAATCAAATCCTAGTATTTTTTAATGGTAAATTGAATTATCCTTTGAAAGATATAATAGAGTCTTTACTTATTGGTGAAAGTGCTTATCATAGTATACCTAATATTACACTCTTTAAATTATTTACGTGTTATTTACCTCGATTTTTACCAAATGAAAAAGAGTATCTTGTAAGTGAAGCAAAAGACTTTCTTCTTTTATTTAAATTATCAAGGTATTATTATAATTATTTTGAAAAGCATTCTGATATTACCGAATTAAAAAAGGTTATTCAGTCTTATGAGGGTATTATTGATAAAATGTAG	MKENKFIDTYSDDILYLYHMREASLSHPLKYTNPLLFSASFTRIYCVFMIGSIEAMLKQWSDIQGNEYLGDFLDNKKCNRSRVDNLRRSFELNDIPVDKEVLEDYLAIKYIRNIIVHSEQSNSQLNRREEFILKRHFPIDPRELNDTHLKKMHNVNENMMMYIGLTSLIRGGKSKSFKKGSLLRIDHEVPSVDDIIYSSQIPKVIYNNISKILMRFEQIFEQEESEKQDELFYLSNETLLFWNEFKRHRFNERLSNKFSLESSLDILKSLLENGNFMKYPIEPNQIKKLYDRVKDNEISENQILVFFNGKLNYPLKDIIESLLIGESAYHSIPNITLFKLFTCYLPRFLPNEKEYLVSEAKDFLLLFKLSRYYYNYFEKHSDITELKKVIQSYEGIIDKM				NA	NA	NA	NA	NA
AK012_02508	2442			hypothetical protein	ATGGCGGAGCATATTTTTTTAACGGGAAAACCTGAAAGTCATCGTTACACTGCCTTCGGTACACCTATTAATGAAACTTTGCCTAAAAGAGAGCAACGGACTCATGCGCAATATTTACAAAGAAAATTAGAAGGAATTTGGGAGCAAGTTAAGAAAAAAGATAGCGCTAGATTAGCTGTATCTATGCCTGTGAAAAATGGAACATACTTAGAATTTGAAGGAAGTCCTGATGAGATATTAAATATCCAAAGCTTGGAGAACAAACCTTCAGGAATAAAATTATTGAATTCTCGAAATGTAGATAAGGATGGGCATCGTGTCGTTAAAGCCACAGTATATGTCCCGAAAGGTAAAGAAGCGTTCTTTTTGAAAAGAATCAATGAGTACGGCGAAGTTACGCAAAAAGGAAACCCGAAACATGAAAGGTTAATTGCTACTATTAACGATATTAAGGAAGCAGTATTAGAATCATTTTGGATAGGTCGTAAAGAATGGATGCCAAATGGGGATTCTATCTGGTGTGAGATATGGATTAGAGATGAATTGAACGGTGAAACTGAGCTTAATGAAGTTAAAGAACGTGTTAAAGAGCTCGGTATTACAATGAAAAGTGAGGAAATCAGCTTTCCAGAACGTAAGATAATACTCATAAAAGCTAATAGGGATCAGCTAACCGAATTAATAGCCCGGAGTGATTATATAGCAGAAATAAGAAGAGCAACCCAAGCAAACAGCTTCTTTTTGGATATAGAAAATAAAGAACAGGTTGAATGGGCGAAAGATTTACTTGAAAGATTAGAACAAGAGGAAAGCAACGTTGTTGTCAGTATATTAGATACAGGTTTAAACAATGGAAATATATTATTAAATAAAATAGTAGAAGATGACGATATACATAGCTATTTCGATGATTCAGGGAATGATTTAGAAGGGCATGGTACTGCTTTAGGTGGTATATCTGCGTATGGTGATTTAAAAGAAGCTTTATTGTCGAACGAAAAAGTGATAATATCCCACTCTCTAGAGTCTATGAAAATTATTCCTGATGGTAAGAAGAACGAACCTGAGCTATTTGGGGCAATTACGTCGCAATCGGTAAGTAAACTTTACATTAAGAAGCCGGAAAGAGATAGAATCATTAGTATGGCAGTAACTGCTGAAGATTATATGTATTTAGACGGACGTCCGTCCTCTTGGTCTGCAGCAATAGATGATTTAATCCACGGTACAATGGATGGTATCCAAAAAGTTTTTTTAGTTTCTGCCGGTAATATAAGAAACCCTGAAAAAATTTATAATTATCCCGATAGTTGTTTAGTAGAAACTATTGAAGACCCAGGTCAATCATGGAATGCAGTGACTGTGGGTGCCTATACTAATCTGGATACACCTGAGGATTCTTCTTATGAAGTTGTTGCACAAAAAGGAGAGCTTTCACCTTATTCAAGGTCTTCTGTACTGTTCGATAAAACATGGCCAATTAAACCTGAAATTGTTTTTGAAGGTGGTAATGCAGTTAAGTCGGGTGAAGCTGCCTATGAAGATGGAGATCTTTCAGTTTTAACAACTCATCATGACCCGGTAAATAGAATATTCACAACAGTAAATGCAACAAGTGCCGCTACTGCTTCAGCTAGTTGGATGGCAGCCAAAATTCAAACTGAGTACCCACAAGTATGGCCAGAAACCATAAGAGCGCTTTTAATTCACTCTGCAAAATGGACAGATGAAATGAAGCAACAATTTTTGAAAGGAACCAACAAGGGAGATTATAGGTTACTATTAAGAACATGTGGTTATGGAGTTCCCAGTTTAGCGAGAGCCATAGAAACTATGAAAAATCGAGTGAACCTTATCATAGAATCAGAAATTCAGCCATATGACAAAATAGATGGGTCCTATAAAACAAATGAAATGCATATCCACGAATTGCCTTGGCCTAAAGAACAATTATTAAGTATGCTCGATGCAGAAGTAGAAATGAAAGTTACCTTATCTTATTTTATTGAGCCAAGCCCTGGGGAAAAAGGATGGAAAAATAAATATAGATATGCTTCAAGTGGACTTCGATTTGATTTAAATGGTACTAGTGATAAAGAATCCTTTTTAAAACGAATCAATAAAGCAGCGGTTGCTGAAGATGAAAAGGGTGGTGGGGCTTCAAGTGTAGGTTGGCAGCTAGGTCCAGGTAATAGAGATGTTGGATCTATACATTCTGATACGTGGATTGGTCCTGCCGCCGATCTTGCTACAAGTAATTACATTGGAGTATATCCAGTTATTGGATGGTGGAGGGAGAGACCACATTTGAACAAATGGGATACTAAAATAAGGTATTCATTAGTTGTTTCATTATCGACGCCTAAAACTGATATAGATTTATTAACTCCAATACAAACTCAAATAACTTCTAAGGTAGAGAGTGAAGTAAAGATTCAGTAG	MAEHIFLTGKPESHRYTAFGTPINETLPKREQRTHAQYLQRKLEGIWEQVKKKDSARLAVSMPVKNGTYLEFEGSPDEILNIQSLENKPSGIKLLNSRNVDKDGHRVVKATVYVPKGKEAFFLKRINEYGEVTQKGNPKHERLIATINDIKEAVLESFWIGRKEWMPNGDSIWCEIWIRDELNGETELNEVKERVKELGITMKSEEISFPERKIILIKANRDQLTELIARSDYIAEIRRATQANSFFLDIENKEQVEWAKDLLERLEQEESNVVVSILDTGLNNGNILLNKIVEDDDIHSYFDDSGNDLEGHGTALGGISAYGDLKEALLSNEKVIISHSLESMKIIPDGKKNEPELFGAITSQSVSKLYIKKPERDRIISMAVTAEDYMYLDGRPSSWSAAIDDLIHGTMDGIQKVFLVSAGNIRNPEKIYNYPDSCLVETIEDPGQSWNAVTVGAYTNLDTPEDSSYEVVAQKGELSPYSRSSVLFDKTWPIKPEIVFEGGNAVKSGEAAYEDGDLSVLTTHHDPVNRIFTTVNATSAATASASWMAAKIQTEYPQVWPETIRALLIHSAKWTDEMKQQFLKGTNKGDYRLLLRTCGYGVPSLARAIETMKNRVNLIIESEIQPYDKIDGSYKTNEMHIHELPWPKEQLLSMLDAEVEMKVTLSYFIEPSPGEKGWKNKYRYASSGLRFDLNGTSDKESFLKRINKAAVAEDEKGGGASSVGWQLGPGNRDVGSIHSDTWIGPAADLATSNYIGVYPVIGWWRERPHLNKWDTKIRYSLVVSLSTPKTDIDLLTPIQTQITSKVESEVKIQ				NA	NA	NA	NA	NA
AK012_02509	954	ftsH_1		ATP-dependent zinc metalloprotease FtsH	ATGGCAACAGCTGATCAAATAAAAATGCTTATTAAATCTCACTATGCTGATAATTATGAGCATTTCAATACGGCTGTCCTTCAATTAGCTGCACATGAAGCAAGAAAAGGGCATACAGCATTGGCAAGAGAAATCCAAGAAATTGTAAATAAAGAACGTAATAAAAGACACAACATTATCCAGTTTAATAAATACAATGATTTTATTGATTTCCAAGAAACAGATCAAAAATTATCTGAAATGTTTATTAGTAAAGAATTAAAAGAACGAATTCATCGGATTAAAAATGAGTTTAGAAGACAGGATGAATTGAAAAAATATAACTTGAAAAATAGAAGGAAGATACTGCTGGTGGGGCCACCAGGCACAGGTAAAACAATGACAGCCTCTGTTTTGTCAACAGAATTAGGAATGCCTTTAGGGACAATTATGATGGATAAAATGGTGACGAAATATATGGGAGAGACTAGCAGTAAGCTTAGAGTTATCTTCGAGGCAATTAAAGAATTGCAAGGTGTATACTTGTTCGATGAATTCGATGCAATCGGATCGAAAAGGGATCAAGACAATGATGTTGGAGAAATGCGCAGAGTTGTTAACACCTTTTTACAGTTATTAGAACAAGACAATTCAAGCAGTTTAGTCATAGCTGCCACTAACAATATTAACCTGTTAGATAAGGCTCTGTTTAGAAGGTTTGATGATGTGATCTTTTATGGAAATCCCGATGAGATACAAATAAAATCCTTAATTGAAAATAAATTATCCATTTTTGAAATGGAGTTAAACCTAACAAAAGTTATTGAAGCCGCTAAGGGGTTAAGCCATTCTGAAATATCTAGAGCATGTGACGACAGCATAAAAGAAATTATCTTAAGTGATAAGGAAGAGCGAGCTGAAAATTTAATTTTATCAATGATTCAGGAAAGAAAAAATATTTATGCGAAGGAATGA	MATADQIKMLIKSHYADNYEHFNTAVLQLAAHEARKGHTALAREIQEIVNKERNKRHNIIQFNKYNDFIDFQETDQKLSEMFISKELKERIHRIKNEFRRQDELKKYNLKNRRKILLVGPPGTGKTMTASVLSTELGMPLGTIMMDKMVTKYMGETSSKLRVIFEAIKELQGVYLFDEFDAIGSKRDQDNDVGEMRRVVNTFLQLLEQDNSSSLVIAATNNINLLDKALFRRFDDVIFYGNPDEIQIKSLIENKLSIFEMELNLTKVIEAAKGLSHSEISRACDDSIKEIILSDKEERAENLILSMIQERKNIYAKE				NA	NA	NA	NA	NA
AK012_02510	696			hypothetical protein	ATGATTTGGATGAGCAATCAGGATAAAGTAGATATATTTGATATACTTACGATGTTTAATGAAGAAGTGGGTTTTAAGGGATTAGATAATACAGATAAAACCACCGATGAACGAGATGATGTTATTAGTCGACAAACATTTAATAATTGGCTTAGAGAATATAATGAAACACATTCTGGACAAATTAAAAGTAAGAAGGTTAATCAATATCAAAACGAGTGGTTCAAAAGTGATATTCAAAAATTGATTAAGAATAATAGAGTACAAAAAAACCTTCATAAGGCGTATCTAAGAAATACTGTGCCTTTATTCGAAGGGTGGGGTTTTAAAAGTAGTAGGGTTTCAAAGAAGTATAAGAAAGTTCAAGATCATCTAAGAAAGCAAAGTAACAGTGAAGCTTTAGATAAATCAATGGAACAAGCAATAAATTATTTAATAGATGTAGTTATTGAAAAACATTTTATTGTATCTTTCCAGGGCAAACCTGTAGTAGGTAAGCAATATATTAATAGAAGTAAAATCTTCGAAGATTTTTTAGATGCAAATAAGATAGAGGAAGAAGCTTTTAAGATGGTTGATAATTATTATGGAACCCTTGAGTATGGTGAAAAAGGGGATATTATCACTGTGCATCATCCTCAAGATATACCAAACACAGATTACTTTTTGAATAATATAGAAGAGACCAACAGTTGA	MIWMSNQDKVDIFDILTMFNEEVGFKGLDNTDKTTDERDDVISRQTFNNWLREYNETHSGQIKSKKVNQYQNEWFKSDIQKLIKNNRVQKNLHKAYLRNTVPLFEGWGFKSSRVSKKYKKVQDHLRKQSNSEALDKSMEQAINYLIDVVIEKHFIVSFQGKPVVGKQYINRSKIFEDFLDANKIEEEAFKMVDNYYGTLEYGEKGDIITVHHPQDIPNTDYFLNNIEETNS				NA	NA	NA	NA	NA
AK012_02511	351			hypothetical protein	ATGAAGAAGCTGAGAGAGTTTAACAAGTTTGATTGTGAAGCGTTTTTCAAGGATAAGGATGTAAGGGTGATGGCGCACGAGCCTTGGTTTGGTTATGACAATGGAGAAAGAACGGAACAGTTAGGAACAAAGTACAAGTGTGTGGTTGCAACAGACAGAACAGAATACAAAGGGAAAGACGTATCACCAGATTTAAATGCTGGAGAACAAATTGATGTAAAAGTATCACAACAGCCAAAGAAGTATAAGAAGTTTAGCAAGATCACTTTTGTAAATCCAACCGCTTCCGTTTATGGCACGTTCCAATCTGAATTAAGCGTACAAGCTGATGACGTTGACATTCAACCATAA	MKKLREFNKFDCEAFFKDKDVRVMAHEPWFGYDNGERTEQLGTKYKCVVATDRTEYKGKDVSPDLNAGEQIDVKVSQQPKKYKKFSKITFVNPTASVYGTFQSELSVQADDVDIQP				NA	NA	NA	NA	NA
AK012_02512	1305			hypothetical protein	ATGAAAAAGAAAACATATAGGATGCAACGCGGCATTTTCTCGTTTTCATTCATAATCATTTCCCTAATCTTTTGGCTGTTTTTTAATAAATACTATCCATTATTGATTGAGCGAATTACAGTCATCCAATTGCCGAACATTGAATCGAAAATTTTCTTAGTACTTGCTGGATCAGTAACGTGCTGCTTATTTATTTGCTGGGGAATTCGTAATAAATGCTGGAAAGGTCTGTCTTTTACCATCAGCTATTACTCAATAACTAAAAGGTTAAGAAGGCAAATAAAAGATGCACGTTTTGAGGATGAACGGGAATTTGACAACCGTTTAGTGAGATTACCAAAGATAAAGATTGTATTCGATGATAATCGAATTAGGACAACTGGAAAAGTGCTAATACAGAATTCTATTAACTTTGATAAAAAGCTTGAGGATATGCGAATTGATGCAGCATTAAAAGGATTCGTTAGTGAACGTCAATATTTATCACAAGATCGTGATTGGTATGTGTACGAGTTCTATTCTATTGGAGCGCAGAAACAACTTGAGATTAAGTCAGCAGAGACATTGATTGAATGGTCAAACAAGACATCAGACGATTATGCCTTACGCTTAGATGAACGTGCAACTGTACCGTTTCATCATATGGGGTTAGTCGGGCAAACAGGCAGTGGTAAATCGTTTTTTATCCAAATGCTAGTTGAACAAGTACTTTCAAAAAAGGTAGATCATGAGTTATTCATTATTGATCCGAAGCGCACAGACGTTTACCAAATGGCTAAATTCACAATAGGTAGTGATCGTACCGCCGATAAAACCAACTCTATTAATTTGATTAAACAATTTCATGACCGAATGAAAAAACGACAAAATGAGTTACAGGAGTATTTCAAATCAAACCGTAACAAAACTTACAAGGATGCTGGCTTACCTGCCTTATTCATGCTTATTGATGAGTTCGGTGCCTTAAGAGAGTCATGGAAGACTTTAGCAAAAAAGGAACGTGATGAAGTCGATAGTATACTGTCTGACGTTGCTTTCATGGGCCGTCAACTAGGGTGTATTCTATGGGTCGCTACGCAACAAATGAATGCACAGACGATGCCAACAGCGATTAGAGAACAGCTCGTTTTAAAGATTGCTTTAGGTGATAGTGATGAGCAAACATATAGAACTCTGTTTTCTTCTGGTGTAGATGTACCGCCAGTTATGTTTGCTGCTGGTCAAGGGATTTATAGCTACCCAGGGTTAGCCGGCACGGAAAAACCACGGTTGTTGACAGTACCATACTGTAGCTTTTTGAATTAG	MKKKTYRMQRGIFSFSFIIISLIFWLFFNKYYPLLIERITVIQLPNIESKIFLVLAGSVTCCLFICWGIRNKCWKGLSFTISYYSITKRLRRQIKDARFEDEREFDNRLVRLPKIKIVFDDNRIRTTGKVLIQNSINFDKKLEDMRIDAALKGFVSERQYLSQDRDWYVYEFYSIGAQKQLEIKSAETLIEWSNKTSDDYALRLDERATVPFHHMGLVGQTGSGKSFFIQMLVEQVLSKKVDHELFIIDPKRTDVYQMAKFTIGSDRTADKTNSINLIKQFHDRMKKRQNELQEYFKSNRNKTYKDAGLPALFMLIDEFGALRESWKTLAKKERDEVDSILSDVAFMGRQLGCILWVATQQMNAQTMPTAIREQLVLKIALGDSDEQTYRTLFSSGVDVPPVMFAAGQGIYSYPGLAGTEKPRLLTVPYCSFLN				NA	NA	NA	NA	NA
AK012_02513	492			hypothetical protein	ATGATTAAACCAGATATTGATCAATTCACACTCGTACTCCAAACAACGGATGTATTCGACTTTGATGAATGGCGTGAATGGGTTGCAAAAAACATAGTCAGTACATTCTTAATAAACTCTAAAATGCATATTCTATTCGACGAATTAGGTGAATCCGACACTAAACTGCCAGAAGGCTACACTATAGGCTATTCAATCATTAATGCACCTTTTTACTTTTGTATCGCATACCATGAAGCATTTTCTAAAATGGGCGTGATTGTTAAATTTAGTGCATACGCATGGCACGAGTATCGAAAGCGATATGCGGAGAAATTTAATGAGCCAATTCATTTACACAACTTCTTCCAAATGATTGAATCAGATGATTATGAGTTTAGACTTTCACGAATCGACATGTGCTGTGACTTTTTAAATGAGAACATTGACATCGCTAAATTAAAACGTTCCATAGAGGAAGGAAGGACTGAATTGCGTTATGGGAAATATTAA	MIKPDIDQFTLVLQTTDVFDFDEWREWVAKNIVSTFLINSKMHILFDELGESDTKLPEGYTIGYSIINAPFYFCIAYHEAFSKMGVIVKFSAYAWHEYRKRYAEKFNEPIHLHNFFQMIESDDYEFRLSRIDMCCDFLNENIDIAKLKRSIEEGRTELRYGKY				NA	NA	NA	NA	NA
AK012_02514	195			hypothetical protein	ATGGGAAATATTAACAAAAGCTATCTACAAAAAGTTATTGAAGATAACAAAGGAAAACCTTATAAGAAGAACAACTCAAAATTGTCCGATGTATCCAAAGACTTTCAAGCACAAACTTTGTATATAGGTGCAAAAGGGCGAAACACTAAAGTACATTTACGTATTTATGATAAAAAAGAGGAACAACTATCATGA	MGNINKSYLQKVIEDNKGKPYKKNNSKLSDVSKDFQAQTLYIGAKGRNTKVHLRIYDKKEEQLS				NA	NA	NA	NA	NA
AK012_02515	507			hypothetical protein	ATGAAGCATATGCGCCATATTGCCAAACAAGTAGATGACTGGACACGTGTCGAAGCAGAATTTTCTGGTGAATACGCACATCAATTAACAAATGTAAATAAAGAATGTAACTGCGATGAAGAATTAAAAAATATCATTATTAGTTCTCTAATTGATCGCTATATGTTCTTTTATACTAATTCTAATCGACCTCATAAGATAACTAGATTGATGCTTGATTTGCTAGATAAAAAGGATTTCCATTTTGAGTCACCATCTCCACGTAACAATCTGTTAGAACAATCAATAGACCATTTAATTAAAGGTTCTGGCCTTCTCCCCACATTGTGGAAAGTTCAACAAATATGGGGCAATAATACAGCGCAAGAATTAATAGAGTTTTTGTACACCCAATATTATGAGGGGTTTGAGCCTAACGATGATCATATCTCGTGGATAAATAAATATAAACCATATTATTTAACTCAAGGAATGCCTTGGGGAAAGGATGATACACATGCGAATTAA	MKHMRHIAKQVDDWTRVEAEFSGEYAHQLTNVNKECNCDEELKNIIISSLIDRYMFFYTNSNRPHKITRLMLDLLDKKDFHFESPSPRNNLLEQSIDHLIKGSGLLPTLWKVQQIWGNNTAQELIEFLYTQYYEGFEPNDDHISWINKYKPYYLTQGMPWGKDDTHAN				NA	NA	NA	NA	NA
AK012_02516	219			hypothetical protein	ATGCGAATTAACCATATTTCACACCATTTAAAAGAGCTTAAAGCAAACATGGACACTATTGAGGCATACATTTATGCGAATCTAGGACGAGTTGATAATTTCACACTGTCCGACGATGAGTTATTTAATAAGGTAAATTACCAGTTCAGGCTGTTCAAAGCCCGTTACACAAATCTACAGCTTGAATTAGATAATGAAAGGAAAAGGGGATCCAAATAA	MRINHISHHLKELKANMDTIEAYIYANLGRVDNFTLSDDELFNKVNYQFRLFKARYTNLQLELDNERKRGSK				NA	NA	NA	NA	NA
AK012_02517	240			hypothetical protein	ATGCAACCAGGTGAGTATGATATTTTAAAAACGATCAAAGAACAATTCGAAAAATACTTCAATTATATAAACGAGCAACAGGAATGGCTTGACCTGAAATCTGCCGCAAAATACGCAAACGTATCCTATAACACATTTATTAAATTCCGCACATTGGGTTTGAAAGTTGCTGAAATTGACGGTATTAAAAGAGTTAAAAAATCGGAGATCGACCGTTTCTTACAAGAGCAAAGCTATTAG	MQPGEYDILKTIKEQFEKYFNYINEQQEWLDLKSAAKYANVSYNTFIKFRTLGLKVAEIDGIKRVKKSEIDRFLQEQSY				NA	NA	NA	NA	NA
AK012_02518	1143	xerC_3		Tyrosine recombinase XerC	ATGATCAAAAAATATACCTTAAAAAACGGGAAGGTAAGGTATCAATTTCAATTTTATATTGGTACAGATGATTCAACCCAAAAACAAATAAGGACGACAAGAAGGGGTTTTAAAACCAAAAAAGAAGCAGAGCTTGCATTGGCAAGACTTAAGTTGCAGGTTAACAATGGGGAATATCGTAAAGAACGTGCTGACACATTTAAGGAAGTTTATGAGTTGTGGTTACCTCAATATGAGAATACCGTTGAACAAAGCACATTTGTAAAAACAGTTAGCTTATTTGAACACCATATACTCCCAAGTATTGGGGATTATAAAATCAAAAAAATCACCATTGATAGGTGTCAAAAAGCTGTTAACGATTGGGCGGAAAAAATCAAAAACATCAGCAAAGTTAAGGCATACACATCGCGAGTATTTAACTTCGCTATAAAACGTGATTATATTCATAAAAACCCATTTGATTTAGTTGAAGTCCCAAGGAAAAAGAACAAACAACCGGCTGAAACAGACGAGAAGAACTTCTACACCCGGGAACAGCTTATTGAATTTCTTTCATGTCTTGAAAACGAAACAAACGTCAAAGCACACGTATTTTTCCGTTTGCTCGCATTTAGTGGAATGAGAAAAGGAGAGGCTTTTGCACTTACCTGGAATGACATAAGATTTAATACTAATGAAATAAGGATAAATAAAGCCATTTCTCGGGGACAAGCCAATAAACTTTACGTTAAGACAACAAAAACGAATGAAGCCAGATCGATTAAGATGGATGAACAAACAATGAGCGTATTAAAGATGTGGAAAAAGAAACAGAAAGATGAATATTTTAAACTGGGTTTCAATACCTCAGAGCCAACTCAACTTGTTTTCAGCAATACAGAGAATGAACTACTACAACCTAACAAAACTCGTGATTGGATTATATACGTGCAAGAGAAGTACCATTTAATGAGAGTAACGACACATGGTTTACGGCATACGCATTGTTCACTGTTATTTGAAGCTGGTGCTACTTTAAAAGAAGTACAAGATCGGCTTGGGCATAGTGACATAAAAACCACTATGAATATATACACACACGTTACTGACAAAGCCCAAGAACAGGCAATACAAAAATTTTCAAGCTATATAGATTTATAA	MIKKYTLKNGKVRYQFQFYIGTDDSTQKQIRTTRRGFKTKKEAELALARLKLQVNNGEYRKERADTFKEVYELWLPQYENTVEQSTFVKTVSLFEHHILPSIGDYKIKKITIDRCQKAVNDWAEKIKNISKVKAYTSRVFNFAIKRDYIHKNPFDLVEVPRKKNKQPAETDEKNFYTREQLIEFLSCLENETNVKAHVFFRLLAFSGMRKGEAFALTWNDIRFNTNEIRINKAISRGQANKLYVKTTKTNEARSIKMDEQTMSVLKMWKKKQKDEYFKLGFNTSEPTQLVFSNTENELLQPNKTRDWIIYVQEKYHLMRVTTHGLRHTHCSLLFEAGATLKEVQDRLGHSDIKTTMNIYTHVTDKAQEQAIQKFSSYIDL				NA	NA	NA	NA	NA
AK012_02520	1413	putP_1	COG0591	High-affinity proline transporter PutP	ATGGAATTGCAACAAGATCCAACTTTACTATGGTTTATTGCTATATACGGGATTGTAATGATCGGCATCGGTGTATTCATGTCGAAGAAAGTATCTGGAAGTGAGGACTTCGTCCTTGCCGGTAAAAGTCTGGGACCTTTTGTCCTTATGGGTACTCTTCTCGCTACGTGGACAGGAAGTGGAAGTATATCCGGTGGAGAGACGTCCATGGCGTTTTCTTATGGTATTCTGCCTTCCTTGATGATGATGCTCCCAACGTTGGTCGGAATTATTATTCTTTATGTCGTAGCTCCTAAGATCCGTGCCTACGGGAAATTTACCGTCTCAGGAATTTTGGAAGCGAAATACGGACGAACGTCCCGAAACCTTGCGAGTGTCATTATCATCCTGGCTTATGTCGGGATCGTATCCTATCAGATGAAAGGCTTTGGCTTTATCTTGAACTTGACGACGGGAATGACCGTCCAGGCAGGAACAATGATCGGTGCAGGAATGATCATTTTCCTTGCGATGATTGGCGGACTGCGCTCCGTTTCCCAAACAGATGCTATCAGTGGTTTCTTGATGGTGGGTGGTCTGATTGTGACCGTTCCTACGATCATCATGGTTGCCGGCGGGTGGAGCGAAATCGTCGCCAATGTTCCTGAAAGCCACATGACATCTACAGGCGGATTGACGACCGTGCAGATGATCGGGTATCTGCTGCCTTCGTTATTCCTTCTGCTTGGTGACCAGAACATGTATCAGCGACTCGCCTCATCCAAAGGGGACAAGTCAGCCAAACGGGCTCAAATCGGCTGGTTGATCGCGATGCTGATCATTTCGCCGTCGATTTCCATCATCGCCTTTGCCTCCCGTTCCTTATTCCCGGATATTGATCCCGGAATGGCCCTTATGGCTACGACCGTAGCTATGCCTATGGCCATCGGCGGTGTTCTTCTGGCAGCTGCAGCGTCCTTCATCATTACGACCGGAAACTCGTATCTTTTGTCGGCAGCGACCAACTTAACCTACGACCTGTACGGCAAATATGTGAATAAAGACGCCTCCGATAAGAAGCTGCTCACGATGACGCGGATTTTTATCGTAGCTCTTGGATTGTTCGCTTTTATCATTATCAGCTATTTCCCAACCGTGCTGAGTGTGCAGATGTACGCTTATACCGTGTACGGTGCCGGATTAACGCCGGCTGTTCTCGCCGTTTTCTTCTGGAAACGCGTAAACGCAGCAGGCGGCGTATCTTCCATGGTTGCTGGTGTTGTCACAACACTTGTATGGGAGATCGTCCTGCAGAAGCCGTTTGACGTCAACAGTGTCGTCATCGCGGTCCCTGTAGCCGTTCTCGTCCTCATTATCGTTACCCTTGTAACATCTAATAAAGGAGAGGCTGCCGCAGACGTGCGTGCATCCTAA	MELQQDPTLLWFIAIYGIVMIGIGVFMSKKVSGSEDFVLAGKSLGPFVLMGTLLATWTGSGSISGGETSMAFSYGILPSLMMMLPTLVGIIILYVVAPKIRAYGKFTVSGILEAKYGRTSRNLASVIIILAYVGIVSYQMKGFGFILNLTTGMTVQAGTMIGAGMIIFLAMIGGLRSVSQTDAISGFLMVGGLIVTVPTIIMVAGGWSEIVANVPESHMTSTGGLTTVQMIGYLLPSLFLLLGDQNMYQRLASSKGDKSAKRAQIGWLIAMLIISPSISIIAFASRSLFPDIDPGMALMATTVAMPMAIGGVLLAAAASFIITTGNSYLLSAATNLTYDLYGKYVNKDASDKKLLTMTRIFIVALGLFAFIIISYFPTVLSVQMYAYTVYGAGLTPAVLAVFFWKRVNAAGGVSSMVAGVVTTLVWEIVLQKPFDVNSVVIAVPVAVLVLIIVTLVTSNKGEAAADVRAS	PGPT0013955_5279	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
AK012_02521	582	pabA_2	COG0512	Aminodeoxychorismate/anthranilate synthase component 2	GTGATTTATATGATTGACCACTATGATTCATTCACGTACAACCTCGTCCAGTACCTGGGCGAGCTCGGTAAAGAGGTCGTTGTCCGCAGAAACGACGAAGCATCGATTGAAGAAATTGAACAGCTGGATCCGGAGCTGATATTCCTGTCACCCGGACCGTGCTCTCCGGATGAGACGGGGGTAACCCTTGAAGTCATCGATCATTTTAAAACGAAGACACCGATTTTCGGAGTCTGCCTCGGTCATCAGTCGATCGCCCAGGTATTCGGTGGAAATGTCATCCGGGCGGAACGCTTGATGCACGGCAAGTCCTCCCGCGTCTTTCACGACGGGCGGGGCATTTATGAGGGCCTGAATAATCCAATGGAAGCGATGCGTTATCACTCCCTGATTGTCGAACTGGATTCCCTTCCTGATTGTTTCGAAATCAGCTCCACCACTGTGGAAGGAGAAATCATGGGCATCCGCCATCTGGAATATCCAGTGGAAGGTGTGCAGTTCCATCCCGAATCCATCGGTACGAATGATGGCATGCAGCTTCTTAAAAATGTCATCGAACAGCGGATGAAAGCTTTATTATAA	MIYMIDHYDSFTYNLVQYLGELGKEVVVRRNDEASIEEIEQLDPELIFLSPGPCSPDETGVTLEVIDHFKTKTPIFGVCLGHQSIAQVFGGNVIRAERLMHGKSSRVFHDGRGIYEGLNNPMEAMRYHSLIVELDSLPDCFEISSTTVEGEIMGIRHLEYPVEGVQFHPESIGTNDGMQLLKNVIEQRMKALL	PGPT0008000_1121	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008000-pabA-K01664	NA	NA
AK012_02522	804	trpA	COG0159	Tryptophan synthase alpha chain	ATGCTGACGAAAACATCGTTTCAAGGAAAGCTTAGCAAAACAGAAAATCTGTTCATCCCATTCGTCGTAGCGGGAGATCCTTCTCCGGAATATACGATTGAATTTGCGCTGAGGCTGCAGGAGCAGGGCGCCGACGTTCTTGAACTCGGCGTTCCTTATTCCGACCCGCTTGCGGACGGCCCGACCATTCAGCGGGCAGCCAAACGTGCGCTGAACGCAGGGATGTCGCTGAGAAAAGCGATTCAGCTTGTCCCGGAACTCCGCAGGCACGGAGTGGAGATTCCCGTTGTGATCTTCACGTACTACAACCCTGTCCTGCAGATCGGCCACCAGGACTTCTTCAATCTGCTTGAAGAAAACGGGGCGGAGGGCGTGTTGATTCCAGACCTTCCATTTGAGGAAAGTGAAGAAATACGCAGCATGGCTCTTGAAAAAGACGTGGAATTCATATCTCTCGTTGCGCCGAATTCGGACACACGGATACAGCAGATCGCAGAGCACGCCCGCGGTTTCCTCTACTGTGTCTCCTCCCTTGGGGTTACGGGGGGAAGCAGCGGGATGTCCGCAGAAGCTTTATCCTTCATTAAAAAAGTGAAGGAGCACAGCCAGGTTCCTGTGGCCGTCGGCTTTGGAATTTCTACCAATGAAGACGTCAAGCTTGTTCGTGAACATGCTGATGGTGTCATTATCGGAAGTAAGATCATCCGGCTTATCGCAGATGAGCTTGAGGTCATTGAAAAGGGTCAGCAGGAAGAGGCACTGGAAAGCTTTACGAAAGGCATTCAGGAACTCGTCAGAGATTGA	MLTKTSFQGKLSKTENLFIPFVVAGDPSPEYTIEFALRLQEQGADVLELGVPYSDPLADGPTIQRAAKRALNAGMSLRKAIQLVPELRRHGVEIPVVIFTYYNPVLQIGHQDFFNLLEENGAEGVLIPDLPFEESEEIRSMALEKDVEFISLVAPNSDTRIQQIAEHARGFLYCVSSLGVTGGSSGMSAEALSFIKKVKEHSQVPVAVGFGISTNEDVKLVREHADGVIIGSKIIRLIADELEVIEKGQQEEALESFTKGIQELVRD	PGPT0007070_2778	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
AK012_02523	1194	trpB	COG0133	Tryptophan synthase beta chain	ATGTTGCAAGCATTTCCTGATATCAAAGGCCGGTTCGGTGACTTCGGAGGCAAATACGTGCCGGAAACGTTGATGGGCCCGCTCCAGGAGCTTGAAGAAGCTCTGGATGAAGCTATGGCGGACCCCGAATTCCAAAATGAATACCATCATGTGCTCAAAGAATACGCGGGGCGCCCGACTTCTTTGACATATGCCGATAAAATTTCCGATCATCTCGGCGGAGCGAAAATCTACTTGAAGCGTGAGGATTTGAATCATACCGGCGCTCACAAGCTGAACAATGCCATTGGACAGGCTCTTCTCGCTAAGCGGATGGGGAAAGAGAAAATCATTGCTGAAACCGGAGCCGGTCAGCATGGTGTCGCTTCTGCCACTGTCGCAGCCAAGTTCGGCCTGGAATGCATCGTATTTATGGGAGAAGAGGATATCCGCAGGCAGGAATTGAACGTGTTCCGTATGAAGCTTCTCGGTGCTGAAGTCGTTTCTGTTTCCAGCGGGAACGGCACATTGAAGGATGCAACGAACGAAGCGATCCGCTACTGGGTGGCGAATTGTGAAGACCACTTCTACCTGATCGGTTCGGTTGTCGGTCCACATCCGTATCCACGGATGGTCCGTGACTTCCAGCGTATCATCGGTGACGAATCAAGACGTCAGTTCCTTGAGGTTGAAGAAACTCTTCCGGACCGTATTTACGCCTGTGTCGGCGGCGGCAGTAATGCAATGGGAATGTTCTACCCGTTTCTTCAGGACGAAAGCGCCCTCGTTGGTGTCGAAGCAGCCGGAAAAGGAATTGATACACCGGAGCATGCCGCTACCCTTTCCAAAGGGACACCAGGTGTCATTCACGGATCGCTGACATACTTGATGCAGGATGATAACGGACAAATCACAGAACCTTATTCCATCTCTGCAGGCCTTGATTATCCAGGCATCGGCCCTGAGCATGCCCATCTCTTCCAAACGAAGCAGGTCCGCTATGAAGCTGTGACGGATCAGGAGGCTCTCGATGCTCTCAAGCTTCTTACGCAGACAGAGGGGATCATTCCTGCGATTGAAAGTGCCCATGCTCTTGCTCAGGCTTTCAAGGAAGCCGGAAGCATGGAAGCGGATGAGACCATTCTTATCAACCTGTCCGGACGCGGGGATAAGGATATGGCAACATTAATGGAACATTTCCAGGAGGAGGTTTAA	MLQAFPDIKGRFGDFGGKYVPETLMGPLQELEEALDEAMADPEFQNEYHHVLKEYAGRPTSLTYADKISDHLGGAKIYLKREDLNHTGAHKLNNAIGQALLAKRMGKEKIIAETGAGQHGVASATVAAKFGLECIVFMGEEDIRRQELNVFRMKLLGAEVVSVSSGNGTLKDATNEAIRYWVANCEDHFYLIGSVVGPHPYPRMVRDFQRIIGDESRRQFLEVEETLPDRIYACVGGGSNAMGMFYPFLQDESALVGVEAAGKGIDTPEHAATLSKGTPGVIHGSLTYLMQDDNGQITEPYSISAGLDYPGIGPEHAHLFQTKQVRYEAVTDQEALDALKLLTQTEGIIPAIESAHALAQAFKEAGSMEADETILINLSGRGDKDMATLMEHFQEEV	PGPT0007075_3800	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
AK012_02524	657	trpF	COG0135	N-(5'-phosphoribosyl)anthranilate isomerase	GTGAGGGAGCCTATTGTGAAATTGTGCGGCAACCAATCGCTTTCTGATACAGCGAAAACGGCTTCCTCCAAAGCCTCTCATCTCGGCTTCATTTTTGTGAAGCGTACGAAGCGTTACGTCCGGCCTGAACGTGTCGGCCGATGGATACGGAAGGTCCGCCCGCGTCAGAAGCTTGTCGGTGTGTTCATTGATCCCACCGTTGAGGAGCTTGAGGAAATCCTCCATTTCGTGCCTCTTGACGTCATTCAGCTGCACGGGAACGAAACGGTTTCCCAGCTTCTTCAGATTAAAGAGGCGTTCGGTCTTCCCGTCTGGAAGGTGGTTCATCATCAGGATGGAGGTCTCGATCAGATGGACGTTTTCAAAGGCGTAGCTGACGGTTTCATCGTTGACAGCAAAGTTGGGGGAGCATCCGGAGGCACAGGTGTCCAGTTTGACTGGGAAGCGGTCCCTGCCTACAGGGATGCCGCGTTTGACCAGGGAGTGCCCTGCCTGATCGCTGGAGGCATCAAGCCTGAAAACGCCGGTGAACTGTTGAGTTACCAGCCGGAGGGCATCGATATTTCAAGCGGAATTGAACGAGAAAATAAAAAAGACATTGGTAAAATACAAGCGATTATGAAAGAGGTGGAAGCAAATGTTGCAAGCATTTCCTGA	MREPIVKLCGNQSLSDTAKTASSKASHLGFIFVKRTKRYVRPERVGRWIRKVRPRQKLVGVFIDPTVEELEEILHFVPLDVIQLHGNETVSQLLQIKEAFGLPVWKVVHHQDGGLDQMDVFKGVADGFIVDSKVGGASGGTGVQFDWEAVPAYRDAAFDQGVPCLIAGGIKPENAGELLSYQPEGIDISSGIERENKKDIGKIQAIMKEVEANVASIS	PGPT0007115_1360	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
AK012_02525	762	trpC		Indole-3-glycerol phosphate synthase	ATGCTTGAAACCATCTTAGCTGTGAAGCATCAGGAAATTGAAAAAATGTACCTGCCTGAGGAACAATCGTTTCCAAGGCATTCCTTATATGAAGCATTGAATGAGGCGGATCCGTCGGGATTGATTGCTGAAGTGAAGAAAGCTTCCCCTTCCAAAGGAATCATCCGGGAAGACTTCAATCCTGTCCGCATTGCGCATGAGTACGCCCAGTCCGGCGCCCATGCCATATCTGTTTTGACTGATCAGCACTTTTTCCAGGGGCATCGCGATTATTTAACACAGATCAAGCAGGTCGTGGATATTCCTGTTATGAGGAAGGACTTCATCATCGATTCCGCCCAGGTCGTAGAGAGTGCGTATATCGGAGCCGATGCAATTCTTTTGATCGGCGAGGCTCTCGAAGCGGAGAAGCTTCACGAGCTTTATAACCAGGCCTATGAGCTGGGAATGGAAGTGCTGGTGGAAGTCCACAGTGAAGATACCCTTGACAAAGTGCTGAACCAGTTCACGCCGAAAATCCTCGGTATCAACAACCGCAATCTTCATACGTTTGAAACCTCCTTGAAGCAGACTGAACGGATGGCGGCTCTGGCGCCTGAGGAATCGCTGCTCGTTTCGGAAAGCGGCATTTTCACAAATGAAGATGTTCAACAAGCCGCCGGATTTGGAGCGAAAGGCGTTCTTGTAGGAGAATCTCTGATGAGGCAGGATGACATCAAAAAAGCAGTACGTACACTGCTTGAGGGAGTGGAGGTCCGGTGA	MLETILAVKHQEIEKMYLPEEQSFPRHSLYEALNEADPSGLIAEVKKASPSKGIIREDFNPVRIAHEYAQSGAHAISVLTDQHFFQGHRDYLTQIKQVVDIPVMRKDFIIDSAQVVESAYIGADAILLIGEALEAEKLHELYNQAYELGMEVLVEVHSEDTLDKVLNQFTPKILGINNRNLHTFETSLKQTERMAALAPEESLLVSESGIFTNEDVQQAAGFGAKGVLVGESLMRQDDIKKAVRTLLEGVEVR	PGPT0007080_3782	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
AK012_02526	1023	trpD	COG0547	Anthranilate phosphoribosyltransferase	ATGAAACAAACGTTGAGCAGAGTTGTAGCCGGAGAGTCCATGAACGAGCAGGAAGCCTTTGAAACGATGAACACGATCATGAATGGAGGAGCCACCACCGGTCAGTTGATGAGTATGCTGAGCGTCATGAGCTACCGGGGGGAAACCGTCGAGGAGATGACCGGTTTCGTCCGGGCCATGCGTGAGAATATGACGAAAATGGATGTGGACGATGCTTCAATCGTAGACACATGCGGGACCGGCGGCGATGGGGCTTCCACCTTCAACATATCGACGGCGGTATCGCTCGTTCTTGCCAGTATGGGGGTGAAGGTCGCCAAGCACGGCAACCGGAAAGTTTCCTCCAAAAGTGGAAGTGCCGATGTCCTGGAATCTCTCGGTGTTCCGATTGATACGACACCGGAGCAGGGAGCCAAAGCCCTCGAGGAAAAGGGGATGACCTTCATGTTCGCTCCCCTCTACCATCAGGCGATGAAGCACGCGGGTCCTGCCCGTCAGGAGCTTGGATTCCGCACAGTTTTCAATCTGCTTGGACCGATGTCCAACCCGGCCAACGCCAGGCGCCAGTTGATCGGTATTTATGACACAGCGTATGCCGAGAAAATGGCTGAAACCCTGTATAAGCTTGGTTCAGAGCATGTCCTTCTTGCCACCGGCCGGGACGGTCTGGACGAAATTACAATTACCGGGGAAACCGACCTTGTGGAAATGAAAGACGGAAATATCCGCCGCTTTACCATTAAACCGGAAGACTTCGGGATGAACAGAGGAAATATTGAAGACATCCAAATTACAGAAACCGAGGAAAGTGCCGCGATCATTAAAGACGTCCTGTATAACCGGGCAGGAGAGACAGCCGCATCCATTGTAACGTTGAACGCAGCAGCGGGGCTTTATGTGGCTGGGAAGGCGGATACGTTGGAAGACGGCGTCGAACAGGCCCAGAAGGCCATTCAATCCGGCAGGACCAGGGAATACTATGAATCTATTGCGTCAGAAAGGGAGAATCGCCAGTATGCTTGA	MKQTLSRVVAGESMNEQEAFETMNTIMNGGATTGQLMSMLSVMSYRGETVEEMTGFVRAMRENMTKMDVDDASIVDTCGTGGDGASTFNISTAVSLVLASMGVKVAKHGNRKVSSKSGSADVLESLGVPIDTTPEQGAKALEEKGMTFMFAPLYHQAMKHAGPARQELGFRTVFNLLGPMSNPANARRQLIGIYDTAYAEKMAETLYKLGSEHVLLATGRDGLDEITITGETDLVEMKDGNIRRFTIKPEDFGMNRGNIEDIQITETEESAAIIKDVLYNRAGETAASIVTLNAAAGLYVAGKADTLEDGVEQAQKAIQSGRTREYYESIASERENRQYA	PGPT0007090_2819	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
AK012_02527	1653	trpE	COG0147	Anthranilate synthase component 1	ATGAGCAGAGCAGAGCCGAGTAAGAGCGAGGAACCGCCGGACGTACGGAGCTGGCAGGTTGCCTGGCCGAACCCCTTTATTTCATCCACTCATTTATCATTCCTCAACGTCTCGTTCTCCATAAACCTATTATGGAGAGGTGAGCGAATGACCACTTACGAAACATTTCAAACCGATGCGGAAGTGTACCGCACCATTCCCATCAGTCAATCCTTTTTTACAGATACGATTACACCCATTCATATGTTTCATGCATTGAAAGATGAAGCTGTCTTTATGCTTGAAAGCCAGGACCCGGAATCCCCGTGGTCGAACTTTTCATTCATTGGACTCGATCCGATGGTTCAGGTGAAAGAAAAAGACGGGCGGTTTCTCATTGAAGACTACCGTAGGCAGACAAAAGAATACGAGGAAAGTTTTAAGGCCGCTTATGAAAAAGTGGTCCATGACCTGGAGGTAAAGCAGCCGGACATTGACCTTCCATTTAAAGGGGGCGGTGTCGGTTACATCAGCTATGATGCCATCTCAGATTTCGAACCGGTGGAACCGGCGGAACAGGATGATCTCAATCTTGCCCGTTACCATCTGCTGTTCTGCCAGACCCTGATCGCCTACCATCATAAAACAAAAGAAACGACCATTCTTTCCTTTGGAAGGGTGGATGATCAAGCCGCCTCCAAAGAGGTTTATGATTCGACGAAGGAACGAATCAAAAAGATTACGAGCCGTTTGAGAAAAGGCAGCGATCTAGAGGATCTGATGCTTGGTGAAGACGCAGGGCAGGAACAGGAACTGGTTCTTTCCAGCAACTATAAGCCGGAAAAATTCAAGCAGGATGTGGAAACGATCAAAGAGTACATCCGGGCGGGCGATGTTTTTCAGGCTGTATTATCCCAGCGGTTTCACACCATCACAGACCGTACAGGCTTCGAGCTTTACCGGGTGCTGCGGAAAGTGAACCCTTCCCCTTATATGTTCTACCTGAATATGGAGGATGTTGAAGTGATCGGCAGTTCACCGGAGCGGCTGCTCGAAGTGCAGAACGGTCAGCTTGAAATCCATCCCATCGCCGGAACACGGAAGCGCGGAAGCACGCAGGAGGAAGACGACCAGCTGGCGGAAGAACTGCTTGCAGATGAAAAAGAACTGGCTGAGCACCGGATGCTTGTCGATCTTGCCAGGAACGATATCGGCCGTGTCGCTGAATTCGGAAGTGTGGATGTCCGGGAGTATATGACGATCGGACGTTTCTCCAAGGTCATGCACATTATCAGTAAAGTGACCGGGCAGCTGAAGGACGGAGTTTCACCGATCGATGCCCTCATTTCATCCTTCCCGGCCGGGACTCTATCCGGTGCCCCGAAGGTCAGGGCGATGCAGATTCTTCGTGAGCTGGAGCCGACGCCCCGGAATCTTTATGGCGGCGGCATCCTTTATCTCGGTTTTGACGGGAATATCGATTCCTGTATTACCATCCGTACGATGACTTTAGCGGATAAGCATTTATACATTCAGGCAGGAGCTGGTGTCGTGGCTGATTCCGATCCTGAAGCTGAATATCAGGAAACATTGAACAAAGCAAGTGCTTTGAAGAGAACGATCGAGTTAGCTGAGCAGGTATTTTCGAGCCGAGAAGGAGTGGAGACGAGATGA	MSRAEPSKSEEPPDVRSWQVAWPNPFISSTHLSFLNVSFSINLLWRGERMTTYETFQTDAEVYRTIPISQSFFTDTITPIHMFHALKDEAVFMLESQDPESPWSNFSFIGLDPMVQVKEKDGRFLIEDYRRQTKEYEESFKAAYEKVVHDLEVKQPDIDLPFKGGGVGYISYDAISDFEPVEPAEQDDLNLARYHLLFCQTLIAYHHKTKETTILSFGRVDDQAASKEVYDSTKERIKKITSRLRKGSDLEDLMLGEDAGQEQELVLSSNYKPEKFKQDVETIKEYIRAGDVFQAVLSQRFHTITDRTGFELYRVLRKVNPSPYMFYLNMEDVEVIGSSPERLLEVQNGQLEIHPIAGTRKRGSTQEEDDQLAEELLADEKELAEHRMLVDLARNDIGRVAEFGSVDVREYMTIGRFSKVMHIISKVTGQLKDGVSPIDALISSFPAGTLSGAPKVRAMQILRELEPTPRNLYGGGILYLGFDGNIDSCITIRTMTLADKHLYIQAGAGVVADSDPEAEYQETLNKASALKRTIELAEQVFSSREGVETR	PGPT0007095_2541	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
AK012_02528	525	sigY	COG1595	RNA polymerase sigma factor SigY	ATGATTATGGAAGCCAACGATATGACACGGGCCAGGAATGGAGATGAAGAAAGTCTTGCCCGGCTTTTGAAAGACCACTACGCCTTCGTGATGAAATATGTGTGGAAAATGTGCGGCGATGAACAGCTCGCCTATGACATCACCCAGGACACGCTCATAAAAGCTGTCCAGAAGATTGACCAGTACCGGGGGACGGCCAAATTCTCCACCTGGCTGATCCAGATTGCCACCCATACCTATATCGATGCACGGAGAAAACAGCAGAGAAATGAAAAACTGGAGCAGCGGGAAAAGGAACGAATCCAGCTGCAGACCACCAAGCAGCTCCCGGAGGAATGGTATGACGTTCAGGAGGCTCTCTGGAACCTTGAGGAAAAATACCGGATCCCTGTGCTGCTCAAGCACTACTACGGCTTTGAATACAAAGAAATTGCTAAAATGACGAAGTCCAGAACCGGCACGGTAAAATCACGGGTTCACTACGGCATGGAAAAGCTGCGAAAGGAGTTGAATGAACATGGATAA	MIMEANDMTRARNGDEESLARLLKDHYAFVMKYVWKMCGDEQLAYDITQDTLIKAVQKIDQYRGTAKFSTWLIQIATHTYIDARRKQQRNEKLEQREKERIQLQTTKQLPEEWYDVQEALWNLEEKYRIPVLLKHYYGFEYKEIAKMTKSRTGTVKSRVHYGMEKLRKELNEHG	PGPT0014960_10264	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK012_02529	318			hypothetical protein	ATGGATAACAGGAACACCCCGTCCCTGGAGGAAAAACTGCAGAAGGCATCGGAGCAGATTGACCAGCACCTGGACATGGAAGAACCACCGCTCCTGTATTTTGAAACGCTTGTAAGAGAAGAACAGCAGGCATGGCACCAAAGGCTGTGGAAGGAATTGATGCTGCTATGGGGCGCTGCCCTTTTGATGATTACCGGGCTTGCCCTCAGCTTTTATTTTATCCCCGCCTTATTCATCATCGTTCAAGGAGCAGCCGCTGTGGTGCTGCTCGGGTATGTGTGGAAGGAGAAAAGAGAAATGGTGATGGTAGATAAATGA	MDNRNTPSLEEKLQKASEQIDQHLDMEEPPLLYFETLVREEQQAWHQRLWKELMLLWGAALLMITGLALSFYFIPALFIIVQGAAAVVLLGYVWKEKREMVMVDK				NA	NA	NA	NA	NA
AK012_02530	213			hypothetical protein	ATGAAGCATTACGGACCTGAAGAAATTCCTGTATGGGGGTGGGGGATCATTGCCGCCATTCTGGTCACCCAGAGCACCCTTTTGTTTATCCAGGCTAAAAAGCGCGGCCGGGCGCCCTGGCTGTGGGGCCTTGTCGGACTAATTCAATTCCCTGTCCCAACCATCGTGTTCATCATCCTGTGCAAAACAATCTGGAAGGATCCAACAGGATGA	MKHYGPEEIPVWGWGIIAAILVTQSTLLFIQAKKRGRAPWLWGLVGLIQFPVPTIVFIILCKTIWKDPTG				NA	NA	NA	NA	NA
AK012_02531	198			hypothetical protein	ATGAAGATGATCCTCACTGCGGCAGGTACAGCCGCTCAACTGGCAGCTTACGCTCTTATCCTGTTTGTGTCCATCTGGATAGGAATCGCTTTTCTACTCATCTCTTATGCAACCTTCACACTCGTAATCATAAAGCTGTGGAAGGAAGCACAGGAAGAAAAAAAGGAGGAACATTGGAATGATTATCGTGACTACTGA	MKMILTAAGTAAQLAAYALILFVSIWIGIAFLLISYATFTLVIIKLWKEAQEEKKEEHWNDYRDY				NA	NA	NA	NA	NA
AK012_02532	330			hypothetical protein	ATGATTATCGTGACTACTGAATTTGTACCTGGATATGACGTTCAGGAAGTGAAAGGATTCGTGCGTGGCAGCACGGTCCAGTCGAAAAATGTAGGAAGAGATATTCTGGCGGGACTGAAAAACCTTGTCGGAGGAGAAATTAAGGATTATACAAGCATGATGGACAGCGCCCGTCAGCAGGCGATTGGACGACTGGTTCAACAGGCAGAGGAAAAAGGAGCGGATGCTGTCATTGCCCTCCGTCTGGAAACGTCCTCCATCACCAATGCCGCTTCGGAAATTATGGCCTACGGAACAGCCGTCACTCTTTCCAAAAGGAGTTCGGGATGA	MIIVTTEFVPGYDVQEVKGFVRGSTVQSKNVGRDILAGLKNLVGGEIKDYTSMMDSARQQAIGRLVQQAEEKGADAVIALRLETSSITNAASEIMAYGTAVTLSKRSSG				NA	NA	NA	NA	NA
AK012_02533	216			hypothetical protein	ATGATGACAGGGGTTGTGCAGATGCTCACTGAAAACCTTCCTGTCCTTCTGCCGCTGATGGTCATTCAACTCATTTTGATGGCGACAGCGCTCATCAGCCTGGCAAGGACGAAACAAACCCGCGGGCCGAAGTGGATGTGGGTGCTGCTGATCATCTTCGTCAACACGCTCGGGCCTGTCGCCTACTTTATTTTCGGAAGGAGTGAAGAAGGATGA	MMTGVVQMLTENLPVLLPLMVIQLILMATALISLARTKQTRGPKWMWVLLIIFVNTLGPVAYFIFGRSEEG				NA	NA	NA	NA	NA
AK012_02534	918	yxlF	COG1131	putative ABC transporter ATP-binding protein YxlF	ATGATGAAGGTGAACAAACTTACGAAATCATTCGGCGGGCAACATGTCGTTGACCGTTTATCCTTTCAGTTGGAGACGGGCAGATGCATGGCGCTTCTCGGTCCGAACGGCGCAGGTAAGACGACAACCCTGCGTCTGATGTCCGGGCTGCTTCATCCCGATTCCGGAACCGTCCACCTGGAGGAATCCCTCGGGGATATCCGCGCTCATATCGGCTATCTCCCCCAACATCCCCAATTTCACGGCTGGATGACAGGCAGGGAATTCCTCCTTTATGCCGCAGGACTATCCGGTCTATCCAAACAGGAGGCCGGACGTCGGGCAGACTGGACGTTGGACCGTGTCGGTCTGGAGGAGTTCCGGAATAAAAGAATCAGCCGATACTCCGGAGGGATGAAGCAGCGCCTCGGCATCGCCCAGGCGATCATCCACCAGCCAAAGGTGCTGCTGCTTGATGAACCGGTGTCTGCCCTGGATCCGATCGGCCGCCGGGAAGTCCTTGATTTAATGGAAGAGCTGAAAAAGGAAACCATCCTCCTCTATTCCACCCATATCCTGAATGATGCCGAAGAAGTGAGTGATGAAATCCTGCTCATGCATGAAGGGAAAGTCATTGAGTCAGGAACCATTGAGGAGGTGAAGTCCCGTCACCAGATGGAGAAATTTACGCTGAAATTTTCGATGGACAGTGAAAGTTGGAGGGACTATGTGAGCACTTGGCCGGAGGTTGAACGTGTAGAGATATACAAACAAACCCTCCACGTGTACGTCACCGACAGCGGGGCGGTCAGAAAGAAAGTACTCGATGAAGCTTCCCGGAATGATTGGCCGCTCGTCCATTTTGAAGTCGGCCGGCCGACGTTGGAAGATTTGTTTATAAAGGCGGTGAAGAATCATGCAGTGGATCACCATTTATAA	MMKVNKLTKSFGGQHVVDRLSFQLETGRCMALLGPNGAGKTTTLRLMSGLLHPDSGTVHLEESLGDIRAHIGYLPQHPQFHGWMTGREFLLYAAGLSGLSKQEAGRRADWTLDRVGLEEFRNKRISRYSGGMKQRLGIAQAIIHQPKVLLLDEPVSALDPIGRREVLDLMEELKKETILLYSTHILNDAEEVSDEILLMHEGKVIESGTIEEVKSRHQMEKFTLKFSMDSESWRDYVSTWPEVERVEIYKQTLHVYVTDSGAVRKKVLDEASRNDWPLVHFEVGRPTLEDLFIKAVKNHAVDHHL	PGPT0006725_11719	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_02535	777	yxlG		putative transmembrane protein YxlG	ATGCAGTGGATCACCATTTATAAGAAGGAATGGCTTGAAATCCTCAGGAATTTCAAATGGATATGGGTGCCTCTTGTCTTTATTCTCTTCTGTATCATTGACCCCCTGTCCACCTATTATCTTCCGGTGATTATTGAAGCCACCGGCGGTCTTCCCGAAGGAGCCGTGTTCGACCTGCCGACCCCGCCGCCTTCAGAAGCATTCATGATGAGCATTTCCCAACTGAACACGCTGGGGGTCCTCGTCCTTGCACTGATCACGATGGGCAGCATCTCCGGAGAAAAAAAATCAGGCGTGGCGGAATTGATCCTCGTAAAGCCGGTCTCTTACTTATCCTATTTGACGGCAAAGTGGGCGGCCGCTTCCACACTGTTGATCCTCTCTGCTGCCATCGGACTGATCGCGAGCTGGTATTACGTCCAGCTCCTTTTTGGAGACCTGCCCTTTACGGCTGTGGCTGCAGCTGTTTTTTTCTACAGTTTGTGGATATTATTCCTTACGAGCATCAGTCTTTTTATGAATGCCTGGTCACGTATCCCCGGTCTCGTCTTGTTTTTCACACTGGCAGCCCTCATGATCATGAGCCTGGTCACCAGTGTGTTTTCCAAGTACCTCGCCTGGAGTCCCGCACGGCTGTCCTCGTATCTCCGCGCCCTCCTCATTACAGGGGATGTGCCTGCGGATTTATGGTACACCAGTCTCGTCACAGCCGCGCTGACCCTTCTGCTGCTTTATGCAGGAACCAAACGTTTGAAAAAAAGCTCCATGCTCTCCTGA	MQWITIYKKEWLEILRNFKWIWVPLVFILFCIIDPLSTYYLPVIIEATGGLPEGAVFDLPTPPPSEAFMMSISQLNTLGVLVLALITMGSISGEKKSGVAELILVKPVSYLSYLTAKWAAASTLLILSAAIGLIASWYYVQLLFGDLPFTAVAAAVFFYSLWILFLTSISLFMNAWSRIPGLVLFFTLAALMIMSLVTSVFSKYLAWSPARLSSYLRALLITGDVPADLWYTSLVTAALTLLLLYAGTKRLKKSSMLS	PGPT0006730_17798	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK012_02536	771	isfD	COG4221	Sulfoacetaldehyde reductase	ATGAAGCCGACTGCACTGATTACCGGAGCCTCCGGCGGAATCGGGTATGAGCTTTCCCTGCTTTTCGCGAAGGCTGGTTATAACTTGATCGTTGTAGCAAGATCCCAGGATAAACTGGAGGAATTGCGGCATGAACTGGACGGTCATCCCGTCACCATTCTCCCGCAGGATCTGTCAGAACCCGGAGCCGCCCAGATTGTTTACGACAAAGTCAAAGAACTCGGATTGAACGTCACCGTACTCGTCAACAATGCCGGGTTCGGTCTGAACGGCCTGTTTGAGGATCTGCCGCTGTTAGATCAGCAGAAAATGCTCCAAGTCAACGTCAACGCACTCACAGAGCTCACCCATCTGTTTCTCCCGGAAATCAAAGCCGCACGCTTCCGTTCGATTCCGAAGGGTGTCCTGAATATCGCCAGCACCGCTGCCTTCCAGCCGGGACCGAAAATGGCCGTTTACTATGCGTCCAAAGCCTATGTCCTGTCCTTTTCGGAAGCCCTTGTGGAAGAACTGAAGGACACCCATGTCACCGTTTCGACGCTCTGTCCGGGCGCTACAAAAACCAACTTCTTCAAAACAGCTCAGGCCGAGCATACGAAGCTGGTCAAACAGACGATGACACCGGAAGCAGTAGCCAAATCCGGATTTGTCGGCTTTATCAAAGGCCGTCGTGTCATCATTCCAGGCGGGGCCAACCAGACGATGGCTTATGCTTCAAAACTGCTTCCCCGCTCATGGGCTGCCAAAGCCGCTCATTACATGGATCAATAA	MKPTALITGASGGIGYELSLLFAKAGYNLIVVARSQDKLEELRHELDGHPVTILPQDLSEPGAAQIVYDKVKELGLNVTVLVNNAGFGLNGLFEDLPLLDQQKMLQVNVNALTELTHLFLPEIKAARFRSIPKGVLNIASTAAFQPGPKMAVYYASKAYVLSFSEALVEELKDTHVTVSTLCPGATKTNFFKTAQAEHTKLVKQTMTPEAVAKSGFVGFIKGRRVIIPGGANQTMAYASKLLPRSWAAKAAHYMDQ	PGPT0030485_3790	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-OXIDOREDUCTASE_ACTIVITY	PUTATIVE-OXIDOREDUCTASE_ACTIVITY-1,PGPT0030485-yqjQ-K07124
AK012_02537	519			hypothetical protein	ATGAAGAAATGGATTTTATCCACCGCCGTTCTTCTGCTCGCAGCTGCCGGCACAGGCTGGTACTTGATGAGCAAACAGGCGGAAGCCATGACCGAGCAAGAAGTCAAAGAAGCCATGACAGAATCGGCTGACAAAGCAGAAGAAAAGCTTCAAACCTATGAGGAAGAAGGGAAAAACCCGTTTGGCAGCGAACAAAGCCAGAGCGACCTGACAGATTCAGATTATCAAAGCTACATCCACTCCATGTCCCACCAGAAAGTGAAAGCCAATAAAAAATGGGGATTCACCGAAATTCATCCGGACCGGATTGACTGGCTCCTGACTGGACTCGATCAGACCACGCTCACCCACGAGCAGGTATATAAAGAAATTCTCACGAAATGGCAGGCGGGGGATTTCTCCACCGCCGATCAGGACCATAACCGGATCTGGACACTCCAGAACGGGAATGTCGGCAAAGCTACAGGCGTGCTGACCCCTCAGGAAGAAGCTCAATTACTGAAGACACGAAAAAACTGA	MKKWILSTAVLLLAAAGTGWYLMSKQAEAMTEQEVKEAMTESADKAEEKLQTYEEEGKNPFGSEQSQSDLTDSDYQSYIHSMSHQKVKANKKWGFTEIHPDRIDWLLTGLDQTTLTHEQVYKEILTKWQAGDFSTADQDHNRIWTLQNGNVGKATGVLTPQEEAQLLKTRKN				NA	NA	NA	NA	NA
AK012_02538	402			hypothetical protein	ATGGAATCCATTCAAATCCGCTCGTTTCGCGAACAAGATTTTGATCATGTTCATCAGTTGAATCAACAAGAAGGATGGGAGGGGCTTGTGCAGCATAATGAAGAAACGCTGTGCGCCTGGATCAATTCGGAACCTGCCCTCGTGGCCGTGGATGAATCCGGAGAACTCGTCGGTTATTTGAGAGGATTGACTGACGGAACGACCACCTTGTACATCTGTGAACTCCTCGTTAAGGAATCCTGCCGCAAGCAGGGAATTGCCGAACAGCTTGTAAGAACAGCCCATGAATGTTATCCGAACGCCCGCGTGGACATGCTGGCTACAGAAAGCTCGGAAGGCTACTATTCTCACACAGGCTACCGTTCGTTCTATGGTTTTCGTAAAGCAGCAGAAGAAATGTAA	MESIQIRSFREQDFDHVHQLNQQEGWEGLVQHNEETLCAWINSEPALVAVDESGELVGYLRGLTDGTTTLYICELLVKESCRKQGIAEQLVRTAHECYPNARVDMLATESSEGYYSHTGYRSFYGFRKAAEEM				NA	NA	NA	NA	NA
AK012_02539	465			hypothetical protein	ATGAAACGACTGTTTATGCTGACAGCATTTTTATTTCTGGCTGCTTGTTCCTCACAAAACCTGTCGTATGAGGATTTGACGGCCGCATATCCTGATACCTTTGCAGAACCTGTTCAGGAACTGTCTGAGGAGCAGCTGGAAAACCTCGGCCTGCCTTCTGATATGCCATTTGAAGTGACCCAGGTATCCTCCTCTACCGGAGAAAACGAAGCAGAGGTCACCTATACATCTGATTCCGGACATAAAGCCCTCGTTACGACCTTATACAGCCCTGGAAATATCCTGCAGGATTCCGAACTTCAGGTGCCTCTGGATTCCGGAGCGCTCGCAGGCGTACAGGAGAAGGACACGCATGTGTTTGTGGAATGGTATGAAGGAGAAGAAGATATCATCTACCAGGTTGAATATTACGGACCAGATGAAGAACGCGCGGAAAAAGCTGTAGAAATTGCCAATCAACTATAA	MKRLFMLTAFLFLAACSSQNLSYEDLTAAYPDTFAEPVQELSEEQLENLGLPSDMPFEVTQVSSSTGENEAEVTYTSDSGHKALVTTLYSPGNILQDSELQVPLDSGALAGVQEKDTHVFVEWYEGEEDIIYQVEYYGPDEERAEKAVEIANQL				NA	NA	NA	NA	NA
AK012_02540	2157	pcrA_1		ATP-dependent DNA helicase PcrA	ATGGAAAAACTGATGGAAGGATTGAACGAAGCTCAGCAGGAGGCTGTCGTTTCTACGGAAGGATACATCCGCGTCGTGGCTGGTGCAGGTTCGGGTAAAACGAGAGCGCTGACCCATCGTTATGCGTTTATCGTGAATGAACTGGGGGTGGACCCCGCTCATGTGTTATCTGTGACCTTTACGAATAAAGCGGCTCATGAAATGAGGAGAAGGGTGAAGCGGTTGATCGGCGGCGAACAGGATACAGGGTTCATCACGACCTATCACGGCTTCTGTGTCCGGGTGCTCCGGGAAGATATCCACCGGCTGTTTTATCCGAAAAACTTTTCCATCTTAGACGTAGAGGACCAGAAAACCCTGCTGCGGGAGATATTTGAAGATATGGGGCTGAAAATGAACGAGAAAACATTCAAGCGCCTTCTCGACAAGATCGGAATATTGAAGGGGGATACCCATTATGTCCAGCAGATGATTTTACGCGGCGGAATGCCGGTGGCCGGTGAATCCGGCGATCTGGACGGACAGATCATCCAACAGTATTTGAAGAAACAAAAGCGGGTGTACGGTCTGGATTTCGATGACCTGCTGAATTTCGTCTTTGTCCTTTTTGATCAATATCCGGACGTACTGGCCAAATGGCAGGACCGTCTGTATTACATCCAGGTCGATGAATTTCAGGACAGCAGCCTGAAGCAGTTCGAACTTGTACGGATGCTGGCACAGGAGCATGAGAATCTTTTCGTTGTCGGGGATCCCGATCAGACGATCTACGAATGGCGTGGGGCAGATCCGAAGTATATGGTCGATTTTGAAGAATTTTTCCCGGGGGCGCAGACGGTTTTCCTGAAGGAAAATTACCGTTCCACCCCTGAAATCCTCTCCTTGGGCAATGCATTGATTAAAAATAACTACTTCCGGGTCGATAAGGATATGCTTCCTGTTCACCCGCCCGGGATCAAGGCGGTCCATTACCACGGAAAAAATGACATACAGGAAGCGAAGTGGATTGTTCAGCAGATTCAAAGTCTTGTAGAGGAAAAGAAGGCGCGTCTCAGTGATGTAGCTGTTCTGTACAGGGCCGGTTATTTATCCCGTTATGTAGAGCAGGAACTTATGGCTGAAAATCTGGAATATACCATTTTCGGCGGCTTTAAATTCTTCGACCGGATGGAGATCAAGGACGCCCTGGCTCATCTGAAAATGATTGCCACAGGAGATGACTTATCGTTTTCAAGAATTATCAATGTACCGAAAAGGCAGATCGGTAAAAAGCGGATGGCCTTTATCCGGCAGAAAGCAGAGGCTGAGGGGCTTTCTTATTATGAAACCCTGAAAAAATATGTAGACCATGAGCAGCTTCAGCGGACAGGGGCGCAAGCTTTCATTTCTGCTATGGAAGAACTCAAGGAGAGGAAGAAAACATTGAACGTGTCGGAACTGCTGCAGGAAGCCATGCAGCGGACAGGCTACGAGGCCTATCGTCGTGAAGACGGGGATCAGGAACGTCTGGATAATCTGGCCGAACTGCTTCACTCTATCGTCCAGTACGAGCAGACGCTCGGAGAAGATGTCGATCTGGATGAATATCTGCAGATGGTTTCCCTGTATACCGATCATGACAGGGAAGAACGGACGGACACGATTAAACTGATGACGATTCACACGGCCAAAGGTCTGGAATTTCCGTACGTTTTTGTCATCGGTATGACGGAAGGAGTCATGCCGAGTGTCCGTACAATTCGACAGCGGAAGGAGCGCGGACTTGAAGAAGAGCGGAGACTTGCCTATGTAGCCGTCACCCGTGCCGAAAAGGCATTGTTTATGACAGAATCAGAAGGGTTTCAAAATGGCGGGCAGAAGAAATATCCGTCCCGCTTTATCTTTGAGGTGGATGAAGGTTTATATGAGCGTGCCGGGGATCTGGACCCGTCCCTTGTGGAGGAAGCGAAGGATTATATCCGGGCCTCTCACCGATTGCAAGACGATGCTCCTCCACAAGGATTTGAAAAAGGCGCACGCGTCCATCATCCGGTGTTCGGAAATGGAACCATCCAGTCCATTGATGAAAAGAAAAACACCTATCTCATTTTCTTTGATAACCTGAAGGCCCCTCGTCCGATCAGCCGGCTGTTTAAAAAGCTGGAGAAAGCTCAGTGA	MEKLMEGLNEAQQEAVVSTEGYIRVVAGAGSGKTRALTHRYAFIVNELGVDPAHVLSVTFTNKAAHEMRRRVKRLIGGEQDTGFITTYHGFCVRVLREDIHRLFYPKNFSILDVEDQKTLLREIFEDMGLKMNEKTFKRLLDKIGILKGDTHYVQQMILRGGMPVAGESGDLDGQIIQQYLKKQKRVYGLDFDDLLNFVFVLFDQYPDVLAKWQDRLYYIQVDEFQDSSLKQFELVRMLAQEHENLFVVGDPDQTIYEWRGADPKYMVDFEEFFPGAQTVFLKENYRSTPEILSLGNALIKNNYFRVDKDMLPVHPPGIKAVHYHGKNDIQEAKWIVQQIQSLVEEKKARLSDVAVLYRAGYLSRYVEQELMAENLEYTIFGGFKFFDRMEIKDALAHLKMIATGDDLSFSRIINVPKRQIGKKRMAFIRQKAEAEGLSYYETLKKYVDHEQLQRTGAQAFISAMEELKERKKTLNVSELLQEAMQRTGYEAYRREDGDQERLDNLAELLHSIVQYEQTLGEDVDLDEYLQMVSLYTDHDREERTDTIKLMTIHTAKGLEFPYVFVIGMTEGVMPSVRTIRQRKERGLEEERRLAYVAVTRAEKALFMTESEGFQNGGQKKYPSRFIFEVDEGLYERAGDLDPSLVEEAKDYIRASHRLQDDAPPQGFEKGARVHHPVFGNGTIQSIDEKKNTYLIFFDNLKAPRPISRLFKKLEKAQ				NA	NA	NA	NA	NA
AK012_02541	1116			NADH oxidase	ATGACCAGCGATATCACCCCTTTATTTGAAGAAAAGATCGTTCAGGACAACCGCTTCAAAAACCGATATATCGTCGCGCCCATGACACGGGTCAGCGCGGCCAATAACGGGACAGCAAACGAGCGGATGAAACAGTATTATGAGCGTTATGCAAAAGGTGGATTCGGAGCAGTCATCAGCGAAGGCATCTATCCTGACCGTTCCTATTCTCAGGGATATAGGAATCAGCCGGGACTGGCCGATGAACAGCACCGGGACGCCTGGAAGCCGATCGTCAGAGGTGTTCACCAGCACGGAGCTCTGTTCATTGCCCAGATCATGCACGCGGGCGCCCAGTCACAAGGGAACGCCTACGCTAAAACAACCATCGCACCATCGGCTGTTGCGCCTAAAAACGACCAGCTGCCTTTTTACGGTGGAAAGGGACCTTTCCCTACGCCGAAAGCAGCCTCGCATGAGGAACTGGAGGAAATCAAACAGTCTTTCGCACAGTCTGCACGGCTGGCTAAGGAAGCAGGCTTCGACGGTGTAGAGCTGCACGGAGCGAATGGCTACCTGCTGGATCAGTTCATCACCGACTATTTTAACCAGCGGGACGATCAATACGGAGGAACGACAACCAACCGGATGCGGTATATCCTTGAAGTTATCAAGGAAGTACGGAAGGAAGTCGGCCACGATTACCTTCTCAGCATTCGGATTTCCCAAGGGAAAGCCTCTGATGGCGAACACCGCTGGGCTCTTGGTGAAACAGATGCCAAAACCATCTTCGGTGAGCTCGGGGAATCCCCGCTTGATTTCATCCATGTAACCGATCAAGATGGGACGGCCTCAAGCTTCGGAGAAGGCTCCCTTTCCATGGCTGCCGCTGCGAAAATGTTCAGCGGGCTGCCTGTCATTGCCAACGGCGGCCTTCATGAGACATCCAAAGCCCTGCAGTTGTTGAACAGCGAAGAAGCGGATTTTGTCAGCCTCGGTACAGGGGCGCTCCAAAATCCGGATGCTCCGAACCGCATACGCCAGGGGCAAAGCCTCGAGCCCTTCGATTTTTCATCCATCATGTTGCCGCAGGCGGAAATTAAAGATCACGAATTGAAAAAAGAAGTACGGAGATGA	MTSDITPLFEEKIVQDNRFKNRYIVAPMTRVSAANNGTANERMKQYYERYAKGGFGAVISEGIYPDRSYSQGYRNQPGLADEQHRDAWKPIVRGVHQHGALFIAQIMHAGAQSQGNAYAKTTIAPSAVAPKNDQLPFYGGKGPFPTPKAASHEELEEIKQSFAQSARLAKEAGFDGVELHGANGYLLDQFITDYFNQRDDQYGGTTTNRMRYILEVIKEVRKEVGHDYLLSIRISQGKASDGEHRWALGETDAKTIFGELGESPLDFIHVTDQDGTASSFGEGSLSMAAAAKMFSGLPVIANGGLHETSKALQLLNSEEADFVSLGTGALQNPDAPNRIRQGQSLEPFDFSSIMLPQAEIKDHELKKEVRR				NA	NA	NA	NA	NA
AK012_02542	729	pfyP_1		Blue-light photoreceptor	ATGATTGTTCAAAAAGCCATGGATCTTCTGGATGAAGGGGTATTGATTTCAGACGATCAGTTCATCATTACTTATACGAACCCGGCGTTTATGGAGTTGTTTCAGCTTCAGGGGGATGCAGTGACAGGAGAATCCCTTCATCATCTCTTCCCTGATATCGATCAGGAAAAGAGAGTCGTTACCAATTCAACGAAGAACCAGCAGCCGGTGGTGATCGACCATTATCCGATGCGCTGGAAGGGGAAGGCGTATGTATTCAAAATTCATACGAAACCTTTTACATACGAAGGGAGAACCTACAACCTGACCCGTGTTTTTGACAGAACGGAATCGTACAACAGAGAAAAGCAGCTGATTCATATGATTGAGGAAATGACGGCGAACGTCGTAAAAGTGGCTGATGGTTTTGCCCTGCTTCCACTGCAGCCGATCTTAAGAGAAGAACAGAAGGAGGTTCTGCTGACCCGTGTTCCTGAGCTCTGCCAAAACCAGCGGATCGACCGTCTGGCGGTAGAGTTTTCGGGCATTGTATCGGTGGAAGATGAATGGGTGCATCTGTTGAGGGATTTAGTTGTCAGCCTTCAGCTTCTTGGCATTGAAGTCGTCCTTGCCGGTATGCGTCCACGGGTGGTGATGCAGTTCACTCAGAACAGGATCAGCCTGGCAGGGGTGCGTACATTCAGGAATCTTCCTCAAGCCGCCGACTACTTTTTGAAAAAGCGGAAATGA	MIVQKAMDLLDEGVLISDDQFIITYTNPAFMELFQLQGDAVTGESLHHLFPDIDQEKRVVTNSTKNQQPVVIDHYPMRWKGKAYVFKIHTKPFTYEGRTYNLTRVFDRTESYNREKQLIHMIEEMTANVVKVADGFALLPLQPILREEQKEVLLTRVPELCQNQRIDRLAVEFSGIVSVEDEWVHLLRDLVVSLQLLGIEVVLAGMRPRVVMQFTQNRISLAGVRTFRNLPQAADYFLKKRK	PGPT0014945_1413	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
AK012_02543	207			hypothetical protein	GTGAATCAGTACAGACTCGATCGATACGAAGGTTCATACGCAATCCTTATCGAGGATTCAGAGTTTCAGAATGAATTGTACGTGTTGAAAGAACGACTGATCGGTTTTGTGAAGCCGGGAGACTGCCTGGAAATCGAATTTGATACGATAGGAAACTTAAAGCACGTCGCTATTATATCTACACCTGACAAAATGGAAAAAGCATAA	MNQYRLDRYEGSYAILIEDSEFQNELYVLKERLIGFVKPGDCLEIEFDTIGNLKHVAIISTPDKMEKA				NA	NA	NA	NA	NA
AK012_02544	594			hypothetical protein	ATGACCAAAGATAAAGTAAGACAGGAAAGTTTACGGCTTTTTGCCAGGCTCGGCTACGAAAATACATCATTGACCATGATCGCCGATGCTGTAGGCATCAAGAAACCCTCTCTTTATAATCACTTTGACAATAAAGATGCCATCTTTCTCGATGTTCTTCATTACGTCGGAGACATGGAAAAGAAACGCATCCTTGAGCAGGCCCCTGAACTGGAAGGAATGCCTGTGAAGAAACAGCTCCATCAATTCTACCGATTTTATTTAGAGCGCATGGCCCATTCCACAGAAGGGCTTTTTTTTAAGCGTGTCACCTTCTTCCCACCTGAAAAGTTTACAGCTGAAATCAAAGAGGTATTCCTTATGGTGGAAGATCAAATGACCGCTGTCATTGAGCCGATCATGGAAAAAGGAATAGCGGAAAAGAAAATCCGCCCTCTTTCTACAGATACGCTTACTTCCGCTTTTTATACGTTAATTGACGGTCTGTTCTTAGAAGAAAACTACTATGATCAGGATGTATTCGAGCAGCGACAGCACAGCAGCTGGGAAATCTTCTGGCTCGGCATCCAGACACATCATCAGGAGGGATCGTAA	MTKDKVRQESLRLFARLGYENTSLTMIADAVGIKKPSLYNHFDNKDAIFLDVLHYVGDMEKKRILEQAPELEGMPVKKQLHQFYRFYLERMAHSTEGLFFKRVTFFPPEKFTAEIKEVFLMVEDQMTAVIEPIMEKGIAEKKIRPLSTDTLTSAFYTLIDGLFLEENYYDQDVFEQRQHSSWEIFWLGIQTHHQEGS	PGPT0026330_52	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026330-icaR-K21453	NA	NA
AK012_02545	345	gdx_1	COG2076	Guanidinium exporter	ATGCCATGGGTTTATTTGTTTGTCGGTGCTCTGTTTGAAATCGCCTGGGCGGTCGGGTTGAAGCTGTCCGAAGGCTTCACCGTCCCCCTTTACTCCACGATCACCGTCATCTGCATCGTGATCAGCTTTGCTCTGTTTACACTTGCCTTAAAAAGCCTGGACGTAGGCACGAGCTACGCCATCTTCACCGGGGTGGGGGCCGTTGGAACAGCACTGATCGGCATGCTTTTCCTCGGTGACTCCGGTGGTATAGGGAAAATATTCTTTATCGTGCTGCTGATTACAGGCATTATCGGTTTGAAAATGACTGATTCAGCTTCATCAAGTCAGGCGCAGGAGGGATAA	MPWVYLFVGALFEIAWAVGLKLSEGFTVPLYSTITVICIVISFALFTLALKSLDVGTSYAIFTGVGAVGTALIGMLFLGDSGGIGKIFFIVLLITGIIGLKMTDSASSSQAQEG	PGPT0028785_294	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
AK012_02546	315	gdx_2		Guanidinium exporter	ATGGCTTGGATTTTCTTAGTACTCGCAGGAACCGGAGAAATGACTTCCATGTTCTTCTTAAAGTTATCCGAAGGGTTTAAAAAGAAGCTGCCGACGATTGGTGCCGCTATTGCGATGAGCGGGAGTCTCTATTTCCTCTCTTTGTCATTGAATCACCTGCCAATCGGAACAGCTTATGCGATCTGGACGGGGATCGGATCGGCAGGAACCGTCCTGCTCGGCATCCTCTTTTTTAATGAGAAAGCGACACCGAAACGGATGCTGTTTATCGCCTGTATCCTTACCGGAATCATCGGATTGAAATTGGTTTCATAA	MAWIFLVLAGTGEMTSMFFLKLSEGFKKKLPTIGAAIAMSGSLYFLSLSLNHLPIGTAYAIWTGIGSAGTVLLGILFFNEKATPKRMLFIACILTGIIGLKLVS	PGPT0029170_137	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0029170-ykkD-K18925	NA	NA
AK012_02547	126			hypothetical protein	ATGCGTAGATTTTTAATGGCGGTATTAGTAATCATTGTGCTTGGTTTCAGTTATGTAGGATACACCAATATAGATCCTGAAATAGATGCTAATCGTGAGATTCCTCAGGAAACGAAGCAATATTAA	MRRFLMAVLVIIVLGFSYVGYTNIDPEIDANREIPQETKQY				NA	NA	NA	NA	NA
AK012_02548	687	msrA_1		Peptide methionine sulfoxide reductase MsrA	ATGAAGAGAAAGAGGTTATGGACTGCCGGCATCATCGTTCTGCTTATAGGCGCAGCATTTGCTGTCCCTGAGATTTACTCCTATGTAACAGAGCGGAATTATGAGAGTGAGGAAGTGGCTGCATCAGAAATTCCGGAAGGGTACGAAACAGCTGTGCTGGCTGGAGGATGTTTCTGGTGTATGGAGCCACCGTTTGAAAAATTGAAGGGCGTCCACAGTGTCGTCTCCGGATATACAGGCGGAGACGTGGAAAATCCGACCTACGAAGAAGTGTCTTCCGGCGGCACCGGCCACATCGAATCGGTGCAGGTCTACTTTGACCCTGAAGTTATATCCTATGAGCAGATTCTTGATGTTTTCTGGAAGCAGATCAATCCGACCGATGATGAAGGACAGTTTGTAGACCGTGGTTATCAATATACAACGGCGGTATTTTATCATAATGAACAACAGAAACAGACAGCTGAACAGTCCCGTAGAGAGCTGGGGCAGTCCGGCCGCTTCGATCAGGACATCGTCACACCGGTCGTTGAGGCAGAGACGTTTTACCGGGCGGAAGAATACCATCAGGATTATTATAAGAAGAATAAACTCCGTTACGACTACTACCGAGGAAATTCCGGGCGTGACCAGTACCTTGAAGATACGTGGGGGGAAGATCTGAAGATCGATTTTCCAAAAAAATAA	MKRKRLWTAGIIVLLIGAAFAVPEIYSYVTERNYESEEVAASEIPEGYETAVLAGGCFWCMEPPFEKLKGVHSVVSGYTGGDVENPTYEEVSSGGTGHIESVQVYFDPEVISYEQILDVFWKQINPTDDEGQFVDRGYQYTTAVFYHNEQQKQTAEQSRRELGQSGRFDQDIVTPVVEAETFYRAEEYHQDYYKKNKLRYDYYRGNSGRDQYLEDTWGEDLKIDFPKK				NA	NA	NA	NA	NA
AK012_02549	1911	mutS2_2		Endonuclease MutS2	TTGAACGAACAAACATTTCAAGTGTTGGAATATGACGCGATTTTAGAAAGGATAGCTGAGCACGCCCATACAGAGCCGGGGAAGAAGACGATCCTCGAGTTGAGACCGATTTATGATCAAAGGAGACTTGAAGTCATGCACGAGGAGGTGGAGGAGGCCAAGGCCATTCTCGCTACCCAGAGCCGTGTCCCGCTTCATACTGTCGGTGATATTCAAGGAATGCTTGAGCAGGGGAAAAAGGGCTTGTATCTTCAGCCGAGGCAGCTGATGATCCTTCTTTCCTTCCTGGATCATATGACGAAAATGAAACGGTTTATGAAGGGGCAGCAGATGATTGCACCAAGGATTGCTCTTTATGCTGAGTCGATGGCCGAACTGACTGGATTAGAAGAAGATATCGCCTCATCGGTCCGGCATGGGAGGGTGGACGACCATGCTTCCAAGGAGCTTGCGAAAATCAGGAGGAAAAAAGAGAAAAAAGCGGAGGAAATCAAGGACCGGATGAGCAGTCTGGCTAAAAAATATGCGTCCATCATGCAGGAGCCCCGTCCCATGGATAAGGGCGGCCGGTGGACGCTGCCGATCAAGCGGGAGCAGCGCGCAAAAATGAAAGGGACCGTGCTGGACCAGTCTGCGTCCGGAGCCACTCTTTTTGTTGAACCGGAAGAAGTGACCCGTCTTCAGGAAGATCTCCAGTTATTGATTTTCAGTGAGGAACAGGAAGTCGAGCAGATCTTATATACGTTGACAGGAGCGGTGCTGGAGCACGAGCAGGACCTCTCCATCGCTGTCGAGACCATGCATCAGTATGATGTTTTATTCGCTAAAGCTAAATACAGCCGATTGACAGCAGCCCATACCCCCATCTTTTCTGATCATGTGTTGAAAATCAATAAGGGCAGACACCCGATGCTCGGGGAGAAGGCTGTTCCACTGACCCTTCATATGGAGGATGGGGAGCAGGCGCTTCTTATTACAGGTCCGAATACCGGTGGGAAAACTGTTACCTTGAAGACGGTCGGCCTGTTCAGCCTGATGGCCCAGTCAGGGCTTCACATTCCTGCAGAAGCGGGAAGTGTTCTTCCGTTATATCAGTCGATTTATGTAGATATCGGAGATGGACAGAGCATTGAAGAGAACTTGAGCACGTTCAGCTCGCGATTGACGAACTTGATTGATATTTTACAAAAAGCGAACGATCATTCGCTGTTGTTATTAGATGAAATCGGATCCGGGACAGAGCCGGGTGAGGGGATGGGGCTCGCAACAGCCATCCTTGATCAGCTGGCTTCCAAAGGATCGGATATTCTGGCTACGACTCATTATAGTGAAATGAAAGCTTATGCGAAGGAGAAGGAAGGATTCATCAACGGGGCGATGGCTTTTGACCTGGAAACCTTGAAGCCCACCTATCAGCTTCAGACGGGTACAGCAGGGGAGAGCCAGGCCTTTGATATCGCTTATAAACTTGGTCTGCATCCGGATATTCTGAACCACGCTCACAGGATCACCTATAATGAAGAGGCTTCTTATAAGCTTGGGGATGATCAACGGAAACAATCTTCTTATGCTGATCAGGTGGCTGTCAACCGCTATAAGAAGAACCGGAAGCGGAAAGACAGCAGGCAGCAGCCTTCTTTCAAAATGGGCGATAACGTGCATGTCCCTGATTCGGAGGCCGCCGGTATCGTCTATAAAGGACCAGATGCCAGAGGCAATTACGTCGTCCAGGTGAAAGGGGAAAAACAGACGTACAACCATAAACGATTGAAACTGCACATCCCCGCTGAAGAGCTTTATCCGGAAGATTATGATTTTGATATCATCTTTAAATCGAAGGAGTACAGGAAAATCGACCGGATGATGAACCGCAAATATGTAGAAGGGCTCACCCTGGATGAAGAAGAGTAG	MNEQTFQVLEYDAILERIAEHAHTEPGKKTILELRPIYDQRRLEVMHEEVEEAKAILATQSRVPLHTVGDIQGMLEQGKKGLYLQPRQLMILLSFLDHMTKMKRFMKGQQMIAPRIALYAESMAELTGLEEDIASSVRHGRVDDHASKELAKIRRKKEKKAEEIKDRMSSLAKKYASIMQEPRPMDKGGRWTLPIKREQRAKMKGTVLDQSASGATLFVEPEEVTRLQEDLQLLIFSEEQEVEQILYTLTGAVLEHEQDLSIAVETMHQYDVLFAKAKYSRLTAAHTPIFSDHVLKINKGRHPMLGEKAVPLTLHMEDGEQALLITGPNTGGKTVTLKTVGLFSLMAQSGLHIPAEAGSVLPLYQSIYVDIGDGQSIEENLSTFSSRLTNLIDILQKANDHSLLLLDEIGSGTEPGEGMGLATAILDQLASKGSDILATTHYSEMKAYAKEKEGFINGAMAFDLETLKPTYQLQTGTAGESQAFDIAYKLGLHPDILNHAHRITYNEEASYKLGDDQRKQSSYADQVAVNRYKKNRKRKDSRQQPSFKMGDNVHVPDSEAAGIVYKGPDARGNYVVQVKGEKQTYNHKRLKLHIPAEELYPEDYDFDIIFKSKEYRKIDRMMNRKYVEGLTLDEEE				NA	NA	NA	NA	NA
AK012_02550	570	rutB		Peroxyureidoacrylate/ureidoacrylate amidohydrolase RutB	ATGGAAGCATCAACCGCCCTTCTTATCATTGATATGATGAATACATTGGATTTTGACGGGGGAGAGGATCTTTTGGAGAATGCTCTTCCTGCGGCCGAGGATCTGCAGAGCTTTAAACAGGAAATAAAAGAGCAGGGGATGCCTGTCATCTATGTGAATGATAACTTCGGACTGTGGCAGGACAACACCTCCGACATCATTGATGTATGCCGGAAGTCACCGGGGGAGCCGCTTGTAGAGCTGACAGCACCGGATGAGGATGATTTTTTCATCATTAAACCGAAGCATTCCGGATTTTTCGGAACCCAGTTGGAAATCCTGTTGAATCAGCTTGGTGTCAGCAGACTGATTCTATCAGGAGTCGCTGGTGATATCTGTGTGCTGTTTACAGCGAACGATGCGTATATGAGGGAGTATGAGCTGTGGGTGCCCTCCAATCTTTCGGCCTCGGAATCACGTGGGGATAACGACAATGCGATGAAAATCATCCGAAGATCACTTGGAGCAGAAACCGCTCCAACCTCCGAAAAGAACCTTGAGGATGTTTTTTCCGTTGACAAACGACCATGA	MEASTALLIIDMMNTLDFDGGEDLLENALPAAEDLQSFKQEIKEQGMPVIYVNDNFGLWQDNTSDIIDVCRKSPGEPLVELTAPDEDDFFIIKPKHSGFFGTQLEILLNQLGVSRLILSGVAGDICVLFTANDAYMREYELWVPSNLSASESRGDNDNAMKIIRRSLGAETAPTSEKNLEDVFSVDKRP				NA	NA	NA	NA	NA
AK012_02551	750	nadE_2	COG0171	NH(3)-dependent NAD(+) synthetase	ATGGAAGAACGTATTCAATATTTAGTCCGTTGGCTGCAGGATAAAGTAGAGGAGGCTGGAGCTGACGGAGCGCTTGTCGGAGTCAGCGGCGGAATCGATTCAGCTGTCGTCTCCTACCTTGTCAAAAAGGCTTTTCCTGATCAGTCGCTTGGTGTCCTGCTGCCGATCCATAAAAAGATGGAAGAACAGACCGATGCACTTGCTGTGGTAGAAGAAGCGGATCTTGACTATATCGGGATCAATCTGACGGACACCTATGAAGCAGCCTATCAGGCAGTGAAAGGGCAGATTGAGGAAAAAGGGGACTGGAATGATGATAAATCCCAGCTTGGTGGAGCGAATCTGAAAGCTCGCCTCAGGATGAGTACCCTGTATGCGGTTGGTAATAACTATAATTATCTTGTTGTCGGAACAGATAATGCCTCTGAGGATTATACGGGCTACTTCACAAAATACGGGGATGGAGGTGTCGATCTTGTTCCATTGATCAACCTTCGGAAAGAAGAAGTCCGCGAAATGGCGGCAGCTCTGAACGTTCCTTCCTCCGTCATTGAGAAAAAACCCAGTGCCGAACTGTGGGAAGGCCAGACCGATGAGGATGAGCTCGGCATGTCCTATGATACCATTGACGCATACCTGCGCGGAGAGAAGATTGATCCTGAAGATGAGAAAACATTGAAAGAAACACATGAAAAGACGGCTCATAAGCGGCAGATTCCTGCAGGGCCGGAAAAATACCGGGGAAATTAA	MEERIQYLVRWLQDKVEEAGADGALVGVSGGIDSAVVSYLVKKAFPDQSLGVLLPIHKKMEEQTDALAVVEEADLDYIGINLTDTYEAAYQAVKGQIEEKGDWNDDKSQLGGANLKARLRMSTLYAVGNNYNYLVVGTDNASEDYTGYFTKYGDGGVDLVPLINLRKEEVREMAAALNVPSSVIEKKPSAELWEGQTDEDELGMSYDTIDAYLRGEKIDPEDEKTLKETHEKTAHKRQIPAGPEKYRGN	PGPT0013445_3078	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013445-nadE-K01916	NA	NA
AK012_02552	723	bshB2_2	COG2120	putative N-acetyl-alpha-D-glucosaminyl L-malate deacetylase 2	ATGGAGATTAGTGATCCTCTTCAAGGAGTGAAAGAAATGATACAAAATGAACAACACGTACTTGTGATCTTCCCCCACCCGGACGATGAAGCGTTTGGTGTGTCTGGAACGATCTCCACTTATATAAATCAGGGCACCCCATTAACCTATGCCTGCCTGACACTCGGGGAAATGGGGCGAAACCTCGGCCGTCCCACGTTCGCCACAAGGGAATCGCTCCCTGACATCCGGCGCAGAGAACTTGTCAAAGCCGCAGAAGCTATGGGTATTGATGATCTCCGGATGATGGGTCTCCGTGATAAAACGTTGGAATTTGAAGACGATACAGAAATGAAACACATGGTCAGCCAGCTTATCGACGAGTTGAACCCCTCTCTTGTCATCAGCTTTTATCCAGGCTACGCTGTCCACCCGGACCATGAGGCGACAGCTCGTGCCGTTGTCCGTGCTCTGCGTGACATCGATGAAGATAAGCGTCCGAAGTTCCACGCCGTTGCGTTTGCCAATGACACCGAGGAAAACCTGGGGAAACCAGACGTCGTTCACGACATCCGGGGTGTTCAGGAACAGAAGATGAACGCGATGCGGGCCCACATTTCCCAGACCGCCGCTATGCTGGAGATGCTCGAAGAGGGCATCAAGGTGAACGATCCGGAAGCGCTCAAGTGGGTGACCGAAGAAAAATTCTATACGTATGACTGGTCCAAGGACCAGGTCACGTAA	MEISDPLQGVKEMIQNEQHVLVIFPHPDDEAFGVSGTISTYINQGTPLTYACLTLGEMGRNLGRPTFATRESLPDIRRRELVKAAEAMGIDDLRMMGLRDKTLEFEDDTEMKHMVSQLIDELNPSLVISFYPGYAVHPDHEATARAVVRALRDIDEDKRPKFHAVAFANDTEENLGKPDVVHDIRGVQEQKMNAMRAHISQTAAMLEMLEEGIKVNDPEALKWVTEEKFYTYDWSKDQVT	PGPT0019575_189	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0019575-bshB2-K22135	NA	NA
AK012_02553	735			hypothetical protein	TTGAAGAAAGCCGCCATTTTAATGACTGCCCTTATTCTTACGATTTTTTTAACGGCCTGTGCTGATTCTGAAAACAGCGGAAGCGAAGATCAGGCTGCTCCCATACCTGAAGTAGAAGTGCTGCTTGATCAGCAGCCTTATCCCATCAATGAACCAGTAGACATCCGTGCAGAAGTGACACAGAATGATGAGCCTGTTCCCGATGCTTCCTATGTTAAATTTGAAATCTGGAACACAGAAGAAGGTCAGGACACTTCAGAAACCAAAGAAGCTGAACATACAGAAGCCGGCGTCTACGAGCTGTCCTATACATTTGAGCAGGAAGGTTCCTATCAGGTAATTGCTCATACGCAGGTCGGCGATCTGCATACAATGCCGCAGAAAGTAGTACAGGTCGGCGCAGGACATGAGGGGCACTCGATGGAGATGGAATCAAGCAAGTTCATGGTCCATTTGATGACAGAGGAAACTTTCTCCGCAGGTAGTGAATCCATGCTTACCGCCCATATCAACCATATGGAGGAGCCGTTCACTGAAGGTCAGGTCACCTACATCATCACACCTGAAGCAGGTGGTGAATCATCGGAAGTCACGGCTGAGGAAAAACAGCCGGGCGAATATCAGGGATCTTATACGTTCGAAGAAGCAGGAAACTATACGGTTACCGTCGTTTATGAACAGGAAGAAAAAGAGCTCGAAGGCAGAAAAGAACAAACCATAGAAGTGACCGAATAA	MKKAAILMTALILTIFLTACADSENSGSEDQAAPIPEVEVLLDQQPYPINEPVDIRAEVTQNDEPVPDASYVKFEIWNTEEGQDTSETKEAEHTEAGVYELSYTFEQEGSYQVIAHTQVGDLHTMPQKVVQVGAGHEGHSMEMESSKFMVHLMTEETFSAGSESMLTAHINHMEEPFTEGQVTYIITPEAGGESSEVTAEEKQPGEYQGSYTFEEAGNYTVTVVYEQEEKELEGRKEQTIEVTE				NA	NA	NA	NA	NA
AK012_02554	1842	typA	COG1217	GTP-binding protein TypA/BipA	ATGCAACACAGAGATGATATTCGTAATATAGCCATCATCGCACACGTTGACCACGGTAAAACAACGCTGGTTGACCAAATGCTTCACTATTCCGGAACTTTCCGTGATAACGAGCATGTCGATGATCGCGCTATGGACTCTAATGATTTGGAAAAAGAACGCGGCATTACGATTCTTGCTAAGAACACCGCGATCAATTATAACGATGCCCGTATAAATATTTTAGATACACCAGGTCACGCCGACTTTGGTGGGGAAGTGGAACGTATCCTTAAGATGGTGGACGGCGTTCTTCTTGTCGTTGATGCGTATGAAGGCTGTATGCCTCAAACCCGCTTCGTTTTGAAAAAAGCACTGGAACAGAAATTGACACCTGTGGTTGTGCTTAACAAAATCGACCGTCCGAATGCCCGCCCTGACGAAGTTGTCGATGAAGTGCTGGATCTGTTCATCGAACTTGGTGCGGATGATGAGCAGCTTGAATTCCCTGTTGTCTATGCGTCTGCTCTAAACGGGACGTCCGGCGATGAGCCTGAAGACCAGCAGGAAACGATGGATCCAATCTTTAAGCTGATCATGAACAACATTCCTGCCCCGCAGGATACGAAAGAAGATCCGCTTCAATTCCAGGTGACACTGCTTGACTATAATGATTATCTCGGCCGTATCGGTATTGGTCGTGTCTTCAGCGGTCAGATCAAAGTCGGTCAGCAGGTTTCCTTGATGAAGAAGGACGGTTCAGTGAAGAACTTCCGTATATCCAAGCTGTTCGGTTTCATAGGCTTGAAGCGTGTGGAAATTCAAGAAGCCAAAGCGGGGGACATCATTGCGCTGTCCGGTCTCGAAGACATCAACGTTGGGGAAACGGTCTGTCTTCCTGAACATCAGGAAGCCATGGAAATCCCGCGTATTGATGAGCCGACCCTGCAGATGACATTCCTGGTGAACAACAGTCCATTTGCCGGCCGCGAAGGTAAATACGTGACCGCCCGTCAAATTGAAGAGCGTCTGCTTACACAGCTTGAGACAGATGTCAGCCTTCGGGTCGACCCTACAGACTCACCGGATGCTTTCACTGTTTCAGGACGTGGTGAACTTCACCTTTCCATTCTGGTGGAAAATATGCGTCGTGAAGGCTATGAACTGCAGCTTTCCAAACCGCAGGTTATCCTCAAGGAAATCGACGGGGAGACTTGTGAGCCTGTCGAGCGCGTGCAGATCGATACACCGGAAGAGTATCAGGGTGCCGTTATGGAATCCATTGGATACCGCAAAGGTGAAATGCAGGATATGGTCAACGATGGTAATGGCCAAGTCCGTCTTGAGTTCCTCGTACCATCCCGTGGTCTTATCGGCTATGCGACAGAGTTCATGACGCAGACCCGCGGATATGGAATTCTGAACCATACCTTTGATGGATATGCACCGCTTGTAAAAGGACAGGTCGGCGGACGTCGGGAAGGTGTACTTGTGTCTCTGGATAAAGGTAAAGCATCCACGTACGGCATCATGAACCTTGAAGACCGTGGTACCATCTTCGTCGAACCAGGTACAGAAGTGTATGAAGGTATGATAGTCGGAGAGCACAACCGTGAGAATGATTTGACGGTCAACATCACAAAAGAAAAACACTTGACCAACATTCGTTCCGCTAACAAAGACACAACGAACACCATCAAGAAGACCCGTCAAATGACGCTTGAAGAAGCGATTGAGTATCTTGATGATGACGAATACTGTGAGGTTACTCCAGAGAACGTTCGTCTTCGTAAGAAATACTTGAACAAAAACGAGCGCGAAAAAATGGCGAAGAAGAAAAAACTGCAAAATACAGATGTATAA	MQHRDDIRNIAIIAHVDHGKTTLVDQMLHYSGTFRDNEHVDDRAMDSNDLEKERGITILAKNTAINYNDARINILDTPGHADFGGEVERILKMVDGVLLVVDAYEGCMPQTRFVLKKALEQKLTPVVVLNKIDRPNARPDEVVDEVLDLFIELGADDEQLEFPVVYASALNGTSGDEPEDQQETMDPIFKLIMNNIPAPQDTKEDPLQFQVTLLDYNDYLGRIGIGRVFSGQIKVGQQVSLMKKDGSVKNFRISKLFGFIGLKRVEIQEAKAGDIIALSGLEDINVGETVCLPEHQEAMEIPRIDEPTLQMTFLVNNSPFAGREGKYVTARQIEERLLTQLETDVSLRVDPTDSPDAFTVSGRGELHLSILVENMRREGYELQLSKPQVILKEIDGETCEPVERVQIDTPEEYQGAVMESIGYRKGEMQDMVNDGNGQVRLEFLVPSRGLIGYATEFMTQTRGYGILNHTFDGYAPLVKGQVGGRREGVLVSLDKGKASTYGIMNLEDRGTIFVEPGTEVYEGMIVGEHNRENDLTVNITKEKHLTNIRSANKDTTNTIKKTRQMTLEEAIEYLDDDEYCEVTPENVRLRKKYLNKNEREKMAKKKKLQNTDV	PGPT0023720_1587	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-HOST_INFECTION_MEDIATOR,PGPT0023720-typA|bipA-K06207	NA	NA
AK012_02555	945		COG0564	putative RNA pseudouridine synthase	ATGAAAACGACCCGGGACGGAGAATGGCTCAACGTCATCATTCCCCATAAGTGGGACGGCTTAACCATTGAAAAGATCCTGACAAGGCAGTGGCATGTGCCCAGGAAATTGATGCATCGTTTCCGCTCAAACAATGAGGTGATGTTGAACGACGCCTTTCCCCATTATAAAACGACGAGCGTTCATACAGGAGATCTCCTCCGCCTCCGGCTTTTTGGACCGGAGCCCTTAGAGGTCACTCCGGCTTCCATGCCTATCGATCCTGTTTATGAAGATGACCATCTCCTTGTCATCAATAAGCCGGCCGGTGTGTTTACACACCCGAACCGGCCGGATGAACATGATACCCTTGTGAACGGAGCGGCCGGGTATTTCCAGAGACGTGGCATACCCTCTACTCCGAAGTATGTCCACCGGCTCGACCGGGATACATCAGGAGCCATATTATTTGCCAAGCATCCACTCGCCACAGCGATGCTCGGCAGGGAAATTAAGGAAAGAAAAATCAAACGCACCTATCTAGCATGGGTCCACGGCCGGCTTCTCCCGGAACAGGGGGAGATCATTAAACCGATCGCCAAAGATCCGGATCATACCGTTAAACGAATGGTAGGCGAGGACGGCCGGTATGCAGAGACGCATTATACGGTGTTAAGTTATGATGCCGTCCAGGACTGTTCCCTCGTCATGCTCCAGTTGGAGACCGGACGCACCCATCAAATCCGGGTGCACATGAGTTCTGTCGGATACCCATTAATCGGAGATACGCTGTACGGTGGAAAAGGAAACGTCCATTATAAACAGGCTCTACATGCAGCCAGGCTGACGTTCGTCCACCCTTTTACTGAAGAAACGATTCATTGTTATGCACCGCCCGCCCCATCGTCCGCATTATTCACGGATACCCATATCGATATACTGAAACAGACAAAAAACGGCTCCTGA	MKTTRDGEWLNVIIPHKWDGLTIEKILTRQWHVPRKLMHRFRSNNEVMLNDAFPHYKTTSVHTGDLLRLRLFGPEPLEVTPASMPIDPVYEDDHLLVINKPAGVFTHPNRPDEHDTLVNGAAGYFQRRGIPSTPKYVHRLDRDTSGAILFAKHPLATAMLGREIKERKIKRTYLAWVHGRLLPEQGEIIKPIAKDPDHTVKRMVGEDGRYAETHYTVLSYDAVQDCSLVMLQLETGRTHQIRVHMSSVGYPLIGDTLYGGKGNVHYKQALHAARLTFVHPFTEETIHCYAPPAPSSALFTDTHIDILKQTKNGS				NA	NA	NA	NA	NA
AK012_02556	162			hypothetical protein	ATGAAGGAGAGTCTTTTTCGAATTTCAGAGGACTCCCAAGGAGCGATGCCCCTTCCACTCCTGCGGAAGAACGAGTGGGCCGGGATCGCCGAGCGTGGGTTTTGCGAGGAAGCTCGGGTGCTCGTCCGCGGAAAGGGAAGGGGCTTTCGCTCCCGGCGGTAA	MKESLFRISEDSQGAMPLPLLRKNEWAGIAERGFCEEARVLVRGKGRGFRSRR				NA	NA	NA	NA	NA
AK012_02557	306	phhB	COG2154	Putative pterin-4-alpha-carbinolamine dehydratase	ATGGATGAAACGCGTATTCCGGAAGAAGCCAAGCTGGACAGGGTGGCTGAGCTGGATGGATGGAAGCTGACAGATGAGAAATTTATTACCAAACGCTACCGCTTTCAGGATTTTTTAACAGGCGTCCGTTTTGTTAATTTGATTGCAGAGTATGCAGAGGAAATCCAGCACCATCCGTTCATCAGCATTGATTACAAAATGGTGACGTTAAAACTTACCTCCTGGAATGCCGGCGGCCTGACAGAACTGGACCTGGAGTGTGCCCGGAAGTACGACAGCATTTATCAGTCTATTGAACAGAAATAA	MDETRIPEEAKLDRVAELDGWKLTDEKFITKRYRFQDFLTGVRFVNLIAEYAEEIQHHPFISIDYKMVTLKLTSWNAGGLTELDLECARKYDSIYQSIEQK				NA	NA	NA	NA	NA
AK012_02558	1791	pepF1_1		Oligoendopeptidase F, plasmid	ATGTCTACATATGCAATGACCTGGGATCTGGACAGTCTGTTTCAAGGCGGCAGCCATTCCAGTGAATTAAAGAATTATGTCCAGCAGCTGGAGGGTCACCTGGATGCGCTTGAATCACTTATTTCGTCTTTTGTTCCTCCGGCCGGTCCTGATGATACGGAAGCCTTACAGCAAATCACACACGCTCTTCAGGTGGCCGTGAAGGAGCTTGAAGAATTCAGTGCCTTTACAAGCTGCCTTCAGGCCCAGAATGTCAATGATGCAGGGGCTGGTCAATGGCTGGCCAAAAGAAGTGAACTGGGCGCACGTCTGAACAACGCGCTGATCCAGCTGGATGAGACATTCGTGAATATGGATGATGATCGTTGGACTTCGCTCCTCCAGCAGCCATCCCTAAAGGAACTGTCTTTCGTGCTGGACGAGCGGAGGCAGAAGGCCAAAGACAAGCTGGATGGTGCAAGGGAAGCGTTAATCAATGATCTGAGTGTGGATGGCTATGAGGCGTGGGAACTCATGTATGACCGGCTGGTTGGTCATTTGTCTGTCGAAGTGGAAGGCAGGTCCTTATCGGTGGGGCAGGCCTCCAACAAATTGGACTCCCCGGATCGCTCTGTGCGGAAGGAAGCTTTTGATCAATTGCAGAAGGCATGGCAGAACGAAGCGGGCGTATTCAGTGAAACATTGAATCATCTGTCAGGATTCCGTCTGCAGACTTATAAGCATAGAGGATGGGAGAGTGTCCTTAAGGAGCCGCTCGATTATAACCGGATGCGTGCTTCCACGCTGGAGACGATGTGGGAAGTAATTACCGATTATAAGCATACGTATATCCCTTATATGAAAAGAAAAGCAGAACTTCTTGGCGTGGAGCGTCTTCGCTTTTATGATGTGGAAGCTCCTGTTGGAGAAACGGACAGTACAAAGAGCTTTCAGGAGGGGGCGTCCTTCATTATTGAACAGTTCAGGAAGTTCAGCCCTGAAATGGCCGATTTTGCTGAGATGGCCTTTGAGAAAGGTTGGATTGAGGCCGAGGACCGCCCGGGCAAGCAGCCGGGAGGATTCTGCACCAGCTTTCCGGATAGTGGGGAAACACGGATTTTCATGACATACTCCGGCAGCCCTTCGAGTGTCGCAACGCTCGCCCATGAACTTGGTCATGCGTATCATCAGCATGTCATGAATGATCTGCCTGTATTGAACCAGGGCTATGCGATGAACGTCGCTGAAACAGCTTCCACATTTGCTGAAATGATTGTCGCAGATGCAGCAGTAAAAGAAGCGGAAGCGGGAGAGGAAAAGATGACGCTCCTTGAGGAGAAGGTGCAGAGCAGTGTGGCTTTCTTTATGAATATCCATGCCCGTTTCCTGTTTGAAACACGGTTTTACGAAGAACGACAAAAGGGAACAGTATCTCAAGAGCGTCTTAATGAACTGATGGTGGAAGCGCAGAAGGAAGCCTATATGGAGACGCTGGAAGAGTATGACCCGACTTTCTGGGCATCCAAGCTTCATTTCCATATTACGGATGTTCCGTTTTATAACTTCCCCTACACCTTCGGTTACCTGTTCAGTGCGGGCATCTATGCAAAGGCACTGGAGGCCGGGCCTGAATTTGAAGAGCGTTACACAGCACTGCTGAGGGATACAGGGAAAATGACCGTGGAGGAACTGGCCTGGAAGCATCTCGGTGTCAATCTCGAGGAAAGAGAGTTCTGGGAGCATGCGGTGGAACTCTGCACAGCCGATCTGAGTGCATTTATGAAATACAGTGAAGAATCGATGGAGGGATAA	MSTYAMTWDLDSLFQGGSHSSELKNYVQQLEGHLDALESLISSFVPPAGPDDTEALQQITHALQVAVKELEEFSAFTSCLQAQNVNDAGAGQWLAKRSELGARLNNALIQLDETFVNMDDDRWTSLLQQPSLKELSFVLDERRQKAKDKLDGAREALINDLSVDGYEAWELMYDRLVGHLSVEVEGRSLSVGQASNKLDSPDRSVRKEAFDQLQKAWQNEAGVFSETLNHLSGFRLQTYKHRGWESVLKEPLDYNRMRASTLETMWEVITDYKHTYIPYMKRKAELLGVERLRFYDVEAPVGETDSTKSFQEGASFIIEQFRKFSPEMADFAEMAFEKGWIEAEDRPGKQPGGFCTSFPDSGETRIFMTYSGSPSSVATLAHELGHAYHQHVMNDLPVLNQGYAMNVAETASTFAEMIVADAAVKEAEAGEEKMTLLEEKVQSSVAFFMNIHARFLFETRFYEERQKGTVSQERLNELMVEAQKEAYMETLEEYDPTFWASKLHFHITDVPFYNFPYTFGYLFSAGIYAKALEAGPEFEERYTALLRDTGKMTVEELAWKHLGVNLEEREFWEHAVELCTADLSAFMKYSEESMEG	PGPT0020965_2250	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020965-pepF|pepB-K08602	NA	NA
AK012_02559	942	fgd		F420-dependent glucose-6-phosphate dehydrogenase	TTGTTTGAAAACCACCGCGGATGGAAGAACATGCTCCAAAAAGATCACATCTCTTTTGGGCTGACGATACCGATTGAAAATTACGATAAAGAAACTCCACGCATGGATGATCAAGTACAAAAAGCACAGATGGCGGAAGAACTCGGCTTTCACTGCCTATGGCTTCAGGACGTCCTTCTTGAAGATCCAACATTTGAGGATCCGGCAACCGGACAGATCTTCGACAGCCTGATCTACTTAACTTATCTGGCTTCGCAGACACAGTCCATCAATCTCGGCACAGCAGCGTTGGTTATGCCGCTCCGTCACCCTTTACGCACAGCGAAGGAGCTGGCAAGCATTGAACGCTTATTTCCCGGACGTCTGATGGCCGGTATTTCCTCAGGAGACCGGCGGAAGGATTTTGAAGGATTGAACATCCCCATCATGGAACGTGGAGAATGGTTCAGAGAAGCCTTTGATTTTTTTACGAAGGCCTTATATGAAGAATACCCTGAAGCCGTCTCCTCCTTCGGCAAGCTCGACAAATCCAATCTCGTCCCTAAACCGCCCAACAGGATTCCTGTTTTTATGACGGGCTACTGTCAGCAGACGCTCGACTGGATTGCTGAGCATGGAGATGGATGGATGTTTTATCCTCAGCGTCCGGAACAGCAGAGGGAGACAATCAACATGTACAGGGAAAAAGTGAAACAGATCCATGGTGATGTTTTCCGTCCCTTCTTCATGCCGCTTCCTGTTGTTCTTTCCGAGGACCCGGAGGCCCCCATCGAAAAAATCCCTGCCGGTTATCAAACCGGGCGGGAAGGCTTAAAGAATATTATCGAAGAGTATCGTTCCGCTGGTGTGAACCATATGATGTTCGGCCTTTCAAAAAACAAACGGCCGACAGCTGAGGTGATGCAGGAAATCGGCGAAGATATCCTGCCGTATTTTAAATGA	MFENHRGWKNMLQKDHISFGLTIPIENYDKETPRMDDQVQKAQMAEELGFHCLWLQDVLLEDPTFEDPATGQIFDSLIYLTYLASQTQSINLGTAALVMPLRHPLRTAKELASIERLFPGRLMAGISSGDRRKDFEGLNIPIMERGEWFREAFDFFTKALYEEYPEAVSSFGKLDKSNLVPKPPNRIPVFMTGYCQQTLDWIAEHGDGWMFYPQRPEQQRETINMYREKVKQIHGDVFRPFFMPLPVVLSEDPEAPIEKIPAGYQTGREGLKNIIEEYRSAGVNHMMFGLSKNKRPTAEVMQEIGEDILPYFK				NA	NA	NA	NA	NA
AK012_02560	711			hypothetical protein	ATGAAACCGGAAATTATGCTTCTCGGCACTTTTCATATGGCTGTGGAGCCGGAAATGATTCACAAACATAGAGATGAACTTTCTTCCATAACCTCTTCACTGCAGGAATGGAACCCGACAAAAATCGCTGTGGAAAAATCGTTTTTTCTGGAAGAAGAAATCAATAAAAGATTGAAGCAGTTCCTGCAGGGAGAGCAGGCCCCTGCCTGCGATGAAGTGGAACAGATCGCTTTTCCACTGGCCGAAGCCCTTCAACAGGACCGTCTATATCCTGTTGATGAAATGGTGGATATGTCCACCCCTTCCCTTGATCAGGTATTCTCCTGGGCAGAAGAACATCAGCCCCAGCTGCTCAAGGAAATCCTCACCATCCAGCAGAGCGTGAAGCAGATGGAGGATAAACAGACATTAGCCGGTTATTTCCGTTACATTAATGACGATGATTACAAGAAACAGTTGAAACGTGTCTATATGAAATTGACTCGAGTCGGTGACCGCCAGCACCAAATTGGTGTCCACTGGCTGAAACAGTGGCATCACCGCGATTTAGCCATGGCGGCGAATATCCTGCGGACCGCGGACACTGGAGACCGCATTCTTGTGCTCGTCGGCTCCGATCACCTGCATCTGGTGGAACAGTTTCTACAGGATAGCGGAGATGTAACCACTCAAAACGTCACGCCTTACCTGCCGGAGAAAAAGAATGTTTGA	MKPEIMLLGTFHMAVEPEMIHKHRDELSSITSSLQEWNPTKIAVEKSFFLEEEINKRLKQFLQGEQAPACDEVEQIAFPLAEALQQDRLYPVDEMVDMSTPSLDQVFSWAEEHQPQLLKEILTIQQSVKQMEDKQTLAGYFRYINDDDYKKQLKRVYMKLTRVGDRQHQIGVHWLKQWHHRDLAMAANILRTADTGDRILVLVGSDHLHLVEQFLQDSGDVTTQNVTPYLPEKKNV				NA	NA	NA	NA	NA
AK012_02561	1629	opuD_4	COG1292	Glycine betaine transporter OpuD	TTGAAAACAAAGCTTATTGACTGGCCCACGTTTATAGGGGCCCTGATTTTACTGCTCGGAGTAACCCTGCCATTGATTATGTTCCCTGAGGCAGGGAAGGAAGTTGTGTCTCAAGCCAATACATTTATGACAGAGAATTTCGGCGTTCTTTATATGGTTCTTGGATTTGTCATTTTTGCTTTTTTAATCTATGTAGCCTTCAGTAAAAATGGTGCTATCAAACTTGGAGATGAAGGAGAAAAGCCTGAATTCAGTACATTCTCCTGGGCCGCGATGCTTTTCGCTGCCGGGATCGGTTCCAGTATTCTGTACTGGGCGGTCATTGAATGGGCGTATTATTATCAGGGGCCTCCATTCGGTGTAGAACCGGAATCCAAGGAAGCAATCAAATGGGCTTCTACTTACGGCATGTTCCACTGGGGACCGATTGCCTGGGCGATCTACACGCTGCCGGCGCTGCCGATTGCCTATTTCTACTATGTACGGAAAAAGCCGGTGTTGAAAGTATCAGAAGCTGTACGTCCGGTCCTTGGTGATACGGTGGACGGCCCGGTTGGTACAATTATTGATGTTTTGTTTATGTTTGGACTTCTGGGCGGTGCAGGGACGACGCTTGCGCTCGGAACACCGATGATTGCACAGGGTGTCAATGATTTAACAGGCATTCCCGTAACGCTCGGTCTGAAAAGCGGGATTATGCTGCTCTGTACGTTGATATTTGCGATCAGTGCCTATTCAGGCCTGAAACGTGGAATTAAGATCCTTAGTGATGTGAACTTATGGCTGTCCATCTTCCTGCTTGCGTTTATTTTCATTTTCGGTCCAACCCGTTTTATGAGTGAAACGACGTTCACATCTCTCGGACTTCTTGCCGATAACTTCTTCCGCATGGCGACATGGATGGAGCCGTTCGGGAACCTCGGCCAGTTCGAGAAGACGAGCTTCCCTGAATACTGGACCGTGTTCTACTGGGCATGGTGGCTCGTTTACGCACCGTTTGTCGGTTTGTTTGTTGCCAGGATTTCTAGAGGACGTACTATTCGTCAAATGATCCTCGGTACGATGGTTTACGGTACGATCGGATGTGTCCTTTTCTTCGGAATTATGGGTAACTTCGGTCTTTACCTGCAGATTTCAGGTCAATTTGATGCCATTGCCTTCATGAACGATAACGGGGCACCGGCAACCATTATTGAAATTATGAACCAGCTGCCGCTGGCTGATTTCATCGTGTTGATCTTTACGGTCCTGGCTATCATTTTCCTTGCCACGACCTTTGACTCTTCCTCCTACATTCTTGCGTCTGTGACACAAAGGAATGTGGAGGGTGAACCGCTTCGTTGGAATCGTCTATTCTGGGCATTCGCGTTATGTATCATGCCGCTTGCTCTGATGTTCCTCGGTGGACTGGATACCCTGCAGACAGCAAGTATCGTCGGTGGTTTCCCGCTCATTATCATTATGTTCCTGCTCGCCTGGTCGTTTATGAAAGCGTCCAATACCGATATTCGCGAGTCTGATGACTATGAGCCGTCCACGATTCACATTAAGCGATGGAAAAACCGCAGGAAAAAGAAAAAGCGTTCCGCCCTTGAGGCCCTTGAAGATAAAGATACAGATGGAAGATAA	MKTKLIDWPTFIGALILLLGVTLPLIMFPEAGKEVVSQANTFMTENFGVLYMVLGFVIFAFLIYVAFSKNGAIKLGDEGEKPEFSTFSWAAMLFAAGIGSSILYWAVIEWAYYYQGPPFGVEPESKEAIKWASTYGMFHWGPIAWAIYTLPALPIAYFYYVRKKPVLKVSEAVRPVLGDTVDGPVGTIIDVLFMFGLLGGAGTTLALGTPMIAQGVNDLTGIPVTLGLKSGIMLLCTLIFAISAYSGLKRGIKILSDVNLWLSIFLLAFIFIFGPTRFMSETTFTSLGLLADNFFRMATWMEPFGNLGQFEKTSFPEYWTVFYWAWWLVYAPFVGLFVARISRGRTIRQMILGTMVYGTIGCVLFFGIMGNFGLYLQISGQFDAIAFMNDNGAPATIIEIMNQLPLADFIVLIFTVLAIIFLATTFDSSSYILASVTQRNVEGEPLRWNRLFWAFALCIMPLALMFLGGLDTLQTASIVGGFPLIIIMFLLAWSFMKASNTDIRESDDYEPSTIHIKRWKNRRKKKKRSALEALEDKDTDGR	PGPT0021960_325	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021960-TC_BCT-K03451	NA	NA
AK012_02562	141			hypothetical protein	ATGATGGGGATTCTCTTCCTGGTCTTCGCCGGGGCTGTAGAAACAGCCTCCCAGGAATACAAATCCAGGTTTTTCGGCTTTCTTTACCTGCTGGCTGCTGTCATCTGTGCTGCAGACGGGCTTTACCGCCGGCTTTTCTAA	MMGILFLVFAGAVETASQEYKSRFFGFLYLLAAVICAADGLYRRLF				NA	NA	NA	NA	NA
AK012_02563	255			hypothetical protein	ATGAATAGCTGGTTCACCCATATTTTTAACATCTTAGTCGGAATATTGATCGTTGTCGAAGGCGGCGTGTACATATTTATGAATAATAAAGACGGTGATCTTCATCTGCGGAGTATGATCATGACCGTCCTGCTCATGACTGCATGGGCGATGTCCTACCGGAAGCAGGTAACGAGCGATAACCCTAGTGCATGGTTGATTGTAACCATCATCATTATGATCCCGATGATTCTCCCGTGGCTGTTTTTTATATGA	MNSWFTHIFNILVGILIVVEGGVYIFMNNKDGDLHLRSMIMTVLLMTAWAMSYRKQVTSDNPSAWLIVTIIIMIPMILPWLFFI				NA	NA	NA	NA	NA
AK012_02564	423			hypothetical protein	GTGAAGAAAAAATTAATGACGTCAGCAGTTCTGATTACCTTTTTTGTGTTGTCGGTCTGGTACATCCATCACACGTTTTTTTTCAGCCCTTTATCTTTTGAGCAGGACGACATCACTTATCAATCATGGGCCGATTACCAACGTCCGATGACGCTTACTTATTATGACTTGGATGGAGGGCGGACATCCTACCAAATTGAAGGGGATGAAGAGATACGCTCCTTCTTCAAGGCTATGAAGCAGTGTCCTTCAAGTGGAGAGGGGAATGAAGGTGAACAGGTTCTGGGGGCGCTGCGTATATCCAGTGCACGGGACATTGTACTGGAAGCCTATTTTTACAATGACTTCTGGCATGTCCTGCAGAAAGATCATGAACGGCTTGAAATCACCCCGAAGCTGGAGGGGCTGATCAACCAATTATAA	MKKKLMTSAVLITFFVLSVWYIHHTFFFSPLSFEQDDITYQSWADYQRPMTLTYYDLDGGRTSYQIEGDEEIRSFFKAMKQCPSSGEGNEGEQVLGALRISSARDIVLEAYFYNDFWHVLQKDHERLEITPKLEGLINQL				NA	NA	NA	NA	NA
AK012_02565	897	purU	COG0788	Formyltetrahydrofolate deformylase	ATGACGTCTGCCAACCAGCACATCCAGCAACATACAGAAAAAAACAAAAACAAAGCGCGGCTTCTTATCAGTTGTACGGACCAACCGGGAATCGTGGCTGCCATCTCCACGTTTCTTCATCAACACGGGGCCAATATTGTAGAATCCAACCAATATACCACCCACCCTGATGAGGGGACATTCTTCATCCGTATTGAATTTGCCGCTACCGATATGGAAGAAAAGGAAGAAGTGTTTCAGGAGGGCTTCAAGGAAATTGCTGCCGCATTCCATATGAAATGGCGCCTGACATTTTTATATAAGTTGAAGAAAATGGCCATCTTCGTTTCCAAGGAACTTCACTGCCTTCGAGAGCTCCTTTACGAATGGGAAAGCGGCGGCCTTATGGCAGACATCCCTCTCGTCATCAGTAACCATAAAGAAGGAAAAGAGCTTGTCGAATCCTTCGGCATTCCCTTTTATCACATTCCAGCAAATAAAGAGATCCGGCATGAAGTCGAGGAGGAACAGCTGAAGCTTCTCAAGGAGCATGACATTGATGTCATTGTGCTCGCACGGTATATGCAGATCCTTACCCCGCATTTCGTGTCGACTCATCCATCAAAAATCATTAATATTCATCATTCATTCCTGCCGGCCTTTATCGGGGCTAATCCACATAAACGGGCACACAAAAGGGGCGTTAAGCTTATAGGAGCCACGTGCCATTACGTGACGGATGATCTTGACGAAGGACCGATCATCGAGCAGGATGTGATTCGTGTCGATCACCGCAACCATATCGAAGATTTGAAAAAGAAAGGCCGGTTGATCGAGCGCACCGTTTTAAACCGGGGAGTCAAATGGGATTTAGAGGACCGTGTCATTGTTCATGAAAACAAAACCATCGTGTTATAA	MTSANQHIQQHTEKNKNKARLLISCTDQPGIVAAISTFLHQHGANIVESNQYTTHPDEGTFFIRIEFAATDMEEKEEVFQEGFKEIAAAFHMKWRLTFLYKLKKMAIFVSKELHCLRELLYEWESGGLMADIPLVISNHKEGKELVESFGIPFYHIPANKEIRHEVEEEQLKLLKEHDIDVIVLARYMQILTPHFVSTHPSKIINIHHSFLPAFIGANPHKRAHKRGVKLIGATCHYVTDDLDEGPIIEQDVIRVDHRNHIEDLKKKGRLIERTVLNRGVKWDLEDRVIVHENKTIVL	PGPT0008155_558	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0008155-purU-K01433	NA	NA
AK012_02566	495	ykuD	COG1376	Putative L,D-transpeptidase YkuD	ATGCTCCATACGGTAAAGCCGGGAGAAACCCTCTATCAAATAGCACGAGATTACCGGATGCCGCTCACAGCCATCTTGGCCGCCAATACGATTCCCAATCCGGATTTGATTATGGTCGGGCAGCGGATTACAATCCCGGGATACCCCCCTGTGGAAACACAGCCGTATCAGCTCGATGTTTCCATTAATGAACGCCTGCTCCGTGTCTATAAAAACGGGAAATATTTAAAAGAATACCCGGTGGCTGTAGGACGGATGCTTTATGAAACACCTATAGGGGATTTTATTATCCTGAATAAGGCTCCAGACCCCGGAGGACCCTTCGGTACGATGTGGATGAGTTTATCAAAAGAACACTACGGGATCCACGGCACGAATGACCCATCATCCATTGGAAAAGCGGTGTCACGCGGATGTATACGGATGTACAATAAAGACGTGGAAGAGCTGGCGCTCACCATTCCGAACGGAACCCCCGTCACCATCCATTTGTAA	MLHTVKPGETLYQIARDYRMPLTAILAANTIPNPDLIMVGQRITIPGYPPVETQPYQLDVSINERLLRVYKNGKYLKEYPVAVGRMLYETPIGDFIILNKAPDPGGPFGTMWMSLSKEHYGIHGTNDPSSIGKAVSRGCIRMYNKDVEELALTIPNGTPVTIHL	PGPT0023745_834	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-L|D_TRANSPEPTIDASE_ACTIVITY,PGPT0023745-erfK-K16291	NA	NA
AK012_02567	660			hypothetical protein	ATGAACATATATATGGAAATGACTTACCGCGCCAGGAACAAAACGGAGGCTTTTTTCAAATCTGAACCGGTTTCTCCGGGGGAAGCACTTCTTATTGCGGAGGACCTTGAAAAAACAGGGCGTTTGAAGGAGATCGCTTTTATCGATGATTACGATACTTCATGGAAGCTGAAGGACTTGAAGAAGTATATGGAAAAAGTGGACGCCGAGCCACATAACATCCGGGTTTACTTTGACGGAGGATACGACAGGAACGACAGGAAGGCAGGCCTGGGCTGTGCGGTTTATTACGAACAGGATGGCCGGTTTATGCGTTTAAGGAAAAATGCGGCGGTTGAAGAGCTGGATACGAATAATGAAGCAGAGTACGCCGCCCTTTATCTGGCTGTTCAGGAACTGGAGGCTATGGGCGTCGCGCATATCCCTGTTCATTTTATCGGTGATTCCCAGGTCGTCATCAATCAAATGAAAGAAGAATGGCCGACTATGGAACAGTCCCTTCATGAGTGGGCGGACCGGATTGACGAGAAGCTGGCTGCTATGGCTGTTGAACCGTCTTATCACTTGATATCGAGAAAAGACAACCGTGAATGTGACCGTCTTGCCACTCAGGCTCTACAGGGAACGGAAGTGGAAAGCACCTCCGAAGTGAAAGGATAA	MNIYMEMTYRARNKTEAFFKSEPVSPGEALLIAEDLEKTGRLKEIAFIDDYDTSWKLKDLKKYMEKVDAEPHNIRVYFDGGYDRNDRKAGLGCAVYYEQDGRFMRLRKNAAVEELDTNNEAEYAALYLAVQELEAMGVAHIPVHFIGDSQVVINQMKEEWPTMEQSLHEWADRIDEKLAAMAVEPSYHLISRKDNRECDRLATQALQGTEVESTSEVKG				NA	NA	NA	NA	NA
AK012_02568	1578	acsA_3	COG0365	Acetyl-coenzyme A synthetase	ATGAATCGAGAAGAATTGATTGCCCCGGAACGATACAACGTCGTATCAGAAATGGAAAAGTATACAGGCGATTCCGAACGAAAAGCCCTTTTATGGTTGAACGATCAAGGCGAAACCAAGGAAGTTACATATCAAAACCTGATGAACCGTGCGAATAAAATTGGAAACGCTTTCCTTGACTGTGGATTGAAACAAGGAGATAAAATCCTCGTAATGATCCCACGACTGATAGAAGCCTACCAAGTCTATACAGCGGCATTAAAGGCCGGTCTCGTCGTTATTCCAAGTTCCGAAATGCTCCGGACGAAGGACCTTCAATACCGTGTTAGTCATGGAGAGGTCCGTGCCGTTGTCAGTTATGCCCCTTATACCGATCAGTTTCAAGGGATCCGTGAATACGATCAGCTTGTGAAATTTTCTGTCGGAGAGCGGAAAGAAGGGTGGTATGACCTGGACAGTCTGATGGAAGATTACAGCGGGACGATGCCAGCTGCTGACACAAGTCGGGATGACATGGCTTTTCTTTCTTATACATCGGGAACGACAGGAAATCCGAAAGGAGTCGTTCATACCCATGGATGGGGATATGCCCATCTGAAAACGGCGGCTTATCAATGGCTGGCCATTGAAGACGGAGATACGGTCTGGGCTACTGCCGGCCCTGGGTGGCAGAAATGGATTTGGAGTCCGTTTTTATCTGTGCTGGGGACAGGGGCTCAGGGGCTCGTATATCACGGGAAATTCGATCCGAACGTCTATTTGGATTTGATGGACAAACATGATGTCAATGTGCTCTGCTGTACGCCGACGGAATACCGTCTTATGGCAAAAGTGGATGACTTAAGCAGGTACAGCCTGAAAAACCTCCACAGTGCTGTGTCAGCTGGCGAACCTTTAAACAGAGAGGTGATCGATACCTTCGAGCGGCATTTTCAAGTCACCGTGAGAGACGGGTACGGTCAGACGGAAAATACGCTTCTCGTGGGAATTATGAAGGATATGGAAGTACGTCCCGGCTCAATGGGACGTCCGACTCCCGGTAATCAGGTCGATATCGTAGATGAAATGGGGGTGCCTGTCGGAACAGATGAAGTTGGAGATATTGCTGTCCACCTGGATACTCCAGCGCTGTTCAAAAAATATTATAAAGACCCGGAGCGGACGAAAATGTCGCGAAGAGGCAATTATTACATTACCGGAGACCAAGCCAGGAAAGATGATGAAGGATACTTCTGGTTTGAAGGGCGCAGTGATGACATCATTATCAGCTCGGGCTATACCATCGGCCCCTTTGAAGTAGAGGATGCGCTTGTGAAACATCCCGCTGTCCAGGAATGTGCCGTGGTGGCAAGTCCGGATGAAGTCAGGGGAAGCATTGTAAAAGCATTCGTTGTCCTGCGGCCCGGGTATGAAAAAGACCATTCCATCGTTCAGGCACTGCAGACGCACGTGAAGGAGCTTACGGCCCCTTATAAATACCCACGGAAAATCGAGTTTATTGAAGAACTGCCGAAAACAACCTCAGGTAAAATACGAAGAGTCGAGCTGCGTGAAAAGGAAAGATCCTGTCAAAAATAA	MNREELIAPERYNVVSEMEKYTGDSERKALLWLNDQGETKEVTYQNLMNRANKIGNAFLDCGLKQGDKILVMIPRLIEAYQVYTAALKAGLVVIPSSEMLRTKDLQYRVSHGEVRAVVSYAPYTDQFQGIREYDQLVKFSVGERKEGWYDLDSLMEDYSGTMPAADTSRDDMAFLSYTSGTTGNPKGVVHTHGWGYAHLKTAAYQWLAIEDGDTVWATAGPGWQKWIWSPFLSVLGTGAQGLVYHGKFDPNVYLDLMDKHDVNVLCCTPTEYRLMAKVDDLSRYSLKNLHSAVSAGEPLNREVIDTFERHFQVTVRDGYGQTENTLLVGIMKDMEVRPGSMGRPTPGNQVDIVDEMGVPVGTDEVGDIAVHLDTPALFKKYYKDPERTKMSRRGNYYITGDQARKDDEGYFWFEGRSDDIIISSGYTIGPFEVEDALVKHPAVQECAVVASPDEVRGSIVKAFVVLRPGYEKDHSIVQALQTHVKELTAPYKYPRKIEFIEELPKTTSGKIRRVELREKERSCQK	PGPT0002265_8017	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
AK012_02569	210			hypothetical protein	ATGGAGTTTCGCCCGGTAAAGAAACAGCGTGTCATTTCAAGTTTCCCTCTCCTGTTCATTTCAGGAGTCATTTTAGCCTTATTTCTGTCCCTCTCCGTCGTGACAAAAAATTATAATTATACCACTGCATCCGTTCTGAGCATCATCATCATGAACGCTTCGCTCGTTTCTCATTCCGTCCGGAAAAGCAGAAAAAAGAGCCTCCGGTAA	MEFRPVKKQRVISSFPLLFISGVILALFLSLSVVTKNYNYTTASVLSIIIMNASLVSHSVRKSRKKSLR				NA	NA	NA	NA	NA
AK012_02570	849			hypothetical protein	ATGTTGAAAAAAGTGTGGTCATTTCTATTGATGAATCTCGGTGCGCTTGCTGTAGCAACCAACGTTCATTTCTTCCTGTCCCCGAACGATCTGGCAACAGGAGGGGTGAGTGGTCTATCCATCGTATTGAATAAGGTTTTTCCTGATTTGTCCCTGGGAATGATTATGATTCTCTTGAATATTGTCTTGTTTATTGTCGGTTTTATTTTCCTAGGATTCCAGTTTGGTGTGAAGACCATCTATGCCAGTTTTGCGCTTTCATTTATGGTCTGGGGACTTGAAGCCTTTTTCCCTATGCAGGAAGCTCTGAGTGATGATCTGTTGATCCAGCTGATTATCGGTCAGATCATTGCGGCTTCAGGAATGGCCCTCGTTTTCCATCAGGGAGCTTCCACAGGTGGAACCGATATCCTGGCCATGATCTTAAATAAATTCTTTTCCATTGAAGTTGGAAAAGGTGTGCTTTTCTCCGATATCGCCATTGCCACATCTTCCATCTTCCTATTCGGACCGACGGTCGGTATGTATGCGTTCTTCGGTGTCGTTCTGAATGGTCTGGTGATCGATTATATGCTCCAGCAGTTTGAGGATAATAAAGAGATTGTTATTATCAGCCGTGAGAGTGAGCTTGTCCGTCACTTCATCATCAATAAGCTTGGACGCGGCGCTACCATTCACGAAGCGAAGGGTGCGTTTAACCAGGAACAGAAGGAAGTCATAACCACCATTCTCAGCCGGAGAGATTATACCCGTCTGAAGAAATATATGACGGCGGTGGATGAACAGGCATTTATCACCGTTCACTCCATGAATGAAATCCTTGGAGAGAATTTCAAAAGACTGGCGTAA	MLKKVWSFLLMNLGALAVATNVHFFLSPNDLATGGVSGLSIVLNKVFPDLSLGMIMILLNIVLFIVGFIFLGFQFGVKTIYASFALSFMVWGLEAFFPMQEALSDDLLIQLIIGQIIAASGMALVFHQGASTGGTDILAMILNKFFSIEVGKGVLFSDIAIATSSIFLFGPTVGMYAFFGVVLNGLVIDYMLQQFEDNKEIVIISRESELVRHFIINKLGRGATIHEAKGAFNQEQKEVITTILSRRDYTRLKKYMTAVDEQAFITVHSMNEILGENFKRLA				NA	NA	NA	NA	NA
AK012_02571	1860	rcsC_2		Sensor histidine kinase RcsC	TTGGTTATAAGAGAGAGGTATTCAGACCAAGTTCATAGCGGTGAGATTTTGGACGTTCTCAGTATAAATGGAACACCCGCGTGTCTACTCGATCTGCGTCTTCAAGCCGTTACTCTGAATCAGGAAATGATTCATATGCTGCATTTGAAGGAAACAGACCTGTCTTTCTCTCAATGGATCCGGTGTTTCCGCCATACAGGCCAGCACCGTCTTCAACAATCTCTGCACCAGCTTCTGACTGAGGGACTGCGGGAGTCCTCTGTCCAGCTGACGGACAAGAATTTTGACCGGAGGTTTCACTGTCGTATGGTACATCTGACCAATGGTCAGATTACATTTACACTTGCTGAAACGGAAGAAGAGCAGCATTTTTATGCTCCAGGGCCCGCTGACACGGATGTGCCGTCCCGGAATGATAAACCGCCCTTATCCATCACGAACTACGAAGGCTTTCCGCTTTCAAGCTTTTCCTCATCTCAAATCAAGCATCGCATGACACACATTGTCGATAAATTTCCACACGGGCTGGCCGTTATCAACCATAATTGGGAAGTCGTTTATGCTAATCCCAAAATGGAAGAGCTGACTAAACGCCCCTTTTTTAAAAATTACTATAAACGGCTGTGGGACATATTTTCCATTGATGAGCATTATCCGTTTTTTCAGCATTTTCTGCGCTCTATGGAAACGCATGAAACGATGGAATTTGAAGGTTTTCTTGAGGACACCCAGCTTGATGTGAAAGTAACCGTTCATCCAACTGAACTGGGACTGACAGTGTTCCTGCAGGATATCACCCAGTACAATAAGCACTTGCAGGCGCTTAAAGCTTCTGAGGAGCGGTTTGCTCTGCTGGCCGACAACATTACGGATGTGTTCTGGATCAGTGAACCGGACTTTGATGAGGTCCATTACATCAGCCCTGCATTTCAAAGTTTATTTGACATCCCAAGGCGCAAGGCGTTTGCAGATCCGAAGTCGCTGCTTCAGCACGTTCATGAAGCAGATCGTGCCCATTTCGTAGAAGGGCTTTCCAAGATGAAGGAAGAAGAGCGCGTCGTTGACTACCGCGTGATTGTCGGTGGAAAAGAAGAAAAATGGATCCGGACGAAAGGTTTTCCGGTGGATTATAACGGCAAGCCTCTCATCTTAGGTATACATCAAGATGTAACCGAATACAAAGAAATGATTGAGCTGAAGGAAAAATCCCAGCAGCTTTCAACCATTACCCAGATGTCTGCCGGTATTGCTCATGAAATTAAGAATCCATTAACCGCCATTAAAGGATTTCTTCAAATCGGAGCGGCGAATCCCGAACTCAGGGATAACTATCAGGAAATTATTTTAGATGAAGTCAATCGGATTGAGGCGATTGTCCAGGATTTCATGATGTTGTCAAAGCCCAAGTCTTCCATCCAGCTTGAGGAAGTGGATCCGGAACAGCTGGTTTCCTACGTGCTTCGTCTTCTAGAGCCGGAAGCCAATGAAAAACAGATTCTGCTGCTGTTTGACTGTGATCCGGTACAGGAGACGTTCAAGACGGAACCGAAACGGATGAACCAGATTTTAATAAACCTGGTTAAGAATGCTGTGGACGCGGTGGATCTTGGAGGCGAGGTACGAATCGAAATCCAAATGTCGAGCTCTCACCTAACGCTTTACGTTAGAGATAATGGGCCGGGTTTAAGTACCCAGGAACTGGGGAAAATCGGCGAGCCGTTCTTCACCACCAAGGAAAAAGGTACCGGGCTCGGTGTGATGGTGACGAAGAAGATTGTTTCTGATTTAAATGGCACGATCAACTATGAAAGCGAAAAAGGAAAAGGAACGACGGTTGCTGTCAAACTGCCTCGTGCCTAA	MVIRERYSDQVHSGEILDVLSINGTPACLLDLRLQAVTLNQEMIHMLHLKETDLSFSQWIRCFRHTGQHRLQQSLHQLLTEGLRESSVQLTDKNFDRRFHCRMVHLTNGQITFTLAETEEEQHFYAPGPADTDVPSRNDKPPLSITNYEGFPLSSFSSSQIKHRMTHIVDKFPHGLAVINHNWEVVYANPKMEELTKRPFFKNYYKRLWDIFSIDEHYPFFQHFLRSMETHETMEFEGFLEDTQLDVKVTVHPTELGLTVFLQDITQYNKHLQALKASEERFALLADNITDVFWISEPDFDEVHYISPAFQSLFDIPRRKAFADPKSLLQHVHEADRAHFVEGLSKMKEEERVVDYRVIVGGKEEKWIRTKGFPVDYNGKPLILGIHQDVTEYKEMIELKEKSQQLSTITQMSAGIAHEIKNPLTAIKGFLQIGAANPELRDNYQEIILDEVNRIEAIVQDFMMLSKPKSSIQLEEVDPEQLVSYVLRLLEPEANEKQILLLFDCDPVQETFKTEPKRMNQILINLVKNAVDAVDLGGEVRIEIQMSSSHLTLYVRDNGPGLSTQELGKIGEPFFTTKEKGTGLGVMVTKKIVSDLNGTINYESEKGKGTTVAVKLPRA	PGPT0025280_155	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORULATION_REGULATION,PGPT0025280-kinA-K02491	NA	NA
AK012_02572	870	alkA	COG0122	DNA-3-methyladenine glycosylase	ATGTGGAAAGAAAAATTAAAGGCAGTTAACTTTTATGATTTTGATTACACGTTACTTCGATGGCAGCTGGATCCTGTCATTCGTCTGGACAGAGAGGAACGCTGGGTGGATATCCCCGTAAAGCTGAACGAAGATCATCACATTGTCAGGGTGCAGGCTCTCGGCACGACCCTTGATCCCGTCTTTTCTGTGCAGAGTGACAGCCATGAAGCCAAGCCAGAGCTGCTGAACTACATCAAGCACCTTTTTCAATGGGATGTCGATTTAGAGGATGTACACGAGCATTTCCTGGACACCGACTTGGAACAGTTGTTCAGAAATCATCCTGGAACCCCGATAGTGAAGGATTTTCATCTTTATGACTGCTTAATGAAGGTCATCATCCATCAACAGCTGAATATGAAGTTTGCATATACGCTGAGTACCAGATTTGTCGAGACGCTGGGCAGACAGAAGGACGGCGTATGGTTTTATCCTGACCCGGAAACGGTGGCCCGGACGCCGTATGAGACTCTGAGAGAACTGCAGTTCAGCCAGAGGAAAGCTGAATATGTCATTGATACATCGAAGCAGATAGCAGAAGGGGAGCTGGATCTGCCGGCACTGGATGTTATGGAGAACGATGATATTATGAAACATCTGACCAAAGTCAGAGGAATCGGCCCGTGGACAGCAGAAAACTGGATGATGTTCGGTCTGGGAAGGGAAAATTTATTTCCGAAGGCCGACATAGGGATTCAAAACGCCTTGAAGCATTATTATCATATGGACCGTAAACCTACGAAGGACGAGATGGGAGCATGGAGTAAGCCGTGGTCGCCCTATTTGAGTTACGCCTCATTAACATTATGGCGCAGTATCGAAGGGTGA	MWKEKLKAVNFYDFDYTLLRWQLDPVIRLDREERWVDIPVKLNEDHHIVRVQALGTTLDPVFSVQSDSHEAKPELLNYIKHLFQWDVDLEDVHEHFLDTDLEQLFRNHPGTPIVKDFHLYDCLMKVIIHQQLNMKFAYTLSTRFVETLGRQKDGVWFYPDPETVARTPYETLRELQFSQRKAEYVIDTSKQIAEGELDLPALDVMENDDIMKHLTKVRGIGPWTAENWMMFGLGRENLFPKADIGIQNALKHYYHMDRKPTKDEMGAWSKPWSPYLSYASLTLWRSIEG				NA	NA	NA	NA	NA
AK012_02573	780	pdaA	COG0726	Peptidoglycan-N-acetylmuramic acid deacetylase PdaA	ATGAGCAGGATAGTGAAGTGGATCACGGCCGTCCTTATGGTCTGTCTTTTTCCTTTAACCACCTATGCAGAAGGCTGGGGATATAATAAAAGCAAGAATGGGATGGCACCGGATCCAGGCAGGTATGGGCCGATGATTGAACAGCATCATGGTTTTTTTATGGATCCTTCTGAAGAACGTGTGGTTTATTTAACGTTTGATAATGGGTATGAACAAGGATACACCGGTCAAGTCCTGGATGTCCTGAAGGAAAAAGGCGTTCCGGCCGCCTTTTTCGTGACCGGCCATTATATAGAGAGTGCGCCGGACCTTTTGAAGAGAATGGCTGATGAAGGACATCTCATTGGAAACCATTCCTGGAGCCATCCGGATTTCACACAGAGCTCCAAATCAGAAATGGAGAAAGAACTGGCGCGTGTGGAAAAAGCCGTGAAGGAAAAGACAGATCAGGACATTATGACCTTTCTCCGTCCGCCCAGAGGCACATTCAATGCGCAGACGTTGAAATGGGCGGAGGAATTCGGCTACACCCATGCGTTCTGGTCCATCGCTTTTGTTGACTGGCATACCGACAGACAGAAAGGCTGGGAGTATGCCTACCGGAGCGTTATGGATCAAATTCATCCGGGAGCTGTCATCCTCCTGCATACCGTTTCGAGTGATAACGCAGAAGCCCTCTCCCAAATGATCGATGAACTCAGGAAAAGAGGCTACCGCTTCGGGAACCTGAACGAAATTTTAATGAAACAGCTTATTCCCGCTCCAGTCTGGAGTCTATAA	MSRIVKWITAVLMVCLFPLTTYAEGWGYNKSKNGMAPDPGRYGPMIEQHHGFFMDPSEERVVYLTFDNGYEQGYTGQVLDVLKEKGVPAAFFVTGHYIESAPDLLKRMADEGHLIGNHSWSHPDFTQSSKSEMEKELARVEKAVKEKTDQDIMTFLRPPRGTFNAQTLKWAEEFGYTHAFWSIAFVDWHTDRQKGWEYAYRSVMDQIHPGAVILLHTVSSDNAEALSQMIDELRKRGYRFGNLNEILMKQLIPAPVWSL				NA	NA	NA	NA	NA
AK012_02574	1308			hypothetical protein	ATGGCATGGGCAGTTGTCGTATCTGTCCTGGTGATGACCGTGTTGAGTTTATTACGCGTGAATGTCATCGTTGCCATTATCGCCGCGGGTTTGACCGCAGGCCTGATGAACGGGGAGAGCTTGACGGATGCGTTGACCCTTCTCGTTGACGGGATGGGGGAACAGGCGAATGTGGCATTAAGTTATATATTACTGGGAGCTTTTGCAGTTGCAATCAGCTACTCAGGCATCACATCAATACTCGTCGGATTTTTGCTGCGTGTTTTGAAGGATAAACGGACGATGATTGTTTTTGTCATTGCGTTCGTAGCCAGCCTTTCGCAAAACGTCATTCCTGTACACATCGCTTTTATACCGATTCTTATTCCACCGCTTTTGAAATTATTTGATGAAATGAAGCTGGACCGCAGGGCTGTAGCCGCCGCCTTAACCTTTGGTTTGAAGGCGCCTTACGTCATGATTCCGGTTGGATTCGGCTACATTTTCCACGATACAATTAAAACGTCTATGGAAACGAACGGCATTGATCTTGGAATCGGAAGCATAGCTTCATCTCTGCTTATTCCTGGTTCAGGAATGATTGTCGGGCTGTTTATCGCCATATTCATTACTTATCGGAAGCCGAGAGACCCTTCTGTCGTTCCAGAGGATAAAGAAACACCGGATCAAGAAGTTGTTCTGGATACACGTTTCCAAATGAAACACCTTCTGACGAGTGCTGCCATGCTTGTAACGCTTGTCATTCAGGCCGTCTGGTCCAATTTGATCCTGGCTGCTCTGGCCGGAATCATCCTGATGTTCATTTTCCGGGTCGTTCCCTTCAGTAAAGGAGACAAGGTCATCAACGACGGCATCGCAATGATGGGCTTTATCGCTTTCGTAATGCTTGTCTCATCAGGGTATGCCAACGTCTTGACGGCGACAGAATCCGTATCGGCGCTTGTAGAGCTCAGCTCCGACTATCTGGGCGATAACCAGGCTTTCATCGCCTTCATCCTGCTCTTGGTCGGACTGGTTGTCACGATGGGAATCGGTTCTTCCTTTGCAACGATTCCGATTCTGGCGGCTCTATTTGTACCCATCTGTGTCGCTGCCGGTTTTTCACCCATGGCTACGGCTGCACTGATTGGTACAGCGGGAGCTCTTGGGGATGCTGGTTCTCCGGCTTCTGACAGTACACTCGGTCCGACATCCGGGCTGAATGCAGACGGCCGTCACAACCACATCTGGGACACTTGTGTACCGACATTTCTGCACTACAATATTCCATTGTTCATCTTCGGATGGGCCGCATCATTGTTCCTGTGA	MAWAVVVSVLVMTVLSLLRVNVIVAIIAAGLTAGLMNGESLTDALTLLVDGMGEQANVALSYILLGAFAVAISYSGITSILVGFLLRVLKDKRTMIVFVIAFVASLSQNVIPVHIAFIPILIPPLLKLFDEMKLDRRAVAAALTFGLKAPYVMIPVGFGYIFHDTIKTSMETNGIDLGIGSIASSLLIPGSGMIVGLFIAIFITYRKPRDPSVVPEDKETPDQEVVLDTRFQMKHLLTSAAMLVTLVIQAVWSNLILAALAGIILMFIFRVVPFSKGDKVINDGIAMMGFIAFVMLVSSGYANVLTATESVSALVELSSDYLGDNQAFIAFILLLVGLVVTMGIGSSFATIPILAALFVPICVAAGFSPMATAALIGTAGALGDAGSPASDSTLGPTSGLNADGRHNHIWDTCVPTFLHYNIPLFIFGWAASLFL	PGPT0020805_861	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_GENERAL_AMINO_ACID_TRANSPORT,PGPT0020805-yuiF-K07084	NA	NA
AK012_02575	204			hypothetical protein	TTGTACTATGATGGACTGGACGCAGAACAGATAAAGGAGCTGAATCGTTACATGACGCAGCAGGAGAAAATTTCCAACTTAAAGCAGCGCCTGGAAGAGTTTATGGGACGTGTAGATAATCTCGACCCAGAGCAGACGTCAGTGGAAGACATTGACCGTTTGATTTCAATGCTCGAATCCCTTGAGCGCAGCATGGACGAATAA	MYYDGLDAEQIKELNRYMTQQEKISNLKQRLEEFMGRVDNLDPEQTSVEDIDRLISMLESLERSMDE				NA	NA	NA	NA	NA
AK012_02576	798	yfkD		putative protein YfkD	GTGAATAGAAAATGGCTGGGACTACTGCTGTTTATTTGTATTCTTACATGGTTTGCTGCCGGTTCTGCTTCGGCTGAACCTAAGAAAAATGAGAAAGAAGAAGGCTCGGTTCCGAGTCACGTCTTAAATATATCCAAAGATAACACGTATCCGAATTCCACAGATGATCAGGAATTGCTGGAAGCGGAGGAAATTACGAAAGAGCTGATGGAGAACACCGATGTGCGTATTACCAATCCGCAGCTGATTGAAATGCTGAATGAAACTTCCTTAAAACCTTCTCCGCTGGCGATTGGATATCGAGGAGACATTTTCCTTGGGAGATGGCCGCTTTCCTACCACTCAAAAGAAACCAACATTAATTGGGAGTATCAGGAGATTAATACAAACGAATTGAACAACCATGGTGGAGAAAAGCAGGAGAAGCTGAGTTACCTTCAAAAAGAGGAAAAGGCGGTCAAGGGTGGCCTGACATCACGGATCAGCCACAGCGACCAGATGATGAAGCTGATTCTTCTGGAAGCTCAGAAAAACACCAAACTTCCGTTATCCTTTAATACCGTCATCGGAAAAGGGACGAAACAGAATAATACGTACGGCATTCCAACGAACAAAGTAGGGGTGCTTCACGCCTACGCGCCGGCTGTGAATGAAAAAGGAGAAGTGGCTTTTGGTGATGTGTACATTCAGCTTAAGGGATCGAAAAAGACACTTTCCATTAAAAACGTGACCCGGCAGGGGATTGGAGCCTGGATTCCGATCCAGGATCACGTCAGCTTTTCTTTTGAATTGAAATAA	MNRKWLGLLLFICILTWFAAGSASAEPKKNEKEEGSVPSHVLNISKDNTYPNSTDDQELLEAEEITKELMENTDVRITNPQLIEMLNETSLKPSPLAIGYRGDIFLGRWPLSYHSKETNINWEYQEINTNELNNHGGEKQEKLSYLQKEEKAVKGGLTSRISHSDQMMKLILLEAQKNTKLPLSFNTVIGKGTKQNNTYGIPTNKVGVLHAYAPAVNEKGEVAFGDVYIQLKGSKKTLSIKNVTRQGIGAWIPIQDHVSFSFELK				NA	NA	NA	NA	NA
AK012_02577	618			hypothetical protein	ATGAGAACATTAGTCATTAAAGGATTCTTTTATCTTGCAGGGTTGATTGTCATTGCGATGGGCGTCACGCTTACGATCAAATCGAATCTGGGAGCTGGAGCGTGGGATGCCGTAAATGTCGGACTGACAGAACAGATCGGACTAACCATTGGAACGTGGGTCATGGTGATTGGTGGATTTCTGATTGTAACCAATGCATGGATTGCAAAGGAAAAACCGGACCTGCCTGCGGTGATTACGATATTAGTACTTGGAAAATTCATTGATTTCTGGATGCTGCAGGTGTTTGATCACTTGGTGTTTCAAGCATTCTTTATGAAGTTGATGACTTTAATTCTCGGCATTGTTATTATCGCCATCGGCGTATCTTTATACCTTCAACCGAAGTTTTCGTTGAATCCGGTCGATGGCTTTATGGTGGCGCTGCAGAAGCGTTTCGGCTTCAGCATTACGAAAGCTAAAACGTTAACCGAGTCCTTTGCACTCGTGCTTGCGCTCGTGCTTGGTGGTCCTATTGGTATCGGTACCATTGTGATCCTCCTCGGGATCGGACCATGCATCCAGTTTTTCGACAGCAAAGCGAACTATATGATGAATAAGCTTATTGCAGCAGAATAA	MRTLVIKGFFYLAGLIVIAMGVTLTIKSNLGAGAWDAVNVGLTEQIGLTIGTWVMVIGGFLIVTNAWIAKEKPDLPAVITILVLGKFIDFWMLQVFDHLVFQAFFMKLMTLILGIVIIAIGVSLYLQPKFSLNPVDGFMVALQKRFGFSITKAKTLTESFALVLALVLGGPIGIGTIVILLGIGPCIQFFDSKANYMMNKLIAAE	PGPT0026395_986	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
AK012_02578	390			hypothetical protein	ATGGAATTTCATTTAAGAGAGAACGGGATCCGTACGTCCTTCGAATACGGGCAGCTGGACATTTCCGGCGATGAAGCCAATGGTTTCCGTCCGTTTCAATTGATGGTCTCCTCTATTGCAGGATGCAGTCTTGGGGTGTTCAGGAAAATACTCGATAAGCAGCGGATGAATTATGAAGATATCCAGGTATCTGCAGAAGTAACGAGAAACCCGGATGAGGCGAACCGTATTGAGAAAATCCATCTGCATTTCGTTGTAAAAGGCTATCACCTGAATCAGGATAAGCTGCTGAAAAACCTGGAAATCTCCCGCAGCAACTGTTCGATGGTACAATCAGTAGAAAATAGTATAAATGTGGAAGAAACGCTTGAGTGTATCCAGTTAAGCTAG	MEFHLRENGIRTSFEYGQLDISGDEANGFRPFQLMVSSIAGCSLGVFRKILDKQRMNYEDIQVSAEVTRNPDEANRIEKIHLHFVVKGYHLNQDKLLKNLEISRSNCSMVQSVENSINVEETLECIQLS				NA	NA	NA	NA	NA
AK012_02579	1179	ycaD		putative MFS-type transporter YcaD	ATGGTTTCTAAACGCACAAGATTTTGGATTTTAATCGGCCTCGTTACAATATCGGGATTTTCCCAGGGCATGCTGCTCCCTCTCATCGCAGTCATCCTTGAGCAGAATGGTATTTCTTCATCAGTCAACGGCATCCATGCGACGGGACTTTACATAGGTATTTTATTATCATCCCCGTTTATGGAAAAACCACTTCGGCGGTTCGGGTACAAAGCCATCATTCTGTTTGGCGGAGCGCTCGTATTCATTTCGCTTGCGCTCTTCCCTTTCTGGCAGGCGCTCTGGTTCTGGTTTATGCTCCGGGTGGCTGTGGGAATCGGCGATCAGATTCTTCACTTCGGCACCCAGACATGGATCACCGCATCCGCAGATCAGCAGAACCGAGGACGCAGCATCGCCTATTACGGCTTATTCTTCAGTGTCGGGTTCACACTTGGTCCATTAATGACCAACCTTTTGGAATTCGGGATGTTCGTACCGTTTCTCTTGTCTTCCTTTTTAAGCTTCACTGTATGGCTGCTCCTTCTCAGGGTGCGGAACGAAAAGCCGGATAATGACCATGCCACTGCCTATGGAACAAGCTCTGTGAGACGGTTCGGACGGAGTCTGCGCCTGGCCTGGGCCGCCTTTTTACCGCCTCTTGCTTATGGGTTTCTGGAAGCCACCCTGCACGGAATCTTTCCGGTGTATGGAATGCGGATCGGCCACGATGTGAACATATTATCGTTCATCATCCCTTCCTTTGCCGCAGCCAGTTTATTTTCACAGATTCCTTTGGGCATATTAAGTGACCACATCGGAAGAAAAAAAGTGATCCTGACAGTCGTTACCGGCGGAATCGGCTCCTTTATGCTTGCCGCTGTTTTTGAGAATTCGATTCCGTGGCTGTTTGCCTCTTTTGCCTTGGGGGGACTTTTTGTCGGCTCTCTGTTTTCCTTGGGAATTTCTTATATGACAGACCTGCTGCCAAAAGAGCTGCTGCCGGCCGGAAACATTCTCTGCGGGATGTCGTTTAGTATTGGAAGTATTCTGGGACCCTTCTTGTCGGGATTCGTGCTCGACCTGTGGCCGGGCCTTTCCTTCTTTTATGTGATCGTATCCCTCTTAGTGGTCGTTCTCGCAGCAATAGCTTTCAATTCTCCCGTTTCATCAGAAAAAAATCGGGCTGCCCCATCTTAA	MVSKRTRFWILIGLVTISGFSQGMLLPLIAVILEQNGISSSVNGIHATGLYIGILLSSPFMEKPLRRFGYKAIILFGGALVFISLALFPFWQALWFWFMLRVAVGIGDQILHFGTQTWITASADQQNRGRSIAYYGLFFSVGFTLGPLMTNLLEFGMFVPFLLSSFLSFTVWLLLLRVRNEKPDNDHATAYGTSSVRRFGRSLRLAWAAFLPPLAYGFLEATLHGIFPVYGMRIGHDVNILSFIIPSFAAASLFSQIPLGILSDHIGRKKVILTVVTGGIGSFMLAAVFENSIPWLFASFALGGLFVGSLFSLGISYMTDLLPKELLPAGNILCGMSFSIGSILGPFLSGFVLDLWPGLSFFYVIVSLLVVVLAAIAFNSPVSSEKNRAAPS				NA	NA	NA	NA	NA
AK012_02580	1122			hypothetical protein	ATGAAGAAATCAGGTCTATTATCCTTTTTATTAATATCTGTAATTCTTCTTCTTAGTGCCTGCGGCAGTGAAGAAACCTCAGGGGACGGAAATGACGAAGAAGAAAAGAAAGATAAGCTGAAAATCTATACGACGGTGTACCCGCTGCAGTTTTTCACGAGTGAAATCGGAGGAGACACGGTCGAAGTGGAGTCCATTCTTCCACCGGGAGCGGACGCCCATACGTACGAACCTACGACAAAAGAAATGGTGGATATGGCCGGGGCCGACTTGTTCGTTTACAACGGGGCAGGTCTTGAAGGGTATGCGGAGAAAATCTCGGAAGCTTTGAAACCTGAAGGGACTACCGTGCTGGAAGCAGCCGGCGATATGGACTTGAATGCACATGTCCATGACCATGGAGCGGAAGACAGCCATGAAGCTGAGACAGCGGATGAACATGCGGAGCATGAACACAGCCACGAGGGTGAGACAGAGGAAGAGCATGAACACAGCCACGAGGGTGAGACAGAGGAAGAGCATGAACACAGCGACGAGGGTGAGACAGAAGAAGAGCACGCCGAGCATGAAGACAGCCACGAAGGACATGACCATGGTGAGAATGATCCCCATGTCTGGCTCGACCCGGTTCGCTCCATTGAGCTGGCTGAAGGCATTAAAGAGCAGCTGATCGAGTTGAATCCCGAAAAGGAAGACCTTTATGTGGAAAACTTCGAGGCGCTGAAAGGGAAGCTTACGGCGTTGGACGAGCAGTTCCATAAACAAGTGAATGCGCAGCCGAAAGACAAGATTATCGTTTCTCATGCGGCCTATGGGTACTGGGAGGAAGCCTACGGGATCGAGCAGATTGCCGTTTCCGGACTGAGCCCGACGAATGAACCTTCCCAGAAAGATTTAGAGGAAATTATCCATGTGGCGGAGGAAGAAGATCTCAAGTATGTAATCTTTGAGCAGAATATTACACCTAAAGTATCCAAAGTCATTCAGGATGAAATCGGTGCAGAGCCGCTGCAGTTCCATAACCTTGCTGTCTTGACAGAAGAAGATGTAGAGGAAGGAGAAGATTACTTCTCTTTAATGGAACAAAACCTGGAAGTGCTTTACAAAGCTCTGGCAGAATAA	MKKSGLLSFLLISVILLLSACGSEETSGDGNDEEEKKDKLKIYTTVYPLQFFTSEIGGDTVEVESILPPGADAHTYEPTTKEMVDMAGADLFVYNGAGLEGYAEKISEALKPEGTTVLEAAGDMDLNAHVHDHGAEDSHEAETADEHAEHEHSHEGETEEEHEHSHEGETEEEHEHSDEGETEEEHAEHEDSHEGHDHGENDPHVWLDPVRSIELAEGIKEQLIELNPEKEDLYVENFEALKGKLTALDEQFHKQVNAQPKDKIIVSHAAYGYWEEAYGIEQIAVSGLSPTNEPSQKDLEEIIHVAEEEDLKYVIFEQNITPKVSKVIQDEIGAEPLQFHNLAVLTEEDVEEGEDYFSLMEQNLEVLYKALAE	PGPT0004220_549	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
AK012_02581	411	zur_1	COG0735	Zinc-specific metallo-regulatory protein	ATGAACGTGGAAACAGCTCTGCAGAGACTGAAGGAAAAAGGGTATAAACGAACGAAGCAGCGGGAACGTATGCTGAAGATCTTTGCCGGTCAGGATCAGTACATTGCCGCCAAGGATATTCTCAAGGAATTTCAGGAGTATTTCCCAAGCGTCAGTTTTGATACGGTCTACAGGAACCTTTATATGCTGACGGAGGTTGATATTCTGGAGTCGACTGAACTGGGGGGCGAAAAGCATTTCCGCCTCAGCTGTGATACAGACGGACATCACCACCATTTTATCTGCACAGACTGTGGAAAAACGAAATCGATCGCCTTCTGCCCGATGGAAAAGGTGAATGAGAATCTGAAAGGCTATGATATTGAAAACCATAAGTTTGAGATCTATGGCAAATGTCCCCAGTGTCATTGA	MNVETALQRLKEKGYKRTKQRERMLKIFAGQDQYIAAKDILKEFQEYFPSVSFDTVYRNLYMLTEVDILESTELGGEKHFRLSCDTDGHHHHFICTDCGKTKSIAFCPMEKVNENLKGYDIENHKFEIYGKCPQCH	PGPT0004295_392	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004295-zurR|zur-K02076	NA	NA
AK012_02582	858	znuB	COG1108	High-affinity zinc uptake system membrane protein ZnuB	GTGCTGGAAAGTTTTATACAATTTGAATTTTTACAGAACGCGGCGATAACAGGACTGTTGATCGGCATTGTTGCTCCTCTGCTTGGAGTGTTTATTGTTGTGCGACGGTTATCATTGATCGCTGACGCCTTATCCCATATTACATTGACAGGGATTGCGGCCAGTCTGCTCTTGGAAAAGAGAGTGACGGCCATTAACGACTGGAACCCGGTTTATATGGGCATGGCGTTTTCTGTAGCGGGTGCTGTTTTAATTGAACGGCTGAGAAAAGTATATAAACACTACGAGGAACTGGCTATTCCGATTATCTTATCCGGAGGGATCGGACTTGGTGTGATCTTGATATCCCTGGCTGACGGATTTAATACGGACTTGTTCAGCTACCTGTTCGGTAGTGTTACAGCGGTAAGCCGCGATAGTATGTGGACGGTATTGTTTGTAACGGTAATTGTTATTCTGATTGTCATTTTCTTTTATAAGGAACTATTCGTTCTATCCTTTGATGAGGAACATGCGTCGGTATCCGGAGTGAACGGACGCTGGATTCATTTATTATTTATCGTGATGGTTGCGCTGGTAATTGCTTCTGCCATGCAGGTGGTCGGTATTCTGCTCGTATCAGCACTGATGACGCTGCCTGTGGCTTCTGCACTCCGGATAGCCACCAGCTTTAAGCAGACGATCGGCCTTTCCATCGCATTCGGGGAAGTATCTGTTATGGTGGGATTGTTTTCTTCCTACCATCTAAGCGTACCGCCGGGTGGAACGATTGTTGTTATGGCCATTTTGATTCTGGTAATGTCTATTATTTATAAAAATGTTAGAAACCAGCAATGGATAAAGGGTGAGGCTTCATGA	MLESFIQFEFLQNAAITGLLIGIVAPLLGVFIVVRRLSLIADALSHITLTGIAASLLLEKRVTAINDWNPVYMGMAFSVAGAVLIERLRKVYKHYEELAIPIILSGGIGLGVILISLADGFNTDLFSYLFGSVTAVSRDSMWTVLFVTVIVILIVIFFYKELFVLSFDEEHASVSGVNGRWIHLLFIVMVALVIASAMQVVGILLVSALMTLPVASALRIATSFKQTIGLSIAFGEVSVMVGLFSSYHLSVPPGGTIVVMAILILVMSIIYKNVRNQQWIKGEAS	PGPT0004225_734	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004225-znuB-K09816	NA	NA
AK012_02583	765	znuC	COG1121	High-affinity zinc uptake system ATP-binding protein ZnuC	ATGAGTGAACAAACCATTGTAAAATTCGACAATGTTTCCTTTAAATACGAAAGAGAAATCGTCGTTCAGGATGTTGACCTTGAAATTAAGTCAGGTCAGTTCCTTGGCCTTGTCGGCCCTAACGGATCAGGGAAGTCGACACTCATCAAGCTGATGCTCGGCCTTGAAAAACCGGATAAGGGAAGGATTCAGCTGTTCGGCAAGCCTTTGAAACAGTATAAGGACTGGCAGGAAATCGGTTTTGTCTCCCAGAAGGCGAACAGTTTCAACTCCGGATTTCCGGCGACGGTTCTGGAGGTTGTGAAAACCGGGCTCGTATCAAGAATAGGGACATTTAAATTTTTTAATAAGAGACATAAAGAGAAAGCGATGGACGCCCTGCGGACAGTAGAAATGGAAGAATACGCCCATACCGGTATCGGTGACCTTTCCGGAGGCCAGCAGCAGCGGGTGTTCATAGCCAGGGCTCTGGTCAGTGATCCGTCACTGATGATTCTGGACGAGCCGACCGTCGGGGTCGATGCCAAGCATGTCACTGAATTTTATGATCTGCTCGGTAAATTGAACAAGGAGCGGGGGATTACGCTGCTTATGGTTACCCATGATATTGGGACGATTACGGACCACGCCACCCATGTGGTCTGCATGAACAAGACGGTCCATTTCCATGGACAGTCGGAGGAATACAAGGAATTCAGTGAAGAGGATTTGAATCAGCTTTACGGATACGCCGTTCAGCAGCTGACTCATAATCACAGTCACTAA	MSEQTIVKFDNVSFKYEREIVVQDVDLEIKSGQFLGLVGPNGSGKSTLIKLMLGLEKPDKGRIQLFGKPLKQYKDWQEIGFVSQKANSFNSGFPATVLEVVKTGLVSRIGTFKFFNKRHKEKAMDALRTVEMEEYAHTGIGDLSGGQQQRVFIARALVSDPSLMILDEPTVGVDAKHVTEFYDLLGKLNKERGITLLMVTHDIGTITDHATHVVCMNKTVHFHGQSEEYKEFSEEDLNQLYGYAVQQLTHNHSH	PGPT0004230_804	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZNU_TRANSPORT_SYSTEM,PGPT0004230-znuC-K09817	NA	NA
AK012_02584	759	yecS	COG0765	L-cystine transport system permease protein YecS	ATGCTTCGAAGGAACCGGAAGAGGACATCCGCGAAATCGAAGGCCTGGATTTATAAGGGTTATGAAATGTTTGGCATTGAAATAAACGAAATACAAGTCGAGAAACTCTTTAATGCAGAGCGGGCCTGGTCCAACCTTCCTTTTATCCTGGAAGGTGTGCCTCTTACTTTATTTGTAGCAGTCATTGGGATGGCCATCGGTCTCATTCTCGGTTTTTTCCTGGCTCTGGCTCGTGGCTCCAGCCATATCTGGCTCCGGTGGCCGGCGAGATTTTACATTTCCTTCATGAGAGGAACGCCGATTCTTGTTTATTTGTTTGTTCTCTACTTCGGGCTTCCTGTCGTAGGGTTGAAACTGCCGGCCACGACGGCAGCGATCATCGGTTTTGGAACGAACAGCGCCGCCTATATTGCTGAAATCAACCGAGCCTCCTTGAACAGTGTTTCCAATGGACAGTGGGAATCTGCGCGTGCTTTAGGATTTACGTACTGGCAGACGATTCGGAGGATTATTATGCCGCAGGCGACGAGAATCGCTATTCCGCCATTAGGAAACGTGTTTCTTGATCTGTTAAAGGCAACCTCTCTGGCTGCCATGATTTCTGTACCTGAAATTTTGAACAAAGCGCAGATCGCAGCAGGCCGGACGGTGGATTCGATGACGATGTATATTACTGCGGCATTGATCTACTGGCCGCTGACGATGATTTTCTCAGCGCTTCAGGATTATCTGGAGAGAAGAAACAATCGGTATTTATAA	MLRRNRKRTSAKSKAWIYKGYEMFGIEINEIQVEKLFNAERAWSNLPFILEGVPLTLFVAVIGMAIGLILGFFLALARGSSHIWLRWPARFYISFMRGTPILVYLFVLYFGLPVVGLKLPATTAAIIGFGTNSAAYIAEINRASLNSVSNGQWESARALGFTYWQTIRRIIMPQATRIAIPPLGNVFLDLLKATSLAAMISVPEILNKAQIAAGRTVDSMTMYITAALIYWPLTMIFSALQDYLERRNNRYL	PGPT0020715_455	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
AK012_02585	882	yckB	COG0834	putative ABC transporter extracellular-binding protein YckB	ATGCGCAAAGCTTTTATACTTATAAGCCTGTTACTGTTGGCTGTTTTTGTGGCTGCTTGTGGATCAAGTGAAGACACAGGAGACAGTGGTTCAAATAATGAAAGCGAAGAAGCTTCTGACAGCAAGTGGAATGAAATACAGGAAGAAGGAGAAATTGTCGTTGGGACATCCGGTACACTTTTCCCGGCTTCCTACTACCCGGAAGGCTCCGATGAAATGACCGGGTATGATGTGGAAATCATGCGGGAAGTCGCCGACCGTCTCGGCCTTGAACTGAAATTCGAGGAGTATGGTGTGGACGGTCTGCTGTCTGCGATTAACAGTGGCCGGATCGATGCGGTTATTAATGATATGGAAGTCACGAAGGAGCGCCAAAAACAATTTGCGTTCAGTGAACCTTATAAATACTCCTATTCCACGATGATTGTGCGGGAATCTGATTTGTCCGGCATTGAGAAACTGGAGGACCTTGAAGGCAAGACTCATGGTGGTGGAGCGACAACGGTATTCTCCCAAATTGCAGAACATTTCGGTGCGGAGACGAAAACATACGGAAATGTCACCAACGATGTCTACCTTCGTGATGTGGAGAATGGAAACACAGACTTCATTATCAATGATTACTATCTACAGTCCCTGGCCCTGCAGGCTTTAACAGATATTGAAGTTCAGCTTCATCCCGATTTGAAATTCCATCCAACGAACTCAGCCATTGTTATGCCGAAAGAAGCAGAAACAATGAAAGAGGAAATTGATGCCGTACTGGCTGAAATGAAGGAAGATGGAACATTAACGAAACTGTCCGAAGAATTCTTCGGCGGCCAGGATGCTTCGAAGGAACCGGAAGAGGACATCCGCGAAATCGAAGGCCTGGATTTATAA	MRKAFILISLLLLAVFVAACGSSEDTGDSGSNNESEEASDSKWNEIQEEGEIVVGTSGTLFPASYYPEGSDEMTGYDVEIMREVADRLGLELKFEEYGVDGLLSAINSGRIDAVINDMEVTKERQKQFAFSEPYKYSYSTMIVRESDLSGIEKLEDLEGKTHGGGATTVFSQIAEHFGAETKTYGNVTNDVYLRDVENGNTDFIINDYYLQSLALQALTDIEVQLHPDLKFHPTNSAIVMPKEAETMKEEIDAVLAEMKEDGTLTKLSEEFFGGQDASKEPEEDIREIEGLDL	PGPT0015635_122	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
AK012_02586	1917	zosA	COG2217	Zinc-transporting ATPase	GTGAATGAAACCCGTTCCTATCCATATTCTAAATCCTGGAATAAGCCGGAATTTCTTACTTATATCAAAGAACACGGAGAACTGATCGCCGCCCTTTTCAGTGGTGTCCTTCTCCTCTTTGCCTGGATAGGGGAAAACTACTGGTCCCCTCCCGTTTATATCACCCTTTACCTTTCTGCTTTTATCATCGGTGGATTTGCCAAAGCGAAGGAGGGGTTGGAAGAAACCTTAGAGGACCGCTCATTGAATGTGGAACTGCTGATGATCCTTGCTGCCATCGGATCGGCTGCCATCGGCTACTGGACTGAAGGAGCCATCCTGATTTTCATCTTTTCATTAAGCGGGGCTATGGAAACCTATACCATGAACAAAAGCCACAAGGAGATCTCCTCCCTTATGAACCTGCAGCCTGAGCAGGCCCTGCTCGTAACAGGAAGTCACCAGCAGTGGGTGCCCGTAGAAAAATTAAAGGTCGGTGATTTCATTCGTGTGAAGCCTGGTGAACGCGTCCCCGCTGACGGAGTGATCACAGAAGGTGCATCAAGTTTGGATGAAAGTACGATTACAGGAGAATCCATGCCGGCTGCCAAAGGGCTGGAGAACGAGGTCTTTGCGGGAACTATGAATATCGATGGCAGTCTGCTTGTAGAAGTGACAAAAGAATCAAAAGAAACGTTGTTTCAAAAAATCATCACCATGGTTCAGAACGCCCAAAGCGAAAAATCGCCCTCCCAGCTGTTTATCGAACGTTTTGAAAGTACGTATGTTAAAGCGGTGCTGGGTGCGGTAGCTGTCATGATGTTTCTCCCTCACTTCGTACTGGGATGGACCTGGATGGAAACCTTATACAGAGCGATGATTCTGCTCGTTGTAGCCTCTCCGTGTGCCCTTGTCGCTTCCATTATGCCGGCCACCCTTTCAGCCATTACCAACGGGGCGCGCCAGGGCATCTTGTTTAAAGGCGGGGTACACCTTGAACATTTGTCTTCCATCAAGGCCTTTGCTTTTGATAAAACCGGAACACTCACAAAAGGACAGCCGGTAGTGACGGATTTCATTGCCTCTGACAAAGGGTCAGCCGATGATATCTTATCAGCGGCCGCATCCATTGAACAGCAGTCCAACCACCCTCTCGCAGAAGCAGTTGTGAAGTATGCGGAGGGAGAGAACATGTCTTTTGTAAACGTTGAGGAAGTAAAAAACCACAGTGGAAACGGGGTAAGCGGGTGGTATAAGGGCGAAGAATGGATGATTGGAAAAGCTGACTTCATCGGCCGCGACCAATGCTCCCATTTTGAGGACGGTGTGTTTTCCACACTGGCTTCCGAAGGAAAGACTGTCATTTTTGTAAAAAGAAACGGCGTCGTCACTGCACTCCTTGCCCTGAAAGATACAGTGAGAGAGGATACGAAGCGGGCCGTACAGACTCTGAAAAATCAAGGGATTTATACGATTATGCTGACCGGGGATAATGATGCCACCGCTGAAGCCATTGCTCGTGAAGCTGATCTTGACCAATACATTTCCGAGTGTCTCCCCGATCAGAAGCAGGAGGAAATCAAGCAGTTGAAGGAGCATTTCCCACACGTCGCCATGGTCGGAGACGGAATCAATGACGCACCTGCTCTCGCGGAAGCTGATGTCGGAGTTGCTATGGGGGAAGGAACCGACGTCGCTCTTGAGACAGCCGATGTCGTCCTTATGAAAAATGATCTTCCGAAAATCGCCCATGCCATGGAGCTCTCAAAACGCATGAACCGGATCATCAAACAGAATGTGATTTTTTCAATCACAGTCATTATGCTTTTGATCATGAGTAACTTTCTTCAGGTGCTGGACCTGCCGCTTGGGGTCATCGGACATGAAGGGAGCACAATTCTCGTCATCCTGAACGGACTGCGTTTATTGAAAAACTAA	MNETRSYPYSKSWNKPEFLTYIKEHGELIAALFSGVLLLFAWIGENYWSPPVYITLYLSAFIIGGFAKAKEGLEETLEDRSLNVELLMILAAIGSAAIGYWTEGAILIFIFSLSGAMETYTMNKSHKEISSLMNLQPEQALLVTGSHQQWVPVEKLKVGDFIRVKPGERVPADGVITEGASSLDESTITGESMPAAKGLENEVFAGTMNIDGSLLVEVTKESKETLFQKIITMVQNAQSEKSPSQLFIERFESTYVKAVLGAVAVMMFLPHFVLGWTWMETLYRAMILLVVASPCALVASIMPATLSAITNGARQGILFKGGVHLEHLSSIKAFAFDKTGTLTKGQPVVTDFIASDKGSADDILSAAASIEQQSNHPLAEAVVKYAEGENMSFVNVEEVKNHSGNGVSGWYKGEEWMIGKADFIGRDQCSHFEDGVFSTLASEGKTVIFVKRNGVVTALLALKDTVREDTKRAVQTLKNQGIYTIMLTGDNDATAEAIAREADLDQYISECLPDQKQEEIKQLKEHFPHVAMVGDGINDAPALAEADVGVAMGEGTDVALETADVVLMKNDLPKIAHAMELSKRMNRIIKQNVIFSITVIMLLIMSNFLQVLDLPLGVIGHEGSTILVILNGLRLLKN	PGPT0004200_3736	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_LEAD_RESISTANCE	LEAD_RESISTANCE-PBR_TRANSPORT_SYSTEM,PGPT0004200-zntA|cadA-K01534	NA	NA
AK012_02587	831			hypothetical protein	ATGAAAGTCATCAAGAATTTCTTCCGGGAGCTCTTCACCCGGTTTGGGGAGGATGATGTAGGCGGGATGGCTGCCCAGCTGGCCTACTTCTTTTTGTTATCATTATTTCCGTTTATGATATTCCTGCTCACGCTTTTAGGGTATCTACATATTGATGAAGAGCGTATCCTTACTTTCGTAAGTGCATATGCTCCGGCAGATACGTTTGATATGATCACAGAAAATGTGACCTCGCTTTTCTCAGATGAAAATGGAAGCCTCTTGTCCATTGGACTTGCAGGTACGCTGTGGGCAGCCTCGAATGGGGTCAATGCCATTATGCGTGCCTTTAACAGAGCTCACAGCGTGAAGGAAAGTCGTTCCTTTATCGTTTCAAGGATGCTGGCTATCGTTTTAACCATCGCTATGGTGATCGTCATTGCCATTGCTTTTCTTCTGCCGGTGGCGGGTCAGGCGATCGGTGTTTATTTGTTTTCTTATTTCGGCTTATCCGAAAGCTTTATCGGGTTATGGAATGGACTGCGCTGGGTCATTTCTTCGATCATTTTTTATGTCGTCCTTTCTTTCCTTTATGTAACGGCCCCGAATAAGCGGTTGAAATACAGGGATACGGTAGGAGGGGCTGTTTTTGCTACGATCAGCTGGCAGCTTGTTTCTCTGCTGTTCTCCTTTTATGTGAGCAATCTGGGGAATTTCTCTGCGATGTATGGCAGCCTTGGCGGGGTGATTGTCCTGATGATCTGGCTTTATCTTTCAGGAATTGTGATCATTCTCGGCGGTGAGATCAATGCCATGGCCTACCACCGCAGGACCGAGGATACGTGGGGATGA	MKVIKNFFRELFTRFGEDDVGGMAAQLAYFFLLSLFPFMIFLLTLLGYLHIDEERILTFVSAYAPADTFDMITENVTSLFSDENGSLLSIGLAGTLWAASNGVNAIMRAFNRAHSVKESRSFIVSRMLAIVLTIAMVIVIAIAFLLPVAGQAIGVYLFSYFGLSESFIGLWNGLRWVISSIIFYVVLSFLYVTAPNKRLKYRDTVGGAVFATISWQLVSLLFSFYVSNLGNFSAMYGSLGGVIVLMIWLYLSGIVIILGGEINAMAYHRRTEDTWG	PGPT0014525_6670	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014525-yfkH-K07058	NA	NA
AK012_02588	327			hypothetical protein	ATGGGACAGACATTATGGAAGGGAATTCTGATCGGCGCTGCTGCAGGTGCTGCAGCAGCCCTGATTGATAAAGATACACGCACAATGGTGGGGCGGAAATCGAAAGCGGCTGGTTCCAAATGCCGTGAAATTGCTGCGAGTCCGTCAGAAGCTGTTCATTCTCTGCGCCTGAGCTACGAGTCGTTTTCCAAACAGCTGAATAAAGGAGTCGAAGATCTTCTTGAATTATTAGACAAGGCGGAGAGTATGCTAAACAAAGTAGGAGAAATCAATCAGGAGGTCAAAGACCAGCTAAGAGCTGCGGATAATTCCGACAACGCTTCCTGA	MGQTLWKGILIGAAAGAAAALIDKDTRTMVGRKSKAAGSKCREIAASPSEAVHSLRLSYESFSKQLNKGVEDLLELLDKAESMLNKVGEINQEVKDQLRAADNSDNAS				NA	NA	NA	NA	NA
AK012_02589	468	yfkJ	COG0394	Low molecular weight protein-tyrosine-phosphatase YfkJ	ATGATACGAGTTTTATTTGTTTGTCTCGGCAACATCTGCCGGTCGCCGATGGCTGAAGCTGTCTTCAGGAATCTGGTGGAAAAAGAAAACCTCAGCGGTCGGATATCTGTGGATTCCGCAGGGACCGGTCACTGGCATACAGGTTCCCAGCCTCATGAAGGAACACGGGAGATTTTAGATAAGAACGATGTGACTTATGAAGGCATGACCGCGCGTCAGGTCAGGGAGACGGACTGGGATGAGTTCGACTACCTTGTAGCCATGGACCAGAAAAATCTTCAGGATCTTCACAGCATCCGGCAGAAAGATGGAGTCACTGTGACCAAGCTGATGGACTATCTTCCGCAGTTGGATGTGGATGAAGTGCCCGACCCTTACTACACAGGGAATTTTGATTACGTTTATGACCTTGTCCAGCAGGGATGTGCCGAACTGCTGGCCTCGATAAAAAAAGAATATAAACTTTGA	MIRVLFVCLGNICRSPMAEAVFRNLVEKENLSGRISVDSAGTGHWHTGSQPHEGTREILDKNDVTYEGMTARQVRETDWDEFDYLVAMDQKNLQDLHSIRQKDGVTVTKLMDYLPQLDVDEVPDPYYTGNFDYVYDLVQQGCAELLASIKKEYKL	PGPT0014530_6303	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
AK012_02590	1392	alsT_3	COG1115	Amino-acid carrier protein AlsT	ATGGGAGAACAGAGTGCACTTCATAGTTTTTTAAGTGAACTGAGTGGTCTGGTCTGGGGCCCCGTCCTGCTGGTTCTGCTGGTAGGGACAGGGGTTTACTTGACTTTACGCCTCGGTTTTCTCCAGTTTAAAACACTGCCTTATGCACTGAGGCTCGCTTTTAAACCGGACAAAAAGAAAAAGCCGGGTGAAAAAGGGGATATTTCCCATTATCAGGCTTTGACGACCGCGCTTGCGGCAACGATCGGTACCGGAAACATCGCCGGGGTGGCGACAGCCGTCGTGCTTGGCGGACCGGGAGCCGTTTTCTGGATGTGGATTACAGCGGTCTTCGGAATGGCGACGAAATATGCAGAAGCCGTTCTTGCCGTCAAATATCGAATTGAAGGAAAAGACGGACAGATGTCCGGCGGACCCATGTACTATCTGTCCCGCGGCTTAAGAACCAAATGGCTCGGGAAACCGCTCGGCATGTTATTTGCCCTCTTCGGGGCCGTCGCTGCATTTGGAATCGGAAATATGGTGCAGTCCAACTCCGTTTCAGACGTTGTTGAGGGGACCTTCAACATCTCTCCATGGGTGACGGGAATTGTACTGACGCTTCTTGCGGGACTGGTTCTCCTCGGGGGAATCAAGAGTATTGGGCGTGTGACAGCCTTGTTCGTTCCAGTTATGGCCGTTTTTTATGTAATTGGGGCCTTAATTATTCTTGCGCTTAATGCCGATTTGATCCTGCCGGCCTTTGGGACCATCTTTTCGGATGCCTTTACAGCTAATGCCGTAGGCGGCGGTATTCTCGGAAGCGTGATTCGTTACGGGGTTGCCCGGGGCGTATTCTCCAACGAAGCCGGACTTGGATCCGCACCCATTGCAGCCGCTGCAGCAAGAACCGACTATGCCGGACGTCAGGCTCTTGTATCCATGACACAGGTCTTTATCGACACGATTATCGTCTGTACATTGACTGGGTTAACCATAGTCATGGCCGGACAGTACCAGGGCGGACTTGACGGAGCAGACCTGACCTCTGCCTCCTTTGAGCTGTTTTTAGGTGAATTCGGCTCCTACATCGTCACCATCGGCTTGATTTTCTTCGCTTTCTCCACCATTGTAGGCTGGTCCTATTATGGCGAGAAGTGTTTCGGTTATTTAACAAACCAACGCTTTATCGGCTTATACAAAATCGTCTTTGTAGCCTTTGTCCTTGTCGGGGCTGTTTCACAGCTGAGCACAGTCTGGGTGTTCGCTGATGTGATGAACGGGTTAATGGCCTTCCCGAACTTGATCGGCCTGCTCCTGTTATCCGGAGTCGTAGCGGCCGAAACAAACAAGTTCCTGAAAGTAGCCAAGCAGGAAAAACAACAGGAAAAAGAACAGCGGCAGGTTGGATAA	MGEQSALHSFLSELSGLVWGPVLLVLLVGTGVYLTLRLGFLQFKTLPYALRLAFKPDKKKKPGEKGDISHYQALTTALAATIGTGNIAGVATAVVLGGPGAVFWMWITAVFGMATKYAEAVLAVKYRIEGKDGQMSGGPMYYLSRGLRTKWLGKPLGMLFALFGAVAAFGIGNMVQSNSVSDVVEGTFNISPWVTGIVLTLLAGLVLLGGIKSIGRVTALFVPVMAVFYVIGALIILALNADLILPAFGTIFSDAFTANAVGGGILGSVIRYGVARGVFSNEAGLGSAPIAAAAARTDYAGRQALVSMTQVFIDTIIVCTLTGLTIVMAGQYQGGLDGADLTSASFELFLGEFGSYIVTIGLIFFAFSTIVGWSYYGEKCFGYLTNQRFIGLYKIVFVAFVLVGAVSQLSTVWVFADVMNGLMAFPNLIGLLLLSGVVAAETNKFLKVAKQEKQQEKEQRQVG	PGPT0014405_3836	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
AK012_02591	666	yedK	COG2135	SOS response-associated protein YedK	ATGTGTGGAAGGTACACGCTGTTAGCTGAAGAAGCGGAGATTCTGAGAGAGTTTGGGATTTCCCAGTCCATTGACGGGTACGAGCCGAGATTTAATATTGCCCCGGGCCAGCAGGTGCTGGCTGTAATTCATGACGGGAAAGAAAAACGCGCCGGTTATATGAAATGGGGGCTCGTTCCCTCCTGGGCGAAAGATCCTAAAATCGGCTATAAGATGATTAACGCCAGAAGTGAAACCGCTCATGAGAAACCAAGTTATAGAAAACTGATGAGCAGAAAGCGCTGCTTGATTGCCGCGGATAGTTTTTATGAATGGAAACAAACAGAAAGTGGGAAGCAGCCGATGCGGATCCAAACGGAGAACAGGCCTTTGTTTGCTTTTGCCGGCTTATGGGACCAGTGGAAAGGGGACGATGCTCCATTGTATACGTGTACGATACTTACAAGGGAAGCCAATGAGGATGTGGCTCCAGTTCATGATCGTATGCCTGTCATCCTTCCTCGGGATCGTCAGGATGGCTGGATCACACCCATACAGTGGGAAGCCCGGCAGGCCAAGGATTACCTGGACGAGCTGACGATGGATGATCTTACGATGTATGAAGTCAGTTCACATGTGAATTCAGCCAAAAATGAAGATGAAGCGTGCATCCGGCCGCTGGCATAA	MCGRYTLLAEEAEILREFGISQSIDGYEPRFNIAPGQQVLAVIHDGKEKRAGYMKWGLVPSWAKDPKIGYKMINARSETAHEKPSYRKLMSRKRCLIAADSFYEWKQTESGKQPMRIQTENRPLFAFAGLWDQWKGDDAPLYTCTILTREANEDVAPVHDRMPVILPRDRQDGWITPIQWEARQAKDYLDELTMDDLTMYEVSSHVNSAKNEDEACIRPLA				NA	NA	NA	NA	NA
AK012_02592	660			hypothetical protein	ATGAATGATTTGAAAGATATGATGAGAGCCTTGGAGCAGGAGGATGGAGAGGAAAAAAAGCTGACTCCCAAACAAGCGCAGATTCTCAAGGCCGCTGTCGAGATTTTTGCCGAAAAAGGGTATGCTTCTTCATCGACGAGCGAAATTGCGGCAAGGGCCAACGTAGCCGAGGGCACGATTTTCAGACACTATAAAACCAAGAAAGACCTGCTGATTTCGATTGTAACGCCTTTCATGGCGAAGTTCATGGTTCCTTTTTTTGCCGCCCGATTTACCAGGAGGGTTTTTGATGAACCGCCGGAGGAGTTCAGAAGTCTGCTGAGTACCATTTTAAAGGACAGGTTTGCATTCGCCGCAGAAAATGCACCTCTCTTGAGGATTGTGCTTCAGGAAATGGCTTTTCACCCAGAACTGCAGCAAAGATTTCAGGATGTTTTTATCAAAGACGTATACCCGAAATTTGAAGCTGCGCTGGATCGCCTGAAGCAGGACGGGCAGGTGGTGGACAAACCGAACAGTACCATCATCCGGATGATCATGTCTTCTGTTATGGGGTTTCTCATTACGCGGTTCATCCTTTCTCCAAATCTGGATTGGGATGACGAGCGGGAGATTGAAGAAACAGTGGGTTTCATCATGTACGGTCTCGCAGAAAAATAA	MNDLKDMMRALEQEDGEEKKLTPKQAQILKAAVEIFAEKGYASSSTSEIAARANVAEGTIFRHYKTKKDLLISIVTPFMAKFMVPFFAARFTRRVFDEPPEEFRSLLSTILKDRFAFAAENAPLLRIVLQEMAFHPELQQRFQDVFIKDVYPKFEAALDRLKQDGQVVDKPNSTIIRMIMSSVMGFLITRFILSPNLDWDDEREIEETVGFIMYGLAEK				NA	NA	NA	NA	NA
AK012_02593	1011			hypothetical protein	ATGAATACAGCAGCTGTTGTAAAACGGATCCTCAACCAGTTCCACCGTGATAAAAGGAGTGTAGCTTTAATGGTTGCTGCACCATTGCTGGTGCTGACTCTTATGTGGCTGGTCCTTGACACAGAGACCTCGGCGGTAAAGCTTGCCGCTGTCGACGTGCCTGCCCAGGTGGTGGAGTCCATAGAAACAGAGGGAATAACAGTTACAGTTATGGATGAAGCGGAGGCTGAAGAGAAACTGAACGAGGCGGAGATCGGGGGGATGCTTCGGTGGGAGGACGGGGCACCTTTTGTAATACTTGAAGGCAGTGACCCAAACACCTCCGGGACCATTAGAAGCACGCTTCAGAAGCAGTTATCGGAGCAGAACGCCTCAATGGAATGGGAATACTGGAACGGTTCCTCTGAGTTAGGCCTGTTTGATTATGTTGGCCCCGCACTGATTGGTTTTTTTGTTTTCTTCTTTGTTTTTATCGTCGGCGGGGTTTCCTTTCTCCGTGAACGGACGCAGGGGACGTTGGAGCGTCTATTGGCATCGCCGGTCCGTCGAAGTGAGATTGTCTTCGGATATTTAGGAGGGTTTGGTTTATTTACCGTTGTCCAGTCCATCATCATTGCTGCTTATTCCATTTATGTTCTGGATGTATTTATGGCAGGGAACTTTTTATATGTTCTACTCGTTACGATCCTGATGGCGTTGACCGCTTTGAGTCTGGGCACCCTCGTATCGACGTTTGCCGGGAATGAGTTTCAAATGATTCAGTTTATCCCGCTGGTTATTGTCCCGCAGGTCTTTTTCTCCGGTTTGTTTCCGACCGAGGGGCTGGCAGAGTGGGTTCAGGTTGTCGGGAATCTGATGCCGCTTACTTATGGTGCAGAAGCGTTGAGGGATATTATGTTAAGAGGATCCTCCTTTGAATCCTTTCAGGTGGAGGTTTATATCCTGCTTGGATTTACCACTCTCTTTACGGTATTGAATATAGCTGCTCTTAAAAAACACCGGCCGCTGTAG	MNTAAVVKRILNQFHRDKRSVALMVAAPLLVLTLMWLVLDTETSAVKLAAVDVPAQVVESIETEGITVTVMDEAEAEEKLNEAEIGGMLRWEDGAPFVILEGSDPNTSGTIRSTLQKQLSEQNASMEWEYWNGSSELGLFDYVGPALIGFFVFFFVFIVGGVSFLRERTQGTLERLLASPVRRSEIVFGYLGGFGLFTVVQSIIIAAYSIYVLDVFMAGNFLYVLLVTILMALTALSLGTLVSTFAGNEFQMIQFIPLVIVPQVFFSGLFPTEGLAEWVQVVGNLMPLTYGAEALRDIMLRGSSFESFQVEVYILLGFTTLFTVLNIAALKKHRPL	PGPT0006730_8553	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK012_02594	726	ybhF	COG1131	putative multidrug ABC transporter ATP-binding protein YbhF	ATGGAAGCTGCTGTGGAAATGAAAGGTATTTCCCATTGGTTTGGAAAAGTGCAGGTCATCCACGATGTAGATCTGAGCGTTGAAAAAGGAGAGATTTTTGGTTTGCTGGGACCTTCCGGATCAGGAAAAACGACGCTGGTTAAAATGATGACCGGACTTCTTCGTCCTTCCAAGGGCGTAGTCAAGTTGAACGGGGAAAAAATGCCGTCCTTGAAACAGTTGAGGCAGTTTGGTTTTATGGCCCAATCGGATGCCCTTTATTCTGAATTAACAGGGAGGGAGAATCTGGATTTTTTCGCTTCCCTGTATGGGATGAGTCGAAAGGATCGACACTTACGGATGGATCATGTCCTGGATATGGTGGATTTAACGGCCTATGCCTCCCGACCTGTAAACACCTACTCCGGCGGTATGAAAAGGCGGCTCTCTCTGGCGGCATCCCTCATCCACGAGCCTGAACTGATTATTCTGGATGAACCGACGGTTGGGATCGACCCCGTCCTCAGACAGTCCATTTGGAACGAGTTGAATAGATTAAGAAACCATGGTGTGACGATTATTGTTACGACACATGTCATGGATGAAGCAGAAAAATGCGGACACCTGGCCCTGCTGCGTGACGGTAGAATGATGGCTGAAGACACCCCGTCCCAGTTAAAATCAAAGCTGGAAGTCTCTTCTATTGAAGAGGTCTTTCTGCATTACGGGGGAGGGGCCAGGGCATGA	MEAAVEMKGISHWFGKVQVIHDVDLSVEKGEIFGLLGPSGSGKTTLVKMMTGLLRPSKGVVKLNGEKMPSLKQLRQFGFMAQSDALYSELTGRENLDFFASLYGMSRKDRHLRMDHVLDMVDLTAYASRPVNTYSGGMKRRLSLAASLIHEPELIILDEPTVGIDPVLRQSIWNELNRLRNHGVTIIVTTHVMDEAEKCGHLALLRDGRMMAEDTPSQLKSKLEVSSIEEVFLHYGGGARA	PGPT0006725_25447	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_02595	372			hypothetical protein	ATGGACTATGCACATCTCGTTGAAGAAAAAATCAAGCAGGCCTTGAAGGATGGGGATTTTGACCACCTGCCCGGCCGCGGTAAACCTCTCCCCAAGGATGAATTCGCTCATTTGCCGGAGGAAGTGAGGAACAGCTACCGGATCTTAAAGAATGCCAACATGCTCCCGGAGGAAATGGTGTTGAAAAAGGAAATCAGCGAGCTTGAGGATATCCTTGCTGAAGTCAAAGACCCACAGTTATCGGCGCATTATAAAAAAAGGATCACGGAAAAACAACTGCGTTTCGATATCCTTATGGAAAAACGAAAGGGGAGCGGATCACCCGCTTTTCAACAATATCAGCGAAAAATCGACAACAAACTTGGGTTTTGA	MDYAHLVEEKIKQALKDGDFDHLPGRGKPLPKDEFAHLPEEVRNSYRILKNANMLPEEMVLKKEISELEDILAEVKDPQLSAHYKKRITEKQLRFDILMEKRKGSGSPAFQQYQRKIDNKLGF				NA	NA	NA	NA	NA
AK012_02596	468	guaD	COG0590	Guanine deaminase	ATGAATTCGTTTTCCAAACGTGCCCTGGAACTTGCCTGTGAAAATGTAAAGGAAGGCGGGCATCCCTTTGGAGCTGTCCTTGTCTCAGCTGGAGACGTCATCGCCGAAGGCGTAAATGAACTGCACAAACATCCTGATGTGAGTGGTCATGCTGAAATGCTTGCGATCAGACGGGCCCAGCAGAAGAGAGGAACAGTCGATTTAAGTGACTGTGTCCTTTATGCCAGTGGTGAACCCTGCTCCATGTGTCTGACTGCCATTTATTTCTCCGGCATTCAGACCGTCGTTTATTCTCAGTCTGTGGAGGAAGCGGCAGAGGTGGGGCTTCGTCTTTCCGGTGAGGTTTATGACCAGATTGCCCGGCCGAAGGAATCGCGGAGAATCACCTATGAATACGAGCCGGTAGAGAATGAAAGCCATAATGCGATGCTTCTTTATGCAGAAAAATCAGCAGAACAGGAGCGTTAA	MNSFSKRALELACENVKEGGHPFGAVLVSAGDVIAEGVNELHKHPDVSGHAEMLAIRRAQQKRGTVDLSDCVLYASGEPCSMCLTAIYFSGIQTVVYSQSVEEAAEVGLRLSGEVYDQIARPKESRRITYEYEPVENESHNAMLLYAEKSAEQER	PGPT0021515_2691	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021515-guaD-K01487	NA	NA
AK012_02597	636	yiiM	COG2258	Protein YiiM	ATGAAATATAAGCTGTTGTCGTTGAATGTCGGACAGCCGGAAACGTATGAAACCGAAAAAGGTGAGTTGAAGAGCGCGTACCGAAAGAAACCGGTGTCTACTCCTGCTTTTTTATCGTATTTGAATGTTGAGGGAGACGAGCAGGCTGATAAGAAGAATCACGGAGGCAGAGATAAAGCCGTCTGTCTTTATCCTGCCCAGCATTACCGGCATTGGGAAGAGCACTATGGTCAGTCATTTGCTTTTCCTTCCTTTGGAGAAAATATAACGGTCGAAGGCGTCTCAGAGAAAGACGTTCATATCGGGGATATTTTCCAGCTGGGAGAAGCTTTGCTGCAAATTTCTGAGCCCCGAAAGCCTTGTTACATCATTGCCCGGACCCATGGGATTGATGATTTCCCTGCTCAGGTCATGAAAAAAGGGTTTACCGGCTTTTATCTGAGGGTTTTGAAAGAAGGGAGGATCCAGGCCGGAGATTACTTCAGCCTGGTTGAATCTCACCCTGCTGGAGTGTCGGTGGATGAAGTGAACCAGCTCCGCTACCACGATAAGGATAACAAGGAGCTTCTTGAGAAAGTCCTGCGTCTGGAGCCTCTGGCAGAAGGGTTGAAAAAGACCTTGAAAAAACGTTTGTAG	MKYKLLSLNVGQPETYETEKGELKSAYRKKPVSTPAFLSYLNVEGDEQADKKNHGGRDKAVCLYPAQHYRHWEEHYGQSFAFPSFGENITVEGVSEKDVHIGDIFQLGEALLQISEPRKPCYIIARTHGIDDFPAQVMKKGFTGFYLRVLKEGRIQAGDYFSLVESHPAGVSVDEVNQLRYHDKDNKELLEKVLRLEPLAEGLKKTLKKRL				NA	NA	NA	NA	NA
AK012_02598	744			hypothetical protein	ATGAGATTTTTGAAGCATGAAGAAATTATTAAAAAGTCCGAGCGTATCAATCAATCGTATGAGGTGGATCCGGGATTTTTTGACCAGATTGTCGATGATCTGCTTGATAGTGAAAAAGAAACAGAATCTGTAATTCTGGAAGGCTTTGAGCGGCTTTTGTCGGAAGTGGATCAAGAAATTGAGCGCATGGAGGATTTCGCTTCCATGAAACCGAATTGTTTTATGGGGTGTGCATTCTGCTGTTATTTTCCAATTGTCATTACAAAATTAGAGGCGAAACTGCTTTTCAGGTCGATTGAGCAGTTTTCCGAAGACCGCAGGGAGAAAATCTTCAGGCACTGGGATACGTATTTTCCTGCACAGGAGAAAAAACTTCAGGAGGCTCTTTCTATGGATTATGAGGACCCGGATACGAAGCTGGCCTATAAGCGTTTGAATCTTCCCTGCCCGATGCTTGATCCGGAAACACAGCTCTGCATGGCTTATGAAGTACGTCCGATTCCCTGCCGTACGTACTTGAATTACAGCGATCCTCAGGTGTGTGCGGATCATGACATGCCAAAAGAACCGTTCAGTTATGAATTTTTATATTCCTTTTATTTCAGCAGTATCAATGAGCTCATTCAGGCGCTTTATGAGAACGGGGAAGATGTATTTGTAGACTACCCGATGGATGCCTGGCAGTATGATTACCTGCCCGCCTGGATCCAAAAATACAGGGAAGGGGAGTTATATGAAATATAA	MRFLKHEEIIKKSERINQSYEVDPGFFDQIVDDLLDSEKETESVILEGFERLLSEVDQEIERMEDFASMKPNCFMGCAFCCYFPIVITKLEAKLLFRSIEQFSEDRREKIFRHWDTYFPAQEKKLQEALSMDYEDPDTKLAYKRLNLPCPMLDPETQLCMAYEVRPIPCRTYLNYSDPQVCADHDMPKEPFSYEFLYSFYFSSINELIQALYENGEDVFVDYPMDAWQYDYLPAWIQKYREGELYEI				NA	NA	NA	NA	NA
AK012_02599	1008	mreBH	COG1077	Cell shape-determining protein MreBH	ATGTTATCAAACGCTGAAATCGGTATCGACCTCGGTACTGCAAACATACTTATCTATTCCAAGTCTAAAGGAATTCTGCTGAACGAGCCATCTGTTGTTGCTTACAACACCGAAACCAAAAACGTCGTTGCTGTCGGAAAAGAAGCTAAAGAAATGGTAGGAAAGACCCCTCGGAACATCATCCCCGTCCGTCCGCTCCGCGATGGTGTTATTGCCGACTATGACATGACAGCACAAATGTTGAAAGAGCTGTTGAAAAAAGTTTCCAAAAAATCAGGGCTGTCCATGCGTAAACCGACCGTTGTGATCTGCACACCTTCCGGATCCACGTCTGTTGAACGCCGCGCTATTCACAACGCTGTCAAAAGCTACGGCGCAAAGCACGTACACTTGATCGAAGAGCCTATCGCTGCTGCGATCGGAGCTGACCTTCCTGTGGATGAACCGATTGCAAACGTTGTCGTGGATATCGGAGGTGGAACAAGTGAAGTCGCGATTATCTCCTTCGGCGGCGTCGTTTCCTGCAAATCCATCCGGACAGGTGGAGATGTTATGGATGAGGAAATCATTCAATACGTACGCAAAGCCTACAATGTACTTATTGGCGAACGGACCGCAGAGCAAATCAAAATGGAAATCGGGTATGCTTTGATCGACCACCCGGAAGAAACGATGGAAGTCCGCGGCCGCGATATGGTCACAGGCCTGCCTAAGACCATCGAACTAAAATCCACCGAAATCCAGCAGGCCTTGAAGGAATCACTCGATCAGCTTCTGGAAACCATCCGCGCGACACTGGAAGAGTGCCCGCCGGAATTGAGCGGAGACATTGTGGACCATGGTGTCATCCTTACAGGAGGCGGCTCTCTTCTCAACGGCATGCAGGAGTGGCTGTCCGACGAAATTTCCGTTCCGGTCCATATGGCTCCGAGCCCGCTCGAATCCGTAGCCATCGGAACCGGCCGCTCCCTCAAAATGATCCAGAAACTACAAAAAGCCAGTAAGTAA	MLSNAEIGIDLGTANILIYSKSKGILLNEPSVVAYNTETKNVVAVGKEAKEMVGKTPRNIIPVRPLRDGVIADYDMTAQMLKELLKKVSKKSGLSMRKPTVVICTPSGSTSVERRAIHNAVKSYGAKHVHLIEEPIAAAIGADLPVDEPIANVVVDIGGGTSEVAIISFGGVVSCKSIRTGGDVMDEEIIQYVRKAYNVLIGERTAEQIKMEIGYALIDHPEETMEVRGRDMVTGLPKTIELKSTEIQQALKESLDQLLETIRATLEECPPELSGDIVDHGVILTGGGSLLNGMQEWLSDEISVPVHMAPSPLESVAIGTGRSLKMIQKLQKASK	PGPT0027700_3513	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
AK012_02600	306			hypothetical protein	ATGAAACTATCAACGCTATTCAAATGGGTGACCGGAGGATGTGAAGCTCTGCTTGCCATTCCCTTCATCGGGGGGTTATTTGTCGTGGGAAGCGGATGGAACGCCCTTCTCTTTATGTTTGTAGCCCACTTGATCACCCTGATATTTGCTGTACGAGATAAACGGACCTATGCGGGCAGTGTGCTCGGCTTGATCACAAGTGCTCTCGGGTGGATTCCGGTTCTCGGCTGGATTCTCCATTCTGTTACGGCCATTTTTCTTTTGATTGATGCCGGTCGTTCGACAGCATTGGATAAAAAAGCATAA	MKLSTLFKWVTGGCEALLAIPFIGGLFVVGSGWNALLFMFVAHLITLIFAVRDKRTYAGSVLGLITSALGWIPVLGWILHSVTAIFLLIDAGRSTALDKKA				NA	NA	NA	NA	NA
AK012_02601	369			hypothetical protein	ATGTTTACAGTGATTTGTTTTTTCAGAGTTGAACAATCCAATATTGAAAAGTTTTTGAAGATCACTAAAAAGTCCGGGGATATCCTTGTGAATCACGGAACACTGGAGCACCACATTTACTTTGCACGTGAATTGACAGGTAGACAGGGGTCCATGGGGCTTTTGAACCTTGTTGAAATGGAAGAGAATGAAGAACTGCTTCTCGGTCAGTCCGTATTTGAAAGCGAGGAACACTATCACAGCGTCATGAAAGATGTCGGCTTCGATGATATGATCCATTATCTGGATGACAATATTAAAGACATCGTAGAAATGAACCGCGTCGTTACATCCAGTTTTACAACAGAACGAGTAGCTGAAACAAATTAG	MFTVICFFRVEQSNIEKFLKITKKSGDILVNHGTLEHHIYFARELTGRQGSMGLLNLVEMEENEELLLGQSVFESEEHYHSVMKDVGFDDMIHYLDDNIKDIVEMNRVVTSSFTTERVAETN				NA	NA	NA	NA	NA
AK012_02602	921	panE_2	COG1893	2-dehydropantoate 2-reductase	ATGAAAATCGTTGTATTAGGTGCGGGTGCGCTCGGCGCCTATTTCGGAGCACGCTGGCAGGAAGCCGGTCATGATGTGATTAACCTTGTACGGGAAGGCCGTGCTGAACAGCTGGAGAAGCATGGTTTACAATTACATAGTGAAATGGGGGACTTCAAGACGGACGCTCCAGTCATCGCCAGAAGTCCAGAAGAAATCCATGAGCCGGATTTAGTTTTTCTTGCAGTTAAAGGCTATCACCTTCACGGAACGCTGGACTGGCTGAAAGCCCTTGTTCAAAAAGGAGCCAAAGTATTTCCTGTCCTCAATGGTATGGAGCATATCAGCATTCTCCAGAAAGAGCTCGGGGAGGAAGCGGTTCTCGGAGGGCTTTCCTACATTATAGCCACCCTGGACGATGCAGGACATGTCATTCACACGAGTGAATTTCACGATTTAGTATTCGGGCCTCTCCATCCCTCCCAGCAGGCTGTCTGTGAAGAACTGGCTCTCGCCTGCAATCAGGCAAACATGACAGGAACATTAAGTCCGAATATCCTTGAAGATATGTGGAAAAAGTACATGTTCATTACATCGTTCTCTGGGATTACAACAGCCGTCAATCAACCGATCGGTGTCGTCCGCAGCTTTCCGCAGACGCTCCGCATTGCTGAACGGATGCTTTCAGAAATGAAAGAACTGGCCGGTGCCCATCAAATAAACCTGACGGATGAACACGTACAGAACGGCTTCGAGAAGCTGCGAAGCCTCGGGGAAGAAATGACGTCATCCATGCACCAGGACCGCAGAAAAGGCCTGCCTCTTGAAGTGGAGCACCTGCACGGGGGAGCCCTTCGTCTAGGCAGCGAGGTCGGCTTATCCCTTCCCTACATCGAAACGGTATATGGCATGATCAAACCCTATGAAACGTTCCAGCAGTAA	MKIVVLGAGALGAYFGARWQEAGHDVINLVREGRAEQLEKHGLQLHSEMGDFKTDAPVIARSPEEIHEPDLVFLAVKGYHLHGTLDWLKALVQKGAKVFPVLNGMEHISILQKELGEEAVLGGLSYIIATLDDAGHVIHTSEFHDLVFGPLHPSQQAVCEELALACNQANMTGTLSPNILEDMWKKYMFITSFSGITTAVNQPIGVVRSFPQTLRIAERMLSEMKELAGAHQINLTDEHVQNGFEKLRSLGEEMTSSMHQDRRKGLPLEVEHLHGGALRLGSEVGLSLPYIETVYGMIKPYETFQQ	PGPT0008745_3533	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
AK012_02603	576	cwlK		Peptidoglycan L-alanyl-D-glutamate endopeptidase CwlK	GTGCGGATTCTAGTAAACTTTCTGAAGTTCTCTATGGGAATAATCGGAATCGGTCTTTTGTTCGTTTATGTGATTCCATATATAGAAAATGAAGCAGGACCTTCTTTTTTGCAGAAAGAGGATGTGCCTATGCCTGAAGCGCTTCACCCGGTCGTTCAGGAGAATAAAGTGGAACTTGTCGACCGTGCCGGGGAAAAGGGGATTGCCGTCGTCATTACAGATGGACACCGTTCTGTTAGTGAGCAGGACATGCTTTATGAGCAGGGAAGATCCAAGGAGGGACGCATCGTGACCTATGCGGAAGGCGGGGAATCCTATCATAATTATGGTCTCGCTATCGATTTTGCGATTAAAACCAAGGACGGTCGTGTCGTCTGGGATATGGATTATGATGGAAATAACAATGGAACATCGGATTGGATGGAAGTTGTGGAAGTGGCTGAAGATCTCGGATTTACATGGGGAGGGGACTGGGAAAACTTCAAGGATTATCCCCATCTTCAGATGGACTTTGGATTGACGATACGGGAACTTCAATACGGAAAGCGTCCGGAAGTCGAGGATTATGCCAAATAA	MRILVNFLKFSMGIIGIGLLFVYVIPYIENEAGPSFLQKEDVPMPEALHPVVQENKVELVDRAGEKGIAVVITDGHRSVSEQDMLYEQGRSKEGRIVTYAEGGESYHNYGLAIDFAIKTKDGRVVWDMDYDGNNNGTSDWMEVVEVAEDLGFTWGGDWENFKDYPHLQMDFGLTIRELQYGKRPEVEDYAK	PGPT0024025_430	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_LD-ENDOPEPTIDASE_ACTIVITY,PGPT0024025-cwlK-K17733	NA	NA
AK012_02604	636			hypothetical protein	ATGAAACGACTAGTAAGAAAACCGAAGCGTACCATATATGAATTGCTGATGGTGGGTCTTGCTGCGCTTTCGATTGCCACCATCTGGCAGCAGACCGGATACAACAGCGTCATTGTCTGGTCTACCTGGTCGATTTTTTTCCTCGATTTCCTCTATCGTCTTATAACCAGCAAAAATAAATGGGAGTTTATCAAGAAAAACCCTTTTATCGTCATTGCCGCCATCCCTCTTGATGCCGTCTTCCAAGTGGCACGCGTAGCACGGATCCTTCACCTGCTCCGCTTGAAATCCATGACGAAATACTACACCATGCCCTTTATCCGCTTCCTTAAGCGTCAGCACCTTTCAGGAGTACTTGGAATTACCTTCCTTCTTATCTTCCTGCTGATTATCCCTCTAAACCTGTACGAACAGGAATTGGAAACCTACGGTGAGGCTATGCAGAGCGCCCTTCTCTCGCTGACTTTTTTTGGACGGTCAGGGTTTGAACCAGAGACAGCAGCCGGTCATACCATCATCGTGATTTTCACCGTCCTCGGTGTCATCATTCACGGCTTAGTTATCAGCACGGCTGTGGATTATATCATGCAGATCCCATTCATCCAAAACATGAAACAAAAGTTCACCAGCAAATAA	MKRLVRKPKRTIYELLMVGLAALSIATIWQQTGYNSVIVWSTWSIFFLDFLYRLITSKNKWEFIKKNPFIVIAAIPLDAVFQVARVARILHLLRLKSMTKYYTMPFIRFLKRQHLSGVLGITFLLIFLLIIPLNLYEQELETYGEAMQSALLSLTFFGRSGFEPETAAGHTIIVIFTVLGVIIHGLVISTAVDYIMQIPFIQNMKQKFTSK	PGPT0002715_4976	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK012_02605	216			hypothetical protein	ATGTCTGAAAAGAACCATAAAAAGAACAACCGTCTGGCCGAAGACGATCAAAGCTTCAAGGAAAAGCTGGAGAAAGAACAACTGATGGATAACGTTCCCGACGAAGAAATGCGTCAGAAACTTGCTCACGACGAAAAGAAACACAGGAAATCCAAGAACGATTCGCTTACAGAGGAAGAGTTTGATGAGGACATGAAGCCCGAGCAGAACGATTAG	MSEKNHKKNNRLAEDDQSFKEKLEKEQLMDNVPDEEMRQKLAHDEKKHRKSKNDSLTEEEFDEDMKPEQND				NA	NA	NA	NA	NA
AK012_02607	396			hypothetical protein	ATGACCGATTATTTAAGCCGCTTAGAACCTGAAGAAGTGCGTTTCTTTATGGATGTATCAGAATTTAAATCAATCGTTTTGGAGATGCTTGGTGAAGCACGGGATGTTGTGCAGGTGGATGTGGGTTATGAGACTGTGGAAAACCCCGGCTCTTCTCCATTGATTCGTCCGATGATCCAGCTTACGGAAATCAGCCGCTTTACAGAAGAAGACCGTCACAAGGTACTCCAGTCCGGCTTCTCCATTGATCGCGAGCCTTTTGACAACGGAGACTATGCGATGGAACAGATTTTTGGAACAGAATATATGATTGCTCATGCGGAAGAGGATGATGACGGGGCTTTTTTCACCATTGAAATGCCCTATCGCTATTATCATGCATTGACGAATCCATAA	MTDYLSRLEPEEVRFFMDVSEFKSIVLEMLGEARDVVQVDVGYETVENPGSSPLIRPMIQLTEISRFTEEDRHKVLQSGFSIDREPFDNGDYAMEQIFGTEYMIAHAEEDDDGAFFTIEMPYRYYHALTNP				NA	NA	NA	NA	NA
AK012_02608	195			hypothetical protein	ATGAATGGACAAAAACGCAGCGATATCCAGGCTGGTGCAGAAGTGGATATCGTTTTAAAACAGGATCAACGCACAGGAAAGCTGACAAGAGGAAGAGTGAAAGATATCCTGACTAAATCCCCTTCTCATCCGCACGGCATTAAAGTACGTCTGCAGGATGGACAGGTAGGAAGAGTCAAACATATTCACGACTAA	MNGQKRSDIQAGAEVDIVLKQDQRTGKLTRGRVKDILTKSPSHPHGIKVRLQDGQVGRVKHIHD				NA	NA	NA	NA	NA
AK012_02609	213			hypothetical protein	GTGGCTGAATCCAACAATCAAGCAGAACACGTTGTTCCTCACGAGGACGGCTGGGCTGTTAAAGCAGAAGGAGCAGAACAACCGACGAAGATCTATGAGAATAAGCAGGATGCTATCGATCGTGCGAAGGAGATTGCCCAGAACAAAGGGACGTCGGCAATCATCCATACTGAAAAAGGAACCATCCAGAATCAATACAATTATTCCAGCTGA	MAESNNQAEHVVPHEDGWAVKAEGAEQPTKIYENKQDAIDRAKEIAQNKGTSAIIHTEKGTIQNQYNYSS				NA	NA	NA	NA	NA
AK012_02610	456			hypothetical protein	ATGCCATGGGATACCGAAGATTATCCAAGCTCGCTGAAAAATCTGGATGAAGTTGTTCGTAAGAAGGCCATAGACATAGCTAATGCTATGCTGGATGAAGGATATGAGGAGGGAAGAGCGATTCCGATTGCCATTGAACAGGCGAAGGAATGGCGTGACAATGCAGGGGATAAAGAACTGAGAGAGGTAAAGGAGATGAGTGATCAGGCACTGAGAAGCAGGGATGCTGATCAGGATGACCGAGACGCACGTCCGGAATTAATGGAAAAAGGCGAGCATATCCTGCCTCATGAAAATGGCTGGGCAGTCAAAGCAGAGGATGCAGAAAAACCTTCCAATGTATTTGAGCGTAAACAAGAAGCCGTCAATCGTGCCGAAGAAATTGCTGAAAATAAAGAAACCCAGGTCATTATTCATAAGAAAGACGGAAGTATCCAGGATAAATATTCGATTTAG	MPWDTEDYPSSLKNLDEVVRKKAIDIANAMLDEGYEEGRAIPIAIEQAKEWRDNAGDKELREVKEMSDQALRSRDADQDDRDARPELMEKGEHILPHENGWAVKAEDAEKPSNVFERKQEAVNRAEEIAENKETQVIIHKKDGSIQDKYSI				NA	NA	NA	NA	NA
AK012_02611	720	pxpB	COG2049	5-oxoprolinase subunit B	ATGGATTGGACCCTGCATCCCTTAGGTGATCAGGCTGTATTAATTGAATTCGGAAACGAAATCAGTGAAGAGATCAATCATATCGTGCAGACTGCAGCCAGCAGCCTCGATGATTGGCAGCCGGAGTGGATGGTGGAGTACATCCCCGCTTTTACGACAGTGACGCTTTTTTATGATCCTCTCTACATAGCAAATCATAAAACCTCACAGAACCAGCTCCCCTATGATTGGGTTCACCAACAGGTGTCTGAATTCTTTTCCACTTTAACAATTAAGGAAACCGGTCCCGCGCGGACGGTAGAAATCCCTGTCTGTTACGGTGGTGACCTCGGCCCTGATCTGTCCTATGTGGCCGAGAAGAATGGATTAACAGAAGAAGAAGTTATTGAAAGACATATGAACGGAGACTATCTGGTGTACATGATTGGTTTCGCCCCCGGTTTCCCCTATATCGGCGGTATGGACCCTGCGATTGCAGCACCCAGAAGAAAAGATCCACGACTGAAAATACCAGCGGGCACGGTCGGAATTGCCGGCGCCCAGACAGGCGTATACCCTCTGGAAACGCCTGGAGGCTGGCAGCTGATCGGCCGGACACCGTCTAAAATGTTTGATCCATCAAACGAAGAAGCGCCCACACTCCTGCAGGCTGGAGACCGTATCCAGTTCCGTAGAATTACTGAAGAAGAATATGAAAACCTGAAGGAGGGTGGAGCATGA	MDWTLHPLGDQAVLIEFGNEISEEINHIVQTAASSLDDWQPEWMVEYIPAFTTVTLFYDPLYIANHKTSQNQLPYDWVHQQVSEFFSTLTIKETGPARTVEIPVCYGGDLGPDLSYVAEKNGLTEEEVIERHMNGDYLVYMIGFAPGFPYIGGMDPAIAAPRRKDPRLKIPAGTVGIAGAQTGVYPLETPGGWQLIGRTPSKMFDPSNEEAPTLLQAGDRIQFRRITEEEYENLKEGGA				NA	NA	NA	NA	NA
AK012_02612	1002	pxpC	COG1984	5-oxoprolinase subunit C	ATGATTCATGTATTGAAACCCGGCCTTCTTACGACCATTCAGGACTTTGGAAGGTACGGACACCAAAAACACGGAGTCATTGCCAGTGGAGTGATGGACCAGGAAGCGTACCGGATTGCCAACCTTCTTGTTGGTAATGGACAGCATGCACCTGTTCTTGAAATTACGCTGATGGGTCCTGTATTGGAGTTCCAGCAGGATGCCTGCATTTCCATCTGCGGCGGTGATTTAACCCCAATGATCAACGGAGAACGTGTAGGGACTTGGAAACCTCTTTACATAAAACAAGGAAGTGAACTTCGTTTTGGAAAACCGAAGACCGGCTTCCGCGCCTATTTGGCAGTGGCAGGCGGCTTTAATATCCCTCTTACGATGAACAGCGCTTCTACTTATATCCGTGCAGGCATCGGCGGATACCACGGGCGGCCGGTCGAAAAGGGGGATGTGCTTGAACCTTCCGAGCTTTCTCCCTTATCCAACCGCGTGATGGAACAATGGAAAACAGACGCCGGGGATGCCGGTTTCCACGAGGCCTCCTGGTATGTTGGACATGCCTTCAATCACAATGGATACACAAAAGAGCCGATCCGGATTATGCCGGGGAGAGAATACGATTGGTTTGACAAAGAAAGTCAAAACCGATTAACAAGTGAGACATTCAAGATCGATTCCAAATCTGACCGAATGGGCTACCGGTTGACCGGCTGTCAACTATCAGCCGTCGAAGAACGGGACCTTCTCTCAGAAGCTGTTGCCTTTGGTACCATTCAGGTTCCTGCAGAAGGCAACCCGATTATTCTCCTTGCCGACCGACAGACGACGGGAGGCTACCCGAAAATCGCTCAAGTGGCTTCTGTCGACCTGCCCAGGCTTGCCCAGATGCGGCCGGGGGAATCTTTTTCGTTTACGATGATTACCCACGAGGAAGCCCAGCGCTTGTATCTGCAGCAGGAGAAAGATATCAATCTGTTGGCCCGCGGCATTGAAATGAAATTAACTTAA	MIHVLKPGLLTTIQDFGRYGHQKHGVIASGVMDQEAYRIANLLVGNGQHAPVLEITLMGPVLEFQQDACISICGGDLTPMINGERVGTWKPLYIKQGSELRFGKPKTGFRAYLAVAGGFNIPLTMNSASTYIRAGIGGYHGRPVEKGDVLEPSELSPLSNRVMEQWKTDAGDAGFHEASWYVGHAFNHNGYTKEPIRIMPGREYDWFDKESQNRLTSETFKIDSKSDRMGYRLTGCQLSAVEERDLLSEAVAFGTIQVPAEGNPIILLADRQTTGGYPKIAQVASVDLPRLAQMRPGESFSFTMITHEEAQRLYLQQEKDINLLARGIEMKLT				NA	NA	NA	NA	NA
AK012_02613	774	pxpA	COG1540	5-oxoprolinase subunit A	ATGTACGTTGTTGATTTAAACTGCGATATGGGAGAAAGCTTTGGATCTTATACAATTGGCCGGGACGAAGAAATGATGAATTATGTAACTTCAGTGAATATTGCCTGCGGCTACCACGCTGGAGATCCAGCCAACATGAAAAAAACCGTCCGCATGGCCGTACAGTATGGAGTGGGCATTGGCGCCCACCCCGGTCTCCCTGATTTAGCCGGATTCGGCCGTCGTCCAATGGAGATTTCACCAGAAGAAGCGTATGACATGGTCATCTACCAGGTCGGTGCACTTCAAGGGTTTGTCCAAGCCGAAGGCGGTCAGCTCCAGCATGTGAAACCGCACGGTGCCCTTTTCAACATGGCGGCTAAAAACCGTCCGCTGGCCGCCGCTGTTGCCAAAGCCGTTCATGACGTGGACTCCTCTCTCATCCTGTTCGGACTGGCCGGCAGTGAATTGATCCACGCCGGAAAAGCCATGGGATTGAAGACAGCCAGTGAAGTCTTTTCCGACCGCACCTATCAGGAAGACGGCTCGTTAACTTCACGCCGGGAACCGAATGCGCTGATTACGGATCATGAAGAAGCCGTCAATCAGGTCATCCGTATGGTCAAGGAGAAAAAAGTGACGACGCTTCAGGATGTTGATATCGACATCGAAGCAGAAACGATCTGTATCCATGGGGACGGTGCGAGCGCTGTGGACTTCGCGAAATACATACGGGAGGCTTTCCAGAAATCGGACATCCAGCTTGAAGCCATCGGCTCTGTCTTATCACGGTAA	MYVVDLNCDMGESFGSYTIGRDEEMMNYVTSVNIACGYHAGDPANMKKTVRMAVQYGVGIGAHPGLPDLAGFGRRPMEISPEEAYDMVIYQVGALQGFVQAEGGQLQHVKPHGALFNMAAKNRPLAAAVAKAVHDVDSSLILFGLAGSELIHAGKAMGLKTASEVFSDRTYQEDGSLTSRREPNALITDHEEAVNQVIRMVKEKKVTTLQDVDIDIEAETICIHGDGASAVDFAKYIREAFQKSDIQLEAIGSVLSR				NA	NA	NA	NA	NA
AK012_02614	1191			hypothetical protein	ATGAAACAACAATCGACCAGAAGTCTCCTCTTAGGGGCCGCTTTTCTTATGGCGACCTCCGCCATCGGCCCGGGATTTCTAACACAAACCACACACTTTACCGAGCAGCTTGCAGCCAGCTTCGGTTTTGTCATTCTTATTTCCATCATTATTGATATAGGTGCACAGCTGAACATCTGGCGGATCATTGCCGTTTCAGAAAAACCGGCGCAGGATATTGCAAACAGTCTTTTGCCCGGTCTCGGCGTTTTCTTATCCATATTAATCGTTGCCGGTGGTCTCGCCTTTAATATCGGGAACATTGCCGGCGCCGGCCTTGGGACCAATGTCCTCTTCGGTATCTCCCCGGAAATGGGAGCTCTGTTCAGCGGTATTGTAGCCGTTGCTGTCTTCCTTGTACGGGAAGCTGGGAAAGTGATGGACCGGTTTGCTCAAATTGCCGGTTTTATCATGATCGGTCTTACCATTTTCGTCATGTTTTCGGCCAACCCGCCTATTGGTGAGGCGGCCGCTAAAACATTCGCTCCAGATACGATTGATTTTCTAGCCATTATCACACTTGTAGGAGGAACCGTCGGTGGTTATATTACCTTCGCAGGCGGACACCGTCTTCTGGATGCTGGTGTGAAGGGGCAGGAATCCCTCGGTCAGGTAACGAAAAGCTCGGTATCAGCTATCGGGATTGCCTCCATTATGAGGATTTTCCTTTTCCTTGCCTCTCTTGGTGTAGTCGCTTCCGGTGTTACTCTCGACCCTTCCAACCCTCCGGCTTCTGTGTTCCAGGCAGCAGCAGGGAATGTCGGGTATAAGATCTTCGGAATCATCATGTGGGCAGCCGCCGTTACATCCGTCGTCGGGGCCGCTTATACGTCTGTATCCTTCATCCGTACATTCAGCAAAACCATTGAACGCTATCATAAATGGTTTATCGTAGGGTTTATTGTCATCTCCACCACGGTCTTTGTCTCTGTCGGAAAGCCGGTCAAAGTTCTGATTCTTGTTGGATCATTGAACGGCCTGATCCTTCCGATTGCTCTCGGCGTCATGCTTGTCGCCGCCTATAAAACAAAAATCGTCGGTGATTACAAACACCCGCTCTGGCTCACCATCTTTGGAGCCATCATCGTCATAGCGATGGCGTATATGGGCGGGATGTCCTTGATTCAAGGAATTCCACAGCTTTTTGAATAA	MKQQSTRSLLLGAAFLMATSAIGPGFLTQTTHFTEQLAASFGFVILISIIIDIGAQLNIWRIIAVSEKPAQDIANSLLPGLGVFLSILIVAGGLAFNIGNIAGAGLGTNVLFGISPEMGALFSGIVAVAVFLVREAGKVMDRFAQIAGFIMIGLTIFVMFSANPPIGEAAAKTFAPDTIDFLAIITLVGGTVGGYITFAGGHRLLDAGVKGQESLGQVTKSSVSAIGIASIMRIFLFLASLGVVASGVTLDPSNPPASVFQAAAGNVGYKIFGIIMWAAAVTSVVGAAYTSVSFIRTFSKTIERYHKWFIVGFIVISTTVFVSVGKPVKVLILVGSLNGLILPIALGVMLVAAYKTKIVGDYKHPLWLTIFGAIIVIAMAYMGGMSLIQGIPQLFE	PGPT0020786_9	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_TRANSPORT	PLANT_DERIVED_BRANCHED-CHAIN_AMINO_ACID_TRANSPORT,PGPT0020786-ycsG-NA	NA	NA
AK012_02615	663		COG4122	Catechol O-methyltransferase	ATGAGCGAACGTGAAACATGGGAAAAGGTTGACGAATACGTGATTGATCGTCTGGTTACGGAAGACGGGGACATGGCTTCCATTAATGCTTTGAATGAAAGAGAAGGCCTGCCCTCCATCGGTGTTTCATCTACGCAGGGGAAAATGCTCTATCTATATGTGAAAATGAAGGCAGCCCGCAGAGTTTTGGAAATCGGTACGCTCGGTGGATACAGCTCCATCTGGATGGCTAAAGCCCTCCCGGAAAATGGCACACTCACCACCCTTGAATTCAGCCCAAAGCATGCAGAAACTGCTGCTGTCAACATGGAAAACGCAGGTGTAAAGGATAAAATCTCCATCCATGTCGGTCCTGCTCTTGAGACGCTGCCTACGCTCGAGAACGAAGAGCCTTTCGATTTTGTTTTCATTGATGCGGATAAGGAGAACAACCCTCACTACATTGAACATGTCTTGAGGCTGTCCAAACCAGGAACCACCATCTTAGTGGATAACGTCATCAGGAACGGGGAAATATTGGAGGAAGACAGTAAATCCAGCAGTATTCAGGGAATCCGGCAGATGTTCGATCTGCTTCACCATCATCCACGTCTGGAGAGTACAGCTTTCCAAACGGTCGGAAACAAAGGTTATGACGGTTTTCTGCTTGCTGTCGTCCAATAG	MSERETWEKVDEYVIDRLVTEDGDMASINALNEREGLPSIGVSSTQGKMLYLYVKMKAARRVLEIGTLGGYSSIWMAKALPENGTLTTLEFSPKHAETAAVNMENAGVKDKISIHVGPALETLPTLENEEPFDFVFIDADKENNPHYIEHVLRLSKPGTTILVDNVIRNGEILEEDSKSSSIQGIRQMFDLLHHHPRLESTAFQTVGNKGYDGFLLAVVQ				NA	NA	NA	NA	NA
AK012_02616	813			hypothetical protein	ATGAGGTACAAGGTTGAGGCTGTCCAGCTGAAAAGTCCTTCCAAAAAGGAAAGCGAGGATGCGTACGTCCTTCACGAAGAGGCCGGTGTTTTCGGAGTATTTGATGGGGCGACCCCTCTGGTCTCATTTGAAGATGAGGACGGACATAACGGTGCCTATCTTGCCGCCCACCATTTCAGGGAACAGCTGCAGGGCATGGACGCGAACGATACCCTGATTCAAACGGTCGAGGCCGCCAATACCCGTTTGTACGAGAACATGGTGGCATGCGGGGTGGATCCCTCGAAAGGGGAGGAACGATGGTCGACGTGTGTGGCTGCAGTTAAACTGGAAAGCACGCACTTCCATTATGCTCACCTGGGAGATTCGATGGTTATCGCCGGTGATAAAAAGGGGGCTGTTCATGTCCTTACGACAGATACGGTAGCCGGAATAAGTGACAGAGCAAAAAAGAAAAGAGCAGAGGATCGGGAAGAAGGGCGGGCGGTCCAGGAAGAGTCGTATTATGATGTGCTCCTTCATAAACTTCAGTATAACAGGAGGCTGGCTAATGTGCCTGGTGGATATACAGTCGCGAACGGGATGCCGGAGGTTATGACACACCTGGATACGGGTTCCTATCCGATGAAAGACCTGGAGGATATCTGGCTTGTAAGTGACGGTTTATTCCATCCCGGACTTTCCCTGGAAGAGACATGCAGGGAAATGAAGCAGCAAGGGATACGCTCCTACATCAATGACCTTACTGCCTATTTAGGAAAGCACCGCTATCCGATTGACGACCGGACCGTCGTCCACCTGCGTTTTACATAA	MRYKVEAVQLKSPSKKESEDAYVLHEEAGVFGVFDGATPLVSFEDEDGHNGAYLAAHHFREQLQGMDANDTLIQTVEAANTRLYENMVACGVDPSKGEERWSTCVAAVKLESTHFHYAHLGDSMVIAGDKKGAVHVLTTDTVAGISDRAKKKRAEDREEGRAVQEESYYDVLLHKLQYNRRLANVPGGYTVANGMPEVMTHLDTGSYPMKDLEDIWLVSDGLFHPGLSLEETCREMKQQGIRSYINDLTAYLGKHRYPIDDRTVVHLRFT				NA	NA	NA	NA	NA
AK012_02617	558	ydaF_4	COG1670	Putative ribosomal N-acetyltransferase YdaF	TTGTTTATCTATACAGTGGATGACCAGCTGTCATTAAAATTAATTGGACATGAAGACGCAGAAGAACTCTTTCAATTATCCGACCAATCCAGAGACCACCTTCGAACGTGGCTACCATGGATTGATTTCACAAAGTCAGTGGAAGATACCCAGGGGTTTATTAAAAGCAGTCTAAAGAGATATGCTGAAAATAATGGATGGACGGTCTGTATCCTGTGGGAAGGTCGGATAGCTGGGATCGTTGATTTTCATGAACTGGATTACAATAACAAAAGGACAAGCATCGGTTACTGGATGGGAGAGGAATTTAAGGGCAGAGGTCTGTTGACCCGTGCGTGCCGCGAACTATTCGACTATGCTTTCCATACGCTTGGGATGAACCGGATTGAGATCCGGGCGGCAGAGCAGAATGTAAAAAGCAGGGCCGTCCCGGAGCGTCTAGGTTTTGTGCAGGAGGGGATCATCCGCAGCGCAGCCCTGCTTTATGATGAATACACGGATCATGTCGTGTACGGGATGCTGAAAAAAGACTGGAACAAGGAACCGGTGGACGTATGA	MFIYTVDDQLSLKLIGHEDAEELFQLSDQSRDHLRTWLPWIDFTKSVEDTQGFIKSSLKRYAENNGWTVCILWEGRIAGIVDFHELDYNNKRTSIGYWMGEEFKGRGLLTRACRELFDYAFHTLGMNRIEIRAAEQNVKSRAVPERLGFVQEGIIRSAALLYDEYTDHVVYGMLKKDWNKEPVDV				NA	NA	NA	NA	NA
AK012_02618	975			2-haloacrylate reductase	ATGAAAGCTATTCAATTCAAAGAATATGGAAGTCCATCGGTGCTTGAGAAAGTGGATGTGGAAAAGCCGTCTCTGGATAAGGATGAAGTGTTGATCAACGTGTCGGCTGTCGGGGTCAATTATGCCGATACGGCCCGCAGGGAAGGGGCCTACGTTGTGCCAACACCGCTGCCGTTTATTCCGGGAGCTGAAGTGGCCGGTGTTGTGGAGAGCATCGGCTCTGGAGTTCAAAATGTGAACGAAGGAGACCGGGTGGTCACGCTGATTGAATCCGGCGGTTATGCTGAGTACGCAAAAGCGAAGGCTGTCTCTCTCATTCCTATTCCTGATGGTGTGGACGATGAAACGGCCGTTGCGATTCCTCTCCAAGGGCTGACCGCCTATCATATTCTAACGACAATGGGCCGGATGGAACACGGAGAAACGGTGCTTGTCCATGCAGCAGCTGGAGGGGTAGGTTCACTTGCTGTCCAGCTGGCCAGACAATTTGGTGCAGGGAAAGTGATCGCAACAGCGAGTACAGAAGAGAAGCGGCAGCTGGCCCTTGAACTTGGAGCGGATGAAGCGGTGGACTACACGAAGGAAAACTGGCGGGATGAGGTTCTTGGACTGACGGGAGGCCGTGGTGTTGATGTTGCCCTTGAGATGGCTGGAGGGGATGTATTTCATGAAACAGTGAAATGTATGGGGGCCTTCGGGCGTGTCGTTGTGTATGGAGTGGCCAGCGGGGACCCGGCGAAAATGTATCCATCCGGGTTGATGAACCGGAATTTATCAGTGATCGGTTTCTTCCTCCCGCAGATTATGAAGAAGCCTGAGTTGTTTAAACGAAGCCTCCATCACTTGTTGGAACTGGTGAATACCGGCGATTTGAATTTGACGGTAGGGGGCGTTTATTCGTTGGAGGAAGCGGCGGAAGTTCATGAATTGATGCAGGGGAGAAAGACGAAAGGAAAACTGGTGCTTAAGCCATAA	MKAIQFKEYGSPSVLEKVDVEKPSLDKDEVLINVSAVGVNYADTARREGAYVVPTPLPFIPGAEVAGVVESIGSGVQNVNEGDRVVTLIESGGYAEYAKAKAVSLIPIPDGVDDETAVAIPLQGLTAYHILTTMGRMEHGETVLVHAAAGGVGSLAVQLARQFGAGKVIATASTEEKRQLALELGADEAVDYTKENWRDEVLGLTGGRGVDVALEMAGGDVFHETVKCMGAFGRVVVYGVASGDPAKMYPSGLMNRNLSVIGFFLPQIMKKPELFKRSLHHLLELVNTGDLNLTVGGVYSLEEAAEVHELMQGRKTKGKLVLKP	PGPT0013255_6931	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
AK012_02619	786	paaG	COG1024	1,2-epoxyphenylacetyl-CoA isomerase	ATGAAATTAGGGAATGATCATGTAGCTGTCGATATTAATGGACCTGTGATGTCTTGTGTATTGAATCGTCCAGACAGTCTGAACGCTTTTTCCGACCAAATGATCGGCGGTTTGATGGAGGCTTTGGAAGAGGCGTCCAGGAATGAGGAAGTGAAAGTGATTGTGCTGTCCGGAGCAGGACGGTCTTTCTCAGCGGGCGGGGATGTCAAAAGTATGGGGGAGGCCTCAGCCCAGCATCTGTATGACCATGTGGGAGAGCTGAATAAGCTGATCTTAAAGATTAAAGATGTACCGAAGCCGGTTGTAGCTGTTGTGCATGGTTATGCGGCCGGTGCCGGTTTCAACCTCGCTCTTGCCTGTGATCAGATTCTTGCAGCCGAAGAAAGTCAATTTGTTCTGAGCTTTGCCCAGGTGGGCTTGATTTCCGATGGCGGAGGCCATTATTTCCTTTCCCGTCTTATCGGACCTTACCGGACAAAAGAGCTGCTGTTTACCGCTGAGCCGATTCCTGTTGAGACAGCGGCCGAGTGGGGGCTGGTCAACAGGGTGATTCCGATAGGGGAACTGGAAGAGGAAGCTATGAATTATGCACTTCGTCTGGCTAAAGGGCCTGGACGAGCTATCGGTATGATGAAGAAAATCGTAGATCAATCTGATCAATCCGACCTTGCTGCCATTTTAGAACAGGAGCGGATTTCACAAACCATGATGGCTGAAACATCAGATCATAAAGAAGGCGTTGCCGCATTTAAGGAAAAGCGTAAGCCGCATTTTACAGGAAAGTGA	MKLGNDHVAVDINGPVMSCVLNRPDSLNAFSDQMIGGLMEALEEASRNEEVKVIVLSGAGRSFSAGGDVKSMGEASAQHLYDHVGELNKLILKIKDVPKPVVAVVHGYAAGAGFNLALACDQILAAEESQFVLSFAQVGLISDGGGHYFLSRLIGPYRTKELLFTAEPIPVETAAEWGLVNRVIPIGELEEEAMNYALRLAKGPGRAIGMMKKIVDQSDQSDLAAILEQERISQTMMAETSDHKEGVAAFKEKRKPHFTGK	PGPT0006070_2022	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
AK012_02620	1761	fadE_2	COG1960	putative acyl-CoA dehydrogenase	ATGCATCCAGTTGAACATGAATGGAAAGGTGGTCAGTTTCTAACTTCCAGTGTGGATCCGGAAACGGTATTCACTCCGGAAGATCAGACAGAAGAGCACCGGATGATCGGACAGACAGCCCGCCGGTTTATAGAGGGCGAGATCCGTCCGCACAGGGAACGGATTGAAAAGGGAGATTATGACTTTGTTGCAGAGCAGATGAAAAAAGCAGGAGAACTGGGACTCCTGGCTCACAGCATTCCGGAAACATACGGTGGTCTTGGGCTTGATAAAATCAGCAAAGGCATTGTAGGGGAGGCACTGGGAAGCGCCGGCGGCTACAGTGTAGCGCATTCCAACCACACGTGCATCGCGACTCTTCCCATTACCTACTTCGGATCGGAGGAGCAGAAGCAGAAGTATCTGCCGAACCTTGCTTCCGGAGCATTTATAGGCGCCTACTGTCTGACAGAACCGGACGCCGGCTCGGACGCCTTATCCGCAAAAACTACAGCCGTATTGAATGAAGAAGGCTCCCATTATGTGCTTAATGGAACGAAGATCTATATCACAAATGCAGCTTTTTCTGATACGTTCATCGTTTACGCCAAAGTAGATGGAGAACATTTTACAGCCTTCATTGTTGAAAAGGATTTTCCGGGTCTGTCCATCGGGCCGGAAGAAGACAAGATGGGGATCAAGGGATCATCCACCTGCTCGGTGATTATGGAAGATTGTCACGTACCGGTGGAAAATCTGCTGGGAGACGTCGGCCACGGCCATTTGATTGCTTTGAACGTATTGAACCTCGGCCGGTTTAACTTAGGGTTTGCAACGCTTGGTGCGGCTAAATACAGTTTCCAGCTCGCTCTTTCCCATGCTTCTGAACGCCGCCAGTTTGGTAAGGCGATCTCGGATTTCCGGGCGAGTAAACAAAAACTGGCCTGGATGGCCGCGGATTTGTATGCCGCTGAATCAATCATGTACCGGACAGGCGGTCACATAGAATCAGCGCTTGCCGGTCATTATGAAACCAAAGACAAACGCGCTGCAGCCAAGGCGATGAACGAACATCGTATGGAAGCGGCTATCTGCAAGATTGTCGGTTCAGAAACCTTGGATAGAGTCGTGGATGAAGCGGTTCAGCTTCACGGAGGAGCCGGGTTCATCAAGGAATATCCAATCGAACAGGCGTATCGTGATGCCCGCATCAACCGTATTTTCGAAGGTACCAACGAAATTAATCGTCTGCTTATCCCGGGAGCCTTTTTCCAAAAAGCCGGGAAAGGAGAATTTGATGCCGATGCTTTAGTGAAACAGGCCGATGATTCTTTGAAAACAGGTGGATATAAGCGGGAAAGTGGGACAACGGCGAAGCTGGAGGAAGCCGTCGCTTTGTTCAAAGATTTATATCTTGTAACCGCCGGTGCTGCCTACAACATCTATGGTGCAGGTATCAAAGAAGAACAGGAAACACTGATGGAACTGGCGGATATCGCCATTGAAATTTATCGTTCTGAATCGTCTGTGCTGCGAGCCAAAAAAGCCGGAGGGGAAACGGGTCTTCATCTGCCGCTGGCCGAAACGGCCGTGGAGCGGTCTGTGGAAACCGTCCGGCAGTCGGTCAGCCGATTGTTTGGTTCTCTTCTTAAAGGAGAGGAACGGACGAAGGCACTGAGGAGTGCTGCTGCCCTGTTAAGTGCGTATTCATTTGAAGGAAGCCTGGATCGGAACCGCCGCCTTGCTGAACAAATGGTGGAAGCCGGTCACTATAGAGTTTAA	MHPVEHEWKGGQFLTSSVDPETVFTPEDQTEEHRMIGQTARRFIEGEIRPHRERIEKGDYDFVAEQMKKAGELGLLAHSIPETYGGLGLDKISKGIVGEALGSAGGYSVAHSNHTCIATLPITYFGSEEQKQKYLPNLASGAFIGAYCLTEPDAGSDALSAKTTAVLNEEGSHYVLNGTKIYITNAAFSDTFIVYAKVDGEHFTAFIVEKDFPGLSIGPEEDKMGIKGSSTCSVIMEDCHVPVENLLGDVGHGHLIALNVLNLGRFNLGFATLGAAKYSFQLALSHASERRQFGKAISDFRASKQKLAWMAADLYAAESIMYRTGGHIESALAGHYETKDKRAAAKAMNEHRMEAAICKIVGSETLDRVVDEAVQLHGGAGFIKEYPIEQAYRDARINRIFEGTNEINRLLIPGAFFQKAGKGEFDADALVKQADDSLKTGGYKRESGTTAKLEEAVALFKDLYLVTAGAAYNIYGAGIKEEQETLMELADIAIEIYRSESSVLRAKKAGGETGLHLPLAETAVERSVETVRQSVSRLFGSLLKGEERTKALRSAAALLSAYSFEGSLDRNRRLAEQMVEAGHYRV	PGPT0002285_17	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0002285-bcd-K00248	NA	NA
AK012_02621	738	comB	COG2045	putative 2-phosphosulfolactate phosphatase	ATGGGGAAAATCGAAGTCATTTTTAAAAAAGAGGACATTCATCCCGAAAAACTGGCAGGGAAAACAGCTGTGGTCTTTGACGTTCTGTTTGCAACCTCCACAATGACGTCCGCGATTGCTGATGGTGCGCTTTCTGTGCTTCCTGTCTACAGTCCGGAAGAAGCCGTGAAAACAGCGGAAGCCTTTGATGAGCCGTTCCTTCTTGCCGGTGAGGACCAAGGGCGGACGATTGATGGGTTTCACCCGCCTCTTCGGAATCAGCTGAAAGAACTTGTGGCTGGGAAGCATCTGATTTTGACTACAACCAATGGTACAGTCGCGCTTCATAAGGCTCAGCAAGCTGCTCATCTTTACGCTTCTTCACTGCTCAACAACCCGGCAACAGCCAGACATCTGAGTGAATCACACAGCGGGGAAACGATTGTGATCATCTGCTCCGGGTCGAGCGGGCTGTATACAATGGAGGATTTTTATGGCGCAGGAAGCCTCGTGCACTACATGCAGCAGGATGGAAACTGGGAGCTCTCCGACGGGGCGTTGACTTCGCTCCACTTTTATAAGGGAAGTGGCAGTGCGCGGACGGTGCTTCGTTCCTGCCGGATTGGCGGCTGGTTAATGAAGTATGGCCTGGACCCTGCTGAAATTGACTTTGCTGCACAGGAAGGGATTTATGAAACGGTTCTTGCTTATGACAGAAACACAGGTCAAGTCAAGGAGGGGCATTATGCATCCAGTTGA	MGKIEVIFKKEDIHPEKLAGKTAVVFDVLFATSTMTSAIADGALSVLPVYSPEEAVKTAEAFDEPFLLAGEDQGRTIDGFHPPLRNQLKELVAGKHLILTTTNGTVALHKAQQAAHLYASSLLNNPATARHLSESHSGETIVIICSGSSGLYTMEDFYGAGSLVHYMQQDGNWELSDGALTSLHFYKGSGSARTVLRSCRIGGWLMKYGLDPAEIDFAAQEGIYETVLAYDRNTGQVKEGHYASS				NA	NA	NA	NA	NA
AK012_02622	1062			hypothetical protein	ATGGCCGATACGAAAGATACGCAGGCGGTACGTAAAGGTGAAGAGCTGGACCATGAAACATTGGTTCCTTTTTTAAAAGAACGATTGAATATGCCGGACCAGGAGCTTTCAATCAGGCAGTTTGGAGCCGGACATTCCAATTTAACATATGAGCTTTCTGCCGGGGACGACTGGAAGGTTGTGCTGAGACGTCCGCCGCTGGGCCCTGTCGCTCCCAAGGCCCATGATATGGAGCGGGAGTTCAATGTGCTTCAGGCGCTGCATCCTGTCTATCCGCTGGCTCCCAGACCTTTTCTTTATGAATCCGGAGACCTTATCGGAGCCCCTTTTTTCATTATGGAACGTAGAGAGGGGATCGTCTATGATAAACAGTTTCCCGAGGGAGTGGAAGGAAGTGCGGAGCTTGGCCGGCGCATTTCAGAGACGATGGTGGACAAGCTTGCCGCACTTCATGCTGTGGATTACACGAAAACGGAAATCGTCCATATGGTGAAGCCTGAAGGGTTTATGGAGCGTCAGGTGCACGGATGGATCAAACGGTACGACCGCTCCCGCACGGATGATGTTGTGTCGGGGGAGCGGCTGAAGAAGTGGTTGGTGGATCACATCCCTTCTTCTGAAGCTGCCTCTGTCATTCATTATGATTATAAGTTGAACAATGCCATGTTCAGCCGGGACGATCCTGCGGAGATGGTCGGCCTGTTTGATTGGGAAATGACAACAGTGGGAGACCCTCTTGCGGACCTTGGAGCAGCACTCAGTTACTGGATCCAATCTGATGATCCTCCGATGCTTCAGGAAGGACTTGGACGTCCCCCGGTTACCGTAAAGGAAGGTTTTTTTACAAGGGATGAATTTGTAAACGCTTACTCATTAAAGAGCGGGCGGAATGTTGACGACGTCCATGTGTATTTGACGTTTGCCTATTTTAAGCTGGCTGGAATCATCCAGCAGATTTACTTCCGCTATAAAAAGGGGCAGACCGAAGACCCGAGATTTGCTCATATGAACCATTTCGTCAATAACTTGATTCAGCATGCCGAAGAAACGGCAGGGCTGTAA	MADTKDTQAVRKGEELDHETLVPFLKERLNMPDQELSIRQFGAGHSNLTYELSAGDDWKVVLRRPPLGPVAPKAHDMEREFNVLQALHPVYPLAPRPFLYESGDLIGAPFFIMERREGIVYDKQFPEGVEGSAELGRRISETMVDKLAALHAVDYTKTEIVHMVKPEGFMERQVHGWIKRYDRSRTDDVVSGERLKKWLVDHIPSSEAASVIHYDYKLNNAMFSRDDPAEMVGLFDWEMTTVGDPLADLGAALSYWIQSDDPPMLQEGLGRPPVTVKEGFFTRDEFVNAYSLKSGRNVDDVHVYLTFAYFKLAGIIQQIYFRYKKGQTEDPRFAHMNHFVNNLIQHAEETAGL				NA	NA	NA	NA	NA
AK012_02623	399			hypothetical protein	ATGCATGAAATGGAGGTCACCGTAAGATTTTGTGAAACAGATATGCTCGGTCATGTGAACAACAGCAATTTCTTTGTCTATATGGAGGATTCACGGATTCGTTTTTTCAACGAGGTGAATTTAGTCGGTGATGACTGGAACTTTATTCTAGCCTCTGCCAAGTGTGATTTCCTCAAGCAGGTGTACTTCAATCAGACGCTGATCATCAAAAGCAGTGTCGCAAAAATCGGGAAGTCCAGTTTTCATCTGACTCAGGAAATGGTGGAGAAAGACTCAGGGGAGGTCGTGGCCGAGGGAAGCTCGGTAATTGTGCAGTTTGATTTTGAGAAGCAGAAGAGTCTGCCATTTACAGCCGAGATGAGACAGCGTCTGGAAGAACATATGCCCGTTGCGAAATAG	MHEMEVTVRFCETDMLGHVNNSNFFVYMEDSRIRFFNEVNLVGDDWNFILASAKCDFLKQVYFNQTLIIKSSVAKIGKSSFHLTQEMVEKDSGEVVAEGSSVIVQFDFEKQKSLPFTAEMRQRLEEHMPVAK	PGPT0001850_8300	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
AK012_02624	873	hbd	COG1250	3-hydroxybutyryl-CoA dehydrogenase	ATGAAGGTGAATCAGATCGCTGTCGTTGGTGCAGGAAGTATGGGGCATCAGATCGGTATGTTGTCGGCACTAGCAGGGTTTCGTACGTATGTACAGGATGTCCGTCCGGATGCTTTAAGGGAAGCCGAGGAGAAGCTGAGACAGATCATGGAAAAATGGGTGAAAAAAGAGAAAATCTCGGAGCAGGAGAAAGCCGAAGCCTTTGAACGGCTTTCTTTCACGACAGACTTACGAGAAGCAGCCGGAGAGGCGGATCTTGTCATTGAAGCCGTCGTCGAAAAGCTGGATGTGAAGAGGGGAGTGTTTGCGCAGCTTGATGAAATCGTCCCTTCCCATACAGTGCTGGCCACAAACTCTTCCACGATTGTCAGTTCTTTGATTGCCGATACGGTTTCACGTCCGGAGCAGGTCTGCAATATGCATTTCTTCTATCCTCCCCTTGTCATGGACTGCGTAGAAGTTGTCAAAGGGGAACATACATCAGAGGAGACAGCCCGAACGGTTATGGATGTCTGCCGGGCGATGAACCGTACAGCCGTTTTGCTGCAGAAAGAAATATCAGGATTTATCGCCAACCGGATTCTTTTTGCGATCCAGAAAGAGGCGATGAGCTTGTATGAAGGTGGATATGCGGACTTCAAGGATATCGATAAAATTACCCGCAAAGCGTTGAGCCATCCGATCGGCCCGTTTGAACTGATGGATTTATCAGGCATTGATGTCGGGTATTACGTGATGCAGCAGCAGTACAATGAAACAGGCGATCCTGCTCATCTGCCATCCAGGACGATGAAGGAAAAGGTCGAAGCCGGTGAGCTGGGAAGGAAGACAGGTAAGGGCTTTTATACGTATGAAACGAAGGTGAATCAGTAG	MKVNQIAVVGAGSMGHQIGMLSALAGFRTYVQDVRPDALREAEEKLRQIMEKWVKKEKISEQEKAEAFERLSFTTDLREAAGEADLVIEAVVEKLDVKRGVFAQLDEIVPSHTVLATNSSTIVSSLIADTVSRPEQVCNMHFFYPPLVMDCVEVVKGEHTSEETARTVMDVCRAMNRTAVLLQKEISGFIANRILFAIQKEAMSLYEGGYADFKDIDKITRKALSHPIGPFELMDLSGIDVGYYVMQQQYNETGDPAHLPSRTMKEKVEAGELGRKTGKGFYTYETKVNQ	PGPT0006075_3151	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006075-paaH|hbd|fadB|mmgB-K00074	NA	NA
AK012_02625	780	kduD		2-dehydro-3-deoxy-D-gluconate 5-dehydrogenase	ATGCATGTGAAGGACTTGTTTGATCTAACAGGGAAGACGGCACTCGTAACCGGTGGGGGACGAGGGCTTGGGAAACAGATGGCCGAAGGATTTGCAGAGGCAGGGGCGGATCTCGTCCTTTGTTCAAGAAAACAGGAGGCGTGCGAGGAAACCGCCCGGCAGCTGGAAAGAGAACATGGAGTCAAGGTTTCCGCCTATGGGTGTGATGTCACAAAGATAGAAGATATTGAACACGTGGTCCAAAAGACGCTGGAAGAGTTCGGCACCATCGACATTCTCGTCAATAACAGCGGAGCGAGCTGGGGGGCACCGACATTGGAAATGCCGTTGGAAGCTTTCCAAAAAGTGATGAACGTTAACGTGACCGGGACGTTTTTAATGTCCCAGAAGGTCGGAGAAGTCATGGTAAACCAAAAATCAGGAAAAATCATTAACATTGCGTCTGTAGCGGGTCTGGGCGGAGCGGATCCAAGGTTCATGGATACGATTGGATATAACGCGAGTAAAGGAGCGGTGATTACTTTCACGAAAGATCTGGCCGTGAAGTGGGGAACTCATAATATTCAAGTCAATGCCCTTGCTCCTGGATTCTTCCCGACGAAAATGTCGAAAGGACTATTGGAACAGGGGGGAGAGTTCATTCTGGACCGTACCCCTCTCAACCGCTTCGGGTCAGAGGAGGATTTGAAGGGAGCCGCTCTTTTTCTAGCTTCCCGGGCATCGGATTATGTCACAGGAGACGTGCTCGTTGTCGATGGCGGTATGCATGCGTCATGCTGA	MHVKDLFDLTGKTALVTGGGRGLGKQMAEGFAEAGADLVLCSRKQEACEETARQLEREHGVKVSAYGCDVTKIEDIEHVVQKTLEEFGTIDILVNNSGASWGAPTLEMPLEAFQKVMNVNVTGTFLMSQKVGEVMVNQKSGKIINIASVAGLGGADPRFMDTIGYNASKGAVITFTKDLAVKWGTHNIQVNALAPGFFPTKMSKGLLEQGGEFILDRTPLNRFGSEEDLKGAALFLASRASDYVTGDVLVVDGGMHASC	PGPT0018065_1165	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_OLIGOGALACTURONIDE_DEGRADATION,PGPT0018065-kduD-K00065	NA	NA
AK012_02626	432			hypothetical protein	TTGAAACCCTTGTCTTCCTCCCGCTGCTCGGTTACAAGGACTGTGACGGCCATAATCAAAGCACAGAATATGGTGTCCCGACGTCATTCTGAAATCAGCTGCCGTACATCTATCGCGGCTCTTCGCGGCAACCATCAGCACTTACGAGGAGACACGACCATTCCGTTTATGCTGTACTGTAAAGATGGACAACGCTTCTGCGCGCATGGCATCAAGGAAAAGGATGGTGTTTATGTATGCGTCAAATCTTCTATATTCAGAGCTGTTAAACGTTCTCCCGACCACTCTTCCTGTGCCGTTCTGGAGCTTTTGACTATCCAAGAAAACCATCCCTCTCACTATACGGCTACGGGAACGTTTATGACAGTCGACCTTTCTTGCTTCTGTTCCATCCGATGTTTAGGTACCACTACTCCGAGGAAAACATGGTAG	MKPLSSSRCSVTRTVTAIIKAQNMVSRRHSEISCRTSIAALRGNHQHLRGDTTIPFMLYCKDGQRFCAHGIKEKDGVYVCVKSSIFRAVKRSPDHSSCAVLELLTIQENHPSHYTATGTFMTVDLSCFCSIRCLGTTTPRKTW				NA	NA	NA	NA	NA
AK012_02627	837	rsbRC	COG1366	RsbT co-antagonist protein RsbRC	TTGAAAGCCAATCTAGCATTTCGCGAATTTCTGTTAAAAAAAGCTTGGAATTTAACGGAAGAATGGTACAATTCACTCGATCAAAGTTCGGTTTCCGGTGTTTACGCCTCCCGTGACCAAGCAACGATTGAAAACTTAAAATCCCAAAACTATGCGTTTCATAAACACCTGGCCGAGATTTTCACACTGGATAAAGAGGATTTCCTCGAACATATGAACGACTGGATCGTTGAAATTGGACGGGATCCCCACCATCTTGAGACACCCACCCACGAAATTATGCGGGAGTTCATGCGCGTCCGTATCCAGTACCTTGATTTCCTTAAAGAATTCATTGAAACCCAGAATGTCAGCGTAGACAGGGAAAGAGAAACACAATGGACCCGCCTCCTGGTGGATGCCTTCGATCAGATCATGTATAAAGTCGTCGAGGAGAAATCCAATTACCTGAACCGTACGATTGAAAAACAGCAGTCGACGATCAATGAATTAAGCTCTCCATTGATTCAACTTTCCAATGATCAGGCTCTCCTTCCTCTTGTCGGAAACATTGATACGGACAGAGCCGCTGCCATTTTGGAAAATATTTTAAGGAAGTGCACGGAACAGGATGTAGACCTGCTGTACATAGACTTGTCTGGAGTCTATCTCGTAGACACGATGGTTGCCCAGCAGATCTTCCAGCTGATCGACAGTCTCCGCCTTATCGGAGTCTCCTCAACCGTCGTAGGCATCCGTCCTGAAATTGCCCAGACCGCTGTTTCCCTCGGCCTGGATTTCAGCCATGTTACGACGACGGCAACGTTATCGCAGGCGATGGCAGGTCAAACCTTTTAA	MKANLAFREFLLKKAWNLTEEWYNSLDQSSVSGVYASRDQATIENLKSQNYAFHKHLAEIFTLDKEDFLEHMNDWIVEIGRDPHHLETPTHEIMREFMRVRIQYLDFLKEFIETQNVSVDRERETQWTRLLVDAFDQIMYKVVEEKSNYLNRTIEKQQSTINELSSPLIQLSNDQALLPLVGNIDTDRAAAILENILRKCTEQDVDLLYIDLSGVYLVDTMVAQQIFQLIDSLRLIGVSSTVVGIRPEIAQTAVSLGLDFSHVTTTATLSQAMAGQTF	PGPT0014945_1043	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
AK012_02628	768			hypothetical protein	ATGAGACAGGAAGAGGCTGTAGACGCGCTGTTGAAGAGTTTGAAAGCAGATCCGCTCGTGAAAGCTGTCTTTTTAAAAGGATCGATGGGAAGAGGGGAGGAAGATGACCATTCGGATGTCGACCTTTATGTTCTTGTAGATGAAGAAGAACAAGATGTGTTTTTAAAGGAAAGAAAAAAGCATCTATTGCGCTACCAACCTCTCCTGTTTTATGACGAGATCTTCATTATTGCTCCGCAGGTCATTGCGGTTTATGATAATCTCCTCCACGTGGATCTATTTACGGTTACAGAACAAACGCTTATTCATAAGGATTATTTCCGAGTCCTTTATGACCCTGAAAGGCGGATGGAAAAGCATCAACAGGAGCAGCATCTGTATCTGGAGGAGCGGGGCTTTCAGGATGCTGTGGATGATGTCACATTCTTTTTGCTGCAGTATAAAAAAACATCCGATAGAGGAAATGATATGTGGGCTTGTAAGGTCATGAATGATCTGGCTGTAAAGACAGCAGAAATTCTTCTTCAGCATTATGTTCCTGATCGTGCACAGCTGGGGTTGAAAACAGCGGAGAAATCCCTTCCTGCAGAGCCGAAAGAAAAACTGCAGCACGTTTATCAACATCTCTCCCTGAAGGATCATCCAAAGGCTGTGCATCTTCTCATCCATTTAATTGAAGGGGAGATTACGTGGCTCTATGAAGTGTGGAAGGGTAAAGAAGACACCCTCCCGTTTTTGGAACGCATGATCAGCGAATTAAAGAAGTAG	MRQEEAVDALLKSLKADPLVKAVFLKGSMGRGEEDDHSDVDLYVLVDEEEQDVFLKERKKHLLRYQPLLFYDEIFIIAPQVIAVYDNLLHVDLFTVTEQTLIHKDYFRVLYDPERRMEKHQQEQHLYLEERGFQDAVDDVTFFLLQYKKTSDRGNDMWACKVMNDLAVKTAEILLQHYVPDRAQLGLKTAEKSLPAEPKEKLQHVYQHLSLKDHPKAVHLLIHLIEGEITWLYEVWKGKEDTLPFLERMISELKK				NA	NA	NA	NA	NA
AK012_02629	1260	proA	COG0014	Gamma-glutamyl phosphate reductase	ATGACTGTAACTACAAAAGTAAATGTGGAAGCCCAGGCGATTGAAGCGAAGAAAGCATCCAAACAGCTCATGATCCTTTCAAAAGAAGAAAAGAACGAAGCCCTGCTGCATCTGGCTGATGTTCTGGAACGTGAATATGAAAGCATTCTCCAGGCTAACGAAAAAGATCTGGCCAATGGACGCGAACAAGGATTTACCGATGCGTTTATGGACCGTCTTTCCTTGTCTAAGGAACGCGTGGAAGATTTTGCCCAGGGACTTCGGGATGTTGCTGAACTGGAAGATCCGACAGGGCAGGTTCTGACCGACTGGACACTGGAAAATGGACTGCAGGTAGAGAAAGTTACTGTCCCGCTCGGTGTCATCGGGATGATCTATGAAGCTCGTCCGAACGTCACTGTTGATGCGACCGGGCTTGCTTTGAAATCAGGCAATGCCATTGTCCTGAAAGGTGGATCTTCTGCCATTCATTCGAACGAAGCGATTGTAGAAGTGATTCACAAAGGTCTTGAGGAAACGAAAATGCCTAAGGAAGCTGTCCAGTTCATTGCTTCCACAGATCGTGCTGCAACGAACGAACTGTTCACAATGAAAGAGCATATCGACGTATTGATCCCACGTGGAGGCGGCCGCTTGATTCAGGCTGTTGTGGAAAACGCCACCGTTCCTGTTCTTGAAACAGGGGTCGGAAACTGCCACATTTATATCGATGAGCAGGCGGATGCAGAAAAAGCGTTGAACATTTTGATCAATGCTAAAACCGACCGTCCGGCTGTTTGTAATGCAGCAGAAACACTGATCGTTCACAAAAACTGGTTGAAAGAGAACAAAGATGCGCTCATCGCAGCATTAAAAGAGCACAACATTGCGGTTCATGGTGATGAGCACATCGTTGATACAATTCCAGGTGCTGTTCCCGCCGGAGAAGAAGACTGGGCCAATGAATACTTGAGCACGGATCTTGCGGTGAAAGCTGTAGACAGTCTGACAGATGCAGTCGCTCATATTGAAACGTATGGAACGAAGCACTCTGAAGCGATTGTTACAGAAGATCAAAAAGCTGCCGACCACTTCCTGGCCCTTGTTGACGCAGCAGCTTTATACCACAATGCTTCCACGCGCTTTACAGATGGAGGGGCCCTTGGATTCGGGGCGGAAATCGGAATTTCCACCCAGAAACTTCATGCCCGTGGACCAATGGGACTGCCGGCACTGACAACGATCAAGTTCCTTATGAAAGGGAACGGTCAAATCCGATAA	MTVTTKVNVEAQAIEAKKASKQLMILSKEEKNEALLHLADVLEREYESILQANEKDLANGREQGFTDAFMDRLSLSKERVEDFAQGLRDVAELEDPTGQVLTDWTLENGLQVEKVTVPLGVIGMIYEARPNVTVDATGLALKSGNAIVLKGGSSAIHSNEAIVEVIHKGLEETKMPKEAVQFIASTDRAATNELFTMKEHIDVLIPRGGGRLIQAVVENATVPVLETGVGNCHIYIDEQADAEKALNILINAKTDRPAVCNAAETLIVHKNWLKENKDALIAALKEHNIAVHGDEHIVDTIPGAVPAGEEDWANEYLSTDLAVKAVDSLTDAVAHIETYGTKHSEAIVTEDQKAADHFLALVDAAALYHNASTRFTDGGALGFGAEIGISTQKLHARGPMGLPALTTIKFLMKGNGQIR	PGPT0014215_2351	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014215-proA-K00147	NA	NA
AK012_02630	1128	proB	COG0263	Glutamate 5-kinase 1	TTGAGTCAAAATAAGAAACGAATCGTTATTAAAATTGGAAGCAGTTCACTTACAAGTGCCCACGGTGAAATCAGCCGTCGCAAGCTTGAAAAACTCGTCGATGAAGTTGTCCGCCTGAAGGACGACGGCCATGAAGTTCTCCTTGTCTCCTCAGGAGCTGTAGCCGCAGGTTACCGGAAACTGGGATGCCTCGAGCGTCCAAGCACCCTTCCGGAAAAACAGGCAGCCGCATCCATCGGCCAGGGACTGTTAATGGAATCTTATTCCGACCTATTCCTATCCCATGGGTATATGGGTTCCCAAATCCTCATCACACGCAGTGATTTTTCTGATGAAAACCGCTACAACAACGCACGTAACACCATCAATGTCCTACTAGAACGCGGAATTATCCCTATTGTAAATGAAAATGACACCATTACGATCGACAGACTTAAGTTCGGAGATAACGACACGTTGTCAGCAAAGGTCGCTGGCCTTGTCGACGCCGACCAGTTGATTATCCTTTCAGATATCGATGGACTTTATGATGCTGATCCTAGAAAAAACTCCGATGCAAAACTGCTTGATAAAGTCCACGAGATTACCCCTGAAATTGAAGCTGCTGCCGGTGACCCTGGTAGTGCAGTTGGAACAGGCGGCATGAAATCTAAAATTGACGCCTTTAAAATTTCCATGGCTTCCGGTATCGCGTCCTTCCTAGGGAAGGCCAACACCCCGAATATCGTATATGATGCGGTCTATGGAGATGCTGTAGGAACGTACTTTGAAATCACGACTGACTCTGAAAATCTGGATCAGAAGAAACAGTGGATTGCCTTTAATTCCGGACCGGAAGGGAAAGTGATCATTGACCACCGTGCGAAAGAAACGGTTGTCGACATGAAGCAGAGTTTAATGCCGGGGAATGTTCATCACGTCACAGGCCGCTTTGAAAAAGGTGCCGTTGTAAGAATCCAGGACCTGGATGGTGAAGAAATCGGCTTAGGTGTAGTCAACTATTCTTCTGAACAAATGAAAAATATGATCAATCTGACCGAACCTGAACTCGAGTCTTACGATAAAGCCGCCGTTGAACAAAAAGATTTTGTCTGCCACTTAGAAGTATCCATGCCCGTAGGCGTTTAA	MSQNKKRIVIKIGSSSLTSAHGEISRRKLEKLVDEVVRLKDDGHEVLLVSSGAVAAGYRKLGCLERPSTLPEKQAAASIGQGLLMESYSDLFLSHGYMGSQILITRSDFSDENRYNNARNTINVLLERGIIPIVNENDTITIDRLKFGDNDTLSAKVAGLVDADQLIILSDIDGLYDADPRKNSDAKLLDKVHEITPEIEAAAGDPGSAVGTGGMKSKIDAFKISMASGIASFLGKANTPNIVYDAVYGDAVGTYFEITTDSENLDQKKQWIAFNSGPEGKVIIDHRAKETVVDMKQSLMPGNVHHVTGRFEKGAVVRIQDLDGEEIGLGVVNYSSEQMKNMINLTEPELESYDKAAVEQKDFVCHLEVSMPVGV	PGPT0014220_1351	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014220-proB-K00931	NA	NA
AK012_02631	843	proC_2	COG0345	Pyrroline-5-carboxylate reductase	ATGATTAAACAAACGATTGCTTTTCTAGGTGCAGGATCTATGGCAGAGGCGATGATTTCAGGAATGGTGGAATCGGAAAATATTCCAGCTGAACAGATCATTGTAACCAATCGAAGTAATCAGGAACGTTTAAACCACATTCAATATAAATACGGCGTCCGTACAGTTTTAAAAGATGAATTGAATTTCGCTGAAGTGGATCAATTCATTCTGGCCATGAAGCCGAAAGATATTGACGCTGTTTTGGAAGACTTGAAAAATAAATTGAACCCGGATCAAGTACTTGTATCTGTTCTTGCCGGTATTTCTACTTCTTATATGGAAGATCGTCTGAACGACCATCAGCAGGTGGTGCGTGTGATGCCGAACACTTCCAGCATGCTGCGTGAATCTGCCACGGCCGTGTGCCCTGGTCAATTCGCAGACATGGAGAACGTCGAGGTTACGAAAGCCCTGCTTCGTTCAATCGGTGAAGTCTTCGTCATTGAAGAAGAGAAGATGGATGTTTTCACTGGAATCGCTGGAAGCGGACCTGCTTATTTCTACTATTTGATGGAGCATATCGAAGAAACAGGCCGTGCAGAAGGAATGGACTCAGAAACGCTGCGCGAAATCGGAGCACAGACGCTTCTTGGTGCCGCTAAAATGATGTTGGAGCGCGATGAATCTCCGGCAGAACTACGGGAAAACGTAACTTCTCCAAACGGTACAACAGCAGCAGGACTCGATGCGCTTGCAGCCAGCGGCGGAGGTCAGGCTATTTCAGAAGCCGTTCGTGGTGCAGCATCCCGTTCCAAAGAACTAAGTGCAGAACTTGAAGGACTTCTCGTAGGCAGTAGATAA	MIKQTIAFLGAGSMAEAMISGMVESENIPAEQIIVTNRSNQERLNHIQYKYGVRTVLKDELNFAEVDQFILAMKPKDIDAVLEDLKNKLNPDQVLVSVLAGISTSYMEDRLNDHQQVVRVMPNTSSMLRESATAVCPGQFADMENVEVTKALLRSIGEVFVIEEEKMDVFTGIAGSGPAYFYYLMEHIEETGRAEGMDSETLREIGAQTLLGAAKMMLERDESPAELRENVTSPNGTTAAGLDALAASGGGQAISEAVRGAASRSKELSAELEGLLVGSR	PGPT0014225_1156	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
AK012_02632	330			hypothetical protein	ATGGATTATATACACTCCATTGAAGATTTAGATGCTTTTGTGAATGAGGAAATGCTCTCGATTGTTTATGTATCCCGACCGGGCTGCTCCGTTTGTCATGGTCTTCTGCCTCAAGTGGAGGATCTGCTGGCTGATTACCCCAAGATCAAAGCCCGCCACGTAAATGCAGATGAGGTACCCCAGGTAGCCGGTCATTATTCTGTTATGACCGTTCCGGCCGTTCTTGTCTATTCGGAAGGGAAGGAACTCTTCCGGAAAGCCCGTTTCGTGCCGATTGGTGAACTCAATCAGCAGCTTGCTAAATTAAATCATTTTATAAACGAAAGCTGA	MDYIHSIEDLDAFVNEEMLSIVYVSRPGCSVCHGLLPQVEDLLADYPKIKARHVNADEVPQVAGHYSVMTVPAVLVYSEGKELFRKARFVPIGELNQQLAKLNHFINES				NA	NA	NA	NA	NA
AK012_02633	615			hypothetical protein	ATGGACTGGATATGGAAAGCTGTATTAATCATTATTGCGGGTACGATTATCCTGCGTATCGCCGGCCGGAAGTCAATCTCACAGATGACCTTGTCCCAGACAGTTATCATGATTGCCATTGGGTCCCTGCTGATTCAGCCGGTAGCAGGAAAAAACATCTGGGTGACGTTTGGTGTTGGTGGTGTGCTTGTCTTAACTTTGATGGCGATGGAATATTCCCAGGTGAAATTTGATTTTATGGAACGGTTTTTAACGGGGAGGTCTGTCTCCATTATTGAGAATGGTCAGCTGAATGAAAAAAACTTGAAGAAGCTGCGTTTCACCGTGGACCAATTGGAAATGAAGCTCCGCCAGTCGAATGTTTCCTGTATCCAGGATTTGAAATCCGCCACACTGGAGCCGAACGGCCAGCTTGGCTTTGAGTTGAAGGAACATAAGAAACCAGCCACCAAACAGGACATGGAGGATATAAAACAGCAGCTGCATCTGCTGGCTTCCAAGCTGTATCCTGATCAAGCAGTTCAGGCTTCATCCGAAAGCCCGTCAGGCGAGGACCTGTTTAAGGAAGTCGAAAACAAACACCATGAACAGCCCTTTCCGAAACGTCTTCAGTAG	MDWIWKAVLIIIAGTIILRIAGRKSISQMTLSQTVIMIAIGSLLIQPVAGKNIWVTFGVGGVLVLTLMAMEYSQVKFDFMERFLTGRSVSIIENGQLNEKNLKKLRFTVDQLEMKLRQSNVSCIQDLKSATLEPNGQLGFELKEHKKPATKQDMEDIKQQLHLLASKLYPDQAVQASSESPSGEDLFKEVENKHHEQPFPKRLQ				NA	NA	NA	NA	NA
AK012_02634	855			hypothetical protein	ATGGTGCTGCTTCTTCTTATTGGAACGGGTGTTTATATGAAACAGTCATCCCAGGTGAAAGCTACCTGGATATGGGATTTAAACGAAATGGAAGGAAGTATAGAGGAGAATATTGCTTTCGCTGACGAACAGAAAGTTAATTTAATTTACCTGCACGTCAGTATCAAGGGGTTGGACGAGCACCGGGTAGAGGCGTTTATAAAAGAAGCTTCTGCCCATGATATTCAAGTGTACGCCCTTGGCGGCGATCCGAACTGGGCTCTTCACAAAAACCAGGACAGTCTTTCTACGTTTATATCTATAGTTGAGGATTATAATCAGCAGGTTTCACAGGAAGCTGGATTCAAAGGGATCCATATGGACATCGAGCCCTACCTGCTTCCGGAATGGGAAGCAGGCAGGAATGAAGTGATCACTCAATGGATGAATAATGTCACGTTTTTAAGGCAGGAAATCGCAAAAGCAGACGAGGATCTTCAATTGAGTGGTGACTTTCCGTTTTGGGTGAATGATTTACAAGTACCTGGAGGAAATGAATCGCTCAGCTCATGGATGCTGTCTCAACTGGATTCCATGACGATAATGGCTTACAGGGACTTTGCGGAAGGAAGGAACGGTATTAAGCATCTTGCTTCCCCCCTCGTCGAGCAGGCGGCGAATCAACACAAGTCGGTGGTCATCGCTGTAAACGTCATCAAGACGGATGAAGGCAGCTATACCACCTTTTATGACAGCCCGCCTGATCAGTTGGAGCAGGAATTAAACGGCTTGAAACAAAGTTTTAAGGGGCATCCCGGTTATGCAGGAATCGCTGTCCATGATTATCGTTATTGGAAACTTTATAGAAATAAATAA	MVLLLLIGTGVYMKQSSQVKATWIWDLNEMEGSIEENIAFADEQKVNLIYLHVSIKGLDEHRVEAFIKEASAHDIQVYALGGDPNWALHKNQDSLSTFISIVEDYNQQVSQEAGFKGIHMDIEPYLLPEWEAGRNEVITQWMNNVTFLRQEIAKADEDLQLSGDFPFWVNDLQVPGGNESLSSWMLSQLDSMTIMAYRDFAEGRNGIKHLASPLVEQAANQHKSVVIAVNVIKTDEGSYTTFYDSPPDQLEQELNGLKQSFKGHPGYAGIAVHDYRYWKLYRNK				NA	NA	NA	NA	NA
AK012_02635	981	glmU_1		Bifunctional protein GlmU	ATGAGTGAAACGTTTGCTGTTGTATTAGCGGCAGGTAAAGGAACAAGGATGAAATCAGACCTTCCGAAAGTTCTTCACGAGGTTTGTGGAAAACCTATGGTTGAACATGTCATCGACCAGCTGAACCGTCTTTCCATCGATGAAATTGTTACGATAGTTGGGCATCAGAGTGAACGAATACAGGATCAGCTGGGTTCCGCAGTGGATTATGCGCATCAAGCCGAGCAGTTAGGCACAGCTCATGCCGTGAAGATGTCCCGTGAGCAGCTGGGGCATCGTGAAGGATCCACGCTGATCATCACGGGGGATACGCCGCTTATATCCAGTCGTACGTTATCAGAATGTCTGAACTTCCACAAGGAAACAAAGGCAGCTGCTACCATTCTGACTATGAAGCCGGGGGATCCCACCGGATATGGACGAGTTATTCGAAATGAACAAGGAGCGGTCGAGCGCATCGTCGAAGAAAAAGATGCTTCCGAACAGGAGCGGTCGGTCAACGAAGTGAATTCAGGGATTTTCTGTTTCGATAACCGTCTGTTATTTGAGGCACTGGATCTTGTGTCGACTGATAATGAACAGGGGGAATATTATCTGCCGGACGCTATTGAAGTCCTTCAGCGTAAAGGTGAGCGAATTTCAGCAGTTAGTGTGAAAGACGTTGAAGAAGGACTCGGCATTAATGATCGAACACAGCTTGCCAGGGCGGAAAAAATTCTTCAGAAACGAATCATTGAATTCCATATGGAAAATGGGGTAACCATCATTGATCCATTCTCGACTTACATAGGTGCTGACGTGACGATCGGCATCGATACGGTGATTGAACCAAGAACTCACTTAAGGGGGAAAACAAACATAGGAACAAACTGTATCGTTGGTCCGGACGTGGATTTGGAAGATTATCAGGCAGCCAACCGTACAAAAGTTCAAAATTTCTCAAGAACCAATGATATCAGCTCCCTGCCCTATGTTAAATAA	MSETFAVVLAAGKGTRMKSDLPKVLHEVCGKPMVEHVIDQLNRLSIDEIVTIVGHQSERIQDQLGSAVDYAHQAEQLGTAHAVKMSREQLGHREGSTLIITGDTPLISSRTLSECLNFHKETKAAATILTMKPGDPTGYGRVIRNEQGAVERIVEEKDASEQERSVNEVNSGIFCFDNRLLFEALDLVSTDNEQGEYYLPDAIEVLQRKGERISAVSVKDVEEGLGINDRTQLARAEKILQKRIIEFHMENGVTIIDPFSTYIGADVTIGIDTVIEPRTHLRGKTNIGTNCIVGPDVDLEDYQAANRTKVQNFSRTNDISSLPYVK	PGPT0018955_4319	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
AK012_02636	168			hypothetical protein	ATGGAGGTCATGGAACGGAAGCAGACAAAGCTGAATAAAAGTAATTTAAAAGGGCTGATGCTCGGGGTTTATGAAAAGGTGGAAAGCGAAAGCATCCAAACGGACCGTCAAATTATTGACGAAGTTATCGAGCAGTTAAGACCGATTATCCAGCCTATAGAGGAATAA	MEVMERKQTKLNKSNLKGLMLGVYEKVESESIQTDRQIIDEVIEQLRPIIQPIEE				NA	NA	NA	NA	NA
AK012_02637	1833	glmS_1	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGCGGAATCATGGGATATGTTGGAGATAAAGAAACGCAGCGTGTATTAACAGAGGGGCTGCGTAAGCTGGAATATCGCGGTTATGACTCCGTTGGTATTGCATTGAACAACGGGGAAACTCTTCAGCATGAGAAATCTAAAGGAAGACTTGAAGTGTTGGAAGAAAAATTGGAAGGGGCTCCACTTTCAGGATCGATCGGGATCGGTCATACACGCTGGGCCACACACGGGCGCCCGTCAGATGAGAATTCCCATCCGCACCTGGATGAGAAATCAAAATTTGCTGTCGTCCATAACGGCATCATTGAGAACTATATGGAAATTAAACGTGAGTTGAAGGAGGAAGGGTATACCTTTACTTCTGAAACGGATTCCGAAGTAATTTCCCACCTGTTCTCTCATTTATACGATGGAGAAATGGTATCGACCATCCAGAAAGTGGTGGATAGACTGGAGGGTGCCTATGCGCTTGGAATTGTTTCTGAGCATGATCCGGAACGTTTATATGCCGTTCGTGAAGCCAGTCCTCTTATTATCGGATCTGGAGAGGGAGAATCCTTGATTAGTTCCGATATCCCCGCCTTACTTGAACATACACGTGATATATACATCTTGGAAGACGGGGAGATGGCGGTTCTTTCAAAAGAGAACATCACGTTGATGGAAACGAAGACAGGAAAGGAATTAACACGCGATATCTTCCGTGTGGATTGGGATATGGAACAGGCTGAAAAAAATGGCTACGAACACTTTATGCTGAAGGAAATTTTTGAGCAGCCAACAGCATTACAAAAAACGATGACAGGACGGCTTGATCAGGAAGCGAAGCGTGTGGACTTTGACGAATTACAATGGTCAGCGGAAACCATTCGGAAGTGGAATAAAATTACAATTGTAGCCTGTGGGACAGCTTATCATGCAGGATTGGTCGGAAAGCAGGTCATTGAAGAATTGACGCGTATTCCAGTCGATGTCGAAGTAGCTTCGGAATTTCGGTACCGCCGCCCGATCATAGACGAGAAAACACTGGTCATTGTTGTCAGTCAATCTGGAGAAACGGCAGATACTCTTGCGGCGCTGCGACAAAGCCAACATCTCGGAGCAAATGTTCTTGCCATAACAAACGTAGTTGGAAGCTCCATTGCGCGTGAAGCGAATGAGGTAATCCTGACGATGGCTGGTCCGGAAATTGCCGTAGCTTCCACCAAAGCGTACACCACTCAAGTGCTGTCTTTCTACCTATTAGGTCTGTATCTTGCCGAGAACAAACAAACCGTCACGGAACAAGAGTATAAGCAGCTGATTGAGTCGATCATTGAACTACCTGAAAAAATAGAGGGGATGCTTGAGCACTCTAAAGGAATCCGTTGGTACAGTGATTCCATCAAAGATGCCAAAAGTGTCTTTTTCCTTGGCCGGGGACTGGATCATGCGGTAGCGCTGGAAGGTTCTTTAAAATTGAAGGAAATTTCCTATATTCACTCCGAAGCATACGCCGCCGGGGAATTGAAGCACGGGACGCTTGCTTTAATTGAAGAAGGCACACCGGTCGTTGCCCTTATTACCCAGGATGAAGTGAGTGAGAAGATGCTGGGTAATGTTAAGGAAGTGAAAGCTCGTGGCGCACAGGTGCTTGGAGTAGCAGAAGAAGGAAATCTGGATATTTGGGAGTATGTGGACGAAACATGCTACATTCCAAACACCCCGTCCATTTTGACGCCACTGCTGACGGTCATTCCTTTACAATTAATCGCTTATTATACTTCTCTGGCTCTCGGCAATGATGTTGACAAACCAAGAAACCTTGCGAAGAGCGTTACGGTCGAGTAG	MCGIMGYVGDKETQRVLTEGLRKLEYRGYDSVGIALNNGETLQHEKSKGRLEVLEEKLEGAPLSGSIGIGHTRWATHGRPSDENSHPHLDEKSKFAVVHNGIIENYMEIKRELKEEGYTFTSETDSEVISHLFSHLYDGEMVSTIQKVVDRLEGAYALGIVSEHDPERLYAVREASPLIIGSGEGESLISSDIPALLEHTRDIYILEDGEMAVLSKENITLMETKTGKELTRDIFRVDWDMEQAEKNGYEHFMLKEIFEQPTALQKTMTGRLDQEAKRVDFDELQWSAETIRKWNKITIVACGTAYHAGLVGKQVIEELTRIPVDVEVASEFRYRRPIIDEKTLVIVVSQSGETADTLAALRQSQHLGANVLAITNVVGSSIAREANEVILTMAGPEIAVASTKAYTTQVLSFYLLGLYLAENKQTVTEQEYKQLIESIIELPEKIEGMLEHSKGIRWYSDSIKDAKSVFFLGRGLDHAVALEGSLKLKEISYIHSEAYAAGELKHGTLALIEEGTPVVALITQDEVSEKMLGNVKEVKARGAQVLGVAEEGNLDIWEYVDETCYIPNTPSILTPLLTVIPLQLIAYYTSLALGNDVDKPRNLAKSVTVE	PGPT0017630_2788	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
AK012_02638	1359	wbpA	COG0677	UDP-N-acetyl-D-glucosamine 6-dehydrogenase	ATGGGATATTTTGAACAGCTGTCTCAGAAGATTGAAATGAAGAAAGCGAACATCGGCGTCGTCGGTATGGGGTATGTCGGGCTGCCACTGGCTGTTGAGATGGTTAAAGCAGGTTTCAATGTATGTGGTATCGATTTGGACCAGAGGAAGATTCAGACCCTGCGTGAAGGGCATTCCTACATCAACGATATTGCGGATGACGATTTGCAGGAGGCGCTTGCCACGGACCGATTCTTTCCAACAAGTGACTATGAAGTCGTCAAAGACCTGGATGCCGTCAGCATTTGTGTCCCTACACCATTAAGTGAGAACCAGGATCCGGACACCTCTTATATTACAGGCGTAATCAACAGCATGAAACCGCATATGAAAAAAGGAATGCTTGTAACGCTGGAAAGTACCACATATCCGGGGACGACCGAAGAATTGATTTTGAAAGAATTCAATCGTATGGGATACGTCGAAGGCGAGGATATCTTCCTTTGCTATTCACCTGAACGTGTGGACCCTGGTAATCAATCTTTCAATACGCATAACATGCCGAAAGTTATGGGCGGCATGACAGAGAAGTGTAATACAGTCGGAGGGCTTCTCTACAGAAATTACATTCCAAATGTTGTTCCTGTTACATCACCGAAGGTTGCAGAAATGTCCAAGCTTCTTGAAAACACGTTCCGCAGCGTCAACATTGCTTTTGTCAATGAAATTGCAATGATGTGTGAGCGAATGGATATTGATGTATGGGAAGTGATTGATGCCGCAGCTACGAAACCCTTCGGCTTCATGAAGTTTCAGCCGGGACCGGGAATTGGCGGTCACTGTATCCCTCTGGATCCGATGTATTTGTCCTGGAAAGCTAAAGGATTCCGTTTCTATAGTAAATTCATCGATCTGGCCCAATCCATCAACAGCAACATGCCGGACGTCGTTGTTGGAAAGACATCACAGGTATTGAATATTCAGGGGAAATCCCTCAATGACTCCAAAATCCTTATTCTCGGTATGGCCTATAAACCGAACATCAGTGATCTGAGAGAATCGCCCGGGCTGTATCTTTATGAACTTTACAAGGAAAACGGAGCAAACGTCGAGTATCACGATCCCCATGCCCACAGTTTCCTGGATGACGATGGGGGAGTTGTCCACTCGGTTCCTTATGATAAAGAACAGTTGAAAGAGTATGACTGCCTCGTTATGGTCACCAACCACAGTGACTTTGATTATCAGGAACTGGCGGAACTAGGGGTTCCTATTGTGGATACAAGAAACGCTTTCCAAGAATTCGACCAAACACACATTCACAAACTTGGAACGGCTTCAAAAGTAAACAAGAAACAACACGAATCGATTGCTCTGTAA	MGYFEQLSQKIEMKKANIGVVGMGYVGLPLAVEMVKAGFNVCGIDLDQRKIQTLREGHSYINDIADDDLQEALATDRFFPTSDYEVVKDLDAVSICVPTPLSENQDPDTSYITGVINSMKPHMKKGMLVTLESTTYPGTTEELILKEFNRMGYVEGEDIFLCYSPERVDPGNQSFNTHNMPKVMGGMTEKCNTVGGLLYRNYIPNVVPVTSPKVAEMSKLLENTFRSVNIAFVNEIAMMCERMDIDVWEVIDAAATKPFGFMKFQPGPGIGGHCIPLDPMYLSWKAKGFRFYSKFIDLAQSINSNMPDVVVGKTSQVLNIQGKSLNDSKILILGMAYKPNISDLRESPGLYLYELYKENGANVEYHDPHAHSFLDDDGGVVHSVPYDKEQLKEYDCLVMVTNHSDFDYQELAELGVPIVDTRNAFQEFDQTHIHKLGTASKVNKKQHESIAL	PGPT0018920_130	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS_D_MANNURONIC_ACID_MODIFICATION,PGPT0018920-wbpA-K13015	NA	NA
AK012_02639	813	rcsC_3		Sensor histidine kinase RcsC	ATGGCAGAGACTCATATAGGTTCCAGAATCATTCAATCATTCAATCATTTTCTACACTATTATCAGAGCAGCCAATTATCGTGCGGGATTATCCTGGCTCATGCAGAAATGAATGAAGCAGGGGTCAGGGAAATGGAAATGTATTTGGAGAAAGAAGAGCCGGGCACGGCTTTCCAAATCAGCTATGATACTCAGGAAAAGATTCTCGGCATCCTGCTCGATGGTTGTGCATTGGCTTATACCCATTTCCTATCGCTGCACGTGAAAGATGTGCTAAGCCGGAACCGCCAGCTTGCCGGAGATTTATGGGTGGGGAGCTTTCCTGAAAACAGTGACCATGCAGAACAAATGATGTTTGATATGCTTTGGAAAATCATTGATGGAAACCATCAAACCAATGATATTCATGTGTATCAAGGGCAAAAGGACCAACCAGCCAAATCCGTCCTGCTTGTCGATAGTGATCAAAGCTTAGTTCAATTATTGACCAACTACCTGCAGGGAAAGGGGTATGTCGTCCATACAGCAGAGGACGGGAAGACAGGGGTGGATATCTATCAAAATGTCCTGCCGGATCTTGTCATTACGGAAATCAATCTGTCCGCTCTGGGAGGCTATCAGTTCATCAATCAAATTAAGAACATCGATGAAAACTCCAATAAGTCTACAGAGATCATTGTTCTTACAAATAAACAATTAGAAGAAGATGTGAGGCGCACGTTTGATTATGGTGTCTCTGATTATATGACCAAGCCCTTTTCACTCGTAGAGCTTGAAGCACGGATGAAAAGACTCGTAAGCGTTTCTAAATAA	MAETHIGSRIIQSFNHFLHYYQSSQLSCGIILAHAEMNEAGVREMEMYLEKEEPGTAFQISYDTQEKILGILLDGCALAYTHFLSLHVKDVLSRNRQLAGDLWVGSFPENSDHAEQMMFDMLWKIIDGNHQTNDIHVYQGQKDQPAKSVLLVDSDQSLVQLLTNYLQGKGYVVHTAEDGKTGVDIYQNVLPDLVITEINLSALGGYQFINQIKNIDENSNKSTEIIVLTNKQLEEDVRRTFDYGVSDYMTKPFSLVELEARMKRLVSVSK				NA	NA	NA	NA	NA
AK012_02640	1428			hypothetical protein	ATGAGAGAGGTCTTATTGTTCTATGGCATTTTTGCCATGTATTACGTTGTTACGATCAATACCATTTACTTCGGAATTATTTTATTTTCCTTCCGGAGAATCCTTGGAATTATGAAGGAAACCTTTTATTCAAAGCACGAGTCGCTCTCCGGATCCAAGCATGTCCCGCCGATCTCCATACTGGTGCCGGCATTTAATGAAGAGTTGACCATTAAAGAGAATGTCCGGTCCCTGCTGGCCCTGCACTACCCTCAATTTGAAGTGATTGTGGTTAATGATGGATCGGGCGACAAAACCCTCGATACATTAATTGAAGAGTTCCAGTTGAAGTATCATGCGCCTAATATGATCAAAGATACGATCGAAACAGCGGAGGTCAAAGGGGTTTACTACAACCCAGACTATCCAAGCCTCTATCTTGTAGATAAAGAAAATGGCGGAAAAGCAGATTCGCTGAATGCCGGCATCAACCTGTCGAATTACTCCCTTATTTCTTCGATCGATGCCGACTCTTTACTGGAAGAAGATGCACTGATCCGTATTGCCAGAAAGTATATGGAAAATCCCGAAGAGAATGTGGCGATTGGTGGGAATGTCAGAATTGCCAATGGCTGCCGTATCCAAAACGGGATGGTGAAGCAGGTCAATCTTCCGAAAAAATTACTACCGATGTTCCAGACGGTGGAATACTTAAAAGCTTTTCTCGGCGGAAGGATTGGCTGGAGTGACGTCAACGGCTTGATTATCGTTTCTGGTGCTTTCGGTGTCTTCAAGAAAGAATACGTCATTAAAGTTGGAGGCTACCGCGGCGGTTATCCAGGCGAGGACATGAACATTATTATTAAACTTCACCGCTATATGCTGGACCATAAGCTTCCCTACAAGATTGATTTTTGCCCGGATGCGGTCTGTTGGACGCAGGCTCCGGATACGTTCAAGATTCTTGGCAGCCAGCGTAAACGCTGGGGACGGGGAAATTTGAAAAATATGATTGAAGAAGGACGTTTCATGTTCATGCGTCCGAAATATAAAATCATGGGTATGTTAACGATCCCATATAACATTATCTTTGAAACATTGAGCCCTTACTTCAGGATTACAGGTTTTCTCGCCATTCTCGGTTACAGCTTCATGGACATGACCGGGTGGAAGCTCATGGGGATCTTCATGCTGATTAATGTTCTGTATGGGACCCTGCTTGGATTAGGTTCTCTGCTTCTGGAGGAAATGGCCTTTCAGCGCTACCCGCGAGTCCGCGACTATTTCAAAATGATCATGTACACGGTGCTGATGTTTTTCGGATATCGTCAACTGGGGATTTTATGGAGATTCCTCGGTCATATCGACTTTATGCGAAAAAATAACTCCTGGGGGGCAATGGTAAGAACCAGTTGGAATGAAGATGAAGACAAAGAAAAAGCAGCGTAG	MREVLLFYGIFAMYYVVTINTIYFGIILFSFRRILGIMKETFYSKHESLSGSKHVPPISILVPAFNEELTIKENVRSLLALHYPQFEVIVVNDGSGDKTLDTLIEEFQLKYHAPNMIKDTIETAEVKGVYYNPDYPSLYLVDKENGGKADSLNAGINLSNYSLISSIDADSLLEEDALIRIARKYMENPEENVAIGGNVRIANGCRIQNGMVKQVNLPKKLLPMFQTVEYLKAFLGGRIGWSDVNGLIIVSGAFGVFKKEYVIKVGGYRGGYPGEDMNIIIKLHRYMLDHKLPYKIDFCPDAVCWTQAPDTFKILGSQRKRWGRGNLKNMIEEGRFMFMRPKYKIMGMLTIPYNIIFETLSPYFRITGFLAILGYSFMDMTGWKLMGIFMLINVLYGTLLGLGSLLLEEMAFQRYPRVRDYFKMIMYTVLMFFGYRQLGILWRFLGHIDFMRKNNSWGAMVRTSWNEDEDKEKAA	PGPT0023485_142	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
AK012_02641	1167			hypothetical protein	ATGTATATCAACGTCCAAATTGCTTACTACATGATTGGGGTTTTACTTATTCTTATGGTTGTCTTCATTACAGCAACATTAAGTTTGAAATGGAATAAAAAACGTGTAGAGAAGCGTAGAGCGATATGTCTGGAACATTTTAAAGATTATCTGGATTATATACAAATGCATCTAGGAGAAGAAGACCGATTAAGAGCTCCAGGCCGCTCCCTCACCACATTTGAAAGAAGAGTGCTGCAGAGCGAGTTGGTTCAGTGGATCAATCAGCTGGATGGGATTTACAGGAAACGGCTGTTAAAGCTGTGCGGTGATCTCGGATTGGTCGAGCACAATTTGAAACGCCTGGATAGTCATCGGCCGCTTGTCCGGTTGGATGCCGCCTACCACCTTGGAGCATTGAGGGCTCCGGAAGCCACATCCCCTCTGCTTTCCCTGCTGTATAAGAAGCGTGTGGATTCTTCCTCCTTCATTTATGCACGGGCGGCTGCCCAGACAGCCACTCAATTAAGGGAGATGGGTGATCTGCTCCGGTTCCTTATTGAGAATGGAAAGCAGGATGTCCATTTGACAGCAGACATCATAAGGGAATCCGAACTTGATCTGACCCAGTTATTTATCACGTTCCTTCATGAGGAAAACCCGAAATATGTGAAGCTCGGTCTTATCGGCCTTCAAGACAGCGTGAAGGCGGATCTGCCTGACCGTATTCAGGAACTGACGAAATCGGATGATCGTGATATTCGTATGAATGCGGCCAAATTGTTGATCTCCTCGGTCGACTTATCCGAAGAGGACATCCAATTTTATCTGGCTTTCCCGGATTGGGAAGTACGCAAACTATTTGCCGAGTGGATTGGGAGGTCTGGTCTCATCCAATACATCCCCTTATTATCGTCCCGTATTGAAGATGTCAATTGGATGGTCGCTCGTGCGAGTGCAGCCAGTCTGGTACGTATGGGAGAGGAAGGGTTTGAAGCCCTGTGCCAATTGGCTGTTGGAAATGGAAGTGAGCCCGGCAGGTCCATGGCCAAAGCATTCATCGAAGAAGATTTGAAGCAGTCAAAAGCCGCACCTTCTCATGTCGGGAACATCATGAGTTACAACCATAAACAGTTTCTTTACAAGAAATATTTTGAAAATCACGAGACATTAACAAACGTCATGTAA	MYINVQIAYYMIGVLLILMVVFITATLSLKWNKKRVEKRRAICLEHFKDYLDYIQMHLGEEDRLRAPGRSLTTFERRVLQSELVQWINQLDGIYRKRLLKLCGDLGLVEHNLKRLDSHRPLVRLDAAYHLGALRAPEATSPLLSLLYKKRVDSSSFIYARAAAQTATQLREMGDLLRFLIENGKQDVHLTADIIRESELDLTQLFITFLHEENPKYVKLGLIGLQDSVKADLPDRIQELTKSDDRDIRMNAAKLLISSVDLSEEDIQFYLAFPDWEVRKLFAEWIGRSGLIQYIPLLSSRIEDVNWMVARASAASLVRMGEEGFEALCQLAVGNGSEPGRSMAKAFIEEDLKQSKAAPSHVGNIMSYNHKQFLYKKYFENHETLTNVM				NA	NA	NA	NA	NA
AK012_02642	2142			hypothetical protein	ATGAAATGGAAGGGGAAAGGGCTCGCTGTTCTCTTTTTTATCACAGTGGCTGGCAGCTGGTATTTACTGGGTTCAGTGAAGATGACAGAAAGTGAACAGCTTCAAAATGGCACCCAAGTGAAGTTTCGTACACAAGACAATCAAATCGAAGTTTATCGAGATGAAAGCTGGTCACCGCTTTTTATTAAAGGGGTAAACATGGGAGCCACTCTACCCGGCCATTTCCCAGGAGAGCTTCCCATTACTAAAGAAGACTATCTCCGCTGGTTTGAAATGATTGACGAAATGGGAGTGAACACGATTCGAATTTATACGATTCATCCTCCCGTCTTTTATGAAGCTCTGGTGGAGTATAACGAAAATTCTCAAGAGGATCCTCTTTATTTCATGCAGGGGGTCTGGTCTCCGGTAAATGTCATGAATGAGACGGAAGATGCTTTATCCCCCCGGGTGGTCGATGCATTTAAACGAGAGATTGATCATGCCGTAGGAGCGGTATATGGAGATATCCAAATACCAGAACAAGAGGGAAAAGCAAGCGGAGCCTATACGGCAGACGCCGGGCCTTATCTAGCTGCCTGGCATATCGGAACAGAATGGAGTCCCGATCTTGTTCAACAGACCAATGATAAACACAGCGATGATCCAGCTTTCAGTGGCAATTATTTCAGAACCGCCGAAAATGCCTCCCCCTTTGAAAGCTGGTTAGCTGAACTTTTGGACTATACAGCTGAGCAGGAAAATGAAAAAGGATGGCAGCATCCGATGACCTTTACAAATTGGATCACTACTGATCCGCTGCGGCACCCTCAGGAACCTCAGAAAGGAGAGGACATTGTCAGTGTCGATCCTACACATATCGAGGAAAAGAACTGGGAGGCCGGCTATTTTGCCTCGTATCATGCTTACCCGTACTATCCGGATTTTCTTAGATTCACCGACCAGTATGACGACGTGAAAAATGAAGGCGGTAAAGTAGATACATACCTCGGATACTTGAAAGATTTGAAAGACTATCACGATGGAATGCCTGTTATGGTCAGTGAATTCGGAGTTCCGTCTTCGCGGGGGAATGCTCACAACGGACCTCTCGATCGTGACCAGGGAGGGCATAGTGAAAAAGAGCAGGGCAAACATGCTGTCGATCAGCTTCAACATATATACAACGAAGGGTTCTCAGGTGCCCTCCTTTTCACCTGGCAGGATGAGTGGTTTAAAAAAACATGGAATGTCATGCCAATGAGTACAGACCACAGGGAAGCATTCTGGTTTAACTCTTTATCTGCTGAAGAATCCTACGGGGTTTTAGGTATGTATCCTGGAAAACAGGATGATGTAACTATTGATGGAGAGCTGGATGATTGGGAGGAGCTTGAGGAAAAAGACGTAGAGAAAATTTCGACACCGCTCACCGATTTGAATCTGACCCACGATGAAGGATATGTGTACGTTTCCGCCCGATTACCGGAGGAGATCGACTTGGAAAAACAATCTGTGTATGTCGGTGTGGATACTTTGGAGGGAGAGGCAGAAACGCCGCAGATTTTAAAAGACATTCAACTGGAGGAAGGTATGGAGACAATGGTTCGCCTCAGTGGATGGGAAGAAAGTGAAGTGTTGATTGGATCCACGTATGACTTCCATTCGCGCCTCTATGAAGAAGCTTCCGACAGCGGTGACGAAGGAGCCTTTCACTCATGGAAAATGGCGGTCAGTCTACCATTGAGACACCCTTTGACAAAGGAAGAAATTCCATTTGAAGACGCAGGGGTCGGCCGGCTCAACCGTGCATTCTCTTCGGATCAGGACGAGGCTGATTGGGAAATCGAAGGGAACGTCCTGGAAATGAGAATTCCATGGGGGCTCCTGGGGTTCTCAGACCCAAGTACAAAACAGGCGGTCTCTTATCCTTCTTCTGAACAGATAAATGGTGATCTTCCGAAGGAGACGGTGGAAGGTATACGTTTTCTTCCGTGGATCTATGACAAAGAAACGGAGGAGGTTCGTGGACTGACCAGCCCTGGTTCCATGGAAGCGTATCCCGTCTATGAATGGGAAAATTGGCAGAAAGCAGCGTTTGAGGAAAAAAGAAAAGCGAGCTATTACATGATGAAAGAAGCTTTGCAAAATTTGGAACAATAG	MKWKGKGLAVLFFITVAGSWYLLGSVKMTESEQLQNGTQVKFRTQDNQIEVYRDESWSPLFIKGVNMGATLPGHFPGELPITKEDYLRWFEMIDEMGVNTIRIYTIHPPVFYEALVEYNENSQEDPLYFMQGVWSPVNVMNETEDALSPRVVDAFKREIDHAVGAVYGDIQIPEQEGKASGAYTADAGPYLAAWHIGTEWSPDLVQQTNDKHSDDPAFSGNYFRTAENASPFESWLAELLDYTAEQENEKGWQHPMTFTNWITTDPLRHPQEPQKGEDIVSVDPTHIEEKNWEAGYFASYHAYPYYPDFLRFTDQYDDVKNEGGKVDTYLGYLKDLKDYHDGMPVMVSEFGVPSSRGNAHNGPLDRDQGGHSEKEQGKHAVDQLQHIYNEGFSGALLFTWQDEWFKKTWNVMPMSTDHREAFWFNSLSAEESYGVLGMYPGKQDDVTIDGELDDWEELEEKDVEKISTPLTDLNLTHDEGYVYVSARLPEEIDLEKQSVYVGVDTLEGEAETPQILKDIQLEEGMETMVRLSGWEESEVLIGSTYDFHSRLYEEASDSGDEGAFHSWKMAVSLPLRHPLTKEEIPFEDAGVGRLNRAFSSDQDEADWEIEGNVLEMRIPWGLLGFSDPSTKQAVSYPSSEQINGDLPKETVEGIRFLPWIYDKETEEVRGLTSPGSMEAYPVYEWENWQKAAFEEKRKASYYMMKEALQNLEQ				NA	NA	NA	NA	NA
AK012_02643	1683			hypothetical protein	ATGAACCGAATCCTATGTCTATTCTTAATGATCACCGCCCTCTCTCTCCCTCTTTATGGCTTTTCACAATCAGAAGAATCTAAAAGAGCCATGTGGGTGGAAAAACCGGAGAGCATCGAAAATAAAACCGCCATACTGAAGACCGCGCAGCAGAACAACATCAATGTCTTATATGTGAAAGTACAAGATGAATTATCCCCTCAGGTGTACGCAGCGTTCATTCAGGAAGCGGGCAGCAGGGACATTCAGGTTCATGCCCTTGGAGGCGCGCCCGCCTGGGCCTTAGAGGAAAATCAGAGGAAATATACGAACTTTTTGGATGAAATTATGGAATATAATCAATCCGTTTCACCAGATCAGCAATTTTCAGGAATTCATTTCAAAGTACAGCCTCAATACTTGGAGGCATGGTACGACGACCAGTCCAAAGTTCTTCGTGATTGGAAAATGAATATGAAAGCAGCCGTTCAATCGGTCCCGGAGAACAGTAAGCTGGAAATCAGTCATTCCATCCCATTCTGGTTAGATGAAGTGGACACACCTGGAGAGCCGGACGTTCCCTTTAACACATGGTTGATTCAACAATTCGATCATACGACTATCCTCGCCTACCGGGATACCCTGGAAACGGCCAACGGCATTGTGGCCTTGACCAAGAATGAATTTGAAGCGGCGGACCAGGCCGGTAAACAAATTATCGTAGGCGTAACCATGGCAGAAAACGGCAGGAATTGGACGACGTTTTATGAAGAGGGGCTGGAGAATATGCATATGCACCTTGGCTTGATCGATAAACACCTTGGAGAGCACAGCTCCTATGCAGGTTATGCCATCGATAATTACAGGAGCCTGAAGCAGCAGGAGGAACAAGCTCCTGAAGAAGAAGAAAAAGAGCAGACACGAGGAACGTATGTATGGGAAGCCGAAACACTCATCAATGAGAAAGACAAGATCCTGAAGTTCGCAAAAGAGAATAACATCAACCTGCTTTATACACGCCTGGATTTATCCCAGCCCTACAATGCCTATTCCCACTTCGTGGAAGCCGCGGATGCAGCCGGAATTGAAGTACATGCCATGGGAGGACACCCTTCCTGGGCATTGAAAGAAGAGGAACACCGGATCTTAGAACTGGTGGATTATGTGAAATCCTACAACCAGGAAGTAAACGAAAACCAGTCCTTTGATGGCATCCATCTGGATATCGAGCCTTACGTAGAACCCTCCTGGTCCACCGATCAAGAATCCGTTTTGAAGCAGTGGATGGATAACTTAGAGCGCTTTGTAGAAGAAACAAAAGAAGGCTCGGATTTGGAGCCCAGCATGGACTTAGCCATGTGGTTTGATGATATCGAAACGCCGGGTGACCCGGAAACTCCCTTTAATAAATGGGTGATCAACCTGATGGATCACACTTCTGTCATGGCCTTCCGTGACCAAGCAGAAGGCATCATTCATGCTGCGGAGAATGAGGTTGATTATTCCGAAGAGCTTGGGAAAGACATACTTATTTCCGTGGAAATCAAAGAGAACCTTTCCCATCCACATATCTCGTTCTACGAAGAAGGAAAAGAAGAAATGGAGAATCAGCTTTCCCTGGTCGATGAGGCGTTCAGCTCCTACTCTTCCTACCAAGGGTATACCGTACATGCCTATCGATATTGGGACGGTGCAAAAGAGTAA	MNRILCLFLMITALSLPLYGFSQSEESKRAMWVEKPESIENKTAILKTAQQNNINVLYVKVQDELSPQVYAAFIQEAGSRDIQVHALGGAPAWALEENQRKYTNFLDEIMEYNQSVSPDQQFSGIHFKVQPQYLEAWYDDQSKVLRDWKMNMKAAVQSVPENSKLEISHSIPFWLDEVDTPGEPDVPFNTWLIQQFDHTTILAYRDTLETANGIVALTKNEFEAADQAGKQIIVGVTMAENGRNWTTFYEEGLENMHMHLGLIDKHLGEHSSYAGYAIDNYRSLKQQEEQAPEEEEKEQTRGTYVWEAETLINEKDKILKFAKENNINLLYTRLDLSQPYNAYSHFVEAADAAGIEVHAMGGHPSWALKEEEHRILELVDYVKSYNQEVNENQSFDGIHLDIEPYVEPSWSTDQESVLKQWMDNLERFVEETKEGSDLEPSMDLAMWFDDIETPGDPETPFNKWVINLMDHTSVMAFRDQAEGIIHAAENEVDYSEELGKDILISVEIKENLSHPHISFYEEGKEEMENQLSLVDEAFSSYSSYQGYTVHAYRYWDGAKE				NA	NA	NA	NA	NA
AK012_02644	663	comA_2	COG2197	Transcriptional regulatory protein ComA	ATGGTTTCGATATTATTAGTAGATGATCACCCAGCTATTGGTGAAGGGTCAAAATTAATCATTGAAAGAGAGAGTGATATGGTTGTAACCATTGCAGACAGCCCGGGGAAAGCATTAGAAATCCTGCAGGAGCAGAGCTTTTCGGTTCTGTTGTTCGATCTGCGTATGAAGGGAATGAATGGTATCGAGCTGACCAGACATGTGCGGTCTGCAGGACATACTTCGCCGGTACTGATCTATACAGGTCATGATGTGGGTCCATATTTCAATACACTGGTGGAGGCTGGAGCGTCAGGTTTCATAAGCAAAACAGCTCCCCGGGAAGAATTGATTGAAGCGATCCGTTACGGGATGAAGGGGAAAGCGATTGTTCCTGTTTCCCTCCTCGAACAACTAAGAAAAAATGAAGTGCGTGTTGAAGAAATACCGGTACTTGAACAGCAGCCGGAGCGTGAAGTTTCGGTTACGCCGAAAGAACAGGAGATTCTTAAAGAGGTTGCCAAGGGGAAAAGCAATAAGGAAATTGCCCAGATCTATTTTAAAAGCCCTCGAACGATTGAGTACAACTTAACGGAAATCTTCAAAAAACTGCAGGTGAAGACAAGAGCGGAAGCTGTGTTGAAGTCAAAACAGTGGGGGATTATCACGGAGGATATGGATTGA	MVSILLVDDHPAIGEGSKLIIERESDMVVTIADSPGKALEILQEQSFSVLLFDLRMKGMNGIELTRHVRSAGHTSPVLIYTGHDVGPYFNTLVEAGASGFISKTAPREELIEAIRYGMKGKAIVPVSLLEQLRKNEVRVEEIPVLEQQPEREVSVTPKEQEILKEVAKGKSNKEIAQIYFKSPRTIEYNLTEIFKKLQVKTRAEAVLKSKQWGIITEDMD	PGPT0025790_10	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0025790-comA-K07691	NA	NA
AK012_02645	2307	comP_2		Sensor histidine kinase ComP	ATGGCTCGATTAAAAAGTAAGAGATTTATCTTTTATTTTAGTTTTATCTTTGTTATTGCTCTTTATTTAGTTTTCGTAACGATGACGAAAACATATGTAGGTATCGACGTCAGTGAGAATGACGAAGGGTCCTTGATCGTGACGAAAGTGGATTCGATCGGCTGGGCTGCTCAAAGGAAAATAAAAGAGGGAGATCGTGTCATTGAAGTCAATCACCAGGAGGCGGATACGTACCACTCGATTCAAAATTACGGGGTGATCGGTAACCTTAACCAGATGAAGGTCATGAGAGAAGGCACCGAGTTGGAATATAAGGTCCAAAACCCGATGAACTATAACACGCTTCTATATCATACCATCCTGCCCACCGTTGTATTTTTCGTTTTATTTTCGTTTGCCTTACAAGTCTACGTAAAAAAGCGGAGAGACCCCATTGCGTTTTATCTGATTGCCTTTCTTCTGGCGGTTGGTATTGGGTACTTGAGTGCCGGCGCGTCTGCAAGAACGGATAGTCTTGCAAGGGTGATCAACAGCTTCAGCTTGATGATGGTTCCTGTGCTGTTTCTGCACTTTCATTATCAATACTTCCTGAAGTACGAGATTCATTTGATTGAAAAGCGCGTGTTGGCTGCGTTCTATTCTCTTAATCTGTTCGTCGTTCTCATGGATGTGATATCCGTTTTCTGGGTGTCGATGGGGAATTATGAGGTGATCCGTAACACGCAGCTGATTTTATTTTCCATAGAAATTCTTTTCGGTCTGAGTGTTCTCCTGTATTTCTATATGACCTTTCGGAAAACCATCCATAAGTCGATTTTTCAAAATGCGATTTTCGGAATTATCATCTCGTTTTTCCCTTTTATTTTTCTGACAGCGCTGCCTAATGCGGTTGTCGGAGTTGAACTGATCCCAGCTCCTGTAACGGCGGTATTCCTTATCTTTCTGCCGATCTTTTTTCTTTACCTCGTGCTGACAGATCGGATATTTGATATTGATTTTATTAACAGTCGTTTACGGTATTATGCGGTTATTTCTTTTATATTGACGGCTGTGGTTATGATTCTGCTCGTCTTCTTTACGAATCTGGATGAACTGCAGTGGATCAGGCTGGGAATACTAATCTATGGGTTATTGATTCTGTTTTTCTATTTTGAAGAAAAGTTTTCCCTTCGTTCCAAATTGTTTGGAGACAAGTTCAACTATCAGGTAAGTCTTGATCGATTTTCCTATGATATAGCAAAAATCATAAAAAAAGAAGAATTGGATGACCGGCTGCTGCGTGAAATCAAAGAGGTGCTCCCGGTCGAGCACGCCTGCCTTTTCTCCTATAACAAAAAAGAAAATGGGATAAACCTGATTGCAGGAGATGAGTCCATCCCCTACCCATTGATCCAGGCCTATCTATCCTATCAAGGAAAGTCGTTGTCCATAGGAGAGCCGTTTCTATTAGAGGATGGCTTGGGGTATATTCTTAGTGAAAAACATGATTCGGTCGATATTTTGTGGATAGAACAAAAAGTCAACCGTACGCCGTTCAACCAGGATGAACAGCGTTGGTTGAAAACCATTGTTCAATATACGAGCATCGTATATGAAAATTTCCAATTGATTGATGGGGTAACCGAGGATTTGAAAAGTTCGATCCAGGAAGAACGTGATGTTCCATCGTGGATGCTGCGGTTCATGTTTAAGCTTTCAGAGGAAGAAAGAGCACGGCTTTCCGCTGATCTGCATGATTCTGCTCTGCAGGAACAGCTGGTGTGGTACCGGAAGGTGGAAGAACTGACCGCTTCCAATGATTTGGAAAGCCGTATGAAAGAGGAACTTGCCGAGGTGAGAGAAGGTTTACTGGATGTTGTCAGTCAAATACGGGAAACATGTACCTTTCTCCGTCCTCCTTTTCTGAAGGAAACGGGTTTTGTGGAAGCATTATCCTATTTAATCGATCATTACCGTCTGCGGGAAGACTTTCGAATTGATTATCAATATGACCATTTCACAGCAGCTCTGGGGGATGAACAAGCTCTTACGCTTTATCGAATTGCTCAAGAACTGCTGAATAATGCTTCCAAGCACTCAAAGGCCGATTTGATTGAATTTGAATTGAAGAACGATGGAGATATGGTGATGTTATCCTATAAGGATGATGGAGTGGGCGTTCAGAAAAAACAACCGAAGTCGTCAACAAAAAGCATGGGCTTAACGGGAATCAGACAGAGAGTCAACAGCCTTGGAGGGAGCATGGAATTCTTCTCACAGGAAGGATCAGGAGTTGAAGCTGCCATCTTAATTCAGGCGGATGGATGA	MARLKSKRFIFYFSFIFVIALYLVFVTMTKTYVGIDVSENDEGSLIVTKVDSIGWAAQRKIKEGDRVIEVNHQEADTYHSIQNYGVIGNLNQMKVMREGTELEYKVQNPMNYNTLLYHTILPTVVFFVLFSFALQVYVKKRRDPIAFYLIAFLLAVGIGYLSAGASARTDSLARVINSFSLMMVPVLFLHFHYQYFLKYEIHLIEKRVLAAFYSLNLFVVLMDVISVFWVSMGNYEVIRNTQLILFSIEILFGLSVLLYFYMTFRKTIHKSIFQNAIFGIIISFFPFIFLTALPNAVVGVELIPAPVTAVFLIFLPIFFLYLVLTDRIFDIDFINSRLRYYAVISFILTAVVMILLVFFTNLDELQWIRLGILIYGLLILFFYFEEKFSLRSKLFGDKFNYQVSLDRFSYDIAKIIKKEELDDRLLREIKEVLPVEHACLFSYNKKENGINLIAGDESIPYPLIQAYLSYQGKSLSIGEPFLLEDGLGYILSEKHDSVDILWIEQKVNRTPFNQDEQRWLKTIVQYTSIVYENFQLIDGVTEDLKSSIQEERDVPSWMLRFMFKLSEEERARLSADLHDSALQEQLVWYRKVEELTASNDLESRMKEELAEVREGLLDVVSQIRETCTFLRPPFLKETGFVEALSYLIDHYRLREDFRIDYQYDHFTAALGDEQALTLYRIAQELLNNASKHSKADLIEFELKNDGDMVMLSYKDDGVGVQKKQPKSSTKSMGLTGIRQRVNSLGGSMEFFSQEGSGVEAAILIQADG	PGPT0025805_46	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-ComX_PHEROMONE_PERCIPITATION|SIGNALLING,PGPT0025805-comP-K07680	NA	NA
AK012_02646	174			hypothetical protein	ATGCTATTTGAATGGGTTCAGAAAATCATGCAAAATCCAGCGCTTATGAATGCTTTGAAAGAGGGGAAGGCCGACCTTCCAGGTGTTACTGAAGTTGAAAAGGAAGCCCTTATTGATGTATTCGCTTCAGAAGATATCCAGGGCATTGAGTGGAGAATGTGTTATTGGAAGTAA	MLFEWVQKIMQNPALMNALKEGKADLPGVTEVEKEALIDVFASEDIQGIEWRMCYWK	PGPT0025795_42	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0025795-comX-K02253	NA	NA
AK012_02647	939			hypothetical protein	ATGGGAATGATTCCGAGTTACTCACCCGATCGTTTAAGCAGGACGATGGTGGATGCGGTGAATACTCATTTAAACGAAACCGGACTTGTCCAGCTGGCCGAGCATTTTATCTATTTTAAGGAAACAGAAGGTTTTTCTTTTTCGCCGCTGACTGAGATGCACTTTCACATTCACAGCAGTAAGAAAAACGAAGGTGTGTATGTTTTATCGGCAGCGATCGAATTTTTAATACTGGCTCTCGATATACTGGATGATCTTCAGGATGAAGATGCTGAAGATAAACCTTGGAGTCAGGTTCCTTCTGCTTCATCCATGAATGTGTCGACGGGGTTTTTAATGCTGAGCATGCAGTTAATTCAAAATGCTCCTTTTCAGAAGGAGATGTCTATGGATGCGCTGCAGGCCCTGCAGCAGCAGATTCTGCAGGCGGTGAATGGTCAGCACGCCGACTTGAATGAAACAGCTTCTACCGAAGAAGAGTTTCTGACGATGATCAGGCGTAAATCCGGTTCACTTATGGCTTGTGCATGTATGGTGGGAGCAGCTTTTCAAGACAGTGAAGATCTATCAGGCATTCGTTTGTATGCGGAGAGTTTTGGTATTGCGGCTCAGTTAGTAAATGACCTGCAGGACATCGTGCGTTTTGATTTTAAGAACGATCTCATTAACAAGAAGTGGACGCTTCCTGTATTTCTTCTCTTACAGGAAAGCGGAGAGGAAGCAGCATGGATTCGTGATTACTACGAAGGCCGGGTGGATCAATCGTTTATCACAGATAGGAAGCAGGCGTTATTTGAATGGGTATCCCGGTCCGCTGTCATTCCATATATCCAGGTGCTGATCCGGAAATACCAACGGCAGGCCTCCCGTGAGCTTGACATGTTTCAGGCAGGACAGGAATGGAAGGAACAGATGGGGAAGCGGTTTGAAGATTTATAA	MGMIPSYSPDRLSRTMVDAVNTHLNETGLVQLAEHFIYFKETEGFSFSPLTEMHFHIHSSKKNEGVYVLSAAIEFLILALDILDDLQDEDAEDKPWSQVPSASSMNVSTGFLMLSMQLIQNAPFQKEMSMDALQALQQQILQAVNGQHADLNETASTEEEFLTMIRRKSGSLMACACMVGAAFQDSEDLSGIRLYAESFGIAAQLVNDLQDIVRFDFKNDLINKKWTLPVFLLLQESGEEAAWIRDYYEGRVDQSFITDRKQALFEWVSRSAVIPYIQVLIRKYQRQASRELDMFQAGQEWKEQMGKRFEDL	PGPT0025800_41	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0025800-comQ-K02251	NA	NA
AK012_02649	1680	argS_2	COG0018	Arginine--tRNA ligase	ATGGAAAAACAAATCACAGCCCTGCAGATTTCCCACATTCTTGGAGAGGACTACCCCCGCGGGTGGGTGGAGTCTTTGATCGAAATACCGAAAAAAGAAAAGTTCGGTGATGCAGCCTTTCCCTGCTTTGCTTTAGCCAAGTCGATGCGGAAGAGCCCCGCAGTCATCGCCGGGGAGATTGCCTCCCGGCTGAAACACCCTGTTTTTGAAAGCGTAGAGGTCCAGAGCGGGTACATCAACATCTTTTTTGATCGTGCCTTTATTACAGAACATACCTTAAACCAGGTGCTCGAGGACCCGGGAGCTTATGGGAGTCATACTTTCGGTGAGGGGAAAAACGCTGTTTTTGATATGTCCTCCCCGAATATTGCCAAGCCTTTTTCCATGGGACACCTCCGCTCCACCGTCATCGGAAACGCACTGGCCAATCTTGTGGAAAAGTGTGGCTACCAAGCTGTGAAAGTGAACTATATCGGTGATTATGGAACCCAATTCGGCAAGCTGCTGGCTGCCTATACACGCTGGGGTGATCCAAAGGTTGTCGAAGAAGACCCTATTAAGGAACTGACCAAGTTATATGTGACTTTCCACGAAGAGGCGGAAGAGGAACCTGCTCTAATTGAAGAAGGAAGAGAATGGTTTAAAAAACTGGAAGCTCAGGACCCTGAAGCTCTCCTTCTCTGGAACTGGTTCCGAGAGGCCTCCCTTCAGGAGTTTGATACATTATATGAAATGCTTGGCGTGGATTTTGATTTAACACGGGGAGAGGCTTATTACACGGACAAAATGGAACCGGTCATCCAGCAGCTGGAGGACAAGGGATTGCTGGAGAAATCCGAGGGAGCGGATGTTGTTCAGCTGGACGAGTCCATGCCCCCTTGCCTCATCCGGAAGAGCAACGGAACGACGACGTATGCTACACGCGATCTCGCTGCCGCCATCGACCGTTACCAGTCCTACCCCTTTGAAAAAAGTTTATATGTCGTTGGAAATGAGCAGACCCTCCACTTAAACCAGATCAAACAGGTTTTGAAGAAGGCCGGGTTTGAATGGGCAGACCGGATGGAGCACGTCTCGTTCGGGATGATCCTCCAGGATGGACAAAAGATGTCTACGAGAAAAGGAAAAACCGTCTTGTTGGAAGAAGTTCTGGAGGAAGCCGTAGATCAGGCACTCATGAATATCAAAGAGAAAAACCCGGACCTCATGAATCCTGAAGAAACCGCGCGCCAGGTCGGGGTTGGAGCTGTCATCTTTCACGATTTAAAACAGGACCGCCGCCATGACATTGAATTTTCTCTCGAGGACATGCTCACCTTTGAAGGCAATACCGGTCCTTATCTCCAGTACACCTATGCACGTGCCTGCTCGCTGTTACGTAAAGGCGGGTTTTCACCAGAAGACTCAAAAACGGCAGGTGGGAATCCAGAATCCTGGTCCTTAGTAAAGACGATACGTGCGTTTCCTGAAGTGACAGCGAGCGCCTGCACGACCAATGACCCGTCCAAAGTGGCGCGTTACCTGCTGGACCTTGGAAGATCTTTCAATCAATATTATGCCAAGTCAAAAATCATCGGTTCTCCCACCCAGCAGGAAAGTCTCACGCTCGTTTATGCCTTTACTGTTGTGATGAAGGAAGGGCTGCGTCTGCTTGGAATGGCCGCACCGGAACATATGTAA	MEKQITALQISHILGEDYPRGWVESLIEIPKKEKFGDAAFPCFALAKSMRKSPAVIAGEIASRLKHPVFESVEVQSGYINIFFDRAFITEHTLNQVLEDPGAYGSHTFGEGKNAVFDMSSPNIAKPFSMGHLRSTVIGNALANLVEKCGYQAVKVNYIGDYGTQFGKLLAAYTRWGDPKVVEEDPIKELTKLYVTFHEEAEEEPALIEEGREWFKKLEAQDPEALLLWNWFREASLQEFDTLYEMLGVDFDLTRGEAYYTDKMEPVIQQLEDKGLLEKSEGADVVQLDESMPPCLIRKSNGTTTYATRDLAAAIDRYQSYPFEKSLYVVGNEQTLHLNQIKQVLKKAGFEWADRMEHVSFGMILQDGQKMSTRKGKTVLLEEVLEEAVDQALMNIKEKNPDLMNPEETARQVGVGAVIFHDLKQDRRHDIEFSLEDMLTFEGNTGPYLQYTYARACSLLRKGGFSPEDSKTAGGNPESWSLVKTIRAFPEVTASACTTNDPSKVARYLLDLGRSFNQYYAKSKIIGSPTQQESLTLVYAFTVVMKEGLRLLGMAAPEHM				NA	NA	NA	NA	NA
AK012_02650	231			hypothetical protein	ATGTATCCTTTATACTATGCTATCATCATTGTTTTGTCTGTCATCGCTTTGATCAGCACGATTGTCATCGCCAAAAACATGGACAAGTCAGAAAACCAGCTGTCTCCGGAAGAGGACCTGCAGCACCTGAAATCAGATAAGAATGATCAAGGAAGCATCCCGCTGCTTTCCGCCATTTATGCTGTTACTTTTGCGATCACGGTTATTCTTGTCTGGATTTTTATCTTTTAG	MYPLYYAIIIVLSVIALISTIVIAKNMDKSENQLSPEEDLQHLKSDKNDQGSIPLLSAIYAVTFAITVILVWIFIF				NA	NA	NA	NA	NA
AK012_02651	525			hypothetical protein	GTGCACCAGCCCGATTTGTTTCAAAACCTCACTCACAAGAAAATGGGATTTTCAGAAGTGTTCTCTCATATTTTAACGTTTATGAAACGGGAGCCTGTCGGTAATTACCGGCTGATGGTAGGAACGGATTCACAAGTTCATCCTTCCCGGACGTTATTTATTACCGGTGTCGTCATTCAACGCGTTGGAAAGGGCGCCTGGGCCTGTTATCGAAAGGAAGTCATCCCCAGAGAAATGACCACCCTCCATGAACGGATTTCCTATGAAACGTCTTTAACCGAACGGGTGGCCTCCCTTTTTACAGAAGAACGGAAAAATGAACTGATCGATATCGTGCTTCCCCACATTTACAAAGGGGCGACCTTTACAATGGAAGGGCACATTGATATTGGGTCCGGTGACCGGAACCGGACAAGGGTCTACGTGAACGAAATGGTGGCCAGGATCGAATCCCTTGGGATGGAACCGAAAATCAAACCCGATTCGATCGCTGCCAGCAGTTATGCGAACCGATATACCAAATAG	MHQPDLFQNLTHKKMGFSEVFSHILTFMKREPVGNYRLMVGTDSQVHPSRTLFITGVVIQRVGKGAWACYRKEVIPREMTTLHERISYETSLTERVASLFTEERKNELIDIVLPHIYKGATFTMEGHIDIGSGDRNRTRVYVNEMVARIESLGMEPKIKPDSIAASSYANRYTK				NA	NA	NA	NA	NA
AK012_02652	255			hypothetical protein	ATGTATCAAAAAGCTGTATCCGCCCTCGTATTGGGCATCATGTCTATCTTCCTCCCTCTTGCCGGACTGATTACAGGCATCATCGGCATCGTGATGGCCAATGCCTTTCTCCGCAGCGAAGAGGATGAAAAAGAAAACGGCCGGCATTTTGCCATAGCAGGCAAGATCTGCTCGATTATAGGCATCTGTATTCAAGTCAGTGTGCTGCTCATGCTGGCGGCCGGCTTCTACCTTTTCGGTTTTTTCCAATCATAA	MYQKAVSALVLGIMSIFLPLAGLITGIIGIVMANAFLRSEEDEKENGRHFAIAGKICSIIGICIQVSVLLMLAAGFYLFGFFQS				NA	NA	NA	NA	NA
AK012_02653	654	resA_5		Thiol-disulfide oxidoreductase ResA	ATGACGACAGATATGCGCAGACAGTTTGACCAATACATTGAGAAATTCAAACAGAATGCTTCTCAGGACGTTCAGGACAAAATGAGTCAGGCGATTGATGAATTGGAAGCCTCTGACCAAGGGAACGGCCTTTCCAAAGGAGAAAAAGCACCCGACTTCACCCTTCCAGATGCAAAGGGCGGTCAGGTTCAACTTTCGGAGCAGTTGAAACAGGGTCCAGCCATCGTGACCTTCTACCGTGGCGGATGGTGCCCTTACTGCAATATGGAGCTTCGCGCGTATCAGGAAATCATGGAAGACATCCACAATGAAGGGGCTCAGTTGATTGCCATCAGCCCGCAGACACCGGATCAGTCTATGACAACTCAGGAGAAAAATGACTTGCAGTACCATGTACTGAGTGATGTTGGAAACAAAACGGCCCAGCAGTTCAACCTCGTTTATGAGCTTCCGGACTATCTTGTCGATGTGTATAAGGACAAAGGATTGAACGTGGACAAGCACAACGGAGACGAATCCTGGACTCTTCCAATTTCCGCAACGTACATCATTGATACAGATGGTACGATCGTATATGAATATACAAAATCCGATTATAAAGACCGTGCGGAGCCTTCAGAAGTTCTACAGGAACTGAAAAAAGTAACCGCATAA	MTTDMRRQFDQYIEKFKQNASQDVQDKMSQAIDELEASDQGNGLSKGEKAPDFTLPDAKGGQVQLSEQLKQGPAIVTFYRGGWCPYCNMELRAYQEIMEDIHNEGAQLIAISPQTPDQSMTTQEKNDLQYHVLSDVGNKTAQQFNLVYELPDYLVDVYKDKGLNVDKHNGDESWTLPISATYIIDTDGTIVYEYTKSDYKDRAEPSEVLQELKKVTA	PGPT0006885_1	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROETHANE_DEGRADATION,PGPT0006885-dehI-K01560	NA	NA
AK012_02654	1113			hypothetical protein	TTGAATGATATTATTCTGATCGTCCTGTGTGCTTTTATGGTTCTTGGGGCTCTCGATTACTACATATTGAATCACCGTCTTGCCTTAGGCTGGCGGTTTTATGAAGCGTTTATGATGATGGGGCCGCTGGCGCTGTCGATGGTCGGGATCATTTCCCTTGCGCCGGTGCTTTCCAGGTGGCTGACGCCTGTGGTCTCCCCCTTGTTCGAGATCCTTGGGGCAGACCCGGCTATGTTTGCTTCGATGCTCCTCGCAATCGACATGGGGGCCTATCCGCTGGCTGAATCGCTCGCCGCAGACAAAGAAGCGGCTGTTTTTTCATGGGCTCTGCTCGGTACGATGATGGGGCCTACGCTTGTCTTCACGATTCCGGTGGCCTTGACTGTTGTAGCGGAAAAAGATCAGCCGTTTTTTGCGAAAGGGATTCTTGCAGGACTGGTGACGATTCCCATCGGCTGTTTCATTGGAGGATGGACGGCAGGGTATGAACTGGGCTGGATGTTTCAAAATCTGCTTCCTGCGATCGTTTTATCTCTTGTTATCGCCGCAGGTCTCTGGCTCTTCACAGCTGTGACGATCCGTCTGTTTGCCTATTTCGGCAAAGCAGTCGAAATCATCATCATAGCAGGGCTTGCCCTTATCATTATTGAAACGTTGACAGGTATCACCGTTCTTCCCGGTATGGCTCCGTTATCGGAAGGAGTCATCATTGTTGGTAAGATAACGGTTACTCTCGCGGGGGCCTATCCGCTCGTGGCCTTTATCAGCCGGCGCGGAGAAAAACTGCTTACCCGGGCGGGGAACCGGTTCGGGATGAATGCGGTTTCAATGACGGGGTTTATTGCATCGCTTGCTCATCACTTACCGATGCTGGCGGTTATGAAGGATATGGATGACAGAGGAAAGACAGTCAATGCGGCTTTTGCCGTCAGCGGCGCTTTTGTATTCGGAAGTCACTTCGCTTTTGTGGCGGGGGTCCAGCCGGAGATGATCCTTCCGGTAATTGTGGGTAAATTAAGTGCAGGCATTCTTGCTGTGAGTTTAGCCCTAATTCTAACAAAACAAGACGTATCATTTTATGATAAAACAGATCCTAGGTATAATAATAGTTGA	MNDIILIVLCAFMVLGALDYYILNHRLALGWRFYEAFMMMGPLALSMVGIISLAPVLSRWLTPVVSPLFEILGADPAMFASMLLAIDMGAYPLAESLAADKEAAVFSWALLGTMMGPTLVFTIPVALTVVAEKDQPFFAKGILAGLVTIPIGCFIGGWTAGYELGWMFQNLLPAIVLSLVIAAGLWLFTAVTIRLFAYFGKAVEIIIIAGLALIIIETLTGITVLPGMAPLSEGVIIVGKITVTLAGAYPLVAFISRRGEKLLTRAGNRFGMNAVSMTGFIASLAHHLPMLAVMKDMDDRGKTVNAAFAVSGAFVFGSHFAFVAGVQPEMILPVIVGKLSAGILAVSLALILTKQDVSFYDKTDPRYNNS	PGPT0000612_216	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ETHANOLAMINE_USAGE	N-AQUISITION-ETHANOLAMINE_TRANSPORT,PGPT0000612-eutH-K04023	NA	NA
AK012_02655	585	msrA_2		Peptide methionine sulfoxide reductase MsrA	TTGATACGAACCCCTTTTCTTATGTGGATAAGAAAAGGGGTTCTTTGCATATCAGCAAGCCCGTTAAGGCTCTCGATAGAAGTTGCGTTAAAGGAAAGGGAAGATGTAGATATGGCAACAGCAATTTTCGGCGCAGGATGTTTTTGGGGAGTAGAAGCATTTTTTGAGAAATTCGAAGGGGTAACGGCAACAACCGTCGGTTACATCGGAGGACATCTCGAAAATCCTTCCTATGAAGAAGTGAAACAGGGAAATACCGGTCATGCAGAAGCCGTCCGTATCGAATACAATCCTGCTGTCATTACGTATGCCAAACTGGTCAATATCTTTTTTGAAGCTCACGACCCGACACAGGTAAATCGGCAGGGCATTGATGTAGGACATCAATACCGTTCAGTGATCTTCTATACAGACGCCAGCCAGAAGTACATTGCAGAAGAGAAAATCAAAGAATGGAGTGCCAAAGGCATCTTCAAGCGTTCGATCGCTACGCAGGTGGAAGAGGCGACATCCTTCTTCGAAGCGGAAGAGCATCACCAGAAATACATTCAAAAGCATGGGTCGGCCGCCTGCTCCATCGGCTGA	MIRTPFLMWIRKGVLCISASPLRLSIEVALKEREDVDMATAIFGAGCFWGVEAFFEKFEGVTATTVGYIGGHLENPSYEEVKQGNTGHAEAVRIEYNPAVITYAKLVNIFFEAHDPTQVNRQGIDVGHQYRSVIFYTDASQKYIAEEKIKEWSAKGIFKRSIATQVEEATSFFEAEEHHQKYIQKHGSAACSIG	PGPT0013065_6458	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-SULFOXIDE_REDUCTASES,PGPT0013065-msrA-K07304	NA	NA
AK012_02657	693			hypothetical protein	ATGGCGGACTATTCCATTGACGAATTTATCAGGCAGACGAAACAGGACGATTCAGAGAATGATTACTTTGAGCTTGAAACCCAGCGTATTCTAGAGGTGAACCTGCTTGATCAGGTGTGGGCAAAATCAGGAGCCATGATTTCCTATAACGGGAACATCAAGTTTGAGAGAGAAGGAATTCTGGAGCACGGCGTTGGGAAAATGTTCAAGAAAGCGTTGACAGGAGAAGGCAGTTCACTGATGAAGGCGACCGGGCGCGGCCGTCTGTATCTCGCGGATCAAGGGAAAAAAATTACGATTTTCGACTTGGATAATGAAACGATAACCGTAAACGGCAACGACCTTCTGGCTTTTGAACCGAGCATCGACTGGGATATCAAGCTGATGAAAAAAGTCGCCGGCATGGTTTCCGGAGGTCTGTTTAATGTAACCTTGAACGGCAGCGGCCGTGTCGCCATCACCTCCCACTACGAACCGCTCACCCTGCTCGTCCGTCCAGGGGAACCGGTCATTACAGATCCGCATGCAACGGTTGCCTGGTCCGGGCATTTAGAGCCGGATTTTAAGACGGATGTCAGCTTCAAGACGTTTATTGGACGAGGCAGCGGGGAATCCATACAGATGCAGTTCGAAGGAGATGGATTTGTCATCGTCCAGCCGTATGAGGAGATTTATACAACCGGCAGTCAGTAA	MADYSIDEFIRQTKQDDSENDYFELETQRILEVNLLDQVWAKSGAMISYNGNIKFEREGILEHGVGKMFKKALTGEGSSLMKATGRGRLYLADQGKKITIFDLDNETITVNGNDLLAFEPSIDWDIKLMKKVAGMVSGGLFNVTLNGSGRVAITSHYEPLTLLVRPGEPVITDPHATVAWSGHLEPDFKTDVSFKTFIGRGSGESIQMQFEGDGFVIVQPYEEIYTTGSQ				NA	NA	NA	NA	NA
AK012_02658	483			hypothetical protein	ATGTATGGTCTTGAAGAAAAAAGAAAGCAGCTGCTGGAATATGCCCGGAAGATCTCCGATGAACAGGCATCGTTAAAGCCTGCGGAAGGAAAGTGGTCGGTTCTTGAAATCCTGGAGCACCTGTATTTAATGGAACAGCTTGTCGTCTACCAGATCAAGCAGGCGATTAAGCGGGGAGATACACAGCAGACCTCGGAAAAACCGATCCACCGGACAACAGAGAGAGACTACAAGGTGGAAGCCCCTGAGTCCGTTCGTCCTAAAGGAGCCTTTCAAACCATCGCTGAAGCAGAAGATGGTTTAGAAAAGACACGGGAAGCCACATTGTTTCTGATTCATAACAAAGATGAAGGAACATTGAAAAAACGAGTCTTTCCACACCCGGCATTCGGTGACATGGACTTGATCCAGTGGATTGAATTTATCGGCTGGCATGAGCTTCGCCACCTTGATCAAATGAAAGAAACGGTAGAAGCTTTATAA	MYGLEEKRKQLLEYARKISDEQASLKPAEGKWSVLEILEHLYLMEQLVVYQIKQAIKRGDTQQTSEKPIHRTTERDYKVEAPESVRPKGAFQTIAEAEDGLEKTREATLFLIHNKDEGTLKKRVFPHPAFGDMDLIQWIEFIGWHELRHLDQMKETVEAL				NA	NA	NA	NA	NA
AK012_02659	1482	mleN	COG1757	Malate-2H(+)/Na(+)-lactate antiporter	ATGACAGATCAAGAAGGGAACAACGAAGAAGTCATCGATGAAGCCTTAGGGGAAAAAGAAATCCAGCGACTGGAGTTCCATGGCGGTGTATTTACTGCAACGGTTCCATTGGTGTTCTTTATCGTATGGGCGGTTGTCCTAAGTGTGGCAGGGCTCGTAACAGAGCAGGGTCTTGTTTTAGGGATTGTGATCGGCATCGGACTCGGGCTGTTTTTAACAAAATCCAAGTGGTCGGATTATGCGCAGAGCCTGATTACCGGAATGGCTCAGCCTGTGGGCATCGTATCGATCATCGCCTGGTTCTGGGCTGGTATGTTTGCGAATATGCTGTCAGCTGGAGGACTGGTGGATGGCCTGATCTGGTTTGGATTCCAAACCGGCCTGGAAGGCGGAGCCTTTGTAGGCATTACGTTTTTGCTTGCCGGTTTATTTTCAACGGCTGTCGGTACCGGCTACGGGACTGTAGCGACGTTCGGCGTACTTATGTATCCGGCCGGTGTGATTTTAGGTGCAGATCCTGTTCTGCTTGTAGCAGCAATTTTAAGTGGAGCGGTCTTCGGGGACAACCTTGCCCCTGTTTCTGATACAACAATCGTTTCTGCTACGACACAGGAAGCGGATGTGCCGGGGGTTGTCCGTTCCCGTTTTAAATACTCCATGGCGGCGGCTGTTCCGGCGCTGATTTTGTTTGTCGTCTTCGGAGGAGGCGGCGAAGAGGGAAGTCAGCAGGTGATCAATGATCTGCAGAGTCAAGTGTCTCCAGGCGGGCTGTTGATGCTGGTGCCCTTTGTACTAGTCCTTGTATTGGCGCTGAGCGGCCAACATCTTCTGACGTCCTTATCATGGGGAATTCTCGCTTCTGTTGTTTTCATCTATTTGAGTGGTATTTCTCTTAAAGAAGTTCTGTACATTCATTTTAATGAAGCAGGTGATCCTGTCATTGAAGGGGCCCTTATCGATGGAATAAGCGGGTACTTCAATATGGCTGTATTAATTTTATTCATTCTTGCTGCGGCATACATGCTTGAAGTAGGTGGAACGATGGAAGTGATCAAAAACTTCTTTCTCCGGATCATTAATGGCGTCGTCCGCAGAGCAGAACTGGCGGTCTTTGGTATTGTAGCCTTCTTAAATGTTTTCATCACAATTAACACAGCGGCCGAAATTGCAGCGGCTCCCTTTGTAAGAAAAATCGGCGGGGAATTGAATATTCACCCCTATCGTCGTGCGAACTTCCTGGATACAGTGACTTCCTCTCTGGGATATATTTTCCCCTGGAGCGGTGGTGTTCTGCTGGCCTGGGCAACGGTTCAGGGAGCGGCAGATAAGTATGACTTTCTGCCTGTTGTTTCGCCTGGAGAGGTTTTCCCGTTTGTCTTTCAGGGCTGGCTTCTGCTTCTTGTTATGCTGATTGCTGCATGGACAGGCTGGGGTCTCCGTTACACGGGGGAAAATGGGGAAGAAGTGAAGCCTGAAAAATAA	MTDQEGNNEEVIDEALGEKEIQRLEFHGGVFTATVPLVFFIVWAVVLSVAGLVTEQGLVLGIVIGIGLGLFLTKSKWSDYAQSLITGMAQPVGIVSIIAWFWAGMFANMLSAGGLVDGLIWFGFQTGLEGGAFVGITFLLAGLFSTAVGTGYGTVATFGVLMYPAGVILGADPVLLVAAILSGAVFGDNLAPVSDTTIVSATTQEADVPGVVRSRFKYSMAAAVPALILFVVFGGGGEEGSQQVINDLQSQVSPGGLLMLVPFVLVLVLALSGQHLLTSLSWGILASVVFIYLSGISLKEVLYIHFNEAGDPVIEGALIDGISGYFNMAVLILFILAAAYMLEVGGTMEVIKNFFLRIINGVVRRAELAVFGIVAFLNVFITINTAAEIAAAPFVRKIGGELNIHPYRRANFLDTVTSSLGYIFPWSGGVLLAWATVQGAADKYDFLPVVSPGEVFPFVFQGWLLLLVMLIAAWTGWGLRYTGENGEEVKPEK				NA	NA	NA	NA	NA
AK012_02660	495		COG1670	Acetyltransferase	GTGAAGGTAAGGTGGGCGCGATTGGATGATTTTGATGCAGTGAACCAATGGATCGGGTCAAAAGAAGAATTGAAACAGTGGAGCGGATCCGGGTTTAAGTACCCTCTCAGCATAAAACAGTGGGAGGATTACTTGAATGAGAAAGACCGTCATTCGTTCACAGCCGTATGGGAGGACAGTCCTGCCGGTCATATTTCCATCGGCCGGATCGAACGTTGTACAACAGGAAGAATCGGCCGGGTGATCACCTCCCCCGAGCACCGCGGAAAAAAGATAGCCGGGCAGATGCTCCGTGAAACCATCACGTACGCCTTTGATGAACTTGATCTGAAGACGGTTACTTTAGGTGTCTTCCCTTTCAACACTCCGGCGATCCGGGTATATGAAAAAGCAGGATTTTCATTAAAAGAACCGGGTCGAACGAAGGGAACCACAGACAAAGACCGATGGAATACTTTGGAGATGATTCTCTATAAAAGCGAATGGAAAAATTGA	MKVRWARLDDFDAVNQWIGSKEELKQWSGSGFKYPLSIKQWEDYLNEKDRHSFTAVWEDSPAGHISIGRIERCTTGRIGRVITSPEHRGKKIAGQMLRETITYAFDELDLKTVTLGVFPFNTPAIRVYEKAGFSLKEPGRTKGTTDKDRWNTLEMILYKSEWKN				NA	NA	NA	NA	NA
AK012_02661	2760	ppc	COG2352	Phosphoenolpyruvate carboxylase	GTGACAACGCTTAACACTACAAACGACCATACGACTCCCCTCAGGAGAGATATCCGTTCCCTTGGACAGATGCTTGGAAACATTCTTGTCCATCACGGCGGTGAGGAGTTATTGAATAAAGTAGAAACCATCCGCCAATTAACAAAGGATTTACGACAAACACCGGATCAGCAGACTTATAAACAGCTGAAGCAGGAAATCCAGAGCCTCGAGCCGCCGATGCGCTCCCAAGTCATCCGCGCCTTTTCTATCTATTTCCACCTCGTAAATATCGCAGAGCAGAACCACAGAATCCGCAGAAGACGAGAATATCAGCTCCGCGAAGACCACGGTGCCCAGCCTTTTTCATTAGAAAGTGCCGTCGTCAATTTGAAAAATAATAACTTTTCCAAAGAATTGATCCAGGATGTGCTTCATGATCTTTCTCTGGAATTAATCATTACTGCACACCCGACGGAAGCGACGAAGCGGACCGTCCTTGAAATCCAGAAACGAATCGCAGCTATTCTTCAAAAGCTTGATCATCCACAGCTGACTAAAGGGGAACGTGAAAGTCTGCAGGACAGCCTGCAGAACGAAGTGACGGTCCTATGGCAGACCGATGAGCTGCGCGAACGCAAGCCGACCGTTATGGACGAAGTGCGTAATGGATTGTACTACTTCGACCAGACGTTATTTGATGTGCTTCCAGATATCCACCAGGAGCTTGAAAACCGCCTGGAGGATCATTTCCCTGGTGAAGACTGGGACGTGCCGAATTTCCTTAAATTCGGATCCTGGATCGGTGGAGACCGTGACGGAAACCCGAACGTGACTCCTGAAATCACTTGGGAAACGCTTGAAAAACAGCGCCAGCTGGCCCTGAAAAAATATGACCAGGTCCTTGTTGAGTTGATGAAACGTTTCAGCCACTCCTCTACTCAAGTGACTGTTACAGATGAGCTGAAGCAGTCCATTGATCAGCAGGAGCCTCTTCTTTCTGAAGAAAAAAGATGGCGGGATGACCGCGAAATCTACCGCCGGAAATTTGCTATTATCCTGGAACGTCTGCGTCAGGTAGGAAAGTCAGACATCGGATATAAAGACGCCGATGAGCTTCTGGAAGACCTTCACCTTATAAGGGACAGCGCTCAGACCCACCAGCCGAACCGCGGGGAACTGAAAAAATTGAGAAAGCTGATCCGTCAGGTTGAAATGTTCGGCTTCCACCTCGCTACCCTCGACATCCGTAACCACAGCGGGGAACATGAAGCTGCCGTTACCGAACTGCTTCGTAAAGTCGGAATTGAAGAAGACTATTCCGCCCTGCCTGAAGAGAAGAAGCTTACTGTCCTTCAGGATGTATTGAAAGATCCACGTCCGATTTCCCTGCTGAATGAGGATTATTCGGAATCCACCCAGCAGATGCTGACCGTTTTCCAAATGATCCGCAACGCTCACCTGGAGTTCGGAAAACGCTCCATTGAAGTCTACTTGATCAGTCATACAGAGGCAGCCAGTGACCTTCTTGAAGTCCTTGTGCTTGCTAAAGAAGCTGGAATCTACAGGCTTCACGCCGACGGTACTGTGGAAAGCAACATCAACGTTGCCCCGCTGTTGGAAACCGTCGATGATCTGGTCGCAGGACCTGAGATATTAAAAACGGTATTTGATATGGATATCTACAGCCGTCATTTAGAAATGCGCGGCAGCTCCCAGGAAATTATGCTCGGATATTCCGACGGCAGTAAAGATGGAGGAACACTTACGGCCAACTGGCGCTTATACAAAGCACAGCAGGAAATCCGTGAAATGGCTGAGGATTATGGTATCGGTCTCAAGTTCTTCCACGGGCGCGGCGGCTCTCTCGGACGCGGGGGCGGGCCATTGAACCGCAGTCTGTTGTCTCAACCAGCCGAAACCCTTGGTGAAGGCGTAAAAATCACTGAACAGGGCGAAGTGCTGTCTTCCCGCTACCTTCTGCGTGATATTGCTTACCGGAGCCTGGAGCAGGCAGCCTCCACTCTTGTAGAAGGAGCTGCGAATGTTTCGAAGGAATCCGAGCAGGGGCATCACCGTGAAGACACATGGGAACAGGCGATTGAAGAGATTTCCGAAGTGTCTCTGAAGAAGTACCAGGATCTTGTCTTCGGCGACCCTGAATTTCTAACGTACTTCAATGAAGCCACTCCGCTTCAGGAAATCAGCGGCCTGAATATCGGTTCCCGACCAATGAAGCGTAAAGACAGCTCCAAGTTTGAGAACCTCCGTGCCATTCCGTGGGTCTTTGCCTGGACCCAGAACCGTCAGCTTCTTCCTGCTTGGTATGCTGCAGGAAGCGGTCTTGCTCATTATGCCGATCAAGGCAGCGAACATCTGCAGCAGCTGCAGCAGATGTACGAAAACTGGCCGTTTTTCCGTTCAACCATCAATAACCTGCAAATGGCCTTGACGAAAGCGGATATTCAAACCGCTCGTGAATATACGCAGCTCGTTCAGGACGAAAAACTGGGCACGCGTATCTTCAATGAAGTGGTTGAAGAATATGAACGTACGGAAAACATCCTCCTTAGAATCACCGGGGACGATGAACTGTTGAATCACCAGCCGACGATCAAGGAATCCGTCCGCCTGCGGAACCCATACGTTGATCCATTAAACTTCCTGCAGGTGGAGTTAATTAAAGAACTCCGCAAGGAAGAGGATCCAAACGATGAAATTTTAACAGAAGTACTGTTGACCATCAGCGGGATTGCTGCCGGTCTTCGAAATACAGGTTGA	MTTLNTTNDHTTPLRRDIRSLGQMLGNILVHHGGEELLNKVETIRQLTKDLRQTPDQQTYKQLKQEIQSLEPPMRSQVIRAFSIYFHLVNIAEQNHRIRRRREYQLREDHGAQPFSLESAVVNLKNNNFSKELIQDVLHDLSLELIITAHPTEATKRTVLEIQKRIAAILQKLDHPQLTKGERESLQDSLQNEVTVLWQTDELRERKPTVMDEVRNGLYYFDQTLFDVLPDIHQELENRLEDHFPGEDWDVPNFLKFGSWIGGDRDGNPNVTPEITWETLEKQRQLALKKYDQVLVELMKRFSHSSTQVTVTDELKQSIDQQEPLLSEEKRWRDDREIYRRKFAIILERLRQVGKSDIGYKDADELLEDLHLIRDSAQTHQPNRGELKKLRKLIRQVEMFGFHLATLDIRNHSGEHEAAVTELLRKVGIEEDYSALPEEKKLTVLQDVLKDPRPISLLNEDYSESTQQMLTVFQMIRNAHLEFGKRSIEVYLISHTEAASDLLEVLVLAKEAGIYRLHADGTVESNINVAPLLETVDDLVAGPEILKTVFDMDIYSRHLEMRGSSQEIMLGYSDGSKDGGTLTANWRLYKAQQEIREMAEDYGIGLKFFHGRGGSLGRGGGPLNRSLLSQPAETLGEGVKITEQGEVLSSRYLLRDIAYRSLEQAASTLVEGAANVSKESEQGHHREDTWEQAIEEISEVSLKKYQDLVFGDPEFLTYFNEATPLQEISGLNIGSRPMKRKDSSKFENLRAIPWVFAWTQNRQLLPAWYAAGSGLAHYADQGSEHLQQLQQMYENWPFFRSTINNLQMALTKADIQTAREYTQLVQDEKLGTRIFNEVVEEYERTENILLRITGDDELLNHQPTIKESVRLRNPYVDPLNFLQVELIKELRKEEDPNDEILTEVLLTISGIAAGLRNTG	PGPT0001165_1683	DIRECT EFFECT	BIO-FERTILIZATION	CARBON_DIOXID_FIXATION	CO2_FIXATION-ALTERNATIVE_PAHTWAYS	CO2_FIXATION-PHOSPHOENOLPYRUVATE_CARBOXYLASE_BIOSYNTHESIS,PGPT0001165-ppc-K01595	NA	NA
AK012_02662	1287			hypothetical protein	ATGATTAGTATCCTTTTAGGACTTGGTTTACTCATGCTGCTCGCCTACCTGGGCTGGTCCATCATCTGGATTGCCCCGCTTGTATCAGGTGCAGTAGCTGTTCTCAGCGGAATGGACATCCTCCCTGCCTACACCGACACGTACATGCAGGGATTCGTCGACTTTGCCAAAGATTATTTTCCTATTTTCCTGTTCGGTGCGATTTTTGGAAAGCTGATGGAAGATACCGGAGCTGCCCAGTCGGTGGCGCACAAGATATCCAGTGTCATCGGGAAGAAGCGTGCGATTCTCGGAATGCTGTTATCGGCTGCTATTCTAACCTATGGCGGCGTCAGTCTTTTCGTTGTCGTTTTTGCCGTTTATCCGCTTGCCGTAGCGATGTTCAGGGAGGCCGATGTTTCGAGAAAACTGATCCCTTCCACGTTCGTTCTCGGGGCTTTCACTTTTACAATGACCGCCCTTCCGGGAACACCACAGATTCAGAACATTATTCCAATCAACACATTTGAAACCGATACAATGGCAGCCCCGATCCTCGGGATCGTCGCTGCGTTAATCATGGCCGTCGGCGGATACTTTTATTTGAAATTCCGTGAAGGACGACTGACTAAGAACGATGAGAAGTTTACAGAGCCTGAAGGAGATAACCAAGTAAAAAGTGTGAACGAGGAGGAACTCCCAAACTGGATCTTATCGACCATTCCTCTGATTGCTGTCGTTGCCACTCTTAACATTTTTGATTTGAATATCTTAACAGCCCTTCTCATCGGGATTCTGTTGATCATGATTTTCAACTGGAAAGATTACAAAGACTTTATTAAAGCCATCAACGGCGGCGCATCCGGATCGGTTATGGCGACGATCAATACCAGCGCCGCCGTCGGGTTCGGAACGGTCGTCACCGCCTCCCCCGGCTTTGACACAGTGAAAGAGCTGATTTTCAGCATTCCGCTCAGCCCATACTTTTCCGAGGCTTTCGCTGTCCAGCTGTTAGCTATGATTACGGGCTCTGCTTCCGGAGGTATGGGGATCGCTTTAGAAGCCCTTGGTCAGGAGTATTATGATATTGCCGTGAATCAGGGGCTTAGTCTGGAAGCCTTCCACAGGATCACCTCTGTGGCTTCAGGCGCTTCCATTCTTCCTCATAACGGGGCACTGCTTACCTTGTTCACGGTCACAGGCCTTACACATAAGGATTCCTACAAGGACGTGTTTGTTGTAGGTCTGATTATCCCAATGATTGCAACCATAGCCATCATCCTTCTGGCTATGATGGGTATCAACTAA	MISILLGLGLLMLLAYLGWSIIWIAPLVSGAVAVLSGMDILPAYTDTYMQGFVDFAKDYFPIFLFGAIFGKLMEDTGAAQSVAHKISSVIGKKRAILGMLLSAAILTYGGVSLFVVVFAVYPLAVAMFREADVSRKLIPSTFVLGAFTFTMTALPGTPQIQNIIPINTFETDTMAAPILGIVAALIMAVGGYFYLKFREGRLTKNDEKFTEPEGDNQVKSVNEEELPNWILSTIPLIAVVATLNIFDLNILTALLIGILLIMIFNWKDYKDFIKAINGGASGSVMATINTSAAVGFGTVVTASPGFDTVKELIFSIPLSPYFSEAFAVQLLAMITGSASGGMGIALEALGQEYYDIAVNQGLSLEAFHRITSVASGASILPHNGALLTLFTVTGLTHKDSYKDVFVVGLIIPMIATIAIILLAMMGIN				NA	NA	NA	NA	NA
AK012_02663	777	bdhA_3		D-beta-hydroxybutyrate dehydrogenase	GTGTTAGAAGGAAAATCTGCCTTAATTACTGGATCAGGACAGGGCATCGGTTTGGAAATCGCTACGGAATTTGCGAAAGCCGGTGCCAAAGTTATGTTAAACGATATCAATCAGGACACCTTGGACAAATCGGTGGAAGAGCTGCGTTCCCAGGGCTTTACCGTTGAAGGGGTTGTCGCCAACGTGGCGAAAGAGGAAGATGTGAAAAATGCCATTGAAGAGACCGTCAGTAAATTTGGCAGCATTGATATCCTCGTCAATAATGCCGGGATTCAGCACGTGGCTCCAGTGGAAGAGTTCCCATCTGAGAAGTTTGAACTGATTCTTGATATTATGCTCAAGGGGCCATTTTTCGGAATCAAACACGCCTTCCCGCACATGAAAAAACAGGGATATGGTCGTGTCCTGAATATGGCCTCCATCAATGGTTTGATCGGATTCGCCGGAAAAGCAGGCTACAATAGTGCCAAGCACGGCGTTATTGGTCTTACGAAAGTGACGGCTCTTGAAGGAGCGGATGACGGCATTACCGTCAATGCCATCTGTCCCGGCTATGTCGATACACCACTTGTACAGAATCAGCTGGAAGATTTGGCTAACACGCGCAACATCGAGAAAGAAAAAGCATTGGAGGAAGTCATCTATCCGCTCGTTCCTCAAAAACGACTGCTGCAGGTACAGGAGGTTGCGGATTACGCAATTTTCCTTGTCAGTGATAAAGCGAAAAGTATTACAGGTCAGGCGGCAGTCATTGACGGCGGTTATACGGTGCAGTAA	MLEGKSALITGSGQGIGLEIATEFAKAGAKVMLNDINQDTLDKSVEELRSQGFTVEGVVANVAKEEDVKNAIEETVSKFGSIDILVNNAGIQHVAPVEEFPSEKFELILDIMLKGPFFGIKHAFPHMKKQGYGRVLNMASINGLIGFAGKAGYNSAKHGVIGLTKVTALEGADDGITVNAICPGYVDTPLVQNQLEDLANTRNIEKEKALEEVIYPLVPQKRLLQVQEVADYAIFLVSDKAKSITGQAAVIDGGYTVQ	PGPT0008310_1810	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008310-bdh-K00019	NA	NA
AK012_02664	1377	gdhA	COG0334	Glutamate dehydrogenase	ATGCAGAGACAACAATCAATCATCGAAGAGTCACTGAAAGCAGTTATGGAAAATGAAGATTTTCTTCCGGATTTGAAGTACCAGTCCAGGGAGCAGGCGTATAAATCATTGGTGGCCCTGCTGTCCACACCCAATCACGTTCACAAATCATACTTAAGAGTCCCTATGGAGGATGGACAGATCGTCCGTATTCCTGCTTTCCGCATCCAGCACAGTGATACAGTCGGCCCATATAAAGGCGGGGTCCGCTTCCACGAATCAGTTCACGAAGACGAGGTAGCCAATCTTGCAAAACTGATGACCTTGAAAAATGCCCTTCATGAGCTTCCGTTCGGCGGAGGAAAGGGCGGCGTCAGTATTAACCCGAAAGATTACAGTGTGAAGGAACTGAACCTGATCTGTAAAAAATACGTCCAGTATTTTAATGATATCCTTGGACCGGATAAGGATATTCCAGCTCCTGACGTAGGAACAGGAGAAAGGGAAATGGACTGGATGATGGGTGAGTTCAAGGCCCTCCATCCGGGAGAACCTTACCGGAACAGCTTTACTGGAAAAAGCATTGTGAACGGAGGATCACTGGGACGCCGGGAAGCCACAGGTAAGGGTGTCTACTTTACATTCCGCTATATGATGCACGACTTTTTGAACAATAATCGTGACTGGCTCGAGGGAACGGATAACGTGTTTGCCAAGACCGCTTTGAACCATGCTGATAAAGAATTGAAAATGGCTGTGCAGGGCTTCGGTAACCTCGGTTCTGTCGCTGCGCTTGAATCCGGGAAATGTGATTACTTAAATAACAAAGTCGTCGCTGTAAGTGATGCAAACGTCATGCTTTATAACCGGGAAGGTCTGGATATTGAAGCACTTGTAGAATTCACTCAACAAAACGACGGCGACCTGCCTGCGGAAGAGCAGCAGCTGGAGGAGCATGAAATCCAAGCTGAAATCAGAGATCGGGATGAACTGCTCACCATGGATGTGGACGTGCTGTTCCTGGCCGCTCTGGAAGACCAGATCCACGAAGGAAATATGAAGGATATCCAGGCGGAAATCATTGTCGAAGGGGCTAACGGCCCAATTACAGAAGAGGCGGATAAGCATCTGGCGGATCAGGGGGTATTGATTATTCCAGATATTCTCGCTAATGCCGGCGGTGTGATTGTTTCCTTCTATGAGTGGGTGCAGGGCAGAGAAGCCCGCTTCATGAATGAAGATGAAGTGTTTGAACGCCTCTTTGAAAAAATGAAGCATACGATGGATACAATTCTTCCTCAGTTTTTCGGAGATCCATTCCCGCTGCGTCAGAACTGCTACATCCATTCTGTTATGAAATTGTCCAATATCATGTACCGTCAGGGAAGACTCTACTAA	MQRQQSIIEESLKAVMENEDFLPDLKYQSREQAYKSLVALLSTPNHVHKSYLRVPMEDGQIVRIPAFRIQHSDTVGPYKGGVRFHESVHEDEVANLAKLMTLKNALHELPFGGGKGGVSINPKDYSVKELNLICKKYVQYFNDILGPDKDIPAPDVGTGEREMDWMMGEFKALHPGEPYRNSFTGKSIVNGGSLGRREATGKGVYFTFRYMMHDFLNNNRDWLEGTDNVFAKTALNHADKELKMAVQGFGNLGSVAALESGKCDYLNNKVVAVSDANVMLYNREGLDIEALVEFTQQNDGDLPAEEQQLEEHEIQAEIRDRDELLTMDVDVLFLAALEDQIHEGNMKDIQAEIIVEGANGPITEEADKHLADQGVLIIPDILANAGGVIVSFYEWVQGREARFMNEDEVFERLFEKMKHTMDTILPQFFGDPFPLRQNCYIHSVMKLSNIMYRQGRLY	PGPT0000695_618	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
AK012_02665	780	fabI_1	COG0623	Enoyl-[acyl-carrier-protein] reductase [NADH] FabI	ATGGAAGATATTTTACAGATGAAAGATAAAAACATTGTCGTTATGGGTGTGGCAAATAAACGAAGCCTGGCCTGGGGTGTGGCACGGTCCCTCTACAAGGCAGGGGCGAACATCATTTTTACATATAGAAAAGAACGCAGCTATACGAAGCTTCAGAAGCTTCTTGAGGAAGAAGGGATGCAGGCGGAAGCTGTTGTCCAGTGTGATGTGAACAATGATGAAAGCATCCAGGAGGCCTTTGCGAAAATCGGCGGGCAGACAGGGGTCATTCATGGTGTCTGCCATTCGATTGCTTTCGCTCATGCCGAAGATTTAAAGGGTGACTTTATTGAAACGTCCCGCGACGGCTTCGCTTTCGCTCAGGATACGAGCGCGTATTCTCTAGTAGCAGTAGCCAAAGCGAGCCGGCCGTATATGACAGAAGGCGGTTCCATGATCGCTATGAGCTACCTTGGTGCAGAACGTGTGGTGAAAGGGTACAACGTCATGGGTGTGGCGAAAGCTTCGCTTGAAGCGGCTGTCCGTTACCTCGCTGAAGATATGGGGCATCATCAAGTGCGTGTAAATGCCATTTCTGCCGGAGCTGTCCGTACGCTAGCCGCCAAGGGTGTGCCAAGCTTCAATGAGATTCTCAACAAGATTGAAGAAACTTCTCCGCTGAGAAAAAATGTGACCCAGGAAGAAGTCGGCGATATGACGCTTGCGATGATGAGTCACCTTTCCCGCGGGGTAACTGGTGAAATCGTCTATGTAGATTCCGGTTACAATATTCTAGGATAA	MEDILQMKDKNIVVMGVANKRSLAWGVARSLYKAGANIIFTYRKERSYTKLQKLLEEEGMQAEAVVQCDVNNDESIQEAFAKIGGQTGVIHGVCHSIAFAHAEDLKGDFIETSRDGFAFAQDTSAYSLVAVAKASRPYMTEGGSMIAMSYLGAERVVKGYNVMGVAKASLEAAVRYLAEDMGHHQVRVNAISAGAVRTLAAKGVPSFNEILNKIEETSPLRKNVTQEEVGDMTLAMMSHLSRGVTGEIVYVDSGYNILG	PGPT0008370_2843	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208	NA	NA
AK012_02666	678			hypothetical protein	ATGACAGAGCGTGTCGTAGTATCATGGAGCGGTGGGAAGGATTCTGCCCTCGCCCTGTATCAAATGCTGCATAACCCCGACGTCAGTGTGAAAGGGCTGCTTTCTACCGTATCTGCTGCAAGCAGGAGACTTCCGGTCCATGAGGTGAAAACGGAATGGATGAGAAGACAGGCACAAGCGCTCCGGATGCACTTATATGAGGTGGGTCTCCCGGACCAAGCCTCCAACATGCAGTATGAACAGGTCCTTGGGAAGCAGGTAGAGAAGCTGAGGGATGCAGATATTTCTGTGATGGTATATGCTGATCTCTTTCTACAGGATATTAAAGATTACCGCCTTCAGCTCATGGATAGAATAGGAATGAGAGCCCTTTTCCCTTTATGGAATCAGCCGACGCAAGAGACAGCAGAGACATTTATTCAGCTGGGTTTTAAAAGTATCGTAACAACGGTGGACACCGGCATTCTGCCAGAGGAATATGCCGGCCGGGCGTTCAATGTGGATTTTCTGAAAGATCTTCCCCAGGGCGTGGATGCGTGCGGGGAGAATGGTGAATTCCATACTTTCGTCTATGATGGTCCCTGTTTCATTCACGCGCTTCCTGTCAAAGCGGGGAGCCGTTTTACCTCTTTTGATGGAAGGTTTGCTCATGTAGAATTGGAGGAGTCCCACGAGTAA	MTERVVVSWSGGKDSALALYQMLHNPDVSVKGLLSTVSAASRRLPVHEVKTEWMRRQAQALRMHLYEVGLPDQASNMQYEQVLGKQVEKLRDADISVMVYADLFLQDIKDYRLQLMDRIGMRALFPLWNQPTQETAETFIQLGFKSIVTTVDTGILPEEYAGRAFNVDFLKDLPQGVDACGENGEFHTFVYDGPCFIHALPVKAGSRFTSFDGRFAHVELEESHE				NA	NA	NA	NA	NA
AK012_02667	1077			hypothetical protein	ATGATGAAACAGGTATACAGCAGGATGATACAATTTCGAGGCTCGCACTATGATTATGGATATTTCCAGGGGGAACAGCTGAGGGATTCCATGACCATCAAAAATCGGGAAAAACAGTGGAAAGTACGGGTTCCCCGCTTTACAGTGGAAGAATCTGAAGTGAAAGAAGCCATCACACGTTTTGCCCCCGGCATCTGGGATGAACTCCTAGGGCTGAGGGATGCCCTGGAATGGCCGATGGAAAGGGTCATGATGGAGTTCGGGGGCTATCGTGTGGATTATAAAAGGAGCGGCTGCTCGATCATGACCGGGGATGGTTATTTCATCCGCAATTATGATTACATGCCGAAAACCTATGAAGGACGCTACGCCTTATTTCAGCCGGAAGACCACGGCTACAGCACAATCGGACCCACACAGAGAATCACCGGCAGGATGGACGGCATGAATGAGAAGGGACTTGTCCTCGGCTATAACTTTATGCACAGGAAGCGGCCGGGAGATGGGTTCATCTGCTGTATGATCGGACGGATCATCCTTGAAACCTGTGCGGATGTAGAAGAAGCGGTGGCTGTGCTGAAAGAAATCCCGCATCGTCATTCGTTCAGTTATACGGTATTTGATCCAAGTGGAAGGACCTATATTGTGGAAGCTTCTCCACGTGGAACAGCCGTCAGAGAAGCTGACGTCTGTACCAATCATTTTGAAGTCATGGTAGAGGAAAACCGGAATCATCTGGTTGATTCCATGCGGCGTATGGAGGCCATCCAGACAGGACGGGAACAGCTCTCCCATGCCTATGACGCTTTCCGACTGATGAATGATACAGATGGGGGTGTGTTTTCGGACCTGTACGACCAATGGGCAGGGACGATACATACAGCCGGCTACCTGCCAAAGGAAGGGAAAGCGTGGTTTGCCTTAGGCGGTGATCAGGAGCCGGTGGAATTGGATTTTCACCAATGGCTTTCCGGTATCGATGATCCCCGGACGATGATATACGGAAAAGTGGATACGGAACTGCCTTTTGTACACATGGAAGATGGTGCTTATTGGAATGGAAGAAAACGGAGATAG	MMKQVYSRMIQFRGSHYDYGYFQGEQLRDSMTIKNREKQWKVRVPRFTVEESEVKEAITRFAPGIWDELLGLRDALEWPMERVMMEFGGYRVDYKRSGCSIMTGDGYFIRNYDYMPKTYEGRYALFQPEDHGYSTIGPTQRITGRMDGMNEKGLVLGYNFMHRKRPGDGFICCMIGRIILETCADVEEAVAVLKEIPHRHSFSYTVFDPSGRTYIVEASPRGTAVREADVCTNHFEVMVEENRNHLVDSMRRMEAIQTGREQLSHAYDAFRLMNDTDGGVFSDLYDQWAGTIHTAGYLPKEGKAWFALGGDQEPVELDFHQWLSGIDDPRTMIYGKVDTELPFVHMEDGAYWNGRKRR				NA	NA	NA	NA	NA
AK012_02668	1059		COG1252	NADH dehydrogenase-like protein	ATGAAAAGAGTTGTCATTTTAGGTGGGGGATACGGCGGCATGAATGCTCTTCACGGGCTGCTTGACGGCGTCAGGGATGATGTACATATCACTGTCATCGACCGAAATCCCTATCACTCATTGAAAACGGAGTTTTATACGATTGCTGCAGGTACGGAATCCGATCGTCATGCCCGGGTGGATTTTCCAGACCATGAACAGGTCGATTACGTTTTTGATGAAATTGAAAACATTGATGTGGAAGCCGAGCATGTCCGGGTGAAAGGTGGCCTGGAGCCTATTCCATACGACTATCTTCTGATCGGACTGGGATGCGAGGATAATTATCACGGGATTGAAGGGGCACAGACCTTTACAGAAAGTGTCCAAACGTTCTCCAAAGCACGGAGTGCCGGTTATGCCATCAATAATCTCGGGGCTTACGGAAAGATTACCGTCGTAGGGGCTGGACTGAGCGGAATCGAGGTCGCTTCCGAGGTACGCGAAAGCCGGCCGGATTTGAATATCCGTCTGCTTGACCGGGGCTCGTCTGTGTTGAAAGCCTTCGATTCAAAGATTCAGGAATACGTGGAGAAATGGTTCAACGACAATGATGTCGAGGTCATTCACCATGCCAATGTAGAGTACGTCGAAAAAGACGGCGTCTGTAACAACGGCCTTTGTTATATCAACGATGTGACTGTATGGACCGCCGGTGTGCGTCCGAATTTCCTCGTACGTGAGCTTCCTTTTGACAAGGATGATCAGGAAAAAGTGATCATCAACGATTTCTACCAGGTACCAACCCATCAAAATGTCTACGTTGTCGGAGACTGTGCGTCCTCCGAGTACTCTCCAAGTGCGCAGCTGGCCGGCCAGCAGGGCGAAAAGGTTGCGGAAGTACTCCGTGCTGTCCTCCAGGACCGCGTGCCGGAACGCCCGGGTGACGTTAAACTGAAAGGCTCCCTGGGCTCCCTGGGGAAAAACGACGGGTTCGGCAATATGCTTCAAAAGCCGATGACCGGTGTCCTTCCACGCCTTGCCAAGTCAGGAGTCTTATGGCTGAGCAAGCGGCATTAA	MKRVVILGGGYGGMNALHGLLDGVRDDVHITVIDRNPYHSLKTEFYTIAAGTESDRHARVDFPDHEQVDYVFDEIENIDVEAEHVRVKGGLEPIPYDYLLIGLGCEDNYHGIEGAQTFTESVQTFSKARSAGYAINNLGAYGKITVVGAGLSGIEVASEVRESRPDLNIRLLDRGSSVLKAFDSKIQEYVEKWFNDNDVEVIHHANVEYVEKDGVCNNGLCYINDVTVWTAGVRPNFLVRELPFDKDDQEKVIINDFYQVPTHQNVYVVGDCASSEYSPSAQLAGQQGEKVAEVLRAVLQDRVPERPGDVKLKGSLGSLGKNDGFGNMLQKPMTGVLPRLAKSGVLWLSKRH	PGPT0004020_5971	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
AK012_02669	945			hypothetical protein	ATGAGTAAAATATACGTCCTTCACGAAAACGACGAATGGACCGGCCACTTGACGAAACGATTAGAGGAATTGAATCTTCCTTATGAGTTGTGGCATTTGGATCAAGGGACGCTTGATTTGACCAGTGAGCCGCCGGAAGGCATTTTTTATAACAGGATCAGCGCATCTTCTCATACGAGAAACCACCGTTTTGCACCGGAGTATACAGAGGCTGTCCTGGCCTGGCTGGAACGCCACGGACGTACAGTGGTTAACGGGAGCCGGGCGCTTCGTCTGGAAGTGAGTAAAGTAAATCAGTACATGGCCTTGAATCAGGCAGGCATTCAAACGCCTGAAACCATAACGGCTGTGGGCAGGTACAACATTCTGGAAGCAGCCCGCCAGCTTGATCAATCTTCTTTCATCACGAAACACAACCGTGCCGGCAAGGGGCAGGGCGTCCAATTGTTTCATTCGACGGAAGCATTGAGAGAATATATGGATGGCCCATCCTTTGAGGAACCGGTGGATGGCATAACGTTGATTCAACAGTATATCGAAGCTCCTGAACCTTACATTGTCCGTCATGAATTTGTCGGTGGGAAATTTGTCTACGGTGTGAAAGTTGATACATCCGAAGGGTTTGAGTTATGTCCGGCAGATGCCTGTACAATTGAAGATCTTTACTGCCCGACAGATCAAAAAGAGGAAGCCCTGAAAGCGAAATTCCAAATTCTGGAGGATTATCGACCGGCCATTGTTGATCTATACGAGTCGTTTTTGAAAGAGAATAACGTTCAAGTCGCCGGCATCGAAGCGATTCAGGATTCAGAGGGAAACCTCTACACGTATGATGTCAATACAAACACCAATTATAATTCTGACGCTGAGGCTGCTGCCGGCACGTACGGCATGTTGGAACTGGCCCGTTACCTTGGCGGCCTGCTACAGAAATCCTATGTATAA	MSKIYVLHENDEWTGHLTKRLEELNLPYELWHLDQGTLDLTSEPPEGIFYNRISASSHTRNHRFAPEYTEAVLAWLERHGRTVVNGSRALRLEVSKVNQYMALNQAGIQTPETITAVGRYNILEAARQLDQSSFITKHNRAGKGQGVQLFHSTEALREYMDGPSFEEPVDGITLIQQYIEAPEPYIVRHEFVGGKFVYGVKVDTSEGFELCPADACTIEDLYCPTDQKEEALKAKFQILEDYRPAIVDLYESFLKENNVQVAGIEAIQDSEGNLYTYDVNTNTNYNSDAEAAAGTYGMLELARYLGGLLQKSYV				NA	NA	NA	NA	NA
AK012_02670	1581	cstA_2	COG1966	Peptide transporter CstA	ATGCGTTTTTACCTGCAAACGCTTCACTTCAAGAAAAAAAAGAATAAAAAAATTAATATTCAGAAAATGGGTTGTTATTCGACAAAGAAGCGGCTAGAATACTTTTTATATTCTTATTTGGAAGGAGGCTCAGCGATGGTCACATTTATCGCATCTATTGCTTTACTTATACTCGGTTATTTTGTTTATGGAAAGGTGGTCGAACGAATTTTTGTCATCAATGACAACAAGACGACACCGGCCTATGAGCAGAATGACGGATTTGACTACATGCCGATGAGCTGGTGGAAAGCGAGCTTGATCCAGCTGCTCAATATCGCTGGGCTTGGACCGATTTTCGGAGCCGTTATGGGCGCACTTTACGGGCCCGTTGCATTTATATGGATTGTCATTGGATCAATTTTCGGGGGAGCGGTTCATGATTACTTCTCCGGTATGATGTCTCTGCGGCATAAAGGTGAGCAGTTCCCCGGTCTGGTAGGGAAATACCTTGGAAACCCTGCACGGGTGATCATTAACGTTCTATCCATCGGATTGATGGTGCTGGTCGCAGCAGCTTTCACTGCCGGACCTGCCCAGCTGATGGCGGAAGTGACACCACTTGGATTCTTTACATGTATCCTGCTGATTTTTGCTTACTTTCTGGTAGCTACCGTTCTTCCGATTAACAAAATTATCGGAAAGGTGTATCCGATTTTCGGGGCGGTGCTCATCTTTATGGCCGTCAGTATCGGGATCGGATTGTTCTTCTTTGATAATCCCGTTCCGAATCTGACCGTTGCGAACCTTCACCCTCAGGAACTTCCAATCTGGCCGCTGCTAATGGTTACGGTTTCCTGTGGAGCGATTTCAGGATTTCATAGTACGCAGAGCCCGATTCTTGCGCGAACGTTGAAAAAAGAAAGCGAAGGCAGGAAAGTGTTTTACGGAGCAATGATTGCCGAAGGGATTATCGCCTTGATCTGGGCGGCGGCAGGAATGGCCTTTTTCGGCGGTACAGGGGAGCTTCAAACGGCCCTTGACGCAGGTGGGCCGGCCGGCGTGGTCAACGAAATCAGTACTTCCACTCTTGGAACACTGGGCGGCATTCTTGCTGTACTAGGTGTCATTATCCTTCCGATTACTACTGGGGATACAGCGCTGAGGTCCTCCCGGATGATGCTTGTGGATCTGCTTAAAGGATTTACTAAAAAGGAATGGAACGGGAAATGGGCGACGATCCTTCTGGCTGTACCTGTTGCTGTACCGACTTTCATGCTTACACAGATGGACTACAGCTTCCTGTGGCGTTATGTAGGCTGGTCAAACCAGGTCGTGGCCACCGTCATGCTTTGGACGGGAGCGATGTATTTGATGAAGCAGGCAAAATTCCACTGGATCTGCAGTGTACCGGCGCTGTTTATGACGGCTGTGGTCAGTACCTATATCTTCTATGCACCGGAAGGGTTCGGTCTGGCTTATTCCACATCCATGTTGTTAGGTGCTGTCATCTGGACGATCGTCTTCACATGGTTCGTGTGGCAGGTCATCAAACATAAAATGCACAAACAGCAGCACGTCGTTACGACGAAAGCAAGCTGA	MRFYLQTLHFKKKKNKKINIQKMGCYSTKKRLEYFLYSYLEGGSAMVTFIASIALLILGYFVYGKVVERIFVINDNKTTPAYEQNDGFDYMPMSWWKASLIQLLNIAGLGPIFGAVMGALYGPVAFIWIVIGSIFGGAVHDYFSGMMSLRHKGEQFPGLVGKYLGNPARVIINVLSIGLMVLVAAAFTAGPAQLMAEVTPLGFFTCILLIFAYFLVATVLPINKIIGKVYPIFGAVLIFMAVSIGIGLFFFDNPVPNLTVANLHPQELPIWPLLMVTVSCGAISGFHSTQSPILARTLKKESEGRKVFYGAMIAEGIIALIWAAAGMAFFGGTGELQTALDAGGPAGVVNEISTSTLGTLGGILAVLGVIILPITTGDTALRSSRMMLVDLLKGFTKKEWNGKWATILLAVPVAVPTFMLTQMDYSFLWRYVGWSNQVVATVMLWTGAMYLMKQAKFHWICSVPALFMTAVVSTYIFYAPEGFGLAYSTSMLLGAVIWTIVFTWFVWQVIKHKMHKQQHVVTTKAS	PGPT0015060_1996	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
AK012_02671	171			hypothetical protein	ATGCCTTATAAAGAAAGACTTGAAAAGCAGATCGAGGAATTAAGAAAACACATGTACGACATATATAATAAAAACCCCGAGGACCCGGAACTGCTTCGTATTTCTCAGGACCTGGATGATTTATTGAACCGGTTTGGAAATGAAGACAGTTATCAATGTTCCAATCAGTAG	MPYKERLEKQIEELRKHMYDIYNKNPEDPELLRISQDLDDLLNRFGNEDSYQCSNQ				NA	NA	NA	NA	NA
AK012_02672	381	yabJ	COG0251	2-iminobutanoate/2-iminopropanoate deaminase	ATGTTCCAAACCATTTCTACTACACAGGCTCCTGATGCCATCGGACCCTACTCCCAGGCTGTGGATCTTGGGAATCTCGTTTTTCTATCCGGACAGATTCCTCTCCATCCAGAAACAATGGAATTTGTATCTGATGACGTAACTGAGCAGACCCATCAGGTGATGAAAAACTTGAAAGCTGTCCTGAACGAAGCCGGTCTCGGTTTCTCCAATGTGGCTAAGATGAATATCTATCTCGCTTCCATGGATGATTTTGCTGCCGTGAATGACGTCTATGCCGGCTATTTGAGCGAACCTTACCCCGCACGGGCAGCCGTGGAAGTCAGCCGTCTCCCTAAGGGCGCCAAAGTAGAAATTGAAGCTGTAGCCGTCCGGAAATAG	MFQTISTTQAPDAIGPYSQAVDLGNLVFLSGQIPLHPETMEFVSDDVTEQTHQVMKNLKAVLNEAGLGFSNVAKMNIYLASMDDFAAVNDVYAGYLSEPYPARAAVEVSRLPKGAKVEIEAVAVRK	PGPT0020030_3722	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
AK012_02673	231			hypothetical protein	ATGTATCTGACAATCAAGGAAACCGCTGGGTACCTGGAACTTCCTGAGGATTATATAGAGTATCTCGTTCATCATAATAAAATCAAAACCGTTCATGATGGTGAGCAGCTGCTCATCAATAAGCACCAATTCTCCACACATCTGGAGCAGATGGAAAATTACAGGGAATTGATCCAGGCGTATTTGAACGAACCGATTCCGGAAGATCCGGATGTTAAAGATGAAGATTAA	MYLTIKETAGYLELPEDYIEYLVHHNKIKTVHDGEQLLINKHQFSTHLEQMENYRELIQAYLNEPIPEDPDVKDED	PGPT0017735_3734	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
AK012_02674	855			hypothetical protein	ATGGCTTCTACATTTACATCTTCAAGCAATTCAGATGCCCAACAGACGAAAGAGGAAATAAAACCCTGGATCCGTCGCCTGGCCCGATTCGGTTTTATGGCAAAGGGAACGGTATATATGCTGATCGGCCTTCTGACTTTCATGGCGGTCATTGGTGTCGGAGGTGGGAAAACGACCGGAACATCAGGCATGTTCCGTGCGGTGGCTCAGGTAGCGTTTGGTGAAATTCTGTTGTGGGCCGTAGCTGTAGGCCTGTTCGCCTACATCATATGGCGCCTGATCGAAGCTGTTCTTGATCCGGGAAATAAAGGCAGTGATGCCAAAGGAATCATCACCCGGATCGCTTACGTCGTAGCAGCGGCTATTTATGGCGGTATTGCTTATAACGCGGTTAAAATCGCCATGAATGCAGGATCAAGCGGTGGAAGCACAGAGAAAACCATGTCAGCGAAATTGTTATCCCAGCCTTTCGGCCAGTGGCTCGTCGGAATCGTCGGCCTTATTATCATCGGTTATGCAGCCTACGAGTTCTATAAAGGAGCTTCCGGAGGGTTTATGAAATCCTTCAATATTGGAGATATGGACGAACACCGGCGAAAAGCAGCTAAAACGAGCGGCCGTTTCGGTTTATCCGCCCGTGGGATCGTTCTCGGCTTAATCGGTTTCTTCTTTATCAGGACAGCCATGACGTCCAACCCGGATGAGGCCAAGGGAATGGACGGAGCTCTTTCTGAGATATCCCAGCAGCCTTTCGGGCAGATCCTGCTTGGTATCGCAGGATTAGGACTGATTTTGTACGGCATTTATCAAATCGTCCGCGGCCGGTATATCCGTATGAATTTCGGAGCGAAATGA	MASTFTSSSNSDAQQTKEEIKPWIRRLARFGFMAKGTVYMLIGLLTFMAVIGVGGGKTTGTSGMFRAVAQVAFGEILLWAVAVGLFAYIIWRLIEAVLDPGNKGSDAKGIITRIAYVVAAAIYGGIAYNAVKIAMNAGSSGGSTEKTMSAKLLSQPFGQWLVGIVGLIIIGYAAYEFYKGASGGFMKSFNIGDMDEHRRKAAKTSGRFGLSARGIVLGLIGFFFIRTAMTSNPDEAKGMDGALSEISQQPFGQILLGIAGLGLILYGIYQIVRGRYIRMNFGAK				NA	NA	NA	NA	NA
AK012_02675	456			hypothetical protein	ATGCTCACATTTGAAGAAAAAGTTGCAGTTATTGAAGAGTTTACAGAATTAGACCGAAAGGATATTTCACTTGGACGGGTAAACTTCCATTACGAAGACAGCCTCTACGACAAAAAGATTGTCGTTTACCGTCTTCATCCAAACGGCAACGGCTTTGTTTATGCCGGTGAAATGGAAGAGGCGGATACAGATGAGCGCGGTATGATCAATATTAAAGATTACAGTGCGGATGCTTTAAGAGATCTGATCCGGGAAGCCATCAACTCCCTCTCCCTATCCCCGGCTGAAAAAGATCCGGTTATGGAAGAATGGCTGAACGACCGTGATCAGGCATTGATTTTATTAAGAGAAGAAGACGGCTATAATGTCTATGGCGATGATACCTTGGAAGGAGCATTCAACTCCTACCAGGAAGCTGCCTCTTTCCTGGAACAGGAAGGATTCAGCCGTCTCTAA	MLTFEEKVAVIEEFTELDRKDISLGRVNFHYEDSLYDKKIVVYRLHPNGNGFVYAGEMEEADTDERGMINIKDYSADALRDLIREAINSLSLSPAEKDPVMEEWLNDRDQALILLREEDGYNVYGDDTLEGAFNSYQEAASFLEQEGFSRL				NA	NA	NA	NA	NA
AK012_02676	732			hypothetical protein	ATGCAACCATACTTCAGACAGCCTTACGAAACGGCGGTGATCACCGCTTTTGCTCAAGGAGACGTCAACGGGGATTCCATGATGGACTACGTGTATTTATCTGGTTATCAGTCACCGGACAGCCCGTACGTCACCGGCATCACGCTCATTATCCAGGATGGCCGCACCCAGCAGTTTTACAGCATCCCCCTCCCTACAAACACAGGCTATCAGCCGAGGCTCTTCCTGGGTGATTTTACCGGGAATGGCATAGACGATATTTTAGTCAGCATGGATTCAGGTGGAAGCGGCGGGTTTGGTTACTACTATGTATACAGCTTCTTCAATAACCAGCCTTCTCTACTTTTTAATTATGAAAGCTTCGATTCTTCATTCAAGTATACCGTCACCTATCAAAATGACTATAAAGTAAAAGTGGTGAGTGAAACGCCTGCCCTGTCTTTTCTTATTGATCTGAGTAACCGGAGTGAAGCATACCTTTCTGAGATTTATACAGATGATGGAACATTGTTAACTCCCCTGCAGGGATCCGTATCCGGACTCAATCAACTATATCCCGTCGATTTCAATGGCGATGGGGTGTATGAGTTGTTCGCATTCCAGCGGGTCACCGGCCGGTATAATGCAGATGGGCTGGGTCTCATGCAAACCCCTCTTTCCTGGAACGGACAGCAGTTCACCCCTTTTTCAAATCAGCAGTATCTTGCCGTCTACGGCCAGCCGGTGAAATAA	MQPYFRQPYETAVITAFAQGDVNGDSMMDYVYLSGYQSPDSPYVTGITLIIQDGRTQQFYSIPLPTNTGYQPRLFLGDFTGNGIDDILVSMDSGGSGGFGYYYVYSFFNNQPSLLFNYESFDSSFKYTVTYQNDYKVKVVSETPALSFLIDLSNRSEAYLSEIYTDDGTLLTPLQGSVSGLNQLYPVDFNGDGVYELFAFQRVTGRYNADGLGLMQTPLSWNGQQFTPFSNQQYLAVYGQPVK				NA	NA	NA	NA	NA
AK012_02677	822			hypothetical protein	ATGGACAGTTTAAACCAGCGACTTGCGCAATATTTTGAAGATAATCAGACAAAACTCGTCAGTGAACTGCTTCCCGCAACATTGGATCAATTAGAAATCGACTATACCGATCAGGAATTGAATTATCACTTCGATATGCTGTCCCTGCTTCTTGACCGTGTGGCGAGAAGTCTTCTGCAGCACCCGGAGGAAACCAATGCCGCTGAAATCGGTTATGATACGAATAATTTCCTTTACTCCCAGGGCGTCCTTCTCAAACAGACGGTGGATGTCCTCTGCGTGTTCCGTCTCTCTTTAATGAAACACATGAGGAGATCAGACATGATTAAAGAAGCAAAGGTCGAGGAAGGCTTTCTTGTGACAGAAGAAGTTGTAACCGCCTTTGATGCGGCGATACGGGCGACTACAGATAACTACAATAAACTGAAAGAGCAGGAGCATGAGAAAATCGAGAAAGATTTGAATGAAGTATCCACACCCGTGGTGCTGATTGATGAATTCCAGGCCGTGCTGCCTCTTGTCGGCGAATTCTCACCGGACCGTTTTGAAGTCGTTAAAGACCATACCCTCCATAAGGTCAAAGAACACAGCCTGCGTTTACTGTTTATTGATTTTTCGGGAATTGCCACGTTTGATGAGGTATTCATTCATGACCTGTTCAATTTAACGAAAACCATTAAACTCCTCGGTACGCGGACCGTTATGACCGGTATCCGCACGGAAATGGCTATGGCTGCCATTGATTCGGAGATCAGCTTTAAGGAGCTTGAAACCTACAATGACTTGAAACAGGCGTTGTTGTCCGTCAATCAGAACGGATGA	MDSLNQRLAQYFEDNQTKLVSELLPATLDQLEIDYTDQELNYHFDMLSLLLDRVARSLLQHPEETNAAEIGYDTNNFLYSQGVLLKQTVDVLCVFRLSLMKHMRRSDMIKEAKVEEGFLVTEEVVTAFDAAIRATTDNYNKLKEQEHEKIEKDLNEVSTPVVLIDEFQAVLPLVGEFSPDRFEVVKDHTLHKVKEHSLRLLFIDFSGIATFDEVFIHDLFNLTKTIKLLGTRTVMTGIRTEMAMAAIDSEISFKELETYNDLKQALLSVNQNG	PGPT0014945_1246	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
AK012_02678	1305	nhaC_1	COG1757	Na(+)/H(+) antiporter NhaC	ATGGAAAAAGAAAGTAAAATCAAGGGAAATGGCTTAGCCTTAATTCCTTTTCTCGTCTTTATCGTCCTTTTTATCGGGTCTGGGGTATGGACCGGGGACTTCTACCAAATGCCGGTGCTTGTCGCCATTTTCGCAGCGATTTTAACGGCGCTGTTGATGAATAGAAAAACGGATTTCCAGACCAAGCTGCAGCAGTTTACAGAAGGAGGCGGACATTCCAACATCATTCTGATGGTCGTCATCTTTCTGCTCGCCGGTGCTTTCTCCACCGTCGCCGAAGGAATGGGAGCTGTGGATTCGACGGTTAACCTCGGGTTGGCCGTTCTACCGGGCCAGCTGCTTATTGTAGGTCTGTTCCTTATTGCCTGTTTTATCTCCATTTCCATGGGGACGTCTGTCGGAACGATTGTTGCGCTGGCGCCGATCGGTGTGGGCATTGCTGATCAGACAGGAGCGGCTCTGCCGTTAACGCTGGGAGCGCTTGTCAGTGGGGCGATGTTCGGCGATAACTTATCTATTATCTCGGATACCACCATTGCCGCTGTCCGTACGCAGGGAACAAAAATGAAGGATAAGTTCCGGGCCAACTTCCTCATCGTACTTCCAGCAGCCATTCTCACAGCAGTCATTTATGGTGTGTTGACAGCCGGTGCTTCCGGGAGTGCGCAGGGAGAACAAAGCTTTGAGATCATAAAAGTTCTTCCATATCTCGGGGTACTTGTATTTGCTGTAATGGGGATCAATGTCATCTTCGTTTTAATGGGAGGCATTATTTCCGCCGGGCTGATCGGCCTTCTTATGGGAGATTTCTCAGGAATGGAACTTATTACTCTCCTTGGGGACGGATTTGCCGGCATGCAGGAGCTTTCCCTGCTTGTCATCCTTCTCGGTGGTCTGGTTGAGTTGATCCGCAGAAATGGTGGGATCGATTTCCTACTGGAGAAAATCAGCAGCCGTGCCCGTTCCAGCCGCGGCGGTGAATTCAGTATTGCAGGTCTTGTTGCCGCTGTGAACGTGTCAACAGCGAACAATACGATTTCCATTATTACAGCAGGTCCGCTTGCTAAACAGATATCATCAAAATTCGGTATTGATGCGAAGCGGTCCGCCAGTGTCCTTGATATCTTCTCGAGCTCTGTGCAGGGGCTGATTCCTTATGGGGCACAGGTTTTATCCGCCGCCAGTGTAGCGAGTATTTCACCTGTCAGTATTGTCCCGTTTGCCTTTTATCCCATTCTGCTGGCGTTATCAGGCATCCTGGCCATACTGTTCCGATTCCCACGCTCTCATGCAAATCAGAAGTAA	MEKESKIKGNGLALIPFLVFIVLFIGSGVWTGDFYQMPVLVAIFAAILTALLMNRKTDFQTKLQQFTEGGGHSNIILMVVIFLLAGAFSTVAEGMGAVDSTVNLGLAVLPGQLLIVGLFLIACFISISMGTSVGTIVALAPIGVGIADQTGAALPLTLGALVSGAMFGDNLSIISDTTIAAVRTQGTKMKDKFRANFLIVLPAAILTAVIYGVLTAGASGSAQGEQSFEIIKVLPYLGVLVFAVMGINVIFVLMGGIISAGLIGLLMGDFSGMELITLLGDGFAGMQELSLLVILLGGLVELIRRNGGIDFLLEKISSRARSSRGGEFSIAGLVAAVNVSTANNTISIITAGPLAKQISSKFGIDAKRSASVLDIFSSSVQGLIPYGAQVLSAASVASISPVSIVPFAFYPILLALSGILAILFRFPRSHANQK				NA	NA	NA	NA	NA
AK012_02679	1386			hypothetical protein	ATGGAACTACAACAGGCGGAAACAAGAAAGACAGCAGGAGCATCTGCTTATACAACAAAGCAGTGGATGAAATTCATCCTTCCTTCTATCATTGGTATTCTATTATTTCTCGTCCCCATTTCCGTAAATGGAAAGGTAACGATCGGCCTCGGTATTCTCGCTGACGGACTTCAAGGGGCTGTTGCTGCATACATCCCAGCCTTCATGACGGGGGTTATTGTCCTTTCTACACTAGGGACATTCATTGTAAAAGCTGTACCGGCTGAAAAGAGAAAACCGGAAAAGTTCCTGTTTCAAATATTTGATGTCGGCCCGTTGTGGATGACCTTCCGGGTTCTCGGATCGGTCTTTGCTGTTTTAACGCTCACACAGACAGGGCCTGCTGTGATTCAGTCGGATTTGACAGGAGGCGTTGTATTAAATGATTTAATCCCTGTATTGATGGTCTGGTTTTTGTTCGCCAGTCTATTTATGCCGCTCCTTTTGGAGTTTGGGTTGATGGACTTTATCGGTACGGTGGTGCGGAAGGTGATGCATCCGTTGTTTAAGCTTCCCGGCCGTTCTTCGGTAGATGCCATGGCTTCCTGGATGGGGAGCGGGACCGTTGGTGTTCTACTGACGACTCAGCAGTATGAGGGCGGATATTATTCCAAACGTGAAGCGTCTGTGGTGGCTACGAACTTCTCGATCGCCTCTATTGCTTTCAGTTTAGTGATTGCCAAGTTTCTGGCTATCGATCATCGCTTCGTTGCGTTTTATTTTACAGTCGTCGTCTGTGGTGTAATAGCCGCAGTTATTTGTCCACGTATCCCTCCATTGTCCAGAAAAAAGGAAACGTACTACGGACCAGCCGGGAAGCAGATTGATGAAGTGGTCCCGGAAGGAGTTTCCTCCTTTAAATGGGGGGTGGAAAAGGCCGTGGAAAAAGCCGATCAGGTGAAGAGTGCAGGAACGGTTGTAAAAAAGGGCGTCTATAATGTACTGGATATCTGGCTTGGATTGATTCCTCTGGTCATGGCTCTTGGGACTGTTGCGCTTATAGCTGCCGAGTTCACACCCATCTTTACGTATTTATCCTATCCATTCCTGCCGCTGCTTCACCTGCTCCAGATTCCTGAAGCATCAGCCGCTGCACCGGCGATGATTGTCGGCTTTGCCGATATGTTCCTTCCCGCTGTTGTGGGCAGCGGCATTGAATCTGAACTGACCCGTTTCATTATCGGGGTCATGTCCCTTACTCAATTGATCTATATGTCTGAGATCGGAATCCTCCTGATCAAATCGAAAATTCCGATCAACTTCGTTGAATTGTTCATTATCTTCCTGCAGCGGACACTCATTACACTGCCTGTTGCAGCCTTGATGGCTCATTTATTCTTCTTTTAA	MELQQAETRKTAGASAYTTKQWMKFILPSIIGILLFLVPISVNGKVTIGLGILADGLQGAVAAYIPAFMTGVIVLSTLGTFIVKAVPAEKRKPEKFLFQIFDVGPLWMTFRVLGSVFAVLTLTQTGPAVIQSDLTGGVVLNDLIPVLMVWFLFASLFMPLLLEFGLMDFIGTVVRKVMHPLFKLPGRSSVDAMASWMGSGTVGVLLTTQQYEGGYYSKREASVVATNFSIASIAFSLVIAKFLAIDHRFVAFYFTVVVCGVIAAVICPRIPPLSRKKETYYGPAGKQIDEVVPEGVSSFKWGVEKAVEKADQVKSAGTVVKKGVYNVLDIWLGLIPLVMALGTVALIAAEFTPIFTYLSYPFLPLLHLLQIPEASAAAPAMIVGFADMFLPAVVGSGIESELTRFIIGVMSLTQLIYMSEIGILLIKSKIPINFVELFIIFLQRTLITLPVAALMAHLFFF				NA	NA	NA	NA	NA
AK012_02680	1065			hypothetical protein	ATGTGGATCAAACATCCATATTTTAAATATGTGACAGGGGCTGTGCTTTTTCTAATTCTCGTTTATTTTCTTGAGAAGCTTGATTTTCTCTATCCGGTAAAGACCATTTTCGGTACACTCTTTTATCCGATTTTAATTGCCGGTTTTCTTTTTTACATACTCCGGCCTGTTGTAGAGGTTTTAAGCAGGAGGCGTTATCTTCCTAAACCGGCGGCGATTCTTCTTGTTTTTGTAGTCATTGGTGGGGCGTTATATGCGGCCGGCCGGGCTTTGTATGAAACTATTCAAAAACAGATCAATAATATTTCCCAGCTCCCTGACAAGGTGAAAAAGACAGCCGAGGAAGCCTCCGATACCTTGGAAAAGAATGATATGGGCATGGTTTCCGGGGCGAGTATTCAACAAAGGATGACGGAGTATTTCGGCGGGCTTACCCAGCAGATCGGCAGTCATATGTCCGAGATCTTCTCCACCATTGCCGGGGCCGCTTCCGTGCTGGTGATTGTCCCTTTCGTCTTATTCTTTCTATTGAAGGACGGAAACCGCCTGCTGCCATTTTTGAAGAAAGGACTCCCTGAGAAGCTGAAGCCCCGGGGGGAAAAGCTGTTGAAAGACGTAGATAGAACCGTTTCTTCCTATATAGTGGGACAAGTAACGGTGGCAGCGATCGATGGGGTGCTCACTTATATCGGGTACGTGATCATCGGTCTTGATTTTGCCCTTATTCTTGGAATCTTTACAGCGTTTGCCTGCATCGTGCCCTTTGTAGGGCCTGTCATCGGGGCTGTGCCGGCCATCGGTGTAGCTCTGATGCAGGAGCCTTCCATGGCGTTTTATGTCGTCATTATATTCGTTGTCGTGCAGCAGCTCGAGGGGAATCTTGTAGCGCCTTATGTTTTTGGTGAGAAATTGAATATTCATCCGCTCACCGTCATTCTGCTGCTTGTTGTTGCTGCGCCTTTATACGGAGTGGTGGGCATGATTATAGCTGTTCCCACTTATACGGTGATTAAAGTCATTTTGAAACACAGCTATCAAACGTACCAATTGTATTATTCGAAATAA	MWIKHPYFKYVTGAVLFLILVYFLEKLDFLYPVKTIFGTLFYPILIAGFLFYILRPVVEVLSRRRYLPKPAAILLVFVVIGGALYAAGRALYETIQKQINNISQLPDKVKKTAEEASDTLEKNDMGMVSGASIQQRMTEYFGGLTQQIGSHMSEIFSTIAGAASVLVIVPFVLFFLLKDGNRLLPFLKKGLPEKLKPRGEKLLKDVDRTVSSYIVGQVTVAAIDGVLTYIGYVIIGLDFALILGIFTAFACIVPFVGPVIGAVPAIGVALMQEPSMAFYVVIIFVVVQQLEGNLVAPYVFGEKLNIHPLTVILLLVVAAPLYGVVGMIIAVPTYTVIKVILKHSYQTYQLYYSK				NA	NA	NA	NA	NA
AK012_02681	156			hypothetical protein	ATGTCCTACCACTTGCGAGCGGCCGTTGACCAAATGAAAGAGTACTATATTCAAAAGTTAATTGAAGCTGGAATTTATCAGGCGGCTGATGAAATACTCTATACCCTCACCTTGACTGAACTGGAAACCCTTGTAGCACGATTGAACCGTCCTTAG	MSYHLRAAVDQMKEYYIQKLIEAGIYQAADEILYTLTLTELETLVARLNRP				NA	NA	NA	NA	NA
AK012_02682	300	tnrA	COG0789	HTH-type transcriptional regulator TnrA	ATGTCGTATAAACATAAGAAGGTTATTTCCATTGGAACGGTCAATGAGTTGACCGGCCTATCCTTGAGACAGATCCGCTATTATGAAGAAAGAGGACTTATTTATCCGGAGCGTACAAAACGCGGGACGCGTAAGTATTCATTTTCCGATGTAGAAACTCTTCTACAAATTGCAGATAAACGCGAGGAAGGTGTGCAGACCTATGAAATCAGGAAGGATCTGCAGAAAACGAAAAAAGGCAAGGTTATGGAACGAATGCTGCGTGGTCAGTTAAATGCGCACTTCAAAATGAACAAATGA	MSYKHKKVISIGTVNELTGLSLRQIRYYEERGLIYPERTKRGTRKYSFSDVETLLQIADKREEGVQTYEIRKDLQKTKKGKVMERMLRGQLNAHFKMNK	PGPT0001085_100	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-REGULATION	NITROGEN_REGULATING_FUNCTIONS,PGPT0001085-tnrA-K23776	NA	NA
AK012_02683	333			hypothetical protein	ATGCATCATGTTCAAGGAACTACAGTTGACGCTCAGACACGCTGTGCGCACTACCACAGCGATATTGATATCATTGCCATTAAGTTTCACTGCTGCAGGACGTACTACGCCTGCTGGTCCTGCCATGAAGAGCATGCCGGCCACCGGCCCTCGCGCTGGCCTGTGGATCAATGGGATCAGAAGGCGGTCCTCTGTGGAAACTGCAGATATGAGATGTCCATTCATGACTATATGAATACATCCAGTTGTCCGTCCTGCCGCCATAGGTTTAATGAACGGTGCAGCCTTCATTACCCATTATATTTTGATATGGAAAGCCGCCCTGAAAAGTAG	MHHVQGTTVDAQTRCAHYHSDIDIIAIKFHCCRTYYACWSCHEEHAGHRPSRWPVDQWDQKAVLCGNCRYEMSIHDYMNTSSCPSCRHRFNERCSLHYPLYFDMESRPEK				NA	NA	NA	NA	NA
AK012_02684	1212	ynfM		Inner membrane transport protein YnfM	ATGAAAGAAGTGGATACTTTGGAAGGGACTGCTGAACACCATCAACCTTATACACCATCGGAAGCGGGTTTCTGGCGTGTGACCATTGCCCTGATGCTTGCTTCTCTGTCTATTTTTTCAACGCTCTATGTCTTTCAGCCGCTGCTGCCTGTTTTTACAACCGAGCTGAATATTACAGCCACCCAATCCAGTTTATTGATGTCGGCGTGTGTCACAGCTATGGTCCTCGGTTTATTTATTCTTGGCTTCGCTGCGGATCGGTACGGGCGGGCACTTGTGATGCGCGGGTCACTCGTTGGGACAGCTCTTAGTTTAATCCTTATTCCTATGACGCCGGATTTTGAATGGATGGTCGTCCTCCGTTTTATACAAGGAATCTTTTTAGCTGGTATACCAGCAGCTGCCATGGGGTATCTGGGCGAGGAAGTGTCGTTCAGGCATATCGGCCTTGCTATGACGCTGTACATCTCCAGTAACGCTCTTGGAGGGATGGGAGGGCGTGTGCTCGGAGGTTACTTAACGGATGTGTTTGACTGGCAGGTGACGCTCTGGGCGTTTTCGGTCTTTGGAGTGGTGGCTGCGGTTTTATTTCTCTGGCTGTTCCCGCAAGAGCGCTTCTTTGAAAAGACAGAACAAAATCTTATCGTCGATTTAAAAGGGATGCTGATCCATTTGAAGAGTGTACCGCTGCTTGTGCTGTTCCTTCTTGGTATTTTGATGCAGACGGTTTTTACAGCGGTATGGACGTACCTGCCCTTCTATCTGGAGGGAGATCCGTTCGACTGGCCTTTGAAATGGATCGCCTTCACCTATTTTGCCTACCTGTTCGGTGTGCTCGCCCCTCCTGCGGCGGGCAGGATTTCGGATCAGATCGGCTTGAAGAAGATGATGTTCACCGGTGTGACGATTTTCCTTACAGGGACAGCTTTAACGGCTGTGCGGGAAGGCTGGAGCATCATGATTGGGCTGTCACTTCTGTGCATGGGGTTTTTTGTGGCTCATTCGATGGCTTCTGCCCTTGTCAGTAAAACAGCCACCCACCACCGAAGCGGGGCGTCAGGGTTTTATTTGATCAGCTATTACCTCGGAGTCGCTATAGGAAGTACAGCTGTGGGAAGATTGTGGGAGGAATTCCAATGGTACGGAGTGCTGAGCGTTGTCTTTCTTCTAGTGTTTCTGTATGTGCTTTATCCCTTTTACAAAGATGCCTGA	MKEVDTLEGTAEHHQPYTPSEAGFWRVTIALMLASLSIFSTLYVFQPLLPVFTTELNITATQSSLLMSACVTAMVLGLFILGFAADRYGRALVMRGSLVGTALSLILIPMTPDFEWMVVLRFIQGIFLAGIPAAAMGYLGEEVSFRHIGLAMTLYISSNALGGMGGRVLGGYLTDVFDWQVTLWAFSVFGVVAAVLFLWLFPQERFFEKTEQNLIVDLKGMLIHLKSVPLLVLFLLGILMQTVFTAVWTYLPFYLEGDPFDWPLKWIAFTYFAYLFGVLAPPAAGRISDQIGLKKMMFTGVTIFLTGTALTAVREGWSIMIGLSLLCMGFFVAHSMASALVSKTATHHRSGASGFYLISYYLGVAIGSTAVGRLWEEFQWYGVLSVVFLLVFLYVLYPFYKDA	PGPT0017201_1644	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
AK012_02685	1638	sdcS_2		Sodium-dependent dicarboxylate transporter SdcS	ATGAGTCAATCCGCTTTACTTAAAAATTTTTGGCATCGGATGTGGGAGCTCCATCACGAAGCCAAGGCCCTGCTGACATTTGCCTCGGGAGGATCGGGCTCTCCGGAAAGGACGGATGCCTCTACGGCCTCCAGTGGGGAAGATCCTGGGCCGGCTTTTGATACGAGGCAGAAAGCCGGACTTATTCTAGGGCCGCTTTTATTTGTACTCACGCTGTTATTTCTTGAGGCAGACGGTTTGTCCTCCAGTGCGGTTGCTGTGCTGGCCAGCACCCTTTGGATTGCAACGTGGTGGATTACCGAGGCTGTGCCGATTCCAGCGACATCGCTGCTTCCACTCGTTCTTTTTCCGATCACGGGCGGACTTGATGGAGGGACGACGGCTTCATCCTATGGAGATAATACGATCTTTCTATTTATGGGCGGCTTCCTCATTGCTTTATCGATGCAGAAATGGAACCTGCACAAACGGATTGCCCTGTTTATTATTAATGCTGTCGGGACGAGTACAGAGCAAATTGTTCTTGGATTTATGGTCGCGACCGGGTTGTTGTCCGCCTGGATTTCAAACACGGCGACAGCGATGATGATGGTGCCGATTGGCATGGCTGTCATCTATCAGGCATCTGAACAGCTGAAGGAACAGGGGGAAAGCGTGGATCACAGCAATTTTAACTTCGGCAAAGCCGTTATGCTCGGTGTCGCCTATAGTGCTTCCATCGGTGGACTGGCGACACTGATCGGTACACCCCCGAATACGATTTTCAAAGGGATTGTGGAACAGACCTACAATATTGAAATAAGTTTTGCCGGCTGGATGGCCTTTGGCGCTCCGATTTCCATTATTTTTATCGCTCTGGCTTGGTTTTATTTAGTGAAGATTGCGTATCCGATGAAAATCAAGGAACTGCCGGGCGGTCGTAAAGTGATCAACAAGGAAAGGAAAGAGCTGGGGGCGATGTCATCAGAGGAAAAAGTCGTGATGACAATCTTTACGCTGACAGCGGCTGCCTGGATTTCGCGTTCCTTTTTTCTTGCTCAAATGAATGAAAACATTAATGATACGATGATTGCTATGACAGCTGCTGTACTGCTGTTTCTCATTCCTTCATCGAATCGGAAAGGCGATTATCTGCTCGACTGGGATACGGCGAAAGGGCTTCCTTGGGGAATTCTCCTTTTGTTCGGGGCCGGGCTTGCCATTGCTTCCGGATTTCAGGAAACCGGTCTGGCCGAGTGGATCGGGACCCAATTGACCGTACTTGACGGAGTCAACCTATTGGTGATTATTGTGATTGTAACAGCTATGGTCATCTTCCTGACAGAGATTACTTCCAATACAGCGACAGCAACGATGATGTTTCCGATCATGGCTTCCTTGGCCGGGGCGATTTCTGTCCATCCGTACAGTTTAATGATTGCGGCAGGGATGGCTGCCAGCTGTGCGTTTATGCTCCCTGTGGCTACACCGCCCAATGCCGTTGTCTTTGGGTCGGGGTATCTGCGCATTCCTGACATGGCGAAAGCCGGTTTTCTATTGAATATCGCTGCCGTGGTCCTCATCACTCTGGCGATCTATTTCTATCTGCCGCTGGTATGGGATTTAGATTTGACCTCTATTCCGGAACGTTTCAATTAA	MSQSALLKNFWHRMWELHHEAKALLTFASGGSGSPERTDASTASSGEDPGPAFDTRQKAGLILGPLLFVLTLLFLEADGLSSSAVAVLASTLWIATWWITEAVPIPATSLLPLVLFPITGGLDGGTTASSYGDNTIFLFMGGFLIALSMQKWNLHKRIALFIINAVGTSTEQIVLGFMVATGLLSAWISNTATAMMMVPIGMAVIYQASEQLKEQGESVDHSNFNFGKAVMLGVAYSASIGGLATLIGTPPNTIFKGIVEQTYNIEISFAGWMAFGAPISIIFIALAWFYLVKIAYPMKIKELPGGRKVINKERKELGAMSSEEKVVMTIFTLTAAAWISRSFFLAQMNENINDTMIAMTAAVLLFLIPSSNRKGDYLLDWDTAKGLPWGILLLFGAGLAIASGFQETGLAEWIGTQLTVLDGVNLLVIIVIVTAMVIFLTEITSNTATATMMFPIMASLAGAISVHPYSLMIAAGMAASCAFMLPVATPPNAVVFGSGYLRIPDMAKAGFLLNIAAVVLITLAIYFYLPLVWDLDLTSIPERFN				NA	NA	NA	NA	NA
AK012_02686	1278			hypothetical protein	TTGAAAAAATGGCTGGCAGCGGCACTTGTGTTAATCATGACATGGACGACGTTCTCGGTTGTAATGGCTGATCACAATGGAAGCAATGGAAAGCATAAAGGGCATTATAAAAATGGAAAAGCTTTTAAGCTTGGGGTGGAAGTCCTTCTTGATGACAAAAAAGATCTGATCGAAGGGAAAAAGGTCGGATTGATTACGAACCCTACTGGTGTGGATAAGGATTTGAACAGTATCGTCGATCTTCTCCATAATGATGAGGATGTAGATTTGACCGCTCTTTATGGACCGGAGCATGGAGTCAGAGGGAGTGCTCAGGCCGGGGAATATGTTGAATTTTACACAGATGAACAAACCGGTCTTCCAGTATACAGCTTATATGGAGAGACGCGAAAGCCGACACCTGAAATGCTTGAAGGTATTGATGTGCTGATGTTTGATATCCAGGATGTCGGCACACGTTTCTATACGTACATTTACACGATGGCCTATGCGATGGAAGCGGCTCAGGAAAATGACATCCCATTTATTGTCCTGGATCGTCCCAACCCGATCAGCGGGGATGAAGTCGAAGGTCCGGTGCTGGATATGGACTATCAATCGTTTGTAGGGAATTATCCAATTCCTCTCCGTCACGGTATGACGGTCGGTGAACTGGCCAAGCTTTTCAATGGAGCCTATGACATCGGTGCCGACTTGGAAGTGGTCGAAATGAGAGGGTGGAAGCGCACGATGGACTATGACGATACAGGTCTCTCCTTTGTTGCTCCATCTCCGAACATGCCGACTGTGGATACCGCCTATGTCTACCCGGGTGCGGCTTTAATTGAAGGGACCAACGTATCGGAAGGCCGCGGAACGACCCGTCCATTCGAACTGATTGGGGCGCCTTTTATAAACAGTACGGAATTGGCAGCGTCCTTAAATGACGCTCATCTGCCTGGTGTACAGTTTAGAGCGGCTTCCTTTACACCTTCTTTTTCTAAACATGCGGGGGAACTGTCGCATGGGGTGCAGATCCATGTGACGGACAGGGATGAATATAAGGCTGTGGAAACAGGTCTGACACTTGTGAAGACCATTCATGATTTATATCCGGACGATTTTGCTTTTCGGGCAGAGAACAGTGCCGGCATTTCCTTTTTCGATTACCTGATCGGGAATGGATGGGTGCGTGAGGCGATTGAGAATGGCAGATCAGTGGAAGATATTCTGGAACAATCAGAAGCAGATCTGGAAGATTTCAAGGATGTGAGAAAGGACTATCTCCTTTATAAATAG	MKKWLAAALVLIMTWTTFSVVMADHNGSNGKHKGHYKNGKAFKLGVEVLLDDKKDLIEGKKVGLITNPTGVDKDLNSIVDLLHNDEDVDLTALYGPEHGVRGSAQAGEYVEFYTDEQTGLPVYSLYGETRKPTPEMLEGIDVLMFDIQDVGTRFYTYIYTMAYAMEAAQENDIPFIVLDRPNPISGDEVEGPVLDMDYQSFVGNYPIPLRHGMTVGELAKLFNGAYDIGADLEVVEMRGWKRTMDYDDTGLSFVAPSPNMPTVDTAYVYPGAALIEGTNVSEGRGTTRPFELIGAPFINSTELAASLNDAHLPGVQFRAASFTPSFSKHAGELSHGVQIHVTDRDEYKAVETGLTLVKTIHDLYPDDFAFRAENSAGISFFDYLIGNGWVREAIENGRSVEDILEQSEADLEDFKDVRKDYLLYK	PGPT0012175_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
AK012_02687	2079	nagZ		Beta-hexosaminidase	ATGAAGAAAGTCGGACAATGGAGTGTCATGGTCGTTCTGGTGCTCGGCCTTGTGCTCCCCCCGGGACAAGGGGCTGTACAAGCTGAAGAGGAAACGGAAAGACCGGCCCTTATGCTTCTTGAAAATGTTCCTGAAGCGGATGTGAGCGTAAAGGATGGAACGTTTGATTTGACGGCTCTGCATGTATACGGTGATGGATCGTTCAAAAAGGTGGAAGAGGGGCTGTCGTGGGCAGCATCGAATAATAAAGTGGTCAAAGTAAACGAGAAGGGGCAGTTGACCTTCACAGGGAAACCGGGAAGATCGTGGGTGGCTGTTTCGAACGGCCGCGATAAAGATTGGATCTTCGTCTATGTCAAAGGCGGGAAGAAACAGGCGGATATCCACATTCAGAAGAATAGAGGGGAAAAGTATGACCTTATTCAGCATGCGATGGACCAGATGTCGATGGAAGAAAAAGTCGGTCAGATGCTGATGCCGGATTTCCGGAATTGGGATGGCAGGAATGTTACAAAAATGCTTCCTGAAATTGAAGATCTCGTGAAGGAGTATCACCTGGGCGGAGTGATTTTATTCCGGGAGAATGTTGTAACAACAGAACAGACGACAGAGCTTGTGGCTGACTATCAGAACGCAGCTGAAAAATATGGACTGCTTGTGACGATTGATCAGGAAGGCGGCATTGTGACAAGACTGCAGTCCGGGACGGATTTCCCGGGGAATATGGCCTTAGGAGCCACTCGTTCGGAAGAGTTAAGCCGGGATGTCGGTCGGGCAATCGGAGAAGAGCTGTCTGCGCTTGGTATCAATATGAACCTTGCTCCCGATATGGATGTGAACAATAATCCGGATAATCCAGTCATCGGGGTCAGGTCCTTCGGGGGGAACCCGGAGCTTGTGGCAGACATGGGACAGGCATATATGGCGGGGCTTCAGGAAACAGGTGTAGCAGCAACAGCAAAGCATTTTCCGGGGCACGGGGATACAGCTGTCGATTCCCACATCGGCCTTCCGGAAGTTCCGCATGACAAAGAACGTTTGAAGGAAGTGGAATTGTACCCATTCCAACAGGCGATGGATGCGGGGATCGATGCTGTCATGACGGCTCATGTAACGTTCCCGGAGATTGATGATACAAAAGTCATCTCCAAAAAGGATGGTGAAGAGATCGCTCTGCCGGCCACTTTGTCGAAAAAGGTGCTGACGGGTCTGATGCGTGAGGAGATGGGCTATGAAGGACTTGTCATTACGGATGCTTTGAACATGAACGCGATTCAGGAGCATTTTGGGTCTGTGGATGCCGTCATCCGTGCCATTAACGCTGGAACAGATATCGTCCTTATGCCGGTAGGACTGGAGGAAGTGGCGGGCGGAATTTATGAAGCCGTGGGCACAGGAGAAATCGAAATGAAAACCATCGAGGACTCTGTAGAGCGGATTTTGACAATGAAAATCAGACGGGGAATCATCAAATCTGAACAGCCGCCTTCCCTTGAAGATCAAGTGGCGAATGCCAAAGAGGTCGTCGGTTCAGAAGAGCATAAACAAGTGGAAAAAGAAGCGGCCGAGAAATCCATTACTCTGGTGAAAAACGATCAGCTCCTGCCCCTCCAGCCGGAACAAGATGATCAAATTGTGGTTGTCGGTGATTCATTCAGCTCTTCTTTAGCGGACGCTGTGAAGGACCTCCATGAACAGACCACATTGATTGATCACAACTCCCAGGCATTTACGAGCGAACAGCAGACGGCTCTGCAGGAAGCGGATTATATCATTGCAGGGACATATACGTACAATGTCTGGACAAGATCACCGGACCACCCTCAAATGAAACGCATGAAGGAAATTCTGGAAATGGCAGAAGGGAAGGTTATCGGTGTGGGGATCAGAAACCCTTACGACGTGATGGCTTATCCCGAAGTGGATGCTTATATCGCTCAATATGGATTCAGAAAGGCGAGCTTCACAGCAGCTGCGTCCACCATTTTTGGACAGAATCAGCCCTCAGGAAAACTGCCGGTGACCATACCGGGAAAAAACGGTGTGTTATATGAGTATGGAATGGGTTTGAGTTACTGA	MKKVGQWSVMVVLVLGLVLPPGQGAVQAEEETERPALMLLENVPEADVSVKDGTFDLTALHVYGDGSFKKVEEGLSWAASNNKVVKVNEKGQLTFTGKPGRSWVAVSNGRDKDWIFVYVKGGKKQADIHIQKNRGEKYDLIQHAMDQMSMEEKVGQMLMPDFRNWDGRNVTKMLPEIEDLVKEYHLGGVILFRENVVTTEQTTELVADYQNAAEKYGLLVTIDQEGGIVTRLQSGTDFPGNMALGATRSEELSRDVGRAIGEELSALGINMNLAPDMDVNNNPDNPVIGVRSFGGNPELVADMGQAYMAGLQETGVAATAKHFPGHGDTAVDSHIGLPEVPHDKERLKEVELYPFQQAMDAGIDAVMTAHVTFPEIDDTKVISKKDGEEIALPATLSKKVLTGLMREEMGYEGLVITDALNMNAIQEHFGSVDAVIRAINAGTDIVLMPVGLEEVAGGIYEAVGTGEIEMKTIEDSVERILTMKIRRGIIKSEQPPSLEDQVANAKEVVGSEEHKQVEKEAAEKSITLVKNDQLLPLQPEQDDQIVVVGDSFSSSLADAVKDLHEQTTLIDHNSQAFTSEQQTALQEADYIIAGTYTYNVWTRSPDHPQMKRMKEILEMAEGKVIGVGIRNPYDVMAYPEVDAYIAQYGFRKASFTAAASTIFGQNQPSGKLPVTIPGKNGVLYEYGMGLSY	PGPT0012175_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GALACTOSAMINIDASE,PGPT0012175-nagZ-K01207	NA	NA
AK012_02688	1071	ssuA	COG0715	Putative aliphatic sulfonates-binding protein	GTGAAAAAACTCTGTCATCTGCTTTCGTTTTTATTATTCATTTTTCTCCTGTTCGGCTGTGGGGCCGTTCAGGAAGAGAAACGGGCAGAAGGGAACCCTCCATCGGGGGATATGGAGCCGCTTGAAAAGAAAAAGACAGTCGTTATCGCTGAGGATGGTGCTGCCTCCGGAGCCGGCTTTTACATTGCCGAGGAAAAGGGATACTTCGATGACTACAATATCGATATCCGATTTACCAGCTTTGCCAACAGTGATGATATGCTCCCGGCTCTCGCTGCCGGAGAAGTGGATATCGCCGGCGGTGTATCAACAGCTTCCTTCTTCAATGCCATCGCCCAGGGGATTGATGTGAAAATCATCGCCGACAAAGGGCATTATTTTGAAGGGAATTCCTATTTCAGCTTCGTTATCCGCGAAGATCTGCAGGAAGACATCGAGGACTATGCCGACTTGAAAGGAAAGCGGATAGCAGTATCCTCGAGAAATGCCGTTGATGATTACATTTTTCAAAGAATGCTTGAACACGCCGGTCTGACAGAAGAAGACGTAGAGTTTGTCCTGATGTCTGACTTTGGGAATATGCTTGCAGCTATGGGCAGCAAGTCCATTGACGCCGCCCTGCAGATCGAACCGCTGATTACCCAGGGGGAGGCGCAGGGTCTTCACGTCCGTTTTAAAGATGCCACGGATTACGCTCCCGATGCGCAGATTGCCATGGTGCTCGGATCACCAGATTTCGTAGATAAAGAGGAAGAGGTATCTGTCCGGTTTATGGCCGCCTATTTAAAAGGGATCCGTGATTACAACGACGCCTTTCTGTATGGGGAAGGCCTGGATGAGGTCATTGAAATTATGACGAAACATACCGCCCTTAAAGACCCTGCCATATGGAAGAAGGTCGGGGTCACTGGTCTTGATCCCAATGGACAGATGTTTGTCGAAGATATCCAAAAGCAGTTCGAAATGTACAAATCAAACGGGGCTGTCCGTGGGGATGTTGATTTTAATAAAGCTGTTGATACGACATTGACCGACCGGGCATTGGAGGAAATTGGTCCGTATACCCGTTGA	MKKLCHLLSFLLFIFLLFGCGAVQEEKRAEGNPPSGDMEPLEKKKTVVIAEDGAASGAGFYIAEEKGYFDDYNIDIRFTSFANSDDMLPALAAGEVDIAGGVSTASFFNAIAQGIDVKIIADKGHYFEGNSYFSFVIREDLQEDIEDYADLKGKRIAVSSRNAVDDYIFQRMLEHAGLTEEDVEFVLMSDFGNMLAAMGSKSIDAALQIEPLITQGEAQGLHVRFKDATDYAPDAQIAMVLGSPDFVDKEEEVSVRFMAAYLKGIRDYNDAFLYGEGLDEVIEIMTKHTALKDPAIWKKVGVTGLDPNGQMFVEDIQKQFEMYKSNGAVRGDVDFNKAVDTTLTDRALEEIGPYTR	PGPT0001135_1541	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001135-ABC_SN_S-K02051	NA	NA
AK012_02689	780	cmpD	COG1116	Bicarbonate transport ATP-binding protein CmpD	ATGAGTACAAAGATTCTCATGGAGAATTTAACAAAAGTGTTCTACAAAAAAGAAGCGAAGGTCACAGCACTGGAAAATATCTCGATGACGATTGAGGATGGGGAGTTCGTCTGCCTCCTTGGTCCCAGCGGGTGTGGAAAAACGACACTGCTCCGAATAGTAGCGGAGCTGGAAAAACCGAGTGCCGGGTCCTTTGCTATTACGAGGGAAAAAGCCGGACGCCCGCTTCAGTCCATGGTTTTTCAGGAACGTGGGGTGATTCCATGGCTGACCGTGGAAGGGAATGTGAGCTTCGGACTGAAAATGAGGCGTACGCCTGAAGCAGTAACAAAGGAGCGGACAGCGTATTACCTCAAAAAGACGGGCTTGGAAAAGTTTGCAGGCTTGTATCCCCGTGAACTGTCAGGAGGGATGAAACAGCGCGTCAGTATTGCACGGGCGTTCGCCAACGATCCGGAAATCCTTCTGATGGATGAACCATTCGCTGCCTTGGATGAGCAGAACAAATTCATCCTGCAGGAAGAACTGCTGACCATCTGGGCTGAAACCAAAAAGACGGTCTTATTTATTACCCACAGCATTGACGAAGCCCTCCTTCTCAGCGATCGGATTCTACTAATGAGTGCTCAGCCGGGAAGGATTGTGAAGGAAATCCACATCCAGTCACCAAGACCCCGGACGATGGAGCAGATCCGCTCTGATCCGGAAATGGCCGCTCATTTTGTCAGCGTCTGGAATCATCTGCAGAATGAGGTGCAGCAGTCGCGTTCACATAATTGA	MSTKILMENLTKVFYKKEAKVTALENISMTIEDGEFVCLLGPSGCGKTTLLRIVAELEKPSAGSFAITREKAGRPLQSMVFQERGVIPWLTVEGNVSFGLKMRRTPEAVTKERTAYYLKKTGLEKFAGLYPRELSGGMKQRVSIARAFANDPEILLMDEPFAALDEQNKFILQEELLTIWAETKKTVLFITHSIDEALLLSDRILLMSAQPGRIVKEIHIQSPRPRTMEQIRSDPEMAAHFVSVWNHLQNEVQQSRSHN	PGPT0001140_4947	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001140-ABC_SN_A|ytlC-K02049	NA	NA
AK012_02690	822	ssuC_1	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGATACATCGCGCTAAGGAGATCCGCGATGATCCGGTTCAAATGGAACGGCAGGAGTGGAAGGATAGACAGCGCCGGCAGCGCTTAAAGCAGTTATTAACGGTGTCATCGCCCGTCTTCCTGCTTTTACTCTGGGAATGCTTTTCGAGGATGGGGTGGATCGATGCCCGCTTCTTTCCACCTCCCAGTGCTATTCTCTACACGTTTTGGGAGCTTGGAAAAAGCGGTGAGCTGTTTCATCATATTGGGATTTCGCTGTTCCGCATTGGGGCAGGTTTCTTAATGGGAGTCATCCCGGCTGTGGCTGTCGGGTTATTTATGGGGTTGTATTCACCGGCACGTCATGTCCTGTCTCCGTTGATTATGGCGGTTATGCCGATTCCCACCCTTGCGCTGCTGCCGATTATCATTATTTTGTTCGGTGTCGGGGAAGTTTCGAAAATCGTAACGATTGCCGGCAGTGTGTTTTTTCCAGTCGTCATCAACACCGTTGCTGGAGTAACGAATATTGACCGCATTTATCTGGACGTTGCGAAAAATTACGGAGCGGGGTCGAAGCAGTTTTTCTTCAAAATTGCACTGCCGGGCTCTCTGCCTGTCATGCTCGAAGGCATCCAAATGGGGCAGGCGATTGCCCTGTTGACGATTGTCGCCGCTGAAATGATGGGGGCAAATTCAGGAATCGGTTACTTGATCTGGACTTCCTATAAAGCGTTCCTGCTCAAGGAAATGTATGTCGGACTGATTGTTATCTCGTTCTTCGGTTATCTCTTCTCAGTTCTGCTGCGTGGGCTGCAGGTGAAGCTTCTTCCTTGGAGGTGA	MIHRAKEIRDDPVQMERQEWKDRQRRQRLKQLLTVSSPVFLLLLWECFSRMGWIDARFFPPPSAILYTFWELGKSGELFHHIGISLFRIGAGFLMGVIPAVAVGLFMGLYSPARHVLSPLIMAVMPIPTLALLPIIIILFGVGEVSKIVTIAGSVFFPVVINTVAGVTNIDRIYLDVAKNYGAGSKQFFFKIALPGSLPVMLEGIQMGQAIALLTIVAAEMMGANSGIGYLIWTSYKAFLLKEMYVGLIVISFFGYLFSVLLRGLQVKLLPWR	PGPT0001145_4495	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-RELATED_FUNCTIONS	N-AQUISITION-NitT|TauT_FAMILY_TRANSPORTER,PGPT0001145-ABC_SN_P-K02050	NA	NA
AK012_02691	324			hypothetical protein	ATGGACCGGGAAATTATGAAAGGCAGTATCGACATCCTTATGCTGAACTTAGTCAACCGTAGAGATATGTACGGCTATGAGATTGTGAAACACCTGAAAGAGCAGAGTGATCAGCTGTACAGCATGAGCGAAGGCACGCTCTATCCCGCTTTAAAACGGCTGGAGCGTAAGCAGTGGCTGACGTCTTATTGGTCCGAAACCACAGGCGGACGCAGAAAATACTACCGCATTACCGACGAAGGGCGGACGATTCTGCAGCAGAAGCTCCAAGAATGGAAAAGCGTCAGTGACCTGATCTCCAAGACATCGGAGGACCTGGCATGA	MDREIMKGSIDILMLNLVNRRDMYGYEIVKHLKEQSDQLYSMSEGTLYPALKRLERKQWLTSYWSETTGGRRKYYRITDEGRTILQQKLQEWKSVSDLISKTSEDLA				NA	NA	NA	NA	NA
AK012_02692	864			hypothetical protein	ATGAAGAAAATTGATAAACATGTCACCAGCATATTGAAGGAAATGCAGAGCACGGAGGAAGAACGGGAGGAAATCCGGGAAGAATTGACCACCCACCTTACGAGTGCCAAACAAGAGTATATCAATGAGGGAGTCAATGAGAAAAAAGCGGAGAAAATGGCCATCAGGGATTTCGGAGATGCCGGCATGATCGGCGGCGGTATACAGGAAAGTCTGTATCCCTTTCAACGTGGACTGCTTTACATCATAGGTACCGGTTCCATCCTGCTCGGTATCTTCATTCATCTCACAGCGGCTTTCTCATTCGGCGACCCTTGGCCGGAGTGGCTCGCCATTCAAATGTCGCTGGGCACGCTCATCGTTTTGACAGCCATCAATATATCCTGGACAGGACGGCACTACTGGTCTGTCAATGTCCTCGTATTCCTGACAATTTTGTGGAATGCGTTCAACTATATGGTCGTGCCCCGGTTTTATCAACTTCAGGTCATTTTAATGAGCCTTTTCATAACCATCCTGATCCTCCTTTGTCTTGTTTTTATCGTACGGAATTCGTATTACGCCACTACGCATCCTTCTGCTGATAGAAGAGAGCGGGTAGTGACGAAAATCAGCCACATCGTCAACATTATTTATGGATTGATGATTTCCGGGGCCGGTCTGTTCTTCACATGGGGAGCGTTGATTTTCGGCGGTATGAATGCCAGGGTCTTCCTCCCTTTGACGGCCGTAGCGGCCTGGCTGGCTTTCTACAAATACCAAATGAGGCTGATTGGAAAAAAACCTGTCACAGCCATTTTCACAGGGCTGTTGTTTTCAGGCCTCATCGTGACCGTGCCTGTTACGATTTTGAAATGGATATAA	MKKIDKHVTSILKEMQSTEEEREEIREELTTHLTSAKQEYINEGVNEKKAEKMAIRDFGDAGMIGGGIQESLYPFQRGLLYIIGTGSILLGIFIHLTAAFSFGDPWPEWLAIQMSLGTLIVLTAINISWTGRHYWSVNVLVFLTILWNAFNYMVVPRFYQLQVILMSLFITILILLCLVFIVRNSYYATTHPSADRRERVVTKISHIVNIIYGLMISGAGLFFTWGALIFGGMNARVFLPLTAVAAWLAFYKYQMRLIGKKPVTAIFTGLLFSGLIVTVPVTILKWI				NA	NA	NA	NA	NA
AK012_02693	249			hypothetical protein	ATGATTGATGTACTTATCACACTGGCCTGGTCTGTTTTCTTCATGTTTCTTATCACCGCAGGATCATTGGTATGGCTGAAAAAAAGAAAAGCCCTGCTTCTCACTACTCAAGCATTGACCGGATACGGAGCTGTCGTCCTTTTGATCGGTCTACTCTTTCATTTAATCATAGGCATCTACGGAGCGATTTTCCTTCTTTCCGGAGCCGTTTCCCATGTTCTGTCCAAAGATTATGCGAAAGGAAGTTAA	MIDVLITLAWSVFFMFLITAGSLVWLKKRKALLLTTQALTGYGAVVLLIGLLFHLIIGIYGAIFLLSGAVSHVLSKDYAKGS				NA	NA	NA	NA	NA
AK012_02694	1014	tolB		Tol-Pal system protein TolB	ATGTCTTTACTAAAGAAGAACATCCTGTTCATATCCAGTATGGCCATCCTGTTCGGCTTATTGTACTGGACGGGTACTTTGGCTGATTCTCCCAGCGGTCCAACCGGACTTGGTCATACCCCCGACCTTTCTGATGATGATGAATCTATTGTTTTCACCCACTATCAGGACGGACAAGGAAGTTTATATACCGTTTCTTCAGAGGGTGGTGAAGCGGAGCGGTTGACGGAACCTGTAAACGAAAAAAACGATACGCGCCCGGTTTATTCCTCGGATGGTAAAATCGCCTTCCTCCGTGAATGGGAAGGTGAGGTCCACCAACATCAGCAGCTGATGTTATGGGAGGACGGAAAGACCACCCCGCTGCTTGATGAGGAAGAATACATTTCCGATATGGATTTTTCTCCGGACGGTACTCAGTTATACCTGTTGAAAAATGAGGAATATAAGGACATTTATGATGATGGGCGCACCCAGCCGTCGGAGTTTGATGTATACAAGCTGACCATCGAATCCGGAGAAATGGAAGAGGTCACGAACTTGAATTCGGTCTCCATCAATTCCCTCCAGGTCATCAGTGAAGAGGAACTGCTTTATAAACTGGATTATGAAAACCATGCGATTGAGCGGCTTCACTTAGCAACTGGAGAAACAACGACGATGTGGCCGGAATCCCCGTCCTATTCAAAAGCTCAGGAGCCGGTTGTGGGCGCCCCGCGCTTATCTCCGGATGGAAACACCGTCGCCTTTTCCGATGTCGCCTCCACCAATGACAGCGGTACATATGAATATGAAATCTTTACCATGGCTCCAGAGGGAGGCCGTATCAAGCAGGTGACCAAAAGCTCTGTCCAGGCAGGTCATCCCCTGTTTTTCCGTTCTTCTGATCAGATTCTGTACACGATCGATCGGAATTTCGCAGGACGCGAGCCCCAACGGGAATACTGGACAGTCGATACAGATGGGACAGACCGAAGACAATTGAACATAACCATCCCATCCTCCGAGGAGTAA	MSLLKKNILFISSMAILFGLLYWTGTLADSPSGPTGLGHTPDLSDDDESIVFTHYQDGQGSLYTVSSEGGEAERLTEPVNEKNDTRPVYSSDGKIAFLREWEGEVHQHQQLMLWEDGKTTPLLDEEEYISDMDFSPDGTQLYLLKNEEYKDIYDDGRTQPSEFDVYKLTIESGEMEEVTNLNSVSINSLQVISEEELLYKLDYENHAIERLHLATGETTTMWPESPSYSKAQEPVVGAPRLSPDGNTVAFSDVASTNDSGTYEYEIFTMAPEGGRIKQVTKSSVQAGHPLFFRSSDQILYTIDRNFAGREPQREYWTVDTDGTDRRQLNITIPSSEE				NA	NA	NA	NA	NA
AK012_02695	924			hypothetical protein	ATGAAAAAAGACGCTGTACAGCTGCAGCAGAAATTGATTTATTACCGCTCAGAGCTGGATAAATATAAGAAAAAGGTACAGGATTATCAGGAAAACTATCACTACTCCATGCTGGAGAGTTTAAAAAATGAAAATGAAAAGTTGAAACAGGAAAGCGGGCGGTGGTCGGAGGAAGAAGCGGTTTTGAAAGGGGAACTGGCTAAAAGAAACCAGACATACCAGCTCCAGCTGGAAAAAGCACAGACACAGGAAGAGCAGTTTAAAGCAGAAATCAAAAAGTGGCAGGCCCAGGTGGTTGACCTGAAAGAAGCGGAGAAGCAGGAAAAAGCTGAGCGGAAGCAGGTGGAGGCAGAGCTTGGGGAATACCAGCAGCGCTTTTTTCAAGCTCAGCGGGATACGTCCATGCTGCAGAAAAGTTATGCGGAGCTGAAAGTAGAGATTCAGAGAGAGCAGGATAAACAGCGGGAGCTGCAGAAGAGAGCAGATGACATAGAAAAGCTGTTCATGGAAGAAGGGGAAAAGACCCGCCGGATGCTGCAGGACCACGCCTTTTTAATGAACAGTTACTTGGACGTCCAGCGCCAGCTTCAAAAAGAAAAGCAGAAGAACGCAGCTTTTGAACAGGAAGCATCCAATCGGAAATCAGAGCTGGAAGAGGTCCAAAAGCAGTTCAAGAACGAACAGGAGCAGGTCCGGCGGTTAAAAGGTGAACTCCAGAAATGGCAGACGGCTGCCGATCAAAGGAAGAAGGAAGAGGAGAAACTTCTTCACCAAATGGAAGATCAGATGGCTTCCTTTTTCGGGGAAGCCATCCGGCCTAAACATATGGCGGGGAATAAAAGTGCATTTATGAAAGTGCTGGAAACGAAAATTGAAGAGCTTACTTCAGAAATCGAGGCCAGCGAGCAGCAGAAAGATAAATAA	MKKDAVQLQQKLIYYRSELDKYKKKVQDYQENYHYSMLESLKNENEKLKQESGRWSEEEAVLKGELAKRNQTYQLQLEKAQTQEEQFKAEIKKWQAQVVDLKEAEKQEKAERKQVEAELGEYQQRFFQAQRDTSMLQKSYAELKVEIQREQDKQRELQKRADDIEKLFMEEGEKTRRMLQDHAFLMNSYLDVQRQLQKEKQKNAAFEQEASNRKSELEEVQKQFKNEQEQVRRLKGELQKWQTAADQRKKEEEKLLHQMEDQMASFFGEAIRPKHMAGNKSAFMKVLETKIEELTSEIEASEQQKDK				NA	NA	NA	NA	NA
AK012_02696	705			hypothetical protein	ATGATGGTCCTTCTCCCTATACTTGTCCTTGTCTTGGTTGTCGCCGTCACAGCGTCTGCTTCAATAGGAACAATGAAGATGCGCCTGGGGCAGGGGAAAACAGGATTATGGATGCTTAAAGGGTATCTCATTCTACTGGGCGTATCGATGATGGTCTCTGTTTTCCTTCCTTCTGAAACCACAGCTTCCATGGATGAGGAAAGAACAAATTCAAAACAACCATCGGAAGCATCCATCCCAATGCTGATTGCAGAGGGGGAGGTGGATGAAGTAAATGGAGATCATCTGGTTAAAGAGTGGTCTTTTGAACTCCCGGATCATGAATTGAGGCTCGAATCCTATATGGAAATTGGAACGGGTCCCGATATTTTCATAGAAAAAACACCTCAGGTGAAGAGGAAGATTCAAGCCTCTTATTACCGCTCGCCGATTTACGTAGACGGTTTAAAAGTACAGGAAGAATTTAAACCGACATTGAACATGAATCAGGATACATTGACGGTGCGTGTACAAAACCCGGTGAATGTCCACTATCAAATGTTCACGTCTGAATTTCCTTTTACCCAGTTTTCCGGGAAACGCGGGGACCGGGGCAGAGGAACTCATATCGATTGGGGCGAGGAGGCTGTCTATATTCAGGTTCCTGCAGGCACGGAGATTAACGGAGAAAATGGGAATTATCATCTTATTGATCCAGCTTCATAA	MMVLLPILVLVLVVAVTASASIGTMKMRLGQGKTGLWMLKGYLILLGVSMMVSVFLPSETTASMDEERTNSKQPSEASIPMLIAEGEVDEVNGDHLVKEWSFELPDHELRLESYMEIGTGPDIFIEKTPQVKRKIQASYYRSPIYVDGLKVQEEFKPTLNMNQDTLTVRVQNPVNVHYQMFTSEFPFTQFSGKRGDRGRGTHIDWGEEAVYIQVPAGTEINGENGNYHLIDPAS				NA	NA	NA	NA	NA
AK012_02697	765			hypothetical protein	ATGGCAGAGGGGGCGTGGATGATGTATTCAGCGGACGTATCGACAGCGGAAGTGATTAAAAAACAAATCAGCTATAAATGGCGTGCCTATATCAGTGTGTTTACCTCGTTAGTGGTCATTCAGCTTCTGGCCGTTCTTTTCTCGTTGAATGGAACGGGGATGAGCAGCTCAGGAGGAAGGAGCTACAACATTCAGGTGGAATATTACAATGCAGATATCATTATGATATTCACGATTTTTTGGGGATTTATCACAGCCTTGCTTCTGACGACAAAAGCGTACAGAGAAGATGACTTTGCCTTTGTGACGAATCGTATGAGCGGTACACTGTCCACGATTCTGTATTTATGGATCATCTCTTCGATTGCGGGGTTCACGGCTTCACTCTCTGGATACCTCTTGAAAGTGGTGGTCTTCCTGTTCACCTCGCAGGAGATCTTGAACAGCACCGGGGCAGGAGGCGCAGGGGTCTACCTCATGGGCCTTGTATCGCTCATTCTGACTATTTTCATGTTCGCAGGCTTTGGTTATGCGGTTGGTATGATTGTCCAGTGGAATAAGATGTTCGTCATTCTGCTTCCCGTCCTGGTGATTGGTCTCTTGTTTTCACTGGAAAAGGCAGGCTATTCGCTGGATCGATTCTTTTTCCAATTCCTCTTTTCTGAACAGAGTTTCTGGCTGTTTCTCATCAAGAGCACTGCGGTCAGTGCGGCTGCGTATCTCAGTGCCTTTCTCATTTCAAACCGATTGGAAGTGAAACAATGA	MAEGAWMMYSADVSTAEVIKKQISYKWRAYISVFTSLVVIQLLAVLFSLNGTGMSSSGGRSYNIQVEYYNADIIMIFTIFWGFITALLLTTKAYREDDFAFVTNRMSGTLSTILYLWIISSIAGFTASLSGYLLKVVVFLFTSQEILNSTGAGGAGVYLMGLVSLILTIFMFAGFGYAVGMIVQWNKMFVILLPVLVIGLLFSLEKAGYSLDRFFFQFLFSEQSFWLFLIKSTAVSAAAYLSAFLISNRLEVKQ				NA	NA	NA	NA	NA
AK012_02698	927	btuD_3		Vitamin B12 import ATP-binding protein BtuD	ATGAAAGCTGTTCAAACTAAAGAATTAATTAAAAAATATGGCCGGAGAACAGCCCTTAACGGGGTTTCCTTCTCCATTGAGGAGAATACCATTACAGGTCTTGCCGGACGGAACGGGGCAGGGAAAACGACCCTGTTAAAGATTCTCACAGGCCTCTTGAAAGAAAGTGACGGGAAAGTTGAAGTCTATGGAAACCGTCCGTTCAACAATCTGCAGGTATCAGCCAACAGCATCTACATCGATGATCAGATGAATTTTCCAACGTCCTTAACGTTGAAAGAAATTTTAGAGGAGGGACGCCGCTTTTATCATAATTGGGATCATACGCTTGCGATGAGCTTATTTGATTATTTCGGTTTTCACCCAAAAAGTCGTCACAACGAGCTGTCCAAAGGGAAAGAAAGTACCTTCAATATGATTATCGGTCTGGCATCCCGTTCGGCACTGACAATTTTTGACGAACCCACTACAGGGATGGATGCTGCCGTGCGGAAGGATTTCTACAGAGCTTTATTGAAAGATTACCTGGCCTGCCCGCGGACGATCTTATTATCCACTCATCATCTCGAGGAGGTGGAGGATATTCTGGAGGATATCCTCCTTATGGATAAAGGAAATCTTCTGATTCATGCCTCTATGGAAGATATGAAATCCTATGTGGTCGCGGTGTCTGGGCGAAAAGAATGGATGCCGGAGTGGATCAAGGATAAACATCTTTTTTACAAGGAGGAGTCAGGTCCTTACGAGCAGACGATGATTCTACAGAATAACTTTTCAGAAGAAGAAAAAGAAGAATTGAAGCGGAGGGGCATCCAGCTTTCAGCCGTTTCAGCAGATGATGCCTTCGTTTATATGACAGGAGAAGCAAATGGCAGAGGGGGCGTGGATGATGTATTCAGCGGACGTATCGACAGCGGAAGTGATTAA	MKAVQTKELIKKYGRRTALNGVSFSIEENTITGLAGRNGAGKTTLLKILTGLLKESDGKVEVYGNRPFNNLQVSANSIYIDDQMNFPTSLTLKEILEEGRRFYHNWDHTLAMSLFDYFGFHPKSRHNELSKGKESTFNMIIGLASRSALTIFDEPTTGMDAAVRKDFYRALLKDYLACPRTILLSTHHLEEVEDILEDILLMDKGNLLIHASMEDMKSYVVAVSGRKEWMPEWIKDKHLFYKEESGPYEQTMILQNNFSEEEKEELKRRGIQLSAVSADDAFVYMTGEANGRGGVDDVFSGRIDSGSD	PGPT0006725_12876	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_02699	378			hypothetical protein	GTGATCCTGGATACAAACGGCATGAAACCGATCTATATACAAATCGCGGAATGGATGGAAAGTGAAATCATGAATGGCGGATTGAACGTGGATGAGAAGGTTTATTCCCAGTATAAGCTGGCTGACATGTACAACATTAATCCCGCTACAGCAGCAAAGGGTCTTACAAAATTGGCAGAGGAAGGGATTCTTTATGATAAGCGTGGAATCGGTAAATTTGTTGCCGAAGGGGCGAAACAGATGATTATCGAGAAACGGAAAAATCAGACGTTAAAGCAGTTGATTGACGATGTCGTGACAGAAGCCGGCTATCTCCAACTGTCAGAGGATGAGGTTATTGAACTGATCCGGAATTCCTGGAAGGGGAGAGCAGAATGA	MILDTNGMKPIYIQIAEWMESEIMNGGLNVDEKVYSQYKLADMYNINPATAAKGLTKLAEEGILYDKRGIGKFVAEGAKQMIIEKRKNQTLKQLIDDVVTEAGYLQLSEDEVIELIRNSWKGRAE				NA	NA	NA	NA	NA
AK012_02700	1350			hypothetical protein	ATGACGATGATACACCTGTCGATTCCGAAACAGAAACAGCCTTTACGGATAAAAGCGGAACGGGCGGCTTTTTTTGAGCAGACGCAGCTGATTGAAGGATATGATGATGAAAACTGCTGGCTGCTGTTCTTTTTCAAACAAACCTTCCTTACCGCTGTGAAGACGAAAAAGATGAAGCGGACCTCCTACGCTTCCCGTGTATGGAAAGAAGGCCTGGTTTATGAACACCCTCATCCTTTCCTGACCGGTTTGATCGACGCGGAAAAACCTCTGAACAAAATCAACTATCCCCAGTTGAAGAAGAAAGCTGCCCGGCATTTCACAAGACAGGAACAAAGCCGGATCCTCACTCTTTTCGAATCTTTTATTCCTAAAAAACAACTGCTTGCTGATATAAAAGCGATTTTTTATACGTGTAGACGGGAAGGTAAAATGTTTGAATCGTACACCATTGTAAGGGAAATGGAGCGCCTGGCACCGGAAAGCCGGTTCGTTAAGGAAATCAGCCACGATCTTGCTTTTGCTTCATTCTCAGAGGCGTATCACAAACGGGAGGCCTCCTTATATACACGCGATCGTTTATACGCGGAAGATCATGCTTCCGTGGAAGAGAAGTCACGACACCTGCTTCACGAAAACAGGAAAATGGAGCACCTCGCGCATAGGATCGGCGCTCTCCCTCCAACCTTGTCTGCTGAAGAAGCAGAAACGTTCCTTCATACCGTTAAGGACACATTTGATCCTGTAGACCAAATGTATCTTCTGGAACCTCTGATATCCAGCCGCCCTTCCTATGATCAACTCACGGATTTTCTGCTTAACCTCTATCTTGAACACCGCTGTGTTGAACCGTCCGCCGGAATCGTTCAACGTTTTGACGTCCTTCCACATCCCGACCAGATGGCAGCCGCAGCCGCTGTACTTGATGAAATAGACATGCGTCAATCTCTTGATGCGGTCCACATCCTTTTGGAAAAAATTCTCCCCGTTCTTCCGGAATCGACGGGACACCTCGTTGAAAAATATATCGAAGCATTATTTTCGGAGATGGAAGTGGAAGAGTTGATCGAAAGAATCCGGCCTTTATCCGAAAAGTCACCATCTTTTAAGAAAATCGTCCGGATGAAAGAAATTTCGGGAGATCTCGATCATCTTCTCGAGCTTGGGGAGGGATACTACCACTTCCACCAGCTGGATCAGGCTCTGGAATGCTTCCAAATGGAGATGGAACTCCAGCCCGACCGTCCGGAACCGCTTCAATGGCTGGCCAGGGTGTATCAGGATAAACAGATGATGGAAGAGTCTAAAGCGTACCAGAAACTCTGTGTTGACCTTCAAAAACGGAACTGA	MTMIHLSIPKQKQPLRIKAERAAFFEQTQLIEGYDDENCWLLFFFKQTFLTAVKTKKMKRTSYASRVWKEGLVYEHPHPFLTGLIDAEKPLNKINYPQLKKKAARHFTRQEQSRILTLFESFIPKKQLLADIKAIFYTCRREGKMFESYTIVREMERLAPESRFVKEISHDLAFASFSEAYHKREASLYTRDRLYAEDHASVEEKSRHLLHENRKMEHLAHRIGALPPTLSAEEAETFLHTVKDTFDPVDQMYLLEPLISSRPSYDQLTDFLLNLYLEHRCVEPSAGIVQRFDVLPHPDQMAAAAAVLDEIDMRQSLDAVHILLEKILPVLPESTGHLVEKYIEALFSEMEVEELIERIRPLSEKSPSFKKIVRMKEISGDLDHLLELGEGYYHFHQLDQALECFQMEMELQPDRPEPLQWLARVYQDKQMMEESKAYQKLCVDLQKRN				NA	NA	NA	NA	NA
AK012_02701	786			hypothetical protein	ATGAAGAAGCCACTTATTCTGACAGGCGCACTGGCGCTGTCTCTACTAGCATCACCAGCCACATCCCTTGCATCTACCGGTGAGGTCCAGAAAGATTACCAGGTTCAAACGAAAACCATTCAAATAGATTCCAGCCAGGTAAATGACTGGATTAAACAAAATGAAGAGGCACTGAAAAATGGTCAGTATGATCAAATGGATGTACAGTCTCTGCTTGAACAATTCAATTGGAACGCCCAATCCTCTGAACAAGCCTCAGTAGAAGAGCAGCCGGTTCAAGAACAAGAACCTGCACAGGAGGAGCCAGCCGAAGAAGCTGCACCACAGCCGGAAGCTGAAGAAACAACAACATCCGAAGAACAAGCACAGCAGCAGGAAGCCACCCAGGAAGAGGACACCTCTTCTGACGTATCCGCTTTTGAAAAAGAAGTGGTAGAACTAACGAACCAGGAACGTGAAAAACAGGGGCTTGAACCACTGAAGCTGGATACAGAGCTCAGTGGAGCAGCCAAGGACAAGTCTCTCGATATGCAGAACAATAACTATTTCTCCCACACCAGCCCGACGTACGGATCTCCATTTGATATGATGGATCAATATGGCATTGACTACCGTACAGCCGGTGAAAACATTGCTATGGGGCAGACATCTCCTGAGCAGGTTGTTGAAGGATGGATGAACAGTCAGGGACACCGTGAAAACATTATGAATCCTGACTTCACACACATCGGTGTAGGTCACGCAGAAGAGGGAAACTACTGGACACAAATGTTCATCGGTAAATAA	MKKPLILTGALALSLLASPATSLASTGEVQKDYQVQTKTIQIDSSQVNDWIKQNEEALKNGQYDQMDVQSLLEQFNWNAQSSEQASVEEQPVQEQEPAQEEPAEEAAPQPEAEETTTSEEQAQQQEATQEEDTSSDVSAFEKEVVELTNQEREKQGLEPLKLDTELSGAAKDKSLDMQNNNYFSHTSPTYGSPFDMMDQYGIDYRTAGENIAMGQTSPEQVVEGWMNSQGHRENIMNPDFTHIGVGHAEEGNYWTQMFIGK				NA	NA	NA	NA	NA
AK012_02702	264			hypothetical protein	TTGAATAAACATACGGTGAGTCACCTCTATCATGTCTGCCCCTTATGTCAAGGAACAGGAGCCTATAAGGAATATGATGACAGCAAGGCCAATATGATTATGGATCATTACAGCCGCGTCAATCATGCCAGCGAAAAAACAGCCTGGAAGCTTGCGGTTGAGGAAACCAGTTATGAAACCAAATGCAGCCGCTGTCACGGAAGCGGCCACGTATTAAATGATGAAGGAGAAGAAGTGTACAAGGCACTGAAACAGTTTGCCTGA	MNKHTVSHLYHVCPLCQGTGAYKEYDDSKANMIMDHYSRVNHASEKTAWKLAVEETSYETKCSRCHGSGHVLNDEGEEVYKALKQFA				NA	NA	NA	NA	NA
AK012_02703	1104			NADH oxidase	ATGCTTTTTGATACATTCCATTTAGACAGCAGAACACTAAAGAACCGGTATGTGGTGGCACCGATGACCCGCATCAGTGCCGAAGCAGACGGCCGTGCCAATGATACGATGAAGGAATATTACCGCCGCTTCGCTAAAGGCGGGTTTGCAGCCATTATCAGTGAAGGTATATATACAGATCAGAGCTTCAGCCAGGGCTATAACAATCAACCCGGTCTTGCAACAGACATTCAGGCAGATGCCTGGAAACCTGTTGTAGAGGCGGTTCATGATGAAGGATCCATCATGATTGCTCAACTGATGCACGCAGGCGGGCAAAGTCAGGGGAATGCGTATACAGATGAGACCATCGCGCCCTCTGCCATCGCCCCTAAAGGCGAGCAGCTTGGCTTTTACGGAGGATCAGGTCCTTTCCAAACGCCTAGAGCGATGGAGGAACCGGACCTGACTGAGACGAAAATGAGCTTTGTCGACAGTGCCAGACGCGCGAAAGCTGCTGGATTTGACGGGGTGGAAATCCACGGCGCGAACGGCTATTTACTGGATCAATTCTTAACCGATTACTTAAACCACCGCGAAGATGCCTATGGTGGTTCTGTAGAAAACCGACTTCGTTATGTCCTTGAAGTGGTGGATGAAGTTCTTGCAGCCGTGGGAGAAGATTTTATCATTGGGATTCGGATTTCCCAAGGGAAAGTAGCCGATCAAGCCCATAAATGGGCCGGTGGCGAAAAAGAAGCGGAGGAAATCTTCGGAGCTCTCGGTAAAACCGGTCTCGATTATATCCATGTTACTGACGGCGATGCTTCTGCTTCGTCCTTCGGGGAGGGAACAAAAACACTCGCGGAAGCAGCTAAAGAGTTCAGCGGAATTACAGTGGTGGCTAATGGTCAGCTGCAGGACCCTGAGAAAGCTGAAACCATCCTTTCCTCTGATCAGGCCCACCTCGTTTCCATTGGAACAGGAGCGCTTGCGAATCCGGATCTCCCGAACAAAGTGAAGGACGGCAGAGAGTTGAACGCCTTCGATTTCGAAAAAATCCTCCTGCCTCAGGCACAAGTGAAAAAAGAAGAATTGAACGACGATATATATACGAAAGAATAA	MLFDTFHLDSRTLKNRYVVAPMTRISAEADGRANDTMKEYYRRFAKGGFAAIISEGIYTDQSFSQGYNNQPGLATDIQADAWKPVVEAVHDEGSIMIAQLMHAGGQSQGNAYTDETIAPSAIAPKGEQLGFYGGSGPFQTPRAMEEPDLTETKMSFVDSARRAKAAGFDGVEIHGANGYLLDQFLTDYLNHREDAYGGSVENRLRYVLEVVDEVLAAVGEDFIIGIRISQGKVADQAHKWAGGEKEAEEIFGALGKTGLDYIHVTDGDASASSFGEGTKTLAEAAKEFSGITVVANGQLQDPEKAETILSSDQAHLVSIGTGALANPDLPNKVKDGRELNAFDFEKILLPQAQVKKEELNDDIYTKE	PGPT0005930_2190	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_TOLULENE|DERIVATE_DEGRADATION	XENOBIOTIC_NITROTOLULENE_DEGRADATION,PGPT0005930-nemA-K10680	NA	NA
AK012_02704	738			hypothetical protein	ATGGATACAGGGACAATCGCTTTCAGTTTAATCATGGGATTTGCTCTCGTCATTACGGGAGGACTGACTTTCCTTGTAGTAAAGCGGAAAGAGTATGGTCTTATTTCTGGTTTTTCCAGTCGTCCAGAGGAAGAAAAGCGTATTCTGATGGAAAATGGGTATGTGAAAGCGGTCGAGCGGCTGCTATTCCTTCTTTTCCTTCTGTTTGCAGGTGTCTTTATAATGGGATTGCTTCCGGTTCCATACGGATTGGAGATCAGCCTGGCTGTCTTCCTCCTCGTTGTGCTGGGAGGCGCGGTCCGTGTGCAGATGTATGAAGTGCCCGGGAAGAGGAAAAGAAACCTTTGGATCACATCGATCCTGGGCCTCCTGGTCATAACAGGCATGGGCGCTTTAACATATTTCAGTATGATGGAAAACGAGGTCACGGTGACAGAAACACACTTGGAGATTTCAGGGATGTACGGGTTGGAGTGGCAGCTTAAGGATATTGATCAGGTTACGATTGAAGAAGAACTTCCGGAAGTCATCTTAAAATCCAACGGCTTTGCGGCAGCGGGTCAATTGAAGGGGCAGTTCCGACTGGAGAAACCTTATGGACCTGCACGTCTTTTCATCCATGACCAAAACGAAGGGCCGTTTCTTTATGTTCAGAAAGGGGAGGAGGACCTTTGGTTAAGTCGGGAAAGAAGAGAAGAGATTGCAGGCCTTTATGAGCAGTTGAATACGGGGAAATAA	MDTGTIAFSLIMGFALVITGGLTFLVVKRKEYGLISGFSSRPEEEKRILMENGYVKAVERLLFLLFLLFAGVFIMGLLPVPYGLEISLAVFLLVVLGGAVRVQMYEVPGKRKRNLWITSILGLLVITGMGALTYFSMMENEVTVTETHLEISGMYGLEWQLKDIDQVTIEEELPEVILKSNGFAAAGQLKGQFRLEKPYGPARLFIHDQNEGPFLYVQKGEEDLWLSRERREEIAGLYEQLNTGK				NA	NA	NA	NA	NA
AK012_02705	1638			hypothetical protein	ATGATGAAAAAGCTGATCGGATGGATGATTGCTCTGCTTGTGTTGTTCGTTCCGCTTCAAACATCCGCGGTAGAGTTAACCATCGAGGAAATGAACATTAACGCAGACCTTAAGAAAAACGGGGATGTTCATGTAACTGAAGCCCATACCTACACTTTTGATGGGAATTTCAATGGCATTACCCGGACACTACTGCCCAAAGAAGACACAACCATCACCAATGTCCAGGCTGAAGAAAAGGATCAGGAACTTCGTATCAAGCAGGAGGATCATACCTACAAAGTGTTCAGAGACGGGAACGATGAAACCATTACGATAAACTTGTCCTACACTATCCAGGATGGTGTCGAGGTCTTTACGGATGCGGCTCAATTCTACTATGCATTTTTTGATGAAAGTAATGAAAGTGATTATGAGCAGATGTCCATCACCGTTGCACCTCCGGAAAAAGCAGAAGTGAGTGCAGCATATGGAGAAGATTCCGCTTATCAGACAAAGACCATTCAGGAAGACGGGGTTGTCACGTTTGATATGGGCTATGTAAACAGTGGAACGAACGGAAATATCCGTGTCGCATACCCGGCAGACGTGTTCGCGGAAGCCGAGGCTTCTGACACTGCCATACTGAGCAGCATCCAGAACCAAAAACAAGAGTTGGATGAAACGGTAGCGGCTCGACAGGAAGCCGTCAACAATTGGAAATCGAGTGCCCCTTATCTCATAACTTTAACAGCTGCAGCAGCCGTCCTTCTATTAGGAACAGGACTTGTTAATCGTTCTGCGGTAAGACAGGAAGCTCAGCGGCAGAAAGTCGGGGACGCCTTTTTTCCAACGGAGGAAATGAGCCTCCCCGCGTTGATATATTTCACAAATCATGGGCAGTTAACCCATTCAGCCGTTACAGCCTCCCTGCTGCATATGATTGATAAAGGCAGCATCAGACAGCATTCAGAACAAGAATTTGAACTTGTCAGCCGGGAAACAGATGAACCCCACGAAAAGCAGCTGATCACCTGGCTGTTTGATGATATTGCAGAAGGAAATCTGCTTCACATTAACGACCTGGAAACTTATGCAGAAAAAGAGAAGAACCAGGAACGTTACCGGCTGGCCTTTCAAAAATGGAAGGAAATCGTACGATGGGAATACCAAAGCCTTAAACTTCGGAAAGAAAAGACCTGGCAGCGGTGGACAGCTTTAGGGATGACGTTTGTCAGTTTGACTCTCACCATTATCTTTGGGTACTACTCACTGATTCCATCTATGTCCGCAATGATAGTTCTCTCCCTCTTTTTCATCATTTTTTCGGCAGGGTACAGACCTTTAACTGCGAGAGGATACCGTATCCGCGTCCAAACCGAACCCTACAAGACAGGGCGCCTGCAGAAAGAAGAAAACGAAGACACCGTTCCTGCTCTGCTCTACCAGATCGGCTTTGGAAAACAGAAATGGCAGACCGGGGATCCTGCTTTCTCTTCACCGAATCAGGCTGCACTCTTTCTTATACTGGCAGCAAACCTGGATTCCGGTTTTGACAGAGCAGACACCCACACAGCTGTGTCAGCTGCCTCCTCCTCAGGAACAAGCGGAGGGGGAGCTGGTGTCGGAGGCGGGGGTGGAGGATCCGGGGGTTTTTAA	MMKKLIGWMIALLVLFVPLQTSAVELTIEEMNINADLKKNGDVHVTEAHTYTFDGNFNGITRTLLPKEDTTITNVQAEEKDQELRIKQEDHTYKVFRDGNDETITINLSYTIQDGVEVFTDAAQFYYAFFDESNESDYEQMSITVAPPEKAEVSAAYGEDSAYQTKTIQEDGVVTFDMGYVNSGTNGNIRVAYPADVFAEAEASDTAILSSIQNQKQELDETVAARQEAVNNWKSSAPYLITLTAAAAVLLLGTGLVNRSAVRQEAQRQKVGDAFFPTEEMSLPALIYFTNHGQLTHSAVTASLLHMIDKGSIRQHSEQEFELVSRETDEPHEKQLITWLFDDIAEGNLLHINDLETYAEKEKNQERYRLAFQKWKEIVRWEYQSLKLRKEKTWQRWTALGMTFVSLTLTIIFGYYSLIPSMSAMIVLSLFFIIFSAGYRPLTARGYRIRVQTEPYKTGRLQKEENEDTVPALLYQIGFGKQKWQTGDPAFSSPNQAALFLILAANLDSGFDRADTHTAVSAASSSGTSGGGAGVGGGGGGSGGF				NA	NA	NA	NA	NA
AK012_02706	912	gltR_2	COG0583	HTH-type transcriptional regulator GltR	ATGGATGAAAAACAGCTGGTCACATTTTTAACGGCAGCAGAAACCTTGAATTTCACGAAAACCGCTTCTATGCTCAATTTCGCTCAATCCAGTGTGACAGCCCAGGTTAAATCGCTGGAAACGCAGCTGGGAAGACCGTTATTTGAACGGCTTGGGAGAAAGCTTGTGCTCACAGAGGCCGGGCATCAGTTTAAAGGGTATGCTGAAAAGATGGTGAAAATCAGTGAGGAAGCCCGGATGGCGGTTAACGGGGAAAGGGGAAATGGAGGAAGGCTGATCATCGGAGCCCAGGAAAGTCAATGTACATACAGACTTCCTCCTGTTTTAAAAGCATTTAAAAGCCGATATCCTCACGTGGAATTAATCTTCAAGCCTGCCCACTCTGATGAATATGCCCGCAGGGATTTAATGGACGGACGCCTGGATGCGGCTTTTATTATGGACAGATCCAGTCCGGGGGACTCCCTGACCATTGAAACGCTCCTTCAGGAGGATATCAAGCTTGTGGCTGCCAGTGATCACTCATTGGCAGAATCGAAAGGCTTTCAGCTGAGCGATATTGAACGCGAGCCTCTTCTCCTTACAGAAGAAGGCTGCTCGTACAGAAATCTCCTGGAGCAGACGTGTACCGCTTCAGAGGTCTATCCCGTCAATAAGCTGGAATTTGGGAGTATTGAGGCGATTAAGCAGTGTGTCATCGCCGGCCTTGGGATCGCTGCGCTTCCTCAAATGGTTGTTGAACGTGAGCTTACGGAAGGGAAGATTGTTGATTTGGGATGGAAGAGCCCCCAGCCACCAATATTTACCCAGCTGGCGTGGCATAAGGATAAATGGCTTTCCCCCCCATTAAAGGATTTCATAGATATATCAAGAGAATTTCTTAAGGAAGAGAGGCCGGAGGGATTTATTTAA	MDEKQLVTFLTAAETLNFTKTASMLNFAQSSVTAQVKSLETQLGRPLFERLGRKLVLTEAGHQFKGYAEKMVKISEEARMAVNGERGNGGRLIIGAQESQCTYRLPPVLKAFKSRYPHVELIFKPAHSDEYARRDLMDGRLDAAFIMDRSSPGDSLTIETLLQEDIKLVAASDHSLAESKGFQLSDIEREPLLLTEEGCSYRNLLEQTCTASEVYPVNKLEFGSIEAIKQCVIAGLGIAALPQMVVERELTEGKIVDLGWKSPQPPIFTQLAWHKDKWLSPPLKDFIDISREFLKEERPEGFI				NA	NA	NA	NA	NA
AK012_02707	555	ywqN	COG0655	Putative NAD(P)H-dependent FMN-containing oxidoreductase YwqN	ATGAAAATTGCTGTATTGAATGGCGGAAGCCGACAGGGCGGAAACACTAAAATGCTTACTGAAAAGTTGGTTGAAGGGCTGGAAGTGACCACTTTTCACCTTGAAACATATACCATCCTGCCCATCATCGACGGCCGGCATGACGAAGGCGGTTTTCTGCCGGTGGATGATGACTACAAAGCCTTGATGGAACAAGTGATGAGCTATGATCTTCTTATTTTTGCAACACCTGTATACTGGTATTCCATGTCAGCGGCAATGAAGCTGTTCATCGACCGGTGGTCCCAGACGATGAGGGATCCTGAGTATGGGGATTTCCGTGAACGGATGGCTGAAAAACAAGCGGTTGTGCTTGCGGTTGGAGGCGATTCTCCTTATATGAAAGCTCTCCCGCTTCTGCAGCAGTTCCAGCATATTTTCCAGTTTGTACACCTGCCCTTTTCCGGTTACGTCCTTGGACAGGCAAATAAACCCGGGGAAATACTGGAGGACGCTCAAGCCTTATTCGCTGCGGAGGAATGGAACAAGAAACTCCATACCTTGATAAAGGCATAA	MKIAVLNGGSRQGGNTKMLTEKLVEGLEVTTFHLETYTILPIIDGRHDEGGFLPVDDDYKALMEQVMSYDLLIFATPVYWYSMSAAMKLFIDRWSQTMRDPEYGDFRERMAEKQAVVLAVGGDSPYMKALPLLQQFQHIFQFVHLPFSGYVLGQANKPGEILEDAQALFAAEEWNKKLHTLIKA				NA	NA	NA	NA	NA
AK012_02708	1293	pbuG_1	COG2252	Guanine/hypoxanthine permease PbuG	ATGAAAAACTTCTTTCAGTTTGAAGAAAGAGGGACAACGATAAAAAAAGAAACGATGGCCGGTGTGACCACGTTTTTGTCTATGGCTTATATTCTCGTTGTGAATCCAATCATACTCAGTCAGGCGGGGATGGATCAGGGCGCATTGTTCACAGCAACGGCTTTATCCGCTATCTTTGGTTCTCTGCTGATCGGCCTGATGGCTAACTTCCCAGTAGGCATCGCGCCGAGTATGGGGTTGAATTCATTCTTCACCTTCTCTGTTGTCATCGGTATGGGAATCGAATGGCAGGTTGCCCTGACCGGGGTATTTATTGCAGGTATTATCTTTATGATTTTAAGTTTGTTTAAGATCCGGGAAAAGATTATCAATGTCATTCCTAAGGATTTGAAGCATGCCATTGCGGGTGGAATCGGTTTTTTCATCGCCTTTGTAGGGTTGAAAAATGCCGGACTGGTCGTTTCTAATGAGGAAACGTTCGTGACCATTGGTAACCTGACATCACCAACAACGGCTCTGGCAGGCTTTGGTTTTGTTGTGACGTTGATGATGCTTGTCCGCGGCATACGTGGTGGGATTTTCTACGGCATTGTGGTGACCAGTATCATCGGTATGGTTTTCGGTCTTGTGGATGTGCCTGGTTCTATTGTCGGGGAAGTTCCGAGTATGGCTCCCACATTCGGAGTCGTATTCCAGCACCTGGGTGATATATTCCAGCCCGAAGTCATTGCTGTGATTTTCACGTTCCTGTTCGTAGCTTTCTTTGATACAGCCGGAGCGTTGATCGCGGTAGCCAGTCAGGCCGGGATGATGAAGGATAACAAAATCCCGAATGCTGGCCGTGCCCTGCTTGCGGATTCATCGTCCGGTGTACTTGGAGCCATCTTCGGAACATCGACGACGGCATCGTTCGTGGAGTCATCGGCAGGCGTCGCGGTTGGAGGTAGAACGGGTTTTACAAGTGTCATCATTTCCGCTTGTTTCTTCATCGCATTGTTCTTTTCACCGCTTCTTGGTGTGGTGACACCTGAAGTCACGGCGCCGGCGTTGATCATTGTCGGAGCTCTGATGGCTGTAGAAGTCAAAGAAATTGACTGGAGCCGTCTGGAAGTTACAATACCGGCGTTTGTTACGATTATTATGATGCCGCTCACGTATAGTGTAGCTACAGGTATCGCTCTTGGATTCATTCTTTATCCATTTGCGATGATTGCCCGCAGAGAATGGAAGCAGGTGCACCCGATTATGTACACACTGGGCGGATTGTTTATCATGTATTTCGTCTTTCTATAA	MKNFFQFEERGTTIKKETMAGVTTFLSMAYILVVNPIILSQAGMDQGALFTATALSAIFGSLLIGLMANFPVGIAPSMGLNSFFTFSVVIGMGIEWQVALTGVFIAGIIFMILSLFKIREKIINVIPKDLKHAIAGGIGFFIAFVGLKNAGLVVSNEETFVTIGNLTSPTTALAGFGFVVTLMMLVRGIRGGIFYGIVVTSIIGMVFGLVDVPGSIVGEVPSMAPTFGVVFQHLGDIFQPEVIAVIFTFLFVAFFDTAGALIAVASQAGMMKDNKIPNAGRALLADSSSGVLGAIFGTSTTASFVESSAGVAVGGRTGFTSVIISACFFIALFFSPLLGVVTPEVTAPALIIVGALMAVEVKEIDWSRLEVTIPAFVTIIMMPLTYSVATGIALGFILYPFAMIARREWKQVHPIMYTLGGLFIMYFVFL	PGPT0007325_5189	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
AK012_02710	795			hypothetical protein	ATGGAGTTTGGTGAAAAGCTGTTTCAATTAAGAAAAGAAAAAGGGTTGTCGCAGGAAGCGCTCGCTGAGCAGCTGCAGACCTCCCGGCAGGCCGTAAGTAAATGGGAAAATGGACAGGGGTATCCAGAACTGGAGAAACTGCTGAGCATAGGCAGCATTTTCAATGTATCGATGGACTACCTATTAAAAAAAGAGTCAGAACGAGGACCCGAGGAGGAACAGGGGTATTACGTCAGCCGTGAATTGGCCGAAGCTCATTTGACCTACGTACACTCCATGGGACATTCACTGGCCGTAAGCCTCAGCCTGTTCCTGCTTGGTCTGATACCATACTTTCTTTTTAAAGGATCTCCCGAAATTCTTGCGGTCATGATTGCAGGCTTCGCTGCTGCAGGGGTGATTTTCTTCATTAAAGCCATGACGACCAAAGGTGCAGAAAACTATGAAATCATAAGCAGCAGGGAATTGATCTTTGACCCCGGATTCAAGACCGAAATCACGGATCGTTTTGAATCTGTCCGAACACGCCTCGTCTCTTTTCTCATGCTCGGGGTAGTCCTTGCCGGTATGGGATTTGTCACCCTGCTTCTTGAAGAAAATGATGTGACCAACGGGGCTCTGTCTGCGTACTATCCGGTGATTACATCATTATCAGCAGCCGGGGTGTTTATCCTTACCCGTGTCATTGCAGCTTTCACAGCATACGACCTGTTGATCCATAGTGAAAAGCATAGTCAGAAAAGAAAGGAAAAATCCGAAAAGAAGCTGCGTAAGAAATGGAAGGAATGGATCTGA	MEFGEKLFQLRKEKGLSQEALAEQLQTSRQAVSKWENGQGYPELEKLLSIGSIFNVSMDYLLKKESERGPEEEQGYYVSRELAEAHLTYVHSMGHSLAVSLSLFLLGLIPYFLFKGSPEILAVMIAGFAAAGVIFFIKAMTTKGAENYEIISSRELIFDPGFKTEITDRFESVRTRLVSFLMLGVVLAGMGFVTLLLEENDVTNGALSAYYPVITSLSAAGVFILTRVIAAFTAYDLLIHSEKHSQKRKEKSEKKLRKKWKEWI				NA	NA	NA	NA	NA
AK012_02711	762	surA		Chaperone SurA	TTGAATAAAAAATGGTTATTGAGTTTAATGCTGGCTGCCTTTGTTGCTCTACTTGCTGCGTGCGGGGAAGATGAAGGGGCCTCTGATGATAATAAAGAAGAGACAGAGACGACACAGGAGGAACAGCAGGAAGGCGAACAGGCCGAAACGCCTGAGCCGGATCTTGAAAACGTTCCGGACGTAGTCGCAGAAGTCAATGGAGAGAAAATTACGAAAGAGGATTTCGAAACGACGTATCAAGGCCAATTCCAACAGATGGCTATGCAGTCACAAATGACAGGTACAGAGCTTGATCAGGAACAGCTGAAGAAAGATGTCGCCAACAACCTTGTCGGCCAGGAGCTGCTCGTACAGGAAGCTGAAAGTCGTGATTACGAGGTATCCGATGAAGAAGTCAATCAAATGCTGACAGACCTTGCCGAGCAGAACCAGATGGAATCCAAGGATAAATTCCTTGAAGAGCTTGCCAATCAGGGAATGAAAGAAGACGAAGTCCTTTCCCAGGTCCGTTCCCAGCTGAAAGTCGATCAACTTCTTGAAGAAGAAGTCAGTGTAGAAGCTCCGACGGATGATGAAGTCAAAGCGGAGTACGACAAAGCTGTCGAGCAGCAGGAAAGTGCGGAAACAGAACAGGAAATTCCTGCCTATGAAGATGTGAAAGATACAATCAAACAGAACCTTCAAACGCAGAAGCAGTCTGAGGAAACACAAAAGCTTGTAGACAAGCTTCGTGAAGAAGGCGAAGTTACTGTAAATCTATAA	MNKKWLLSLMLAAFVALLAACGEDEGASDDNKEETETTQEEQQEGEQAETPEPDLENVPDVVAEVNGEKITKEDFETTYQGQFQQMAMQSQMTGTELDQEQLKKDVANNLVGQELLVQEAESRDYEVSDEEVNQMLTDLAEQNQMESKDKFLEELANQGMKEDEVLSQVRSQLKVDQLLEEEVSVEAPTDDEVKAEYDKAVEQQESAETEQEIPAYEDVKDTIKQNLQTQKQSEETQKLVDKLREEGEVTVNL	PGPT0014978_2763	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014978-surA-K03771	NA	NA
AK012_02712	258			hypothetical protein	ATGTTAAAGGAATCTGACTTCCCGACTCAAGAACTAAAAGAGCAGTGGATCAAAGTACGAAACAAAAAACTGGAGGAAATGGCTCAGTATATCCAGCGGTACTTCCACCTGACGAAGGTGAGGGAAAATCCAAGCAGCTATGAGGTTCAAGGCTACTTTTATCAGCCTGGGTTCGGAGAAGTGAGAATGGCGTTTGAGTTCAGCTACGAGAACGTCGCCAAATTCACGGATCTATTCGACGAACCGATTGAAAAATAA	MLKESDFPTQELKEQWIKVRNKKLEEMAQYIQRYFHLTKVRENPSSYEVQGYFYQPGFGEVRMAFEFSYENVAKFTDLFDEPIEK				NA	NA	NA	NA	NA
AK012_02713	2202			hypothetical protein	ATGACTGGAAGCATACAGGACCTCAAAACCGATGGGGCCTTTTTTAAATATTTGAATAAGAAAAATGAATATAAACAGCAGGTTCGTGAGACGATGGTCCGCACAGCTGCCAAGCTTACGTCATCCGTCACTTCCGAGCAGCGGCCGGGGATGCTTTTAGGAAAAGTGCAGTCTGGGAAAACCCGTACTTTTATCGGGGTGATGGGGTTGATGTATGATAACGGTTTTGATGTCGTGATCCTTCTGACGAAAGGAACGAACGCACTCGTACGCCAGACATATGCCCGTCTGGAGGAGGAATTCTCAGGAGCTGTTGAAAAGGATGCGATGCGAGTCTATGACATTATGTCGATGCCTGATAATCTTAGAAAATATGAGTGGTCTCAAAAGCTCGCATTGATTGTAAAAAAGGAGACGAATAATCTGGAGCGCCTGCGGGCTGCACTGGAAGAGAAGTATCCTGAATTAAAGGAGAAACGGGTGCTCTTTATCGATGATGAAGCGGATTTTGCCAGTGTCGCTTATGAATATAAGCGGGATCAAAACCTTAAGCAGATGCGTGTCATTGCGACAAAAATCAATGAACTCCGCAAAAACCTCAAGCACACCGCATTTTTACAAGTGACTGCGACTCCGTATTCGCTGTATCTGCAGCCGGAGGATATGACGATTCACGAGGGGAAGGTGTTTGAACCGATCCGGCCGTCTTTTACGGAACTGGTTCCGGTTCATAACCGGTACATCGGCGGGGAGGTCTACTTCGAGATGAGTGAAAAGGAAGACCACCTGGCTTCGTACCTTTTCCACGAAGTGAACGAAAAAGAATTGGAAGTCATGAAAAAAATGGACGGCCGCAGGGTGAAAATGGACCAGCTCCTTGAACAGAAGAACATCTCCAACATCCGGAGAGCTGTTGTGAATTTTATTGTGGGGGCGTCTATACGACGCTGTCAGCAGCGCATGATGGGCAGGCGGGAGGAGAAGTACTCCTTTATCATTCATACGGAACGGGGCAAGAGCGCCCATGCCTGGCAGGCCGAGTTGATCGGAGGGTTTGAAACGCTGCTTACGGAAGCATCCAGGGAGGAAAACGGGACATTCCAGGCGCTTGTTCGTGAATCGTATGATGATTTGGTACGCTCGGTGAACAAATTGAAAAAATCGCCTTGCCCGGATTTCAATCAGGTTTATGAGGAAGTCCGCCGTTCCTTTGATGAGGAATACATCGTAAGCAGTGTCGTCAATTCAGAAAAGGACGTTCAGGAGCTGCTGGACTATAAGGGAGAGTTAAAGCTGCGTGCACCAATGAATATATTTATCGGCGGCCAGATTCTGGACAGGGGAGTAACTATTCACAACCTGATCGGATTTTTCTATGGAAGAAACCCAAAATCCTTTCAGCAGGATACGGTGCTTCAGCATTCACGGATGTACGGAGCCAGGCCTGCCGCTGATCTTGCGGTCACTCGGTTTTATACGACGGCCCGGATATACACGGTGATGAAACGGATCCACGAATTTGACTCAGAGCTGCGGCGCGCGTTTGAGAGAGGAGGGCATGATCAGGGGGTTGTATTCATTCAAAGAGATGGAACAGAAGAAATCATCCCCTGCAGTCCGAACAAAATCCTGCTATCCAATGTCCTGACGATGAAGCCGCATAAGCGGATGCTGCCTGTCGGGTTCCAGACCGGTTATAAGACCCATATACAAAAGCAGATCCGGCAGTTGGATGATCGGGTGGAACAGTTGAAAAGGACAGCCGTAAAAGAACAGGACGGAGCGTATCTTGTCCCTGTCGATGAGGCTCGGCAAATGCTCAGACTTGTTCACGAAACCCTTGAAATGGAAGAGGGGTATGACTTTTCTATTGATGAGTATGAGAGTGCGCTGGATTATCTAAGCGCAGGATCAGAAAAAGGGGCGTATGTCTGGATACTTGCCAGAAAAAACAGGAACATCCAGCGCCGGAAACAGGATGGCAGTTATGAAAATTCTCCGGATACTCCTGGGCGCGGGCGGGGAGAGCTGGCGGAGGCCCGCCGCCTCGCTCGTGAATTTCCAGCTTTAATCATGCTGAGACAGGAAGGGAAGAAAGAACAGGGATGGCGGGGATCACCGTTTTGGTGGCCGGTCCTCGTAGCTCCAGCCGAAGCTGCTCCGACCATTTATGCGGGGCGGACTGTGAAAGGAAAGCATTAA	MTGSIQDLKTDGAFFKYLNKKNEYKQQVRETMVRTAAKLTSSVTSEQRPGMLLGKVQSGKTRTFIGVMGLMYDNGFDVVILLTKGTNALVRQTYARLEEEFSGAVEKDAMRVYDIMSMPDNLRKYEWSQKLALIVKKETNNLERLRAALEEKYPELKEKRVLFIDDEADFASVAYEYKRDQNLKQMRVIATKINELRKNLKHTAFLQVTATPYSLYLQPEDMTIHEGKVFEPIRPSFTELVPVHNRYIGGEVYFEMSEKEDHLASYLFHEVNEKELEVMKKMDGRRVKMDQLLEQKNISNIRRAVVNFIVGASIRRCQQRMMGRREEKYSFIIHTERGKSAHAWQAELIGGFETLLTEASREENGTFQALVRESYDDLVRSVNKLKKSPCPDFNQVYEEVRRSFDEEYIVSSVVNSEKDVQELLDYKGELKLRAPMNIFIGGQILDRGVTIHNLIGFFYGRNPKSFQQDTVLQHSRMYGARPAADLAVTRFYTTARIYTVMKRIHEFDSELRRAFERGGHDQGVVFIQRDGTEEIIPCSPNKILLSNVLTMKPHKRMLPVGFQTGYKTHIQKQIRQLDDRVEQLKRTAVKEQDGAYLVPVDEARQMLRLVHETLEMEEGYDFSIDEYESALDYLSAGSEKGAYVWILARKNRNIQRRKQDGSYENSPDTPGRGRGELAEARRLAREFPALIMLRQEGKKEQGWRGSPFWWPVLVAPAEAAPTIYAGRTVKGKH				NA	NA	NA	NA	NA
AK012_02714	435			hypothetical protein	ATGGCTGAGAAGCGTTCGTGGAAGAATGTACGACCGACGCAGTTGATTGCCCGAAGCCGGGGCTACTTTTCAGAAAAGGAAACGCTGAAGAAATTGAAAGCCTACAGCAGCCGGCTGGGAACTCAGTTCGTCTATTACAGTCTGCTGTTGTACTATGCTTTTCAAAGTCCGAATACACCGAAGAAGGCAAAGCTCACGATTGCGGGAGCTCTCGGTTATTTAATTCTGCCGGTGGATGCTGTTCCTGATGTGCTTCCGGCTGTCGGCTTTACTGACGACAGTGCCGTGATTTTGTATGCGGTGTATCAGGTGCTTTCCCATATCAATGATGAAGTGAAAGAACAGGCGGGAGAGAAAGTCAGTACGATTTTCGGACGTCATGTGTCGAAGGATGAACTGAAAGATCCGGAAGAAGACGGGGAAGCCGGCTTGTGA	MAEKRSWKNVRPTQLIARSRGYFSEKETLKKLKAYSSRLGTQFVYYSLLLYYAFQSPNTPKKAKLTIAGALGYLILPVDAVPDVLPAVGFTDDSAVILYAVYQVLSHINDEVKEQAGEKVSTIFGRHVSKDELKDPEEDGEAGL				NA	NA	NA	NA	NA
AK012_02715	1260			hypothetical protein	ATGGAATTGGATCAACTGGAATTGAATACATCAATAGAAGAATCTGAGAAGACAAAGCCTTATTACACAGCGTTGGTGGGCTGGAGTGTCCAAGCCATTGAAGCGGCCGCACGGATGAACCGCCCGTTCATCGTCGTAGGTCCCGCAGAGTTCAAATCATATGCCGAAAAGCATGAGATTCCTTTTGTAGGATGGGACTTCAATAAGCTGAATGAAGGTTCCGATCAATTGTACAAGCAGCTCCGGGACATGGGAGCCGAGCTGGCGGTCCCTTTGTATGAAGAGTGTGTCGAATGGGCAGGCGCCCTAAACGCCCGGTTCAGGGAAGATCCTAAAGTCTTTAACCGCTCTCTGCTGCTTCGCGATAAAGGGATGATGAAACGGAAAGCGCAGATCTCCGGTATTAAAGTCGGTGTTTTTGAAGAGGCCAGAGATAAAGATGATGTGGAACGATTCTTAAAAAGAGTGAATGAAGCTTTATTGAAGCTGGAAGGTGACCACTATGACCCCATTCACGTGAAGCCTCTGGACAAAGCCGGGTCCGTCGGCCATTTGGCGGTCTATACGAAAGAAGATATCAATCAGATTCAGGAGACGGACTTCCCTCTATTGATGGAAAGCCACCTGGACGGCCAGGAATTCTCCTGCGAAGCGTTCATTCATAAAGGAAAAGTCCGGTTCCTGAATATTACGGAATATGTGCGCCTCGGGTACTCCAATTTCGTTCCTGCCTCTCCTTCTCTGGAAGAAAAACGTCCATTAATTGAAAAGGCCGTTCAGCAGCTGGTCGATGCGTTTGAAATCGAATACGGTGTCATCCACCCGGAATACTTCATTACGCAGGACGGAACGCTCCACTTCGGTGAAGTGGCCGCACGTGTGCCGGGAGGACATATTTTTGAACTGATTGAACGTGCCTACGGGTTCAGTGCTTATGAAGCCCAGATCTTATGCAGTGATCCGGGTACGACGGAGGAAGAGCTTAAAGAATTCTTCCCGGATCCTTATGATTATCACAATTATGCAGGTTGCCTGATGGTTCATCCAAGTATTGATTATGTCGAAGACTTGAAAATCCCGGAAGAGCTTGAGGATCACCCCTACTTTGAAAAGCATGACATGTTCACACCTCCGCAGGGCAAAGTAGCGGAACGTGTCGGCTTCGGGAACCATTATGGGACCATCTTCTTCTACGGCCGTGACAGTGAAGAAATGCGTGACCTTCTCGAAACGTACGAAACGTATAATTTCTACATTTAA	MELDQLELNTSIEESEKTKPYYTALVGWSVQAIEAAARMNRPFIVVGPAEFKSYAEKHEIPFVGWDFNKLNEGSDQLYKQLRDMGAELAVPLYEECVEWAGALNARFREDPKVFNRSLLLRDKGMMKRKAQISGIKVGVFEEARDKDDVERFLKRVNEALLKLEGDHYDPIHVKPLDKAGSVGHLAVYTKEDINQIQETDFPLLMESHLDGQEFSCEAFIHKGKVRFLNITEYVRLGYSNFVPASPSLEEKRPLIEKAVQQLVDAFEIEYGVIHPEYFITQDGTLHFGEVAARVPGGHIFELIERAYGFSAYEAQILCSDPGTTEEELKEFFPDPYDYHNYAGCLMVHPSIDYVEDLKIPEELEDHPYFEKHDMFTPPQGKVAERVGFGNHYGTIFFYGRDSEEMRDLLETYETYNFYI				NA	NA	NA	NA	NA
AK012_02716	1962			hypothetical protein	ATGCCGCAAACCACAGGTGCTCTTGCTGAACGATTTATTTACGCTCTGGAACAGCTCGACCAGGCTCCTTCCTTTGTGAAACCGAAATACCAGACCGATGTCTATCAGGAGGCCAACCGTCTGATTGATGCGGACGACGGCTTTGAAAACTTATACCAGCATGCCGCACGATTTGAAGAGGCCGGTGTTTTTCAGGATGGGCCATGGGAATCCGCGGAAAAGCTTCAGCCTCCTCTCGTAGCGGGTTCTTTGAAAGCGAAAGGGCTGCCTATGATCATCGAGGTGCTGAGTGAGCTGCGTATGCTTGCCATTGCTGAAGGAAAAGCGTCCAATCCTGGTGTGACACGCACGATGGCTGAAGAATTTTTAAATGAAGTCATGGTATTGAACCTGAACCTGCTTTTTCCGGATGCCAGTGAAAGCACGCGGATGGAGAAACACGAAAATGACGAGAAAGCCCAGAAGCTTTTTACGTTTCTTTCCACACACTTATCGTCGACCGCCCTCATCCAGACCCTTATTGACGAAATCAAGCGCCTGACCGCCCAGCGCCCCATCATGATCAAACGAGTCGTATCGATGATCATGATGGCTAAAGAGATGGTCAATCAGGACACGGAAAAGAATGACATGTCGGAACTCGTGCAGTTTATATCGGCCATTGAAGGACCGTCGCCACTGAGTGACCAATATAAAGATGTCCATGCCTACCGCAGCCAGCTGAAGACGATCCCGAGGGCGGAGCTTATCTCAGAGAGTACAGCACTTGCCAAATCGATGCGTGACACCGGGCTTGTCGCCCCCCATCATGCGACACTGCTTCGATTTTTAAGCAAGCAGAACCCCGGCCTGTTATCTTATGCCCTGAGACTCAACAGCAAAGGCAGTGCCAACCTTGAAGAAAACCGGGAGCTTGTGATCCAGCTGATCCGTTCGTCCATTTTCCCGGGGACGAGACAGTCGGTTTACGGACTTGCCATGATGCTTGAACGCGGGATACTTTCTCATTCACCAGTGGCTCCGGGCCTGCGCAGGCTGATAGAGCTGGATATCCGTCCGGACGTCCGGAACGCCCTCTACTCTACAACCAATACGGGCGAAGGGGTGACAGCCAACAGCATTCTCGTCGCAGGAGCCATCCAGGTCCTCGGTCAGCCGCTCGGTGTCGGCCAGGGATTCAATCCGACATGCCAGGCCGCACGAGGCATCAGCTTATGGGCCCAGCATGCCCCCGGGTTCCTACTTGAAATCATTCCTAGGGCAGCCAGAGATGGTGACCTGGATTTCACTTTTGAAGGCGCACAAATCCATTCCAAAGATTTAAAAGGCGGTCTCGCCCCTGACTTGGATAAAGAGCTTGACCCTGTGTCGCTCGTCCTCGTCCCGCATCTGGATAAGATTTACAGCGAGATGATGACCCGTGTCGCCCTCCGCGGAGAGGACGGCCACCGCTGGGTAAACCCGGCCTTTTACGGCAACTGGGTGCAGAAAGGATTCAGTTCCGTATTTGATCCGATAACAGGTTATGTCCTGGACTACAACGGATTCCTGAAACTCTTTTATGCCACACACCACCCGGATTATAATGACGACTATGAGCTGATCTATCCGAACCCTGTCGGCATTTTCATAACCAACGTCCACGGAAAGCTGCTCGGTCTTCATGCTGTTTCCATTACAAGAATTGCAAGAGACCCGCATGGGATGTACCGCATCTACTTTTACAATCCCAATAACGACGGCTCCCAGAACTGGGGACAGAATATTGAGCCGAGCGTCAACGGGAATGGCGAACAAGAAGGAGAAAGCTCCCTGCCTTTTGAGGAATTCACCTCAAGGCTGTACGCTTTTCATTACAACCCTTATGAACAGGGAGACGCCTACGCTGTCGAAAACACGATTGTCCAGAGTATACGAACTCTCGCTCAGGAAAGCTGGGGCAGGGATTATACGTGGGTATAA	MPQTTGALAERFIYALEQLDQAPSFVKPKYQTDVYQEANRLIDADDGFENLYQHAARFEEAGVFQDGPWESAEKLQPPLVAGSLKAKGLPMIIEVLSELRMLAIAEGKASNPGVTRTMAEEFLNEVMVLNLNLLFPDASESTRMEKHENDEKAQKLFTFLSTHLSSTALIQTLIDEIKRLTAQRPIMIKRVVSMIMMAKEMVNQDTEKNDMSELVQFISAIEGPSPLSDQYKDVHAYRSQLKTIPRAELISESTALAKSMRDTGLVAPHHATLLRFLSKQNPGLLSYALRLNSKGSANLEENRELVIQLIRSSIFPGTRQSVYGLAMMLERGILSHSPVAPGLRRLIELDIRPDVRNALYSTTNTGEGVTANSILVAGAIQVLGQPLGVGQGFNPTCQAARGISLWAQHAPGFLLEIIPRAARDGDLDFTFEGAQIHSKDLKGGLAPDLDKELDPVSLVLVPHLDKIYSEMMTRVALRGEDGHRWVNPAFYGNWVQKGFSSVFDPITGYVLDYNGFLKLFYATHHPDYNDDYELIYPNPVGIFITNVHGKLLGLHAVSITRIARDPHGMYRIYFYNPNNDGSQNWGQNIEPSVNGNGEQEGESSLPFEEFTSRLYAFHYNPYEQGDAYAVENTIVQSIRTLAQESWGRDYTWV				NA	NA	NA	NA	NA
AK012_02717	312			hypothetical protein	GTGAATAACAAGAGCAGATTGGCAGAAGCTGTTCATTACTTCAAGAGGCGTCCCCTGATTCATGTATTAGAAGCGGCCCGCGTGAAGTACGAAGCATATGGAAAAGCTGGTGGGACAATCATGACCGAGAAGCTCGCCTACAAGGAATTGCTGGCTCTGGCTGAGTTCATGGGGATGTCAGAGCATGCGCTGGATTTAAAGCGGAAATTTTCCATTTCCCGATTTGAGCGGCGGATCATGGAGCGGTGGGGGATAACCTTAGGGGATTTACTTGAAGAATATTTCAGGGGTGCCCAGGATGAACATGGGTGA	MNNKSRLAEAVHYFKRRPLIHVLEAARVKYEAYGKAGGTIMTEKLAYKELLALAEFMGMSEHALDLKRKFSISRFERRIMERWGITLGDLLEEYFRGAQDEHG				NA	NA	NA	NA	NA
AK012_02718	1209	eis		N-acetyltransferase Eis	ATGGAGTTTAAAGAGTTGAAGGATTTTGAAGCTTTTACAGGTTTGTCCCACCGCTGTTACCCCGGGATGAAGCTTACATCAGCGGAGGATCAGGAACGCTATACAGAGCATCGTCGGAAAATGGCCGGCCATAAGGATGTCCACCCGGTCGGTTTATACGATGGCGGCTCTCTTGTCGGTGGTTATTTTGCTTACGATCACAAGATCCAGGTCTACGACACGAAAGTGAAAGGAGCGGGGATCGGGACTGTAGCCGTAGATCTTCCTTATAAAAAACAGGGGCATGCTAAGCGGATCATTACGAAGTTTTTGCTTGATGCCAGAAAGAACGGCCGTATACTGGCTCACCTTTACCCTTTCCAGCCGGGTTTTTATCAGAAAATGGGCTTTGGCATCGGTCCGGAGCTGTCCGTATATCAGTTCCACCCTTCTCAGCTTCCGAACTTTGAAACGACTTTAGACGTTCAGGTGCTTACGAGGGACCATACAGACGATGTTCGTACGTGCTACCACACGTGGGTGGATCAGACTCACGGCGCTACAGACATCCCCTCTTATGGCTTTGCCTTTCTGGAGAAGCCGGAGCAGCATACGATCGGGGTTCAAAAGGAGGGAAAGCTGGAGGGGTACATGTCCTTTGAATTCAAGGCAGGGTCCCATTTCCTGGAGAACGACCTGCATGTGAGAAACTTCTTTTATACAACAAAAGCCGCTTATCAAGCGCTGCTTACTCAGCTTCATAACCAAAAAGACCAGGTTCGGTCTGTAAGCTTCCCAACGTTTGACGAAGATTTCAGTTTTACACTCGATAACCCTGTCCACGTGGAGAACCGATTGATCCATTCCATTTATCATAAGACCGCCGAGCAGGGACGTGGTCTGATGTACCGGATCATCGATATCCCGGCGTTCCTTGAATCTGTTAAACACCATACGTTCGGCAGAGATACCATCCGGATAGGGTGGACTGTGAAAGACAGCCTGCTTGGGGAAACCTACAAAGAGGTGTGGCAGTTTGCAGCCGGACGACCATCTGTGTCGAAAGAAGAAGCAGAGGTGCAGATTGAACTTGATATAGGTTCCTTTTCTTCCTTAATGATGGGGTGTGTTTCATTACCTGCACTCGAAAAAGCCGGAAAAGCAAATGTATCGAAGCCGGTGGATCTGTTCAATCAACTGGAAAAACCGCAGTGCTGGACCTTTTTCTAA	MEFKELKDFEAFTGLSHRCYPGMKLTSAEDQERYTEHRRKMAGHKDVHPVGLYDGGSLVGGYFAYDHKIQVYDTKVKGAGIGTVAVDLPYKKQGHAKRIITKFLLDARKNGRILAHLYPFQPGFYQKMGFGIGPELSVYQFHPSQLPNFETTLDVQVLTRDHTDDVRTCYHTWVDQTHGATDIPSYGFAFLEKPEQHTIGVQKEGKLEGYMSFEFKAGSHFLENDLHVRNFFYTTKAAYQALLTQLHNQKDQVRSVSFPTFDEDFSFTLDNPVHVENRLIHSIYHKTAEQGRGLMYRIIDIPAFLESVKHHTFGRDTIRIGWTVKDSLLGETYKEVWQFAAGRPSVSKEEAEVQIELDIGSFSSLMMGCVSLPALEKAGKANVSKPVDLFNQLEKPQCWTFF				NA	NA	NA	NA	NA
AK012_02719	855		COG1834	N(G),N(G)-dimethylarginine dimethylaminohydrolase	GTGAAAGATACGGCTGCTAAAACAGAATTGAACTGCTCCTCTGAATACGGGAAGCTGCTGGATGTTCTCGTCTCGGAGCCCCGTCATATGAGAATCGAAGCCAAAATCAATGAAACGCAGAAACATTTTGAGGAAATTGAGACGAATATCGCCTTACAGCAGCACCGGGATTTTGTTCATCTTCTAAAGGAAGAAGGGGTTAACGTTCACCAGCTTCCTTCTAAATCTCACCTCCATGAACAAGTCTTCACCCGGGATATTGGATTTGTTATCGGAAACCGGTTTTACATCAGTCAAATGAAAGAAGAAGTGCGCAAAGGTGAATCCAAGGAGTTAGCGGAGTGGTTGAAAGGTATGGAGACCTATACCTTCCAGTCCCCGATAGAAGGTGGAGACGTCCTTGTTGATCGAAACACGATATGGGTCGGATACAGTGGACGGACTTCGATGGAAGCCATTCAGGAACTCAAACAACAGGAGCCGGAGAAGGACATACACCCCCTCCCCCTCGCAGATGGTGTCCTTCATCTTGATTGTGTATTGAACATTCTGGATGCTCATACGGCTCTGGCATTTCCGGAGGCGTTCACAGAAGAGGGCTGGCAGATGATTCAAAACCGATTCCGGGTGATTCCTGTTACAAAGGATGAAACATTCCATATGGGTCCGAACGTCCTTTCCATCGGCTTAAACAAAGTGATCAGCCTCTCCCGGCACACCCGTTTGAACAAGAAACTGGAAGCAGAAGGATTCACAGTGCTTCCTGTTGATTTTTCAGAGATCATTAAATCAGGCGGGGCTTTCCGCTGCTGCACTCTTCCTCTGCATCGGAATGATCCCAGAGACCATATGTAG	MKDTAAKTELNCSSEYGKLLDVLVSEPRHMRIEAKINETQKHFEEIETNIALQQHRDFVHLLKEEGVNVHQLPSKSHLHEQVFTRDIGFVIGNRFYISQMKEEVRKGESKELAEWLKGMETYTFQSPIEGGDVLVDRNTIWVGYSGRTSMEAIQELKQQEPEKDIHPLPLADGVLHLDCVLNILDAHTALAFPEAFTEEGWQMIQNRFRVIPVTKDETFHMGPNVLSIGLNKVISLSRHTRLNKKLEAEGFTVLPVDFSEIIKSGGAFRCCTLPLHRNDPRDHM	PGPT0014323_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014323-ykgA-NA	NA	NA
AK012_02720	1155			hypothetical protein	ATGGATACACAGCAGTACTTCAGTAAAACGTATCAGGAGTCCCGCGAACGTTTCCGCGGTCTGCTTCCCCAGGTAAAAGAGTTGTGGCCGGAGGCCGCCCTCCATACCGAAAGCATCGGGAATGAGGAAGACTTAACCATCGATTTCATCTATGCCGATGCCCGCGTGTCCAATGATCAGGTCATGTTCATGACAACAGGGGAGCACGGCATTGAAGGGTATGCAGGAGCGGCTGTTGTAAAAATGTTCGTAGAAAACCACAGCCACGCCGTAGATGCTGATTACACAGGCCTCTGTCTTGTTCACAGCATCAATCCGTGGGGGATGAAGCACTTCCGGCGTGTCACAGGGAACAATGTGGACTTGAATCGGAACTACATTTATAAGACTGAACACGTACCTGAGGATTTGAACACAAACTATCGTGATGCCAGCCGTCTTTTTCAGCCGAATGGGAGCCTGAAGGAAATCCCAAGAGAAAAGACAGCGCTCTATGAATATTTGACGAAAGGGATGGCCGAACAAGGGTATAAGGCGGTCAAGACCGCCAAAGGCATGGGACAATATGAGTTTGAAAAAGGCGTTTATTATGGAGGAAAAGAGGAAGAACGTTCTGCTTCCATTATGAAATCATGGCAGAGAAAGATGCTGAGTAAATACAGTCGCGTTATTCATATGGACTGGCACACAGCTCTTGGACCAACCAATGAAGTGACGATGGTCATCTCCGATCATGAAGAACGGAATGTAGACACGCTTCGAAACGATTACCATATGGAGAACGTAGAAAAATTCAGCCCTTCAAAAGTCAAAGGGGATTCAACCAATCATTTTTATGAACTGCAGCAACATGAGTTTCCTGACCGTTGTCTTTTATCAGCCCTGTTCGAGTTCGGCACATTCGGAACGGACCGCGAGGCAGAGCTGAGAGAATTCACGACCATCATTCTGGAAAATGAACTGTATTGGGAAGGAGCAGAGCGTGAAGAAGACCGGCGCTGGATCCTGCAGGAACTTCGGAATATGTTCTACCCCGTCGAACAGGAGTGGCGGGAATCTGTCCTCACAGAGGCGGAAAAAGTGATTGTTTCCGTGATGAAGCATGAAAACATGTTAAAGGATGCATCAGCGGTGAGTTCTATTAGAAAAGCCTGA	MDTQQYFSKTYQESRERFRGLLPQVKELWPEAALHTESIGNEEDLTIDFIYADARVSNDQVMFMTTGEHGIEGYAGAAVVKMFVENHSHAVDADYTGLCLVHSINPWGMKHFRRVTGNNVDLNRNYIYKTEHVPEDLNTNYRDASRLFQPNGSLKEIPREKTALYEYLTKGMAEQGYKAVKTAKGMGQYEFEKGVYYGGKEEERSASIMKSWQRKMLSKYSRVIHMDWHTALGPTNEVTMVISDHEERNVDTLRNDYHMENVEKFSPSKVKGDSTNHFYELQQHEFPDRCLLSALFEFGTFGTDREAELREFTTIILENELYWEGAEREEDRRWILQELRNMFYPVEQEWRESVLTEAEKVIVSVMKHENMLKDASAVSSIRKA				NA	NA	NA	NA	NA
AK012_02721	852			hypothetical protein	ATGACATTCCAAAGAGAACTTAAGGAAAAATGGAGAGTCGAATATACTGAAATGAAGTTCCCGGCCATTCAGAAAGGATGGGTGCTTCCTGTAGAACGATGGCGTGAACTCGATCCATTCATTCTGATGGCGGAAGACTGGTTTAAAAAGGGCACGTTCCCTGATCATCCCCATAGAGGCTTTCAAACTGTCACGTACGTCGTGGATGGCCGGCTTGAGCACATAGACAACGCAGGCGGCCGGGAGATTCTTGAACCCGGAGATGTCCAGTACATGAATGCCGGATGGGCCGCCCGTCACGCAGAAGACGGAGTGGAAAATGATATTGCCCATACACTGCAGTTATGGTTGAACCTTCCGAAGGATAAAAAGAATTCCAGCACGGTGTACCAGAATGTGTGTCAGGAAGACGTCCCGGTTGTTCCTTTTGAAGGAGGACGTTTGAAAGTGTTCTCCGGTCATACCGCTGGGGTGGCCGGACCTCTGGATTCCATCGTTCCGATTACATTAACGGAATGGACGATGGGAGAAGGGAGTTCTTATACGATCCATCTTCCTGGAAACCATAATGCTTTCCTTTATATGCTGGCCGGGGAGGCGGAAATCGGGACTGAAAAACAGACAATGAGAAAACACGAGGCTGGGCTGCTGACTTTCCGTGAAACAGGGGAAGGGGAAAGCACTCTGACAATTCGGTCCAAAAAACGCCGGACGAAGGTGCTCGTTTATTCTGGACAACCGATTGGCGAGGAAATCGTCCCCTATGGTCCATTCGTGATGAATTCCATGGAGGAGATCCAGCAGGCCTTTGAAGATTTCCGGAACGGGAAGTTCGGACCTCCAGCTGTGTAA	MTFQRELKEKWRVEYTEMKFPAIQKGWVLPVERWRELDPFILMAEDWFKKGTFPDHPHRGFQTVTYVVDGRLEHIDNAGGREILEPGDVQYMNAGWAARHAEDGVENDIAHTLQLWLNLPKDKKNSSTVYQNVCQEDVPVVPFEGGRLKVFSGHTAGVAGPLDSIVPITLTEWTMGEGSSYTIHLPGNHNAFLYMLAGEAEIGTEKQTMRKHEAGLLTFRETGEGESTLTIRSKKRRTKVLVYSGQPIGEEIVPYGPFVMNSMEEIQQAFEDFRNGKFGPPAV	PGPT0019980_3285	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_FLAVONOID_UTILIZATION	PLANT_DERIVED_QUERCETIN_DEGRADATION,PGPT0019980-yhhW|pirA-K06911	NA	NA
AK012_02722	429	ohrR_2		Organic hydroperoxide resistance transcriptional regulator	ATGAATTTACGCGTAGAGGATTACATCAGCATTAAGCTCCACCAGACAGACTTGAAGCTGACCAGTGAGATCAAATCGCGTCTCCAGCCCTACAACCTTGCTCCTGAACAGAATTTAGTCATGATGTTGTTATGGGAAAAGGATGGCTTGACGCAGAACCAGTTGTCTGAAAAGCTGGGCAAAGACAAAACCAATATTGCCAGAATGGTCGTCAACCTCGAAGGAAAAGGCTTTATTGAACGGAAATTCTGTCCGAACGACCGCCGTTCCCTTGAAGTGTACCTGACCGAAAGCGGACGGAAACTGAAAGAAGAAGTGGTCCCTGTTTCCGAAGCGTTCAACGCGGATGTGACGGAGGGGCTGAGTAAGCAGGATTTAGAACATCTGGATCAAGTGCTGACGAAAATCCTGAACAATATAAAAGGGTAA	MNLRVEDYISIKLHQTDLKLTSEIKSRLQPYNLAPEQNLVMMLLWEKDGLTQNQLSEKLGKDKTNIARMVVNLEGKGFIERKFCPNDRRSLEVYLTESGRKLKEEVVPVSEAFNADVTEGLSKQDLEHLDQVLTKILNNIKG	PGPT0013155_4790	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013155-ohrR-K23775	NA	NA
AK012_02723	546			hypothetical protein	ATGAAGCGATGGATCAGCTACAGCTTTTTTCTTCTCTTGATCATCATGGGCGGCTGTTCCTCTGTCCAGGGAGCCGTCGACAACACGTATCCCCTCGAAGACATCGTGTATGATGACAGGGAAAACAAATCGGAAATCTACCGGGCTTCCAATCAGACGGTGGATACAGTCGCCGATCAGATCATGGATACCAACGAGCCGATGTACGAGGCCTCGAAGAACGGCCGTCACCTTATGATTTACGATGATCTGCTCGTACAGGTTTTTGAAGATCCAAAAGACGCCAATGATTCTCTCGTTGAAATGTCCGGTGAAGAATTTGTACGAAACAACTATTCCACCGCTTTCTTTTCTGATTACGGCATTGCCCGTGAGGCCGAAGAGGAGTTTGACATGGATTTTGAATCCAGAGGTGGAGGATTCATTTACACCGGGTATATTCTCGGCGGCGGTTATGTAAAAAACAGTGGAAAACTTCCGACCCTGAGGTACTCCTCTGATTCACCAGGGGGGATACGCGGCGGAGGACCAGGAACAGGAAAATAA	MKRWISYSFFLLLIIMGGCSSVQGAVDNTYPLEDIVYDDRENKSEIYRASNQTVDTVADQIMDTNEPMYEASKNGRHLMIYDDLLVQVFEDPKDANDSLVEMSGEEFVRNNYSTAFFSDYGIAREAEEEFDMDFESRGGGFIYTGYILGGGYVKNSGKLPTLRYSSDSPGGIRGGGPGTGK				NA	NA	NA	NA	NA
AK012_02724	423			hypothetical protein	ATGTTTGCCTTCGAATTTTCAGAGATCCTTGATGCCACAGAGCTGCTGCTTACCCTCGTCTACTGGGTGCTCATGCTTGTTATTGCCGGAATCTGCATGGCCGTTTTTGAAAAATTCACCCCTTACGATGACCGCAAGGAGCTGCTGAATGGAAATGTAGCTGTCGGTACACAGTTTGCTGGTAAATTGATCGGCCTTGGTATCATTACTCAAGCGTCCATTGCCCACAACTTGAGCATCTGGGGCGCAGCCATTTGGATTTTGATCGGCTTTGTATTAATGATTGCCGGGTACTATCTCTTTGAACTGGTCACCCCTTTCAAAGCTGAAGACGAAATCCGCAAAAACAATACAGCTGTCGCTATTGTTGCTGCTGCTGTAAGTATTTTTATCGGCTTTGCCGTGGCCGGCAGCATTACGTAA	MFAFEFSEILDATELLLTLVYWVLMLVIAGICMAVFEKFTPYDDRKELLNGNVAVGTQFAGKLIGLGIITQASIAHNLSIWGAAIWILIGFVLMIAGYYLFELVTPFKAEDEIRKNNTAVAIVAAAVSIFIGFAVAGSIT				NA	NA	NA	NA	NA
AK012_02725	1536	speE_2		Polyamine aminopropyltransferase	ATGAACGCCCAGAGATACTTATACTTATCATCAGGAATTGTCTCCATCTGTGGCATTGTCTTTCAAGTTCTCTACGGGGCGGCTGGAAGTTATTTGTTCGGAGACAGCGTTCTTTACTACTGCATTACCATCGGTCTTTTTTTAATGGCCATGGGAATCGGCGCGGCCGTTAGTGAGCGCTTGAAAAACTGGCTCGTGACCCGGTTCGTACAGGCTGAGTTTCTAATTGCCATCATTGGCGGCTTTTCCGTATTCGGTCTTTTCTTTTTCTCTTCCTTTTTCGACCAGGGAACCGCACAGGTCTATTTGTATATCGTCATTTCCCTTACCGGTTTCCTGACCGGACTGGAACTGCCGATCTTAATCAGGCGGGTGCAGGAGATCCGGGCGGATATCAGCAAAAGCACGGCCCGTGTCCTGTTCTTTGACTATGCAGGAAGTTTGATCGGATCCATCGGGTTCGCCCTTCTTTTGAGGCCTGCACTGGGATTGATCAAGACAGCCTTTTTAGTAGCCGCAATCAACGCTGTGATCGCTTTGTTCCTTACGTTTTATTTTCAAAAGGAAATCCGCCGCCCGGCTCTTCATAAGCTGAGCGGTGTTCTTATTCTGCTTCTGCTTGGATGGGGCTTTCTTTACGGTGAAAAATACGCCGCAGCCTTTGAGCAGAGGGTGTATGCCGATCCGGTCATCCATGCCGAGGATACACAATATCAGCGGATCATCCTGACCAAGGAACCGAATGATGTACGTCTTTACTTGAATGGACAGCTGCAGTTCTCAGAAAGTGACGAGTACCGCTACCATGAAGCCCTTGTCCATATCCCAATGGCTCTCGCCGAGCAGAAAAGGAACATCCTGATCCTCGGAGGAGGGGATGGTCTTGCTGTCCGTGAAGTATTAAAGCATGACCAGGTGGAAAACATCACGCTCGTAGACCTGGATCCGGCGATGACGGACCTTGCCAATACGCATCACGAGCTGCTCCGTCTAAATGAAGGTGCCCTTAAGGATGACCGTGTGAAAATCGTTCATGACGATGCCTTTCAATACTTACAGGAAAATGAAGCCTTCTATGATGTCATTATCGGCGATCTTCCCGACCCGAACAATGAAGGGCTGAATAAACTGTATACTGAACAATTTTATTCGCTCGTCCGGAACCATCTTGCCCCCGGCGGGAAAATCAGCATGCAGTCGACAAGTCCGGTTTTTGCCCCCAAAGTATTCTGGACGATCCACGAAACGATGAAGGAAACAGGGCTGTTTACAGACAGCTATCACCTGGATGTACCCAGTTTCGGAAACTGGGGGTTCACACTGGCCTCACGGGAAGCCATCGATCTCGACAATCTGCAGGTCTCAGATGACCTTTCCTTTTTGAACGAAGAGACAGCGCGTGCCTTATTCGCGTTCGGAAATGATACCGACGCTGTCATTGAGGAAGAGGACGGAGACACCTTTGATATCCCCGTCAATACGTTGAACCGCCCGGTCCTCATCCAGTTGTATCAAAAAGCGTGGCAGGACTATTGA	MNAQRYLYLSSGIVSICGIVFQVLYGAAGSYLFGDSVLYYCITIGLFLMAMGIGAAVSERLKNWLVTRFVQAEFLIAIIGGFSVFGLFFFSSFFDQGTAQVYLYIVISLTGFLTGLELPILIRRVQEIRADISKSTARVLFFDYAGSLIGSIGFALLLRPALGLIKTAFLVAAINAVIALFLTFYFQKEIRRPALHKLSGVLILLLLGWGFLYGEKYAAAFEQRVYADPVIHAEDTQYQRIILTKEPNDVRLYLNGQLQFSESDEYRYHEALVHIPMALAEQKRNILILGGGDGLAVREVLKHDQVENITLVDLDPAMTDLANTHHELLRLNEGALKDDRVKIVHDDAFQYLQENEAFYDVIIGDLPDPNNEGLNKLYTEQFYSLVRNHLAPGGKISMQSTSPVFAPKVFWTIHETMKETGLFTDSYHLDVPSFGNWGFTLASREAIDLDNLQVSDDLSFLNEETARALFAFGNDTDAVIEEEDGDTFDIPVNTLNRPVLIQLYQKAWQDY	PGPT0007750_652	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
AK012_02726	408			hypothetical protein	ATGACACATACAGTTGAGATTACAGGTGTGGAAGACTGCGGAAATGCTCCTAAGAAGCAATGGTTGAAGTCGTTTAACGAAGCTTTTGCGACAGGGGACACCACTTATATTCTGGACCAGGTGGCTGATGATGTGACATGGAGGATCATCGGGGAATCTTATACGATCCAAGGGAAAACGGCATTTGCTGAAGAATTGAAGGCCATGACGGAATACAAAGTCAGCGGGCTGCATTTTGATCAGATCATCACGCACGGAAGCACCGGTTCCGCGAATGGGACGATCCTTATGCAGAATGGCCGGAAGTATGGCTTCTGTGATGTTTATCTTTTTACAGGGGCTGGGAAGAAGGCTCGGCTGAAGGAGATTACCTCCTATGTAATCCTGCTCCCATCGAACTCCAGCTGA	MTHTVEITGVEDCGNAPKKQWLKSFNEAFATGDTTYILDQVADDVTWRIIGESYTIQGKTAFAEELKAMTEYKVSGLHFDQIITHGSTGSANGTILMQNGRKYGFCDVYLFTGAGKKARLKEITSYVILLPSNSS				NA	NA	NA	NA	NA
AK012_02727	606	srtD_2	COG3764	Sortase D	ATGATTCAAAAGCTGGGCGTTGTCGTATTGCTGCTGGGACTGGTGCTTATATTCTGGAATGGATTTAACTGGTGGTCGGAGAGCCGTGTAGCTGTTTATGATGCAGAGATGCAGGAATCTGCTTACTCGCTGGAGAGTAAACAGCCTGAATCGGCTGACTTCGTAGCTGCCGAAACCGTTGAAGGCTATCAGGAAGGCGATCGGGTTGGAGAGCTTACGATTCCCAAACTTGGACGCAGGTATCCTGTCTTCTTCGGGACTGAGGACACGACGCTGAAAGAAGGCGTCGGACTATATGATACATCGTATACGACCCTTCCATCTGAGCAAGGGCACACCGCTCTTGCCGGCCATAGGGAAACGATGTTTCGTGGTTTGGACGATCTTGTTCCCGGAGATTTTCTCTATGTGACGGAAGGATATTATGAGTATGAGTATCAGATTAACCGCACGTGGGTGACGGATAAGGCGGATACGTCCGTCATTGCAAAAACGGTCGGCCCCACATTAACCTTAACGACGTGCTACCCTTTTGACTTCATCGGCCCGGCTCCTGAACGCTTGATCGTGCAGGCTGAGTTTGTAAAAAAACAAAAACTGCCTTAA	MIQKLGVVVLLLGLVLIFWNGFNWWSESRVAVYDAEMQESAYSLESKQPESADFVAAETVEGYQEGDRVGELTIPKLGRRYPVFFGTEDTTLKEGVGLYDTSYTTLPSEQGHTALAGHRETMFRGLDDLVPGDFLYVTEGYYEYEYQINRTWVTDKADTSVIAKTVGPTLTLTTCYPFDFIGPAPERLIVQAEFVKKQKLP	PGPT0024075_2052	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
AK012_02728	1512	phoB	COG1785	Alkaline phosphatase 3	TTGAAAAAGCAGCTCGCAAAGAAAGTGCTGTCGGTGACAGCGTTGTCCTGCCTGTTTTTTGGAAGTGCCGATGATCCATCTTTCATAAGTGCAGCTGACCACAGCAAAGGAGTCAAAAACATTATATTCATGATTGGTGACGGCATGGGTCCGGAATATACAACGGGTTACCGTTACTATAAAGACGATCCGGAGACCAAGGATATGGAACCGACGGCTTTTGACACCTATCTTGCAGGGATGCAGTCCGTATATTCCCATGACTCTTATCACGAAGGCGGGGAAGAGGAAGAAAAGGAAAATATCACTGATTCCGCTGCTGCTGGTACAGCCTTGTCTTCCGGGATCAAGACGTACAACGGTGCGATTGCGAAAGACCTGAACAAAGAGGATACGAAGACAGTACTGGAGGCGGCTAAGGAAAAAGGGATGTCCACAGGGCTCGTTGTTACTGCCCAGGTGAATCATGCTACACCTGCAGCTTACGGAGCTCATAACGAATCCCGTCAGAACTATGATGCCATTGCGGATGCTTATTTCGATGATCAGATTGACGGGGAGCATAAGGTTGATGTGCTTCTCGGTGGAGGAACTGATTATTTTATACGTGATGACCGGGATCTGACGAAGGAATTCCAACAAGACGGTTATGATTATGTGACCACAACAGAAGAAATGGCGGACTCAGACGGCGGTCAGGTTCTTGGATTGTTTGCGCCGGGCGGATTGGATAAAGCCATCGACCGCCCGGAAGAACAGCCTTCCCTCGCGGCTATGACGGAAACTGCGATTGAAAAGCTGAAAAGCAATGAGGAAGGCTTTTTCCTTATGGTGGAAGGAAGCCAGATTGACTGGGCTGGTCATGACAATGATGTCGTAGCTGCTATGAGTGAGATAGAAGATTTTGAGGGAGCCTTTGAGAAAGTGCTGGCTTTTGCAGGAGAGGATGGCAGAACGCTCGTCGTCACAACCGCTGATCATTCGACAGGCGGTTTTTCCCTTGGAGAAGGAGGCCCTTATCAATGGGATCCGGATGTCATTCGTGCTGCTTCCCATACTCCGGATTACATGGCCGGTCAGATTGTGGAAGAAGGAGCTGACGTAAAGAGGACCCTGACGGATGCCATCGACTTTGAATTGACGGAAGAAGAAATCGCGTCTGTTCAGGAAGCTGTGAATAAAGGGAACGAAGAGGAGTCATTCGCCGCGGTCGACAATGCGATTGAAGCCATCTTCAATAAGCGCTCCGGAACAGGATGGACGACTGACGGACATACGGGGGTCGATGTCCCTGTATATGCTTACGGCCCAGCCTCTGAACGCTTTTCCGGATTTATGGATAATACGGACAACGCTGAAATTATTTTTGAACTGCTGAATGGTTCAGAAGGTGAAGAAGGGGCTCCGCTCGCCGATACAGCCACTTCCTATCCGCTTGGGATGCTCATGGGGGCCATTGTTACTGGAGCGGGTGTGATTCTTTTTATGAGAAGAAAACAGGTGAAAGCGTAA	MKKQLAKKVLSVTALSCLFFGSADDPSFISAADHSKGVKNIIFMIGDGMGPEYTTGYRYYKDDPETKDMEPTAFDTYLAGMQSVYSHDSYHEGGEEEEKENITDSAAAGTALSSGIKTYNGAIAKDLNKEDTKTVLEAAKEKGMSTGLVVTAQVNHATPAAYGAHNESRQNYDAIADAYFDDQIDGEHKVDVLLGGGTDYFIRDDRDLTKEFQQDGYDYVTTTEEMADSDGGQVLGLFAPGGLDKAIDRPEEQPSLAAMTETAIEKLKSNEEGFFLMVEGSQIDWAGHDNDVVAAMSEIEDFEGAFEKVLAFAGEDGRTLVVTTADHSTGGFSLGEGGPYQWDPDVIRAASHTPDYMAGQIVEEGADVKRTLTDAIDFELTEEEIASVQEAVNKGNEEESFAAVDNAIEAIFNKRSGTGWTTDGHTGVDVPVYAYGPASERFSGFMDNTDNAEIIFELLNGSEGEEGAPLADTATSYPLGMLMGAIVTGAGVILFMRRKQVKA	PGPT0002570_1425	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
AK012_02729	180			hypothetical protein	ATGAAGCTCACGCATTTTCTACTCTTGACTATTTTTATTATGCAGGGGATATCCCTTGTAAATGTAACCCTTATGGATAACAACTGGAATGGTTTGATGCTCTGGGTCAACACCAGTGTGCTTATCGCTGCAACCGCTTTAACGGTGAAACCGGTGGATTCCATCCATGAAGATCATTAA	MKLTHFLLLTIFIMQGISLVNVTLMDNNWNGLMLWVNTSVLIAATALTVKPVDSIHEDH				NA	NA	NA	NA	NA
AK012_02730	798			hypothetical protein	ATGCTGCAGAACAGCATCGCTTCCAAAGCGTCAGCGGCTCATTTGTATCAACGGCTTTTTCCATATGCTCCGGCTGCTGATCAGCCGGCCATCAGGCAGGCGTTTGAGAAAGAATCGGCCATGTTGCATGAGCAGTCTCTCCTTTATACACAGGTGACAGGAAAGCAGCCATCTTTCCAGGCTGCACCGCCATCCTTCAGCTCCTATCAGGACGGCCTGCAGAAAGCCTATGAAATGAAACTCGATCATTATAATTATGATCAGCAGGCGTACCGGTCACTTCAGGGGTCTTCTTGTCAGTCGTGTTTTCAGCGCGCATGTCAGAGTAATGCCGATGAAGCGGGTCAATGGTACGAACTGCTGAACCGCCAGGAAAATCCAGCATCGACGATGGATTTCGGGGGCCGGCCGTTTGTGTTGGATATCGAAAAAGCGACGGTAAATAATGATACCTTCCGCACAGCCGTATGGACGGGAGATCATCTGCAGGTCACCCTGATGAGTATTGGTGTCGGTGAGGATATCGGCCTGGAGATTCATCCGGATGTCGATCAGTTTCTCCGTCTGGAGCAGGGGCGTGGACGGGTGCAGATAGGACCTGAAAAGGATCAGCTTACATTTGAAAGGGAAGTTTCGGATGATTATGCCATCATGATTCCTGCAGGGGTTTGGCATAACGTAACCAACACAGGGGATGTTCCTATGAAGCTGTATTCGATTTATGCTCCTCCTGAACATCCATTCGGCACGGTTCATAATACAAAGGCCGACGCGCTGGCTGCGGAAGCTGAAGAGTAA	MLQNSIASKASAAHLYQRLFPYAPAADQPAIRQAFEKESAMLHEQSLLYTQVTGKQPSFQAAPPSFSSYQDGLQKAYEMKLDHYNYDQQAYRSLQGSSCQSCFQRACQSNADEAGQWYELLNRQENPASTMDFGGRPFVLDIEKATVNNDTFRTAVWTGDHLQVTLMSIGVGEDIGLEIHPDVDQFLRLEQGRGRVQIGPEKDQLTFEREVSDDYAIMIPAGVWHNVTNTGDVPMKLYSIYAPPEHPFGTVHNTKADALAAEAEE				NA	NA	NA	NA	NA
AK012_02731	1524	selO	COG0397	Protein adenylyltransferase SelO	ATGCAAGATCCTCAGCATGAAGGGAAGAATTATGTTAGGGTTAACGATAACACTATTACCAGTAAAGGAGATTCCATGACACAGACAGGATGGAACTTAAAGCACAGCTATCAGCTGCTACCGGAACATTTTTATGCCAAAGTAGAACCGACACCAGTAAAAGCCCCGGCCTATGCTGTTTTCAACGGCGATCTGGCTGCTGAACTCGGTCTGCCGGATGATTTGAAGCACCACCCGGAATTATTGAGTGGGAACGAGCTGCCGGAGGGGGCGGACCCTGTAGCTCAGGCCTATGCCGGTCATCAGTTCGGTCAATTTACGATGCTCGGGGACGGCCGGGCCGTCCTTATCGGTGAACAGGTCACCAACAAGGGAAGACGTTTTGATATTCAATTGAAGGGCTCCGGCCGTACACCTTTTTCAAGACGGGGGGATGGCCGCGCAGGACTTGCCCCTATGCTGAGGGAATATGTGATCAGCGAAGCGATGTATGGGCTCGGTATACCGACGAACCGGACCCTGGCTGTAACGACAACCGGGGAACACATTCGGAGGGAAATTGAAATTCCCGGAGCTGTCTTAACGCGTGTCTCCAGCAGTCACCTCCGTGTGGGCACATTCCAGTATGCCGCCGGCCTGGGTGACGTGGATGCGCTCCGCCTGCTGGCCGACTACGCCGTTCAGCGCCACTATCCTGAAGCTGCGGGAGAAGAAAAACGGTATGCCGCTTTTTACGAAAAGGTGGTTGAACAACAAGCGGCTCTGATTGCTCAATGGCAGCTGGTCGGGTTTATTCACGGTGTGATGAATACCGATAACATGTCCATCAGCGGAGAGACCTTCGATTACGGTCCGTGTGCCTTTATGGACGTTTATCACCCGGAAACAGTTTTCAGCTCCATCGATGCCAAGGGGCGTTACGCTTATCAAAACCAGCCGCCTATCGGCCAGTGGAACCTTGCCCGTCTGGCAGAAGCCTTGATCCCGATTTTGGATGAGGAGGAAGACGCTGCGCTAAAAACAGCTCAGGAGATTCTCGGCAGATACGGATCGTATTATCAGAAACACTGGGTAAACGGTATGAGGGAGAAGCTCGGCTTTTTAACAGAAGAAAACCAGGATGAAGCCCTGATGGATGATCTTTTGGATATGATGAAAAAGCAGGAAGCGGATTATACGAATACCTTCAGAGCTTTGACCCTTGACCGGCCCGAAGAACTGCCAATGTGGAATTCTGTAGCTTTTTCCAGCTGGTATGATCAATGGAAGAAACGTCTGGAACGCCAGGGCCAGCCGCTGGACCTCGCCTTCGCAAAAATGAAGCAGGCCAATCCTGCCATCATTCCCCGGAATCATAGAGTGGAAGAAGCATTGGAGGCGGTGATCCAGAATGATGACTATTCGGTGATGGAAAATCTTATGGAACAGTTGAAAAACCCTTACGATTATTCCGCTGCTCAGGAGCCTTACGCCCAACCTCCGGAGCCATCGGATCTTCCGTACCGGACGTATTGCGGTACATGA	MQDPQHEGKNYVRVNDNTITSKGDSMTQTGWNLKHSYQLLPEHFYAKVEPTPVKAPAYAVFNGDLAAELGLPDDLKHHPELLSGNELPEGADPVAQAYAGHQFGQFTMLGDGRAVLIGEQVTNKGRRFDIQLKGSGRTPFSRRGDGRAGLAPMLREYVISEAMYGLGIPTNRTLAVTTTGEHIRREIEIPGAVLTRVSSSHLRVGTFQYAAGLGDVDALRLLADYAVQRHYPEAAGEEKRYAAFYEKVVEQQAALIAQWQLVGFIHGVMNTDNMSISGETFDYGPCAFMDVYHPETVFSSIDAKGRYAYQNQPPIGQWNLARLAEALIPILDEEEDAALKTAQEILGRYGSYYQKHWVNGMREKLGFLTEENQDEALMDDLLDMMKKQEADYTNTFRALTLDRPEELPMWNSVAFSSWYDQWKKRLERQGQPLDLAFAKMKQANPAIIPRNHRVEEALEAVIQNDDYSVMENLMEQLKNPYDYSAAQEPYAQPPEPSDLPYRTYCGT				NA	NA	NA	NA	NA
AK012_02732	738	tcyC	COG1126	L-cystine import ATP-binding protein TcyC	ATGATTACAGTAAATAAATTGAATAAATATTTCGGTGATCTGCATGTGCTGAAAGATATTGATATGAACGTGAACCGCGGCGAAGTCGTTGTTGTGATCGGACCTTCGGGGTCTGGAAAAACAACCCTGCTGCGCTCCCTGAACATTTTGGAAACGCCGGAGTCTGGTGAAATCACCATTGGGGAGCGTTCACTCGATTTCGGACGCACCCATAAGAAAAAAGAAACGGTGGAGTTCCGGAAGCAGACGGGGATGGTGTTTCAAAACCATAACCTGTTTCCACACTTAACCGCTCTCCAGAACGTCATGGAAGGCCCTGTAACGGTTCAAAAAACGCCGAAAGCAGAAGCAAGGAAGAAAGCAGCGGACATTTTAGGCAAGGTTGGTCTTGGAGACAAACTGGATGTATATCCACACCAGTTATCCGGCGGCCAGCAGCAGCGCGTCGGCATCGCCCGGGCGCTGGCGACTGGAGTGGAAGTTATTTTGTTTGATGAGCCGACGTCAGCTCTCGACCCTGAGCTTGTGGCAGACGTTCTTGACGTTATGAAGGGGCTGGCGGAAGAAGGGATGACCATGGTCGTCGTCACCCATGAAATGAAGTTCGCCGAAGAGGTAGCAGACCGTGTGATTTTCATGGATCAGGGGACGATTGTCGAAGAGGGAACACCGGATGAGGTGTTTCATTCTACAAAAGAAGCCCGGACGCAGCAGTTTCTAAAGCGGATCGGACAATAG	MITVNKLNKYFGDLHVLKDIDMNVNRGEVVVVIGPSGSGKTTLLRSLNILETPESGEITIGERSLDFGRTHKKKETVEFRKQTGMVFQNHNLFPHLTALQNVMEGPVTVQKTPKAEARKKAADILGKVGLGDKLDVYPHQLSGGQQQRVGIARALATGVEVILFDEPTSALDPELVADVLDVMKGLAEEGMTMVVVTHEMKFAEEVADRVIFMDQGTIVEEGTPDEVFHSTKEARTQQFLKRIGQ	PGPT0020720_962	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
AK012_02733	708	tcyB	COG0765	L-cystine transport system permease protein TcyB	GTGAAGATGTATCTGAATAATCTATTCACCAACCCTGACATGCAGGAAAAATACCTGGACATTTTTACAAGCTCTTTTCTCCCTTTGGTGAAAGGGGCTTTGTATTATACGATTCCTTTGACACTGATCACTTTTGCTATTGGAATCGTGCTCGCTGTCATCACAGCATTGATGCGTTTGTCGAATGTGAAATTTTTCAGGGGAGTGGCCCGCGCGTATGTTTCCATCATCCGTGGAACCCCGCTCCTCGTGCAGTTATTCATTATCTTTTTCGGTCTTCCGTCTCTTGGTGTAACCATTAGTCCTTTTTATTCAGCCATCATCGGTTTTTCCCTGAACATGGGAGCGTATAATTCTGAGATCATCCGAGCGGCTATTCTATCGATTCCGAAAGGACAGTGGGAAGCTTCCCAGTCGATCGGGATGACGACAGCACAGGCGCTGAAGCGTGTCATTCTCCCTCAGGCGACACGGGTATCCATTCCGCCGCTGTCCAACTCATTTATCAGTCTGATCAAGGATACGTCCCTGGCTTCCACCATCACCTATACGGAAATGTTCCGGAAATCACAGGAGATTGCGGCTCAAAATTACGAGTTCCTGCTTGTGTATTCCGAAGCAGCCCTTATCTACTGGATGATTTGTGTGGCGCTTTCGTTCGTTCAGGATCGTGTTGAAAATAGAATGGAAAGATATGTCGCCAAGTAG	MKMYLNNLFTNPDMQEKYLDIFTSSFLPLVKGALYYTIPLTLITFAIGIVLAVITALMRLSNVKFFRGVARAYVSIIRGTPLLVQLFIIFFGLPSLGVTISPFYSAIIGFSLNMGAYNSEIIRAAILSIPKGQWEASQSIGMTTAQALKRVILPQATRVSIPPLSNSFISLIKDTSLASTITYTEMFRKSQEIAAQNYEFLLVYSEAALIYWMICVALSFVQDRVENRMERYVAK	PGPT0020715_305	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
AK012_02734	837	tcyA	COG0834	L-cystine-binding protein TcyA	ATGAAGAAATTAACATGGTTGTTTTCAATCGGTTTCCTGGTACTTGTTCTTGCTGCCTGCGGGACGAGTGAGGATGAAAGTCAAAGTGCCTCAGAAGGCGGGGAGTCTTCGGAAACAGAAACGAATGGTGATGAAAACCTTCTTGAAGAAATTAAAGCCAATGGAGAACTCGTCATTGGAACAGAAGGAACCTACCGCCCCTACACGTTCCATGATGATAATGATGAACTGACCGGTTTTGATGTGGAAATCGCCAGAGAAGTCGCCGATCGTCTCGGCGTAGAAGCTAAATTCAATGAAACGAAATGGGATTCCATGTTCGCAGGATTGAATGCCGGCCGTTTTGATATGGTGGCCAACCAGGTCGGAATTCGTGAAGACCGACAGGAGAAGTATGATTTCTCCAATCCTTATATTCAGACATCAGCTGTCGTGGTTACCAACGAAAACAATGATTCCATCCAGTCCTTTGAAGATCTCGATGGAGTCAATACTGCCCAGTCGCTGACAAGTAACTACCGTGATATAGCAGAAGCTAACAATGCTGAAATTACAGGTGTGGAAGGGTTTAACGAATCCATGCAGATGATTGCCAGCAACCGGATTGAAGCGACCGTCAATGACCGCCTGTCTGTTTTGGACTACATGCAGCAGCGCCCGGAAGCTCCAGTGAAGATTGCCGCGCGTGCGGATGAAGCTTCTGAGAGCGGTCTGTTGTTCAGAAAAGGAAACGAAGAACTTGTGGATGCTGTCAATAACGCCTTGAAAGAAATGAAGGAAGACGGCACATATCTTGAAATTTCTGAGAAGTGGTTTGGTGAAGATGTATCTGAATAA	MKKLTWLFSIGFLVLVLAACGTSEDESQSASEGGESSETETNGDENLLEEIKANGELVIGTEGTYRPYTFHDDNDELTGFDVEIAREVADRLGVEAKFNETKWDSMFAGLNAGRFDMVANQVGIREDRQEKYDFSNPYIQTSAVVVTNENNDSIQSFEDLDGVNTAQSLTSNYRDIAEANNAEITGVEGFNESMQMIASNRIEATVNDRLSVLDYMQQRPEAPVKIAARADEASESGLLFRKGNEELVDAVNNALKEMKEDGTYLEISEKWFGEDVSE	PGPT0015635_474	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
AK012_02735	1188	nhaG		Na(+)/H(+) antiporter NhaG	ATGTCCATCAACCAGACCATCCTGCTATTATTGATCGGTTATCTTATTTTTACACTGGACAAGAAGCAGGAAAACCTTCCTGTCCCGATGATCCTTGTGTTTATTGGTATCGGCTTGTCCTTTCTTCCATACTTTTCAACCATTGAGGTAACTGAGCATCTGATTTATCATGTGTTTCTTCCTGCTTTGTTGTTCGTCTCTGCTTACCGGTTCCCACCGGAAGGGTTCAAAAGAAACAGTCATTTGATTATCTTCCTCGCCACCATTGGAATCATATTAACAGTGGGGCTTCTTGGTGCAGCCATTTATGCGGTAAGCGGTCCTTTTCTTTCCTTGTCTTTGATCGGATCCATGGTGATGGCGGCTGTTTTGACACCGACAGATCCGGTTTCTGTCGTCTCGATTTTGAAGAACTCGACAAGTGATGAAAGGATGGCGGATGTCGTGGAAGGGGAATCCCTGTTAAATGACGGAACAAGCATCGTCATCTTTTCTGTACTGATGGGGATGTACACAGGGCATTCAGATGTTTCGCTGTTTTCATTTTTCGGGGAATTTTTACTCGTCTCTCTTGGAGGAGTGGGCCTTGGGGCGGCCTTTGGGTGGGTGATCAGCAAAGGAGTTCACTATACTCATAACCGCGAATACCAGGTCATGTTGAGTATCGTACTGGCTTATGGAATTTTTAATCTGGCGGAATATGTCGGAGTTTCCGGTGTGCTCGCTACAGTATCAGCCGGTTTACTGTTGTCTTTTGAATACGGGAAAACGATTAAGGAAGAGCACTTCAAAGAAACCCTCGATGGATTCTGGGGAGTTGTGGAGACATCAGCCCTTTCTTTACTGTTCCTTCTAATCGGTATTGAAGCAGCCGGCTACCTGGCTGCACCTCTATTAGGACTGGCGGTCATCGTTTTTCTCCTTTCCATCGTCGTCCGGTTTGTCGTCATTGCCGGTTCTACCCAGCTTTTTCCCCAATGGCGGAGGAAAATCAGCTGGCGGCATTCCGCTCTTTTGACATGGGCTGGTTTAAAAGGAACGATGTCCATTTTCCTTATTTTATCGTTTGAAGCGGAAGCGGATGGAGGCGGTTCCTTTACGGCTCTTGCCTTTGCTGTCGTCATCATATCGCTTGTCCTCCAGAGCGTCGGCGTTGCACCGATATCCAAAAGACTATTAAAATCATAA	MSINQTILLLLIGYLIFTLDKKQENLPVPMILVFIGIGLSFLPYFSTIEVTEHLIYHVFLPALLFVSAYRFPPEGFKRNSHLIIFLATIGIILTVGLLGAAIYAVSGPFLSLSLIGSMVMAAVLTPTDPVSVVSILKNSTSDERMADVVEGESLLNDGTSIVIFSVLMGMYTGHSDVSLFSFFGEFLLVSLGGVGLGAAFGWVISKGVHYTHNREYQVMLSIVLAYGIFNLAEYVGVSGVLATVSAGLLLSFEYGKTIKEEHFKETLDGFWGVVETSALSLLFLLIGIEAAGYLAAPLLGLAVIVFLLSIVVRFVVIAGSTQLFPQWRRKISWRHSALLTWAGLKGTMSIFLILSFEAEADGGGSFTALAFAVVIISLVLQSVGVAPISKRLLKS	PGPT0013930_1251	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013930-nhaK|TC_CPA1-K03316	NA	NA
AK012_02736	465			hypothetical protein	ATGAACAAAATGAACCGTGGAATTGCTACGGCACTTTCAGCGATCGGAATCGCTCAAGCATTGAAAATTGTGACACATAAACGTGTGCATGGGGTATGGGATGTGAAACAGGTGGCGACCACCGGGGGCATGCCAAGCTCCCATTCTGCCGGTGTAGCCGCGCTTGCATCCTATATTGCTGCAAATAAAGGATCCCGTCATACAGAAACGGCGCTGGCTGTTATTTTCGGCGTCATCGTGATGTACGATGCACAGGGAATCCGGAGACACACAGGAGAAATCGCCCAGCTGGTGAACGACCTCGAAGATAATGTGGCTCAGATTTCCGGTGATTTTCCGAGCCTTGAATTTGTCGAACGTGAAAAAGAGCTGAAAGAACTGCTTGGCCACCAGCCTGTGGAAGTACTTGGAGGAGCCCTTTTAGGGATTGCGCTCGGCTATACGTCCGCCCGAATAGAAGGGTAG	MNKMNRGIATALSAIGIAQALKIVTHKRVHGVWDVKQVATTGGMPSSHSAGVAALASYIAANKGSRHTETALAVIFGVIVMYDAQGIRRHTGEIAQLVNDLEDNVAQISGDFPSLEFVEREKELKELLGHQPVEVLGGALLGIALGYTSARIEG	PGPT0024535_377	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-OTHER_CELL_MEMBRANE_REMODELLING_PROTEINS	OTHER_INTEGRAL_MEMBRANE_REMODELLING__PROTEINS,PGPT0024535-yuiD-K09775	NA	NA
AK012_02737	987			hypothetical protein	ATGGCAGCCAATTCACACCTTTCTTCTGCCGAAATCGGGACGTTATGGATGACCTATCAGCAGAAGACCATGATCCTTAGGATGCTGGATTATTTTATTGAGAAAGCAGATGACCGGGAGGCAAAACAGATTATGGTCCATCTGCAGAAAGACATTGAACCCTACGCGGAGAAAATAGAAAAAATATTTGAAAAACACGGCCTTGAAGTGCCGTTAGGATTTACGAAGGACGATGTGACCAAAGAAGTTCCAAAGCTTTATGATAACGGGTTTGACATCATGTTCGTCCGTCTGGTGAAAGAAATCAGTATGGGCATGCATACGCTGAACCTGACCATGTCCTACCAGAAGGAGATTATTGAGATTTACCGCGAGCTTACTTACCTTACACAGAAGTATTATGAAAAGTGCACACAGTATCTGCTTGGAAGAGGGCTTCTTCCTCAGGCTCCTTATGTCTCCATCCAGAAACCGGTTGAGCATGTACAGGACAAGGATTATCTGAAGATGTTCAAACCGATCAAGGGAAAGCGTGCGCTGAATACAGTGGAGATGACCCATATACATCATGCGATTGAATCCAATGTGATCGGCATGCAGATGATTTACGGGTTTTCCCAGGTAGCCAAAGAACCTGAGGCGAGAGCCTATTTCCATGAAGGCGGCGACCTGGCTAAAGGAATCGTGAAGAAGCTGACGACGATCATGTTCGAAAATGATACGCCCGCCCCGATGACTCCGGGAGGGAATGTCACCCAGTCTCACCTCTCACCGTTTTCAGATAAAATGATGCTTTACTGCGTCAGCCTGTTCTGCAGCTTTTCTTTAGGAGGAAACTCCCTGGGCACAGCATTCAGTCTGCGGAATGACCTCCCAGCCAAATTGTCCCTATTTATGAAGGATATTTTTGAATATGCCCATAAAGGGGCAAAATTGATGATTAAACACGGTTGGATGGAAGAGCCTCCTCAGACAGAAAAACATTAA	MAANSHLSSAEIGTLWMTYQQKTMILRMLDYFIEKADDREAKQIMVHLQKDIEPYAEKIEKIFEKHGLEVPLGFTKDDVTKEVPKLYDNGFDIMFVRLVKEISMGMHTLNLTMSYQKEIIEIYRELTYLTQKYYEKCTQYLLGRGLLPQAPYVSIQKPVEHVQDKDYLKMFKPIKGKRALNTVEMTHIHHAIESNVIGMQMIYGFSQVAKEPEARAYFHEGGDLAKGIVKKLTTIMFENDTPAPMTPGGNVTQSHLSPFSDKMMLYCVSLFCSFSLGGNSLGTAFSLRNDLPAKLSLFMKDIFEYAHKGAKLMIKHGWMEEPPQTEKH				NA	NA	NA	NA	NA
AK012_02738	1338	csbC		putative metabolite transport protein CsbC	ATGAATCGTTCAATTAGCAAAGGGTGGATTTTCTTTTTCGGCGCCCTTGGTGGATTATTATATGGATATGATACCGGTGTCATTTCCGGAGCACTCTTATTCATCAGTGATGATATTCCCCTTACAGACTTTCTGGAAGGGCTTGTCGTCAGTTCACTGCTCGTTGGTGCCATTGTTGGTGCGGGGCTGAGCGGCTACGTTTCCGACCGGTTCGGACGAAGGAAAGTGGTCTTCACCATTGCGTTGATTTACATAGCCGGATCCTTTGTCCTTGCGTTTGCACCAAACGTTCCGTTCCTCGTCACAGGACGGGTCATACTCGGACTGGCGGTCGGCGGTTCAACAGCCATCGTACCGGTTTACTTATCCGAAATGGCTCCTACCGATTCCCGCGGGGCCCTTGGGTCATTGAACCAGTTGATGATTACCATTGGGATTGTCCTCGCATATCTCGTGAACTATGCCTTCGCACCTGTGGAAGGCTGGCGCTGGATGCTCGGGCTGGCGGCGGTTCCTGCCGTCGTACTTGCGGTCGGTGTCATGTTCATGCCGGAAAGCCCGAAATGGCTGCTCAAACAGAATCGGGAAAAAGAAGCCCGTAAGGTAATGGGATTGACCAGAGACGAGCAGGAAATTGAAAAAGAAATGGAACAGATGAAGAAAATTGAAGCGGAAAAAGAAGGGACATGGGATGTCCTGAAAGCGAAATGGGTCCGTCCTATGCTCCTTGTGGGAAGCGGAATCGCCATATTCCAGCAATTAATCGGCATTAACGCGGTCATTTATTATGCTCCCACAATCTTTACCGAAGCAGGACTGGCTGATTCAGCTTCGATTCTTGGAACCGTCGGAATCGGTGTATTGAACGTACTGATGACGCTCGTGGCTATTGCGACGATCGATAAACTCGGAAGGAAAAAGCTGCTGCTGATCGGGAACGCCGGCATGGTCACAAGTCTTGCCGTCCTGGCTGCCATCTTGTTTACAGCAGAGCTTACCACAGCCGTCGCCTGGCTGACCGTTGTTTTCCTTGGTTTGTTTATTATCTTCTTCTCTGCTACATGGGGACCGGTCGTCTGGGTTATGCTGCCCGAATTGTTCCCGACCAAAGCGAGAGGGGCTGCGACCGGTTTTACGACGCTGCTGTTATCCGCAGCCAACCTTGTCGTGTCTCTTTTCTTCCCTATCCTGCTTGGCGCCATCGGCACCGCCTGGGTTTTCGTATTGTTCGCTGTGATTGGTATACTGGCATTCCTATTCGTTTACACTTATGTACCAGAAACAAAAGGACGCAGCTTAGAGGAAATTGAGAACGACCTGCGGGGAACCACGAACTGA	MNRSISKGWIFFFGALGGLLYGYDTGVISGALLFISDDIPLTDFLEGLVVSSLLVGAIVGAGLSGYVSDRFGRRKVVFTIALIYIAGSFVLAFAPNVPFLVTGRVILGLAVGGSTAIVPVYLSEMAPTDSRGALGSLNQLMITIGIVLAYLVNYAFAPVEGWRWMLGLAAVPAVVLAVGVMFMPESPKWLLKQNREKEARKVMGLTRDEQEIEKEMEQMKKIEAEKEGTWDVLKAKWVRPMLLVGSGIAIFQQLIGINAVIYYAPTIFTEAGLADSASILGTVGIGVLNVLMTLVAIATIDKLGRKKLLLIGNAGMVTSLAVLAAILFTAELTTAVAWLTVVFLGLFIIFFSATWGPVVWVMLPELFPTKARGAATGFTTLLLSAANLVVSLFFPILLGAIGTAWVFVLFAVIGILAFLFVYTYVPETKGRSLEEIENDLRGTTN	PGPT0015023_37	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015023-csbC-NA	NA	NA
AK012_02739	1521	opuD_5	COG1292	Glycine betaine transporter OpuD	GTGAATAAACTGTCACCAATGTATTGGATTGCTTTAGCAATAGGAATTGTGTTTGTAAGCTGGGGAGCCATTTTCCCTGATCACCTTTTAAATACGATGATGACCATCCGGAACGGAATTCTTGACCGCTTTGGCTGGTTCTATCAATTCGCCGTCACCTTCATGCTCATTATTGCCTTCATCATTGCCTTCAGTAAATACGGGAAAATCAAACTTGGGAAAAAAGATGATAAACCCGAATACACTACACCGACCTGGTTCGCTATGCTGTTCAGTGCCGGTATGGGAATCACCCTTCTCTTCTACGGACTGACAGAACCAGTCACCCACTACGCCAACCCGCCTGTGGGAGATGCCCAGACGATCGAATCGGCGAAGCTTGGACTTGAAATCAGCTATCTGCACTATGGACTGCACGCCTGGGTCATTTATGCGATTGTTTCCCTCGTCTTAGCGTACTTTAAGTTTAAAAAAGATAAACCCGGTCTGATGAGTGCTACGCTTACTCCTCTGTTCGGTAACCGTATGAACGGCACAGCCGGTTATATTGTGGATATCATTGCTGTTTTCGCTACCATCTTCGGTGTTGCCATCTCTCTTGGTGTCGGCGCCCAGCAGATCAACAGCGGACTGGCGTACCTCTGGGGAGTACCAAACAACTACGGTGTTCAACTCATCATTATGGGTATTACGGCTGTACTGTTCATTTACTCCGCCGCATCCGGACTATCTAAAGGGATCAAGTACATCAGTAACATCAACTTGATTTTGACCGTTGTGCTGTTTGCAGCTTTCCTGCTGCTCGGACCGACAGGGTTTGTACTGGAAACGTATTCCACAACCCTTGGCAACTATATGCAGAACTTCGTTCAGATGGGTATGCGTTTCAGCCCGTTTGATGCGGAAAACAACCAATGGGTAAAAGACTGGACGATTTTCTACTGGGCCTGGTGGATTTCCTGGACACCATTCGTGAGTTCCTTTATTGCCCGTGTATCCAAAGGACGTACCGTACGTGAATTTATCGTAGCCGTTGTAATTGCACCTGCTCTTGTCTGTACTCTTTGGTTCGGCGTCTTCGGTGGAGCCGGTATCTACTTCGACTTTGTAGAAGGTGTCAACGTTGCCGGCCAGTCTATGGAATCTTCCTTGTTCTATGTCTTTGACCAGCTTCCATTCAGCGGTCTGCTTTCCTTTGTAGCGGTGATCCTGATCATGACGTTCTTCATCACATCCGGAGACTCCGCCACATTCGTCCTTGCGATGCAGACGTCCCGCGGAAGCTTGAACCCTCCATTCTTTATGAAATTGAGCTGGGGAATCATCCTGACAGCGATCGCCATGATCCTCATGGGGGCCGGAGGACTGGATGGTCTGCAGGCCGCAGCGATCATCAGCGGGTTCCCGTTAACGATTATACTGCTGTTGATGGTCGTCAGTCTGCTCAAGTCGTTTAGAGAAGAATTTAATGAAGCGGCTGGGTCTGATTCTGAAGAAGAACAAGATCAAAAGTCTGCTTAA	MNKLSPMYWIALAIGIVFVSWGAIFPDHLLNTMMTIRNGILDRFGWFYQFAVTFMLIIAFIIAFSKYGKIKLGKKDDKPEYTTPTWFAMLFSAGMGITLLFYGLTEPVTHYANPPVGDAQTIESAKLGLEISYLHYGLHAWVIYAIVSLVLAYFKFKKDKPGLMSATLTPLFGNRMNGTAGYIVDIIAVFATIFGVAISLGVGAQQINSGLAYLWGVPNNYGVQLIIMGITAVLFIYSAASGLSKGIKYISNINLILTVVLFAAFLLLGPTGFVLETYSTTLGNYMQNFVQMGMRFSPFDAENNQWVKDWTIFYWAWWISWTPFVSSFIARVSKGRTVREFIVAVVIAPALVCTLWFGVFGGAGIYFDFVEGVNVAGQSMESSLFYVFDQLPFSGLLSFVAVILIMTFFITSGDSATFVLAMQTSRGSLNPPFFMKLSWGIILTAIAMILMGAGGLDGLQAAAIISGFPLTIILLLMVVSLLKSFREEFNEAAGSDSEEEQDQKSA	PGPT0013600_1304	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK012_02740	1200			hypothetical protein	ATGATTTTCACACAAGCCCTTATACAAGAGCCTATGGCGGTCTTCGCCTATCTAATAGCCATCGTCGGCATTGTTTTCATGTTAGCGACGGTTGACTATGCACCACTGAAAAAATTCTTCGGCTATCTGCCGCCGTTGATCTGGATGTATTTTCTTCCGATGCTGTCGACGACATTCGGCATCATCCCGCAGAGTTCAGACCTTTACAGTTTCTTAAGTACTTATATGCTTCCAGCAGGTCTGCTGCTTCTTATGATCAGTACGAACGTTCCGGCCACTTTGAAACTCGGCGGAAAAGCGGTCCTCGTTTTCCTGGCAGGAACACTCGGCGTCGTCATCGGCGGTCCGGTTGCTTTCGCCCTGTTCCAAGGTGTGCTTCCTGATGAAGCATGGCGTGGAGTCGGAGCGCTGGCAGGAAGCTGGATCGGTGGTTCCGGAAACATGGGAGCGATGATGGCTGCCTTTGATACACCGGATGATATATTAAGTCCTATTATCTTGACGGATACACTCGTCGGAATCGGCTGGATGGGTGTCATGATTTCCCTGGCCAACTTCCAGGACCGTTTCAACAAATGGAACAAGGCTGATAACTCCACGATCAAACGAATCAATGAAGAGATTGCAACCGATGTGGAGCGCAATGCCAAGCCGCTTCAGCTGCCGCAGCTGTTCGGTATTCTTGCCATTGGATTTGCCGGTTCCTATCTGATCCGTTTATTTGCGGATTTGTCGTTCATACCAAAATCGGACGTCATGAATACATCGACTTGGACGTTCCTGATTATTACAGCTGTCGGTATTCTGCTTTCCTTTACGAAGGTCCGGAATCTTGAATACTATGGGGCCAGCAAGATAGGGTATATGGGGATCTATCTGTTCCTTACAGCCATCGGTGCCCAGGCGAACCTTGTCGATATCGTCCAGGCTCCTCAATTCATCCTGATGGGAATGGTATGGCTTGCGATACACGTCCTCTTTATTTTCATCGCCGCCCGTCTACTTCGTGCTCCGCTGTTCTTCGTAGCTGTCGGATCACAGGGGAACATTGGCGGAACCAGTTCTGCACCGATTGTAGCCTCCGTATTCCAGCCGGCCCTTGCGCCTGTCGGTCTTTTAATGGGGATACTGGGGAACGTCGTCGGAACATACGCCGCCCTTCTATGTGGACAGCTCGCCCAGTTGATCGCCGGGGGTTGA	MIFTQALIQEPMAVFAYLIAIVGIVFMLATVDYAPLKKFFGYLPPLIWMYFLPMLSTTFGIIPQSSDLYSFLSTYMLPAGLLLLMISTNVPATLKLGGKAVLVFLAGTLGVVIGGPVAFALFQGVLPDEAWRGVGALAGSWIGGSGNMGAMMAAFDTPDDILSPIILTDTLVGIGWMGVMISLANFQDRFNKWNKADNSTIKRINEEIATDVERNAKPLQLPQLFGILAIGFAGSYLIRLFADLSFIPKSDVMNTSTWTFLIITAVGILLSFTKVRNLEYYGASKIGYMGIYLFLTAIGAQANLVDIVQAPQFILMGMVWLAIHVLFIFIAARLLRAPLFFVAVGSQGNIGGTSSAPIVASVFQPALAPVGLLMGILGNVVGTYAALLCGQLAQLIAGG				NA	NA	NA	NA	NA
AK012_02741	462	isiB	COG0716	Flavodoxin	ATGGCACGAATTTTGATAGGTTTTGCCAGCATGTCCGGCAATACAGAGGAAATGGCTGATCTGATCAAGGAACGTCTGGACGGGGATCACGACATCCACTTGGATGAACTGGAGGAAATAGAGCCGGATTCCCTGGTGGATTACGACGCGGTCATCCTGGGTTCCTATACATGGAATGATGGGGATCTGCCTTATGAAGTGGAAGATTTTTATGAGGATCTGGAAGATATCGATCTGACGGGGAAAGGGATTGCTGTCTTTGGATCAGGAGATACCTCTTACCCACAGTTCTGTGAAGCTGTCCATACATTTGAAGAGCGGTTAACAGCCGTTGGTGGTGAACGGATGACTGGAGCTTGGAAAGTGGATATGAATCCAGATAATGAAGAGGATATCGAGCATCTCCAAAGATTTACAGATGAGGTTATGGAACACCTTGGGCATTTGATTCAATTGAAATAA	MARILIGFASMSGNTEEMADLIKERLDGDHDIHLDELEEIEPDSLVDYDAVILGSYTWNDGDLPYEVEDFYEDLEDIDLTGKGIAVFGSGDTSYPQFCEAVHTFEERLTAVGGERMTGAWKVDMNPDNEEDIEHLQRFTDEVMEHLGHLIQLK	PGPT0000020_1138	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000020-nifF|fldA|isiB-K03839	NA	NA
AK012_02742	384			hypothetical protein	ATGCAGGAATGCTTATTTGTTGTCAAATCCTTTACGTACGAAAAAGGAAGTCGCGAGTGCTCTTGTCATCAAACGATCCGGTTTGAAAAGGGAGATCGTTTACATATTGTTCAGAATCCATACGCTGTAGCAAACCGCGGATGGTATGTCCTTGTGCGCAGGAACGAAGAGGGCGCATTCCCGATGTCCGCCCGGTTTGTCCAGGATCTTTACGACAAGAGGGCTGTGTATACGAAGATGGATGTCCAGCTGGCTCTCAACTATTACACATATAAAATCAATCAGGCACTGGAAAGTAAAGACGAGCAGAGTTTCCGGATCCATGCGGGTCTCCATGCCCGGTTTTCCGGTTATCTTGAAGACAGACTTGTCAAAGGTGTGTGA	MQECLFVVKSFTYEKGSRECSCHQTIRFEKGDRLHIVQNPYAVANRGWYVLVRRNEEGAFPMSARFVQDLYDKRAVYTKMDVQLALNYYTYKINQALESKDEQSFRIHAGLHARFSGYLEDRLVKGV				NA	NA	NA	NA	NA
AK012_02743	309			hypothetical protein	GTGAAATCCATGACACTCATGTTCCTTGAACTCATTCGTATCCTGTTGGTGCTCCCTCTCATCGGAGGGCTGCTCTGGTATACCGTGTTCGGCCCGCTTTATGACGTTTTTCAAGTTCCCGAAGGATACCGTATCATCGGCGCTGCCGGTATCTGGGTCTTTTTGTTTATCTTATACAGGAACTCCCTCCAATTCACAGGATGGTATAAGGGAGAAGAAAACCGGAAGCTTCCACGCTTAGCTGTGATCAGTCTGACGATTGTCTCCTTGATCATGACTGTCGGTCCACTGTTCGCTCGTTTTCTTTAG	MKSMTLMFLELIRILLVLPLIGGLLWYTVFGPLYDVFQVPEGYRIIGAAGIWVFLFILYRNSLQFTGWYKGEENRKLPRLAVISLTIVSLIMTVGPLFARFL				NA	NA	NA	NA	NA
AK012_02744	2190	yjcD	COG0210	Putative ATP-dependent DNA helicase YjcD	ATGGATTTCTTTACAACCATGGAACAACAGACCGGAGTAAAGCTGAATGATGTCCAAAAGCAGGCGGTCCTTCACACAGATGGGCCGCTGCTTCTGCTGGCTTCTCCGGGATCAGGGAAGACGACCACACTGAATATGAAGATCGGCTACCTGCTGCTCGAGAAAAAGGTGAAGCCGGAGCGGATCATGGCGATCACCTTCAGTAAAGCCTCCGCCCGGGATATGTCAGAGCGTTTTGACCGGTTTTTCTCCTCTCTCACAAACGAAAAAGTCCATTTCTCAACGATTCACAGCTTTGCTTTTCAAGTCGTTCGGGAAACTCTCCAGAAAAGAGGGGAGGCCTTCCAGCTGGTCGAGGGGAATGTCAGTGATGAAGAACTCAAAAAGGGTTTTCATGGCCCGGACGTACCGCTCCACAAAAAGTTTATTTTGAAAAAGATCTATGAGGACATTCATCAGAAGCAGATGTCAGAGGATGAAATGGATGAACTCATGACTTACATCAGTTTTGTGAAAAACCGGATGATTACAGGGAAAGAGCTGGAGAAGGTTTCCTGCACCGTCAAGCGGGCGGCCGATATCTATAAGGCTTATGAGCAGTTTAAGAAACAACAGCTGCCGGACAGACGCCTGCTTGACTTTGACGATATGCTCACGTATGCCCATCAGTTTCTGTTAGAAGATCCACAACTGCTTGGAAAGTATCAGCGCCGCTTCGAGTATGTACTTACAGATGAAAGTCAGGACAACAGTGTAGTCCAGCATGAAATCGTGGAGCTTCTGGCTCGTCCGCACAACAATTTATGTGTCGTGGCAGATGATGATCAGTCGATCTTCATGTGGCGGGGGTCCGATGTAACGAAGCTGCTGCAATTCGAGAAGGTGTACCCGGATGCGACCGTAATGACGATGTCCCAGAACTACCGGTCGTCGAAGGAAATTGTGGAAGCCTCCAATCAGTTTATTAAACGCAACAAAAAACGCTACCCAAAGCAGATGTTTACAGAAAACCCGTCCAATGCTCCCATCCAGATGCAGACATTCAGTAACTATGACCAGCAGCTGACCTATGTCGCAGAAGCTGTAAAAGCAGCTTCTCCAGACGAGGAGACGGCTGTGTTGTACCGGAACAATTCATCAGCCGTTCCACTGGCAGACAAGCTGGATAAGGCGGGCATCGATTTTTATATGAAGGATATCGACGCCAAGTTCTTCAAACACTGGATTGTTGAGGATATGTTGAACTTTATGCGTTTCAGCTACAACGATCAGCGGGTGGATATTCTGGAGCGGATTCATACGAAGTTCAACGGTTACATTACGAAAAAGCAGATGGCCTTTTTGAAACGAACGGCCATCACAGCCTCTATTTTTGATCTGTTGAGGGAAGAGGATATTCCATCCTATCAGGACAAAAACCTGGCCCAGGCAAAAAAGATGTTCCATGAAATGAATGCCATGGAGCCTGATAAGGCCATCCGCATGATCCGCGATAAGCTCGGCTATGACAAAGCGGTGACGAAGATGTGTGAGAACTTCGGTTTTAATGCGGAGCACTTGTTTGGAATTCTTGATACTCTTGAGGAAATCGCTCACGGTCTTGGTTCTTTGAAGGGGTTTGCAGACAGATTGAAACACCTGGAGCGGCTGATTCAGACGTCGAAGCATAACAAAAATAAAGCGCCGCTGACTTTAACCACGTTCCACAGCGCCAAAGGTCTGGAATACGATAACGTATATATGATCGATCTTATCAACGGAGTGGTTCCATCTAAAGATGATATGGAGCGGTATCGTAGTGAAGACAAGGCAGCCATGGAGGAAGCGGTGCGATTGTTTTACGTTGGTATGACGCGGGCACGCTCTCACCTTGAGCTGCTTTCCTACAACTATAAAGGCAGCGAGCGGGTCACGGAATCGATTTTTCTCATGAACGTCCGCCGCATTATCCAGCCGGAGGGGGCGAAGAAGAAAAAGGCGCCGATCCGCCCGGCTGTTGATTTGTCGGACGAGTCGTTATTAAAAGAAGAAGATATGGAGCTTGGATTGAAAGTGTCCCACCGGAAATTCGGTACAGGCGTGATTTCTGAATACGGCGGGGATCATATAGGCATTCAATTTGAGGAACACGGATATAAGGAACTGCTGCTGGCGTTCTGTCTGGAGAATGGATTGTTGAAAAAAGAGTAG	MDFFTTMEQQTGVKLNDVQKQAVLHTDGPLLLLASPGSGKTTTLNMKIGYLLLEKKVKPERIMAITFSKASARDMSERFDRFFSSLTNEKVHFSTIHSFAFQVVRETLQKRGEAFQLVEGNVSDEELKKGFHGPDVPLHKKFILKKIYEDIHQKQMSEDEMDELMTYISFVKNRMITGKELEKVSCTVKRAADIYKAYEQFKKQQLPDRRLLDFDDMLTYAHQFLLEDPQLLGKYQRRFEYVLTDESQDNSVVQHEIVELLARPHNNLCVVADDDQSIFMWRGSDVTKLLQFEKVYPDATVMTMSQNYRSSKEIVEASNQFIKRNKKRYPKQMFTENPSNAPIQMQTFSNYDQQLTYVAEAVKAASPDEETAVLYRNNSSAVPLADKLDKAGIDFYMKDIDAKFFKHWIVEDMLNFMRFSYNDQRVDILERIHTKFNGYITKKQMAFLKRTAITASIFDLLREEDIPSYQDKNLAQAKKMFHEMNAMEPDKAIRMIRDKLGYDKAVTKMCENFGFNAEHLFGILDTLEEIAHGLGSLKGFADRLKHLERLIQTSKHNKNKAPLTLTTFHSAKGLEYDNVYMIDLINGVVPSKDDMERYRSEDKAAMEEAVRLFYVGMTRARSHLELLSYNYKGSERVTESIFLMNVRRIIQPEGAKKKKAPIRPAVDLSDESLLKEEDMELGLKVSHRKFGTGVISEYGGDHIGIQFEEHGYKELLLAFCLENGLLKKE				NA	NA	NA	NA	NA
AK012_02745	174			hypothetical protein	ATGGCGAAGAAAACAAAGAAAAACCAAGCGGAGCAGAAGAACCAAAAAGGGTTTGCTCCAAAACAGGCGGATGTAGAGTTTTCTGAGGAGTTTGGCAGCGCGGCTGCAAATGAAGCTCATCAGAAAGAAGCGAAAAAAGCCCGCAAATCCAAAAAAGCAAAACAAGATAACTAA	MAKKTKKNQAEQKNQKGFAPKQADVEFSEEFGSAAANEAHQKEAKKARKSKKAKQDN				NA	NA	NA	NA	NA
AK012_02746	1323	sleL_2	COG3858	Cortical fragment-lytic enzyme	ATGAAACGCATAGGTCTACTCACCATATTCATTATTTTCTTCCTTCACACCGGTTCAGTCTCTGCAAGCGTCCTTTATACCGTAAAACCCGGGGACAGTTTATGGAAAATCGCAGATCAGTATGAAACAAGCACCGACGTTTTAAAGAAAGTCAACGGCATTACGAACGGCGCACGGATTATGCCGGGGCAGTCTGTGATCATCCCGGGAAATACGTATCATGTAACGGACGGAGATACGCTCTGGAAGGTTGCACGAATGCATCAGTTATCGATGGCGGATTTAAAAGAACGGAACAGGATGACCAGCGACATCATTGCCCCTGGTCAGATCCTGCACATCCCTGAAAGCAGGAAGAAGCCCATTACAGCAGGGGCGTTTTTCATTCCGGGAATTCCGGTGAAAAACCAGCAGTCCATCGACTATTATGGGGAATATTTATCTGCCCTCGGCATGTTCGAATACCGGCCGGATGAGAACGGAACACTCAGCCGGATGAGCGGAGAAGATTCCATCGCACGCACATGGAAGAAAGGCCTGGTCCCCCATGCCACTATCACCAATTTAACAGAGGAAGGCTTTGATCCAGACCTGGCCCACCGCCTGCTTTCCAATGAGACGAAACGGAAGGATTTGATTGAACATATTGCCGGACTCGTAGACGAAAAACAGTACAAAGGGGTGATCATCGACTTTGAAAGCCTGCACCAGAAGGATCGATCCCATTTCAATACATTTATCCAAGAGCTTTCCGTACGTCTCCATAAAATAGGAGGAGAAGTCGGGGCTGCCCTGCCGCCCATGACCGGCGCCTACGCCCCGGCCCACCACCACGCCTACGATTACAAAACCATCGGTGAGGCTGTCGACTTCGTTTTTCTTATGACGTACAACTGGCACTGGCTCGGAGGTGTTCCCGGCGCGATTGCTCCGATCAAAAAGGTCGATGCTGTCATGAACTATGCGGTGACAGCCATCCCAAAAGAAAAAATCTTCTTAGGAATCGCCATGTACGCCTATGACTGGAACACAGCCAAACCTGAAGACGTTAAAGCCTATTCCCAGCAGCAGGCTGTCGATACGGCCGTGGAGCATCAACGCCCGATCCATTATGATTACGAAAAGGGCAGCCCCTGGTTCACCTACACCGATCCACAGGGGGATCTCCATGAAGTCTGGTTTGAGGACGCCCGATCGATACTGGCCAAATACCGGCTCGTCAAAAAATACGACATCCAGGGGGTCGGTGGATGGAAGACAGGCCTTGATTTCCCTCAAGCCGGTTTCCTGCTGAAAGAAGAATTCATCATAAAAAAACGATGA	MKRIGLLTIFIIFFLHTGSVSASVLYTVKPGDSLWKIADQYETSTDVLKKVNGITNGARIMPGQSVIIPGNTYHVTDGDTLWKVARMHQLSMADLKERNRMTSDIIAPGQILHIPESRKKPITAGAFFIPGIPVKNQQSIDYYGEYLSALGMFEYRPDENGTLSRMSGEDSIARTWKKGLVPHATITNLTEEGFDPDLAHRLLSNETKRKDLIEHIAGLVDEKQYKGVIIDFESLHQKDRSHFNTFIQELSVRLHKIGGEVGAALPPMTGAYAPAHHHAYDYKTIGEAVDFVFLMTYNWHWLGGVPGAIAPIKKVDAVMNYAVTAIPKEKIFLGIAMYAYDWNTAKPEDVKAYSQQQAVDTAVEHQRPIHYDYEKGSPWFTYTDPQGDLHEVWFEDARSILAKYRLVKKYDIQGVGGWKTGLDFPQAGFLLKEEFIIKKR	PGPT0025110_148	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025110-yaaH-K06306	NA	NA
AK012_02747	1176			hypothetical protein	ATGGACAAAAAAGACATAGCCGGTATCCGGAAACAACTGAAGGTCGACAATGATCTGATGAAGATATCGAATATATTCAACGTCTATATTATGAAAGAATCAACGGATATATATCACCATCAGAGCCAGCCGTTTGAAATGCTGGACCGTGACCAGCAGGAGCTCTTTATGACCAACTTCAAGAAAGTCCTTACCGGGCAGCTGGACGAGAAGCTGTTCGAGCTGAAATTCAAACAGGAGGCGGAGGACTCCAGTCAGTTCATTCTGCACCGCGGCCTCTTAAGCCGTAACGTAGAAGACTGGAAACAGGAAATGCTTGCGATGACGGAAAAAATGATCAAGGATCACCCCTATGAGAAGGATGTCGTCATCACCTTCATCCGTGCCGAATACTTAAAACCGACGAGACGACGCAGTGAAGAATCGGAAGAAAGTGACCGCGATGCGGTATATTCCAACCCGTTTATTCTCTGCAGCGTCAACCAGACCGAAGAGCCTAAAAAGGAAATCCAGTTCGACTATGTTGAAAAGGAATTCAAATACAACATCCAGGTCGACCCGGTCATCGATTTGAAGCATCCGCTGACAGGATTCATGTTCCCGAGCATCACGGAAGGAACCTCCGACGTCAACCACGTGCTGTACGCTGCCGGTAAAGCCAACGAACCGGATTACTGGTTTATCGAAGATGTATTAAACGGCGAAGAAATAATGACAGCGAAAGAAGACAAAGCGGTATTCGAAGAAGTCATCAGGGGTGTCGTCGGTGATCAGCTGAGTCCTTCAACGCTCGCGAGTGTATACGGTGAAATCAACAAAGTGGTGGAGGAAAATGAGGACGATGCGCCGCCGAAGCTCGACTACCGCGACGTAGAACGTGTATTGAACCAAAGCGGCGAGCAGGTCGAAGGCGATCAAGTCAAACATGCTTTTCAAATGATTACAGACAACGAAGGCTATGAGCTGAAAGCCAGCAGCATCGTTCCTAAATACAAAACGAAATCGATTAAAATCAACACGAAAGTGGCCAACATCTCCATCAGTCCCCAGGACCTGGAGTTTGTCAGACAGGTCAACTACAAAGGGAAACGATGCATCATGATCGAAATTGAAGAAGATGCAGAAATCGACGGATTTAAAATGCTGCCGGAGGCCTTCGGAAACGAATCCTCCTAA	MDKKDIAGIRKQLKVDNDLMKISNIFNVYIMKESTDIYHHQSQPFEMLDRDQQELFMTNFKKVLTGQLDEKLFELKFKQEAEDSSQFILHRGLLSRNVEDWKQEMLAMTEKMIKDHPYEKDVVITFIRAEYLKPTRRRSEESEESDRDAVYSNPFILCSVNQTEEPKKEIQFDYVEKEFKYNIQVDPVIDLKHPLTGFMFPSITEGTSDVNHVLYAAGKANEPDYWFIEDVLNGEEIMTAKEDKAVFEEVIRGVVGDQLSPSTLASVYGEINKVVEENEDDAPPKLDYRDVERVLNQSGEQVEGDQVKHAFQMITDNEGYELKASSIVPKYKTKSIKINTKVANISISPQDLEFVRQVNYKGKRCIMIEIEEDAEIDGFKMLPEAFGNESS				NA	NA	NA	NA	NA
AK012_02748	1050	lnpD		UDP-glucose 4-epimerase	ATGATCTTAGTTACAGGCGGAGCCGGATACATAGGCAGCCACATTTGTCTTGAGTTACTGGAGCGGGACCATGAGGTGATCGTGATAGATAACTTATCGAACAGCCACCCCGAATCACTGCTTCGTGTGCAGGAGCTGACGGGGAAGACGTTGACGTTTGTAGAAGGGGATCTCTTGGATCAGGGCCTTTTGCGGAAGGTTTTCGAGGATTACGACATTACAGCTGTCATTCACCTGGCAGGGCTGAAAGCGGTCGGTGAATCGGTTTCTATGCCGCTCACGTACTATCACAACAACATTACGGGGACTTTGATGTTGTGTGAAGTGATGAAGGAATTTGATGTAAAACAGTTGATCTTTTCGTCATCCGCTACCGTTTATGGTACACCTGACTCTCTTCCTCTTACGGAGAGTGCATCGGTCGGGGCTACCAATCCTTATGGCCGTACGAAGCTGATGCTTGAGGAAATTCTACAGGATTTATATGTCTCTGATGAAGAGTGGAGCCTATCCATCCTGCGTTACTTTAATCCAATCGGTTCTCATCCGAGTGGCCGCATTGGTGAAAACCCGGCGGGGATTCCGAACAACCTGATGCCTTATATTACAAAAGTTGCTGTCGGTCATTTCCCTGAGCTGAAAGTATTTGGTGATGATTATCCGACCGTGGACGGAACAGGAGTCAGAGATTACATTCATGTCGTCGACCTGGCAAGAGGTCACGTGCATGCACTTGAAAAAACAGCAGGAGAAGCTGGAATTGAAACGTACAACCTCGGTACGGGAGAAGGATACAGTGTCCTTCAGCTCGTGAAGGCTTTCGAAAAAGCATCCGGGCGCAGAGTTCCCTATGCCATCGACGACCGCCGCCCCGGCGATATTGCGGAGTGCTTCGCAGACCCGGCCAAAGCTCATTTGAAACTGGGCTGGCAGGCAGAGAAAACGATTGATGATATGTGCGTGGATTCCTGGAACTGGCGGAAGCAGAATCCGGAAGGCTATACAGGAGAGAAAAATGCTTCCAAGCGGGAGCTTGCCGGGCAGAAATAA	MILVTGGAGYIGSHICLELLERDHEVIVIDNLSNSHPESLLRVQELTGKTLTFVEGDLLDQGLLRKVFEDYDITAVIHLAGLKAVGESVSMPLTYYHNNITGTLMLCEVMKEFDVKQLIFSSSATVYGTPDSLPLTESASVGATNPYGRTKLMLEEILQDLYVSDEEWSLSILRYFNPIGSHPSGRIGENPAGIPNNLMPYITKVAVGHFPELKVFGDDYPTVDGTGVRDYIHVVDLARGHVHALEKTAGEAGIETYNLGTGEGYSVLQLVKAFEKASGRRVPYAIDDRRPGDIAECFADPAKAHLKLGWQAEKTIDDMCVDSWNWRKQNPEGYTGEKNASKRELAGQK	PGPT0017825_35	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
AK012_02749	843			hypothetical protein	ATGGGTATTTTTTCAAAGATGAAATGGAGTCTTCTTGTTGTTTTGACCGCTGGTCTCGTATTTTCCCCTTTTCCTGCTTTTGCACAATCTTCCAATCCACTTTCCAATGTCCAGTCCTACAAAATTTATTATGATTACCCGACCGATGCGATTTTGAACCAAATGCAGGCGTACGACGCCGTCATGATTGAACCTGTCCTCTATACCAAGGATCAAATTGAGACCATTCAGCAGTCTGGTACCTTGGTGTATGGGTATATCAACACGATGGAAGCCGATAACTGGAATACCGCGCTGATCAGTCAGCTGGAAGAGTCCGACTTCTTCCACCGTGACGGGGAGCGTGTCTATTATCCGGAATGGGACTCTTACCTCACCGATATCACATCGGACCATTATCAGCAGGTGCTGCTGGATGAGATTGAGAAGCAGATTTCAGCTAAAGGTCTGGATGGGGTGTTCCTGGATACCGTCGGCAATATCGATAACGAACACTGCGGATCCGATGTGCTGGAGGAACAGCGTGCGGGTATGGCGGTCTTCCTGCAGGAAATCCAGCGCCAGCACCCCTCCTTGTCTCTTATCCAGAACTGGGGGTTCGGCACGTTGTCCACGACAACATATCCCTATGTAGACGGCATTATGTGGGAGAATTTTAATTACTCAACGGTTTCTACCGACCAATGGTCCCAGAATCGTATAGAGGATCTCCAACAGCTGCAAACAGAAACGGGCCTGGAAATATTAACGGTCTCTTTTACCGAAAAAACAAAGAGCACGAACTATGCAGCATCAAAAAACTTCATGCATTATCATGAATCCAGCCACTATAATGCTTGGTAA	MGIFSKMKWSLLVVLTAGLVFSPFPAFAQSSNPLSNVQSYKIYYDYPTDAILNQMQAYDAVMIEPVLYTKDQIETIQQSGTLVYGYINTMEADNWNTALISQLEESDFFHRDGERVYYPEWDSYLTDITSDHYQQVLLDEIEKQISAKGLDGVFLDTVGNIDNEHCGSDVLEEQRAGMAVFLQEIQRQHPSLSLIQNWGFGTLSTTTYPYVDGIMWENFNYSTVSTDQWSQNRIEDLQQLQTETGLEILTVSFTEKTKSTNYAASKNFMHYHESSHYNAW	PGPT0026070_226	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PEL_POLYSACCHARIDE_METABOLISM	CE-EPS-PEL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026070-pelA-K21006	NA	NA
AK012_02751	1236			hypothetical protein	ATGTTCTACCAACAATCCAGTTTTATCCGGAAGTTTATTGAACTGATCCTCGTCTTTCTAGTATTGGGATTCCTTGATCAAACCCTGGAGTGGAATATGCTCGAATGGCTGTTCAACCCCGTTTTCTTTGCTGTTCTCTTATTTTCACTTCGTTACGGTCTTCATTTGGCCCTGCTCAGCTTTGCAGCTGCCCTCATCTATCATGTATATGACATCTATCAGCGGGACGGGGATTTATTTCTATTGTTCTATGATTCCAGTAATTATTTATCGCTCCTCTTCCTATTGGTGACGGCCGTAATCAGCGGTCTATACAGCACGTCTTTCCGGGAGAGGTACGAAAGTCAGCAGTATGTACTCGAGGAAACGAGAGATGAAAATGAAGAATTAAAATCGTCTCTAAGTGTGTTGGAGCGTTCCCAAAGAGTGATGCAGGCGAAAGTGCTGGATTCCGAGTACACCCTTTCCAGAATTTACGAAGTCGGAAAAACACTGGATCAGCCGTCTCCTGAACTTGTCCGGAACGAAGCAGTTACGATCATCGGGGATCTGTTTGAAGCGGAAGACCTGGCCATCTATCATGTGGATTCGTCTAAAAAATCACTGCGGCTCCGCGTCCGGAAAGGAAATACCGAGCGGCTCCCGCAGACCATTTTCATCGATGATGCGGCTTCCATTTTCTCACGCAGTCTGCGGAACAAAACGATTACTTTAAAGACAGTGGAAGATGAAGCCGCTGCCCCCGTGTTGATCGGGCCGGTTGTTTATAACCAGGACGTACGGGAAGTTCTGGTCATCGATCAGCTTGATTTTGCCAAACTGACAAAATACGAAGTTCAGATCCTCTCTCTCGTGCTTGACTGGATGGGCAATCGGATTGAAAGAGCCGGGGAATACCTCCGTAAGGAAGAAGAGCAGAAAATGTATCCGGGAACGAACATCTATTATAAAGAAGCCTTCGATGAGCTCGTACACATGCAGGAGAAGCGCGAGGAAAAATACGGCGTTCCTTACAGTGTCGTCACTATCGATGTCAGCCCTTACAGGGAAATGTCTGTAGTTGAAGCAGAAATCATCCTCCGGGCCTATTTGAGAGAGCTGGACATCATGGGGTACGACCAATCTAACCAGTATTTCTATTTCCTACTTCCAGGGACAAGCACACAGAATGCGTCCATCGTCGAAGAGCGGATTTACAAAGCACTTGAAACTAAAGGCGGGATTCACATTGGTTAA	MFYQQSSFIRKFIELILVFLVLGFLDQTLEWNMLEWLFNPVFFAVLLFSLRYGLHLALLSFAAALIYHVYDIYQRDGDLFLLFYDSSNYLSLLFLLVTAVISGLYSTSFRERYESQQYVLEETRDENEELKSSLSVLERSQRVMQAKVLDSEYTLSRIYEVGKTLDQPSPELVRNEAVTIIGDLFEAEDLAIYHVDSSKKSLRLRVRKGNTERLPQTIFIDDAASIFSRSLRNKTITLKTVEDEAAAPVLIGPVVYNQDVREVLVIDQLDFAKLTKYEVQILSLVLDWMGNRIERAGEYLRKEEEQKMYPGTNIYYKEAFDELVHMQEKREEKYGVPYSVVTIDVSPYREMSVVEAEIILRAYLRELDIMGYDQSNQYFYFLLPGTSTQNASIVEERIYKALETKGGIHIG	PGPT0023530_165	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PEL_POLYSACCHARIDE_METABOLISM	CE-EPS-PEL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0023530-pelD-K21009	NA	NA
AK012_02752	927			hypothetical protein	TTGGTTAATTTCCAAGAACCTTACTGGCTGATTTTTTTCTATGTGATTCACGCTCTTATTATTCTGATTGTTACCCTTCTGCTACGAAAAAGAATGGATGATGACAACAAGGGAACGATCACATGGCTTGCCATCACAAGCATTTTTTTACCGGTTATCGGCGAACTTCTCGGGCTTGCCGCCTGGTTCGCGGCTAAACTGGCAGGGACAAACCATATGATTGATGAGTATGACGACTATGTGAATTTCACACCGTTGAACTTGGAATACCTCCGCTATGAAGCATCCAGCAGCATGGATTTATCACCGATCAGTGATGCTCTTTTGAGAAATGACGGCGTCAATCAGAAGGAATTGATTGTAAGCTTGATCAATTCGGACATCGCCAATAAAGGCCGGCACTTAAACCTCGGCCTGACCAACAACAACTCTGAAACCGTTCACTATGCCGCAACGACCATGAATGTGCTCTCCACCCGTTTCGAGAAAGAGCTGGAGCATGCCAGAAACGAACTGGACCCGGAAGCACCGATGTCTTTTGAACGGTTATGCAACGTGTACGAACGTTATTTAGCAAGCGGCATTCTGGATGAGAACGGACAGGAACGGCTTGAGAAACAATATGAACAACTGCTTGAAGAGGCTGTTCCCAAGCTTGATAAAGAACCGTGGATGTACCGCAGCCTCGGTGATATCTACGTACGCCGGAACAAAAGCGATGAAGCAGAGCGCGCCTATCATGAAATGACGGAGCAGTTCCCCTCCCATCCTGGAGGCTATTTGAAACTGATTGAATTGTATTATGCCCGCCGCGACTGGAAAAACATCAAGCCGGTCCTCACGGATCTTTTCCAATATGTCAAAGAAGAGGACATCCCTGAGAACCAACGCTTTATCATCCAACAGATGGGAGGAAAAGCGCTTTGA	MVNFQEPYWLIFFYVIHALIILIVTLLLRKRMDDDNKGTITWLAITSIFLPVIGELLGLAAWFAAKLAGTNHMIDEYDDYVNFTPLNLEYLRYEASSSMDLSPISDALLRNDGVNQKELIVSLINSDIANKGRHLNLGLTNNNSETVHYAATTMNVLSTRFEKELEHARNELDPEAPMSFERLCNVYERYLASGILDENGQERLEKQYEQLLEEAVPKLDKEPWMYRSLGDIYVRRNKSDEAERAYHEMTEQFPSHPGGYLKLIELYYARRDWKNIKPVLTDLFQYVKEEDIPENQRFIIQQMGGKAL				NA	NA	NA	NA	NA
AK012_02753	1839			hypothetical protein	TTGAAAAAACAAATCATCATTTATGCATCGGTTTTGTTTCTATTGTTCACTGCAGCCATTATCGTTCTTCAGTTTATGCGGCTCGACATGTTCCATCAGTGGTTTCCTGCAGAAACGGCGCAGGGAACACCTGTAGAAACGATGAGCACAGACCAGGACTTACCAGAAGGAGAACAGTTGAACGTCTACGTTCATAAAAATGATACACCTTTGTCCAAAGATGCTGTTGAAAATCTTGAATATGCCATGGACTACGCAAAAATTTCCTATAAGGAAATAACGAAAGAGGAAATAAAAAACTTAAGCGCTTCTCCCTATTCCGTACTTGTGCTTGGAGGCGAGCACTCAGAAGAATGGCCGTATGAAGAGATCCGTTCCTACGTTGAAAAAGGAGGAAACCTGTACATCGCCTCCCGCTTCATCAACCCCGTCTGGAATGAACTTATCGGCTTGAAAGACGTAGAAGATTTCATTGACGACATCTACGGGTTAACTTTCTTAAAAGAAGTATTCCCAGGCTATATGGATTTAGGCAGTGACTCCGAATTGTTTTCCCACAGCATTGCGGACGTCGAGCTTGCAGAATCAGCTGAAGTATACATCGAAGCGGAAGACCACCCGATCCTATGGTCCAACACTTATGGAGACGGGAACGTCATGTTCTGGAACACCACTTCTGTCACAGAAAAAAGTTCGCGGGGGTTAATGCTGCAGGCTCTTTCCTTCCTGCCTCCAACCTTTGTTTCCTCACAGGCAGGCATCAAGGTGATGCACATCGATGACTTCCCCGCCCCTGTCCCAAGCGGCACGATGGATGTGATCCAACGGGACTACGATTTGGATATAGAGGAGTTTTATTCCGACGTCTGGTGGGAGGATATGAAACGGATCGGGGAAGAAGAAGATGTGATTTATACCGGATACTTAATTGGTACCTATCAGGACACGATGGACCTGACATCCGAAGAACTGATTGAGACGAGACGTTTTCCGATGCTGTATTTCGGACGTAAGGTCTTGAAGGAGGACGGTGAGATTGGCATCCATGGATATAACCACCAGTCTCTTGTTACCGCAGATGAACCGATCGATCCTGAATACGGCTATCGTCCATGGAAGAATCAGGCCGAGATGGAAGAGTCTCTACACCGTGTGGACGACCTGTTCGATTACTACTTCAAGGAAGAAGACATCCATTCCTACGTCCCTCCTTCCAATGTATTGAATAAAACCGGAGTACGGGCTCTGCACGATGTATTTCCGGACCTTGAGGCTGTATCCGGCTTATATACAGGCGACAAAGAGACGGGAGCCTTCTTACAGGAATATGAACCAAACAGTGAGTTCCCGTCCATCTACCATTTCCCAAGGATTTCAAGCGGATACGGGGAAACCGATGAAGAGCGTTTCGTCCAGATTGACGCCATTGCCAACTTCGGAGTTTTCGCCCACTTTATCCATCCGGATGATGTCCTCGATCCATACCGGGCCGGAGACAGCGGATGGCCGGAAATGAGACAGTCCTATGAAGACATGCTCCATTATATTCACGATCACTACACACACCTGAAAGGGATGCGGCAGACGGACGCAACGAAAAAGATGAAACAGTATCAAGCTTCTGATATAGCGGTCACCTACCAGGACAATCAAATCATTGTACAGGGAGACGAGCTGCTCTCGCCTTCCACCATTTTAATAAGGGTGAACGACGGAAGTCTTGAAACCGGTTCTTTTGAGGGCGGAGATGTCAAAGCTTTAGGTGAATCAGGGACACTGTATCAGGTGACTCTCAAACAACCGTACGCTGAATTTAAGATAAAGGATGAAGCCTTGTGA	MKKQIIIYASVLFLLFTAAIIVLQFMRLDMFHQWFPAETAQGTPVETMSTDQDLPEGEQLNVYVHKNDTPLSKDAVENLEYAMDYAKISYKEITKEEIKNLSASPYSVLVLGGEHSEEWPYEEIRSYVEKGGNLYIASRFINPVWNELIGLKDVEDFIDDIYGLTFLKEVFPGYMDLGSDSELFSHSIADVELAESAEVYIEAEDHPILWSNTYGDGNVMFWNTTSVTEKSSRGLMLQALSFLPPTFVSSQAGIKVMHIDDFPAPVPSGTMDVIQRDYDLDIEEFYSDVWWEDMKRIGEEEDVIYTGYLIGTYQDTMDLTSEELIETRRFPMLYFGRKVLKEDGEIGIHGYNHQSLVTADEPIDPEYGYRPWKNQAEMEESLHRVDDLFDYYFKEEDIHSYVPPSNVLNKTGVRALHDVFPDLEAVSGLYTGDKETGAFLQEYEPNSEFPSIYHFPRISSGYGETDEERFVQIDAIANFGVFAHFIHPDDVLDPYRAGDSGWPEMRQSYEDMLHYIHDHYTHLKGMRQTDATKKMKQYQASDIAVTYQDNQIIVQGDELLSPSTILIRVNDGSLETGSFEGGDVKALGESGTLYQVTLKQPYAEFKIKDEAL				NA	NA	NA	NA	NA
AK012_02754	1419			hypothetical protein	GTGAAAATAGGAATGGTCGTCGAAGGAAGCTATCCATACGTAAGCGGGGGTGTGGCAAGCTGGGTCCAGATGCTGGCCACCCAGCTTCCCCGGCACGAGTTCGTCATTATTGCCATTACACCGGAGGAAATGACCGCCGACGATTACCGCTATGAGCTTCCTTCCAATATCTCAGAGGTGATCAACCTCCCATTAAACCTAAAACCCGCCGCAAAAAAGCGGCGCGTCAAGCTTACCGAAGAAGAACAGCACAGGCTGACGGATTGGATGATGTTCCGCGCTCTTCCACCGGATGTCCTGGACATCTTCAAGAAAAAAATCGGTTCAACTGAAGCTCTGTTTTCAAGTGAACTGTTCTGGAACATGGTTCAGGAAAGCTATCGGATTGAAGAACAGTCAGGTTCCTTCATCGATTACTTCTGGATGTGGCGCGGCATGTTCACTCCTGTCCTGGAACTGCTGCAGGCGGACTTCCCGGACCTTGACCTGATCCATTCTGCCTCCACAGGCTATGCCGGACTGATTGCTGCCGCTATCAAACAGCGGCAGGGGATTCCTTTTCTTTTGACGGAACACGGCATCTATTCCCGGGAGCGGGAGGAGGAAATCCTGCAGGCTGGATGGATTCCTGAGTATTATAAAAAGCGCTGGGTCCAGTTTTTCCACCATTTATCCAAGCAGGCCTACACGGAAGCGGATGACGTCATCACGCTGTTTGATCGTAACAGCCGGCTCCAGCATGAACTTGGCGCTGATGAAGACAAGCTGTCTGTCATTCCGAACGGCATTCATTATGACCGGTTGTCAGGAATCGTGAAGCTTCCTAAAACAGATGTGCTTAAAATCGGTGCCATCGTCCGTGTTGTTCCGATCAAGGATATTAAGACGATGATCAACGCCGCCAAAGTCCTTGATGATAAAGGGGTTCCATTTGAACTGACGATTATGGGCCCGCTCGATGAAGAGGAAGAATATGCCGAGGAATGCCGGATGATGATCGAACAACTGAGTCTGGAGCACTGCGTCACTCTCGCCGGGAAAGTCAATATCATTGAATACCTCCCCCACTTTGACGTCTGCCTGCTCACAAGTATCTCAGAGGGACAGCCGCTCGCGGTGCTGGAAGGCATGGCAGCAGGTATTCCTTATGTGGTTACAGACGTCGGATCCTGCTCAGAGCTTATGTACGGCCGGGAAGATGACCCGTATGGACCGGCCGGCTTTGTTGTACCGCCTGTGAATCCGAAAGCCATAGCTGAGCACTGCCAATGGTATTATGAGCATCCTCAGGAAGCGGAGAAGTTCGGAAAAAACGGACAGAAACGGGCAGAAACCTATTACCAAGTGCATCAATTCATCGACCAGTATGCAGAGTTGTACACAGAAAGGGGGCTCGCTTATGGCCGGCATCGGGTTTAA	MKIGMVVEGSYPYVSGGVASWVQMLATQLPRHEFVIIAITPEEMTADDYRYELPSNISEVINLPLNLKPAAKKRRVKLTEEEQHRLTDWMMFRALPPDVLDIFKKKIGSTEALFSSELFWNMVQESYRIEEQSGSFIDYFWMWRGMFTPVLELLQADFPDLDLIHSASTGYAGLIAAAIKQRQGIPFLLTEHGIYSREREEEILQAGWIPEYYKKRWVQFFHHLSKQAYTEADDVITLFDRNSRLQHELGADEDKLSVIPNGIHYDRLSGIVKLPKTDVLKIGAIVRVVPIKDIKTMINAAKVLDDKGVPFELTIMGPLDEEEEYAEECRMMIEQLSLEHCVTLAGKVNIIEYLPHFDVCLLTSISEGQPLAVLEGMAAGIPYVVTDVGSCSELMYGREDDPYGPAGFVVPPVNPKAIAEHCQWYYEHPQEAEKFGKNGQKRAETYYQVHQFIDQYAELYTERGLAYGRHRV	PGPT0026085_296	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PEL_POLYSACCHARIDE_METABOLISM	CE-EPS-PEL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026085-pelF-K21011	NA	NA
AK012_02755	1473			hypothetical protein	ATGGCCGGCATCGGGTTTAAGCTGCAGAAATTATTTCAGGAGGACTACTTTTCCTCCCGGATTAAAGCCTACGCATTTGCAGGGCTGGTCACCTCCGGTCCATGGCTTGTCGTTATTGCGACCATTGCTGTGATTCAGTGGATGACCTCGTTCTTCTCCCTGCTTGATCTGCAGGAGAGGGAACTGTTCAACCTTTCTGTGGCCTACTGCTTTATCTTTTCCCAGGTCCTCTTCGGAGTGCAGCAGTTGGTCGTCACACGGTACACCGCCGACCTTTTTTATGAACGGCGGACGGAGGCCATTTTCCCGACATTTATCGGGATGACAAAAGTAACACTTGCCCTGGCCTTTATAGGATGGTTGATCTTCTTCTGGATTTCACCGCTTCCTTACTACTTTAAATGGCTCATGCTGATTCTATTTGTAACCGTCAACTTGATCTGGGTGCTGTTTTTATTTCTGAGCGCTGCGAAGTTCTATCAGGCCGTTGCCTACAGCTTCCTCGCCGGAGGCGGGGCTGCTCTGCTCCTCGTCTTCCTGTTTGGAAAGAATGCCGCATGGTTTCCGATATTCGAGCACTCCAACAGCTTCTTCCTGCTCGCCGGATTTACCTCCGGCATGCTTGTTACACTGTTCGGATTGTTCATGTCAATGCTCATGACGTTCCCGAATCGGTCGAAGGAGAACCAGTTCAGTTACCTGAACTATTTCGATCGTTTTCCTTCCTTGTTCTGGACAGGTTTTTTGTATAATGTCGGCATCTGGGTCTGTAACTGGGTGATCTGGTTCGGTGAGGGACACGGCTTCCTGCTGGAATCTTTCTTATACCACCGCATTTATGATACAGCGATTTTCTGGTCGTACTTAACCATCATCCCAACGCTCATCATATTTGTCGTGTCCGTTGAAACCCGCTTCTACGAGCGGTACCGGGTCTTTTACGGCTATATCAATGAAGGGGGAACACTTTCGCAGATCAAAAATGCCAAAGCAGCGATGCAGCGCGTGTTGAAACAGGAGATGGAGCGTCTGATCCGCAGCCAGGGGCTCTTTTCCCTGCTGATCCTTCTGACTATCGGAAGTCTTGCCTCCTTCCTGTCGTTGGAGCCTGAAATTGCGTCGATTTTCCGATTTACGACCATCGGTGCCTTTGCCAATGCGATGGTTCTTGTCATCACACTGATCCTTCTTTACTTTGAAGACCGCAGAGGAGCGATGTGGACATCGATCATCTTCTTCCTATTGAATTTGGGTCTGTCCCTGCTGTTTCTCCCCTATGGCTATGATGGCTATGGGTTAAGCTTTTCCATCGGGTCCACGCTTGCATTTCTGTTTGCTTTAGCAAGATTGATTCTCTTTATTGAAAAAGTAGATTACCAGGCCTTCTGTCAGCCGCAGGCGCTCACCTATACGAAAAAGCGCACCCCTTTTACAAAGCTGGGAGCATGGATGAACAAATCCACACTCTTCTAA	MAGIGFKLQKLFQEDYFSSRIKAYAFAGLVTSGPWLVVIATIAVIQWMTSFFSLLDLQERELFNLSVAYCFIFSQVLFGVQQLVVTRYTADLFYERRTEAIFPTFIGMTKVTLALAFIGWLIFFWISPLPYYFKWLMLILFVTVNLIWVLFLFLSAAKFYQAVAYSFLAGGGAALLLVFLFGKNAAWFPIFEHSNSFFLLAGFTSGMLVTLFGLFMSMLMTFPNRSKENQFSYLNYFDRFPSLFWTGFLYNVGIWVCNWVIWFGEGHGFLLESFLYHRIYDTAIFWSYLTIIPTLIIFVVSVETRFYERYRVFYGYINEGGTLSQIKNAKAAMQRVLKQEMERLIRSQGLFSLLILLTIGSLASFLSLEPEIASIFRFTTIGAFANAMVLVITLILLYFEDRRGAMWTSIIFFLLNLGLSLLFLPYGYDGYGLSFSIGSTLAFLFALARLILFIEKVDYQAFCQPQALTYTKKRTPFTKLGAWMNKSTLF	PGPT0026090_40	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-PEL_POLYSACCHARIDE_METABOLISM	CE-EPS-PEL_POLYSACCHARIDES_BIOSYNTHESIS,PGPT0026090-pelG-K21012	NA	NA
AK012_02756	765			hypothetical protein	ATGAGGGAATCGACAGAGCGTGACCTGTTTAATGAAGAGAAGGAAATTCTGCACAGGGAGATCACCGAGTATTCGATGGAGCCGACGGTAATTCACTGCAGCCATGAAATTCTTCATATAAATGAAGCAGCTTCTGAATTTTTTGGAATGGAGAAGGAGCAGATTATTGGAAGGAATGTCGTGGATGTGTTTACAGAAGACTTCAGGTCTTTTATCCGCGACCGGATTAAGAAAGGAGAGCAACAGGGCAGGATTGGTGAGCTGGTGGAAACAACTGTGTATCGCGGAGACGGATCGGTTGTGGAGGTGGAACTCTTCTGTCATCCAATTAAATATGAGGAAACGAAGGCGATACAATCCATTCTCCGTGATATGACCGCACAGAAAGAAGCGGAGCGCGAACTGATCAAGGTGATGACTCCCATTGTTCCACTCAAGGAGGGAGTGGCCGTTCTTCCGCTGATCGGCACGATTAATCGGACAAGGGCAGAGCATATGATCCAGCAGATCTGTGAGGAAATCCCCCGGCACCGTCTCCACTACTTAATTATCGATGTATCGGGCTTGTATGATGTGGATGAACACGCGGGGAAATTATTATATGAACTGACGGGTGTTCTCAAGCTTCTCGGTATTCAACCGATTTGTACAGGTATCCGTCCGGATATGGTAAGAAATACATTAAAATTTCTCAATTGGGATGGAAAGGGCCTTATTCCAACGATGGCTTCGGTCAGTTCGGCTCTCAGCAAAATCGCTTTTTAA	MRESTERDLFNEEKEILHREITEYSMEPTVIHCSHEILHINEAASEFFGMEKEQIIGRNVVDVFTEDFRSFIRDRIKKGEQQGRIGELVETTVYRGDGSVVEVELFCHPIKYEETKAIQSILRDMTAQKEAERELIKVMTPIVPLKEGVAVLPLIGTINRTRAEHMIQQICEEIPRHRLHYLIIDVSGLYDVDEHAGKLLYELTGVLKLLGIQPICTGIRPDMVRNTLKFLNWDGKGLIPTMASVSSALSKIAF	PGPT0014945_1408	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
AK012_02757	2247	katG		Catalase-peroxidase	ATGCATAAAGATGATCTTCACGGAAGCCAGGGCGGGCAGTGCCCGTTCACTGGTAAAACGACAGGTGGTACAGAGGAAGAAACAGCCATTACGACACAAAAAGTAGGAACGACCAATAAAGACTGGTGGCCGAATATGCTGAACTTGAATATTCTGCACCAGCACGATAAGAAAACAACGCCTATGGGCGATGACTTTGATTATGAAGAAGAATTCAGCAAGATTGACTATGACCAATTGAAACAGGATCTTCACGACCTGATGACGGACAGTCAGGATTGGTGGCCGGCGGATTACGGTCATTACGGCCCCCTTTTCATCCGTATGTCCTGGCACGCAGCCGGCACCTACCGTACCGGGGACGGACGCGGTGGTGGTGCAACAGGAAACCAGCGTTTCGCTCCATTGAACAGCTGGCCGGACAACGCCAACATCGATAAGGCCCGCCGTCTGCTCTGGCCGATCAAACAGAAATATGGCAACAAGCTTTCCTGGGCTGACCTGCTCGTCTTGACGGGTAACGTTGCTCTCGAATCCATGGGATTGAAAACGTTCGGCTTCGGAGCCGGCCGTGAAGACATCTATCACCCGGAAGAGGACGTCTACTGGGGTACAGAAAAAGAATGGCTGGCGGATAACCGTTATTCCGGCGACCGTGACCTTGAAAATCCATTGGCTGCTGTCCAGATGGGATTGATTTACGTCAACCCTGAAGGACCGAACGGCAACCCGGATCCACTTGGCAGTGCCCGCGATATCCGCGATACATTCGGACGTATGGGAATGAACGATGAGGAAACAGTTGCTTTGATTGCCGGTGGACACACCTTCGGTAAAGCCCACGGCGCCGGAGATGCCGAAGCACATGTCGGACCTGATCCGGAAGCGGCACCGATTGAAAACCAGGGACTTGGCTGGCAGAGCACACACGGCAGCGGAAAAGGCCGCGATGCGATCACCAGTGGCGTAGAAGGCGCATGGACAGCGAACCCGACAACATGGGACAACGGCTTCTTTGATCTTCTGTTCGGCTATGAGTGGGAGCTTTCCAAGAGCCCGGCTGGTGCCAACCAATGGGCACCTGTCAACCAGCAGGAAGAACACATGGCTCCTGACGCTGAGGATGCATCCATGAAAGTCCCAACCTTCATGACGACAGCGGATATGGCCCTTCGCATGGATCCGGATTATGAGAAGATTTCCCGCCGTTATCATGAAAATCCGGACGAATTCGCAGATGCATTCGCCCGTGCATGGTTCAAGCTTCTTCACCGTGATATGGGACCAAAAGCAAGATACCTTGGACCTGAAGTACCTGAAGAAGATTTGATCTGGCAGGACCCTGTACCTGAAGGAAACTACGACCTGTCTGATGCAGAAATTGAAGACATCAAGTCCCACATTCTTGATTCTGAACTGACCATCAGCGAACTTGTCAAAACCGCCTGGGCTTCTGCGAGCACGTTCCGCGGGTCTGACAACCGTGGTGGAGCCAACGGAGCGCGCATCCGTCTGGAACCACAGAAAAACTGGGAAGTCAACGAGCCGGAGCAGCTGGCCAAAGCTCTTGATGTGTACGAGCGCATCCAGGATGAGCTCGATCATGAGATCAGCCTGGCTGACTTGATCGTCCTTGGCGGTTCTGCAGCAATCGAACAGGCAGCGAAGGATGCAGGTGTCCACATCACTGTACCATTCGCACCTGGACGCGGAGACGCTTCGGAAGAACAAACCGACGCTGAAAGCTTTGAGGTATTAGAGCCGATGGCTGACGGTTTCCGTAACTACGAGAAGAAAAAATACACGCTCAGTCCAGAAGAACTGCTTGTCGACAAAGCACAGCTGCTCGGACTGACGGCTCCTGAAATGACCGTTCTTATCGGCGGTATGCGTGTCCTTGGCGCGAACTATGAGGATACAGATCTCGGTGTCTTCACCAACCGTGTCGGCACATTGTCCAATGACTTCTTCGTCAACCTGCTTGATATGGGCATTGAGTGGAAGCCGGTGGATTACAACCGCTATGAAGGCCGTGACCGCCAGACCGGCGAGCTTGTACGTACTGCTTCCCGCATAGACCTTGTCTTCGGTTCAAACTCTGTGCTTCGTTCCATTGCAGAAGTCTATGCCACAGAGGACAACAAAGAGAAATTCGTCCATGATTTCGTATCCGCATGGGTAAAAATCATGAACGCTGATCGTTTTGACCTAAAAAAGAACAAGAACCTGGCTTATAACCAGGCATAA	MHKDDLHGSQGGQCPFTGKTTGGTEEETAITTQKVGTTNKDWWPNMLNLNILHQHDKKTTPMGDDFDYEEEFSKIDYDQLKQDLHDLMTDSQDWWPADYGHYGPLFIRMSWHAAGTYRTGDGRGGGATGNQRFAPLNSWPDNANIDKARRLLWPIKQKYGNKLSWADLLVLTGNVALESMGLKTFGFGAGREDIYHPEEDVYWGTEKEWLADNRYSGDRDLENPLAAVQMGLIYVNPEGPNGNPDPLGSARDIRDTFGRMGMNDEETVALIAGGHTFGKAHGAGDAEAHVGPDPEAAPIENQGLGWQSTHGSGKGRDAITSGVEGAWTANPTTWDNGFFDLLFGYEWELSKSPAGANQWAPVNQQEEHMAPDAEDASMKVPTFMTTADMALRMDPDYEKISRRYHENPDEFADAFARAWFKLLHRDMGPKARYLGPEVPEEDLIWQDPVPEGNYDLSDAEIEDIKSHILDSELTISELVKTAWASASTFRGSDNRGGANGARIRLEPQKNWEVNEPEQLAKALDVYERIQDELDHEISLADLIVLGGSAAIEQAAKDAGVHITVPFAPGRGDASEEQTDAESFEVLEPMADGFRNYEKKKYTLSPEELLVDKAQLLGLTAPEMTVLIGGMRVLGANYEDTDLGVFTNRVGTLSNDFFVNLLDMGIEWKPVDYNRYEGRDRQTGELVRTASRIDLVFGSNSVLRSIAEVYATEDNKEKFVHDFVSAWVKIMNADRFDLKKNKNLAYNQA	PGPT0013165_600	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PHENYLALANINE_DEGRADATION,PGPT0013165-katG-K03782	NA	NA
AK012_02758	732		COG2326	Polyphosphate:AMP phosphotransferase	ATGCTGGAATCTGTAGACTTATCCTTGAGCATTGACAAACCGCAGTACAAAAAGGAACTGAAGGAGACACAGCTGAAGTTACTTCAGCTTCAGCGCCCGATCTACGATCAACAGTTAGGGGTGGTCATCGTTTTTGAAGGATGGGACGCTTCCGGTAAAGGTGGTGCCATCAAGCGGATTACGAGCGGTCTCGATCCTCGCGGCTTCGAGGTCCATGCGATCGGTGCTCCTTCTACAAATGAAAAGCGGCACCATTACCTCAAAAGGTTCTGGAATAAGCTCCCTCCCTATGGGAAAATAGCCATCTTTGACCGCTCTTGGTATGGACGGGTGCTTGTGGAGCGGGTCGAACATTTCGCATCAGGGCAGGAATGGAACCGTGCCTATGATGAAATCAATCAATTTGAACAGCTGCTTTCCCAGGACCGCTATGTGGTAATCAAGATATGGATGCACATATCAAAAGATGAACAGCTGAGACGGTTTCAAGAACGACAATCCGACCCACTGAAAAAATGGAAAATCACTGACGAAGACTGGCGGAACCGCTCCAAGTGGGACATGTATGAAGAAGCGGCAGAGGATATGTTCCGATATACTTCTCCCTCTGATTGTCAGTGGCATATTGTCGAGGGAGAAAACAAGCATTATGCCCGTGTGAAAACCAACCGGATCATTATTGAGGAAATTGAAAAAAGATTGCAGCACGTCCCTTCCCGTATCCATCCATAA	MLESVDLSLSIDKPQYKKELKETQLKLLQLQRPIYDQQLGVVIVFEGWDASGKGGAIKRITSGLDPRGFEVHAIGAPSTNEKRHHYLKRFWNKLPPYGKIAIFDRSWYGRVLVERVEHFASGQEWNRAYDEINQFEQLLSQDRYVVIKIWMHISKDEQLRRFQERQSDPLKKWKITDEDWRNRSKWDMYEEAAEDMFRYTSPSDCQWHIVEGENKHYARVKTNRIIIEEIEKRLQHVPSRIHP	PGPT0002695_622	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002695-ppk2-K23753	NA	NA
AK012_02759	579			hypothetical protein	ATGAAAAAACCCGTCTATGACCGCTATTATGAAGAACCTCAATACTTTGGTGAGCCCTATCCGGGACTTGTACAGTTCTTTGAGTCCTATGAACCGAAAGGACACGTGCTGGATTTAGGATGCGGCCAGGGGAGGGATGCCCTGTGTTTAGGAAGGTTAGGCTATACAGTGACAGGGGTGGACATTTCAACGGTCGGCCTTGAGCAGATGAACCAATCAGCGCGTGATGAGCAGCTGGCCGTCGAAGGGATAGCAGGAAATCTGTATGCGTACCCGGTATCCCGGGACCACGACATTGTCCTGCTTGATTCCATCCTGCATTTTTATAAAAGGGACCGGGAAAAAGAAACGAAATTGATCCAACGTGTCGCCTCTGAACTGCGGGATGGCGGAATTCTTGCCAATTTCATGATTCAGGGAGAGGAAAGGGAGCAGCACCTGAAGCGCGTGCTGAATGAGATGGATTCCGACTGGCAAATCCTTTGTGATGATTATACAGACTACCCTGCCTTTCACGCCTCGTATCATATGCACATTGTGAAGAAAATAGGGGAATGCCCTCAAAAAAACCATCCCTGA	MKKPVYDRYYEEPQYFGEPYPGLVQFFESYEPKGHVLDLGCGQGRDALCLGRLGYTVTGVDISTVGLEQMNQSARDEQLAVEGIAGNLYAYPVSRDHDIVLLDSILHFYKRDREKETKLIQRVASELRDGGILANFMIQGEEREQHLKRVLNEMDSDWQILCDDYTDYPAFHASYHMHIVKKIGECPQKNHP	PGPT0004925_682	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_TELLURIUM_RESISTANCE	TELLURIUM_RESISTANCE-TER-SYSTEM,PGPT0004925-tehB-K16868	NA	NA
AK012_02760	705			hypothetical protein	ATGCTGCATTTCATTAATGAGTTGCGATCACACCGTACAGATGCTGGAGTTTTCAACCCATGGAAGGATTACTCGGAACACCTCGATATCGACTCTGATGCGCCATTAATCAGAACAGAACATCTCACCAGGTACTTACAACAGAGAAAATCAACCGCAGAGTATATCTTTGTAGCAGAAGCGTTAGGGTATCAGGGTGGACGGTTTTCAGGAATTCCTATGACATCAGAAAGAATCATGACTGGTACTCACCGTGACGTAGGTTGTCGGCACGTGTTCAAAGGGGAGCCGGGACAGCGGACCAGTCATCCTGAGTCCGATTATCCAGGCTTCAGAAATTCTTGGAAAAAGGCAGGTTTCAGTGAACCGACAGCTTCTATTGTATGGAAAACGCTGCTTGAAAATAACATCGATGCTTACAAGGTGATTTTTTGGAATGTCTTTCCCTTTCATCCTTATCACGAGGAAAAAGGGCTGCTTTCCAACCGGCCTCCAAGAGCTGAGGAATTACGAGCAGGAATAGAGTATTTAAGAAGCTTTATCGAATACTGCCCTCCTGGTATTAAGGTGGTTGGTATTGGGAAATATGCGGAGGAAAAACTGAAGGAGTATGGAATGAAAAGCATTTCTATCCGACATCCTTCCTATGGCGGTGCACCGGAGTTTAAAGAAGGATGTAGGAAGCTGTTTGCCACTAGACCTTAA	MLHFINELRSHRTDAGVFNPWKDYSEHLDIDSDAPLIRTEHLTRYLQQRKSTAEYIFVAEALGYQGGRFSGIPMTSERIMTGTHRDVGCRHVFKGEPGQRTSHPESDYPGFRNSWKKAGFSEPTASIVWKTLLENNIDAYKVIFWNVFPFHPYHEEKGLLSNRPPRAEELRAGIEYLRSFIEYCPPGIKVVGIGKYAEEKLKEYGMKSISIRHPSYGGAPEFKEGCRKLFATRP				NA	NA	NA	NA	NA
AK012_02761	300			hypothetical protein	GTGGAATATAACCGCGAAGAAGAAGTCATTCGTAACTACCAAAAAGGCGAAAAAATGATGATCCTGATTTTTGCCCAGTGGTGCATCAATCATGATCTCGATCCCATCACGATTTATACAGAAGCCTATCCCCACCAGGAGAAGAATAAAGAGTTGATCGAAGCGCTGGATCTGACTGTTCCGAAGAAGGAATCCGATCCCATTGATTCAGAAACGATTCTGGAGGTCCTTTCCCTTTATGGAAATGACGACCTTGCTTTTGTCGTCTCTGATTATATCCACCGTAAAAATCTTGAATAA	MEYNREEEVIRNYQKGEKMMILIFAQWCINHDLDPITIYTEAYPHQEKNKELIEALDLTVPKKESDPIDSETILEVLSLYGNDDLAFVVSDYIHRKNLE	PGPT0014312_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014312-yxiS-NA	NA	NA
AK012_02762	855			hypothetical protein	ATGGACAACCTCTACTCTTCTACGCTTGAGTATTTGGAAAGAGCATTCATGCCGCATACATCCGAATATCAGCGCTATATCGATTTTCAAACGATGAGAGATATGAAGCAGGTCACCAAAGAGAAACGGCCGGTCTATTTCGACCTGGAAATCAAAGAGCTGGCGGAAATGAACAGAAGGTACATTCTGGATGGGTTTTGGAACGGAATATTCTTTACGGCCGTCCTTCCCACCTCCAATACATTCAAGTGTACGATCGAGTATTACGGCAAGCCGCCGAAAATGCTGATCGGCCGGTTTGAAATGGGCGAGGAAGTCAAAAGCTTCTCCCCTGCGTTCCTGAAGGAAGAGTTCAAAAGAAAAAAAGTGCTCGGGGACACATTACGGGATTTTTCGGAGATTTTGTTTACCTATTTGAATACGTACGTCAACGATATGGATGTATCCATAGAAACTACAACCTTTGAAGATGTTGAAAACCCCATATTTGAGGAATGGGAATTTCCATTTCTCGAAAATCACCCCGATCTTCAAAAGGAGTGGGCTTCTTTAAAGGAACGGACAGCAAACCAATTCAAACGCCTGGACGAACTCGACATTGAAGACCAGTACGCTCTCGAGACCATGATGGACAAAGATGTTCCTGACTTCATCGCATCATTCCACCGTTTGTCTGATGAGAATAAGGAAAGCCGGAAGCATGAACTGGTGGAGACGATGTATGATTTAAGTCGGTTCATCGAAACGCTGGAACGGAAAGAAGAGGAAAGCTACGCGCAGAACTTCGCCAGAAGCAAAGGGATCATCGCTTCCAAGTACAACAAGGAAGATGAAAACTTCCTCTCCAGGAAGTGA	MDNLYSSTLEYLERAFMPHTSEYQRYIDFQTMRDMKQVTKEKRPVYFDLEIKELAEMNRRYILDGFWNGIFFTAVLPTSNTFKCTIEYYGKPPKMLIGRFEMGEEVKSFSPAFLKEEFKRKKVLGDTLRDFSEILFTYLNTYVNDMDVSIETTTFEDVENPIFEEWEFPFLENHPDLQKEWASLKERTANQFKRLDELDIEDQYALETMMDKDVPDFIASFHRLSDENKESRKHELVETMYDLSRFIETLERKEEESYAQNFARSKGIIASKYNKEDENFLSRK				NA	NA	NA	NA	NA
AK012_02763	1122			hypothetical protein	ATGAGTAACCATTCCACCTATAGGGACAAAGAAGCGGAACTGAATCATCAGGACCTGCGGGAAGCTATGACGCTGATTAAAAAAGAAGACCTCGACCGATTGAATGAGGAAGCGGAAACCTATGCCGGACAATTCGATGCCTCAAGGGATGACTCCCTCTCCGATGTGATGAGGGAACTCGGAGATCTCGGAGAAAAAGAACAGCGTGTCGCCGGGGAAACGATGGAAACGTTGAAGCGTCCGGTCAACGACCTTATGACCAAGGGCAATAACGACATCCCCCAGTCTTTGCAGGAGCTTGAAACGATCGTATCGGACCTTGACCCCAAGCGTACAGAAGGAAACGGCGTGCAGCGCTTCTTTTATAAACTCAGTAAGAAGAAACCGATTGACCGCTACATGAAGAAGTACGAAACCGTCGACTCGAAAATCGATACCGTCGTCCGCAGCCTGCTTGCAGGGAAAGACCGTCTTGAAGAAGACAGCGTTGAACTGCAGCTGATCAAAGAAAACGCCCAAAAGCGGATTTATGACCTGGACAAGCAGATATATCTCGGAAAAAAACTGTTTGAGCTGTTGAAGGAAAAAGAAGCCACAGGTGAATATGACCTTGCATTGATTACCGAGGGCAAAGAGAAAATCATTACACGCACGAGAAACATGACGCAGATGAAAAGTGTGCTGCATCAAAGTATCTCTTCTGTCGATATCATTAAGAAAAACAATGAAAAGCTGAAGGAATCCATCCGCAATGCGGTAACGCTGACAAAAAATATCATTACCGTCTCCGCCTCCATCCAGCTCGCCTTGAGTAATCAGCGGAAAGTGATCGATACCGTGAACGGCGTAAATAAAGCGACCGAAGACATGCTGCTGTCAAACTCCAGAAATTTGAAGCAGAATGCAGAAGAGACGACACAGATGATGGAGAATCCGGCCATCAGTATGGAAGCTCTTCAGGAATCCTTCGATAACGTGTTTGAAGCACTGAAGACGACCGAGCAGTCGTCGGAGCGGATCATTGCTTCGAGTGAACAGTTCATTGAAGAGATGGACGCATTGAATGAGAATGTCAGAAAAAAATTATCACAGACGACCACTCAAAGAGCGCTTCGTGACTGA	MSNHSTYRDKEAELNHQDLREAMTLIKKEDLDRLNEEAETYAGQFDASRDDSLSDVMRELGDLGEKEQRVAGETMETLKRPVNDLMTKGNNDIPQSLQELETIVSDLDPKRTEGNGVQRFFYKLSKKKPIDRYMKKYETVDSKIDTVVRSLLAGKDRLEEDSVELQLIKENAQKRIYDLDKQIYLGKKLFELLKEKEATGEYDLALITEGKEKIITRTRNMTQMKSVLHQSISSVDIIKKNNEKLKESIRNAVTLTKNIITVSASIQLALSNQRKVIDTVNGVNKATEDMLLSNSRNLKQNAEETTQMMENPAISMEALQESFDNVFEALKTTEQSSERIIASSEQFIEEMDALNENVRKKLSQTTTQRALRD				NA	NA	NA	NA	NA
AK012_02764	345			hypothetical protein	TTGAGTCAACTACTGAACTCACTGCTGACCGAACAACGGCGAGGAAATTTGACGTTAGCGGTTTTAAGCCAGCTGCGCACCCCGCAATATGGATACTCTCTCGTAAAACGTTTAGAAGGATCGGGCATCACCATCGAACAAAGCACACTTTATCCTCTGCTGCGCCGGCTGGAAAAAAAGGACCTCGTCACGAGCAGCTGGGATACATCAGAGTCCCGCCCACGGAAGTATTATGTATTGAGTGATTATGGGGAAAGTATTTTTCAGACCTTGAAGGAAGAATGGAAAAAAGCGACGAACGAATTGTTCCAACTACTGGAGGAGGAGAACAATGAAATGGATTGA	MSQLLNSLLTEQRRGNLTLAVLSQLRTPQYGYSLVKRLEGSGITIEQSTLYPLLRRLEKKDLVTSSWDTSESRPRKYYVLSDYGESIFQTLKEEWKKATNELFQLLEEENNEMD				NA	NA	NA	NA	NA
AK012_02765	1035			hypothetical protein	ATGAAATGGATTGAGGTCTACTTACAAGAAGTTGAGCGCCGGCTTCCAGAAAAGAACCGGGAGGACATCCTGCTTGAGATTCAATCGACCATTCAGGATATGCTTCCAGAGAACCCTTCAGAAACTGACGTCAAAAACGTCCTTCAGGAACTGGGGGACCCTGTAAAGCTTGCCCACGGATATAGTGAAAAGCCGCTGCATCTGATTGGTCCCCGTTATTATGATCTTTATATCTCCCTCATCAAATTGATCCTGCCGATTGCGATTACCGTTTCATTGATCACTCTACTCGCTGAAAATATCATCGGGAACGTTGAGGAAACGAGCTTGATTGGGATGATTCTCTCCATACTTGGTAAAGGTCTATGGCTGATCCTTTCAGTCGGCATGCAGGTCTTTTTCTGGATCACGGTCATATTCGCCCTGATCGAGCGTGTGGATTTCAGCGCCGAATATGAAGAATCGACGCCCTCGCGTAAAGCATGGACACCGGAAAAGCTGAGAAAAGTCTCTCACACCCCAAGGAAACGTGCGATACCTCAATGGGAAGTTTATGGGACGATTATATGGACAGCGATCTGGGCCACTGTCTATTTCCACGCCGACCAATTGTTAGGGATCTATGAAAATCAGGGAGAAGGAATGAGCTTCATCACCCCGGCTTTGAACCAGGATGTCCTGCTCAGCTATTGGCCAGGGATTGTCCTTGTCATCGGTTTAGAAATTGCCTTAGCTCTTTATAAGCTGTTGAAGAAAGAATGGAGCAAAGATGTCGTTTGGTTCAACACAATTCAGGAACTCCTGTCTATAGGCATTTTCGTTTGGATCATTACGGATGAAAGACTCTTTCAATCAGCCTTCATCAACTACATCTCTGACCTCTTCCAATGGAATTCCGCTCAAGTCGCGGATGGTCTGGCTTGGAGAATCGCCGCCATTTTTATCATTTTTGCAGTATGGAACATCCTTGACGGCTTCATCAAGTACAAAAAAGGTGTGAAGAAGACTAAGCTGACAAATGAATTCAGTCCATAA	MKWIEVYLQEVERRLPEKNREDILLEIQSTIQDMLPENPSETDVKNVLQELGDPVKLAHGYSEKPLHLIGPRYYDLYISLIKLILPIAITVSLITLLAENIIGNVEETSLIGMILSILGKGLWLILSVGMQVFFWITVIFALIERVDFSAEYEESTPSRKAWTPEKLRKVSHTPRKRAIPQWEVYGTIIWTAIWATVYFHADQLLGIYENQGEGMSFITPALNQDVLLSYWPGIVLVIGLEIALALYKLLKKEWSKDVVWFNTIQELLSIGIFVWIITDERLFQSAFINYISDLFQWNSAQVADGLAWRIAAIFIIFAVWNILDGFIKYKKGVKKTKLTNEFSP				NA	NA	NA	NA	NA
AK012_02766	1584		COG1292	Glycine betaine transporter 2	ATGAACGAACAAACCGACAGAAAAACGAGAATTGACTGGATCACATTCAGCATCAGCGGAGGCTTTCTTGTCTTATTTTTACTGATGTCTCTTTTAAACAAAGACCTCATGGGAGAATGGATCTCAAGCTCGTTCGACTTTTCTGTTACATTCTTTGGTGTCTTTTGGCAGCTGCTGCTGCTTGCTACCTTCGTAGTAGGCGTTGCACTTGCCTTATCGAAATATGGAAAAGTGAAATTAGGAAAAAAAGATACACCCGAAAACGGCTGGTTCCGCTGGGTGTCGATGATTCTTTGTACACTGCTTGCCAGTGGCGGAGTCTTCTGGGCAGCCGGAGAACCGATTTATCACTTTTTAACAACGCCACCGCTGTTTGCTGATGAGGGAATGACTAGGGCACAAGCCGTTGTCCCAGGGCTGGCGCAAAGCTTTTTCCACTGGGGCTTTACTGCCTGGGCCTGCTTAGGTACGGTAGCTACCATCGTCCTGATGTATGCCCACTACCATAAAGGGTACCCGCTGAAACCACGGGCGATCCTGTATCCGATGGTCGGCGAGAAAATTTTCAACAAGAAAAGTGTCATTGGAGCAGCTGCTGACATCGTCTCGGTCATTGCTGTTGCCGCTGGAACTATTGGACCGATCGGCTTCTTAGGCCTACAGGTCGGTTATGCGCTCAACTATTTATTCAATATCCCGGACACCCTGTTTACGCAGTCCATTGTCATTATCTTTCTCGTGACGATTGCTGCCGTTTCAGCCGCTTCCGGTGTAGATAAAGGGATTCAACTGCTCAGCCGCCTCAACGTAGGATTCGCTGTCGTTCTGATGATCGGCATGCTTATTCTCGGGCCGACGATGTTCATCATCGATTCATTCGTCGCCGCCGAAGCTTTCCAAATCCAGAACTTCCTGCGGATGAGTCTTTACCGCGGAGATAGCGGCTGGCTCGGTTATTGGACCGTCTTCTTCTGGGGATGGTTCCTCGGTTTCGGACCGGCGATGGCGATGTTCATCAGCCGTATTTCCAGAGGCCGTACCATTCGTCAGCTGATCCTTGCCGTAGCGATCCTCGCTCCGATCGTAAGTAACTTCTGGTTTGCTGTTGTTGGAGGTTCCGGTCTGTTTTACGAACTGGAATCACCAGCAGCCGTTTCAACCGCTCTCAATGAAACAGGCATGCCTGCCGCTGTTATGGCGATTATGGAGCAGGTACCATTCGGAATGGTCATGGCTGCAGGCTTCTTGATTGTCACAATTATTTTCGTCGCAACAACCGCTGACTCGATGTCCTATTCCGTCGCCGTCACACTTACAGGCGATACCCACCCGCCACGTGTCCTGCGCGTATTCTGGGCCTTGTTGTTCGGAGGCATCGCCGCAGCACTTCTAGGTATTGGGGAAAGCAGTATTCAAACGCTGCAGAATTTCATCGTTGTCACAGCTGTTCCCGTTTCACTGCTGCTGCTGCCACCTGTCTGGCTCGCACCGAAAGTAGCGAAACAGATGGCGGAGGAGCAGGGACTGATCGCTGAACGCAATATACCTGTATCGGTTGAGGAAAAAGAACGAAAAACTTCATAA	MNEQTDRKTRIDWITFSISGGFLVLFLLMSLLNKDLMGEWISSSFDFSVTFFGVFWQLLLLATFVVGVALALSKYGKVKLGKKDTPENGWFRWVSMILCTLLASGGVFWAAGEPIYHFLTTPPLFADEGMTRAQAVVPGLAQSFFHWGFTAWACLGTVATIVLMYAHYHKGYPLKPRAILYPMVGEKIFNKKSVIGAAADIVSVIAVAAGTIGPIGFLGLQVGYALNYLFNIPDTLFTQSIVIIFLVTIAAVSAASGVDKGIQLLSRLNVGFAVVLMIGMLILGPTMFIIDSFVAAEAFQIQNFLRMSLYRGDSGWLGYWTVFFWGWFLGFGPAMAMFISRISRGRTIRQLILAVAILAPIVSNFWFAVVGGSGLFYELESPAAVSTALNETGMPAAVMAIMEQVPFGMVMAAGFLIVTIIFVATTADSMSYSVAVTLTGDTHPPRVLRVFWALLFGGIAAALLGIGESSIQTLQNFIVVTAVPVSLLLLPPVWLAPKVAKQMAEEQGLIAERNIPVSVEEKERKTS	PGPT0013600_675	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK012_02767	291	cas2	COG1343	CRISPR-associated endonuclease Cas2	TTGTTAGTTGTTATCACTTATGATGTGAGTACAATAGATGCACCTGGCAGGAAACGGCTTCGGAAAGTTGCGAAGACATGTCTCGTCTATGGTATAAGGGTTCAAAATTCAGTTTTTGAGTGTGTTGTGGATTCAACGCAGTTAAAAGAACTCGAACTTAAGCTTTTAAGTGTAATGGATGAAAAGAAAGATAGTTTAAGGATTTATCGCTTAGGTGAGAACTATAGGAATAAAGTTAAGCACTTTGGTGTGAAGGAATCCGTGGATGTGCAGGACCCTTTGATTTTGTAA	MLVVITYDVSTIDAPGRKRLRKVAKTCLVYGIRVQNSVFECVVDSTQLKELELKLLSVMDEKKDSLRIYRLGENYRNKVKHFGVKESVDVQDPLIL	PGPT0026890_881	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
AK012_02768	1032	cas1	COG1518	CRISPR-associated endonuclease Cas1	ATGAAAAAACTCTTAAATACATTGTTTGTCACAACACCGGAAGCTTATCTAACGCTGAGTGGCGAGAATATAGTGGTAAAAGTAGATAATGAAAGAGTGGGACGTCTCCCTCTTCACAATTTAGAGGGAGTGTGTTCATTCGGCCACGCCGGCGCCAGCCCGAAGCTTATGAGTGAATGTGCTAAGCGGAATATTTCTCTCGTTTTCCTGAATAGGAATGGGAAGTTTATGGCTCGCGTGATTGGTGAGAGCAGAGGCAACGTTACACTTAGGAAGCAGCAATATAGAATATCCGATGATGAAGAAGCCAGTGCCAAAGTGGCTCGTAACTTCATACTGGGGAAGGTTTTCAACAATAAGTGGATTCTGGAGCGGATGAAACGAGACTACGCACTTAGAGTTGATGTAGAACAATTTAAACATGCATCTCAGCTTTTGTCAGACTCATTAGCTGCGATTCGAGAAGTAGACGACCTTGAACTGCTGCGAGGTTTTGAAGGTAGAGCAGCTATTACTTACAATCAAGTGTTTGATCAGCTTATTTTGCAGCAAAAAGAAGATTTTTATTTCCGAGGAAGAAATAAACGTCCTCCACTAGATCGAGTAAATGCTATGCTTTCCTTCGCCTATACGCTTCTTGCGAATGACGTCGCATCAGCGTTAGAGGGTGTCGGATTGGATGCTTATGTAGGCTTTCTTCATAGAGATCGACCAGGACGGCCTTCGCTCGCTCTTGATTTGATGGAAGAACTTCGAGGAGTGTTCGCTGATCGCTTTGTTCTCTCATTAATCAATCTGAAGAAAGTGAAAGCTGATGACTTTTTGATTAAAGAGAACGGTGCGGTTATTATGCAGGATGAAGCAAGGAAAAATTTCCTGAAAGCATGGCAGGAAAGGAAACAAGAGAAAATAACCCATCCTTATTTAGGAGAGAAGATTTCGTGGGGGCTCGTACCTCATGCTCAAGCGCTTCTTCTAGCGAGGTTTATTCGAGGAGACTTGGATGAATATCCACCATTTTTCTGGAAGTAG	MKKLLNTLFVTTPEAYLTLSGENIVVKVDNERVGRLPLHNLEGVCSFGHAGASPKLMSECAKRNISLVFLNRNGKFMARVIGESRGNVTLRKQQYRISDDEEASAKVARNFILGKVFNNKWILERMKRDYALRVDVEQFKHASQLLSDSLAAIREVDDLELLRGFEGRAAITYNQVFDQLILQQKEDFYFRGRNKRPPLDRVNAMLSFAYTLLANDVASALEGVGLDAYVGFLHRDRPGRPSLALDLMEELRGVFADRFVLSLINLKKVKADDFLIKENGAVIMQDEARKNFLKAWQERKQEKITHPYLGEKISWGLVPHAQALLLARFIRGDLDEYPPFFWK	PGPT0026885_490	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
AK012_02769	630			hypothetical protein	TTGTTGTCAGGGATTCAGCATTTTCAATTTTGTAAACGACAGTGGGCTCTTATCCATATTGAGCAGCAGTGGGAAGAGAACGTAAGAACCGTTGAAGGACAGCATTTACATGAAAAAGCCGATCAAGCGTTCATTAAGGAAAAGAGAGGTGATAAGTTAATCGTCCGGGCAATGCCGGTTCGATCAAACACTCTCGGAACAACGGGGATATGTGATGTGGTTGAATTCATAGAAGATGATGAGGGAGTATCTATTCAAGGGTCCACGAAAAAATATAAACCTTATCCTGTTGAATATAAACGTGGAAAACCAAAAAAGGATTTATCGGACATTCTCCAATTAGCGGCGCAAGCTATTTGCTTAGAAGAGATGTTGTTGTGTGAAGTGGAATATGGATACATCTATTATAATGAAGTAAGGAGAAGAGAACAAATTCCAGTGGATGAGTTCCATCGTGAAAAAGTTCGTTCCATTTTTCAAGAAATGCATCAATATTATTCCAAGAGACATACGCCAAAAGTGAAGACAGGACGGCATTGCAGGAGTTGTTCCCTTCAACACATCTGTTTGCCCCGATTAATGAACAAAGAGAGAGCGAAGTCGTATATAGACCGGGTGATTAATCAATGA	MLSGIQHFQFCKRQWALIHIEQQWEENVRTVEGQHLHEKADQAFIKEKRGDKLIVRAMPVRSNTLGTTGICDVVEFIEDDEGVSIQGSTKKYKPYPVEYKRGKPKKDLSDILQLAAQAICLEEMLLCEVEYGYIYYNEVRRREQIPVDEFHREKVRSIFQEMHQYYSKRHTPKVKTGRHCRSCSLQHICLPRLMNKERAKSYIDRVINQ	PGPT0026940_258	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026940-cas4-K07464	NA	NA
AK012_02770	843			hypothetical protein	ATGTCTGTATTACAAAACAAAATTGATTTTGCCGTAGTATTCTCTGTGAAAAATGCGAATCCAAATGGTGACCCATTAAATGGAAACCGTCCTCGTCAAAATTACGAAGGGTACGGGGAAGTATCGGATGTTTGTCTCAAGCGTAAAGTCCGTAATCGATTGCAAGATGCTGGGGAGGCCATCTTCGTACAGTCGGATGAACGTAAAAATGATGGTTTCAAAAGCCTGAAAGACCGGGCTGAGGGTGTGCCTGAATTGAAGAAAGCCAATAAAAATCCAGATGAGTATCACGACATCGCGTGCCAGAATTGGCTTGATGTCCGCAGTTTTGGTCAAGTTTTCGCCTTTAAGGGGGGAGAGTCTACTTCTGTTGGAGTACGTGGTCCCGTCTCCGTTCATGCCGCAGTTAGCTTATACCCAGTGGATATTACAAGTTTACAGATAACCAAGAGTGTTAACTCTACAACATCTGATAAGAAAGGGTCCGATACAATGGGGATGAAGCATCGCGTAGATCACGGCGTCTACACTTTTTACGGAAGCATCAATACACAGCTGGCAGAGAAAACAGGATTTCAAGAAGAGGATGCAGAAAAAATTAAAGCTGCTCTTCTTACCCTCTTTGAAAATGATGCCTCTTCGGCGCGCCCTGACGGAAGTATGGAAATTAACAAAGTATTCTGGTGGGAGCATTCTTCAAAGCTTGGGCAGTATTCATCTGCAAAGGTTCATCGTTCCGTCCATTTCACGCCGAACACAGATGAACCCAAATCATTTTACGATTTTACTGTGGAAGTTGAAGAGTTGGACGGATTAAAAGTGACGACATATGACGGGCAGTAA	MSVLQNKIDFAVVFSVKNANPNGDPLNGNRPRQNYEGYGEVSDVCLKRKVRNRLQDAGEAIFVQSDERKNDGFKSLKDRAEGVPELKKANKNPDEYHDIACQNWLDVRSFGQVFAFKGGESTSVGVRGPVSVHAAVSLYPVDITSLQITKSVNSTTSDKKGSDTMGMKHRVDHGVYTFYGSINTQLAEKTGFQEEDAEKIKAALLTLFENDASSARPDGSMEINKVFWWEHSSKLGQYSSAKVHRSVHFTPNTDEPKSFYDFTVEVEELDGLKVTTYDGQ	PGPT0026980_374	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026980-csd2|cas7-K19118	NA	NA
AK012_02771	1917			hypothetical protein	ATGGGTTGGATCAGCGATCTATACGAAACGTATGAGAACAATCGGAGTCAGGTAGGAGTAGTTACAAAGAAAACAAATGGGAAGTCGTATACGCTTCTTCCGATCGGTCATTCTACACAATATGCACACATAGAAGTCGTAGTAAATTCAAACGGAGAATTTTATTCAGCGAAAGTGGTGGAGGAGAACGACTTAAGCACGGTAATCCCGTGTACGGAAGATTCTGCTGTCAAATCAGGGACAAAGCCGCCGCCTCATCCATTGCATGACAAACTCCAATATGTTGCCGGTGATTACGAGAAGTACGGAGGGAAGCTGGCCGGCGGCTATCAGCCGTACGAAGATTACATTAGTCAGTTAGAGGAATGGTGTCATTCATCTTATGGGAATGACCGACTTTGCGCGATACTGGATTATTTGAAGGAAGGTCGGCTGATTCAAGACCTTGTAGAAGCCCAAATTATTCATCTTGATCAGGATGGCCGCATGATAGAAAAATGGTCAAAAGATAAGACGGAAAAATTCGGGGAGAAACCTGATTTGTTTAAGGTGCTTAACGGTCCGCAAGACAAAGCTTTCGTACGATTCGATACTCATACGCCTGGAAGAGCAAGAGACGAAGTCTGGCGTGATCCCGAGATGTATGAATCTTTTATTGGATTTTACAAAGACAAGCTGCCTGTCGACGACTTGTGTTACATAACGGGTGAGCGGAAGCCAAAGGCCGAAAAGCATGCAAGTGGTCTTAGGCGAGCAGGAGATAATGCTAAACTCATCTCCGCAAATGATACGTCCGGGTATACGTTTCGAGGTCGTTTCAAAGAAAGTAATCAAGTCGTCAGTATCAGCTATGATGCTACACAGAAAGCTCACAATGCTCTGAAGTGGTTGATACACAAGCAAGGAAGAACGGTAGATGAAAGGGTATTTCTTACTTGGGGGTTAACAAATCCAGAAGTTCCCCCACCGGAAAGCGATACGAGTAACGTCTTGAAAAGATTGAAGAAAAATGAACAAGAGTTTCCCGATACACATGATTATTTTGCACAGCAGTTTCGGAATGCTATTGCAGGCTACAAAAATAATCTCGAGTACAATCCTGATGCCAAAATTATCATTATGATTCTAGATGCAGCCACTCCAGGCAGATTATCTGTCTTGTACTTCAGGAATCTGAAAAAAGAAGAATACTTGCGGCGATTGGAATACTGGCACACCACCTGTTACTGGAGGCATCTGTATAAAAAAGATGGTAATAATCGATACCAGGCCTTTTATGGTGCACCTTCCACGATCGATATTGCGCGAAGTGCTTATGGATTCTCAGCCAGTGATAAGTTAATCAAAAACACTATGGAACGACTACTGCCTTGTATCGTGGACGGGCAGAAGGTCCCTTTGGATGTAGTTAAAAGCTTGTACAACCGGGCAGCAAACCCTGTTGCGATGGAAAATTGGGAGTGGGAAAAGACGTTAAGTGTCGCTTGTGCTCTCATCAATAAATATTACGAAAAGGAGGCATTTGAAGTGGCATTAGACACTGATAATCAAAACAGAGACTATTTATTTGGGCGTTTATTAGCTGTTGCTGATGTTCTAGAAAGAAAAGCATTGTCGAAAGACCAGAAAAATCGATCTACAAATGCATTGCGTTATATGAATGCATTCTCTATGCATCCTGAAAAGACATGGACAATCATTCAAGCGAATCTTCAACCCTATCAAGCTAAACTTGGGGGCAGAGCTGTGTATTATACTAAACTCATAGATGATATTGCTTCGCAGTTCAGTTTCGAAGATTTCAATAATAAATCGCTCAGTGGAAAGTATCTATTAGGTTATTACAGCCAGCGACATGAACTTAACACGTGGAAAGATCACAATGAAGCATCAGAAGAAGAAGAGGAGGAATTATAA	MGWISDLYETYENNRSQVGVVTKKTNGKSYTLLPIGHSTQYAHIEVVVNSNGEFYSAKVVEENDLSTVIPCTEDSAVKSGTKPPPHPLHDKLQYVAGDYEKYGGKLAGGYQPYEDYISQLEEWCHSSYGNDRLCAILDYLKEGRLIQDLVEAQIIHLDQDGRMIEKWSKDKTEKFGEKPDLFKVLNGPQDKAFVRFDTHTPGRARDEVWRDPEMYESFIGFYKDKLPVDDLCYITGERKPKAEKHASGLRRAGDNAKLISANDTSGYTFRGRFKESNQVVSISYDATQKAHNALKWLIHKQGRTVDERVFLTWGLTNPEVPPPESDTSNVLKRLKKNEQEFPDTHDYFAQQFRNAIAGYKNNLEYNPDAKIIIMILDAATPGRLSVLYFRNLKKEEYLRRLEYWHTTCYWRHLYKKDGNNRYQAFYGAPSTIDIARSAYGFSASDKLIKNTMERLLPCIVDGQKVPLDVVKSLYNRAANPVAMENWEWEKTLSVACALINKYYEKEAFEVALDTDNQNRDYLFGRLLAVADVLERKALSKDQKNRSTNALRYMNAFSMHPEKTWTIIQANLQPYQAKLGGRAVYYTKLIDDIASQFSFEDFNNKSLSGKYLLGYYSQRHELNTWKDHNEASEEEEEEL	PGPT0026975_125	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026975-csd1|cas8c-K19117	NA	NA
AK012_02772	705			hypothetical protein	ATGAGGAATGAAATAGAGTTTGAAGTTTACGGTCGGTATGCATTATTTACAGATCCTATAACAAAAATGGGCGGGGAAAAGCTTTCATACCAGGTACCTACGTATCAAGCGCTGAAAGGAATTGTAGAAAGCATTTATTGGAAACCGACCATTATGTGGATCATCGATGAAGTGAGAGTGATGAATCCAATTAAGATGGAAGCAAAGGGGGTTCGCCCGATCAAGTTTCAGAATAACAAAAATGACTTGTCCAACTATACCTATTTAAAAAATGTCCACTATCAAGTAAAGGCTCATTTTATCTTTAACCCAAATCGTCCAGACCTTGCTTACGATCACAATGAACACAAGCACCATAATATTGCAAAAAGAAGTGTGAAAGCTGGAGGAAGGCGGGATATTTTCCTTGGAACTCGTGAATGCCAAGGGTATGTGGAACCCTGCCAATATGGAGAAGGGGAAGGATTCTACGATGACGGCGGGGATATTCCGTTCGGGTTGATGGTACATGGAATGAATTACCCGGATGAAACGGGGCGTAATTATATGGAAACCCGCCTGTGGAGACCAGTCATGAGTGAAGGGGTTATTCGGTTCATAACACCTGATGAGTGTGAGTTGGTCCGGCCATTGGCAGAAGTCACGCCAAAAGGGTTCTCAGAAGAAAATCTCCAAATGGCCATAGACCTTGAAGAAGACTTGTAA	MRNEIEFEVYGRYALFTDPITKMGGEKLSYQVPTYQALKGIVESIYWKPTIMWIIDEVRVMNPIKMEAKGVRPIKFQNNKNDLSNYTYLKNVHYQVKAHFIFNPNRPDLAYDHNEHKHHNIAKRSVKAGGRRDIFLGTRECQGYVEPCQYGEGEGFYDDGGDIPFGLMVHGMNYPDETGRNYMETRLWRPVMSEGVIRFITPDECELVRPLAEVTPKGFSEENLQMAIDLEEDL	PGPT0026985_107	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-CRISPR-CAS_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_I_CRISPR-CAS_SYSTEM,PGPT0026985-cas5d-K19119	NA	NA
AK012_02773	2319			hypothetical protein	TTGGCTGCTGTTTCAAAGCTAGCTCTAGAATATGGGGGTAAAATTGACGTTGGCTCTGTTAGTGCATTAGCTGGGATGCTTCATGATGCTGGAAAATTCTCGGATGATTTTTATGATTATATTACTCTCGCGATTAACAACCCTGGCAGGCAGCCTAAACGTGGGAGTGTCGATCATTCCACAGCTGGTGGAAAATACTTATTTGACACCTATCACCAAGCGGGTACACCAGATATGCAGAAGGTAGCAGTCGAGATGATTGGGAATGCTATTTTTTCACACCATGGCGGATTACAAGACTTTGTTTCCCCCCATAACTTGGAGTCTCCGGTAATAAAGAGATCTAGAAAGGAAATCGAGCTAGCTCAAGTTGAGGAACAACTGTTTCGCTATTTTTCAAGAACTGCAGTTCAACACTACATAGAACAGGCAGCAAAAGAAATTGAAAATGTGATTTTGAAGAATGATCACCCCACGAGAGAACCACAAGTTACGCTTACCTTACTGATGAGATATGTCTTCTCCTGTCTAATTGACGCAGACCGAACCAATACAAGAAATTTTGAAGAAAACCTCCCTGATACCACTCAAGAAAGCTACACACTATTGTTTCAACAATACTACGATGATCTAATGCTGCACCTTACTTCCCTGCAGTCCTCACCCATGACGAAAATTAATAAGCTTAGATCCAACATGTCCGAAGCATGCGATCTTTTTGCGTCTAAGCCGACTGGTATTTATACGTTATCAATCCCGACTGGCGGAGGAAAGACACTCGCAAGCTTACGATATGCTTTAAAACATTCCGTTACCTATCAAAAGAAACGTATCATTTATGTACTTCCTTATACGTCCATTATTGAACAAAACGCTCAAGCTGTTCGAGACATAGTAAGCGATGAAACTATGATTCTTGAACATCACTCAAATATCAATCAATCAGACGATGAAACTGATTACATGAAAGATAAAAAAATAAAGCTTGCTAAAGATAATTGGGATGCTCCAATTATCTTTACAACAATGGTTCAGTACTTAGAGACTTTCTATTCTTCAGGAAATCGAAATGCGAGGAGACTGCATAATTTAGCAGACTCGGTTGTGATTTTTGACGAAGTACAAGCTGTCCCGCATAAAACGCTGAGCCTGTTCAACGAGTCCGTCAATTTCCTGCGCAACATCTGTAATAGCAGCATTCTTTTATGCACAGCAACACAGCCTGCTCTTGAGTATGTTGAGCATGGGATTGATCAAGTTGATGGAGAAATTGTACCAGATGTAAGTGGAATCGCTGAAGCATTTAAGAGAGTGGAGGTTGTAGATAAATCGCGTCCGGAGAAGTGGTCCAGTACGGATTTGAAAGAGTTGATCAACCAAAAGCTGGAGAGTCATTCAAGCATCTTAGTCATTTTGAATACGAAAAGTACTGTTCTCAAACTCTATCAATTGTTGAAAAAAGGTGATGTGCCAGTCCATCATCTGAGCACATCGATGTGTGCTGCTCATCGGCGTAAGGTGTTTGGGGAAGTCAAAAAGAAATTGAGAAACGAAGAAAAGGTCGTTTGTATTAGTACTCAACTGATTGAAGCAGGTGTGGATATTAGCTTCGAATGTGTCATCCGCTCAATGGCGGGTCTTGACTCGATTGCACAAGCCGCTGGGCGCTGTAATCGCAACGGAGAATACGACCTTAGAGAAGTATTTGTCATCAATCACGCAGAAGAAAATCTGAAGCACTTACCCACAATCAAGGCCGGAGCAGAAATAGCCGGGAGAATATTGAAAGATATTCAAAATGATGATTTAAAAGGAGATCCATTATCTCAAGAAATGATGGATCTTTACTTTAAGAAATTCTATCATTCATTAAAAAGCGAACTGGAATATCCAATCCCATCTCAATATTACACGTTATACCAGCTTCTTGGTGGAGATGAAAAGGTTGTAAGAGAGTTTAAGAATAAACATGGTGCTGAGTTTCCTTTATTAAATGAATCCAGCTTTGGAACGCTCAGTGATCATTTTAATGTAATTGAACAGTCTTCTACATCCGTAATTGTTCCGTATGACGAAGGAAAAGAGTTGATTGCCGATTTGAACGAGTCCTACTCCATAACGGAAATGGAAGGGGTTTTCAAAAAAATGCAGCTTTATTCTATCAATATATTTGAATATCAGAGGAGAGAACTTGATCAACAAGGAGGACTTGTGCATCACTTGGATGGCAAGATTTTGGAACTCAGAGAATCGTTCTATGATAAAGAGTATGGTTTAACGTTAGAAGAAGGAGCAGCAATGGGACCAGCATTCATGTAG	MAAVSKLALEYGGKIDVGSVSALAGMLHDAGKFSDDFYDYITLAINNPGRQPKRGSVDHSTAGGKYLFDTYHQAGTPDMQKVAVEMIGNAIFSHHGGLQDFVSPHNLESPVIKRSRKEIELAQVEEQLFRYFSRTAVQHYIEQAAKEIENVILKNDHPTREPQVTLTLLMRYVFSCLIDADRTNTRNFEENLPDTTQESYTLLFQQYYDDLMLHLTSLQSSPMTKINKLRSNMSEACDLFASKPTGIYTLSIPTGGGKTLASLRYALKHSVTYQKKRIIYVLPYTSIIEQNAQAVRDIVSDETMILEHHSNINQSDDETDYMKDKKIKLAKDNWDAPIIFTTMVQYLETFYSSGNRNARRLHNLADSVVIFDEVQAVPHKTLSLFNESVNFLRNICNSSILLCTATQPALEYVEHGIDQVDGEIVPDVSGIAEAFKRVEVVDKSRPEKWSSTDLKELINQKLESHSSILVILNTKSTVLKLYQLLKKGDVPVHHLSTSMCAAHRRKVFGEVKKKLRNEEKVVCISTQLIEAGVDISFECVIRSMAGLDSIAQAAGRCNRNGEYDLREVFVINHAEENLKHLPTIKAGAEIAGRILKDIQNDDLKGDPLSQEMMDLYFKKFYHSLKSELEYPIPSQYYTLYQLLGGDEKVVREFKNKHGAEFPLLNESSFGTLSDHFNVIEQSSTSVIVPYDEGKELIADLNESYSITEMEGVFKKMQLYSINIFEYQRRELDQQGGLVHHLDGKILELRESFYDKEYGLTLEEGAAMGPAFM	PGPT0026895_1195	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
AK012_02774	558	opcR_1	COG1510	HTH-type transcriptional repressor OpcR	TTGAAAAGAAACCTGGAGGCACGAATTGAGGAAGCAGAGAGCGCTGTTGTCAATTCGATTGCTGAAACAATGGACCTGTATGGCATCACTCCGTCAACGGGAAGGTTATTTGCGAGAATGTATTTTAAACATGAGCCGATGACGCTTGATGATATGAAGGACGACCTTGGGATGAGTAAGCCGAGTATGAGTATTGCCGTCCGGAACCTTCAGGAGGTCAGCATCATCCATAAAGTTTGGCGGAAAGGGTCCCGCAAGGATTCCTTTATGGCGGAGAAGAATTTCTTTAAATATTTCTCCCGCTTTTTCGGAAGCAAGTGGGAACGGGAGGCCAAGCTTAACTTGTCGGCCATTGACTATGCAGGGGAGATTCTTCAGCAGGTCATGGAAGATGAGGAGGCGGACGAAGCGACGGTAGAACGAGCAAGGATCAATTATGAGCAGCTTGAGGATTACCGCAAGTACTGCAAGTGGTTGGAGCGTCTGTCTGATTCAATTGATTCCGGTGAGATATTCGACTTCCTGCCTGTTGAGGAACCGGATGCAGATAGTAAGTGA	MKRNLEARIEEAESAVVNSIAETMDLYGITPSTGRLFARMYFKHEPMTLDDMKDDLGMSKPSMSIAVRNLQEVSIIHKVWRKGSRKDSFMAEKNFFKYFSRFFGSKWEREAKLNLSAIDYAGEILQQVMEDEEADEATVERARINYEQLEDYRKYCKWLERLSDSIDSGEIFDFLPVEEPDADSK	PGPT0013690_214	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013690-gbsR-K22109	NA	NA
AK012_02775	1686	betA		Oxygen-dependent choline dehydrogenase	ATGAAAGAATCTTATGATATTGTCATCATCGGTGCCGGAAGTGCAGGTTCGGTCCTCGCAGACCGGCTGACTGAAGATGGAAAGAAAGATGTCCTTGTACTTGAAGCGGGACGAAGTGATTATGCTTGGGATCTACTCGTTCAGATGCCGGCAGCCCTGCCATTCCCGGCAGGTAAATCCCTGTATGACTGGAAATATGAATCTGACCCTGAGCCTTATATGAAAGGACGGCGTATCAAGCATGCCCGTGGTAAAATGCTCGGAGGATCAAGCTCGATCAATGGCATGATTTATCAACGCGGGAATCCGAAGGACTATGAGCGCTGGGGAGCGGACGATGGGATGGAAGAGTGGGATTTCTCCCACTGCCTGCCTTACTTCAAACGTTTGGAGAACGCCCTCGGCTCGGATAAAAACGATCCGTACCGCGGCCATGATGGTCCGGTGAAATTGGAGCGCGGTCCTGCAACGAATCCGCTTTTCCAAGCCTTTTTCAATGCAGCTGCCGAAGCCGGTCATGCCCGGACGCCGGATGTTAACGGTTTTCGTCAGGAAGGTTTTGGACCTTTTGACAAGCACGTCTATAAAGGGCGGCGCATGTCTGCATCCCGTGCGTATCTGCACCCGGCAATGAAGCGGAAAAATCTTACCGTGAAAACCAGAGCTTTCGTTCAGCACATAGATATCCATAATGGGAAAGCGCGAGGCTTGACGTTCAAACGAAATGGTAAAGAGCACTTCGTAAGAGCTGGGGAGGTCATCCTTTCGGGCGGTGCGATCAATACGCCGCAGCTGCTTCAGCTTTCCGGCGTCGGTGATCAAGAACACCTACGCTCTGTAGGAGTGACTCCGAAAGTACATCTTCCAGGGGTTGGAGAGAATCTTCAGGACCACCTTGAAGTGTATATCCAGCATGAGAGTCTGCAGCCAGTTTCTGAGCAGCCGAACTTGAACAAGCTGAAGATGCCATGGATCGGTTTGCAGTGGATCATGGGGCGTAAAGGTCCTGCTGCGACGAACCACTTTGAAGGCGGTGGATTCGCCCGTTCCAATGATGACGTCGATTATCCGAACCTGATGTATCATTTCCTTCCGGTAGCTGTGCGCTATGACGGGGAAAAAGCACCGGTCAAACACGGCTTCCAGGTTCACATCGGACCTATGTATTCGGATGCTCGTGGTTCATTGAAGATCCGCTCCAATGATCCGAAAGCTCATCCGAGCATGGTTTACAACTACCTTTCAACGGAACAGGACAAACGTGAATGGATCGAGGCTGTCCGTGTGACTCGTGAAATCATGTCCCAGCCGGCAATGAAGCCATTCAATGGAGGGGAAATTTCTCCGGGGCCGGCGGCTCAGACGGAAGAAGAAATCCTTGACTGGGTGGCAGAAGATGCGGAAACGGCTCTGCATCCAAGCTGCACAGCGAAAATGGGACCAAAATCCGATCCAATGGCCGTCGTTGACCCGAATAGTATGAAAGTTCATGGCCTGGACAACCTGCGTGTCGTCGATGCATCCGCTATGCCTTATGTCACCAACGGGAACATCCACGCACCTGTCCTGATGCTTGCCGAAAAGGCGGCAGATATTATCCGAGGCAGAAAACCGCTTGAAGCTGAGCATATGGACTATTACCAGCATGGTGTCCATCCAGCAGATGCGGGCTCGATTAAAGGCTGA	MKESYDIVIIGAGSAGSVLADRLTEDGKKDVLVLEAGRSDYAWDLLVQMPAALPFPAGKSLYDWKYESDPEPYMKGRRIKHARGKMLGGSSSINGMIYQRGNPKDYERWGADDGMEEWDFSHCLPYFKRLENALGSDKNDPYRGHDGPVKLERGPATNPLFQAFFNAAAEAGHARTPDVNGFRQEGFGPFDKHVYKGRRMSASRAYLHPAMKRKNLTVKTRAFVQHIDIHNGKARGLTFKRNGKEHFVRAGEVILSGGAINTPQLLQLSGVGDQEHLRSVGVTPKVHLPGVGENLQDHLEVYIQHESLQPVSEQPNLNKLKMPWIGLQWIMGRKGPAATNHFEGGGFARSNDDVDYPNLMYHFLPVAVRYDGEKAPVKHGFQVHIGPMYSDARGSLKIRSNDPKAHPSMVYNYLSTEQDKREWIEAVRVTREIMSQPAMKPFNGGEISPGPAAQTEEEILDWVAEDAETALHPSCTAKMGPKSDPMAVVDPNSMKVHGLDNLRVVDASAMPYVTNGNIHAPVLMLAEKAADIIRGRKPLEAEHMDYYQHGVHPADAGSIKG	PGPT0013615_1689	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013615-betA|CHDH-K00108	NA	NA
AK012_02776	1470	gbsA	COG1012	Betaine aldehyde dehydrogenase	TTGAAATACATGTATATTAATGGAGCGTGGGTCAACGCAGCGTCTGAAAAGGTGAGAGATATCATCAATCCCTTCAATCAGGAAGTCATTGCCCAAGTGGCGGAAGGGGACGCTGAGGACGCGAAGCTTGCGATCGCGGCTGCGAGAGAAGCATTCGACAATGGGGAGTGGAGTGATACTCCGGGAGCCGAGCGCGGCCAAAAGGTCTTTCGTATCGCAGAACTGATTGAACGGGATAAAGAAGAACTTGCTGAACTCGAAACGCTGGATACTGGTAAGACATTAGAAGAAAGTCGTGCAGATATGGAAGACATTGCCGGTGTGTTCCGGTACTTCGCAGGTCTGGCAGATAAGGATGGCGGAGAAGTCATCGAATCCCCGATTCCCGACAGTCAAAGCAAAGTTGTCCGCGAACCGGTGGGTGTCTGCGGGCAGATTACTCCTTGGAATTATCCGCTTCTACAAGCGGCGTGGAAAATCGCACCGGCATTGGCGGCAGGCAATACCATCGTATTGAAGCCTAGTGAAATTACTCCGCTCACAACTTTGAAAGTAACAGAACTGATGGAAGAAACCGGCTTCCCGAAAGGTGTTGTCAACCTCGTGATGGGGCCGGGGGCAACGGTAGGAAACGAGCTTGCAGAAAGTCACGATGTTGATTTGATTTCTTTCACCGGAGGCATTGAAACCGGAAAGAGAATTATGCAGACCGCGAGTGGCAATGTGAAGAACATCGCGCTTGAACTTGGTGGTAAGAATCCGAATATTGTCTTTGCGGACGCTGATTTCGAAACAGCCGTCGATCAGGCGCTGAACGCGGTCTTTTTCCACGCCGGACAGGTGTGTTCTGCCGGAGCGAGATTAATTCTGGAAGATTCCATCCACGATCGGTTTGTGGAGGAGCTGAAGAAGCGGGCGGAGCGTATTAAGCTGGGGAACGGTTTTAATGAAGATACTCAATCCGGGCCTCTCATCTCTGCGGAACACCGTGAAAAGGTCGAAAATTATGTGGAAATCGGGAAGGAAGAAGGCGCAAAACTGCTTGTCGGAGGCGCACGGCCCGAGGATCCTGAACTTCAGGACGGTTTTTTCTACCTGCCTACGATTTTCACAGAGTGCACGACAGATATGAGAATCGTACAGGAGGAAGTGTTTGGCCCTGTATTGACCATCGAACGTTTCCAAACGGAAGAGGAATCCGTGAAGCTTGCGAATGATTCCATTTATGGGCTGGCTGGTGCTGTGTTTACACAGGACATCGACAAAGCCGAACGTATAGCAGGTAAGCTGCGCATGGGAACGGTGTGGATCAATGATTTCCACCCATATTTCGCACAAGCGCCCTGGGGTGGATATAAACAATCCGGAATCGGCCGTGAACTCGGTAAACCGGGACTTGAAGAATATACAGAAACAAAACATATTTTCCGTAACGTGAATCCACAACCGATCCATTGGTTTAAGGCTTGA	MKYMYINGAWVNAASEKVRDIINPFNQEVIAQVAEGDAEDAKLAIAAAREAFDNGEWSDTPGAERGQKVFRIAELIERDKEELAELETLDTGKTLEESRADMEDIAGVFRYFAGLADKDGGEVIESPIPDSQSKVVREPVGVCGQITPWNYPLLQAAWKIAPALAAGNTIVLKPSEITPLTTLKVTELMEETGFPKGVVNLVMGPGATVGNELAESHDVDLISFTGGIETGKRIMQTASGNVKNIALELGGKNPNIVFADADFETAVDQALNAVFFHAGQVCSAGARLILEDSIHDRFVEELKKRAERIKLGNGFNEDTQSGPLISAEHREKVENYVEIGKEEGAKLLVGGARPEDPELQDGFFYLPTIFTECTTDMRIVQEEVFGPVLTIERFQTEEESVKLANDSIYGLAGAVFTQDIDKAERIAGKLRMGTVWINDFHPYFAQAPWGGYKQSGIGRELGKPGLEEYTETKHIFRNVNPQPIHWFKA	PGPT0007165_2057	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0007165-betB_homologous-K00130	NA	NA
AK012_02777	1632			hypothetical protein	GTGCAGCAGACAGTCACAAAACAGGAACAGAAATATGGTAATTCAGGATTGTTAGGCTTCTTAGGCTTACTTGCCATCGTCGCCATTTATGTAGGAATTGCAGGTAAAGATGTGAACTGGGGAGCGTTGGCCTTCATGTTTCTCTCATACGCCATCATCTTCTATATAGGTGTCATCACCGCTGGAAAAAAATCCGACAGCGCCAAGGATATGATGGTCGCCGGTCGTTCCATGCCGTTATGGGTCGCTATGTTCACGATGACTGCTACATGGGTCGGCGGGGGATATATCGCCGGGACAGCCGAAACGACGTTTGCCTCAGGAATCGTATGGGCGCAGGCCCCTTGGGGATACGGCCTCAGTTTAATCATCGGCGGAGTTTTCTATGCCCGCAAGATGAGAAGGCACGAATTCACGACAATGCTCGATCCGCTGGAGGTTCGCTTCGGTAAGAAGGTGGCAGGTGTTCTATACTTACCAGCCCTGCTCGGGGAACTATTCTGGAGTGCCGCCATCCTCGTTGCACTCGGAACAACATTCGGTCTGATTCTCGGACTCGATTTCAATACATCAATCATCATTTCCGCAATAATCGCCGTCGCCTACACCTTTGTCGGAGGTATGTGGTCCGTCGCTCTTACAGACGTAGCCCAGATCATCATGATCCTCATCGGATTATTCCTCGTCGTTCCGTTCGCTCTTTCTGAAGCAGGCGGTGTCGGTCAAGCATGGGGAGCTTACAAAGACGGAATGGCCGGGTTTGCGAACCTTCTTCCTCCACTTGATGGCTGGAACCATCCGGACTGGGGAAATTATTACTGGAACTGGTGGGATTATGCCTTACTGCTTATCTTCGGAGGTATTCCGTGGCAGGTATACTTCCAGCGTGTGCTTTCATCAAAAAATGAAAAGACAGCGATGTGGCTGTCCATCGCAGCAGGTATCCTGTGTATCGTACTAGCCGTACCCGCTGTTATGATCGGTGTCGCAGGCTTCTCTGCCGATTGGGCGAGCTATGGAATCGAAGGCCCCGGTTCCGCTTCAGAAATTCTGGCTTACGTCATCAACTATATGTCGCCCTACGGGATTGCGATTATCGCACTGGGTGCTGTAGCCGCAGCCGTCATGTCATCGATGGACTCTTCCATCCTATCCGCATCATCCATGGCAGCCTGGAACATCTACCGCCCGCTCATCAAACCGAAAGCGACAGGTAAGGATATTAAAGGCACCATTCGTTTATCCATCATCATTATCGGACTAGCCGCGACCATCGTCGCGTTGAATATCGACAGTGTCTACACACTTTGGTATTTATGTGCCGATCTCGTCTACTGTATGCTTTTCCCTCAGTTGACAACTGCGTTGTTCGATAAAAAAGCAAATACATATGGAGCCGTTGCAGGGCTGACGGTTTCTTTCATTCTGCGTTTCGGCGGAGGAGAACCCGCACTCGGATTGCCGGCATTTCTTCCCTATCCGATGATTGAAGACGGCGTGGTCCTTTTCCCATTCCGTACGCTTGCAATGATAGGCGGCCTGCTGACGATCATCATCGTTTCACGGCTCACACAGAAATCATGCCCTCCACAGCCTTTAACTAAGCTGAAAACAGAGGTGAAAAGCGAATAA	MQQTVTKQEQKYGNSGLLGFLGLLAIVAIYVGIAGKDVNWGALAFMFLSYAIIFYIGVITAGKKSDSAKDMMVAGRSMPLWVAMFTMTATWVGGGYIAGTAETTFASGIVWAQAPWGYGLSLIIGGVFYARKMRRHEFTTMLDPLEVRFGKKVAGVLYLPALLGELFWSAAILVALGTTFGLILGLDFNTSIIISAIIAVAYTFVGGMWSVALTDVAQIIMILIGLFLVVPFALSEAGGVGQAWGAYKDGMAGFANLLPPLDGWNHPDWGNYYWNWWDYALLLIFGGIPWQVYFQRVLSSKNEKTAMWLSIAAGILCIVLAVPAVMIGVAGFSADWASYGIEGPGSASEILAYVINYMSPYGIAIIALGAVAAAVMSSMDSSILSASSMAAWNIYRPLIKPKATGKDIKGTIRLSIIIIGLAATIVALNIDSVYTLWYLCADLVYCMLFPQLTTALFDKKANTYGAVAGLTVSFILRFGGGEPALGLPAFLPYPMIEDGVVLFPFRTLAMIGGLLTIIIVSRLTQKSCPPQPLTKLKTEVKSE				NA	NA	NA	NA	NA
AK012_02778	219			hypothetical protein	ATGAGTGGAGGCGTGTTTCTGCTGATCATTCTGAGTTTGCTCGGTCTGCCTATTTTATGGGGAATGATCCGGGACAAATTCGGAGGGAATACCAACCGATTTTACGGCGATGAACTGAATAAGCATCAAAAAAGAGGAAGAGAAAAGGTCTATGAAGAGAATACGAGGCATACAGGACCAAGAGACAACCCGCCCATGGGAGGGGATGGAAACCCCTGA	MSGGVFLLIILSLLGLPILWGMIRDKFGGNTNRFYGDELNKHQKRGREKVYEENTRHTGPRDNPPMGGDGNP				NA	NA	NA	NA	NA
AK012_02779	444			hypothetical protein	ATGAAAAAGATAACAGCTTTGTGGCTGATAATTTTAACAGGGGCGCTGCTTACAGCCTGCTCCGGAACTTCAGAACCGCCGGACGGATTTATGACGATGAATAAAGAAGTGACGGAGATGGCGAAAGGCACATATGAATGGACCAAAGAGGGGGTATTTTCGGACAGCCAAGTGACAGCGGATGCCGGAACACCTCATGAGATTGCTGACAATGTCGAAGCGGCACCGTCAGGCGGGGACAAGACTGCAGTGATCACATTCAGCAGTGGGAAAACACCGGAACTCTCCGCTTTTATCTGGGATGATGAAGGAAGGCAGAAGGAGCTTCCGATTGAAAATGAGCAGGTGACTCTTCCGGATTCAGAAGGCCGGTATACGATTGAAGTTTTCGCTGAATGGGAGAATGGAACCGGTTCGTACACGCTTCCTGTGATGATCCCATAG	MKKITALWLIILTGALLTACSGTSEPPDGFMTMNKEVTEMAKGTYEWTKEGVFSDSQVTADAGTPHEIADNVEAAPSGGDKTAVITFSSGKTPELSAFIWDDEGRQKELPIENEQVTLPDSEGRYTIEVFAEWENGTGSYTLPVMIP				NA	NA	NA	NA	NA
AK012_02780	288			hypothetical protein	ATGGCTGATGAAAACCTAAGTAAAGGCCTTGTAGATGCTGCCTTTAACAAAAAGGAAGCAGAAGAAGCAGATAAAATAAAAGAAGAAAATAAAGCAAATGAAGGAGATATCATTACCTTCAAAAGAGACGGCCAGCAGCTGGAAGCTGTCGTTACGTCTACGAATCCGGCAAACTCCGTTGTCTGTGATCTTACTATTATGGATGATTTCCATGAGCGCAATTTTGACTTCGAAAAGACCGTGGTTGCTCATAAGAACTATACCATTAAAAAACGGAAGCAAAAGTAA	MADENLSKGLVDAAFNKKEAEEADKIKEENKANEGDIITFKRDGQQLEAVVTSTNPANSVVCDLTIMDDFHERNFDFEKTVVAHKNYTIKKRKQK				NA	NA	NA	NA	NA
AK012_02781	690			hypothetical protein	ATGTCTCTAGATGTTAAAGAGCGTCAGGAATTTGAAAAGAAATTTGACGAGAAAATCATAAAAGATGACACAGCAAACGTAGTTTATTTAAAGGCTTTATTAGCATTGCTTCAAAACTCGTCTAAACTAAATTTGAGTTGGACATCCCAAATTAGCAAAGATGTTCTTTCTGACCCACAAAAGGTACGCCGCATGCTCAGTGAGCTTTTAGAAAAGTGGATTGATGTCGCTGCAAAAACTAACATAAACGAAGTTTACGAATTGAAAACTTATAAAACGGGTGAAGTTGCTAAATTTTTTGGTGTTAGTCAGACGTCTATAAATAAGTGGATAAAAGAAGGGCGTTTTGTTGGAGTAAAAAGGCAGGGAGAAAATAAACATATACGAATTCCTGAAAATACAGTGTATGTAAATCGCGGTGGAAAACGATTTTTACTTTCTGATATTGTCAAGCTTTACGAACGTGAAATGCAAGAACAAGAAGCTCTCGAAGAAGATGACCAAGACTTAAACGAATTTGATTTCTTGTTGGGGCAGTGCCTCCAATATGAAAATAAATATGATGGAGAATATGAAAGAACATTAGGTAAAAAAGCAGATGAAGATTTAACCTCAGAAGAAAGAACTGACAAATCTGTGTGGCAATACTTTATAATGAGGTTTGAAGATGCAAAAAGATTTGAAGATTGA	MSLDVKERQEFEKKFDEKIIKDDTANVVYLKALLALLQNSSKLNLSWTSQISKDVLSDPQKVRRMLSELLEKWIDVAAKTNINEVYELKTYKTGEVAKFFGVSQTSINKWIKEGRFVGVKRQGENKHIRIPENTVYVNRGGKRFLLSDIVKLYEREMQEQEALEEDDQDLNEFDFLLGQCLQYENKYDGEYERTLGKKADEDLTSEERTDKSVWQYFIMRFEDAKRFED				NA	NA	NA	NA	NA
AK012_02782	438			hypothetical protein	ATGCAAAAAGATTTGAAGATTGAACCTACTAAGTGGCGCACTATCGAAATTGAATTTGGTCATTTACTTCTTGACAGTATTCAAAACGGCCGGTCTGAAATGAGTCGTGATATTAAGGTAGTAAAAAAGGTAATAAAATTTATGTTTGGTGGAAAAATGTACTGTACTGAAGTAATCAAAGATGGATACGTTGACTATTTCCACTATGACTTGTTAGATGATAAGGGGAACGAATTAATAAAATTCCATAGCGAGCCCCACTCTCGCAAAGAGGACCAAACTATCACAGAGCCATTTCACCTACATGTACGCGAAAAACTTGATGATATACTTGCTAAAAAGCGGCTTCCCAATCACCGCTATAGGACTCTTTACGATATTATGACCTACATTGAAGATAGTAGACATACTTCACCTTTATTTTCTAGTAATCTCTAA	MQKDLKIEPTKWRTIEIEFGHLLLDSIQNGRSEMSRDIKVVKKVIKFMFGGKMYCTEVIKDGYVDYFHYDLLDDKGNELIKFHSEPHSRKEDQTITEPFHLHVREKLDDILAKKRLPNHRYRTLYDIMTYIEDSRHTSPLFSSNL				NA	NA	NA	NA	NA
AK012_02783	1737			hypothetical protein	ATGATATTTTTAAGGAAAATTTATTCAGAACCAAGTGGCTTGTTTGATTTAGTGGAATTTAAAGAGGGAATAAACATCATATACGCTGGATACAAGGATGAACCGAATGAGAAAGGCTCTTTAAATAGTGTTGGGAAGTCTACCTTGGTTAAATTAATCAATTTTTGCTTAATGTCTTCATACGATAAAAGGAACGATTTATATAGAGCAAAGAATATAACTGATAGTTACTTCATAGTGTTGGAGATTGATATTTACGATAAAAGATATGTTATTAAACGGTCCACTCGTGACCAAAACACAGTTATTTTTGGGGTCAAAGGAGAAGAGAAGAAGTATAAGTTACAAACAATTAAAAAACACCTTTGTAGTTTATTTTTTGATGACAATGAATATGCTGGTAGATTTCATGAAAGTTGGTTTAGGAAAATTATCCCTTTTTTTCTCAGGGATGAATTTAAAGGCTACAATAGCCCAATCGACTTTATAGGTGGACAATCTGATTTAAATATGATTCCATATAATCTATTTTTGCTTGGTCTAGATAACAGGTTATCTTTAAGAAATCAAATGCTAAGAAGTCAATTGAAAGAAAAACAAAAAGCTAAAAAAGAAATAACTAATATTGTTCATGATAGGTACTCAATAGATGTCGAAGATGTCAATTCAAAGTTAGATACTATCGAGGAAGACATCAAAGAAGTAAAACAGAGTTTAGATAGTTATCAGTTAGACTTTACATATTTGCAACTACAAGAAGAATTGGACAAATTAACTAAGAAAGTGAAGGGACTAATTAAATCCAATCAAATTGATAAGGATAAGTTAGAGAAGTATAAAGCTAACATATATAGGGACTATAATATATCTACTGATAAAGTGGCAGAGATGTATAGACAATTAGATGAGGAATTGGGTTTTAATGTAAAGAAATCATTGGATGAAATTATTGAATTTAAAGATAAATTAGTCAGTTCTAGAACAAAATTCTTAAATAATGAAATTCAATTGTTAGAAGAAAGCATTAAAGAACGTAAAATGAAAATTCGGAGTTATAGTGAAAGAAGAAGTGAGTTGTTGAAACGATTAGATGAACAAGATACTTTTAAGGATATTACAAATGTAGTTGAGTATCTTAATGAAAAAAACAAAGAACTTGCTGATGTGAATGGTAAAGTAGCTATATACAATGATATTCAAGAGGATATACTTTCAATAAAAAGTTCTGAGGCAGCGTTGGATATTAAGATTAACAAGTTTATTAAACAGAATCAAAGTAAGATAAGTGATATAAGAAAAACATTTAATCAAGTCTATAACGCTCTTTACAACGATAACAAAGGGATTTTTAATATCACTTATAGTAGCAAAAGAAAGGATGCAAAGTTTGATATAAAAGCTCAAGCACCTGATAGTACAGGTTGGGGGAAAAGTAGAGCAAGTATACTAATATATGATTTGACTATCCTGATAAACGCGATTAGACAAGAGAGGAGATTCCCCAGGTTTTTAATTCACGATGGTATATTTAATGGTGTCTTTAAAGGGCAATTTATATCTACTATTGATTTTTTAAACCGCCTTCTTACCGTAGAGGATTTGAATTTTCAATATATATTTACAGCGAATGAGTCAGATATTTGGCTTAAAGCAGAAGAGTTAGATAAGCAATTAGATGGTACAAAGATTACTTTTTACAATGATACAAACAGAATTTTTGGTGAAGACTTTGATTAA	MIFLRKIYSEPSGLFDLVEFKEGINIIYAGYKDEPNEKGSLNSVGKSTLVKLINFCLMSSYDKRNDLYRAKNITDSYFIVLEIDIYDKRYVIKRSTRDQNTVIFGVKGEEKKYKLQTIKKHLCSLFFDDNEYAGRFHESWFRKIIPFFLRDEFKGYNSPIDFIGGQSDLNMIPYNLFLLGLDNRLSLRNQMLRSQLKEKQKAKKEITNIVHDRYSIDVEDVNSKLDTIEEDIKEVKQSLDSYQLDFTYLQLQEELDKLTKKVKGLIKSNQIDKDKLEKYKANIYRDYNISTDKVAEMYRQLDEELGFNVKKSLDEIIEFKDKLVSSRTKFLNNEIQLLEESIKERKMKIRSYSERRSELLKRLDEQDTFKDITNVVEYLNEKNKELADVNGKVAIYNDIQEDILSIKSSEAALDIKINKFIKQNQSKISDIRKTFNQVYNALYNDNKGIFNITYSSKRKDAKFDIKAQAPDSTGWGKSRASILIYDLTILINAIRQERRFPRFLIHDGIFNGVFKGQFISTIDFLNRLLTVEDLNFQYIFTANESDIWLKAEELDKQLDGTKITFYNDTNRIFGEDFD				NA	NA	NA	NA	NA
AK012_02784	225			hypothetical protein	ATGATAATCCCCACAAAACATGAGAATTTAAACACAAACCTAATGGTTCTAGGCTCAAAAGTTCTTCAATTGTTGAATTCGGGTCCATTAACAGTGGAAGATATTATTCAAGACATGAAAAAATCTGAAGGGATTCGTGAAGAAAAGGTATTTGAGATACTGACCTTCCTTTTTGCGACAGAACTAATTAATATTCATGGAAATCTAGTGAGGTTATTAAAATGA	MIIPTKHENLNTNLMVLGSKVLQLLNSGPLTVEDIIQDMKKSEGIREEKVFEILTFLFATELINIHGNLVRLLK				NA	NA	NA	NA	NA
AK012_02785	534			hypothetical protein	ATGAATAATACCTTCAAAGATAATGAGTTCAATAATAGTGATATTGTTAAGAAGAAAGAAGAAACTCACTACCATTACGAATTAAATGAGTATGAAGAGGACTTGGGAATTATTCAAGATATTTTTTCTCATATTTTAACTTCACCAAAGAAGGGCAGTTCAAAGAGGGAAAATTCACTAATTGATGTAAACGAGAAGATAGAGATAAATTTTGAGGACTATGAAAATATAAAAAATTTACTATTAGGTGCTTATCTTCACATATCACTTGTTGAGGATATGTTTGAATCTCTTGAGAGTTATGACCAAGATGTCATAACCAGTGATATATATGCTAATTACCTTGAATTGAAATATGAAGGTGATTCGAACGAACAAATTTTATTTAAGCTATGTAAATGTTATATACCTACTGGAAAAAAGCAAAACCCGGAATATAAATCCATAGCTAGGTCATTAGTATTGTTTTTTTTCGAAGATTGTACCTGGGGTGAGAAAACACAACGGGAGAAGGATAAGGAGAAGAATCGATGA	MNNTFKDNEFNNSDIVKKKEETHYHYELNEYEEDLGIIQDIFSHILTSPKKGSSKRENSLIDVNEKIEINFEDYENIKNLLLGAYLHISLVEDMFESLESYDQDVITSDIYANYLELKYEGDSNEQILFKLCKCYIPTGKKQNPEYKSIARSLVLFFFEDCTWGEKTQREKDKEKNR				NA	NA	NA	NA	NA
AK012_02786	234			hypothetical protein	GTGGGGTTAGACTTAGGAGTTTGGTTAGGTATTATTTCGGTTCTGCTAGGGGTTATCGGTTTATTCAGCTATAAGGTTTTCAAGTCTAGTAAATTGGACAAATCTATACGTGGGAATAAAGTAAATGGAAACATAAATAAAATCGAAGGTAATGAGTTCCATGATAGTGATGTAGTCTTAAGAGATAAGAACGTCAATAACCACTATCGCAGTGAAAAAAGAAGGAAGTCATAA	MGLDLGVWLGIISVLLGVIGLFSYKVFKSSKLDKSIRGNKVNGNINKIEGNEFHDSDVVLRDKNVNNHYRSEKRRKS				NA	NA	NA	NA	NA
AK012_02788	462			hypothetical protein	GTGAAGAGAGTAAAACAACATGAAATTCATCATGAATTAGGAGTGGGATTTATTTATACTTTTGAAACTAATGGCAGTAGGACACATGGTGAGCTCATTGTTATTGCAATGCACCATTTTGAGGAAACTAAGGAACTTTCATTCTCTATGGATGTGGGTCGGTTTAAAAAAATACTCTGCACACTAGAGGACATCGATAAAATTGCAGAAGACATGAAAAGTGCTGAACGAATCTTCATTGTAAAACGTGAAGGTAAAGAACTTATGCGTTTGGGGTTATTTTCTAATGTATGGATATATGCCGAAGAGGATACAGACGGAGAACATATCAATTACCTAACTTATAAAATAAATAAGGAAGTCCTCGCTTGGTTAGAGGATACAGAATTGAAAAAAACGGTCGAAGAATTGGAGATGCAACAAACATTGAAAAGTTTTAAGGAAGCTTTGAAGGACCTTTAA	MKRVKQHEIHHELGVGFIYTFETNGSRTHGELIVIAMHHFEETKELSFSMDVGRFKKILCTLEDIDKIAEDMKSAERIFIVKREGKELMRLGLFSNVWIYAEEDTDGEHINYLTYKINKEVLAWLEDTELKKTVEELEMQQTLKSFKEALKDL				NA	NA	NA	NA	NA
AK012_02789	396			hypothetical protein	GTGGGGAATATTATTCACATATATAAAGTTAACGAATCATTCCAAGTAAAAAGGTTACCCTTCATACCGAAAGAAGATAACCCACTATCAGTTCACCTTGACTTTTGTATTGAGGTTAGTGATGCACTAAGGGGGGAGGGGGAAGACAGTCTTAAGTTCCTCAACATTAAGGGTGAAGAGCTTAAAATGTGTAAGTTAGAAAAGGATAGGGAGATTGATATACGGCCGCCATTTATCATCTTTAAAGATTTTTGGATGACTGAACAGGTTAGAGCAGAAGGTTTTGTCCTGCCAGCTAACCCTATACCAACTCGAATGAATGAAAATGACTATGCAAAAATGAAACACTTTTTGAAGACTCTATCAAACTCTTGTGAAGAGAGTAAAACAACATGA	MGNIIHIYKVNESFQVKRLPFIPKEDNPLSVHLDFCIEVSDALRGEGEDSLKFLNIKGEELKMCKLEKDREIDIRPPFIIFKDFWMTEQVRAEGFVLPANPIPTRMNENDYAKMKHFLKTLSNSCEESKTT				NA	NA	NA	NA	NA
AK012_02790	942			hypothetical protein	ATGGGGAGCTACATACTCACAGTTAAAGAAAGAGATAGTCTGCTAAATAGTATAGACAAGAAGCAGAAGGACTTTATTATCAACCAGTTGAAACGAGGAAGAAAAACAGTATTTGCAAACATTCTAGCAGAAGATAAAGGTAGAACAAGTTCGGGGAATGTAGAATGGGAATTGGTAGATTATAAAGACGGTGGGATTGGATGGAATATGCATAAAGAGCTCCAGTGTGAATGCGGAAAGATTCTAAGGTATCAATACACAGTTAAAAACCTCGAAACAGGGACCATAAGAAAATTTGGCATCAATCACTTCATCGAGCACACTGGAATATCTTCTGATTTGGCCAAGGCTATTGTTAGAGGTTGGGAGAATATTGACTACGAGATGGATGAGTTACTAACAAAAGTTCAAGAGAGCTGGACATTAGATGACATTATGGCACCGGACCTTCTAGAGCCAATCGACATTCCGACCGATATCCAAGAGCATTTTGATGTTGGTGTACCGCTATTAGACAGGCAAGTAAGACGGTTAAAAGTCAGAGTGAATAAGCACTCGAAAAAACAGGAGAGTGTAAGGATATCGAAACTTAAAGAGAATGAACAGCTGTCTAGAGAAGAGATGAAACAACATCGAGGTGAAATGGTTTCACAACTAGAATCTCTGGAAATTTCAGATAATCTGATGTTAGAGAAAGAGCTACAGTTAGGCATCCTTTTGTATTTAAAAAATACAGATGAAACAATAATTAGTGCAAAAAATATCTGTCAATACCTTATCGAGCTACACGGTGCTCCAAGTGAAACATACCCTGGCAGTTCCGCCTTAAGAATATTTCCAAATGTTTGTGTGTTCTTAAAGAAACTTGTTGAGGTCGGTAATTTAGAACTTATTGAAAATAAGGGAATTGAAGATAGAATTTATCGAAAAGGGGCTATCTAA	MGSYILTVKERDSLLNSIDKKQKDFIINQLKRGRKTVFANILAEDKGRTSSGNVEWELVDYKDGGIGWNMHKELQCECGKILRYQYTVKNLETGTIRKFGINHFIEHTGISSDLAKAIVRGWENIDYEMDELLTKVQESWTLDDIMAPDLLEPIDIPTDIQEHFDVGVPLLDRQVRRLKVRVNKHSKKQESVRISKLKENEQLSREEMKQHRGEMVSQLESLEISDNLMLEKELQLGILLYLKNTDETIISAKNICQYLIELHGAPSETYPGSSALRIFPNVCVFLKKLVEVGNLELIENKGIEDRIYRKGAI				NA	NA	NA	NA	NA
AK012_02791	471			hypothetical protein	ATGGGAAAATCGATTGAGGAAGCAAACATTATTGATAACCTTACAAGTGAAAAGAAAAATGATAAAAAGAGTCCCTATGTAGGACCTTCCATGCAAGAATTAAGAGAACCGACTAATTTAACTCCTAAGATGAAAAGGAAAAATACAGACCCTAAAAAGATGGTTAACACTCAGGTTCCCGAAGTGGTGCTTGATGCATTTTTACTTTATTGTGCAAGAAACAACCATTTTAGGAATAATGCCTTTCCTAAAATGCTTAAATTTGTACTTAACAAGTATAAAAACGATGTATTTCAGTTTGAAGACAGTATAAATGGCAGTTTTGTTTTCGACTGTCAGAAAGTATCTGCGAACTTTGAAGTGCCAATAGAGTTAATGCAGGATGTACGCACATGGAAAGCAATTAAGAAAGTAAATTATCAAGATATATATTCTCAGGCTATAGTACAGTACCTGAACCATCATACATAA	MGKSIEEANIIDNLTSEKKNDKKSPYVGPSMQELREPTNLTPKMKRKNTDPKKMVNTQVPEVVLDAFLLYCARNNHFRNNAFPKMLKFVLNKYKNDVFQFEDSINGSFVFDCQKVSANFEVPIELMQDVRTWKAIKKVNYQDIYSQAIVQYLNHHT				NA	NA	NA	NA	NA
AK012_02792	810	soj_2	COG1192	Chromosome-partitioning ATPase Soj	ATGAAAATACTTTTAATGGGAAATTACAAAGGCGGTTGCGGAAAAACAACAAGCAATTTTATTTTAAGTCATCAGCTTGTAGAGAAAGGATATAAAGTTCTATTTATCGATTTCGACCCACAATCTTCCGGAACGAGGATGCTCACAAGTGGGAATATGGTAGATGGAATGGACCAGAACAACATCTTTTCAGCTATTGAAGAAGATGACATTACATCAAACATTATTCCGATAAATGAACAGCTACATATGGTAGCTGGGAGCGAATATATTAATCAATTCGAAAGGGTTATGGAAGGTAAAGGTATTATTGAACGGAGATACCTATATTTCCGTTCATTGGTGTCACAGTTAATAGAAAAGAGAGATTACGATTACATCCTTTTGGATATGTCACCTTCTAAATCTTCTCTAAACACAGCAGTTATGGCAGCTGCCACTCACCATATTGTTATAACCCAGGCTGAGGTATTATCGATGGAAATGACAAAGAACTACATAGAAGACATCGAAGAACTTCAAGGAGCTGGAATAGATAGCAAGATTAGTGGAGTCACTATTGGAATGATGAACAATACCAAGCTTTCAAACAAGGTTGAAAAGGCGCTGAGAGAGCATTATGGTTCAATGGTATTCCAAGTAAAAACAAAACGAAAAAGCCGAATCCATGAATTTTCTGTTCTTGGGTATCCAGAGAAGAACACGCGTGGAATGTACTATGCTGTAGACAGTAATGCATTATTCCATCATCAGAAATTAACTAGCGAAATTTTAGAAACACTTGAAAGAGCAACGGAGGTAGAATCTTAA	MKILLMGNYKGGCGKTTSNFILSHQLVEKGYKVLFIDFDPQSSGTRMLTSGNMVDGMDQNNIFSAIEEDDITSNIIPINEQLHMVAGSEYINQFERVMEGKGIIERRYLYFRSLVSQLIEKRDYDYILLDMSPSKSSLNTAVMAAATHHIVITQAEVLSMEMTKNYIEDIEELQGAGIDSKISGVTIGMMNNTKLSNKVEKALREHYGSMVFQVKTKRKSRIHEFSVLGYPEKNTRGMYYAVDSNALFHHQKLTSEILETLERATEVES				NA	NA	NA	NA	NA
AK012_02793	471			hypothetical protein	ATGACTAAGAAGAGAGCACCTGCCAAACGATACACACTAAAATGGATTGGAAAGAGCTGTTACGTTTACACGTGGAAATATATAAAAAAATCTAAGAGAGTCAAGGTGGAGCAACGATATAAATGGTATTCGTTAGGACCATTTAGTTTAGACCTTCTGTCAGAGTTAGAAAATATGACACTAGAATCCCAAAGGCAAATGGAATTGGAATACTTATTTAAATGGCATCAAAGAGAATACATCGAAAGTAAGATAAATGAACTTTTGTTAAGAACACCCTTTATAGAAAGAAGAGACCAAATCAGTGAAATAAGTGATTCTTCAATAAAAGAACAATGGATAAAAAAACTTTGGAATGATTTAAAAAAAGAAGCAAAGGAAAGTTGTGAAGTAGCATTTGAGGGTTTCACTCCGGAAACTTTTAGGGATTACTTAAGCAATGGTGGTAGTATCAAAAAATTACTAAAGTAA	MTKKRAPAKRYTLKWIGKSCYVYTWKYIKKSKRVKVEQRYKWYSLGPFSLDLLSELENMTLESQRQMELEYLFKWHQREYIESKINELLLRTPFIERRDQISEISDSSIKEQWIKKLWNDLKKEAKESCEVAFEGFTPETFRDYLSNGGSIKKLLK				NA	NA	NA	NA	NA
AK012_02794	384	ndoA_1	COG2337	Endoribonuclease EndoA	ATGAAAAGAAGTATTAGTCGCGGTGATATAAATTTAGTTGATTTTGGTGACAATTATGGTTCCGAACAGGGGGGCGCGAGACCAGCTTTAATAATACAGAATGACATTGGAAACTATCACTCTACAACAACTCTTGTTGTACCTATAAGTTCCAAAATTATTAACAGGTTTTTACCAACCCATGTCATGATTAATTCTATGGGAATGGTTCACGGAGAAATAAAAGGGAAAGCGATGTTAGAACAAATAAGGGTAGTGGATAAAAAACGTATTCGAAGAAATATTGGCCGTATAAATGAGCAAACATTTTGCAAGGTACATAACGCCATGTTGATTGCAACAGGTTATATCAAGAGTCAACAGACAAAACAATGTACAATTTAA	MKRSISRGDINLVDFGDNYGSEQGGARPALIIQNDIGNYHSTTTLVVPISSKIINRFLPTHVMINSMGMVHGEIKGKAMLEQIRVVDKKRIRRNIGRINEQTFCKVHNAMLIATGYIKSQQTKQCTI	PGPT0027390_665	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-MazF-MazE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027390-toxin_mazF|ndoA|chpApemK-K07171	NA	NA
AK012_02795	3249			hypothetical protein	TTGAGCCTTTTTGAGAATTTTACAGAAGAAATGCTTGAGGGAGCTGCAATTGAAATTCTTAATGAAATGGGGTACAAATACATCTTTGCCCCAAACATTTCATATGACGGTGATTATCCAGAAAGAAAAGACTATAAAGAAGTAATTCTAGAGCAACGCTTAAAAGATGCTTTATTCAAAATAAACCGAGACCTCCCTGAAGAAGCATTAGAAGAAGCCTACCGTAAAGTCATTACTTTCAATAGCCCCGTTCTAGAAGAAAATAACCGTTACTTTCATCGTTTGCTTGTAGACGGTATAGAAGTTTCTTTTCGTGAGAATGGAGAGGTAAGAACAAAGAAAGCCTACATTGTAGATTTTGAGAATCCAGAAACAAACGAGTTTCTTGTGGTAAATCAATTTACGGTTATAGAAAATGAAGAGCGCCGTCCTGATTTAGTCATATTTATTAACGGAATCCCATTAGTCGTAATAGAACTGAAGTCAGCTAGTGAAGAGGATGTTGGGATTGAAAACGCATATGCGCAAATCCAGACATATAAAAGAGACATTCCATCTTTTTTTAACTACAACGCATTTTGTATTCTCTCAGATGGAATAAATGCTAAAGCAGGAACAATCACTGCTAACTTTGAAAGATTCATGAACTGGAGAACCATAGATGGCGAGAATATTGAACCGCTAGAGGTTCCGCAGTATGAAGTGTTGTTTCGAGGAATGTTAGCAAAGGACAGACTTCTTGATATTATCCAGAACTTTATTCTTTTTCAAGAATCTAAGGAAAAAGAAAAAGATAGCGAAGGAAATAAAATCGGGGATAAGAAAACTACAGTAAAAATACTTTCTGCTTACCATCAATACTTTGCTGTTAAAAAAGCAGTTGAGAAGACAAATGAAGCTACCAGTGAGAACGGGGACAGGAAAATTGGAGTTGTATGGCACACTCAAGGTTCAGGAAAGTCCTTTTCCATGGTTTTTTATACGGCACAGCTTGTGAATCAGTTGAGTAATCCAACAATTGTAGTCATCACAGATAGAAATGATTTGGATGACCAATTATACAGTACGTTTGATAAATCTAAAGATATTCTACGTCAGACTCCTAAGCAAGCTCATGTAAGAAAACTGACTGATGAACAAAGGAAACAACAGGTTAAGACAAATTCTAAAGAGATAAATGGACTTTATGACCTCTTAAATGAGAGAGAGTCAGGCGGAATAATTTTTACCACCATACAGAAGTTTAAACCTGATGAAGGTGAAATGTCGGTTTTAACAGACCGAAGAAATGTTATCATCATGGCGGACGAAGCTCATAGAAGTCAATATGGGCTTGAAGCTAAAACTGATGCCAAAACAGGAGAAGTTAAATATGGTTATGCTAAGCATCTGCGGGACGCTCTCCCTAATGCCTCATTTATAGGTTTTACAGGTACACCTATAGAGTTGGATGATAAGTCTACTCCTGCTGTCTTTGGACATTACATTGATGTATATGACATGACAAGGGCTGTTGAAGATGAAGCGACAGTTAAGATTTATTATGAGAATCGAATTATCAAACTTGAAGCAGATGAGGAAGAACTTAAGAAAATAGACAAAGAATTCGAAGAGATAACAGAAGGACAAGAGGAAAGCGATAGAGATAAATATAAATCTAAATGGTCTCGTCTTGAAGCAATTGTAGGTTCTCCTAACCGTGTGAAGCGACTTGCGATTGACATTGTTGAACATTATGAAGAGAAAAATAAAACAATAGATGGTAAAGCATTAGTTGTATGTATGAGTCGTCGAATCTGTGTAGATTTATATAACGAAATTGTAAATCTAAGACCTGAATGGCACAGTGATGATGTGGACAAGGGGAAGATAAAAGTTGTAATGACTGGTAGTGCAGGTGATGATGAAAAACTACAACCTCATATTGGTGGAAAACAACGACGAGACACGTTGGCTAAACGTATCAAAGATGATAGTGATGAATTAAAAATGGTTATAGTACGTGATATGTGGTTAACAGGATTTGATGTCCCTTCTATGCATACAATGTACATTGATAAGCCAATGCAAGGTCATAATCTAATGCAAGCTATAGCAAGGGTTAACCGTGTCTTTAAGGATAAATCCGGCGGAGTTGTTGTTGATTATATTGGGATTCTTGAGAACTTAAAAAAGGCTCTTAAGCAGTACACTGAAAGCGACAAAAAGAGTACGGGAATAGACACATCTGTAGCTGTAGCAATAATGGTAGAGAAACTTGAAGTGTTAAGAGGGATGATGCATGGCTTTGATTACTCTCCTTATATGGGTGATTCCCAAAAAGATAGGATGCGTGCTATTACTGGCGGCATGAACTTTGTTTTAGGGAAGCCAGAACTAGAGCAAAAGGAATTTAAACAAATAGCTTTAGAATTGGCAAAAGCTCATTCCTTGTGTGCAGCTACTGACGAAGGTAAATTGCACGCACTGGAGGTAAGTTATTTTAAGGCAGTTAAAGCGAGCCTGACTAAATTAGAAAAAAAGGGAACAAAGAAGAAATCCAAAAGAGAAATAGAATCCAGAGTGAGTCAAATGTTAGGTCGTTCCATTATTTCAGAAGAAGTAGTAGACGTATTTGATACCCTTGGGTTGAAACACCCCGACATATCTATTTTATCGGATGAGTTCTTGGAAGAAGTTAAGGAGTTAAAGTACAAGAACCTTGCTGTGGAAATGTTAAGGAAATTGCTTGAAGGCAATATCAAATCAATGGAAAGACGAAACTTGGTGAAATCAGAGATGTTCTCTGAGAAGTTACAGAAGTCTCTTAAGAAGTATAAAAATCAAGCGATAACCAACGCAGAAGTCATTGAAGAATTAATTCGCATGGCAAAAGACATACAAAAAGCTAAAGCGAAGGAAAAAGACTTAGGTTTAAATGATGACGAGATTGCTTTTTATGATGCGTTAACGATTGACGAAGTAGTCAAAGAATTTATGACAGACGAGACTTTACAGAAAATTGCCCAAGAACTTACTAACAAAATCCGAACAAACATAACTATCGACTGGAGTGTTCGTAAAAGTGCTCAAGCTGGTATGAGACGTATAATAAAAAGGCTCCTCAAAAAATATGATTATCCACCCAAGCAGATTCCACATGCCTTAAATACGGTAATGAGACAAGCTGAATTGATGTGTGGTAATTATGCTTTTAATGATAGTCAACATGATTATGCTGCAGAGGACCAAAATGGCTATAACGTATAA	MSLFENFTEEMLEGAAIEILNEMGYKYIFAPNISYDGDYPERKDYKEVILEQRLKDALFKINRDLPEEALEEAYRKVITFNSPVLEENNRYFHRLLVDGIEVSFRENGEVRTKKAYIVDFENPETNEFLVVNQFTVIENEERRPDLVIFINGIPLVVIELKSASEEDVGIENAYAQIQTYKRDIPSFFNYNAFCILSDGINAKAGTITANFERFMNWRTIDGENIEPLEVPQYEVLFRGMLAKDRLLDIIQNFILFQESKEKEKDSEGNKIGDKKTTVKILSAYHQYFAVKKAVEKTNEATSENGDRKIGVVWHTQGSGKSFSMVFYTAQLVNQLSNPTIVVITDRNDLDDQLYSTFDKSKDILRQTPKQAHVRKLTDEQRKQQVKTNSKEINGLYDLLNERESGGIIFTTIQKFKPDEGEMSVLTDRRNVIIMADEAHRSQYGLEAKTDAKTGEVKYGYAKHLRDALPNASFIGFTGTPIELDDKSTPAVFGHYIDVYDMTRAVEDEATVKIYYENRIIKLEADEEELKKIDKEFEEITEGQEESDRDKYKSKWSRLEAIVGSPNRVKRLAIDIVEHYEEKNKTIDGKALVVCMSRRICVDLYNEIVNLRPEWHSDDVDKGKIKVVMTGSAGDDEKLQPHIGGKQRRDTLAKRIKDDSDELKMVIVRDMWLTGFDVPSMHTMYIDKPMQGHNLMQAIARVNRVFKDKSGGVVVDYIGILENLKKALKQYTESDKKSTGIDTSVAVAIMVEKLEVLRGMMHGFDYSPYMGDSQKDRMRAITGGMNFVLGKPELEQKEFKQIALELAKAHSLCAATDEGKLHALEVSYFKAVKASLTKLEKKGTKKKSKREIESRVSQMLGRSIISEEVVDVFDTLGLKHPDISILSDEFLEEVKELKYKNLAVEMLRKLLEGNIKSMERRNLVKSEMFSEKLQKSLKKYKNQAITNAEVIEELIRMAKDIQKAKAKEKDLGLNDDEIAFYDALTIDEVVKEFMTDETLQKIAQELTNKIRTNITIDWSVRKSAQAGMRRIIKRLLKKYDYPPKQIPHALNTVMRQAELMCGNYAFNDSQHDYAAEDQNGYNV	PGPT0027170_697	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
AK012_02796	1251			hypothetical protein	ATGATTTATAAACTAGAGGATGTTGCAGAATTTCAAAAGGGTTTTGCTTTTAAGTCCAAAGATTTCGTTGAAGATGGAACAAAAATAGTAAAAGTTTCAAATCTTACAGCTAATTCAATTGATGAAGAGGGATGTGTATGCATTAATGAAGATTTAGCTGATAAATACAAGAAATATGAATTAAAGGAAAACGATATAATAATTACAACGGTAGGTTCATGGAAAACGAATCCAGATTCTGTTGTTGGAAAAGTCGTTATGGTACCAAAATCAATGGAAGGTTCATTACTTAATCAGAATGCTGTAAGAGTAAGGAGCAACGATATATCACATCAAAATTACCTTTATTACCTATTAAGGAACAATGAATTTAGAGGATACATTATTGGTACTGCACAAGGTAGTGCTAATCAAGCTAGCATTACCCAAAAAGACATAAAACAATTTGAGCACGATTTTCCAACTATAGACACACAAAAAAATGTTGGGAATTTTTTATCATTGTTTGATAAGACAATAGCAAACAATAATCAAATTAATAAGAAAATTGAGGAAATTAACCAAACTATTTTTAAACACTGGTTTATTGATTTTGAATTTCCTAATGAAGAAGGTAAGCCATATAAATCAAGTGGTGGAGAAATGGTTGAAGGTACATTAGGAATAATGCCGAGAGAGTGGGAAATAGGAGGCATTAATGAGATTGCAAAACTTGTCGGAGAAAACACTAAAAAAAGTGAATTTAAAGCTTCTATCGTCCCTTACATCGGTTTAGAACATATGCCAAGAGGTAGTATAGCCTTAAATATATGGGAGACTAGCGATAAAATTACAAGTACAAAGACAAAATTTAGAGATGGTGATATTCTCTTTGGAAAATTGCGTCCTTATTTCAAAAAAGTTGGAATAGCACCCATAAGTGGGGTTTGTTCTACTGATATTATGGTAATAAATTCACAGAAGAAAGAGTTTTATTCTTATCTACTTTGTGTACTTACCCAAGAAAAATTTATAGAATACTGTACAGCTACGGCAACTGGTACTAGAATGCCACGTACTGGATGGAAGCAAATTTCAAATTATAAAATCTTTATTCCTGATATAGAGTTGATAGAAAAATTCAACAATGTTATGAGCGGAAATTTTGAATTAATCCAAAATAATGTTATTGAAAATGAAATTTTGGAAAAATTAAGAGACACTCTTATACCAAAGTTATTAAGTGAGCGTGCAACTTCTACTGTTCAATAA	MIYKLEDVAEFQKGFAFKSKDFVEDGTKIVKVSNLTANSIDEEGCVCINEDLADKYKKYELKENDIIITTVGSWKTNPDSVVGKVVMVPKSMEGSLLNQNAVRVRSNDISHQNYLYYLLRNNEFRGYIIGTAQGSANQASITQKDIKQFEHDFPTIDTQKNVGNFLSLFDKTIANNNQINKKIEEINQTIFKHWFIDFEFPNEEGKPYKSSGGEMVEGTLGIMPREWEIGGINEIAKLVGENTKKSEFKASIVPYIGLEHMPRGSIALNIWETSDKITSTKTKFRDGDILFGKLRPYFKKVGIAPISGVCSTDIMVINSQKKEFYSYLLCVLTQEKFIEYCTATATGTRMPRTGWKQISNYKIFIPDIELIEKFNNVMSGNFELIQNNVIENEILEKLRDTLIPKLLSERATSTVQ	PGPT0027175_2212	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
AK012_02797	1518			hypothetical protein	ATGGCAACAGCGAATATAGGCTTTGAAGAAACGTTATGGAAATCAGCAGACAAGTTGCGTGGCAGTATGGATTCAAGCGAATATAAGCACGTAGTTCTTGGTCTTATTTTTTTGAAGTACATCTCTGATAAATTTGAAACCAAGTATAATGAACTGGTAGTAGAAGGGGAAGGCTTTGAAGAAGACCGTGATGAATATACATATGAAAATATATTCTGGGTTCCTAAAGAAGCTCGTTGGGGATTTATTAAGGACCACGCTAAAAATGCAAAAATTGGTCAATACATTGATGAAGCAATGATTGACATTGAGAATGAAAATCCGAGTTTAAAAGGGGTCTTAGATAAAAGATATGCTCGGCCTGAAATAGACAAAAGACGTTTAGGTGAACTAATAGACTTAATATCTACAATTAAGTTACACGATAAAAACAACAATGATTTGTTGGGAAGAGTCTATGAATACTTTCTTGGTAAGTTTGCTAGTGCTGAAGGTAAAGGCGGAGGAGAATTCTATACTCCGTCTGGTGTTGTAAAAACGTTAGTAGAGATGATTGAACCTTATAAAGGTAGAATATATGACCCTTGTTGTGGCAGCGGGGGAATGTTTGTCCAAAGTGAAAAGTTCGTTGAAGAGCATCAGGGTAAAGTTGATGACTTATCTATATATGGTCAAGAATTAAACTCTACTACTTGGAAACTGTGCAAGATGAATCTGGCAATTAGAGGGTTAGAAGGGAATATTGGTGAGCATCATGCAGATACCTTTCATAAAGACCTTCATAAAAATATAAAAGCGGATTATATATTAGCAAACCCACCATTCAATATAAGTGATTGGGGAGGGGAGCAATTAATTGATGATGTACGTTGGAAATTTGGAACACCTCCCACTACAAATGCAAACTATGCATGGTTAGAACATATAATTTATCATTTAGCGCCTAATGGTGCTGCTGGAGTAATTTTGGCCAATGGCTCAATAAGCTCCAATAAATCGAATGAAGGGGAAATCAGGAAAAATTTGCTCGAAAAAGATTTAGTTGATGCGATTGTGGTTCTTCCTGACAAGCTATTTTATTCTGTAACAATACCTGTGTGCATTTGGATTCTAAATAGAAATAAAAAAAATAACCCTAAATATAGGAGCAGAGAAAAAGAAATCTTATTCATAGATGCTAGAAACAGTGGTGTAATGGTAGATAGAAAACACAGAGAGCTAGAAAATGGAGAAATAAGTGATATAGCAGAAACATATCATCAATGGAGAAATATAGATGGGAAATATAAAGATATTACTGGTTTTTGTAAATCGTCTACGTTAGATGAGGTACGTAAACAAGACTACATCTTAACTCCGGGAAGATATGTGGGCATCGATGATATAGAAGAGGATAATCTTTCATATGAGGAAAAGATGGAAACATTAACCCAAGAGTTAAGGGAGTTATATTCTAAATCTGAGCTGTTAAAAAAAGAGGTAAGAAACAATCTAGGGGAATTGGGATATGATTTATAA	MATANIGFEETLWKSADKLRGSMDSSEYKHVVLGLIFLKYISDKFETKYNELVVEGEGFEEDRDEYTYENIFWVPKEARWGFIKDHAKNAKIGQYIDEAMIDIENENPSLKGVLDKRYARPEIDKRRLGELIDLISTIKLHDKNNNDLLGRVYEYFLGKFASAEGKGGGEFYTPSGVVKTLVEMIEPYKGRIYDPCCGSGGMFVQSEKFVEEHQGKVDDLSIYGQELNSTTWKLCKMNLAIRGLEGNIGEHHADTFHKDLHKNIKADYILANPPFNISDWGGEQLIDDVRWKFGTPPTTNANYAWLEHIIYHLAPNGAAGVILANGSISSNKSNEGEIRKNLLEKDLVDAIVVLPDKLFYSVTIPVCIWILNRNKKNNPKYRSREKEILFIDARNSGVMVDRKHRELENGEISDIAETYHQWRNIDGKYKDITGFCKSSTLDEVRKQDYILTPGRYVGIDDIEEDNLSYEEKMETLTQELRELYSKSELLKKEVRNNLGELGYDL	PGPT0027180_4260	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
AK012_02798	156			hypothetical protein	ATGGACTTTAATGATTATGCTCTTTTGATTGCAGACGCTCTCATGATGGTTCAAGACGAAGGTAAAAGTGTTGAAGAACCAGCAGAGATAACAGGATTGTATGTAGATACGGTTCAGAAGTTTGTTGATTTACTTGATAGCTATAAAAATTCTTGA	MDFNDYALLIADALMMVQDEGKSVEEPAEITGLYVDTVQKFVDLLDSYKNS				NA	NA	NA	NA	NA
AK012_02799	150			hypothetical protein	ATGGAAACAAACAAAGAATTTTTCGAACAAAACTCAAAAAGTTTCGGTAGTATCATGAATTCAATTCTAAATGCTGAAATCGAAACGATTATCGAGGCGAAGCTCACACACATAGAGAAACAAAAAGAAGACAATTTGGGGGCAGCTTAA	METNKEFFEQNSKSFGSIMNSILNAEIETIIEAKLTHIEKQKEDNLGAA				NA	NA	NA	NA	NA
AK012_02800	1527			hypothetical protein	ATGAACAATGAAATCAATGCGGCAATTTATATTCGAATATCGACCGATACAGAAGAACAGGAGAAATCCCTCTTCTATCAAAAGGAGATTTGCAAAGAGATTATCGAAGAAAATGGTTGGAAGTTATATGACATTTATGTTGATAAAGTAAGCGGACGTGTGCGGAAACGCCCACAATTTAAAAAGCTTGAAAAAGAGATGGAAGATGGAAAAGTGCAACGTGTACTTGTGAAAGAAGGGAGTCGTCTAGCAAGAAACGTGTCTACTTTTGAAAACCTTCGTGAACTAGCAACAAGAAAGAACATTCACTTTCTAAGCGCTGATGGTGATTTAGATACTTTTAACAAAGGTTATCAATGCATTACTCGAGTTGGAGCAGATGCTCAAGGAGAATCTGAAAAGACTTCTCTAAGAGTAAAAAACACCAATAAAGTTATGGCGAAGAGGGGGGAATTTATAGGCTCTTATCCAGCTTATGGATATAGGTCTGAAGATAAAAAATTATATCCAAAAGGGGATGGAACAGAAAAAGTTGTAAAAAAGATATTTTTGAGCTATTTGGAGGGTAAAGGGGCCGATACTATTGCAAAAGAATTAACTGAGTTGTCTATCCCTACTCCATCTATGGTGATTCGCAAAAAAAATGCAACTAGCATTTGGTCTGAGAGCACTATAACTGACATGCTAAGACGAGAAGTTTATGTGGGTCACCTGGTACAATGCGTTGAAGAAACGTATATTGCTAAAGAAGAACGGAAGAGAAGAAAAAAAACAGAAGAGACTTATATTAGAGTGGAAAATACTCATAAGCCAATAATCTCCAAAGAGATATTTGATGGAGTACAAAGATTGTTAACGTCTAGGGGAAAAAAGGCTGGTAAAAAGGGACAAAAACATCTTTTTACTAACCTTCTTTTTTGTAAGGACTGCGGTTGTAGCTTAACTTATAGTGGCAGTTGGAGTAAAGGAAGTTACATTTGTTCCAACTATAAGAAAAAGAAGTTGAACATAAAATGTACTAACCATAAGGTTCAGGAAACGTTTCTGTTCTCTAAGATAAAAAAAGACATGAGTCAATTTAATCAACTACAATTAGAGCGGTATATTAAGAAAGCTGAACAAAGATTGGAAAGAGCTATATTACGTTTAGAAGGGAGAATTAATCCGCTAAAACAAGATGAGGCGGATATAAAAAGAAGAATAAGTATCATAGAAGATGAAATCATTGACTCCCACGGGCAGAAAGAAAAACAAGCAAAGTTGGAACGCCGTCTAGAAAATCAAGAAGAAAAACTAAAAAGTAAAGAAACAGAAATTCTTCAAATACAAGAAAACATAAGTCACTTATCCGGGAACAAGGTTAGAGAGGAAATTCGTGATGAAGTAGTAGCAGTATTTAATCTTAATAAAATGGATTTAAAGTATCTAAACCTTCTTATTAAGAGAATTGATGTTCACGAAGACAAAAGCTTAGATATTCACTATCATTTTGAAGAACCGATTCCACAAAACCCATTGTCTTCTTAG	MNNEINAAIYIRISTDTEEQEKSLFYQKEICKEIIEENGWKLYDIYVDKVSGRVRKRPQFKKLEKEMEDGKVQRVLVKEGSRLARNVSTFENLRELATRKNIHFLSADGDLDTFNKGYQCITRVGADAQGESEKTSLRVKNTNKVMAKRGEFIGSYPAYGYRSEDKKLYPKGDGTEKVVKKIFLSYLEGKGADTIAKELTELSIPTPSMVIRKKNATSIWSESTITDMLRREVYVGHLVQCVEETYIAKEERKRRKKTEETYIRVENTHKPIISKEIFDGVQRLLTSRGKKAGKKGQKHLFTNLLFCKDCGCSLTYSGSWSKGSYICSNYKKKKLNIKCTNHKVQETFLFSKIKKDMSQFNQLQLERYIKKAEQRLERAILRLEGRINPLKQDEADIKRRISIIEDEIIDSHGQKEKQAKLERRLENQEEKLKSKETEILQIQENISHLSGNKVREEIRDEVVAVFNLNKMDLKYLNLLIKRIDVHEDKSLDIHYHFEEPIPQNPLSS				NA	NA	NA	NA	NA
AK012_02801	1497			hypothetical protein	ATGAGATGTGCAAGTTATATCCGTGTTTCCACAGACAAAGAAGAGCAAAAGTCCTCAATCACAAACCAGAAAAACATTTTCATTAATTACATCAAAGAGAATAACTGGACCTTACATGACTTTTACATTGATGTAGAGACAGGAACCACTGGAAAGCGAGAGAATCTTCAGCGACTTATTCAAGATGCTAAAGAGAAAAAATTTGAGGTCATCATAGCAAAGGAACTTTCAAGATTAGCAAGAAACGGGAGTCTTTCCTACCAAATCCGAGATATTGCCCAACAAAATAACATTGGTATCATCACCTTAGATGGAGCGATTAACAGTATCAACGGGGATGTAAGCAAATACGGTTTGTACACGTGGCTATACGAAGAAGAGTCAGAACGAACCAGTGGACGTGTGAAAAGTTCTCTTCGCGCACGTGCAACTAAAGGGTTATTCAAAGGTTCCATCCCGCCATATGGATATTATGCAGAAAACGGCAAGCTGTTTCTAAAAAGTGACCAAACTCCTTCTGTTGTTAAATGGATATTTGAACAATACCTTGAAGGGAGAGGGTTTGACTCCATTGCTAAAGAGCTTTTTGTATCCCAAGCTCCTTCGCCTTCTGAGGTAGCTAAAAAAGCTAATGCTAGTCCTAAATGGTATGGCAGCGGAGTTAGAAGCATATTAGAAAATCCTCATTACACTGGGAATCTAATTCAACAACGTGAAACGACAGTTAGTGTCACAAACAAAAAACGCGTAAAATCGCCTGAGGATAAAACTATTTTGGTTAGAGACACACATGAACCCATCATCAGTGAAGAGTTGTTTCAACTTGTTCAGGACTTAATGGCTCATAGAGCTAAAAAAAAGAATGCTTCTGGAAAACATTTATTTTCAAATTTAATGACCTGTGCTGACTGTGGTTCAACCATGCATTATAAGGTGAATAGAAAAGGTTATGTTTGTGGAGGTTATATCAAGCTCTCCAAAAAATTCTGTACGCACCATGCCGTAAAAGAAAAGGACTTGGTCCGCGCTGTATTAACCGATACTTACGAGTGCAGCAAAGCCATCATCAACCCCGAAACTAATGAAAAGGTGGCAAAATTAAAAGAACAGGAACTGAAGAAGATAACTAAAAAAATGGACCGTCTAAACATCCGAATAAAAGCTGTTCAAAATAAGAAATCTAAGTTGCTGAATTTATTAGTAGATGAAACCATAAGTAAAGAGGAATATCAGAGTGGGGTAACCAAGTATGATGAGGAAATCAACTACATTACTAATGAGAAATCACATTTAGATTCTCTTCTGAAAAAAGGTGATAGCAAAAAAGACTTAAAACACCTTCAAACCATATTAGAAGAAATAAACACGAAACAAACACTGACCAACAGCACAGTTAACAAATTGGTGAAATCAGTAAAAATACAAAAAGACGGTACTCCAGAAATAGAGTACCGCTTTAAAACACTTAGCTTTTTAAACGAAATAAAAGATAATTAA	MRCASYIRVSTDKEEQKSSITNQKNIFINYIKENNWTLHDFYIDVETGTTGKRENLQRLIQDAKEKKFEVIIAKELSRLARNGSLSYQIRDIAQQNNIGIITLDGAINSINGDVSKYGLYTWLYEEESERTSGRVKSSLRARATKGLFKGSIPPYGYYAENGKLFLKSDQTPSVVKWIFEQYLEGRGFDSIAKELFVSQAPSPSEVAKKANASPKWYGSGVRSILENPHYTGNLIQQRETTVSVTNKKRVKSPEDKTILVRDTHEPIISEELFQLVQDLMAHRAKKKNASGKHLFSNLMTCADCGSTMHYKVNRKGYVCGGYIKLSKKFCTHHAVKEKDLVRAVLTDTYECSKAIINPETNEKVAKLKEQELKKITKKMDRLNIRIKAVQNKKSKLLNLLVDETISKEEYQSGVTKYDEEINYITNEKSHLDSLLKKGDSKKDLKHLQTILEEINTKQTLTNSTVNKLVKSVKIQKDGTPEIEYRFKTLSFLNEIKDN				NA	NA	NA	NA	NA
AK012_02802	1383	rlmCD	COG2265	23S rRNA (uracil-C(5))-methyltransferase RlmCD	ATGATGGCGAAGGTGAAGCCGCCTGTACAGAAGAATGAGACGATACAAGTGACGTTTGAGGATTTGACGCATGAAGGCAATGGGGTAGGGAAAGTTGATGGCTATCCGCTTTTCGTACCGTATGGCCTTCCCGGCGAGACGGCTGATGTGAAGGTCGTGAAAGTGAAAAAGAACTTCGGCTTCGGTAAACTCCTCAAGGTGAGCGAGGAAAGTGAACACCGTGTTGAGCCGCCGTGTGATGTATTCTATCAGTGCGGAGGCTGCCAGCTTCAGCATATGAGCTACCAGATGCAGCTCGATATGAAGCAGAAGCAGGTCAAAGACAACATGAAGAAAATCGGGCATCTGGAACACGTGCCTGTCCACCCGACGATGGGGATGGAAGATCCGTGGCGCTACCGCAATAAAGTACAGATCCCGGTCGGACAGAAGGAAGACGGTGAATTGATGACCGGCTTCTATCAAAAGCGCAGCCACAACATCATTGATATGGATACGTGTCTGATCCAGGACGAAATGAACGACCGCATGGTGGAAACCGTCCGCCGTATCGCATCCAAGCACGGCCTGGATGCCTATGACGAACAGACCCACCGAGGTGTGCTGCGTCACATCATGGTGCGCACAGGGCAGAATACGAATGATATTATGATCGTTATCGTAACGAAAACGAAAAAGCTGCCTCATAAAGATGAAATGATCAGTGAAATCCGTGATGCCTTTCCAAATGTGAAGTCCATCGTTCATAACGTGAACAGCGCGCGGACTAATGTCATTTTAGGAAAAGAAACGAACGTCCTCTGGGGCGACGAGTACATTTACGACACAATCGGTGACATCAAATTCATGATCTCGCCAAAATCGTTCTATCAGGTCAACCCGACTCAGACGAAAACGTTGTATGACAAAGCGTTGGAATATGCGGATCTACGAGGCGGCGAAACCGTCATTGACGCTTACTGCGGCATCGGAACCATCTCTCTTTTCTTGGCTCAGAAAGCGAAAAAAGTGTATGGCGTTGAAATCGTACCGGAAGCCGTCACTGATGCGAAAAAGAATGCGCGTCTGAACAAGATGGACAATGCCGACTTCTTCGTCGGTGAAGCAGAAAAGCTGATGCCATGGTGGCGCAACCAGGGGCTTCGTCCAGATGTGATCGTTGTCGATCCACCACGTAAAGGCTGTGACGAAGAGCTGTTGAAGGCGATGCTTGATATGGAACCGGAGCGCATCGTTTATGTGTCGTGTAATCCATCGACGCTTGCACGAGATCTTAAAGTGCTGGAAGATGGCGGCTATGAGACGAAGGAAGTCCAGCCGGTGGATATGTTCCCGCAGACGAGCCACGTGGAGTGTGTAGTGGGAATACATCGCAAAGAATAA	MMAKVKPPVQKNETIQVTFEDLTHEGNGVGKVDGYPLFVPYGLPGETADVKVVKVKKNFGFGKLLKVSEESEHRVEPPCDVFYQCGGCQLQHMSYQMQLDMKQKQVKDNMKKIGHLEHVPVHPTMGMEDPWRYRNKVQIPVGQKEDGELMTGFYQKRSHNIIDMDTCLIQDEMNDRMVETVRRIASKHGLDAYDEQTHRGVLRHIMVRTGQNTNDIMIVIVTKTKKLPHKDEMISEIRDAFPNVKSIVHNVNSARTNVILGKETNVLWGDEYIYDTIGDIKFMISPKSFYQVNPTQTKTLYDKALEYADLRGGETVIDAYCGIGTISLFLAQKAKKVYGVEIVPEAVTDAKKNARLNKMDNADFFVGEAEKLMPWWRNQGLRPDVIVVDPPRKGCDEELLKAMLDMEPERIVYVSCNPSTLARDLKVLEDGGYETKEVQPVDMFPQTSHVECVVGIHRKE				NA	NA	NA	NA	NA
AK012_02803	948	dagK_1	COG1597	Diacylglycerol kinase	ATGATGTATGATGGAACAAGCTTGGATAAAGGGGGTCATATGATGAAACGTGCCCGAATTATATATAACCCGACCTCTGGACGAGAACTCATTCGCAAGGTTCTCCCGGACATTTTACAGAGATTCGAACAGTCCGGTTATGAAACCTCCGCCCATGCCACAACGTGTGCCGGTGATGCCGTCAAGGCGGCCCGCTATGCCGTCGAGCAGGAGTTCGACGTCGTTGTAGCCGCAGGAGGCGACGGAACCATTAACGAAGTGATCAACGGACTTGCCGAACAGGATCATAAACCGAAACTCGGCGTCATTCCAGTCGGGACTACCAACGATTTTGCCCGTGCCTTGCACATCCCAAGAAACATCCATAAAGCCGTCGATATCATCCTGGAGGATTATACGCATCCTCTCGATATCGGACGGGTAAATGATCAGTACTTCATGAACATATCCGGTGGGGGGAAAATCACCGAAGTTTCCTACGAAGTACCAAGTAAACTGAAGACGATGATCGGTCAGCTTGCCTATTACTTGAAAGGCATTGAAATGCTGCCATCCATCCGTCCGACCCGTGTAGAAATCGAGTATGACGGCAAATGGTATGAAGGAGAGATCATGCTGTTTCTCGTCAGCAACACGAATTCCGTCGGCGGACTTGAGAAACTGGCTCCGTCCGCACGTATGGATGACGGCCTGTTCGATCTGATGATCATCGAAAAAATGAACGTCGCCGAGTTTGCCCGTCTGGCAACTCTCGCGATTCAGGGAAATCACCTGAACCATCCGAAGTTCATCCACACCACGGCCAGCCGTGTGAAAGTGAAGACGGATGAAAAGATGCAGTTGAATATTGACGGGGAATTCGGTGGATTATTGCCCGGAGAATTTGTCAATTTATACAGGCATCTGGAGTTTTTTGTACCGGAAGATAAGTTCAAGGAAGAAGAATAA	MMYDGTSLDKGGHMMKRARIIYNPTSGRELIRKVLPDILQRFEQSGYETSAHATTCAGDAVKAARYAVEQEFDVVVAAGGDGTINEVINGLAEQDHKPKLGVIPVGTTNDFARALHIPRNIHKAVDIILEDYTHPLDIGRVNDQYFMNISGGGKITEVSYEVPSKLKTMIGQLAYYLKGIEMLPSIRPTRVEIEYDGKWYEGEIMLFLVSNTNSVGGLEKLAPSARMDDGLFDLMIIEKMNVAEFARLATLAIQGNHLNHPKFIHTTASRVKVKTDEKMQLNIDGEFGGLLPGEFVNLYRHLEFFVPEDKFKEEE	PGPT0024345_1451	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
AK012_02804	1431	gatB	COG0064	Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit B	ATGAACTTTGAAACGATCATCGGACTTGAAGTCCACGTCGAACTAAAAACCGATTCTAAAATCTTCAGCCCGTCTCCGAACATGTTCGGGGATGATCCGAATACGAACGTCAACCCGATTGACCTCGGGTACCCGGGCGTTCTTCCCGTGCTGAACGAAGAAGCGGTGAATTTCGCTATGAAAGCGGCCATGGCCCTGAACTGTGACATTGCTGAAGATACGAAATTCGACCGTAAAAACTATTTCTATCCGGACAACCCGAAAGCTTATCAGATCTCCCAGTTTGATAAGCCGATCGGAGAGAACGGCTATATCGACATCGAAGTCGACGGAAAGAAAAAACGTATCGGTATCACCCGTCTTCATATGGAAGAGGATGCCGGTAAGCTGACCCACAGCGACGATGGCTATTCCCTTGTTGATTACAACCGTCAAGGTACACCGCTTGTTGAGATCGTATCCGAGCCGGATATCAGCTCTCCGAAAGAAGCCTACGCCTACCTGGAAGCATTGAAAAACATCATCCAGTACACAGGCGTTTCTGACTGTAAGATGGAAGAAGGTTCCCTGCGTTGTGACGCCAACCTTTCCATCCGTCCGATCGGTCAGGAAGAATTCGGTACGAAGACCGAGCTGAAAAACCTGAACTCCTTCTCCTTCGTTCAAAAAGGGTTGGAATTCGAAGAGAAGCGCCAGCAGGCAGAGCTGCTGAAAGGCGGGGAAATCCTTCAGGAGACCCGTCGTTATGACGAGCAGACGAAGGAAACCATCCTGATGCGTGTGAAGGAAGGTTCTGATGACTACCGTTACTTCCCAGAGCCGGATCTTGTCCCGCTTTACATTGATGAAGCGTGGAAAGAGCGCATCCGTGCGGAAATTCCTGAGCTTCCGGATGCCCGTAAGAAGCGTTACATCGAGGAGCTTGAGCTGCCGGCCTATGACGCGATGGTTCTCACAAACAGCAAGGAACTGTCCGATTTCTTCGAAGAAGCGATTGGCCAGGGGGCTGATGTGAAACAGGCATCCAACTGGATGATGGGTGAAGTATCCGCCTACATGAACAAGCACTATAAAGAATTGTCCGACCTTGCTTTGACACCTGAATCTCTTGCTAAAATGATTCAGCTGATCGAAGACGGTACGATTTCTTCTAAAATCGCCAAGAAAGTCTTCACAGAACTTGTGGAAAACGGCGGCGATCCAGAGAAAATCGTTAAGGATAAAGGACTTGTCCAAATTTCCGATGAAGGCCAGCTGACGGAAATCATCGTGAAAATCATGGACAACAACCCGCAGTCCATCGAAGACTACAAAAATGGTAAAGACCGCGCCCTCGGATTCCTCGTCGGCCAGGTCATGAAGGAAACCAAAGGCCAGGCCAACCCGCCGATGGTAAACAAAATCATTCTGGCAGAAATGGATAAGCGCTGA	MNFETIIGLEVHVELKTDSKIFSPSPNMFGDDPNTNVNPIDLGYPGVLPVLNEEAVNFAMKAAMALNCDIAEDTKFDRKNYFYPDNPKAYQISQFDKPIGENGYIDIEVDGKKKRIGITRLHMEEDAGKLTHSDDGYSLVDYNRQGTPLVEIVSEPDISSPKEAYAYLEALKNIIQYTGVSDCKMEEGSLRCDANLSIRPIGQEEFGTKTELKNLNSFSFVQKGLEFEEKRQQAELLKGGEILQETRRYDEQTKETILMRVKEGSDDYRYFPEPDLVPLYIDEAWKERIRAEIPELPDARKKRYIEELELPAYDAMVLTNSKELSDFFEEAIGQGADVKQASNWMMGEVSAYMNKHYKELSDLALTPESLAKMIQLIEDGTISSKIAKKVFTELVENGGDPEKIVKDKGLVQISDEGQLTEIIVKIMDNNPQSIEDYKNGKDRALGFLVGQVMKETKGQANPPMVNKIILAEMDKR				NA	NA	NA	NA	NA
AK012_02805	1473	gatA		Glutamyl-tRNA(Gln) amidotransferase subunit A	ATGTCTTTATTTGAGTACACGTTAAAAGAGCTTCAGGAGAAGCTACATAATAAAGAAATCTCAGTGACGGACCTTGTAGAGGAATCCTACAAGCGCATTGACGAAGTGGATGAAGAGATTCAGGCTTTCATCACACTGAATAAAGAAGCTGCCATGACGAAAGCAGCGGAACTGGATGCGGAGCGTGGAACGGCCGCTGAAAAGCTGTTCGGTCTGCCGATCGGTGTGAAGGACAACATCGTAACGAAAGGTCTCCGTACGACAGCCGGCAGCCAGATTTTGTCCAACCTGAACGATCCTTTGTATGACGCGACCGTTGTCAACAAGCTGAACGACGCGAAATCCGTCACCATTGGTAAATTGAACATGGATGAATTCGCGATGGGTTCCTCCAACGAAAACTCCAGCTACGCTGCTGTGCGTAACCCGTGGAACACGGATTATGTCCCAGGTGGCTCCAGTGGTGGTTCTGCGGCGGCTGTTGCTGCAGGCGAAGTCCCTTATTCTCTTGGTTCCGATACCGGCGGTTCCATCCGTCAGCCGGCTGCTTACTGTGGTGTGGTCGGATTGAAGCCTACCTACGGCCGTGTGTCCCGTTTCGGATTGATCGCTTTTGCGTCATCCCTTGATCAGATCGGACCAATCACACGCAATGTCGAAGATAACGCGTTCCTTCTGGAAACGATTGCCGGTCATGACAAAATGGATTCGACATCTGCCAATGTAGAAGTGCCAAACTATACAGAGGCTCTGACAGGTGATGTGAAAGGCTTGAAAATCGCTGTACCGAAGGAATACCTTGCTGAAGGTGTCGCTCCTGAGGTGAAAGAAGCGGTTCAGGCTGCCCTGAAAGAATATGAAAAAATGGGCGCGACATGGGAAGAGGTTTCCCTGCCGCACTCCAAATATGCGCTTTCCACGTACTACCTGCTTTCTTCTTCAGAAGCATCTGCCAACCTGGCCCGTTTTGACGGTGTCCGTTACGGCAAGCGTGCGGAAGATGCGGAGTCTATGCTGGACATGTTCAAGCACTCCCGCTCTGAAGGCTTCGGTGACGAAGTGAAGCGCCGGATCATGCTTGGAACATTCGCCCTCAGCTCTGGATACTATGATGCGTATTACAAGAAAGCCCAGCAGGTACGTACGCTTATTAAGAACGATTTCGAAAAAGTGTTCCAGGACTACGATGTCATCGTCGGCCCGACAACGCCGACACCAGCCTTTAAAGTCGGTGACAAAGTAGACGATCCAATGACCATGTATGCCAACGACATTTTGACGATTCCTGTCAACCTTGCCGGTGTTCCGGGCATCTCCATTCCTTGCGGTTTCTCCAGCGAAGGACTGCCGATCGGCCTGCAGATCATCGGAAAACACTTTGACGAAGGTACTGTCTACCGTGCCGCTCACGCCTTCGAACAGGCGACCGATTACCATACCCAACGCCCGTCCCTTGGAGGTGCGCGCTCATGA	MSLFEYTLKELQEKLHNKEISVTDLVEESYKRIDEVDEEIQAFITLNKEAAMTKAAELDAERGTAAEKLFGLPIGVKDNIVTKGLRTTAGSQILSNLNDPLYDATVVNKLNDAKSVTIGKLNMDEFAMGSSNENSSYAAVRNPWNTDYVPGGSSGGSAAAVAAGEVPYSLGSDTGGSIRQPAAYCGVVGLKPTYGRVSRFGLIAFASSLDQIGPITRNVEDNAFLLETIAGHDKMDSTSANVEVPNYTEALTGDVKGLKIAVPKEYLAEGVAPEVKEAVQAALKEYEKMGATWEEVSLPHSKYALSTYYLLSSSEASANLARFDGVRYGKRAEDAESMLDMFKHSRSEGFGDEVKRRIMLGTFALSSGYYDAYYKKAQQVRTLIKNDFEKVFQDYDVIVGPTTPTPAFKVGDKVDDPMTMYANDILTIPVNLAGVPGISIPCGFSSEGLPIGLQIIGKHFDEGTVYRAAHAFEQATDYHTQRPSLGGARS				NA	NA	NA	NA	NA
AK012_02806	291	gatC		Aspartyl/glutamyl-tRNA(Asn/Gln) amidotransferase subunit C	ATGTCCAGAATCAGTAAAGATGAAGTGAAGCACGTCGCGAATCTTGCGCGTCTTGCGATCACGGATGAAGAAGCAGCAACATTCACGAAGCAGCTGGATGACATCATTACGTATGCCGAACAGCTGAATGAGCTCGATACAACAGGCGTTGAGCCGACAACCCACGTCCTTGACCTTAAAAACGTCATGCGTAAGGACGAGCCGAAGAAGTGGATCACTCAGGATGATGCACTGAAAAATGCACCAGACAAACAGGACGGACAATTCAAAGTCCCATCCATTTTGGAATAA	MSRISKDEVKHVANLARLAITDEEAATFTKQLDDIITYAEQLNELDTTGVEPTTHVLDLKNVMRKDEPKKWITQDDALKNAPDKQDGQFKVPSILE	PGPT0023460_2466	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023460-gtaC-K02435	NA	NA
AK012_02807	1512	putP_2	COG0591	Sodium/proline symporter	ATGAGTACTGCAACGTTAATAACGTTTATTATTTACTTAATCGGTATGCTGGGTATCGGATTTGCCGCATATCGTCTGACATCTGATTTGTCCGATTACGTCTTAGGCGGTCGTCGTTTAGGACCAGGAGTAGCCGCACTATCCGCGGGTGCCTCTGATATGAGTGGCTGGCTGCTGTTAGGTCTGCCGGGTGCGATTTATGCTTCCGGATTGTCTGAAGCTTGGATCGGTGTCGGTCTGGCTATCGGTGCCTACTTGAACTGGCAGTTTGTCGCGCGTCGTCTTCGTGTATTTACGGAGGTTGCGAATGACTCGATTACTGTTCCTGACTATCTTGAGAACCGTTTCCGTGACAACTCCCACGTGCTGCGTGTAATATCTGCATTTGTCATTCTATTATTTTTCACCTTCTATACTTCCTCCGGTATGGTCGCCGGTGCGAAGCTGTTTGAAGCTTCATTTGCCTTAAGCTATACACAGGCTTTATGGCTCGGTGCGATCGTCACAATCTCTTATACGTTCCTTGGAGGCTTCCTGGCAGTAAGCTGGACAGACTTCGTCCAGGGAATTCTGATGTTCCTTGCTCTTATCGCTGTGCCGATTGTGGCTGTATCTGAGCTTGGTGGATGGAACGCAGCGACAGACGCTGTTGCCCAGATTGATCCATCCCACTTGAACATGGTGCAGGGTGTCGGTGCTCTGGCTATCATTTCCTCCCTTGCGTGGGGACTTGGTTACTTCGGTCAGCCGCACATTCTTGTCCGCTTTATGGCGCTTCGTTCACCTAAAGATGTACCGAAAGCCCGCCTGATCGGAATCGGCTGGATGGTCCTTGGTCTTTACGGTGCCATTTTCACCGGTTTGTTCGGACTTGCCTACATCAACACAGCTGATGTGGCGGACTTGTCCACGTTCAATGCTGAAGTCATTACTGAAGGCGGCATCCAGATGCTTGCCGACTCTGAGAAGATCTTCATTACGTTCTCTCAAATTCTGTTCCACCCGATCATCGCGGGTATTCTATTGGCAGCCATCTTGTCTGCAATCATGAGTACGATTGATTCTCAGCTTCTTGTATCTTCTTCTGCACTGGCAGAGGACTTCTACAAGGCATTGTTCCGTAAGAACGCTACAGAAAAAGAATTGGTATGGGTCGGACGTGTTGCCGTAGCCGGTATCGCTCTGATTGCCGTGCTTCTTGCCGGTAACCCGGACAGTACCGTTCTTGGCCTTGTATCCTATGCATGGGCTGGCTTCGGTGCCGCTTTCGGTCCGATCATCATCCTGTCCTTGTTCTGGAAAGGCATCACCCGTAACGGGGCGCTCGCCGGTATTATCGTCGGTGCCGTCACTGTTGTTATCTGGGGTGACTTCCTGAGCGGCGGTATCTTCGATCTTTATGAAATTGTACCAGGATTCCTGTTGAGCACCCTTGCTACGGTGATTGTCAGTCTGATGGGTACACCGCCGAAAGAAATCGTTGAAGAATTCAATGAAGCAGCAAGACGCTGA	MSTATLITFIIYLIGMLGIGFAAYRLTSDLSDYVLGGRRLGPGVAALSAGASDMSGWLLLGLPGAIYASGLSEAWIGVGLAIGAYLNWQFVARRLRVFTEVANDSITVPDYLENRFRDNSHVLRVISAFVILLFFTFYTSSGMVAGAKLFEASFALSYTQALWLGAIVTISYTFLGGFLAVSWTDFVQGILMFLALIAVPIVAVSELGGWNAATDAVAQIDPSHLNMVQGVGALAIISSLAWGLGYFGQPHILVRFMALRSPKDVPKARLIGIGWMVLGLYGAIFTGLFGLAYINTADVADLSTFNAEVITEGGIQMLADSEKIFITFSQILFHPIIAGILLAAILSAIMSTIDSQLLVSSSALAEDFYKALFRKNATEKELVWVGRVAVAGIALIAVLLAGNPDSTVLGLVSYAWAGFGAAFGPIIILSLFWKGITRNGALAGIIVGAVTVVIWGDFLSGGIFDLYEIVPGFLLSTLATVIVSLMGTPPKEIVEEFNEAARR	PGPT0013970_558	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
AK012_02808	1551	putC	COG1012	1-pyrroline-5-carboxylate dehydrogenase 2	ATGGTGGTCCCTTACAAACATGAACCATTCACAGATTTCACGCTGGAAGAAAATCGAAAAGCCATGGAGGCTGCATTGAAGCAGGTGGAGGCAGACCTTGGAAAAGATTATCCGTTAATCATCGGCGGGGAGCGGGTAATGACCGACGAGAAGATCGAAGTCGTCAATCCAGCCAATAAAAAGGAAGTGATCGGCCGAGTGTCGAAAGCCAATCAGGACCTGGCGGAAAAAGCCCATCAGGTGGCTGATGAGACGTTTGACTGGTGGCGGAAGACGAAGGCGTCGTACCGTGCGGATATTCTCTTCCGTGCTGCTGCGATCGTCCGCCGCCGGAAGCACGAATTTTCAGCCCACCTCGTCAAAGAGGGCGGGAAACCATGGAAGGAAGCCGATGCGGATACAGCCGAGGCAATCGATTTTCTGGAGTATTATGGGCGTCAAATGCTTGAAATAGATAAGGGGATCGACGTGAATTCCCGTCCGATTGAAAACAACCGGTTCCATTACATACCTCTCGGCGTCGGTGTCGTCATTTCCCCGTGGAACTTCCTGTTTGCCATCATGTGTGGAACAACGGTCGCGGCGATGGTTTCCGGCAATACCGTCTTATTGAAGCCGGCCAGTGCGACACCGATCATTGCCTATAAGATGATGGAGGTTCTAGAGGAGGCCGGGCTTCCGGACGGCGTCATCAATTATATTCCAGGACACGGGAAGGAAGTCGGCGATTATCTTGTCGATCATCCACGTACACGCTTCATCAGCTTCACGGGGTCCCGTGAAGTGGGCACCCGTTTGTTTGAGAGAGCCGCGAAAGTTCATAAGGGACAGAAGTGGTTGAAGCGGACGATTATTGAGATGGGCGGAAAAGATACCATTGTCGTCGATAAGGATGCGGACCTGGAACTGGCCGCAGCTGCGATTACGTATTCTGCCTTCGGTTTTTCCGGCCAGAAATGCTCGGCGTGTTCCCGTGTCGTTGCTCATGAAGATATTTACGATCAGCTGCTTGACCGCGTTGTCCAGAAGACGAAGGAGGACGTGAGCTGGGGCGATCCATCCGATAACAGCCGCTATATGGGACCAGTCATCGACCAGGGTGCCTTCGACAAGATTATGAGCTATATCGATCTCGGAAAAGGTGAAGGACGATTAATGACCGGAGGAAAAGGGGATGACAGTAAAGGATGGTTTATAGCGCCGACGGTTTTTGCCGATCTTGCTCCTGATGCACGAATTATGCAGGAGGAGATTTTCGGTCCTGTCGTCGGCTTTACGAAAGCGCAGAATTTTGATGAAGCCATCGAGATCGCAAATCAGACGGATTACGGTCTGACGGGTGCAGTTATTACGAACAACCGCGATCATATTGAAAAAGCACGGGAAGACTTCCACGTCGGTAACCTGTATTTCAACCGTGGATGTACAGCGGCGATCGTCGGCTATCATCCATTTGGTGGTTTCAACATGTCCGGAACCGACTCCAAAGCGGGTGGACCGGATTACCTGCTTCAGCACATGCAGGGAAAAACGTCGTCTGAGATGCTGTGA	MVVPYKHEPFTDFTLEENRKAMEAALKQVEADLGKDYPLIIGGERVMTDEKIEVVNPANKKEVIGRVSKANQDLAEKAHQVADETFDWWRKTKASYRADILFRAAAIVRRRKHEFSAHLVKEGGKPWKEADADTAEAIDFLEYYGRQMLEIDKGIDVNSRPIENNRFHYIPLGVGVVISPWNFLFAIMCGTTVAAMVSGNTVLLKPASATPIIAYKMMEVLEEAGLPDGVINYIPGHGKEVGDYLVDHPRTRFISFTGSREVGTRLFERAAKVHKGQKWLKRTIIEMGGKDTIVVDKDADLELAAAAITYSAFGFSGQKCSACSRVVAHEDIYDQLLDRVVQKTKEDVSWGDPSDNSRYMGPVIDQGAFDKIMSYIDLGKGEGRLMTGGKGDDSKGWFIAPTVFADLAPDARIMQEEIFGPVVGFTKAQNFDEAIEIANQTDYGLTGAVITNNRDHIEKAREDFHVGNLYFNRGCTAAIVGYHPFGGFNMSGTDSKAGGPDYLLQHMQGKTSSEML	PGPT0020210_2517	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0020210-putA-K13821	NA	NA
AK012_02809	1146			hypothetical protein	ATGAGGAAGATGCACGCACTGTTACTTAGTTCGGTGCTTTTCGTGAGCGCGTGTACGCCTGTTTTTGATAATAGAGAGGAAGTCATACAGGAAACAACCGATGAGAACAATAACCAATCGGCCATCGTTCCCAACTATACGATGTCTGAGACGGATTACCGGATGATTTTGACCGAAAGCAGTCCGAAGGTGTCATCCGCCCGTGGAGTCACCACGAACCAGATGGGCAACCGGCTCGATATCGATGAATTCGAGAGCGGCCTGCGCCGTCATTCCAAGGAATACTATGATCCGGAGGACTACTTTTTCCAGCCCGGCCAGTATTTGTCGGACGGTACGCTTCTCAACTGGCTTTCCCGTGAGAGCGACGCTGAAGGTGGACTGAACCCGGAGCTCAATGAAGATGAGGCATCTGAAGAAGAATTCCGTGACAGTCCGAAATATATTTCCAATATCGTCGAACAGGATTACTTAGTGAAGAAGGAAGAAAACGTCGTAGAATTGAAAGGCCTCACCATTGGTATTTCCCTCCGGACGGTGTACAATTTCCAGACACCGGACGGGAAGAATTACTCAGAAAACCATTCGACGGACGAGCTTCTGACAAAAGGGAAGCAGTATGCCGAGGAGATTCTTAAGCGTATCCGCGAGCGTGAGGAATTGAAGGATGTACCGGTTGTATTCGCTTTATATGAAGAAGAAGAAGCCAGCTCGAAAGTACCGGGCAACTTCCTGAGCAAGGGATATGTGAAAGAATCATCCAATTCCATTGGCGGCTGGGACAGCATTGACGAGAAGCACGTGCTTTTCCCATCCAGTGAAGCGGAAACGGATCATTTTGATGATTCCCAGGTATTTTCGGACTTCAGAAAGGAAGTGTCCGATTACTTTCCGAACTTCGTCGGTATGATTGGAAATGGTTTTTACGTGAACAATGACCTGCGGGAGGTTACGATTGAAATTCCGATTGAGTTCCAGTCCCAGTCCGAGGTTGTTGGTTTTACCCAGTATGTCTACAGTCTCGTCGTTGAAATGTTCCCGGACCACTATGGTGTGCAGGTGAACATTCACAGCATGGACGAGCCGGAAAGCCTGATTGTTAAAAACGCAGGAGAAAAAGAACCGTTTGTGCATGTCTATAAATAA	MRKMHALLLSSVLFVSACTPVFDNREEVIQETTDENNNQSAIVPNYTMSETDYRMILTESSPKVSSARGVTTNQMGNRLDIDEFESGLRRHSKEYYDPEDYFFQPGQYLSDGTLLNWLSRESDAEGGLNPELNEDEASEEEFRDSPKYISNIVEQDYLVKKEENVVELKGLTIGISLRTVYNFQTPDGKNYSENHSTDELLTKGKQYAEEILKRIREREELKDVPVVFALYEEEEASSKVPGNFLSKGYVKESSNSIGGWDSIDEKHVLFPSSEAETDHFDDSQVFSDFRKEVSDYFPNFVGMIGNGFYVNNDLREVTIEIPIEFQSQSEVVGFTQYVYSLVVEMFPDHYGVQVNIHSMDEPESLIVKNAGEKEPFVHVYK				NA	NA	NA	NA	NA
AK012_02810	2010	ligA		DNA ligase	ATGAGTATGAATGCAAGTGAAGCGCAGCAGAGGATCGAGGCACTCCGACAGGAACTGGAGCAGTACAGCTATCAATACCATACGCTCGATGATCCATCGGTCTCTGACTACGAATATGATAAAAAAATGCAGGAGCTGATGAACCTGGAGGAGGAATTCCCGGAGCTGCAGACTCCGGACTCTCCTTCCCAGCGTGTCGGTGGTAAACCTCTCGACGCCTTCGTGAAGGTGCAGCATGATATTCCGATGCTCAGCCTCGGCAACGCTTTTAACGAGGAGGAGCTCCGGGATTTTGACCGCCGTGTGAAAAACGGCACAGACGCAGAGGTAAGCTATGTATGCGAATTGAAAATCGACGGACTCGCCGTTTCTCTGAAATATGAAGATGGTGTGTTTGTTCGTGGGGCGACACGAGGCGATGGAACGACAGGCGAAGACATTACGAAGAACCTGCGGACCATCCGCAGCATTCCACTCCGTCTGAAGGAACCGGTCACCCTTGAGGTGCGCGGGGAGGCGTATATGCCGAAGCGCTCGTTTGTAAGCTTGAATGAAGCGAAGGAAGCCGGCGGGGAAGAGCCGTTTGCCAACCCGCGTAATGCCGCAGCCGGTTCGCTCCGTCAGCTGGATCCGAAAATTGCCGCGAAACGGAACCTTGATATTTTCCTATACGGCATTGGTGTCTGGGAGGATGATCCGACAGACGCGCACAGTGACCGGCTGGAACGCATGAAAGAACTGGGGCTGAAAACCAACCCGGAATGGCAGAAGTGTACCAATATCGATGAAGTGATCGACTATGTGAACAGCTGGGTCGAACGCCGTCCGGATCTCGACTATGAAATTGACGGTATCGTCATCAAAGTGGACCGCCTTGATCAGCAGGAGGCGCTCGGCTTTACGGCTAAAAGCCCTCGTTGGGCGACAGCGTTCAAATTCCCGGCTGAAGAAGCCGTTACAAAGCTTACCGATATCGAATTAAGCGTTGGAAGGACCGGGGCTGTTACACCGACGGCGATTCTTGAACCCGTCAAGGTTGCCGGAACGACCGTGCAGCGGGCCTCTCTCCACAACGAGGATCTTATCCGTGAAAAGGACATCCGCATCGGGGATACCGTCGTCATTAAAAAAGCCGGCGATATTATTCCGGAAGTTGTCCGGGTCCTGACCGATCAACGCACAGGGGAAGAGGAGCCGTATTACATGCCGGAAACGTGTCCGGAATGCGGAAGCGAACTTGTCCGGATTGAAGAAGAAGTCGCTCTCAGATGCATCAACCCGAACTGTCCGGCCCAGCTTCGGGAAGGACTGATCCACTTTGTCTCCCGGACGGCGATGGACATTGAAGGACTCGGTGAAAAAGTCATCGCCCAGCTTTTCCAGGAGAACCTGATCCATAATATTGCCGACTTGTACAAGCTGGATCGTGAAGAACTGCTGCAGCTGGACCGTATGGGGGAAAAGTCGGTGGAAAACCTGCTGCATGCCATTGAAGCGTCCAAGGAGAACTCCCTGGAGCGTCTGCTGTTTGGTCTTGGCGTCCGATACGTCGGTTCCAAAGCAGCGAGTACGCTTGCGCAGCACTTTGAGCATATGGATGCGCTGAAGCAGGCAGATACAGAAACGCTTGAGGCCGTTCCTGAAATTGGAAGCAAAATGGCCGATTCGATTGCCAGCTATTTTGACAAGCCACAGGTCAACGAACTGTTGGACGAGCTGAAGTCACTCGGTTTGAACATGGAATACCTCGGTGCGAAGAAGAGTGATCAGCCGGAGGATTCGCCGTTCAAGGATAAGACGATTGTCCTGACAGGTAAAATGGAACACTTCAGCCGTTCAGAAGCGAAGAAAATTGTCGAAGAGCTTGGCGGAAAAGTGACGGGGAGCGTCAGTGCCAAGACCGATCTCCTGATTGCGGGCGAGGATGCCGGATCGAAATACAAGAAGGCGGCAGATCTCGGCGTTGAAATCTGGGATGAAGAGCAGTTTAGAGAAGCTTTAAACAATTAG	MSMNASEAQQRIEALRQELEQYSYQYHTLDDPSVSDYEYDKKMQELMNLEEEFPELQTPDSPSQRVGGKPLDAFVKVQHDIPMLSLGNAFNEEELRDFDRRVKNGTDAEVSYVCELKIDGLAVSLKYEDGVFVRGATRGDGTTGEDITKNLRTIRSIPLRLKEPVTLEVRGEAYMPKRSFVSLNEAKEAGGEEPFANPRNAAAGSLRQLDPKIAAKRNLDIFLYGIGVWEDDPTDAHSDRLERMKELGLKTNPEWQKCTNIDEVIDYVNSWVERRPDLDYEIDGIVIKVDRLDQQEALGFTAKSPRWATAFKFPAEEAVTKLTDIELSVGRTGAVTPTAILEPVKVAGTTVQRASLHNEDLIREKDIRIGDTVVIKKAGDIIPEVVRVLTDQRTGEEEPYYMPETCPECGSELVRIEEEVALRCINPNCPAQLREGLIHFVSRTAMDIEGLGEKVIAQLFQENLIHNIADLYKLDREELLQLDRMGEKSVENLLHAIEASKENSLERLLFGLGVRYVGSKAASTLAQHFEHMDALKQADTETLEAVPEIGSKMADSIASYFDKPQVNELLDELKSLGLNMEYLGAKKSDQPEDSPFKDKTIVLTGKMEHFSRSEAKKIVEELGGKVTGSVSAKTDLLIAGEDAGSKYKKAADLGVEIWDEEQFREALNN				NA	NA	NA	NA	NA
AK012_02811	2235	pcrA_2	COG0210	ATP-dependent DNA helicase PcrA	ATGACTCAGGCGTTGAATGCTTTGATTCAAGGTTTGAATACAGAACAGCGCAATGCGGTAACCCATACAGAAGGCCCGCTGCTCATTATGGCAGGTGCCGGAAGTGGTAAGACACGGGTGCTGACCCACCGGATTGCCTACTTACTCAGTGAAAAAGATGTAGCGCCCCGCAACATTCTGGCGATTACATTTACAAACAAAGCCGCACGCGAAATGAAAGAGCGTGTGGAATCTCTTGTCGGAAACGACGGCGAAAAAATATGGATGTCGACGTTCCACTCGATGTGTGTCCGTATTTTAAGGCGGGACATCGACCGGATCGGCTATGACCGCAATTTCTCTATTCTGGACTCCAGTGACCAGCTTTCTGTCATCAAGCAGGTGCTGAAGGAACTGAACCTGGATCCGAAAAAGTGGGATCCGCGGGCGATGCTCGGAGCGATCAGTAATTCGAAAAACGAACTCATGACAGCGGAAGATTATGCGAAGCAGGCCGGCAGTACGCACGAGGAGCAGGTGGCGGAAGTGTATAAAGGCTACCAGAAAAAACTGCGAAAAAACCAGTCGCTCGATTTTGACGATTTGATCATGCAGACACTCCGTTTGTTTGATGAAGTGCCGGAAGTGCTGGAAACCTATCAGCGCCGCTTCCAATACATCCACGTTGATGAGTATCAGGATACGAACCATGCGCAGTATCAGCTCGTCAAGCATCTGGCGAGCCGGTATCAGAACCTGTGCGTTGTCGGGGATTCCGACCAGTCGATCTATGCGTGGCGCGGAGCGGATATTCAAAACATCCTAAACTTTGAAAGTGATTATCCGAATGCACGGACGATTCTCCTGGAGCAGAATTACCGTTCTACAGAATTGATTCTCGATGCGGCCAACAATGTTATTGATAAAAACTCGGGCCGGAAGCCGAAGCGCCTTTGGACCGACAATAAAGGCGGCGAAAAAATCCATTATCACCAGGCCGGCACAGAACGTGAGGAAGCCCTTTTCGTCACGGATAAAATCGGCGACCTCGTAAGGCAGGGGAAATTCCGTTATCAGGATACGGCGATCCTGTACCGGACGAATGCCCAGTCGCGTACGATTGAGGAAACATTCGTCAAAGCGGGCATTCCATATCAGATGATCGGCGGTACGAAGTTCTACGACCGTAAGGAAATCAAGGACCTCCTTGCCTATCTGCGTCTCATTGCCAACCCGAATGATGATCTCAGCTTTCAGCGTGTCGTCAATGAGCCGAAGCGCGGGGTAGGGAAGACGAGTATGGACAAAATGATGGCTTATGCAGCTGATCACGATATTTCGCTGTATGAAGCAGCAGCGGAAGTCGACTTTGTCGGCGTCAGCGCGAAAGCGGCCAAGGCGATCATGAGCTTCCGTAAGATGGTCCAGAACTGGAGCGAGCAGCAGGAGTTTCTATCAGCGACCGATATGGTCCAGCAGGTCATCGATAAAACCGGCTATGAAGAGATGCTTATGAACGAGAAAAGCATTGAAGCTCAGAGCCGTCTGGAAAACATTGAGGAATTCAAATCCGTTACGAAGAACTTTGAAGAAAACGCTGAAGATAAAACATTGGTGGCGTTCTTGACGGATCTTGCGCTGATTGCGGATATCGATTCCATGAATGAGGACCCTAGTAGTGATGATACCGTTACGCTTATGACGCTTCACTCCGCCAAGGGTCTGGAGTTTCCTGTCGTCTTTCTCATCGGTATGGAGGAGAATGTCTTCCCGCACAGCCGTGCGTTAATGGATGAGGAGGAAATGGAAGAGGAACGCCGCCTCGCTTACGTGGGAATTACCCGCGCTGAGAAGCAGCTGTTTTTGACCCATGCGAAAATGCGTACGTTGTATGGACGGACGAACATGAACCCGATCAGCCGGTTTATCCATGAAATTCCGGAAGAGCTGGTCGACGGACGTGAGCAGAAGGAAGAACTGCCGTTTTTCAACAAGAAGCGTGAAACGGCCCCGTTCGGCAGGCAGACCCAGGAGCCGCCGAAGCGTTCAGCCAAGAAGCCGAAGAAGAAGGAATCGACCGGAGGCGAGAAGATTGGCTGGCAGCCTGGAGATAAAGCGACACACAAAAAATGGGGAACCGGCACCGTCGTCAAAGTGCAGGGTGAGGGAGACGCGCTTGAACTCGATATCGCATTCCCGGCACCGACAGGCATCAAACGGCTGCTTGCCCGATATGCTCCGATTACGAAAGCGTAA	MTQALNALIQGLNTEQRNAVTHTEGPLLIMAGAGSGKTRVLTHRIAYLLSEKDVAPRNILAITFTNKAAREMKERVESLVGNDGEKIWMSTFHSMCVRILRRDIDRIGYDRNFSILDSSDQLSVIKQVLKELNLDPKKWDPRAMLGAISNSKNELMTAEDYAKQAGSTHEEQVAEVYKGYQKKLRKNQSLDFDDLIMQTLRLFDEVPEVLETYQRRFQYIHVDEYQDTNHAQYQLVKHLASRYQNLCVVGDSDQSIYAWRGADIQNILNFESDYPNARTILLEQNYRSTELILDAANNVIDKNSGRKPKRLWTDNKGGEKIHYHQAGTEREEALFVTDKIGDLVRQGKFRYQDTAILYRTNAQSRTIEETFVKAGIPYQMIGGTKFYDRKEIKDLLAYLRLIANPNDDLSFQRVVNEPKRGVGKTSMDKMMAYAADHDISLYEAAAEVDFVGVSAKAAKAIMSFRKMVQNWSEQQEFLSATDMVQQVIDKTGYEEMLMNEKSIEAQSRLENIEEFKSVTKNFEENAEDKTLVAFLTDLALIADIDSMNEDPSSDDTVTLMTLHSAKGLEFPVVFLIGMEENVFPHSRALMDEEEMEEERRLAYVGITRAEKQLFLTHAKMRTLYGRTNMNPISRFIHEIPEELVDGREQKEELPFFNKKRETAPFGRQTQEPPKRSAKKPKKKESTGGEKIGWQPGDKATHKKWGTGTVVKVQGEGDALELDIAFPAPTGIKRLLARYAPITKA				NA	NA	NA	NA	NA
AK012_02812	711	pcrB	COG1646	Heptaprenylglyceryl phosphate synthase	ATGTACAATATAAGCAAGTGGGATCATGTGTTTAAACTGGATCCAAATAAAATGATTTCGGAAGAAGACTTAAAAGACATCTGCACATCTGGTACGGATGCTGTCATGATCGGCGGTACCGATGGCGTAACCTTTGAAAATGTCACCGATCTGCAGGAACGGGTGGAGGCGTATGACGTCACCTGTGTGCTGGAAGTGTCCGGTGTTGAAGCAGTGGCTCCGGATTTTGACGCTTATTTCATTCCGATGGTGCTGAACAGCGGAGATAAAAAGTGGATGCTTGATGTGCAGCATCAAGCAGTCAAAGAATACAGCGATATGATCAACTGGACGGATATGCTGACAGAAGGGTACTGTGTCCTTAACCCCGAGGCTAAAGTGTTTCAAAAAACGTCCTGTTCTCTGCCGGATCAAGCGGACGTGCTGGCATATGCCCGGATGGCCGAGCATCTTTTCCGCCTCCCGGTTTTTTATATGGAATACAGCGGGACCTACGGTGATTCAGCTCTTGTAAAGCAAGTGGCGGATGCGCTGGAGGAAACGACGCTCGTCTACGGCGGCGGCATCCGGACGATGCAGCAGGCTTCGGAAATGGCAGCCGCCGCAGACGTCGTCGTCGTTGGAAATGTCATCTATGACGATATACAAGTGGCTCTTCAAACGGTGGAAGCAGTCAAATCAACAAAGAAGAAGGATGGTGGACGTTCATGA	MYNISKWDHVFKLDPNKMISEEDLKDICTSGTDAVMIGGTDGVTFENVTDLQERVEAYDVTCVLEVSGVEAVAPDFDAYFIPMVLNSGDKKWMLDVQHQAVKEYSDMINWTDMLTEGYCVLNPEAKVFQKTSCSLPDQADVLAYARMAEHLFRLPVFYMEYSGTYGDSALVKQVADALEETTLVYGGGIRTMQQASEMAAAADVVVVGNVIYDDIQVALQTVEAVKSTKKKDGGRS	PGPT0024385_55	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_PHOSPHATE_SYNTHASE_ACTIVITY,PGPT0024385-pcrB-K07094	NA	NA
AK012_02813	600			hypothetical protein	GTGAAAGAGATGGTGAAGAAAGGAATCATGATCGTTGCTGGAAGCTTGATTCTTTCGCTTGGTATCAATTTTTTCCTTATTCCCGACCACGTTCTCGACGGCGGCATCATCGGTATCGGTATGATCGCCAATTACATATGGGGGATGAAAGTGGGGCTGACGATCATCTGCTTCAGCATCCCGATTTTCACCCTTGCCTGGTTCCATTTCCGCATGTACTTTTATAACAGCCTGCACGGCCTGCTGGTTTCCTCGTTTTCCATTGATGTGCTTCAGGGGCTGCGCGCCTATCATCTGCCGCTCGATCCTGCTGTAAGCTCTATCATCGGCGGGGCTCTTGTCGGCGGCGGCATCGGTTTGATGCTCCGGCACCATACGAGCACCGGAGGGACGGACCTGTTGGCGCAGATGATTGCCGACTGGATGAAGGTGAACGTCGGATTCGTTATTCTGGCCATTGACGCAGTCATTATCGGGGCTGGTGGGCTGCTGTTTTCGATGGAAACCCTGCTTCTTTCTGCGATTACGATTTTGAGTGTGGGTCTGGTGACGATGACCTTCACCTCCTCTCGTCTCCTTCCCGAACACCCTGCTTCTTGA	MKEMVKKGIMIVAGSLILSLGINFFLIPDHVLDGGIIGIGMIANYIWGMKVGLTIICFSIPIFTLAWFHFRMYFYNSLHGLLVSSFSIDVLQGLRAYHLPLDPAVSSIIGGALVGGGIGLMLRHHTSTGGTDLLAQMIADWMKVNVGFVILAIDAVIIGAGGLLFSMETLLLSAITILSVGLVTMTFTSSRLLPEHPAS				NA	NA	NA	NA	NA
AK012_02814	303			hypothetical protein	ATGCAAATCGATAAATTGCGCGGAAAAACGCTGGATCAGCTTTTTGAAGCGATTCTTTCATTACAGGACATTGAAGAGTGCTATGAATTTTTCGATGATCTGGCAACGATGAATGAGGTGCAGTCGCTGGCTCAGCGTCTGGAAGTGGCCCGCATGCTGAGAGATGGCTACACTTATCATAAAATCGAAACGGAAACTGGAGCTTCGACGGCGACGATTTCCCGTGTGAAGCGCTGCTTGAACTACGGCAACGACGCGTATACAAAAGCGCTCGACCGTGTCCATGAAAAACGTACAGAATAG	MQIDKLRGKTLDQLFEAILSLQDIEECYEFFDDLATMNEVQSLAQRLEVARMLRDGYTYHKIETETGASTATISRVKRCLNYGNDAYTKALDRVHEKRTE				NA	NA	NA	NA	NA
AK012_02815	975	yerB		Putative lipoprotein YerB	ATGAAAAAGCTGCTGCTCATCTGTCTGCTTGCCGCCGGTCTTACTGCCTGCCAATCGACGGGAGAGGCCCCCGGGGAAAAAGCAGCAGAAATCCCAGCTCCTGCCGGGGATGTTTTTCCTTTAACAGGGAAATCCAGTGCAGGGAAGGAAAACGGGCGTGCGCTTGGTGTGATGGTTAATAACCATCCCGAAGCCCGGCCGCAGTCCGGTCTCAGTTATGCGGATCTCGTCTATGAGGTGCTTGCTGAAGGACAGATTACCCGTTTTCTCGCTTTGTTCCATAGTGACATTCCTGATACAATCGGGCCGGTGCGAAGCGCCCGTCCATACTATTTTGAGCTGGCCTATGGATATGACGCTCTTTACACCTACCACGGAGCGTCCCATTCCATATATCAGCAGCTTGCTGACAGCAGCATGGACGCTGTGGATGGTGCTGTTTATGACAATAATGGCTGGCTGTTCCGCCGGTCCCCGGACCGTTCCGCCCCGCACAATTCCTACCTTTGGACAGAAGGTCTGGATCGTGTGGTCGAGGAAAATGACTGGGTGGAGACGGCCCCGCCGAACCCTCTGCTGTTTACGGATGGACGCCCGGACGGCCGTCCTGCTGAAGATGTCGTCATTACCTACGACAGCAGGACACAAGTACGTTGGCAGTATTCCGACGAGGGGTTTCTCCGTTTCAGTGACGGGAATCCGTCCGTGGATCGTTTAACGATGGAACAGATTGCTGCCGATAACGTATGGATTATAGAGGCCCGCCACCAAATCATCGATAAAGCTGGACGGCGTGAGGTTGATCTTACCTCCGGCGGCCGCAGCTACCTTTTGCAGAAAGGGACGATGAAAGAGGTGGAGTGGAGAAATACAGACGGACGGCTGCTCCCATATGAAGGGGGAGAGCAGGTGCCGTTCGTCCCGGGAAATACATGGGTGAACATTATACCTGAATCCGCAGCGGTTCAATTTTGA	MKKLLLICLLAAGLTACQSTGEAPGEKAAEIPAPAGDVFPLTGKSSAGKENGRALGVMVNNHPEARPQSGLSYADLVYEVLAEGQITRFLALFHSDIPDTIGPVRSARPYYFELAYGYDALYTYHGASHSIYQQLADSSMDAVDGAVYDNNGWLFRRSPDRSAPHNSYLWTEGLDRVVEENDWVETAPPNPLLFTDGRPDGRPAEDVVITYDSRTQVRWQYSDEGFLRFSDGNPSVDRLTMEQIAADNVWIIEARHQIIDKAGRREVDLTSGGRSYLLQKGTMKEVEWRNTDGRLLPYEGGEQVPFVPGNTWVNIIPESAAVQF				NA	NA	NA	NA	NA
AK012_02816	1746	yerA	COG1001	Putative adenine deaminase YerA	ATGAACGAAACACGCTTTCGCTGGCGCAACCGTCAGCTGCGGAAACATGCAGCTGTCATGGACGGTAAAGTCGCGCCGACGAAACTGATTACCAATACAACCTACTTGAACGTGTATTTAAAACAGTGGATGACCGGTCATATCTGGATTTATGAAGACCGCATCATTTATACGGGTCAGGAGCTTCCTGCCCAAACAGAAGGAACGGAAATGATTGATGGCAGGGACAGCTGGATCGTCCCGGGTTACATTGAACCGCATGCCCATCCATTCCAGTTATATAATCCCCAGAGCCTTGGAGAATATGCAGCGGCCACGGGAACGACAACGCTCATTAATGACAACTTGATGTGGCTTTTTTTAACAGACAAAGAGAAAGCGTTTTCTCTACTTGAAGAGTTTATGAACCTGCCTGCTTCGATGTACTGGTGGGCGCGTTTTGATCCCCAGTCCGTATTGAAGGATGATGACAGAGAGGCGTTTGATGAGCAGATCGAATCGTGGATTGAGCACGACGCCGTCATTCAGGGCGGGGAGCTGACGGCCTGGCCGGATGTCTTATATAACGGGGACGAACAGATTCTCCACTGGATGCAGCAAACGAAACGGTCCCGCAAGCCGCTGGAAGCCCATCTGCCCGGCGCATCGGAGAAAACACTCGTAAAAATGCGTCTGCTCGGCATGGATTCCGAGCACGAGTCGATGACAGCAGAGGATGTGCTGAGCCGTCTCGCCATCGGTTATCAGACAGGGCTCCGTTACTCTTCGATCCGCCCTGATCTGCCGGATATTTTACAGGGGCTTATGGAAAAAGGGCACCAGCACTTCGACCATATGATGTATACGACGGATGGGTCTACGCCTGGCTTTTATCGTGAAGGACTGATCAATCAATGCATCCAGATGGCTCTCGATGCCGGTGTACCCGAAATTGATGCCTATATGATGGCCACGTACAATTCCGCCCGTCATTTTACAATTGAGAACCGTGTCGGCAGTCTGAATGCCGGACGGGTCGCTCACTTGAACTTCTTATCAAGTCCAGATAATCCGACGCCTCATTCTGTTCTTGCTAAAGGTGAATGGGTGAAAAAGGATGGACAGGCTGTAGAAGCACCATCCCAGGTGGAATGGAAGAAAAACGGGATTGATCAGCTGGACCTGAACTGGGAGCTGACCGAACAAGATCTGCAGTTCTCCATGCCGGTCGGTCTGGAAATGATCAACGACGTCATCATGAAGCCTTATGCAGTAGATACCGACACGGGCGTGGAACGGCTGCCGGAGGATCATTCCGAAGGATTTCTCATGCTGATGGACCGTGAAGGCGAATGGAAGGTCAACACGTTGATCAAAGGTTTCACGACCTCACTCGGGGCCCTTGTCAGTTCATACAGCAGTACAGGGGACATTGTCCTGACCGGAAAATCGAAAGCTGATATGCAGACCGCCTTTGCCCGGATGAAAGACATCGGTGGCGGCATCGTGCTTGTCGACAAAGGGGAAGTCATCTTTGAACTGGCTCTTCCGCTCGGCGGAGTCATGTCCGACAAGCCGATGAATACACTGATGGAAGAAGAGGAAACGTTGAAGGACCATTTGAAAGCCTATGGATTTGCCTTCTCAGATCCGGTCTATACGCTTTTATTTCTGTCTTCCACGCATCTTCCATTTATCCGGATCACACCCCTTGGAATCATCGATGTGAAAAAGAAAGAGGTACTCTTTCCTTCGATAATGCGTTAA	MNETRFRWRNRQLRKHAAVMDGKVAPTKLITNTTYLNVYLKQWMTGHIWIYEDRIIYTGQELPAQTEGTEMIDGRDSWIVPGYIEPHAHPFQLYNPQSLGEYAAATGTTTLINDNLMWLFLTDKEKAFSLLEEFMNLPASMYWWARFDPQSVLKDDDREAFDEQIESWIEHDAVIQGGELTAWPDVLYNGDEQILHWMQQTKRSRKPLEAHLPGASEKTLVKMRLLGMDSEHESMTAEDVLSRLAIGYQTGLRYSSIRPDLPDILQGLMEKGHQHFDHMMYTTDGSTPGFYREGLINQCIQMALDAGVPEIDAYMMATYNSARHFTIENRVGSLNAGRVAHLNFLSSPDNPTPHSVLAKGEWVKKDGQAVEAPSQVEWKKNGIDQLDLNWELTEQDLQFSMPVGLEMINDVIMKPYAVDTDTGVERLPEDHSEGFLMLMDREGEWKVNTLIKGFTTSLGALVSSYSSTGDIVLTGKSKADMQTAFARMKDIGGGIVLVDKGEVIFELALPLGGVMSDKPMNTLMEEEETLKDHLKAYGFAFSDPVYTLLFLSSTHLPFIRITPLGIIDVKKKEVLFPSIMR	PGPT0021510_800	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021510-ade-K01486	NA	NA
AK012_02817	243			hypothetical protein	ATGAAACCGAATATCGGCCTGATCAACAGCATGATCCGGATTACAGCAGGCTTCAGCATGCTTACGTATTTGACGATCCGCGGAGCGCGGAATGAGGAGTCCTCCTCCCATCCGCTTCTGATCATGATGGCTTCCCTGAAGATTGCGGAGGGCATCGTGCGCTTCTGTCCTCTCACCGCTTTATACGAAGAAGCGGCCGTAGAGACAGATGGAAAGGAAGAAGCATGGCCGCAGAACCTCTAG	MKPNIGLINSMIRITAGFSMLTYLTIRGARNEESSSHPLLIMMASLKIAEGIVRFCPLTALYEEAAVETDGKEEAWPQNL				NA	NA	NA	NA	NA
AK012_02818	1284	purD	COG0151	Phosphoribosylamine--glycine ligase	ATGAACGTTTTAGTAATTGGGCGCGGCGGCCGGGAGCACAGCCTTATCCAGAAGCTTGCCGAAAGTGACCAGGTGGAGCGGTTATTTGCTGCTCCCGGAAACGCAGGCATGACTGAACAGGCCGAGTGCGTCACTATTGATGAAGGAAATCATGAAGCGCTCGTGGCGTTTGCGGAGGAAAAGGACGTCGGCCTGACGATCATCGGCCCGGAAGATCCGCTTGCAGACGGTCTGGCTGATGCGTTCAAAAAGGCGGGGCTGCCTGTTTTTGCCCCGAGCCGCCGGGCGGCTCTTATTGAAGGGAGCAAGCGTTTTGCCAAGCAGCTCATGAAAAAATATGACATCCCGACAGCTGATTATGAAGCCTTTACGGATGCGGACGAGGCGAAAGCGTATATCGCTGAAAAAGGCGCACCGATCGTCGTCAAAGCCGACGGTCTTGCTGCCGGCAAAGGGGTCGTTGTAGCAGAAACCGTTAAAGAAGCACACAAGGCGGTCGAGGAAATGCTTGGAGACGGGCGCTTCGGGGAAGCGGGTCGCGAGGTAGTGATTGAGGAATTCCTGGATGGGGATGAGTTTTCCTTAATGGCCTTCGTCCGTGGGGGGAACGTTTATCCTATGGTTCCGGCGCGCGACCATAAGCGTGCCTTTGAAGGGGATCAAGGTCCGAATACCGGTGGAATGGGCGCGTATGCTCCCGTACCGACTCTGTCCCATGACTCTTATGATGCGGCCCTTGAAACGATTGTCCGTCCAGCCGCCAAAGCGATGGTAGAGGAAGACCGGTCCTTCACGGGGATTTTATATGCGGGCTTGATTGAAACGAACCAAGGTCCAAAGGTGATTGAGTTCAATGCCCGTTTCGGTGATCCGGAAACACAGGTGGTTCTGCCGCTGTTGGAAAACGACCTCCTGCAGGTCCTTCTGGATGTTCTGGACGGGAAGGATCCGGAACTTACCTGGAAGAACCAGTCCTGTGCCGGGGTAGTGGTCGCATCTAAAGGATATCCGGGAGCCTATGAAAAAGGCCGCCTTCTTCCAGGACTGAAAGCGGATGAGGATACCTTTTTTGTTCATGCGGGAACCGCTCTCGATGAAAAAGGGTATGTATCAAACGGCGGCCGGGTCCTTCTTGCCGGCAGTCTCGGTGAACATACCGAAGAAGCGCTAAACAACGCCTACCGCTCTCTTCAAGTATTCGATACGTTTGATGACTTTTTCTACCGCCGTGACATCGGCCGTTCAACTCTTTTTTCTGCGGGAACGGAGAAACACCGCTCCTAA	MNVLVIGRGGREHSLIQKLAESDQVERLFAAPGNAGMTEQAECVTIDEGNHEALVAFAEEKDVGLTIIGPEDPLADGLADAFKKAGLPVFAPSRRAALIEGSKRFAKQLMKKYDIPTADYEAFTDADEAKAYIAEKGAPIVVKADGLAAGKGVVVAETVKEAHKAVEEMLGDGRFGEAGREVVIEEFLDGDEFSLMAFVRGGNVYPMVPARDHKRAFEGDQGPNTGGMGAYAPVPTLSHDSYDAALETIVRPAAKAMVEEDRSFTGILYAGLIETNQGPKVIEFNARFGDPETQVVLPLLENDLLQVLLDVLDGKDPELTWKNQSCAGVVVASKGYPGAYEKGRLLPGLKADEDTFFVHAGTALDEKGYVSNGGRVLLAGSLGEHTEEALNNAYRSLQVFDTFDDFFYRRDIGRSTLFSAGTEKHRS	PGPT0021575_3959	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021575-purD-K01945	NA	NA
AK012_02819	1533	purH		Bifunctional purine biosynthesis protein PurH	ATGAAAAAACGCGCACTGTTGAGCGTATCCGATAAACAGGGATTAACAGACTTCGCCCGCCGTCTGAATGAGCTGGGTTATGAGCTCGTTTCTACGGGCGGAACAAAACGCACCATTGAAGAAGCGGGCATTCCGGTGCTTTCGATTTCTGAAGTGACCGATTTTCCGGAAATTATGGATGGCCGTGTCAAAACGCTGCATCCATCTGTCCACGGAGGGCTGCTTGCCAAGCGGTCCAACAAAGAGCATATGGAGCAGCTGGATGAACTGAATATCCAGACGATTGATCTTGTAGCGGTGAACCTCTACCCATTTAAAGAGACGATTGCTAAACAAGGGGTGACGGAAGCGGAAGCGATTGAAAACGTCGATATCGGCGGGCCGACAATGCTGCGGGCAGCGGCGAAAAGCTTTGAAGATGTGGCGGTCGTAGTCGATCCTTCCGATTACGAAACAGTCATCGAAGGCTTGAACGAGGGAGAGCTTTCTTATGAAGAACGCCGCCGCCTGGCTGCGAAGGTGTTCCGCCATACCGCCAATTATGACGCGGTGATTGCCGGTTACTTCTCTGATCTGACCGAAGAAGCCTATCCAGAGACGTATACCGTTACATATGAAAAAGTCCAGTCGCTCCGCTACGGGGAGAACCCGCACCAGAGTGCTGCTTTTTATAAGAAAGCAGCCGTGGAGGGAACGTCCCTCGCAGAAGCGGAGCAGCTGAACGGGAAGGAGCTTTCCTATAATAATATCCAGGATGCCAATGCGGCGCTTGAAGTCGTTCTTGAATTCAATGAGCCTGCGGCTGTCGCTGTGAAGCACATGAATCCGTGCGGCGTCGGTGTCGGCGGAAACCTGTATGATGCCTACGTGAAAGCCTATGAAGGAGATCCCGTGTCCATTTTTGGAGGGATTGTCGCCTTGAACAGGGAAGTGGACAAAGAGACAGCCGCCAAGCTGAAGGAGATTTTCCTCGAAATCATCATCGCTCCAGCCTTCAGCCAGGAAGCGCTCGACATTCTTACAAAGAAAAAGAATCTGCGTTTACTCAAGGTGGATATGAAGAAATCCGAGCGTCCTTCCCATAAGCTGACGACTGTTAACGGCGGACTGCTTGTCCAGGATACGGACGAAGGATCCCTGGATCAAGTGGACTTGGAAGTGGCGACCGAACGCGCGCCTTCCCAGCAGGAAATGGAAGATCTGAAGCTGGGGTGGAAAGTTGTGAAGCACGTCAAATCCAACGCGATCATCGTAGCCAAAGGCGACCGCACCCTCGGTGTCGGGGCCGGACAGATGAACCGGGTTGGTGCAGCCAAGATCGCTCTTGAGCAGGCCGGTGAGAAAGCTGAAGGAAGTATTCTTGCCTCCGACGCCTTTTTCCCAATGCCGGATACGGTTGAAACGGCCGCGGCTGCCGGAGTTACAGCCATCATCCAGCCGGGTGGGTCGAAACGCGATCAGGATTCCATCGATGCCTGCAATAAGCACGGCATTTCCATGGTCTTTACGAAAATGCGTCACTTTAAGCATTAA	MKKRALLSVSDKQGLTDFARRLNELGYELVSTGGTKRTIEEAGIPVLSISEVTDFPEIMDGRVKTLHPSVHGGLLAKRSNKEHMEQLDELNIQTIDLVAVNLYPFKETIAKQGVTEAEAIENVDIGGPTMLRAAAKSFEDVAVVVDPSDYETVIEGLNEGELSYEERRRLAAKVFRHTANYDAVIAGYFSDLTEEAYPETYTVTYEKVQSLRYGENPHQSAAFYKKAAVEGTSLAEAEQLNGKELSYNNIQDANAALEVVLEFNEPAAVAVKHMNPCGVGVGGNLYDAYVKAYEGDPVSIFGGIVALNREVDKETAAKLKEIFLEIIIAPAFSQEALDILTKKKNLRLLKVDMKKSERPSHKLTTVNGGLLVQDTDEGSLDQVDLEVATERAPSQQEMEDLKLGWKVVKHVKSNAIIVAKGDRTLGVGAGQMNRVGAAKIALEQAGEKAEGSILASDAFFPMPDTVETAAAAGVTAIIQPGGSKRDQDSIDACNKHGISMVFTKMRHFKH	PGPT0008110_4318	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008110-purH-K00602	NA	NA
AK012_02820	579	purN		Phosphoribosylglycinamide formyltransferase	ATGAAGCAGCTGGCGATATTTGCTTCCGGTACCGGCTCCAATTTCGATGCTATTGTGAATGCCATTGATGAAGGAAGCCTCGATGCCCGCGTCGCGCTGCTTGTCTGTGACCGGGTCGGTGCAGCGGTGATTGAAAAGGCGCAGCGGCATGAAATCGATACCGTCGTGTATACACCGAAGCTTTTTTCAGATAAAGCTGCCTACGAGGCAGCGATTCTCGAGGACCTGCGCTCCAGGAATGTGGAATGGATTGTTCTTGCCGGTTATATGCGTCTGATCGGACCGACCCTGCTTGCTCCTTATGAAGGAAGAATTCTGAACATACATCCGTCCCTTCTTCCCGCCTTTCCTGGGAAAGATGCAGTGGGACAGGCGCTCGACAAACAGGTGAAGGTGACGGGGGTAACGGTCCATTTTGTCGACGACGGCATGGACACCGGCCCGATTATTGCCCAGGAGCCTGTCCATATCCATAGAGATGACAGCAAAGAAGACGTCCAGCGCCGCATCCAGACCGTTGAGCACCGCCTTTATCCAGAAGTCATCCAGTCTTTACTACCCAAGGAGGAATACAAATGA	MKQLAIFASGTGSNFDAIVNAIDEGSLDARVALLVCDRVGAAVIEKAQRHEIDTVVYTPKLFSDKAAYEAAILEDLRSRNVEWIVLAGYMRLIGPTLLAPYEGRILNIHPSLLPAFPGKDAVGQALDKQVKVTGVTVHFVDDGMDTGPIIAQEPVHIHRDDSKEDVQRRIQTVEHRLYPEVIQSLLPKEEYK	PGPT0008095_3807	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0008095-purN-K11175	NA	NA
AK012_02821	1005	purM	COG0150	Phosphoribosylformylglycinamidine cyclo-ligase	ATGAGTCAATCCTATAAACAGGCCGGTGTCGATGTCGAAGCCGGTTATGAAGCTGTGGAACGGATGAAAAAGCATGTCAGCCGGACGATGCGCAGGGAAGTCATCGGCGGGCTCGGAGCCTTCGCCGGCTTGTTTGATATCAGCGGCATGACGTACAATCATCCGGTGCTTGTCACAGGGACCGACGGAGTGGGGACGAAGCTCAAACTGGCCTTCGAACTCGACCGCCATGATACGATAGGAGTGGATGTCGTAGCGATGTGCGTCAATGATATTGCGGCTCAGGGCGCGGACCCGCTGCTTTTTCTCGATTATATCGCCTGTGGTAAGAATGATCCCGCCCGTATCGAGCAGATTGTCAAAGGCATTGCCGATGGCTGCGAACAGGCTGGTGCTGCCCTTGTAGGTGGAGAAACGGCAGAAATGCCGGGCATGTATGAGGCAGATGAATACGATCTGGCCGGTTTTGTCGTCGGTATGGCTGATAAGGACAAGTTGATTACTGGTGACTCTGTTCAAGAAGGGGACGTCATCATCGGCCTGCCTTCCTCAGGCATCCACTCCAACGGCTTTTCGCTTGTACGAAAGCTCGTGGCCGACCTTGATTTGGAACAGGTGTATCCGGGGATGGAACTGCCCCTTGGTGAGGTGCTTTTAACACCGACCGTCATTTACGTCGATGCCGTCAAAAAACTTCGCGGAGCAGTCGAGGTGAAAGGACTGGCCCACGTTACCGGCGGCGGTTTTTATGAGAATCTCCCTCGCATGCTTCCGGAAGGGTTCGGAGCTGCTGTTGAACAGGGCAGCTGGGACGTCCCGTCTGTGTTCCGGTTTTTACAGGATCAGGGTTCCATCACGGAAGAAGAAATGTACGGCGTCTTCAATATGGGCATCGGGATGGCAGTGGTCATCAGCGGAGAAGAAGTGGAACAGGCGTTATCGGCCTGTCCTGAAGCAGCGGTCATTGGACGTGTCACTCGTGACCAGGGGGTGGAGCTCTTATGA	MSQSYKQAGVDVEAGYEAVERMKKHVSRTMRREVIGGLGAFAGLFDISGMTYNHPVLVTGTDGVGTKLKLAFELDRHDTIGVDVVAMCVNDIAAQGADPLLFLDYIACGKNDPARIEQIVKGIADGCEQAGAALVGGETAEMPGMYEADEYDLAGFVVGMADKDKLITGDSVQEGDVIIGLPSSGIHSNGFSLVRKLVADLDLEQVYPGMELPLGEVLLTPTVIYVDAVKKLRGAVEVKGLAHVTGGGFYENLPRMLPEGFGAAVEQGSWDVPSVFRFLQDQGSITEEEMYGVFNMGIGMAVVISGEEVEQALSACPEAAVIGRVTRDQGVELL	PGPT0021570_4453	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021570-purM-K01933	NA	NA
AK012_02822	1413	purF	COG0034	Amidophosphoribosyltransferase	ATGCTTGGTGAAATCAAAGGCTTAAATGAAGAATGCGGGATTTTTGGTGTCTGGGGCCACCCGGACTCTGCCCAGCTGACCTATTATGGTCTCCACGCTCTTCAGCACCGCGGCCAGGAAGGCGCGGGCATTGTAACGACAGACGGCGGGCAGCTGAAGCTTGCCAAGGGACACGGGCTGATCAATGAAGTATTCTCCGAAAACCAGCTGGAAGACCTGCAGGGCCATGCGTCCATCGGTCACGTGCGCTATGCGACAGCAGGCGATGGCGGCTATGAAAATATCCAGCCGCTCCTGTTCCGTTCACAGACCGGCGGACTCGCCCTTGCTCATAACGGGAACCTTGTGAATGCACAGGCGTTGAAAAACCAGCTGGAAGGACAGGGCAGCATTTTACAGACGACGTCGGATACAGAAGTTGTCGCCCACCTGATTAAGCGGGCGCGTCATCTGCCGCTGGAGCAGGCGATTACAGAAGCCCTTTCTATGATTAAAGGGGCGTACGCCTTTTTATTAATGACTGAAGACCGGATGTTCGTCGCTAACGACCCGCGTGGTCTCCGTCCGCTCAGCCTCGGCCATTTAGGGGGCAGCTGGGTGGTCTCTTCAGAAACATGCGCCTTCGATATTGTCGGTGCGACGTATGAAAGGGAAATCGATCCTGGGGAAATGCTGGTCATTTCTGATGACGGCATTGATTCCATTCGGTTTTCAGCACCGATCCAGCGGACGCTCTGCTCGATGGAATACGTCTACTTCTCACGCCCTGACAGCAATGTGGATGGGAAGAATGTGCACGCCTCCCGCAAACGGATGGGCAAAACCTTGGCTGAAGAAGCGCCTGTAGATGCGGATGTTGTGACAGGGGTACCGGACTCCAGTATTTCCGCCGCGATCGGGTATGCGGAGGCTTCAGGTATTCCTTACGAGCTCGGTCTCATCAAGAACCGTTACGTCGGCCGAACCTTTATCCAGCCGTCCCAGGAGCTGAGAGAGCAGGGTGTGAAGATGAAGCTTTCCGCTGTCCGGGGGATTGTCGAAGGGAAGAAAGTCGTTATGGTTGATGATTCCATTGTACGTGGAACAACCAGCCGGCGGATTGTAAAGATGCTCAAAGAGGCAGGAGCGAAAGAGGTCCATGTCAGAATTGCCTCCCCGCCGATCAAGAACCCGTGCTATTACGGAATCGACACATCCAACAGTGGAGAACTGATCGCCGCGAACCATTCCCTTCAGGAGATGGAAGAACAGATCGGTGCGGACAGTCTCGCCTTTTTAACGACAGAAGGATTGAATGAAAGCATCTATCAGGGAGAGGAATCTCTGAAGCACGGGGGCTGTATGGCCTGCTTTACGGGGAATTACCCGACCGAAATCTATCCGAACACGATGCATCCATATGAGAAAGCGTAG	MLGEIKGLNEECGIFGVWGHPDSAQLTYYGLHALQHRGQEGAGIVTTDGGQLKLAKGHGLINEVFSENQLEDLQGHASIGHVRYATAGDGGYENIQPLLFRSQTGGLALAHNGNLVNAQALKNQLEGQGSILQTTSDTEVVAHLIKRARHLPLEQAITEALSMIKGAYAFLLMTEDRMFVANDPRGLRPLSLGHLGGSWVVSSETCAFDIVGATYEREIDPGEMLVISDDGIDSIRFSAPIQRTLCSMEYVYFSRPDSNVDGKNVHASRKRMGKTLAEEAPVDADVVTGVPDSSISAAIGYAEASGIPYELGLIKNRYVGRTFIQPSQELREQGVKMKLSAVRGIVEGKKVVMVDDSIVRGTTSRRIVKMLKEAGAKEVHVRIASPPIKNPCYYGIDTSNSGELIAANHSLQEMEEQIGADSLAFLTTEGLNESIYQGEESLKHGGCMACFTGNYPTEIYPNTMHPYEKA	PGPT0020225_4708	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020225-purF-K00764	NA	NA
AK012_02823	2226	purL	COG0046	Phosphoribosylformylglycinamidine synthase subunit PurL	ATGCCATCAACGCTTGAAATCAGTCCGGAAATGATTGAACAGAACCGCTTATATGCAGATATGGGGCTGACCGACGAAGAGTACACCTCGGTTGTAGACATCCTCGGCCGCCGTCCGAACTATACAGAAATCGGCTTGTTTTCGGTCATGTGGTCGGAGCACTGCAGCTACAAGAACTCTAAACCGCTGTTGAAGAAATTCCCGACAGAAGGTCCGCACGTACTGCAAGGTCCGGGAGAAGGTGCCGGGATCATTGATATCGGGGATGATCAGGCGGTGGTCTTCAAAATCGAAAGCCACAATCATCCTTCCGCTGTTGAACCTTATCAAGGAGCAGCCACGGGGGTGGGGGGAATTCTCCGCGATGTGTTCTCCATGGGCGCCCGTCCGGTAGCCCTGCTGAATTCTCTCCGTTTTGGATCGCTGGAGCGTCCGCGGGTGAAATATTTGTTTGAAGAAGTTGTCCGCGGCATTGCCGGCTACGGCAACTGTGTAGGTGTGCCGACGGTTGGCGGGGAAGTCCAGTTTGACGATGCCTATAACGGCAACCCGCTTGTCAATGCGATGTGTGTCGGATTGATTGATCATAAGGATATTCAAAAGGGGATTGCTGCCGGTGTTGGAAATACGGTCATGTACGTCGGAGCCAAAACCGGGCGGGACGGCATTCACGGTGCGACCTTCGCATCAGAAGAATTATCGGAAGAATCTGAAGAGAAACGCCCATCGGTCCAGGTCGGCGATCCTTTTATGGAAAAGCTGCTCATCGAAGCGTGTCTGGAAGTCATCCATCATGACGCCCTCGTCGGGATTCAGGATATGGGAGCCGCTGGTTTAACCTCCTCTGCCAGTGAGATGGCAAGTAAAGCAGGGACTGGTATGACGATGAACCTGGACCACATTCCTCAGCGCGAGGAGAATATGACGGCTTATGAGATGATGCTCTCGGAATCTCAGGAACGGATGCTTTTAGTCGTAGAGAAAGGCAGAGAAGAGGAAATTGCCGCTGTCTTTCGGAAGTATGATCTTGAAGCCGTTGCGGTCGGTGAGGTGACCGATACGAAACGATTCCGCCTGGAACATCACGGCGGAGTAGCTGCCGATGTTCCGGTCGATTCCCTTGCGGAGGATGCTCCCGTGTACCATCAGCCGTCCCGGGTGCCTGGTTACTATGAAGAGTTTCAACGTATGGAAGATTACAAGCCGGTGGTGACGGATTATACAGAGACCCTGCTTGAGCTTCTGCAGCAGCCGACGATCGCCAGTAAAGAGTGGGTGTATGACCAGTACGATTACATGGTCCAGACGAATACGGTCGTCTCCCCGGGTTCTGATGCCGCGGTTCTGCGTGTGCGTGGAACGAACAAGGCGCTTGCGATGACGACCGATTGTAACTCCCGGTACATTTACCTCGACCCGGAAGTGGGAGGTCAGATCGCCGTGGCGGAAGCGGCACGCAACATCGTCTGCTCCGGCGGACGGCCGCTTGGCATCACGGACGGCCTCAACTACGGGTCTCCGGAAAACCCGGAAATTTTCTGGCAGATGGAAAAAAGCGTCGACGGCATGAGTGAGGCGTGCCGCACCCTCGGCACTCCGGTCATCAGCGGAAACGTCAGTCTTTACAATGAATCGTTCGGCGGACAGGCCATCTATCCAACGCCGATTGTCGGTATGGTCGGTTTAATTGAGGATGTCAGCCATATTACCCGCTCGCACGCCAAAGCCGCCGGTGATCTCCTTTATGTCATCGGTGAAACAAAAGCGGAATTCGGTGGAAGTGAACTGCAGGGATTGTTGGAAGGGCGTCATTTCGGGAAAGCACCGGAATTGGATTTGGAAATCGAAGCGCAGCGCCAGAACCAGCTGCTGACAGCCATTCGTTCAGGCCTTGTCGAGTCCGCACACGATGTTTCCGAAGGAGGGCTGGCTGTAGCTCTGGCGGAAACTCTATTCGATCAGGAACTTGGCTGTGACGTCACGCTCGAGGGCGACCTCACGTCCGCACTTTTCGCAGAAACCCAGTCCCGCTTTCTTGTAACCATCCGTCCGGAAAACAAAGAAGCGTTTGAACAGGCGGCTGCCGGAGCGCGTGAAATCGGAACGGTGACGGGGGACGGCATGTATATAGTGAAGCAGAAAGACGTTGTGATGGAGGAACAGACATCTGTGCTGAAAACAGCTTGGAAAGGAGCTCTTTCATGCTTGGTGAAATCAAAGGCTTAA	MPSTLEISPEMIEQNRLYADMGLTDEEYTSVVDILGRRPNYTEIGLFSVMWSEHCSYKNSKPLLKKFPTEGPHVLQGPGEGAGIIDIGDDQAVVFKIESHNHPSAVEPYQGAATGVGGILRDVFSMGARPVALLNSLRFGSLERPRVKYLFEEVVRGIAGYGNCVGVPTVGGEVQFDDAYNGNPLVNAMCVGLIDHKDIQKGIAAGVGNTVMYVGAKTGRDGIHGATFASEELSEESEEKRPSVQVGDPFMEKLLIEACLEVIHHDALVGIQDMGAAGLTSSASEMASKAGTGMTMNLDHIPQREENMTAYEMMLSESQERMLLVVEKGREEEIAAVFRKYDLEAVAVGEVTDTKRFRLEHHGGVAADVPVDSLAEDAPVYHQPSRVPGYYEEFQRMEDYKPVVTDYTETLLELLQQPTIASKEWVYDQYDYMVQTNTVVSPGSDAAVLRVRGTNKALAMTTDCNSRYIYLDPEVGGQIAVAEAARNIVCSGGRPLGITDGLNYGSPENPEIFWQMEKSVDGMSEACRTLGTPVISGNVSLYNESFGGQAIYPTPIVGMVGLIEDVSHITRSHAKAAGDLLYVIGETKAEFGGSELQGLLEGRHFGKAPELDLEIEAQRQNQLLTAIRSGLVESAHDVSEGGLAVALAETLFDQELGCDVTLEGDLTSALFAETQSRFLVTIRPENKEAFEQAAAGAREIGTVTGDGMYIVKQKDVVMEEQTSVLKTAWKGALSCLVKSKA	PGPT0021730_1339	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021730-purL-K23269	NA	NA
AK012_02824	684	purQ	COG0047	Phosphoribosylformylglycinamidine synthase subunit PurQ	GTGAAATTTGCCGTCATCGTCTTCTCAGGATCGAACTGTGACCGTGATATGTACCATGCCGTCAAAGATGAACTTGGTGAACAAGCGGATCTTGTCTGGTATCAGGAAGCGAATCTAGCAGACTATGACGCTGTGCTTCTGCCCGGCGGCTTCTCTTACGGGGATTACCTGCGTTCAGGAGCAATTGCAGCGACGTCTCCCATCGTTGAACAGATCCGTGCTGCCGCAGAAGCCGGGAAACCGGTGCTTGGTGTGTGCAACGGATTCCAAATCCTATTGGAAACCGGTCTGCTGCCGGGAGCGATGCTGCCGAATGAAAAGCTGAAGTTCATGTGTCACAACGAAACGCTTATCGTAGAAAACGCAGAAACGCCGTTTACACTGCAGTATGAAGAGAAGGAAGAAATCCTTGTTCCGATTGCCCATGGGGATGGCAATTATTTCTGTGACGAACCGACGCTGGAACGCCTTCGTGAGAACAAGCAGATTGTCTTTACGTATCAGACGAACCCGAACGGATCCGCCGGTGATATTGCCGGTATCGTCAATGAAAAAGGCAATGTCCTCGGTATGATGCCGCATCCGGAGCGTGCGGTCGACGCCCTGCTCGGTACCGATGACGGCCTGCGCCTATTTCAATCGATTTTGACCTACTGGAGGGAACATTATGCCATCAACGCTTGA	MKFAVIVFSGSNCDRDMYHAVKDELGEQADLVWYQEANLADYDAVLLPGGFSYGDYLRSGAIAATSPIVEQIRAAAEAGKPVLGVCNGFQILLETGLLPGAMLPNEKLKFMCHNETLIVENAETPFTLQYEEKEEILVPIAHGDGNYFCDEPTLERLRENKQIVFTYQTNPNGSAGDIAGIVNEKGNVLGMMPHPERAVDALLGTDDGLRLFQSILTYWREHYAINA	PGPT0020220_1273	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0020220-purQ-K23265	NA	NA
AK012_02825	246	purS	COG1828	Phosphoribosylformylglycinamidine synthase subunit PurS	ATGCGCAAAGTAAAGATTCATATCACACTGAAAGAAGGGGTGCTCGATCCGCAGGGCAAGGCCGTTCAGCATTCCTTGAAATCCCTTGAGTACAATAACGTTCATGATGTCCGTGTCGGCAGGTATATGGAGGTCCTCGTCGATGATAAGGAAGACTTGGAAGCCGAAATTGACAAGATGTGTGACCAGCTGCTGGCCAACCCAGTGATTGAAAACTATTCGTATACGATAGAGGAGGCTGGCTGA	MRKVKIHITLKEGVLDPQGKAVQHSLKSLEYNNVHDVRVGRYMEVLVDDKEDLEAEIDKMCDQLLANPVIENYSYTIEEAG	PGPT0021725_1357	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021725-purS-K23264	NA	NA
AK012_02826	720	purC	COG0152	Phosphoribosylaminoimidazole-succinocarboxamide synthase	ATGAAAGGTTCCCTTTTATATGAAGGAAAAGCGAAGCGTGTATATCATACCGATGATCCTGAGCGATTGATCCTATCTTATAAAGACGACGCGACCGCCTTTAATGGAAAGAAAAAAGAGTCATTTCCCGGCAAGGGCCGTCTGAACAACCTGATTACCTCTAAAGTGTTCCAATCCTTACACCAACAACACATCAAGACCCACTTCATTCAAGCTTTGAACGAAACCGAGCAGCTCGTCTACAAGACGGATATTGTTCCGCTCGAAGTCGTTGTCCGCAATAAAGCCGCAGGCAGCATCACCCGCCGTCTCGGTATCTCTGAACAAACACTCTTTCAACCACCTATTCTCGAACTCTTTTATAAAAACGATGAACTGAATGACCCGCTGATCAATGATGTCCACGCGTACCATTTGACTGGGATCCGCGAACAGGACCTTCTCTTTATTAAGGAACAGGCGCTGCTGATCAATGAACACTTGAGCCATATTTTCCAGAAGGCGGGCCTCGAGTTGATCGATTTTAAATTGGAATTCGGTTTTCTCGCAGATGGCCGTCTCGTCCTTTCTGATGAAATATCCCCGGATACGTGCAGGCTCTGGGACTTGGAAACAGGCACCAAAATGGATAAGGACGTCTTCCGCGAGGAGATTGGCAGTTTAACAGATACGTATGAACGGATTTTACAACGACTGGAGGAGAGCGTATGCGCAAAGTAA	MKGSLLYEGKAKRVYHTDDPERLILSYKDDATAFNGKKKESFPGKGRLNNLITSKVFQSLHQQHIKTHFIQALNETEQLVYKTDIVPLEVVVRNKAAGSITRRLGISEQTLFQPPILELFYKNDELNDPLINDVHAYHLTGIREQDLLFIKEQALLINEHLSHIFQKAGLELIDFKLEFGFLADGRLVLSDEISPDTCRLWDLETGTKMDKDVFREEIGSLTDTYERILQRLEESVCAK	PGPT0021565_3578	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021565-purC-K01923	NA	NA
AK012_02827	1293	purB	COG0015	Adenylosuccinate lyase	ATGATTGAACGTTATACACGCCCTGAAATGGGAGCGATCTGGACGGAAGAAAATCGTTATCAAGCCTGGCTTGAAGTTGAACTGCTGGCTTGTGAAGCATGGAGTGAGCTTGGCATCATTCCGAAAGAGGATGTAGAAAAGCTGCGGGAAAAAGCATCCTTTTCTATCGACCGCATACATGAAATCGAACAGGAGACCCGTCATGATGTCGTAGCCTTTACGCGCGCGGTTTCAGAAACGGTCGGAGAAGAGCGCAAATGGGTCCATTACGGACTGACATCCACGGACGTGGTCGATACCGCCCTCTCCTATCAACTGAAGCAGGCGAATGAAATCATCCGCCGCGACCTGGTCCGTTTCATTGAGATTCTTGGTGAGAAGGCACAGGAACATAAACATACCGTCATGATGGGCCGTACCCACGGAGTTCATGCAGAGCCGACGACATTCGGTTTGAAAATGGCGCTTTATTATGAAGAAATGAAGCGGAACCTTGAGCGTCTCGACCTGGCGATCAAACAGATTGAAGTCGGGAAACTCTCTGGTGCGGTTGGTACGTACGCCAACATCGATCCATTTGTAGAGGAGTACGTCTGTGACAAGCTTGGACTTGGTGCTGCACCTGTATCCACCCAGACGCTGCAGCGTGACCGTCACGCGCACTACGTGTCGACGCTGGCCCTGATTGCCACATCCATCGAAAAAATCGCTGTCGAAATCCGCGGCCTTCAGAAGACGGAAACGCGTGAAGTGGAAGAGTATTTCGCCAAAGGGCAGAAGGGCTCCTCTGCCATGCCTCACAAACGGAACCCGATCGGTTCAGAAAACATGACAGGGATGGCCCGCGTTCTGCGCGGAGAAATGCTGACCGCGTTTGAAAACGTCCCTCTCTGGCATGAACGGGATATTTCCCATTCTTCCGCAGAACGGATCATTCTTCCGGATGCAACGATCGCCCTGAACTACATGCTGAACCGTTTTGGAAATCTCGTGAAGAACTTGACGGTCTTCCCGGAGCGGATGCAGGAAAATATGGAAAAAACCTATGGATTGATTTTCTCCCAGCGGGTACTGCTCACCCTCATAGATGAAGGCATGGTCCGTGAAGAGGCTTACGACCTAGTCCAGCCGAAGGCAATGGAGGCTTGGGAGCAGGGCATTCCGTTCCGTGAGTTGATTGAAGCGGACGAAAAGATCACATCGACACTGTCGTCAGAACAGCTGGATGCCTGCTTTGACTATAAGCACCACCTCAAACAGGTGGACCGTATTTTCGATCGTATTGGTTTGTAA	MIERYTRPEMGAIWTEENRYQAWLEVELLACEAWSELGIIPKEDVEKLREKASFSIDRIHEIEQETRHDVVAFTRAVSETVGEERKWVHYGLTSTDVVDTALSYQLKQANEIIRRDLVRFIEILGEKAQEHKHTVMMGRTHGVHAEPTTFGLKMALYYEEMKRNLERLDLAIKQIEVGKLSGAVGTYANIDPFVEEYVCDKLGLGAAPVSTQTLQRDRHAHYVSTLALIATSIEKIAVEIRGLQKTETREVEEYFAKGQKGSSAMPHKRNPIGSENMTGMARVLRGEMLTAFENVPLWHERDISHSSAERIILPDATIALNYMLNRFGNLVKNLTVFPERMQENMEKTYGLIFSQRVLLTLIDEGMVREEAYDLVQPKAMEAWEQGIPFRELIEADEKITSTLSSEQLDACFDYKHHLKQVDRIFDRIGL	PGPT0021555_5621	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021555-purB-K01756	NA	NA
AK012_02828	1128	purK		N5-carboxyaminoimidazole ribonucleotide synthase	ATGAATATTAATGTCATCCGTCCAGGCCAGACGATCGGAATACTCGGCGGCGGCCAGCTTGGAAAAATGATGGCGCTCGCTGCCAGACATATGGGATACCGCATTGCTGTGCTGGATCCGTCCGAAGATTGTCCCTGTGCACCGATTGCCGACCACCACATTGTCGCTGCCTATGATGATGTGGAAGGAGCAGAGCGGCTCAAAACCGTCAGCCAGGTCGTCACGTACGAATTTGAAAACGTGGATGCCGGCGTTTCCCGCTTTTTTGCAGAGGCAGACAAGCTTCCCCAGGGCACGCTTGCCCTCGAAGTGACACAAAACCGTGAAAAAGAAAAATCTTTCGCTGTAGACGCCGGCCTTGCTGTGCCGGAATACCGCATCGTCCATACGTCGGAGGAAGCGGTACAGGCTGTCGGAATGATCGGCTATCCGGCGGTTATGAAAACGATCAGCGGAGGATATGACGGTAAAGGGCAGCTGAAACTGGAACAGGAGTCGGACCTTGAGAATCTACCTTCTTTTTTGAAGGAAGGCGGCACGTATATCGTGGAACAGTGGATCGCTTTCGACTTCGAAATCTCCCAGATTTTCACCCGTGGACAGGATGGGAGTATGGTTTATTTTCCACTTGCAGAAAATATCCACAGACAGCAGATTCTCCACGAAACACGGGTGCCGGCGCAGGCGTCGGACGTCGTCCTTGATAAGGCGGAAGCAGCAGTTGAAGCCCTGGCCGAACGTATCGGCATTGTCGGGACGTTTGCTGTGGAAATGTTCGTCAAAGGCGACGATATTTACATCAACGAAATGGCGCCGCGTCCGCATAACTCCGGACACTACACGATAGAAGCGTGCAGTGTCTCGCAATTCGAACAGCATATCCGCGCGATCTGCGGGCTGCCGCTGCTGCCGGTACATACCTTCGGCGCAGCCGTCATGATCAATGTACTCGGAAAGCACCGGGGCATTCTGAATGACCGGATTGAATATTATACAGGCTGCCACCTTCATGACTACGGGAAAAAAGAAGCCCGTACTACACGCAAGATGGGGCACCTGACCTTCGTCGGTGACACACTCGAAGAAATCGATGAACGCATTGAACAAAATCAGATTCATTATTGGTAG	MNINVIRPGQTIGILGGGQLGKMMALAARHMGYRIAVLDPSEDCPCAPIADHHIVAAYDDVEGAERLKTVSQVVTYEFENVDAGVSRFFAEADKLPQGTLALEVTQNREKEKSFAVDAGLAVPEYRIVHTSEEAVQAVGMIGYPAVMKTISGGYDGKGQLKLEQESDLENLPSFLKEGGTYIVEQWIAFDFEISQIFTRGQDGSMVYFPLAENIHRQQILHETRVPAQASDVVLDKAEAAVEALAERIGIVGTFAVEMFVKGDDIYINEMAPRPHNSGHYTIEACSVSQFEQHIRAICGLPLLPVHTFGAAVMINVLGKHRGILNDRIEYYTGCHLHDYGKKEARTTRKMGHLTFVGDTLEEIDERIEQNQIHYW	PGPT0021550_2346	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021550-purK-K01589	NA	NA
AK012_02829	492	purE	COG0041	N5-carboxyaminoimidazole ribonucleotide mutase	ATGGCTGAAGTTGGAATCATTATGGGAAGTATTTCGGATTGGGATACGATGCAGGAAGCCTGCAGCGTACTGGATGAACTGGCGGTCGATTACGAAAAGGAAATCATATCCGCCCACCGGACGCCGGAGGATATGTTCACCTACAGTGAAACCGCACGGGAGAAAGGGTTGAAGGTCATCATCGCCGGTGCAGGCGGGGCGGCCCACCTGCCCGGGATGGTCGCTTCCAAAACGACTCTCCCTGTCATCGGAGTACCCGTGGAATCAAAATCGCTCCAAGGCATGGATTCACTTCTTTCCATTGTCCAGATGCCCGGAGGCGTTCCGGTAGCTACCGTCTCGATTGGAAAAGCCGGGGCTAAGAACGCTGGACTTCTCGCTGCAGAAATGCTCGGTGCTTTTGATAAAGAAACAGCTGCACGGCTGGAGACGTACCGCAGCCGGATGAAGGAGAAAGTCGAACATATGAGGAGGGAGCTCGATGAATATTAA	MAEVGIIMGSISDWDTMQEACSVLDELAVDYEKEIISAHRTPEDMFTYSETAREKGLKVIIAGAGGAAHLPGMVASKTTLPVIGVPVESKSLQGMDSLLSIVQMPGGVPVATVSIGKAGAKNAGLLAAEMLGAFDKETAARLETYRSRMKEKVEHMRRELDEY	PGPT0021545_3002	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021545-purE-K01588	NA	NA
AK012_02831	180			hypothetical protein	ATGCGTTTTGAAGTCCAGGAAAATGAAACGATCGATGATTGCCTCGATCGTATGAAGAAACAAGGCTACATGCCGGTCCGCCGCATGGAAGAGCCGATTTTCCGTGAAGAAATCCGAAACGGGGAGAAAGTCATGGAGCCTGTAGGAAAAACGATCGTATTTCAAGCAGTCAAGCACTAA	MRFEVQENETIDDCLDRMKKQGYMPVRRMEEPIFREEIRNGEKVMEPVGKTIVFQAVKH				NA	NA	NA	NA	NA
AK012_02832	579			hypothetical protein	TTGTTTGAAAACCCACTTGTGCTCATCGCCATCATATTAGCGGTGAACATCGTTTATGTATCCTTTTTCACTCTCCGCATGATTTTTACATTAAAAGGACAGCGTTATTTCGCAGCGTTTATCGGAATGTTTGAAATCGTCACGTACATTTACGGACTGGGCATCGTTCTTGATCGTCTGGACCAGATTGAAAATGTCATTGCCTATGCCGTCGGTTACGGTACAGGGGTGATCGTCGGTATGAAGATTGAAGAGAAGCTCGCCCTCGGGTATATTACAGTTAACGTCATCTCCTCGAACCCGGATATCGAATTCACCCGTCAGCTCCGGGAAAAAGGGTACGGGGTGACGAGCTGGTATGCATACGGCATGGAGGGGGACCGTCTGGCCATGCAGATCCTGACTCCGCGTAAATACGAGCTTAGTTTATATGAAACGATCCGTATGATTGACCAGAAAGCCTTTATTGTTGCCTATGAACCAAAGCAGATCCACGGAGGCTTCTGGGTGAAGTCTGTAAAGAGAGGAAAGATCCGCGATGCCCAAAAAGAACAGCAGGAACAGCAAAATGCGTTTTGA	MFENPLVLIAIILAVNIVYVSFFTLRMIFTLKGQRYFAAFIGMFEIVTYIYGLGIVLDRLDQIENVIAYAVGYGTGVIVGMKIEEKLALGYITVNVISSNPDIEFTRQLREKGYGVTSWYAYGMEGDRLAMQILTPRKYELSLYETIRMIDQKAFIVAYEPKQIHGGFWVKSVKRGKIRDAQKEQQEQQNAF				NA	NA	NA	NA	NA
AK012_02833	426			hypothetical protein	ATGGACCAGTTCAAGGATTGGAAAGGAAACTTCGACCGCTTCTTCGGCCAGGAATTCTGGGGTGGCTTCGAAGGGATGATGAAGCCATCCATACCAGCTGTTAACATGTATCAGTACGACAATGAACTGCTTTGCTTCGTCAATATTCCCGGAATGGACCACCCGAAAAATGTCGATGTTCTCGTCGACCATGCCACGTTGACATTGAAAGGGAAAATTGAGATCAACAACCGGGGCGGACATCAGATCAAATCAGAAATTGCGGATGGAACATTCGAACGTTCCATCGACCTCCCCTACCCCGTACGGCACGACAAAATTGAAGCCACCTACAGGCACGGGCTGCTGGTCATCCAGCTCCACCGCCACATCCCGAACTCGTCAAGGCAGAAACCGATCACCATCAGACACCTGGAGGATGAATAA	MDQFKDWKGNFDRFFGQEFWGGFEGMMKPSIPAVNMYQYDNELLCFVNIPGMDHPKNVDVLVDHATLTLKGKIEINNRGGHQIKSEIADGTFERSIDLPYPVRHDKIEATYRHGLLVIQLHRHIPNSSRQKPITIRHLEDE	PGPT0014635_7092	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014635-hsp20-K13993	NA	NA
AK012_02834	1335	pbuG_2	COG2252	Guanine/hypoxanthine permease PbuG	ATGAGTAAGTTTTTTAAGTTTAAAGAAATGGGGACGAACTACCGGATTGAATTCATGGCGGGGCTGACAACGTTTCTCGCTATGGCCTATATTTTGTTCGTCAATCCGTCTACACTTGCCCTGGACGGCATTGAGGCTCTTCCTGAAGGAGTCACCCGGATTGATAAGGGAGCCGTATTCACAGCTACAGCCGTAGCAGCAGCGGTAGGTACATTGATTATGGGTTTGTTTGCGAAATATCCGATCGCTCTTGCTCCCGGTATGGGGCTGAACGCATTCTTCGCATATACGGTTGTTCTTGGCTTCGGCATTCCTTGGGAAACCGCGCTTGCCGGCGTACTTGCTTCTGGACTTATCTTTATTGTGTTAACCGTAACCGGCCTGCGTACGATGATCATTGATGCCATTCCAGGAAACCTTAAGCTTGCGGTTGGAGCGGGAATCGGATTGTTTATAGCTTTTATCGGCTTTCAAAATGCCGGAATCGTGCAGAACAGTGATGCGACCCTTGTACAGCTCGGGGATCTGACTGCCGGTCCGACGCTTCTGGCTGTTTTCGGAATCATCGTCAGCGTCATCCTGCTTGCTGTCGGGTTAAAGGGCGGGATTTTCTATGGAATGGTGCTCACATCACTGATGGGAATTTTCACAGGGTTGATCGATCCGCCGTCCGGGTTGAGCGGGATTGTCAGCCCGGCGCCAAGTGTGGCACCGACGTTCGGAGCTGCGCTGACGCACTTCGGTGATATCTTCACCATTCAAATGCTCGTTGTCATTTTGACGTTCCTGTTCGTCGACTTCTTCGATACGGCTGGTACGCTGGTCGCTGTAGCGACTCAGGCCGGATTTATGAAAGAGAATAAACTGCCAAGAGCCAACCGTGCACTGTTCTCCGATTCCGCCGCTACCGTGGTCGGTGCTGTGGTAGGGACATCGACGACGACGTCCTACATTGAATCCACCGCCGGTGTCGGAGCAGGTGGACGTACAGGCTTTGCTTCTGTCGTGACCGCCGGATTCTTCCTGCTGGCCCTGTTCTTTTCTCCGCTTCTTGCTGTCGTAACGGCTGAAGTGACCGCACCGGCTTTGATCATTGTCGGGGTTTTGATGGCCTCGACGCTGAAGAGTATTGACTGGGATGAGTTTGAAATTGCTGTCCCTGCCTTCTTTACGATTGCAGCGATGCCGTTGACTTACAGCATTGCGACCGGAATTGCGATCGGCTTTATCTTCTATCCGATTACGATGATTTTAAAAGGACGGGCCAAGGAAATCCACCCGATCATGTATTTCCTTTTTGTCATTTTCGTTTTATATTTCATCTTCCTTGCATAA	MSKFFKFKEMGTNYRIEFMAGLTTFLAMAYILFVNPSTLALDGIEALPEGVTRIDKGAVFTATAVAAAVGTLIMGLFAKYPIALAPGMGLNAFFAYTVVLGFGIPWETALAGVLASGLIFIVLTVTGLRTMIIDAIPGNLKLAVGAGIGLFIAFIGFQNAGIVQNSDATLVQLGDLTAGPTLLAVFGIIVSVILLAVGLKGGIFYGMVLTSLMGIFTGLIDPPSGLSGIVSPAPSVAPTFGAALTHFGDIFTIQMLVVILTFLFVDFFDTAGTLVAVATQAGFMKENKLPRANRALFSDSAATVVGAVVGTSTTTSYIESTAGVGAGGRTGFASVVTAGFFLLALFFSPLLAVVTAEVTAPALIIVGVLMASTLKSIDWDEFEIAVPAFFTIAAMPLTYSIATGIAIGFIFYPITMILKGRAKEIHPIMYFLFVIFVLYFIFLA	PGPT0007325_3530	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
AK012_02836	1671	guaA		GMP synthase [glutamine-hydrolyzing]	ATGACATGTCTTGACATGGATGGATTTCTGCCTTCGTTGTATGCAACGTACATGAGGCAGGAGTCCATTTTTTTATGGCACGGGAAGAGAGAACCAGGCAGCACCAATACAGGTACAGGGAGTGGAACAGTTATGGAAAACATACAAGGCATGATTCTTGTGCTGGACTTTGGAAGCCAGTACAACCAGTTGATTACACGAAGAATCCGCGAATTCGGAGTCTACAGTGAACTGCATTCACACAAGATGAGCATAGAGGAAATCAAAGAGATGAACCCGAGCGGTATCATCCTTTCCGGTGGGCCGAACAGCGTGTACGGGGAAAACAGCTTCCGCTGTGATGAGCAGATATTTGAACTGGGCATCCCGGTGCTCGGCATCTGCTACGGCATGCAGCTGATGACGCACCATTTCAATGGAAAAGTGGAGCGGGCGAAAGAACGCGAATACGGAAAAGCCGACATCCACATCACAGAAGACCCTGTGTTGTTCCGCAAGACACCAAAAGAGCAGGCCGTATGGATGAGTCACAGTGACAAAGTGATCGAAGCTCCTGAAGGCTTCCGTGTCGATGCGACGAGCCGCTCCTGCCCTGTTGCTGCCATCAGTCATGAAAATGCAAAGATGTACGGTGTGCAGTTCCACCCGGAAGTCCGCCATTCCGAGTATGGAAACGACCTTCTGCGCAGCTTTGTTTTCGACGTCTGTGAAGCGAAGGACGACTGGACGATGGAACACGTCGTTGAAATGGAAGTGGAAAAAATCCGTGAGCAGGTAGGCGACCGTAAAGTCCTCTGCGCGTTAAGCGGTGGTGTGGACTCTTCTGTTGTAGCTGCGTTGATCCATAGGGCGATCGGAGATCAGCTGACTTGTATTTTCGTCGATCACGGACTGCTTCGTAAAAATGAAGCGGATGATGTCATGCGTACGCTTGGCGACGGCTTTAACATGAACATTATTAAAATTGATGCCAAGGAACGTTTCATGAGCAAGCTTGAGGGTGTATCGGATCCGGAAAAGAAGCGGAAAATCATCGGAAATGAGTTCATTTATGTGTTTGATGATGAAGCGGAAAAGCTGAAGGACATCGATTACCTTGCGCAGGGAACCCTGTATACCGATATCATCGAAAGCGGAACAGAAACGGCGCAGACGATCAAGTCCCACCACAATGTCGGAGGCCTTCCGGAAGATATGGAGTTCCAGCTCATCGAACCTTTAAATACGCTGTTCAAGGATGAGGTGCGTGCTCTGGGCACCGAGCTTGGTGTACCTGAACATATCGTCTGGCGTCAGCCGTTCCCCGGCCCCGGCCTTGCCATCCGTGTTCTCGGGGAAGTGACAGAGGAAAAACTGGAAATCGTACGAGAATCTGACTTTGTTCTCCGCGATGAAATTAAAAAAGCGGGTCTGGACCGCGACATCTGGCAGTATTTCACAGTACTTCCGGACATCCGCTCTGTCGGTGTCATGGGGGATGAGCGTACCTACGACTATACGATCGGTATCCGTGCTGTTACGTCCATTGATGGCATGACGTCGGACTGGGCGCGTATTCCGTGGGATGTGCTTGAGAAAATATCCACACGTATCGTAAATGAGGTCGACCACATCAACCGCGTCGTGTATGATGTGACGAGTAAGCCGCCTGCAACGATCGAGTGGGAATAA	MTCLDMDGFLPSLYATYMRQESIFLWHGKREPGSTNTGTGSGTVMENIQGMILVLDFGSQYNQLITRRIREFGVYSELHSHKMSIEEIKEMNPSGIILSGGPNSVYGENSFRCDEQIFELGIPVLGICYGMQLMTHHFNGKVERAKEREYGKADIHITEDPVLFRKTPKEQAVWMSHSDKVIEAPEGFRVDATSRSCPVAAISHENAKMYGVQFHPEVRHSEYGNDLLRSFVFDVCEAKDDWTMEHVVEMEVEKIREQVGDRKVLCALSGGVDSSVVAALIHRAIGDQLTCIFVDHGLLRKNEADDVMRTLGDGFNMNIIKIDAKERFMSKLEGVSDPEKKRKIIGNEFIYVFDDEAEKLKDIDYLAQGTLYTDIIESGTETAQTIKSHHNVGGLPEDMEFQLIEPLNTLFKDEVRALGTELGVPEHIVWRQPFPGPGLAIRVLGEVTEEKLEIVRESDFVLRDEIKKAGLDRDIWQYFTVLPDIRSVGVMGDERTYDYTIGIRAVTSIDGMTSDWARIPWDVLEKISTRIVNEVDHINRVVYDVTSKPPATIEWE	PGPT0021580_4306	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021580-guaA-K01951	NA	NA
AK012_02838	2196			hypothetical protein	ATGCAGGACCGTCAATCAACCGTGTACCGGATGCTCCTCTATGGCATTGGTTTTCTTTTGTTCTGTGAATGGCTCCGTCCGCTTGAAATGATTTCCCAGACGGATGACGTCAGGATTTTCTTTATTTTTGCGGCGTTCTGTTTTTTTGTTTCCTTTTTACAAGTCCCCTGGTATCTGTCGATGCCTTTAAAGGGGCTGGGTGTGGCGTTTATTCTGGACGGGCTTTACATCGGGGAGTTGATCTTTTCTCCGGGGTGGTTCGCGGTCCTTTATGAACAGGTCGTTTTTAATATACAAATGATCAGTGGTCAGGAATGGTGGCAGATGACACCGCTTTTCCGCAGTCTGCTGTTTCTTATTTTACTATGGCTCATGAGCTATCTTCTTTATTACTGGTTCGTCATTGCGCGCCGGATGTTCTTTTTCGTGCTTTTGACGATCTTGTTCGTGGCCATTGTTGACACATTTACGGTGTATGATGGCAGCTGGGCGATTATCCGGACATTCGTCATCGGCATGGCCGCCATCGGTCTTTCGAGCTTTGCCAAAGAAATGGATAAAGAGTCCATTTTGTTCAAAGGGCTTCATAAAGCCAATGTATGGCTGCTCCCCCTGATCGGGGTGATTTTGTTCTCCTCCGCAGCGGCTTACGCATCTCCAAAGTTTGCTCCGCAGTGGCCCGATCCGGTTCCATATTTAGAAAGCGCCGCTGGTGGTGCAGGGTCCGGCGGAGGTCGGACGGTCCAGAAGGTGGGGTATGGCGAGGATGACAGCCAGCTTGGTGGATCGTTCGTGCAGGACGACACGCCGATTTTCACAGCGACCGTTGAAGGGGACCGCTACTGGCGGATTGAATCGAAGGATACGTACACAGGAAAAGGGTGGACGGATACGTTGGAGCAGCCGGTCACCACAGCGGACCCTTCTGACATTCCGTTTTCCACGTTCACGGACGAAGTGGAAACCGAAACACAGACAGCACAGATAGAAATGACGAGGTTCGCATCGTTTCGAAAGCTGGTCTATCCCTATGGAATCACATCGTTGGAGACTGCCGGGGATGACTTTAATCTCCGCGTTCACAACCATACAGGGGAGATGGATACGTACCAGGGCGATGCTCCCGCAAAAATCAACACAGCTGAATTGACATACGAGTTCCCTTCTTTTGAGTACAGCCAGCTGCGCGAATCTGGAAATAATGATCCACAGGAAATCCAGGAGCAATACCTGCAGCTTCCGGATGGTCTTCCGGAGCGTGTCCGTAATCTGGCCTCCCAGATCGTTGAAGGAGAAGAGAATCGGTATGACCAGGCCAAGGCTGTAGAGCGTTACTTTTCGGCGAACGGCTTTGAGTATTCAACGACGGATGTCCCCGTGCCCGGCGATGATGAAGACTATGTCGATCAATTTTTGTTTGAATCCCAGATTGGGTATTGTGACAACTACTCGACATCCATGGTCGTCCTTCTCCGCTCTGAAGGGATACCGGCACGATGGGTGAAGGGCTTCACAGGCGGTGAACGGATCGATTCCGTGGAAAATGACGCTGGGGACGGTGTACAGAATGTGTATGAAGTCACTAGTGGAAATGCGCACTCCTGGGTGGAAGTGTATTTCCCTGATGTCGGCTGGGTTCCATTTGAGCCGACCCAGGGATTCAGTAACAACGCTGATTTTTACACAGATGTCGATGTGGAGGATACGGAAGACGATCCGGCAGCAGGAACGGAGGATGAAACCGAAGATGATATGATGGGCAGTCCGCAGCAGGTGGAGGAGGAAGAGGCGGAATCCGGCAGTGCGGATATAGACTCCTCTTCCGGATCGAAGACGTTTACGACGGTTCTGACAGGGATCATCATTTTGATTGCCGGCATCCTTCTTTATGTCACCCGCTACCGGTGGATGGCTGCGATACTGATCCGGCGCTACCGCCGCAGCGAAGCTGAAGAGACGTACGAAAAGGCGTATCATTTTCTTTTGAAAGTGCTGCAGCATAAGGGATTGAAACGGAAGCCTGATCAAACCCTCCGTGATTATGCCATGAAAGTGGACCAGCACTTCCAGTCCAATGAAATGCAGCGGCTGACGAATAGTTATGAGCGTGTGATCTATGGAAATGAACCCCAGCAGGCTCAGTGGCGGAAAGTAACGGAATTGTGGGAAAATTTAATTAAAAAGACATTGTCTTGA	MQDRQSTVYRMLLYGIGFLLFCEWLRPLEMISQTDDVRIFFIFAAFCFFVSFLQVPWYLSMPLKGLGVAFILDGLYIGELIFSPGWFAVLYEQVVFNIQMISGQEWWQMTPLFRSLLFLILLWLMSYLLYYWFVIARRMFFFVLLTILFVAIVDTFTVYDGSWAIIRTFVIGMAAIGLSSFAKEMDKESILFKGLHKANVWLLPLIGVILFSSAAAYASPKFAPQWPDPVPYLESAAGGAGSGGGRTVQKVGYGEDDSQLGGSFVQDDTPIFTATVEGDRYWRIESKDTYTGKGWTDTLEQPVTTADPSDIPFSTFTDEVETETQTAQIEMTRFASFRKLVYPYGITSLETAGDDFNLRVHNHTGEMDTYQGDAPAKINTAELTYEFPSFEYSQLRESGNNDPQEIQEQYLQLPDGLPERVRNLASQIVEGEENRYDQAKAVERYFSANGFEYSTTDVPVPGDDEDYVDQFLFESQIGYCDNYSTSMVVLLRSEGIPARWVKGFTGGERIDSVENDAGDGVQNVYEVTSGNAHSWVEVYFPDVGWVPFEPTQGFSNNADFYTDVDVEDTEDDPAAGTEDETEDDMMGSPQQVEEEEAESGSADIDSSSGSKTFTTVLTGIIILIAGILLYVTRYRWMAAILIRRYRRSEAEETYEKAYHFLLKVLQHKGLKRKPDQTLRDYAMKVDQHFQSNEMQRLTNSYERVIYGNEPQQAQWRKVTELWENLIKKTLS				NA	NA	NA	NA	NA
AK012_02839	1266			hypothetical protein	ATGAGGCAGGCGTTCAGCCTTGCTGCCAAGGGGGCTGTCGTTTTCCTGTTGTTTGCGGCCCTCTTTTCGTATGCCATGTTTCAAGGCGGATTTGTAAGCTGGTTTCTATTCTATGCGTTTCTCCCGTTTCTTCTTTACATGGTTGGTGTGCTCGTCTACCCCATTCAGAAGTGGAAGGTGGATCATCAGCTCTCGAAGCGTTATGCGCTTGGCGGGGAAACCGTGGAGGTGGAAGTAACGCTGAGACGGCGGTTCCCCTTTCCGATCTACTATTGTGTCATTGAGGAATATCTTCCGCCATCGTTGAAAAAGGTGGATGAACACCTCGATAAATATAAAGATATGACGAAAGCGGAGCCCTTTTATGAACAGAGGAACATCAAGAAAGTGGTCTTTCCCTGGTTCAGCCGGCGGATTACGTACCGCTATGAACTTCCAAAAGTACCGCGCGGGGCCCATACATTCAAGGCAGTTCGTGTGAAGACGGGGGACTTTTTCGGATTTGTCAAAAAAGAACAGGTGTATAAGCACACCAATGAACTCCTCGTGTTTCCATACGTGCGTCCTGTGAAAATGAAAGACCGCGTCTACAGCTTTGAACAGGGGACGAGCCCTTCCTTTAAACTCAATGAAAAAAATACCAACATCGTCACAGGGGTCCGTGAATATATGCCGGGCGACCGCTTTGCCTGGGTGGATTGGAAAACGACAGCGAAGAAAAACGAAATGATGACAAAAGAATTCGAACAGGAAAAAAGCGTGGAAATGCTGATGATCTTAAATACGGGCTTCCATCAGGATATGGACATTTTAAGCTTTGAAGGAGCGGTTGAATTTACGGCGTCCCTCGTGAAAGAGTTTGATCAGCAGTCTTCTCCACTGTCGTTCATGACGCTCGGTGAAGACCGCCGGCACTTCCCTTTTCATCAGGATCCCGCGCGTCAGCAGCAGATCCAGGGGCATCTGGCCCGTGTAAGACCGGTCGGACAGCTGTCCTTTGCCAGTCAGCTCGAACGGGAACGCCCCTCTGTGCCCAGTGGTGTTCTGCTTATGGTCGTCAGCCATCAGCTGGACCGGGATGTCCAGGCGTCGCTTATGAAGTTGGTGAAGAAAAGCAAGCGGCTTGTCTTTTTTTATGTCCGCCCGCATGAACGGCTGACCTTCCAGGACCATCAGCTGATCAAGCAGTTGAAGAGCCGGGGCGTGGTCGTCAACCTCTTATCCGAAGAACAGATGACACAAAAGGAATTCGAGGTGAACACATAA	MRQAFSLAAKGAVVFLLFAALFSYAMFQGGFVSWFLFYAFLPFLLYMVGVLVYPIQKWKVDHQLSKRYALGGETVEVEVTLRRRFPFPIYYCVIEEYLPPSLKKVDEHLDKYKDMTKAEPFYEQRNIKKVVFPWFSRRITYRYELPKVPRGAHTFKAVRVKTGDFFGFVKKEQVYKHTNELLVFPYVRPVKMKDRVYSFEQGTSPSFKLNEKNTNIVTGVREYMPGDRFAWVDWKTTAKKNEMMTKEFEQEKSVEMLMILNTGFHQDMDILSFEGAVEFTASLVKEFDQQSSPLSFMTLGEDRRHFPFHQDPARQQQIQGHLARVRPVGQLSFASQLERERPSVPSGVLLMVVSHQLDRDVQASLMKLVKKSKRLVFFYVRPHERLTFQDHQLIKQLKSRGVVVNLLSEEQMTQKEFEVNT				NA	NA	NA	NA	NA
AK012_02840	966			hypothetical protein	ATGTCACAACAAACGTTTCTCTATCAGCCGAAAGTAACGGAAGTCCTTAATAATATTAGAAAAGTGATGATCGGAAAGGAAGAAGCCGCACTGCTGAGTGTTGTTGCCCTGCTGGCGAAGGGGCATGTCCTGCTTGAGGACGTTCCGGGAGTAGGGAAGACGATGCTTGTCAAAACGCTGGCGAAATCCTTGGATTGTGATTTTAAGAGAATTCAGTTTACACCAGATCTGCTGCCGTCAGATGTGACTGGTGTTTCCATTTATAATCCGAAGACCTTGGAGTTCGAGTTCCGGCCGGGGCCGATACTCGGAAACATTGTCCTGGCTGATGAAATCAACCGGACGTCACCGAAGACGCAGTCCGCCCTCTTGGAAGGGATGGAGGAAACGAGCATTACCGTTGATGGAAGTACGGTGCAGCTTGGGGAGCCGTTTTTTGTGATGGCTACGCAGAACCCGATTGAATATGAAGGAACCTACCCACTTCCAGAGGCCCAGCTGGATCGTTTTCTTTTGAAAATGGAAATGGGCTATCCCACCGCAAAGCAGGAGATGGAGATGCTGGCACGCACCTCCAGCAGCCACCCGATTGAAGAGATCTCAGCTGTCATTACGAGAGAGGAGCTCGTGGGTCTTCAGCAGGAAGCGGCCCAGGTCTATGTCGACCGCTCCGTCAACCGCTACATCGTCGATCTGGTTACAGGCACAAGGGAACATGAGGGTGTGTATTTAGGGGTGAGTCCGAGGGGATCGATTTCCTTAATGAAAGCCTCTAAAGCCTACGCGTTTGTGCATGACCGTGACTACGTGCTTCCGGATGATGTGCAGTTTATGGCTCCGTATGTGCTCGGCCACCGGATGATTTTAACATCCGAAGCGAGGTTCGAAGGGAAAACGTCAGCTTCCATCATTGAGGAACTGCTTACGGCTACTTCAATTCCTGTGAAAAGGACGACCGGGGAATGA	MSQQTFLYQPKVTEVLNNIRKVMIGKEEAALLSVVALLAKGHVLLEDVPGVGKTMLVKTLAKSLDCDFKRIQFTPDLLPSDVTGVSIYNPKTLEFEFRPGPILGNIVLADEINRTSPKTQSALLEGMEETSITVDGSTVQLGEPFFVMATQNPIEYEGTYPLPEAQLDRFLLKMEMGYPTAKQEMEMLARTSSSHPIEEISAVITREELVGLQQEAAQVYVDRSVNRYIVDLVTGTREHEGVYLGVSPRGSISLMKASKAYAFVHDRDYVLPDDVQFMAPYVLGHRMILTSEARFEGKTSASIIEELLTATSIPVKRTTGE				NA	NA	NA	NA	NA
AK012_02841	726	fabG_7		3-oxoacyl-[acyl-carrier-protein] reductase FabG	ATGAAGTGGATCATCGTCACAGGGGAATCCAGAGGAGTGGGGAAGGAAATCGCCAGAAGGATCTTATTGGAAGGAACATATGGCGTGATCGGCATCAGTCGTTCGAAGGGAGCGGAAGTGGAAGACCTGAAGCAGCTTGGCGGAGATCGATTTGTGCATTTTTCCTACGATTTAGAGGATGTAGAAGGAATCAAAACGTTATATCTAAAGAAGCTGAAACCGCTGGGCGTGATTTATGGGTTTGTGAACAATTCAGCTTCCGCTTATGATGACATCATTTCCAACCTCCGCGTCGATCCGCTTGAGAAAATGTTCCGGATCAACGTACTTGCCCCGATGCATCTGACTAAATACGTCATCCGGGATATGCTTTTGAACAAAACGAAAGGGTCGGTCGTTCACATCTCTTCGATCAGTGCACACACAGGCTATAAAGGATTGAGCATGTACGCATCGACCAAAGGTGCGATCGAAGCGTTCTCTAAAAATATGGCCCGGGAATGGGGAGCTCGGGGCATCCGTTCCAACTGTGTCATCCCTGGATTTATGGATACAGCCATGAGTGCGTCTTTAACAGATGAGCAGAAAGATAGAATTTACAAAAGGAACGCGATGAAAAAAGAAACGGAGATTGCCAGTGTTGTCAGTACCGTTCTCTTTCTTTTATCTGAGCAGTCGTCTTCAATCACAGGTACAGGTATACATGTAGATAATGGAACAATATAA	MKWIIVTGESRGVGKEIARRILLEGTYGVIGISRSKGAEVEDLKQLGGDRFVHFSYDLEDVEGIKTLYLKKLKPLGVIYGFVNNSASAYDDIISNLRVDPLEKMFRINVLAPMHLTKYVIRDMLLNKTKGSVVHISSISAHTGYKGLSMYASTKGAIEAFSKNMAREWGARGIRSNCVIPGFMDTAMSASLTDEQKDRIYKRNAMKKETEIASVVSTVLFLLSEQSSSITGTGIHVDNGTI	PGPT0003180_20734	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
AK012_02842	1245	tycC		Tyrocidine synthase 3	ATGAAAGATCTTTTTCTGGCTGCAGGAGGATGTCATTATACGTACGAACAGCTGCTGAAAGATGTGGGAAGCAAGGGAAAGAAATGTTCCAGGATTTTCGTGAAGGGGAATGAACCGTACCAAATCTTTGTGAGCATCGTCCACAGCCTGTGGCTCGACTATCCGGTGGAGCTCCTGGATGGAGATTTTTCTGAAGAAGAATTAAATAAGTTGGGCATTCAATCGGCTGACCTTCAGCCGTCCCTCGTTGATCGACGGTCGGAACATCCGCCGTCCTATGAGGATGTCACGACCCTTCTTCGTCCAAAAAACTGGGCCCTTTCCTTATATACGTCAGGAACGACGGGACGCCCGAAAAAAGTGACCCACCGGTATGACGCATTAACCCGGCAGGTGAAAACCGGCAGCCGATGGGAAAATCAGGTGTGGGGATTTGCTTATAACCCGACGCATATGGCCGGCCTGCAGGTCTTTTTTCAAGCCTTCAACAACAAAAATCCAATGATCTATGCCTTCGGTGAAGAGCAGAAGCAGCTTCCTGATCTGATCGATCACTATCAAATCACCCATCTATCCGCAACAGCCACCTATTACCGCAATATTTTTCCACGGCTTCAGTCTAAGGTTTACCCGGGCGTGAAGCGCGTCACTTTTGGAGGCGAAGGCTTTGATGAACGATTATCAGAAAAGATGAAGCAAACCTTCCCTCATGCCCAAATCAGGAATGTCTACGCGTCCACAGAAGCCGGGAGCGTATTTGCCGGAAACGGCCGCACGTTCACTTTATCCCCCTCAATCAAAGACTTGGTGAAAATCAATGAACATCAGGAGCTGCTCATCCACCATTCGTTAGTCGGTGCGCTGGAAAATGCAGCGGACGTTGGAGAATGGCTCAATACCGGAGATGTTGTACAGGAAATCGGGGAAAATCAATTTGTTTTTGTATCCAGAAATTCCGATTTTATTAATGTCGGAGGATACAGGGTGAATCCGCTGGAGGTTGAAGCTGTGCTGACGGCGGTTCCGGGAGTAGAGGATGCGGTGGTGAAAGGGAAGAAAAATAGTGTAACCGGAAACCTGCTCACCGCTGAACTCGTAAAGGCGGCAGACGCTGAAGAGGATCAGGTGAAGGAGGCGGTTCGGAAGCATGCAGCAGATACACTTCAGCCGTGGAAAGTACCGCGGATGCTGACATTTGTCGAAGAGATCAGTAAAACCCGCACGGGAAAGAAGGTCAGAGAATGA	MKDLFLAAGGCHYTYEQLLKDVGSKGKKCSRIFVKGNEPYQIFVSIVHSLWLDYPVELLDGDFSEEELNKLGIQSADLQPSLVDRRSEHPPSYEDVTTLLRPKNWALSLYTSGTTGRPKKVTHRYDALTRQVKTGSRWENQVWGFAYNPTHMAGLQVFFQAFNNKNPMIYAFGEEQKQLPDLIDHYQITHLSATATYYRNIFPRLQSKVYPGVKRVTFGGEGFDERLSEKMKQTFPHAQIRNVYASTEAGSVFAGNGRTFTLSPSIKDLVKINEHQELLIHHSLVGALENAADVGEWLNTGDVVQEIGENQFVFVSRNSDFINVGGYRVNPLEVEAVLTAVPGVEDAVVKGKKNSVTGNLLTAELVKAADAEEDQVKEAVRKHAADTLQPWKVPRMLTFVEEISKTRTGKKVRE				NA	NA	NA	NA	NA
AK012_02843	237	acpP		Acyl carrier protein	GTGCAGGAAAAACTAGCCGAGATCTTTATGGATATGTTCCAAGATAATGGTCTTTCCGCGCCTGACCGCCTGGATCCGGATCTGCATCTCCGGGACGATTTGAACATGGATTCCTTGATGCTCGCTGAATTAACCGTCCGGGTGGAAAGTGAATTCAGCGTGGACATTTTCGAGGACGGTCTTGTCGAAACCATAGGCGATGTCGTTAAAAAAATAGAGGGACATCAGCAGTCATGA	MQEKLAEIFMDMFQDNGLSAPDRLDPDLHLRDDLNMDSLMLAELTVRVESEFSVDIFEDGLVETIGDVVKKIEGHQQS	PGPT0011375_7629	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0011375-acpP-K02078	NA	NA
AK012_02844	537			hypothetical protein	ATGATTCAATTTGAGAGGTTGAAAAAAGATCATCTCGATCTGGTTTTAAAGTGGAGAACCTCTTCATTTGTAACCCGGTACATGTATACAGATATCGATGGTGACCGTACAAAGCATCAAGCCTGGTTCGAGTCCATTTCCCAATCCGAAACCGACCTCTACTGGGTGGCCGTCATCGATGCGGTGCCCGTCGGGGTTATTTCCCTGAGCGACATCCATCACCTCCATAAACGAGCCACTTTCGGTTATTACATAGGCGAGGAAAAGTACCGGATCTATGGCGGAATCCTTCCTCTCTATCTATATAACCATGTTTTTCACAATCTCTCTTTAAATAAGCTGACCGCTGAGGTGATGGAAGGGAACGACAAGGTCGTCAAACTCAATATGTTCCATGGGTTTCAAATGGTCGGCACCCGTAAGGAACATGTGATCAAGCACGGGAAAAGCCACGACGTCCATCTGATGGAGCTTCTTAAATCGGATTGGGAAAATAAAGGACACCTCTTTAAAAAATATACTGGAGCATTCGAATGA	MIQFERLKKDHLDLVLKWRTSSFVTRYMYTDIDGDRTKHQAWFESISQSETDLYWVAVIDAVPVGVISLSDIHHLHKRATFGYYIGEEKYRIYGGILPLYLYNHVFHNLSLNKLTAEVMEGNDKVVKLNMFHGFQMVGTRKEHVIKHGKSHDVHLMELLKSDWENKGHLFKKYTGAFE	PGPT0022730_97	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0022730-pseH-K15896	NA	NA
AK012_02845	750	kdsB		8-amino-3,8-dideoxy-manno-octulosonate cytidylyltransferase	ATGAAGATCGTAGCTGTCATACAAGCGAGGATGGGCTCCACACGCCTGCCGGGAAAAGTGTTGAGAAAGGTAGGGGGGAAGACGCTGCTGGAGTATCAGGTGGAACGTGTCCAACGGGCGTCCTGCATCGACCAGCTTGTTGTAAGTACGACGGTAAAGCCGGGAGATGACGAGATTGAACGCTTATGCAGTCGGATCGGAACCGCCTGCTTCAGAGGTTCAGAAGAGGACGTGTTGGAACGGTTTTATATGACCGCCACTCATTACGAAGCGGATGTAGTGATCCGGATCACCGGTGACTGTCCATTGATGGACCCCGCCGTTATCGATGACGTCACTTCCCTTTTTCTCGATCATTACCCGCAGTATCCATATGTCTCCAATACGAAAATCCGGACGTACCCAAGGGGGATGGATGTAGAAGTATTCACCTTTGAAGCCCTCTACCATTCTCATTTAATCGCCGATGATGCCTATACAAGAGAACACGTTACAGCAGGAATGATCCGTGATACGCGTCTGTTCAAACACAATCACCTGATGTACCACAGGGACGAAAGCGGCCACAGGTGGACGGTGGATACGGAGGAAGATTTCCAACTGGTGGCAAGAATCATTGAGCACCTTTATCCGGACACCCCGCATTTCTGCCTGGAAGACTGCCTGACCTTGTTGGAGGCTCATCCGGAATGGAGCAGGATCAACCGTCACATCCAGCAGAAAAAGGAGAATCCTGATGATTCAATTTGA	MKIVAVIQARMGSTRLPGKVLRKVGGKTLLEYQVERVQRASCIDQLVVSTTVKPGDDEIERLCSRIGTACFRGSEEDVLERFYMTATHYEADVVIRITGDCPLMDPAVIDDVTSLFLDHYPQYPYVSNTKIRTYPRGMDVEVFTFEALYHSHLIADDAYTREHVTAGMIRDTRLFKHNHLMYHRDESGHRWTVDTEEDFQLVARIIEHLYPDTPHFCLEDCLTLLEAHPEWSRINRHIQQKKENPDDSI	PGPT0025255_293	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025255-spsF-K07257	NA	NA
AK012_02846	1080	pseI	COG2089	Pseudaminic acid synthase	ATGAGATCCCCGATGGCATTCAGCGTCCATGGACGACACATAGGGAGCGGTCATCCACCGTTTATCATTGCAGAAATGTCCGGAAACCATAATCAATCGCTGGCAAAAGCGCTGGAAATGGTGGACCACGCGGCTGCATGCGGAGTCGATGCATTAAAGATTCAGACGTATAAGCCGGGGACGATGACGCTTTCCAGCAGCCGTCCGGACTTTACGATTAAGGACAAACAAAGCAAATGGGATGGGAAGAAGCTGTACGACTTGTATGAAGAAGCGAAAACCCCGTGGGAATGGCATGAGAAGGTGTTCAATAAATGCCGGGATGCGGGGATTATTGGTTTCAGTACACCGTTTGATGAAACGGCTGTCGACTTTTTGGAAGCGTGCCACGTACCTTTGTATAAAATTTCTTCCTTTGAAAATACGGACCTTTCCTTAATTGAAAAGGTCGTGAAAACAGGAAAGCCCGTCATTATTTCCACCGGCATGGCCTCATTGAGTGAGGTAGAGGATATGGTGAAAACGGTGAGGGGAAGCGGAGGCAGCCAGCTGGCTCTGCTCAAGTGCACAAGCACCTACCCGGCCCCTCCCGATCATTCCAATATCACCACGATCCCTCATATGATACAGACCTTTTCCTGTCCTGTCGGTCTCTCCGATCATACGCTTGGTATCGGTGTGGCTCTGGGGAGTGTGGCGCTCGGCGCTTCGGTCATTGAGAAGCATTTTGTCCTCGACAGGTCTGAAGGAGGCGTGGATGCTTCTTTTTCCCTTGAACCCTCCGAAATGAAGCAGCTTGTGGAAGAATCGAAAAACGTATGGAAGGGGATGGGGCGGATTTCGTACGGAGATACACAAGAAGATCTAAGAGCGAAGAATTACCGGCGGTCTCTATACATCGCAGAGGATATGAAAAAAGGAGATCTTTTTACCGATCAGAATGTTCGGGCGGTCCGTCCCGGCTATGGTCTTCTCCCTAAGTATAAAGACGTCTTCCTGGGGAATCGGGCGCCTTATGCGATAGCTAAAGGCACCCCGTTAAGCTGGCGGATGCTGACCGGAAGGCGGAAAGATGAATGA	MRSPMAFSVHGRHIGSGHPPFIIAEMSGNHNQSLAKALEMVDHAAACGVDALKIQTYKPGTMTLSSSRPDFTIKDKQSKWDGKKLYDLYEEAKTPWEWHEKVFNKCRDAGIIGFSTPFDETAVDFLEACHVPLYKISSFENTDLSLIEKVVKTGKPVIISTGMASLSEVEDMVKTVRGSGGSQLALLKCTSTYPAPPDHSNITTIPHMIQTFSCPVGLSDHTLGIGVALGSVALGASVIEKHFVLDRSEGGVDASFSLEPSEMKQLVEESKNVWKGMGRISYGDTQEDLRAKNYRRSLYIAEDMKKGDLFTDQNVRAVRPGYGLLPKYKDVFLGNRAPYAIAKGTPLSWRMLTGRRKDE	PGPT0022740_88	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0022740-pseI|neuB3-K15898	NA	NA
AK012_02847	1062	pseG	COG3980	UDP-2,4-diacetamido-2,4,6-trideoxy-beta-L-altropyranose hydrolase	ATGAGGGCAGCAGTCCGGGTCGACGCATCGGTCCAGTGGGGGACGGGGCATATGATGCGTTGTCTGACCCTGGCGGAAGAGCTCCGGGACCGCGGGTCCGAGGTGTTTTTTATATGCCGGAGTTGTCCGGATGGACTTAGAAAAATGGCAGAGCATCGGTCTTTTTTTGTTCATCTGCTTGAGGACGACGAAGAATTTTCCTTTAAAAAGGACGCAGAACAGACGAAAGAGCTGCTTCAATCCCTGCCCCCGGTAGACTGGCTGATTGTGGACCATTACCAGCTGGACGCCAGGTGGGAAAAGATTCTGAAGCCGTTGGTGAAAAGGCTGATGGTCATTGATGATCTGGCTGACCGGCCGCATCTCTGTGATGTACTGCTCGATCAGAATGCTTATACCAACCTGCATGAACGGTATAAGCAATGGGTGCCTCCGTCGGCCGTCCAGCTTCTTGGTCCGGAATACCTTCTTCTTAGAAAGGAATTCCTCCAGGCAGGACAGAGGCGGCGGAGCATGATCGGCCATCTCCTGATCAGTTTCGGTGGCACGGATCCTTCAGGGCAGACGATGAAAGCGATGGAAGCCGTTCAACATTTGACTTCCATGACTGTGACCATTGTCATCGGTGGAGCGAATGAGAAGAGACAGACCATCCAGCAGTACGCTTCCCGATTTCCGCACATGACACTTCATGTGCAGACCAGTCACATGGCACAACTGATGGAAAAGGCTGACCTCGTCATAGGAGCCGGCGGCTCATCCATCTGGGAGTGCTGCTATATGAATCTCCCGGTGGTTGTCATCCAGACAGCCGCTAATCAAAGGGAAACCATCGCTGTCCTTAAAGAAAAGCAGGCCATTCAATATGTCGGAAAGGCGGAAGAAGTGCATGTGGATCGGTTGAGAGCCGCTGTTGAAACAATTGTTCAACACCCGGATGCCGCCCGGGAAATGGCTGATCGATTCTCCCGCCTCATGGAAGCGTACCGGCCTGGTCGGGCAGCGGATTGTTTATTAAATTGGAATAACTCTCCTGAATCATCAGGGGGGAAGAAGGGATGA	MRAAVRVDASVQWGTGHMMRCLTLAEELRDRGSEVFFICRSCPDGLRKMAEHRSFFVHLLEDDEEFSFKKDAEQTKELLQSLPPVDWLIVDHYQLDARWEKILKPLVKRLMVIDDLADRPHLCDVLLDQNAYTNLHERYKQWVPPSAVQLLGPEYLLLRKEFLQAGQRRRSMIGHLLISFGGTDPSGQTMKAMEAVQHLTSMTVTIVIGGANEKRQTIQQYASRFPHMTLHVQTSHMAQLMEKADLVIGAGGSSIWECCYMNLPVVVIQTAANQRETIAVLKEKQAIQYVGKAEEVHVDRLRAAVETIVQHPDAAREMADRFSRLMEAYRPGRAADCLLNWNNSPESSGGKKG	PGPT0022735_240	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0022735-pseG-K15897	NA	NA
AK012_02848	1203	arnB	COG0399	UDP-4-amino-4-deoxy-L-arabinose--oxoglutarate aminotransferase	GTGGGAGGCAAGCTTGCTGTATTTGGGGGAAAGCCTGTACGTGATTCGTTTCTGCCTTATGGAAGGCAGTGGATTTCCAAGGAAGACAAAGAGGCCGTGGAACGGATTTTGGATAGTCCTTATTTAACGACAGGACCTGCCGTAGCTGGTTTTGAGAGAAAAACCGCAGCCTGTACGGGGGCGAAATACGCGGTTTCCTTTTCGAGTGGGACAGCAGCATTACATGCCGCTTGTTTTACAGCCGGCATCAGGGAGGGAGATGAAGTCATCACTTCACCCCTTACCTTTGCTGCCAGTGCCAACTGTATCTTGTACTGTGGTGGAACGCCGGTCTTCGTCGACGTGGATCCCCGCACCTATTTAATTACAGCGGAACATATCGAAGCCGCTGTTACCGAGCGGACGAAAGCGGTCATTCCTGTGGATTTCACCGGACAGCCGGCCGATTATGACGCGATAAGAAAAGTGGCCGACAAATATAACCTGGTGATCATTGAGGATGCTGCCCATGCCCTGGGGGCTTCTTACCGTAATCAAAAAATCGGTGCAATCAGTGATATGACGATGTTCAGTTTTCACCCCGTCAAACCCGTAACGACCGGGGAAGGCGGAATCATTACGACCAATGATGAAGACTGGTACAAAAAGCTCGTTCAATTCCGCACGCATGGGATTACGAAACACGCACCTGATTATATAAAGGAACGGGCGCCATGGGAATATGAAATGCAGTTCCTCGGATTCAACTATCGGATGACTGATATACAGGCCGCTCTCGGAGAAAGCCAGCTGGATCGACTGGATAAGTTCACATCGGTGCGGGAGGCTTATGCGGACTATTATAACAAGGCCTTCAGGAAGATAAAGGGCGTTACGGTCCCTTTTCAAGAACAGGGAGGCCGGTCGAGCTGGCACTTGTATATCCTTAAGCTTGATGAAGAACTGACGGATCGGCGGAAAGAAATTTTTGAAGCATTGGTGGCTGAGAATATCGGAGTGAACGTCCATTACATGCCTGTGTATCAGCACCCATACTACCAGCACCACGGCTATGACCAGGTCAGTTGTCCAACGGCGGAAAAGCTGTATCAACAATTCCTCACCCTCCCCCTTTTTCCCGCCATGGTCCAGCAGGATCTGGATGATGTCATAGAAGCCGTCCGCAAGGTTTTGAACTATTATCAGCGTGGATCTGGTTCATGA	MGGKLAVFGGKPVRDSFLPYGRQWISKEDKEAVERILDSPYLTTGPAVAGFERKTAACTGAKYAVSFSSGTAALHAACFTAGIREGDEVITSPLTFAASANCILYCGGTPVFVDVDPRTYLITAEHIEAAVTERTKAVIPVDFTGQPADYDAIRKVADKYNLVIIEDAAHALGASYRNQKIGAISDMTMFSFHPVKPVTTGEGGIITTNDEDWYKKLVQFRTHGITKHAPDYIKERAPWEYEMQFLGFNYRMTDIQAALGESQLDRLDKFTSVREAYADYYNKAFRKIKGVTVPFQEQGGRSSWHLYILKLDEELTDRRKEIFEALVAENIGVNVHYMPVYQHPYYQHHGYDQVSCPTAEKLYQQFLTLPLFPAMVQQDLDDVIEAVRKVLNYYQRGSGS	PGPT0022785_521	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PEROSAMINE_MODIFICATION,PGPT0022785-per|rfbE-K13010	NA	NA
AK012_02849	894		COG1088	UDP-glucose 4-epimerase	GTGAAGAAATTACTGGAAGATCAGCACGACGTCTGGGTGATTGATAATTTGTCGAACGGAGACGTGGGAAACATAGAGGAGTTCCTTTCCCATAAACGTTTCAAAGCTTTTTATCACGATGATATCCGTAAGGAAGAGGTGATTGAACAGGTCGTCAATGACTCTATGGATATCTGTTATCATCTGGCAGCAAGTATCAATGTCCAGGACAGCATTGACGATCCGGAAACAACGTTCTATAACGATACCGTTGCTTCCTTTCATCTGCTGGAAAGCTGCAGAAAGCACAACGTGAAGTTCGTGTTTATGAGCACGTGTATGGTTTATGATCAAGCTTCCAATCCGCAGGGGATTACCGAAGAGGATCCGGTGAAACCCGCCTCCCCTTATGCCGGTTCTAAAATTGCCGCAGAAAACATGGTGTTGTCTTATTTTCATGCGTATCAGATGCCTGTCACGATCGTACGCCCTTTCAACACGTACGGTCCCTATCAAAAGACAGGGGGCGAAGGCGGGGTTGTTCCTATTTTCATAAAAAAGAAGCTGAATAAAGATCCGATTCAGATATATGGAAACGGTGAGCAGACCCGGGATCTTCTTTATGCCGAGGATTGTGCGAGGTTTGTGGTGGAAGCCGGGCTCCATGAGGAAGCCTATGGGGAAATTTTGAACGCAGGTCTTGGCCGTGATGTGTCGGTGAATCAACTGGCTGAACTGATTGCCGATGGGCGTACATCCATTACTCATATCGAGCACATTCATCCGCAAAGTGAGATTTCCAAGTTGTTATGTGATTATTCCAAAGCGAAAAAGATCCTTGGCTGGGAGCCTGAAGTAGGCTTGGAGGAAGGCATCCGCCGGACAGAGGAATGGATCAAATCCAACCGCATGTAA	MKKLLEDQHDVWVIDNLSNGDVGNIEEFLSHKRFKAFYHDDIRKEEVIEQVVNDSMDICYHLAASINVQDSIDDPETTFYNDTVASFHLLESCRKHNVKFVFMSTCMVYDQASNPQGITEEDPVKPASPYAGSKIAAENMVLSYFHAYQMPVTIVRPFNTYGPYQKTGGEGGVVPIFIKKKLNKDPIQIYGNGEQTRDLLYAEDCARFVVEAGLHEEAYGEILNAGLGRDVSVNQLAELIADGRTSITHIEHIHPQSEISKLLCDYSKAKKILGWEPEVGLEEGIRRTEEWIKSNRM				NA	NA	NA	NA	NA
AK012_02850	1485			hypothetical protein	ATGGATCTTATTGAACAAAAATACTGGTCGGTATATCTGGACTTTCTGGATGATTTTGAATCCCTTCATTATCAAGGGCACAGCATTCCCTACCTTTGTTACTACAGAGGGCTGATACAGGGCAATAAAGGACTTACAGAAATCTACCAGCAGAAGGGGTGGGTTTCTTTCCTGCGCAACCATGTAACAGACGCGCGGGTTGTTCAGCACCGTTTTGACAGTTATAAAGCCCGGTTTAAAAAGAAAAAATCAAGTGGAAAGAAAAAGAAACTCGTGTTATATGACGGATATGGACTTCTCAGACTTCCATCTTCCACTTTATTGAAATTCAGCCGGGCCTTCGACACGCTGTATCTCGTCGATCGGAATACTGGTCCGAGAAAAGAAAGAAAAAAGCCGACGGTCAAATCACTGGATCAATCGGTGTTAGTGAAGAGAACGCCGGGCGGGAAAAAGAAGGTATCCCCCGTTCTTCCTCCCCGTTATTTTGATGAATACAAGATGGACGTAAATAAGGAAGTGCTGCGTCTCCAGAAAGAAGCCAAGGGAATTCTGGAGCGTAAAAAGGCAGAAGGCCACCCGGTGTACAGCATTCCTTATTTTGAAACCACTTTGATGAAGCAGATTGACCAGGTCGTTCACCGTGTGGAACAAATCGGAGCTCTCTTACAGCGGGAACAAGTGGGGTGTGTCATTGTTCCGTATTCGCAGTATATGGAGTCCCGGATCTTTTCTATTTTAGGAGCTGTTCATCACGTTCCTGTAGCTGCTCTGCAGCACGGCATCATTTCCGATGCGTTCGGATATCTTCCGTGCCTCACTGATTATAAACTGGTCTATGGACATTATGAGAAGCAATGGTTCACATCCCGGGGCGTTTCGGAACAGAGGGTCGTGATGATGGGACACCCTCGGTTTGATGAAGTATACAAAGCAGTGAAGACCAATAAAGCCAGGCTCAAACAAAACCTAGGTCTTCCCCTCCATAAGAAAAACCTGCTCATCGTTGTACGGAGAAACAATCAAATGAAAAAGTGGGAGTCGTTTCTGAGGGATCTCACGATTTCAAACCCTGCCAATATGATCATTAAAGATTTTCCTGACCATACCCCTCATGAACTGACCAAAAAATTCCCTTCCACCTTTTATTCCAAAAATCAGCCGTTAAGTGACCTGATCCAGCTCGCGGACGCTGTGGTCTGTTACCATTCAACGACCGGCCTTGAAGGTCTTATGGCTGGAAAGCCGGTATTTATCCTCAATAACAATTATTATGGGTACAGCGGTTATTTTGACCTGCTGGGTCGATTGAAACAGGATGACCCTGTCCTTCTGGCAGGGCTGGTCAAGGCTTTTTGTAAGCGTGGGGCGGTGACGGCCCGGGATCAGTCGTTGATGACGTCCTTCAAACAGCGCGCCTATCCGCTCGGCAATGGTGCGGAAGGGCGGCTTTTATCCTTTATCACAGGGCTTATGAACAGATGA	MDLIEQKYWSVYLDFLDDFESLHYQGHSIPYLCYYRGLIQGNKGLTEIYQQKGWVSFLRNHVTDARVVQHRFDSYKARFKKKKSSGKKKKLVLYDGYGLLRLPSSTLLKFSRAFDTLYLVDRNTGPRKERKKPTVKSLDQSVLVKRTPGGKKKVSPVLPPRYFDEYKMDVNKEVLRLQKEAKGILERKKAEGHPVYSIPYFETTLMKQIDQVVHRVEQIGALLQREQVGCVIVPYSQYMESRIFSILGAVHHVPVAALQHGIISDAFGYLPCLTDYKLVYGHYEKQWFTSRGVSEQRVVMMGHPRFDEVYKAVKTNKARLKQNLGLPLHKKNLLIVVRRNNQMKKWESFLRDLTISNPANMIIKDFPDHTPHELTKKFPSTFYSKNQPLSDLIQLADAVVCYHSTTGLEGLMAGKPVFILNNNYYGYSGYFDLLGRLKQDDPVLLAGLVKAFCKRGAVTARDQSLMTSFKQRAYPLGNGAEGRLLSFITGLMNR				NA	NA	NA	NA	NA
AK012_02851	999	pseB	COG1086	UDP-N-acetylglucosamine 4,6-dehydratase (inverting)	GTGTTTTATAAAGATAAGGGCATTCTGGTGATTGGTGGGACGGGCACAATCGGAAAGCGGATTGTGACCGCACTTTTGAAGGAATCCCCTAAATATATCAAGGTGTTAAGCCGTGATGAATATAAGCAGTACCAAATGGAAAAGGAAATAAAATCAGATACGCGCGTACGTTTTATCCTCGGAGACATCCGTCATTATGAAACCGTCTATGATGCTATGGCTGACGTCGATTATGTGTTTCATCTGGCGGCTATGAAGCATGTCCCCTTCTGTGAAAACAATCCTTACGAAGCGGTTTTGACGAACATAGCAGGGACGCGGCATGTCGTGCGGGCAGCGAAGGCCCGCCGTGTCAAAAAAGTCGTATTTACCAGTACAGATAAAGCGATATCTCCGACAAATACGTACGGGGCCTCGAAATTGATCGCTGAACGTCTCCTTTTATCGTCGAATCAGAATAAATCCGAGGGAGATACGATCTTCGCCAGTGTCCGCTTTGGAAATGTCATGGGATCCAGGGGGTCTGTCATTCCTCTATTTGTGAAACAGATGGTAGAAAAGAAACGAATTACCGTGACGGATGACCGGATGTCCCGGTTCATGATGACCATTGATGAAGCAGCCTCCTTAACCATCCGTTCGCTGACCAGAGCCCAGGGAGGAGAAATTTTCGTTCTGAAAATGCCGGTGATTTCTCTTCAGGATCTCATCGAAGTGGTCAGGGAGGAAGTATGCATCAAGTATGGATTGAACCCCTGTGACATCACGGTTCAGGAGATCGGGTTAAGAGCGGGCGAAAAAATGTATGAGGAATTGATGACCTTTGAAGAATCCACCACCGCGTGGGAATTTGATGATATGTACGTCATTCCAGGCGAGACGCAGCGGACCTATCCGGATGCCGTAAGAGCTCAAGTCAGAACGTACAGTTCAAGTGACCAGAACCCGGTCTCTAAAGAAGACCTGCGCAGGATTGTTCAGAAACAGAATTTAATTTAA	MFYKDKGILVIGGTGTIGKRIVTALLKESPKYIKVLSRDEYKQYQMEKEIKSDTRVRFILGDIRHYETVYDAMADVDYVFHLAAMKHVPFCENNPYEAVLTNIAGTRHVVRAAKARRVKKVVFTSTDKAISPTNTYGASKLIAERLLLSSNQNKSEGDTIFASVRFGNVMGSRGSVIPLFVKQMVEKKRITVTDDRMSRFMMTIDEAASLTIRSLTRAQGGEIFVLKMPVISLQDLIEVVREEVCIKYGLNPCDITVQEIGLRAGEKMYEELMTFEESTTAWEFDDMYVIPGETQRTYPDAVRAQVRTYSSSDQNPVSKEDLRRIVQKQNLI	PGPT0018935_713	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-PSEUDAMINIC_ACID_MODIFICATION,PGPT0018935-pseB|wbjB-K15894	NA	NA
AK012_02852	1242			hypothetical protein	ATGAGGAGCAGAAGGCGTAAGTGGCTGTATCTACCGATCGAAACCAAAGTGAGGGAACAGGATGCGAAGTTACTGCTCGCCTATCATGCTGTGAATCATGGGTACCATGTCGTGATTGGGGAGCACCGGATGGTGGAGCAGGCAGCCGAAAAGCTGCCGGCCGGTATTTTCCTTGCCAAAGGTTATCCGAAAGGGTATGCCCGAAGAGTGGTGGAATCCTTAAAGAAATATCACCATAAAATCGTGGAACTGGATGAAGAGGGTTTCTTCATCCCAGACGCTTCGAGGTACATCAGGCAGCGGATGAGGAAGGCTCATATCGACCAGCTCGATCATGTGTGCTGCTGGGGAGAGCATCAAAAACAGGTCCTGACAAACGCTTATCCTGAGATAGGGAAACGCTGTACGGTTACCGGTAACCCGAGATTCGACCTGTTAAATGACGTCTATAGAGAACTGTATGACCCGGATGTGAAAGCCATTCAGGCGGTTTACGGCTCCTATTTCCTCATCAATACCCGGTTTACGTTTTACAATCCGAGAGGCGGTTTAAGGGAAAACCCCGCTCTGCCGGAAACGCAGAAAATAAAAAGACTCTGTCATTCTTTTATTCGGCTGGCTCGAACGTTAAGCCGGACCTATCCTGATAAAAACGTGATCTTCCGCCCTCATCCGGGGGAAAGCCTCGACGTTTATAAGGAAGCTTTCAAAGGATTCACCAATATTCACATCCTCCGCGAAGGCAGTGTGATTCACTGGATTCTCGCTGCCGAGGCTGTCATTCACAATGGCTGTACGACCGGCATTGAAGGAGTGGTGCTGAGAAAGCCCGTCATTTCCTACCAGCCGGTCACTCATCCATCAGGCATGATGGATTTTCCCGACCGGCTGAGTATTCATGCGTACACAGACAACGAAGTCATAAAAATCCTCCAACAGTCTACAAAGCCTGAACTGCCCGATCTATTTTTCCGTTATTATGGTCATCCAGCTGTTCCTTCCGCCTGTACGGCTGTCCTGAACGTGTTGAACAACCAGAAGCCGGCAGAGTTTTCTATCCCTTCATTAAAAAGAGTCCGTTTCGTCAAAGATCACCGGGAAAAGATGAAACGGTTATTCCCATCCTTTTCAATAGAAGAAATCGACCGCTTCTTCACCGGGCTGAACAAGCTTACCAAAGAGAACCCTTCCTATCGTATCCACCCTTTGTCGGATCGGTTATACCTCCTCGAGTCTCTGTAA	MRSRRRKWLYLPIETKVREQDAKLLLAYHAVNHGYHVVIGEHRMVEQAAEKLPAGIFLAKGYPKGYARRVVESLKKYHHKIVELDEEGFFIPDASRYIRQRMRKAHIDQLDHVCCWGEHQKQVLTNAYPEIGKRCTVTGNPRFDLLNDVYRELYDPDVKAIQAVYGSYFLINTRFTFYNPRGGLRENPALPETQKIKRLCHSFIRLARTLSRTYPDKNVIFRPHPGESLDVYKEAFKGFTNIHILREGSVIHWILAAEAVIHNGCTTGIEGVVLRKPVISYQPVTHPSGMMDFPDRLSIHAYTDNEVIKILQQSTKPELPDLFFRYYGHPAVPSACTAVLNVLNNQKPAEFSIPSLKRVRFVKDHREKMKRLFPSFSIEEIDRFFTGLNKLTKENPSYRIHPLSDRLYLLESL				NA	NA	NA	NA	NA
AK012_02853	984	mhqA_2	COG0346	Putative ring-cleaving dioxygenase MhqA	ATGAACGAACTGAAAGGGATTCACCATGTCACCGCGATTACGAGCAGTGCGGAAAAGAATTATGAGTTTTTCACTTATGTGCTTGGGATGCGTCTTGTGAAGAAGACCGTCAACCAGGATGATATTGAAACGTATCATTTATTTTTTGCGGATGATCGGGGAAATCCCGGGACGGATATGACGTTTTTTGATTTTCCGGGCATCCCGAAAGGATCTCATGGAACGAATGAAATTTCGACAACATCGTTCCGGGTGCCCGGCGATGACGCTCTGGACTACTGGGTCAGACGCTTTGACCGTCTGGATGTGAAGCACCAGGGGATTCAGGAGCGGTTTGGGAATAAGGTTCTGCCGTTCGTCGACTTCGATGATCAGTCGTATGAATTAATTTCGGATGAAAAAGACGAAGGGGTGGCCGCCGGTATTCCATGGCAGAATGGACCTGTACCAAATGAGTATGCGATTACTGGATTAGGCCCGTTGTATGTCCGCGTAGATAAAGCGGATTACTTCAAGGAAATGCTCCGGAAAGTGATGGGTTTCCGCCAAACCGCAGAAGAAGGAGCCTTTACGAGGTTCGAAGTCGGGGAAGGTGGAAACGGAGCTGCCGTGATTGTCGAATACAACGCTGTCCTCCCGGATGCGCGGCAGGGCTTCGGAACGGTCCACCATGCGGCTTTCCGCGTGCATGACCGTGAGGCGCTCGAAGAATGGATTGGCCATCTTCCGAAGTTCGGTTTCCGCACATCCGGTTTTGTAGACCGGCACTATTTCGGATCTCTTTATGCGAAGGCAGCGCCGCAGATTTTGTTCGAGTTTGCGACCGACGGGCCTGGTTTTATGTGGGATGAGCCGTATGAAACCCTGGGTGAAATGCTCTCCCTCCCACCGAAGCTGCAGCCGAAGCGTGAAGAGATTGAGAACTACGTCCGGCCGATAAATACCGTCAGAAGTACAAAGACCATCGAAAAAGAATACGAATGA	MNELKGIHHVTAITSSAEKNYEFFTYVLGMRLVKKTVNQDDIETYHLFFADDRGNPGTDMTFFDFPGIPKGSHGTNEISTTSFRVPGDDALDYWVRRFDRLDVKHQGIQERFGNKVLPFVDFDDQSYELISDEKDEGVAAGIPWQNGPVPNEYAITGLGPLYVRVDKADYFKEMLRKVMGFRQTAEEGAFTRFEVGEGGNGAAVIVEYNAVLPDARQGFGTVHHAAFRVHDREALEEWIGHLPKFGFRTSGFVDRHYFGSLYAKAAPQILFEFATDGPGFMWDEPYETLGEMLSLPPKLQPKREEIENYVRPINTVRSTKTIEKEYE	PGPT0028510_174	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-HYDROQUINONE-DERIVATE_RESISTANCE,PGPT0028510-mhqA|mhqE|mhqO|yaiA-K15975	NA	NA
AK012_02854	1395	tcyP	COG1823	L-cystine uptake protein TcyP	ATGGAAACATTTCTTGTTCTTTTGAACATTGTACTTATTTCAGCTCTTATATTCGTATTGATCCGCATGCAGCAGAAACACGTCTCCTTCAGTAAGCGTGTCTTCAGCGGTCTTGGTCTCGGTGTGCTGCTTGGGGTATATCTGCAGACCGTATTCGGTGCCGACTCTGCCGTCACCTCCCAGACAACAGATTGGTATAACATCGCCGGACGCGGCTACGTGCGGCTGTTGATGATGATCGTCATCCCGTTGATCATGGTTTCGATCATCCAGTCCATCATCAATTTGGAAAAAACATCAGAACTCGGACGCATTTCCCTCTGGATTATCGGAACATTAGTCGGAACAACCGCCATCGCCGCCCTTGTCGGTATTGGAAGTTCCTTTGTCTTCGATTTGAACGCCAGTGAGATTGAAGCCGGCCAGGCCGAGTCGGCCCGCGGAACATATTTGGAAGAAACGCTGACAGAAGTTCAGGATCTGTCCACACCTGAAAAGATTCTGGAATTCATTCCGGCCAATCCCTTCCTCGATATGACCGGTGATCGTGCCACGTCCACCATCGCTGTCGTCATTTTCTCTGCGATTGTCGGGATTGCTGTTCTCGGTGTGCGCCGCAAGCAGCCTGAACATGCCAAAACCTTCATCAATGTCGTCAACGCTTTTTATGCAGTCGTCATGCGTATCGTTACCCTCGTTCTACGCCTGACACCCATTGGTATTCTTGGTTTGATGGCTACAACGGTCGCCCAAACCAATATCGCCGGTATTTTAGAGCTTGGTAAATTCGTCCTCGCCTCCTATGCCGCCCTTGCTGTCATGTTCATCATCCATCTGGTTCTGATCGGAGCATTTGGTTTGAACCCATTCACGTATTTGAAAAAAGTTCTTCCGGTTCTCACCTTCGCGTTCACGTCCAGATCCAGTGCCGGAACGATTCCATTAAATATATCAGCTCAGAAAAACAGCCTTGGTGTTGATGAAGGAGTTGCCAACATGTCGGCGTCCTTTGGAGCAACGATCGGGCAGAACGGCTGTGCCGGCATCTATCCAGCAATGCTGGCCGTGATGATTGCACCGTCTGTCGGAATTGATCCACTCAGCCCCGGATTCCTCGTGCAGCTTGTGCTGATTGTCGCCATCAGCTCCTTTGGTGTTGCAGGTGTCGGAGGCGGAGCGACCTTTGCTGCCTTGATCGTCCTTTCTTCCATGAACCTGCCTGTCGCACTTGCGGGACTGCTCATTTCCGTAGAGCCGCTGATCGACATGGGCCGGACGGCACTCAATGTCAACGGCGCTATGACATCAGGGACATTGACTTCCCGTGTCTTGAAAAAGTTGAATATCAAACGCTTCAACGATAAGGAAGCCGTTGAAAAAGATATTGCTGTTTAA	METFLVLLNIVLISALIFVLIRMQQKHVSFSKRVFSGLGLGVLLGVYLQTVFGADSAVTSQTTDWYNIAGRGYVRLLMMIVIPLIMVSIIQSIINLEKTSELGRISLWIIGTLVGTTAIAALVGIGSSFVFDLNASEIEAGQAESARGTYLEETLTEVQDLSTPEKILEFIPANPFLDMTGDRATSTIAVVIFSAIVGIAVLGVRRKQPEHAKTFINVVNAFYAVVMRIVTLVLRLTPIGILGLMATTVAQTNIAGILELGKFVLASYAALAVMFIIHLVLIGAFGLNPFTYLKKVLPVLTFAFTSRSSAGTIPLNISAQKNSLGVDEGVANMSASFGATIGQNGCAGIYPAMLAVMIAPSVGIDPLSPGFLVQLVLIVAISSFGVAGVGGGATFAALIVLSSMNLPVALAGLLISVEPLIDMGRTALNVNGAMTSGTLTSRVLKKLNIKRFNDKEAVEKDIAV				NA	NA	NA	NA	NA
AK012_02855	1329			hypothetical protein	ATGAAACAAATGAAAAGAATTCTGGTCACATTGATGGCGCTGATGCTGCTTGTCCCATCCGTCGCCATGGCCGATCACCACAAATCAGCACAGGCGGAGGCGGCCGATCTAAGATCGACGCTTGATCAATTATTGTCCGAGCACTTTGTGCTTGCTACAACATTTATGATGAAATCATATGAAGACGCACCGGACGCTGATGAAGTATGGAATAAGCTTGATCAAAACGCACAGGATATGACACCAGCGATCGCTTCCATTTATGGAGATGAAGCAGCTGCACAGTTTGAAGAAATCTTCCGCGGACATAACGATTATTCCGATGGTTTTGTAAAAGCTGCGAAAAACGATGATCCAGAAGCCCGTAAGATGGCCGAAGAGGAAGTTGAAGAATTTACAGAAGAATTCAGTACGTTCCTTGCAGCAGCAACCGAAGGAAATCTTTCCAAAGAAGCCGCTAAAGAAGTATTAAAAGCTCACGAACAAGACGTTGTTAACGTTTTTGATCACTATGTAAACGAAGACTACCAGAAATCCTACACGGCTTTCCGTGAAGGTTTCAACCGTATGTTCGACATCAGTAAGGCGCTCTCTTCTGCCATTGTAACGCAGATGCCGGATTCCTTTAATGGAACAAAAGCAGATACACCAGCAGCAGATCTGCGTTCCAACATGAATGCTCTTGCTTCTGAACACTTCGCTTTAGCCGTTCTTGAAATGCAGAAGGGCTTTGACCAGGCGGAAGACTACGACTTCGTAACATGGGCGGAGAACCAGCACACCGCTGATTTCAAAGCTGCTATTGGTTCGATTTATGGGGAAGAAGGCGCTGCCCAGTTTGAAAAAGTTTGGCAGCAGGATCATATCAACGCCCAGTCTGATGTAATTACAGCAGCTCTTGAAGAAGATGAAGAAGCAAGAAAAATGGCTGAACAAAGCTTGATGGCCTTCTCTGAGGACTTCGGTGCCTTCCTTGGTACAGCTACCGATGAAAACCTTCCAAAAGAAGATGCTGTTGAAGCGGTATGGGCTCACGAAGAAGATGTCCTTCAGACCTTCGATCACTACGTGAAGGAAGACTATGAAGCTACTTACGACTCTTTCCGTGAAGGATATGCTTTCATGTTCGGAATCGGGGAAACATTGAGCAGTGCTGTTGTGACACAGATGCCGGATCAATTCGGTGGAGAAGTTATGCCGGAAGAAATGCCTAAGACAGGCTTTGGTGGAGCGAGCGATCAAGGAGTGAACACATGGATGTGGATCGCCTTCGGAGTTATCGCTGCAGCTTCTGCCGGTTTCATTTCCATCCGCAAAGCCAAGCAGTAA	MKQMKRILVTLMALMLLVPSVAMADHHKSAQAEAADLRSTLDQLLSEHFVLATTFMMKSYEDAPDADEVWNKLDQNAQDMTPAIASIYGDEAAAQFEEIFRGHNDYSDGFVKAAKNDDPEARKMAEEEVEEFTEEFSTFLAAATEGNLSKEAAKEVLKAHEQDVVNVFDHYVNEDYQKSYTAFREGFNRMFDISKALSSAIVTQMPDSFNGTKADTPAADLRSNMNALASEHFALAVLEMQKGFDQAEDYDFVTWAENQHTADFKAAIGSIYGEEGAAQFEKVWQQDHINAQSDVITAALEEDEEARKMAEQSLMAFSEDFGAFLGTATDENLPKEDAVEAVWAHEEDVLQTFDHYVKEDYEATYDSFREGYAFMFGIGETLSSAVVTQMPDQFGGEVMPEEMPKTGFGGASDQGVNTWMWIAFGVIAAASAGFISIRKAKQ				NA	NA	NA	NA	NA
AK012_02856	978			hypothetical protein	ATGAAGCTCGATTGGAAAATGTACTTCACAATACTGGGCCTGACAGCGCTCGTTATGGTCGCCTATGAATTCAATGCGTTCACTTTTTGGAAGGACGATTCGGATGTTGTCCGGATTGAAAATGCTTCACAGGCGTCCTATCAAGAAACGGATGTACCGGAGGATCAAAAAGAAGAGATTTTGGACGGCGAATTTACAGTGATTAATAAAAACGGAAATATGAGGTCCGCTGACGTCGTAAAAAATCAAAAGCAGGAAGAAACAGGGATCATCCCTGCTACTATATCCATCCCTGCCATTGACGTAGAAGCCGCTGTAGAATCGGTCGGTATTCTGGATAATGGACAGATGGGTGTCCCGGAGGACCCGCAGAAAGCCGGGTGGTTTGAACCGGGTACGGAGCCCGGGAGTACCGGGAACTCTGTTATCGCGGGCCACGTGGACAGCCGGACAGGTCCTGCTGTTTTTTATGACTTGGATCAACTCGAAAAAGGAGACGAGATTACCGTCTCCGATGAAAACGGGGAAGAAAAGACCTATGTAGTCGAAAAACTCGAAAGTTATCCGATGGATGACTCTCCCATTGAAACGATTTTCGGATCTTCCGATGAAAAACGTCTCAACCTTATCACCTGTACAGGTGAATTTCTCAGCAGTATCGGAGGGCACGCGGACCGTCTCGTCGTGTATTCAAAACTGAAGGAACCGACGCAGAATCAGGAGGATATCCAGCCCCCTTCCAACGTGCAGATCCAGGGAACGATGATTACCTGGCATGCCGTACGTGAGGATTATGTGGCAGGATACCGCGTCTACCGCAGCCAGGACGGGGAAACATTCGAAAAGGTCGCCAGTATTTCCAAACATGAACGGAAATCCTATACCGATCCCGAAGCAGCCGATTACTCCTACTACGTAACGACAGTCAATGAAGAAGGCACAGAATCGAAGCCCTCCAATACAGCAGGAAAAAAATAA	MKLDWKMYFTILGLTALVMVAYEFNAFTFWKDDSDVVRIENASQASYQETDVPEDQKEEILDGEFTVINKNGNMRSADVVKNQKQEETGIIPATISIPAIDVEAAVESVGILDNGQMGVPEDPQKAGWFEPGTEPGSTGNSVIAGHVDSRTGPAVFYDLDQLEKGDEITVSDENGEEKTYVVEKLESYPMDDSPIETIFGSSDEKRLNLITCTGEFLSSIGGHADRLVVYSKLKEPTQNQEDIQPPSNVQIQGTMITWHAVREDYVAGYRVYRSQDGETFEKVASISKHERKSYTDPEAADYSYYVTTVNEEGTESKPSNTAGKK	PGPT0024075_407	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_SORTASE,PGPT0024075-srtA-K07284	NA	NA
AK012_02857	1980	pbp	COG0768	Beta-lactam-inducible penicillin-binding protein	ATGAAAAAATGGATGATCCTAGTCGTCCTTCTGCTCACTGCCGCACTTACCGCCTGCAGCAGTCAGCCGGAGCCGCAGGATGCGTTCTCGGCGTATATGGACGCATGGGAACAAAAAGAATATGAAACGATGTACAGCTATTTAAGTGAACCATCGAAAGAAGCGATCACGAAAGAGGATTTTGTGAGCCGCTATCAAGATATTTATGAAGGGATCGGCGCTGAGGAGGTATCGATTACATATGATTTTCCCGAAGAGGAAGAAAGCTATGATCAAGAGGATACACCTTCCTACGAATATAAGGCTTCGGTAGATTCCAGAGCCGGCGTGATTGAATTCAGCCATCAGGCGGGTCTTGTTTATGAAGAAGGGGAAGAGGAAGACCGCTGGGCGGTGGAATGGCAGCCTGACCTCATCTTCCCACAAATGGAAGAAGGCGATACGGTGAGGGTCACCCGACTGGATTCCAAACGCGGGGAAATTTTTGACCGCGACGGGCAGGGGCTGGCTGTCAAAGGTCCGGTGAAGGAAGTTGGTCTCGTACCAGGGAAGATGGAAGAGGAAGAAGCTTTGAAGGAAGGGCTTGCGGACATTCTTAAACTCTCTGTTGAACAAATCGATCAGAAATTGGATCAGTCCTGGGTGAAGGATGACGTGTTCGTGCCGCTTGCGATGATCCCTGAAGATGATGAGGAGAGACTGACGGCTCTTGAAGAGCTGCCAGAAGGCTATATGATCAATGATGGAAAAGAAGCACGTGTTTATCCTTTAGGAGAAGCAGCCGCGCATTTGACCGGCTATATGGGCACTATTACGGCTGAAGAGATGCAAGAACGAGAAGGAGAAGGCTACAGTGTGAACGATAACATCGGGAAATCCGGCTTAGAACTGGTCATGGAGGATGAGCTCCGTGGCGAACCGGGCTGGCGTGTGTATATTGCCGATGAGACAAATGAAACGAAAGAAGTGCTCGCAGAACAGGAAGCGAAGGACGGGGAAGACGTCACGCTGACTATTTCGTCGGGTGTCCAAAAGGAAATTTATGAACAATTGAAAAACGATTCGGGAACCGCTGCGGCGATCCACCCTGAAACCGGAAGGGTGGAGGCTCTTGTGAGCACTCCTTCTTACGATCCGACAGCCCTTTCGTTAGGTCTTGGAGGGGAAAAAGTGACCTTGAACAAGTTCTCAAGAACGTACTCGCCGGGGTCAACGTTTAAGCCGATTACTGCAGCAGTTGGATTGGAAACAGGAACGATCAACCCGGAAGAGGAGCTGGCGATATCCGGGGAAACGTATGAGGCAGATGCCGGCTATTCTGTCACCCGTGTACCGGGAGCAGCCGAAGACAGCCGGGTAAATCTCCGCGATGCGCTCGTGCGGTCGGATAACATTTACTTCGCCCGTCAGATCGTGGACATCGGTGGAGACTCTTTCCTGGAGGAAGCAGCAGGATTTGGTTTTGGTGAGGATCTGCCGTTTTCCTATCCGATAGAAGCATCCCAGTTGATGAACGAAGATACATTTGAAAGTGAATCCCTGCTTGCGGCGACCGCCTATGGGCAGGGACAGGTGCAGATGAGCGCTGTCCACCTGGCTGCTGCCTACACGCCGTTCATTACCGATGGGACACTGATCAAACCGCAGCTTCTCCTGAATGAGGAAGAACCTCAGGCCTGGAAAGAAGACGTCGTCAGCGCGGAAACGGCTGCTCTGATCCGTGATGATTTGACAGCGGTCGTCCAGAATGAAAACGGGACCGCCTATGAGCCGGTTGTGGAAGGCATCTCTCTTGCAGGAAAAACAGGGTCAGCGGAATTGAAGAAATCCCCGGATGAAGAGGGACCTGTGAATGGATGGTTTGTGGCCTGGGATACCGAAGATCAGGATCTGCTTGTGGCGATGATGATGGAAGATACAGAAGAAGGCAGTCACGATGTGGTGCCTAAAGTGAAGAATGTCTTCGAAAATTTGAAATAG	MKKWMILVVLLLTAALTACSSQPEPQDAFSAYMDAWEQKEYETMYSYLSEPSKEAITKEDFVSRYQDIYEGIGAEEVSITYDFPEEEESYDQEDTPSYEYKASVDSRAGVIEFSHQAGLVYEEGEEEDRWAVEWQPDLIFPQMEEGDTVRVTRLDSKRGEIFDRDGQGLAVKGPVKEVGLVPGKMEEEEALKEGLADILKLSVEQIDQKLDQSWVKDDVFVPLAMIPEDDEERLTALEELPEGYMINDGKEARVYPLGEAAAHLTGYMGTITAEEMQEREGEGYSVNDNIGKSGLELVMEDELRGEPGWRVYIADETNETKEVLAEQEAKDGEDVTLTISSGVQKEIYEQLKNDSGTAAAIHPETGRVEALVSTPSYDPTALSLGLGGEKVTLNKFSRTYSPGSTFKPITAAVGLETGTINPEEELAISGETYEADAGYSVTRVPGAAEDSRVNLRDALVRSDNIYFARQIVDIGGDSFLEEAAGFGFGEDLPFSYPIEASQLMNEDTFESESLLAATAYGQGQVQMSAVHLAAAYTPFITDGTLIKPQLLLNEEEPQAWKEDVVSAETAALIRDDLTAVVQNENGTAYEPVVEGISLAGKTGSAELKKSPDEEGPVNGWFVAWDTEDQDLLVAMMMEDTEEGSHDVVPKVKNVFENLK	PGPT0023945_178	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-PENICILLIN-BINDING_PROTEINS,PGPT0023945-pbpC-K21467	NA	NA
AK012_02858	615			hypothetical protein	ATGGAAGATATGAGTTTGTTAGCTGTTTTAGGACTGGGACTGGCGCTTGGTATTAAGCACGCATTGGAGCCGGATCATGTGATTGCTGTATCGACATCCGCGGCAAAAAGCAGGAAAGTGCTTCAATCAGCGATGACCGGTATCTATTGGGGGGTCGGGCATACCTTGACCATGTTTGTATTTGGGATGGCGGTCATCCTCATGCAGGAGCAGATCCCTGAAACGTGGGCACAGTCGCTCGAAGCTCTCGTTGGAGTGATGTTGATTTTAGTTGGAGCAACAACGTTTCTTTCTTATAAAAAGTCTTCTTCAAAACAAGAAGGGCGCAGTTATAAGACATCCGTTTTTATGGGGATTGTACACGGATTGGCAGGAAGTGCAGCCCTTGTACTATTAACGCTCAGCTCTGTGGAAAGCGCAGCAGAGGGAGCCGCATTTATTTTTATTTTTGGAGCCGGAACAATCGTGGGGATGCTTTTGTTTACAACTGTAATTGGTCTTCCTTTTGTACTTACGACTAAAAAGTGGACGATAAATAAAGGATTGACTCAGGCCGCAGGGATTATCAGCGCTGTATACGGTGTTTATTATTTATCAAGCATTTATTTCGGATAA	MEDMSLLAVLGLGLALGIKHALEPDHVIAVSTSAAKSRKVLQSAMTGIYWGVGHTLTMFVFGMAVILMQEQIPETWAQSLEALVGVMLILVGATTFLSYKKSSSKQEGRSYKTSVFMGIVHGLAGSAALVLLTLSSVESAAEGAAFIFIFGAGTIVGMLLFTTVIGLPFVLTTKKWTINKGLTQAAGIISAVYGVYYLSSIYFG	PGPT0004550_1546	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004550-rcnA-K08970	NA	NA
AK012_02859	813	ureD1	COG0829	Urease accessory protein UreD	ATGACACACACCGGCGTCCTTCACCTGAAAGGAGAAAAGCGCCATAGTCGAACGATCCTGTCTGGTTTTTATGAAGGAGCTTTCAAATTCACCCGTCCCGTTTACCTGGATGAGGAAACGTTGTCCGTTTATATGATTCATATCGGCGGAGGCTATGTAGACGGAGATTCTTATGTGAATGAAGTGACACTGGAAGAAGGAGCGGAGTTGAGCGTAACGAGTCAGGCGGCATCAAAAGTGTACAAAACAAGATCGAAGCCGGTGGAGCAGGTGACAAGGATTCGTCTCGCAGCCGGCAGTACCCTCGATTATTGTATGGACCCTCTTATCATGTATGAGGGAGCCCGGTTCAATCAAACGACAATCGTTGATATCGATGAAACGTCATCCTTTTTCTACAACGATATTGTAACACCGGGGTGGTCCCATAATGGGGAGCCATTCCGGTATGATTGGTACCGGAACAAATTGAAGGTGACCTCCGGGGGCACCCTGGTTCTATATGATCACCTGCTGCTTGATCCTGGACTAGGAGTAGAAGGGGTGTTGGAACTGGAGGGGCATTCGCATGTTGGATCCGTTGTTCTCTTTCATCCGGAGGCAGGCGTGGATTTTGTTGAGAAGTTGTCTGACCATCTTGAGCAGCAGTTTCCTTATGTCCGTTTTGGTCTTTCATCGATGGATAAAGGGGGCGTCGTCATACGGATGCTGGGGGATAATACTCAGCAGCTCGAGACTGTGACAGCTGCTGTTCATACCTTTTATCGAGAAACGTTATTAAAGAAAAAAGAAATCATCTGGCGGAAGTATTAA	MTHTGVLHLKGEKRHSRTILSGFYEGAFKFTRPVYLDEETLSVYMIHIGGGYVDGDSYVNEVTLEEGAELSVTSQAASKVYKTRSKPVEQVTRIRLAAGSTLDYCMDPLIMYEGARFNQTTIVDIDETSSFFYNDIVTPGWSHNGEPFRYDWYRNKLKVTSGGTLVLYDHLLLDPGLGVEGVLELEGHSHVGSVVLFHPEAGVDFVEKLSDHLEQQFPYVRFGLSSMDKGGVVIRMLGDNTQQLETVTAAVHTFYRETLLKKKEIIWRKY	PGPT0000970_1727	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000970-ureD-K03190	NA	NA
AK012_02860	618	ureG		Urease accessory protein UreG	ATGATGGAACCGATATGTATTGGAGTGGGAGGCCCTGTCGGGGCGGGAAAAACGATGCTTGTCGAACGGCTCACTCGTGAGTTGAAGGATGAATTGAATATGGCTGTCATCACGAACGATATTTATACAAAAGAGGATGCGCAGTTTTTACTTAAGAATGGAGTGCTTCCCGGTGACCGCGTCATTGGAGTGGAAACTGGAGGTTGTCCTCATACAGCGATACGAGAGGACGCTTCGATGAACTTTGCGGCTATTGATGAGCTGAAGGAGCGTCATCATGACCTGGATTTAATTTTCGTCGAGAGCGGCGGGGATAATCTGGCAGCGACGTTCAGCCCTGAACTGGTGGACTTTTCCATCTATATTATTGACGTGGCTCAAGGAGAGAAGATCCCCAGAAAGAGCGGACAGGGAATGATTAAATCCGATCTTTTTGTCATTAATAAAACCGACCTTGCCCCGCATGTCGGAGCAGACCTTGATGTGATGAGACAGGATACGATTACAGCCCGCGGACAGAAGCCTTTCGTGTTTACCAACTTAAAAACGAAAGAGGGGCTTTCGGAAGTCATTGAATGGATACATGAGCACGCCTTTCTTAAAGGACTGCAGGCATGA	MMEPICIGVGGPVGAGKTMLVERLTRELKDELNMAVITNDIYTKEDAQFLLKNGVLPGDRVIGVETGGCPHTAIREDASMNFAAIDELKERHHDLDLIFVESGGDNLAATFSPELVDFSIYIIDVAQGEKIPRKSGQGMIKSDLFVINKTDLAPHVGADLDVMRQDTITARGQKPFVFTNLKTKEGLSEVIEWIHEHAFLKGLQA	PGPT0000985_1660	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000985-ureG-K03189	NA	NA
AK012_02861	687	ureF	COG0830	Urease accessory protein UreF	ATGATGATTAATTGGATGCCCCTGCTGCAGCTCAGCGATTCGCAATTTCCATCCGGAGCTTTCTCACATTCGTTTGGATTTGAAACGTATATTCAGCAGGATGTCATCACAGATGCAGAAAGCTTCAAGGAAGCCTTGACCGCTTTTTTGGATCGGCAGCTGGCGTTCAATGACGGTCTGGCGTTCTGGCTGGCTTATCAGGATGTTAAAAACGGTGGAGTGGATCTCACCCTCGAACTGGATCACCTTCTTTATGCGTCTACACCAGCAAGAGAAACCAGGGAGGGCAATCAGCGGGTTGGAAAGCGGCTGGCAAAGCTATGTATGGATTTGTACCCATCCTATTCATTGGAGCAGTATCATAAGTGGTTGATGGAAAAAGAAGGTTACGGACACCCGGCTCTTGTGTTCGCCATTGTTTATGGGGAAATGGAAGTATCTGGATCATCAGCCTTGGAGACGTTTTTATTCACCTCATTGAGCTCAATGGTGCAGAACGCTGTGCGAGGGATACCTATCGGACAGACGGATGGGCAGAAAATCCTCGTCGCTCTGCAGCCCCGTATACAAAAAACAGCCCGGCGTATCAAGGAAGCTTCGATCGAGGATCTGGGAGCGGGAAGTCCGGGTCTGGAAATCGCCCAGATGATGCACGAGCGTCTGCACGTACGGTTGTTTATGTCTTAA	MMINWMPLLQLSDSQFPSGAFSHSFGFETYIQQDVITDAESFKEALTAFLDRQLAFNDGLAFWLAYQDVKNGGVDLTLELDHLLYASTPARETREGNQRVGKRLAKLCMDLYPSYSLEQYHKWLMEKEGYGHPALVFAIVYGEMEVSGSSALETFLFTSLSSMVQNAVRGIPIGQTDGQKILVALQPRIQKTARRIKEASIEDLGAGSPGLEIAQMMHERLHVRLFMS	PGPT0000980_1204	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000980-ureF-K03188	NA	NA
AK012_02862	450	ureE		Urease accessory protein UreE	ATGATTATTGAAAAGGTAGCAGGCAATCTTTCAGAAACAAAAAAACGGGCTCCGCACGTCGAATATGTAAAGCTGGAAAGTGAACAGCTTCTCAAACGAGTCCAGCGTGTAACAACGGACCACGGCCGCGAAATAGGTATCCGGCTGGGTAAAAACAAAGAGCTTTCCGATGGGGACATTTTACATATCGATGAGAAAAATATGATTGTCGTAAGCGTAAATAAGGATGATGTGCTTGTCATACGACCAAATAATATCCGCGAAATGGGAGACATTGCTCATCAGCTGGGTAATCGGCACATTCCTGCTCAGTTCGAGGGGGAGGAAATGCTTGTCCAGTATGACTATTTAATCGAAGAGCTGTTAGAGAATGAAGGCTTGGACTACTCCAGGGAAGAACGGAAGGTGCCTGAGCCATTCCGGTACATCGGCCACAGTCATGATGATTAA	MIIEKVAGNLSETKKRAPHVEYVKLESEQLLKRVQRVTTDHGREIGIRLGKNKELSDGDILHIDEKNMIVVSVNKDDVLVIRPNNIREMGDIAHQLGNRHIPAQFEGEEMLVQYDYLIEELLENEGLDYSREERKVPEPFRYIGHSHDD	PGPT0000975_1548	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-UREA_USAGE	N-AQUISITION-UREA_METABOLISM,PGPT0000975-ureE-K03187	NA	NA
AK012_02863	1710	ureC		Urease subunit alpha	ATGAGCTTTGAGATGCCGCGTCGTCAATATGCCGATATGTTTGGACCGACAAAAGGGGATGCGGTTCGGCTGGCTGATACGAACCTTTTTATTGAAGTGGAAAAAGACTATACCACGTATGGAGATGAAGTGAAATTCGGAGGAGGCAAGGTCATCCGTGACGGGATGGGGCAGCACCCTCTTGCATTAAGAGATGAAGCTGTGGATCTGGTCATTACCAATGCGGTCATTTTGGATCACTCCGGCATAATCAAAGCTGATATCGGTATAAAGGATGGGTGGATCCAAACGATTGGGAAAGCAGGAAATCCACTGTTGATGGATGGTGTCGATATCGTAATCGGGGCCTCTACAGAGGTCATTGCAGCTGAGGGGATGATTGTAACGGCAGGTGGAATTGATGCCCATGTCCATTTCATTTCACCCCAGCAGATTGAAACGGCTTTGTCTTCCGGTGTTACAACAATGATCGGAGGAGGGACAGGACCTGCCACAGGTACGAAGGCAACCACCTGCACCCCTGGATTATGGAATATTCAGAGGATGCTGGAGGCAGCAGAAGAATTTCCGATGAATCTCGGTTTCTTAGGAAAAGGAAATACCACAAGTCCAGAAGCCATTCAGGAGCAGATTGAAGCTGGAGCCGTAGGGCTGAAGCTTCACGAGGACTGGGGAACGACAGCGGCGACGATTGATACATGCCTGCAGGTGGCTGATCAATTTGACGTTCAAGTGGCCATCCATACAGATACACTGAATGAATGTGGATTCGTAGAACATACGCTGGAAGCTATCGGGGGCCGCGTCATCCATACCTATCATACAGAGGGCGCCGGCGGCGGTCATGCTCCTGACATTATTGAAGCAGCCGGATATTCCAATATTCTTCCATCGTCCACAAATCCGACCCGTCCCTACACCGTGAACACGCTGGAAGAGCATTTGGATATGCTGATGGTTTGTCACCATCTGGACCCGAGTGTTCCGGAGGATATCGCATTTGCGGATTCCCGGATCCGTAAAGAAACGATCGCGGCAGAGGATATTATGCATGACCTTGGAGTGTTCAGCATGATTTCCTCTGATTCCCAGGCGATGGGAAGAGTCGGGGAAGTAATCATACGGACATGGCAGACGGCCGATAAAATGAAAAAACAGCGCGGACCTTTAGATGGGGACCATGAGTACAGTGACAATTTCCGTGCGAAACGCTACGTAGCGAAATATACGATAAACCCCGCGATAACGCATGGCATATCTGACTATGTCGGCTCTGTAGAAGAAGGGAAGTTTGCTGATTTGGTGCTCTGGGATCCCGCATTTTTTGGAGTGAAGCCTGAGCTGATTTTAAAAGGCGGCCTGATTGCCCAGAGTTTAATGGGTGATCCGAATGCAAGCATACCCACCCCACAGCCGGTGATGTACAGAGAAATGTTCGGTTCCCTCGGCAAAGCGAAAACCTCTACAGCTATGACATTTGTATCTCAGTCCGCCTATCAAAAGGGAGTCCATCAAACACTTGGATTGGAAAAAATCGTCCGGCCGATATCAGGAGTCCGGAACTTAACGAAAAAATCGATGATTCATAACGGCGAAACGCCGTCCATTGAAGTAGACCCGCAGACCTATGTCGTCAAAGTGGATGGGGAGACGGTCCACTGTGAACCGGCGGAAACGGTAGCTATGGGACAGCGGTATTTCTTATTTTGA	MSFEMPRRQYADMFGPTKGDAVRLADTNLFIEVEKDYTTYGDEVKFGGGKVIRDGMGQHPLALRDEAVDLVITNAVILDHSGIIKADIGIKDGWIQTIGKAGNPLLMDGVDIVIGASTEVIAAEGMIVTAGGIDAHVHFISPQQIETALSSGVTTMIGGGTGPATGTKATTCTPGLWNIQRMLEAAEEFPMNLGFLGKGNTTSPEAIQEQIEAGAVGLKLHEDWGTTAATIDTCLQVADQFDVQVAIHTDTLNECGFVEHTLEAIGGRVIHTYHTEGAGGGHAPDIIEAAGYSNILPSSTNPTRPYTVNTLEEHLDMLMVCHHLDPSVPEDIAFADSRIRKETIAAEDIMHDLGVFSMISSDSQAMGRVGEVIIRTWQTADKMKKQRGPLDGDHEYSDNFRAKRYVAKYTINPAITHGISDYVGSVEEGKFADLVLWDPAFFGVKPELILKGGLIAQSLMGDPNASIPTPQPVMYREMFGSLGKAKTSTAMTFVSQSAYQKGVHQTLGLEKIVRPISGVRNLTKKSMIHNGETPSIEVDPQTYVVKVDGETVHCEPAETVAMGQRYFLF	PGPT0000965_1349	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000965-ureC-K01428	NA	NA
AK012_02865	318	ureB		Urease subunit beta	GTGAAACCAGGTGAGTTTGTCCTGAGGTCTGAAACCATCCGGTGTAATGTAGGGAAGGAAGTAGTGGAAGTCACCGTTTTAAACCGGGGAGACCGGCCGGTGCAGATCGGTTCCCATTTTCATTTTTTTGAGGTGAACCCGTTCCTGCAGTTTGACCGTGAAGATGCGCGGGGCCGCCATTTAAACATTCCGGCCGGCACGGCTGTCCGCTTTGAGCCGGGCGATGAAAAAACAGTCCCCCTCGTTGCTTTTTCCGGAGAAAGAAAAGTATATGGATTGAACCAACTTGTCAATGGGAGGCTTGAAGATGAGCTTTGA	MKPGEFVLRSETIRCNVGKEVVEVTVLNRGDRPVQIGSHFHFFEVNPFLQFDREDARGRHLNIPAGTAVRFEPGDEKTVPLVAFSGERKVYGLNQLVNGRLEDEL	PGPT0000960_989	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000960-ureB-K01429	NA	NA
AK012_02866	303	ureA		Urease subunit gamma	ATGAAACTGACGTCGCGAGAAAGAGAGAAGTTGATGATCGTACTTGCCGCCGATTTGGCACGAAGAAGGCAGGAGCGCGGGTTGAGGTTGAATTACCCTGAAGCGGTATCGATCATTACTTATGAAGTGGTGGAAGGAGCCAGGGATGGAAAAACGGTGGCTGAGCTTATGCAGTTTGGAGCTGCTGTATTGACCCGGGAAGATGTGATGGAAGGCGTTCCTGAAATGATTCCTGATATCCAGGTGGAAGCAACGTTTCCTGATGGTGTCAAGCTGGTCACAGTCCACGAACCTATTCGATGA	MKLTSREREKLMIVLAADLARRRQERGLRLNYPEAVSIITYEVVEGARDGKTVAELMQFGAAVLTREDVMEGVPEMIPDIQVEATFPDGVKLVTVHEPIR	PGPT0000955_1200	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000955-ureA-K01430	NA	NA
AK012_02867	240			hypothetical protein	ATGAGCGAAAACGAGCGTCAGCTGAGTAAAGATGCATCCATTTGCACGAGATGGGCTTTATCCTTAACGGCCGTGTTCATCATTATTTTCCCAGGCATTATGTTTTTGACGGGGTATCAGTACAGCCTTGAATTCTTTAAAGGGTGGACATACTTGTCCTTTGGGTGGCTGATCATCGCAGGATTGATGATTACGCTGAGGCCTGTCATTGAACTGGTAAGGGATCGGAAAGCCGGATAG	MSENERQLSKDASICTRWALSLTAVFIIIFPGIMFLTGYQYSLEFFKGWTYLSFGWLIIAGLMITLRPVIELVRDRKAG				NA	NA	NA	NA	NA
AK012_02868	1557	sglT_3		Sodium/glucose cotransporter	ATGCTTCCCACTTATGCTGGTTATTCGTTGCTGCTCGTTTTTGGATTGTTTTTCACTGTCGTTACGCTTGTGATGCAGCGTAGAAAAAAACAGAAAATGACCGCTGAACAGTTCAGTACTGCTGGCAGAAGCATTGGTGTCGGTCTGGCAAGTGCGTCTATCATTGCTGCCTGGACATGGGCGGCTACGTTAATGATGTCCTCGGCTACAGGGTTTCAGTACGGCATCAGCGGACCGTACTGGTATGCCGCTGGTGCCTGTATCCAGGTGCTTCTTTTCGCAATTGTGGCTATCAACTTGAAGAAGCGGGCTCCGAAAGCTCACACCTTTCTTGAATTCATTGCCCAGCGCTTTGATAAGAAGAACCACCGCTTGATTATGGGCTTTGCATTGATGACCAACATTCTTGTCACCGCGATGGTCGTTCTTGGAGGAGCCATTGCTCTAAACTCTTTGACAGGTATGAATGTTTATGCCGCCGCCTTCTTGATCCCTCTTACATTCACGATCTACACCATGATTGGTGGGTTGAAAGCGTCCTTCATCGCTGATTATTTCAACACCGTTATGATTTTTGGCATTCTGGCTGTTTTCGCTGCCGCCATCTATGTGAAGTTCGGCATTGATCCAATTTATGAAGGACTTCAGAACATGCCTTCCTCCGCCTCGATGCTGACGATGGCGTCTATTCCAGGCCTTTTGTTCGGGATGGTCAATATCATTGGTAATTTTGGAGCGGTTTTTGTAGATCAGGCATACTGGCAGCGGGCCATTGCAAGTAAGGATAGTGCCGCTTCCAAAGCTTACATATACGGAGGACTCGCCTGGTTTTCCATTCCGTTTGCAATTGCTACCTTTCTTGGTGTCAGCGCGGCTGGTCTTGGGGTGGCGGTATCGACACCGGATGCTGCAGCTCCGGAAATGGCCGCCTACCTGCTGGGAGGTATCGGTTCCATTTTATTTTTAGCCATGCTGTTCATGGCTGTTATGTCTACAGGAGCTGCCGAACTTACAGCAATTACGAACATCATTGTCACGGATATCTACCGGACGTCAATCCGGCCGGATGCTTCCAGTGAACAGTTATTATCAATGTCGAGAAAAGTTACTCTTGGATTCGGTTTAATGATGGGGGTTCTTTCTATTCTCTTGTTTAAGGTTGGCATAAGTCTGAGCTTTGTTTATATGGCGATGGGGATTTTCGTCAGCGGTGCTGTCATCCCGGTCACCCTCGGTCTGCTTTGGAAAAAGGCGACCAATGCCGGGACCTTTTACGGTGCGGCTTCCGGGCTTGTGCTCGGTGTTACAGCATGGCTGGTTTCCGCCTCCACTATCTATGGTGAAATCACCGTGCAGTCGCTTGGGGAGTTGGAGCCGATGTTCTTCGGTAATATCACAGTTTTCTTAGTGAGTGGAGCCATATCCATTGGTCATGCTCTTTATGCGAATCAATCGTTTGATTTCGATTCCTTGAAAGATAAGTTCCACAGTTTTGATGAAGAAACAGATTCCGTAGAGGAGGATTCTTATGAGCGAAAACGAGCGTCAGCTGAGTAA	MLPTYAGYSLLLVFGLFFTVVTLVMQRRKKQKMTAEQFSTAGRSIGVGLASASIIAAWTWAATLMMSSATGFQYGISGPYWYAAGACIQVLLFAIVAINLKKRAPKAHTFLEFIAQRFDKKNHRLIMGFALMTNILVTAMVVLGGAIALNSLTGMNVYAAAFLIPLTFTIYTMIGGLKASFIADYFNTVMIFGILAVFAAAIYVKFGIDPIYEGLQNMPSSASMLTMASIPGLLFGMVNIIGNFGAVFVDQAYWQRAIASKDSAASKAYIYGGLAWFSIPFAIATFLGVSAAGLGVAVSTPDAAAPEMAAYLLGGIGSILFLAMLFMAVMSTGAAELTAITNIIVTDIYRTSIRPDASSEQLLSMSRKVTLGFGLMMGVLSILLFKVGISLSFVYMAMGIFVSGAVIPVTLGLLWKKATNAGTFYGAASGLVLGVTAWLVSASTIYGEITVQSLGELEPMFFGNITVFLVSGAISIGHALYANQSFDFDSLKDKFHSFDEETDSVEEDSYERKRASAE				NA	NA	NA	NA	NA
AK012_02869	372			hypothetical protein	ATGTATGAATCACTGCACCACGTATCTGTCGTTGTGACGGATATCGATCGAGCCAAACATTTTTACGGAGAGGTGCTCGGTTTTGAGGAAAGTCCGGACCGTCCTGATTTCGACTTTCCCGGCGCCTGGTATCAGGTAGGGGCAACGCAGATTCACTTAATTGCTTATGAAGAAGGTAAAACGCTGCGCGGGACAACAGACATTGACTCCCGTGATGGACATTTTGCGGTAAGGGTCCGCGATGTTGAAGCGTTTATTGAGCGGATGGAGAAACATGAAGTGGAGATGCTGAATAAGCCTGTCAATAAAACAGAATGGCATCAGGTGTACATCACAGACCCCGATGGCAACATTATTGAATTTAATAGATAA	MYESLHHVSVVVTDIDRAKHFYGEVLGFEESPDRPDFDFPGAWYQVGATQIHLIAYEEGKTLRGTTDIDSRDGHFAVRVRDVEAFIERMEKHEVEMLNKPVNKTEWHQVYITDPDGNIIEFNR				NA	NA	NA	NA	NA
AK012_02870	1656	opuD_6	COG1292	Glycine betaine transporter OpuD	ATGTTGGAAATATTTTATTGGAAAAATATCGTTATATTTCGTTTTTCAGCGGGTATGCAGAAATTGGGAGGAGATAGCATGAATAAAAAGATGATTGATTACAAAATATTCATTCCATCACTTTTACTGATGGCCGCCATCAGTATCCCTTTCGCTCTGTATGAATCACAGTCTTTAGAATTTATGAATACGGTCTTTGATTCGATTGTGGCATCATTCAGCTGGGGATACTTATGGTACGGCATTTTACTGGTAGCCGCAGGTCTCTATTTAGCCTTTTCCAAATACGGAAAAGTGGTGCTTGGGGATCCAAAGGAGAAACCACGGTTCACCCTTTTTGAATACGCTTCGATTTTAGTCGCGATGGGAGTCGGATCGACGATCATGCGGACAGGGATGCTGCAGTGGACATCTGTCGCCAACGACCCGCCCGCAGGAGTAGAAGCTGGTTCAGCAGAGGCTCTGCTGTGGGGAAATGCCTACAGTATGTTTTTATGGGGCTTTCAAGTATTCGCTATTTTCGTCATGATCGCACCAGCCATGGGGTACATACTGCACGTAAAAAAACGCCCGTTGATGAGGATTTCAGAAGCCTGCCGGATTCTGTTCGGGGATAAATTCACCGACGGTATCGGAGGCCGGCTGCTGGATGTGTTGTTTTTAATCAGTATCCTTTCCGGAGCAGCTGTAACGCTCGGACTTGGTGCGCCGATTATTACGCAGAACCTGTCTCATCTGCTCGGTATCCAGGTGAATTTCACACTCACGATTATTGTTACGATCGTCTGGGTCTTTTTATTTTCCCTGAGTGCTTACCTGGGCATTGAAAAAGGAATCAAGCGGTTGAGTACATGGAACATGTATATTGCCGGATTTTTAGCGCTGTTTATTCTCGTCGGTGGTCCCGGTGTTTTCATCCTGAATTACTTTACGGACAGCGTATCCATGCTGTTGACCAACTACCTGGACTTTTCCTTGAACACCGAATCCGTCTATCAGGGGGAAACCTCACATATTCAAAGCAACACGATTTTCTGGTTTGCCTACAGTGCTACCTGGGCCATGCTTCACAGTGTGTTCGCAGCAAAAATTTCACGGGGGCGGACGATTAAGGAAATGATTCTCACCTACCTGCTTGCTCCAACGCTGCTTTCCTGGCTGGCGACAGGGGTGCTTGGCGGGCTTGGTGTCCACCGCTATCTGACTGGAAATCTTGATATTCTGAACTTTGTGGAAGAAGAAGCACGTATGGCAGCGATACCGGAGATTTTAAATACGCTTCCTTTCGGTGAAATCGCCATTGTCATCTTTATGATTGTCGCCCTGATTTTCTTGACGACGACCCTTGATTCGACAACGTATACGATTGCCGCTTATACAAGTACGAGGGATATGAGCCGCTTTGAGCCGCCGAAGATGCTGCGGATTATCATTGCAGCTGTCATCACCGCTTTTGCCCTGATTCTGATGCGGATCGGTGGTCTGCCGCCGCTGAATGTCGTTTCAGGAATTATGGGTCTGCCGATCATCGTCATCCAATTTATTCTCATTTACGCAGCGAAGAAAATGATCGATACCGATCAAGCCTGGCTTACGAACGTGCGTCAAAAAGATAAGCCGTCGACGGCTTATGAAGCGAAGCGCAAGGTGGAATAG	MLEIFYWKNIVIFRFSAGMQKLGGDSMNKKMIDYKIFIPSLLLMAAISIPFALYESQSLEFMNTVFDSIVASFSWGYLWYGILLVAAGLYLAFSKYGKVVLGDPKEKPRFTLFEYASILVAMGVGSTIMRTGMLQWTSVANDPPAGVEAGSAEALLWGNAYSMFLWGFQVFAIFVMIAPAMGYILHVKKRPLMRISEACRILFGDKFTDGIGGRLLDVLFLISILSGAAVTLGLGAPIITQNLSHLLGIQVNFTLTIIVTIVWVFLFSLSAYLGIEKGIKRLSTWNMYIAGFLALFILVGGPGVFILNYFTDSVSMLLTNYLDFSLNTESVYQGETSHIQSNTIFWFAYSATWAMLHSVFAAKISRGRTIKEMILTYLLAPTLLSWLATGVLGGLGVHRYLTGNLDILNFVEEEARMAAIPEILNTLPFGEIAIVIFMIVALIFLTTTLDSTTYTIAAYTSTRDMSRFEPPKMLRIIIAAVITAFALILMRIGGLPPLNVVSGIMGLPIIVIQFILIYAAKKMIDTDQAWLTNVRQKDKPSTAYEAKRKVE	PGPT0021960_813	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021960-TC_BCT-K03451	NA	NA
AK012_02871	732	zupT_2		Zinc transporter ZupT	GTGGAAGGAGCGTTTATCATCATGGTGATGTCCGCCATGGCTACGGGAGTGGGAGCACTTCCGGTCCTGTTGATCCGACGGGTATCCCACCGGAAAATGGACAGCATACTCGCCTATACGGCTGGTGTGATGATGGCAGCATCGACGTATGGCCTTATCCCGGCTTCTTTGAAACTGACGAATTTGACGATCCTTTGTTTCGGTGTGCTTGGGGGTGCGCTGATCCTGAACCTGCTTGAATATTTTCTCCCGCATGTGGATATGGATCATAAGCGAAAGGACCCCGTACTCCCGCACCAATCGCTGATGCTCGTGGCGGCGATGACGCTGCATAATATTCCGGAGGGACTGTCGGTCGGCGCCAGTCTGGCCAGTCAAGTCGAGCATCTCGGAGTAGTTGTTGCCTTCTCCATGGGCCTTCAGAACGCGCCGGAAGGATTCCTTGTGGCTTTGTTTCTGCTTCATCAGCATGTTCCTAAACGAACAGCCATCTTTATGGCGCTGCTTACAGGCGGAATCGAGTGCGTCTCCAGTTTTATCGGATTTTACGTCGTACATATGTCGTTGTTTCTCGTTCCTTATGGACTCGCTTTTGCAGCGGGTGCCATGTTGTTTATCGTTTATAAAGAGTTGATTCCGGAAACCCACGGCCATGGCTATGAGCGCCTGGCTACATTCTCCTTTCTTCTTGGGCTCCTCAGCATGATCGGCATTGTAGAGTGGTTCCGCTGA	MEGAFIIMVMSAMATGVGALPVLLIRRVSHRKMDSILAYTAGVMMAASTYGLIPASLKLTNLTILCFGVLGGALILNLLEYFLPHVDMDHKRKDPVLPHQSLMLVAAMTLHNIPEGLSVGASLASQVEHLGVVVAFSMGLQNAPEGFLVALFLLHQHVPKRTAIFMALLTGGIECVSSFIGFYVVHMSLFLVPYGLAFAAGAMLFIVYKELIPETHGHGYERLATFSFLLGLLSMIGIVEWFR	PGPT0004250_2621	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
AK012_02872	774			hypothetical protein	ATGAGAAAAAACACAGGATGTGGAAAAGGACACAAAAAGTGTCCGGACCTGCCTGCCAGCGACAAAGCGAAATCGAAAAGCCTCTACACAGAATCTGCATCTTTCGGCGGTGGTGAAGAGCAGACGGTCGTGCTGGGAGACGTCATCATTCAGTCGTTGACTGAAGCGGATTTCCACTTACCGACACCTGCACGTGCGATTAAAAACATTGAGAAAAACATGACGTTGACTCAATGTAAGGCCATTCCAGTAGTTGGACGCCGCGACCGTGTAAAACTGTTTGTAGAAGGAGTCATCCACAAAAACATCCAGTACGTGGAGGATGCTTTCGGATACGTGCGTGACTACAGCATCGATATCCCGTTTAAAGCTTATGACCTTGTTAACCTCCAGGAGGATATTGATTACCCATTCGGCTTCGAATACAGTGTTAAAGAAAATGTTCTTCAGTACCGTGAGCTTTCGGATGACGGTATGGGATCTGACCGCTGTGAGTTTGGATCAGTGACGTTTGAAATCAACAACGAACCGATCCATTGCAAACTGCTTGCCCATGCTGTCAACCAACTTGACCTTGTCAGCGATTTTGACAAGTGGGGACGCTTCAGCAAAGTGACCGAAAAGATGGATATTGTCCTCGTTATCAAGTTGACCCAGAAACAGCAGCCTGACTTCCCGGACACTCTTCCATCACCAGATGATGATGGAGACACGCAGGCAGCTGCTCTTCCACAATCCGCCTTCAATCAATTTAGAAATTACCTCGGACGTTAA	MRKNTGCGKGHKKCPDLPASDKAKSKSLYTESASFGGGEEQTVVLGDVIIQSLTEADFHLPTPARAIKNIEKNMTLTQCKAIPVVGRRDRVKLFVEGVIHKNIQYVEDAFGYVRDYSIDIPFKAYDLVNLQEDIDYPFGFEYSVKENVLQYRELSDDGMGSDRCEFGSVTFEINNEPIHCKLLAHAVNQLDLVSDFDKWGRFSKVTEKMDIVLVIKLTQKQQPDFPDTLPSPDDDGDTQAAALPQSAFNQFRNYLGR				NA	NA	NA	NA	NA
AK012_02873	1095			hypothetical protein	TTGTTTAAGCCGGACGGTGATGAAGGGAGGGAGAACGACAGGATGGCAGACTACCATGACGCACAGGTGCATGAAGCGGAAGTGCGAAAGCGCAGGTCCACCCTTGAAAGAGGGTTCACTTCTATGCTTGGCGAATCCAGTGAGCATTCTTTTGAAGGTTCAGAGGCAGAGGACAGCCCGGATGTCCTGCCTGAGATTTTTGCTCTTCTGGATGAATCCTATGACTCTTTCCAAGACGAAAGGCCGGTCTCTGATGGTGAAGAATACCCTTCTATCCTTGGTGATATTGCCGCTTCCATAGAAGAGTCTTCCAGTGAGTTCAAGCATCATTACCTTTCTCAGAAAGCCTTGTCGGAATCGATGATTCCCTCTTCTGCTGACATAGAAGCAGAGGATGAGAGAGACCTCTTTTCTGAAGATGGTGGTACGGATTTTTCTTCCTTTACGGGGGAGGAAAGCTGTGAGGATCCTTTTGAAGCGAGTTCGATTGACGACATGTTCGAATGCGAATCCTCTTCCAGTTCTTCGTCATCCTCCTCCTCAAGCAGCACGGTTATTTGTAGTTGTTCAGATGATATCGAGGAAGAGGCCGGGGAGGAAAGGATGGCGAAAGTCCCTGTCCTTTTAACAAACGTTCCTCTTCATTGGAACATCCAGGAAACGTTTGCTGCAGGGTATGACTTTGACTCCATTACAGAAACAGCATGGACATTGAATGATATTGACATGCGTATCTTTCCTAACGCCTCTGTGGTTTTGTATGGACGGTATCGTGTAACCATCGATTATCAAGTGAATGGTGAGATCAAGCGGGAGTATGTACTCCTCCCATTTGAGGAAACGGTATACGTGAAATGGGTGGTTCCACCGGAACTCCCTTCCAGTTTTGAAAAAGAATACGAGTCTGAAGAAGCAGAGATCCATATGGAAATTCAACATACCTATTCTTCTTCTGTGGAGAAAGAAGTGGTGGAAATGGCCTTCATCACTCACCAACAGAAGGGGAAAGATAAAGAGGTGTATGTACAGGGCGTCTTTCAAGGGCAGCTTTATCTTTATCAGCAGCAGTACTGTCTGCTGGAGGTGCTGGAGTAG	MFKPDGDEGRENDRMADYHDAQVHEAEVRKRRSTLERGFTSMLGESSEHSFEGSEAEDSPDVLPEIFALLDESYDSFQDERPVSDGEEYPSILGDIAASIEESSSEFKHHYLSQKALSESMIPSSADIEAEDERDLFSEDGGTDFSSFTGEESCEDPFEASSIDDMFECESSSSSSSSSSSSSTVICSCSDDIEEEAGEERMAKVPVLLTNVPLHWNIQETFAAGYDFDSITETAWTLNDIDMRIFPNASVVLYGRYRVTIDYQVNGEIKREYVLLPFEETVYVKWVVPPELPSSFEKEYESEEAEIHMEIQHTYSSSVEKEVVEMAFITHQQKGKDKEVYVQGVFQGQLYLYQQQYCLLEVLE				NA	NA	NA	NA	NA
AK012_02874	735	csxC_1		Exosporium protein C	ATGACAGGTATTTTTAAAGAAGAGGATGGGTTGGCGCATCACTGTGAAAGGAAGCCGCACGTCAGTATCGGAAAAATCATTACCAAGGTTCCTGTCGTGCTGGCGGAATTGAACCTGCAGATTCACGTCAGTGAAACGATCACTTTTCCAGAACCGGTGCTCGAAATCAAAGATATTAAAAAACGCGTGCACTTAACGCAGTGCCGACTGCTGCTGCCATCTAAGAAACTGTTCATCAAAGGTTTTGTACGTAAAAATATTCAATACGCCAGTCCCTGCAGTGAAATCGAACTGCCGACAGAAACAAGTGTCGCGTCAGATCTCCACTCCTTTACTGTCGATATCCCATTTGAGCAGGTGACGGAAATCAATGAATTTCTCTCGATGCCGGTGATGCCTAAAAACAATACGAGGGAAGAATTCGATTTCATCCGTTCCAAAACGCTGCCGGACGGTTTTCCTGAAAAGGATGAACTGATGGGGAATGATATCTCCCAGTATCATCAGGAAAGCAGCCAATTTTATAATGAGCTGCCATTCTGCGAGCTGCTGTCCAGCAGGATTGTAGAGTGGGATGAAGCGCTGGATCGTATGCCGCTTCCGGGTCATGCTCCTTTTCATGAAGGGGTTTTCACTCAGATGGAAGAAAAAATGGTGCTGGATATCCGTTTGAATGTTCTGCAGAAGCAGCAGATCCGTGTCGCTTCTACGACAAACGATGACTGTATGATGTGA	MTGIFKEEDGLAHHCERKPHVSIGKIITKVPVVLAELNLQIHVSETITFPEPVLEIKDIKKRVHLTQCRLLLPSKKLFIKGFVRKNIQYASPCSEIELPTETSVASDLHSFTVDIPFEQVTEINEFLSMPVMPKNNTREEFDFIRSKTLPDGFPEKDELMGNDISQYHQESSQFYNELPFCELLSSRIVEWDEALDRMPLPGHAPFHEGVFTQMEEKMVLDIRLNVLQKQQIRVASTTNDDCMM				NA	NA	NA	NA	NA
AK012_02875	762	csxC_2		Exosporium protein C	ATGAGAAAAAATGACCGTCATTGTGTAAACCTGAATGAATCTGCTTCTATTGAACAGTGCACAAATACGAGTACGGATACTGCGATCACTCCAACTGGGGAGCGTATCGTCCGAATTCCGGTTGAACTGGGAGCCTATAATGTTACGACCAACCTCGTCGCCAACATTTCGTTCCCTGATCCGGTTCTTGAAATTAAAGATATTAAAAAACGGGTGATTATTACCCAGTGCCGTCTGCTTACTCGTACGTCCGGCGGAGATGATGATCAGTTTTCTACCGGCCCGTTCCCGCTGTTTCTGAAGGGATATGTACGTAAAAACATCCAATACGCAACGCCTTCCCGCAATGCTGACGGGGAATGCATTTCTTCTGAAATCAAGTCCCTTACTGTAAAAGTTCCATTTGAGTGCATGACAACTGTTGATCTTGAGTCACCAGCTCAGCTTCCACTTCGTAACCGCAGGGATGAATACGACTTCTTCAGAGCCCAGGACCTTGGCACCGGCTATCCTGAAAAAGATCAGTATTTGTCCAGCGACCTTTCCCAATTCCATCAGGAAAGCTTCCAGGGTTACAATCAACTTCCATTCTGTGAGCTTGTTTCCAGTCAGATCCTTGAGTGGGACGAAGCGACCGATCGTCAATTTATCGGCGACGGACCGGTTGATGAAGGATACTTCCAACACATGGTAGAAAAAATGCAGGTACGATTCACCATCAAAGTGCTTCAAAACCAGCAGGTGCGCGTAGACGCTCTGTAA	MRKNDRHCVNLNESASIEQCTNTSTDTAITPTGERIVRIPVELGAYNVTTNLVANISFPDPVLEIKDIKKRVIITQCRLLTRTSGGDDDQFSTGPFPLFLKGYVRKNIQYATPSRNADGECISSEIKSLTVKVPFECMTTVDLESPAQLPLRNRRDEYDFFRAQDLGTGYPEKDQYLSSDLSQFHQESFQGYNQLPFCELVSSQILEWDEATDRQFIGDGPVDEGYFQHMVEKMQVRFTIKVLQNQQVRVDAL				NA	NA	NA	NA	NA
AK012_02876	1173			hypothetical protein	ATGAAAAACGAGCATATTTTCTCTGTAGATATCGGGAACAGCTGGTATAAGATCCTCGCATCCGATGATGGGGGATTGATGGATTATCAAATACCGAACGCCATTGCTTTATTTGACGAAGAATTTTACGAAATGCCGTATGACGAAGAAGACGTGGATTATGAAGAAAACATGATTGTGGAAATTAAAAGTCCAGCCATCCAGGACCGCCGGGATATTTATTACATCGGCAAGTCTGCGGTCAAACAGAGAAATGTCAGCCTGACTTCTTTTAACAATCAGAAGGTCGATGAGGAACGGACGTACATCCTCCTCTTTGCCGCGGCTGCTTACCACGCCCTGCTTGGCAGTGGTTCAAAAAAAGATGTCGATTATACGATCGACCAGCTGGCTGTTTCTCTGCCGACGACGCAGTACAAACGCAGGAAGGATACACTGAAGAGCCGGCTTACCGGGACCCATACGATCATTTTTCATAAAGTCCCAGGTCTCAGAGAGCCGAAGGAAGCGGTCGTTACCCTTTATATTGAAGATGTCATCGTCGGCGCAGAAGGAGCCCTCGCTTATTTAGCTCTGACCCGGGATCCAGAAACGCTCGCTGTCTCTGATGAGTCCCTTGTGAAGGAATCGGAACGCGGCATCATTATCGGAGACCTCGGAGGGGATTCCGTTGACTTTGTCGGTATCAAACATAATAAACCGGTCGCTTCCGTGGAAGGTGAGCCCTTCGGCATCAACCCTTTTCTTGATACCATCATACAAAAAGTCAGCCAGAATGAGCTGTACAGCTTCAATTCCAGATCAGAGCTGGAGGAAAAGCTGGCGCGGGGCCAGTCGGAATGGTATGTAGAACCTTTTGCCGGCGTAAAAAAAGACATCAGCCGATACATTCTTCCCCAGCTGCGGCTGATGGCTGTGAAGTACTTGGAACACTTTGACCGCGTCCGCACAAGTTCCCACGAAATCAAAGGGGCTGCCCGCTACATCGCCGTCGGAGGCGCAGCTCAGATCGCCGAACGCCAGATCCGTGAAGCCGCTGTAGTATGGAGCGAAAAAGGACGGCCGATTGAATTGATGTTTCCGGAAGACATGGCCAAATTGAATGTGCGGGGGCTGATGATTCTTGCTGGCATGCAGCTCTTCAGTAAAAAACAGACCGCTGACAGGTCCTAA	MKNEHIFSVDIGNSWYKILASDDGGLMDYQIPNAIALFDEEFYEMPYDEEDVDYEENMIVEIKSPAIQDRRDIYYIGKSAVKQRNVSLTSFNNQKVDEERTYILLFAAAAYHALLGSGSKKDVDYTIDQLAVSLPTTQYKRRKDTLKSRLTGTHTIIFHKVPGLREPKEAVVTLYIEDVIVGAEGALAYLALTRDPETLAVSDESLVKESERGIIIGDLGGDSVDFVGIKHNKPVASVEGEPFGINPFLDTIIQKVSQNELYSFNSRSELEEKLARGQSEWYVEPFAGVKKDISRYILPQLRLMAVKYLEHFDRVRTSSHEIKGAARYIAVGGAAQIAERQIREAAVVWSEKGRPIELMFPEDMAKLNVRGLMILAGMQLFSKKQTADRS				NA	NA	NA	NA	NA
AK012_02877	372			hypothetical protein	ATGTCACACACCTACCGTGATTATTTCAACGAAACCGTTGTCACCATTCCGGACAAATATATAGACGTCAGAACCGGACACTCTGAAGCAGTCGAGGCGAATGTGAGGAAGGAACTGGCCTATCATGCGGAAAATAATACGCTCCAGCACTTTCTTCTTTCTGCCCTGCATCAGTACTTATCCGCACCAGGAGAAGGACGCCCCTCCGGAGAAGATCCTGTACTCAGAGAGCTCCGCACGATCAAAGAGATGCTCACGAGAGGCACCCGGCCTTCCGGCGCTCCAAGCAGCTACTCCGCCCCTGCGCTTCCTTCTCCCGGTTTGATCGATCAAAAAGAACTGGAAGACATGTTGGAAGCCTTCGGAGGATAA	MSHTYRDYFNETVVTIPDKYIDVRTGHSEAVEANVRKELAYHAENNTLQHFLLSALHQYLSAPGEGRPSGEDPVLRELRTIKEMLTRGTRPSGAPSSYSAPALPSPGLIDQKELEDMLEAFGG				NA	NA	NA	NA	NA
AK012_02878	540	cotZ		Spore coat protein Z	ATGAGTTATGATTATGAAAGCTCAAGTTACAGTTATGACCATAAACATAAAGACCACTGTGGAAAGTCTAAAAAAATGAAGCATTACAAAAACTGTGTGGAAGATGTACTGGAAGCGATTGTTTACGCTCAGGATAAAGTGGAAGATGACAGCTGCCACACGTCATGCCAGCAGTCGATTGACTCCCTGCTCGGCGATCGTAAAGTAAAGAAGAACACCGTGCCTGTCATCCTGTACTGCGGCTGTGATCCTTTTAAGGGAACAGGGGTGACGACCTATTCATGTCATGCAGAAAAAGAAACATTCAAGTGTGTTCATACACACTTGTTTAAAGTGAAGGACGTTCATAATGGATGTGCGGTTCTCGAACTGCTTGTTTTTAAATCCGACTGGAAGAGCGACGGAAAGCACAGACATTCTGCATGCAGCCAGATTGATGGGAAAGCGGTTCGTGACCTTGTAGGTACAGGCATCTGCATCACCGTGGATCTATCCTGCTTCTGCGCGGTTACCTGTCTCCCGGCTGTCCGCCTCCATTAA	MSYDYESSSYSYDHKHKDHCGKSKKMKHYKNCVEDVLEAIVYAQDKVEDDSCHTSCQQSIDSLLGDRKVKKNTVPVILYCGCDPFKGTGVTTYSCHAEKETFKCVHTHLFKVKDVHNGCAVLELLVFKSDWKSDGKHRHSACSQIDGKAVRDLVGTGICITVDLSCFCAVTCLPAVRLH	PGPT0025235_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025235-cotZ-K06344	NA	NA
AK012_02880	1110	mmgD	COG0372	Citrate/2-methylcitrate synthase	ATGGATAAAATGACAACGTTTCAACCTGGATTGAACGGAGTGATTGCTGCGGAAACGAAGCTTTCCTACCTGGATGTAGAGGCAGAGGAAATTGTTATCCGCGGGTATGATCTGATTGAGCTGGCTGAAAAACAGCAGTACATCGACCTGATCCAACTGCTTCTACACGGCCGCCTCCCTACCCTTTCAGAACAACAGGAGCTGGAGGCAGCCTTAAAAGAAGAAGCCCACCTTTCCGACAGTTTGGTTGAACTATTAGAGAAGCTTCCTAAAGACACTCATCCAATGGATGCATTACGGACCGGTATTTCCGCTCTCGCCGGATACGATAAAAACCTCGGTGAACGAATCAACCTGGAGAAAACTGTACTTCGTCTACTGGCTAAAATACCGGCGATTACTGCCGGCAGTTACCATCTGCTGCATCAGCAGAGCATCGTCGCCCCTGATCCATCTCTGTCCTACAGTGCCAACTTTCTGTACAGGCTGACAGGACGCACGCCGGATGAGCAGGAGGCTGCCATCTTTGACCAATCCTTAATGGTCTACAGCGAACATGAAATGCCGAATTCCACCTTCACCGCCCGAGTGATTGCCTCCACCAATTCCGACTTATATGGAGCGCTCACAGGCGCCGTTGCTTCTCTTAAGGGAAACCTTCACGGCGGAGCCAATGAAGCCGTCATGCATATGCTGCTGGAAGGTGGTTCTGTCGAAGGTTTCCGACGTCTTTTGCTGGATAAGCTCTCTCGCAAAGAAAAAGTGATGGGCTTCGGGCACCGGGTGTATATGAAGAAAATGGATCCCCGCGCTGCCTTGATGAAGGAAGCCCTCAGGAAGCTTGCGGCTGAAAAAGACAGAGAAGACCTGCTGGCGTGCTGTGAAGCAGGGGAAGAATTGATGAAGGAAGAAAAAGGATTATATCCGAACCTGGATTATTACGCAGCTCCTGTTTATTACCTGCTCGGCATACCGATTGATCTGTACACGCCGATTTTCTTCGCGGCCCGTACACTTGGCATCTGTGCTCATGTGACCGAACAATATGCGGACAATAAATTATTCCGTCCAAGGGTTCATTACACAGGACCACGGGGACTGCATCCATAA	MDKMTTFQPGLNGVIAAETKLSYLDVEAEEIVIRGYDLIELAEKQQYIDLIQLLLHGRLPTLSEQQELEAALKEEAHLSDSLVELLEKLPKDTHPMDALRTGISALAGYDKNLGERINLEKTVLRLLAKIPAITAGSYHLLHQQSIVAPDPSLSYSANFLYRLTGRTPDEQEAAIFDQSLMVYSEHEMPNSTFTARVIASTNSDLYGALTGAVASLKGNLHGGANEAVMHMLLEGGSVEGFRRLLLDKLSRKEKVMGFGHRVYMKKMDPRAALMKEALRKLAAEKDREDLLACCEAGEELMKEEKGLYPNLDYYAAPVYYLLGIPIDLYTPIFFAARTLGICAHVTEQYADNKLFRPRVHYTGPRGLHP	PGPT0001455_6136	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
AK012_02881	1440	mmgE	COG2079	Citrate/2-methylcitrate dehydratase	ATGAATGAAACAAAAGTACAGCATACTGGTGTCGACGCAATCCTGGAAGAAATCGCTTCCTACACTGTTGATGGGGAAATTACGAGCGAAGAGGCGATGGAAACGGCTCAATACGTTTTAATGGATACGCTTGGATGCGGCTTTTTAGCGCTCCGCTATCCGGAATGCACCAAACATCTGGGACCGATCGTACCCGGCACGGTGGTTCCTGACGGGTCCAGGGTTCCAGGGACATCCTATGTGCTCGATCCGGTCCATGCTGCGTTTAACATCGGGTGTATGATCCGATGGCTGGACTATAACGACACATGGCTTGCTGCCGAATGGGGGCACCCTTCCGATAACATCGGAGGCATCCTTGCAGCGGCTGATTATATCAGCCGGGCCTCCTTGAGTTCCGGACAGGAACCCATGACAATGCATGAGGTCCTGGAATACATCGTGAAGGCTCACGAAATTCAAGGGATTCTTGCCCTGGATAACAGTTTGAACCGGGAAGGCCTTGATCATGTGCTCTATGTGAAAGTAGCGACGACAGCTGTCGTGACCGCTATGCTCGGTGGAAAAAAGGAAGATGTGACAAACGCGGTGTCCCAGGCATGGCTGGATAACTCCAGCCTTCGCACTTACCGGCATGCACCGAACACCGGATCAAGAAAATCCTGGGCCGCCGGAGATGCCACAAGCCGCGGTGTCCGTTTAGCTCTGATGACAATGAAAGGTGAAATGGGCTACCCTTCCGCTCTTTCTGCACCTGGATGGGGATTCCAGGATGTCCTGTTCAGCGGGAAGGAACTGACGCTTCAACGGCCGTTGGGCTCTTATGTGATGGAGAATATTCTATTTAAAATTTCCTTCCCTGCTGAGTTTCACGCCCAGACAGCAGCAGAAGCCGCTGTCCAGCTGCACAGTCAGGTGAAGGATAAACTGGAAGCCATAGAAAAAATCACGATTACCACCCATGAGTCGGCCATCCGGATCATCGATAAAAAAGGACCGCTCCACAACCCGGCAGACAGGGACCACTGCCTTCAGTATATTACAGCGATCGGTCTGCTGTACGGCGATGTGAACGCCGATCATTACGAAGATGAAACGGCGCGGAATCCGGCCATCGATAAATTGAGGGATGTGATGGAAACCATTGAGGATGAAACGTACAGCCGGGACTACCTGGATCCGGACAAGCGCTCCATCGCCAATGCCGTTCAAGTGTTTTTCGCAGATGGAACCTCTACCGAGCAAGCAGCCGTGGAGTACCCGATCGGTCACCGCAGACGCAGGGACGAAGGCATCCCCCTTCTATTAAACAAGTTTCAAGCTAACGTAAAAACACGCTTTTCATTTAAACAGACGAACAAAATATTGAATCTCTGCGAGGATTACGAGGCATTATCACGAACGACAGTGCCGCAGTTTATGAACAATTTCCAATTATGA	MNETKVQHTGVDAILEEIASYTVDGEITSEEAMETAQYVLMDTLGCGFLALRYPECTKHLGPIVPGTVVPDGSRVPGTSYVLDPVHAAFNIGCMIRWLDYNDTWLAAEWGHPSDNIGGILAAADYISRASLSSGQEPMTMHEVLEYIVKAHEIQGILALDNSLNREGLDHVLYVKVATTAVVTAMLGGKKEDVTNAVSQAWLDNSSLRTYRHAPNTGSRKSWAAGDATSRGVRLALMTMKGEMGYPSALSAPGWGFQDVLFSGKELTLQRPLGSYVMENILFKISFPAEFHAQTAAEAAVQLHSQVKDKLEAIEKITITTHESAIRIIDKKGPLHNPADRDHCLQYITAIGLLYGDVNADHYEDETARNPAIDKLRDVMETIEDETYSRDYLDPDKRSIANAVQVFFADGTSTEQAAVEYPIGHRRRRDEGIPLLLNKFQANVKTRFSFKQTNKILNLCEDYEALSRTTVPQFMNNFQL	PGPT0001470_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0001470-acnB-K01682	NA	NA
AK012_02882	924	mmgF	COG2513	2-methylisocitrate lyase	ATGACATGGCTCGTACAGCCGGCTTCAACCCAGAAGGAACGCGCCCAGGTCTTTCAAAGATTGATGAAGAGCGATGAACTGCTGAAAATCCCCGGTGCCCATGATGGTATGAGTGCCAAAATTGCCAAGGACCTGGGGTTTCAAGCTCTCTACTTGTCTGGTGCCGCTTATACAGCCAGCCAGGCACTGCCGGACCTCGGTCTCATTTATTCCAATGAAATGGCTGAGAAAGCCAGGGAACTTGTCCGTGCTTCCGATCTTCCGCTTCTTGTTGATATCGATACAGGGTATGGAGGTGTCCTGAACGCCGCAAGAGCAGCGAAGGAGATGGTGGAAGCAGGCGCCGCTGCTGTACAGATTGAAGATCAGCTGATGCCAAAAAAATGCGGTCATCTTAACGGAAAACAATTAATTCCTAAAGAAGAAATGATGCAGAAAATCCAAGCCATCAAAGAAGCAGCTCCCGATCTAATTGTCGTGGCTAGGACAGACGCCAAAGCCGTTGAGGGCATCGATCAAGCCATTAACCGTGCCCAAAGCTATATGGAAGCAGGGGCAGATGCCATCTTCCCGGAAGCTTTCATAAGTGAAGAGGATTTCAGACAGGCATCATCTGCTTTGGATGTTCCAATTCTCGCCAATATGACAGAATTCGGCCGGACCCCTTACTATACAGATCAGCAGTTTGCCTCTTTTGGCGCTGATATGGTCATTTATCCGGTTACTTCCCTGCGCGCGGCAGCGAAAGCTTATGAACGAGTCTTTGCAGATATCATGGAAAAAGGCACACAGCAGGAGAAGCTGGAGGATATGCAGACAAGACAGGAACTCTATGAAACCATTGATTATTATGAATATGAAGCTTTAGATGAAAAAGTAGCAACAACCATTCTTCCTGAGATCGATCGTGAACACAAAAAGTGA	MTWLVQPASTQKERAQVFQRLMKSDELLKIPGAHDGMSAKIAKDLGFQALYLSGAAYTASQALPDLGLIYSNEMAEKARELVRASDLPLLVDIDTGYGGVLNAARAAKEMVEAGAAAVQIEDQLMPKKCGHLNGKQLIPKEEMMQKIQAIKEAAPDLIVVARTDAKAVEGIDQAINRAQSYMEAGADAIFPEAFISEEDFRQASSALDVPILANMTEFGRTPYYTDQQFASFGADMVIYPVTSLRAAAKAYERVFADIMEKGTQQEKLEDMQTRQELYETIDYYEYEALDEKVATTILPEIDREHKK	PGPT0001555_174	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-SUCCINIC_ACID_ACID_BIOSYNTHESIS,PGPT0001555-prpB-K03417	NA	NA
AK012_02883	423			hypothetical protein	ATGTTATACATATGGAAAATTGAAGAAATCATCCAGCAGACGATCAGCGACAACCAACTGGATATCAGCTGGGCAGCAGACAACCAACTGAAAGCTCCTATGAGCTTTAACGTGTCGAACAATACACTCACCTTTAATTACCTTGAGGTGAACGGCTTTATGAGTAAAGCGCAGCTGGGCATCGCAAAGGAAGAGTACGTACAGCTGATGGTCTGTCATGAACTGGGATATTATCTTACCTTCAAAAAGCATAAGCATGACCTCCGCACACTCATGTACGGCGAAGACGAAGAAATCGCTGAATTAAAAGCGGTTATTGAAACGAACGCCTGGGATTACGGCCGGACACTCGTTCCTGAACCATTGAAACAGGCCTACGATGAGCTGCGCGAGCAGAACAAACAACTTCTGCGGGGGCTTTAA	MLYIWKIEEIIQQTISDNQLDISWAADNQLKAPMSFNVSNNTLTFNYLEVNGFMSKAQLGIAKEEYVQLMVCHELGYYLTFKKHKHDLRTLMYGEDEEIAELKAVIETNAWDYGRTLVPEPLKQAYDELREQNKQLLRGL				NA	NA	NA	NA	NA
AK012_02884	513			hypothetical protein	ATGGTGGATGGTTTGTTCAAGAATCGTATATTCAAGAATATTCTATTCCAATGGATGCCTCATAAGGAACAGAGTGTTTGCGAGCGTAAACTTGTCAAGGCAATTAAGCGCTTGAAAATTGAAGATTTTCATTTCAACTGGGACCGGAACAGCTGCTATATTGAGTTTTCCTATCAGGGAGAAGTGTACAGATTGGATCATTCGGTGGACAAAGCTAAAGAACGTGGGATTATTTTAAGAAATGGTCTGGACTGCTTGAATGAGCTGACCCAGTCTTTGGAAGATCTGGGCGTCATCATCGACCGGGGCATGTACAACTTTGAAACGTGGATTATTGGAATGAAGCAGCCGAAAGCGGGAATATCAGCGGAGTATGAAGAGGAATTTCATATCCGTTATAAATCAACGGCTCCTAAAGTCCCTTCTGAATTTGCACGTCCCGAGGATGCGACCGCATTCCGCGAGCCTTTACCTGAATACAAAGATGAAGAAAAAAGCTATCAGCGATTTTAA	MVDGLFKNRIFKNILFQWMPHKEQSVCERKLVKAIKRLKIEDFHFNWDRNSCYIEFSYQGEVYRLDHSVDKAKERGIILRNGLDCLNELTQSLEDLGVIIDRGMYNFETWIIGMKQPKAGISAEYEEEFHIRYKSTAPKVPSEFARPEDATAFREPLPEYKDEEKSYQRF				NA	NA	NA	NA	NA
AK012_02885	357			hypothetical protein	ATGGGGGTCAATACAGGATGCAGCGCAGATTTCTGGGGGGCACTTCAAAATATCCCTCAATGGCCGGAAGACTATTCGATATGCGACCGCGTCAACCACGTATTCGATGTCTGCATATACAAAGACAACCTTAACCTTTTGTTCGCTCTCAATCTTCCCGTCCCTTCCACCTTGACACAGGAACTGGCTGTTGAAGGAACAGCGGCTCTTCTCAACGCAGCGCACCCACTCGTAAACTACCCACTCACGGAAGAAGAAGTCATCGCCATTTTCCAGGAAGCTGTAGAAACAGAAAACTATGAAGAAGCCATAAGCCTGTTCTCAGCCTACAACAACCTCTACTGTCCACTGGCATAA	MGVNTGCSADFWGALQNIPQWPEDYSICDRVNHVFDVCIYKDNLNLLFALNLPVPSTLTQELAVEGTAALLNAAHPLVNYPLTEEEVIAIFQEAVETENYEEAISLFSAYNNLYCPLA				NA	NA	NA	NA	NA
AK012_02886	720	yheD_1		Endospore coat-associated protein YheD	GTGAAGACGAGCAAGTGGAGAAAATATCAATGGATGAAGCAGTCTGACGTCCTCCGCCCCTTTCTGCCGGAAACGAAACGACTCACTCCCGGTACAATGATGGATATGGTGAAAAGACATCAACAGGTGATCTTAAAACCCGTGCTTGGCTATAAAGGCAGAGGTGTCATCCTGCTGTCCGACTTAGGACACGATACCTTCGAATGGCATATCAAGCATAAAAAAATCCGGTCAAACGGTTTATCCGGGCTCTACGATCATTTTTTACATGAGTATGGCCACAGACGGTATTTGATTCAGCAGAAAATCTGCCTGGCAGAAATGGATGACTGTCCGTTCGATTTTCGAGTCATGGTCCAGAGAAAATCATTCCAGAAGGACTGGCATGTGACGGGAAAACTCGCCAGAGTAGCGGCCGCGCCTTTTGTCGTCACCAACTATACCAAGCAGATGCTGCCCTCTTCCCAAGCTCTAACTGCGGTTTTTGGGGAAGAAACCACCGTAGAGATCATGCAGCAATTGGACCAGCTCGCTTTGGATGTTGTACGCCATATTGCCCCGCACGATCAGGAGCACCGCCTATTCGGTCTTGATATCGCAGTCGATACGCACGGTCACCTATGGATCATTGAAGCCAATACGAAGCCGGATATTAAGATGTTCAGGAATCTACCGGACCTTCATGAATATAAAACGATCCGCGCCTATAAAAGAGGTTGA	MKTSKWRKYQWMKQSDVLRPFLPETKRLTPGTMMDMVKRHQQVILKPVLGYKGRGVILLSDLGHDTFEWHIKHKKIRSNGLSGLYDHFLHEYGHRRYLIQQKICLAEMDDCPFDFRVMVQRKSFQKDWHVTGKLARVAAAPFVVTNYTKQMLPSSQALTAVFGEETTVEIMQQLDQLALDVVRHIAPHDQEHRLFGLDIAVDTHGHLWIIEANTKPDIKMFRNLPDLHEYKTIRAYKRG				NA	NA	NA	NA	NA
AK012_02887	1341	yheD_2		Endospore coat-associated protein YheD	TTGTTTATAAAAACGAATCCGCAGTTGAGGCAGGGGTCCGCTGCTTTTCCTTCTTTTATGAAGGAAGCTTTAGGGTTGAACGGGGGAGACCGCCTGGATGTTCATCTTGGTCTTTGGAAACGGAACATCTGTGTCCTTTATCATGATCGTATAAAAGAGGAAGTGGTTGAGTTTTCTCCGGACCTGCTTCGGGGTCTGTCGATATCTGAGCATATTGATTTTGAATGGATGCGGAAGAGGGATGGATTCCATCTTGGTCCGGTTCTTGGGATTGTAAGAGGGACTTCTTTGGAGAACATCCGACCGGGCGTTTTGAAGATTATGCGCCGCTGGGTGGTGGATTACAAAGCTTTGAAAGGACTCGTGGTCGTTTTTCCAAGGAATGAGGTGCATGCGGAAGCGGAGGTTGTGACAGGGTATGGCTTTGCCGGTGGGGAAGGATTCCATGCAGGGACATACCCCTTCCCAAGTGCTGTGTTCAGCCGTCCAAGTGCCGGTGGAGAACGGACGTACCGATTGCTTGATGTTTTGACCTCCGGACGGGTCTTTAATAGAAAAGGGGCGGGGAAGTGGGGGTTTTATTGTGCGCTCAGACAGGATCCAGCTACTGAGAAGCTTGTCCCCCATACAGAAAAATATTCCACAGATGCCCGGCTGGTGGAGCTTCTCGACCATTATTCCATCGTGTATTGGAAGCGTAAATATGGAGCCAAAGGGTATGGGATGATACAAATGAAAAAAGAAGAAAACAGCTATGTCGTCACAAGAGTGTTGAAAGGAGAGCAGAGGAAAGACATTTTTTCCAATGCGGAGCAGTTTAAAGCGTATATGTCGGGCATTCCTGACAGGAATCGAGGGCTCATACAGCAGGGTGTTCCTTATGCGGCGGAAGGAAAGCAGGTGGATTTCAGGGCATATGTGCAGAAAGATCCTGATTCTACCTGGAAAGTGCGGGGTTTTGTCGGCCGTGTCGCCCGCACAGGAAGTGTGATCACGAATTTACGGTATACCGAAAAGGTGATGAACGGCTCCGACGCGCTCCAACAGATTTACAAGCTTGGCAGAAAGGAGCGTAAACGACTGGAAAAGAGGATGGAAGCCGCCTGTCTCCTTGCTGCAGAACGTTTGGATGAGGCTGTTGGACACTTTGGCGATATCGCGCTGGATTTTATTATCAATGGAGATAAGGAGATTTATTTTCTCGAGGTCAATGCGAACTACGGGCATACGAGTCTGGTGAGGATCGGTGATGCCGCTTTGAAGCACAGCATTTACCGTTCCCCGCTCGCCTATGCTAAATCACTGGCCGGATTCTCCAATAAAGATCAACCTCTTTTATAG	MFIKTNPQLRQGSAAFPSFMKEALGLNGGDRLDVHLGLWKRNICVLYHDRIKEEVVEFSPDLLRGLSISEHIDFEWMRKRDGFHLGPVLGIVRGTSLENIRPGVLKIMRRWVVDYKALKGLVVVFPRNEVHAEAEVVTGYGFAGGEGFHAGTYPFPSAVFSRPSAGGERTYRLLDVLTSGRVFNRKGAGKWGFYCALRQDPATEKLVPHTEKYSTDARLVELLDHYSIVYWKRKYGAKGYGMIQMKKEENSYVVTRVLKGEQRKDIFSNAEQFKAYMSGIPDRNRGLIQQGVPYAAEGKQVDFRAYVQKDPDSTWKVRGFVGRVARTGSVITNLRYTEKVMNGSDALQQIYKLGRKERKRLEKRMEAACLLAAERLDEAVGHFGDIALDFIINGDKEIYFLEVNANYGHTSLVRIGDAALKHSIYRSPLAYAKSLAGFSNKDQPLL				NA	NA	NA	NA	NA
AK012_02888	1350	yheD_3		Endospore coat-associated protein YheD	ATGAACGGCTCTATTCACCTTCAGAAAGAAAACCAAAAAGGGCAGGATTTTCATCTTCCACACAGCCTCCTTCAAGAGTTCGCTATTCAGGAAGGAACGCCGGTGATTGTGGAGTTCGGTTCAAAAGCGGCCGCTGTAACGTTAAAAGGAACAAAGGCACAAAACGGGCGCCTCTCCTCTGCGACTGCTGATGAACTGCTTTTTCCCAAAGAGGGAATATTTCAACTGCAGTATAAAAGAGGCCATCTCAGGATTGGTCCTCATTTAGGAATCTTAGCCGCAAACAGGGAAAAATATCTGCCCGGGAAAGTCAGGCGCTTCAACCGGGTTTTTCAGGATCATCCGCTCCAAACCGGTATCCTCACCATCTTCTCTCTGGACAGCATCCAATCCACCCACACGCAGCTGAGTGGTTATATGTATAATCCTCTGCACGAAAGCTGGGAGAAAAGACTTCTCCCCTATCCTGATGCCGTGTATAAGCGGATGTCGTTAAAAAAAGAGCTGAAGGCGGACTTCGATCGTCATATCAGCGGCGCTGTCTTTAATCAAGCTGCCTATTCGAAATGGCAGGTTTATCAATATTTAAAGGATGATCCGGCCCTCTCGCCGCACCTTCCTCCTACAGCCCTTTATACAGGAAGAGAGAATACAACAGATTGGATGAACCAGTGGGGCGCCGTATTTTTAAAACCTGTCAAAGGTTCGTATGGACGTAAAACCATTCAAATCTCACCTGCCCCCGGGAGCAGGGACTGGCGCGTACAAACGAGAGAAAACAACAGCAGCATCCAGAAACGACTGACGCCGGAAGAAGCAGTTGTTCATCTAAAAGAAATCATCGGACGAAAACCCTATCTTGCGCAGAAAAGACTGGACATCACCTTTGATCATCACGTGATCGATTACCGTATCTATCTGCATAAGGATAGGCAGGCGCAGTGGAAAGCCACGGGGTGGGTCGCTAAAACCGGGGCTGCGGGTAGTATCGTCAGCAACCTTGCAGGCGGCGGGCAAGTCTCTTCAGCGGAGGATCGGATAAAATCCTGTTTTTCCTTAACTAAAGCACAGGCCGATCATCTGCGTGAAGAGGTGTTTTCCGTTTGCTGCCGGGCAGCAGAACGCTTGGAGAAGGAGTCCGGCACCAGCTTCGGCTATTTTGGGGTGGATATCGCACTGGACAAAGAAAAGAAAATCTGGCTGATTGAAATGAATCACCGGTACGTGGATGACCGCCTTCCCCTTCAAGCAGGGGATGATGATTTATATTGGCATATACAAAAATCCTACGTAGACACTTTACAAGGTATGTGTGGTTTTCCACAGGAACACATGAAGGAAAACCAATAA	MNGSIHLQKENQKGQDFHLPHSLLQEFAIQEGTPVIVEFGSKAAAVTLKGTKAQNGRLSSATADELLFPKEGIFQLQYKRGHLRIGPHLGILAANREKYLPGKVRRFNRVFQDHPLQTGILTIFSLDSIQSTHTQLSGYMYNPLHESWEKRLLPYPDAVYKRMSLKKELKADFDRHISGAVFNQAAYSKWQVYQYLKDDPALSPHLPPTALYTGRENTTDWMNQWGAVFLKPVKGSYGRKTIQISPAPGSRDWRVQTRENNSSIQKRLTPEEAVVHLKEIIGRKPYLAQKRLDITFDHHVIDYRIYLHKDRQAQWKATGWVAKTGAAGSIVSNLAGGGQVSSAEDRIKSCFSLTKAQADHLREEVFSVCCRAAERLEKESGTSFGYFGVDIALDKEKKIWLIEMNHRYVDDRLPLQAGDDDLYWHIQKSYVDTLQGMCGFPQEHMKENQ				NA	NA	NA	NA	NA
AK012_02889	1224			hypothetical protein	ATGGAGTGCATTGTATTCTTAGAAACCCACAAATCCGGCTCCAGCAGGGACGCTATCGAAGCAGCCGTCCAGATGGGCTTCTTCACGATCCTTTTCACCCAGCAGATGAAGAAGCTGCACCAGCGTGAGGAGTACCCGGATGTACATCAAATGATTTTCGTGAAAGATTTACAAGATAAAGGCGTCATTTATGAGCAGCTGAGGATTATAAATAAACAAGAAAAACAAATCAAAGCGCTCGTCAGCTTTGTGGACCCTTTCGTCCACCTGGCTGCAGAGATAGCCGCTGAACTTGGTTCAGTTTCCTTATCTGTAGACGCGTTGTACCAGATGGAGGATAAAACAAGATTCAGAGAAACACTGAAGGGACACCCCGCCGCTCCAGATCATGCTGTTCTACCGCTGGAGGAAGACGGAGATACTCTGTTTCATACGCATGTGAATCAACTCCCCGTAATTTTGAAGTCACCTGTTTCCAACGGTTCCAAGGATGTGCTTTTGATCGATGACAAAGACGCTTTCCTTACAGCCTGCTCCTATTTCAAAAAGCAGCCCGGCCTGTCCTCTCTCCTACTGGAAGAATATATGGAAGGACCCCAGTATTTGATTGAAATCATCGTCGAACATGGAAATGTTCATCTGGCGGCGGTCATTGAACAGGTCATATCCAAGGAAGCCCGCTTCATTATTACCGGGTACCTGATGCCTGCCCCACTCTCTGATTCAAGTTTGGAAGAACTGCAGACCGTTATGGAAAGTATTGTTGAGCAGCTTGGTCTCACCCATGGCACCTGCCACGCGGAAATGAGACGGACGGTCCATGGTTGGAAACTGATTGAGATCAACCCACGCATATCAGGAAGTGCTGTCAACCAGCTCATTTATGAATCCACCGGCATTTCCTTAGTAAAAGAAACGTTGAAATTAAACCTCGGTTATCCGATCGACTGTACGCCGAAGAACAATCTTTCCGCCTATGCTCACTTCATCACCATGCAACGGAAAGGGAAACTGATTAAAGTAACAGGGAAACAAAAAGCGAAAACGGTTGAACATATTAAAAAGGTCTATGTGAAGCCGCGCAGAGGATCCATTCTATCCGCTCCTGTTTCGATGGGACACCGCTATGCGTATGTCATCGCGGCTGCACCGGATCCAGACGAAGCAGTCAGCGCAGCAGCGTCAGCGGCGCGGGAAATCAAATTTCATTTAGAACCGGTTTAG	MECIVFLETHKSGSSRDAIEAAVQMGFFTILFTQQMKKLHQREEYPDVHQMIFVKDLQDKGVIYEQLRIINKQEKQIKALVSFVDPFVHLAAEIAAELGSVSLSVDALYQMEDKTRFRETLKGHPAAPDHAVLPLEEDGDTLFHTHVNQLPVILKSPVSNGSKDVLLIDDKDAFLTACSYFKKQPGLSSLLLEEYMEGPQYLIEIIVEHGNVHLAAVIEQVISKEARFIITGYLMPAPLSDSSLEELQTVMESIVEQLGLTHGTCHAEMRRTVHGWKLIEINPRISGSAVNQLIYESTGISLVKETLKLNLGYPIDCTPKNNLSAYAHFITMQRKGKLIKVTGKQKAKTVEHIKKVYVKPRRGSILSAPVSMGHRYAYVIAAAPDPDEAVSAAASAAREIKFHLEPV				NA	NA	NA	NA	NA
AK012_02890	1029	yheD_4		Endospore coat-associated protein YheD	ATGACACGGATTGGAATGCTTCATTACCGCCAGAAACCGCATCACGTTACGAAAGCCTTCGCTTATGCAGCCGCAGCGAAAATGCATGGATCAGATTTTTTCTATTTTTCTTATACGGGCATTGATTTTGAGCAGAGACGAATCAACGGCTGGATCTATCAGGAAGGAGACTGGCATCAGCAGGATTTTCCCTTCCCAGAGGTCATCATCAATATCAGTGCACCGAGGTCATCGAAACAGAAAGCTGTCAGCCGTGCCCTCCGCCTGCAGATCCCATTTATCAGCCGGTCGATTGGAAGTAAGCTGACTGTTTATAACAAAATAAAAAAAGGCCGGCAGTTCGCGGGCCACTTGATCCCAAGCCAGCCCATCGAAAAAATCGAAGATGTCCGGTCGTTTCTGAAGGATCACCCGGAAGCTGTCATCAAGCCCCTCTCAGGCCGTAAAGGAGAGTCCATCCATTTCATTACCAGGCGGGAAGATGGTTCGATTACCTGGCAGACCGGCGTCGATCAACAGACCTTTCCTTCAGATACGTGGGAAGAGAAAGTGACTGGACTGCTCCGTGAAAAAAGGTATCTGATTCAACCGTATATCGAATGCAGAACGAAAGCCGGGTTCAGCTACGACTTTCGTCTTCATGTCCATAAAAATGAAGAAGGCCGGTGGCAGACAGCTTTAATATATCCACGGGTCAGCGGAACCGAACGATTAACAAGCAACGTCAGCCGCGGGGGCTACCGTGGTGAGCTGATCCCCTTCCTAAAGGAGGAATTCGACAGGGAGTACTACAACATAAAGCAGCTCCTTGAATACTTCGCCGTTCACTTTGCTGCTCATTTTGAATCCCTGTACCCCGGGCGTTCGTTCGATGAACTCGGCATTGATGCAGCCGTTGACCGCAATCATAAGATATGGATCTATGAAGTGAACTGGCGTCCGGGGAGCCGGCACAGGGAGTTTGCCATTGCCCGTCATATGATTCCGTACGCCTGTTTCACGGCCCGTCAGTATAAATCGAAAAGGTGA	MTRIGMLHYRQKPHHVTKAFAYAAAAKMHGSDFFYFSYTGIDFEQRRINGWIYQEGDWHQQDFPFPEVIINISAPRSSKQKAVSRALRLQIPFISRSIGSKLTVYNKIKKGRQFAGHLIPSQPIEKIEDVRSFLKDHPEAVIKPLSGRKGESIHFITRREDGSITWQTGVDQQTFPSDTWEEKVTGLLREKRYLIQPYIECRTKAGFSYDFRLHVHKNEEGRWQTALIYPRVSGTERLTSNVSRGGYRGELIPFLKEEFDREYYNIKQLLEYFAVHFAAHFESLYPGRSFDELGIDAAVDRNHKIWIYEVNWRPGSRHREFAIARHMIPYACFTARQYKSKR	PGPT0024145_12	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024145-murF-K01929	NA	NA
AK012_02891	432			hypothetical protein	ATGCTGAAGGAAGAAGCCGGTTTAATGAAAAGCTTTGAAATCCTTTATCATCAACAACAGGAACTCCAGGGAGATCCGGCGGATGCTTGCAGCCCGCTTCTGGCTAAACTCATGCGTGTCGACACCATTCCCTTCTCCTTATTTAAACAGGACTCCCCCCTCCCATTCTCCACGCAGGGAACCATTGGAGGAAAGGCTTTTCAAACCTGGTGTTTCCGCCTTGAAGCCATCCATAAAGAAGACCAGAGCGTCCTTCTTTCCCTTCTCCAGCCTTATACGATTTATGGGGAACCGGCTGGATGGATGGAAGAAATCTATGCTCTGAAACGGACGCATTGTCTGATTACCCAGCCTGTCCCTGCGTTTTCCTCCCTCTCCTGTTTGAATATCGATTTATTGAAGCGAGACATTATTGTGGAGCCGAAGTGGTAG	MLKEEAGLMKSFEILYHQQQELQGDPADACSPLLAKLMRVDTIPFSLFKQDSPLPFSTQGTIGGKAFQTWCFRLEAIHKEDQSVLLSLLQPYTIYGEPAGWMEEIYALKRTHCLITQPVPAFSSLSCLNIDLLKRDIIVEPKW				NA	NA	NA	NA	NA
AK012_02892	1368	murF_2		UDP-N-acetylmuramoyl-tripeptide--D-alanyl-D-alanine ligase	GTGAAAAAACTATTGGTCAGTGACCTTATCAAAGAGCTGGATGGTGTTGTTGTACGTCAAGGCTCCCAGTCAGTGGTGAAATATACGGCGACACGTATGAAGAAAGTGAGGTCTGGAAGCCTGTACTTCTGTCTGGATAAGGCAGCAGAGGTGGAGCAGCTGCCGGCATGCGTCATCGTGACAAGCCGTCCGCAAAAATTCCAATCGGTTCAAGGGGATATCACCGTTATTCAAGTTAAAAAGACAAGAGAAGCGTACCGGCAGTTTCTCGCCTGGTACCGCCGCCTCCTTGCGATACCGATCCTCGCGATTACCGGCAGTTATGGAAAGACGACGACGAAAGAGATGGTCAAACACCTGTTATCTGAAGAGCATCGCGTGAAAGCAACGAATGGAAATTACAATCTCTTCCGTTCGAATGCGGCAGTTTTGACCAGGATGAACGAAAACACCGACATCGGTATTTTCGAATTCGGTGTTGGGAAAGAAGGACACCTGGATAAGTGCGTCCGCTGCTTCAGCCCCTTTTCGGTATTGATCACCGGGATCGGAACCGATCATATTGACCGCTATGGATCCCAGCATCTTTATGCTGCGGAAAAAGCTAAAATAATCAAGGGGGCTGAAGAGGAGCAGTCTGTCTTCCTGAATTCAGAATGTGAACATTCCAAGAGGTTTGCCCGATCGCTTCGACCCGAGCGGATCCTTTGGTTCGGAATGGATGAACAAGCCGATTACAGAGGTTCTCACATCAAATATTCAGACGAGGGGATGCTGTTCACCCTGACTCATGCAGACAGAAGCTATGAAGCCTTTGTTCCTGCCTTTGGCGTTCATATGGTCCGCAATGCCCTCGGCGCCATTGCGGCGGCCCATACCTACGGGGTGGATATGAAAATCCTGCTGCAGCGTCTTCGGACGTTCCCCCCGTTGAAGCGCCACTTGGAAATCGTCCCTGGCGTGAACGGATCGACATTGATAGACGATTCATGGAACTCCAACTCCGGATCGATTGAAGCTGCCCTTGCCGTACTTCAGGAAAAAGCCCGCGGTAAAAACAGTGTAGCCGTGATCGGACAGATCAATGAGCTTGGTATGGAAGAACTTCAGGAGTATAAAAAAATCGGACGCCTCATTTACAACCATCAGCCCGGACGTCTCATTACCATCGGAGAACGTGCGGCCGTCATGGCAAGGGAAGCCGTAAAGTGCGGCATGAGAGCACGACATGTCTATATGTGTGATACCTCTGAACGTGCTCTTACCCTGATTCAGAAATTTGCAGATGCTGATACCGTCTGTCTAATCAAAACGTCCATGCGGGACTCCTACAAAGATTTCATCAGCGTCCTCAGGGAGGAATCTTAA	MKKLLVSDLIKELDGVVVRQGSQSVVKYTATRMKKVRSGSLYFCLDKAAEVEQLPACVIVTSRPQKFQSVQGDITVIQVKKTREAYRQFLAWYRRLLAIPILAITGSYGKTTTKEMVKHLLSEEHRVKATNGNYNLFRSNAAVLTRMNENTDIGIFEFGVGKEGHLDKCVRCFSPFSVLITGIGTDHIDRYGSQHLYAAEKAKIIKGAEEEQSVFLNSECEHSKRFARSLRPERILWFGMDEQADYRGSHIKYSDEGMLFTLTHADRSYEAFVPAFGVHMVRNALGAIAAAHTYGVDMKILLQRLRTFPPLKRHLEIVPGVNGSTLIDDSWNSNSGSIEAALAVLQEKARGKNSVAVIGQINELGMEELQEYKKIGRLIYNHQPGRLITIGERAAVMAREAVKCGMRARHVYMCDTSERALTLIQKFADADTVCLIKTSMRDSYKDFISVLREES				NA	NA	NA	NA	NA
AK012_02893	1317	yheD_5		Endospore coat-associated protein YheD	ATGTATCGAGTGGACAAAGGAACAGAGGCCGGGCTGTCGGTAACCCTCCACCCTTCCTCCGCTTTGGAAAAGGGCCTGACGAGCGGGCATGTCTACACGTGGGAATTTGGATTGCAGGCGTGCAGAGGGGTGCTTAGGACATCTGAACAAGTGGAAACGGATGAGATGATTTTTTCAGAGGAAGCCGTTGATAGGCTGATGATTCCATTAGAGCCTCATTATGATATAAGGTGTGAGGAAAACATCGTTCACATCGGTCCAATCATCGGTATTGTCGCATCGAACCGGCTGGCAGGCTTACAGGAAATGCTGCACAGGCTGCGTCGTTATGTGAAGAATTATGCCTCGTTCGGGGGAGCGGTCATAGCTTTTTCCAATGAAGCCATAGACGTTGATAAACAGCTCGTGGCCGGCTATATCTACCAACCTGAAAAAGGCGGTTGGAAGGCCGGTGTTTACCCGTTTCCGCAGGTCATCTTCAAACGCGTTCCTTTGAAAAAGAAATGGCAGAAGCACTTTCGAAGATTCATCGGAGATCGAATATTTAATTCCGGGACGTTCAATAAATGGGAGATGTATACGTGGTTTCAATCTTCTTCTTTTTTGAAGACGTACCTTCCGGATACGAGACTCTTTCATGACGCTGCAGATATTCTTGAAATGCTGGAAATCTATGGCTCGGTTTATGTGAAGCCTGTTAAAGGCATGCAGGGGAAGCGGGTAGCGAAGGTGATACGACAAGAGGATGGGCTGGTCGTGCATTATATTCACTCGGAGGAGAAAGAAGAGCTTTTCTTCCCTCGATCTGCAGAGATGCTGGTTTTCTTAAGGGACGCTTTCTCAGGAAATGACTTCATCGTTCAGCAGGCTCTTGATCTTCAGTATGAGGACAGAGTCAATGATTTCCGGGCGGTTATGGTGAAAAACGGAGAAGGAAGATGGGGATGCTTTGGACTGATGGGAAGAAACAGTCAAAAAGGGAATATCGTGAGCAATCGTCATCAAGGTGGAAAAATTGAACCTGCGGAGGCACTGCTTGAACAGATGTTCAACGATAAGCAGAAAGTGTCCGGCCTCATCCGGGAAATGGAGGAGCTGGCCCTCCATGCATCGAATGTAATTGAAAATTGTGGCTTTCATTTTTGTAAACTAGGTATTGATATCGGTGTAGATCAAGAGGGGCGTGTGTGGCTGATTGAAATCAACCACCGGAATCCGAATGATTTTGTCGCTTATTTCACAGGGGATAAAGACTTTGCCAACCGTATCCGGACGGCTAATATGCTGTATGCGAAACGCGTCGCAGGGTTCAAATGA	MYRVDKGTEAGLSVTLHPSSALEKGLTSGHVYTWEFGLQACRGVLRTSEQVETDEMIFSEEAVDRLMIPLEPHYDIRCEENIVHIGPIIGIVASNRLAGLQEMLHRLRRYVKNYASFGGAVIAFSNEAIDVDKQLVAGYIYQPEKGGWKAGVYPFPQVIFKRVPLKKKWQKHFRRFIGDRIFNSGTFNKWEMYTWFQSSSFLKTYLPDTRLFHDAADILEMLEIYGSVYVKPVKGMQGKRVAKVIRQEDGLVVHYIHSEEKEELFFPRSAEMLVFLRDAFSGNDFIVQQALDLQYEDRVNDFRAVMVKNGEGRWGCFGLMGRNSQKGNIVSNRHQGGKIEPAEALLEQMFNDKQKVSGLIREMEELALHASNVIENCGFHFCKLGIDIGVDQEGRVWLIEINHRNPNDFVAYFTGDKDFANRIRTANMLYAKRVAGFK				NA	NA	NA	NA	NA
AK012_02894	1092			hypothetical protein	GTGGGAGACATACAGACAAACGAAACCATCGGCATCATCCTTCCTGCCAGCGTTTACGACCGCTTGGCAGAAGGCAGGAGTCAGATCAATGTCCGTGCTTATCAGGAAGCCGCTGACCAGTTCAACTTGACGGCCGCCTTCTTCAAGGTAAAAGATATCAAACCCGGCAGGCCTACGATAAGCGCCTGGATCAAACAAGAAAATGGATATCATCAGATGACCATCCCTCTTCCAAAGGTCATGTATACCCGTGCTTTCTTGTCCAGGCGGCAGCAGAAGTTTCTAACTGAAAAAGGAGTCCTTTTCTATAATCAAAAAGGCTTCAAGCATGACAAATACCGGATGCACACCATGATTGAGGAAAATCCTGAGCTCCGGCACTGCCTGCCCCGTACAGAAAGAGCAGACAGGACCACTTTCCATACGATGATGAGAATCTATGATTCTCTCATATTGAAGCCGGTGGACGGAAGCCTCGGGGCTGGGATTATGCACGTAGAAAAAGTTTCAAAGAACAACTGGCGTGTGGAATTCCAGATGAAACGAAAGCAGTGGGAAACGAAGACGTTCCAGCATGAGATTCCTGATGTGATTCTAAAAGCCTTCGAAGCCAGACCTTATCTGATTCAGGAAAAAATTCTGCTTGCCACCCATGAAGGCCGGCCGTTTGACCTCCGCGTCGTTGTCCAGAGGGACCATACCGGAGAGTGGGTGCTGGCAGGGATCTTATGTAAAGTATCACCGAGCACGGATCAGTTCATCACGAATATCAGCCAGGGAGGAGATTCTCTGAGCTTTGATGAAGTGCTCACCAATCATCCTGACCTTCCGTTGGGTGAAACAAGGGACGTTATTGAAAAAACCGCCCTCCAGCTGGCCCGGCACATCGATAGGTACGCCAGACACATCGCAGATATTGCCTTCGATCTGGCCTTGGATGCTTCGGGGCGTGTGTATTTCATCGAAAGCAACTTCCGTGGGCGTTATGGAAACGTCCGTTATAAGGGGAAGCGTCTGGAGGAATGGAAAGCCAAGCATACCAACCCTGTCGGATACGGACGATTTCTATATGATCAAATGCAGCAGCCCTGA	MGDIQTNETIGIILPASVYDRLAEGRSQINVRAYQEAADQFNLTAAFFKVKDIKPGRPTISAWIKQENGYHQMTIPLPKVMYTRAFLSRRQQKFLTEKGVLFYNQKGFKHDKYRMHTMIEENPELRHCLPRTERADRTTFHTMMRIYDSLILKPVDGSLGAGIMHVEKVSKNNWRVEFQMKRKQWETKTFQHEIPDVILKAFEARPYLIQEKILLATHEGRPFDLRVVVQRDHTGEWVLAGILCKVSPSTDQFITNISQGGDSLSFDEVLTNHPDLPLGETRDVIEKTALQLARHIDRYARHIADIAFDLALDASGRVYFIESNFRGRYGNVRYKGKRLEEWKAKHTNPVGYGRFLYDQMQQP				NA	NA	NA	NA	NA
AK012_02895	384			hypothetical protein	GTGGACATCTTAATTAAGGAAATTCCATTTGAAGAAGCCCTGTCCTTGAAATGTGCTTTCAAGAGGGAACATCTGAAATTAAGGAAAACGAGGAAAACGGTATGGCTTGGAGCCTACTACAAAGGGAGGCTTGCAGGTGTGTGTGCTTTCAGGAGGACGAAATACGGGGTCAAATGTAAAAGTGATCTCGTTCTTGAAGAATTCCGGGGACTTGGGTTGTACCGCCATCTGTTTGAAAAACGACTGGAACATGTCCTTACTTTGGAAACGGATAGGGTTTATGCGTACTGCAATAGAAACAGCCGTCCGATATATGAAAAGTACGGATTCACGCAGAAAGGAAGACGGAAGCGCTACACGTGTATGGAATGGAAACAACCCTGA	MDILIKEIPFEEALSLKCAFKREHLKLRKTRKTVWLGAYYKGRLAGVCAFRRTKYGVKCKSDLVLEEFRGLGLYRHLFEKRLEHVLTLETDRVYAYCNRNSRPIYEKYGFTQKGRRKRYTCMEWKQP				NA	NA	NA	NA	NA
AK012_02896	111			hypothetical protein	ATGATCATTCGTGATTTGCTGTCAGTTCCATTGTTTTTGGTTCTTTTGCTCCTTGCCTACGCAGCGATGTGGATGTACATCGCGGGAAAGAAAATCAATAAGAAGGAATAA	MIIRDLLSVPLFLVLLLLAYAAMWMYIAGKKINKKE				NA	NA	NA	NA	NA
AK012_02897	516			hypothetical protein	ATGTATTTGCTGCTTGTTATTATTGTGTGGGTTTTGTTTGCTTGGAGGTTCATTGACTGGACTCAGTGGCGCCGGCAGTATCCAACAGTGTTATTCTTTATGCTTGCTAATTTTCTTTATAACTATTTTTACTACAACCATACTTTGTGGGCTTTCCGTGGGATTACGGCAGAGTGGTTGAACCATTCGATCATCAATTTCGCATTCACATTCATCATATGTCCAGCCGGGCTGGTCATTTTTCTACAGCGGATGCCGAAGTCCAAATCCAACCGCATCTTTTACTTTGCCGTATGGATTGGTTTCTATACAGCGCTTGAGTGGCTGTTTTCCATGAAAGGGATGTATGTCTATGATCATGGATGGAACAACTGGCTCAACATCCCGTTGAACGCCCTGTTGTTTATCATCCTTGCGGTACATTACAGGCGTCCGGCGCTCGCTCTGCTTCTGGCTGTACCGATTGGTGTCCTGTTTTATGTATGCTTCCCGTTTCCTCTGGACAGCTTAAAATAA	MYLLLVIIVWVLFAWRFIDWTQWRRQYPTVLFFMLANFLYNYFYYNHTLWAFRGITAEWLNHSIINFAFTFIICPAGLVIFLQRMPKSKSNRIFYFAVWIGFYTALEWLFSMKGMYVYDHGWNNWLNIPLNALLFIILAVHYRRPALALLLAVPIGVLFYVCFPFPLDSLK				NA	NA	NA	NA	NA
AK012_02898	675			hypothetical protein	GTGAGAACAGCGGTCGCGGTCCGGGATATCACCCGGTTAGTCGAAAAACAGCTCGATCATTTATTCTTATATGATAAGCAGAAGGAAGGGATTCTTCTTGCCTCAGCCGTCAGTAAAGCTCTCAAAAAAACAGCTGTAAATTTCTCCGAATGCCGGAACAAGTATTATAGAAAAGATGGAGAAGTTTATTTCAATCCTTTTCATTCGGGACAGTATACGGTATTTCTATACTACTTATCGCGAGTGGTCCGGGAGTATGAGGCGTTTTCACTGGCAGACCGGATCTATTATTTGAATAAGGCTTTGAATGCTGTCGATCTTTATTACGAAATTGAACTTCCGGATCTCTTCTTTCTTGATCATCCGGTCGGAACCCTTCTCGGAAGGGCGGATTATGGGGACTATTTTGTGTTTTCCCAGCATATTACCGTTGGCAACAATCATGATATTTATCCTGTTTTTGAGGAAAGAGTGTCCCTGCTTGCGGGGGCCGTCGTGATTGGGAACTCCCGGCTCGGCAGGAACACGATCGTCAGTGCGGAGTCCTTTATTAAGGATGAGGAGATTCCACCCAACAGTATTGTTTTCGGGCAGTCCCCACACTTGGTTATTAAAACAATGCCGGAAAGCTATTTCGACGATTATTTCCATGCGAAGTTTTTTCTAGATTCGTAG	MRTAVAVRDITRLVEKQLDHLFLYDKQKEGILLASAVSKALKKTAVNFSECRNKYYRKDGEVYFNPFHSGQYTVFLYYLSRVVREYEAFSLADRIYYLNKALNAVDLYYEIELPDLFFLDHPVGTLLGRADYGDYFVFSQHITVGNNHDIYPVFEERVSLLAGAVVIGNSRLGRNTIVSAESFIKDEEIPPNSIVFGQSPHLVIKTMPESYFDDYFHAKFFLDS	PGPT0020265_3737	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
AK012_02899	1206		COG2124	Cytochrome P450 107B1	ATGGGAGAAATGGAAACGTTGTATTCCTCACAGTTCAAAACAGGGGCCTATCCGTTTTATGAAGATAAACGGAGGACGCAGCCCGTCTTCCCCATGTCTGAGGACAATGGGTATACATCCTGGCTTGTTACGAAGTATGACGATGTCAAAGAACTATTAAAATCCTCCAGCTTTATTAAAGACCAGAGCCGTTTATACGCCACTAAAGACAAACCATCCCCGGATCAGGGGCTGAATATTTTCGAGAACATGATGCTCGATGCCGACCCACCCGATCATACGAGACTGCGAAAACTCGTCCAGCCTTATTTCAACCCAAAGACAATCAAACTTTTAGAACCACGCATTCACGAGATTACGGACGAACTACTCGCCGAAATGGAAAGTAAGACAGCACCGGTCGATTTAATTGATGATTTTGCTTTTCCGCTTCCGATTATAGTGATTAGTGAAATGCTCGGTGTGCCTGTTGAGGATCGAGAGAAATTCCGTAAATGGTCCAACACCATCGTAGCTGCCTCTGATAACATGGCGGGGGATTTCGTGGAGGATGTCGAAGCTTTCACCTTATACTTAACCGATCTCTTTGAAAAACGCCGGGCTCATCCCCGGGAAGACTTGATTTCCTACCTGCTCCAGACGGAAGATGAGGGCGACCAGCTGAGTAAGAATGAGTTGTATTCCATGGTTGTTCTGCTCATTATCGCCGGCCATGAAACAACCGTCAATTTAATCGGCAATACGATGTATGCACTATTTGAACACCCCGATCAGCTCAAACGGTTAAAAGAGGATCTATCCCTTGTCCCTCAAACGCTGGAAGAAGGCCTGCGTTTCTATAGTCCCGTTGATTTTTCTACAGCACGGTGGGCCGCGGAGGATATGGATCTTCACGGAGAGACGATAAGAAAAGGCGACTTCATTTTGGCCTCGATCAGCTCAGCGAACCGTGATGAAGCGAAATTCATCCATGCGGATCATTTCGATATTACCCGGCAGAAAAATGCTCATGTCGCTTTTGGTTTCGGGATTCATTTCTGCCTCGGTGCGCCGCTCGCGCGCATGGAAGGAAAAGCGGCTGTTGAAAAGCTGCTCCACACATTTCCAGATATTCACCTTGATTCCGAACGTGAGCTTCCGGAATGGCGTCCCGTCTTCCTGCTCAGAGGCCTTCAGTCGCTGCCTGTCCAGCTATCCTACAGGTAA	MGEMETLYSSQFKTGAYPFYEDKRRTQPVFPMSEDNGYTSWLVTKYDDVKELLKSSSFIKDQSRLYATKDKPSPDQGLNIFENMMLDADPPDHTRLRKLVQPYFNPKTIKLLEPRIHEITDELLAEMESKTAPVDLIDDFAFPLPIIVISEMLGVPVEDREKFRKWSNTIVAASDNMAGDFVEDVEAFTLYLTDLFEKRRAHPREDLISYLLQTEDEGDQLSKNELYSMVVLLIIAGHETTVNLIGNTMYALFEHPDQLKRLKEDLSLVPQTLEEGLRFYSPVDFSTARWAAEDMDLHGETIRKGDFILASISSANRDEAKFIHADHFDITRQKNAHVAFGFGIHFCLGAPLARMEGKAAVEKLLHTFPDIHLDSERELPEWRPVFLLRGLQSLPVQLSYR	PGPT0022085_12	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0022085-bioI|CYP107H-K16593	NA	NA
AK012_02900	732			hypothetical protein	ATGGGGAAATTCCTGATGAATCTGGCTGCGTTCCTCCTCGTCGTAATTGTGAATGGGCTGGCAAATGCACTGCCTTTGAATGGTCAGACGACAGGGGAAATATCGAACAGGCTGGATGTCCTGTTCACGCCCGCCGGCTATGTGTTCAGTATATGGGGACTTATTTACTTATTACTCGGCATATGGGTGCTCAGTATGTTTCCGGAAAGCCGCAGAAATCTGCCGGTGTACCAGAATACGAGCGGCCTGTTTGTATTGAGCTCGCTGTTGAACAGTTTATGGATTTTCATGTGGCATTACGAGTTCTTCGGCCTGTCCGTCCTTGTTATGCTCCTTCTTCTGCTCACGCTCATCCGCCTTTATCTTAAGCTTCAGGAAGCAGGAGCTTCGTTTTGGGAGCGGCTTCCTTTTTCCGTCTACTTAGGATGGATCAGTGTCGCGACGATTGCCAATATCAGTTATTTCTTGACGTATATCGGATGGGACGGCTTTGGGATTTCTGCCTCTGCCTGGACGATCCTTCTTCTGATTGTCGGGTTCCTGCTTGCTTTAGGCTTTATGACCAGCCAGAACGACTGGATTTATCCACTTGTTTTCGTCTGGGCGTTTATTGGCATCGCTGTAAAAAATGAAGGCGCAGGAGTTCCGGGCGTGGTGTATACAGCCTATATTCTTGCCGGATTATTATTGGTTCTTACCGTTTTTTATGCCCTGCGTCAGCGGAAGGTATAA	MGKFLMNLAAFLLVVIVNGLANALPLNGQTTGEISNRLDVLFTPAGYVFSIWGLIYLLLGIWVLSMFPESRRNLPVYQNTSGLFVLSSLLNSLWIFMWHYEFFGLSVLVMLLLLLTLIRLYLKLQEAGASFWERLPFSVYLGWISVATIANISYFLTYIGWDGFGISASAWTILLLIVGFLLALGFMTSQNDWIYPLVFVWAFIGIAVKNEGAGVPGVVYTAYILAGLLLVLTVFYALRQRKV	PGPT0014330_76	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-HALOTOLERANCE_RELATED_ENZYMES,PGPT0014330-ytaB-K05770	NA	NA
AK012_02901	855	hcaB_1		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAATAAAAAGATTGCTGTTGTTACGGGAACTTCCTCAGGCCTTGGCCTTGGAATTAGTAAAGTCTTAGCAGAAGCAGGATGGAAGGTTTATGCAACGATGCGGAACCTCGATAAAGGAACACCGGTAAAGGATCTGCAGCAGTCAGGACTGGATATCGAACTCCTCCAGCTGGACGTACAGTCACAAGTGTCTGTAGATCAGGCTGTCCAAACCGTGATTGACGAAGAAGGCCGCATTGATTTGTTTATCAACAATGCAGGCATAGGCTTCATCCGCAACACCGAACAATCGTCGGAAGAGGATTATAAACGGATCTTTGATATCAACACATACGGACCGATCCGCTGCACAAAAGCCCTGCTCCCTCACATGAGAACACAGAAAGCAGGACGTATCGTATCCATCTCCTCTGTCGGCGGACTCGTCGGACAACCGATGCATGAAATTTACTGTGCGTCTAAATTTGCACTGGAGGGCTATTATGAAAGTCTTGCCACCTATGTAACCCCCTATTTCGGCGTTGAATTTATGATTGTCGAACCTGGTGGTATTGAATCGGAATTTGCCAATTCCGTTCTTGCAGACATTGAAAAGACAGGTGGATTTCCAAAGGACGAGTATGAACAGGTCCTCAACGATTTTATGGGACAGCGGGGAAATCAGGATTCAGGAGTGTTCCAGACGCCTGAAGATATTGCCGAGCGCATGATGGTGGAATTAGAGAAAGACACCCTTCCCCTTCGGATGAGAACCTCGGAATGGTCTGAGGAATTCACGAAGCTGAAAACCTCTGCCGATCCAACCGGTTTGAAGCAGACCGCCATGGTTACTTCCAGTCTTCTCGGAAAATAA	MNKKIAVVTGTSSGLGLGISKVLAEAGWKVYATMRNLDKGTPVKDLQQSGLDIELLQLDVQSQVSVDQAVQTVIDEEGRIDLFINNAGIGFIRNTEQSSEEDYKRIFDINTYGPIRCTKALLPHMRTQKAGRIVSISSVGGLVGQPMHEIYCASKFALEGYYESLATYVTPYFGVEFMIVEPGGIESEFANSVLADIEKTGGFPKDEYEQVLNDFMGQRGNQDSGVFQTPEDIAERMMVELEKDTLPLRMRTSEWSEEFTKLKTSADPTGLKQTAMVTSSLLGK				NA	NA	NA	NA	NA
AK012_02902	837			hypothetical protein	TTGAATCAGGATCATGCTGTTTTTGTTACAGATTTCACCGGGAGTGACGCACAGAAAGTGCAGCAGGCGATTGATCATGCGGCAGTCAATGGAAATCCAAGTGTTGTGTATGTACCGGATGGAGATTATGTCATTACTGAAACGTTGATTCTTCGGGAAGGGGTAAGTCTGACCTTTGCTTATGACGCCCGCTTTGTTGTATATGGCAATCAGGATGTGCTGCATATTGAGAAGAACGCGGGAATCACAGGCGCTTATATCGCGATAGACGACAGCCGTTTCAACCGTAGAATTCTTGTTTTTGATGGGAAGTACAAGTATTACAACTCCTGGAACCGCTCCAGGTTTCAACAGATTAATATGGTGAACTGGTCGGGATCTCATAAGGGCACCGGAATCTATCTATCTTCCAGCCAGCCTTCTGATGAAATTTCCTTTTTGCAATTTGACGATATTAAAGCCGTGGGGCTTCATACAGCTTTAGAAGTAAGGGTAACGAAACCTTCCTCCGGTTACAGCTGGGTGAATGCCAATAATTTTATGAATGTTACCATTGATGACTGTGTCAGAGGGATATGGATGAATTCTTCCAAAACGATTCCGAATGAAGCAAGCGGCAACAACTTTACGAACCTGCAGATCCAGCTCTCCAGTAACAGCCGGAGCGCTGTTCGTGTCACAGGGGATTACAATTACCTGCAGGGAATGATCTGGGATGCTTACCTCGCTTCCCAGATGGGAGATCTCGTTCATCTGACTTCTAACAGCAGTCATACGGAGTGCAGGCTCCGTGGGAATCACAGCGTCCTCGACCAGGGAACCGATAATACCTATTAA	MNQDHAVFVTDFTGSDAQKVQQAIDHAAVNGNPSVVYVPDGDYVITETLILREGVSLTFAYDARFVVYGNQDVLHIEKNAGITGAYIAIDDSRFNRRILVFDGKYKYYNSWNRSRFQQINMVNWSGSHKGTGIYLSSSQPSDEISFLQFDDIKAVGLHTALEVRVTKPSSGYSWVNANNFMNVTIDDCVRGIWMNSSKTIPNEASGNNFTNLQIQLSSNSRSAVRVTGDYNYLQGMIWDAYLASQMGDLVHLTSNSSHTECRLRGNHSVLDQGTDNTY				NA	NA	NA	NA	NA
AK012_02903	1221	bcr_2		Bicyclomycin resistance protein	ATGAATCACACAGAAGCTTATCAGGAAAACACGAATAAACGGAGTCCTGTTGCTGTATTTATTTTTATTTTAGGATCATTGAGTGCCTTCGGTCCGTTGACCATAGATATGTATCTTCCAGCGCTTCCCACAATAGCAGATGAGCTTGGAACGACAACATCAATGACCCAGCTCAGTTTGACGGCCTGTTTGATCGGCCTTGCTGTCGGTCAGCTTGTGATGGGGCCGTTAAGTGATGTCCGAGGGCGTAAAAAGCCGTTGATCATTGCGCTCGGAGTGTATATGCTGGCTTCATTTTTATGCTTGTTTACAGGTTCCATCTGGAGCTTTGTGACTTTGAGGCTCCTGCAGGGATTGTCCGGCGCGGCCGGACTGGTCATTTCAAGAGCAACAGCCAGAGATTTGTTTTCAGGACCTGAGCTCACGAAATTCTTCGCCCTGCTCATGCTTGTAAACGGTCTTGCCCCGATTCTTGCACCTGTAGCGGGTGGACAGCTGCTGCAGGTGATGCCGTGGCGTGGCATTTTCGGCGTGCTTACGGGTCTCGGCCTTATTATGCTTCTTGCTTCAGCTTTGTTTTTAGAAGAAACACTTCCTGAGCAGAACCGTAAAACAGGGGGACTGAAGGAGACCATAGAGACGTTTGGTTCATTGATCAAAGACCGGACCTTTATGGGCTATGTGTTAAGTAAAGGGTTCATTATGAGTGGGATGTTCGCTTATATTTCCGGTTCGACCTTTGTTCTTCAAGAAGTGTATGAATTATCCGCCCAGCAGTTCAGTCTTGTTTTTGCAGTGAATGGACTGGGCCTTGTGGCGGCGACGCAGCTTACCGGATGGCTCAGTCAAAGAATCAGCGGCACAGCCTTGTTCCGCTATGGACTGCTTCAAGCGTTTGTTGGTGGGATTCTACTTGTCGGTGCGGCCCTGATGGAAGCCCCTGTGATTCTGATATGTTTGACACTTTTCCTTGCTGTGACAAGTGTCGGGATCGTCAATACGACGGTTTTTGCACTGGCTATGGAAAATCAGGCTGCGCAGGCTGGTAGTGCCTCAGCGCTGCTGGGGCTGCTGCCTTTCTTACTCGGAGCCATCGCTTCACCGCTCGTCGGTCTTGGGGACGGCGCCCTTCCAATGGCTCTTGTCATTGCTTCCTGCTCAACCGCAGCTGTGTTGTTTTATATGTTCCTGAACCGCCCTGTGAAACATTCGGTTTCCTGA	MNHTEAYQENTNKRSPVAVFIFILGSLSAFGPLTIDMYLPALPTIADELGTTTSMTQLSLTACLIGLAVGQLVMGPLSDVRGRKKPLIIALGVYMLASFLCLFTGSIWSFVTLRLLQGLSGAAGLVISRATARDLFSGPELTKFFALLMLVNGLAPILAPVAGGQLLQVMPWRGIFGVLTGLGLIMLLASALFLEETLPEQNRKTGGLKETIETFGSLIKDRTFMGYVLSKGFIMSGMFAYISGSTFVLQEVYELSAQQFSLVFAVNGLGLVAATQLTGWLSQRISGTALFRYGLLQAFVGGILLVGAALMEAPVILICLTLFLAVTSVGIVNTTVFALAMENQAAQAGSASALLGLLPFLLGAIASPLVGLGDGALPMALVIASCSTAAVLFYMFLNRPVKHSVS	PGPT0029005_2305	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
AK012_02904	822			hypothetical protein	ATGAAAAGAACGTTTACGATCGGCCAAATGTCCAAACTGAATAACATTTCGGTCAAAACCCTTCGTTATTACGATGATATCGGTCTGTTCGTTCCTTATGAAGTGGATGAACAGACAGGATACAGGTATTATTCGATTGAACAATTCAAGAAACTGGACATGATCACTTTTTTGAAAAATATGGGTGTGCCGCTCCGGGAAATCAAGAGAAAGGTCGAGCACAGTACAGTGGATGAATTCATTGAAGTGCTGGCGGAGTACAAACAGAAAAATGAAGAGCTGATTGAAGATCTTACTCGTATGAACCGGCTTCTTCATCAGAAGATATCGGAACTCGAATCCTCCAAGGATCATCGGGTTAGAAATCAGACGAACGTGGACTTCTTTCCAGAACGTTCGATCATTGAAGTGCGGGGACGATTTGGAAAGCTGGATGATGTAGAAGAGGTTCTCCGTACGTTGAAAAAGCAGGTGAGTGCTAAATCTCCAATCATGGTCGGCACGGTTGGTATGGTCGTAGAACAGGCGGATGTTTTTAAATCGGAGTCTGTCGATTACAGTGCTGTTTTCATCACCTTGGATGAAAATCAGGAAGAATCACACGATAAACGGAAATTTCTCGAGGAAGGCTTTTATGCGGCATCCTATGTGAAAGCGCAGGAAAGCCGGAGTCCGGAAGTTTATCAGAGAATCCTGGAAAGCATTGAGAATGCCGGTTGGAAACCGGACGGGCCGTTTCTCGTCCGTACCATCGTGGAATCGTTTATTTCTCATAAGGAAGAAGAACATACCAGGGAAATTCAAATGAAAGTGAAACAGTAA	MKRTFTIGQMSKLNNISVKTLRYYDDIGLFVPYEVDEQTGYRYYSIEQFKKLDMITFLKNMGVPLREIKRKVEHSTVDEFIEVLAEYKQKNEELIEDLTRMNRLLHQKISELESSKDHRVRNQTNVDFFPERSIIEVRGRFGKLDDVEEVLRTLKKQVSAKSPIMVGTVGMVVEQADVFKSESVDYSAVFITLDENQEESHDKRKFLEEGFYAASYVKAQESRSPEVYQRILESIENAGWKPDGPFLVRTIVESFISHKEEEHTREIQMKVKQ				NA	NA	NA	NA	NA
AK012_02905	963	yclQ	COG4607	Petrobactin-binding protein YclQ	ATGAAAAAAGTATGGTTGTTCGGTTTGTTTATTGCTGCTGTTATGTTTTTGGCGGCCTGTTCATCTCAGGGAGAAGGGAACAGTGCGGAAGCTGAAACGGATAATGAATCGGAAGAAACGAATGAAACTTTTACTATTGAACATGAATTAGGTACAACAGAAGTGCCGGCAAACCCTGAAAAAATAGCTGTTTTCAACTATGGTACACTGTCTGCGCTGGATCAGCTTGGAATTGAAGCGTCAGGTGTGGCAAAATCAAGTAACATCCCTTCGTATCTTTCCAAGTATGAAGGTGAGGACTATACGAATCTTGGAAGTTTGAAAGAGCCGGATTTTGAAACGATATATGAAATGCAGCCGGATCTGATCATTATTGCCGGACGCCAGGGAGAGGCCTACGAAGAACTGAAGGACATTGCTCCAACGTTATATCTATCGGCTGATCCAGCTGATTTTATGGCATCCTATAAAGAGGGCATGGAAACACTGGGGCAGATTTTTGATAAGGAAGATGAAGTCCAGACCAAGCTTGAGGAACTTGATGAAACCGTCGCGTCTATGAAAGAAACAGCGGAAAGCAATGGACAGGATGGTCTTGTTGTTCTGTCTAACGGTGGAAAGGTGAGTGCCTATGGTCCTGGATCACGTTTCGGTATGCTTCATGATGTATTCGGAGTGAAGCCGACAGCTGATGATATCGAATCATCTACGCACGGGATGGATATTTCTTTTGAGTATATTGCGGAAAAAGATCCGTCCTACCTGTTCGTTGTCGACCGTGATCAAGTGGTTAACGGAGAATCCGCAGCAGCTGAAACATTGAATAACGACTTGGTAAACGGTACGACAGCGGCTCAAAATGACCAGATCATTTATTTGGATCCTGAATTGTGGTATCTATCAAGTGGACTTCCTCCGATCGACCTTATGGCTGAGGAAGTGAAGAGTGCTTTGGAAGAATAA	MKKVWLFGLFIAAVMFLAACSSQGEGNSAEAETDNESEETNETFTIEHELGTTEVPANPEKIAVFNYGTLSALDQLGIEASGVAKSSNIPSYLSKYEGEDYTNLGSLKEPDFETIYEMQPDLIIIAGRQGEAYEELKDIAPTLYLSADPADFMASYKEGMETLGQIFDKEDEVQTKLEELDETVASMKETAESNGQDGLVVLSNGGKVSAYGPGSRFGMLHDVFGVKPTADDIESSTHGMDISFEYIAEKDPSYLFVVDRDQVVNGESAAAETLNNDLVNGTTAAQNDQIIYLDPELWYLSSGLPPIDLMAEEVKSALEE	PGPT0003765_8049	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
AK012_02906	759	yclP	COG4604	Petrobactin import ATP-binding protein YclP	ATGGTAGAAGTGAAACATGTATCAAAAACGTATGGCTCGAAAAAAGTCATAGAAAATTTATCTGTGGATATCCATCCCGGAAAAATCACATCATTCATAGGATCGAACGGGGCAGGGAAAAGCACCCTGCTTTCCATGCTCAGCCGGCTGATTTCCAAGGATGAGGGCCGGGTGCTTCTGCACGGCCGGGATATTCATTCAATTAAGCCGAACGATCTGGCTAAAGAGCTTTCCATCCTGAAACAGTCCAATCATATTGATCTGAGAATCCAAGTCCGTGATTTGATCAGTTTTGGACGCTTCCCTTACTCGCAGGGGCGTTTAACAAAAGAGGACTGGGTGGAAATCAACAAAGCCATCCATTATATGGAGCTTGAGGAGATCCAGGAGCGTTATATCGATGAGTTGAGTGGCGGTCAGCTGCAGCGGGCTTACATTGCCATGATCATTGCACAGGATACGGACTACGTGATGCTCGATGAACCTTTGAACAATCTGGACATGAAGCATTCCGTACAAATTATGAAATCGCTGAGGAAAATGGTCGAGGAAATGGGAAAAACGGTGGTCATTGTGATTCACGACATTAACTTTGCCTCCTGCTACTCCGACCGTATTGTTGCTTTGAAGGAGGGAGAGATTGTCCGGGAAGGCCCGACGGAGGAAATGATCAATAGTGACATGCTGAAGGAAGTCTACGACATGGATATTCCTGTGCAGATAATTAATGGTGAACGAATTTGTCTACATTTTAAATAA	MVEVKHVSKTYGSKKVIENLSVDIHPGKITSFIGSNGAGKSTLLSMLSRLISKDEGRVLLHGRDIHSIKPNDLAKELSILKQSNHIDLRIQVRDLISFGRFPYSQGRLTKEDWVEINKAIHYMELEEIQERYIDELSGGQLQRAYIAMIIAQDTDYVMLDEPLNNLDMKHSVQIMKSLRKMVEEMGKTVVIVIHDINFASCYSDRIVALKEGEIVREGPTEEMINSDMLKEVYDMDIPVQIINGERICLHFK	PGPT0003760_7548	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
AK012_02907	951	yclO	COG4605	Petrobactin import system permease protein YclO	ATGCTTCTTAAAAAGAAAATGCTCCTGCTTGTGGGGCTGGCTGCCGCTTTTTCAAGCCTCTTTTTGTTCTGGGATATCGGACCGGCCTTTGGCTATGTATTTCCACGCCGGTTGATGAAAGTTGCCGCCATTATTTTGACGGGAAGCTGTATCGCTTTCTCCACCGTCATATTTCAAACGATTACGAATAACCGGATTTTGACGCCGAGCTTAATCGGACTCGATTCTTTGTACATGCTGATCCAGACGGCCATCGTGTTTGTGTTCGGCGGGCAGCAGCTGGCGATGATGGAGAATCGATTCCACTTTGTGTTGTCTGTAGGTTTAATGGTTCTGTTCGCTCTGCTTCTGTTCAGGCTTGTTTTCAGAATGGAGCAGCGTAACATTTACTTCCTGCTTTTGATCGGAATTATATGCGGGACCTTTTTCAGCAGCATCTCTTCCTTCATGCAGATGCTGATTGATCCGAATGAATTTTCGATTGTTCAGGATTCCATGTTTGCCAGCTTCAACAATGTCAATGATGACCTGCTTGGTATTTCTGTCATCATTATTATTCTAACCGGGGTTTATGCTTTGCCTATGTTGAAATATTTGAATGTCATGGCCCTCGGACAGGACCAGGCCGTGAACCTCGGAATTCCTTATAACAAAATTGTCCGGCGCTGGCTGATCATTATTGCTGTCCTTGTTTCTGTATCGACAGCATTGGTAGGTCCGATTACATTTCTCGGACTGCTTGTCGCCAACGTCGCACATCAGCTGTTTCAAACCTACCGCCACAGCTATTTGATTATTGGAGCCGTTTTGATCAGCATCATCACACTGGCAGGTGGGCAGTTTATCGTCGAGCATCTGTTCACATTCTCGATTCCAATCAGTGTCATCGTAAACTTTGTCGGCGGTGTTTACTTTCTTTACTTATTGTTGAAGGAGAATCGTTCATGGTAG	MLLKKKMLLLVGLAAAFSSLFLFWDIGPAFGYVFPRRLMKVAAIILTGSCIAFSTVIFQTITNNRILTPSLIGLDSLYMLIQTAIVFVFGGQQLAMMENRFHFVLSVGLMVLFALLLFRLVFRMEQRNIYFLLLIGIICGTFFSSISSFMQMLIDPNEFSIVQDSMFASFNNVNDDLLGISVIIIILTGVYALPMLKYLNVMALGQDQAVNLGIPYNKIVRRWLIIIAVLVSVSTALVGPITFLGLLVANVAHQLFQTYRHSYLIIGAVLISIITLAGGQFIVEHLFTFSIPISVIVNFVGGVYFLYLLLKENRSW	PGPT0003770_11055	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
AK012_02908	873	yclN	COG4606	Petrobactin import system permease protein YclN	ATGGACATTGGCGGGCTGACCTCCCAGCAGCAGGAGATTCTGTTTGTCAGTCGGATTCCAAGGCTGCTCAGTATTCTGATTGCCGGGATGAGCATGAGTGTCATCGGCTTTATTATGCAGCAGCTGAGCCGGAACAAGTTCGTTTCACCGACAACGGCCGGGACGATGGACTCTGCGAGGCTCGGCATTCTTGCCGCGCTTATCCTTTTCCCGACAGCGAGCATGCTGATGAAGGTTTCCATCGCTTTTGTGTTTGCGCTGGCCGGGACATTTCTATTCATGAAGATTCTCGACCGGATCAAATTCAAGGACACCATTTTCATCCCGCTCGTCGGTTTGATGTTCGGGAATATCGTTGGGTCTCTGACAACGTTCATCGCCTACCGTTTTGATATGATCCAGAGCATCGGCTCTTGGCTGCAGGGAGATTTCTCGATGATATTAAAAGGAAGGTACGAGCTGTTGTATTTGAGCATTCCGGCTTTGATTCTGGCCTGCTTCTATGCCAACCGCTTTACAATCGCCGGGATGGGCAGGGACTTTGCGAGCAACCTGGGGCTCCAATACAAACAGATCGTAAACATCGGTCTTGTCATTGTCGCGTTCGTATCGTCCATTGTTCTGCTGACGGTCGGCTCTCTGCCGTTTCTGGGCTTGATCATTCCGAATATCGTGTCCATCTATCAGGGAGACCACCTGCAGAAAAATCTGATCCACACCGCTCTCTTGGGAGCCCTTTTCGTTCTTGTATGCGACATTCTTGGACGTGTGTTGATCTTCCCATATGAAATATCCATTGGTTTAACGGTGGGCGTTCTTGGAAGCGGCATCTTCCTGTTTCTGCTGTTAAGGAGGAATGCTTATGCTTCTTAA	MDIGGLTSQQQEILFVSRIPRLLSILIAGMSMSVIGFIMQQLSRNKFVSPTTAGTMDSARLGILAALILFPTASMLMKVSIAFVFALAGTFLFMKILDRIKFKDTIFIPLVGLMFGNIVGSLTTFIAYRFDMIQSIGSWLQGDFSMILKGRYELLYLSIPALILACFYANRFTIAGMGRDFASNLGLQYKQIVNIGLVIVAFVSSIVLLTVGSLPFLGLIIPNIVSIYQGDHLQKNLIHTALLGALFVLVCDILGRVLIFPYEISIGLTVGVLGSGIFLFLLLRRNAYAS	PGPT0003770_10672	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
AK012_02909	888	fda		Fructose-bisphosphate aldolase class 1	ATGAACACCCGTCATTTTGAACGAATGAAAAATGAAGAAGGATTTATCGCTGCACTGGACCAGAGCGGTGGAAGCACACCTAAGGCTCTTGCTGCCTATGGCGTACACGAGGATGCTTATGCCAATGAGGAGGAAATGTTCAACCAGGTCCACCAGATGAGAACAAGAATTCTCACCTCCCCTTCCTTCAATGCAGAACAGATTCTTGGAGCCATCCTATTTGAACAGACGATGGACCGTGAAGTGGAAGGGAAATTCACAGCGGACTACCTTTCTTCCAAAGGCATCGTTCCTTTTCTTAAAGTGGACAAAGGACTTGCAGAACAGGAAAACGGTGTCCAGATGATGAAGCCGATCCCTGACCTTGATGATATGCTGCGACGTGCCAATGAACGCAACATCTTTGGTACAAAAATGCGTTCTGTCATTCACGAGGCGAATTATGACGGCATCAAAGCTGTCGTCGACCAGCAGTTTGAAGTCGCTAAAGAAATTCTTGCTGCCGGCCTTGTACCAATCATTGAACCGGAAGTAGACATCAACAGTGCGGAAAAAGAAAAATGTGAGGATATTCTGCGCGGTGAGATCCTCAATCAGCTTAATCAGCTGCACGAAGATCAAAACGTGATGCTGAAGCTGACGATCCCTACGAAACCGAACGCGTACCAGGAAATCATCAATCATCCACGTGTGGTCCGTGTTGTCGCTCTTTCCGGTGGATACTCCCGTGAAGAAGCCAATGAAAAGCTGAAGGATAATGAAGGTTTGATCGCAAGCTTCTCCAGAGCCCTTGTCGGCGATCTGCATGTGGATCAGTCACAGGAAGAGTTCGACCAGTCCCTGAATCATTCCGTAAGCTCCATTTATGAAGCTTCCGTCAATAAATAA	MNTRHFERMKNEEGFIAALDQSGGSTPKALAAYGVHEDAYANEEEMFNQVHQMRTRILTSPSFNAEQILGAILFEQTMDREVEGKFTADYLSSKGIVPFLKVDKGLAEQENGVQMMKPIPDLDDMLRRANERNIFGTKMRSVIHEANYDGIKAVVDQQFEVAKEILAAGLVPIIEPEVDINSAEKEKCEDILRGEILNQLNQLHEDQNVMLKLTIPTKPNAYQEIINHPRVVRVVALSGGYSREEANEKLKDNEGLIASFSRALVGDLHVDQSQEEFDQSLNHSVSSIYEASVNK	PGPT0017635_2175	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
AK012_02910	933	prs_1	COG0462	Ribose-phosphate pyrophosphokinase	ATGAGCATGAAGCTGTTTACGCTTAACTCCAACGAACCGTTGGCAGAGGAAATCTCAGATATTCTGGATGTTCCTTTAGGAGAGAGTTCTGTAGTGAGGTTCAGTGATGGTGAAATTCAGATCACGATCGAGGAAAGTGTCCGTGGTGATGATATTTACTTGATTCAATCGACAGCCCAGCCGGTCAATGAACACATCATGGAGCTTTTGATCATGGTGGATGCTTTGAAGAGGGCGTCTGCCAAAACGATTAATGTGGTCATTCCTTATTATGGGTATGCCCGTCAGGATCGGAAAGCACGTCCGCGTGAACCAATTACAGCCAAATTGGTTGCCAATCTGTTGGAAAAAGCGGGCGTATCAAGAGTCGTGGCTCTTGATCTGCATGCACCCCAGATTCAGGGATTCTTCAACATTCCGGTCGATCAACTGCTCGGCATTCCGATTATTGCTCAGTATTACAAGGAGAAAAACATCGAGGATGTCGTCGTTGTCGCTCCTGATACGAGTGGTCTGCGCCGGGCACGCCGCATGGCGGATATTCTGGATGCGCCGATAGCCTTCGTGGATAAACGCCGTCCTGAACCAAATATGGCAGAAGCCTTGAATGTGGTTGGAAACATTGAAGGGAAAAATGTCATTATCGTGGATGATATGATTGATACAGCTGGAACCATCGATCAAGCGGCTGCCGCTCTTCTTGAAAAGGGAGCCAATGATATATACGCATGCGGCACCCATGCCGTATTGTCCGATCCTTCAGTGAAGATCATCGAGGATTCACCGATCAAGGAATTGGTCGTGACGAACTCCGTTTATCTTCCTGAGGAAAAGCGTATCGATAAGATTGTATCTCTATCCGTTGCCCCGTTGTTTGCCGATGCGTTGACACGTGTACAGAAAGAGCAGTCCGTGAGTGTACTGTTCGATTAA	MSMKLFTLNSNEPLAEEISDILDVPLGESSVVRFSDGEIQITIEESVRGDDIYLIQSTAQPVNEHIMELLIMVDALKRASAKTINVVIPYYGYARQDRKARPREPITAKLVANLLEKAGVSRVVALDLHAPQIQGFFNIPVDQLLGIPIIAQYYKEKNIEDVVVVAPDTSGLRRARRMADILDAPIAFVDKRRPEPNMAEALNVVGNIEGKNVIIVDDMIDTAGTIDQAAAALLEKGANDIYACGTHAVLSDPSVKIIEDSPIKELVVTNSVYLPEEKRIDKIVSLSVAPLFADALTRVQKEQSVSVLFD	PGPT0021480_4813	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
AK012_02911	1803			hypothetical protein	ATGATAATGATAGGTAAACGTTCATCTCTGCTGATCATGGCTTTTCTTCTTGCTGTGCCCGCCGCCCCTGCTTCTGCTGAAGAAGATGGAAAAGCGGAGGAAGGCAGTTTCTCTGAAAAGCGTGAAGTCGTATATGCCACTTTGAATGCAGATGGAAGCCAGAAAGACATGTATGTAGTCAATAACTTTGATATTGAAGATCCGGGAACCATTGTCGATTACGGCCCATATTCCAGTGTGGAAAATTTAACGAATGTAAATGAAATCAAACAGAAAAACTCGCGGATTGAAGTGAGAGCTGAAGAAGAGGAGTTTTATTACCAGGGGAATCTTGAAGATCAAAATCTTCCTTGGAACATCAACTTTTCCTATAAGCTGGATGGAGAAGAGATCAATCCGGAAGAACTTCTTGGAAAGGATGGACAGCTGGAAATCGGTATCGAGACGTCAGAAAAAGAAGGAACCGATCCTGTCTTTTTCAACAACTATACCGTGCAGATTACGGTTCCGTTAGATGCCGAAATCTTCGAGAATATTGAGGCACCGGACGGAACGGTCGCCAATTCAGGGAAAGACAGGCAAGTTACGTTCACGGTTCTTCCTGAGAAAGAAGAAAGCTTCAAGGTGACAGCCGATGCTGAGAATATCGAAATGGACAGCATCGAAATGGCAGCGGTGCCTGCCTCTTTATCCATGGAAGAGCCAGATATTGATGGCGTGAAGAAGGATATGAATTCACTCGCGGATGCAACCGCCGCTATCAATGATGGAGCTTCCGGCCTTGCCGACGGGATTGCTGAACTGAATAACGGAACAGCGCAGGTCTATAGTGGATCAGAACAGTATTTGAACGGCATCCAGGAATTGAACAGTGGTTCGGCTTCCCTTGTCGAAGGTTCTGCCTCGATCAAAAGTGCGCTTGCGGAAATGAGCCGACTGGCTTCACAGGGGCCGGGGGATTTGAACCTTGGAGACCTCTCACAAATGCAGGAGAGCTTGAGAGAACTCTCTTCCGGCCTTCAGAAAGCTGAAGATGGCCTGGTTGATTTGAGAACAAACTATACCAATGCTCACGATCAACTGGATGAGGCGATGGCCTCCATTCCGGGGTATGAAGTGACTGAGGAGGATATCCAGGCGCTTCGTGAGTCAGGAGTCGATCAGGAAGTGGTCGATCATCTCATTGAAACGTATCACGCAGCTCAGGAAGCCAAAGCGGTCTATGGAGATGCAGAAGGCGCATTTGATGCGGCAGGTCCTGCCTTGGATCAGGCAGTAGCTTCCTTGAGTGAGATCAATGATCAGCTCGCAGCGGCTGCGGATACGATCGAAACAAATCTAGGCAGTGTGAATGTCGATGAATCCATCAAGGAACTGCAGCAGGGCATACAGGATTTCTCCTCCCAGTACAATGATTTTCATGCCGGACTTGTAGACTATACGAACGGTGTCGGACAGCTGGCCGGATCGTATGAAGAGGTGCATGCCGGTATCGGTGGTTTGACGAGTGGAACGGCAGACTTGCAATCCGGAGCTGCTGATCTTCAGAATGGTACAGCAGAACTTTCTGCCTCCACGAGTGATCTGCCTGAGGAAATGCAGTCGGAAATCGACCAGCTGATGAGCGAATATGATTATTCCGATTTCGAACCGGTCTCTTTTGTTTCCGAAGAGAATGAGAATATTGAATCCGTTCAATTTGTCATCAAAACAGAAAGTATCAAAAAAGAGGAGCAGGAAGAAGAGCAGGATCAGGAAGACGAGAAAAGTCTCTGGGACCGCTTTTTGGATCTGTTCCGCTAG	MIMIGKRSSLLIMAFLLAVPAAPASAEEDGKAEEGSFSEKREVVYATLNADGSQKDMYVVNNFDIEDPGTIVDYGPYSSVENLTNVNEIKQKNSRIEVRAEEEEFYYQGNLEDQNLPWNINFSYKLDGEEINPEELLGKDGQLEIGIETSEKEGTDPVFFNNYTVQITVPLDAEIFENIEAPDGTVANSGKDRQVTFTVLPEKEESFKVTADAENIEMDSIEMAAVPASLSMEEPDIDGVKKDMNSLADATAAINDGASGLADGIAELNNGTAQVYSGSEQYLNGIQELNSGSASLVEGSASIKSALAEMSRLASQGPGDLNLGDLSQMQESLRELSSGLQKAEDGLVDLRTNYTNAHDQLDEAMASIPGYEVTEEDIQALRESGVDQEVVDHLIETYHAAQEAKAVYGDAEGAFDAAGPALDQAVASLSEINDQLAAAADTIETNLGSVNVDESIKELQQGIQDFSSQYNDFHAGLVDYTNGVGQLAGSYEEVHAGIGGLTSGTADLQSGAADLQNGTAELSASTSDLPEEMQSEIDQLMSEYDYSDFEPVSFVSEENENIESVQFVIKTESIKKEEQEEEQDQEDEKSLWDRFLDLFR				NA	NA	NA	NA	NA
AK012_02912	1959			hypothetical protein	GTGTCCGTCAACTACAATATGATTGATTACCTGCCGGAGGACGCCCCTTCGATTGAAGCGGTGGACTTGATGGAGCGGGAATTCGATGAACCGGTGGAAAATGCCCGGGTCATGATTGAGGATGTTTCGATCACCGAAGCGCTCAGCTATAAGCAGCAGCTGGAGAACGTGGATGGTGTCGAAAGTGTCACATGGCTCGATGATATCATCGATGTGAAAGTACCATTGGAGATGGCTTCTGCGGATACTGTTGAATCCTATTACCTGGATCAAAAAGCACTCTATTCCCTTCACATTGAGGAAGGGGAGGAAGTTGCAGCCACAGACGCGATTTACGAACTGATTGGAGAAGAGAACGCGGTAGCTGGTGAAGCTGTTAACACAGCCGTCTCGCAGAAAATGACAGGCAGTGAATCGATGTATGCGGCAGCACTGCTCGTTCCAATCATCATTCTGATTTTAATTTTATCGACGACCTCATGGATGGAACCGGTCTTCTTCCTCGTGGCGATTGGTGTATCCGTCCTGATTAATTTAGGCACCAACATTTTCATCGGAGAGATATCCTTTGTCACGCAGTCGGTCGCTCCGATTTTACAGCTGGCCGTTTCGCTCGACTATGCGATATTCCTCCTCCACAGCTTTTCGGATTACCGGAAGGAAGTCGAGGATCCGAAGGAAGCGATGCAGCTGGCGATGAAACGTTCTTTTCCGGCGATTGTCGCGAGTGCCTCGACAACATTCTTTGGATTTACCGCCTTAACCTTCATGGACTTCGGTATCGGCGCCGATCTGGGATTGAACCTTTTGAAAGGAATACTTCTCAGCTTTATCAGTGTGATGGTCTTCCTGCCTGCGCTGACGATGATGTTTTATCATTGGATCGATAAGACCAAGCACCGTCCGTTTGTACCTGATTTCAAGGGGATCGGCCGTCACGTGATGAAGCTGCGTCTGCCGAGTTTTATTCTGCTTCTGATCATCATTGTGCCTGCTTTTCTGGCTCAAAATGAAACGAGCTTTATTTATGGAACAGGAGAACAGCCGGAGAACACAAGAGCCGGTCAAGATGTAGCCGCCATCCAGGATTCTTTTGGCAAGAACATCCCGATGGTTCTTCTCGTACCTGAAGGAGACCGGGCGAAAGAGGAGGAGCTTGTTCAGGACCTGGAGCAGCTTACAGATGTCTCGAGCGTCGTGTCCTATGTCAATATCGTCAGCCCGGCGATTCCACCTGAGTATTTAGAACAATCCGTGACCGAAACGTTTTATTCCGAGCATTACGCTAGAATCACCTTATATACAGAAACCGATGCGGAAGGTGAAAAGGCCTTTTCTCTTATTGAAGAGGTGAAAGAAACCGCAGATGGCTACTATGAGGAGACCCATCTGCTGGGGGAAAGCGTGACGTTGTATGATATGAAAAATATTGTGCAGAAGGATAATACCCTTGTGAACTGGCTGACAATCGCTGCGGTTGCGGCTGTATTGATTCTTACGTTCCGGTCTGTTTCCATTCCGGTCGTCCTGCTTATTACGATTCAGGCCTCGGTATGGGTGAACCTCGCTTTTCCATATTTCATGGATACGCCGCTCGTCTATGTCGGGTATCTATTGATCAGCACGATTCAATTGGCAGCGACCGTGGACTATGCCATTTTATTTACGGAGAATTACAATCATCTGCGGAAAGACATGTCAGCGCTTGAGGCGATTAAGAAAACGATTGATGACAAGATTTTCGCCATTTTTGTATCGGCTTCGATATTGTCCAGTGTCGGCTTTATTTTATGGATGACCTCAACGAATCCGATTGTGTCGTCCATTGGTCTGCTGCTGGGGAGAGGAGCGCTGCTCGCGTTTCTGATGGTCGTCCTCGTCCTGCCTGCCCTTCTTGTGATTCTGGATCGGTTGATTGAAAAAACGACATGGAAAGCAAACTTTTATAAGGGGAAATGA	MSVNYNMIDYLPEDAPSIEAVDLMEREFDEPVENARVMIEDVSITEALSYKQQLENVDGVESVTWLDDIIDVKVPLEMASADTVESYYLDQKALYSLHIEEGEEVAATDAIYELIGEENAVAGEAVNTAVSQKMTGSESMYAAALLVPIIILILILSTTSWMEPVFFLVAIGVSVLINLGTNIFIGEISFVTQSVAPILQLAVSLDYAIFLLHSFSDYRKEVEDPKEAMQLAMKRSFPAIVASASTTFFGFTALTFMDFGIGADLGLNLLKGILLSFISVMVFLPALTMMFYHWIDKTKHRPFVPDFKGIGRHVMKLRLPSFILLLIIIVPAFLAQNETSFIYGTGEQPENTRAGQDVAAIQDSFGKNIPMVLLVPEGDRAKEEELVQDLEQLTDVSSVVSYVNIVSPAIPPEYLEQSVTETFYSEHYARITLYTETDAEGEKAFSLIEEVKETADGYYEETHLLGESVTLYDMKNIVQKDNTLVNWLTIAAVAAVLILTFRSVSIPVVLLITIQASVWVNLAFPYFMDTPLVYVGYLLISTIQLAATVDYAILFTENYNHLRKDMSALEAIKKTIDDKIFAIFVSASILSSVGFILWMTSTNPIVSSIGLLLGRGALLAFLMVVLVLPALLVILDRLIEKTTWKANFYKGK				NA	NA	NA	NA	NA
AK012_02913	567			hypothetical protein	ATGAGTGAAAAAATGGACCGCCGCAAACAGTATACCCGCCGCGTACTGAAGGAAAGTCTGATCCACCTGCTGAACGAGAAGCCGATCGCTGACATTACTGTAAAAGAGATCTGTGCACGGGCGGACATCAACCGCTCCACTTTCTACACCCACTATTCCGACCAGTACGACCTGCTGGGTCGGATTGAAGAGGAAATTACAGCCGATATGAACACCTACCTCAGTCAATATGATCATGAACTTGAGGAAGAATCGATTCAGATGACAGAGAAGATCCTTACGTATGTCCTTGAAAATAAGCTCATTTTTCAAACGCTGCTGAAAGGCGAAGCAGCTCCCTCCTTTGAAAAACGGATGATGAATTTGACGAGAGGATTCATGCTGGATAATTTAACATCGGATAAGGTCATTTCCAAACAGGAATCCGAGTACGTCAGCACGTTTGTGATCAGCGGCGTTATCCATGTCATTAAGGACTGGATACAGAACGACATGGACCAGCCGCCAGAGGAAATGGCTGTGATGGTCAATCATTTCATCCTCCACGGCCTTTCCCATTTTGAATAA	MSEKMDRRKQYTRRVLKESLIHLLNEKPIADITVKEICARADINRSTFYTHYSDQYDLLGRIEEEITADMNTYLSQYDHELEEESIQMTEKILTYVLENKLIFQTLLKGEAAPSFEKRMMNLTRGFMLDNLTSDKVISKQESEYVSTFVISGVIHVIKDWIQNDMDQPPEEMAVMVNHFILHGLSHFE				NA	NA	NA	NA	NA
AK012_02914	354			hypothetical protein	ATGAAGCTTGTCGATATTTACCGTGTAAAAACGTATGTGATTCCAGAGTATGCGGACAAAGTCATTCAAAGTGTGTTGAGCGTGGATGAACTGCAGGTCGGTCAGTACAAGAATGTGATGTGGCAGACGAAGGATGGGATGGAGCAGTTTGTCCCATCCGGCACTGCCGTACCTACGGAAGGGAAAAAAGGAGAAAAGGAACGGGTGACTTCCTTCCGCATTGAATTTTCCATACCGAGGGACGAGGGGCTGCTGACCAAAGTGATTGAGCAGGGTATTTATGCCGCTCACCCATGGGATGAGCCTGTCGTGCAGGTAACCGAAGAACGAGAAGCCAGAAAACATGAATCATGA	MKLVDIYRVKTYVIPEYADKVIQSVLSVDELQVGQYKNVMWQTKDGMEQFVPSGTAVPTEGKKGEKERVTSFRIEFSIPRDEGLLTKVIEQGIYAAHPWDEPVVQVTEEREARKHES				NA	NA	NA	NA	NA
AK012_02915	2235			hypothetical protein	ATGAAGAACATATGGAAAATATTCAGCAGAGACTGGAAAAATACCGCCACGAACTGGGTAGCGTTGATTTTGATTCTGGGACTCGCTGTCCTTCCTTCCCTGTATGCCTGGTTCAATATCAAGGCATCGTGGGACCCTTACAGTCAGACGGATCAGCTGCCTGTAGCCGTGGTCAATGAAGACCAGGGGGCCGTTGTCCGTGATAAGGATATCGATGTCGGTCAGGAATTGGTGGATAACTTGAAGGATGAAGAAAGTTTCGACTGGCAGTTTACAGATCGTGATGAGGCCATGGATAAGCTGGAATACGGGGATTACTATGCTGTCATTGTCATCCCGGATACCTTTTCTGAACACTTAGGAACAGTCGTTGAAGGAAATCCGGAAAAGTCGGAAGTTCAATACTATGTGAACGAAAAGATTAATGCCATCGCTCCTAAGATCACTGAAAAAGGAGCCACCGTGCTGGTCGATCAAATTACCAGCCAGTTCATATCAGAAGTGAACGGGACGGTTGCTGAGCTCTTCAATGATCTTGGACTTGAATTGGAAAACGACCTGCCGGACATTAAACGCTTTGAAGAATACATTTTCAAATTGGAAGAGAATCTACCGGAAATTTATCAATTGATTTCCGATGCTTATGACGACTCCCAGGATGCCTCGTCTGTCATCAACAATGTGCAGGGGCTCATCCCGCAGGCCGAGCAGGCAGCAGGAGAAGGGCTGAGTACCATTAATGAAACGACAGCATTCATTGATGATGCCGAGCAGCGTTTGAACGAACTTTCACCACAGGTGAAGGAAGATTTGAACGCGGCCCAGCAGACAGCTGAGGACGTGAATGCCTTCTTGAAGGAGGCCCGGTCGGTTGATGTGAATGTGGAGTCGATTGGTGAAATACGCAATCAAATCAACAGCCGGACGACTCAGTCCCTGGAGGAAATCGCTGCGGTCGAAGAGCTTCTTCAACAAGTGAAGGAACAGCAGCAGGCCAGTCAACCGAATGAAGAAAACCAGGAAGACAATGGGGAAGAGGGGAATGAAGAAAATACGCCGCAGCCGTCCCCGCAGATTCCTGAGGAAACGATTGACCAGGCGATTGCTGATGTGCAGGCCATTGAAGATGCGCTCACCGCTATTCAAGAAGACAGCAGTCAAATCGGCGATCGATTATCGGAAGCCCAGGAAAATATCGATCAAACCCTCTCCTCCCTTGAAGAAAAGTCGGGAGAAACAGCGGATCAGATTGATGCTTTCTTGAAAGAATACAATGAAAACATTGAGCCGCAGGTGCTTGCGGAAATCGATAAAGCCCAGAGCACACTCGCAAATGCCCGCTCCATTTTGGTGGATGTGCAATCGACGGTTCCAGAAGTCGAGCGTATTCTGAACAGCACGGAGGGGAACATTGCCGAAGGGCAGGATATTCTCGAGTACATGATGAATGAATATCCGTACGTCAATCAAAAAGTGAATGAAATGGCAGACCGGATTCGTGATATCCAGGGAGAGACGGATATCAACGAAATCATCGAGCTGTTGAAAAATGACCCGTCAGCCGAGGAGAACTTCTTTGAAGAACCGGTCACTTTAAGCAAAAATGCCTTGTTCCCGATTGAAAACTACGGCACAGGCATGACACCGTTCTATACGGTCCTGTCCTTATGGGTCGGTGCTCTGCTGCTGGTATCGTTACTGTCTACGGATCCAGTCAACCTTCAGGAATACCGGAGCTATGAGCAATACTTCGGTAAACTCGCAACATTTGTGAGTATCGGGTTCCTTCAGACACTTGTCGTCACGCTCGGTAATGTATTTCTTCTTGATATCGGGGTGGCCGAAGTTGTTCCGTTTGTCCTGTTCGGGCTGCTGATCAGCTTTGTCTTTATGACGCTCGTCTTCACTCTTGTGTCTGTGCTCGGTGACGTCGGAAAAGCCGGAGCGATTGTCATGCTCGTGCTACAGATCGCCGGATCAGGAGGGACCTATCCCGTGGCTCTTCTTCCTGAGTTTTTCCAGACGATTCATCCATTCCTTCCGTTTTCCTACGCCATCGATTTGATGCGGGAAGCCGTCGGAGGCATTGTGCCGGCACGCGTAAAAACGGATCTGTTGTTTTTAGGTATATTCGGCGGGGTCTTTCTATTGATTGGAATCTTCCTGAAAGGACCGCTGCATAACCGGACAAGACAGGTGAAGGCTAAATCAAGGGAATCCGGACTGTTCCATTAA	MKNIWKIFSRDWKNTATNWVALILILGLAVLPSLYAWFNIKASWDPYSQTDQLPVAVVNEDQGAVVRDKDIDVGQELVDNLKDEESFDWQFTDRDEAMDKLEYGDYYAVIVIPDTFSEHLGTVVEGNPEKSEVQYYVNEKINAIAPKITEKGATVLVDQITSQFISEVNGTVAELFNDLGLELENDLPDIKRFEEYIFKLEENLPEIYQLISDAYDDSQDASSVINNVQGLIPQAEQAAGEGLSTINETTAFIDDAEQRLNELSPQVKEDLNAAQQTAEDVNAFLKEARSVDVNVESIGEIRNQINSRTTQSLEEIAAVEELLQQVKEQQQASQPNEENQEDNGEEGNEENTPQPSPQIPEETIDQAIADVQAIEDALTAIQEDSSQIGDRLSEAQENIDQTLSSLEEKSGETADQIDAFLKEYNENIEPQVLAEIDKAQSTLANARSILVDVQSTVPEVERILNSTEGNIAEGQDILEYMMNEYPYVNQKVNEMADRIRDIQGETDINEIIELLKNDPSAEENFFEEPVTLSKNALFPIENYGTGMTPFYTVLSLWVGALLLVSLLSTDPVNLQEYRSYEQYFGKLATFVSIGFLQTLVVTLGNVFLLDIGVAEVVPFVLFGLLISFVFMTLVFTLVSVLGDVGKAGAIVMLVLQIAGSGGTYPVALLPEFFQTIHPFLPFSYAIDLMREAVGGIVPARVKTDLLFLGIFGGVFLLIGIFLKGPLHNRTRQVKAKSRESGLFH				NA	NA	NA	NA	NA
AK012_02916	1620	mhpA		3-(3-hydroxy-phenyl)propionate/3-hydroxycinnamic acid hydroxylase	ATGTCTTCCATGATTGAAACAGAAGTGTTGATCATTGGAGCCGGGCCTACGGGGTTGATGGCGGCCAATGAATTGAAAAAGCGGGACGTTGATTTCGTCTGTCTGGAGAAACGGGAAGCACCATCGGATCTCTCCAAGGCGCTCGGAATCCAGGCGCGGACGATGGAAATGTTTGAGCTTCTGGGCGTGCACAAGGAATTTCTCGAAAAAGGATATCCCGGACCCGGAGCGAAGCTTCACCTTGGAGGAGAGAAGGCCTCCGTCGTGGAACTGTATCATATTGAAAGCCGCTACCCTTACCTCTTGATCCTTCCTCAAAGTGAAACCGAGCAGATTCTTGAAGACCATCTCGCCTCGCTCGGAGGCACGGTCGATCGCGGGCATGATGTGATGGATGTCCAACAGGATGCGGGCGGTGTGTATGTCAAGGCGTCGTATAACGGTGAAGTAAAGGAATATAAAGCGGACTACTTAATTGCTGCAGACGGCGCCCATAGTAAGGTGCGGGATGCCCTTCATATCGATTTTGAAGGAGAAGATGAAGGGTACACTTTTTTCCTCGGTGATGTCGATGTTCCCGGGCTTGAAGAGATTTTTATTCATATGCACTTGAATGACCGCGGGGCTGTCGCTTTCTTTCCTTACAAAGACGGCAGCTACCGGGTGGTAGGGTTTGACCGTGCCAAGCAGGGTCTTCCCCACAAGGATGAGCTGACAATGGAAGAACTGCAGGAGAGCGTCAATACGGTTCTGAAATATTCCTACCGTCTTGAAAATCCGACATGGCTTTCCTATTTCGGTACCGCTCATCGTCAGGTTCCTGATTATCGGGAGAAGCGGGTGTTTTTTGTTGGAGATGCCGCCCATATTCATAACCCGTTCGGAGGACAGGGGATGAATCTCGGTCTTCAGGACGCTTCCAACCTGGGCTGGAAGCTGGCTTCTGTATTGAAAGGTTTTGCCCAAGATTCATTCCTGGACAGTTATCAGGATGAACGTTTTCCCATTGGGGAGGATGTCTTGAAAGAAACGTCCCGCATGTTGAAAGTGGTGAATCTGGAGGGGACGCAGGGGAAAGTCCGCAACTGGGCTGGAAAGGCAGCGCTGACTCAGGACTGGGTGCAGCAGAAGATTGCCAACCATTTATCCAACATTTATAACGAATATGAAAAGGTGAAGCGCAACAAGGAGTTGAAGGATTCTTCGCTCTCCCGTAAGGCTCTTCAAGCCGGCCGGCGTGTCCCGGACCATCTCTTGTTTTTTGACGGGGCGAAGGATGAACGGCTGTATCCGTTTATCTGTGAATACGGCTTTGTCTGTCTGATTTATATCGATGCCCAGCACCCGGATGTCATTGATTACGCCTACAGTTTTGCCGGGAAAGTGAATGAACAGTACCCCGGCTTGTTGAAGATCTTCCTTGTGGCTAAAGGAGGGACCGTCCATACCGATGGCGATGACCTGCCGATTATCTATGACGTTCACCGCCACATGGAACGGAAGCTGGGAATGAAAAAAGGAAGTGCTCTTATGATCCGTCCGGATGGTCATGTCGCCTTTCATGATACGTCGTTGGATGAAGAAAAGACTCTTCGTAAGCTTCACCAGCTGTTTCAATAA	MSSMIETEVLIIGAGPTGLMAANELKKRDVDFVCLEKREAPSDLSKALGIQARTMEMFELLGVHKEFLEKGYPGPGAKLHLGGEKASVVELYHIESRYPYLLILPQSETEQILEDHLASLGGTVDRGHDVMDVQQDAGGVYVKASYNGEVKEYKADYLIAADGAHSKVRDALHIDFEGEDEGYTFFLGDVDVPGLEEIFIHMHLNDRGAVAFFPYKDGSYRVVGFDRAKQGLPHKDELTMEELQESVNTVLKYSYRLENPTWLSYFGTAHRQVPDYREKRVFFVGDAAHIHNPFGGQGMNLGLQDASNLGWKLASVLKGFAQDSFLDSYQDERFPIGEDVLKETSRMLKVVNLEGTQGKVRNWAGKAALTQDWVQQKIANHLSNIYNEYEKVKRNKELKDSSLSRKALQAGRRVPDHLLFFDGAKDERLYPFICEYGFVCLIYIDAQHPDVIDYAYSFAGKVNEQYPGLLKIFLVAKGGTVHTDGDDLPIIYDVHRHMERKLGMKKGSALMIRPDGHVAFHDTSLDEEKTLRKLHQLFQ				NA	NA	NA	NA	NA
AK012_02917	1905	ltaS1_4	COG1368	Lipoteichoic acid synthase 1	ATGATTTCTAAATGGAAAGCTAAATTGGAAGACCCTGCCAATAAGAAGAAAGTTTTGATTTATACGGCTGTTATGGCTGTTTTCTGGCTGAAGATGTATATCGTCCAGAGCGGCATTTTCAATCTTGATATTGAAAACTTCAATGAAGCGCTGATTCTGGCCTTCAATCCACTCAGCAGTATATTTCTCTTATTTGGTGTAGGGATTCTGCTTGCCGGCCGTAAAGGTATGCTGGCGATGTATATTGTCGGGTCGCTTTTATTGTATTTTAATATTTTGTTTTACAGAGAATATTCGGATTTCCTGACGATCCCTATGCTTGGGCAGGCGGCAAACCTTGCCGGACTCGGAGGAAGTATTACGGATATCCTGTCATGGACAGATCTATTCTTGTTTGTTGATATTTTTGCAGCAGTGTTCCTTCTGTTCTACTTGAACGGAAAACGTTTGACGTCATTCCAGCCGAAGCGTAAGGAAGGTTTCATTCTTGCGGCATTGGCTGTTCCGCTGTTCATCGTGAACATCGGCTGGGCGCAGACGGAGCGTACAGAGCTGCTGCAGCGGGCCTTTGACCGCAATATGCTTGTGAAATATATCGGTGTTCTGAATTTCCACGCTTATGACATCGTCCTGCAGGGGCAGACAGAAGCGAAGAAAACGTTCGCGGACAGCAACGAACTTGTCCCTGTGCTTAACTATTTGAATGAAACGAAGTCCGGTGCCGGCGAAGAAATGAAGGGGGCAGCGGAAGGGAAGAACGTCATCCTTCTTTCCCTGGAGAGTACCCAGACGTTTGTCGTGGACAACACCTTGAATGGAGAAGAGCTGACCCCGTATTTCAATGATTTGAAGGAAGAAGGGGCCTACTTCAGCAACTTCTATCACCAGGTGAAGCAGGGACGTACGTCCGATTCTGAGTTTCTGCTCGATAATTCCCTGTATGGGTTGAACCGCGGGGCGGCCTTCTTTACCCACGCAGGAAATGAGTATGAGGCTACACCGGAAGTTCTGGATAAGGAAGGGTACACATCTTCCGTGATGCACGCGAATGACGCGACCTTCTGGAACCGGAATGTTATGTACGATTCTCTTGGATACGACCGTTTCTATTCGAAAAAAGACTTTGATGTGACCGAAGAAAAATCCCACAGCTGGGGATATATGGACGAGTATTTCTTTGAGGATTCCTTAGAGAAGATGGAACAGATGGAGGAGCCTTTCTACAACAAGATGATTACGCTCACCAACCACCATCCATTCACTCTTCCAGAGGACAAGCAGCTGATTGATAAAGGGGAAACGTCCAGCCAGACGCTGAATAATTACTTCCAGACGATCCGTTATCAGGATGAGGCCTTGAAGCAGTTCGTGGAAGAATTCAAGCAGTCTGATTTGTATGACGATACCGTTCTTGTCATCTACGGAGATCACTTCGGGATTTCTGAAAACCACCAGCAGGCCATGGGTGAATATCTTGATAAAGATATTAACGACTACGAGCAGTTCCAGCTTCAGCGAGTGCCGCTTCTAATGATTGGAGAAGGCATTGAAGGCAAGGAATATGATACGGTCGGCGGACAGATCGACCTTCGTCCGACTCTTATGAACATGCTTGGTGTGGAAGATAATAATCCGATCCAGTTCGGTCAGGACCTGTTCAATGAGGACCGTCAGGAACTGATGGTGACGCGTGACGGGAACTTTGCCAACGAAGAGTATGTCGGCGTCAACGGCACCTGCTATGACCGGGAAACCGGCGAAGAGGTGGAAGACGCAGCTTGTGGAGAAGGATTTGAACAAGCAGAAGAAGAGCTTGCCTTGTCTGACTCCGTCGTATACGGAGACCTGCTCCGCTATCTTGATGAAACAGAGATGATTGAAGAAAAAGAGACGACTGACAAATAA	MISKWKAKLEDPANKKKVLIYTAVMAVFWLKMYIVQSGIFNLDIENFNEALILAFNPLSSIFLLFGVGILLAGRKGMLAMYIVGSLLLYFNILFYREYSDFLTIPMLGQAANLAGLGGSITDILSWTDLFLFVDIFAAVFLLFYLNGKRLTSFQPKRKEGFILAALAVPLFIVNIGWAQTERTELLQRAFDRNMLVKYIGVLNFHAYDIVLQGQTEAKKTFADSNELVPVLNYLNETKSGAGEEMKGAAEGKNVILLSLESTQTFVVDNTLNGEELTPYFNDLKEEGAYFSNFYHQVKQGRTSDSEFLLDNSLYGLNRGAAFFTHAGNEYEATPEVLDKEGYTSSVMHANDATFWNRNVMYDSLGYDRFYSKKDFDVTEEKSHSWGYMDEYFFEDSLEKMEQMEEPFYNKMITLTNHHPFTLPEDKQLIDKGETSSQTLNNYFQTIRYQDEALKQFVEEFKQSDLYDDTVLVIYGDHFGISENHQQAMGEYLDKDINDYEQFQLQRVPLLMIGEGIEGKEYDTVGGQIDLRPTLMNMLGVEDNNPIQFGQDLFNEDRQELMVTRDGNFANEEYVGVNGTCYDRETGEEVEDAACGEGFEQAEEELALSDSVVYGDLLRYLDETEMIEEKETTDK	PGPT0023375_943	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-LIPOTEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023375-ltaS-K19005	NA	NA
AK012_02918	651	yhfK_2	COG0702	putative sugar epimerase YhfK	ATGAAAGTACTTGTTGTAGGAGCAAACGGTCAGGTAGGAAAACATCTCGTACAGAAAATACAAAGTCATCATGATATAGAAGCGGTAGCTATGATTCGTAAAGAGGAGCAGGCTTCCTATTTCAAGGACCTTGGAGCAGAGACGGTGCTTGTCGACCTTGAAGATAACACAGAAAAAATGGCAGAAGCCTTCGATGATGTCGATGCGGTTGTCTTTACAGCAGGATCAGGACCGAATACAGGGCCGGATAAAACCGTAATGATCGATCTTGACGGAGCTGTGAAAACCATTGAAGCGGCCAAACAAAAGGGAGTCAACCGTTATGTGATGGTCAGTTCCTTTGATACGACACGTGAAGCGATTCAAGGAGCGCCGGCGTCCTTCGCTCCGTACGTCATTGCGAAGCATTATGCGGACGACTGGCTGCGTCGTACGAACTTGAATTATACGATTGTCCACCCGGGCATCCTGACAAACGAAGATGGAACCGGTCAGGTGCAGGCAGCGGAAACCGTCGAGCGCGGTGAGATTTCCCGTGAGGATGTCGCTGGAGTCCTGCTTGCTGTACTTGAAAATGAATCAACGATTGGGAAAGAGTTTCAAGTTGTTGGTGGATCCACATCCATTAAGGATGCTGTGAACAAACTCTAA	MKVLVVGANGQVGKHLVQKIQSHHDIEAVAMIRKEEQASYFKDLGAETVLVDLEDNTEKMAEAFDDVDAVVFTAGSGPNTGPDKTVMIDLDGAVKTIEAAKQKGVNRYVMVSSFDTTREAIQGAPASFAPYVIAKHYADDWLRRTNLNYTIVHPGILTNEDGTGQVQAAETVERGEISREDVAGVLLAVLENESTIGKEFQVVGGSTSIKDAVNKL				NA	NA	NA	NA	NA
AK012_02919	246			hypothetical protein	ATGTTCTTACGATTTATCCAGACAGCGGCCGTGGGATCTGTCGTTTTCATCGCCGGATCCGCCGTCTTTCCAGTCATTAAACGAACCCTGCGTCCAATCATGAGGGAAGTTTCCCATGACATGAAGTTTCTGCTCGTCAGCTCAGGCGAGCGTATGCAGGATATGGTCGATGAAGTAAAATATGAACGGATGAAAAAAGCGATGGATAAAATGGACACGATCGAATGCGAGGTGTATGAAGATTGA	MFLRFIQTAAVGSVVFIAGSAVFPVIKRTLRPIMREVSHDMKFLLVSSGERMQDMVDEVKYERMKKAMDKMDTIECEVYED				NA	NA	NA	NA	NA
AK012_02920	198			hypothetical protein	ATGGTCGTTTCTGGAAAAATTCATTATAAACATCACCATATCGATTTCGAAGTGAAGATGGAACATGAGGATATTGAAGAAGGTGTCATAAAGTCGGAGGATGGTAAACGAACACTGATCCATGCCATCAATCGTAAATTCCGGGTGAAGTATCCGCTCACAAGCACCATCGATCCCGTCCACGTGTCTTCCATGTAA	MVVSGKIHYKHHHIDFEVKMEHEDIEEGVIKSEDGKRTLIHAINRKFRVKYPLTSTIDPVHVSSM				NA	NA	NA	NA	NA
AK012_02921	507			hypothetical protein	ATGGATAATAACGATATATTGATCCGTCTGCGTTATGCCCTTGATATAAGGGACAGCGAAATGGCGGAAATCTTTGAGCTCGGTGGCGAAGACCTGACGGTGGAAGAAGTCAAACTGGTACTGACAAAAGTAGAGGAAGATGATGAGGAAGCCGTGGACGGTATGGATTACATTAAATGTACAAACAGCATGCTGGAATCTTTCCTGAATGGTTTGATCATTTATAAACGCGGCCCTCAAAAAACAAAAGACGGTGAAACCGTGAAGCCGGACCGTTCCATCAAAAACCGGTCCAGTGTGAATAACGTCATGATGAAAAAGGTGAAAATCGCCCTTCAGCTGAAAAATGAAGATGTGATCGACATCCTTGATGAAGCGGGTGTGACGATCAGCAAAGGCGAACTCGGTGCGATCCTAAGGAAAGAGGGGCACAAAAACTATAAGCCCTGCCTGGATAAGTTTGCCCGGAACTTCCTGAAAGGTCTGGCCATTAAGTATCGTACCTGA	MDNNDILIRLRYALDIRDSEMAEIFELGGEDLTVEEVKLVLTKVEEDDEEAVDGMDYIKCTNSMLESFLNGLIIYKRGPQKTKDGETVKPDRSIKNRSSVNNVMMKKVKIALQLKNEDVIDILDEAGVTISKGELGAILRKEGHKNYKPCLDKFARNFLKGLAIKYRT				NA	NA	NA	NA	NA
AK012_02922	390	ybaN	COG2832	Inner membrane protein YbaN	ATGAAACAAGTTGTGAAGATCCTGCTGATCATTGTCGGAAGTCTATCGCTTGGGCTGGGTATTCTTGGGATCGTCCTGCCGTTAATCCCGACGACTCCGTTTCTACTATTAACAGCGGCCTGTTATGTGCGGAGCTCTGATCGTCTGTACAACTGGCTGATGACCAACAAATGGTTTGGCAGTTATATACAAAATTATAAATCCGGGCGGGGCCTCCCTATGAAAGCGAAGATCTCCATCCTGATCATGATTTGGTTTTCCTTTCTGTTTTCCGCCTTTTATATTGCTCCCAACCTGCTCATGAAGGCAGGGTTCATTTTTGGCGGGTGCTTTTTTACAGTAGTGATCTATCTGACAAAAACGTACAGGCCGGATGAGGATCAATCCTGA	MKQVVKILLIIVGSLSLGLGILGIVLPLIPTTPFLLLTAACYVRSSDRLYNWLMTNKWFGSYIQNYKSGRGLPMKAKISILIMIWFSFLFSAFYIAPNLLMKAGFIFGGCFFTVVIYLTKTYRPDEDQS				NA	NA	NA	NA	NA
AK012_02923	960	pfkA_2		ATP-dependent 6-phosphofructokinase	ATGAAAAGATTCGGTGTATTAACAAGTGGAGCAGATGCTCCTGGAATGAATGCAGCCATCCGGGCTGTTGTCCGTTCTGGTATTTATTACGCTGTAGATATGCTTGGAATCCAATACGGCTTCCAGGGTCTTATAGATGGAAAAATCGAGAAGATGGATGCCGCATCTGTCGGATCGATCATGCAGCGGGGCGGAACGATTCTCCAGTCCTCTCCTTCGGATTCTGTTTTCACAGACGAAGGAAAAGAAAGCGCCCTTCAGACGATCAAGGATCATGGAATCGATTCCCTTATTGTCATCGGAGGGAAAGAAGCGGTGCAGGCAGCGGCTGTCCTGGAGGAATCAGGGGTACCGACCGCTGCCATTCCGGCCACGATCGATTCAGATATCCCAGGTGTTTCCGAAGTCATCGGTTTTGATACCGCTCTGAATACGGTGATGGATTATATTGACCGGATCCGGGACACCGCTTCCTCCCATGAAAAATCATCGATTATCGAAGTCATGGGACGGGATACCGGAAACCTTGCCTTGTGGTCCGGCCTGGCCGGCGGTGCAGAAAACATTCTGATTCCTGAGAAGAAAGAGGATCTGGATTCCATCGTCGAGCAGATCAAGCAGGGGCCGTCCCGGAGCAAGCGTTACAGCATTGTCGTTGTTGCAGAAGGCAGTGTGAGTGGAATTGATCTTAATGAGCGGCTGAAGCAGGAGGCGGGGATCGAATCCCGTGTCACGGTTCTCGGACATACCCAGCGCGGAGGTGCCCCGACAGCGGCGGATCGAATCCTTGCCAGCCGTCTTGGTGCCTATGCGGTCGAACAGCTGATGAATGAAAAATCGGGTGTAGTCGTCACTCTGAAAGACAATCAGCCTGAGGCCTTTTCCTATCATGCTGTTCATGAACAGGCGGTGCAGGTGGATGAATACGTGTACAACTTATCCTCCCGTTTATCAATATAG	MKRFGVLTSGADAPGMNAAIRAVVRSGIYYAVDMLGIQYGFQGLIDGKIEKMDAASVGSIMQRGGTILQSSPSDSVFTDEGKESALQTIKDHGIDSLIVIGGKEAVQAAAVLEESGVPTAAIPATIDSDIPGVSEVIGFDTALNTVMDYIDRIRDTASSHEKSSIIEVMGRDTGNLALWSGLAGGAENILIPEKKEDLDSIVEQIKQGPSRSKRYSIVVVAEGSVSGIDLNERLKQEAGIESRVTVLGHTQRGGAPTAADRILASRLGAYAVEQLMNEKSGVVVTLKDNQPEAFSYHAVHEQAVQVDEYVYNLSSRLSI	PGPT0017595_3759	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
AK012_02924	2154	topB	COG0550	DNA topoisomerase 3	ATGGAAAAGGTGGTCATCTTAGCTGAAAAACCCTCGCAGGCAAAAGCCTATGCCGAGGCCTTTACCGTGCAAAATAAAACGAAAACCTATATACAATTAAAACCTGACCATACGTTCCCGGATGGAGCGGTCATTACGTGGGGGGTCGGCCATTTAGTTGAGCTGAAGGAGCCCCACGATTATAAGCCCGAATGGAAAAAGTGGAAGCTGGATCAGCTGCCGATCGTTCCGGACCGGTACCTTGAAAAAGTGTCCAAAGGGAAATGGGATCAGTTCCAAGCCGTCAAAAAACTGTTCCAAAGCGCTGATGTCATCATCAATGCTGCGGACGTCGACCGGGAAGGCTCCAACATTTTCTACAGCATCCTCCGCCTTACGGGTGTGAAAAACAAGCCTGTCAAAAGACTTTGGATCAACTCCCTTGAGCGGGACGAAGTGCGCAAAGGATTTCAAAACCTGCAGGCCAATGATAAGGATCTGCGAATGTTCGAAGAAGCCAAAGCCCGGCAGATTAGTGACTGGCTGGTCGGGATCAATGCCAGCCGATTGTTTACCCTGCTGCTGCAGAAAAAGGGTTTTGGCAGCTACTTGTCGATAGGACGCGTCCAGTCCCCGACCGTGTATTTGATCTACCAGCGTCATAAGGAAATTGAGAGCTTTGTCTCTGAGCCCTTTTACCAGATTGAAGGTCAGTTCCAGGCGGAGAAAGGCTCTTATAAAGGGTTGGCTGAAATCAAGGAGAAGGACAAGGCGAAGGTTCAGGCCTTGATGGATGAGTACGGTTTAAAGGAGAATGAACCGCTGTCTGGTGTTGTGGAAAATGTTGATAAAAAGACGAAGTACATCAAATCACCTAAGCTTCATTCGCTATCCACGCTGCAGAGTGTCGCGAACCGGCGTTGGAAGTATACACCATCCCATGTATTGAAAACGATGCAGAAGCTGTATGAGAAAAAACTCGTCACCTATCCACGTACGGACTGTAATTTCATAACAGAAAGTGAATTTTCCTACCTGGTAAAAAATCTCGAAGGGTATCAAAAGACGTTGAATGTCTCGTTTACCCCGGTTTCCAAGAAGCCGAAGAAGCGGTACGTGGACAGCAGCAAGGTGCAGGAGCACTATGCGATCATACCGACAAAATCGGTGCCGACAGAGAAAAAACTGAGCGGCCTGAGCCGTGATGAGCAGAACATTTACAATGAGGTGCTTGCAACGACGCTTGCCATGTTCCATACCGATTATATTTATGAAGAAACCACCCTTTACACACACGTAAAAGAACTGCCGTTTAAAACGACCGGAAAGCGGGACGTCAGCCAGGGGTGGAAGGAGCTGTTTCCGAAGCCGGCCAAAGCGAAGGAAAAGGAATCCCTCCTTCCTGAAGTCCACCAAGGAGAAGAAGTGGGGGCTGAACTTCATATCAAAGAAAGTATGACACAGCCTCCAAAGCCGTATACTGAAGGTCAGCTGATCAATATGATGAAGACATGCGGAAAATTGATGGATGATGAAGGGGACGTTGAAATTCTTAAAGAAGTCGAAGGTCTGGGTACCGAAGCGACGCGTTCAAGCATCATTGAAACTATCAAAGCACAGAATTATATTGAAGTGAAGAAGAATAACGTCTATGTAACGGAAAAAGGCAAGATGCTCTGTGAAGCCATCGAAGGCACACTGTTGTCGAGTCCATCCCTTACGGCTAAGTGGGAGACGTATTTGAAGAAAATCGGCAGCGGTGAAGGCTCCAGACAGGTGTTTCTTAAGCAGACCGGCCAATTTATAGAAAAGCTCATTCAGGAGACCCCGGAGGCTCTGCAGAAGGTGGAAGTCCGCAGTACCGGAGAAAAGACATCCCGGGGCAGCAGCAAAGAACCGATTGCCAAATGTCCATCCTGTCAGTCTGGTGAAATTATGGACCGCTATAAGTTTTATGGCTGTTCCAATTACAAGGAAGGCTGTAAGGTGACTTTTCCGAAGAAGCTTGCCGGCAAGACTCTGACAAGAAATATGATAAAGACGCTTTGTGAGAAGAAAAAAACGAAGGTCCTCAAAGGATTTAAGGGCAAAAAGCCGTTCAGCACAGCCTTGAAACTGGATGAGAACTTCAGTATCAAGTTTGACTTTGAGAGCAGAAATAAGCAGACCACATAA	MEKVVILAEKPSQAKAYAEAFTVQNKTKTYIQLKPDHTFPDGAVITWGVGHLVELKEPHDYKPEWKKWKLDQLPIVPDRYLEKVSKGKWDQFQAVKKLFQSADVIINAADVDREGSNIFYSILRLTGVKNKPVKRLWINSLERDEVRKGFQNLQANDKDLRMFEEAKARQISDWLVGINASRLFTLLLQKKGFGSYLSIGRVQSPTVYLIYQRHKEIESFVSEPFYQIEGQFQAEKGSYKGLAEIKEKDKAKVQALMDEYGLKENEPLSGVVENVDKKTKYIKSPKLHSLSTLQSVANRRWKYTPSHVLKTMQKLYEKKLVTYPRTDCNFITESEFSYLVKNLEGYQKTLNVSFTPVSKKPKKRYVDSSKVQEHYAIIPTKSVPTEKKLSGLSRDEQNIYNEVLATTLAMFHTDYIYEETTLYTHVKELPFKTTGKRDVSQGWKELFPKPAKAKEKESLLPEVHQGEEVGAELHIKESMTQPPKPYTEGQLINMMKTCGKLMDDEGDVEILKEVEGLGTEATRSSIIETIKAQNYIEVKKNNVYVTEKGKMLCEAIEGTLLSSPSLTAKWETYLKKIGSGEGSRQVFLKQTGQFIEKLIQETPEALQKVEVRSTGEKTSRGSSKEPIAKCPSCQSGEIMDRYKFYGCSNYKEGCKVTFPKKLAGKTLTRNMIKTLCEKKKTKVLKGFKGKKPFSTALKLDENFSIKFDFESRNKQTT				NA	NA	NA	NA	NA
AK012_02925	900	glkA		Glucokinase	ATGAAGACCATCGGTATTGATTTAGGAGGCACCAACCTCCGGGCAGGTGTCGTAGATGAAAAGGGAAGCATTCTTGTTGAGAAAAGCATCCGTACCGAAACGGATAAAGAGCCGGCTTATGTGATTCAGCAGATGAACGACATGATCAAGGAACTGATGGACAGCCATGACATTGCATCCATCGGAATCGGATCTCCAGGTCCACTGAATCCTCACGAAGGAAGAATTCTCAGCCCCCCAAATTTACCGGGGTGGGATGATATCCCGCTTGTTGATGAAGTGCAGGCAGCCGTCGATATTCCGGTGTACCTCGACAATGACGCCAATGCGGCTGCACTCGCTGAGGCGAAATTCGGCGCTGGTCGTGGTCATAGCTCCAGTTACTACATAACGATCAGCACCGGGATCGGCGGTGGTTACGTCCTCGATGGGAAAATCGTTCAAGGGGCCCAGGGGTATGCCGGGGAAATCGGCAATATGATTTTAAAACCGGACGGTCCGAGCTGGTCCAACCTGAACGCTGGTTCCTTTGAAGCGCTCGCTTCCGGAACGTCTATCGGAAGAGAAGGAAAAGCGCGCCTTGGTGTCGATGGCGGAGCGGAAGAAGTTTTCCGGAAAGTGAAGGAAGGACACGAAGGAGCGGCCATCATCATCGATGATACAATCACCTATTTAGCCATGGGCATTGCCAACCTCACTCACATTGTAAATCCTTCTGTGTTTGTTCTCGGAGGTGGAGTGATGCAGGCGGAGGATCTGCTGCTTGTTCCTCTGCGGGAACGGTTGAATGATTTTCTGTATCCGCAATTGAGGAATCAGGTGAAACTTGAGCCGGCGGAACTGGGAACGAAAGCAGGGTTGATTGGAGCAGCTCTTTTAGGTCGGACAGAAGCGCTTTGA	MKTIGIDLGGTNLRAGVVDEKGSILVEKSIRTETDKEPAYVIQQMNDMIKELMDSHDIASIGIGSPGPLNPHEGRILSPPNLPGWDDIPLVDEVQAAVDIPVYLDNDANAAALAEAKFGAGRGHSSSYYITISTGIGGGYVLDGKIVQGAQGYAGEIGNMILKPDGPSWSNLNAGSFEALASGTSIGREGKARLGVDGGAEEVFRKVKEGHEGAAIIIDDTITYLAMGIANLTHIVNPSVFVLGGGVMQAEDLLLVPLRERLNDFLYPQLRNQVKLEPAELGTKAGLIGAALLGRTEAL				NA	NA	NA	NA	NA
AK012_02926	948	rihB	COG1957	Pyrimidine-specific ribonucleoside hydrolase RihB	ATGAGACGTGTGATCATTGATACGGATACTGCCGGCGACGATACAATTGCTCTGTTGATGACGCTTCATCATTTCAAGGTCGAGGGTGTAACGATTACCGGAGGGAATGTTGCATTTGATCAGGAAGTAGAAAATGCACTTTATACGATTCAGGTCGCATCCCCGGGGGAGAGGGTGCCGGTATATAAAGGGATGGAACGCCCCCTGAATGCGGTGGGCATGACACCTCACCGGACGGTCGAGGAGGTCCACGGAAAGGACGGCATGGGAAATGCCTTTTTTGATCAAGCCGTTCAACGGCCTGAAACGAAGCATGCGGTGGATTTTATCATTGAATCCATCAGGAACAATCCAGGAGACATTGAGCTTTTAGCTATAGCGCCGCTGACCAACATTGCCATGGCTTTTCAAAAAGACCCGGGTATTATTCCGCTGATTCCACATGTGTACATCATGGGAGGGACGAACAACTCCCTGGGCAACATTACAGCCGCCGCTGAATACAACTTCTGGGTCGATCCGGAAGCGGCCAATATCGTCCTGCATGCCGGGGTTCCGATTACGATGGTCGGCTGGGACATGTGCGTGGATTATTCAGTCATGGATGAGGAAGACCACAGGGACATTGAGGAGCTGGGTACAGCGGGTTCACGATTTTTCACAGCCGTCAACCAGGTGGTAAGGCGGTTTAATAAAGAAGTCCACCGCCTGCCGGGAACGACCCATCCGGACACACTGCTTGCTGCGATAGCCGCGGATGCTTCTATCATGACTGGAGCGCATTCTTATTATGTCGAAGTGGAGACCCAAGGGAAGCTGACCCGGGGATACAGCATGGTCGATATTCATAATAGAAGTGGACGTGAACCAAACGTCCGTGTCTGTGAGTCTGTCAATCGTCATAAGTTTAAGCAGACCTTACTCCGCGTGCTGTCTTCTATAGAATAG	MRRVIIDTDTAGDDTIALLMTLHHFKVEGVTITGGNVAFDQEVENALYTIQVASPGERVPVYKGMERPLNAVGMTPHRTVEEVHGKDGMGNAFFDQAVQRPETKHAVDFIIESIRNNPGDIELLAIAPLTNIAMAFQKDPGIIPLIPHVYIMGGTNNSLGNITAAAEYNFWVDPEAANIVLHAGVPITMVGWDMCVDYSVMDEEDHRDIEELGTAGSRFFTAVNQVVRRFNKEVHRLPGTTHPDTLLAAIAADASIMTGAHSYYVEVETQGKLTRGYSMVDIHNRSGREPNVRVCESVNRHKFKQTLLRVLSSIE	PGPT0013465_1611	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013465-iunH-K01239	NA	NA
AK012_02927	1416			hypothetical protein	ATGAAAGCAATGGCCAAACGAGGCTACACTTTATTCATCAGCCTCTATGTCCTTATTTATTTTATCGTTTCGTTTACGGGCGGAGAGACCTTGTCCACAGCGATGTCGTTGTTTGGTCTGGCCGCCTTTATCATCGGATATGTCCTCCTGCCTGTAAAGCAGGCATGGATTTCCTTACTTCTGTTGATCATTGCCCTGATTGTACACCTCGTTGCGGGTACATCGCTCACCCAGGGAGTGGTTGATGGCTTTACAGTGATGAGCGGATTGATTGCGCTTCTTCTTATCGTCCCTGCGATCAGCTGGGTGCTTGAGGAAAAGCCGTACATCGAGTCTGTGATCAACTTTGCGCAGAGACTGTTGAATACGAGCCGGAAGTTTTATTTCGGAATGATGGTCATTACTCAGATCATCTCCTACTTCCTGTTGTTCGGATCCATACCAATGGTCTATGGAATGATCAACGATTTTCTCAATAAACAGAAAGGAGAAGCATGGGAAAACTATAAAGGGACGGCTCTGCTGCGGGCCTTCAGTTTAACGACGATGTGGGTCGTCAGTATCCCGAGCTTCATTTTCGCCGTGGATGCCCTCGGTGCCTCACTCGGGTTATCGATTTTGCAGGGGTTCTTTATTTCCTTTGCCGGTATCCTTCTGTCTGTTCTCTTTTCCAAATATCAGGAACGTCACTACGGAGTGGATTTAACGGCCGGCATCCAGGAGCAGCTGGCTGAAATTGCTGAACAGAAAAAGCAGGATTCCCGCGGCAACAAAGACGCCGTCGAGTTTGCTGTATTATTTGTGACCTTGTTCGGATCCATCTTCTTCCTGAATGCCGTATGGGCTGTCGATCTGCTGTTGATCATTCCCATCGTCATTACAGCCTGGGTCATTCTCTACTTCATCGTCCGGGGGCGCACGGGAGCGATCGTAGAGAACGGAAAGGTTTATTTGAAGGAAAGTATTCCAAATAAAGCGCAGCAGTTTTCCATTCTGCTGGCGGCCGGCTTCTTAATTAATGCGGTCAACCAATCAGGATATGGAGAATACATTATCGATGGGTTGTTTTACCTGACCGATGTTGTCCCGTTCCTGAACTTCCTCTGGGTGCTGCCATTTGTTGTTATCGTCCTCGGATTCATTGGTCTGGGACCGTTGACGGTCATCGTTCTTGTATCCGGAATTCTTCAAGGGGTGGAACTTCCATACCCGCCGGAAATTGTCGTTCTCGGCATCACATCGGGAAGCGTAATTTCCATCATGGTGTCGCCGCTCATTCTACCGTCGATCATCTTAAGCTCCGTAAATAAATTAAGCATCGTCAAAAACGGACTGATGTTCAACTACAAATATGCAATCGTCTTTTATTTAATGGTTCAGCTGTATCTACAGCTTGTGGTTTTCTTCTTCCTATAA	MKAMAKRGYTLFISLYVLIYFIVSFTGGETLSTAMSLFGLAAFIIGYVLLPVKQAWISLLLLIIALIVHLVAGTSLTQGVVDGFTVMSGLIALLLIVPAISWVLEEKPYIESVINFAQRLLNTSRKFYFGMMVITQIISYFLLFGSIPMVYGMINDFLNKQKGEAWENYKGTALLRAFSLTTMWVVSIPSFIFAVDALGASLGLSILQGFFISFAGILLSVLFSKYQERHYGVDLTAGIQEQLAEIAEQKKQDSRGNKDAVEFAVLFVTLFGSIFFLNAVWAVDLLLIIPIVITAWVILYFIVRGRTGAIVENGKVYLKESIPNKAQQFSILLAAGFLINAVNQSGYGEYIIDGLFYLTDVVPFLNFLWVLPFVVIVLGFIGLGPLTVIVLVSGILQGVELPYPPEIVVLGITSGSVISIMVSPLILPSIILSSVNKLSIVKNGLMFNYKYAIVFYLMVQLYLQLVVFFFL				NA	NA	NA	NA	NA
AK012_02928	816	ydjP_2	COG0596	AB hydrolase superfamily protein YdjP	ATGAAAACGTATATTGAAGTGGAGCCAGGTGTCGAGTTGTATGTAGAAGACCACGGATCGGGGGACGTCCTCGTTTTCATCCCGGGATTTACTTTTACGACAGAGGTTTTCTCCAGGCAGGTGAACCACTTTTCCAAGACACACCGGACGATTGTCATCGATCCAAGAAGTCACGGGCGCTCGACAATGACGGTTCACGGCAACGATTATGTCACGCATGGAACCGATCTGAAGAAAGTCTTACAAGAGATGAACATCGAGAACCCTACGCTGATCGGATGGTCATTCGGTTGTCTAACGGTTTGGGAATACATCCGCCAGTTCGGCACAAAAGGAATAAAAGGGCAGATCCTTATTGATATGCCTCCAAAATCTTTGTCCGTTAACGAGAATCGGGACTGGGTGGAAGGAAAGATTGATGATATGGCGGCTGCCTACACCAGCTACCTCCGCCATCCTAAGGGACAGCGGGATTTCATTTCGGCTTATGCAAATGCTGTGATGGTCCAGCGGGATTTAACAGATGACGAACTGGCATGGCTCGTGGAACAATCCCTCAACACGCCTTATTACATTGCAGCGAACCTCTTCTCGTCCGGGCTGTTTTCAGACTACCGGGAGGAAGCTGAATCAGGAAGTAAACAAATCCCAACGCTGTACGTCGTAGCTGAGCACTGGAGCAGCACGGCCCGCCCTTACTTAAACAAACTCGCTCCGGAGGCAGGGGTCGATGTGCTCGGAGGCCATATGATGTTCTGGGAGCACCCCGGCAGATTCAATACGCTCCTGGAGACCTTCCTTCATAAACAAACCTGA	MKTYIEVEPGVELYVEDHGSGDVLVFIPGFTFTTEVFSRQVNHFSKTHRTIVIDPRSHGRSTMTVHGNDYVTHGTDLKKVLQEMNIENPTLIGWSFGCLTVWEYIRQFGTKGIKGQILIDMPPKSLSVNENRDWVEGKIDDMAAAYTSYLRHPKGQRDFISAYANAVMVQRDLTDDELAWLVEQSLNTPYYIAANLFSSGLFSDYREEAESGSKQIPTLYVVAEHWSSTARPYLNKLAPEAGVDVLGGHMMFWEHPGRFNTLLETFLHKQT	PGPT0013125_1887	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	DETOXIFICATION_OF_PEROXIDIZED_COMPOUNDS,PGPT0013125-cpo-K00433	NA	NA
AK012_02929	159			hypothetical protein	ATGGCTTTGGAAGTCCTTTGCGAAGTGAACAACTGTATCCATAATGAAGGTGGAGAAAAATGCGGAGCCCCTGCGATCTCCATTGTAAGCGAATCCGGAAGGACCGCTTCTTCTCAGGAAGAAACCGACTGCCGGACATTTGAAGCAAAAGAAGCGTAA	MALEVLCEVNNCIHNEGGEKCGAPAISIVSESGRTASSQEETDCRTFEAKEA				NA	NA	NA	NA	NA
AK012_02930	1185	tylCV		Demethyllactenocin mycarosyltransferase	TTGGCTGATATCTTGATGATAAACGTCCCTGCAGAGGGCCATGTAAACCCGAGCCTGGGTGTTGCGAAAGCCTTTGTCGACCGTGGAGACAACGTCCACTACATAACTACTGAAAAATATAAAGCCCGCCTTGAAGGTGTAGGGGCACACGTCTATCTACACGAGGATCACCTGTTAACCGGCGGCGTGGATCCTGCTTCAGAAGAAGGCATCCATTTCTTCATGAACGTGATGCTGCAGACCTCCCTCGATATTTTATCGATAACGAAACAGCTGGCTGAAGAGATCTCCTTTGATTTTGTCTATTATGATTCCTTTGGTGCAGGTGAACTCATCCGTGACTACCTGGAGGTCCCCGGCTTTTCATCGTCGGCTTCTTTCCTGATTCCTGAAGACTACCGCAAACGTCTTCCGCTTCATCCAGAAAACACTGGTACGCTGGAGTACAGCGAAAAAAACAGCCAGCTGTTGGAAACAATGAAACAGGAATACGGAGTGGCGCCATCGTCCATGCTTCAATTCATGAACAATCAGGGCGGACGGACAATGGTCTACACAAGTGCCTATTTTCAGCCCCGCTTAGAGGAATTTGGTGAAGAGAATCACTTTATCGGCCCAAGCTTTCCTGAGCGGAAGGGGGCCCATGATTTCCCTCTACATGAATTGAAGGATGAAAAAGTGCTCTACATCTCGATGGGCACCGTCCTCGATCAAGTAGAGGAATTTTTCAACCAATGTATTGACGCTTTTGCCGATTTCAACGGAAAAGTAGTCATTGCGGCCGGGACATTTGCCGACTTTAACAAAATAAAAAGTGCTCCGGGAAACTTTATCATCCGGTCCTACGTCCCTCAGCTTGATGTGTTGGAATACACCCATGTCTTTTTGACCCATGGCGGGATGAACAGCGTGAATGAGGCCATTGACCGGGAAGTCCCGATGGTTGTTCTTCCCCGGGATAAAGATCAACCCATGGTGGCAGCAAGGCTTGCGGAGCTTCATGCCGGTTATCCGATTTTCCCGAACGACGTATCGAAAGAAGCGCTGCACCGAGGGGTGGATCAAGTCGTGAATGATGAGGCGTATCTGGAAGGAATCCGAAAAATAAAGGAAAGCTTCGATCACTGCGGCGGCCCGCAGGAAGCCCTCTACGTTATAGATGAGTATCTGAAAAAAAGCAGCTGA	MADILMINVPAEGHVNPSLGVAKAFVDRGDNVHYITTEKYKARLEGVGAHVYLHEDHLLTGGVDPASEEGIHFFMNVMLQTSLDILSITKQLAEEISFDFVYYDSFGAGELIRDYLEVPGFSSSASFLIPEDYRKRLPLHPENTGTLEYSEKNSQLLETMKQEYGVAPSSMLQFMNNQGGRTMVYTSAYFQPRLEEFGEENHFIGPSFPERKGAHDFPLHELKDEKVLYISMGTVLDQVEEFFNQCIDAFADFNGKVVIAAGTFADFNKIKSAPGNFIIRSYVPQLDVLEYTHVFLTHGGMNSVNEAIDREVPMVVLPRDKDQPMVAARLAELHAGYPIFPNDVSKEALHRGVDQVVNDEAYLEGIRKIKESFDHCGGPQEALYVIDEYLKKSS				NA	NA	NA	NA	NA
AK012_02931	423	arsC_2	COG0394	Arsenate reductase	ATGTCTAACAAACCAGTCATTTACTTTCTATGTACAGGAAATTCCTGCCGCAGCCAAATAGCGGAAGGATTCGGAAAAGAATACCTTGGAGAGGAGTTCGACGTCCGTTCGGCTGGAATTGAAGCCCACGGCTTAAACCCGAACGCTGTAAAAGCGATGGATGAAGTGGGAATCGATATCAGCGGTCAGAAATCTGAGATCATTGATAACGATGTTCTGAATAACGCGGCTTATGCGATTACTCTCTGCGGAGATGCCAATGATAAGTGCCCGATGACACCTCCGCACGTCACACGTTTCCACTGGGGATTCGATGATCCAGCGAAAGCGGAAGGGACAGAGGAAGAAAAATGGGCGGTCTTCCAACGTGTCCGTGACGAAATTGCCGACCGCATCAAGACATTTGCCGAAGAGAAAAAATAA	MSNKPVIYFLCTGNSCRSQIAEGFGKEYLGEEFDVRSAGIEAHGLNPNAVKAMDEVGIDISGQKSEIIDNDVLNNAAYAITLCGDANDKCPMTPPHVTRFHWGFDDPAKAEGTEEEKWAVFQRVRDEIADRIKTFAEEKK	PGPT0004715_2214	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0004715-arsC-K03741	NA	NA
AK012_02932	1290	arsB	COG1055	Arsenical pump membrane protein	TTGGCATGGATAGCAACGATTATATTTATACTTACCTTGATTTTTGTCATCTGGCAGCCTAAAAATCTCGGGATTGGATGGTCCGCCTGTGCGGGTGCCATACTTGCTCTGATTTTTGGTGTCGTTGATTTTCAGGATGTTCTCGCTGTGACGGATATCGTCTGGAACGCCACTCTCGCGTTCGTGGCGATTATCATCATATCGCTGATTTTGGATGAGATCGGCTTTTTCGAATGGGCGGCGCTGCATATGGCCCGTGCTGCTAAAGGAAATGGCCGGCGTATGTTTATATACGTCACCCTGCTTGGAGCGGTCGTAGCCGCTTTATTCGCTAATGATGGGGCGGCGCTCATTTTGACCCCGATCGTTCTGGCGATGGTACGAAACTTGAACTTTAAGGAAGCGATGGTGCTTCCGTTTATTATGGCGAGTGGTTTTATTGCGGATACGACTTCTCTGCCGCTGATTGTCAGTAACCTCGTCAACATCGTATCTGCGGACTTCTTTGAGATTGGCTTTATTGAATACGCATCCCGCATGATTGTACCGAACTTGTTTTCCTTAGCGGCAAGTATCCTCGTTCTATTCTTGTTTTTCAGAAAGAGTATCCCGGGGCAGTATGATCTGGCACAGTTGAAAAAGCCGGTGGATGCGATCCAGGATCATAAAATGTTCCGCTTATCGTGGGCCGTTCTGGCGGTTCTGTTAGTTGGATACTTCGCGAGTGAACCGCTTGGTATCCCAGTATCGATCATTGCCGGCATTGTGGCCATCTTCTTCTTAATGATGGCGCGCAGAAGTGCCGCTGTGAAAACAGGAGAAGTCATCAAGGGAGCCCCATGGGCCATCGTTTTCTTCTCGGTTGGGATGTATGTCGTTGTTTACGGTCTGCGTAATGCCGGGTTAACAGATGTCCTGGCTGATGTGATTCAGGCCACAGCAGACCAAGGGTTGTTTGTCGGTACCGTATCGATGGGATTCATTGCGGCGATCCTGTCGTCCATTATGAATAACATGCCGACAGTAATGATTGATGCTCTGGCGATTGCTGAGACGAATACAGCGGGAACGATGAGAGAAGCCTTGATTTATGCCAACGTCATCGGTTCTGACCTTGGACCGAAGATAACCCCGATCGGCTCCCTGGCCACTTTATTATGGCTTCACGTCCTTTCAACAAAAGGTGTGAAAATCTCATGGGGCTATTACTTTAAGATCGGAGTCATTCTTACCGTACCTACCTTATTCATTACGTTGGTCGGCCTTTATGTCTGGCTGCTCATTTTATAA	MAWIATIIFILTLIFVIWQPKNLGIGWSACAGAILALIFGVVDFQDVLAVTDIVWNATLAFVAIIIISLILDEIGFFEWAALHMARAAKGNGRRMFIYVTLLGAVVAALFANDGAALILTPIVLAMVRNLNFKEAMVLPFIMASGFIADTTSLPLIVSNLVNIVSADFFEIGFIEYASRMIVPNLFSLAASILVLFLFFRKSIPGQYDLAQLKKPVDAIQDHKMFRLSWAVLAVLLVGYFASEPLGIPVSIIAGIVAIFFLMMARRSAAVKTGEVIKGAPWAIVFFSVGMYVVVYGLRNAGLTDVLADVIQATADQGLFVGTVSMGFIAAILSSIMNNMPTVMIDALAIAETNTAGTMREALIYANVIGSDLGPKITPIGSLATLLWLHVLSTKGVKISWGYYFKIGVILTVPTLFITLVGLYVWLLIL	PGPT0004710_427	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004710-arsB|arsenical_pump_membrane_protein-K03893	NA	NA
AK012_02933	345	aseR	COG0640	HTH-type transcriptional repressor AseR	ATGGAGAAGACCATAATAACGTTGGAAGAAGCTGCAAAAACGCTGAAGCTTCTTGGAGATAAAACCCGTCTGACAATTGTTGGACTGTTGAAAGATGGCGAATGCTGTGTCTGCGAATTTGTAGATGTCCTGGAGATGAGTCAGCCTTCGGTCAGCCAGCATCTAAGGAAGCTGCGGGATGCCGGCTTAGTCAAGGAGAAGCGCAAAGGGCAGTGGATTTTCTATTCCTTGAACACCAGTCATGAGACGTACCCAATTATGGAAGAGATATTAAATCAAATACCTGATCAAAAAGAAAAGTTAATCGCATTGGAGAAAGCTGGTAAACGCATCCAGTGTGACTAG	MEKTIITLEEAAKTLKLLGDKTRLTIVGLLKDGECCVCEFVDVLEMSQPSVSQHLRKLRDAGLVKEKRKGQWIFYSLNTSHETYPIMEEILNQIPDQKEKLIALEKAGKRIQCD	PGPT0004735_2359	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK012_02934	150			hypothetical protein	ATGATGATTCCTTTTGATTCTTTATTGTTTTTATGGTCTATTCTGATTGGAAGTTATTTGCTGCTGCGTTTTGCAGGCCGTCCTGTCCGGTCGAAGGATATGGGGGACCTATGGAGTCCCTGGAAGGACAAAGAAAAGGAAAAGGGGTAA	MMIPFDSLLFLWSILIGSYLLLRFAGRPVRSKDMGDLWSPWKDKEKEKG				NA	NA	NA	NA	NA
AK012_02935	819	yqfL_2	COG1806	Putative pyruvate, phosphate dikinase regulatory protein	GTGACTAAACAAATAACGGTATACATTGTTTCGGACTCCGCGGGTGAGTCCGCCGATCTTATGATTAAGACAGTCATGAGTCAATTTACTGGTCAGGATATCATCATGAAGCATTTTTCCTATGTGCAGGATCATCAGGAAATGGAAAATGTCATCACATTAGCCAAGTACAACCCTTCCATCATCGCCTATACGATCGTCACGCCCGTGCTCAAACATTATCTTGATCAGCGTACGGAAGAAGAAGGAATTACGGCTGTGGATATGATGAATCCGCTCATGGATGTGTTTTCTCAAAAGTTTCAAATGGAACCCACCTGTGAACCAGGACAGATCAGAAAGCTGGACGAAGACTACTTCAAGAGAATTGAAGCGATTGAATTTGCCGTAAAGTACGATGACGGCCAGGAAGCAAGAGGGTTGAACCAGGCAGATCTTGTACTCGTCGGTGTCTCCCGGACATCCAAAACACCGTTATCGATGTATTTAGCGAATAAGAAAATTAAAACCGCCAATGTGCCGCTTATCCCTGAGATTCCACCACCACCGGAGCTCTTCTCAATCCCTGGAATCCAATGCATCGGACTGATCATCACTCCCGAGAAACTGAACGACATCCGTAAAGAACGGTTGAAAAATCTCGGACTTACCGGCCCGGCCAATTACGCTTCACTGAACAGGATTTTGGACGAGCTGGATTATGCGCAGAACATTATGAAACGCATCGGGTGTCCAATCATCGACGTATCCAATAAAGCCATCGAAGAAACGGCTGACATTATTTTAGATCTATATAACAAAAGGGGGAGTTTTGCGTGA	MTKQITVYIVSDSAGESADLMIKTVMSQFTGQDIIMKHFSYVQDHQEMENVITLAKYNPSIIAYTIVTPVLKHYLDQRTEEEGITAVDMMNPLMDVFSQKFQMEPTCEPGQIRKLDEDYFKRIEAIEFAVKYDDGQEARGLNQADLVLVGVSRTSKTPLSMYLANKKIKTANVPLIPEIPPPPELFSIPGIQCIGLIITPEKLNDIRKERLKNLGLTGPANYASLNRILDELDYAQNIMKRIGCPIIDVSNKAIEETADIILDLYNKRGSFA				NA	NA	NA	NA	NA
AK012_02936	2667	ppdK	COG0574	Pyruvate, phosphate dikinase	GTGATAGAGAAAACATTCGTTTATATGTTCGATCAAATAAAAAAGGCAGGTAAGGAGCTGTTGGGAGGAAAAGGAGCCAACCTGGCAGAAATGACGAAAATCGGCCTGCCGGTTCCTTACGGTTTTACGATTACGACAGATACGTGCCGCTCCTACTACGACTCCGGCCAGCAGCTTCCCGAAGAGGCCGAAGGACAGGTGCTTGATGCGCTGAAAAAACTGGAGGAGACCACAGGTAAGGAGCTGGGCAGTCCATCAAATCCCCTTCTCGTCTCTGTCCGTTCCGGCGCGGTTCATTCCATGCCCGGAATGATGGACACCGTTTTGAACCTTGGCATGAATGATGACACAGTCAAGGGGATGGCCGAACTGACCGGAAACCCCCGTTTCGCCTATGACTCTTACCGCCGCTTCATTCAAATGTTCAGTAATGTCGTTTTAAAAGTGGACCACTATCATTTTGAGCAGCGTCTCGAAAACGCACGGGCTGAAAATGGATACACTTCTGATACGCAAATCACTGCAGAGGATTGGAAAGGCATCATCGAAGATTTCAAATCTATCGTCAGCGCCCAGACCGACCAGGCTTTCCCGGAGGACCCGAAGGAACAGTTGTTTCTCACTATCCGGGCTGTCTTTGACTCCTGGAACAATCAGCGTGCCGTTTTATACCGCCGTCTCAATCAAATCCCAGGCCACCTCGGAACAGCCGTCAATGTCCAGAGCATGGTTTTCGGTAACATGGGCGAAGATTCCGGTACAGGTGTAGCGTTCACCCGAAATCCGTCCACCGGCGAAGCGAAGTTATACGGAGAATACCTCATCAACGCCCAAGGTGAAGACGTCGTTGCCGGCATCCGTACCCCACAGCCAATCGCCAGCCTGGAAGACGACATGCCGGAGGTCTATCAACAGCTGGTGGACACGTGTCATCTGTTAGAAAATCACTATAAAGATATGCAGGATATCGAATTTACGGTGGAACGCGGACATCTATATATTCTGCAGACCCGCACAGGAAAACGCACAGCTCAAGCCGCCATCCGGATTGCCGTTGAGATGGTACGGGAGCAGATTATGGACAAGCGCGAGGCCCTGTTGCGCGTAGATCCGGATCAGCTCCACCAGCTCCTCCACCACCGGATTGATCCAGGCCACGGGCGCCCTCAGATCGCAACAGGACTGCCGGCATCTCCAGGCGCTGCCTCTGGACAGGTCGTTTTTGATGCCGATGAAGCCGAAGAACTGGCCGGAAACGGAAAGAAGGTCATCCTCGTCCGCCCGGACACGACACCAGATGATATTCACGGCATTGTAGCAGCACAAGCTGTTGTCACGAGCCGCGGCGGAATGACCAGTCACGCGGCCGTTGTCGCCAGAGGCATGGGGAAAGCGTGCATCTGCGGCTGTGACTCCATCAAGATTGATCTTGAAACTGAACAGTTCACCACAGGATCTGTCACAATCAGGCACGGCGATCTGATTACGATCGACGGAGGCACTGGTGAAATTTTTGACGGAGCCATTCCGATGATTGAGCCGGAGCTTTCCGATGAATTCCAGCTGCTCCTTCACTGGGCCGATGAGGAACCTCATATGGGTGTGCGGGCCAACGCCGACAACCCAGTCGATGCTGCCAAAGCTTTGGAATTCGGTGCAGACGGAATCGGGCTCTGCCGGACCGAGCACATGTTCATGGATGCCTCACGCCTGCCGACGGTGCAGGATATGATTTTGTCTGAAACGAACATGGAACGGAAAGAAGCGTTGGATAAGCTGCTGCCGATGCAGCAGGAAGATTACGAGAAAATCTTTGAAGTGATGCAGGGACATCCGATTACGATCCGGTTATTAGATCCGCCGCTGCACGAATTTCTCCCTGATAAAGAAGAGCTGCTCGTAGATATCACCAGACTTTCCTGCACAGACCCTGACGCTGAGGAACTGCAGACGAAGAAAAACATGCTGCGGAAAGTCCGCCTTCTGGAGGAATCCAACCCGATGCTCGGCCACCGCGGCTGCCGTCTCGGCATGATCCACCCGGAAATCTATGAAATGCAGGTCAGGGCTGTCTTCCAGGCCGCGGCCCATATCATGAAAAAAGGAGTCAAAGTCATCCCCGAAATCATGATTCCTTTAGTAAGCCACGTTAACGAGCTGAAAAACATGCGCCGGCTCGTCCTGAACATCAGCCGAGAGGTGGAAGAGCAGGAAGGGGAGGAATTTCAATACTTGATCGGAACGATGATTGAAACACCGAGAGCTGCGTTAACGGCCGACCAGGTCGCACAGGAAGCCGACTTCTTCTCCTTTGGGACGAACGACTTGACCCAGACCACTTTCGGGTTCAGCCGGGATGACGCAGAAGGGAAATTCCTTCACCATTACGTCGAAAACGATGTGCTTCCACAAAATCCGTTCGTATCCCTTGATCAGGATGGCGTCGGAAAGTTGGTAGAGAGCGGTGTGAAGCTGGGACGGCAGACGAAGCCATTTTTAAAAACCGGCATCTGCGGCGAACACGGCGGCGAAAAGACTTCCATCCAGTTCTGCTTTGACTTGGGAATGGATTATGTCAGCTGCTCCCCTTTCAGAGTCCCGTCCGCCCGGCTGGCAGCTGCTCAGGCATCCGTCCGTCATTCACTCCAGGTTCCACAGTATCATTAA	MIEKTFVYMFDQIKKAGKELLGGKGANLAEMTKIGLPVPYGFTITTDTCRSYYDSGQQLPEEAEGQVLDALKKLEETTGKELGSPSNPLLVSVRSGAVHSMPGMMDTVLNLGMNDDTVKGMAELTGNPRFAYDSYRRFIQMFSNVVLKVDHYHFEQRLENARAENGYTSDTQITAEDWKGIIEDFKSIVSAQTDQAFPEDPKEQLFLTIRAVFDSWNNQRAVLYRRLNQIPGHLGTAVNVQSMVFGNMGEDSGTGVAFTRNPSTGEAKLYGEYLINAQGEDVVAGIRTPQPIASLEDDMPEVYQQLVDTCHLLENHYKDMQDIEFTVERGHLYILQTRTGKRTAQAAIRIAVEMVREQIMDKREALLRVDPDQLHQLLHHRIDPGHGRPQIATGLPASPGAASGQVVFDADEAEELAGNGKKVILVRPDTTPDDIHGIVAAQAVVTSRGGMTSHAAVVARGMGKACICGCDSIKIDLETEQFTTGSVTIRHGDLITIDGGTGEIFDGAIPMIEPELSDEFQLLLHWADEEPHMGVRANADNPVDAAKALEFGADGIGLCRTEHMFMDASRLPTVQDMILSETNMERKEALDKLLPMQQEDYEKIFEVMQGHPITIRLLDPPLHEFLPDKEELLVDITRLSCTDPDAEELQTKKNMLRKVRLLEESNPMLGHRGCRLGMIHPEIYEMQVRAVFQAAAHIMKKGVKVIPEIMIPLVSHVNELKNMRRLVLNISREVEEQEGEEFQYLIGTMIETPRAALTADQVAQEADFFSFGTNDLTQTTFGFSRDDAEGKFLHHYVENDVLPQNPFVSLDQDGVGKLVESGVKLGRQTKPFLKTGICGEHGGEKTSIQFCFDLGMDYVSCSPFRVPSARLAAAQASVRHSLQVPQYH	PGPT0002040_1008	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0002040-ppdK-K01006	NA	NA
AK012_02937	1455	xylE		D-xylose-proton symporter	ATGAAACGAAGTCGGACGTATATTATATTCTTATCAGTCATTGCGGCATTGGGAGGGCTTTTGTTCGGCTATGATACAGCTGTTATCTCTGGTGCAGAACAGTCTCTGGAAGTCTACTTCATAGATAGTTTAGGATTGAGTAAATTATTTCAAGGGTTGACGGTTTCCAGTGCGTTGATTGGCTGTATCGCAGGTGGGTTGGTCAGCGGGATGCTGTCCGACCGGATTGGACGAAGGAATTCGTTGATCGTCGCAGCTGTATTGTTTTTCATTTCCGCACTCCTTTCCAGTTCACCGGAGTTTCTATTCTTTACTAAAGGTGAACCGACCATGGGTCTTTTCATTATGTTCAACATTTATAGAATTATTGGTGGTATCGGCGTAGGGCTTGCATCCGGACTGGGACCGTTATATATCAGTGAAACGGCTCCCGCGAAAATCCGAGGAAAATTGGTAACCTTATATAACCTGGCTATTATTTTCGGGATGCTGGTCGTATACATTATTAATTGGAGAATTGTATCGGGACAAAGCATGAGCTGGATCAACGATATTGGGTGGAGGTATATGTTTGCTTCAGAAGCCATCCCGGCTCTGCTGTTCTTCGGACTGTTATTCCTCGTGCCGGAGACTCCCCGTTATCTGGTCATGAAAAATAAGGATAAAAAAGCGATGAATATCCTTGAGAAAGTGAATGGCTCGGAAAAGGCAGCCAAGGATATCTATAAAAATATCAGACAGGCTGTCGACAAGATGGATAAAACGAAAACAAGCATTTTCTCCTACGGGAAAATGGTTGTGTCGATAGGGCTGCTGCTGGCAATCGCTCAGCAATTCGTGGGTATTAACGTGATTCAATATTATGCACCGCGGATTTTCTCTAATATGGGCGCCTCTACGGACAGTTCCATGCTGCAGACGATCTTGATCGGGGTCGTGAACTTCATTTTTGTTTTGATCGCTCTTTTATTCGTTGAAAAGGTTGGACGAAAACGACTGCTTCTCATCGGTTCTGTCGGAATGGCGGTCGGGATGTTCGGGATTGCTTCTTTAGCTTTCGCCGGCTCGATGGGCGTTGGTGCACTGATTTCCATCCTTGTATTCGTAGCCTTCTACAACTTGTCTTTCGGTCCGCTTACATGGGTGCTCGCATCAGAACTGTTCCCGAATAAAATCCGTGGTCAGGTCATGGCTTTGACTGTGGCGGTGAACTGGGGAAGTAATCTGCTCGTCTCGACGACGTTCCCGACGCTTCTTGAAATGGGAGCAGGTTTCACATACGGTCTCTACGGCCTGATGTGTGTGCTATCCTTTGCTTTCGTCTGGAAGCTAGTTCCGGAAACGAAAGGAAAGACGCTCGAGGAAATCGAACAGTACTGGCTCAGCAAGCAGAAGAAGAAACAAACCAGGGAAATCGGCGTGAAGAAGCTGAGCGGCAAAAAGGTATCCTGGTAA	MKRSRTYIIFLSVIAALGGLLFGYDTAVISGAEQSLEVYFIDSLGLSKLFQGLTVSSALIGCIAGGLVSGMLSDRIGRRNSLIVAAVLFFISALLSSSPEFLFFTKGEPTMGLFIMFNIYRIIGGIGVGLASGLGPLYISETAPAKIRGKLVTLYNLAIIFGMLVVYIINWRIVSGQSMSWINDIGWRYMFASEAIPALLFFGLLFLVPETPRYLVMKNKDKKAMNILEKVNGSEKAAKDIYKNIRQAVDKMDKTKTSIFSYGKMVVSIGLLLAIAQQFVGINVIQYYAPRIFSNMGASTDSSMLQTILIGVVNFIFVLIALLFVEKVGRKRLLLIGSVGMAVGMFGIASLAFAGSMGVGALISILVFVAFYNLSFGPLTWVLASELFPNKIRGQVMALTVAVNWGSNLLVSTTFPTLLEMGAGFTYGLYGLMCVLSFAFVWKLVPETKGKTLEEIEQYWLSKQKKKQTREIGVKKLSGKKVSW	PGPT0014450_228	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_XYLOSE_TRANSPORT_II,PGPT0014450-xylE-K08138	NA	NA
AK012_02938	207			hypothetical protein	ATGATTGGAGTGAGAGGATTAATGACCAAACAAAAGTGGGGGGGCCTATTCGTCGTTTCAAGCGCAGCCACAATGATAATCAACTTGGTATACTTCAAGTCAGGAGACTATTATGATGTTATCCGGATCCTTTCCTACGCTGTGTTCATCATAGGGACACTTATGATTCCCACCTATGCAAAAGCTGAAAAAAAGACGGATTCCTAA	MIGVRGLMTKQKWGGLFVVSSAATMIINLVYFKSGDYYDVIRILSYAVFIIGTLMIPTYAKAEKKTDS				NA	NA	NA	NA	NA
AK012_02939	1011		COG0701	Putative two-component membrane permease complex subunit SMU_747c	TTGTACCAGGATCACTCTTCGCCATCCAGTATGATTTATTTACTATTGGTCGTCTTTTTCACTCTCTTTCTTTTTGGGGACACCCTCCCTTTTGAGACCTTGTTTTCCATCCCGCCTTCTTTATTGGATTTAAACACGATGTTCATCAGCATTGTATTGGAAGCCATCCCCTTTGTCCTTCTGGGGGTGTTTATATCTGCCATTATCCAAACCTTTTTAAAAGAAGAAACGCTTAAAAAATACATCCCCGCCCATCCCTATCTCGCTTTGTTTCCCGCTGTTGCCATTGGAGCTGTTTTTCCTGTATGTGAATGTGCAATTGTACCGATTGTCAGAAGGTTGATACAAAAAGGGATGCCTCTCCATGTAGGAATTGTTATCCTTGTCTCCGCCCCTGTCCTGAATCCCATCGTGTTTTTGTCGACGTTTTATGCTTTCCAGACCGACCTCAGCATTGCCTGGGCACGCATGGGGCTGGCCTTCGTCGTCTCTCTACTAGTGGGCGCAGTGATTTATCAATTTTTCGGGAATCGCTGGCAGCTGAATAAAGCCACGACCGAAGCCATGAATCACCATCACAAACATGCCCACGCCAACGATCAGGGAGGTAAAATAGCAGAAACCTTCCAGCATGCCGGTGATGAATTCTTCGACATGGGAAAGTTCCTCATTATCGGAGCTTTATTTGCCGGTATCGTTCAGACCTTTGTCGCACGGGAAACGTTGATGGAGATCGGAAACGGTGCATTGGCGGGGCCCGCAGTGATGATGGGACTTGCCTACATCTTATCCTTGTGTTCAGAAGCTGATGCCTTTGTGGCTTCTTCTTTTAAAGGACTCTTTTCTTCGACCTCTATTCTTGCTTTTCTCGTTTACGGACCGATGACAGACTTAAAAAACACGATTTTAATGCTGGCTTATTTCAAAAAAAGGTTTGTCCTTGCCTTTTTAGTAATCGTCACCGTTGTCGTTTACGCCGTCAGCCTGTGGTATGACGCATTCTTTATATAA	MYQDHSSPSSMIYLLLVVFFTLFLFGDTLPFETLFSIPPSLLDLNTMFISIVLEAIPFVLLGVFISAIIQTFLKEETLKKYIPAHPYLALFPAVAIGAVFPVCECAIVPIVRRLIQKGMPLHVGIVILVSAPVLNPIVFLSTFYAFQTDLSIAWARMGLAFVVSLLVGAVIYQFFGNRWQLNKATTEAMNHHHKHAHANDQGGKIAETFQHAGDEFFDMGKFLIIGALFAGIVQTFVARETLMEIGNGALAGPAVMMGLAYILSLCSEADAFVASSFKGLFSSTSILAFLVYGPMTDLKNTILMLAYFKKRFVLAFLVIVTVVVYAVSLWYDAFFI				NA	NA	NA	NA	NA
AK012_02940	873		COG3689	Putative two-component membrane permease complex subunit SMU_746c	ATGAACCGGCCCTCGCATCAATTTTTGAGAAGCATTATCTTATTTGGTTTCGTATTATTTCTCATCAAGCTCATGATCTCAGGAGATATTCAAAAGTTTATCGCTCCCCGCATGATGCCTTATATGTATTTCACCTTAATCGTTTTGGGAGTTCTTGCGAGTATCCAATTTTTCAAGAGTGGGTTTGAAGAACAAGGGCATGACTGTGGATGCGGTCACGACCATGATTACTCCAAATCCAGACTCCGTTCCACCATCATTTACTTATTATTCATCATCCCGGTGATGACCGGGATGATGTTTTCCGACCATGTGATTGGAAGTTCAGCTGCTTCCAATAAAGGATTCAAATATGAAATGCGCGGTGGCTCCGACTCATCTGATATCAATGCCCCTGATCAAACCGCTGAAGCAGATGTGTCGGAACAAGCCGAAAACCCGGCCATCCTCACTGCCGAAAAAAGATACCCTGAGCTATCCAAAGAACTGCAGAGCACAAATTCCATACACATGACAGCCGACAACTATATTGGCGCAATCACATTAATGGAAGACGATATGGACCCTTATGTGGGGAAAAAGCTGACGACTCACGGATTCGTATTCCGGGATGACAACTTCCCGGATAACCAAATCGTCATAGGACGGTTCGGGATCAGCTGCTGTGTGGCCGATGCAGGAATTTACGGCATCCTCGTTCAAGGGGAGAACCTTGAACAATATAAAAATGATACCTGGGTGGAAGTAACAGGAACGCTTGAAAAAGTAGAGGCGAATGGCTGGGAGCTTCCTCTCATCCAGCCGGAAGCGATCAAACCGATGGAGACGCCTCCGGAACCGTACGTCTATGAGGACTTAGAGTTCGGCGGATAA	MNRPSHQFLRSIILFGFVLFLIKLMISGDIQKFIAPRMMPYMYFTLIVLGVLASIQFFKSGFEEQGHDCGCGHDHDYSKSRLRSTIIYLLFIIPVMTGMMFSDHVIGSSAASNKGFKYEMRGGSDSSDINAPDQTAEADVSEQAENPAILTAEKRYPELSKELQSTNSIHMTADNYIGAITLMEDDMDPYVGKKLTTHGFVFRDDNFPDNQIVIGRFGISCCVADAGIYGILVQGENLEQYKNDTWVEVTGTLEKVEANGWELPLIQPEAIKPMETPPEPYVYEDLEFGG				NA	NA	NA	NA	NA
AK012_02941	1149			hypothetical protein	ATGTACAAGTGGATCATTATTGGTGGTGGCGTTCAAGGCTGCTGTGTAGCAAGGGGACTTCTTGAAGAAAAAGCAGGAAACGAAGAATTGTTGATCATTGATCCATATCCCGGGCCCATGCACGTGTGGCAGACGTTAACGAAAAAAATTGGGATGTCTCACTTAAGGTCTCCTTCTGTCCATCATCTGGACACAGATCCATACAGCCTTAACAAATATGCCAAAAGTTGTGACTTCGCTCAGCCTTTCAGAGGGAGGTATGCGAGACCTCAATTGGACATGTTTAATCAGCACAGCCTGGATGTGTTTGATGATGTCAGCCTGGAAGAATGCTGGAAGCAGGGGGCGGTCAATGGCATTTCCAAAGAACATAACCATTGGAATGTGTTTCTTGAAGATGGTTCTCTCGTCCAAGGGGAGAAGGTGGTACTGGCTGTGGGTGTCAATCATTCCCCGCATTATCCAGATTGGGCTCGGGAAGGGGAGGTTTCTATCACTCATGTGTTTGATATGCAGACCCCTCTTCCTGAAAAAGGCCGCGTTGTTATTGTTGGAGGAGGGATGACGGCGGCTCACCTGGCTAACACCTTGTCGGACAAAACCTCGGTGGCAGCTGTTTCTTTAGTGAAGCGTCATCCCTTCCGCGTAGAGGATTTTGACAGCGATCCCGGGTGGCTTGGACCGAAGTTTTTAAACGGATATGAGAAAGTGACCTGCTATCACCAGCGCCGGCGGTTGATCCAACAGGCAAGACATAAAGGTTCTATAACCAGAGATCTCCATGTTCAGTTGAAACGGCAGGGGAGTGCCTCCAGATTAAAGATATATACAGGGGAAGTAGAAAAAGCTGTGAAAGGGGAACGTGGTTTCAATCTTCATTTGACAGGTGAGCAGCTTGTGTCGGGAGACTCTATCGTTCTGGCTACAGGAGCGGAAGCGTGTCTTCCCGGGCAGAAATGGCTGGAGCCTCTCATTGAACAGTGCGGTCTGCCATGCGCTCCCTGCGGATTCCCGATCGTTTCGACTTCATTGGAATGGAAGGAAGGGTTGTATGTCGCAGGAGCCCTTGCTGAACTGGAAATCGGTCCTGCAGCAAGAAATATAGCGGGTGCGCGTAAATCAGCGGAGCGAATTGTACGGTCTGCCTGA	MYKWIIIGGGVQGCCVARGLLEEKAGNEELLIIDPYPGPMHVWQTLTKKIGMSHLRSPSVHHLDTDPYSLNKYAKSCDFAQPFRGRYARPQLDMFNQHSLDVFDDVSLEECWKQGAVNGISKEHNHWNVFLEDGSLVQGEKVVLAVGVNHSPHYPDWAREGEVSITHVFDMQTPLPEKGRVVIVGGGMTAAHLANTLSDKTSVAAVSLVKRHPFRVEDFDSDPGWLGPKFLNGYEKVTCYHQRRRLIQQARHKGSITRDLHVQLKRQGSASRLKIYTGEVEKAVKGERGFNLHLTGEQLVSGDSIVLATGAEACLPGQKWLEPLIEQCGLPCAPCGFPIVSTSLEWKEGLYVAGALAELEIGPAARNIAGARKSAERIVRSA				NA	NA	NA	NA	NA
AK012_02942	471	lcdH_1		L-carnitine dehydrogenase	ATGGAACAATCCTTTCATTATAAAAACCGCGTGCTGTCGGAGTGGGTGGATTATAACGGCCACATGAACGATGCTGAATACAACCGCGCCTTCAGCTTAGCGACAGATGCGTTTATCGATTATATCGGACTGGATGAAACAGCGAGAGACAAATACGCGTATACGATCTTCACATTGGAAACGCACGTCTGCTATTTGAAGGAAATGCATGAGGACGAGCCCTTTGAAATCACCGCTCGTGTTCTGGATTATGATGCCAAACGTATTCATTTGTTTTTAACGATGAAGAATCAACATGGTGAAATGACCGCCACCCTTGAAGAAATGCTGATGGGTATGGATCAAAGGACAGGGCGCCCGTCTGCTTTTCCTGATGAAGTGGAGCAGAAGATTCGTTCCGTATATCAGCTGCATGCGGATCAAGAGCATCCGAAGCAGGCCGGTCGGACGATCGGTATTCGGAAAAAATGA	MEQSFHYKNRVLSEWVDYNGHMNDAEYNRAFSLATDAFIDYIGLDETARDKYAYTIFTLETHVCYLKEMHEDEPFEITARVLDYDAKRIHLFLTMKNQHGEMTATLEEMLMGMDQRTGRPSAFPDEVEQKIRSVYQLHADQEHPKQAGRTIGIRKK	PGPT0001850_1780	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0001850-ybgC-K07107	NA	NA
AK012_02943	957	lcdH_2		L-carnitine dehydrogenase	ATGATGTCTATAAAACAAGCGGCCATTGTCGGAACAGGGGTTATCGGAAACGGCTGGATCGTTCGTATGCTTGCCCAGGGATATGATGTGATCGCAGCAGATCCGGCAGAAGGAGCAGAAGAACGGATGCGCCGGGCTGTTGAGCAGTCCTGGCCTTATGTGGAAGCACTCGGTCTCGCTGAAGGGGCTTCCAAAGATCGTTTAACATTCGTAAAAGATACAGAGGAAGCGGTGAAAAACGCGGACTTTATTCAAGAAAATGTGCCTGAAGTGGAGGAACTGAAGCAGTCTGTCCTGCAGACGATCGACAAGCACGCTAAGCCGGATGCGGTTATCGGTTCAAGTACGTCAGGCATTATGCCTTCTGAACTTCAAGAGAACCTACAGCACCCGGAACGATTTGTCGTGGCACACCCGTTCCATCCTGTGTATATCCTGCCTCTTGTTGAAGTCGTAGCAGGAAAACAGACGACAGACGAGAATGTAGATAAAGCGAAAGCTTTTTATGAAAGCTTGAATATGAGTGTCCTGCTCGTCCGCCATGAAATTGAAGGTCATATTGCAGACCGCCTGATTGAAGCGATTTGGAGAGAGTCTCTTCATATCGTTAATGAAGGAATTGCGACAACGGAAGAAGTTGACAAAGCCTTCACCCACGGTGCGGGTATGCGCTATGCCCAGTACGGTCCATTCCTGACGTTCCACTTAGCGGGAGGCGAAGGTGGTATGCGTCACATGCTGAAGCAGTTCGGTCCGGCCTTGAAAAAGCCGTGGACAAAGCTTGAGGCACCGGAGCTTACGGACGAATTGTATGACAAAGTCGTATCAGGGTGTGAGCAGCAGTCCAATGGCATGTCAATGTCTGAACTGGATCAGAACCGCAACGAGTTTTTAGTGAAGCTGTTTGATCTTGTACAGGAATACTGGCCGAAAGAACAGAACGCTGTCAAACGGTAA	MMSIKQAAIVGTGVIGNGWIVRMLAQGYDVIAADPAEGAEERMRRAVEQSWPYVEALGLAEGASKDRLTFVKDTEEAVKNADFIQENVPEVEELKQSVLQTIDKHAKPDAVIGSSTSGIMPSELQENLQHPERFVVAHPFHPVYILPLVEVVAGKQTTDENVDKAKAFYESLNMSVLLVRHEIEGHIADRLIEAIWRESLHIVNEGIATTEEVDKAFTHGAGMRYAQYGPFLTFHLAGGEGGMRHMLKQFGPALKKPWTKLEAPELTDELYDKVVSGCEQQSNGMSMSELDQNRNEFLVKLFDLVQEYWPKEQNAVKR	PGPT0021955_523	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021955-lcdH|cdhA-K17735	NA	NA
AK012_02944	891	kce	COG3246	3-keto-5-aminohexanoate cleavage enzyme	ATGAAAAATAAAGTATTGTTAACCTCTGCGGTCACGGGAGCGGGAGATACGATGAAGAAAAACCCCCACGTCCCTGTGACACCGAAGGAAATTGCAGCATCTGCGATTGAATCAGCTAAAGCAGGAGCAACGGTTGCCCACGTGCATGCCCGGGATCCACAAACGGGAGGCATCAGTCATGATGTGGACCACTATCGTGAAATCGTCGACCGGATCCGTGAAGCTGATACGGATGTGATTATCAATATTACGTCTGGTGGAGGCGGGGATTTCATCCCTAGCTTAAGCACACCTGCCGCTGGCGGAGACGGTACGGATATTCAGACGCCGGCGGAGCGTCATGCCCCCGTAGGTGAGCTGCTTCCTGAAATGTGTACGCTTGACTGCGGCAGCACGAACTTCGGAGACATGATTTATATGAGTCCGACAGATTGGCTTCGAGATCAGGCCGAAATGATCCAGAAGAGTGGTGTGAAGCCTGAACTGGAATGTTTTGATACAGGTCATATTCGTTTTGCCAATCAATTGGTGCAAGAAGGGTTGATCGACGGTGATCCGATGTACCAATTCTGTCTGGGAATCCCGTGGGGAGCGGCTGCTGATGCAGAAACAATGATGTATATGAAGAACCGTATTCCTGAGAATGCCCACTGGTCAGCGTTTGGAATCGGGCGCATGCAGATGCCGATGGCTTCTCAATCAGCGATGCTCGGTGGAAACGTCCGTGTCGGCCTGGAAGATAATATTTATCTTTCCAAAGGTGTTCCTGCAACGAATGAACAGCTGGTCGACAAAGCTGTCGGTATGCTCCGCGGTCTGGACCTTGAGCCGATGAGCCCGCAGGAAGCACGTGAATATCTCAATCTAAGAAACCCACATGGAGGGAAATGA	MKNKVLLTSAVTGAGDTMKKNPHVPVTPKEIAASAIESAKAGATVAHVHARDPQTGGISHDVDHYREIVDRIREADTDVIINITSGGGGDFIPSLSTPAAGGDGTDIQTPAERHAPVGELLPEMCTLDCGSTNFGDMIYMSPTDWLRDQAEMIQKSGVKPELECFDTGHIRFANQLVQEGLIDGDPMYQFCLGIPWGAAADAETMMYMKNRIPENAHWSAFGIGRMQMPMASQSAMLGGNVRVGLEDNIYLSKGVPATNEQLVDKAVGMLRGLDLEPMSPQEAREYLNLRNPHGGK	PGPT0021956_1	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021956-cdhC-NA	NA	NA
AK012_02945	1545		COG1292	putative glycine betaine transporter	ATGAAAAAACAAATCATGGATTGGAAAACGTTTGGAGGGGCTCTGGCACTACTATTGTTCGTTTCGCTGCCTCTCCTTATCTTTCCGGAACAAGGAAAGGAAATCGTACTGGCAGCAAACGAAATCGTTACCCAGCGGCTCGGTTTCCTATTCTTATCCGTAGGCTTAGTCATGCTGCTTTTCCTCTTATTTATAGGGGTGAGCCGGTATGGTGATATCAAGCTGGGCGATGCGGATACAAAAACAGAATTCAAAACCGGCTCCTGGGCAGCGATGCTGTTCACGAGTGGGATTGGAACAGGGATCCTTTACTGGGGAGTTATTGAGTGGGCCTACTATTATCAAGGTCCTCCATTCGGAGTTGAAGCTGGATCCAGCGAAGCGATCCAGTGGGCATCGACCTATGGTTTTTTCCACTGGGGACCGATTGCCTGGGCAATGTTTGCCATCCCTGCCCTTCCTATCGGCTACATGTTTTATGTTAAAAAAACCGATGTATTCAAAATCAGTGAAGCATGCCGTCCCGTTTTAGGTAAGTACACGGACACATGGGTCGGCCGAATCGTGGATATTCTCTTCATGTTCGGACTGCTTGGCGGAGGGGGAACCGGTCTCGCTCTGTCCGCTCCAATCATTTCATCCGGACTCAACCATCTTGTCGGCGTGCCGGATACAATGATGACGAAATCCGTTGTGCTGGTGGTTTGTACATTGATCTTCGGACTCAGCGCCTATTCCGGGCTGCAGAAAGGAATCCGGGTATTAAGTGACATCAACTTGTGGCTGGCCTTTCTACTTCTCCTATTCATTTTCACCGTTGGCCCGACCACCTTCATCACAGAAACGACCGGTACCGCCCTCGGCCGCATGATGGATAACTTCTTCCTCATGAGCATGTGGTCGGAACCCTTTAATGACCTGGCCTCCTTTACACGGACCGGTTTTCCGGAAGGCTGGACAGTATTCTATTGGGCGTGGTGGATCGTTTATGCCCCATTCGTCGGCTTATTCATCGCCCGGATTTCCAAAGGACGCACCATCCGTCAGGTCGCTTTTGGAACGGTCTTATTCGGAAGCCTGGGAACGATTCTCTTTTTCGGGATTTTAGGAAACTACTCAATGTATTTGGAGCTGAGCGGTCAATACCCTGTTATTGAAACATTAAATAATGAAGGGGCACCGGCAGCCATCATCGGAACATTAACCGAGCTTCCATTAGCCACATTTGCAATCATTGTGTTTATATTACTGGCGACGATCTTTCTATCGACAACCTATGATTCTGGTTCGTATGTCATTGCTTCCGTCGTCCAAAAACGGGTCGAAGGAGAACCACTCAAGTGGAACCGCCTGTTCTGGGCTCTGGCATTGTCCATCCTTCCGATGATCTTCATGAATATGGGTGGATTGACGACCCTGCAGACCATCAGCATTGTCGGAGGCTTCCCTCTGCTTGTGATTCTGCCGATTCTCGGATGGTCCTTTATCAAAATGGTCAACGAGGACCGGGCAGCGGAAGAAAAAGAAAATAAAAAGGCATCTTAA	MKKQIMDWKTFGGALALLLFVSLPLLIFPEQGKEIVLAANEIVTQRLGFLFLSVGLVMLLFLLFIGVSRYGDIKLGDADTKTEFKTGSWAAMLFTSGIGTGILYWGVIEWAYYYQGPPFGVEAGSSEAIQWASTYGFFHWGPIAWAMFAIPALPIGYMFYVKKTDVFKISEACRPVLGKYTDTWVGRIVDILFMFGLLGGGGTGLALSAPIISSGLNHLVGVPDTMMTKSVVLVVCTLIFGLSAYSGLQKGIRVLSDINLWLAFLLLLFIFTVGPTTFITETTGTALGRMMDNFFLMSMWSEPFNDLASFTRTGFPEGWTVFYWAWWIVYAPFVGLFIARISKGRTIRQVAFGTVLFGSLGTILFFGILGNYSMYLELSGQYPVIETLNNEGAPAAIIGTLTELPLATFAIIVFILLATIFLSTTYDSGSYVIASVVQKRVEGEPLKWNRLFWALALSILPMIFMNMGGLTTLQTISIVGGFPLLVILPILGWSFIKMVNEDRAAEEKENKKAS	PGPT0021960_384	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARNITHINE_USAGE	PLANT_DERIVED_CARNITHINE_DEGRADATION,PGPT0021960-TC_BCT-K03451	NA	NA
AK012_02946	408			hypothetical protein	ATGAAATCACGATATGAACAAGGATTAGAGATTTTAAAAGGATATACAGACGAAGAAAAAGGAACCAATCACTTTGAACTGATGAAAGCGTTGGAAGATATTTCACCGGATCTCGGAAAATATATCATCGAGTTTGCTTACGGGGATATTTACAACCGGGATCATCTGGATAAAAAAGCCCGTGCACTTACGGTTTTATCCAGTCTTGTCACTCAGGGAAGCGGCAGTCTTCCCCAGCTCGAACTTCATATCAATACGGCTCTCAATGCGGGGCTGTCTGAAAAAGAAATCGTAGAAGCGATGATGCAGTTGATTCCTTATGTTGGATTCCCATCTGTAATCAACGCGCTGACACAGGCACGAGAAGTATTTCAGGAACGCGGTAACAAACAAAAAACGTACGCATAA	MKSRYEQGLEILKGYTDEEKGTNHFELMKALEDISPDLGKYIIEFAYGDIYNRDHLDKKARALTVLSSLVTQGSGSLPQLELHINTALNAGLSEKEIVEAMMQLIPYVGFPSVINALTQAREVFQERGNKQKTYA	PGPT0005005_2509	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
AK012_02947	540			hypothetical protein	ATGCCAAGGGTATCAAAACGGCAGAAACTGCTGGAAGCAGCGGCATTGATTGTGAAAGAACAGGGAAGCGATGCTCTTACGCTGGATGCCGTTGCAAAAAAAGCGGAAGTCAGTAAGGGCGGCCTGTTGTACCACTTTTCAACGAAGGAAGCTTTAGTGAAAGCGCTTGTCCAGCACATGAATGACATCTACCAAGAGAACGTGAAAAGTTTTGTGGACGAAGAAGAGGATGAAGTCGGAAAGTGGGCACGGGCATTTATTAAAGTGCTCCACGATAAAAGTATAGAAAACCAGACGATCAGCGGGGGAATGCTGGCTGCTCAAGGCATTAATCCTCAACTCATGAAGCCTTTACAGGAGACATATGCTGATTGGCAGTATCATATGGAACATGATGGACTCGATCCTGTCGATGCAACCATCCTGCGCCTTGCTGCAGATGGACTATGGCTGTCTGAAATTTTCGGTCTCGGTGTTCTACCCCAGACGCTTCGAGAGCAGGTGCTTGAACGGTTGGAAGAACAAAGCCGGCCGAAATAA	MPRVSKRQKLLEAAALIVKEQGSDALTLDAVAKKAEVSKGGLLYHFSTKEALVKALVQHMNDIYQENVKSFVDEEEDEVGKWARAFIKVLHDKSIENQTISGGMLAAQGINPQLMKPLQETYADWQYHMEHDGLDPVDATILRLAADGLWLSEIFGLGVLPQTLREQVLERLEEQSRPK				NA	NA	NA	NA	NA
AK012_02948	1518	cotA	COG2132	Spore coat protein A	ATGTTAAAAAAGTTCGTCGATTCCCTTCCCATCATGAAAACCACGCGTCCGGCAGCCTGTCTTCACGGTGTCCCCTATTTTGAAGTGACAATGAAGCAAACATTCCAGAAGCTGCACAGGGACCTTCCACCTACAAAAGTGTGGGGCTATAACGGGCAGTATCCCGGCCCGACTTTTCACGTATGGAAGCATCAGCCGATCCACGTCTTATGGAAAAATGAACTGCCTGACCGACATTTTCTCCCGATTGATACAACCGTTCACGGAGCAGAAAAAAACCAGCCGGAAGTACGGACCGTCGTACACCTGCATGGAGGGGTGACACCGGATACCAGTGATGGCTATCCAGAAGCCTGGTTCACCCGTCACTTTAAAAAAGTGGGCCCTTACTTTTCTCATCGAATGTACACCTACCCCAATCATCAAGACGCTGCCAACCTCTGGTACCACGACCATGCCATGGGGATTACCCGTCTCAACATTTACGCCGGTCTTTCAGGGATGTATATCGTCCATGATGAAAATGAAGCCCGATTGAACCTTCCCTGCGGCCCCTTCGATCTCCCATTGATCATCCAGGACCGTTCGTTCCGGGAAGATGGCAGCCTTTTCTATCCATCGAGGCCAGCCCAGCCTCAAACGGCTCCCCCCCCTTCGGTCATCCCCGATTTTTACGGAGACACCATTTTAGTGAATGGGAAAGTATGGCCCTATTTAAATGTCGAACCTAGAAAATACCGGTTTCGGATCCTGAATGGATCAAACGCCCGTTTCTACAGGTTTTCCCTTTCCAACGGTGCTCCTTTTATCCAGATCGGCACCGATCAGGGACTGCTTGAAACCCCGGTCCGTGTTCCCGCTCTCGTATTAGCTCCTGCTGAAAGAGCGGATGTGATCATTGATTTCTCCACTTGTTATGGGAAAACCATTATCCTGGAGAATGACTTCGAATCCAAGGATGGAAAAGCGGATCCAGAAACGACAGGAACGATCATGCAGTTCCGAGTCAATCAGCGTCTTTCCCGCACCGATCACAGCTCCATCCCTGGATGGCTCGCTCCTGTTCCAAGATTTACACATGTGGACAGAACCCGGACACTGAAACTGAACATGCGGAAAGATTCATACGGACGTAATATTCACCTGTTGGATGACCGCTTATGGTCAGACCAAGTTACTGAAGTTCCAAAGCTCGGACAGACGGAAGTGTGGAGGATCGTAAATGGAACAGAAGCGATCCACCCGATCCATCTTCACTTGGTCCGCTTCCAAATCCTTGACCGCCAGCCTTTCGATGTGGATGTTTACAAACAGGAAGGAAGAACCGTTTTTACAGGTCCGCGTGTGCCCCCGGATTGGAACGAAAGAGGCTGGAAGGATACTGTCCGTTCCCGCCCCGGTGAAGTGACGCGGATCATCATGAAGTTCGGCCCCTATCCCGGCTTGTTCGTGTGGCACTGTCATATCTTAGAGCACGAAGACTATGAGATGATGCGTCCATACTATATCAGGACATAG	MLKKFVDSLPIMKTTRPAACLHGVPYFEVTMKQTFQKLHRDLPPTKVWGYNGQYPGPTFHVWKHQPIHVLWKNELPDRHFLPIDTTVHGAEKNQPEVRTVVHLHGGVTPDTSDGYPEAWFTRHFKKVGPYFSHRMYTYPNHQDAANLWYHDHAMGITRLNIYAGLSGMYIVHDENEARLNLPCGPFDLPLIIQDRSFREDGSLFYPSRPAQPQTAPPPSVIPDFYGDTILVNGKVWPYLNVEPRKYRFRILNGSNARFYRFSLSNGAPFIQIGTDQGLLETPVRVPALVLAPAERADVIIDFSTCYGKTIILENDFESKDGKADPETTGTIMQFRVNQRLSRTDHSSIPGWLAPVPRFTHVDRTRTLKLNMRKDSYGRNIHLLDDRLWSDQVTEVPKLGQTEVWRIVNGTEAIHPIHLHLVRFQILDRQPFDVDVYKQEGRTVFTGPRVPPDWNERGWKDTVRSRPGEVTRIIMKFGPYPGLFVWHCHILEHEDYEMMRPYYIRT	PGPT0025135_143	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025135-cotA-K06324	NA	NA
AK012_02949	270	rpsN2_1	COG0199	Alternate 30S ribosomal protein S14	ATGGCGAAAGCATCAAAAATAGCAAAAGAGAAAAAGAGACAGGCGATGGTAGCGAAATATGCGGACTTGCGGAAGGAGTTGAAAGAGAAGGGCGACTATGAAGCCCTTCGAAAACTCCCTCGCGATTCTTCCCCTACACGTTTGAAAGGCCGCTGTGAAGTAACCGGCAGGCCCAGGGGTTATATGAGGAAATTTAATATGTCCCGTATTGCTTTCAGAGACTACGCCCATAAAGGACAGATCCCTGGTGTAAAAAAAGCCAGCTGGTAA	MAKASKIAKEKKRQAMVAKYADLRKELKEKGDYEALRKLPRDSSPTRLKGRCEVTGRPRGYMRKFNMSRIAFRDYAHKGQIPGVKKASW				NA	NA	NA	NA	NA
AK012_02950	495			hypothetical protein	ATGAAATCACTGATTGTGTACACATCCAAACATGGAAGCACAAAAAAAGCCGTCCAGCTGCTGGTGGATCAATTAGAAGGGGAAGTGACAGCCGTTAAAGTGGAAGATGCCTGGGGAATCGAACTCCTTTCCTATGACAGGGTGATCATCGGCGGCCCCATCTATAATGGTCAGATCTCCATGGAACTCAGTTCCTATGCGGTTTGTCATCTATACACATTAATGGAGAGGCAGCTTGGCTTATTCATTCTGGCTGCAGCGGAAGACGTTTTCACGCTGGAGCGGGAACTGGAAGAGGCGTTTCCCGATCCCCTCTATGCCTATGCTTCTGCGAAAGAAGCTTTCGGTTATGAGCTGCAGTTGGATCAATTGAGTGCTTTAGAAAAAATGATTCTCGAAGCCAATGGTATTTCTCGTAATGCTTCCAAATTATCTGTGTCAGGCATCGAGCATTTTGCAGAAACGTTGAACAAAAAAATGAAAATCTGCTGGTGA	MKSLIVYTSKHGSTKKAVQLLVDQLEGEVTAVKVEDAWGIELLSYDRVIIGGPIYNGQISMELSSYAVCHLYTLMERQLGLFILAAAEDVFTLERELEEAFPDPLYAYASAKEAFGYELQLDQLSALEKMILEANGISRNASKLSVSGIEHFAETLNKKMKICW				NA	NA	NA	NA	NA
AK012_02951	1464			hypothetical protein	TTGGCAAAAAATAAAAGAGTGCGTGTGATCGACTCCTCCCAATTTAAACTGAAGCCTAGGAAAACAAAAAGGAAGAAGGGTTTGAATAAAAACAGGAAGAGTTCTAATAAAAGCAGGAGACGAAAGGTCGTAAAGAGCTCGAGAAAATGGGTGTATATCGTCATCGAAACGAAGGTCAGGGAATTGGATGCCAAGCTATTATTGGCTTACTATTTACTCAAGGAAGGATACAATGTTGTCCTGGGCCATACGCTTACCATTGAAAAATGTCTGGAGTTTTTTCCACCGGGTATTTTTCTGGATAAAGGAGTGGGCACGAAAGATAAAATCAGAAGGTTCAAAGAAGCAAAGAAGTATGGTCATGCCGTAGTCAATTTAGAAGAAGAGGGGTTTCCCTTATCAGAAAAGAACCTATATATTAATGGATATCTTAGTCATGAAAGTCTTAAACTACTAGAATATGAATTCTGCTGGGGGGAAATACAAAAAAAGGTCATCGCGGATCGTTACCCACAGTTTAAAAACAAATGTGTGATAACTGGAAACGCACGGTTTGATCTGCTGAAAAGAAAATACCGCCCTATGTTCGCTGAGGAAGTAACAAATTTAAAAGGTAAACATGGCGATTTTATTCTCATCAATACAAGATTTCCTCCTTATACGAAAACGATTAATGAAGATGGATCCATAGACACCAATCGTATGAAGCGTTATCAGATGATGTACGGGACAGAAAAGATGAAAGAATATGGAGACTTGTACAGGGGATTCATCGCGTTAGTCAGAGACCTGAGTCATAGGTATCCGCAATATAAAATCATCATCAGACCTCATCCAAGTGACATTGCAGATGTCTACAGGAAAGATTTATCTGGGCTGAAGAATGTGTCGATCATCAGGGAAGGGAATGTCGTGAATTGGATTTTAGCTTCAAAGCTGGTCATCCATAATGGCTGCACCACAGGAGCAGAGAGCTTCCTGCTTGAAAAACCTGTCATTTCTTATATCCCTGTTCAGACGTATAAGAGTCATTTACCGGATGATTTGAGTATTAAAATGTACAATGCTGAACGTGTATGTACATTCATTGATCATGAACTTAATACTTATAATTTCAGGGATAATAAGTATAGTGAACTGGAAAAGAACGCATTGTTATCAAGGTACAGTGCAGGAGTCGGAAATACCTTTGCATATCAAAACATCATCAGAAATTTAAAGACCCTGCCTGTTCAACCGTCTGGTACGAATAGAATCCACATGTCTCCGAGGTTCAAGAAAAAGCTGCAGAAGGAATTGAGTAAAAAGATTTATAAAAACCCGCTTGCTATGGAATACTTACCCAGTTTGACCACAAGCGAGATACGTCATTTCCTTGATAAAATACAATCCATAGAGAACGATAAGAATGACATTAACATTCGTTTGTTTAAAAATAAAATATGTGAGATCAGGTTGGATTAA	MAKNKRVRVIDSSQFKLKPRKTKRKKGLNKNRKSSNKSRRRKVVKSSRKWVYIVIETKVRELDAKLLLAYYLLKEGYNVVLGHTLTIEKCLEFFPPGIFLDKGVGTKDKIRRFKEAKKYGHAVVNLEEEGFPLSEKNLYINGYLSHESLKLLEYEFCWGEIQKKVIADRYPQFKNKCVITGNARFDLLKRKYRPMFAEEVTNLKGKHGDFILINTRFPPYTKTINEDGSIDTNRMKRYQMMYGTEKMKEYGDLYRGFIALVRDLSHRYPQYKIIIRPHPSDIADVYRKDLSGLKNVSIIREGNVVNWILASKLVIHNGCTTGAESFLLEKPVISYIPVQTYKSHLPDDLSIKMYNAERVCTFIDHELNTYNFRDNKYSELEKNALLSRYSAGVGNTFAYQNIIRNLKTLPVQPSGTNRIHMSPRFKKKLQKELSKKIYKNPLAMEYLPSLTTSEIRHFLDKIQSIENDKNDINIRLFKNKICEIRLD				NA	NA	NA	NA	NA
AK012_02952	1293		COG4310	Putative polysaccharide biosynthesis protein with aminopeptidase-like domain protein	ATGACTAGAAGGGAAAGACAGGCTGGAGAGGATATGTATGAATTAATGAAGAGACTTTTTCCTATATGCCGAAGTATCACCGGGGAAGGAGTAAGAGAAACCTTACGCATTCTGAAAGAAACGATTCCTTTGGACATCATCGAGGTCCCCACGGGAACGAAAGTATTGGATTGGGAAATACCTCAGGAGTGGAATGTTAAAGATGCGTACGTCATGAATGGAAAAGGCGAGAGAATTATTGATTTCAGGGAAAATAACCTGCATTTGGTCAGTTATTCCCGTCCTGTTAACAAGACAGTATCCCTGGAATACTTGCAGAACCATTTGTTTTCATTAGAGGACCAGCCGAGTGTGATTCCCTATGTCACTTCTTACTACAATGATTATTGGGGCTTTTGTATGTCTCATGAGCAGAGGGAAACGTTGAAGGATGAAGAGTACAAAGTCGTGATAGATAGTGAGTTGAAAGATGGCAGTTTGACCTATGGAGAATTGATCATTCCAGGCCGGTCCAGGAAAGAGGTCTTTTTATCCACTTATATATGTCATCCTTCTATGGCGAATAATGAGCTTTCGGGCCCGGTTTTAACAACGTTTTTAGCGAAATGGCTGTTGGGTCGGAAGAGAAGATATACATATAGAATCGTCTTTGTTCCGGAAACCATTGGATCAATCACTTATCTAAGTAAACATATGGACGAAATGAAAGAGAAGATCATTGCCGGGTATAACATCACGTGTGCAGGGGATGAAAGGGAATATTCCTACTTACCGTCCAGATACGGAAATACGCTTGCGGATAAAGCAGCTTTAAACATATTAAAAACCAATCAAATGGACTTCGTGAAGTATTCCTTCCTTGAAAGGGGAAGTGACGAACGTCAATACTGCAGCCCCGGAATCGATCTGCCTGTAGCAAGTATTATGAGAACAAAATACGGTGAATATCCGGAGTATCATACATCAGATGATAATCTGAATCTGGTCACTGCTCATGGCTTGCAGGGAAGCTACAACATTTACCAGCAATGTCTACAGGCGATTGAACAGAACGAGGTGTATAAGGTGAAGTGCTTAGGTGAACCTCAATTAGGTAAGAGAGGCTTACGTTCCACCCTCAGTACAAAAGAATCTGGAAAAGCAGTGAGAGATATGATGAATTTTATCGCTTATGCAGATGGTGAGAATGACCTTATTGATATAAGTAATCGAATCCATGTCCCATTGGAAAATTTGTATCCCATTATTGAGAAGCTAACGGAAAATGATCTGCTGATAAAAATGCCGCATTAG	MTRRERQAGEDMYELMKRLFPICRSITGEGVRETLRILKETIPLDIIEVPTGTKVLDWEIPQEWNVKDAYVMNGKGERIIDFRENNLHLVSYSRPVNKTVSLEYLQNHLFSLEDQPSVIPYVTSYYNDYWGFCMSHEQRETLKDEEYKVVIDSELKDGSLTYGELIIPGRSRKEVFLSTYICHPSMANNELSGPVLTTFLAKWLLGRKRRYTYRIVFVPETIGSITYLSKHMDEMKEKIIAGYNITCAGDEREYSYLPSRYGNTLADKAALNILKTNQMDFVKYSFLERGSDERQYCSPGIDLPVASIMRTKYGEYPEYHTSDDNLNLVTAHGLQGSYNIYQQCLQAIEQNEVYKVKCLGEPQLGKRGLRSTLSTKESGKAVRDMMNFIAYADGENDLIDISNRIHVPLENLYPIIEKLTENDLLIKMPH				NA	NA	NA	NA	NA
AK012_02953	780			hypothetical protein	ATGTCTAAATTTGAAAAAACCAAAGATATTGTAGATCTTCTTGATATCAGTGAAGGTGATGTGGTTTTAGTTGGTTCTGATATTACCCGATTAGCGGTTGAGGCACTGAGGAATGGAGAAAAGTTTGAGGTTCATACATTTATCGATGGTTTGATAAACAAAGTGGGTGGAAATGGCACACTGCTGTTTCCGACATTTAACTGGGATTTTTGTAAGGGTGGAACCTTCGATTATCACCACACGGTTTCTAAGACAGGGGTATTAACGAACGCTGCTTTAAAAAGAAAGGATTTTGTCCGAACACGACACCCGATCTATTCATTTGCCGTGTGGGGCAGAGATAAAAACAAGCTGTATCAAATGAATAACATAAGTTCTTTTGGCAGTGATTCCCCATTTGCCTACTTACATAAAGAGAAAGCGAAAATGCTGATGATCGGCTTAAGTTACCAGCATTCATTCACATTCGTTCATTATGTGGAAGAAATGGAGAAAGTAACATACCGATTCATGAAGCCGTTTTCCGGCCTTTATATAGATGAAAATGGCAGGGGAAGTGTACGGACATACACGATGTATGTCAGGCATCTCGATAAATCCGTTGTCACAAGAATTAATCCAATAGGGGAGGAACTGGAAAAAAGAAACATCTCAAAATGTAAAACCATCAATGGTGTCTCGTTCTGCTTCATCCACTTGTTTGAGGCTTACGAAGTGATCAGGGAAGACATCATCCACAATGGAGCAGGAAAGCTGTTTAGTATAGATCATCAAAGCTAG	MSKFEKTKDIVDLLDISEGDVVLVGSDITRLAVEALRNGEKFEVHTFIDGLINKVGGNGTLLFPTFNWDFCKGGTFDYHHTVSKTGVLTNAALKRKDFVRTRHPIYSFAVWGRDKNKLYQMNNISSFGSDSPFAYLHKEKAKMLMIGLSYQHSFTFVHYVEEMEKVTYRFMKPFSGLYIDENGRGSVRTYTMYVRHLDKSVVTRINPIGEELEKRNISKCKTINGVSFCFIHLFEAYEVIREDIIHNGAGKLFSIDHQS	PGPT0028625_542	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-AMINOGLYCOSIDES_RESISTANCE-STREPTOMYCIN|KANAMYCIN|AMIKACIN,PGPT0028625-aacC-K00662	NA	NA
AK012_02954	750	linX		2,5-dichloro-2,5-cyclohexadiene-1,4-diol dehydrogenase LinX	ATGGTCGACTTAACGAACCAAGTCATTTTGATCACGGGAGCCAATCGTGGGCAGGGCAAAGCGATGGCCGAGCATCTTGCAACGCTGGGAGCGAAGGTCATCGTAGGCGCGAGGAACCTTGAGAATGCTCAAGAAATAGCAGAAGAAATAGGGGAAGACCATGCCTATCCTGTTCAGCTGGATGTTACGAAAGATCAGGATTGGGAAGAGGCTGTAAACGAAGTCGTAGATAAGTTCGGAGCAATCGACGTTCTTATCAATAATGCCGGAATCCTGATCCGTAAACCATTTCAGGAGATATCCATGGAGGAATACCAGGAGATGATTGATGTGAACCAGCTCGGGGTCTTTCGAGGGATGAAGGCTGTTACACCTCAAATGGAGAAACAGCGGAAGGGATCCATCATCAACAATTTATCGATTTCTTCGTTCGCTCCCATTGCCAAGTCATCCGCTTATGCCGCAACGAAAGCATCGGTTGTAGCGATGTCGAAAGCAGCAGCGATTGAATTAGGGAAGAAGGGGATTCGGGTGAATATGATCCACCCCGGTGGTATTGAGACGGAAATGGCTACCCAGGGAGAGGGAGTTCCCTCGTTTTACGATTCGATTCCTCTTGGACGCATCGGACAACCGGTTGAAATTGCCCGCGCTGCCGCATTTCTTGCATCTGATGAGAGTTCATACTGCACCGGTACGGAAATTGTAGTGGATGGAGGCATGACGCTTGGTGTGAATGAGGGAGAATAG	MVDLTNQVILITGANRGQGKAMAEHLATLGAKVIVGARNLENAQEIAEEIGEDHAYPVQLDVTKDQDWEEAVNEVVDKFGAIDVLINNAGILIRKPFQEISMEEYQEMIDVNQLGVFRGMKAVTPQMEKQRKGSIINNLSISSFAPIAKSSAYAATKASVVAMSKAAAIELGKKGIRVNMIHPGGIETEMATQGEGVPSFYDSIPLGRIGQPVEIARAAAFLASDESSYCTGTEIVVDGGMTLGVNEGE	PGPT0003180_16872	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
AK012_02955	1623			hypothetical protein	ATGTTAAAAAAAATAATAGGCGTAGTGAGTTTATTTGCTTTCATATTCGTACTTACAGCATGTGGAGAAGAAGAATCAAGCAATAGTGAAGAAGGAGAACAGTCCGATGGTTCAAGTGAAGCTTTAAGTATTTATACGACGGTTTATCCTCTTCAGTATTTTGCCGAGCAGATTACAGGGGAGCAGGCGGATGTGCAATCGATTCTGCCTCCGGGTTCAGATCCTCACACATATGAACCAACATCAAAAGAAATGATCGAAATGGCAGAAGCGGATGCTTTTATTTACAACGGTGCCGGGTTAGAACCCTATGCCGAAAAAATCTCAGATTCTATTAAATCTGAAGATGTTAAAATTCTGGAAGCATCCACGGGGATTGAATTAAAAGAGCATACCCATAATCACGGGGAAGAAGAAGGAACTCATGAGGAAGAGGAAAGCTCTCATGAGGATGAACACGCTGGACATAACCACGGGGACCAGGACCCGCACGTCTGGCTTGACCCCATCCTTTCTATTCAAGTAGCTGAGAATATCAAAGATACACTGGTTGAACTGAATCCAGGGCAGGAAGACACTTATAATGAAAACTTCGAGGAACTAAAAAGTAACCTTGAAGGACTGGATCAGGAATTCCACGATCAATTGGAAGCTGCACCAAAGAATAAATTCATCGTTTCTCATGCCGCTTATGGATACTGGGAACAATCCTACGGTGTTGAGCAGGTTTCTGTTTCCGGTTTAAGCCCGACCAACGAACCTTCTCAAAAAGATTTGGAAGCCATAGTTGAAACGGCTGAACAGCATAACATCAAACACGTATTCTTTGAGCAGAATGTTACCCCTAAAGTTGCGGATGTCGTTAGAAAAGAAATCGGGGCAGAATCTCTGCGTCTTCACAATTTGTCTGTATTGACGGAAGAAGATATCAACAATGAAGAGGATTATTTCACTCTGATGCAGCGCAATTTAGAAGTATTAACTGAAGGTTTGGCCGGAGAACCGTCTGATGCCGGGGACTCTTCTGAATCAGACGAGCACAGCGGCCACGATCATAATCACAGCCATGCACATGACGAAGAAGCCCAGCAGATTTATGATGGGTACTTTGAAGATGAGCAGGTGAAGGATCGTGAGCTGACAGACTGGGAAGGGGACTGGCAGTCTGTATATCCATACCTTCAGGATGGAACACTTGATGAAGTGTTTGCCTATAAGGCTGAGAATGATGGAGATATGACAGCAGAAGAATATAAAGAGTACTATAAGATCGGTTACGAAACCGATGTGGAACGCATTATTTTTGAGGGAAATGACGTAACGTTCTTCGAAAATGGAGAAAAGTCGTCGGGAACCTATACCTATGATGGTTATGAAATCCTTACCTATGAAGCTGGCAATAGAGGGGTCCGTTATATTTATGAGTTAACGGAAGAGGATGAGGATCTTCCTCAATACATCCAATTCAGCGATCACAGTATCACTCCAACTGATGCGGACCACTACCACCTCTACTGGGGAGATGACCGTGAAGCTCTATTGGACGAAGTGACAAACTGGCCGACGTATTATCCATCAGACATGGATGGTCATGAGATCGCCCATGAAATGATGGCTCACTAA	MLKKIIGVVSLFAFIFVLTACGEEESSNSEEGEQSDGSSEALSIYTTVYPLQYFAEQITGEQADVQSILPPGSDPHTYEPTSKEMIEMAEADAFIYNGAGLEPYAEKISDSIKSEDVKILEASTGIELKEHTHNHGEEEGTHEEEESSHEDEHAGHNHGDQDPHVWLDPILSIQVAENIKDTLVELNPGQEDTYNENFEELKSNLEGLDQEFHDQLEAAPKNKFIVSHAAYGYWEQSYGVEQVSVSGLSPTNEPSQKDLEAIVETAEQHNIKHVFFEQNVTPKVADVVRKEIGAESLRLHNLSVLTEEDINNEEDYFTLMQRNLEVLTEGLAGEPSDAGDSSESDEHSGHDHNHSHAHDEEAQQIYDGYFEDEQVKDRELTDWEGDWQSVYPYLQDGTLDEVFAYKAENDGDMTAEEYKEYYKIGYETDVERIIFEGNDVTFFENGEKSSGTYTYDGYEILTYEAGNRGVRYIYELTEEDEDLPQYIQFSDHSITPTDADHYHLYWGDDREALLDEVTNWPTYYPSDMDGHEIAHEMMAH	PGPT0004220_30	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_FACILITATING_PROTEIN	ROOT_COLONIZATION-ZINK_TRANSPORT_LIPOPROTEIN,PGPT0004220-znuA-K09815	NA	NA
AK012_02956	411	zur_2	COG0735	Zinc-specific metallo-regulatory protein	ATGATGAATTTGAATACAGCTATCCAATTGTTAAAAGAAAAAGGGTACAAACATACAAAGCAGAGAGAACGTATGCTTGAGATTTTTGTTAGTCAGGATCAATATATAGCAGCGAAAGATGTGTTGAGAATGATTCAACAGGACTTTCCCAGTGTGAGTTATGATACGATCTATAGAAATTTATATCTTTTAACGGATGAAGAAATGTTAGAAGCGACTGTGCTTCATGGAGAAAAACATTTCCGGCTTGCATGCGATTCTAATGAGCATCATCACCATTTCATTTGTAACAGCTGTGGGAGTACGAAAGAGGTTGAGTTCTGTCCTATGAACGTAATAGAAAAGCTGCAGGGTTATCAAATCGAACATCATAAATTTGAGATTTATGGAGAATGTCCACAATGTCACTAA	MMNLNTAIQLLKEKGYKHTKQRERMLEIFVSQDQYIAAKDVLRMIQQDFPSVSYDTIYRNLYLLTDEEMLEATVLHGEKHFRLACDSNEHHHHFICNSCGSTKEVEFCPMNVIEKLQGYQIEHHKFEIYGECPQCH	PGPT0004295_394	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004295-zurR|zur-K02076	NA	NA
AK012_02957	1179	yciC_1	COG0523	Putative metal chaperone YciC	ATGTCAAAGAAGATACCAGTAACCGTTTTAAGTGGTTATTTAGGGTCCGGAAAAACGACGTTATTAAATCATTTGTTGCACAATAGAGAAGACCTCAAAATCGCGGTCATTGTAAATGATATGAGTGAAGTCAACATAGATGCAGATATGATCAAGCAAGGTGGATTCAGCCGGACAGAAGAAAAGTTGGTTGAATTACAGAATGGCTGCATCTGCTGTACTCTGAGGGACGATTTAATTAAGGAGGTAGAAAAGCTTTCCAACCTGGACATCGATTATATCGTTATTGAGTCCACCGGAATATCAGAACCCATTCCCGTTGCCCAGAGCTTTACGTATGAAGATGAAGAACTGGGAATCAACCTTGGTAACCACTGTCGATTAGACACTATGGTAACCGTCGTCGATGCCAATCGCTTCTGGGATGATTATGGATCAGGAGAAAACTTACTGGACCGTAATCAAGGGGCTGATGAAAACGATGCTAGGGAAGTGATCGACCTATTGATCGACCAAATTGAATTTGCGAACGTTATTCTATTGAATAAAATCGATTTAGTAGAAGAAGTCAATAGAGAGGAATTAAAGGCTGTTATCAAACAATTAAATCCTCACGCCAAAGTGGTGGATACGACTTACAGCCAAGTGCCTCTCCATGAAGTTTTAAATACAGGTTTATTTGATTTTGAACAAGCAAGTCAGGGAGCAGGATGGATTAAAGAACTAAATGAAGAACATGTCCCGGAAAGCGAAGAATACGGGATTGGCTCTTTTGTTTATCGGAGGAAGAGGCCATTTCACCCGGAGCGCTGGATGAATTGGCTGGAGAATTGGCCGGAAGGAATCGTTCGATCCAAAGGATTCTTCTGGCTGGCTTCGAGAAATGACACGTCTGGGTTATTATCTCAGGCTGGAACTTCTCTCGCTATCCAAGGAGTCGGAGACTGGATAGCTACGTACCCAGAACAAGAACGGGAAGAGATTTTGAAAGAAGAACCAGAGTTAGCTGAACGATGGGATGATAAGTATGGAGACCGCATGACGGAATTGGTATTTATTGGTATAAAAATGAATAAAGAGGAAATCATCAAAGGACTTGATCACTGCCTGCTGACCGACGAAGAAATGGAATGGGACTGGCATGACCTCCATGATCCACTACCAGCTTTTACTGGTTGA	MSKKIPVTVLSGYLGSGKTTLLNHLLHNREDLKIAVIVNDMSEVNIDADMIKQGGFSRTEEKLVELQNGCICCTLRDDLIKEVEKLSNLDIDYIVIESTGISEPIPVAQSFTYEDEELGINLGNHCRLDTMVTVVDANRFWDDYGSGENLLDRNQGADENDAREVIDLLIDQIEFANVILLNKIDLVEEVNREELKAVIKQLNPHAKVVDTTYSQVPLHEVLNTGLFDFEQASQGAGWIKELNEEHVPESEEYGIGSFVYRRKRPFHPERWMNWLENWPEGIVRSKGFFWLASRNDTSGLLSQAGTSLAIQGVGDWIATYPEQEREEILKEEPELAERWDDKYGDRMTELVFIGIKMNKEEIIKGLDHCLLTDEEMEWDWHDLHDPLPAFTG				NA	NA	NA	NA	NA
AK012_02958	270	rpsN2_2	COG0199	Alternate 30S ribosomal protein S14	ATGGCTAAGAAATCAAAAGTAGCAAAAGAAAAAAAGAGACAAGAAATGGTAGCGAAATACGCTGATCTTCGAAGAGAACTAAAAGCGAAAGGAGATTACGAAGCCCTAAGGAAGCTTCCGCGTGATTCTTCTCCTACTCGTTTGACCGGCAGGTGTGAAGTGACCGGGAGACCGCGTGGCTATATGAGGAAGTTCAAAATGTCCCGCATTGCTTTTAGGGAATATGCTCATAAAGGCCAGGTTCCAGGTGTGAAAAAAGCAAGCTGGTAA	MAKKSKVAKEKKRQEMVAKYADLRRELKAKGDYEALRKLPRDSSPTRLTGRCEVTGRPRGYMRKFKMSRIAFREYAHKGQVPGVKKASW				NA	NA	NA	NA	NA
AK012_02959	555	dcd	COG0717	dCTP deaminase, dUMP-forming	ATGATATTATCCAGTGAAACTATATTGAATAAGGTAGAGAAGGCGGAGTTAGAAATTGCTCCATTCATTCCGGAACATGTTCAGCCTGCATCGATTGACTTGACGTTGGGCAGTCACTTTATGACAGTGGATGAGCATAGTACAGGATGTATTTCTGTAAGGAAAAAAGCCCCTTATCGTGATATTTATATCGGCCGGGGAGAATCCATCATGATCCCTCCTCATTCGTTTGTGCTTGCAACTACGAAAGAATGGGTCCGGCTGCCCAATGATCTTACCGCTTTCGTAGAAGGTAGAAGCTCCATTGGAAGGATGGGTTTGTTTGTTCAGAATGCTGGCTGGGTGGACCCGGGGTTTGAAGGACGCATCACTCTGGAATTGTTTAATTCGAACCGTTCCCCAATCGAATTGATTGAGGGATGGAGAATTTGTCAATTAGTACTCGCCCGAATGGATCGACCTACAAAAACTTATAAAGGCAAATACTTCGGACAGTCTAGTACACAGGCCAGTGCAATCTATGAAGATAAAGAAAATCATTTTTTTAATTTTTAA	MILSSETILNKVEKAELEIAPFIPEHVQPASIDLTLGSHFMTVDEHSTGCISVRKKAPYRDIYIGRGESIMIPPHSFVLATTKEWVRLPNDLTAFVEGRSSIGRMGLFVQNAGWVDPGFEGRITLELFNSNRSPIELIEGWRICQLVLARMDRPTKTYKGKYFGQSSTQASAIYEDKENHFFNF	PGPT0021225_1589	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021225-dcd-K01494	NA	NA
AK012_02960	1200	yciC_2	COG0523	Putative metal chaperone YciC	ATGGAAAAGAAAATACCTGTCACCGTCTTGAGTGGTTACTTAGGTTCAGGGAAAACCACGCTGCTTAATCATATATTAAACAACCGGGATGGACTGAAAATCGCTGTTATCGTCAATGATATGAGTGAAATTAATATCGATGCCGACTTAGTAGAAAAAGAGGGGCATTTCTCCAGGATAGATGAAAATTTGGTCGAGATGTCCAACGGCTGCATTTGCTGTACATTGAGAGAAGATTTACTTATTGAAGTGGAGAAGATTGCAAAGGCGGGTGACATTGACTATATCGTTATTGAATCAACGGGAATCAGTGAGCCTGTGCCGGTAGCTCAAACTTTTTCTTATATCGATGAGGAGCTGGGCATTGATCTTACCCAGTTCTGCCGTTTGGATACGATGGTTACGGTTGTAGATGCATATCGGTTTTGGCATGATTATGAATCCGGAGATCGTCTGCTGGACAGAAAACAGGCCGTAGGGGAAGAGGACGAACGAAACCTTGCAGATCTGCTTATCGACCAAATTGAGTTTTGCGATGTCCTTCTACTGAATAAATGTGACATGGTAACGAAGGAGCAGCTGGATTCGTTGACAAAAGTAGTGAAGACATTACAGCCGGATGCTGAAATCATTCCAACAACGTTTAGTGTAATTGATCCGGAAAAGATTCTAAATACGCATCGTTTTAATTTTGAGAAGGCAAGTCAATCGGCTGGCTGGCTTCAGGAATTGATGGCAGGTCCCGAAGCTCATACCCCGGAAACCGAAGAGTATGGAATTCAATCGTTTGTGTACAACAGAAGACTCCCGTTCCATTCCAAACGCTTCTCCGACTGGATCAGCCGGATGCCGGCATCGATTGTCCGGGCTAAAGGTATTACCTGGTGTGCTACAAGGAATGATATAGCGCTCCTTTTATCTCAGGCAGGCCCATCTGTTTCTTTAGAGCCTGTTTCGTACTGGGTAGCTTCACTGCCGAAAGAACAGAAAGATCGCACGATTAAGCAGAACCCTGGTGTCTTGAACGATTGGGATGTGGAGTTTGGCGATCGTATGATTAATTTAGTTTTTATAGGGGTTGAACTTGACAGAAAAGCGATTACCAAAGAGTTGGACGAGTGCTTGTTAACCCCGGAAGAGATGAATGAAAAATGGTCCGGGATGGAAGATCCTTTTCAGTGGGAAGTAAGATCACCCTAA	MEKKIPVTVLSGYLGSGKTTLLNHILNNRDGLKIAVIVNDMSEINIDADLVEKEGHFSRIDENLVEMSNGCICCTLREDLLIEVEKIAKAGDIDYIVIESTGISEPVPVAQTFSYIDEELGIDLTQFCRLDTMVTVVDAYRFWHDYESGDRLLDRKQAVGEEDERNLADLLIDQIEFCDVLLLNKCDMVTKEQLDSLTKVVKTLQPDAEIIPTTFSVIDPEKILNTHRFNFEKASQSAGWLQELMAGPEAHTPETEEYGIQSFVYNRRLPFHSKRFSDWISRMPASIVRAKGITWCATRNDIALLLSQAGPSVSLEPVSYWVASLPKEQKDRTIKQNPGVLNDWDVEFGDRMINLVFIGVELDRKAITKELDECLLTPEEMNEKWSGMEDPFQWEVRSP				NA	NA	NA	NA	NA
AK012_02961	1674	mnmE_2		tRNA modification GTPase MnmE	ATGCTGACCGAACAGAAAAGCGAATCGTTAGAAGCGGTAGCTTTAGCAGGACTTGAATCAGTCGGGAAAACAGCTTTGTTCAGACATCTGACAGGCCATCAAACGGGCGTGGAAACCAATGTTAAGGGTTCCACTGTAACCATATCAAGTGGGGCGCTGAAAGACGATTCTACGGTGAAAATCTTTGATACTCCAGGTATTCGTTTCAAAGATGACAGCGTCACTACCCGAATGGCATTAAATCAAATGAAAGATTTGAATAAGATCATATTGGTCGTAAAGGCTTCAAATCTTAAAGATGACCTGCTCGTGTTGGAAGAGCAATTGGGATTAAGAGGGAAGAACGTGGTGGTGATCGCTACACACAGCGATAAATATCAGCCAAATGAAGAAGAAAAACAGTATGTCCGAACATTGTTGAATGTTCCTGTCGTATGGTGTAACAGCCGGTCACTGAGTCATGAAGAACAACAGGAGATAGGAAAGGCTGTTCAAACTTCTTCTGTTTGGGAATTGAACAATAATTTACTATCTTTTTTACCCTCCGGTGTAGAAGGAGAAACCACCAATTGGCTGGAAAAACTACTGGCTAAGCCTTTGGTCGGGCCTGTCTCTGCCTTATTTATGGTTATCAGCATGTTTGCAGGTCCGGTTTTTGCCGCCTATTTATTTTCCAGTTACCTTCAACCTATATCCGAAAAGGCATGGTTAAATCCTGTGAAAGAAAGCCTCATCAATGCTCCGGATTTTATTCAAGTCGTATTGATAGGGAATTATGGTGCATTAACTCTTGGATGGTACTCTTTTTTATGGGCGTTTCCAGTGGTTTTTCTTATCGGTTTAAGTGTGGCGGTAACGGAAGAGACCGGTATCCAGGAACATATCACCTATGCTTTAAATCCATGGCTGATGAAGATTGGATTATCAGGGAGAGACCTCATTCCTGTTTTAACTGGTTTCGGGTGTAATGTTGTAGCTGTTATGCAGAGCAGAACCTGCAGCAGTTGTACAAGAGCGTCGTGTATTTCTTTGATTTCTTTTGGTTCAGCTTGCAGCTACCAAATCGGTGCATCTTTATCGTTATTCGGTTCAGCTGGTCATCCGCTTATGTTTATTCCGTATATTTTCCTATTGTTTATAGTAGGGGCGGTGCACACTCGAATTTGGGAGAAGCGTTCTGTCTCTCTTGCGCCTGTTCCTTCCCTTCCTTACTTGCAATCCGTGACATGGCGAGGGGTGAAGTTTCGATTAATGGGGATTATGAAACAATTTTTAAAGCAGGCGATGCCTATTTTTATAGTCATTTGTATCGTGGCTTCTCTGCTTGAATTTTTTGAAGTTATGAAAGCTATGGCTGCTCTCTTCTCTCCTTTACTGACGTTGTTTTCATTACCTGCAGAGGCAGCTCCGGGAGTCATTTTTTCTATCTTCCGAAAAGATGGAATGATGGTGCTGAATGAAGGAGAAGGTGCACTTCTTCATACCCTTGAAACGTGGCAGGTGTTTGTAGTCGTGTACTTGGCTTCTACATTGTCTTCCTGTCTTGTCACTTTGTTCTCCATTTACAAGGAGATGGGTTTGATGCACGCATTTAAAGTGTTAGGGAAACAGATGACCACTTCGGTAATAAGTACGCTGCTCCTGGCGGTCTTTTTGTCTGCTTTGTTCCATTAA	MLTEQKSESLEAVALAGLESVGKTALFRHLTGHQTGVETNVKGSTVTISSGALKDDSTVKIFDTPGIRFKDDSVTTRMALNQMKDLNKIILVVKASNLKDDLLVLEEQLGLRGKNVVVIATHSDKYQPNEEEKQYVRTLLNVPVVWCNSRSLSHEEQQEIGKAVQTSSVWELNNNLLSFLPSGVEGETTNWLEKLLAKPLVGPVSALFMVISMFAGPVFAAYLFSSYLQPISEKAWLNPVKESLINAPDFIQVVLIGNYGALTLGWYSFLWAFPVVFLIGLSVAVTEETGIQEHITYALNPWLMKIGLSGRDLIPVLTGFGCNVVAVMQSRTCSSCTRASCISLISFGSACSYQIGASLSLFGSAGHPLMFIPYIFLLFIVGAVHTRIWEKRSVSLAPVPSLPYLQSVTWRGVKFRLMGIMKQFLKQAMPIFIVICIVASLLEFFEVMKAMAALFSPLLTLFSLPAEAAPGVIFSIFRKDGMMVLNEGEGALLHTLETWQVFVVVYLASTLSSCLVTLFSIYKEMGLMHAFKVLGKQMTTSVISTLLLAVFLSALFH	PGPT0003700_3528	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_TRANSPORT-IRON_II_TRANSPORT_SYSTEM,PGPT0003700-feoB-K04759	NA	NA
AK012_02962	1110		COG0492	Putative flavoprotein monooxygenase	ATGAAACATTACGATGTCCTCATAGTAGGTGCAGGTGCTTCTGGGATTGGGTTAGGAATTCTCATGAAGCAGATGGGGTGTGAAAACTTTAGTATCATGGATCGCGGGGAGATTGGGGAAACATTCCGGAGATGGCCGGAAGAAATGAGGTTTATTACTCCATCGTTTCCTTCTCAAGGATTTGGTCAAACAGACTTAAATGCAGTGGCTCCTAAAACTTCACCGGGGTATACATTGAACGAAGAACACCCAACAGGAGAAGATTATGCGGAATATCTGGAGCTGTTGGTCAGCCACTATGAATTACCTGTCCAAACCGGAATTGAAGTGAACAACATAAATAAATCGGAGAATGGTTCTTTTGAGGTCCATACGTCACAAGGAGCGCTCACCAGTACGTTTGTTGTGTGGGCTGGCGGGGAGTATCAATATCCGAATCAAGAGACGTTTCCTGGTGCAGAACTATGTACTCATAACAGTCATGTTCATTCCTGGGAGGATATGAAAGCAGATGAGTATATTGTAATCGGTGGATATGAAAGTGGACTTGATGCCGTTTATCAACTGAATAAAATGAAGAAAAGTTCTCGTCTGTTAGCAAAGACGCCTACATGGAAAATTGATAGTAGTGACCCGAGCACGGTTTTATCTCCCTATACATTTAAGCGGATGCGGGAAGCAATACCTGAAGGAAGAATTAAAATATATGAGCAGACGGTCCAGTCCGTAGCTAAGGACGATGGTGTGTATTATGTGAATACGGCTGATGGAAACCAATTAACTTCACATACGGCGCCAATCTTAGCGACAGGTTTTAAAGGAAGCACCTCTATGATTTCTCATTTATTCGAAAACGGAAAACATGGAAAACCTTTAGTAAATGATCAAGATGAATCTACCAAGAGTCAAGGTTTATTCCTGTGCGGGCCCGAACTTCGTCATGATAGTCATGTGTTCTGCTTCATCTATAAGTTCCGCCAACGTTACCCTGTTGTTGCCGAGGCAATCGGCTCCCGTTTGAATTTAAATATGGAAATTCTGAATCTATACAGAAAAGAAAGCTTTTATCTGGATGACCTCTCTGATTGTGGAGAGCGTTGTGAATGCTGA	MKHYDVLIVGAGASGIGLGILMKQMGCENFSIMDRGEIGETFRRWPEEMRFITPSFPSQGFGQTDLNAVAPKTSPGYTLNEEHPTGEDYAEYLELLVSHYELPVQTGIEVNNINKSENGSFEVHTSQGALTSTFVVWAGGEYQYPNQETFPGAELCTHNSHVHSWEDMKADEYIVIGGYESGLDAVYQLNKMKKSSRLLAKTPTWKIDSSDPSTVLSPYTFKRMREAIPEGRIKIYEQTVQSVAKDDGVYYVNTADGNQLTSHTAPILATGFKGSTSMISHLFENGKHGKPLVNDQDESTKSQGLFLCGPELRHDSHVFCFIYKFRQRYPVVAEAIGSRLNLNMEILNLYRKESFYLDDLSDCGERCEC	PGPT0013865_1208	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013865-czcO|noxC|yrdP|trkA|hapE-K07222	NA	NA
AK012_02963	978	yjiA	COG0523	P-loop guanosine triphosphatase YjiA	ATGATGGAAATTGACTCAAGAATACCTGTAACCATAGTGACGGGTTACTTAGGAGCAGGGAAGACTACCTTTCTTAACCACATTCTTAATCAAACTGAAGAAAAGGTCTCTCTCATTGTGAATGAGTTTGGAGATATAGGGATTGATGCTCAGCTTATTGAACAAACCACCGAAGAAATCATAGAAATCAATAGCGGGTGTATCTGCTGTAATGTACGTAAAGATATCGTTGATACCCTATCGATGCTTGCTATATCAAGGGAAGAAAAGATGATTGAGTTTGACCGGATAATCATTGAAACTACAGGGCTTGCTGACCCTGCTCCCGTTGTACAAACGTTTCTAATGGATAAGGAAATGGTTGAAGATTACTATATTGATGCGGTCTGTACGCTTGTTGATGCCAGGCATATTTCCAATCACTTAGATCAACAAGGAGAAGCGGTCAACCAAATTGCTTTTGCAGATGTCATTCTTGTCAACAAAGTTGATTTGATCACACAAGATCAACTCACAGATTTACGAAATAGACTGGAAAGTATAAATCCTACTGCATCTCAAAAAATTTGTGAGAAAAGCCGGATTCCACTGAGTGATGTTCTGGACATTCGGTCATTTGATTTGCAGGAAAAAATAAAAATAAACCCGGATTTTCTAAACAATCACCATCACCACCACGATGATGAAATTTCCTCTCTGTCTTTACGAGAAGAGAGACCCTTGGATATGAAAAAACTAAATCTCTGGTTATCTTTTTTAGTTCAAGTTCAGGGTGAACGTTTATATCGTTATAAAGGGGTATTGAACATAGACGGAGTGGATCATCGCTTTGTCTTTCAAGGTGTTCATATGCTTTTTGCAGGAGAAGAAGCTGCCCTGTGGGGAGATGATGACCGGGTAAGTGAACTTGTGTTTATCGGTAGGAACCTGGATAAGAAAATTCTTACAGAACAGTTCGAGCAGTGTATAATGTCCTAA	MMEIDSRIPVTIVTGYLGAGKTTFLNHILNQTEEKVSLIVNEFGDIGIDAQLIEQTTEEIIEINSGCICCNVRKDIVDTLSMLAISREEKMIEFDRIIIETTGLADPAPVVQTFLMDKEMVEDYYIDAVCTLVDARHISNHLDQQGEAVNQIAFADVILVNKVDLITQDQLTDLRNRLESINPTASQKICEKSRIPLSDVLDIRSFDLQEKIKINPDFLNNHHHHHDDEISSLSLREERPLDMKKLNLWLSFLVQVQGERLYRYKGVLNIDGVDHRFVFQGVHMLFAGEEAALWGDDDRVSELVFIGRNLDKKILTEQFEQCIMS				NA	NA	NA	NA	NA
AK012_02964	441	sufU_2	COG0822	Zinc-dependent sulfurtransferase SufU	ATGTTAGACGATTTATACCGTCAGGTCGTCATGGACCATGCGAAGTATAAACGGAATTATGGAACGATGGAAGACGACACGGGTGTTGATAAAGTTCATTATAAAAACCCTACCTGCGGGGATGTGATGGTTTTACATGTGAGGGCAGGAAAGGAAGGGATTGAAGAGCTAGCCTTTGAAGGTGAAGGCTGCAGTATTAGTATGGCTTCATGCTCCATGATGACGGAACTCTTGAAAAACAGCAGCATGGAAGATTGCCTGAATAAGAAACAGGCCTTTGAACGCTTGATCAGAGAAGGTGAAATGGAAGATGAAGTTGATCTAGGAGATGCAGCTTCTCTTGAGGGCGTGCACAAATTACGCGCAAGACATAATTGTGCACTTATGCCTTGGAAGGCATTTGAAAAATGGGCGGAGGAACAACGGTATGATGGAAATTGA	MLDDLYRQVVMDHAKYKRNYGTMEDDTGVDKVHYKNPTCGDVMVLHVRAGKEGIEELAFEGEGCSISMASCSMMTELLKNSSMEDCLNKKQAFERLIREGEMEDEVDLGDAASLEGVHKLRARHNCALMPWKAFEKWAEEQRYDGN	PGPT0000075_1125	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000075-nifU|iscU-K04488	NA	NA
AK012_02965	378			hypothetical protein	ATGAGTGAATATCTACAGAAAATCCTAACGGAGAACATTCTCAGCACTCTGCCTGAACAACAGAAAGATCTATATCATTATGTGATAAAGATGGAAGATGATATTGCAGAGGAAGTTGATTCTGAAGAACAATTTATGAATCATCTCAGGAGTGTTTCGCCGCATAAGCGTGCAGCGAAACATTTCAACATGACTTTGTTTGAACTTCTGAACGTCATGAAGCAGGTAGAAGAAGAGATCAGCCGCCAGCTTATACCTATGATGGACGCGGTTAAGTGGAAAGATTGCACGGAATTTGTTCTTTCCAGGTCACAGATGAAAGAAAATCAAAAGGTGTTTTTTGTATCCATTCCCAGTGTTGACCGTTTACAGAAATGA	MSEYLQKILTENILSTLPEQQKDLYHYVIKMEDDIAEEVDSEEQFMNHLRSVSPHKRAAKHFNMTLFELLNVMKQVEEEISRQLIPMMDAVKWKDCTEFVLSRSQMKENQKVFFVSIPSVDRLQK				NA	NA	NA	NA	NA
AK012_02966	873		COG3689	Putative two-component membrane permease complex subunit SMU_746c	GTGCGCTTTCATTATTATCAATTTTTGAAGCTGATCCTATTGGCCGCCTTTGCTTTTTTTCTAATACAATTGCATCACACCGGGGATGTTGAGAAGCTGATTAACCCTAAATATGTACAGATGAGTCAGGTGGCCGCAGGGGTTATCGTCCTTCTGTTTTTCGTTCAGCTTGGGAGAGTATGGGGAGGGAGTTCCAGTGAACATGCCTTCTGTCCTCCCGGTTGTACGGAAGACCATGATCATAAGCAATCGTATATAAAGAGAGGTGTGAGTTATTTGGTTCTCCTTTTCCCTTTATTTACAGGATTTGGACTGAACCTGACATCCTTGGACGCAGCGATTGCCAAGAATAAAGGTTCTCTTCTCCCCCAGGAAGAAAACTCATATCAAGTGGATCCCTCATCCAATTCACAGACGCTTGATGAGAGCATGCCGATCCCGAATAACAACTATTTAACAGATGAAGAATATGAACAAAGAATGGATCGTTTAAACCAAGATGACATTCAGATGAATGAGGATATTTACGCTTCTTATTATCAAGAAATACAAGACAATCCTCATAGGTATAAGGGGAGAACGATTCAAATCAAAGGTTTTGTGTACAAGGAAGAAGGGTTGGAGTCTAATCAGCTGGTCGTGGCAAGATTTCTAATCACCCACTGTGTTGCCGATGCCAGGGTCATTGGATTGTTGAGTGAGTCTAACGAGGCAGGCAGCCTTAGTGAAAACACGTGGGTGGAAGTGAACGGAAGGATAGAGGTACAAAGCTACAATGATGTAGATATCCCATTCATCGAAGTGAAGGAGATCAATCAGATTCCTGAGCCGGCGAACCCTTATATTTTTCCTATATTAACGAAGGTTCTTTAG	MRFHYYQFLKLILLAAFAFFLIQLHHTGDVEKLINPKYVQMSQVAAGVIVLLFFVQLGRVWGGSSSEHAFCPPGCTEDHDHKQSYIKRGVSYLVLLFPLFTGFGLNLTSLDAAIAKNKGSLLPQEENSYQVDPSSNSQTLDESMPIPNNNYLTDEEYEQRMDRLNQDDIQMNEDIYASYYQEIQDNPHRYKGRTIQIKGFVYKEEGLESNQLVVARFLITHCVADARVIGLLSESNEAGSLSENTWVEVNGRIEVQSYNDVDIPFIEVKEINQIPEPANPYIFPILTKVL				NA	NA	NA	NA	NA
AK012_02967	1014		COG0701	Putative two-component membrane permease complex subunit SMU_747c	ATGACTTTCAGGCTTTACAACACATTGCTGGATGTGACAGCCATCCTGGCTTTTGTCCTTGTTGCTTACTTTGTTACGTATAGTCAAAGGGTCGGAGAAAGCACGTTGAAGATTCTTCCTGATTCTTTCAAGCAGCTTAATACAATTTTTCTCAGCTTAATTATAGAGGCCATTCCGTTCGTGCTCATTGGTGTCCTCATTGCAGGGTGTATTCAAATATTTGTCACAGAGGAACATGTGAAGCGGTGGATTCCAGAAAACAAGTATCGTGCCATCATGATGGGGTGTCTCGTAGGAGCTGTATTTCCTGCCTGTGAATGTGGAATTGTCCCGATCGTCCGGCGATTAGTAGCCAAGGGCGTACCATTGCATGCAGGAATTGGATTTCTTCTAACAGGACCATTAATTAACCCTATTGTTATTTTATCGACGTTTATGGCCTTTGGAAATGATATAAGAATGGCAGGTTTACGGATGGGCGTGGGATTTATTGCGGCGCTGCTAATCTCCCTCTTCATCAGTTCTTTTTTTAGATCAAACCAGCTCAAACATACCGTTTCCGGCTTGTATGGATCTGAGAAAACTTCCACAGGAGACGTGTCCTTTATGGACAAGCTCAAAGGTATGTGTGTGCATTCCATCGATGAGTTTTTTGACATGGGCAAGTATTTAATTATAGGAGCCTTTGTTGCTGCTTTCGTTCAAACGTATGTACAAGCACAGTCGCTCTTTTTGTTTGGAGAAGGAATGATGGGGGCGACAGGTGTCATGATGGGCTTGGCTTTCTTTTTATCGCTATGTTCAGAGGCAGACGCATTTATAGGAGCTTCCTTTAGCAGTTTATTTCCTCCCACCGCTGTTTTGGCCTTTTTAATTTACGGACCTATGATTGATTTGAAGAATACGATCATGCTCCTGAGCGTATTTAAATCCAAATTTGTTTTCATCTTACTCCTGACCATTACTGTCGTTGTTTTTGTCTGTACGATTACTATATCTTTGGTGGGCAGGTGA	MTFRLYNTLLDVTAILAFVLVAYFVTYSQRVGESTLKILPDSFKQLNTIFLSLIIEAIPFVLIGVLIAGCIQIFVTEEHVKRWIPENKYRAIMMGCLVGAVFPACECGIVPIVRRLVAKGVPLHAGIGFLLTGPLINPIVILSTFMAFGNDIRMAGLRMGVGFIAALLISLFISSFFRSNQLKHTVSGLYGSEKTSTGDVSFMDKLKGMCVHSIDEFFDMGKYLIIGAFVAAFVQTYVQAQSLFLFGEGMMGATGVMMGLAFFLSLCSEADAFIGASFSSLFPPTAVLAFLIYGPMIDLKNTIMLLSVFKSKFVFILLLTITVVVFVCTITISLVGR				NA	NA	NA	NA	NA
AK012_02968	972	yciC_3	COG0523	Putative metal chaperone YciC	ATGGCTGTACCGACGTACACCATTAGTGGGTTTTTGGGAAGTGGAAAAACGACGGTTTTACTGAAAATGATAGAGGAATGTGAAAAGAATCATAGACGGGTAGGTGTGATTTTAAATGAGCTGGGAGACGTAAATATAGAGAAACCACTATTTAAAGAACAAAACGTGAAAGAACTATTAAATGGCTGCATATGCTGTACGATAAAAGAGGATTTAAAATCGACGTTAGATGAATTGATCAAGGAGATGCATTCGAATAAACTGGATCTGCTATTCATTGAAGGGACAGGCGTTTCCAACCCTTTGGAAGTGAAGAGAGTATTAGAGGATCCTATATACGCTGCTCACTTCGATTTAATTTCTATGATCAGCCTGATTGACTCTAGTACCTTTCTGGAGTATCAAAGTATTTTCTCAAGTACGGCCGACATGAGAAAACTGTTAGAAGAACAGATTACCAGTGCCAATATCATTCTGTTAAATAAACAGGATCTTGCTAAAGATAAGGTGTTAAATAAATCCATCAAGAAAATTAGAGGTCTTGTTGGAGAATCCGTTCCCATCTTTCAAACGTCCCATGGAAATGTCCCATTGTCAGAGTTATTCAAGAGACAGAACGGTCATCTTCCTACTTCTATACATTCAGATATTAGAGAAGAGACTAACCATTCCCATCATCACCATCACCACCATTCCGGTCTGCACGCCGTGAAGATTGATCCGGGGCCAACCGTTATGAAACATAATTTGGAAGATTGGTTGAGCCACTTACCTAAAGCTGTATTAAGAGGAAAAGGAGTGGTTAATCTTGAAGGCAGTGAGGGGCTTTATTCCTTTCAACTTGCCTCCAATACTCTTATCTTTGAAGAAATTCCAGATCCCGCCGGTATGCGCCCTGCTATTATCTTGATTGGTGATCAACTAAAGGAAACAGAACTGTTGAATAGCTTTAATCGGATAGTGAAGGCATGA	MAVPTYTISGFLGSGKTTVLLKMIEECEKNHRRVGVILNELGDVNIEKPLFKEQNVKELLNGCICCTIKEDLKSTLDELIKEMHSNKLDLLFIEGTGVSNPLEVKRVLEDPIYAAHFDLISMISLIDSSTFLEYQSIFSSTADMRKLLEEQITSANIILLNKQDLAKDKVLNKSIKKIRGLVGESVPIFQTSHGNVPLSELFKRQNGHLPTSIHSDIREETNHSHHHHHHHSGLHAVKIDPGPTVMKHNLEDWLSHLPKAVLRGKGVVNLEGSEGLYSFQLASNTLIFEEIPDPAGMRPAIILIGDQLKETELLNSFNRIVKA				NA	NA	NA	NA	NA
AK012_02969	774	gloB_5		Hydroxyacylglutathione hydrolase	ATGAATACATATCCTTTTACTATAGGTAACTATCATGCTTTGGTGATATCCGACGGCGGTATGCCTGTGACTAGAGAGTTTTTTCTAGCCAATACACCTGATCATATCACTCAGCAGTTTCCTGAAGAGTTTCATGCTCCCCTTAATTTTATTCATCTTGAAGTAGATAATGAACATATTTTAATAGATGCAGGATTTGGTGCAGAATGCGAAGATGCAGGTCAGCTCATTCAGGCGCTGGATAATCACGGGATCACCAGGGATGACATTGATCATGTCATTCTGACCCACGGGCATTTAGACCATATTGGCGGAGCTGTATCTGAGGGGAAGCCTTCCTTTCCTAATGCAGATTATTATCTTCATGCAGCAGAATGGGAAATGTGGGCGTCCAGACCATCTTCAAAAGAGCATGAAATTCTGTCTAACTTAGGGAGTTCTATCAACATTATCCAGGAAGACATCGAAGTCCTGCCGGGAATTAAACTTTTCCTTACCCCGGGGCACACGAACGGGCATCTGGCTGTCATGATCCATTCAGAAGATGAAAAGCTGCTCGTCGTTTCCGATATATTAAGCGACCCACGTACACTCAACCACCCTTCCTCTCATATTGGGTTGGAGATATCACCAGAACAAGGTCGTGAAACGAGAAAAGACATCATAGAGTATGCGGAACAGCAGGGCCTCATGCTTTTTGTATGTCATTACCCATTTCCAGGTCTGGGGTATATTGAACAAGATCATGGTACGTATAAGTGGAATGCCAAATAA	MNTYPFTIGNYHALVISDGGMPVTREFFLANTPDHITQQFPEEFHAPLNFIHLEVDNEHILIDAGFGAECEDAGQLIQALDNHGITRDDIDHVILTHGHLDHIGGAVSEGKPSFPNADYYLHAAEWEMWASRPSSKEHEILSNLGSSINIIQEDIEVLPGIKLFLTPGHTNGHLAVMIHSEDEKLLVVSDILSDPRTLNHPSSHIGLEISPEQGRETRKDIIEYAEQQGLMLFVCHYPFPGLGYIEQDHGTYKWNAK				NA	NA	NA	NA	NA
AK012_02970	342			hypothetical protein	ATGGAGAACGGACACGAAATTCATGAGCAGCACTCTCACAAGCACAGCCTTTCATGTGGTCATACAAAAATAAAACATGATGATCACATTGATTATGTGCATAACGGCCATCTTCATCATGAGCATAATGGTCACTGGGATGAATGTACGGTTCCAGTTACAGAAACCAATCCTGATCAGTGTGCTCCTTTGAGTTGTGGATGTAATCATGATCGTGACTGCGGTCATGAATTAGTCCCACATGGTGACCATATGGACTACTTGGTGAATGGACGTCTACACCATGTCCATGGCGATCACTGTGATGACCACGGACCTGTAGAATTAGTTACCCTTAAATAG	MENGHEIHEQHSHKHSLSCGHTKIKHDDHIDYVHNGHLHHEHNGHWDECTVPVTETNPDQCAPLSCGCNHDRDCGHELVPHGDHMDYLVNGRLHHVHGDHCDDHGPVELVTLK				NA	NA	NA	NA	NA
AK012_02971	1191	cntE_2		Staphylopine export protein	TTGAGCGGAGCTATGTCTTGGCCATTTCTTAGGTTATATTTACTTGTGCTTCTATATTTCAGCGCAAATGCAATACTTAATGTGATCATTCCTTTGCAGGGAAGTGCCCTGGGAGCTACGAATACAACAATTGGTCTGATCATGGGTGCATACCTATTCACAACTATGTTTTTCAGACCGTGGGCAGGTCAAATCATAAAAAAATACGGTCCGATAAAGATATTACGTATTATTCTTATTCTGAATGGCTGTGCGTTAATTTTATATACAATTACAGGCCTGGGAGGATATTTGGTAGCGAGGATGCTGCAAGGTGTATCAACGGCGTTCTTTTCAATGGCTTTGCAGATAGGGATTATTGATGCACTGCCTGAAAAAGATCGGTCTCAGGGTATTTCATTATATTCTTTGTTCTCATACATACCAGGAATCATTGGCCCCCTATTGGCATTGGGTATTTGGCAGGGGGGGATGGAGTACTTTTCATTTGTAATGATTACAATCGCGGTTTCTGCTGTGATTTTTGGCTACAGTGCCAAAATTGATGAAAAAGATAAAGAAGCTCCTTCTTCGTCCGATGAAAAAGAACCCAGCAGCAGTACCTTCGCTTCGTTTAGTGAACTATTCAAAAATCCTCACTTGTTCAAATCCAGTGTGATCATGTTAGTTGGTTCCGTTGTGTTTGGAGCAGTGACTGTATTTATTCCGCTTTATGCTGAACAAATAGAAAATGGTAATGCCGGAATTTATCTGATGCTGATGGCAATTACTGTTGTTGTTTGCAGGTTTACTTTAAGAAAAAGTATTCCTTCAGATGGAAAATGGCATTCGCGTTTTATGATGGGGACCATGTTTGTGCTGGCGTTAGGCGCCCAGTTTGTAAGTTTCTCTATAACTGGAGGCGCAGCTTTCTTCTATATGGGTGCTATTCTGCTGGGAATTGCCCAGGCGCTGATCTATCCTACATTGACAACCTATCTAAGTTTTGTTCTTCCCAAGTTCAATCGAAATGTTCTTCTTGGATTGTTTATTGCTATGGCGGATCTGGGCGTCTCATTCGGAGGTGTTGCCATGGGGCCGCTTGCAGATTTGTTCTCTTACTCAATCATGTATCAAATTTGCGCAGTCATGGGTGCTTTCATGATTGTTTTTTCTCACGATCGCCGCAAGGTATTAGTTGTACAGACTTGA	MSGAMSWPFLRLYLLVLLYFSANAILNVIIPLQGSALGATNTTIGLIMGAYLFTTMFFRPWAGQIIKKYGPIKILRIILILNGCALILYTITGLGGYLVARMLQGVSTAFFSMALQIGIIDALPEKDRSQGISLYSLFSYIPGIIGPLLALGIWQGGMEYFSFVMITIAVSAVIFGYSAKIDEKDKEAPSSSDEKEPSSSTFASFSELFKNPHLFKSSVIMLVGSVVFGAVTVFIPLYAEQIENGNAGIYLMLMAITVVVCRFTLRKSIPSDGKWHSRFMMGTMFVLALGAQFVSFSITGGAAFFYMGAILLGIAQALIYPTLTTYLSFVLPKFNRNVLLGLFIAMADLGVSFGGVAMGPLADLFSYSIMYQICAVMGAFMIVFSHDRRKVLVVQT				NA	NA	NA	NA	NA
AK012_02972	747	cntF	COG1124	Metal-staphylopine import system ATP-binding protein CntF	GTGTTACAGGTTAAACGAGTAGAAAAAAGTTATGCGAAAGGAGGAATATTCTCCAAGGAAAGACAACAGGTCCTAAACCGTGTCACTTTTGACTGTAGAGAAGGCGAGTGTCTTGGAATTATAGGAGAAAGCGGCAGTGGAAAGTCGACCTTGGGACGCTTAATTTTGGGAATCGAAAAACCTGATAGCGGTTCTGTTTTATTCGATGGGAAGAAATTGAAGAAGAGTCTGTCGAAGTCTGGGGTTATTAGTGTAGTATTTCAAAACTACAAATCTTCCATTAACCCGTTTTTTACAGTTCAACAAGCGATTATGGAACCTATGGAGATTACCAGCAGAAATACAATGGAAAGCAGAAAAAAGGTTGTATGGCTGTTGAATCAAGTTGGTTTACCTTCCTCTTACTTAAATAAATATCCTCATGAATTATCGGGCGGAGAGGTTCAAAGAGTTTGCATTGCGAGAGCGATTTCCACTGAACCCAAATGTATCATCTTAGACGAGGCCATCAGTTCATTGGATGTATCTATTCAAACACAGATTCTGGAACTACTGAAGCGTCTGAAAGACACTCATAACATAAGTTATCTGTTTATCACACATGATATCCAGTCAGCTGCGTATATTTGCGACAGAATTATTATATTCAAAAATGGTCAAATAGAGGAAATCGTAAAAACTGAGAATCTGAAAAATACACAGTCTGCATACGCAAAGCAGCTCTTGAAGTCGTTAATGATTTATTGA	MLQVKRVEKSYAKGGIFSKERQQVLNRVTFDCREGECLGIIGESGSGKSTLGRLILGIEKPDSGSVLFDGKKLKKSLSKSGVISVVFQNYKSSINPFFTVQQAIMEPMEITSRNTMESRKKVVWLLNQVGLPSSYLNKYPHELSGGEVQRVCIARAISTEPKCIILDEAISSLDVSIQTQILELLKRLKDTHNISYLFITHDIQSAAYICDRIIIFKNGQIEEIVKTENLKNTQSAYAKQLLKSLMIY	PGPT0004425_291	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004425-nikE|cntF-K10824	NA	NA
AK012_02973	810	cntD	COG0444	Metal-staphylopine import system ATP-binding protein CntD	ATGAACCTATTAGAAGTTCGAGCATTAAAAGTATGGGATAAAAACGACAATGTATCTATTGTACAAGACAGTTCGTTTGAGTTAAAAGAAGGAAGCTGCTTAGCGATCGTAGGAGAAAGTGGAAGTGGGAAATCGGTGACGTGTCAGGCTATAACGAGGCTGAATAAACCGTCTCTTCAACAATCTGGAGAAATATTGTTTAAAGGAGAAGATTTAACACATTTATCAAATAAAGTGATGAGAAAAAGAAGAGGGAAAAATATATGTATGATCATTCAAAATGGAATGAGCGCATTTGATCCGACGTGCGTAGTCGGCGTCCATTTGAGAGAAACCATCAACGAGCATTTTGACTGGAGCAAAGGCAAAGTAGAGGATAGATTATTAGAAGCAATGAGGAGCGTCATGCTAAAGCACCCGGCTGAGATATTAAAAAAATATCCTCACCAATTATCCGGGGGGATGCTTCAAAGAATTATGATTGCTTTAAGTATTGTGTTGGAGCCGGACATTATTATCGCAGATGAGCCTACAACGGCGCTTGATACAGTCTCGCAATATGAGGTGATTGAGCAGTTCATCAAGTTGAGGCAGAATGTGGGCTGCTCTATGATTTTTGTATCTCATGATTTAGGGGTTGTAAGACGGATAGCAGATGAGGTTTTAGTAATGAAGGATGGAGCGATTGTTGAGAGAGGAAGAAATGAAGACATTTTTGAAAACCCACAACATGAATACACAAAGTATTTGATTTCTACCCGGCGTTCTCTAAATGATCACTTTAGAAGAATTATGAAGGAGGAACTGTAG	MNLLEVRALKVWDKNDNVSIVQDSSFELKEGSCLAIVGESGSGKSVTCQAITRLNKPSLQQSGEILFKGEDLTHLSNKVMRKRRGKNICMIIQNGMSAFDPTCVVGVHLRETINEHFDWSKGKVEDRLLEAMRSVMLKHPAEILKKYPHQLSGGMLQRIMIALSIVLEPDIIIADEPTTALDTVSQYEVIEQFIKLRQNVGCSMIFVSHDLGVVRRIADEVLVMKDGAIVERGRNEDIFENPQHEYTKYLISTRRSLNDHFRRIMKEEL	PGPT0004420_44	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004420-nikD|cntD-K15587	NA	NA
AK012_02974	861	cntC	COG1173	Metal-staphylopine import system permease protein CntC	ATGAGGTTTTTAAAAAGCTTATTTAAGGATAAATTAGCTGCCAGTTCTTTAGTTGTTATTTTGGCAGTTATCATAATTGGTGTCTTTGCACCCGTATTCGCTCCTCATGACCCTCTTGAAGTAAACATAAGTAAGAAATACGCTGGATCATCATGGGAATACTTACTCGGTACGGATCAGCTTGGTCGCTGTGTGTTATCGAGGTTAATTTATGGGATTCGTCCAAGCATATTGTGGGTGATGGCGGCATTGATGCTTTCTGTTTTAATTGGAGCAGTACTAGGCTTTATTGCCGGCTATTTTAAAGGTAAAGTTGATGCTTTAATTATGAGAGTGTGTGACATCATGCTTTCTTTTCCAGGCTATGTAATGCCTATCGCATTTGTTGGTATCTTTGGCGTAGGTCTTGAGAATATATTGATCGCCTTTATCATTATGAAATGGGCATGGTTCACAAGAGTCATTCGAACATCTGTTATGCAGTATACGGAGCTTGAATACATACAATTTGCAAAAGCTGCAGGGGTCAATCATTTTAAAATCATCCGCAGGCATCTTATACCTGTTACGTTGGCGGATATTGCTGTTATATCCAGCAGTTCTGTTTGTTCAATGATTCTTCAAATATCTGGATTCTCCTTTCTTGGTCTGGGAGTACAGGCCCCGGCTCCGGAATGGGGCATGATGCTGAATGAAGCAAGAAGTGTCATGTTTACCAGACCTGAATTAATGCTTGCCCCTGGAATTGCAATTATTACTGTTGTTTTTGCTTTTAATTTTTTGTCTGATTCTCTGCAAACTATATTTGATCCAAAGTTAATGAAATCGAAAAAAATAAGAACAGAAAAAGTAGAGGCATGA	MRFLKSLFKDKLAASSLVVILAVIIIGVFAPVFAPHDPLEVNISKKYAGSSWEYLLGTDQLGRCVLSRLIYGIRPSILWVMAALMLSVLIGAVLGFIAGYFKGKVDALIMRVCDIMLSFPGYVMPIAFVGIFGVGLENILIAFIIMKWAWFTRVIRTSVMQYTELEYIQFAKAAGVNHFKIIRRHLIPVTLADIAVISSSSVCSMILQISGFSFLGLGVQAPAPEWGMMLNEARSVMFTRPELMLAPGIAIITVVFAFNFLSDSLQTIFDPKLMKSKKIRTEKVEA	PGPT0004415_50	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004415-nikC|cntC-K15586	NA	NA
AK012_02975	933	cntB	COG0601	Metal-staphylopine import system permease protein CntB	ATGGCGTTATATACAATAAGGCGGCTGGCAGCTGTATTTCCGATTTTAATTATTATTTCTTTCTTAACTTTTTTTTTAATCAATCTTTCACCTTTCAATCCTGCTGAAATCCTTTTACAGGCAAGAGGAATCCCCGTTATAACCGACGATTTAATCTTGCAGACGGAAGAAGAATTAGGGTTGAATGATCCTTTTATTGTCCAGTATTTTAATTGGCTGTTGGATTGTTTTCAATTAAATTTTGGAACATCTTATGTTACAGGAGAACCAGTATGGAATGAAATTAAACCCGCTTTCATAAACACATTAAAATTAACAGTGCTTTCATCCTTCATCATAGTTGGATTATCGATTCTTTTAGGAGTTATCTGTGCCATTAATGAAGGAAAGTTCATTGATAAATCGGTAAGATCCATGTCCTTTGTACTGATTGGTATGCCATCATATTGGTTGGCTTCCTTAATGATTTGGTACTTTTCAGTAGAATTAGATTTACTGCCCACAAGCGGCATGTCCTCTGCTGAAAGTTATATTCTCCCAGTAACCATCATTACGGTAAGTTACGTTGGAATCTATTTTAGAGTGATTAGAACATCTATGCTGAGTAATTTAAATGAAGACTATGTATTCTATGGACGTGCAAGTGGTTTACCTGAAAAGAAAATAACCTTACACCTGTTGAGGAATTCTCTCCAAGTATCCACTTCAGTTTTTTGTATGGGAATTCCTACAATATTAGGAGGGACTGTTGTGATTGAAAATATATTTGCATGGCCAGGTTTAGGAAGTTTGAGTGTCGATTCCATTCTTAAAAGAGATTTCCCTATTATACAAACGTATGTTTTACTGCTTGGCGCATCTTTTGTAGTATTTAATACTCTATCTGACTTGATAAATATGACTTTGAATCCCAAATTGAGGAAAGGATTTTAA	MALYTIRRLAAVFPILIIISFLTFFLINLSPFNPAEILLQARGIPVITDDLILQTEEELGLNDPFIVQYFNWLLDCFQLNFGTSYVTGEPVWNEIKPAFINTLKLTVLSSFIIVGLSILLGVICAINEGKFIDKSVRSMSFVLIGMPSYWLASLMIWYFSVELDLLPTSGMSSAESYILPVTIITVSYVGIYFRVIRTSMLSNLNEDYVFYGRASGLPEKKITLHLLRNSLQVSTSVFCMGIPTILGGTVVIENIFAWPGLGSLSVDSILKRDFPIIQTYVLLLGASFVVFNTLSDLINMTLNPKLRKGF	PGPT0004410_289	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004410-nikB|cntB-K15585	NA	NA
AK012_02976	1611	cntA	COG0747	Metal-staphylopine-binding protein CntA	ATGCATTATAAAAAAATCACCCAATTAAGCTTATTATTGCTGACTATATTCACCTTAGCGGCTTGTTCTTCAGGAGATGACGCAAAGGCTGAGAATGAAAATGAAAATGAATTGACTTATGCGATGACGAAAGACATTGGTGATATGAACCCACATTTATATACGGGTTATATGGCAGCTCAGGGAGTTGTATTTGAGACGTTGGTTGAAAATACAGAAGAGGGAATTAAACCTTCATTAGCAGAGTCGTGGGATATATCAGAGAATGGAAAAGTGTATACGTTTACTTTAAGGGATGATGTTAAATTCCATGATGGTGAACCTTTCAATGCAGAAGCTGTAAAGAAAAATATAGATGCTGTTCAAGAAAACGCTGAAGTCCACTCATGGATTCAGCTGTCACAAAAGATCACAGAAACAAAAGTAATTGATGAGTATACTGTTGAGATTAACTTATCAGAGGCATACTACCCTACACTTTCCGAACTATCAACAACAAGGCCGTACACTTTCTTATCGCCTAATGACTTTAAAGATGGGGGCACCAAAAACGGGGTGAACGGTTATAACGGAACTGGTCCATATATCCTTACTGAACATAAAAAAGAAGAAGCTGCTGTGTTCGAAGCGAATGAACAATATTGGAATGGAGTACCTGATGTAAAGAAGGTTACTTCGAAAGTTCTTCCCTCGGGAGAAACAACGTTTTTAGCCCTTAAAAAAGGAGAAATTAACTTCCTCTTCACTGATGACCGTGGAGCAAACAGCATCGATTTTGAATCCATGGAAGCTCTTGAGGCATCTGGAGAATACCAAGTCGTGAGAAGTAAACCGATGGATACAAAGTTGATTGCGGTTAACAGCAGTAATGAAGACAGCCCGATTAGGGAAACGGCGGTACGTGAGGCAATTTGGTACGCAATAGATAGAAAGACGATCAGTGAAAGTATTCTAAACGGTACTGAACAGCCGGCAGGCACGTTACTTTCTAAGAACATCCCCTATGCAGATGTTGATTTGAAAGAGCGCGGGTATGACCCGGAAATGGCAATGGAATTATTGGATAAGGCTGGCTGGAAGATGGACGAGGGATCAGGAGTGAGAACAAAAGAGGGAAATGATCTAAATGTAACTTTCTATTACGACAGCAATGCCCCTGCCCAAAAAACACAGGCGGAGTTTATACAGGATTCCCTGAAAAATATGGGCATTAACCTTGAAATTATTGGAGAAGATTCTACGTCAATCGCAGACAGAAGAAAGTCAGGAAATTATGAGCTTTTGTACACGCGTACGTGGGGGTTAGCTTATGATCCTGAAAGTACGATTTCAGCTTTTACTGATGTTTCTTACAATCTTCATTCAACAAAAGGGATGAAGAATTCGGACGAGCTTTATAAAAAAATCGATGAAGTGATGGTGACAGTGGATAAAGAGGAACGCCAATCTTTTTATGATGATATTCTCACAATGGTTCATGATGAAGCTGTATTTATTCCGATCACATATGGTGGTATGACAGTCGTCGCACCTGAAAATCTGGAGAACATTAATTTTAAGCAAACTCAATATGAACTCCCATTTGAAGAGATGGCATATAGAGAAAAATAA	MHYKKITQLSLLLLTIFTLAACSSGDDAKAENENENELTYAMTKDIGDMNPHLYTGYMAAQGVVFETLVENTEEGIKPSLAESWDISENGKVYTFTLRDDVKFHDGEPFNAEAVKKNIDAVQENAEVHSWIQLSQKITETKVIDEYTVEINLSEAYYPTLSELSTTRPYTFLSPNDFKDGGTKNGVNGYNGTGPYILTEHKKEEAAVFEANEQYWNGVPDVKKVTSKVLPSGETTFLALKKGEINFLFTDDRGANSIDFESMEALEASGEYQVVRSKPMDTKLIAVNSSNEDSPIRETAVREAIWYAIDRKTISESILNGTEQPAGTLLSKNIPYADVDLKERGYDPEMAMELLDKAGWKMDEGSGVRTKEGNDLNVTFYYDSNAPAQKTQAEFIQDSLKNMGINLEIIGEDSTSIADRRKSGNYELLYTRTWGLAYDPESTISAFTDVSYNLHSTKGMKNSDELYKKIDEVMVTVDKEERQSFYDDILTMVHDEAVFIPITYGGMTVVAPENLENINFKQTQYELPFEEMAYREK	PGPT0004405_77	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_NICKEL_RESISTANCE	NICKEL_RESISTANCE-NIK-CNT_TRANSPORT_SYSTEM,PGPT0004405-nikA|cntA-K15584	NA	NA
AK012_02977	1287	cntM		Staphylopine synthase	ATGAAAGGTTTCAACAGAGTATTGATATTAGGAACTGGTCCGACTGCCATCCAGCTCGCCCTGAATTTTAAAGCGCAATTGCATAGTTATATAGGGATTGCTGGGAGAGAATCTGTTCGATCTGAAACATTTTATTCCGATATTGAAAAGAATGATTTTCAGCTAAGGGTGAGTGTTCAAAATGAGAAACATAAAAAGATGGAAGGTGAATGCCGTATTGATCAGCTTTACAAAGGGATTGATAAGGTTGAGGGGAACTGGGAAACCCTTATATTATCTGTAACGACAGATGCGTACATAGATGTTTTGAGGCAGGTTCATCATCATGTTCTGGAAAAGGTGAAATATATTGTTTTAGTGTCCCCTACGTTAGGTTCTAACCATTTACTCCGGAGTTACATGAATGAACACAATTCAGACGCTGAAATCATCAGCTTTTCCACTTATTTTGGTGATACTAGATGGGTTGCAGAGCGCCCTTCTAATCATGTATTGACTACAGCGGTTAAAGAGAAAGTATTCATTGGCTCGTCCCACTACAATTCTGATTATGTAAATAAATTATGCTTCATGTATAAAGAAATCGGACTGCAGCTGGAAGTTATGAAGTCTCCTATAGAAGCTGAGACGAGAAATATTTCTCTGTATGTTCACCCTCCATTATTTATGAATGATTTTTCGTTAGATGCGATATTTGGAGATACAGAAACTAAAAAGTACGTTTATAAAGTATACCCAGAGGGACCGGTCACCCAATATTTAGTTCGGGAAATGTTATCTCAATGGAAAGAAATCATGAATGTTCTTAAGAAGTTAAGAATAAATGGAATAAATCTGCTGCAATTCATGACGGATGATAATTATCCGGTCAGGCAGGAAAGTTTATCTCGTAATGATATCGAGAATTTCAATTCTTTTGACGACATCCACCAGGAATACTTGCTTTACATTAGGTACACTTCTTTGTTAGTGGACCCATTTTCAGAGCCTGATGCTCAAGGAAGATATTTTGATTTTTCAGCTGTCCCAATTAGAAGGATTTTTGTGAATAAAGAAGGATATTTGGATGTTCCCAGGATGCCCAAGGAAGATTATTACCGGATAAAAATCATACATGGAATAGCAGAACATTTGAATGTACCCTGTCCGACCATTGAAAAGTTTATAAGTAAATATGAGAGTAAGTTAAAGGATGCTGCAAACTCTCAAGACTCCCGATTATTATCTGATGCCTTTATTGTTAATAGTTTTGAGACAGATATAAAGATGATTTGCAGTGAGATATAA	MKGFNRVLILGTGPTAIQLALNFKAQLHSYIGIAGRESVRSETFYSDIEKNDFQLRVSVQNEKHKKMEGECRIDQLYKGIDKVEGNWETLILSVTTDAYIDVLRQVHHHVLEKVKYIVLVSPTLGSNHLLRSYMNEHNSDAEIISFSTYFGDTRWVAERPSNHVLTTAVKEKVFIGSSHYNSDYVNKLCFMYKEIGLQLEVMKSPIEAETRNISLYVHPPLFMNDFSLDAIFGDTETKKYVYKVYPEGPVTQYLVREMLSQWKEIMNVLKKLRINGINLLQFMTDDNYPVRQESLSRNDIENFNSFDDIHQEYLLYIRYTSLLVDPFSEPDAQGRYFDFSAVPIRRIFVNKEGYLDVPRMPKEDYYRIKIIHGIAEHLNVPCPTIEKFISKYESKLKDAANSQDSRLLSDAFIVNSFETDIKMICSEI				NA	NA	NA	NA	NA
AK012_02978	795	cntL		D-histidine 2-aminobutanoyltransferase	ATGTTAGAAATGAAAACTCTTGGAGAGGATTTACAAAGTTTCAGATTGAGGTTTGATGTACTAGCCAAGGATAGTAATGACACATTGGACCATAATTCTGAATTAGAGGTGCTGCTTGATGAGTACTCAAAATTTATATTAGATGAAAAGCACAATAATTTATGGGAACAGTTAAGTTCAGCTGATTCGAATAAATATAGCCAGCTTTTATCTGAATTAAGAAAGACATCCGCCCAATGTGTAGCCAGAATGGAGAAATATCGTGCATTAAGGTTATTGGAAGGACATGATGAAGGTTCAGGTTACTTTAACAACATAGAGTCTTGTATTCAACAGGAATTCGGCTGCTTTGAAATCAGTTCAAACTCAAAGGTATTACTCATAGGATCCGGCTCTTTTCCGATGACTCCACTTCTGATAGCTAAGCAGACAGGAGCAGAAGTAGTTGGAATTGATATTGATGAAGAAGCTGTCAAACTGGGCCGGCGAGTTATAGAAAAATTGGGTAGTGAGTTAAATGTCAGGCTTGAACAACAATCAGTGGAGGACCTAGGTTATGTATCACAAGCGACTCACATCATATTTAGTTCTACTGTAGAAAAAAAGTATGAAATATTAAATGAATTACATGCATTAACCAAGAATGATGTCGTGGCAGCTATGAGGTATGGGAATAAATTAAAATCATTATTCAACTATCCAATGAAGAACGTTAATCAAACGAAGTGGCGATTAGTTGACAATACTGTTCGACCAGACCAGATATTCGACATAGCCTTGTATGAAAAAGCCTAA	MLEMKTLGEDLQSFRLRFDVLAKDSNDTLDHNSELEVLLDEYSKFILDEKHNNLWEQLSSADSNKYSQLLSELRKTSAQCVARMEKYRALRLLEGHDEGSGYFNNIESCIQQEFGCFEISSNSKVLLIGSGSFPMTPLLIAKQTGAEVVGIDIDEEAVKLGRRVIEKLGSELNVRLEQQSVEDLGYVSQATHIIFSSTVEKKYEILNELHALTKNDVVAAMRYGNKLKSLFNYPMKNVNQTKWRLVDNTVRPDQIFDIALYEKA				NA	NA	NA	NA	NA
AK012_02979	834	cntK		Histidine racemase	ATGAAACACGAAGTTGAGTTTATGAAATTTAATCCCACGCAGAATATGACCATTTTAATAGATACTCCTTACCCGATCGAAAAGCACAAAACAGTTTCTTCTGAGATTATGTCCTATCAAAACGTCTATGCAGAGCAAGTGGGGTTCATTGAGAAACCATTTAACACGAACGCTGAAGCTCGTTTGCAAATGGCTGGGGGGGAGTTTTGCGGGAACGCTTGTATGGCGCTTGCTTTACTCGTTTCATCCCAAAGAAATCTACTGAAAAATGGTTGTACGAAGTTTTCCCTGGAAGTATCTGGATCGGATCGGTTAATACAATGTCAAGTAAAGCAAGATGCTCATAACTTTTATTGTAAAGTTGATATGCCTTTACCTAAGAAAATTGAGTTAAAACAGATCATTTTTGAAGGAAATGAATTGGAAATCATCATTGTAAGGTACGACGGTTTCCTACATATTATTTTTGAAACTGATGAATTTAATGCTGAACAAAAGAAGAGAGCGCAGTCTTTAGCAGAACTCCTGGGAGCGACTTTAGAAGTTAACTTAATTGGAATACTTTTGTATAAAAGAAAAACACATGAATTGTCACCTCTTATTTATATCCCGGATCTGGATAGCAGTGTATGGGAGAGAGGGTGTGGTTCGGGGACAGCGTCTCTTGGAGCTTATCTTGCATGGAAACATAATAAGGACATTGTTTCAGAAATTAAGCAGCCAGGAGGAACGATCACCGTTGCATGCCATCATGAAGAAGGTGAACGGACGAAGCTGACTATTGAAGGTACTGTCGACCTGGTTGCTGTAGGAAAAGCGTTTATCGATGTATAA	MKHEVEFMKFNPTQNMTILIDTPYPIEKHKTVSSEIMSYQNVYAEQVGFIEKPFNTNAEARLQMAGGEFCGNACMALALLVSSQRNLLKNGCTKFSLEVSGSDRLIQCQVKQDAHNFYCKVDMPLPKKIELKQIIFEGNELEIIIVRYDGFLHIIFETDEFNAEQKKRAQSLAELLGATLEVNLIGILLYKRKTHELSPLIYIPDLDSSVWERGCGSGTASLGAYLAWKHNKDIVSEIKQPGGTITVACHHEEGERTKLTIEGTVDLVAVGKAFIDV				NA	NA	NA	NA	NA
AK012_02980	936	arcB_2		Delta(1)-pyrroline-2-carboxylate reductase	ATGAAAGTAATATCAAAAGAAGAGATTGCGAGTAATTTTTCTATGAAGGAAACGATGGACAACATCGAATCTTTTTACGCCGAAAAAGAAAGCGAATTCATATCACCGGACCGGATGCATATAGAGGATGGGGAGAATACGGCTTTGCTGATGCCGGCCTTCTATGGAGACTATTACTCCACGAAACTTGCAGGCGTTGCTCCTGAAAACAAAAATGCTGGAAAGGACACAATCCACGGCTTGATGGTTCTGAATGACCGCAAGACGATGGAACCCCTTTTCTTGTGTGATGCCATTGCCATTACGGCCCTTCGTACGGGCGCTCTGGGAGGGCTCGGAATCAAATACCTGGCTAAAGCAGACGCGGAAACGTTAGGTATTATCGGAACCGGCACACAAGGATGGAGTCACCTGGAATCAGCCCTCGCTGCCAGAGATATCAAACATGTACATATTTATAACCGCACCGAAGAGAAAGCCCATCAGTTTAAAGCAAAAGCAGAGACCCGCTTTCCGCAAGTCACGTTTACCGTTTCCTCTGTCGAAGAATTAGCCGTAAAGTCAGACATTATCGTAACAACTACGACCTCCACCACACCTGTACTTCCTGAATTACACGATTCAGATTGGAAAGGCAAACTCATTGTAGGCGTCGGCTCCTTCCGCCCTTCCATGCAGGAAATCTCTGATCAAGTACTAAGAATCGCTGATGAAGTATTTGTAGATGCCAGATCAGCCCTGCATGAATCCGGGGATATGATCCAGGCCGGGCATTTACGTTCGGGCTTAGAGAACTCCTGGGACCTAGAAAAAATCATCACCGAAAATGATCCGCCGCAGGATTTAGAAGAAAAGACGATCGTTTTCAAATCTGTAGGGGCTGCCATATTTGATTTAGTTGTCGTTCAATCGATTTATGAAAAGTTGTATAAGTAA	MKVISKEEIASNFSMKETMDNIESFYAEKESEFISPDRMHIEDGENTALLMPAFYGDYYSTKLAGVAPENKNAGKDTIHGLMVLNDRKTMEPLFLCDAIAITALRTGALGGLGIKYLAKADAETLGIIGTGTQGWSHLESALAARDIKHVHIYNRTEEKAHQFKAKAETRFPQVTFTVSSVEELAVKSDIIVTTTTSTTPVLPELHDSDWKGKLIVGVGSFRPSMQEISDQVLRIADEVFVDARSALHESGDMIQAGHLRSGLENSWDLEKIITENDPPQDLEEKTIVFKSVGAAIFDLVVVQSIYEKLYK				NA	NA	NA	NA	NA
AK012_02981	477			hypothetical protein	ATGGATCAGTCATTCATTCAAACGAGAGAAGAATTGATCAGTTTGCTAAGGGGTTTAAATGATTACGATTTAAATACTGCTACGGAACTTGAAGGTTGGACGGTTGCACAGGTGGTCGATCATCTGGCAGTGGCTGAGGTGAATTTTCTAGGGCTGGTGGAGAACGCTATGAAGCAGAAACCCATAGGACATGCTGAGGAAAAAGATTTCTCCATCCTGCGGGATCGTTCCGTGAAAATCAAGGCACAGCAGGATCCTTCCACTGTCCACAGAAATGCAGAAGACTGCATCCAATTGCTGCAAAACTCAAGAAGCGCAACCGAAGCTTTTTTAAATGAAAACAAATACATCGAACGATATGTCGTGTCCCATCCGCGATTTGGAGATATTCCTGCCAACAGCATTTTCACTCTCATAGCCGAGCATGAACAACGCCACATTGAGCAGATTGAAGAGATTTTGGAGGCTGTAAAGTAA	MDQSFIQTREELISLLRGLNDYDLNTATELEGWTVAQVVDHLAVAEVNFLGLVENAMKQKPIGHAEEKDFSILRDRSVKIKAQQDPSTVHRNAEDCIQLLQNSRSATEAFLNENKYIERYVVSHPRFGDIPANSIFTLIAEHEQRHIEQIEEILEAVK				NA	NA	NA	NA	NA
AK012_02982	447			hypothetical protein	ATGTTGATTGAATACGCCATAGCAAGCTTTTTTGCATCAGCTGCCTTTGGAATCATCTATCAGGCGCCAAGAAATACGATCATCAAATGCGGTCTTGTCGGCATGATTGGTTGGGTCATTTACATATCCTTAGTATGGGGAGAAGTCGACAGTGTCCCAGCTACACTCATCGCCTCCTTTGTTATTGCCATGGTCAGCCAGATGCTGGCAAGGATAAACAAAACGCCTATGATTATATTTAGCGTACCAGGGATTATTCCTCTCGTACCAGGAAGTCTCGCTTATGACGCGATGCGGAACTTTGTACAAAATGACTACAGCGCCGCAATCTCTATTGCAGCGAAAGCTTTTATGATATCTGGTGCTATTGCATTTGGGCTCGTGTTCTCGGAAGTGCTTAATCAGATTATAAAAAAGATAAGACAAACAAAAGCGCAATTGAGGTAA	MLIEYAIASFFASAAFGIIYQAPRNTIIKCGLVGMIGWVIYISLVWGEVDSVPATLIASFVIAMVSQMLARINKTPMIIFSVPGIIPLVPGSLAYDAMRNFVQNDYSAAISIAAKAFMISGAIAFGLVFSEVLNQIIKKIRQTKAQLR				NA	NA	NA	NA	NA
AK012_02983	744			hypothetical protein	GTGGAGGATACAGAGGACTTGATTGAGTTATGTTTATTAATGGGGAAGATCATGCAGCAAAATGGAGCGGAAACCTATCGTGTGGAAGATACGATGACGCGGATTGCCCAATCTTTCGGACGGGATGAATCCCAAAGTTATGTAACACCTACTGGGATTATGTTTACGATCAGTCCTGGTGCCCATGCAAAATTAATAAGAGTTTCGGCACGAGAGACAAATCTCGAGAAAGTGAACCTTGCGAATAATGTCTCCAGAAAGATTGCAAGTGGGGAATTGTCTACTCAAGCAGCGTATAAAGAGCTCAGAACGATTGAAACCAGTCCTACAGACTATTCCATGCGCATGCAAATCATCGCTGCTACGTTAGCAAGTGGTTTCTTTACTATCATGTTTCAGGGAAGCTGGTCCGATTTCCTTCCAGCCTGCTTAGCTGGAGGACTGGGGTTTATTGCATTGATTAACTTCATTCGATTATTTGAAATTAAATTCGTTGCTGAATTCGTTGCTTCGTTGTTGATCGGTTTTACAGCCTTCTCCCTTTTTTCATTCGGTATTGGGAAGGAAGTGGATAAGATCGTTATCGGTTCAATCATGCCGTTGGTCCCTGGTCTGCTCATCACCAACGCTGTAAGAGATTTGATGGCAGGCCATCTGATCTCAGGACTCGCCAAGGGGGCGGAGGCTTTTTTAACAGCTTTTGCAATTGGGGCAGGTATTGCTGTGATGTTTGCACTATTTTAG	MEDTEDLIELCLLMGKIMQQNGAETYRVEDTMTRIAQSFGRDESQSYVTPTGIMFTISPGAHAKLIRVSARETNLEKVNLANNVSRKIASGELSTQAAYKELRTIETSPTDYSMRMQIIAATLASGFFTIMFQGSWSDFLPACLAGGLGFIALINFIRLFEIKFVAEFVASLLIGFTAFSLFSFGIGKEVDKIVIGSIMPLVPGLLITNAVRDLMAGHLISGLAKGAEAFLTAFAIGAGIAVMFALF				NA	NA	NA	NA	NA
AK012_02984	921			hypothetical protein	ATGAGCAAATTGTTTATATTGGGGAATGGTTTTGATTTAGCACACTGTCTCCCTACGTCGTATCGTCACTTTCAAAACTATTTATATGACACTTATCCAGATGCTTATCATATGGATGTTTTGTTTATCTCTCCACAAGAACAACCGGATGGCGGAATGGTAGTTGAGAGAAATGAAGCTGTAGCATTAATTACCTCCGTCATCGATAATACAGAAGGGCCTGAGTGGTCAGACTTGGAATCAACTTTGGGGAAATTGGATTTTGATACTTTGTTTAGTGATGCTGAAGAGACTATAGGTGAGATAGAACCAAATAAGATTCATAATAATAATGAAGACTTATCTGCTGCTTACTATTTGGTGATGAGAGAGATGAGACAATTATTTAAAGAATGGGTAGGAACCATAGAAATCGAGAGTAGAAGAAAGATTAGAAAATTTAAAGATCTATTCGACTCTAATAATACGGTGTATCTAAATTTTAACTATACGCGTGTCCTCGAAGAACTGTACGAACAATGCAATGTACATCATATTCATGGAGAAGCAGGGGGAGATTTAATTTTCGGCCACGGAGAACCGTTTAAAGATAGTAAACACTTCGGAGCAACTTTTCATTTGAGTAAAATTCACGACTATTTCAAAAAGGATACGGAAAGTGTTATATCTAATAATCGGTTATTTTTTTGGCGATTGTACGATATCAAAGATGTTTATTCATATGGATTTTCGTTTTCGAAGGTTGATCTACCCTATATAAAAGAATTATGCAGTCGCTTTGATACAAGTGACTGGACGTGGCACCTAAATATATACAAAAGTACTCCTGAAAAATGGAGGGACACTATTTCTGTGTTAAGATCTTGTGGTTTCAAAGGGGACATTATCGAATTTCAAGTAGACCAGGATGATATATGTTAA	MSKLFILGNGFDLAHCLPTSYRHFQNYLYDTYPDAYHMDVLFISPQEQPDGGMVVERNEAVALITSVIDNTEGPEWSDLESTLGKLDFDTLFSDAEETIGEIEPNKIHNNNEDLSAAYYLVMREMRQLFKEWVGTIEIESRRKIRKFKDLFDSNNTVYLNFNYTRVLEELYEQCNVHHIHGEAGGDLIFGHGEPFKDSKHFGATFHLSKIHDYFKKDTESVISNNRLFFWRLYDIKDVYSYGFSFSKVDLPYIKELCSRFDTSDWTWHLNIYKSTPEKWRDTISVLRSCGFKGDIIEFQVDQDDIC				NA	NA	NA	NA	NA
AK012_02985	1461			hypothetical protein	ATGCTGGCAATGCCTGAAATTAAGCATATCAAAAAATTACGAAACGAGAAATGTTTATCTATAAATGCTATTACAAAAAGAACAGGAATAAGCTGGGTCACAGCGAAGAAATATGCGGATAGCGACCAACTTCCTTCGGAAGACATACCGAAAAAACGAGGCATGATGCATGAAGAAAAGTGGGGAGAAATTGTCTCGGACTGGTTGATCGAAGATGCTGCTTTGAAGGCAAAACTTCGCCGGAACAACAAACTAGTTTACTTACAACTAAAAGAGTTAGGATTCCCCGGTTCGTATAGGACGGTCTGTAATTTTATTGCTGAATGGAAAGATCGCTGCTCCGAAGATCTGGAGGAAGAGAAAGAAACGTTTGAGCGTTTAACCCACCCTCCCGCCGAAGCCCAAGTCGATTTTGGCATAACTGAAGCTATAGAGGATGGGAAAATAAAAGATATACATTGTCTTATAATGAGTCTACCTTACAGTAATGGGGGATTCACAGTACCACTTCCTGGTGAGAATCAAGAATGCTTTCTGGAAGGCCTAAAAATACTCTTTAAACAACTAGGAGCTGTTCCCCGTAAATTACGTATACATAATCTAGCTGCAGCAGTGGTAAAAGCAAGGGGCAAGCATGGAGAAACCATTTTCACAGACGCCTTTGAACAGTTTGCCTCTTATTACGGATTTGAAGCTCAAGCGTGTAATGCAAGAAAAGGTAATGAGAAGGGGCATGTGGAAAATAAGGTCGGATACGTGCGATACAACTACTTTACCCCTTCGCCTGTTATTCAGAATCTTGAACACCTTGGAGAAATGTTATTTAAACAAGCAACAAAGGATCACGAACGTTATCACTACAAAAAAGAGCAACCGATTTGGGATCTAATTAATGAAGAGAAAAGGTATTGTCTAGCATTACCTGATGAACCTTATCCTGTGTTTAAGAAGTCATCAATAAAAGCGAATAAGTATGGAGAAATATCGTTAGATAAAGAACTAGTGCATATTCCAAACTCTAATCATTATAGCCATTTATATCTAATAACTTATTGGGATCAGTACAAAGTTGTTTCTCCTCACGGAGAATTGATTGGAAAAGGAATGCGCCCTTATATGAACCAAGCTCGAGAGATACCATGGAGCTCCATATTAAAAAGTTGGGTTCGGAAGCCGCGTGCAGTTACGTATTCTCGGTATTTTACATACCTTCCAGGGCGAATAGCAGCTTATCTTAGCATCGATTCTCATGGTTTAAGGAAAGAGCGTCTGGAGTGGGTGTTGTCGCTAATCACTACCCATGAGATGGAAGAAATCAATGAAAAGTTCTATGAGTTTATTCCAAATGATTATTCAGACAGCCGTGATTCAAAGGGTCACCCATATGAAATTAACTGGAATATGTATGACGCGCTCCGCCCTTCCGACTCTGCCTCCGAAAGGAGGGAGATTTCTAAATGA	MLAMPEIKHIKKLRNEKCLSINAITKRTGISWVTAKKYADSDQLPSEDIPKKRGMMHEEKWGEIVSDWLIEDAALKAKLRRNNKLVYLQLKELGFPGSYRTVCNFIAEWKDRCSEDLEEEKETFERLTHPPAEAQVDFGITEAIEDGKIKDIHCLIMSLPYSNGGFTVPLPGENQECFLEGLKILFKQLGAVPRKLRIHNLAAAVVKARGKHGETIFTDAFEQFASYYGFEAQACNARKGNEKGHVENKVGYVRYNYFTPSPVIQNLEHLGEMLFKQATKDHERYHYKKEQPIWDLINEEKRYCLALPDEPYPVFKKSSIKANKYGEISLDKELVHIPNSNHYSHLYLITYWDQYKVVSPHGELIGKGMRPYMNQAREIPWSSILKSWVRKPRAVTYSRYFTYLPGRIAAYLSIDSHGLRKERLEWVLSLITTHEMEEINEKFYEFIPNDYSDSRDSKGHPYEINWNMYDALRPSDSASERREISK				NA	NA	NA	NA	NA
AK012_02986	726			IS21 family transposase ISKol3	ATGACAGATCGTATAAAAGAAATGTGCAAATCTCTTCGTTTAGCCTATGTAGCAGATATTTATCAGAGTGTTCCCTTCGAATCTTCTGAACAATACTTAGAAACTCTCTTTAAACAGGAATTTGAGCTTCGGGAGACGGCCAAGGGTGAACGCCTAATTAAAAAAGCAAAATTCATGAATGGCAAGGAATTAAAAGATTTTCATTGGGGTGACCAAGTGAAACTCCCCCCTCAACTCGAAAGAGAAGAGCTAGAGTCCTTGCATTTTGTAGAACGAAAAGAAAACTTAATTTTAACTGGTGCTCCTGGAACAGGAAAAACGCACATAGCTACTGGTGTAGGACGAGAAGCGTGCAGAAAAGGCTATGAAGTACGCTTTTATCGTGTCGCAGATTTAGTGGAACTATTGGAAAAAGCATGGAGGGAAGGGAAATTTCAGCACTTCAGAAATAAGTTTAAAAAAGTTGATATGATCATTTTAGATGAGATGGGATACGTTCCGTTTAGCAAAGATGGAGCAGAGTTATTATTTCAGTTAGTTACAGATTGGTATGAGAGAAAAAGTGTTGTCATCACGTCTAATTTAGAATTTAGTCAATGGAACCGAATATTTGTAGACGCAAGATTAACTGCAGCGTTAGTGGATCGCGTGATCCACCATGCGCACATACTAAGCTTCATCGGAGACAGCTATCGAGCAACTCACGCTTTATCAAATTATCAATAG	MTDRIKEMCKSLRLAYVADIYQSVPFESSEQYLETLFKQEFELRETAKGERLIKKAKFMNGKELKDFHWGDQVKLPPQLEREELESLHFVERKENLILTGAPGTGKTHIATGVGREACRKGYEVRFYRVADLVELLEKAWREGKFQHFRNKFKKVDMIILDEMGYVPFSKDGAELLFQLVTDWYERKSVVITSNLEFSQWNRIFVDARLTAALVDRVIHHAHILSFIGDSYRATHALSNYQ				NA	NA	NA	NA	NA
AK012_02987	729			hypothetical protein	ATGAAAAAAAATATAGAGTTCATGTTGTCATATAATTTATTTGCGCAGGCTAATAAACCTATTAGACAAAAGAGCGATATAATTAAACTTTTGTTAGCAAGCGTTCAAGAGTTGATGTTTGAGGGAAGTCATAATGATCATAATTTGGGAAGTTGCGAAGTTATTATTGGGAAGATGAGCAGAATTAATTACACTCTAAAAAATGAAAGTGGGCAAATTTACAAGAAGTTTTCCTTTTCCTTTCCATTTTTTGTAGAGGAACAGACAAACCCTGATAAACTATCGCATTGGTCAATTAAGGACTCTAATGGTTTAGAAGTAAACAGCCAATTAATTAGTGTGCTCATAAACCTTTTAGAGGATAATTGGTTTGATGATGATATGGATTTATCAAATGAAGCATTAATGTTTTACGAACACATATTAGAAGCGGTTAAAACTATTGATACAGCTTTATTTACAGATACAATAATTTGGCACATGATTAGAAGGCTATTTTTATTTGAGCCAGGGTATTTAAGATATGATTATGATGATGATGAATCAAGATGTGATCCTGTTTCGCATCCATTACATCATCTTGATGTATTCTTCTCTAGTAACGCAACTTTTAAAATTGGAATTTTTGAAGAGATAATTTCAGAGGGGGAATGGGGATCCAATGGATTTATTAATCTGCTTGATCTAGAGACTCCTTGTTATTATTTATCAAATAATAAACAAGAATAA	MKKNIEFMLSYNLFAQANKPIRQKSDIIKLLLASVQELMFEGSHNDHNLGSCEVIIGKMSRINYTLKNESGQIYKKFSFSFPFFVEEQTNPDKLSHWSIKDSNGLEVNSQLISVLINLLEDNWFDDDMDLSNEALMFYEHILEAVKTIDTALFTDTIIWHMIRRLFLFEPGYLRYDYDDDESRCDPVSHPLHHLDVFFSSNATFKIGIFEEIISEGEWGSNGFINLLDLETPCYYLSNNKQE				NA	NA	NA	NA	NA
AK012_02988	2007			hypothetical protein	ATGAATATGCAGCACACACACTTTTTTTCAGATATAGATTCAAATGAAAACATCGAAGGTTTTGTAAAACAGTTAGAAAAATATTCTAATGAAAATAATATTCAGACATATTTAATAAGTGGACCCTTAGGTGAGAAGAAATACACTTATACTATTGAACAGCCTATGATTTTGTTAATACCGGATCATCAGATTATGCTTATTAACTGTAAAGGTGAGGATAGTGACGATTTTTTAGATTTTCATGAGGATTTCTTAGAAGATTTAGGACACCTGTCTGATAAGTTTGAATATAAAAAAGTCCTTGGAAGACCTAGAATATGGCGTAAGGAATTGGTTAGTGACAAAAATTTAAGTGATTTCAGTGGTGATATCGAAGAATTTATTTCTAATAGTAAATTAGATGACCCTACCCAAAAAAGAAAAGTTGAGCTCTTAATATCACTATTGATAGGAAGTATTAATTCAATTGATAAAATTGGACATGACTTGCCAGAAGAACTTTTAGATAAAGTCAAAAGGAAAATAACGTTGTTTGACAGTGATCAAACAAGATTTATATTTAAGAAGATTGGAAAAAAAAGAATTACTATACAAGGAATAGCCGGTACAGGAAAAACGGAATTACTTTTACATAAGTTGAAAGAATTATATACAGAAGACAATACAAGTAAAATTGCGTTTACTTGTTTTAATAAAGCTCTAGCTAGTACCCTAAAGAGTCGAGTACCTAATTTCTTTGATTTTATGAAAGTAGAAGAGCAAATTAAGTGGGGGGAAAGGTTATGGATTATGCATAGTTGGGGGTCACAACTAGATAGAACCAATGTGGGACTCTACAGCTATATTTGTCGACGTTACGGCATACCATTTTATGGTTTAAGTAACGGAAGTTTTGATTACGCCTGTAAAAAAGCTATTGAAGCATTAAAGGGCAAGGCGATAGAGCCTGCTTTTGATTATGTTCTAATTGATGAAAGTCAAGATTTCCAGGAGAGCTTTTTTGAACTATGCGAGCTAGTTACAAGGGATACTGTGTATGTTGCAGGTGACATCTTCCAAAATATATTTCAAGCAAATGTAACAGATACTTCTCCTGATTTCTTGTTAAACAAATGCTATAGAACAGACCCTAAAACATTAATGTTTGCTCATGCAGTTGGTTTCGGATTATTTGAGAGACCTGCAATTCGTTGGTTGAGCCAAGAACAATGGGAGGCGTGTGGGTATTATATAGAAGATATTAAAGGAGATGAATATACATTTTCTCGAACTCCTCTCCGAAAGTTTAATGATTTAGAGGAGGCCAACGTAAATAGTGCTGAAATAATTGAAGCTTCAAATAAGGATTGTTCGGAGAACATTATAGAAATTATTAAGAGCATCAGAACAAATCACCCCTCAGTAAAACCTGAGGACATTGCTATAGTCTTTACTGACAAAGGTAATTCTCAGTATGAGCTTATGACATTGGCTTCTCTAAAAATTTCTGACCATTTTAATTGGAAATCTAATAAGATTTATGATACTAAAGAAATTAGAAAAGACTCTGTCTCCATTAGTAACATAAACAATATTAAAGGGTTAGAATTTCCTTTTATAATTTGTATTGCTAATTCAGAAATTGGCCAGAACGTCAGAAAGAGAAATGCATTATATATGACATTAACAAGGTCGTTTATCACATCATATTTAATTGTTAATAGAAACAACAATCAATTAGCATTAAACCGATTGCATAGTGGTTTAGAAAGCATAAATGAACACAGCAAGCTAATTGTTAAGAAACCTTCTGAAGGTGAACTAATTGATCAGTCTGAATTAGTGTTGGATGTTAATGTTTCATCTCTTTCTCAACGAGATATTGTAGATTTGTTATTTGATAAGCACAAGATACCAACTGATAAACATGAAAAGTTAAGAAATGCAGTGCAAACACTTCAACCTGACTCAGTTGACAAAGAACAAATAGAAAAGATTATTCTCCAGACTAAGGATCTTGTATAA	MNMQHTHFFSDIDSNENIEGFVKQLEKYSNENNIQTYLISGPLGEKKYTYTIEQPMILLIPDHQIMLINCKGEDSDDFLDFHEDFLEDLGHLSDKFEYKKVLGRPRIWRKELVSDKNLSDFSGDIEEFISNSKLDDPTQKRKVELLISLLIGSINSIDKIGHDLPEELLDKVKRKITLFDSDQTRFIFKKIGKKRITIQGIAGTGKTELLLHKLKELYTEDNTSKIAFTCFNKALASTLKSRVPNFFDFMKVEEQIKWGERLWIMHSWGSQLDRTNVGLYSYICRRYGIPFYGLSNGSFDYACKKAIEALKGKAIEPAFDYVLIDESQDFQESFFELCELVTRDTVYVAGDIFQNIFQANVTDTSPDFLLNKCYRTDPKTLMFAHAVGFGLFERPAIRWLSQEQWEACGYYIEDIKGDEYTFSRTPLRKFNDLEEANVNSAEIIEASNKDCSENIIEIIKSIRTNHPSVKPEDIAIVFTDKGNSQYELMTLASLKISDHFNWKSNKIYDTKEIRKDSVSISNINNIKGLEFPFIICIANSEIGQNVRKRNALYMTLTRSFITSYLIVNRNNNQLALNRLHSGLESINEHSKLIVKKPSEGELIDQSELVLDVNVSSLSQRDIVDLLFDKHKIPTDKHEKLRNAVQTLQPDSVDKEQIEKIILQTKDLV				NA	NA	NA	NA	NA
AK012_02989	960	xerC_4		Tyrosine recombinase XerC	ATGGCATATCTAAGAAAAAGGGGTAACAAGTGGTCCTATCAAGTAGAATGGTTAGATCCAGTCACTGGAACAAGAAGAACAAAGTCTAAAGGTGGTTTCACAAGAAAAACAGATGCAAGAGTAGAAGCAGAAGAATTAGAAAGGGAGTTAAGAGAAGGATCCTTTATTGAGGAAAACAAAATTACTCTTAATGAATTCGCCGATGAGTGGCTTAATTTCTATGCGAAAAATTCTAAGGTTAGCTCCCACCGTGGACGTTCTAAAGAATTGAAGCACTTCAGAAGGTATTTCTCGAAAATGAAGTTAGCTGATATTACAAGAAAACACTATCAAGCATTTCTTGATGACCTACACGAAAAAGGATACGCTCATAATACATTAGATGGAATCCATACTACTGGCCGAATGTTATTTAAGAAAGCGTTAGAATATAATCTTATTAAAATAAACCCAAGTGAGTTCGCAAAAATCCCAAAGAAAATAGAAACAGTCGAGGAAATTGAGCAGAATGATGAGGTAATAAAATTTTTAGAGAAGAATGAGTTGATAACTTTTTTAAAAACGGCTAAGAAAAAAGGGCTAGATAGAGATTTCATTATGTTCCTAACCCTTGCCTACAGTGGCTTGCGTGTAGGAGAAATGCTGGCACTTAAATGGACAGATGTGAACTTCAATAATGACACTATCCGCATCACAAAAACCTATTACAATCCTAATAATAATACGAAGGATTATCTGCTGCTCACTCCCAAGACAAAAGGGTCTATACGGACGTTAAAAATGGACAAGCAAGTGTTGAGTGAGTTTAAGAAACATTTAACTTACCAAAAAGAAATAAAAATGGCTCTTGGAGATCAGTATAATGATTTTGGATTCGTCTTTGCAAAAGAGATTAATAACCCAGGCTATCCGGATTTCATAAAAACGGTTGAGAATCGGATGCGACGTAAAGCTCGGTAA	MAYLRKRGNKWSYQVEWLDPVTGTRRTKSKGGFTRKTDARVEAEELERELREGSFIEENKITLNEFADEWLNFYAKNSKVSSHRGRSKELKHFRRYFSKMKLADITRKHYQAFLDDLHEKGYAHNTLDGIHTTGRMLFKKALEYNLIKINPSEFAKIPKKIETVEEIEQNDEVIKFLEKNELITFLKTAKKKGLDRDFIMFLTLAYSGLRVGEMLALKWTDVNFNNDTIRITKTYYNPNNNTKDYLLLTPKTKGSIRTLKMDKQVLSEFKKHLTYQKEIKMALGDQYNDFGFVFAKEINNPGYPDFIKTVENRMRRKAR				NA	NA	NA	NA	NA
AK012_02990	1815			hypothetical protein	ATGGAGCTAACTAAAATTAAAATAGATAGCTACAAATCAATTGGAGAAGATAGTAACGTATTGTATCTTGATAAGAAGACCACTGCGATAATCGGAAAAAATGAGTCTGGTAAAAGTAATGTGCTTGAAGCTATTGGGAAATTACCGTATTTCGGTAAAACCAATAGAAATTATTTCTCAAGTAAAAACAGAAACCTTAATAAGGGAATTTCTGTTGTTTTCGAATTAGAAAGTAGTGATATGGAATTAGAGAGACATGGAGAGGATTATTCAAATACAGTAATTACCATCAATGAAGATTTAATTACATTAGAGGGCGGACTATCGGAGGAATTATCTAGTAATAAACAATTAATAGATATGATAAATGATGTGATTAGTACAGAGGGTAACAGGGATATTTGGAATGTATCTAACAATGATCATGTTAAACAGCAGCATAAAGATGCTATGGAATATTTGAAAAGTATAACTGAAAAAATTTCATTTAACTATGAAAGATACATTGAAACTTTACAGCGTCAAATACAAAAAACATTCGAAAGAAAAGATGAAATTAACTCTAAACTTGAGGAAATACAAGTGATTATTTCTAGATATTATAGCTTACTTCCACGGATTTTCTATAGGGAAATGGACGATCAGCTTGAATATTCATATAACGTGGAGGATGTGAAAGAGCATATCAAGAATAAAAGAAGTATATTCTATAGATTAATGCTTGCATCTAAGATTAGTAATGAAGAAATGATAAGAGCCTTTGAAGAAAAAGTAGAAGGTGCCAAACAAAGTATAAGGGAAGATATCGAAGATAAAATAAATATTAATATTGGTAATAGGTTTAATGAATTTTACACACAAGAAGAAGTTAGATTTAAGACGAAATTTGAGGGGAATACCATAAAATTTTTGGTTAACACAAATAAAGGAAAAACAATGTTAATTACAGAGAGAAGTAATGGGTTGCGTTGGTATATGAGTCTTTTTATAGATGTTTTAGCTGATGACCTTGAAAGATCTCCAGTTTTATTTCTGTTTGATGAGCCTGGAGTACACTTACATGTTAATGCTCAAAAGGAGCTACTAAATCTATTTAATGACCTTACAAAAAAAGGTCATAAAATTATATACACAACCCACTCTCCGTCAATGATAGATGGGGAAAACATCTCAAATATTCGAGTTGTAGAAAAGAACACTATTGGAAATACTGTGATATATAATTCTTGTTATAACCAAAAATTAAATGCTGATTCAAAGATGGAAACCCTATCTCCTTTGGTTAAAGCAATAGGGGCTGATTTGAGATTTAATCTTGGACCACAATTTTCTAAAAAAAATATAGTAACAGAAGGTATATCAGATTATTTATATTTAAAAGCCATAATGAATTACTTAGATATTAAAGAACAACCTCATATTATTCCAGCAGCTGGAGTAGAAAACATAAATCGAATAGTATCTATCCTAATCGGTTGGGGATGCGAGTATAAAGTGTTATTGGATTATGATAATGCAGGTTGGAAGGAGTATAATACTATCGTTGAGAAACTAGAAAGATCTTTAGAAGATAATATTACTTTTATAAATGGTGAGACCTATCCTGATGCAAATGAAATGAAAAGATCACCTATCACTATAGAGAATATAATTTCATCGGATGACTTTAAGGGATTAAGTAATTTTAAGAATAGATCAGGAAAAGTATTAGTAGCTAAAGAATTTTATGACAAAGTTTCAGCCAAGGAATTCACTATTACTCAATCAACTATTGATTCATTCCAAAAAGTTCTTTCTAACTTAAAGGTTTTATAA	MELTKIKIDSYKSIGEDSNVLYLDKKTTAIIGKNESGKSNVLEAIGKLPYFGKTNRNYFSSKNRNLNKGISVVFELESSDMELERHGEDYSNTVITINEDLITLEGGLSEELSSNKQLIDMINDVISTEGNRDIWNVSNNDHVKQQHKDAMEYLKSITEKISFNYERYIETLQRQIQKTFERKDEINSKLEEIQVIISRYYSLLPRIFYREMDDQLEYSYNVEDVKEHIKNKRSIFYRLMLASKISNEEMIRAFEEKVEGAKQSIREDIEDKININIGNRFNEFYTQEEVRFKTKFEGNTIKFLVNTNKGKTMLITERSNGLRWYMSLFIDVLADDLERSPVLFLFDEPGVHLHVNAQKELLNLFNDLTKKGHKIIYTTHSPSMIDGENISNIRVVEKNTIGNTVIYNSCYNQKLNADSKMETLSPLVKAIGADLRFNLGPQFSKKNIVTEGISDYLYLKAIMNYLDIKEQPHIIPAAGVENINRIVSILIGWGCEYKVLLDYDNAGWKEYNTIVEKLERSLEDNITFINGETYPDANEMKRSPITIENIISSDDFKGLSNFKNRSGKVLVAKEFYDKVSAKEFTITQSTIDSFQKVLSNLKVL				NA	NA	NA	NA	NA
AK012_02991	1635	groL	COG0459	60 kDa chaperonin	ATGGCTAAAGAAATCAAATTTAGTGAAGACGCACGCCGCTCCATGCTGCGTGGTGTAGATACATTAGCAAATGCTGTTAAAGTTACACTCGGACCAAAAGGACGTAACGTCGTTCTTGATAAAAAATTCGGTTCTCCACTCATTACAAATGATGGTGTAACGATCGCAAAAGAGATCGAGCTTGAAGACCACTTCGAAAACATGGGTGCTCAGCTTGTATCCGAAGTTGCTTCCAAAACCAACGACGTGGCCGGTGACGGTACGACGACAGCAACGGTTCTTGCGCAGGCGATGATCCGTGAAGGTCTTAAAAACGTAACATCCGGTGCGAACCCTGTCGGTATCCGTAAAGGAATCGAGAAAGCGACAGCTGTAGCAACAGAAGAGCTTCGCAAAATCTCCAAGCCGATCGAAGGCCGCGATTCCATCGCGCAGGTTGCAAGCATCTCTGCTGCTGACAACGAAGTCGGCCAGCTGATCGCTGAAGCTATGGAGCGCGTAGGTAACGACGGTGTTATCACGATTGAAGAATCCAAAGGCTTCAATACCGAGCTTGAAGTGGTTGAAGGTATGCAGTTCGACCGCGGCTATGCTTCTCCTTACATGGTCACTGACCAGGATAAGATGGAAGCGGTTCTTGAAGATCCTTACATCCTCATTACAGATAAGAAGATCAACAACATCCAGGAAGTTCTTCCTGTCCTTGAGCAAGTGGTTCAGCAGTCCAAGCCGCTTCTATTGATCTCTGAAGACGTTGAAGGTGAAGCGCTTGCTACACTTGTAGTGAACAAGCTGCGCGGTACATTCAACGCGGTAGCTGTTAAAGCTCCAGGCTTCGGTGATCGTCGTAAAGCGATGCTTGAAGACATTGCGACACTTACGGGCGGCCAGGTCATCACAGAAGATCTTGGTCTTGAATTGAAGAATACAACGATCGACCAGCTTGGACGCGCGTCCAAAGCGGTCATCACTAAAGAAAACACAACCATCGTCGAAGGTGCCGGAAACCCTGAGCAGATCTCTTCCCGTGTCGCTCAAATCCGTGCCCAGTCAGAGGAAACCACTTCTGAATTCGACAAGGAAAAACTGCAGGAGCGTCTTGCTAAACTTTCCGGCGGCGTAGCTGTCATCAAAGTCGGCGCTGCTACAGAAACAGAATTGAAAGAGCGTAAACTACGCATCGAAGACGCCTTGAACTCTACTCGAGCAGCTGTAGAAGAAGGCATCGTAGCCGGTGGTGGTACAGCGCTTGTCAACATCATCAACTCTGTCGAAGGCCTTGGCCTTGTCGACGACGAAGCGACAGGTGCAAGCATCGTTTTACGTGCGCTTGAAGAGCCGGTCCGCCAGATCGTCCACAACGCAGGTCTTGAAGGATCCATCATCGTTGAGCGTCTGAAAGGTGAAGAAGTCGGCGTCGGCTTCAACGCAGCCACAGGCGAATGGGTAAACATGGTTGAGCAGGGTATCGTTGACCCAACCAAAGTAACTCGTTCTGCGCTTCAAAACGCAGCTTCCGTAGCCGCTATGTTCTTGACAACTGAAGCTGTTGTAGCGGATCACCCAGAAGAAGATAACTCCGGTGGCGGTATGCCGGATATGGGTGGCATGGGCGGAATGGGCGGCATGATGTAA	MAKEIKFSEDARRSMLRGVDTLANAVKVTLGPKGRNVVLDKKFGSPLITNDGVTIAKEIELEDHFENMGAQLVSEVASKTNDVAGDGTTTATVLAQAMIREGLKNVTSGANPVGIRKGIEKATAVATEELRKISKPIEGRDSIAQVASISAADNEVGQLIAEAMERVGNDGVITIEESKGFNTELEVVEGMQFDRGYASPYMVTDQDKMEAVLEDPYILITDKKINNIQEVLPVLEQVVQQSKPLLLISEDVEGEALATLVVNKLRGTFNAVAVKAPGFGDRRKAMLEDIATLTGGQVITEDLGLELKNTTIDQLGRASKAVITKENTTIVEGAGNPEQISSRVAQIRAQSEETTSEFDKEKLQERLAKLSGGVAVIKVGAATETELKERKLRIEDALNSTRAAVEEGIVAGGGTALVNIINSVEGLGLVDDEATGASIVLRALEEPVRQIVHNAGLEGSIIVERLKGEEVGVGFNAATGEWVNMVEQGIVDPTKVTRSALQNAASVAAMFLTTEAVVADHPEEDNSGGGMPDMGGMGGMGGMM	PGPT0014570_4081	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CHAPERONE|PROTEASES,PGPT0014570-groEL|mopA-K04077	NA	NA
AK012_02992	285	groS	COG0234	10 kDa chaperonin	TTGTTAAAGCCACTTGGTGATCGTATTGTCATTGAACTAGTTGAAGAAGAGCAGACTACTGCAAGCGGAATCGTACTTCCGGATTCTGCGAAGGAAAAGCCGCTGGAAGGTAAAGTTGTTGCTGTCGGTAACGGCCGCGTAACCGAACACGGCGAGAAAGTAGCACTTGAAGTCGCAACCGGCGACCGCGTGATCTACTCCAAATTCGCAGGTACCGAAGTGAAGTATGAAGGCAGTGAATATTTGATTCTCCGCGAATCCGACGTACTTGCTGTCATTCAGTAA	MLKPLGDRIVIELVEEEQTTASGIVLPDSAKEKPLEGKVVAVGNGRVTEHGEKVALEVATGDRVIYSKFAGTEVKYEGSEYLILRESDVLAVIQ	PGPT0014565_4843	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014565-groES|mopB-K04078	NA	NA
AK012_02993	711	MroQ		Membrane-embedded CAAX protease MroQ	ATGCCCAAACGATATTGGTATATCATTTTAACTTATGTAGTGACACAGCTTTCCACGCTTGTCTTCGCTCCGCTTCTGATGGCTGCGGGATTTGAGCGGTTTGACGCGATTGCCATCTGGTCGGTCGTCAGCTTTACGATAGCGACATTGATCATTCTGCTGCTGCTCCGCCCGGAGAGACAGAATACGTACGCACGCGATGAAAAAGCCGGTGCCGGAAAAGTCATCCTCTGGTCGATCGCCGGTGTGTTTCTCGCTTTATTTGCACAGGCGATCGCCGCCACCATTGAACGTGAGGTGTTCGGTGTGCCGGCCGGTTCGGAAAATACGATGGGCTTGATGGAAATTGCCCGGGAAGCCCCGCTTTTCATTCTACTCCCTGTTGTATTCGCTCCGATTACAGAAGAGATTATTTTTCGTAAAATTATTTTTGGAGAAATTTACAAACGTACGAACTTCCTGCTTGCGGTGCTTGTTTCCGCACTCGTATTCGGTGCGTTCCACTTCGACTTCAAGCACATGTTAGTCTACTTCTCCATGGGTGTTGTATTCGCCTTCCTATACGTCAAAACAAAACGAATTATTACACCAATCGTGGCTCATATGGCGATGAACTCGTTTGTTGTCGCAACCCAGTACTTTTTGACAGAGGAAGATATCCGCCGGATGCAGGAGCAGATCGAGACGATCTTCATTGGAGGGTTATTCTAA	MPKRYWYIILTYVVTQLSTLVFAPLLMAAGFERFDAIAIWSVVSFTIATLIILLLLRPERQNTYARDEKAGAGKVILWSIAGVFLALFAQAIAATIEREVFGVPAGSENTMGLMEIAREAPLFILLPVVFAPITEEIIFRKIIFGEIYKRTNFLLAVLVSALVFGAFHFDFKHMLVYFSMGVVFAFLYVKTKRIITPIVAHMAMNSFVVATQYFLTEEDIRRMQEQIETIFIGGLF				NA	NA	NA	NA	NA
AK012_02994	198			hypothetical protein	ATGAGAACATCTCCATTATTCATGGCGCTGTTGTATTTATCCTTAGGGATTGCCTTTACGTATATTGCCGCTCAGGCAGCGGTTGAAACGATCTGGAATGCGACGACGATCATTTTGTCGCTTGTCGCCACCTTCAACATTGCCGTGGCCGTTCGTTTATACAACCTTCATAACAAAATTAAGAATACGAAGAAATAA	MRTSPLFMALLYLSLGIAFTYIAAQAAVETIWNATTIILSLVATFNIAVAVRLYNLHNKIKNTKK				NA	NA	NA	NA	NA
AK012_02995	1410	emrB		Multidrug export protein EmrB	ATGAGTAAGCTGCCGAATAAATGGCTTGTCGTCATATCGGTTCTGTTTGGAACGTTTACCGTCATCTTAAATAATAGTATGCTGAACCCAATTTTACCGCGGTTCATTGAAATCTTTGATTCCAACGCCGTAGCCGTCGGATGGATCTTAACGATCTTCATGGTCGCCATGGGGATGACGATGCCGCTGACCGGCTATTTCGGTGACCGGTTCGGGAAAAAGAAAGTCTATCTGACCGGGTTGTTTATTTTCATCCTCGGTTCGTTATCGGGCTTCTTTTCCTCCACGCTCAGCATGGTGATCATCTCCCGGGCGATCCAGGGGATGGCCGGGGGCTTGATGCTGCCGATCGCCATGGCGCTCATTTTCAATTCATTCCCGAGACATGAGCGGGGGCTCGCGGTCGGGGTATACGGGGTTGCAGCGATGGTCGCTCCGGCGATCGGTCCGACCGTCGGGGGACTGCTCATCCAGTATGTAGACTGGCCGTGGCTGTTCGCCTTCAACATTCCGTTCGGCCTGACGGGGCTGATTTTATCCGCAAAATTTCTGGAGCGGACGGAAACTCATCCGGAGAAGAAGTTCGATCTTGTCGGATTTCTTATCATTTCCTTAGGCATCGGATCCGTGTTGTTCGCGCTCGGGCGCGGGCGGACATTGGATAAATTGATGGATCCGTTGAACCTGACACTTGTGGTGGTCGGATTGTTGGCAATCGTTCTGTTCGTCTTTTACGAAAACCGTCAGGACGATCCGCTTCTCAATCTATCAGTCTTCAAGGTACCGACGTATTCTGTGTCGATCGTGGTGACTTCGGCTGCGTCGATCGGCTTGTTCTCAGGGATTTTCCTGCTGCCGCTGCTCATTCAAAATGTCTACGGCTTGAATGAAGTCATGACAGGGCTGTTGTTCCTGCCGGCGGCCGCTGCGAGCGGAGTGTTCATGTCGATCGGCGGACGGATCCTTGATAAAAAGGGGCCGAAGTATGTCGTTCCGCCGGGTCTTGCGATTATGGCCCTGGCGACGCTCGGTCTTGGGATGCTGAACCTTTCCACTCCATACTGGATGATTCTCGCCTTGAATACGGTGCGCGGTCTCGGCATGGGGATGGGGAACATGCCGGCGACGACGTCCGGGATGAATGCCATCCCTGAGCATCTGGTCGCACAGGGAAGTGCAATGAACAACATCATCCGGCAGATTTCCTCTTCGCTCGGTATTGTCTTTTTCTCTATTTATTATGAAGTCCGCCGCGCGCAGATTTCCGCAGGAGCAGATATCGATATGCAGGCGGCCACCCTGCAGACATTGAATGAAGCTTTCCTCGTGTCGGCGGTTGTGCTGCTGATTGCGCTGCCGTTTTCCTTTATTCTGAAGGGCGTTCCCGATGAAGACGAAAAACAAGCATAA	MSKLPNKWLVVISVLFGTFTVILNNSMLNPILPRFIEIFDSNAVAVGWILTIFMVAMGMTMPLTGYFGDRFGKKKVYLTGLFIFILGSLSGFFSSTLSMVIISRAIQGMAGGLMLPIAMALIFNSFPRHERGLAVGVYGVAAMVAPAIGPTVGGLLIQYVDWPWLFAFNIPFGLTGLILSAKFLERTETHPEKKFDLVGFLIISLGIGSVLFALGRGRTLDKLMDPLNLTLVVVGLLAIVLFVFYENRQDDPLLNLSVFKVPTYSVSIVVTSAASIGLFSGIFLLPLLIQNVYGLNEVMTGLLFLPAAAASGVFMSIGGRILDKKGPKYVVPPGLAIMALATLGLGMLNLSTPYWMILALNTVRGLGMGMGNMPATTSGMNAIPEHLVAQGSAMNNIIRQISSSLGIVFFSIYYEVRRAQISAGADIDMQAATLQTLNEAFLVSAVVLLIALPFSFILKGVPDEDEKQA				NA	NA	NA	NA	NA
AK012_02996	822	bacC		Dihydroanticapsin 7-dehydrogenase	ATGGGACGTTTAGATAATAAAACGGCGGTCGTTACAGGAGCCGCAACAGGAATCGGAAAAGCGACCGTGAAGCTTTTCGCACAGGAAGGCGCCCGCGTCATCTGCGCCGATGTCGATGAAGACGATGTCCGCGAAACGGTTGAAGAAATCAAAAACAATGGCGGACAGGCAGAATCGTACGCCCTGGATGTATCCGAACAGGAAAGCGTCCGCGTTTTTGCCAATTATGTAGAGGAAACGTACGGAACGATTGATGTGCTGTTCAACAACGCCGGCGTCGATGAAGAAGGCGGCAAGGTGCACGAATATCCGGTCGATTTATTCGATCAGATCATTTCCGTTGATCTTCGAGGCACCTTTTTAGTCAGTAAATATCTGCTTCCGCTCATGTTTGAAAAGGGTGGTTCGATCATCAATACATCATCCATGTCCGGACAGGCGGCTGATCTGGACCGCTCCGGCTACAACGCAGCCAAGGGCGGAATCACCAACTTTACCCGGGCGATGGCGATTGATTACGCACGCCAGGGCATCCGTGTAAATGCCGTATCCCCGGGCACGATTGAAACCCCGCTTGTGGATGAACTGGCCGGTACGAAAAAAGAAGAGGAAGGCCGTGAATTCCGGGAAGCACAGAAATGGGTGACACCGATGGGCCGCTTAGGAAAGCCGGAGGAAATCGCCTCCGCCGCCCTCTTCCTTGCTTCTGAGGAAAGCTCATTCATCACCGGCGAGGATCTTACCGTGGACGGTGGACTGACCGCCTACACGTGGCCGGGAAAAATGCTGATGGACAACAGCTGGAAAGAAACAGCTGAGTAA	MGRLDNKTAVVTGAATGIGKATVKLFAQEGARVICADVDEDDVRETVEEIKNNGGQAESYALDVSEQESVRVFANYVEETYGTIDVLFNNAGVDEEGGKVHEYPVDLFDQIISVDLRGTFLVSKYLLPLMFEKGGSIINTSSMSGQAADLDRSGYNAAKGGITNFTRAMAIDYARQGIRVNAVSPGTIETPLVDELAGTKKEEEGREFREAQKWVTPMGRLGKPEEIASAALFLASEESSFITGEDLTVDGGLTAYTWPGKMLMDNSWKETAE	PGPT0008190_43	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
AK012_02997	660	rex	COG2344	Redox-sensing transcriptional repressor Rex	ATGGATATGGAACAAGCGAAAATTCCACAGGCGACAGCCAAGCGGCTGCCCCTGTATTACCGCTTCTTGAATAACCTGCACAGTCAGGGAAAGCTGCGTGTATCATCGAAGGAGCTGAGTGAGGCGGTGAAAGTCGACTCCGCTACGATCCGACGGGACTTCTCCTACTTCGGCGCCCTCGGGAAGAAAGGATACGGATACAATGTAGAGTATCTGCTGTCCTTCTTCAGAAAGACGCTCGATCAGGATGAAACGACGAAGGTCGCCCTGATTGGTGTAGGGAACCTGGGGACGGCTTTTCTGAATTACAACTTTACGAAAAACAACAACACAAAAATCGAAATGGCCTTTGATGCCAATGAGGAGCGGGTCGGTACAGAAGTCGGCGGTGTCCAGGTGCATCACATCGATGACTTGGAAAATAAGCTCGGCGACCTTGAGGTGGCCATCTTAACGGTTCCGGCTTCCGCCGCCCAGGGCATAGCAGAACGCCTTGTGGAAGCGGGCGTAAGCGGGATTCTCAACTTCACCCCCGCGCGTATCAGTGTTCCATCGCGTGTGCGGGTGCATCATATCGATCTTGCGATTGAACTGCAGGCCCTCGTCTACTTCCTGAAGCATTACCCGCTGATGGAGGATGAGCCGCTGGATGAAGCATAA	MDMEQAKIPQATAKRLPLYYRFLNNLHSQGKLRVSSKELSEAVKVDSATIRRDFSYFGALGKKGYGYNVEYLLSFFRKTLDQDETTKVALIGVGNLGTAFLNYNFTKNNNTKIEMAFDANEERVGTEVGGVQVHHIDDLENKLGDLEVAILTVPASAAQGIAERLVEAGVSGILNFTPARISVPSRVRVHHIDLAIELQALVYFLKHYPLMEDEPLDEA				NA	NA	NA	NA	NA
AK012_02998	489	moaC	COG0315	Cyclic pyranopterin monophosphate synthase	ATGGCGGAATTTAGTCATTTCAATGAAGAAGGCCGTGCCCGGATGGTGGATATATCCGGCAAGGAAGATACCGTAAGGACGGCGGTCGCCTTCACAAGTGTAGAAGTGAACAAAGAGATTTATCATAAAATTACAGAACGGACGATGGAAAAAGGGGACGTTCTGTCTGTCTCGCAGGTGGCCGGGATTATGGCTGCCAAAAAAACACCGGACTGGATTCCGATGTGCCACCCCCTGCCATTGAAGGGTGTCGATATTTCCTTTGACTGGGAGCTTGAGGGAGAGAAACCCCGTTTGATCATCGAGGTTTCCGCCAGAACGAAGGGAAGCACAGGTGTGGAAATGGAAGCGCTCACGGCTGCCTCTGCAGCTGCGCTTACAGTGTATGACATGTGTAAAGCCGTTGATAAAGGGATGGTCATCGGACCGACGTATTTGTCGGAGAAGACCGGTGGCAAAAATGGCGACTATAAACGAACGGATCGGTAA	MAEFSHFNEEGRARMVDISGKEDTVRTAVAFTSVEVNKEIYHKITERTMEKGDVLSVSQVAGIMAAKKTPDWIPMCHPLPLKGVDISFDWELEGEKPRLIIEVSARTKGSTGVEMEALTAASAAALTVYDMCKAVDKGMVIGPTYLSEKTGGKNGDYKRTDR	PGPT0008405_2098	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008405-moaC_-K03637	NA	NA
AK012_02999	1935	yheS_1	COG0488	putative ABC transporter ATP-binding protein YheS	ATGATTCTCATGCAGCTGAATCAACTGACGAAGCGTTTCGGCGCCGAGTTGATTTTAACGAATATTAAATTGGAAATACAAAAGAATGACCGGATCGCCATCGTCGGCCGGAACGGGGCAGGAAAATCGACCCTGTTGAAAATTATGGCCCAGGAGATGAGCTACGATTCCGGAGATATGTTCAAACCGAAAGATACATCCGTCGGTTACTTGGAGCAGCATACAGGCCTGCAGTCCGATAAATCGATCTGGGATGAGATGGAGCAGGTTTTCGACCATTTGAAAGCTCTGGAAAAAGAACTCCGCTCCATGGAAGGACAGATGGCCGATCCTGCATTGATGGAAGATCAGGCGCGCTATCAGCAGCTGCTGAAGGACTACGACCGGAAGCAGGAGCAGTTCAAGACAGCGGGTGGTTATCAATATGAAGCCGATATCCGCGCCGTATTAAACGGACTCAACTTCAAGGACTTTGATTGGACTACCCCGATTTCCACATTAAGTGGTGGTCAGAAAACACGGCTGGCACTCGGGAAACTGCTGTTGACCAGTCCCGATCTTCTGATTCTTGATGAGCCGACCAACCACCTGGATATCGATACACTGAGCTGGCTGGAAAACTACCTCCAGGGCTACCCGGGAGCTGTAGTCATCGTCTCGCACGACCGCTACTTCCTGGATAAAATCGTCGATACCGTATACGAAATCGCTTTTCAATCGTCGAAGAAGTATCACGGCAGCTACAGCGAATATTTAAAGAAGAAGGAAGCCGACTTCGAGCAGGAAATGAAACGCTTTGAAAAGCAGCAGGAAGAAATCAAACGGATGGAGGACTTCATTCAGAAAAACCTCGTCCGTGCCACCACAAGTAAACGGGCCCAGAGCCGCCGTAAGCAGCTGGAGAAGATGGATAAGCTCGACAAACCGAAGGAAGACAACCTGTCCGCGAAGTTCAGCTTCCAGGCCGCCAGAAGAAGCGGCAATGATGTACTGAAGCTGAGAGACTATGCCTTCCGCTATTCGGACAGCTCGTCTTATCTATTCGATAACCTGACGCTTGATTTGAACCGCGGTGACTCTGTAGCCCTCGTTGGACCGAACGGCGTCGGAAAAACGACCCTTCTCAAAACGCTTGTCGGCGAACTGGAGGCGACGAAAGGGAAAAAGCTGATCGGCACCAACGTCCAGATCGGGTATTATGACCAGGAACAGCTGAAGCTTCAGTCAAAGAAAACCGTGCTGAACGAGCTGTGGGACGATTACCCGATGAAGAATGAAAGAGATATCCGCACCATTCTCGGCAACTTCCTGTTTTCCGGGGAGGATGTCCTGAAGCCGGTTTCCGCTTTAAGTGGTGGAGAAAAAGCACGGCTTTCCCTTGCCAAGCTGATGATGCAGGAAGCCAACTTCCTCATTCTTGATGAGCCGACCAACCACCTGGACCTGGACAGTAAAGAAGTACTGGAAGCGGCACTCGTCGACTATCCAGGCACCCTGCTGTTCGTTTCTCATGACCGTTACTTCATCAACAAGATTGCGGATCAAGTCGTGGAGATGAAGCCGGAGAATACCCGCCTGTTCCTCGGGGACTACGATTATTATGTGGAGAAGAAGCAGGAAGAATACGAACTGCAGCAGCTGGAAGAGGCTGAACGCGCCCAGGAAACAACGGCGGAAAAGCAGGCTCCTCCGAAGAACAGCTTTGAAGAAGATAAGGCGGTTAAACGTGAGGAACGCCGCAGAAACCGCCGCATCGCTGAAATTGAAAAGGAAATCGAGGAGGTAGAAGCCGCATTGGAAGAAAATGAAGAGCTTCTCTGTGATCCGGATATTTATCAGGACCACGAACGCTCCCTCGAAATTACCGAAGACAATAAAGAAAAGAATACCCGTTTAGAAGCTTTAATGGAAGAATGGGAAGCTCTTCATGAGTAA	MILMQLNQLTKRFGAELILTNIKLEIQKNDRIAIVGRNGAGKSTLLKIMAQEMSYDSGDMFKPKDTSVGYLEQHTGLQSDKSIWDEMEQVFDHLKALEKELRSMEGQMADPALMEDQARYQQLLKDYDRKQEQFKTAGGYQYEADIRAVLNGLNFKDFDWTTPISTLSGGQKTRLALGKLLLTSPDLLILDEPTNHLDIDTLSWLENYLQGYPGAVVIVSHDRYFLDKIVDTVYEIAFQSSKKYHGSYSEYLKKKEADFEQEMKRFEKQQEEIKRMEDFIQKNLVRATTSKRAQSRRKQLEKMDKLDKPKEDNLSAKFSFQAARRSGNDVLKLRDYAFRYSDSSSYLFDNLTLDLNRGDSVALVGPNGVGKTTLLKTLVGELEATKGKKLIGTNVQIGYYDQEQLKLQSKKTVLNELWDDYPMKNERDIRTILGNFLFSGEDVLKPVSALSGGEKARLSLAKLMMQEANFLILDEPTNHLDLDSKEVLEAALVDYPGTLLFVSHDRYFINKIADQVVEMKPENTRLFLGDYDYYVEKKQEEYELQQLEEAERAQETTAEKQAPPKNSFEEDKAVKREERRRNRRIAEIEKEIEEVEAALEENEELLCDPDIYQDHERSLEITEDNKEKNTRLEALMEEWEALHE				NA	NA	NA	NA	NA
AK012_03000	1044	tsaD	COG0533	tRNA N6-adenosine threonylcarbamoyltransferase	ATGAACGAAGATCAATACATTCTGGCGATCGAAACGAGTTGTGATGAAACAGCCGTTGCCGTCGTAAAAAATGAAACCGAGCTGCTGACCAACGTCGTAGCCTCACAGATTGAGAGTCATAAGCGATTTGGTGGAGTGGTCCCGGAAATCGCGTCACGTCACCACATCGAACAGATGACCATTACGCTCCAACAGGCTCTGGATGAGTCCGGCATGACAATTGATGATATGGATGCCATTGCTGTGACAGAAGGGCCGGGGTTAGTCGGTGCCCTTCTGGTCGGTGTAAATGCGGCCAAGTCGCTCGCTTTTGCGAAACAAAAGCCGCTCGTTGGCGTACACCATATTGCCGGTCATATTTATGCCAACCGTCTGGAAAAAGAATTTCAGTTCCCACTGCTGGCTCTCGTTGTCTCTGGAGGGCATACGGAGCTGGTGCTGATGCGTGAGCATGGCTCGTTTGAAATTATTGGCGAAACGCGGGATGATGCAGCAGGTGAGGCTTATGATAAAGTAGCACGCACACTGAAGCTTCCTTATCCAGGGGGGCCGCATATCGACCGTCTGGCTCATGAAGGGGAGGAAACGATCGATTTTCCACGGGCATGGCTTGAGGATGGATCCTATGATTTCAGCTTCAGTGGATTGAAATCAGCCGTCATTAACCGTCTCCATAAGGCGAAGCAGCGTGGGGAAGAGCTGAAGGCCGAGGACGTTGCGGCCAGCTTCCAGGCAAGCGTTGTCGATGTCCTATCTACGAAAGCTCTACGTGCTGCGGAGGAATACGGGGTGAAGCAGATGATCGTTGCTGGCGGGGTGGCCGCCAACAAAGGATTAAGAAAAGCGCTGGAGGAAAAATTCGAGAACAGTGAGGCAGAACTGCTCATTCCGCCTCTTCATTTATGCACGGACAATGCAGCGATGATTGCTGCGGCCGGTGCTGTGGCATTCAATCAAGGGCACCGTTCCGGATGGGATTTGAATGCCAACCCGGGACTTGATCTTGAAATGTACGGAGCAAGAAAAACAGGCTCTCCTTCCTAA	MNEDQYILAIETSCDETAVAVVKNETELLTNVVASQIESHKRFGGVVPEIASRHHIEQMTITLQQALDESGMTIDDMDAIAVTEGPGLVGALLVGVNAAKSLAFAKQKPLVGVHHIAGHIYANRLEKEFQFPLLALVVSGGHTELVLMREHGSFEIIGETRDDAAGEAYDKVARTLKLPYPGGPHIDRLAHEGEETIDFPRAWLEDGSYDFSFSGLKSAVINRLHKAKQRGEELKAEDVAASFQASVVDVLSTKALRAAEEYGVKQMIVAGGVAANKGLRKALEEKFENSEAELLIPPLHLCTDNAAMIAAAGAVAFNQGHRSGWDLNANPGLDLEMYGARKTGSPS				NA	NA	NA	NA	NA
AK012_03001	444	rimI	COG0456	[Ribosomal protein S18]-alanine N-acetyltransferase	ATGGCGTCCGTCCGGCGAATGACCATTGACGATGTCGAAGCTGTGATGCAGGTGGAAAAAGCGTCTTTTGCTGTCCCCTGGTCACAGGAAACGTTTGAAAAGGAAATGACCGACAATCCCTATTCCTTCTATTATGTAGTGGAAGAGGATGAGAAAATCATCGGGTATTGTGGGTTGTGGTTAATTATCGATGAAGCGCATATTACCAACATTGCTATTCTTCCTGAATACCGCGGGTACAAATACGGCGAACTGCTTTTCGGCCACACGTGCCGGGAAGCCGTCGAGCGGGGGGCTGTCCAGCTTTCCCTGGAAGTCCGTGTTTCCAACATGGCTGCCCAGCGTCTATACCGCAAATTCGGTCTTGTTCCCGGTGGTGTACGGAAGAGGTATTATACAGACAATGGGGAAGATGCGCTCGTTATGTGGGTGGGATTAAAATGA	MASVRRMTIDDVEAVMQVEKASFAVPWSQETFEKEMTDNPYSFYYVVEEDEKIIGYCGLWLIIDEAHITNIAILPEYRGYKYGELLFGHTCREAVERGAVQLSLEVRVSNMAAQRLYRKFGLVPGGVRKRYYTDNGEDALVMWVGLK				NA	NA	NA	NA	NA
AK012_03002	687	tsaB	COG1214	tRNA threonylcarbamoyladenosine biosynthesis protein TsaB	ATGAATATATTAGCGATCGATACCTCGAATTACGTAATGGGTGTCGCTGTTCTCAGAGACGGTGATGTAGCGGGGGAATATGTGACCCATATCAAAAAGAACCATTCCATCCGGCTGATGCCGGCCATTGACCAGGTTATGAAGGATACAGGGATGAAGCCGGAAGAACTGGACAGGATTGCTGTCGCTCACGGGCCCGGGTCCTATACTGGAGTCCGTATTGGGCTGACGACAGCCAAAACAATGGCATGGTCGCTTGGAATTCCTGTTGTCGGCGTATCCAGCCTGGAGGCAGCCGCACGTCAGGGAGCCTTTTTCCAAGGACATATCAGCCCGTTTTTCGATGCCAGACGCGGTCTTGTTTATACCGGGTTGTATGATGGAGAGATGAACCTTGTGAAAGAGGAGCGCAACATGCTGATGGAGGACTGGCTTCAGGAACTGAAAGAGTCAGGGGAACAGGTTCTCTTTATCAGCCAGGATATAGCTGTGCATAAGGAACGGATTCTTGAAGTCCTCGGTAGTCAGGCTGTCATTCCGGCTGCCCCTTACCAATTTGCAAGACCTTCATTAATTGCAGCTGCGGGTGCTGAACAGGAGCCGGGGCCGCTGCATGACCTTGTTCCGAATTATCTGCGCCTTCCAGAAGCAGAAGCGAAATGGCTGGCCCAGCAGGAGAACAAGTAA	MNILAIDTSNYVMGVAVLRDGDVAGEYVTHIKKNHSIRLMPAIDQVMKDTGMKPEELDRIAVAHGPGSYTGVRIGLTTAKTMAWSLGIPVVGVSSLEAAARQGAFFQGHISPFFDARRGLVYTGLYDGEMNLVKEERNMLMEDWLQELKESGEQVLFISQDIAVHKERILEVLGSQAVIPAAPYQFARPSLIAAAGAEQEPGPLHDLVPNYLRLPEAEAKWLAQQENK				NA	NA	NA	NA	NA
AK012_03003	456	tsaE	COG0802	tRNA threonylcarbamoyladenosine biosynthesis protein TsaE	ATGACTGCATTCGAATGGAGAAGCAGCTCAGTAGAAGAGACGAATGATATGGCTGTCCGGCTTGGAGAAAAGCTGACTGCGGGTGATGTACTCACCCTTGAAGGAGATCTAGGAGCAGGGAAGACGACGTTTACGAAGGGGCTCGGGAAAGGTCTTGGCGTGCGGCGGACGATTAACAGCCCGACCTTTACGATCATTAAGGAATATCAGGGGCGTGTGCCTTTTTATCATATGGACGTTTACCGACTGGAAGACAGCGATGAGGACCTCGGCTTTGATGAGTATTTTGACGGGCACGGGGTTACGGTTGTGGAATGGGCTCAGTTCATTGAGGAGTATCTTCCCCAAGAGCGTCTGGATATCACAATCCGGTACCTGGATGATACCGTACGCGTCTTCCACTTTGAAACAGCCTCTCCTCGATTGGAACAGGTATGTAAGGAGATTTTGTCATGA	MTAFEWRSSSVEETNDMAVRLGEKLTAGDVLTLEGDLGAGKTTFTKGLGKGLGVRRTINSPTFTIIKEYQGRVPFYHMDVYRLEDSDEDLGFDEYFDGHGVTVVEWAQFIEEYLPQERLDITIRYLDDTVRVFHFETASPRLEQVCKEILS				NA	NA	NA	NA	NA
AK012_03004	990	thiL	COG0611	Thiamine-monophosphate kinase	ATGATGGATGAGTTTTCATTTATACGTTCCATACAACCGAAGTATTACCGTCAGTCCTCGGTCATCAAGGGGATCAGTGATGATGCAGCTGTCATTCGTCCGGTGGACGGTGATTTCGTAACTGCTGTCGATACGATGGTCGAGGGTGTCCATTTCACTAAGGAAACCATGGAGCCGGAACATATCGGCTGGCGGGTGCTTGCTGCTAATTTAAGTGATCTGGCTGCGATGGGAAGTACGCCCCGTTTTTACATGGTTTCGATTACGGTTCCGAGATGCTGGTCAGAGAAAGAACTTCAATCGGTCTATCGGGGGATGAAGCAGCTGGCTGACAAATATGATGTCGACTTGATCGGCGGCGACACCGTTTCCGGAAAGGAGCTTTCGCTCACCGTGACCGTGATAGGATCTGTAGCCAAGGATAAAGCCCGCTACCGGTCCCACGCCCAATCCGGGGATCTTCTTTTTGTTACCGGTACGCTTGGAGATTCAAGGGGCGGTTTGGAATATCTGCTTTCTGGTCAAGCAGCCTGCTCCAAAGCCCATGATTATCTAATCAGGCGTCACCGTACACCGGAGCCGAGAATTACAACAGCCTCGTCTCTGACATCCTTACAAAGGATTGCTCTGAATGATGTAAGTGATGGAATCGCCAGTGAAGCCAATGAAATTGCTGAAGCTTCGCAGGTGGAAGTGATTATCAATCATGAGGCTGTTCCTTACTCTGAAGCTCTGTCAACATGTTATCCTGACCACTATCAAGCATGGATGCTCTCCGGTGGAGAAGATTTCGAACTGCTTGGCACGGTTCCAGAGAAGGACTGGCCCACTGTTGAAAAAACAGCTGAATCCGCAGGGGTCCGTGTAACCAAAATCGGTTATGTCCAGGATATGAGGTCAGCCAGCCCCTGTGTATGGCTGGATAAAGACGGAAGGCGGGAAAGACTATCGGCCTCCGGATATACACATTTAAAGGAAGAGGGTGAGTAA	MMDEFSFIRSIQPKYYRQSSVIKGISDDAAVIRPVDGDFVTAVDTMVEGVHFTKETMEPEHIGWRVLAANLSDLAAMGSTPRFYMVSITVPRCWSEKELQSVYRGMKQLADKYDVDLIGGDTVSGKELSLTVTVIGSVAKDKARYRSHAQSGDLLFVTGTLGDSRGGLEYLLSGQAACSKAHDYLIRRHRTPEPRITTASSLTSLQRIALNDVSDGIASEANEIAEASQVEVIINHEAVPYSEALSTCYPDHYQAWMLSGGEDFELLGTVPEKDWPTVEKTAESAGVRVTKIGYVQDMRSASPCVWLDKDGRRERLSASGYTHLKEEGE	PGPT0009010_1512	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
AK012_03008	249			hypothetical protein	ATGGTGAATTTAGGGGAGAATGGCGATTCTCAAAAAAAATGGTTAACTGAAAAAAGAATGTACTATTTTTTTATTTTTGGTGCACTCTTATTAATCATGAATCTTTACCGACATAGTAAAGATCCATATAACCCAGAAACCTCTCCTCCCGTGTATATCTGGTATGCTGATATTTTAATCTGTGCTACCTTTATGATAGCCCCAATAATTGGTATATTGGTGTTAAGATTAAAAAGAAACAAAAAGTGA	MVNLGENGDSQKKWLTEKRMYYFFIFGALLLIMNLYRHSKDPYNPETSPPVYIWYADILICATFMIAPIIGILVLRLKRNKK				NA	NA	NA	NA	NA
AK012_03009	492			hypothetical protein	ATGACAACTAAATACGTTAATTGGGGAGAAGCACTAGTTAAGTTAACGTGGAAGTATAATAAAGTGCTTCCTCCGAAAAGACTTATAACGAGTGTCCATGGACTTTGTTTTAAAGATGATAGGTTAATGTTAGTGAATTTAGATCACAGAGGCTGGGACTTTCCAGGAGGTCATATAGAATTTAAAGAATCTCCAGAAGAATGCATGGAGCGTGAAGCGTATGAAGAAGGATATGTTACTGGAAGGTGCTCTCTTTTAGGGTATATTGAAGTAGACCACAGTAAAAACCAATGCTGGGATGAAGATAGTCCTTACCCTAAGGTAGGTTATCAGATTTTTTATCGTATGGACATCGAACAACTACATAACTTTCAAGCCAAATATGAATCGACAGAAAGGATATTTATTAATCCAGATGAGTTCAATGAATATCATCATGATTGGAATGAATTGCACCAAGAAATATTAGATTTTGCTCTAAACCGAACTTAG	MTTKYVNWGEALVKLTWKYNKVLPPKRLITSVHGLCFKDDRLMLVNLDHRGWDFPGGHIEFKESPEECMEREAYEEGYVTGRCSLLGYIEVDHSKNQCWDEDSPYPKVGYQIFYRMDIEQLHNFQAKYESTERIFINPDEFNEYHHDWNELHQEILDFALNRT				NA	NA	NA	NA	NA
AK012_03010	177			hypothetical protein	ATGAAGCATTTAATCGGTTTGTATGTTGTTATGGCAACGATGGTATTTGTTACTTTAACAAGTGAATATATTTTCAAAGGTGATTTTTCAGCTATCGCAAGTTGGTTCATAACTATGTTATTTCTTCTTGGAACTATATTTTTTGTGAATGCAAGGTATTTTTTATCTGAAAAGTAA	MKHLIGLYVVMATMVFVTLTSEYIFKGDFSAIASWFITMLFLLGTIFFVNARYFLSEK				NA	NA	NA	NA	NA
AK012_03011	1221			hypothetical protein	ATGAAGTCTTCATCCTTTCGGTTTTTATGGATTGGGCAAGCAATGGCCAATCTTGGTGATGTGTTTTATATCGTCGGCCTAATCTCTATTATGTACACCGTTTCACAGTCAGCTTTTTACTTAGCTTTGCTCCCATTCATTAATACATTTGGACGGTTTATCAGTGGGTATCTATCACCATTATTGTTTAATAAATACCCATTAAAAACACTTTTATCTGGATCACAAAGTAGTAAAACCTTTTTATTGTTTGTTTTAGCGTCTTTGACCACAGTACAATCTAAGGGTTCCATAATGATTATCCTTTTATTTATATTCTTAATCGCCCTCCTCGATGGATGGGCAGCACCTGCTAGTCGTGCAATGCTTCCCAGGTTAGTGCATAAAGAGGAAATTGTAAAAGCGAATAGTTTCTTCTCCGTTATATCACAAATCATTCAGCTTGGGGGATGGGCTTTAGGAGGCATACTGGTAGCCTGGATCGGCGGTCAGACCGTCATATGGCTAACGTTTATTTTGTTTGTTATGTCCTCTGGCTTGATGATGCTAATTCAAGATTCAACAGAGTTTCATCTTCAAAAGGAAAAGCATCCTATCGGGGCAGTTTTAAAAGAAGGTTGGAAAATCATTTGGCACACACCTGTGTTTAGAAAAATACATGTGGTGATCTTTATTGAATCCATAGCAAATGTAGTTTGGATTGCTGCCATCATTTATGTTTTTGTTTATGAGTTTCTTCAGAAAGGGGAAGCATGGTGGGGCTATATCAATACAACTTTCTTTATGGGCCTTCTCATTGGTGGTTTGTTTTGCACGAAGTATTCCTCAATCATTGAGAAGAACTTGAGAAAATTGATGATATTTACTTCATTCAGTGTAAGCGCCGTTACTTTACTTTTTGGTTATAACAGCATCGCCTGGATGTCCTTACTGTTATCTGTCCTATATGGCATAGTTGAGCAAATTAAGTCCATAACCATGGAAACTTATCTTCAGAATGAGGCATCCTCTAATGACTTGCCAAAAATTTATGGAGCCCAAGGAGCATTAACCTCATTTACATTTGGTTTCGCTTCTTTATTGCTAGGTGGGATGGCGGACGTATTTGGTGTCCAGTGTGTTTTTCTATTTGCGGGGACTTTATTAGCAATAGCTGCTGTTTACCTTGCAGTTTCAAAACAAAGTTTCCCAATCACTTATAGCAATGATTATGAAATATAA	MKSSSFRFLWIGQAMANLGDVFYIVGLISIMYTVSQSAFYLALLPFINTFGRFISGYLSPLLFNKYPLKTLLSGSQSSKTFLLFVLASLTTVQSKGSIMIILLFIFLIALLDGWAAPASRAMLPRLVHKEEIVKANSFFSVISQIIQLGGWALGGILVAWIGGQTVIWLTFILFVMSSGLMMLIQDSTEFHLQKEKHPIGAVLKEGWKIIWHTPVFRKIHVVIFIESIANVVWIAAIIYVFVYEFLQKGEAWWGYINTTFFMGLLIGGLFCTKYSSIIEKNLRKLMIFTSFSVSAVTLLFGYNSIAWMSLLLSVLYGIVEQIKSITMETYLQNEASSNDLPKIYGAQGALTSFTFGFASLLLGGMADVFGVQCVFLFAGTLLAIAAVYLAVSKQSFPITYSNDYEI	PGPT0027965_1062	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
AK012_03012	1245	yhaP_1	COG1668	putative protein YhaP	ATGCGTAATACATGGAAAGTTGCCAAATGGGAATATAAGCGGAACGCTACAAATAAATCGTTCATCATTTCCACACTCTTGACTCCAGTCATTTTTCTATTGTTTGCCTTTCTGCCAAGTTTGTTTTCAGGGTCGGAAAGCTACAATGATTCCGAAGCAATGAAGGTATTCATACAGGACGAAGTGGGACTTGCGCCAAGGGTTGAAGCACTTGTGAATAATGAGGAGTCTATTAATTGGGAACTCGAATTTGTAGAAGAAAATAAGGAATCTGTTTTAAGTTCCATAAAGGAAGAGGAAAATCAAGCGTTTGTTTCCTTAACTGAAGATACCATTCAAAGTGGCGTCGTGAAAGTAGAAAGGAGCGAAGAAGTAACAGATTCATTCTTTACCCAGCTGCAGTTATTACGGCAGCCTATTCAAAACTACCAATTCGAACAGTTAGGTCTTACAGAATCTCAACTTCAGCAAATAACAGCTGGAGTATCGTTTGAAATATCTGAAGCAAATGCAGCAGCTTCAAGAGGTGGAGACCCAGATCAATCAAGCGCCTTTGAAGGAGAGCTCATTGTTCCCGGAATATTTGCTTTGATCGTTCTAATTGCCATCGTACTCACAGGAATGATGATTTTTCAAAGTGCGTCCCAGGAAAAGAAAGAGAAGGTTTCAGAAATTGTCTTGTCATCTATGAAGCCTAATGAATTAATGCAAGGAAAAATTATCGGATACTTTGGTCTTGGGATAAGTCAGGTGATTATCTGGTTGGGTTTCGGAGTACCTTTAGCAGCCTGGCGAATGGAGGGTGTTCCGATCCTGCAATATTTATTTGTGCCAGAACTGCTGATCATGGTGTTTATCGCGATTTTAGGATATCTTCTGTTTGCTGCCTTGTTCGTAGGATTTGGTGCTACAGTGGAAGATATCAGTTCATCAAGCAATTTTCAAGGTTTCATAATGATGATTCCTTTTCTACCTTTTGTGTTTATTGGACCAATCTTAAATAATCCTAGCGGTTTGGCAGCTACGATAGGCTCTTTTATTCCTTTCACATCCCCAGCTGTATTAATTATGAGAATGGCTATGCTTGAGGACTGGCCGTGGTTGGAAATCGGCCTTGCCCTTGTGGTACTTATGATAAGTGTATGGCTAATGATTAAACTAGCTGGAAAGATATTTGAAGTTGGTATTCTTTTGTATGGTAAGAATGCAACACCTAAAGAAATATGGAAGTGGGTAAGAGCATAG	MRNTWKVAKWEYKRNATNKSFIISTLLTPVIFLLFAFLPSLFSGSESYNDSEAMKVFIQDEVGLAPRVEALVNNEESINWELEFVEENKESVLSSIKEEENQAFVSLTEDTIQSGVVKVERSEEVTDSFFTQLQLLRQPIQNYQFEQLGLTESQLQQITAGVSFEISEANAAASRGGDPDQSSAFEGELIVPGIFALIVLIAIVLTGMMIFQSASQEKKEKVSEIVLSSMKPNELMQGKIIGYFGLGISQVIIWLGFGVPLAAWRMEGVPILQYLFVPELLIMVFIAILGYLLFAALFVGFGATVEDISSSSNFQGFIMMIPFLPFVFIGPILNNPSGLAATIGSFIPFTSPAVLIMRMAMLEDWPWLEIGLALVVLMISVWLMIKLAGKIFEVGILLYGKNATPKEIWKWVRA	PGPT0006730_3448	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK012_03013	939	btuD_4		Vitamin B12 import ATP-binding protein BtuD	ATGCAACAAACACTGCTGTCCGTTGAAAAACTCGGAAAGTCTTATAAAGATAAACAAATTGTGAAGGATATCTCTTTCAACGTTAAGAGAGGAATGGTAACCGCTATCCTTGGGCCGAATGGTGCTGGTAAATCGACGACTATTCGAAGCATAATGGGAATTATGCAGCCGGACGAAGGAAGCGTACAGTATCAAGATTATCCAAAACATGGAGTTCCACATGAGAAAGTGGGCTATTTACCTGAGGAAAGAGGTTTGTACAAAAATGTAAAAATCATGGATGTTATCCTTTACTTTGCAGATTTGAAAGATTATCCAAAAAAGAAGGCTAAATCCAGAGCAATTGATTATTTGAAGAAGTTTGGCTTGGAAGGAAAAGACAAAGTGTCGGTTGAAGAGTTATCAAAAGGGATGGCACAAAAGGCTCAGTTTATTGCTTCAATCATTCATGAACCTGAACTTTTAATTCTGGATGAGCCATTCTCTGGGCTGGATCCAGTGAGTCAAGATGTGTTTAAACAAGAGATAAGACAACTGGCTGACAATGGTACTGCTATCTTAATTTCTTCTCATCAAATGAATCTTATTGAAGAAATTGCGGATGACTTACTGCTTATACATAAGGGGAAAACAGTTGTTAAAGGAAGTATGGAAGAGGTCAAGGAACAATATTCAAATTATAAGTGTACAATTATCGGGGAAAATGAAGCTTCTCTCTTTACAAGTCTTCCATATGTGCAAAATGTTGAGAGAGATGGAAGTAAAACGGTACTATACTTGGACAAAGATGTCCATATCCCCACATGGATTAGTCACATTCCAAAGGAATCCTCTATTCAAGAAATGATGATTGATAGGATTTCCTTACACGAGATATTCGTGGGAATCGCTACAGAGAAAAATTTAATGAAGAGTGGAGGGGGAGTGAATCATGCGTAA	MQQTLLSVEKLGKSYKDKQIVKDISFNVKRGMVTAILGPNGAGKSTTIRSIMGIMQPDEGSVQYQDYPKHGVPHEKVGYLPEERGLYKNVKIMDVILYFADLKDYPKKKAKSRAIDYLKKFGLEGKDKVSVEELSKGMAQKAQFIASIIHEPELLILDEPFSGLDPVSQDVFKQEIRQLADNGTAILISSHQMNLIEEIADDLLLIHKGKTVVKGSMEEVKEQYSNYKCTIIGENEASLFTSLPYVQNVERDGSKTVLYLDKDVHIPTWISHIPKESSIQEMMIDRISLHEIFVGIATEKNLMKSGGGVNHA	PGPT0006725_7918	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_03014	528			hypothetical protein	ATGAAAAAGAAATACGTGATGTCGAGGGGTCTTGCTTTTGGAGAAGAGAAGGATATGGCGAAATTAAGATCTTACGCTAAAGAAGGGTGGGTGTTGGATCGATTCGCTCCGTTCGGTTTTTTGTTGAAAAAAGGGGAGGAGCAGGACCTGTCATTTGCGGTCGATTATAACAAGAACCCAGATGACGAATACTTCGCTTATTTCGTCCAGGCGGGCTGGACTCATGTGTGTAGTGAAGTGGATTACATACACGTGTTTTCAGCTGCGGAAGGCACCAAACCGATCTACTCAGACCGCGAGACAACACTGAGCAAATACGAAGTGGAAAAAAAGAGGACTGGCCGGGTTGCCTTGCCTTCGTTGATCGCCACGACTCTTCTGTATGTCCTAGGAAATTTGGAAAGTATTATAGGCATCATGGGAGAGGTTTTGATTTGGTCAGGCTTTCTAACAATGATCGTATTCATATTCTCGAGTATGCCGTATATAGGGTACCAATATAAATTGAGTAAATTGAAAAAAGGATGA	MKKKYVMSRGLAFGEEKDMAKLRSYAKEGWVLDRFAPFGFLLKKGEEQDLSFAVDYNKNPDDEYFAYFVQAGWTHVCSEVDYIHVFSAAEGTKPIYSDRETTLSKYEVEKKRTGRVALPSLIATTLLYVLGNLESIIGIMGEVLIWSGFLTMIVFIFSSMPYIGYQYKLSKLKKG				NA	NA	NA	NA	NA
AK012_03015	342			hypothetical protein	ATGGCGAGAAATGACTCATTAGAAACAGGTGAACTTACCGATACATCCTTTTATATTCTGCTGTCGCTTGTCGAAGCAAGGCATGGGTATTTAATTATGCAAAACATCGAAAAGCTGACAGAAGGTGGTTTTTCGATTGGTCCAGCGTCTATGTACACGACCATTAAGAAGCTGTTATCTGCTGGATTGATTGAACTGTACGGAGATGGAAAAGGAAAGCGAAAGACGTACATCGCCACTATCATGGGACTCCAGATGTTGGAAAAAGATATTCAAAGAAGAGAACGCATGATTGTACATGCGAAACAAGTATTGAATCAGAAAGGTGACAAATCAGGATGA	MARNDSLETGELTDTSFYILLSLVEARHGYLIMQNIEKLTEGGFSIGPASMYTTIKKLLSAGLIELYGDGKGKRKTYIATIMGLQMLEKDIQRRERMIVHAKQVLNQKGDKSG				NA	NA	NA	NA	NA
AK012_03016	792	psd	COG0688	Phosphatidylserine decarboxylase proenzyme	GTGAAAAAGCATTTGTATCGGAGTATTATTAGTTTCTTTAATTCTCAATGGATCGGAAAGTTTATTCAAAGAGCTAGTCGTTCTCCTCTCAGTAGATGGCTCATTCTGCCATTCGTGAAAGTCCTGAAGGTCCAAACTGATGAATTAGACAAAAATATAGAAGAATTTTCTTCATTAGAAGATTTTTTTGTTAGGAAACTGAGGTCAGGTGCACGACCTGTAAAGGAAGGTAAGAAAGAAATTGTAAGTCCTGTCGATGCTAAAGTAGAGCAATTAGGTGAGATAAAGGGTGCTGCATTTAAGATAAAAGGAATCTCTTATTCAATTAATGATCTATTAGAGAATAAAGTAATGATAGAACGGTTTCAAAATGGTTTATTTATTGTTCTTTATCTTAGTCCGCGAGATTATCATCGCATCCATTCTCCCGTAGATGCTGTCGTTACCAACCAGTATGAGCTTGGAGGAAAGTCTACCCCTGTTAATAAGTGGGGTTTGGCTTTAGGGAACTCTCCAATTTCAACGAATTACCGAATTATTACGGAATTAAAACAAGAAGATGGGATGTATATTGCTCTCGTAAAGGTAGGGGCAATGTGGGTTAACACTATTCAACTCTCTCATTCCACTTCGCTCCTAAAAAAAGGGGAAGAAGTTGGCTTCTTTAACTTTGGTTCTACCGTTGTTCTATTGTTCGAAAAAGGAAAGGTTAGTCTCAATGAAAAGTTAAATCGCGAATCCTTTATTAAAGCTGGTGAGCCTTTGGCGAATAAAATAAATGTTAAATTTTAG	MKKHLYRSIISFFNSQWIGKFIQRASRSPLSRWLILPFVKVLKVQTDELDKNIEEFSSLEDFFVRKLRSGARPVKEGKKEIVSPVDAKVEQLGEIKGAAFKIKGISYSINDLLENKVMIERFQNGLFIVLYLSPRDYHRIHSPVDAVVTNQYELGGKSTPVNKWGLALGNSPISTNYRIITELKQEDGMYIALVKVGAMWVNTIQLSHSTSLLKKGEEVGFFNFGSTVVLLFEKGKVSLNEKLNRESFIKAGEPLANKINVKF	PGPT0007700_3081	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROPHOSPHOLIPID_REMODELLING	CE-REMODELLING_GPL_DECARBOXYLASE_ACTIVITY,PGPT0007700-psd|PISD-K01613	NA	NA
AK012_03017	183			hypothetical protein	ATGATACATAGAAAATTATTTTGGCTGGGATTCTTAATGTTTGCAGCTGGAGGTCTAGCTTTAGCTATTATGGATAATGAACTAAATGGAAGTAATCTTTTTTCTTATATTATTGCTACTATTGGGTTGCTTATTGCGGGAATATCTAAAATTGTAGAAAATAAACACTCGCCCAATAAATAG	MIHRKLFWLGFLMFAAGGLALAIMDNELNGSNLFSYIIATIGLLIAGISKIVENKHSPNK				NA	NA	NA	NA	NA
AK012_03018	216			hypothetical protein	ATGATTGGAAAGGGTAAAACCACAATAGGAAAATGGCTTGCTTACTTAGGTTTATGGATTTTTGCAGCTGGATTTGCATTTAGTGAAATCATCAATGGTAGCGATGATATGCCAAGTTTATTAGTGTCTGCTTCAATTCCTATGATGGTAATAGGAGTATTGATGATAATTACATCAAATTTCTTTAGGAAGAAAAGCTCAGAATATAGAAATTGA	MIGKGKTTIGKWLAYLGLWIFAAGFAFSEIINGSDDMPSLLVSASIPMMVIGVLMIITSNFFRKKSSEYRN				NA	NA	NA	NA	NA
AK012_03019	519			hypothetical protein	ATGATTACAATAAGAAACGCCATAATGAGCGACGCTGCCGGCATCCGAGAGGTCTGCATCAAAGGAAATCAGAACACGTACGCATCGATTTACAGCGAGGATTACTTACAGACCGTCATCGATGAATTTTATAACCTGGACCGTATCAAAAAGGAGATTGTTCCGTCAGGACGGGACTGGAGCGGCTACATAACCGCTCTTGAACACGACAGAGTGGTCGGTGCGATTGGAGGCGGGATGATCGGTGAGAAGGCCGGCGAAATCTATGTCCTATATCTCGATCCGGATTACAGAGGCCGGGGAATCGGTACAAAGCTGCTGGAAGCCTTGACGAAGCAGCAGAAGGAGCTTTATGGAGCGGAGGAGCAATGGGTATCGGTGCAGAAAGGCAACGAGAAGGGCATTCCTTTTTATGAAGCGAGAGGATTTGTTTTTCAAAAGGACCGGCCGGGTTATGGGGAAAGTAAGGGGGCTGCTTCATATATTTCTCTCCGTTACAAGCGGAGGCTTCTGTCTTAA	MITIRNAIMSDAAGIREVCIKGNQNTYASIYSEDYLQTVIDEFYNLDRIKKEIVPSGRDWSGYITALEHDRVVGAIGGGMIGEKAGEIYVLYLDPDYRGRGIGTKLLEALTKQQKELYGAEEQWVSVQKGNEKGIPFYEARGFVFQKDRPGYGESKGAASYISLRYKRRLLS				NA	NA	NA	NA	NA
AK012_03020	348			hypothetical protein	TTGCCGAAACTATGGATCCACCTGGAAGGATTCCTCATCTTCGTTCTGTCCTTGTATTTCTACATGACCACCGGCTATTCACTCTGGCTGTTTTTCCTTCTGCTTCTCGTTCCGGATGTGTTTATGCTCGGTTACATCATCAATACCAGGGCGGGTGCTGTGATTTACAACATCGGTCACACCTATGTGCTGCCGGGACTTGTACTGTGCTGCAGTCTATATTTCCAGTGGGAGCTTATACATGCGCTTGCACTGATCTGGACGGCTCACATTGGAATGGATCGAACCATCGGCTACGGTTTAAAGTATGGGACAGATTTTAAACATACCCATCAACAGAGAATTTAG	MPKLWIHLEGFLIFVLSLYFYMTTGYSLWLFFLLLLVPDVFMLGYIINTRAGAVIYNIGHTYVLPGLVLCCSLYFQWELIHALALIWTAHIGMDRTIGYGLKYGTDFKHTHQQRI				NA	NA	NA	NA	NA
AK012_03021	249			hypothetical protein	ATGGACGTGATGAAGACGACCCAGCCCCGCCTCGATGCCCACACCTATGAAAGCACCGAACAATTCATCAGGATGATCACCACCTCAGACACATCGAAAAGCTGCATGATTAAAGATAGAGAGACATCAGAGGCCGTCAGAATCACTCCGCTCCATAAAAACAGGCATGCTTTTAATGGACGCGCAGTCCGGTTGTATGAGCATACAGGCTTTATAACAGAACGCTGCCTCAAAGAGGAACTGTTCTGA	MDVMKTTQPRLDAHTYESTEQFIRMITTSDTSKSCMIKDRETSEAVRITPLHKNRHAFNGRAVRLYEHTGFITERCLKEELF				NA	NA	NA	NA	NA
AK012_03022	273			hypothetical protein	ATGGAAAAGATGCTGGATTTGTGGCTGGATGAAAAAGAGAAATACGGAATTGCCAAAATGACTCACCATGTTTTCGGTGTTTCCTATCATCCGCTCCGCCGCATAGGAAATGGAAAGTACACCGTCATTAATCAACTCTGGTATACGACGTATAACGGTGCCAGGCAGTATTTCCGTCAGTTCACGAACATTGATTTTGCATCCGGCCGGATGAGAAAAGCAGGACACGGAAATGTACGGATGAAAAATGGCCGCATCCGATTTCCTGCCTGA	MEKMLDLWLDEKEKYGIAKMTHHVFGVSYHPLRRIGNGKYTVINQLWYTTYNGARQYFRQFTNIDFASGRMRKAGHGNVRMKNGRIRFPA				NA	NA	NA	NA	NA
AK012_03023	1476	dacC	COG2027	D-alanyl-D-alanine carboxypeptidase DacC	ATGAAAAGAGGATCCCAAACTGCTGTCCTGTTGTTGATGAGTCTCGTCTTGTTTTTTCCATTTCAGCCTGTAAAGACAGAAGTAACCGCTTCTCTGGATCATGAAAAACTGGTCGATCAGATGAACCTGCTGTTGAGCGATGAAAAATTGGATGGGGCGTTAAGTGGTATCAGCATACGTGCTGCTGATACCGGGGAAGTGCTGTATGAACACGACGCCCATGACCGGTTGAAGCCGGCGTCCAACATGAAGCTGTTGACCGGTGCGGCTGCTATGGATAAGCTCGGGGCTGATTACACGTTTGATACCGAAGTGTTTTCAGAAGGAAAAGTGAGGGGCGGGAACCTTCATGGCGACCTTTATTTAAAAGGAAACGGAGATCCGACGCTGCTGTACGAGGATTTTCAGGATCTTGCCCAACAGGTGAAGGACAGCGGGATCAGGAGGGTCAAAGGAACCTTGATTGCGGATGACACGTGGTATGATGATATCCGCCTGTCGGAGGACATTTCCTGGAATGATGAAAGCCGGTACTATGCCTCTCAGATTTCCGCCCTGACTGCCGCCCCGAACGAAGACTATGATGCCGGCACGGTCATTGTGGCTGCCTACCCAGCGGAGAAGGAAGGGGAAGAGGCCGTTGTCGAAGTGACGCCGGAAACCGACTACGTTAAGATTACCAATCAAACGAAGACGGTAGCGGAAGACGGTGAGAAGGATGTCACGATTGAACGGAAACACGGCACCAATGAGATTATCGTTGAAGGGACCATTCCGCTTGAAGGCAGCCGTTCCCGCTCCTGGGTGGCGGTCGATGAGCCGTCCGGACTTGCGCTCGACCTTTTTCGAAGAGCATTGGAGGAAGCCGGCATAAAGATGAAAGGAAAGATGATGTACGCTGAAACGCCGGAGAAAGCCGACCTTGTTGCATCCCATACATCGATGCCGCTTGAGGACTTGTTCATCCCGTTCATGAAGCTGAGTAATAACGGTCACGCTGAGGTATTGATCAAGGAAATGGGGCGGGTCGTTCACGATGAAGGCAGCTGGGATAAAGGGCTGGATGTCGTAGAAGAGTATTTGGGGACGATTGATGTGGATGCAGATACGATGCGGCTGCGCGATGGCTCCGGCATGTCTCATGTCAACATGGTCCCGGCTGATGAAATTTCCGAACTCTTATATCACGTCCAGCAGGAACCATGGTATGAGGCATTCTATGCATCGCTTCCTGTGGCAGGGGAGGAAGAACGTTTCGTTGGCGGGACATTAAGGAACCGGATGCAGGATACAGCGGCTGAAGGAAATGTCCATGCCAAGACAGGATCCTTGACTGGAGTGACCTCGCTTTCCGGCTATGTGACGACGAAAGATGGAGAGGAATTGATTTTCTCCATTCTATTGAATAACTACTTAGGTTCCGTCCAGGAAATTGAGGATAAGCTGGCCGTAACCCTTGCCGAATATGAGGAGTGA	MKRGSQTAVLLLMSLVLFFPFQPVKTEVTASLDHEKLVDQMNLLLSDEKLDGALSGISIRAADTGEVLYEHDAHDRLKPASNMKLLTGAAAMDKLGADYTFDTEVFSEGKVRGGNLHGDLYLKGNGDPTLLYEDFQDLAQQVKDSGIRRVKGTLIADDTWYDDIRLSEDISWNDESRYYASQISALTAAPNEDYDAGTVIVAAYPAEKEGEEAVVEVTPETDYVKITNQTKTVAEDGEKDVTIERKHGTNEIIVEGTIPLEGSRSRSWVAVDEPSGLALDLFRRALEEAGIKMKGKMMYAETPEKADLVASHTSMPLEDLFIPFMKLSNNGHAEVLIKEMGRVVHDEGSWDKGLDVVEEYLGTIDVDADTMRLRDGSGMSHVNMVPADEISELLYHVQQEPWYEAFYASLPVAGEEERFVGGTLRNRMQDTAAEGNVHAKTGSLTGVTSLSGYVTTKDGEELIFSILLNNYLGSVQEIEDKLAVTLAEYEE	PGPT0024035_733	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024035-dacB-K07259	NA	NA
AK012_03024	513			hypothetical protein	ATGAGGAAGGTGGAGGTTGTTGCTTATGACCGGAACTGGCACGGTTTATTTGAGCAGGAGCGAAAGCGGTTGGAAAAGATCTTCGGATCGGTGCTCATCAACGTTCATCACATCGGCAGTACAGCCGTTCCCGGACTCGCTGCCAAGCCTGTCATCGATCTTCTTCCCGTGGTCAGCGATCTGACTGCAGTGGATGCGGTGACGGCGGAGATGGTGGAGGCCGGTTATGAACCCAAAGGTGAAAACGGCCTGCCTGGACGACGTTTTTTTCAAAAGGGTGGGAAGAACCGAACTCATCACGTCCACGTATTTGAAGCAGGGAGTCCTGAAATCAAACGTCATCTCGTGTTCCGGGATTATCTGCGTACACATGACGAGGAGCGGGGTGCTTATGGTCGGTTGAAGATCCAGCTGGCGGAGGAGCATCCTTATGATATGGACGCGTATATAAAAGGGAAGCATGGGTGTGTCCGTCGGCTGGAACAAGCGGCATGGGATTGGTCTTGTCCATGA	MRKVEVVAYDRNWHGLFEQERKRLEKIFGSVLINVHHIGSTAVPGLAAKPVIDLLPVVSDLTAVDAVTAEMVEAGYEPKGENGLPGRRFFQKGGKNRTHHVHVFEAGSPEIKRHLVFRDYLRTHDEERGAYGRLKIQLAEEHPYDMDAYIKGKHGCVRRLEQAAWDWSCP				NA	NA	NA	NA	NA
AK012_03025	666	hchA_2		Protein/nucleic acid deglycase HchA	ATGAGCAAAAAAGTTCTAATGGTAGTAACCAATCATACAAAAATTACAGACGATCATAAAACCGGCCTGTGGCTTGAGGAGTATGCCGTTCCATACAACGCTTTCAAAGAGCAGGGCTATGATGTAAAAGTAACAAGCATCCAGGGCGGCGAGGTTCCACTGGATCCAAACAGTATCCCTGAAGAAGAAGTGAAGGAATGGGCGGAAGCGCAGGAGCAGCTGAAGGATACAGCGAAGCTTTCCAAAGAAGATGCCAACGGATTTGACGGTATTTTCCTTCCAGGCGGACACGGCACGATGTTCGACTTCCCTGAAAACGAAACACTTCAATATGTCCTGCAGCAGCATGCGGAACAGAACAACGTCATCGGCTCTGTCTGCCACGGTCCAAGTGGTCTTGTTAACGCGACCTATGAAAACGGCACACCGATTGTCAGCGGCAGAAAAGTGACCGGCTTCACAGACTCCGAAGAAATCGGTATGGGCCTTGATGTGCATATGCCGTTCATGCTGGAAACAGAACTGCGCAACAAAGGCGGCGAATTTTCCAAAGGCGATGACTGGAGTGCGTACGCGGTCCGCGACGGCAATCTGGTGACCGGTCAGAATCCGATGTCCAGTGAAAAAGCGGCTGAGAAAATGGTGGAAGCCTTAAAAGAAAACTAA	MSKKVLMVVTNHTKITDDHKTGLWLEEYAVPYNAFKEQGYDVKVTSIQGGEVPLDPNSIPEEEVKEWAEAQEQLKDTAKLSKEDANGFDGIFLPGGHGTMFDFPENETLQYVLQQHAEQNNVIGSVCHGPSGLVNATYENGTPIVSGRKVTGFTDSEEIGMGLDVHMPFMLETELRNKGGEFSKGDDWSAYAVRDGNLVTGQNPMSSEKAAEKMVEALKEN				NA	NA	NA	NA	NA
AK012_03026	2436		COG2199	putative signaling protein	TTGGAAATGACAGGTTCCTATCATACATGGTTAGTAATTTTATCGATTGTTGTCGCTGTGGCTGCTTCCTTCGCTTCCTTGACGATCGTGGAACGGTTGAAAAAAGCAGCAGGACCGGCGAAATGGAAATGGGTATCGGCTGGAGCGCTTACTCTCGGGGGCGGCATATGGGCCATGCATTTTGTAGCGATGCTGGCTTATGATATTGGCATGCCGGTCCGTTACGATGCGTGGCTTCTGACGTGGAGCATTCTATCCTCAGCCGGCGCCAGTTTTCTGGCCTTTTATTTAATGAGCCGCGGATTGAAAAAGCGGATCGACGCCGCTGTTGGATCGATTTTCATCGGGGTCGGCATCCTTTCTATGCACTTCGTCGGCATGGAAGCCATGGTCATGGAGGCCGGGACCCGGTATGACGCCCTGCTTGTCACAGCTTCAGCCGTCATTGCCTTTGCATCTTCCTTTACGGCTTTAATTGTCTTGAAGGGTTTTATGAATCATCCAAGAAGGCTGCAGCGCTTTAAAATCGGGGCCTCCTTCGTTCTCGGAGCCGGGATCAGCGGGATGCATTATACCGGGATGGCATCGGCAAGCTTTTATCCTGTGGAAACGGCGGCTCCAACAAATCCTTTTATTGATCCGATACCGCTTGGGTATTTGGTGACCGTCGGGGTTTTTCTGTTGATGGGATGGTTTGTGCTTCTTAACCGTTACGATTCAAAAGTGGAAGAGCACAGCAGTCATATGCTGTTTATGGATAACCTGTATCAGTCGATTGTGGAATCGGCGAACGATGCGGTCATCACCATGAACCAGGAGGGGAAGATTCTTGCCTGGAATCAGGCGGCGGTCGATACCTTTGGGTTCACCCATAAGGAAGCCGTCGGTCAGTTGATCAATATTGTCATTCCCCCGTCCTTTTACGAGACATATCCGGAAGGAGCTGCCATCTCTTTGAAAAAAGGCGCCGCACGTGTACTTGGTCAGACTATGGAGCTGGAGGGCATGCACGCATCGGGACGGGTGTTTCCGGTGGAACTATCCTTATCCTCCACCGCCAATGACGAGCAGACGTACTATACAGGGATCATCCGGGATATTACCGACCGGGTCCAGCAGCAGGAACGAATCAATGAGCTTGTATATAAAGATGAACTGACCCATCTTCCGAACCGGAGGATGCTGAATAATCATATGGAGAACGTGCTCATGCAGGCCCGCAGAAACGACGAGGAAGCGGGCATTTTGTTTCTGGATCTCGATCGTTTTAAACAGATCAACGATGTGTATGGACATAAAACAGGGGATGCTTTATTGAAGCTGGTGACAGAGAGGCTGCAGATATGCACAGGACCGCACGATTTTACAGCGAGGCAGAGCGGGGATGAATTCATCCTGGTTTTGAGAGAAACAAGTTCCTATAAAGCCGGGATGGCGGCGAGTCAGCTGCTGGACGCTCTCCGGGAGCCCTTTATGATTGATGATGTGGAATTATTCGTAACGCCGTCGATCGGGATCAGTCTCTACCCTCAGGATGGTCAGGAGGCGGAGGAGCTGATTAAATTTGCAGATACGGCGATGTATCAAGCCAAACAGGAGGGCGGCAACCAATATCAATTTTTTACCATGGAGATTAATGAAACCATATCCAGGAAGATGACGCTGGAAACCGGCCTCCGGAAAGCAGCCGGACTTGGAGAGATTGAGATTTATTACCAGCCTCAGGTTGTCATCGGGACCGGGGATGTAAAAAGCTTTGAAGCACTCGTCCGTTGGAACCACCAGGAGCTGGGGATTGTCTCCCCGCTTGATTTTATCCCGCTCGCTGAAGAGACGAAGCTGATCATTCCACTTGGGAAATGGATCCTTCATAAAGCCTGCACCCAGTTCAAGGCATGGCTGGATGAAGGACATGACCTTTGTCATATCTCCGTCAACATTTCCGCCGTCCAGTTCGAAGACCCGGGCTTTGTAGATTCAGTCAAACAGGTGCTGAACGAAACCGGCCTTGAGCCTCGCTATCTCGATCTTGAGCTGACGGAAAGCGTTGTACAGAACCCTCAGACAGCAATTCCTTTTATGCATGAGCTGAAAGCGATGGGGATAAAAATTTCCCTTGATGATTTCGGCACCGGGTATTCCTCCTTGAACTATTTGAAGGACTTCCCGCTTGATACATTGAAGATTGATAAGTCATTCATTCAGACGATCCATCAAAGTCCAAAAGATATGGCGGTTGTCGATACGATTATCCATATGGCTCTCAACCTGAATTTGAATGTCATCGCCGAGGGCGTGGAAACCCCGTCCCAGCTGGATTATTTAGTGTCGAGGAAATGCCATCAATACCAGGGGTACCTGTGCAGTGCCCCGGTACCGCATGATCAGATTTCCACCCGGTTTTTTCAGCCGGTGAAAGGAGCACCCCGGATATAA	MEMTGSYHTWLVILSIVVAVAASFASLTIVERLKKAAGPAKWKWVSAGALTLGGGIWAMHFVAMLAYDIGMPVRYDAWLLTWSILSSAGASFLAFYLMSRGLKKRIDAAVGSIFIGVGILSMHFVGMEAMVMEAGTRYDALLVTASAVIAFASSFTALIVLKGFMNHPRRLQRFKIGASFVLGAGISGMHYTGMASASFYPVETAAPTNPFIDPIPLGYLVTVGVFLLMGWFVLLNRYDSKVEEHSSHMLFMDNLYQSIVESANDAVITMNQEGKILAWNQAAVDTFGFTHKEAVGQLINIVIPPSFYETYPEGAAISLKKGAARVLGQTMELEGMHASGRVFPVELSLSSTANDEQTYYTGIIRDITDRVQQQERINELVYKDELTHLPNRRMLNNHMENVLMQARRNDEEAGILFLDLDRFKQINDVYGHKTGDALLKLVTERLQICTGPHDFTARQSGDEFILVLRETSSYKAGMAASQLLDALREPFMIDDVELFVTPSIGISLYPQDGQEAEELIKFADTAMYQAKQEGGNQYQFFTMEINETISRKMTLETGLRKAAGLGEIEIYYQPQVVIGTGDVKSFEALVRWNHQELGIVSPLDFIPLAEETKLIIPLGKWILHKACTQFKAWLDEGHDLCHISVNISAVQFEDPGFVDSVKQVLNETGLEPRYLDLELTESVVQNPQTAIPFMHELKAMGIKISLDDFGTGYSSLNYLKDFPLDTLKIDKSFIQTIHQSPKDMAVVDTIIHMALNLNLNVIAEGVETPSQLDYLVSRKCHQYQGYLCSAPVPHDQISTRFFQPVKGAPRI	PGPT0026010_283	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCAN_METABOLISM	CE-EPS-GALACTOGLUCAN_METABOLIC_PATHWAY,PGPT0026010-mucR-K21023	NA	NA
AK012_03027	1041			hypothetical protein	TTGGCGGTCGTCCTGTTACTCACAGCCGTCATCCTGCTGCGCTGGGTATTGACCGGCCTTGTGAAACGCCTGTTTTCCAGCCGTCCACGTGCGGAAAAAGCTTTTCTATCTTTAATCAATTGGTTTTCCTACAATGGGATCCTCGTTTTTATCATTTTTTATTTTGCCGATTCCAAATGGCTTTTCTACGAGCTTGTCCCTGTAGAAAGTGTGGATGTCACCCTTTTTCTCATTATCGTGGCGCTTCTTATACTGACGTTCGCCTTCCGGATCTCCCGGATTTTGAACAGGTACATCTTTCCATTCTTCTATGACCGGCACCAACTGGATAGAGGGACCCGGTTTACGATGGAATGTATCATCCATTATGTCATCATGATCGTCGCGTTTTATGTCAGTTTGACGACAGTCGGCATTGATCTCAGTGCCCTCGCTGTCTTTGCAGGAGTGCTCGGCGTCGGGATTGGTTTTGGTATGCAGAACATCGCCTCCAACTTTATCTCCGGACTGATCCTTCTATTTGAACGGCCCATTAAAGTGGGCGACCGTGTCCTCATCGACGATGTCGTCGGTGATGTACAGAGGATCAGCATGCGGGCGACGATTGTCAGGACGATTGAAAATGAGCACATCATCATTCCAAATTCGTATTTTCTTGAGGAAAAAGTGGTGAACCGCTCCTTTACCGATCCACGCCTTCGTTTAACCATTCCGGTCGGAGTCGCCTACGGATCCGATGTGGAAAAAGTAAAAGCCGCCCTCCTGCAGGTGGCAGCGGAAGCGCATGAAGCAAATGCGTATGTCCTTCATGATCCAAATCCGTTCGTGAACTTTAAAGGCTTCGGGGATTCCTCTCTCGACTTTGAGCTGTTCATCTGGATATCCAAGCCCGAGGATTTCATTCCGATTAAAAGTGAGCTTAACTTCAGCATTTATGCGGCCTTCAGCCGTGAAAATATTGAAATCCCATTTCCGCAGCGCGATCTACATATCAAATCGAATCCAGCCGGAGTATGGAACGACAAAGAAGGGCAGCCTTAA	MAVVLLLTAVILLRWVLTGLVKRLFSSRPRAEKAFLSLINWFSYNGILVFIIFYFADSKWLFYELVPVESVDVTLFLIIVALLILTFAFRISRILNRYIFPFFYDRHQLDRGTRFTMECIIHYVIMIVAFYVSLTTVGIDLSALAVFAGVLGVGIGFGMQNIASNFISGLILLFERPIKVGDRVLIDDVVGDVQRISMRATIVRTIENEHIIIPNSYFLEEKVVNRSFTDPRLRLTIPVGVAYGSDVEKVKAALLQVAAEAHEANAYVLHDPNPFVNFKGFGDSSLDFELFIWISKPEDFIPIKSELNFSIYAAFSRENIEIPFPQRDLHIKSNPAGVWNDKEGQP	PGPT0013825_1724	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0013825-mscK|kefA|aefA-K05802	NA	NA
AK012_03028	183			hypothetical protein	ATGTCTGAAGAGCTTATTTTTCTGTTGATTACTGCATCGATGGTTATTTGGATTGCCGTTTCGATGGAGCTGATGAAGCCAAGACAGCAGATAAACAAGCGGAAAATCATTCCCTTACTTTCTGCTGGATCTCTAACGACCATCCTCATCACTATGAAGCTTATACAAAACGTGATGAGTTAG	MSEELIFLLITASMVIWIAVSMELMKPRQQINKRKIIPLLSAGSLTTILITMKLIQNVMS				NA	NA	NA	NA	NA
AK012_03029	528			hypothetical protein	ATGTGGTCGAGTCCGCGAATTCAGTTTAGATCTTATAGAGAAGAGGATTTCCCTTTCCTTTACGGGATGCTGGCCGATGCAGAGATGATGACGTTTATAGGAAATGGAACAGTAAAAACAAAGAAGGAAGCCTTGAACTTCCTTCACTGGATCTACAGCCATGAGGAAACAGATCCGGATCTCGGCTTAAAGGTTCTGGTAGAAAAGGAGAGTGGGGAACGTATCGGGCATGCCGGCCTGGTCCCTCAACAGGTTGACAGAAAAGAAGAGGTGGAAATCGGTTATTGGATTATCAACGAGTTCCAAGGACGGGGATATGCAAAGGAGGCGGCAGCTTTTTTACTGAGATATGCGAGGGAGTACCGATATGAGGAACGATATATCTCCCTCATACAGCCGGACAATAAAGCTTCTGTCCAAATTGCCCGTTCTATAGGTATGCAGAGGTTGAAGCGGTTGCTTATGAACGAGGGAGAGGTAGACGTGTATATAGTGAAAGGGCATGATCAAAGTTGTGCGAACGAATAG	MWSSPRIQFRSYREEDFPFLYGMLADAEMMTFIGNGTVKTKKEALNFLHWIYSHEETDPDLGLKVLVEKESGERIGHAGLVPQQVDRKEEVEIGYWIINEFQGRGYAKEAAAFLLRYAREYRYEERYISLIQPDNKASVQIARSIGMQRLKRLLMNEGEVDVYIVKGHDQSCANE				NA	NA	NA	NA	NA
AK012_03030	1458	gerBA_1		Spore germination protein B1	ATGAAGGGGATGCTTATGAAAGATTTTACAGAAGATGTACGTGTCATTGAAATACAGCGATCGTTTGGAAACAGCTCAGACATCAAAATCCGGCCGTTCCAACATCCCCGTTCTCCATTCAGAGGGGGACTTATTTACATAGATGGGATTGTGGATACGTCGGTGATTGAGAAACATATCCTCCATCCCCTCTTAGATGAACAGCACAAAAAAAGTGGCACACATGATATTGAAAAAGCATTGGAAACAGCCGTCGTGGAAGTGGTTCCCTTTTCTTCCTGCAAGGAAAAGCTTGTCAATGGCTGGACCCTCATCCTCCTGGAGGACAGCGATCAAGTGATTGCGGCGGATACGGCTCAATGGAAAGAGCGCTCCCTTACAAGACCTAAAGGGCAGCGGACCGTGGAAGGGCCGGATGTCGGGTTTAATGAAAGTATGAAAAGCAATGCGGCCCTTATAAGAAAGATTGTTAAAAACCCGATGCTCCGTGTGGAGACGGACACATATGGTAGTGTCACTCAAACTTCCGTGTCCCTTGTGTATATCGAATCCAAAGTGGATCAGGAGATACTTCAGGAGATCAGGGGAAAACTTTCCAATCTTTCCATGGACTCTATCCTGGATTCGAACTTCATAGCTGAGCACCTGACAAAAGAATCCAAATCATTTTTTCCATTGATCATCAACACGGAACGACCCGACGCCGCTGCTGCTCAGGTGATCGGCGGCAGAGTGTGCATTCTCGTCGACGGTTCTCCCTATGCCCTTATTGCACCTGCTGAATTGTTGCAGTTCTTCCATACGGCGGAGGATTATTATATTCAAAACCGCTTTTCCCCCCTTCTCCGTCCACTGCGCATTCTGTTTTTTTGGCTGTCTCTTTATATTCCTGGTCTTTATGTCGCATTTACAACGTTTCATGCAGGCATTCTGCCCGATAACCTCCTTGTCGGCTTTGTCGCTCAGAGGCAGGTGGTCCCTCTGCCGACATTTCTGGAAGTCGTAATCGTCAACTGGCTGATTGAAGCTATATACGAAGGTTCCAACCGGCTGCCGCAGAGTGTCGTTCTTACGATTTCCATTTTCGGAGCGATCGTATTCGGACAATCGGCCGTGGAAGCGCAGCTGATTCAGCCGATCACCCTTGTCGTATTGAGTGCATCATTCATACTATCAAGCATCGTTCCTTCAGCCGCCTTGAACTATGCGACACGGTTTCTGCGTCTCACTCTCATTTTAATCAGCGCTCTCCTCGGCTTATATGGACTGGCGCTGGCTACGCTGGTCCTGCTTGTCCATCTCTGTTCTCTTAAAAGCTTCCAAGTCCCTTATCTGTCTCCGATGGCCCCTTTCACTCGGAAAGACCAGAAAGATACCATCATCAGACAGTCGATGCCTAAAATCAATCCAGCAGAAGTGCATTTCACCAAAGAAGAGGATCCATCCTCAAAACGTTGA	MKGMLMKDFTEDVRVIEIQRSFGNSSDIKIRPFQHPRSPFRGGLIYIDGIVDTSVIEKHILHPLLDEQHKKSGTHDIEKALETAVVEVVPFSSCKEKLVNGWTLILLEDSDQVIAADTAQWKERSLTRPKGQRTVEGPDVGFNESMKSNAALIRKIVKNPMLRVETDTYGSVTQTSVSLVYIESKVDQEILQEIRGKLSNLSMDSILDSNFIAEHLTKESKSFFPLIINTERPDAAAAQVIGGRVCILVDGSPYALIAPAELLQFFHTAEDYYIQNRFSPLLRPLRILFFWLSLYIPGLYVAFTTFHAGILPDNLLVGFVAQRQVVPLPTFLEVVIVNWLIEAIYEGSNRLPQSVVLTISIFGAIVFGQSAVEAQLIQPITLVVLSASFILSSIVPSAALNYATRFLRLTLILISALLGLYGLALATLVLLVHLCSLKSFQVPYLSPMAPFTRKDQKDTIIRQSMPKINPAEVHFTKEEDPSSKR	PGPT0025050_975	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK012_03031	1182	gerBC_1		Spore germination protein B3	ATGAAGGATATCCGTTTGAGAGTTTTGCTGATGCTCCTTATTTTCCTTGGAGCCCTTTTCATAAGTTCCATTCAAACAACAAGGCTGCACACCCTTGCTCTGGTCACCGGGATGGGGATTGAAAAAGAAGAAGGGGTTTATACGATTACGCTTCAGTTTTATAATCCGGCTGCGAATGCCAAAGAAGCCTCAGGGGAAATCAGCGGGAAAAGTTACACCGCGACGGGTGTGACCATTGCCGATGCCATAGCGTCCTTAAGGAAAGATGTTTCTAAACGCATCTTCACGGAAACCCTTCAGATCGTCGTCCTTGGTGAGCAGATGGTCAAGGAAGAAGGCGTGGATCCTGTCCTCGATTATCTGACCCGGGCTCCTGAAATTCCTGGGAATATCCAAATGGTGGTCGTGAAAGAATCCTCGCCTGAACTATTGTTTCAAATTTTCCCGGGGGACGATAAGGTGGCAAGCAGTCATATAAAAAAGCTGTTGAGTCATTCAGAACAGCGGTGGGGTACATTCCAGGATATTTCTGCCGAACGTATGAAAAGTCTCCTGGAAGACGGTACCAGTGATATCATGATCCCGTATTTGGAACTCAAAGGCGACAAAGCAGCAGGAATCTCCAAAAGCAGCACAGAGGCATTCAAACCGGCAGCTTATTTCTCCTTAACCGGACTGGCCTTGTTGTCCAATGGACGTTTGAGCACCTACTTCACTCCTGAGGAAAGCCGCATGCTGGCCTTACTCCGGGGAGTCAATCAAGGCGAGAGCCTCACCTTTCCCTGCAGGGAAGAACAACGGTTTCTAACCGTCAAAACGACAAAAACCTCCGCCTCAACGACCGCTTCTGTGGACCCCTTGTCCTTCAAGATCCAGGTTCGTGCCCAGGCCTATGTAGAGGAATACGGCTGCAGAGAGGAAGTGAAAGATCAGAAGGGGATTCAACAGCTGGAGGCTTGGCTGGAGGAAAAGATGGAGGAGGAGCTGACGGTCTTAGCAGCAAAACAAAGCGATGAACGGACAGACTACCTCGGATTAAAAGATCACTTATACCGCCATTTTCCCGACCATTGGAAACAGGTGAAGAAGGAAAAACAAGGAGACCTTTCCGAGGCTCCGGTCACCATTCAAGTGCAGGTCGTGATACCCAAAATAGGGAAGGCCTCTAAATTACCTTTATAA	MKDIRLRVLLMLLIFLGALFISSIQTTRLHTLALVTGMGIEKEEGVYTITLQFYNPAANAKEASGEISGKSYTATGVTIADAIASLRKDVSKRIFTETLQIVVLGEQMVKEEGVDPVLDYLTRAPEIPGNIQMVVVKESSPELLFQIFPGDDKVASSHIKKLLSHSEQRWGTFQDISAERMKSLLEDGTSDIMIPYLELKGDKAAGISKSSTEAFKPAAYFSLTGLALLSNGRLSTYFTPEESRMLALLRGVNQGESLTFPCREEQRFLTVKTTKTSASTTASVDPLSFKIQVRAQAYVEEYGCREEVKDQKGIQQLEAWLEEKMEEELTVLAAKQSDERTDYLGLKDHLYRHFPDHWKQVKKEKQGDLSEAPVTIQVQVVIPKIGKASKLPL				NA	NA	NA	NA	NA
AK012_03032	1092			hypothetical protein	ATGGAACGGATGATCATCAGCGCCACCCAGTTTTTCTCATTGATGCTTTTATTTCTGACAGGAACCACCATCATCGTCGGCCTGAACTTTACCGCGCTTCAGGACAGCGGATTTGCTGTCCTTTTCGAGATGGCCGCCGGCACAGCCATGTTCTACTTTTATATGCATCTCTCTGAAAAAATGGGCTGGCAGAACCTCGGGTCGCTTTTAACACAGGCGTATGGCAGAATGGCAGGCCGGGCATTCACTCTCCTGTACAGTGTGTACTTTCTTTATATCGCAGGCCGTGTCACAACGGACTTCTCCTTTTTCGTAACGAATACAATTTTTCAAGATTCTCCTTCATGGGTTGTGATGATCCCATTTCTAATGGTCATCGGCTATTCGACCGCGTTAGGAATCGAGGCCGTCGCCCGAAGCGCCGAAATTCTTGTTTTTTTCACCATATTGATCCTGATAATGTTATGGATACTCGGGTTCTCTTCTGAAGAATTCGATCCGGTTTATCTTCTTCCATTATTCGATCAGGATTGGTCTGTGCTGCTTTCCATGATTTTCCCCACAGGGATCAGCTTCCCCTATGGAGAGTTGGTCGTATTTACCGTCTTGTTTTCGATGGTAAAGGACCAGAAGTTCATGAAGCGCTTTGCCTGGATCCCCATTCTGACTGGTGGCTTTATCATTATCATAACGATGGAGCTGGTCATCGGGATTCTTCATGCCCCGATGGCGGATCAATACTTTTTTCCATTTGCAAAGGCGATGGAGCTGGTTACGTATTTTTCCTTCATTGAACACCTTGAAATTTTAACCACGCTGTTACTTCTCAGCGGTGTGTTTATTAAAGTGTTTATCTTTGCTTGCGCAGCCCACCTTCTTTTTATGGAAGCGTTCGCTGTGAACAAAGCCAAGCTCCGGCACAGCTTTATTCTCATTATCCTGATTGCCGGAATGTCGATGATCGCTTCTGAAAACATCATCCAGCATCTCCAAGTCGGATTGAAAGTCGTGCCTTACGCCCTTCATATCCCCTTTCAATTCGGAATCCCTGCCCTTACCGCCTTCATTCTAATGGTAAAGCGGCGAAGATGA	MERMIISATQFFSLMLLFLTGTTIIVGLNFTALQDSGFAVLFEMAAGTAMFYFYMHLSEKMGWQNLGSLLTQAYGRMAGRAFTLLYSVYFLYIAGRVTTDFSFFVTNTIFQDSPSWVVMIPFLMVIGYSTALGIEAVARSAEILVFFTILILIMLWILGFSSEEFDPVYLLPLFDQDWSVLLSMIFPTGISFPYGELVVFTVLFSMVKDQKFMKRFAWIPILTGGFIIIITMELVIGILHAPMADQYFFPFAKAMELVTYFSFIEHLEILTTLLLLSGVFIKVFIFACAAHLLFMEAFAVNKAKLRHSFILIILIAGMSMIASENIIQHLQVGLKVVPYALHIPFQFGIPALTAFILMVKRRR	PGPT0025055_669	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025055-gerKB-K06296	NA	NA
AK012_03033	396			hypothetical protein	TTGAGACGTCTGGTACATTTTGAAATCCATGTGGATGATATGGAGAGGGCGAAGGAATTTTACAGCCGTGTCTTTGGCTGGACGTACGAGGATTACAGTGAATATGCAGGAATGCCTTATTTCGGAGCTGTGACCGGGGATGCTTCCACTCCGGGCATCAACGGGGCACTCATGCAGCGTCAGGGGCCGGCGCCTGAAAAAGGACAGCCCGTCAACAGCTTTGTCTGTACGATGAATGTCGATAACTTCGACCGCACCGAAGCTTTGATCAAGGAGCAGGGCGGGACCGTCGCTATGCCGAAGTATGCGCTGCCTGGTATGGCCTGGCAGGGGTATTTTCACGACACAGAGGGCAACCTCATCGGCATTCACGAACCGGACGAACAGGCGCAGTAA	MRRLVHFEIHVDDMERAKEFYSRVFGWTYEDYSEYAGMPYFGAVTGDASTPGINGALMQRQGPAPEKGQPVNSFVCTMNVDNFDRTEALIKEQGGTVAMPKYALPGMAWQGYFHDTEGNLIGIHEPDEQAQ				NA	NA	NA	NA	NA
AK012_03034	657	liaR_2	COG2197	Transcriptional regulatory protein LiaR	ATGAGCATCCGGGTTATGCTTGTTGATGATCATTTGATCGTCCTGCGCGGGCTGAAATTCTTTTTGAATACCCAGCAGGATATTGAAGTAGTGGGAGAAGCGGAAAATGGCCGTGCAGCAATCGGGAAAATGGAGGAATGTCACCCTGATGTCATCCTGATGGATTTAATGATGCCGGTGATGGATGGGGTGGAAGCGACGAAGGAGATTCTTAAACAAAACCCGCAAGCGAAAGTCGTCGTATTGACTAGCTATTCCGATCAGGATCACGTCATCCCGGCGCTTCAGGCAGGGGCGTCCGGCTATCAGCTGAAGGACGTCGATCCGGATGAGCTCGTACGCACCATCCGGGCGGCCCGGCGCGGGGAAAAACTGCTTCATCCGAAGGCCACCCAGCTGCTTCTGACGGAAATGAACCAGGGGAAAACAGGGCGGGGAGTCGAAGCTCCGTTCAAGCTGACGAAACGGGAAAAAGATGTGCTTTATCAAATTACACTTGGAAAGAGCAACAAGGAGATTTCCGCTGCTTTGTTCATCACAGAAAAAACAGTGAAAACCCATGTGAGTAATCTATTAAGCAAGCTGGACGTCCATGACCGCACGCAGGCGGCCATCTATGCGATGAAGGAAAAGCTGTTCGAGGAATCCAGCAGCTGA	MSIRVMLVDDHLIVLRGLKFFLNTQQDIEVVGEAENGRAAIGKMEECHPDVILMDLMMPVMDGVEATKEILKQNPQAKVVVLTSYSDQDHVIPALQAGASGYQLKDVDPDELVRTIRAARRGEKLLHPKATQLLLTEMNQGKTGRGVEAPFKLTKREKDVLYQITLGKSNKEISAALFITEKTVKTHVSNLLSKLDVHDRTQAAIYAMKEKLFEESSS	PGPT0014870_135	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
AK012_03035	1545			hypothetical protein	ATGCGTACGTTTACCCGTGTGGAAGAATTAACGATTATGAAAGTGATTGCCGAAACGCTGAACCATTGTAATGACATGCATGAAATGCTGCAGACCGTCCTGGAAAGGCTGCTGAGGCTGACACATTTGGAAGCGGGCTGGATTTTTCTCGTCGACGAGGAACCCCGCTATACGTTGATGGCCGACTACGGCCTGCCGCCGGCGCTCGCAAGAGAGAAAAAAACGCCGATGTGTTCGGGGGACTGCCACTGCCTGCACCGCTATTGGAACGGCAGGCTGACAGAGCCGGTCAACATTATCGAATGCAAACGGATCACAGAAGCTGTGAAAAACAAACGTGGCGACACGGAGGGAATCTCCCACCATGCGACGATCCCTCTCGGTGATGGGACGGAATACTTCGGGATATTAAATATTGCAGCTCCTTATAAGGAACATTTTTCAGAGGAGGAGCTGACCCTGATGCAGTCCGTGGCCTATCAGATCGGTACCGCCGTCAAAAGGACGAGGCTGTACCACGAGGAACAACAAAGAGCGGAATTGTATGAAAGACTGAATAAGGTGGTCCGTTCCCTCAACAAAGCGGAAGATATTCCGGCCTTATGCCGAACCGCCGTCATAAAGGGGAGGGATCATTTTGGCTGGAGGGCGGCTGCCATTTACGTGAAGAAAAATGATGCGTACATAAAGGAAGCTTCAATCGGGGGAGATTTTCCAAACAGGATGGAGCACAGCCCTGACAAAAGAGCGGAGCCGGAGACAATCCTGCCGATCACCATAAAGGAAGAGACAGTCGGTCTCTTTCACATCATCCCCCAGGGCTCGCAGTCTTTTCCGAAAAAAGAAATAGAGGTCCAGGAGGTGCTCGTCCGCAACCTGGCTCTGGCGGTGGAGAGTCTCTCGCTGCAGGAAAAACGCCGCGAACTTCTTCTGCATGAAGAGAGAAAACGGCTCGCCAGGGATCTGCATGATTCGGTCAATCAGAAGCTGTTCTCCCTCTCCCTTACCGCCCGCGGCGTGAAGGAGGTTATTCCTGAGGAACAGCAGGAGCTCCGCTTGATGCTTGAGGATATGCTGCGTCTTTCCCAGGAATCGCAGAAGGAAATGCGTTCATTGATCTGGCAGCTCCGGCCGGTCGGCATTGAAGAAGGCTTGAGTGCCGCCTTGAAAAAATATGCCCTCCATCTCGGCCTTACCTTGGACATTCGTATGGAGAAGGTCCCTGAATGGCCGGGGAGTAAGGAAGAAACGCTGTGGCGGATCGGTCAGGAAGCGCTCAATAACATAAAGAAACACACCGGGGAAACGTCTGCCTCTGTTCACTTTTATGAAACGAAAACAGGGGTAGGGATGGTTGTTTCAGACGAGGGGCCGGGGTTGGAAGCAAACGACCATTCGGAGGAACGAACGCTCGGCCTGACGAGCATGAGGGAGAGAGCGGAAATGGCCGGAGGTTCTTTTTCCATACAAAGCAGGGAGGAAAGAGGAACAGAAGTCCACGTATTTCTCCCACATCAGGAACACAGGAAGGAGCGGATGGAATGA	MRTFTRVEELTIMKVIAETLNHCNDMHEMLQTVLERLLRLTHLEAGWIFLVDEEPRYTLMADYGLPPALAREKKTPMCSGDCHCLHRYWNGRLTEPVNIIECKRITEAVKNKRGDTEGISHHATIPLGDGTEYFGILNIAAPYKEHFSEEELTLMQSVAYQIGTAVKRTRLYHEEQQRAELYERLNKVVRSLNKAEDIPALCRTAVIKGRDHFGWRAAAIYVKKNDAYIKEASIGGDFPNRMEHSPDKRAEPETILPITIKEETVGLFHIIPQGSQSFPKKEIEVQEVLVRNLALAVESLSLQEKRRELLLHEERKRLARDLHDSVNQKLFSLSLTARGVKEVIPEEQQELRLMLEDMLRLSQESQKEMRSLIWQLRPVGIEEGLSAALKKYALHLGLTLDIRMEKVPEWPGSKEETLWRIGQEALNNIKKHTGETSASVHFYETKTGVGMVVSDEGPGLEANDHSEERTLGLTSMRERAEMAGGSFSIQSREERGTEVHVFLPHQEHRKERME				NA	NA	NA	NA	NA
AK012_03036	513	azr	COG0431	FMN-dependent NADPH-azoreductase	ATGAAAATAACTGTGATTAGTGGTACACCAAGGAAGCAGGGGCGGACGCGCCAGGCAGCGGCAGAGGTGGCGGAAAAGCTGCAGGCCGCTCTGATCGATTTAAGTGTAGAGCCGCTGCCTTTATTTAATGGAACGGAGGAGCAGACCAACCACCCCGCGGTGGAGAAGCTGAGAAAAACAGCCGCAGAATCAGAAGCGTTCGTATGGATTACACCGGAATATCATAACGGCATGAGCGGAGCTTTGAAAAATGCGCTGGAGTTTCTGGACGGCTTCGATTTCAAAGGAAAACCGACTCTTTTGTGTTCGGTCTGCGGGGGCGGAAAAGGCGGCATGAACGCCGTCAATCAGATGAGGACGGTCGGACGAGGGCTTTATGCCATGATTGTTCCGCAGCAGATGGTGTTCGACCCGGAGGATTTTAAGGTGGAGGGCGGCTTCATAAGAGAAACCGAGGAACGACTGGACCATGTCCTTGCTGAATTTCAGCAGTTCTTTCTCGTGAAACAGTGA	MKITVISGTPRKQGRTRQAAAEVAEKLQAALIDLSVEPLPLFNGTEEQTNHPAVEKLRKTAAESEAFVWITPEYHNGMSGALKNALEFLDGFDFKGKPTLLCSVCGGGKGGMNAVNQMRTVGRGLYAMIVPQQMVFDPEDFKVEGGFIRETEERLDHVLAEFQQFFLVKQ	PGPT0006791_213	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006791-azr|azoB-K03206	NA	NA
AK012_03037	819	rhaS_1		HTH-type transcriptional activator RhaS	ATGGAGATGAGAATCGAGCTCGACCATACAGGAGTTTTACTTTTTGATTTACAGGACGGGGAGGCCGATGAGGTGCACCCACATGATCATTACCAGATCAGCATACCAATGTCCGGGAACATTGCGGCCCGCCATAACAGCAGCCATCTCCAACTGAATTCGGATAAGGCGCTGATTGTCCCACCCGGTGACATCCATCAGCACGAAGCGTCTGGTGACAAAGGGATGATTATGCTGATCAGCTTTAACGAATCCATTGTCCAGCAGGTTATGGAGGAACGGACGGGGCAGCGTCCATCCCCGGTCGATTTTTCATCACTACAGGCTGTACCGGCTGAAGTGGTGAACGAAGCAGAAAAGCTTATGCAGGCGGCTGCTTTCCAAGGAATCGAAAGGGTCATCACCAACGAAAAAGCTTTTACAGAAACTATCCTCACCCATATGCAGGGTTCCCACTCCAGGATATGGGATCAGGCAGCGGCCCATCATCGTATGACTGCGGAAGGAATCACGGCACAGGTGAAGGCCTTCATCAAAGAAAATTACCGGCAGAACCTGTCCCTCGATGCCATTGCTTCTCACATGAACGTGAGTAAATATCACCTGCACCGGACGTTCGTAAAACAAACGGGCATGACGCCGAAAGCGTTCATTCATGACGTTCGACTTATGGAAGCAGCAGCCAGGCTGAAGGGGGAAGGCTGCGATGTCACGACGACGGCTTATGAAGTCGGGTACCAGTCGCTCAGCACCTTTTCCCGGGCGTTTAAGGCGCGGTACGGGATGACGGCCAAAGGGTACGCCGATCAGTATCGGTGA	MEMRIELDHTGVLLFDLQDGEADEVHPHDHYQISIPMSGNIAARHNSSHLQLNSDKALIVPPGDIHQHEASGDKGMIMLISFNESIVQQVMEERTGQRPSPVDFSSLQAVPAEVVNEAEKLMQAAAFQGIERVITNEKAFTETILTHMQGSHSRIWDQAAAHHRMTAEGITAQVKAFIKENYRQNLSLDAIASHMNVSKYHLHRTFVKQTGMTPKAFIHDVRLMEAAARLKGEGCDVTTTAYEVGYQSLSTFSRAFKARYGMTAKGYADQYR				NA	NA	NA	NA	NA
AK012_03038	1167	mdrP		Na(+), Li(+), K(+)/H(+) antiporter	ATGAATACACGGACGATTATGATTCAAACCGCCGGACATGCGCTCATTTCTTTTGTATCCATCCTTTTGCTTCCATTTCTAACGTTATATATGTATGACCGATTAGAGGAAAACCTCGCTCTTGCCACGCTGATCATCGGCATCCAGCCCTTGACGGAAATTCTTTTCACCCTGTTGATGGGAGGGTGGATCGATCGTTTCGGCCGCCGTCCGGTCCTGCTCGGATCGCTCCTGTTTCAGCTTACCGCGATGATCGGATTTATCATGGCTGCGGACGTATGGGCGTTCGCGGTGTGTGCCTTTATCAATGGCCTCGGCCGGTTTGTCTACATCCCCGCTGCCCGGGCGCAGATCTCAGAAACCGTCCCTCCGGAAAAACAAACGCAGACGTTTGCGCTGCTGCAGACGGGGGCGAATATCGGCGCCCTCGCCGGGCCGTTCGCAGGAGCTGCCCTGTTCAGCCGGCACCCGCCTCTGTTGTTCGGCCTCATGGCTGTGCTGACGGCTGTCTATGCTTTCATTGTCTGGCGGTGGCTGCCGGAATCCCGGGCAGACGGCCAGACAAAAAAATCGAACCCAGGGACCGTCTCCTATAAAAATCTCACATCCCTCGCCTGCGCCATGCTGCCCATCAGCCTCTTTCATGCTCAAATGGAAACAAACTGGCCGGTCTATTTGAAAGAAACGATTGAGCATTACTTATGGACATTTTCAGTTTTGGAGACGATCAGCACCCTCACTTTTATCTGCTTTGAAGTGCTGCTTGTCCGCTGGACGGAGAGGTGGCAGCGGCTCCGGGTGATTCAGGCAGGGTGGCTGTTTTATACCGCCGCTGCTTTCGGATTGGCATGTTCGTCTCATTTCTTCGGCTTTATTGTATCACAGCTGTTGTTTTGCTTCGGGGCGATTTTGACGCTCAACCCGATGCAGACCTTCATCAGCTCCATCGCTCCAGAAGCCCATAAAGGAAGGTATTTCGCGTGGTTCGGTCTGCACTGGGACTTCTCACGGTCGGCCGGTCCTTTCGCAGGCGGCCTGTTCCTGTCGCATTTCGGAGGAGGCTGGCTGTTTTCCACCTTAGGTGTGCTTCTCATTCTTGGAGGACTCCTGCAGACGAAAAACCTGACCACATCTGCCCGGAGTCCCTCCAGCAGGAAAGCCGGATGA	MNTRTIMIQTAGHALISFVSILLLPFLTLYMYDRLEENLALATLIIGIQPLTEILFTLLMGGWIDRFGRRPVLLGSLLFQLTAMIGFIMAADVWAFAVCAFINGLGRFVYIPAARAQISETVPPEKQTQTFALLQTGANIGALAGPFAGAALFSRHPPLLFGLMAVLTAVYAFIVWRWLPESRADGQTKKSNPGTVSYKNLTSLACAMLPISLFHAQMETNWPVYLKETIEHYLWTFSVLETISTLTFICFEVLLVRWTERWQRLRVIQAGWLFYTAAAFGLACSSHFFGFIVSQLLFCFGAILTLNPMQTFISSIAPEAHKGRYFAWFGLHWDFSRSAGPFAGGLFLSHFGGGWLFSTLGVLLILGGLLQTKNLTTSARSPSSRKAG				NA	NA	NA	NA	NA
AK012_03039	3390			hypothetical protein	ATGGGGAAATATGCCGATCAGCTGAAAGATGAACATTTCCATGAAAGGCTGAATCGATTACGAAATGAAGGGTACATCGATGACGAGACTTATACATATGTGAAAAAACAAGATCAACAGTATAAGGAAGCCGTGGCTTTAAGAATCGAGCGCCAGGAAGCTTCCGAACCCGTGAAAAAGGAACGTCTGAAGCCGGCAGAACCGGTAAAGAAGGTGAAAAAGCAGAAGTCTCCGGAAGAGGTCAGGGAGCGGAACATTACGTGGTCCTTGATTCTTGGAGTAGCCCTGCTTCTTATGACAGGGGTGATCATTGCGACGAGCCAATGGGATCAGATGGGGCCCGGGGCGAAGCTCACGGCCATCATTGGAGTGTCGCTCTTCTTCTTTGCGCTCAGTTACGGGACGAAAAGGGTGCTTGGCATAGAGAAAACAGCTTTCGCCTTTTTGACACTCGGCAGTTTATTGATTCCGGTAGCCATTCTTGCCGCCGGTTATTTTGAACTGTTCGGCCGTTATTATTCGTTGGATGGAGAAGGGCGTTACATCCTGGGGATGGCGGGGGCACTTATTCCGCTGCCGCTGTATATCCGTCATGCCCTCGTCTACCGCTCGCGGCTGTATGTATGGATAGCCCTGATTTTCATGAGCATGACCGCGGCCTTTACAGCCGGGGCACTTCCTGTCGGGACAGACGGGTTTTACCTCATCGTGATGATGTACAACGCTGCTCTGCTTGGAGGATATATCCGTTTCAGAAAACAAAAGCGCTGGCAGCTGTTTACGAGAGAGCTGCCGGTATATACTCAGCTGCATCTCGTTTTATCGACCTTGTTTATGCTCTTCTTTTTTGAGGAGGAGGTTTTTTACAGCTTTAACCTGCTGCTTACAGCGGCCATGTATATGGCGATGGTGTTCATCTATGGGACGAAGGAATATCAATTCGTTTTTTCCGCTATGCTCGCCTATGCTGTCTATCAGCTTGTCGAACATACCCCGCTGCAGCAGGTGGAAGAGGTGTTATTTCCCGCAGCAGGCCTGCTTTATTTAGGATTTGCCTATGCCGTGAAGCAGCAGGGCTTTGTCAAAAAGATGTTCCACTATACGAGTGGGATCGTTTCTATTTGTGCTTTTATCTATATTACGTTCCAAAGTCTGCAGCTTCGGGCTGAACAGGATTCATGGCTGCTGCTGGGAGCCTATCTCATCATCATGCTCAATTACCTGCTGCTTGCTGTTGTTTCCGGACGCACCATTTTCAAGTATCTGACGCCGGTCTTTTATTTGATCAGTGCCGCTCAGCTCTGGTCCTTGATAGACGGCGGGCCGATGTATTTGTTCGTCTATTTTGCGGCTGCGGTTCTCTGTCTTGTCCCGGGTCTGTGGGGGAAAGGCCGCTGGATACAGCCGGTACAATTCAGCAGTTTCTTTATAAGCCTGCTTGCGATGGCTGCCTGTATCACGCTCGCTTGGACGATGGAGGCCTATGGCCACCTATCGCTGCAGTTTCTCGTGAGCTCAGCGCTTGCTGTCGCTGTCTGTAAAAAGGGAGCCGAGGAGGACTGGCGCTGGACGGCCCAGTGGTTTCATCCCGCAGCCCTCTTGATTTCCATGATTCTCATCTATCAGCCGATGACCGACCTGCTTCCAGGGTACGGAAATGGTTTTGGCTATTCCTTTCATTTGGCATGTTCCGGGCTGCTCCTGTTCGCCGGTGCGGGCGGATGGCGGTTCGTAAAGGAAAAACCGTTGGAGATCAAGACGTTTTACATCGGACAGGGCACCTACATCACTGCGATGGCTCTGCTTCTATTCGATCCGCTCGTCGATCCAATATTCGTCCGGCCCCTGTTATTGTTCATCGGTTTATTCGTCACGTACGGTCTGACGGTCTATGGAAAAAAAGCTTCTCTTTGGATATTTCCTGCATTAACGACAGCGGGCTTCTACTTGTCGCTCATCAGCCCTCTTCCGCTGGCCGGGTTTGAGGAAGCACTCATCTACAGTCTATTTGCTCCGGTTCTTCTGCTTGTCATCGCAGAAAAAGGCAAAGCGCTCGGGCTGGGTCCGTCTTTTTACCGGCTCGCTCATGGGATGCTTCCGGTCATCATCGGACTGATGTGGCTGACGACGCTTGGAACAGAAGGGGTCCATCCTCTGTTCTTCCTCGTGCCTCTCGGTGTGTACAGCTGGAGTGCCCGGCGCGCAGAGCGGGAGTATGGACGGCGGTATATGCTCTATGCGGCTGCCTTCCTTGTCTATGTTTCGGTTTACACGCTTTCAGCGCAGTGGGGGCTTTGGACGGCGGTCCCGGGCGAATATGCGTTCATGATTACCACGGTCATTCTCGGAATCGTGTGGGCCGTTCTATCTCCATCCTGGAGAAAACGACTGGACTGGTTTTTGATTCCATTTTCCATTGTTGGTCTTGCTCTGATGATGAGCCGCAGCGGCCCGACGGCTTCCTTTGAAATCGCACTGATGTGCGCATATGTTGTCATTACGCTTGTATTGATTCATTTCCGCCGCTGGTGGTATGTTCTGTTCCTGCCGCTGCTTCTCACGCTTTTGATGTGGGAGAACATCGGACAGATGTGGGGCAGGGACGTATTGATTCCGGTTCTTTCAGCTGCAGCGGTGCTCGTGTACGTTGCAGGTTGGTACCTGTTCCGTTCCCTTATCCCTTCCAGACAGAAAGTGGATGCGTATGCGTTCACCGCGCTCGTGTATATCGGTTTTCTTACCATCTACACAGCTGGCTTCGGGAATGTGTGGGTGGAAGGGCTTCCGCTTCTTCTTACAGGCGCGTGGATGATGGGATCCGCTTCCAGATGGAAACGGCCCTTGTTTGATAAGGTTTCCTATACGGTCGGAAGCGCCTGTTTTTACGGGGCTTATCTTTGGGTCCTTGCCGGTTACCGGGCCTACGTTCCTGATCTATTGGAAGCTGAACTGTATACTCTGCCGCTCCTGTTCGTCCTTTATTTGCTGCGGAAACGAACGTGGCCCGAGTACAGGGGGATGATGAACCACGTGCAGTCCGCGCTCCTTCTTTTTATTGCGGCCTATCTTGTGAGCGATGCGATCCTCAGCCATACCATCTGGGATGCATGGATCATCGGGGGCTTATCTGTCCTGTCCATGCTGGCAGGTATGCAGCTGAAGATTAAATCCTACTTTTTTACAGGGATGGGTGTGCTGATCTTCAATGTCATCTATCAAACCAAGCCGTACTGGGGACGGGCGCCGTGGTGGGTGTATCTGCTGACCGCGGGGCTGTTATTGATTGGAACGGCCAGCTATAACGAATGGCAGAAACAGCAGTCCGGCAAAGGAAAACCAGTGGAGCGGAAGCTGAAGAAATGGTGGATGTCTCTGAAGCAATGGGACTAG	MGKYADQLKDEHFHERLNRLRNEGYIDDETYTYVKKQDQQYKEAVALRIERQEASEPVKKERLKPAEPVKKVKKQKSPEEVRERNITWSLILGVALLLMTGVIIATSQWDQMGPGAKLTAIIGVSLFFFALSYGTKRVLGIEKTAFAFLTLGSLLIPVAILAAGYFELFGRYYSLDGEGRYILGMAGALIPLPLYIRHALVYRSRLYVWIALIFMSMTAAFTAGALPVGTDGFYLIVMMYNAALLGGYIRFRKQKRWQLFTRELPVYTQLHLVLSTLFMLFFFEEEVFYSFNLLLTAAMYMAMVFIYGTKEYQFVFSAMLAYAVYQLVEHTPLQQVEEVLFPAAGLLYLGFAYAVKQQGFVKKMFHYTSGIVSICAFIYITFQSLQLRAEQDSWLLLGAYLIIMLNYLLLAVVSGRTIFKYLTPVFYLISAAQLWSLIDGGPMYLFVYFAAAVLCLVPGLWGKGRWIQPVQFSSFFISLLAMAACITLAWTMEAYGHLSLQFLVSSALAVAVCKKGAEEDWRWTAQWFHPAALLISMILIYQPMTDLLPGYGNGFGYSFHLACSGLLLFAGAGGWRFVKEKPLEIKTFYIGQGTYITAMALLLFDPLVDPIFVRPLLLFIGLFVTYGLTVYGKKASLWIFPALTTAGFYLSLISPLPLAGFEEALIYSLFAPVLLLVIAEKGKALGLGPSFYRLAHGMLPVIIGLMWLTTLGTEGVHPLFFLVPLGVYSWSARRAEREYGRRYMLYAAAFLVYVSVYTLSAQWGLWTAVPGEYAFMITTVILGIVWAVLSPSWRKRLDWFLIPFSIVGLALMMSRSGPTASFEIALMCAYVVITLVLIHFRRWWYVLFLPLLLTLLMWENIGQMWGRDVLIPVLSAAAVLVYVAGWYLFRSLIPSRQKVDAYAFTALVYIGFLTIYTAGFGNVWVEGLPLLLTGAWMMGSASRWKRPLFDKVSYTVGSACFYGAYLWVLAGYRAYVPDLLEAELYTLPLLFVLYLLRKRTWPEYRGMMNHVQSALLLFIAAYLVSDAILSHTIWDAWIIGGLSVLSMLAGMQLKIKSYFFTGMGVLIFNVIYQTKPYWGRAPWWVYLLTAGLLLIGTASYNEWQKQQSGKGKPVERKLKKWWMSLKQWD				NA	NA	NA	NA	NA
AK012_03040	717			hypothetical protein	ATGTTATTCCGCGGCATTCATCCTTCCGAGCCATCTAAAGCCTCCGTCGTCACAGTCATCATCGGATTTTTTCTGATGGGTGCAGCGTTCTACGGCTTTATTGAGCTTGCGGAAGATGTAATGGAAGATGAAAAATTTGCGGTCGATCAGGCCGTATCCAATCTAACAGCAGCACTGTCCACCCCCGGTCTTGATCAGTTTATGGGGACAGTGACCGAACTTGGATCCGTCTGGTGGATCACAGTGGGTTCAGCTGTCACGCTGGTTTACCTGGCGTTCTTCTCAAAGACAAGCCGGTGGCTCTGGGTATTCTTTCTCGTGAATATGATCGGCATCAGTGCGTTAACGAAGGGCCTGAAACTGCTGTTTGAACGGCAGCGTCCGGAAGTGCTGGAGCAGTATGACGGTGTCGGCTATAGTTTTCCGAGCGGTCATTCATCCGGAGCGATGGCTTTTTATGGGTTTTTGATTTATCTGACCGTCATCAGCCCCCTTCATAAAAAATGGAAGTGGACAATCAATAGCCTTCTTACAGTGCTTATCATTCTCATTGCGGCGAGCCGTACCTTTATCGGGGTGCATTATTTCACCGATATCGCCGCAGGTATTGCGCTTGGTCTTGGATGGCTGCTGATTTGTATCGCTTCCCTGGAAATGATGATGTGGCGCCGGCGCAGAAACGATCGCTCGTCTGAAAGACAAACGATGTCGTCCTGA	MLFRGIHPSEPSKASVVTVIIGFFLMGAAFYGFIELAEDVMEDEKFAVDQAVSNLTAALSTPGLDQFMGTVTELGSVWWITVGSAVTLVYLAFFSKTSRWLWVFFLVNMIGISALTKGLKLLFERQRPEVLEQYDGVGYSFPSGHSSGAMAFYGFLIYLTVISPLHKKWKWTINSLLTVLIILIAASRTFIGVHYFTDIAAGIALGLGWLLICIASLEMMMWRRRRNDRSSERQTMSS				NA	NA	NA	NA	NA
AK012_03041	351			hypothetical protein	ATGAACTTGTATGCCCATTTATATCAGCAGGAGACAGAGTTGCTGACGCCTGGTGTGAGGTCTTCGAGAGAAGAACTCGACCGGCGGCTGGCTGATGACTTCCAGGAAATCTCCAGCACAGGGGCCGTCTTCGGAAAAGACCATGTACTGGAACGTCTGCCCCGCGAAGAGGACCGCGGGCTGACTTGTGAACAGTTTCAAGTGCAGCCGCTTGCCGAAGAAGCCGCGCTGACCACCTTCCTGCTTCATATCAAAGAGACTGGGAAAACGTCATGGCGGAGCTCGATCTGGAAAAAGTATGGGGACACGTGGAAGATGGTCCACCATCAGGGGACTCCGACTCCGAAATAA	MNLYAHLYQQETELLTPGVRSSREELDRRLADDFQEISSTGAVFGKDHVLERLPREEDRGLTCEQFQVQPLAEEAALTTFLLHIKETGKTSWRSSIWKKYGDTWKMVHHQGTPTPK				NA	NA	NA	NA	NA
AK012_03042	366			hypothetical protein	ATGACTGAAAGAAAAGGAAAAGTCGTAGGGTTTGAACTGAGCAGCCAGCAGCCGGAAAAAGCAGCGTCATTTTATAAAGACGTGTTCGGCTGGGAGGTGGAGGAGCCTTCCCGAGGGTACGCTCCTATATCGACCGGTCAGGAAAACGGTGTCTACGGCGGCATCTCAAAAGGAGGCGCAGATTTCCCGCACGGCGTCCGCATCCAAGTCGAAGTGGCCTCCATTGATAAAACGATTGCAGAGGCTGAGCAGAATGGCGCCCTCGTAGTAAAGGGGAAAATGGAATACGACGATTTCTACCTCGCCTATCTCGTCGACCCGACCGGCATCGGCTTCGGGCTGATAGAAGTAAAGGAGCGCTCATAA	MTERKGKVVGFELSSQQPEKAASFYKDVFGWEVEEPSRGYAPISTGQENGVYGGISKGGADFPHGVRIQVEVASIDKTIAEAEQNGALVVKGKMEYDDFYLAYLVDPTGIGFGLIEVKERS				NA	NA	NA	NA	NA
AK012_03043	654			hypothetical protein	ATGCTGATCAAGTTAATCAAATGTAAAGTGAGTCCTGAAAAGAAAGAGGCCTTCTCAAAAGCTCAGGCTTTATGGAGCCGGCTCAGGGACATCCCCGGGTTTCTGGGGCAGGCCGGTGGCTGGAGCAAAAAGCACCCCTGCCGCGCTTTTATTCTTACCTTCTGGAAGGACCGTCACGTTTACGACAGCTTTATGAAGAACGACCATGATGAGATGTTTCAACACTCAGGTCAGGCGCAGACGTATGAGAAGGTGGATGTCCAATTGTATGAAACGCTCTATAACATCAAGGGCGCTGTACCTGCCGACATTTTAGAGGAGGGAGCCTTTCTGCGTCTGGCTTTCACTCGTGTGAAAAAGGAAAGCGTCCCTCATTTTCATGAGGTTCAGGAAAACGTTTGGAATCCGGGAATGGCTTCATCCCTGGGAATGACCGGTGGATTTTTTGCCGGACATACAGAGAGTGAGTGCTGTTACCTTATTTTATCGAGCTGGGCGGATGAATCGTTTCACAGGCGTTATCAATCGGATGTGTTTCCGAAACTCCTGACTAACGCTAAACCTGGAAATCTTGTCTCCAACCTTACAGGAGACGGGTGTGTCATCGAGGAAAACTGGCGGGTGATGCCGGCTGTAATGGGGCGGCATTCCTGA	MLIKLIKCKVSPEKKEAFSKAQALWSRLRDIPGFLGQAGGWSKKHPCRAFILTFWKDRHVYDSFMKNDHDEMFQHSGQAQTYEKVDVQLYETLYNIKGAVPADILEEGAFLRLAFTRVKKESVPHFHEVQENVWNPGMASSLGMTGGFFAGHTESECCYLILSSWADESFHRRYQSDVFPKLLTNAKPGNLVSNLTGDGCVIEENWRVMPAVMGRHS				NA	NA	NA	NA	NA
AK012_03044	570			hypothetical protein	GTGAATATGATCGTTGTCCGGCATGCAGAAGCCCGGCATACAGCGGATCCACCGGAAAGCCTGCAGCTCCGCCATCCCGCTTTAACTGAAAAAGGAAGGAAGCAGGCGGAAGAACTGCATCGAAGACTCCCTCTCAAGAGCGGGGACTTGGTCTGCATCAGTCCAACGGTCCGAACACTTGAAACGTTTCGTCACTGGAATCAATCAGGGGTGGGGGAGGCGATGGTCACCCCTTGGGCAGGACCGCGGATTTTTCCTCAGAGGAAAGGATGTGAAACCCTCCCTTGTGACGAAATACTATCGATGGAAGAGGTCTCTGATTCCTCTCTTCAGGTGGATGAGCGGTGTGAGGCTGAATTATGGGAGCACGGCATCAATCTTATGCCGGATGAGGTATTCTTTGATCAAGGCCGGCAGTTTCTCACCCGGTGCCGAAAGTGGAGAAAAGGGAGAGTGTTTTTATTGTCCCATGATGGAACGATCACCTCATACAGGGAGATCCTGGAATCCCGTTCCCTTACAAGAAACGACTTTTTGTTGGATGCCGGCTGGGTACATGTGCATGGATAA	MNMIVVRHAEARHTADPPESLQLRHPALTEKGRKQAEELHRRLPLKSGDLVCISPTVRTLETFRHWNQSGVGEAMVTPWAGPRIFPQRKGCETLPCDEILSMEEVSDSSLQVDERCEAELWEHGINLMPDEVFFDQGRQFLTRCRKWRKGRVFLLSHDGTITSYREILESRSLTRNDFLLDAGWVHVHG				NA	NA	NA	NA	NA
AK012_03045	735	tam_2		Trans-aconitate 2-methyltransferase	ATGGGATACAGAGGTTCATCCATTTATGACGAAAATGAATTTTTTGATGCTTTTTTACACCGGCGCAACCGTCCTGAGAGTCCGAACAACGCGATGGAAAAGCCGGCTTTTCTATCGATGATTGGAGAGGTTCATGATCAGCGGGTGCTCGATCTCGGCTGTGGAGATGGCTCCTTTGGGCTGGACCTTTGCAGAGCCGGCTGCCGGTTGTATGATGGTGTAGAAGGATCGACCAATATGCTTACGTCCGCACAGGAAAACCTGAGAACCGTCCAGGCCCGTCTTCACCATGGGATGGTGGAAGATTTTAAAATGGGACGGGACGTGTATGATCTCATTACTTCAAGGATGGTGCTTCACTATATCGAAGAGCTTCCCGCTGTCTTCCGAAGCGTCTATCAAGGTCTGAAGCCGGGCGGCCGCTTTGTGTTCAGTGTCCAGCATCCGCTTCTGACATCGACTCCAGCGCCGTCTAACCAGCGTGGCGGGCGGTCGGCCTGGGTTGTGGATGATTACTTCCATACAGGAGAGCGGAAGGAGCATTGGATTGATCATGAGGTCATCAAATACCACCGTCCTGTAGAAGACTACGTACAACAACTTCTGCAGGCAGGGTTCAGAATAACAGGGATGAAGGAAGGCTGCCCGGAGCCGGACGCTTTTCTTGAGAAGAAGGAATATGAACGGCGCATGAGAATTCCACTGTTTCTTATTTTAGGTGGTGAGAAGAAGTGA	MGYRGSSIYDENEFFDAFLHRRNRPESPNNAMEKPAFLSMIGEVHDQRVLDLGCGDGSFGLDLCRAGCRLYDGVEGSTNMLTSAQENLRTVQARLHHGMVEDFKMGRDVYDLITSRMVLHYIEELPAVFRSVYQGLKPGGRFVFSVQHPLLTSTPAPSNQRGGRSAWVVDDYFHTGERKEHWIDHEVIKYHRPVEDYVQQLLQAGFRITGMKEGCPEPDAFLEKKEYERRMRIPLFLILGGEKK				NA	NA	NA	NA	NA
AK012_03046	423	fosB	COG0346	Metallothiol transferase FosB	ATGAAGGCAGTCGGATTGAACCATCTTCTTTATTCAGTCTCCGACCTGGAGCGGTCGATCCATTTCTACCAGGATGTTTTCGGCGCGCGTCTGCTTGCGAAGGGAAGGACGACTGCTTACTTTGATCTTGCAGGGATATGGCTGGCCCTTAACGAAGAAAAGGATATACCGAGACCTGAACAGGCTTCCTACACGCATACCGCTTTTTCCATAAAGGAGGACGAACTCCCATTCATGGTCTTGAAACTGGAGGAACGGGGTGTGAATATATTGAATGGCCGGGAACGGGAAGCCGGCGATCGTTCATCGGTTTATTTTACAGATCCGGATGGGCATAAATTCGAGTTTCATGCAGGAACCTTAGCTGACAGGCTGGATCATTATAAAAAGACAAAGCCGCATATGGAATTTTTTGACGACTGA	MKAVGLNHLLYSVSDLERSIHFYQDVFGARLLAKGRTTAYFDLAGIWLALNEEKDIPRPEQASYTHTAFSIKEDELPFMVLKLEERGVNILNGREREAGDRSSVYFTDPDGHKFEFHAGTLADRLDHYKKTKPHMEFFDD	PGPT0028560_85	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-FOSFOMYCIN_RESISTANCE,PGPT0028560-fosB-K11210	NA	NA
AK012_03047	249			hypothetical protein	ATGATGAATGCTTTTACAGCGGTGACCTATGATGTCTGTCCGCACGAATCATTATGTGAAGCTATGAACCGTTATGAAATAGAAAAGGAAGAAAATATTGAAGCCGCTGCAGCCAGAGCGGCCGAGCAGGATGTGGCTCCTCTTGTCGAAGTCTACCAGACGCCGGCCGGAAAGGGAGCCGTTCCGCTGCTTTATAAGACCTATACCTTTGAAGCCTACACATGCCGCTGTGTAGAACCCCGGGACTGA	MMNAFTAVTYDVCPHESLCEAMNRYEIEKEENIEAAAARAAEQDVAPLVEVYQTPAGKGAVPLLYKTYTFEAYTCRCVEPRD				NA	NA	NA	NA	NA
AK012_03048	630			hypothetical protein	ATGGCATCCAGTAACCGTAACGCATCCGGCCCGTGGGGACCTTTACTTTTTCTCCTTGCAGCGGCCGGTCTTATTTATCTCGTCGTCCAGGGGGCCTCCGGCGACGGAGTGATGAGCAGTATCATCGAGGAGGAGACGGATCCGCTTTCAGACAGTGTCCGTCAGTATGAAGAGGAAGTAGAGAAATATGCGGCTGAAGAGGGGATAGAAGGACGTACGGATGTGCTTCTTGCCCTTATGATGCAGGAATCCGGCGGCCGCGGTGAGGATCCGATGCAGGCTTCTGAGTCCTACTGCGGGGAAGTCGGGTGTATCGAGGATCCTGAGGTATCGATCCGGCAGGGTGTGTCCTACTTTGCCACAACGTTGGAAAAGGCAGATGGAGACGTCAAGCTTGCTCTGCAGGCCTACAACTTCGGGACCGGTTTCATCGACTATGTTATGAACCGTGGCGGGGAGTATACGCAGGAACTGGCTATTTCCTTTTCAGCAGAAAAATATGAAGAGTTAAAGGATACGGGGGAATACAGCTGTATCCGGGAAGAAGCGGAGCAGTATGATGCCTGTTACGGGGATATCTATTATGTAGATGCTGTTCTGGATTATTATGAAGAAGAAGGGGACGTATGA	MASSNRNASGPWGPLLFLLAAAGLIYLVVQGASGDGVMSSIIEEETDPLSDSVRQYEEEVEKYAAEEGIEGRTDVLLALMMQESGGRGEDPMQASESYCGEVGCIEDPEVSIRQGVSYFATTLEKADGDVKLALQAYNFGTGFIDYVMNRGGEYTQELAISFSAEKYEELKDTGEYSCIREEAEQYDACYGDIYYVDAVLDYYEEEGDV	PGPT0023995_1618	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_DL-ENDOPEPTIDASE_ACTIVITY,PGPT0023995-cwlO-K21471	NA	NA
AK012_03049	402			hypothetical protein	TTGAAGCTTGCACGAAATGTTGTAACACCTCTATTGTCCTTTGCAGGGGCATTTATAGTTTATATTCTATTACGAAGAGAATATATAAATATAAGAGAGCTTGATTTTCTCCTATTATGGGGCGGCTTGTTTTATGTCGTTGTGATTATTCCTTTCTTTTTTCTAATATGTCAATGGGTCACTGCGGAGACAAGTAAATTAACATTCCTGACACTCCCCCTCAGCTGCATCCTTGTGGCTGTTCTTATAGCACTTTTACTTTTGACATTTTCAGGCGGTACGCTGAATAACAATCCAGTTTCTATATATCTAAACGAAACTGCATTAATACTTTATCTTACGTTCTCAGTTATGGGGCTGATTTTCGGTTTGCTTTACTCATTCATGAATGTTAAGAAGTGA	MKLARNVVTPLLSFAGAFIVYILLRREYINIRELDFLLLWGGLFYVVVIIPFFFLICQWVTAETSKLTFLTLPLSCILVAVLIALLLLTFSGGTLNNNPVSIYLNETALILYLTFSVMGLIFGLLYSFMNVKK				NA	NA	NA	NA	NA
AK012_03050	543	udk_2		Uridine kinase	ATGAAAAGAAAGTCAACCATGGTAGTTGCTATTGGTGCAGTTTCAGGCGGAGGAAAAACGACAATTGCTTCTTGCTTAGAAGACAGGCTGCCAAATAGTAAAACTATATATTTTGATGATTACGATTTTAACGGACCGGAAGACATGATTAAATGGATGGACAATGGCTGTAATCCTGATGATTGGGACTTATCACCACTTATTAGAGATATAAATCAGCTGCTGACTGAATCTTTGAATTACATAATATTAGATTTTCCGTTTGCTTATTTACATAACAAAACAAGCAGTCTTATTGACCTTGCAGTGTTTATTGATACTCCATTGGATATTGCAATGGCACGCAGAATAAGTAGAGATTATAAAAGTGAATCTGTTGAAGATGTAATATTGGATTTAGATAACTACTTAACTGTAGGCAGACGTGGTTATCTTAGTATGCTGGAAAAGACAAAACCAAATTCTGATCTGATTGTAGACGGCGCACTACCTAAATATGAAATTGCTGGTACGATCACTCAAAAGGTTATGAACATAAGATGA	MKRKSTMVVAIGAVSGGGKTTIASCLEDRLPNSKTIYFDDYDFNGPEDMIKWMDNGCNPDDWDLSPLIRDINQLLTESLNYIILDFPFAYLHNKTSSLIDLAVFIDTPLDIAMARRISRDYKSESVEDVILDLDNYLTVGRRGYLSMLEKTKPNSDLIVDGALPKYEIAGTITQKVMNIR	PGPT0021230_4281	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021230-udk-K00876	NA	NA
AK012_03051	186			hypothetical protein	TTGTTAAAGTCTGAGTCAGCCAATAGATTAATAAGTCTACTAGTTCTTTGGGGGTTAGTAACTATTGTGTTGTTAAATGGTAACGGTATTTCCTTAGATCATCCGGCTTTCCTAATCATTACCATTGTTTCAGCGGCTTTAGGCACGATATATCATTTGTATAAATTGTTACTAAATAAGGATTAG	MLKSESANRLISLLVLWGLVTIVLLNGNGISLDHPAFLIITIVSAALGTIYHLYKLLLNKD				NA	NA	NA	NA	NA
AK012_03052	1170	sbnH	COG0019	2-[(L-alanin-3-ylcarbamoyl)methyl]-2-hydroxybutanedioate decarboxylase	ATGGATATCGAGAAAATCATCAATGAAAAGCATCGAGGAACGGATCCCGTATGTGCGTACGTCTATGACTTACAGCAGCTGAAAACCCATGCGGCCTCTCTGAAGGCAGGTCTGCCGGGTTTTTGTGAGCTGTATTATGCCGTAAAAGCAAATCCGGACCCCAACATTTTAGAAGCGCTTGCTCCCATCATCGATGGATTTGATACGGCGTCTGAAGGGGAGATGGAGAAAGCGGAAGGAGAACGTCCGCTTCTTTTCGGTGCGCCTGCAAAGAAAGACCGGGAAATTGCATCAGCGGTTGAGAAGGGGATTCGGTACATCAATGTGGAAAGCCTCCACGATTTATATAGAATCAACGAAGCTGCCGGAAATGCGGGGAAAGTGATGCCCGTCCTGCTTCGTGTCAATCTTCGCAAAGATGTACCGGAAAGTCATCATATGATGTCGGGGACAGCCACACAATTCGGCATCGATGAATATCAGATTCCTGATTGTTTGAACACCGCCGACCGACTGGATCATGTCGACGTGAAAGGTTTCCATTTTCACGCCATGTCCAATAACCTCGATGCCCGGAAGCACGTGGCTTTTACTGCGCTTTGTATTCAAAAGGCCAAGGATTGGGCCGGAACTTTCCAGCTGGATCTGGAAACGGTTGACGTAGGTGGGGGCATCGGCGTCAATTATTGGGACCCGGACGATCCGTTTGACTGGCCGGCCTTTGCCGCCGGGCTGCACCAATTAGAGGAAGAAGCGGAAGATCTGACCGTGATTCTTGAGCTCGGCCGTTACATGACGGCTGGATGCGGCTCCTATGTGACAGAAGTGCTGGATGTAAAGGAAAATCACGACAAAGCCTTTGCTCTTGTCCGCGGCGGTTCCCACCACCTTCGTCTGCCGGCGGCCTGGAAAATGAGTCATCCGTTTCGGATCATCCCTGTAGAGAAGTGGGAGAAACCCTGGCCGCGTCCGCATGTGGCGGGCCGGGATGTAACAATTACCGGAGAACTCTGTACGCCGAATGACGTGCTCGTCCGCGGGGAGAAGGTGGATATTCTCCGTGCCGGAGACCTTGTCGTTTTTGAATATGCCGGGGCTTATGCCTGGACCATCTCCCATCATGAGTTTTTAAGTCATCCCGAACCTCAGATGATCTATGTGGATGAATAA	MDIEKIINEKHRGTDPVCAYVYDLQQLKTHAASLKAGLPGFCELYYAVKANPDPNILEALAPIIDGFDTASEGEMEKAEGERPLLFGAPAKKDREIASAVEKGIRYINVESLHDLYRINEAAGNAGKVMPVLLRVNLRKDVPESHHMMSGTATQFGIDEYQIPDCLNTADRLDHVDVKGFHFHAMSNNLDARKHVAFTALCIQKAKDWAGTFQLDLETVDVGGGIGVNYWDPDDPFDWPAFAAGLHQLEEEAEDLTVILELGRYMTAGCGSYVTEVLDVKENHDKAFALVRGGSHHLRLPAAWKMSHPFRIIPVEKWEKPWPRPHVAGRDVTITGELCTPNDVLVRGEKVDILRAGDLVVFEYAGAYAWTISHHEFLSHPEPQMIYVDE	PGPT0003470_54	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-STAPHYLOFERRIN_B_BIOSYNTHESIS,PGPT0003470-sbnH-K23373	NA	NA
AK012_03053	1977			hypothetical protein	ATGATTTTTACCGATATTAAGACAATGCCGCGCCCGATTTTGGAGGAGGAAAAGAGTCTCCGGTTTTTAACCAGCCATCAACCCGAACTCGTCCCTTATTTTCATAAACACAGAGAGAGGGGGAGGAAAGGGATCCTGCACAAGCTGGCTGATTCGATTCTGCGTGAGAACATTCAAGAGATCTTCCAGACGGCGCGGAAAGTAGAAGTCAAAGGAGGAACTCTACATGTAGATGGAAATCCTGTTTCTGACCATCCTCTGTATGAAGTGCTCAAAAACCAGGCTTTGGAAGAGGGGACTGTCTACCTGCTCGTCTGTCCGCATGACTATGGCGTTTTATTTCCAATCCGTCGGATATCAGCCTTTCACATGGTCGAAACCACAGAGGAGATCCTGTTCGTTTCCAGTGAGGGCTGCCGGGCTGTCGAATCAGCAGCCGATCTTCTCCACCTTTTATTTTCCGTAGAGGATTTCCCGAACCTTTTCCCCTTCACAAGGGAATTGAACAATGGAACGGCGAATTTAACAATGGCGCTTGCTTTCGATGAGTTCTGGAAGGATGGGGTGAAGAAGGAAGCCCGTGAACTCGGGACGGACACGTTGTTTTCCTATCTCTCCTCTAAAAAAGGCGAGCCTGGTTTTTCGGCCCCATTATTTTTTGAGCAGCTTGTCGTTGAGGGACATCATTTACACCCGGGAGCTAAGACGAAGCTCGGTCTTTCCTACTCCGATGTGTTCCGGTACTCCCCTGAATTCCATCAGCCGTTTGCTGTCCGGTTTGCTGCGGTGAAGCGGGAGGCCCTTATCATGACAGACCCCGGACCTGGTGAGTATTTTAAAGAACAGACGGCAACTGCTTACGAGGAGCTTACAGAAAAAGGATTTCAGGCGGAGGATTTTGTCATCCTTCCTGTTCACCCTTGGCAGATGGACCATGCTCTGCCAGCCATTTATGAAGAAGAGATGGAAAGCGGGACAGTTGTTCTGCTGGACCGGCCTTATTTGGATGCCGAAGCCACCTCATCTTTCCGAACGGTCGCCCCCTGCGGGAAGGAACCGGTCATGAAACTGGCCGTCAACAGCCAGATGACCTCGACAATCCGGTCGATTTCCACGCAGACCGCCATGAATTCGACTGTCTTTTCCCGGCTGATCCAAGACATTTATGAAAAAGAAACAGGGATGGAGAATTTCGTTCCTTTAATGGAGCTCGCCGGGGCGGCTTTCCACTCAGACGATCGGTTGAAAAGCCGGAACTTGACGATGCTGCTGCGGGAAGACATGGACCACCATTTGCAGGAAGGGGAATGGGCTGTGGCTGGCATGGCCCTCTATGCCGAATCGCCCATCAGCGGGCGGACGGTTCTGAGAGATATCGTCGAAGAACTGAGCCGCCATGAGCACCTTACGATCGCAGAAGCGTCAGAATCCTTCTTCAAGACCTACATTGAAAAAGTGCTTCCCGGCTATCTGAAGCTGATGGTGAAGTACGGGATCGCATTGGAGGGGCACCTGCAGAACAGTATTCCTGTTTTCAAAAACGGCCGTCTTTCCCGTTTCTTTTTCCGTGACTGGGGCGGATCACGCATTTACACCGATCGTCTCCGCAGACGTGGGTTTGCTCCGAAGTTTGCAGCTGATTCGGTCAGCGTGACCAACAACTTGTCCGATATGCACCATAAGCTGTACTATACAGTCTTTCAAAATCACCTGGGAGAAATCATCAGGCAGCTGAGTGAGTGGACGGAAGCGGATGAGCTGTGGTTCTGGAGTGAGGTGAAACAACAGTGTGAGAAGACATTGAACGATTTGGCGGAAGAGGAAGAATCCGGAAAGGCTGTAAACGAAGACCGTGATTTTCTATACCAGCCGGTCGTGATGCACAAATCGTTGACGAAAATGCGTCTCACAAACAGTCAGGGGTATGGCTACAATGAAGTGCCGAACCCGTTGGGACATCAGGTAGTGGAGGAATAA	MIFTDIKTMPRPILEEEKSLRFLTSHQPELVPYFHKHRERGRKGILHKLADSILRENIQEIFQTARKVEVKGGTLHVDGNPVSDHPLYEVLKNQALEEGTVYLLVCPHDYGVLFPIRRISAFHMVETTEEILFVSSEGCRAVESAADLLHLLFSVEDFPNLFPFTRELNNGTANLTMALAFDEFWKDGVKKEARELGTDTLFSYLSSKKGEPGFSAPLFFEQLVVEGHHLHPGAKTKLGLSYSDVFRYSPEFHQPFAVRFAAVKREALIMTDPGPGEYFKEQTATAYEELTEKGFQAEDFVILPVHPWQMDHALPAIYEEEMESGTVVLLDRPYLDAEATSSFRTVAPCGKEPVMKLAVNSQMTSTIRSISTQTAMNSTVFSRLIQDIYEKETGMENFVPLMELAGAAFHSDDRLKSRNLTMLLREDMDHHLQEGEWAVAGMALYAESPISGRTVLRDIVEELSRHEHLTIAEASESFFKTYIEKVLPGYLKLMVKYGIALEGHLQNSIPVFKNGRLSRFFFRDWGGSRIYTDRLRRRGFAPKFAADSVSVTNNLSDMHHKLYYTVFQNHLGEIIRQLSEWTEADELWFWSEVKQQCEKTLNDLAEEEESGKAVNEDRDFLYQPVVMHKSLTKMRLTNSQGYGYNEVPNPLGHQVVEE	PGPT0003430_38	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-STAPHYLOFERRIN_A_BIOSYNTHESIS,PGPT0003430-sfaD|sfnaD-K23446	NA	NA
AK012_03054	1845	sbnF	COG4264	2-[(L-alanin-3-ylcarbamoyl)methyl]-3-(2-aminoethylcarbamoyl)-2-hydroxypropanoate synthase	ATGACGGAAATGATCGAACAGGAATATAGAGAAAAGGCGGCGCTGTCCGTGCTTCATCAGCTTCTTCAGGCCATCATACGTGAGCAGGTCTTTCCATATGAATGGATGAAGGAACATGGAGAGATCCATATCAATGCGTACGATGGAAAGATCCTTGTGGTTGTGGAGAGAACCTACAGGCTGGGTCAGCTGGACATCAGCCGTGTCTTACATAGCGGAGGTCACGGGACGACATCTGTGGTTACAACCCCGGAACAGCTGCTGGATGTGCTTTATTCCCCTGCGGATAAACAGGAAATACAGCGCTTTTGTGATGAAATGGCCAATAGTGCGTCGAATTACGCGCTGGCCTTGAAGGCGGCGGAAGAAAGAAGGATCGGGGTTGTTAAGGATGCCCGCAGACTGGGAGCAGAAACGATGCTTTCCTACGTGGAAAAAAGAAAGCAGGAAAATGCTTCCTTCAGTCCGCTCGTCTATTTTGAACAGTGGGTGATCCAGGGGCATACGATCCACCCCGGGTCACGTACGCGAATGGGACTGCATCCGGTAGACATCTACGCCTACGCGCCGGAATGGGAGGGAAAGCCGGCTGTTATTCCGGCAGCTGTTCATAAGAGTGTCGTCAAACAGACGCTTATGGGCAGAGAAACAGCCAAGTCCCTGCTTTTCAAGGAATACCCAGGGTTGGAAGATGCCTTTGAAGCAGCCTGCAGCATTCAGGGAGTCAGAGGAGAGGACTATCAGCTTCTTCCTGTCCACCCGTGGCAGTGGGAGCATACAATCAAGCCGTGTTATAAGGAAGTGCTGGACAGTGGCCTTGTCTTCCCAGTCATGGAGTATACCCTTCCTATGGCTGCACTCATCTCTTTTCGAACACTTGCTCCAGATAACAGCCTTACCCGTCACCATATAAAGACAGCCGTAAACGTACAAATGACAAGCGCCGTCCGAACCGTGTCGGCAGCCTCGACAAAAAACGGACCCGCCTTATCCCGCCTATTTGAGCGATTGTTGAGTCAGGATGAGGAGCTGGCGGGATGTTTGTCCGCCATGAAGGAGCCGGTGGGCCTGCATTTTGAGCCCGGGGAGCATTTATCAGATAAGGAAAGATATGAAAAGCAGAAAAACCTGGCGGCCATTCTCCGTGAAAATCCGGAGAAAGGCTTAAGCGGGGATGAAATGGCTGTGCCGGCGGCTGCTCTTGTCGCAGATTCGCCGATCAGCGGCCGGTTAATTGCCCGGGAAATGATGGAGATGATGACGGAATCATCGGCAGAGGCGTTCATTCAAGCCTATGCAGAGGCTGTGCTCCCGCCGATTCTGACCCTTGTGACGAAGTATGGCATCGGGATGGAGGCGCATCTGCAGAATTGTGTCGTCGTATTTTCCAAGGGACGGCCGAAGCGGATCATCCTGAGAGACTTCGGCGGTATCCGGATCATGAATGAACGGCTGGAACGTTTTTTTGATCACCTTCCGATTGACCCGGCTACCAACCTATTGACGAATCAAGTGGATGACCTTATGCATATCTTTTCCCATGCCCTCCTCCATAATCACTTCGGAGAAATCATTACCGCTCTCTCAAGGTCCGTGGGCGGACGGGAAGATAAGATGTGGGAAGCTGTAACCGGTGTAATTCGGGAGAGTTATCAAAAAATGAAAGAACAGACTTCTATACAGACGCAAGCAGCCGCCGATGAGGCAGCTTTGTTTACCGGTCCATCAAAAATGAAGGCGCTCGTCCAGATGAGACTGACCGGCCAATATACGGATTACCGTTATGTGGATGCGCCGAATCCACTGACAAAGGAGGTGGGAAGCCATGATTTTTACCGATATTAA	MTEMIEQEYREKAALSVLHQLLQAIIREQVFPYEWMKEHGEIHINAYDGKILVVVERTYRLGQLDISRVLHSGGHGTTSVVTTPEQLLDVLYSPADKQEIQRFCDEMANSASNYALALKAAEERRIGVVKDARRLGAETMLSYVEKRKQENASFSPLVYFEQWVIQGHTIHPGSRTRMGLHPVDIYAYAPEWEGKPAVIPAAVHKSVVKQTLMGRETAKSLLFKEYPGLEDAFEAACSIQGVRGEDYQLLPVHPWQWEHTIKPCYKEVLDSGLVFPVMEYTLPMAALISFRTLAPDNSLTRHHIKTAVNVQMTSAVRTVSAASTKNGPALSRLFERLLSQDEELAGCLSAMKEPVGLHFEPGEHLSDKERYEKQKNLAAILRENPEKGLSGDEMAVPAAALVADSPISGRLIAREMMEMMTESSAEAFIQAYAEAVLPPILTLVTKYGIGMEAHLQNCVVVFSKGRPKRIILRDFGGIRIMNERLERFFDHLPIDPATNLLTNQVDDLMHIFSHALLHNHFGEIITALSRSVGGREDKMWEAVTGVIRESYQKMKEQTSIQTQAAADEAALFTGPSKMKALVQMRLTGQYTDYRYVDAPNPLTKEVGSHDFYRY	PGPT0003420_4	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-STAPHYLOFERRIN_A_BIOSYNTHESIS,PGPT0003420-sfaB|sfnaB-K23447	NA	NA
AK012_03055	744			hypothetical protein	ATGAAGACTGCATTCGATCATATCCAAAAAAATCATAGGATTTATATCGGTACGGAGCACTCCGGGCGTGTCTCCTTCCATGTGGGAAACCTGATAAAAAACAACGGAGACCTTGAGGAACTGCTTACGTTACAGGCGGGTAACCTCAACGCCCCGAACTTATCCATCGCCGGTCTTCTGTTTGGAAAGATGTATTCTGTCCTCACTATGGGGCTGTTCGAATCCATCGTCCGGTACGGCCTGGTCCTTGATGGACATCCGGATCATTATGGCATTGAGACCAAAGAGAAAAACGCCATGAACTATATCCTTCCCGAAAACCGTGTCCACGCCGTCAAGGACGTATCAGAGGCATATGTCAAAAAGCAGATTCATACGTTCATCGTACATCATCTGCAGCCACTGTTCCAGACTGCCGCCCGTGTCTCCAAATGCAAGGCGGCCCATATGCGTTCCATCGTATCCCATAATCTGCATCAACGCATGTGTGCCATGGAAAAAGAGGGGGTGGACCCGGAGGAGCTGGAAAAAGTTTTCCGTTGGTTTACATCAAACGAGCTGTTCCAAGAAGGTGAACGCAATCCTCTCTTCTTTAATTTTCGCTGGTACACCTCTGAGGACGGCAAAGAAACCTATGTCCGCCGGCACTGCTGTATGAAATATATGCTTCATAATGCGGATAAACGCAAATGCTGTGCGACCTGCCCACTCATATCCGATAAGGAGCGCAGGGACCGGATATAA	MKTAFDHIQKNHRIYIGTEHSGRVSFHVGNLIKNNGDLEELLTLQAGNLNAPNLSIAGLLFGKMYSVLTMGLFESIVRYGLVLDGHPDHYGIETKEKNAMNYILPENRVHAVKDVSEAYVKKQIHTFIVHHLQPLFQTAARVSKCKAAHMRSIVSHNLHQRMCAMEKEGVDPEELEKVFRWFTSNELFQEGERNPLFFNFRWYTSEDGKETYVRRHCCMKYMLHNADKRKCCATCPLISDKERRDRI				NA	NA	NA	NA	NA
AK012_03056	1149	mtlD	COG0246	Mannitol-1-phosphate 5-dehydrogenase	ATGAAGGCCGTTCATTTTGGAGCAGGAAATATCGGCAGAGGGTTTATCGGAGCTCTGCTGGATCAATCAGGATTTGAAACGATTTTCGTTGATGTGAATGAAACGTTGATCGATCAGTTGAATGAACGCCGGAGCTACACCGTGGACCTTGCTGGTTCATCCGAATCTCTTGAAGTGAACCATGTATCTGGATTGAACAGCATCAAACAGAAGGAAGCGGTCATTGAAGCGATTGCTGAAGCCGATCTGGTTACGACAGCTGTCGGTCCTCATATTCTTTCAGTCATCTCAGGCCTCTTGGCTGAAGGCTTGAAACAGCGCACCGGGAACAACGGTGGGCCCGTGAATGTCATTGCCTGTGAAAACATGATTGGCGGAAGTGAATCATTGAAAGCCTCTGTCCTTGAGCATCTTCAGGGAGATGAAGCGGATGCTGTGCTTGAAAAAACTGGATTCCCGAACGCAGCGGTCGACCGTATCGTTCCGGATCAATCCAATGAAGATCCTCTTGCTGTTAAAGTAGAACCTTACTATGAATGGGTGGTGGAAACGCCGGCCATCAAAGGGGAGCGCCCGGCTGTTGAAGGCATTACGTATGTCAGTGATCTAACGCCATACATTGAGCGGAAGTTGTTCACTGTGAACACAGGGCATGCGGTTCCAGCTTATCTCGGCTATTACTACGGTCATAAGACGATCATGGAAGCGATGAATGATCCAAAAGTGAAGGATGTTCTTCGAGGTACGCTGGCCGAAACAGGGGCCGTGCTCGTTGAGAAGTACGGGTTCGACAAGGAAACACATCAAGCGTATGCCGATAAGATCATCGGACGCTTTGAGAACCCGGACTTGTCTGATGAAGTCACTCGTGTCGGCCGGGCACCTAAACGGAAGCTCGGGCCGAAAGACCGCCTGATCCGCCCGGCTGTCGAGTATGCCGAACGCATGAACGAAGAGCCGGCTCACCTGGCGGAAGTCATTGCGGCTGCCCTTCTGTATGATTATAAGGAAGACCCGGAAGCAGCTGAACTTCAGGAAGAATTGAAGAACGAAGGGCTTCCAGCCACGCTGGCCCGCACCTCCGGTCTGGATGCCGGCCACCCGCTCGTCCAGCTCGTAGAACAGAAATACAATCAAATGAAGGCATAA	MKAVHFGAGNIGRGFIGALLDQSGFETIFVDVNETLIDQLNERRSYTVDLAGSSESLEVNHVSGLNSIKQKEAVIEAIAEADLVTTAVGPHILSVISGLLAEGLKQRTGNNGGPVNVIACENMIGGSESLKASVLEHLQGDEADAVLEKTGFPNAAVDRIVPDQSNEDPLAVKVEPYYEWVVETPAIKGERPAVEGITYVSDLTPYIERKLFTVNTGHAVPAYLGYYYGHKTIMEAMNDPKVKDVLRGTLAETGAVLVEKYGFDKETHQAYADKIIGRFENPDLSDEVTRVGRAPKRKLGPKDRLIRPAVEYAERMNEEPAHLAEVIAAALLYDYKEDPEAAELQEELKNEGLPATLARTSGLDAGHPLVQLVEQKYNQMKA	PGPT0013700_469	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ALCOHOL_UTILIZATION	PLANT_DERIVED_MANNITOL_DEGRADATION,PGPT0013700-mtlD-K00009	NA	NA
AK012_03057	441	mtlF	COG2213	Mannitol-specific phosphotransferase enzyme IIA component	ATGATGTCTAACAACATTTTGACAAAAGGAAACATTGAACTGAACCAAACACTGGGAACGAAAGAAGAAGCGATCCGTTACGTCGGCGGCATTTTGAATGGCCAGGGGTATGTAGAAAAGTCCTATATCGATGAAATGCTGAAGCGTGAAGAGCTGACATCCACATACATGGGGAACTTTGTAGCCATCCCTCATGGTACGGAGGATGCGAAGAAAGCGGTACTTGAAACAGGCATCAGTGTGGTGACGGTACCAGAAGGGGTGGACTTCGGAGACGGAAACATCGTGAAGCTGTTGATCGGTATTGCCGGGAAAGGCGATGAGCACCTTGAAATTCTTTCTCAAATCGCGATTGTATGTTCAGAAGAAGAAAACGTTCAGAAATTGATTGAAGCGGAAAGCAAAGAAGAAGTCATTCAAATGTTCAGCGAGGTGGAATAA	MMSNNILTKGNIELNQTLGTKEEAIRYVGGILNGQGYVEKSYIDEMLKREELTSTYMGNFVAIPHGTEDAKKAVLETGISVVTVPEGVDFGDGNIVKLLIGIAGKGDEHLEILSQIAIVCSEEENVQKLIEAESKEEVIQMFSEVE	PGPT0016940_319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_MANNITOL_PTS_SYSTEM,PGPT0016940-cmtB-K02798	NA	NA
AK012_03058	2094	mtlR		Transcriptional regulator MtlR	ATGTATGTGACGGCCCGTGAAAGGAAGATTTTAGAGCAGCTTTTTTCTGAGGAAGAAAAAGTGACGATCAAACGTGTAGCCGATGACCTTGGGATCAGCACACGAACCGTCCACCGTGATTTGAAGGGCATTGAACGAGCGTTGCAGGATTACGGACTGCAGTTATCCAAGCAATCGGGAGGCCTGCTCACTCTGGAGGGTCCTTTTGAAAACCGCCAGCAGTTTAAACGGGAGCTTCACCAGCAGGAAACCGTGGATTATACGCCGGAAGAACGCCAGGTGCTTATTTTATCGAAGCTGTTGGAATCACGGGAGCCCGTGAAACTGTCCGCTTTAGCGGCGGATCTGGGAGTAACGTCAGCCACCGCCAGCAATGATCTGGATAAAGTGGAACTCCATTTAGAAAGTTTTGATCTTACACTCGTCCGGAGGCGTGGGTACGGGGTGGAAGTCAACGGAGCGGAATCTGGTATCCGTAAGGCAATCAGTTCACTGATCATGAAACATTTGAATGAATTGGATTTGTTTTCGATTCTGCAGCAGAATATGCAGGCAGAGAAGAAGCCTGTGTCTTCCATTTCCGGTCAGGTGCTTGAATTTGTTCAGCCGGACAAGCTGACGCAAATTGAAACCCATGTCGATCAATTAAGGGACAAACTGCATTATCCACTGGCTGACAGTGCCTATATTGCTCTGGTCATCCACCTTGGGCTGGCTATTGAACGGATTCAATACGGGGAAATCATCCATATGGAAGAAGAACAGCTGGATAAGCTCCGGCACTCCAAAGAGTTTGAATTTGCCAGGGAGCTGACAAGCATGCTGGCGGATGCGTTTCAACTGGATATCCCGGAAGCGGAAACGGGTTTTATTACGATGCACTTGATGGGAGCCAAAGCGCGTTATGACCGTCATTCTGTTCTTGAAGATTCCAATATGAGCGTAGCGTTCAAGACAAAACAGCTGATCACAGAAGTTACGAAACGGACAGGTATCCAATTCCAACAGTCCGACCGACTGCTCCACGATTTGGTGGCCCACTTGAAGCCGAGCTTATACAGGCTTCAGCACCAGATGGGGATTGAGAACACGTTTACCGATCAGATGATGGAGGATTATCCGGAGTTGTTCGTTCATATCGAAGAAAGTCTTGCTGATGTTTTTCCTGATCTTTTCTTTCCGAAAGAAGAAGTTGCCTTTGTCGTCATGCATTTTGCCTCAGCCCTCTTAAAACTTGAAGGCAGAGGAGGCCTGGACGTTCTCGTTGTCTGCTCAAGCGGCATCGGGACAGCTAAGATTCTGGCCGCCAAGCTTCAAAAACGGTTCAATGAAATAGAAACCGTCGAGCATCGCTCTCTTTTTGAGTTGAAGGATATGGAGAGCAGGAATTATGATGTCGTTGTTTCTACGATTGAACTCCCGGATATCGAAGACTATGTCAGGGTAAGCCCGGTGCTGCCGCAGAAGGATGTTCATAAGCTGGAGCACACCATCCGGCGTGTCCAGGTGCTGCAGCATTTGAAGGAAGCGAAAAAGGTCCCGGCGGCATCGGAGTCCCCTGCAGACTTCGGCCAGGTGAGAGATAAGCTGAAAAGCTGGAGAAGCTATGCTGATGTTGTGGACAAGCTGCTGGGCCGGCTGGCCGCATTTCAAACAGGTGGATCAGATATACAGGAAGTACTGACCTCCATGACCGGCGATCTGGCTGCAGACGGCTTTATTCCAGACGGTCCCGCTGTCCGGAAAGCCTTGTTGGAACGGGAGGAGAAAGGTGGACTTGCCATACCTGGTACCTCCCTCGCGTTGTACCATACACGCAGTGGAGTGGTTGAAGAGCCGTCCTTTACCGTCCACTTTACCGAGCAGCCGGTCGAGGCTGTCGATATGGGAGGGGAACCGGCCGGTGTACACACGATCCTGCTTATGCTCGCACCACAGGATATGAGCAGGGAAGGCCTGGAAACATTGAGTTACTTGAGTTCGCTGATTGTTGAGGATGAAGAATGTGTGGCTGTTCTGGAATCCAGAGAGGAAGACACCATCGTCAATTACCTCAGCACGAAGCTTTATGAATATTTACAAATTAAACAATAA	MYVTARERKILEQLFSEEEKVTIKRVADDLGISTRTVHRDLKGIERALQDYGLQLSKQSGGLLTLEGPFENRQQFKRELHQQETVDYTPEERQVLILSKLLESREPVKLSALAADLGVTSATASNDLDKVELHLESFDLTLVRRRGYGVEVNGAESGIRKAISSLIMKHLNELDLFSILQQNMQAEKKPVSSISGQVLEFVQPDKLTQIETHVDQLRDKLHYPLADSAYIALVIHLGLAIERIQYGEIIHMEEEQLDKLRHSKEFEFARELTSMLADAFQLDIPEAETGFITMHLMGAKARYDRHSVLEDSNMSVAFKTKQLITEVTKRTGIQFQQSDRLLHDLVAHLKPSLYRLQHQMGIENTFTDQMMEDYPELFVHIEESLADVFPDLFFPKEEVAFVVMHFASALLKLEGRGGLDVLVVCSSGIGTAKILAAKLQKRFNEIETVEHRSLFELKDMESRNYDVVVSTIELPDIEDYVRVSPVLPQKDVHKLEHTIRRVQVLQHLKEAKKVPAASESPADFGQVRDKLKSWRSYADVVDKLLGRLAAFQTGGSDIQEVLTSMTGDLAADGFIPDGPAVRKALLEREEKGGLAIPGTSLALYHTRSGVVEEPSFTVHFTEQPVEAVDMGGEPAGVHTILLMLAPQDMSREGLETLSYLSSLIVEDEECVAVLESREEDTIVNYLSTKLYEYLQIKQ				NA	NA	NA	NA	NA
AK012_03059	1833	mtlA		PTS system mannitol-specific EIICB component	ATGAGTGAAAAGCAGCAAGCTGGTTTTCGTGCCCGGGTGCAGAAGTTCGGCAGCTTTCTAAGTAGTATGATCATGCCGAACATCGGCGCATTTATTGCATGGGGTCTTATTACCGCTTTATTTATACCAGATGGATGGTTCCCAAATGAGGATTTAGCCGAAATGGTCGGTCCGATGATTACCTATCTCCTTCCATTATTGATCGGTTTCACAGGTGGACGCCTTGTGCACGGTCTGCGTGGAGGAGTGGTCGGTGCGACAGCCACGATGGGGGTTATCGTTGGGGCAGAAATTCCGATGTTCCTTGGAGCCATGGTTATCGGTCCATTCAGTGGACTGGTTATCAAATATGTAGATAAACTGTTTGAAGGAAAAGTAAAATCCGGTTTTGAAATGTTGATCAACAACTTTACGGCCGGTATTGCCGCAGGTATTCTAGCTATCGTTGGTTACTATATAGTCGGCCCGGTTATGGCTGGTCTGACAAATATTCTTGGAAGTGCGGTTGAATTCCTGATCGGCGCTGGACTGCTTCCACTGGTCAACGTCTTTATTGAACCAGCGAAGATTTTGTTCCTGAACAACGCCATCAACCACGGAATCCTGAGTCCGATTGCTGTGGATCAGACCCAGGATCTTGGTAAATCGATTCTCTTCCTGCTTGAGGCCAACCCAGGCCCTGGACTTGGTGTCCTGTTAGCCTTTACGTTTTTTGGTAAAGGGGTTTCCCGTCAGACAGCACCGGGTGCTGCAATCATCCACTTCTTCGGTGGTATTCACGAAATCTATTTCCCGTATATTCTGTCCAAGCCAGCTCTGCTTCTAGCCGTTATTGCTGGTGGTGTATCAGGTACAGCAACCTTTGCCGCTCTTGATGTCGGGCTGACAGCTGCATCGTCCCCGGGTAGTATCATCGCCATTGGAACTCTGACAGCACGTGGAGATCTGCTGGGAGTAATCGCTGGTGTATTGATTGCCGCTCTTGCTTCTTTCCTTGTCGCTTCCTTGATTCTGAAGCTGAGCAAGAAAGAGGAGGAAGATGATTTGAACCAGGCGACTGCGCAGATGGAACAGATGAAAGGGAAGAAGAGTTCTGTTTCCAGCCAGTTGACGAAGGACGAAGAAGCAAATGAAGCTTCTACAGAGGAAGCTCCTTCTGGAAATACAGAAGAAGTACCATCTGTACGTGAAGGGGATATTGACCGGATTATCTTTGCCTGTGACGCCGGCATGGGATCCAGTGCAATGGGAGCCTCCCTTCTTAAGAACAAATTCAAAAAAGCAGGGATTAACATTGATGTAACAAACATGGCGATCAATGACCTGCCATCTGATGTGGACATCGTCATCACGCACAAAGATTTGACAGAACGCGCCATGCAGCGTGTACCGGGAGCGCACCATATTTCCGTGGATAACTTCCTGAACAGCCCGCGCTATGATGAGCTTGTCAATGAACTGCAAAATGATGAGAAGCCTGAAGAATCCCAGGAAAAAGCGCAGCCTGCGCCATCTGGAAATACCGGAGAAGTTCCAGCCGTGGATGAAAAGGAAATTGACCGGATCATCTTCGCCTGTGACGCCGGTATGGGATCCAGTGCAATGGGAGCTTCCCTTCTTAAGAACAAGTTCAAAAAAGCAGGGATCAACATCGATGTAACAAACATGGCGATCAATGACCTGCCATCTGATGTGGACATCGTCATCACGCACAAAGATTTAACGGAGCGCGCGATGCAGCGTGTACCGGGAGCGCACCACATTTCCGTGGACAACTTCCTGAACAGCCCGCGCTACGATGAATTGGTCAATGAACTGAAAGAAGACGAATAA	MSEKQQAGFRARVQKFGSFLSSMIMPNIGAFIAWGLITALFIPDGWFPNEDLAEMVGPMITYLLPLLIGFTGGRLVHGLRGGVVGATATMGVIVGAEIPMFLGAMVIGPFSGLVIKYVDKLFEGKVKSGFEMLINNFTAGIAAGILAIVGYYIVGPVMAGLTNILGSAVEFLIGAGLLPLVNVFIEPAKILFLNNAINHGILSPIAVDQTQDLGKSILFLLEANPGPGLGVLLAFTFFGKGVSRQTAPGAAIIHFFGGIHEIYFPYILSKPALLLAVIAGGVSGTATFAALDVGLTAASSPGSIIAIGTLTARGDLLGVIAGVLIAALASFLVASLILKLSKKEEEDDLNQATAQMEQMKGKKSSVSSQLTKDEEANEASTEEAPSGNTEEVPSVREGDIDRIIFACDAGMGSSAMGASLLKNKFKKAGINIDVTNMAINDLPSDVDIVITHKDLTERAMQRVPGAHHISVDNFLNSPRYDELVNELQNDEKPEESQEKAQPAPSGNTGEVPAVDEKEIDRIIFACDAGMGSSAMGASLLKNKFKKAGINIDVTNMAINDLPSDVDIVITHKDLTERAMQRVPGAHHISVDNFLNSPRYDELVNELKEDE	PGPT0016945_547	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
AK012_03060	1632	alsS	COG0028	Acetolactate synthase	ATGAATGCAGCTCAACTACTGATACAATGTTTGGAAAATGAAGGTGTCGAGTACATGTTCGGTGTGCCGGGTGAAGAAAATATCGATGTGATGGATGCTGTTTTGGATTCGTCCATCCAATTCATCACCGCCCGTCATGAAACAAGCGCCGCTTTTATGGCCAGCACGTATGGACGTCTGACAGGGAGGCCAGGGGTCTGCCTCGCCACCCTCGGACCCGGTGCTGCCAATCTTCTGACAGGTGTTGCCAACGCGAATATGGACCACTGCCCGTTGATCGCGATTACCGGTCAGGCCGGCCTTGACCGTCAGCATAAAGAGTCCCATCAGTACTATGACCTTGTCGATATTTATGAACCTGTAACCAAATGGAATGCCCAGCTCAAAACGGGTGAAATGATTCCGGAGGCTGTCAGGAAAGCATACAAGCTTGCATCGGAGGAAAAGCCGGGAGCCACACACATCGATCTGCCGGAGGATATCGCTGAAACTGAAGTCGAGGGGGCTCCGCTGCCTATCAGCCGCTCCACTCTGCCGACAGCAGAAACATCCGTGATCCAGGAAGCAGCGGAAGCTGTAAATGAAGCACACTTCCCACTCATCTTAGCCGGAAATGGAGTCACCAGAGCAGAAGCCTCTGAAGAACTTCAGGAGTTGACCGAAAAAGCCTCCATTCCGGTTGTGCATTCCTTCATGGGAAAAGGAGCGCTCTCCTGGAAGCATGAGCACAACCTTTTCGCAGCAGGAAGCGGCACGGATTACATTACGTGCGGATTCAGTAAAGCGGATTTGATCATCACCATCGGCTTTGATATGGCAGAAACGCCCCCGGAAAGCTGGAACCCTTCCGGCCGCACCCCTGTCCTTCATATCGATACGGAAACGGCTGAAATCGATTCCCACTACCCGGTCAAGGTCAATGTTGTTGGAAACATCCGGGAGAATCTCGCCCGGTTGAATACGTCCATCTCAAGACAAAAGCGGGACCTTTCCTGGGCGGAGAATGTCCGCAGTCAGATGCTTGAAGATATGAACGCTCATAACGAGGATGACTCCTTTCCTTTGAAGCCGCAGAAAATCATCTCCGATCTGCGCCGGACATTGAACGATGAGGACATCGTTATCTCCGATGTGGGCGCACACAAAATGTGGATGTCCAGGCTCTATCCGGCCGCTCTTCCGAACACGTGTCTCATTTCCAACGGACTTGCTTCCATGGGGGTATCCGTCCCCGGTGCTGTCGGTGCGAAACTGGCTCACCCGGACAAAACAGTAGTGGCCGTGTGCGGTGATGGCGCTCTCTTGATGACAGAAGCTGAAATGGAGACAGCAGTAAGACTTCAGCTCCCTATCATCATTCTGTTGTGGCGCGATGAAGGATACGGACTAATTGAATGGCACCAGAAGAAGAAATTTGAACGCACGTCCCACATCGGTTTCGGAAACCCTGATTTCTCCAAACTGGCAGAGGCGTTCGGTTTTGAAGCTCTACGCGTCGAGAAAGGGGAGGCTCTGACAGAAACCCTTGAGCATGCCGTTTCCTTAAACAAGCCTGTATTCATTGACTGTCCTGTCGATTACGGCGAAAACATGAAGCTGACGGAAAAACTGAACACAATCCAATGCGACTGA	MNAAQLLIQCLENEGVEYMFGVPGEENIDVMDAVLDSSIQFITARHETSAAFMASTYGRLTGRPGVCLATLGPGAANLLTGVANANMDHCPLIAITGQAGLDRQHKESHQYYDLVDIYEPVTKWNAQLKTGEMIPEAVRKAYKLASEEKPGATHIDLPEDIAETEVEGAPLPISRSTLPTAETSVIQEAAEAVNEAHFPLILAGNGVTRAEASEELQELTEKASIPVVHSFMGKGALSWKHEHNLFAAGSGTDYITCGFSKADLIITIGFDMAETPPESWNPSGRTPVLHIDTETAEIDSHYPVKVNVVGNIRENLARLNTSISRQKRDLSWAENVRSQMLEDMNAHNEDDSFPLKPQKIISDLRRTLNDEDIVISDVGAHKMWMSRLYPAALPNTCLISNGLASMGVSVPGAVGAKLAHPDKTVVAVCGDGALLMTEAEMETAVRLQLPIIILLWRDEGYGLIEWHQKKKFERTSHIGFGNPDFSKLAEAFGFEALRVEKGEALTETLEHAVSLNKPVFIDCPVDYGENMKLTEKLNTIQCD	PGPT0008185_10194	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
AK012_03061	630	ycgM	COG0179	putative protein YcgM	ATGGAGGAAATCCGCAACATTTATTGTGTCGGACGTAATTATCGAAAGCATGCCGAAGAGCTTGGCAATCAGGTGCCGTCCGAACCGCTCATTTTCATGAAGCCGACGCACGCATTACATAAAGCAGAAGGTGGTTTACCACTTCCATTTGAGCAGGGGTCGATCCACTTTGAAGGGGAGCTTGTTGTAAGAATGAGGGAGGATTATCACCCTGATAAGCCGCTGGACGCTATGATCGGAGGAATGGCCTTCGGCATCGATTTCACAGCGAGGGATGTACAGTCGAAGCTCAAGGAAAAAGGGCATCCATGGACGATGGCTAAGGGGTTTCCAGGTTCGGCTGTACTCAGCCGGTTTGTTCCTTTCCCGGGAGAAGAGGCTTTCAGGAAGGTGACATTTACGCTTTATAAAAATGAAGAGCTCCTGCAGAAAGGACAGCCGGACCATATGATTTTCCCTCTCCGTGAGCTTGTTGATGTGATCGGCAGACGTCTCGGACTCAGCAGGGGAGACATCATTTTCACAGGAACACCCGAAGGAGTGGGACCTGCTGCGCATGGAGATGTTTTCACATTTGAGATGGAGTCGGGCGGTCAATCGTATAGCTTCGGGCCTCTTCATATCCAGTAA	MEEIRNIYCVGRNYRKHAEELGNQVPSEPLIFMKPTHALHKAEGGLPLPFEQGSIHFEGELVVRMREDYHPDKPLDAMIGGMAFGIDFTARDVQSKLKEKGHPWTMAKGFPGSAVLSRFVPFPGEEAFRKVTFTLYKNEELLQKGQPDHMIFPLRELVDVIGRRLGLSRGDIIFTGTPEGVGPAAHGDVFTFEMESGGQSYSFGPLHIQ	PGPT0001620_1167	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PYRUVIC_ACID_BIOSYNTHESIS,PGPT0001620-nagK-K16165	NA	NA
AK012_03062	540			hypothetical protein	ATGAATATCCAGAAAGGAATTCAAATCAGCGGCATTCTTCAGTTGAATGAATTTAAGCAGTGCCACGCGTTTCATTTTAAACGGATGAAGATATGGACGCTGTTCAGCACATTGGTGCTGTTTACCATTTTGTTTTATGGATCCGTAGAAGGAGCCTGGTGGCAGAAGGCGCTGGTCTCTATGGGATATGCCTTGATTCCGGCTGCTTTTGTCTTTCTGATCATGATGTTTGTCCTCCATCTCCGTTCTACAGGTGTTTACAAAGCTGATTATTATGCCAAAAATGCATGGACCTATATGATTGATGATAAAGGGATTACCGAAAAGATTAAAAAACAGAGCCACTGCTATTTATGGAAAGAAATTGCGACGTTGAATGAAGTGTCCACGATGTTTGTTCTTTATACAAAGGATAAGCAGACCATCATTCTGCCGAAGCGCTATTTCGCTTCCGAAGAACAGCAGCAGGAATTCAAGGAACTCGCGGCTCATCATCTCAGCAAGCAGCCCTATAAACGCTGGATTCCAGCATCTACGTAA	MNIQKGIQISGILQLNEFKQCHAFHFKRMKIWTLFSTLVLFTILFYGSVEGAWWQKALVSMGYALIPAAFVFLIMMFVLHLRSTGVYKADYYAKNAWTYMIDDKGITEKIKKQSHCYLWKEIATLNEVSTMFVLYTKDKQTIILPKRYFASEEQQQEFKELAAHHLSKQPYKRWIPAST				NA	NA	NA	NA	NA
AK012_03063	627	azoR4	COG1182	FMN-dependent NADH-azoreductase 4	ATGACAAAAGTATTGTTTGTTAAAGCGAATTCTAGACCTATTGAACAATCCGTAAGTGTGAAGCTGTACCACACGTTTCTGGATCATTATAAAAAGAACCATCCGGATCACGAAATAGAAGAACTCGATCTATTTGAAGAGAACCTCGGGTACTACAACACCGACAAAATCAACGGGATGTTCAAACTGTCTCAAGGTATGGAGCTGACTCCGGACGAAGAGGCAGCGACGAAGACAGTCAATGGATATCTGAACCAGTTTCTTGAAGCGGATAAAGTCGTCTTTGCTTTCCCGCTTTGGAACTTCACGATACCAGCGGTTCTTCATACGTACTTTGATTACCTGGCTCAGGCGGGGAAAACGTTCCGCTATACGGCAGAAGGCCCTGTCGGACTGCTTCCTGATAAGAAAGTGGCCGTGTTGAACGCCCGCGGTGGTGTCTATTCCGAAGGACGGGCGCAATCCGCAGAGATGGCGGTCAATTACGTGGAAAACATTCTGCGCTTCTGGGGCATTTCAGATATTACGACACTCGTCATTGAAGGGCATAACCAATTCCCGGACAAGGCGGAAAGCATCATTGAAGAAGGGCTGGAGAAAGCAGAAAAAGTGGCTGTCTCCTTTTAA	MTKVLFVKANSRPIEQSVSVKLYHTFLDHYKKNHPDHEIEELDLFEENLGYYNTDKINGMFKLSQGMELTPDEEAATKTVNGYLNQFLEADKVVFAFPLWNFTIPAVLHTYFDYLAQAGKTFRYTAEGPVGLLPDKKVAVLNARGGVYSEGRAQSAEMAVNYVENILRFWGISDITTLVIEGHNQFPDKAESIIEEGLEKAEKVAVSF	PGPT0006790_1256	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
AK012_03064	225			hypothetical protein	ATGGGATTCACGTACGGAAAAACAGAGCTGATCCATGAACTGCAGGAACTTTTTGCAAGGCATAACGTCCGTTCCGTGGAAGTGAAAGAACCGGGCACTTTGTTTTTAGTAGAGGCAGATGGATCGCTTTCCATCGGGGTAAGAGCAGCGATTACATCGTTCGAAGAGCAGCCGGGAGCTAAAGGAAGCCGGTTTAAAGTGATCCAGGGGAAGAAAAAAACCTGA	MGFTYGKTELIHELQELFARHNVRSVEVKEPGTLFLVEADGSLSIGVRAAITSFEEQPGAKGSRFKVIQGKKKT				NA	NA	NA	NA	NA
AK012_03065	258			hypothetical protein	ATGTGGTTGAAAGAACCTGAAAAACATTTCGACAAGCCAACCGCCCACCTATCGAAAAATATTAATGAAAAAGGCGGCGTCTGTGTCGGGGACATTCAGGAAAAAGCGGCCCTCTCCCAATCGACGGTCTCCCATTACCTGGCGATGATGCAGCATGCCGGACTGCTGGAATCCGAACGCCACGGGAAATGGACCTACTACCGCAGACGTGAGGAAACCATTGAGGAAGTCGCTGAATTTATAAAAAGAGAGCTTTAA	MWLKEPEKHFDKPTAHLSKNINEKGGVCVGDIQEKAALSQSTVSHYLAMMQHAGLLESERHGKWTYYRRREETIEEVAEFIKREL				NA	NA	NA	NA	NA
AK012_03066	429			hypothetical protein	ATGAAATTATGGATTTATTTAATCGCGCTCATGGCAGGCATTTCCCTGAGTATCGAAGGAGCTGTCTATGGAGAACTGGGGCAGACCATCGGAAAGCTTGAAAGCAGCTTTTACAATTTCGCCGCCGGATCCATCATTCTCGGACTTATTGTGCTCTTTTTTGGTAAAGGAAAGATGTCAGCTGCGGTCGAGGCACCCCGCTGGCAGATGAGCGGCGGACTGCTGGGTATCATTTATTTAACCATATTGATCTTCGCCATCCCTGTGGTCGGGGTAGGTGCCGCCATGATCAGTGTCATTGTCGGACAGCTTCTCATGAGTCTGCTGATTGAATCGAGAGGCTGGCTTGGCAGTCGTGCGGTCCCCGTTCCAAAAGAAAAGATTTTTGCCGTCGTCCTGATGACCATTTCACTGTATCTCATTTATTAA	MKLWIYLIALMAGISLSIEGAVYGELGQTIGKLESSFYNFAAGSIILGLIVLFFGKGKMSAAVEAPRWQMSGGLLGIIYLTILIFAIPVVGVGAAMISVIVGQLLMSLLIESRGWLGSRAVPVPKEKIFAVVLMTISLYLIY	PGPT0009795_2305	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK012_03067	468			hypothetical protein	ATGGGCTTATTAATTATCGCAGCCTCTGTTGCAGGAGGTACCCTGCTCAGTTCGCAAAGCTCGATTAACGGAGCTTTAAGTAGAAAAGCCGGTACGTATGAAACGACCTTTTTCACTTTTATAACAGGAGCACTCATGCTTGCTCTGCTCGTCCTTTTCTTCGGCAGCGGCGACGTTATGAAAATTCTGGAAGCTCCCGCCTGGCAGTTGAGCGCTGTATGGTTCGGGGTCGGCTACTTGTTCCTGACCGTTCTCGCTGTTCCGAAAATCGGTGTGATCGCCACCAACATTGCCACCATTATCGGCCAGCTCGGTGCCGGGATGCTGATCGACCATTTCGGCTGGTTCGGAGGATTGCAGATCCCTCTCGACTGGGAGCGGATCACTGCCTTCATCCTTCTGCTCGCCGCCCTTTGGCTGATCTATAAGGCCGACAAAAAGCAGCTGCAGAAAACGGAACATTTGTAG	MGLLIIAASVAGGTLLSSQSSINGALSRKAGTYETTFFTFITGALMLALLVLFFGSGDVMKILEAPAWQLSAVWFGVGYLFLTVLAVPKIGVIATNIATIIGQLGAGMLIDHFGWFGGLQIPLDWERITAFILLLAALWLIYKADKKQLQKTEHL	PGPT0009795_1139	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-TOXOFLAVIN_METABOLISM,PGPT0009795-toxF-K09936	NA	NA
AK012_03068	102			hypothetical protein	ATGTATGAAGCCTATGAAAATGGACGCAGCTACGAGGAGCTGTTAAAGATCTCACAGGAGCTCGATGACCTGTTGAATCGTTTAGAGGAAATAACCAAATAA	MYEAYENGRSYEELLKISQELDDLLNRLEEITK				NA	NA	NA	NA	NA
AK012_03069	1098			hypothetical protein	ATGAAATTGTTTGTCATTATTCAGGAGTTTTTTATAAATATCTGCATCGTCATTGCCCTCGTATTCATGTACCTGCAGTTCCGATGGACCAAACTGCTGCCTTCCGTATCAAAAAAGAGCAGTCAGTGGGTTGACGGCCTGGCTGGAGGGATTCTTGGTATCGTTCTGATGTACTTTTCCATACAGGTGACAGAGCAGACGATCATCGACCTGCGCCACCTCCCGGTTATCCTTATCCTTTTATACATCGGGGTGCAGCCAGCCCTTTTGAGTGCTGTCATTATTGCTTCCGGACGGCTGTTGTATGGAATCAATCCTTCCTCCATGGCCGCCATCGCCTTAATGGTCTTATTGTTTACCGGTTATTTGTGGGTGTATCGGAAGCTGCATCACAGGGAGAGCCCTCTCCAATCTTCCTTTCAAATGCTGCTTTGGTCCAACGTCGTCTTCTCATTCATCATTTCGATGTTAGTCAGAGACTGGGGAACCCTGCAGTTTATTATCCCGATTTACTGGCTGATTTCCTTCATCGGAGGGATGCTGGCTTCCTATCTCGTCCATTATCTGCGGAGGTCTCATTACCTTTTCAAGAAATATGAAGAGCAGTCATCTATTGATTTTTTAACGGGGTTATATAATGTAAGGGAGTTTGATCGTCTCTGGAACTACAGCGTGAAAAACGCAGTGGAAAAAGAGGAAGCGTTGACCCTGCTTGCTATTGACATTGATTTCTTTAAGCATGTCAATGATACCTATGGACATGCGGCGGGGGATGAAGTGCTCAGGCAGCTCGGGAAGATCTTGAATGATATAACCCGCTCCTTTGATATCGTATCCAGAAATGGCGGCGAGGAATTTACGGTCATTCTTCTGGACTGCAGCAATGAATCCGGCAGGTCAAAAGCAGAAAAAATCAGGCAGACAGTGGAAAGCCATGCGTTTTCACTGCCGGACGGAAGAAGGATTTCGATTACGGTCTCCATCGGAGTCAGTACATACCCTGATCAAGTGACTTCGGCCGGAGAACTTTTGGAAAAAGCGGACGAATCGTTGTATGAAGCGAAACGTTCGGGGAGAAATAAAGTCATATCCGCATGA	MKLFVIIQEFFINICIVIALVFMYLQFRWTKLLPSVSKKSSQWVDGLAGGILGIVLMYFSIQVTEQTIIDLRHLPVILILLYIGVQPALLSAVIIASGRLLYGINPSSMAAIALMVLLFTGYLWVYRKLHHRESPLQSSFQMLLWSNVVFSFIISMLVRDWGTLQFIIPIYWLISFIGGMLASYLVHYLRRSHYLFKKYEEQSSIDFLTGLYNVREFDRLWNYSVKNAVEKEEALTLLAIDIDFFKHVNDTYGHAAGDEVLRQLGKILNDITRSFDIVSRNGGEEFTVILLDCSNESGRSKAEKIRQTVESHAFSLPDGRRISITVSIGVSTYPDQVTSAGELLEKADESLYEAKRSGRNKVISA				NA	NA	NA	NA	NA
AK012_03071	222			hypothetical protein	ATGAGTAAAACCCCCCCGCGTCCCATGAAAGACAATGATGATCACAAAAAACGCTTCGCTCATCTGAAAGCTTCGTCCATCAAAACCTTGTCGGATCCTCTTCTCCTGCTGACCTATCATCAGGCCGTGAAGATGGGACTGGACCGCGACTTCCTCCTTCTTGTGTGCAGGGAGTTGAAAGAAAGGGGGTTCTCCATCGAATGCACCTCTACCTACGGATGA	MSKTPPRPMKDNDDHKKRFAHLKASSIKTLSDPLLLLTYHQAVKMGLDRDFLLLVCRELKERGFSIECTSTYG				NA	NA	NA	NA	NA
AK012_03072	408	lrpC_2	COG1522	HTH-type transcriptional regulator LrpC	ATGGACAAAACCGATGGAAAAATTATAGATGAACTGAAGAAAGATGGAAGGATGACGATGAAGGAACTGGGCGCACGTGTCCATCTTACGGGACAGGCGGCAGCGTCAAGGGTGCTGAAATTAGAAGAAGAAGGGCTGATTGATTCGTATACGGTCCGTGTGAATGAACAAAAGCTTGGGTATCCTGTCCACTGCTTTTTGAACATCTACACTGACAGCCTGAATCACCAGCCCTATTTTGATTTTCTTGAGAAAAGTAAATCCTATGTCCGGAACAATTATAAAATCAGTGGGGAGGGGTGCTATTTATTGGAATGCCGCTTCCCTTCCAATGAGGTGCTGGATGAATGGCTTATGGAGCTGAACCGGAAGGTGGGTTATAAATTATCGATTGTCATCCGTAGGTAG	MDKTDGKIIDELKKDGRMTMKELGARVHLTGQAAASRVLKLEEEGLIDSYTVRVNEQKLGYPVHCFLNIYTDSLNHQPYFDFLEKSKSYVRNNYKISGEGCYLLECRFPSNEVLDEWLMELNRKVGYKLSIVIRR				NA	NA	NA	NA	NA
AK012_03073	750			hypothetical protein	GTGAAAATCAAGCTTATTCGAAACGCAACCCTGCAATTGAACTATGGAGGCAGAACCTTTCTGATTGATCCATTCCTGGCGCCCCAAGGAGCGATGCCGCCTTTTCCGAATACACCGAATCAGAACCTGAGGAATCCGACCGCTCCACTGCCCGTCGATCCCGGACATCTGGCAGAGGCAGATGCTGTTTTCCTCACCCACCTTCACCCGGACCATTTTGACGAGGATGCGAAAGCAGTGCTCTCAAAAGAGACGGCCTTGTATGCTCAAAATGAGGAAGATGTGGAAGCTGTGCAGAAAGCCGGTTTCACCCATGTTCATTCATTCCAAAATGGTGTGGATATAGACGGCATCCGGATCACCCGCACTCCGGGTCGTCACGGTTCAGAGGAAATGACCGCTATGACTGGAAAAGTATCCGGTCTCCTCTTTGAAGCGGAAGGCGAAAGAAGTCTTTACATTGCCGGGGACACCGTCTGGTATGAAGAAATCGAACAGACACTGGCATCCTTCCGCCCCGAGGTCATCGTGGTAAACGCCGGCGCGGCTCAATTTTTAGAGGGCGGGCCGATTACCATGACGAAAGAAGATGTCAAAGCAGTTTCCGAGGCCGCACCAGAATCCGAGATGGTTGCCGTCCACATGGAATCCTTGAACCACTGCCTGTTAACAAGGGACGAATTGAAATCCTATATGAGCGGTTCCCCCACTCTTCACATTCCTGAAGACGGTGAAACGCTGACCTTTTAA	MKIKLIRNATLQLNYGGRTFLIDPFLAPQGAMPPFPNTPNQNLRNPTAPLPVDPGHLAEADAVFLTHLHPDHFDEDAKAVLSKETALYAQNEEDVEAVQKAGFTHVHSFQNGVDIDGIRITRTPGRHGSEEMTAMTGKVSGLLFEAEGERSLYIAGDTVWYEEIEQTLASFRPEVIVVNAGAAQFLEGGPITMTKEDVKAVSEAAPESEMVAVHMESLNHCLLTRDELKSYMSGSPTLHIPEDGETLTF				NA	NA	NA	NA	NA
AK012_03074	1236	hyuC_2		N-carbamoyl-L-amino-acid hydrolase	TTGCAGATCAATCAGGACAGGTATAAAGACCATCTCATGACACTTGCGGAGATAGGGAAAATTGGAGAAACGGGGGTCAACCGGCTCGCCCACTCCAAGGATGACCGGAGAGCCGTTGATGTCGTACAAGGATGGATGGAAGAAGCCGGGCTGACGACCAGGGTCGATGGATTCGGCAATCTGATCGGTCGTGTGGAGGGGACAGAACCCGATCGTCCTATTCTCATGATGGGGTCCCATATTGATTCCCAGCCGTATGGAGGGCGCTTTGATGGAACTGCCGGCGCTCTTGGTGCGATTGAAGTTGTACATACAATGAAAGAACAAAACGCCAAACCGGTCCGTACGATTGAGGTGATCTGCTTTGCGGATGAAGAAGGCTCCCGGTTCAATAAAGGGGTATTTGGTGTCCGTGGAGTGATTGGACAACTGGAAGAAGGAGAACTTCTTCGGAAGGATAAAAACGGGATGACCCGTCTCGAGGCTTTAAGGGAGTTCGGTGTCGAACCGGATTTGTCGGAAAGTCCCGTCTACAAACCAGGGGATATAGAAGCCTTTTTAGAGCTTCACATTGAGCAGGGCCCTGTCCTTGAATCAAAAGATAAGCCAGTAGGCATCGTGTCAGCCATCTCCGGACCGATCTGGCTTACGGTGACTCTGGAAGGCTTCGCCGGCCATGCTGGATCTGTGCCGATGCATTTACGACAGGATGCGATGCTCGGGGCTGCCATCATAACCAAAGAATTCAATGAGCTTGTCCGCAGGGAAGGAACACCGAATACTGTAGGAACAGTCGGAAGCATCCAGAATTTCCCGAACTCCAGAAACATCATAGCCGAAAAGGTGGAATTTACCGTTGACTTAAGGGATATCGACCTGGATGCAAGAAACCGTCTGGAGAAGAAACTCTATCAGATCATTGAGGAAACAAGTAAAGAACACAACCTCGACTACTCTATTACAGAAGATACCAAAAGTGACCCCCGCTATTGTGCGGACTGGATTAAAGAGATTATGAAGAAACACGATGAAAAGCTCGGCTATCAATCGCCCACCCTCATGAGCGGTCCGTTTCACGACGCCCTGTTCATGTCCTACATCAGTGATTACGGCATGATCTTTGTCCGCTGCGAAAAAGGCATCAGCCATAACCCATTGGAATATGCGGAGATGGAAGATTTACAGAAAGGTGTGGAGCTGCTTTATCACACCGCAGTGGAAATTGCCGGAGCGTAG	MQINQDRYKDHLMTLAEIGKIGETGVNRLAHSKDDRRAVDVVQGWMEEAGLTTRVDGFGNLIGRVEGTEPDRPILMMGSHIDSQPYGGRFDGTAGALGAIEVVHTMKEQNAKPVRTIEVICFADEEGSRFNKGVFGVRGVIGQLEEGELLRKDKNGMTRLEALREFGVEPDLSESPVYKPGDIEAFLELHIEQGPVLESKDKPVGIVSAISGPIWLTVTLEGFAGHAGSVPMHLRQDAMLGAAIITKEFNELVRREGTPNTVGTVGSIQNFPNSRNIIAEKVEFTVDLRDIDLDARNRLEKKLYQIIEETSKEHNLDYSITEDTKSDPRYCADWIKEIMKKHDEKLGYQSPTLMSGPFHDALFMSYISDYGMIFVRCEKGISHNPLEYAEMEDLQKGVELLYHTAVEIAGA	PGPT0000875_885	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0000875-allC-K02083	NA	NA
AK012_03075	1611	nfdA_4		N-substituted formamide deformylase	ATGAAGGCAGACAAAATTTTTATAAATGGGGAAGTAGTGACAGCGGACGAACAGTTTCATGTGTGTGAGGCACTGGCAGTCCAGGAGGAGAGCATCCTCCTGACGGGAACGAACCACGAAGTCATGAAAACCGCCGGAGCCGATACCGAGGTGGTCGATCTTGGAGGCCGGACGCTCATGCCCGGCTTCATTGACGCCCATGCCCACCTTGAGCTGTACGGCACGAATATTCTCGGTGTCGACTGCAAACAACCCCGGTCGATCCCCGAAGTGCTGAAGGCATTGAAAGAAAGGGCTGCGGAAACGCCCGAAGGCTGCTGGGTGCGGGGCTGGGGGTACAATCAAAATGAACTGGCTGAAGGCCGGCATCTAACGAGGTGGGACTTAGACAAAGTGTCCACCTCCCACCCCGTCATTGTCGTCCGGACGTGCGGACATATCTCCTGCGTAAATAGCAAAGCCCTGGAGATGGCAGGTATCGTGGAGTCCACTCCAGATCCGCCGGGCGGGTCTTATCACAAAACAAACGGCCATTTGAGCGGCCTGCTGCTTGAGGCCGCCCATATGACCGTCTTCCAGCACGCCGATTACAGTGAAGAAGACATATTGAAAGGACTGGCGCTTGCTTCTCAGGACTTCTTATCCTACGGCATTACGAGTGTTCATGATGCCGGCGGTTATGGGACGAAGCATATCCGCTATTTACAACAGGCCGTCCAGAAGGGCATCGTGAAGCAGCGTGTCTATGCTCTGTACGGTTCCCTGTCCGACGCTCCGGAAATGGTCCGTGCGGGACTGGAAAGCGGCATTTCCACAGGTCTTGGGGATGATTGGTTCAGAATCGGACCAGCAAAACTTTTCATCGATGGCAGCAGCAGCGGACCCACCTGCCGCACGAGGGAGCCTTATGACAGCAGCCCGGAAGACAGGGGGATATTATATTTACAGCAGCAGCAACTGGACGAACCACTTCTACAAGCCCATGATCACGGCTGGCAGATCACCGCGCACGCCATGGGAGATGAAGCAGTTGATATGATGCTGCACACGATTGAGCGAGCGCTCGATCAAAAATCAGCAGCCAACCCCCGCCACCGGATCGAACATGCCGGAATCGCCCCTCCCGACCTTGTTGAACGTATGCGTCAAACAGAGGCGGTGCCCGTGCCCAATCCGGCTTTTCTCTATGAGTTCGGTGACGGCTATGAGACCGACTATGGCGGACGCGTCAGCCATATGTTCCCGTTAAAAAGCTATTCGGACCATCACATTCCTTACGCCGTTGGATCAGACAGTCCGATTACCACTCCTAATCCTTTTTACGGACTGTATGCGGCGGTCACCCGGCGCAGTAAAAGCGGACGGATCCTGGGAGCAAACCAGGCGGCTTCGCTTGAGGAGGTGATCCGTGCTTACACGTGGGGCGGCGCTTACGCTTCACATGAAGAACATAGGAAAGGGACGTTGGAACCAGGCAAAGCGGCCGACCTTATTATCCTCGATCGGTCCATTATGAGTTGTCCTGTTTCCGAGCTTCCCGGTATACAGGTGGAAACCACCATCCTGAATGGAAAAACCGTATATACATTGCAAAAGGAGGACGTCTATTGA	MKADKIFINGEVVTADEQFHVCEALAVQEESILLTGTNHEVMKTAGADTEVVDLGGRTLMPGFIDAHAHLELYGTNILGVDCKQPRSIPEVLKALKERAAETPEGCWVRGWGYNQNELAEGRHLTRWDLDKVSTSHPVIVVRTCGHISCVNSKALEMAGIVESTPDPPGGSYHKTNGHLSGLLLEAAHMTVFQHADYSEEDILKGLALASQDFLSYGITSVHDAGGYGTKHIRYLQQAVQKGIVKQRVYALYGSLSDAPEMVRAGLESGISTGLGDDWFRIGPAKLFIDGSSSGPTCRTREPYDSSPEDRGILYLQQQQLDEPLLQAHDHGWQITAHAMGDEAVDMMLHTIERALDQKSAANPRHRIEHAGIAPPDLVERMRQTEAVPVPNPAFLYEFGDGYETDYGGRVSHMFPLKSYSDHHIPYAVGSDSPITTPNPFYGLYAAVTRRSKSGRILGANQAASLEEVIRAYTWGGAYASHEEHRKGTLEPGKAADLIILDRSIMSCPVSELPGIQVETTILNGKTVYTLQKEDVY				NA	NA	NA	NA	NA
AK012_03076	222			hypothetical protein	TTGAGTAAACAACGCTTTATTAAAATCTACTGCCTTTCATTAAGCATTCCTTTCCTGTTGATGGTTTTCCCGCTTTTCACTATTGGGAACCGGGAGACCCCCTTCATCATGGGCCTCCCCTTTTCGGTATTCTGGGTGATCTTCTGGATCCTGATCACCTTTGCCATTGTATTATTTCTTTATCGTCTGGATCCGGACAAAGATGAAAAGGGGGTCCAGTAA	MSKQRFIKIYCLSLSIPFLLMVFPLFTIGNRETPFIMGLPFSVFWVIFWILITFAIVLFLYRLDPDKDEKGVQ				NA	NA	NA	NA	NA
AK012_03077	1470	yodF	COG0591	putative symporter YodF	ATGGCTCAATGGCAGATTGCAATGATTATGATGATTGCTTACCTCGTGATCGCTTTATTGATCGGTGTGCTTGCAGGCCGCAATCAGGACAAGCAGTCCCTGGAAGAATTCACGACAGCTAAAGGAAATCTCGGTCTTTTCGTCATGTGGTTCTTAATGGGAGGTGCGGTCTTCAGTGCTTTCTCCTTCCTCGGTGCCCCGGGATGGGCTTTTTCTAGAGGAGCCCCGGCCCTTTATATCATCACCTACACCGCTTTTGCTATTTTACCGTGGTATATTATCGGTCCGAAAATCGGACGGATCGGACGAAAACATAACATTTATACAGTCGCGGGCTTCATGCAGCTGCGTTATTCCAGCCGCATCCTGGCCATGATGATCGGCATCACCGCTCTGCTCGCCTCTATCCAGTACCTGGCCACGCAGATGAAAGGCATGGCTTATATTTTCAGCATAATGACAGAGGGCCGTATTCCTTTCTGGCTGGGGGCCTTGTTGTCCTATGGCATTGTCGTCGTCTATGTGGCGACCGGCGGTCTGCGGGCCGCGGCCTGGTCGGACGTTTTCCAGGGGATCCTCATGATCGTCATTTCCTGGACGGTCGGCTTGACGATTGTAAATCAGCTGCACAGCAGTGTTCCTGATATGTTCAGAAATTTGACCGAAACGGCTCCAGGATTCCTCCAAATCGGGGCTGAAGGTTCAACGATGAGTGCGATGGCTTATACGACGACCATTCTCGTTTCCACCATCGGTTTCCTCATGTGGCCGCATTTATTTTCTAAATCCTATGCCACGAAAGCACGGACGATTAAGAAGACCGTACTTGTTTATCCTGTGTTCGCTTTGTTCCTGATTCCATTATTATTTGTCGGGTTTTCAGCCGTCAATGTCATTGATCCGTCCGAAATCGGATCACCGGACGAAATTCTTCCCTATCTGATTACGACGGTTCTTACCCTGCCGGGCTGGGTCTACGGACTTGTCGGGGCGGGCGCCCTGGCCGCAGCCATGAGTACGGCAGATGCCATCACTCACAGTGCTTCCCTCGAGTTTACCGACGGGTTTGTGAAGAACGTTAAACGCGATCTTTCTTCCCGGACGACCCTGCTGATTATGCGTATCGGTGTTTTTGTCATCGGCGGACTCGCCTATGTCATCACCGTCTTTGGAGGCCAGGGATTGATCGCTCTCCTGCTCGGGGCCTACGGATCCATTGTTCAATTTGCACCAGGGGTGTACGGAGCCCTTTATTCAAAAAAGGTGACCGAACCAGCGGTCATTACAGGGTTGATTACCGGGACAGTGGTGAACTATTATTTCCAGCTCGTAGCGCCGACCACACCGCTGGATATTAACCCAGGCATCCTCGGCCTGATCTGCAACATCGGTCTTGTCGTCATCATCAGTGGATTCACACAGGGAAAAGAGCTTCCGATGGCGGAAGAGTACCGCAAAGTCGGCTCCTGA	MAQWQIAMIMMIAYLVIALLIGVLAGRNQDKQSLEEFTTAKGNLGLFVMWFLMGGAVFSAFSFLGAPGWAFSRGAPALYIITYTAFAILPWYIIGPKIGRIGRKHNIYTVAGFMQLRYSSRILAMMIGITALLASIQYLATQMKGMAYIFSIMTEGRIPFWLGALLSYGIVVVYVATGGLRAAAWSDVFQGILMIVISWTVGLTIVNQLHSSVPDMFRNLTETAPGFLQIGAEGSTMSAMAYTTTILVSTIGFLMWPHLFSKSYATKARTIKKTVLVYPVFALFLIPLLFVGFSAVNVIDPSEIGSPDEILPYLITTVLTLPGWVYGLVGAGALAAAMSTADAITHSASLEFTDGFVKNVKRDLSSRTTLLIMRIGVFVIGGLAYVITVFGGQGLIALLLGAYGSIVQFAPGVYGALYSKKVTEPAVITGLITGTVVNYYFQLVAPTTPLDINPGILGLICNIGLVVIISGFTQGKELPMAEEYRKVGS	PGPT0013955_4470	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
AK012_03078	1215	fdhA		Glutathione-independent formaldehyde dehydrogenase	ATGACTACAAACAACCGGGCAGTGGCGTATACAGGTAATGACGGTGTCACGGTCAAGGAAATCGAATTCCCGGAACTTGTCCTGAAAGATGGACCGGGAGTGAACCCTGAAAATGTCGGGCGGAAATGTGAGCACGGGGTTATTTTAAAGGTCGTCTCTACGAACATTTGTGGAAGTGACCAGCATATGGTGCGCGGACGGACGACAGCACCGGAAGGACTGGTGCTCGGTCACGAGATTACAGGAGAAGTCATCGAAACAGGAAGAGATGTCGAGTTTGTTAAAAAGGGGGATCTGGTGTCCGTTCCTTTTAACATTGCCTGTGGACGGTGCCGCAATTGTATTGAAGGGAAAACCCACATCTGTCTGCATGTGAACCCTGACCGCCCGGGTTCGGCGTACGGTTATGTCGACATGGGCGGCTGGGTAGGAGGTCAGGCGGAATATGTGATGGTGCCTTATGCGGATTTCCAGGTCCTCAAGTTTCCGGATAAAGATGAAGCGATGGAGAAGATGCTTGATTTAACGATGCTGTCGGACATTTTTCCGACGGGGTTTCACGGAGCTTATAAAGCCGGTGTGACAATGGGCTCCACCGTTTATATCGCAGGAGCGGGTCCTGTCGGCCTTGCTGCTGCTCATTCCGCCCAGCTCCTTGGAGCGTCCGCCGTCATTGTCGGTGACTTGATTGACGAACGTCTGGCTCAGGCGAAAAGCTTCGGCTGCGAAACGATCAATGTTGGAAACCATGATCGAATCTCTGAACAGATTGAACAGATTCTCGGTGTTCCGGAAGTGGATGCGGCTGTGGACTGCGTCGGATTTGAAGCCCACGGCCATCATCATGAGGAAGCTCCGGCGGCCGTCTTGAATTCTATTATGGACGTCACCAAAGCAGGGGGCGGCCTCGGCATCCCCGGTCTTTATGTAACGGAGGACCCCGGCGCCTCCGAAGAGGATGCAAGACGCGGGCTGCTGAAGCTGGATTTCGGACTGGGGTGGGCCAAAGCCCAGTCGTTTGTGACAGGACAGACGCCTGTCATGCAGTACCATCACGGGCTTATGAAGTCGATTTTACAAGGGAAAGCCAATATCGCCAAGGCGGTCAATGCCACCGTCATTGGACTGGATGAAGCCCCGCGCGGCTATGAGGAGTTTGATGGGGGAGCCGCTAAGAAATTCGTACTGGATCCCCATCATCTGATCCGTACGTAA	MTTNNRAVAYTGNDGVTVKEIEFPELVLKDGPGVNPENVGRKCEHGVILKVVSTNICGSDQHMVRGRTTAPEGLVLGHEITGEVIETGRDVEFVKKGDLVSVPFNIACGRCRNCIEGKTHICLHVNPDRPGSAYGYVDMGGWVGGQAEYVMVPYADFQVLKFPDKDEAMEKMLDLTMLSDIFPTGFHGAYKAGVTMGSTVYIAGAGPVGLAAAHSAQLLGASAVIVGDLIDERLAQAKSFGCETINVGNHDRISEQIEQILGVPEVDAAVDCVGFEAHGHHHEEAPAAVLNSIMDVTKAGGGLGIPGLYVTEDPGASEEDARRGLLKLDFGLGWAKAQSFVTGQTPVMQYHHGLMKSILQGKANIAKAVNATVIGLDEAPRGYEEFDGGAAKKFVLDPHHLIRT	PGPT0002115_205	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROMETHANE_DEGRADATION,PGPT0002115-fdhA-K00148	NA	NA
AK012_03079	627	azoR2	COG1182	FMN-dependent NADH-azoreductase 2	ATGGCTGAAGTGCTGTATATTACCGCCCATCCTCATGACGAAACGGCTTCCTACAGCATGAGTGTCGGAAAAGCGTTTATTGAGCAGTATCAAACCGCAAATCCAGAGGATACCGTCACTCCGATCGATCTGTATAAGGAGTCGATTCCTCCTATCGATGCCGATATTTTCAGCGGCTGGGGAAAGCTGCAGTCCGGCGGGCAGCTAAACTCCGATGAGGAAAGAAAAGTATCGCGCCTGAAGGAGCTGAGTGATCAGTTTACGAACGCCGATAAATATGTGTTTGTGACGCCAATGTGGAACTTCTCTTTTCCGCCTGTGATGAAAGCGTACATTGATTCTGTGGCGGTGGCCGGGAAAGCCTTTCGGTATACGGAGGAAGGTCCTGTTGGTTTGCTGACGGATAAAAAAGCTTTTCATATCCAGTCGTGTGGTGGGATTTATTCGGAAGGTCCGGCCGCAGGGATGGAAATGGGGCACAGGTACATCAAAACGGTTATGCAGTTTTTCGGCATTCCTTCGATTGAAGGGCTGTTTGTCGAAGGCCATGCGGCCATGCCTGACAAGGCGGCTGACATCAAGTCTACCGCAGAGGCAGAAGCCAGGGATGCCGCTGAAACGTTCTGA	MAEVLYITAHPHDETASYSMSVGKAFIEQYQTANPEDTVTPIDLYKESIPPIDADIFSGWGKLQSGGQLNSDEERKVSRLKELSDQFTNADKYVFVTPMWNFSFPPVMKAYIDSVAVAGKAFRYTEEGPVGLLTDKKAFHIQSCGGIYSEGPAAGMEMGHRYIKTVMQFFGIPSIEGLFVEGHAAMPDKAADIKSTAEAEARDAAETF	PGPT0006790_1018	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_AZO_DYE_DEGRADATION,PGPT0006790-acpD|azoR-K01118	NA	NA
AK012_03080	138			hypothetical protein	ATGAAGGATGCACCCTTTCATTACGACGGCAGTGTTCCAGTCACCGAAGAATCCGGACAGCTGGAGGAGCTGATCATTCCTAAGGACATCAGCCGTCATTTGTCCGGCAATCCATATCTGCTCCCTGAAAACGAATAA	MKDAPFHYDGSVPVTEESGQLEELIIPKDISRHLSGNPYLLPENE				NA	NA	NA	NA	NA
AK012_03081	1443	betB	COG1012	NAD/NADP-dependent betaine aldehyde dehydrogenase	GTGCGCATACTTAAGAATTTAGTCAATGGCGTCTGGTCAGAGCCTTCTGCCGGTGAACGGATGGACATACATAATCCTTCCACCGGCGAGGTCATTGCTGACGCTCCTGCAAGCAGTGAAGAGGATGTGAACCTGGCCGTAACGGCAGCGAGACGTGCTTTTGAATCAGGGGACTGGCCGTTGGTCAAACCCCATGAACGGGGACAGATGCTTCTCCGGGTGGCTGAGTTGATCAGAGAAAGTAAAGAGTCGCTTGCCCGTCTGGAAACGCTTGATACAGGGAAGCCGCTTTCCCAGGGAAGGGCTGATGTGGAAGCGGCGGCCCGCTATTTTGAGTTTTATGGAGGAGCGGCTGATAAAATACATGGAGAAACGATTCCCATCGAGCCGGGAGTGCTGGACTATACATTGAGGGAGCCTGTAGGCGTTACGGCTCACATCATCCCTTGGAATTATCCGCTGCAAGTGGCTTCGAGAAGCTGTGCGGCTGCATTAGCTGCAGGTAATACAGTTGTCATGAAGCCGGCGGAACAGACGCCTCTGACCGCTATAGAGCTCGGAATGATTATCCAGCAGGCAGGCTTCACGGAAGGAGTCGTCAATATTGTCCTCGGAGAAGGTCACACCGCAGGGGCAGCTCTTGCTTCTCATTATGATATCAACCATATGACGTTCACTGGATCCGTGCCGACCGGGACGAAGGTAATGAAGGCGGCCGCAGAAAACATCGTCCCTGTGACCTTGGAGCTTGGAGGGAAATCGCCGAACATCGTATTTCCGGATGCACCGATGGACGATGCGGTCGAATGGGTGGTCAAATCGATCATTCAAAATGCCGGCCAGACCTGTTCAGCCGGTTCCCGCCTGCTCGTTCATGCCGACTGCAAAGCTTCGTTCGTAGAGAAAGTCATGGACCGGATGAATCATCTGAGCATCGGTCCCGGGGAAAATGACCCGGATATCGGTCCGATATTATCCGAACAGCAGTGCCGGCGGATCGAGGGCTTTATGAAGAAAGTGGAGGCAGATGGTGGGAAGTTTCTGCTTGGGGGCACACGCGCGCAGGTGGAGGAGGCTCCGGGAGGCTGCTATTTCAAGCCGACGATCATCGATGGCCTGGATCCTGAAAGCACGGTTGCCAGAGAAGAAGTCTTCGGCCCTGTCCTGTCTGTCTTTTCCTTTGAAGACGACGAGGAAGCGGTCAAGCTGGCCAACAACACCGATTACGGCCTTGTGACGGGCATTTGGACGAAAGACGTGTCACGCGCGCATAACATCGCCGGACGAGTGAAGGCCGGGCAGGTTTTCATTAATAATTACGGTGCGGGCGGAGGAATACAAATGCCGTTTGGAGGCTACCGTAAGAGCGGGTTCGGCAGAGAAAAAGGTCTGGAAGCACTAAGGAATTATACACAGTTGAAAAACATCGCCTTGAAAATGTAG	MRILKNLVNGVWSEPSAGERMDIHNPSTGEVIADAPASSEEDVNLAVTAARRAFESGDWPLVKPHERGQMLLRVAELIRESKESLARLETLDTGKPLSQGRADVEAAARYFEFYGGAADKIHGETIPIEPGVLDYTLREPVGVTAHIIPWNYPLQVASRSCAAALAAGNTVVMKPAEQTPLTAIELGMIIQQAGFTEGVVNIVLGEGHTAGAALASHYDINHMTFTGSVPTGTKVMKAAAENIVPVTLELGGKSPNIVFPDAPMDDAVEWVVKSIIQNAGQTCSAGSRLLVHADCKASFVEKVMDRMNHLSIGPGENDPDIGPILSEQQCRRIEGFMKKVEADGGKFLLGGTRAQVEEAPGGCYFKPTIIDGLDPESTVAREEVFGPVLSVFSFEDDEEAVKLANNTDYGLVTGIWTKDVSRAHNIAGRVKAGQVFINNYGAGGGIQMPFGGYRKSGFGREKGLEALRNYTQLKNIALKM	PGPT0006875_6650	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
AK012_03082	741	tsaC1		4-formylbenzenesulfonate dehydrogenase TsaC1/TsaC2	GTGAGAGTCAAAGATAGACATTTCATTGTAACCGGTGCTTCCGGAGGGATGGGACAGGCGGTCATTTCCAAATTGATGGATGAAGGGGCGTCTGTCACAGCTGTGGATCAGGTCCGTGGTCGGGACGCCGGAGATAGAGCCTTTCAGTTCGTTCAGGCGGATTTGACGAAGGAAGAAGATGTTCAACGCGTCGTCGATGCGGCGGCTGCCTATTCCAACCGCATCGACGGCGTTGTCAACGCTGCCGGGATGGCCCAGGCTGCTGCTCCTCTTGAAGAAGTGACGACGGAATTCTGGGATACGATTATGAATGTCAATGCCAAAGCGGCCTTTCTCATGTGCCGGGCGGTTGTTCCTTATATGAAAGACCAGCAGGGCGGGTCCATTGTCAATATTGCATCAATCGCTGTGGAAAGGGCGCGGCCCGGGCTTAGTGCCTACATCGCTTCCAAAGGAGCGGTTACAGCATTTTCGAAAGCGCTTGCCAGTGAGCTGGCTCCTGATGGCATCCGGGTCAATGTGATTCACCCTGGTCCATCCGATACCGGCATGCTCGGGGAATTTGTCCGGTCCGGCGGGAATATGGATGATACAAAGAGGGAGGTGTTTCAGAAGTCTGTCCCGCTCGGGGAGCTGATTGCCCCTGATGATATTGCCCATGCCGTCGTTTATCTGGTATCTGATGAAGCCCGCATGGCGACCGGCGCTGTTTTTTCTATTGATGGCGGCCGCGGATTATAA	MRVKDRHFIVTGASGGMGQAVISKLMDEGASVTAVDQVRGRDAGDRAFQFVQADLTKEEDVQRVVDAAAAYSNRIDGVVNAAGMAQAAAPLEEVTTEFWDTIMNVNAKAAFLMCRAVVPYMKDQQGGSIVNIASIAVERARPGLSAYIASKGAVTAFSKALASELAPDGIRVNVIHPGPSDTGMLGEFVRSGGNMDDTKREVFQKSVPLGELIAPDDIAHAVVYLVSDEARMATGAVFSIDGGRGL	PGPT0003180_16827	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
AK012_03083	1059	ttuC'_2		putative tartrate dehydrogenase/decarboxylase TtuC'	ATGAAGCTTGCAGTCATGGCGGGCGACGGCATAGGTCCGGAAGTGATGAATGAAGCGCTGAAAGTCTTGAATACCCTGTCTTCTCTCGATTCAGGGTTTCAGCTGGAAATGGAGGAACTGCCGTGGAGCAGTGCCTATTATATGGAAACCGGACGGATGATGCCTGAAGGTGCCCTTGATTATTTACGGCATTTCGATGCGATTTTATTTGGAGCGATCGGAGACGCCCGGGTACCGGATGAAGTGACCATCTGGGAATTGATCATGCCGATCCGGAAGCAGTTTCAACAGTACGTCAACGTACGCCCGGTCAAACAGCTGAAAGGGGTTGCCTCACCATTGGACACGAAAGCCCCGATTGATTTCGTCGTCTTCCGCGAGAATGCGGAAGGCGAATATTCCCACATGGGCGGCCGGATGTACGATCAGACGGATCAGGAGATGGCGGTACAGACGACGGTCATGACAAAGGCGGGGATTCGGAGGCTGAGCGACTATGGTTTTGCCTACGCGAGAAAGCATGGAAAGAAGACCGTAACAAGTGCTACGAAATCCAATGCCATCATTCATACCATGAAGCTCTGGGACGATGTTGTCCGTGAAGTGGGGCAGGAGTATCCAGATATTCAGCTGTCCTCTGTTTATATTGATGCGCTGGCGGCCTACTTTATTAACCGCCCGGAGTCTTTCGAGGTCGTGATTGCCTCCAATTTATTCGGCGATATATTAACAGATCTCGGGGCCGGACTTGTGGGCGGTCTCGGCTTATCACCTTCGGCCAATCTGAATCCGGAAGGCCGGTTCCCATCCATGTTTGAGCCCATCCATGGATCGGCTCCGGATATATCAGGCAAGGGCATGGCCAATCCCGTTGCCCAGATCTGGTCAGCGGCATTAATGCTGGAGCATAACGGACGTCCGGATTTGAGCGATATCGTGATGAATGGGATGGAGGCTGTCCTTGCGGAACAGGACGTACGCACACCCGACCTTGGTGGAAAATCAAGGACGGCAGATATGGGGGATGCCATCATCCGGGCCATCCATGCCCAGACATGA	MKLAVMAGDGIGPEVMNEALKVLNTLSSLDSGFQLEMEELPWSSAYYMETGRMMPEGALDYLRHFDAILFGAIGDARVPDEVTIWELIMPIRKQFQQYVNVRPVKQLKGVASPLDTKAPIDFVVFRENAEGEYSHMGGRMYDQTDQEMAVQTTVMTKAGIRRLSDYGFAYARKHGKKTVTSATKSNAIIHTMKLWDDVVREVGQEYPDIQLSSVYIDALAAYFINRPESFEVVIASNLFGDILTDLGAGLVGGLGLSPSANLNPEGRFPSMFEPIHGSAPDISGKGMANPVAQIWSAALMLEHNGRPDLSDIVMNGMEAVLAEQDVRTPDLGGKSRTADMGDAIIRAIHAQT	PGPT0001905_924	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
AK012_03084	1230	dapE_2		putative succinyl-diaminopimelate desuccinylase	ATGATCTTGATTGATGAAAAAGCACGTGTAGAGCGGGACACAAAGGAAGTCGTGGATTTGACACAGGCCCTTGTCCGGATTCCAAGTGTCTACCGGCCGGGAGTGACGGATGGCAATGAAGAGAAGACGGCTCATTATGCTGCGGCCTATTTAGAGCGTATGGGACTTGAAGTTCACATAGAGGAGGCCGCGCCGGGACGTCCCAATGTCATCGGGATTTATGATACCGGAAAGCCGGGGAAAACTTTGTTGTTTGAAGGGCACACAGACGTTGTTACAGAAGGAGATCCTGCTCGCTGGACATATGATCCGTTCGGGGCTGATATCGTCGACGGACGGATGTATGGCAGAGGCACTAATGATACGAAAGGCAACCTGGCCTGTGCCATCACGGCGGTTCACTCCTTGATTAAGGACAAAGAAGCGCTGAATGGAAAGATCATCCTCTGCATCCCGTGTGATGAAGAAGGCATGATGATCGGCATCAAGCATTTTATTGATCAAGGCTGGGCCCGTGGTGTGGATGGAGCTGTCATTTGTGAACCGGAGGAAAACCAGCTTTGTACCGCTCAAAAAGGGGCAATGAGGATCCAGATTGATGCTTTCGGCCGGCAGGCGCATGGAGCGATGCCGCTGACAGGCTTAAACCCGAATACAAGGATGGCAAAAATCATTGTCGCTCTGGACGAGCTGGAGCAGAGGGAAAAGGAAAGAACCGGCAGACATGAGCTGCTTGGGTGGCCGAGCATTACGCCGACGATTCTCCAGGCCCCGGTATCCGGAGAGCCCCAGATCAATGTTGTGCCAGAACAGTGCAGGACGACCCTGGATATCCGTACGATTCCAGGTCAGGATCATGAGATGTTAAAGCAGGATATTCAGCAGATTCTCGACCGGACGATGGAAGGGGATGACGGGTTCAATGCAGAAATGGAGGTCCTGGAGGAACGCCCATGGACGAAGACCGACCGGCAGGATCCTGTCGTGACCGCAGTGGCGGAAGCTTATAAAAAAGTGACAGGAAAAGATCCGGTGTACAACGGCGTCCCCGGGGCCACAGATGGAACGTTTCTCCATCTTGCCGGCGTCCCGATTTTGACGACAGGCGGAGGAGACCGGGAAGTTCCTCATCAAGTGGATGAGTACATCGACATTTGTGATCTCGTTGAAACGACCCAGTTATACCGCCAGACGGCGCTTGAATTTCTTCAGGAGCCGAAAGAGTCATGA	MILIDEKARVERDTKEVVDLTQALVRIPSVYRPGVTDGNEEKTAHYAAAYLERMGLEVHIEEAAPGRPNVIGIYDTGKPGKTLLFEGHTDVVTEGDPARWTYDPFGADIVDGRMYGRGTNDTKGNLACAITAVHSLIKDKEALNGKIILCIPCDEEGMMIGIKHFIDQGWARGVDGAVICEPEENQLCTAQKGAMRIQIDAFGRQAHGAMPLTGLNPNTRMAKIIVALDELEQREKERTGRHELLGWPSITPTILQAPVSGEPQINVVPEQCRTTLDIRTIPGQDHEMLKQDIQQILDRTMEGDDGFNAEMEVLEERPWTKTDRQDPVVTAVAEAYKKVTGKDPVYNGVPGATDGTFLHLAGVPILTTGGGDREVPHQVDEYIDICDLVETTQLYRQTALEFLQEPKES				NA	NA	NA	NA	NA
AK012_03085	1467	panF_2	COG4145	Sodium/pantothenate symporter	ATGAACTGGGCTGTAGTCGTACCTCTGCTGGTTTTTCTCGTTATTATTTTCTTTATCGGCTTTTATGCTTCGAATCATTTGAAGACGACCTCTAATTTCCTGCAGGAATATTTCCTTGGCAGCCGGCAGCTGGGCGGATTTATTCTTGCCATGACAATGATTGCTACATACGGCAGCGCGAGCAGCTTTATCGGTGGGCCGGGGGTCGCCTATACGATGGGACTCGGATGGGTGCTGCTTTCCATGACCCAGCTTGCTACAGGGTATTTCGTCTTGTCGGTGCTTGGTAAGAAATTCGCTATCATGGCCAGGAAGATCAAAGCTGTCACGCTGATCGATTTTTTGAAAGAACGCTATCAGAGTAAGTGGGTCGTCATTTTATCAGCGCTCAGCATTATTTTGTTTCTGTTTTCAGCTATGGCAGCCCAGTGGGTGGGCGGTGCGCGGCTGATTGAATCGCTGACAGGGCTTTCCTACACAGCAGCCTTATTCATTTTTGCCGTTTCGGTGCTTGTCTACGTCATTATCGGGGGCTTCCGGGCGGTGGCGATTACGGATACCGTCCAGGGGGTCGTCATGTTTTTCGGAACCCTCGTCATTTTGATCGGGACCATCATTGCAGGAGGCGGAATCGGACCCATCATGTCCGACCTGGCAGCGGAGAACCCGAACCTGATTTCGCCGTACGGTGCTGACCAGTCCCTCACACCACTCTACGTATCTTCCTTCTGGATCCTGGTAGGCGTGGGTGTCGTCGGTCTGCCCCAGGTGGCTGTCCGTGCGATGTCTTATAAAAGTTCAAAAGGGATGCACCGCGCCTTGTTGATTGGAACCATTGTCGTAGGTTTCATTATGCTCGGCATGCACTTGACGGGGGTATTTGCCCGCTCCGTGCTTCCAGGCATAGAAGTTGGAGATACGGTCATGCCGAGAATTGCGATGGAAGTACTGCCGGCCTGGCTTGCTGGAATCGTTCTGGCCGCACCGATGGCGGCGATCATGTCAACGGTCGACTCCCTGCTGCTGCTGGTCAGTTCGGCTGTCGTCAAGGATGTGTATTTGAATTATGTGAAGCCGGAGGCAGACGACCGCACGATTAAGAAAATCAGTATCGGCGTCACGACCGTCATCGGTCTGCTCGTATTCGCCATGGCTGTCAATCCGCCCGAGCTGCTGATCTGGTTGAATTTATTCTCCTTCGGCGGTTTGGAGGCGGCCTTTATCTGGCCGGTGATCATGGGCTTGTATTGGAAAAAAGGCAATGCCGGCGGCGCGATGGCCTCGATCATTACCGGGGTCGGAAGCTATGTTTTATTTCATTCCTTCATGCCGAATGCTTTTGGAATGCATACGGTCGTTATGCCGGTACTGTTGTCGTTCGCTGCTTATGTTCTTGTCAGTCTCATCACGATGAAACATCATGCCAAGGTTCAGGATGAAGTCATTACCAAACTATGGAGTGCATAG	MNWAVVVPLLVFLVIIFFIGFYASNHLKTTSNFLQEYFLGSRQLGGFILAMTMIATYGSASSFIGGPGVAYTMGLGWVLLSMTQLATGYFVLSVLGKKFAIMARKIKAVTLIDFLKERYQSKWVVILSALSIILFLFSAMAAQWVGGARLIESLTGLSYTAALFIFAVSVLVYVIIGGFRAVAITDTVQGVVMFFGTLVILIGTIIAGGGIGPIMSDLAAENPNLISPYGADQSLTPLYVSSFWILVGVGVVGLPQVAVRAMSYKSSKGMHRALLIGTIVVGFIMLGMHLTGVFARSVLPGIEVGDTVMPRIAMEVLPAWLAGIVLAAPMAAIMSTVDSLLLLVSSAVVKDVYLNYVKPEADDRTIKKISIGVTTVIGLLVFAMAVNPPELLIWLNLFSFGGLEAAFIWPVIMGLYWKKGNAGGAMASIITGVGSYVLFHSFMPNAFGMHTVVMPVLLSFAAYVLVSLITMKHHAKVQDEVITKLWSA				NA	NA	NA	NA	NA
AK012_03086	282			hypothetical protein	ATGAAACAAAAAAAACCCTTCGAGGATGACCCGAGGTACCGGGTGGCGGACAGGGAGGCGCTGATCGGCGCTGGTCTTGTCATCGTCAACTTTCTCATGTGGTTCGGCTCTGCGTACGGACTGGGCTCAAAGCCGGTATCCGAATACAATTACATTTTCGGCCTGCCGGACTGGTTCTTTTACAGCTGTGTCGTCACGACCGTTGTCATCACTCTTCTCGTTATTCTGGCTGTGAAGTATTTTTATAAGGAAGTTCCGCTGGATGAGGAGGATGAATCATGA	MKQKKPFEDDPRYRVADREALIGAGLVIVNFLMWFGSAYGLGSKPVSEYNYIFGLPDWFFYSCVVTTVVITLLVILAVKYFYKEVPLDEEDES				NA	NA	NA	NA	NA
AK012_03087	1167			hypothetical protein	ATGTCCACGATGATGTTTACGGTTCACGATATGTTGAAACGCCCCCCGTTCCAGCATGCGTCCATTCTGGCCGGCCGCGGTGGTCTCCAAAAGGCTGTTTCCTGGGCACACATCCTTGAATTGACGAAAGTGAAACACCTGCTCCACGGCAGCGAATGTGTCATGACGACAGGGATAGGATGGGGGAAGGAACTGCAGCATGCCCGTTCCTTCCTTGAACAGCTTATCGAAAAAAAAGTCACCTGTCTCTGTATAGAACTTGGCGATTACATTACCCACCTTCCGCCCCCGCTCCTGCAGCTGGCGGATGACCATGACCTCCCCGTTCTCGTGTTTGACAAAGAAGTCCGGTTTATCGATATCTCTAAAGATATCAACCAGCTGATCCTACAGTCCTCAAGACTTATGCCTCGTCAGGAAAGCTGGGCCGGCCGCTGGCTGGAAGGCACGATGACTGACAAAGAGGCGCTTCCCTATCTTGAAAAAACCATAGGAAGCAGAGAAGCCCGGGGCTTCCCTTGTCTTTTGACCGGATACGACGACAGCATCCCCTACCAGCGGGATATCTTCCAATCTTTCTTTCAAAAGGAAGGCTTTCATCCGCTCACCGTGCAGAACCGGGACGAACTGGTTCTCCTGCTTCTGGACGAACGCAGAGAACAGGTTTCGGAGCGTCTGGCCAGGTCCTTAAAAAGGATGAAGGAAAAAGCGGGCAGTATGTATCATACCATCAGCTGCGGACCTTTGTTTACAAATCTATCAGAAATCCCCCCTGCCATGCGGTGTGCACAGGAAGCTGATCACATTCAAGCCGCCTTTCAACTTGAGATGCCGTTTTATGAGAAACTCCATCCGTGGCGGCTTATTATTGAAGACGATAAACGGGGCGCCCTGGAATCTTTCATTCAAGACACACTCGGGGATGTGCTGGCCTATGACGAAGCTCATGATACGGAACTTCTTTTGACACTCCGGGCCTATCTGGAAAGCTATGGATCAAAAAAGGATACCGCTGAGCGTCTTTTCATCGTCCGGCAGACCCTCTACCATAGAATACAGAAGCTGGAAGAAATCCTCGGCCCTCACTTTCTCCGCTCCGAGCAGCGCATGGCCCTGGAAATGGCTCTGCTGGGCTGGCAGTACATACAAAGTCCGGTCCGCTCCTAG	MSTMMFTVHDMLKRPPFQHASILAGRGGLQKAVSWAHILELTKVKHLLHGSECVMTTGIGWGKELQHARSFLEQLIEKKVTCLCIELGDYITHLPPPLLQLADDHDLPVLVFDKEVRFIDISKDINQLILQSSRLMPRQESWAGRWLEGTMTDKEALPYLEKTIGSREARGFPCLLTGYDDSIPYQRDIFQSFFQKEGFHPLTVQNRDELVLLLLDERREQVSERLARSLKRMKEKAGSMYHTISCGPLFTNLSEIPPAMRCAQEADHIQAAFQLEMPFYEKLHPWRLIIEDDKRGALESFIQDTLGDVLAYDEAHDTELLLTLRAYLESYGSKKDTAERLFIVRQTLYHRIQKLEEILGPHFLRSEQRMALEMALLGWQYIQSPVRS				NA	NA	NA	NA	NA
AK012_03088	459		COG3279	putative HTH-type transcriptional regulator	ATGAAAGTGAAGATTGATGTGGATGAAAACCATCCGGAAACGAGCATTACGATTCACTGCAGTCAGGTGGATGACACGGTGAAGGAGATCCTCGATTTCCTCCACGAAAAAAAGCAGACCTTTGTTGTCGGGAAAAGCGGGGAAAGCCAGCACATTTTAAAGCCCGAACACATTCAGTTTTTCCGCACGGAAGATGAGGCGGTGTTCGCTTATACCAAAGAATCCTCCTTCAAGGTTAAGGACAAGCTCTATGAACTGGAACGCTCTCTCCCCTCCCAGCGGTTTGTCAGAATCTCCAAATCCGTTCTCGCCAACATCTATGAAATGAGCCGCTTTGAGCCTTCTTTTAACGGCACCCTCTGCGTGTATTTCAAATCAGGAGAAAAGGAATACGCATCCAGGCACTATGTGGGGAGAATCAAGGAGATGCTGAATATGAACAGGAGGGACAGCAGATGA	MKVKIDVDENHPETSITIHCSQVDDTVKEILDFLHEKKQTFVVGKSGESQHILKPEHIQFFRTEDEAVFAYTKESSFKVKDKLYELERSLPSQRFVRISKSVLANIYEMSRFEPSFNGTLCVYFKSGEKEYASRHYVGRIKEMLNMNRRDSR				NA	NA	NA	NA	NA
AK012_03089	417			hypothetical protein	ATGAAAACATTTCTAATCAGAAGTGCAGGTGGGATTTTCTTCGGAGCCTTCTTGTCCACGATCATCGTTTATGCCCTGATCTTTTTCGGAAACACTCCGACGCTCGACAGCGGTACCTTCGTTAAAAATTCCCTGGCCGCCATGGCTGCCGGCTGGTTATTTGCCGTCAGTCCCCTGTACTTTGAAATCGAGCCGCTAAGCCTGCTCCAACAGACGCTTCTTCACTTTATTACGGTAACCATCGGCTATTTTCCCCTGGCGATTTACGCCGGATGGCTCTCGTTGAACATAGGAAGCTTTCTTATTTTCACAGCGGTGTTTCTCATGATTTATGCCGGCATCTGGACTGGATTCTACTTTTATTATCGAACGGAAGCCGAAGATATGAACGAGAGCCTCGATCAGCTTCAAGAATAA	MKTFLIRSAGGIFFGAFLSTIIVYALIFFGNTPTLDSGTFVKNSLAAMAAGWLFAVSPLYFEIEPLSLLQQTLLHFITVTIGYFPLAIYAGWLSLNIGSFLIFTAVFLMIYAGIWTGFYFYYRTEAEDMNESLDQLQE				NA	NA	NA	NA	NA
AK012_03090	309			hypothetical protein	TTGAATAAGAAACACCCGTTGTTCCTCCTCGTATGGATGTCGGCCCTGTGTCTCCTGCTTACCCATCCGGAACTGTCCCACATGCCCGTAACAGCAGATATTCAGGAAAGCCAGACGGTAACGGCCGAAGACCCTTCCTTTGAAGAGGAGCCTTCGGCCATGGACGGAGACCTTTCCTTCGGAACGGCCCGGGCGGATCTCCAGATTCATCCGATTTCCGTTATGGTGTCTGCACGGGATACGAGCAGGGCCACCTGGCTGACCACCGTTTTTTATCAATCCAGTTACTTATCATCCTTTACTTTTTGA	MNKKHPLFLLVWMSALCLLLTHPELSHMPVTADIQESQTVTAEDPSFEEEPSAMDGDLSFGTARADLQIHPISVMVSARDTSRATWLTTVFYQSSYLSSFTF				NA	NA	NA	NA	NA
AK012_03091	126			hypothetical protein	ATGATGTTCTGGTTTCGAATGATTATGATCGGCATGTTTTCCTTAACAGCCTTGTCATTATTTACGGTTCAAGGAACGGAGATGTATCACGCCTTCCTGGAACTGTTCAACCATAAGCAGCAATAG	MMFWFRMIMIGMFSLTALSLFTVQGTEMYHAFLELFNHKQQ				NA	NA	NA	NA	NA
AK012_03092	426			hypothetical protein	GTGGGATATGAATTGAAAACAAAGCAGAATGACCGCAGTGTGATTGAATTTATTGAAGAGGTGGAATCAGAGAAGAAGAAAGAAGATGCCTACCGTCTCCTCGATATCTTCACAGAAATCAGCGGATATGAAGCAAAGATGTGGGGGACAAGCATCATTGGTTTCGGATCTTATCATTATAAGTACCCGACAGGCCATGAAGGAGATGCGCCGCTCGTCGGTTTTTCTCCCCGGAAGGCACGTCACAGTCTTTATTTCGCTACAGGAGATGAAAAAAGAGCCGAGCTGCTTGAACAGTTGGGAAAGCATAAATCAGGAAAAGCCTGCGTGTACGTCAATAAGCTGGAGGATATCGACACGGATGTGTTGAAGGAGTTGATCCGGCAATCAATCACGTTCCTCAAAGAGACGTACCCGGATGAATAA	MGYELKTKQNDRSVIEFIEEVESEKKKEDAYRLLDIFTEISGYEAKMWGTSIIGFGSYHYKYPTGHEGDAPLVGFSPRKARHSLYFATGDEKRAELLEQLGKHKSGKACVYVNKLEDIDTDVLKELIRQSITFLKETYPDE				NA	NA	NA	NA	NA
AK012_03093	1548			hypothetical protein	GTGTTACATAAAAAGAATCGAACGATGTTGTTCTTTTCAGCAGTGGGATTAGCTTTGATGGTTCTGATTCATATCATTCACAGGAATCGGATGCATCATTGGTCAGCACCGGAATTCAGTGCTTATACGCCGTATCTGTACACGTATATGGCGGTGCCGCTCCTGCTGTTTATTTCAGCTTCGGTATTGTATTACAAAAATAAAACCCATCAGGCGCTGCCATGGATACACGCGCTGCTTTTCACATTTATCAGTATCGGCATGATCACGAACGGGGAAGGCATGGTCGTCTACCATTTTTCCATCTTTTTAGTTGTTGCTCTTGCCGCCTTTTATGACCGGGTGGAGCTGCTCGGGCTGATGACGATCATTTTCGCTTTGTTCCACTTCGGGGCTATGTTTACAGGGACGGAATTTTTCTATGGAACGCCGGACTATACATGGTTTATGTTTGCGGTGCATGCGGTTTATCTCCTGCTGACAAGTGCAGGGACAAGTTATCAGATTGTATTGAAGAACAACCATGTCCGCGCCCTGCAGCGTTTAACGGACCGTAAACAGGAAGATACGCACGTTATGCTGAAACATCTTTACACCGTTAGTGATGCTTTACAGGAAACGATCGCTCATCTGGAAAGCTCTTCAGCGAAGTCCACCCAGTCCTTCCGCGATGTCGAAGAGTTGATGGAGACGCGGCAGCATCATGGAAAAAGGCAGGTGGCCGAAGCGGATAAGAATGCATTAGCCGTATCCGGCATTCACGCCTCCATAGAACAGATGAATGAAAATCTCCGGGTTGTTCTCAAACGGGCAGGCGATACTTATGAAACGACAAAAGAAGGCGGGCGGTACTTGGAACGGATTTCCAACCACCTGGATAACACAGAATCAAGCATTCATAAGACAAGCGGAACCATCCGAAAACTGAGCCATTCATCTAAAGAAATTACGGAAATCACTTCTGCTATCGCGGCCATCACAGACCGGACGAAAATGCTGGCCATTAACGCGGCCATAGAAGCAGCCCGGGCTGGAGAGCATGGAAAAGGATTCAGCGTTGTTGCCGGTGAGGTGCAGAACCTTGCTCAGCAATCCGAAAAAGCAGCTGGACAAATCTTCTCCATCGTGGATACGATTCAGTCCTCCATTCAGGAAGCGGATGAGCAAGCCGAAGTGGGTATAGAGAGGATGGAAACGAGTCAACAGCACTTGAAAATATTAACGGACCACCTTCACAAAATTCTGCAGCAGTCGGATGAAGTGAAAAAGGAAACGACAGAGATACAGTCTTTCAGTCATCATTTAATCGAATCCGCCAACACGTTATCCTATTCCTTTGACAATCTACTGGCCTTTACGAAGGAAGGAAAGGATCAAAACGAGCAAATGCTGAAGGCATCGAAAGATCAGCTGTTTACCATTCAGACGATGGCTGGAGAAGTGAGTCAACTGGCGGATTTGATCAGCGATATCCACCGGATTACCAGGGACATGGATAACAGTCGGGAAGACAGGATCGGGCGAACGGAGCTGGAGGTCGTGAGTTGA	MLHKKNRTMLFFSAVGLALMVLIHIIHRNRMHHWSAPEFSAYTPYLYTYMAVPLLLFISASVLYYKNKTHQALPWIHALLFTFISIGMITNGEGMVVYHFSIFLVVALAAFYDRVELLGLMTIIFALFHFGAMFTGTEFFYGTPDYTWFMFAVHAVYLLLTSAGTSYQIVLKNNHVRALQRLTDRKQEDTHVMLKHLYTVSDALQETIAHLESSSAKSTQSFRDVEELMETRQHHGKRQVAEADKNALAVSGIHASIEQMNENLRVVLKRAGDTYETTKEGGRYLERISNHLDNTESSIHKTSGTIRKLSHSSKEITEITSAIAAITDRTKMLAINAAIEAARAGEHGKGFSVVAGEVQNLAQQSEKAAGQIFSIVDTIQSSIQEADEQAEVGIERMETSQQHLKILTDHLHKILQQSDEVKKETTEIQSFSHHLIESANTLSYSFDNLLAFTKEGKDQNEQMLKASKDQLFTIQTMAGEVSQLADLISDIHRITRDMDNSREDRIGRTELEVVS	PGPT0015710_26424	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
AK012_03094	765	spo0M_2	COG4326	Sporulation-control protein spo0M	ATGTTTAAGAAACTATTAGCCAGTGTCGGCGTCGGGGCCGCCAAGGTGGATACCCAGCTTGAAAAGGACCAGTTCATTCCGGGCGAAGATGTTCACGGGAAGGTTGTGGTCCAGGGGGGAGATGTGGAGCAGTCAATTGACGCTATTCATATCTTTTTAATGACGGAAGCTGTACGCGAAGTCGATGACCGGAAAGTGAAGGAGAAGGTTTCCCTGCAGAAATATGCGGTTTCAGGACCGCTCACGATCCAGGGTGGAGAGACGAAAGAAATTCCTTTTTCCATCCAGATCCCTTTTCATGTGCCGGCTTCCCTCGGCCGACGGCTGCCAATCTGGTTTGAAACCGGACTGGATATTCCGAGAGCACTGGACCCGGAAGACCGCGATCCGGTTACCATCGCTCCGCACCCTTACATTGAAACCATTCTCGATGCACTGGAAAATCAGCTTGGCTTCCGTTTAAGAAAAGTCGAGATGGAATACTCCAAGCGGCACGGATATGTCCAGGAATTCGAATTTGCACCTGGGGGAAACTACCGCTCCTACCTGGATGAACTGGAGGCGGTTTTCTTCCTTCAGGAAAACCATGTTGAGGTGATGCTTGAGGTGGACCGCCGCGCTCGTGGCCTTGGAGGCTTGTTCGCAGAGGCGCTCGAAATGGATGAAAGCCGGGCTTCCCTGACCCTCACAAAAGAAGAGCTGACGAGCTCCCCGCAGACCATCGCCCGCCGGCTTCAAGAAACGATTGACCGTTACAAAAAATAA	MFKKLLASVGVGAAKVDTQLEKDQFIPGEDVHGKVVVQGGDVEQSIDAIHIFLMTEAVREVDDRKVKEKVSLQKYAVSGPLTIQGGETKEIPFSIQIPFHVPASLGRRLPIWFETGLDIPRALDPEDRDPVTIAPHPYIETILDALENQLGFRLRKVEMEYSKRHGYVQEFEFAPGGNYRSYLDELEAVFFLQENHVEVMLEVDRRARGLGGLFAEALEMDESRASLTLTKEELTSSPQTIARRLQETIDRYKK	PGPT0024630_537	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_0_SPORULATION,PGPT0024630-spo0M-K06377	NA	NA
AK012_03095	1149			hypothetical protein	TTGAAGAAGCTTACAATGATATTCACATTAATGATTTTAACCGCTAATCTCGGGTATATCCCGGTATATGGGGCGTCTAAACCTGATTCTCCTGATATTTTAAGTGAATCAGCGATTGTCCTGGAAGCCGGCACAGGAAAAGTCCTCTACGAAAAGAATGCCGACCGTGACATGTACCCGGCAAGTCTGACCAAAATCGCCACAGCGATTTATGCCTTGGAAAACGGGAACCCCGAAGATCAGGTGACAGTAAGTGAAGAAGCAAGGAATACAGGTGGATCGAGTGTATTTCTTATGGAAGGGGAACAGGTTTCCTTGAAAAAGCTCGTCCAGGGACTGCTGATTAACTCAGGAAATGATGCGGGAACCGCTATTGCTGAGCACATGAGTGGAAGCGTCGACCGCTTTTCTGAAGACTTGAACGCCTTTCTTGAGGATGAAGTAGGGACAGAAAGCACTCACTTTACGAATCCCCACGGTCTCTATGATGGTCAGCATACGACAACCGCCAGGGATCTGGCTGTCCTCACTCAGTATGCGATGCAGAATGAAACGTTCATGGAGATTTTCGGTACGAAAACCATGGAGTGGACAGGCGAATCATGGGATACCACACTGTATACCCATCATAAATTGTTCCGGGAAGATCCTTACGAAGGTATCACGGGCGGAAAAACCGGCTTTGTTCCACAGGCCGGGTTCACGCTGGCAACGACGGCTGCCCGTGAAGATACGAACCTCATCGCCATAACCATGAAAACTCCGAATCAGGACCAGGTCTATACCGATACTAAAGAATTGCTGGACTATGGATTCGAAAACTATGAAACATCCTTCGTCCAAAAAGAGGAAATCCTTGGCGGCAGAGCGGATGAGTATATGCTGCCTGAAGAGATTCCTTATACTCATTTAAAAGAAGAGACAGCGGAAGTCTCTGTCGATGAGAATGGAAAGATGGCGATCACCAGTGAAGATGGAACTCTATTGACTTCTTATCAGCTGGAGGAGAAGGAAGAGGATGAAGTAAGGACGACCGTCCCGAAAACCGCTGTTGCTGAGGAAGAAGAAGAAGAAGACTCATGGACGGATTATCTCAATTATTTGATCATCCCTCCGAAATTCTGGGCATTGGACGTTCTTCATTTTTGA	MKKLTMIFTLMILTANLGYIPVYGASKPDSPDILSESAIVLEAGTGKVLYEKNADRDMYPASLTKIATAIYALENGNPEDQVTVSEEARNTGGSSVFLMEGEQVSLKKLVQGLLINSGNDAGTAIAEHMSGSVDRFSEDLNAFLEDEVGTESTHFTNPHGLYDGQHTTTARDLAVLTQYAMQNETFMEIFGTKTMEWTGESWDTTLYTHHKLFREDPYEGITGGKTGFVPQAGFTLATTAAREDTNLIAITMKTPNQDQVYTDTKELLDYGFENYETSFVQKEEILGGRADEYMLPEEIPYTHLKEETAEVSVDENGKMAITSEDGTLLTSYQLEEKEEDEVRTTVPKTAVAEEEEEEDSWTDYLNYLIIPPKFWALDVLHF	PGPT0024040_5465	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024040-dacC|dacA|dacD-K07258	NA	NA
AK012_03096	1164	adh2_2	COG1979	Long-chain-alcohol dehydrogenase 2	ATGAATCAATTTTTACAATATAACCCGACGCGTCTGTACTTCGGGAAAGGGCAGATTGAGCAGATGGCTCAGGAGATCACAAAAGGTTCGAAAGTCCTTGTCGTTTACGGCGGCGGGAGCATTAAGCGGAACGGTGTGTACGATGAAGCTGTCGGCATGTTGAAATCTCTTGATGCGGACATGTATGAACTCTCCGGTGTGGAGCCCAACCCGCGCTTAACGACAGTGAAGAAAGGTGTGGAGATCTGTAAGCAGGAAGGCATCGATTTCCTTCTCGCTGTCGGCGGTGGCAGTGTGATTGACTGTACAAAAGCGATTGCCGCTGGTGCGGAATACGAAGGAGATGCCTGGGATCTCATTACAGGAAGTGCCCCTGTCGAAAAGGCGCTTCCGTTTGGGACCGTCCTTACGCTCGCTGCGACCGGTTCAGAAATGAATGCTGTGTCTGTCATCACGAATTGGGAGACGAGAGACAAGCTTGGCTGGGGCTCCCCGCACGTGTTCCCGACATTCTCGATCCTTGATCCTTCTTATACGTTTTCTGTACCGGAACACCAGACCGTATACGGCATCGTCGATAGTATGTCGCATGCGCTGGAGCATTATTTCCACCGTACACCGAACACACCGATGATCGACGGGTTTATCGAATCATTGCTGCGAACAGCTGTTGAAAACGGACCGAAACTGATGGAAAACCAACAGTCCTATGAGCACCGCGAAACGATGATGTACTTAAGTACGACGGCTTTCAATGGTACGCTGTCCAATGGAACCGACGGAGGCGACTGGGCCACACACCGCATCGAGCACGCGCTCTCTGCGGTATATGATATTCCACATGGCGGCGGTCTCGCCATCCTGTTCCCGAACTGGCTGGAACACGTCCTCGAAGAAGATCCAAGCCGCGTGAAGCAGCTGGCCGTCAACGTTTTCGGTATTGATCCTGAAGGGAAAGACGATAAGCAGACAGCCCAAGAAGGAGCGGCGGCCTTAAGAGATTTCTGGAACTCTCTAGGCGCCCCGTCCACCTTGAAAGATTACGATATCGATGATCAGGATTTCGACTCCATTGTTGAAAAAACATTCATCAAGCCGGGTGTCGGCACGTATAAGGAACTGGACAAGGAAAGTGTCCGCGACATCTTGAACCGATCCCTGTAA	MNQFLQYNPTRLYFGKGQIEQMAQEITKGSKVLVVYGGGSIKRNGVYDEAVGMLKSLDADMYELSGVEPNPRLTTVKKGVEICKQEGIDFLLAVGGGSVIDCTKAIAAGAEYEGDAWDLITGSAPVEKALPFGTVLTLAATGSEMNAVSVITNWETRDKLGWGSPHVFPTFSILDPSYTFSVPEHQTVYGIVDSMSHALEHYFHRTPNTPMIDGFIESLLRTAVENGPKLMENQQSYEHRETMMYLSTTAFNGTLSNGTDGGDWATHRIEHALSAVYDIPHGGGLAILFPNWLEHVLEEDPSRVKQLAVNVFGIDPEGKDDKQTAQEGAAALRDFWNSLGAPSTLKDYDIDDQDFDSIVEKTFIKPGVGTYKELDKESVRDILNRSL	PGPT0008295_504	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BIOTIC_STRESS_RESISTANCE-VOLATILES	BIOTIC_STRESS_RESISTANCE-ALCOHOL|KETONE_VOLATILE_METABOLISM,PGPT0008295-adh2_2-K19955	NA	NA
AK012_03097	960	tdcB_2	COG1171	L-threonine ammonia-lyase	ATGGATGCACAGGAGCAGCTGCAGGAGGTTGTGCACCGCACGCCACTGCAGACGTCAACGACCTTTAATGAACGGACAGGGCAGCACGTCTATTTGAAGATGGAAAATCAGCAGAAAACCGGCGCGTTTAAAGTCAGGGGAGCTTCCTATAAGGTCGCCTGCCTGACGGAAGAGGAAGCCGCCTGCGGAGTCATTGCTGCCTCAGCAGGCAACCATGCCCAGGGAGTGGCGGTTGCTGCAGCGAAGCGGGGAATTACGGCGCAGATCTTCATGCCGGAAGGAACACCACAGGCGAAGGTGGAAGCGACAGAAGGCTACGGGGCAACCGTTGTCCTTACAGGGGAATCCTTTCAGGAAGCGTATCAGGCCGCACGGATCGAGCAGGAACGGTCCGGCGCGACGTTCCTTCATCCCTTTGATGATTATGAAGTGATGGCTGGTCAGGCTACGGTGGCTGTGGAAATGCTTCAGCAGCAGCCGGACCTTGAACGCCTTTTTGTACCAATTGGAGGCGGCGGTTTGATCAGCGGTGTCGCTTTTGCTGCTAAACAGCTGAAGCCGGATATTACGGTGATCGGCGTTCAGTCAGCCAAAGCACCGTCCACCTACAATGCACTTTATAAGAAAGGTCCGGCAAAACTGACGTCTGTTTCCACGATCGCAGACGGTATTGCTGTGAAAGAGCATGGAAGGTTAACGTACACGTGTATCCAGAAATACGTGGACCAGGTGATTACCGTGGAAGAACATGAAATCGCCCAGGCGATGCTTCTGCTGCTTGAACGGGAGAAAACTCTCGTGGAGGGGGCCGGAGCCACAGCACTGGCAGGCCTGCTCCGTTCATGCCACACATTTGAACAGCAGCAGTGCGGCGTTGTATTGAGCGGCGGGAACATGGATCTCTCCCGGCTGCCACTGGTTCGTAAGCTCGCCAGCCCAAAAAAGGTTGTCATCGCATAA	MDAQEQLQEVVHRTPLQTSTTFNERTGQHVYLKMENQQKTGAFKVRGASYKVACLTEEEAACGVIAASAGNHAQGVAVAAAKRGITAQIFMPEGTPQAKVEATEGYGATVVLTGESFQEAYQAARIEQERSGATFLHPFDDYEVMAGQATVAVEMLQQQPDLERLFVPIGGGGLISGVAFAAKQLKPDITVIGVQSAKAPSTYNALYKKGPAKLTSVSTIADGIAVKEHGRLTYTCIQKYVDQVITVEEHEIAQAMLLLLEREKTLVEGAGATALAGLLRSCHTFEQQQCGVVLSGGNMDLSRLPLVRKLASPKKVVIA	PGPT0001960_6614	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
AK012_03098	606	leuD	COG0066	3-isopropylmalate dehydratase small subunit	ATGGAACCATTAAAACACCACAAAGGTCTGGTCTACCCATTGAATCGATCGAACGTCGATACCGATCAGATCATTCCAAAACAGTTCTTGAAACGGATTGAGCGTCAGGGGTTTGGTCAGTTCCTCTTCTACAACTGGCGGTTTGATGATGACGGGGCTCCTCGGGAGGACTTTTCCCTGAACAAGCCGAAGTATGACGGTGCTTCGGTTTTAGTAGGGGGAGAGAACTTCGGATGCGGCTCCTCGAGGGAACACGCACCATGGGCGATACAGGATTATGGTTTCCGTGTCGTCATAGCTCCGAGCTTTGCAGATATCTTTTATAACAACTGCTTCAAAAACGGGATTCTTCCTATCCAGCTTCCGAAGCCTGTCGTTGATCAGTTGATGGAAAAGGCAGAAGCGGAGTCTTATCATGTGGCGGTGGATCTGGAGGCGCAGACGATTGATGGCGGCGGTTTCGAAGTGGAATTCGATATTCAGCCCTATCATAAGGAAATGTTGTTGAACGGCTGGGATGAAATTGCCGTTACACTGACGTACGAAGACAAAATCGACCAATTTGAGGAAAAACAAAAAGGAGTGAAGACGTTGGGGATTTCTTAA	MEPLKHHKGLVYPLNRSNVDTDQIIPKQFLKRIERQGFGQFLFYNWRFDDDGAPREDFSLNKPKYDGASVLVGGENFGCGSSREHAPWAIQDYGFRVVIAPSFADIFYNNCFKNGILPIQLPKPVVDQLMEKAEAESYHVAVDLEAQTIDGGGFEVEFDIQPYHKEMLLNGWDEIAVTLTYEDKIDQFEEKQKGVKTLGIS	PGPT0001443_1909	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001443-leuD-K01704	NA	NA
AK012_03099	1413	leuC_2	COG0065	3-isopropylmalate dehydratase large subunit	ATGAGTCAACCAAAAACCATTGTTGAAAAAATTTGGAATCAGCATGTCGTCCACGAAGAAGAAGGGAAGCCGAATCTTCTCTACATCGACCTGCATTTGGTTCATGAAGTGACCTCTCCCCAGGCGTTTGAAGGGCTCCGCATGAGTGGAAGGAAAGTGAGACGGCCGGATCGTACGTTTGCAACGATGGATCACAACGTGCCGACCATCCACCGCAATGTCATCAAAGATGAAGTTTCCAAGAAACAGATGGAAACACTGGAGGCAAACTGTAAGGAATTTGGAGTCCGGCTGGCTGATATCAACCACCCGGATCAGGGCATCGTCCATGTCATTGGTCCGGAGCTTGGGTTAACCCAGCCGGGGAAAACAATCGTCTGTGGAGACAGTCACACCTCGACGCACGGGGCCTTTGGCGCCCTGGCCTTTGGAATCGGTACGAGTGAAGTGGAGCATGTGCTTGCCACTCAATCTCTATGGCAGGCCGAGCCGAAAACCCTTCAGGTTCATGTGGAGGGTGTACTGGGAACAGGTGTGACGGCCAAGGACTTGATTCTGGCGATCATCGGTAAATACGGTGTCCGGTTTGGTACCGGTCATGTGATTGAATATACTGGTGAAGCCGTCCGTAATCTGACCATGGAGGAGCGGATGACGGTCTGTAACATGTCCATTGAAGCGGGTGCACGCGCCGGTTTGATTTCCCCGGATGAGACCACCGTGGAATACCTGCGCGGGAAGCGTTATGTTCCCGAGGGAGAAGATTTTGAAGAAATCAAGGAGCAGTGGCTGGCGCTCGCCTCGGATGAGGGCGCGGAATATGACCAGACTCTTACCATTCACGCAGATGAGATCGAGCCTCAGGTGACCTGGGGGACCAACCCTTCTCAATGTGTGCCTGTCGGCGGCCGCGTCCCCGATCCGGAACAGGTGGAGGATGACCGCGACGGCATTGAGCGGGCGATCGCTTATATGGGCCTTGAAGCGAACCAGGCGATTGAGTCGATCCCGGTTGAACACGTGTTTATCGGGTCGTGTACAAACTCCCGCTTGAGCGACCTTCGCCGGGCGGCTGAAATCGTCCGCGGCAGCCGTGTCCATGAGGGTGTCAGAGCTCTCGTCGTCCCGGGGTCCAAGTCAGTGAAAGATGCAGCAGAAGCCGAAGGTCTGGACACGATCTTCCTGACTGCCGGATTTGAATGGCGCGATGCCGGCTGCAGCATGTGTCTGGCGATGAACGATGATATCGTTCCGCCGGGTGAGCGGTGTGCCTCAACGTCCAACCGTAACTTTGAAGGACGTCAGGGGAACGGGGCGCGTACCCATCTTGTCAGTCCGGAAATGGCAGCGGCAGCAGCTCTTGAAGGGCGTTTTGTAGACGTCAGAAAATATGCCGGTATGGTAGGAGGGTGA	MSQPKTIVEKIWNQHVVHEEEGKPNLLYIDLHLVHEVTSPQAFEGLRMSGRKVRRPDRTFATMDHNVPTIHRNVIKDEVSKKQMETLEANCKEFGVRLADINHPDQGIVHVIGPELGLTQPGKTIVCGDSHTSTHGAFGALAFGIGTSEVEHVLATQSLWQAEPKTLQVHVEGVLGTGVTAKDLILAIIGKYGVRFGTGHVIEYTGEAVRNLTMEERMTVCNMSIEAGARAGLISPDETTVEYLRGKRYVPEGEDFEEIKEQWLALASDEGAEYDQTLTIHADEIEPQVTWGTNPSQCVPVGGRVPDPEQVEDDRDGIERAIAYMGLEANQAIESIPVEHVFIGSCTNSRLSDLRRAAEIVRGSRVHEGVRALVVPGSKSVKDAAEAEGLDTIFLTAGFEWRDAGCSMCLAMNDDIVPPGERCASTSNRNFEGRQGNGARTHLVSPEMAAAAALEGRFVDVRKYAGMVGG	PGPT0001442_1680	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001442-leuC-K01703	NA	NA
AK012_03100	1107	leuB	COG0473	3-isopropylmalate dehydrogenase	ATGGAGAAACATATCGTTCTGCTGCCGGGCGACGGCATCGGTCCAGAAGTTACGAAAGCAGCCAGACAGGTGCTGCAGGCGGTCGCCGACCGTTATCAGCACACGTTTACATTTGAAAGTCATGACATTGGAGGATCAGCCATTGACCAGCACGGGACTCCGCTCCCGGAAGATACGGTCCAGGCGGCAAAAAAAGCCGATGCCATTTTCCTTGGAGCTGTCGGAGGCCCAAAATGGGATCAGCTGCCAGGTCATATGCGGCCGGAAAAAGGGCTGCTGGGGATCCGCAAGCAGCTCGGGTTGTTTGCCAACCTCCGTCCTGTCCAGGCGTTTCAACAGCTGCTCCATGCTTCCCCTTTAAAGAAGGAAGTCGTTCAAGGTAGTGATCTGCTGATTGTCCGTGAGTTGACCGGCGGCCTGTATTTCGGACAGCCGAGTGAGCGGAGAAATAACGGACAGGAAGTCGTGGATACACTGGCTTATGAACGTCATGAAATCGAAAGAATCGTCGAGCAGGCGTTTCAAAGCGCCCGGGTGAGAAGAAAGCACCTGACATCGGTCGATAAAGCCAATGTTCTGGAATCTTCCCGGATGTGGCGTGAAATCGTCGAGGAGAAAAAAGCGGACTATCCGGATGTCACCGTTGAGCATATGCTCGTCGATGCGGCAGCTATGAAGCTTGTAACCAATCCTTCATCCTTTGATGTAATCGTGACAGAAAACATGTTTGGAGACATTTTAAGTGATGAAGCTTCCGTCTTAACCGGTTCGCTCGGTATGCTTCCATCCGCAAGCCTGAACGAAAAAAGCGTCGGTCTTTATGAACCTGTTCATGGTTCAGCTCCGGACATTGCCGGACAGAACAAAGCCAATCCGGTTGCGAGCATCCTCTCTACAGCCATGATGCTGAAGCATTCGTTCGGAATGGAGGAGGAAGCGGAACAGGTGGAAGCGGCTGTCGCCGGTGTCCTGCAGGAGGGCTATCACACCGCAGACATCGATTTGAAAAATGGAGTGAAAGTCAGCGGCAGCGAACTGGCTGCTAAAATTGTCGATCAGATCAGTACGAGTGATGCAACAGAAAATATTATGCGCTGCTATGTATGA	MEKHIVLLPGDGIGPEVTKAARQVLQAVADRYQHTFTFESHDIGGSAIDQHGTPLPEDTVQAAKKADAIFLGAVGGPKWDQLPGHMRPEKGLLGIRKQLGLFANLRPVQAFQQLLHASPLKKEVVQGSDLLIVRELTGGLYFGQPSERRNNGQEVVDTLAYERHEIERIVEQAFQSARVRRKHLTSVDKANVLESSRMWREIVEEKKADYPDVTVEHMLVDAAAMKLVTNPSSFDVIVTENMFGDILSDEASVLTGSLGMLPSASLNEKSVGLYEPVHGSAPDIAGQNKANPVASILSTAMMLKHSFGMEEEAEQVEAAVAGVLQEGYHTADIDLKNGVKVSGSELAAKIVDQISTSDATENIMRCYV	PGPT0001441_921	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_MALATE_UTILIZATION,PGPT0001441-leuB-K00052	NA	NA
AK012_03101	1548	leuA		2-isopropylmalate synthase	ATGGCTCACGTTAATGTCTTTGACACGACCCTTCGCGATGGCGAGCAGTCCGCCGGGGTCAACTTGAACCGTTTGGAAAAGGTGGAAATTGCCAAACAGCTGGAAAGGCTTGGCGTAGACATTATGGAAGCAGGGTTCCCTGCTTCCTCCCAGGCGGATTTTGATGCAGTCAAAGAGATTGCCGATACGGTACGCGGTTGTTCTGTCACAGGCTTGGCCCGGGCGAACAAACGTGATATCGATATTGCGTGGGAAGCCTTGAAAGGCGGAGCGGAACCGAGACTCCATGTTTTTCTGGCCACCTCTCCTATTCACATGACGCATAAGCTGAAAAAGACACCGGATGAGGTTGTGGAAACAGCGGTCAATATGGTCCGCTACGCCCGCGAAAAGTTCCCTTATGTGCAGTTCTCAGCAGAGGATGCGCTGCGATCTGACCGGGACTTTCTCGTTCATATTATCGAACAGGTCATTGACGCCGGGGCTTCAGTAATCAACCTTCCGGATACGGTCGGTTTTACGACACCGGATGAAATAGGCAGCCTCTTCCGCTATGTCAGGGAGAAGGTTCCAAACATTGATCAGGCTGTCCTTTCTACGCATAACCATGATGATCTCGGAATGGCCGTCAGCAACTCTCTGGCAGCCGTCGAAAACGGGGCCGGCCAGATCGAAGGCACCATTAACGGTATCGGGGAACGTGCCGGGAATGCCGCCCTTGAAGAGATTGCTGTAGCTCTGCAGATCAGACAGGACCGCTACGATTTCCACACGGGGCTGGTTCTTAAAGAAATTAAACGGACCAGTGACCTTGTCAGCCGTTTGACCGGGATGCAGGTGCCGGGAAACAAGGCCGTTGTCGGGCGTAATGCCTTTGCTCATGAGTCCGGCATTCACCAGGACGGTGTCCTGAAGGAAGCCACGACGTACGAAATCATTACACCGGCTATGGTCGGCATTGATTCCAACCGGATGGTTCTTGGGAAACACTCCGGCCGCCATGCCTTCAAGCAGAAGGCAGAAGAGCTTGGGTTTGAACTGAATGAATCGAAGCTGAAAGAAGCATTCGAATCCTTCAAGAATTTGACCGGTAAGAAAAAAGAGGTTACCGATGATGATTTGTTTGCGATTCTTACGGATACGCAGACGGAGCATGAAGACCAGCCGAAATACGAACTGAAAGCCTTCCAGGTGCAGTACGGCAGTATCAACCGACCGACCGCGACTGTACTTTTGACGAAACCGGACGGGGAAGAAGCGGAAAAAGCCAACACCGGCGAGGGAAGTGTCGAAGCGATCTATAACACTCTGGATGATCTGATTGATGCGGATGTTCATCTGCAGGATTATCAGCTCAGTTCAATCGGAAGAGGACGCGATGCACTGGCAGAGGTTCACGTCCAGTTGACCGTTGATGGTGTGAAGGCCTCCGGCCGCGGGTCGGCGCAGGATGTGCTGGAAGCTTCCGCCCACGCTTTTCTCAATGCGGTCAACCGTACGTTGTATCAGCATAAACGTCACGAAGGCTACCAAAAAGTGCAAGTATAA	MAHVNVFDTTLRDGEQSAGVNLNRLEKVEIAKQLERLGVDIMEAGFPASSQADFDAVKEIADTVRGCSVTGLARANKRDIDIAWEALKGGAEPRLHVFLATSPIHMTHKLKKTPDEVVETAVNMVRYAREKFPYVQFSAEDALRSDRDFLVHIIEQVIDAGASVINLPDTVGFTTPDEIGSLFRYVREKVPNIDQAVLSTHNHDDLGMAVSNSLAAVENGAGQIEGTINGIGERAGNAALEEIAVALQIRQDRYDFHTGLVLKEIKRTSDLVSRLTGMQVPGNKAVVGRNAFAHESGIHQDGVLKEATTYEIITPAMVGIDSNRMVLGKHSGRHAFKQKAEELGFELNESKLKEAFESFKNLTGKKKEVTDDDLFAILTDTQTEHEDQPKYELKAFQVQYGSINRPTATVLLTKPDGEEAEKANTGEGSVEAIYNTLDDLIDADVHLQDYQLSSIGRGRDALAEVHVQLTVDGVKASGRGSAQDVLEASAHAFLNAVNRTLYQHKRHEGYQKVQV	PGPT0000080_111	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-ATMOSHPHERIC_NITROGEN_FIXATION	N-FIX-NITROGENASE_BIOSYNTHESIS,PGPT0000080-nifV-K02594	NA	NA
AK012_03102	1032	ilvC	COG0059	Ketol-acid reductoisomerase (NADP(+))	ATGGCACACGTATACTACCACAATGATATTAAAGATGAGGTTCTAAAAAATAAGAGAGTAGCTGTTATCGGATACGGCTCCCAGGGCCATGCCCACGCACTGAATTTGAAAGAGAGCGGTCATGACGTCGTTGTCGGTCTGCGTAAAGGAAAGTCATGGGATAAAGCAGTCGAAGACGGGGTGGAAGTGAAGACGGTTCCGGAAGCTGTAGAGAGTGCTGACGTCGTCATGGTTCTCCTTCCGGATGAGTATCAGCCGAAAGTATACGAAGAGCAGATCAAACCGAATCTTAAAGCCGGCGCAGCGCTTGCTTTCGCTCACGGATTCAACGTTCACTTCAACCAGGTCGTCCCTCCATCTGACGTGGATGTGTTCCTTGTAGCGCCTAAAGGGCCCGGGCACCTTGTCCGCCGTACGTTTGAAGAAGGAGCCGGCGTGCCTGCACTGATCGGGGTCGAACAGGATGTAACAGGAGAAGCCAAGGAAGTCGCTCTCGCCTATGCGAAGGGAATCGGCGGCGGCCGTGCCGGTGTGCTGGAAACTTCCTTCCAGGAAGAAACCGAAACAGATTTGTTCGGTGAGCAGGCTGTTTTGTGCGGAGGATTGACCAGCCTTGTTAAGGCAGGCTTCGAAACATTAACAGAAGCTGGTTATCAGCCGGAAGTTGCCTACTTTGAATGTCTCCATGAGCTGAAGCTGATTGTTGATCTGATGTACGAAGGTGGTCTTGAAGGCATGCGTTATTCCATCTCTGATACGGCTCAATGGGGCGACTTCGTTTCCGGTCCACGTGTCGTTGACGAAACAACGAAAGCCCGCATGAAAGAAGTGCTGACTGACATTCAGACCGGCAAGTTTGCGAAAGGCTGGATCCTCGAGAACCAGGTGAACCGTCCTGAGTTCACGGCGATCAACGCCAAAGAAAGCCAGCATCAAATCGAAAAGGTGGGTAGAGAGCTCCGTGAATTAATGCCGTTCGTCAAGAAGTCCCAATCCAAAGAAAAGGATGTGGTCACTCATGGCTCACGTTAA	MAHVYYHNDIKDEVLKNKRVAVIGYGSQGHAHALNLKESGHDVVVGLRKGKSWDKAVEDGVEVKTVPEAVESADVVMVLLPDEYQPKVYEEQIKPNLKAGAALAFAHGFNVHFNQVVPPSDVDVFLVAPKGPGHLVRRTFEEGAGVPALIGVEQDVTGEAKEVALAYAKGIGGGRAGVLETSFQEETETDLFGEQAVLCGGLTSLVKAGFETLTEAGYQPEVAYFECLHELKLIVDLMYEGGLEGMRYSISDTAQWGDFVSGPRVVDETTKARMKEVLTDIQTGKFAKGWILENQVNRPEFTAINAKESQHQIEKVGRELRELMPFVKKSQSKEKDVVTHGSR	PGPT0008735_1496	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
AK012_03103	522	ilvH	COG0440	Putative acetolactate synthase small subunit	ATGAAACGCATCGTGACAGCAACGGTTCATAACCGGAGCGGTGTACTGAACCGGGTCACCGGTCTCCTCGCTAAACGGCAGTTCAATATTGAAAGTATATCGGTCGGCCGTACAGAAACCGAAGGGGTATCCAAAATGACCTTCGTCGTCGAGGTGGAGGATGAGAGGAAGCTGGAGCAGCTGACCAAGCAGCTGAACAAACAAATCGATGTCCTGAAAGTATCGGACATTACCGATAAAGCTATCGTTGCAAGAGAACTGGCGATGGTGAAGGTGATCAGCAACCCGCAGATCCGCAGCGAAATTCAAGGCATTATTGAGCCATTCCGGGCGTCCATTATTGATGTGAGCAAGGAGAGCGTCACCGTGCAGGTGACAGGTAAATCAGACAAGGTTGATGCTCTCATCGATCTGCTCCGCCCTTATGGAATAAAAGAATCAGCAAGAACCGGGCTGACCGCCTTTACGCGCGGCCACCAGCCACAGGTAGCAGAATTCAAATCTTACTCCCTATTAAAATAA	MKRIVTATVHNRSGVLNRVTGLLAKRQFNIESISVGRTETEGVSKMTFVVEVEDERKLEQLTKQLNKQIDVLKVSDITDKAIVARELAMVKVISNPQIRSEIQGIIEPFRASIIDVSKESVTVQVTGKSDKVDALIDLLRPYGIKESARTGLTAFTRGHQPQVAEFKSYSLLK	PGPT0008205_1425	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
AK012_03104	1716	ilvB_2	COG0028	Acetolactate synthase large subunit	ATGAAAGCACAGGCAAGTGCGGAACAAAAGACCGCAGTGAAAACAGGGGCCGATTTACTTGTAGAAGCATTGATTGGCCAGAGTGTTGATACGTTGTTCGGTTATCCAGGAGGAGCTGTGCTGCCGATTTACGATGCCATTTACCGGGCGGAAGGCAGCTTTGATCACGTGCTTCCAAGGCATGAACAAGGTGCCATCCATGCAGCTGAAGGCTATGCCCGTGTTTCCGGCCGTGCTGGAGTCGTTATCGGCACATCAGGACCAGGGGCAACGAACCTTGTGACCGGTATTGCCGATGCTATGATGGATTCGATTCCTCTCGTCATCTTCACCGGACAGGTGGCGAAAGGGGTCATCGGAACCGATGCTTTCCAGGAATCGGACATCATGGGAATCACTACACCTATCACGAAGCATAACTATCAAGTTCAGAATATTGAACATCTTCCGAGGATTGTGAATGAGGCCTTCCACATTGCCACGACCGGCCGACCGGGTCCCGTCGTCGTTGATATTCCGAAAGACATCAGTTCAACAGTCTTTGATAAAGACATCAGCAATGATTTTCATCTTCCTGGATATCAACCGACAACGAAACCGAATCCGATGCAGATCAACAAACTGCATGAGGCGCTTCTGACAGCCAAAAAGCCGGTTGTCCTTGCCGGCTCCGGCGTCATCCACGCCAAGGCTTCTGAAGAACTTCGCACCTTTGTAAGAAATTACGAACTTCCGGTTACTTCGACTCTGCTGGGGCTCGGAAGTTATCCCGGCAGTGACCGGCTTTCCCTTGGGATGGCAGGGATGCACGGAACCTATGCAGCAAATATGGCGCTGTATGAATGTGATCTGCTCATCAATTTCGGCTCACGCTTTGATGACAGACTGACAGGAAACTTAAAGCATTTCGCCCCCCATGCAAAAGTCGCGCATGTCGATATCGATCCGGCTGAGATCGGAAAAAACGTAGATACCCATATTCCGATCGTATCGGATGCGAAAGCGGCCCTTGCATCATTGAATGAAAAAGCCGTCCAGAACCTGGAACACCAGGACTGGATGATGAAAGTGGAAAAAAACAAGCAGGATTTCCCTTTGTGGCATGATCAGCCCGACGCAGACATTGTTCCGCAGTGGCTGCTTCAGAAAGTTTATGAATATACGAAAGGCGAAGCGGTTGTGACCACGGACGTCGGTCAGCACCAAATGTGGGCCGCGCAGTACTACCAGTTCGACGAGCCGAACCGCTGGGTTACCTCAGGAGGACTTGGAACGATGGGCTACGGATTCCCGGCAGCCATCGGAGCCCAGCTCGCGGATCGGAAATCGACTTGTGTAGCCGTTGTCGGGGATGGCGGTTTTCAAATGACCCTGCAGGAGCTCTCCGTTCTTCAGGAACGCCGGCTTCCCGTCAAAGTGCTCATCGTCAACAACCAGGCCCTCGGCATGGTTAGGCAGTGGCAGGAGAAGTTTTACAGTGAACGTTATTCCGAGTCGATCATCGATGTGCAGCCTGATTTTGTAAAACTGGCGGAGAGCTATCAGGTGCCGGGGTATAAAATTGAAACCCAGGGACAGCTGGAGGAGGTACTTCCTGACATATTGAACAATGATCAGCCGGCCCTTATTGACTGCCGGGTTCTCCAGAAAGAGAATGTCTATCCAATGATTGCACCAGGAAAAGGAATCCACGAGATGATTGGGGTGAAACGATGA	MKAQASAEQKTAVKTGADLLVEALIGQSVDTLFGYPGGAVLPIYDAIYRAEGSFDHVLPRHEQGAIHAAEGYARVSGRAGVVIGTSGPGATNLVTGIADAMMDSIPLVIFTGQVAKGVIGTDAFQESDIMGITTPITKHNYQVQNIEHLPRIVNEAFHIATTGRPGPVVVDIPKDISSTVFDKDISNDFHLPGYQPTTKPNPMQINKLHEALLTAKKPVVLAGSGVIHAKASEELRTFVRNYELPVTSTLLGLGSYPGSDRLSLGMAGMHGTYAANMALYECDLLINFGSRFDDRLTGNLKHFAPHAKVAHVDIDPAEIGKNVDTHIPIVSDAKAALASLNEKAVQNLEHQDWMMKVEKNKQDFPLWHDQPDADIVPQWLLQKVYEYTKGEAVVTTDVGQHQMWAAQYYQFDEPNRWVTSGGLGTMGYGFPAAIGAQLADRKSTCVAVVGDGGFQMTLQELSVLQERRLPVKVLIVNNQALGMVRQWQEKFYSERYSESIIDVQPDFVKLAESYQVPGYKIETQGQLEEVLPDILNNDQPALIDCRVLQKENVYPMIAPGKGIHEMIGVKR	PGPT0008185_5048	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
AK012_03105	903	ilvE_2	COG0115	Branched-chain-amino-acid aminotransferase	ATGAGCAGCCAATGGATTTATATGAGCGGCGAGTACGTAAAGAAAGAAGAGGCCGTCGTTTCTGTCTATGATCATGGTTTCTTATATGGAGATGGGGTGTTCGAAGGCATTCGCGTTTATGAAGGCAACATTTTCAAGCTCGATGAGCATTTAAACCGCCTTTATGATTCAGCGAAATCGATCATGCTCCAAATTCCATATGAAAAGGAGGAGCTCGAAGAGATTATCGCAGAGACGGTCCGCCGCAACCAGCTGGAAACGGCTTATATCCGTGTTGTTGTGTCACGAGGATCAGGCAATCTTGGTCTTGACCCATCCAGCTGTGCAAATCCGCGTCTGGTTGTCATTGCTGAAGCACTCGCTTTGTTTCCAAAAGAACTTTACGAGCGGGGAGTCCGGCTTGCATCTGTATCAAGCAGAAGAAACCGGCCGGATGTCCTTCCACCGCAGGTGAAATCTTTAAACTACTTAAATAACATTCTTGTAAAAATGGAAGCCAATCAGGCCGGCGTGGATGAAGCGCTTATGATGAACGATCAGGGGTATGTAACAGAAGGTTCCGCCGACAACATCTTTATTGTTAAGAACGGTACCATCCTTACACCGCCGACCTATCTCGGTGCCCTTGAAGGAATTACAAGAAATGCCATCATGGATCTCGCAGAAGCGAAAGGCTATACCGTGAAGGAACAGCCGTTCACACGTCACGATGTCTATGTCGCGGACGAAGTGTTCCTCACTGGAACCGCTGCAGAAGTCATCGCTGTCGTCGAAGTGGATCAGAGGCAGGTAGGGAATGGAAAACCGGGTGTTGTCACCAACCATCTCTTGTCCGAGTTCAGACAGGTAACAACGACAGATGGTTACAAGGTGTACGGCAAAAATCAGGCGCACGTAAGCTGA	MSSQWIYMSGEYVKKEEAVVSVYDHGFLYGDGVFEGIRVYEGNIFKLDEHLNRLYDSAKSIMLQIPYEKEELEEIIAETVRRNQLETAYIRVVVSRGSGNLGLDPSSCANPRLVVIAEALALFPKELYERGVRLASVSSRRNRPDVLPPQVKSLNYLNNILVKMEANQAGVDEALMMNDQGYVTEGSADNIFIVKNGTILTPPTYLGALEGITRNAIMDLAEAKGYTVKEQPFTRHDVYVADEVFLTGTAAEVIAVVEVDQRQVGNGKPGVVTNHLLSEFRQVTTTDGYKVYGKNQAHVS	PGPT0008860_5982	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_VALINE_DEGRADATION,PGPT0008860-ilvE-K00826	NA	NA
AK012_03106	117			hypothetical protein	ATGGGCTGTGGTTATGGTGGCTACGGTTACGGCGGTGGCGGATATGGCAGCACGTTCGTTCTAATCGTCGTATTGTTCATCCTGTTGATTATCGTAGGTGCATCGTTTTATTATTAA	MGCGYGGYGYGGGGYGSTFVLIVVLFILLIIVGASFYY	PGPT0024985_229	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024985-yjcZ-NA	NA	NA
AK012_03107	180			hypothetical protein	ATGCTGATGTCGGCTTATCCGCCAGAAAAATCATTCGAGGACAGGTATGCTTTGATTGACCACCTGAGAAATCTCGGCTACACCGAAGACCTGCTTGGAAAGAAAACGGTCGAGATGACGCTGCCGGAACTGCAGCAGACCTATATCAATCTGGAGTACCAAAAAGACGAACGTACGTAA	MLMSAYPPEKSFEDRYALIDHLRNLGYTEDLLGKKTVEMTLPELQQTYINLEYQKDERT				NA	NA	NA	NA	NA
AK012_03108	237	fdxA_2		Ferredoxin 7Fe	ATGGCATTTGTCATTACACAGCCGTGCGAAGGAGAACAAGCGGGGGAGTGTGTCAGCGTCTGCCCTGTTGACTGTATTGAACAGGGGGAGGACCAGTATTATATTAATCCCGACATCTGCATCGACTGCGGGGCCTGCGTTTCTGTCTGCCCGGTGGATGCGATTGTTGAAGAATATGAGATGAGGCCGGAGGAAGAGCCGTACCTGGCCAAGGCAGAAGCCTTCTTCGGTGTATAG	MAFVITQPCEGEQAGECVSVCPVDCIEQGEDQYYINPDICIDCGACVSVCPVDAIVEEYEMRPEEEPYLAKAEAFFGV	PGPT0030810_1595	PUTATIVE	PGPT	PUTATIVE_PGPTs	PUTATIVE_FUNCTIONS	PUTATIVE_FUNCTIONS-1	PUTATIVE-ENERGY_METABOLISM	PUTATIVE-FE-S_CLUSTER_BIOGENESIS,PGPT0030810-fdxA-K05524
AK012_03109	750			hypothetical protein	ATGACGGTGAAAAAATGGGCTGTAGTCTATGAAACCCTTTTACTTACCCTTGCACTATTGTCCGTCATGTACCTTTGGTCGGACCACCCCGCCGCCATCTTCCTGGACCGTTTTGTCTGGTTGTTGTTTTTCACCGACGTCACCATCCGGATTCTTCGGTCTGAGAACAAGCTGCAATACATAAGAAAACATCCGCTTGAAGTCATTGCTGCCATCCCCTTGGAAAGCATCTTTCAGCTTGCACGTGCGGCCAGGCTCTTCCGGCTTCTACGGATGCTTCTCATCGTTCGTCGTCACTTCCCTCATCTGTTAAAAATCCTAAGAACAAACGGATTGGACCGCGTTCTGCTGTTCTCGACAGTCATGTTGTTCGCCTCTTCGGTCATCATCCGGCATGCAGAGGACAATATTGATTCATATGCTGACGGATTGTGGTGGTCCATCGTCACAGTAACGACCGTTGGATACGGCGATATCGCCCCTTCGACTCTTTCGGGCAGGCTGGTCGCTATTTTCCTTATGATTATAGGAATTGGACTGATCGGGATGCTTACCGGTTCCATTACGACCTATTTCGTCAAGAAACCAAAGGAAGGACACCACACGATCCGCTATATTCAATCCGAACTCGACCGCTATGATGAACTTTCCAGCAAGGAACGCGAACGGATCGTATTTCTTCTTCAAGAAGTCAACGAGGAGCAGGCAGGAAGGAAAAAACAGAAAGAAAATGGAGGGAGGCGTGTTTGA	MTVKKWAVVYETLLLTLALLSVMYLWSDHPAAIFLDRFVWLLFFTDVTIRILRSENKLQYIRKHPLEVIAAIPLESIFQLARAARLFRLLRMLLIVRRHFPHLLKILRTNGLDRVLLFSTVMLFASSVIIRHAEDNIDSYADGLWWSIVTVTTVGYGDIAPSTLSGRLVAIFLMIIGIGLIGMLTGSITTYFVKKPKEGHHTIRYIQSELDRYDELSSKERERIVFLLQEVNEEQAGRKKQKENGGRRV	PGPT0002715_4339	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-POTASSIUM_TRANSPORT,PGPT0002715-kch|trkA|mthK|pch-K10716	NA	NA
AK012_03110	723			hypothetical protein	ATGCTCGATAAACATTCATGGGTCAAACCTCTCGTGCTCGTTGTCACTTTTCTTATCCTCGCTGGATGCCAGGCGGTAGAGACAACGTCCGGCGAGCTTGAAACCGCCGTCGTCACCCGAGTTGTCGACGGGGACACGCTTCATATAGAGCGGAACGGCAAAGAAGAAACGGTGCGCCTGCTGCTGGTGGACACGCCGGAGACCGTCCACCCCAATAAACCCGTGCAGCCCTTCGGAAAAGAGGCAAGTCAATTCGCCAGGGAGACATTGTCCGGAAAAGAAGTCCATCTGGAGTTCGACGGACCAGAGCGTGACAAATACGACAGGCTGCTGGCCTACGTATGGGTCGGAGACACCTCTTTCAATGAACGACTGCTTGAAAAAGGCCTTGCCCGTTATGCTTATGTCTATGACCCGCCCTATACCCATTCCGGGGCGTTGAAGGAGGCCGAGCAGGAAGCTTCCGACCAGGAAAAAGGCATTTGGAGTCTACCTGGATACGTCACAGAGGACGGCTTTGCAGAAGGTTTTGAAGCAGAGGAAACAAAAAGCAGCCCGGCGAAGCACGAAAACCTGTCCAGGGAGGACGACAAAGACTGCTCTGATTTTGATACACAAGAAGAAGCGCAGACCTTCTATGAAAACGCCGGCGGTCCTGAAAAGGATCCGCACCGTCTTGATGGTTCCGACCAGGATGGACGGATCTGTGAAAGCTTATCCTGA	MLDKHSWVKPLVLVVTFLILAGCQAVETTSGELETAVVTRVVDGDTLHIERNGKEETVRLLLVDTPETVHPNKPVQPFGKEASQFARETLSGKEVHLEFDGPERDKYDRLLAYVWVGDTSFNERLLEKGLARYAYVYDPPYTHSGALKEAEQEASDQEKGIWSLPGYVTEDGFAEGFEAEETKSSPAKHENLSREDDKDCSDFDTQEEAQTFYENAGGPEKDPHRLDGSDQDGRICESLS				NA	NA	NA	NA	NA
AK012_03111	1185	pyrH_2		Uridylate kinase	GTGGAACTTGTTGTCCAAAAATATGGAGGAACGTCCCTGCAGACGCCCGGGCGGATGGCTGAGGCGGCGGATCGGATTATCAAAGAAACGAAAAGAGGCAGTCAAGTCATTGTCGTCGTCTCTGCTATGGGCAGAACGACCGATGATTTGACCACTCTTGCCGGGCAGGTTTCCTCCTGTCCGGCAGCAAGAGAAATGGACCTGCTCCTTTCTACGGGAGAGCAGGTGTCCTGTGCACTGATGGCGATGGCCCTGAAGGCTGCGGGAGTGGAGGCTGAGGCCCTCACCGGACCGCAGGCCGGAATTATCACGGATTTCAGTTACGGAGACGCCGTTATAAAAGAGGTCGACCCTGAGCCGGTAAGGAACAGGCTGAAGGAAGGGAAAGTGGTTATTGTCAGCGGTTTCCAAGGCTGTCCCGGAGGTCATGAAGTAGCCACCCTCGGCCGCGGGGGATCGGATACAACGGCAGCGGTGCTTGCGGGTGCCCTGAAAGCCGACCGCTGTGAAATTTTCACGGATGTAGACGGGGTCTATACGGCTGATCCAGGTACAATCACAGGAGCGCAGAAATATGAACAGTTGGATTACGAAAGCCTGTCTGCCCTTGCAGAGCTCGGAGCATCCGTCGTCCACCCGAGAGCTACGGCTGCAGCGGAAGCCTGGCAGATCCCTTTGGTTGTCCGTTCAAGTTTGACGGAGCAGACAGGGACGACCATCCTTCCAAGCACGTTGAGCCCCTGTTCTTTTCCTGTGATCGGTGTGACATCCGAAACGGGACTCTCCTCCTTTTCTCTCCATGAGGGAGCGGATAGGAGGGAAATGAGGAGAGCATGGAAAAGCGGCTTACCGTGGAAGGCTGTGCAGCACATAAAGAATCGTCTATACAGAATTGTTGTCCGTAATGAAGAAGCATCCCATACAAAATCCCTGCTCAGCCGATTCGGCGGAAGACCGGATCCGGGCAGAGCTCTGGTGCATGTCATTTTCAGATCAGAGGAAGAGAAGCAGAAAGCCGGCTCGTTTATGAGGGACCTTCCGTATCCCCAGGACTGCTTTATGGTAGAAACTCAGCCGCATGTCTGGAGTATGGATGTTCCTGAGTGTCATAGGGTGAACATTTGTCAGGCTCTTCACGACAGGTGTATGAAAAAGGAGGCCGCACCTATTTCTGCTGCTCATTAA	MELVVQKYGGTSLQTPGRMAEAADRIIKETKRGSQVIVVVSAMGRTTDDLTTLAGQVSSCPAAREMDLLLSTGEQVSCALMAMALKAAGVEAEALTGPQAGIITDFSYGDAVIKEVDPEPVRNRLKEGKVVIVSGFQGCPGGHEVATLGRGGSDTTAAVLAGALKADRCEIFTDVDGVYTADPGTITGAQKYEQLDYESLSALAELGASVVHPRATAAAEAWQIPLVVRSSLTEQTGTTILPSTLSPCSFPVIGVTSETGLSSFSLHEGADRREMRRAWKSGLPWKAVQHIKNRLYRIVVRNEEASHTKSLLSRFGGRPDPGRALVHVIFRSEEEKQKAGSFMRDLPYPQDCFMVETQPHVWSMDVPECHRVNICQALHDRCMKKEAAPISAAH	PGPT0014040_5067	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARTATE_DEGRADATION,PGPT0014040-lysC-K00928	NA	NA
AK012_03112	1818	iucC	COG4264	Aerobactin synthase	ATGTATAAACAAGCGGAAATTTCCAAAACCTTCAACGAAGCGGACTGGAGAGCGGTCAATCGGAAGCTCATGGCCAAAATGCTGGCGGAATATATGTATGAAGATATGATCCATCCGGAGTTGACCGGGGAGCACGGAAAAACAAAAACATTTGAGCTTCCGGCTTCAGCCGGAAAGGTGTATGCGTTTAAAGCGGTCAGCCGTCTGTTTGACAGCTGGGACGTGGAGGCAGCATCCATAACCGTTAGACAGGACGGAGCGGTTGAAGAACCAGCTGATGCGGTTCAGCTTCTCATCGATCTGAAAGATGTCATTGGCATGAAGCCGGAAACGACCGGGCATTTGATCAAGGAACTGCAGGCGACTTTAATCGCAGACATTCACTTGAAAATGAAGACCGATCGGACGTCCCGCGATCTGATTGATCTTGACTATGCAGAGCTGGAAGGGTATATGGAAGGCCACCCGTGGATCACCTACAATAAAGGCCGGATCGGATTTGGGTTTGATGACTATTTGAGGTTTGCGCCGGAACATCAGGAAGAAATCCTCCTTTCCTGGATCGCTGTGCATCACAGTCTCGCTGAGTTCCAGGCTGTGGAAGGACTTTCCTGCAGGGATCTGTTGGAAAAAGAATTGAGCCGGGAAGAAAGAGAACGGTTTGCCGCTGTTGTGAAAGAGGAAGGGAAGGATCCTGACGATTATTATTTCCTCCCTGTGCATGAATGGCAGTGGAAAAACACCATTGTCCTGCATTTTCCCGGCGAATTGGCACAAAAGACAATCATACCGCTTGGTGATGGGCAGGATCAGTACCTTCCGCAGCAGTCCATCCGTACGTTCGTCAACCGGAGTGAAAAGGATAAACACCATGTGAAGCTGCCGATGAGCATTTTGAACACACTCGTCTACCGCGGTCTGCCTGCAGAGCGGACACGAATTGCCCCGAAAGTGACGGCCCTGATCAAGGGGATGTATGAGAAGGATGATTTTCTTAAGCGGGAGTGCCGGGTGATTCTTCCTGGAGAAAATGCCAGCATCAATGTCGATCAGCCCCACTTTACGTCCGTAAAAGATGCCCCGTATCAGTACTTGGAAATGCTCGGGACGATCTGGCGTGAAAGCATTTATACATATGTGGAAGAAGGGGAGCAGCCCATTACACTTGCGGCCCTGCTTCATAAAGACTACAGGGGCACCCCTTACGTACAGGAACTGATTGAAGCGTCGGGGATGGAACCGGAGGCGTGGATGCGTCAATTTTATAAAGTGGTCATGGATCCCCTGCTTCATTTCCTATACCAATACGGCACGGTATTCAGCCCCCACGGACAGAATACCATCCTTGTCCTGAAAGACTACAGACCCCACCGTCTGGCTGTCAAAGATTTCGTCGATGATGTCAATGTGACGGATCAGCCGTTCGAAGAGCTGAAGGACCTCTCCCAGGAAATGAAGGACGTGCTGCGCAGTGAGCCGCCGGAAGGATTGACCCAGTTTATTTTTACCGGGTTGTTTATCTGTCATCTCCGTTACTTAAGCGATGTACTGGAAACGCATGAGCTGATGGAGGAGGAGGTATTCTGGGGCCTTCTCGCAGAGGCGATCCAGGATTACCAGATGAGGTTCCCGCAGCTGAGGGAGCGGTTTGAGCTGTTTGATTTCTTCAAGCCCACGATGACCAAGCTGTGCCTGAACCGGAATCGGATGGTTGATTACGGATATGAAGATGGGGAGGATCGTCCTCATGCATCCGAATACGGACAGGTGACAAATGCCCTGGCTGCCTTTAAGAACAATGTGGAACAGACAACCTGA	MYKQAEISKTFNEADWRAVNRKLMAKMLAEYMYEDMIHPELTGEHGKTKTFELPASAGKVYAFKAVSRLFDSWDVEAASITVRQDGAVEEPADAVQLLIDLKDVIGMKPETTGHLIKELQATLIADIHLKMKTDRTSRDLIDLDYAELEGYMEGHPWITYNKGRIGFGFDDYLRFAPEHQEEILLSWIAVHHSLAEFQAVEGLSCRDLLEKELSREERERFAAVVKEEGKDPDDYYFLPVHEWQWKNTIVLHFPGELAQKTIIPLGDGQDQYLPQQSIRTFVNRSEKDKHHVKLPMSILNTLVYRGLPAERTRIAPKVTALIKGMYEKDDFLKRECRVILPGENASINVDQPHFTSVKDAPYQYLEMLGTIWRESIYTYVEEGEQPITLAALLHKDYRGTPYVQELIEASGMEPEAWMRQFYKVVMDPLLHFLYQYGTVFSPHGQNTILVLKDYRPHRLAVKDFVDDVNVTDQPFEELKDLSQEMKDVLRSEPPEGLTQFIFTGLFICHLRYLSDVLETHELMEEEVFWGLLAEAIQDYQMRFPQLRERFELFDFFKPTMTKLCLNRNRMVDYGYEDGEDRPHASEYGQVTNALAAFKNNVEQTT	PGPT0003407_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RHIZOBACTIN_METABOLISM,PGPT0003407-rhbF-NA	NA	NA
AK012_03113	1332	iucD_3	COG3486	L-lysine N6-monooxygenase	ATGAAGCCTTCATACGTATATGATGTGATCGGAGTGGGTCTTGGGCCGTTCAATTTAGGAATGGCCGCGCTGCTTGACCCTGTCGAGGACGTTTCTGCCCTCTTTTTTGAAAAGGAGGATGAATTCAACTGGCATCCCGGCATGCTGATTGAAGGGACAACCCTCCAGGTCCCCTTCTTTGCCGATCTTGTCAGCATGGTGGATGTCCGGAGTGAGTACAGCTTCCTTCATTATCTGCAGGAGCATCAGCGGCTCTACCACTTTTATTTTTTGGAGAAATTCCATATTCCCCGGAAGGAATACAATACTTACTGCCGCTGGGTGAGCAGCCGTCTCTCGTCCTGCCGTTTCGGTTATACCGTCACCCGTGTAAATGTAGTGGAAAAGGATTCCCGCAGCATATATGAAGTGGGCGTCATCCAAGGACAAACGGGGGTGGAGGACGTGTACTACGCAGAGAATGTGGTGCTCGGAATCGGTACACAGCCCTACGTTCCACCTGCCTTTCGGGAAGCGCTCGGGGATACTGTTTTTCACACGTCCGAGTACTTAGAGAAAAACGTCCGTCCGGATCAGTCGGTGGCTGTCCTTGGATCCGGTCAAAGCTCCGCAGAGGTATTTCTGGATATCGCCCGCAGCCAGCAGGATTCTGAAGGAAGTCTGCAGTGGTACACAAGATCGAACGGATTCTTTCCTATGGAATATTCGAAGCTCGGTCTGGAATACTTCTCCCCTGATTATATCGATTTCTTCTATGATCTGCCTCAGGAAGAGAAGGATGCGCTTCTGAAGGATCAAGGGCTGTTATATAAAGGGATCAGTGCTGAAACCATTGCGGATATTTATGATCATTTGTATGAGCAGACGATTGGAGGGGCGTCTCCGGACATCCATCTCCAGGCGATGACAGAACTTATATCCATCCAATGGGAACACGGGCGGTGGCTGCTGAATGGGGTTCATCGTGTGAATGGAGACACGGTTGAGGCAGAAGCGGATGTGGTCGTGTTGGGCACGGGTTATCAGCCGGCGGTACCTGCGTTTCTCCAGACCATTCAGGACAAAATTTTATGGGATGAACAGGGGCGCTTCCAGATCGAGAAAACCTATGAGCTGAAGACAGACATGACGACAGCGGGTGACCTTTTCGTTCAGAACGGTGAACTGCATTCCCACGGGGTGGGGGCTCCTGACCTCGGCCTTGGTGCGCACCGTAATGCGGTGATTATCAACAAAATAGCCGGCCGGGACGTCTATCCGGTACAGGTTGACAATGTGTTCCAGACGTTTGGAACAGCCAGGCAGCCGGAACATTCAAGTATGAAGAAATGA	MKPSYVYDVIGVGLGPFNLGMAALLDPVEDVSALFFEKEDEFNWHPGMLIEGTTLQVPFFADLVSMVDVRSEYSFLHYLQEHQRLYHFYFLEKFHIPRKEYNTYCRWVSSRLSSCRFGYTVTRVNVVEKDSRSIYEVGVIQGQTGVEDVYYAENVVLGIGTQPYVPPAFREALGDTVFHTSEYLEKNVRPDQSVAVLGSGQSSAEVFLDIARSQQDSEGSLQWYTRSNGFFPMEYSKLGLEYFSPDYIDFFYDLPQEEKDALLKDQGLLYKGISAETIADIYDHLYEQTIGGASPDIHLQAMTELISIQWEHGRWLLNGVHRVNGDTVEAEADVVVLGTGYQPAVPAFLQTIQDKILWDEQGRFQIEKTYELKTDMTTAGDLFVQNGELHSHGVGAPDLGLGAHRNAVIINKIAGRDVYPVQVDNVFQTFGTARQPEHSSMKK	PGPT0031170_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-BISUCABERIN__BIOSYNTHESIS,PGPT0031170-bsbB-NA	NA	NA
AK012_03114	579	iucB		N(6)-hydroxylysine O-acetyltransferase	ATGGGATTTGATTGCGAAGTCTATGATCCTGTCATTGCGCGCACGCTGGCCTTCAGAAAGGCGCAGGAAGGGGACGGTCCACTCGTTCATACATGGATGAATGAGGAGCATGTCCATCCGTTCTGGCAGCTGAACCTGCCATGGGGGGCCTTTCACACCCATTTTCATAGAGCGTTGAATGACCCTCACCAGACGCTTTATATCGGTTTTATGGACGGGACTGCTCTGAGCTACTGGGAAGCTTACTGGGTGAAGGGGGATGTGGTGGAGGGCTGTTATGACCCCTCTCCCTTCGATCAGGGCATTCACCTTCTGATCGGAGAAAAAGATTTTCTCGGCCGCGGGTACGCCCTGCCGTTATTGAAGGCTATGGTTCGGTATCAGTTCCGCCATCAGGATACAACAAAGGTGGTGGCTGAGCCGGACATCCGTAATGAAAAGATGATTCACGTTTTTCAGGCGTGCGGTTTCAAGCCGGTTGAACCGATTACTCTTCCTGATAAAGAGGCGCTTTTGATGTTTTGTGAGCGGGAAGAATTCGAAAGGAGATGGAAAGATGAAGCCTTCATACGTATATGA	MGFDCEVYDPVIARTLAFRKAQEGDGPLVHTWMNEEHVHPFWQLNLPWGAFHTHFHRALNDPHQTLYIGFMDGTALSYWEAYWVKGDVVEGCYDPSPFDQGIHLLIGEKDFLGRGYALPLLKAMVRYQFRHQDTTKVVAEPDIRNEKMIHVFQACGFKPVEPITLPDKEALLMFCEREEFERRWKDEAFIRI	PGPT0003404_1	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RHIZOBACTIN_METABOLISM,PGPT0003404-rhbD-NA	NA	NA
AK012_03115	1734	iucA	COG4264	N(2)-citryl-N(6)-acetyl-N(6)-hydroxylysine synthase	ATGCAGAGTTTTCTCAATTGTTATTTAAGAGAAACAGGGGAATTCGAACGAGTAGAGACAGAAGAGCATCCGTTCCAGAATGATGGAAAGACGGTGCTTCGACTCCCCCTTGCCGGACAGGACATTCACCTCTACGTGAACGTGGACTACTGGTCCTTGACAGGCAGACACCTTTACCAGTTTCCTGCTTTTTATAGAACGGGCCGTTCCGGAGCTTACCAAACCCTGGACTACGTGACGATGACGACACTTATAGTCAAGGAGTGGCTCATCGGCAGCGGACGGTCGTCTGCGGAGGATGAGCTGGTGCTGAGAGTACTTCTCAGCTGCAGGAAAATCAAGGAATATATTGAAAAGCGGGCCGGCGATGACGAAAAGCTTTCGGATGAGGTCTTTACCTTTATTGAAGCGGAGCAGTCGCTTCTGTTCGGACATCTTTTACACCCCACACCAAAAAGCAAGCAGGGGCTGACAGATATCGAGGATGCCCTATATACACCGGAGTTGAAGGGGCGGTTCCAGCTTCACTACTTCAGTGCAGATCCATCCATCGTCACTCAGGATTCCAGTCTTTCCAAGCCTGCGGTTGATTGGATCAAGGACGAAGCTCTCAAAGGGGATCAGGCAGAAAGGATGCGAAACGAATGGGAGAGAGGGCGGTACCTGATTCCTCTACACCCGCTGCAGGCGGCCAAGGTTCTCCAGGAAGCAGAGGTTCAGGATCTGCTGAATAAAGGGCTGTTAACGAACCTCGGACCTGCCGGTGAACCGTTCACGGCTACTTCTTCCTTCCGGACCCTGTACAATGAATCCTCCCGGTTTATGTATAAGTTCTCTGTACCTGTGAAAATTACAAACTCTCTCCGTGTGAATCAGCCAAAGGAGCTGGCGAGAGGCGTGGAAGTATCGAGACTGCTGGATACAGAGCTTGGCAGCCGGATGAAGGAGAAATACCCGGATTTTCAGATCATCAATGACCCCGCCTCCGTAAACGTGAAGACAGGTCAAGAGGTTTCCGGGTTTGAGGTCGTCCTTAGGGAAAACCCGTTTTATAGCGGTGAAGCCCAGGTAACAGCGGCAGCCGCACTCGTTCAAGATCATGCTTATGGTGGAAAATCAAGGCTGGCGTCCATCATCCATGGTCTTGCAGAAAAAGAAAACCGGACACAGGAAGAAGTAAGTCTGGAGTGGTTTGACCGCTATTTATCCATCAGCCTTGATCCGGTGCTGTGGCTGCTGTCTCATTACGGGATTGCACTCGAAGCCCACCAGCAGAACTCGCTTGTACGTTTGGAAGAGGGGTACCCTTCTCAGTTTTATTACAGGGACAACCAGGGGTATTACTTCAGCCGTTCTTATGCGGAAAAACTATCAAACCTGCTTCCGTCCTTAAATGAGGAAAGTGACACGATTTGTGACGACGCAGTGGCTGACGAGCGGCTCCGTTACTACTTCTTCTTTAATCATTTGTTCGGGGTCATCAACGGGTTTGGAGTGAACGGACTTGCGGAGGAGGAAAAGCTGATGGACCTGCTGCGCAGCCGTTTGTCTGCATGGCTGCCGTTGAATGTCGTTCGGACGCTGTTGGAAGAAGAGCAGCTTCCGTGTAAAGCCAATCTGTTAACGCGTCTATATGATATGGATGAGCTTGTCGGCCCGATGGAGTCCCAGTCTGTCTATACGAACGTGAACAATCCTCTGGCTGCAAAGGAAGGGGTTCATCATGGGATTTGA	MQSFLNCYLRETGEFERVETEEHPFQNDGKTVLRLPLAGQDIHLYVNVDYWSLTGRHLYQFPAFYRTGRSGAYQTLDYVTMTTLIVKEWLIGSGRSSAEDELVLRVLLSCRKIKEYIEKRAGDDEKLSDEVFTFIEAEQSLLFGHLLHPTPKSKQGLTDIEDALYTPELKGRFQLHYFSADPSIVTQDSSLSKPAVDWIKDEALKGDQAERMRNEWERGRYLIPLHPLQAAKVLQEAEVQDLLNKGLLTNLGPAGEPFTATSSFRTLYNESSRFMYKFSVPVKITNSLRVNQPKELARGVEVSRLLDTELGSRMKEKYPDFQIINDPASVNVKTGQEVSGFEVVLRENPFYSGEAQVTAAAALVQDHAYGGKSRLASIIHGLAEKENRTQEEVSLEWFDRYLSISLDPVLWLLSHYGIALEAHQQNSLVRLEEGYPSQFYYRDNQGYYFSRSYAEKLSNLLPSLNEESDTICDDAVADERLRYYFFFNHLFGVINGFGVNGLAEEEKLMDLLRSRLSAWLPLNVVRTLLEEEQLPCKANLLTRLYDMDELVGPMESQSVYTNVNNPLAAKEGVHHGI	PGPT0003545_9	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-PETROBACTIN_BIOSYNTHESIS,PGPT0003545-asbA-K24108	NA	NA
AK012_03116	1515	ddc	COG0076	L-2,4-diaminobutyrate decarboxylase	ATGAGAACTGAATCCAAGGCACAGACCGATCTTTTCCAATCCTTTTTCCTTCACCAGGATGAAGAGAGTCTCCAGGCTTTTCAAAGTCAGATCGAAGCGGTTACGGAAACGCTGATGCATACGTTCAAGAAGGCCGGTCACCCCTTCTCCGGTGCACAGTCGGACGAGCTGCAAAAGCAGATGGCATCCCTCGTGGACGTGACGGAAGAGGCCCGCCCTTTTCAGGATGTGCTGAACGAGGCGGTCCAGCCCATTATTCGCAGCAGCCTGCACGTGTCCCATACAAAAAGCATGGCTCATCTGCACTGCCCGCCTCTGATTCAGGGGGTGGCCGGTGAATTGTTGATTGGCGCACTGAATCAATCGATGGATTCGTGGGATCAAAGCCCTGCCGCTACGTATGTAGAGGAAGAGATGATCCGGTATTGGACCTCGAAGGCAGGATACAGCGCTCAAGCTGACGGCATCTTTACGAGTGGAGGGACACAGTCCAATTACATGGGACTGCTGCTGGCGCGTGATGCTTTCTGCAGGAAACAGTGGAACCATAACGTTCAAAAACAAGGACTGCCGGAAGGATTTAAGAAGCTGAGGATCCTTTGTTCCGAAGAGGCTCACTTTTCCGTGAAAAAGTCTGCCGCCCAGCTCGGTCTTGGGGAAAACGCCGTCGTTCCCGTACCTGTCGACGATCAGCACCGGATGGACAGTTCAGCTGCCGGACAAATCCTATCGGAAATGAAGGAACAGCAGCTGCTGCCATTTGCGGTCTTTGCGACGAGCGGGACCACAGATTTTGGAAGCCTTGACCCATTGGAGGAACTGGCAGACCTGTCAAAGGAACATGGACTATGGTTTCACGTGGATGCCGCTTATGGAGGTGGGCTGCTGCTCAGCCGCCACCGGCATAAACTGACCGGTCTGGAGCAGGCGGATTCCATGACGCTGGATTTTCATAAATGGTTGTATCAGCCGATCAGCAGCGGTGTATTTCTGTTGAAGGATCGCAGCCACTTTAACCTGATTTCCCATCATGCGGATTATTTGAACTCGGAGCAGGATGAACAGGAAGGCGTCCTGCACCTCGTCAACAAAAGTGTGCAGACCACCCGGCGGTTTGATGCATTGAAGATCTTTCTGACGCTGCAAACGCTCGGTACAGATTTGATCGGCCGGATGATTGATCAGACGATTGAAACAGCCGGGCTGGCCGCACAGGAGTTGATGAGACGCCCTGATTTCTATCCTGAGAATCCTGAACCGGAATTGTCGGCCGTTGTCTTTCAATACAGACCGGAGGGTGTCGATGCGGATGATTTGAACCGAACGCTGCAGCAAGCGCTGTTCCAGAATGGAAGAGCCGTGACGGCGAAGACGAAGGTCAACGGAGAAACCTATCTCAAATTTACGATTTTAAACCCGAGAACAACCATCGACGACGTGAAGGAAGTCCTTGATGAATTCGAACGTTTAGCAGCACAGCAGATGACAGGAGGGATCCACCTTGATAAGAGCTGA	MRTESKAQTDLFQSFFLHQDEESLQAFQSQIEAVTETLMHTFKKAGHPFSGAQSDELQKQMASLVDVTEEARPFQDVLNEAVQPIIRSSLHVSHTKSMAHLHCPPLIQGVAGELLIGALNQSMDSWDQSPAATYVEEEMIRYWTSKAGYSAQADGIFTSGGTQSNYMGLLLARDAFCRKQWNHNVQKQGLPEGFKKLRILCSEEAHFSVKKSAAQLGLGENAVVPVPVDDQHRMDSSAAGQILSEMKEQQLLPFAVFATSGTTDFGSLDPLEELADLSKEHGLWFHVDAAYGGGLLLSRHRHKLTGLEQADSMTLDFHKWLYQPISSGVFLLKDRSHFNLISHHADYLNSEQDEQEGVLHLVNKSVQTTRRFDALKIFLTLQTLGTDLIGRMIDQTIETAGLAAQELMRRPDFYPENPEPELSAVVFQYRPEGVDADDLNRTLQQALFQNGRAVTAKTKVNGETYLKFTILNPRTTIDDVKEVLDEFERLAAQQMTGGIHLDKS	PGPT0013725_375	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-1|3-DIAMINOPROPANE_BIOSYNTHESIS,PGPT0013725-ddc|dfoJ|desA-K13745	NA	NA
AK012_03117	1365	dat_1	COG0160	Diaminobutyrate--2-oxoglutarate aminotransferase	ATGAATATACATACAACCGTTTCAAATCATCAGCTGCTGGAGCAGCAGGAGAAAAGAGAATCGAACGCCCGGTCCTACCCGCGCCGCATTCCGCTGGCCATCAAGGAAGCAGAGGGGATTTATATCACGGACGTCGAGGGACGGACATACATCGATTGTCTGGCGGGAGCTGGTACGCTTGCTCTCGGACATAATCATCCCATCGTAATCCAGGCGATGGAGAAAGTCCTTCATGACCGCCTGCCTTTACATACTTTGGACATTACCACTGAGGTGAAAGAAAGTTTTGTTGACGAGCTGTTTATGAGTCTTCCTGAATCTTTCCGTGAAAGGGCGAAGGTGCAGTTCTGCGGGCCAACAGGGGGAGATGCGATTGAAGCGGCATTGAAGCTTGCCAAAACGGCGACAGGAAGGCAGAGTATTTTAACTTTCCAGGGAGGCTATCACGGCGCTACTCACGGAACGATGTCCATCAGCGGAAACCTTGCACCGAAGCAGAGGGTGCAGGGGCTTGTGCCTGATACCCATTTCCTTCCCTATCCGTATGATTACCGCTGTCCATTCGGTAAAGGGGGAGAAGAGGGCCATGAATTGAGTACAGCCTATATCGAACAGCTGCTTGATGACCCGGAGAGCGGCATCCTGCCTCCAGCGGCAATGATTTTTGAAACGGTCCAGGGTGAAGGAGGATCGATTCCTGCTCCGGTTGAATGGATCCAGGAGATGCGCAGGATTACAAAGGAACGGGGAATCCCGCTGATCATCGATGAAGTTCAAACCGGTATCGGCCGTACAGGAAAGCTGTTTTCTTTCGAACACGCCGGTATTGTCCCGGATGCCTTCGTCCTATCCAAGGCAGTCGGAGGAAGCCTGCCCCTTTCAGTCCTGATCTACGACCGTGATCTGGATGCCTGGGAACCAGGTGCACACATCGGTACCTTTCGGGGAAACCAAATGGCGATGGCAGCAGGCACGGCAACGCTGAAATATGTGAAAGATCAGGAGCTTCCCGAGCATGCCTCCGAAATGGGCAAGAAACTGATGCGGGCGCTTAAGGACATCCAAAAGGAATATCCGCAGGTGGGGGATGTCCGCGGCCGCGGGCTGATGATCGGGGCTGAAATCGTGAATCCTTCCGGAAAGCCATCGAAGCAGGGCAGCTTTCCTGGAGACGGTGCACTCGCCGGACGTATTCAAAAAGAATGTTTTGAGCGGGGGCTCATTTTAGAAGTGGGAGGCCGTCACGGAGCTGTCGTCCGTTTCCTACCGCCGTTGATCATTACAGAAGAACAGGTGGAGGAAATAACGGCCGTTTTCCGTGAAGCTGTAAAGGCCGCGGTGAAGGAAGACGGCTATGAGAACTGA	MNIHTTVSNHQLLEQQEKRESNARSYPRRIPLAIKEAEGIYITDVEGRTYIDCLAGAGTLALGHNHPIVIQAMEKVLHDRLPLHTLDITTEVKESFVDELFMSLPESFRERAKVQFCGPTGGDAIEAALKLAKTATGRQSILTFQGGYHGATHGTMSISGNLAPKQRVQGLVPDTHFLPYPYDYRCPFGKGGEEGHELSTAYIEQLLDDPESGILPPAAMIFETVQGEGGSIPAPVEWIQEMRRITKERGIPLIIDEVQTGIGRTGKLFSFEHAGIVPDAFVLSKAVGGSLPLSVLIYDRDLDAWEPGAHIGTFRGNQMAMAAGTATLKYVKDQELPEHASEMGKKLMRALKDIQKEYPQVGDVRGRGLMIGAEIVNPSGKPSKQGSFPGDGALAGRIQKECFERGLILEVGGRHGAVVRFLPPLIITEEQVEEITAVFREAVKAAVKEDGYEN	PGPT0014050_298	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-ECTOINE_METABOLISM,PGPT0014050-ectB|dat-K00836	NA	NA
AK012_03118	1683	yfeW		Putative D-alanyl-D-alanine carboxypeptidase	ATGAAAAAGAAAGCGCTGTCAACTCTGCTCACAACCGTCCTCGGTGCTTCATTATGTTCCGGGTCTGTCGGTGCCGCCCCGGGAGCGAGTATAGAAAAACCGCCAAAAGCCAACCCCTATCAGCAGGGAAAATCTTCGTCCAATAACCACTCGTGGGACCGCCAATTTCCGTCGCTTCCCGTATTACATTCAGGATCGATTCGAGGTGCAGGTATGAGAACAGAACCATTGAAGAACATGGATCACATCATTCAGACGGCTGTAGACAAAGCTGTCATGCCCGGAGCTGTCGCCTTTGTTGCGCGACGAGGACACATTGTCAAAGAAGCCTCTTATGGCTATGCAGTCCGCTATGAAGATGCCGGCCGGACAGAAGTGGATCAGCCCATTCCCATGACGAAAAACACCATTTTTGACCTGGCCTCCATAAGCAAAATCTTTACGACAACAGCTGCTATGAAGCTTTACGAGCAGGGAAAATTCAAACTGGATGACCCTGTGGCCAAACACATCCCTGAATTCGCAGCCAATGGAAAAGAAGAGGTCACCATCGAACAGCTCATGACTCATACCTCTGGATTCAAGCCATGGATCCCCCTCTATCAAGTAGAAGGTGATCGTAACGACCGCCTCCAGCATGTTTTTCAATACCCGCTGGAAAATGCTCCGGGATCTACATACACCTACAGTGACCTCAACATGATTACCCTCGGCGCGCTCGTGGAGCGGCTTTCCGGCATGAAACTGGATGCCTATGTCCAACAGGAAATCACAGCCCCGCTTGGAATGAGTGACACCATGTACAATCCACCGGAACAGTTGAAGAACCGCATTGCTGCAACGGAATACCAGCCATGGACAAACCGGGGACTGGTATGGGGGGAGGTCCATGATGAAAGTGCCTGGTCTCTGGACGGCGTTGCCGGCCATGCCGGAGTCTTTTCAACCGCTTCCGATTTAGCAGTTTTTGCTCATATGTTTTTAAACAACGGCAAGTACGGGGGCACACGGATTCTTGAACCTGAAACCGTGGATCTGCTGACAGAGAACCGGATTCCACAGTTCCCCGGCGATGATCACGGACTTGGCTGGGAACTCCAGCAGGGATGGTTTATGGATGCCCTCTCTTCTCCATCCAGCTATGGCCACACCGGATATACAGGAACATCCATCGTCGTAAATCCAGAAAACGAGACGATTGCGATTCTATTAACCAACCGGGTCCATCCGACCAGGGAGACGGTTTCCACCTCTCCCACCCGCCGGATCTTCGCCCGCACCGTTGCCGATGCCATTCCGGTGGACTCCCCGAAATCAAAAGAAGATTCATGGTTTGCCGGATATGGAGACCACTTATCTCGTACGATGACCGCGGAAGTCGATCTCCATAAAGAGCGCACTCTTTCATTCTCGACTTGGCACCAGATCGAAAAGGGTTATGACTTTGGTAAAGTAGAAATATCAGCAGACGGCACCAGCTGGAAAGAAGTGCTGTCGCTTACAGGCAGAAGTCAGCAGTGGGAAGAAAAATCCCTCACCCTCCCGGCAGACACCACTCATGTAAGATTCACGTATGAAACAGATGCCTCTGTCAACAACCGCGGATGGTATATTCACGGAGCTGAACTGGATGGAACTCCGCTCTCCTTTTCCAGCGAAGAATGGGAGAAGAGAAATGACTAA	MKKKALSTLLTTVLGASLCSGSVGAAPGASIEKPPKANPYQQGKSSSNNHSWDRQFPSLPVLHSGSIRGAGMRTEPLKNMDHIIQTAVDKAVMPGAVAFVARRGHIVKEASYGYAVRYEDAGRTEVDQPIPMTKNTIFDLASISKIFTTTAAMKLYEQGKFKLDDPVAKHIPEFAANGKEEVTIEQLMTHTSGFKPWIPLYQVEGDRNDRLQHVFQYPLENAPGSTYTYSDLNMITLGALVERLSGMKLDAYVQQEITAPLGMSDTMYNPPEQLKNRIAATEYQPWTNRGLVWGEVHDESAWSLDGVAGHAGVFSTASDLAVFAHMFLNNGKYGGTRILEPETVDLLTENRIPQFPGDDHGLGWELQQGWFMDALSSPSSYGHTGYTGTSIVVNPENETIAILLTNRVHPTRETVSTSPTRRIFARTVADAIPVDSPKSKEDSWFAGYGDHLSRTMTAEVDLHKERTLSFSTWHQIEKGYDFGKVEISADGTSWKEVLSLTGRSQQWEEKSLTLPADTTHVRFTYETDASVNNRGWYIHGAELDGTPLSFSSEEWEKRND	PGPT0024045_106	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-CARBOXYPEPTIDASE_ACTIVITY,PGPT0024045-pbp4b-K21469	NA	NA
AK012_03119	456			hypothetical protein	ATGCCTGAAATTATTCACTATCAATTCATAAAGGCTCCGGTTTCGCAGGTGTTTGACGCGGCGCGGAGCGTTGATCTGCATACGAAGAGCATGACACAATCGAAAGAGAAAGCGGTCGGCGGTGTGACCGCAGGGTTGATGAAGGAAGGGGACACCGTCACCTGGGAAGCTGTTCACTTCGGCGTCCGGCAGCGTTTGACGGCACGGATTGTTTCCATGCAGTTTCCTTATCGGTTCGTCGATGTGATGGAACAAGGCGTTTTCCATTCCTTTACCCATACTCATGATTTCATTGAAAAAGATGAGGGGACATGGATGGTGGATACGTTTGTTTATCAGTCACCCCTTGGGATCCTTGGACGGATGGCCGACCGGCTGTTTCTGGAGAAGTATATGACAAGGATGCTGAAAAATCGGGCAGTGGTTTTAAAAAATGAGCTTGAAAAAGACGGATGA	MPEIIHYQFIKAPVSQVFDAARSVDLHTKSMTQSKEKAVGGVTAGLMKEGDTVTWEAVHFGVRQRLTARIVSMQFPYRFVDVMEQGVFHSFTHTHDFIEKDEGTWMVDTFVYQSPLGILGRMADRLFLEKYMTRMLKNRAVVLKNELEKDG				NA	NA	NA	NA	NA
AK012_03120	999	yhfP	COG0604	Putative quinone oxidoreductase YhfP	ATGAGTGAAGCATTTAAGGCATTTGTTGTGAATAAAACGGAAGATGATTTTACAGCGGACATTCAGTCTCTGACATTGAATGACCTGCCTGACGGGGATGTAACCATTCAGGTCCATTATTCCAGCGTCAATTATAAGGATGGTCTGGCAAGTATTCCGCAAGGGAAAATTGTCCAGTCTTATCCGTTCGTACCGGGAATCGACCTGGCCGGAACGGTGGTATCATCGGATGACTCCCGCTATGAGGAAGGACAAAAGGTCATCGTGACCAGCTATGAGCTTGGTGTTTCCCATTTCGGCGGCTACAGTGAGTATGCACGTGTTCCAGGAGACTGGATCATTCCGCTGCCGGAAAACCTGAGCCTCTCAGAAGCCATGGTCTTCGGGACAGCTGGATTTACAGCAGCCTTGTCTGTCCATAAGCTTGAGCAGGCAGGTGTGAAACCGGAGGACGGTTCCATCCTGGTATCTGGAGCGACCGGCGGTGTCGGAAGTATGGCTGTGGCTATGCTGAAGAAGCGCGGCTATCACGTAACAGCAAGCACAGGGAAAGAATCCGAGCATGACTACTTGAAGCATCTTGGTGCACAGGACATTATTCCGCGCGAAGAGCTGTCTCCGGAAAAAGTCCGTGCGTTGAGCAAGCAGCGCTGGGCTGGGGCTGTGGATCCTGTCGGTGGAAAAACACTGGCGACGATCCTGAGTGAAACGAAATACGGCGGTGCCGTTGCCGTAAGTGGTCTGACAGCCGGGACAAGCGTTCCAACGACGGTGTTCCCGTTTATTCTGCGCAGTGTCAACCTTCTCGGTATTGATTCCGTTTACTGCCCGATTGAGACACGGAAAACGATCTGGAACCGGATTGCGGATGATCTGAAGCCGGAGGGTCTTGATGAAATGAAAAATGAGATCACATTCGATCAGCTTCCACAGACACTTTCCGATATCCTTGAAGGAAAAACACGGGGACGTACAATCGTTAAAGTAACAGAAGAATAA	MSEAFKAFVVNKTEDDFTADIQSLTLNDLPDGDVTIQVHYSSVNYKDGLASIPQGKIVQSYPFVPGIDLAGTVVSSDDSRYEEGQKVIVTSYELGVSHFGGYSEYARVPGDWIIPLPENLSLSEAMVFGTAGFTAALSVHKLEQAGVKPEDGSILVSGATGGVGSMAVAMLKKRGYHVTASTGKESEHDYLKHLGAQDIIPREELSPEKVRALSKQRWAGAVDPVGGKTLATILSETKYGGAVAVSGLTAGTSVPTTVFPFILRSVNLLGIDSVYCPIETRKTIWNRIADDLKPEGLDEMKNEITFDQLPQTLSDILEGKTRGRTIVKVTEE	PGPT0002275_285	DIRECT EFFECT	BIO-FERTILIZATION	POTASSIUM_SOLUBILIZATION	K-SOLUBILIZATION-ORGANIC_ACID_METABOLISM	K-SOLUBILISATION-PROPIONIC_ACID_BIOSYNTHESIS,PGPT0002275-acuI|yhdH-K19745	NA	NA
AK012_03121	594	betI_2		HTH-type transcriptional regulator BetI	ATGGCTAAGAAAGCAGAGCAGCGACGTCAACAGATATTGAAAGCCGCTTTTGAAGCAGTGGCTGCCAAAGGATATGATTCTGTTACGCTTCAGGATATTGCGGATTATGCTGAAGTGAGTAAAGGCGTGACCAATTATTATTTCAAAAATAAAGTAGATGTCTTTTCCCATCTGTTGGAATGGATTACGACACGCATTTACGAAAAGGAAGCCGCTTCTATCGAATTAAAGGAAACAGCCCTTGAAAAGCTCGAAGCTTATATCAATCAAGTGTTTGTCAGTCCTGAAGAAAATAGAACGTTTTACAGCGTCTACCTTGATTATCTGTCTCAAATGAAGCACCAGGAAAGATACAGGCAGATCAACCAGCAATTTTATGAAAACTGCTGGTCCATCGGACGTGAAATCATTACACAGGGACTGGAGGAAGGCGTCTTTCACGTCGAGGATGTGGAGCAGGCAGCCATCAGCATCCGAAGCATGATCGACGGAACCTTGATCCAGTGGCTGATGAGTCAGGATGACGACAGGCACGCCAGTTATAAATCCCACTGCCATCAGTCCGTCCTCCGTCTGCTGCAGGCATCCTCATAA	MAKKAEQRRQQILKAAFEAVAAKGYDSVTLQDIADYAEVSKGVTNYYFKNKVDVFSHLLEWITTRIYEKEAASIELKETALEKLEAYINQVFVSPEENRTFYSVYLDYLSQMKHQERYRQINQQFYENCWSIGREIITQGLEEGVFHVEDVEQAAISIRSMIDGTLIQWLMSQDDDRHASYKSHCHQSVLRLLQASS	PGPT0023505_213	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_CELL_WALL|MEMBRANE_DEGRADATION	PLANT_MEMBRANE_LIPID_DEGRADATION	PLANT_PHOPSHO-|LIPID_DEGRADATION,PGPT0023505-ysiA|fadR-K13770	NA	NA
AK012_03122	426	yhfA	COG1765	Protein YhfA	ATGGAATTTAAAGTTCAATGGAATGGAGATATGGCGTTTTCAGGAGATACTCCTTCCGGCCATACCGTAAACATGGATGCCGGGGAAGAGTCCGGCGGGAAGAATGGCGGAGCCAGACCGACCGAGCTGTTAATGAATGCTGTAGCCGGATGCACAGGTATTGATATCATTTCTATTTTAAAGAAAATGCGTCTTCCCATTGAAGATTTTCATATGGATGTCAGCGGTGACCGGGCGGAGAAACATCCGCGCAAGTTTACCACCATGCACATCCATTACGATTTAAAAGGAGACCTTCCGGAAGAAAAGGTCGTTCGGGCGATCCAGTTGTCCAAAGATAAATACTGCTCTGTATCCCACTCGGTCAGTGCGGAATTGACCGTAAGCTACTCCATTAATGGAGTCCAGGGTACAAAAACGTTGTAA	MEFKVQWNGDMAFSGDTPSGHTVNMDAGEESGGKNGGARPTELLMNAVAGCTGIDIISILKKMRLPIEDFHMDVSGDRAEKHPRKFTTMHIHYDLKGDLPEEKVVRAIQLSKDKYCSVSHSVSAELTVSYSINGVQGTKTL				NA	NA	NA	NA	NA
AK012_03123	324			hypothetical protein	GTGGATCAGAAGAACAGACTTGTCCGGGATTACACACCCATGAGATTAGAGGATTCCGGGAAAACCATCCGAACGAGGCAGCTGGAAGGCCAAGAATATAAGGAAAGCCTTACAAAGAAACTCCAGGAAGTCGTCGACGGCTATTCCTCTACAAAAGAAAACCGGAAATCCCTCACCAGGCTCGCGGATATGATGGAGGTTATTCATGAACTCACCTATACACACGGGGCGACGATCGAGGAGATCGAACATATCCGCCAGCACCGCCGTAAAGAAAGAGGAGGATTCAAAAACCGCACGCTCCTGATTGAGGTCGAGGAGTAA	MDQKNRLVRDYTPMRLEDSGKTIRTRQLEGQEYKESLTKKLQEVVDGYSSTKENRKSLTRLADMMEVIHELTYTHGATIEEIEHIRQHRRKERGGFKNRTLLIEVEE				NA	NA	NA	NA	NA
AK012_03124	1086	rlmN		putative dual-specificity RNA methyltransferase RlmN	ATGAAACAATCCATTTACGGATTGACGTTTGAACAGCTGACCAGCTGGCTTGAGGAGCATGGGGAAAAGAAATTCCGCTCCAAGCAGGTGTGGGACTGGCTGTATCAAAAGCGTGTAACAGAGTTCTCGCAGATGAAAAACGTCAACCAATCCTGTATTGACCTTCTGGATGAGCATTTTACGATCGAAACTTTGACCGAGGAAATTAAACAGGAGTCCCAGGATGGTACGATTAAATTTCTATTCAAACTGGATGATGGAAACGTCATTGAAACCGTATTGATGCGTTTCAACTACGGACTTTCCGTCTGTGTAACAACACAAGTCGGCTGTAACATCGGCTGTTCATTCTGTGCCAGCGGTATTCTGCGGAAAAGCCGTGATCTGACAAGCGGGGAAATCGTGGAACAGATCATGCAGGTCCAGCACCACCTGGATAAGCAGGGCAAAGATGAGCGAGTCAGCCACATTGTCGTCATGGGAATCGGAGAACCCTTCGATAACTATGATAACCTGATGGATTTCCTGAACGTCGTCAACGATAAAAAAGGTCTTTCCATCGGTGCCCGTCACATCACGGTATCCACCAGTGGAATCGCACCAAAAATGTACGAGTTTGCGGATGAAGGCATTCAAGTCAACCTTGCCTTATCCATCCATGCCCCGAACAACGAGCTTCGGACTCAGATTATGAAGATCAACCGCGCCTATCCGCTTGAAAAGCTGATGCCGGCCATTGATTATTATCTGGAGAAAACCAACCGGAGAATTACGTTCGAGTACATTCTGCTTCGCGATGTAAACGATCATAAAAAAGAAGCGGAAGAACTTGCTGCTCTGTTGAAGGATAAGCGTCACTTGTCCTATGTCAATTTGATCCCCTACAACCCTGTAGCGGACCATCCTTACGAACGCAGTGAGAAGGAAGCCATTCTGACGTTCTATCAGACGTTGATGGACCACGGCATTAAATGCGGGGTTCGTACCGAACACGGAACAGATATCGACGCAGCCTGCGGCCAGCTCCGCAGTAAGCAGATCGAAAAAGAGAAAGCACGTAAAAAGAAAAAGATGCAGACAAACTAA	MKQSIYGLTFEQLTSWLEEHGEKKFRSKQVWDWLYQKRVTEFSQMKNVNQSCIDLLDEHFTIETLTEEIKQESQDGTIKFLFKLDDGNVIETVLMRFNYGLSVCVTTQVGCNIGCSFCASGILRKSRDLTSGEIVEQIMQVQHHLDKQGKDERVSHIVVMGIGEPFDNYDNLMDFLNVVNDKKGLSIGARHITVSTSGIAPKMYEFADEGIQVNLALSIHAPNNELRTQIMKINRAYPLEKLMPAIDYYLEKTNRRITFEYILLRDVNDHKKEAEELAALLKDKRHLSYVNLIPYNPVADHPYERSEKEAILTFYQTLMDHGIKCGVRTEHGTDIDAACGQLRSKQIEKEKARKKKKMQTN				NA	NA	NA	NA	NA
AK012_03125	3162		COG0369	Bifunctional cytochrome P450/NADPH--P450 reductase	GTGAACAAAACAAATACGATACCACGTCCGAAGGAATATGGACCACTCGGAAATCTGCCTGTCCTTAATAAAGAGAAGCCGATTCAGTCGTTCATGACGATGGCTGAGCAGTATGGTTCTATTTTTCAATTCCAATTTCCAGGAAGAGTCAGCACGTTTATCTCCAGTGCAGATCTGGCTGATGAAATCCTCGATGAAGAGCGTTTTGATAAACATGTAGGTCCGGCACTGCAAAAGGTACGAGCGTTTGGCGGCGACGGCCTCTTCACGAGTGAAACAGGGGAGCCGAACTGGAAAAAGGCTCATAACATTCTGCTTCCGAGCTTCAGTCAGCAGGCCATGAAGGGCTACCACGATAAAATGGTGGATATAGCTGTTCAACTGGTGCAGAAATGGTCCCGCTTGAATGCAGGGGAAGCGGTCCAAGTTCCTGATGATATGACGAGGCTGACGCTTGATACCATCGGTCTGTGTGGATTCAACTTCCGATTCAACAGTTTCTACAGGGAAGATATGCATCCGTTCGTTGAGAAAATGGTCCGCGCTCTGGATGAATCGATGAGCCAGTCCCAGCGTCTCGGCATTCAGGATAAATTGATGGTCCGGTCTAAACGGCAGTATAAAGAAGATATCGATTATATGTTCCAGCTGGTAGACGGGTTAATTGCTGAGCGTAAAGAGGCAGGCGACCAGGGGGAGGATGATCTTCTATCCCATATGCTGAAAGGGGTGGACCCGGAAACAGGCGAAGGTCTTTCTGATGAAAACATCCGCTTCCAGATCATTACGTTCCTCATTGCGGGGCATGAAACGACGAGCGGTCTTTTGTCCTTTGCTCTTTATTTCTTAATGAAGCATCCGGATAAGCGGAAAAAAGCACAGGCGGAAGTGGATGAAGTCCTGGGCGGTGACACCCCATCTTATAAACAAGTGAAGCAGTTGAAATATGTAAGGATGGTACTGAATGAAGCTCTTCGTCTCTGGCCGACTGCTCCGGCTTTTTCCGTGTATGCGAAAGAAGATACAACACTTGGCGGCCGGTACGAAGTGGAAAAAGGGGATGCGTTCACTCTGTTGATCCCTGAACTCCACAGAGATAAAGCAGCATGGGGAGAGGATGTGGAAGTCTTTCGACCGGAGCGTTTTGAAGACCCTTCATCCGTACCGGCCAACGCTTTCAAACCGTTCGGGAACGGCCAGAGAGCCTGTATCGGGCAGCAGTTTGCCCTTCATGAAGCCGTACTTGTCCTCGGCATGGTCCTTCAGCACTTTGATTTAGTGGATGACGAGGACTATGAGCTGGATGTGAAAGAAACGCTGACTTTGAAGCCTGAAGGGTTAACGATGAAAGTGAAAACGCGAAAGGAAGTATCGGTCTTCCAAAAACCGGCGGAAGAACCGGCAGCGTCCAGCATAGAAGAACCAGCGATTGCATCGGATGCTCACGGGACACCTTTGTATGTACTGTATGGATCCAACCTTGGTACAGCAGAAGGAACGGCAAGGGAAATAGCGGAAAAAGGCTCATCTTTTGGCTTCCAAACGGTCACAGCGCCTCTCGATGACTATGTGGGGGGGCTGCCTGAAGACGGAACGGTGCTGTTCGTTTCTGCTTCCTATAACGGACACCCGCCTGACAACGCCCGTCGGTTCATGGAATGGATTCCATCACTTGAACCTGGAGCTTTGGATGGCGTGACATATGCGGTATTTGGCTGCGGAGACCGCAACTGGGCAGCTACGTATCAGCGGATTCCCCAAGTGATTGACGAAGAAATGACAGCGAAAGGAGCGGAACGTCTGCTTGTCCGTGGAGAGGGGGATGCCAGTGATGACTTCGACGGTGATCTGGAAGCGTGGCAGGAAAGTCTTTGGAAGGAACTGGCTTCTTATTATGATTTAGAAGTGACACAGACGGCAGAGCAGTCGAGTTCGATCGCCATGGAGTATGTGAGCGGCACCAGCTACACACCACTGGGGCAGTCCTATGATGCCTTTACAGCAGATGTGGTGGAGAATCGTGAGCTTCACCAAGCAGGTGAGCGGAGTACGAGACACGTTGAACTTCTGCTTCCGGAAGGAACCGCCTATCAGGAAGGGGACCACCTTGGTGTCGTCCCGGAGAACCATGAAGCCCTTGTAGAACGGGTGCTGGAACGTTTTTCTCTTAAAAAAGAAGCATTTGTCGTTTTGAATGAAGGCGCAGGGAAGGCGAAGCACCTGCCATCAGGGCAGCCTGTCCAGCTGGGGGAACTGTTATCCTCCTACGTTGAACTTCAGGAACCGGCTACGCGGGCGCAGCTTCGTGCTCTTGCCGCCAGTAATCCCTGTCCTCCCCATAAGCAGGAGCTGGAACGCCTGACAGAAGGCGAAGTCTACAAAAAGGAGATTCTTGCTAAACGACGGACGATGCTCGAATTGCTGGAGGAATATGATTCCTGTCTGATGGAATTTGAGCAGTTCCTAGCACTGCTTCCACCGCTGCGTGTCCGTTACTATTCCATTTCAAGTTCGCCGACTGCAGGAAAAGAGCGGGTGAGTATCACCGTCAGCGTCGTGAAGGGGAAAGCCTGGAGTGGACAAGGAGAATACAAAGGCATTGCATCCAATTACCTGGCGCACCTCGACGCAGGAGATAAAATCGCCTGCTTTATCCGGACGCCGGAGACGGACTTCCAGCCGCCGGAGGATCCGCAGACACCGGTCATCATGGTTGGACCAGGGACGGGGATTGCTCCATTCCGAGGATTCATCCAGCAGCGGACCCATCTTCGAAATGAAGGAGAAGATCTGGGAGAAGCTTATGTCTATTTCGGATGCCGTCATCCTCAGCAGGATTTCCTGTATGAAGAAGAGTTGAGGAAAGCAGAGGCAGAAGGGTTGATCACGTTGAACACCGCGTTTTCAAGGTGTGAAAATCAACCGAAAACGTATGTCCAGCACATCATGGATCAAGACAAAAACATTCTGATCCCACTGTTGGAGCAGGGCGCCCATCTTTACATCTGCGGAGATGGAAGCCGGATGGCTCCTGAGGTTCTGGAAACGTTGAAGAGCAGTTATCAGGCAGTCAGAGGAGCCGATGATGAAGCAGCTGCAGCCTGGCTCGATCAATTGGAGAAAGAAGGCAGACTGGCCAAAGATGTGTGGGCCGGAGCCTGA	MNKTNTIPRPKEYGPLGNLPVLNKEKPIQSFMTMAEQYGSIFQFQFPGRVSTFISSADLADEILDEERFDKHVGPALQKVRAFGGDGLFTSETGEPNWKKAHNILLPSFSQQAMKGYHDKMVDIAVQLVQKWSRLNAGEAVQVPDDMTRLTLDTIGLCGFNFRFNSFYREDMHPFVEKMVRALDESMSQSQRLGIQDKLMVRSKRQYKEDIDYMFQLVDGLIAERKEAGDQGEDDLLSHMLKGVDPETGEGLSDENIRFQIITFLIAGHETTSGLLSFALYFLMKHPDKRKKAQAEVDEVLGGDTPSYKQVKQLKYVRMVLNEALRLWPTAPAFSVYAKEDTTLGGRYEVEKGDAFTLLIPELHRDKAAWGEDVEVFRPERFEDPSSVPANAFKPFGNGQRACIGQQFALHEAVLVLGMVLQHFDLVDDEDYELDVKETLTLKPEGLTMKVKTRKEVSVFQKPAEEPAASSIEEPAIASDAHGTPLYVLYGSNLGTAEGTAREIAEKGSSFGFQTVTAPLDDYVGGLPEDGTVLFVSASYNGHPPDNARRFMEWIPSLEPGALDGVTYAVFGCGDRNWAATYQRIPQVIDEEMTAKGAERLLVRGEGDASDDFDGDLEAWQESLWKELASYYDLEVTQTAEQSSSIAMEYVSGTSYTPLGQSYDAFTADVVENRELHQAGERSTRHVELLLPEGTAYQEGDHLGVVPENHEALVERVLERFSLKKEAFVVLNEGAGKAKHLPSGQPVQLGELLSSYVELQEPATRAQLRALAASNPCPPHKQELERLTEGEVYKKEILAKRRTMLELLEEYDSCLMEFEQFLALLPPLRVRYYSISSSPTAGKERVSITVSVVKGKAWSGQGEYKGIASNYLAHLDAGDKIACFIRTPETDFQPPEDPQTPVIMVGPGTGIAPFRGFIQQRTHLRNEGEDLGEAYVYFGCRHPQQDFLYEEELRKAEAEGLITLNTAFSRCENQPKTYVQHIMDQDKNILIPLLEQGAHLYICGDGSRMAPEVLETLKSSYQAVRGADDEAAAAWLDQLEKEGRLAKDVWAGA	PGPT0006740_388	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QUORUM_QUENCHING	CE-QUORUM_QUENCHING-AHL-DEGRADATION,PGPT0006740-cpxB-K14338	NA	NA
AK012_03126	570	bm3R1		HTH-type transcriptional repressor Bm3R1	ATGCCTAGAACGAAGAGAGAAGATATTTTAGACAGTGCCTTGAAACTGTTTGCCGAACGAGGCTTTGATGCAACGACCATTCCTATGATTGCAGGAGAAGCCAAGGTAGGTGCAGGGACAATCTACCGTTATTTCGAGAACAAGGAAGTTCTTGTGAATACGTTGTTCCAACACTATGTCCAGGCCTTCAAGGGGATGCTGGAGGAGAATTATCCTCAGGAAAGCTCAACAAGGGAGCAGTTTCATCATTTGTTCCAGCGGATGGTGCAGTTCACCAATGCGCACGCGCATGCGCTTTATTTCATCAAAACGCACAACGGGGCTTATTTTCTGAATGAGGCCAGCCGGAAACAGTTTGGTTGTCTTTGGAAGATTCTCCGCGATTTTCTGGACAAGGGGAAAGAACGTGGGGAAATCCGTCAACTGCCATCGCTCGCCTTAATTGCTATTATTTTCGGTGGGTTTCTGGAACTTGAACAATTGATCCGGTCAGAAGAGCTGGAAGCCAGTCAGACTTTGCTTCAAGGCGTAGAAGAAAGCTGCTGGGATGCTGTGCGTCATCATCATTGA	MPRTKREDILDSALKLFAERGFDATTIPMIAGEAKVGAGTIYRYFENKEVLVNTLFQHYVQAFKGMLEENYPQESSTREQFHHLFQRMVQFTNAHAHALYFIKTHNGAYFLNEASRKQFGCLWKILRDFLDKGKERGEIRQLPSLALIAIIFGGFLELEQLIRSEELEASQTLLQGVEESCWDAVRHHH				NA	NA	NA	NA	NA
AK012_03127	426			hypothetical protein	TTGAAAAAGCTGCTTGCAGGTCTGTTTGCCATTGGTTTGATTTTCAGTAGTTTCGGAGCCGTAAGTGCCGATAATCATGACGGAGATAAAGACTGCCCTGATTTCGCTTCTGAGGAAGAAGCAAAAGAATACTGGGATGAAAAAGGCTACTCCGCCGAAAATGATCCAGAACGTTTAGATGGAGACGGTGATGGCGTTCCGTGTGAGGATTCCGATTATAGTTCCTCCGACAGTTCAGAGGAATCTTCCGATGACATGTCCTCCGGAGATGAGGATGCAGCCGAAGAAGAAGAAACGATGTCCAGTGAAGAGGAAGGCGGGGAGCTGCCTGATACTTCAGCACCGTACGCTACATATGCGTTGTTGGGGATGACTCTTTCTGTGCTTGGTGGAACCGCTTTAGTCGTACGCCGCAGGGAACAATAA	MKKLLAGLFAIGLIFSSFGAVSADNHDGDKDCPDFASEEEAKEYWDEKGYSAENDPERLDGDGDGVPCEDSDYSSSDSSEESSDDMSSGDEDAAEEEETMSSEEEGGELPDTSAPYATYALLGMTLSVLGGTALVVRRREQ				NA	NA	NA	NA	NA
AK012_03128	153			hypothetical protein	ATGTCTGCTTCCTGTTTTGTCATGAAAAAAGACAGGCATGAGCCTGTCTTCAAGAAGGAAGATGGTGTGCATCGTTTTATTGTTCCCTGCGGCGTACGACTAAAGCGGTTCCACCAAGCACAGAAAGAGTCATCCCCAACAACGCATATGTAG	MSASCFVMKKDRHEPVFKKEDGVHRFIVPCGVRLKRFHQAQKESSPTTHM				NA	NA	NA	NA	NA
AK012_03129	273			hypothetical protein	ATGGATATCATGATGGATTTTACTCCTTATATCGGGCTGGCGGTCGTTTTGTACGCCATCCGCCGGACCCGCCGGGTGTCCAACCGGTTTATTCCGATTATTGCCGTTCTTCTCGGCATCGGTTTTTCGCTGTGGGAAAATGGGCTGAATCCGGAAGCTGTTCTTACAGGATTGAAGTATGCGCTGCTTGGAATTGGAACAGTAGCTGGGATTAAATATTTTCTGGAAAAGAAGGAAAAGGATCCTGGAAATGAGGACAGGAAGCAGGCATAA	MDIMMDFTPYIGLAVVLYAIRRTRRVSNRFIPIIAVLLGIGFSLWENGLNPEAVLTGLKYALLGIGTVAGIKYFLEKKEKDPGNEDRKQA				NA	NA	NA	NA	NA
AK012_03130	990	adhT		Alcohol dehydrogenase	ATGAAAGCAGCATGGTTTGAAGAGTTCGGTGCACCGGAAGAGGTTCTGCAGACAGGAGACTTCGCTGCACCTGAACCCGGACACGGAGAAGTGTTGATACGAATGAAAACTTCAGGAGTCAATCCTTCTGATACGAAGAAGCGTCAGGGATCCTTTCAACACTTACTGGATGGCGGACCAGTCATTCCGAATAGTGATGGAGCGGGCGTGATTGAAGCGGTCGGACCTGGAGTTTCCCACGCGCGGATAGGGGAACGGGTGTGGGTCTACCAGGCTCAGTTCCAGCGGCAGCATGGAACAGCAGCAGAGTATTGTGCTGTGGAAAGCCGGAGGGCCGTAAAGCTCCCGGATGAAGTCAGTTTTGAAACAGGGGCGTGTCTCGGAATTCCGGTCATGACCGCCCACCGGAGTGTTTTTGCTGATGGTCCGGTAGAAGGAGAAGTGTTGTTCATCACAGGTGGAGCGGGTCGTGTCGGCTACTACGCCATCCAATGGGCCAAGCTTGCCGGAGCTGTCGTCATTACGACCGCAAGTAATGATGAATCCCGTCATTACTGCCGTGAAGCAGGAGCAGATTTTATTGTGAATCACAAGTCTTCGGATATGGTCGATCAGATCCTCGACTTTACAGGCGGACGGAAAGTGGACCGGGTGATTGATGTGGAGTTCGGGGCGAATCTTGAGAGTGTGCTGGAGATCATCCGTGTCGGAGGAGTGATTGCCACTTATTCCTCGACGGTGGTTCCAGAGCCGGTGCTGCCTTTTCGCAGGATGATGTTTATGGACTTAACCATTCGTATGATTATTGTGTATGATATGCCGGAGGAAGCGAAGCAGGAGGCCGTTGAAGATATGGATGAAGCTCTACGATCCGACCTGCTTCTGCACCGCATCGATAAAATCTATCCATTGGAAGAGATTGCTGAAGCGAATGCGGATATCGATCGTGGCGAAGGGTATGGCTGTGTCATCGTGAACATCGAAGACTAA	MKAAWFEEFGAPEEVLQTGDFAAPEPGHGEVLIRMKTSGVNPSDTKKRQGSFQHLLDGGPVIPNSDGAGVIEAVGPGVSHARIGERVWVYQAQFQRQHGTAAEYCAVESRRAVKLPDEVSFETGACLGIPVMTAHRSVFADGPVEGEVLFITGGAGRVGYYAIQWAKLAGAVVITTASNDESRHYCREAGADFIVNHKSSDMVDQILDFTGGRKVDRVIDVEFGANLESVLEIIRVGGVIATYSSTVVPEPVLPFRRMMFMDLTIRMIIVYDMPEEAKQEAVEDMDEALRSDLLLHRIDKIYPLEEIAEANADIDRGEGYGCVIVNIED	PGPT0013255_4346	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-OXIDOREDUCTASES,PGPT0013255-qor-K00344	NA	NA
AK012_03131	1137	ald_2		Alanine dehydrogenase	GTGCGTATTGGAATCCCGAAAGAGATTAAAAATAATGAGAATCGGGTGGCTATGACACCGGCAGGGGCTGTCAACCTGATTCAGCAGGGACATGAAGTCTTTTTGGAAACGAAAGCTGGAGAAGGATCCGGGTTTTCGGATGCTGATTATAAGCAGGTCGGTGTCAATATTGTCGGTTCGGCGTCGGAGGCCTGGGGGCAGCAGATGGTCCTGAAAGTAAAGGAACCCCTTTCTGAGGAATATGGATACTTTTATGAAGGGCTTATTCTATTCACCTATCTTCACCTCGCCGCAGATGAAGAGTTAACCAAGGCACTGGCGGATAAAAAAGTGACGGCCATCGCTTATGAAACGGTTCAGACGGAAAACGGATCCCTGCCGCTGTTAACGCCGATGAGTGAAGTAGCCGGCCGCATGGCTGCTCAAAAAGGAGCCCAGTTTTTAGAACGTCCGCCTGGGGGAACCGGTATTCTGCTCGGCGGCGTGCCCGGGGTGAAACGAGGGAAAGTGACGATCATCGGCGGGGGAGTGGTCGGGACAAATGCGGCTAAAATAGCCGTCGGTCTCGGCGCGGAAGTGACGATCATCGACTTAAGTCCGGAGCGCCTTCGTCAGCTGGACGATATTTTTGGATGGCAGATCAATACACTCGTGTCCAATCCATTAAATATCAGTGAGGCGGTCGAAGAATCCGACCTGGTTATTGGGGCTGTCCTTATCCCGGGAGCAAAAGCACCAAAGCTCGTTACCGAAGCGATGGTCCAGACGATGAAAAAAGGAAGCGTCCTTGTTGATGTAGCCGTCGATCAGGGGGGCATTGTGGAAACGGTGGATCATGTCACGACTCATGATGACCCTGTCTACGTCAAACATGGAGTCGTCCATTATGCCGTAGGAAATATGCCGGGGGCCGTTCCGCAGACGTCCACGGTCGCCTTGACGAATGTGACGATCCCCTATGCTTTACAAATTGCCGGCAAAGGGTGGCAGAAAGCCTGTCTGGACAGTCCGGCTCTATGCAAAGGCTTGAACGTTGTCAATGGCTGTGTCACCTATAAACAGGTGGCAGAAGCTCATCAAATGGATTATACAGATGTCCAGAAAGTCCTGGACAGTAAAACGACCCTTCCTAATTAA	MRIGIPKEIKNNENRVAMTPAGAVNLIQQGHEVFLETKAGEGSGFSDADYKQVGVNIVGSASEAWGQQMVLKVKEPLSEEYGYFYEGLILFTYLHLAADEELTKALADKKVTAIAYETVQTENGSLPLLTPMSEVAGRMAAQKGAQFLERPPGGTGILLGGVPGVKRGKVTIIGGGVVGTNAAKIAVGLGAEVTIIDLSPERLRQLDDIFGWQINTLVSNPLNISEAVEESDLVIGAVLIPGAKAPKLVTEAMVQTMKKGSVLVDVAVDQGGIVETVDHVTTHDDPVYVKHGVVHYAVGNMPGAVPQTSTVALTNVTIPYALQIAGKGWQKACLDSPALCKGLNVVNGCVTYKQVAEAHQMDYTDVQKVLDSKTTLPN	PGPT0020070_776	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ALANINE_DEGRADATION,PGPT0020070-ald-K00259	NA	NA
AK012_03132	1341	tpa	COG0161	Taurine--pyruvate aminotransferase	ATGACAAAAGCGGATGTGCAGAATGATATGCTCCAGAAGGACGAAAAGTATGTATGGCACTCCATGAAGCCTTATAAACCTGAAAACACGATGATTGCGAAAAGTGCCAAAGGCTCATGGATCACGGATGTTCAAGGCAATCGCTTTCTGGATGCGATGTCGGGCTTGTGGTGTGTGAATATCGGCTATGGCCGTGAGGAACTGGCAGCGGCTGCTTATGAGCAGATGAAGGAATTGTCCTACATGCCGATGACCGAAAGCCATGAACCCGCGGTAAACCTCGCTGAAAAGATCAATGAGATGCTCGGCGGAGACTATGTCGTCTTCTTTTCCAACAGTGGTTCAGAAGCGAACGAAATGGCGTTCAAAATGGTCCGGCAGTATCATCAGCAGAAGGGTGATCATTACCGTTCCAAATTCATCTCCCGCTATCGTGCGTACCATGGAAACTCCACAAGTTCGCTCTCTGCGACAGGTCAGGCGCAGCGAAAATATAAATACGAGCCGCTGGGGTCCGGTTTCTTACATGTGGCACCACCTGATGAATACCGGAACCACCATAGTGAAGCCGACCGCTGGGGAGCGGAGGATATAGATAAGGTCATGACATGGGAGTACAACGAAACCATTGCCGGTGTCATTATGGAACCCATCATTACAGGAGGAGGGGTCATTGTTCCCCCGGAAAATTATATGAAGGAAGTCAAGTCCATCTGCGAAAAACACGGGGCTTTAATGATTGTTGATGAAGTCATCTGTGGCTTCGGACGGACGGGTCAGCCGTTCGGGTTTATGAATTACGGTGTGCAGCCGGATATCGTTACGATGGCCAAAGGCATTACCAGTGCCTACCTTCCATTGTCAGCCACCGCTGTGAAAAGGGAGATTTATGAAGCCTTCTGCGGGGAGGAGACCTATGATTTCTTCCGGCATATCAATACATTCGGGGGGAGTCCCGCTTCCTGTGCTGTTGCACTGAAGAATATAGAAATCATGGAGAAGGAACAGCTCTTCCAGCGTTCCAGACAGCTTGGTGATGATATCAAAAATGAATTGCACACGCGTCTGCAGGGGCATAAGTATGTAGGGAACGTCAGAGGTAAAGGGATGCTGATCGGGATCGAACTGGTTTCTGATAAAGACACGAAAGAACCTCTGGCTGTGGAAAAAGTGAATGCTGTTATCAAACATTGCAAGGAGAAGGGAATCATTATCGGCAAGAATGGGATGACGGTAGCCGGTTACAATAACATATTAACACTGGCTCCGCCGTTATCCATTGAGGAGGAAGATGTCACCTTCCTGATCAACACATTGGTCGAGGCCGTACACACCCTTTAG	MTKADVQNDMLQKDEKYVWHSMKPYKPENTMIAKSAKGSWITDVQGNRFLDAMSGLWCVNIGYGREELAAAAYEQMKELSYMPMTESHEPAVNLAEKINEMLGGDYVVFFSNSGSEANEMAFKMVRQYHQQKGDHYRSKFISRYRAYHGNSTSSLSATGQAQRKYKYEPLGSGFLHVAPPDEYRNHHSEADRWGAEDIDKVMTWEYNETIAGVIMEPIITGGGVIVPPENYMKEVKSICEKHGALMIVDEVICGFGRTGQPFGFMNYGVQPDIVTMAKGITSAYLPLSATAVKREIYEAFCGEETYDFFRHINTFGGSPASCAVALKNIEIMEKEQLFQRSRQLGDDIKNELHTRLQGHKYVGNVRGKGMLIGIELVSDKDTKEPLAVEKVNAVIKHCKEKGIIIGKNGMTVAGYNNILTLAPPLSIEEEDVTFLINTLVEAVHTL	PGPT0001925_309	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_SIGNAL-GERMINATION_STIMULATION	PLANT_GERMINATION-TAURINE_DERIVATE_PRODUCTION	PLANT_GERMINATION-TAURINE_DERIVATE_BIOSYNTHESIS,PGPT0001925-tpav|bioA|yhxA-K03851	NA	NA
AK012_03133	1770			hypothetical protein	ATGAAGAATAATGACAGCGCTTACATTTTGAGTCGTGATGGATTTTCTGACCACCAGGGGGAAGGTGAGCGTGAAAAAGTCTTTGTCGACAAAGGATTCAGCCTCTATGTGAGATTATCTTACAAGTTGTTCGATTATCACCATCTTTTGGTATACGTTAAAAGAGGGGGGCGTTGTATGAAAGATTCCATGTCTATTGAAAACATTTTGAAACGGGATCATTTTTCATCAGCAAAAGTCATTTCAGGCCATGCAGGACTTTCGAAATCTGTGAAATGGGTGCATGTCTTTGAAATGACGGAAGTAAGAGAAAACCTGAAGGGTGGAGAGCTTATTCTTTCCACAGGATTTGGGTGGAAAAGTGATGACGGCTTGTTCCTGACGCTCCTGCAGCAGCTGGTTGAACGGAACGTCGCAGGGATCTGCATTGAACTTGGCACGTTTATTCAGGATTTATCAGAGGAAGCTCTGGCTTTTGCAGACGCTCATGACTTTCCGATCATCGTCTTTGAAGAAGAAGTTTCCTTTATTGAAATTACCCGGGGGATTCATGCAGATTTGATCAACCATCAATATGAGCGGATCTCCAGCCTGGAAGATTATGCCCAGCGCTTGAACAAACGCCTGCTTTCCATTGATAACTATTTTGATATCCTTAAAAATCTCCAGCAGTATGTAAATTGCCAATTAATCTATGTAACGAAGGATCATACGGTGGTCACAGTACCACAGCTCAGGGATAAAGAGCGGGAAGAGGCCCTTGCCGAGCTCAATGCCCCGCCGGAAAAGCGGACACGGTGGGTGTTGAAGCAGCCTGTCCAGGTGCTTGAAAGGGAATTCGCTGTCATTTATTTATTATGCGGGAGGCGGGAACTCGGGGAGTTTGAATCGCTTCTTCTCGACCGGACGGCCACCGCTCTTGCCCAGTATCTCCTGCGCGAATTGTATACGGAGGAAAAACGGAAGGCCAGGGAAACGGAGTGGCTGATGGGATGGCTGGAAGGAGAACATACCGCAGAGGAAGTGGAAAGCCGCTTGAACCATTATAAAATCCAACTGCCTTCCTTCGGGGCTGCAGCGGTGACAGTGAAAATGAACATGGCTGATGGAAGCCGGAAGAATCCGGACGTTACGTATTTGAATATGCTTGTGCAGAACATTTTTGATCAGAATGGGTTTTATGTTTTTCCAGTCGAACGCCGGCAGCTGATCACGTATATTCTGCTGAACCGTAAACAGGAGGATGATTGGAAAACACGGATGAAAACGGGAGTGGACAGATTGAGGAAAATCAGTATGCTGAATGATCCGTCGGTCGCCTCCTTTCAAATTGCTGTTGGAAAATATACGCGTCAGATGGATCATATCAAGGAAAGTTACCAGACAGCTCTGGAAACTCTGACGCTGCAGAGCAATCTTCCGCCTGAGCAGCACAAATACTTTTATGATGATCTGCATATGTACCGGCTCATCTCCCTTGTACATAAACACAGCAACCTCAATGGGCTGGTGGATGAATATTTAGAGCCGATTATACAGTATGACCAAAAACATAATACGAAGCTCCTGGAAACGTTACGGGTCTACCTCGCCTGCAATGGTTCCAAAAAAGAAACAGCAGACAAGGTCTTTGTTGTCCGCCAGACGCTTTATCACCGGTTGGAGAAGCTGGAAATGCTGCTCGGATCTGACTTTATGGACTGTGAAAAACGACAGGTGATCGAGTTTGCTCTTGTTGCTCATGAGTATCAGCAGGCCCTGCATGCCTGA	MKNNDSAYILSRDGFSDHQGEGEREKVFVDKGFSLYVRLSYKLFDYHHLLVYVKRGGRCMKDSMSIENILKRDHFSSAKVISGHAGLSKSVKWVHVFEMTEVRENLKGGELILSTGFGWKSDDGLFLTLLQQLVERNVAGICIELGTFIQDLSEEALAFADAHDFPIIVFEEEVSFIEITRGIHADLINHQYERISSLEDYAQRLNKRLLSIDNYFDILKNLQQYVNCQLIYVTKDHTVVTVPQLRDKEREEALAELNAPPEKRTRWVLKQPVQVLEREFAVIYLLCGRRELGEFESLLLDRTATALAQYLLRELYTEEKRKARETEWLMGWLEGEHTAEEVESRLNHYKIQLPSFGAAAVTVKMNMADGSRKNPDVTYLNMLVQNIFDQNGFYVFPVERRQLITYILLNRKQEDDWKTRMKTGVDRLRKISMLNDPSVASFQIAVGKYTRQMDHIKESYQTALETLTLQSNLPPEQHKYFYDDLHMYRLISLVHKHSNLNGLVDEYLEPIIQYDQKHNTKLLETLRVYLACNGSKKETADKVFVVRQTLYHRLEKLEMLLGSDFMDCEKRQVIEFALVAHEYQQALHA				NA	NA	NA	NA	NA
AK012_03134	237			hypothetical protein	ATGTCAGACCATCGTGAGTTTTATGTGGAACGTGAAAAAATCGATTATTTACTGGAGCAGGGCTACGTCATTAAAGCCGTGACCGAAAATTTGAGCGGAGCTTTCCTGGAGTTTTCGTACACAGGAAGCGATCCGGAGCAGCCGGAAGTGGAAAGGCTGCACATCCTCCACCCGGACTCAAGGAAATATTTTTCAACGATTTTATTTCAGCAGCAGAAAAAACAGGAAATAAAATAG	MSDHREFYVEREKIDYLLEQGYVIKAVTENLSGAFLEFSYTGSDPEQPEVERLHILHPDSRKYFSTILFQQQKKQEIK				NA	NA	NA	NA	NA
AK012_03135	1494	hyuP_2		Hydantoin permease	ATGAGCAGAAAAGATAATCATTTAATGTCCCCCGATCTTATGCCCATCCCCCACGAACAGAAGAAAATCGGCACCCTTGGATTTACGTTTATGTGGGTCGGTATGGCTGTCGTTTTAGCGGCCTTCGCCATCGGTGGAGCAGGGGTCCAGTCCATTCCTCTCATCTGGGTTGTCCTCGGAACTCTTCTCGGTACCGTGCTCATTGGTCTCGCCATCACCCTGACCGCTGACATCGGCATTGAACACGGCTTGTCCTTTCCGGTATATATGCGTGCCCCATTCGGAATCGTCGGCACTCACTTCCCATCCATCATCCGCGGTGTAGCTGCCTCGATGTGGTTTGGGATCAATACTTATTTCGGATCCACGGCCATTAACGGTATTTTAAACATTTTATTCGGCTTTGATAATTGGTTTATCTGTTATGTTCTATTTGCTTTATTCCAGCTTTTTAATACGGCCCTGGGGATTAAGGCCGTTGAGAAATTTGCGGATCTGGCCGCACCGATTATTATTCTGATCGGGGTATGGATGTACTTCAATCTTTCAGGGACGGCGGCTGGACAGGGGAAAGACATCTGGTCATGGGTGGAAAGCCCTGTGACCGGGGGAGCAGCCTTTACAGCTTTTGTCATTGTGGTGGTCAGTAACATGGGGTACTGGTCGACACTGGCTGCGGATATTTCATCCATCTCGAGATTCATTAAAGCTCCAAAGTATGAAAGAAACTGGTTCAAACGTAACAAAGGGGCCATGGTCGGAAGCCTGGTCGGCCTGCCGCTTACCCAGACGTTTATCGTTGTTCTTGGTGCTGTATCCTACATTGCCGTTTCCAACTTTGACCCGGTCGTCGCTTTACAGGAATCGGCGAGCGGCCTTGTCCTTGGCATTCTGCTCCTCATGATTGTACTGGCTCAGTGGTCGACCAACGTGTCCGCCAATATTGTTCCGGCAGCAACGATCTTTTCCAATGTTGGTGGACCGAAGCTGCCTTTCTGGGCAGGGGTGTTCATAGCAGGGCTTGTCGGAACAGTCATTCAGCCGTGGAGTATTTTTAATCTATTGATTCCGGTCCTCTTAATAGCTGCGGCGATTCTATCTGTCATCGTCGGGATTATCTTTGCCGACTATTATCTATTAAGAAAGCGCCGGATGAATGTGAAGGACTTGTATAGAAGCGGGGGGCAGTATACCTATGACGGCGGAGTCAACTGGGCTGGAATGATTTCCTGGGTGATTGGAAGTGTCTTCGCTTATCTCTTCAGTACGTGGTCCTTCTTCGTCGGATTTGGAATCGGTGCGCTCTGCTACTATCTGCTGGCCAAGCACTGGTACTTTAAAAAACATCCGCAGGCGGAGATCGAGACCCCGAGTGATGAGGACTATCTGGGAATCACAGTCGGCCGGGACTGGATCATTGGTGAAGGCTTTGTCGAAGAGAAGCTTGGGGAACGAACAGGAACAGAGGATGTCACACAAAAAGCAGATGCCTAA	MSRKDNHLMSPDLMPIPHEQKKIGTLGFTFMWVGMAVVLAAFAIGGAGVQSIPLIWVVLGTLLGTVLIGLAITLTADIGIEHGLSFPVYMRAPFGIVGTHFPSIIRGVAASMWFGINTYFGSTAINGILNILFGFDNWFICYVLFALFQLFNTALGIKAVEKFADLAAPIIILIGVWMYFNLSGTAAGQGKDIWSWVESPVTGGAAFTAFVIVVVSNMGYWSTLAADISSISRFIKAPKYERNWFKRNKGAMVGSLVGLPLTQTFIVVLGAVSYIAVSNFDPVVALQESASGLVLGILLLMIVLAQWSTNVSANIVPAATIFSNVGGPKLPFWAGVFIAGLVGTVIQPWSIFNLLIPVLLIAAAILSVIVGIIFADYYLLRKRRMNVKDLYRSGGQYTYDGGVNWAGMISWVIGSVFAYLFSTWSFFVGFGIGALCYYLLAKHWYFKKHPQAEIETPSDEDYLGITVGRDWIIGEGFVEEKLGERTGTEDVTQKADA	PGPT0009075_1360	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
AK012_03136	1416			D-hydantoinase	ATGAGAAAAATTATAAAGAATGGAACGATTGTTACTGCAGCGGATACGTATCAGGCGGATCTTTTGATCGAAGATGAAAAAATAGCGATGATCGGTCATGATTTTGAGGAGGCTTCCGCAGAAGTCGTCGACGCCTCCGGCCGCTACATTTTTCCAGGTGCGATTGATCCGCATACCCACCTGGAAATGCCGTTCGGGGGTACGGTCAGTAAGGATGATTTCGAAACAGGAACCATTGCGGCGGCCCATGGAGGAACAACAACGGTGATCGATTTCTGTTTAACCGATAAAGGGAAGCCGCTCCAAAATTCCATCGATCAATGGCATGCCAAATCCCAGGATAAATCGGTCATTGACTACAGTTTTCACCTGATGATCAGCGAGATGAACGAAAGTGTACTGGACCAGCTTCCTTCGGTCATTGAAGACGAAGGAATCACTTCATTCAAAGTGTTTATGGCGTATAAAAATGTATTCCAATCCGATGACGGCACGCTTTTTAAAACGCTGGAACAGGCTAAGAAGCTGGGGGCGCTTGTCATGGTTCATGCCGAAAACGGTGACGTTATCGATCACTTAGTGAAGAAGGCCCTTGATGCAGGGCAGACGGACCCAATCTATCATGCGCTGACCCGTCCGCCGGAAGTGGAGGGAGAAGCGACCAACCGGGCAGCAGAATTGACCGGGCTGGCCGATTCCCAGCTATACGTCGTCCACGTCACTTGTGAGCAGGCCGTTTCCGCTATTGCCGCAGCAAGAAAGAAAGGTTATAACGTCATTGGAGAAACGTGTCCGCAATATTTGGTCCTCGATCAGAGCTATCTGGAAAAGCCGGACTTTGAAGGGGCGAAATACGTCTGGTCCCCGCCTCTACGAGAAAAGCACCATCAGGAAGTACTGTGGAATGCATTGAAGACCGGCGATCTGCAGACGCTCGGTTCAGACCAGTGTTCCTTCGACTTCAAGGGGCAGAAAGACCTGGGCAGAGGAGACTTTACCAAGATTCCGAATGGCGGCCCCATCATTGAAGACCGTGTCAGCATTTTATTCTCCGAAGGTGTGAAAAAAGGGCGGATCACATTGAATGAATTCGTCAATATTACATCGACGAAAATAGCGAAAACGTTTGGATTGTTCCCGCAGAAAGGGACGATTTCCGTTGGAGCGGATGCAGATCTTGTGATCTTCGATCCGGATGTGGAACGGACGATTTCTGTTGAGACGAGCCATATGGCTGCAGATTACAACCCGTTTGAAGGCATGCAGGTGACAGGGCAGACGGTCAGTGTCCTCTCGCGCGGGGAATTTGTGATCAAAGACCAGCAGTTCGTCGGAAAAATTGGAAGCGGCCGTTATTTGAAGCGTTCCAAGTTTGGCAGTCAAACGTCTTCTCAGGAGAAGCTTTACCAGAAGTAG	MRKIIKNGTIVTAADTYQADLLIEDEKIAMIGHDFEEASAEVVDASGRYIFPGAIDPHTHLEMPFGGTVSKDDFETGTIAAAHGGTTTVIDFCLTDKGKPLQNSIDQWHAKSQDKSVIDYSFHLMISEMNESVLDQLPSVIEDEGITSFKVFMAYKNVFQSDDGTLFKTLEQAKKLGALVMVHAENGDVIDHLVKKALDAGQTDPIYHALTRPPEVEGEATNRAAELTGLADSQLYVVHVTCEQAVSAIAAARKKGYNVIGETCPQYLVLDQSYLEKPDFEGAKYVWSPPLREKHHQEVLWNALKTGDLQTLGSDQCSFDFKGQKDLGRGDFTKIPNGGPIIEDRVSILFSEGVKKGRITLNEFVNITSTKIAKTFGLFPQKGTISVGADADLVIFDPDVERTISVETSHMAADYNPFEGMQVTGQTVSVLSRGEFVIKDQQFVGKIGSGRYLKRSKFGSQTSSQEKLYQK	PGPT0008880_1333	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008880-dht|hydA-K01464	NA	NA
AK012_03137	1287	preA	COG0167	NAD-dependent dihydropyrimidine dehydrogenase subunit PreA	ATGGCTGACCTACGATTAAATCTGGCAGGGATTGAATCTCCCAACCCATTCTGGCTGGCATCTGCTCCACCGACCAACTCAGGATATCAGGTGCAGCGGGCATTTGAAGCGGGATGGGGGGGAGCCGTGTGGAAAACGCTCGGTGATCCCATCTTGAACGTGTCCTCCCGGTTCGCTGCTGTCTCCTATGGCGGCAAGCGGGTGGCGGGATTTAACAATATCGAATTGATTACAGACCGTCCACTTGAAGTGAACTTGAAGGAAATCTATGAAACGAAGAAAAGATTTCCGGATCATGCGATTATCGCATCTCTCATGGTCGAACCAACACAGGAAAAATGGCACGAAATCGTCAAACGCGTCGAAGATGTCGGCGTGGACGGACTTGAATTGAACTTCGGATGTCCGCACGGCATGGCAGAACGAGGCATGGGGGCGGCTTCAGGTCAGGTCCCTGAGCTCGTGGAAAAACAGACCGCCTGGGCGAAGGAAGTGGCGCAGACACCGGTCATAGTGAAGCTCACGCCGAATATTACCGACATCACGTTTACAGCGGAAGCAGCTGTCAACGGCGGCGCAGACGCGGTCAGTATGATCAACACGATTAACAGCCTCGCCGGTGTGGATCTGGACTCATGGGATACGGTACCCAACGTCGCCGGCAAAGGCGCACACGGAGGGTATTGCGGGCCGGCCGTGAAACCGATCGCCTTGAACATGGTCGCTGAATGTGCCCGTCATCCGAAAATCAATGTGCCGATTTCAGGGATGGGCGGCGTTTCCAGCTGGCGTGAAGCGGTCGAATTCATGCTGATGGGGGCGACAGGAGTGCAGGTGTGTACAGCCGCCATGCACCACGGCTTCAGCATCGTAGAGGATATGATCGACGGGTTGGACAACTATTTGGATGACAAAGGACTTGATTCGGTCATGGACATTGTCGGGAAGTCTGTTGAGAAGTATTCCGACTGGGGCAATCTTGATCTGAACCACCAGGTTGTTGCCAAAATCAACAATGATGTGTGCATCAACTGCAACAAGTGTCATATTGCCTGTGAGGACACCTCCCACCAGTGTATCGATATGCTGAAGGATGAAAAGGGCCGGGATATTTTGAAGGTCCGCGAGGAAGATTGTGTCGGATGTAATTTGTGCAGCATCGTCTGTCCGGTGGACGGAGCCATTGATATGGTGGAGTACGCCAATGGAAAGCCACCGATGACATGGAACGAGCGGCAGGCAGCGATTGGAGCCACTCCATCGTGCAGTGTGGATTTGATCAAGTAA	MADLRLNLAGIESPNPFWLASAPPTNSGYQVQRAFEAGWGGAVWKTLGDPILNVSSRFAAVSYGGKRVAGFNNIELITDRPLEVNLKEIYETKKRFPDHAIIASLMVEPTQEKWHEIVKRVEDVGVDGLELNFGCPHGMAERGMGAASGQVPELVEKQTAWAKEVAQTPVIVKLTPNITDITFTAEAAVNGGADAVSMINTINSLAGVDLDSWDTVPNVAGKGAHGGYCGPAVKPIALNMVAECARHPKINVPISGMGGVSSWREAVEFMLMGATGVQVCTAAMHHGFSIVEDMIDGLDNYLDDKGLDSVMDIVGKSVEKYSDWGNLDLNHQVVAKINNDVCINCNKCHIACEDTSHQCIDMLKDEKGRDILKVREEDCVGCNLCSIVCPVDGAIDMVEYANGKPPMTWNERQAAIGATPSCSVDLIK	PGPT0008875_405	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008875-preA-K17723	NA	NA
AK012_03138	1374	gltD	COG0493	Glutamate synthase [NADPH] small chain	TTGACTCAGTTGAAAAGCAAGGGGATATCACTGGAGAATCTGCAGGTGAATTTTGATGAGGTCCATGACGGATTGAATGCCCAGGAGGCGATGGAGGAATCCAACCGCTGCCTGTACTGTTATGATGCGCCCTGTATTCAGGCATGCCCGACAGGAATCGATATTCCGAAGTTCATTAAAAAAATTGCTTCCGGGAATTTGAAGGGATCAGCAAAGACGATTATGTCCTCCAACCCTGTCGGTGCTACATGTGCCCGCGTCTGTCCGACAGAAGAACTTTGTGAGGGTGCCTGTGTGTTGAACCATTCGACAGAACCGATCTTAATCGGTGATCTGCAGCGGTTCGCCACAGACTGGGCGATCCAGAATGAACAGCTGCTGTTCAAGCCCGGGGAGAAAAACGGAATGAGTGTCGCTGTCATCGGAGGCGGTCCCGCCGGCTTGTCTACAGCACGGGAACTGGCACGCTTCGGTTATGATGTCACGATTTTTGAAGCGGCAGAAGAAGCAGGAGGGCTGGATACATACGGCATCGTATCATTCCGTCTGCCGCAGAACATTTCCCGGTGGGAAGTGAACCAGGTGGCACAGCTGGATGTGAAGATCAGGACGAATACGGCGGTTGGAGCGGATATTTCTTTTGAGGAGCTGTCCGATCAGTTTGATGCCATTGCTTTGACGATCGGGATGGGGCACGTTCCGATGCTCGGCATTCCGGGTGAGGATATGGCCGGTGTTCATGATGCGATCGAATTTGTAAAAGAAACGAAATCCGGTCCGATAACGGATGAGCTGCTTGGACGCAGAGTCATTGTGATCGGAGCCGGAAACACAGCGATTGATGCAGCCACCTGTGCCGCTCGTAAAGGGGCGGAGGACGTGAAGATTGTATACCGCCGGACTAGAAAAGAAATGACAGCCTATGAGTTTGAGTACGATTTTGCCAAACAGGACGATGTCCAGTTCCACTGGCTTACCCAGCCTGTAGAAGTTCTTGGGAATGAGGCGGGTCATGTCACGCACTTGAAATGTGTGGAGATGAAGCTTGGTACCCCTGATGAAGATGGAAGGAAAAGACCGGAACCTGTACCCGGATCCGAATTCATGATGGAGGCAGATGCCGTGATCAAAGCCATCGGTCAGACCCGCTACACCGATTTAATTGAATCGTTTGGTCTGGATCATGAAGGCGGCGTCGTTAAAGTCGACCCCGTCACTCTAAGAACCTCCCAATCCAATGTCTTTGCTGCCGGGGATGTCATTTTTGCGAAGGGGCAGGGAGAGGCCATGGTCGTAACGGCTGCCCAGCAGGGAAAAGAAGTCGCTATGGCGATACACAAACAACTCTCCCCTGCTCCTACGGCTGCGGTTTAA	MTQLKSKGISLENLQVNFDEVHDGLNAQEAMEESNRCLYCYDAPCIQACPTGIDIPKFIKKIASGNLKGSAKTIMSSNPVGATCARVCPTEELCEGACVLNHSTEPILIGDLQRFATDWAIQNEQLLFKPGEKNGMSVAVIGGGPAGLSTARELARFGYDVTIFEAAEEAGGLDTYGIVSFRLPQNISRWEVNQVAQLDVKIRTNTAVGADISFEELSDQFDAIALTIGMGHVPMLGIPGEDMAGVHDAIEFVKETKSGPITDELLGRRVIVIGAGNTAIDAATCAARKGAEDVKIVYRRTRKEMTAYEFEYDFAKQDDVQFHWLTQPVEVLGNEAGHVTHLKCVEMKLGTPDEDGRKRPEPVPGSEFMMEADAVIKAIGQTRYTDLIESFGLDHEGGVVKVDPVTLRTSQSNVFAAGDVIFAKGQGEAMVVTAAQQGKEVAMAIHKQLSPAPTAAV	PGPT0008870_92	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_DEGRADATION,PGPT0008870-preT-K17722	NA	NA
AK012_03139	891			N-carbamoyl-D-amino acid hydrolase	ATGTCTGATAAAGTACAGATCGGCTTGATTCAAGCTTCACATGATGTGGACGGCAGTGAACCTGTAGAGGTACATAAACAGCAGTCCATCGAAAAGCATGTGCTGCTCGTACGTGAAGCAGCACAAAAAGGGGCGCAGATCATCTGCCTGCAGGAAATTTTCTACGGTCCATATTTCTGTTCCGAGCAGAATCCGAAATGGTACGACGCCGCAGAGGAAATTCCGAACGGTCCAACGACAAAGCTGTTTCAGGATCTGGCTGCAGAATTGTCGGTCGTCATCGTCCTGCCGATTTATGAGCGGGAAGGGATCGCTACGTACTATAACACGGCGGCTGTCATTGATGCCGATGGTTCCTATCTCGGCAAATACAGAAAGCACCACATTCCCCAGGTGGGCGTCGGGGATAAGGGATATGGGTTCTGGGAGAAGTATTACTTCAAACCGGGCAACCTCGGCTATCCGGTCTTTGACACGGCTTATGCCAAAGTGGGTGTCTACATCTGCTACGACCGCCACTTTCCGGAAGGAGCACGTGTGCTTGGCCTGAACGGCGCGGAAGTCGTCTTCAATCCGTCCGCTACAGTCGCCGGGCTTTCAGAATATCTATGGAAGCTGGAGCAGCCGGCGCATGCGGTCGCGAACGGCTATTACCTCGGGGCGATCAACCGTGTCGGTTATGAAGGACCATGGAATATGGGTGAATTCTACGGACAATCCTACCTTGTCGATCCACGCGGCAGTTTTGTTGCAGAAGGCAGCCGGGATCAGGATGAGGTCGTCATTGGGGAAATGGACAAAAAATTCATCCGTGAAGTCCGTGACACATGGCAGTTCTATCGTGACCGCCGTCCGGAAACGTACGAAAAAATGGGGGAGCTTCTCCCGTAA	MSDKVQIGLIQASHDVDGSEPVEVHKQQSIEKHVLLVREAAQKGAQIICLQEIFYGPYFCSEQNPKWYDAAEEIPNGPTTKLFQDLAAELSVVIVLPIYEREGIATYYNTAAVIDADGSYLGKYRKHHIPQVGVGDKGYGFWEKYYFKPGNLGYPVFDTAYAKVGVYICYDRHFPEGARVLGLNGAEVVFNPSATVAGLSEYLWKLEQPAHAVANGYYLGAINRVGYEGPWNMGEFYGQSYLVDPRGSFVAEGSRDQDEVVIGEMDKKFIREVRDTWQFYRDRRPETYEKMGELLP	PGPT0008885_421	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
AK012_03140	1473	iolA	COG1012	Malonate-semialdehyde dehydrogenase	ATGGCGACAACTTTCTCGAAGTCGAATCAGGTGGTTATTGAAAACTTTATCCATGGGGAGTGGGTTCCTTCTGAAGGTGGTCAGGTGGAGGAAGTCCCTAACCCTGCTACTGGAGAAATCATTGCACGCGTTCCTATTTCAACCAAGGAGGATGTGGATAAAGCTGTCCAGTCAGCCAGGGAGGCCTTTCAATCCTGGAAGAAGACTCCTGTCCCTAAACGAGCGAGAATAATGTTCAAATATCAACAGCTTCTGATGGAAAACCGCGATCAGCTGGCCGAAGCCTTGACTCAGGAGAATGGAAAGACGAAAAAGGATGCCACGGGAGAAGTGCAGCGCGGCATTGAGTGTGTGGAGTTTGCAGCAGGGGCTCCGAGTCTCATGATGGGGGATGTACTTCCCGATATCGCTGAAGGGATCGATTCTGGGATGTACCGGTATCCAGTAGGAGTTGTCGGCGGAATTACACCCTTTAACTTTCCTATGATGGTCCCGCTCTGGATGTTTCCGCTTGCGCTCGTATGCGGGAATACCTTTGTCCTTAAACCGTCGGAGCGGACACCGATTTTAGCAAAAATGCTGGTAGAGCTCATCCATGAAGCGGGACTGCCGAAAGGCGTGCTTAACCTTGTCAATGGAGCCCATGACGTCGTCAACGGCCTGATTGAGCATGAAGAGGTCGACGCTGTCTCCTTTGTAGGTTCCCAGCCTGTAGCGGAATATGTGTATAAGACAGCTTCTCAACATGGGAAGCGGGTCCAGGCGCTTGCCGGCGCGAAAAACCATTCCATTGTCATGCCGGACTGTAACCTGGATAAATCGGTCGAGGGCATTATCAATGCTGCTTTTGGAAGTGCGGGCGAGCGATGCATGGCCTGCTCCGTCGTCGTTGCGGTCGGTGATGTGGCTGACAGCCTCGCAGCAAAAATCAAAGAAGCGGCGGATCAATTGAATGTAGGGAACGGTCTGGAGGATGAAACGACACTGGGACCGCTGATCCGTGAGGCCCACCGGGAAAAAGTGCTCCGTTATATCGAAGCCGGGGAAAAAGAAAATGCCGCTTTGATCAGGGATGGACGTGTGGAGCTTCGGGAGCATGATTCCGGATACTTCCTCGGGGCTACGATTTTTGATCATGTCTCTAAAGATATGACCATCTGGAAGGATGAAATTTTTGCTCCTGTCTTAAGCATCGTGCGGGTGGATACCCTTGATGAGGCGATCCAGACAGCTAATGAATCGGAATTTGCCAACGGCGCCGTGATCTATACCTCCAGTGGGAAGGCGGTCCAGCAGTTCCGCGAAGACATGGATGCCGGGATGCTCGGAGTCAATGTCAATGTTCCTGCACCGATGGCATTTTTCCCATTCTCTGGGAATAAAAAGTCGTTTTACGGCGATCTGCATGCCAATGGGAAAGACGGGGTGAATTTTTATACGAAGCGTAAAATGCTGACACAGCGCTGGTATTAA	MATTFSKSNQVVIENFIHGEWVPSEGGQVEEVPNPATGEIIARVPISTKEDVDKAVQSAREAFQSWKKTPVPKRARIMFKYQQLLMENRDQLAEALTQENGKTKKDATGEVQRGIECVEFAAGAPSLMMGDVLPDIAEGIDSGMYRYPVGVVGGITPFNFPMMVPLWMFPLALVCGNTFVLKPSERTPILAKMLVELIHEAGLPKGVLNLVNGAHDVVNGLIEHEEVDAVSFVGSQPVAEYVYKTASQHGKRVQALAGAKNHSIVMPDCNLDKSVEGIINAAFGSAGERCMACSVVVAVGDVADSLAAKIKEAADQLNVGNGLEDETTLGPLIREAHREKVLRYIEAGEKENAALIRDGRVELREHDSGYFLGATIFDHVSKDMTIWKDEIFAPVLSIVRVDTLDEAIQTANESEFANGAVIYTSSGKAVQQFREDMDAGMLGVNVNVPAPMAFFPFSGNKKSFYGDLHANGKDGVNFYTKRKMLTQRWY	PGPT0002295_3824	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
AK012_03141	861	ydaD_2		General stress protein 39	ATGAAGAAAAAGAAAGCCATTCAGCCGGAACAGCATCAGGAGCGGCAGCCGGGGTATGAATATGAAATGGATCCGCTGCCGGAATATGTGGATGAGACCTATACAGGCAGCGGAAAGCTGGCCGGTAAAACCGCCATCATTACCGGTGGAGACAGTGGAATCGGAAGAGCGGTCAGCCTGCTTTTTGCTAAAGAAGGCGCAGACGTCGCGGTTCTTTATCTGGATGAGCATGAAGATGCAGCGAAAACGAAGCACTTGGTCGAAGAAGAAGGCCGGCGCTGTGAGCTTTATCATGGAGATATCGGCGGACCGGAGTTTTGTGAAACCATCGTCGAGCAGGTGGTAAAGAAATTCAAAACCATCGATATTCTTGTCAACAATGCAGCGGTTCAGTACCCGCAGAAAAATGTACTCGACATTTCCAACGAACAGCTTCTTGAGACATTCCGTGTCAACTTCTTTTCCTATATCTATATGACGAAGGCGGTTCTGCCCCATATGAAGAAAGGGGCGTGCATCATCAACTCCTCCTCGGTGACAGCCTATAAAGGAAACGATCAGCTGATTGATTATGCATCAACCAAAGGCGCCATCACCTCTTTCACCCGATCACTCGCCGGATCTCTGGTGGGGCAGGGAATACGCGTGAATGGGGTTGCTCCAGGACCGATCTGGACTCCATTGATACCTGCGAGTTTTGATAAGCACAGGGTGGCGGAATTTGGCTCGGACAATCCCATGGGGCGTCCCGGCCAGCCGAGGGAAGCAGCACCCGCCTATGTCTATCTGGCTTCCAATGATTCGAGCTATGTAACCGGGCAGATGCTTCATGTCAACGGAGGTATTCCCGTGAACGGATAG	MKKKKAIQPEQHQERQPGYEYEMDPLPEYVDETYTGSGKLAGKTAIITGGDSGIGRAVSLLFAKEGADVAVLYLDEHEDAAKTKHLVEEEGRRCELYHGDIGGPEFCETIVEQVVKKFKTIDILVNNAAVQYPQKNVLDISNEQLLETFRVNFFSYIYMTKAVLPHMKKGACIINSSSVTAYKGNDQLIDYASTKGAITSFTRSLAGSLVGQGIRVNGVAPGPIWTPLIPASFDKHRVAEFGSDNPMGRPGQPREAAPAYVYLASNDSSYVTGQMLHVNGGIPVNG	PGPT0014705_836	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GLUCONATE_METABOLISM,PGPT0014705-gdh|ycdF-K00034	NA	NA
AK012_03142	492			hypothetical protein	ATGGCCCGAACCAGTTTCTGTCATTGTTTCAGCAACCAAGAAGAGCTTGCTCAAGGTACAGCATCCACCCGGACCTACCTCGCCTTCTGCGTGGTCACCGGCAGGGAAGGTGCCATTGAGTTCAGCTTTCAGACGACGTATATCGATCAAAGCAAAGAACCCCCTTTTGCTACCTTCTACGGAGTTAAAAGCGAATGGGAAGAGGATGCAGCCTCACCGAAAAAGCTGCGGATCCACAGCCGCTCCCCGCTAAAAGATGACGGGCAGGCCCCGCGCGAGCAGCCTTTTCTAAGATCCCAGGATCTCTTTTACTCGTATACCGTCAATCTTGATCTACATAAACTGAAAGCCTATCGGAGACATTCTGATACATATTTGACGACCATCCATTCGAAGGTTTTGTACGAGGAGTTAAAAGCTGTATATACCAGCATCTTCAAAACCGCACCGATCGACACAGAACAGGACCACTTTATGATTTTGGTGGACTAA	MARTSFCHCFSNQEELAQGTASTRTYLAFCVVTGREGAIEFSFQTTYIDQSKEPPFATFYGVKSEWEEDAASPKKLRIHSRSPLKDDGQAPREQPFLRSQDLFYSYTVNLDLHKLKAYRRHSDTYLTTIHSKVLYEELKAVYTSIFKTAPIDTEQDHFMILVD				NA	NA	NA	NA	NA
AK012_03143	330			hypothetical protein	GTGAACACGCTCCTGATTGCCGGATGTATTGGAGGGATAACAGGCGTGGTGGCTCATTTGATGAGAAATGGAAAGGTTTTGGTTTTCCCGAGAAGGCGGAGGCGTCCAAAAGGCATCTACCTCGGATTTTTAGCGGATTTTTTAATTGGAGCGGCGGCTGCGGTTTTTGCTGTCACTTATCTGATTCCTGAACCGGACATGCTTCGGACATTGATCGGGATATCGATTCTTGCAGGTATGACAGCGGAGAATGTGCTGCTGAAAAGAGAGTTGAACGTGGAGAAAGCGAAGGTGGAAGGATTGGACCGGATCAATCAGCGTTTAAAATGA	MNTLLIAGCIGGITGVVAHLMRNGKVLVFPRRRRRPKGIYLGFLADFLIGAAAAVFAVTYLIPEPDMLRTLIGISILAGMTAENVLLKRELNVEKAKVEGLDRINQRLK				NA	NA	NA	NA	NA
AK012_03144	273			hypothetical protein	ATGGGGAAAAAGAAAAAAGATGAAGAATTCGATGATTTGCTGGATGCTTTCAGAGAAGCTGGTTCAATGGAGGAAACCCGGTATTATTATATGAAGCTTCAACGATTTCTGGATCACTATGAAGAGAGCCGAGCTGTTTTTCAATCCACTGATAAAACAGAAAAGAAAGACTACGAGCCTTTGCTCCAGGGAATGATGGATGCCACTTCCAAAAAAGAAGTGGATTATTATGAACATGAAATCCATCAGCTGCTGGATGTGAAAAAGAGTTGA	MGKKKKDEEFDDLLDAFREAGSMEETRYYYMKLQRFLDHYEESRAVFQSTDKTEKKDYEPLLQGMMDATSKKEVDYYEHEIHQLLDVKKS				NA	NA	NA	NA	NA
AK012_03146	1329			hypothetical protein	ATGAATAACAGCAAACGCTGGATTGATTTGAGAGATAGTTTTCTATTTCTTCCCGCCATTTACAGCGTGATCTCCATTATCAGCGTAGTGGCCTCCATCCTTCTCGATGAATGGGTGGTATCCAATTGGAAGGACGCCCTCCCCGGCTTCCTCCTTACCGGAAGCTCAGTGGCTCAGACGTTGTATGGATCGCTTGTCACCTCCATCCTAACGATGACAACGATCAGTTTTTCCACCATCATGGTTGTTCTCACTACGTATACAACGCAATTCTCGCCAAGAACGCTGCAGGACTTTATGAAAAGCCGGATCACTCAGCACGTTCTCGGAGTTTTCTCCTTCGGTTTCATCTTTTCCCTGCTGCAGTTGTTCCTGCTTGGAAAGGATTCCGGGTCTGGTTTAATCAGTCCTTTTCTAACCGTTTTCGTCTCCATCGTCTGTCTGGCTTTCTTTATTATCTTTATCCACCATTCCTCCCGCTTCATTAAAGTGAATAATTTAATCGGGACCATTCGAAAGAGCACATCCGATCTGATCAACAGAACCTTTTCCGAAAAAAATTATGACAGTTACACGGACTGGGATCAGGAGGATATCGAAGAACGAAAAAAACCGGAGAAAAGTGTCATTCCGACAGGGGAATCGGGCTATATTCAAAGCGTGAATTATTCTTCCTTGATCCAGTGGGCCGAAAAGAATGAGGTTTTATTGGAAACCGCTTTTTCTATGGGAGAGTACATCCAGAAAGGAATGCCCCTGTTTTATTACTGGGGAGAAACACAGAAGGAAAATTTCAAGCCGGACGAAGCAAGAGCTTTTGTCGTAATCGGCAATGAGCGGATCGACATTCAGGATATTGAATTTTCTCTGCAGAAGCTTGTGGAAATCGCCGTCCGCGCCATTTCCCCAAGTCTCAACGATCCTCATACCGCCACGAACTGCATCAACCGGATCGGCTCCCTGCTCATTGAGCTCGCCGATGTGTATGAGCCGATCCGGTATTACCCGGACGACAATGAAAATCTCCGCCTTATCGCAGAACCGGTGCCGTTTAGTGAATACTTGTATAAATGCTTCTATCAAATCCGCATCTACGGACACCATGATGTTTCCGTCATGAACTCCGTGATGGAAGTGTTGTACAAACTGGCGGTCATTCAAAAGGAGAAAGTCCAGGATGATGTGTGGAGGTTCGGCCGTTATATGATCAAAGCTGTTGATGTAGAGAATATGGACGAGCTTGATTTTGAGCGGTTTAACCATCAGGCACAGAAACTGGCCGATGCGTGCGGCACAACCATTTCATTAAAAAACCATGCGTCTTCCTGA	MNNSKRWIDLRDSFLFLPAIYSVISIISVVASILLDEWVVSNWKDALPGFLLTGSSVAQTLYGSLVTSILTMTTISFSTIMVVLTTYTTQFSPRTLQDFMKSRITQHVLGVFSFGFIFSLLQLFLLGKDSGSGLISPFLTVFVSIVCLAFFIIFIHHSSRFIKVNNLIGTIRKSTSDLINRTFSEKNYDSYTDWDQEDIEERKKPEKSVIPTGESGYIQSVNYSSLIQWAEKNEVLLETAFSMGEYIQKGMPLFYYWGETQKENFKPDEARAFVVIGNERIDIQDIEFSLQKLVEIAVRAISPSLNDPHTATNCINRIGSLLIELADVYEPIRYYPDDNENLRLIAEPVPFSEYLYKCFYQIRIYGHHDVSVMNSVMEVLYKLAVIQKEKVQDDVWRFGRYMIKAVDVENMDELDFERFNHQAQKLADACGTTISLKNHASS				NA	NA	NA	NA	NA
AK012_03147	246			hypothetical protein	ATGCGGCCGGAAAAAATCATTTCCCCGTGTTATGGAGAAGTGACCGAAGTCCTCGTCCAGGATGGGGAATACGTGTATGAATGGGAGCCCCTTTTTGTTATCAGACGGGATGGCACAGAGTCGAAAGTAGCGGTGGGCATCAGCGGGAGCCTGAAGAAGCTTTATATTAAAAAAGGTGACAAAGTCTCGCCTGCCACACTTCTTGCCGAGATGGAAGACGATATGGTCATATCCGGCAGTGATTAA	MRPEKIISPCYGEVTEVLVQDGEYVYEWEPLFVIRRDGTESKVAVGISGSLKKLYIKKGDKVSPATLLAEMEDDMVISGSD				NA	NA	NA	NA	NA
AK012_03149	729			hypothetical protein	ATGGGTAGAGACGGATCCATGACCGAATACACCATAAACAGTCAGTACTTAGATGAAGAAATGACCCTTCGCGTGTATACACCGAACAACTTCTCCCCTCTATACAAGTACCATTTCTGTATCATGCAGGATGGAAACGATTATTACTCCATGGGGCGTGCCGCCACGTTGAGCGATAAGCTCCATAAGGAGGAGCGTATAGAACGGACGATTTTCATTGGTATACATTACAAGGACAAATACGACCGCAGGGAGAAATATCATCCTGACGGCTCGAGACAGGGAGACTATGTCAACTTTCTCATCCGGGAGGTCGTTCCATTTCTCGATGAACAGCTTCCCGGGTATACTATGGGAAGAGGACGGACACTGGCTGGTGATTCCCTGGCCGGAACCCTCGCCTTAATGACGGCTGTTAAATTTCCGAATATTTTCGGAAATGTCATCATGCAGAGCCCCTATGTCGATGAACACGTCCTGGAAGTCGTTGACACAGGCCGTGAACCATCTTCTTTAACGATTGATCACACCATCGGCCTGGAGGAAACGGACGTAGTAACGACAACCGGTGAACAGATGGATTTTCTTGAACCGAATCGGAAACTACAGGATCTTCTGCATCAAAAGCCGGTCTCCTATACGTACCATGAACTGGACGGAGGCCATACATGGGGTTCCTGGCAGAAGGATTTTGAACGGGCTTTATTGAACATATTTAGTAGTGAATAA	MGRDGSMTEYTINSQYLDEEMTLRVYTPNNFSPLYKYHFCIMQDGNDYYSMGRAATLSDKLHKEERIERTIFIGIHYKDKYDRREKYHPDGSRQGDYVNFLIREVVPFLDEQLPGYTMGRGRTLAGDSLAGTLALMTAVKFPNIFGNVIMQSPYVDEHVLEVVDTGREPSSLTIDHTIGLEETDVVTTTGEQMDFLEPNRKLQDLLHQKPVSYTYHELDGGHTWGSWQKDFERALLNIFSSE				NA	NA	NA	NA	NA
AK012_03150	516	yjcG	COG1514	Putative phosphoesterase YjcG	ATGAAATACGGAATAGCAGTGTTTCCATCAAAAAAAGTACAAGATGTAGCGAATTCTTACCGCAAGCGATATGACCCTCATTATGCGCTGATTCCCCCTCACATTACGATGAAAGAGGCGTTTGAAGCGGATGAAAATCAGATTGAAAGTGAAATCATCCCGAAACTGAGGGATATCGCCGAGAATACAGAACCATTCTCTTACGGGGTGTACAAAGTGAGTTCCTTTTCCCCCGTGACCAACACCATCTACCTGAAAATTGAACCATCAGATGAAATCTTTGATTTGAATGACAAGCTGTATACCGGTGTTCTCAGTGAAGAAAAAGATTTTGCATTCGTGCCCCACATTACGATTGCCCAGAAGCTTTCGGATGAAGAATTCTCTGATGTTTACGGGAGTCTGACCATGCTTAAATTTGACCTGCAGGATCAAGTTGACCGTTTCCAGCTTCTTTACCAACTCGAAAACGGTGCATGGAGTGTCTATGAGACGTTCCGCCTTGGCAGAGGGTGA	MKYGIAVFPSKKVQDVANSYRKRYDPHYALIPPHITMKEAFEADENQIESEIIPKLRDIAENTEPFSYGVYKVSSFSPVTNTIYLKIEPSDEIFDLNDKLYTGVLSEEKDFAFVPHITIAQKLSDEEFSDVYGSLTMLKFDLQDQVDRFQLLYQLENGAWSVYETFRLGRG				NA	NA	NA	NA	NA
AK012_03151	429			Acetyltransferase	GTGGATATACAGCAGGTCAGAAACCCACAACAGCTGGACGATGCCTACTTTGTAAGGAAAACGGTCTTCGTCCATGAGCAGCAGGTACCTGAAGAACTTGAGATTGATGAGTTTGATGAAACCTCCCTCCACTTCACAGGATACGACAATGATGAACCGGTGGCTGCCGCCCGTCTGAGGTTCGTCCACGGGTATGGAAAACTCGAGCGCATCTGTGTCCTGAAGGAGAAGCGGGGACATTCCTATGGCAGACAGATGATTGAAAAACTGGAAGAGGCTGTCCGTGACCATGGGTATGATAAAGCCAAGCTGAATGCCCAGACACAGGCGGAAGCTTTTTATGAAGCCCTCGGTTATGTCACGATTTCAGACAAATTCATGGATGCCGGCATCCCGCACGTTACAATGGTCAAAGAGTTGAATCATTAA	MDIQQVRNPQQLDDAYFVRKTVFVHEQQVPEELEIDEFDETSLHFTGYDNDEPVAAARLRFVHGYGKLERICVLKEKRGHSYGRQMIEKLEEAVRDHGYDKAKLNAQTQAEAFYEALGYVTISDKFMDAGIPHVTMVKELNH	PGPT0001990_6	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001990-patB|malY-K14155	NA	NA
AK012_03152	678			hypothetical protein	ATGGAATATATACAAATTACGGTGGAAACCCTCTTCGGTTTTGCCGCACTGTTTGTAATGACAAAAGTGCTGGGAAAATCCCAGATCACTCAAATTACAGCTTTTGACTTTATCGCTGCCCTTGTTCTTGGAGAACTTGTGGGAAATGCCCTTTACGATCCGGACGTCGGTATTCCCGACATCGGTTTTGCTATTATATTATGGAGCATCCTTATCTACACGACCGAAGTGATCACTGAAAAATTCAAAGGCACCCGGAAGATTCTCGAAGGAAGTCCTTCACTCGTCATCTATAAGGGAAACATAGACAGGGAGCAGCTCAAAAAAAATAAGCTGGATATCAACCAGCTTCAACATCTGCTTCGCTCCAAAGACGTCTTTTCAATCAGGGATGTCCAATATGCGGTTCTGGAAACGGACGGGACGATTTCTGTGTTGAAGAACTCGCTCTCGCAGAACGTGAGCCGCAGTGATTTGAATCTCCCTCCCCTTCCTGTCCCGCTTCCCCGTACAATCATCAGCGACGGGGAAGTCATCTGGGACAACCTTATGGAAGCGGGACTCGATCAAAACTGGCTGCATGATCAGCTGAAGGCTCAAAACTATGAAGCCCCGGAGGAAGTCTTGTATGCAGAGTTTCAGGATGGTGACCAGACGTTGTTTGTCATCGGCCTATAG	MEYIQITVETLFGFAALFVMTKVLGKSQITQITAFDFIAALVLGELVGNALYDPDVGIPDIGFAIILWSILIYTTEVITEKFKGTRKILEGSPSLVIYKGNIDREQLKKNKLDINQLQHLLRSKDVFSIRDVQYAVLETDGTISVLKNSLSQNVSRSDLNLPPLPVPLPRTIISDGEVIWDNLMEAGLDQNWLHDQLKAQNYEAPEEVLYAEFQDGDQTLFVIGL				NA	NA	NA	NA	NA
AK012_03153	897	gloB_6		Hydroxyacylglutathione hydrolase	ATGTTTCAACAAATCTCTGATTCTTGTTATTACCACCATTCCTCTGTCAATATCGGCTATGTTCATAAGGACGACACTGGTCTGTTGATTGACTCGGGCATCGACCGGTCGTCAGTAAAAAAGGTGTTGAAGGAGCTGGAAAAACGACAGCTTCCTCTCACCCATCTTTTTATCACCCATGCCCATGCGGACCATTACGGCGGGGCGTCCTATGTTCAGAGCGCGTATAACGTACATACATCTGCCCCTGTATTGGAAGAGGCTGTCCTTTCCAATCCAATCCTGGAGCCGCTTTATCTGTTCAGCGGGGTTGAACCGCTGGATGGGCTGCGAAATAAATTCCTTGAAGGTCCTCCTGTCCGGATTGACAGAGTGGTCGATGAAGGAGAGGCGGCATTCGGCTGCCTGAAAACGGAGCTTATGCTGCTCCCGGGACACAGCCATCACCAGCTCGCCTTAAAAACAGCGGACATCCTGTTTGCGGCTGACAGCTACTTCAGTCTGGAAACACTTCAAAAGCACAGGATTCCATTTCTCGTCGATGCTGGAAAAACGATTCACAGCCTGAAGCGCCTGCTTGATCTCCGTATATCTGGAGCGGTACCTGGTCACGGGGCATTTGAAAAGGATCCATCCGAAACCATCCGTCAGAACATCCTTTATCACCAGCAGATGTTGGACGCTGTTCAGGCTGAGGTCGCTGCCAATGGGGAAATCACTCACGAAGCTCTGATTGCAAATCTTTGTGAGCGTTATGATGTCCAGGCCGCTTCACTTGGACAGTGGCTCCTGTACCGTACAGCTGTGACCGCGTACGCCGTCACATTGAACAAAGCGGGCAGCATTGAAAGTCGGCTGAACCATCATAAGTGGGTGTTTTCCTCTATAGGCCGATGA	MFQQISDSCYYHHSSVNIGYVHKDDTGLLIDSGIDRSSVKKVLKELEKRQLPLTHLFITHAHADHYGGASYVQSAYNVHTSAPVLEEAVLSNPILEPLYLFSGVEPLDGLRNKFLEGPPVRIDRVVDEGEAAFGCLKTELMLLPGHSHHQLALKTADILFAADSYFSLETLQKHRIPFLVDAGKTIHSLKRLLDLRISGAVPGHGAFEKDPSETIRQNILYHQQMLDAVQAEVAANGEITHEALIANLCERYDVQAASLGQWLLYRTAVTAYAVTLNKAGSIESRLNHHKWVFSSIGR				NA	NA	NA	NA	NA
AK012_03154	312			hypothetical protein	ATGGGATACATCATCCCTGTGAATCATTACCAATACCTGGATTATCAAATGAGGGTCGCAAAGCGCCGTCAGCGGTCCTTTGCTGTGGATAAGATTGTGAAGGCCGGTCTCGATACCAAGCTTTCCGGTCGGCAGCAGAGGGAGGAGGAGCGCCTTGCCTGCCAGCGAAGAAGCCCGTTTATCACGTCTGGGGATGTTCGTGCCGCTGGGATCAATAGTCAGAGTCCGGGGCCCCGGGCACCTCAGACCATGGAGGTGAAAAATAGGGCAGCTTTAACAGGAAAAGGCAGCTACTTCAGCGAAACTGTTTAG	MGYIIPVNHYQYLDYQMRVAKRRQRSFAVDKIVKAGLDTKLSGRQQREEERLACQRRSPFITSGDVRAAGINSQSPGPRAPQTMEVKNRAALTGKGSYFSETV				NA	NA	NA	NA	NA
AK012_03155	231			hypothetical protein	GTGACGGCCGGAGAAGAGAAAAAGAAGGAGAAGACCCTGCTGGAAGTGCTGCAGGAAATCGATAGGGAAACGTCGAAGTATAAAGGCATTATGAAACAGCCGGATAAGAAGTTTCAGCAGTGGGATAAGGATTTTGGAGCCTGGGAGAAGAGGTTTACCAAGCAGATGACCGATGTGGAGAAATATCTGAACAAATATGCCGGGAAGATGGAGAAGTTTTTTGAAGGGTAG	MTAGEEKKKEKTLLEVLQEIDRETSKYKGIMKQPDKKFQQWDKDFGAWEKRFTKQMTDVEKYLNKYAGKMEKFFEG				NA	NA	NA	NA	NA
AK012_03156	327			hypothetical protein	TTGTTATCGATCGTAGAATTTTTTCTGCTGGCCCTTGCCAGCTTCCGACTGACCCGGCTGATTGTGCGTGATTACATTCTGGAGTGGATGCGGCGTCCGTTTTTCAATGTAAAGCTGGTTACAAACGATCAAGGGGTGGAGGAAGAGTGGGTCGAGCCTAAGGGTTTTATCGGCGAAGGATTGAGCTGCCAGTGGTGTGTCGGAGTCTGGTCCTCGGTGATTATGGTCATCTTCTATCTGATTGTCCCTTATGGGGAATGGCTCGTCTTTGTCTTTGCTCTGGCAGGTCTGCAGTCCATTTTATATGCATGGACAGACCGCCTGTGA	MLSIVEFFLLALASFRLTRLIVRDYILEWMRRPFFNVKLVTNDQGVEEEWVEPKGFIGEGLSCQWCVGVWSSVIMVIFYLIVPYGEWLVFVFALAGLQSILYAWTDRL				NA	NA	NA	NA	NA
AK012_03157	234			hypothetical protein	ATGTCTGAGAAGAAAAAGGTCATTCATGTCAAAGACCTTGTCATTAAAGCCGATAATGTCATTATTGAACCACAGCACCGCGGACGTCATGACCGGGATGAAAGCAGTGACCGTGTCGATCCATTTTTTGGACGGAAACGCAGAGAAGCTGGGGCGGACGAAAGCAGCTCAAGTTCCAAGAGGCGTCATGATGATGAGTCTTCCGATCGTCGTGGAGGATTCCGCTGGTTCTAA	MSEKKKVIHVKDLVIKADNVIIEPQHRGRHDRDESSDRVDPFFGRKRREAGADESSSSSKRRHDDESSDRRGGFRWF				NA	NA	NA	NA	NA
AK012_03158	474			hypothetical protein	ATGAGCTGTGGTAAACACTTCGATTCAGGCTCCTGTGTTATTGACATCCTAAAAGACATCGTGGATGCTCAAAATGACGTCCTGCACGACTGCACAACGAGCTGTGAACAATCAATCGCAGACCTTCTGGGTGACAGTAACGGAGGATCAGGTTTCGATACAGTACCTGTTATTCTTTACTGTAAAGACGGATGCAAGCCTTTTAAAGGATACGGTTCAAAACGCAGTGGAGAGCGCTGTAATGTCAAAGGAAGCTTTTTCTTCCGCGTCAAGTCTGTAGACGATGACGGATGTGCAATTCTTGAACTTCTATTCTCTGACCGCAACGGAGACAGCGAGGACTCAAGAGACGACGACCCGAAATCTCCAGCTGATCAAAGCTGCCGCGATCTCCGCGCTTCAGGGATCTGCATCACAGTCGACTTGAAATGCTTCTGCCACGTGACCTGCCTTCCGGCTGCAAGCACGCTGTAG	MSCGKHFDSGSCVIDILKDIVDAQNDVLHDCTTSCEQSIADLLGDSNGGSGFDTVPVILYCKDGCKPFKGYGSKRSGERCNVKGSFFFRVKSVDDDGCAILELLFSDRNGDSEDSRDDDPKSPADQSCRDLRASGICITVDLKCFCHVTCLPAASTL	PGPT0025235_6	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025235-cotZ-K06344	NA	NA
AK012_03159	528			hypothetical protein	ATGGCCGATGAAAAACGTCTTGCCAAGCAGCCGATGCTTTATATTGTTCAGCCGAAGAATCTAAAGCCCGCCGTCGTTCCTATGCAGACGAGTTTCCGTACGGAGCGCTCAGTAAGGTCACGCGGATCCGAAGAGCCCGCTTCCAAAGAAACGCCGCGATATGAAAAAGAAGCCCGTATGCGCAGAACCCATTCCACTCACACAGAGGACATAACAAAACGACTGCCTGAACAAACCGATACTTCTGAAGGGGAGCAGGAGGAAGACAACGACGATAAGAAGATATCCAGCCGGGAGCGCAGGCAGCGGTTCCATGAGCTGTCCCTGAAGGAGAAAGTGGATTACTTTTTCCAGTTATCCCCGCATGTTCCGAAGATGAAATGTGAAGTGACGACGAAGGAAGATCAGCTCCGGGGATACATTACGGATTACCAGGATGGTGTAGTCCATATGAAGGTATTTCAGCGTCCTTTCCAGAGGGAGATTGACTTTGAGACGATTATCGATATCCGCCTGCTTGGCTTTTAA	MADEKRLAKQPMLYIVQPKNLKPAVVPMQTSFRTERSVRSRGSEEPASKETPRYEKEARMRRTHSTHTEDITKRLPEQTDTSEGEQEEDNDDKKISSRERRQRFHELSLKEKVDYFFQLSPHVPKMKCEVTTKEDQLRGYITDYQDGVVHMKVFQRPFQREIDFETIIDIRLLGF				NA	NA	NA	NA	NA
AK012_03160	780	fabI_2	COG0623	Enoyl-[acyl-carrier-protein] reductase [NADH] FabI	GTGAACTTTTCTTTAGAAGGACGTACGTATGTAGTTATGGGTGTTGCCAACAAGCGGAGTATTGCCTGGGGAATTGCACGTTCTCTGCATGCCGCCGGCGCCCGTTTGATTTTTACTGTGGCATCTGAGCGCTTTAAAAAGTCTGTAGAGGATTTAGCCGCTTCTTTGGACGGTGTGGAGGAACCACTGGTCTATGAGTGCGATGTGACGAACGATGAGGCAATTATCCAGACCTTTGAAGAAATCAGCCGTGATATTGGAACGATTCATGGGCTTGCGCACTGTATTGCATTTGCGAACAGAGATGAGCTTAAGGATGAGTTCCTGAACACGAGCCGCGACGGATTTTTGACGGCCCATAACATCAGTTCCTACTCACTGACGGCTGTTGCCCGTGCAGCACAGCCTTTGATGACCGAAGGGGGAAGTATTGTAACATTGACTTACCTCGGCGGTGAGCAGGTTGTGAAAAACTACAACGTCATGGGTGTAGCGAAAGCAAGCCTTGACGCAAGCGTGAAATATCTGGCGAATGACTTAGGGAAGCGCAATATCCGTGTCAACGCGATTTCTGCCGGACCGATCCGTACGTTATCGGCCAAAGGTGTCGGTGATTTCAATGAAATTATGAAAGTGATTGAAGAGCGTGCTCCACTGCGCCGCCCCGTGACTCAGGAAGAAGTCGGAGATACCGGCTATTACTTGATGAGTGACTTGTCCCGTGGAGTGACAGGAGAAGTGATCCACGTAGATTCCGGCTTCAGTACTGTCGCTTACTAA	MNFSLEGRTYVVMGVANKRSIAWGIARSLHAAGARLIFTVASERFKKSVEDLAASLDGVEEPLVYECDVTNDEAIIQTFEEISRDIGTIHGLAHCIAFANRDELKDEFLNTSRDGFLTAHNISSYSLTAVARAAQPLMTEGGSIVTLTYLGGEQVVKNYNVMGVAKASLDASVKYLANDLGKRNIRVNAISAGPIRTLSAKGVGDFNEIMKVIEERAPLRRPVTQEEVGDTGYYLMSDLSRGVTGEVIHVDSGFSTVAY	PGPT0008370_2834	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008370-fabI-K00208	NA	NA
AK012_03161	1863	kefB		Glutathione-regulated potassium-efflux system protein KefB	ATGGAACATGGTGCTTCAGTAACTTCTTTGGTTATTGTCATAATTGCAGCATTTATTACTCCCATCCTACTCCACCGGTTTAAACTGAATATGATCCCGGTGGTAGTAGCAGAAATCATCGTAGGTTTAATTATCGGTCAAAGTGGATTTGACCTGGTTGAACAGGGAAGCTGGCTTGAAATTCTTTCGACGCTCGGGTTCATTTTTCTTATGTTCCTGAGTGGTCTGGAAATAGATTTCTCCATTTTTGCAAGTAAGAAAAAACGGGCGAAGCCGGTCAATCAAGGCACCGGGGCGCCTAACCCTGTATGGGTTGCGGTTATTGTATTTGTCGGAATATTCGTCATATCCCTGGCTCTGTCTTATATGTTCGTTCTGGCCGGCTTTATTGACAACGCCTTTCTTATGACGTTGATCATTTCAACGATTTCCCTTGGAGTGGTCGTCCCGACTTTGAAAGACGCGCAGATGATGAAAACGACGATCGGTCAGACGATTCTTCTTATTGCCGTGATCGCCGACCTCGTTACCATGATTCTATTGGCCGTATTCGTTTCCATTTACGGAGAAAACGGCGGCAATACGTGGCTCCTGCTTATTTTGTTCGCTGCTGGTGTGCTCTTTTACTACATCGGCAAGAAGTTCCGTCATCAATCTTTCGTGGAAACGATGGCGAAAGGAACGATTCAGATCGATACACGTGCCGTCTTCACCTTGATCCTTCTGCTCGTTGCGTTATCGGAAACTGTCGGGGCGGAAAACATTCTGGGCGCCTTTTTAGCGGGTACCCTGGTGTCTCTGCTTTCTCCAAACCCGGAAATGGTCAAAAGGCTCGACAGCTTTGGATATGGCTTCTTAATCCCGATCTTCTTCGTCATGGTCGGTGTGGAAATTGATATCTGGAGTTTGTTTACGGATACACGTGTGCTGTTATTGATTCCGCTGCTGTTTGCAGCCTTATTGATATCCAAAATCGTTCCTGCTTTGATTCTTTCGAAGTGGTATGACCGTAAGACGGTGTTCGGATCCGGATTTATCCTGACGTCCACGTTATCGCTGGTCATCGCCGCGGCAGCGATCGGTAAACGGGAAGGGATGATTGACGATCAGATGGAAGGTGCGCTTATTCTGGTCGCTGTTCTTACCTGCGTTGTCGCGCCGATCGTCTTCAAGAAGGTGTACGGCCGCTTTGAGGATGAAGACCATAAAACGGTGGTCTCCTTCATCGGATCCAACCGGATGACCCTTCCGGTCGTGCGTGAACTGGACATCAACGCGTACGAAACGCATCTGTATCATACAAAAGTCGATAAAATCGATGAGCGGATCAGCCGGAACTGTTTCGATATTAAGGAACTGGACGGCTACCATGTAGAGAATATGAGAGAACTTGGTGTGTTTGATGTCGACCTTGTCGTGGCTTCTATAGGTGACGAAGAAAAAAACGCTGAGATCGCCCGCTTTGCAAAGGAGCAGGGGGTGGAGCGGATTATCGTCCGTGTCGAGTCTCCGGATCTTTCTGCAGAGATGAGAGAGCTCGGCATCAGCGTCTTCAGTGTCTTCCTGTCTTCCAAGGCACTCTTGAAAGCGATGATCGAAGCGCCGAATGTCCTCGATATCTTGACGAAGCAGGATAGTGCGCTTTATCAGATCAATATGAATAATTCCATGTATAACGGTCTCCATATCCGGGAGTTCCCGTTTACCGGAGATGTGATTATGGTCAGGATTTTCCGCGGTAAAGATTCCATCGTTCCTCATGGAGATACGGAATTGAAGCTTGGAGACCGCCTGATCGTGACAGGTTCCCACGAGTATGTGGATGAACTCAAAATGGAACTGGAATACTGCGAATGGTGCTGA	MEHGASVTSLVIVIIAAFITPILLHRFKLNMIPVVVAEIIVGLIIGQSGFDLVEQGSWLEILSTLGFIFLMFLSGLEIDFSIFASKKKRAKPVNQGTGAPNPVWVAVIVFVGIFVISLALSYMFVLAGFIDNAFLMTLIISTISLGVVVPTLKDAQMMKTTIGQTILLIAVIADLVTMILLAVFVSIYGENGGNTWLLLILFAAGVLFYYIGKKFRHQSFVETMAKGTIQIDTRAVFTLILLLVALSETVGAENILGAFLAGTLVSLLSPNPEMVKRLDSFGYGFLIPIFFVMVGVEIDIWSLFTDTRVLLLIPLLFAALLISKIVPALILSKWYDRKTVFGSGFILTSTLSLVIAAAAIGKREGMIDDQMEGALILVAVLTCVVAPIVFKKVYGRFEDEDHKTVVSFIGSNRMTLPVVRELDINAYETHLYHTKVDKIDERISRNCFDIKELDGYHVENMRELGVFDVDLVVASIGDEEKNAEIARFAKEQGVERIIVRVESPDLSAEMRELGISVFSVFLSSKALLKAMIEAPNVLDILTKQDSALYQINMNNSMYNGLHIREFPFTGDVIMVRIFRGKDSIVPHGDTELKLGDRLIVTGSHEYVDELKMELEYCEWC	PGPT0014395_1272	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014395-ybaL|TC_KEF-K03455	NA	NA
AK012_03162	1365	mgtE	COG2239	Magnesium transporter MgtE	ATGGAACACTTAGATGACCACGAGCGGAAAGAAGTCTGGGCGAATATTAAAGACGCCCTGTTCAATGAATATATCGATCAGTTCCGTGCTGAATTTCTGGAGATGCATCCCTATGATCAGGCCAGAATTTTTGAAGATCTGGATGCTGATGTAAGGATGCAGATCTATACCTATTTGTCACCGGAAGAAGTGGCAGATGTGATGGAGCATATCGATTATGAAGAAATTGAACCCTTCTTTTCAGAAATGGATCCAAGGTTTGCTGCCCAGGTATTTGCTGAGATGTCTGCCGATGATGCCGTTGATATATTCAACGAATTAGATAAAGATAAAGTAGCCAGCTTCTTGACGATCATGGACGATGAAGCGGCTGACGAAATCAAGGACCTGCTCCACTATGAAGAGAAAACAGCAGGATCCATCATGACGACAGAGTTTGTTGTCGTAAGGGCCGGCATGACGATTAAGGAAGCCATGGTGCATTTGAGAACAGAAGCCCCGGATGCCGAAACGATTTACTATACGTATGTCATAGATGAAGATAAGAGGCTTGTCGGTGTTATTTCGTTGAGGGATTTGATTATTTCTGAAGAAGACTGGCTGATCTCCGATGTCATGAATGAACGGGTGGTATCGGTATCAGTAGGGGAAGATCAGGAAGAGGTGGCCCGGATGGTCAGGGATTATGACTTCCTCGCGCTGCCTGTTGTCGATTTCCAGGATCATCTGCTCGGAATTATTACCGTGGATGATATTATGGACGTTATGGAAGAAGAAGCAAGCGATGATTATTCCAAGCTTGCTGCGATTTCTGACGTAGACAGTCCGGATGATAATGCTTTTGCTTCTGCGAAAAAGAGGCTCCCCTGGCTGGTCATCCTGTTATTCCTGGGAAGTTTAACAGCCAGTCTCATCGGAAGGTTTGAGGAAACCTTGGATAAAGTAGCCATTCTGGCCATCTTTATTCCGCTTATTGCCGGAATGGGAGGGAACACGGGTACACAGGCTCTTGCCGTTGCCGTCCGTGGAATCGCTACAGGAGAAATAGAGAAACAAGGAAAATGGAAAATGATGATGAGAGAAGCAGGAACAGGCTTGATTACCGGAGTTTCCTGTGGTGTATTGATCACCTTTATCGTTTATATATGGCAGGGAAACTTCTTCCTGGGATTATTAGTAGGTTTGTCCATTTTATTAACGCTGATTGTTGCAACGCTCGCAGGATCTCTCGTCCCCCTTATCATGCATCGTTTGAACATTGACCCCGCTGTTGCCTCAGGGCCGTTCATTACAACAGTGAATGACTTGATTTCCATTCTGATTTATTTCGGTATGGCAACAGCCTTTATGAATTTTTTGATTTGA	MEHLDDHERKEVWANIKDALFNEYIDQFRAEFLEMHPYDQARIFEDLDADVRMQIYTYLSPEEVADVMEHIDYEEIEPFFSEMDPRFAAQVFAEMSADDAVDIFNELDKDKVASFLTIMDDEAADEIKDLLHYEEKTAGSIMTTEFVVVRAGMTIKEAMVHLRTEAPDAETIYYTYVIDEDKRLVGVISLRDLIISEEDWLISDVMNERVVSVSVGEDQEEVARMVRDYDFLALPVVDFQDHLLGIITVDDIMDVMEEEASDDYSKLAAISDVDSPDDNAFASAKKRLPWLVILLFLGSLTASLIGRFEETLDKVAILAIFIPLIAGMGGNTGTQALAVAVRGIATGEIEKQGKWKMMMREAGTGLITGVSCGVLITFIVYIWQGNFFLGLLVGLSILLTLIVATLAGSLVPLIMHRLNIDPAVASGPFITTVNDLISILIYFGMATAFMNFLI	PGPT0013995_2210	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0013995-mgtE-K06213	NA	NA
AK012_03163	735	prpE	COG0639	Bis(5'-nucleosyl)-tetraphosphatase PrpE [asymmetrical]	ATGACCTATGATGTAATCGGAGACGTCCACGGCTGTCTCCCGGAGCTTGTACAGTTGTTCGAGGAACTCGGTTACGATTGGATCGACGGCCTTCCCATTCACCCGGATGGCCGCACCCCTGTATTTGTCGGGGATATTACGGACAGAGGACCGGATTCCCTCGGCTGCATCCGCCTTGTGTACAGACTTGTCTACGAACAACATGCGCTTTATGTCCCGGGAAATCACTGCAACAAACTGTACCGCTTTTTCCTCGGAAACCCGGTCCAGGAAAAGCATGGACTGGAAACGACCGCAGAGGAATACAGAAACCTGCCTGACAAGGAGCAGCGCTTGATCAAGAAACAGTTTCTCCAGTTATATGAGGAGGCTCCGCTGCACCTGATTTTAAAGGATGCCGGGGCAGTCGTTGCTCATGCCGGGATAAAAGAAGAAGACATCGGGAAACGAAGCAAACGGATTGAGACGTTCGTTTTGTATGGAGATATCACGGGTGAAAAGCTTCCCGACGGCCGCCCGGTAAGGAGAGACTGGGCGCAGGACTACAAGGGGGATCAGTGGGTCATTTACGGACACACTCCTGTGAAAACGCCCCGTTTCGTCAACAAAACCATCAACATTGATACCGGGTGTGTTTTTGGAGGACACCTGACCGCATTCAGACTTCCGGAAGAAGAGCTTGTCAGCGTTCCCTCCTCCATGCCTTATATAGAAGAAAAATTCCGCTATGATTAA	MTYDVIGDVHGCLPELVQLFEELGYDWIDGLPIHPDGRTPVFVGDITDRGPDSLGCIRLVYRLVYEQHALYVPGNHCNKLYRFFLGNPVQEKHGLETTAEEYRNLPDKEQRLIKKQFLQLYEEAPLHLILKDAGAVVAHAGIKEEDIGKRSKRIETFVLYGDITGEKLPDGRPVRRDWAQDYKGDQWVIYGHTPVKTPRFVNKTINIDTGCVFGGHLTAFRLPEEELVSVPSSMPYIEEKFRYD	PGPT0030420_690	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
AK012_03164	888	rluD_2	COG0564	Ribosomal large subunit pseudouridine synthase D	ATGAGTACTCCATCTAAAGTGGTGAAGCGGTGGGAAATCACCACCGCTTATTCCGGTTGTTCAAGCAGGGATTTCCTGCTTGAGGCAGGAGAGTTTTCCCGGCAGTTAATAAAAAAAGTCCGTGTCAGCGGGGACGTTTATGTGAATGGTGGACGGGTGGAACTGTGGCAGCCGCTGCAGGACGGAGATGTTCTTGAAGTGGTATTTCCTGAGGAGGAGCGGGGTTCCATTGAGCCGATGGAGGGGCCGCTTTCCATTGTCTATGAGGATGAGGATGTACTGGTGATTGATAAACCGGCCGGTCTTTTTTCAGTACCGCCGTTTGATAAAACCGAGCCCTCTGTCGCTGCTTTCCTTCTTTTTCGATACATTCAGAAGGATTATCCGTGCACGGTTCACATCGTTACGAGACTCGACAGGGATACGAGCGGATTAATGCTGGTCGCGAAGCATGCGTACAGCCACCGGCTGCTCACTAAGAGCCTGCAGAAAATCGACCGGCGTTATAAAGCGGTAGCGGAAGGAAGTCTGACAGCAGATCAAGGCACGGTGGATCAGCCGATAGCACGGGCCGAGGGCTCGATTATCCGCCGCACGACATCGCCGGAGGGGCGTCCTGCTCAAACCCGGTATGAAGTGGAGAAGCGGACCGGGCTGTATACATGGCTCCGTCTTCAACTCCTGACGGGACGGACGCATCAAATCCGGGTGCACTTGGAGTATCTTGGATATCCCCTTGCCGGCGATACGCTTTATGGCGGGAGCGCCTGCCCGGGAATTCCTGGACAGGCCCTGCACTGTTATCAATTGAATTTCCGTCATCCCTGGAGTAAGAAAAGGATGACGCTTATATCAGAAACACCTGGAGAGTGGGATCGATTCGCTTGA	MSTPSKVVKRWEITTAYSGCSSRDFLLEAGEFSRQLIKKVRVSGDVYVNGGRVELWQPLQDGDVLEVVFPEEERGSIEPMEGPLSIVYEDEDVLVIDKPAGLFSVPPFDKTEPSVAAFLLFRYIQKDYPCTVHIVTRLDRDTSGLMLVAKHAYSHRLLTKSLQKIDRRYKAVAEGSLTADQGTVDQPIARAEGSIIRRTTSPEGRPAQTRYEVEKRTGLYTWLRLQLLTGRTHQIRVHLEYLGYPLAGDTLYGGSACPGIPGQALHCYQLNFRHPWSKKRMTLISETPGEWDRFA				NA	NA	NA	NA	NA
AK012_03165	810	ppnKA	COG0061	NAD kinase 1	ATGATGAAGTTTTCGATCCTGTCCAAAGGAGACCAGAAATCGAACGAAATCCGTTCAAAAATTAAAAATTACTTAACTGAATTCCAGCTGGAATACGATGAGGATGAGCCTGAGCTGGCCATTTCCGTCGGCGGAGACGGGACCCTCCTGGAAGCTTTCCACACGTACGTACATCGTTTGGATAAAACAGCGTTCATCGGTATTCATACCGGACATCTTGGTTTTTATGCAGACTGGATGCCGGAAGAACTTGAAAAACTGATCATTGAAATTGCCAAGACCCCTTTTCAAGTGGTGGAATATCCGCTTCTTGAAGTGACGATCCGCCCGAAGGATGGCAGTGAAGAAGACCGTTACCTTGCTTTGAATGAGTGTACAATCAAAACGTCGGAAGGCTCTGTCGTCATGGATATCGAGATTAAGGGGGATCATTTCGAAACCTTCCGCGGAGATGGTTTATGTGTATCCACCCCTTCAGGAAGTACGGCTTATAACAAGGCGCTTGGTGGAGCGATTCTGCATCCATCCCTTGAAGCCTTCCAGATTGCGGAAATGGCCTCCATCAACAACCGTGTGTTCCGTACAATCGGGTCACCGCTGATTCTGCCGAGCCATCATACATGTATGTTCAAACCGCTTCATGACCGCAGCTTCCTGTTTACGATCGATCACATTTCAAGAACATACAAAGACGTGAAATCGATCCAGTGCCGGGTGGCAGAAGAAAAAGTCCGGTTTGCGCGCTTCCGTCCGTTCCCGTTCTGGAAACGTGTGCACGACTCCTTCGTAGCAGATGAGTACTCCATCTAA	MMKFSILSKGDQKSNEIRSKIKNYLTEFQLEYDEDEPELAISVGGDGTLLEAFHTYVHRLDKTAFIGIHTGHLGFYADWMPEELEKLIIEIAKTPFQVVEYPLLEVTIRPKDGSEEDRYLALNECTIKTSEGSVVMDIEIKGDHFETFRGDGLCVSTPSGSTAYNKALGGAILHPSLEAFQIAEMASINNRVFRTIGSPLILPSHHTCMFKPLHDRSFLFTIDHISRTYKDVKSIQCRVAEEKVRFARFRPFPFWKRVHDSFVADEYSI	PGPT0013490_5207	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013490-ppnK-K00858	NA	NA
AK012_03166	639	yjbM	COG2357	GTP pyrophosphokinase YjbM	ATGAACTGGGATATATTTATAGCCCCCTATGCTCAGGTAGTTGAAGAGCTGAAAATAAAGCTGAAAGGCATGCGCCGTCAGTTCGAATATGAGGAGGAGCAGTCTCCTATAGAATTCGTAACCGGACGAGTCAAGCCGAAAACAAGTATACTGGAAAAAGCAAGGCGGAAAGGGATCAATCCTGAAAACATAGAAGAAGAAATTCAGGACATCGCCGGTGTCCGCGTCGTCTGCCAGTTCGTCGATGATATATACGCGGTTGTAAATATGCTGCGAAACAGGCATGATTTCAAGATCGTTGAGGAAAAGGATTATGTGTCCAGAAAAAAAGACAGCGGGTACCGTTCCTTTCATGTGATTATCGAATACCCCGTTGAAACCATTCACGGGGAGAGGCGGCTGCTCGCTGAAATTCAGATCCGCACGCTGGCGATGAATTTCTGGGCAACCAATGAACATTCGTTAAACTACAAATATTCGGGTAAGATACCTGCAGAGATCAAATCCCGGCTGAAGCGTGCAGGCGAGGCAGCCTTTCAATTAGATGAAGAAATGTCCAAAATCAAAAATGAAGTACAGGAAGCCCAGCGCGCCTTTTTAAGAAAAGAAGAACAGAAGAAGAACCCGAAAAAAATGTAG	MNWDIFIAPYAQVVEELKIKLKGMRRQFEYEEEQSPIEFVTGRVKPKTSILEKARRKGINPENIEEEIQDIAGVRVVCQFVDDIYAVVNMLRNRHDFKIVEEKDYVSRKKDSGYRSFHVIIEYPVETIHGERRLLAEIQIRTLAMNFWATNEHSLNYKYSGKIPAEIKSRLKRAGEAAFQLDEEMSKIKNEVQEAQRAFLRKEEQKKNPKKM	PGPT0014825_1356	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0014825-ywaC|yjbM-K07816	NA	NA
AK012_03167	582	yjbK	COG4116	Putative triphosphatase YjbK	ATGACCCAGGAAATCGAAATCGAATTCAAAAACCTGCTGACGGAAGACGAGTATAACCGGGTTTATCATTTTTTACCATTCAAATCAGTTGAACTTATCGAACAAACCAATTATTATTTTGAAACAGAAGATCTAAAATTAAAACAGCACGGAGCGGCATTAAGAATCCGCAAAAAATCAGATCAGTGGACACTGACCCTGAAGCAGCCCCACCCGGAAGGTCTGCTGGAAACCCATGATATCCTCACTGAGCAGGAAGCCAATTTATGGATCCAGAACAAGCTTGTGGAAAAAAGCCGGGTGTTCAAGCAGCTCCGAGATCTCGGTATTGATCCGGAGCATCTGCACTATTTAGGTTCGCTCACAACCAGACGAAAAGAATTGGAATATAACGGGGCGCTTGTCGTCCTTGATCACAGCCTCTATTATGATCAGGAGGATTATGAGCTTGAGGTGGAAGCCGGAAGCCGGGAGTCAGGAAAGTCCGTAATCCAGGAAATTCTCCAGTCCTGCAATATTCCTGAGCGGGAAACAGATAATAAGATCAAACGCTTCTACAAAGCCAAGCTCAAATCAGAATAG	MTQEIEIEFKNLLTEDEYNRVYHFLPFKSVELIEQTNYYFETEDLKLKQHGAALRIRKKSDQWTLTLKQPHPEGLLETHDILTEQEANLWIQNKLVEKSRVFKQLRDLGIDPEHLHYLGSLTTRRKELEYNGALVVLDHSLYYDQEDYELEVEAGSRESGKSVIQEILQSCNIPERETDNKIKRFYKAKLKSE				NA	NA	NA	NA	NA
AK012_03168	393	yjbI	COG2346	Group 2 truncated hemoglobin YjbI	ATGCAGCGGAATCAATCGTTTTACGATGCCGTCGGAAAAGAAAAGATCGATGAACTGGTGGAAGCCTTTTACAGGAGAGTCCAGGAGCATCCCGATTTAATTCCGATCTTTCCGGATGATTTCACAGAGACCATCCGGAAGCAGAAGCAGTTTTTAACACAGTTTTTCGGAGGCCCTCCCCTCTATGTGGAGGAGCACGGCCATCCGATGCTGCGGGCCAGACACCTTCCTTTTGAAATCACTCCGACCCGGAGAGACGCATGGTTGTCCTGCATGTCCGGGGCCATGACTGAAGTGGAACTGCAGGAGCCTTACCGCTCTGCCATGTTCGACCGGCTCGTAAAAACGGCCAACCATATGATGAATACACCTGAGGATGAGAAAGGAGAATAG	MQRNQSFYDAVGKEKIDELVEAFYRRVQEHPDLIPIFPDDFTETIRKQKQFLTQFFGGPPLYVEEHGHPMLRARHLPFEITPTRRDAWLSCMSGAMTEVELQEPYRSAMFDRLVKTANHMMNTPEDEKGE				NA	NA	NA	NA	NA
AK012_03169	888			hypothetical protein	GTGGGTTGGAAAAGTTTAGATCGTGATCAACAGACAAACGGAACTTCAAGCGGCTTTTTTAATTTAACGAAACGCCCTATAGAGATATACGTCTTCATCGACCCGCTTTGTCCAGAATGCTGGTCACTCGAACCCTTTCTTAAAAAGCTCACGATCGAATATGGACGCTTCTTTACCATCCGTCCGGTCATTAGCGGAAGTCTTACTTCCTTACAGGAAAGCTACGGCAGAAAAGCGGAAAACTTGAAAAAAGAATGGGATCATACCGGCTCCAGAACAGGCATGTGCTGTGATGGGGATGTGTGGCTGGAAAACCCTGTGGCCTCCCCTCTGGCAACATCTCTGGCTGTCAAAGCCGCTGAGCTTCAGGGAAAAAAAGCCGGCATGCGCTTCCTTCGTAAAGTACAGGAATACGTGTTCCTTGATAAGAAAGACATTTCCAACGAAGGCGTTCTTGTTGAATGCGCAGAGAACAGCCGCCTTGATGTAGCAGAGTTTAAGCGGGATCTCCATTCCGATGCGGCCCGCCGCGCCCTGCAGTGTGATATGAAACTTGCAGGTGAGATGGAAGTGGATTCCACACCGACCATCGTCATTTTCAATGAATCCGAAGAAGACGCCGGTTTGAAAATCACCGGGCTTTATTCCTACGACGTTTATGTGAAAGTGTTGAAAGAAATGCTTCAGAAGGATCCTAAACCGGGTATCAAACCTGATTTAGAGGATTTCTTGCACCACTATCGCTTTGTAGCCAATAAGGAAATCGCCGTCGTTTATGACTGGACGGAACAAGAAGTCAAGCACGAAATGAAGAAGCTCGTCCTGAAACAGAAAGTACGAGAAGTCCCTGTCAAGCACGGGGCTTTCTGGAAATATATCGGTTCGTAA	MGWKSLDRDQQTNGTSSGFFNLTKRPIEIYVFIDPLCPECWSLEPFLKKLTIEYGRFFTIRPVISGSLTSLQESYGRKAENLKKEWDHTGSRTGMCCDGDVWLENPVASPLATSLAVKAAELQGKKAGMRFLRKVQEYVFLDKKDISNEGVLVECAENSRLDVAEFKRDLHSDAARRALQCDMKLAGEMEVDSTPTIVIFNESEEDAGLKITGLYSYDVYVKVLKEMLQKDPKPGIKPDLEDFLHHYRFVANKEIAVVYDWTEQEVKHEMKKLVLKQKVREVPVKHGAFWKYIGS				NA	NA	NA	NA	NA
AK012_03170	177			hypothetical protein	ATGAAAATATGGTTGACGCTGGCTGCGCTGGCTATGCTGTTCATGCTCGGGCTTTTTCACTTGTTTGCCCTTATGCATCTCTACCCTCTCTACATTACTTCCCCTCTCTTATTTGCAGCCATCTTCCTTACGGTATCGGCGGCCTCCTATAAAAAGACGTTCAAAGGCTTTCATTAA	MKIWLTLAALAMLFMLGLFHLFALMHLYPLYITSPLLFAAIFLTVSAASYKKTFKGFH				NA	NA	NA	NA	NA
AK012_03171	1809	pepF1_2		Oligoendopeptidase F, plasmid	ATGTCATCTACAAAGCAACTGCCAAAACGAGAAGAAGTCCCTGTAGAAAAAACATGGAATCTTGAAGCCATGTACGCTGCAGATGAAGACTGGTATAAAGATCTGGAAGAAACGAAAGCCATGCTCCCTGAATTGGAGAAATATCAGGGCAGAATCGGTGAATCTGCTGAACAATTATATGAGCTTTTAGCTTTTCAGGATAAAATATCCAATAAAATCGGGCTGTTATTCACGTATGCCCATATGCGCAACGATCAAGATACGACCAATGCTTATTATCAGGAAATGAATGCGAAAGCGGAAAACCTCTACACGAAAATCGCATCCGCAATGAGCTTCATTGTACCCGAGATTCTTGCTCTGCCGGAAGGGAAAGTCCAATCCTTCCTTGATGAACATGAACCTCTGAAGCTTTATGAGCATACGCTGGATGAGATTACACGTCAGCGCGCTCATGTCTTAAGTGAGAAGGAAGAGAAGCTTCTGGCGGGTTTTTCGGAAATTGGAGCCAGTCCATCGCAGACCTTCGGGGCATTGAATAATGCCGATCTTACTTTCCCATCGATAAAGAATGAAGAAGGGGAAGAGGTGGATCTCACACACGGCCGATATATCAACTTCCTGAAATCGGATGACAGGGACGTACGGAAATCGGCTTTCGATGCGATGTACGATACGTTTGGTTCATTTAAAAATACATTTGCCTCGACACTTAGTGGACACGTGAAGAAGAACAATTTCAATGCCCGGGTGAGAAAATATGACCGCGCAAGACAGGCGAAGCTGGATAATAACAATATTCCGGAATCTGTGTATGATAACCTGCTTGAGGCGGTCAATGAACGTCTGCCTCTGCTTCACCGGTATGTGGAATTAAGGAAAGAGGTTCTGGACCTTGATGAGGTTCATATGTACGATCTTTATACACCACTTGTGAAGGAAGCGGAAATGGATATTCCTTATGAGGAAGCCAAGGACCTCGTCCTGAAGGGTCTGGAGCCTCTTGGTGAGGAATACGTCAACATCGTTAAGGAAGGGTTTGAAAACCGTTGGATCGATGTTGTAGAAAACAAAGGAAAGCGCAGCGGAGCCTACTCCTCCGGTCATTACGGGACGAACCCATATATTCTGATGAACTGGCAGGATAATGTAAACAATTTGTTTACACTTGCCCATGAGCTCGGGCATTCGCTGCACAGCTATTATACACACGAAAACCAGCCGTATCGGTACGGAAATTACTCTATCTTCGTCGCAGAGGTCGCGTCTACATGCAACGAGGCACTTTTGAATGAGTACATGACGAAGCATACGAACAGTGATAAAGAAAAATTGTATCTCCTGAACAATTTCCTTGAAGGATTCCGCGGTACGGTCTTCCGGCAGACGATGTTTGCTGAATTCGAGCATACGATTCACATGCAGGCGCAGAATGGTGAGGCGCTGACAGCTGAGAAACTGACCGACATCTATTATGATCTAAATAAGAAATACTTCGGGGAAAACATCGTGATTGATGAGAAGATCGGTCTGGAGTGGGCGAGAATCCCTCACTTCTATATGGGTTATTATGTGTATCAATATGCAACAGGATATGCAGCCGCTCAAGCTCTGGCCGGCCAGATCCTTGAGGGAGGCAGCCCGGCTGTTGAACGGTATAAGAACTTCCTGAAGGCCGGCAGCAGTGACTATCCGATCGAAGTGCTGAAACAAGCAGGCGTCGATATGACGTCCAAAGATCCGATTGCGTCTGCGCTTGACGTCTTTGAGGAAAAATTGAATGAAATGGAGCAGCTGCTCAAGAAGTAA	MSSTKQLPKREEVPVEKTWNLEAMYAADEDWYKDLEETKAMLPELEKYQGRIGESAEQLYELLAFQDKISNKIGLLFTYAHMRNDQDTTNAYYQEMNAKAENLYTKIASAMSFIVPEILALPEGKVQSFLDEHEPLKLYEHTLDEITRQRAHVLSEKEEKLLAGFSEIGASPSQTFGALNNADLTFPSIKNEEGEEVDLTHGRYINFLKSDDRDVRKSAFDAMYDTFGSFKNTFASTLSGHVKKNNFNARVRKYDRARQAKLDNNNIPESVYDNLLEAVNERLPLLHRYVELRKEVLDLDEVHMYDLYTPLVKEAEMDIPYEEAKDLVLKGLEPLGEEYVNIVKEGFENRWIDVVENKGKRSGAYSSGHYGTNPYILMNWQDNVNNLFTLAHELGHSLHSYYTHENQPYRYGNYSIFVAEVASTCNEALLNEYMTKHTNSDKEKLYLLNNFLEGFRGTVFRQTMFAEFEHTIHMQAQNGEALTAEKLTDIYYDLNKKYFGENIVIDEKIGLEWARIPHFYMGYYVYQYATGYAAAQALAGQILEGGSPAVERYKNFLKAGSSDYPIEVLKQAGVDMTSKDPIASALDVFEEKLNEMEQLLKK	PGPT0020965_1223	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020965-pepF|pepB-K08602	NA	NA
AK012_03172	882	coiA	COG4469	Competence protein CoiA	GTGGAACTGGAAGCCTACCTTCCATCCATTCAACAGCAGCCTGATGTCTACATATCCGGTTCCAGGCGTCAAATCGCAGTGGAGTATCAATGCTCCAAGATCTCCGTCACGGAGATAAGGAAACGGACGAAAGGATATGTAGATCACGGGATTTTCCCTCTATGGATTCTTGGTCCGACGCACTGGAAAAAGAAAAGGGCAGACATTCTCCAGTTTAATTCCTTTCTGCAGTCCTTCCTGTATCAATGGTCCTCCCTTTACCGGCTCTTCTTTCTGCATTCCCGCACAAAAACAATGACCACAGCATCGGGCCTTCGATGGCTGTCCCCGTCTTCTGTCACCGGTTTGTTTCACTCCTATGGATTAAACCAACGTACGTTTCCTCAAATTTTTTCCCCCGGCTGGAGCCCTCCGCTTCCATCAATCTCCCATCACTGGGAAAAAGCCTGGTATGACAACCGAACGAAGTACCGCCGGGAGACAGGAAGTAAGGAGAAACAGTTCCGGCAGTATTTATACTTGAAGGGGTATCATTTTTCGCTCATCCCAAGCGTCTGTTACCTTCCCGTAAAAAGTCAGGTCCAGCTCAGTGTAAAGCCGTACATATGGCAGACACGTCTCTTCATGGATCATTTCATGCCTGTTTCTGTCGGGTCGCCGGTGGAATTTCCTGAGATGGAGGTGCCGGTGACAGTCAATCAATACAAACCGGATCCTGTCACAGAGTATGCAGAGCTGCTGTGCGGCTTAAATATCCTGAAAAAAACAGGGAATAATAAGTGGGTGAAAACCAGGGAGATTGCTTTTCCATCTACCATGGAGGAAGCCTTTCTGGATGACCGGACCACGCTGGCCATGTTGAAAAATTTAAAGATCATGTAG	MELEAYLPSIQQQPDVYISGSRRQIAVEYQCSKISVTEIRKRTKGYVDHGIFPLWILGPTHWKKKRADILQFNSFLQSFLYQWSSLYRLFFLHSRTKTMTTASGLRWLSPSSVTGLFHSYGLNQRTFPQIFSPGWSPPLPSISHHWEKAWYDNRTKYRRETGSKEKQFRQYLYLKGYHFSLIPSVCYLPVKSQVQLSVKPYIWQTRLFMDHFMPVSVGSPVEFPEMEVPVTVNQYKPDPVTEYAELLCGLNILKKTGNNKWVKTREIAFPSTMEEAFLDDRTTLAMLKNLKIM				NA	NA	NA	NA	NA
AK012_03173	693	mecA	COG4862	Adapter protein MecA 1	ATGGAAATCGAACGCATTAATGAGAATACCGTAAAATTTTACGTAACATATCAGGATGTAGAACAAAGAGGTTTTGATCGGGAAGAGATCTGGTATAACCGGGAAAGAAGCGAACAGCTTTTCTGGGAAATGATGGATGAAGTGAATGATAAGGAGAATTTCCAGGCGGACGGACCGCTTTGGATCCAAGTCCAGGCTATGGACAAAGGTCTGGAAGTGATCGTTACAAAAGCACAGGTATCCCAGGATGGTCAAAAGCTTGAACTGCCGAATGATGAAGGTAAGGGTGTCGATGTTCCGCTTGATGAAAAGCTTGAATCCCTTCTGGATGATAAATATCAGTCATCCGGAGATTATAAACAGGCAGAGGAAGATGGAGAAGAAGAGACGGAAGGTTCGCTGACCTTCACGTTGAAGTTCAATGAGTTTGAAGACATTATCCAGCTCAGCCATTATCTATCCATTCCTGCATCCATGGAACAGCGCTTATTCCACTTTGAAGATCGTTACTATCTGTATATTCAGTTCGATGATGAACAGATGAATGATGATGAACAGGAAAATACGCTGAGTCAGCTGATGGAATACTCACAGGAGTCATCCTTGACCGTCCATCGTCTTGAAGAATATGGAAAGGTCATCTTTGAGGAACAGGCACTCCAGCAAATTCGACACTATTTCCCGCAGGATTGA	MEIERINENTVKFYVTYQDVEQRGFDREEIWYNRERSEQLFWEMMDEVNDKENFQADGPLWIQVQAMDKGLEVIVTKAQVSQDGQKLELPNDEGKGVDVPLDEKLESLLDDKYQSSGDYKQAEEDGEEETEGSLTFTLKFNEFEDIIQLSHYLSIPASMEQRLFHFEDRYYLYIQFDDEQMNDDEQENTLSQLMEYSQESSLTVHRLEEYGKVIFEEQALQQIRHYFPQD				NA	NA	NA	NA	NA
AK012_03174	666			hypothetical protein	ATGAACTGGGACCTTCTTGAACCACTCTTCATCATTATCAGCATCGATATTATTCTCGGCGGTGATAATGCGGTTGTCATCGCTCTGGCCAGCCGGAACCTGCCTCCGGAACAAAGGAATAAAGCAATTTTATTCGGTACAGGACTTGCGATTGCCGCAAGGGTCCTGTTGACGGTGGTTGCTCTTTATCTTCTCCAAATTCCCTTTCTTCAATTAATCGGAGGGCTGCTTCTTTTTTACATTGCCTTCAAACTGCTGACGGATACCGAGGAAACCGACCACATCAAGGCGGGTGACAGTCTTGCGGCGGCTGTAAAAACCATTGTGTTCGCTGATATTGTCATGGGCTTTGATAATGTACTGGCCATTGCTGGCGCTTCCCACAACAATATCCTCCTGGTCATCATCGGCCTGCTCGTTTCCGTTCCTATCATTGTCTGGGGAAGCCGGATCATCCTTCATTTGATGGACAAGTTCCCCCTGCTCATTTATTTCGGGGCCGGAATATTAGCTTATACAGCTGCGGAAATGGTAAAAGAGGATCGGTACATGATGCAGTATATGGAAGATCTTCCATATATCCATCAATGGTTCGCTGTAATTATGGTCATTATCATTATTACTTTAGGGTATTGGATAAATAAACGAAAAGGAACGGCGATTTGA	MNWDLLEPLFIIISIDIILGGDNAVVIALASRNLPPEQRNKAILFGTGLAIAARVLLTVVALYLLQIPFLQLIGGLLLFYIAFKLLTDTEETDHIKAGDSLAAAVKTIVFADIVMGFDNVLAIAGASHNNILLVIIGLLVSVPIIVWGSRIILHLMDKFPLLIYFGAGILAYTAAEMVKEDRYMMQYMEDLPYIHQWFAVIMVIIIITLGYWINKRKGTAI				NA	NA	NA	NA	NA
AK012_03175	396	spxA		Regulatory protein Spx	ATGGTTACACTTTATACCTCACCAAGTTGTACATCATGTCGAAAGGCCAAGGCTTGGTTGGAAGAGCATGACATTCCTTATACGGAACGAAATATCTTTTCTGAGCCGCTTACACTGGATGAAATCAAGGAAATCCTTCGCATGACTGAGGACGGAACGGAAGAAATTATTTCAACACGCTCAAAGGTATTCCAGAAGTTGAAAGTTGATTTCGATCAGCTTCCAATGCAGGATCTTTTTGATCTGATTCAGGAAAACCCGGGATTGCTGCGCCGCCCGATCATCATTGATGATAAGCGTCTGCAGGTCGGTTATAATGAAGACGAAATTCGTCGTTTCCTTCCACGCAGTGTGCGTACATTCCAGTTAAAAGAAGCTCAACGTCTCGTTAATTAA	MVTLYTSPSCTSCRKAKAWLEEHDIPYTERNIFSEPLTLDEIKEILRMTEDGTEEIISTRSKVFQKLKVDFDQLPMQDLFDLIQENPGLLRRPIIIDDKRLQVGYNEDEIRRFLPRSVRTFQLKEAQRLVN	PGPT0012940_629	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012940-spx|spxA-K16509	NA	NA
AK012_03176	594	yjbC		Putative acetyltransferase YjbC	ATGAATTGGTATGAAAAGTTGAACGAATATTTCCCGGTTGAGGAAATGAAGTCAAAAGAACACATGGAAGCTTTATTAAAAGAAAAAAGCGATGTCTACTATAAAGATGAAGGAGAGTACCATGTCCTGATGTATGCAGAATTCGACAGCTTTCTGTTTATCGATTATGTATACGTTTCCACAGCCGCCCGCGGGCAGGGACTCGGTCATAAGCTCATTGAAAAGATGAAGGCGAAAGGGAAACCCATCATCCTTGAGGTAGAACCTGTGGATTACGAAGACTCTGATACGGAGGCGCGTCTTCGTTTTTATCAAAGGGAAGGTTTTACACATGCCCAATCCATTGGATACACCCGGCGCTCTGTTGTAACCAATGAAGTGAACAGTATGGAAATTCTTTACTGGTCACCGGATGATGCATCTGAAGAGCAGATTTATGAGCAGATGAAGAAAATGTACACGGAAATCCATACGTATAAGGACGAACAGTTTTATGGGAAATCCTATCAGCCTGTGGAGGAAGTGCTGACCCATGATGAGGAAAGGGACTCAGAAGATATTCTGGACGAACTCGGTAAAACGAGCCGGACGTAA	MNWYEKLNEYFPVEEMKSKEHMEALLKEKSDVYYKDEGEYHVLMYAEFDSFLFIDYVYVSTAARGQGLGHKLIEKMKAKGKPIILEVEPVDYEDSDTEARLRFYQREGFTHAQSIGYTRRSVVTNEVNSMEILYWSPDDASEEQIYEQMKKMYTEIHTYKDEQFYGKSYQPVEEVLTHDEERDSEDILDELGKTSRT	PGPT0014311_4	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014311-yjbC-NA	NA	NA
AK012_03177	1212			hypothetical protein	ATGGGGAAAAGAAATCTCTGGATCATGATTTTCACAGGTATCCTTCTTGTGGGCATGATAAGTCCAGTACATAGTGCAGAAGCAGCAGATGGAAAAGACGCCGGTACGCTTACGAAAAAACAGATTGGTTTAAAGGAACTGGCTGTTCCAAGCCCTGCAGCAAGATTTACATACGATTCCGGTTTGAATTTTGACTACCCGGATGCAGTGCGGGGGATCTACGTTACCGGTCCTTCAGCCGGCGGAGCTAAAATGCCCGAACTGACTAAATTGGTGGAGGATACGGAACTCAATGCGATGGTCATCGATATTAAAGAGGACAACGGAAACATCACCTTCCAGCCCGAAGAAGGTTCGCCTTATGCCGATGTTGCTGAATCGTTTATTGATGACCCCGAGAAAATGCTGAAAGAGCTCGAGGAAAAGGGCATTTATCCGATTGCCCGGGTTGTAGTATTTAAAGACAGTATGCTGGCGGAGAAACGTCCGGATCTGTCCTTCACACAAAATGGACAGGTATGGAAGAACGGTAAGGGAGAAGCCTTCGTTAACCCGTTTATGGAAGAAGTGTGGGAATACAACGTAGAGCTTGCTAAAAAAGCAGCGGAGATGGGTTTTGAAGAAATTCAATATGATTATGTCCGCTTCCCCGAAGGATTCGGAAGCCGCGATGAACAGCTCGATTACGGTCAGGGCAAATACGCCGATATGGATTTGGATAATGTTCAGAAACGTGTGCAGGCTGTGACCGACTTTGTAGAATTTGCCCGAAGTGAACTGGAGTATTATGGTGTCGATGTCTCCGTTGATATTTTCGGCTATTCGGCTACGATCGAAGAAGCTCCAAACATTGGACAGAACTTCTCGAAAATATCATCCAACGTAGACGTTATTTCGTCGATGATTTATCCAAGTCACTGGGGGCCGTACTTCGGAATTTCCAAACCGGATGCCGAGCCTTATAAGTTGATTAATGAATATGCTAAAGTGGAGAACGAAGTATTAGGGAAGCTTGACCCTGCTCCGACCTCCCGCCCATGGCTTCAGGATTTCGAAGCACCGTGGCTGTATTCAGGTCCTACGAAACAGTATGGAAAAGCTGAAGTAGAGGCTCAGATCAGAGCTTTGAATGAAAACGGTATTGACGAATTCCTTCTATGGAATGCAGGAAACAACTACACGAAAGGTGTCGACTACACACCGATGAACTAA	MGKRNLWIMIFTGILLVGMISPVHSAEAADGKDAGTLTKKQIGLKELAVPSPAARFTYDSGLNFDYPDAVRGIYVTGPSAGGAKMPELTKLVEDTELNAMVIDIKEDNGNITFQPEEGSPYADVAESFIDDPEKMLKELEEKGIYPIARVVVFKDSMLAEKRPDLSFTQNGQVWKNGKGEAFVNPFMEEVWEYNVELAKKAAEMGFEEIQYDYVRFPEGFGSRDEQLDYGQGKYADMDLDNVQKRVQAVTDFVEFARSELEYYGVDVSVDIFGYSATIEEAPNIGQNFSKISSNVDVISSMIYPSHWGPYFGISKPDAEPYKLINEYAKVENEVLGKLDPAPTSRPWLQDFEAPWLYSGPTKQYGKAEVEAQIRALNENGIDEFLLWNAGNNYTKGVDYTPMN				NA	NA	NA	NA	NA
AK012_03178	939	oppF_2	COG4608	Oligopeptide transport ATP-binding protein OppF	ATGAGTCAGGAAAAATTAGTAGAAATTAAAAATTTAAAGCAGCACTTTAAAACCGGACGCCACAGCGTTGTAAAGGCTGTGGACGGCTTAAATTTTGATATTTACAAGGGTGAAACCTTCGGCCTTGTAGGAGAGTCCGGCTGTGGAAAATCCACAACCGGGCGTACCATCATCCGTTTGTACGATGCTACAGATGGGGAGGTCCTTTACAACGGCGAAAATGTACACGGCAAAAAATCCCGCGACCAGTTGAAGAAGTTCAACAGGGAAATGCAGATGATTTTCCAGGATCCTTATGCCTCCTTGAACCCACGTATGAAGGTCGAGGATATTATTGCAGAGGGAATGGATATTCATGGCCTGTCAAAGGATGCGAAAGCAAGAAAAGCAAGAGTGCACGAACTGCTTGAAACGGTCGGTTTAAACAAGGAACACGCCAACCGCTACCCTCATGAATTTAGTGGTGGTCAGCGACAGCGGATCGGAATTGCCCGGGCGCTCGCTGTCGACCCTTCCTTTATCATTGCGGACGAGCCGATCTCTGCTCTGGATGTTTCTATTCAGGCCCAGGTCGTCAACCTGCTGAAGAAGCTGCAGAAAGAAAACGGGTTGACGTATCTATTTATCGCCCACGATCTGTCCATGGTGAAATACATCAGTGACCGGATCGGGGTCATGTACTTTGGTAAAATGGTGGAACTTGCGGATGCTGAAGAGCTGTATAAGCACCCGATCCATCCATATACACAGTCCCTTCTTTCTGCGATCCCGCTTCCTGATCCGGACTATGAGCGTTCCCGTGAACGTTTTACGTATGATCCGAGTCAGCACGATACAAGTGAGGAACCTGAATTCCGTGAAGTACGACCAGGACACTTTGTCCTTTGTACAACGAAGGAATTTGAACAGTATCAAAGAGAACACGGTACAGGTAGATAA	MSQEKLVEIKNLKQHFKTGRHSVVKAVDGLNFDIYKGETFGLVGESGCGKSTTGRTIIRLYDATDGEVLYNGENVHGKKSRDQLKKFNREMQMIFQDPYASLNPRMKVEDIIAEGMDIHGLSKDAKARKARVHELLETVGLNKEHANRYPHEFSGGQRQRIGIARALAVDPSFIIADEPISALDVSIQAQVVNLLKKLQKENGLTYLFIAHDLSMVKYISDRIGVMYFGKMVELADAEELYKHPIHPYTQSLLSAIPLPDPDYERSRERFTYDPSQHDTSEEPEFREVRPGHFVLCTTKEFEQYQREHGTGR	PGPT0021035_2573	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
AK012_03179	1062	oppD_2	COG0444	Oligopeptide transport ATP-binding protein OppD	ATGGAAAATAAGTTACTGGAAGTTAAAGATTTACATGTATCCTTTGACACCTACGGCGGTGAAGTAAAAGCTGTACGTGGGGTTAATTTCGATTTGAATAAAGGGGAAACTTTAGCGATTGTGGGAGAATCGGGTTCCGGAAAATCCGTAACGACCAAAGCGCTGATGCAGCTGATTCCGATGCCTCCAGGGCGCATTAAGCAGGGGGAAATCCTTTTTGAGGGACGAGACCTTGCTAAAATGTCGGATAAGCAGATGCAGAAAATCCGCGGGAAGGAAATCTCCATGATCTTCCAGGATCCGATGACTTCCCTAAACCCTACCATGAAGGTTGGGAACCAGATCATGGAAGGATTGATCAAGCACCAGAAAATGAGTAAGCCGCAGGCGCGTAAACGTGTCGTGGAGCTTCTTGAACTCGTTGGAATTACAGATGCGGAGAACCGTATGAAGCAATACCCTCACCAGTTCTCAGGTGGAATGAGACAGCGTGTGGTTGTAGCGATCGCTCTTGCGTGCAATCCTAAACTTTTGATTGCCGATGAGCCGACCACTGCTCTTGATGTAACGATCCAGGCGCAGATTCTTGAATTGATGAAGGACATTCAGAAGAAGACGGATTCAGCTACGATTTTCATTACCCATGATCTTGGTGTTGTGGCCAACGTCGCCGACCGCGTGGCGGTGATGTATGCAGGTAAAATTGTAGAAGTCGGCACGGTGGATGATATCTTTTACAATCCGAAACACCCATATACATGGGGGCTTCTAGGTTCCATGCCGTCCCTCGACAGCGAAGATGAAGAGCTTTATGCCATTCCTGGTTCTCCACCGGATCTGCTTAATCCTCCGAAGGGGGATGCTTTCGCAGCCCGGAATGAGTATGCGATGAAAATTGATTTGGAACAGGAGCCGCCAATGTTCAAGGTAAGCGATACTCATTACGCTGCCACATGGCTGCTTCATGAAAATGCTCCGGATATCGATCCTCCAGCTGCAGTAAAGAAACGCATGGAAGGTATGGCGAATACATCCGGCGGTTCGGAAGGTGAACAACGATGA	MENKLLEVKDLHVSFDTYGGEVKAVRGVNFDLNKGETLAIVGESGSGKSVTTKALMQLIPMPPGRIKQGEILFEGRDLAKMSDKQMQKIRGKEISMIFQDPMTSLNPTMKVGNQIMEGLIKHQKMSKPQARKRVVELLELVGITDAENRMKQYPHQFSGGMRQRVVVAIALACNPKLLIADEPTTALDVTIQAQILELMKDIQKKTDSATIFITHDLGVVANVADRVAVMYAGKIVEVGTVDDIFYNPKHPYTWGLLGSMPSLDSEDEELYAIPGSPPDLLNPPKGDAFAARNEYAMKIDLEQEPPMFKVSDTHYAATWLLHENAPDIDPPAAVKKRMEGMANTSGGSEGEQR	PGPT0021030_810	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
AK012_03180	1131			hypothetical protein	ATGGAAAACCATAAACCAAATAAAGATTTATTTGTCCCTGTGGATACCACAGATACTGGAAGTGAAAAGATTACCCGGCCGAGCCTGTCCTTCTGGCAGGACTCCTTTATCCGTCTCCGTAAAAATGTCGGAGCGATGATTGGACTGGCCGTACTGGTTATTTTAACCCTGCTTGCGATTTTCGGTCCGTATTTAAATGATTACGGCGTATATGAGCAGGATCTGTCACGCTCCAAAATGCCTCCGAAGGTAGAAGGCCTTGGGTGGCTGGGAATGGATGGGACGTTGTCCGACGTCCAATCAGCAGACACGCTTGAGCAGGCAGAATCCAAAGCGTTGATGCGCTTTAACAACCAGGAAGATTATATCGAAACTGAAGTTGTAAGTGATGGTTCCAATGGAGAGCCGGCACAGGTAAGAGCGACGTACGATGTGTATGCAGCTAAGGATATTCAGGAAAACTACTGGTTTGGTACCGACGGTCTCGGCCGTGACCAGTGGACGCGTACATGGATGGGTACACGTGTATCCTTGTACATTGCATTCCTTGCTGCCGCGATTGATATGTTGATCGGGGTTGCCTACGGTGGAATTTCTGCTTATTACGGCGGCCGTGTCGACAACGTGATGCAGCGGATTATTGAAATCCTTGTTGGTATTCCGAACCTTGTTTTAGTCATACTCATGATCTTGATTTTAGAGCCGGGTATCCTGTCGATTACGATCGCCCTTGCGATAGCCGGGTGGATATCGATGGCCCGGATTGTTCGTGGACAAATTTTGAAATTGAAAAACCAGGAATTCGTTCTTGCTTCACGCACACTCGGTGCTAAAGACAGCCGGATTCTACAAAGGCACTTGATTCCGAACGTTCTCGGATTGATTATCATCAATACGATGTTCTCCATCCCGTCAGCGATCTTCTTTGAAGCGTTCCTAAGCTTCATTGGTCTGGGGCTGCCGACGCCGATGGCTTCACTGGGTACGTTGATCAATGCCGGTTTCCAGTCGCTGCAGATTTATCCGCACATCTTGTTGTTCCCGGCAGTTGTCATTTCCTTAATTATGATTGCCTTTAACGTCTTAGCAGATGGTCTGCGTGATGCGTTTGATCCGAAGATGCGTGAATAG	MENHKPNKDLFVPVDTTDTGSEKITRPSLSFWQDSFIRLRKNVGAMIGLAVLVILTLLAIFGPYLNDYGVYEQDLSRSKMPPKVEGLGWLGMDGTLSDVQSADTLEQAESKALMRFNNQEDYIETEVVSDGSNGEPAQVRATYDVYAAKDIQENYWFGTDGLGRDQWTRTWMGTRVSLYIAFLAAAIDMLIGVAYGGISAYYGGRVDNVMQRIIEILVGIPNLVLVILMILILEPGILSITIALAIAGWISMARIVRGQILKLKNQEFVLASRTLGAKDSRILQRHLIPNVLGLIIINTMFSIPSAIFFEAFLSFIGLGLPTPMASLGTLINAGFQSLQIYPHILLFPAVVISLIMIAFNVLADGLRDAFDPKMRE	PGPT0021025_188	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
AK012_03181	927	oppB	COG0601	Oligopeptide transport system permease protein OppB	ATGACTCGTTATATTATCCAACGAATCATTTACTTGATTATAACGATGTTCTTAATTGCTACCTTAACGTTCTTTCTGATGAAGTTTTTACCAGGTACTCCCCTAAGTGCTGCAGATAAATTATCAGAAGAACAACAACAGGTAGTATTGGAAAAGTACGGACTGGATGATCCAGTGCCGATTCAGTATTTTAACTACATGGTTAACCTCGTTCAAGGGGATCTGGGGATTTCCTTCCAATTCGATAACCGTGAAGTTTCCACCATCATCATGGAGAGAATCGGTCCGTCCATGCAGCTTGGTGTTCAGGCTATGGTCATTGGAGTCATTCTGGGCATGCTGCTCGGCTTGGTATCGGCCATTTACCACAATGGTTTTATGGATTACACATCCACCTTCCTTGCTGTGCTGGGGCAGTCCATACCGTCCTTTGTATTTGCAGGACTCCTGCAGTTTTATATCGGAGTTAAGTTTGGCTGGTTTCCAGTTGCCTTGTGGGAAGGCTGGGAGTATACCGTTCTACCAACCGCTTCGTTGGCCATCTTCCCAATTGCAATTGCCGCCCGCTTTATGAGAACAGAAATGCTTGAGGTGATGGGTTCCGATTATATCGTGACTGCCCGTGCCAAAGGGGTCAACAAAGTCGGTGTCGTTTTCAAGCACGGTCTTCGTAACGCTTTGATCCCGTTGATTACGGTTTTAGGCCCATTGGCCATCAGTTTGATGACAGGTTCCCTCGTTATTGAGAACATCTTCGCAGTACCGGGAATCGGTGAGCAGTTTGTAAAAGCGATTAATGTGAATGATTACCCAATCATTATGGGAACGACCTTATTGCTTTCTTTCATGTTCATCATCATTATCCTGATCATCGACCTGCTTTATGGAGTCATTGATCCTAGAATCCGACTGGCAGAAGGAGAGTAG	MTRYIIQRIIYLIITMFLIATLTFFLMKFLPGTPLSAADKLSEEQQQVVLEKYGLDDPVPIQYFNYMVNLVQGDLGISFQFDNREVSTIIMERIGPSMQLGVQAMVIGVILGMLLGLVSAIYHNGFMDYTSTFLAVLGQSIPSFVFAGLLQFYIGVKFGWFPVALWEGWEYTVLPTASLAIFPIAIAARFMRTEMLEVMGSDYIVTARAKGVNKVGVVFKHGLRNALIPLITVLGPLAISLMTGSLVIENIFAVPGIGEQFVKAINVNDYPIIMGTTLLLSFMFIIIILIIDLLYGVIDPRIRLAEGE	PGPT0021020_1436	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
AK012_03182	1683	dppE_3	COG4166	Dipeptide-binding protein DppE	ATGAAAAAGACAAATTGGCTGCTGCTGGTCCTGGCACTGGCACTAAGCATGTTCCTCGCAGCATGTTCCGGCGGATCGGACGATTCGTCTGATTCTGCAGACAGCGGGGACTCATCAGACACAGAAGGTTCTTCTGAAGCTTCAGGAGAGCAAGTACTTAACCTGCTTGACACAGCGGACATTCCAACAATGGATGCTTCGCTTGCAACAGACGCTGTTGCATTCCAATGGCTGGGTTCTACGACAGACGGTCTTTACCGCCTGGGCGAGAATGGTCAACCTGAGCCGGGTATTGCAACGGAGCACGAAGTAAGCGAAGACGGCCTGACTTGGACGTTCACTCTTCGTGAAGACGCTGTTTGGTCAAACGGCGATCCGGTCACTGCGAACGACTTCGTATTCGCATGGCAGCGTGCAGTAAACCCGGATACAGGATCTGAATATGGTCCATACATGATGGGTGGAGTCATTAAAAATGCAACAGCCGTAGCTGATGGAGATGTTCCTCCGGAAGAGCTTGGCGTTAAAGCAGTCGATGACTATACATTTGAAGTTACACTTGAAAAGCCGATTCCATACTTTGAGTCTATGACTACGTTCGGCACATTCCTTCCAATGAACCAGCAGTTCGTTGAGGATAAAGGCGAGCAGTATGCACTTGAAGCGGAAAACCTTATTTCCAACGGACCGTTCGTTATTACTGAATGGAGCCACGGTGAAGGCTGGAAGCTTGAAAAGAACGAAGACTACTGGGATGCAGAAAATGTACAGCTTGAAGAGATCAATGTAAAAGTTGTTAAAGAAACAGCTACAGGTGTAAACTTGTATGATACAGGTGAAGTTGACCGTGTGAACTTGACTTCTGAATTTGTTGATCAGTACCGTACTTCTGATGAGTTCAGTGTCAAGGAAGAGCCGACACTATTCTATCTGAAGATGAACCAGGAAAGCGAAATGCTGAGCAACGTAAAAGCACGTAAAGCAATCCAGATGGTCATCGACCGTCAAAGCATGATTGATGTTATCTTGAACAACGGTTCCATCCCTGCTGGTGGAGATGTTCCTGGTAACTTCGTGAAACACCCTGAAACGGAAGAAGACTTCCGTGAAATCAACGGTGAGCTTGTAGAAACCAACGTTGAGGAAGCGAAGAAGCTTTGGAACGAGGCGAAAGAAGAAGAAGGCGCGGATTCTGTAGAGCTTGAATACCTTGGCGGAGACACAGAAACGGCCCTTGAAATGGACGCTTACCTGAAAGATCAGCTTGAGCAGCTTGAAGGACTGACGGTTAAAGTAACGTCTGTACCATTTAAAGAGCGTATCGAGCGCGACAAGAACATGGAATATGACATCCAGAATGCTGGATGGGGTCCTGACTACATTGACCCGAACACATTCCTGAACATGTGGGTAACTGATGGTGGCAACAACCACACAGGCTACTCCAGTGACGAGTACGACGGCATGATCGAAAAAGCGAATAATGAACTTGCACAAGAACCAGTTGAGCGCTTCGAAACTTTCCTCGAAGCAGAAAAACTGTTGATTGAAGAGGATGCTGTACTGGCTCCACTTTATCAGCGTGCACAGGCTCAGCTTTGGAAGCCGTATGTTAAAGGTGTAATGGCTCAGCCTATGGGTCCTGACTACACGTACAAGTACGCTTATATCGAAGGTAAATAA	MKKTNWLLLVLALALSMFLAACSGGSDDSSDSADSGDSSDTEGSSEASGEQVLNLLDTADIPTMDASLATDAVAFQWLGSTTDGLYRLGENGQPEPGIATEHEVSEDGLTWTFTLREDAVWSNGDPVTANDFVFAWQRAVNPDTGSEYGPYMMGGVIKNATAVADGDVPPEELGVKAVDDYTFEVTLEKPIPYFESMTTFGTFLPMNQQFVEDKGEQYALEAENLISNGPFVITEWSHGEGWKLEKNEDYWDAENVQLEEINVKVVKETATGVNLYDTGEVDRVNLTSEFVDQYRTSDEFSVKEEPTLFYLKMNQESEMLSNVKARKAIQMVIDRQSMIDVILNNGSIPAGGDVPGNFVKHPETEEDFREINGELVETNVEEAKKLWNEAKEEEGADSVELEYLGGDTETALEMDAYLKDQLEQLEGLTVKVTSVPFKERIERDKNMEYDIQNAGWGPDYIDPNTFLNMWVTDGGNNHTGYSSDEYDGMIEKANNELAQEPVERFETFLEAEKLLIEEDAVLAPLYQRAQAQLWKPYVKGVMAQPMGPDYTYKYAYIEGK	PGPT0021015_900	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
AK012_03183	372			hypothetical protein	GTGCGCATCATGAGAAATAAATGGATGATGACCGTCATTAATATCGCGGTCGTTACGTTATTATTTACCATCCTTGCCCCTGTTTATGATCTTTATCATTACATTAACCAGCTTTTCTACCTGGCCTACTTCTATTTAGGGATCGGCATGATCGCGTGGGTCACCCGGGGAGGCTTTTTTGACGGAATCACCTACGGATTCCGGCGCTTCACTAATCGAATGAGCCGAAACGGGGATTATATGGAGGACTGGAAGGATAAGCCCCTTCCTTCCAAAACGATCAACCGATCCTGGCCGCGCTTCTTCTTGTTCCACGGCTGCGTGTTAATGCTGGGTTTACTTATTTTACTTCTGTTTTACTATCTTCTATAG	MRIMRNKWMMTVINIAVVTLLFTILAPVYDLYHYINQLFYLAYFYLGIGMIAWVTRGGFFDGITYGFRRFTNRMSRNGDYMEDWKDKPLPSKTINRSWPRFFLFHGCVLMLGLLILLLFYYLL				NA	NA	NA	NA	NA
AK012_03185	1002	trpS	COG0180	Tryptophan--tRNA ligase	ATGACAAACACGATTTTTTCCGGTATTCAGCCGAGTGGGACGTTGACGCTTGGCAATTATATCGGAGCTATGAAACACTTTACAGAGCTTCAGAATGATAACAACTGTTATTTCTGTATAGTAGATGAGCATGCGATCACCGTTCCTCAGGATCGTTTAGAGCTCAGAAAGAACATCCGTTCACTCGCTGCTTTATACCTGGCTTCCGGCATTGATCCTGACAAATCGACCTTGTTCATCCAGTCTGAGGTTCCAGCACACACGCAGCTGGGCTGGATGCTCCAGAGCATCAGCTATATCGGAGAGCTCGAAAGGATGACCCAATTTAAGGATAAGTCCGCTTCCGGTAGTAAGGACGGAGTTTCTGCCGGTCTCTTGACCTATCCTCCATTAATGGCTGCTGATATCCTGCTGTATAAAACAGATATTGTCCCGGTCGGTGATGACCAGAAGCAGCACCTGGAGCTTACACGAAACCTGGCCCAGCGCTTTAACCACAAATTCAATGACATCTTCACCATTCCGGAAGTCCGTATCCCTAAGGAAGGGGCCCGGATCATGTCCCTGCAGGATCCGACGAAAAAAATGAGCAAATCTGATGAAAACCAAAAAGGTTTCATTTCCATGCTGGATGATGAGAAGAAAATCTTAAAGAAAATAAAGAGCGCCGTAACAGACTCTGACGGCATCGTAAAATATGATAAGGAAAATAAACCTGGGGTTTCCAACCTTTTGACGATTGAATCTGCCTGCAGCGGTGTCTCCATCCATGACTTGGAACTTAAATATGAAGGAAAAGGATACGGCGACTTCAAACAGGGGGTAGCGGAATCCGTCATTGCCGTTCTGAAGCCGATTCAAGACCGTTATGAAAGCTTGATTGAATCAGAAGAACTGGATCATATCCTGGATCAGGGGGCTGATAAGGCTTCCTACGAAGCAGGGAAGATGATCCGCAAAGCGAAAAAAGCCATGGGCCTTGGAAGAGTGAAAAAGAAATAA	MTNTIFSGIQPSGTLTLGNYIGAMKHFTELQNDNNCYFCIVDEHAITVPQDRLELRKNIRSLAALYLASGIDPDKSTLFIQSEVPAHTQLGWMLQSISYIGELERMTQFKDKSASGSKDGVSAGLLTYPPLMAADILLYKTDIVPVGDDQKQHLELTRNLAQRFNHKFNDIFTIPEVRIPKEGARIMSLQDPTKKMSKSDENQKGFISMLDDEKKILKKIKSAVTDSDGIVKYDKENKPGVSNLLTIESACSGVSIHDLELKYEGKGYGDFKQGVAESVIAVLKPIQDRYESLIESEELDHILDQGADKASYEAGKMIRKAKKAMGLGRVKKK	PGPT0007120_5447	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
AK012_03186	762			hypothetical protein	ATGTTATACATGCATGATCTGTGGGTGAACTGGTTTGAAGGTGAAGAGAACGGCTACAACGTATGCCGTTTCCATGAGTGGAGAAAAGAAGATGGCATTGAATTGATCGATCAGATTCCGCTTTTGTTTGTCAGTGATGAATTGTTCCTTTTTATTGAGAACGATCTTCAGGATCTGCCTCCGGCCCTGCTTCAGGATATCCACCGGAAGACGTATATGAAAAAGAATCAGGAGCGGCAGACAGTAGAGTATGCTGCGGTGGTGACGAATGGGAAGGATGTCGTCGTTTTTGACACCATCGGATATACCCTCCCTGTCAAGAAAAGCCGGCTGATTCCAAGGCAGGAGCGACTGGTTTTTGAAATGGTCCAGGGGAAAATACCGGAACCCTACTACATGGATAAAAATATCATAAAGGAACATCATATCTTATCCCTTGATCCCCGCAAAATGGCCGGCTTGACCCGCCGCGAACGGCAGCTGAAGCAGCTGTTGATGATGGCGCTGGATCAGCTGAAGAATTCCGATCATCCAGAGGAAGTACGCTACTGGCTGACGGAATGGGACCCCGGACAATATAGGTCTATCAAGCAGTTCAGTGTCCAGGAAGCTTGGGAACGGTTATATAAAGGAACATGCAGCGGATGGTCGACGGTTCATGAAGAACTTTGTAAGAAGATGGTCAAAGGACAGCCTTTCTTTGAAACCATCTGGCAGGGAGAGAATGAGAGAGTTTCCCAACATATGAACAGCCGGAATTGA	MLYMHDLWVNWFEGEENGYNVCRFHEWRKEDGIELIDQIPLLFVSDELFLFIENDLQDLPPALLQDIHRKTYMKKNQERQTVEYAAVVTNGKDVVVFDTIGYTLPVKKSRLIPRQERLVFEMVQGKIPEPYYMDKNIIKEHHILSLDPRKMAGLTRRERQLKQLLMMALDQLKNSDHPEEVRYWLTEWDPGQYRSIKQFSVQEAWERLYKGTCSGWSTVHEELCKKMVKGQPFFETIWQGENERVSQHMNSRN				NA	NA	NA	NA	NA
AK012_03187	201			hypothetical protein	GTGTGGTATTGGTTATTGCTGTTAACCGGTTTCGGTTTTGCCGTGGCAGGAGGGACGATTACGATCACCTATTTGAATTTTGTTCCCGCAGGTCTCAGCTGGATTGAATTTTTTCTGCTGATTCGAACCCGCCTGGAATGCTATTTGTTTCCTCTTGGAATTCTACTCATCACGACGGCCCTGATTTTAATGGATGATTAA	MWYWLLLLTGFGFAVAGGTITITYLNFVPAGLSWIEFFLLIRTRLECYLFPLGILLITTALILMDD				NA	NA	NA	NA	NA
AK012_03188	1011	tagU_3		Polyisoprenyl-teichoic acid--peptidoglycan teichoic acid transferase TagU	TTGAGTAATTCCCGTTCCTTGCGGAAAAAACGGATCAAACGCCGTAGACGCAAGGGGATAATCGCACTGATCGCTTTTATACTGCTGGCCTTCAGCAGTTATACGGCTTATGAATTTTTAGCCGGCAAACACCATTCCCTTAATAATCAGACTGCATCGGCCGAGGATGCCTACGCAGAAACGACGGAAAGCCGCTATGAAGATGAATTCAAGGGCGTCGATAACGGAGATGACCAGATGATGGTCCTCCTCCTCGGCATTGATCAAAGAGGTTCGGAAGTGTCCAGAACGGATACGATGATGCTCGCACAGTATGATAAGAATACAAAGAGTACGAAAGTCGTCTCTCTTATGAGAGATATGTATGTCGACATTCCAGGGCACGGCAAAAATAAACTGAACGCCGCTTTTGCCATCGGCGGACCTGAACTTCTCCGTGAAACGATTGCGGAAAACTTCGGTATTGAAGCCGAGTATTATTCGATCATTGATTTTAACGGCTTTACTGAAATCGTAAATACCCTTTCTCCTGATGGAGTAGAAATAGACGTGGAGAAAGATATGAAGTATACGTCCGGGGACGGTTCAACAAACATTGATCTTAAGGAAGGAACTCAAACCTTATCCGGGAAGGAACTGCTTGGTTACGTACGTTTCCGCAGCGACGCTTCTGGAGACTTCGGCAGAGTGGAACGACAGCAGAAAGTGATTCAGATTTTGAAGGATGAACTGCTTTCCGTACAGGGTGTGCTGAAAGCCCCCCGCCTCGTCGGGTCCATCCAGCCTTACATCGATACGAATATAAGCGGAACGAGCATTTTGAATGCAGGCAGGGATATTCTATTCCAATCTTCCGGGAGCATTGACATGATGAGTGTCCCGACAAATGATAACGTTTGGAACGAACGGAAGGAATATCCGGTCGGCCTTGTATTGAATCATGATTTTGTAGAAACCGCTCAGACGTTGGAAGAATTCTTTGAGGAAGAAAAAGAGTCCGATGTGTCATAA	MSNSRSLRKKRIKRRRRKGIIALIAFILLAFSSYTAYEFLAGKHHSLNNQTASAEDAYAETTESRYEDEFKGVDNGDDQMMVLLLGIDQRGSEVSRTDTMMLAQYDKNTKSTKVVSLMRDMYVDIPGHGKNKLNAAFAIGGPELLRETIAENFGIEAEYYSIIDFNGFTEIVNTLSPDGVEIDVEKDMKYTSGDGSTNIDLKEGTQTLSGKELLGYVRFRSDASGDFGRVERQQKVIQILKDELLSVQGVLKAPRLVGSIQPYIDTNISGTSILNAGRDILFQSSGSIDMMSVPTNDNVWNERKEYPVGLVLNHDFVETAQTLEEFFEEEKESDVS	PGPT0023440_3536	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023440-tagT|tagU|tagV-K01005	NA	NA
AK012_03189	1242	fabF	COG0304	3-oxoacyl-[acyl-carrier-protein] synthase 2	ATGGATAAACAACGTGTCGTCATTACCGGTATGGGAGCCGTAACTCCTGTCGGTAATACAGTTGATGAAATGTGGAACAGTATTAAAAACGGTGTGTCGGGTATTGGAGAAATCACGAAGGTGAATAAAGACGATTACCCGGTGCATGTCGCTGCAGAATTGAAGGATTTCGATCCTTCCAAGTGGATCGATCGTAAAGATGCCCGCCGTATGGATCCTTTTGTTCAATACGCAATGGCTGCCTCTCATATGGCCGTAGAGGATGCAGGCCTTGAAATTACAGAGGATATTGCGCCGCGCACCGGAGTATGGATCGGATCCGGTATCGGGGGCATGGGAACGTATGAATCCCAGTTTGAGACTTTCCAGCAGAAAGGGTACCGTCGTGTCAGCCCCTTCTTTATTCCGATGATGATTCCGGATATGGCTGCAGGACAGGTGTCGATTTCTCTTGGTGCGAAAGGCATCAACTCTTGTACGGTAACGGCCTGTTCTTCAGGTGCCAACTCGATTGGAGATGCGTACAAAGTCATCGAGCGTGGAGATGCAGACATTATGATTGCAGGTGGTACCGAAGCCCCTATGAACAAAATGTCCTTTGCCGGATTCGCATCCGCCCGTGCGCTTTCCTTGAATGAAGATCCACAGACGGCCAGCCGCCCGTTTGACCAGAACCGCGATGGTTTTGTCATGGGAGAAGGGGCAGGAATTCTCATTCTTGAGACATTGGAATCTGCCAAGAAGCGTGGAGCGAAAATCTATGGTGAAATTACCGGGTACGGTTCAACAGGAGATGCGTATCACATTACGTCTCCTGCTCCGGAAGGCGAGGGAGCATCAAGAGCCATGCTTCAAGCTATCGATGATGCGGGCCTCAAGCCTGAGAACATTGATTACTTGAATGCTCATGGAACATCCACCGAGCTGAATGACAAATTCGAAACGCATGCGGCGAAGACCGTATTCCAGGACTATGCTGGAAAGCTTGCGATTTCTTCTACGAAGTCGATGACCGGTCACCTGCTTGGGGCAGCCGGTGCTGTTGAGGCAGTCATTTCATTGAAAGCCATCAATGACGGTATTCTGCCTCCGACTATCAATTATGAAACACCTGATCCGGAATGTGACCTGGATTACGTACCGAACGAAGCCCGTCATCAGGATGTGAATACGGTGATGAGTAACTCGCTCGGATTTGGCGGACACAACGTCAGTCTGATCTTCCAGAAATATCAGGATTAA	MDKQRVVITGMGAVTPVGNTVDEMWNSIKNGVSGIGEITKVNKDDYPVHVAAELKDFDPSKWIDRKDARRMDPFVQYAMAASHMAVEDAGLEITEDIAPRTGVWIGSGIGGMGTYESQFETFQQKGYRRVSPFFIPMMIPDMAAGQVSISLGAKGINSCTVTACSSGANSIGDAYKVIERGDADIMIAGGTEAPMNKMSFAGFASARALSLNEDPQTASRPFDQNRDGFVMGEGAGILILETLESAKKRGAKIYGEITGYGSTGDAYHITSPAPEGEGASRAMLQAIDDAGLKPENIDYLNAHGTSTELNDKFETHAAKTVFQDYAGKLAISSTKSMTGHLLGAAGAVEAVISLKAINDGILPPTINYETPDPECDLDYVPNEARHQDVNTVMSNSLGFGGHNVSLIFQKYQD	PGPT0008360_4877	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008360-fabF-K09458	NA	NA
AK012_03190	939	fabHA	COG0332	3-oxoacyl-[acyl-carrier-protein] synthase 3 protein 1	ATGAAGGCAGGATTCTTAGGAATAGGACACTACACGCCTGAAAAAGTATTGACTAACAAAGACATGGAGAAAATAGTAGATACAAGTGATGAATGGATCCGGACGCGGACAGGAATTGAAGAGCGCCGCATTGCTTCTGATGATATGGATACTTCTGATCTTGCTGTCCGCGCCTCTCAGGAAGCTTTGAAGGATGCCGGTCTGGATATTCAGGACATCGATATGATTCTTGTAGCCACCGTTACTCCTGATACGCCGTTTCCTTCAGTCGCCACGGTACTTCAGGAAAAGCTCGGAGCTAGAAAAGTGGCTGCTATGGACTTGAGTGCTGCCTGTGCAGGATTCATGTACGGGGTTATAACAGCGAAACAGTTCATTGAATCAAACGCCTATCAGAATGTACTCGTTGTCGGTGTTGAGAAACTGTCTAAAATTACGGACTGGAGCGACCGCAATACGTGTGTCCTTTTCGGTGATGGTGCGGGGGCAGCTGTGATCGGTCCGGTCAGTGATGACAAAGGAATTCTTTCCTTTGAACTGGGTTCAGACGGATCAGGCGGTCAGCATCTATACCAGAAGCCTGAGGAAAAACTTCAGATGAATGGTCGGGAAGTCTTCAAATTCGCGGTCCGTCAAATGCCGGAATCATCCGTGAACGTGGTTAAAAAGATCGGCTTAAGTGAACAGGATGTCGATTACCTTGTTCCTCACCAGGCCAACATTCGGATAATGGAAGCAGCCCGCCAGCGTCTTGGAATTCCAGAAGAGAAAATGTCTACAGCCGTTAAACGTTACGGAAATACATCTTCAGCTTCTATTCCGATCGCTTTGTCAGAAGACGTGAAGGCAGGTAAAATTAAAGATAATGATCTAGTAGTTCTTGTCGGATTCGGCGGCGGTCTCACATGGGGCGCCGTAGCTCTTCGATGGGGTAAGTAA	MKAGFLGIGHYTPEKVLTNKDMEKIVDTSDEWIRTRTGIEERRIASDDMDTSDLAVRASQEALKDAGLDIQDIDMILVATVTPDTPFPSVATVLQEKLGARKVAAMDLSAACAGFMYGVITAKQFIESNAYQNVLVVGVEKLSKITDWSDRNTCVLFGDGAGAAVIGPVSDDKGILSFELGSDGSGGQHLYQKPEEKLQMNGREVFKFAVRQMPESSVNVVKKIGLSEQDVDYLVPHQANIRIMEAARQRLGIPEEKMSTAVKRYGNTSSASIPIALSEDVKAGKIKDNDLVVLVGFGGGLTWGAVALRWGK	PGPT0008355_7111	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0008355-fabH-K00648	NA	NA
AK012_03191	180			hypothetical protein	ATGACCAAGCGTAAATCGTCCCCGTTTGATGATTTCTGGGGGTTCAGCAGCAAGGATGATCGTGAGGATAGGGAAAAGGAGTCTTCCCCCCGCTTCCCTGACTTATTCGAGGAAGCTTCAAAAACATGGAAATCCATGTCTCCCATGATTAAGCCGTTTATGGATAAATTCAAAAAATGA	MTKRKSSPFDDFWGFSSKDDREDREKESSPRFPDLFEEASKTWKSMSPMIKPFMDKFKK				NA	NA	NA	NA	NA
AK012_03192	948			Purine-binding protein	TTGAAAATTCGAGTCATCATGATTCTCCTTCTGATTCTTTTTCTAGCTGGATGTCAATGGTTCCCTGGATATGAAAGGGATGTCGATGTCGGTCTTCTGCTGGAGACTTCGATTGATGATCGATCCTGGGGGCAGCAGGGATATCAGGGACTGCAGGCGGTTCAGGAAGAGTATGGAGTGGATATCTATTATAAAGAAGAAATCCGCAGCTACCAGCAATCGGCGGAAGCTGTCGAAGAGCTTGTTCAGCAGGGGGCCGAAGTGATCTTCGGACACAGCAACATCTACGGAAGCCACTTTCGTGAGCTGCACGAAGCGTACCCTGAGATTGATTTCATATATTTCAACGGTCAGTTTGCAGCTGAAAATGTAACCAGTCTGAATTTTGATGCGCGCGCGATGGGCTTTTTCGGCGGCATGGTCGCTGGTGAAATGACGCAGGCTGATCAGGTCGGTTTGATCGGTGCCTTTGAATGGCAGCCTGAGGTGGAAGGTTTTTATGAAGGTGTGAAGTACCAAAACCCGGAAGCCGAGGTGGATGTGGCTCTTTTGAACAGCTGGGAAAATACGGAGCTTGCTCTTATGCAGTACGAAAGAATGAAGGGGAAGGGAGCGGATGTCTTCTACCCGGCAGGTGACCTGTTTGCGGTTCCTATTATTGAACAGGCGGAAGCGGATGGGCATCTCGCGGTCGGATACCTGGAGGATCAATCCTCCATTGCCGCTCAGACAGTTCTGACGAGTACGGTTCAAAACGTCGATGAAGTGTACAAACTGGCCATGGAACGCTACCTCAACGGCAGCCTTCCCGGGGAAGCGCTCACGTTTGATTTCAGTGAGGGAGCGATTACGATGGGGGAATTCAGCCCTGTCGTTCCGGAAGAATTCAGGGAGAACCTGGAAGCTGAAGTCGAAAATTATAAGGAAACGGGCACCCTCCCGCAGTAA	MKIRVIMILLLILFLAGCQWFPGYERDVDVGLLLETSIDDRSWGQQGYQGLQAVQEEYGVDIYYKEEIRSYQQSAEAVEELVQQGAEVIFGHSNIYGSHFRELHEAYPEIDFIYFNGQFAAENVTSLNFDARAMGFFGGMVAGEMTQADQVGLIGAFEWQPEVEGFYEGVKYQNPEAEVDVALLNSWENTELALMQYERMKGKGADVFYPAGDLFAVPIIEQAEADGHLAVGYLEDQSSIAAQTVLTSTVQNVDEVYKLAMERYLNGSLPGEALTFDFSEGAITMGEFSPVVPEEFRENLEAEVENYKETGTLPQ				NA	NA	NA	NA	NA
AK012_03193	513			hypothetical protein	ATGATTGTGACCGTCCAGCCCTGCTTTCACTGGATTGGATTTCATATCACATCCTATCTTCTTCAGGAAGGCGTGGAAGTGATCGGAATCGATCCTATCGAGACGAATCAGAGTGATTTTTTATATATGTATGTCGGCCGCAACAGTAATTTCCAGCATTTTTTCCAAAAGAAAGATAAGGAAAATCACGTGCAGGGGACGGAGGAAGAAGCCTCCGTGGAATATGTCGATCAACACCTTCTCGTCCGTAAAAATGGAAAAGCCATCTGGGTGAAGCTCCCATCCCTCTATGGTGAATGGATGGATCTCAACCGGCTGGGCATTCAGGATAAAGATCAGTTGAAATCATGGATTAAGGAAAAAGAAGCGGTGTACATTGGAGACTTTCTGCATGACCTTTCCAAGAGCCTTTTGGGGGATCAGCCTTTTCAGCTTTCCAGTCATGTGGAGGGAGAGGACCTGATGGACCAGCGGATTGAAGCCGTCTTTCACAGCCGGAAGCTTCTTTGTTAA	MIVTVQPCFHWIGFHITSYLLQEGVEVIGIDPIETNQSDFLYMYVGRNSNFQHFFQKKDKENHVQGTEEEASVEYVDQHLLVRKNGKAIWVKLPSLYGEWMDLNRLGIQDKDQLKSWIKEKEAVYIGDFLHDLSKSLLGDQPFQLSSHVEGEDLMDQRIEAVFHSRKLLC				NA	NA	NA	NA	NA
AK012_03194	174			hypothetical protein	ATGCGGATGATATGGACAATTCTATGGGCTTTTGTATTAAGTTTTATGTCAGCTTATGTAATCAGCAATATGGCAGGAGGCAGCTTCGCCTTCAGCCAGGTGATTGTGATGACCATTCTTTTCACATTGGCCGCTGTTGTACTTGGGGACGGTCTAATCAAGGACGAAGCTTGA	MRMIWTILWAFVLSFMSAYVISNMAGGSFAFSQVIVMTILFTLAAVVLGDGLIKDEA				NA	NA	NA	NA	NA
AK012_03195	813	uppP	COG1968	Undecaprenyl-diphosphatase	ATGGAAGAAATATGGCTGATTATTAAATACTTATTTCTCGGGATATTCCAAGGGTTCACCGAGCCCATCCCGATTTCATCAAGCGGACACCTTGTCATCGTACAGGAACTGCTCGGCTTAGACCTGAAGGGGCTCACCTTTGAGGTTCTAGTGAACTTCGGCTCTCTTGTCGCTGTCCTGATCATTTACAGGGAAGATCTGATTCGTTTGATCAAAAACGGAATCGGCTTTGTCATGACAAAGGACAGAAGGCAGAAAGATGATTTCGACTTCATTCTATATTTGATCATCGGTACGGTTCCGGCAGGTGTTCTCGGCGTGTTACTGGGAGATGCGATTGAATCCATATCCGGCGTGCAGACGGTCGGAATCACTCTGATTATTACAGGGATTGCCTTATGGCTGATCCGTAACCTGAAGGGAAGAAAAGGCGACGGGCAGATGACGTGGAAGGATGCGCTCATCGTTGGGATCGGACAGGCGGTGGCCTTAATTCCAGGTATCAGCCGGTCAGGAGCTACCATCGTAGCGGCCATGTTCCTTGGGATGAAGCAGGAAACCGCGCTCCGCTTTTCCTTTCTTCTGTTCATCCCTGTCAGCTTGGGAACGATGCTGCTTTCCATAGAGGAAGTCATTGCCGACGCAGGCGGATCAACCGGTACCTGGATTGCCTATGCTCTTGCATTTGCAGGCTCTGTCGTCGCTTCTTATTACTCCCTTCGCTGGTTTATGAACATCATGGAGCGGGGAAACCTGAAGTATTTCGCTTTCTACTGCTTCATCGTTGGAGGACTGGTCGTCTTATTCCTGTAA	MEEIWLIIKYLFLGIFQGFTEPIPISSSGHLVIVQELLGLDLKGLTFEVLVNFGSLVAVLIIYREDLIRLIKNGIGFVMTKDRRQKDDFDFILYLIIGTVPAGVLGVLLGDAIESISGVQTVGITLIITGIALWLIRNLKGRKGDGQMTWKDALIVGIGQAVALIPGISRSGATIVAAMFLGMKQETALRFSFLLFIPVSLGTMLLSIEEVIADAGGSTGTWIAYALAFAGSVVASYYSLRWFMNIMERGNLKYFAFYCFIVGGLVVLFL	PGPT0024165_3486	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-UNDECAPRENOL_MODIFICATION,PGPT0024165-bacA-K06153	NA	NA
AK012_03196	234	moaD		Molybdopterin synthase sulfur carrier subunit	ATGAATCAGCTGCTGTTTTTTGCCGGATTGAAAGAAGCCGCCGGAACGGAGAAAGTCGACATGGACCTTGCCGGTTTGACGGTGGAGGAAGTGAAAAAGAAAGTAGGGGATGTCTATCCCAGTGACCAGGTTCAAACGAGCATGGTCGCAGTCAATGAAGAATTCGCCCTCCGGGACTATAAAATTGAAGAAGGCGATACGATTGCCTTCCTGCCGCCGGTCAGTGGAGGATAA	MNQLLFFAGLKEAAGTEKVDMDLAGLTVEEVKKKVGDVYPSDQVQTSMVAVNEEFALRDYKIEEGDTIAFLPPVSGG	PGPT0008415_36	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
AK012_03197	462			hypothetical protein	ATGAACGATAAACAGGTATGGGTGACTGAAAAACCTTTGTCTCCCGGGGAAATGATTGGCCGCGTGACACGACGGGATGCGGGAGCGGTCAACACATTCATTGGGACGGTTCGTGAGTTTACAAAAGGGAAAAAAACGCTCTACTTACAATACGAAGCCTACCCTTCCATGGCTGAAAAAAAGATGCAGCAGATCGTGGAGGAGATCGAAGAGCAGTGGCCCGGCGCCCAAACCGTGATGGCCCACCGCACAGGGCGGCTGGATATTACAGATATTGCTGTAGTTATTGCTGTCTCCACTCCTCACCGGGAGGCCTCCTATGCTGCAAGCCGGTACGCGATTGAACGGATGAAGGAAATTGTTCCCATCTGGAAAAAGGAACATTGGGAAGATGGAGAAGAGTGGATCGGAAACCAGAAGGAGACAAAGCCTGGAGTGCCGACGAAGGAGGAAAGTCGATGA	MNDKQVWVTEKPLSPGEMIGRVTRRDAGAVNTFIGTVREFTKGKKTLYLQYEAYPSMAEKKMQQIVEEIEEQWPGAQTVMAHRTGRLDITDIAVVIAVSTPHREASYAASRYAIERMKEIVPIWKKEHWEDGEEWIGNQKETKPGVPTKEESR	PGPT0008415_41	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008415-moaX-K21142	NA	NA
AK012_03198	531			hypothetical protein	ATGAAAGAAACTCCGGTTTTTCAAATCGTCGGGTATAAAAACAGCGGAAAAACATCGCTGCTCTCCGATTTAATTGCCTATGGAGCAGAACGGGAAGAGAAAGTAGCCGCGATTAAGCGTCATACTCATGAGGAGCCGTTGAAGGTGATGCATCATGAAACAGACAGCTACCGTCTTCACGAGGCGGGGTCTTTTATGACGGGGGTTGACAGCCCGGGACGTTTTCAGATGGAGCTGTCACATCAGGAAGAATATGCGCTCGACCGGCTTGTTTTTTTATACCGGCAGTTTGACCCGGACTTGATTGCTGTGGAAGGGTTTAAGAACGAATCCTATCCGAAGGCGGTCATCATTAAGCGGGAAGAAGATCTGGAGCTCCTGCATACGCTGACCAATGTTCAGGTGGTCATTACATGGAACGAAGCAATGACAGAGGACGTTTCCCTGCCGGTGATTGCACTTAACGATTGGAGAAAGCGCCTTTCAGAGGTCTATCGTATAGCGAAAGGGGAGGAAGACCATGAACGATAA	MKETPVFQIVGYKNSGKTSLLSDLIAYGAEREEKVAAIKRHTHEEPLKVMHHETDSYRLHEAGSFMTGVDSPGRFQMELSHQEEYALDRLVFLYRQFDPDLIAVEGFKNESYPKAVIIKREEDLELLHTLTNVQVVITWNEAMTEDVSLPVIALNDWRKRLSEVYRIAKGEEDHER				NA	NA	NA	NA	NA
AK012_03199	315	sufT		Fe-S protein maturation auxiliary factor SufT	GTGAGTACAACTGCATTGGAAGAAAACGCAATGGGCGCCCTTGAGAATGTCATTGACCCGGAACTCGGCATTGATATTGTCAATCTCGGTCTTGTCTATGGTGTTGATATAGAAGACAACGGAGATGCAAAGGTCACGATGACTTTGACAGCCATGGGCTGCCCACTGGCAGGACACATTGAGCAGGACGTCAAGCGCGCACTTGCTGATCTGCCTGAATTGAATGAAATTACCGTGAACATTGTTTGGAACCCACCTTGGACGAAGGACCGCATGAGTCGTTATGCGAAAATCGCTCTTGGTATTCCGGATTGA	MSTTALEENAMGALENVIDPELGIDIVNLGLVYGVDIEDNGDAKVTMTLTAMGCPLAGHIEQDVKRALADLPELNEITVNIVWNPPWTKDRMSRYAKIALGIPD	PGPT0020265_412	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
AK012_03200	765			hypothetical protein	ATGATAGGGATATACCGTAATTCATTCAAAAACGTACCAGCACTCACGATTGTAGATACAGAAAAACAGGATCAGCCGCTCCCTGTATTCATTTATTTTCACGGCTTTACAAGTGCGAAGGAGCATAACCTTCCGCAGGCCTATATGCTCGCGCAGAAAGGCTACCGTGTGATACTTCCGGACAGCGCCTTTCATGGAGAAAGGGAAGAGGACCTTTCCAAGAAGGAACTGGATATGAAGTTCTGGGACATCGTGTATCAAAACCTGAAAGATCTGCAGGATGTAAAGGATGAGCTTGACCGTCTGGACCTGGTGTTGGACCGGCGTATCGGTGTCGGAGGCACATCCATGGGAGGAATCACGACGAGTGCAGCTTTGACGATGTACCCGTGGATCCAGGCTTCCACCGTTATGATGGGTTCTCCGAAAATTGTCGATTTTGCAGAGCGCACGATTAAAGGAGCTGAGCAGGCAGGCCTTCACGTCCCGCTTACACAAGAGGATCTGGATGAGATGTACGATTCACTGGCAGGGATCGACCTGTCCAGACAGATGGATAAATTGGCCGGCCGTCCTTTATTCTTCTGGCACGGAGATGCCGATCCAGTTGTGCCATTTGAGCATTCGTACGACTTCTATAATGAAGCGATTAAACTGTATAAAAATCCAGAGAACATCCGTTTCCTGAGAGAAGTGGGGCGGGATCATAAAGTAAGCCGGTTCGGGATGGTTGAAATGGTCAACTGGCTGGAACTTGTGCTTTAA	MIGIYRNSFKNVPALTIVDTEKQDQPLPVFIYFHGFTSAKEHNLPQAYMLAQKGYRVILPDSAFHGEREEDLSKKELDMKFWDIVYQNLKDLQDVKDELDRLDLVLDRRIGVGGTSMGGITTSAALTMYPWIQASTVMMGSPKIVDFAERTIKGAEQAGLHVPLTQEDLDEMYDSLAGIDLSRQMDKLAGRPLFFWHGDADPVVPFEHSYDFYNEAIKLYKNPENIRFLREVGRDHKVSRFGMVEMVNWLELVL				NA	NA	NA	NA	NA
AK012_03201	819	yitU	COG0561	5-amino-6-(5-phospho-D-ribitylamino)uracil phosphatase YitU	ATGAAACAGCACTTAATTGCATTGGATTTAGACGGAACACTTCTGACGGATGAGAAAAAAATCAGTGAGAAAACAAAGGGGATCGTCCAAAAAGCCATGGATCAGGGACACATCGTTGTCATTGCTACAGGCCGTCCGCACAGAGCAAGCATTGATTACTATCATGAGCTTGGGCTTGAAACACCGATGGTCAATTTCAATGGAGCGCTGATCCATCACCCCTCTGACCACCGCTGGGATGCGATCCACTCTCCTTTAGGGATCCGCACCGCGCACAAAATCATTCATACCTGCCAGGAGCTGGGTGTAAAAAACATCCTGGCTGAAGTGAAAGATCAAGTTTTCCTTGATCAATATGATGAAGAACTTATGAGTATTTTCCAGACGAAAAATGATCCCATTACTGTGGGACGTCTGCAGTCCAACCTGAAAGATGATCCGACTTCCATTCTGATTCACCCGGAAGAGGAAAAAATCAAAGCGATCCGTGAGGAACTGGACGAACACGCCGCCCTGATCGACCACCGCAAATGGGGAGCTCCCTATCACGTCATTGAAATTGTGAGGGCCGGATTGAACAAAGCGGTCGGTCTTGATAAAATCTCCCGGTATTTCCATATCCCGCAGGACCGGATTATCGCCTTCGGTGATGAGGATAATGACCTCGAAATGCTCGACTATGCCGGGGTGGGTGTGGCCATGGGTAATGCGATCAACGAATTGAAGGATGTTGCCAGCCACATCACCGGTACGAATGAAGAAGATGGCATCGGTGCTTTTCTTGACCAGTATTTGAGCATAAATAAGCGCGCCATTTAA	MKQHLIALDLDGTLLTDEKKISEKTKGIVQKAMDQGHIVVIATGRPHRASIDYYHELGLETPMVNFNGALIHHPSDHRWDAIHSPLGIRTAHKIIHTCQELGVKNILAEVKDQVFLDQYDEELMSIFQTKNDPITVGRLQSNLKDDPTSILIHPEEEKIKAIREELDEHAALIDHRKWGAPYHVIEIVRAGLNKAVGLDKISRYFHIPQDRIIAFGDEDNDLEMLDYAGVGVAMGNAINELKDVASHITGTNEEDGIGAFLDQYLSINKRAI	PGPT0008595_355	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B2|RIBOFLAVIN_METABOLISM	ISR-VITAMIN_B2|RIBOFLAVIN_BIOSYNTHESIS,PGPT0008595-ycsE|yitU|ywtE-K21064	NA	NA
AK012_03202	147			hypothetical protein	ATGGAGCAGCGTAAGCAGGACAGCCGCAAAGACAACAGCCGGGTGGAAGTGCAGCCCTTTGACGAAAGCATCATGGAGCCGCAAAGGCTTACGGATGCAGATCGTAAACAAATGGAAAGCGACCGGCATACAGTAGGAGGGTTTTAA	MEQRKQDSRKDNSRVEVQPFDESIMEPQRLTDADRKQMESDRHTVGGF				NA	NA	NA	NA	NA
AK012_03203	207			hypothetical protein	ATGGAGAAAAACCTTTTTGAAAATGCGCGCGATGCAGTTAACCGTTTCACCCAGCGTGGCGGTAGACAGAGTGCTGCGAGCCAGCAGGATATGGAAGCAGCCAGACAAGCGATTCAGTCTGCCTATAGCCAATGTTCACAACAGGAGAAACAACAGCTACAGCAGCTTGAACAGCAGATGGAAGCTCACCATAACAACCTGCAGTAA	MEKNLFENARDAVNRFTQRGGRQSAASQQDMEAARQAIQSAYSQCSQQEKQQLQQLEQQMEAHHNNLQ				NA	NA	NA	NA	NA
AK012_03204	555			hypothetical protein	ATGGAACAGGACAATCAGCTGCCCTTTCATTTATGGGTGACCGCTGCAGGAACGGTTGCCTCAGCTGTCAGCATAACGATTGATCATGATGACCTCGATCTCATCGGAAATGCTCTGCAGGCGGTCGGGAACGGACTTGCCGCCAACCAGGGTAGTACCTTTACTATAGAAACAGCCGGAAGCCTGGTTCAGTCCTCAGGAAATACAGCCATCATCTACAGCCTGCTCGCAGATCTGCCGGAAAATGAGGAGTTGTCTCTCGTCATCGCGGGAAATCTTCTGCAGGCGCTCGGAGGAAGCGCTGCATTTTCCGGAACACTGACGGCCCCCTCCGCGCCTTACTCCGTTTATACATTGAACGGCCAGCTCATGGAAGTGATCGGAAACTCCATGCAGGCGGTCGGGACAGGGAAAGAACGGCGCGGTGAGGAGGGGCAAGCTCTTAACTTGATCGGCAGCTGGATCCAGGCCGGCGGCGCAGTATTGTCCGCCCTTGCCGGTTCAGCACGGTTTAATCACGAAATAAAAGACGGGGAGCACCCGTCTTTTATTTAA	MEQDNQLPFHLWVTAAGTVASAVSITIDHDDLDLIGNALQAVGNGLAANQGSTFTIETAGSLVQSSGNTAIIYSLLADLPENEELSLVIAGNLLQALGGSAAFSGTLTAPSAPYSVYTLNGQLMEVIGNSMQAVGTGKERRGEEGQALNLIGSWIQAGGAVLSALAGSARFNHEIKDGEHPSFI				NA	NA	NA	NA	NA
AK012_03205	426			hypothetical protein	ATGATTCGATGGGGATTATTTATCGGAACAACATCAGGTATTGTGCTCGGCCTTTACATGTGGTTCATTGAGAAGATCACGGGTGATAAAGTATATACACTGTTGATGAATGTAGACTTTATCCCCTGGTTCGGGAGTATAGACTGGCCGGTTCTTATGGAATGGTTTTTTCATATGATCATTTCCTGGATCATCGGTCTGCTGTATGCATGGCTGTTTATGTACCGGTTGAAACCTGCACCCCGGAACCAATGGATGACGGCGGCTCTTTTGACAGCGCCTGCCGCTTTCACCTACGTTCCGCTCACCCTTCTTGCACTTAAGGAAACACCAGCAGTAACAGATGGTTCCGCCATTATTTTCTGGCTGATCGGTCATGTGCTCTACGCTGTGACATTAAAAAAATCCTATGATCGTTTTAAATAA	MIRWGLFIGTTSGIVLGLYMWFIEKITGDKVYTLLMNVDFIPWFGSIDWPVLMEWFFHMIISWIIGLLYAWLFMYRLKPAPRNQWMTAALLTAPAAFTYVPLTLLALKETPAVTDGSAIIFWLIGHVLYAVTLKKSYDRFK				NA	NA	NA	NA	NA
AK012_03206	828			hypothetical protein	ATGGAAACGAAACTGATTGAAGTTCTGCAGCCGATCAAGGAGAACAATTATGCTCTTCCAGAAGGGCAGAACCTGCAGGAACTGACGACGATGATGCTTCAGAAAATCGGAACGGTACATCCTGAGTTGAGAGATAACCTCATCCACTCCATTTTTACAACGTTTATCGAACGTGGTCATTATTCGAATGACCAGTTGAAAAATATACTTCAGTCTGTCTTAAATAAAAATTACTTGTTTTACAGAATCGGCACGTCCAAGCAGGAGGAGGATGCCGTATTTAAACGGAGCTTTTCCGTTCTGTTGATCCCGCCCATTATGCAGAAGCACCGGGAGGATCCTTTTCTGAAGGAAGAGGATGTCCACCGGGTGTGGGAGCATTTGAAGAAGTACATGCAGCAGGAAAAGGACCACAGAGGGTATGTGGAAGGCAAGGGCTGGGCCCATGCTATGGCTCACGCAGCTGATGCGATATTCAGCGCCGCCGCCTGTGAGGAAATCACCCGCGGGGAAGTTCTCAGCATGCTGCCTGTCATCCGCGAACAGTTTCTCATTGACCAGCCTTATCTTTTTGATGAAGAAGAAAGAATGGTTACCGCTGTTCTGATGATGTTCCGCAAAATTGAACACGTGGAACGGATGGAGTGGCTCGAAACGCTGCTTTATATAAGGGATGGCTGGCAGGATCCCAAGGAAGATATCATCATTAACAACAGCAAGCATTTTATGAGAGCGATGTATTTCCGCATGCTTGAGGGGGATTACAGGGAGCTTCGGCAGGTTTTAGAAAATCTGCTGAGGGAATTAAGGAAGCAGGAAGCTTACTAA	METKLIEVLQPIKENNYALPEGQNLQELTTMMLQKIGTVHPELRDNLIHSIFTTFIERGHYSNDQLKNILQSVLNKNYLFYRIGTSKQEEDAVFKRSFSVLLIPPIMQKHREDPFLKEEDVHRVWEHLKKYMQQEKDHRGYVEGKGWAHAMAHAADAIFSAAACEEITRGEVLSMLPVIREQFLIDQPYLFDEEERMVTAVLMMFRKIEHVERMEWLETLLYIRDGWQDPKEDIIINNSKHFMRAMYFRMLEGDYRELRQVLENLLRELRKQEAY				NA	NA	NA	NA	NA
AK012_03207	264			hypothetical protein	ATGGCTATACAAGTACAGGAAACACCTAACCCGAATGCGCGTAAATTCACAACAGAGTCCATGATCTTTCAAGGAGACGGCAGTGTGTCCGTCATGCCTGGACAGACAAGCGATCACAAAATCATGAATGAGCTGATGGAGCTGGACGGCGTCGATAATGTCTTCGGCTTCCAAAACTTCATCACTGTAAACAAGCTTCCACAGGGCGACTGGGAGGAGCTTACACCGAAAGTGAAAAGCAAACTGGAAGAATACGGGTATTAA	MAIQVQETPNPNARKFTTESMIFQGDGSVSVMPGQTSDHKIMNELMELDGVDNVFGFQNFITVNKLPQGDWEELTPKVKSKLEEYGY				NA	NA	NA	NA	NA
AK012_03208	915			hypothetical protein	ATGAAAAACGTGTCAGCCGGTATCCTTGGATTGGCGCTCTTATTTGCTGCAGGATGCTCGAACCAATCGGAAGTCAAACAGGCGGAAGGTGAGGAGAGCGGAGAAGCGGCATCCGAGGAAATCACCGAAGACCAGCAGACGGAAATTGATATGGAGGGCTTGATCGAACAAATGGTGATGGATGCGGAAGTGGTAGTGGACTCCGGAGAAGTTTCGTTTCAGTTTTCCTTGAAGAATACGGGGGAGGACCCGGTTATTCTGGGATTCACCTCAAGTCAGAAATATGAAATCCAGGTGAAAGATAAAGAAGGCGAAGTCGTGTATACCTATTCTGCGGACCAGATGTTCGCTCAGGGACTGACGACGGAGGAAGTCGAAGCAGGTGCCCTGCTGGAGGCTTCTGAAACGTGGCCGGCGGATATTCAGCCGGGAGACTACGAGGCGACGATGACCTTCCTTGTTGATACAATCAATGATCAGCCGCTGGATGCCAATCCGTTTGAAGTGACCCAGTCCTTCACTCTTGAAGGGAAGGACGCTGTAACCGAAGAAGAAGCAAAGACGGATGAAACCGGATTGAAAGAGGCGGAATACGGGAAAGGGGAAGCTTTCCGTAAAGTGACGGTGTCAGGAGAAAACGGATCATATGTCGTGAAAGGAGAAGCCCGGGTGTTTGAAGGTTCCTTCCTCTACAGCGTGGAAGATGGTCATCATGTGCAGGTTTCTCCAACACCGGTGCAGGTGGAGGAAGGAGCTCCGTCCTGGTCGCCTTTTGAATTCAACATTTCCATCCCGGAAGAGGATATGCCGGACTACGGCATGGTCACCCTGATCTTATTTGAGGAAAGCTCGGAAGACGGGCGTCCGATTCATCTGAATTACATTCCTCTCGAACAAGTGCAGACAACCGAATAA	MKNVSAGILGLALLFAAGCSNQSEVKQAEGEESGEAASEEITEDQQTEIDMEGLIEQMVMDAEVVVDSGEVSFQFSLKNTGEDPVILGFTSSQKYEIQVKDKEGEVVYTYSADQMFAQGLTTEEVEAGALLEASETWPADIQPGDYEATMTFLVDTINDQPLDANPFEVTQSFTLEGKDAVTEEEAKTDETGLKEAEYGKGEAFRKVTVSGENGSYVVKGEARVFEGSFLYSVEDGHHVQVSPTPVQVEEGAPSWSPFEFNISIPEEDMPDYGMVTLILFEESSEDGRPIHLNYIPLEQVQTTE				NA	NA	NA	NA	NA
AK012_03209	849			hypothetical protein	GTGTTTACAGTAGAAATAAAAAGGATTCTGATTGTTCTGTTCGGTGCGGTTTTGAACGCGATCTCACTGAACTTATTCTTAATTGAAGCGAACGTTTATGCGAGCGGTTTTACAGGTGTCGCCCAGCTGTTAACGAGTATCTTGAATGATTTCGCCGGTATTCCGGTCAGTACCGGGCTGCTCTTATTCATACTTAATATCCCTGTAGCCATTTTAGGATGGATGAAAGTAGGGAGAGGATTTACGGTTTATAGTGCCATTTCTGTTGCTTTTACGACGTTCTTTCTTGAGGTCATCCCTGTGATGCAGCTCTCCGAAGACATCATCCTGAATGCGGTGTTCGGGGGAGTGATCGGTGGTACAGGTGTTGGTATCACCTTGAAATGGGGGGCTTCTACGGGAGGTCTGGATATTATCGCGATGATTCTTTCCAGAATGAAAGACCGCCCGATCGGCATTTACTTCTTAATTATTAACAGCGCCATTATCGTGATTGCCGGTGTTCTTTATGAACCGGAAAATGCTCTTTACACGCTGCTTACCCTTTACGTTACGACAAGGGTGATTGATGCGATCCATACACGTCACGAGAAGCTGACGGCGATGATCATTACCTCCAGGGCAGCCGATCTTGAAAAAGCCATCCACGGTCACATGGTCCGTGGAATTACTACTCTTCCTGCCCGTGGGGCATTTACCCAGCAGGATAAAAATATGCTTGTTATGGTCATTACCCGCTATGAGCTTTATGATCTGCAGCATATCATTCAGGATGTGGATCCCAAAGCCTTTACAAACATCGTTCAGACGACAGGCATCTTCGGGTTTTTCCGAAAAGACGATCAATGA	MFTVEIKRILIVLFGAVLNAISLNLFLIEANVYASGFTGVAQLLTSILNDFAGIPVSTGLLLFILNIPVAILGWMKVGRGFTVYSAISVAFTTFFLEVIPVMQLSEDIILNAVFGGVIGGTGVGITLKWGASTGGLDIIAMILSRMKDRPIGIYFLIINSAIIVIAGVLYEPENALYTLLTLYVTTRVIDAIHTRHEKLTAMIITSRAADLEKAIHGHMVRGITTLPARGAFTQQDKNMLVMVITRYELYDLQHIIQDVDPKAFTNIVQTTGIFGFFRKDDQ	PGPT0014526_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_HERBICIDIAL_STRESS	HERBICIDIAL_STRESS-PARAQUAT_STRESS_REDUCTION,PGPT0014526-yitT-NA	NA	NA
AK012_03210	861		COG1307	Fatty acid-binding protein	ATGAACGTGCAGATAATTTGTGACTCGGCCAGTGACTTGAGCCGGGCCACTGTTGAAAAGTATGACATTACCTCCCTTCCTTTAAAAGTGATTATGAAAGACGAGGAATATGTGGACGGGGAGACGATCACCCCGAAGGACGTATACGACCGTATGCGTCAAGGGGATGCGCCGAAAACCGCTCAGGTCTCTGCGCAGACATTCAGAGAAACGTTTACGGACCTTGCCGAAAAGAACAAGCCTTTCATTTATTTCTCCTTCTCCTCTGAACTTTCCGGCACGTACCAGACGGCCAAAATGGTGGAGCAGGAAATCAAGGAAGACTACCCGGAAGCCACGTTTGAAGTGGTCGATACGAAGGCAGCCTCGCTGGGATGCGGTCTTATCGTTTTAAGAGCCGCTGAAATGGCCCGGGAGGGAGCGGACTTTGAAACCGTGCTGAAGACAGGCGTCTATCATGCGGAACATATGGAGCACATCTTTACGGTCGATGACCTTGAATACCTTCAGCGTGGCGGCCGGGTAAGCCGGACAGCCGCTTTCGTCGGAGGGCTGCTGAAAATCAAACCGCTTCTCCACATGGAGGGTGGAAAGCTGATTCCCCTGGAAAAAATCCGTGGATCCAAGAAAGTCCTGAAGCGGATGCTTGAAGTCATGGAAGAACGGGGACACGATTTACAAAACCAGCGTGTGGCCATCAGCCATGGGGATGATCTGGACAGAGCCGAACAGCTGGCGGAGATGATCCAGGACCAGTTTGGAACGTCCGAGATTCACATCGACTATGTCGGTGCAACCATCGGCGCCCACTCAGGCCCCGGCACGATCGCTTTATTTTTCTTAAACGACACATATCAATAA	MNVQIICDSASDLSRATVEKYDITSLPLKVIMKDEEYVDGETITPKDVYDRMRQGDAPKTAQVSAQTFRETFTDLAEKNKPFIYFSFSSELSGTYQTAKMVEQEIKEDYPEATFEVVDTKAASLGCGLIVLRAAEMAREGADFETVLKTGVYHAEHMEHIFTVDDLEYLQRGGRVSRTAAFVGGLLKIKPLLHMEGGKLIPLEKIRGSKKVLKRMLEVMEERGHDLQNQRVAISHGDDLDRAEQLAEMIQDQFGTSEIHIDYVGATIGAHSGPGTIALFFLNDTYQ				NA	NA	NA	NA	NA
AK012_03211	1386		COG0366	Beta/alpha-amylase	ATGAAAAAGGCAGCAGGGATCCTTCTGCTCATTCCTCTTTTTCTTTTATACAGCCTGAACGATGGGGCTGTCGAAGGGGAAGAGCGCAGGTGGCAGGAGGAAAGTGTTTATTACATTGCAGTGGACCGCTTTTTTAACAGCGACCGAAGCAACGATGAACAAGTGGATGTTCAAGACCCACAGGCTTATCACGGCGGGGATCTTTCCGGACTGACAAGCCAGCTGGATTACATAGAGGAACTCGGTTTTACGACTATCCAGCTGTCTCCGGTGATGGCGAATGCGCCCGGAGGGTTTCATGGTTTCTGGGTTACGGATTTCCGGGCTGTCGAGGAGCACCTCGGTACGATGGAGGAAATGAGATCGTTCGTAAAGGAAGCGCATGATCGTGATATGAAAGTAGTGCTTGATCTTCCTCTGTTCACAGCCGCCGATCACCCCTGGACAGGGGAAGAGACGAAAAACGGCTGGTTAAAAGAAGGGGTGACAGATGCCCCTGTTTCATGGCTGGACGATCTGCCGCAGCTGGACATGGACAATAAAGCAGCCCGTACTTATCTTGAGGAAACGATGCAATTCTGGGAGAAAGAAGCGGATGTGGACGGATTCCACCTTGTATCTCAAACGGATGAGAGGATGGAAGAGGAGGAGGCTGTTTTTTATACGACTCACCTGCAAGAGGCGGGGGATCTGCCGCAGCAGCTTAGAAACGTCTTCCAAGCCCCGGGTGCTGTAGAAGGAATCTCGTCGGACGTCCGTGTTCAACAGCTTGACAGCCCCTTTACCGGCCGCTTTACACATGAAGCTGTAGAGAATGGTCAGAACCCGATTACCCGTTGGCGTCTCGGCCTTACCTATATTTTCACAACACCAGGCGTCCCGGTCGTATATTACGGATCGGAAACCCCGCTGGATGATGGAGGAGACCCTGAAACGGTGCCCATGATCAATGTGAAAGCCGGAAATGAGGACCTAAAGCAGCGGATTGAAAAATTAACGTCGATGCGGGACCAGTATCCGGCCATCACCCGTGGAGAATATGAAGAACTGTATAACGAAAACGGGCTGCTCGTTTTTGAGCGCAGGGACGAAGGAGAGTCGCTCTTGGTTGCCATCAACAATGCGGCCGAAACGAAAACAGCAGAGCTGGATCACCTGGGCAGCGGTCTCCAGCTGAGGGGCCTTCTCCAGGACGGAGTGGTCCGGGAGCAGTCGGACGGGACGTACCGTCTCGCTATGGACAGGGAAACGGCGGATGTGTTCATCATAGAAGAAAACAGCGGCTATAACTGGCTGTTTATCGGCTTTGTGGGAGGCGTCCTGCTTCTGTTTACCGTGGCGGTGATCGTATTGAGCAGAAAAAGCCGTCAGCGTGAAAAAGAGTGA	MKKAAGILLLIPLFLLYSLNDGAVEGEERRWQEESVYYIAVDRFFNSDRSNDEQVDVQDPQAYHGGDLSGLTSQLDYIEELGFTTIQLSPVMANAPGGFHGFWVTDFRAVEEHLGTMEEMRSFVKEAHDRDMKVVLDLPLFTAADHPWTGEETKNGWLKEGVTDAPVSWLDDLPQLDMDNKAARTYLEETMQFWEKEADVDGFHLVSQTDERMEEEEAVFYTTHLQEAGDLPQQLRNVFQAPGAVEGISSDVRVQQLDSPFTGRFTHEAVENGQNPITRWRLGLTYIFTTPGVPVVYYGSETPLDDGGDPETVPMINVKAGNEDLKQRIEKLTSMRDQYPAITRGEYEELYNENGLLVFERRDEGESLLVAINNAAETKTAELDHLGSGLQLRGLLQDGVVREQSDGTYRLAMDRETADVFIIEENSGYNWLFIGFVGGVLLLFTVAVIVLSRKSRQREKE				NA	NA	NA	NA	NA
AK012_03212	1842	asnO	COG0367	Asparagine synthetase [glutamine-hydrolyzing] 3	ATGTGTGGAATTGTCGGTTGGGTGGACAGTGATTCCCGGACAGAGGGGAAAGCTTCTATTCTGGCCCGTATGGCTGAAACACTCAGACACCGCGGCCCGGATGATTATCAAACATGGATACACGAATCCGCCGCCTTCGGTCATCAGCGGTTGATTGTTGTCGATCCTGATGGAGGAAGGCAGCCGATGGTCCGGACCGCCCGGGATGAAAAGTTTGTTCTATGCTATAACGGAGAACTTTATAATACAGAAGACATCCGCTCGGTCTTGAAATCGAAAGGATGGAGCTTCGCTTCCCATTCAGACACCGAAGTGCTGCTCATCAGTTATATAGAATGGGGACCGGATTGTGTCGATCATTTGAATGGAATTTTTGCGTTCAGCGTATGGGAAACGAAACGGAAGCGGCTGTTCCTTGCCAGGGACCGTCTCGGTGTGAAGCCGCTCTTTTACAGTCATCAAGGGGATCGGCTGCTCTATGCCTCCGAGATGAAAGCGATTCTTGCCCATCCTGATGTTGATCCAGCCGTGGACCGCAGCGGTGTGCACGAACTGTTATCGCTCGGCCCTTCCCGTACCCCGGGGCAGGGAGTGTTTAAAGATATTCAGGAGATCCGCCCGGGACACTGTGCTCTTTTTGAAAAAGGGAAACTGTCTGTGAAACGTTACTGGAATGTGAAAAGTGCGCCGCATGAACATACATTTGACGAAACAGTGGATAAAGTCCGGGAGCTTTTTATGGATGCTTCCACACGGCAGCTCGTTTCAGATGTGAAACTCGGAACCTTTTTGTCAGGCGGGGTGGATTCCAGTGCCATTACCGCGGTCGCTGCAGAGATGTATAAGCAGCATCAAAAGGGGACGCTTGAGACATTCTCCATTGATTATAAAGACCAGGCCCGCTTTTTTAAGAAAAATGCTTTCCAGCCGGACAGGGACGAGGCTTTCATACAGCTTGTCAGTCAGCAGCATCAGACAGACCACACAGTGATGGAGGCGGCTACCGAGGATTTGGTGGACCGCTTGAAGCAGGCCGTGGAACTGCGCGACCTTCCTGGGATGGCAGACGTAGACTCGTCTCTCCTCTGGTTTTGTGAGGAGATAAAAAAACATGTGACGGTCGCTTTATCCGGGGAATGTGCCGATGAAATTTTTGGCGGGTATCCGTGGTTTTACAGGAAAGAGGATAAAGAGCGGAAGGGTTTTCCGTGGATCCGTTCCTTGAATGAACGCAATCGGCTCGTCCGGGATGATTTAAAAGGGGACATTGATGTTGAATGGTATATGCTGAAGCGCTATAACGAAACCATCGCCGAGACCCCGCTGCTTGATGGAGAAAGTGAAGATGCAAAGAACCACAGGCAGATGTCTTATTTAAATATGAACTGGTTTATGCAGACGTTGTTGGAGCGGAAAGACCGGATGAGTATGGGCGCGAGTCTCGAGGTTCGTGTACCTTTCAGTGATCACAGGCTGGTGGAATATGTCTGGAATGTCCCGTGGAGCATGAAGTTTCATAACGATCAGGAAAAAGGCCTCCTCCGCCAGGCCCTGCGCGGCATTCTTCCTGACCGGGTCCTGTTCCGGAAAAAGAACCCGTATCCAAAAACGTTCCATCCGGATTATACACAGGCCGTCTGCAAATGGATGGATGAGATTCTGAGCGATGAACGCGCTCCTTTGTTTCAATTATTCGATCGTGATCAAGTGGGAAAGCTGAAAGAGAGCGAAGGGAAGTCGATTGATACCCCGTGGTTCGGTCAACTGATGACAGGCCCGCAGCTGATTGCCCACCTTTGTCAGATCGATCACTGGTTCCGGACGTATCGTGTCCAGCTGTGA	MCGIVGWVDSDSRTEGKASILARMAETLRHRGPDDYQTWIHESAAFGHQRLIVVDPDGGRQPMVRTARDEKFVLCYNGELYNTEDIRSVLKSKGWSFASHSDTEVLLISYIEWGPDCVDHLNGIFAFSVWETKRKRLFLARDRLGVKPLFYSHQGDRLLYASEMKAILAHPDVDPAVDRSGVHELLSLGPSRTPGQGVFKDIQEIRPGHCALFEKGKLSVKRYWNVKSAPHEHTFDETVDKVRELFMDASTRQLVSDVKLGTFLSGGVDSSAITAVAAEMYKQHQKGTLETFSIDYKDQARFFKKNAFQPDRDEAFIQLVSQQHQTDHTVMEAATEDLVDRLKQAVELRDLPGMADVDSSLLWFCEEIKKHVTVALSGECADEIFGGYPWFYRKEDKERKGFPWIRSLNERNRLVRDDLKGDIDVEWYMLKRYNETIAETPLLDGESEDAKNHRQMSYLNMNWFMQTLLERKDRMSMGASLEVRVPFSDHRLVEYVWNVPWSMKFHNDQEKGLLRQALRGILPDRVLFRKKNPYPKTFHPDYTQAVCKWMDEILSDERAPLFQLFDRDQVGKLKESEGKSIDTPWFGQLMTGPQLIAHLCQIDHWFRTYRVQL	PGPT0020150_3111	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ASPARAGINE_DEGRADATION,PGPT0020150-asnB-K01953	NA	NA
AK012_03213	360			hypothetical protein	ATGGCGCACTTACATATTACTTCCTGGGTAATCGCTTTTGTGCTTGTCGGGCTTGTGACGACGTTTGCACGGGGAGGCAGGGAAAAGGCTGCGAAGATTTCGCATATGATTCTACGAGTCTTTTATTTGTTGATCCTGTACTCCGGCGGATCATTGTTTGCGAGTTACTCGGTCTATGGAGCTCTTATCATTATTAAAGTGCTCGTTGGGCTCTGGGTCATTGCTGCGATGGAAATGGTCTGTGTGAAATATAAGAAGAAGAAACCGGCTGCGGTCTGGTGGGGACAACTGCTTGTTGCTGCCATCATCGCCCTGGTACTCGGCTTCGGCTTTCTTGGGGCGGGCATTCTGCCTGCATAA	MAHLHITSWVIAFVLVGLVTTFARGGREKAAKISHMILRVFYLLILYSGGSLFASYSVYGALIIIKVLVGLWVIAAMEMVCVKYKKKKPAAVWWGQLLVAAIIALVLGFGFLGAGILPA				NA	NA	NA	NA	NA
AK012_03214	1197	rocD	COG4992	Ornithine aminotransferase	ATGTCTGTTATAAGCAGTCAAAACATTATCGACCAGACACAGGAATACGGGGCTAAAAACTATCACCCACTGCCGATCGTTATTTCCAAAGCAGAAGGCGTATGGGTGGAAGATCCGGAAGGGAACCGCTACATGGATATGTTAAGCGCTTACTCTGCCGTCAACCAGGGCCACCGTCATCCGAAGATCATCCAGGCTTTAACCGATCAAGCGAGCCGTGTGACTTTAACTTCACGCGCTTTCCATAACGATCAGCTCGGTCCTTGGTATGAGAAGATCTGTAAATTGACGCATAAAGATATGGCGCTGCCGATGAACACTGGTGCAGAAGCTGTTGAAACCGCAATCAAAGCAGCCAGACGCTGGGCTTATGATGTCAAAAAGGTGGAGGAGAACCAAGCGGAAATCATCGCCTGCACCGGCAACTTCCACGGCCGGACGATGTCCGCTGTATCCTTGTCTTCTGAAGCTGAATATAAGCGCGGGTTCGGTCCGATGCTTCCCGGCATTAAACTTGTGCCTTACGGCGATATCGAGGCGTTGAAAGAAGCGGTCACAGAAAATACCGCAGCCTTTCTTCTCGAGCCGATCCAAGGGGAGGCCGGCATTGTAATGCCTCCGGAAGGATTCCTTAAAGAAGCGTACGAGGTCTGTAATCAGGAGAATGTCCTGTTTATTGCGGATGAAATCCAGGCCGGACTCGGCCGCAGCGGTAAAATGTTCGCCTGTGACTGGGAAGGGGTTACCCCGGATATGCTGATTCTCGGCAAGGCGCTTGGAGGCGGTGTCTTCCCGATCTCCTGCGTTGTCGCCAATAAGGATATCCTCGGAGTGTTCAACCCGGGCTCCCACGGTTCGACGTTCGGCGGGAACCCGCTTGCCTGTGCTGTATCCACCGCCTCGCTTGAAGTGCTCGAAGAAGAGAAGCTGGCGGAGCGTTCCCTCGAACTCGGTACGTATATGATGGAAGAGTTGAAATCGATCGACAATCCGAAAATCAAGGAGGTCCGCGGGAAAGGGCTCTTTATCGGCGTAGAAATGACTGAGCCTGCCCGTCAATATTGTGAACAATTGAAGGAAAAAGGACTTCTTTGCAAGGAAACGCATGAAAATGTCATCCGATTTGCTCCTCCGCTTGTGATCCAAAAAGAAGATTTAGACTGGGCGATCGAACAGATCAAGACTGTGCTTTCCTAA	MSVISSQNIIDQTQEYGAKNYHPLPIVISKAEGVWVEDPEGNRYMDMLSAYSAVNQGHRHPKIIQALTDQASRVTLTSRAFHNDQLGPWYEKICKLTHKDMALPMNTGAEAVETAIKAARRWAYDVKKVEENQAEIIACTGNFHGRTMSAVSLSSEAEYKRGFGPMLPGIKLVPYGDIEALKEAVTENTAAFLLEPIQGEAGIVMPPEGFLKEAYEVCNQENVLFIADEIQAGLGRSGKMFACDWEGVTPDMLILGKALGGGVFPISCVVANKDILGVFNPGSHGSTFGGNPLACAVSTASLEVLEEEKLAERSLELGTYMMEELKSIDNPKIKEVRGKGLFIGVEMTEPARQYCEQLKEKGLLCKETHENVIRFAPPLVIQKEDLDWAIEQIKTVLS	PGPT0014253_3492	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-PROLINE_METABOLISM,PGPT0014253-argD|pqqI-K00821	NA	NA
AK012_03215	501			hypothetical protein	ATGAAGCAGCGATGGTTTTATGGTCTCGTATCGGCCCAGATTTTGTTTCTTCTCCTGATGGCCGCGGCCTATTATGCGATGGATATGGTGGGAGAAAAAGTCGTTCTGAAAACAGCTCCAGTAGACCCGCGGGACCCTTTTTACGGGGATTATGTGGAGCTCGGTTATGAGATCGAGGAAGTCCCCGGGGACCAGTGGGAGGAAGAAGGAGTCCCGGACAGGGGAGAGAAGGTCTTTCTGCTTCTTGAAGCAGATGATGAAGGCATCTATGAACTCCAAAAGGCCGGGACGGAACGATTTGATTCTGAAAAAGGGCAGGTGGTGCTGCCCGCCCGTTATCTGTGGGAAGATGAGCGTGCCTCCATCCATCACGTGGATATCGGACTCAACCGGTATTATGTTGAAGAAAACACAGGGGAGAGGTGGGAGCAGGGCGAAGAGAGGCTTGTAACCATTGTGCTCGCTCCGTGGAACCAGAAAAAGATCGTCACCCTGGAGTGA	MKQRWFYGLVSAQILFLLLMAAAYYAMDMVGEKVVLKTAPVDPRDPFYGDYVELGYEIEEVPGDQWEEEGVPDRGEKVFLLLEADDEGIYELQKAGTERFDSEKGQVVLPARYLWEDERASIHHVDIGLNRYYVEENTGERWEQGEERLVTIVLAPWNQKKIVTLE				NA	NA	NA	NA	NA
AK012_03216	1200			hypothetical protein	TTGAAGCGTAATCAACTGCTGAAAGAAAGTGAGTGGTGGGTGGAGGAAGCCATCATTACGGAAGCCCAGCGGGAAAAGTTGCTGGAGCACTATCCTGAAAAACAGAATAAGCCGGTGCTGCTCACCTTTGCCGCTTTGTTCATCGGTCTTGGTTTTCTTACTTTTACTGCCTCCAATTGGTCGTATCTGGCTGATTGGGGACGGATGGCTGTTCTTCTCTTGTCCATGTCCGCTTTTTATGTGGCGGGGGAGAGGGTGTACAAAAAGAAATCCGCTCGAGTGGGTTCGAGCCTCATTTTGACAGCGCTGCTGATTTTCGGTGCCGCCATTTTCCTGGTCGGTCAGATGTATCATTATACCGCTTTTAGTGCGTCACCGTTTCTGCTGTGGTCCATGGCTGCAGCAGGCCTGTACGTCGTTATGAGAGAAGGCTTGTTTTATTACGCAGCCGCTGTCATTATCACGGTTGGTCAAGTTTACAGCGGCTTGGTTTTTCAAGACTTCTACGTGTGGCTCGGCCTCCTGCTGCTCGGGGGGCTGGGGTGGGTGGTCTATGAAACGCGTTCCCTTCCGTTTGCCGGAGTTTTTGCTGTTTCCTACTACATCCAGGCCCTTGTGCTTGTCTTCAGCGGCGGGTATCCGTACTACTGGCTGATTATCGGATCGCTGGCCCTTTATATCGCGGATGACTTGATTACTCAAAAAGGTCAGACGAGAATATGGAAAACATCGGCGGTCGTCTTCATGTTTGCGGTCTTTTTCCTGCAGATTTTCTTTCTTGGAGATGGATACGCTGAAACGTTAACGGAATCCTCTCTTTATTTCTTTCTTATCTGGGCGGTTCTGTTCGTCTTGGCTGTTGTCCGTTCGGCTCTGAGTACAACCAATTATTACTGGATTGATCTCCTGTTGTTTATTCCCGTGTTTCGTTTTCCATCCGGAGATCTCTTCTCATTGATCGTCCTGTTCATTTATGCGGTTTTATGGCTGGTTTCCGGCTATCAGCAGGAAGTGCGGCGCTGGGTCAATAAAGGGACGGCGGCCTTCCTGCTGACGACGCTTGCCGCCTACTTCCAGCTGGCCTGGGACTTTATGGACCGTTCCGTCTTCTTCTTCGTCGGAGGTCTCCTATTATTCGTCCTCAGTTATGGACTGGAGAAGAAGCGGCGGTCGTTTCGCAGGGAGGGGGAGGAACAGTGA	MKRNQLLKESEWWVEEAIITEAQREKLLEHYPEKQNKPVLLTFAALFIGLGFLTFTASNWSYLADWGRMAVLLLSMSAFYVAGERVYKKKSARVGSSLILTALLIFGAAIFLVGQMYHYTAFSASPFLLWSMAAAGLYVVMREGLFYYAAAVIITVGQVYSGLVFQDFYVWLGLLLLGGLGWVVYETRSLPFAGVFAVSYYIQALVLVFSGGYPYYWLIIGSLALYIADDLITQKGQTRIWKTSAVVFMFAVFFLQIFFLGDGYAETLTESSLYFFLIWAVLFVLAVVRSALSTTNYYWIDLLLFIPVFRFPSGDLFSLIVLFIYAVLWLVSGYQQEVRRWVNKGTAAFLLTTLAAYFQLAWDFMDRSVFFFVGGLLLFVLSYGLEKKRRSFRREGEEQ				NA	NA	NA	NA	NA
AK012_03217	1191			hypothetical protein	ATGAATACAAAAGCGACTCCCCTCGGGGATTCAGGCAGGCTGGACTGGATCGATGCCGCCCGCGGCCTCGCCATCCTCGGGATCTTCATGGTGAATGTCCCGGCCTTCAACGCCCCGTATTTCCTATACGGCGGACAGGGGGAATTCTGGTCGTCCCCGATGGACCGCACCGTTCAAAGCATCGTGGACATTTTCTTTCAAGCCAGTTTCTATACCTTGTTTTCATTTATGTTCGGGTTTGGGATCCAGATGATGAAGGACCGGCTCGAGGAAAGGGATATTTCCCATCTTCCGGTCATTTACAGGCGGCTTTTCGTTTTAACCGGTTTCGGAATGGTGCACGCCTTTTTAATCTGGCATGGAGATATCCTGCTCAGCTACGGGGTGCTCGGGCTCATCCTCCCGGTCTTTTTTCAAGTGTCTCCCGGGTTTCTGCTTGGGTGGGCATTCGGTCTGCTCGGGATTCTCACGCTTCCTTTTACGCTTGCCCTTTATGTGAGCCGGGGTCAGTTTCAGGGATCTGTGAATCGTCCTGCGATTGAGAGCGCGTTGAGCAATTATGGGAATGGTTCACTGCTGGATATCTGGCAGCAGAACCTTACAGACTGGCAGTATGCCAATGCCATCAGCAATCTTCCATTTTTAGTGCTGAGTCTTGTACCGATGTTTCTATTAGGCATGTATGTGTGCCGGAAACGGTGGCTTCATGAGCCGGACGCCCACAGGAGTACGATCCTTAAGGTGTGGGTGGTTACAGGCATTCTGTTTGTCGCGTTGAAAGCCGGCCCTCACTTCTATGGGAATCCGTTTTGGTTCGGCCTTATGCAGGACGGTGCCGGGGGCTCTGCTTCTGCCATCTTTTACGTCTTATCTATTACTCTATTGTTCCGCACGGAAATGGGTGCCAGACTGGCCTCCCCGTTGGTATGGGTGGGACGGATGTCGTTGTCCAATTATATTCTGCAGTCGATCTTCTGCTTTGTGCTGTTTTATTCCGCCGGCTTCGGGTTGTATGGGAAGGTGGCACCTGCAGGAAGTATGACGATTGTCATCCTGTTTTACATGATCCAAGTATTCCTCAGCCGGTTCTGGCTGAAAAATTACCGTTATGGGCCGTTGGAATGGCTGTGGCGGACGCTCACCTATGGACAGAAACAACCGAATAAACGCCGGAAAAAGGCAGTTTCTTAA	MNTKATPLGDSGRLDWIDAARGLAILGIFMVNVPAFNAPYFLYGGQGEFWSSPMDRTVQSIVDIFFQASFYTLFSFMFGFGIQMMKDRLEERDISHLPVIYRRLFVLTGFGMVHAFLIWHGDILLSYGVLGLILPVFFQVSPGFLLGWAFGLLGILTLPFTLALYVSRGQFQGSVNRPAIESALSNYGNGSLLDIWQQNLTDWQYANAISNLPFLVLSLVPMFLLGMYVCRKRWLHEPDAHRSTILKVWVVTGILFVALKAGPHFYGNPFWFGLMQDGAGGSASAIFYVLSITLLFRTEMGARLASPLVWVGRMSLSNYILQSIFCFVLFYSAGFGLYGKVAPAGSMTIVILFYMIQVFLSRFWLKNYRYGPLEWLWRTLTYGQKQPNKRRKKAVS				NA	NA	NA	NA	NA
AK012_03218	222	gerPA		putative spore germination protein GerPA	ATGCCAGCCAAAGTGGGAGCTGTCAAAGTCATCTCTCTTTCGTCTTCGAGCATCTTCAATATCGGTGATGTGTATTATATGGCTCCTCAAGCAGCCGCCAAAACGTTTGCCGGCGGAGGTTCCTTCAACACCGGTGACGGCATCCGCATCAATATCAACCGGTCGGATACGTTCGTCAATGACTCGGAAAATATCGACCAGCCTATTGTAGGGAATGCGTAG	MPAKVGAVKVISLSSSSIFNIGDVYYMAPQAAAKTFAGGGSFNTGDGIRININRSDTFVNDSENIDQPIVGNA	PGPT0025065_63	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025065-gerPA-K06299	NA	NA
AK012_03219	228	gerPB		putative spore germination protein GerPB	ATGAACATAACCGTTCATCAGTCGATTTACATCCACGTTTTAAGAATCGGCAGTGTCGCCAACTCGTCCATCGTCCAGATCGGAAGTTCCGGAGTGATTCAGTCAAAATCAGAGCTGTACAATTCGGGAGGCTACACAGCACCCGGAAAGAAAGCACAGCCGGAAGACGGAGAAGTCACTGTCCCTGAATTCGGGCCCGGAACACTCGTCCCTCTTTCCATAACATAG	MNITVHQSIYIHVLRIGSVANSSIVQIGSSGVIQSKSELYNSGGYTAPGKKAQPEDGEVTVPEFGPGTLVPLSIT	PGPT0025070_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025070-gerPB-K06300	NA	NA
AK012_03220	561	gerPC		putative spore germination protein GerPC	GTGAACCCGTATTATTCCTGGCAGGCATGGGTGGACCAGATGATGAAGCAGATGGAACAGCAGCAGAAGATGATTGACCAGCTGCAGAAGAAAATCGATCAGCTCCAGTCCACAGAGCCCCCGGCAAAAACCGTCATTGAAAAAATTGAATACCATTTTGACCAGCTTAAGATTGAGACACTGGAAGGAACGCTCCAGATCGGTCTCACCCCGGGCGGGGGCGACCTGTCAGACATTAGTGACCTGTATACAGGGCAGAACCAACACGCTCAACTGCCTGAAACAGATGAACAGGCGCTTCACTTTCTGCACGAATATATGGTTTCCGATATTCCCGGCTGGATGAACCAGTACTGCCGGGATCATGAAAGGAACGTTTCCGATGAGCATCAGGAACGGATGATTGCGGATATAAGAAAACAGCTGCCTCAGCGCCTTGAATATTACCGGGGGGAAAACCCGGGGTCTCCGCCAGAGAAGATTTACCATCAAGTGAAGGCGGAAATTCAGCATTCGATCGCTCAGTATTTGGATAACCTCGAAGGAGATGGTCAAGGATGA	MNPYYSWQAWVDQMMKQMEQQQKMIDQLQKKIDQLQSTEPPAKTVIEKIEYHFDQLKIETLEGTLQIGLTPGGGDLSDISDLYTGQNQHAQLPETDEQALHFLHEYMVSDIPGWMNQYCRDHERNVSDEHQERMIADIRKQLPQRLEYYRGENPGSPPEKIYHQVKAEIQHSIAQYLDNLEGDGQG	PGPT0025075_150	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025075-gerPC-K06301	NA	NA
AK012_03221	228			hypothetical protein	ATGAATCATATCGTCCACAACTACGGACTTCATGTGGGAAACATCCGTGTCACCGGGGTCGCAGCCTCCTCCGTCTTTTTGATCGGTGACAACAAAACGATACGTCTGCAGTCTTTTTTTGATACACCTCCCGAGTCTTTGATTATCGGACCTTTCGACGAAGTGGATACCGACGCGGACGCCGGCTTCGATCCGGAGCCGGAGGGTGGGCAGCCGGCCGATGATTAA	MNHIVHNYGLHVGNIRVTGVAASSVFLIGDNKTIRLQSFFDTPPESLIIGPFDEVDTDADAGFDPEPEGGQPADD	PGPT0025080_16	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025080-gerPD-K06302	NA	NA
AK012_03222	384			hypothetical protein	GTGGGCAGCCGGCCGATGATTAAACGGATGGTCTATACGAATGATATGGAAATCCAGTCACTGGCGATCGGCTCCGTTGCTGACATCGGAGACGTATATAAAGCATCACCAAACTCCAGGGTTCTGGCTGTGCAGAAAGAAGGTCCGGCCTTTGAGGAGGATGTGTATCAGTTCGAGGATTTCTCCATCTTTTCTTTGAAAAATCCCCCGCCTCCACCCCCTCTCAACGTGGAGACCTTTACGTATCAAAACAGCCCGATTACCGTGGATAACGTGAGGGTCGTCGGTGTATCGACAGCCGGCATTTTCCAGACCGGCGGGATCGAGCATATCGAGGCACTCAATTATACGAAGCACTTCCGGATTTTAAAGGATGAACCATAA	MGSRPMIKRMVYTNDMEIQSLAIGSVADIGDVYKASPNSRVLAVQKEGPAFEEDVYQFEDFSIFSLKNPPPPPPLNVETFTYQNSPITVDNVRVVGVSTAGIFQTGGIEHIEALNYTKHFRILKDEP	PGPT0025085_142	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025085-gerPE-K06303	NA	NA
AK012_03223	219	gerPF		putative spore germination protein GerPF	ATGCCTGCGATTGTCGGTCCGATCAACATCAACAGCGTCGGAGGTGGAGTCGTCAACTTTGGGGACTCTTTTTATTTATCGCCGAAAGCGACGTCCAAAACAAATGCAGGATCCGGAGCATTGAATACAGGAAACTGGATTATTACCAATAACGGACTCAGTTCCACCAACCCCTTCGATCCGGATATTGCCGATCAGAATATTACTGCCAACGCCTGA	MPAIVGPININSVGGGVVNFGDSFYLSPKATSKTNAGSGALNTGNWIITNNGLSSTNPFDPDIADQNITANA	PGPT0025090_59	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025090-gerPF-K06304	NA	NA
AK012_03224	285			hypothetical protein	ATGGAGGAAACGTGTGAGCTGTGTGGCCGCTCACCGGTGAAAACGACGGAACATCATCTGGTTCCGAGGCAGTACGGCGGTGTGGAAGGACCGACGATATGGCTGTGCGGGGCCTGTCACCGTCAGATTCATGCGTTGTTCACCAATGAGGAGCTGGCGGGTTTTTATCACACGCCTGAACGTCTCAAGGATCACCCCGCCATGCAGAAATATCTGCGATGGGTGAAAAAACAAGATCCAGAGAAGAACATAACGACAAGAAAATCCAATCGCAGAAAACGTTGA	MEETCELCGRSPVKTTEHHLVPRQYGGVEGPTIWLCGACHRQIHALFTNEELAGFYHTPERLKDHPAMQKYLRWVKKQDPEKNITTRKSNRRKR	PGPT0027235_2135	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
AK012_03225	3720	addA	COG1074	ATP-dependent helicase/nuclease subunit A	ATGGTCAGCTGGACTAAAGAACAGGAGCGGGCGATTTATTCCCACGGATCCGATATTCTTGTTGCAGCTGCGGCCGGTTCAGGAAAAACGGCCGTGCTCGTTGAACGAATCATTCAAAAACTGCTGCACAAGGAGAATCCGGTCGATATCGACTCCCTGCTTGTCGTGACCTTTACGAACGCGGCTGCTCAGGAAATGCGCAACAGGGTGGGGCAGGCGCTCGCCAAAGCACTGGAGGATAATCCAGGGTCCCACCATTTGAAAAAACAGCTGGCCCTGGTGCAGAATGCGTCGATTTCCACCCTGCATGCGTTCTGTATGGACGTAGTGCGCCGGTATGCTTATCTGCTTGATCTTGACCCTGGATTCCGCATTGCGGATACGGTCGAGGCGGACCTTATTCAGCAGGAAGTGCTGGAGGATCTGTTTGAGGACTGGTATGGCAGAGAGGGGGAAGAGCAGGAACGCTTCTTTGACGTTGTGGAGCGCTTTTCAAGCGATCGCAGCGACCTGGATGTGGAAAAGCTCGTCCTTGATCTTTATACCTTCGCCACCCAGAATCCGTGGCCGGACCAGTGGCTCGATCAAATGGCGGCGATGTATGATGTAGGTGAAGAAGAGGAGGAGGAAAATCTGCTGTGGCTGAACCTGCTGAAACAGGAAGTATCCAGCCAGCTGAAAGCGATGGAAACCGAGGCGCAGCAGATGCTCGAACTCACCCGGCAGCCGGACGGCCCGTATGCGTACGGGGAAACCGCCGAAGGCGACCTGGAATTGATTCAGCAGGCGAAGGGGGCGCTGGCTCACTCGTGGTCTGAGCTTCAGGCGTTTATGGCGGGGCAGAAATTCAAAGCTCTTTCCAGAAAGAAAATGGATGCAGACGAAGAGAAAAAGGATGAGGCGAAAAAGATCCGTGATCGGTACAAAAAACGGTGGAATGAACTGAGGGACGAGTGGTTTTCCCGCTCGCTGGAAAGCTATCTGAAGGATATGAAGGATCTTTACCCGGTCATGGAACAGCTGGTCATCATCGTGAAAGACTTTAAGCAGCGCTACGAGCAGTTGAAAAAAGAAAAGGCGATTGTCGACTTTTCCGACCTGGAACACTACTGCCTGAATATCCTCCTTGATGATTCCGCTGCGCCTGATGAACTGGTGGCTTCAACGGTGGCGGAGGGCTTCCAACGCCAGTTTTCTGAAGTGCTGATTGACGAATATCAGGATACCAACCTTGTACAGGAAACGCTGCTCCGTCTGCTGACAGAAGGAAAAGAGGCGGGCCATTTGTTTATGGTAGGCGATGTCAAGCAGAGCATTTACCGCTTCCGCCACGCTGAACCTTCGTTGTTTTTAAATAAATATAAAGCCTATGCTGCGGATGAAAATACGGGGGAGCGCATCGATCTGGCCCGGAACTTTAGAAGCCGGAAGCAGGTGCTGGATGCAGCGAACTATATTTTCCGTCAGGTGCTGGATGAAGAAGTCGGCGAAATGGAATATGAAAAGGAAGCCGAGCTCATTTACAGCAACACCATTTATGATGAACTGACTTCTGATGATACAGAGGCTGAGCTTTTTGTGATCGACCGTGAGTCCCAGGATGGGGAGACGGAAGAAGATGAAGCCTACAAGGATTTGGAAAAGGCACAGCTGGAAGCGCGGGCCTACGGAAAAATGATCCGGCGCTGGCTCGGGTACGAAGGCGGCGAACCTGTCCAGGTCGTGGACAAGGAGACTGGAACGAAGCGCTCGATTCAATACAGGGACATCGTGATTTTGATGCGTTCCATGACATGGGCGCCGACGATCGTCGATGAGCTGAAGCAGCAGGGGATCCCGGTGTACGCGGAACTCTCGACCGGATATTTTGAAGCGATTGAAATCAAGGTTATGCTGAGTATGCTCAAGGTGATTGATAACCCGATGCAGGACATACCGCTCGCTTCGGTATTAAAATCGCCGATTGTCGGTCTGAACGAGGATGAACTTGCCCGGATTCGTCTGGCGAAGAAGCGTTCCACCTATTACGAGGCGATGCAGGCCTATGTTGGAAATGATGAGCTGGATCGTAAAGTGGATGATTTTCTCAAGTTGTTGAAAAGCTTCCGTGAGCGTGCGCGTCAAGGGGCACTGTCGGAGCTGATCTGGGAGATTTACAGAGAAACCGGCTATTACGATTTTGTCGGCGGGATGCCGGGCGGACGGCAGCGTCAGGCCAACCTCCGTGCGCTTTATGACCGCGCGCGTTCCTATGAGGCCACGTCCTTCCGGGGATTGTTCCGTTTTCTGCGGTTCATCGAACGGATTGAAGAGCGCGGGGACGACCTCGGGGCGGCCCGTGCGCTTGGCGAGCAGGAAGATGTTGTCCGGATCATGACGATTCACAAAAGTAAAGGGCTGGAGTTTCCGTTTGTCATCCTTGGGGCTGTCGACAAGCAATTCAACATGATGGATTTGAAAAACCGGTACCTGCTTCATAAAGATTATGGATTCGGAACAAGGTATATCAACCCCCAGAAGCGGCTGATGTATCCGACGCTTGCCTATCATGCCCTGAAGGAAGCGAAACGCCGGGAGCTCCTGGCTGAGGAAATGCGTGTCCTGTATGTAGCGTTGACGAGAGCGAAGGAAAAGCTGGTCATGGTCGGGAACGTCGCTTCTTTTGATAAAAAGCAGAAGAAATGGCAGCTGGCTGCCGATGTGAAGGACTGGGTTCTTCCTCCGCATGACCGGCTCGAGGCAAAATCGTACCTTGACTGGATCGGTTCTGCCTTGATCCGCCACCATCAGGCGGATGAGCTGCGCGGAGACATTGAAGTGCAGACGGCTGAAGCCATTCAGTACGACCATTCCCAGTGGAAGGTGCATATCGCCCACGGCAGTGAGTTTAATGTGCTTGACGAAGTAAAAGAAAAACGGGACGAAGAGCTTCAAAAGGCGGTCCAGGAGTGGACGCCGGTGGATGTGGGAGAGGACGTGGATCCTTCTTATGTGGAGCGGCTGAACTTTGTCTATCCTCATGAGCAGGCCGCCTATACGAGGGCAAAGCAGACGGTAACGGAAATCAAGCGCCAGCGCGAGACACTGGATGAATACTCCAGTGATCAGCTGTTAATCCCCTACCGCGCCCCTATCGTCAGACGGCCGCGCTTTATGCAGGAAGAGAAGAAGCTGACTGCTGCCGAGCGGGGAACAGCGATGCACACCGTCATGCAGCACCTTCCTTTTACCAAGGTATGGACGGCGGCTGAGGTGGAAGAATATGTGGAACATCTCGTATTAAAGGAGATTATCCGCAGAGAGGAAGCGGATGCCGTGGACCCGCAGGCCGTTGCTGATTTCTTCCAGACGTCTGTCGGGGCTGTCGTTCTCGAGGCTGAAACCATGGAACGGGAAATTCCGTTCAGTTTAACGCTTCCGGCCCATGAGGTTTATGCGAAATGGGAAACAGAAACAGAGGAGCAGGTCTTCATCCAAGGGGTGATTGATGTAGTGATCCCTTATGAAGATGGATGGATGATTCTGGATTACAAATCTGACCAGATTCCTGAGCAGGGGGAGAACGTCACTCAAAAATTGGCGGATCGTTACCGGACCCAGCTGGGGCTGTATAAAACGGCTCTCGAGAAGATATGGAAGCAGCCTGTACGGAAAACGTGCCTGTATTTCTTTGATGGGCCGCTCGAGGTGGAGGTGGATACCGATGGAGGAAACGTGTGA	MVSWTKEQERAIYSHGSDILVAAAAGSGKTAVLVERIIQKLLHKENPVDIDSLLVVTFTNAAAQEMRNRVGQALAKALEDNPGSHHLKKQLALVQNASISTLHAFCMDVVRRYAYLLDLDPGFRIADTVEADLIQQEVLEDLFEDWYGREGEEQERFFDVVERFSSDRSDLDVEKLVLDLYTFATQNPWPDQWLDQMAAMYDVGEEEEEENLLWLNLLKQEVSSQLKAMETEAQQMLELTRQPDGPYAYGETAEGDLELIQQAKGALAHSWSELQAFMAGQKFKALSRKKMDADEEKKDEAKKIRDRYKKRWNELRDEWFSRSLESYLKDMKDLYPVMEQLVIIVKDFKQRYEQLKKEKAIVDFSDLEHYCLNILLDDSAAPDELVASTVAEGFQRQFSEVLIDEYQDTNLVQETLLRLLTEGKEAGHLFMVGDVKQSIYRFRHAEPSLFLNKYKAYAADENTGERIDLARNFRSRKQVLDAANYIFRQVLDEEVGEMEYEKEAELIYSNTIYDELTSDDTEAELFVIDRESQDGETEEDEAYKDLEKAQLEARAYGKMIRRWLGYEGGEPVQVVDKETGTKRSIQYRDIVILMRSMTWAPTIVDELKQQGIPVYAELSTGYFEAIEIKVMLSMLKVIDNPMQDIPLASVLKSPIVGLNEDELARIRLAKKRSTYYEAMQAYVGNDELDRKVDDFLKLLKSFRERARQGALSELIWEIYRETGYYDFVGGMPGGRQRQANLRALYDRARSYEATSFRGLFRFLRFIERIEERGDDLGAARALGEQEDVVRIMTIHKSKGLEFPFVILGAVDKQFNMMDLKNRYLLHKDYGFGTRYINPQKRLMYPTLAYHALKEAKRRELLAEEMRVLYVALTRAKEKLVMVGNVASFDKKQKKWQLAADVKDWVLPPHDRLEAKSYLDWIGSALIRHHQADELRGDIEVQTAEAIQYDHSQWKVHIAHGSEFNVLDEVKEKRDEELQKAVQEWTPVDVGEDVDPSYVERLNFVYPHEQAAYTRAKQTVTEIKRQRETLDEYSSDQLLIPYRAPIVRRPRFMQEEKKLTAAERGTAMHTVMQHLPFTKVWTAAEVEEYVEHLVLKEIIRREEADAVDPQAVADFFQTSVGAVVLEAETMEREIPFSLTLPAHEVYAKWETETEEQVFIQGVIDVVIPYEDGWMILDYKSDQIPEQGENVTQKLADRYRTQLGLYKTALEKIWKQPVRKTCLYFFDGPLEVEVDTDGGNV				NA	NA	NA	NA	NA
AK012_03226	3498	addB	COG3857	ATP-dependent helicase/deoxyribonuclease subunit B	ATGGGCTTGCGTTTTTTAATCGGCCGATCGGGAGCAGGGAAAAGCACGCGCTGCCTCGACGAAATCGAACAGCGTCTGCAGAAGGCTCCGCGCGGCCCGGCCATTGTCTATATTGTGCCGGACCAAATGACGTTCCAGCAGGAATACGGCCTGCTGAAACGGGAAGGCATGGAGGGATCGATCAGAGCCCAGGTCTTCAGCTTCTCGCGTCTGGCCTGGCGTGTGCTTCAGGAAACAGGCGGAGGGACGAGGAAGTTTATCAGTTCAACCGGTGTGCAGATGATGCTGCGGAAGATCGTAGAAGAGCGCACCTCCGACTGGCGCGTCTTCCAGAAGGCGGTAGAGAAACAGGGATTCATCGCCCAGCTGGAAGGGATCATTACGGAGTTCAAACGGTACCGGATTACACCTGAGGATCTTCGGTCCCAGATGGATGCGCTGGAGCAGTTCGTTCATTCCACCAGCAAGGAAGAAGGCTTGAAGGAAAAGCTGGACGATCTTTTTTACATTTATGACAAACTTGTCGATGCTCTGAGGGAGCAGTACATAGACGGAGAGGACCAGCTTCAGCTTCTATCTGAAAAAATCGGTGAAGCCGATTATTTGGAAGGTGCGGAAGTCTATATCGATGGTTTCCACAGCTTCACTCCACAGGAATACGGAGTCATTGAAGCCTTATTGAAAAAGGTGAAAAACGTTCACGTCACGCTTACGACTGAGAATCCGGAAGAAACGGGAAATTCGGAACTGGATTTGTTTTATGAGACAAAGCAGACGTATCTTGATTTGAAAAGGACCGCTGAAGAGGCCGGCGCTGCTGTCGATGATGTGGAGGTGCTTGACCATAAAGCGGGCCGGATGAAGGACAACCCCGCCTTCCTCCACTTGGAAAACTTTTATGATGTACGCCCGGCTGAGGCTTATTCCGAACAGGCCCCTGTGACGATTGCCGAAGCCGTGCATCCGCGGGCGGAAGTCGAAGGCGTGGCTCAGAAAATTCTTGAACTCGTCCGCGACCAGGGCTACCGGTTTAAGGATATGGCCGTCCTGATGCGGGAACCGGACGTGTATCACAGTTTGATAGAAACCTTGTTTGATGATTACGGAATTCCTGTTTTTATAGATGAAAAACGGACAATGCTGAATCATCCGATGATTGAACTGATCCGTTCGGGACTGGACGTGGTGGAAGGGAACTTCCGTTATGACGCCGTGTTCCGTTTATTGAAGACCGGCTTTATACCAGCGACCCACTCACGCTGGCCGCTGACAGAGGATGCGATTGATGAACTGGAGAACTATGTGCTTGAATACGGCATCCGCTCCCGAAGTCAGTGGTTTTCAGAGGAACCATGGGTGTACCAGCGGTTCCGCGGATTCGAGCAGGCTTCCAAAACGGATGAGGAGAAGGAAAAGCAGGACCGGATCAACGCCTACCGGGAACAGGTGCGTGAGGCCCTGCAGTCCTTTGATGAACAGCTGCGGGCGGCAGAGACGATTGAAGGCAGGGCCGGTGTGCTGTATAAGTGGCTTGAAAACCTCCGTGTTCCGGAACAGCTGGAAGCGTGGCGGAAGGATTATGATGAACGCGGAGAAATTGAGCGGGGGCGTGAACAGGAGCAGGTGTGGGACGAATGTCTGCAGCTGCTGGATGAAATGGTGGAAATGGCCGGTGAGGAAAAAATGTCGCTGCAGGTCTTCCGGAAAACGCTGGACAGCGGACTGGAAGCTCTGACGTTTGCCCATGTGCCCCCGAGTATGGACCACGTGATTATCGGAAGCGTTGATCGTTCCAGAATGACGGGGATCAAAGCCGGTTTTCTGCTCGGTGTGACGGACGGCATGTGGCCGATGAAGCCGCCGGGTGACGGCATGATCTCGGAACAGGAGCGCTCGCTTCTTGCAGAGCACGGCCTCAAACTCGCTGATGGAAGCAGCCGGCAGCTGCTGGACGATCGTTTTTACGTGTATCTCGCATTGACGATGGCTTCTGAACAGTTATGGGTGAGCTATCCGTTGAGCAATGAAGAAGGAAAATCCAAAGTTCCGGCGCCCCTCATTCAGCGGATCGAAGAGCTGTTCCCGCGCTGCGCAGAGCATGAGTTATGGCAGGAGCCGGATGATCTTCATGATGCACGGCGCTTTATTACCAATCCGTCAAAAACACGGTCTGCCCTGACTGCGCAGTTCTCCAGGTATTTAAAAGGCTATATGATGCAGCCGGTATGGTGGGAACTGCTTAACTGGTACATCGAGCACGAGCCGGCCCATGGACTGACAAACCGCGTGCTGCAGAGCCTCTTTTATAAAAATCAGCCGGTCGATTTGAAAGAAGAAACGACGAATCAGCTGTTTGACAAGAAGATGAAGACCAGTGTATCCCGGCTCGAGACCTATCACCGCTGCTCGTATCAATACTTCGCCCAGCACAGCCTCAACCTGGAGGAGCGCCGGACGTATAAGCTGGACGCGCCTGACATCGGGCAGTTGTTCCATGAAGCGTTGAAGCAGATCACCGAGTGGATCAAGGAAGAAGGCCGCGATTTCTCCCAGCTGCATCGTCCGGAGACGGATCAGTATGCAGAACGGGCGACAAGCTATCTGGCCCCTATTCTGCAGAACCAGATATTGAAGAGCTCCAACCGCTATCAGTACATTCAGAAGAAGCTGCAGCAGGTGATCGCAAGAGCTGCCTTCGTTCTCAGTGAGCAGGCAAGAAAAAGCAGCTTCTCTCCCGTCGGCCTTGAGCTTGGATTCGGGACAGATGATGCCGAGCTTCCGCCGTTGTCCCTCGATCTGCCGAACGGCTATGAACTGATGCTGCGCGGGCGGATTGACAGAGTCGATAAAGCTCTATCACAGGAAGACTTGTTTCTTAGGATCATTGACTATAAATCAAGCAGCAAAGGCTTGAATCTCGTGGATGTCTTTTACGGACTTTCCCTGCAGATGCTCGCTTACCTGGACGTTGTCCTGACGAATGCGGAGCAGTGGCTCGGTATGAATGCCTCCCCTGCAGGAGTGCTGTACTTCCACGTGCATAACCCGATGATTACCGGGAAACAGCTGCTGCAGGATCAGCAGATTGAAGAAGAGATATTCAAGAAGTTTAAAATGCAGGGCCTTCTGCTCGAAAATGAACGGGTGGTCCAGATGATGGACACGGGCCTTGAGAAGGGATACAGCCAGATTGTCCCGGCAGCCCTCAAAGCGAACGGCGGCTTTTACAAAAGTTCGAAAACGGCCGATGCGGAGCGCTTTGACCAGCTGAAAGCCTATATCCGTGACTTGATGGGGCAGGCAGGCACGAAGATTACGAACGGAAAGATTGAACTGGATCCCTACCAGAAAAAACAGCAGGTCGCGTGTGAACACTGCGCGTTTCGTTCCGTCTGTCAGTTTGATCCGACCCTTGAAGGGAACGACTACCGCAAACTGCAGGACTTGAACGATGATGACGTACTGGCACGCCTGGATGGAAGAGAGGAGAATTCATAA	MGLRFLIGRSGAGKSTRCLDEIEQRLQKAPRGPAIVYIVPDQMTFQQEYGLLKREGMEGSIRAQVFSFSRLAWRVLQETGGGTRKFISSTGVQMMLRKIVEERTSDWRVFQKAVEKQGFIAQLEGIITEFKRYRITPEDLRSQMDALEQFVHSTSKEEGLKEKLDDLFYIYDKLVDALREQYIDGEDQLQLLSEKIGEADYLEGAEVYIDGFHSFTPQEYGVIEALLKKVKNVHVTLTTENPEETGNSELDLFYETKQTYLDLKRTAEEAGAAVDDVEVLDHKAGRMKDNPAFLHLENFYDVRPAEAYSEQAPVTIAEAVHPRAEVEGVAQKILELVRDQGYRFKDMAVLMREPDVYHSLIETLFDDYGIPVFIDEKRTMLNHPMIELIRSGLDVVEGNFRYDAVFRLLKTGFIPATHSRWPLTEDAIDELENYVLEYGIRSRSQWFSEEPWVYQRFRGFEQASKTDEEKEKQDRINAYREQVREALQSFDEQLRAAETIEGRAGVLYKWLENLRVPEQLEAWRKDYDERGEIERGREQEQVWDECLQLLDEMVEMAGEEKMSLQVFRKTLDSGLEALTFAHVPPSMDHVIIGSVDRSRMTGIKAGFLLGVTDGMWPMKPPGDGMISEQERSLLAEHGLKLADGSSRQLLDDRFYVYLALTMASEQLWVSYPLSNEEGKSKVPAPLIQRIEELFPRCAEHELWQEPDDLHDARRFITNPSKTRSALTAQFSRYLKGYMMQPVWWELLNWYIEHEPAHGLTNRVLQSLFYKNQPVDLKEETTNQLFDKKMKTSVSRLETYHRCSYQYFAQHSLNLEERRTYKLDAPDIGQLFHEALKQITEWIKEEGRDFSQLHRPETDQYAERATSYLAPILQNQILKSSNRYQYIQKKLQQVIARAAFVLSEQARKSSFSPVGLELGFGTDDAELPPLSLDLPNGYELMLRGRIDRVDKALSQEDLFLRIIDYKSSSKGLNLVDVFYGLSLQMLAYLDVVLTNAEQWLGMNASPAGVLYFHVHNPMITGKQLLQDQQIEEEIFKKFKMQGLLLENERVVQMMDTGLEKGYSQIVPAALKANGGFYKSSKTADAERFDQLKAYIRDLMGQAGTKITNGKIELDPYQKKQQVACEHCAFRSVCQFDPTLEGNDYRKLQDLNDDDVLARLDGREENS				NA	NA	NA	NA	NA
AK012_03227	540	spsB	COG0681	Signal peptidase IB	ATGAAAAAATACCTGAAATGGATACGGACTGTCCTGCTTGCCCTTCTGCTGGCATTTGTTTTCCGGTCCTACTTGTTTGCAAGTTATGTCGTCGATGGGGAGTCTATGGAGCCTACCCTTTATGACGGCAACCTTTTGATGGTGAACAAAGCGGTATATGACTGGAGCGAGATAGACAGGCAGCAGGTCATCGTGTTTCACGCAAATGAAGAAGAAGATTATGTAAAACGTGTGATCGGCATTCCCGGCGATGAAATAGAGTTTAAGAATGATCAGCTTTATGTGAACGGCGTGCTTTTGGATGAAAGTTATCTTGATGATCTTCGTCCGAATGATGGTCTTCCATTTACTGAGGATTTTACGCTTGAGGAAGTGACCGGCTCAGCGACAGTGCCTGAAGGTCATTTGTTCGTGATGGGGGATAATCGCAGAGACAGTCTGGACAGCCGCTATTTCGGATTTGTATCGGAGGATACGGTCGTCGGTAAGGTGGATATCCGCTACTGGCCGTTCAGTCAGGCTGGAATCCAGTTCAATTAG	MKKYLKWIRTVLLALLLAFVFRSYLFASYVVDGESMEPTLYDGNLLMVNKAVYDWSEIDRQQVIVFHANEEEDYVKRVIGIPGDEIEFKNDQLYVNGVLLDESYLDDLRPNDGLPFTEDFTLEEVTGSATVPEGHLFVMGDNRRDSLDSRYFGFVSEDTVVGKVDIRYWPFSQAGIQFN				NA	NA	NA	NA	NA
AK012_03228	648			hypothetical protein	ATGGACGTTGTATTTGAAAAAATCAATCAATGGCGGCATTTGGCCGAGAACGATCAGCTGTTTGACTATATCATCCGCCAGCTGGAGGAGCTGGACCGGTTCGGGCCGCTTCCCGGCATTCTTCTTCCCCTGCTGGAAGCTTTTCTTCCTTTTCTCCCCTTAGTGGCCTTTGTGCTCGCTAATTCGGTGGTGTACGGGCTGCTCCGGGGATTTTTGTATTCGTGGATCGGATCGGTCATCGGTGCTGTCAGTATCTTTCTCATCATCCGGCGGCTCGGAGACAAAAAGCTGTTCCGGGCCATTACGGAACAGAAGCAGGTAAAGCGGGTGGTTGTCTGGGTGGAGGAGCACGGCTTTGGACCTTTGTTCCTGCTGATGTGCTTTCCTTTTTCGCCATCTGCGGTCATTAATGTCGTTTCCGGCTTGTCCAAGGTCAGCCGGCAGCAGTTTATCCTCGCCGTTCTTTTAGGGAAATCGGTCATGATTTTCACCATTTCCTACGTCGGCTCAAGCATTGCCTCTTTCGCTCAGAATCCAGTGAAATCGATTGTTGTCGGTATCTGTATTCTTCTTTTCTGGATTCTTGGAAAATATCTGGAGGGGCGGATTCAGAGGAAGACAGAGAGGAAGGTGCACCGTGACGGTTAA	MDVVFEKINQWRHLAENDQLFDYIIRQLEELDRFGPLPGILLPLLEAFLPFLPLVAFVLANSVVYGLLRGFLYSWIGSVIGAVSIFLIIRRLGDKKLFRAITEQKQVKRVVVWVEEHGFGPLFLLMCFPFSPSAVINVVSGLSKVSRQQFILAVLLGKSVMIFTISYVGSSIASFAQNPVKSIVVGICILLFWILGKYLEGRIQRKTERKVHRDG				NA	NA	NA	NA	NA
AK012_03229	417			hypothetical protein	ATGAGGTACTTAAAACAGAAAGAATTGAATCTCGCTTCCCGCTACTTGTTTTTATCTATGGCGGTTACGGTCATCAGACAGGATCGGAAACACGTGGAACAGGGGAAATTCAAAATAAAGGAGCCGTACATGGAGCTGCTGGGTAAAATGGAGCTCGAAGCGCGTAAAGAACGAAAAGAATTGAGAAAACAGATGGATGCCATGAAAATCCAGGTTGTGGAGTCCGGACGTAATGATTCCTTCACGTCTTTTCTGTTTCTTGCCCACGGCTATGAGGAAAAGCGGAACTACTTCAACCCGGCCATCCGCAAAAAGGTGGAGAACATTCTTTTCGAGCTTATGAAAAGGTCTCAGCAATCCGGTCCGCCCGCCGCTCAGAAGCAGCCGGCCCACCACGAAAACGGTCTTCGAGAATAA	MRYLKQKELNLASRYLFLSMAVTVIRQDRKHVEQGKFKIKEPYMELLGKMELEARKERKELRKQMDAMKIQVVESGRNDSFTSFLFLAHGYEEKRNYFNPAIRKKVENILFELMKRSQQSGPPAAQKQPAHHENGLRE				NA	NA	NA	NA	NA
AK012_03230	528	comK	COG4903	Competence transcription factor	ATGACGCATGTGCAGAAAACAGAATACGAAATCAATCCGAAGACGATGGCGCTGGTTGCTGTCCAGCAGGATAATAGACAAGTCTTTACCGAAGTTGTGGAGCGGGAGGAACGCTTCTATGTGCACGCGGCTCCCAGTACGATCGTGGATGATTCCTGCCGTTATTTCGCCAGCAGTCTGGACGGGCGCATGGCCGGGACGAAACAGCTGACAAGCTACACGCATAAACCTCCGATTGTCATCTCCGAAGCGATGGGTATTTATTTCTTCCCTATTATTTCCCCGAAACGAAAAGAGTGCTCCTGGGTCGCCCACAAATATATCCGAACCTTCAACGGTGAGCGTGATAAGACGACGACCGTCCAGTTTGGACAGGGGACATCCATCAATTTTCCTGTTTCTGACGGCATGTTTGCCAATCAGGTGCAGCGCACCGCTCATCTGCGCGTTATTCTCGAAGACCGTTTTCGTGGTGGGCCGGCTGCTTCTGAGCGGCGGGCGGACCGGATTGCTGAGACCTTTTCATAA	MTHVQKTEYEINPKTMALVAVQQDNRQVFTEVVEREERFYVHAAPSTIVDDSCRYFASSLDGRMAGTKQLTSYTHKPPIVISEAMGIYFFPIISPKRKECSWVAHKYIRTFNGERDKTTTVQFGQGTSINFPVSDGMFANQVQRTAHLRVILEDRFRGGPAASERRADRIAETFS	PGPT0025815_231	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-TYPE_II_SECRETION_SYSTEMS	CE-T2SS-COMPETENCE-RELATED_DNA_TRANSFORMATION_TRANSPORT,PGPT0025815-comK-K02250	NA	NA
AK012_03231	105			hypothetical protein	ATGAAAGGTCAGCCTGAACTTGAGGTTTTCACCCTGCTCAATCCGGATTTCGGACAGAAAGGGGAGGAAAAGAAAGACGCTTCCCCGGAAGGCAGCGGCTGTTAA	MKGQPELEVFTLLNPDFGQKGEEKKDASPEGSGC				NA	NA	NA	NA	NA
AK012_03232	465			hypothetical protein	ATGTGGAAACGTAAAAAGAAATCTTCGCCAACCAGCAAAAAGCAGACGCTGGAAGTCCGCGATTTATCGATCCACGATGTCCGTAAAGCCGTCCATGCCTTCGCTGATCACAAACCAGGAGATGTTCCATTGAGTGTCCTCATTAATCAGGACCTGACATTGGATTATGATCTGCTGGCTCCTTATCTCGACGGCCTTCCGGAGAAGAACTACTATATGTCCAGAGAAACCTATGAACTTTTTGAAGAAGACGACCTCGACTTAGCTCAGGACCTGGACCTCGTGCAATATGCCGTGGATCAATACATGAAGCTGACACAGGAGCTTCCCGTCATTGATCATGATCCTTATAAACGGATAAATTATTATAAGCTGGAAAAACATGATTTGTTACAGCGCCGCCCAAATCGCGACTTTTATCTCACAGACGAGGAATTTATGATTACCTATAAGAAACCGAAGTGA	MWKRKKKSSPTSKKQTLEVRDLSIHDVRKAVHAFADHKPGDVPLSVLINQDLTLDYDLLAPYLDGLPEKNYYMSRETYELFEEDDLDLAQDLDLVQYAVDQYMKLTQELPVIDHDPYKRINYYKLEKHDLLQRRPNRDFYLTDEEFMITYKKPK				NA	NA	NA	NA	NA
AK012_03233	936			hypothetical protein	ATGGAGGAACAATTATCTCGATTGATGGAAGCCAGGAAGGACCTGCATACATTGGAACGTTTGGAACGTGAACATGGACAGCTCGAAAATGAGCTCCAGGAGGCGCGTGAAAAAGAAGGACGCTTTGCCCGTAAATTGGAGGAGGAGAAGGAAGATGTGGAAAAGCTGGAACGTGTCAGTTTGAGTCATCTGTTTGTTGTCCTTACGGGTCAAAAGCTGGAACGGATGGAAAAAGAAAAGCAGGAAGTGGTCGAGGCTGGTGTCAAATGGCGGGAGGCTGAAAAGTCCCGGAAGGAAATCGAAGAGGAAATACAGAGCGTTGAAGAACGAATGCAGAGGCTGAGCGATGCGCGGACGCATTATCGTTCTCTCTATGAGGAAAGAAAAAAGGCCCTCGTCTCCGACGGAGGTGATAGAGGGGAGCGGCTGTTGGAACTGAGTGGACAGCGGTCGCAGATTCAAGCTGAGCTGACGGAAATTGAAGAGGCCGTACAGGCAGGGAAAGACGCGCATAAAGCCTTGGAAACCGCTTCCGGTTATTTAACGAAAGCGGAAAACTGGGGCATGGTCGATATGTTCGGCGGTGGTCTTCTATCCACAGCGGTTAAGCATTCAAAAATGGACGAGGCGGAAGAAGCCGTACATACCGCACAGCAGCATTTGCGGAAGTTTGCAAACGAAATGGCGGATATTGGGGAATTCACCCATGCGGACCTCCGTATATCTGAGGGGTGGACGATTGCCGATTACTTTCTGGACGGTTTGATTGTGGATCTGTTTGTACAGGATAAAATCCAGAAATCACACGAAGAAGTGCGAAAGATTCGAAAACAGACGCACGATTCTCTAGTCGACCTGGAGTCTCTGCAGCGGGATTATGAAGGGAAAGAGTCGGAGTTGAAGGAAGAACAGGACAGCCTGATCAAATCCTCCTAG	MEEQLSRLMEARKDLHTLERLEREHGQLENELQEAREKEGRFARKLEEEKEDVEKLERVSLSHLFVVLTGQKLERMEKEKQEVVEAGVKWREAEKSRKEIEEEIQSVEERMQRLSDARTHYRSLYEERKKALVSDGGDRGERLLELSGQRSQIQAELTEIEEAVQAGKDAHKALETASGYLTKAENWGMVDMFGGGLLSTAVKHSKMDEAEEAVHTAQQHLRKFANEMADIGEFTHADLRISEGWTIADYFLDGLIVDLFVQDKIQKSHEEVRKIRKQTHDSLVDLESLQRDYEGKESELKEEQDSLIKSS				NA	NA	NA	NA	NA
AK012_03234	1548	yhcR	COG0737	Endonuclease YhcR	ATGAGAACGTTCAAACGTCGAATGCCGCTGTTGATGGGGCTGCTGCTTGTTACGGGTTTTTTGCTGGCTGCGGAAACCCTCTATTCTGAAGAACGTGTGGATATCCAGCTTCTCGGTGTCAACGATCTCCATGGACAGCTGGATACAGGACTGACCTTTGATGGAAAGCCGGCAGGGGGTGCAGATTACCTGGCTGCTTACTTGAAAGCCTATGAAAAGGAAAACCCTCATACCTTTCTCGTCCACGCAGGGGATATGATAGGAGGAAGCCCGCCGATATCGTCCTTGTTTCAGGATGAACCAACCGTTGAATGGATGAATAGGATGGACTTTGATGTTGGAACACTAGGAAACCATGAACTGGACGAAGGGGTGGAGGAAATGACGCGCCTTCTCGACGGAGGCTGGCATAAGCAGACCGGAACGTTTCCAGGATCGACCACGCCTTATATCGCGGCGAATGTCGTGGATGAAAATACGGGAGATCCGCTTCTTCCTTCCTACATCATAAAAGAGATCAATGGCGCTGCCGTCGGTTTTATTGGCGTGGTAACAACGGATACGAGAGATTACGTCCTCGATGAGAACCTCGACGGCGTTGAGATTACGGATGAAGTGACTGCGGTCAATCAAGCGGTTCAGGAGTTGAAGGGGGAAGGTGTATCATCCATTATCGTTCTCGGCCACGTACCGGCCAAATCGGACAAATCCGGTACAAAAGGCTCGGAGTCTTTTGTGGAAATGGCTGCAGCGATGGATGATGAAGTGGATGTTCTGTTTGCAGGTCATAGTCACACGTATGCAAATATTGAAGTGGATGGAAAGCTTATCGTTCAAGCGTATTCATACGGCCGTGCTTTTTCCAAAGTGGGCCTGACGATCGATCCGGCTACTCAGGATATAGTGAATAAAGAAGCGGAGATTATTGTGACGTACCACGATGGGATGGATCCGGACCCTGAGACGCAGACGCTGCTGGAACCGTATCAGACTCAGATCGAGGAGGAGTATCACCAGGTGCTTGGAGAGACAACCCATGGTTTGTCACGGAAAAAAGATGAATCGGCACGCTCACCACTTGGTGAACTTGTGGCCGGGGCGCTGTTGGAGGATAGGCAGGCGGATATGGCCTTCGTGCATCATGGCGGCATTCGTCAGAGTGTGCCCCGGGGACCCATTCGAGCTGTAGATCTGCACGCGGCTCTCCCATTCAAGCATTATGGTGTCACTCTTACAATGACCGGAAAACAGATAGAGGCGGCACTTCTTGAACAGTGGAAGGAAGACCGGACGAATTGGCTTCAGCCTGCAGGGATGACATACAAATGGAAAAAGGAATCCGGGCATATATCTGTCTATGATCTGCGCGATCAGGACGGGAACCTGGTGAATCCAGGTCAGACTTATACCGTGGCTGTCACCCAGTATCTAGCCTATGGAGGAGATGGCTTTGAAGCTTTCGGACGCGGAGAACTTCAGCGGGAAGGAGAGCTCCTTGTCGATATCGTATCTGATCATATAGCTGAAAACAGCCTGATGGAGGAATAG	MRTFKRRMPLLMGLLLVTGFLLAAETLYSEERVDIQLLGVNDLHGQLDTGLTFDGKPAGGADYLAAYLKAYEKENPHTFLVHAGDMIGGSPPISSLFQDEPTVEWMNRMDFDVGTLGNHELDEGVEEMTRLLDGGWHKQTGTFPGSTTPYIAANVVDENTGDPLLPSYIIKEINGAAVGFIGVVTTDTRDYVLDENLDGVEITDEVTAVNQAVQELKGEGVSSIIVLGHVPAKSDKSGTKGSESFVEMAAAMDDEVDVLFAGHSHTYANIEVDGKLIVQAYSYGRAFSKVGLTIDPATQDIVNKEAEIIVTYHDGMDPDPETQTLLEPYQTQIEEEYHQVLGETTHGLSRKKDESARSPLGELVAGALLEDRQADMAFVHHGGIRQSVPRGPIRAVDLHAALPFKHYGVTLTMTGKQIEAALLEQWKEDRTNWLQPAGMTYKWKKESGHISVYDLRDQDGNLVNPGQTYTVAVTQYLAYGGDGFEAFGRGELQREGELLVDIVSDHIAENSLMEE	PGPT0013395_1626	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
AK012_03235	1539	lcfB_4	COG0318	Long-chain-fatty-acid--CoA ligase	ATGAATTTAAGCGGACAGCTGATGCTGACGGCTCAAGAAAACCCTGATAAGGATGCCTATATTTTTCAAGGTCATTCGGTCAGCTATAAAGAGTTCGATGCGTCCGTAACGAAATTCGCTTCAACGTTGTCCAGGCTTGGGTATGGAAAAGGAGACCATGTGGCTTTGGTCAGTGGGAACAGCCCGCTGTATATGGTCGGCTTGTACGGAGCTCTGCGTGCCGGAACGACCGTTATTCCGATCAATCCGACCTACACAGCATCAGAAATGGGCTATATTTTAAAAAACGGGGACGTCAAAGCTGTGATTACGATGGATGTCCTGTTGGAAGTCTTTGAACATCTGGATCACCAGAATGATGTGGATCATTATTTTGTTGCTGATACAAACAGCGGGATCGATTTATCCGCTTCTTCATTGTCTACAAAAATGAAATCGTTTACAAATGCAGTGGAGGAGGGCAGCCCGGCCTTTGAGGGTCCGTCCCTTGAAGAAGAGGATATCGGGGTCATCCTGTATACCTCTGGTACGACCGGAAAGCCTAAAGGTGCGATGCTGACTCAGAAGAATTTGTATTCCAACGCCGTTGATGTGGCGGATTATCTGGAGTTTTCCTCCGATGACCGGGTGATTGCCACGCTGCCGATGTTTCATGTTTTCTGCCTGACTGTCTGTCTGAATGCGCCGCTTATGAATGGAGGGACCATCCTCGTCATTCCGAAGTTTTCCCCTCAGGAGGTTTTTGCTGTAGCTGATGAATATAAGGCCACCGTGTTTGCAGGAGTGCCGACGATGTACAACTATCTGCTTCAGACAGGGAAAGATCTGGTGCAGACTTTCCGACACATGCGGTTGTCCATTTCCGGAGGCTCATCGCTGCCTGTCTCCCTGCTGGAATCCTTTGAACAACAGTTTCACGTCCGGATTTCGGAAGGCTATGGATTGTCGGAAGCTTCTCCGGTCACGGCCTTCAACCCGCTGGACCGGCCCAGAAAGGCTGGTTCAATTGGGAAAAACATTAAAAATGTGGAGAATCGTGTGGTGGATGAACTGGGGGAGGATGTCCCTGTCGGTGAAGTCGGAGAATTGATTGTCAAAGGGCCGAATGTGATGAAAGGCTATTATAAAATGCCGGAGGAAACGGCTGTCACGATCCGGGACGGCTGGCTGTATACCGGCGATATGGCCCGGGTGGATGAAGAAGGATATTTCTACATCGTGGACCGGAAAAAAGATATGATTCTTGTCGGAGGCTATAACGTCTATCCACGGGAAGTGGAGGAGGTTTTATACAGCCACGACGATATTACTGAAGTGGCAGTGGTCGGTGCGCCTCATCCCGAGCTTGGGGAAACGGTGATCTGCTTTGTCGTTTCCAGAAATCCATCGCTCGGAGAAGCGGAACTCCTTGATTTCTGCCGCGGGCGCCTCGCCAAGTACAAGTGGCCGTCGCGCATTGAGTTTCTGAATGAACTGCCGAAAAACACGACAGGGAAAATATTAAGGAAAAATTTACGAGAGCAATTGACAAGCTCTTGA	MNLSGQLMLTAQENPDKDAYIFQGHSVSYKEFDASVTKFASTLSRLGYGKGDHVALVSGNSPLYMVGLYGALRAGTTVIPINPTYTASEMGYILKNGDVKAVITMDVLLEVFEHLDHQNDVDHYFVADTNSGIDLSASSLSTKMKSFTNAVEEGSPAFEGPSLEEEDIGVILYTSGTTGKPKGAMLTQKNLYSNAVDVADYLEFSSDDRVIATLPMFHVFCLTVCLNAPLMNGGTILVIPKFSPQEVFAVADEYKATVFAGVPTMYNYLLQTGKDLVQTFRHMRLSISGGSSLPVSLLESFEQQFHVRISEGYGLSEASPVTAFNPLDRPRKAGSIGKNIKNVENRVVDELGEDVPVGEVGELIVKGPNVMKGYYKMPEETAVTIRDGWLYTGDMARVDEEGYFYIVDRKKDMILVGGYNVYPREVEEVLYSHDDITEVAVVGAPHPELGETVICFVVSRNPSLGEAELLDFCRGRLAKYKWPSRIEFLNELPKNTTGKILRKNLREQLTSS	PGPT0008380_13775	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-DSF_BIOSYNTHESIS,PGPT0008380-fadD-K01897	NA	NA
AK012_03236	1011	lplJ	COG0095	Lipoate-protein ligase LplJ	ATGAAAGTGATGCTGTTTATCGATCATGAAGGAATTAATGATCCCAGGATCAACCTGGCGATTGAAGAGTACGCCTTAAAGAATCTCGATATTAATGAAACTTATTTACTGTTCTATATCAATGAACCGTCCATCATCATAGGAAAAAACCAAAACACGGTGGAGGAAATCAATACCAATTACGTAGAGGATCACGGCATTCATGTTGTTCGCCGCCTGTCCGGCGGAGGCGCTGTCTACCATGATCTCGGAAACTTGAATTTCAGCTTTATTACGAAGGATGATGGAGACAGCTTCCATGACTTTGCTAAATTTACAAAGCCGGTGACGGAAGCCTTGAAGAAACTCGGCGTGAACGCGGAGTTGTCCGGGCGGAATGACATTACGGCAGAGGATGGACGGAAAATTTCCGGTAACGCCCAGTTCTCTACACGCGGCCGGATGTTCAGCCATGGGACGTTGATGCTGGATTCTGAAATTGAAAACGTTGTATCCGCATTAAATGTGAAAACGGAAAAGATCAAATCCAAGGGGATCAAATCGATCCGCAGCCGTGTCGCGAACATCTCTGAATTTCTCGAAGAACCGATTACCATGGAGGAATTTAAACAGCTGATCCTGCGCTACATTTTTGATGTGGAGGACGTGAAGGACGTTCCGCAGTATAAGCTGACAGCAGAAGACTGGGACAACATCCATAAGCTCGCCGATGAGCGCTATAAAAACTGGGACTGGAACTACGGACGTTCCCCGAAGTTCAATATCCAGCATACCAAGCGGATTGAAGGAGCAGGGAGTTACGACGTCCGTCTTGACGTAGCCAAAGGGACCATTAAGAACGCAAAAGTGTTTGGAGATTTCTTTGGCGTCGGTGATATTCATGTCATTGAGGATACATTGATTGGATGCAGGTACGAGCGTCAGGCGATCTCTGAAGCCCTGGATGAAGTGGATATCTCCTATTACCTTGGGAAAATATCAAAAGAAGACTTTCTAAACATCCTTTATTAA	MKVMLFIDHEGINDPRINLAIEEYALKNLDINETYLLFYINEPSIIIGKNQNTVEEINTNYVEDHGIHVVRRLSGGGAVYHDLGNLNFSFITKDDGDSFHDFAKFTKPVTEALKKLGVNAELSGRNDITAEDGRKISGNAQFSTRGRMFSHGTLMLDSEIENVVSALNVKTEKIKSKGIKSIRSRVANISEFLEEPITMEEFKQLILRYIFDVEDVKDVPQYKLTAEDWDNIHKLADERYKNWDWNYGRSPKFNIQHTKRIEGAGSYDVRLDVAKGTIKNAKVFGDFFGVGDIHVIEDTLIGCRYERQAISEALDEVDISYYLGKISKEDFLNILY	PGPT0003945_1383	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
AK012_03237	732		COG1234	putative protein	GTGAAAGTGACCATTATCGGATATTGGGGAGCCTATCCTGCAGCAGGAAGTGCGACCTCCGGTTACTTGTTTGAAAAAGATGGATTTACTCTGCTTGTCGATTGTGGCAGTGGGGTTTTATCACGACTGCAGCAGTATAAGAAAGTCACAGACCTTGACGGGGTTCTTCTGTCCCACTACCACCACGACCATGTTGCGGACATCGGGCCGCTTCAGTATGCGATGCTCGTGCAGAACACCCTGCAGGAAACGAACCGGAAGCTTTATCTATACGGCCATCAGGAGGATAAGCAGCAGTTTGAGCGGCTGAGTCATCAGTATACGGAAGGCATCGGGTACGATCCTGAAGAAACGCTCAAACTTGGACCTTTCACCATCGATTTCCAAAAAACGGCCCACCCCGTTCCTTGTTATGGTATGCGGATCAGTGACGGGGACAACACCATCGTTTATACAGCGGACACCAGTTATTTGAAAGTGTGGGGGGCTTTTGCTGAGAACGCAGATCTGTTGATTACAGACACAAACTTCTACCATGGGATGGATGGAAGAGGCCCGGGTCATATGACGAGTACCGAAGCCGCGTCCATTGCGCGTGATGCGGGAGTGGATACGCTCTGGCTCAGCCACCTTCCGCATTTCGGCGATCCCACCCGTCTCCGTCAGGAAGCCCAGGATGTTTTTCAAGGCACCATACAGCTGGCGGAGGAAGGTTTATCCTGGAGTAAATAG	MKVTIIGYWGAYPAAGSATSGYLFEKDGFTLLVDCGSGVLSRLQQYKKVTDLDGVLLSHYHHDHVADIGPLQYAMLVQNTLQETNRKLYLYGHQEDKQQFERLSHQYTEGIGYDPEETLKLGPFTIDFQKTAHPVPCYGMRISDGDNTIVYTADTSYLKVWGAFAENADLLITDTNFYHGMDGRGPGHMTSTEAASIARDAGVDTLWLSHLPHFGDPTRLRQEAQDVFQGTIQLAEEGLSWSK				NA	NA	NA	NA	NA
AK012_03238	267			hypothetical protein	TTGAAATCAGAGGTTCTTTCTATGGATTTTTGTGGAATACTGGAATTAACGGGCAGGGTGATCGCAGTCGTCGCAAACATTACCATAACAGTCGGCTTTTTCCTGAATGACATTTCCACATTGAGCACAGTGCTTTTTCGGCAGGTTACGGAAAAACTCAAGAACATTCATCATGGTAAATCGCCTCCAAGTATTTTTAATGTAAAACCATTGTATTATAACAATATTCAGAAATCAACCATCTGTTATAAAACAAAGCGAAATTAG	MKSEVLSMDFCGILELTGRVIAVVANITITVGFFLNDISTLSTVLFRQVTEKLKNIHHGKSPPSIFNVKPLYYNNIQKSTICYKTKRN				NA	NA	NA	NA	NA
AK012_03239	1014	degA_2	COG1609	HTH-type transcriptional regulator DegA	ATGGCTACGATTGAAGATGTAGCGAAGTTGGCTGGGTTATCAAGGACGACAGTGTCCCGCGTCATAAATGATCAGCCATACGTGACTGAAGAAAAGCGGCAGCGAATCGTCCAGGCCATGAAGGACCTGGGGTATGTCCCCAATTCATCTGCGCGCCGCCTGCGCAGTCAAAAAACAGAAACCATAGCAGTTCTGCTGCCTCGAATTACGAACCCATTCTTCGGAAACTTAATCGAAGCGATGGAGCAGAAAGCATCCGAATGGGGATATCAGGTGATCGTCTGCCAGACCCACCATTCCAGCAAAAAAGAAATCGACTATCTGCAGCTGCTGAAAACGAAGCAGGTGGATGGTGTGATCATGGCTTCCCTTGTTAATGACTGGAAGGATGTCGAACCTTATCTGGAGTCGGGCCCGATTGTGTTCTGCAATGAGTACATGGAGGACGCTTCAATTCCAATGATTCATATGGATCATAAAACGGCCGCCTACGAAGCTGCTGTTCATCTGCTAGAACAGGGGTGTAAACATATTGCCTACGCGAGTGGAGGGCCGGAAAGCCATCTGGGAGCGATGAGGAAACAGGGATTTCTGGAGGCTTTAGAAGAATATGGACGACCTTTTCTCGAGGAGATTAATATTGACTGGGCGATAGATGTGAGTGACGGACAGAAGGTCTTTCATCTCATCCGCAGCGAGTTTCCTTATATTGACGGGGTATTTACAGGATCAGATGAAGTGGCGGCCGGATTGATCTATGAAGCTTCCTCCTCGGACTGGCAGGTGCCGGAGGATCTTGCCGTGGTAGGGTTTGATAATCAAATGGTTTCACTGCTCATGGTACCGTCGGTGACGACCATCCAGCAGCCGGTTATACAGATGGCTGATAAAACGGTGGAAGTGCTCATCCAGCAGCTGCTCCATCCTGGTGCCATCGCCCCTAAGCGGTATGTCTATCCCCATCAGCTTCTGTTAAGAAATTCAACAAAACGAAGAGAGGCAGCCATTCAGTAG	MATIEDVAKLAGLSRTTVSRVINDQPYVTEEKRQRIVQAMKDLGYVPNSSARRLRSQKTETIAVLLPRITNPFFGNLIEAMEQKASEWGYQVIVCQTHHSSKKEIDYLQLLKTKQVDGVIMASLVNDWKDVEPYLESGPIVFCNEYMEDASIPMIHMDHKTAAYEAAVHLLEQGCKHIAYASGGPESHLGAMRKQGFLEALEEYGRPFLEEINIDWAIDVSDGQKVFHLIRSEFPYIDGVFTGSDEVAAGLIYEASSSDWQVPEDLAVVGFDNQMVSLLMVPSVTTIQQPVIQMADKTVEVLIQQLLHPGAIAPKRYVYPHQLLLRNSTKRREAAIQ	PGPT0021075_1034	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021075-cytR-K05499	NA	NA
AK012_03240	1407	hemY	COG1232	Protoporphyrinogen oxidase	ATGGGGGAACGAAAACAAGTCGTAGTTATAGGCGGGGGCATCTCCGGATTGACATCCGCCTATTATCTTCAAAAAAAAGCAGCCGAAAAAGACATCCCTCTCGATGTGTCACTCATAGAAGCCGGCAGTCGTCTGGGCGGTAAAATAGAAACCGTGAAAAGGGACGGGTTCACGATTGAACGCGGTCCCGATTCCTTTCTTGAACGGAAGGAAAGCGCAGGACGCCTGGCCCGTGAAGTCGGGCTGGGGGAGGAGCTCGTTCCCAATGGGACCGGTCAGTCCTACATTTTAGTCAATGGACGACTTCACAAGATGCCGGCAGGATCCTACATGGGAATTCCTACCCGGATCCGTCCTTTCCTTTTTTCCGGGTTGTTTACCCCGGCAGGGAAAATCAGGGCGTCGATGGATCTTGTGAAGTCCAGGAAGACAGTGGAAGGGGATCAGTCACTCGGGCTTTTCTTCCGCCGCCGGCTCGGTAATCAAGTGGTCGAAAACCTGATTGAGCCGCTTTTATCCGGCATTTATGCCGGGGATATCGACCAGCTCAGCCTGAAGGCGACCTTCCCGCAGTTTTATGAGATGGAGCAGGAGCATGGCAGCCTGATCAAAGGACTCCGCCGGACCACTTCGATTCCAAAGCGGAAAAAAGGGGAAAAGAAACCGAGCATGTTCCGCACGCTTAAACACGGGCTCAGCTCTCTGGTTGATGCGGTCGAGGAACAGCTCCATCCGGGTACGGTACAGACAGGTATCAAGGTGAATCACATTGAAAAGCAGGACGACGGCTATCAGCTGATGCTCAGCGATGGAACAGTGAAAGAGGCAGACGCTGTCATTATGGCCGTCCCTCATTTCGCTGTTCAGCGGATGCTGTCCCACTATGATTTTCTTGAACCGTTCAAGGAAACCAATGCTACTTCTGTGGCCAACGTAGCGATGGCTTTTGATGCCTCAGCTGTTAAAAAGGATATTGATGGTACAGGCTTTGTCGTGTCGAGAAACAGCGACTTCCGTATCACCGCTTGTACATGGACCCATAAAAAATGGCCGCATTCGACGCCTGATGGAAAAGTGCTTCTCCGGTGTTATGTCGGGAAGCCCTCAGACCAGGAAATCGTCACGAAGACGGATGAAGAAATCCAGGAGATCGTTTTGAAAGATTTGAATAAAACGATGAACATTACCGATAAACCGGATTTTTCTGTTGTGACGCGCTGGCATGATGCTATGCCTCAGTATAAAGTGGGCCATAAGGAAAAACTGGAGAATATTACAGCGGCCATGGAAAAGAAACTGCCCGGCCTATATCTCGCCGGCGGTTCCTACCGCGGCATCGGTCTACCTGACTGCATTGATCAGGGAGAAGCGGCTGTAGATAAAGTCCTGAAACATCTTTTTGTATAA	MGERKQVVVIGGGISGLTSAYYLQKKAAEKDIPLDVSLIEAGSRLGGKIETVKRDGFTIERGPDSFLERKESAGRLAREVGLGEELVPNGTGQSYILVNGRLHKMPAGSYMGIPTRIRPFLFSGLFTPAGKIRASMDLVKSRKTVEGDQSLGLFFRRRLGNQVVENLIEPLLSGIYAGDIDQLSLKATFPQFYEMEQEHGSLIKGLRRTTSIPKRKKGEKKPSMFRTLKHGLSSLVDAVEEQLHPGTVQTGIKVNHIEKQDDGYQLMLSDGTVKEADAVIMAVPHFAVQRMLSHYDFLEPFKETNATSVANVAMAFDASAVKKDIDGTGFVVSRNSDFRITACTWTHKKWPHSTPDGKVLLRCYVGKPSDQEIVTKTDEEIQEIVLKDLNKTMNITDKPDFSVVTRWHDAMPQYKVGHKEKLENITAAMEKKLPGLYLAGGSYRGIGLPDCIDQGEAAVDKVLKHLFV	PGPT0008475_1350	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008475-hemY-K00231	NA	NA
AK012_03241	933	hemH	COG0276	Ferrochelatase	ATGGCACAGAAAAAAATGGGACTTTTAGTAATGGCTTATGGAACTCCTTATAAAGAAGAAGATTTGGAGCGTTATTACACACACATCCGCCGGGGCAGAAAACCATCGGATGAGCTTCTTCAGGATCTGCGTGATCGTTATGATGCCATCGGAGGCATTTCTCCACTGGCCCGGATCACTGATGATCAGGCGGAAGCAGTGAAGAACGCATTGAATGAAAAACAGGACGATATTGAATTTCACATGTACCTTGGCTTAAAGCACATTGAACCATTTGTGGAAGATGCGGTGGCACAGATGGCCGAAGACGGCATCGACGAAGCGGTTTCCATTGTGCTTGCTCCACATTATTCCACGTACAGCGTGAAATCCTATAATGGACGTGCGAAAGAAGAAGCTGACAAGCATGGCATCACGATCCGTTCTGTGGAAAGCTGGTACGATGCACCGGGCTTTATCGACTACTGGAAGCAGGCCCTGGAAGCAGAATACGGCAAAATGGACGAAGCAGAAAAAGAAAACAGCTGCCTGATTGTATCAGCGCACAGTCTGCCGATGAAGATTTTGGAAGGCGGCGATCCATATCCGGATCAGTTGAAGAAAACAGCGGATCTGATTGCAGAAGCTGCTGGAGTGACCAACTACGAAATCGGCTGGCAGAGTGAAGGAAATACACCAGATCCATGGATCGGTCCGGACGTACAGGACCTGACCCGTGATCTTTATCATGACAAAGGGTATACCACTTTCGTGTATGCGCCGGTCGGCTTCGTTTCCGACCACCTGGAAGTTCTTTATGACAACGACTACGAGTGCAGAGTCGTCTGTGATGAAATCGGAGCAGGCTATTACCGTCCTGAAATGCCGAACACGCATCCGCAGTTTATCGACACTCTTGCCGATGTCGTTCTGAATAAAGCGAAAGAGCAGTAA	MAQKKMGLLVMAYGTPYKEEDLERYYTHIRRGRKPSDELLQDLRDRYDAIGGISPLARITDDQAEAVKNALNEKQDDIEFHMYLGLKHIEPFVEDAVAQMAEDGIDEAVSIVLAPHYSTYSVKSYNGRAKEEADKHGITIRSVESWYDAPGFIDYWKQALEAEYGKMDEAEKENSCLIVSAHSLPMKILEGGDPYPDQLKKTADLIAEAAGVTNYEIGWQSEGNTPDPWIGPDVQDLTRDLYHDKGYTTFVYAPVGFVSDHLEVLYDNDYECRVVCDEIGAGYYRPEMPNTHPQFIDTLADVVLNKAKEQ	PGPT0008485_4727	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
AK012_03242	1038	hemE	COG0407	Uroporphyrinogen decarboxylase	ATGAAGAAAATTGAGAATGACACAATATTGAGAGCTTTCCGCGGTGAAGAAACCGATCATACACCCGTATGGTTTATGCGTCAGGCCGGACGGTCACAGCCTGAGTACCGCAAATTAAAAGAGAAATACTCATTGTTTGAGATCACTCATGAACCGGAATTGTGCGCCTACGTCACACGTCTGCCTGTCGAGCAGTACGGAGTGGACGCCGCCATTCTGTATAAGGACATTATGTCCCCCCTTCCGGCGATTGGTGTGGATGTGGAGATCAAAAAAGGGGTCGGTCCCGTCATCCATAATCCAGTCCGCTCGAAGGACGACATTCTAAAGCTTGGAACCATTGATCCCGAGGCAGATGTTCCTTATGTTTTGGATACCATTCGTCTGCTTACGAAAGAACAGTTGACGGTTCCTCTGATCGGCTTCAGCGGTGCGCCTTTCACATTAGCGAGTTATATGATTGAAGGCGGACCTTCCAAGAACTACAGCAAAACTAAATCATTGATGTACAGTGAGCCGATGACATGGTTTGCTCTCATGGATAAGCTTGCTGATATGGTGATTGAATATGTAAAAGCTCAGGTGGCAGCCGGAGCCGAAGCCATCCAGATTTTCGATTCGTGGGTCGGCTCCCTGAACGTTGAAGATTACCGGACATTTATCAAACCGGTGATGCAGCGGATCTTTTCTGAACTTAAGGAGGAAAATGTTCCGTTGATTACCTTCGGCGTCGGAGCTGGTCATTTGATTCACGAATGGGATGATCTTCCTGTCGATGTCATCGGTCTGGATTGGAGAATGTCGATTACGGAAGCAAGAAACGCAGGGGTGACGAAACCGCTGCAGGGAAACCTGGATCCGACGATTCTATTATCCGACTGGGACGTCATTGAAGAGCGCGCCAAACGGATCATTGATGAGGGAAGGAAGCATCCGTCCCATATCTTTAATCTTGGACATGGTGTGACTCCGGATATCAAACCGGAAACATTGAAGCGTTTGACTAATTTAATCCACACATACTCAAAAAAGAACTAA	MKKIENDTILRAFRGEETDHTPVWFMRQAGRSQPEYRKLKEKYSLFEITHEPELCAYVTRLPVEQYGVDAAILYKDIMSPLPAIGVDVEIKKGVGPVIHNPVRSKDDILKLGTIDPEADVPYVLDTIRLLTKEQLTVPLIGFSGAPFTLASYMIEGGPSKNYSKTKSLMYSEPMTWFALMDKLADMVIEYVKAQVAAGAEAIQIFDSWVGSLNVEDYRTFIKPVMQRIFSELKEENVPLITFGVGAGHLIHEWDDLPVDVIGLDWRMSITEARNAGVTKPLQGNLDPTILLSDWDVIEERAKRIIDEGRKHPSHIFNLGHGVTPDIKPETLKRLTNLIHTYSKKN	PGPT0008465_3698	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0008465-hemE-K01599	NA	NA
AK012_03243	2154	pbpF	COG0744	Penicillin-binding protein 1F	GTGAAACTAAAAAAACAATGGGACAAGCTTCCTTCCTGGGTGAAGAAATGGAAGTGGCCGCTGTTTGCTCTCGGGCTGCTTGTCTTTTTCTTGACTGCAGGTTTTATGACGATTTATTTCGGCGGACGTTTTGTCGTTAATGAGAAGGATTTGATCCTTGATGAAATGACGACAGTGGAAACCGCCGATGGGGAAGTGATCGAACGCATCTATACGAAAAACCGGCAGGTCGTCAGCATCGATCAGATTCCGGAGCATGTACAGGAGGCCTTTACGGCTGTGGAAGACAGCCGCTTCCGGGAGCATTCCGGTGTGGACTTCAAAGGGATTCTCCGTGCCGTGTATAAGGATATCGCCGCCATGAAAAAGGTGGAAGGAGCCAGTACCATCACACAGCAGCTGGCCAAGAATGTATTTTTAACGAATGAAAAGACATGGATGCGTAAGACGAAAGAAGTGATGGCCGCCCTTTATTTGGAGCGGAATCTCACGAAAGACGAAATTTTGGAGCTTTATTTGAACCGGATTTATTTCGGGGAGGGAACGTACGGGATTGAAGCCGCTTGCCAACACTATTTCCAAGCTTCTGTCTCGGATCTCACCATTGCTCAAGGAGCGCTTTTGGCAGGGCTGCCGAAAGCGCCGAACACCTACTCTCCTTTTGAAAATCCGGAGGCGGCCGAAGAGCGCAGGAACGTTGTGCTGGCACGGATGTATGATGTAGGAAGTATTGATGCGGCTGTCATGAAACAGATGCAGGGCACGACGTTAGCTGTGGAAAGAGAAGCAGATACAGAAGAAACGTGGTCCAATAGTTACGTCGATCTCGTTATCCAGGAAGCGGCCGATAAGTATCACATTTCCCGTGATGAACTGAAGCGGGGCGGCTACCGGATCATCGTCGAGATGGATCCGGTGATTCAAAAAATCGCAGCTGGAGAAATGAAATCCGGCGAGTACATTCCCGGAACCGCGGGTCCGGTAGAAGGGGCGCTGACGATTACCGATCACCGGACAGGAGCCATCGCTGCTGCTGTCGGTGGACGGGATTATGTGCACGGTGACTTTAACCGTGTCCTTGCTGAACAACCGCCGGCATCAACGATCAAACCGTTTGCCGTCTACGGCCCGGCGCTCATGATGGATGAATATGATCCATACTCCCTGCTGTCGGATGAACGGCAGGCCTTTGGCGATTTCAACCCAGCAAACTACAACGATGAGTATGAAGGACAGGTGTCGCTCTACGAAGCCCTTGTAGAATCTAAGAACGTGTCGGCGGTGTGGCTGCTTGACCAGATCGGCATCCCTTATGCGAAAACGTATTTAGACAAGCTTGGCCTTTCTACAAATGATGAAGGGCTCGCAATTGCCTTAGGCGGTCTTTCTGAAGGCTTTACACCTCTTCAGATGGCAGAAGCTTACGGGGCGCTTGCACAATCAGGAGTGAAAAAAGACAGCTATACCATTAAGCAGATTTTAGACAGGGATGAACAGGTCATCCATGAACATACCCCCGAAGAGGTGCAGGTGTTTGATGCGCAGACGTCCTGGTATTTGACGGAAATTCTGCAGACGGTCGTCGAGGATGGAACCGCAAGCTCCGGCGACTATTCAAAAGCATTAGCTGGGAAAACCGGAACCCAGCAGGATACAGATGTCTGGTTTGCCGGTTACACCCCGGAATATGCCGGAGCCCTCTGGATGGGCTATGACTCGAATGGAGAAGACAGCCGCCTGGAAGGCAGCAGTGCTTACCCCGCCCGCATGATGAAACGCATCTTAACAAAGATGGACCAGCAGCAGGAGCTTGGCGCGGCGTTCGAACAACCGGAAGGGGTGGAAAGTCTTCCTGATCCAGTGTCCCTTCCTGTGATTACAGATGCAGAGGCCAGTCTCAACCTGGGAGGACTTGCTACGCTGCGCGGAACGATTACGTGGAGCATACCGGAGGATGAGCGGATTATTTACCGTATTTTCAGGGAAGAAGAGGGAGAAGATGTGAAAGTCGGGGAAGTGACCGGCAAAGGGGAGTTCCGCATCAGTGCGTTCAGCGTTTTTGATGAGACCCGCTACTACATCGTCCCAACCGACCCGCTTACAGGTAAAGAAGGACAGCCGTCCAATTCCGTCCGTCTGAACTGGGACTTTTAA	MKLKKQWDKLPSWVKKWKWPLFALGLLVFFLTAGFMTIYFGGRFVVNEKDLILDEMTTVETADGEVIERIYTKNRQVVSIDQIPEHVQEAFTAVEDSRFREHSGVDFKGILRAVYKDIAAMKKVEGASTITQQLAKNVFLTNEKTWMRKTKEVMAALYLERNLTKDEILELYLNRIYFGEGTYGIEAACQHYFQASVSDLTIAQGALLAGLPKAPNTYSPFENPEAAEERRNVVLARMYDVGSIDAAVMKQMQGTTLAVEREADTEETWSNSYVDLVIQEAADKYHISRDELKRGGYRIIVEMDPVIQKIAAGEMKSGEYIPGTAGPVEGALTITDHRTGAIAAAVGGRDYVHGDFNRVLAEQPPASTIKPFAVYGPALMMDEYDPYSLLSDERQAFGDFNPANYNDEYEGQVSLYEALVESKNVSAVWLLDQIGIPYAKTYLDKLGLSTNDEGLAIALGGLSEGFTPLQMAEAYGALAQSGVKKDSYTIKQILDRDEQVIHEHTPEEVQVFDAQTSWYLTEILQTVVEDGTASSGDYSKALAGKTGTQQDTDVWFAGYTPEYAGALWMGYDSNGEDSRLEGSSAYPARMMKRILTKMDQQQELGAAFEQPEGVESLPDPVSLPVITDAEASLNLGGLATLRGTITWSIPEDERIIYRIFREEEGEDVKVGEVTGKGEFRISAFSVFDETRYYIVPTDPLTGKEGQPSNSVRLNWDF	PGPT0023895_251	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-BETA-LACTAM_RESISTANCE,PGPT0023895-pbp2A-K12555	NA	NA
AK012_03244	507	hmoB	COG2329	Heme-degrading monooxygenase HmoB	ATGAAAGTTTCAATGACAAGTGGTACACTGGATTACTTAGCTAAACTGCGGGAGCAGCACCCTGACGCCTCCATATTTTATATGCAGGATCAGGATAAAACCCTCGCTTATTATGAAGGAGATGGTCCTTCGATCTTTTCTGAGGGCCGGGATTATGAAACGGTCGACCACGTGGGACACGTCCAGCCCGGAGGATATGTGGTCATGAATAACATCCCTGTCAGTGAAGAGGGACGCCCGGTCTTTGAAGATCGTTTCAAGCAGCGGGCAGGGAACGTGGAAAACCAGGAAGGTTTCCAGGCCATCCGTATTCTCCGCCCGTTGAAAGGAAATACGTATGTTGTCTTCACCCAGTGGCGGAACCAGCAGGATTTCGAAGACTGGAAGAGTTCCAAATCCTTTGATGATGCCCACAAAAAATCCGGACCGAAACACGCGAAAAAACCTTCCTTTATAGACGGAGACGCCTATATTACGCAGTACCGTATGATTCAGCTTGAAGACTAG	MKVSMTSGTLDYLAKLREQHPDASIFYMQDQDKTLAYYEGDGPSIFSEGRDYETVDHVGHVQPGGYVVMNNIPVSEEGRPVFEDRFKQRAGNVENQEGFQAIRILRPLKGNTYVVFTQWRNQQDFEDWKSSKSFDDAHKKSGPKHAKKPSFIDGDAYITQYRMIQLED				NA	NA	NA	NA	NA
AK012_03245	486			hypothetical protein	ATGAAAAAAGGCATGATTATTTTCGCCAGTGTGCTGGCTGTTCTCGTTGTTGTCCTTATCTTTGTCGTCAATTACCAGAATGATCAAAAGACAGCCGATAATCCTTATGGCAAGGATGAGCTGGACCAGGCTACCATCAACCAGCTGGACGATCCGAATTACCAGAATCAGATTCTGCCGGATGAGCTGGAGGAGGAAATCGAATCGGGAGATCCCGTTACCGTGTATTTCTACAGTCCGACCTGCCCGCACTGTCAGCGGACAACCCCTGTGCTTGTGCCGATGGTAGAGGATATGGATATTGATATGAAGAAAATGAACTTGTTAGAGTTTGATGTATGGACGGCGTACAGTATTCAATCAACACCGACACTCGTCCATTATGAAAATGGTGAAGAACAGGCGAGACTTGTCGGAGAGCAGCCGGAAACGGTGTTTGAGGAATTTTTCCAGGATGAAGTGCTCGATGGATCAGAGGAAGAATAA	MKKGMIIFASVLAVLVVVLIFVVNYQNDQKTADNPYGKDELDQATINQLDDPNYQNQILPDELEEEIESGDPVTVYFYSPTCPHCQRTTPVLVPMVEDMDIDMKKMNLLEFDVWTAYSIQSTPTLVHYENGEEQARLVGEQPETVFEEFFQDEVLDGSEEE	PGPT0013055_1042	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK012_03246	426	bdbC	COG1495	Disulfide bond formation protein C	ATGAAGAAGGATCATGAAATCCGGCTGTTTGTCATCTGGGCGTTGTCCCTGACCGCCCTGGCCGGAAGCTTGTTTTTTTCAGAGGTGCTCGGCTTTCCGCCGTGTGAATGGTGCTGGTATCAGCGTATTCTCATGTACCCGCTCGTTGTCATCTATGGCATGGCCCTTGTGAAGAAGAATATGGCGGTTGCGCTGCCGGGGCTGTTTATGAGCGGAATCGGGATGGGTGTGTCTGCCTGGCATTACAGCCTGCAGAAAATTCCGGCCTTATCTGCCGGTGATTCGTGCGGTCTTGTACCGTGCAGTGGACAGTACATCAATCTGTTCGGTTTCATCACCATTCCGTTTTTAGCGGGAACCGCATTCATCATCATTTTCATCATTCACGTGCTTACAGTGAAAAAGGAAGGAAGTCATCGTTCATGA	MKKDHEIRLFVIWALSLTALAGSLFFSEVLGFPPCEWCWYQRILMYPLVVIYGMALVKKNMAVALPGLFMSGIGMGVSAWHYSLQKIPALSAGDSCGLVPCSGQYINLFGFITIPFLAGTAFIIIFIIHVLTVKKEGSHRS				NA	NA	NA	NA	NA
AK012_03247	627	liaR_3	COG2197	Transcriptional regulatory protein LiaR	ATGATCCGTGTTGTTGTCATCGATGATCATGATGTCGTCCGAAAAGGTGTCATCGCCTATTTGAGTACAGAAGATGACCTGGATATTGTTGGAGAGGCATCGAGTGGAAGAGACGGTGCGGCCGTAGTTAAACAGCAGAAGCCGGATGTTGTCCTCATGGATCTGATCATGGAGGGTGGGACCGGGATTGAAGCCACCGAGGAAATTATGAAAACAGAGGAATGCCGAATCATTATTCTGACGAGCTATTACGATGATGAAAAGGTGTTCCCCGCTCTTGAGGCCGGGGCGTTCAGCTATATGCTGAAAACGTCATCGGCCGATGAAATCGCTGATGCCATCCGGAAGGCTTATGCGGGGGAAAACGTGATCGAACCGAAAGTCGCTACAAAAATGATGAGCCGCTTCCAGAAAGAAAAATCCCTGCATGACGACTTGACGAAGCGGGAGCTGGAAGTACTCAAGTGCATCGGTGAAGGGATGACGAATCAGGAAATCAGTGACGTCCTGTACATCGGGATAAAGACTGTTAAAACCCACGTCAGTCATGTATTGAGCAAGCTTGAGGTGCAGGACCGGACGCAGGCGGCTGTTTATGCCCATCGGAAAGGTCTCGTTCAGGCGTAA	MIRVVVIDDHDVVRKGVIAYLSTEDDLDIVGEASSGRDGAAVVKQQKPDVVLMDLIMEGGTGIEATEEIMKTEECRIIILTSYYDDEKVFPALEAGAFSYMLKTSSADEIADAIRKAYAGENVIEPKVATKMMSRFQKEKSLHDDLTKRELEVLKCIGEGMTNQEISDVLYIGIKTVKTHVSHVLSKLEVQDRTQAAVYAHRKGLVQA	PGPT0014870_551	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
AK012_03248	1065	liaS_2	COG4585	Sensor histidine kinase LiaS	GTGCTGAAAAAATTAAACAGTGTACGCTATATGTTCATCCGTTCCCATCTTTATGGACTTGTCTTGAATACAATGATGCTGCTTGCTGTCCTGTTGTCCATTTTCGTATGGTTCGAGCCGGTATGGCTGGAAGCAGGGGCGATTCTGCTGTTTACTGTCGTGTATGTGTGCATCGGTTTCCTGGTGGCTCTGTATGCTGGATTTCGTTCGAGTGGAGATATGAAGCAGCGGATCGATTATATCTCATCCATGATCACACAGCTGGCGAGAGGTAAATTATCGTCCAGGATTTACTTTCAGGAAGATGACGAAATTGCCGGACTTGGAGATGAATTAAATACACTTGGTGAAAAGCTGCAGCAGCAGAAGGATGCCCTTTTGAAGCTGGCTGATGAAAAGGGGGAACTCGCACGAACGGCCCATAAGGCAGCAGCGATTGAAGAGAGGCAGCGCCTGGCGCGGGATCTCCATGACGCCGTGAGCCAGCAGTTGTTCGGCTTGACCATGATGGCGCAGGCGTCCGGGAAAATTTTTGAGCGCGATCCAGTCCGGGCCAAGGAACAGCTGAGGGAAATGACTCAGATGGCGCTTCAGGCGCAGACAGAAATGAGAGCCCTGCTGCTGCATCTCCGTCCAGTCCATTTGTCCGGAGAGCCTTTTAATGAAGGGGTGGCTGCTTTAATCGAAGAATTGAAGCAGAAATGCCGGATTGATTTTAATATCCATATGGAAGATGTGGAAGGTCTCACGGAAACGATGGAGGAGCAGCTGTTCCGAATTGTTCAGGAAGCCTTATCCAACGTTCTTCGTCATGCTGGGGCGGATGAAGTGAAAATGACCTGCACAAGCGATGGAGAGGAAGTTTTTTTACATATATCTGATAACGGAGCAGGGTTTAATGTGGAGGAGAAAAAAGGGAACAAAGCTTCCTATGGACTGAAGACGATGCAGGAGCGGTGCGAGGAAATCGGCGGCCTTTTTTCACTCCGGTCGAGAAAAGGAGAGGGAACGCACATCGATCTTCGTGTGCCGGTCAGCCGTAAAATGAAGGAGGAATTGGGATGA	MLKKLNSVRYMFIRSHLYGLVLNTMMLLAVLLSIFVWFEPVWLEAGAILLFTVVYVCIGFLVALYAGFRSSGDMKQRIDYISSMITQLARGKLSSRIYFQEDDEIAGLGDELNTLGEKLQQQKDALLKLADEKGELARTAHKAAAIEERQRLARDLHDAVSQQLFGLTMMAQASGKIFERDPVRAKEQLREMTQMALQAQTEMRALLLHLRPVHLSGEPFNEGVAALIEELKQKCRIDFNIHMEDVEGLTETMEEQLFRIVQEALSNVLRHAGADEVKMTCTSDGEEVFLHISDNGAGFNVEEKKGNKASYGLKTMQERCEEIGGLFSLRSRKGEGTHIDLRVPVSRKMKEELG	PGPT0014865_195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG-CELL_WALL-ACTIVE_ANTIBIOTIC_RESISTANCE,PGPT0014865-liaS-K11617	NA	NA
AK012_03249	741	liaF	COG4758	Protein LiaF	ATGAATACGAGGATAGGGAAAGGGCTCGCGGCCTTTCTTTTGATCGCTGCCGGAGTTGTTCTTTTGTTAGCTAATATTGAAATCATTTCCCTGGAAATGAATCTATCCTGGGGAATGATTTATCCGCTTTTCATTCTGCTGCTTGGTTTGAAATTGTGGGGAAGTGCTTATTTCAGAAGAGGGGGCAGCTGGACAGCCGGCTCATTTCTGACGGTTTTTGCTGTCCTGCTGATTCTGGACAGGTTCGGAATCATGACCTTCCGCTTTTGGGATTTATGGAAGCTCTGGCCGATGCTGTTCATTTATATCGGATTCGGAATCATGAAGGGAAGAAGCCGGAACAGGAATCAGCAATTTTTTGATCAGCCGCTGCCTGTATCGAGAACGCTGGCCGTCGGGGATTTCTCGTTCACCGAAGAAAACTGGAAAGTGGAACCTATGAACGTATGGAGCGCCGTCAGTGATTACAAATTTGATTTTACAAAAGCGTTCATACCGGATGAGGATATTCCCATCCGTGTGGCCGGCTGGGCGGGGGATGTCCGTATGTTCGTCCCCAGACAGGTGCCTTTTCGTGTGGACGCGAAGGTGAGGGCCGGGGATATTAAAGTAGCTGGTCAGAAGGCGGATGGAATCAACCGCATCATTCAATATGAAACACGGGATTATCAAGAGGCCGGCCGCAAGCTGACCATTCAGATTGAATTGACAGCCGGATCCATTAAAGTGGTTCAGGTGTAA	MNTRIGKGLAAFLLIAAGVVLLLANIEIISLEMNLSWGMIYPLFILLLGLKLWGSAYFRRGGSWTAGSFLTVFAVLLILDRFGIMTFRFWDLWKLWPMLFIYIGFGIMKGRSRNRNQQFFDQPLPVSRTLAVGDFSFTEENWKVEPMNVWSAVSDYKFDFTKAFIPDEDIPIRVAGWAGDVRMFVPRQVPFRVDAKVRAGDIKVAGQKADGINRIIQYETRDYQEAGRKLTIQIELTAGSIKVVQV	PGPT0028815_88	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
AK012_03250	438			hypothetical protein	ATGGATGAAAAAATGAAAGCCCTCATTGATGGACTGAACGAAGACCTCGCACACGAATATGCCGCTTCCATTATGTACACCTATAATGCGGCGGTCGTAACAGGACTCTATCGTTCTGTATTGAAGCCGTTTTTCGAAGATGAAGTCACCGATGAACAGGGTCATGCCTTGTATTTAGCTGAAAAAATCAGCACACTTGGAGGCACACCGACAACAACTCCGGCAGAAGTGAAGCAGTTGAAAGAAGTTCGTCCAATGCTTGAGGAAGCACGCGAAGCAGAGAGACAGACGATCCAGCGCTACGAAGAAAGAAAACAGCAGGCGGAAGAACTGAACCTGACAGAGCTTTCCGTCAAACTTGATGATATGATTTCAGATGAAACCTCCCATATGGAGGAAATCAGCCGCCTTCTTCAGGATTCCAGACTGCAGGACTGA	MDEKMKALIDGLNEDLAHEYAASIMYTYNAAVVTGLYRSVLKPFFEDEVTDEQGHALYLAEKISTLGGTPTTTPAEVKQLKEVRPMLEEAREAERQTIQRYEERKQQAEELNLTELSVKLDDMISDETSHMEEISRLLQDSRLQD	PGPT0003965_3116	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-RELATED_PROTEINS_FERRITIN,PGPT0003965-bfr-K03594	NA	NA
AK012_03251	1179			N-acetyldiaminopimelate deacetylase	ATGAGGGAAAATGTTTTTCAGGCCATCGACCGTCAATACGACAAGATGGTGGAAACACGACGGTATCTCCACCAATACCCGGAGGTTTCTTTCCACGAAGAGAAGACCGCACAATTTATCGCAGATACATATGAAAGACTGGGGATCCCCTATGAAAGCGGAGTCGGTGGAAATGGAGTGGTCGCCACATTGAAAGGTGGAAAACCAGGCAGAACGGTTGCTCTGCGGGCCGATTTTGATGCCCTGCCGATCCAGGAGGAGAATGATGTTCCCTACCGCTCTAAGCATGACGGAGCGATGCATGCCTGCGGACATGACGGCCATACGGCAGCCCTTTTAGGACTGGCCGAAGCCCTTGCGCCCTATCAGAGCGAACTCCCGGGCACGGTCCTGTTCCTCCACCAGCACGCCGAGGAATATGCTCCCGGCGGCGCCAAGCCGATGGTCGAAGCAGGCGCCATTGAAGAAGCAGATGCTGTCTTCGGCACGCACTTATGGGTCAATGCACCGACAGGGGTCATTCAAACGTCGAAGGGGCCGTTCATGGCTGGTGCAGATCGTTTTGAAATTACGATCAAAGGTAAAGGCGGACACGGGGCCCAGCCTCACCAGACGAAAGATGCCATCGTCATCGCTTCCCAGCTCGTGACGACGCTGCAGCAGATTGTCAGCCGGCGGATCGATCCCCTGAAGACGGCGGTCGTTACTGTCGGAACTTTGGAAGCGGGCGGCACCTTTAATGTCATCGCTGACTCAGCCAAGCTGACCGGAACCGTCCGGACCTTTGACGCCGATGTGCAGGAGCTGATTATCAGCGAAATGGAAAAAATCATTAAAGGCACGTGCCAGGGATATGATGCCGACTATGACTTCCTTTATGAGAAAGGTTATCCACCGGTTATCAACCACACCGATGAAGCCGAAATCGTTTTGGAACATGCGCACAAAGCAGCCGATTCCCTTGTTACCGAGGAAGTGGAACCCGTTATGGCCGGGGAGGACTTCGCTTATTACTTATTGGAGAAGCCCGGCGCTTACTACTTTACAGGAGCTCAGATTCCGGATCACTACTACCCGCACCACCATCCGAAATTTGACTTTGACGAGACTGCCCTGCCTCACGCTGCAAAGACACTGTTTCAGGTTTATATGAGCTACCAGGAAAAACACGGGTCTTAA	MRENVFQAIDRQYDKMVETRRYLHQYPEVSFHEEKTAQFIADTYERLGIPYESGVGGNGVVATLKGGKPGRTVALRADFDALPIQEENDVPYRSKHDGAMHACGHDGHTAALLGLAEALAPYQSELPGTVLFLHQHAEEYAPGGAKPMVEAGAIEEADAVFGTHLWVNAPTGVIQTSKGPFMAGADRFEITIKGKGGHGAQPHQTKDAIVIASQLVTTLQQIVSRRIDPLKTAVVTVGTLEAGGTFNVIADSAKLTGTVRTFDADVQELIISEMEKIIKGTCQGYDADYDFLYEKGYPPVINHTDEAEIVLEHAHKAADSLVTEEVEPVMAGEDFAYYLLEKPGAYYFTGAQIPDHYYPHHHPKFDFDETALPHAAKTLFQVYMSYQEKHGS				NA	NA	NA	NA	NA
AK012_03252	702			hypothetical protein	TTGAACTATGAACAAAAGGTAAAAAAAGAGGCTGTACGCTGGAGCCGGTCCCTGGACAAACGGTCTGCCCTTCTGCAGCGGACGTCAAAGCCGTTTCAGCAGCGGATCAACAACAGAATCCCCAGCCGCATTCATAAGCTGATGACAGAGAGTGTCCGTACCATGATCGAAGCCGCCTTAACCACTTCTGAATATGTCAGACCTGTGGCTGTAGAAGAAGATTGGACCTGGGAAGAGCGGGAGAGGAAGGTTAAAGAACTGCTGAAGCAGTATAAAAGGACGGCATCACTGGAAGGGGCCGGGACGGGGGCCGGCGGTATATGGCTGGGGCTCGCTGACTTTCCCCTGCTGTTAAGTATTCAAATGAAGTTTTTATTTGATGCAGCACAGGTGTGTGGGATGAACATCCATTCCTATGAAAACCGAGTGTACCTGATGCACGTCTTTATGCTGGCTTATTCCAGTGATGAAGTGAGGAAGCAGACGAAGGAAAAAGTGATGAATTGGAAGGATGTTCCGATTGAAGAAAAGACTGTGGACTGGAAAACCCTCCAGATGGAGTACCGGGATACGCTGGATATAGTAAAGCTGCTCCAAATCGTCCCCGGCATCGGTGCCGTCGTCGGCTTTGTTGCCAATGGACGTTTGTTGGAGCAGCTGGGGGAGACGGCTCTACAATCCTTTCGTCTCCGGTTTCTTTAA	MNYEQKVKKEAVRWSRSLDKRSALLQRTSKPFQQRINNRIPSRIHKLMTESVRTMIEAALTTSEYVRPVAVEEDWTWEERERKVKELLKQYKRTASLEGAGTGAGGIWLGLADFPLLLSIQMKFLFDAAQVCGMNIHSYENRVYLMHVFMLAYSSDEVRKQTKEKVMNWKDVPIEEKTVDWKTLQMEYRDTLDIVKLLQIVPGIGAVVGFVANGRLLEQLGETALQSFRLRFL				NA	NA	NA	NA	NA
AK012_03253	1215			hypothetical protein	ATGATTAATGCGAAAGAATTCTGGGCAGCGCGTTTTTCCGGGCACCTAAAAGAAACGAGCCGGTATTTGAAATACATGTTTAATGGTCATATTGCGGTCGCCATGCTGTTTTTCATTTCAGCGTCGGCCTATTATTATCAGCAGTGGCTGCAGGATCTTCCGGAGAACTTTCCCACGGCTTTGGTCACTGCTGTGGCTTTTGGATTTCTGGCCGGCTACAGCCCGGTGCGGACGCTTCTGAAAGAACCGGATCTAGTATTTCTCCTGCCGGCTGAATACCAGCTCAATGATTATTTCAAGCGGTGTCTCTACTACAGTTACCTCGTCCAGCTTTATTTGATCTTCCTTGTGGCCGCTGCTCTCGGCCCATTATATCTGGCGTCTTTTCCAACTCTTGGAGGCAGTCACTATTTCATGATGATCGGTGTCCTCCTTGTGGTGAAGGCTTGGAATATGCTTTCCAACTGGTGGATGCTGAAGGAAAGGAATGGTCGGATACGTCTGATGGACCAGGGAGCTAAGGCCCTCTTGAACGGCTTCATTTTCTTCTTTCTGGCCCGCGGGGACTGGGTGTTTGCCGGCATTGTGACCGTTCTGCTTGCCGGGCTCGTCCTCTACACGTATACACTGGCAAGCCGAAAGGCCGGCCTCGTCTGGGATCTGCTCGTGGAAAAAGACCAGCAGCGGATGCGGGCTTTTTACCGGATCGCCAACATGTTCACCGATGTTCCGCACTTAAAAAACACCGTAAAGAAAAGACACGGCCTCGTCCGGATGCTTATGCAGGGGATTCCATTCCGTCAGGATCACGCCTTTACTTATTTGTTCCGGATTACGTTTGTCAGAAGCAGTGATTATTTAGGAATGTATCTCCGGCTGATCCTTATCGGGGGGCTGGCCATCTGGTTTGTCCCGAACGTCTGGGTGAAAGGGGCATTTGCCCTGCTGTTCCTTTACTTGAGCGGGTTTCAGATGATGACCCTCTGGAATCACCACCGTACCATCATCTGGCTCGATCTTTATCCTGTGCAGCAACAGTGGAAGCAGAAGGCAGTCCTGCAATGGCTGAGGACGATTATGCTATTCCAGACGGTCGTTTTCGGACTGCTGCTTGCTCTTCAATTTCAATGGACAGGGATGATCGGTATCTGGGTGCTTGGTGCCTTGTTCAGTTATGCTTTTGTACAAACGTATGTTAAACAACGACTAAACTAG	MINAKEFWAARFSGHLKETSRYLKYMFNGHIAVAMLFFISASAYYYQQWLQDLPENFPTALVTAVAFGFLAGYSPVRTLLKEPDLVFLLPAEYQLNDYFKRCLYYSYLVQLYLIFLVAAALGPLYLASFPTLGGSHYFMMIGVLLVVKAWNMLSNWWMLKERNGRIRLMDQGAKALLNGFIFFFLARGDWVFAGIVTVLLAGLVLYTYTLASRKAGLVWDLLVEKDQQRMRAFYRIANMFTDVPHLKNTVKKRHGLVRMLMQGIPFRQDHAFTYLFRITFVRSSDYLGMYLRLILIGGLAIWFVPNVWVKGAFALLFLYLSGFQMMTLWNHHRTIIWLDLYPVQQQWKQKAVLQWLRTIMLFQTVVFGLLLALQFQWTGMIGIWVLGALFSYAFVQTYVKQRLN				NA	NA	NA	NA	NA
AK012_03254	744	ecsA_2	COG1131	ABC-type transporter ATP-binding protein EcsA	ATGCAGTCTTTGTTACATATTGAAAACCTCCACGGAGGCTATACGCATAAAAACGTCCTGCACGGCATCAGTCTTGATGTGAAGCCCAGTGAAATCGTCGGGTTGATCGGATTGAACGGCGCGGGCAAAAGTACAACAATTAAGCATATCATCGGATTGATGCAGGCGAAGCAGGGAACGGTTTCCATCAATGGCACCCGTTTTGATGAAGACCCTGAAAAGTACAGGCAGCAGCTCGGGTATATCCCGGAAATGCCGATTCTCTATGATGAGCTCACACTCTATGAGCATCTCCATCTGACAGCTATGGCCTACAACATCCCTGAAGATGTTTTTAAAAAGCGTCTTGATCCATTACTGAAGGAATTCCGTCTGGAGAAAAAGCTGAAATGGTTTCCCGTCCATTTCTCTAAAGGGATGCGCCAGAAGGTGATGATCATGTGCGCCTTTTTGATAGAGCCGGAACTTTATATCGTAGACGAACCGTTCGTAGGCCTCGATCCTCTTGGAATCCAATCCTACCTGCAGATGATGGAGGAAATGAAGGAGAAGGGAGCAGGTATTCTCATGTCGACCCACATTCTGGCGACAGCGGAGAAATACTGTGACCGTTTTGTTATTCTTCACGACGGGGAGATCCGGGCACAGGGGACGCTGGCAGAGCTGCGTCAATCTTTCGGGCGTCCGCACGCTTCCCTGGATGATATCTATGTCGAGCTCACAAAGGAAGAACAGCATGATTAA	MQSLLHIENLHGGYTHKNVLHGISLDVKPSEIVGLIGLNGAGKSTTIKHIIGLMQAKQGTVSINGTRFDEDPEKYRQQLGYIPEMPILYDELTLYEHLHLTAMAYNIPEDVFKKRLDPLLKEFRLEKKLKWFPVHFSKGMRQKVMIMCAFLIEPELYIVDEPFVGLDPLGIQSYLQMMEEMKEKGAGILMSTHILATAEKYCDRFVILHDGEIRAQGTLAELRQSFGRPHASLDDIYVELTKEEQHD	PGPT0006725_27934	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_03255	429	hit	COG0537	Protein hit	ATGGCAGAATCGTGTATCTTTTGTAAGATTATTGACGGAGAAATCCCATCCGCTAAAGTGTATGAAGATGAAAAAGTGTATGCTTTCCTTGATATCAGTCAGGTGACGAAGGGACACACGCTCGTCATCCCTAAGACACACTGCAAAGATATTTACCACACCCACCCCGATACAGCAGCAGCTCTTTTCGCCAGAGTTCCTAAAATTGCCAATGCAATTAAGGAAACGTACGAGCCTGAGGGCTTGAATGTGCTGAACAACAATGAAGAACCAGCCGGACAGTCCGTTTTCCACCTACATATTCATTTGATCCCGAGGTATGGGGATAATGATGGGTTCGGAGCGAAATGGGAAGTCCATTCCGATGATTACTCCCCCGAACAGCTTCAGGCGATTGCCGGGGAAATCAGCGGACGGATTCCCCATTAA	MAESCIFCKIIDGEIPSAKVYEDEKVYAFLDISQVTKGHTLVIPKTHCKDIYHTHPDTAAALFARVPKIANAIKETYEPEGLNVLNNNEEPAGQSVFHLHIHLIPRYGDNDGFGAKWEVHSDDYSPEQLQAIAGEISGRIPH	PGPT0021690_1297	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021690-hit-K19710	NA	NA
AK012_03256	534	trpP		putative tryptophan transport protein	ATGAATATTCGAGTATTAGTTATGTTGTCCCTGCTTGTTGGTATTGGTGCTGTGCTTCATGCGGTGGCTCCACCGTTTTTCTTCGGGATGCGCCCGGACATGATGCTGGCCATGATGTTCCTTGGAATATTGATGTTCCCGAAAGCCCCCTATGTACTGCTTCTGTCATTAGCCACCGGTTTTATCGCTGCTTTGACAACGACAGTACCCGGCGGACAGCTTGCCAACTTGATTGACAAACCATTGACAGCTTTCGCTTTCTTTGGACTTGTACTGCTGACGAAAAAAATCTCTAATCATAAACTGACGCAGCCGATCCTTGCCGGTATTGGAACAATGATCAGCGGTTCCATTTTCCTTGGCGTTGTTCTCTATATCATCGGTCTGATGGAAGCGAGCTTTGGCGTAATGTTCGCCACAGTCGTTCTTCCAGCTGCGGCCTTCAATATCTTGTTTGTTGCCGTTATGTATCCGATTGCCACGAAGATCCTCAAACGTTCTTCCATGGCAGGACCGGTCCGGCAGGCGTCGTAA	MNIRVLVMLSLLVGIGAVLHAVAPPFFFGMRPDMMLAMMFLGILMFPKAPYVLLLSLATGFIAALTTTVPGGQLANLIDKPLTAFAFFGLVLLTKKISNHKLTQPILAGIGTMISGSIFLGVVLYIIGLMEASFGVMFATVVLPAAAFNILFVAVMYPIATKILKRSSMAGPVRQAS				NA	NA	NA	NA	NA
AK012_03257	408			hypothetical protein	ATGCCAAATGGAAAATCGTTAGCTCTGGGTATTTTAGCAGGAGGTGTCATCGGAGCCGCCTGCACACTATTCAACGCCCCTTCATCCGGAAGGGATTTTCGTGAAAATGCCAGACTGAAAAGCGAAAACCTGAAGAATACCGTGCTGAGCCTGAAAGAGGATGGCATGCAGCTCAAAGACCAGATCACTCAGACATCCAAAGAAGGTGCCGAGTTAATCAAGGAGCTTTCCGAAGATGTAAAAACCTCTATCGAAAGCTGGAAACGGACCGTTGAGCCTCATCAGAAAAACATCCAGAAATATTTGGAGCAGATTGAAGAGAGCCTGAAGGAGCTGGAGGAAAAAGCGAAAGTCGACCAGAACACGGATCCCTCCCAGCCCAGCCATGAAGTCATCAACCATCAATAA	MPNGKSLALGILAGGVIGAACTLFNAPSSGRDFRENARLKSENLKNTVLSLKEDGMQLKDQITQTSKEGAELIKELSEDVKTSIESWKRTVEPHQKNIQKYLEQIEESLKELEEKAKVDQNTDPSQPSHEVINHQ				NA	NA	NA	NA	NA
AK012_03258	918	gbuC		Glycine betaine/carnitine transport binding protein GbuC	ATGCGGAACTGGAAACGTTTAGGTATGGCAGCAGGGTTGTCACTGACATTGATTGCTGCAGGATGTGGGTCATCAGAAGAAGAGGCGTCCGGAAGTGATTCTTCATCAGAAGACGTCAGCTACGGAGAAGAGATGGATTATGAGATTACCGGTGTAGAAGCAGGTGCCGGTGTTGTCAGTAAAGCCCAGACAGCTGTAGAGGAGTATGACAGCCTGAAAGGGTGGGAAGTTTCCACATCATCCTCAGGGGCCATGGCTGCTGCTCTCGGAGAAGCATATGAGGATGAAGAGCCGATTGTTGTCACAGGCTGGACACCACACTGGAAGTTTTCTAAATATGATCTGGAATATTTAGAGGACCCTGAGGGCATCTTCGGTGAAGAAGAGCAGATTAAAACGATGGTTCGTGAAGGACTGGAAGAAGATAAGCCGAACGCTTATAAGATTTTAGACCAGTTCAACTGGACAACCGAAGACATGGAATCTGTCATGCTGGATATCAATGAAGGCAGCAGTGAAGAAGAAGCCGCTCAAAAATGGATCGAGGAAAATGAAGATCTTGTAGCTGAGTGGACCAAAGGAACAGAAGAAGTAGAGGGTACCGAAGTGAACCTTGTGTATGTGATGTGGGACTCTGAAATTGCTTCCACTCATGTCGTTGGAGAAGTTCTGAAGCAGCAGGGCTTTGACGTCACCCTGACGTCCCTGGATAACGGACCGATGTGGGAATCTGTAGCCTCTGGAGAAGCTTCCGGAATGGTCGCAGCTTGGCTGCCGGTCACTCACGGAAGTCAGTATGAAAAACATGAGGACAGCATTGTGGACCTTGGGGCCAACCTGGAAGGCGCTAAAATCGGTCTTGTCGTTCCATCCTATATGGATGTTGATTCTATTGAGGACCTGACACCGGCTGAATAA	MRNWKRLGMAAGLSLTLIAAGCGSSEEEASGSDSSSEDVSYGEEMDYEITGVEAGAGVVSKAQTAVEEYDSLKGWEVSTSSSGAMAAALGEAYEDEEPIVVTGWTPHWKFSKYDLEYLEDPEGIFGEEEQIKTMVREGLEEDKPNAYKILDQFNWTTEDMESVMLDINEGSSEEEAAQKWIEENEDLVAEWTKGTEEVEGTEVNLVYVMWDSEIASTHVVGEVLKQQGFDVTLTSLDNGPMWESVASGEASGMVAAWLPVTHGSQYEKHEDSIVDLGANLEGAKIGLVVPSYMDVDSIEDLTPAE	PGPT0013640_2459	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
AK012_03259	849	gbuB		Glycine betaine/carnitine transport permease protein GbuB	ATGGAATCGATTCCTAAAATTCCAGTAGCCCAATGGGTTTCAGATGCAACGGAATTAACGACAGAAACATTTGGATTTTTATTTGATTTTATAAAAAATGATTTCGGTGACTTCATCGAGCTTGTAGCAGAAGACTGGCTGATGGGAATTCCCGTCTGGCTGTTTATCGCGGTCGTCGGAGTGCTCGCTTTCTTTGTCTCCGGGAAAAAATTCGGTTTGACGGCCTTTTCCGTGATTGGTCTATGGTTCATACATAACCAGGAACTGTGGGAAGAGTTGATGAATACCTTCACCCTTGTTGTGTTTGCCAGTTTGATTTGTGTCATTGCGGGCATTCCACTTGGAATCTGGATGTCGAAGAGCCGGACGGTGGAAAAGATTTTCACTCCTGTTCTGGACTTTATGCAGACGATGCCGGCTTTCGTTTATTTAATCCCGGCGGTAGCGTTCTTCAGTATCGGGATGGTGCCAGGTGTTTTTGCTTCTGTTATTTTTGCTACACCGCCGACGGTGCGCTTCACAAACCTGGGTATACGCCAGGTATCTCACGAATTGATTGAAGCCTCTGATTCCTTTGGTACGACCGGCGTACAGAAGCTGTTCAAAGTCCAGCTGCCGATGGCAAAGAAAACGATTATGGCTGGTATCAACCAGACGGTTATGCTTGCCCTTTCGATGGTCGTTATTGCTTCGATGATCGGAGCCAAAGGTCTTGGACAGACGGTTATCACCGGGTTGCAGCGTGCAGAAGTAGGTACAGGGTTTGTCGCAGGTCTGGGTATTGTCATCCTGGCCATTATTATTGATCGTTTTACTCAAAACCTGAATACACAGCGTGGCGAGCAGTAA	MESIPKIPVAQWVSDATELTTETFGFLFDFIKNDFGDFIELVAEDWLMGIPVWLFIAVVGVLAFFVSGKKFGLTAFSVIGLWFIHNQELWEELMNTFTLVVFASLICVIAGIPLGIWMSKSRTVEKIFTPVLDFMQTMPAFVYLIPAVAFFSIGMVPGVFASVIFATPPTVRFTNLGIRQVSHELIEASDSFGTTGVQKLFKVQLPMAKKTIMAGINQTVMLALSMVVIASMIGAKGLGQTVITGLQRAEVGTGFVAGLGIVILAIIIDRFTQNLNTQRGEQ	PGPT0013635_2158	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
AK012_03260	1203	gbuA		Glycine betaine/carnitine transport ATP-binding protein GbuA	GTGCCGGTCATACAAGTAGAAAATTTATCAAAGATTTTTGGTAAAAACGCCAAAAGGGCGACGAAATACTTAGATGAAGGACAAACGAAAGAAGAAATTTTAGAGAAAACCGGAAATACGGTAGGTGTAAACCGAGCCTCCTTTAACGTCGAAGAAGGAGAGATTTTCGTCATTATGGGGTTATCCGGCAGTGGGAAATCCACACTTGTACGCCTGATCAATCGTCTCATTGAGCCGACGGAAGGCAGTGTACTCATTGACGGGGAAGATTTAGCGAAGATGGACAGCCGCTCTCTCCGGGAGGTCAGACGTCAGAAACTCAGTATGGTCTTTCAGAAATTCGGGTTGTTCCCACATCGGACCGTCCTGGAAAATACGGAGTTCGGGCTTGAAGTTCAGGGCATTGATAAATCGGAAAGAAAGAAAAAAGCTGAGGAATCTCTTGAACTGGTTGGTCTTGGCGGATACATCCATCAGTTCCCGGGGCAGCTTTCCGGGGGCATGCAGCAGCGGGTCGGACTAGCCCGGGCGCTTGCCAATGATCCTGAAGTTCTTTTAATGGATGAAGCCTTTTCTGCTTTAGACCCATTGATACGTAAGGAAATGCAGGATGAGCTTCTTGATCTGCAGGAGACGATGAAGAAAACGATTTTGTTCATCACTCACGATCTTGATGAAGCTTTAAGAATCGGCGATCGTATCGCGTTAATGAAGGATGGACGTATTGTTCAAATCGGAACGCCGGAAGAAATTCTCGTGAACCCTGCCAACGATTATGTCGAGAAATTCGTAGAAGATGTCGACCGCTCGAAAGTGTTGACGGCTGAAAACATTATGAAACGTCCGGAAACGGTGGATGTGGAGAAACATGGTCCAAGAACAGCTCTTGAAAGAATGCGTAAAGAAGGTCTTTCCACCATCTATGTGACGGACAGCCGGAGAAATCTTCATGGATATGTCACAGCTGATGATATATCAGAGGCAGCCAGACAGGACGTGAAGGACTTGAAAGGCATTCTACGGACCGATGTTCCCCAAATTCAAAGGTCAACGCCAATGCAGGAGATTTTCGATATCATCCATGATGCCCCTGTTCCAGTGGCTGTCGTTGATGATGGGAAGCTGAAAGGGATCATCGTACGCGGCGCGGTCATCGCAGCACTTGCAGGAAATGAGGTGAATGTACATGGAATCGATTCCTAA	MPVIQVENLSKIFGKNAKRATKYLDEGQTKEEILEKTGNTVGVNRASFNVEEGEIFVIMGLSGSGKSTLVRLINRLIEPTEGSVLIDGEDLAKMDSRSLREVRRQKLSMVFQKFGLFPHRTVLENTEFGLEVQGIDKSERKKKAEESLELVGLGGYIHQFPGQLSGGMQQRVGLARALANDPEVLLMDEAFSALDPLIRKEMQDELLDLQETMKKTILFITHDLDEALRIGDRIALMKDGRIVQIGTPEEILVNPANDYVEKFVEDVDRSKVLTAENIMKRPETVDVEKHGPRTALERMRKEGLSTIYVTDSRRNLHGYVTADDISEAARQDVKDLKGILRTDVPQIQRSTPMQEIFDIIHDAPVPVAVVDDGKLKGIIVRGAVIAALAGNEVNVHGIDS	PGPT0013630_787	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
AK012_03261	510	opcR_2	COG1510	HTH-type transcriptional repressor OpcR	ATGGGAGGAAACGATCACCACAACCTGGAAGACATCCAGATGAAAGTCATACACGAATTTTCTAAAACCCTGGAGATGTTCGGTTTATCCATGGCTGACTCCCGCTTGTTTGTCACCCTGTACCTTCATCCATCACCGATGACGCTGGATGAGATGAGCAGCGCGCTGGGAAAAAGCAAGACGGCTATGAGCACCGGTATCCGGAATTTATCCGATCAAGGACTGGTTGAACGTGTGTGGAAAAAAGGGGTTCGGAAGGATTTATATACATCCACCACCAACCTCTACAAAACCTTTATGACTTCCTACATACAAAAATGGCATTCAGCCGTAGCTGAACAGGAAACTGAATTGTCGGCTGTGGAAGGACAGATGAAAGAAAATTTCAAAGGCTGTGTAAAACAGATGGAAAAGGATGAAGCAGCATTATTACAGGAGCGGATGCAGGAAATGATCCATTTTCACAATCGTCTTTTGAAAGCGCTCCAAAGCCTTCAACCGGCTACTTAG	MGGNDHHNLEDIQMKVIHEFSKTLEMFGLSMADSRLFVTLYLHPSPMTLDEMSSALGKSKTAMSTGIRNLSDQGLVERVWKKGVRKDLYTSTTNLYKTFMTSYIQKWHSAVAEQETELSAVEGQMKENFKGCVKQMEKDEAALLQERMQEMIHFHNRLLKALQSLQPAT				NA	NA	NA	NA	NA
AK012_03262	579	hpr	COG1846	HTH-type transcriptional regulator Hpr	GTGAAGGATAAGATCACAAAGCGAGAAGCCATTTATTATAGTCATAAAATGGCACAATTGTCCAAAGCGCTTTGGAAAGCCATCGAGAAGGACTGGCAGAACTGGATCAAACCTTTTCAGTTGAACATCAATGAACATCATATTCTATGGATTGCCTACCACCTTAAAGGGGCCAGCATTTCTGAAATATCCAAATATGGTGTGATGCACGTTTCTACTGCTTTCAATTTTTCAAAGAAAATGGAGGAACGTGGACTTCTTCAATTCTCCAAACGTGAGAATGACAAAAGGAATACTTATGTGGAATTGACTCCTGAAGGAAATGACCTTCTGGAATCTACACTCAATGAGTACGATCCGGATGACAATTCGGTGCTCAAAGGTGTCATGCCGATGACCGAAATGTTTGGTAAACTTCCTGAATTCCTCGATTTATCCGCCCTCATTAAAGAGATTTACGGCGATGAATATATGGATATATTGGAACGTTCCCTTGAAAACATTGAGGAAGAGGCTTTGGTGTCGGAGCCGACGGATTTGGAAGAGTACAAACAAAAGTCGAAGTCACGTTCTTCTTAA	MKDKITKREAIYYSHKMAQLSKALWKAIEKDWQNWIKPFQLNINEHHILWIAYHLKGASISEISKYGVMHVSTAFNFSKKMEERGLLQFSKRENDKRNTYVELTPEGNDLLESTLNEYDPDDNSVLKGVMPMTEMFGKLPEFLDLSALIKEIYGDEYMDILERSLENIEEEALVSEPTDLEEYKQKSKSRSS	PGPT0012755_96	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012755-scoC|hpr-K09682	NA	NA
AK012_03263	327	yhaI		putative protein YhaI	ATGAAGAATGTGAATCTTTGTGACACTCTTTCTTTTCAACTGAAATTATTGAGCAGCATGAAGGAGATTGACCGCTATCCTTTTACTAAATTAGTGATTGAAAGAAATTTAACAAAACGGGAATATGACGAGACGATGAACCTGCTCCAGACCCTCTCGGATATCTATGAGGCAGAGAGGGAAGAGGGGCTGCTGGATTACTCTTCGTTACTCCTTCACTATGCGGGGATGGTGTGCTGGAAGCTTCCGATTACACAATCACTCGAAGCTCTTCATAGCGAGGGGTATTATAAGGAACTGACAGAGCTTCTTCTGTCGTATACATAA	MKNVNLCDTLSFQLKLLSSMKEIDRYPFTKLVIERNLTKREYDETMNLLQTLSDIYEAEREEGLLDYSSLLLHYAGMVCWKLPITQSLEALHSEGYYKELTELLLSYT				NA	NA	NA	NA	NA
AK012_03264	549			hypothetical protein	ATGAACTGCTGGAAATCAGTGAACATCAATAAAGAATTCGGATTAAACCGTGTTTATATCATGTCTATTCTCACAGGACTCTTGTCCTTTTTAATTCTTTACCTGCCGTTTTCCATGATCCATGCGACGCATGATATGAACGACCATGGTTTCATACCGCTTCTGGTCATTCTGTTCTTTCTGCCGTCGATTCACAGGCTCATGCATATGCTGCCTTTGATGCTCAGCTATAAACGACTTCGGGTTCACTTTAAATTCAGGAAACGCTGCGTACCAACGTTCTCCTATCAATGCAAGACAAGGCTGTCCAAACAAATGTCCATGATGATGGCACTGGCACCGACTTTTTTGATTACTGTTCCAACACTCGTCATGAGCTATGTCTTCCCGAATTATTTCGCTTATCTGGTGCTGTTTGCCTCCGTTAATATCGGCCTGTCTTTTTCTGATTTTCTTTACGTCAGTCATTTCGCCAAAGCACCGAAGAAATGCATCATTGAAAATGCCAAAGACGGCTATGATATTCTCATCCACCAGCCGAAAGCATAA	MNCWKSVNINKEFGLNRVYIMSILTGLLSFLILYLPFSMIHATHDMNDHGFIPLLVILFFLPSIHRLMHMLPLMLSYKRLRVHFKFRKRCVPTFSYQCKTRLSKQMSMMMALAPTFLITVPTLVMSYVFPNYFAYLVLFASVNIGLSFSDFLYVSHFAKAPKKCIIENAKDGYDILIHQPKA				NA	NA	NA	NA	NA
AK012_03265	183			hypothetical protein	ATGGCATTTGGTTTCAGCTTGTACGCGCTCGTCATTTTATTCGTGTTTAACTCACTCACACATTCCTTATGCTTAAAAACGAAAATGTCGAACGAGAAGCAGACTCGTGTATTCCGAACAATTAATGTGCTGATCACAATTTTACTCATTTCATCCTATGTGGAAGTCTTAAATACACTATAA	MAFGFSLYALVILFVFNSLTHSLCLKTKMSNEKQTRVFRTINVLITILLISSYVEVLNTL				NA	NA	NA	NA	NA
AK012_03266	921	prsA	COG0760	Foldase protein PrsA	ATGAAAAAAGTAGCCATTACTGCTGCATTGGCAGCAAGTGTCTTTACCCTTTCGGCTTGTTCATCAAGCGCAGACGATTCTGAAGTAGTCGTGCAGACGAAAGATGGAGAAGTGACGAAAGAAGAGTTCTATCAGGAACTGAAAAGCCAGTATGGCGAGCAGGTACTTCAAAGCCTTGTCATGAAAGAAGTGCTGGCCAACAACTATGAAGTTTCCGATGAAGCGGTTGAAGAAGAACTGCAGACGTTGAAAGACCAGTACGGAGAACAGTTTGAAACGGTTCTTGAACAGAATGGATTTTCTGATGAAGATGCCTTCAAGGAAACCATCCGTATGAGCCTTCTTCAGGAAAAAGCGGCATCCGAAGATGTCGAGATTACAGAAGAAGAAATGAAGCAGTATTATGAACGCATGAAAACAGAAGTTAAAGCAAGCCATATTCTTGTAGAAGATGCGGAAACCGCTGAAGAAGTTCAGAAAAAGCTGGAGGACGGCGGAGACTTCGCAGAACTTGCTGAAGAATACTCCACAGACGGCTCTTCTGAAAATGGTGGAGACCTTGGCTGGTTCGGCCCTGGTCAAATGGTCGCTGAATTTGAAGAGAAAGCATACGAGCTGGAAAAAGGCAGCGTCAGTGAACCTGTGGAAACACAGTTCGGCTACCATATCATCAAAGTAACCGACAAGCGCGACAAAGAAGATATCGAGTCTTATGAAGATACCAAAGATGAAATCCGCCGCACATTGGTCAGCCAGCAGGTCGACCAGGCACAGCTTCAAGAGAAGATGGATCAGCTTGAAAAAGATGCCGAAATCGATGTGAAGCTTGATGAATTCGAAGGTTTGTTCGATGATTCGTCTGAAGAAGGCGAAGCCGCAGATGAAGAATCAGGCAGTGAAGAAGAGAATACAGAAGAATAA	MKKVAITAALAASVFTLSACSSSADDSEVVVQTKDGEVTKEEFYQELKSQYGEQVLQSLVMKEVLANNYEVSDEAVEEELQTLKDQYGEQFETVLEQNGFSDEDAFKETIRMSLLQEKAASEDVEITEEEMKQYYERMKTEVKASHILVEDAETAEEVQKKLEDGGDFAELAEEYSTDGSSENGGDLGWFGPGQMVAEFEEKAYELEKGSVSEPVETQFGYHIIKVTDKRDKEDIESYEDTKDEIRRTLVSQQVDQAQLQEKMDQLEKDAEIDVKLDEFEGLFDDSSEEGEAADEESGSEEENTEE				NA	NA	NA	NA	NA
AK012_03267	195			hypothetical protein	ATGCTATTCGGTTTGCCGATCTGGGTATTTTTATGTGTTGCTTTTATATTTTTCAGCGGTTATATGGCTTTTCGGGCGATGAGAGCGGAACATTCATTGGAGCAGGAATTCATTGAAAAAGAGGGTCAGGTGTATTTAAAAAGGATAGAGCGGGAAAAGCAGCGGCGGGGAAAACAGAAAATGACGTCAAATTAA	MLFGLPIWVFLCVAFIFFSGYMAFRAMRAEHSLEQEFIEKEGQVYLKRIEREKQRRGKQKMTSN				NA	NA	NA	NA	NA
AK012_03268	558	opcR_3	COG1510	HTH-type transcriptional repressor OpcR	TTGCCAGAAACAAATAATAAAGACTGGACGAAATACGAAGAAACAATTGAACAATTCATTCAGGTGATTGCTAAAAATATGAGCCTGTACGGGGTGACTCCTTCCATAGGACGCCTGTATGGCGTGTTGTACTTCTCCGAGGAGCCGATGACGCTGGATGATATGCGTGAAGCTCTTGAGATGAGTAAGACAAGTATGTCCACAGGTGTCCGGGCTTTGTCTGATATGAAAATGGTGGAACCTTCCTTTAAAAAAGGAGTCCGTAAAGACTTGTACAAGTCGGAAGAAGACTGGTACAAATCCTTTACATCCCTTTTTGGGAGCCGGTGGAGACATCATACAGAAACAAACATCGAAGAGGCGGACGAGGCGGTTCAGGAACTGGAATCTCTTCAGAGCCGCACGTCAGATGAAGAGTTGAAGGAAAAGATCCAGGTGGATATTGACCGTTTAAAATATGCCCAGAACTACTACCGCTGGTTGATGAAGTTCATCCATGTTGTTGAATCCGGGGAAATTTTTAAATACGTCCCGAAAATTGATCAAAAGAGTGAATAA	MPETNNKDWTKYEETIEQFIQVIAKNMSLYGVTPSIGRLYGVLYFSEEPMTLDDMREALEMSKTSMSTGVRALSDMKMVEPSFKKGVRKDLYKSEEDWYKSFTSLFGSRWRHHTETNIEEADEAVQELESLQSRTSDEELKEKIQVDIDRLKYAQNYYRWLMKFIHVVESGEIFKYVPKIDQKSE	PGPT0013690_42	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013690-gbsR-K22109	NA	NA
AK012_03269	2892			hypothetical protein	ATGACGGCTTTGATCATTCATAAGTTACATATCCATGGTTTTGGGAAGTGGACCGGTTTTTCACTTTCGTTTGCTGAGGATCGGCCAAACATTGTTACAGGAAGGAATGAGGCAGGCAAATCCACGCTTTATCATTTCTTTTTATACATGTTCTTCGGCCTCCCGCCTAAGCAGAGGGAATCGTATATGCCTAAACAAGGCGGTGGCCTTGGAGGAACATTGACGATAGAGACGGCAGAGGGGGAAATGGTGACTATCGAACGGTTCCACGACCGTCATAAAGGACAGGCGCTCTGCCGGAACTCCGCTGGCAGGGAGTATGGGGAAGAATGGTTGAGAGAACAGCTGAACGGTCTGGAGCGCGAGAGTTTTGAAGCTGTTTTCAGCTTCAATGCGGACGATCTCCGTCATTTGGAGACGCTGTCTGCAGAAAGCCTTGGAGAAACACTGCTGGACATCGGCCTTACTGGCTCGGACCGGATCAGCCGTACAGAGAAATGGCTGGAAAGAAAAGTGGACGAGCGCTTTAAACCGCAGGGAAGAAAGCCCGTCATCAATGAGCAGCTTCGTGTGGTCGAGGATCTTTATAAAAAGACGAGGACGCTGGAGAAGGAAGAGCAGGCCTACCTTCAGCTGCTTGAGGAAAAACAGCAGGCGGTGAAGGAAATTGAAGCCTGTGAAAAGGATTGGAAGCGGAAAACCAATGCGTTGTACCGGATGGAGCAGCTGTTGAAGGCCAGACCGGTCCTCTTGAAATATCATCAAGCGGTGCAGGAACTCCGCCGTCAGGAGTCCATCGTCTTTCCGGAGGGAGGAAAGGAACGGTACAGACAGCTCAAGGAAAAAATCCTCCCCCTCCAGTCCGAAAGAAAGCTGGTGGCCTCTGATGTCGAAGCTGGAAAAGAAAAGCAGGAAGCTCTATTGGCAGCGTATCAGCCTCAATTCGTTAAAGAGGCAGCGGTTCTTATACAACAGCAGCCGGTCTCAGAGAAGCTGGCTTATGAGAAGGAACGACTGTACAAGGAAACCGAGCGCAGACGTGAGGAGCTTTCAAAGGAAGTCCAGTCCCTGGATATTCCTCTGACAGTCGGAGAACTTGATGATTACACGTTTCCTTTTTATATAGAAGAAACGTGGAGGGATTTGAAAAATGAAGAGCAGACTCTGGATCGGGAACGATCCTATATTCATGAACAAAGGTTGGATCTCGAGCGGGAATTTCAACATGTGGAAGCGAAGAAGGCTGAATTAGAGCAGGAAATCATCAGTGAAGACGAAGCGGCCGCTCTTCAGTCCACGATTCAGGAGTCTTCAGGGGCTGCTGCGGCCCACCGATCCTCAAGGAACAGCGGGGGAGGCCGTCCGAACCGTGCGGCCCTGTTTGTCGGAGCTGCTGCTGTCTTCTCAGGCGGGGCAGCAGCCTTTATGGCAGGAGGAAGTTTCCTATGGCTGATTCTCGGACTGATTTTATGCTTGGGGATGGGAGTGTACGCTTACCAGCTTCCCGGGCATGTCCATCCAAAGGCCCCTGACGGCAGAGAGGCAGAAGTTGAAAAAGCGCGCGGGATACTCCGGAGAAATGAAGAGCGGAGGACGGAATGGAAGCACGTTCATGAACAGTGGAAGCAGTTGAATCATGAAGACATCCGCCTTCAGGAAAAGGAAAGTCTTGCTGCCCAGCGCGGGCGAAGGCTGGATGCCCGGGTGACGGAACAGAGAAGTCTTTATCCTTTTCTAACCAACCTGGATCTAAAACACTGGGAAACTTTGTTTCACAAAGTCGTTCAGCTTCGTGAAAAAAGGGTGGCATACATTCGGGATGTGGAGCGGATCAAGGAGCTTGAAAGGGATCAGCAAAAGGTTGTAGAAGAATTGAAAACGTTTTACGGACGTTTGAATTGGGAAATACTAGATCATACAGTCCGTACAAGCTGGAATGAATTGAATGAATGGATCAAACAGCAGGAGCAGTTGGAACGGGATGTCCATGGGAACAAGGAATCCCTGCGTGCATTGGAGAGCCGTCTTAAAAAAATCACGTATCAGCTGCAGGGTTATCTCGATGAAAGAGACCAGCTTTTTGAAGAGTGCGGGGTTGAGAGTGAGCAGGCCTTCTACCAGAAAGCAGAGGCAGCGGAAACAGTTAAGAAACTGGAGGAGGAAGCTGCTTCCCATCAGCTACAAATGGAAGGGATGTTGTCAGAAGCCGATCAGGAAGCTGCCGGTGTATGGAAGCAGGTGCCCGAGGAGAGCCGGCTGCTTACAGACATCCACCAGCTTAAACGGGATGTCGAGCACCTGGAAGTCCGGCAGTCCGAAGGCCGTCAGAACCTCGCTGACATCCACAGCCGGCTCGAACAAATGGAGCATTCAGATGAACGTTCCGCTCTGGCACACCGGTATCAGGTCGAGAAGGAGAAGCTGAGAGAACTGGCAAAGGAATGGGCCGGTTATCAGGCGGCCCTTCAAGCTATAAGGGAAACGAAGCAGTCGTATCAATCCACGTATCTTCCAGCTGTTTTGACGGCGGCTGAGGGTTATTTCCAAGTACTGACGGATCGCCGGTATCAAAGCGTTGCAGCGGATGACCATGACCGTGCAATGACAGTGCTCGATCAGGATGGTGTTCTGTTCGCTCCGGGAGAATTATCTAAAGGGACGCGTGATCAGTTATACATATCCCTGCGTCTCGCCCTGGGTGAAACGATGGCTGGTCAAAAGCCTCTGCCCTTTTTTATGGATGACGCGTTTGTTCATTTCGACGAAAACCGGCTGAAGAAAATGACAGCGATTCTCAAGACAATCTCCAAGCGCCACCAGCTCATTCTTTTTTCGTGGAGAAATGACCTTGAACAAATATTTACAGATGCGAATATTCAGCGATTAAAATAA	MTALIIHKLHIHGFGKWTGFSLSFAEDRPNIVTGRNEAGKSTLYHFFLYMFFGLPPKQRESYMPKQGGGLGGTLTIETAEGEMVTIERFHDRHKGQALCRNSAGREYGEEWLREQLNGLERESFEAVFSFNADDLRHLETLSAESLGETLLDIGLTGSDRISRTEKWLERKVDERFKPQGRKPVINEQLRVVEDLYKKTRTLEKEEQAYLQLLEEKQQAVKEIEACEKDWKRKTNALYRMEQLLKARPVLLKYHQAVQELRRQESIVFPEGGKERYRQLKEKILPLQSERKLVASDVEAGKEKQEALLAAYQPQFVKEAAVLIQQQPVSEKLAYEKERLYKETERRREELSKEVQSLDIPLTVGELDDYTFPFYIEETWRDLKNEEQTLDRERSYIHEQRLDLEREFQHVEAKKAELEQEIISEDEAAALQSTIQESSGAAAAHRSSRNSGGGRPNRAALFVGAAAVFSGGAAAFMAGGSFLWLILGLILCLGMGVYAYQLPGHVHPKAPDGREAEVEKARGILRRNEERRTEWKHVHEQWKQLNHEDIRLQEKESLAAQRGRRLDARVTEQRSLYPFLTNLDLKHWETLFHKVVQLREKRVAYIRDVERIKELERDQQKVVEELKTFYGRLNWEILDHTVRTSWNELNEWIKQQEQLERDVHGNKESLRALESRLKKITYQLQGYLDERDQLFEECGVESEQAFYQKAEAAETVKKLEEEAASHQLQMEGMLSEADQEAAGVWKQVPEESRLLTDIHQLKRDVEHLEVRQSEGRQNLADIHSRLEQMEHSDERSALAHRYQVEKEKLRELAKEWAGYQAALQAIRETKQSYQSTYLPAVLTAAEGYFQVLTDRRYQSVAADDHDRAMTVLDQDGVLFAPGELSKGTRDQLYISLRLALGETMAGQKPLPFFMDDAFVHFDENRLKKMTAILKTISKRHQLILFSWRNDLEQIFTDANIQRLK				NA	NA	NA	NA	NA
AK012_03270	1260	yhaO	COG0420	putative metallophosphoesterase YhaO	ATGGGGAATGGGATTACATTTGTTCACAGTGCAGATCTGCATATGGACAGCTTGTTTAAGACGAAGGGGCATTTACCGGAGGAACTGCTTGAACGGCTGCGGGCAGGGACCTTTGAAGCTTTCGATCGTCTGATTCAAGTGTGTATAAACGAACAGGCGGATTTTCTCCTGATCGCCGGGGATGTCTATCATGAGGAGCTGCGCAGTCTGAAAGCCCAGGTCCATGTACGTCGTGGGTTTGAGAAGCTGCAGAAGCATGACATTCATGTGTATGTCAGCTTTGGTAACCATGATTTTACGGGAGGGACGGAGCATGCGGTCTCCTTTCCGGAGAACGTACACGTTTTTCAGAGCGAAGAGGTCCAGGTGTTTCCTTTTTATAAGGAGGGAGAGCGGCTGGCACATATTTATGGATTTTCCTATGAAACAAGAGCGGTGAAGGACCATAAAGCCCGGGAGTTTCAAAAGAGTGGCCATCCTCTGTATCATATTGCCATGCTTCACGGCAGTCTGGAAACGAATACCGATCATGATGTTTATGCTCCTTTCACATTGGAGGAATTGAAAAACAAGGGTATGGATTACTGGGCTCTCGGCCATATCCATAAACGGGAGGTTCTTTCTTCAGACCCGCTCATTATCTATCCCGGAAATACTCAAGGCAGGTCCCAGAAGGAGCAGGGCGCGAAAGGCTGTTACGTGATAGAAGAAAAGGAGGGGGAGTGGAAGTCCAGGTTCCAGCCCCTGCACAGCTTTGTTTACGAAAGTGTCTCCTATCCTGTTCCTTCTCTGGAGAACCCGAATGATTTGGAGCGGGTATTAGAAGATGCGAAGCGGCAGATCACAGAAAGCGGGGCTTCTGTAATGCTGTCTGTAACGCTTGAAGGCAGTGGCAGCCAGTGGAAGCGCTGGTTGTCTTCGGGTGTCATGGATGAATGGAAAGATATCGTCAACGAAAATGAAGACATCACACAAGAGGGCTGGGTTTGGATTGAGGATGTCCGGTTGTCCGAGGTCGTAAGCTGGAACGAAGAAGACCTTCACGGGCCTCATTTTACTGGTGAATTCCTGAAAAAAATAAATGAGGCTGATCATGAATCCGTTGATACGTGGCTGGCTCCGCTGTACGGACATAGAAAGATGTCACGGTTTGTTCCTGCTCTTGACGAAGAAGAGCAGGCGGAAGTGCTGGAAAAGGCAAAAACAGAAGCTGTAAATCAATTGATGGGAAGCGGGGATGACGGCTTTGATCATTCATAA	MGNGITFVHSADLHMDSLFKTKGHLPEELLERLRAGTFEAFDRLIQVCINEQADFLLIAGDVYHEELRSLKAQVHVRRGFEKLQKHDIHVYVSFGNHDFTGGTEHAVSFPENVHVFQSEEVQVFPFYKEGERLAHIYGFSYETRAVKDHKAREFQKSGHPLYHIAMLHGSLETNTDHDVYAPFTLEELKNKGMDYWALGHIHKREVLSSDPLIIYPGNTQGRSQKEQGAKGCYVIEEKEGEWKSRFQPLHSFVYESVSYPVPSLENPNDLERVLEDAKRQITESGASVMLSVTLEGSGSQWKRWLSSGVMDEWKDIVNENEDITQEGWVWIEDVRLSEVVSWNEEDLHGPHFTGEFLKKINEADHESVDTWLAPLYGHRKMSRFVPALDEEEQAEVLEKAKTEAVNQLMGSGDDGFDHS				NA	NA	NA	NA	NA
AK012_03271	1260	yhaP_2	COG1668	putative protein YhaP	ATGAATAAATTTTTCATTATGATGGGCCATACATATAAAAACAGGGTGAAATCCAAATCCTTTGTGATTACGACGCTCATTATGCTCGTGTTTATTTTCGCTGTATCGAACCTTCAAACTTTCATTGAGATGTTCAGCGGAGAGGAAGATGAAAATAGAATCGCTGTTCTTTCCGAAAGTGAAACGTGGACGGCGGCTTTCGAAAGAAGCCTCGCTTCCAGTGACGCAGCGGTAGCGGAAGTTTATGAGGGGACACTGGAGGAGGCGAAACAGGAGGTTGAAGATGGAAAATACGAAGCAGTGGTAGACATCCGGTCAGGAACCGGCGAGCTTCCGGAAGCAACGTATTATGCCAATCAGATTGCGAACATAGAAGCAAGTGAGCCTGTCCGTCAGGCGCTGCAGCAGGTGAAGATTGAGCAGGTGACCGAAGAGGCAGGCGTAGCTCCGGAGACGCTGCAGCAGATATCAGCTCCGGTGTCGTTTGAGCTGCAAGCCCTTGAGGAACGGGCGAAATCGGCTGAAGAACTTAACCAGACTCGCGGAATCGTATACATCATGCTCTTCTTTATGTACTTTGCTGTTATTATGTACGGTCAGATGATTTCAACGGAAGTAGCGACGGAGAAATCCAGCCGGGTGATGGAAATCTTAATCTCCAGCGTGTCTCCGGTTTCCCAGATGTTCGCTAAAATTATCGGCATCGCACTCGTAGGCTTGACCCAGTTTGCCATCTTCCTGTCGGTGGGGTACTTCAGCATCCAGCGAAGCGTAGAGGCGGGAAGTGCTTCGTTTATCGGAGGACTGGGGCTGACCGAGATTCAACCTTCGACCATCATTTATGCCGTTGTATTTTTCCTGCTGGGATACCTGCTGTTTGCGACCCTTGCAGCGACGCTCGGATCTCTCGTAAGCCGCCTGGAGGATGCCCAGCAGATGACCGCTCCGATGGTCATGCTTATCGTGGCTGCTTTTATGATTGCGATGTTCGGGCTGGCTTCTCCGGATTCGGCTTTTATTACCATCAGCTCTTACTTTCCATTTTTCACACCGTTGATTATGTTCCTGAGAGTCGGCATGCTGGATGTGCCGGTATGGGAGGTTTCCCTCTCCTTAGCTGTGCTGGTCGGTTCGATTGCGCTGCTCGGATGGATCGGAGCAAGAATTTACAGAGGAGGCGTTCTCCTTTACGGAAAATCTTCCTCCTTAAAGGATCTGAAAGCAGCTCTGCAGCTTTCGAAAAAAGAGAAATCTTCCTGA	MNKFFIMMGHTYKNRVKSKSFVITTLIMLVFIFAVSNLQTFIEMFSGEEDENRIAVLSESETWTAAFERSLASSDAAVAEVYEGTLEEAKQEVEDGKYEAVVDIRSGTGELPEATYYANQIANIEASEPVRQALQQVKIEQVTEEAGVAPETLQQISAPVSFELQALEERAKSAEELNQTRGIVYIMLFFMYFAVIMYGQMISTEVATEKSSRVMEILISSVSPVSQMFAKIIGIALVGLTQFAIFLSVGYFSIQRSVEAGSASFIGGLGLTEIQPSTIIYAVVFFLLGYLLFATLAATLGSLVSRLEDAQQMTAPMVMLIVAAFMIAMFGLASPDSAFITISSYFPFFTPLIMFLRVGMLDVPVWEVSLSLAVLVGSIALLGWIGARIYRGGVLLYGKSSSLKDLKAALQLSKKEKSS	PGPT0006730_3223	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK012_03272	900	btuD_5		Vitamin B12 import ATP-binding protein BtuD	ATGACCTTGCGGTTGGAGAATGTAACAAAGAAGTTCGGCTCGTTTACAGCTGTGGACCATTTATCGATTGAAATACCTGAACAACAGATTTTCGGCTTTCTTGGAGCGAACGGAGCGGGAAAAACCACGACGTTCCGCATGATCCTCGGCCTGCTGGACCAGACAGAAGGCGCTATTTCCTGGAATCAGGGCCCTATTGGCTACGGAGAGAGTCATTTGATCGGATATCTTCCTGAAGAACGGGGGTTGTATCCGAAACTGAAGGTGAAAGAGCAGCTCGTGTATCTGGCTAAGCTCCGTGGGATGTCTAAGAAAGATGCAGTAAATGAGATCGATCACTGGCTGGAACGTTTTAAAGTACCGGAGTATAAACAGAAAAAGGTGGAAGAGCTGTCGAAAGGGAATCAGCAGAAGATTCAATTCATATCGGCTGTTCTTCATAAGCCGAAGCTGCTTATTCTGGATGAGCCGTTTTCCGGGCTGGATCCTGTCAATGTAGAAATGTTGAAGGATGCGGTCGTAGGATTGAAGGAAGCGGGGACATCCATTGTGTTTTCCTCCCATCGTATGGAGCATGTGGAAGAACTGTGCGAAAGCCTCTGCATCCTTCATCATGGAGCACCGGTCGTACATGGCAGGCTGAAGGAAATCAAGCGGTCGTTTGGAAAAAAGAATATCCGCATTCATGCAGATTTTGATACATCCTATTTACGGTCTTTCAATGGTGTGACCAAGTATAAGCCGCTGGCTGAAGGCTGTGAACTTCAAATCACAGGGGAAGAGGCAGCCGGGGATATTTTCGAATCGCTTCATGGAAGAGGGTTTGTCCGTACCTTTGACTTGGAAGAACCAACACTGAACGATATCTTTATCGAAAAGGCAGGGGCTTCGTATGAATAA	MTLRLENVTKKFGSFTAVDHLSIEIPEQQIFGFLGANGAGKTTTFRMILGLLDQTEGAISWNQGPIGYGESHLIGYLPEERGLYPKLKVKEQLVYLAKLRGMSKKDAVNEIDHWLERFKVPEYKQKKVEELSKGNQQKIQFISAVLHKPKLLILDEPFSGLDPVNVEMLKDAVVGLKEAGTSIVFSSHRMEHVEELCESLCILHHGAPVVHGRLKEIKRSFGKKNIRIHADFDTSYLRSFNGVTKYKPLAEGCELQITGEEAAGDIFESLHGRGFVRTFDLEEPTLNDIFIEKAGASYE	PGPT0006725_15758	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_03273	186			hypothetical protein	ATGAAACGCTACTACTTAACCGTATTCGAAAAAGACGGAACGAATGTACTGGATGAGAACTTTGAAGCTGAACATGACGAGGAAGCGAAAAAAATAGGAACGGCCAAACTGACGGAGCATGGGTACAGTGAGTTTACCCACCGCTGTGTATCTCCTGATGGACGGCTGGTTCTTTTCCACCGCTGA	MKRYYLTVFEKDGTNVLDENFEAEHDEEAKKIGTAKLTEHGYSEFTHRCVSPDGRLVLFHR				NA	NA	NA	NA	NA
AK012_03274	771	paaF	COG1024	2,3-dehydroadipyl-CoA hydratase	ATGGGCCACGTTAAAGTTGAAGAACAGGATAATGTTGTGCACATTACGTTGGACCGTGGAGAAAAATACAATGCGCTCGGAACGGAGCAGCTGGCTGAATTCGCCTACGTTCTCGATCAGGTGCAGCATTCAGAGGCACAGGTTGTCGTATTATCGGGGAACGGGGGCGGTTTTTGTGCCGGCGGAGACCTTGCGATGATGCAGGCAGCGGCTGACCGTGACATATACGATCAGGTGATGGACGATATTGAATATATTGTGAAGTCCTTTTATACAATGCCGAAAGTTGTGATTGCGGCTGTTCATGGGCCTGTCGTGGGACTTGGACTGAGTATTGCCTTATCGGCGGATTATGTGATGGCAGAAGCAGGGAGCCGGCTGTCGATGAATTTTATCGGCATCGGACTCGCGCCGGACGGGGGAGGTCACTTCTGGCTTCAGGAAAGGCTGGGCACCCATCAGGCCAAACACTTTACCTGGAAGGGGGAGCAGATGTCCGCTTCCGAGGCTTATGAATACAAGCTGATTGACCAGGTTGTTGAAGGGCCGGTTCAGCAGGAAGCGCGGACCCTTGCTGAATATTGGAGCCGGAGACCGCTCCGATCCATGATTGCGACGAAGGATATTTATCATAAATATGGACTGCAGAAGCTTCAAGCCTACCTTACAGAAGAAAGAGAAACACAGTGGAAGTTGAGACACACAGAGGATCATAGGGAAGGTGTACAGGCCTTCATGGAAAAAAGAACTCCGAAATTTCATGGAAAATGA	MGHVKVEEQDNVVHITLDRGEKYNALGTEQLAEFAYVLDQVQHSEAQVVVLSGNGGGFCAGGDLAMMQAAADRDIYDQVMDDIEYIVKSFYTMPKVVIAAVHGPVVGLGLSIALSADYVMAEAGSRLSMNFIGIGLAPDGGGHFWLQERLGTHQAKHFTWKGEQMSASEAYEYKLIDQVVEGPVQQEARTLAEYWSRRPLRSMIATKDIYHKYGLQKLQAYLTEERETQWKLRHTEDHREGVQAFMEKRTPKFHGK	PGPT0006070_2758	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_STYRENE|DERIVATE_DEGRADATION	XENOBIOTIC_PHENYLACETATE_DEGRADATION,PGPT0006070-paaG-K15866	NA	NA
AK012_03275	360			hypothetical protein	ATGGCAAACCTATACGATCACGCTTATGATTTGGAAAAAGCAATCCGCAACAGTGAAGAATTCACAAGCTTGAAAGAAGCTTATGAAGCGGTTATGAATGATGAAGCAGCGAAAACGATGTTTGATGATTTCCGTCAGACACAGATGACGCTTCAACAAAAGCAGATGCAGGGAGAGGAAATCTCTGAAGAAGAAGTGGAGCAGGCTCGTAAAGTGGTAGAACTTGTACAGCAGCACCCACAGATTTCCAAGCTGATGGAAGAAGAACAGCGTCTGAACACGGTCATCAATGATATCAGCCGCATTATTACAAAACCGCTGGAAGAGCTTTACGGTAACCCGGAAGAGCCGCAGCAGTAA	MANLYDHAYDLEKAIRNSEEFTSLKEAYEAVMNDEAAKTMFDDFRQTQMTLQQKQMQGEEISEEEVEQARKVVELVQQHPQISKLMEEEQRLNTVINDISRIITKPLEELYGNPEEPQQ	PGPT0026336_51	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0026336-ymcA-NA	NA	NA
AK012_03276	1137			hypothetical protein	ATGCACCCAATAGTTCTAATTATTTTAATGATGGGGATCGGGGCCTTGATCGGTGGAGTGACGAACTCGCTTGCGATTAAGATGCTTTTCCGCCCTTACCGTGCCATATATATAGGGAAATTCCGGGTTCCATTCACGCCGGGACTTATTCCTAAACGACAAAATGAATTAGCCCGGCAGCTCGGGAAGATGGTCGTCAATCACCTGCTCACACCTGAGGGGATCCGCCGGAAGCTGACCGAACCTGCTTTTGTATCACAGATGACTTCGTGGGCTGAAGGAGAGGCGGAAAGGTGGCTGAAGCAGGATAAGACCGTCCAATCGCTCCTGGAGGATTTCCAAATGGATGTTACTTCGGAGGAAATGAGAACAAAGACGGCTTTTTGGATCGAACAACGGTATCACAAGCTTATGGATGGGTACAGACAACAGGAAATCAGGGAACTGCTGACGCCGGAATGGACGACGAAAGTGGATAACGGCGTGGACCAGGCAGCAGAGCATATCCAAAAAAGTATCGAGAATTACTTCCGGAGTACAGAAGGAAGAGAGAAAGTTTCCGCCCTGATTGATCATTACATGGACAACCAAGGGTTTTTAGGCAGTATGATTTCCTCTTTCCTTGGACCGGACGGGCTGACTGAACGTCTCTATCCAATTCTGCTGAAGTATGTGTCTGACAGGGAAATGAGTGAATGGCTGAAGACGATGCTTCATGCAGAGAAAGATAAATGGCTTGATATGCCGCTCGAATCGGTGGAGGAACGAATCGGATCTGATGAAATCGGCCGCATGATCGGCCGGACGACGGCAGAAGCTCTTCCCTTCGATCAATGGCTGGGACGATCGGTTGCAGACTGGACCGCACCTATTCAGGATAAGGTGACCAAACAATGGGTGCCTGTCCTGATTAACAAAGCCGTCGATGTTATTTCTGATAAGGTGGAAGGAATGATACAGTCTGTAAGGCTGGCGGAAGTCGTCCAGGAGGAAGTGGAGGCTTTCCAGGTGGATCGTCTGGAAGAAATGGTTCTCGGCATCTCCAGAAGGGAATTCAAGATGATCACGTATCTCGGGGCTCTCCTCGGTGGTTTGATTGGACTGCTGCAGGCAGTTCTCGTCATGGTGATCGGATAA	MHPIVLIILMMGIGALIGGVTNSLAIKMLFRPYRAIYIGKFRVPFTPGLIPKRQNELARQLGKMVVNHLLTPEGIRRKLTEPAFVSQMTSWAEGEAERWLKQDKTVQSLLEDFQMDVTSEEMRTKTAFWIEQRYHKLMDGYRQQEIRELLTPEWTTKVDNGVDQAAEHIQKSIENYFRSTEGREKVSALIDHYMDNQGFLGSMISSFLGPDGLTERLYPILLKYVSDREMSEWLKTMLHAEKDKWLDMPLESVEERIGSDEIGRMIGRTTAEALPFDQWLGRSVADWTAPIQDKVTKQWVPVLINKAVDVISDKVEGMIQSVRLAEVVQEEVEAFQVDRLEEMVLGISRREFKMITYLGALLGGLIGLLQAVLVMVIG				NA	NA	NA	NA	NA
AK012_03277	183			hypothetical protein	ATGAGGGACGAAAAGAGGAAGGCGGCAGAAGGAAAAGATGAGTTTGAACTGGACGTTGACCGTATGATTAACGAAGGAATGGCCGGTGGGACCGTAGCACCGGTTTACGGACGGGAACAAATCGGGGAGGCCCATGAAATTCCTCCTCAGCACAACCGGAAACAGGACCCTGGAGAAAAATAA	MRDEKRKAAEGKDEFELDVDRMINEGMAGGTVAPVYGREQIGEAHEIPPQHNRKQDPGEK				NA	NA	NA	NA	NA
AK012_03278	282	ricR_2	COG1937	Copper-sensing transcriptional repressor RicR	GTGGAACACGTAAAGGAACAAAGTATATACGGACAGGAAACGAAAAACCGGTTAAAGCGCGTCGAAGGCCAGGTGCGGGGTGTCCTTAAAATGATGGATGAGGAAAAAGACTGTAAAGATGTCATCACCCAGCTGTCAGCGGCACGTTCAGCGATGGACCGGGCCATTGGTTATATTGTAGCCAAAAACCTTGAGGAATGTATCCGCGTTGCACACGATGAAGGAGAATCTGCTGAAGATTTGATCAATGAAGCTGTGCAGATGATTGTAAAAAGCCGCTGA	MEHVKEQSIYGQETKNRLKRVEGQVRGVLKMMDEEKDCKDVITQLSAARSAMDRAIGYIVAKNLEECIRVAHDEGESAEDLINEAVQMIVKSR	PGPT0004175_2138	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COPPER_RESISTANCE	COPPER_RESISTANCE-RELATED_FUNCTIONS,PGPT0004175-csoR|ricR-K21600	NA	NA
AK012_03279	897			hypothetical protein	ATGTCTGTCATTCATCAACTCCAGCACATCTACCCCTCCCTGAGGGTGATCACCGAAGCAGAAGCCGGCGATACAGACCAGTGGGACTACTTCCTGTCGCCGGAAGAAGAAATCATAGCCATCCCTAAATCAGAAAGGAACAAGCAGGAATTGGAACTGTTATCCATCTTCCTCAGCCCTTTTGAAGGACATTCCGTTACCTGCACGGAAAGGGAAGCAGCCTGGAAGGACCTAGTCCGGACTGGCGAGCTGAAACCAGGGGTCTCCCGGCCGCTGTCCTACCGTTTCATCCTATTTACGTTTGATGACTCTTCGACAGAGAAAAGCACGATAAAAGAAGCGCTTCAGTCCCTGTTTCCTGAGCGCATGCCTCTCCTCTGGCAGTCGGACAGGTCTGGTTACATTGTCGAGGAGATCTTTTCAGACGATCAGGAGGTCCTTACATTCGAAGGCATTCCGGATGTCCTCATGAGTGACTTTTATACAAACATTCAGTTCTTCACCAGTCATTTCAGTTCCCATTTACAAGAAGCCGGGGACATTTTGGAATGGGCGTTGAAGGGAGCGGATCTGGCAGATCGGTACCACCTGCCCGGTGTGGTCTCCTATAAGGATATTATTCCCTATTTCTACGTCGACGATCTTCCCGACACCGATTGGCACCAGATTGAGCAGTCGATCTTCCGGGAGGTGCTGGAGGACAAGGACCTGCTCCAGACCATCAAGGTTTTCCTTGAATCCGGATCCAATACGTCCCTGGCAGCGAAAAGGCTGTATATGCACCGGAACAGCCTGCAGTACCGTGTCGATAAGTTCATTGAAAAAACGGATCTGGATATAAAAAATTTCAAAGGGGCGGTCATCACCTACCTCGCCCTTTTACATCTACAGCTGTAA	MSVIHQLQHIYPSLRVITEAEAGDTDQWDYFLSPEEEIIAIPKSERNKQELELLSIFLSPFEGHSVTCTEREAAWKDLVRTGELKPGVSRPLSYRFILFTFDDSSTEKSTIKEALQSLFPERMPLLWQSDRSGYIVEEIFSDDQEVLTFEGIPDVLMSDFYTNIQFFTSHFSSHLQEAGDILEWALKGADLADRYHLPGVVSYKDIIPYFYVDDLPDTDWHQIEQSIFREVLEDKDLLQTIKVFLESGSNTSLAAKRLYMHRNSLQYRVDKFIEKTDLDIKNFKGAVITYLALLHLQL				NA	NA	NA	NA	NA
AK012_03280	1098	msmX	COG3839	Oligosaccharides import ATP-binding protein MsmX	ATGGCAGAACTGAAACTAAACAATATTGATAAAGTGTATGATAAAGATGTGAAAGCTGTTGATGACTTCAACCTGCACATCAATAATAAGGAATTCATTGTTTTTGTAGGCCCGTCCGGCTGTGGGAAATCTACCACGCTTCGTATGATTGCAGGGCTTGAGGAAATCACCGGTGGAGACTTTATGATTGATGACAAACGGATGAACGATGTAGCACCTAAAGACCGGGATATCGCCATGGTTTTCCAGAACTATGCCTTGTATCCGCACATGAACGTCTATGACAACATGGCTTTTGGTTTGAAGCTTCGTAAAATGGACAAGTCGGAAATTGAACGCCGCGTAAAAAATGCCGCTCAGATTCTTGGATTGGAAGCTTTACTGGACCGTAAACCGAAAGCGCTGTCAGGCGGACAGAGACAGCGTGTCGCCTTAGGCCGTGCCATCGTCCGTGATGCTAAAGTATTCTTAATGGATGAGCCTTTATCCAACCTGGATGCCAAGCTCCGTGTACAGATGCGTGCCGAAATCCAAAAGCTTCACCAGCGTCTACAGACAACGACCATTTACGTTACCCACGACCAGACCGAAGCAATGACCATGGCTACTCGTCTTGTGGTCATGAAGGATGGAATTATCCAGCAGGTCGGCGCCCCGAAAGAGGTCTATGACAAACCAGCAAACGTCTTTGTCGGTGGATTCATCGGTTCCCCGGCTATGAACTTCCTGCACGGTACGCTTGCCGACGGTCATATTGAACTGGGAGAGATTAAAATCGCTGTACCGGAAGGAAAGATGAAGCCTCTGAGAGAACAAAGCTACATCGGCAAAGAAATCATCCTGGGAGTACGTCCTGAAGATATGCACGATGAGCCGCTCTTTATTGATGCCAACCAGGATAAGAAAATCACCGCCGATATCGAAGTGGCTGAGCTGATGGGCTCTGAATCCTACCTGTATTCCAAATTGAATGACCAGGAATTCATCGCCCGTGTTGATTCCCGTTCCGACATCAACGGTGGAGACCAGATTACCCTGGCTATCGATATGAACAAAGTCCACTTTTTTGATAAAGAAACGGAAGAACGCATCCACTGA	MAELKLNNIDKVYDKDVKAVDDFNLHINNKEFIVFVGPSGCGKSTTLRMIAGLEEITGGDFMIDDKRMNDVAPKDRDIAMVFQNYALYPHMNVYDNMAFGLKLRKMDKSEIERRVKNAAQILGLEALLDRKPKALSGGQRQRVALGRAIVRDAKVFLMDEPLSNLDAKLRVQMRAEIQKLHQRLQTTTIYVTHDQTEAMTMATRLVVMKDGIIQQVGAPKEVYDKPANVFVGGFIGSPAMNFLHGTLADGHIELGEIKIAVPEGKMKPLREQSYIGKEIILGVRPEDMHDEPLFIDANQDKKITADIEVAELMGSESYLYSKLNDQEFIARVDSRSDINGGDQITLAIDMNKVHFFDKETEERIH	PGPT0016310_3709	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
AK012_03281	204	sasP-C		Small, acid-soluble spore protein C	ATGGCTAACAACAACAGTTCAAACGAGTTGGTTGTACCTGGCGTACAACAAGCTCTAGACCAAATGAAATACGAAATCGCTCAAGAGTTTGGCGTACAGCTTGGTCCGGATTCTACAGCACGTGCTAACGGTTCTGTAGGTGGAGAAATCACTAAGCGTCTTGTACAAATGGCTGAACAGCAGTTCGGTGGATACCAAAAATAA	MANNNSSNELVVPGVQQALDQMKYEIAQEFGVQLGPDSTARANGSVGGEITKRLVQMAEQQFGGYQK	PGPT0024865_247	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024865-SASP_B|sspB-K06419	NA	NA
AK012_03282	1392	fumC		Fumarate hydratase class II	ATGGATTACCGCGTGGAAAAAGATACGATAGGTGAGATTCACGTTCCGAGTGAAAAATACTGGGGCGCACAGACGCAGAGAAGTAAAGAGAATTTCCCGATCGGTGAGGAGAAAATGCCGAAGGAAGTCATTGAAGGCTTTGCTATTTTGAAGAAGAGTGCTGCGAAAGCCAATGCGGCCCTCGGACTGTTGGAGGAGGAGAAAGCAGAGGCTGTAGCGTACGCCGCAGATCAAATCATCGCAGGTGAGCTGGATGAACATTTTCCTTTAGTCGTCTGGCAGACCGGGAGCGGGACGCAGTCCAATATGAATGTGAACGAAGTCATCGCTTATGTGGGGAATCAGTGGCTCACTGAAAAAGGCAGTGAAACACGTCTCCATCCAAATGACGATGTGAACAAATCACAGAGCTCGAATGATACGTATCCGACTGCGATGCATATCGCTGCTGTCCGTAAAGTGGAGAATGTCGTCCTTCCTGCACTGACTCAATTGAAGCACACCCTTCAAGAAAAAATGGAAGCGTTTAATCATATTGTGAAAATTGGACGCACCCACCTTCAGGATGCGACACCTCTGACGCTCGGCCAGGAAATCAGCGGGTGGCACCGCATGCTTGAAAAGACGGAAAAGATGCTGATTGAGAGCAGTGAGTACGTGAAAGAACTCGCCATCGGCGGTACAGCGGTTGGAACAGGGTTGAACGCTCATGAAGATTTCTCTGATCAAGTGGTTGCTGAAATCAATGAATTGACCGGAAAAGGGTTTATTTCTGCGCCGAACAAATTCCATGCACTCACATCCCACGATGAGCTTGTACATACGCACGGGGCTTTAAAGGCACTGGCTGCGGATCTGATGAAGATTGCCAATGATGTCCGCTGGCTTGCCAGCGGTCCGAGGTGCGGCATTGGAGAAATTACAATCCCGGCGAATGAACCGGGAAGTTCCATCATGCCTGGAAAAGTGAACCCGACACAAAGTGAGGCTGTCACGATGGTTGCGGCGCAGGTGATGGGAAATGACGCGACAATCGGTTTCGCTGCCAGTCAGGGGAATTTTGAATTGAATGTATTCAAACCGGTAATTGCCCACAATTTCCTCCAGTCCGCCCAGCTTCTTGCTGACAGCATGGTTTCCTTTGAGGAGCGTTGTGTAAACGGCCTTGAGCCGAATCATGAGCAGATTGAAAAATACCTGCGCGACTCCCTGATGCTTGTGACGGCGTTGAATCCTCATATCGGGTATGAGAATGCAGCGAAAATAGCGAAAACAGCGTTCGAGAAAGACCAGACCTTGAAAGAAACAGCTGTGGAGCTTAACATTTTGACCGAAGAGCAGTTCGAGGAATATGTGGATCCAAAAGCGATGACAAAGCCAAACGCCAAGTAA	MDYRVEKDTIGEIHVPSEKYWGAQTQRSKENFPIGEEKMPKEVIEGFAILKKSAAKANAALGLLEEEKAEAVAYAADQIIAGELDEHFPLVVWQTGSGTQSNMNVNEVIAYVGNQWLTEKGSETRLHPNDDVNKSQSSNDTYPTAMHIAAVRKVENVVLPALTQLKHTLQEKMEAFNHIVKIGRTHLQDATPLTLGQEISGWHRMLEKTEKMLIESSEYVKELAIGGTAVGTGLNAHEDFSDQVVAEINELTGKGFISAPNKFHALTSHDELVHTHGALKALAADLMKIANDVRWLASGPRCGIGEITIPANEPGSSIMPGKVNPTQSEAVTMVAAQVMGNDATIGFAASQGNFELNVFKPVIAHNFLQSAQLLADSMVSFEERCVNGLEPNHEQIEKYLRDSLMLVTALNPHIGYENAAKIAKTAFEKDQTLKETAVELNILTEEQFEEYVDPKAMTKPNAK	PGPT0001650_3465	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
AK012_03283	669			hypothetical protein	ATGAAAGCCTTCATGACGAAAAATTCACAAAAAGTTGAGGTGACCCGCATGAAAATAGCAGTAATCGGAGGAACAGGGCGTGTGAGTGCCCGTTTCATCCGGCACGCGTTAGACAAAGGCCATGAAGTAAAAGCATTGGTCAGAAACATTCAAAAAGCAGAAGAGATGATCGAAGGGGCCGAGCTGGTCCAGGGCGATGCAAGGAACCTGAAAGATATCAAAGAGGCTCTGACCGGATGCGGAGTGGTATTCTCCGGCCTGAGCACCGACAAGTCCGACACACTGTCAGAAGCGGTGCCGCTCATTACAGAGGAAATGAAGCGTCAAGGCTTGAAGAGACTGGTGAGTATCGGGACTGCGGGGATTCTGGACAGCCGTTTTGAAGATGGGAAATACAGGTTTGAAAGTTCCGAATCCAAGCGGAGAAAAACGTTCGCTGCAGAAGAACATGCCGGTGTATACAAGCACCTGCAGGACACCGATCTCGATTGGACGATTGTCTGCCCCACTTATCTGCCTGATGGAGATGTTCAGGGCGGCGTCCGCTTTGAGCTGGATATGCTTCCGGAAGATGGTAAAAAAGTGACGACCGGCGATACGGCTGTCTTCGCCTATCAAACGCTTTTGAACGATCAGTTTTTCCAAAAACGTGTCGGCATCTGTTATTAA	MKAFMTKNSQKVEVTRMKIAVIGGTGRVSARFIRHALDKGHEVKALVRNIQKAEEMIEGAELVQGDARNLKDIKEALTGCGVVFSGLSTDKSDTLSEAVPLITEEMKRQGLKRLVSIGTAGILDSRFEDGKYRFESSESKRRKTFAAEEHAGVYKHLQDTDLDWTIVCPTYLPDGDVQGGVRFELDMLPEDGKKVTTGDTAVFAYQTLLNDQFFQKRVGICY	PGPT0020900_1474	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_OPINE_METABOLISM,PGPT0020900-putative_saccharopine_dehydrogenase-K07118	NA	NA
AK012_03284	798	yodJ	COG1876	Putative carboxypeptidase YodJ	GTGAAAAAAATACTTACCATGGCCTTGATCGGGGCCGCGTTAACCGGGTGCTCCAGCAGCCCTGCCGATTCGGATGAAAAGCAGGCAGAGGAAGCTCCTGCCTCATCTGCAGCTCAGCAGGATGAAAAAGAGAGTACCCCCGCATCAGGAGAAGCATCGACTTCCCAAAATGAAGATATCGCTTTATCCAATGGAATGATAGAAGTCGGGAATCCAGAAAGTGTGGAAGTGGTCGTCAATAAGCAGCGAAAGCTTCCGGAAGGCTATACCCCTCCGGACTTAACCGTACCGGATGTGCCGTTCTCATTCGAAGAAGACCATCCGAAAAAGCAGCTGAGGCAGGAAGCGGCCGATGCGCTTGAGGAGCTTTTTGAAGGAGCAGACCAGGAAGGAATGGATCTTGTGGCCGCTTCAGGGTATCGTTCCTACGAGCGGCAGGAAGCGATTTATGAACGGAATGTAGAAGTGTATGGCAAGGAAGAAACCGATACATTTTCTGCGAGCCCGGGAACGAGTGAACACCAGACCGGTCTGGCGATGGACGTGACATCGGCGGAAATGGCGTTTAAACTGACCCAGGCCTTTGGTGATACGCCAGAAGGTGAATGGTTGGCGGATCACGCTTATGAATATGGATTTATCATCCGTTACACTGAAGGAGATAACAACATCACCGGGTATAAATATGAACCGTGGCACCTTCGTTATGTTGGGAAGGAAGCTGCGGCTGAGGTTCATGAACAGCAGGTGACACTCGAAGAATTCTTCGGTTACGAGCCGGTTGGTGAAGCTGAATAA	MKKILTMALIGAALTGCSSSPADSDEKQAEEAPASSAAQQDEKESTPASGEASTSQNEDIALSNGMIEVGNPESVEVVVNKQRKLPEGYTPPDLTVPDVPFSFEEDHPKKQLRQEAADALEELFEGADQEGMDLVAASGYRSYERQEAIYERNVEVYGKEETDTFSASPGTSEHQTGLAMDVTSAEMAFKLTQAFGDTPEGEWLADHAYEYGFIIRYTEGDNNITGYKYEPWHLRYVGKEAAAEVHEQQVTLEEFFGYEPVGEAE	PGPT0024055_652	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
AK012_03285	243			hypothetical protein	ATGAGAAAGCAAAAGATCAATTATGTTATTCGTCGGAACCCCGGTTATAAAGGGAAAGAGATTACGGCAAAGAGAGAACTGTCTTTTGGAATACAACTAGCCTCGCGTCTGCTTTTGGATCATCTCAGCTATCAGTTCAATAAGGATCGTTTAGATAGAGAAATCAATCAGGCTATCGACAGCGGCGATCGTGAAGCATTCGATCGACTAAGTCTGCAGTACCAGCCTTTTACATGGGAATAA	MRKQKINYVIRRNPGYKGKEITAKRELSFGIQLASRLLLDHLSYQFNKDRLDREINQAIDSGDREAFDRLSLQYQPFTWE				NA	NA	NA	NA	NA
AK012_03286	264			hypothetical protein	TTGGGAGTTCTTTTTCATATTCCGGGAGTCAGCCGTCATCAGCGCCTGTACTTTCCCTTTTATCACAGCGTAAAGTTGTTTTTCCACTCGCACCGGCACGAGGAGCGTTCGGGGGTGACGCCTGCGGGAACAGCGCGAGCCGAAGATCCACTTGGTCAAATGGTTTTCTTGACGAAGTTAGCTGAGGCTGTGTCCGCGGCAGGCATCCGCCGATATGCGGAACGTGCCCTCTCAACACGACATGCGGACAACTCCAACTGGTAA	MGVLFHIPGVSRHQRLYFPFYHSVKLFFHSHRHEERSGVTPAGTARAEDPLGQMVFLTKLAEAVSAAGIRRYAERALSTRHADNSNW				NA	NA	NA	NA	NA
AK012_03287	606		COG0655	NAD(P)H dehydrogenase (quinone)	ATGGCTGATGTGAAACTTGCGATTATTTATTACAGTTCTACAGGAACGAACTACAAGATGGCCAAGTGGGCGGAAGAGGAAGCGGAGAAAACAGATGCGGACGTGAAGCTTGTCCGTGTTCCTGAACTGGCTCCGATGGAGGCGATCGAACAGAATCCGGCGTGGAAAGAGCACTATACAGCAACAAAAGATGTGGTGCCTGAAGCTACAGTGGATGATCTTGACTGGGCAGACGCCGTCCTCTTCAGTATGCCGACCCGCTTTGGTAACGTGCCGGCTCAGATCAAACAGTTCATGGACCAGGCCGGTGGTTTATGGTTCCAAGGGAAGCTTGTCAACAAAGTCATCAGTGCAATGACATCTGCGCAAAACCCTCACGGCGGTCAGGAATCTACGCTGCTGAACTTTTATACAACCATGTTCCACTGGGGATCAATCATCGCTACCCCTGGATATACCAACGATGCGGTGTTCGGAGCAGGAGGAAATCCGTACGGAACGAGTGTGAGTGTGGACGGAGATGGCAACATGAAAGAAGACGTGGAAGCGGCAGTCCGCCACCAGGTGAACCGTACGCTTGAAATTGCAGGGAAGTTCGTAGAATAA	MADVKLAIIYYSSTGTNYKMAKWAEEEAEKTDADVKLVRVPELAPMEAIEQNPAWKEHYTATKDVVPEATVDDLDWADAVLFSMPTRFGNVPAQIKQFMDQAGGLWFQGKLVNKVISAMTSAQNPHGGQESTLLNFYTTMFHWGSIIATPGYTNDAVFGAGGNPYGTSVSVDGDGNMKEDVEAAVRHQVNRTLEIAGKFVE	PGPT0009460_1676	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_K_METABOLISM	PLANT_VITAMIN_K_BIOSYNTHESIS,PGPT0009460-wrbA-K03809	NA	NA
AK012_03288	870	mneS	COG0053	Manganese efflux system protein MneS	ATGAGTGAATATGAAAATTTAAAAAGAGGTGAGCGCGGGGCCTGGGTCAGTATCGTTGCCTACCTTGTCCTTGCCTCTGTGAAACTGCTGATCGCCTATACCGGCCAGTCGGAAGCGTTACGGGCGGACGGCTTGAATAATACGACCGATGTGGTAGCCTCCATCGCTGTACTCGTCGGACTTAAAATATCACGCAAGCCTCCTGATGAGGATCATCATTACGGCCATTTCCGCGCAGAGACGATTGCCTCTTTAATCGCGGCCTTCATCATGATGACTGTCGGAATCGAAGTCATTATAGGAACCGTGCAGGACCTCATTAATCAGGAAACGAGCCAGCCGTCGCTCCTGACCGCCTGGACCGCTCTAGGCGCAGCCGGAATCATGTTCGGTGTATACCGCTATAATTTAAACCTCTCTCAAAAAGTGAACAGTCCTTCGCTTTATGCTGCCGCACAGGATAACCGTTCAGATGCCCTCGTAAGTATCGGGGCCTGTGTAGGGATTTTCGGCGCCCAGTTCGGCCTTTTCTGGCTTGATCCTCTGGCAGGTTTCATCGTCGGTCTCATCATATGTAAAACAGCCTGGGATATTTTCAAGGAAGCTACCCACAGTTTGACCGACGGTTATGAAGAAGGGCAGTTGGAGCATATCCGCTCCACGATATCCAATCACCCCGAGGTCTGGGCCGTTAAAGATGTGAAGGCAAGACTTCAGGGCAGTCAAACGCTTGTTGAAGCGACCATCCACGTGGACCCACACATCACCATCCAGCAAGGTCATGACATCACCGATGAAGTGGAGGCCCTGTTAAAAAAAGAGAACGACATTAGATACGCCCACATTCATATAGAGCCCTATGAAGAATAA	MSEYENLKRGERGAWVSIVAYLVLASVKLLIAYTGQSEALRADGLNNTTDVVASIAVLVGLKISRKPPDEDHHYGHFRAETIASLIAAFIMMTVGIEVIIGTVQDLINQETSQPSLLTAWTALGAAGIMFGVYRYNLNLSQKVNSPSLYAAAQDNRSDALVSIGACVGIFGAQFGLFWLDPLAGFIVGLIICKTAWDIFKEATHSLTDGYEEGQLEHIRSTISNHPEVWAVKDVKARLQGSQTLVEATIHVDPHITIQQGHDITDEVEALLKKENDIRYAHIHIEPYEE				NA	NA	NA	NA	NA
AK012_03289	537			hypothetical protein	ATGCCTCAAGTCAGAGAAGCACGTTTTGAAGATGCCGCGACCATTGCGGATATTCATGTGAAAAGCTGGAAATCCACATATAAAGATCTGATTGATGAAAGAGATATTAGTAATACGACCCTCGAGCACAGGATCACTTTATGGGAAACCATTCTCCGCAAGCCTTTGAACGGTCAAATTGCCTTCGTCATTGAAAATGATGAGGGACAGGTGGTCGGTTTTGTATCGGGGGGAAAGGAACGGACGAAAAGCTATGGCTATGACGGCGAAATCTACGCCATCTACCTTCTGGATGAATATCAGGGCAAAGGCTATGGGAGGATACTTCTACAGACTTTTGTGCGGGGAATGGCGGAGGCCGGCTATCAATCGCTGCTCGTCTGGGTGTTAACACGGAATCCGTCCAGCCGGTTTTACATAAAGTATGGAGCGGACCCCGTGGAAGCGGAAAAAGTGACCATTGGTCAGGGGACCTATGAGGAAACCGCGTATGGGTGGAAAGATCTTCATACCCTTTCAGAAGCGTTAAAAGCATAA	MPQVREARFEDAATIADIHVKSWKSTYKDLIDERDISNTTLEHRITLWETILRKPLNGQIAFVIENDEGQVVGFVSGGKERTKSYGYDGEIYAIYLLDEYQGKGYGRILLQTFVRGMAEAGYQSLLVWVLTRNPSSRFYIKYGADPVEAEKVTIGQGTYEETAYGWKDLHTLSEALKA				NA	NA	NA	NA	NA
AK012_03290	447			hypothetical protein	GTGTGTCAAACCCTGAATAAACCCATCGCTGCTGACCAGGGCGCCAGCGGTAACCTGCTACAGACGTTCTTCCAATGTAGGTTGGATAGAACCAGAACGACCTTCCATTCACAAGACGGATCCATGTATAACGGTACAAACATCCATAGAGCGATCCCGGGTCAACAGCATACAACTCTGCTCCCTGCCCACCGGATGGAGGTGCTGGAGGGGGTGGTGGCAGCATTCCGCCCGGGCCGCCCGAACCACCGGGTCCTCCTGGTCCACCGGGTCCGCCCGGCCCGCCTGGACCCCACCCGGGACCTCCAGGTCCTCCGGGCGGCGGCCCCTGAGGCGGTTGGCCACCAGGTCCTCCTGGAGGCGGTCCCTGGGGCGGCTGACCACCGGGCCCGCCTCCAGGAAATCCGAAGATCTGCCCAAAAGGAAAGCCAAATTGTCGATGCATAA	MCQTLNKPIAADQGASGNLLQTFFQCRLDRTRTTFHSQDGSMYNGTNIHRAIPGQQHTTLLPAHRMEVLEGVVAAFRPGRPNHRVLLVHRVRPARLDPTRDLQVLRAAAPEAVGHQVLLEAVPGAADHRARLQEIRRSAQKESQIVDA				NA	NA	NA	NA	NA
AK012_03291	294			hypothetical protein	ATGATCATCTGGATGATTATCGGTATGGCCGTCGTTACAGCCGTCCCCAGGTTTCTGCCTGCTTTCATCGTAGATCTTGTCCGCTTTCCGCGCTGGATGGACCGGTGGTTGAACGCCATTCCTTATGCAGCTTTAGGAGCGCTCATTTTCCCCGGCATTCTGACGGTGAAACCGGATGCTCCGCAGGTGGGCGCTGCAGCAGGGCTTGCTGCTGTGCTGCTGGCCTGGCTCGGTATACATATTATCTTTGTCGTTTTGGGAGCGATTGCGACCGTTTTTCTATTAACGATGTAA	MIIWMIIGMAVVTAVPRFLPAFIVDLVRFPRWMDRWLNAIPYAALGALIFPGILTVKPDAPQVGAAAGLAAVLLAWLGIHIIFVVLGAIATVFLLTM				NA	NA	NA	NA	NA
AK012_03292	738	ygaZ	COG1296	Inner membrane protein YgaZ	ATGGAAACCCATGCTTTACATAAGCCTCATTCCTCTACAAGGCTGCACATGGTGCAGAAAGGAATCGCGGCCGGCTTTCCCATTATGCTTGGATACCTGCCCGTGGCCCTGACGTATGGGGTGCTGGCCGGGCAGTCCGGGATGTCAAATCTGGAACTCACATTGATGAGCGTGCTCGTTTTTGCTGGAGCCGCCCAGTTTCTTGCTGTAGGAATGGTGGCTGCTGGAACAGGCTTCATTGAAATTATTACGGCCACATTTGTTTTAAACTTCCGGCACTTTGTGATGGGGCTTTCTTTCGTCAATCGGCTGAAAACCATCGCTCTTCGTGCAAAGCTTCCATTAACACTTGGGCTCACAGATGAAACGTTTACGGTTTCGTCCCTCTACAAAAAGGAAGCCTCCGCACCTTATGGGGCTTATTTCTATGCTTCTCTCATGCTGACCGCCTATGCGTCGTGGGTAGGGGGGTCCTTTATGGGGGGTGTGCTCGGGGATGTTATTCCTGCAAAGCTGAGTGACAGCATGGGCGTTGCTTTATATGCCATGTTTATCGGTCTTTTAATTCCTTCTGTAAAAAGAAATGGGCGGATTGCCATCATCGCTGTGACGGCTCTTCTCATTAACGCTCTTTGTCAAAGCGTGGGAATGAACCAAGGATGGGCCATTGTTGCAGGAACTCTTGCCGGTGGTCTGAGTGGGATTTGGTTATTAGAAGAGGAGGAGGAAGAAGAATGA	METHALHKPHSSTRLHMVQKGIAAGFPIMLGYLPVALTYGVLAGQSGMSNLELTLMSVLVFAGAAQFLAVGMVAAGTGFIEIITATFVLNFRHFVMGLSFVNRLKTIALRAKLPLTLGLTDETFTVSSLYKKEASAPYGAYFYASLMLTAYASWVGGSFMGGVLGDVIPAKLSDSMGVALYAMFIGLLIPSVKRNGRIAIIAVTALLINALCQSVGMNQGWAIVAGTLAGGLSGIWLLEEEEEEE				NA	NA	NA	NA	NA
AK012_03293	1401	nhaC_2	COG1757	Na(+)/H(+) antiporter NhaC	ATGTTTCATTTACAGCCAAAACACCTGCCATCACTGTCAGAATCCATACTCATGATTGTTCTGACCATTGGAGTGATCAGCTATTTTATTATATCGCTTCAGACCGTTCCACACATCCCGATCCTTTTAGGCATCCTGCTGATGCTCACGTATGGTCTATTAAAGAAAAAGTCCTTTAAGGATCTGCAGTACGGGATGATACAGGGAGCCCAGACCGGAATGGGAGCGGTGCTCCTGTTCTTCGTCATCGGCATTCTTATATCCAGCTGGATGGCAGCGGGTACCATCCCTGTCCTTATGGATGCCGGCTTTACGATCGCGGATGGCCCATGGTTCCTGGCGATTATTTTTGCCGTTACCGCTGTGATCGGCGTTGCTCTCGGCAGCTCTTTTACAACAGCCGCCACTGTCGGTGTTGCCTTCATCGGGGTGGCCGAATCGATGGATGTCTCCCTTGCCATGACAGCAGGAGCTGTCGTATCCGGTGCATTTTTCGGGGATAAGATGTCGCCTCTCTCTGATACGACAAACCTGGCCTCCACCGTTGTCAAAGTGGATTTGTTTGATCACATTAAAAATATGGCGTGGACAACGATCCCTGCCTTCATCATCACGTTTATTCTCTTTATATTCCTTTCTCCGGATCGAAACCCGGATGTTGAACAGCTGGATAACTTCCAGGCCGGTCTCGCTGCATCAGGTTTGATGCACTGGACCTCCTGGATTCCGGTTATCATCCTTGTTGCGATGACCATCACTAAGCGTCCGGCTTTTATTTCTCTGGCTCTCAGCAGCCTGGCCGCTACAATGCTGGCAGGGTTCAGAGAGGTGCTGTCCTGGACTGAGTTATGGCAGACTTGGTTCAGCGGATTTCAAGGCCGTACGGAAGTGGAGGTCGTGAATGAACTGCTGACAAGGGGCGGAATGAACAGTATGCTCTTCACCGTTTCTCTTGTTATTTTAGCGCTGGCCCTCGGTGGTTTGTTTTTCGTCACCGGCGTGATTCCAGCCATCCTGACCCGTGTCCAGGACTCATTGCAATCGGCAAGATCAGCAACCTTGTCCACGGCTTTTACAGCAATCGGAATCAACCTTGCAATTGGTGAACAGTACCTTTCCATCCTGCTGACAGGAGAGGCCTACCAGGATGTCTATGAAAAAGCCGGACTGGCACGCAAAAACCTGTCCAGAACTCTGGAAGACGCGGGCACAGTCATTAACCCACTCGTCCCATGGAGTGTGTGTGGTGTTTTCCTTTCCGGCGTCCTTGGTGTCCCGGTTCTTGATTATCTGCCATTTGCATTTTTCTGCCTGTTATCACCACTGCTTACCATCCTATATGGATTGACAGGAAAAACGATAGCCCCGGCAGCCGCAGAATCTTATCATAAAGCGAACTAA	MFHLQPKHLPSLSESILMIVLTIGVISYFIISLQTVPHIPILLGILLMLTYGLLKKKSFKDLQYGMIQGAQTGMGAVLLFFVIGILISSWMAAGTIPVLMDAGFTIADGPWFLAIIFAVTAVIGVALGSSFTTAATVGVAFIGVAESMDVSLAMTAGAVVSGAFFGDKMSPLSDTTNLASTVVKVDLFDHIKNMAWTTIPAFIITFILFIFLSPDRNPDVEQLDNFQAGLAASGLMHWTSWIPVIILVAMTITKRPAFISLALSSLAATMLAGFREVLSWTELWQTWFSGFQGRTEVEVVNELLTRGGMNSMLFTVSLVILALALGGLFFVTGVIPAILTRVQDSLQSARSATLSTAFTAIGINLAIGEQYLSILLTGEAYQDVYEKAGLARKNLSRTLEDAGTVINPLVPWSVCGVFLSGVLGVPVLDYLPFAFFCLLSPLLTILYGLTGKTIAPAAAESYHKAN	PGPT0013945_938	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013945-nhaC-K03315	NA	NA
AK012_03294	834	yflN	COG0491	putative metallo-hydrolase YflN	GTGGACAAGGACAAACAAGGAGAACAGCAGGACCATCATTTAGATATGGAACATGCAGAAACTGAACAAGTTCTTGAGGATGTGGCCTTTTACCGTACGCTCATTGTCAATGTCATCTTTATAGGAAAAGAACAGGCGGACGACTGGGTTCTTGTCGACTGTGGAATCAGTCATTACAGCCGGCGGATCATAGAAGCGGCGGAAAAACGGTATGGCTCCCGTCCTCCGAAAGCAATCGTTTTGACCCACGGCCATTTCGATCATGTCGGTTCAGCTAAAAAACTGGCGGACCATTGGAATGTCCCCATCTTTATTCATCCAATGGAAATGGATTATGTGACCAATCAGCGGGATTATCCTGTCGGAGATGCGACGGTCGGAGGAGGATTATTCGCCCTGATGTCTCCATTTTTCCCTACACATCAGCCGGACTTGAGCCGTTACATCCATACCATCCCAAGCGATGGAAAACTCCCGTTTCTTCCTGATTGGCAGGTCATTCACACGCCCGGTCACACGCCTGGACATATAGCTTTATACAGACCGCGTGACGGCACCCTGCTCGCTGGAGACGCCTTCATTACAGTAAAACAGGAATCCAGCATGGCTGTTTTTATCCAGCACCAGCACGTTCATGGACCTCCGGCTTATTTCACTCATAATTGGGAGGAAGCCGAAAAATCCGTCCAGCAGTTAGCCGCTCTGGGCCCGGTTACCGCCATTACCGGGCACGGGCTCCCTATGTCGGGGGAAACGCTGAAACGCCAGCTCAACGAACTTGCCTCCAATTTTCGTGAACTTGCTGTTCCTAAACATAAACGGAAGCTGCATTAA	MDKDKQGEQQDHHLDMEHAETEQVLEDVAFYRTLIVNVIFIGKEQADDWVLVDCGISHYSRRIIEAAEKRYGSRPPKAIVLTHGHFDHVGSAKKLADHWNVPIFIHPMEMDYVTNQRDYPVGDATVGGGLFALMSPFFPTHQPDLSRYIHTIPSDGKLPFLPDWQVIHTPGHTPGHIALYRPRDGTLLAGDAFITVKQESSMAVFIQHQHVHGPPAYFTHNWEEAEKSVQQLAALGPVTAITGHGLPMSGETLKRQLNELASNFRELAVPKHKRKLH				NA	NA	NA	NA	NA
AK012_03295	762	btuF_2	COG0614	Vitamin B12-binding protein	GTGAGAATCGTGTCGATATGTCCAAGCAATACTGAAATTGTCGCCTATTTGAATCAGACGGAACTGTTGGTTGGTGTCGATAATTATTCTGATTATCCTGAGGAAATCAGGGATCTCCCAAAGCTTGGGCCTGATTTATCCATTGATATACAAAAGACAGCCGAATTAGAGCCGGACTTGGTCCTGGCTTCTTTGTCTGTGCCGGGCATGGAAAAAAATATTGAAGGGCTTGAAAAGGCGGGTCTTCCTTATATGATCATTGATTCCGACAGTCTGGCAGGGATCGGGGAGGATCTGAGGCGTATCGGCCATGAACTCGGTATGGGGGAAGAAGCAGATGTTAAGGCTGAGGAATATTTACAGGAATTGAAGCGGTTGGAGAGCCAGGCTTCTCAACGTAAGGAAAAGCCGACATTGTACTGGGAGTGGTGGCCGAAGCCTGTGTTTACGCCTGGAGGGAAGAACTGGCTGACGGAACTCAGCCGGCTGGCAGGAGCTGAAAACATTTTTGCAGAGGAGGATACGGCCAGTTTTCAAACGGACTGGGAAGAAGTGAAAAAGCGTAATCCTGATCATATCTGTATGGTATGGGTCGGAGTAAAGGAAGAAAAAATGAACCCGGATCTTCTGAGGAAGCGGCCGGGGTGGGGGGAAATGAAGGCCGTAAGAAACGGCCGGATCCATGTGCTTGAGGAATCGCTGTTCTGCCGTCCGAGCCCGAGGCTCTTGGAAGGCCTGGCGAAGTTAACGACTGTTCTTTAA	MRIVSICPSNTEIVAYLNQTELLVGVDNYSDYPEEIRDLPKLGPDLSIDIQKTAELEPDLVLASLSVPGMEKNIEGLEKAGLPYMIIDSDSLAGIGEDLRRIGHELGMGEEADVKAEEYLQELKRLESQASQRKEKPTLYWEWWPKPVFTPGGKNWLTELSRLAGAENIFAEEDTASFQTDWEEVKKRNPDHICMVWVGVKEEKMNPDLLRKRPGWGEMKAVRNGRIHVLEESLFCRPSPRLLEGLAKLTTVL	PGPT0003765_11630	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
AK012_03296	828	mhpC	COG0596	2-hydroxy-6-oxononadienedioate/2-hydroxy-6-oxononatrienedioate hydrolase	ATGACCACGACACTGCTTGATTCAACAAACGGAATAGTGGAATTTACATATATCGGAGAAGGTCCTCCTGTGCTGCTGTTGAAGGGCGGACATTGCAGCAGAGATACAGATCTTTCCCACAGCAGTCTCGTTTATGAAGGATTTTCACTGCTGACGATTTCACGACCCGGCTATGACTACACAGAACCGTCGACAGGACGCACACCGGACGAATTCGCGGATACCATCGTGGAAGTTCTCGATTATTTAAGCCTGGATCGTGTGTACGTAATCGCTGTATCTGCAGCAGGGCCAAGCGGAATCGCTTTAGCTTCCAAATACCCGGAGCGTGTGGACCGGCTCGTTCTCGAAGCAGCCCTGACAGGGTCGTGGGACAGGAAATCCCGCAAAAAGGCGATGGTGCTGTTCGGTCCTGCAGAAAAAATGGTCACAGGGAGCCTCAAATTCATGCTTAAGCTTTTCCCTGATCTTGTTATGAAGCAGCTTCTTGCGGATATGACTACGGAAGATGTAGAGGATTACCTGGACAATTTATCGGCCAACGACCGGCGGTTTATCTATGATATGCTCTCCACGTCCCAGCCTGGCAGAGGCTTTATCCTGGACCTGGACCATGATGTAAAAAACCTTCATGAACTGAACGTACCTGTCCTCGGTATGTATTCCCAAAAAGACCGCAGCGTCCCTTATACAAACGCTCTGCTGCTGAAATCCACTGTACCTGATTGTGAAATCTACGAAGTCAATGCCGATAGTCACTTAATCTGGATTGGAAAAGATGCTCATGATGTTTGGAACAAACGGCTGGAATTTCTAAAACAATCCTAA	MTTTLLDSTNGIVEFTYIGEGPPVLLLKGGHCSRDTDLSHSSLVYEGFSLLTISRPGYDYTEPSTGRTPDEFADTIVEVLDYLSLDRVYVIAVSAAGPSGIALASKYPERVDRLVLEAALTGSWDRKSRKKAMVLFGPAEKMVTGSLKFMLKLFPDLVMKQLLADMTTEDVEDYLDNLSANDRRFIYDMLSTSQPGRGFILDLDHDVKNLHELNVPVLGMYSQKDRSVPYTNALLLKSTVPDCEIYEVNADSHLIWIGKDAHDVWNKRLEFLKQS				NA	NA	NA	NA	NA
AK012_03297	852			hypothetical protein	ATGGATGATGTAAGGTGCACACAGATGCTGGATCGTTTCTTAACGTTTTATGACCAGGCTTATCATGAACCTCCCCATAAACGGCATGAACTATGGATGGAATATTATGATTTCCCCCATACGCCACCTGGTTACCAGCAGGGACAGCTGGCAAAGGAAATGGTGGAGTATGCATGGACCAAGTACTATCACGTCTACGATAAAATCCAGTATTTCGATATCAGTCCACTCGAACTGAATGAGTACGTGGATCATATTAAGCAGATCCTCCACAGTACCACCTACGTTGATGTAAACGTTCTCTTTTTCGTCGGAACATTTGAAACGGACCCTTTCGTCATCCAGGAGAAACATCAATATATTCTCTGCTTCCCTGTCGAGCTACCCGGAGGTCAGACACGTTTGATCCAGGAGCTTGCAAGAGTCGTTCACTGCCGCCAGTCCGGGCTCGCCCCCAGCCATACCCGTACACTTGGACAGCTGATCTTCCAGGAAGGGCTTGCCATCCACACCACGCTGGAAGTACTTGAAGAAAGCGGAATATCTGACCCTTATTTCAGCTGGGATGAAGAGAGCTGCAGCCGCGAACCCAACCGGGTCATGATGAACATCCAGCCCCACCTGCACCGCACGGATTACGAAGCGCTCTATTCCTTTACAAAAGGAACAGGAGCCTCCGGTTTTGAAAAAGAGGCCAATTACACCGGATGGCTTGTCATTCAGCATCTTCTCGAACAAGGCAGGCCATTGTACGAACTGGCCCGCATAGCTCCTGATGAAGTCGATACCCTTGTGGAGCGGGCCCTGCTGTCATTAATGAATCAGGCGTATATGACCCAGCCTCAGGAGTAA	MDDVRCTQMLDRFLTFYDQAYHEPPHKRHELWMEYYDFPHTPPGYQQGQLAKEMVEYAWTKYYHVYDKIQYFDISPLELNEYVDHIKQILHSTTYVDVNVLFFVGTFETDPFVIQEKHQYILCFPVELPGGQTRLIQELARVVHCRQSGLAPSHTRTLGQLIFQEGLAIHTTLEVLEESGISDPYFSWDEESCSREPNRVMMNIQPHLHRTDYEALYSFTKGTGASGFEKEANYTGWLVIQHLLEQGRPLYELARIAPDEVDTLVERALLSLMNQAYMTQPQE				NA	NA	NA	NA	NA
AK012_03298	198	cspB_1	COG1278	Cold shock protein CspB	ATGGTCGAAGGTACAGTAAAATGGTTTAACGCAGAAAAAGGTTTCGGTTTCATCGAAGTAGAAGGTCAAGACGACGTCTTCGTACACTTCTCCGCTATTCAAGAAGAAGGTTTCAAAACTCTTGAAGAAGGTCAAGTTGTAACTTTCGAAATTGAAGAAGGTCAGCGTGGACCACAAGCAGCTAACGTTCAAAAATAA	MVEGTVKWFNAEKGFGFIEVEGQDDVFVHFSAIQEEGFKTLEEGQVVTFEIEEGQRGPQAANVQK	PGPT0014675_9844	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK012_03299	756	map_1	COG0024	Methionine aminopeptidase 1	ATGATTAAACGTAAGAGTCAAAGAGAAATTGAAAACATGCACGAAGCTGGTAAGCTGCTGGCTGATGTCCATAAACAGCTGCGCTCCTTTATCAAGCCGGGTGTCACAACGATGGAAGTCGAAAAATTTGTGGAAAACTATTTAGCCGAGCGCGGAGCTACCGGAGAGCAGAAAGGGTATCAGGGGTACGAATTCACAACGTGTGCTTCCATTAATGATGAAATCTGTCACGGATTCCCACGTGATGAGAAGCTCAAGGAAGGCGATATCGTAACCATCGATATGGTCGTCAACTTGAACGGTTACCTGGCTGACTCCGCCTGGACGCATGCGGTAGGCGAAATCAGCGACGAGGCTCAAAAACTGATGGACGTAACGAAAACGTCTCTATATAAAGGAATCGAGCAGGCAGTGCCGGGTAAGAGAATCGGTGATATCGGGCATGCTATCCAGGCATACGCAGAGGGAGAAGGGTACTCGGTTGTCCGCGACTTCACCGGACACGGCATCGGCGAATCCATCCACGAGGATCCTTACATCCCTCACTTCGGTGCGGCTGGTAAAGGGGCCCGTCTGAAAGAAGGGATGGTCATTACCATCGAGCCGATGATTAACATCGGGGACTGGGCGAGTCAGATGGATCAGAACAACTGGACGGCACGCACAGTGGATGGCACGTTATCCGCGCAGTATGAACACACCGTAGCCATCACAAAAGACGGCCCTGTGATCCTGACTGAGCAGGAAGATGAATAA	MIKRKSQREIENMHEAGKLLADVHKQLRSFIKPGVTTMEVEKFVENYLAERGATGEQKGYQGYEFTTCASINDEICHGFPRDEKLKEGDIVTIDMVVNLNGYLADSAWTHAVGEISDEAQKLMDVTKTSLYKGIEQAVPGKRIGDIGHAIQAYAEGEGYSVVRDFTGHGIGESIHEDPYIPHFGAAGKGARLKEGMVITIEPMINIGDWASQMDQNNWTARTVDGTLSAQYEHTVAITKDGPVILTEQEDE	PGPT0020010_8461	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
AK012_03300	555	maa	COG0110	Maltose O-acetyltransferase	ATGTCGGAGAAGGAAAAAATGTTGATGGGGGAGCTGTATCAACCCTGGGATGATGAGCTGGTTATGGACAGGTCGCGGGCCAGGCAGATCACCCATGCATTGAATCAGACGAAGAACACCGAAGAGCATTACCGCCATCAGCTGATGGAAGATCTTTTTGGGACGATAGCCGGAGAGATGACTCTCGAACCGCCATTTTACTGTGATTATGGTTACAATATTCATGTAGGAGACGGGTTCTTTGCTAATTTCAACTGTGTGTTCCTGGATATATGTCCGATTACGATCGGAGACCGTGTCTTGATTGGACCGAACGTTCAGCTCTATACCGCTCTTCACCCCATGGACAGGGAAACAAGAGCCAAGGGACTGGAATCCGGACGGCCGATTACGATCGGTGATGATGTTTGGATCGGGGGAGGAGCGATTATTAATCCCGGAGTTACGATTGGAAGCAACGTTGTGATCGGTTCGGGGGCGGTTGTTACCAAGGATCTCCCGGACAATGTGTTCGCCGCCGGCAGCCCGGCAAAGGTCATCCGGACAGTGGAATAA	MSEKEKMLMGELYQPWDDELVMDRSRARQITHALNQTKNTEEHYRHQLMEDLFGTIAGEMTLEPPFYCDYGYNIHVGDGFFANFNCVFLDICPITIGDRVLIGPNVQLYTALHPMDRETRAKGLESGRPITIGDDVWIGGGAIINPGVTIGSNVVIGSGAVVTKDLPDNVFAAGSPAKVIRTVE	PGPT0018611_1364	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0018611-maa|nodL-K00661	NA	NA
AK012_03301	501			hypothetical protein	ATGGAAACACGCGAATTAAACCGGTCGGATGCAGAAGCCTGCTATGAGCTGCGGCTCGAAGCGCTGCTGACGAACCCGGATGCTTTTATTACGACATACGAACAGGAAAAGCAAAGACCAAACCCGATTGAAACGACCGCTGAGCGTCTTGAAAGTAAAGACACCCGGACCTTCGGGCTGTTTTCTGAAGAGGAACTGGCAGGGGTCGTGACGCTGATGCGGGAAACCCACCCGAAATTCAGACACAAAGCCTCCATCGTTGCGATGTATGTCACCCCCGAGGTAAGACGGAAAGGTGGAGCACAGCAGCTGCTCAAAGAACTGATCCAGCATGCCGCTGCGGTGGAAATTGAAGTGCTTCATCTCAGCGTCGTTACGGAGAACACCCCCGCAAGAGAGCTGTATCAAAAGCTGGGCTTTCAATGCTGGGGTGTGGAAAAGAAAGCCATCAAGCTTCCCGGACGCTATTTGAACGAGGAGCATTATGAACTTTTTCTTTAA	METRELNRSDAEACYELRLEALLTNPDAFITTYEQEKQRPNPIETTAERLESKDTRTFGLFSEEELAGVVTLMRETHPKFRHKASIVAMYVTPEVRRKGGAQQLLKELIQHAAAVEIEVLHLSVVTENTPARELYQKLGFQCWGVEKKAIKLPGRYLNEEHYELFL				NA	NA	NA	NA	NA
AK012_03302	723	natA	COG4555	ABC transporter ATP-binding protein NatA	ATGATTGAAATCAAGCAGGTAACGAAAAACTTTGCCGGGAACGCAGCCGTCAAAGATTTGGATTTGACAGTGCTGGAGGGGAAAATCTTCGGGTTTCTAGGTCCGAACGGTGCGGGGAAGTCGACAACGATAAAGATGATGACGGGCATCCTCCCACTGGATGAAGGCTCCATATCAATGAACGGCGTGGATATCAGTAAAGAACCCATGAAAGCCAAGCATCAGTTCGGTTATGTGCCGGACCGCTCGGATATTTTCCTCCGGTTAAAAGGTATGGAATACTTGAATTTCATCGGTGATGTTTTCGGTGTACCGGAAAACGTTCGGAAAGAGAAAATTGAATACTTAACGAAAAGCTTCGACATCTATGAAGCGCTGAATGACCAGATTCATACATATTCGCACGGGATGCGCCAGAAAATTGTCGTCAGTGGTGTCCTTCTGCACGACCCGGATGTATGGATTCTCGATGAACCATTAACAGGACTCGATCCTAAATCATCCTACACGTTAAAAGAAATGATGCGGGAGCACGCAGCTAAAGGAAAGACCGTCTTTTTCTCCACCCACGTGCTGGAAGTCGTCGAACAATTATGTGATGAAGTGGCGATTATCAACAAAGGCCATGTCCAATTTCGCGGAAGTATGAAGGAAATGAAGCAGCAGTTCCAGGAAGACAACAATCTGGAGAAACTGTTTTTGGAGCTGACACAAAATGAGTAA	MIEIKQVTKNFAGNAAVKDLDLTVLEGKIFGFLGPNGAGKSTTIKMMTGILPLDEGSISMNGVDISKEPMKAKHQFGYVPDRSDIFLRLKGMEYLNFIGDVFGVPENVRKEKIEYLTKSFDIYEALNDQIHTYSHGMRQKIVVSGVLLHDPDVWILDEPLTGLDPKSSYTLKEMMREHAAKGKTVFFSTHVLEVVEQLCDEVAIINKGHVQFRGSMKEMKQQFQEDNNLEKLFLELTQNE	PGPT0006725_25517	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_03303	1638			hypothetical protein	ATGAGTAACACGTGGAAGCTGATGAAGTTGATGGTGAAAATGCAGCTGTCCTTCGCTCACCGGAGCACAGCGGAAAAATCGGGCTATCTCATCTTAGGCGTGGTCATGATCCCCTTCGGTCTGCTGATTCTCACCCTGTTAAACGAAATGATCGCGGTCATGTACGCGGCCTTCAGCCCGACGGGGGATGAAGCAGTCATCCTCGGGATCTTATTTGTATTAATGACCGTTTTTTACTGCTTTATCACCATTGGTACGGTCTTATCTTCTTTTTACTTTGCAGAGGATGTGGAATCGTTTGTCACGCTTCCTTTTCATCCCTATCAGATCGCAGCTGGAAAAGCGGCCGTTCCGTTCCTTTCGCTTTACGGAATCAATGCGGTCATCCTGCTTCCCGCTCTTGGGTTTTACGGCCTCCACAGCGGGGCAGGGATTCTTTATTATTGCTGGTCCTTTTTTATCTGGCTGCTGCTGCCGGTGCTTCCCTTTGTACTGACCGCCATTGCTATCATGTTCATCATGCGCTTTGTGAATATCTCGAAAAATAAGGATCGAAGCAAGGTGATTGCCGGGCTTCTTGGTTTTGTTTTCGTCATCGGTATCAATGTTGTCATCCGTCTGGAAAGCGGAAATCAGGATATGTACCAGCTGGCGGTTGAACAGGGGAATCTGCTCGGGCTGGTAACGAAGTTTTTCCCAACTGCCTACATCAGCAGTTCGGCCCTTACAGCCCCTGCATCCCTTCAGGGCATTCTGTCTCTCATCTTGATGATCGGTATTTCCGCAGGAGGGATCGCTCTTTTTTTCACTATCGGACAGAAGCTTTACTTCAAAGGGGTGCTCGGTTTATCCGGAGGAAAAAGAAACACGTTTACTGCGGATAGTGTAGAAGGGTACGTGAAGAAAAAACCGTTGATCTACAGCTTGTGTAAAAAAGAGGTCCTGCTGATCTTGCGCACGCCCACCTTCTTCACTCAAATATTTGTGCAAAGCCTGATCCTGCCTGTACTCGCCATTGTCCTGATCACTATGGAAATGGACGGCCCTATCGGGGGAGCAGGCGCACAGCTGGCCGACATGAACGGAAAAACCGTCATCCTGGCCTCCGCAGCGCTTTCGGTCGTTATTTTCGGATCGAACCCTGCCTCCATCTCTTCGATTTCAAGAGACGGAAAAAGCTGGTTCAATCATCTTTATCTGCCTGTTCCACCTTCGAAGGTGATCATGAGCAAATTGCTGACGGCCTACCTGCTGAATGCCATCTCGCTGATCCTATTAAGTGCTGCCGCTTTATGGATGATCAACATTCCTCTGCCGATCTGGGGAGCGTGGTTTATCCTTTCTCTACTCATCAGCTGGACTGCCTCTGCGGCGGGGTTGATGGTGGACCTATACAGCCCGAAACTGGACTGGACAGATGAGCGGGAAGTGTTCAAGGGGCGGTTTATCGGAATCGTTCCTCTCGCCATCGAAGCACTCGTATTCGGGGTCATTTTAGTCATCATGTTGAATATAAACAGCCTGCAGGGCCTCTGGCCGGTATCTGGTGCTTTATTCATCATCTTTCTTCTGCTGGCATTTCTGACGCAGATGGCCTTGAAAAAATTAACCGAACGCCGTTACCACAACCTGCTGTAA	MSNTWKLMKLMVKMQLSFAHRSTAEKSGYLILGVVMIPFGLLILTLLNEMIAVMYAAFSPTGDEAVILGILFVLMTVFYCFITIGTVLSSFYFAEDVESFVTLPFHPYQIAAGKAAVPFLSLYGINAVILLPALGFYGLHSGAGILYYCWSFFIWLLLPVLPFVLTAIAIMFIMRFVNISKNKDRSKVIAGLLGFVFVIGINVVIRLESGNQDMYQLAVEQGNLLGLVTKFFPTAYISSSALTAPASLQGILSLILMIGISAGGIALFFTIGQKLYFKGVLGLSGGKRNTFTADSVEGYVKKKPLIYSLCKKEVLLILRTPTFFTQIFVQSLILPVLAIVLITMEMDGPIGGAGAQLADMNGKTVILASAALSVVIFGSNPASISSISRDGKSWFNHLYLPVPPSKVIMSKLLTAYLLNAISLILLSAAALWMINIPLPIWGAWFILSLLISWTASAAGLMVDLYSPKLDWTDEREVFKGRFIGIVPLAIEALVFGVILVIMLNINSLQGLWPVSGALFIIFLLLAFLTQMALKKLTERRYHNLL	PGPT0006730_950	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK012_03304	420	teaD	COG0589	TRAP-T-associated universal stress protein TeaD	ATGTATAAAAATATATTGATTGCGGCCGATGGGTCCGATCATTCCATACGTACGGCAGAAAGAGCGGCAGAGCTTGCCGGTCTGCAGATGGGGGCGCAGATCACCATCATCTATGTGGTGGACGTCGATCAGTCGAAAACCGATGTTCTTACCCAGGGAGATAAGGCGATGATTGATCAGAAACGCAAGCAGAGGCTTGAGCCGGTTGAAGAGATCCTGCGTGGCCGGGACGTTTCTTATGAAGTGGTGATCCGTCACGGTGAACCGGGTCCAACCATTGTTCATTATGCCAATGACCACGATTTTGACATCGTCATCATCGGCAGCCGGGGATTGAACACGCTTCAGGAAATGGTGCTGGGTAGTGTCAGTCACAAAGTGGCCAAACGAGCGAAATGTCCGGTCATGATCGTAAAATAA	MYKNILIAADGSDHSIRTAERAAELAGLQMGAQITIIYVVDVDQSKTDVLTQGDKAMIDQKRKQRLEPVEEILRGRDVSYEVVIRHGEPGPTIVHYANDHDFDIVIIGSRGLNTLQEMVLGSVSHKVAKRAKCPVMIVK	PGPT0002681_19	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-PHOSPHATE_STARVATION_RESPONSE,PGPT0002681-yxiE-NA	NA	NA
AK012_03305	1473	bicA	COG0659	Bicarbonate transporter BicA	TTGAACACACAAACATTAAAACAACAATGGTTTGGAAACGTAAAAAACGATGTGCTTTCAGGTATGGTCGTCGCTATGGCCCTCGTTCCTGAAGCGATCGCTTTCTCTATCATCGCTGGAGTCGACCCCATGGTAGGATTGTACGCATCCTTCTGTATCGCTGTTGTCATCGCATTTGTAGGGGGACGGCCGGGAATGGTTTCGGCCGCAACAGGAGCGATGGCTGTGCTTATGGTAACGCTCGTGAAGGATCACGGCCTTGAGTACCTGCTGGCCGCGACCATCCTGACAGGTATTCTGCAGTTTATTCTTGGTGCCTTAAGGATTGGGCAGTTTATGAAGTTCATCCCAAGATCAGTGATGATCGGCTTTGTAAACGCCCTGGCTATTTTGATTTTCTCATCCCAGCTGATTCACTTTGAAGGGGCAGGTCTTGCGATGTATGCCATGGTTGCCGGATCCCTTGCGATCATTTATCTACTGCCAAGGTTTACAAAGTCTGTCCCTTCTCCACTCGTTGCCATCGTTGTCATGACGATCATTGCGGTAACGACAGGAGCAGGACTTAAAACCGTCGGGGATATGGGAGAGCTTTCAAGCACACTTCCGATCTTCCTTGTACCTGATATTCCAGTAAACTTTGAAACGCTGCAGATCATTTTCCCGATTTCCCTTGCCCTTGCCTTTGTCGGACTGCTTGAATCACTGCTTACAGCTCAAATTGTCGATGATATGACAGACACGGTCAGTGATAAGAACAAAGAAGCCCGTGGACAAGGTGTGGCCAACGTGGTGTCCGGACTGTTCGGCGGTATGGCTGGTTGTGCGATGATTGGACAATCTGTCATCAACGTATCCTCCGGAGGACGCGGCCGTTTATCCACACTGGTTGCCGGTGTCTTTATGATGACTTTGATTATTGCTTTCAACGATCTGCTTGTTCAGATCCCGATGGCCGTACTAGTCGGAATTATGATCATGGTTTCCGTCGGTACCTTTGACTGGAGTGCTTTAACGAGACTGCATAAAACACCCGTGACGGACACTGTCGTGATGGTGGTCACTGTTGGAACGGTTGTGTATACTCATGACCTATCCAAAGGTGTACTGGCTGGTGTCATTCTCAGTGCCATCTTCTTTGTGGCCAAGATTTCCAAAGTCCACGTTGAAGAGCACTTTGAAGAAGCGGCAAGCAAGATCGTTTACCAGGTGTCCGGCCAGGTGTTCTTCGCTTCAACGGACAGCCTGTTGAAACACTTCGACTTTAATGTAAAAGCTGATACGGTTCAGATCGACTTCACAGATGCACACGTCTGGGATGATTCGGCCGTAGCTGCAATTGATAAGCTTGTTCTGAAGTTCAGAGAACAGAACAAGGAAGTCGAAATCGCCGGGCTCAACAAAGACAGTTCCCAGCTTGTCAAAAAGCTGGCTGTCCATCATAAAGCTGATGCTTCATTATCCAATCATTAA	MNTQTLKQQWFGNVKNDVLSGMVVAMALVPEAIAFSIIAGVDPMVGLYASFCIAVVIAFVGGRPGMVSAATGAMAVLMVTLVKDHGLEYLLAATILTGILQFILGALRIGQFMKFIPRSVMIGFVNALAILIFSSQLIHFEGAGLAMYAMVAGSLAIIYLLPRFTKSVPSPLVAIVVMTIIAVTTGAGLKTVGDMGELSSTLPIFLVPDIPVNFETLQIIFPISLALAFVGLLESLLTAQIVDDMTDTVSDKNKEARGQGVANVVSGLFGGMAGCAMIGQSVINVSSGGRGRLSTLVAGVFMMTLIIAFNDLLVQIPMAVLVGIMIMVSVGTFDWSALTRLHKTPVTDTVVMVVTVGTVVYTHDLSKGVLAGVILSAIFFVAKISKVHVEEHFEEAASKIVYQVSGQVFFASTDSLLKHFDFNVKADTVQIDFTDAHVWDDSAVAAIDKLVLKFREQNKEVEIAGLNKDSSQLVKKLAVHHKADASLSNH	PGPT0003020_4494	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SULFATE|THIOSULFATE_TRANSPORT,PGPT0003020-TC_SULP-K03321	NA	NA
AK012_03306	606			hypothetical protein	ATGACCAAAAGAAAAGTGCCGTTTGAGCCGACTCCGGCGGATGATCGGGGGATTCAAGTGACAGCGGAGGGGAAACGTCTCTATCTCCGTGAGGTTCTCCCGGAGGACTGGGCGGAATTCCATCCGTATGCTTCGGACCCGGATACGGTCAAATACCAGCCCTGGGGCCCTCATACAGAAACAGATAGTAAGTTTTTTGTCCGTCAGGTGTTGATTGATGCCCGGCAGAAATACCGCTCCCGCTATGTATTTGCAATCGTGGAAAAAGCGGATCACCATGTGATTGGAAATATAGAGTTGAACATTCAGGACTGGGATGGAGTAGGTGAAATTGGTTTCATTATTCATCACCATTACTGGGGGCGGGGATTCGCGACAGAAGCCTGCCGGCTGATGCTGGCCTACAGTTTTGATCACTGTGGACTCCATCGTGTCACAGCGCTGAGCAGTCCGGAGAACAAAGCGTCCCAACGGGTGTTGGAGAAAATAGGAATGGTTAAAGAGGGAACACTGCGTGAGGATATTTTCGTGAAAGGTGCATGGAGGGACTCCTCCATCTATGGAGTTCTCAGAAGTGAATGGGAAAAAAGAAAAAGCGGAAACTGA	MTKRKVPFEPTPADDRGIQVTAEGKRLYLREVLPEDWAEFHPYASDPDTVKYQPWGPHTETDSKFFVRQVLIDARQKYRSRYVFAIVEKADHHVIGNIELNIQDWDGVGEIGFIIHHHYWGRGFATEACRLMLAYSFDHCGLHRVTALSSPENKASQRVLEKIGMVKEGTLREDIFVKGAWRDSSIYGVLRSEWEKRKSGN				NA	NA	NA	NA	NA
AK012_03307	273			hypothetical protein	GTGATTTGTGCTCATCCCATCATTGTAAAAACAAGGACCATTCGTAACAATCAACAGGTTTATGAGGAAAGGGAGGAACGTCTGGAGTTATACGAGGATTCGGTCGTATGCCCGGATGAAATACTTGAACGGAAAGACGTGCATGATGTCTCCTATAAAGCTTTTTCGCAGGGATCGGGCTTTCTTTATCTTCATACGATTAAAGGAGTCCGTACATTTTTAGTGAAGGAACATCCAGGACCCTGGATGGATGCGTTCAGGACAAACGCATGA	MICAHPIIVKTRTIRNNQQVYEEREERLELYEDSVVCPDEILERKDVHDVSYKAFSQGSGFLYLHTIKGVRTFLVKEHPGPWMDAFRTNA				NA	NA	NA	NA	NA
AK012_03308	873	cntI		Pseudopaline exporter CntI	ATGACAAATCGTAATAAAGGCATTGTATTACTGCTTATATCAGCGTTTGGTTTTTCCATGATGGCTGCTTTAGTCAAGCTGTCCGGAGACGTTCCAACGGTACAGAAGACCCTTTTCCGAAACCTCGTTTCCGCCATTATCGCTTTTGGATTTGTGCGTTACAATAAAGAGCGCCTGTTCGGAAAAAAGGAAAACCAAAAGCTTCTGCTTTCCAGGTCTGCGCTCGGAACGATCGGGATGGTCCTGTACTTCTATGCCATTGATAACCTCGTGCTGTCCGACGCTGATATGCTGAATAAACTGAGTCCGTTTTTATTAATTATATTTTCTGCTATTTTCTTAAAGGAACGAACACGCCCTTATCAAATCGCTGCCATCCTTGCCGCCTTTGCAGGGACACTCCTTATTATTAAGCCGGCCTTTTCATTGGAATTCATCCCTTATGCGGCCGGGTTGTTCTCTGCAGTGTTTGCTGCCGGAGCCTACACGCTGCTCCGTGTGCTTGGAGACAAGGAGAAATTTTACACCATTGTATTCTACTTTTCCTTTTTCACAACGGTAAGCCTGCTGCCGTTCACCATCGCTTTTTATGAACCGATGTCAGCGAAGCAGTGGGTCTATTTGCTGGGAGCGGGTGCATTCGCTACTCTCGGGCAGTTCGGCCTGACGATCGCCTATAAATTCGCTCCGGCACGTGAAATTTCCATCTTCTTCTACTCCACGGTCGTTTACTCGGCATTGATCAGCATCCTGCTGTTCGGCCAGATCCCCGACTTGTTGAGTGTCGCTGGTTATCTCACTATATTTGGTGCTTCCCTTTACATGTTTTTGAAAAACAATAAAGAAGCAGAAAAACAAGCCCAAGCCTCCTGA	MTNRNKGIVLLLISAFGFSMMAALVKLSGDVPTVQKTLFRNLVSAIIAFGFVRYNKERLFGKKENQKLLLSRSALGTIGMVLYFYAIDNLVLSDADMLNKLSPFLLIIFSAIFLKERTRPYQIAAILAAFAGTLLIIKPAFSLEFIPYAAGLFSAVFAAGAYTLLRVLGDKEKFYTIVFYFSFFTTVSLLPFTIAFYEPMSAKQWVYLLGAGAFATLGQFGLTIAYKFAPAREISIFFYSTVVYSALISILLFGQIPDLLSVAGYLTIFGASLYMFLKNNKEAEKQAQAS				NA	NA	NA	NA	NA
AK012_03309	210			hypothetical protein	ATGATAGAAAAGGGAGTGGGAAAAATGTGGGAAACTGTACTCGGGATCGCAAGTGTTCTTATCTTTTTCACTGTGATTATTCTATTCTTTCGACGACATCCGCAAAGGAGACAGCCAAAAACGCACCTGCATGAGACAAAACGTCATCCGTCTTTTTATACGTATACAGACTGGTCAGATGGCGGAGACGGAGGAGACAGCGGGGATTGA	MIEKGVGKMWETVLGIASVLIFFTVIILFFRRHPQRRQPKTHLHETKRHPSFYTYTDWSDGGDGGDSGD				NA	NA	NA	NA	NA
AK012_03310	975	ykfA_2	COG1619	putative murein peptide carboxypeptidase	ATGATCCCTGAAAAACTTAAGCAGGGAGATGAAATACGCGTCATTTCCCCGTCCAAAAGCTTGTCCATCGTCGCTCCCGATCAGCAGAAACTTGCAGTACATCGGCTCAGAGACATGGGTTTTACCGTCAGCTTCAGTACTTACGCAGCGGAAGCACCGGCGCTTCTATCCAATCCTGTAGAACACAGAATTTCAGATATTCACCAAGCTTTCAGGGATCCTCACGTCAAAGCTGTCCTGACGACTCTTGGAGGATACGACAGCAATCAACTCCTGAGCCACCTGGACTATGACCTGATCCAGGCGCACCCTAAAATTTTCTGCGGCTATTCGGATATTACAGCCTTGTCAAACAGCATCTATCAGAAAACAGGCCTGGTCACCTACAGCGGCCCCCACTTTTCCACTTTCGGAATGAAACAAGGACTGACCTACACGTTGGAACATTTCCGCACTATGTTCACGACGACAGCTGCCATAGACATAGAGCCTGCCGCTCACTGGAGCGATGATGCGTGGTACCTCGATCAGGAGGATCGTACGTTCTATCCCAACCAGGGCCCCGTTGTGATTCATGAGGGCGAGGCATCCGGAACCTTAATCGGAGGGAACCTTTGTACGTTCAACCTGCTGCAGGGTACTGCATTTATGCCGGATCTTGCGGGTACGGTCCTCTTTTTAGAGGATGATGAACTGTCCAATCCGGAGACATTCGACCGCAACCTGCAGTCCCTGATCCATCAGCCTGGATTTGATCAAGTCCAGGGCCTTGTAATCGGCCGGTTCCAAAAGGGGTCGAACGTAGACCTTCCGACATTAACGGCTGTCATCGAAAGTAAACCGGAGCTTGCATCCCTTCCCGTCATTGCGGATGCTGATTTCGGCCACACCAGCCCGATCTTCACCTTTCCTATAGGAGGACATGTCGAGATAAAGGCTGAAAGAGAGCAGGCCCACATCCGTCTGCATCCATAA	MIPEKLKQGDEIRVISPSKSLSIVAPDQQKLAVHRLRDMGFTVSFSTYAAEAPALLSNPVEHRISDIHQAFRDPHVKAVLTTLGGYDSNQLLSHLDYDLIQAHPKIFCGYSDITALSNSIYQKTGLVTYSGPHFSTFGMKQGLTYTLEHFRTMFTTTAAIDIEPAAHWSDDAWYLDQEDRTFYPNQGPVVIHEGEASGTLIGGNLCTFNLLQGTAFMPDLAGTVLFLEDDELSNPETFDRNLQSLIHQPGFDQVQGLVIGRFQKGSNVDLPTLTAVIESKPELASLPVIADADFGHTSPIFTFPIGGHVEIKAEREQAHIRLHP	PGPT0023815_927	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
AK012_03311	750	yueD		Benzil reductase ((S)-benzoin forming)	ATGAAATACGCCATTATTACTGGTACTTCCCGTGGACTGGGGGAAGCGGTGGCAGAAAAATTCGTGAAGCAGGGCATCCACGTCTTAGGGATTTCCCGTTCAGGAAATGAAAAGCTGTCTTCACTCAAGGATGAACAAATGGGGAGTTTTGAGCATATTCCGGCGGACTTGAATGATACAACGGACTTACAGAGAGCCGCAGCCGTAGTTAAGGAAAAAGCTTTTCATGCGCAGACGGAATTCGTATACGTCGTCAATAACGCTGGTGTCGTTGAACCAATCGAAACAGCAGGGCATCTTGACGCGGAAGCGGTACAGAAGCACATGCAGATCAATTTGACAGCTCCGATTCTGCTCATCAATGAGCTGCTTCCGGCAGCGTCTGAGACCGGCGTCAAGCTGGGCATTGTCATGATAACATCCGGTGCTGCTGAAAAGAGTATTCATGGATGGAGTGTGTACAGCAGCTCCAAGGCTGCCTTAAATCGTTTTACAGAAACCCTTGCTCTTGAGCAGGAGGGCAGCGGCCATACGATTCTAGCCTTTAGCCCGGGGGTCATGGATACGGATATGCAGCAGGACATCCGTTCTTCCAGTGAATCTGCGTTTGCTGATGTGGACAAATTCAAAAAGTTGAAGGAAGAAAATGCTCTGCGCTCTCCGCAGGAAGTGGCAGATGTGCTGATGAATTTACTCCAGCAGGATGTTACCAACGGACAGGTGTACCGCCTATACGATCTCGTCCAATAA	MKYAIITGTSRGLGEAVAEKFVKQGIHVLGISRSGNEKLSSLKDEQMGSFEHIPADLNDTTDLQRAAAVVKEKAFHAQTEFVYVVNNAGVVEPIETAGHLDAEAVQKHMQINLTAPILLINELLPAASETGVKLGIVMITSGAAEKSIHGWSVYSSSKAALNRFTETLALEQEGSGHTILAFSPGVMDTDMQQDIRSSSESAFADVDKFKKLKEENALRSPQEVADVLMNLLQQDVTNGQVYRLYDLVQ				NA	NA	NA	NA	NA
AK012_03312	636			hypothetical protein	ATGAAGTATTTCTTTCTCTTCATTATTTATGTTGCGGGCCTGGTCGTGTCAAGTCTCGGCCTTGCCTTAATAATAAAATCCGGCCTCGGCGTCGGTCCCGGCGACAGTATTGCTGTTGGTTTATCCATGCATTTACCTGTCACGGTCGGAAGTGTGATGATTGCAGCTTTTATCATCCTCCTTCTCGTCAATGCCAGACTTGAGCGGAAACGGCCGCAGTATGAATCGTTAATTCCGATCATCCTGCGCGGCCGGACCCTGGATCTCTTTTTATATGGATCATTGGAAAACCTTGATGTGCAGGTGTGGTGGGGCCAGTGGGGGATTTTCACCCTCGGTCTTCTGGCAGCGGCTGTCGGTATTTCCATATACCTCCGTACCCCTTTCCCACGCATCCCTCTCGATCATTTCATGATGATTATGAACGAGAAAACCAACCAGTCCAAAAGCTCCGTCCGGATTTTTTCCGAGTCAGGCATGGCGCTGATCGGCTTTTTACTGGGGGCACCGGTAGGGTTCGGGACCTTGATTGTAGCGATCCTGCTCGGTCCGCTCATCCAACTGACTTTCCAATGGGCCCGTCCCATTGCCAGGCTCTGGTCAGATCCAGAGAAACATGCTGCACAAAAAGCGTGA	MKYFFLFIIYVAGLVVSSLGLALIIKSGLGVGPGDSIAVGLSMHLPVTVGSVMIAAFIILLLVNARLERKRPQYESLIPIILRGRTLDLFLYGSLENLDVQVWWGQWGIFTLGLLAAAVGISIYLRTPFPRIPLDHFMMIMNEKTNQSKSSVRIFSESGMALIGFLLGAPVGFGTLIVAILLGPLIQLTFQWARPIARLWSDPEKHAAQKA	PGPT0026395_750	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
AK012_03313	594			hypothetical protein	ATGCAGGCCTTCCAGAAGAGGCGTGCCTTTTCTCTACAGCAGCAGCTGAATAAAAATGGAAATCAGCCGGCAGCCGGAACGCTGCCGGCTTTCTTTGTGTGCGGCGGTTTCACGTATGCTATAATGCAGATGAAATCAAGGAAAGGGGCGGGAATCGTGCCGAATGTAAAACTGGAATTAACGCAGGACCAATATGAAAAACTAGTGGAAGCGGTGTTTCTTGGAACATGGATGGTCAACTCAACGAAAATGGAACTGGATGAGCAGTTTGAGGACGTCCGCGAAGCCGTATTGTCAAAATATAAAGAGGGCGGCCTGGAAGACAGGGTTACGCATCACGAGCAGCTGGGAGTCCATGATCTCGATGTGGATTATGAATCCAAATTGATGGATACCCATGTGGAAGAATATGATGAATTCAGCTTTTGGGACAAGCTTGTGGAGAAACTTTCCGAGAAGGAATTGACCAATATCTATGGTCCTCTTGGAGACAAGCTCACAGAAGAACAGATGGAGAAGCGGATGAAAATTGAAGAAGAAATCGGCCGGAAACTCGAAGAAACAGGGGTCACACAATTATCATTTGAAAAATAA	MQAFQKRRAFSLQQQLNKNGNQPAAGTLPAFFVCGGFTYAIMQMKSRKGAGIVPNVKLELTQDQYEKLVEAVFLGTWMVNSTKMELDEQFEDVREAVLSKYKEGGLEDRVTHHEQLGVHDLDVDYESKLMDTHVEEYDEFSFWDKLVEKLSEKELTNIYGPLGDKLTEEQMEKRMKIEEEIGRKLEETGVTQLSFEK				NA	NA	NA	NA	NA
AK012_03314	888	dat_2		D-alanine aminotransferase	ATGACAATGTATAACCATATTTTGACGCAGGATGATTTTGTCGGACAGGATGAGCTGAGCTATCCGTTTGAAGAACGCGGGCTGCAGTTCGGGGATGGTATCTATGAAGTCATCCGTATATATGGCGGCCGCTATTACTTAATTCATGAGCATGTGGAGCGGCTGTATCGTTCCGCAGCAGCCATAAAGATCCAGGTTCCTTATAAGAAAGAGGACTTGTATGCCAAGCTTGATGAGCTGCTTGAAAAGAACAAGGTGACCGGTGATGCCAAGGTTTACCTGCAGATTACAAGAGGGTCCGCTCCAAGGGATCATGCTTTTCCTGACGGTATTGAAGCGAACCTTTACGCCTATGTGAAAGATCTTCCAAGACCGGAGGAGAAGTTGAAAAATGGGGTGACAGCCATTTCTCATGATGATATACGCTGGGATTGGTGCTACATCAAGAGTCTGAACCTGCTTGGGAATGTGCTGGCTAAACAAGCGGCCAAAGAGAATGACTGTTATGAAGCTGTTCTTCATAAAGATGGGGAAGTGACGGAGTGCAGTTCATCCAATGCCTATCTCGTCAAGGACGGAAAGGTCTATACCCATCCTGCTAAAAAGAACATCCTTCACGGCTGTGTAAGAATGCGTGTAGAAGCTTTCTGTGACCAGGAAGGGATCGAGTTTGTTGAAGAGACGTTCTCGTTAGAAGATCTGCAGGAAGCGGATGAAGTCTTTCTATCCAGCAGTACGTCAGAAGTCATGCCGATTTTGAAGGTGGATGAGCTGACCATTGCTGATGGTACACCGGGGCCGGTTACCCGTACGCTTCAAAAGTGCTATGAACAGGATGCAGGCCTTCCAGAAGAGGCGTGCCTTTTCTCTACAGCAGCAGCTGAATAA	MTMYNHILTQDDFVGQDELSYPFEERGLQFGDGIYEVIRIYGGRYYLIHEHVERLYRSAAAIKIQVPYKKEDLYAKLDELLEKNKVTGDAKVYLQITRGSAPRDHAFPDGIEANLYAYVKDLPRPEEKLKNGVTAISHDDIRWDWCYIKSLNLLGNVLAKQAAKENDCYEAVLHKDGEVTECSSSNAYLVKDGKVYTHPAKKNILHGCVRMRVEAFCDQEGIEFVEETFSLEDLQEADEVFLSSSTSEVMPILKVDELTIADGTPGPVTRTLQKCYEQDAGLPEEACLFSTAAAE	PGPT0001915_146	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_LYSINE_DEGRADATION,PGPT0001915-dat-K00824	NA	NA
AK012_03315	546			hypothetical protein	ATGCGTAACGTCCGTCTGGCAATCATAGGTTTTCTGGCTGTCCTTACGCTTGCGGTCGTGTTTTTCTTTGACAATCGGGAATTGAACGGCCTTACGAAAGATCGTCTGTACCCGATGATGGACGAGCCCAGGCAGCATCCTCAGCCGTTAACAGACAGCGTCACTGAATTGGGGAACGGCATCCGCGTCACCAAGCTCTACAGTCGTAACGATTCGACCGGGCTGTATTTCGGCATGTGGTACAGGGACCAACGGGCACTGATTAACCAGGAAGACGAGGACTGGCTCCGGGAAGAAGGGGAAATCGAATTCCTCGTGAAAGCCGTGGATTCCAACGGAACGACGTATAATGCAGAAACCGAGGGCATCGTGCAGGGCACTTTTTCTACATTCCGTTACGTGCAGTTTGAGGACTTCCATTATGATGAGTCACTCACGGATCTTCATGTAGCTTTTTATCCGATGAAAAAGAAGGACGGGGAACGGAAACCGCATCACCTCCCCCTGGTGGAAGCAGTTATTCAAATAGAACCAAACATTCAGTAA	MRNVRLAIIGFLAVLTLAVVFFFDNRELNGLTKDRLYPMMDEPRQHPQPLTDSVTELGNGIRVTKLYSRNDSTGLYFGMWYRDQRALINQEDEDWLREEGEIEFLVKAVDSNGTTYNAETEGIVQGTFSTFRYVQFEDFHYDESLTDLHVAFYPMKKKDGERKPHHLPLVEAVIQIEPNIQ				NA	NA	NA	NA	NA
AK012_03316	1413			hypothetical protein	TTGAAACCAGATGACCAGAAAAAGCTCGAACACGCGATCCGGGAAATTACCGAAATCGCCAAGGGATTCGGGCTCGACTTTTACCCGATGCGTTATGAAGTCTGTCCTGATGATATTATTTATACCTTTGGTGCCTACGGTATGCCGACGCGTTTTTCCCACTGGAGCTTTGGTAAACAATATTACAAAATGAAACTGCAGTATGACCTCGGGCTCAGTAAAATTTATGAACTCGTCATCAACTCCAACCCCTGTTATGCGTTTTTACTTAATTCCAACAGCCTGATTCAAAATAAGCTGATTGTCGCCCACGTTCTCGCGCACTGTGATTTCTTTAAAAACAACGCCCGTTTTCAAAATACGAAAAGGGACATGGTTGAAAGCATGGCCGCTACAGCGGAACGGATTGCCGCCTATGACAAGCTGTACGGCAAGGAAGAAGTGGAATCCTTCCTGGATGCGGTTCTTGCCATTCAGGAACATATCGACCCCTCTCTGGTGAGACCGAAGCTGGCGTGGTCGGTGGATGATGAGGAAAGCAGCGGGGAAAAAGCAGCGCTTACCGAGTACGATGACTTATGGAACATTGATGAATCTTCTTCGGAAGACCAGCCGCGTTTTAAAAAGAAAAGAAAGTTTCCTCCTCGTCCGGAGAAGGACTTGCTCTTATTTATTGAGCAGTACAGCCGGGAGCTTGAAGACTGGCAGCGGGATATTCTGACGATGATGCGGGAGGAAATGCTGTATTTCTGGCCTCAGCTCGAAACGAAGATCATGAATGAGGGATGGGCTTCCTACTGGCATGCGAGAATCTTACGTGAAATGGATTTGACAAGCGATGAGTCGATCGAATTTGCGAAACTGAATGCCAGTGTTGTCCAGCCTTCCAAAACCCAGTTGAATCCTTATTATTTAGGCTTGAAGATTTTTGAAGATATCGAAGAACGCTATGACAATCCTTCAGAAGAGATGAAAAAGCACGGGGTTGTTCCGGGAACGGGCCGGGAAAAGATGTTTGAAGTAAGGGAGATTGAATCCGATCAAAGCTTTATTCGGAACTATTTAACGAAAGAGCTCGTCCGGCGGGAAGATTTATACTTGTTCCAGAAACAAGGACAGAAATATAAAATTACGGATAAAGACCATGAAGCCGTCCGGGATCAGCTTGTAACGATGAGAGTGAACGGTGGTTTTCCTTATTTAACCGTCCAGGACGGGGATTATGTAAAAAGCGGAGAGCTTTATTTGAAGCATCATTATGAAGATGTAGAGCTGGACGTCAGTTATTTGGAAAAGACGCTTCCTTATGTCTACCAGCTGTGGGGGCGTCCGGTTCATATGGAAACGAAGGTGGAAGGACGCGATGTGATTTTCAGCTACAGTGGTAAAAAAGTCCAGAAAAAATATGTGTAA	MKPDDQKKLEHAIREITEIAKGFGLDFYPMRYEVCPDDIIYTFGAYGMPTRFSHWSFGKQYYKMKLQYDLGLSKIYELVINSNPCYAFLLNSNSLIQNKLIVAHVLAHCDFFKNNARFQNTKRDMVESMAATAERIAAYDKLYGKEEVESFLDAVLAIQEHIDPSLVRPKLAWSVDDEESSGEKAALTEYDDLWNIDESSSEDQPRFKKKRKFPPRPEKDLLLFIEQYSRELEDWQRDILTMMREEMLYFWPQLETKIMNEGWASYWHARILREMDLTSDESIEFAKLNASVVQPSKTQLNPYYLGLKIFEDIEERYDNPSEEMKKHGVVPGTGREKMFEVREIESDQSFIRNYLTKELVRREDLYLFQKQGQKYKITDKDHEAVRDQLVTMRVNGGFPYLTVQDGDYVKSGELYLKHHYEDVELDVSYLEKTLPYVYQLWGRPVHMETKVEGRDVIFSYSGKKVQKKYV	PGPT0024845_917	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024845-spoVR-K06415	NA	NA
AK012_03317	495	aaaT	COG0454	L-amino acid N-acetyltransferase AaaT	ATGATTCGAGAAGCTGAGGAAAAAGATGCAGAACGATACAAGCTCCTGATTGCAGAGCTTGAGGCAGAGACGGACTTCCTGCTTTATGGCAGAGGTGAACGCTCATGGACGCTCGAACGTGTGAAGGGGTTGATTCAGCATTGTTCCGAACATCCGGCGTCACGGCTCCTTCTATCTGAAGATGAGGATGGGTGGAATGGACATGTCACGGTACTTGGGGGGACGGCACCCAGAAACCGGCACACGGCCCGCCTTGTTACCGGTGTAAAAAAAAGGGTGCAGGGGAAAGGGGTGGCGGATGCTTTGTTCCATCATGTGGAAACATGGGCCAAGGATCATGGAATTTCCCGTCTTGAGTTCACCGTGATGACTGCAAACACAAGGGCTGTCCGCTTTTATGAAAAACACGGATACATAAAAGAGGGGACAAAGCAGGGAACGCTGATGGTAGACGGGCAGCTGATGGATGAATATATGATGGCTAAAATTCTATGA	MIREAEEKDAERYKLLIAELEAETDFLLYGRGERSWTLERVKGLIQHCSEHPASRLLLSEDEDGWNGHVTVLGGTAPRNRHTARLVTGVKKRVQGKGVADALFHHVETWAKDHGISRLEFTVMTANTRAVRFYEKHGYIKEGTKQGTLMVDGQLMDEYMMAKIL				NA	NA	NA	NA	NA
AK012_03318	543			hypothetical protein	ATGAAGATCAAGACACTTGCCCTTGGGTTATTAGCAGCGGGTTCTCTTGTCGCCTGTCAGGCGGAACAGGAAGCCGGCAATGACGGTAACTACAATGGTGTTGAAAATACAAGTTTTGAGCGCGAGGCCGACAACATGTATCAGGAAGGCCAGAAAGCGAATCAATATGACAATGACCGCGGCATGGTTCACAACACGAACTATCATGTAGCTAAAGATGCTGCCAACCGCATTATCAGAAATGTGGACGGGGTCGATCGGGCCTATGTTCTAAAAACGAGGGATAACGCGTATGTCGCCGCTGAACTGGATAATCCAAAAGGAGATAAAAATGAAGTCTCTGATAAAATGGAAAAACAGATCAAAGAAGCGGTGAAGGGTTCCGATCAGGATATTAACAACGTGTACATTTCCACAAACCCTGATTTCGTCGATTTGACGAACAACTATGTAGAAGATGTTGATAACGGGGAACCGGTGCAGGGGTTTTTCCGTGAATTCGGCGAAATGGTCGACCGCATCTTTCCTGATGAACGCTCATAA	MKIKTLALGLLAAGSLVACQAEQEAGNDGNYNGVENTSFEREADNMYQEGQKANQYDNDRGMVHNTNYHVAKDAANRIIRNVDGVDRAYVLKTRDNAYVAAELDNPKGDKNEVSDKMEKQIKEAVKGSDQDINNVYISTNPDFVDLTNNYVEDVDNGEPVQGFFREFGEMVDRIFPDERS				NA	NA	NA	NA	NA
AK012_03319	465			hypothetical protein	ATGTCGGAGAAACAGCAGCTTTATGCGCATACGGGACTTATGGCCGCCTTCAGCTTATTTTTATTTTTGAGCTTCGTTACAGCTGAAGCCGACAGTGCTCAGAGAGTGATGATTACGATCAGTGAAGTGATTGGATGTTCAGCGGTGGCAGGAGCCGCCATTTCGCTGTATTACATAAAAAGCAGTCAGCGTATGTTGATCCTTGCGATCCTTGCTTTTCTAGCCCCCTGGCTTGTCTACGGAATCGGTTATGAAGCAGGATGGAACGGTGATACATCCTATGTCTGGGTGTGGTTTATCGGCTTGTACCTTCTGCTTGCGGGCAGTTTTATCGTCCTGAGAATGAGCTATAAGAAAACGGAGGAGATCTTTAAACTTGTGCCGGTGTTTTTAATGTTTGTTAATGCTATCCTTACCGCCTATCTTATCTTTATACATATATGGTGGAGTCTTCCTTTCGTTTGA	MSEKQQLYAHTGLMAAFSLFLFLSFVTAEADSAQRVMITISEVIGCSAVAGAAISLYYIKSSQRMLILAILAFLAPWLVYGIGYEAGWNGDTSYVWVWFIGLYLLLAGSFIVLRMSYKKTEEIFKLVPVFLMFVNAILTAYLIFIHIWWSLPFV				NA	NA	NA	NA	NA
AK012_03320	234			hypothetical protein	ATGAATACGTACGATTATGATAATGCTCTGCATTATATGATCTGGGGGCAGTGGGATGATCTGCTTGTCCTTATGGTCCGGACCAATGATGAATTTCTGTCCAAGAAGATTGAAACCTTTCTTCACGCCTGTTACTACCCGAGCAGACATAAAGACCGCCTGCATTCACATGAGGCGCTGCTCAGCTATATCGATCATGCACAAACAACAACAATTGAAAGCTTTTCCCTATAA	MNTYDYDNALHYMIWGQWDDLLVLMVRTNDEFLSKKIETFLHACYYPSRHKDRLHSHEALLSYIDHAQTTTIESFSL	PGPT0025040_195	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025040-gerC-NA	NA	NA
AK012_03321	663			hypothetical protein	ATGAGAAGAGATACGATAGCAGTCGTGACCGAAGCATCAGAAGGCCTGGGCAGGGTGGCGGCTCTTCAACTGGCTGCCGAAGGTGCTTCACTTGCTGTAACTGGTTATTCAGAAGATATATTTCTTTTGAAGGAAGTATTGGAACAGAAGGGGGCGGCCCGCGTACTCGCGTTTCAGGCAGACGTGACAGAAGAAAATGATATGGAACATGTTGTCCAGGCGGTCTGCAATGCTTTCGGCGGGGTGGATGTCCTGGTGACCCATATCCATTTTGAGGATTCCGGCCCTTTGGAAAGCGTAACCGTAGAGGAGTGGCAGCGTACATATGAACGGAATGTCCAGGGGATTTTTCTTCCTGTTAAAGCGGTGTTTCCTGTTATGAAGAAGCAGAACTCCGGAAAAATCGTTGGGGCTCTGCAGCATCCTAAGCGGCAGACCTCTGTTCTTAATTCCTCAGGAATGGCGGCGGTTGAGTCATTTATGCAGGCGTTTGCGGAAGAAGCTGGTCCCTGCGGTGTTCAACCCGTTATGGTGTATGTTCCGGTGGGCGAATCGCACCGTCCGAACAACGATGCCACCACAGAGGCATGGACACGTACGTTCACGACTGTCTTGGAAGATTCATCGCCGGTCACCGTTCAGCACATCCAGACGGGCGGATAA	MRRDTIAVVTEASEGLGRVAALQLAAEGASLAVTGYSEDIFLLKEVLEQKGAARVLAFQADVTEENDMEHVVQAVCNAFGGVDVLVTHIHFEDSGPLESVTVEEWQRTYERNVQGIFLPVKAVFPVMKKQNSGKIVGALQHPKRQTSVLNSSGMAAVESFMQAFAEEAGPCGVQPVMVYVPVGESHRPNNDATTEAWTRTFTTVLEDSSPVTVQHIQTGG				NA	NA	NA	NA	NA
AK012_03322	609	betI_3		HTH-type transcriptional regulator BetI	ATGAATGGATTCGAAAAGAGGAAAGAACGAAAAAAACGCAGCATCCTTGATGCCTCTCTCTCCCTATTCTCCGAATATGGAGTGCAGAAAGTCAGCATTCAGGAAATTGCTGCGAAAGCCCAGGTTTCCCAGGTGACCATATATAATTATTTCGGTGGTAAGGATGAGCTCGTATTCGAAACCATCAAGAAGTTTTTTTACGAGCGGTTTGAACAGTTCCGTCTCATTGTCAGAAACCCTGACCGGAGCTTTAAGGATAAAATCAACCACGTCATTCTTGAAAAGAAGGAGAACATTCTGCATATGGATCCAGGCTTTCTGCAAACCGTCCTGACGGATCATCCCGGAATTCAGGAGTTTGTTCAGTCCTTTACCCAGAATGAATCCATTCCCCTGTTAATGGAACTTATCGAACAGGGAAAAAAAGAAGGGGACGTACACCCGGACATCTCCTTCCGCTCGGTTCTATTCTTCATTAATGCTTTTTATCAGGCCCTGCAGTCTGCTGATCACCTGTTTGATGATTCGATTACAGCCTTCACAGAGGAAATCACCCACATGTTCTTTTACGGACTTGCCGGGGATCAGAACCAGCGCTTAAATCAATAG	MNGFEKRKERKKRSILDASLSLFSEYGVQKVSIQEIAAKAQVSQVTIYNYFGGKDELVFETIKKFFYERFEQFRLIVRNPDRSFKDKINHVILEKKENILHMDPGFLQTVLTDHPGIQEFVQSFTQNESIPLLMELIEQGKKEGDVHPDISFRSVLFFINAFYQALQSADHLFDDSITAFTEEITHMFFYGLAGDQNQRLNQ				NA	NA	NA	NA	NA
AK012_03323	1422	merA		Mercuric reductase	ATGGATTATGATTATCAGATTGCGGTGATTGGAGGCGGTTCAGGAGGTCTTACCGTCGCCGCAGGAGCAGCCAGCTTCGGCGCCAGGACAGCCCTGATTGAACGCAAGCCGCAGCTTGGCGGGGACTGCCTTCATTACGGATGCATGCCGTCCAAGGCTCTCATTCAAGCAGCTAAAGAGGTCCACACGACCTCTCAATATCAAACCTTCTCTTCTGAGGACTACGACCGTCTGTTCAGCGGTGCGATGGAGCGGGTTGCCGAAGCAGTGGAAGACGTACAGAACCATGATTCCAAAGACCGCTTTATCGATATGGGGATCGACTTATATGAAGCCGAAGCTGTTTTTCAGGACCCTCATACGTTAAACATAGACGGGAAAACGATTACCGCAAAGCGGATCGTCATTGCAACAGGATCTTCTCCCTTTATCCCTCCGATTCCAGGGGTGGATGATGTCGAATACTTAACGAACGAAACCATCTTCTCCCTCCGGAAGCGCCCGGCATCCATGGTGGTCATCGGCGGAGGGATTATCGGCATTGAACTTTCCCAGGCGATGAGCCGGCTCGGTGTGGACGTGACTGTATTGGAAGGGAATGATACCATCCTCGCTAATGAAGATGAGGAAATTGCAGGGACAGCCCAGCAGACGGCCTCCCGGGAATTGAGCATCCTGACGAACGCCAAGGCAGATCGCATCGAGAAGACCCAAGCCGGGGTCAAGGTGTTCTATACAAAAGATGGTGTGGAAAATACGCTGGAGGCGGAGCAGCTCCTGGTTGCGACAGGGAGAAAGGCAAATACCGATCGTCTCGGTTTGGAAAATGCCGGTGTGGAGACAGAAAAAGGAGCCGTGGCTGTCAACGCTTCGCTAAAGACGACACAGCCTCATATCTATGCCGTGGGAGACTGTAATGGGTCCATGCCGTTCACCCATGTCGCTGGAATGGAAGGGAAAATCGCTGTATCCAACGCGGTTCTAGGCCTTTCCCGTAAAGCTTCTTACGAAAAAATCCCATGGGTGGTTTACACAGCTCCTGAAATTTACCACCTCGGACTTACAGAGAAGGAAGCACAGGAAAAATACGGCGATAAACTGCTGGTGTTTAAGACGAAGCTGGAAAATAACGACCGGTTTATGGCTGAACGGAACACCACAGGCTTAGTTAAAATCCTCACCACCAGCAGAGGGAGAATTGTCGGTGCCCATGCGGTCGGCGAAGGGGCCGGCGAGTGGATGCAGGAGGTTGGAACGGTGCAGGCGCTGAATAAAAAGTTCCAGTCGATCTCCAACATTATTCACCCGTACCCTGCCCGCAATAATGTCGTGTCCCAGACCTCTGATCTGTACTGGAGAGAGAAATTGTTTGGCAGCCGTGTCAACGATTTGATTCAGTGGTATGTGAAAAAATGGCGTTAA	MDYDYQIAVIGGGSGGLTVAAGAASFGARTALIERKPQLGGDCLHYGCMPSKALIQAAKEVHTTSQYQTFSSEDYDRLFSGAMERVAEAVEDVQNHDSKDRFIDMGIDLYEAEAVFQDPHTLNIDGKTITAKRIVIATGSSPFIPPIPGVDDVEYLTNETIFSLRKRPASMVVIGGGIIGIELSQAMSRLGVDVTVLEGNDTILANEDEEIAGTAQQTASRELSILTNAKADRIEKTQAGVKVFYTKDGVENTLEAEQLLVATGRKANTDRLGLENAGVETEKGAVAVNASLKTTQPHIYAVGDCNGSMPFTHVAGMEGKIAVSNAVLGLSRKASYEKIPWVVYTAPEIYHLGLTEKEAQEKYGDKLLVFKTKLENNDRFMAERNTTGLVKILTTSRGRIVGAHAVGEGAGEWMQEVGTVQALNKKFQSISNIIHPYPARNNVVSQTSDLYWREKLFGSRVNDLIQWYVKKWR				NA	NA	NA	NA	NA
AK012_03324	390			hypothetical protein	ATGAGTAAACCGTATCTAGGTGTCAAAGACGGACAGCTGGCTGCATGTCCATCATCTCCGAACTGTGTCTCGACACAGACGGATCAACAGGATAAAAAGATGGATCCTCTTCCGTTTTCCAAGGATTTGGAAACCTCTAAGCAGGTCATAAAGGAAGTCCTCCATCAGATGGAGAGAACAACGATTGAAACGGAAACAGAAAATTATATCCACAGCATCGTAAAGTCCAAATGGATGAAATTCAAGGATGATGTGGAATTTTATTTTGATGAGGATCAGCAGATCATTCATTTCCGTTCTGCGTCCAGGACCGGGTATTCGGATATGGGCGTCAACAGGAAGCGGATGAATGGAATAGCTGAACATTACGAAAGCATGAGGAGGAAATAG	MSKPYLGVKDGQLAACPSSPNCVSTQTDQQDKKMDPLPFSKDLETSKQVIKEVLHQMERTTIETETENYIHSIVKSKWMKFKDDVEFYFDEDQQIIHFRSASRTGYSDMGVNRKRMNGIAEHYESMRRK				NA	NA	NA	NA	NA
AK012_03325	987			hypothetical protein	GTGAAAACAGGCATTGTCATGGAGCGTAAGAAAGAGTATATGATTGTCATGACGAATGAAGGCCGCTTTTACCGGGCTGTTACGATTGCTCATGCAGAAGTGGGGACGGAAGTCCAGTTTCAAACCATCCCCTCAAGTAAAGCGGCCCGGCAGTGGTCACAGCTGCTGCAGTATCGTTATACAAAAGCCGTCGTGGCGGCTCTGCTTTTTCTAATGGTTTTAATACCCGCATACTCCTGGCATGGCAGTAATCAGGCCTTTGCCTATATGAATATAGATATCAACCCAAGTGTTGAACTGAAGTTGAATGAGCGGATGCAGGTGCTTGATATCGAACCGAACAACGCTGAGGCGGAGGAAATTGTTGCGCTTCTTTCGGAGTGGAAGAAAGAAGATGCTTCAGAAGTTACGATGAATCTGATCCAAACCAGCAGGGATAAAGGCTATGTCCATGAGGGGAACCAGGTTCTCATCGGTATCAGCTATCTGGAATCGGATTTTGATCACCAATACTTAGAAGAAATGGAAGGTACGCTGAACGAGGAACCTACACGGATGACCGTTGCAGCCTATCTCATCCCCGACGAATGGCGCAGGCAGGCCAAAAAAGAGGATCTGTCCGCCAATGAGTGGATGGCTGAGAGGCTCACAGACGAGGAGCATCCAGACGAAGACACAGAGAGTATCCCGGAAACCATCGATGACACGGATAAAGAAATCATACAATCCTTTTACCGAGAACCGGCATCCGAAGGCGTAAAGGAACCCCATGAAACTTCCGAAGATCTCCCTGATACAGACCCTGTCCATCCGAAGGTAGAACCGCAGAATTCCATGGATAGACCATCTCCTATGAACCGGCTGGACAAAGAGCCGGAGCTGCTTCCTGGAAAAGAAGCCTATGATTTTCACCAAAAGGAACGGGCTTCGGATACGACTGTGACCGGCGGAACAGGCCATGAAAACGAAAGCGCTCCTGTTCCATGA	MKTGIVMERKKEYMIVMTNEGRFYRAVTIAHAEVGTEVQFQTIPSSKAARQWSQLLQYRYTKAVVAALLFLMVLIPAYSWHGSNQAFAYMNIDINPSVELKLNERMQVLDIEPNNAEAEEIVALLSEWKKEDASEVTMNLIQTSRDKGYVHEGNQVLIGISYLESDFDHQYLEEMEGTLNEEPTRMTVAAYLIPDEWRRQAKKEDLSANEWMAERLTDEEHPDEDTESIPETIDDTDKEIIQSFYREPASEGVKEPHETSEDLPDTDPVHPKVEPQNSMDRPSPMNRLDKEPELLPGKEAYDFHQKERASDTTVTGGTGHENESAPVP				NA	NA	NA	NA	NA
AK012_03326	738	sigI		RNA polymerase sigma factor SigI	TTGATCAAACGTCTTTTTCACAAAAACGACGCCTCCCTGGACGCTCAAGTCGCGTCAGCAAAAGAGGGAGATGACGAAGCAAGAAACGAAATGCTTAAACAGTATCAACCTTTTATCGCCAAAAGTGTTTCTGAAGTATGTAAAAGATATATAGACCCCGCCAGGGATGATGAATTCAGCATCGGACTGCTCGCCTTCAATGAAGCGATTCAGTCCTACTCTTCGGCCAAGGGAAGTTCCTTTCTTTCCTTTGCCCGGCTTGTGATCAAACGGAAAGTGATCGATTACATCCGGAATGAGCAGAAGCGTCCACCGGTCACCTCGCTGGATGAGGATTTCCACGAGGAGGAACAGATGGAAAATCCATTGGAAATTTCGGCAGCCAGAGAGCGTCATCAACTGGAAACGGAAGCCTGGCACCGCAGAGAGGAAATTCTTGAGTTTCAGCAGGACCTGGAGCGGTATAAGCTTTCCTTTGAAGAACTGATCGAGGTTTCTCCTAAACATAGGGATGCCCGGGAATCAGCGGTTCATGTGGCCCGCCTCGTCTATGACGATGATGATCTGCGCATGCAGGTGCTTGAAAAGGGACGTCTTCCCATTAAGGATTTAGTTGGACGCGTGGAGGTCAGTAAGAAGACGCTGGAGAGAAATCGGAAGTTTATCATTGCTCTCGTTCTCATCTTTAAGGGGGATTATATATATCTTAAGGATTATTTGAAAGGAGTGGGCATGTGA	MIKRLFHKNDASLDAQVASAKEGDDEARNEMLKQYQPFIAKSVSEVCKRYIDPARDDEFSIGLLAFNEAIQSYSSAKGSSFLSFARLVIKRKVIDYIRNEQKRPPVTSLDEDFHEEEQMENPLEISAARERHQLETEAWHRREEILEFQQDLERYKLSFEELIEVSPKHRDARESAVHVARLVYDDDDLRMQVLEKGRLPIKDLVGRVEVSKKTLERNRKFIIALVLIFKGDYIYLKDYLKGVGM				NA	NA	NA	NA	NA
AK012_03327	828			hypothetical protein	ATGAGTGATCGAGAAAAGAAAAACAGAGGCATCATTGATGAGGATTTGTATGAAGAAATAGATGAAGAAGAACTGTATGACCTCGTTCAGGAAGAGAAGCGTAAAGCACTGGAAAGGGCCAGGGAGGAAAAGGAGCAGCAGAGAGAGAAGCGTCCTTTTCCTAAATGGCTTTTCTGGCTTGTCGCGGGGGTTATGATTGTAAACGTAACGGCTGCTCTGCCCAATACTTTCTCCATCCCGGCTGTTGATTTCCTAATGACCTCGGCTCAGCTATCCAGTGATGAAGACATTCAATCATACAAAGAAGCAGTTGTCGTTGTAGAAGCTGGTGAAAGTAAAGGCACCGGCTTTGCTGTTTCAGAAGACGGGACCATTTTAACGAATCATCATGTCATCGAAGATGGAAGGCGTGTAGCTGTAGCCTTTCCTGAACAAGGATTGTTTCACGCGGAGGTGAAAGCTGCTTACCCTGAAGTTGACCTTGCCGTTCTGCAGGCGGAGGGGTCTGGTTTTCCACACTTGAATTTAGCCCCTTCTACAGAATTCCAAGAGGGTGAACATGTGTATTTCATTGGCAATCCTCTCCGTTTTTCCGGTATTGCCAATGTAGGGAATGTGCTGGGTACGACCAGAGTTTCGGGGATGGATCAGAAGGTGCTTATGCTGGACGCTCCCATCTACCGCGGGAATTCAGGCAGTCCGGTCATCAACAAGGACGGGGAAGTCATTGCTGTGGTTTATGCTACGATGACCGACGAGGAAGAAGGGCGGGTCGGGCTGGCTGTCCCTATTGATTATTATTATGAACAGTCAGGAGAAGCTCCGTGA	MSDREKKNRGIIDEDLYEEIDEEELYDLVQEEKRKALERAREEKEQQREKRPFPKWLFWLVAGVMIVNVTAALPNTFSIPAVDFLMTSAQLSSDEDIQSYKEAVVVVEAGESKGTGFAVSEDGTILTNHHVIEDGRRVAVAFPEQGLFHAEVKAAYPEVDLAVLQAEGSGFPHLNLAPSTEFQEGEHVYFIGNPLRFSGIANVGNVLGTTRVSGMDQKVLMLDAPIYRGNSGSPVINKDGEVIAVVYATMTDEEEGRVGLAVPIDYYYEQSGEAP	PGPT0015105_7078	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
AK012_03328	1020			hypothetical protein	TTGAATGTACAGCTGATCGAAGTTTATATCCCGGATAAGCATTTTGAATCGATCAATGATAAACTCCAGCAATACGACCACCGCTCCTACTGGATTTCCAGTGAATCCGAAGAGCGTATGCTTGTCCGTATGCTGGCAGATACAAGTGATGTCGAGGGAATTCTCAACTATTTGGAGGAAGTCTCCAATGTCGTGGAAGGCTTTGAAACGATGCTGATTCCTGTCCAGACCTATTTATCCAAGGAAACAATCAATGAATCGGTGGAAGAGGAAGAACGGGGGCAGGAGCAGGAGGAGGAAAAAGCGAAGCTGCTGAGGGCAAGCCGGCATGAGCTCATGAATGCAGCAGAAAAAAACAGCCGGATTTCCTGGAACTATTCATTATTGATCGTTTTATCTGCCATTGTAGCGACCGTCGGCATCATAAAAAATAGTGAAGCGGTTGTCATCGGGGCCATGGTCATTGCGCCGATGATCGGCCCGGTTATCTCTATTGCCTTCTCAGCCATCCTGGGAGACTATAAGCTGCTTGGAAAATCAGCTTTGTCATCCTTATACAGTGTCCTGATTGTACTGGCTATTTCTATTCTGTTCGGGTATGTGACTGATGCCGGAATGGAAAACAGCCAGTATCTCGACCGGACGAAGGTGACCTTGATCGATATTCCTCTCGGCGTGGCTTCCGGGGCGGCGGGGGCTCTCGCTTTTCTGAATCGTTTGTCGGGGAACCTTGTCGGCGTCATGGTAGCCGTCGCCCTGCTGCCGCCCTCTGTGGCCCTTGGCATGTCTATCGGTGACGGGGCCTTTGTATCAGCCTACGGAGCTTTCCTGCTTGTGACGGTCAACATCATGTCCATCATTCTTGCTGCCGTTATGATATTTTCCATCAGCGGCATCCGCCCTGTCCGATGGCAGGAGGTCCAAAGGGCGAACGTTTCCCGCCCGTTGTCGATTATATTTGTCAGCATCATCATCCTCATCCTGGCGATTGTAATTCTGGAAGGTCAGGAAATCATATAG	MNVQLIEVYIPDKHFESINDKLQQYDHRSYWISSESEERMLVRMLADTSDVEGILNYLEEVSNVVEGFETMLIPVQTYLSKETINESVEEEERGQEQEEEKAKLLRASRHELMNAAEKNSRISWNYSLLIVLSAIVATVGIIKNSEAVVIGAMVIAPMIGPVISIAFSAILGDYKLLGKSALSSLYSVLIVLAISILFGYVTDAGMENSQYLDRTKVTLIDIPLGVASGAAGALAFLNRLSGNLVGVMVAVALLPPSVALGMSIGDGAFVSAYGAFLLVTVNIMSIILAAVMIFSISGIRPVRWQEVQRANVSRPLSIIFVSIIILILAIVILEGQEII				NA	NA	NA	NA	NA
AK012_03329	831	yvgN_1	COG0656	Glyoxal reductase	ATGGGAATCCGTTCGAATGCCGTTCTAAGTAATGGTGTGGAAATCCCCCGTGTCGGGCTCGGAGTATATAAGATGGAAGACGGAAAAGAAGTTCAGCAGGCGGTTCAATCCGCTGTCGATCTCGGCTACCGTCATATCGACACGGCCTCTTTCTATGAGAATGAAGCAGGTGTCGGTGAAGGCATCAAAGCCAGTGGCGTGCCGAGGGAGGAATTGTTCATCACTACGAAAGTATGGAATGATGAACAGGGGTACGATGAGACACTGGAAGCGTTTGATAGAAGTCTTGATAAACTCGGAGTGGAAACACTGGACTTGTACTTAGTTCACTGGCCTGTTCCAGGAAAGTTCAAGGACACCTGGAAAGCGTTGGAGAAATTGTACCACGACGGTCGCGTTCGAGCTATTGGAGTGTGCAACTTCATGGAGCATCACCTTGATGAACTGCTGGAGGATGCAGAAGTGACGCCTATGGTCAATCAAGTCGAATTCCATCCGGCCCTTTATCAGGAGGAACTCGCTGACTACTGCTATCAAAAGGGCATTCAGCTCGAAGCATGGGCTCCGCTTGCGAGAGGTCGTTATTTCGATGCGGCCATTTTAAAGCAGCTGGCTGAAAACTACCATAAAACACCGGCACAGATTATTTTAAGGTGGCATCTGCAGCATGACATTGCTGCTATTCCGAAATCCTCCAATCCGGAGCGTCAGAAAGAAAACTTTGACGTCTTCGACTTTGATCTGAAGAGCGATGAAATGCTGCGCATTGATGAACTGCACAGCGGTGACCGCATCGGCAAGCACCCGGATGAATTTGATTATCAGATGTAA	MGIRSNAVLSNGVEIPRVGLGVYKMEDGKEVQQAVQSAVDLGYRHIDTASFYENEAGVGEGIKASGVPREELFITTKVWNDEQGYDETLEAFDRSLDKLGVETLDLYLVHWPVPGKFKDTWKALEKLYHDGRVRAIGVCNFMEHHLDELLEDAEVTPMVNQVEFHPALYQEELADYCYQKGIQLEAWAPLARGRYFDAAILKQLAENYHKTPAQIILRWHLQHDIAAIPKSSNPERQKENFDVFDFDLKSDEMLRIDELHSGDRIGKHPDEFDYQM	PGPT0014985_388	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-METHYLGLYOXAL_DETOXIFICATION,PGPT0014985-yvgN-K23257	NA	NA
AK012_03330	2250	helD	COG3973	DNA helicase IV	ATGGATGAATTTCAATATGAAAAAGACCGTCTTGATTTTACGAAAGCCTATATGGAGCGGATGATTGCTGCCCAGGAAAGTGGCCGTGCTTCACTCAAGCAGCGCCAGGATGATACGCTGGAAAACCTGGATTTCCAGGACAGCAGTCTGCGTTATCAGGAGATGCTTTCCCACGCAAATTTTATGAAAATGTCGAGGGATCAGCTGGATAACTTGAAAAGTCTTCGACGTAAACCTTATTTTGCCCGCATTGATTTTCACCGGAAGGAAAACCCGGAAAAAGAACAGTTTTACATAGGAAAAGTTTCCTTGTTCGATAGAGAAACGCAGCTCCCGATCATCCTCGACTGGCGGAGCCCGCTGGCCAACGTCTATTATGAAGGACGGCTGGGAGAGGTCAGCTATGAGGCTTTAGGGGTGCGTTATGAGGGGGAAGTTTCTCTAAAGCGGCAGTATCAGATTGAGGAAGGCGAATTAATGGATTACCGGGACATTGATGTGACAGCTAAGGATGATCTGCTCCAGGAGTCCCTGTCGCAGAATGCCGATGGCCGCTTATCTGAAATTGTCTCGACCATTCAGGAAGAGCAGAACCGTGTCATCCGTGCGGATCTCAGGAGGCCGATCATCGTGCAGGGAGCAGCAGGAAGCGGGAAGACGACAATCGCCCTGCACCGGATTTCCTACTTTCTTTATACGATGAAAGAGATTTTCAAACCGGATGACATGTTGATTCTTGCTCCCAACCGTCTGTTTATCCAATATATTTCTGAGGTTCTTCCAGAACTTGGCGTGCAGCGTGCGGCACAGTCCACATTTATGGATTTTGCCCTCACTACTGCAGGAATACAAAGTCCGGTCATTACACAGCATGAAGTGCTGACACAGGCTGTTGAAGGTACCATGGACAGGGACGGGGTTACGGCCGCCCGGTTGAAAGGGTCAAAAATGTTCCAAACGATCATGGATACCTATATTCAATCATTAAAGAAGCAGTACAAAGTCGAACAGGATTTCACGCTTCTGGAGTTCCGGATTAAGAAAGCTCGTGCCATTAACCGGCTGTTTTTTGAGAAATACAGCTATTTTCCTTATGAGGTGCGTGTGAGAAAAATTAAGGCGGTCCTTCAAAGTGAGCTGCGGCGTAAGAAGAAGCAGATTCTTGAAAAGGTGGCTGCTAAATATGATGAAGCGCTGGACAAGGCTTTATATGGAATGAAGGATCCTGATAAGCGGAAAATCCGCGTCAGCTACTTGATTACAAGAAAAGAAGAACGCCTCACTGAAATCAAGAAGGCTGCAAGAACGGCCGTTGCTTCCTTTATGAAGCAGTATCCGGCGTTTCACGTTGAAAAGACGTACAAAAAGCTGTTTGAAGAGAGCGTATTTCTGAGCATCCATCCTGATGATACGGAAGAATGGAAAGCTGTCCGCCGTTACTCCCGTTCGACTTTCGCAAAGGGGAAGGTTCACTCGGAGGATCTCGCCGGTCTGCTTTACCTCTTTACATTTCTGAAAGGTATTGACGCGGAAGATCGTCCTAAAAAGGTCGTGATAGATGAGGCCCAGGATTACAGTTATTTTGAAATCTATGCCCTGCGGCGTGCCAGCCAAACCGACTTGTTTACGATTGTCGGTGATCTAGCTCAGGGAATTTATCAATACAGAGGGATCGACACATGGGGGACATTGGTTGAGGATATCTTTCCTAAGGCCTCCTATTTAACGTTACAGAAGACATACCGGACAACAATTGAAATCATGGATCTGGCGAATGGCCTGCTGACTCATCTGCCGGTGTCGCTGCCGCGTGCCGAGCCTGTCGCCCGCCACGGACCTCTGCCGCAGTTTCTTCCTATAACACCGGGGTGGGAGGAAAAGGTTGACCAACTCTGCCGCGGTTTCGTGGAAGAAGGGTTGTCCAGCTTTGCCATGATTACAAAAACGATGGCAGAAGCCGAGGATGTTCAGAAACGGCTGGAGACTTACGGCATGACCTTCACTCTTTTAAAAGAAGGAGAGGGGAGTTTGTCCGAGCGGATGGTTCTCCCTGCCTACCTGGCTAAAGGTCTTGAATTCGATGTCGTCCTTTTATACAACGACCGCCACCCTTTTCAGGAGTCAGACCTTGATTTGAAAATGCTTTATGTAGCTATGACCCGCCCCCTTCACCGGCTGATGATGATTGGAGCTGATAAGGAGGATTTTCTCCTGCACCTCGTTCAACCTGACATGTTCCAGGAAGTTTAG	MDEFQYEKDRLDFTKAYMERMIAAQESGRASLKQRQDDTLENLDFQDSSLRYQEMLSHANFMKMSRDQLDNLKSLRRKPYFARIDFHRKENPEKEQFYIGKVSLFDRETQLPIILDWRSPLANVYYEGRLGEVSYEALGVRYEGEVSLKRQYQIEEGELMDYRDIDVTAKDDLLQESLSQNADGRLSEIVSTIQEEQNRVIRADLRRPIIVQGAAGSGKTTIALHRISYFLYTMKEIFKPDDMLILAPNRLFIQYISEVLPELGVQRAAQSTFMDFALTTAGIQSPVITQHEVLTQAVEGTMDRDGVTAARLKGSKMFQTIMDTYIQSLKKQYKVEQDFTLLEFRIKKARAINRLFFEKYSYFPYEVRVRKIKAVLQSELRRKKKQILEKVAAKYDEALDKALYGMKDPDKRKIRVSYLITRKEERLTEIKKAARTAVASFMKQYPAFHVEKTYKKLFEESVFLSIHPDDTEEWKAVRRYSRSTFAKGKVHSEDLAGLLYLFTFLKGIDAEDRPKKVVIDEAQDYSYFEIYALRRASQTDLFTIVGDLAQGIYQYRGIDTWGTLVEDIFPKASYLTLQKTYRTTIEIMDLANGLLTHLPVSLPRAEPVARHGPLPQFLPITPGWEEKVDQLCRGFVEEGLSSFAMITKTMAEAEDVQKRLETYGMTFTLLKEGEGSLSERMVLPAYLAKGLEFDVVLLYNDRHPFQESDLDLKMLYVAMTRPLHRLMMIGADKEDFLLHLVQPDMFQEV				NA	NA	NA	NA	NA
AK012_03331	351			hypothetical protein	GTGAAATCCAACATGTGCCGCTGGTGTTATAAAGAAATCAGGGACAGGGATGAGCTGGTCACGGCATCCAGCTGGTTCCGTCTCCGCCCTTATCATTATCAATGCTTTGAAAAACTTGAACAGGAAACCCGCACGATCGCCGGTGTCTGGAAGCCGGTGAATGGGGTGACAGGATCCGTGAATGTCTTTGTCATGCTCATCCTGGCCGTTGTGCTGCTGGCTACGGATCTGTTGGACGGCGTCGGTGATATCATCGGAGTGATTGCCTTGTACCCCCTTTTCCTCCGGCTGCTGTCCTACGTGATTTATGAGCGCCCGCTCCCAAAATTCGCACCGGAGAAGCAGAGGTAA	MKSNMCRWCYKEIRDRDELVTASSWFRLRPYHYQCFEKLEQETRTIAGVWKPVNGVTGSVNVFVMLILAVVLLATDLLDGVGDIIGVIALYPLFLRLLSYVIYERPLPKFAPEKQR				NA	NA	NA	NA	NA
AK012_03332	420	rsbW_1		Serine-protein kinase RsbW	ATGAAAACGTCTCTTGAAGCGCAGATTCGACATCCAAGAGAAATGCGGACGATTCGAAAAAGATACCACCCCTATTTAGCCAAGTACTTCGGGAGTGACCAGCTGCTCGTTGACGCCAGTATTTCTGAGGCGGTATGGAATGCCTGGGAGCATGGACACGGGCAGAATAGAGATTATCCGATCCTGCTGAAGGTAAACTTCTTAAAACACCGTCTCGTCGTCCGGGTCTATGATCAGGGCGGGGGTTTTGACTGGCGTCCTTATCAGCTGTCGAGTGATGTGAAGCATTGGTTTCCGAAAGTGGATGATCTGGATGAAAGCGGCCGGGGCATTATGCTTATGCTTCGAGTTATGGACAGTCTGAGGTATAATGATAAAGGCAATGAATGTTTGTTGATGAAAAATTACCTTCAGGAGTAG	MKTSLEAQIRHPREMRTIRKRYHPYLAKYFGSDQLLVDASISEAVWNAWEHGHGQNRDYPILLKVNFLKHRLVVRVYDQGGGFDWRPYQLSSDVKHWFPKVDDLDESGRGIMLMLRVMDSLRYNDKGNECLLMKNYLQE	PGPT0014950_1564	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757	NA	NA
AK012_03333	1071	murG		UDP-N-acetylglucosamine--N-acetylmuramyl-(pentapeptide) pyrophosphoryl-undecaprenol N-acetylglucosamine transferase	ATGAGCGATAAGCGAATTTTATTTACAGGCGGAGGAACAGCAGGTCACGTCATTGTGAACCTCGCTCTTATCCCCGAGTTTCAGAAGCAGGGATATACCGTTGATTATATTGGTTCCTATGAAGGAATCGAGAAACAGTTGATTGAACCATTGGAAGGCGTGACCTATCACGGAATTTCCACCGGAAAGCTCCGGAGGTATATGTCGAAGGAGAACTTTAAGGATCCTTTTAAAGTAGCTAAGGGTCTGATGCAGGCGCTGTCCATCATCCGGAAGAGAAAACCCGGCGTTGTCTTTTCAAAGGGCGGGTTTGTTTCAGTACCGGTCGTCATGGCAGCCAGGTTAAAGGGTGTTCCCACTCTGATCCATGAATCCGACTACACACCAGGACTTGCCAATAAGCTGTCTTTCCCGTTTGCCAAAAAGATTCTGGCTACCTTCCCGGAAACGATGAAGCATCTGCCTGAAGGTAAAGGGGAATTTATCGGAGCTGTCGTCAGGGAAGAACTTTTCCAGGGCAGCCGTTCCAAAGGCCTTTCTATGTGCAGTTTCCATAAGCAGAAACCTGTAGTGATGGTCATGGGAGGGAGCATGGGCTCCAAGGTCATCAATGATGCGGTCCGCTCTAACCTGGATCAGCTCCTGCAGAACGTGCAGATCATTCATATCTGCGGGCGTGGGAATAAGGATGAAGCACTGCATCGACCAGGCTATGCCCAGTTCGAATACGTACAGGATGAATTGAAGGACCTGTTTGCTGCCACGGACTTCATTGTCTCCCGTGCCGGGTCCAACGCAATCTTTGAATTTCTGGCTTTGAAAAAACCGATGCTCCTCATTCCGTTATCCAGAAAAGCCAGCCGGGGGGATCAAATTTTAAATGCCGATTCCTTTGTCAAACAGGGGTATGCGATGAAGCTGGAAGAAGAAGAGATGAGTGCCGACCGTTTCCTAACCGATCTTCAGACATTGATGCAGAACAAACAGGGAATATTGGACAATATGCAGGAGTATAAGAGTGAACAGACGAAAGATAGAGTGATCAAGCTTATTCAGGAGTTTGAAAAGTAG	MSDKRILFTGGGTAGHVIVNLALIPEFQKQGYTVDYIGSYEGIEKQLIEPLEGVTYHGISTGKLRRYMSKENFKDPFKVAKGLMQALSIIRKRKPGVVFSKGGFVSVPVVMAARLKGVPTLIHESDYTPGLANKLSFPFAKKILATFPETMKHLPEGKGEFIGAVVREELFQGSRSKGLSMCSFHKQKPVVMVMGGSMGSKVINDAVRSNLDQLLQNVQIIHICGRGNKDEALHRPGYAQFEYVQDELKDLFAATDFIVSRAGSNAIFEFLALKKPMLLIPLSRKASRGDQILNADSFVKQGYAMKLEEEEMSADRFLTDLQTLMQNKQGILDNMQEYKSEQTKDRVIKLIQEFEK	PGPT0024150_3498	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024150-murG-K02563	NA	NA
AK012_03334	1350	mdtK	COG0534	Multidrug resistance protein MdtK	ATGTATGAAACTCACACAATAAAAGAGAAAATCCGTTTATTTCTAGTCATTTTATTTCCTATTTTAATTACACAGCTCGGCATGTACGCCATGAACTTCTTTGATACCGTCATGTCCGGGCAGGCCGGGCCGGATCAGCTGGCGGGTGTGGCTATCGGATCAAGCATCTGGGTCCCTGTTTTCACCGGACTAAACGGCATTTTAATGGCCATTTCCCCTATCGTAGCTCAATTAAAAGGGGGCGGGAAGGAAGAAGACATTCCTTTTTCCGTCAAACAGGGAGTCTATTTAGCTGTCCTGCTGGCAGTCGTAGTCGCGGGGACCGGCTGGTTTCTGCTCGACCCCATCCTTTCCTTGATGAACATTGAGCCTGAAGTCGCCCATGTGGCTCGTTATTATTTAGTCGCCCTTGGCACAGGCATTGTACCCTTATTTGTTTTCAACATTCTTCGGTCTTTTGTCGATGCTCTCGGGCTGACGAGAATTTCCATGATGGTTATTTTACTGACGCTTCCACTCAACCTATTGTTCAACTATATGCTGATTTTCGGGAAATGGGGGGCACCTGCCCTCGGCGGCATCGGCGCAGGAGCTGCTTCGTCCCTGACATATTGGGTATCCCTGCTTATTCTAGTCCTTATCATCCACCGTGTCCGACCACTGAAGCGCTATGAAATTTTCAAGGCATGGAGCCGGCCGTCTTTCCAGGAATGGAAAGAACAGCTTCAAATCGGCATCCCCATCGGCTTTGCCATTTTCTTTGAAACAAGCATTTTTGCTGCGGTTACGTTTTTCATGACGGTATATGATACGAATACCATTGCTGCCCACCAGGCGGCTATCAATTTCGCTTCCTTCCTTTACATGGTACCGCTCAGCATCGCGTTCACCTTAACCATTGTGGTCGGCTTTGAATCTGGGGCAGGACGCTATAAAGAAGCCCGCACCTATTCCTACCTCGGCATTACACTCGCCGTATGTATGAGCGTCATTGCCGGTCTGATTCTTTACGTATTCGATGATACCGTGGCGAGGCTGTACAGTTCTGATGAGGCTGTCGTGGAATTAACGAAAACCTTCATTATATACGCGGTCTTTTTCCAGCTGTCTGATGGTTTCGGTGCCCCTCTTCAAGGAATTCTCAGAGGGTATAAAGATGTGAACATCACCTTGATCATGGCCTTTATTTCCTACTGGGGCATCGGACTTCCGAGTGGATGGCTGCTGGCCAACTACACGGGTCTCGGTCCTTATGGGTACTGGCTCAGTCTGACGATCGGCTTAACAGCGGGAGCGGCAGCCTTGTTTATCCGCATGGTCCTGCTGCAGAGAAAACAGCTTCAGGAATGA	MYETHTIKEKIRLFLVILFPILITQLGMYAMNFFDTVMSGQAGPDQLAGVAIGSSIWVPVFTGLNGILMAISPIVAQLKGGGKEEDIPFSVKQGVYLAVLLAVVVAGTGWFLLDPILSLMNIEPEVAHVARYYLVALGTGIVPLFVFNILRSFVDALGLTRISMMVILLTLPLNLLFNYMLIFGKWGAPALGGIGAGAASSLTYWVSLLILVLIIHRVRPLKRYEIFKAWSRPSFQEWKEQLQIGIPIGFAIFFETSIFAAVTFFMTVYDTNTIAAHQAAINFASFLYMVPLSIAFTLTIVVGFESGAGRYKEARTYSYLGITLAVCMSVIAGLILYVFDDTVARLYSSDEAVVELTKTFIIYAVFFQLSDGFGAPLQGILRGYKDVNITLIMAFISYWGIGLPSGWLLANYTGLGPYGYWLSLTIGLTAGAAALFIRMVLLQRKQLQE	PGPT0029115_8496	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
AK012_03335	1425	gapN	COG1012	NADP-dependent glyceraldehyde-3-phosphate dehydrogenase	GTGGAAACTTATCAGCTATTTATAAATGGTGAATGGGTCGAAACCGGAGACACTCAAGAAGTGCTCAACAAATATACACAGGAAACCTATGCCAACGTGGCGAAAGCCTCTGAAAAAGAAGTCGACCAGGCAGTTGAAGCAGCTGCTGAGGCGTACCGGAATAACCAGCTTTCTCCTTATGAGCGTTATCAAATCCTAAAACGAGTCAGTGAACTGCTCCAGGCAAACAAAGAAGACTTAGCGGCAACGATTACTCATGAAGCTGGAAAGCCGTTGAAGCAGGCACGCTCTGAAATCGATCGTGCGACACAGACGTTTGAACTTTCTGCTGAAGAAGCGAAACGGATCCACGGGGAAGGCGTTCCGGTTGAAGCCGCTCCCGGATCGGAAAACCGTATGGCCTTTACAATTAAGGTACCGGTTGGGGTCGTCGGAGCGATCAGCCCCTTCAACTTCCCGATCAACCTTGTCGCGCATAAAATTGCTCCTGCTATAGCCGCAGGGAATGCTGTCGTTTTGAAACCAGCGAGCAAAACTCCGATTTCCGCCCTGAAGCTGGCCGGGTTGTTTGAAGAGGCCGGGCTTCCCAAAGGGCTGCTGAACGTCGTCGTAGGCTCTGGGTCAACGGTCGGTAATCAAATGATGCAGGATTCCCGTATCAATCTTTACACGTTTACCGGAAGTGCGGAGGTTGGATTGAAGCTGAAGCAGAACACAGGGTTGAACAAGCTCGTTCTTGAACTGGGAAACAACTCCCCGGTCATTGTTGATAAAGAGGCCGACGTGGAGGCTGCAGCAGAGAATATAGCTGCTAAAAGTTTTGCCTTCGCCGGACAGGTGTGCATCTCGGTTCAGCGGATTTATGTCCATGAAGACGTGAAGGATGCCTTTCAGGACAAGTTCATGGAAGCGATTGAATCGTTGAAAATCGGCGATCCGAATGATCCGGAGACAGACGTTGGACCAATGATCAGCCAGGATGAGGCCGAGCGTGCTGAGCAGTGGATTCAGGAAGCGAAGGGAGCCGGAGCGGAAGTGCTTTACGGGGGCGAGCGCGAAGGAGCCCTGCTTAAACCGACCATCCTGACTAATGTGACCGGCGATATGAAGGTCGTTTGTGAAGAAATCTTCGCACCCGTGGTCAGTATCCAGACATTCTCTGATATCAAAGCTTGTATTGAAGACGTCAACACGTCAAACTATGGACTTCAGGGCGGCATCTTCACCCAGAATGTGGACACCGCCTTCTATGCGGCCAGAAATGTAGAAGTCGGAGGTTTCATGATCAATGATTCTTCTCAATATCGTGTCGACCTGATGCCCTACGGCGGAGTGAAAGACAGCGGCTCCGGTAAGGAAGGTCCGAAGTACACGATTGAGGATATGACCGAAGAACGCCTCGTAGTTATGAACTTAAAATCATAG	METYQLFINGEWVETGDTQEVLNKYTQETYANVAKASEKEVDQAVEAAAEAYRNNQLSPYERYQILKRVSELLQANKEDLAATITHEAGKPLKQARSEIDRATQTFELSAEEAKRIHGEGVPVEAAPGSENRMAFTIKVPVGVVGAISPFNFPINLVAHKIAPAIAAGNAVVLKPASKTPISALKLAGLFEEAGLPKGLLNVVVGSGSTVGNQMMQDSRINLYTFTGSAEVGLKLKQNTGLNKLVLELGNNSPVIVDKEADVEAAAENIAAKSFAFAGQVCISVQRIYVHEDVKDAFQDKFMEAIESLKIGDPNDPETDVGPMISQDEAERAEQWIQEAKGAGAEVLYGGEREGALLKPTILTNVTGDMKVVCEEIFAPVVSIQTFSDIKACIEDVNTSNYGLQGGIFTQNVDTAFYAARNVEVGGFMINDSSQYRVDLMPYGGVKDSGSGKEGPKYTIEDMTEERLVVMNLKS	PGPT0001580_5332	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_TRIGONELLINE_USAGE	PLANT_DERIVED_TRIGONELLINE_DEGRADATION,PGPT0001580-gabD-K00135	NA	NA
AK012_03336	480			hypothetical protein	ATGTTTACACTCAGTGATCTTCCGATGTTTTTTGTGAACTTTTTTTTGATTCTGCCGCTGGTGACGCTGATTCATGAAGCCGGTCACGTATGGACGGCGCGTTTATTTGGAGGGAAAATCAAATTCTGTCTGGGTACAGGGGAGACGCTCTTTCATATCGGGCCTTTGGAAGTGAAGAAGAAATACTTCATGGAAGGCTGGTGCCAGTATGACTCCCTCACCTATAACAAAACATGGGCGCACGTGGCCATTTATCTGGCTGGTAGTGGTTTTAATTTAATGGTTATTTTGTTGATCAATTATTTAATCACCATGGATGTGCTGCCATCCACCTTGTTCTTTTATCAGTACGCCTATTTCTCCATCTATTTCATCTTTTTCTCTTTGTTCCCTTACCGCAATGATGATGGGAAACCGAGTGACGGCATGGCTGTTTACGATGTTCTCCGGTATGGAAAAGCAAAAGACCCGATCGATTGA	MFTLSDLPMFFVNFFLILPLVTLIHEAGHVWTARLFGGKIKFCLGTGETLFHIGPLEVKKKYFMEGWCQYDSLTYNKTWAHVAIYLAGSGFNLMVILLINYLITMDVLPSTLFFYQYAYFSIYFIFFSLFPYRNDDGKPSDGMAVYDVLRYGKAKDPID				NA	NA	NA	NA	NA
AK012_03337	1188	nupC	COG1972	Nucleoside permease NupC	ATGGATATTCTATTAGGAATTCTTGCTGTTGCCGTCATTATTGGAATCGCTTTTCTAATGTCCAATGACCGCAAAAACATCAATTTTAAGGGCATTGGGATCATGCTCGCTGTCCAGCTGCTGATTACGTGGTTTATGTTCAATACCAAAGTAGGTGAGGCGATCATCACAGGTATTTCCTGGGGCTTTAATAAACTGATCGCTTTTGGTACAGAGGGTGTGAACTTTGTGCTTGGCGGCGTAGAGGTTGGAGAAGGCGGCGTTTTCTTCTTTAACGTACTGCTTCTGATCATCTTCTTTGCTACGATTTTGTCTGTTCTTACGTATTTGAAGATACTTCCGTTTATCATCAAGTATCTCGGGTGGGGCCTTTCCAAAATCACCGGCCTTCCGAAAGTCGAATCGTTTAACGCTGTTAACAGTATCTTCTTCGGTCAGTCTGAAGCGTTGATTGCGATTAAATCACAGTTCCACAACCTGAATGACAACCGTCTTTATATTGTCAGTGCGTCAGCGATGGGGTCCGTGTCGGCTTCCATTGTAGGAGCTTACCTGAATATGCTCCCTGATCAATATATCCTTGTTGCCCTTCCGTTAAACATGTTTAGTGCCTTGATCGTCGCTTCCCTTATTGCGCCTGTCAAAGTATCCAAGGAAGAAGACAAGGTCGACATCCAGGATGTCTCCAATGCGAAGAGTTTCTTCGAAGCTATGGGTAACGGCGCCCTTGATGGTGGTAAGATCGCCTTGATCGTTGCCGCTATGCTGATTGCCTTCATCGCATCTCTTGAATTGGTGAACGCGATGTTCGGTGCGTTGTTCAGCGGATTTACGCTGCAGCAGCTGCTTGGATACATCATTGCTCCGATCGGTCTTCTGATGGGGATTCCTGCTGGTGAAGTACTGGATGCGGGTGCAATCATGGGAACGAAGATTGTAACCAACGAATTCGTAGCGATGCTTGAATTCCAGTCTATGCTTGACGGTGTATCTGCGAAAACTGCGGGTATTGTGACCGTCTTCCTTACAAGTTTCGCCAACTTCTCCTCCATCGGGATCATTGCCGGTACTGTTCAGGGGATTGATCCTGAAAAAGGCGGCCGTGTATCAGGCTTCGGTTTGAAGCTGTTGATTGGTGCTACTCTTGGATCTATGCTTTCTGCAACAATCGCTGGTCTTTTCTTGTAA	MDILLGILAVAVIIGIAFLMSNDRKNINFKGIGIMLAVQLLITWFMFNTKVGEAIITGISWGFNKLIAFGTEGVNFVLGGVEVGEGGVFFFNVLLLIIFFATILSVLTYLKILPFIIKYLGWGLSKITGLPKVESFNAVNSIFFGQSEALIAIKSQFHNLNDNRLYIVSASAMGSVSASIVGAYLNMLPDQYILVALPLNMFSALIVASLIAPVKVSKEEDKVDIQDVSNAKSFFEAMGNGALDGGKIALIVAAMLIAFIASLELVNAMFGALFSGFTLQQLLGYIIAPIGLLMGIPAGEVLDAGAIMGTKIVTNEFVAMLEFQSMLDGVSAKTAGIVTVFLTSFANFSSIGIIAGTVQGIDPEKGGRVSGFGLKLLIGATLGSMLSATIAGLFL	PGPT0021065_296	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_NUCLEOSIDE_TRANSPORT,PGPT0021065-nucp-K11535	NA	NA
AK012_03338	993	yfhA_2	COG0609	putative siderophore transport system permease protein YfhA	ATGAACCAGATGATTCGAACACCGAAAAGATGGCTCGGCTTGTTATTCGTCCTGTTGATCGGGGTGACTTACCTCTCCATAGGGGTGGGAGCCGTATGGATCGGCCCTGCCGGTATCTTTGAATATCTCATTGGAGGGGATGCGGCGGACCAGGCTTATATCATTGAAAACTTCCGGCTTCCGCGCATCGTTGTCGGCTTGTTGGCTGGCATGGGGCTCGGAGTTTCCGGAGCCGTCCTTCAGGGAGTCATCAGGAATCCACTGGCCTCGCCTGATGTGATTGGAATTACAAAAGGGGCCGGACTGGCCGCTGCCGCGGTTATTCTGTTGTACCCCGGTCTGCCGGTGCTGGCACTACCGGCCGCTGCCTTTTCAGGAGCGGGCATCGTCATGATCGGTCTTTATGTATTTGCCTTCCGCCGCGGCGTGCAGCCGGCAACGCTCGCTTTGATCGGGATTGCTCTGGGTGCTGTGTGCCAGGCGGGGATCCAATTTCTTACCATCAAATTCCCATTGGAAACGAACGCAGCTCTCGTCTGGCTTACGGGCAGTGTATGGGGGAAGGATTGGACGGACGTTCTCCTGCTCGCTCCGTTTATTCTGATTGTTGCTCCTGTGACCTGGCTGTTATCACGGAAGCTGGATGTCCTGAACCTGGGTGATGACGTAGCGGAAGGTTTAGGGGAACCGGTTCAAAAAGCGAGGCTGGCTCTGCTGGCTCTGGCTGTCGTTTTAGCCGGTGCGGCTGTCGCGGTTGTCGGCACCCTTGGCTTTGTCGGCCTGATTGCGCCTCATATTGCCAGGCAGATTGTAGGAAACAGGCATACCTATCTGATTCCGGCATCAGCTTTAACCGGAGCCCTTCTTCTCGTAACGGCTGACAGCCTCGGACGGGGATTGTTTCCTCCTACAGAGGTCCCGGCCGGCATATTTACAGCAGTGATCGGAGCCCCATATTTTTTATTTTTATTAAGAAAAATACAAAAATCCTAA	MNQMIRTPKRWLGLLFVLLIGVTYLSIGVGAVWIGPAGIFEYLIGGDAADQAYIIENFRLPRIVVGLLAGMGLGVSGAVLQGVIRNPLASPDVIGITKGAGLAAAAVILLYPGLPVLALPAAAFSGAGIVMIGLYVFAFRRGVQPATLALIGIALGAVCQAGIQFLTIKFPLETNAALVWLTGSVWGKDWTDVLLLAPFILIVAPVTWLLSRKLDVLNLGDDVAEGLGEPVQKARLALLALAVVLAGAAVAVVGTLGFVGLIAPHIARQIVGNRHTYLIPASALTGALLLVTADSLGRGLFPPTEVPAGIFTAVIGAPYFLFLLRKIQKS	PGPT0003810_38	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0003810-fecD|htsC-K23182	NA	NA
AK012_03339	1062	yfiZ_2	COG0609	putative siderophore transport system permease protein YfiZ	ATGCCTCCGCTTTTTTATGTAATGAACCAGGTCGTATGGGAAAGAGGAGAATGTCATGTGAATCAAACCTTACACCGTTTTAAGACAGGGACGGTCATCGTAGTGGGCGTCCTTTTGCTGCTGGCCGGTTTTACGGCCAGTTTGAGTATTGGAGCTTACAGTATCTCATTTTCAGAGGTTTTCGGCCTTCTGTTTTCCCCTGATGGAAGCAAAGCCTCTTCCATTATAGAAACCATCCGCCTGCCGAGAGCGGTGACAGGCATTGTTATCGGAATGTGTCTCGCTTCAGCGGGCGGTCTTATGCAGGCGATTACGAATAACCCGCTGGCTTCTCCACAGGTTTTCGGTGTTAACGCAGGGGCATCACTGATGGTCGTGATCGGTGTGGTTCTTTTTCCAGGACTGGGGGCTGGGACGCTCGTATACGCCGCTTTTTTAGGCGCCGCTGCCGGAGGAGCTGCTGTGTATTATATGGCTTCAACGGGCGGAGGAATGACGCCTGTGAAGCTTGCTTTGTCCGGGATTACCATCCATCTTCTGCTTTCTTCCATGATTGAAGGGGTTGTCCTGTTTCACGAAACATCCACAGAAGATGTACTGTTCTGGCTTGCCGGAGGGATTGACGGTCGTGCATGGACAGATGTACAGCTGCTTCTGCCCTGGGCCGCGGTTGGTTTATTAGGAGCTGTAGTGATAGGGAAACCACTGACGACGCTCGGGCTCGGAGATGATGTGGCCCAGGGGCTTGGGCAGAAAATTGGATGGATCCGTGGTGGAGCAGCCATACTCGTTGTTATTCTTGCCGGTATATCGGTAGCTGTAGCCGGACCGATCGGTTTTATCGGTTTGATCATTCCGAATATTATTCGGAAGCTTCTAGGTCCGGATTACCGCATCCTGCTTCCGGTTTCAGCACTTTATGGGGCTGTACTGCTGACGTCTGCAGACGTGCTCTCCCGGTTTATTTCCTATCCGGGTGAGGCGCCCGTCGGAATTGTGACCGCACTCATAGGCGCTCCTTTCTTTTTATATCTCGCCGGCAGAGGAGGTCGTAACGCATGA	MPPLFYVMNQVVWERGECHVNQTLHRFKTGTVIVVGVLLLLAGFTASLSIGAYSISFSEVFGLLFSPDGSKASSIIETIRLPRAVTGIVIGMCLASAGGLMQAITNNPLASPQVFGVNAGASLMVVIGVVLFPGLGAGTLVYAAFLGAAAGGAAVYYMASTGGGMTPVKLALSGITIHLLLSSMIEGVVLFHETSTEDVLFWLAGGIDGRAWTDVQLLLPWAAVGLLGAVVIGKPLTTLGLGDDVAQGLGQKIGWIRGGAAILVVILAGISVAVAGPIGFIGLIIPNIIRKLLGPDYRILLPVSALYGAVLLTSADVLSRFISYPGEAPVGIVTALIGAPFFLYLAGRGGRNA	PGPT0003805_89	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0003805-fecC|htsB-K23183	NA	NA
AK012_03340	957	yfmC	COG4594	Fe(3+)-citrate-binding protein YfmC	ATGAAAAAGTATACGAGTTACATAGCACTCCTTTTTCTCGTACTTCTGCTTGCGGCGTGCGGCAGTGAGGATGAAGGGGACCAGCAGGAAAGCTCAAGTGGGGAAGACTCCGGTGAGCAGGAAACACGGGTGGTTGAACACGAAATGGGAGAGACGAAAATCAGCGGACAGCCTGAAAAGGTCGTTGCCCTTGAGTTTTCTTTTGTTGATAACCTCGCTTCTTTAGGCGTATCACCTGTCGGAATTGCCGACGATAACGATGAGGAGCGGATTATCGAGCCGATTCGTGAGAAAATTGGAGACTATACCTCTGTAGGTACACGGAAGCAGCCTTCTCTTGAAGTGATCAGCTCTCTGGAGCCGGACTTGATCATCGCGGATATGCAGCGGCATAAGGATATTTATGATCAGTTGTCTGATATTGCTCCAACAATCATTCTTCCTTCACTGGCCGCTGATTACGATGGCATCATCGACAGCTTCCAGACAGTATCGACGGCTATGGGTATGGAAGAAAAAGGAGAAGAAGTGCTGGCAGACCATAAAGAAAAGATGGAGGACCTGCGCAGCCAGGTGCCTGAGGATGAAGACCGGTCCGTCCTTCCGGCTGTTGTCGCCGACAGCGGCTACTTTGCGCACAACATGGAATCCTATACAGGATCTCTCCTTGAGTCGATTGGTTTGAAAAATGCGATTCAAAGCGGGGACGACCGCTACAACAAAATCAACCTGGAGCAGCTCGTTGAGTTCGATCCGGACGTGATGTTCCATATGTCTTCAGGAGACCAAACCGTCGTCACAGAATGGGAGAACAACGACTTATATCAAGACATATCCGCTGTGAAAAATGGTGAAGTCCACGAAGTGGACCGCAATATGTGGTCACGTTTCCGGGGATTGATTTCTTCTGAAAAAATATTAGAGGATGCAGTTCAGTATCTTTATGAAGGCCAGTAA	MKKYTSYIALLFLVLLLAACGSEDEGDQQESSSGEDSGEQETRVVEHEMGETKISGQPEKVVALEFSFVDNLASLGVSPVGIADDNDEERIIEPIREKIGDYTSVGTRKQPSLEVISSLEPDLIIADMQRHKDIYDQLSDIAPTIILPSLAADYDGIIDSFQTVSTAMGMEEKGEEVLADHKEKMEDLRSQVPEDEDRSVLPAVVADSGYFAHNMESYTGSLLESIGLKNAIQSGDDRYNKINLEQLVEFDPDVMFHMSSGDQTVVTEWENNDLYQDISAVKNGEVHEVDRNMWSRFRGLISSEKILEDAVQYLYEGQ	PGPT0003800_34	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_CITRATE_TRANSPORT,PGPT0003800-fecB|htsA-K23181	NA	NA
AK012_03341	621			hypothetical protein	ATGAAGAAATGGATGGGAACAGCAGTGCTGCTGACTGTTCTGCTGTTCTCCATGAGTCCTGAAATCATTCACGCTCAGACCGATACGTATACGGTTAAGCGTGGGGATACCCTTTGGAAAATCTCGCGGAAGTACAAAATCGGTCTTTCGGAAATTATCAATGCCAACCCTCAGTTCAACAATCCGGACTTAATCTATCCCGGCGACAGAGTGACGATCCCTTTAAAACCGAATATTAAGTCTGTGGAAAGTCAGGTCATTGATTTGACGAATGAAGAGCGGGCCGCCAATGGTCTTTCACCTTTGAAGGCGAACTGGCAGGTTTCCAGGGTGGCCAGGTACAAATCGCGCGATATGGCTGGAAAAGATTATTTCTCTCATCAATCCCCGACCTATGGGTCTCCGTTCCAAATGTTGAGTGATTTTAACGTTTCCTACCAGAAAGCAGCCGAAAACATTGCTGCCGGCCAGCGCACTCCACAGGAAGTTGTCGATGGGTGGATGAACAGTGCCGGCCATAGAAAAAATATCCTGGACCCCGCGTTGACCCAGATTGGTGTCGGCTATGCAGAGGGTGGCAGTTACGGGTATTACTGGACGCAGATGTTTATCACGAAATGA	MKKWMGTAVLLTVLLFSMSPEIIHAQTDTYTVKRGDTLWKISRKYKIGLSEIINANPQFNNPDLIYPGDRVTIPLKPNIKSVESQVIDLTNEERAANGLSPLKANWQVSRVARYKSRDMAGKDYFSHQSPTYGSPFQMLSDFNVSYQKAAENIAAGQRTPQEVVDGWMNSAGHRKNILDPALTQIGVGYAEGGSYGYYWTQMFITK				NA	NA	NA	NA	NA
AK012_03342	198			hypothetical protein	ATGTATGAAAAGGAAAACAAAAAAACACCTGCCGTTGGTCAGGCGGCAGGTGCACATGTATTATACCATAGGGGAGGTATAAACCAATTTATTAATGAAACGAGTGAGCCACTCCAGCCAGGTGCTGACGTGTCACACTCCGTTCATTCGTTTCATTACGAACGGCAGTCATGCGGGACACAAGCAGATAAGAGATGA	MYEKENKKTPAVGQAAGAHVLYHRGGINQFINETSEPLQPGADVSHSVHSFHYERQSCGTQADKR				NA	NA	NA	NA	NA
AK012_03343	1113	gerBC_2		Spore germination protein B3	ATGAAAAAGGCCGTACTGGTTTTTGCTGCTTTATTTCTTTTGACAGGCTGCTGGGATGAGCGGCAGTTCAAAAACATCAGCCTTGTTCTGTCCATGGGATTCGATGTCGGGGAGGAGCATGCCATCAAGCAGACCGTTTCCATCCCTACCGTGACCCGAAGCTCGGAAGGTCCTGGGCAGGAATTCATTAATGTTCTGTCTACAGAAGCACATACGCCGAGAGAAGCAAGGGATAAAATCGATATGATGATTTCTGATAACTTCGATCCTTCCAAGGTAAGGGTGGTCGTTTTTGGAGAAGAGCTGGCCAAGGAAGGGATATTCCCTGTCCTTGATGATATGTACAGGGATCCGAAAAGTAACTTGAATGCTTATATGGCTGTTGTTGAGGAAGGAACGGCAGAAGAGATTACCCGGCTGAAGGCTACAGGTGAGACGAGGATCAGTGAATATCTCGGCGGGATGCTGGAAACAGCCGCCTCCTCTACACATACCACGGGTGAGAACCTGCAGCTGCTATGCGCGGAGCTGATTGAGCCCGGCATTGATTTTTCAGTGCCGCTCATACAGTTGGATGAACAGAATGAAGCGATCAACTTCAGCGGTATGGGCTTGTTTCATGAAAGAACGTACACAGGGGAAAAGATTTCTGCAGAGCAGTCTACGCTCTACATGCTGCTTCAGGGGAAAATGGGGAAAATTGCCCGCTTAACCGAAAAGGTCTCCGGCGAAAATGATGAGATTACGAGTTATGTGACCGTTGAAGTGAATAAAATGAAAAGGAATATGAAACTGACCGTCGACGACGGGGTCACAGCTGATATTTACTTGAATCTGCAGTTGAAAGTGGTGGAATATCCTTCTGATCACCTTTATGTAAAAGGGAAAATTAAAATGCTCGAAGAGGAACTCACCGACGTGCTCACAAAAGAGTCTGAGAAGATTCTCACCACGCTCCAAGAGGCCAACAGTGACGTCTTCGGCATCGGAAGGCGTGTGAAAGCGTATCATCCGGATTACTGGAAAGAGATCGAGTGGAGTGACGAATTTCCAGAAATTGAAATTGTTCCCCGCTTTGAGGTGAAAATCATTGAACACGGAATTATGAATTAG	MKKAVLVFAALFLLTGCWDERQFKNISLVLSMGFDVGEEHAIKQTVSIPTVTRSSEGPGQEFINVLSTEAHTPREARDKIDMMISDNFDPSKVRVVVFGEELAKEGIFPVLDDMYRDPKSNLNAYMAVVEEGTAEEITRLKATGETRISEYLGGMLETAASSTHTTGENLQLLCAELIEPGIDFSVPLIQLDEQNEAINFSGMGLFHERTYTGEKISAEQSTLYMLLQGKMGKIARLTEKVSGENDEITSYVTVEVNKMKRNMKLTVDDGVTADIYLNLQLKVVEYPSDHLYVKGKIKMLEEELTDVLTKESEKILTTLQEANSDVFGIGRRVKAYHPDYWKEIEWSDEFPEIEIVPRFEVKIIEHGIMN	PGPT0025060_1092	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025060-gerKC-K06297	NA	NA
AK012_03344	1029	yndE_3		Spore germination protein YndE	GTGGGCGTGTTAAGTGTGCCTTTTGAACTGCACAGTGCCGCCAGACAGGATGGATGGATATCGCTGCTCATTGGAGCTTCGATTCTCCCTTTGGTCCTGCTGGCCATATGGGGGACCGTGAAAAATTTCCCGGAAGATTCTTTGTTCCAGTTGAATGAAAAACTTTTCTTCAAATGGGGAGGGAGGGCGTTAACTCTTGGTTATGTCCTCTATTTCGTCAGTGTAGGGACCCTGATTATCATCCTGTACGGAAGAATGATCAGTTTATGGGTGCTGCCCAGTACTCCACTGTGGATTATTGCTTCACTCATGATTGCGGTCTGCTGCTATTTGATTTCCGGCGGCCTTCTTGTCATGGGGAGGATTTACACCATGCTTTCCGTTCTGATCCTCATTTTATTCGGAGTGATTCTCTATTCAGCAAAAGAGATGGACATTGTATACCTTTTCCCCATTCTTGACAATGGATGGGGCAGAGTGTTGGCCGGTGTGAACGAAGCGCTTTTTTCCTTTCTGGGGTACATTGTGTCGCTGTTCATCTATTCCAAAGTCATGGGCACTCACAAACAGAAACTAAGGGTCATGCTGTATGCGCACAGTTTTGTGTTTCTTTTCTACTTTATTATCGTATTTGTCAGTTTTACGTACTTCAGCACAGAAGAAATCACACTGGTGCCGGAGCCGATTCTGTATATGCTGAAGGCCTTTGAACTACCGGTGATAGCGAGACTGGACTTATTTTTTATATCCATATGGGTCGTGAACGTGGCTACGACTTTCGGCACGTACCTCTATATGGCCAGTCTTGGAGTCAGTCATCTCTGTCCGATCTGTACGAAAACGACAGCCACCATCCTTGTCAGTGTCATTGTTCTTGCTTTAACCCTTTATGTCGGATATGACATGGGAAAAACCAAACAGCTGGATCAAATCGTTCTTCATCTCGGCTATGTTTTTTCCCTGTCCCTCCCTTTGATCATGCTGCCACTGTCCTACTTCAGAAAAAAACGTGTCAAGGAGGGAGGATGA	MGVLSVPFELHSAARQDGWISLLIGASILPLVLLAIWGTVKNFPEDSLFQLNEKLFFKWGGRALTLGYVLYFVSVGTLIIILYGRMISLWVLPSTPLWIIASLMIAVCCYLISGGLLVMGRIYTMLSVLILILFGVILYSAKEMDIVYLFPILDNGWGRVLAGVNEALFSFLGYIVSLFIYSKVMGTHKQKLRVMLYAHSFVFLFYFIIVFVSFTYFSTEEITLVPEPILYMLKAFELPVIARLDLFFISIWVVNVATTFGTYLYMASLGVSHLCPICTKTTATILVSVIVLALTLYVGYDMGKTKQLDQIVLHLGYVFSLSLPLIMLPLSYFRKKRVKEGG				NA	NA	NA	NA	NA
AK012_03345	1590	gerBA_2		Spore germination protein B1	ATGGGTTTTTTGAAACGGTTGTTCCTTGGAGATCATAAAAGACTTCAGGACAGGGATCTGGCGCGCGATTATAATAATGGTCGGACACAGCCGGGTTCTACAAAACTATCCAAAAATATTGAATACCTCTTAAGTAATTTCCACAAGTCCAACGATTTGAAAGTCCGTGTTCTCAATGAAGGGAATGCGGCTTTAGTATATTTTGAATCCCTGGCAGAACAGGAAGAGGTCTTCCAAAAGATCTTCGCTCCTGTTGAAAAAGGTCCTGTCGATCAAATTTCCAAGTTGAGAAGTGCGCGGGTTACAAAGGACCTCGAGGAAGTGATCTCGAACCTGCTCGGTGGGCAGGCGGCTTATCTGGAGGACGGATCCAATAACGTTCACCTCTTTGATGTGACTTCCACTTATAACCGGACACCGGAAGAACCGCAGAATGAACGAGTCATCCGGGGAGCGCACGACGGGTTTATTGAAAACATCATGATAAACATCAACCTGGTACGGAAAAGGATTGAAAATCGGAATTTAACTGTGAAATATATTAAGATCGGAAAGATGACACATACAAATGTAGCTGTCATTTATATGCATGGCATCGCAGACCCCTCCTTGGTTCAGGAAGTGGAAAGAAGGATCAGCTGCATCGAGACGGATATGGTGCACAGCCCTGGGTTAATCGAAGAATACATCGAAGACCAGACGAATACGCCATTTCCGCAGATGCTCCATACCGAAAGACCGGACAGGGTGGTCGCCAACTTGATGGAAGGCCGTGTGGCGATCATGGCTGAAGGCACCCCGACAACGCTTATTGCGCCGTCTACGTTCTTCATGTTTTATCAGGCCTCGGATGATTACAACATGCGTTGGTTTACCGGAACATTTATCCGTCTTGTGCGTCTTTTCAGTTTCGTTATCGCTGTCGGCCTTCCAGCGTTTTATATTGCCATTGTCGGTTTTCATTTTGAGGTGATTCCGGATGAGTTAATCATCCCTGTCAAAGCATCGATCAATGAAATTGCTTATCCTCCGATTATTGAGGCTCTGGTCATGGTCGTCATTATCGAATTGATCCGGGAGGCCGGGGTGCGTCTCCCAGCTCCGATTGGGCAGACGATTGGTATTGTAGGGGGTCTCGTCATTGGCGATGCGGTAGTCCGGGCAGGGCTCGTTTCCAACCTGATGGTCATTGTTGTAGCTCTAACGGCGATTGCGTCCTTTGTTGTGCCTTCGAATGAATTGAGCACGGCCCTTCGTCTTCTGACATTCCCATTAATCATCCTTGCCGGGACGTTGGGCTTTGTCGGCATTGTATTTGGAATGCTCATTATTATCATTCACTTGACGAAGCTGCAGTCTTTCGGTGTCCCGTACCTGGCTCCTGTGGCCCCGCTCAGCTTTGGGGATCTTAAGGATACGTTTGTCCGTCTCCCGATGTTTATGATGAAAACAAGACCGAAAGACTCACATACCGTTAAGCCTGACGCATTGAATCCAGTAAGGAAGTGGAAGCTCAGTGACCAGCAAGGATCAAAACCAAACCAGCAGCCCGACGGGGCAGAAGCCTCTTCACAAAAACAATCCGATTGA	MGFLKRLFLGDHKRLQDRDLARDYNNGRTQPGSTKLSKNIEYLLSNFHKSNDLKVRVLNEGNAALVYFESLAEQEEVFQKIFAPVEKGPVDQISKLRSARVTKDLEEVISNLLGGQAAYLEDGSNNVHLFDVTSTYNRTPEEPQNERVIRGAHDGFIENIMININLVRKRIENRNLTVKYIKIGKMTHTNVAVIYMHGIADPSLVQEVERRISCIETDMVHSPGLIEEYIEDQTNTPFPQMLHTERPDRVVANLMEGRVAIMAEGTPTTLIAPSTFFMFYQASDDYNMRWFTGTFIRLVRLFSFVIAVGLPAFYIAIVGFHFEVIPDELIIPVKASINEIAYPPIIEALVMVVIIELIREAGVRLPAPIGQTIGIVGGLVIGDAVVRAGLVSNLMVIVVALTAIASFVVPSNELSTALRLLTFPLIILAGTLGFVGIVFGMLIIIIHLTKLQSFGVPYLAPVAPLSFGDLKDTFVRLPMFMMKTRPKDSHTVKPDALNPVRKWKLSDQQGSKPNQQPDGAEASSQKQSD	PGPT0025050_230	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025050-gerKA-K06295	NA	NA
AK012_03346	1365	pbuO	COG2252	Guanine/hypoxanthine permease PbuO	TTGATTTTTGTTCGTTTTACTATTACTATAAGAGACGTCCTATTCTTAATTGAAAGATTGGTGTTGTCATTGATTAATAAATTATTCCGTTTGGAAGAGAACCAAACCAATATAAAAACTGAAATACTTGCCGGGATTACAACCTTCTTAACGATGGTCTACATTGTCGTTGTAAACCCTGCGATCCTGTCCGGAGCGGGCGTGCCGTTCGGTCAGGTGTTCATGGCGACGATCATCGCCGCTGTGACGGGGACATTGATCATGTCCTTTGCAGCCAACTATCCGATTGCAATCGCCCCCGGAATGGGGTTGAACGCCTATTTCGTTACAGAAGTCGTCCAGCAGGATGTCAGCTACTCGGTTATATTCGGATCTGTCTTCGTCGCTGGTATTCTTTTTGTTATTCTAAGCTTAACAAGTCTTCGTAAAACATTGATTATGGCGATTCCGCCTTCCTTAAAATACGGCATTACGTCCGGAATCGGTTTATTCATCGCGTTCCTCGGGCTGCGGATGTCCGGCATTATTGTTGAAAGTGATACAACACTAGTGACCCTTGGCGATATGACCTCTCCCGGCGTGCTGTTGACCGTGTTCGGTCTTATGGTCACACTCGGCCTTATTGCCAGGAACGTCACGGGCGGATTGTTCATTGGCATGTTCATTACCGGTCTTGTTGGATTCTTTACCGGCCAGCTTGAATTGAACGGGTTTGTAGATACGCCGCCGGCCCCGGTTTTCTGGGATATGGATATTGGAGCGGTGTTCAGCAACGGCCTTTATACGGTGATTTTTGCTTTTCTATTGGTGACCATTTTTGATACAACCGGAACGATGATCGGTGTGGCTGAGCAGGCTGGATTCATCCGCAAGGACGGAAGTCTTCCCAGAGCCCGGGCGGCTTTGATGGCAGATGCCTCTGCGACAACGGTCGGTGCTGTGTTCGGGACGAGCCCTTCATCGGCTTACATTGAATCTTCTTCAGGTGTAGCGGCAGGAGGAAGGACAGGGTTGACGACGATGGTCGTCGCCGGTCTGTTTCTTCTTTCGATGTTCTTTGCGCCTGTCGTAGGTGCAGTGTCCGGTCTTCCGGCAATTACGGCCCCTGTGTTGATTATCGTCGGCTGCTTTATGATGGAAGGACTGGCGAAAGTGAACTGGGGTTCCTTTGACGATGCTTTCCCGGCGTTCATCATCATCCTTACGATGCCGCTGACTTCAAGTATTGCGACTGGAATCGCCTTCGGTTTCATTACGTATCCGATCCTGAAGCTGGTTGTCGGCAAAGGGAAAAATGTCCACTGGATGCTGTACATGTTTGCAATCATCTTTATTCTGCAGATGGCCTTTTTCCCAGGTCATTAA	MIFVRFTITIRDVLFLIERLVLSLINKLFRLEENQTNIKTEILAGITTFLTMVYIVVVNPAILSGAGVPFGQVFMATIIAAVTGTLIMSFAANYPIAIAPGMGLNAYFVTEVVQQDVSYSVIFGSVFVAGILFVILSLTSLRKTLIMAIPPSLKYGITSGIGLFIAFLGLRMSGIIVESDTTLVTLGDMTSPGVLLTVFGLMVTLGLIARNVTGGLFIGMFITGLVGFFTGQLELNGFVDTPPAPVFWDMDIGAVFSNGLYTVIFAFLLVTIFDTTGTMIGVAEQAGFIRKDGSLPRARAALMADASATTVGAVFGTSPSSAYIESSSGVAAGGRTGLTTMVVAGLFLLSMFFAPVVGAVSGLPAITAPVLIIVGCFMMEGLAKVNWGSFDDAFPAFIIILTMPLTSSIATGIAFGFITYPILKLVVGKGKNVHWMLYMFAIIFILQMAFFPGH	PGPT0007325_5191	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
AK012_03347	1485			hypothetical protein	ATGTTTGAACCGAGGAAGCTCCATCCTATATCTGCTTTGATCAATTTTGTTAAGACACTGAAAGATGCTGCTCTCCCTTTAATTGTCGTGATTTTTATTAATGGCAGCCCGTTCAGCGGAGAGTGGAACTGGGTGCCGCTCGCCATATGGGGGGGTCTCTTGGTAATCGTGCTTGGTTCTGGAGTCATCCGCTGGCTGCGTTTCTCCTATTGGATGGAAGACGGAGAACTGCGTATCGAACATGGGCTCATTTTCAGGAAAAAACGCTACATTCCAGTGGAGCGGATTCAGAGTCTTGATTTTTCGGAGGGGATTTTTCACCGACCGTTGAAATTAGTGAAAATTTCTGTGGAAACGGCGGGATCGACCGGTACCCAGGGGGCGGAGGCTGAACTGACAGCCATCACCCGCGAAGAAGCCAAAGAGCTCGAATCGCTCATTTTTCAGGAAAAGCGGACGGTTCAGGAAGCGGAAGATCTTGAGGAATCGTCCACGGAACAACCAGGGGAACCGCCCAGGCAGAAAGTGTTCGGCATGTCCATGAAGGACCTTGTTCTTATGGCTGTCACTTCCGGTGGGGCTGGAGTAGTCATCTCCGGTGTTGTCGTATTCTTTTCCCAGTTTATGGACCTCCTTCCCGTGGGCGCGATTTATGAGGAGCTGCTGGACTGGATCCAGGTCGGCGTTCTGATGGTAGCCGTCACCGTCCTCTTTGTTCTGTTACTTGCCTACGGGATCTCCATCCTCCTGACGATTATGCGCTATGCTTATTTTTCCGTCTATTTAGAGGAAGAGGACTTGGTCATTACCAGAGGCTGGCTTGAGAAGAAGCAGATGACGATTCCGCTTAACCGGATCCAGGGCGTGCGGATCGATGAAAATCTCATCCGGCAGCCGATGGGGTACGCATCCGTGACGATTATCAGCGCCGGTGGCTCTATATTGCAGAATGATGAACATCAGTTGAAGCTGCTTCCGATGATCCGGAAAAAGGAAGTCGAAGGAGTTCTCCAGCTGATTCTGGATGATTATAAGGTGGCGCGTGATTTTCAAAGACCACCGTCCAGATCGAAATACCGTTATATGATCCGGCAGTCATGGCCCGGGGTGTTGGCGGCGATTCCGGTCAGTATCTACTTTTATCCGTATGGCTTATTGACCATTCCAGCCGTCGCGGGGCTGGCAGGCTTCGGCCTGCTTGCTTATAAAGATGCCGGGTGGACGATCGATGGCACGCAGTTGAGTCTGCGTTCGAGAAGCATCATTAAACAAACCTACTTGATGAAAAGGTTCCGGGTCCAGGCCGCTTCTAAGAAACAGACGCTGTTACAGAAGCGTTCCGGTCTTTCTACGATTCAGGTGACGCTCACCTCCGGCGGGGGAGGAGCGGCGGCCCGCTGCTATTACCTGGAGGAAAGGGATGCCGATATGGTCCTGGACTGGTATATAGAACCGAACACCAATCAAAAACCAGTGGAAAAGTAA	MFEPRKLHPISALINFVKTLKDAALPLIVVIFINGSPFSGEWNWVPLAIWGGLLVIVLGSGVIRWLRFSYWMEDGELRIEHGLIFRKKRYIPVERIQSLDFSEGIFHRPLKLVKISVETAGSTGTQGAEAELTAITREEAKELESLIFQEKRTVQEAEDLEESSTEQPGEPPRQKVFGMSMKDLVLMAVTSGGAGVVISGVVVFFSQFMDLLPVGAIYEELLDWIQVGVLMVAVTVLFVLLLAYGISILLTIMRYAYFSVYLEEEDLVITRGWLEKKQMTIPLNRIQGVRIDENLIRQPMGYASVTIISAGGSILQNDEHQLKLLPMIRKKEVEGVLQLILDDYKVARDFQRPPSRSKYRYMIRQSWPGVLAAIPVSIYFYPYGLLTIPAVAGLAGFGLLAYKDAGWTIDGTQLSLRSRSIIKQTYLMKRFRVQAASKKQTLLQKRSGLSTIQVTLTSGGGGAAARCYYLEERDADMVLDWYIEPNTNQKPVEK				NA	NA	NA	NA	NA
AK012_03348	480			hypothetical protein	ATGAAAAATCAGCCGGCTCAACGTATATCGAAACGAGCCTTAACGTTGTGGCGCATTTATGGTGTTATACACAGCTTTATTCTTTTACTTATAACGACAGGCTTAACCGTTGCCGTGTTTCTCTGGAACTGGCCGTGGTGGCTGGCGGCAGGAGCGGGGGGAGTGACCGTTCTGGACGCCATTCTGTTCATCTGGGTGATTCCGGGACTGAGGTGGAAGCGCTGGCGTTATGAAGTCAGTGAGCAGAACATCGATCTGCAGCACGGGATTTTCATCATTACCCGGACACTGGTACCGATGGTCCGTGTTCAGCACGTGGATACCGAGCAGGGGCCGCTGCTTCGGAAATTCCGGCTTTCCACCATCAGCATATCGACTGCGGCGACGATACATAAAATACCAGCGCTGGATGAGGACGAGGCGGAGCGTCTGCGCCAGTCGATTTCCTCTCTGGCAAGGGTGGCTGAGGATGATGTTTGA	MKNQPAQRISKRALTLWRIYGVIHSFILLLITTGLTVAVFLWNWPWWLAAGAGGVTVLDAILFIWVIPGLRWKRWRYEVSEQNIDLQHGIFIITRTLVPMVRVQHVDTEQGPLLRKFRLSTISISTAATIHKIPALDEDEAERLRQSISSLARVAEDDV				NA	NA	NA	NA	NA
AK012_03349	813	proC_3	COG0345	Pyrroline-5-carboxylate reductase	GTGAAGAAACGTATAGGGTTTATCGGCTGCGGTCAGATGGGCCGGGCCATGATTCAAGGCATGATTGACGCAGGGGTCGTAGAGCCGGGGCAGATGGCTGCGACCGCTTTGTCTGATGAAACCATTGATTTTGTAGCCGATGAGTACGGCATACATATATCCAACGATAACAAACAGCTGGCGAGGGAAAGTGATCTGCTGTTTCTGGCGGTGAAGCCGTATGTGTACAGAGGTGTGATTGAGGAAATCCGTGAAGAGGTCGCCGATGATACGGTGGTCATTACGGTTGCTGCCGGCATTACGCTGGAATCGATGGAAGAGGCGTTTGATAAGAATGTGAAAGTGATCCGCTCGATGCCGAATACTCCATCTCTGGTCGGCGCAGGTATGAGTGCGCTGTGTCCGAATGCTTTCGTGACACAGGAGGAACTGGCGGAAGTGCTCGAACTGTATGAAAGCTTTGGTGAAGCGGAAGTCATCGAAGAAAAACTGATGGATGCTGTGCCGGCCGTCAGTGGCTCGTCCCCGGCTTTTGTCTACATGTTGATCGAAGCGATGGCTGATGCGGCTGTACAGCAGGGTTTTCCAAGGGACAAGGCGTATAAAATGGTTTCCCAGACGGTCGAAGGGGCCGCGAAAATGGTCAAGGAAACCGGCAGACATCCGGCAGAATTGAAGGATGCCGTCTGCACGCCGGGCGGCACTACGATTTCCGGTGTAACGAAGCTTGAGGAAGCCGGCTTCAGAAATGCCATCATACAAGGCATGACGGCAACGACAGAAAAATCAAAGGCATTATCGCAAGGGAAGTAA	MKKRIGFIGCGQMGRAMIQGMIDAGVVEPGQMAATALSDETIDFVADEYGIHISNDNKQLARESDLLFLAVKPYVYRGVIEEIREEVADDTVVITVAAGITLESMEEAFDKNVKVIRSMPNTPSLVGAGMSALCPNAFVTQEELAEVLELYESFGEAEVIEEKLMDAVPAVSGSSPAFVYMLIEAMADAAVQQGFPRDKAYKMVSQTVEGAAKMVKETGRHPAELKDAVCTPGGTTISGVTKLEEAGFRNAIIQGMTATTEKSKALSQGK	PGPT0014225_3916	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
AK012_03350	1503	nhaP2_4	COG3263	K(+)/H(+) antiporter NhaP2	ATGATTCAGGAAATTCTACAGTCCAACCAATTTATTATGCTCATGGCGCTTCTGCTCATTGTCAGCATCATCGTCACAAAGTTCTCTTCCCGTCTCGGGGTTCCGTCTCTCGTCCTGTTTATTCTTGTAGGCATGATGGTCGGAAACGAAGGACTCGGTTTCATCAACTTTGATAATCCGGAAATCGCCCAGCTTGTCGGTGTCATTGCCTTAATCATCATTCTGTTTGAAGGCGGGATGCTCACGAAGTGGAAGGATATCCGGCCGGTCATTGCCCCTTCCCTGACGCTTGCAACCGTGGGTGTAGTACTGACGACAGGGATCGTTGCTGTTGCGGCCAAGTATGTCCTCCACATCGGCTGGGTGGAGGCGATGCTCGTCGGAGCGATTGTCGGTTCTACCGATGCCGCAGCCGTTTTTGCTGTTCTGAAAGGGAAAAATGTAGACGGGAAGCTGGAGGCTACCCTGGAAGCTGAATCGGGGACTAATGATCCGATGGCCGTATTTTTGACCATCAGCTTTATTCAGCTTCTGACAGTGGATCAGGTGAATATTTTCGGCATGGTCGGCTCGTTCTTCTGGCAGATGGGGGCGGGACTCGTTGTTGGTGCGGCCATCGGCTATGGTGCAAGTTTTGCGTTAAACCGGATCAATCTTGATTCCAGTGGGTTGTATCCACTCTTCGCCCTCGGTTTTGCTTTTCTTTCCTATGGGGCAAGCTCTCTCCTTCAAGCCAGTGGTCTTCTTGCAGTTTATGTAACGGCCGTTATCATCGGCAATGCAGAACTTGCCTATCGTTATTCGATCCTCCGATTCCATGAAGGGTTCGGCTGGATGGCTCAGATCCTGATGTTCATCATTCTCGGTCTGTTTGTTACACCGTCTGAAGTCTTTACGTGGCCGGTCATGTCGGGCGGATTATTGATCGCCGGAGTTCTCATATTCATAGCCAGACCGGCGGCTGCTTTTCTCAGTCTTTCCGGGTTTTCGTTTACATGGAGGGAAAAAGTGTTTCTATCCTGGGCGGGCGTCCGGGGAGCTGTTCCAATCGTTTTGGCGATTTTCCCCATGCTTGCTGACGTTGCCAACAGTCAGGTCATCTTCAACGTCGTTTTCTTCACGGTTCTCACTTCGGCCCTTATTCAGGGGTCATCGATTACGTGGATGGCAGCTCGTTTCAAACTGGTGTCTGACAAGCTTGGCAATCCGATTCATTCGTTGGAGCTGATCTCGATTGGAAAAGCGAATGTGGAGATGATTGAATTTGAGGTGACGCCAAGGAATGTCGTCGTCGGGCAGAAGCTTGAGGACATGGAGCTGCCGGACAGGGCACTGATCAATGCGATCATCCGTGAGGGTGATGTCATTACACCGTACGGGCAGACGGAAATAAAAGCCGGGGATACGTTATATATTCTAGTGTCCAGGAAAAACAAAAAGGAAGTCAAGAAAGTCCTGGAGGCCGTTACCGATCACGGATACCACGAGAAAAGCCGAGCTTAA	MIQEILQSNQFIMLMALLLIVSIIVTKFSSRLGVPSLVLFILVGMMVGNEGLGFINFDNPEIAQLVGVIALIIILFEGGMLTKWKDIRPVIAPSLTLATVGVVLTTGIVAVAAKYVLHIGWVEAMLVGAIVGSTDAAAVFAVLKGKNVDGKLEATLEAESGTNDPMAVFLTISFIQLLTVDQVNIFGMVGSFFWQMGAGLVVGAAIGYGASFALNRINLDSSGLYPLFALGFAFLSYGASSLLQASGLLAVYVTAVIIGNAELAYRYSILRFHEGFGWMAQILMFIILGLFVTPSEVFTWPVMSGGLLIAGVLIFIARPAAAFLSLSGFSFTWREKVFLSWAGVRGAVPIVLAIFPMLADVANSQVIFNVVFFTVLTSALIQGSSITWMAARFKLVSDKLGNPIHSLELISIGKANVEMIEFEVTPRNVVVGQKLEDMELPDRALINAIIREGDVITPYGQTEIKAGDTLYILVSRKNKKEVKKVLEAVTDHGYHEKSRA	PGPT0013860_919	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0013860-cvrA|nhaP2-K11105	NA	NA
AK012_03351	1164			hypothetical protein	ATGGATGAAGAGACGAGTTTTGTAATCGCCGAAGACGACTGGTCCCTCCATCGGAAAGGCTACGACGATCAGCGTCGACACCAGGAAAAAGTCAAGGATGCTATGAGTAAGCAGCTGCCCGATTTGATCACAGAAGAAAACATTGTCATGTCCAATGGAAAGCGTGTCGTAAAGATTCCTATCCGTTCTTTAGATGAATATAAAATCCGCTACAATTATGAAAAGAATAAGCATGCGGGACAAGGAGATGGAGACAGCGAAATCGGCGATGTGGTGGCCCAGGCTCCGCAGCCGTCTAAAGGGAAGCCCGGCGAAGGAGATGGAGCCGGCGACCAGGCAGGGGATGATTATTATGAAGCTGAAGTATCCCTGGCTGAATTGGAAGAGGCTTTGTTTAAAGAGCTGACCCTTCCTAATCTTGATGAAAAAGAAAAGGACAATATTCTTCATACCGACATTGAATTCAGCGATATCCGCAAAACAGGATTAACCGGGAACATCGACAAGAAGAGGACAATGCTTGAAGCCTACAAGCGCAACGCCCTTCGTGGCGACGCCTCTTTCGCTCCGATTTACCCCGAAGACATCCGCTACAAGACATGGAATGAAAAGACAAAACCTGAATCTAAAGCTGTTGTCATCGCCATGATGGATACCAGTGGATCCATGGGCCAGTGGGAAAAGTATATGACCAGAAGCTTCTTTTTCTGGATGACCCGATTCCTGAACAGAAACTATGAAACGGTGGATATCGAGTTTGTCGCCCACCATACGCAGGCGAAAGTCGTCAGCGAAGAGGATTTCTTCTCGAAAGGGGAAAGCGGCGGGACCATCTGTTCTTCTGCCTATCGCAAAGCGTTGGAACTCATTGAAACCAAATACTCACCGGAGCGCTATAACATCTATCCGTTTCACTTTTCCGATGGTGACAACCTGACTTCCGACAACAAACGGTGCCTCGGTCTAATTGAACAGCTGATTGAAGTGTCGCAGATGTTCGGTTACGGCGAAGTGAACCAGTATAACCGTTCTTCCAGTCTGATGCAGGCCTATAAATCCATCGAACACGAAAAGTTCCGTTATTACATCTTACGCAGAAAAGCCGACGTTTTTCACTCAATGAAGCATTTCTTCAGCGAACAGGCCGAGGAAATGTTCACGTAG	MDEETSFVIAEDDWSLHRKGYDDQRRHQEKVKDAMSKQLPDLITEENIVMSNGKRVVKIPIRSLDEYKIRYNYEKNKHAGQGDGDSEIGDVVAQAPQPSKGKPGEGDGAGDQAGDDYYEAEVSLAELEEALFKELTLPNLDEKEKDNILHTDIEFSDIRKTGLTGNIDKKRTMLEAYKRNALRGDASFAPIYPEDIRYKTWNEKTKPESKAVVIAMMDTSGSMGQWEKYMTRSFFFWMTRFLNRNYETVDIEFVAHHTQAKVVSEEDFFSKGESGGTICSSAYRKALELIETKYSPERYNIYPFHFSDGDNLTSDNKRCLGLIEQLIEVSQMFGYGEVNQYNRSSSLMQAYKSIEHEKFRYYILRRKADVFHSMKHFFSEQAEEMFT	PGPT0025005_1326	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0025005-yhbH-K09786	NA	NA
AK012_03352	1305	odhB		Dihydrolipoyllysine-residue succinyltransferase component of 2-oxoglutarate dehydrogenase complex	ATGAAGGAAATCAAAGTACCTGAATTAGCTGAATCCATAACTGAAGGCACGATAGCTGAATGGCTTGTAAAAAAAGGCGATCACGTATCCAAAGGTGATCCGATTCTTGAGCTGGAAACAGACAAGGTCAATGTGGAAGTGAATGCTGATGCAGACGGCGTCATTGCTGAACTGCTCAAGGAAGAAGGAGATGACGTTGAAGTGGGAGACGTCATTGCCAAGGTGGACGAGAACGGAGAAGCTTCCGGGTCCGCAGAGGATTCTTCCGGCTCTGAGGAGGAAGAAGCACCTGCAGCTGAACAGCAGGAAGAGGCACAGCAGCAGGAACAGAAGCAGGAGCCGCAGCAGGACGAACAACCGGCCGCTTCCAATGGGCAGAACAACGGCAATAAAGATATTGTAGCCACTCCGGCTGCCAGAAAACGTGCGCGTGAACTGGGCATTGATCTGAGCGACATTTCCGCCCGCGATCCGCTCGGCCGCATCCGTCCGGAGGATGTCGATGCCGCAGCCAAAGGAGGCGGAAAATCGGAAGAACCGAAGTCAGCTTCCAATGACAAGCCGAAGAAAGAGAAAAAGGAAGAGGAGAAGACGCAGTTTGATAAGCCGGTGGAACGGATTAAAATGTCCCGCCGCCGCCAGACGATTGCCAAGCGTCTTGTAGAGGTCCAGCAGGAAGCGGCTATGCTGACGACGTTCAACGAAGTGGATATGACCAACGTCATGAAGCTGCGCAGCGACCGGAAAGAATCCTTCCAGAAAAAGCATGACGTGAAGCTCGGCTTTATGTCCTTCTTCACGAAAGCGGCCGTCGGTGCCTTGAAGGAGTTCCCGAACCTGAACGCAGAAATCCAGGGCAGTGAAATCATCCAGAAGAAATTCTATGATATCGGAATGGCCGTTTCTACGGAGGAAGGACTTGTCGTTCCTGTCGTCCGTGATGCCGATCGCCTTGATTTTGCGGGTATTGAGAAAGGAATAGCTGATGTCGCCACGAAGGCCCGGAATAAAGAGCTGCAGCTGGAGGATCTCCAAGGAGGCTCCTTTACCATCACCAACGGGGGGATCTTCGGGTCCATGCTGTCTACACCGATCCTGAATTCTCCTCAGGTCGGAATTCTCGGTCTTCACAATATTGAGAAGCGCGCGAAGGTCATGCCTGATGACAGCATTGAAGCACGTCCGATGATGTACATTGCGCTTTCCTACGACCACCGGATCGTTGATGGCAAAGAGGCCGTCCAGTTCCTGCGCCGTATTAAAGAAATGATTGAAGATCCTTATGATCTGCTTTTAGAAGGATAA	MKEIKVPELAESITEGTIAEWLVKKGDHVSKGDPILELETDKVNVEVNADADGVIAELLKEEGDDVEVGDVIAKVDENGEASGSAEDSSGSEEEEAPAAEQQEEAQQQEQKQEPQQDEQPAASNGQNNGNKDIVATPAARKRARELGIDLSDISARDPLGRIRPEDVDAAAKGGGKSEEPKSASNDKPKKEKKEEEKTQFDKPVERIKMSRRRQTIAKRLVEVQQEAAMLTTFNEVDMTNVMKLRSDRKESFQKKHDVKLGFMSFFTKAAVGALKEFPNLNAEIQGSEIIQKKFYDIGMAVSTEEGLVVPVVRDADRLDFAGIEKGIADVATKARNKELQLEDLQGGSFTITNGGIFGSMLSTPILNSPQVGILGLHNIEKRAKVMPDDSIEARPMMYIALSYDHRIVDGKEAVQFLRRIKEMIEDPYDLLLEG	PGPT0001535_1288	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
AK012_03353	2859	odhA		2-oxoglutarate dehydrogenase E1 component	GTGTCTAAACAAGGCTCCATTCAAAGATTTTGGGATAATTTCCACGGCCCCAACATGGGGTATATCGAAGAGCAATTCGAAGTATATGAAGAAAACCCAAGTGCTGTCGATCCTTCGCTGAAGGAAATTTTTGACGAGCACGGGGCACCTGACTGGATGAAGACAAGCCCGTCTGTTGAAACAAACGGCGCTGCGTCTCCTTCTGAAAGGGACATTGCGAAAATCACCTCGGCATTGAAACTTGTTGAGGCTATTCGTCGTCACGGTCACCTGCAGGCGAACATCTATGCTGTAGGAAGTGATGAACGACCTAAAACAAATTTGCTTGATTTAGAAACCTATGGACTTCAGGAGAAGGATCTGGAGGCTATGCCTGCGGAGTGGGTCTGGCCGGATGCGCCTATGAAACTGGATAATGCCCTCCAAGTGGTCCACGTACTTAAAGAGAGATACGCAGGAACGATCTCCTTTGAATTCGGCCACGTCAATAATGAGAATGAAAGAAAATGGCTGCAGGACAAAGTGGATACAGGCTCCTACCAGGTATCTTTAACCAATGAAGAAAAGAAACAGCTGTTGTACAGGCTGGCAGAAGTGGAAGGCTTTGAGAACTTCCTTGCTAAAACCTTTGTGGCTCAGAAGCGCTTTTCCATCGAAGGACTGGACATTATGGTGCCGATGCTGGATCATATCATCCAATCCGCTTCCGGAGATCACATTAAACATATCATGATGGGAATGGCCCACAGGGGGCGGTTGAACGTTCTTGCCCATATCCTTGGGAAGCCTTATGACCGGATCTTCTCAGAATTCCATCATTCCCCGGATAAGGAACTGGTTCCATCTGAGGGCTCCATGGGCATCAACTATGGCTGGACAGGTGATGTGAAATATCACTTCGGAGCACGAAGAGAAATCGAAAACGGCGAGCAGTCGGCGACGAAAGTGACGTTGAGCCATAACCCTTCCCACCTGGAATACGTCAATCCTGTTGTACAGGGGTTCACAAGAGCCGCACAGGATGACCGGAGCGAGCCCGGCTATGCCAAGATGGATGAAGACGAGGCATTCGGCCTCTTGATCCACGGGGATGCAGCCTTTATCGGTGAAGGGGTTGTCGCAGAAACACTGAACATGAGTGATCTCCCGGGCTACCGTACAGGGGGAACGGTCCATATTATCGCCAACAACCTTGTCGGTTTCACGACGAACCGCAGGGATGGACGTTCGACAAGATACGCCAGTGATCTTGCGAAGGGCTTTGAAATACCGGTGCTGCATGTGAATGCCGACGATCCAGCGGCATGCCTTTCTGCGATGGCGCTTGCGTACGAATACCGTCAGAAGTTCCATAAGGACTTTCTGATTGATCTCGTCGGGTACCGTCGTTTCGGACACAACGAAATGGACGAACCGCGCTCCACTCAGCCGAAGCTGTATAAGGAAATCGACGAGCACCCTACAGCAGCCGCTGTTTTTGAGAAGCAGCTCCAGGATGAACGTGTTGTGGAAGACGGCGCACTCTCACAGATGAAAGAAGAAATTGAAGAGAAGCTTCGTGACATTTATAACAATATGGGTGAGCATGAAACAGCTGCTCCTGATGTGAAAGACCGTCCGAGCGGTGTGGAACGGGATTTGGATGAAATTCAGACATCCGTGGATATTGAGCGTCTTCGTGGACTGAATGAAGGGATGCTGAAACGTCCGGAAGGCTTCAATGGATTCAAGAAGCTGGAAAAAATCCTTCAGCGTCGTGCAAAAATGCTGGATGAAGGACAGAAAGTGGACTGGGCGACAGCCGAAGCTCTGGCCTTCGCTTCTATACTGGAGGATGGGATCCCGATCCGGATTACCGGTCAGGATACGGAGCGAGGAACCTTCGCTCACCGTCACCTTGTCCTTCATGATGTAGAAACAGATGAAACCTACTGTCCACTGCACGGACTGGATCAGGCGGAAGCGTCCTTTGATATTCACAACAGTCCGTTATCCGAAGCAGGGGTTATCGGATTTGAGTACGGATACAGTGTTCATGCTTCCGATTCTCTTGTCCTGTGGGAAGCCCAGTTCGGTGACTTCGCTAACGCCGGGCAGGTCATTTTTGATCAGTTTGTTGCCGCCGGCCGCGCGAAGTGGGGCGAGAAATCGAATATGGTCTTCCTGCTCCCGCATGGGTATGAAGGACAGGGGCCGGAGCACTCCAGTGCCCGTCTTGAGCGTTTCCTCCAGCTTGCTGCAGAAAACAACTGGACCGTGGCTAATGTCACATCGTCCGCTCAGTATTTCCACCTGCTGCGCAGACAGGCAGCGATCAGCAATCAGGAAGAAGCACGTCCGCTCGTTTTGATGACGCCGAAAAGCCTGCTGCGTAATCAAAGAGTCGCTGTGGATGGAGATGCTTTCAGTGAAGGGAAGTTCCAACCGCTGATGATGCAGCCGGGATTATCCCAGAACAAAGATAAAGAAAAAGTGAAAACCCTTCTATTAGGAAGCGGAAAAATCATGGTGGATATCGAAGACAAGGTGGAAAGCATGGACGAAACCTTCGAAACCATCGATGCGGTCCGGGTGGAACAGATTTATCCATTCCCGGATCAAAAACTGGCAGACATGCTTGAAACCTATCCGAATTTAGAAGAACTAGTATGGGTCCAGGAAGAACCGCAGAACATGGGTAGCTGGTACTTTGTGGAGGGCATCCTTCACAAACTGCTGAAGGAAGGACAGATTCACAGATTTGTCGGACGTCCGCACAGGGCTTCCCCTTCCGTAGGAGAACCGAATATCCATAAAACAGAGCAGAATCGAATCATTCTTGAAGCGCTGCAGATGTCTAAAGGAGGAGAAACAAAATGA	MSKQGSIQRFWDNFHGPNMGYIEEQFEVYEENPSAVDPSLKEIFDEHGAPDWMKTSPSVETNGAASPSERDIAKITSALKLVEAIRRHGHLQANIYAVGSDERPKTNLLDLETYGLQEKDLEAMPAEWVWPDAPMKLDNALQVVHVLKERYAGTISFEFGHVNNENERKWLQDKVDTGSYQVSLTNEEKKQLLYRLAEVEGFENFLAKTFVAQKRFSIEGLDIMVPMLDHIIQSASGDHIKHIMMGMAHRGRLNVLAHILGKPYDRIFSEFHHSPDKELVPSEGSMGINYGWTGDVKYHFGARREIENGEQSATKVTLSHNPSHLEYVNPVVQGFTRAAQDDRSEPGYAKMDEDEAFGLLIHGDAAFIGEGVVAETLNMSDLPGYRTGGTVHIIANNLVGFTTNRRDGRSTRYASDLAKGFEIPVLHVNADDPAACLSAMALAYEYRQKFHKDFLIDLVGYRRFGHNEMDEPRSTQPKLYKEIDEHPTAAAVFEKQLQDERVVEDGALSQMKEEIEEKLRDIYNNMGEHETAAPDVKDRPSGVERDLDEIQTSVDIERLRGLNEGMLKRPEGFNGFKKLEKILQRRAKMLDEGQKVDWATAEALAFASILEDGIPIRITGQDTERGTFAHRHLVLHDVETDETYCPLHGLDQAEASFDIHNSPLSEAGVIGFEYGYSVHASDSLVLWEAQFGDFANAGQVIFDQFVAAGRAKWGEKSNMVFLLPHGYEGQGPEHSSARLERFLQLAAENNWTVANVTSSAQYFHLLRRQAAISNQEEARPLVLMTPKSLLRNQRVAVDGDAFSEGKFQPLMMQPGLSQNKDKEKVKTLLLGSGKIMVDIEDKVESMDETFETIDAVRVEQIYPFPDQKLADMLETYPNLEELVWVQEEPQNMGSWYFVEGILHKLLKEGQIHRFVGRPHRASPSVGEPNIHKTEQNRIILEALQMSKGGETK	PGPT0001530_1252	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
AK012_03354	2097	ppk	COG0855	Polyphosphate kinase	ATGTCTACAGAGAAGACGAAGGAATTGAACAATCCATTATTTTATAACAACCGGGAGCTGAGCTGGCTCGCCTTTAATGAGCGTGTGCTGGATGAAGCTCTTGATTTGGACAACCCTTTGCTTGAACGATTGAAATTTCTGGCGATCGGTTCCTCCAACCTTGATGAATTCTTCATGGTACGTGTAGCAGGGTTGAAGGACCAGGTGAAAGCCGGTTTTAATAAGCCGGAGAACAAAGCCGGACTGACACCCAAGGAGCAGCTGGCGAAAATATCCGAAATCAACCATAACAATGTGAAAAAGCAGTATGACTCCTATCAGTCCATGAAGCCCGAGCTTGAAAAGGAAGGCATTTCCCTGCTTTCTATTGAGGATTTAACAAAAGAGGAAATCAGCCGTTTCGAACAATACTTTGATGAAGAAATCTTCCCGGTCCTGACACCGATGGCTGTGGACGCCTATCGTCCGTTTCCGATGCTTCTCAACAAGTCCATCAACCTTGCTGTCGTCATTAAAGATGAGATCGACCCGGAGAACACAACAAAGACAGCCATTGTCCAGGTACCGGCTGTTCTGGATCGATTTGTCCAGGTGGAGCATGAAAATAAATACCAATATGTGCTGCTTGAGGAAATTATCAGCCATTTTATGGGTAAACTGTTTAAAGGATACAAAGTGGAATCTGTCACAGAGTTCCGGATAACGAGAAATGCGGATATGACGATTCATGAGGAAGGCGCCCGGGACCTTCTGAAGGAAATCGAGAAAGAATTGAAAAAACGTAAGTGGGGCGCAGCCGTACGCCTGGAAGTAAGGGAAGGCAAGTACGATGAAAAAGTGATCAAATTCCTACTCAGCGTTCTGGAGATTCACCGTGACGACTTGTATATCACCAATGGACCACTTGATCTGACGTTCCTTTTCAAGTTTCATAAAACGTTTGCCGATGTGAAGGACCACCTCTATTATGAGACGTTGATTTCGCAGCCGCCGCGTGACCTGGATGGCGAAGAGAACATTTTTGAAGCAGCGGAGGACCGTGACATCTTCCTGCACCACCCGTACGAATCCTTTGAGCCTGTGGTCGATTTTGTTGCTGAAGCAGCTGATGATCCCTATGTACTGGCCATTAAACAGACGCTTTACAGGGTAAGTGGAGATTCACCGATCATCGATGCGTTGAAGCGGGCCGCGGAAAATGGAAAACAGGTGACGGTGCTTGTGGAATTGAAAGCGCGTTTTGATGAAGAGAACAACGTGCAGTGGGCCAAAGAGCTTGAAAAAGCGGGCTGCCACGTCATCTATGGGATGACCTACCTGAAAACCCACAGCAAAATCACGCTTGTCGTAAGGAAGAAGGCCGAGAAGATCGAACGTTTCGTCCACTTAGGTACCGGAAACTACAATGACCAGACAGCCTCGCTGTATACCGACATGGGAATCATTACGTCGAAGCGGAAGTTCGGGATCGATGCGACGCACTTCTTCAATTATTTGAGCGGTTTTACAGAGAAACCGGAGTTCCACCACTTGTCTATGGCTCCATTTGATATCCGGAACGATTTTATCCGCTATATGAACAATGAAATCCGATTCCATAAGCAGCATGGAAACGGCCGGATCATTGCGAAGATGAACTCTCTGACAGACAAGAACCTGATTATGAAAATGTACGAAGCGTCCCAGGCAGGTGTTCAGATCGATTTGATCGTCCGCGGCATCTGCTGTTTGAAGCCTGGGATCGAAGGCGTCAGCGAGAACATCCGTGTGTTCAGCATCGTCGGCCGGTTCCTGGAGCACAGCCGGATTTATTACTTCCATCATAACGGGGACGACCGCCTGTTCCTTTCTTCTGCAGACATGATGACTCGTAATATGGTGAAACGCGTCGAACTGCTTTTCCCTCTTTATGAACCGTCTGTGAAAAGCCGTCTGAAGAAAATTCTGTCCATTATGCTGAATGATAATACGAAGGCACGGGAACAGAAGAAGGATGGCAGCTACGAGTACGTCCAGCCTGAAAAAAAACAGACCCGGATCAACAGCCAGATGATGTTTTTCGATATGGCCTACCGGGTCCTGGAGGATGAAGAATAA	MSTEKTKELNNPLFYNNRELSWLAFNERVLDEALDLDNPLLERLKFLAIGSSNLDEFFMVRVAGLKDQVKAGFNKPENKAGLTPKEQLAKISEINHNNVKKQYDSYQSMKPELEKEGISLLSIEDLTKEEISRFEQYFDEEIFPVLTPMAVDAYRPFPMLLNKSINLAVVIKDEIDPENTTKTAIVQVPAVLDRFVQVEHENKYQYVLLEEIISHFMGKLFKGYKVESVTEFRITRNADMTIHEEGARDLLKEIEKELKKRKWGAAVRLEVREGKYDEKVIKFLLSVLEIHRDDLYITNGPLDLTFLFKFHKTFADVKDHLYYETLISQPPRDLDGEENIFEAAEDRDIFLHHPYESFEPVVDFVAEAADDPYVLAIKQTLYRVSGDSPIIDALKRAAENGKQVTVLVELKARFDEENNVQWAKELEKAGCHVIYGMTYLKTHSKITLVVRKKAEKIERFVHLGTGNYNDQTASLYTDMGIITSKRKFGIDATHFFNYLSGFTEKPEFHHLSMAPFDIRNDFIRYMNNEIRFHKQHGNGRIIAKMNSLTDKNLIMKMYEASQAGVQIDLIVRGICCLKPGIEGVSENIRVFSIVGRFLEHSRIYYFHHNGDDRLFLSSADMMTRNMVKRVELLFPLYEPSVKSRLKKILSIMLNDNTKAREQKKDGSYEYVQPEKKQTRINSQMMFFDMAYRVLEDEE	PGPT0002685_2319	DIRECT EFFECT	BIO-FERTILIZATION	PHOSPHATE_SOLUBILIZATION	P-SOLUBILISATION-PHOSPHATE_METABOLISM	P-SOLUBILISATION-PHOSPAHTE_HOMEOSTASIS|REGULATION,PGPT0002685-ppk-K00937	NA	NA
AK012_03355	1536	ppx	COG0248	Exopolyphosphatase	ATGGCCAGGAAATTCTATGCAATTATTGATGTAGGTTCAAACACGATGCGGTTGGTGATTTATCTGCGTGACAAAGGCGGGCGTCTCCGCGAGGTGGAGAACGTAAAAGCGGTCGCACGTCTGCGTAACCATCTAACACAGGACGGCCTGTTGTCTACGGAAGGGCTGCAGACCCTGCTGACGACTTTGGGTAGCTTCAAGGAAGTGGCAGAATCCTATACGCTCGAGGAAATGGTCTGTGTCGCTACGGCTACCATCCGTCAGGCGGGGAACCAGGAGGAGATTATCAGTCAGGTTTCCAAGCATACGGGCTTTGATATGCGGATCTTATCGGACCACGAAGAAGCCTATTACGGATACCTGGCTGTCGTGAATTCCACTCCTGTAACGGAAGGGATCACAGTGGATATTGGCGGCGGCAGTACCGAAGTTACATATTTTAAGGATCGTGAACTGATTGAATCCTACAGCTTCCCGTTCGGAGCGCTGACCCTGAAGCAGGATTTCTTTAAAAAGGAACTGCCGACCGAGAATGAATTTTCATCCTTACGCCGCTATCTGCTTGACCAGTTCAAGTCGCTGCCATGGCTGCAGAACAAGGACATTCCTTTGATCGGAATTGGAGGCGGGGCGCGTAACCTTGTACAGATCGATCAGAACCTGAAGGAGTATCCACTCGCCGGGCTCCACCAATATAAGATGAAGGACAGCGATCTTTCCTTTATCAAAAATTACTTGTTCACTCTGCCGATGAAGAAGCTGCAGAAAGTGGAAGGATTGTCCAAAGACCGGGCGGATATCATCCTGCCCGCGACCGAAGTATTCCATTCTCTTTACGATACGATGCAGGCTTCCGGATTCATCCTGAGCAGAAAAGGCCTGCGGGACGGCGTCTTTTTTGAACAGCTCACCAAAGATATGGGGACGTCGGTTTTTCCGAACGTGCTGGAGGAGAGCATTCAGGAACTGATTAACGATTATGATTTGAATGTGAAACAGATCCAGCACGTCCAGCACCTGGCTCATCAGCTTTTCTTCCAGCTCCATGAAAAGGGCATCGGCTCTCTGAAGAAATCAGACTGGCAGGAAGTGAAAAGAGCCAGTTATGTGTTCAACCTGGGGGATTATATAGACAGTGAAGCGAGCGCCCAGCATACTTTCTACCTGCTTGCCAACCGGACAATTGACGGGCTGATGCATATGGAGAGGCTGCGGATGGCGCTGATGGCCTCCTACAAGAACAAAACGATCTTCAAACAGTTCCTCCACCCGTATAAGAAATGGTTCTTGAAGGAGGAACAGAAGAAACTCCGTCTACTTGGATCTCTGTTGAAATTCTGCTACAGCCTGGACAGCACCCGCAGGCAGACCATTCAAGGCCTCAGCCTGACGACAGAAGGTCATGACCTGCATATCACATGTCATTGTTCCGGTGAATGGATGCCGGAAGAGTATCAAGCCGAAAAACAGAAAAAACACTTGGAAAAATCACTGAAAAAGACTATAGAACTTTCTTTTGTGGAAAATAAGAAGTAA	MARKFYAIIDVGSNTMRLVIYLRDKGGRLREVENVKAVARLRNHLTQDGLLSTEGLQTLLTTLGSFKEVAESYTLEEMVCVATATIRQAGNQEEIISQVSKHTGFDMRILSDHEEAYYGYLAVVNSTPVTEGITVDIGGGSTEVTYFKDRELIESYSFPFGALTLKQDFFKKELPTENEFSSLRRYLLDQFKSLPWLQNKDIPLIGIGGGARNLVQIDQNLKEYPLAGLHQYKMKDSDLSFIKNYLFTLPMKKLQKVEGLSKDRADIILPATEVFHSLYDTMQASGFILSRKGLRDGVFFEQLTKDMGTSVFPNVLEESIQELINDYDLNVKQIQHVQHLAHQLFFQLHEKGIGSLKKSDWQEVKRASYVFNLGDYIDSEASAQHTFYLLANRTIDGLMHMERLRMALMASYKNKTIFKQFLHPYKKWFLKEEQKKLRLLGSLLKFCYSLDSTRRQTIQGLSLTTEGHDLHITCHCSGEWMPEEYQAEKQKKHLEKSLKKTIELSFVENKK	PGPT0002595_590	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
AK012_03356	1896			hypothetical protein	GTGGACATTTTGAAGAAGATACAAGATCACCGGGAATACGAGGAAGAACTGAAGTGGGAAGGAACGTTTGCTGAATACTTGGAGCTGTTGAGAGAGCGGCCGTATTTAGCACAATCCGCTCATTCCCGCGTTTACAATATGGTTAAGAGTGCTGGTGTGGAAGAAGCTCATGATCATAAGCGTTATAAGTTCTTTGATGACGATATTTACGGACTGGATGAAGCGATGGAAAAGCTCGTAGAGGAGTATTTCCATCCGGCAGCAAGAAGGCTGGATGTCCGTAAACGTATTCTCCTATTGATGGGACCTGTCAGTGGTGGTAAATCGACGCTGGTCAATCTGTTGAAGCGGGGACTTGAGCAGTATACGCTTACGGATGAAGGGGCTGTTTTTGCCATTAAAGGTTGTCCGATGCACGAAGATCCACTGCATCTCATTCCGAACCATCTGCGGAAGGATTTCCAGGAGGATTACGGCATCCGGATTGAAGGCAGCCTGTCTCCGTTAAATACGATGCGGGTGGAAACGGAATATGAGGGAAGGATTGAGGATGTTCTTGTAGAGCGGATCTTTTTCTCAGAGGATAAGCGTACAGGCATTGGTACCTTCAGTCCGTCTGATCCGAAGTCCCAGGATATTGCCGACTTGACCGGTTCGATTGACTTTTCGACCATTGCACAGTTTGGATCGGAATCCGATCCGCGTGCTTACCGGTTTGATGGGGAGCTGAACAAGGCCAACCGCGGCATGATGGAGTTCCAGGAAATGCTGAAGTGTGATGAGAAGTTTCTCTGGCACCTGCTCAGTCTGACGCAGGAAGGGAACTTCAAGGCTGGTCGTTTTGCCCTCATTTCCGCGGATGAGTTGATCGTAGCCCATACGAACGAAGCGGAGTACCGCTCCTTTATAGCGAATAAGAAAAACGAAGCGCTCCATTCCCGTATGATCGTGATGCCGGTGCCTTACAACTTGAGAGTCAGTCAGGAAGAGCGGATCTATGAGAAGATGATCAGAGAAAGTGATATCCGTGATGTCCATATTGCTCCGCATACGTTGAGAGTGGCTGCCATGTTCACGATCCTGACAAGGTTGAAAGAATCGAAAAAGGCGTCCATCGATGTTCTTAAGAAAATGAGACTCTATGACGGCGAAATTCTTGAAGGCTTCAGTGATGTGGATGTAGAGGAATTGAAGAAGGAGCACGGCGATGAGGGAATGAGCGGGATTGACCCTCGTTATGTGATCAACCGTATTTCGTCCACCATCATTAAAAAAGAACTGACATCGATCAATGCGCTGGATGTTCTTCGTTCCTTGAAGGATGGACTGGGAAGCCATGCCTCCATCTCCAGTGAGGACAAGGAGAGATACCTTGATTTCATTTCCCTCGCGAGAAAAGAGTATGATGAAATTGCGAAGAAGGAAGTACAAAAGGCGTTTGTTTACTCTTATGAAGAATCCGCCGTTACGCTTATGGACAATTACCTGGATAATGTTGAAGCGTACTGCAACAAGGCGAAGCTGAGGGATCCGCTGACGGGTGAAGAACTCAACCCGGATGAGCGTCTCATGCGTTCGATTGAAGAACAGATCGGCGTTTCGGAAAATGCGAAGAAAGCTTTCCGTGAAGAGATTCTCATTCGGATCTCCGCCTATGCGCGCAAAGGCAAGAAATTCGATTACCAGTCTCATGAACGCCTTCGCGAAGCTATTCAGAAGAAGCTGTTTGCTGATCTGAAGGATGTCGTGAAGATTACGACATCTGCGAAGACGCCGGATGAACAGCAGCTGAAGAAAATCAACGAAGTCGTTGCTACACTTGTCGATGAACATGGATACAACTCCAGCTCGGCTAATGAACTGCTGAAATATGTGGGCAGCCTGTTGAACAGGTAA	MDILKKIQDHREYEEELKWEGTFAEYLELLRERPYLAQSAHSRVYNMVKSAGVEEAHDHKRYKFFDDDIYGLDEAMEKLVEEYFHPAARRLDVRKRILLLMGPVSGGKSTLVNLLKRGLEQYTLTDEGAVFAIKGCPMHEDPLHLIPNHLRKDFQEDYGIRIEGSLSPLNTMRVETEYEGRIEDVLVERIFFSEDKRTGIGTFSPSDPKSQDIADLTGSIDFSTIAQFGSESDPRAYRFDGELNKANRGMMEFQEMLKCDEKFLWHLLSLTQEGNFKAGRFALISADELIVAHTNEAEYRSFIANKKNEALHSRMIVMPVPYNLRVSQEERIYEKMIRESDIRDVHIAPHTLRVAAMFTILTRLKESKKASIDVLKKMRLYDGEILEGFSDVDVEELKKEHGDEGMSGIDPRYVINRISSTIIKKELTSINALDVLRSLKDGLGSHASISSEDKERYLDFISLARKEYDEIAKKEVQKAFVYSYEESAVTLMDNYLDNVEAYCNKAKLRDPLTGEELNPDERLMRSIEEQIGVSENAKKAFREEILIRISAYARKGKKFDYQSHERLREAIQKKLFADLKDVVKITTSAKTPDEQQLKKINEVVATLVDEHGYNSSSANELLKYVGSLLNR	PGPT0014345_1403	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0014345-prkA|yeaG-K07180	NA	NA
AK012_03357	186			hypothetical protein	ATGAATCAAACCTTGATGTCCAGCGTGCTTTTTTTGATCAGTGCATCCATCTGGGCCATTCTTGCTATTTTTTATGATGATTACCGCTGGCTGAACTTATTTTTGTTCATTCTGTTCCTCGTCATGGGACTGGCCAAAAGAAAAAGCTATCTGGAAGGTAAAGATGTGGAAGAGGACGGAGATTAA	MNQTLMSSVLFLISASIWAILAIFYDDYRWLNLFLFILFLVMGLAKRKSYLEGKDVEEDGD				NA	NA	NA	NA	NA
AK012_03358	816	lipM	COG0095	Octanoyltransferase LipM	ATGGAAACATGGTACTTTGTCGATTCAGGCCACTGTACACCTGCCATGAATATGGCACTGGACGAGGCCCTTATGAATTGGCACCGAGAAGGGTCGATCCCGCCAGTTCTCCGTTTTTATGGCTGGGAACCTGCCGGGCTGTCTGTTGGTTATTTTCAAAAAGTAAAAGGAAAAATTGACTTGGATGGCGTTCAGAAGCATGGATATCAGCTGGTCCGCCGCCAAACGGGCGGTCGTGCAGTATTACATGACCATGAACTTACATATAGTGTCATCGTATCAGAAAAACATGAAGACATGCCGGACTCCGTGAAAGAAGCCTACCTGGTCATATCCAAAGGCCTTCTGGAAGGTTTCAGGAACTTGAACATCGATGCGGACTTCGCTGTTCCCGAAGGCAAGCTGGACGTGAATGGCTCAGCAGTCTGTTTTGAAGAACCGTCCTGGTATGAATTGATCGTCGATGGTAAAAAAGCAGCCGGAAGTGCACAGACTAGAAAACGCGGCATCATCCTCCAGCACGGGTCCATCCCGATCGAAGTGGATGATGGGAAGCTTTTTGATATGTTTGTTTACAAAAATGAACGCATTAAGGAAAGAGCCCGCAAGGCTTTCGGCAGCAAAGCTGTGGCCATCAATGATGTCCTGGATGAACCTGTCTCCTTCGAAGACACAAAAGATGCGTTTAAAGAAGGATTTGAAAAAGGATTGAATGTCCATCTGGAACCATTCCATCTGTCTGAGGAACAATGGGAGGAAGTAAGGAAAATCGCCGGAGAACGGTACGAAACAGATGAATGGAATTACGCCCGCTGA	METWYFVDSGHCTPAMNMALDEALMNWHREGSIPPVLRFYGWEPAGLSVGYFQKVKGKIDLDGVQKHGYQLVRRQTGGRAVLHDHELTYSVIVSEKHEDMPDSVKEAYLVISKGLLEGFRNLNIDADFAVPEGKLDVNGSAVCFEEPSWYELIVDGKKAAGSAQTRKRGIILQHGSIPIEVDDGKLFDMFVYKNERIKERARKAFGSKAVAINDVLDEPVSFEDTKDAFKEGFEKGLNVHLEPFHLSEEQWEEVRKIAGERYETDEWNYAR	PGPT0003930_266	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-ADAPTION_TO_PLANT_IMMUNE_SYSTEM	ADAPTION_TO_PIS-PLANT_LIPOIC_ACID_INTERFERRENCE	PLANT_LIPOIC_ACID_BIOSYNTHESIS,PGPT0003930-lipM-K23734	NA	NA
AK012_03359	945	lipA	COG0320	Lipoyl synthase	GTGAGTAAAAACCAGGAATACATAAGAAAGCCGGAATGGCTGAAAATCAAGATTAACACCAACAAATCCTATACAGGTCTGAAGAAACTGATGCGCGAGAAGAAATTGAACACGGTATGCGAGGAAGCGCGCTGCCCGAACATCCACGAATGCTGGAGTGAGCGGAAAACCGCTACATTCATGATCCTGGGTGACACCTGTACACGCGGGTGCCGTTTCTGCGCTGTCAAGACGGGACTTCCGAACGAACTCGACTGGGGCGAGCCTGAGCGTGTAGCGGAATCTGTTGAGATCATGGGACTGAAACACGTCGTTGTTACAGCGGTTGCCCGTGATGACTTGAACGACGGCGGTGCTGCTGTATTCGGTGAAACGGTGAAGGCGATCCGCCGCCGTGTACCGGGATGTACGGTCGAAATTCTTCCTTCTGATATGAAGGGTGATTACGAAAGCCTGCATACATTGATGGAAGGCGAGCCGGATATTTTCAACCACAATATTGAAACCGTCCGTCGTCTGACGAAGAAGGTCCGAGCACGCGCGATGTATGACCGCTCTCTTGAGCTCCTGCGCCGCGTGAAGGAAATCCGCCCGAATACACCGACAAAGTCCAGCCTTATGGTCGGTCTTGGGGAAACTAAAGAGGAAATCATCGAAGCGATGGATGACCTCCTTGCCCACAACGTAGATATCATGACCATCGGCCAGTACCTGCAGCCGACGAAAAAACACTTGAACGTGGAACGCTACTACCATCCGGATGAATTCGAGGAACTGAAGCAGATTGCCCTTGAAAAAGGATTCAAGCACTGCGAAGCAGGCCCGATGGTCCGCTCCTCCTACCATGCCGATGAACAGGTGAACAGCACCTCTGCCCAGCGCCGCATCAAGTACATGCAGGGCTATGAGTCCCAAGGGAAAGAGCTCGATACAACCAACTTCTAA	MSKNQEYIRKPEWLKIKINTNKSYTGLKKLMREKKLNTVCEEARCPNIHECWSERKTATFMILGDTCTRGCRFCAVKTGLPNELDWGEPERVAESVEIMGLKHVVVTAVARDDLNDGGAAVFGETVKAIRRRVPGCTVEILPSDMKGDYESLHTLMEGEPDIFNHNIETVRRLTKKVRARAMYDRSLELLRRVKEIRPNTPTKSSLMVGLGETKEEIIEAMDDLLAHNVDIMTIGQYLQPTKKHLNVERYYHPDEFEELKQIALEKGFKHCEAGPMVRSSYHADEQVNSTSAQRRIKYMQGYESQGKELDTTNF	PGPT0003935_3248	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
AK012_03360	252			hypothetical protein	GTGAATCAGTACCCATATGCTTATCCTTATGGAATAGAAGAAGATTTCCGAAATGAAGAGGAGCGTTTCTTCTTTTTCGGCCCCTTTGCCGGTGGGTTACTGGGTGGCTTTTTAGGCGGTGCGCTGGCTCCAGGCTTATATGGAGGTTTTGGCGGCGGCGGTTATGGCTATCCACCTCCTTATTACGGACGCCCGCCTTATTATGGAGGCGGAGGCTATTACGGCCGTCCCCCGTACGGAGGTTTCTGGTAA	MNQYPYAYPYGIEEDFRNEEERFFFFGPFAGGLLGGFLGGALAPGLYGGFGGGGYGYPPPYYGRPPYYGGGGYYGRPPYGGFW				NA	NA	NA	NA	NA
AK012_03361	477	trmL	COG0219	tRNA (cytidine(34)-2'-O)-methyltransferase	ATGCCTAACCATATTGTACTGTTTCAGCCGGAAATACCGGCCAATACCGGGAATATCGGCCGTACCTGTGTGGCCACAAATAGTGAACTGCATTTGATACGTCCGCTCGGTTTTTCGACCGATGACAAAATGGTACGCCGGGCAGGGCTGGATTACTGGCCTAAATTGACCGTCCATTATTATGATTCGATCGACGAATTGTATGAGAAATATCCGGAGGGCGAGTTCTACTACATTGAAAACTTCGGAACGAAATCCTATGCTGATTTTGATTTCAGTGATGTGGAGAAAGATCAGCTGTTTGTCTTCGGAAGGGAAAGTGACGGCATACCGAAGGAGCTCTTGAAAGGGCTTGAGGACCGCTGTCTCCGAATTCCGATGACCGATGACGTACGCTCGTTGAATCTATCCAATACTGCATCAATCATTCTATTCAATGCTTTATTGCAGCAGGGATTTCCGGGATTGATCAAATAA	MPNHIVLFQPEIPANTGNIGRTCVATNSELHLIRPLGFSTDDKMVRRAGLDYWPKLTVHYYDSIDELYEKYPEGEFYYIENFGTKSYADFDFSDVEKDQLFVFGRESDGIPKELLKGLEDRCLRIPMTDDVRSLNLSNTASIILFNALLQQGFPGLIK	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
AK012_03362	870			hypothetical protein	ATGAACAGCACAGAGGAGATCAAGCGTTACTGGCAGAAAGTGCTGGACCGGATTTTCGATCAGGAGGAAGAAGGATGGCTGAAGCGGAAAATAGAGGGGATGGAAGCACGCGGCCATACCCTGCAGCGGCTGACATTCCAGATTGCACCCTTTCACAGAGCGGCGTATGATCGGGTCGTGGATGTGGGCTACCACCTCCATTTAACCATGCTTGTGAAAAGCGGCCGGCATGTGTTTTTGGAAGAAGGCTGTTACACAGGACGTGGGCAGTTGATGAAAGGGACATGGGTCCATCACGATATCGTAACCGAGAATCCGGCGCCTGGTGATTCTTCTTTACCTTTGACGTTTGATACGGGGGAAAGAGAGCCGCTGGACGGACCGCGTTTCGCATACAACCGCCGGGAGGCTGTCCGGTATGCAGACCGTTGGTGGGACAGCTACAATCCTGCCTATAAAAAGTTTGATGTTGACTGTACCAATTACGTTTCCCAATGTCTGCGGGCCGGTGGTGCACCGATGAGAGGCGCAGGAGACCGGACACGGGGATGGTGGTACGGAAACGGCACGTGGAGTTACAGCTGGACCGTGGCTCATGCCCTGCGCTGGTACTTAAGTGGATCGCGTAAAGGATTGAAGGCGGTGGAAGTTCCCTCCGCGGATCAGCTGGCGCCGGGGGATGTCATCTGTTATGACTTTCAAGGAAACGGAAGGTATGATCATAATACGTTCGTTGTGAAAAAAGACGCCCAGGGGATGCCGCTGGTCAATGCTCATACATCCAACAGCCGCCACCGGTATTGGGCCTATGAGGACTCTACGGCTTACACGCCGGATATTCAGTATAAATTCTTTAGAATTAACGGGTGA	MNSTEEIKRYWQKVLDRIFDQEEEGWLKRKIEGMEARGHTLQRLTFQIAPFHRAAYDRVVDVGYHLHLTMLVKSGRHVFLEEGCYTGRGQLMKGTWVHHDIVTENPAPGDSSLPLTFDTGEREPLDGPRFAYNRREAVRYADRWWDSYNPAYKKFDVDCTNYVSQCLRAGGAPMRGAGDRTRGWWYGNGTWSYSWTVAHALRWYLSGSRKGLKAVEVPSADQLAPGDVICYDFQGNGRYDHNTFVVKKDAQGMPLVNAHTSNSRHRYWAYEDSTAYTPDIQYKFFRING				NA	NA	NA	NA	NA
AK012_03363	543	ogt	COG0350	Methylated-DNA--protein-cysteine methyltransferase, constitutive	ATGAACCATCATTCTTTTCTATATTACGACACGTTTCAAACGCCTTTGGGCGCTATGACCGTCCTGGCCAATGATGAAGGAGTCTGCCGCATTGATTTCGGACATCATGAAGATCGGCTTCCAGCCTATCAATCTTGGAAAAGGAAGCATTTTCTCAAGGGTGAACTGGTTTACGATCCCGATCATGCATGGATTGTTCAAGCAGAAAAAGAGCTGCAGGAATACTTCCAAGGGACCCGCACAGCGTTTGACGTGACGTTGAACTGTTATGGCACCGACTTCCAGCGGAAAGTGTGGAGGACGCTGCTTCATCAAATCCCTTTTGGTGAAACACGTTCCTACAAGGATATAGCGCTGGCGCTGCATTCTCCACAGGCGATCCGTGCTGTCGGAGGTGCTGTGAATAAAAACCCTTTCTCTGTCATTGTTCCATGCCATCGTGTCATTGGAAGCAATGGAAAGCTCGTCGGTTATGCAGGCGGACTGGATAAAAAAGAGAAATTGCTGGATTTCGAAAAACACCATACAGTCCTGCAGCATTAA	MNHHSFLYYDTFQTPLGAMTVLANDEGVCRIDFGHHEDRLPAYQSWKRKHFLKGELVYDPDHAWIVQAEKELQEYFQGTRTAFDVTLNCYGTDFQRKVWRTLLHQIPFGETRSYKDIALALHSPQAIRAVGGAVNKNPFSVIVPCHRVIGSNGKLVGYAGGLDKKEKLLDFEKHHTVLQH	PGPT0019595_3	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ORGANIC_ACID_USAGE-TRICARBOXYLIC_ACID_CYCLE,PGPT0019595-pckA-K01596	NA	NA
AK012_03364	1131	queG	COG1600	Epoxyqueuosine reductase	GTGGATTTTCATCAGTTTAAAGAAGAAGTGATCGCATACAGCAGAGAAATCGGCATCGATAAAATCGGATTTGCTTCTGCTGATGTGTTCGGAGAATTAAAAGCCCGTTTAAAACGCCAGCAGGAACTCGGCTATCAGTCGGGTTTTGAAAAGGGGGAAGTGGACGAGCGGACGGAGCCCGGGCGTCTTCTGCCTGGCGCGCAGTCCATTATATCCATTGCCCTGGCGTACCCTTCGAAAATGAAGGACGCCCCCCGCAGTGTGAAGGGAGAACGACGGGGGATTTTCTGCCGGGCTTCCTGGGGACAGGACTATCATGATGTGCTCCGGGACCGGCTGCACAAACTCGGTGCTTTTCTAAAGGAAAGGTTCCCGGAAGTGGAATTGAAATCCATGGTGGATACAGGCGAGCTCTCTGATCGTGCTGCAGCGGAGCGTGCCGGTATCGGCTTCAGTGGAAAAAATTGTGCCGTGATCACTCCGGAGTTTGGTTCATATGTATATTTAGGGGAACTTGTAACGAATATTCCTTTTGCTCCCGATGAGCCGGTGGATGACAGCTGTGGGGACTGCAATATATGTGTGGACGCGTGCCCGACCGGGGCCCTCGTCCAGGGCGGCCAGCTCAATGCCCAGCGCTGTATCGCCTTTTTGACGCAGACCAAAGGGTTTCTGCCTGATGAGTTCCGCACAGTGATCGGCAACCGTCTATATGGCTGTGATACGTGCCAGACGGTCTGTCCAAAGAACCGGAAGAAAGATTTTCATAATCATGAAGAATTTGAACCGGATCCTGAGGTTGTAAAGCCGAAGCTTACACCGCTGCTGTCCATATCCAACCGGGAGTTCAAAGAGAGATTCGGTTTCATTTCCGGCTCCTGGCGGGGGAAAAAGCCGATTCAGCGGAATGCGATTCTGGCCCTTGCCCATTATCGTGACGAAACGGCCGTCGATGAACTGATTCGTTTAATGAATCACGATCCAAGGCCGGTTATACGTGGAACCGCTGCATGGGGCCTCGGAAAAATCGGCCGTCCCGATTGTTTTGAGGCTGTTGAAAAAGCGAAGGAAAAGGAAGAGGATGAACAGGTCTTGTATGAAATGGAAAAAGGGCTGCAATTTCAGACGTAA	MDFHQFKEEVIAYSREIGIDKIGFASADVFGELKARLKRQQELGYQSGFEKGEVDERTEPGRLLPGAQSIISIALAYPSKMKDAPRSVKGERRGIFCRASWGQDYHDVLRDRLHKLGAFLKERFPEVELKSMVDTGELSDRAAAERAGIGFSGKNCAVITPEFGSYVYLGELVTNIPFAPDEPVDDSCGDCNICVDACPTGALVQGGQLNAQRCIAFLTQTKGFLPDEFRTVIGNRLYGCDTCQTVCPKNRKKDFHNHEEFEPDPEVVKPKLTPLLSISNREFKERFGFISGSWRGKKPIQRNAILALAHYRDETAVDELIRLMNHDPRPVIRGTAAWGLGKIGRPDCFEAVEKAKEKEEDEQVLYEMEKGLQFQT				NA	NA	NA	NA	NA
AK012_03365	1710			hypothetical protein	ATGAAAAAACTTCAAACGATGCTGAATCAGATCGATGGAAAGAGCTATAAAGGATATAAGCAGATTCAAGGGACGTACAGTTTTGAGAATTATAAGCTTCATATAGACTATGTCCAGGGAGATCCATTTGCGGCTCCATCAAAGATCAGGATACAGGTGCCTCACAGTAAACGCCCGGTTCCTGCTGAATATAAGGAAACAAACAGTCGAAAGACATATTCGGAAGATACTTTTGCCAGATCGGTAGCGGATACGATCAAGAAAACCCAGTTCAGTGTAAAAGGCTCAGGCAAAAGCGGGATGGTCGCCATCGATCAGCCGGGTCAGGAGATTTTGGAACGGACAGCTGTTTCCCTGCTCCCTGAAGACATCGTCATCTGCCTGACAGTCGGCCTGCCTGCCAATGGCCGGCGGATTAACGGAAAGCAGGCGGAAAAGCTGTTTTTCTCTGTGATTCCTGAGATGCTGAAGCAGTCTGTATTTGCTGTTCAAGACAGCGAGCTTGAGAAGGTGTGTCAGCTCGCCGATCAACACGATGCCATTTTAGAGGGTATGCGTGAGAACGGGTGGATGTCCTTCGTAGCCGATGGGGCTGTTCTTCCGAGGGAGAGCGGTGTGAGCCAGCGGCCGATGAAAAAAGCGGTCCCTTTTGAGAGCCCGGAGGAAAACCGCGTGTCAATCACGATACCCCATCGTCAGGAGCCGTTGACAGGGATGGCCTTGAAAAAAGGGATTGTCCTGATTGTCGGCGGGGGGTACCATGGTAAAAGTACCCTCTTGAATGCCATCGAGCGTGGGGTGTATCCTCACATCAAAGGGGATGGTCGTGAATATGTCCTGACAGATCCGGACAGTGTGAAGGTAAGAGCGGAAGACGGACGTCAGGTAACCAAAGTGGATATTTCGCCATTTATTAAAAATCTCCCGCATGGAACGGATACGACAGCTTTCTCTACGGAAAATGCGAGCGGGAGTACCTCACAGGCGGCGAACGTCATGGAAGCGCTCGAGTCAGGAGCACGCACGCTTCTCATCGATGAGGATACCAGTGCTACCAACTTCATGATTCGTGATGAGCGGATGCAGGAGCTTGTCGTACAGGAGAAGGAGCCCATCACACCGTTCATAGATAAAATTCAGCAGATGCGAGACGACCTTGATGTGTCTACCATTCTCGTGATGGGAGGTTCCGGGGACTACTTCCAGGCGGCGGACGATGTAATCATGATGGACCAATATGTACCGGTCAACGTCACGGAGAAGGCGAAAGACATTGCAGCGAAGTACCCAACGGAAAGGAAAACAGCTGGAGAGGAAAGCTTCGGAACGGTACCCAGACGTGCTTTTCTTCCGAATACGCTGCAGACGAGAAAAGGGAAGAAGGAGAAAGTCCAGGCGAAGGGGCTGTTCAAGCTGTTGATGGGCCGGGAGGATATCGATCTTTCCGGTGTCGAACAGCTGGTGGATGCCTCACAGACACGTATGATCGCCGACATCCTTCTTCATCTGGATAAGAAAGGCCAGCTGAAGCCTGATCAAAGCCTGCCGGCGCTGCTGGATCAGATTGAGAAGCAGATGGACACGAAAGGACTGGCTTCCTTCGGTCCATTCAAGGATCAGCACCCAGGGGAACTGGCGAGACCAAGAAGATTTGAAATCGCAGCAGCTATGAACCGGATTCGGACAGCTGCCGTTAAAGATATACGTTAG	MKKLQTMLNQIDGKSYKGYKQIQGTYSFENYKLHIDYVQGDPFAAPSKIRIQVPHSKRPVPAEYKETNSRKTYSEDTFARSVADTIKKTQFSVKGSGKSGMVAIDQPGQEILERTAVSLLPEDIVICLTVGLPANGRRINGKQAEKLFFSVIPEMLKQSVFAVQDSELEKVCQLADQHDAILEGMRENGWMSFVADGAVLPRESGVSQRPMKKAVPFESPEENRVSITIPHRQEPLTGMALKKGIVLIVGGGYHGKSTLLNAIERGVYPHIKGDGREYVLTDPDSVKVRAEDGRQVTKVDISPFIKNLPHGTDTTAFSTENASGSTSQAANVMEALESGARTLLIDEDTSATNFMIRDERMQELVVQEKEPITPFIDKIQQMRDDLDVSTILVMGGSGDYFQAADDVIMMDQYVPVNVTEKAKDIAAKYPTERKTAGEESFGTVPRRAFLPNTLQTRKGKKEKVQAKGLFKLLMGREDIDLSGVEQLVDASQTRMIADILLHLDKKGQLKPDQSLPALLDQIEKQMDTKGLASFGPFKDQHPGELARPRRFEIAAAMNRIRTAAVKDIR				NA	NA	NA	NA	NA
AK012_03367	453			hypothetical protein	ATGTCCATTGCTGTAAAAGACCGATTGAGTACAGACAAGCTTAGTAAACTGAGAACGGCCGCTGTTTTGGAGTTTACCGAGGAAATCTTCGAGTCAGACAATTACCGCTGCCTGGAAGTTCTGGATTCGGACCAGCAGCACCTGTTTATTGTGAACAGAAATGACCGCACATTGACGGCCTTAAGCTTATCTCCGGATATGTCATTGAAAAAGGAAACGTTGTTTGCGGACAAGATCATTTCCATGAAGGAGTACTTCGACGATTACAGCCTCAACGAAAATACACCTCCTAGAAAAATTGAAATCGTATTTATGGAAAACCGGACTATGCTCATTGAGCCCGTCAATTCCATGGAGCAGGATGAGGAGTACAAGAAAAAAGATGTGGCAGCTCAGGTCAATGAGGATTTCGAGAACTTGATTGCTGCTTTGAAGAACACGTTAATTCTGTAA	MSIAVKDRLSTDKLSKLRTAAVLEFTEEIFESDNYRCLEVLDSDQQHLFIVNRNDRTLTALSLSPDMSLKKETLFADKIISMKEYFDDYSLNENTPPRKIEIVFMENRTMLIEPVNSMEQDEEYKKKDVAAQVNEDFENLIAALKNTLIL				NA	NA	NA	NA	NA
AK012_03368	519			hypothetical protein	ATGAGCAGGTTTGTAAAAGGGACATCGATCCTTGGGATTGCCCTTCTTGGGTTTGGTGTGTGGCAGCTGACGGAAATGGATCGGGAGAATCATGGAGAGACGGAAAGCGCCCAGACGATCATCCAGCAGGATCAGAGTTATGAGAAAGTTTTTATTGAACAGGAGGAAGAGACGGAGGAGGATCGTCCCGATCATACACGAGTGGATAACCAGATGCTTCAAACCATCGAGGCAGATGACGAGATGAAAGAACTCGTATCCGGCCTGGGCCAAGGCGTTACAGAAGATTTGAATGATCTGGAAGCGGAAACGGATGAGCAGTGGAAGACGATTGAAAAAGATACAAAGCAGAAGCAGGAGATGTTGAAGCGGCTCATCGAGCTGACGGATGATAAGAAGATTGAGCAGATGGCTTCCAGTGCTGAGGCGAAACTTGACCGGATGATGGAAGATAAGAGAATCGACTTTTATAAAGAAGCTGTAATATCTTTCCGACTGATTTCTGAACGGCTTTCATAA	MSRFVKGTSILGIALLGFGVWQLTEMDRENHGETESAQTIIQQDQSYEKVFIEQEEETEEDRPDHTRVDNQMLQTIEADDEMKELVSGLGQGVTEDLNDLEAETDEQWKTIEKDTKQKQEMLKRLIELTDDKKIEQMASSAEAKLDRMMEDKRIDFYKEAVISFRLISERLS				NA	NA	NA	NA	NA
AK012_03369	1191			hypothetical protein	TTGGTAAAGGAAGGTTTTATGACAGGTATGGAAGATAACTTGACCAGATTAACGATAGAAGGAAAAGAATATATTCTGATCGGCACCGCTCACGTCTCCAGACAAAGCGCCGAGCAGGTCAAACAGGTCATTGAACAGGAACAGCCGGATGCTGTCTGTGTGGAGCTGGATGAACAGCGCTACCAGTCCATCAGGGACGGAGACCGGTGGAAGAATACGGACATTTTTGAAGTCATCAAAAGTAAAAAAGCGACGCTGTTGTTAGTGAACCTCGCTGTTTCATCGTTTCAAAAGCGGATGGCGAAGCAGTTTGGCATTCAGCCGGGACAGGAAATGATCCAGGGGATTCAATCTGCGGAAGATACGGGGGCTGAGCTGGTGCTTGCCGACCGGAACATCCAGGTGACGTTCTCCCGGATCTGGGGCAATCTTGGCTTGAGTGGAAAGTCGAAGCTCTTAATGTCGATCTTCTACGGCATTTTCAGCAATGATAAAATCTCTGAGGAAGAGCTGGAGAAGATGAAGTCCCAGGATATGCTGGATGGAATGCTTCAGGATTTGACGGAGCATTTTCCAGACTTGAAAAAACCATTGATTGATGAGCGGGATCAGTACCTGGCTCAAAAAATCAAGGATGCCCCTGGGGAGAAGGTTGTTGCTGTGCTTGGGGCGGCCCACGTGCCCGGGATTAAGGAAGAGATTTATAACGATCATGATTTAAAAGCGTTGAAGAAGCGGCCGTCTAAATCAAAAGCGCCGAAAATCATCGGCTGGTCGATCCCGATTTTCATTTTATCGATCATTTTGTATACCTTTCTTTCCAATCCAGCCGCAGGTACCCAGCAGACGATCAGCTGGATCCTCTGGAACGGATCGTTTTCAGCGGTTGGAGCTGCGGCGGCTCTGGCCCATCCACTTGCTGTTGCGGCCGCATTTTTACTGGCGCCGATTACATCGTTGAATCCTCTGCTTGCGGCCGGCTGGTTTGCCGGGATTGTACAGGCGTACTTCCGAAGGCCGAATGTGGGCGATTTCGAATCCCTTTCCGATGATGTCACGACGGTGAAAGGCTTCTGGCAGAACAAAGTAACGAGAATTCTGCTTGTTGTCGTTCTTGCGAATCTTGGCAGTACGCTCGGAACCGTAATTGGTGGTGCGGATGTCATCCGGCTGTTTATTGAAAACCTGTAA	MVKEGFMTGMEDNLTRLTIEGKEYILIGTAHVSRQSAEQVKQVIEQEQPDAVCVELDEQRYQSIRDGDRWKNTDIFEVIKSKKATLLLVNLAVSSFQKRMAKQFGIQPGQEMIQGIQSAEDTGAELVLADRNIQVTFSRIWGNLGLSGKSKLLMSIFYGIFSNDKISEEELEKMKSQDMLDGMLQDLTEHFPDLKKPLIDERDQYLAQKIKDAPGEKVVAVLGAAHVPGIKEEIYNDHDLKALKKRPSKSKAPKIIGWSIPIFILSIILYTFLSNPAAGTQQTISWILWNGSFSAVGAAAALAHPLAVAAAFLLAPITSLNPLLAAGWFAGIVQAYFRRPNVGDFESLSDDVTTVKGFWQNKVTRILLVVVLANLGSTLGTVIGGADVIRLFIENL				NA	NA	NA	NA	NA
AK012_03370	435			hypothetical protein	ATGACTAATTCTACACTTTTTCCTACACTGTTTTTCTTTCTATTTCTATTGTTCTCGTTTGGGTTTATCTTTTCAAACCGTCGTCAGGCCAAAGACAAGCAGGCGGTTGAAAAGGAAGTTTCCAAGAAGGCGCTGGCTGAAAAGCTTCACAGCGAATTGTCCAAGTATGGGCTGCATCCACAGCCGTACTATCAGGAAGGGGAATTTGTCATTGATATGGCTTTTCCCGAATTGAAAATTGCGATTGAAGCTGTGGAGCACGAGTATTTGGTGTCTCCTGATCAGTGGGAGATGGAATGGGAGCGGGATGCCTTTTTGAAGAATCACGGATGGACCGTCCTTCGTTTCAGTGCGGCACGGATCGAAGAGGATATTTCGAGGATTGCCGAGAAAATAAGCAGAGAGCTGGCCGGCCGGCATCATGCAGGATCTTGA	MTNSTLFPTLFFFLFLLFSFGFIFSNRRQAKDKQAVEKEVSKKALAEKLHSELSKYGLHPQPYYQEGEFVIDMAFPELKIAIEAVEHEYLVSPDQWEMEWERDAFLKNHGWTVLRFSAARIEEDISRIAEKISRELAGRHHAGS				NA	NA	NA	NA	NA
AK012_03371	342			hypothetical protein	GTGAGTCAAAATGCAGATTTAATTCACCACTATACAGAGTTTGCTTTATTTGAAGCGGATGGGCTTCAAAAAGGAGAAATCGATTTTCCCGAGTTTGAAAAGGTCTTGAATGACTACATACTGAGCCAGCCGAAAGAGACGATGGAGTTCAAGGAGTGCTGGGTGTATGAGGAACAGGATGGCCTGCGGACGGTACGCACGGATTTTTATGATCACAATTTGAAAAATGATATCCGTTTGTGGGGATCCCGAAATCCAGAGGATGGCCAGGTGAAGAGCCTGAACGTAGATGCTTTGGATGTGTCAACGAACGAAGTGGTTTATGAGCGTAAACTGATGTAA	MSQNADLIHHYTEFALFEADGLQKGEIDFPEFEKVLNDYILSQPKETMEFKECWVYEEQDGLRTVRTDFYDHNLKNDIRLWGSRNPEDGQVKSLNVDALDVSTNEVVYERKLM				NA	NA	NA	NA	NA
AK012_03372	777	hcaB_2		3-phenylpropionate-dihydrodiol/cinnamic acid-dihydrodiol dehydrogenase	ATGAAGATCGTAGTCACAGGTGCGACAGACGGTATTGGTCTGGCGACAGTAAAAAGACTCGTCAAGGAAGGTCATGAGGTGCTTCTGCACGGCCGCAGCGCAGAGAAACTGGCGGACGTAGCCAACGAGCTGGGGGATGAGGAAATCGAGCAGTATGTGGCTGATTTGTCTTCTATGAGTGAGATGAGAAGGTTGGCTGAGGAAATCGCAGCCAGGCATGATCACCTGGATGTTCTAATCAACAATGCAGGCGTATATAATGCCTCAGAGCCTGTCACAGTCGACGGGCTGGACATCCGCTTTGCTGTGAATACATTGGCTCCCTATGAGCTGACAAAAGCACTCCTTCCGCTTATGGATGCTTCAAGCCGTATTGTGAACTTGTCGTCGGCCGCGCAGTCGCCGGTGGATGAGCAGGCTCTTAATGGGAAAAAGAAGCTGGCTGACGGAGAGGCGTATGCGCAGAGTAAGCTGGCGCTGACGATGTGGACGTATGAAATGGCCCGGCGGGTGGAGCCTGTTGTCGTGGCTGTGAATCCTATGTCTCTTCTGGGCAGCAAAATGGTGAAAAAGGCTTTCGGAACAGAGGGCCGCGATATCAACATTGGCGCAGATATCCTGTGCCGAGCGGCTTTGTCGGATGAATTTGCGGAGGCTTCCGGCCGGTACTTTGACAATGATATAGGAGCGTTCGGTGAACCGCACCCGGATGCGCGTAACCTGGACAAGTGTGAAGCTCTTGTTCAACAGCTGGAAGAGATCACAGCGAGGGTATAA	MKIVVTGATDGIGLATVKRLVKEGHEVLLHGRSAEKLADVANELGDEEIEQYVADLSSMSEMRRLAEEIAARHDHLDVLINNAGVYNASEPVTVDGLDIRFAVNTLAPYELTKALLPLMDASSRIVNLSSAAQSPVDEQALNGKKKLADGEAYAQSKLALTMWTYEMARRVEPVVVAVNPMSLLGSKMVKKAFGTEGRDINIGADILCRAALSDEFAEASGRYFDNDIGAFGEPHPDARNLDKCEALVQQLEEITARV				NA	NA	NA	NA	NA
AK012_03389	1410			hypothetical protein	ATGGAAAAAGATTGGTTTGAAGAACGTTGGAATTCAATAGAAGTCCCTGAAGACGAGTTAGACAAGGCAATTTCAAACGGCATTAGAGCAGGTAAAAACGAAACATCCAATAAAAAGCACTGGAAGTTACCTGCCATGGTCTCATCGGCAGCCGCTTCACTGATCCTGGTCTCTGGATTAGTTTTTTCACCCATAACCGAAGTCCTTGCGAAAGTCCCTTTACTAAATTTTGTTTATGATGAAATTTCCTTTCCTGTCGGGAGTGAGTTATTCAATAAACAGTTAGTCACAGAACTTAATGAAACAGCCACAAGTAACGGTGTAGACGTAACCATAACCAGTGCCTATTATGACAACACTCTCCTTGGTATTACGTTTAAAGTAACGTCCGACCAGCTTTCGATAGAGGCTATGGACAGAAAAAACAGTCCACAAGCTGGTTATAGTTATTATTTATTTGATGGAGATGAACAAAATCAATGGGGAGGTTCCATGAGTCAATTAAAAGAAACAGAGGAAGGGTTTGTCGGAGCCATGGAGTTTCAGCAACGCGACCAATCCATAAGCGAGGACTTTACTCTGCCGATCACCTTTACTTCCATTCTAGGTAAGAAAGGAACATGGAAATTCGACATTCCCATTGAACAAAGAACTCCAGAAAAAATAAAAATAGATGAACCTGCTACAACCACTAAAGGGAACTTTTCCTTTAATCTTAATTCCATAACCAAAGGTGAAGCTACAACTATTCTTAATTACACAACCACCCGGCCTTCAAATGGAGAAGATGACCATTTTAGTATTGACGTGGTGGATGCCCAGGGAAACCAATTGTCGAAAAAGAACATAGGTAAAACGTTAAGTGTAAATAAAACCAATGAATCTATAAAAGTGAAGGAGCAGTCTCTTTTCACAAGCACACTTAACGAGAAAGATGACTATATTGTGATTCATCCTAAAGTAAGCAGAGATGAATTTGATACGATACAAGCTTTCCAGAAGACTCCCTTTGAAATCCAGAGCAAGCGATTTGGATACACAATGGTGGTAGAAAATGTTCAAATGAACCATCGACAGCTAACGATTGATTATTATCTTGTTAATGTAGATCAAGGAAAATTAAAGAAAGATAACTTTCTTAATTTCGCAAACCAGATTAAGCTTATCCGGTCTGAGGACGTAATTGCAGAGGCAGATGGTCAAGCTCAGTATGAAGCATTAAAAGAAGACTCTCTTATCTACGGTAATAATGGAAAAATTATTAATCAAGGTGAATTGCATTTACAGTCAACATTTGGACTAAAATCAGATTTCAACCTTAAAGAATATTCGCTTATGGTTCCGTTTGGAATTTTCAGTTCCAACGCTCCAATAGAATTAGATCCTATTAAAGTTGATATTTCTTCTTGA	MEKDWFEERWNSIEVPEDELDKAISNGIRAGKNETSNKKHWKLPAMVSSAAASLILVSGLVFSPITEVLAKVPLLNFVYDEISFPVGSELFNKQLVTELNETATSNGVDVTITSAYYDNTLLGITFKVTSDQLSIEAMDRKNSPQAGYSYYLFDGDEQNQWGGSMSQLKETEEGFVGAMEFQQRDQSISEDFTLPITFTSILGKKGTWKFDIPIEQRTPEKIKIDEPATTTKGNFSFNLNSITKGEATTILNYTTTRPSNGEDDHFSIDVVDAQGNQLSKKNIGKTLSVNKTNESIKVKEQSLFTSTLNEKDDYIVIHPKVSRDEFDTIQAFQKTPFEIQSKRFGYTMVVENVQMNHRQLTIDYYLVNVDQGKLKKDNFLNFANQIKLIRSEDVIAEADGQAQYEALKEDSLIYGNNGKIINQGELHLQSTFGLKSDFNLKEYSLMVPFGIFSSNAPIELDPIKVDISS				NA	NA	NA	NA	NA
AK012_03390	534			hypothetical protein	TTGGTACATAAAAAGACTGTAAAAAAAGCTATCAAAGGTAATGCAGATGCCTTTGAATTATTAATTAAAGACCAAAGAGAAAAGCTTTATAAGACAGCATGGCTTTATGTCAGAAATAAAGAGGACGCCCTCGACATCGTACAAGAGGCTGTTACCAAAGCCTTTGTGTCTTTAGCTCAGTTAAAGAAACCCGAGCTGTTTAACGCCTGGCTTATGAAAATTTTAATACATACAGCCTATGATGTCCTTGAAAAGAAGAAGAAGGTTGTTCTTACTGATGATTTCTCTAACTTTCAAGGGAAAGATTCCATAGAGGTAGAAGAAAGAATCGACTTAATGTCAGCTATAACTACCCTGGATTACAATTACAGAACGGTTGTTATCCTTTTTTACTTCCATGACCAGTCCATTCAAACCATTTCTGAAACCATGGATAAGCCAGAAGGAACCATTAAAACGTATCTTCATCGTGCCAAAAGTGAAATAAAAAAGGTGTTAGGGGGAGTGAGTATCGATGGAAAAAGATTGGTTTGA	MVHKKTVKKAIKGNADAFELLIKDQREKLYKTAWLYVRNKEDALDIVQEAVTKAFVSLAQLKKPELFNAWLMKILIHTAYDVLEKKKKVVLTDDFSNFQGKDSIEVEERIDLMSAITTLDYNYRTVVILFYFHDQSIQTISETMDKPEGTIKTYLHRAKSEIKKVLGGVSIDGKRLV	PGPT0014960_10575	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK012_03391	201			hypothetical protein	ATGGATATAATACTCATCGCATTCTTAGCTTTCTTTATAGTGTTAGCTTATACCGTCTCAAGGTTTGCTAGATCTGCTGTTAAACAGACGAATAGAGGGTATCAAAACATGGAAGAAGCTAACGCAATTAGAAAAGAAAATGTAGAGCTACAAAAAGAAATACTTAAAGAATTAAAAGAGATAAAAAACAAAATGGGTTAG	MDIILIAFLAFFIVLAYTVSRFARSAVKQTNRGYQNMEEANAIRKENVELQKEILKELKEIKNKMG				NA	NA	NA	NA	NA
AK012_03392	609			hypothetical protein	TTGAAGTACTTACTTTACTCATGTTTATTGAGTTCAGTGATATTGCTTAATGCTTGTAATGAAAATCAGATAAAAAATGAAGATACTTTGGATGAGACGAATGAGAACGAAGAAGTTATAAATACGGAAAGCAATAATCCTGACGAAAAGAACATGTTCTCTTTAGGTGACTTTGAAGTTGTAAATTCACAAACTGAAGTGGGATCTGTTACCTCTGGACCAATAACAATAGAAGTGCTTGGGGTTTCGGTACAGCAAGGAGAACTTAAGGATATGTATACAGGGAATCTGCCTGATGGTGAAATTAACTTTATTCGCTTAGATTTCACACTTACATCAGAACAAGATGATTTAATTTTTGACGGGACAAACCTTCTAATAAAAATTAACTCTGAAGACAAATGGATTGAACCAAATACTCGAATGAGTGTTAACCTAAACTTCGGTTACAATGGAGAAGGGGAATATCGCGCTCACGCCTCTTACGTGCTAGAGGAGTCAACTGTTGATGAAGTAAAAACAATAGTGTTTCAATTGAAAGCTCCAAAAGATAAAAATGGTCAACCTCTAGGTGGAGACCAAAATATCAAGGTCGAGTTAACTCATTAA	MKYLLYSCLLSSVILLNACNENQIKNEDTLDETNENEEVINTESNNPDEKNMFSLGDFEVVNSQTEVGSVTSGPITIEVLGVSVQQGELKDMYTGNLPDGEINFIRLDFTLTSEQDDLIFDGTNLLIKINSEDKWIEPNTRMSVNLNFGYNGEGEYRAHASYVLEESTVDEVKTIVFQLKAPKDKNGQPLGGDQNIKVELTH				NA	NA	NA	NA	NA
AK012_03393	201			hypothetical protein	TTGAAAGTATTAGAAAAAGTATTATACAGTTTTGTTATAGCCATATCTGTTATTTTATTGAATTTTATTTACGAATTTGTAGTAAGCCAATTTGGTAACTTAAATGCTCCTACTTCAATACTAGATTACATAAAAATAGGTATTCAAACATTTGTAAGTGCTTTTATGGTACTGCTCTTTATTAAACCAAAAAAAGAATAA	MKVLEKVLYSFVIAISVILLNFIYEFVVSQFGNLNAPTSILDYIKIGIQTFVSAFMVLLFIKPKKE				NA	NA	NA	NA	NA
AK012_03394	369			hypothetical protein	ATGAAATACTTAACATTACTTTGTGTGATTTCTATTTTCTTCCTTGTGTGTGGGTGTTCAAAAGGTAGTGCAGAGGAGGTAGAAATATACTCAATCAGGAATGATACTGAGCCTACCCAAGTAATAAAAGAAGAAGATGTTGTTAAGCAAATCGAAGAGTTAACTACTAATTTAAATGAGGTCCCAATTGAAGAAGCAATCTCAAATGACAAGGGAAACCCGGATGTAATATTTCAAATTAATGGCAGCAAGTGGTTTGTGTATTATGTACACCAAAAAGCAATTCTAAGAAAGAATGCAGGTACCTTTTTTAATGCGTCTGATGAACAAGCAAATAAATTAAAAAGTCTATTTGGAAAAGATGTTTAG	MKYLTLLCVISIFFLVCGCSKGSAEEVEIYSIRNDTEPTQVIKEEDVVKQIEELTTNLNEVPIEEAISNDKGNPDVIFQINGSKWFVYYVHQKAILRKNAGTFFNASDEQANKLKSLFGKDV				NA	NA	NA	NA	NA
AK012_03395	189			hypothetical protein	ATGAAAGAACTATTTACATGCTCAAGCTTTTACGTGAAGCAAGCAACTGGATTTAGTACGTTATTCACTTACTATAATATACATGGAGAGAGAATAGCAGAAGCGATAGAAGATAGTAGTGTGAAAAAATCAAAACTTTCTTATATGCTTCGGTTACCAGGGTTGTATTCAATCTACGTTATCACATGA	MKELFTCSSFYVKQATGFSTLFTYYNIHGERIAEAIEDSSVKKSKLSYMLRLPGLYSIYVIT				NA	NA	NA	NA	NA
AK012_03396	270			hypothetical protein	ATGAAAGTAGTTGAGGCAGAGGGTGAAAAAAGCTTATTATCTTTTCAACGCAAAGGCGGTTTTGGAAAACCATTTGAAGAATTTGATGCTTTAGGGAACAAACTATTAACATTAAAAGATAAGTTTAAATTTAAAACACCACAAGTGTTCTTTATCGATAGATGTGGCCATGAGATAGCTGAACTAAATGGTGAAACTTTTGGGGGGGAAATGAAAGTCGTTGGTGTAAATGGTAGTGTTTTGATGTCGATAAATAAGCAAGTAGGATGA	MKVVEAEGEKSLLSFQRKGGFGKPFEEFDALGNKLLTLKDKFKFKTPQVFFIDRCGHEIAELNGETFGGEMKVVGVNGSVLMSINKQVG				NA	NA	NA	NA	NA
AK012_03397	174			hypothetical protein	ATGAAAAAAAGAATTAAAAATGGTATTATCTCTGCACTTGGTTATGCAGTCACTGCTACTCTGTTTGGATACTTCTTATACGGTGAAATAAAATGGGGACTTGTAATAGGGTTAACGATAGGCGGTTTTGCTTTTCCTATAATAGGCAAGTTTGGGAGTAGAGATAAACCGTAA	MKKRIKNGIISALGYAVTATLFGYFLYGEIKWGLVIGLTIGGFAFPIIGKFGSRDKP				NA	NA	NA	NA	NA
AK012_03400	1923	thrZ	COG0441	Threonine--tRNA ligase 2	ATGAATCATGAAAAAATGGTAATTTCGTTTCCGGATGGCGGCAAAAAATCTTACTTAAAAGGGAGTACATTGGGGGATATTGCCCAATCTATAAGCCCTGGCCTTAAGAAAAAGTCAGTAGTTGGGAGAGTCAATGGATCCTTATATGATATGCAGAGGCCAATCAACTCTAATGCTGAGATTGAATTATTTCCACTTCATTCTTCAGAGGGATTAGAGGTGATGAGGCATACCGCAGCTCATATTATGGCTCAGGCGGTTAAGCGACTTTTCGGAAGCGCAAGGCTAGGTGTAGGTCCTGTTGTGGAGAATGGTTTTTACTATGACATCGATACGGATCAGAGTATATCTAAAGATGATCTATCTAAAATTGAAAAAGAAATGAGTAACATTGTAGCTGAGAATTTGTTTATTAAACGGGAGTTAGTATCTAGAGATGAAGCTGAGAGCATTTTTTCGAATGATCATTTAAAGCTGGAGCTATTAAAGAAAATTCCTAGGGAAGAAGATGTCTCCATCTACAAACAAGGAGAATTTATAGATCTGTGCAGAGGTCCCCATTTACCGTCAACGAAATTTCTTAAAGCTTTTTCCTTAACAAATATCTCGGGGGCCTACTGGCTGGGGAATAATGATAACGAGATGTTACAACGAATATATGGTGTAGCTTTCCCAACAAAAAAAGAACTCAATGAATACTTTCATTTTGTCGAAGAAGCCAAAAAGAGAGATCACCGCAAATTAGGGAAACAGCTTGAATTGTTTATGTTTTCAGATGAAGCTCCAGGAATGCCATTCTATTTAAGTAATGGTCAGGTGATAAGAAATGAGTTGGAAGCATTCCTTAGAAGGCTGCAGGGATCGTTTAATTATAAAGAAGTGAAAACTCCATTAATGATGAATCAGAGGTTATGGGAACAATCGGGTCACTGGAATCATTATAAAGACAATATGTATTTCTCTGAAGTTGACCAGCAGCATTTCGCTCTTAAACCAATGAATTGCCCAGGACATATGCTTATTTTTAAGGACCGTTTGCGCTCCTATAGAGACCTTCCTATTCGTATGGCTGAATTCGGTCAAGTTCACCGTCATGAATTCAGTGGAGCATTAAACGGGTTATTGAGAGTTCGTTCCTTCTGCCAAGACGATGCGCATATCTTTGTCACACCTCATCAGATAGAAGACGAAATCACTTCAGCCTTGCAGTTGATTGATGATGTTTATCGAACTTTTGGTTTCAATTATGAGATTGAGCTATCTACTCGTCCTGAAAAATCTATGGGGGATCCAGGATTGTGGGATCAAGCAGAAGATGCCCTTAAAAACGTTTTGGATAAACTAGGTTATGATTTTAGAGTGAATGAGGGGGATGGTGCTTTTTATGGTCCTAAAATTGATATTCACATAAAAGACGCCTTGAATAGGAGTCATCAATGTGCAACTGTGCAGCTGGATTTTCAAATGCCGGAAAAATTCGATCTGGAATATATAAATGAACATAATGAAAAAGTTCGTCCAGTGGTTATTCACCGGGCTGTGTTTGGGTCCCTTGATCGCTTTTTAGGCATACTCATTGAGCATTATGGAGGGGCATTTCCAACTTGGTTAGCACCTGTTCAAGTAAAAATACTACCTGTATCAAACGACGTTCATAAAGAATATTCGGATCAAGTAATGAATCGTTTAAAACAAGAAGGAATCAGAGTGGAAAAGGACAGTAGAGAGGAAAAGTTAGGGTACAAGATCAGGGAAGCTCAAATAAATAAAACACCCTACATTCTTGTGTTGGGAGACAAGGAAGTTGAAAAAGGATGTGTGAACGTTAGGTCCTATGGAGATAAAGCAACGAAAGAAATGGGATTAGATGAATTTGTAACAAGTATTAAACAGACTATAGCCAATAAAGATTTACTTGAATAA	MNHEKMVISFPDGGKKSYLKGSTLGDIAQSISPGLKKKSVVGRVNGSLYDMQRPINSNAEIELFPLHSSEGLEVMRHTAAHIMAQAVKRLFGSARLGVGPVVENGFYYDIDTDQSISKDDLSKIEKEMSNIVAENLFIKRELVSRDEAESIFSNDHLKLELLKKIPREEDVSIYKQGEFIDLCRGPHLPSTKFLKAFSLTNISGAYWLGNNDNEMLQRIYGVAFPTKKELNEYFHFVEEAKKRDHRKLGKQLELFMFSDEAPGMPFYLSNGQVIRNELEAFLRRLQGSFNYKEVKTPLMMNQRLWEQSGHWNHYKDNMYFSEVDQQHFALKPMNCPGHMLIFKDRLRSYRDLPIRMAEFGQVHRHEFSGALNGLLRVRSFCQDDAHIFVTPHQIEDEITSALQLIDDVYRTFGFNYEIELSTRPEKSMGDPGLWDQAEDALKNVLDKLGYDFRVNEGDGAFYGPKIDIHIKDALNRSHQCATVQLDFQMPEKFDLEYINEHNEKVRPVVIHRAVFGSLDRFLGILIEHYGGAFPTWLAPVQVKILPVSNDVHKEYSDQVMNRLKQEGIRVEKDSREEKLGYKIREAQINKTPYILVLGDKEVEKGCVNVRSYGDKATKEMGLDEFVTSIKQTIANKDLLE				NA	NA	NA	NA	NA
AK012_03401	255			hypothetical protein	ATGATCATTAAAGTTGTACTCTTAACGCTGCTTCTTTTCCAAGTCTTATATTTATCGGTAAGAGTTAAGAATGATAAATATATCAAACGTTATATACCTGCCTTTATTGTAAGTGTAGTTACAGCTTGGTCTATTTATAAAACCTTTACTCTGAATGGATTTAGTGGTATTAACTCAGCTATTTTTTCTACTATAGGATTATTCACTTTATTTGTCTTTACCAAGCATCCTCCGTTTTCAAAAGAAAAAATGTAA	MIIKVVLLTLLLFQVLYLSVRVKNDKYIKRYIPAFIVSVVTAWSIYKTFTLNGFSGINSAIFSTIGLFTLFVFTKHPPFSKEKM				NA	NA	NA	NA	NA
AK012_03402	180			hypothetical protein	GTGCTGGGTTATATTAGGTTTTTCTTCTTCATGATTATTGGTCTTTTACTATGGAATGCATTGTTTTCATCCAATAACCAGTCAACCATTGAAATAATAGGGATCTCTTTTTTTTCAACATTATTTAAATGGTTGTATGAGGAATTTTTCGAAGGATCAGAAGGTACTGAGGGAAACTAA	MLGYIRFFFFMIIGLLLWNALFSSNNQSTIEIIGISFFSTLFKWLYEEFFEGSEGTEGN				NA	NA	NA	NA	NA
AK012_03403	399			hypothetical protein	GTGAGTGAAAAAATCTTTAACATCATTGGATGGGGTCTGCTTCTGGGAATGGGTGCTTCATGGATAGGGTTTGGTTATTCGAATTGGTATTTATTATTACTTCCAATGGCGTACATTTCTTTTTCAATTAACGATGGCAGCATTAAAAATATAGGAAAGATAAAACAGATGTCTATACTGCAAGTGATTCTAATATTGTTTGCATATGTTCTGTCAATTGCTATCGTTTATGGTCTTTTGCAATTATCCAGTTACTTGATAAGCGACATATTACACTTAACTGGAGGTATAAAGACCTTTAGTGTGATTATTGCAGTGATTCTTTCTCTGTATCCTGTTAAGTTCACTTTTGGTAGAGTTGTTTATAAACTAACAAATGGGTTGAGCGCTGCAAGGTAA	MSEKIFNIIGWGLLLGMGASWIGFGYSNWYLLLLPMAYISFSINDGSIKNIGKIKQMSILQVILILFAYVLSIAIVYGLLQLSSYLISDILHLTGGIKTFSVIIAVILSLYPVKFTFGRVVYKLTNGLSAAR				NA	NA	NA	NA	NA
AK012_03404	516			hypothetical protein	ATGGCGATCAAAGTCAACTACACTACAAATTCTGAAGATATAGATCCATATATACAACACATCTTAAAACATAGTAAAAATGAACAAATAAGGAAAATTATAACTATTATATTAGGGGTCGTTATCCTTGTATCCTACGATTTAGTTTATAAAGCCATGAGGCCCGGGGTATATATAGGTCCTCTTAGTTACATTTTTTTGTATACGTTTGGTTTAGGGCTCTATTTAGTTGGAACGTTCATTCTCATAAAAAAACGGAATAAAAAAGCACTATTAAAGAAAAAGGATGTTTTTTTTGGAGATAAGGAAGTCTATTTAACTGGTGACCTTATTCAAGTAATTCATAAAGGAGAAACTAAAGAAGAGTGTTCTTGGAATGAATTGAAATTTTTTGTAAGGAACGACCCTTACATCTACTTACATACGAATAAATATATCCATCAAGTTAAGTCAAACAGCAAAATAGAAGAAGTACAATACTACCTAAAACAAAAAGGTACTAGAAAAAAGATGTAG	MAIKVNYTTNSEDIDPYIQHILKHSKNEQIRKIITIILGVVILVSYDLVYKAMRPGVYIGPLSYIFLYTFGLGLYLVGTFILIKKRNKKALLKKKDVFFGDKEVYLTGDLIQVIHKGETKEECSWNELKFFVRNDPYIYLHTNKYIHQVKSNSKIEEVQYYLKQKGTRKKM				NA	NA	NA	NA	NA
AK012_03405	237			hypothetical protein	ATGGACGATATGCTCAGATGCCCGGAGTGTGGGAATGAGTTGAAGGGTGGATATATTTTCTCTCCACGAAGAATTTGCTGGTCAGACTCGCCTGATTCAATTTTTGCTGATTTTGGGAGTGAAATATTAATAGAAGATGCATGGTTGAAAGTCAAAAAAACACCGGCCTCAAGGTGTGAAGAATGTAATTTAGTTCTTTTCAAACACAAGGAAAACAACGAAGAGAATCAGCTGTAA	MDDMLRCPECGNELKGGYIFSPRRICWSDSPDSIFADFGSEILIEDAWLKVKKTPASRCEECNLVLFKHKENNEENQL				NA	NA	NA	NA	NA
AK012_03406	300			hypothetical protein	ATGTCTTTTATAATTCCCGGGCTAATCTCTGCAATCGTCATTGCAGTCTTATCTATTAGATATAAAAATAAAGACAAACAAGGCAAAGGGTTTAAACTAAATTATTTTGCACTTTCGTACAGAAGGAAATTGGTAAGGACGGTCACCCTTGCACCGGTGGTCATTTTCTCAGCCCTTATTCTTTACTACTCTTCAGCAATTACGACGATGACGAAAATGGTGTTTACCCTAGTATTGCTTATGGTTTTTGTTTTTCAAGTTATCTATAACTTTTATATGTGGAAGAAAAAAGAAGCGTGA	MSFIIPGLISAIVIAVLSIRYKNKDKQGKGFKLNYFALSYRRKLVRTVTLAPVVIFSALILYYSSAITTMTKMVFTLVLLMVFVFQVIYNFYMWKKKEA				NA	NA	NA	NA	NA
AK012_03407	216			hypothetical protein	ATGGATTTTTTTGATTGGAAAATAGAGATGCAGGAAAGCTTCAAGACATATGTAGACCTTGAGAACAAAAGGGTTGCTGTTCTTACAGCTGAAGATGATGACATTCATATGGTTTTGGAATTCGATGATTATGATCATTTAGTTATGCACCCCAGGTGGAACATCAGCATTACTATTCTAGGAGAAAAACATTTAAAAATAACTACGAATTCATAA	MDFFDWKIEMQESFKTYVDLENKRVAVLTAEDDDIHMVLEFDDYDHLVMHPRWNISITILGEKHLKITTNS				NA	NA	NA	NA	NA
AK012_03408	1191	nupX_2	COG1972	Putative nucleoside permease NupX	ATGCAGATCATCACCGGACTGCTCTCACTCGCAGCCCTTATTGGACTGGGCTGGCTGTTGAGCAGCAGCAGAAAAAACATCAAATGGCGGACTATCTTGACCGGCTTATTGATTGAAGGACTATTCGTTTATACGATGCTGAACATTTCTATCGGCCAAGCCGCTTTGAAAAAGGCCGCTCTTTTCATCCAGCACATCATCGATTACAGCTCGGCCGGCATTGATTTTGTCTTTGGGCCACTGCTTGTGGAAACAGGCGTCAACTTTGTATTTGCCATCCATGTCCTAGGGGCCCTGATTTTTATTTCCGCCCTGATTTCCGGATTATATTACCTCCGTATCCTGCCGGTCATTGTGAAGTTCCTAGGCACGATCGTAGGTAAGCTTTTGAAAACCTCAAAGGTGGAGTCATTCAGCGCGGTTGGGAATACCTTCTTAGGAGTTGCCGAAGCTCCTCTACTGGTGAAGCCGTACTTGAGCCGCATGACCAAATCGGAAACCTTTGCGATCATGGTCGGCGGAACGGCTTCTGCCAGCGGGGCGATCCTCGTTGGCTATGTAGAAATGGGCATTGATTTAACGTATCTATTGATCGCCATCTTCAGCGTGCCCTTCGTTTCTCTTGTCATGGCCAAGCTGTTGGAGCCGGAAACAGAAATCTCCGAGTTGAATGAAACCGTCTCTCTCGAAAAGTCCGGGCAGGCGAATGTCTTTGAAGCCATCTCCGACGGTGCGGTCAATGGAGTAAAGCTTGCGGCCAGCATCGGTGGTTTGATGATCGCTTTTATCAGTGTCATTGCCCTGGTCAATGAGGGATTGGGATTGATCGGAACAGATCTGTCCACCATTTTCGGCTATCTCTTTTATCCCTTTGCTGTGATGATCGGCATTCCTTTTTCCGATGCCTTCCAGGCGGCTTCCTTAATTGGAACAAAGCTTGCGGCGAATGAGTTTCTCGCCTACTCCAACCTGAAGCAGATGGCCGGGGATCTTTCTCCGATGACGATGGCCGTCATGTCTGTGGCCCTCTGCAATTTTGCCAACTTATCCTCGATCGGGCAGTTGATTGTCGGACTCGGATCACTGGCTCCGGAGAAGCAGTCCCAGGTAGCCCGTCTCGGTTTGAGAGCGATCATCGGCGGCACACTTGCCAGCTTCATCACCGCTGTATTCGTATCTATGTTTCTTTGA	MQIITGLLSLAALIGLGWLLSSSRKNIKWRTILTGLLIEGLFVYTMLNISIGQAALKKAALFIQHIIDYSSAGIDFVFGPLLVETGVNFVFAIHVLGALIFISALISGLYYLRILPVIVKFLGTIVGKLLKTSKVESFSAVGNTFLGVAEAPLLVKPYLSRMTKSETFAIMVGGTASASGAILVGYVEMGIDLTYLLIAIFSVPFVSLVMAKLLEPETEISELNETVSLEKSGQANVFEAISDGAVNGVKLAASIGGLMIAFISVIALVNEGLGLIGTDLSTIFGYLFYPFAVMIGIPFSDAFQAASLIGTKLAANEFLAYSNLKQMAGDLSPMTMAVMSVALCNFANLSSIGQLIVGLGSLAPEKQSQVARLGLRAIIGGTLASFITAVFVSMFL	PGPT0021070_1593	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
AK012_03410	237			hypothetical protein	GTGAAAAATAAGCTCCATGATCACACAGAGCTTGACCGTAAGCTCGCCGAATACGATGTCGACGTTCCCGATATCCCACGAAAAAAGAGCCGTTGGAGCCGCCTGGTTCACTACCTTGCGTCACCAGCCGATAACCCTGTTGATTTTCTCGCACCTGCCCGGTCGAGCTTTTCTTTGACGTCCGTCATTCCAGTCCTCGCGGCCGCTTCCCTGCCTATCACCATCATCTTTTTCTAG	MKNKLHDHTELDRKLAEYDVDVPDIPRKKSRWSRLVHYLASPADNPVDFLAPARSSFSLTSVIPVLAAASLPITIIFF				NA	NA	NA	NA	NA
AK012_03411	522	sigM	COG1595	ECF RNA polymerase sigma factor SigM	GTGAACCACCCGGAAGCCGTCATGGAGGACTGGCAGCAGGGAAATGAAGAAGCTTTCGAACAGATCTATACCGCCTTTCACAGGCCGGTGTATTCGTTTATTTACCGCTATACGAGAGACGAACCATTCAGCGTTGATATCGTTCAGGATACGTTTCTCCGCCTGCAGACACATAAGCACCAGTATGTGTCTTCCAAGGGGACTTTGAAATCCTACCTGTTTCAGATCGCCTACCGGTTGATGGTCAACAAATTAAACCGGAGAAAAAAGTGGCGGAGCCTGCTTCCCTTTTTAGTGCCCTCCCAGGAGAGTACGCTCCATCCTGCAGAAAAGCTGACGGTCCAGCAGGCGGTCAGCGGCCTTCCGGATCTGCAGCGTGCCGTGATTCTTCTCTACTACTACCATGACCTTCCTCAAAAAGAAATCGCCGGCATCCTTCACATCCCCTTAGGGACTGTGAAATCGAGACAGCACCAAGCCATTCAAACATTAAAAACGCACCTGGAGGTGGAAGACCTGTGA	MNHPEAVMEDWQQGNEEAFEQIYTAFHRPVYSFIYRYTRDEPFSVDIVQDTFLRLQTHKHQYVSSKGTLKSYLFQIAYRLMVNKLNRRKKWRSLLPFLVPSQESTLHPAEKLTVQQAVSGLPDLQRAVILLYYYHDLPQKEIAGILHIPLGTVKSRQHQAIQTLKTHLEVEDL	PGPT0014960_11539	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK012_03412	369			hypothetical protein	ATGGGCATCGGTTTTATCATTTCAATGGGGGTCATGTTTGTCTGGATGGGGGTCATTTTGGCTGTGACGATACCAATGGAGAAAAAGTACATCATCCGCAGCAAAGGAAAGATTGATTATAAGAAAACGGAGCTTTTTCTACGCTGGAATGTTTTTGATACCTTAACCGTCATTCTTGCCGTATATACGATTATCTGCGTACAGGTTCTCAACCTGATGATCAGCTCAGGCGCCACCGTTGAAAATCCATATGTCCAGTTTTTCACGAACCAGGCACAGGCATGGACGATTGTCGTTATCCTGTATTTATTCAGTCGTTTAAGCCGCACATTAAAGTCTGTACACGCCCGTATGGGAGAAGCTTCGTGA	MGIGFIISMGVMFVWMGVILAVTIPMEKKYIIRSKGKIDYKKTELFLRWNVFDTLTVILAVYTIICVQVLNLMISSGATVENPYVQFFTNQAQAWTIVVILYLFSRLSRTLKSVHARMGEAS				NA	NA	NA	NA	NA
AK012_03413	999	mccF		Microcin C7 self-immunity protein MccF	ATGGCATTGAGACGCTTACGTAAAGGGGATACCATTGGTGTTTTTACACCGTCAGCACCTGCGACGGTTACAGCTGAGAAGCGCTTCACCAGGGCAAAGGCTTTTCTTGAAGGAAAAGGATTTCATATCAAAGAAGGCACCCGGACAGGTAAACAGGAAAGCTACCGTTCCGGTACACCAAAAGAACGGGCGGAGGAATTGAATGAGCTGCTGAGGGACCCGGAAGTCACGATGATCATGTCGGCGATTGGTGGAACGAACTCCAACAGTCTGCTCCCGTACATTGATTATGAAGCCTTTCAAAGGAATCCGAAGCTTATCGTGGGCTATTCGGATGCTACCGCTGTTTTGTTGAGCCTGTATGCCAAAACAGAGAGGACGACCTATTACGGCCCGGGCTTGATTCCGTCGTTCGGGGAATTTCCACCGCTTGTCGGAGATACGTATGATTATTTCAAGAGCTATTTCATGGAGAAGCCGGGCCTTCCTTACACCGTTCCAAAGCCCGCCTACTGGTCGGATGAACCGGTGAACTGGCTGGAAAAGACGACAGAAAAGACCCTGTATGAGAACGACTGGGTGACCGGTCGGGAAGGTCAGGCGGAAGGGCGTGTCATCGGCGGCAATGTCAATGCCATGTACGGATTTATCGGGACGGAATACTTCCCGGAGATTCATGAAGGAGATGTTTTATTGTTGGAAGACTGCCGGAAAACCGCAGCCGTGGTCGAGAAGAATTTTGCCATGCTGAAAGCACACGGTCTTTTCCATAAAGCCGGTGGTATTCTGATCGGGAAGCATGAGTTGTATGATGATCTCGGTACAGGCAAGCGTCCGCTCGATCTCCTGTTGGAACAGCTGGATGGTCTTGAAATCCCGGTGCTGGCTGAGTTTGATACGTGTCACACACACCCGATGCATCCACTTGCTATCGGTAAAAAGGTAAGGATGGACGCCGGCAGAAAAACCGTTCATAGTATAGAAGAATGGATAGAGTAG	MALRRLRKGDTIGVFTPSAPATVTAEKRFTRAKAFLEGKGFHIKEGTRTGKQESYRSGTPKERAEELNELLRDPEVTMIMSAIGGTNSNSLLPYIDYEAFQRNPKLIVGYSDATAVLLSLYAKTERTTYYGPGLIPSFGEFPPLVGDTYDYFKSYFMEKPGLPYTVPKPAYWSDEPVNWLEKTTEKTLYENDWVTGREGQAEGRVIGGNVNAMYGFIGTEYFPEIHEGDVLLLEDCRKTAAVVEKNFAMLKAHGLFHKAGGILIGKHELYDDLGTGKRPLDLLLEQLDGLEIPVLAEFDTCHTHPMHPLAIGKKVRMDAGRKTVHSIEEWIE	PGPT0023815_816	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
AK012_03414	321			hypothetical protein	ATGAGAGAATACAGACAGGCTTTTTTCAAGCAGGACTTTGTGATGTCCTATGAAACAACCAAATCCATGGAGTTCGAAAAACGCGGCACAGGTGAAGTCATCTATTTGTTGATGAATAAGGAGATTACGATTGTCAGGGACCCGGACAGAGTGGAGGATACGGAGAATTGGAAACCCGTCCATAACACATCGCTCCGCCGATTCCGTAAAAAAACGAACCAGGGACAGACGCCTACATCCTATGGATACCCGGTCACATTCAGCAGCGCAGAGGAATTGAGTACATACCTGCAGAAGCAGATCCAACAGCCTGAACGGTAA	MREYRQAFFKQDFVMSYETTKSMEFEKRGTGEVIYLLMNKEITIVRDPDRVEDTENWKPVHNTSLRRFRKKTNQGQTPTSYGYPVTFSSAEELSTYLQKQIQQPER				NA	NA	NA	NA	NA
AK012_03415	708			hypothetical protein	ATGCGACACGATATACAACCGAATGAGCGCGCTTTTTCAACGAAGGAAGTGGCTGAAGAAGTAGGGATCGCAACAACTACCGTTCGTCGTTATGGGCAGATTCTTGAACGGAACGGATACGAGTTCTTTAAAGATGGCGACAGGCGGATTTTCGTCGCGTCTGATATAGAAGCTTTGAAGGAAATCCGCGACACGGACCTTCCTCAGGATGAACAGGCAAGGATTGTCGTGGAGGAGCAGAAAGAGAAATTGAAGGGATACACAGAAACGGCCCTGACTGTATCAGATACATATTCCTCAGCTCTTGGAAACCCTGGACAGACCGAGGAACTTCTGAAGCTGCTGGCCGGTGAACTTGCCGCCTCAAGGGAAATGAACGTCCAGTTGAAGCAGGATATGGCCGAGTTGAAAAATACGGTCTCCCGTCTCCAGCAGGATCACCACGTCATCAGTTCAGGTGTCGGAAACTTTTCACAGAAAACTCATACGAAGCTTGACCGGATGATGGAGGATCAGAAGGAGCAGTATGAAGAGATGCTGGAGCGGGAGAAAGAGAAAAGCGACCTGTTGAAAGAAGAGCTCCGGGCGATGCGCGCCGAACAGAAGCAGGAGTGGCAGGCACAGAATGATTTCAACCGCCGTCTGGAAGTCACCGTAAAAAATACCAAAGGTCCCTGGGAAAAGCTGTTTTCCCTGTTTCGGAAATAA	MRHDIQPNERAFSTKEVAEEVGIATTTVRRYGQILERNGYEFFKDGDRRIFVASDIEALKEIRDTDLPQDEQARIVVEEQKEKLKGYTETALTVSDTYSSALGNPGQTEELLKLLAGELAASREMNVQLKQDMAELKNTVSRLQQDHHVISSGVGNFSQKTHTKLDRMMEDQKEQYEEMLEREKEKSDLLKEELRAMRAEQKQEWQAQNDFNRRLEVTVKNTKGPWEKLFSLFRK				NA	NA	NA	NA	NA
AK012_03416	444			hypothetical protein	ATGATGTTTACATTTGTCCCTCTGACCATGGATCTGGTCGATGAGATTGATGCGTGGGATTACGAAGGGTTCGTTGAGCAGGTGGTGATGACTCCTTATTATGAGTCCCATAGTGAGGAGGGGAAGCTGAAGGGGCCCGGCGGCTGTGAGGGGTATGCCGCTCTTTTGGATGGAAAAACAGCGGGGCTGTTCGAGTTTACTCCAAAGAAGGCGTCTCTTGAAATCGGACTCGCTCTGAAGCCTGAGTGGATCGGGCGGGGGTTTGGAGTGACCTTCGTCCGTGACGGCATCGCTTTTGGTCTTCAACAGTATGAGGGGATCCGGTCGGTGACCCTTACTGTTTCCGTGGAGAATGAACCTGCCGTGACGGTCTATAAGAAAGCGGGTTTTTCCATTGTACGTGAACAGGCCGGGGAAGTGGAGATGGAAAAGTTTATAAAATAA	MMFTFVPLTMDLVDEIDAWDYEGFVEQVVMTPYYESHSEEGKLKGPGGCEGYAALLDGKTAGLFEFTPKKASLEIGLALKPEWIGRGFGVTFVRDGIAFGLQQYEGIRSVTLTVSVENEPAVTVYKKAGFSIVREQAGEVEMEKFIK				NA	NA	NA	NA	NA
AK012_03417	1254	codA	COG0402	Cytosine deaminase	ATGATTATCACCAACGCACGACTAAGGGGTAAAGATGGAACTTGGAATATAAAAATAGAGGGTGAGCGGATCACATTCATTACGCAGGAAGCTGTAAATGGCCACGGCGAAGAAATAGTGGATGCAGGTGGAAATCTTGTCCTGCCTCCTTTTGTAGAACCACATATTCACCTGGATACGACGATGACAGCCGGTGATCCGGACTGGAACCACAGCGGAACGCTTTTTGAAGGGATTCAGCGCTGGTCGGAAAGAAAAGAAAAATTGACGCATGAGGACGTCAAAACGCGCGCAGCACAGGCGCTCTCCATGCAGATTGCCAATGGCATCCAGCACGTGCGCACACACGTCGATGTAACGGACCCTGATCTGACAGCCTTGAAGGCGCTGCTTGAAGTGAAACAGGAAATGAAGGCTTACGTAGACCTTCAGCTGGTCGCTTTTCCACAGGAAGGCATCCTTTCGTATCAAAACGGAGCCGAACTCCTTGAAGAAGCGCTTCGGTTAGGCGCGGACGGTGTCGGCGCCATCCCTCACTTTGAGTTCACAAGAGAATACGGCGTGCAGTCGTTGAAAATCGCGTTTGACCTCGCCGAGCAATACGACCGGTTCGTCGATGTCCACTGTGACGAAATCGATGATGAACAATCCCGATTCGTAGAAGTCGTTGCGACAGAAGCCCTTGAGCGTGGCATCGGGCATAAAGTTACGGCAAGTCATACAACAGCGATGGGCTCCTACAATGACGCCTATACATCGAAACTGTTTCGTGTGCTGAAGCTTTCCGGCATTCACATCGTGGCTAATCCACTCGTCAACATTCACCTGCAGGGACGTTTCGACAGCTATCCAAAACGCCGCGGGCTGACAAGAATCAAGGAGCTCCAGGAAGCAGGCATCAACGTCGGCTTTGGACATGATGATATTTTCGATCCGTGGTATCCGCTCGGAACAGGGAATATGCTTCAAGTGCTCCATATGGGGCTGCACCTTTCCCACTTGATGGGCTATGACCAGATTGTACAGGGGATGGATTTTATCACAGCGAACAGCGCCGCCATTCTCAACCTTGATGAAGCGTACGGCATTGAGGCCGGAAGGCCGGCAAACCTGATCGTTTTGGATGCAGCGGATGAATATGAAGCCATCCGCCACCAGGCCGCTGTCCACTGGTCGATCCGCAAAGGAAAAATCATCGCCGAAACGAAGCCGAAAGAAACCAAGCTCCACCTGCACGAACAGCAGATGCAGTAA	MIITNARLRGKDGTWNIKIEGERITFITQEAVNGHGEEIVDAGGNLVLPPFVEPHIHLDTTMTAGDPDWNHSGTLFEGIQRWSERKEKLTHEDVKTRAAQALSMQIANGIQHVRTHVDVTDPDLTALKALLEVKQEMKAYVDLQLVAFPQEGILSYQNGAELLEEALRLGADGVGAIPHFEFTREYGVQSLKIAFDLAEQYDRFVDVHCDEIDDEQSRFVEVVATEALERGIGHKVTASHTTAMGSYNDAYTSKLFRVLKLSGIHIVANPLVNIHLQGRFDSYPKRRGLTRIKELQEAGINVGFGHDDIFDPWYPLGTGNMLQVLHMGLHLSHLMGYDQIVQGMDFITANSAAILNLDEAYGIEAGRPANLIVLDAADEYEAIRHQAAVHWSIRKGKIIAETKPKETKLHLHEQQMQ	PGPT0021315_1376	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021315-codA-K01485	NA	NA
AK012_03418	1245	codB	COG1457	Cytosine permease	ATGAAGGATTATGCATTAACCGCCGTCCCGCAGTCGGAGCGGCAGGGGTTTTGGAAAATGCTGATGGTCATGATGGGATTGACATTTTTCTCCGCGAGCATGTGGTCCGGGGGGACACTCGGAACAGGGTTGACCTTTCCGCAATTCTTAATGATCGTCCTGCTTGGCAATCTGATTTTAGGGGCCTACACCGGTGGTCTTGCTTACATTTCCGCCAAAACCGGACTTTCCACCCACCTGTTGAGCCGCTGGGCGTTTGGAGAAAAAGGTTCATACCTGGCTTCGTTCCTGCTTGGCGGCACCCAGGTCGGCTGGTTCGGTGTAGGGGTAGTCATGTTCGCCCTGCCCGTTCATCAGGCGACGGGCATTGATATGATCTGGCTGATTGGCGGGGCCGGCCTTCTTATGACAGCCACCGCCTTTTTCGGAATGAAAGCCCTCATGCTGCTCAGCTTTATCGCTGTGCCGATGATTACGGTGCTCGGAAGCTTTTCTGTCTTCCAGGCGACGTCGGATATGGGAGGGGTGGGCAGTCTTTGGGAGCATACACCGGAGAAATCGATTGGACTTGCAGCTGCCTTAACCATCTGTATCGGGTCTTTCATCAGTGCAGGGACATTGACACCTGATTTCACCCGGTTCGCAAAGACGAAGACATCGGCTGTCTTCAGTACCGTGACTGCCTTTTTCATCGGAAACTCACTCATGTTCCTGTTCGGGGCTGTTGGAGCAATGGCTACGGGCAAGGCGGACATTTCTGAAGTCATGTTCACGCAGGGGCTGATCATTCCGGCCATCCTCGTTCTCGGTTTGAACATCTGGACAACCAACGACAACGCGCTCTACGCCTCCGGTCTCGGATTTTCAAGCATCACGAAAATCACGAAAAATAAAGTGGTCATTTTCAACGGAATCGTCGGGACACTGCTTGCGATGTGGCTTTATAACAACTTCGTCAGCTGGCTGACAGTCCTTGGAACAGCCCTGCCGCCGATTGGCGCGGTGCTGCTTGCCGATTACTTCTTACACTACCGGAAGCAGGCGTACCAGGATACACCACTGAAAAACTTCCGCTGGCAGGGACTCGCTGCCTGGGCAGCCGGCGTGGGTGCCTCCCAGTTCGTGCCGGGACTCGCTCCTGTCAATGCTCTTGCCGGAGCAGCGCTTGTCTACATCCTGCTTACAAAAATTCCCCGGAGAGCTGAAGCATCTGAAATCAATGAAGAAAAAGGAGAAGTTATATGA	MKDYALTAVPQSERQGFWKMLMVMMGLTFFSASMWSGGTLGTGLTFPQFLMIVLLGNLILGAYTGGLAYISAKTGLSTHLLSRWAFGEKGSYLASFLLGGTQVGWFGVGVVMFALPVHQATGIDMIWLIGGAGLLMTATAFFGMKALMLLSFIAVPMITVLGSFSVFQATSDMGGVGSLWEHTPEKSIGLAAALTICIGSFISAGTLTPDFTRFAKTKTSAVFSTVTAFFIGNSLMFLFGAVGAMATGKADISEVMFTQGLIIPAILVLGLNIWTTNDNALYASGLGFSSITKITKNKVVIFNGIVGTLLAMWLYNNFVSWLTVLGTALPPIGAVLLADYFLHYRKQAYQDTPLKNFRWQGLAAWAAGVGASQFVPGLAPVNALAGAALVYILLTKIPRRAEASEINEEKGEVI				NA	NA	NA	NA	NA
AK012_03420	1047			hypothetical protein	ATGTCTTCGATGTCTGAGCGTTTCTACATGTTTGCGGAACAGGAGTGTTCCGGGTCGAGTCCTTTGTATCAGCACCTGGCTGAACAGATGGCTGGAGACGACGATATTCTTCAGCTGGCAGAACAGGCACCGGACGGTCAGCCCGTTCCAAACCTGCTGTTCGGGGCTGTCCACTACCTTTTAATGGGGGAACGGGACCATCCGCTCCAGGCGTTTTACCCAACATTCACGAATCACCCGAAGCCGAAGGAACGAGCGTATCCCGTTTTCCGGAGTTATGTACTTACGAATAAACTGGCGGTTCAAAAGCTCATGCGGGAAAAGCGTGTGCAGACGAATGAAGTGCGTCGCTGTGCCTATCTCTATCCGGTTTTCTGTCACATTGCCGTCCGTACGAACCGTCCGCTCGGCCTGATCGAAATCGGCACGAGTGCCGGCCTTCAGCTGCTTGTTGACCGGTATTCGTACAGTTATGGCAGGGATACGATCTATGGCTGTGCCCGCTCCCAGCTGCATCTTAATTCAGAGGTCCGTCACGGGAAGCTGCCGGGTTTTATGCATCAGCCGCCAGTCATTAAGGAAAAGATCGGAGTGGATCTGCACGTTTGTGATGTGACCCATGAAGAGACGATGCTGTGGTTGAAGGCGCTTATCTGGCCGGAACATAACCAAAGGCGGGAGCATCTGGAGCAGGCCGTGCAGGAACTGCGCCTGAACCCGCCGGATTTCTACGAGGGGGATGGGGTGGAGGTTCTCCCTGAACTGGCTCGACGGATACCGGAAGATCAGGCGTTGTGCATTTTCCACACCCATGTGGCCAATCAGATGCCGGTTGAAGTCAAGACACGACTTCATGACCGCCTCGTGGAAATCAGCGGAACCCGACAGGTGTTTCATATCTATAACCATATGAATGACTCCGATCTTCATATGGATGTGTATGAGGACGGGAGAATTGAAACCCATACGATTGGAGCGACGGACGGCCACGGCCGCTGGTTCGACTGGTATCTTGAAGAACCCGTTCCAGAGAGGGCAGAACAATGA	MSSMSERFYMFAEQECSGSSPLYQHLAEQMAGDDDILQLAEQAPDGQPVPNLLFGAVHYLLMGERDHPLQAFYPTFTNHPKPKERAYPVFRSYVLTNKLAVQKLMREKRVQTNEVRRCAYLYPVFCHIAVRTNRPLGLIEIGTSAGLQLLVDRYSYSYGRDTIYGCARSQLHLNSEVRHGKLPGFMHQPPVIKEKIGVDLHVCDVTHEETMLWLKALIWPEHNQRREHLEQAVQELRLNPPDFYEGDGVEVLPELARRIPEDQALCIFHTHVANQMPVEVKTRLHDRLVEISGTRQVFHIYNHMNDSDLHMDVYEDGRIETHTIGATDGHGRWFDWYLEEPVPERAEQ				NA	NA	NA	NA	NA
AK012_03421	531			hypothetical protein	ATGACAACGACCTTTGAAAAACTAACCGTTCCCACCGAGGAGCACGTGGCAGCCTTCAACCGGTGGAACAACGATGATGAGCTGATTCCGCTGATCCGTCCCAATAAAAACGCAGAAGAGCTGTCCGGCAGAAGTACTATGACCCTCGCGGACTTGGAAAAACGCCTGAGCGACCATACGATTTTTCTGATTTATGAAGATGGAAAACTGGTTGGCGAAATGAATTACATGATTGACCCTCCTCACCTTTTCAAAAAAGCACCCCGGTCGGCGTGGATCGGCATTACAATCGGTGAACCTGAAGGGCGTGGGAAGGGGATTGGTGTTCTCGCCATGGCTCATATAGAGGAAAAAATCAAGGAAGCCGGGTTGGAGAGGATTGAACTCGGCGTGTTTGAGTACAACACAAGAGCCCGGCGGCTGTACGAAAAAATGGGCTACAGCGAACTGGCGCAGCAGGCTGATTTCACGTACTGGCAGGGTCGGATGTGGGCAGACGTGCGGATGGAGAAACAGATCTTTCATTTATAG	MTTTFEKLTVPTEEHVAAFNRWNNDDELIPLIRPNKNAEELSGRSTMTLADLEKRLSDHTIFLIYEDGKLVGEMNYMIDPPHLFKKAPRSAWIGITIGEPEGRGKGIGVLAMAHIEEKIKEAGLERIELGVFEYNTRARRLYEKMGYSELAQQADFTYWQGRMWADVRMEKQIFHL				NA	NA	NA	NA	NA
AK012_03422	183			hypothetical protein	ATGAAAAAGAAAACGAAAGCCATCCTTATAGCGCTCGGAGGCTTGGTTATGCTTGGGTTTATTGTTTTTGAAATCGTTCAAGGTGACATTGGATATACGACGTTCAAAAACATCGGGGTTGTGGCTGTTATTGCTTACGTTGTGTACACGTTTTTTTCAAAGAAACAGAAGAGTGAGATATAG	MKKKTKAILIALGGLVMLGFIVFEIVQGDIGYTTFKNIGVVAVIAYVVYTFFSKKQKSEI				NA	NA	NA	NA	NA
AK012_03423	234			hypothetical protein	GTGGAACATGTAGTAGCCATTTGGAAAGATGAGAAGAATGGGCTCGGCATTATTGAGGTGAAAGATCAAGTGTTTGGTTCATCATTTCACCCGGTCTGTTATCAGAAAGAAAGCGAAGGAAAATACTCGATTATCAATGGGTTGTGGTATACGACCTATCACGGTGCGCGCCAGTATTTCCGTGCGAAAACAAACCCATACAGTGGTTACGGACGTATGCGCAAAATCCAGTAG	MEHVVAIWKDEKNGLGIIEVKDQVFGSSFHPVCYQKESEGKYSIINGLWYTTYHGARQYFRAKTNPYSGYGRMRKIQ				NA	NA	NA	NA	NA
AK012_03424	1533			hypothetical protein	ATGGAAAATGTGGTGTCCATCCCGTCTGTTCAGGAAGACCGGCCGACGCTGAATATCCACGGTGTCAAACATACGTACATGAAACCGAGAATTACAGCATTCATTCCTGCTCACAATGAAGAAAAGTCCATCCGTGACTGCCTGGCCGGCCTCGGTGATCAGACGCTGCCCAAAGACGTGGAACTTGATGTTATTGTCATCGCCGACAACTGCACAGACAGGACAGAGGAAGTTGCTCTCGCTGCAGGGGAAGAATTCAATCTCAACTTGAAAGTGTTGACGACTGTCAATAACAAGCAGCGGAAAGTAGGCGCGTTAAACGCTGCCTGGAAGAGCATCTACGGTGACCCTCTGGACCTCTACGATAAGAAACCGAGCGTTTATGAGGAATTTTACAAAACCTCGGTCAAGGCGGTCCTCGGGATGGATGCCGACAGCCGGCTTGCTCCAGATGCCCTGACACAGCTGTGGGAAGGCCTGATGAGCGCCCGAAACATCGGCGGGGTGATGGCGAAGTATACGATGCGCATGCCGAAAAAGAAGAGCCTGATCTCTAAAGATGATGTTCATTACGAGGAAATGATTGCAAGTGGTCAGTACGGCGGTCCGATGACGCGCTGGTGGACCCACCAGCAGAAGCAGGATATGGCCAGCTGGCTGCTTGATCTGCAGTACCGGGGCGGGAGCACCTATGTTCTCGGAGGACAGGCGACACTGTTCCGCCCGGAAGCTCTCCAGGACATTATTGAGGAAAACAAACTGGATGGCCCATGGCAGGATGAAAGTGATGTAGAGGATATGCTGTTAACCTGGCAGATCCAGAAAAGGTGGAAAACACTCATCAGTCCTAAAGCCCGCTGTTTCGTAGATTCGATGCGTTCCTACCACACCTTCCGTCAGCAGCGGAACAAGTGGCAGGGAGGGACGGTGGAGCTTCTGACCAACAGTGACATCGGCGTAAAATCGAAACACCGTTCGAAAATCTGGCGGTCCCAGATGAAAACATTCATTGATTTGATGATCCGCCTGTTGTTCCTCAGCCTTCTGACCGTATCGATAGCGACTGATCAATTCTTCTGGTCATGGATCTGGTTGACGCCGATTATTCTTGCGTCCGTCCTGAATACGATCCTTGCCTTGAAAACACCGATGCACCGACCCATTGATGTGATTCTCGCCGGGTTGTTGATCAGTCCTGAAATGTATATGTGGGTCAACTTTGTGACCTTCTCCCACGTCTGGCTCGGCAAGCTTTCCGCCCACAAAAAAGATGGATGGGCGATCCAGTACAGTGCCGAAAGAGGAGCAACGCGGAGTAAACTGGCCGAAGGACTGGTCGGCATCGCAGCCGCTGCTGGAGTGCTCGTCTATCTGGTTTTCCATTACCGTGACTTCCTGACAAGTACCCCTGTCCAGGAAGCGGTGTACCCTTATCTCGACACAGGCTGGGTGATCTTAACCGCGCTTACCATTTATACCTCTTTGCTGATGGCGTACCAAATCTGGACACTTCGTGGCAGACATACAGCGTGA	MENVVSIPSVQEDRPTLNIHGVKHTYMKPRITAFIPAHNEEKSIRDCLAGLGDQTLPKDVELDVIVIADNCTDRTEEVALAAGEEFNLNLKVLTTVNNKQRKVGALNAAWKSIYGDPLDLYDKKPSVYEEFYKTSVKAVLGMDADSRLAPDALTQLWEGLMSARNIGGVMAKYTMRMPKKKSLISKDDVHYEEMIASGQYGGPMTRWWTHQQKQDMASWLLDLQYRGGSTYVLGGQATLFRPEALQDIIEENKLDGPWQDESDVEDMLLTWQIQKRWKTLISPKARCFVDSMRSYHTFRQQRNKWQGGTVELLTNSDIGVKSKHRSKIWRSQMKTFIDLMIRLLFLSLLTVSIATDQFFWSWIWLTPIILASVLNTILALKTPMHRPIDVILAGLLISPEMYMWVNFVTFSHVWLGKLSAHKKDGWAIQYSAERGATRSKLAEGLVGIAAAAGVLVYLVFHYRDFLTSTPVQEAVYPYLDTGWVILTALTIYTSLLMAYQIWTLRGRHTA	PGPT0023485_34	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
AK012_03425	900	gtaB_3	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGAAAGTAAAAAAAGCGATCATTCCAGCGGCTGGTTTTGGAACGAGGTTTCTTCCGGCTACGAAGGCCCAGCCGAAGGAAATGCTCCCGATTGTCGACAAGCCGACGATTCAATACATTGTAGAGGAAGCTATTGAAGCGGGTATCGAAGAAATCATCATCGTGACCGGGAAGGGGAAGCGGTCGATCGAGGATCATTTCGACACCGCCTTTGAATTGGAGAAAACACTTCTGGATAAAGGAAAACAGCAGCTGCTTGACCAGGTCCGCTACACATCGAACCTTGCTGATATTCATTACATCCGGCAGAAGGAGCAGAAAGGTCTCGGCCATGCGGTCTGGTGTGCCCGCCATTTCATTGGGGACGAGCCGTTTGCTGTTCTGCTCGGTGATGATATCGTAAGAAGTCCACGGCCGGGGATCCGCCAGTTGATGGATATCTATGAAGAAACCCAGTCGCCTGTCATCGGTGTCAAAGCTGTTCCGATGGAAGACACGCACAAGTACGGTGTTATCCAGCCGGCTGCCCAGCAGGGGCGCTGGTATGATGTGGAAGGCTTTGTTGAAAAGCCGAAGCCGGGGACAGCTCCTTCCCATATGGCGATTATCGGGCGCTACGTCCTGACACCTGAAATCTTTGCCTTTCTGGATCGTCAGGAAATCGGAGCCGGTGGTGAAATCCAGCTGACCGACGCGATCGACCGTCTGAATGCCATCCACTCCGTCTACGCGTGGGAGATAGAAGGACGCCGCTATGATGTAGGAGAAAAACTGGGATTTGTCCAGACCACCATCGATCTTGCTCTCGAGCGGGAAGAGCTGCAGGAGGATCTCTATCATTATATGAAAAAGGTTGTCGCAGACTATGAAGCGATCCGCAGAAAAACACAGATCTCTTAA	MKVKKAIIPAAGFGTRFLPATKAQPKEMLPIVDKPTIQYIVEEAIEAGIEEIIIVTGKGKRSIEDHFDTAFELEKTLLDKGKQQLLDQVRYTSNLADIHYIRQKEQKGLGHAVWCARHFIGDEPFAVLLGDDIVRSPRPGIRQLMDIYEETQSPVIGVKAVPMEDTHKYGVIQPAAQQGRWYDVEGFVEKPKPGTAPSHMAIIGRYVLTPEIFAFLDRQEIGAGGEIQLTDAIDRLNAIHSVYAWEIEGRRYDVGEKLGFVQTTIDLALEREELQEDLYHYMKKVVADYEAIRRKTQIS	PGPT0014875_3111	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
AK012_03426	186			hypothetical protein	GTGATTGTCGGTCGGATTATTTTTGTTTTAGGATTGTTTTTTGTATGTTTTAGTGCGGTCGCTGTGATTGTGATGCTTTTTTCAGGCGGGGGAGGATCCGTCCTTCCGTGGTTTGGCTTGTTGAATGGATTCACGGCCATGGGCGTCGGCGACCTTGTAATCAAAGCGAATCAGATGGTGGAGTAG	MIVGRIIFVLGLFFVCFSAVAVIVMLFSGGGGSVLPWFGLLNGFTAMGVGDLVIKANQMVE				NA	NA	NA	NA	NA
AK012_03427	177			hypothetical protein	ATGATGGGTGGATTTATCGTTCTTGCAGGCGCAGGTTTGTTGTTATATGTCGTCTTTACGGTAAGTTATATAGATAAAAAGATGAGCAAGCAGGAGAGGGATATAGAGGAAGTGAAATCTCTTTTAAAAGTAGTGATAAAGGAGCAGCGCAGTAAGGAGAATACAGGAAAGGAATGA	MMGGFIVLAGAGLLLYVVFTVSYIDKKMSKQERDIEEVKSLLKVVIKEQRSKENTGKE				NA	NA	NA	NA	NA
AK012_03428	360			hypothetical protein	ATGAATGCTGTGAATCTATGGATCTTTATCGTTGGCGGGATTGTACTCGTCATTGCCATGGATTTTGTGTTGAAAAATCTGCTGGGGATAAAGAAGACCCAGTATGTCCATGAAATATCAGGGAAAAAAGCTTACCAATGGATGAGAGGCGTGGCGGCCGTTGTTTTTGTAAGTCTGCTCTGGCTTGTGCTCTCGCTGGATTCCACCTTTTATCTAAGGGTATTCTGGGTCAGCTTTCTTGTCATCATGACAGGCATTGAAGTTTGGTTTGAATACCGATACATCAAAGCATCCAGGCAGTTTATCAAAACGCTCGTCCTCGGGGCGGTATTGATCACTTTTGCCCTGTTCATCCATTAA	MNAVNLWIFIVGGIVLVIAMDFVLKNLLGIKKTQYVHEISGKKAYQWMRGVAAVVFVSLLWLVLSLDSTFYLRVFWVSFLVIMTGIEVWFEYRYIKASRQFIKTLVLGAVLITFALFIH				NA	NA	NA	NA	NA
AK012_03429	1269	mtaD	COG0402	5-methylthioadenosine/S-adenosylhomocysteine deaminase	ATGAAGCTTGAAAATGCCGTATTTTTGAATGCGGAAGGATCTTTGGAAAAAGGTGGATTCCGTATTGTGAACGGGAATATTACCTTTCAACCCGGGGCTCAAGGAGAAGAAGTGATGGACTGTGAGGAATATATCATTGTGCCTGGTTTAGTGAATGCCCACTTTCACAGCTATTCCCCTCTAGCAGCCGGGCTGATGAAAGAGATGGCTATCCAGGACTGGGCTGGTGATTCGGGCCAGGGCCGTATCCAGCAGCTGTTTTTTGATTATCTGGATCACCATATGTCCAGGGAGCTTTTCTATAAGGTGGCCCAGAAGAGTTACTTCGAAATGGTGAAAGGCGGCGTCACCTTCGTGAGTGACTCCGACCCCGGCCCATCCCCGTGGCAGCTGAGTGAAGCATTGAACGACCTGGGAATCCGGGGAATCGTGGATACCTATGAGGAAATCAGCGGGTATCATAACAAAATGAACGGACGGGTGATGTTCGGCACGCATCTCCTGGAAGAGGAAGACCTGTCCGAAGAGGAGCTGCGGAAGCTGCAAGACGAGAAAGAAGCGTACAAGGCCGTCCGGATGACCCACTGCATGGAAAACAAGTGGCGCCATGACCTCGTTTACGAGGCGTTCGGCCGGTCCAGCGTCGAGCTCTATCAGGAGCGCGGCCTGCTGGATAAGGAAACCGTTCTTTTTCACGGCGTCTATCTGTCAGAGGAAGATATCGGGATGATTGCGGATCAGGAAAGTTCCGTTGTGCACTGTCCGTTATCCAATCTCGACACCGGAGCAGGAGTGGCGGATGTTCCTTTGATGCTTGAAAAAGGGGTGAACGTCTCTCTCGGCACCGATTTTGTCCACACGAATATGTGGCATCTCATGAGGATGGTGTATTACGGCTTGAAAATCCATCAGCCGGTTGAACGCTTTTCCGCCGCGGATGTATGGAAGATGGCTACAGTGAATGGCGCGGCAGCGTATGGACTGCAGGACAGGCTGGGGCGGATCGAAGAGGGATGTGAAGCGGATCTCGTCTTTATCAAAAAGAACGAATATACAGGCGCCCCTTTTGAAGATGAAGGTTTTTCCAATGCCCTGAACAACCTGATGTTTCAGACGAGGGAAGCGGATGTGCACCACGTCATGGTGGCAGGGGACTGGGTGATGAAAGACAGCAGGATGACGAAAGTCGATGAACAGGAAATCAACGAGGCGTTCTCCAAAGCGCTGAAGGGGTTTCAGGAATATGTGAATGAGCGGAGGGAGGGCTGA	MKLENAVFLNAEGSLEKGGFRIVNGNITFQPGAQGEEVMDCEEYIIVPGLVNAHFHSYSPLAAGLMKEMAIQDWAGDSGQGRIQQLFFDYLDHHMSRELFYKVAQKSYFEMVKGGVTFVSDSDPGPSPWQLSEALNDLGIRGIVDTYEEISGYHNKMNGRVMFGTHLLEEEDLSEEELRKLQDEKEAYKAVRMTHCMENKWRHDLVYEAFGRSSVELYQERGLLDKETVLFHGVYLSEEDIGMIADQESSVVHCPLSNLDTGAGVADVPLMLEKGVNVSLGTDFVHTNMWHLMRMVYYGLKIHQPVERFSAADVWKMATVNGAAAYGLQDRLGRIEEGCEADLVFIKKNEYTGAPFEDEGFSNALNNLMFQTREADVHHVMVAGDWVMKDSRMTKVDEQEINEAFSKALKGFQEYVNERREG	PGPT0023665_2425	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	OTHER_COLONIZATION_RELATED_PROTEINS	COLONIZATION-HOST_INVASION_FACTORS	HOST_INVASION-SAM|QUEUOSINE|LIPID_METABOLISM,PGPT0023665-mtaD-K12960	NA	NA
AK012_03430	1521	gph		Phosphoglycolate phosphatase	ATGCAGGCGGTTCTGTTTGATCTGGATGGAACGCTGCTTGACCGGGACGCTTCTGTCCGGGCGTTCATCACCCGGCAGCATGAGCGGTGGCAGGAGAAGCTCGGCTTTATTCCTATAGAAACGTACATGCGGAGGTTTTTAGAACTGGATGACCGCGGATATGTGTGGAAGGACGTGGTCTATCAGCAGCTGATCGACGAATTTCATATCAAAGGGGTCACGTGGGAAGAACTGTTGGACGACTATTTGACACACTTTCCAGATTCCTGTGTCCCTTTTCCTTTTCTTATCGAAACCTTGGAAGCTTTGAAGAACACGGGATGGAAGCTCGGCGTCATTACGAATGGCCGTGATCCGTTCCAGATGAATAACATGAAAGCGCTCGGTATCGATGGTTTCATGGATGACATCCTCATTTCTGAATCCGAAGGCATCAAGAAGCCCGATCCAATGATTTTTCAAAGGGCGGCCCGGAGACTGGGGGTCCCTGTGGAAGCCTGTGTTTTTATTGGGGACCACCCGGAAAAAGATGTCCAGGCGGCTGCCGCAGCAGGCATGAAAGCGGTTTGGAAGAAAGACTCGCATTGGAAAACAGCACCAGCGGACGCCGTGATCACTGGCTTAGAGGACCTATCCGGAGTCCTTGAGAACCTGCAGGAAAAAGAAAAGCTGAATCGGCTGAAAGAGTGCTGTCCCGATCTGGTGCTGCACCGGTTTACAAAGAATGAGCTTGGTCAGAACAATGATGTGTACGTGGCCGATGGTACGTTCGTGTTCCGCTTTCCGAAATATAAGGAAGGAATCCGCAAGCTCATCAAGGAAACGCATGTCCTTGACCATGTGCAAGGGAAGCTTCCCCTGACCATTCCCGCCCCCATATACAGATCTCTGGATGATAGGGAACCGGGGGACGTCTTTACGGGCGCCCGTTGGATCGAAGGAGAGCCGCTGTGGCCGGAGTCTATGAAAAAGCTGTCGGAGTCTTCTCAGAGGAAGCTCGCAGGACAGCTTTCCTTCTTCCTGCAGACGCTGCATGCCATTCCTCGCGGACAGCTGAATGTAATAGAGGCGTCCGCTGAACAGATCAAAGATGATCTTAAGACGCTTTACCATCGTATCCGGGGTCAATTGTTCCCTTATATGACCCCCATGGCCCGTCGTCATGTGAATGACACCTTTGAACGCTTTTTTGAGAAAGAAGCTTTTACGTTTTCGACGACACTTATCCATGGGGATTTCGGTCCGTCCAATCTGCTTTGGGACAGAAAAGAAGAGTGCATTACCGGGGTCATTGACTTCGGAGAAGCAGGCATCGGCGATCCAGCTTATGACTTTGCAGGTCTTCTGGCCGGCTACGGCGAAGCCTTTGTTAAGGAAGGCTTATCTCAGTATCCGGAAGGGGAGCGTTTGTTTGAGCGGGCCCTTTTTTATAAGCAGACGTTCGCTCTGAAAGAAGCTCTTCATGGGTTGGATCATGGAGATACCGAGGCATTTGCAAGCGGAATGGCCGGGTATCGGTAA	MQAVLFDLDGTLLDRDASVRAFITRQHERWQEKLGFIPIETYMRRFLELDDRGYVWKDVVYQQLIDEFHIKGVTWEELLDDYLTHFPDSCVPFPFLIETLEALKNTGWKLGVITNGRDPFQMNNMKALGIDGFMDDILISESEGIKKPDPMIFQRAARRLGVPVEACVFIGDHPEKDVQAAAAAGMKAVWKKDSHWKTAPADAVITGLEDLSGVLENLQEKEKLNRLKECCPDLVLHRFTKNELGQNNDVYVADGTFVFRFPKYKEGIRKLIKETHVLDHVQGKLPLTIPAPIYRSLDDREPGDVFTGARWIEGEPLWPESMKKLSESSQRKLAGQLSFFLQTLHAIPRGQLNVIEASAEQIKDDLKTLYHRIRGQLFPYMTPMARRHVNDTFERFFEKEAFTFSTTLIHGDFGPSNLLWDRKEECITGVIDFGEAGIGDPAYDFAGLLAGYGEAFVKEGLSQYPEGERLFERALFYKQTFALKEALHGLDHGDTEAFASGMAGYR				NA	NA	NA	NA	NA
AK012_03431	381			hypothetical protein	ATGATCAACTACCATAACCGTACGTTCGTATCCGTTGAAAACAGTGCAGGGGGAGAAGTATCATCCAAAACACAATTTACGTATTATCAGGAGGGCAGCATCCTTTATGCTGATTATGCAGGTGGGGATATTATCAAAGGCCGATTGATCGGCATTGTCCATGAGGATGACACGCTGGAGTTCAGATACAACCATATCAACACCGATCATGAAATCAGAGGTGGGAAGTGCCGGTCTGTTCCACACATTAATGAAGACGACCAGCTGGAGCTGCATGAAGAGTGGCAGTGGATGGATGAGGAACAAACGACAGGGACCTCTGTCATTAAAGAGGTACAGTCCAGAGAACTGCACCGCACATTTAAAGAGAAGAACTTGTAA	MINYHNRTFVSVENSAGGEVSSKTQFTYYQEGSILYADYAGGDIIKGRLIGIVHEDDTLEFRYNHINTDHEIRGGKCRSVPHINEDDQLELHEEWQWMDEEQTTGTSVIKEVQSRELHRTFKEKNL	PGPT0020285_2	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_SERINE_DEGRADATION,PGPT0020285-thrB2-K02204	NA	NA
AK012_03432	870			hypothetical protein	ATGGACATTACAAATAAAGTCGCTGTTGTCGCAGGAGCCACTAGAGGCGCAGGAAGAGCCATGGCCGTCAAGCTCGGAGAAACCGGGGCTGTCGTTTACGTAACCGGACGGACGACAAGAGAAGAACAGTCTCCGATGGAGCGGAAGGAGACGATTGAAGAAAGTGCAGAACTTGTTACGAAGGCCGGCGGGACAGGTATCCCTGTGAAAGTCGACCATACAAAGGAAGAAGAGGTTCAAAGGCTTTTTCATAAGATTGAAGAGGAACAGGGCGGAAAGCTGGATATCCTCGTCAATGACATCTGGGGCGGCGACCCGCTGACTGAATGGGGCAGAGATATCGCAGAGCATAATCTGACTAAAGGGCTGCAGATGCTGAATCAGGCTGTCCAGGCTCACATCATTACAGCTCATTATGCAGTCCCCCTTATGAAAAAGAACCGCTCCGGCTTGATAGTAGAAATAACCGATGGCACCGACGACAAGTACCGCGGCAGCTTCTATTACAGCCTGGCCAAAATCTCAAACATTCACATGGCATCAGCGATGGCGGAGGACTTGAAAGCCTTTGGTATTACCGCTGTTTCGTTGACACCGGGATTCCTCCGTTCAGAAGCGATGTTGGAACACTTTGGTGTTACAGAGGAAAACTGGAAGGAGGGCGCCGAGGTCGACCCCCACTTCATCGCCTCCGAATCACCGGCTTACATTGGAGAAGCGTTGAAACACCTCGTACTTGATCCGGATGCTGCTCGTTTCAATGGACAAGCCTTGAGCACGTGGGGCCTTTCCGACATGTATGGATTTAAGGATGCGGACGGCACCCAGCCGCACTGGGGACGGTATTTTGAAAAGTATGTAAAGGAATAA	MDITNKVAVVAGATRGAGRAMAVKLGETGAVVYVTGRTTREEQSPMERKETIEESAELVTKAGGTGIPVKVDHTKEEEVQRLFHKIEEEQGGKLDILVNDIWGGDPLTEWGRDIAEHNLTKGLQMLNQAVQAHIITAHYAVPLMKKNRSGLIVEITDGTDDKYRGSFYYSLAKISNIHMASAMAEDLKAFGITAVSLTPGFLRSEAMLEHFGVTEENWKEGAEVDPHFIASESPAYIGEALKHLVLDPDAARFNGQALSTWGLSDMYGFKDADGTQPHWGRYFEKYVKE				NA	NA	NA	NA	NA
AK012_03433	963			hypothetical protein	ATGGAAGCGGAACGATTGATCAAAATCCTTCTGCTTCTCCAGCATGGCCAGACAGTGACGACCCGCCGGATGGCTGAGGAGCTGGAAGTATCGGAACGGACGATTCACCGTGATATGGAATCCTTGAGTGCCGCAGGACTTCCGGTTTACGCAGAAAAAGGGCGCGCAGGGGGATGGAGACTCGTCGATCATTGGAAACAGAAGCTCAGCTGGCTGAAGGAGCAGGAGATGCTGGCCTTATTCCTTCCACCCGCAGGAAAAATCATACAGGATCTGCATATGGATGATGGCGGGGAGGACCGGATACAGAAGCTCCTGTTATCGCTGCCGGAGCAGTCAAAAAAGACGGCCTGGAATGTGTGGTCCCGCATTTATGTGGACATGGGCACCTGGAAAGATGGTCAGGAGGAAGCAGGCCCGGAACTGGATGTTTTGAAAAAGGCAGTCATGGAGGATAGAAAAGTTCAGATGATCTACGAAAAAGCAGATGGAACGGTGACAGAGGGAACCATCTGCCCGCTCGGTCTGATTGCAAAGGCGAACCAATGGTACGTAGCTGCGTTGAATGATAAGGGAGAATACCGAAGCTATAAACACGCGCGGGTCAAAATGGTAACCAAAACAGAAGAAACGTTCGAAAGACCTGTGGACTTTCATCTGGCCTCCTATTGGGAAAAATCGAAAAAGCAGTTCACCCGTAATCTTCCGACGTACACGGCAACCCTCCGTGTTTCGCCGGAAGCGTATCCGCGCCTTCGATTTACCGGGCGTTTTGTAACGCTGGATGGGAAAGGACGTGCAGGGGCTGATGGCTGGGTGGACCAGTCCTTGTCGTTCAATACAGAAGAAGAAGCCATCGGTTTTGTGACAGGTTTCGGAAGCCAGGTGAAGGTGATAAAGCCTGAAGCGCTCATTGAAAAGATTAAAGCAAGAGCACAGGGCATTCTGGACCTTTATAAATGA	MEAERLIKILLLLQHGQTVTTRRMAEELEVSERTIHRDMESLSAAGLPVYAEKGRAGGWRLVDHWKQKLSWLKEQEMLALFLPPAGKIIQDLHMDDGGEDRIQKLLLSLPEQSKKTAWNVWSRIYVDMGTWKDGQEEAGPELDVLKKAVMEDRKVQMIYEKADGTVTEGTICPLGLIAKANQWYVAALNDKGEYRSYKHARVKMVTKTEETFERPVDFHLASYWEKSKKQFTRNLPTYTATLRVSPEAYPRLRFTGRFVTLDGKGRAGADGWVDQSLSFNTEEEAIGFVTGFGSQVKVIKPEALIEKIKARAQGILDLYK				NA	NA	NA	NA	NA
AK012_03434	1098	ddlA	COG1181	D-alanine--D-alanine ligase A	ATGGGGAAAACTAAAGTAGGCCTGCTGTTCGGTGGGAAATCCTCGGAACATGAAGTATCGCTGCAGTCAGCCAAAAACATTATGGAAGCGGTGGATCATGAACGGTATGAAGTCACCTTGATCGGCATTGATAAGCAGGGAGAGTGGCATTTAAGCAGTCCGGACGAATACTTAATGAATGAAGACCATCCGGATAAAATCGCGCTCCATAAATCCAACAAAAACGTCGCAGTCGTCCCGGGGCGGGAGAGGGATCAAATGATTCCGGTCACAGGATCAGAAGCATTAGACCAGCTGGATGTCATCTTTCCGATTCTCCACGGTCCGCTCGGAGAAGACGGCAGTGTACAGGGAATGCTCCGGATGGCTAATCTTCCTTACGTAGGCCCGAATGTACTCAGCTCCGCCGTATGCATGGATAAAGACATAACCAAGAAACTCCTGCAATCCGCCGGGTTTCAGGTCGCAGACTGGTTCACCGTGAAGCGGTCGGCGTCAAATGCTCCGTCCTTTGAAGAAGGGAAGAACAAACTTGGTGTTCCTTTCTTCATTAAACCGGCGAATCAAGGATCCTCGGTCGGTGTCAGCAAGATCAGGACTGAAGCAGAATACAAAGAAGGCTTGGAAAAAGCACTGCAGTATGACCACAAGGTAATGATTGAAGCCTTCGTGGAAGGCAGGGAAATCGAGTGTGCCGTGCTTGGAAATGACCATCCCGCCGCTTCCACCGCTGGAGAAGTACTGCCCAACAGTGATTTCTATTCCTATGAAACGAAATATATTGATGAAAACGGAGCGTCACTGCAAATCCCCGCTGACTTGGATGAGAAGGTTATGGAGAATATCCGCACCCAGTCCGTACAGGCGTTTGAAGCTCTGGAATGCCAGGGCCTTGCACGTGTGGACTTCTTTCTGAAAGAAAACGGGGCACTGATCATCAATGAAATCAACACCCTGCCCGGCTTTACAAAAATCAGTATGTATCCAAAACTGTGGGAAGCGAGCGGCATTTCTTATCCGCAGCTGATTGAGAAGCTTCTGGATCTCGCCATCGAACGGCATCAGCAGGATCAATCCTTGAAGAATACGGTCGACTGA	MGKTKVGLLFGGKSSEHEVSLQSAKNIMEAVDHERYEVTLIGIDKQGEWHLSSPDEYLMNEDHPDKIALHKSNKNVAVVPGRERDQMIPVTGSEALDQLDVIFPILHGPLGEDGSVQGMLRMANLPYVGPNVLSSAVCMDKDITKKLLQSAGFQVADWFTVKRSASNAPSFEEGKNKLGVPFFIKPANQGSSVGVSKIRTEAEYKEGLEKALQYDHKVMIEAFVEGREIECAVLGNDHPAASTAGEVLPNSDFYSYETKYIDENGASLQIPADLDEKVMENIRTQSVQAFEALECQGLARVDFFLKENGALIINEINTLPGFTKISMYPKLWEASGISYPQLIEKLLDLAIERHQQDQSLKNTVD	PGPT0020050_1221	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0020050-ddl-K01921	NA	NA
AK012_03435	177			hypothetical protein	ATGATGTTCCTTATTGAACGAACACGGAATGGAAAAGTGGAAACGTTAAAAGATTCAAGCAGCCATCTTACTAAGAAATTTACAACCCTCTGGGAAGCAGAAACGTTCTGCGCCAAACTAAACCGGGTCATTGATTCGGATAAACAGTGGGAAGTAAAAAAAAGCAGGTTTGCCTGA	MMFLIERTRNGKVETLKDSSSHLTKKFTTLWEAETFCAKLNRVIDSDKQWEVKKSRFA				NA	NA	NA	NA	NA
AK012_03436	285			hypothetical protein	ATGTTTTACCATTTCTATGTGTTTTTTACGTTTATAGGAAATAGGGATGGGTATATTCTCTATGTAACAAAAATAAATAAAAAGGGGTTTTTTGAAATGGCAGAGCGTTATAAGACTGGAGAAAAAGCACCTGAAAACGGCACGTACGAATTTGATGGTTTGGTAAACGGCGGTAACGATGCGGACGTTACGGAAGATGAAAAACATATTGAACTAAGCAACGGAGATACATTCCCACCAACCCGCTCCAATAAGGACGCTGCTTATTGGAAGAAAGCCAAGTAA	MFYHFYVFFTFIGNRDGYILYVTKINKKGFFEMAERYKTGEKAPENGTYEFDGLVNGGNDADVTEDEKHIELSNGDTFPPTRSNKDAAYWKKAK				NA	NA	NA	NA	NA
AK012_03437	1455			hypothetical protein	ATGTTGTGTAAGAAAAAACCATGCTGCTGCACCTGCTATTTCATAACAAGGCCAAAGTCTTTTCCTGTCACCTACAAATGTCCGCCTGCCCGTAAGTGTCACAGGAAGCCGCTTCCTTGTCGCAAAAAGAAAAAGAAGAAGGACTGCGACAAATATTGCCCTCCGTCCTATGTTTATAAAAAATTCAAACAGGAAGGGCAGACCCAGGTTCTTGGGGAGCAGGTGCAGAATCAGGCGCAGGCCCACGGGGATCAAGGCGGCCAATTCCAAGGCCCTCAGGAGCAGAATCTTGCTCAAGGGTACGGAGATCAAGGTGGCCAGACACAAGGTCCTCAGGAGCAGAGCCAGAGTCAGGGCTATGGGGATATCGGTGGCCAGACGCAGGGTCCTCAGGAGCAGAACCAGAGTCAAGGCTACGGGGATATCGGTGGCCAGACGCAGGGTCCTCAAGAGCAGAACCAAACTCAGGGCTACGGAGATCAGGGCGGTCAGACGCAGGGCCCACAGGAACAGAATGTATCTCAAGGGTATGGGGATCAGGCTGGTCAGACGCAGGGACCGCAGGACCTTACCCAGAATCAGGGCTACGGAGACCAGGGCGGTCAAACCCAGGGGCCGCAGGAACAGAATGTATCTCAAGGATATGGGGATCAGGCTGGTCAGACCCAAGGGCCGCAGGAACTTACCCAGACCCAGGGCTATGGGGATCAAAGTGGTCAAAATCTGGAAGGTCATACAAATAATTCGCCACTGAATAATGAGCAGACCATTGATACTTCCGTCAGTGGAGTAACTGTGAATGTCACCACAACTTGTGAGGACGATAAAGATCGTGGATGTTATGACTACGGCTGCCGTGGAAAGAAGAAATCGAATGGAAAGTCACGCAGTAAAGAGTGTGACTGCTGCACAAAGAATTTATCGGACCTGTTGGAAGACATCCGTACAACCCAGCAGACAGACCCAGCCGGCAATCCGATTTCCATTTATTTAACAGCACCTGAAGGAGATCCAATCGAGAATCAGCAGATTTTTAACGTGAATGGGTGCGCGACGGTTACGTATATTGAAGCTGGACAGACGAGCGCTGTACCGAATGCTACATCACAACTGTGTAAAGTGGCTGGAATCCAAGCGGATGACACATCAGCTGATGTGTTTGCACTCTTAACAACATTGTCCAATTCGTGTGAGGAGGAATACGGGTCTTCCTGTGGATGTGAAAATTGCGCGAATGGTATAGGAGAGGATTTGGCATGTACCACCAGGTTCGGCATACAGATTAATCTGAATGTCGAGGGCCAGGCTGCACCCATCCCCGATCTATTTGTACAATCCATCTGCGGCTGCTTAGGGTTTTTCGTCGACGATTTGATTAATCCAACGGTTATATATGTGTTTACGCTATGTTCAGTAACTGGATATAATGTTCTATCCCAAACATTGGGGTCATAA	MLCKKKPCCCTCYFITRPKSFPVTYKCPPARKCHRKPLPCRKKKKKKDCDKYCPPSYVYKKFKQEGQTQVLGEQVQNQAQAHGDQGGQFQGPQEQNLAQGYGDQGGQTQGPQEQSQSQGYGDIGGQTQGPQEQNQSQGYGDIGGQTQGPQEQNQTQGYGDQGGQTQGPQEQNVSQGYGDQAGQTQGPQDLTQNQGYGDQGGQTQGPQEQNVSQGYGDQAGQTQGPQELTQTQGYGDQSGQNLEGHTNNSPLNNEQTIDTSVSGVTVNVTTTCEDDKDRGCYDYGCRGKKKSNGKSRSKECDCCTKNLSDLLEDIRTTQQTDPAGNPISIYLTAPEGDPIENQQIFNVNGCATVTYIEAGQTSAVPNATSQLCKVAGIQADDTSADVFALLTTLSNSCEEEYGSSCGCENCANGIGEDLACTTRFGIQINLNVEGQAAPIPDLFVQSICGCLGFFVDDLINPTVIYVFTLCSVTGYNVLSQTLGS				NA	NA	NA	NA	NA
AK012_03438	396			hypothetical protein	ATGAGTGGAAATCATACGAATAATGAAAATGGGTCCGATAAAAAGTCTCTTACTGAAAAACAAAAAAACCTCAGCAAAGAAATGAACACTATGATGAAGGGGTTTCAGTCAGATTTAAAAGCACTTCTCAAAGGTAAAAACGAGGAGTTGAAGAAGAAAATTAAAGAAGCTAGCGATTTGAAAGGTCACGTAACGAAGCAGGGAAAATCAAATAAAGTCACCATAAACGGCAAGGAGTACTCCATCCAGGAAACGTCAACAAGTGAAAATCCGGTGAGTAATGAGGAAATGGCCCGCCTGCTGGAGGATTTATCAGTGCAAGTGAAGCGACTAAATGAAACAATAGAAAAATTCACTTCTGAAACTGAACAGAGTAACGATTCAGGTACATCATAA	MSGNHTNNENGSDKKSLTEKQKNLSKEMNTMMKGFQSDLKALLKGKNEELKKKIKEASDLKGHVTKQGKSNKVTINGKEYSIQETSTSENPVSNEEMARLLEDLSVQVKRLNETIEKFTSETEQSNDSGTS				NA	NA	NA	NA	NA
AK012_03439	654	nfsB	COG0778	Oxygen-insensitive NAD(P)H nitroreductase	ATGGAACCGATTCAAGCATTAAATCAACGTTATTCAACAAAGGAATTTGATCAAGAGAAAAAAATCTCTGCCGTAGACATCGACAAAATCAAAGGGATGCTGCAGCTGGCTCCATCTTCTACGAACGTACAGCCGTGGCATTTCATCCTGGCAACGACAGAAGAAGGGAAGAAACGTGTAGCCAAAGGTGCAGAAGGGACGTTCAGCTTCAACGAACCAAAAGTGCTGGACGCTTCAGCGGTCGTTGTTTTTGCAACGAAAACAGACATCACGGATGAGTTCCTTCATCATATCAGTGAAAAGGAAGACCAGGACGGTCGTTTTGCTGAACAGAAATTCAAAGAGATGAACCATAACGTACGAAAAATGTTTGTGGATACCCACAAATTTGACCTGAAGGATCTATACCACTGGTCTGAAAAGCAGACGTACCTGAATGTAGGAAGCTTCCTGCTTGGTGTGGCTGAGCTTGGGATTGATGCTGTCCCAATGGAAGGTATGGATATGAAGGCATTGGATGAGGAATTCAACCTCCGTGAAAAAGGATTCACTTCCAGCGTGGTTGTTTCCCTGGGCTACCGTAAGTCAACGGACTTTAACGCGGAGCTGCCAAAATCCAGACTGGATCAGGCGGAAATCATCGAGGAAGTGTAA	MEPIQALNQRYSTKEFDQEKKISAVDIDKIKGMLQLAPSSTNVQPWHFILATTEEGKKRVAKGAEGTFSFNEPKVLDASAVVVFATKTDITDEFLHHISEKEDQDGRFAEQKFKEMNHNVRKMFVDTHKFDLKDLYHWSEKQTYLNVGSFLLGVAELGIDAVPMEGMDMKALDEEFNLREKGFTSSVVVSLGYRKSTDFNAELPKSRLDQAEIIEEV	PGPT0005925_223	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_DEGRADATION_OF_OTHER_NITRO-COMPOUNDS	XENOBIOTIC_NITRO-AROMATE_DEGRADATION,PGPT0005925-nfnB|nfsB-K10679	NA	NA
AK012_03440	474			hypothetical protein	ATGTCTAAACCTAAGCTGAAGATTATATTCCCGGTAACTTTGTTCATCCTCTCCTGGCTTTCAGCTTTCTTCCTCGGTAAGCGGACCTTTTTCAGGTTTTTACCGATCGCCAGCTTTACAAGTTTAATCATCAGCGTCCTCAGCGTTGTTTCGAATCAGAGGAAATGGTGGGAGAACAAAAATCCCCTCTCCCCCGGACCTGTGGATTACACGTATAAAATCGGACCGTTCTTTCTGGCAACCATTTGGATTTTCAAATTCACCTATGGGACATTCAAAAAGTATGTATGGCTGAATGCGCTCTTAAATATCATAAATGCCTATGCATTAGCTGAGATTTGGGAGCGGCTCGGGTTATTCAAATTGAAAAAAATCAATCATACGATCTGGTATTTCATCTGCGTTCATCTATCCATCATCATATACGGTGTACAATTTCTGATGGAAAAAGCTATTCGAAACAGCGGGAAATAA	MSKPKLKIIFPVTLFILSWLSAFFLGKRTFFRFLPIASFTSLIISVLSVVSNQRKWWENKNPLSPGPVDYTYKIGPFFLATIWIFKFTYGTFKKYVWLNALLNIINAYALAEIWERLGLFKLKKINHTIWYFICVHLSIIIYGVQFLMEKAIRNSGK				NA	NA	NA	NA	NA
AK012_03441	198	cspB_2	COG1278	Cold shock protein CspB	ATGTTACAAGGTAATGTGAAATGGTTTAACGAAAGCAAAGGTTTCGGTTTTATTGAAGTAGAAGGACAAGACGATGTATTCGTACACTTCTCTGCTATTCAAGGCGAAGGTTTCAAAACTCTAGAAGAAAACCAAACAGTAACGTTTGAAATCGTTGAAGGCGACCGCGGACCACAAGCGGCTAACGTTCAAAAGTAA	MLQGNVKWFNESKGFGFIEVEGQDDVFVHFSAIQGEGFKTLEENQTVTFEIVEGDRGPQAANVQK	PGPT0014675_9845	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	LOW_TEMPERATURE_TOLERANCE	COLD_SHOCK_PROTEINS,PGPT0014675-cspA-K03704	NA	NA
AK012_03442	549	mdaB	COG2249	NADPH:quinone oxidoreductase MdaB	ATGGAAAACATACTCATCATTAACGGACACGAATACTGGTCCTTTTCGCCAGGACGTTTAAACAAAACCCTCTTCGATGAAATCATCAACAGCCTGGAAGGTTCCTACAACATTAAAACAACGGTTATTCAAGACGGCTATGATGTTCAAGAAGAGCAGGAAAAATTCAAATGGGCAGACACCATTATTTTTCAAACCCCGATCAACTGGTTCAGTCTTCCAGGGGCTTTCAAAACATACATTGATGCCGTTTATGAACCTGGCGTGTTCTTCGGAGGTGGCGGTGAATACGGCCACGGTGGATTAATAGAAGGAAAATATATGTTCTCCACAACATGGAATGCTCCGGAATACGCCTTCAACGATACAGAGAAATTCTTTAAGGGACAGGACATTGAAGGAGCTCTCGATCACCTGCACAATATGAACAAATATGTAGGTCTTGAGCCGTTGAAGAGCTTCGGTGCGCATGATGTCATGAAGAATCCGGATATCGAAAAATATGTGTCGGAACTCCGTCAGCACTTAAAAGAAGTCTTTAACGTTTAA	MENILIINGHEYWSFSPGRLNKTLFDEIINSLEGSYNIKTTVIQDGYDVQEEQEKFKWADTIIFQTPINWFSLPGAFKTYIDAVYEPGVFFGGGGEYGHGGLIEGKYMFSTTWNAPEYAFNDTEKFFKGQDIEGALDHLHNMNKYVGLEPLKSFGAHDVMKNPDIEKYVSELRQHLKEVFNV	PGPT0023600_793	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
AK012_03443	318			hypothetical protein	ATGAAATTACCTTATCAACCACCTATTGAAACCATTCCTTTTACCAAAGTCCTTCACGCATTAAGTGAACCAAATAGAATTAAAATCATCCGTTGTTTAGATGAGAGCATTGAAAATAACTGCACAGCCTATTCCCTGAAATTAATGCTGCCGAAATCAACCGTGTCCCACCATATTAAAGTGTTGAGAGAAGCCGGATTGATTAAAGCGAGAATTGAAGGAAAGGAGCACATCTATTCTCTGCGAAGAGACGAAATTGAAGAAAAATTCCCTGGATTACTAAAGGCTGTAACAGAAGTCAAAGCAGAAGATATATAA	MKLPYQPPIETIPFTKVLHALSEPNRIKIIRCLDESIENNCTAYSLKLMLPKSTVSHHIKVLREAGLIKARIEGKEHIYSLRRDEIEEKFPGLLKAVTEVKAEDI				NA	NA	NA	NA	NA
AK012_03444	1521	abgT_3	COG2978	p-aminobenzoyl-glutamate transport protein	TTGGAAAACAAACGTAAAGGATTGTTTCAAAAAGGGTTGGATGTCATAGAGCGTGTGGGGAATAAGCTTCCGCATCCAATCACATTATTTGCTGTCCTGGCTCTGTTGGTTGTTCTCATTTCGGCAGTGGTTTCCAGCTTTGGTGTAAGCGTGGAGCATCCCGGGGAAGAGGGGAAAACGGTTGAAGTGACCAATCTGCTCAGCGCAGATGGCATTGAATACATCTTTTCCAGTATGACGGAAAACTTTATCGGGTTTGCTCCGCTGGGCGTTGTACTTGTGACGATGATCGGAATCGGGCTTGCGGAACGGACCGGACTGATCAGTGCCTGCCTTCGTGGATTCGTTTTATCCGTTCCAAGATCATTGATTACATACGGACTCGTTTTTGCGGGTGTCATGTCCAGTGTGGCATCAGATGCGGGGTATGTGGTACTTCCGCCGCTTGGGGCTGTGATTTTTGCCGCCCTTGGACGTCATCCGCTGGCCGGACTGGCTGCGGCTTTTGCAGGGGTATCCGCCGGCTTCAGTGCCAACTTGTTTTTATCTGCGACCGACCCCTTGCTGGGTGAATTGACGATAGATGCAGCAGCGATCATTGATCCGGCTTATGCAGACGGCATGAATATTGCAATGAACTATTACTTCATCATCGTATCTGTCTTCCTGCTGACCTTTGTCGGTGGAATCGTCACGGAAAAGATTGTCGAGCCGCGGCTCGGTGAGTATAAGGGACAGTTCCGTGAAGATTTGAAAGGACTCAATGCGATCGAAAAGAAAGGATTGAAATGGGCCGGCATTTCCATTGCTATTGCTGTTGTACTGACGGCCCTGTTGATTCTTCCGCCGGGCGCACCGCTCAGAGGTGAGGAAGGAGCAATTATCCAGTCGCCATTCATGAGTTCTCTTGTGCCGATCATTACGATTCTTTTCTTTATTCCGGGATTGTTTTACGGAATTGCCACGAAGGAAATCAAAAATGATAAGGACGTTGCCGAGCAGCTTTCGGATACGATGGCATCCATGGGCATGTTCATTGTGCTCGCCTTCACGGCCGGACAGTTTGTCGCGTACTTTTCAGAAACCAATATGGGACTCGTAATCGGGGTTTATGGAGCTGAACTGCTCGAATCCGCCAATCTTTCAGGGATCCCATTGATATTAGGGTTTATCCTTGTGGCTGCTGTCATCAACTTATTCATCGGCAGTGCCTCGGCGAAGTGGGCGATGATGGCCCCGGTGTTTGTACCAATCATGATGCAGCTCGGCTATTCCCCGGAGTTGACACAGATGGCTTACCGGGTAGCCGATTCAACGACGAATATTATCACCCCGCTGATGACCTACTTTGCCATCATTATCGCCTTTGCTCAGAAGTACGATAAGAAAATGGGAATCGGAACACTGATTTCCGTAATGTTCCCGTACTCCGTTTTCTTCCTTATTTCCTGGACGATCATGCTGATCATCTGGATGATGACAGGAGCGGACTTAGGGCCGGGATCACCGATTCATTATTAA	MENKRKGLFQKGLDVIERVGNKLPHPITLFAVLALLVVLISAVVSSFGVSVEHPGEEGKTVEVTNLLSADGIEYIFSSMTENFIGFAPLGVVLVTMIGIGLAERTGLISACLRGFVLSVPRSLITYGLVFAGVMSSVASDAGYVVLPPLGAVIFAALGRHPLAGLAAAFAGVSAGFSANLFLSATDPLLGELTIDAAAIIDPAYADGMNIAMNYYFIIVSVFLLTFVGGIVTEKIVEPRLGEYKGQFREDLKGLNAIEKKGLKWAGISIAIAVVLTALLILPPGAPLRGEEGAIIQSPFMSSLVPIITILFFIPGLFYGIATKEIKNDKDVAEQLSDTMASMGMFIVLAFTAGQFVAYFSETNMGLVIGVYGAELLESANLSGIPLILGFILVAAVINLFIGSASAKWAMMAPVFVPIMMQLGYSPELTQMAYRVADSTTNIITPLMTYFAIIIAFAQKYDKKMGIGTLISVMFPYSVFFLISWTIMLIIWMMTGADLGPGSPIHY				NA	NA	NA	NA	NA
AK012_03445	795			hypothetical protein	ATGCTTGATCATCATGGAGGGGTGGGAGGAGGACTGGTAGATGCGGGTATTATCTTTCTCTCTCTGCTTTTCATCGGCTTATACATAGGAGGCGGTATCCATTCCAGCCGTATCCGACACCTTCACCGCTGGCCTTTGTTTCGTTATGTCTCCTGGACGGCCGGGGTTTTTTGTGTGTGGGCAGCCACAGGCAGCCTCATCGCCGACCAGGCACACCATGACTTCCGTGCCCATATGCTGGGCCACCTTCTTTTAGGAATGCTCGGCCCACTACTGCTTGTTCTTGCCGCTCCTGTAACCCTGCTCCTTCGAACCCTGCCGGTATCAGCAGCTCGGAACATTTCCCGTCTGCTCAGGAGCTCTTATGCAGGGTTCATCACCCATCCAGTGACAGCCACTGTCCTGAATATCGGAGGGTTATGGCTGCTTTACACAACGCCCCTCTATAGCATGATGCATGGAAATCCCTGGATCCACGGCGCTGTTCACCTGCATGTTTTCCTGGCAGGCGTCCTTTTCACCACCTCGATGATTTATATCGACCCTGTCGCCCACCGTTTCAGCTTTTTGTACAGGACTGTGGTATTCATTTTCGCCCTTGCCGGACACGGAATTCTTTCTAAATATGTCTATGCATCTCCGCCGGATGGCGTCCCCCAGCTTCAGGCTGAGGAGGGAGCCAAGCTTATGTACTACGGCGGGGATATGATCGACGCTGCGATTATTTTCATTCTCTACCTGCACTGGTACAAAGCGGCGGCTCCGGAAAAGGGAAGAGAGCCCGCCCGCCATTAA	MLDHHGGVGGGLVDAGIIFLSLLFIGLYIGGGIHSSRIRHLHRWPLFRYVSWTAGVFCVWAATGSLIADQAHHDFRAHMLGHLLLGMLGPLLLVLAAPVTLLLRTLPVSAARNISRLLRSSYAGFITHPVTATVLNIGGLWLLYTTPLYSMMHGNPWIHGAVHLHVFLAGVLFTTSMIYIDPVAHRFSFLYRTVVFIFALAGHGILSKYVYASPPDGVPQLQAEEGAKLMYYGGDMIDAAIIFILYLHWYKAAAPEKGREPARH				NA	NA	NA	NA	NA
AK012_03446	480			hypothetical protein	ATGAGATCCAAACATATTCAGCCCAACCGCCACCATTATACAAAGCGAACGTTATGGTCCGGACTGCTTTTCGGGATTGGACTGGCCGCTTTTATTGATGAGACCATCTTTCACCAGCTGTTGAGATGGCATCACTTTTACGATCAATCCACCACAGACGTGGGGCTGATTTCTGACGGATTTTTTCATGCCTTCAGCTGGTTTGCCACGATTGGAGGTTTATTTTTATTTGCAGATGTCCGGCGCAGAAACGGCTTATCCCTCACCCGCTGGTGGGGAGGTGTACTGACAGGCGCAGGAGCCTTTCAATTGTATGATGGGATCATACAGCATAAGCTGATGGGACTGCATCAAATCCGTTATGTAGAAAATATTCTTCCCTATGACCTCGTATGGAATATATCGGCGGTTTTCATGATTCTAACAGGGGCGATTCTTCTTAAACGGAGCAGTGGAAAAGGTGAGATTTTCCATGCTTGA	MRSKHIQPNRHHYTKRTLWSGLLFGIGLAAFIDETIFHQLLRWHHFYDQSTTDVGLISDGFFHAFSWFATIGGLFLFADVRRRNGLSLTRWWGGVLTGAGAFQLYDGIIQHKLMGLHQIRYVENILPYDLVWNISAVFMILTGAILLKRSSGKGEIFHA				NA	NA	NA	NA	NA
AK012_03447	291			hypothetical protein	GTGAGGCGTACATACAGTTTATGGTCAGCAGGTTTAGGAGCTTCCGCGGTTCTGCTGATCGTCTTGTCCTATGGGACGGCTCCGGCTGACCCTGAGGGCTTTCGTGAAATGATGATACAAATCTTCTTTTTCGGAGCGCTGGCTTCCGCGGTGGCAAGCCTCGTGCTGAGCTTTCTGGCTTGGAAGAACAAAGAGAGAGGTTTCTTAAAATGGACGGCTCCACTTATTCTTTCAGGGACCCTGCTGGTGTTTCTCGCTCTATTCGTTTTCATGGTTATCAGTTTTTTGTAG	MRRTYSLWSAGLGASAVLLIVLSYGTAPADPEGFREMMIQIFFFGALASAVASLVLSFLAWKNKERGFLKWTAPLILSGTLLVFLALFVFMVISFL				NA	NA	NA	NA	NA
AK012_03448	261			hypothetical protein	ATGGAAAAAGAAAGGGTATACAGCAGGACTGCTGCATCCAGTCTGGTCATCAGCCTGCTCATATGGGTGCCGAATCTCATTTTTCAGGTAGCCAGCCCATTATGGATGCTGATTTTTATTATCGCTCCCATCGGGACTGCCTTTGCCGTGCTTGCGAAAAAATACTGGCTCGCAGCCGCGACTACGGTGATGTTTTTCAGTTTTTTCATTCTTATGGCGGGAGGCTATTGGATTCAGTCCATCACAGACGGGCACCCTTGA	MEKERVYSRTAASSLVISLLIWVPNLIFQVASPLWMLIFIIAPIGTAFAVLAKKYWLAAATTVMFFSFFILMAGGYWIQSITDGHP				NA	NA	NA	NA	NA
AK012_03449	1023			hypothetical protein	ATGGAACCAGAAAAGCGAATCATAGGGTTGGATCTATCACGGGCGTTAGCGATACTTGGGATGGTTCTTGTCAATTATAAAATATCTATGAATGCTGAAGGAAATGGTCCTGAATGGCTTATATTTGCTAGTAGCCTCCTTGAAGGGAGAGCTTCTGCTGTTTTTGTCCTTCTTGCGGGCCTTGGTCTTTCATTGATGACAAAAAAAGTTAGGGTACAGGATGCCCCCGCAAAAGAATATCGAACTTTAATATGGAGGCGTTCAGTATTTTTATTTGTTCTAGGCATGGGCTTGTATTTATTGCAATGGAGTGCTGATATTCTGCATTATTATGCCTTTTATCTGTTCGTGGCCTCGTTTTTTATAATGAGTTCCTCTAAAAAGCTGTTAGCTGCTGCTCTTGCAATAGTTCTAACATCAACGGTCTTACAACTCCTGCTGAATTATGAATATGGATGGGATGAGACGTTTCAATATTACGAAACATTCTGGACAATAAAAGGTTTTATAAGCCATCTGTTCTTTAACGGGTATCACCCGGTTTTTCCTTGGGTATCTTTCGTATTGATGGGGATGTGGTTAGGCAGGTTGGATTTACAAAACAATAAGCTTCGTAAAAAACTGCTGATTGTGTCATTCCTATCTTTCCTGGTAGTAGAAGTGTTGTCTTATTTTTTAATTAATCGTGCAGCATCCGTAGTAGGTTTTGAAGTAGCCGCATACTTATTTGACACGGAGCCAATGCCTCCAACCGTATTTTATATGGTTTCCAGCGCAAGCACTGCGATTATCATTATTCTATTGTGTATCCATATAACCGAGAAATTTAAAGGGAATCCTGTTATTCATGCCCTTGTACATACAGGGCAGCTTGCTCTGAGCATTTATGTAGGCCACTTCGTTGTTCTGGCTGCTTTTGTGATGTTTGGAGGCTCGGCGGAGAACACCCTTCCATATTACTACAATTTTTTCTGTAACCTTCTTTCTCCTCTCTATCATTCTATCTTCACGGTGGAGGAATAA	MEPEKRIIGLDLSRALAILGMVLVNYKISMNAEGNGPEWLIFASSLLEGRASAVFVLLAGLGLSLMTKKVRVQDAPAKEYRTLIWRRSVFLFVLGMGLYLLQWSADILHYYAFYLFVASFFIMSSSKKLLAAALAIVLTSTVLQLLLNYEYGWDETFQYYETFWTIKGFISHLFFNGYHPVFPWVSFVLMGMWLGRLDLQNNKLRKKLLIVSFLSFLVVEVLSYFLINRAASVVGFEVAAYLFDTEPMPPTVFYMVSSASTAIIIILLCIHITEKFKGNPVIHALVHTGQLALSIYVGHFVVLAAFVMFGGSAENTLPYYYNFFCNLLSPLYHSIFTVEE				NA	NA	NA	NA	NA
AK012_03450	1146			hypothetical protein	ATGGCGAAACGAATGGAAATACCTGGAATATCAATCATTGGTTTACTGGCTTTATCTATTATATTTGGTTGGTTCAGGTATGGCTACGGCTTATTATTCACTGAATTCAGGAGTTCCTTCGATTTATCGGCATCGCTGCTCGGAGTGATTTCCAGCCTGACGTTTATTACATTTTTGGCCGGGGCGCTTATGGTGATTCTTCTTGTATCGAAATTCGGAGCCCGGCCGATGATTCTGGGAGGAATCTTTGCGGCCTCCACCGGTCTTTTAACCGCAGCACTGACGGACAGCTGGCTCATTTTTGCGGCTTCCTGTCTGCTTGCCGGCTTCAGTCCTGGATTGACCTGGTCGTCCTTTTCAAAGAGTGTGACCCAGCACGTAGAAGAGAGGGTACAGGAGCGGACACTGGCGATAATCAGTACAGGATCTTCTGTCGGGTTGATTTTTATATCGCTTTTATATTTACTTCTGGACGGGGACTGGCGGATTATCTGGGGCGGGGGTGCCGTGTTCGGTTATCTGATTCTTCTATGGGCCTGGCGTTCTGTCCCTGAAAAAAATGCGGAAACGATTGGCGCTCCGATTAAGATGGCGGATCTGCGTCCTATTTTTACAAAAGAAGCCAATCCCTTTTATATCGCTTCTTTTCTCTTCGGCATAACTGAAGCAACCTACTGGACGTATGCGGCGGATTTCGTCCAGGAAAACTTCTCGATCACGAATGCCAATGCCGTCTTCTTTTTGATTACAGGTATCGCCGGTCTTGCCGGTTTATGTGCCGGAGACATGATCAGCAGACTGGGAATGCGGATGAGCTTTATCGTGACCATCCTTGTTTATTCGCTGAGTATCGCTGTCCTGTATCTATTTCAGGGCTGGATTCTGGTATGCATTTCGGGTGCTCTTTTCGGAGCTTCCTTTATGCTGTATGCAGCTTACCTGCCGATATGGAGTGCGAAGGTCTTTCCAAATATACCAGCTCAAGGCTTCAGTATCTGTATTGTCATTTTGAATGTCGGAGCGATTATCGGTCCGGCAGTTTTCGGCTGGATTCTGGCTTATTCCCCGTATGAGCTCATTTTTCTGCTGCTTGGAATCATCGGCTGCTTGAAAGTTTTTGCTCTTCCTGTCACAGAAAATGCATAG	MAKRMEIPGISIIGLLALSIIFGWFRYGYGLLFTEFRSSFDLSASLLGVISSLTFITFLAGALMVILLVSKFGARPMILGGIFAASTGLLTAALTDSWLIFAASCLLAGFSPGLTWSSFSKSVTQHVEERVQERTLAIISTGSSVGLIFISLLYLLLDGDWRIIWGGGAVFGYLILLWAWRSVPEKNAETIGAPIKMADLRPIFTKEANPFYIASFLFGITEATYWTYAADFVQENFSITNANAVFFLITGIAGLAGLCAGDMISRLGMRMSFIVTILVYSLSIAVLYLFQGWILVCISGALFGASFMLYAAYLPIWSAKVFPNIPAQGFSICIVILNVGAIIGPAVFGWILAYSPYELIFLLLGIIGCLKVFALPVTENA				NA	NA	NA	NA	NA
AK012_03451	885	glxR	COG2084	2-hydroxy-3-oxopropionate reductase	ATGAACAAACCGACGATTGGATTTATCGGTACCGGAGTGATGGGAAAAAGCATGGCCCGCAATCTGATGCAGGCCGGGTATCCACTGCAGCTTTTCACCCGCACCAAAGAGAAAGCTGTCGAACTTATCGAGGACGGTGCCCGCTGGTATGAGGACATTCCTTCCCTCGCAGCAGCGTCCGACATCATCATTACCATTGTCGGCTATCCCAAGGATGTCGAAGAGGTATACTTCGGGGAAGCCGGCATTCTACATAATGCTGGTCCGGGTTCAACCGTTATCGATATGACGACCTCTTCCCCTGACTTAGCGAAAACGATTGCTAACAAGGCGAAGGAAAAGGACATCCGCGCCTTTGATGCTCCTGTTTCCGGCGGCGATGTCGGGGCGCGTAACGGAAAGCTGACGATTATGGTCGGCGGCGGACAGGAGTCTTTTGACGAAATAAAGCCCGTGTTTGAAGCCATGGGTGAAAACATCGTCCTTCAAGGAGAAGCCGGATCCGGGCAGCACACGAAAATGTCCAACCAGATTGCCATTGCTTCCGGGATGATGGGTGTAACAGAAGCCATCCTGTATGCAGAAAAAGCCGGTCTCGACCCGAAAACCGTCTTGAAAAGCATCGAATTCGGAGCAGCCGGCAGCTGGTCCCTTTCCAACCTCGGCCCGCGGATGATCGACGGTAACTTCGACCCCGGGTTTTACGTCAAACACTTCATTAAAGATATGCACATTGCCATAGAATCCGCAGAAAAACTCGACATTCCCGTTCCAGGTCTGAAGCTTGCCAAGCAGCTGTATGACCAGCTGGCAGAGGCCGGTGGTGAAAATAACGGAACACAGGCGTTATACAAATACTATGAGCTTATAAAAGCAGAAGCATAA	MNKPTIGFIGTGVMGKSMARNLMQAGYPLQLFTRTKEKAVELIEDGARWYEDIPSLAAASDIIITIVGYPKDVEEVYFGEAGILHNAGPGSTVIDMTTSSPDLAKTIANKAKEKDIRAFDAPVSGGDVGARNGKLTIMVGGGQESFDEIKPVFEAMGENIVLQGEAGSGQHTKMSNQIAIASGMMGVTEAILYAEKAGLDPKTVLKSIEFGAAGSWSLSNLGPRMIDGNFDPGFYVKHFIKDMHIAIESAEKLDIPVPGLKLAKQLYDQLAEAGGENNGTQALYKYYELIKAEA	PGPT0018170_960	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_SUGAR_ACID_UTILIZATION	PLANT_DERIVED_GALACTARATE|GLUCARATE_DEGRADATION,PGPT0018170-garR|glxR-K00042	NA	NA
AK012_03452	192			hypothetical protein	ATGAAGAGAATATTCTTTATCAGTTCAGCGGCCATCATCATTTTGGCAGCGACGGCTTTTCTATTGATATACCAAAGTCATGCAGAAGTGATGAAGAAGACGAATGACTGCTATGATAACGGAGGCCTGCCTGAAATGGAGAAGTCCGGGGTCGTGTTGGAGCATTTTGAGTGTCAGATGGAAAAGCAATAA	MKRIFFISSAAIIILAATAFLLIYQSHAEVMKKTNDCYDNGGLPEMEKSGVVLEHFECQMEKQ				NA	NA	NA	NA	NA
AK012_03453	504			hypothetical protein	ATGAACTCTAGTGTCAAAGGGAATAAGCTTGTCTTGGAACGTGTCTTTCAGGCGCCTGTGGAACTTGTTTTTCAAGCCTATTCGGAGCCGGATCGTTTGGAAAAATGGTGGGGACCGGAAGGCTGGGAGACGAAAGTGAAGACGTTCGAGTTTATGCCGAACGGTGTCTGGCATTATGGAATGACGTGTGTGGATGAAGGCATGGGAGAGTTTTATGGGATGCAGTCATGGGGGCTGGGGATTTTCCAGTCGATTGAACCGATGAAAAGAATACAGTACAAAGATATGTTTTCAGACGCGGAAGGCATGGTGAATGAACAGCTTCCGATGATTGATATTGACCTGCGTTTTATTCCTGAGGGTAAGGAGACAAAGCTGGTTATTGAGAGTGAGTTTGAATCAGAAGCAGAGCTCCAGAAATTACTGGAGATGCAGGTCATTGACGGGATGACCTCCCAGTTCAATTGTCTGGATCAGTATTTGTCAAAAGTGAAGATGCATTAA	MNSSVKGNKLVLERVFQAPVELVFQAYSEPDRLEKWWGPEGWETKVKTFEFMPNGVWHYGMTCVDEGMGEFYGMQSWGLGIFQSIEPMKRIQYKDMFSDAEGMVNEQLPMIDIDLRFIPEGKETKLVIESEFESEAELQKLLEMQVIDGMTSQFNCLDQYLSKVKMH				NA	NA	NA	NA	NA
AK012_03454	762	pfyP_2		Blue-light photoreceptor	ATGACTGAAAGCATTACAGACGTGGATTACAAAGAAGTGATGGAGTATTCGCTCGATCCTTTGATCATTCACACCGATTACAAGATTATTTACATAAATCATGCAGCTGAAAAGCTGTTTCAAACAACGAAAGAAGAGGTGACGGGGAGCAGCCCCCTTGATATTTTCCAGGAAACGTCCAGAGGGGCAATTCGAAACCGGATTACTACGGCTTATGAAAAACCGGCAGACGTGATCGAAGAAACGGTTTACCGTGCGGATGGAACACAGGTCCCTGTCGAATTGTACTGTCACCCCGTCAAGATGGGAAAGCGTAAAGCCATTCAATCCTATATCCGCGACATCTCCGACAGGAAGGTGATGGAGGAGAAACATCAGGCGGTGGTGAAGGAAATCAACGAATTATCAGCAACCATCGTGCCGATTTTGGAAGACACAGCTGTGCTTCCGTTGATCGGGAAGATCGACCAGGAAAAGGCCGGGCAGATTCTAGCGGTGATTCCTGAAAAAGTGCAGAAGCAGCAGTTGAGTCATTTGATTATTGATTTTTCCGGTATTTATACGTTCGATCGCGTCGTGATTGACTCGTTGTTTAAAATCAACGGGGTGCTGTCACTTCTCGGCGTCAAAACAATTCTTGCAGGACTGCGGCCGGAAATGGCCATGGAGGCCGCTCGCATGCAGATGGATTTATCGGAAATCCCGGCTGTCGCTGACGTGAAGGAAGCTCTTTCCTACCTTGGTGTCCATTCATCTCGGTAG	MTESITDVDYKEVMEYSLDPLIIHTDYKIIYINHAAEKLFQTTKEEVTGSSPLDIFQETSRGAIRNRITTAYEKPADVIEETVYRADGTQVPVELYCHPVKMGKRKAIQSYIRDISDRKVMEEKHQAVVKEINELSATIVPILEDTAVLPLIGKIDQEKAGQILAVIPEKVQKQQLSHLIIDFSGIYTFDRVVIDSLFKINGVLSLLGVKTILAGLRPEMAMEAARMQMDLSEIPAVADVKEALSYLGVHSSR	PGPT0014945_1357	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
AK012_03455	390			hypothetical protein	TTGAGAGAACAAAAACCGCCGAAAGGAGTTGTGCAGGGGGTATTCCTTTTGAGTGCCGCTCTTCTTTTATCCATCCTGCGTGGAGTTGTTGGTCTGGAGATAGAGGGCCCCGGAGGCATTCAGCTGTCTCTGCTGGTTATGGCAGCCGTCCCGGTGTTATCGTTCAGCCTTTTTCTGCTTTGGAAGATTTACAAGGGGCGGGAATGGGCCAGGATAACCCAGCTTCTGTTATTTACATTCAGTCTGATCAGCGGACTCGGGGAAACCGCGGCCCGGTTCAGGGAGGCTCCTTATCTCTTTGGGCTGTATGTCACGGAAACTCTTCTCATCATAGGGGCATTCGTCCTTTTATTTCAACGCACGTCCTCTCAATGGTTTGTAAAGAGGTAA	MREQKPPKGVVQGVFLLSAALLLSILRGVVGLEIEGPGGIQLSLLVMAAVPVLSFSLFLLWKIYKGREWARITQLLLFTFSLISGLGETAARFREAPYLFGLYVTETLLIIGAFVLLFQRTSSQWFVKR				NA	NA	NA	NA	NA
AK012_03456	1107			NADH oxidase	ATGACAAAGAATGTTCCAACATCTGTCCAACCATTATTCGAAAAATTCAATAGTGATCAGCTAGAACTTGCAAACCGGACCGTTATGGCCCCGATGACGCGTGGATTTTCCCCGGGTGGTGTACCGAATGAGGAAGTCGCTGCGTATTACCGCCGCCGTGCGGAAAACCATGTCGGTTTGATTGTCACAGAAGGTACAGGGATCGGTCATCCGGCCTCTGTGTCTGGAGAAAACATTCCTCTTTTCTACGGTGAAGAAGCGTTGAAAGGCTGGGAGAATGTCGTGAAGGAAGTGCATGAAGCGGGCGGTAAAATCGCGCCGCAGCTCTGGCATGTCGGCATGACCCGTAATGAAGGCGACCTTCCGAATCCGGAAGCCGCCGCTGTCGGTCCATCCGGTTTGAATCTGGATGGAGAAAAAGTCAACGAACCGTTGACAACAGAAGAAGTGGAAGATCTGGTAGAAGCGTACGCGTCAGCCGCCGGCCACGCAAAACGTATCGGATTTGATGCGATTGAGATTCACGGTGCCCACGGTTATTTGATTGACCAGTTCTTCTGGGAGCAGACAAACAAACGGACTGACCGCTTCGGTGGAGATCTCGTTGGACGTGCCCAGTTCGCTGTGGAAATCGTTGAAGCCTGCCGCCGTGAAGTCGGTCCTGATTTCCCGATCATTTTCCGTTTCTCCCAGTGGAAGATGAACGATTTCCAAGCGAAACTTGTAGAAACTCCGGAAGAGCTGGAGCAGTTCCTGAATCCGCTGATCGAAGCCGGTGTGGATATTTTCCACTGCTCGACCCGCCGTTTCTGGGAGCCGGAATTTGAAGGCTCTGACTTGAACCTTGCTGGATGGACGAAGAAAATCACTGGCAAGCCGGTCATCTCCGTTGGTTCTGTCGGTCTTGACGGTGTGTTCACATCCTTCTCCAGCACAGAGACATCAAGCCTTGATGGGTTGATGGAGAAACTGCAGAACGATGAATTCGACCTTGTCGCCATCGGTCGTTCTCTGCTTCATGACCCGGCATGGGTGAAGAAGGTGGAAGAAGGACGTTCTGATGAACTGAAGCCATTCGACAAAGAAGCTCTAGGTAAACTCTATTAA	MTKNVPTSVQPLFEKFNSDQLELANRTVMAPMTRGFSPGGVPNEEVAAYYRRRAENHVGLIVTEGTGIGHPASVSGENIPLFYGEEALKGWENVVKEVHEAGGKIAPQLWHVGMTRNEGDLPNPEAAAVGPSGLNLDGEKVNEPLTTEEVEDLVEAYASAAGHAKRIGFDAIEIHGAHGYLIDQFFWEQTNKRTDRFGGDLVGRAQFAVEIVEACRREVGPDFPIIFRFSQWKMNDFQAKLVETPEELEQFLNPLIEAGVDIFHCSTRRFWEPEFEGSDLNLAGWTKKITGKPVISVGSVGLDGVFTSFSSTETSSLDGLMEKLQNDEFDLVAIGRSLLHDPAWVKKVEEGRSDELKPFDKEALGKLY				NA	NA	NA	NA	NA
AK012_03457	483	rraA	COG0684	Putative 4-hydroxy-4-methyl-2-oxoglutarate aldolase	ATGGATGTGAAGACAGCAGATTTATGTGATGACTATTCGGACAAACTGCGCACAGCCTCGCCGGGATTAAAGAGTTATGGAAAGAAGAAAAGCTTTCACGGACCCATATCGACCGTTCAGGTGAAGGACGATAATGTACTCGTTAAAAAAGCGCTGGAAACCATACCTGCCGGAAATGTATTGGTCGTGGACGGCATGGGCTCGCAGAACTGCGCCCTTATGGGAGGGAATTTAGCCGCTGTCGCTGAGAAGAGGAAACTGGCGGGGATTATTATTCACGGGTACATAAGAGATTCACTTGAAGTGGCCGGTACAGATGTCGGGGTGCTTGCGCTGGGCACTTTTCCACTTAAAAGTAAAAAGGAAGGAAAAGGGGAGGAGGGCATTCCGTTAACCTTTGGAAACGTCGTCTGGCACCCGGGGGATTATGTGTACGTCGATGAAGATGGGGTCGTTCTTGCAGAAGGGAAGCTTCACGATTGA	MDVKTADLCDDYSDKLRTASPGLKSYGKKKSFHGPISTVQVKDDNVLVKKALETIPAGNVLVVDGMGSQNCALMGGNLAAVAEKRKLAGIIIHGYIRDSLEVAGTDVGVLALGTFPLKSKKEGKGEEGIPLTFGNVVWHPGDYVYVDEDGVVLAEGKLHD	PGPT0002085_555	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
AK012_03458	189			hypothetical protein	ATGCATTATATGGAAAAAACGAATCAAGTGATGATGGAGCTGATATCTGGAGAACGGAAGTCTTTCGGGAACTTTTCCTACGAAGACGGCAGGTTTACGGATGGGAGAAATCCTCTACCGGAATGGGAAGTGCGACAGTTTGTCCTCAACTATTTTCTGACCTTGGAAAACTTAAAAATCAACGCTTAA	MHYMEKTNQVMMELISGERKSFGNFSYEDGRFTDGRNPLPEWEVRQFVLNYFLTLENLKINA				NA	NA	NA	NA	NA
AK012_03459	1002	yhdN_3	COG0667	Aldo-keto reductase YhdN	ATGAAAAAAGTAAAGCTTGGACGCAGTGAAGTGGAAGCGACCCGCATCGCCCTTGGTACGTGGACCATCGGGAGCAAAGGCGGGGGTGGGACGGATGAGGATGCATCGATCCAAACGATCCAGGCTGCATTCAGCAGGGGGATTACTACGATAGATACCGCGCCTGACTGTGGAAAAGGGCTTTCGGAGGAACTTGTAGGAAAAGCGATGACCTGTTCACACGTCCCGAGAGATGAACTGGTTCTTGCAACGAAAGCAGGAATGGACTGGACTGGGGAAGACCGTTACAGGGGCAGCCGGCCGGATCAACTGGAAGAGGATCTGGAAAACAGCATGAAAAGGCTGCAGACCGATTATATTGATATCTATCAGATCCATTGGCCGGACTCTGATTTTTCGATCAAGGAAACAGCGGAGAAAATGAGGTCATTTTATGAATCCGGCCGCATCCGGGCGATAGGTGTGAGCCATTTCAGTCCGGAACAGATGGACGAGTGGCAGAATTATGCTCCGATCCATACCGCTCAGATGCATTTGAACATGCTGCAGCGCTATCTGCTGGACTGGTTTGAATACAGCCACAATCACGAGATTGCCACTCTCTCCCGGGGGCCGCTCGCTCACGGAATGCTGACAGGAACGTTTGATAAACACGCCTCGCTGCCTCAAGAAGAATTCCCGGGGAACAGCCGCCTGTTTCAAGGCGGACGCTTTTCACAACTGGTTGAAGCGGTTGAATCGTTGAAAAAGTTTGCTGCTGAACGAGGTCACGACCTCATTCCATTAGCCATTCGCTGGCTGCTTGATCATAAACCCGGTGCTGACGTAGCTTTGTGGGAAGCAGCGACCCCCTCGCAGCTGGCGGGTGTGGAAGATGCGGATGAATTCCAGCTGTCGCGGGAAGATTTATGGATGATTGATGAAATTCTCTACAGCCATACGAATGACCTCCGAAACGGCACGCTGAAGGAGTTTAGTCCACTTGTCAGGTCTGATATGTAA	MKKVKLGRSEVEATRIALGTWTIGSKGGGGTDEDASIQTIQAAFSRGITTIDTAPDCGKGLSEELVGKAMTCSHVPRDELVLATKAGMDWTGEDRYRGSRPDQLEEDLENSMKRLQTDYIDIYQIHWPDSDFSIKETAEKMRSFYESGRIRAIGVSHFSPEQMDEWQNYAPIHTAQMHLNMLQRYLLDWFEYSHNHEIATLSRGPLAHGMLTGTFDKHASLPQEEFPGNSRLFQGGRFSQLVEAVESLKKFAAERGHDLIPLAIRWLLDHKPGADVALWEAATPSQLAGVEDADEFQLSREDLWMIDEILYSHTNDLRNGTLKEFSPLVRSDM				NA	NA	NA	NA	NA
AK012_03460	1044			Alcohol dehydrogenase	ATGAAAGCTATGCAGGTCACAGGATATGGCGGCATTGAAAAACTCGAAGAAAAAGAGGTGCCCGTACCGGAGCCGAAAGCCGGTGAGGTCCTCATTAAAGTCAAAGCCTGTGCGATTAACAATACGGAAATCTGGATGAGGGAAGGGGCTTACGGACAGGGCAGTCAGTCCGGCTGGCGTCCCGAAGGTGTCCAGTTTCCACGGACTCCCGGTTCAGATATTACAGGAACGGTTGTAAAGACAGGGGACCAGGTCGAGTCTTCTCTTGAGGGGGAGAACGTGGTTTTATTTCCGTTCACGTCCAGCGGTGAAGAAGGGCTTGAGCATATCTCTGAGGACATGTCCTTCATCGGTTCCGAATATGACGGAGGTTATGCGGAGTATGTTGTCTGGCCGGCTGAACTTTGTATGCCGATGCCGCTCAAAGACTTCACGAAGAGTGCGGTTTTTTCTGTCAGCGGACTCACCGCCTGGCATATGGTTGAACAAATTCAGATCAAGCCTGGTGAAAAAGTGATGGTTACAGGGGCCAACGGAGGCGTTGGATCTTTGAATGTCCAAATCGCCTCACAGGTATTTGGAGCTGAGGTAATCGCTGTCGTCGGAAACCTTGAAAAAGCAGCTCAATTAAAAGATTTGGGAGCAGCCCATGTGGTTTCCTATAAGTCGGAAACCTTGAGTGATGACATCCTGGAAGCGGTCGGAGGACCTGTGGATGCCGTGCTTGATGTTGTCGGAGATGCGTTGTTCTCCACAGCCCTTCATGTCTTGAAAAAAGGCGGGCGTTTCTGTACATCCGGTTCCGCCGGTGGTCAAAAAACAGAGCTCGATTTCCGGACCCTTTACTTGAAGCACATTACGATGTATGGATCTGTACTTGGAACAAGAGATGAATTCAAGAAAATGCTGCAAGCGATATCCGAAGGCAGATTAAAGCCTGTGATTGAACGGACCTTCCCACTGTCGGAAGCGAAGGAGGCGCAGCAGTACTTCAAAGAAGCCGGAAAGCTCGGGAAAATCGTCCTGCTGCCGGAAGGTGAATAA	MKAMQVTGYGGIEKLEEKEVPVPEPKAGEVLIKVKACAINNTEIWMREGAYGQGSQSGWRPEGVQFPRTPGSDITGTVVKTGDQVESSLEGENVVLFPFTSSGEEGLEHISEDMSFIGSEYDGGYAEYVVWPAELCMPMPLKDFTKSAVFSVSGLTAWHMVEQIQIKPGEKVMVTGANGGVGSLNVQIASQVFGAEVIAVVGNLEKAAQLKDLGAAHVVSYKSETLSDDILEAVGGPVDAVLDVVGDALFSTALHVLKKGGRFCTSGSAGGQKTELDFRTLYLKHITMYGSVLGTRDEFKKMLQAISEGRLKPVIERTFPLSEAKEAQQYFKEAGKLGKIVLLPEGE				NA	NA	NA	NA	NA
AK012_03461	540			hypothetical protein	ATGAAACAAACCTCTTCAATCCTGTTCATCGTTCTGTTATCCGGTCTTACAGCAGGATGCAGCCAGGGGCAGGCCGTTCTGGATGAAGAGGGGAAGTCTTATTCCTCTGAGACAGAAGCCGTGGAGCATTTTCTTGATGAACACCCTGGAAGTGATGTGGAATCCATTGTGACGACGGTCGGTGAAAAATTGTGGGTCACACGTTCAGCCCATCACGTGTACAGCATCTTCGGGATGGAAGAAAACAGGGACCGGTATGCCGTTGTACGGATTTCCGCCCGATTATCCCTTCATAATACGACTGGTGGAGGAGTGGAGGTCACGTCTCCTCAAGGAACAGATTATACGATCCTGTTCGCAAAGGAAGGAGAATGGGAGGAACGGGCAGGAGCGGGGACAGCATCCTATTTCTCTATTTTGAATGGCGGGGCAGAAGCTGCTGTTTATAAAGGCAACACTTTGGATGGGGAAGAATATGCCCCTCCGGAGAGTGCAGTGCAGTCGTCGGAAACCTTACAAATGAGGGAATTGGTACAATGA	MKQTSSILFIVLLSGLTAGCSQGQAVLDEEGKSYSSETEAVEHFLDEHPGSDVESIVTTVGEKLWVTRSAHHVYSIFGMEENRDRYAVVRISARLSLHNTTGGGVEVTSPQGTDYTILFAKEGEWEERAGAGTASYFSILNGGAEAAVYKGNTLDGEEYAPPESAVQSSETLQMRELVQ				NA	NA	NA	NA	NA
AK012_03462	948	qoxA		Quinol oxidase subunit 2	ATGAAAGCTAAGCATCTTCGCAAAAGATGGTTAGGGCTGCTTCCACTTGGATTGATTTTGTTCCTTAGTGGGTGTGGGCAGCTTGAGATGACAGTGCTCGATCCCAAAGGGCCTGCAGCAGAAAGTCAATATGAACTGATTAAATATTCTCTTTGGTTTATGTTCGGCATCATCGTTGTCGTATTCGCTCTTTTTGCGTTCATGGTCATTAAATATCGTGAGAATCGTCCCGGACGTAAAGAAAGCGATTATGATCCGAATCTGCACGGCAATACCACGATTGAGATTATCTGGACTGTCATTCCGTTAATCATCGTTATTCTACTGTCGATTCCGACAGTAACGACATTGTTTGACCTGGAAAAACCCGCAGAGCCTGCTGAAGGGGAAGAGGCCAAGGAGCCGCTTGTCATTCATGCAACAACAGCCGACTGGAAATGGTTCTTCAGTTATCCTGAGGAAGACATTGAAACAGTCAACTATCTGCACATTCCGGTGGATCGTCCGATCGAATTCCATCTGACATCCGCGGATTCCATGACAGCCTTGTGGATTCCTGCTCTTGGCGGGCAGAAATACAACATGGCGGGAATGATGAACATTCTTTATCTGGAAGCTGATGAGGAAGGCGTCTATGACGGACGTAATTCCAACTTCAACGGCGAAGGGTTCGCTGCACAGACGTTCAAAGTCCACGCAGAACCTGAAGAAGACTTTAACAACTGGGTCAGCGGCATCCAGAATGAAGCCCCTGAGCTGTCGAAAGAACAGTATGAGGAACTTCTCAAGCCGGGCTTGACGGAAAAAGATGCTTATTCATCCACACACCTGGAGTACTATGATCATGGTACTCATGAGGGAATGGGCTTTGTAGCCGAAAACTATGCAGAACTCTTTGAAGAGAAACTGCACCTGGATGAAATTGAAAAACAGGAAGAATTTCAATAG	MKAKHLRKRWLGLLPLGLILFLSGCGQLEMTVLDPKGPAAESQYELIKYSLWFMFGIIVVVFALFAFMVIKYRENRPGRKESDYDPNLHGNTTIEIIWTVIPLIIVILLSIPTVTTLFDLEKPAEPAEGEEAKEPLVIHATTADWKWFFSYPEEDIETVNYLHIPVDRPIEFHLTSADSMTALWIPALGGQKYNMAGMMNILYLEADEEGVYDGRNSNFNGEGFAAQTFKVHAEPEEDFNNWVSGIQNEAPELSKEQYEELLKPGLTEKDAYSSTHLEYYDHGTHEGMGFVAENYAELFEEKLHLDEIEKQEEFQ				NA	NA	NA	NA	NA
AK012_03463	1944	qoxB		Quinol oxidase subunit 1	ATGGGCATTACAGATATATTAGTCACCGGTGAGCCGATTATATATGCCGCCATGGTCTCCATAGCGCTTGTATCCATCGCCATTCCTGTCCTATTAACTTACTTTAAGAAGTGGGGCTGGCTCTGGCGTGAATGGCTGACAACCGTTGACCACAAAAAAATCGGTGTCATGTACATTCTCAGTGCATTACTGATGTTATTCCGCGGCGGTATGGACGCCCTGATGATGCGTGTCCAGCTCGCTTTTCCGGATTTGGGATTCCTTGATTCCCAGCACTATAACGAAATTTTCACTACGCACGGAACGGTCATGATCATCTTCATGGCGATGCCGTTCCTGATCGGGTTAATGAACATTGTAGTTCCATTACAGATTGGAGCCCGTGACTTCGCGTTCCCTTGGTTGAACGCCATGAGTTTCTGGTCCTTCTTCATTGGAGCGATGCTCTTTAACATTTCCTTCGTCATCGGTGGTTCACCAGATGCCGGTTGGACAAGCTACACACCACTTTCCGGTGCGGCTTTGAGCCCGGGACCGGGTCAGAACTTCTACCTGATGGGACTGCAGCTATCCGGTATTGGTACACTGGCGACAGGGATTAACTTGATGGTAACCATTCTGAAGATGCGTGCTCCTGGAATGAAGCTGTTCCATATGCCGATCTTTACATGGTCCACCCTGGTCACATGTTTCATTATCATATTTGCATTCCCGATTCTAACCGTTGCGCTTGCACTTCTTACTATTGACCGTATTTTCGGTGCTCACTTCTTTACGCTTACAGCAGAAGGACTGCCGATGATGTGGGCCAACTTGTTCTGGATGTGGGGACACCCTGAGGTTTATATCGTTATCCTTCCGGCTTTCGGTATCTTCTCAGAAATCATTGCCACATTCGCGAAGAAGCGTTTGTTCGGTTATCACGCAATGGTCTGGTCGATGATCATCATTGCTCTGTTAAGTTTCCTTGTATGGGTGCACCACTTCTTTACAATGGGAGCCGGAGCGTTTGTTAACTCTGTATTCTCTGTATCTACGATGCTGATCGCAGTGCCGACAGGGGTTAAAATCTTTAACTGGCTTGCGACACTGTATAAATCGAAAATCGAGTTTACGGTTCCGATGCTTTGGTCTCTGGCCTTTATCCCGAGTTTCATTCTCGGCGGGGTTACAGGGGTTATGCTCGGAATGGCCGCAGCGGACTATCAGTTCCATAACTCGTACTTCCTTGTAGCGCACTTCCACTATGTACTGATTGCGGGTACAGTCTTTGCCTGCTTCGCAGGTCTTGTATTCTGGTATCCGAAGATGTTCGGTCACAAGATGAACGAACGACTTGGAAAATGGGCATTCTGGATCTTCTTCTTCGGGTTCCACGTCTGCTTCTTCCCGCAGTACTTCCTTGGTCTTGACGGAATGCCGCGCCGCCTGTTCATTACGAACGTCGTCGAGTGGCTGCCATTGAACGTCATTTCCACAGTCGGAGCATTCGGAATGGGACTTGGTTTCATTGTATTTGTATACAACGTTTACTACAGCTTCCGCCATGCTGAACGTGAAAAAACAGGAGATTCCTGGAACGGGAACGGCCGTACGCTCGAGTGGGCGACAACGACGCCGGTACCATTCTATAACTTCGCTACCGTGCCTTACGTGGACGAAATCGATCCTTACGTACGCATGAAAGAAGAAGGTAAGACAACCTATGACGAATCGCAGCTGAAGCCGATTCACATGCCGAGCTACAAAGCAACGCCGATCATTATGATGACGTTCCTCGGACTGGGAAGCTTCGGTCTCGTATTCGAATGGATGCCGGTAGCCATCTTTGGTCTGATTGGTGGAGTCGCTGTTATGATTCTCCGCTCCTTCGACTATGATGACGGCTATTACGTATCTGTAGAAGAAATCAAACGCATTGAGCGAAAAGCAAGGGGGTTATGA	MGITDILVTGEPIIYAAMVSIALVSIAIPVLLTYFKKWGWLWREWLTTVDHKKIGVMYILSALLMLFRGGMDALMMRVQLAFPDLGFLDSQHYNEIFTTHGTVMIIFMAMPFLIGLMNIVVPLQIGARDFAFPWLNAMSFWSFFIGAMLFNISFVIGGSPDAGWTSYTPLSGAALSPGPGQNFYLMGLQLSGIGTLATGINLMVTILKMRAPGMKLFHMPIFTWSTLVTCFIIIFAFPILTVALALLTIDRIFGAHFFTLTAEGLPMMWANLFWMWGHPEVYIVILPAFGIFSEIIATFAKKRLFGYHAMVWSMIIIALLSFLVWVHHFFTMGAGAFVNSVFSVSTMLIAVPTGVKIFNWLATLYKSKIEFTVPMLWSLAFIPSFILGGVTGVMLGMAAADYQFHNSYFLVAHFHYVLIAGTVFACFAGLVFWYPKMFGHKMNERLGKWAFWIFFFGFHVCFFPQYFLGLDGMPRRLFITNVVEWLPLNVISTVGAFGMGLGFIVFVYNVYYSFRHAEREKTGDSWNGNGRTLEWATTTPVPFYNFATVPYVDEIDPYVRMKEEGKTTYDESQLKPIHMPSYKATPIIMMTFLGLGSFGLVFEWMPVAIFGLIGGVAVMILRSFDYDDGYYVSVEEIKRIERKARGL	PGPT0004025_441	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004025-foxA|coxA|ctaD-K02274	NA	NA
AK012_03464	606	qoxC		Quinol oxidase subunit 3	ATGGCTGCTGAAGAACTGAAAACCGGACCATTGGAATACCGGACTCAGGAAGGACGCATGACCATTCTTGGCTTCTGGATATTCCTTGCCGCAGAAGTTGTCCTGTTCGCGACACTTTTTGCTACGTATGCCGTGTTGTTCGGCCGTACAGGAGATGCACCGGCACCAATGGAACTATTTGAGCCGGGCATTGTCCTTGTCATGACCTTCCTGCTTTTAACAAGTAGTTTCACCTGCGGTCTGGCCATTCACCAGATGCGCAGAGGGAATGTCAAAGGCTTGATGACGTGGATGATCGTCACACTCGCGCTTGGCTTTGGATTCCTCGGCTTTGAAATTTACGAGTTTGTACACTATGTGCATGAAGGAGCCAGCTTAACGTCCAGTGCATACTGGTCTGGATTCTTCGTCCTTGCCGGAACCCACGGACTTCACGTTACGCTCGGTACCGGCTGGGCCATCCTGCTGCTCATTCAGATTGCAAGACGCGGTCTGACAAATGTAACGAGCCGCAAATTCTTTATCATCAGTCTTTACTGGCACTTCCTTGATGTTATCTGGATCTTCATTTTCACATGCGTATATCTCATAGGGATGGTGATCTAA	MAAEELKTGPLEYRTQEGRMTILGFWIFLAAEVVLFATLFATYAVLFGRTGDAPAPMELFEPGIVLVMTFLLLTSSFTCGLAIHQMRRGNVKGLMTWMIVTLALGFGFLGFEIYEFVHYVHEGASLTSSAYWSGFFVLAGTHGLHVTLGTGWAILLLIQIARRGLTNVTSRKFFIISLYWHFLDVIWIFIFTCVYLIGMVI	PGPT0004035_2709	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-FoxABCD,PGPT0004035-coxC|ctaE-K02276	NA	NA
AK012_03465	384	qoxD		Quinol oxidase subunit 4	ATGGCAAAAACAGATAAAAAAGTACCGATGAATCACGTGATCGGTTTTGCGTTGTCCATCATCATGACACTACTTGCTGCCTGGGCGGTTATTCAATCTGATCTGCCCGTGACATGGGTGATCGTATTCATCATGGTTCTCGCGCTTTTACAGGCAGGCGTACAGTTGTTCATGTTTATGCACATGACCGAAAAGGAAAGCGGCGGGGGAGCGGTTCCATGGAATATGATGTTCCACGGATTCGCCCTTGCTGCAATCCTTGTCGCCGGTTCTCTATTCACCATGTCCTTCGGATTTGACCACGGCGATCATGGCGATCACGGTGGAGAGCACGAAGAGCACATGGAGATGGATGATAGTGAAGGAGACCACAGCGGTCATTAA	MAKTDKKVPMNHVIGFALSIIMTLLAAWAVIQSDLPVTWVIVFIMVLALLQAGVQLFMFMHMTEKESGGGAVPWNMMFHGFALAAILVAGSLFTMSFGFDHGDHGDHGGEHEEHMEMDDSEGDHSGH				NA	NA	NA	NA	NA
AK012_03466	219			hypothetical protein	ATGGAGAAGAGAGAAGAGATCAACCAGGAAGAAGCAAGAGTCAGCCACTGGCCTTGGAAGGACCTGGTTGGGTTTATCCTTTGTATTGCATTGACAGCATTTTCCCTGACAGCGGTCCTGTATTCCTCTTACCAGCCAACGTATGTATTTATCATTCTGACCGGACTGGCGTTTACACAGGCGATGATTCAGCTTGTGAAACTCCAGCCCCGGCATTAA	MEKREEINQEEARVSHWPWKDLVGFILCIALTAFSLTAVLYSSYQPTYVFIILTGLAFTQAMIQLVKLQPRH				NA	NA	NA	NA	NA
AK012_03467	297			hypothetical protein	GTGGGTGTATTAGTCATGTTCCTTCTATTGTCTACCGTTACGCCATTTTTATTCTTGCAGTTGAAAAAACCGGCCCTTGCAGTGGCACAGTCCATCCTGCTCGTCGGGATGTGGGTGTACTACTTCCAAATCATCCTATACACGGCTCCCGCAGCCTTTTCCGTAACATGGTCCATGTTCTACGCGGGTTTGATCGGATCACAAATCGCCTGGATCCTGTTCATCATTGCTACGGTTGAACAAAGCCCCGGATATCAGGCAAATCTCGCCAAAGAAAAAGACACGCTCCCTTCCTGA	MGVLVMFLLLSTVTPFLFLQLKKPALAVAQSILLVGMWVYYFQIILYTAPAAFSVTWSMFYAGLIGSQIAWILFIIATVEQSPGYQANLAKEKDTLPS				NA	NA	NA	NA	NA
AK012_03468	1398			hypothetical protein	TTGAAGAAAACATGGGGATGGACAACAGCACTAATACTTACAGCTGTACTTTATGCGCAGCCTGCGGAAGCGGCTGTGGATGCAGCACTGAAGGCTCCGGAAATCGAAAAACCGAATCTCAATGAAATCCGTCTGCTGGGAACAGACGAATGGGAATTCACCGAAGAAAAAGAACCGAATAACACGTTTACTCAGTCCAATAACATTTCACCCGATAATGTGGTCACCGGTACGTTCACAGACAAAGACAAAGATTTGTATAAACTGACCATTGACGGCGATGATGAAGTGAACCTCATCCTCTCCCTTGGGACGGATGAAGAAACGAAGATGGAATTGAATGTAACGGTCTATGATGAAAAACAAAACAAAGTGGAAGCCTATGTCGAGGATGCCGGTGAGTTCGGATACTTCGGAGACTATTACCTGCAGCCCGGCACTTATTATCTGGAGGCTTCCGATCTCAAGAATAGGAACAATGGAGAAAGGTACTATCTTTTCCCTTATATTTATGAGGAAGAGCCCTATATTGAGCGGATTGCGGGTAAGGACCGGTATGAAACATCTGCCTTTATCGCTGCCCGCAGCAGCGGAGGCATGGCAGTCGAACACGTTGTTCTTGCAACAGGTCAGGATTTCCCGGATGCTTTAGCCGGCTCACCACTGGCGTCCATGTATGCCGCCCCGATTCTGTTAACAAAACAGAACGCTCTTCCTGAGATAACGAAATCCGCCCTCCAAGTGCTGAATACGAAATCCGTGACCATTCTTGGCGGAACAGGAGCGGTTTCTAAACAAACGGAAAAATCCTTGAAACAGATGGGAATTGAAGTCGATCGGATTGCAGGCAGAGACCGGTATGCGACAGCGGCAGCTATCGCTGATGAACTTCCTCCAACCGATGAAGTCGTGATTGCCTCCGGCCGTAATTTCCCGGATGCGTTAGCTGTTGGGCCGGTGGCTTCCATGTACTTGATGCCGATACTGCTTACAGAAAAAGACAGTCTTCCGAAGGCGACGGGAGAGGTACTGAAGTCTTATGACACTTCCTTTGTCATCGGAGGCACGGGGGCAGTCGGTTCAAACGTGTTCAAGCAGCTTCCTGATCCTGATCGTATATCCGGTCAAAACCGCTACGCTACTTCCGTGGCCGTAGCCGACTATTTCGACCTTGATCCGTTTCAAGTGACGATCGCCTCAGGAGGACACTTCGCTGATGCTTTATCAGGCTCTGTCCTTTCTTACGGCACACCTCTTCTGCTGACTCCAAAAACCAAGCTGGATCCATCAGTGAAAGCTTATATGAAGCAGAATGATACATTCATGTTCACCATCCTCGGCGGCCCTGGTGCTGTGAGTGAAAAAGTGGAAGACGATATTTGGGATCTGTTTGAGTAA	MKKTWGWTTALILTAVLYAQPAEAAVDAALKAPEIEKPNLNEIRLLGTDEWEFTEEKEPNNTFTQSNNISPDNVVTGTFTDKDKDLYKLTIDGDDEVNLILSLGTDEETKMELNVTVYDEKQNKVEAYVEDAGEFGYFGDYYLQPGTYYLEASDLKNRNNGERYYLFPYIYEEEPYIERIAGKDRYETSAFIAARSSGGMAVEHVVLATGQDFPDALAGSPLASMYAAPILLTKQNALPEITKSALQVLNTKSVTILGGTGAVSKQTEKSLKQMGIEVDRIAGRDRYATAAAIADELPPTDEVVIASGRNFPDALAVGPVASMYLMPILLTEKDSLPKATGEVLKSYDTSFVIGGTGAVGSNVFKQLPDPDRISGQNRYATSVAVADYFDLDPFQVTIASGGHFADALSGSVLSYGTPLLLTPKTKLDPSVKAYMKQNDTFMFTILGGPGAVSEKVEDDIWDLFE				NA	NA	NA	NA	NA
AK012_03469	594			hypothetical protein	ATGGAAAACAACGGTACGGACAAGGAAAGGAAGCGTAATTTTTTGACACAGACGAATGAAGAAACTTTGTATCTAGCTAAAGCAACGAAACAGGATATAGCTGATTTATACTACTGGTCATTCATTGAAGAACGGCAGGAAGCAAAGGAATGGAATGCCCCTTATATACAGGAAAAGAAAATGAGCCTGGATGAATATGAAGTGCTCTGGCAGAAGGAGCTTGCCCCAGGCATACCGGACGGACTCGTTCTGCGCATGGATGACCGGGTGATCGGGTATGTCGGTTCCTACTGGCTCGACCGCCATTCCGGCTGGCTGGAGACAGGCATCGTCATCTTTGATTCGCAGTATTGGGATGGCGGCTATGGCTCCTTCGCTTATGAGAAGTGGATCGACTATATTTTTGAGCAAACGTCCATCCACCGCCTCGGTATGTCCACGTGGTCGGGGAATACACGGATGATCCGTGTGGCGGAGAAAACCGGGATGGTTGAAGAAGCCCGGGTGAGACAGGCCCGTCTTGTCGATGGTGAGTATTATGATGCCGTGAAAATGGGGATGCTGCGTTCCGAATGGGAGGCCTTAAAAGAATAA	MENNGTDKERKRNFLTQTNEETLYLAKATKQDIADLYYWSFIEERQEAKEWNAPYIQEKKMSLDEYEVLWQKELAPGIPDGLVLRMDDRVIGYVGSYWLDRHSGWLETGIVIFDSQYWDGGYGSFAYEKWIDYIFEQTSIHRLGMSTWSGNTRMIRVAEKTGMVEEARVRQARLVDGEYYDAVKMGMLRSEWEALKE				NA	NA	NA	NA	NA
AK012_03470	348			hypothetical protein	ATGAAAAATCGTATCCATACGTGCTTTATCCATCTGGTGTATTATGATCGGACGAAAGAATGGTATAAACGTGTGCTGCCTTTTGACATACAGGAAGAAGGAGAAGGGTACTTGAAATTCGACCTGGAAGGCACCAGCCTTGTTCTGCTTCAGGCAGAGGCGGATTCGATCCGGCCGCTCCCTTACGCTCCGTTTTTCATGGAGACAGAAAATATTGAAAAGACATCACAGGAATTGAAGGCTAAAGGGGTTAAAGTCGATGATATCGAGTCCTTTGGGGAGTCCATCCATGGCTGCCACTTTTACGATCCGGAAGGGAATCAGCTGCTGGCCTGTGAGCTGTCATAA	MKNRIHTCFIHLVYYDRTKEWYKRVLPFDIQEEGEGYLKFDLEGTSLVLLQAEADSIRPLPYAPFFMETENIEKTSQELKAKGVKVDDIESFGESIHGCHFYDPEGNQLLACELS				NA	NA	NA	NA	NA
AK012_03471	180			hypothetical protein	ATGATGAAAATGGAAGTCGGACAGTTGGTTAAAGATCGCTGCACAAGCTGTCTTAACCACCAGCTGAAAGTGATTAAAATCGTCCCGAAAAATTTTGACGAAAAAGTAACCTATGTCGTCTGGACCCAGTGTCCGGAATGCGGAAACAACGACCATTCTCTTATGCCGGCCGAAAGCTGA	MMKMEVGQLVKDRCTSCLNHQLKVIKIVPKNFDEKVTYVVWTQCPECGNNDHSLMPAES				NA	NA	NA	NA	NA
AK012_03472	798			hypothetical protein	ATGAATTGGATAAACATTAAGGAACATCAGCGTTTTCAGACGAAGCAGGAACTTGACCGGCATGTACGGAGCTATCTATATCAACGCAGAGCCTTTTTATCGGAAGGAACAAGAGAAGTCCTCCGCTATGTTTGGCGGCATGCCGTTAAATTTCCAGGCGTCGCTTTTCCGAAACGTTCGACCATCGTTTCGGCTGTCCGCTGCAGTGAAAGTACTGTCGTACGTGCCCTCCGCACCCTTGAAAAGGAAGGGTTGATCGAGAGAGTGCAGACGAAGAAACCGAACGGCCGGCAGGGAGTGAATTTGATTGTATTCCTTCCGCAGCCGGATCTTTTTTTACCTTCTGATGACACCCCTGGCGACACCCTTCCTGACACCCCTCCATCTTTTACAACTTCAAGCGGCTCTAAGCTCCGCGCATCCAAAACTCTTCAGGAAACAAAGAGGAACCAAAGGAAAGCTTCCTTTAGTAATATTGACCCCCTCGATCATTCCCACCTGCCTTCCTTCATTCCGATCCCCTTTATTGAGGCCGCACGTCCTTTTCTTTCTCCGCCGGATGTTCTGAAAGCCTGGCGGACGGTAGAGAGCGCCTCCCGTCAGCTGGACATCGATGGGAGTGCTTACATTTCTGAGGTCGTTACAACGTTCAAGCAGGCCGTTTTCGCGTGGAAGCATGGATGGGTGAAGAAAGGGTTATTCCCTTATTTTTATGGAGGCCTGATCAAGCAGATCCATACAGCTGTGGAAAAAGAAACAAGAAAAAGGCTGGTGAAATACAACTGGGTGGATGGCTGA	MNWINIKEHQRFQTKQELDRHVRSYLYQRRAFLSEGTREVLRYVWRHAVKFPGVAFPKRSTIVSAVRCSESTVVRALRTLEKEGLIERVQTKKPNGRQGVNLIVFLPQPDLFLPSDDTPGDTLPDTPPSFTTSSGSKLRASKTLQETKRNQRKASFSNIDPLDHSHLPSFIPIPFIEAARPFLSPPDVLKAWRTVESASRQLDIDGSAYISEVVTTFKQAVFAWKHGWVKKGLFPYFYGGLIKQIHTAVEKETRKRLVKYNWVDG				NA	NA	NA	NA	NA
AK012_03473	1014	fpuA	COG0614	Petrobactin-binding protein FpuA	ATGAAGAAGATTTGGCTTTTTGCACTTATACTTGGTCTTGTTCTGCTGGCTGCCTGCGGCGGAGGATCAGAAGAAGGAACCAATGAAGATCAGTCTGGAGAGGACGGCACTGAGGAAGCTTCCTCCGATGAATCCCGTTCTGTAACGATTAAAGACGCAACAGGAGAAAAGACCATTGAAGGCACTCCTGAGAAAGTTGTCGTATTGGAGTGGACCTATGCAGAGGATCTTCAGGCCCTGGGCATGGAACCGGTTGGTGTTGCTGAACTGGACGCCTACGGGGACTGGGTGAACGTCGGTATTCCATTCAGCGACTCTGTTGAGAATGTAGGGACACGTCAGGAGCCGAACCTGGAAGCGATTTCCCGTTTGGAGCCTGATTTGATCATTGGTGTCCAGTTCCGTCACGAAGCGATACAGGAAGAACTGGAGAAAATCGCTCCAACGGTCATGTTCGCTCCTTATTCTGAGGAAGCGGCTCAGGATCAATTTGCCAACATGAAGGAAGAATTCAATACGGTTGCAGAAATCGTTGGTAAACAGGATAAGGCTGAAGAAGTCCTCACCGATATGGAGGATACATTTGCTGAACAGCAGTCCCGTCTGGAGGAAGCCGGCAAAGAAGGCATGAACTACGTGCTCAGCCAGTCCTTCACGCTTCAGGATACGCCGACAATGCGTTTGTTCACGGACAATTCCATGGCCGCACAGGTGATGAACAATATGGGCATGACGAATGATTATCAATCCGAAGAACTGGAAGTGTACGGCTACACGGAAACAACGGTTGAAACCCTGCAGAATTATCAGGACACGAACTTCTTCTACATCGTGCAGGAAGAAGACAACATTTTCGAAAACCAGCTGGCCGGCAATCCGGTGTGGGAAGAACTGGCATTTGTAAAAGAAGATCGTACCTACCAGATGCCTGGGGATGCCTGGACATTCGGTGGACCGCTTTCTGCGGAAGTTCTGGCTGAACAGGTCGTAAACGCGGCGCTGGAAGAAGAATAA	MKKIWLFALILGLVLLAACGGGSEEGTNEDQSGEDGTEEASSDESRSVTIKDATGEKTIEGTPEKVVVLEWTYAEDLQALGMEPVGVAELDAYGDWVNVGIPFSDSVENVGTRQEPNLEAISRLEPDLIIGVQFRHEAIQEELEKIAPTVMFAPYSEEAAQDQFANMKEEFNTVAEIVGKQDKAEEVLTDMEDTFAEQQSRLEEAGKEGMNYVLSQSFTLQDTPTMRLFTDNSMAAQVMNNMGMTNDYQSEELEVYGYTETTVETLQNYQDTNFFYIVQEEDNIFENQLAGNPVWEELAFVKEDRTYQMPGDAWTFGGPLSAEVLAEQVVNAALEEE	PGPT0003330_140	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003330-fhuD-K23227	NA	NA
AK012_03474	2025	fpuB	COG0609	Petrobactin import system permease protein FpuB	ATGAACACAACGATGAAGAACACAATAATGGCGGTCTCCACCTTCGGGGGTGGAGCCGCATTGTTGTGTCTTTTAACTTTTATACATATCAATCAAGGAAACGTGGATCTCCCTTTTGCTACGGTCATGGATGCGCTCTTACGTCCTGAAAATACGCTGGAGCACCATACGGTCAGGACGCTTAGACTCCCGCGTGCTGTGATGGGTATTCTTGCCGGCGGGGCGCTCGCCGTTTCCGGAGTCATCCTGCAGACGGTAACGAAAAACCCGCTTTCCTCTGCCAGTACGCTCGGGATTCACTCGGGTACGTACTTTGCGGTCGTTGTCACTACGATCTTCTTACCGTCCGCATTGGTGGGCAATGGAATCGTCACCGCCTTTCTCGGTGGTCTTTTAACGTTTGGGTTCGTCTATGTATTATCCGGCGGTGGAGATGCCACCCCGGTCCGGATGGTGCTGGCCGGGATGATCATTACATTTTTATTTTCTTCGTTAACGTCTGTTCTGCAGATCTTTTATGAAAATGAAACCCGTGGGATCTTTCTATGGGGATCAGGGACACTCGTTCAGAACGACTGGGGCGGTGTCACCTTTTCTCTTCCTTTCATAGGGGTGTGCATGCTGATCGTTCTGGCGTTTGCGGGAAAATTAGACACGCTGACGCTTGGAGATGATGTAGCGACGGCTCTTGGTCAGAACGTAAGGAACGTGAAGTTCATCACTATTCTGGCTGCTGTACTTTTGACGAGTGTAACTGTCAGCATTGTCGGGCCGATCGGGTTCGTCGGTCTTGTCGCCCCGCATTTGATCAAGCTGATCGGCTACAGGTCGCACCTGCTGCTTATTCTCGGGTCTTTCTTATGGGGAGGGAATGTCCTGCTTCTAGCCGATGTTCTTGCCCGTATCATTGATCCATCCTTTTCAGAGCTTCCTGTCGGTGCGATTACAGCTCTTGTCGGTTCGCCGTGGCTCATCTGGCTTGTGCTGCGGATGAAGCGGAACAGCTCTCAGGAGAACGGAGCGGTCATGGCGGGACGGAATTCGATCGGCCTGTCTCTCGGCCGGGTGCTCCCCGTTCTGATTGCGCTCATTATAGTGACTGTAGGTGTGAGCCTTGTTTCCGGTAACTACGGCTTCGAGCCGCTCGTCGGCTTCCGGGCATTTTTCGGCGAAGGCAGTACGTTTATGCAGGATATGATTTTGAATTTGAGACTGCCGCGGGCGCTTGTTGCCTTGTTCAGTGGAGCGGTTCTTGCGTTAAGCGGCCTCATTTTTCAGGGAGTGCTGCGGAACCCGCTGGCTGATCCGTCCGTAATCGGCATCACATCCGGGGCCGGTGTCGGCGCCCTGATGACGATGTATTGGTTCAGTGTATCGGCGGTGTGGATTCCGGTTGGAGCGATGGCTGGAGCGGTGATCTTTTTCTTCATCGTGATGGCCCTTGGGGCAAAGGCTGAGTTCCAGCCGACTGTGCTCGCTCTGCTCGGGATCGGGATTTCAGCTTTCGGGTCCGCTTTGATTCAAATTATGGTCGTGCAGGCGGACCTTGGGGTAGCTTCTGCGCTGACGTGGCTGTCCGGGACGACCTATGCAAAAGGGTGGGACGAACTTATCCAGTACTTGATCTGGCCGGTGCTGCTGCTTGTCCCTGTCCTTGCCTTTTCCATTAAAACGCTCGATGTACTTGGACTTGGAGACGATACAGCGAAAGGACTTGGTCTCCGTGTGGTCAATGTCCGGTTTCAAATGGCACTGATGGCGACCCTGATGGCAGCTTCCAGCGTAGCGGCTGTCGGTTCCATCGGTTTTGTCGGGCTGATTGCTCCGCATCTGGCCCGTCTGCTTGTCGGAAGTGCCAATCAAAAGTTGCTTCCGGTCACGATGCTGATTGGAGGCGTGCTCCTGGTAGCTGCTGATTTGTTCAGCCGGACGCTGCTGGCTCCTAATGAGATTCCATCCGGGATCCTGGTGGCTATCATCGGCGCACCGTATTTCCTTTGGTTGATGAAAAGAAGGGCCGCATAG	MNTTMKNTIMAVSTFGGGAALLCLLTFIHINQGNVDLPFATVMDALLRPENTLEHHTVRTLRLPRAVMGILAGGALAVSGVILQTVTKNPLSSASTLGIHSGTYFAVVVTTIFLPSALVGNGIVTAFLGGLLTFGFVYVLSGGGDATPVRMVLAGMIITFLFSSLTSVLQIFYENETRGIFLWGSGTLVQNDWGGVTFSLPFIGVCMLIVLAFAGKLDTLTLGDDVATALGQNVRNVKFITILAAVLLTSVTVSIVGPIGFVGLVAPHLIKLIGYRSHLLLILGSFLWGGNVLLLADVLARIIDPSFSELPVGAITALVGSPWLIWLVLRMKRNSSQENGAVMAGRNSIGLSLGRVLPVLIALIIVTVGVSLVSGNYGFEPLVGFRAFFGEGSTFMQDMILNLRLPRALVALFSGAVLALSGLIFQGVLRNPLADPSVIGITSGAGVGALMTMYWFSVSAVWIPVGAMAGAVIFFFIVMALGAKAEFQPTVLALLGIGISAFGSALIQIMVVQADLGVASALTWLSGTTYAKGWDELIQYLIWPVLLLVPVLAFSIKTLDVLGLGDDTAKGLGLRVVNVRFQMALMATLMAASSVAAVGSIGFVGLIAPHLARLLVGSANQKLLPVTMLIGGVLLVAADLFSRTLLAPNEIPSGILVAIIGAPYFLWLMKRRAA	PGPT0003320_330	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-SIDEROMYCINS|ALBOMYCINS,PGPT0003320-fhuB-K23228	NA	NA
AK012_03475	969	dapF		Diaminopimelate epimerase	ATGAAGCTGCCATATATCAAATGCCATGGGTCAGGGAACGATTTCATCCTGATCGATGAAATCGAGCATGACTTTACATTTACCGAGGAAGAAAGAAGAGAGCTGTCGCTTTTGTTATGTGATCGAACGAATGGCATCGGCTCCGATGGCATTTTATTTGTCATGCCGAGTGAGAAAGCGGAGGGCCGGATGCGGATGTTCAACTCCGACGGAACAGAAGCGGAAATGTGCGGGAACGGCCTCCGTTGTGTAGCCCGCCATATGATCGGAAAGCTCGGACACACATCGATTGCGATTGAAACCCAGGAGGCGGTCCTGCCTGTCAGCCAGGTCGCTGAAATTTTTCCGGAGATTGATACCTTCTCTGTGCAGATCGAGCCGGTATCGTTTGCCCCTGCATCGCTTCCTATGATCCATGATGGAGAGGAAGTCGTGGATGTCTCCATCCCGCAACTCTCAGATAAGCGGACATTCACAGCGCTGAGTGTACCGAACCCGCATATCGTCAGCCTGATGGACGACGTGGATCAAGAGGAGCTTGAACAGACCGGACGTCTGGCCAATCAACTGCCCGAGGTTTTCCCGAACGGGGTGAACGTCAGCTTTGTCCAAGTACTTGAAAAGAACAAGATCTTCGTCCGTACGTATGAGCGTGGCGTCGGACTGACCAACGCCTGCGGGACGGCGATGTCTGCCTCGTCTCTTGTGTCCACCATCCTTGGTCCGAACGATCTCGATACACCCATTGTCGTCATCAATAAAGGCGGACTCGTCAACTGCGTCGTTGAAAAGAATGAGGGACGTTTTTCCATCCAGCTGCGCGGGAATGGAACGAATGTATACGAAGCCGTGGCTGATGTTGACCTTGGAAACAGCCGCGTAGAAATCAATGAACAAACGTTTTTCGACAAGGAAAACGAAACGTATCAAAAACTGGAGGCCTATGCTGCTTCCGAAATCGGAGGGTGA	MKLPYIKCHGSGNDFILIDEIEHDFTFTEEERRELSLLLCDRTNGIGSDGILFVMPSEKAEGRMRMFNSDGTEAEMCGNGLRCVARHMIGKLGHTSIAIETQEAVLPVSQVAEIFPEIDTFSVQIEPVSFAPASLPMIHDGEEVVDVSIPQLSDKRTFTALSVPNPHIVSLMDDVDQEELEQTGRLANQLPEVFPNGVNVSFVQVLEKNKIFVRTYERGVGLTNACGTAMSASSLVSTILGPNDLDTPIVVINKGGLVNCVVEKNEGRFSIQLRGNGTNVYEAVADVDLGNSRVEINEQTFFDKENETYQKLEAYAASEIGG	PGPT0007230_409	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PHYTOHORMONE-CYTOKININS|DERIVATE_PRODUCTION	PHYTOHORMONE-CYTOKININ_METABOLISM	PHYTOHORMONE-CYTOKININ_BIOSYNTHESIS,PGPT0007230-dapF-K01778	NA	NA
AK012_03476	396			hypothetical protein	ATGCTGAAGACGTTTCATGTACGTACAGACCATCATGACCAGATGATCGATGTCACAAGCCAGGTTCAGGACTGGCTGGGTGAAGAAGGCGTGAAAGATGGCGTCGTCATCGTCTCTTCCATGCACACGACCGCGGGACTGACGGTGAATGAAAATGCCGACCCGGATGTGAAAACCGATATGCTCCGCCGTTTCCGCGAAGTGTATCCGTGGGATCATGCTGAAGATAAACACGCAGAAGGCAATACAGCCGCTCATATGAAAACGAGTACGGTCGGACATGCGCAGACACTGATCGTAGAAGACGGCCGCCTCGTACTTGGCACGTGGCAGGGACTGTACTTTTGTGAATTTGACGGTCCGCGCAACCGTAAATTCGTAGCTAAAGTGTTATAA	MLKTFHVRTDHHDQMIDVTSQVQDWLGEEGVKDGVVIVSSMHTTAGLTVNENADPDVKTDMLRRFREVYPWDHAEDKHAEGNTAAHMKTSTVGHAQTLIVEDGRLVLGTWQGLYFCEFDGPRNRKFVAKVL	PGPT0015021_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015021-yugU-NA	NA	NA
AK012_03477	630			hypothetical protein	TTGAAGAGCTTGTTATACATATTTTCAGCTTGTTCTTTAGTGCTTTTAGGTGCTTGTAATGAAAGTCAAACAACTAATCAAGGAACTTCTGAAACGAATGAACCTCAGGAAGTGAAAAACACTGATCCTGAAGAAAAAGAAAATGAAGAAGAGAAGGATTCGGAAGAAGAAAACATGTTTTCTTTAGGAGAGTTTGATGTTGTAAATTCAAAAACCGAAGTAGGTACGGTTACATCTGGACCAATTGCTGTGGATATACTAGGTGTTTCAGTGCAGAATGGTGAAATAAATGACACTTACACCGAGAATCTTCCGGATGGTGAAGTAACGTTTCTTAGGTTGGATTTTACAGTTATTTCAGAACAAGATAATTTAACATTTGACAGAGAATTCCTTCCAATAAAGGTTAACGGTGAAGGCGATTGGATCGAACCAAGCCTTCGTATGAGTGGTAACTTATCCTTTGGTTATAGAGGTGCAGGAGAATACCGAGCTTTTGCCTCCTATTTATTAGACAAAGCTGATGCCGATGAAATAAAATCGCTGACATTCCAAGTGAAAGCTCCTAGAGATGAAAATAACGATCCTTTAGGTGAAGACAATAGTATTAGTATAGATTTAACTCAATAA	MKSLLYIFSACSLVLLGACNESQTTNQGTSETNEPQEVKNTDPEEKENEEEKDSEEENMFSLGEFDVVNSKTEVGTVTSGPIAVDILGVSVQNGEINDTYTENLPDGEVTFLRLDFTVISEQDNLTFDREFLPIKVNGEGDWIEPSLRMSGNLSFGYRGAGEYRAFASYLLDKADADEIKSLTFQVKAPRDENNDPLGEDNSISIDLTQ				NA	NA	NA	NA	NA
AK012_03478	216			hypothetical protein	ATGCGTAAAATCGCTACAATCAAACCGAGCAAGGACACGATCAGGGAACTGAACGCGATCATCACCATCAGCGATTCATACATACTCAGAGGCATCACCCCCTCCATCGATGAGACATGGGGATCAGCCGACACCCTATTCAGCTGGCAGGAACCATTATCCTCCTTAAATTATAGCATGGCCCGCCACAAGAATGTGACAGGCTTTTCTACCTAA	MRKIATIKPSKDTIRELNAIITISDSYILRGITPSIDETWGSADTLFSWQEPLSSLNYSMARHKNVTGFST				NA	NA	NA	NA	NA
AK012_03479	1242			hypothetical protein	ATGCAGCAACAAGCAGTTCACCAAACGGCTTCCAACCGTTCAACGATTCCTGCCCCGCTTGACCCGGTCCAAAAGCCGTTCATGTGGGTGGGTATCATTGCTTCCCTGCTTTTATTTATAACCATCATCAGCATCACCAATGTCACCCAGGGGGTTCTTTTCATTATCGGACTCGCCTTCGGCCTCGTGCTGCTCCACGCACGCTTCGGATTTACATCAGCCTTCAGAAGACTGCTTTCTGTCGGTAATGTCCAGGGCCTTCAGTCACACATGCTGATGCTTGCGGTCGCAACGACAGGGTTTGCGATCATCCTAGGTACAGGGTTCAGCTTTACCGGAACCGCTCCCCAAGGGTACGTCTTCCCTGTTGGTGTGAGTGTCATTTTCGGTTCGTTCATCTTCGGGATCGGTATGCAGCTCGGTTCCGGCTGTGCATCCGGGACCCTGTATACGGTCGGCGGTGGAAAATCCTCAATGGTCTTAACGCTGATCGGTTTTATTGCCGGTTCTGTTCTTGGTGCCTACCATATCGGATTCTGGCGGGAAACTCCGGCGCTTCCGGCGATTTCTCTGGCTGAATCCACAGGACTCGGTTACTTGGGCGGCTGGATCTTACAACTTCTTATTTTCCTGGGGATCTACGGCGTGACCGTGAAAATTGCCAGGAAAAAGAACCCGCCCCGTATGGAACCTTTGAAAACGACGACAGGTCTGAAGCGTCTATGGCGCGGAGCCTGGCCGCTGCTTGCTGCGGCGGTAGCACTTGGTGTGCTGAATGCCATCACACTGGCCGTCCGCGGCAACCCATGGGGGATTACGTCAGCGTTCGCCCTGTGGGGTTCCCAGTTCATTCAAATGTTCGGTGTGGATGTAGCGAGCTGGCAGTACTGGTCTGAAAATCCAGCACCCCTGAACCAGACTGTGCTTGCCGATTCTACAAGTGTCATGAACTTCGGAATCATCCTCGGCGCGTTCATCGCGGCCAGTGCGCAGGGGAACTTCAAGCCGGGTAAAATCAAACCAGGCATCGGCTTCGCCTCCATCATCGGCGGAATCCTGATGGGATACGGCGCCCGCCTCGCCTTCGGCTGTAACATAGGCGCCTACTTCGGCGGCATCGCCTCCTTCAGCCTGCACGGCTGGGTGTGGATGATTATGGCGCTGATTGGGACGTACCTCGCCCTGTTCCTGAGACCGCTGTTCGGATTGAAAAATCCGAACCCGAAAGATTCGATCTGCTGA	MQQQAVHQTASNRSTIPAPLDPVQKPFMWVGIIASLLLFITIISITNVTQGVLFIIGLAFGLVLLHARFGFTSAFRRLLSVGNVQGLQSHMLMLAVATTGFAIILGTGFSFTGTAPQGYVFPVGVSVIFGSFIFGIGMQLGSGCASGTLYTVGGGKSSMVLTLIGFIAGSVLGAYHIGFWRETPALPAISLAESTGLGYLGGWILQLLIFLGIYGVTVKIARKKNPPRMEPLKTTTGLKRLWRGAWPLLAAAVALGVLNAITLAVRGNPWGITSAFALWGSQFIQMFGVDVASWQYWSENPAPLNQTVLADSTSVMNFGIILGAFIAASAQGNFKPGKIKPGIGFASIIGGILMGYGARLAFGCNIGAYFGGIASFSLHGWVWMIMALIGTYLALFLRPLFGLKNPNPKDSIC				NA	NA	NA	NA	NA
AK012_03480	246			hypothetical protein	ATGATTGCAATGCCGAAGAAGAAGGAATGGCACGTTATTTTCCTGCTTGACAGCAAGAGGGTCGTCACCCATGATCTTGAGTTGAGTGAGGAAATGGATGAAAAGGAAACCTCTGAGTTTATCGTCAAGCAGCTGGACCGTGGGACCTGGTGGTTCCTGGAGGATGGAGTGGCGCTTCATACAAGCGGAGTGGAAAGCTTCTACCTTGACCGCTGTGCCCGCCGCACACGCTTCAGCAGAGATTAA	MIAMPKKKEWHVIFLLDSKRVVTHDLELSEEMDEKETSEFIVKQLDRGTWWFLEDGVALHTSGVESFYLDRCARRTRFSRD				NA	NA	NA	NA	NA
AK012_03481	522			hypothetical protein	ATGCCTGTAACCATCAGAGAGGAACAGCGGGCGGACATCCCGGCCGTGAAGAAACTCATTGAACGGGCCTTCGCTCATGAAGAGCACAGCGATCAGACCGAGCACGTGCTTGTCGAAAAACTGCGGGCCTCAGATGCGTTTATTCCTCAGCTTTCATTGACAGCCGTCGATGATGGAGAAGTGATCGGCTATATCCTCCTCACAAAAATCACTGTCGGAGAAAGCGTGTCTCTTGCTCTCGCTCCGACTGCTGTCCATCCCGGACGACAGAAAGAGGGCATCGGTACAATGCTGATAACCAAAGCACTGGCGGCCGCCCGGGCCCTCGGTTTTTCCTCCGTCATCGTTCTCGGTCACCCGGATTATTATCCAAGGTTCGGATTCCAGCCCGCTTCCCAATGGGGAATCGAAGCGCCATTCGACGTTCCTGAGGAGGCCTTTATGGCTGTTGAACTGCATCCGGGCGCTTTGAGAAACGTGAGCGGCACCGTCCGCTATTCCCAGCCTTTTCTGGAAACATGA	MPVTIREEQRADIPAVKKLIERAFAHEEHSDQTEHVLVEKLRASDAFIPQLSLTAVDDGEVIGYILLTKITVGESVSLALAPTAVHPGRQKEGIGTMLITKALAAARALGFSSVIVLGHPDYYPRFGFQPASQWGIEAPFDVPEEAFMAVELHPGALRNVSGTVRYSQPFLET				NA	NA	NA	NA	NA
AK012_03482	501			hypothetical protein	ATGATGAAATATTTCCTATCCCTTGCTGTCATGCTGACCCTGTTTTCCGGAATCACCCATATTTCAAGTGCTGAGGAAACCGATAAGACGGCTCAGCCTGCCGATAAAAAAGTAACCACCCTCGATGAGAAAGAACTCCAGCACAACCGATTTGAGGAAGAGGAAGATAAAGAAGCCTCCTTTGCTTCACAACCTGCCAAAGATGATGTGAAACGGACGGTGGCCGTCGAAGCGACTGCCTACACCGCTTTCTGCGAAGGGTGCAGTGGAACGACCTACACCGGCATCGACCTCCGCGCCAATCCCGATCAGAAAGTGATCGCTGTCGATCCTTCTGTCATTCCCCTCGGCTCGAAAGTCCGCGTCCCGGGCTACGGAACAGCCACGGCCGGAGATATCGGCGGGGACATTGAAGGTCACCGGATCGACTTGTTTATGGCAGAAGAAAGCGACGCCTTTGATTACGGGCGCCGCCAGATTGAAGTCGAAATTCTCGAATAA	MMKYFLSLAVMLTLFSGITHISSAEETDKTAQPADKKVTTLDEKELQHNRFEEEEDKEASFASQPAKDDVKRTVAVEATAYTAFCEGCSGTTYTGIDLRANPDQKVIAVDPSVIPLGSKVRVPGYGTATAGDIGGDIEGHRIDLFMAEESDAFDYGRRQIEVEILE				NA	NA	NA	NA	NA
AK012_03483	1152			hypothetical protein	ATGATCACATGTCCTCAATGTAACTATGAAAACGCCGAGGGGTCGCGTTACTGTTCCCAGTGTGGAGCATCCTTATCGGAAGAATCCCCGGCTGATACAAAACGGAAGCGATTGTGGCTGCCCATTCTCACACCTGCGATAGTCCTTGTTTTGGTGGGGGCGGCCCTTTATTTTGTCTATGATCAGCAAGCAGGTATAAACAAAGAGGTTGTCACATGGAAAACAGAAGCGGAGGAGGCCGCCCTTGCCGGCGAGTACCGGGAGGCGGAGAAGCTGCTCACCCGTGCCATCCAGGAACGTCCGGATGAAGAAGCGCTGCAGGAGGAACTGAGTCATGTGCAGACGGCGCTCAGTATGGAAAAGGAGCTGGAAGAAGTCTCCAAGCTGTTGGAAGAAGGCAGCCTTTCGGAAGCTGACGAACAGCTGTCGACGATTCAGGCGGCTCTGAAACAGGAAAACGGCCGTCTTTATCAGACCCTTGTCCCCGCACTGAATGAAATGGATTCCAGATTTACGCTTCAGGAAGTGAACGAGGAGCTTTCTAAAATTACAGACGTCGATGAGCTGGCCGCCAAGCTGAACACCCTTTCGGATCTGAATTTGGAGGAAGCGGCCAAAGTGCGGGAAAAAATTTATGAGAAAATTGTCAACCGCTCTACGAAAACAGCCGAGGCTGCAGCCGAGGACAAACGGTATACCGAGGCCATTGCTCTGATTGATGAGGGGCTTCAGTATGTCTCGAACGACGAAAAGCTGATCCAGCTGAAAGAACGGGTGCAGCAGGAGAAGCAGGCGTTTGAGCAGGCCGCCCAGGAGCGTCTGGAAAGTGCGATGCAGCAGGCTGCCCAGGATGAGCTCCGTAATGAAACGGAAGCTCTTGAAGTGGCGGATATCCGAATGGAGAAAGATGAATTCGGAGATTACAAGATCAGCGGTGAACTGAAGAGTGTCGCGACACAGGTGATCAGTACGATTTCTGTGAAGTACGACATTAAAACACAGGACGGAGAAGTGGTCCGTTCAGAATCCGCCAAAGTGTACCCGAACTATTTAAACCCGGGCAGTACAGGCAGCTTTGAGAAAATGTACTACAACCTGGAAGAAGGGGAATATATGGTGGAAATGACAGAGCTGGAATGGTTAGTAGAATAG	MITCPQCNYENAEGSRYCSQCGASLSEESPADTKRKRLWLPILTPAIVLVLVGAALYFVYDQQAGINKEVVTWKTEAEEAALAGEYREAEKLLTRAIQERPDEEALQEELSHVQTALSMEKELEEVSKLLEEGSLSEADEQLSTIQAALKQENGRLYQTLVPALNEMDSRFTLQEVNEELSKITDVDELAAKLNTLSDLNLEEAAKVREKIYEKIVNRSTKTAEAAAEDKRYTEAIALIDEGLQYVSNDEKLIQLKERVQQEKQAFEQAAQERLESAMQQAAQDELRNETEALEVADIRMEKDEFGDYKISGELKSVATQVISTISVKYDIKTQDGEVVRSESAKVYPNYLNPGSTGSFEKMYYNLEEGEYMVEMTELEWLVE				NA	NA	NA	NA	NA
AK012_03484	1155			hypothetical protein	ATGAAACGCTCCTGGATGATCAGCCTGATCGTCTCCCTGCTCATCGTTGGGGGCGGAACGGCGGGCGTTTTCTATATCCTGGACACCGTGCCGGAACAACTGGCCGTGTCGGCTGTACTCAATCAGCCTCCTGAGGAAGATAAGAAAAACGCAGAAGTACCAAAGGAAACACAGGACATTATCTATGAATCTCAAAAACTTGTCGTCCAGATTGAACTGCCGGACGGCACGATCGGCTCAGGATTTTTATACAATGACAAGGGCGATGTGATTACGAATGCCCACGTTGTGGCCAATGCCGAGGAAGTCTCCGTCATTACGACGGACAGTAAAACCATGCCCGGCGATGTGATCGGGGTCAGCCGCGATACAGATGTCGCTGTTGTCCGTGTGCCTGGATTGAAGGGGCGAGATGCGCTTCCGATCCGGACAGAGGGCTATGCTGAGCTTTTGGATGAAGTGCTTGCGCTTGGAAGCCCGCTCGGTCTGCAGAACACAGTGACCCGCGGTGAAATCAGCGGCGTGGACCGGACGCTGGATATCGAACCGTTCCATTATGAGAATATGTATCAGATTTCTGCACCGATTTCTCCGGGTAACAGTGGCGGGCCGCTGCTGGACCGGAATACCGGAGAAGTGATCGGAATTAATTCGGCGAAGCTGGATGAGGAAACGATCGGCTTCAGTATCCCGATTGCCGACGTCATGCCGATGGTGGAGCGCTGGAGTGAGACACCGATGAAGTCGCTGCCTGAATTTCCTGAGCTGAACGACCAGGTGAAGTCTCCGGTTACCGGCACCGACGCCGAACAGGCGACCTACATGGTGCAGTATTTCTACGACAGCATCAATCAGGGCGATTTTGTAACGGCTTATTCCTTGATCAGTTCAAGCTGGCAGGAGAAAACGTCGTTTGAAGAGTTCCGTTCCGGCTACAACAACACGCTCAGTGTGACAGTGGACAATCTTGTCGCTGATCCAAAGGACGATCAGGTGGTTGTCACCGCCTTCATCAACGCTGAGGAAACGGTGGACGGGGAAGTCCAGGTGAAGAAATATAAAGTGGTTTATCCGATTCAGAAGGAAAACCAGTCCGTGAAAATCATGCAGGGCTCCGGTGAGGAAATCAGTAACGAAGACAAGCAGGAAGAATAA	MKRSWMISLIVSLLIVGGGTAGVFYILDTVPEQLAVSAVLNQPPEEDKKNAEVPKETQDIIYESQKLVVQIELPDGTIGSGFLYNDKGDVITNAHVVANAEEVSVITTDSKTMPGDVIGVSRDTDVAVVRVPGLKGRDALPIRTEGYAELLDEVLALGSPLGLQNTVTRGEISGVDRTLDIEPFHYENMYQISAPISPGNSGGPLLDRNTGEVIGINSAKLDEETIGFSIPIADVMPMVERWSETPMKSLPEFPELNDQVKSPVTGTDAEQATYMVQYFYDSINQGDFVTAYSLISSSWQEKTSFEEFRSGYNNTLSVTVDNLVADPKDDQVVVTAFINAEETVDGEVQVKKYKVVYPIQKENQSVKIMQGSGEEISNEDKQEE	PGPT0015105_5814	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
AK012_03485	1467	rebO		Flavin-dependent L-tryptophan oxidase RebO	ATGACGAATTATCAATCGCCGGGTTTTACATATCCTGATGATTTTCTCCGTATTATTCACAATGGTCTGCCTGGGAAGAATAACAAGAAACGAGTCATCATCATCGGAGCCGGAATGGCCGGGCTGACGGCTGGAAGCCTTCTACAGGCAGCCGGCCATGAAGTGACGATTTTAGAAGCCGGCAGCCGGCTCGGCGGCAGAGTCTATACGGTGCGGGCGCCGTTTAGTAATGGCAATTACCTGGACGTAGGAGCCATGAGAATTCCGACCAACCATAAACTCGTTTATGCGTATATTGATAAATTCGGCCTGGAAACGGCTCCTTTTCAAAATACACGGGCCAATGATCTATTGATGATCAACGGAAAAAGCATTTACCACCGGGATTATGAAAAAAATCCCGCCATCCTTGATTTCCCTCTGGATCCGGGAGAACGGGGAAAAACCGCCAAGGAGCTTTTTTTATCCGCCGTCCGTCCATTCCTTGACCTTTATAACAACAGTACGGACGAAGAAAAAGAGCGGCTGAGGGATCAATTCTCCGAACTTTCGATGGGGGAGTATCTGCGGAATAACCCGTACGGACCCTCCCTGTCTCTTAATGCCGTGAGAAAAATCAAAGTGCTTCTCGGAGTGGAAGGGTTTCCGGAATTCGCCTTTCTCAACATCCTTACAGACATTACGTTCCCCATTTTTCAGGGAGATACGAAGTTCAGGGAGATTAAAGGCGGCAATGACCGGCTGCCGTGGGCCTTTTATCCGTACCTTTCCTCCTCCATCCATTTCTGTGAACGGGCGGTGGCGATCAACCATCACAAAGACGGGGTCCAAGTGGTTTCCAAAAACGAAAAAAATGGCGGCTGGTCCACCTGGTGCGGGGACTATGTCCTGACGACCATTCCGTTTACGACGTTCCAATGGATCGACGTCCACCCATACGATACCATCTGCATTAAAAAATGGGCGGCTATCCATGAGATCATCAACGTTCCAGCCGTTAAAATCGGGATCGAGTTTTCCTGTAAATTCTGGGAGCAGTATCCGGTGGGGAATATTGTCACGGATTATCCCTCCCGCTTCATTTATCAGCCGAGTCACGACGGTGGTAAACCGGGTCCCGGGATTCTGCTCGCCAGTTACACGTGGGGGCAGAACGCGCTGTTATTCAACAGCCTCAGCAAAAAACGGGCGGTGCAGGAAGTGATGCGCGATCTTGCCAGAGTGTACGGCCGGGTCGTTTATGACACGTATATGACAAGCATCGTCTACAACTGGAGCCGCAACCCTTATTCCGCAGGCTGTTTCACCCTTTTCACTCCGGGTCAGAGCCGGGACCTGGAGGATATTATCCCGCTTCCGGAAGGCCGGATTCATTTTGCGGGCGAGCACACCTCCTCCTACCACGGATGGATTGAAGGAGCCATTGAGTCCGGCATCAGGGGCGCAGTGGAAATCCATAACCGATAA	MTNYQSPGFTYPDDFLRIIHNGLPGKNNKKRVIIIGAGMAGLTAGSLLQAAGHEVTILEAGSRLGGRVYTVRAPFSNGNYLDVGAMRIPTNHKLVYAYIDKFGLETAPFQNTRANDLLMINGKSIYHRDYEKNPAILDFPLDPGERGKTAKELFLSAVRPFLDLYNNSTDEEKERLRDQFSELSMGEYLRNNPYGPSLSLNAVRKIKVLLGVEGFPEFAFLNILTDITFPIFQGDTKFREIKGGNDRLPWAFYPYLSSSIHFCERAVAINHHKDGVQVVSKNEKNGGWSTWCGDYVLTTIPFTTFQWIDVHPYDTICIKKWAAIHEIINVPAVKIGIEFSCKFWEQYPVGNIVTDYPSRFIYQPSHDGGKPGPGILLASYTWGQNALLFNSLSKKRAVQEVMRDLARVYGRVVYDTYMTSIVYNWSRNPYSAGCFTLFTPGQSRDLEDIIPLPEGRIHFAGEHTSSYHGWIEGAIESGIRGAVEIHNR	PGPT0007641_1048	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINE_USAGE	PLANT_DERIVED_PUTRESCINE_DEGRADATION,PGPT0007641-aofH-K00274	NA	NA
AK012_03486	654		COG2968	26 kDa periplasmic immunogenic protein	ATGTATCAAGCCTATCGACAGGACGGGGCCGACCGGCAGATCCGTGTCCAGGGGTCAGGAAGCGTCAAGGTGAAGCCGGACACAGCGGTTATCCAGCTCGGAGTTGCGACGGAAGGAACTAATTTGACCAGTGTTCAGAATGAAAATGCCTCCACCATCAGCCGTGTGAAAAGCAGGCTGATGGCAGCAGGTGTGGAAGAGGAGAACATTCAGACGTCCGATTATTCCGTATACCCGCAGTACGATTATGTGGACGGGAAACAGGAGTTCCGCGGTTATCAGGTTTCCCATATGCTGACTGTGACCGTAGAGGATATAGAACAGACGGGCGCGGTCATTGACGCAGCGGTCCAAAGCGGAGCAAACCGGGTGACGACTATTGAATTTACGGTCAGCCAGTCCTATTACTATTATCAAAAGGCTCTGCAGATAGCCCTCGGCCAGGCGCTGGCCACCGCTCAGACCATTGCGAATACGATGAACGTGAAACTCGATCGTAAACCGTTCCGGATCGTCGAAGAAAAAGGACCGGATATTCCTCCTGTCCAGCCTTATGCCAAAACACAGACGCTCAGTGAAAGTGCTGTGCCGATCGAGCCGGGGCTGATGGAAATCGAGGCCCGTGTCGATGTCTGGTTTCCGTTCTATCCTTAA	MYQAYRQDGADRQIRVQGSGSVKVKPDTAVIQLGVATEGTNLTSVQNENASTISRVKSRLMAAGVEEENIQTSDYSVYPQYDYVDGKQEFRGYQVSHMLTVTVEDIEQTGAVIDAAVQSGANRVTTIEFTVSQSYYYYQKALQIALGQALATAQTIANTMNVKLDRKPFRIVEEKGPDIPPVQPYAKTQTLSESAVPIEPGLMEIEARVDVWFPFYP	PGPT0012980_1981	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012980-yggE-K09807	NA	NA
AK012_03487	801	zupT_3	COG0428	Zinc transporter ZupT	ATGGAAAACTTACTGCTCGCGTTCGGTCTCACCCTGTTTGCAGGGCTGGCTACCGGAGTAGGGAGCATACTCGCATTTTTCACATCAACAACCAACACACGATTTTTATCGCTGTCACTCGGGTTTTCGGCCGGAGTGATGATCTATGTATCCATGATCGAAATTTTCTTCAAGGCCCAGGACTCCCTTATCAGTGCGCTCGGGAATGAGATGGGCCAGTGGATCACCGTCGTGTCCTTTTTCGGAGGCATGCTGCTTATTGCCCTGATCGATAAATGGATTCCGAAAGCCGGCAACCCTCACGAAGTGAAGAAGGTCGAGGATATGACACAGGACAAGCAGAAGGATCGTGATCTTTTGAAGATGGGAACGTTCACAGCGCTCGCCATCGCCATTCACAACTTTCCGGAAGGGATCGCCACCTTCACAGCGGCGTTGAATGACCCGGCCCTTGGCATTGCCATCGCCACCGCGATCGCGATCCATAACATTCCAGAGGGAATTGCCGTGTCGGTGCCGATTTATTTCGCCACAGGGGATAAGAAAAAGGCGTTCAACCTGTCCTTCTTAAGCGGGTTATCCGAGCCGGTCGGAGCCATTCTTGCCTATCTTGTACTCATGCCTTTTCTGAATGATATGATTTTCGGGATTCTTTTTGCCGGTGTGGCCGGTATCATGGTTTTTATCTCCCTTGATGAACTGCTCCCGGCCTCCAGAAGGTACGGGGAGCCGCATTTATCCATTTACGGCGTCGTCGCCGGAATGGCAGTGATGGCGCTCAGCCTGCTGCTGTTTATTTAA	MENLLLAFGLTLFAGLATGVGSILAFFTSTTNTRFLSLSLGFSAGVMIYVSMIEIFFKAQDSLISALGNEMGQWITVVSFFGGMLLIALIDKWIPKAGNPHEVKKVEDMTQDKQKDRDLLKMGTFTALAIAIHNFPEGIATFTAALNDPALGIAIATAIAIHNIPEGIAVSVPIYFATGDKKKAFNLSFLSGLSEPVGAILAYLVLMPFLNDMIFGILFAGVAGIMVFISLDELLPASRRYGEPHLSIYGVVAGMAVMALSLLLFI	PGPT0004250_1318	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
AK012_03488	588			hypothetical protein	ATGCCGCTCCTACAGCATAATGAGACAACGATCCAATATACCGTTCATAAACAGCCGAAGCTGCAGTTTACGAAAATTTACCTGGATGACTTGAACGGGGTCCAGGTGACAGCCCCCGAGGAAAAATCTGATGAGAAAGTCCAGGCTTTTGTTGAGAAGAAAGCCGGCTGGATCATCGACAACTGGCAGAAAACCCACTCGGATCTTTACCCTGAGTCCCTCTCCGCAGAAGAAGGACAGAAAATCATCTATCTCGGCCGCGCCTACCGGGTATTGTTTGAAGAAGCAGACACGAAGGAGAGCACGTTTTCTTTTCAAAAGGGGAAATTCCAGTTCCGCTTCTCTCCTTCAACACCAGAGGAAGAACAAATCGCCGCATTGAACGAGCACATCGAAGCGTGGCTTCGGGAAAAAGCGGCTGAAAAATTCAAGGCCCTGACAAAACAGCCCGTAACGGTGGAGGATGACGTTACCCGTCTTGGCAGCAGACAGGAAGATGCCATTGCGCTCAACTGGCGGCTCATCCACCGAAAAAAAGACGCCATCCAGACGGTCATCGAAGATATTATTGAAGGAAAGACCTATTAA	MPLLQHNETTIQYTVHKQPKLQFTKIYLDDLNGVQVTAPEEKSDEKVQAFVEKKAGWIIDNWQKTHSDLYPESLSAEEGQKIIYLGRAYRVLFEEADTKESTFSFQKGKFQFRFSPSTPEEEQIAALNEHIEAWLREKAAEKFKALTKQPVTVEDDVTRLGSRQEDAIALNWRLIHRKKDAIQTVIEDIIEGKTY				NA	NA	NA	NA	NA
AK012_03489	1113			hypothetical protein	ATGAAGCTTCAGAAGCTTACACCTGAGTTTGACCCGTGGGAAGCCTACATGGACGTGAAGGAACACGGTCATATGACGTTATCCAATATTGAATTTACGACGACGACGCTGTGCAATATGCGCTGCGAGCACTGTGCGGTCGGATATACCCTGCAGCAGAGGGACCCGGAAGCCCTGCCGATGGACCTGATCCGGAAGCGTCTGGACGAAATCCCTCACCTCAGGACCTTGAGCATAACCGGCGGCGAGCCGATGATGTCGAAAAAGTCCGTGGAAAACTATGTGCTGCCCCTGCTGAAATACGCCCATGAACGCGGAGTCCGGACACAGATCAACTCCAACCTGACACTGCCTTATGAGCGCTATATTCCGATCATCCCCTACCTCGATGTTTTACATATTTCACATAACTGGGGAACGCTCGAAGAATTCATCCATACCGGGTTCGCCCGCATGGAGCGCAAGCCTTCCGAGGAGAACCGGAAGAAGTTTTTCGACCGGATGGTGGAGAATTCCCAGCGTCTGGCCGATGAAGGCGTGATGGTGTCCGCCGAGACGATGCTGAACCGCCGCACCTTCCCTTATTTGGAATCGATCCATGATCATGTGAAAGAAATGAAGTGTGCAAGGCACGAAATTCATCCGATGTACCCGGTGGACTTCGCAAGCGCCCTTGAAACACTGAGTCTTGAGGACATGCGCAAAGGGATCAACCGCCTGCTTGATCACCGTGATGAAGATATGTGGATGCTGTTCGGCACGCTGCCATACTACCCGTGCAGCACGGATGACGATGACCTGGACATGCTGAAGCGCCTGTACAGTGCGGAAAACGTAACGGTGAGAAACGATCCGGACGGCCGTTCCCGCCTGAACGTCAACATTTTCAGCGGCGACATCATCGTCACCGATTTCGGGGATGAGCCCGGCCTCGGCAACATCCAGGACACTTCCCTGGAAGATGCATATCAGCAGTGGATGCAGACCGATACGGCGAAAAGCCTGAACTGTCACTGCCCGGCCGTGGAATGCCTCGGTCCGAACGTTCTTGTGAAGAACTCGTATTACCAGGACGTCGATTTTCAGAAGCGGGAAGCGAAAATCACCCTGTAA	MKLQKLTPEFDPWEAYMDVKEHGHMTLSNIEFTTTTLCNMRCEHCAVGYTLQQRDPEALPMDLIRKRLDEIPHLRTLSITGGEPMMSKKSVENYVLPLLKYAHERGVRTQINSNLTLPYERYIPIIPYLDVLHISHNWGTLEEFIHTGFARMERKPSEENRKKFFDRMVENSQRLADEGVMVSAETMLNRRTFPYLESIHDHVKEMKCARHEIHPMYPVDFASALETLSLEDMRKGINRLLDHRDEDMWMLFGTLPYYPCSTDDDDLDMLKRLYSAENVTVRNDPDGRSRLNVNIFSGDIIVTDFGDEPGLGNIQDTSLEDAYQQWMQTDTAKSLNCHCPAVECLGPNVLVKNSYYQDVDFQKREAKITL				NA	NA	NA	NA	NA
AK012_03490	885			hypothetical protein	ATGCAGCCAACCGTTATCATTACCGGATCCTCCAGCGGGTTCGGACAGCAGACCGCTGTGAAATGTGCAGAGAAAGGATTCCGTGTCATTGCAACAATGCGGAATATGGAAAAAGCGTCGGTTTTCCGAAGCGAAGACCTGTCAGAAGACGTGAAGCAGAAGATCGAAGTGTGGCAGCTGGATGTCACAGATGACGCATCCATTGAACGCTTTAAGGAAAAAGCAGAACAACTGGAACGGTTGGATGTGCTCGTGAACAATGCCGGCTATGCCGTGGGCGGGTTTCTGGAGCAGGTACCGCTTGAAGAATACCGCCGCCAGTTCGACACGAACGTTTTTGGTGTTATCGCCGTAACGAAGGCCGTTCTGCCCGTGATGCGCCGGCAGGGATACGGAAAGATCCTAAATGTCAGCAGTGTCAGCGGGTTGATCGGATTTCCGGGCCTCTCCGCGTACGTCTCCTCCAAGCATGCCTTAGAGGGGCTTTCGGAGAGTCTGCGCTTTGAACTGCAGCCGTTCGGCATTGATGTCGCGTTGATTGAACCTGGCTCTTTCCAGACGAATATCTGGTCGTCCGGTATGAAGCTTCCAGAGGAAGTACACAATCCTTCGTCGCCTTATGCTTCCTACATAAAAGGACTGTGGAGCGCTTTGAACGAAGAGTCCCGGGCCCAGCCGGGGGCCGTTGGCGATCTCATGACAGGATTGATGGAAAAAGACAGGCTCAAGAAGCTCCGTTATCCTGTCGGGGCGGGTGTGCGCACAAATGTGCTTTTGAAGCGGCTCCTGCCATGGCAGTGGCTTGAGAAAGCCGTGCTGAAGCGAATTTTAGGATCCAGACAAACAGAAGGAGGAAAGCGTGATGGCCGAGTACAGCATTCTTGA	MQPTVIITGSSSGFGQQTAVKCAEKGFRVIATMRNMEKASVFRSEDLSEDVKQKIEVWQLDVTDDASIERFKEKAEQLERLDVLVNNAGYAVGGFLEQVPLEEYRRQFDTNVFGVIAVTKAVLPVMRRQGYGKILNVSSVSGLIGFPGLSAYVSSKHALEGLSESLRFELQPFGIDVALIEPGSFQTNIWSSGMKLPEEVHNPSSPYASYIKGLWSALNEESRAQPGAVGDLMTGLMEKDRLKKLRYPVGAGVRTNVLLKRLLPWQWLEKAVLKRILGSRQTEGGKRDGRVQHS				NA	NA	NA	NA	NA
AK012_03491	747			Thermostable monoacylglycerol lipase	ATGGCCGAGTACAGCATTCTTGAAGGGGCAGAGGAAATCAAATATGAAGGCAATGAAGTAGGGATTCTCGTTTCCCACGGGTTCACAGGGACCACGCAGAGTATGCGTCCGCTTGCAGAGGCCTATGCCCGCGCGGGGTATACCGTATACTGTCCGCGTTTGAAAGGTCATGGGACAGCACCGGAGGATATGGAAACGACGTCCCATAAGGATTGGATCGAGTCTGTCGAAAGTGCCTACCAGTGGCTGCGCGAACGATGCAGCTCGATTTTTGTCGTCGGCTTATCGATGGGAGGCACCCTTGCTCTTTATATGGCTGGTGAGCACAAGGATATCCAGGGAGTCATTCCGATCAACGCAGCGATCGACATCCCCGTGATGGAGGAGAGCGCCGCTGCAGAAGAGCGTTTTCTCGATGCCATCGGTTCGGATATTAAAAATCCGGAGCAGGACGAACTGGCCTACGAAAAAACACCGGTCAAATCGATTACCGAAATCACAGTATTGATGGATGATGTAAAAAAACGTCTCGACACCATTCGCTGTCCGATTTTGATTTTCGTTTCCGATGAAGACCACGTTGTCCCTCCGAATAATTCGGAAGTGATTTTCGACTCGGTCTTCTCCGAGCATAAGGAACTTGTCCATATGGAAAACAGCTACCATGTGGCCACGCTTGATCATGATCAGGATTTGATCATCGAGCGGAGTCTGGAATTTTTCCAGATGTACACGAATACGAAGTAA	MAEYSILEGAEEIKYEGNEVGILVSHGFTGTTQSMRPLAEAYARAGYTVYCPRLKGHGTAPEDMETTSHKDWIESVESAYQWLRERCSSIFVVGLSMGGTLALYMAGEHKDIQGVIPINAAIDIPVMEESAAAEERFLDAIGSDIKNPEQDELAYEKTPVKSITEITVLMDDVKKRLDTIRCPILIFVSDEDHVVPPNNSEVIFDSVFSEHKELVHMENSYHVATLDHDQDLIIERSLEFFQMYTNTK				NA	NA	NA	NA	NA
AK012_03493	567	thiT	COG3859	Thiamine transporter ThiT	ATGAGAAACCGCAGAGTCCTGTTTTTAGTTGAAATTGCGATCTTTTCCGCATTAGCACTACTACTGGATATCATCCCGTTTCTATCATTTAAATTGTGGGCCCAGGGCGGCTCCGTCTCGTTTGCGATGGTGCCGGTCTTCATTATGGCCTTCCGCTGGGGTGTGAAGGGCGGCATAGCGACAGGACTGCTGCTCGGCATCTACCAGATTTTAACGGGTGCCTATATCATCACCCCTCTGCAGACGCTGCTCGATTATGTCGTAGCATTTGCCGTGATCGGTGCGGCAGGCATCGTTGCCAAACCGCTTTGGAATGCGATCCGGTCCAAGGAAACGAAAGCCCTTGTCGGCTGGATCATTACGGGCTGCTTTATCGGAAGTGTACTCCGCTTTTTCGGCCACTTTGCTGCGGGGATCATCTTTTACGGTGAATTCGCACCGGAAGGACAGCCGGTCTGGCTGTATTCCCTCGTTTATAACGGCGGATACATGCTGCCAGCGTTTATTTTGAGCGCCATCGTGATCAGCCTCTTGTTCATGCAGCGACCAAAGCTTGTGCTTCATTAA	MRNRRVLFLVEIAIFSALALLLDIIPFLSFKLWAQGGSVSFAMVPVFIMAFRWGVKGGIATGLLLGIYQILTGAYIITPLQTLLDYVVAFAVIGAAGIVAKPLWNAIRSKETKALVGWIITGCFIGSVLRFFGHFAAGIIFYGEFAPEGQPVWLYSLVYNGGYMLPAFILSAIVISLLFMQRPKLVLH	PGPT0009100_383	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_TRANSPORT,PGPT0009100-thiT-K16789	NA	NA
AK012_03494	1446			hypothetical protein	ATGAAAAAAATTAAGAGGTTAGCAGGGAAAAAGTGGGTCTGGCTGCTGCTTTTGATCGTGCTGATCCTTTCTGTCATGATTGCCTACCATACCTCATGGAAAGCGCTCCCGGAAGGCGTTTCCTACAAGGGGGATGTCCATCAGATGGAGGATATCGAGTTTTTCCGGGACCTTTCCTATGAGGATCCGGAAGGAAATACGGTTCATGACCTGCAGGTGTTTGAGGAAATCTATAACACCATAGGTGAGGCGGATGATTTTATTGTCGCTGATATGTTTCTTTTCAACGGCTACACGAACGGCAAAAATGAATTTCCTGAAATCAGCGGCCGTCTTGTGGATGCTGTATTAGAACGAAAAGAAGAGGTGCCTGACCTTGAGGTCGTGTTTATTACCGATCAGATCAATACCATCTACGGCTCCTATGAATCGGAAACGATCCGGCGGCTGGAAGATGGCGGGGTGAACGTCGTCTTAACCAATCTTGATAAGCTGAGGGATTCCAATCCGTTATACTCGAGTGCGTGGCGTCTGATGTTTTCCTGGATGGGTACCGGAGGAGAAGGGTGGATCGGCAACCCGATTGCCAAGGAAGCGCCTGATGTTACTCTGCGGTCCTACATGAAGCTGTTGAATATTAAGGCCAACCACCGAAAGCTCCTCGTAACCGAGGATTCGGCGGTTGTTTCCACAGCAAATCCTCACGATGCCAGCGGGTATCATGAGAACGTTGCTTTTAAAATGGAAGGGCCGATCATTGAAGATATTCTGGAAGCAGAAGAAGCGGTGGCCCGCTATTCCGGCGGGGAATTCATCGACTACAGCGGCTATGAATGGGAGGAGCAGCAAGGGCCTCTCCAGACACAGTTCGTAACGGAAGGAAAAATCTATGATGCCGTGCTGGAACAGCTGGAAGCGGCCGGTGAAGGGGATGACGTCTGGATCGGGATGTATTACTTAGCCGACAAAAAGGTGACCGCTAGGATCGATGAAGCGGCCAACCGCGGGGCGGAAGTGCGCATCATCATGGACCCCAATAAAACCGCGTTCGGTCATGAAAAGCCCGGCCTTCCCAATCTGCCAGTCGCTGCGGAGCTGAAGAATCTCGGGAATGAGAACATCCACCTGCGCTGGTATGATACGGACGTTGAACAGTACCATACGAAAATGCTGTATGTCGATGGGCTCGATCATGATGCCATCGTCGCCGGTTCCGCCAACTATACGAGAAGAAACCTGTCCAACCTCAACCTGGAAGCGGATGTCGTCATCCAAGGTCCGGGAGAGGAGGAGGTCTTTCAGGAAGTCAACGACTACTTTACTCGTATCTGGTCCAATGAAGAAGGCCACTATACGACGGAGTATGAAACCTATCAGGACAACCTGACATCCATCCGTTATGCGACGTACTATCTGCAGAAGTGGACATGGTTTACCACTTATTAA	MKKIKRLAGKKWVWLLLLIVLILSVMIAYHTSWKALPEGVSYKGDVHQMEDIEFFRDLSYEDPEGNTVHDLQVFEEIYNTIGEADDFIVADMFLFNGYTNGKNEFPEISGRLVDAVLERKEEVPDLEVVFITDQINTIYGSYESETIRRLEDGGVNVVLTNLDKLRDSNPLYSSAWRLMFSWMGTGGEGWIGNPIAKEAPDVTLRSYMKLLNIKANHRKLLVTEDSAVVSTANPHDASGYHENVAFKMEGPIIEDILEAEEAVARYSGGEFIDYSGYEWEEQQGPLQTQFVTEGKIYDAVLEQLEAAGEGDDVWIGMYYLADKKVTARIDEAANRGAEVRIIMDPNKTAFGHEKPGLPNLPVAAELKNLGNENIHLRWYDTDVEQYHTKMLYVDGLDHDAIVAGSANYTRRNLSNLNLEADVVIQGPGEEEVFQEVNDYFTRIWSNEEGHYTTEYETYQDNLTSIRYATYYLQKWTWFTTY	PGPT0007725_2438	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
AK012_03495	351	yflT		General stress protein 17M	ATGAAACCACTTGTACGTGAATACACAAATGATGAACAGTTGAAGGATATGGTAGAGAAGCTGAAGAACGAAGGCATTGATAACGAAGAGATTTACATCCTCTCCCATGATGATGACCGGACCGAACGGATTTCCAAAAGTGTGAATGCGAATACGATCGGTGCTACCGAGCAGGATGCGAAGAGTGTCCTTACGAATATCTTCAGTAAAAAAGGCGATGAGCTCCGTACGAAGATGCAGGAAATTGGATTCTCCAAAGAGGAAGCCGGACAGTACGAAGAGGATCTGGATGAAGGGAAAGTTCTTTTAATCATAACCAACCCAGCGAAGGCTCAAGCTGTCCTGACATGA	MKPLVREYTNDEQLKDMVEKLKNEGIDNEEIYILSHDDDRTERISKSVNANTIGATEQDAKSVLTNIFSKKGDELRTKMQEIGFSKEEAGQYEEDLDEGKVLLIITNPAKAQAVLT	PGPT0014649_39	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_INDUCIBLE_PROTEINS,PGPT0014649-yflT-NA	NA	NA
AK012_03496	873			hypothetical protein	ATGAACAATCAAATCATTGCTACATTTTCAATCGCCGCCTGTGATCCGGAACGCGGGGAATGGGGCGTGGCGGTACAGTCGAAGTTTTTAGCCGTCGGCTCCGTCGTACCATGGGCGAAAGCAGGTGTGGGGGCGGTGGCCACCCAGGCCTTTGCCAACCCTGCCTATGGTCCGGAAGGGTTGAAGCTCCTTGAGGAAGGTCTGTCTGCCGAGGAAGTCATCAAAAAATTAACCGACGCTGACCTTCAAAAAGAAGACCGCCAAGTCGGAGTCATTGACAGCTCCGGCCGGGCAGCGGCGTTTACCGGAAAAGACTGTTATGACTGGGCCGGGGGAGTCACAGGGAAGCATTATACTGCTCAAGGGAACATATTAGTAAACCAAGAAACGGTGACCCAAATGGGAGACACGTTTGAAAAAGCAGAGGGGCCACTGGCTGACCGTCTCATTCAAGCGATCCAAGCGGCGCAGGAAGCGGGCGGAGACAGCCGTGGAAAGCAGTCGGCGGCCGTCCTTGTCGTTCGTGATCAAGCAGGCTACGGCGGACTCAGTGATGTAGCTGTAGACCTCAGAGTAGATGATCATCCTGAGCCGATCAAGGAACTGGAGCGGATTTACCAGCTTCATCAATTGTACTTTGGTGAAACGAAGGATACGGATATCCAGCTGATCGATGAATATGTAAAAAAGGAAATCACCGGCCATTTAGTCCGCCTTGGTTACCTCGAGAGTAAGGAAGTTGATGACGAGGTGTTCTATGAATCCTGGACGACGTACCTGCATACCGAAAACTTCGAAGGGCGTGAGCTGGCCCGGGGGAAAGTCGATCGCAAGGTGCTGGATTTCATGAAAAGTCAGCCTGGGGAAATCTGA	MNNQIIATFSIAACDPERGEWGVAVQSKFLAVGSVVPWAKAGVGAVATQAFANPAYGPEGLKLLEEGLSAEEVIKKLTDADLQKEDRQVGVIDSSGRAAAFTGKDCYDWAGGVTGKHYTAQGNILVNQETVTQMGDTFEKAEGPLADRLIQAIQAAQEAGGDSRGKQSAAVLVVRDQAGYGGLSDVAVDLRVDDHPEPIKELERIYQLHQLYFGETKDTDIQLIDEYVKKEITGHLVRLGYLESKEVDDEVFYESWTTYLHTENFEGRELARGKVDRKVLDFMKSQPGEI				NA	NA	NA	NA	NA
AK012_03497	372			hypothetical protein	ATGGAAATCGCAGCGATTACAGCAGCCATTCTATTTGGTCTTGTGGCTGTCTTTCAAGTGTTACTCGCCTTCGGGTTTCCGCTTGGAGAAGCGGCCATGGGAGGCTCCCACCGCGTCCTGCCGGCGAATTTGAGAGCAGCAAGCGCACTGAATGCCCTGCTGCTGATTTTTATGGCCGGCATCGTTCTCCAGCATGCGTTCCAATTCTCTGATCTGCTCCGTTTTTTACCCACCACGATCCTCATGTGGGTGATCATCATTTTTATGGGCATCAACACGTTAATGAACTTAATATCAAGAAGTAAAAAAGAACGTCTGATTATGACGCCTGTTTCCGGCCTGCTGTTCATCCTTTGTTTATGGGTGGTGTGA	MEIAAITAAILFGLVAVFQVLLAFGFPLGEAAMGGSHRVLPANLRAASALNALLLIFMAGIVLQHAFQFSDLLRFLPTTILMWVIIIFMGINTLMNLISRSKKERLIMTPVSGLLFILCLWVV				NA	NA	NA	NA	NA
AK012_03498	216			hypothetical protein	ATGAAAAAAACACTTGTTGGATTCATATGGCTGACAGGAATCTACACCTTTCTCCATATTCTATTAGGCTTTCATATGGAAAAACCCCTCCTTCTATTCTCTATCAACACCCATATTTCTGTCGGGCTGCTGACTAGGTTGATTCAAGCCTTGTTTATTTTAAGTTTGTTGATCTATGTAAAAAAATACGTAAACATCCGCAAAGAGACGTCCTAA	MKKTLVGFIWLTGIYTFLHILLGFHMEKPLLLFSINTHISVGLLTRLIQALFILSLLIYVKKYVNIRKETS				NA	NA	NA	NA	NA
AK012_03499	174			hypothetical protein	TTGGGATTCGTTGTATTTGTAGTTATCGCACTAACCATTGTGTTCGTTATTATCCTTGGCCTTTTAAGCCTCAAGAATGAAAAGGACACAAAAATCATCCGGCCGCTTAATGAAATTCAAGAAAGGCTTGATCGTATAGAGAAAGAACTGAATGATTTGAAGAAAAAGAAGTAA	MGFVVFVVIALTIVFVIILGLLSLKNEKDTKIIRPLNEIQERLDRIEKELNDLKKKK				NA	NA	NA	NA	NA
AK012_03500	858	dhmA2		Haloalkane dehalogenase 2	ATGAACCAAACGACAACTATGAATGAAGAAACGTTTAAGCAAAGACAGCAATCTGTAATGCTGGAAGGCATCGTCGAAGAACCGGTTAAAATCAATTATACGGATGTAGGCTCAGGGACTCCTGTGATGCTTTTACACGGCATCCCGACATGGTCCTACTTATATCAGAGCGTCATTCCTGAACTGGAGGAAGACTACCGCGTCATTGCTCCAGACCTGCTCGGCTATGGACAATCCGATCAGCGCGACCAGTTCGACCGCTCCCTTCATGTGCAGGCGGATATGGTGCTCAAGCTTATGGACGAATTAGGATTGGATCAAGTGAATCTTGTCGCTCATGATATCGGTGGAGGCGTTGGTTTACTTCTCGCTCTTCAAGCGCCGGAACGCATCAATAAGCTCGTTCTATCCAATTCCGTCGCCTATGATTCCTGGCCGATTCAAGATATGCTCGTGATGGGACACCCTTCCAAGAAGAACGAGTCCACGCAGGAATTTGAAGCGTTTCTATCCAAAGCGTATAAAGAAGTGTTCGCTCATCCGGAACAGCTGACCGAAACCTTCTTACAGGGCATCATGGCTCCTTACCTGCATGAGGAAGGCAAGCTGAGCCTCGTACGTAACGCCGCAGCGTTGAATACAAACGAAACGACGGCGATCACGTCGAAGCTTTCCACCATCAAGCAGCCTGTTCTTCTTTTATGGGGAACGAAAGATGAGTGGCAGCCGGTGGAAACAGCAGAAAAACTCATTAAAGATCTGCCTGACAGTACACTCATAAGGTTTGACGAGTCCGCCCACTGGGTACCTCAGGAAGCACCTAAAGAATTCAGTGCAGAAATTAAGAAGTTCATATAA	MNQTTTMNEETFKQRQQSVMLEGIVEEPVKINYTDVGSGTPVMLLHGIPTWSYLYQSVIPELEEDYRVIAPDLLGYGQSDQRDQFDRSLHVQADMVLKLMDELGLDQVNLVAHDIGGGVGLLLALQAPERINKLVLSNSVAYDSWPIQDMLVMGHPSKKNESTQEFEAFLSKAYKEVFAHPEQLTETFLQGIMAPYLHEEGKLSLVRNAAALNTNETTAITSKLSTIKQPVLLLWGTKDEWQPVETAEKLIKDLPDSTLIRFDESAHWVPQEAPKEFSAEIKKFI	PGPT0006855_681	DIRECT EFFECT	BIO-REMEDIATION	XENOBIOTICS_BIODEGRADATION	XENOBIOTIC_HYDROCARBONS|OIL_DEGRADATION	XENOBIOTIC_DICHLOROPROPENE_DEGRADATION,PGPT0006855-dhaA-K01563	NA	NA
AK012_03501	315	trxA_3	COG0526	Thioredoxin	ATGGCTATCCGAAACGCCACAGACGAAACATTTGCACAGGAGACAAGCAGCGGTCTCGTTATCGCAGACCTTGGTGCCCCATGGTGCGGTCCTTGTAAAATGATCGCTCCTGTTTTGGAAGAAATTGATGAAGAACAGGGAGATCAAATGAACATTGTAAAAGTAGATATTGATGAAAATATGGAAACTGCTCAGAAATACGGGGTGATGAGCGTGCCCACCCTCTTATTCTTCAAAGATGGAGAACTCGTCGATCAGGCTGTAGGTTTCAAGCCTAAGGAAGAAATTGTAAGCATCGCCGAAAAACATGCGTAA	MAIRNATDETFAQETSSGLVIADLGAPWCGPCKMIAPVLEEIDEEQGDQMNIVKVDIDENMETAQKYGVMSVPTLLFFKDGELVDQAVGFKPKEEIVSIAEKHA	PGPT0013055_10001	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK012_03502	360	arsD		Arsenical resistance operon trans-acting repressor ArsD	ATGAAAAAGGTGGAAATTTTCGACCCGGCCATGTGCTGTTCCACAGGCGTCTGCGGACCGAGTGTCGATCCGAACCTGACACGAGTGGCTTCAGCCGTTTATTCATTGGAGCAAAAAGGCGTGAATATTACAAGATTCAATCTGGGTAATGAACCAGAAGCTTTTGCTGAGAATGGGGCAGTGAACGAGGTACTTCAGGAAAAAGGGGCAGATGCTCTTCCTGTGACTCTTCTGGACGATCAGGTTGTCAAAGTAGGAGAATACCCGACCAATGAAGAGTTCAGTGAATGGCTTGAAATCAAAGGAGAAGAATTGACGCAGAAACCGAAAGTCCGTGTTTCCATCAATATGGACAAATAA	MKKVEIFDPAMCCSTGVCGPSVDPNLTRVASAVYSLEQKGVNITRFNLGNEPEAFAENGAVNEVLQEKGADALPVTLLDDQVVKVGEYPTNEEFSEWLEIKGEELTQKPKVRVSINMDK	PGPT0004700_6	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004700-arsA-K01551	NA	NA
AK012_03503	1770	arsA_2		Arsenical pump-driving ATPase	ATGCATACATCCTACCATCCACGTACACATGTTCAAACGCCGTACCTGTTTTTCACTGGAAAAGGAGGGGTTGGAAAAACATCCGTCGCCTGCGCCACAGCGGTAAGCCTGGCGGATCAGGGGAAGAAGGTTCTGCTCGTGAGCACGGATCCTGCCTCCAATCTTCAGGATGTGTTTAATATGGAACTGACTCGTGAGCCTGCAGCTGTTCCCAGTGTGAGCCATCTGTATGCCAGTAATATTGACCCGGAGGAAGCAGCAAGAGCCTACAGGGAAAAGACCGTCGGGCCGTATCGGGACAAGCTTCCCGAATCTGTCGTCAACCAGATGGAGGAACAGCTGTCCGGGGCCTGTACCGTCGAGATTGCCGCCTTTGATGAATTTTCCCACCTGCTCGCAGACGATGGCATATTCAAAGACTTTGATCATGTCTTGTTTGATACGGCGCCCACAGGGCACACGTTAAGGCTTTTGACCCTTCCGACAGCGTGGTCCGGATATTTGGAGGAATCGACGCATGGAGCTTCCTGTCTGGGACCGTTGTCCGGCCTCGGGGACAAGAAGAATATGTACCAGAAAGCAATGGATACTCTCTCCAATGGGGAGAAAACGACATTGGTCATGGTGGCAAGGCCGGAAGAATCCACCCTTCTGGAAGCAGACCGGGCATCCGTTGAGCTTGGAAGGATCGGGATTGAACATCAAATGCTGGTGATCAATGGGGTCTTCCAGCCGCAAGATAGCGGGGATGAAGTGGCGTCTGTCTTTTACACGGAGCAGCAGGAAGCCTTGAAGGAGATCCCTGACGCCCTTCAACAGATCCGCACGTATTCTTTACCTTATGTTCCTTATTCCTTAACCGATATTCAGCACATGCGTCAGATTGTGAGTGAGTCGCCGATGGCTGAGGTGGAGATTACGGAAGAAAGCGTGGATGTTGAGCCGCTTCCTTCATTAAAAGAGGTCGTGGACGACTTCTCAGCGAAAAACACGCGTGTCATTTTTACGATGGGAAAAGGCGGCGTCGGAAAAACATCGGTGGCTTCGGCGATTGCCGTTGGATTGACTGAAAAAGGTCACCGTGTCCACTTAACCACGACAGATCCTGCTTCTCATGTAGCGGATATGTTCAAGGACAGCCGGGTCCATGAGAACCTCACCATCAGCAGCATCGATCCGGAAGTCGAAGTGGAAAACTACAAAGCCGAGGTCATTGCAAACGCTGGTGAGCTGAATGAAGATGAGCTCGCCTATCTGAAAGAAGACCTGGATTCGCCCTGCACCGAAGAGATTGCCGTCTTCCGTGCCTTTGCCGATGTTGTAGATTCCGAGGAGGAAATCGTAGTCATTGATACGGCGCCTACCGGTCATACGCTGCTTTTACTCGACTCTTCTGAGGCCTATCACAAGGAAATGAGCCGCTCCACAGGTGACATACCAGAGAGTGTAACGAAATTACTGCCGAGACTTCGCAACCCGGAAGAGACAGGTGTAGTCGTCGTAACTCTCCCGGAAGCGACTCCCGTATTTGAAGCAGGCCGTCTGCAGGAAGACTTGAAGCGGGCGGAAATCACTCCGAAGTGGTGGGTGATCAACCGTAGTTTATATGCGGCAGGAACGAAGGACCCTGTTTTAGAGGCCCGTGCAGCCACGGAAAAACAATGGATCAGAAAGGTCCAGAACGAATTGTCTGCTCAAAGTGCGCTGATTCCATGGGGCGCAGCAAAAAATGCCGGCTATGAACAATGGAAAGTCTACATTCAATCTTAA	MHTSYHPRTHVQTPYLFFTGKGGVGKTSVACATAVSLADQGKKVLLVSTDPASNLQDVFNMELTREPAAVPSVSHLYASNIDPEEAARAYREKTVGPYRDKLPESVVNQMEEQLSGACTVEIAAFDEFSHLLADDGIFKDFDHVLFDTAPTGHTLRLLTLPTAWSGYLEESTHGASCLGPLSGLGDKKNMYQKAMDTLSNGEKTTLVMVARPEESTLLEADRASVELGRIGIEHQMLVINGVFQPQDSGDEVASVFYTEQQEALKEIPDALQQIRTYSLPYVPYSLTDIQHMRQIVSESPMAEVEITEESVDVEPLPSLKEVVDDFSAKNTRVIFTMGKGGVGKTSVASAIAVGLTEKGHRVHLTTTDPASHVADMFKDSRVHENLTISSIDPEVEVENYKAEVIANAGELNEDELAYLKEDLDSPCTEEIAVFRAFADVVDSEEEIVVIDTAPTGHTLLLLDSSEAYHKEMSRSTGDIPESVTKLLPRLRNPEETGVVVVTLPEATPVFEAGRLQEDLKRAEITPKWWVINRSLYAAGTKDPVLEARAATEKQWIRKVQNELSAQSALIPWGAAKNAGYEQWKVYIQS	PGPT0004700_205	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004700-arsA-K01551	NA	NA
AK012_03504	282			hypothetical protein	ATGAAAATTACAGAAAATGCAAAGAGTACATTACAGGGAATGATTGAAGAAAATGGAGCGGAGGGAGTCCGTTTTTATTCCATGGGGGACGGGTGCTGTGGTCCACAACTCGGCATTTCCCTCGACGCACCGGAAGAAAACGACGTTGTGAATGACATGGACGGCCTGAAGGTTTCCATTGATCAGGATGTCAAAGATACAGTGGATGGCTTAACGTTAGATCAGGAAGATACACCGGAAGGAGCACAGTTCGTCCTGCTTGGTATGGACCAGTGCTGCTGA	MKITENAKSTLQGMIEENGAEGVRFYSMGDGCCGPQLGISLDAPEENDVVNDMDGLKVSIDQDVKDTVDGLTLDQEDTPEGAQFVLLGMDQCC				NA	NA	NA	NA	NA
AK012_03505	1647	cdr_1		Coenzyme A disulfide reductase	ATGAAGATCATCATTATTGGGTCCGTTGCAGCAGGTACCTCTGTCGCTGCAAAGGCACGAAGAAACGACGAAAATGCAGACATTACATTATACAATGCGGATTACGATATCTCTTATTCCATCTGCGGGATTCCTTACTTTTTAGGCGGCGAAGTGGACGAATTGGAGACCCTTACACCAAGAAGTTCCGAATGGTTTAAGAAACGCTACAACGTAGACATTCACACCCGTCACGAAGTCGTAGAGATCAATCCGGATCAAAAAGTGGTCACAGTGAAAAATCTGAACACCAATGAAATCATCGAAGATCAATACGATACACTGGTCTTTGCTACAGGAGCGGCTCCAACGACGCCACAGATCGACGGAGTGGAGATGGAGCATGTGTTCCATGTCCGCAACATCCAGAACACCGCTTCCATCCATTCGTATATGCAGGCCGAAAGTCCGGAAAAAGTGACGATTATCGGCGCAGGCTTCATCGGACTAGAGATGGCTGAGCAGTTGAAGCATAGAGGACTGGATGTAACGATTGTCCAGCGCAGCAACCAAATTATGCCGCACTTGGATAAGGATATGGCCTTCCGGGTGGAAGAGCATTTGAGAGCAAACGGGGTCAACCTATTACTCAATGAAGAAGCGGCAGCCATTACAGAGACTTCCGTAGAAACAACCAAGGGAAGCGTCATCGATGCGGATATGGTCATTTTAGCTACAGGTGTACGCCCGAATACGAAGCTGGCTGAACAGATCGGTGTAGAATTAGGCGTATCCGGGGCCGTCCAGGTCAACGAAAAGATGCAGACGAATCTCCCTGATGTTTATGCCGTTGGAGACGTCGCGGAGAGTTATTCCATCGTTACAGGAAACTCGCTCTATCGTCCGCTTGGGTCGACAGCGAATAAAATGGGCAGGATCGCCGGAGATGTCATCACCGGTGGAGATCTGGCCCACCGCGGTATTTTAGGGACAGGAATATTAAGAGTCTTTGACTTAGCTGTCGGCTATACAGGCTTAAGTGAAAAAGATGCGGTTATGGAAGGCTATGACATTGAAGTTCTTCACAATATTAAGCCGGCAAGAGCGGAATACCTGGGTGGTAAGGAAATGGTCATTAAAGCCATCGCCGATCGTAAAACGGGCCGGATTCTAGGTGTGCAGATTGTCGGGGAAGACGGCGTTGATAAGCGCATCGACGTGTTCGTGACGGCGATTTCCTTAAAAGCGAGTGCCGAAGATCTCTTCCATTTGGACTTAGCTTATGCGCCACCATTCAGTACCACTAAAGATCCGGTCATGTATACAGGTATGGCTCTTCAGAATGCGATGGACAAAAAGAACCGGATCATCACGCCGCAGGAACTGACGAATCGAATCCAGAACGGGGAGAAGATTCAAGTCATTGATACACGAGCGCCGAAGCAGTACGAAGTATCCAATGTGGAGGGAGCGGTCAACATTCCATTGGCTGAATTGCGCGCGGAAGCGAAACAGCTGGACCCTGCCATCCCGACAGTGACCTACTGCAATAAGGGTGTAACGGGAAATGCCGCCCAGAACGTGCTGATCAACATGGGATTTGAGGAAGTTTATAACCTTTCCGGGGGAAATAAGAATTACCAGAGTTTCTCTAAGGCTAACCAGTAA	MKIIIIGSVAAGTSVAAKARRNDENADITLYNADYDISYSICGIPYFLGGEVDELETLTPRSSEWFKKRYNVDIHTRHEVVEINPDQKVVTVKNLNTNEIIEDQYDTLVFATGAAPTTPQIDGVEMEHVFHVRNIQNTASIHSYMQAESPEKVTIIGAGFIGLEMAEQLKHRGLDVTIVQRSNQIMPHLDKDMAFRVEEHLRANGVNLLLNEEAAAITETSVETTKGSVIDADMVILATGVRPNTKLAEQIGVELGVSGAVQVNEKMQTNLPDVYAVGDVAESYSIVTGNSLYRPLGSTANKMGRIAGDVITGGDLAHRGILGTGILRVFDLAVGYTGLSEKDAVMEGYDIEVLHNIKPARAEYLGGKEMVIKAIADRKTGRILGVQIVGEDGVDKRIDVFVTAISLKASAEDLFHLDLAYAPPFSTTKDPVMYTGMALQNAMDKKNRIITPQELTNRIQNGEKIQVIDTRAPKQYEVSNVEGAVNIPLAELRAEAKQLDPAIPTVTYCNKGVTGNAAQNVLINMGFEEVYNLSGGNKNYQSFSKANQ				NA	NA	NA	NA	NA
AK012_03506	918	yicL	COG0697	putative inner membrane transporter YicL	ATGAATACCATTCAAAAAAGCAAAGGATTGTTTCTTGTAATAACAGGGGCCATCTTCTGGGGCGTCGGAGGTACCGTTTCACAAAAGCTGTTTCAGGATTTTGGCATCCAAGTCAATTGGCTGGTAACGGTCCGTTTACTCCTTGCCGGCATTCTATTACTGGCCATACAAGTCTTCCGAAAAGGTTTTTCTCCCATCTTCAGCATATGGAAGAATAAAACGACGGCTGTTCCACTGATCATTTTCGGCTTACTGGGTATGCTGGCTGTCCAGTATACCTATATGGCATCCATCAACCACGGGAATGCGGCTGTAGCTACATTACTCCAATACCTGGCACCTGTTATGATCATTGTTTATCTGCTTTTACGAAAACAGACGACCTTTGAGAGGCGTGATGGATTCACTGTGACGCTTGCATTACTCGGCACCGGTTTATTATTGACCAATGGTTCACTCTCTGAATTATCCGTGCCTGGTATATCGATCTTTTGGGGTCTCTTATCAGGGGCATCTCTTGCCTTTTATACGCTCTATGCCATTCCCCTGCTCAAAAAGTTCGATTCCCTTATTGTAGTAGGGTGGGCAATGGTCATTGGTGGATTTACCCTTGGATTCATACATCCCCCATGGCAGGCAGCATTCTCCACTTTTACAATGGAAATCTATGTTTATCTTGTGATTGTCGTCTTATTTGGTACGATGTTCGCCTTCTGGTTTTACATTGAGAGTCTGCAGCACCTCTCTCCGAAGGAAACCAGCCTGATTGGTAACCTGGAGCCCCTCTCTGCTGTATTAACGATGGTCATCTGGTTAAAAGAGCCATTTGGATCCTTCCAATGGCTCGGCATGTTCTGTATCATTGCAATGACGCTGGTCCTTGCCTTCACCAATAAGTCAGAAACTTCCAGTTCCTGA	MNTIQKSKGLFLVITGAIFWGVGGTVSQKLFQDFGIQVNWLVTVRLLLAGILLLAIQVFRKGFSPIFSIWKNKTTAVPLIIFGLLGMLAVQYTYMASINHGNAAVATLLQYLAPVMIIVYLLLRKQTTFERRDGFTVTLALLGTGLLLTNGSLSELSVPGISIFWGLLSGASLAFYTLYAIPLLKKFDSLIVVGWAMVIGGFTLGFIHPPWQAAFSTFTMEIYVYLVIVVLFGTMFAFWFYIESLQHLSPKETSLIGNLEPLSAVLTMVIWLKEPFGSFQWLGMFCIIAMTLVLAFTNKSETSSS				NA	NA	NA	NA	NA
AK012_03507	891	rhaS_2		HTH-type transcriptional activator RhaS	ATGCAGATCTTTGATTTTGATCTGGACGGGAAATTACAGGAACTTACGGAACACCGGACGATTGAATTACCCGTGGCTTGTTATGAAACGACCATTTCCAAAAACGTGAATGGCTATATCCCTCTTCACTGGCATGAGGAAGTACAGTTTGTCCTCATAACGGAGGGGGAGGGTGTTTTTCAAGTCAATGAAGAAAAAATAGAAATAAAAGAAGGAGAGGGACTGTTTATAAACAGCGGCCGCCTGCATATGGCCGAAGAACAGGCACCATCAACGTGTGTCTATATCTGCTTGAATGTCTCTCCCCATTTCCTTGCCCCGCAGGAACTTTATCCCGCGTATGTCTATCCTTTTGTGAGACAAGCCAATGTGCCTTATATATTCATAGGGAAAGGTAGTGAATGGGGAAGGGATCTTTTGAAAGCGATCCGAGACGTTCACCACGTTATTGAAAATGAGTCTTTTCATTATGAACTGGAAACATTTATGTTGATCAATCAGATATGGAAAGCGTTGATCGATCATGCACTGAAACCGGATGCCGCCGAGGGGGAGTCTGTCATACAGCGCAGGATGAAAAAGATGCTGAGCTTTATCCATCAGCATTACAGTGAAAAGATCAGTCTGGATGCTATTGCAAAAGCCGGGCAGTTGAGCCGGTCGGAGTGCTGCCGATACTTCAAAAAGGTATTAAAGAAAACGCCATTAACGTATGTCACAGATTATCGTATTCAGCAAAGTGTTCATCTCCTTCAACACCCTGATTCCAATGTAACGGAAGTGGGGTATCAAGTGGGATTTAACAGTTCAAGTTATTTTATTAGTAAGTTCCGGGACCGGATGCTCAAGACTCCTCTGTCTTATAAGAAAGCGGTACTGCAGGAAGAATAG	MQIFDFDLDGKLQELTEHRTIELPVACYETTISKNVNGYIPLHWHEEVQFVLITEGEGVFQVNEEKIEIKEGEGLFINSGRLHMAEEQAPSTCVYICLNVSPHFLAPQELYPAYVYPFVRQANVPYIFIGKGSEWGRDLLKAIRDVHHVIENESFHYELETFMLINQIWKALIDHALKPDAAEGESVIQRRMKKMLSFIHQHYSEKISLDAIAKAGQLSRSECCRYFKKVLKKTPLTYVTDYRIQQSVHLLQHPDSNVTEVGYQVGFNSSSYFISKFRDRMLKTPLSYKKAVLQEE	PGPT0017780_37	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE-HEXOSES_UTILIZATION	PLANT_DERIVED_RHAMNOSE_DEGRADATION,PGPT0017780-rhaS-K02855	NA	NA
AK012_03508	963	btuD_6		Vitamin B12 import ATP-binding protein BtuD	ATGGATAATATTTTTGTGGGTGAACGATTGACGAATTTACGGAAATTGAAAGGACGCACACAGGCAGATGTGGCAGCCCAATTTGGAGTGAGCAAACAGGCAGTATCCAAATGGGAAAAAGGGTTGTCGATGCCCGATGTTTTAATCCTCCCTGATCTTGCTGCATATTTTGGCGTGGAGATTGGATACTTCTTTGATAAAGCGCATGAAGACTCTACTCGGGTTCCGCTTAAAAAAGAAAAGGTCGCTATTCAAGTACGTGACCTTACGAAAAGGTATAAAGGTGCCGATGCTCCTGTTTTGAAGGGAATCAATATAGACATTTACGATGGACTATCAACAGCTATCATGGGGCCTTCCGGCTGTGGGAAGACGACGTTTGTGAATTGTATTTCCGGATTGGAAACCATTACGGGGGGCAGCGTGGTCATGTTTGATCAAGACATTGCCAATCTCAAAGAACCTAAGTTGACGGAATTCAGAAGAACTCATACCAATTATATATTTCAGCAATATAACCTTGTAGATGTATTGAATGTTCTGGACAATATCAAGCTGCCTTACAAAACTTCGGGTCAGAAGATCGATCGTGCTCGGTTGAAAGAGCTGATTGAAAGATTGGGGCTGTCCGGCAAAGAGAAGATGATGCCGGCGAAATTATCCGGAGGACAGCAGCAGCGGGTGGCTATCGCCCGTGCCTTGCTTGGAAAAGGGAAGCTGATCCTTGCTGATGAGCCTACAGGTGCCCTGGATGTCAACACGGGAAATGACGTACTGGAACTTTTGCTTGCAGGATCCAAGGAATTCGGCTCACCTGCTGTCATTATTACCCACGACAGCAAAGTTGCCGCAAAATGTGATATTGTCCACTTTTTATTAGACGGGAACATTGTAAAAACATTGGAGCGTCCGGATGCGTCTGAAGTATCCAAGGTGATGGTGAGGTTGTCGGAAAATGTTTAA	MDNIFVGERLTNLRKLKGRTQADVAAQFGVSKQAVSKWEKGLSMPDVLILPDLAAYFGVEIGYFFDKAHEDSTRVPLKKEKVAIQVRDLTKRYKGADAPVLKGINIDIYDGLSTAIMGPSGCGKTTFVNCISGLETITGGSVVMFDQDIANLKEPKLTEFRRTHTNYIFQQYNLVDVLNVLDNIKLPYKTSGQKIDRARLKELIERLGLSGKEKMMPAKLSGGQQQRVAIARALLGKGKLILADEPTGALDVNTGNDVLELLLAGSKEFGSPAVIITHDSKVAAKCDIVHFLLDGNIVKTLERPDASEVSKVMVRLSENV	PGPT0013345_6099	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0013345-ABC_CD_A-K02003	NA	NA
AK012_03509	2394			hypothetical protein	ATGTTTAAGTTATTAGTACATGACCTTCGTAAAAACCTTCCATTGTTCTTTGGGACTTTCCTTGCAATTATTGTCACGAGTTGTATCATCAGTGCCTGTCTCACCCTTGTATTTTCATCCGTGGCTGGTTGGGATTCGGGTAAACGGTTTGAAGGGATGGATCTTGTCGTCATGGCGGATCAAGACATTACAGTCTCCCACAAGGAAGAGGATGGTGATGTTAAAAAGGAATCAGAAAAATCCAATGGCAGAGTCCCACTAAGTCAAGAGCAGCTATCCTTTTTACAGGAGACCTATGATGCTGTTCCTGATTATACGTTTCATGTCGAAGTGGAAGGTGGAAATGATCGAAAATTGGCCGGGCATAACTTCCGGTCAATGGAGCTGAGTGATTTTCGTTTGAACGGATCCCGCCCAGCGCCTGACCAAGTCGTAGTAGATGAAAATTTTGCGGAGAAACATAACCTCCAGATCGGAGATGACCTTCCGATTACAACGAAAAGTGAATCTAGAGAATTTCAAATTAGTGGGATTGCTCTAAGCGAGGTTCCAGGTATGTATGACCTGCAGAATTACATTTTCTTTGAAGACGCTGCAGCAGAGGAAAAGGCTGTAGGAAGCTTTAGTGCAGGAATTACTACCTCTTCCCCGGATGATGTGGAAACCTCACTCAAAAAAGATAACTATACCGTATTGAGTGGGGCAGATAAATCAGAGGCAGAGCTTCCGAACATCGCAGATGAAAATATATCGTTGATGGTCATTTTTATTACGATGGGTTCCGTCTGCCTTGTGATTAGTTTGTTTGTTATAAGCGGGACCGTCCAATTCTCCATTCAGAACCGCTTTCGAACCCTGGCCCTATTGCGCGTCATCGGGCTGAAAAAGAGCCAGGTCCAAATGGTGCTTGCTGGACAGGCATTGATCATTGGTTTTGCTGCATCCTTGATCGGCATTCTTCTTGGGATTCCTTTAGCAGAATGGATTGTTAAAGCCTATCAACGGCTGGGAATTGTTCAGGAAGGCTTTCAGGTGACGCCTATATGGATATGGGAAGGTGTCGTCCTATCCGGGATTATGGTGCTCTCCCTAATCGTTACACTTCTCACAGCAAAAAGACCTTTATCCGTGTCTCCTATTTCAGCCTTGAAGGAAGAAGGGGACTTTACTCGGAAAACATCCGCTGCCGGCACGATTACCGGTGTGATTTTGATACTGGGTGGAGCCGCCATCCTGATCTTCACACCCATGAGCGGTGGTATCGGTATAGGAATGGCCTTCTGCGCATGCTCCTTATTTCTCGGCGGGATCATGAGTCTGACACCATTGTTGATGAAAGCCTTTAACTGGATTCTTTCCGTGTTTTTCAGACGGCTTGGTAAAAGTTTAGGACAGGTCGCTTATGCAAATATTAAAGAGAAAGCTTCTAAATTTGCTGTTGCTTCTGTCTCGATTTCTATCATGATGACACTGGGTACCGTCATGATGCTGAACAACATCACTTACATGGATGCTGTCACACAGCAGCAATATGATTTTGCAAAGGAGTATTCTTACGTTACAGAAAATATTGCTCCCTCTGAGATCGATGGAGGTGAAAATATTCTGGGGCTGACAAATACCGAAACACTCCTCCATCAAAAGGACGACCTGCTTGATTTGAATATGCTGGTCACAGTGGGGAACGTGCCGGACTTAAACATCATTGAGGGAACGTCCACCATCTCTGGTGATTCGATTCTTCTATCAAACAGATTCAAAGAAGCTCAGCCGGGGGATACCCTATCTGTATTTCTTGAAGATGGCACACAAAAGAACCTGACCGTTAAAGGCATCTTTCAATCAGAGGGACTTAATGATGAAAGCTTTAATAGTGTGACTTCGTTTGAAACGGTGGAGGAAAGCCTCTACGATTATTCTTTAGCCTACGTTTATTCCGACACACCACTCCCGGGATCGGAAAGAAACAATTACGCTTATTATGCAGACGCGCCATCCTATGATTTACAGCTGGGGGCTTCCCTTCTTCTTGGGGTGATCGCATTGATCTTATCTATTGTCGCTTTGTTTAATACGTTTGCGGTGATTATGTCTGTAAGAAAACAGGAGTTTAATGGATTGAAGGTCATTGGCGCAAAGAAAAATCAAATAGTCAAGATGACATTCATTGAAGTCCTTATTGTGACTGTAACCGGTGTGCTTATTGGTTTGGCTGTTCTGGCTGCCTGTGTGGGTGCCTATTCCTATGCAACGACAGGAGTATTTGATTGGATCGTAGATACAAGAATATTTATCGGCGTCATCATTCTGTCTTCTCTATTAGGACTGCTTGCGGGTCTCATCCCATCTTTTACAACAATCGGAAAACTAAAGCGGCAATTCCGTGTCGAGTAA	MFKLLVHDLRKNLPLFFGTFLAIIVTSCIISACLTLVFSSVAGWDSGKRFEGMDLVVMADQDITVSHKEEDGDVKKESEKSNGRVPLSQEQLSFLQETYDAVPDYTFHVEVEGGNDRKLAGHNFRSMELSDFRLNGSRPAPDQVVVDENFAEKHNLQIGDDLPITTKSESREFQISGIALSEVPGMYDLQNYIFFEDAAAEEKAVGSFSAGITTSSPDDVETSLKKDNYTVLSGADKSEAELPNIADENISLMVIFITMGSVCLVISLFVISGTVQFSIQNRFRTLALLRVIGLKKSQVQMVLAGQALIIGFAASLIGILLGIPLAEWIVKAYQRLGIVQEGFQVTPIWIWEGVVLSGIMVLSLIVTLLTAKRPLSVSPISALKEEGDFTRKTSAAGTITGVILILGGAAILIFTPMSGGIGIGMAFCACSLFLGGIMSLTPLLMKAFNWILSVFFRRLGKSLGQVAYANIKEKASKFAVASVSISIMMTLGTVMMLNNITYMDAVTQQQYDFAKEYSYVTENIAPSEIDGGENILGLTNTETLLHQKDDLLDLNMLVTVGNVPDLNIIEGTSTISGDSILLSNRFKEAQPGDTLSVFLEDGTQKNLTVKGIFQSEGLNDESFNSVTSFETVEESLYDYSLAYVYSDTPLPGSERNNYAYYADAPSYDLQLGASLLLGVIALILSIVALFNTFAVIMSVRKQEFNGLKVIGAKKNQIVKMTFIEVLIVTVTGVLIGLAVLAACVGAYSYATTGVFDWIVDTRIFIGVIILSSLLGLLAGLIPSFTTIGKLKRQFRVE				NA	NA	NA	NA	NA
AK012_03510	99			hypothetical protein	ATGATTACTATTTTATGGAAAAGAGCGGCCACTTTAATGGAAGCAGCCGCTCTTTTCGAGACATTTCATATATATATTCATACAACCCATAAGCCCTGA	MITILWKRAATLMEAAALFETFHIYIHTTHKP				NA	NA	NA	NA	NA
AK012_03511	264			hypothetical protein	GTGAAAAAGCTGATTAGTGTCGGATCCATCCTGATCCCAACCGTTTTAACGATTTTGATTGTAAACTTTTTGTTCGGTATCGTTCCTTTGAACATACAAGGACTGCCTCTCGTCCTTCCATTTGTCATCTGTCCAATAGGAGCAGCCCTTGGTTTGATCGGCTATAAAATGAACCGGGACAACCTGGCACGGGCAGGAATGATTTTTAACATCGGTCTCTTCTTGTTCCCGATTGCTTTTAACATCATCGGGACACTGAGCTGA	MKKLISVGSILIPTVLTILIVNFLFGIVPLNIQGLPLVLPFVICPIGAALGLIGYKMNRDNLARAGMIFNIGLFLFPIAFNIIGTLS				NA	NA	NA	NA	NA
AK012_03512	954	ykfA_3	COG1619	putative murein peptide carboxypeptidase	ATGACAGCTGATATCTATTACGGTTCTTCAGGAAAGGGGAGTTTTATGATAAAACCAAATGCATTACGTGCAGGCGACCGTGTTACAGTCGTTGCACCGGCCGGGAAACCAGATCACGAACATTTAAAGCAGGGCATAAAAGTGCTGGAAAACTTCGGGCTTGAGGTCACCATTGGTCCCCACGTTTTTTCAGAAGAGGAGGGGACAGAAGCGGTTGAACAACAGGTTAAGGACCTGCACGAAGCTTTTGCGGATCCGTCTATACGGGGAGTTTTCTGTGCCACCGGAGGATTTGGATCCGCAAAAATTGCTCCTTTACTGAATTATGAAGGCATAAAGAAGAACCCGAAAATATTCTGGGGTTACAGTGACATTACATATCTATTGAATGCGATTCAAAAGAACAGCCGTCTGGTTACTTTTCACGGTCCCATGGTGGCGTCTGATTTAAACGATGAACTAAGGACCGAACAGACAGAGTCTTCGCTTTCCATGCCGTTTATTGAAAAAACAATGGTTTTTAGTGACCGGCACTCTTCCCTTCAGGTGTTGGCAGAAGGGGAAGGAAGAGGGCATCTGGCAGGTGGGAATTTAACATTACTTACCAATGGCCTGGGAACGCCTCATCAGGTCGATGCAGACGGAGCTGTACTCCTCATAGAAGAAGTCGGTGAGCCGGCCTTCCTTATTGACTTAAAACTTACACACCTGAAACAGGCTGGGGTTTTCGACTCCATACAGGGAGTTGTGTTGGGGAATTTCCAGGTGGAGGCTGATGAAGAGGAGGAAGTCAGCAAAGTCCTTCGTGATTTCTTTGCCGACGCATCTTTTCCAGTCGTGAAGAATTTTCCTTTTGGACATAGGCAGCCGAACTATGGTGTACCATTGGGGGTAAACGTGGAGCTTACCACATCTCCACCTCAATTGGTTGTGGATTCCGGTGTGAGTCGATAA	MTADIYYGSSGKGSFMIKPNALRAGDRVTVVAPAGKPDHEHLKQGIKVLENFGLEVTIGPHVFSEEEGTEAVEQQVKDLHEAFADPSIRGVFCATGGFGSAKIAPLLNYEGIKKNPKIFWGYSDITYLLNAIQKNSRLVTFHGPMVASDLNDELRTEQTESSLSMPFIEKTMVFSDRHSSLQVLAEGEGRGHLAGGNLTLLTNGLGTPHQVDADGAVLLIEEVGEPAFLIDLKLTHLKQAGVFDSIQGVVLGNFQVEADEEEEVSKVLRDFFADASFPVVKNFPFGHRQPNYGVPLGVNVELTTSPPQLVVDSGVSR	PGPT0023815_2333	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-MURAMOYLTETRAPEPTIDE_CARBOXYPEPTIDASE_ACTIVITY,PGPT0023815-ldcA-K01297	NA	NA
AK012_03513	564			hypothetical protein	ATGAAAACATACCTTTACTTAGTTCGGCATGCTCATTCGGTCTATACACCGGACGAGCATGGAAGACCCCTGTCAGAAAAGGGACAGAAGGATGTTGATAAAGTTACAGAACAGCTGATAAACGAAGGGATTGACGACGTTGTATCCAGTCCTTACTTAAGGGCGGTACAAACAGTGGAAGGAATTGCAGCTGCAATCGGGAAACCCGTACATAAGATGGAAGAATTGAAGGAACGGAAATTGATGGATGGATCGGCCCGCCATTTTGAAGAAGCCATTACGAAGCTGTGGGAGAACCCTGATTTTTCGTGGGAAGGTGGAGAGTCCAACCATAAAGCCAGGTATAGAGGCGTGCAGGGCATCCGAGCCCTCCTGGAACAATATCAAGGCCGCCGTATTGTCGCAGGCACGCACGGCAACATTATGGTGCTTATGATGAATCATTTTCATGAACGATACGATTTTGAGTTTTGGAAGCAGCTTTCGATGCCGGATATCTATAAGCTTTCTTTTGAAAATGGCCGGCTTATCGATTGCTGTAGGTTATGGATGGATGAGGAATGA	MKTYLYLVRHAHSVYTPDEHGRPLSEKGQKDVDKVTEQLINEGIDDVVSSPYLRAVQTVEGIAAAIGKPVHKMEELKERKLMDGSARHFEEAITKLWENPDFSWEGGESNHKARYRGVQGIRALLEQYQGRRIVAGTHGNIMVLMMNHFHERYDFEFWKQLSMPDIYKLSFENGRLIDCCRLWMDEE	PGPT0018030_3967	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
AK012_03514	132			hypothetical protein	ATGATTCCAGATGCGTTTGAACCGGTGAAGCGGTTGGTCATATATCAGCTGTTTACCGGTCTTTGTTTTAAAAAAAGCAGCAGTACCTTGAATGATAGAGGAGATGAAAGGGTGGAGGAATGGATCCTTTGA	MIPDAFEPVKRLVIYQLFTGLCFKKSSSTLNDRGDERVEEWIL				NA	NA	NA	NA	NA
AK012_03515	1035			hypothetical protein	TTGATGAAAAAGAAAGTGCAGTCATTGAGCGGGGAAGAAGTTCGTTCAATCGTTTTACAATCATGGTTGATGCTGGAGTACGTGGACAGCGGGGACCTTTCAGCATGGGAATACGTGGAGCGGATGCAGACCGCGAAAAAAAGCGTGGATCAGGTGTATAAACAGCGAATGAATCCTTTATCCGGCGATCAGACAGATGTGAAAGAGGTCCATATCGTGTTTGGCCACTCTGCCTATGGGGCGCTCAAAAATACGCTTGAACATCTTAAAAGGGACAATGACATGGTCATCAACCTCCCTTTGATGTTTTCTATCGGGCCGGTCCGGAATCTGGATCAGCCAGAAGGGCTGCAGGAACGCCTGGACTGGCTCTATGACCGCATTCATCTGGATGACGAAGAGGTTTTCACTTATGTTCAGGAAAACAAAGAGGCAATGGAAGGCATCCGGAACATTCCTCATCATATCCAGGCGACCATCTGGGTTGGAAATAATGCCCATGAGCAGCTTGGCCTGCGCTTCGTTCTGCAGCTGCTGAAAGCATGGAACGGTCGTGTGAGGACCATCAACGTCAGTGAAAGTCATATGAAACGTTCCAAGGGATATCCCATCCATACAGGTGAAATCTCCCCTGACCACCTCGGGGAAATGATTCATCACGCTCCAAATGAACCCATTCCTTTTGAAGTGAGGGATCGTTTGGAGAAAGACTGGCTGCGGTTATCCTCGGAAAACAGCGAGCTGAGAATATGGAACGAAGGGGTTTTTTCAAAAAACATCGACTACTTTGATACGATCCTTCTTCAAAGCGTAAGAAGCTCTCATGAAGATGCCGGCTGTGTTGATTTCATCCCAGCAGCCAGGATCATAGGAGAAGTAATCGGGCATTCGAGGCAGGTGGTCGGCGATCCTTTTATAGAGTACCGGTTGATTCAGCTGGTTCTTGAAAACAGATTGGATATCAAGGGGGTCCCGAGAAGCATGCGGTCCTTTGCCGTGAAAGTCAAAGAGGAACCGGAAAGATCATGTTGGTAA	MMKKKVQSLSGEEVRSIVLQSWLMLEYVDSGDLSAWEYVERMQTAKKSVDQVYKQRMNPLSGDQTDVKEVHIVFGHSAYGALKNTLEHLKRDNDMVINLPLMFSIGPVRNLDQPEGLQERLDWLYDRIHLDDEEVFTYVQENKEAMEGIRNIPHHIQATIWVGNNAHEQLGLRFVLQLLKAWNGRVRTINVSESHMKRSKGYPIHTGEISPDHLGEMIHHAPNEPIPFEVRDRLEKDWLRLSSENSELRIWNEGVFSKNIDYFDTILLQSVRSSHEDAGCVDFIPAARIIGEVIGHSRQVVGDPFIEYRLIQLVLENRLDIKGVPRSMRSFAVKVKEEPERSCW				NA	NA	NA	NA	NA
AK012_03516	255			hypothetical protein	ATGATGCGTGCGTATGGTTCCCTGTTTTGTATCGTGACTGCCTTCATCCTGATGATCATCCATCCTGAAGCTCCCCCGGGGTCTTTCATCGAGGAGTACCGTCTGATTTTTATCGTAACGATGCTGCTGCCTGTCATCGGCTTGTTGACCGGCCTGAAAGCTCAGCGTTGGAAGACATTCGTCGTGTTAGCGAACATCCTCGGCATTTTGACGATTACCGTAGTCCATGTCATGGCTGTTCTATCCTTTGCATGA	MMRAYGSLFCIVTAFILMIIHPEAPPGSFIEEYRLIFIVTMLLPVIGLLTGLKAQRWKTFVVLANILGILTITVVHVMAVLSFA				NA	NA	NA	NA	NA
AK012_03517	294			hypothetical protein	ATGTGTAACCAAAAGGAGGTGATGACTATCAAAGTTTTCGAGGTTGTGCTGCTCCTCTCCGCTATAGCTGCCGTTTGTACATATCTTTTTTATCGAGCAGATTTTCTAGTATACACAGCCCTGGCTGGTGGCATCGGTTATTCGGTCCTTCACCTCATCCGCACCTATGAAAGAAGGAAAAACGCTGTATTAGGACATCCGGACGCCAAATACTACAATACTTTTGATTCCTATGATGACGACCTTATTACGGGAGATCTTTTTGACGATATCAGCGATCATGACGGTTCTTGA	MCNQKEVMTIKVFEVVLLLSAIAAVCTYLFYRADFLVYTALAGGIGYSVLHLIRTYERRKNAVLGHPDAKYYNTFDSYDDDLITGDLFDDISDHDGS				NA	NA	NA	NA	NA
AK012_03518	189			hypothetical protein	ATGTCCAACCATTCCAACGATGATCCGTCTTTTAATGATGCCATTAATCATCAAAAGAAAATCGAAGGGTATCCAAAACCGAGTGAGGGTGGACTGCCCGGCCCGATTAAATGGAACGGGTATGTTTTGTTCGGAGGTATTGCCTTGATGATGCTTTTTGTTCTTATTGGAAACTTCATATGGAACTAA	MSNHSNDDPSFNDAINHQKKIEGYPKPSEGGLPGPIKWNGYVLFGGIALMMLFVLIGNFIWN				NA	NA	NA	NA	NA
AK012_03519	498			hypothetical protein	ATGTTCAGCTTTACAAAAGTGCAGGAGGCTCATATTCAAGAAGAGTGTATGATTCACAACTCAAATCCTGCCTACAATAAAATCGCTTATGATAAGCAGCTTCTAACGGTGGATGATATAAGAGCGCAGTGGAAGGAAGCAGAGGAACTCGGTAATGAAAGACATTTGGTTGGTTATGGTGAAAGTTTCATAGGCATTATTGAATACGGCATGCAGTCGCCGAACTCCGGAAATCCGTGGCTGAGTCTGCTGCTGATGGACAGCGCTTATCATGGACAGGGTTTTGGGAAGAAAATGTACAGGGTTTATGAGGAGCTTATGAAAAAGCGGCAGGCGGACATGGTTGAAATCGCTGTTCATGCAGACAATCTCTCTGCCGTAAAGTTCTGGACTTCTCTTGGTTATCTTAAATACAAAGAACGGTTTTATGAAATTAAACGGATGTATAGTTACTATAAGCTCCTGCATGGGGGAATGGAGGAAAACGGGGATGAGTGA	MFSFTKVQEAHIQEECMIHNSNPAYNKIAYDKQLLTVDDIRAQWKEAEELGNERHLVGYGESFIGIIEYGMQSPNSGNPWLSLLLMDSAYHGQGFGKKMYRVYEELMKKRQADMVEIAVHADNLSAVKFWTSLGYLKYKERFYEIKRMYSYYKLLHGGMEENGDE				NA	NA	NA	NA	NA
AK012_03520	486			hypothetical protein	ATGAGTGAGGAAAGTAACGCTGTTTTAGAAACTCCGCGTTGTTATGTACGGCCTTTTATTCAAGAGGACATCAAGGCGTTCATGAGCTACCGGAATGATCTGGACTGGATGAAATACCAGGGGTTCAAAGGATTCACCCGTCAGGTCTATGAAACGACCCTGCTGAATCCGCAGAGAGTGGAAGATGGTTCTCAGCTGGCTGTGATAAGAAAAAAAGACCAGGCGCTCCTCGGTGATGTATTTCTGCTGAAGAAGGAGGATGATTTCTGGATGGGCTATACGATTGATCCCTCGTATAAGCGGCAGGGCTATGCGTATGAGATCGTCCAAGCCCTGACTCACTTGATCCGATCCAAAGGGGATTACGTGATCAAGGCCGGTGTGGAAAAAGAAAACCTCCCATCGATCAACCTGCTGGAGAAATCAGGGTTTCAGAGGATGGAAGAGAAAGACGGCGAACTCGTCTATGTATGGAGCGGTGGTTAA	MSEESNAVLETPRCYVRPFIQEDIKAFMSYRNDLDWMKYQGFKGFTRQVYETTLLNPQRVEDGSQLAVIRKKDQALLGDVFLLKKEDDFWMGYTIDPSYKRQGYAYEIVQALTHLIRSKGDYVIKAGVEKENLPSINLLEKSGFQRMEEKDGELVYVWSGG				NA	NA	NA	NA	NA
AK012_03521	282			hypothetical protein	ATGACTGGCCATCACAAGGGATTCAGACACTTGGCCATTTTATGTATCCTACTGTCTCTGCTTGTCCAGAATCTCAGTCTGATGGGTGCCGTTTCCTTCCACGGGAATGTATTATTCCTGTTCAACTGGATGCTGCCGGCAGCCGCTCTCACATTATCCATCTTCTCGTTTTCGAGATCGCAGAATAAGAAAGATCTGCTTATCACGGGTTTTGCTGTTCTGGCCTTTTTCTACAGTATCATCTTTATCCTCGTCGCTTGGATGATGATGGATAGTCCTTAA	MTGHHKGFRHLAILCILLSLLVQNLSLMGAVSFHGNVLFLFNWMLPAAALTLSIFSFSRSQNKKDLLITGFAVLAFFYSIIFILVAWMMMDSP				NA	NA	NA	NA	NA
AK012_03522	1425			Putative aldehyde dehydrogenase	ATGCGTACGATTTTGAAGCATTACATTAACGGTGAATGGGTTGAATCCACAGGAAATGACACCGAGGACGTCATAAACCCTGCCACGGAAGAACCGATGGGTCAAATTAGTTTAGGTACGAAGGAAGATCTGGATAAAGCTGTTCAAGCCGCCCGCGATGCTTTCCCGGGTTTCTCTCAAACTACTAAAGAAGAACGTATTGAAATGCTTGAGAACATAGCCGAAGCTTATGCACGACGCAAAGACGAATTCATCGATGTGATGACGGAAGAGCTGGGTGCACCGCTTGAAATTTCGGAGAAGATTCACTACAGCATGGGCTATAATCATTTTGCCCAGGCGGCTGAATCTCTTAAAAATATTGAATTCATGGAGCACCGCGGCAACCATACGGTAGTCAAGGAATCTGTCGGGGTCAGCGGCTTAATCACCCCTTGGAACTTCCCGACAAACCAAGCTTCAACGAAAATTGCCAGCGCATTTGCAGCAGGAAGCCCTGTTGTATTAAAACCTTCGGAAATGACGCCGTTCGCTGCCATCATGTTAGCAGAGATCTTTGATGAAGTTGGCGTACCTAAGGGAGCGTTCAACCTGGTTAACGGTACAGGCGAAACGATAGGTGACGGCATCAGCTCCCATCCTGATATTGATTTTGTATCCTTCACGGGTTCCGCGGGCGTTGGAACGAAAATCATGCAGAATGCTTCTGAAACGATTAAAAATGTCGCTCTTGAACTCGGAGGTAAATCTCCATTGATTGTTCTGGAAGATGCGGATATGAAAGATGCGGCCCGGAATGCAGTAAGCAATATCGCCACGAATACCGGGCAGGTTTGTTCTGCTGCGACCCGGATGATTGTTCCAGCTTCCAAGAAGGAAGAATTTGAACAGGCCGTCCTGGACGTGCTTCCTGAATTCCCGGTAGGGCATCCTCGTGAAGGGAATTATGTCGGACCACTTGTATCCAAGAAACAGTGGGACACCGTTCAATCCTATATTGAAAAAGGGAAGGAAGAAGGTGCAAATCTGATTGCCGGTGGTACAGGACTTCCGGAAGGCTTAGAAAAAGGGTACTATGCTAAGCCAACGATTTTCACTGATGTAACGAACGATATGGTCATAGCCCAGGAAGAGATTTTTGGACCTGTGATGAGTATTATTACGTATGACACCATCGATCATGCCATTGAAATAGGGAATGATGTGGTGTATGGATTAGCAGGTTACGTCTATGGTAAAGATCCGGAAACACTTAAAAAAGTGGCAACTTCCATCCGTGCCGGACGTATCAAGATAAATGATGCCTCTCATGATTTCAATGCACCATTCGGCGGCTATAAACAATCTGGTATCGGTCGTGAATGGGGCGATTATGGAATTGAAGAATACCTTGAGAAAAAAGCGATTCTTGGATTCCCGTCTTAA	MRTILKHYINGEWVESTGNDTEDVINPATEEPMGQISLGTKEDLDKAVQAARDAFPGFSQTTKEERIEMLENIAEAYARRKDEFIDVMTEELGAPLEISEKIHYSMGYNHFAQAAESLKNIEFMEHRGNHTVVKESVGVSGLITPWNFPTNQASTKIASAFAAGSPVVLKPSEMTPFAAIMLAEIFDEVGVPKGAFNLVNGTGETIGDGISSHPDIDFVSFTGSAGVGTKIMQNASETIKNVALELGGKSPLIVLEDADMKDAARNAVSNIATNTGQVCSAATRMIVPASKKEEFEQAVLDVLPEFPVGHPREGNYVGPLVSKKQWDTVQSYIEKGKEEGANLIAGGTGLPEGLEKGYYAKPTIFTDVTNDMVIAQEEIFGPVMSIITYDTIDHAIEIGNDVVYGLAGYVYGKDPETLKKVATSIRAGRIKINDASHDFNAPFGGYKQSGIGREWGDYGIEEYLEKKAILGFPS	PGPT0006875_8334	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
AK012_03524	747	kipR	COG1414	HTH-type transcriptional regulator KipR	ATGTTCACACTGGAACATCCGAAGTGGGGACTCCGGGAGTTGTCCAGAGCGCTTGATATGAGTCACACCATTGTCCACCGGATGCTGACCACCCTCGAAGAACGGGGGTATGTGTACCGCAGCATGGATACACAGAAATATGAGCTCGGCATTAAGTTCCTTGAGCTCAGCAACATCGTCGAACAACATTTCCAAATCTCTGAGATCATTCATCCCATCATGCATAAGATTGCTTCCGAAACCGGAGAAAGTGTCGTCATGACACTTCTGGATAACGAGGAAGGGGTCTTCTCCAAGATTGTAGAAAGCAGCCGGCTTGTCCGCTTCGCCGGCTCGGTCGGCCGCCGTTCCCCGCTTTATGTCGGGGCTTCCCACAAAGTCATCCTTTGTCACCTGCCTAAAGAAGTTCAACGAAGAATCGTTCATGAAGGGGCTGTCCAACACCCCGGCCTCATTCCGTCAGAAACCGATATGCTGAAAAAGCTTGAGGACATCGAAAGAAAGCGGTGGGCGTATTCCTCCGGCGAAACGATCAGTGATGTAGCCGCGGTTTCCATTCCTCTGTTTGATTACGGCCATATGGTTCTCGGGTCGCTATCGATAGCCGGTCCCAGCTACCGTCTCACAGAAGAAGTGGCGGAACAAATCTTACCTGATCTCATCCGGCACCGGGGAGAGCTCGATTCTGTTTTAAGCAAAGTTTGTTTTCCGACTAGACGTAACTATCTGCTTGAAAGTCTTCATTAA	MFTLEHPKWGLRELSRALDMSHTIVHRMLTTLEERGYVYRSMDTQKYELGIKFLELSNIVEQHFQISEIIHPIMHKIASETGESVVMTLLDNEEGVFSKIVESSRLVRFAGSVGRRSPLYVGASHKVILCHLPKEVQRRIVHEGAVQHPGLIPSETDMLKKLEDIERKRWAYSSGETISDVAAVSIPLFDYGHMVLGSLSIAGPSYRLTEEVAEQILPDLIRHRGELDSVLSKVCFPTRRNYLLESLH				NA	NA	NA	NA	NA
AK012_03525	1020	dppD	COG0444	Dipeptide transport ATP-binding protein DppD	ATGTTGAAGGTGGAAGGCCTCGTGACAGGCTACCAGGGAAAGGATGGGTTTGTACGGGCGGTCGACGGGGTGAGTTTCGATATTGAAAAAGGAGAAACCGTCTGCATCGTCGGGGAATCCGGCAGTGGGAAAAGTGTCACATCGATGTCTGTGATGAGGCTGGTCGAGTTTGAAAATGGGGAAATTGTAAGCGGGTCGATCGAGTACAGGGGGGAAGAGCTGACGAACAAATCCAATGAAGAAATGAGGAAGATCAGAGGAACAGAGATCTCAATGATTTTCCAGGAGCCGTTGACCGCCCTGAACCCTGTCTTCACCATCGGCCAGCAGATCGTCGAAGCAATCCGTTATCATGAGCCGCTGAAGAAAAAGGAAGCGATGGACAAGGCGGAGGATTTGCTGACGCTTGTCGGGCTTTCTGAACCGAAAACAAGGTTGAAGCAGTACCCCCATGAATTGTCGGGAGGGATGAGGCAGCGGGTCATGATAGCCATTGCCCTCGCCTCCAAGCCGAAGCTTCTCATTGCAGATGAACCGACAACGGCGCTTGATGTCACAATCGAAGCGCAGATTCTCGAGCTGCTCCGAAAGTTGAGGGATGAAGAAGACATGTCCATCATGCTCATCACCCACGATATCGGTGTGGCCGCAGAGCTTTCCCATAGAATCATCATCATGTATGCCGGGAAGGTGATGGAGATTGCAGAGACCAGCGATTTGTTTGAACGCCCCTATCACCCTTACACAAAAGGGCTGCTTGAATCGATTCCGAAAATGAGCGGTGCCAGAGGGGAGCTTCTTCCGACCATTGAAGGAACGATTCCAGGCGTGAACCAAATGCCCGAAGGCTGCCGGTTTGCTCCACGCTGCAGTTTTGCGACAGAGAAATGCCATAAAGAAGAACCGGCGCTTCAAAAAATGGGCCGGCGTGACGTCGCCTGCTGGCATGTGGAAGAGTTCGCTGCCTCGCAGCTTGACCCTTTTCCAGGAAAGGAGGATCCCGTTGAATCAAAATCATGA	MLKVEGLVTGYQGKDGFVRAVDGVSFDIEKGETVCIVGESGSGKSVTSMSVMRLVEFENGEIVSGSIEYRGEELTNKSNEEMRKIRGTEISMIFQEPLTALNPVFTIGQQIVEAIRYHEPLKKKEAMDKAEDLLTLVGLSEPKTRLKQYPHELSGGMRQRVMIAIALASKPKLLIADEPTTALDVTIEAQILELLRKLRDEEDMSIMLITHDIGVAAELSHRIIIMYAGKVMEIAETSDLFERPYHPYTKGLLESIPKMSGARGELLPTIEGTIPGVNQMPEGCRFAPRCSFATEKCHKEEPALQKMGRRDVACWHVEEFAASQLDPFPGKEDPVESKS	PGPT0004435_9593	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
AK012_03526	1065	oppF_3	COG4608	Oligopeptide transport ATP-binding protein OppF	TTGAATCAAAATCATGAAGAAAAGCTGTTGGAAATTCAGCATTTGAAGAAATACTTTGAGATTAAAGGAGGTGGGGCCTTAGGGAAGCGTAAGCAGACGCTGAAGGCGGTGGATGATGTTTCCTTTGATATTTATAAGGGGGAGACGCTCGGACTTGTCGGAGAATCCGGATGCGGGAAATCGACGCTCGGCCGTAACATTTTAAGACTGCAGGATCCGACAGACGGCCAGGTGCTTTATGGCCGGAAGAACATCCTTGAGTATTCGAAGAAAGACATGCGCAGACTCCGTAAGGATATGCAGATCATTTATCAGGATCCCTTCGGTTCTTTGAACCCGCGTTTTACTATCGGGCAGATTATCGGAGAGATGTATGAGATTCATGGTCTTGCCAAAGGTGCAGAAAAAGAAAGGAAAGTTAAGGAATTGTTGGAGCTCGTAGGATTGGATGCGAGCCGTTATCACAGCTACCCGCATGAATTTTCGGGAGGACAGAGGCAGCGGGTGGGCATTGCAAGGGCGCTTGCACTTGAGCCGGAATTCATTGTTGCGGATGAACCGGTATCCGCTTTGGATGTGTCCGTCCAGTCCCAGGTCATCAACCTGTTGATCCAGCTGAAGCGGGAGATGGGATTGACGCTGTTGTTCATTGCACACGGACTGAATGTCGTCCGGCATATTTCCGACCGGGTGGGTGTGATGTACTTAGGAAAACTCGTCGAACTGTCCGATACGGATTCGATCTTCAATGATCCTGCGCATCCGTATACGGCAGCACTCTTGTCCACTGTACCAGAAGCCGATCCCGAAGCAAGAAAAGAACGCATCGTCCTTAAAGGGGAAGTGCCTTCACCAGCATCTCCGCCTTCAGGATGCAATTTCCGGACGAGGTGTCCACTTGCAACAGAACGATGCAGTCAGGAAGTTCCAGCATGGCAGGAAACGCGAAACGGCCATTTCACGGCCTGCCATTACCCTTTGGAAAAAGGGCAGACGTTAAAAGAAGCTGTCGCTCAACGTCAGAAACCATCTGACAACAAAACTAATAACCTTATTATGGCATAA	MNQNHEEKLLEIQHLKKYFEIKGGGALGKRKQTLKAVDDVSFDIYKGETLGLVGESGCGKSTLGRNILRLQDPTDGQVLYGRKNILEYSKKDMRRLRKDMQIIYQDPFGSLNPRFTIGQIIGEMYEIHGLAKGAEKERKVKELLELVGLDASRYHSYPHEFSGGQRQRVGIARALALEPEFIVADEPVSALDVSVQSQVINLLIQLKREMGLTLLFIAHGLNVVRHISDRVGVMYLGKLVELSDTDSIFNDPAHPYTAALLSTVPEADPEARKERIVLKGEVPSPASPPSGCNFRTRCPLATERCSQEVPAWQETRNGHFTACHYPLEKGQTLKEAVAQRQKPSDNKTNNLIMA	PGPT0004440_6651	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
AK012_03527	1221			hypothetical protein	TTGGCTGAACTCATACAAAAAGGGAACCAAAAAGTCTATGACGGCTATAAGTCTTTTCAATATCTGGAAGCGGACGTCGATTATAAATCTTACAATCTTGCAAAAGAAGTGGGCCGTGTCCCGAGCTTTTCCTACCCTGTGACTGATGAGCAGGAAAACGAGGTCCAGACGATCCTGGAAGAGGATTTGATGATTTCCATGCATGAGCATACGTTCATCGCACCGGAAGACCTTAACCAGTTTTATGAATTCCGACGGCAGGGCAGGGACTTTACAGCGTTTGAAGCGCTGAGCCGTTCCGGACTTGATGTCATTTTTGAAAATTTCATGGATGGAACAGCGATGATCACTTCACTCGCAGGATGGAAATGGTCGGATGTCATTCACGACCTGGGCATCCGCTTCAGCGACATCGCTCATCAGGATATGGTGATCAAAGCCGAGCGTATCGAAGATTTGTCCAGGGCGAAAAGAGAAGGAAAAATCGCTTTTGTCGGAGCCTTGGAATCGGCATCCATGATTGAAAATGAGCTGGACCGTCTTGATGTGTTGTACGGCTTCGGCATCCGCACGATGGGCGTCTGCTATTCTGAATCGAATATGCTGGGCTCGGGCCTCCGTGAACCGAATGATGCCGGCCTGTCCGTTTTTGGAAAACAGGCGGTCGAACGGATGAACAAGCTCGGTATCACTGTGGATGTTTCTCACGCCGGTGACCAAACAGCCCTCGATACGATTGAAACGAGTACAAAGCCGGTAACAATCAACCATGCCGGGGCACGGGGAGTATGGGATACGAAGCGTATGAAGCCGGACCGTGTCATTCGAGCCTGCGCAGAAAAAGGAGGGGTCATCGGAATTGAGGCAGCTCCGCACTCGACCGTTTCGGAAAATCATCCGCATCACAATATCGATTCGTTCATGGAACACTTCGAATACACGGCGGATCTGGTAGGCATCGAGCATGTCGCGTTTGGTCCGGACACTTTGTTCGGTGATCACGTCGGGCTTCATGATACACTGGCCGGTCAATTATCCATCAAGAGTGCACAGAAATCCTCGATGGAGCGTGTCGATTATGTCAAAGGGCTGGAAAACCCGGCGGAATGCTTCCCTAACATCGTCCGCTGGCTTGTCGCTAAAGGATACAGCCGGGAAGACATCCGTAAAGTTACCGGAGGAAACATTCTGCGTGTGCTGAAAGAAACGTGGGCGAAATAA	MAELIQKGNQKVYDGYKSFQYLEADVDYKSYNLAKEVGRVPSFSYPVTDEQENEVQTILEEDLMISMHEHTFIAPEDLNQFYEFRRQGRDFTAFEALSRSGLDVIFENFMDGTAMITSLAGWKWSDVIHDLGIRFSDIAHQDMVIKAERIEDLSRAKREGKIAFVGALESASMIENELDRLDVLYGFGIRTMGVCYSESNMLGSGLREPNDAGLSVFGKQAVERMNKLGITVDVSHAGDQTALDTIETSTKPVTINHAGARGVWDTKRMKPDRVIRACAEKGGVIGIEAAPHSTVSENHPHHNIDSFMEHFEYTADLVGIEHVAFGPDTLFGDHVGLHDTLAGQLSIKSAQKSSMERVDYVKGLENPAECFPNIVRWLVAKGYSREDIRKVTGGNILRVLKETWAK	PGPT0020950_1103	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
AK012_03528	1623	appA		Oligopeptide-binding protein AppA	ATGAATAAAAAATGGTGGGTCTTTTTATCAGCTGCACTAATGGCGTTGTTCCTGGCCGCCTGTTCCTACGGCGGGGAAGAGGAAGCAGAAGGAGAGGCGGCGGCTTCTTCGGAAGAGTCGGTCTCCGGTGGAAAGGTATCGATTCCGATTGTCGCTGATCCAACCTTTAATCCGTGGCACCCGAGTGCCTATGCCGAGTCCAATGTCATTAACCGTGTCATATTCGATGGTTTGACGAAGCCGGGGAAAGATCTCGTGCCTGCACCGGATCTTGCTGAATCCTGGGAAACATCAGAAGATGGGCTGACCTGGACTTTCCAGCTCCGTGATGATGTCACCTGGCATGACGGCGAGCCGTTTACATCAGAGGACGTGGTGTTTACGTTCAACGATATTACGTTGAATGAAGACCTTGGAGCGAACAGTGCCTCCTATTTCGGACAGGTGGAAAGTGTGGAAGCAGACGGCGATTACACCGTTATGTTCAACTTATCGAGTCCGGTTGCCGCCCTTCCAGCTTACTTGAGCTTTAACACAGAGATTATTCCTGAGCACATCTTCCAGGGAGAAGACCCATGGGATCTGACGAGCTTTAACAAGGAGAATCCTGTTGGAACAGGGCCTTTCAAACTCAAATCCTATACATCCGGCCAGAGTGTCGTGCTTGAGCGGAATGATGAGTACTTCGGCGATGCCGCGAACCTGGACGAAGTGGAATACAAAATCCTCCCTGATGCCAATACCCACGTGGCACAGCTGTTGAGCGGCGAACTTTCCATCTTTGCTCTGGATGATACCTCTGCGGTTGAACGTATTGAGAGTGCGGACGGCGTTGATGTGGACGGACGTGATACGAACCGTTTCTTCTGGCTGATCGTCAACCAGCAGGAGGAGAGGTTCCAGGATGTGAAAGTGCGTCAGGCGATGGAATATGCCCTTGACCGTCAGAACATCATCGATACCGTTCTGCAGGGATATGGAACGATTGCAGATGCGGGAATTACGCCGGCCTTGTCGGAGTATTACACCGATGATGTGAAGCAGTACCCGTTCGATCCGGAAGAAGCGAAAAAGCTCCTTGCTGAAGCAGGCTGGGATGATACGAACGGCGATGGATTTGTCGATAAGGATGGAGAGAACTTCGAAATCATCTTTGATATCGGTATTCAAGGGGATTTAGAAGCGATTGCCCAGCTTGTTCAGCAGTATTTGATTGATGTCGGCCTGGATGTTCAGTTGAACACGATGGACTGGAATACGATGATTGACAAAGTCGTCATCCAAAGGGATTATGCGATGACCTTGAACTGGTGGCGATACCCGCCTGATCCCGATTTGAAGGCATATATGCACTCTGATTTTGCCGAGCAGGGCAATAACATCCCGGCTTATCAAAATGAAGAAATGGACAAGCTTTTGGACGTTGGTGCGGAAACAAGCGATGTGGAAGAGCGGAAGGAAATCTATACAGAGGCCCAGAAGCTGATGGCTGAAGAGCTTCCGTATATGTTCCTCTGGTACCCGCAGGAAGTACAGGTGAAGCGCTCGGATATCGACGGTGTTCCTGAACTGGCCTTTGGAGATACGCTTCACTATATCCAGGAATGGTATATGGCGGAGTAA	MNKKWWVFLSAALMALFLAACSYGGEEEAEGEAAASSEESVSGGKVSIPIVADPTFNPWHPSAYAESNVINRVIFDGLTKPGKDLVPAPDLAESWETSEDGLTWTFQLRDDVTWHDGEPFTSEDVVFTFNDITLNEDLGANSASYFGQVESVEADGDYTVMFNLSSPVAALPAYLSFNTEIIPEHIFQGEDPWDLTSFNKENPVGTGPFKLKSYTSGQSVVLERNDEYFGDAANLDEVEYKILPDANTHVAQLLSGELSIFALDDTSAVERIESADGVDVDGRDTNRFFWLIVNQQEERFQDVKVRQAMEYALDRQNIIDTVLQGYGTIADAGITPALSEYYTDDVKQYPFDPEEAKKLLAEAGWDDTNGDGFVDKDGENFEIIFDIGIQGDLEAIAQLVQQYLIDVGLDVQLNTMDWNTMIDKVVIQRDYAMTLNWWRYPPDPDLKAYMHSDFAEQGNNIPAYQNEEMDKLLDVGAETSDVEERKEIYTEAQKLMAEELPYMFLWYPQEVQVKRSDIDGVPELAFGDTLHYIQEWYMAE	PGPT0004430_8185	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
AK012_03529	951	dppB_2	COG0601	Dipeptide transport system permease protein DppB	GTGATTCGTTTTTTACTCAACCGCTTTGGCCAGAGCATCATTCTATTGTTCATTGTGACTGTCATTACTTTTTTTCTCATCAACCTTGCACCAGGTGGGCCCACAGGGGTCATGCGGATGGATGCCTCACCTGAAGAACGTCAGGCAGTGATTGAACGTCTCGGTCTCGATCAGCCGGTAATCGTCCGCTATTTTGAATGGGTGGGGAATGCTGTCACCGGTGACCTGGGCACATCATTCAACTCCAGTGAAGCGGTCGTGGAAAGGATTGCAGAACGTCTGCCTTATACGATGGAACTGACCGTATTCACCATCATCTTTTCAGTCATTGCAGGCATCATCCTCGGTGTCATCTCCGCTTTGAAACGAGGAAAAGCGGCGGATCACGTGATCAACTTTTCGAGTGTCATCGGTTTGTCGGTTCCTTCCTTCTGGCTCGGCTTGATGCTGATTCTGTTATTTTCTGTTGAACTTGGCTGGCTGCCATCGTCCGGTGTCGGACCCAGGGGCGCGGAATTTGATTTTGGGGGCTGGATGGCTCACTTAGCGATGCCGATATTGATTCTGTCAACGACCGTGCTTCCGAATATCGTCCGTTTCACGAGATCATCGATGCTGGAAGTGATTTCACAGAACTATATCCGTACCGCTCGTTCCAAAGGGGCGAAGGAATTCGTCGTTTTGTATGTGCATGCGCTTCGGAATGCGATGATTCCGATCATCAGCATTATTGGCGTGCTGATTCCGAGGCTGCTGAGCGGTGCTGTGATCACCGAAGCGATTTTTGGATGGACAGGAATCGGAACGTTGATTATTGAAGCGGCCAATGGCCGCGATTATCCATTGATCATGGGCATTACCGTTGTCATTACGCTTGTCGTTATCATCAGCAATCTGCTTGTCGATATCATTTATTCCCAAGTCGATCCGCGTGTAAAAAATATGGCATAG	MIRFLLNRFGQSIILLFIVTVITFFLINLAPGGPTGVMRMDASPEERQAVIERLGLDQPVIVRYFEWVGNAVTGDLGTSFNSSEAVVERIAERLPYTMELTVFTIIFSVIAGIILGVISALKRGKAADHVINFSSVIGLSVPSFWLGLMLILLFSVELGWLPSSGVGPRGAEFDFGGWMAHLAMPILILSTTVLPNIVRFTRSSMLEVISQNYIRTARSKGAKEFVVLYVHALRNAMIPIISIIGVLIPRLLSGAVITEAIFGWTGIGTLIIEAANGRDYPLIMGITVVITLVVIISNLLVDIIYSQVDPRVKNMA	PGPT0004445_13414	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
AK012_03530	894	gsiD	COG1173	Glutathione transport system permease protein GsiD	ATGTTAGGAGCTTCTATAAATGAAGATATGGAAGAACAGCCACTGAAAAAGGAAAAGCGGCGCTTCGTACTCCTTACAAGGTTGAAGCAGAACAAAGTGGCGTATCTATCGTTATGGTTTTTAGTCGTTGTCCACGCCGTCGTCTTTATCGGTCCTGTTCTGTGGCCGCTTTCACCGGATGAACTGACCGATGCAGGGGCTCTTGCCGGCTGGACGCTGCAGCACCCCTTCGGAACGGACGATCTGGGCAGGGATGTTTTTGCCCGCATGCTTCACGGCGGCCGTGTGACGCTCTTAGTCGGATTATGCGCCATGCTTTTCTCCTTGATTATCGGGACGATCATAGGCGCCTGCGCCGGATTCTTTGGAAAAGTGGTCGAAGCTGTCCTCATGCGCATTACGGAAGCAATGATGGCGATTCCGAACTTTTTCTTCGTCCTTGTCGCTCTTACGGTGCTTGGGACGACGCCGTTCATGGTCGTGCTCGTCATCGCCCTGACCGGCTGGGTGGAAATTGCCCGTGTCGTTTACGGAGAAACGTTGAAGTGGAAGGAATACGAGTTTGTTGAAGCGGCCCATGCGGCTGGAGCCTCCGCAAAAAGGATTCTCTTGAAATATGTCGTTCCGCAGATTCTTCCCTCGATCATCGTCTCCGGAACGCTCGCTATTGCCTGGGCCATTCTTACGGAAAGTGCGATCAGCTACCTCGGTCTCGGCATCCAGCCACCGACGCCGACATGGGGGAACATGCTGCAGAATTCCCAGCAGTACATCTGGACGGCACCGATCTTAGGTGTGCTTCCCGGGGTAGCGATCACCATTGTTGTACTCGCTTATAATTTTCTCGGGGATGGGCTGAGGGACGCCCTGGATCCGCGTTTTGCGAAAAAATAA	MLGASINEDMEEQPLKKEKRRFVLLTRLKQNKVAYLSLWFLVVVHAVVFIGPVLWPLSPDELTDAGALAGWTLQHPFGTDDLGRDVFARMLHGGRVTLLVGLCAMLFSLIIGTIIGACAGFFGKVVEAVLMRITEAMMAIPNFFFVLVALTVLGTTPFMVVLVIALTGWVEIARVVYGETLKWKEYEFVEAAHAAGASAKRILLKYVVPQILPSIIVSGTLAIAWAILTESAISYLGLGIQPPTPTWGNMLQNSQQYIWTAPILGVLPGVAITIVVLAYNFLGDGLRDALDPRFAKK	PGPT0004450_7894	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
AK012_03531	849	pip	COG0596	Proline iminopeptidase	TTGTTCATGAACGTGAATGACAATGAGTTGTATTATGAAGTCCATGGAAATCCCGAGGGAGAGGTGATTTTCTTCATCCACGGAGCACCGGGCCTTGGCGACTGCCGTAGTGATATCAAAGCCTTCTCAGCCTTAGGAGATACGTACAAGCTCGTTTTTATGGATATGAGAGGTTCAGGGAGGTCGGAGGGGCGGCAGCCGTTTACTCACGAACAGTGGACGGCGGATATTGAAGCTGTCCGCCGGGAGCTTGTCGGCGGTCCGATCACCATTTTAGGCGGCTCGTACGGCGGATTTCTAACGCTCGAGTACGCCATCCGCTACCCCGACAGTGTCACCCGTGTGCTGCTGCGGGATACCGCAGCAAGCAGTGACTTTGATTACCTTTCCATCGACCGTGCCCTTGAGAGTGGGATTGAGGGCATCACTGAAGAAAACATGACCCGCCTTTTTGGAGGGGAGGTGTACTCCGATGAGGATTTGAAAGAGCTGTTCACTTTGATCCAGCCGCTTTATACCGTTGAATATGATGAAGAAGCCGTTCGTCAGCGCCTCGACCAGATTTACTACAGGTACGAAACGCATAACTTCGCTTTCCGGTATAATAAACCCGCGTTTAATCTGGTGGATCAATTAGCCGGGATCAACGCACCGATGCTTGTGACAGTCGGAAGGCATGACTGGGTCACCCCTGTGATCTGCTCGGAGACGATTGCCTCATGCGTGCCGAATGCCGAGCTCGTCATTTTTGAAAACAGCGGTCACTCTCCCCAGCTGGAGGAGAATGAAAGATACGTAGAACTGGTCCGTCGTTTTCTCCAGAAACATAGTGCTGTACAGCCTCTTTAA	MFMNVNDNELYYEVHGNPEGEVIFFIHGAPGLGDCRSDIKAFSALGDTYKLVFMDMRGSGRSEGRQPFTHEQWTADIEAVRRELVGGPITILGGSYGGFLTLEYAIRYPDSVTRVLLRDTAASSDFDYLSIDRALESGIEGITEENMTRLFGGEVYSDEDLKELFTLIQPLYTVEYDEEAVRQRLDQIYYRYETHNFAFRYNKPAFNLVDQLAGINAPMLVTVGRHDWVTPVICSETIASCVPNAELVIFENSGHSPQLEENERYVELVRRFLQKHSAVQPL				NA	NA	NA	NA	NA
AK012_03532	477			hypothetical protein	ATGGTGGAGGTGATGGACGTGTATTTTCCGTCCAGAAAAGACTTGTTGTTTGTGCTTATGTACGGAGGAATCATTGGAAGCATTGTTCTACTCTATTTATTCGGGGGAGAAGCGGCCGGTTGGCAGTTGATTACATATAAAAGCGTGCCGGGATACCTTCTCAGTGCAGGAATCATAGGAATCCTTTCATGGATCTGGTTTACGACCGGATACAAAATTAATGCAGGGATCCTGCACATTCGATTTGGTCCCATGAGAAAAAAGATCCGTATAGAAGATATTCATAAAGTGGAGAAGAGAAACAGTCCATTTGCCGCTCCTGCACTCGCGGTGAGGCGTCTCGAAATCCATTCGTCCGACCATGCCATTACACATATTTCTCCAAAAGATGAGAAGGCTTTCCTTCGCCTTCTGCAGAGGAATAATCCAGGGATTGATATCAGCCGTACGTTGAGGGAGGCGGGGACAGGAGTTTGA	MVEVMDVYFPSRKDLLFVLMYGGIIGSIVLLYLFGGEAAGWQLITYKSVPGYLLSAGIIGILSWIWFTTGYKINAGILHIRFGPMRKKIRIEDIHKVEKRNSPFAAPALAVRRLEIHSSDHAITHISPKDEKAFLRLLQRNNPGIDISRTLREAGTGV				NA	NA	NA	NA	NA
AK012_03533	180			hypothetical protein	TTGAAAAAGAGAATCATGTCCGTCCTTCTGATGTGGAGCATCCTGGGTCCGTTTTCTGTTATCCTGGGATACATAAATGATGGTGCGATCGACTGGAATCATTTAATTGGAATGTTGATTGCAGGCTTTGTCATTGGCTTCTGGATGCTTCCCCTCAGTTATCGGAAAAACAAAAAATGA	MKKRIMSVLLMWSILGPFSVILGYINDGAIDWNHLIGMLIAGFVIGFWMLPLSYRKNKK				NA	NA	NA	NA	NA
AK012_03534	177			hypothetical protein	ATGAGTCAAGAGGGCTATGGAGACTTCATTTTCGATTGTGATTATGATGGGATGACATCTACAACAAAACTGAGAGAATATGGATTCCACGAATTTGTAGACAGTGAAGAAATGTTCACACGTCTGTTCCGTGAATTCCAGCAGGTAGGCATTCTTCCGGATTTCTCTAATCCATAA	MSQEGYGDFIFDCDYDGMTSTTKLREYGFHEFVDSEEMFTRLFREFQQVGILPDFSNP				NA	NA	NA	NA	NA
AK012_03535	201			hypothetical protein	ATGGAAAATAAAGTGAAGATCGCGCGTGTCAGCCTGGATTTAACCCAGCAGGAACTAGCAGAGAAGGTCGGTGTAACGCGTCAGACAATCAGCTTGATTGAGAAAGGCCGTTACAACCCAACGTTGAAGCTGTGTCTGGAGATCTGCTATGCCGTTAACCAAACGCTGGATGAAGTATTCTGGCAGGAACGAAAGGAGTAA	MENKVKIARVSLDLTQQELAEKVGVTRQTISLIEKGRYNPTLKLCLEICYAVNQTLDEVFWQERKE	PGPT0008430_6409	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_METABOLISM	PLANT_VITAMIN-MOLYBDENUM_COFACTOR_BIOSYNTHESIS,PGPT0008430-moeA-K03750	NA	NA
AK012_03536	420			hypothetical protein	ATGGAGAAAATTAAAGATGAACGTCTGCAGTTGAAAAATTTAAAGAACATCAGGATTACTTTTATTGTCCAGACTTTAGGAATTATCGGGATCCTGCTTTATGATTTGATTAACCATGGGATGGACGGGATGACGGATAATCCTGTCTGGTTTGTTTTCATTTTGACAGGAGTGATTAATGCCTATCTTTCTATGAGTATCAGTGTGGAGCATGAGAAAACAAAACGGTCCCCCGTGACACGGTTGTACATATCTCTCGGTGTAATCACATTGATTTCTCTTTTATTTGTTACTTTCATCGCCTTGACGAGTGGGTACAACGTGATGGACGGTTTGCTGGTTGGAGGAATCGTTTTTGTCTGTTCGGTCATCCCCGCTTTTTATATGTACGGCCTTCGGCAGAAAGAGCGCGACGAATAG	MEKIKDERLQLKNLKNIRITFIVQTLGIIGILLYDLINHGMDGMTDNPVWFVFILTGVINAYLSMSISVEHEKTKRSPVTRLYISLGVITLISLLFVTFIALTSGYNVMDGLLVGGIVFVCSVIPAFYMYGLRQKERDE				NA	NA	NA	NA	NA
AK012_03537	339			hypothetical protein	ATGAAAGAATTAACGACCAACACGTCATTATTAATTGTAGGCGCCTGCATCTTGTCAGGAGCAATTATTCTTTCCAACGCCCTCACGCAGAGCTCCCAGGAGGCTGGTGAACAGGTTATAGTCCGCGAACAGCCTGAGGGTCCTCAGCTGTTGAGTTATTTGGAGCTTCAGGATTACCTGGGTCTTAGTGACGAGCAGATAGAAAAGGTTCTTCCGAAGAATGAGGGGGATGGTGTGAAGAGTCAGATCCCTTATGTGAAAATCGGCTACGAATACTATTTCCCTGTCAAAGCTGTCGACAAATGGCTGGCCGAAACAGAAGCCGCCACTTTTCGTTGA	MKELTTNTSLLIVGACILSGAIILSNALTQSSQEAGEQVIVREQPEGPQLLSYLELQDYLGLSDEQIEKVLPKNEGDGVKSQIPYVKIGYEYYFPVKAVDKWLAETEAATFR				NA	NA	NA	NA	NA
AK012_03538	1044	pbpE	COG1680	Penicillin-binding protein 4*	ATGAGAATACATAAAGAGCTGCCAGAAATGATCCATGATAAAAGTAAGGACATCAGCTTTTCCGGAGTGGTCTATGTAAAGGACAGGGAACAAGTGCTTTTGAAGAAGGCCTATGGTTACGCAGACAGAGCGGAGAAAAGGCTGAATACATACAACACCCGTTTCGGAACAGCCTCCGGAAGCAAACTGTTCACCGCTGTGGCTGTCTGCCGGCTTGTGGAACAAGGACAGCTGGAGTTTGATACACCACTGGCCGACTGTCTGGCGATAGAATTCCCTTATTTTAATAAGGATGTAACCATTCATCACCTGCTGACGCATACGTCCGGCCTGCCGGATTATTTTGATGAAGAAGTGATGGAGGATTACGAGGATTTATGGACGGATGTGCCTGTCTATAAAATCGAAACGCTCAAGGATTTTCTGCCTCTTTTTCAAAAGAAACCGATGAACGGCAGGCCAGGGGAGCGGTTCCACTACAACAATGCGGCCTATATTCTGCTTGGATTGATCATCGAGCAGCAAACAGGAGAGGCGTATACTGATTACGTACAGTCGGAGATTTTTGAGCGCTGCGGGATGTATGACTCCGGGTATTTCTCTCTTGATCAGCTCCCGGTCAATACAGCGATCGGCTATATCGATGACAAGGAAAAGGGAACATGGCGGACGAATGTTTATTCGATTCCCAAACAAGGCGGATCCGATGGCGGCGCGTTTTTATCAGCTCCGGATATGGCGAAGTTCTGGGAAGCGTTATTCCGATATGAACTGCTGGGCGAAGAGATGATCAGCAGGCTTCTGCAGCCTTATGTGCAGGTGAATGAGGCGGTTCATTACGGGTACGGGATTTGGATGAACCAAAAAGACGAGCATATATACAAATACCACGTCATGGGCTGTGATCCCGGTGTCAGCTTCCGCTCCTCTTATTATCCGGATGCAGGTCTCATCACAGCGGTTCCTTCCAATCAGGAATCCGGACCGTTCGAAGTCACTGATGTCATCGAGGATTTCCTGCTGGGATGGAATAGCGGAAAGTAA	MRIHKELPEMIHDKSKDISFSGVVYVKDREQVLLKKAYGYADRAEKRLNTYNTRFGTASGSKLFTAVAVCRLVEQGQLEFDTPLADCLAIEFPYFNKDVTIHHLLTHTSGLPDYFDEEVMEDYEDLWTDVPVYKIETLKDFLPLFQKKPMNGRPGERFHYNNAAYILLGLIIEQQTGEAYTDYVQSEIFERCGMYDSGYFSLDQLPVNTAIGYIDDKEKGTWRTNVYSIPKQGGSDGGAFLSAPDMAKFWEALFRYELLGEEMISRLLQPYVQVNEAVHYGYGIWMNQKDEHIYKYHVMGCDPGVSFRSSYYPDAGLITAVPSNQESGPFEVTDVIEDFLLGWNSGK				NA	NA	NA	NA	NA
AK012_03539	351			hypothetical protein	ATGAGCAAACATAAAATCTACAGCATGAGTTTCGCCAGTGTTTATCCTCACTACGTCGCAAAAGCTGAGAAAAAAGGACGCACCAAAGAGGAAGTCGATGAAATCATCCGCTGGCATACCGGGCTGTCTCAGGCACAGCTGGAGGAGCACTTGGAAGAAAAGACAGATTTTGAAACCTTTTTCGAGGAGGCACCCGCGCTGCATCCGTCCCGGAAGCTGATCAAAGGGGTCGTCTGCGGTGTCCGGGTGGAAGACATTGAAGAACCGATCATGCAGGAAATCCGCTATCTGGATAAGATGGTGGATGAACTGGCGAAAGGCAAGGCTATGGAAAAAATACTGCGAAACTAA	MSKHKIYSMSFASVYPHYVAKAEKKGRTKEEVDEIIRWHTGLSQAQLEEHLEEKTDFETFFEEAPALHPSRKLIKGVVCGVRVEDIEEPIMQEIRYLDKMVDELAKGKAMEKILRN	PGPT0003760_123	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
AK012_03540	897	gltR_3	COG0583	HTH-type transcriptional regulator GltR	ATGGAAATGAAGCAGTTAAAGATGTTTCAAACCGCAGCCATAGAGTTGAATTTCACTAAAACCGCCCAGATTCTCGGCTATGCCCAATCCAGCATTACAGGGAATATTTCTGCCCTGGAAGAAGAAATCGGCGCCCCACTTTTTGAAAGGCTGGGCAGGAGGGTGTTTTTAACAAAGGCAGGAGAACAACTTCTTGATTATGCGGATAAAATCCTTGGTTTAACAGAAGAAGCTGTTTATGTAACCGGAGGTAAAAATCAAAACCCAGGAGGAATGCTGCGGATCTGCGCATCCGAAACCCACTGCACGTACAGAATCCCCCACATTTTAAAGGCCTTTCAGGAAAAATACCCGAACATTGAACTGATATTCAGGCCGGCCGTGGCCGAAAAGGATATTCTGCATTTGTTGTCCGAGGGGCAGATCGACGTTGGTCTGCTATCTATGCATCCTCTGACATCCAGTTCCTTCACAGTAAAGGAATTGAAAGAAGAACCAGTCGCGCTTATATCCAATCCAGCCCACCCCTTAAGGGATAAAGGGGGAGTGACCCCTTACGATGTGGCGCAGGAGAAGCTCCTGCTGACAGAAGCATGTGATTACAGGACTTCTTTCGAAAATGCTCTGATTCAATCTGGTACAGCACCAAACAGTAAGCTTGAAATCGGGGATATATCTGCAATCAAAGAATGTGTGAAGGCTGGTCTTGGTGTAGCCGTGCTTCCGGAAATCGCCGTCCAGAAAGAAATAGCAGATAAAACCATCTCCAAGCTGAACTGGAACGGGCCTGCCTTTAACATCCAACAGCAGCTCTTCTGGCATAAAAATAAATGGATGTCCCCTGCCCTTCAGGCTTTCATTGCACTCACGGAGGAATATATAAAAGAAAATGGATAA	MEMKQLKMFQTAAIELNFTKTAQILGYAQSSITGNISALEEEIGAPLFERLGRRVFLTKAGEQLLDYADKILGLTEEAVYVTGGKNQNPGGMLRICASETHCTYRIPHILKAFQEKYPNIELIFRPAVAEKDILHLLSEGQIDVGLLSMHPLTSSSFTVKELKEEPVALISNPAHPLRDKGGVTPYDVAQEKLLLTEACDYRTSFENALIQSGTAPNSKLEIGDISAIKECVKAGLGVAVLPEIAVQKEIADKTISKLNWNGPAFNIQQQLFWHKNKWMSPALQAFIALTEEYIKENG				NA	NA	NA	NA	NA
AK012_03541	1170	dhaT	COG1454	1,3-propanediol dehydrogenase	ATGCATTTTGACTACTACTGCCAGACTAAAATTGTGATGGGACCTGGACGTTCCAAGGAAGTACCGGGACTGTTGAAGGAGATGACAGAGCCGGGGGCCACCGTGATGGTCGTGAGCGATCCAGGTGTGAAAAAGGCCGGAATCGTAAAGCCTGTTTTAGATTCTCTTGAAGATGCGGGCTATCGGGTGGTGGATTTTGACCAGGTATCTCCGAATCCGCGCGATACCGAATGCCTGATGGGAGCGGAAGTGTTTCAAAAAGAAGAAGCTTCCGCTGTCCTTGCGATTGGCGGTGGAAGTCCCATCGATACCGCAAAAGCGGTAGCGCTTCTCGGCCCGAACGGCGGCCGTCCCGAGGACTATGTAGAAGGGAAGAGGGCTTATGCGAATGCAGCACCGATTCTCTGTATGCCAACGACGGCCGGCACCGGATCAGAAGTTACCCGCTCTTCGGTCATTACACTCGCGGACTCGCACCGGAAAATCACGCTGAAGCATGCGATGCTCCGTCCGGTAACAGCCGTACTGGACCCGGAACTGACTTTGACAGTACCAAAGGACGTAACGGCAGCAACTGGAGTCGATGCCCTTGTCCATGCTGTCGAGGGATATTCGTGTAAGGTGACGAACCCTTTATCACAGGCGATGGGAGCAAGAGCGATGGAGGTCATTGTCGAGCATCTTCCTCGAGTGTTTGAACACGGAGCAGATCTTCAGGCACGGGCGAAAATGCAGGAGGGAAGCCTGCTTGCGGGTCTATGCTTTGGGTCAGCGGATGTAGCGGCTGTCCACTGCTTGGCGGAAGCGCTTGGCAGCCTCTATGATACTCCGCACGGCGTAGCGAATGCCATATTCCTTCCTCATGTCATGGAGTTCAACGCGCAGGAAAACGTGCCGCTGCACGCGGAAATGGCACGGCTTATGAAGATGGCAGAAGATAACGATCCGGATGAGGAGGCGGTAGAGAAATTCGTCCGTCAAATCCATGCGTTCACAAAACAGCTGGACATTCCTCTTTTGAGTGAAATACCTTCTGTTCAGGAAGAGGATTTCGAACGGATGGCTGAACTTGCGGAACGCAACAACTCGACCCCGAGCAATGCCCGGACGATTACGAAAGAAGATTATCTGCAGATATTAACTACAGCCTTTCAATCTCCGAATCTTTGA	MHFDYYCQTKIVMGPGRSKEVPGLLKEMTEPGATVMVVSDPGVKKAGIVKPVLDSLEDAGYRVVDFDQVSPNPRDTECLMGAEVFQKEEASAVLAIGGGSPIDTAKAVALLGPNGGRPEDYVEGKRAYANAAPILCMPTTAGTGSEVTRSSVITLADSHRKITLKHAMLRPVTAVLDPELTLTVPKDVTAATGVDALVHAVEGYSCKVTNPLSQAMGARAMEVIVEHLPRVFEHGADLQARAKMQEGSLLAGLCFGSADVAAVHCLAEALGSLYDTPHGVANAIFLPHVMEFNAQENVPLHAEMARLMKMAEDNDPDEEAVEKFVRQIHAFTKQLDIPLLSEIPSVQEEDFERMAELAERNNSTPSNARTITKEDYLQILTTAFQSPNL	PGPT0006370_518	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_LIPID_METABOLISM	PLANT_DERIVED_FATTY_ACID_DEGRADATION,PGPT0006370-yiaY-K13954	NA	NA
AK012_03542	486			hypothetical protein	ATGGGAGAGAAGGGAGTTGTTACCATGAATGAAGAACAGGTATTTCAACAAATCGCACTCGTTAGAAAAGCGACATTGAAAATGTTAGATGGAATTACGGAGGAACAGGCGGACCTCCAGCCGAAAGGATTTGCAAACAATATCCGGTGGAATCTCGGTCATATTGTTGCTGCTCAAAATGGGATGGTGGCTAAGTTTGCCGGTACACCGGTCGAAACGCCTCCGCGCTTTTTCCAATTATTCGCTCCAGGAACGAAGCCGGCGGATTGGGAAGGTAACGTCCCCAGCCTTGATGAATTGAAAAAACACCTGGAAGAGCAGCCGGCACTCCTGCAGGAAGCTCTCACAGGAAAACTTGATGACGAAGCAGCAGAGGAGTTTCTATCCATGAAAACCGTTGGTGAAATTCTGAATTTCACGCTGTATCACGAAGGGGTACATACGGGAACAATAAAAGCGATCAAGGCACAGACCGATCAAAAGTAA	MGEKGVVTMNEEQVFQQIALVRKATLKMLDGITEEQADLQPKGFANNIRWNLGHIVAAQNGMVAKFAGTPVETPPRFFQLFAPGTKPADWEGNVPSLDELKKHLEEQPALLQEALTGKLDDEAAEEFLSMKTVGEILNFTLYHEGVHTGTIKAIKAQTDQK				NA	NA	NA	NA	NA
AK012_03543	1419			hypothetical protein	ATGGGTTTCTTCTACTATATAAAAAAATACTTCAAAATGAGCCGGCGTCAACGCAAGAGTGAACTGAAATCCACGATCTGGTTTATGCCGTTCTGGTATATTCTCGGGGCTGTCGGATTATCGGCGTTCACCTTTTACCTCGATTATATCGTGGACGTCAGCTTGTACCTGCCGGCGCCCATCGGCTTCAGCGGACAGACGCTGCAGGTGCTGCTGAGTGCGCTCGTCGGAGGCGTTCTTACTTTGAGCGCGTTTACAATCAACTCGCTGCTTGTTGCCTTAACTACGTTCAGCGGGCAGTTTTCATCCAAAATGCTCGTCAACTTTGTCAGTGACCGGGCCACTCAGCATGTGCTCGGCATTTTCAACGGAAGTTTCATTTATGTGCTGTTGAACTTCCTGTATGTGACGCATGAGGAAGAGGAGTACATCGCCGCAACGCCGGTTTTATCAATTCTGACCGCGATTATTGCCGCTGTCACCTTCATCTATTTTATCAACCATACGACAACATGGATGCAGGTGCACAATATCAGCTACAATATGAACGCCAAGTCCCAGTCTGTTCAGACCGCTTTGGAGAAGGAGCTGGCCCCTTTTCATCTCGACAAGGAAATCGAACCGACTTCACTTCCTGCTGATGACGAGGGGAAGGTGTTGACATCACATCAGTCCGGTTACCTTCAGGTGGCGGATTTTGCAAAGCTCGTCAAGACGGCGTCACGGGAGGATGCTCTCCTGCGGTTTGATGTAAGGATCGGCGAGTTTGTGGTGGAGGGGACCCCGCTTCTCACTTATTGGGAAAAGGGCTCCAAGATTCATCCGGAGCGTTATTTTAAGTCGATTGAAATTGGTGTAAAGCAGACCGAAATTCAGGACCTCGAATACGGTCTGATCAAGCTTGCAGAGGTAGCCATCAAAGCGCTCGGTCATAACGACCCGCTGACGGTGACGAATACCATCCATCAGATTACAGATCTCTTGAAGCGCATCGGCCAGTCCACCAATTTCTCTCCCTACCTTTTTGACCAGGAACAGCAGCTGCGGGTGATTTTGAATCAGAAGGATTTCCGTTATTATCTTCATAAAGGATTCGCGTCGATCCGGGAATATGCCAACCAAAATTCAACGATTATGACGGAACTGCTGACGATGATTTCCCTGCTCAGCAAAACGATGGACGAGGACGTTCACGAGGATCTGTGGGAATTCGCGCGTCAGACGATCCTTGGCTTCGATAATTACAGTCTCTATGAAAATGACTGCCTGTACATTATTGAACAGCTTTCCGAGCTTTCCAAGAATACAGGTCATCAGGAGGATTACCTGTTTCTACTCGAATATATGCTGCAGCGTGTCAGCTCAAAAAGTGCAGCAACGGTACCTCAGAAAGCATCCGGAGAGCAGGAGCTTTCTTAA	MGFFYYIKKYFKMSRRQRKSELKSTIWFMPFWYILGAVGLSAFTFYLDYIVDVSLYLPAPIGFSGQTLQVLLSALVGGVLTLSAFTINSLLVALTTFSGQFSSKMLVNFVSDRATQHVLGIFNGSFIYVLLNFLYVTHEEEEYIAATPVLSILTAIIAAVTFIYFINHTTTWMQVHNISYNMNAKSQSVQTALEKELAPFHLDKEIEPTSLPADDEGKVLTSHQSGYLQVADFAKLVKTASREDALLRFDVRIGEFVVEGTPLLTYWEKGSKIHPERYFKSIEIGVKQTEIQDLEYGLIKLAEVAIKALGHNDPLTVTNTIHQITDLLKRIGQSTNFSPYLFDQEQQLRVILNQKDFRYYLHKGFASIREYANQNSTIMTELLTMISLLSKTMDEDVHEDLWEFARQTILGFDNYSLYENDCLYIIEQLSELSKNTGHQEDYLFLLEYMLQRVSSKSAATVPQKASGEQELS				NA	NA	NA	NA	NA
AK012_03544	165			hypothetical protein	ATGGAGACGGTTATTTTAGCTGTTGTTATAACCATTCTTGTAGTCGCGGGATGGGGAGGAATCATGCTGAAAGATCTGCCTGTGAAGCTGGATGGACAGTGGATGTATGTGGCCACTGCGGTATTGAGTGGAATTCTTTTGATTTTAATCGCTCTCAATTTTTAG	METVILAVVITILVVAGWGGIMLKDLPVKLDGQWMYVATAVLSGILLILIALNF				NA	NA	NA	NA	NA
AK012_03545	1779	pepF1_3		Oligoendopeptidase F, plasmid	ATGAGGGTGAAAACAACCCAATGGGATCTGGAATCTGTCCGCCCAGGTGGGCGGGAAGTGGCGCTGGAGGAACAGATGGAGCAAATCGTTCATCAGCTTGAAAGAAGAAAGAGCGAGTTGGAGAAAGGGAATGAAGCTACGCTGATAGAGGAAGCTGTTGAAAACATTCTACATGTACAGGAACTCCAAACAAAGATATTCGAATTGGATGAATATATCATCTGCCGGCAGTCCACAAACGTCACAGATGCAAAATGGCGCGATATGGCCGGGCGGTGCAGCATTTTAAAATCTAAATTTAATACGATGATGGTTTCGTTCCGCCTGTTCCTGGCAAAGGTTTCGATCACTCAATGGGAACAACTCGTAGAACATCCGGAGGTTCGATCCGCCCGATTTTATTTAAATGAAGAAAGAAGAAAAATGGAGGACCAGCTTTCTCCTGAGATGGAAGCACTTATTCATGACCTTGCTGTGGATGGGTTTGATGGGTGGGAAGATCATTACGAGCAGGAATTATCGAACCTCCGCGTAAGGGTGGAAGCGAACGGAGAAGCTCAGAGTATTCCTTTCAGCCAGGCTTTTGTACAAGCGGCCTTTTCTCACGATCGTCGTGTAAGGAAAGCTGTAGGTGAAGAAATCTTAAACACCTGTGAAGCGAATGCCGATCGGTTTGCTTCTATTTTCAATCACTTTGCTGGATTTCGAAACGAGCTTTACCGAATTCGTGACTGGTCTAATCCGTTGAAGGAAATGCTGGATCAAAACCGCATACGTGAAACGACCATCTCGAGTTTGATGAACACTCTGCATGAACATAAACACTTGCTGCATCAATTTTTCCAAAGAAAAGCTGAATTGAGTAAGGTCGATAAGCTGACATGGTATGACACGCAGGCGCCGACGTATACCTCAGAAACATCGCTCACCTATGACGAAGCGGCACAAATTATTATTCGTCAGTTCCACTCTTTCAGTGAAAAACTGGGGGTGTTTGCTGAACGCGCATTCGAACAGGGGTGGATTGATGCAGAGCCTTCTGAACATAAACGTCATGGTGCCTTTTGTGCATCACTTCCGGCGGCTGAAGAAAGCCGCGTGCTTCTGTCGTTTACAGGCAGTTATCAGGATGTGGTCACGCTTGCCCACGAACTGGGGCATGCCTACCATAATCTAATCCTTCATGAACAGCCGGGTTTTGCCAGACAGATTGGTACAGGACTTGCAGAAACAGCTTCTACATTCCTTGAAAATCTTGTCCTTGATGCAGCAATTGAACATGCGGAAACAAAAAATGATCAACTCTGTCTTTTGGAGATGAAAATTACTAATGGACTGAAGTATACCGCCCTTATCCCGGCAAAGTTTGAGTTTGAAAGAGCGTTTTATGAACGTCGGAAGCATGGGGCTCTTTCAGCTGATGAACTTGTTCAATTGAATACTGAAAAAGAAGAGGAGTGGTTCAAAGGCACCTTGGCGGATGTAAATGGATATACATGGATGACGATTCCACATTTCTATAGTACAGAAAAGGCCTATTATAACCTTCCGTACACGATAGGTTACTTGTTCAGTAACGGTCTATATTCTATGTACTTAAAGGAACGGGAGGGCTTTCCAATAATGTATGACCAACTGCTTGAGAATTCTGGAAAGCGTACGATGGAAGAATTGGGAAGGGAATTTCTGAATGAGGATTTGACTGGATCAGACTTCTGGGAAGCTTCTTTAGAACCTTTAAAGGATGCAGTAGAAAAGTATATAAAACTTACAAAGTGA	MRVKTTQWDLESVRPGGREVALEEQMEQIVHQLERRKSELEKGNEATLIEEAVENILHVQELQTKIFELDEYIICRQSTNVTDAKWRDMAGRCSILKSKFNTMMVSFRLFLAKVSITQWEQLVEHPEVRSARFYLNEERRKMEDQLSPEMEALIHDLAVDGFDGWEDHYEQELSNLRVRVEANGEAQSIPFSQAFVQAAFSHDRRVRKAVGEEILNTCEANADRFASIFNHFAGFRNELYRIRDWSNPLKEMLDQNRIRETTISSLMNTLHEHKHLLHQFFQRKAELSKVDKLTWYDTQAPTYTSETSLTYDEAAQIIIRQFHSFSEKLGVFAERAFEQGWIDAEPSEHKRHGAFCASLPAAEESRVLLSFTGSYQDVVTLAHELGHAYHNLILHEQPGFARQIGTGLAETASTFLENLVLDAAIEHAETKNDQLCLLEMKITNGLKYTALIPAKFEFERAFYERRKHGALSADELVQLNTEKEEEWFKGTLADVNGYTWMTIPHFYSTEKAYYNLPYTIGYLFSNGLYSMYLKEREGFPIMYDQLLENSGKRTMEELGREFLNEDLTGSDFWEASLEPLKDAVEKYIKLTK	PGPT0020965_2279	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_DEPENDENT_PATHWAYS	PLANT_DERIVED_PEPTIDE_METABOLISM,PGPT0020965-pepF|pepB-K08602	NA	NA
AK012_03546	672		COG0546	5'-nucleotidase	ATGACAAAAGCCATTATTTTTGATATGGACGGAACACTATTTCAAACGAATCAAGTCCTGGAAGCCTCTCTAGAAGATACTTTCCAGAAGCTGAGGAAAATCAACAAATGGGAGGGAGATGCCCCGCTGGCTGAATATCAGCAGATTATGGGGGTGCCTCTTCCAAAAGTGTGGGAGACCCTGCTGCCTGAGTTTACTCCTTACGAAAGAAACGAAGTGGACGCGCTCTTTTTAGACAGGCTCATCAGCCATATTCGAAACGGCAGAGGCGCCTTGTACCCTGGTGTGAAAGAGACGTTGGGACAACTGACGAATCAGGGCTTTTCTGTATACATAGCCAGTAACGGCCTCAAACGTTACCTGCAGACGATTGTAGAATATTACCGTCTCAATAGCTGGGTATCGGAGACGTTCAGTATTGAACAGATCGATTCGCTTGATAAATCCAGGCTTGTACAGGAAATTATCCGAAAGCATGCTATACAGGAAGGGGCAGTTGTCGGGGACAGACTGTCTGATATTCGGGCCGCCAAGGAAAATGGTCTTACAGCGGTGGGGTGCCGCTTTGATTTTGCGCAGGAGGAAGAACTCGCGCAGGCAGATCATGTCATCGAAGACCTGCGTGAGTTGAAGCACGTCATACCGTTACTGGAAGGAACAACCTATCCATAA	MTKAIIFDMDGTLFQTNQVLEASLEDTFQKLRKINKWEGDAPLAEYQQIMGVPLPKVWETLLPEFTPYERNEVDALFLDRLISHIRNGRGALYPGVKETLGQLTNQGFSVYIASNGLKRYLQTIVEYYRLNSWVSETFSIEQIDSLDKSRLVQEIIRKHAIQEGAVVGDRLSDIRAAKENGLTAVGCRFDFAQEEELAQADHVIEDLRELKHVIPLLEGTTYP	PGPT0001730_3891	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0001730-gph-K01091	NA	NA
AK012_03547	453			hypothetical protein	ATGAAAACCAATGAAAATAAGACATGGAAAAGGAAGCTGGGTTATGCAGGCTTTGTACTGGCTGCCTTCGGTCTATCCTACTTCCTCGCTTATTCGCTCAGCTATACGCCCCTCGGTTATGATGCTGTCGGATTTAAGATGGTTAATGAGGATTTCACAACGGTCACGGTTGAGAAAAACAATGCATTCGGAATGACAGAGGAAACCGTGATGTATGATCCACCTGAAGAGGATCAATGGAAAGCCAACATGCTCGTCGATCAGCTCAATGACCAGTCCATTCACTACTGGCTATTTTTCACTTCCATCTTCGCAGCGTTGTACTGGGTTGCCGTTGAGGTGAAAAAAGGGGAGAGCGTTCGGAAAACCATTCTCTACAGTTCCTTTGGGGTTGTGCTGACGGGTTTTTCTTTAATGGATCAGCTGTATAATATCAAAGACATCCTGTCATGA	MKTNENKTWKRKLGYAGFVLAAFGLSYFLAYSLSYTPLGYDAVGFKMVNEDFTTVTVEKNNAFGMTEETVMYDPPEEDQWKANMLVDQLNDQSIHYWLFFTSIFAALYWVAVEVKKGESVRKTILYSSFGVVLTGFSLMDQLYNIKDILS				NA	NA	NA	NA	NA
AK012_03548	165			hypothetical protein	GTGTACGGGTGGCTGACAGGGATATCGATTCTTTTACTTGCTTTCATGCTGTATCTTAATCGCAGGACATTGTTTACAGACGTGGAAAATGTGAAGGTGCTGATCATGATCTTTGTTTTCCTTCCTCTTTTACTCGTTTTTATCGCAGGGGCTGTGTTTTTATAA	MYGWLTGISILLLAFMLYLNRRTLFTDVENVKVLIMIFVFLPLLLVFIAGAVFL				NA	NA	NA	NA	NA
AK012_03549	630			hypothetical protein	ATGTATCGGTTCAAGAAGACGATTTCGGATGAGAAAGAGCTCCGGAGTCTTGTCGGAGCTCCAAGTGATCTCGTTCGCAACAAGGTGATCAACAGCCTGGATGACGGCTGTATGGATTTTATCTCTAAATCTCCGTTTCTCGTGCTTACGACTTCAGGTGAAAAAGGGCAGCCGGACGCCTCTCCGAGAGGGGACCACCCAGGATTTGTCCACATTCTCAACGAAAAACAGCTGATTATATCGGAAAGGCCGGGGAATAAACGGGTGGATTCCCTGCGTAATATTATTGCCAATCCACGTGCAGGTCTGCTTTTTTTCATTCCGGGACTTGGAGAAACGCTCCGTATTAAAGGTCGTGCGGAGATCATACAGGATCAGGATGTGCTGAAGAAAATGGCAGTCAAAAATCGTCTGCCTGAGCTCGGCATTGCTGTGGAGGTGGAGGAGTGTTTTGTTCACTGTGCCAAAGCCTTCATCCGCTCGAAGCTCTGGCAGCCGGAAGCATGGATCGCAGAAGAGAAACATCCGAATGCTGCCCGGATGCTTTTTACACATGCCAAGCTCCCTGATTCCACGATGGACTCCATCCAGGACCGTCTGGATGAGAGTTATCATAACAGACTGTATTAG	MYRFKKTISDEKELRSLVGAPSDLVRNKVINSLDDGCMDFISKSPFLVLTTSGEKGQPDASPRGDHPGFVHILNEKQLIISERPGNKRVDSLRNIIANPRAGLLFFIPGLGETLRIKGRAEIIQDQDVLKKMAVKNRLPELGIAVEVEECFVHCAKAFIRSKLWQPEAWIAEEKHPNAARMLFTHAKLPDSTMDSIQDRLDESYHNRLY				NA	NA	NA	NA	NA
AK012_03550	873			hypothetical protein	ATGAAATATATCGGTGTCACATTTATTTTGACCGCCGCTGTCTTATGGGGGATGACCGGTGGTGTGGCAGACATTTTAATGGATAAAGGATGGAGCCCGGGCGTCATTTCCTTTTACAGGGGAGCCGTCGGCCTCGTCTGTGTTTTCATTTGGTTTATCATCAAGCCCCGCCAGCATATGCCGCGCACGTATTCGCTCGTTTTATGGGCAGCTCTGGCTGGTGTCGGCGTCGCCGGAAACTTCACACTTTATTTTCTTAGTATAGAATCATCCAGTATTGCGGTAGCGGCGACCCTCATGTACACCGCACCTGTGTTTGTGCTGCTTGCTTCTTTCTTTCTGGGAATCGAACGGTCTTCCTGGCTGAAATGGGGCTGTATCGTTTCCGTATTGATCGGGATCGTACTGCTTACCGGAGCCTATAGCAGCAGTGGGGCATCCGTCAACCTGACCGGAGCACTCACTGGACTAGGCTCAGGCCTGTCCTACGCTCTGTTCATTTTCGCCTTTAAAAAAGCAGCCGCAGAAGGAAGCGCACCAACGACTCTGACGATTTCCTTCATCATATTCAGCATCCTGTTGTTTTTCTATATGGATATTCAGGAAGCGGCTTCCGTTCTTACCTCAGAGGACCTGCCTCTGTTCATCGTACTCGGATTGATCGGTGCAGGCATTTCCTTCGTCCTCTATGTATTCGGGATTAAACGGACAGCTCCCACTACAGCTTCCATTGTTGCTATGGTGGAACCGGTCACGGCCTCCATTTTCGGCGTCCTTATCCTCAGTGACAGTTTATCGCTCATCCAAGGTGCCGGCATGGTTATTATTCTGGTGACCATCACTCTGCTATCCTTTAAACAGGCTCAAGATTGA	MKYIGVTFILTAAVLWGMTGGVADILMDKGWSPGVISFYRGAVGLVCVFIWFIIKPRQHMPRTYSLVLWAALAGVGVAGNFTLYFLSIESSSIAVAATLMYTAPVFVLLASFFLGIERSSWLKWGCIVSVLIGIVLLTGAYSSSGASVNLTGALTGLGSGLSYALFIFAFKKAAAEGSAPTTLTISFIIFSILLFFYMDIQEAASVLTSEDLPLFIVLGLIGAGISFVLYVFGIKRTAPTTASIVAMVEPVTASIFGVLILSDSLSLIQGAGMVIILVTITLLSFKQAQD				NA	NA	NA	NA	NA
AK012_03551	684	rpiA_2	COG0120	Ribose-5-phosphate isomerase A	ATGGATGTGAAACAGCGTTGTGCGGAGAAGGCACTGGAATACATAACCGAAGGCAGTATCATTGGTCTTGGTGGAGGAAGTACAATCAAACACCTGATTACGCTGCTGAAAGAAAATAAGATGTATGTAAAAGTAGTGACCCCGTCATGGGAGACGAAGCAGACCTGTAATGAGGCCGGTCTGGAGCTTGTTTCCATCACAGATGTTACGAAAATCGATACCGCTTTTGACGGCTGTGATCAGGTCGACCAGCAGCTTCATGCTTTGAAAAGCGGCGGAGGCATTCATACGAGGGAGAAGCTGGTCGCTGGACTTTCAGAAGAATATATCCTCCTTGTTGATGATACAAAGGTTGTCCCGGTATTAACCTATGACCATCCGGTCGTTTTGGAAGTGCTGCCTCAGGCCCTGCGTTTTGTTACCCGGGAGGTGGAATCGTTTTCTGTCCGCTCCTCTCATGTTCGTCACAGTAGTGAACAGGATGGGCCGGTACGCACAGAAAACGGGAATCTGTTATTGGATGTGTACATGGAAAAGGTCCGGGACAGTGCTGATCTTGAACGCCGTTTCAAAGGGGTGACCGGTGTGGTCGATACATCGCTGTTTACGTCTGTCGTTACCAAGGTACTGGTAGTTGGAGAAACAGGAGTACAGGAAATGAATAAAGGAGGAGATGTAAGATGA	MDVKQRCAEKALEYITEGSIIGLGGGSTIKHLITLLKENKMYVKVVTPSWETKQTCNEAGLELVSITDVTKIDTAFDGCDQVDQQLHALKSGGGIHTREKLVAGLSEEYILLVDDTKVVPVLTYDHPVVLEVLPQALRFVTREVESFSVRSSHVRHSSEQDGPVRTENGNLLLDVYMEKVRDSADLERRFKGVTGVVDTSLFTSVVTKVLVVGETGVQEMNKGGDVR	PGPT0017390_2367	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
AK012_03552	972	iolU_2	COG0673	scyllo-inositol 2-dehydrogenase (NADP(+)) IolU	ATGAGACAAGTGAATTGGGGAATTGTAGGGCCCGGCGGGATTGCCGCAAGCTTTGCCAAAGCGATTCAGGAGATGAATGGAAGCGTATACGCGGTATGGGGCCGCAACCCTGAGAAAACTCAAGCCTTTGCTGATGCATACCAAGTCGAGCACGTCTATGAAGAAACCGCACAGCTGCTTCAGGATGACAACGTGGATGTGGTATACATAGCTACCCCGCACAGCATTCATTACCGTTATATTATGGACGCATTAAAGCACGGCAAACACGTCTTCTGTGAAAAAGCGATTACGATGAACGGCAAGCAGCTTCAGGAAATTATTGATTTTGCAGAAGCTGAAAACCTCATCGTTGCTGAAGCGATGACGCTGTACCATATGCCTTTGTATCAGAAGCTTGCTGACCTGATTCAAGCAGGGAAAATCGGGAAGGTGAACATGGTCAACGTGACATTCGGAAGCTGTAAGGAGGATGATCCATCCAACCGCTTCTTCAACCCGGATCTGGCCGGCGGCGGAATGCTGGATATCGGCACCTATGCGCTGTCGTTTGTCCGTTTCTTCCTGTCCAGCCAGCCGACAGAGCTTCATACGACCGTGAAAAAATATCAAACGGGCGTCGATGAACAGTCCGGCATCGTCATGAAGAATGATGATGACGAAATGGCCGTCGTCTCCCTTGCGATGCGTGCGAAGATGCCGAAGCGCGGGATTATCGCTGGTGATGAAGGCTTCATTACCGTAGATGATTTCCCGAGAGCCGAAAAAGCAATCATCACCTATACAGCAGATGGCTCCGTTGAAACGATCGAGGCTGGTGATACGAAGCAGGCCCTGCAGTATGAGGTCGAGGCCATGAACCGTTTGATACTGGAAAAAGGGGACAACTGGACCCTTCCGCTTTCCCGCCAGGTGATGGCGTTAATGGATGAAGCCCGCCAGCAGTGGGAGTTAACCTACGACTTTGAATAA	MRQVNWGIVGPGGIAASFAKAIQEMNGSVYAVWGRNPEKTQAFADAYQVEHVYEETAQLLQDDNVDVVYIATPHSIHYRYIMDALKHGKHVFCEKAITMNGKQLQEIIDFAEAENLIVAEAMTLYHMPLYQKLADLIQAGKIGKVNMVNVTFGSCKEDDPSNRFFNPDLAGGGMLDIGTYALSFVRFFLSSQPTELHTTVKKYQTGVDEQSGIVMKNDDDEMAVVSLAMRAKMPKRGIIAGDEGFITVDDFPRAEKAIITYTADGSVETIEAGDTKQALQYEVEAMNRLILEKGDNWTLPLSRQVMALMDEARQQWELTYDFE				NA	NA	NA	NA	NA
AK012_03553	378			hypothetical protein	ATGAAAAATTTGGATTTGTATTTCGACTTATTCGACCGCTCAAGAACGAGTGAACAAGCGGAAGAAGAGCTTCACCAGCTGTTCAGTGAAGATATCGTTTTCGTTCTGAACGGTGACCGTAAGGAAGGCTTGGAGAACTGGAAAGCCTTCGTCCGCAGCATTTACGAAAACAACGTGGATTTGAAGCATATGTATGAAGGCTGGAGAAAGCACGAGGGGACGGATTTATATATAACGAGATGGGCCGTCTGCGGAAAACTCGCTTCCGGCAAAGTCTACACCCAGACCGGCATCGACAAGACGATGCTCAATGAAAATGGGGAAATCACCTACCTCGAAAACATTCCGGATCAGCAGGATTTGTTTGACGCGTACTGA	MKNLDLYFDLFDRSRTSEQAEEELHQLFSEDIVFVLNGDRKEGLENWKAFVRSIYENNVDLKHMYEGWRKHEGTDLYITRWAVCGKLASGKVYTQTGIDKTMLNENGEITYLENIPDQQDLFDAY				NA	NA	NA	NA	NA
AK012_03554	363			hypothetical protein	ATGATTTCATTTCTATTAACATTGAAGCGGCTGTTGACCGCCTTGTTCCGGAGTATGAAGGAGCCGGTCTTTCGCTCGCTGCTGACGACACTTGTATTCATTCTGCTGTCCGGTACGTTGTTTTACAAAGGGGTGGAGGACTGGACGTATCTGGACGCCTTTTATTATGCCTTCAGCAGTCTGATCCCAACCAGCGGAAATACCGGGCTTGTCCCGCAGGAGGATTTGAGTAAATGGTTTACGATGATCTACCTGCTTGTCGGCATGGGTGTGATGGCGATGGTGTTAATTAAAGTGGGATTGGCGGTAGCGGATTTCGAGAAGCACGATGAAAATCAAACCCAGCGCAGAAAGACATTATAA	MISFLLTLKRLLTALFRSMKEPVFRSLLTTLVFILLSGTLFYKGVEDWTYLDAFYYAFSSLIPTSGNTGLVPQEDLSKWFTMIYLLVGMGVMAMVLIKVGLAVADFEKHDENQTQRRKTL				NA	NA	NA	NA	NA
AK012_03556	1893	adeC		Adenine deaminase	ATGAGAGGGGAACGTCTAACTATGGACAGTTACCCGATTATTCATTACTCCTTAACGTCAAACTCCAGGTCTGTTTCCTGGAGTTTTTTTATATCGATGACCAGCCGGCGGTACGTGCTTATCTCGTTCAAAGAAAGGGGCAGGAGCATGGATCAACACAAAGAGCAGTTACGTAAGCGTATAGAGGTGGCAGCTGGGAAACGACCGGCTGACATGATTATAAAGAATGGGCAGGTGATCGACGTCTTTAACCAGCGGGTGGTGGAGAAGGACATCGCCATCGTGGATGGTCTCATCGTCGGGCTTGGAAGCTATGATTCGGCCGAAGAGATGGTGGATGCCGCTGGAATGTACATCGCGCCCGGCTTCATCGACGGACACGTCCATATTGAATCGTCCATGGTCAGGCCGAGTGAGTTTGCCAAAGTTGCACTTTCCCGTGGCGTGACGTCTGTGGTGACAGATCCTCATGAAATCGCCAACGTCTGCGGAAAGGCAGGCATCCAGTTCATGATGGGTGATGCCGCAGACAGCCTGTTGGATGTTTATTTTATGCTGCCGTCCTGTGTGCCCGCTGCAAGCCTTGAACAGAACGGAGCGCACCTTATGGCTGATGACCTCGAAGGTTTCTATCACCATAAACAGGTGCTCGGTCTCGCTGAAGTCATGGACTTCCCTGCGGTGGAAGCCGGCTCAGACGACATGATGGACAAGCTGCTTGCCGCATTCCATCATAATGTCCCGATTGACGGTCATGGTGCAGGCTTTGATGAGAGGGCCCTGAACATATATAAAGCCGCCGGTATTACGACGGATCATGAATGCAATACAGGCGAAGAAGCCCTGGAGCGGATTGAACGGGGCATGCATGTCCTCATCCGGCAGGGATCGGCCTCCAAGGATCTCGCATCTATTGTTCCTGTAGTAACCGATCGTAATGCGCACAGGTTCCTATTCTGCACCGATGATAAAGGTTTGGACGAATTAATGGAGGAAGGCAGCATCGATGATAACGTCCGGTTGAGCATTGAACATGGGATCGATCCGGTGCAGGCGGTTCAGATGGCGACAATCAATGCAGCGGAATGCTACGACCTGAAGCAGAAGGGAGCCGTGGCTCCCGGGTATGAAGCGGACCTTGTTTTCTTTGATGATTTAGAGAACATAAAGGTTCAAACCGTCTATAAATCAGGGGTAAAGGTGGCGGAGGAAGGGGCCTATGCCGCTGATTCGCGTGAAGCTGACCCTGTCGTTCCAGCGGTCTGCGACACCGTTCATATTCCTGTAATGCAGGAAGGCTCCCTTGATATCCCTGTCTATCACCAGCAGGGCACAGTTATCGAAGTCGTCCCCAACCGGCTGCTGACACATAAGCGCAGGGAAGAGGTGGAAGTGGAGAACGGGCTGTTTGTTCCGTCGCCTGCACGTGACCAAAGCAAACTCGTCGTTGTTGAGCGTCATCAGAACACGGGGGATACAGGTCTCGGAATCGTGAAAGGGCTGAAAATGAACAATGGGGCCATCGCATCGACCGTCGCTCACGACTCTCATAACCTGGTGGCGGCAGGAACGAGTGACAAGGATATCCTGACTGCGATCCATCATCTCCACGACATGGGCGGAGGGCTCGCCGTCGTTCAAAACGGGAAGGTTCTGGCTTCCGTGGAGCTTGAAATCGCCGGACTGATGTCCAAGCAGGACGCGCCAGCGCTTTATGACGGATTGAAAAAAATCGATGCAGCATTGGAACGCGTATTAAAGAATGATATCGATATCAATCCGTTTTTGACCTTATCCTTCTTAACCCTCCCCGTCATACCGGAGGTGAAGCTGACAACGAAAGGGTTGTTTGATACGATCCAGCAGAAGCACATCCCTGTCAGTTCATCCTGA	MRGERLTMDSYPIIHYSLTSNSRSVSWSFFISMTSRRYVLISFKERGRSMDQHKEQLRKRIEVAAGKRPADMIIKNGQVIDVFNQRVVEKDIAIVDGLIVGLGSYDSAEEMVDAAGMYIAPGFIDGHVHIESSMVRPSEFAKVALSRGVTSVVTDPHEIANVCGKAGIQFMMGDAADSLLDVYFMLPSCVPAASLEQNGAHLMADDLEGFYHHKQVLGLAEVMDFPAVEAGSDDMMDKLLAAFHHNVPIDGHGAGFDERALNIYKAAGITTDHECNTGEEALERIERGMHVLIRQGSASKDLASIVPVVTDRNAHRFLFCTDDKGLDELMEEGSIDDNVRLSIEHGIDPVQAVQMATINAAECYDLKQKGAVAPGYEADLVFFDDLENIKVQTVYKSGVKVAEEGAYAADSREADPVVPAVCDTVHIPVMQEGSLDIPVYHQQGTVIEVVPNRLLTHKRREEVEVENGLFVPSPARDQSKLVVVERHQNTGDTGLGIVKGLKMNNGAIASTVAHDSHNLVAAGTSDKDILTAIHHLHDMGGGLAVVQNGKVLASVELEIAGLMSKQDAPALYDGLKKIDAALERVLKNDIDINPFLTLSFLTLPVIPEVKLTTKGLFDTIQQKHIPVSSS	PGPT0021510_822	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021510-ade-K01486	NA	NA
AK012_03557	384			hypothetical protein	ATGAAGGGGTGGAGCATAACGGCCTTTTTCGCTTTACTCCTTTTATGCAGCTGTTCCAATCAGGAACGCTATATTTATGAAGGAGATAGTGAACATTGGCACGGAGAACTGGAAGTGAATGTGACGGAGAAGGAAACGACGAAAGACTTTGCCTTGATATTCAACAAGGATGTGGAGGAACTGGGGGAAGCTGGTTATGTAGAATACGAGTATGAAATGAACACGTCTACAGGAAACGGAGAAATCACCCTCGAACATACACCGGAAAATGGGACATTTACGCACCATTCCGGCAGTAGCTCTTCCGTGTTCACCAGCGATCAGACCATCCGAGTGACCGTCCGGTGGGGAGAAAACAAAGAAGAATTCGTATTGAAAAAATGA	MKGWSITAFFALLLLCSCSNQERYIYEGDSEHWHGELEVNVTEKETTKDFALIFNKDVEELGEAGYVEYEYEMNTSTGNGEITLEHTPENGTFTHHSGSSSSVFTSDQTIRVTVRWGENKEEFVLKK				NA	NA	NA	NA	NA
AK012_03558	816			hypothetical protein	ATGAAAAACACCCTGTACATTATTATTGGATCTCTTTTATTTGCGCTGGCGGTGACGCAGCTGGCGATGCCGAACTCCATCGCTGAGGGGGGTATCGTCGGTGCTTCTCTTTTGATTTACTACAGCACCGGAATCTCCCCCGGGATTACGACACCGATCATATTCGTCGCCCTGCTCGGTTTCGGCATAAGGTATCTTCCGAAGCCGATGGTAATCAAAACCGTTTTTAATGTGGCCTTATTTTCCTTTTTCCTATGGTTTTTCGAACACATCTGGGCGTATCCGATCGAAGATGCGCTGCTTGCCGCCATTTTTGCCGGAGTCATTACCGGTATCGGCTTCGGCTTTATTTATCAGGCCGGCAGTTCAGTAGGAGGAAGCTCTATCATTGCCCGGATGCTCAACCATCAGCTCGGGTGGGATTTGACCGGAGTGACGTTCGCCCTCGATGCGATGGTCGTCATTGCGGGGATTTTTATCATCGGACCCATCTCCACGATGTATACATTGATTACCTTGTACGTCGGAAAGATCGTGACAGACTTCGTGCTCGGAGGATTTGACTCGAAGAAGGCGATCAATATCATTTCGCCTAAGACCGAGGAAATTTCTCAGCGGATTACGACGGAGCTCGCTTCCAGTGCGACGCTGTTCTACGGAACAGGGGAATATTCCAAGCAGGAGCGCCGGGTCCTGTACATCATCGTTCATACCCACCGTCTTCTCAAGTTGAAGCGGGTCGTCAAAGAAACCGATCCTGACGCCTTCATTGTCGTACACAACGTGAAGGACGTCTCGGGCGGATTTATTTCATAG	MKNTLYIIIGSLLFALAVTQLAMPNSIAEGGIVGASLLIYYSTGISPGITTPIIFVALLGFGIRYLPKPMVIKTVFNVALFSFFLWFFEHIWAYPIEDALLAAIFAGVITGIGFGFIYQAGSSVGGSSIIARMLNHQLGWDLTGVTFALDAMVVIAGIFIIGPISTMYTLITLYVGKIVTDFVLGGFDSKKAINIISPKTEEISQRITTELASSATLFYGTGEYSKQERRVLYIIVHTHRLLKLKRVVKETDPDAFIVVHNVKDVSGGFIS				NA	NA	NA	NA	NA
AK012_03559	495			hypothetical protein	ATGGTAAACAAAGAAGCATGGAAAAAAGACCGGATCCAGTCGGCAGCCAACGGCACCAATCCGATGATCATCGCAAAGATGAAAAGTGGATATGCAGCCATCGGGGACACGCAGTTTCTTCCGGGGTATTGTGTGCTGCTGCCTTTTCAGCCCTATCGGTCGCTCGAAGATATGCCGGTCAGCGAGCGTAAGGACTATCTGTTTGATATGAGTCTGATCGGGGACGCTGTCCAGGATATATGTGAACCGAGACGTCTGAACTATTCCATTTACGGCAATTCCGACCCTTTTCTGCACGCTCACATTTTCCCGCGATATGACTGGGAGCCGGAAGAACGAATGGCGTATCCGGTCTGGCAGTATCCGGAGGTTAAATGGAAGAGTGAAAAATACCAATATACGGATGAATGGCACGGAAAAATGCGGGAACGAATCGGCAGGAAAATCGTAGAATTAATGGAAGAAACCTATTTGTCACAAAACATCAAAAAATAA	MVNKEAWKKDRIQSAANGTNPMIIAKMKSGYAAIGDTQFLPGYCVLLPFQPYRSLEDMPVSERKDYLFDMSLIGDAVQDICEPRRLNYSIYGNSDPFLHAHIFPRYDWEPEERMAYPVWQYPEVKWKSEKYQYTDEWHGKMRERIGRKIVELMEETYLSQNIKK				NA	NA	NA	NA	NA
AK012_03560	117			hypothetical protein	TTGATTGTCATTGTTTTAGCATTCATCGCTCTAGTACTTATTGTTATTGCACGTAATCTTCAGTTTATCGGGAAACAGCTGGAAAAGTTAGCGGAAAGTGATCGTGATGATGGATAA	MIVIVLAFIALVLIVIARNLQFIGKQLEKLAESDRDDG				NA	NA	NA	NA	NA
AK012_03561	1029			hypothetical protein	ATGATGGATAAGGAGAAGTTCCATATTCAAGAAATCACTCCGGAAGAGACCTATCTGCTGCGCCATCAAATACTGCGGCCGCATCAGTCTTTTGCTGCGTGTCAGTACGATACCGATCATGATGCCGATACGTTTCATTTGGGGGCGTTCACGAAGGAGAAATTGATCGGTACAGCATCCTTTTATCATGAACCTACACTTGTAATCGGCGGCGCTCATTCCTATCGATTAAGGGCTATGGCAGTACTGCAGGAGTACCGGGGCAGGAGTTCAGGACGTGCACTGATTTTAGAGGGGCAAAAGCGAATCAAAAACGCCGGTGGAGATCTTCTGTGGTGCAAAGGGCGTACGTCTGTCCAGCCCTTTTATGAAAAACTCGGATTTTCCTTATGGAGATGTGTTCGATTACCCGCCCATAGGCCCGCATATCATTCTTTACAAAAAACTGTTCAAGGAGGAAGAAGCATGTCTGAACAAAATGTTTTAGCCGAAGAGGAAATGAATGCGTTCCTTACTTTACTGCAGAAGCGTTTTGAAAAGCACCCGGAACGACATCCGGATATTCAGTGGGGGGATGTGGAAAGAAAGCTGAACACTCACCCTGAAAAAACGGCTGTGCTTTTTCGTATGGAAGAAACCGGAGGCGAGCCGGATGTGGTGCTTTATGACGAAGAGGCAGATGATTTCATCTTTTATGATTGTGTGAAGGAAAGTCCAAAAAGCAGGAGGAGCGTCTGCTATGACCGGGAGGCGCTGGAAGCGAGGAAGAAATACAAACCGGAAACCTCCGCGGTGGATCTGGCCGGAGAAATCGGCATCACCATGCTTACGGAACAGGAATACCATTTTCTTCAGGAAACAGGAGAATATGATAAGAAAACATCCAGCTGGGTAAAAACGCCGGACGATATCCGCTCCAAAGGCGGGGCCATTTTCTGCGATCGCCGTTACGGGCGTGTATTCACCTATCATAATGGGGCGGAATCCTACTATGCCGCCCGTGGGTTCAGAGGTTCACTCCGACTGTAA	MMDKEKFHIQEITPEETYLLRHQILRPHQSFAACQYDTDHDADTFHLGAFTKEKLIGTASFYHEPTLVIGGAHSYRLRAMAVLQEYRGRSSGRALILEGQKRIKNAGGDLLWCKGRTSVQPFYEKLGFSLWRCVRLPAHRPAYHSLQKTVQGGRSMSEQNVLAEEEMNAFLTLLQKRFEKHPERHPDIQWGDVERKLNTHPEKTAVLFRMEETGGEPDVVLYDEEADDFIFYDCVKESPKSRRSVCYDREALEARKKYKPETSAVDLAGEIGITMLTEQEYHFLQETGEYDKKTSSWVKTPDDIRSKGGAIFCDRRYGRVFTYHNGAESYYAARGFRGSLRL				NA	NA	NA	NA	NA
AK012_03562	411			hypothetical protein	TTGGAGGAGCTCGAAAGGTTCTATGAACACCCCCGTTCGATTTCCCCGTATGAATCCCCGCGGGGCATCGTGTTTCACAATGTTGCGTCCGCCAGAGAACTCTATTCGACCCCGACGTATAACGCCAGGGATTTGATTCATGTACATCCTGTGGTGGAGACGTGGAAGGAGCTGTATAGCCTAAGTGCAGCAGGAGTACCGGAAGCAGAGGAGTATTACAACATCCTGACCGTAAAAGATGTGGCTGTGATTGGCGCTCACGAACTCACTCACCACGCTGATGTCTTTCATTCAGAATTTGAAACGTGGGATGACGAGGATCCCAGAGATATGTGGTTTGAAAAGGGAGGGTGCTTTTACATACCCAAAACGATATGTGGCATTAATCATGATGCTGACAACGGTGATTAA	MEELERFYEHPRSISPYESPRGIVFHNVASARELYSTPTYNARDLIHVHPVVETWKELYSLSAAGVPEAEEYYNILTVKDVAVIGAHELTHHADVFHSEFETWDDEDPRDMWFEKGGCFYIPKTICGINHDADNGD				NA	NA	NA	NA	NA
AK012_03563	231			hypothetical protein	ATGATTGGAATTAATGTAAAAGAAAAAAATGGATATGTTATTATTTCGTGGCAGTTTAGCAAAGTGGAAATACCTAAAAGTGAGATTATAGAAGTCATTGATGATGATACGTATGGTGGCGAAGAGCAAACTGCAGTAAGAATGGGATTTCCATATGCCACGACCGAAAGACTTTTTATAAGGACAAATAAGCAGAATTATATCCTTTTCACGAACAACACATCAAAATAA	MIGINVKEKNGYVIISWQFSKVEIPKSEIIEVIDDDTYGGEEQTAVRMGFPYATTERLFIRTNKQNYILFTNNTSK				NA	NA	NA	NA	NA
AK012_03564	192			hypothetical protein	ATGGAAGTATTAGCTGTCGTTTTAGTTATGATTGGCATAATAGCTGTCCGAGTGATTAGCTTTTTCTATCCAGATTGGAAAGCTATTAAAGGGGAGTACTTGTCAGAACGTAAACATTTTGGATATGGCGTGTTAGGAATTGGCATATTACTTGTAATGTTTATACTAAGTCAATTAATTCTAAGGATTTAG	MEVLAVVLVMIGIIAVRVISFFYPDWKAIKGEYLSERKHFGYGVLGIGILLVMFILSQLILRI				NA	NA	NA	NA	NA
AK012_03566	909	yijE		putative cystine transporter YijE	GTGAAACTGTATGGGGCATTAATGACGCTCAGTTTTATTTGGGGATTATCCTTTGTTTTCATCGAGCTTCTTATTCCTGCTGCCGGGATAGGAGGGACGGTTTTTCTAAGGTGTATAGCTGGAGCCGTCGTCCTTCTGCCGATATTTCTTTATCGGTGGTGGAAAGGGAACCGCCCGGCCGTCCTTCCTTGGAAACGTCTCATTGTTGTCGGCTTATTTAATGCAGGGCTTCCGTGGGGGCTGATTGCTTTGAGTCAGACATCATTGACGAGTAATATGGCAGCTGTATTAAATGCCTCCACACCCATTATGACAGGAATGATAGGAGTGCTGCTGTTCTCCGTCCGTCTGCAATGGAGACAGTGGGGAGGCATTATTATCGGTTTTGCGGGCATTATCCTCTTAACTGGGTTTCGTCCGGGGGAAATGGCAGGAGAAAGCTTCATTGGAGTGGGGACGATGCTTTTGGCGGCCTCCTGCTACGGCTTTGTATCCCATTTTACGAAAAGGTATCTCCAAGGGACCGATGTCGTCCTGCTGGCTCTGGCCGGTCTGCTGGTTGGAGGAGCATCAGGCGCTGTTGGAATGCTTTGGATGGGGCCGGACAGCTGGAGGCAGGTGGGGCAGATGGATCTTCAAACCGTATGGGCTGTCATCGGTCTTGGGTGCCTTGGATCAGGAGTTGCTCATCTTCTCTATTATTATATGATTGAACAGGCTGGAGCTGAGTTTGCAAGCATGGTCACCTATCTTGTTCCTGTCACAGCCTTAATCTGGGGAAGTGTACTTCTTGGAGAGCCTGTAACCCCCAATCTTATCTACGGCCTGCTGATGATTTTTGCAGGCGTCTATTTGTCTACGAAAAAGAAGAGCCATAGAAACCGGCTTCCAGCTGTGAAGGCTGGATAG	MKLYGALMTLSFIWGLSFVFIELLIPAAGIGGTVFLRCIAGAVVLLPIFLYRWWKGNRPAVLPWKRLIVVGLFNAGLPWGLIALSQTSLTSNMAAVLNASTPIMTGMIGVLLFSVRLQWRQWGGIIIGFAGIILLTGFRPGEMAGESFIGVGTMLLAASCYGFVSHFTKRYLQGTDVVLLALAGLLVGGASGAVGMLWMGPDSWRQVGQMDLQTVWAVIGLGCLGSGVAHLLYYYMIEQAGAEFASMVTYLVPVTALIWGSVLLGEPVTPNLIYGLLMIFAGVYLSTKKKSHRNRLPAVKAG				NA	NA	NA	NA	NA
AK012_03567	1152			hypothetical protein	ATGAATCGTTGGGACTCCACACCGGTCATCCGCTTCTTTGGGGGCCGGAAAACCTTGTTTTTATTAGGTATTCTACTAATGACCGGATTGACTATCCTGGTATTTTCGAATGTGTGGTTTATTTTTGAACCTGTAGTCGTTTTTGTTAAAACCGCAGCTCTTCCGCTCATCCTGTCCATTGTTGGGTATTATCTGCTGCGACCTGTGATCAACCTGCTGGAGAAGTGGAGGATCAAGCGGATATGGGGCATCCTTTTAACACTGCTCGTTCTTGTCGGGTTAATCACGCTGGTCATCGTTTTGATCATACCTTTCCTTGAAAAACAGTTGATCAGTCTATCGGAGGAACTGCCGCGCTATATCGTCGACTTAATTTCGTCCATGGATGAATGGCTGAAGAACTCTTACTTTTCATCGTATTACACCAACATGTTTCAAGATGTAGACGGCATGATCGACCAGGTACCGGACTACATATCGTCCTATGCCACACAGACGGTGGAAGGGATCACGAGCATTATTTCTACAGTAACCAGTGTCGTTGTTGCCATTGTGACTCTGCCTTTCATCCTGTTCTACCTACTCAAAGACGGTCATAAGCTGCCGGGTGTGATGATCCGCCTGTTTCCACCTAAGGCACGTCCGGAAGTATCAAGTGTATTCAAAGGAATCGATCACCAGTTAAGTGCTTATATCCAGGGGCAGATCATCGTCAGCTTCTGTATCGGCGTCATGATGTATATCGGCTTTTTAATCATCGGACTTGATTATGCCCTGCTGCTGGCAGCGATCGCCAGTGTAACAAGCGTTGTCCCTTATCTGGGACCTGTGATTGCGATTACGCCCGCGTTGATCATATCTATTGTGACTTCCCCGTTTATGGTACTCAAGCTGGTCTTTGTCTGGACAGTTGTGCAGCTGTTGGAAGGAAAGTTCATTTCCCCGCAGATTATGGGAAAAAGCCTGCACATTCATCCGGTCACTATTATTTTCGTCCTGCTTACAGCGGGCCATCTGTTCGGGATCGTCGGAATTATTCTGGCCATACCGGGCTATGCCATCTTAAAAGTGTTTGTTTCTCATCTTTTCCACTGGTTCCAAAGGCGGTATAACCGGTTTGTGGAAGAGGAGGACCAATATAAGCTGTATTAA	MNRWDSTPVIRFFGGRKTLFLLGILLMTGLTILVFSNVWFIFEPVVVFVKTAALPLILSIVGYYLLRPVINLLEKWRIKRIWGILLTLLVLVGLITLVIVLIIPFLEKQLISLSEELPRYIVDLISSMDEWLKNSYFSSYYTNMFQDVDGMIDQVPDYISSYATQTVEGITSIISTVTSVVVAIVTLPFILFYLLKDGHKLPGVMIRLFPPKARPEVSSVFKGIDHQLSAYIQGQIIVSFCIGVMMYIGFLIIGLDYALLLAAIASVTSVVPYLGPVIAITPALIISIVTSPFMVLKLVFVWTVVQLLEGKFISPQIMGKSLHIHPVTIIFVLLTAGHLFGIVGIILAIPGYAILKVFVSHLFHWFQRRYNRFVEEEDQYKLY				NA	NA	NA	NA	NA
AK012_03568	558	cdoA		Cysteine dioxygenase	ATGCATGTGGAAGAACGCGTAAAAAACGCTTTTTGTACGCTTACAGACCACTCTCCGGAGGCGTTGAAAGAAAGGATGCTTGAATGTGGGATTACACTGGAGGAACTGGAACCCTACCTCAAAGATCCTGATGGGAATCCCTACTACCGCCAGATGATCTATCAGGATGATCATGTGGAAATGATTGTGATGAATTGGGCGGATATTGAATGTGCCCCTCACGATCATGGGGAATCGTCCGGCTGGATTATTATCATGAACGGCGAAACTAAACAAACCATTTATAAGGGAAAGGGTGATAAGCTGCCTGAGCCCCTTTTTATAGAATACAAGGAAAAAGGAAGAACCCTGTTCGCTCCGAAGAAAGGGATTCATAAAATGGGACGCAGCGGAGAAGACCCCCTTGTCACCCTGCACTTGTACTCTCCACCAATCCAGGGGATGAAAGTGTACGACCTAAAAACCTGTGCGGCCTGTGTCGTTTCCGCTGACTGTGGAGCGTGGTGGCCGGAGGAACAGCGTCAGCGCCTGAAGGAAATACAGCTGGAGAAAGACTGA	MHVEERVKNAFCTLTDHSPEALKERMLECGITLEELEPYLKDPDGNPYYRQMIYQDDHVEMIVMNWADIECAPHDHGESSGWIIIMNGETKQTIYKGKGDKLPEPLFIEYKEKGRTLFAPKKGIHKMGRSGEDPLVTLHLYSPPIQGMKVYDLKTCAACVVSADCGAWWPEEQRQRLKEIQLEKD				NA	NA	NA	NA	NA
AK012_03569	891			hypothetical protein	ATGAATGCTTCTGCTAAAATGAGTGCATCCTTGTATGCTCTTCTGTCCATCACATTCTGGGGAATTTCTTTTGTTTCGACCAAGGCGGTCCTGGAGAAGGTAGACCCGTATTCCCTGCTTGTTCTGCGCTTTGGAATCGGATCTCTCTTTCTCTTTTGTATGATCATCATCTTTCAGTACCCCCTGAAAGTACGAGTCGTCCATCTTCCACATCTCCTGGTCCTCGGTATTCTGGGGGTTTACATTCATCAGTTGATCCAGGCGACCGCCCTGTTATCCATTCAGGCTTCTGATGCCGGCTGGCTCATCTCCTTTTCACCGATCTTTACCATTGCCTTATCATTCATCTTTCTTCACGAGCCTCTTAGTCTAAAAAAAACAGCCGGAATCATCACGGCTGTTCTTGGTGTTCTTCTCATCACATCCGGAGGGAGCGGGGCTTTCGTTAAGCTTTCCTTAAGCACGGGATATCTGCTTATGATCCTCAGCACATTGAACTGGGCGGTCTATTCCGTTCTGTTGAAAAAGCTGGCTGTTCCTCTTCCCTCTATCGTTCTGACGTTTTACATGAGCACCATCGGCTGTATCCTGACCCTTCCCTTTTTCATCAGAAACCATGGGGTGGCTCAACTGACTGCTTTGGAATTGACCCACTGGGCGCACCTGTTGTTTCTCGGTATTTTCGTGTCCGCTGTGGCCTACTGGTACTGGGCCAAAGCCCATGAGGTTCTGCCCGCTTCCCAAGTGTCGGTATTTATGTATTTGGAGCCTGTGGCGACGTTGGCGGCCGCCATTCTTCTTCTTCATGAAAAGCTGGCAGCGACATCAGTCATTGGTGGACTTTTTATTTTCATGGGCGTGCTGCTCGCTCAAAATCGAAAACGAGAGTAA	MNASAKMSASLYALLSITFWGISFVSTKAVLEKVDPYSLLVLRFGIGSLFLFCMIIIFQYPLKVRVVHLPHLLVLGILGVYIHQLIQATALLSIQASDAGWLISFSPIFTIALSFIFLHEPLSLKKTAGIITAVLGVLLITSGGSGAFVKLSLSTGYLLMILSTLNWAVYSVLLKKLAVPLPSIVLTFYMSTIGCILTLPFFIRNHGVAQLTALELTHWAHLLFLGIFVSAVAYWYWAKAHEVLPASQVSVFMYLEPVATLAAAILLLHEKLAATSVIGGLFIFMGVLLAQNRKRE				NA	NA	NA	NA	NA
AK012_03570	159			hypothetical protein	ATGTCAGGCATCCTGATTCTCCTTTATTTTACCAAAAGAAGCCTGAGGCTTAAGAACTTCGACAAAGAGTGCAGGAAAGAGACAAAAAAACTCCCCGGCAAGGAGGAGTTAAAAGATCCAATATGTGAAAAAAGCCAGCAGAATGGAGACGAAAACTAA	MSGILILLYFTKRSLRLKNFDKECRKETKKLPGKEELKDPICEKSQQNGDEN				NA	NA	NA	NA	NA
AK012_03571	1005			hypothetical protein	ATGAACATGATTACATCAACGATCTATAAACAGCCACTTCTTTCTGGTATTGCATTCACAGCCTTATTATCAGCGGTCGGTTTCCTGGCTGCCCAGCTTCCGGGAGTCAGTCAGATCGGACCTTTAGCTGCGGCTATACTTCTGGCCGTCCTCTATCGTCATTACTTTGGATATCCGGAACAGATGAAGAGCGGTATCCAATTCGCTGCGAAAAAACTACTGAGACTGGCTATCATCTTATTTGGTCTCCGCCTGAATATGAACGTCATCGTAAATGAAGGGCTTCCATTATTATGGAAGAGTGTCCTCGTCATCATTTTTGCTGTTGGATTAATGGTCCTTGGGGCTAAAATGTTTAAAGCAGACCTTTCCCTTATGACCCTGCTCGGAATCGGCACCGGCATCTGCGGGGCTTCAGCCATCGCAGCCGTTTCCCCGATCATTCATGCTAAGGAAGAAGATACAGCCGTAAGTGCCGGAATCATATCAATTGTCGGTACGCTTTTTGCGATTGGGTTTACCGTCATCCGGCCGCTTCTCCCTCTGGACGCAGACGCCTATGGTGTGTGGGCCGGACTCAGCCTTCACGAAATCGCCAACGTTGCCCTCGCCGGGGAACCCGCGGGAACAGAAGGGCTGGGAATGGCCTTTCTGGCGAAACTGGCCCGTGTGTTTCTCCTCGTGCCGGTCAGCCTGCTGCTTCTCTGGGTCATGAAAATAAGAAGTAAAGGCGAAAACCAGGGCTCCATCACCTTTCCCTGGTTCCTGATTGGCTTTATTATGATGAGCCTTTTCGGAAGCTACGTCGAAGGGACGTATATGACGATTCCTGATCCTGTCATGAACAGCCTGCTCACCTTCACTTCCTTCCTGCTCACGATGTCGATGGTCGGCTTAGGACTCAGTGTAAGTCTAAGGGATGTAAGGGACAGAGCTTTAAAACCGACCCTGATTTTAGTTTTCGTCTCCATTCTGCTGGCTTTTTTCACATATTGGATCTTTTAA	MNMITSTIYKQPLLSGIAFTALLSAVGFLAAQLPGVSQIGPLAAAILLAVLYRHYFGYPEQMKSGIQFAAKKLLRLAIILFGLRLNMNVIVNEGLPLLWKSVLVIIFAVGLMVLGAKMFKADLSLMTLLGIGTGICGASAIAAVSPIIHAKEEDTAVSAGIISIVGTLFAIGFTVIRPLLPLDADAYGVWAGLSLHEIANVALAGEPAGTEGLGMAFLAKLARVFLLVPVSLLLLWVMKIRSKGENQGSITFPWFLIGFIMMSLFGSYVEGTYMTIPDPVMNSLLTFTSFLLTMSMVGLGLSVSLRDVRDRALKPTLILVFVSILLAFFTYWIF				NA	NA	NA	NA	NA
AK012_03572	891	cysL	COG0583	HTH-type transcriptional regulator CysL	ATGGACTTTGAATCATTGAAAACACTGATTACGGTAGTCGATGAGAAAAGCTTTACGAGGGCTTCTCAGCTGTTGAAGCTGTCACAGCCGACGGTGAGCTCCCATATCCGGCACTTAGAAGAGGAATTCAATACGGTGTTGATCGATCGTTCTCCGAAGCGCTTTGAAGTCACCCAGACAGGCGAGATGGTCTATAAAAGAGCCAGACAGGTGCTCGGAGTGATGGATAAAGCGAAGAAAGAGGTGCTGCAGTACCATGACCAAATGAAAGGAACTGTGAAAATCGGGGCCAGCTACACGGTGGGGGAGTATATTCTGCCTTCTCTTCTTCGGGCGTATGATCAGGAGTATCCTGAAGTGGATCTGCAGGTGACCATTGCCAACTCTGAGAGAATCAACAGGGAGGTTCAGCTTCATACGCTGGACGTGGGGCTTGTAGAAGGCCGGGTGGCGGACCAAGGGTTATCTTCCTTCCCTTTTATGAAGGATAAAATGGTGGTCATCGTTCCGGACAACCATCCGATCCGCAAATGCTCAAATCTGTCGTTCGAGGATCTGCAGGATCACACGTGGATCATTCGGGAGGGAGGTTCCGGTACCAGGGCAATGATGGAATCGATGCTGGAGTCATATAACATCCGTCCGCGAAAGACGATTACGATCGGAAGCAATCACGGAGTCGTTCAAGGAGTTAAAGAAGGCCTGGGGCTTTCCTTTATATCAGAAACGGTCGTAACCCATACAGCGGCGGAGCACTTGATTATGCCCCTTCCTTATATTCAGCCGACCACCCGCTATTTTTCAGTCGTCACTCCAATGAGTGAAGAGGAAATTACTGAACAGGTACAGGTATTTATCGGAAAGGTAAAGGAATTATTTGAATTGTCATAA	MDFESLKTLITVVDEKSFTRASQLLKLSQPTVSSHIRHLEEEFNTVLIDRSPKRFEVTQTGEMVYKRARQVLGVMDKAKKEVLQYHDQMKGTVKIGASYTVGEYILPSLLRAYDQEYPEVDLQVTIANSERINREVQLHTLDVGLVEGRVADQGLSSFPFMKDKMVVIVPDNHPIRKCSNLSFEDLQDHTWIIREGGSGTRAMMESMLESYNIRPRKTITIGSNHGVVQGVKEGLGLSFISETVVTHTAAEHLIMPLPYIQPTTRYFSVVTPMSEEEITEQVQVFIGKVKELFELS				NA	NA	NA	NA	NA
AK012_03573	474			hypothetical protein	TTGGTGCAGGTAAGAAGGATGGATCACAAGGATACCGAAGAGGTCGTCTGTCTCATGGTCCGTGCCATCATGGGCATTCCCGGGCATGTGTATACAGGTGCTCAGAAAAAAGCATGGGCCGGTGCTGTTTCTATGAATACCAACCTGTCTGCCCGGCTGTTGAACGGGTACACCCTGCTTGCTGTGAAACAAAGGAAAATCATTGCAATGGCCACCTTAACGGATGGAGACGTCATTGATTTTCTATATGTCAGCCCGGAAGAGCAGCGGTCAAAAACAGCATCCATCTTATTGGAACGGCTGGAAAGAAAGGCTGCATCCATGGGAGCGGTCAATCTTCATACAGAAGCCAGTTTTGCTGCTGTTCCCTTCTTTGTGAAGAACGGTTACAAGCAGGTCCATCAACAAGAGAAGACATTAGGCGGAACGCTTATAAAAAACGTCCGGATGTGTAAAAAGGTGAATAACGGATAG	MVQVRRMDHKDTEEVVCLMVRAIMGIPGHVYTGAQKKAWAGAVSMNTNLSARLLNGYTLLAVKQRKIIAMATLTDGDVIDFLYVSPEEQRSKTASILLERLERKAASMGAVNLHTEASFAAVPFFVKNGYKQVHQQEKTLGGTLIKNVRMCKKVNNG				NA	NA	NA	NA	NA
AK012_03574	93			hypothetical protein	ATGCAGAGACTGGACCAGATCGTCGATTACTTGAAGACACTGGGGATCGAAGTTGAAAAAGTGTACCGTACACCGAAGGAAGAGACAAGATAA	MQRLDQIVDYLKTLGIEVEKVYRTPKEETR				NA	NA	NA	NA	NA
AK012_03575	1209			hypothetical protein	ATGCCTCATTTCAAAACAAGCCGGCTGCTTGGAAGCTATTTTCTGTATGAATGCGCGCGGGCCATGTATTTCGTCCTGACGACGTGGTTGTTATTTCAATGGACCAACAACCCTTTATACACCGGGATGTTTGTCAGCTTCGGGTTTCTTCCCGGTCTCGTTTCCAACTTGTTTTTCGGTGTTCTCGTTGATCGGTACAGCAGAAAAAAACTTGCACTAACAGCCGGGACCATCAGTGTATCGATTCTCCTATTTTTATGGACGGCATTTACAGCAGGGGCAGCCACTCCATGGCTGATCATCCTCGTTCATATGCTGCTTCAAACGGCAGGTTCCTTATTCCGCCCTGCCCTGCAGGCATTGACCGCCGGCATTTTTTCTAAAGAAGAACTTCCCAAAATATTCTCCTGGTGTAATTCCGCCACCATTACCGGCAGCTTGGCAGGGGCAGGAACGGGAGGATTTCTGGCAGGTGCCGCTCCGGAGGAGGTTTCCTTGGGATTCGTTCTTCTTTTATTTACAGCAGCTACTCTCTCCCTGCTTCATCTGGAAGAGGCTCCCCTTCGAGCACCTGAAGGAAAATCTCCCTCATTTTTATGGGACATGAAGGAAGGGTTCCGTTATGTGCACCACCACCGCATGTTTTACGGTTTGTTCTTTCTATTAATGATTGGACAGCTGACCTTCCATACGTCGCTCGGCTTTTTAAGTGTCTATACGAGTGCGCACCTGCTGCAGGGACCCTTTCTCTATGGACTTCTTGATGCAGTATTCTCCATCGGAGGCATGGCCGCAGGACTGCTTGGAACATGGTGGTGGAAGGTGTTCCGCAGTCATCTTGCTGTTTGGGCGTTTGCGGTTACAGCGTCCGGCCTGCTGCTTGTCAGCTTGAACAATGCTCTGTGGTCCGCCTTTCCCGGCTATTTCTGCATTGGTTTTGGTACATCATTGATCCGAGCGCTGCTGCAGTCCGTTCAACAAATGGCCTCAGACCCCGCCTTCCATGGCAGGCTCTCCAGTCTGCGCATGCTGGGCAATCAGACTTCTGTCGTCATCAGCGGACCTGTTTTTGGATACATCGCTTCCACCTCTGGTGTTTCTCTGGTCTTTATATGTCTGCTCCTGCCTGCAGGGGCAGGAATGGTATGGGCATGGATGCAATCCCGTCAGTCTTATTTCCAGACCATTATAAGCCGGGCGTCCGCCTGA	MPHFKTSRLLGSYFLYECARAMYFVLTTWLLFQWTNNPLYTGMFVSFGFLPGLVSNLFFGVLVDRYSRKKLALTAGTISVSILLFLWTAFTAGAATPWLIILVHMLLQTAGSLFRPALQALTAGIFSKEELPKIFSWCNSATITGSLAGAGTGGFLAGAAPEEVSLGFVLLLFTAATLSLLHLEEAPLRAPEGKSPSFLWDMKEGFRYVHHHRMFYGLFFLLMIGQLTFHTSLGFLSVYTSAHLLQGPFLYGLLDAVFSIGGMAAGLLGTWWWKVFRSHLAVWAFAVTASGLLLVSLNNALWSAFPGYFCIGFGTSLIRALLQSVQQMASDPAFHGRLSSLRMLGNQTSVVISGPVFGYIASTSGVSLVFICLLLPAGAGMVWAWMQSRQSYFQTIISRASA	PGPT0027965_1236	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-MACROLIDE_RESISTANCE,PGPT0027965-mef|ykuC-K08217	NA	NA
AK012_03576	882	gltR_4	COG0583	HTH-type transcriptional regulator GltR	GTGAGAATGGAAGATTATGAACTGCTGGTTCAGCTTCATCAATGTGGAACCATCCGTTCTACGGCCAAAAAAATCCTTCTCTCTCAGCCGGCGATTACTCAGCGGTTAAAATACATCGAGGAGGAGTGGGGGGGAGAAATCTTCGTCCGTACATCCAAGAAATTGTGGGTTACCCCCTTCGGCGAGCTTATACTTTCCTCCGCAAGAGAAATGCTTCAAAAGGAAGAGGAACTCCGGACTAAGCTGGCCATGGCCGAAGGCAGAGTGTCCGGGACCCTCTCGATAGGCGCATCTTCCCTGTACAGTCAGCATTTTCTGCCGGAGGTGCTTCAGACTTTTACGAAGGCGTATCCTGATGTGACGATTGATCTTGTCACGGGGATCAGTAGTGACATCCGCGCCTCTGCATACAGCCACCAGCTTTCCATCATCAGAGGGGAGCCGGTCCCTGGATTCGACTCAATCCATTTATTCAATGATCCACTGTATGTCCTGGATGTATTCCCACTTCCGCCGTTATCCGAACGACCGTTTATCGAATTCAAAACCGATCCGGATTTCAGCCGGCTGCTGGAACGGTGGCGTCATAACCACCAGGAACTTATACATAAGCCGACAATCAAGGTGGATCATTTTGAAACAGCTAAACAGATGATGAAACACGGCCTGGGGATGACGGTTCTTCCCGGGAGTATTTCGCATAAGGAAAGAGCAGCGTATGCTTCTCTTCCTCTGGTGGATCATGAAGGGAAGGCGGTTGTCAGAGAAACGTGGGCCTGTGTGAAACCTGAGGTGCGCATGCTTCCTCAAGTGAATGCTTTCCTTCAACACCTTAAAGAAAGGAGTGGAGACGATGAGCCGCCTGGAAGAGCAGCTGACTGA	MRMEDYELLVQLHQCGTIRSTAKKILLSQPAITQRLKYIEEEWGGEIFVRTSKKLWVTPFGELILSSAREMLQKEEELRTKLAMAEGRVSGTLSIGASSLYSQHFLPEVLQTFTKAYPDVTIDLVTGISSDIRASAYSHQLSIIRGEPVPGFDSIHLFNDPLYVLDVFPLPPLSERPFIEFKTDPDFSRLLERWRHNHQELIHKPTIKVDHFETAKQMMKHGLGMTVLPGSISHKERAAYASLPLVDHEGKAVVRETWACVKPEVRMLPQVNAFLQHLKERSGDDEPPGRAAD				NA	NA	NA	NA	NA
AK012_03577	573			hypothetical protein	ATGAGCCGCCTGGAAGAGCAGCTGACTGAAATTCTGCTGGAGAAAACCCCGTACCTTCAACCGGTTTTTGATACGGCCGATCAGTACTTGAGCCATTATTACATAGGAGCAGGCGTCGTCGCACAGAGTGTGTGGAATGTAAAACACGGGTATGCCCCCGCTTATGGAATTGGAGATGCGGATGTGATCTATTTCGATCCTGAAGGAAGCCTGGAGGAAGAACAACAGTTGGAAAAGGAGCTTCGGAAGCAGTTGTCCCGGTATCCTTTTCAAATAGACGTGACGAATGAAGCTCTTGTTCATCAATGGTATGAAGAAAAATTCCATATCCCCATCCAGCCCTATGCATCGATCGAAGCAGCCGTAGATACGTGGCCGTCGACAGCCTCAGCTGTGGCTGTGCAGAGGAAACAACCCGGAACATTAAAGGTTTACGCCCCTTTCGGTCTTGAAGATTTATTTGGATTAATCGTCCGGCCGAACAAACGTCTTGTTCCCGAGGAAGTCTATGTGAAAAAGGCAGCTAAATGGAAGAAATACTGGCCGAAACTCACCTTGTTACCGTGGGAATAA	MSRLEEQLTEILLEKTPYLQPVFDTADQYLSHYYIGAGVVAQSVWNVKHGYAPAYGIGDADVIYFDPEGSLEEEQQLEKELRKQLSRYPFQIDVTNEALVHQWYEEKFHIPIQPYASIEAAVDTWPSTASAVAVQRKQPGTLKVYAPFGLEDLFGLIVRPNKRLVPEEVYVKKAAKWKKYWPKLTLLPWE				NA	NA	NA	NA	NA
AK012_03578	804	pfyP_3		Blue-light photoreceptor	GTGAATGAACTCTCGTTTGCTAGATTAGAAGAAATTCAACAAAATGAATTTATAAAAGCGGCGATCGACCGTGTTGGTGCTGGTGTCGTGATTTCAGATCCAGGTCAGGAAGATAATCCGATGATTTATTGTAACAGAGGATTCGAGGAATTGACTGGATATGAAGCGGAGGAAATCCTCGGACGGAACTGTCGTTTTCTTCAGGGTCCGGATACAAATGAAAGTCAGGTCCAACGCATTAGAGAGGGGTTGGACAGCAAAAAGCCGATCCTTTTGGAGATAAAAAACTATCGAAAGGATGGGACACCGTTCTGGAACGAGCTGCAAATCTTTCCTGTCTACATTTCTCAGATGGATCAGACCTATTTTGTAGGGGTCCAGAAAGACGTGACCCAGCGTCGGGAGCAGGAGGAGCTGATTGGTCATTATCTTTCTGAAGTAAAACGCCTTTCCACTCCGATCGTACCGGTGGAAGAAAATATTTCGGTTCTCCCGCTTGTTGGAACAGTGGATGATGAACGCCTGCAGCAGATGCTGGAAGCGGTCAGTCATCACGTGAAAGAAACGAAGGAAGACTACCTTATCATGGATATGTCTGCGGTTCATTCATACAATGAAGCGGTACATATGGGGATCTATCAAATGAACCAGCTGCTTGATTTGATGGGGACGACGCTTGTGATTACCGGCATTAAGCCGACCTTTGCGATTCAAAGTGCCCCTTATGCGGATTTCAGTGAACTGTCGCTGCAGACCTACGCTTCCGTGAAACAGGCGTTGAAGCAGATTCCCAGAGGGAAGTGA	MNELSFARLEEIQQNEFIKAAIDRVGAGVVISDPGQEDNPMIYCNRGFEELTGYEAEEILGRNCRFLQGPDTNESQVQRIREGLDSKKPILLEIKNYRKDGTPFWNELQIFPVYISQMDQTYFVGVQKDVTQRREQEELIGHYLSEVKRLSTPIVPVEENISVLPLVGTVDDERLQQMLEAVSHHVKETKEDYLIMDMSAVHSYNEAVHMGIYQMNQLLDLMGTTLVITGIKPTFAIQSAPYADFSELSLQTYASVKQALKQIPRGK	PGPT0014656_7	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014656-ytvA|pfyP-NA	NA	NA
AK012_03579	300	ycnE_2	COG1359	Putative monooxygenase YcnE	ATGTATATTGTTCATGCTGTATTTGAAGTAGCTCCAGATCAGGAACAAGCCTTTTTGAATGAAATCCGTCCATTGATCCAGTCATCAAGAGAAGAAGAGGGAAATGTCTCTTATGATCTTGTGAAGGACATGGAGAAAGAATACACGTATAAAATGGTGGAAGTCTGGCAGAACGCGGAAGCGGTGGAGAAGCATAACCAAAGTGAGCATTTCCAGACGTTCGTTGGAAAAGCTTCTGATTTTTTAGCTGCTCCTCTGTCCATTCACATCTATGAAGGTGAAGAAGTCCAACAAGGTTAA	MYIVHAVFEVAPDQEQAFLNEIRPLIQSSREEEGNVSYDLVKDMEKEYTYKMVEVWQNAEAVEKHNQSEHFQTFVGKASDFLAAPLSIHIYEGEEVQQG				NA	NA	NA	NA	NA
AK012_03580	1167	ydbM		Putative acyl-CoA dehydrogenase YdbM	ATGACAGGTATGATTGAAACGTGGATTAAAAATGATCGTCAGGAACGTCTTTTTCAAAAAGCCGTAACCATTGCGGACGAAGCGAAAAAGCACATCCAGGAAACCGATCAGCAGGCTGCCTTTTCACCTCAAACGCTGAAGGTGATCAAGGAGGAGGGATATCCTTCCCTCGCTCTCCCGCCTAAGGATGGCGGGGAGGGGCTTTCCCTGTATGAACTGCTGCTGCTTCAGGAGAAAATCGCAGAAGGAGACGGGGCTGTCGCTTTATCCATTGGCTGGCATATGGGAACGATGATGGAACTCTCCCAGGAGCGTTTATGGGACCCTGCGTCCTACAACAGACTTGTTCAGGAAGTCGTGACCAGTCAGAAGGTTGTCAACCGGGCAGCGACAGAGCCGGCAACCGGCAGTCCCACACGTGGAGGGATTCCAGAAACGACCGCGGTGAAGAAAGAGGGCCGATATGTTCTGAGCGGCCGGAAGTCCTTTACTTCGATGGCCGAGCATCTCGATTATTATATTGTATCTGCCTATGTGGAAGATCAAGATACCGTGGGTTGGTTTATGATCGACCGCCACCAGCCCGGCCTTTCAGTGGAACAGACGTGGGATACGCTCGGGATGAGGGGCACGGCCAGCCATGATTTGGTCATGAACGAAGTGGAGCTGAATGAAGAGGACCTTGTAGAATTGAAGCAGGAAGGGAAATCATCTCCAAAAGGATGGCTTCTTCATATACCTGCCTGTTATTTAGGGATCGCAACAGCCGCACGGAATGATGCGGTGGCTTTTGCGAAGGAATTCCAGCCGAACAGTCTCGATAAACCTATATCAGAAGTACCCCATATCCAGGATAAAATCGGGGAGATGGAATGGAAGCTGATGCAGGCGCATGCCTATCTTTACAGCGTCGCACGCAAGTGGGATGAGGAACCGGAAAACAGGGAGCACATCGGTCCTGATCTGGCAGCTGTGAAGCTTGCGGTTACGAACACTGCAAACGAAGTGGTGGATCTTGCTATGCGGATTGCAGGGGGCCGCGGGCTGTCCAAAACTTATCCGTTCGAAAAATACTACCGAGATGTCCGGGCAGGGCTGCACAATCCACCGATGGATGACGCGGTTGTGTCGATGCTTGCCAAGCGTGCCGTATCTGATCATCCATAA	MTGMIETWIKNDRQERLFQKAVTIADEAKKHIQETDQQAAFSPQTLKVIKEEGYPSLALPPKDGGEGLSLYELLLLQEKIAEGDGAVALSIGWHMGTMMELSQERLWDPASYNRLVQEVVTSQKVVNRAATEPATGSPTRGGIPETTAVKKEGRYVLSGRKSFTSMAEHLDYYIVSAYVEDQDTVGWFMIDRHQPGLSVEQTWDTLGMRGTASHDLVMNEVELNEEDLVELKQEGKSSPKGWLLHIPACYLGIATAARNDAVAFAKEFQPNSLDKPISEVPHIQDKIGEMEWKLMQAHAYLYSVARKWDEEPENREHIGPDLAAVKLAVTNTANEVVDLAMRIAGGRGLSKTYPFEKYYRDVRAGLHNPPMDDAVVSMLAKRAVSDHP				NA	NA	NA	NA	NA
AK012_03581	525	yraA	COG0693	Putative cysteine protease YraA	ATGCGTTTAGCAGATAAGAAAATCATCGCTCTTGTCAGTAAAGATTTTGAAGATCTTGAATTATGGTATCCGCTTCTCCGTCTTCAGGAGGAAGGAGCCGAGGTTCATCTTGTCGGTGAAAAAGCCGGAGAGGAATACCCGGGAAAATACGGAGTTCCGGCCGTATCGGATTCAGCTTTTGATGAGATTGACCCTTCTGACTATGACGGAATTCTCGTACCCGGCGGCTGGTCTCCGGATAAGCTCCGCCGTTATGACAAAGTCCTCGATATGGTCCGTCATATGCATGAAAATGAAAAACCGATCGGTCAGATCTGCCACGCCGGCTGGGTACTGATTTCTGCAGGTATTCTGGAAGGGCGTACCGTCACCAGCACACCCGGCATTAAAGATGACATGATGAATGCAGGAGCCACGTGGGTGGATGAAGCAGTCGTCCAGGACGGCCATATTGTGTCCGCGAGACGTCCACCTGATCTTCCTCCTTATGCAAAAGCTTTCGCCGATCTGCTGGCTGAACAATAA	MRLADKKIIALVSKDFEDLELWYPLLRLQEEGAEVHLVGEKAGEEYPGKYGVPAVSDSAFDEIDPSDYDGILVPGGWSPDKLRRYDKVLDMVRHMHENEKPIGQICHAGWVLISAGILEGRTVTSTPGIKDDMMNAGATWVDEAVVQDGHIVSARRPPDLPPYAKAFADLLAEQ	PGPT0015010_2902	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
AK012_03582	408			hypothetical protein	ATGATACGAAAAATCGGCCTTTATATCTTTGCTGCCGCTTTGTTCTACGCAGGAATCACTCATTTCATCTACGACCACGGATTTGCCAGGATGCTTCCCCAGTGGGTTCCGCTGAAACTTGAAATTGTCTATATGTCCGGGATCACCGAATGGCTGCTGTCGCTGCTCCTGATTTTCCCGCAGACGAGAAAAGCCGCCGGACTCGCTACAGCCGTCTTTTTGATTGCTGTCCTGCCTGCCAATATTTACGCAGCCATCTACTCCATTCCGGCTCCTTGGTCGGAGGAAGCCGGTCCAGCGGCTCTCTGGATCCGCCCGCTCTTCCAGCCTCTACTCATTTGGTGGGTTCTCGCCTGTTCGCAGGATTCGAAACCAGCGCATCGGTTTGATAAAATGAAAGGGAATTGA	MIRKIGLYIFAAALFYAGITHFIYDHGFARMLPQWVPLKLEIVYMSGITEWLLSLLLIFPQTRKAAGLATAVFLIAVLPANIYAAIYSIPAPWSEEAGPAALWIRPLFQPLLIWWVLACSQDSKPAHRFDKMKGN				NA	NA	NA	NA	NA
AK012_03583	903	ypuA	COG4086	putative protein YpuA	ATGAAAAAGCTCACAAGTATCTGGATGATGGCTCTTCTTCTTATTTCTATATGGACGGTGCCTCTGGAGAGTTACGCCTCTACAGGTGACCAGGGCATCAATGAAAAGCTGGGACTGCCGATTGTTGTCTACGGAGAAGCGCTGTCAGAAGCGCAGAAATCTGAGGTGGCGGATCTTCTTAAGGTGGACCAGCATGAACAGGTGGACGAGTTTTCGGTCAATGGCCGGGATTTGAATGCGTACATCGGTGGTAATCCGAATTCCAATATGTATTCTTCCGTGAAAATTCTTCATAAGGATAATGGAGAAGGGCTGTCCATTGAAATTGTTACACCAGATAACATAACACAGGTGACGAAAGAAATGTATACAAATGCTCTCTTGACTGCAGGCGTCGAAAACGCAGAGGTGCTGGTGGCTTCCTCCGTGAAAGTTAGTGGACATTCTGCCCTTACCGGGATCTACAAGGCGTATGATGCCAAAGGGGTCAAGCTGGATGAGAGCCGTATGAAAGTCGCGAGTGATGAACTGGACATCGCGACAGATATCGCTGAAGAACAGGGGATAGACAAGGATAAGGTCAGTGAACTGCTGACAGAAATCAAGAAAGCCATCGCCGAGCAGGATCCGGCAACAAAAGAAGAGGTGGAGCAGATTGTTCAGGAGCAGCTGCAGACACTGAACATTGAACTTAGTGAGGAGGATCGTCAGCGTTTGACGGATTTATTTGATCAGATGAGGAATTTGAACATTAATTTCGATCAAGTGAAAAACCAGCTGGATGATCTGACGGGCAGTATTCAGGACATCATCAATGATGACGGTTTCTGGAATAACCTGCGTAATGCGGTTCAGAGCTTCTTTCAATCTTTGAAGAACTTTATCAGCTCGCTGTTTAACTAA	MKKLTSIWMMALLLISIWTVPLESYASTGDQGINEKLGLPIVVYGEALSEAQKSEVADLLKVDQHEQVDEFSVNGRDLNAYIGGNPNSNMYSSVKILHKDNGEGLSIEIVTPDNITQVTKEMYTNALLTAGVENAEVLVASSVKVSGHSALTGIYKAYDAKGVKLDESRMKVASDELDIATDIAEEQGIDKDKVSELLTEIKKAIAEQDPATKEEVEQIVQEQLQTLNIELSEEDRQRLTDLFDQMRNLNINFDQVKNQLDDLTGSIQDIINDDGFWNNLRNAVQSFFQSLKNFISSLFN				NA	NA	NA	NA	NA
AK012_03584	582	ypmQ_2	COG1999	SCO1 protein	ATGAAGCGCTTGTTACTGTTAGGCGGATTGCTCAGCCTCGCCCTCATCCTTGCGGCCTGCGGATCCAATGAACTTGAGAATACATTAGATTGGGAAGTCCAATCTTTTGAAGGGACAACCCAGAATGGAGAATCCTTCTCTACGGAAGATTTAGAAGGCGAAGTATGGCTGGCAGATTTCATCTTCACCAACTGCAATACCGTCTGCCCGCCCATGACGAGAAACATGGTGAAAGTGAAGGAGATGTTGAAGGAAGAAGGGGTGGAAGTACATAGTGTCTCCTTCAGTGTAGACCCGACTGTCGACACTCCGGACAAGCTGAAGGAATTCGGAAGTAAATACGGAGTGGATGAAACCAACTGGACATTCTTGACGGAGTATACGCAGGAAGAGATTCAGGCGTTTGCCCAGGAGAGTTTCAAAACATCTGCCCAGAAAACGGAAGGCAATGATCAGGTCATCCACGGTTCTTCCTTTTACTTAGTCGGAGAAGACGGAAAAGTCCTGAAAAAATACAAAGGGGACACAGATGTTCCTTTTGAACAGATTGTGGAAGATACCAAAACCGCCGTGGATTCATAA	MKRLLLLGGLLSLALILAACGSNELENTLDWEVQSFEGTTQNGESFSTEDLEGEVWLADFIFTNCNTVCPPMTRNMVKVKEMLKEEGVEVHSVSFSVDPTVDTPDKLKEFGSKYGVDETNWTFLTEYTQEEIQAFAQESFKTSAQKTEGNDQVIHGSSFYLVGEDGKVLKKYKGDTDVPFEQIVEDTKTAVDS				NA	NA	NA	NA	NA
AK012_03585	765	yvaM		AB hydrolase superfamily protein YvaM	ATGCCTTATTATACAGACAGCCATTCAGGGAAAGCGTTGTTTTATGAGGATATGGGGGAAGGTCAGCCGATTGTTTTCATCCATCCGCCTGGAATGGGACGGAAGGTATTTAAGATGCAGCATGAGCTGGCGGAAAAGTACCGGATCCTCCTGCCTGATTTGAGCGGGAACGGAGACTCGGAAGTGGTGACTCACTCCCCTGACATTACCTGGTATGCCCGGGAAGTGGTTGCACTGCTCGATCATCTTCATTTGGAGTCGGCGGTCATCGCCGGTTATTCGTGTGGAGGTATGGTAGCTCAGGAAACAGCCTTGACATTCCCTGAGCGTGCTAAAGCGGTTATTTTGGCAGGAGGGTTTCCGAAGGTTGAAACCGGAGGGCTCCGCTTTGAATTTCACGGGGGGATGTACTGGGTGGAAAAAAGTCCGGAAACCCTCGCCAAGTTGTTAAGCCATTCCCACTTCAGGGACGGGGAACTGAAGCGGGAGCTGAATGAACATATGGCGAAGTCTGATCCTGACGCGTGGTATGCCTTTTATGAACGAGCGCTTCATTATGACTGCAGTCACCGGTTGAGGAATTTAAGTCAGCCGCTGCTTCTCGTATATGGAAGCAAAGAGTTCTGGATCAGTGAGCACAGTCATTTTTACCAGGGCTGTCCGCAGGCAAAAATGGTTGTGATTGAGCATGCCTATCACCAGACACCGGCCACCCACTATGACCGCTTCAATGAAGCGGCATCTCAATTCATAGACGCACTATGA	MPYYTDSHSGKALFYEDMGEGQPIVFIHPPGMGRKVFKMQHELAEKYRILLPDLSGNGDSEVVTHSPDITWYAREVVALLDHLHLESAVIAGYSCGGMVAQETALTFPERAKAVILAGGFPKVETGGLRFEFHGGMYWVEKSPETLAKLLSHSHFRDGELKRELNEHMAKSDPDAWYAFYERALHYDCSHRLRNLSQPLLLVYGSKEFWISEHSHFYQGCPQAKMVVIEHAYHQTPATHYDRFNEAASQFIDAL				NA	NA	NA	NA	NA
AK012_03586	558			hypothetical protein	ATGAAAGCAGAGGCTGTTCCTCTGCTTTCAGCTTGTAGAGAAAACAAGCTTTTTTCTTTCTTACCGCCAGGAGCGAAAGCCCCTTCCCTTTCCGCGGACGAACGCCCGAGCTTCCTCGCAAAAAACCACGCTCGGCGATCTCGGACCACTCGTTCTTCCGCAGGAGTGGAAGGAGCACCGCTCCTTCGGGATTCTTTAAAATTGAAAAAAGGCTGCCCTTCCCCCAGCTCACCCTTGCTGGATGAAGGGCAGTCTTTTTCATATTCCGGCAGCCAGCTGTCATCAACGCTTGTGCTTTCCCTTTTTCTTTTCCACGCATGTAGCAATAGCACAGCCCATGCCGTTCTTTGGAATCTGCGAACCTGCGCAGGGCATAAACCGTTCGGTGGCGTGCCGCGGCATTCATCCATCAATAAGCGGAATGTGACCCTTCAACAGACAAACGGACAACTCGAACTGGTTAACACAGGCTTTTTCTACAGTCACAAAGCAGAGGCTGTGCCTCTGCTTTGTTATTGGGGTTTCAAATCAAAGGTCGCATCGACTTCTTTTGCATAA	MKAEAVPLLSACRENKLFSFLPPGAKAPSLSADERPSFLAKNHARRSRTTRSSAGVEGAPLLRDSLKLKKGCPSPSSPLLDEGQSFSYSGSQLSSTLVLSLFLFHACSNSTAHAVLWNLRTCAGHKPFGGVPRHSSINKRNVTLQQTNGQLELVNTGFFYSHKAEAVPLLCYWGFKSKVASTSFA				NA	NA	NA	NA	NA
AK012_03587	1446			hypothetical protein	ATGGGGAAAAGCACAGCGAAATGGAAATGGATCATCATTGGCGCTGTCCTGATCATTTTTGCAGGAGGTACATACATGTATACAGGTTCTCAGAACTCCACAAAACTGGTTCACGAAGCAGACAGTTCCTTACATAGAAAGGCCAAGCCTGTCGATATGGAAGACCTCCCCGGCAGCTGGAAGGAAATCGAATCTGAGGAGCGCCTGCATGAGTATTTTGAAGAGCGCATTCCTGGTCTGGCCCTTGCACGTAAAGAAGGGTTGACCACAACACCTGAAGCCTCGGCCTCACTGCCGGGTCGTGACGGCCGGGCCCGGATTTACGAGGTGTGGCATGGGGAAAGGATTATTCACTTCCTGTACCGTATTGATTTATCTGCCCTCCTTTCTGATACGGAGGGTACGGACGGCATCGGAAATGTGCCGTTGCTGCAATCTATCCATATGAAAGCGACAGAGGACCAAAGCGCCCAGACATTGGACCTCAGGCAGGCAGGATCCGGGAACCGGGAAGCTGTCATCTACGAAAACCGTCTGTATGGAGCGATTTCCACCCCGCCGGTCGGTGACCCTTGGGACCTGAGTGACTTTGAGACGAAGGTTGAAGAGGTTAACCGGACGGTACCGACATCCCTGACGTTCCAAATAAACGGGGAGGACTATGAAACAGAAGCCGTCCCTGTTTCCTACGTATACAAAGAGAAGGCGAATACCTTGAAAACATTCACCACCACCGAGACATACGAACAAGGCGGACTCGTCATTAAACCTGAAGAAGTCCAGATCCGAGCCTCCTACGGAAAAATGAACATGCACATTGAAGATGAACATGATGCGTTCAACCATACGATGCAGGCCTATCTTAAGAAGGACACAGGAGAACGAATTCCGGTATTCCTCGGATATGATCAGAAAGAAAACGAACACACGTATGAAGGACGGTTTCAACCATTAGGAGAGATCCCTGATGAGCTTTCACTTGTTGTGGAAGATGTCCACCTTAAGGAAGATGCCTCTTATTCATTTACTGTGGATATAGACGATATGGACTTGAATGAGTCTACTTCGAAACGGATCAGCGAAAAAATCGGAGAAGCACACCAAACGGATATTTATCTGGACAGCGTGGAAACGACAAGTGACCAGCGCATGAGCTTGGAATTGAGCTACAGCCCGCACGACTACCACCAAAGCGAAAAACTGGTCGGAGAATCCTTTCATCCCCTTCCTGCATCAGGAAAAGGGCAGAAAGAACCTCCTTCTTTCGTTTCTGTACAGGGAGATGACGGCCGGGAAATCCAGGCCGATTATGCAGGCACAGATGGGATGGCTACAATCTCCTTCCCAACCCACAACATTCAGGAAGCCTCGACACTCACCGTTACCGTCAACCAGATGGTTTATGCAAAAGAAGTCGATGCGACCTTTGATTTGAAACCCCAATAA	MGKSTAKWKWIIIGAVLIIFAGGTYMYTGSQNSTKLVHEADSSLHRKAKPVDMEDLPGSWKEIESEERLHEYFEERIPGLALARKEGLTTTPEASASLPGRDGRARIYEVWHGERIIHFLYRIDLSALLSDTEGTDGIGNVPLLQSIHMKATEDQSAQTLDLRQAGSGNREAVIYENRLYGAISTPPVGDPWDLSDFETKVEEVNRTVPTSLTFQINGEDYETEAVPVSYVYKEKANTLKTFTTTETYEQGGLVIKPEEVQIRASYGKMNMHIEDEHDAFNHTMQAYLKKDTGERIPVFLGYDQKENEHTYEGRFQPLGEIPDELSLVVEDVHLKEDASYSFTVDIDDMDLNESTSKRISEKIGEAHQTDIYLDSVETTSDQRMSLELSYSPHDYHQSEKLVGESFHPLPASGKGQKEPPSFVSVQGDDGREIQADYAGTDGMATISFPTHNIQEASTLTVTVNQMVYAKEVDATFDLKPQ				NA	NA	NA	NA	NA
AK012_03588	183			hypothetical protein	ATGAGTGAAAAGAAAACACGCCGCGGGCATGTAGAGCAGTCGAATGAGGCGGCAGAAGCCTTTAACCGTTCAGCCAAATTCAATCAGGCTTTTTCCCACGAACCACCGGAAGCTTTACAGGAAGATCACAACCATTCGGAAGGAGATTCTCTTCTCCACCATTACTCTGATGACGACAAATGA	MSEKKTRRGHVEQSNEAAEAFNRSAKFNQAFSHEPPEALQEDHNHSEGDSLLHHYSDDDK				NA	NA	NA	NA	NA
AK012_03589	600	idi	COG1443	Isopentenyl-diphosphate Delta-isomerase	ATGGATGAACCACTGGATATTTTTAATGAAAAAGAAGAAAAAACGGGGGTCAAAGCCCGGGGAGAGGTTCACAGAGATGGAGACTGGCACGAAACCTTTCACTGCTGGGTTTTGACAAAGTCGGATTCTGAATGGCATATGCTGCTTCAGAAGAGAGCTTTTGATAAAGCGGACTATCCCGGGTTCTATGATATAACGGCCTCCGGACACATCGAATCCGGGGAGGGGGTGATTCCAGGAGGCCTGCGGGAAATCAGGGAGGAACTTGGCCTGTCCCTGGAACGTTCTGACTTAACCCCGGCGGGAGATGTAAAAGAAGAATTGATCGGGAAAGGCATGGTGGACAGGGAAATCTGCCGGTTGTTTTTCTATACATGGACGGGCGGGGACATGCCGATTGGGCATGAAGTGGCAGATGTACTTGCCGTTCCTCTGAAACAGCTGGCTCCTTGGTTGACCGGAAAAAAAGAGAGGGTCACAGGTGTTTCTGTGTGCACCGGAAAAACAGAAGACATGAAGGCGGTGTCATTGGTTCCCCACACATCGGATTACCGGCACCACTTGATCTCGGCAGTGTCTGAATATGTCGAAAAACTTTGA	MDEPLDIFNEKEEKTGVKARGEVHRDGDWHETFHCWVLTKSDSEWHMLLQKRAFDKADYPGFYDITASGHIESGEGVIPGGLREIREELGLSLERSDLTPAGDVKEELIGKGMVDREICRLFFYTWTGGDMPIGHEVADVLAVPLKQLAPWLTGKKERVTGVSVCTGKTEDMKAVSLVPHTSDYRHHLISAVSEYVEKL				NA	NA	NA	NA	NA
AK012_03590	1146	metC_1	COG0626	Cystathionine beta-lyase	ATGACACAACCGAGCTTTGAAACAAAAATTGTCCATCATAAACAGGATCAGTCACAAGTGCACAACAGCAAGACTACACCGATTTACCAGACGTCCGCCTTTACTTTTAAGGATCTCGACCACCTTGAAAGTTATTATGAAGGAGAAAGTCCATATTTATATACAAGGGAAAAGAACCCGAATACCGATGAGCTTGCAGGCACCGTTGCTGAGTTGGAAGGTGCTCCGGCAGGGGTCGCTTCTTCTTCAGGTATGTCTGCAATCCTGGCGGGTATCCTGGCAGCTGTTGAACCAGGCGGCCATATCGTAGCCGCAGAGGATGTGTACGGAGGGACACACAAACTTCTGACGAAAGAACTGCCTGCCTTCGGAATCGAGGTATCCATGGTTTCCTTTTCCGATTTGGAAGAGGTTGAGAAATCCATCCAGCCTCATACAAATCTGCTGTATACGGAATCGATTTCGAACCCCTTCCTGCGTGTGGAAAATTTAAAGGGCCTTCAGCAGCTCGCTCAAAAACATGGCCTGAAAACGATGGTGGACAATACATTTGCCACCCCTTACCTTGTTCAGCCTTATGAGTACGGAATAGACCTTGTTGTTCACAGCGCTACCAAATACATAGGCGGTCATAGTGACGTGACGTGCGGCGTTCTTGTCGGAGCGGGGCCATTGGTTTCCAAGGCTTCTCAGAAAATCGTCACCCTGGGAGCCAATTTAAGTCCATTTGAAGCATGGCTGACCCAGAGAGGGGCCCAAACGCTTGCTCTGCGTATGAAGCAGCAGTCTGCCAATGCCCGGAGTGTAGCAGAAGCTCTTCAACAGCATGACGGGGTCGATCAAGTGTTTTATCCGGAATTCGTATCCGAGCGGGGAAATGGAGCCATTGTCACAATAGAATTATCCCGGCGTGTGAATGTGGAAACCTTCTTCAAGTCTCTCGGGTGGATTAAAATTGCCCCTACACTTGCAGGCGTCCAGACGACCGTATCCTACCCTGTTCGTACGTCGCACAGAGCTCTGTCAGAAGCGGAGCGCGAAAAAATCGGGGTGAATGATTACGTGATCCGCTTATCGATTGGAATTGAGAGCGGTGAAGATATCGTCCATCAGCTGAAAAGCACCATTGACGCTTCCATTATATAA	MTQPSFETKIVHHKQDQSQVHNSKTTPIYQTSAFTFKDLDHLESYYEGESPYLYTREKNPNTDELAGTVAELEGAPAGVASSSGMSAILAGILAAVEPGGHIVAAEDVYGGTHKLLTKELPAFGIEVSMVSFSDLEEVEKSIQPHTNLLYTESISNPFLRVENLKGLQQLAQKHGLKTMVDNTFATPYLVQPYEYGIDLVVHSATKYIGGHSDVTCGVLVGAGPLVSKASQKIVTLGANLSPFEAWLTQRGAQTLALRMKQQSANARSVAEALQQHDGVDQVFYPEFVSERGNGAIVTIELSRRVNVETFFKSLGWIKIAPTLAGVQTTVSYPVRTSHRALSEAEREKIGVNDYVIRLSIGIESGEDIVHQLKSTIDASII	PGPT0020020_1412	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_METHIONINE_DEGRADATION,PGPT0020020-mdeA-K01761	NA	NA
AK012_03592	1779	metZ_3		O-succinylhomoserine sulfhydrylase	ATGACCAATACTTTTGAAGGCTACGATATCGATACCATTTCTCTGCACGGAGGACAGTCCCCGGACCCTACAACCGGTTCACGGGCGGTCCCGATTTACCAGACGACATCCTATGTGTTTCATGACACCGATCACGCCCAGAGCCTTTTTGCCCTTGATGAACCAGGAAACATTTATTCCCGGCTCGGAAATCCAACGGTGGATGTTTTCGAAAAGCGTATGGCGCTTCTTGAAGGCGGTGTGGCTTCTGTTGCGACAGCATCCGGCATGTCTGCCATTGCTCTTGCTGTTTTGAACGTGGCGGGGGCAGGAGATGAAGTCGTGGCAGCCTCCAATCTGTATGGCGGAACTTATAATTTATTCGCCAACACTTTACCACGATATGGCGTTAAAGTTCGTTTTGTGGATCCAGTTGATCCTGAAAATTTCAGACACGCCATCAATGAGAACACGAAAGCGGTCTTCGCCGAAACGATCGGCAACCCGAGTCTGCACGTCCTTGATTTTGAGAAAGTGTCCGCCATTGCCCACGAAAATGAAATCCCGCTGATTGTAGACAACACGTTTGCCACCCCTTACACGTGCCGTCCGATTGAACACGGCGCTGACATTGTCGTCCATTCGGCTACGAAATGGATTGGCGGCCATGGGACAGCCATCGGCGGCGTCGTTGTCGACGGAGGTCAATTTGACTGGGGCAATGGAAAGTTTCCTGTTTTCACAGAGCCGGATCCGAGCTACAACGGGATTGTTTATACAGCGGATTTCGGTACGCTCGCCTATATTACCAAGCTTCGTGTCCAGCTGCTCCGTGATTTCGGCTCCTGCCTCAGTCCGCAGAATGCTTTTCTTCTGCTTCAGGGACTTGAAACGCTTCATCTTCGTGTGGAACGTCATTCAGATAACGCCCGGGAAGTGGCTGCATACTTGGCGGAACACCCGGATGTGGACTGGGTTTCCTATCCCGGATTGAAAAACCATCCCGCTCATGAACTGGCGAATCAGTATTTAGAGGGCGGCTACGGTTCCATTGTCGTGTTTGGAATCAAAGGAGGAAGAGAGGCTGGAAGTCAGGTGATCAACAACATCTCGCTGTGGTCCCATGTCGCTAATGTCGGCGATGCGAAGTCTCTGATCATCCACCCGGCCTCCACTACGCACCAGCAGCTTTCCGTCGAGGAGCTCGCCGCAAGCGGCGTGACGGAAGAGCTCATCCGTCTTTCTATCGGGCTTGAATCCAGCAAGGATTTGATTAATGACCTTGATCGTGCCATTGCCAAAGCGACGGGAAACGCATCTGAAAAACGCGCCATTACAGAGAATGACGAAGGAGTCATCAAGTGGGCGTTGAGCTCTGCGAAAATAACGGAAGAAGGAAAGACACGTCCGAAACGGCTGGCTGTTGTAGGTCTCAGCGGAAAGCCTTCCCGCCCCAGTCACCGTCTTGCAAGAAAAATGCAGCGGCTCGGCTATCAGATTGTGCCCGTGAACCCCCGGGAGGAAGAAGTGCTTGGAGAGAAAGCTTATCCAGATTTGAGATCGATCCCATTCAACATTGATGTCGTCCAGGTCTTCCGAAGCCCTGAAGCGGCGATTGAAATTGCCAGAGAAGCAGCAGATATCCAACCCGGCGTGTTCTGGCTCCAGGAAGGTGTCATTTCGCCAAAAGCAGCGGAAATCGCCAGTGAAGCGGGTCTTGAAGTTGTCCATAACCGTTGTACTTACAAAGAAGCACAGCGGCTGCGTGGAAGTATCGATACGTATGCATGTGAAATTTAA	MTNTFEGYDIDTISLHGGQSPDPTTGSRAVPIYQTTSYVFHDTDHAQSLFALDEPGNIYSRLGNPTVDVFEKRMALLEGGVASVATASGMSAIALAVLNVAGAGDEVVAASNLYGGTYNLFANTLPRYGVKVRFVDPVDPENFRHAINENTKAVFAETIGNPSLHVLDFEKVSAIAHENEIPLIVDNTFATPYTCRPIEHGADIVVHSATKWIGGHGTAIGGVVVDGGQFDWGNGKFPVFTEPDPSYNGIVYTADFGTLAYITKLRVQLLRDFGSCLSPQNAFLLLQGLETLHLRVERHSDNAREVAAYLAEHPDVDWVSYPGLKNHPAHELANQYLEGGYGSIVVFGIKGGREAGSQVINNISLWSHVANVGDAKSLIIHPASTTHQQLSVEELAASGVTEELIRLSIGLESSKDLINDLDRAIAKATGNASEKRAITENDEGVIKWALSSAKITEEGKTRPKRLAVVGLSGKPSRPSHRLARKMQRLGYQIVPVNPREEEVLGEKAYPDLRSIPFNIDVVQVFRSPEAAIEIAREAADIQPGVFWLQEGVISPKAAEIASEAGLEVVHNRCTYKEAQRLRGSIDTYACEI	PGPT0001995_267	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001995-metC-K01760	NA	NA
AK012_03593	984			hypothetical protein	ATGAATTGGAAAAACGTCATAGCTGTTATTGGAGCAGCGGCTGCTGTAGGGCTTGCCGGGTGCTCAAGTAATGCGGAAGGTCAGGAAGATCACCTGGATACAGTGACCCTTGATTATGCCTATTACTCTCCAACCAGTCTCGTACTGAAAGAAAAGGGGTGGGCCGAAGAAGCTTTTGAAGAGCAAGGTATTGAAGTGGAATGGGTGCTCAGCCAGGGAAGCAACAAGGCACTTGAGTTTTTGAATTCCAGCAGTGTTGATTTTGGCTCGACGGCTGGAGCGGCCGCGCTGATGGCTAAAGCGAACAATGCTCCTGTAGAATCCATCTACCTCTATTCCAAGCCGGAATGGACCGCTTTAGTGACGAATCCGGATACCGGTATTTCCTCTGTAGAGGATTTGAAAGGGAAGAAAGTCGCTGCGACGCTCGGAACCGATCCTTATATCTTCCTTGTCCGTGCTTTAAAGGATCACGGTCTGAGTGTGGATGATATTGAGCTTGTCAACCTGCAGCATCCCGAAGGGGCATCCGCCTTGAACTCCGGCAATGTTGATGCTTGGGCAGGGCTTGACCCCCACATGGCGCGTAATGAACTGGAAGCCGGGGCAGAGCTTTTTTACCGTAAGCCTGAATTCAATACGTACGGGACGTTGAATGTCCGCTCTGAGTTTGCAGATGAACACCCTGACGTCGTGAAAGATGTTATTAAAGCCTACGAAAAAGCACGGGAGTGGACGATCGAACATCCGGATGAAGCCGCTGAAATTCTGGCGGAGGAAGCCAACCTCGATCTTGAGGTAGCGAAGAAGAGCCTGGACCGCAACGACTTGTCCGGTCCGGTTCCGGGAGAGGCTTTGAAAGAAACCATTCAAGGCGCCGGCACAGTCCTGCAGGAAGAAGAAGTGATCAAACCGGATGTGGCTGTTGACCAGTTGACGGAAGAGCTTGTCCGGCCTGAATTTGCCGAAGAAGTGATTAAATAA	MNWKNVIAVIGAAAAVGLAGCSSNAEGQEDHLDTVTLDYAYYSPTSLVLKEKGWAEEAFEEQGIEVEWVLSQGSNKALEFLNSSSVDFGSTAGAAALMAKANNAPVESIYLYSKPEWTALVTNPDTGISSVEDLKGKKVAATLGTDPYIFLVRALKDHGLSVDDIELVNLQHPEGASALNSGNVDAWAGLDPHMARNELEAGAELFYRKPEFNTYGTLNVRSEFADEHPDVVKDVIKAYEKAREWTIEHPDEAAEILAEEANLDLEVAKKSLDRNDLSGPVPGEALKETIQGAGTVLQEEEVIKPDVAVDQLTEELVRPEFAEEVIK	PGPT0003025_1106	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003025-ssuA-K15553	NA	NA
AK012_03594	837	ssuC_2	COG0600	Putative aliphatic sulfonates transport permease protein SsuC	ATGTCCAGTCGTACAGAAGCTGCTGTTTCATCACCAGCTGTGCAGCGAACGAAAATCAAGACGTCTCCGAAAAGGAAGCGGGGAGGAGCTTGGCTGGGACTGATTCTTCCGGTACTGCTTCTCATTCTCTGGGAAACAGCTTCCCGGGCGGGATGGGTGGCCCCTTACCTGCTTCCTTCTCCAACAGCTGTTGTTGAGGAAATGACCGGTATGGCGCAGGACGGGGAATTATGGGGACATATCAGCATTACCCTTTACCGAGTATTTGCCGGATTTATTGCCGGTCTGGCCGCAGCTGTTGTACTTGGAGCAGCGACAGGATACAGCCGCCTCGCCCGCCAGCTGCTTGATCCGATGCTTCAGGCGCTGAGGGCCATACCATCGCTTGCCTGGGTGCCTTTGTTCGTCCTTTGGATCGGGATTGGTGAAGCGTCGAAAATTACGCTTGTGGCTGTAGGGGTGTTTTTTCCTGTGTATTTAAATTTAACGTCCGGCATTCAGGGAGTCGATCGGAAACTGATTGAAGTCGGACGTATCTATCAATTTACGAGTCTGGAGCAGATTAAAAAAATCATCCTGCCTGCCGCGCTTCCATCGTTTATCGTTGGCCTCAGAAGCGGACTCAGCCTCGGTTGGATGTTCGTCGTAGCCGCTGAGCTGCTGGGTGCCAGCCAGGGACTTGGTTACTTGATGGTGTATGGTCAGAATACGTCCGCCCCCGCCATTGTTATAGGAAGCATCCTTCTCTTTGCTGTTTTCGGAAAACTTACGGATGAGGTATTGAAGAGAATACAGACGAGAGCATTGAAGTGGCAGGATAATTTAGAAAATGCCTAA	MSSRTEAAVSSPAVQRTKIKTSPKRKRGGAWLGLILPVLLLILWETASRAGWVAPYLLPSPTAVVEEMTGMAQDGELWGHISITLYRVFAGFIAGLAAAVVLGAATGYSRLARQLLDPMLQALRAIPSLAWVPLFVLWIGIGEASKITLVAVGVFFPVYLNLTSGIQGVDRKLIEVGRIYQFTSLEQIKKIILPAALPSFIVGLRSGLSLGWMFVVAAELLGASQGLGYLMVYGQNTSAPAIVIGSILLFAVFGKLTDEVLKRIQTRALKWQDNLENA	PGPT0003030_2054	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003030-ssuB-K15554	NA	NA
AK012_03595	714	ssuB	COG1116	Aliphatic sulfonates import ATP-binding protein SsuB	GTGCTGGCAGTCAATCAAGTGTCACGAACGTTCCAATCCGGAACGACAGGGTTTGAAAACATAGATTTACAGGTGAAAAGAGGAGAGGTCGTCGGAGTGCTCGGCACGAGTGGATGTGGGAAGAGTACGCTTCTTCGTGTTCTTTCCGGTCTGGATCCAGAGTACGAAGGGACCATTCGGACAAATTCCGAAAACCGTGCCAATGCTTTCGGAATGATGTTTCAAGAGCCGCGTCTTATGCCGTGGCTGGATGTCCTCGATAACGTCACATTCGGTTTTTCCAAATCGTCTAAAAAGGAGGCCGCTTTGGAACTGATTGAAACGGTGGGGTTAAAAGGATTTGAGCATCATTATCCCAAAGATTTATCCGGTGGTATGGCACAGAGGGCCGCTATTGCAAGATCACTACTCAGCCGGCCGGATATCCTTCTCCTTGATGAACCTTTCAGCGCACTGGATGCTTTTACGAAGATGCAGCTGCAGGATCTTCTGCTTTCGATATGGGAACAGCATCACACCACAACCCTCCTGGTTACACATGATATTGATGAAGCTCTTTATCTATGTGACCGCATTGTCATCATGAGAGGGCAGCCGGGACGAATCGAGTCGGAGCTGTTCATCCAGAGACCGAAACCGAGAAAACGCGGCGATGCCGTTCTGGGTGAATTGAAAGAACAGATTCTCCGGGAACTTGATTTTACGAAACAATAA	MLAVNQVSRTFQSGTTGFENIDLQVKRGEVVGVLGTSGCGKSTLLRVLSGLDPEYEGTIRTNSENRANAFGMMFQEPRLMPWLDVLDNVTFGFSKSSKKEAALELIETVGLKGFEHHYPKDLSGGMAQRAAIARSLLSRPDILLLDEPFSALDAFTKMQLQDLLLSIWEQHHTTTLLVTHDIDEALYLCDRIVIMRGQPGRIESELFIQRPKPRKRGDAVLGELKEQILRELDFTKQ	PGPT0003035_1799	DIRECT EFFECT	BIO-FERTILIZATION	SULFUR_ASSIMILATION|MINERALIZATION	S-ASSSIMILATION-SULFUR_METABOLISM	S-METABOLISM-ALKANESULFONATE_TRANSPORT,PGPT0003035-ssuC-K15555	NA	NA
AK012_03596	1689	acsA_4	COG0365	Acetyl-coenzyme A synthetase	ATGACAACTGTAACTATTCCGCCTGTGAAGGGAGATTATCAGGTCGGACGCGAATGGAGGGAAGGGGATCCGTTCCATTGGAAGGACATCCACTCCAGATTCACCTGGCATGAGACGGGGAAGGTAAACATGGCCTATGAGTGTGTCGACCGACACGTGGCAGAAGGTAAAGGCGACAAAACAGCTCTGCACTATTTATCGGAAGGCGAAGAGATCACGTACACGTATGCTGGACTTCAGCGTGAAGTGAACCGCTGGGCGCGTGTGCTCCAGCGGAATGGCGTGAAGAGGGGGGATTTCGTTTTTGTTTTCCTTCCCAAGCATCCTTTCTGCCACATCGCCATGCTGGCTGCCATCAAGCTGGGTGCGGTCGTCGGTCCACTGTTTGAAGCTTTTATGGAAGAAGCGGTAAAGGACAGGATCAATGATTGTGAAGGGGAATATTTAATAACCGACCACTCTTTTCTGGATCGTGTCATCCCGGAAGACATTCCAAGCCTGAAGACTATTTTTGTTACCGACAAACAGGACGGAGAGTACATTTCAATTACAAAAGAAGCAGAAAAGGAAGCTCCGGAATTTGAAACGGTATGGGTCGATCTGGAGGACGGTTTAAACATTCATTACACGAGCGGCTCGACCGGAAAGCCGAAAGGCATCATCCATGCCCACCGGAATATGATCCAGCAGTACCAGACAGGACGCTGGGTACTGGATCTCCATGAGTCGGATGTTTACTGGTGTACCGCCCACCCTGGCTGGGTGACAGGTACGGTGTATGGCGTGTTTGCTCCGCTGTTGAACGGGGTAACGACCGTCATTCATGGAGGACGTTTTTCTGCTGAGGCTTGGTACGGAGTGCTGGAACGGGCGGGTGTAACTGTCTGGTACAGCGCACCGACCGCTTTCCGAATGCTGAAATCCCAGTTGGAAGGTCTTCACGAAGACTACGATTTATCCAGCCTGAGGCATGTGCTGAGTGTCGGGGAACCGTTAAATCCGGAGGTTATTCACTGGGCTTATAAAACGTGGGGACTTCGAATCCATGATACGTGGTGGATGACGGAAACGGGGGCACAGCTTGTAGCCAATCTGCCGACGAGAACCATCAAACCGGGGTCCATGGGACGGCCGATCCCTGGAATAAAGGCAGCTGTGCTGGATGAAGAAGGCAGGGAGCTTCCCGCCAATGAAACCGGTCATCTTGCTATACAGGCCTCCTGGCCGTCCATGATGAAGGAAGTATGGAAAAATCCTGAGAAATACAGTACTTATTTTCCCTTCGGAGGGAACTGGTACCTGGCTGGTGATCTGGCCTATATGGATGAAGAAGGCTATATTTTCTTCCAGGGTCGGAGTGATGATATGATCAACTCTTCCGGGGAAAGGATCGGCCCTTTTGAAATTGAAAGCAAGCTGATGGAGCATCCTGCGGTCAAAGAGTCAGGAGTCATTGGAAAACCGGATGATGTCCGCGGGGAAATCGTAAAAGCCTATATCGTTTTAAATGAGGGATATGAAGGTTCGGAAGAGTTATCGAAAGACATCCGCGGCTTTGTGAAGAGCGGCCTGGCTGCGCACGCTGCTCCCAGGGAAATAGCCTTTACTGTGGAACTTCCCAAGACCCAGATCAGCGGCAAGGTCCTGCGGAGGGAACTCAAAAAATGGGAAAAAGAGGGAGTTCTTTAA	MTTVTIPPVKGDYQVGREWREGDPFHWKDIHSRFTWHETGKVNMAYECVDRHVAEGKGDKTALHYLSEGEEITYTYAGLQREVNRWARVLQRNGVKRGDFVFVFLPKHPFCHIAMLAAIKLGAVVGPLFEAFMEEAVKDRINDCEGEYLITDHSFLDRVIPEDIPSLKTIFVTDKQDGEYISITKEAEKEAPEFETVWVDLEDGLNIHYTSGSTGKPKGIIHAHRNMIQQYQTGRWVLDLHESDVYWCTAHPGWVTGTVYGVFAPLLNGVTTVIHGGRFSAEAWYGVLERAGVTVWYSAPTAFRMLKSQLEGLHEDYDLSSLRHVLSVGEPLNPEVIHWAYKTWGLRIHDTWWMTETGAQLVANLPTRTIKPGSMGRPIPGIKAAVLDEEGRELPANETGHLAIQASWPSMMKEVWKNPEKYSTYFPFGGNWYLAGDLAYMDEEGYIFFQGRSDDMINSSGERIGPFEIESKLMEHPAVKESGVIGKPDDVRGEIVKAYIVLNEGYEGSEELSKDIRGFVKSGLAAHAAPREIAFTVELPKTQISGKVLRRELKKWEKEGVL	PGPT0002265_6257	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_UTILIZATION	PLANT_DERIVED_ACETATE_UTILIZATION,PGPT0002265-acs-K01895	NA	NA
AK012_03597	1239	gltP_2	COG1301	Proton/glutamate-aspartate symporter	ATGAAGTTAACAACCAAGATTTTTATAGGTTTAATCCTTGGTGCTGTCGTAGGTCTGGGCCTTCACTTAGCTGCCCCCGATCTATTTACGACGTTGGATGCCTATATTTTCAGTCCATTAGGGACAGTCTTTTTAAATCTTATTAAAATGCTCGTCGTCCCGATCGTGTTCTTCTCCATCACACTGGGAACAGCTTCCCTTGGGGATCCGAAGAAACTCGGGAGAATCGGCGGAAAAACCATCGGATTCTTTCTGGCTACGACTACAATCGCCATTTCCATTGCCATCGGACTGGCTTATCTCTTCCAGCCGGGCAATATTGATATCAGTACGACCGGTGCGGAGTATGAGGCTCAGGAAGCTCCTGGTGTTGTAGAAACCTTTACGAACATCATTCCGACCAACCCGATCCAGTCTATGACAGATGGCAATATGCTGCAAATCATCGCTTTTGCAATCTTTATCGGTTTTGCTCTGGCTATGCTCGGTAAGAAAACCGAAGGCATTTATAAACTGGTGGAGCAGGGGAACGAGATCATGATGTTCCTCGTTAATCTGATTATGCGTTTTGCGCCGTATGGTGCTTTCGGTCTTCTGGCTTCAGCCATTGGAACGATGGGTATTGACGGTATGCGTGCGATGGGTATGTATATGTTTGTCGTCCTGCTCGGATTGTTTATCCATGCAATCGTAACGTATGGTTCAGCGGTTTCTTTCCTTGGTAAGATGAACCCGATTACGTTCTTCAAAGGATTCTTCCCGGCAATGACGGTTGGATTCAGTACATCCAGTTCAAGTTCTACTCTGCCGATTTCCATGAAAACGGCTCAGGAAAACTTAAATGTTCCGAAATCCGTAAGTAGTTTCGTCCAGCCTCTCGGGGCAACCATCAACATGGATGGGACAGCGATCATGCAGGGTGTGGCGACGATCTTTATCGCTCAGGTTTATGGATCTGATTTATCCTTTGCTTCATTAATTATGGTCGTATTAACCGCTGTGCTCGCGAGTATCGGTACGGCCGGTGTTCCAGGTGTAGGTCTGATCATGCTTGCCATGGTACTGAACCAGGTTTCCCTTCCGGTTGAAGGTATCGCGTTGATCATTGGTATCGACCGTCTTCTTGATATGACACGAACAGCTTTGAATATTACAGGCGATGCTGCTTGTGCCGTCGTTGTTGCCGAATCCGAGAAGAAGCACGGATTGGAAGAAGAAACACAACGTATGCAAGCATAA	MKLTTKIFIGLILGAVVGLGLHLAAPDLFTTLDAYIFSPLGTVFLNLIKMLVVPIVFFSITLGTASLGDPKKLGRIGGKTIGFFLATTTIAISIAIGLAYLFQPGNIDISTTGAEYEAQEAPGVVETFTNIIPTNPIQSMTDGNMLQIIAFAIFIGFALAMLGKKTEGIYKLVEQGNEIMMFLVNLIMRFAPYGAFGLLASAIGTMGIDGMRAMGMYMFVVLLGLFIHAIVTYGSAVSFLGKMNPITFFKGFFPAMTVGFSTSSSSSTLPISMKTAQENLNVPKSVSSFVQPLGATINMDGTAIMQGVATIFIAQVYGSDLSFASLIMVVLTAVLASIGTAGVPGVGLIMLAMVLNQVSLPVEGIALIIGIDRLLDMTRTALNITGDAACAVVVAESEKKHGLEEETQRMQA	PGPT0000805_1049	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-GLUTAMATE_TRANSPORT,PGPT0000805-gltP|gltT-K11102	NA	NA
AK012_03598	240			hypothetical protein	GTGTTTGTTTCCATGTTTTACTCTGTAACGTTCCAAAAAATCATCTACTTAACCGCCATTGGAGTGATCATCGGGGCGATTGTCGGCTTTTCTGCCGTTCTCGGATTTGACCTCGGTGGAACATCCTTTATCCTTTCCATGTTTTTGAGCATCCTGCTCGTCTACGTGACAGCTATGTATGCCGAACTCTATCACATCCGTGAGGCCATCAATAAACAGCGCAGGGACGAACGACGCTAG	MFVSMFYSVTFQKIIYLTAIGVIIGAIVGFSAVLGFDLGGTSFILSMFLSILLVYVTAMYAELYHIREAINKQRRDERR				NA	NA	NA	NA	NA
AK012_03599	159			hypothetical protein	ATGGAAGCATTTTACTGGGTTTTTATTCTGTCCGCTGTATCCGCCACTTTTTTTGTGATTTTCAGGAGATTATCCAGAGGGACCTACTGGACGATTGCGATCCTTGCCCTCCTCTACCTGCTTGTCCTTTCCTACAGCCTGCTGAACGGTCCACACTAG	MEAFYWVFILSAVSATFFVIFRRLSRGTYWTIAILALLYLLVLSYSLLNGPH				NA	NA	NA	NA	NA
AK012_03600	555			hypothetical protein	ATGACTGTTTTTGAACTGCTTTTTATGCTGGTGACCGTCTTCTGGCTTGCGGAGTTTTTCATTTTCCGTAACGACAGATCGGACAGTGATGATCAGGAGCGCCGTTCCTTTCCACTGATCTTTATTATAGTCGTCTTGACGGTCGGCTCTTCTCTTATATTAAGAGAAGGAGAGATTGGAATCACTACTGCCCCCTGGGTGTGGTGGACAGGATTGGTCTTGTATGCTTCAGGGACCTTTCTCCGGTACTGGGGAATCCTTCATTTGAAGGAGCAGTTTACGAGAAACGTAGCGGTCCGCAGAGGAGACAGACTCGTCAGTTCAGGGCCCTACCGGCTGTTGCGGCACCCTTTGTATACAGGATTGTTTTTCATCATTGTCGGATTTTGTCTTGGAACCGGCAATGTCTATCCCGCTGTTCTATTTGGCATAATGATAACAGTCGCTTTACTACATAGAATCCGGCTTGAAGAAGCGATGTTGACGAAAGAACACGGGGAGATGTACAGGGAATGGTGTGTGAAAAGATACCGCTTCATTCCTTTTGTTTATTAA	MTVFELLFMLVTVFWLAEFFIFRNDRSDSDDQERRSFPLIFIIVVLTVGSSLILREGEIGITTAPWVWWTGLVLYASGTFLRYWGILHLKEQFTRNVAVRRGDRLVSSGPYRLLRHPLYTGLFFIIVGFCLGTGNVYPAVLFGIMITVALLHRIRLEEAMLTKEHGEMYREWCVKRYRFIPFVY				NA	NA	NA	NA	NA
AK012_03601	1509	crtNb_2		4,4'-diapolycopene oxygenase	TTGAACAAGAAAACAGCGATTGTCGTAGGTGCAGGGCTAGGTGGAATGTCGGCTGCGATCCGGCTGTCCGGAGACGGCTATGATGTAAAGGTCATTGAAAAGAACAGCAACATCGGCGGAAAGTTGAACCGAAGAGAAGGGAAAGGGTTCACGTTTGATACAGGCCCATCCATATTGACGATGCCGTGGGTGCTGGAACAGCTTTTTGCCAGTGTTCACCGGCGACTGGAAGATTACATTACAGTTGAACGGGTAGAGCCGCAGTGGCGCACGTTCTTTGAGGACGGGACACAGCTGGATGTAACGAGTGACCTCCCGAACATGCTTGAGGAAATGTCTAAAGTGACGAACCGGCCGAACCGGAAGTTGACGGATTTTCTCTCCTACAGCCAGGATATGTATGAATTGTGTATGAAGAGCTTTTATAAATACAGCATTCAGGATCTCAAAGATTTGAAGAAGCATCATAAGCTGAACGAACTGATGCAGATGGATCCAATGAGTACCGTTGCGAAGTCCACACATAAACAATTCAATAATCCTTATCTGGAGCAGTTGTTCAACTATTTCGTGATGTATGTAGGGTCCAACCCGTATTCAGCACCTGCCATATTAAATCAGCTTGTTTATGTCCAGCTGGGGCTCGGGATCCACTATGTCAAAGGCGGCATGTATAAGATTGCGGAAGGTATGGGGCAGCTGATGAAAGAGCTTCGTGTGGATGTTCAGCTGAATACACCTGTGCAGCGCCTCGTTGTCGAAAACGACCGAGTGACGGGTGTGGAGACGGAAGATGGTACTCTTCACGAGGCTGATATCGTCGTTTCCAACCTTGAAGCCATTCCGGCATACAGAAAGCTTGCGCCGAAGACATCCAAAGTGAAGAAGGAAACAAAATCTCTCGAGAAGAAGTTCGATCCAACGGTTTCCGGTCTTGTGCTGCTTCTTGGTACTGACCGCAAGTTCGACCACTTGAAGCACCATAACTTCCTGTTTTCTGAAGATCCTGAGAAAGAGTTCAAGCAGATTTTCGAAGAAGGGAAGCCGGCGGACGATCCAACGATCTATATCGGCATTTCCGCTCGTTCCGATGATACGCAGGCTCCCGAAGGCAAGGACAACTTGTTTGTGCTGACCCACGTACCGCCGATGACGGGCAAAAAACAGAAGCCTGTCGACTGGGATGCCTACCGGGAAGTGGTGTTGGATAAGCTGGAACGTATGGGAATCGAAGGTCTGCGTGATTCGATTGAGTTTGAATACCGCTTTACGCCTGAAGACCTTGAAGCTCTCTACGGTCCGAACGGAGGGTCCATTTACGGCATTGCGGCCGATAAGAAGTCGAATGGAGGCTTCAAGATCCCTTCCAAGAGTCAGGTGTTTGAAGGCTTGTACTTCGTTGGCGGATCCACCCATCCGGGCGGCGGCGTCCCTATGGTGACGCTTTCCGGACAGTTGACCGCTGATTTGATCAAAGAGCATGAAAGTGAGCCCGTACCTCAATCCTGA	MNKKTAIVVGAGLGGMSAAIRLSGDGYDVKVIEKNSNIGGKLNRREGKGFTFDTGPSILTMPWVLEQLFASVHRRLEDYITVERVEPQWRTFFEDGTQLDVTSDLPNMLEEMSKVTNRPNRKLTDFLSYSQDMYELCMKSFYKYSIQDLKDLKKHHKLNELMQMDPMSTVAKSTHKQFNNPYLEQLFNYFVMYVGSNPYSAPAILNQLVYVQLGLGIHYVKGGMYKIAEGMGQLMKELRVDVQLNTPVQRLVVENDRVTGVETEDGTLHEADIVVSNLEAIPAYRKLAPKTSKVKKETKSLEKKFDPTVSGLVLLLGTDRKFDHLKHHNFLFSEDPEKEFKQIFEEGKPADDPTIYIGISARSDDTQAPEGKDNLFVLTHVPPMTGKKQKPVDWDAYREVVLDKLERMGIEGLRDSIEFEYRFTPEDLEALYGPNGGSIYGIAADKKSNGGFKIPSKSQVFEGLYFVGGSTHPGGGVPMVTLSGQLTADLIKEHESEPVPQS	PGPT0007440_87	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-CAROTENOID_BIOSYNTHESIS,PGPT0007440-crtP-K10210	NA	NA
AK012_03602	987			hypothetical protein	ATGAGCAGCTGGATCATCTTTGCACTCTTTATCATATCAGGGATCAGTACATTTTTTGTTGCCTCCCGTTTATCGATATATGGAGATGCAGTAAAGGAAAAAACAAGAGCGTCCTCTGCGTTTATGGGAGCGATCATTGGGATCGCCATTTCCCTGCCGGAGCTGACATCAAGTGTAACAGCGATTATCATTGACAGTCCTGATCTGGCTGTTGGTAATTTAATCGGAAGTAACTTATTCAACATTATGGGGCTGGCCATTTTTGATATCATCTACAGGCGTTATCAAATCCTGACCCATGCCACAGCGGAAAGCCGGATGTACGGATGGCTGGTTATTTATATGACGATCATTGTCATAGCTGGATTGAGCCTGACTCTTCCCACCCACATTTTCCACATCAGTTATACGTCCATTGCCGTCATTCTCCTGTACTTTATCGGTTCTAAATTCATTAATGACCGGACTTCCTACCAGGGGAGGAAAATAAAAAAACAGAACGACCGCTACAAGGACTACACTTATAAGCAGGTGCTGTTCAAGTTTGTGATGTATGCCTTTCTCATCATGGTCATCGGGAGTGTTCTGACCGTCACAGCCGAAAGGATATCTGTCATCACTGGAATTGGAGCGTCGTTTATTGGTGCCTTCTTAGTAGCTATCAGTACATCGCTACCTGATGCTGTCAGTGTAGCCACAGCTCTGAAGCTGAGAAACTTCAATCTTGGGATCAGTTCGCTGCTTGGCAGTAATGCCTTCAACTTAATGATCCTGGCGATTACCGATTTGATTTATATCAAAGGAAACCTTCTTCAGCAGTCTTCCCCGGCCAACCTTTTTACAGGGGCGGCCTCAATTTTGTTTATCCTGCTGATTATTTACAGCATTACAAGAAAAAAGGTGCAGTCATGGAGCTATCTTCTGCCCTCGGTTTTAATCATTGTCAGTTATTTCGTAACGACGTATCTCGTTTTCCAGATCAAGTAA	MSSWIIFALFIISGISTFFVASRLSIYGDAVKEKTRASSAFMGAIIGIAISLPELTSSVTAIIIDSPDLAVGNLIGSNLFNIMGLAIFDIIYRRYQILTHATAESRMYGWLVIYMTIIVIAGLSLTLPTHIFHISYTSIAVILLYFIGSKFINDRTSYQGRKIKKQNDRYKDYTYKQVLFKFVMYAFLIMVIGSVLTVTAERISVITGIGASFIGAFLVAISTSLPDAVSVATALKLRNFNLGISSLLGSNAFNLMILAITDLIYIKGNLLQQSSPANLFTGAASILFILLIIYSITRKKVQSWSYLLPSVLIIVSYFVTTYLVFQIK	PGPT0014400_1457	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H+_ANTIPORTER,PGPT0014400-yrbG-K07301	NA	NA
AK012_03603	222			hypothetical protein	GTGACAGAACAGGATATGGCTGACATTTTCAGCGACTACGGATACAGCAGCGTCTATCATCGGTTTAAGACACCTCTATATGTAACAGGACTGCTGGACGAAATGGACCCGGAGCTTTTGGAGGATTTTTTTGAGCATATGGACCTCTCCCCTGATTTGTTCTTTGATGAATTCCGCTTCTGGATCCAGTACTATTCAGCCTCCCAAAATAATCATTCATAG	MTEQDMADIFSDYGYSSVYHRFKTPLYVTGLLDEMDPELLEDFFEHMDLSPDLFFDEFRFWIQYYSASQNNHS				NA	NA	NA	NA	NA
AK012_03604	645	udg	COG1573	Type-4 uracil-DNA glycosylase	ATGAATTGGCCGGAAGAGCTTGTGAAAGAAGCAGAACAGAATATGGAGCCTTACGATGTTGAAGGGTTTGTCCTTGGCGCGGGGGATGACCAGGCGGACATTATGATTGTGGGGGAGGCGCCGGGTGAGAACGAAGCCGTTAAAGGCCGGCCGTTTATCGGACGCGCAGGCGCCGAGCTGGATAAACACCTGGACTATGCCGGGCTTTCCCGGGAAGATGTTTATATTACAAGTGTCGTCAGAAGCCGCCCTTATAAATGGGTGGACACGAATAAGAAGGGGAGCGGAGGGAGGCGGAAGGCCAATCGGAAACCGAATCAAAAAGAGATTGACGCCCATGCCCGCCTGCTGGACTACCAGATCGCTGAAATGGATCCAGCCATCATCGTCGCTCTCGGAGGTGTCGCTTATCAGCGGCTGACAGGAAAAAATCATAAGATGACCGATGTGATCGGACGATCTTTTCATGTCCCTGTCCAGAAAAAAGGTGACTCAGGGTATGAGCTGACTGAAAAGACGTATACCATTATCCCGTTGTACCACCCGGCTGCCGTTTTTTATAATCCGGGGATTAAGGATACGATATGGGAATCTTTAGATCATTTGAAGCGTGAAATAGAAAAGAACAGCCACCGGAAAGGGTGA	MNWPEELVKEAEQNMEPYDVEGFVLGAGDDQADIMIVGEAPGENEAVKGRPFIGRAGAELDKHLDYAGLSREDVYITSVVRSRPYKWVDTNKKGSGGRRKANRKPNQKEIDAHARLLDYQIAEMDPAIIVALGGVAYQRLTGKNHKMTDVIGRSFHVPVQKKGDSGYELTEKTYTIIPLYHPAAVFYNPGIKDTIWESLDHLKREIEKNSHRKG				NA	NA	NA	NA	NA
AK012_03605	630			hypothetical protein	GTGAATGATTTGACGGACAGGAAATTAAGGAAAATGAACCACCGCGTCAAATATGACCATGTCCCCTTTGATGAACGCTACATGAAGAAAAACGTGATTCAGGCGATGCATAAAGGAAGCCCACGCCCCAAATCCGGGAGCTGGATGAGAAAAAAGCTGTGGGTTCCCGCTTTCGTTACAGCCGCTGTTTTTACAGTGACGTGGAACGCAGACGGCCCCGCTTCCGATGAAGCTGGTCGTATGGCCTATAAATCCATCTCAAGTCATGTGAAGACTTACGGAGGTGCAGCCGGAGCCGATATGACTCACACCTCCTCCCCAATAGTAAGAGAAACGTATATCATTTATGAGGACGAGGAATTTCACCAGACAAGCACCCGTGTTTCAAAAGAGCAGCTTGGTAAGGTGGTCGGGGTCATCGGCCACCAATCTCCCGGCGAGGAAGCGGAACCTTTGACACGAGTGAACAACTTCCAGCCTGAAGCGAAGATTTATACGATCAAGGGTGAAAAGCATACAGATAAAGTAGCCGTTCAGAGCTGGCGCAGCACGAGTATCGGATCGGCGTCCTTAAGCAGACAGGGATACTTCGTCTTCGAGAAACTCCCTTCCGGAAGCTCAGACAGCTGA	MNDLTDRKLRKMNHRVKYDHVPFDERYMKKNVIQAMHKGSPRPKSGSWMRKKLWVPAFVTAAVFTVTWNADGPASDEAGRMAYKSISSHVKTYGGAAGADMTHTSSPIVRETYIIYEDEEFHQTSTRVSKEQLGKVVGVIGHQSPGEEAEPLTRVNNFQPEAKIYTIKGEKHTDKVAVQSWRSTSIGSASLSRQGYFVFEKLPSGSSDS				NA	NA	NA	NA	NA
AK012_03606	618	sigW_2	COG1595	ECF RNA polymerase sigma factor SigW	ATGAAAACTTTTTTCCGGGGAGTGTCGTCTAAACAGATGAGGTGGGACAAATTGATACGCAGACAGCGGCCGCAGTCTACATACGAACCTGATGATCTCGATGAACAACGGATTGAAGAATGGATACACCACTATGGCCATGACCTCAAATGGCTCGCTTATTCTTATGTAAAAGACTATGCCACTGCGGAGGACATTACCCAGGAGACTTTCATCAAAGCCTACCAAAGTTACGAATCCTTCAAACAAGAAGCCTCTGTAAAAACATGGCTGTACAAAATTAACGTCAACCTTTGTAAAGATTACTTGAAAAGCTCCTATATGAAGCGTGTCGTTAAAAAAGGAACCGAACTGTTCAGATCCATCCCTTCTCCAAGGGAGACTCCGGAGGAATTGGTGTTGCGCCAGGATGAAGATGAAGCGCTCCTTGCCCACGTGTTAGCTTTAGAGGATAAATACCGGGAAATCATCATCTTATACTACTTTGAGGAATTCGACATCAAAAGCATGGCGGATGTATTGAATACAAGCCCTAATACAGTCAAAACAAGGCTGAGACGGGCCCGCCAGCTGCTTCAAGAACGGATGACAACGGAAGGGAGTTCACAGAGTGAATGA	MKTFFRGVSSKQMRWDKLIRRQRPQSTYEPDDLDEQRIEEWIHHYGHDLKWLAYSYVKDYATAEDITQETFIKAYQSYESFKQEASVKTWLYKINVNLCKDYLKSSYMKRVVKKGTELFRSIPSPRETPEELVLRQDEDEALLAHVLALEDKYREIIILYYFEEFDIKSMADVLNTSPNTVKTRLRRARQLLQERMTTEGSSQSE	PGPT0014960_10417	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK012_03607	96			hypothetical protein	ATGAGCACATACGAAGCCCTCATGATCATGTTTGCGTTTGGAACATTCATCATTACCCTCCTTGCGCTCATCATAAAAATGAACAATAAAAAATAG	MSTYEALMIMFAFGTFIITLLALIIKMNNKK				NA	NA	NA	NA	NA
AK012_03608	1398	amt		Ammonia channel	ATGAAGAAAGTAATTCCTTTATCACTGCTGGCTCTTTTCAGCTTTCCGGTCGCCGCCAGCGCTCAGACGACCGTAACCGCTGAATCTGTTCTGCAGTCTGTCGACATGGCCTGGGTAATGATTGCCGCCTTTTTAGTATTCTTTATGCATGCAGGCTTTGCGATGGTCGAATCCGGATTCACCCGTTCCAAGAATGCTTTGAACATCCTCATGAAAAACTTCATGACGATGTCGATCGCTGCTGTTCTCTATTTCATCGTCGGTTACGGCATTATGTTCGGAACATCCGGAGGGGGGATCATCGGTATTGACGGCTTCCTGCTATCCGGCCAGGAGGATCAAATCGGATTTTTCGTATTCCAGGCCGTATTCGCAGCTACCTGTGCAACCATCATTTCCGGTGCAGTTGCTGAACGTATTAAATTAGGATCCTACCTTTTACTTACTGTCGTCATGACCGGGTTCATATATCCCGTTGTCGGCCACTGGGTATGGGGCGGAGGATGGTTGGCAGAGCTCGGCTTTGTAGACTTTGCCGGATCCACCGTCGTCCACCTGACCGGTGCCCTTGGTGCCGTAACCGCCGTCCTATTCCTTGGGCCGCGTATCGGGAAATACAGCGGCAGGACGGTCAATGTCATTCCCGGTCATAACATCCCTCTCGGAGCCCTTGGTGTATTCATCCTGTGGTTTGGCTGGTTCGGATTCAACGGCGGAAGCACACTGGCTGCCGATCCGTCCCTCGTCCCTTCTGTCATTGCGACGACCCTGCTCTCTGCTTCTGCCGGTGTCCTCGGTTCCGGTTTCTACTCCTATGCAAAGTTCAAACGTATTGACGCTTCCCTTACATTAAACGGTGCGCTGGCCGGCCTCGTAGGGATTACGGCGGGTACCGCAAACGTTTCACTGGCTGGAGCCATCATTATCGGATTGATCGCTGGTGTCATTCTTGTCGAAGCCGTTCAGTTCCTTGATCGTGTCGCACGCATCGATGACCCTGTCGGCGCTATCGCTGTGCACGGGATCTGCGGAATCTGGGGAACACTGGCTGTCGGATTATTCGCTGTTGAAGGCGGACTGCTGTACGGAGGCGGGGCTTCCCTTCTCGGCATCCAGGCTGTAGGTATTCTAGCCGTCATCGCCTGGACAATGGTTACAACAGCAGCTACCGTAGCTGTCATTAAAGCAGCCGTCGGCATCCGCGTCTCCCGCCAGGAGGAAATCTCCGGACTGGACTTTGCCGAACATGGTTCCCAAGCGTATGAAAGCTCCAGAGGGATCTTCAACGAGAACCTCGATTATGGTTCTAAAGATTTCGGAGTCGGGCTGCTGCACCGCTTAAACGACCTGCAGGCCGAACAAGTTCCGGAGAAACCGAAGGAAAAAACCGCTCAATAA	MKKVIPLSLLALFSFPVAASAQTTVTAESVLQSVDMAWVMIAAFLVFFMHAGFAMVESGFTRSKNALNILMKNFMTMSIAAVLYFIVGYGIMFGTSGGGIIGIDGFLLSGQEDQIGFFVFQAVFAATCATIISGAVAERIKLGSYLLLTVVMTGFIYPVVGHWVWGGGWLAELGFVDFAGSTVVHLTGALGAVTAVLFLGPRIGKYSGRTVNVIPGHNIPLGALGVFILWFGWFGFNGGSTLAADPSLVPSVIATTLLSASAGVLGSGFYSYAKFKRIDASLTLNGALAGLVGITAGTANVSLAGAIIIGLIAGVILVEAVQFLDRVARIDDPVGAIAVHGICGIWGTLAVGLFAVEGGLLYGGGASLLGIQAVGILAVIAWTMVTTAATVAVIKAAVGIRVSRQEEISGLDFAEHGSQAYESSRGIFNENLDYGSKDFGVGLLHRLNDLQAEQVPEKPKEKTAQ	PGPT0000840_2863	DIRECT EFFECT	BIO-FERTILIZATION	NITROGEN_ACQUISITION	N-AQUISITION-AMMONIUM_ASSIMILATION|USAGE	N-AQUISITION-AMMONIUM_TRANSPORT,PGPT0000840-amtB|ybaG|amt-K03320	NA	NA
AK012_03609	342	glnB	COG0347	Nitrogen regulatory protein P-II	ATGAAGAAGGTCGAAGCCATCATCCGCCCGGAAGCTTTTCAAGAGCTCCGGCAGCAGCTGGACGCTTTGGGAGTCAAAGGGTTAACCGTTTCAGAAGTAGCCGGATGCGGTCAACAGAAAGGACAGGAAGGCATCTTCCGAGGCAGCCGCTTCGAAATTAAACTGTATCCGAAGGTGAAGGTCGAAATGGTCATTGAGAATCACGAGCTCGGCTCCGTGGTCGACGTCATCCTGGAAGCCTGCGCGACCAATGAAGTCGGGGATGGCAAAATCTTCGTCTCCACCATTGATGAAGTCTTCCGCATACGGACAGGAGAAACAGGTAAACAGGCACTTATTTAA	MKKVEAIIRPEAFQELRQQLDALGVKGLTVSEVAGCGQQKGQEGIFRGSRFEIKLYPKVKVEMVIENHELGSVVDVILEACATNEVGDGKIFVSTIDEVFRIRTGETGKQALI	PGPT0000650_465	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-GLUTAMATE|GLUTAMINE_SYNTHASE|GLTS_PATHWAY,PGPT0000650-glnB|glnY-K04751	NA	NA
AK012_03610	1038	nrdB	COG0208	Ribonucleoside-diphosphate reductase subunit beta	ATGGAAACTTTAAATAAACGTAAGCTGGTCGACCACGAAGCGCCCAATGCATCCACCGGCATTGTGAATGGACGCAGTTCGAACATTTTGAACTGGGATGACACCCGTTACCCGTGGGCATACCCGATGTATAAAACGATGCTCGCAAACTTCTGGATTCCGAGCGAAATCAATATGAGCAATGATTTAAAACAGTGGCCGGAACTGAATGCACAGGAGCAGGAGTCCTTCAAGAAGATCATTGGACTCCTCGCTTTTCTGGATTCAGTCCAAACCGATTACTCAGGGAAAATCGCTGATTATTTAACCGATTCCAGTTTATCTGCTCTTATGCAGGTACTGGCTTTCCAGGAAGTGGTCCATAACCAATCCTACTCCTATGTCCTGTCTTCCCTTGTCGATCAACAGGAACAGGAGAACATTTTCAAATACTGGAAGCATGATGACGTACTGATGGAGCGTAATCAGTTCATCACGGACGGCTACCAGGATTTCATTGATGATCCATCCCTGGACTCCTTTTTGAAATCGATCGTCTACGACGTCGTTCTGGAGGGACTGTTTTTCTATGCCGGATTCGCCTTCTTCTATAACCTGGCCCGCAACCAGAAAATGGTTTCTACAAGTACGATGATCAATTATATCAACCGTGATGAACAGATTCACGTCAGCCTGTTCACCCGGATTTTTAATGAAACGTTAAATGAAAACCCGCAGCTTGATGCTGATGCTTACCGCGCATTTGCGAAGGAAACATTCAAGACTGCGACAGAGCTGGAGATCAAATGGGGACGTCACTTGATTGGTGATCAATTCCCAGGCATTCCGATGGACGATCTTGAAGATTATATCCGCTATATCGCAAACAAGCGGTGTCGGATGCTCGGCACCGGGAAGCCCTACCCTGAACACGACACCAATCCATTCAAATGGATTCGTGCTTATCAGGAAGTAGATGAAGGGAAATCCGATTTCTTCGAACAGAAATCAAGACAATATACCAAAGTATCCGACAGCAACGGATTCGATGACTTATAA	METLNKRKLVDHEAPNASTGIVNGRSSNILNWDDTRYPWAYPMYKTMLANFWIPSEINMSNDLKQWPELNAQEQESFKKIIGLLAFLDSVQTDYSGKIADYLTDSSLSALMQVLAFQEVVHNQSYSYVLSSLVDQQEQENIFKYWKHDDVLMERNQFITDGYQDFIDDPSLDSFLKSIVYDVVLEGLFFYAGFAFFYNLARNQKMVSTSTMINYINRDEQIHVSLFTRIFNETLNENPQLDADAYRAFAKETFKTATELEIKWGRHLIGDQFPGIPMDDLEDYIRYIANKRCRMLGTGKPYPEHDTNPFKWIRAYQEVDEGKSDFFEQKSRQYTKVSDSNGFDDL	PGPT0021345_1751	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021345-nrdB|nrdF-K00526	NA	NA
AK012_03611	2232	nrdE	COG0209	Ribonucleoside-diphosphate reductase subunit alpha	ATGGCTGCCACATTAACAACGACAAGCTGGGTGGACAGGATCAAACAATGGAAGGACGACTTCCCTCAGCTGCCTCTGGATGGATTTCTGGAAAAGCAGTCTTCACAGATCGCAGACAAAACCTATGATGAACAGGCAGATGCCCTCATTCTCGAATGCCTTGCAGAAATAGATGAAGCTGCTCCGGACTGGACCTATGCCGCAAGCCGGATCCTGCTTACCCGCATGTATGAATCTTCCGCCCGGAACCGGGGCACAGGGAAGGCATATCAGAATTTCCGTGGTTTGATTGAGACATTGATCGATAAACAGATTTACACACATAAGCTGCTTACCTATTACAAACAAGAAGAACTGGATGAACTGGAACAGGTCATCACACCGGAGCGGGATCATCTGTTTACGTATATCGGTTTGAAAACGCTGTCGGACCGTTACCTGGCTAAGAGCAAATCCGGTGATATCTTTGAGCTCCCACAAGAGCGGTTTATGATTACTGCCATGATTTTAATGGCTCAGGAAGATGAAAACAAGCGCCTTTCTTTCGTCAAGGAAGCCTACTGGGCTCTCAGCCACCTGTACATGACCGTTGCTACACCAACGCTTTCCAATGCCGGAAAGAGATATGGACAATTAAGCTCCTGCTTTATTGATACGGTCGACGATTCTCTACAGTCCATTTATGACAGCAACACAGACATCGCCAATTTAAGCAAGCATGGCGGGGGCATCGGTGTATACTTAGGAAAAATCCGCAGCCGCGGCAGTGATATCCGTGGCTTCAAAGGCGTCTCCTCCGGCATTCTTCCCTGGATGAAACAGCTGAACAACACAGCTGTAAGCGTGGACCAGCTCGGTCAGCGCCAGGGTGCGGTAGCCGTCTATCTGGATGTATGGCATAAAGATATCTTTCCATTTCTGGACAGCCGCCTGAACAATGGGGATGAACGTCAGCGGACCCACGATTTGTTTACTGGAGTGTCCATTCCGGACTTATTTATGGAAGCGGTGGAAAATCGGGAGGACTGGTACCTATTCGACCCCCATGAAGTCCGGAGCGTTATGGGCTTTTCTCTTGAAGATCACTACGATGAACATAAAGGATCCGGTTCTTTCAGGGAAAAATATCAGGCGTGTGTCGACAACCCTGCTTTGTCCAAGGATAAAGTGCCGGCGATTGATATTATGAAACGGATCATGATCGGCCAGCTGGAAACTGGAACACCTTACATGTTCTACCGGGATGAAGTGAACCGGATGAACCCGAACAGCCACAAGGGTATGATCTACTGCAGTAACCTCTGTACAGAAATCGCCCAGAACCAGAAGGCTACGGTTCAGGAGGAAGAGTATGTCGAGGACGGAAAAATCATTTCGGTTAAAACACCCGGGGACTTTGTCGTCTGCAACTTGTCGAGTATCAACCTCGGCCGGGCGGTTCCGGCAGGTGTCCTGAAACGGCTCGTAAGCATTCAAGTACGTATGCTTGATAATGTCATTGAACAAAATACGATCCCTGTCCTGCAGGCGCAGTTGACGAACCATTCCTACCGCGGAGTAGGACTTGGCACCTTCGGCTGGGCCCACCTTCTTGCTAAGAAGCAGCTGGACTGGGAATCCGATGAGGCTCTCAGCTATACATCAGAGGTTTATGAAGCGATCGCCTATCACGCTGTTGAGGCGAGCAGTGACCTGTCCGCTGAAAAAGGAAGCTACCCGTATTTTGAAGGATCCGACTGGGATACAGGAGAATTTTTCGTTAAACGGTCGTTTGACCAGGAGGGCTCATGGAACTGGAAAGCCCTTCAGGAAAAGGTCTCGCAGCAGGGCATCAGGAATGGTTACTTAATGGCTGTTGCGCCAAATTCCAGTACATCTTTAATAGCCGGCAGTACAGCAAGCATCGACCCGGTATTTAAGAAATTCTATTCCGAAGAAAAGAAAAACTATAAAATCCCGGTGACGGCACCTGACCTAAACCATGAAACCTACGGCTATTATCCATCAGCCTATGATGTAGACCAGCATGCAAGCATCCGCCAGAACGGTATCCGTCAGAAATATATCGATCAGTCGATTTCTTTCAACCTGTATGTCAGAAATACCATTCAGGCCAAGGAACTGCTGGCTCTCCATATAGATGCCTGGAAAAATGGTTTGAAGACCACCTACTACACCCGCTCCACTTCAAGTTCCGGAGACTTTGACGCATGCGAAAGCTGTTCATCGTAA	MAATLTTTSWVDRIKQWKDDFPQLPLDGFLEKQSSQIADKTYDEQADALILECLAEIDEAAPDWTYAASRILLTRMYESSARNRGTGKAYQNFRGLIETLIDKQIYTHKLLTYYKQEELDELEQVITPERDHLFTYIGLKTLSDRYLAKSKSGDIFELPQERFMITAMILMAQEDENKRLSFVKEAYWALSHLYMTVATPTLSNAGKRYGQLSSCFIDTVDDSLQSIYDSNTDIANLSKHGGGIGVYLGKIRSRGSDIRGFKGVSSGILPWMKQLNNTAVSVDQLGQRQGAVAVYLDVWHKDIFPFLDSRLNNGDERQRTHDLFTGVSIPDLFMEAVENREDWYLFDPHEVRSVMGFSLEDHYDEHKGSGSFREKYQACVDNPALSKDKVPAIDIMKRIMIGQLETGTPYMFYRDEVNRMNPNSHKGMIYCSNLCTEIAQNQKATVQEEEYVEDGKIISVKTPGDFVVCNLSSINLGRAVPAGVLKRLVSIQVRMLDNVIEQNTIPVLQAQLTNHSYRGVGLGTFGWAHLLAKKQLDWESDEALSYTSEVYEAIAYHAVEASSDLSAEKGSYPYFEGSDWDTGEFFVKRSFDQEGSWNWKALQEKVSQQGIRNGYLMAVAPNSSTSLIAGSTASIDPVFKKFYSEEKKNYKIPVTAPDLNHETYGYYPSAYDVDQHASIRQNGIRQKYIDQSISFNLYVRNTIQAKELLALHIDAWKNGLKTTYYTRSTSSSGDFDACESCSS	PGPT0021340_4351	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021340-nrdA|nrdE-K00525	NA	NA
AK012_03613	684	COQ5		2-methoxy-6-polyprenyl-1,4-benzoquinol methylase, mitochondrial	ATGAGTGAAACGTTCAACTGGCATAAGGAAGCAGAACGTCAATGGGACAGCCGTTCGGACATGTGGGGAGCAAAGAGCCGGATGATGTGGGAAGAGGGAAGCAGAAGTTCAATCATCCCCTTTGTCAAAAAGCACATGCCCCCAGGAGACATCGTCGACCTTGGCTGTGGAGACGGGTATGGCAGCTACTTGTTATCTCTGGAAGGCTGTCACGTTACAGGAGTGGACCTTTCCAAGGATATGGTGGATAAAGCGAACAAACGGATCAGCAGTGATATCCCATTGAAGTTTGTGCAGGGGGATTTGACCCGTCTGCCTTTTGAAGATGAACAATTTGATGGAGGGATGGCGATCAACTCACTGGAATGGACCGAGGTACCCGCGGCAGGATTAAAGGAAATGAAACGGGTGCTGAAGACGGGGGGACGTCTCTGCATAGGTCTTCTCGGTCCCACGGCGATGCCAAGGGTGAACAGCTACCGGAGGCTTTACGGGGAGAAGGTGATCTGTAATACGATGATGCCCTGGGAGTTACAGAAGCTGGCTGTTGAAAATGGCTGGGAAGTGATCGATGGAGAAGGGGTTTATAAAAGAGGGGTGGAACCACACCTGATCGATACTCTTGATGAGGACCTCAAGCAGTCGCTGACGTTTATGTGGCTGTTTATTTTGGAGAAAAAATAA	MSETFNWHKEAERQWDSRSDMWGAKSRMMWEEGSRSSIIPFVKKHMPPGDIVDLGCGDGYGSYLLSLEGCHVTGVDLSKDMVDKANKRISSDIPLKFVQGDLTRLPFEDEQFDGGMAINSLEWTEVPAAGLKEMKRVLKTGGRLCIGLLGPTAMPRVNSYRRLYGEKVICNTMMPWELQKLAVENGWEVIDGEGVYKRGVEPHLIDTLDEDLKQSLTFMWLFILEKK				NA	NA	NA	NA	NA
AK012_03614	891			hypothetical protein	TTGAATCGGCAGCTGTACACAAAAAAATGGAGCCTCATCATTATGGGCTCGGTTTTTATAGGTCTGATCCTATTTTTTATAAGTGCAAAATCAAGCAGCTCTGAGCCGGTTGACCGGTCCGAGCTGACCCCGACATTGTTTATCCATGGATATAAAGGCGGCCCCCGCAGCTTTCAATCGATGATGGACCGGATGGAAAACCTCCAATGGGGAAAAAAACATATGACCATCTATGTTTCTTCATCCGGTATGGTATCGATTCAAGGGAATTTTTCCAATACCCCGCATCCGTTTGTCCAGGTCCTTTTTGAAAACAACCGGGCAAGCATCCAGGACCAGACATACTGGCTCCAGCAGGTGATGAAAAAACTCCACACCGAACATAAAATCCAGCAGGTGAATCTTGTCGGTCATTCCATGGGCGGCCTGGCTTCTGCCGGATATTTAATGTCTGAGTCCGACCTTCCTGCTCCAACCGTCGAAAAACTCGCCGTCATAGCCAGTCCCTTCAACGGAATCAAGAAGGAAGGCTACTTTGCCTCCAACTACGGAGAGGCGACCACCGATCTGCAGCCCGGATCGAACGCACTCGAGCAGATGGAGGAAAGGAAGGAAAACTTCCCCCCGGAAATTGAGGTTCTCGCCATTGCAGGTGTCATTAATGGAAAAGACCCTGAAGAAGACCACTGGGACGGACTTGTTCATGCATCCAGTGTCAGCAGGCTGGAGAAAATCGTACCGTTCGGCCAGTACAGAGAGGAACAGATTTACAATAGCCTGGCCACTCACTCCGGTCTCCATGAGCTGGCAGAAGTTGACCGGATGCTGGCCGTTTTCCTCTGGGATGAAACGGACAAGCAGAATCTCAACTCCTTTGACGAACATCTGTAA	MNRQLYTKKWSLIIMGSVFIGLILFFISAKSSSSEPVDRSELTPTLFIHGYKGGPRSFQSMMDRMENLQWGKKHMTIYVSSSGMVSIQGNFSNTPHPFVQVLFENNRASIQDQTYWLQQVMKKLHTEHKIQQVNLVGHSMGGLASAGYLMSESDLPAPTVEKLAVIASPFNGIKKEGYFASNYGEATTDLQPGSNALEQMEERKENFPPEIEVLAIAGVINGKDPEEDHWDGLVHASSVSRLEKIVPFGQYREEQIYNSLATHSGLHELAEVDRMLAVFLWDETDKQNLNSFDEHL				NA	NA	NA	NA	NA
AK012_03615	432	ydaG	COG3871	General stress protein 26	ATGACAATGAATCAGGAAGAATTGAAGCAGAAGATTTATACATTGATGGACCATCATAAAGTTGGAACACTGGCTACGGTGAAGGACAGTAAACCGCACACCCGCTATATGACTTTTTTCAATGATGAGAATTTCACATTTTTCACCCCGACAAGCAAGGAAACACATAAAGCTGAGGAAATTGAAGAAAATCCCCACGTTCATATTCTGCTCGGATATGAAGGAGAGGGCTACGGGGATACCTACCTGGAAGTGCAGGGACAAGCGAAAATCCGCGGAGACCAGGAAATCAAAGAGTGGATTTGGAATGACCAGATGACCCGCTGGTTTGATGGGAAGGATGATCCTGATTTTGTCGTTCTTGAAATCCTTCCGGAAACCATCCGTTACATGAACAAAGGATCCCAAACACCGGAAACGCTCGAATTATAA	MTMNQEELKQKIYTLMDHHKVGTLATVKDSKPHTRYMTFFNDENFTFFTPTSKETHKAEEIEENPHVHILLGYEGEGYGDTYLEVQGQAKIRGDQEIKEWIWNDQMTRWFDGKDDPDFVVLEILPETIRYMNKGSQTPETLEL	PGPT0015019_1	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	OTHER_STRESS_RESPONSE_PROTEINS,PGPT0015019-ydaG-NA	NA	NA
AK012_03616	885	czcD	COG1230	Cadmium, cobalt and zinc/H(+)-K(+) antiporter	ATGAGTCACCACCATCATCATCACGTCGATACTTCAACGGGAAAAATAAAAACGGCCTTTTTCTTGAATTTCATTTTTACCATTATTGAGATCATCGGCGGGTTGTTAACAAATAGTATGGCGATTTTATCCGACGCCCTGCATGACCTCGGAGATTCACTGTCTCTCGGCCTTGCATGGTTTCTGCAGAAGTTTTCCAAAAAGGGGACATCTGAAAGCTTTTCCTTCGGATACCGCCGTTTTTCGCTTCTGGCCGCTCTCATTAACAGTATTGTCCTGATTGTTGGATCGGTTTTCATTATAACGGAAGCTGTCCCACGGCTTTTCAACCCACCTGAACCGCATGCAGGCGGAATGCTTGCCGTGGCTGTCCTCGGGATCATCATTAACGGAGCCGCCGTTTTCCGGTTGAGGGGTGGAGACTCCATGAACCAGAAAGTGCTGAGCTGGCATTTGCTGGAGGATGTGTTAGGCTGGGCTGCTGTTCTTTTTGTCAGCATTCTCATGCTGTTTTTCGACCTGCCTGTGCTCGACCCCCTCGCTTCTATTGGGATTACCATTTTCATTCTGTATAATGTCATCAAGAATCTCGTGCAGACGATGAAGCTGTTTCTGGAAGCCGTCCCAGCCGATGTGGATCTAAAAAGGATTATTAAAGAAATCAACGAACTGCCCGGTGTGTTATCCAGCCACCATACCCATCTCTGGTCCCTGGACGGGGAAAACCATGCTTTTTCCACTCACGTCGTCGTAGCTGGAGACGCAGGGAAACAGGATATCTGCACCATCAAGGATGGGGTTAAAGGAGCACTGAAATCGATTCACCTGGAACACGTAACGATTGAAGTGGAATATGAAGATGATCCTTGCGGGCTGGATCCATAA	MSHHHHHHVDTSTGKIKTAFFLNFIFTIIEIIGGLLTNSMAILSDALHDLGDSLSLGLAWFLQKFSKKGTSESFSFGYRRFSLLAALINSIVLIVGSVFIITEAVPRLFNPPEPHAGGMLAVAVLGIIINGAAVFRLRGGDSMNQKVLSWHLLEDVLGWAAVLFVSILMLFFDLPVLDPLASIGITIFILYNVIKNLVQTMKLFLEAVPADVDLKRIIKEINELPGVLSSHHTHLWSLDGENHAFSTHVVVAGDAGKQDICTIKDGVKGALKSIHLEHVTIEVEYEDDPCGLDP	PGPT0004255_3175	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-COBALT_TRANSPORT,PGPT0004255-czcD|zitB|yrdO-K16264	NA	NA
AK012_03617	1377		COG4325	putative protein	ATGCTTTTAAAGATACTGCCGATATCTTTGCGTAAATACTTTGAAATGTCGAAGCGTCAGCGGAAACACGAGATGCAGATGACTCTCTGGTATATGCCGATCATCTACATTGCCGCTTCGATTCTTTTTGTCATAGCTACGCTTTATCTGGATCTGTCCTTTCAACTGGAACAGTATACACATGAATTCTTCCGGATTAATGCGGATATTACACGTATGCTCGTCAGTACGCTGATTGGCGGAATCCTTACATTGAGTGCCTTTACATTGAACTCCCTGCTTGTTGTGCTGACGACCTTCAGCGGGCAGTTCTCCCCACGGATGCTTCTTAACTTTGTTGCTGACAAACGGACCCAGCATGCTCTGGGCATTTTTAATGGAAACTTTGTGTATGTGCTTCTCGTATTTCTTTTCATCGGGAATACGGAATATGAATACTTCGTCGCCGTACCAACCATTACGATTTTAATGGCTTTCACGTCTTCCGTTACGTTTATTTACTTCATCAACCATGCAACCACATGGATGCAGGTACATAACATTACGAACTCCATGAAGCAGTCCTCAGAGAAAATCATCAACCAGACACTGCGAAAGGATCTGGAATCCTACCGTTGTGAAAACCCGGGCAATCTGTTGGAGGACTATCAGGAGCAGACATTCCACGTAAGTGCTGTTAAATCCGGATATGTCCAGCTTGTCGATTATCACACCATGATTGAAGAGGCACGGAAAGATAACATCATCGTTCAATTCAAAGCACAGGTCGGTGATTATATCCTGCGTGGAAATGAGCTGATCACCTACTGGGGGCCGGGCTCCGAACACGTGGATAAGGAGAAGTACTGCCGAATGATCAGCATCGGCTATAAGGAGACGGAACTGCAGGATCTGCAGATGGGAATGCATAAGCTGGCTGAAATCGCAATCAAATCCATCAGCAACGATGACCCGAAAACGGCTTCCAATGCGATTTACCGGATGTCCGAACTGATGCTGACTGTAGAAGATTATATCACCTTCACCCCTTACTTGATGGATAAGGATGAACAGGTGCGGGTCATTCTGCTGTCCGAGTCCTTTGAATATTACATTTACCGTGGGTTTGGATACATCCGCCATTATGCCCGTGACAACCACCTGGTTATCACTGATCTCGTCGGTTCAATTGCATCCATCGCTGAATCCATCGACAGTTCCAAGCACGAAATGCTCTGGGAATTTGCCTGCAATACGATTGACCATATTGAAGAAAAGGTCATTTATGAACTGGATAAAACCTTCCTGCTCCAGGAACTAGAAAGGCTCGCTCTGACGACGGGTCATAAGCTTGACTATTATCATATTCACCGGCGTTTTTATCCAGTCGATGAATGA	MLLKILPISLRKYFEMSKRQRKHEMQMTLWYMPIIYIAASILFVIATLYLDLSFQLEQYTHEFFRINADITRMLVSTLIGGILTLSAFTLNSLLVVLTTFSGQFSPRMLLNFVADKRTQHALGIFNGNFVYVLLVFLFIGNTEYEYFVAVPTITILMAFTSSVTFIYFINHATTWMQVHNITNSMKQSSEKIINQTLRKDLESYRCENPGNLLEDYQEQTFHVSAVKSGYVQLVDYHTMIEEARKDNIIVQFKAQVGDYILRGNELITYWGPGSEHVDKEKYCRMISIGYKETELQDLQMGMHKLAEIAIKSISNDDPKTASNAIYRMSELMLTVEDYITFTPYLMDKDEQVRVILLSESFEYYIYRGFGYIRHYARDNHLVITDLVGSIASIAESIDSSKHEMLWEFACNTIDHIEEKVIYELDKTFLLQELERLALTTGHKLDYYHIHRRFYPVDE				NA	NA	NA	NA	NA
AK012_03618	450	elaA	COG2153	Protein ElaA	TTGGACTTGAACTGGAGCGAGAAAACGTATGAGCAGCTGACAAAAGAGGAACTGTACAGCATTTTGAAATTACGCGTCGAGGTATTCGTTGTAGAGCAGGAATGTCCGTATCCGGAAATTGACGGACGTGACCCGGAATGTCTTCACATCTGGCTGGAGGATGAGGGGGGAATAGCCGCCTACTGCCGCATTGTACCACCAGATCAGGAGAAAGAATCCTACAGCATCGGGCGTGTCATTGTACATAAGGATTACCGTGGAAAGGGAACTGCCCGTAAGCTGATGGAAAAAGCCATTAAGGCGGTAGAAGCGAACTACAATACCGATCACATCCGGCTTTCAGGACAGGAACACTTAAGAGGGTTTTACGCTTCTTTCGGATTTGAGGAAATGACCGGCGTCTATCTCGAAGACGGTATTCCCCACGTGGATATGAAGAAGAATTTGTAA	MDLNWSEKTYEQLTKEELYSILKLRVEVFVVEQECPYPEIDGRDPECLHIWLEDEGGIAAYCRIVPPDQEKESYSIGRVIVHKDYRGKGTARKLMEKAIKAVEANYNTDHIRLSGQEHLRGFYASFGFEEMTGVYLEDGIPHVDMKKNL				NA	NA	NA	NA	NA
AK012_03619	1455	pchA_2		4-hydroxybenzaldehyde dehydrogenase (NADP(+))	ATGAGTCCACAAACATTTACGAAACAATATATTAATGGCCAATGGAAAAATGGCTCCAGTGAGAAATTTGTCGAGAATATCAATCCATATACAGAGCAGTCCATCGCATCGATCCCGTCAGCCAATGAAGATGATTTGAATGAGGCGTATGACGCGGCTGTGCAGGCCCAGGAAAGCTGGATGTCCGTCCTGCCGGCTCAGAAGCAGACATACTTCGATAAACTGCTGCATGTCGTGCAGGAGCGGAAAGACGAAATCGTCGACTGGCTTGTGAAGGAATCAGGAAGCACGATCGTCAAAGCGGAAGTGGAATATCAGGCGGCTGTATCCATCATCCGTGAATCAGCCAGTTTCCCGACGAGAATGTCCGGCACGATTCTTCCATCCAATACACCGGGAAAGGAAAACCGTGTCTACCGTTCTCCTAAAGGGGTGATCGGCATCATCGGCCCTTGGAACTTCCCGTTCCACCTTGCCCTGAGATCCATTGCACCAGCTGTTGCTACAGGAAATACAGTCGTCGTTAAACCCGCTTCAGATGCGCCGGTAACTTCTGGTCTATTAATCGCTGACTTGTTTGAGGAAGCCGGCTTCCCGGAAGGTGTCATCAACGTCGTGGTCGGGCGCGGATCTGAAATCGGCGACGCCTTTGTCACCCACCCGGCTGCTAAGCTGATCTCCTTTACCGGTTCAACAGAAGTGGGAAGTCATATTGGTGAGCTTGCTGGTAAACACATCAAGGATACCGCACTTGAACTTGGTGGAAACAATGCCATGATCGTCCTTGAGGACGCAGATGTGGAAAAAGCGGTGCAGGCCGCTGCTTTCGGTAAATTCCTGCACCAGGGACAGATCTGTATGTCTCTGAACAGAATCATTGTTCACGAGAGTGTTCACGACACATTCGTTGAGCAGTTCAAACAGAAAGTGGAAAGCCTGAAAGTCGGGGATCCTTCAGAAAAAGACACTGCCGTCGGGCCACTGATCAACCGTGATGCTGTCGAGCGTATTCAGGAAGATCTGCAAAAGACCCTTGACCAAGGGGCGGAAGTTCTTACAGGCGGAGAAGCAGACGGCAATGTTCTGCAGCCGACTGTACTGACCGGTGTCACCAACGAGATGCCGATAGCCAATAATGAGGTGTTCGGCCCTGTAGCTTCTGTGATTCAAGTGTCTTCCGAGGAAGAAGCGATTACCGTCGCGAATGGTTCTCCATATGGACTGAGCGGGTCAGTTTTCACCCGTGATGTCCACCGCGGCGTGGAAGTAGCGAAGCGTGTGGAAACGGGAATGATTCACATCAATGATCAGTCCGTGAATGATGAAGCGCATGTCGCCTTCGGAGGAGAAAAAGAGTCAGGTCTTGGTCGTTTCGGCGGGGAATGGGCTCTCGACAAATTTACAACCGTAAAATGGATCGGAGTCATGAATGGCTACCGTGAATATCCGTTTTAA	MSPQTFTKQYINGQWKNGSSEKFVENINPYTEQSIASIPSANEDDLNEAYDAAVQAQESWMSVLPAQKQTYFDKLLHVVQERKDEIVDWLVKESGSTIVKAEVEYQAAVSIIRESASFPTRMSGTILPSNTPGKENRVYRSPKGVIGIIGPWNFPFHLALRSIAPAVATGNTVVVKPASDAPVTSGLLIADLFEEAGFPEGVINVVVGRGSEIGDAFVTHPAAKLISFTGSTEVGSHIGELAGKHIKDTALELGGNNAMIVLEDADVEKAVQAAAFGKFLHQGQICMSLNRIIVHESVHDTFVEQFKQKVESLKVGDPSEKDTAVGPLINRDAVERIQEDLQKTLDQGAEVLTGGEADGNVLQPTVLTGVTNEMPIANNEVFGPVASVIQVSSEEEAITVANGSPYGLSGSVFTRDVHRGVEVAKRVETGMIHINDQSVNDEAHVAFGGEKESGLGRFGGEWALDKFTTVKWIGVMNGYREYPF	PGPT0006875_6488	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_DEHYDROGENASE|DEHYDRATASE_ACTIVITY,PGPT0006875-aldH|dhaS-K00128	NA	NA
AK012_03620	165			hypothetical protein	ATGTACGCGCTCGTAAGAAGAGACAGCAGTGTAATTGAAATCCTCAGGGATCCCATCGACCGGAGAGAACGGATATTCACACGCGAAGAAGATGCCAGAGAATATGCCGATAAGCTCAACGTATTAATTGTCCAGGGACCTAAATGGGAAATAGAGAAGTTTTGA	MYALVRRDSSVIEILRDPIDRRERIFTREEDAREYADKLNVLIVQGPKWEIEKF				NA	NA	NA	NA	NA
AK012_03621	1173	bacF	COG0436	Transaminase BacF	ATGAAAGAATTTCAAACATCCAAAGCCATCAAGCGTCTGCCTGATCAATTTTTTGCAACGCTGATTGATAAACTGAACGCCTATGAAAGTAAGGGCTGGGACACCATTAACCTTGGTCAGGGAAACCCGGACCAGCCGACTCCCGATCATATCGTCGACTCTTTAAAAGAAGCTGCAGACAACCCTGAGTTTCATCAGTACCCGCCTTTTCACGGGTATACGTTCTTTAAGGAAGCGATCGCTGAGTTTTATAAGCGTGAGTATGACGTTGATCTGGACCCTGAAACAGAAGTCGCTATCATGCCCGGAAGTAAAACAGGGCTGGTGGAGCTGAGCCAGTGCTTTTTGGATCCCGGAGATGTCGCTCTCGTTCCGGATCCCGGGTACCCGGATTACTGGTCAGGAATTGAAATGGTCGGTGCGGAAATGAAGCCGATGCCGCTGCTGGCTGAGAATGATTTCCTTCCTGACTATGAAGCGATTGATGCCGAAAGCTGGGAAAAAGCCAGACTCATGTTCCTCAATTACCCCAACAACCCAACCGGAGCTGTCGCGGACCGGGCGTTTTTCGAAGAAACGATCAAAGAAGCAGAAAAGCATGACGTCTGCGTCATTCATGATTTTGCTTATGGAGCGATCGGTTTCGACGGCGTCAAACCGCTCAGCTTTATGCAGGTGGAAGGGGCCAAAAATACAGGGGTGGAAGTGTACACGATGTCGAAAACCTTTAACATGGCCGGCTGGCGTGTCGCTTTTGCTGTCGGAAACCCGAGTGTTATCAAGGCGATCGAAACCATCCAGGACCACTATTTCTGCAGCATATTCGGCGGGCTTCAGAAAGCCTCTGCCACAGCTCTTCTCAGCTCACAAGCTTGTGTAGACGAACTGGCATCAACCTATGAACACCGCCGCGACCTCCTTTTATCCGGTTTGGAAGAGGCCGGCTATCACGTAGAACCGTGCAAGGGTTCCTTCTTTGCATGGCTCCGTGTACCCGAAGGCTACAGCTCCCAGTCCTTCGCGGATGCCCTGCTTGAGGAAACCGGGTTGTTTGTAGCACCAGGAATCGGTTTTGGAGCAAGTGGAGAAGGTTATGTCCGCATCGGACTGAACAATTCAGAAGAGACATTAAAAGAAGCTGTTGTACGCTTCAAAGAATTTGCGGAGAAATAA	MKEFQTSKAIKRLPDQFFATLIDKLNAYESKGWDTINLGQGNPDQPTPDHIVDSLKEAADNPEFHQYPPFHGYTFFKEAIAEFYKREYDVDLDPETEVAIMPGSKTGLVELSQCFLDPGDVALVPDPGYPDYWSGIEMVGAEMKPMPLLAENDFLPDYEAIDAESWEKARLMFLNYPNNPTGAVADRAFFEETIKEAEKHDVCVIHDFAYGAIGFDGVKPLSFMQVEGAKNTGVEVYTMSKTFNMAGWRVAFAVGNPSVIKAIETIQDHYFCSIFGGLQKASATALLSSQACVDELASTYEHRRDLLLSGLEEAGYHVEPCKGSFFAWLRVPEGYSSQSFADALLEETGLFVAPGIGFGASGEGYVRIGLNNSEETLKEAVVRFKEFAEK	PGPT0012760_2	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	OTHER_BIOTIC_STRESS_RESISTANCE_GENES	BIOTIC_STRESS_RESISTANCE-BACILYSIN_METABOLISM,PGPT0012760-bacF-K19549	NA	NA
AK012_03622	1332	cdr_2		Coenzyme A disulfide reductase	ATGCATGTTGTGATTATCGGTGGGGATGCTGCCGGAATGAGTGCGGCGATGCAGATTGTCCGTAATACAGAAGGGCATACGATTACAGTGCTTGAGAAAGGGGAGATTACTTCCTACGGTCAGTGCGGACTTCCTTATGTGTTAAAAGGTGTCGTGGATTCAACCGAAGATCTGATTGCGAGGAAGCCGGAAACGTTCAGGGAGAAATACGGGATTGACGTCCGCATCCGTCATGAAGTCGACCAGGTGGATTGTGACAGGAAAAAGGTTTACGCCCGAAACCTGGATGATGATGAAACAGTGGAATTGAAATATGACAAGCTGTTAATCGCTTCCGGCGCTTCTCCCATCGTGCCTCCATGGAATGGACAGCATCTGGACGGGATTTATACGTTGAAGACCATTCCTGATATCGAGGAGATTATGGAAGGAACAACGAAAGCTGTTCAGCAGGTAACGATTATCGGCGGGGGTTACATCGGCTTGGAAATGGCGGAAAGCTACCGGGCGCTTGGAAAACAAGTAAGAATCATTGACCGCGGTGGTCAGTTAGCGAAAATTTTTGATGAGGACATGGGTGAACTGGTCCATGAAGAAGCACGGCAGAACGGACTTGAACTCCATCTCAATGAGTCAGTTGAAGGATTTCAGGGAGAGGACCGTGTTGAATCGGTTGTAACAGATAAAGGGACCTACGAAAGTGACCTTGTGCTTGTGGCCGCGGGGGTGACGCCTAATACCTCGTTTCTTGAGGGGACGGGGATATACAAAGGGATCAAGGATGCTGTGGCTGTCAATGCATTTATGGAGACGAGCATTATGGACATTTATGCCGCCGGCGACTGCGCTGTTCAATATCACCGGATCAAAGAAAAGATGGATTATATTCCGCTTGGAACCCATGCCAACAAACAAGGCCAGATTGCAGGATTGAATATAGCAGGTATCCGCACACCTTTCCGCGGAATTGTAGGCACATCCATATTGAAATTTTTTGATTTAACGCTTGGACGCACAGGTTTATCGGAGCGGGAAGCCGTTCAGGAGAAGTTTTCGGTGAAGACGATGACCGTCCAATCCACCCACGAAGCCGGTTATTACTCTAAGGAAAACCCGATGACCGTAAAGGTGATTTATGATTCGGGGACCCGGCAGCTCCTGGGCGGACAGATTATAGGGAAGGAAGGGGTGGACAAGCGGATCGATGTGCTTGCCACTGCATTGTTCCACAAAATGAAGGTGGATGATCTACAGGATCTTGACCTCAGCTATGCCCCTCCTTACAACAGTGTGTGGGATCCGATCCAGCAGGCGGCGCGTAAAGCGGACTGA	MHVVIIGGDAAGMSAAMQIVRNTEGHTITVLEKGEITSYGQCGLPYVLKGVVDSTEDLIARKPETFREKYGIDVRIRHEVDQVDCDRKKVYARNLDDDETVELKYDKLLIASGASPIVPPWNGQHLDGIYTLKTIPDIEEIMEGTTKAVQQVTIIGGGYIGLEMAESYRALGKQVRIIDRGGQLAKIFDEDMGELVHEEARQNGLELHLNESVEGFQGEDRVESVVTDKGTYESDLVLVAAGVTPNTSFLEGTGIYKGIKDAVAVNAFMETSIMDIYAAGDCAVQYHRIKEKMDYIPLGTHANKQGQIAGLNIAGIRTPFRGIVGTSILKFFDLTLGRTGLSEREAVQEKFSVKTMTVQSTHEAGYYSKENPMTVKVIYDSGTRQLLGGQIIGKEGVDKRIDVLATALFHKMKVDDLQDLDLSYAPPYNSVWDPIQQAARKAD				NA	NA	NA	NA	NA
AK012_03623	1134	nos	COG4362	Nitric oxide synthase oxygenase	ATGGGGGATGAGCAACCTACAGGAGGATGTCGTACTGTGAATACAGATCTATATACAAAGGCGGAGGATTTCATCCGCCTGTTTTACCATGAGCAACAGCTTTCCGGAGTAAAGACCCGGCTTGCTGACGTCCGACGGGCCATTGAAGAGGAAGGAACCTATACCCATACCTCTGAGGAATTGGAATTCGGTGCCAAGGTGGCATGGAGAAATAGTAACCGCTGCATCGGCCGGCTGTTCTGGGATACGCTGCGCGTGTTCGATGCCCGTCATCTGGACACGGCCGAAGCTATGCGCGACGCTCTTTTTGACCACATCGATTACGCCACGAATGGAGGGCGGATCCGCTCAACCATCACCATCTTCAAACCGGAAACCGAGGAACACCAGGTGCGTCTCTGGAACCACCAGCTCATCCGGTACGCCGGCTACGAGGAAAATGGCAGAGTGATCGGAGATCCTGCTTCTCTGGAATTCACCAAACGCTGTCAGGAACTTGGATGGCAGGGGGAAGGGACGGCTTATGATGTTCTTCCTTTAGTCATTGAAGCGGATCATCAGCAGCCACAGTGGTTTGAAATCCCCCGGGAAAAAATTCTGGAAGTCCCATTAAGGCATCCGGATTTTGACTGGTTTAAAGATATGGGGTTGAAGTGGTACGCGGTGCCGATCATTTCGGACATGCGTCTGGAAATCGGCGGGTTGAACTATACCGCGGCGCCGTTCAACGGGTGGTACATGGAAACGGAAATCGGAGCCCGTAATCTGGCTGATGAATTCCGCTATGACCTGCTTCCGGCAGTGGCTGAAGCGATGGGGCTGAATACCCGTCGCAATGCATCGTTATGGAAGGACCGTGCTTTGATTGAATTGAACCAGGCCGTTCTTTATTCCTATCAGACGGATGGGGTGAATATCGTCGATCATCACACCGCAGCCAAGCAGTTCCAACGGTTCGAGCAGAAAGAGCAAGCCTGCGGGCGGCAGGCGACAGGAGATTGGACGTGGTTGATCCCACCTGTATCGCCGGCAGCCACGCACATTTTCCATTCTTCTTATGAGAATCGGATGGATTCACCAAACTATTTTTATCAAACGCCTGCTTATCAAGCAGAAAAACCGTCGGACCTTTGA	MGDEQPTGGCRTVNTDLYTKAEDFIRLFYHEQQLSGVKTRLADVRRAIEEEGTYTHTSEELEFGAKVAWRNSNRCIGRLFWDTLRVFDARHLDTAEAMRDALFDHIDYATNGGRIRSTITIFKPETEEHQVRLWNHQLIRYAGYEENGRVIGDPASLEFTKRCQELGWQGEGTAYDVLPLVIEADHQQPQWFEIPREKILEVPLRHPDFDWFKDMGLKWYAVPIISDMRLEIGGLNYTAAPFNGWYMETEIGARNLADEFRYDLLPAVAEAMGLNTRRNASLWKDRALIELNQAVLYSYQTDGVNIVDHHTAAKQFQRFEQKEQACGRQATGDWTWLIPPVSPAATHIFHSSYENRMDSPNYFYQTPAYQAEKPSDL	PGPT0020095_196	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020095-nos|nosA-K00491	NA	NA
AK012_03624	783	yafV		Omega-amidase YafV	ATGAAAACAAAGATCGCTATGATTCAAATGGATATTGCCTTCGGAGACCCGGCTGCCAACCGAAGAAAAGCGGAGGCTGAAATAAAAGAAGCGGCTGATCAGGGAAGTGCTTTGATCCTGCTTCCCGAGCTCTGGACAACGGGATATGACCTGACACGACTGGAAGAAATCGCCGAAGATATGGAGGGGCCGACGCATCAGCTTCTGCAGAAGCTTGCCCGTGATTACAGCGTAACAATTGCCGGCTCAATCGCTGAACGAGATCGAGAGTCCTTCTACAATACGATGGTCGTTTACGACGAACAGGGCAGCCGCCTTCTCAAATATCGCAAAGTTCACTTGTTCCGCCTGATGGATGAAGAAAAATACCTGGAGTCCGGAGATACACAGGGAACCTTCCACTTACATAACGTGCCGCTGGCCGGAGCGATCTGCTATGACATCCGTTTCCCTGAATGGATGCGTACGGAAATGCTCGACGGGGCCCGGGGGCTGATGGTTGTCGCAGAATGGCCGAAGCCGCGCGTCGATCACTGGCGGAGCCTCCTGATCAGCCGTGCCATTGAAAACCAATGCTTTGTCTTGGCCTGCAACCGCTCCGGTTCTGATCCGAATAATACCTTTGGCGGTCATTCGCTCATTATTGACCCATGGGGAACCGTTGTCGCCGAGGGGGGACTGGACGAAGAAATTGTCTATGGGGAGGTCGACTTCTCCGAAGTTGAGGCGATCCGCAGGCAGATTCCGATTTTCCAGGACCGCCGTCCAGACCTTTATCAGTGA	MKTKIAMIQMDIAFGDPAANRRKAEAEIKEAADQGSALILLPELWTTGYDLTRLEEIAEDMEGPTHQLLQKLARDYSVTIAGSIAERDRESFYNTMVVYDEQGSRLLKYRKVHLFRLMDEEKYLESGDTQGTFHLHNVPLAGAICYDIRFPEWMRTEMLDGARGLMVVAEWPKPRVDHWRSLLISRAIENQCFVLACNRSGSDPNNTFGGHSLIIDPWGTVVAEGGLDEEIVYGEVDFSEVEAIRRQIPIFQDRRPDLYQ				NA	NA	NA	NA	NA
AK012_03625	1746	ypdA	COG3275	Sensor histidine kinase YpdA	ATGTTCGAACTTTTTCTGCCTATGCTGGAACGGCTTGGGATCATCGTCACGGCAGCCTTTATATTCACACGGTTCCACTTTTTCCGTGAACTGGCCGATCAGAGGATGTTAACAGGAAAGCAGCAGATGACGGCTGTCGTTTTCTTTGGATTGTTTGGAATAATTGGAACATACACCGGAATTACGTATGACACCAATTCCTTGGAATTCGGCCGGTGGGCGTATCAGCTTGTGGATACCGAAGCACTGGCGAACTCCAGGGTGATCGGTATCGTGGCTGCAGGTCTTTTCGGCGGCTGGCGTATCGGACTTGGAGCGGGAGTGATTGCCGGGCTGCACCGGTTTTCTCTTGGAGGATTTACGGGTCCGGCCTGTGGTATTTCCGCTGTCGTTGCTGGTTTGATCGCTGGAGTTTTTCATCAAAAAGGAAAGCCCTTGAAGCTGAAAAAGGCTCTGTTCGTCGGCGCTCTCGCGGAGACAGTCCAAATGGGAATTATTCTCCTGATGGCGCAGCCGTTTACAAGAGCATGGGCACTTGTCCAGGAAATCGGCCTCCCTATGATCGCCGCCAATGGCGTCGGGTCTGCACTCTTTCTGCTCATTATCCGCAATGTGTTGAATGAGGAGGAAAAAGCAGGAGCCGTTCAGGCACAGAAGGCCCTGAAGCTCGCTGAACTGACTGTCGCCCATCTTCGTAAAGGTTTGACAAAGGAATCGGCGGCAAGAGCGTGCCGGATCATTTATGATGAAGTTCATGTAAGCGCTATATCCATGACGGATAAACAGACGATTCTTGCTCACGTTGGCCTGGCCGATGATCACCATCATTACGGGGAAGCCATACAAACCGATGCCACGAAAGAGGTGATCCGCTCTGGACGCCGTGTCATTGTCGGGCATGAAGATATTCAATGTCAGCACCAAGACTGCCCGCTGGGGGCGGCTGTGATCGTGCCTCTGAAAAAACGGGGTGAAGTGGTAGGGACGTTGAAATTTTATGTGAGAACAGAGAAAGAAATCTCAACTGTTCTTCTGGAACTGATTCAGGGATTGAGTGCACTCCTCAGCCAGCAGCTTGAACTGGCGGATGCCGACCAGGCGGAGGAGCTGGCAAGAAAGGCCGAAGTAAAGGCTCTGCAGGCCCAGGTGAACCCACACTTTTTGTTCAATTCGTTGAACGTGATCGTTTCGTTGACACGAACGGAGCCGGATAAAGCTCGTTCCCTGCTTATCGCGCTTTCTAAATTTTTCCGGCAGAATCTCGGGGCGACAACGAAAACATGGGTCAGTCTTGAGGAAGAATTGAAGCACGTCCGGGCCTATCTCTTAATAGAAGAAACGCGATTTGTAGACAGGTTGAAGGTTGATTATGACATTGATGAATCCGCCCTGTCTGCAAAAATCGCTCCGCTTACGCTTCAGCCTCTCGTGGAAAACAGCATGAAGCATGGGGTGAAGGATCAGGATGAAGAAGCCAGGATCACATTAACCATTCAAAAGGAGGGCACCTGTGTCCGCGTATCGATTGCTGATAATGGCAGGGGGATTGACCCGGTGCGCCTTCAACAGCTGGGTGAAGGGGTCGTAGATTCAGAGCAAGGGACTGGATTTGGTTTGTATAATGTTAACAAGCGGTTGGAATATATGCATGGGGAAGAAGCGAAACTGCACATTGAAAGCAAGTCCGGGCAGGGGACGATAATCAGCTTCATTCTTCCTCTGGAAGAAAAGGAGGAGACAGCATGA	MFELFLPMLERLGIIVTAAFIFTRFHFFRELADQRMLTGKQQMTAVVFFGLFGIIGTYTGITYDTNSLEFGRWAYQLVDTEALANSRVIGIVAAGLFGGWRIGLGAGVIAGLHRFSLGGFTGPACGISAVVAGLIAGVFHQKGKPLKLKKALFVGALAETVQMGIILLMAQPFTRAWALVQEIGLPMIAANGVGSALFLLIIRNVLNEEEKAGAVQAQKALKLAELTVAHLRKGLTKESAARACRIIYDEVHVSAISMTDKQTILAHVGLADDHHHYGEAIQTDATKEVIRSGRRVIVGHEDIQCQHQDCPLGAAVIVPLKKRGEVVGTLKFYVRTEKEISTVLLELIQGLSALLSQQLELADADQAEELARKAEVKALQAQVNPHFLFNSLNVIVSLTRTEPDKARSLLIALSKFFRQNLGATTKTWVSLEEELKHVRAYLLIEETRFVDRLKVDYDIDESALSAKIAPLTLQPLVENSMKHGVKDQDEEARITLTIQKEGTCVRVSIADNGRGIDPVRLQQLGEGVVDSEQGTGFGLYNVNKRLEYMHGEEAKLHIESKSGQGTIISFILPLEEKEETA				NA	NA	NA	NA	NA
AK012_03626	729	lytR	COG3279	Sensory transduction protein LytR	ATGACTGACATAAGAGTGCTGATCGTTGATGATGAACGCTTCAGCCGGGAGGAGTTATCGTTCCTGCTTCAACCCTTTGATCAGATGAAAGTGGTCGGGGAAGCGGCCTCCGGCGATGAAGCTATTGTGGCTGCTTTGAAATACCAGCCGGACGTCATGTTTCTGGATGTCGAAATGCCCAGGATGGATGGACTGGCTGTAGCTGCTGCCATAAAGGATTTGAAAAAGGTACCCGAAATCGTGTTTGCTACAGCTTATCCGGATTTTGCAGTAGAAGCCTTCCGCCATCAGGCACTTGATTATCTGCTGAAGCCGTTTGATGAGGACCAGCTGGCTGAGACGATCAAACGGATTGAAAAGAAGCTTCAGCTTCAGGAGGACCATCATCCGGTTACGGTTCCTTCCAAGTTCGCGGTTGAGGTGGACGAAACGATCGAATACCTCAACCCATCAGATATCCTGTATGTGTACAGGGAGGACAGAACAACGAAGATTGTCGGCCGAACAGCGGTCTATGAGACAAACGATCCATTGAAAGACGTGGAGGAGCGGCTGCAGCCGTTCTCGTTTTTCAGGATTCATAAAAGTTACCTCGTCAACCTTGATTATATTTACAGACTCACCCCCTGGTTTAACGGGGCCTGGCAGCTCGAGCTACGGGGAGCGGAAGAAAAATTGTCTGTGAGCAGGAATTACGTAAAGGATTTACGAAGAAAGCTGGAGCTGTGA	MTDIRVLIVDDERFSREELSFLLQPFDQMKVVGEAASGDEAIVAALKYQPDVMFLDVEMPRMDGLAVAAAIKDLKKVPEIVFATAYPDFAVEAFRHQALDYLLKPFDEDQLAETIKRIEKKLQLQEDHHPVTVPSKFAVEVDETIEYLNPSDILYVYREDRTTKIVGRTAVYETNDPLKDVEERLQPFSFFRIHKSYLVNLDYIYRLTPWFNGAWQLELRGAEEKLSVSRNYVKDLRRKLEL				NA	NA	NA	NA	NA
AK012_03627	1443			hypothetical protein	ATGATTACATTTCTAGTCAGTATTGCACTTTTAATCGTCGGATACTTTACTTATGGAAAATACGTAGAAAAACAGTTTGGAGTACAGACGGGTCGTGAAACTCCCGCTTACAGCCACGGAGACGGTGTGGATTATCTGCCGATGGGGGAAAAGCGGAACTCGTTGATCCAGCTTTTGAACATTGCCGGAGTCGGCCCGATTTTCGGTCCTATTCTTGGAGCACTTTACGGGCCTGTCGCGTTTTTGTGGATTGTATTTGGCTGCATTTTCGCTGGTGCTGTCCATGATTACTTAACCGGAATGATATCCATCCGGAACCGCGGGGCTCACCTGCCTGAGCTGGCTGGAAAGTTTCTCGGAAAAGTGATGAAGCATGTGGTAAACGCCTTTGCTATTCTACTTCTCGTTCTTGTCGGAACTGTGTTTGTGACTGCGCCCGCTGATCTTCTGCACAATATGACGAGCGGCTGGCTGTCACTTCCGGTGATTCTGGCAGCGATATTTGTATATTACCTACTGGCCACAATGCTTCCGATTGATAAAATTATCGGGCGTTTCTATCCGGTCTTCGGAGCGCTGTTATTAATCAGTGCGATTGGAGTCGGCGTGTCTCTGGTAGTTACCGGCGCACCGATTCCAGAGCTGTCGATGACGAACATGCACCCTGATGACGCACCGATTTTCCCGCTGTTATTTCTAACAATTTCCTGTGGAGCGCTGTCCGGTTTCCACGCCACTCAGACGCCGATTATTTCAAGAACGACTCAAAAAGAAAAACAGGGACGCCGCATTTTTTACGGCATGATGATCGCGGAAGGGGTCATCGCCATGATCTGGGCGGCTGCAGCAATGAGTCTGTTCGGAGGATCGGGCGGATTAAATGAAGTGCTTGCAAGTGGAGGACCGGCCGCTGTCGTCAGCGAAGTGTCGATCGCCATGCTTGGTGCTGTCGGTGGAACGCTTGCTGTCCTTGGAGTCATTATCCTGCCGATCACTTCAGGGGATACAGCTTTCCGCAGTGCCCGTATGATTATTGCTGACTACTTGAATATCTCCCAGAAAAAGCTTGCCAGCCGTATCTGGATTGCGCTTCCATTGTTTGTCATTTCCTTTGCTCTGACACGTATAGACTTCACCCTGCTTTGGAGGTATTTCTCCTGGGCCAATCAGTCCACCGCTGTCATTGCGCTGTGGGTGGGAGCGATGTATCTGTTCCTCGCCAGAAAAAACTATTGGATCGCCGCTGTCCCGGCTGCATTTATGACGATGGCTACGTTTACGTACATCATCAATGCGCCGATCGGATTCGGTCTTCCATTAAACGTCGCTTATGTGCTTGCTGCAATCATTACCACCGGCGTTGTTACAGCTTTCTTTGTGGCTGCCAAACGCGGTCTGCAGCGGAACATCCCGCTGGAGGAAGACTTGAAGACAACTGCCTGA	MITFLVSIALLIVGYFTYGKYVEKQFGVQTGRETPAYSHGDGVDYLPMGEKRNSLIQLLNIAGVGPIFGPILGALYGPVAFLWIVFGCIFAGAVHDYLTGMISIRNRGAHLPELAGKFLGKVMKHVVNAFAILLLVLVGTVFVTAPADLLHNMTSGWLSLPVILAAIFVYYLLATMLPIDKIIGRFYPVFGALLLISAIGVGVSLVVTGAPIPELSMTNMHPDDAPIFPLLFLTISCGALSGFHATQTPIISRTTQKEKQGRRIFYGMMIAEGVIAMIWAAAAMSLFGGSGGLNEVLASGGPAAVVSEVSIAMLGAVGGTLAVLGVIILPITSGDTAFRSARMIIADYLNISQKKLASRIWIALPLFVISFALTRIDFTLLWRYFSWANQSTAVIALWVGAMYLFLARKNYWIAAVPAAFMTMATFTYIINAPIGFGLPLNVAYVLAAIITTGVVTAFFVAAKRGLQRNIPLEEDLKTTA	PGPT0015060_1996	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-CARBON_STARVATION_RESPONSE,PGPT0015060-cstA-K06200	NA	NA
AK012_03628	276	yjdJ	COG2388	putative protein YjdJ	ATGGAACGAATGATTCATGAAGAAAAAGGAAGACTTTATATGGGAGAAAAACAGAATCCGGACGCAGAACTGGTTTTTGATTTGGAAGATGATACAATGATCATTCTGAGCACACATGTAGATTCTGCCGAGCGTGAACAGGGACTTGGCGGGCAGCTGGTGGACGAAGCCGTGAATTATGCAAGAAAACATAAATTAAAGATCGACCCTGTGTGCTCTTTTGCGCATAATGTAATAGAAGAAACCCCGGAATATCAGGTGGTTCGTAAGAAGTAG	MERMIHEEKGRLYMGEKQNPDAELVFDLEDDTMIILSTHVDSAEREQGLGGQLVDEAVNYARKHKLKIDPVCSFAHNVIEETPEYQVVRKK				NA	NA	NA	NA	NA
AK012_03629	489			hypothetical protein	TTGGCAGTGATCAGGGAAGTAGAGGACAGGGATTTAATGCACTTTACAAGGTATGCCGTGGATTTTCTGCATGCAGTGAAAGATGAACAGGAAGGACAGCTGTCAGGAGATGTGCTCCGGGAGCGTAAATTCTGGGCGGCTGATCAGTTTACAAATGCCGCACCGGAACAAAAGCTGATGGCCGCCGAAGTGGAAGGGCGGCTGATCGGATACGGCCTTGCTGTGTTGGAACAGGATTCCGTCGGGGAGAGAACAGGACGGATTCAAGAACTGTATGTGGATGAATTTTACCGCCGGGAAGGCATAGGTACGGAGCTGTGCCACGCCCTCTTGGACTGGATGAAACAGCAGCATGTCACGTGCATCCAGGTCGAGTGGCAGGGGACGAAACAGGGAGGACAGGAATTCTTCCAATCGTTCGGGTTCATCCCTGTGCGGACGGTTTATCAATATCCTGAACATTTACCCAGTGGGGGCCGGGAAGAATAA	MAVIREVEDRDLMHFTRYAVDFLHAVKDEQEGQLSGDVLRERKFWAADQFTNAAPEQKLMAAEVEGRLIGYGLAVLEQDSVGERTGRIQELYVDEFYRREGIGTELCHALLDWMKQQHVTCIQVEWQGTKQGGQEFFQSFGFIPVRTVYQYPEHLPSGGREE				NA	NA	NA	NA	NA
AK012_03630	888	dagK_2		Diacylglycerol kinase	ATGAAAAGCGCGATGCTGATTGTCAATCCATCTTCCGGTAAAGAAGAGGCCGTTACCTATGTGGCTGAGATTCAGGAGATACTGGAGGATAAAGGCTATAACGTGAAAGAAGTGCAGACAGAAAAAGAATTGGATGCTACAAAGTACTGCCGGAATGCGTGCGAAGAAGCATATGATCTGGTCGTTTCCCTTGGAGGGGACGGCACCCTTCATGAAACCATCAACGGTATGGTCAATCAGGACCACCGGCCTCTATTGGCAGTGATCCCGCTGGGGACCGTCAACGATTTCGCCAGAGCTCTGAACATCCCGCTTCATCCGGATGAAGCGATCCAGCTGCTGCGGAATGACCATTCCCGGAAAGTGGATATAGGTAAAGTGAACGACCGGTATTTTGTAAATATTACAGCTGCCGGGGCTCTTGCGGAAGCGACGTATGAAGTCAGCCCGGAGCAGAAGACACGATTCGGTCCGCTTGCCTATGTCATGGAAGGGATCAAAACGCTGTCTTCCGATGGGACCAGTCCTCTCAGGATCAAATTCGATGAGGATAAAGTGTGGGAAGGAGACGCTTTCCTGTTTTTGGCCGCTTTAACAAATTCCACAGGTGGATTTGAGCGCCTGGCCCCCGAGGCGCAGGTGGATGACGGTGTGCTGCACTGCTTTATTCTCCCTCGGATGAATATGATGCGGCTGGCTTCCATCGTGACGTCGATTTTGAAAGGTGAATTACAGAGGGATTCCTCCGTCGAGTATTTCAAGGCCCGCCGTGTTGAGCTTTCATCCACGGAAACGGTAAAAACAAATGTCGATGGGGAAGAGGGAGATCCGCTCCCTGTCGCTCTTGATGTACTGCCTTCTCATATAGAAGTTATATCTGTACCTTAG	MKSAMLIVNPSSGKEEAVTYVAEIQEILEDKGYNVKEVQTEKELDATKYCRNACEEAYDLVVSLGGDGTLHETINGMVNQDHRPLLAVIPLGTVNDFARALNIPLHPDEAIQLLRNDHSRKVDIGKVNDRYFVNITAAGALAEATYEVSPEQKTRFGPLAYVMEGIKTLSSDGTSPLRIKFDEDKVWEGDAFLFLAALTNSTGGFERLAPEAQVDDGVLHCFILPRMNMMRLASIVTSILKGELQRDSSVEYFKARRVELSSTETVKTNVDGEEGDPLPVALDVLPSHIEVISVP	PGPT0024345_2173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
AK012_03631	429	yueI	COG5506	putative protein YueI	ATGAAAAAACCGGATTTGGAGGATTACCTGCAGGAAGGAATATACGGAAGCAGAGAAACCAACCCGGGTGAACGAAGGAAATTCCTGGGCACGCTGCGGGAGCGGATACTGCTTGCCCTGACCAACGGACAAGTGATGCAGGAAGAAGGTTTTGAGGAGTTGGAAAAGGAAATGAGCCGCTGTCCCAAGGCCACTCTTTTATTAAACGGGGAAATCAGCTATCGTTTTTTATCGCCGTTAAAAGACCTGGCGGATAAGCATAACATTCACCATACAACCATTTCGAATCAGGAAACAGAAACGGAATACGGAGCGGTTTTAACGCTCGATTACGCCGTGGAGAAAGAAGAGATCCATTACCATCCGCCGGTGGAAAAAGAAGAAGTCCCTGAGCGGAAAAGCTTCCTGAAACGATGGTTCGGCATATGA	MKKPDLEDYLQEGIYGSRETNPGERRKFLGTLRERILLALTNGQVMQEEGFEELEKEMSRCPKATLLLNGEISYRFLSPLKDLADKHNIHHTTISNQETETEYGAVLTLDYAVEKEEIHYHPPVEKEEVPERKSFLKRWFGI				NA	NA	NA	NA	NA
AK012_03632	192			hypothetical protein	ATGGACTTCAACAACAACGCGTTTTATTTCCTGGCTGCCCTGCTCGCTGGTTATGCCCTGTTCAGCTTAGGTGACACGGGTGGGAATTTCTTTGATCAATTCTTGTATTACGCAGGCTACATTGCGATGATTCTGTTCTCATTTGTACTTATATTTACTGGCTTAGCCCGGTTCCTCAAACAATACCAATAA	MDFNNNAFYFLAALLAGYALFSLGDTGGNFFDQFLYYAGYIAMILFSFVLIFTGLARFLKQYQ				NA	NA	NA	NA	NA
AK012_03633	639	mltF		Membrane-bound lytic murein transglycosylase F	ATGGAGATCAACAAGCTTCAATGGATGATGCAGATGCAGAGCGTTTCTTCTTTTATCAGCAGTCAGCAGAGGAACCAAGGGCAGGAACTGCAGGGATTGTCCTTTCACGATCTGTTTCAGGCAGCTATCAGCCGGACGTTGGCGTCAAGCGTGTCTCCTGTACAGACGGGTACGGATTCCCTTTATTTAAACGGAGCGGGGAGAATACCGGCGTCACCTGTCCCAACAGTGCCGGCACAGCCGGCCTCCACAGGAAAAAACGAAAGCACTGCAAGTCTTGATGGTTTGATATCGAAGGCCTCTTCCCGTTACGGTGTGGATGAACGTCTGATCCGGTCTGTCATTCAGACAGAATCCAATTTTGATGCAGATGTCGTGAGTCATGCCGGAGCTCAGGGGCTGATGCAGCTGATGCCGGCTACAGCAAGGGGGCTCGGGGTGGAAAATCCTTTTGATCCGGAACAGAACATAATGGGTGGGACTAAGTATATCAAGCAGATGCTTGACCGCTACAATAATGATCCCTCTCTGGCTCTTGCCGCTTACAATGCTGGTCCGGGCAATGTCGATAAATACGGAGGCATTCCTCCTTTCCGGGAAACAGAGAATTATGTAAGTAAGGTGCTTGGACGCGTGTGA	MEINKLQWMMQMQSVSSFISSQQRNQGQELQGLSFHDLFQAAISRTLASSVSPVQTGTDSLYLNGAGRIPASPVPTVPAQPASTGKNESTASLDGLISKASSRYGVDERLIRSVIQTESNFDADVVSHAGAQGLMQLMPATARGLGVENPFDPEQNIMGGTKYIKQMLDRYNNDPSLALAAYNAGPGNVDKYGGIPPFRETENYVSKVLGRV				NA	NA	NA	NA	NA
AK012_03634	855			IS3 family transposase ISHaha4	GTGGTCCCGGAAGTATTCATCCAGATCGTAGAAACATTTAAGCACAAATACACGGTTAAAGCTATGTGTGAGTGCTTCGGTATAGCCAAAGCTACGTACTATCGCTGGCGGGGAAAGTCATGGGGGCCATCGGAGCTGGAGGAAAAAATCATAAACATCTGTGAGAATATGAAATTCCACATCGGTCACCGCATGGTCCGTGGTTTTCTGTGGCGGGAACACAAAATAAAGGTTCATCGGAATACCGTTCAAAAAATTATGCAGAAATTCAATATTCAATGCCGAATCAAGCCGAAAAGACAGAACTATATAGCTGGAGAAAGTAAGGTAGTGGTTCCTAATTATCTGAAACGTCAGTTTCAAGCGTCCAAACCGAATGAGAAATGGGTGACAGATATTACCTACCTGCCTTATGGAGAAAAAATGTTATATTTATCAACAATCATGGACTTGTATAATAACGAAATCATAGCTTACACAGTAAGTGATAGACAGGATAAATCACTGGTATTGGATACATTGAGGAGAGCGTGTGAGGGACGTGATACTTATGAATGTATGCTTCACAGCGACCAAGGCGCACAGTACACATCATATGAATACCAGGAAGAAGCCGAAAAAAGAGGCATTATCACAAGCATGTCCCGCAAAGGGAACTGCTTCGATAATGCCGTCATCGAATCCTTCCACTCCTCATTAAAGTCGGAAGCATTCAGCCCTCTAAACCGAGGGAAATTAACCAATTATACAGTACGTGAAAAAGTAGAAACGTACATGTATTACTACAATTATTGTCGTCCTTTTTCAAAATTAAACTGCCAGACTCCAATTGAATTTAAAGTCATGGCAGCTTAG	MVPEVFIQIVETFKHKYTVKAMCECFGIAKATYYRWRGKSWGPSELEEKIINICENMKFHIGHRMVRGFLWREHKIKVHRNTVQKIMQKFNIQCRIKPKRQNYIAGESKVVVPNYLKRQFQASKPNEKWVTDITYLPYGEKMLYLSTIMDLYNNEIIAYTVSDRQDKSLVLDTLRRACEGRDTYECMLHSDQGAQYTSYEYQEEAEKRGIITSMSRKGNCFDNAVIESFHSSLKSEAFSPLNRGKLTNYTVREKVETYMYYYNYCRPFSKLNCQTPIEFKVMAA				NA	NA	NA	NA	NA
AK012_03635	336			hypothetical protein	ATGGGTAAAAAAAGGAACTATCCACGAGAAGTGAAGATGAAAGTTGTTCGATTAAAGTTAGAAGGAAATCACACGAATCAAGAGTTGATGGACATGTTTGGGATCAAGAATATATCTCAAATCAAAACTTGGATGAAGTGGTACCGAAATGGGGAAATCCATCGCTTTTCCCAGCCTATAGGCAAGCAATATTCATACGGATTAGGCCCGGAAGCTGAGGACGAATTAAGCCTGTTGAAGAAGAAAGTGACTTACTATGAAATGCGTGAAGAGTTATTGGGAAAGTATCAGGAAATCGAAAGGAAGTGGTCCCGGAAGTATTCATCCAGATCGTAG	MGKKRNYPREVKMKVVRLKLEGNHTNQELMDMFGIKNISQIKTWMKWYRNGEIHRFSQPIGKQYSYGLGPEAEDELSLLKKKVTYYEMREELLGKYQEIERKWSRKYSSRS				NA	NA	NA	NA	NA
AK012_03636	552		COG0431	NAD(P)H-dependent FAD/FMN reductase	ATGAAGATCTTGCTGCTTAACGGAACAATTGTCGGAAAAAAAACAAGGACACTGCTTGATGAAATAGATAAATATATTCAACTCCTTCCAGATGACCATGAAACGAAAATTATTGATCTGGAAAATTATGAACTTCAATTCGTTGACGGGCGCCCGGCGGAAGAATATAACCAGGATATGCAGCGTTTGATCCAGGAAATCGAGGAGGCCGATGCCTACGTCATCGCGACCCCTATTTTCCAGGGTTCCATACCAGGAACATTGAAAAACGTGTTTGATGCCGTATCACCGCTGGCTATGCGGTACAAACCTGTCACGATTATCGCCAACGGCGGTACCCTGCAGCACCACCTGGTCATCGAAAACCAGCTGAAACCGATCCTGAACTACTTCCGCTGCATGGTCACACCGAATTACGTCTATACCCATACCAATCACTTTTCCACCGATGGCGAACTCATCGACGAAGACGTCCGCAGCCGACTCAAAGAAATGACCATCGTCTTCAACCAGTACCTCCAAATGAGCCGCCACTTAGAACCCGATAAGTAA	MKILLLNGTIVGKKTRTLLDEIDKYIQLLPDDHETKIIDLENYELQFVDGRPAEEYNQDMQRLIQEIEEADAYVIATPIFQGSIPGTLKNVFDAVSPLAMRYKPVTIIANGGTLQHHLVIENQLKPILNYFRCMVTPNYVYTHTNHFSTDGELIDEDVRSRLKEMTIVFNQYLQMSRHLEPDK	PGPT0003045_1801	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
AK012_03637	282			hypothetical protein	ATGATACGTTTCTGGAGAAGGATCAAGTTTCTTTTTAATGTGCGGAAGTCTGTGCCGTTCATCATCCGCTTTTTTCAGTCCCGGCAGGTCAGTCTGAAAAAGAAATGGGTCTCTGTTCTTCTTCTGGCAGCTTATCTCGTTTTTCCGTGGGATTTGATTCCGGATGTGCTCGTCTTTTTCGGCCTTATCGATGATCTGGCGGTTTTTACGTATGTTCTTCAGTGGATGGTGAAAATGGCACCGGAGTCGCTGCAGGATGAATTTCGGGTATACAAGGAATAG	MIRFWRRIKFLFNVRKSVPFIIRFFQSRQVSLKKKWVSVLLLAAYLVFPWDLIPDVLVFFGLIDDLAVFTYVLQWMVKMAPESLQDEFRVYKE				NA	NA	NA	NA	NA
AK012_03638	420	ohrB	COG1764	Organic hydroperoxide resistance protein OhrB	ATGATGAGTAAAGTTATGTTTACAGCGCATGCAACAGCCCAAGGCGGCCGTAATGGACACGTGAAATCCGATGACGGTCTTATTGACCTGAATCTTACGATGCCTGGTGAAGGTTCAGAAAAAGGTTCAAACCCTGAGCAGCTGTTTGCTGCAGGATATTCTGCCTGCTATGATGGTGCCCTGAACCTTGTGGCAAGCAATCAGAAAAAGGATATCGATTCTGAAATCACTGCTGACGTAAGCCTTATGAAAGACGAAGCAGACAATGGCTTTAAAGTCGGCGTTGTCCTTAACGTGAAAATCAAAGGTGTTTCCCAGGAAGAAGCGGAAGAACTGGCAGAAGAAGCTCATAAGGTCTGCCCTTATTCCAAAGCTACACGCGGCAACATTGATGTAGAAATCAATGCTCAGGCAGTTTAA	MMSKVMFTAHATAQGGRNGHVKSDDGLIDLNLTMPGEGSEKGSNPEQLFAAGYSACYDGALNLVASNQKKDIDSEITADVSLMKDEADNGFKVGVVLNVKIKGVSQEEAEELAEEAHKVCPYSKATRGNIDVEINAQAV	PGPT0013160_3679	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
AK012_03639	285			hypothetical protein	GTGCAAATCACCAATGAAGCGCGTGACTTACTGCAGCAGATATTAGAAGAGGAAGAGGCACCCGGCCTCCGGTTGTTTTTCGCCGGATACGGCTGCGGAGAGCCTGATATTGGGATGACACTTGGTGAACCTGAAGCCGACGACGAATTGCATTACATCAATTCGATTCCTGTCGCGGTTGACCAGAGAATCGCACATTTAATTGAACCATTGACTATAGAAGGAAAACAGACGATGGAAGGGCCGAAGTTTCAAATGACCGGTCTTCCTGAAAAAGACTGTTAA	MQITNEARDLLQQILEEEEAPGLRLFFAGYGCGEPDIGMTLGEPEADDELHYINSIPVAVDQRIAHLIEPLTIEGKQTMEGPKFQMTGLPEKDC				NA	NA	NA	NA	NA
AK012_03640	612			hypothetical protein	ATGATGGCACCAGGACACCAGGTTGTCGGCTTCACCTTCGGGGTAGGCGCGCTGACGTTGATTCCTGCTTTTGAAGTTGTTTCCGAACGGCCGTTTCAAATGGTCTTATTTTTAGTATTTGTATTAATCGGTTCGCTGCTGCCAGATATTGATACCCCGACCTCCACGTTCGGGCAGAAATTCTGGCGCGGCTTACTGACGATTTTTACACTCGCATTTTTGTGTTATTTGTTTTTCCCATCTTATTTGAATACATATCGAGAGGAATTGAAGATTTTTGTCATGATGCTGCTGCCGGTTCTCATTATGATCCGCGGACATAGAAAAATGACACACTCCTTGTTGTTTGTCGGCCTGTTGATTGTTTACGGTGCTGTTCTTGAACAGGCACTCCAAGTTCCGCGTGTTCTTGCTGCCGGGCTGGTGATCGGAGTCATTTCCCATTTGTTCGGTGACTATCTGACTAAAAAAGGGATTCCGCTTTTTTATCCGTTTTCTAAGAAGCATCAGCAGTTCCTCATTACGTTCCGAACCGGATCGCCGAGTGAGAAAATGATTGTCTACAGCCTCGTCCTATGGAACGTCTGGTTCCTTACCTCAACAATTTTTTGA	MMAPGHQVVGFTFGVGALTLIPAFEVVSERPFQMVLFLVFVLIGSLLPDIDTPTSTFGQKFWRGLLTIFTLAFLCYLFFPSYLNTYREELKIFVMMLLPVLIMIRGHRKMTHSLLFVGLLIVYGAVLEQALQVPRVLAAGLVIGVISHLFGDYLTKKGIPLFYPFSKKHQQFLITFRTGSPSEKMIVYSLVLWNVWFLTSTIF				NA	NA	NA	NA	NA
AK012_03641	1026			hypothetical protein	ATGAAGGATCATCAGTTAATAGAGCCGAGACCGTTCGCCAGTCTGCATATGCGGCATACTTCCTCGTTGTACATGATTTACCTGGAAAATCTGAAGATCCACTCTCAAAAAGAAGCACAGCTTCGTACGAGAGATATGATCCTTGCTGATTTTCCGACCCACATCGATGAACAGCTGGCCTGCCTGGAATTCTTTTATATGAATGATTTCTTCGAGGACTTAGCTGTCGTACTCCATTCTCCCTACATACATCAGGAAGTTCTTCCGCTTTATAACCTTCTTCTTCAACGTGTGAATACGCCCGTGTCCAAGGAGCAGTTGGCCGAGTTGCAGCAGTATCAGTGCAGTCACCCTTCCCTGCACTGCCTTCACCTGTTTCTCATGATTTACGCTTACTATGACTTGAAAGTATTTACTGCTCTGGATAAGTACCTGGACGATTGTGACCGTGCTTTAGCCAGCGTGGATGAACCGCTCATGTATTACTATCTCAATCAACGTTACCAGGAACTCTTATTTCACCATTACTGGAAAACGGATAACCCGATACTGGCCAGACGGCATGCTTATAAGATGATCAACACGGAGCTTTCACCGCGCCGCAAAAGCCGGATGTATTTTATTCTCTCCCTTTGTCAGCTGTTCAACGGCTATGATTCGGCCATGGATCCGCTGACGGAAGCCCTGGCTATCGCTGATCAATATGAATTGTCTTCCTTTGCCGATATGATCCGCGTTCATACCATTCCGTTTATATCCGCGTTTCACAATCGGACAGAAAGCGTTCATACGACAGATCCGGTGGAACAGGCTCACCTGGATCTTGCGGATGGGCGCTTGGAAAGAGCGAGGGAGGTATTGGAATCCCTCTCATCTCTTACACCTTTCCAGGAAAGCTACCTCGGGTACGTGAACCGGGATATGGACATGCTTTACAGGGCCTATACCCGTTTTATAACGGAAAGGGGGGACCATTTCTTTGCCCGTGTCCCATTGGAATATATGAAACGACTGAAAACCCATTAG	MKDHQLIEPRPFASLHMRHTSSLYMIYLENLKIHSQKEAQLRTRDMILADFPTHIDEQLACLEFFYMNDFFEDLAVVLHSPYIHQEVLPLYNLLLQRVNTPVSKEQLAELQQYQCSHPSLHCLHLFLMIYAYYDLKVFTALDKYLDDCDRALASVDEPLMYYYLNQRYQELLFHHYWKTDNPILARRHAYKMINTELSPRRKSRMYFILSLCQLFNGYDSAMDPLTEALAIADQYELSSFADMIRVHTIPFISAFHNRTESVHTTDPVEQAHLDLADGRLERAREVLESLSSLTPFQESYLGYVNRDMDMLYRAYTRFITERGDHFFARVPLEYMKRLKTH				NA	NA	NA	NA	NA
AK012_03642	147			hypothetical protein	ATGAGAAAAGCATTTCAATTGTCGGTGGTTGGTTGTGTTCTTATGTTTTCTCTTTTATCGGCAGCGGTCGTATCACCGGACGGCATCCAGAATGACAGATCCGGAGCGGAAGTGATGTACGATCCCGGTGACCCAGGTATCGGTTGA	MRKAFQLSVVGCVLMFSLLSAAVVSPDGIQNDRSGAEVMYDPGDPGIG				NA	NA	NA	NA	NA
AK012_03643	276			hypothetical protein	ATGTATGGGCTGCGCTATTGCTGCATCGGCGGAAAAAGGGAAGGAACAGGCGCTGATGACGGCTGCCTGCAAGAATATGAAAAAGACTCTCCTTCATCCAGCAACGGTGTGTTGGATGAAGGAGAGTCTTTTTCGATTTTAAAGAATTCCCAAGGAGCGGTGCCCCTTCCACACCTGCGGAAGAACGAGTGGGCTGAGATCGCCGAGCGTGGGTTTTGCGAGGAAGCTCGGGCGCTCGTCCGCGGAAAGGGAAGGGGCTTACGCTCCTGGCGGTAA	MYGLRYCCIGGKREGTGADDGCLQEYEKDSPSSSNGVLDEGESFSILKNSQGAVPLPHLRKNEWAEIAERGFCEEARALVRGKGRGLRSWR				NA	NA	NA	NA	NA
AK012_03644	1533	ectT		Ectoine/hydroxyectoine transporter	ATGAAAGATCATCTGAACAATCCTGTATTCCTCATTTCCGCTTCGGTCATTCTCGTTCTTGTCGTTATCGGAGCGGTCAACCCGGAAGGCTTCGGCGCTGTAGCCGGGACCTTATTTGAATTCACCACGATCAATTTCGGCTGGTTTTACTTACTTTCAGTCTTCGGCTTCGTCATTTTCCTTGTAGGACTTGGCTTAAGCAAGTACGGAAAAATTAAAATCGGTCCGCCGGATTCCAAGCCGGAATTCCCATTCTTTACTTGGATCGGCATGCTTTTTTCCGCCGGTTTCGGCGTCGGTCTCGTTTTCTGGGGCGTTGCTGAACCGATGAGTCACTTTTTTGAAACCCCGTTTCCGGGAATGGAAGGGCAGACAGAGGAAGCGGCGCGTGTTGCCATGGGCTATTCCTTTTTTCACTGGGGCATTAACCAGTGGTCTGTCTTCACCATAGTCGGCCTGCTGATTGCTTTTCTGCAGTTCCGTAAGGAGAAAAACGGCCTGGTATCTACAGCCCTTGAACCCGTTCTCGGGAAGTCAAAGCCTGTGAAACACACCATTGATTCCCTTGCTGTAATCGCTACAGTCATGGGGATTGCCACGTCCCTCGGTCTTGGAATCCTGCAGATGAATGGAGGATTGAATGCTGTCTTCGGCGTACCTAACAACACTACGGTACAGCTTGTCATCACAGGTGTGCTTTTAATCCTATACTTAACCTCTTCCAGTACAGGGCTGGATAAAGGGATCAAGTGGCTCAGTAATTTGAATCTCGGCCTCTGCCTTTTGCTGCTTTTATTCGTGTTCATTGCCGGCCCTACGGTTTTCATCCTGAACAGCTTCACTCTTGGAATCGGGGATTATATTACGAATTTCGTGACCTACAGCCTGCGCCTCACCCCTTATGAGGGAGGAACATGGCTGCGGGAGTGGACCATTTTCTACTGGGCCTGGGTTATTGCCTGGTCTCCCTTCGTCGGTGCCTTTGTGGCCCGTGTTTCGCGCGGAAGAACGATTCGTGAATTCATCTTCGGTGTGCTCGTCGTCCCGCCGCTCATTGCCTGCTTATGGATTGCAACATTCGGAGGAACGGCCTTAAACAGTGATTTGAATAATGGAACACAGATTGCAGAAGCTGTCAGCAGCGATATTACCATCGCCCTTTTTGAAACCTATGAGTTTCTTCCGATGACAGGGGTTCTGTCGATGCTGTCCATCTTCCTGATTGCTACGTTCCTGATTACATCTGCAGACTCAGCGACGTATATTCTTGCCAGTATGACATCGAACGGAAGCCTGACTCCTGCTCTTGTCATTAAAATCGTCTGGGGACTGCTGATGGCATCCATCGCCGGCGTTCTATTGGTAGCCGGAGGTCTGGATGCCCTTCAGACGGCATCGCTCGTATCCGCTCTTCCGTTTACCGTGATTATTATTCTCTTTGTCTATGCCTTCATAAAGATCATACGAAAAGAACCGCTGCCTCAGCGGAAGTATGATTCCCATGAAACCAGCAGTCACAAAAAAAATGCGTGA	MKDHLNNPVFLISASVILVLVVIGAVNPEGFGAVAGTLFEFTTINFGWFYLLSVFGFVIFLVGLGLSKYGKIKIGPPDSKPEFPFFTWIGMLFSAGFGVGLVFWGVAEPMSHFFETPFPGMEGQTEEAARVAMGYSFFHWGINQWSVFTIVGLLIAFLQFRKEKNGLVSTALEPVLGKSKPVKHTIDSLAVIATVMGIATSLGLGILQMNGGLNAVFGVPNNTTVQLVITGVLLILYLTSSSTGLDKGIKWLSNLNLGLCLLLLLFVFIAGPTVFILNSFTLGIGDYITNFVTYSLRLTPYEGGTWLREWTIFYWAWVIAWSPFVGAFVARVSRGRTIREFIFGVLVVPPLIACLWIATFGGTALNSDLNNGTQIAEAVSSDITIALFETYEFLPMTGVLSMLSIFLIATFLITSADSATYILASMTSNGSLTPALVIKIVWGLLMASIAGVLLVAGGLDALQTASLVSALPFTVIIILFVYAFIKIIRKEPLPQRKYDSHETSSHKKNA	PGPT0013600_1135	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK012_03645	552	speG_4		Spermidine N(1)-acetyltransferase	ATGTTAAAGGGACATTTAGTCGAACTGCGTCCAGTCGCAAGACATGATCTGGACCATTTATACCGATGGGCGAATGATGAACAGCTGGCCGATCTGGGACACGGCAGTTCATCCGCTTACCAAAACAATAATCCGAAGGAAGATATCGAGGCGTTTTATGACAAAAACCTGACCCAGCAGGCTTTATGGGACAAGGGGCGCGTTTTTATCGTGTATACGATCGGAACGAACGTCCCCATCGGCAAATGTGATTACAGAGCGTTAAATCCTGTCACCCGCACAGCAGAAGTCGGCATCAGTATCGGCGAGCGGGCCTACTGGGGGCAGGGGTATGGAAGCGATGTTCTATCCACCCTTTTAAAGCATCTGTTCTATACGTTGAACCTCGAGCGTGTACAGATGGATACGTGGAGCGGCAATACCCAGGCTCTACGCCTCTATGAGAAAGCGGGTTTTGTAGAAGAAGGCCGCTTAAGAAAGAATGAGTTCGTCCAGGGCTCTTATTACGATACGGTTCTTCTCGGTATGCTGAGAAGTGAATTTGAAGCGTAA	MLKGHLVELRPVARHDLDHLYRWANDEQLADLGHGSSSAYQNNNPKEDIEAFYDKNLTQQALWDKGRVFIVYTIGTNVPIGKCDYRALNPVTRTAEVGISIGERAYWGQGYGSDVLSTLLKHLFYTLNLERVQMDTWSGNTQALRLYEKAGFVEEGRLRKNEFVQGSYYDTVLLGMLRSEFEA				NA	NA	NA	NA	NA
AK012_03646	1518	opuD_7	COG1292	Glycine betaine transporter OpuD	ATGCAGAAAGTTACTTCGGTGTTCTGGGTTACACTAGCCATTGCATTATTCTCTGTTATCTGGGGGGCATGGGCCCCGGGAAGCCTGGAATTCATTACAGGGAAAATCCAGTCGTTCATTTCTGTCAACTTTGGCTGGTATTATTTATTGATCGTGACCGGCTTCGTCGTTTTTTGTCTTTATATGATTTTCAGTCCTTACGGAAAGATGAAGCTCGGAAAGGACAGCGATACACCGGATTATAATTATGCCACCTGGTTTGCCATGCTGTTCAGTGCAGGCATGGGAATCGGCCTTGTTTTCTGGGGGGCTGCAGAGCCGATTTATTTCTACGCAAACAATGCACCCACAGCGGAAACAGGTACGGCGGCGGCATTGAACGAGTCGATGCGTTTTGTCTATTTCCACTGGGGCGTTCATGCCTGGGGCATTTACGCAATTGTTGCTCTTGTCCTTGCCTATTTTAAATTCCGCCGCGGTGCCCCCGCTCTAATCAGCTCCACACTGGAGCCGATTTTTGGAGACAAGATGAAAGGCCCGTTCGGTAAGCTGATTGACATCATTGCGGTTTTCGCCACGATCGTCGGTGTAGCGACCACCCTCGGCTTCGGCGCTGCGCAGATCAACGGTGGACTGACATACCTGACTCCGATTGAAGACTCTTTCGGGGTGCAGTTGATCATTATCGGAATTGTTACAGTTCTGTTTATGATGTCTGCTTATACAGGGCTCAGTAAGGGGATCAAATACTTAAGTAATACAAACATGTTCCTTGCCCTTGCCCTGCTTGTCATTATGCTGATCGTCGGACCAACGCTTTTCATTATGAACATGTTTACCGATACGATCGGAGCGTATCTGCAGAACCTGCCGACAATGAGTTTCCGCCTCTCTCCGAACAATGCAGAGAACCGCGAATGGATTAACAACTGGACGGTCTTCTACTGGGCCTGGTGGATTGCCTGGTCTCCGTTTGTCGGGATCTTTATTGCCCGTGTATCCAAAGGACGTACGATCCGTGAATTTCTATCCGGCGTGCTTCTTGTCCCATCGGTTGTCGGATTCCTGTGGTTTTCCACTTTTGGATCTTCTGCCATCAAGGTGCAGCAGTCCGGGGATGCCGATATCGCCGGACTGGCTACGGAACAGGCGATGTTTGGAATGCTGGATAACTATCCACTCGGTTTGATTCTTTCCATTATTGCTATGACACTGATCGGAACATTCTTTATCACGTCTGCAGACTCTGCAACGTTCGTATTGGGCATGCAGACGACGAACGGGTCTCTGACCCCGCCGACGATGGTCAAGTTCGCATGGGGAATCATTCAGTCTTCCATGGCTGCTGTCCTGTTGTATTCCGGAGGACTGCAGGCACTTCAAAATGCTTTGATCTCTGCGGCTTTTCCTTTTTCCTTTATCATGATTCTCATGGTTGTTTCCCTTTATAAGGCGCTTCGGGCTGACAAAGCCGCTCTTGAAAAAGGGAAGAGGGAAAAAGAAAAAACATCTGCCTGA	MQKVTSVFWVTLAIALFSVIWGAWAPGSLEFITGKIQSFISVNFGWYYLLIVTGFVVFCLYMIFSPYGKMKLGKDSDTPDYNYATWFAMLFSAGMGIGLVFWGAAEPIYFYANNAPTAETGTAAALNESMRFVYFHWGVHAWGIYAIVALVLAYFKFRRGAPALISSTLEPIFGDKMKGPFGKLIDIIAVFATIVGVATTLGFGAAQINGGLTYLTPIEDSFGVQLIIIGIVTVLFMMSAYTGLSKGIKYLSNTNMFLALALLVIMLIVGPTLFIMNMFTDTIGAYLQNLPTMSFRLSPNNAENREWINNWTVFYWAWWIAWSPFVGIFIARVSKGRTIREFLSGVLLVPSVVGFLWFSTFGSSAIKVQQSGDADIAGLATEQAMFGMLDNYPLGLILSIIAMTLIGTFFITSADSATFVLGMQTTNGSLTPPTMVKFAWGIIQSSMAAVLLYSGGLQALQNALISAAFPFSFIMILMVVSLYKALRADKAALEKGKREKEKTSA	PGPT0013600_1048	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-GLYCINE-BETAINE_METABOLISM,PGPT0013600-opuD|ytfQ-K05020	NA	NA
AK012_03647	819			hypothetical protein	ATGTGGGAATGGAGAAATATTTACCGCGGCCTTCTAATGGGAGCGAGTGATGTAGTCCCCGGCGTCAGTGGAGGCACCATCGCCGTTGTTCTGGGGATTTATGACCGCTTAATCGAGGCCATTAACGGATTTTTCAGTAAGGAATGGAAGAAACATTTGAAGTTTCTGCTGCCGCTCGGGATCGGGATTGTCACATCCATCGCCCTGCTGGCCAGTGTCATTGACTGGTTGTTTGAGCACTACCCGGGTCCGACGCAGTTTTTCTTCCTGGGATTGATCATCGGGGTCCTGCCGTATTTGACCCATAAAGCAGACATGAAAAACAAATTCCAAGGAAAGCATTACGTCCTTTTATTGATTGGTGCAGCAGTCGTGGCATCCATGGCCATTTTCCAGACGTCAGAAACGACGGCAATGGAAGAGATTACAATGTCTGGATATCTGCTGTTATTCTTCTCTGGATGGATCGCCAGCAGTGCGATGATCCTTCCCGGGATCAGCGGATCCTTCATTCTTCTGATTATCGGCGTCTATACAACCGTAACCTCAGGGATTTCTGATTTTCGTATTGATATCATTGCCGTGGTCGGTTTCGGAATTCTGCTCGGTTTGATTTCCATGAGTAAAATCGTGAAATTCTTCCTGGATCATTACACGTCAGGCACCTTTGCTGTCATTATTGGACTTGTGATCGGTTCTGTGTTTGTCATCTTTCCCGGCGTTCCTGAATCGACGGGTCTTCTCGCTGTCAGTATCATTACATTCCTTGGGGGACTGCTTGCAGCCTGGCTGCTTGGACGTGTGGAGTACAAGGGATAG	MWEWRNIYRGLLMGASDVVPGVSGGTIAVVLGIYDRLIEAINGFFSKEWKKHLKFLLPLGIGIVTSIALLASVIDWLFEHYPGPTQFFFLGLIIGVLPYLTHKADMKNKFQGKHYVLLLIGAAVVASMAIFQTSETTAMEEITMSGYLLLFFSGWIASSAMILPGISGSFILLIIGVYTTVTSGISDFRIDIIAVVGFGILLGLISMSKIVKFFLDHYTSGTFAVIIGLVIGSVFVIFPGVPESTGLLAVSIITFLGGLLAAWLLGRVEYKG				NA	NA	NA	NA	NA
AK012_03648	318	ydbP	COG0526	Thioredoxin-like protein YdbP	ATGGAATCTATACAAAGTGTGGAAACGTTTAATGAAGCGATTGCCGGTGAACATCCGGTCATCGTGAAATTCCAGGCAGACTGGTGCCCGGACTGCCGCCGCATGGATATGTTTATCGGCGGGATTATCGAGGAATATAATAGTTACCAATGGTACGATGTTAATCGTGACCAGCTTCCAGAACTGGCTGAAAAGTACGAAGTTATGGGAATTCCGAGCCTGCTTGTTTTCCAAAACGGCCAAAAGACCGCTCACCTGCACAGCGCGGATGCTAAAACGCCGGAAGAAGTACAGGAATTCCTGCAGGCAAGCCTATAA	MESIQSVETFNEAIAGEHPVIVKFQADWCPDCRRMDMFIGGIIEEYNSYQWYDVNRDQLPELAEKYEVMGIPSLLVFQNGQKTAHLHSADAKTPEEVQEFLQASL	PGPT0013055_7942	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013055-trxA-K03671	NA	NA
AK012_03649	1083	norW		Nitric oxide reductase FlRd-NAD(+) reductase	ATGTCAAAACGATTGCTGCTCGTCGGCGCTGGTCATGCTCACTTGGAAGTGCTGAAGCAGCTGGCTGAACACGGTTTATCTGATGTGGATGTCTGCCTTATTACACCGTCCCCTTATCAATATTATTCCGGTATGTTTTCAGGTTTTACGGAAGGGATTTATACCGAAGAGGATACACGGGTGGATCTTCGCCCCCTTACCCAAAGGGCCCGGGTACAGCTGATTCAGAAAACAGCGGTGATGATCAGGCCGGAACAGAAGAAGGTCATCTGCCACGATGGGAGTGTTTATCCCTTTGATGCTGCCAGCTTTGATATCGGCTCGCGCAGCCTGCCGGAGTCTGTGGAGCACTCAGCAGCCCAGTCGATTAAACCGAACTACCATTTCACTGAACGCATGAAGGATTTAAGGGAAACCCCCCAGCCTTTGATCGTCGGAGGAGGGGCGGCAGGAACAGAACTGGCCCTTTCCATCCAGACTTACAAACATATGCATCAGAGGCCGGGACAGGTTCGTCTCGTTACATCAGGATCTCTTCTATCAGACACTCCGAAATGGGTGCGCGCGCGGATGAAGCACATCCTGAAAAAGAAAGGGGTTCGGGTGTGGGAGAATGAGGAAGTGAGAGACGTTTCTGATGACAGCATTGAAACCAGCAGAGGGAACAAAATCCGCCACACCGGTGTGCTCTGGCTGGGAGGGCCTGTCGGTGATTCGATTTTCACTCGTGCAGGCCTGGACGTGGACGAACGTGGTTTTGCTTTCGTAACCCGTACGCTGCAGTTCAAAAACTATGACTACCTGTTTGGAGCGGGAGACTGCGTCACCCTGGAAACCGATCCTGACCTTCCGAAAAGCGGCGTTTATGCTGTCCGACAGGGCCCGGTTTTATGGGAGAACTTAAAAAATCACTTTCAGCGTCGTCCGCTTGAAACGTTCGTGCCTCAGAAGAAAGCCCTGTATATTCTTTCCACTGGAGACCGGAAAGGGTTTTTGATCTATGGAGCTGTTCATGCGCACAATCATAAAGCATGGAAGCTGAAGCATAAAATTGACCGTGAATTCATGGCCAAATATAAATGA	MSKRLLLVGAGHAHLEVLKQLAEHGLSDVDVCLITPSPYQYYSGMFSGFTEGIYTEEDTRVDLRPLTQRARVQLIQKTAVMIRPEQKKVICHDGSVYPFDAASFDIGSRSLPESVEHSAAQSIKPNYHFTERMKDLRETPQPLIVGGGAAGTELALSIQTYKHMHQRPGQVRLVTSGSLLSDTPKWVRARMKHILKKKGVRVWENEEVRDVSDDSIETSRGNKIRHTGVLWLGGPVGDSIFTRAGLDVDERGFAFVTRTLQFKNYDYLFGAGDCVTLETDPDLPKSGVYAVRQGPVLWENLKNHFQRRPLETFVPQKKALYILSTGDRKGFLIYGAVHAHNHKAWKLKHKIDREFMAKYK				NA	NA	NA	NA	NA
AK012_03650	645	ydjZ	COG0398	TVP38/TMEM64 family inner membrane protein YdjZ	ATGAATAAAAAAAACCTGCTCCGATCGCTCGTATTCCTGGCTGCTTTTATTGCGGTGGCCTGGTTTGCCCGAAGCCGGTTCAATATTGATCCCCAGAACATCCGGGCCTACATCCTGTCCTTCGGCAGTATCGGTCCACTCATTTTCATGGGGCTGTATGCCATCGGACCGATTGTCGTTTTCCCAACCTCCGTTTTATCGCTTGCGGCGGCCTTTGCGTACGGCCTGTGGCCGGGCATGCTTTATATCGTCATCGGAGCAACCGGAGCCGGGATTACCGGCTGGATCATGGGGCGTTTCTTTGGAGATTCCGTCCTGAAATTCCACCAGTCCAAATGGGCTTCCTCGATTTATGAGCGGATGAAGGGCCAGGGATTTTTATACGTGTTTGTCCTGAGACTCATCCCCCTTGTCGGGTTCGATATTCTCAGCTATTTGTCAGGGATGACTCGTGTGAAGCTTCCCCCCTTTATCCTGGCTACCGTTCTCGGCATGCTTCCCGGTACGTTCGCCTACAGCCTCGTCGGTACAAGCCTGGCGAGTGGAGACAGAACATTGATTTTCGCCGCTTTGAGTGTTTTTGCCCTGATTCTCGTAACCACCTACCTTTTCCGGAACAAAGTAAGGGCCTGGTTAAAGATTTGA	MNKKNLLRSLVFLAAFIAVAWFARSRFNIDPQNIRAYILSFGSIGPLIFMGLYAIGPIVVFPTSVLSLAAAFAYGLWPGMLYIVIGATGAGITGWIMGRFFGDSVLKFHQSKWASSIYERMKGQGFLYVFVLRLIPLVGFDILSYLSGMTRVKLPPFILATVLGMLPGTFAYSLVGTSLASGDRTLIFAALSVFALILVTTYLFRNKVRAWLKI				NA	NA	NA	NA	NA
AK012_03651	969	btuD_7		Vitamin B12 import ATP-binding protein BtuD	ATGAGCCCGACTACATTAGAAGTAAAGCAATTGAAAAAGACCTTCCAGGAAGACCTGATATTAAACGACCTTTCCTTTCAATTGAACAAAGGGGAAATTCTCAGTGTCGTTGGACCTTCAGGAAGCGGAAAAACGACGCTTCTGCGCGTCCTTGCCGGTCTTGAATCACCGACAAACGGTTCCCTGTGGATGAATGGTAAGGACATTACAGCGACGAAAGCCAACCGGCGGGACATCAGCCTCGTTTTTCAACAGCCGCTCCTGTTCCCTCATATGACCGTGAAGGAGAACATTGCCTATGGAGCAAAAGTATCTAAAAAATACAGCAAGCCGAAGATTGAAAGACTGATGGAGGCGATTGGAATGAGCCGGTACCGAGATCATTTTCCTTCAGAAATCTCCGGCGGTCAGCAGCAGCGGACAGCCCTTGCCCGCGCCATGGCGACAGAACCGGAAGTGATTCTTTTCGATGAACCCTTCAGCAGCCTGGATCCTGCCTTAAGGCAGGACCTGCGTTACTGGGTCAGGGACTTTCTCGTGGAACAAAAAACGACCGCGCTGTTCGTCACGCATGATATGGAAGAAGCGATGATTATGGGGGACCAGATTGCTGTCTTTCAGGACGGGGAATTTCAACAGATCGGGGACGCCTCGGTGCTCCACCACTCCCCTGCCAACCAAAAAGTCGCATCCTTTATGGGCGGTCATCTGATCCTGAATGAAAACGAGTTCGTTCCTCTGGCAGAAATCCACCTTTCCACCTTTGAAGGGGTTGAAACCCGCACATTCAAAGGACGGCTGGAACATCTCACTTATCAGCACGGCCGTCCGGTCGCCCATATCAGCGTTCCGGCTCTGGGTTCCAGAGTGGCGTTACCTGTTGAAACATTTACAGCAGATACAGAGGAAGTCACCCTGCACATCCCGACTTCCTGCATTCAACGATTTGAGGTGAACCATCATGAATAA	MSPTTLEVKQLKKTFQEDLILNDLSFQLNKGEILSVVGPSGSGKTTLLRVLAGLESPTNGSLWMNGKDITATKANRRDISLVFQQPLLFPHMTVKENIAYGAKVSKKYSKPKIERLMEAIGMSRYRDHFPSEISGGQQQRTALARAMATEPEVILFDEPFSSLDPALRQDLRYWVRDFLVEQKTTALFVTHDMEEAMIMGDQIAVFQDGEFQQIGDASVLHHSPANQKVASFMGGHLILNENEFVPLAEIHLSTFEGVETRTFKGRLEHLTYQHGRPVAHISVPALGSRVALPVETFTADTEEVTLHIPTSCIQRFEVNHHE	PGPT0007860_4240	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
AK012_03652	801			hypothetical protein	ATGAACCAGAGACCACGTCTATTTCTAGTTATTACGCTGCTGTTTTTCCTGCTGCCGGTTCTCATCCTGGCGGCCCAGAGCTTCAGTGCTCCGTGGCGGTTTCCGTCTGGATCCGGACTGGATTGGGAGCTTGGCAGCTACCAACAGCTGCTGCAGAGCCCTATGCTCTGGAAAGCCACATTCACTTCCATATGGATCGGTTTCATTGTGCTGGTGCTGAATGTGGGGATCGGGGTGTTTACAGGAAAAGCGCTCACAACCGTCCCACTTAAAGGCCGGCCATGGGTGGAGGCTTTACTGCTCTCCCCCATCCTGATCCCGGTACTCGCCATCGCCATGGGGCTTCACATTTTTATGATCCGCGCCGGGCTGGCAGATACCGTACTTGGTGTCATCATCATTCACCTTGTTCCGACCGTCCCTTACAGTATCAAAATTTTTCATAACAGCTACCAGCAGATCGGACGGGCAATGCTTGAACAGCCTCACATTCTCGGTTCCGGCTTTTTCAGGCAGTTGTTCACGATTGAACTGCCCCTTTTGAAGCCTGCGCTCCGGAGTGTCACCTTTCTAACCATTGTCATCAGTCTGAGTCAGTATGCCATTACGGCTATTATTGGCGGAGGGCGTGTGTTGACGCTGCCTCTTGTATTCTTTCCATTTCTGGAAAGTGCCGATGCTTCCGTCATGTCCGCGTTTTCCCTCTGGTTTGCTGTCATACCCGTGGTGATGTATATCTTAGTGGAAGCTGTCATTCTTCTGCTTCCGTACTCTCGCCTGCCTTGGAGGAATAAACGATGA	MNQRPRLFLVITLLFFLLPVLILAAQSFSAPWRFPSGSGLDWELGSYQQLLQSPMLWKATFTSIWIGFIVLVLNVGIGVFTGKALTTVPLKGRPWVEALLLSPILIPVLAIAMGLHIFMIRAGLADTVLGVIIIHLVPTVPYSIKIFHNSYQQIGRAMLEQPHILGSGFFRQLFTIELPLLKPALRSVTFLTIVISLSQYAITAIIGGGRVLTLPLVFFPFLESADASVMSAFSLWFAVIPVVMYILVEAVILLLPYSRLPWRNKR	PGPT0007845_3046	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
AK012_03653	861			hypothetical protein	ATGAAATCGTTCAGCCTTAAACCATACCTGCTTTTCCTGCCTGCTGTCCTGTTCATGCTCCTTCCTCTCTATGGGCTGCTGACGGCTGTTCTGAACAGCTTCGGCCGCCACAGAGGCTGGACCCTGGACTATTACCGGCAGATCTTTGAATCCAAGCGGTTTGTGATGTCCCTGGCTTTCAGCCTGCAGACAGCATTGATCGCCACCCTGCTGTCCATCCTTATCGGACTGGCTTTGACACGAAGCTTTTATCCGATACTTGAGAAAATAACACCACGTGTCAGCGTCTGGATTCCTATGCTGTTCCCCCATTTTGTCTGGGGGTATCTGGTCATCCTGATTCTTTCAGAAACCGGTGTGGCCGCCCAGCTTCTGACCGCAGCCGGATGGATTTCCGATCCACAGCATTTCCCTGTCCTCACCAGGGACCCGCACGGGATCGGAATCATCCTGACCTATGTATGGAAGGAAGTTCCGCTTGTCATCCTGATGCTGCTGCCGGTCTATGCTTCAATCCGGCCGGAATACTATGCACTCGTTGATACACTGGGAGGTTCGGTTTGGAACAGAATCACAGCCGTTGAGCTGCCTCACCTGCTTCCAGTTTTAATGGAGACAAGCCTGATCATTTTCTCCTTCACCTTATCGGCTTACGAAGTACCCGCTCTTCTCGGCACGACGTTTCCAGAGATGGTTTCCGTTCTCAGCTATGACTGGTTTTACGGAAGCTCCTGGCAGAAACGCCCGCTGGCCTTTGCCGCTATGGTCAGCATCAGCTTCGTTCTGCTGGTTCTGTCCTTTATCGGATATGGGTATTTAAATAAAGCCAGGTGGAGAGCCGTGAAAGGAAATCGTTCATGA	MKSFSLKPYLLFLPAVLFMLLPLYGLLTAVLNSFGRHRGWTLDYYRQIFESKRFVMSLAFSLQTALIATLLSILIGLALTRSFYPILEKITPRVSVWIPMLFPHFVWGYLVILILSETGVAAQLLTAAGWISDPQHFPVLTRDPHGIGIILTYVWKEVPLVILMLLPVYASIRPEYYALVDTLGGSVWNRITAVELPHLLPVLMETSLIIFSFTLSAYEVPALLGTTFPEMVSVLSYDWFYGSSWQKRPLAFAAMVSISFVLLVLSFIGYGYLNKARWRAVKGNRS	PGPT0007850_2830	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
AK012_03654	1227	ynjB	COG4134	Protein YnjB	ATGAAAAAAAAGGGCTTGCTTATATTGTTCATGACACTATTACTCGCCGCCTGCAGCAGCGGTGGATCCCAGGAGGAAGCATGGAAGGATATGTCCTGGGAAGCCGTTGAGGAAGAAGCAGATGGCACAGAGGTCCGCCTTTATATGTGGGGCGGTGACGAAGGAATCAATCGTTACATTGACGAATGGGCGGCACCCCGCCTGAAAGAAGCACACAACATAACCTTGGAGCGTGTCCCTATGGACGCCGCGGAAATTCTCCAAAAGCTCCAGACAGAAAAACAGGCCGGGAAACAGGACGGTCCCATCGACATCATCTGGATCAATGGAGAAAACTTTAAAAATGCAAAAGAAAACGAACTTCTGGCCGGATCCTTTACGGACAAGCTGCCGAATTTCAACGAGTACTATGACACGGAGGATCCCGCCTTCCAGACGGATTTCGGAACCTCTGTGGACGGGATGGAAGCCCCGTGGGGGAAAGTCCAGTTCGTCTTTTACTATAATGCCGATCAGATCAGCGAACCGCCTTCCTCTTTTGCCGAACTGCAAAACTGGATTCATGATCACCCAGGAAAGTTCACCTATCCGAGGGCGGAGGATTTTTCCGGAAATGCTTTCTTACGCCATGTCTTATATGCCCAGGCAGAGGAACCGTCCAATATCTATGAAAATTCTCTGAGTGAAGCGGATATCCAGCCGGCAGCGGAAAGCACCTGGGCCTACCTGAAAGATATTCAACCGGATTTATGGCGGTCAGGAGAGCACTATCCGAATGACTTAACGGAGCTTGACCGTTTGTACAGCCAGGGGGAAGTATGGATGACAATGGGCTACAATGAGTCCCGGGCGGAATCCTTGATCGAGGACGGTGTCTTCCCTGAATCCACCCGTTCGTTCGTATTGGAGCCTGGATCAATTGGGAATACCCACTTTTTGAGTATCCCCTTCAACAGTTCCAACCCGCCGGGAGCGCTTGCCGCCATTAACTTCCTGCTTTCCCCGGAAGCACAGCTGGCCAAGTTCAAGCCGGATTACTGGGGGGAAAACACTCCGATCAGTCTCGATCAGCTGCCAGAAGACATGAAACAGGAATTTGAAGCGGTGGACAGAGGAAAGAGCGTGCTTCCTACGGAAAGACTGGAGGAAAGCTTCCTGCCTGAATCAGAAGCCGCCTACGTCGAATGGATGAAAGAGCAGTGGTTTGATGAAATCGTTCAGCCTTAA	MKKKGLLILFMTLLLAACSSGGSQEEAWKDMSWEAVEEEADGTEVRLYMWGGDEGINRYIDEWAAPRLKEAHNITLERVPMDAAEILQKLQTEKQAGKQDGPIDIIWINGENFKNAKENELLAGSFTDKLPNFNEYYDTEDPAFQTDFGTSVDGMEAPWGKVQFVFYYNADQISEPPSSFAELQNWIHDHPGKFTYPRAEDFSGNAFLRHVLYAQAEEPSNIYENSLSEADIQPAAESTWAYLKDIQPDLWRSGEHYPNDLTELDRLYSQGEVWMTMGYNESRAESLIEDGVFPESTRSFVLEPGSIGNTHFLSIPFNSSNPPGALAAINFLLSPEAQLAKFKPDYWGENTPISLDQLPEDMKQEFEAVDRGKSVLPTERLEESFLPESEAAYVEWMKEQWFDEIVQP	PGPT0007855_344	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
AK012_03655	588			hypothetical protein	ATGCTGTATGAACATTTTGCAAGGCCATCCGGATGGGTGGGGAAGATCGCTGGACACTTTATGGAAAAAGAGAATGAACAGCTGAACCGGTGGACATTATCGTTTCTGGATCTTCAGGAAGGAGAAGAAGTGCTGGAAATTGGATGTGGAGCAGGAAAAGCTTTAGAACAGGCTTCTACAGTGAAAGGACTCCACTTGTATGGAGTGGATCCATCCGAAGTCATGGTCGAAACGGTCCTGCACAAATGGCGGAGCTTCAAAAACGCCGGGCAGGTGGGGGTTTTTCACGGATGGGCTGAAGATCTGACTCGTTTCCACCGTCCGCTGGATAAGGTCTATGCTGTCAACAATGTCACCTTCTGGGAAGAGCCTGAGGAGACACTGGCGCATCTATATACAATAATGAATCAAAATGGAAGGATTGCTTTAACGCTTCGTCCTCACGAGAAGGGGTCCGGAGATGATACAGTGCACGTCCTTGGAGGCCAGATGAAAGCCATGCTGACCCACGCCGGTTTCCGGAATGTCTGTATCCATATCCGTCCTGAACAACCGAATAAAGCTGTCTGTGTGACAGGGATGGTGTGA	MLYEHFARPSGWVGKIAGHFMEKENEQLNRWTLSFLDLQEGEEVLEIGCGAGKALEQASTVKGLHLYGVDPSEVMVETVLHKWRSFKNAGQVGVFHGWAEDLTRFHRPLDKVYAVNNVTFWEEPEETLAHLYTIMNQNGRIALTLRPHEKGSGDDTVHVLGGQMKAMLTHAGFRNVCIHIRPEQPNKAVCVTGMV				NA	NA	NA	NA	NA
AK012_03656	252			hypothetical protein	GTGAAATTGAAAAAGGAACAGCAGGAATACATGACTGAACGGGTCAAGGAGTGGTTTGAGCTTGAGCGTGGAGAAGTCATCGGGGACCTTGCGGCAGACCAATGGGTCCAGCAGATGGCTGAGGAAATGGGGCCTTTCTTTTATAATAAAGGAGTCGAGGATGCCCGGCAGATGGTGGAGCAGAAGGTGATGAATGTAGATGAGGATCTCCGTTCGCTTGAGCGTCCCGCCGGCCGCCCGAAGCGGCGATGA	MKLKKEQQEYMTERVKEWFELERGEVIGDLAADQWVQQMAEEMGPFFYNKGVEDARQMVEQKVMNVDEDLRSLERPAGRPKRR				NA	NA	NA	NA	NA
AK012_03657	1011			hypothetical protein	ATGAAATTAAGTGTATTGGATCAGTCCCCTGTTTTAGCTGGGACAGACCCACAGGAAGCATTAAGACAAACAACCGAACTGGCAAAATGGACCGACAGGCTGGGGTATCACCGTTTCTGGGTATCTGAGCACCACAGTTCCGGCAGCCTTGCGGGATCTTCACCGGAAATCCTCGCTGCTCACCTTGCCGCTCATACAGAAACCATACGGATCGGCAGTGGAGGCGTGCTTCTGCCTCACTATAGTCCGTTTAAAGTGGCTGAATCCTTCCGCGTACTGGAGACCCTTCATCCGGACCGGATCGACCTCGGTGTCGGCCGTGCCCCCGGTGGTCTGCCGAATATCAATCTCGCCCTGAATAAAGGGAACCTCCCGAATGTGGAGGGGTATCCTTCCCAAGTCGAAGAACTGATCGCCTACCTGCACGGGCACGACCCGCACGGAATGGGGATACAGGCTACGCCTACAGGAGAAACCGCCCCACCCGTGTGGATGCTCGGTTCCAGTGGGACAAGTGCACGAGTGGCCGGCGAACTCGGAGCTTCGTATTCATTTGCCCATTTCATTAATGGACGTGGCGGTACACGAGCGATGGAACGTTATTTCAAGCATTTCACCCCTTCTCTGCAGCAGACGGAGCCGGAGGCGAATGTTTCTGTTTTTGTCGTCTGTGCAGAAACCGATGAGCGTGCCGAGTATTTAGCGGCAAGCCTGGATCTTGCACTGCTCCAGATTGAAAAAGGTGGGCGACGCACCCATTTCCCTACACCGGAAGAGGCGCTTTCCCACTCCTATACAGTTTTTGAAGAGGAACGGATTGCGGATAACCGGAAGCGGATGATCGTCGGATCCATCGAACGGGTGAAGGAAGAAATTGAAAAACTGGCGGCCCTTTATCAGGTCGATGAAATTATCATCAATACCATTGTCACTCCATTTGAAGAACGGCTGAAATCCTATGAGCTGCTGGCCGGGGCTTTTGAGCTGTCTCCTTCCACCACTATGACGTAA	MKLSVLDQSPVLAGTDPQEALRQTTELAKWTDRLGYHRFWVSEHHSSGSLAGSSPEILAAHLAAHTETIRIGSGGVLLPHYSPFKVAESFRVLETLHPDRIDLGVGRAPGGLPNINLALNKGNLPNVEGYPSQVEELIAYLHGHDPHGMGIQATPTGETAPPVWMLGSSGTSARVAGELGASYSFAHFINGRGGTRAMERYFKHFTPSLQQTEPEANVSVFVVCAETDERAEYLAASLDLALLQIEKGGRRTHFPTPEEALSHSYTVFEEERIADNRKRMIVGSIERVKEEIEKLAALYQVDEIIINTIVTPFEERLKSYELLAGAFELSPSTTMT				NA	NA	NA	NA	NA
AK012_03658	1272			hypothetical protein	ATGAAGAAAATTAATATTAAAGGAAGAATGCTGGGTTTGTTGATCATCGCTTTCATTACGACGAATGCGCTGTTGATTTATCTGGACGAAGACAACCATATCGACCGCAAATCCTATCTCCACACATGGTCGCAGACCGTTACCCAGGATCTTTTTGAAAAAGTCGAAGCGAAAGGCGTATTCGCTTCGCAGGCCTCCGTCCCGGTTTATTTTGACGGGGCAGATGGTTCCTTCCAGCAGTTTCTCGTTCGTGAGGGAGACAAGGTGCAGGAAGGCGATGACCTATATACATACAACGTCGAAGATTACGCCGCACAGGAAACCCGTCTTGAAGGAGAGGTCCAGCGCATTCAAGAGGAAATCACAGCCGTGGAGAACTATATCGATAACCTGGAAGGCTACGATATCCCTGACCCCTCTGCTTCCAACGACCCATCCACTTCCTCTTTTTTCGGAGAGGACAGCCGTTCCACGGACAATGACGACGCTTCCTCTGCAGGGTCTAAAGTAGAAGCTGAGTACCTTAAGGAAGAGGAGCTTGCCAGACAACAGGCTGAGCTTTCAAAACAGCAGGCGTTGCTCGAAATGGCGGAAGACCAGCTGGACCAGCTGCAGGAAACAGGGGAGCAGATCACGGTGACCAGCCAGTTTTCCGGCACCGTCACGGATATCGATGAAGAACTCCAAGCGCCTATTCTTACGATGAAATCGGCCGACCTCGTATTGGAAGGCGAAATCATGGAAGAAGACCGGACACAGGTGGAAGAGAATCTAACCGTTGATGTTTTCGTACCAGAGCTTGAGCTGGAAACGACCGGAACCATTACGGGAGTGGACGAATTCCCGAAACAGACCGATCTTGAAGGGAAGAGCCGTTATCCATTCACTGTGACAATGGATGAAGTCGATGAGGAGCTTCTCCCCGGCTATCATGCAGACATGAAAGTGATCACCTCCGAATCCAGAAAAGCGGTCGCTGCCCTGGACGATGCCTTGTCAACAGAAGAAAACCTTTACGCCTGGGTGATGAATGGAGACGGCCTCCTGGAACGGCGGGAGGTGACCACCGGTATTGAAGAAAACGGGCTTGTTGAAGTCGTATCCGGACTTGAAGATGGAGAATGGATAGCCGTGGCGCCGGAGGATGAATTCCGCAACGCCTCTGTATTCATTACCTCCGTGCAGATGGAAGACCTTCCTGTCAAACAACTGATTGAGCTGGATCAGTCAACGATTTTAAATTACGGGCTGCTCGGATTATTATCGAGGTAG	MKKINIKGRMLGLLIIAFITTNALLIYLDEDNHIDRKSYLHTWSQTVTQDLFEKVEAKGVFASQASVPVYFDGADGSFQQFLVREGDKVQEGDDLYTYNVEDYAAQETRLEGEVQRIQEEITAVENYIDNLEGYDIPDPSASNDPSTSSFFGEDSRSTDNDDASSAGSKVEAEYLKEEELARQQAELSKQQALLEMAEDQLDQLQETGEQITVTSQFSGTVTDIDEELQAPILTMKSADLVLEGEIMEEDRTQVEENLTVDVFVPELELETTGTITGVDEFPKQTDLEGKSRYPFTVTMDEVDEELLPGYHADMKVITSESRKAVAALDDALSTEENLYAWVMNGDGLLERREVTTGIEENGLVEVVSGLEDGEWIAVAPEDEFRNASVFITSVQMEDLPVKQLIELDQSTILNYGLLGLLSR				NA	NA	NA	NA	NA
AK012_03659	672			hypothetical protein	ATGACTTACTCTGTCCACTTGATCAAGCTGTTCATCCGGCGTGATGATCATTTGTTCAAGCTGAATGAAGCAGAAAAACTGAAAAACGTCTGGAATCTATTATTCTTTTTACTCGCTCTCACTTTACTTACCTTTGTCTGGACAGCCTGGCTCGGCCTCGGCACCGATGCGATTTCTGCCAACATGACAGAATTGACAAGGGCCGACTATGAACTGAGGAAGGCTTGGTTCCTGATCGGCAGGGCAGCTTACGGACTGCTGTTTTTTTTATTCCTTTTATTTATCTCTTCGTTCTTTTACTGGTTATTCAATCATGTATCCTACAAAAAGCTGATCATTGTACAGATGAATGTGCTCCTGATCATGCTCCTTGAACGCATCACCTGGGTGCCTTTGATGGTCTATGCAGGGATTGACTGGTATGTTTCTCCTCTCTCTTTTGGAGTAGCTGCCTCCTACTTCACCTCATTGGAGTGGGTCATTTATTTTTTCGGGTCTATTTCTCTTTTCCAGCTGTTTATCATCTGGTATCAGGTCAAATGCCTCTCCCGTTTGTCTAGAACGAAAACCGGCTGGATCTGGACCGGTGTGATTTTCTGGCATCTATTGCTGTGGGCCGGAACTTCCGCCCTTGCCTATTACGATTTGTATCTTCTTTACTTAATAAGGTAG	MTYSVHLIKLFIRRDDHLFKLNEAEKLKNVWNLLFFLLALTLLTFVWTAWLGLGTDAISANMTELTRADYELRKAWFLIGRAAYGLLFFLFLLFISSFFYWLFNHVSYKKLIIVQMNVLLIMLLERITWVPLMVYAGIDWYVSPLSFGVAASYFTSLEWVIYFFGSISLFQLFIIWYQVKCLSRLSRTKTGWIWTGVIFWHLLLWAGTSALAYYDLYLLYLIR				NA	NA	NA	NA	NA
AK012_03660	1377	mepA_2	COG0534	Multidrug export protein MepA	ATGAAAGAACAAAGTCAGCGTTTAGGCACTCAGCCTATACCAAAGCTGCTGGCCAACTTGTCCATTCCAGCCATGATCGGAATGTTCGTAATGGCGCTGTACAACGTCATTGATACATTGTTCATCGCCCGCGGCGTGGGGATTCTCGGCGTTTCCGGTGTAAGCATCGGATTCCCGGTCATGATGGTCATCATGGCGATTGCCGCTGCCGTCGGGATTGGTGGGGCTTCCGTGATTTCACGACGACTCGGGGCAGACAAAAAGGATGAAGCAGATCTCGTCTTCGGAAACGTCCTGATCATGATCATCCTCATCAGCAGTGTCGGCTTCATCGGTGCCTTCACCTTTTTAGAGCCGCTGCTGAAGATTTTCGGAGCGACAGAGAACATCATGCCGTATGCGAAGGATTATTTATTCCCGATTATGGTCGGGTCGCTGTTTTTCTCCTTCGCCTTTGCAACGAACAATATCATTCGTTCTGAAGGAAATTCCAGGTTTGCGATGATCACCATGATCATCCCCGCGGTCCTGAACATCATTCTTGATCCCATTTTCATATTCGGACTGGATATGGGCGTACAGGGGGCTTCTGTAGCTACTGTCATTTCCCAGGCGACCGTATCGATCGTCGTTTTGAATTATTTCCTCAAAGGAAAGTCCTCCCTGACCGTCCGGAGAGCCGCCTTGAAGCTTCAAACGAAGATCATCAGGGAAATCATTACAATCGGTATGCCGGCGTTTATTCGTCAGGTGGCAGGAAGTGCGATGATGATTGCCATCAACCTCATGCTCATCAAATTCGGCGGAGAATTTGAAGTCGGTGTATTCGGTATCGTCCAGAAGCTTGCGATGTTCACCATTATGCCGATGATCGGTGTCCTACAGGGAATGCAGCCAATTATCGGCTATAATTACGGCGCGCAGAACTACGAACGTCTAAAAGAAACCGTGAAGCTCGGAATGAGAGTCGTGACCATTATTTCTGCCGGTATTTTCGTTGTCATGATGGCCTTCCCGAATGTGCTGATGATGATCTTCACCGGGGATCAAGCGACCATCGACACCGGAGCTCACGCCATCCGCATCATGTTTGCTTTTGCCGTTCTGATCGGTGCTCAGGTCGTCAGCGGTGGTCTGTATCAGGCGCTCGGCATGGCCAAACCGGCGATGATCCTGTCTATGGCCCGTCAGGTGCTTTTCCTGATTCCATTAGTACTGATTCTCCCGAACTTCTTCGGAGTCACCGGTGTATGGCTTGCCTTCCCGGCTGCCGATCTTCTGGCATTCATCTTATCCATGGTCTTCCTTTACAAAGACCGCACACTTTTCTTCAAACCGAAACACGGGGCATCCAATTACGAAACGGCCCCGTCTTAA	MKEQSQRLGTQPIPKLLANLSIPAMIGMFVMALYNVIDTLFIARGVGILGVSGVSIGFPVMMVIMAIAAAVGIGGASVISRRLGADKKDEADLVFGNVLIMIILISSVGFIGAFTFLEPLLKIFGATENIMPYAKDYLFPIMVGSLFFSFAFATNNIIRSEGNSRFAMITMIIPAVLNIILDPIFIFGLDMGVQGASVATVISQATVSIVVLNYFLKGKSSLTVRRAALKLQTKIIREIITIGMPAFIRQVAGSAMMIAINLMLIKFGGEFEVGVFGIVQKLAMFTIMPMIGVLQGMQPIIGYNYGAQNYERLKETVKLGMRVVTIISAGIFVVMMAFPNVLMMIFTGDQATIDTGAHAIRIMFAFAVLIGAQVVSGGLYQALGMAKPAMILSMARQVLFLIPLVLILPNFFGVTGVWLAFPAADLLAFILSMVFLYKDRTLFFKPKHGASNYETAPS				NA	NA	NA	NA	NA
AK012_03661	453			hypothetical protein	ATGAAAAAGCACATGGATGAATCTCTGGGATATCACATTCACATGGTTTCCCATTTTCTAAGAAACGTATATAACGAACGGCTCGGGGAGTATGGATTGACCCATGCGCAGGGAAAAGTCATCCACATTTTAGCCAGAGAGGGCGAGCAGCCGCAGGTGGAGCTGCAGAAGCGTCTGCACATCAAGCCTTCCTCTATGAATGGTGTCGTTGAATCCCTGCTTAAATATGAAAGAATATCGAAGCGGCCGAGCGAAGAGGATAAGCGCACAAAGCTGATCACGCTTACTGAAGCCGGCATGGAACTTCACGAAATGATCGTCACAACGATTAAGGAAATAGAAACAGAAGCTTTCGCTGACCTCTCTCAAGAGGAACAGCAGATTATGACTTCCTGGTTGAAGAGAACACAGGAGCGCATAAAATCACAAACAGCAGGGAGAGAAGACGTATGA	MKKHMDESLGYHIHMVSHFLRNVYNERLGEYGLTHAQGKVIHILAREGEQPQVELQKRLHIKPSSMNGVVESLLKYERISKRPSEEDKRTKLITLTEAGMELHEMIVTTIKEIETEAFADLSQEEQQIMTSWLKRTQERIKSQTAGREDV	PGPT0028980_53	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTIDRUG_TRANSPORT-EFFLUX_PUMP_MepA,PGPT0028980-mepR-K18909	NA	NA
AK012_03662	924	bmrU	COG1597	Putative lipid kinase BmrU	ATGCCGCGATTCGAAACCGGAATACTTCTCTATAACGGAAATAAAGAAGACAATGAAATCACACCTGCGCTCCGGCAGGTTCTGCCTGAAGTCAGTAAAGAGGTCAAAGATCTGCGGGTGATACAGACGGCTTCGCTGGAAGAGCTTCGTGACGTATGCCGGACGCACGGTCCGGAAACAGATGTATTTCTTATCCTTGGAGGAGACGGAACGATTCATGAATGCATCAATAGTATGGCCGATTTGGATAAGCGGCCGGTGATCGGTGTTCTTCCCGCCGGAACGTGCAATGATTTCAGCCGTGTGCTTGATATTCCACAGCGGCTGGATCAGGCGGCTGCTTCGATCATGAAGGGAGAAGAACTGCAGGTGGATGCGGGAAAGACAGAAGATACGTACTTCATCAATTTCTGGGGCATCGGCCTTGTTGCCCAAACATCATTCAATATTGATGAAAACCAGAAAAACCGTCTCGGCGTGCTGAGTTATTTCATCAGTGCGTTAAAAACAGTGAACCGTTCCGAACCCTTCAACTTCTCGTTGACCATTGATGGAGAAAAACTGGAGGGAGAAGCGGTGATGATCATCGTCATGAACGGGCAGTTCATCGGCACCCGGAAAGTTCCGATGTCATCGCTGGATCTGCAGGACGGGAAGTTTGATGTGTTGATCGTCAAAAACTCCAGTCTGGCTGTGTTTAGAGAATGGCTGGCCATGGGAAGAGAGAGATCCGTCGATCAGAAAATACAGGACCTCAGTTACCGTCAGGGGCGTCATATCACTATTGAAACGGAAACGAAGGAAGAGGTGGATATGGACGGGGAAATTAAAACGGAAACGCCCGCACAGATCGATGTGCTTCCGGGGCATTTCACATTTTTAGGAGGCGGACCGAACGCCCTCCATACGACATCTGACGTGTAA	MPRFETGILLYNGNKEDNEITPALRQVLPEVSKEVKDLRVIQTASLEELRDVCRTHGPETDVFLILGGDGTIHECINSMADLDKRPVIGVLPAGTCNDFSRVLDIPQRLDQAAASIMKGEELQVDAGKTEDTYFINFWGIGLVAQTSFNIDENQKNRLGVLSYFISALKTVNRSEPFNFSLTIDGEKLEGEAVMIIVMNGQFIGTRKVPMSSLDLQDGKFDVLIVKNSSLAVFREWLAMGRERSVDQKIQDLSYRQGRHITIETETKEEVDMDGEIKTETPAQIDVLPGHFTFLGGGPNALHTTSDV	PGPT0024345_1206	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-GLYCEROLIPID_REMODELLING	CE-REMODELLING_GLYCEROLIPID_KINASE_ACTIVITY,PGPT0024345-dagK-K07029	NA	NA
AK012_03663	465	mhqR	COG1846	HTH-type transcriptional regulator MhqR	ATGAACGAACATGAATTATACCTTAAGAAAAAACAAGATCCATCATTGAAACTGTTTGTCGTCTTATCAAAGGCGCAGCGGGCGATTGGTGATTTAGTGAAAGAAGATATCCAGCGCTACGAATTGAACCCGACGGAATTCGGCGTACTGGAGCTTCTTTACCATCAGGGTGATCAGCCCCTGCAGAAAATCGGGGAGAAAATTCTCCTTGCCAGCGGCAGCATTACGTATGTCGTGGACAAGCTTGAAAAGAAAGGATATTTAAAGCGTGTCCCTTGTCCGACAGACCGCCGGATTACGTATGCGTCGATTACGGCAGAAGGCAGGGACCTGCTTCATGGTATCTTTCCGGATCACTGGCAGCAGATTGAATCCATCATGAGCGGCCTGACAGATGAGGAAAAAACCGAGGCCATTGCCCTGCTGAAGAAACTGGGGAAAAATGCCGGTCAGCATGAAGAGTAG	MNEHELYLKKKQDPSLKLFVVLSKAQRAIGDLVKEDIQRYELNPTEFGVLELLYHQGDQPLQKIGEKILLASGSITYVVDKLEKKGYLKRVPCPTDRRITYASITAEGRDLLHGIFPDHWQQIESIMSGLTDEEKTEAIALLKKLGKNAGQHEE				NA	NA	NA	NA	NA
AK012_03664	105			hypothetical protein	ATGTTACAGATGCATGCGCTTGATTATCAATTGAATTATCTGCGTCGTGCAATTATTCACATTTCAGCTGTCAACGGGACACGTATGTCCAAAAAAGCCAGCTGA	MLQMHALDYQLNYLRRAIIHISAVNGTRMSKKAS				NA	NA	NA	NA	NA
AK012_03665	1836	yheS_2	COG0488	putative ABC transporter ATP-binding protein YheS	TTGATCATAACCCTTAAACATATCTATAAAATCATTGGCGGCGAAATTTTATTTGAAGACTTGAATATGGAAATCAAAAAAAACCAGCGTGTCGGTCTTGTCGGAAGGAACGGAAGTGGGAAGTCCACCTTGTTCAACATCCTGACCAAAGAAGAAGCGGTCGATGGGGGCGACGTATTTATTCAGAAGGGAGCCACCATCGGATGCTTAAAACAGATGCCGTCCGATTGGGCACGGTCCGGCCGGCAGTATCTGCGATCAGCTTTTCAGGAACTTTTGGAGATGGAGACAGAGATGAAAGCGCTGGAACAGAAAATGATGGTTCCAGAACATATGGAGGGAGCTGTTGAGCGGTATGGCAGCCTGCAGGAGCAGTTTGCAGACCGAGGGGGCTACGAGGTGGAGTCTTCTATCCGTCAGGTGGCACACGGGTTAAAGGTCCACCACATCCTCGATCAGCCCTTCGATACGTTGAGCGGAGGAGAGAAGACGAAGCTTGGTCTTGCGAAACTGCTGCTCGAAAAGCCGGAGGTGCTGCTGTTGGATGAACCGACCAACCATCTGGATTTGAAAGCAGTGGAATGGCTGGAAGGGTTTCTCCAGCAATATCCCGGCACGCTCTGCATCATCTCCCACGACCGTTTCTTTCTCGACCGTGTGGTCACCGATATTCTGGATCTTGATTCTGGAAGCGTGGAAAGTTATAAGGGAAATTACTCGGCCTTTGAAAAGCAGAAGGAAGAAAAGCTGTTGATCGATTTTCACCATTATGAAGAACAGCAGAAAAAGATCAAGAAAATGAAGGATGCGATCCGCCGGTTGAGGCAGTGGGCGAATGAGGCTTCCCCTCCAAGCGAAAAATTGTTCAAAAAAGCGAAAAGTATGGAGCGTGCGCTGGGACGGATGGAGAAAATCGATAAGCCTGCCATGGATCCGAAACGGATGAAGCTTTCCCTCGAGGCGGGAGGCCGGTCAGGTAAAGATGTCTTCATCGTGGATGGCGGAGGAAAGGCCTATGGGGAGACTGTCATTCTCAAAGGGTTCAACCTGCACGTCCGGTATCAGGACCGCCTGGCCGTTGTCGGACCGAATGGCAGTGGAAAGTCTACACTGCTCCGCCTCCTTCTTGAAGAGGAAGAGCTGGATGAAGGGACTATCAAACGGGCACCTGGAATGAAAATCGGCTATCTCCCTCAACACCCGCTCAAGGAGGCGGACCCAGATCAGCGGATAATCGATTTTTACCGCACCTCTATCCGTGTAACAGAAGGAGAGGCGCGCACTCAGCTGGCCGGTTTTTTATTTTACGGCTATGATGTTTTCCGGAAGATCCGTCATTTGAGCGGCGGGGAACAGATGCGCCTGAAGCTCGCCATCTTCATGCAGCAGGACCTTCATGTACTGCTTCTCGATGAACCGACCAACCATCTGGATATCGAATCCCGGGAGGTTTTGGAAGAAGCGCTTGATCGTTTCTCCGGCACGGTGATCGGGGTTTCCCATGACCGTCATTTTCTCAACCGGTGCTTTCAAGAGACGATGTATCTGGCCGGAGGCAGAGGATACCGGTATTCAGGGACGTATGAAGAGACGAAGCACCACTGGCCGGATGAGAAAGAAGAGGGGGCTGAAAAGGAACTGCCCCCTGAAACTGAGGAAGAGCCTGTTTCATTGGAAGGTCAGATTGCGGAGCTCGAAGAAGAGGGCGCCCGTTTGCAGAAGGAACTGGAGAACGCCTCTTCTTCAGAAGTGGAAAGGCTGAAACAGAAGAAACAGAAGCTAGATGCCAGGCTGGAGAGGTTGTATGAAAGCTGGCTGGAAGAAGCGGCTGAATGA	MIITLKHIYKIIGGEILFEDLNMEIKKNQRVGLVGRNGSGKSTLFNILTKEEAVDGGDVFIQKGATIGCLKQMPSDWARSGRQYLRSAFQELLEMETEMKALEQKMMVPEHMEGAVERYGSLQEQFADRGGYEVESSIRQVAHGLKVHHILDQPFDTLSGGEKTKLGLAKLLLEKPEVLLLDEPTNHLDLKAVEWLEGFLQQYPGTLCIISHDRFFLDRVVTDILDLDSGSVESYKGNYSAFEKQKEEKLLIDFHHYEEQQKKIKKMKDAIRRLRQWANEASPPSEKLFKKAKSMERALGRMEKIDKPAMDPKRMKLSLEAGGRSGKDVFIVDGGGKAYGETVILKGFNLHVRYQDRLAVVGPNGSGKSTLLRLLLEEEELDEGTIKRAPGMKIGYLPQHPLKEADPDQRIIDFYRTSIRVTEGEARTQLAGFLFYGYDVFRKIRHLSGGEQMRLKLAIFMQQDLHVLLLDEPTNHLDIESREVLEEALDRFSGTVIGVSHDRHFLNRCFQETMYLAGGRGYRYSGTYEETKHHWPDEKEEGAEKELPPETEEEPVSLEGQIAELEEEGARLQKELENASSSEVERLKQKKQKLDARLERLYESWLEEAAE				NA	NA	NA	NA	NA
AK012_03666	1092			hypothetical protein	ATGACTCATACGTATGTATTTACAGGTTTCCCCGGTTTTCTGGCAGTCGAGCTTCTGAAGGACTTGTTCCGTACCCGCCCGGTGGAGCATATCTACCTTCTTCACTTATCTCATACTGAAAAGGAAGCCCGCAGGCGGCTGCTCGACTGCCTCGAGGATCCGGCCGTGGATCCCAGCCGCATCACCCTCTTGAGCGGGGACATTACAAAGAAAGATCTCGGGCTCGATGCGGCAACGGCTCAGAAGCTGAAGCAGGAGCTCACTCATTTTTATCACCTGGCTGCCCTGTATGATCTGGCCGTACCTCTCGCTCCTGCGCTTCAGGTAAATGTCCAGGGGACACGAGAAGTCCTCCGCTTTCTGCAAGGCTGCCTCGGATTGAACCGCTGCTTGTATTTCAGTACCGCCTACGTATCCGGCAGAAGACAAGGGCCCGTTTATGAACATGAACTGGAGCATAATCATGGTTTCAAGAATCATTATGAATACACGAAATATGAAGCAGAAAAGCTTGTACGCGAATGCCGGCTTCTGCCCATCACCATTATCCGGCCGGGAATCGTTGTCGGCCATACACGGACAGGATCGACAGCGAAGTTTGATGGCCCCTACTATATCTTGAACCTGCTGAATGTACTGAAGTCCCTTCCTGTAGTCCCTTATTTCGGGAAAGGAAAAGCACGGGTGAATCTCGTTCCGCACGATTATGTCGTCCAGGCAGCCAATGTTCTCAGCCACCTTCTGGAAGGAGAAGGAAAAACCTATCACCTCACAGATCCTCATCCCTATACGGCAAAGGACATTTATCATCACTTCACGCACTTGTATGCTGATAAACAGCCTCATCTGACGGTACCCCTTTCAGCTGCCCGCCAGCCGTTAAAGCTGAAGCAAATCCGCAGAAAGCTCGGCATTCAAAGAGAAGCCCTCGACTACTTTGAAACCGCCGCTGATTATGATGCATCGAATGCGGAAAACGATTTAAAGTCTTCCGGCCTGTACTGCCCGGATTTCTTCTACTATACACAGCCCCTTATCCGTTATTATGAGGAACATAAAAACGATCCCGCCAAACATGTCTCTCTATTATAA	MTHTYVFTGFPGFLAVELLKDLFRTRPVEHIYLLHLSHTEKEARRRLLDCLEDPAVDPSRITLLSGDITKKDLGLDAATAQKLKQELTHFYHLAALYDLAVPLAPALQVNVQGTREVLRFLQGCLGLNRCLYFSTAYVSGRRQGPVYEHELEHNHGFKNHYEYTKYEAEKLVRECRLLPITIIRPGIVVGHTRTGSTAKFDGPYYILNLLNVLKSLPVVPYFGKGKARVNLVPHDYVVQAANVLSHLLEGEGKTYHLTDPHPYTAKDIYHHFTHLYADKQPHLTVPLSAARQPLKLKQIRRKLGIQREALDYFETAADYDASNAENDLKSSGLYCPDFFYYTQPLIRYYEEHKNDPAKHVSLL				NA	NA	NA	NA	NA
AK012_03667	279			hypothetical protein	ATGGGAAACCAGAATGTTGTTGTGTACACCAGTCGCGATTGTGCCTCTTGTAACCAGGTCATGGATTTACTGAATGAGTGGAATATAGATTTTGAGGAACGGAACGTATCGGAAAACCGCACCTATTTTAAGGAACTTCAGGGGAAGGGTGTCTACGGGACCCCGGCCACCTTTGTCGATGATCACCGTGTGTTAGGCCTTCAGAAACGTAAACTCCAGCAGGTATTGGGGTTGAGGGAAGATATATATGCTCAAACGGACTCATTCAACTTTTCATAA	MGNQNVVVYTSRDCASCNQVMDLLNEWNIDFEERNVSENRTYFKELQGKGVYGTPATFVDDHRVLGLQKRKLQQVLGLREDIYAQTDSFNFS	PGPT0012940_795	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	NITROSATIVE|OXIDATIVE_STRESS|ROS_REGULATORY_PROTEINS,PGPT0012940-spx|spxA-K16509	NA	NA
AK012_03668	384			hypothetical protein	ATGTACCCATATTATTCCTATCCTTACTATGAGAACTGGTACCGGTATCCGGCTCCTCCTGTGTACAGCCAGGATACTTACCCGCAGGCTTATTATCAGGGGAATGCCTTCTATCCGTATCAAGGAGGCGCCTCCTACGGCTATCCGTATTACCAGGTGAATAGTAACCCTTACTCCGGTTATACTGAAACCGGGAATGAAGGCGGATCCTCCTCTTTTCAACCCGCAGCAGCAGGGAAGAGTGTGATCGGCTATTTTCAAAACGAAGAGGGTCAATTTGATTTTGATAAAATGATGAATACCACCGGTCAGGTGATGAAGACCGTTCAACAAGTCAGTCCGATCGTCAAAGGCATCGGCACCTTTGTGAAGGGGATCAAATAG	MYPYYSYPYYENWYRYPAPPVYSQDTYPQAYYQGNAFYPYQGGASYGYPYYQVNSNPYSGYTETGNEGGSSSFQPAAAGKSVIGYFQNEEGQFDFDKMMNTTGQVMKTVQQVSPIVKGIGTFVKGIK				NA	NA	NA	NA	NA
AK012_03669	711			Thermostable monoacylglycerol lipase	ATGAGTATTGGATGTTTATGTATTCACGGGTATACGGGAAGCCCGGAGGAAGTGCAGCCGCTCGTCGATTTTCTGGAAGCGAGAACGGATTGGGAAATCACCAACCCGACCCTGCCCGGCCATGGGGAGGATCTCGATCTGGAAGGTCACTATTATCAGGAGTGGATTGCAGCTGCTGAACTGGCGCTTCTGGATTTGATGAAACGACACAATGAAGTGTATATCGTTGGATTCTCCATGGGGGGGATGATTGCGGCTTATTTAACGGCTAAATACCGGATCGACCGGCTCGTGCTGCTTTCAGCCGCTGGAAAATACGTAAGCCTGCCGCAGATGGTGAAGGATGTGCTGGAGATGGCCGGAGATGCGTGGAATGGTGTGCTGGCAGACAATGAGCTGTTCCGGCGCTATCAGAAGAAACTCCGGGACACCTACGTGTTCTCAACCGTTGAATTTATGAAATGTGTTCAATTCACACGTCCCTATTTAAGAGAAGTGACCTGCCCCGTCCTGATTATCCAGGGGGAATTGGACGGCATGGTCCCTAAAGCAGCCGCAGATTATTTAGAGGAGGAAATCCCGTCAGAAGAAAAAGAGGTCGTCTTTTTGAAGCAGTCCAAGCACCTTATCTGCCACGGGGATGACCGGGACGAACTGTTCAACAGAGTGCTCGAGTTTATCGGCAGTGCTCAGCGGGAGGGGGTAACATGA	MSIGCLCIHGYTGSPEEVQPLVDFLEARTDWEITNPTLPGHGEDLDLEGHYYQEWIAAAELALLDLMKRHNEVYIVGFSMGGMIAAYLTAKYRIDRLVLLSAAGKYVSLPQMVKDVLEMAGDAWNGVLADNELFRRYQKKLRDTYVFSTVEFMKCVQFTRPYLREVTCPVLIIQGELDGMVPKAAADYLEEEIPSEEKEVVFLKQSKHLICHGDDRDELFNRVLEFIGSAQREGVT				NA	NA	NA	NA	NA
AK012_03670	1266			L-lactate transporter	ATGAATCATAGAAAAGACGGATCACCCTTTTATTATGGATGGGTGATCGTTTTTATTGCGGGTTTGAGCGTGTTTTTCTCAGGACCGGGACAGACGTATTCCATCTCCATTTTCATCGATTATTACATAGAGGATTTTGATTACACACGATCGCTTGTCTCCGGTATTTATTCCGGAGCTACACTGGCGGCAGGACTGACGTTATTTATGATGGGGCGTCTGATTGACCGTTTCGGCCAGCGGGTGATGATGATCTCTGTCGGGACTTGTCTGGCACTGGCACTCTTCTGGAATGCCTTTTTATCAGGCACGTTGATGATGTTCATCGGCTTCTTCCTGATCCGGCTGTTCGGACAGGGATCGATGACGCTGATTCCGAATACACTCGTTCCGCAATGGTTCATCCGGAAAAGAGGACGGGCTCTCAGCGTCATGGCTGTTGGAGGATTCGCAAGCTCCGCTCTGCTGCCCCCGTTGAATACGTGGCTGATTGAAGCATTCGGCTGGAGGATGACGTGGGGGATCTGGGGGACGGCTCTTTTGGTGATTTTTGTACCGCTCGCCTTTTTCCTTGTAAGAAACCGGCCGGAAGATACAGGGGACGTGCCTGATGGCAGCCGGAAACCTTCAGACGGGCAGGAGGTCAAAAATCCGAATGTTGAAGTGAATGAAAAAAACTGGACATTGAAAGAAGCCATGGCCACCAGGGCTTTTTGGTTCATTTTGTTTTGTGTAACGGTTCCTGCGCTCGTCAATACAGCCATTACGTTTCATATGGTGTCCATTATGGAACTGCGCAGTCTTGATGCCGGCGTTGCAGCGATGGTGTTGACGCTTATGGCCGTGGTCGGTTTTCCGGTCACCTTTGTCAGTGGGTGGCTTGTTGACCGGTTCAAGGTCCACTATATTCTGGCCGTTACATTTTTCGGACATCTTTTGACGCTGCTGCTTCTGCTTGTGACGGACTCATGGGCGGCTGCTGTTGGCTTCGGCTGTTTATGGGGAGTGGTGAACGGATTTGAGCGGATTGTGTTGAACATCGTCTGGCCGAATTATTTCGGGCGTGCCCACCTCGGGAGTATTAAAGGGCTTGCTCAGACCGTAATGGTCGTTGGTTCCGCTCTGGGGCCGCTTCCTTTCGGTGTTTTTTATGACTGGCTTGGAGGCTATCAGGAAATCATACTGCTGACCATGCTGTTTCCAGTCACCGCAGCGGTTCTGGCTCTGCTCTCTCCGCAGCCTGATTATGAAACCTATCATGGATGA	MNHRKDGSPFYYGWVIVFIAGLSVFFSGPGQTYSISIFIDYYIEDFDYTRSLVSGIYSGATLAAGLTLFMMGRLIDRFGQRVMMISVGTCLALALFWNAFLSGTLMMFIGFFLIRLFGQGSMTLIPNTLVPQWFIRKRGRALSVMAVGGFASSALLPPLNTWLIEAFGWRMTWGIWGTALLVIFVPLAFFLVRNRPEDTGDVPDGSRKPSDGQEVKNPNVEVNEKNWTLKEAMATRAFWFILFCVTVPALVNTAITFHMVSIMELRSLDAGVAAMVLTLMAVVGFPVTFVSGWLVDRFKVHYILAVTFFGHLLTLLLLLVTDSWAAAVGFGCLWGVVNGFERIVLNIVWPNYFGRAHLGSIKGLAQTVMVVGSALGPLPFGVFYDWLGGYQEIILLTMLFPVTAAVLALLSPQPDYETYHG				NA	NA	NA	NA	NA
AK012_03671	855		COG1307	DegV domain-containing protein	ATGACTACACAACTAATCATCGATGGCGGCGGAGATGTCGCGCCGGGAATGATGGAGAAGCATAATATTCTCTCTGTCCCTTTAAATATTCATTTCGGGGATGAGCATTATAAATCCGAGGAAACCATTGATCTGGAGACATTCTATACAAAAATGAGAAATTCAGACGAGCTTCCCGGGTCTTCTTCCCCGAGCCCGAATGATTTTTATGAAACCTATAAACGCTTGGACCCATCTACAAATATCCTCGTGCTTGCCATCAGCCATGGACTGAGCAGCACGTACGAAAGTGCTGAAATCGGTAAAAACATGCTGCTTGAAGAAGAGCCGGACCGCCGGATCGCTGTCCTGAACACGAAAACAGCCTCCTGCGGCATCGCCCTCCTTGTAGATGAAGCCGGAAAGAAAATGGATGAAGGGGTATCCTTCGATGAGCTTGTCGCCCACATGGAGGACCGCATCGAGAATACGATTACGCTGTTCATTTTAAAAACATTGGAAAACGTCATCAAGGGCGGCCGCCTCGATAAAGTCAAGGGCGCGCTCGCCAAGACCTTGAACATCAAGCTTCTTATGAAAGCAAGTGAGATCGGGGCTGTGGAAGTAACGGAGAAGGTACGGGGAAACAAAAAATCGATCCGCCGTTTCGTGGATCAGATCGGGGAGTACGCCCATTCCTTCGAAGACCGGGTCATCGCCCTTTCCCATTCCAATGATGCAGAACGCGGGAATCAAGTGCTTCAGATGATCAAGGACCGCTATTCATTCAAGGAAAGTCTGTTTATGGATATGGGGCCGTTGATCGCTACTTATGCAGGTGAAGGCGGCCTCGCCATCGCCTTTTTCAAGGATTAA	MTTQLIIDGGGDVAPGMMEKHNILSVPLNIHFGDEHYKSEETIDLETFYTKMRNSDELPGSSSPSPNDFYETYKRLDPSTNILVLAISHGLSSTYESAEIGKNMLLEEEPDRRIAVLNTKTASCGIALLVDEAGKKMDEGVSFDELVAHMEDRIENTITLFILKTLENVIKGGRLDKVKGALAKTLNIKLLMKASEIGAVEVTEKVRGNKKSIRRFVDQIGEYAHSFEDRVIALSHSNDAERGNQVLQMIKDRYSFKESLFMDMGPLIATYAGEGGLAIAFFKD				NA	NA	NA	NA	NA
AK012_03672	918			hypothetical protein	TTGGAAAAGCCTCCGGTGCATCCTTATTTAATTCTGTTTATCGGAGTGGTTTCCATATCCACCTCGGCCATTTTCGTCAAGCTTGCGGGCGACGCCCCTGCTTCAATGACGGCATTCTACCGGCTGCTGCTTGCCGCTGGTCTGATGGCCCCTTATGTATTATGGAAACATTCCGGTGAATTCAAACACATCCATAAAAAAGATTGGCTTCTGGCCACGATCTCAGGAATTTTTCTCGCCTTTCACTTTATCTTCTGGTTTCAATCCCTAAAATATACATCCGTGGCAAGCTCCGTTCTTCTCGTTTCCCTGCAGCCCGTCTTCGCTTTTACGGGCGCCTATCTGTTTTTCCGGGAACGATTCACTGTCGGAGCCATTCTCAGCCTTTTCATTACATTGATTGGCAGCGTCATCATTGGATGGGGGGATTTCCAGCTGAGCGGAACGGCACTGGCCGGCGACATCCTGGCGCTCCTTGGAGCGGTTACGGTAACTGGTTACTTCCTCCTTGGTCAGAGCCTCCGCCAGCGGCTGTCCCTTCTCACCTATACACTGATTGCTTACGGAATGGCAGCCGTAACCCTGGGCCTCTATAACCTGGCCGCGGGCGTTTCCTTCACAGGATACTCCGGGGAGCAATGGTTCATTTTCCTGGCCCTTGCCGTGATTCCGACCTTCTTCGGACATTCGCTGTTCAATTGGACACTGAGATGGCTGAGCGCCGCCTCCATATCCATGGCGGTTCTTCTCGAGCCGATCGGAGCGTCTCTTTTAGCCTACTGGATCCTCAAGGAATCCATCACATGGGTTCAGTGGCTCGGTGGATCCATCGTTTTATTCGGCTTGATGATGTTTATTTTGAGTACGACAAAGAAAGTCGAGCCTACATTAACCCATGAAGTGAAAAAAGGGCCCTGA	MEKPPVHPYLILFIGVVSISTSAIFVKLAGDAPASMTAFYRLLLAAGLMAPYVLWKHSGEFKHIHKKDWLLATISGIFLAFHFIFWFQSLKYTSVASSVLLVSLQPVFAFTGAYLFFRERFTVGAILSLFITLIGSVIIGWGDFQLSGTALAGDILALLGAVTVTGYFLLGQSLRQRLSLLTYTLIAYGMAAVTLGLYNLAAGVSFTGYSGEQWFIFLALAVIPTFFGHSLFNWTLRWLSAASISMAVLLEPIGASLLAYWILKESITWVQWLGGSIVLFGLMMFILSTTKKVEPTLTHEVKKGP				NA	NA	NA	NA	NA
AK012_03673	1479	cshA	COG0513	DEAD-box ATP-dependent RNA helicase CshA	GTGACAACATTCGAATCACTAGGATTATCAAAGCCGATTCTCAAATCATTGGACGTAATGGGCTTTGAAGAAACCACACCAATTCAAGAACAGACGATCCCTCTAGGACTGGAAGGGAAAGACGTGATTGGGCAGGCTCAGACAGGTACGGGTAAGACGGCGGCATTCGGTATTCCGATGCTTGAAAAAATCAACAAACAGGTGAAAGGTGTTCAAGGTCTTGTCATCGCCCCGACAAGAGAACTGGCTATTCAGGTAGCTGAAGAAATGAACCGCCTTGGTAAAGGGAAAGGCGCACGCGTTCTTCCAATTTACGGTGGATCCAACATGGAGCGCCAAATCCGTGCGTTGAAGAATAACCACATCGTGGTAGCGACACCTGGACGTTTACTTGATCACATTCGTCGTAAAACGATTAAACTGGAGAACGTGCACACAGCTGTCCTTGATGAAGCGGACGAAATGCTGAACATGGGCTTCATCGATGATATCCGCGATATTCTGAAGGCTCTTCCAGAAGAACGCCAGACACTCTTGTTCTCTGCAACCATGCCGAAAGAAATCCGCGATATCGCAACAACTCTTATGAACGATCCGGAAGAAGTCAAAGTAAAAGCGAAGGAAATGACGGTGGAAAACATCGAACAGTTCTTCGTGGAAGTTCCGGAAAAACACAAATTCGATACACTGACGCGTCTGCTTGATATTCATGATCCAGCATTAGCGATCGTTTTCGGTCGTACGAAGCGTCGTGTAGACGAAGTCGCTGACGGTCTTCAAGCACGCGGATTCAGCGCAGAAGGCATTCACGGTGACCTGACTCAAGGGAAGCGTATGTCTACATTGAACAAGTTCAAGCGTGGACGTATCGAAATCCTTGTCGCTACAGACGTGGCAGCCCGCGGACTGGATATCTCTGAAGTTTCCCACGTGTACAACTTCGATATTCCACAGGACCCGGAAAGCTATGTACACCGTATCGGCCGTACAGGTCGTGCCGGACGTAAAGGGGAGTCTGTCTCCTTCGTAACACCACGTGAAAAAGATCAGCTTAACTTAATCGAAAAAATCACGAAGAAAAAAGTGGAGCGTCTGAAAGTGCCTTCTTCTGAAGAAGCTGCACGCGGTCAGCAGAAAGTGGCTGTCGAAAAGATTGCTGAAACAGTGAACAACAATGACTTGAACAACTACAAGAATGCAGCGGAAGAACTGCTTGAGCGCTATGAGCCTTCAGATCTTATCGCAGCAGCTCTTAAGATGATGACAAAAGAGCGCAGTGAAGTTCCTGTGAACCTGTCCTACGTTGCACCAATCAGCGTGAAAAACGCTCAGCGTGACAAAGGCAAGAAAAAAGGCGGCTACCGCAAAGGCGGCGGCAACCGTAACTTCAACAACAAGAACAAAAACAAATCCCGCAACCGCAACTTCAGCGGTAAAGGCGGCAAGCGCGGCAGCTACCAAAACAAAGGCCGCAGCTAA	MTTFESLGLSKPILKSLDVMGFEETTPIQEQTIPLGLEGKDVIGQAQTGTGKTAAFGIPMLEKINKQVKGVQGLVIAPTRELAIQVAEEMNRLGKGKGARVLPIYGGSNMERQIRALKNNHIVVATPGRLLDHIRRKTIKLENVHTAVLDEADEMLNMGFIDDIRDILKALPEERQTLLFSATMPKEIRDIATTLMNDPEEVKVKAKEMTVENIEQFFVEVPEKHKFDTLTRLLDIHDPALAIVFGRTKRRVDEVADGLQARGFSAEGIHGDLTQGKRMSTLNKFKRGRIEILVATDVAARGLDISEVSHVYNFDIPQDPESYVHRIGRTGRAGRKGESVSFVTPREKDQLNLIEKITKKKVERLKVPSSEEAARGQQKVAVEKIAETVNNNDLNNYKNAAEELLERYEPSDLIAAALKMMTKERSEVPVNLSYVAPISVKNAQRDKGKKKGGYRKGGGNRNFNNKNKNKSRNRNFSGKGGKRGSYQNKGRS	PGPT0013740_1601	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-OTHER_REGULATORS,PGPT0013740-rhlE-K11927	NA	NA
AK012_03674	771			hypothetical protein	ATGTTTTTACGAACAGAGAGCTTTAAAGAGTTTCTGAGATTTTATCCAGTAGTTTCCGCGCTCGTCGGAATTCATTTCGGTCTATGGCTGCTTGCCGATTTCCTTCAGCTGGGCTTTGCTGTGGATTTGAAGCAGTGGGGCATCGGTGTCAACGTACTCGTGTTAAACGGAGAGTACTGGAGACTGATCACACCCATCTTCCTGCATGCCGGCTTTATGCACGCCTTATTCAATTCCTTTTCCCTTGTGCTGTTTGGACCCGCACTTGAACAGATGCTCGGCCGCGTGAGGTTTATCATCATGTACCTGGCCGCCGGAATCGCCGGCAGCATCGGCACATTCATCGTCAACCCTGATGCGTACTACGCGCATCTCGGGGCATCCGGAGCCATTTTCGGGATTTTCGGAGTTTACGTATTCATGGTGCTGTTCCGGAAGCATTTAATCGACCAGGCCAACGCACAGATTATCATCGTCATTTTTGCCCTGGGGCTTTTCATGACCTTTACCCGCCCGAACATTAACATTCTCGGTCACCTCTTCGGCTTGATCGGCGGTTTCGCCATCGCTCCTGCCATTCTGAAAAATGCCCGCCCGTTTTCTCTCTGGCAGATCCGCACCCGTCATTCCAGCCGGGACAGCGACGAGATTTCGTTTGACCCCAACCGGTGGAAAAAACGACGGTACGGCCGTGGAGGAATCGGAAAATATGTATTGTGGGGCATCATCATTTTTCTTGCCTTGTTTGCACTAGTGAACCGGGCGCTGTAA	MFLRTESFKEFLRFYPVVSALVGIHFGLWLLADFLQLGFAVDLKQWGIGVNVLVLNGEYWRLITPIFLHAGFMHALFNSFSLVLFGPALEQMLGRVRFIIMYLAAGIAGSIGTFIVNPDAYYAHLGASGAIFGIFGVYVFMVLFRKHLIDQANAQIIIVIFALGLFMTFTRPNINILGHLFGLIGGFAIAPAILKNARPFSLWQIRTRHSSRDSDEISFDPNRWKKRRYGRGGIGKYVLWGIIIFLALFALVNRAL				NA	NA	NA	NA	NA
AK012_03675	366	acpS	COG0736	Holo-[acyl-carrier-protein] synthase	GTGATCAAAGGAATTGGAATCGATATGGTCGAAATCGATCGTATTAAACAAAGTATAAAGCGTCAGCCGCGCTTTGTTCAAAGAATATTAACAGAAAATGAATATCAGCGCTGTCTGGCTCTCAAGGAAAAGCGTCAGGCAGAGTTTGCTGCCGGGCGCTTCGCAGCCAAGGAAGCCTTCGCGAAGGCAGCAGGTACCGGCATCGGAGCACTCAGTTTTCAGGATATGGAAATCCTTGCTTCAGAAAATGGGGCGCCGCTTATGACGGCAAAGGGCTATGAAGCGTGCCGTATCTGGGTGTCGATCACCCACAGCCGGAGCCATGCAGTGGCCCAGGTGGTTTTGGAAGAGGACGTCCGGGAATAG	MIKGIGIDMVEIDRIKQSIKRQPRFVQRILTENEYQRCLALKEKRQAEFAAGRFAAKEAFAKAAGTGIGALSFQDMEILASENGAPLMTAKGYEACRIWVSITHSRSHAVAQVVLEEDVRE	PGPT0008840_3337	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-ARYLPOLYENE_BIOSYNTHESIS,PGPT0008840-acpS-K00997	NA	NA
AK012_03676	1494	nnr	COG0062	Bifunctional NAD(P)H-hydrate repair enzyme Nnr	TTGGATATTGTAACCGCACAAGAGATGTACGAACGGGATCAGGCTGCGGCAGAGGCCGGTCTGGCAGGACCGATGCTTATGGAGAATGCCGGACGTGCGGCCGCCTGTGATCTGGTCAGACACATTCAGAAATCGGACAGGATCATCGTATGGATAGGTGCCGGGAGCAATGGCGGAGACGGTTTCGTGATTGCGCGTACCCTTTTGAACCTTGGGTACACGGTCGAGGCTGTACAGGTTGTTCCGGATGACAAAATCAAAGGAGACGCAGCTGTGCATAAGCAGATCTTCCAAGCTTCCGGTCACATAGTGAAAAAATGGACGGATGTGGAAGACGCGGAAGGGTATCTGCGGCGCGCGGATGTTTCTATAGACGCCATGCTCGGCATCGGTGTCCGGGGTGATCTGCGTGAACCTTATAACCAAATCGTCCGGTACTGCAATGAGGCTCCTCTGCTTCGTCTTGCCGTCGACCTCCCAACCGGCGTTCCTGCGGATGAAGGAGTAGAGGAGTTCACGGCCTACAAAGCCGATTATACATCGGTGATCGAGGCTCCGAAACTGAGTGTGTTTCTCCAGCATACACAGCCCTGGTACGGGCAGTGGTCTGTCGTTGAAATCGGCATTCCGCCAAAAACCGCTCCTTCTGTGAATCGGCGTTTGTGGACGGTGGATGATGTGAAGCAGACACTTCCTTCCCGTGATGACCATTCGCACAAAGGTTCCCACGGCAGGGGGCTGGTCATTGGAGGTTCGGTTCTAATGCCGGGGTCTGCCGCGATGACATCACGGGCTGCGCTTAGAAGCGGAGCTGGATTGGTTGCCATCGCCACGGAGGAAGGGGCGGTTCCATCCATTTCCCCTTATGTCCAGGAGGCCACATTTGTCCAGAGGGACACGCTGGATCTGTCTGCATACGATGGTGTAGCGGCTGGCATGGGTATCGGAAGAGGAGACGCTTCTCAAGAGCTGATCCGCCACGCTGTTACTCATACCGACGGCCCCTTATTGATTGATGCGGACGGGTTGTATGTGCTGAAAGACTTCCTCGGGGAGTTGGAAAAGAGGACGGCTCCGACCATCCTTACCCCGCACCCGGGAGAGTTTGCCCATCTGACCGGCTTGTCGATCAAGGAGGTCCTGCTTTCTCCATTTTCTCTGGCCGAAGCGTTTGCCCGCAGGTATGGGGTTTACCTCGTCCTGAAAGGTCCGTCGACCATCATTACGGCGCCGGATGGAGAGCAGCGCGTGGATGCCACAGGGAATGCAGGGCTTGCTAAAGGCGGCAGTGGAGATGCGCTGGCGGGCATTCTGCTTTCGATGCTGATGCAGCACACATCCACGTTGGACGGACTCAGCAGTGGCTGCGTCCTGCACGGATACACAGCGGATCAACTCGTACAGCAGGGCCATTCAAAAGTGGACCTGCTGGCCACCGATGTCATTGACGGGCTGTCCCATACCTTTCGTACACTCTCTTCATCCATAACATAA	MDIVTAQEMYERDQAAAEAGLAGPMLMENAGRAAACDLVRHIQKSDRIIVWIGAGSNGGDGFVIARTLLNLGYTVEAVQVVPDDKIKGDAAVHKQIFQASGHIVKKWTDVEDAEGYLRRADVSIDAMLGIGVRGDLREPYNQIVRYCNEAPLLRLAVDLPTGVPADEGVEEFTAYKADYTSVIEAPKLSVFLQHTQPWYGQWSVVEIGIPPKTAPSVNRRLWTVDDVKQTLPSRDDHSHKGSHGRGLVIGGSVLMPGSAAMTSRAALRSGAGLVAIATEEGAVPSISPYVQEATFVQRDTLDLSAYDGVAAGMGIGRGDASQELIRHAVTHTDGPLLIDADGLYVLKDFLGELEKRTAPTILTPHPGEFAHLTGLSIKEVLLSPFSLAEAFARRYGVYLVLKGPSTIITAPDGEQRVDATGNAGLAKGGSGDALAGILLSMLMQHTSTLDGLSSGCVLHGYTADQLVQQGHSKVDLLATDVIDGLSHTFRTLSSSIT				NA	NA	NA	NA	NA
AK012_03677	1029	ydcC	COG2834	Sporulation protein YdcC	ATGCAAAGACGTTTTCTGATCCTTTTATTCAGCCTGTTCATCCTGGGGGCTCTGACCGCGTGCGGCTCCCAGTCAAAAGAGGATGTAATCAAGAAGCTTGAGAAACAGACAGAAGAGATGGCGGGTTATAAAACGGAAGCGAACATGAAGATGCGCACAGGCAAGGAAGAGCAGAAGTATCACATTCAAGTGTGGCACAAGAAAGACGATTACTACCGCGTCAAACTTCAGAACGATCAGGATGAAAAGGGGAGCCAGGTCATTCTGAAAAACGATACCGGTGTCTATGTTCTCACTCCGGCTTTGAATAAGAGTTTCAAATTCCAGAGTGACTGGCCGCAGAATACAAGTCAGCCCTATTTATTTGCTTCTCTTCTAAATGATATCAAGGCCGATCCGGAAGCGGAATTCACAGCAACGGAAAACTATTTTAAATTCAAGACGAAAACCAACTATCAAAATAACAAAACACTCCCTTACCAGGAAATTTATTTCGATAAAAAATCCTACCAGCCCGTTATGGTCAAAGTCTTTGATCAGGATATGAATGCGCTCGTAGAAGTTTCGTTTGCGAACTTCACTAAGGATGACTCGCTGAAAAAAGAGGATTTTGATGTAGACAAAAATATGGCGATGTCACCAGCTGAGGCTCCGGTAGCGAACATGGAAGGAGCGGATGAGGAGCTTGAGGAAGTGCTGTATCCGCAGGAAACCTTCGGTGCAGAGCTTGCGGAAGAGCGGGAAGTGAAGACAGATGACGGCAGACGTATGATCATGACCTATGCCGGAGACAAGAACTTCACACTCGTTCAGGAAAAGGCGGAAGTGCAGCCGGCAAGTGCCCAGTACTCGGTTCATGTGAATGGGGATCCGGTGCAGCTGGATGACGGCGTCATCGGGGCGCTGGAGCATAACCGTCTGGAGTGGAGCCATAACGGAACGACCTACCAGCTTGCCAGCAACGAGCTGACCGAGGAAGAAATGGTCGCCGTGGCCAGTTCCATCAACCATGGAGCTATGGTGAAATAG	MQRRFLILLFSLFILGALTACGSQSKEDVIKKLEKQTEEMAGYKTEANMKMRTGKEEQKYHIQVWHKKDDYYRVKLQNDQDEKGSQVILKNDTGVYVLTPALNKSFKFQSDWPQNTSQPYLFASLLNDIKADPEAEFTATENYFKFKTKTNYQNNKTLPYQEIYFDKKSYQPVMVKVFDQDMNALVEVSFANFTKDDSLKKEDFDVDKNMAMSPAEAPVANMEGADEELEEVLYPQETFGAELAEEREVKTDDGRRMIMTYAGDKNFTLVQEKAEVQPASAQYSVHVNGDPVQLDDGVIGALEHNRLEWSHNGTTYQLASNELTEEEMVAVASSINHGAMVK				NA	NA	NA	NA	NA
AK012_03678	1158	alr		Alanine racemase	GTGCAGCAGGACAGATACTATAGAGATTCGATAGCGGAAATTGATTTATCAGCCATAGAAGCAAACATTCAACAATTGAGGCGCAGACTCCCCTCTGAATCAGGGATCTATGCGGTCGTCAAAGCAGATGCCTACGGTCACGGCGATGTGCAGATCGCAGCGGAAGCTCTGCGCGCAGGTGCGGCCGGCCTGGCAGTTGCCATTATGGATGAAGCGCTCAAGCTTCGGGATGCAGGGGTGGAGGCCCCGATTCTTGTTATGGGATGGACGCGCCCGGAAGACGCTCCGCTGGCGGCGGCCAACGACATCACGGTTACGGTTTTTCAGGAAGAATGGCTGCATCAGGTGCAGACGGCCGAGTGTGAGAAGCCACTGTCCATTCATTTGAAGCTAGATACAGGAATGGGAAGAATCGGTGTCCGTAATACGGAGGAAATGGACGGTGTCCTGCGGGCTGTCAAAGCCGATGATACGTTCAGGCTGACCGGGATCTTCACTCATTTTGCCACCGCTGATGATGAGGATACGGATTACTATCGGCAGCAGGCGGACGAATTTCAGCGATTGGCAGAGCATTTTAAGAGGAATTGGCCGGAAGATGTCGAAATACATACGAGTAACAGTGCGGCAAGTATGCGTTTTCCTGAGCGGATGGACCACTTTGTCCGTTTCGGGATCAGCATGTACGGACTTTATCCATCCGCAGATGTGAAGCAGGAGCGGCCTGTAGAATTGACCCCGGCCTTTTCCCTGACCAGCTGTCTTGTGCACGTGAAACGGGTGGGACCCGGAGAATCGATCAGCTACGGAGCGACGTATACGACAGAAAAAGAAGAATGGATCGGAACCGTTCCATTGGGTTATGCCGATGGCTGGATCCGCCGCCTGCAGGGCATGGAAGTCCTCGTCGACGGGAAACGCCATCCGATTGTCGGAAGAATCTGCATGGATCAATTCATGATTCAGCTGGATCAGGAATATCCTATAGGGACAAAGGTTACCTTAATTGGTAAACAGGGGGATGACGAAATCACGGCGGATGAAGTAGCTGCCTGGCTGGATACCATCAATTATGAAATTCCCTGTATCATCAGCCACAGGGTTCCCCGTGTGTACCGGAAAGACGGGAAGACGATAGAAGTAAGAAATACGTTGTGA	MQQDRYYRDSIAEIDLSAIEANIQQLRRRLPSESGIYAVVKADAYGHGDVQIAAEALRAGAAGLAVAIMDEALKLRDAGVEAPILVMGWTRPEDAPLAAANDITVTVFQEEWLHQVQTAECEKPLSIHLKLDTGMGRIGVRNTEEMDGVLRAVKADDTFRLTGIFTHFATADDEDTDYYRQQADEFQRLAEHFKRNWPEDVEIHTSNSAASMRFPERMDHFVRFGISMYGLYPSADVKQERPVELTPAFSLTSCLVHVKRVGPGESISYGATYTTEKEEWIGTVPLGYADGWIRRLQGMEVLVDGKRHPIVGRICMDQFMIQLDQEYPIGTKVTLIGKQGDDEITADEVAAWLDTINYEIPCIISHRVPRVYRKDGKTIEVRNTL	PGPT0020040_1494	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_RELATED_RACEMASES,PGPT0020040-alr-K01775	NA	NA
AK012_03679	276	ndoAI	COG0864	Antitoxin EndoAI	TTGTCCGACAGCATGCAGGAGATTGTCATCCGGATTCCGGATAACCTACTCAATGAAGTGGATGGCTTCATTCAACTCGATAACAGTGATCGGAGCGATTTCATGTGTCAAGCAACTAAAATGTATTTGCGTGAGAAAAAACAACGTCATATTCGGGAATCGATGCGAAGAGGTTACATGGAAATGGCGAAAATCAATTTAAACATCGCTTCAGAAGCGTTTCAAGCTGAAGAGGAGGCCGAACACACCCTGGAGCAATTAGTGAGCGGGGTGTGA	MSDSMQEIVIRIPDNLLNEVDGFIQLDNSDRSDFMCQATKMYLREKKQRHIRESMRRGYMEMAKINLNIASEAFQAEEEAEHTLEQLVSGV	PGPT0027400_153	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-MazF-MazE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027400-REGULATION|antitoxin_ndoAI-K07723	NA	NA
AK012_03680	360	ndoA_2	COG2337	Endoribonuclease EndoA	GTGAAGCCTGTGATAGTCAAACGAGGTGACGTTTATTTCGCTGATTTGTCCCCGGTTGTGGGATCCGAACAAGGCGGCGTTCGTCCTGTACTCATCCTTCAGAATGACATTGGTAATCGCTTCAGCCCGACCGTAATTATTGCCGCGATTACAGCGCAAATACAAAAAGCCAAACTTCCTACTCACGTTGAAATCAATGCAGAAAAATATGGGTTCGAGCGAAATTCTGTGATCCTATTGGAGCAAATCAGAACGATTGACAAGCAGCGTTTGACCGACAAGATCACCCAATTGGACGAACCGATGATGCAGCAGGTGAATAAATCCCTGCAGGTCAGCCTCGGTTTGATCGACTTCTAA	MKPVIVKRGDVYFADLSPVVGSEQGGVRPVLILQNDIGNRFSPTVIIAAITAQIQKAKLPTHVEINAEKYGFERNSVILLEQIRTIDKQRLTDKITQLDEPMMQQVNKSLQVSLGLIDF	PGPT0027390_979	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-MazF-MazE_TOXIN-ANTITOXIN_SYSTEM,PGPT0027390-toxin_mazF|ndoA|chpApemK-K07171	NA	NA
AK012_03681	870	rsbRA	COG1366	RsbT co-antagonist protein RsbRA	ATGGATGAACGATTAAAAAACGTAGTGCTGGAACACAGCGACGATATTGTCAATATGTGGTTGAAGGAAGTTGATGCTCATAAAAAGAATGATTATACATCAACGATTTCTGAGGAAATGTTTGAAAATACGAACCGGGAGTTCGTGAACGTCATATTCTCAAGCATTGAAAAACAGGGGTTGTCCTCGGATCTGGACGATTTTTCTGAACGCCTCATCAATCTTGGCTGGCCTTTGAGCTACCTGACGGACGGCATGCAGGTATTCCGCCGCGTTGTAACGGATTTTATACTCAAGCAGTCGGAAAAGGTCGATTCCGATCATTTTTCTGAAATTCTGAGAGAAGTGGACGGATGGGTGGATCCGATCATCAACCGTCTCGTCAATGAGTATTCAGGGAGCTGGGAGCACATCGTTTCACTGCAGCGGGTGGCTCTTCAGGAATTATCAGCACCGCTGATCCCTGTGATGGATAACATCACGATCATGCCGTTGATCGGTACGATTGATACGGAAAGAGCCAAGCTGATCATGGAAAACCTGCTGGATGGCGTGATTAAGCATAATGCGGAAGTCGTGCTGATCGACATTACGGGAGTGCCGGTTGTCGATACGATGGTGGCGCACCACATTATCCAGGCGGCAGAAGCGGTCCGTTTGATCGGTTCACGCTGTATTCTCGTCGGAATACGCCCGGAAATTGCACAGACGATCGTCAATCTCGGTATCGATCTTGGAAAGTTCCCGACGAAGAGTTCCCTCCGCAAAGGCTTCCAATCAGCTCTTGAGCTGACAAACCGCCGTATTGAGGACACTCGCTCCAACGACCAGGACATTGAAAAACTGATTGATTCGCTAGATGGGGAGTGA	MDERLKNVVLEHSDDIVNMWLKEVDAHKKNDYTSTISEEMFENTNREFVNVIFSSIEKQGLSSDLDDFSERLINLGWPLSYLTDGMQVFRRVVTDFILKQSEKVDSDHFSEILREVDGWVDPIINRLVNEYSGSWEHIVSLQRVALQELSAPLIPVMDNITIMPLIGTIDTERAKLIMENLLDGVIKHNAEVVLIDITGVPVVDTMVAHHIIQAAEAVRLIGSRCILVGIRPEIAQTIVNLGIDLGKFPTKSSLRKGFQSALELTNRRIEDTRSNDQDIEKLIDSLDGE	PGPT0014945_550	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014945-rsbRD|yqhA-K17763	NA	NA
AK012_03682	357	rsbS	COG1366	RsbT antagonist protein RsbS	ATGAGGATACCTATATTAAAGCTTCATAACTACCTGTTGATTTCTATTCAAATCGACCTTGATGATCAGACGGCTATCCAGTTCCAGGAAGACCTGTTGAAAAAAATCCATGAGAGTGGAGCTACAGGTGTCGTCATTGACCTGACTTCTGTCGACATTATCGATTCATTTATTGCTAAAGTACTCGGCGATGTCGTAACGATGTCAGATTTAATGGGGGCAAAAGTAGTGCTGACTGGAATTCAGCCTGCGGTAGCCATGACGCTGATCGATTTGGGCATTCATATGCAGGATGTTCCTACAGCTTTAGATCTAGAACAAGGATTGATTAAACTTCGCCAGGAATTGGAGGAGTGA	MRIPILKLHNYLLISIQIDLDDQTAIQFQEDLLKKIHESGATGVVIDLTSVDIIDSFIAKVLGDVVTMSDLMGAKVVLTGIQPAVAMTLIDLGIHMQDVPTALDLEQGLIKLRQELEE				NA	NA	NA	NA	NA
AK012_03683	402	rsbT	COG2172	Serine/threonine-protein kinase RsbT	ATGGATTTTCAATCCTGTGTGAACATACAAAAGGAGTGGGACATTGTCGGAGCAAGGCAGCTGGGCCGTGATATCTCCAGGAAGATCGGCTTCGGTACCGTTGATCAGGCAAGGATCGCCACTGCCATCTCGGAATTAGCGAGAAACATTTATTTATATGCAGGGACCGGAAAAGTGTGTTTTGAAACGCTTGAGGACATGAACAAAAAAGGCATCCGGATCGTTGCCATGGACGAAGGACCTGGGATTCAGGATATCAGCCAGGTCATGGAGGACGGCTTTACGACTTCCGGAGGACTGGGGGCAGGCCTGCCCGGTGTAAAGCGGCTGATGGATGAGTTCGATATTATATCCCAGGTAGGGGAAGGTACAGAAATCAAGGTTGTGAAATGGCTCCGTTAG	MDFQSCVNIQKEWDIVGARQLGRDISRKIGFGTVDQARIATAISELARNIYLYAGTGKVCFETLEDMNKKGIRIVAMDEGPGIQDISQVMEDGFTTSGGLGAGLPGVKRLMDEFDIISQVGEGTEIKVVKWLR				NA	NA	NA	NA	NA
AK012_03684	1011	rsbU	COG2208	Phosphoserine phosphatase RsbU	ATGAGTACATTAAAACTCGACTTGGAAAATTATAAAGAGCTGCTGCAGGAGTATATTAATACGAAAGATGAGCAGGCTCTGTATCAGGCAGAGCAGTTCAGTAAATACTCCATGCAGCAGAATATATCACCGGAAGAAATTATTAACGTGCACATTCAATCATTACAGGAAATATACCCGGATATGCCGGAGTATATTCAAACATCCATGAATTTCCTTTTAGAAACCATGATTTCCTATGGTCTCGCCTATCAGGAATATCAGACTCTCCGGGAGAAACAGCTGGAGCTCAAGTCGGAAATATCGGTTGCAGCCAATATGCAGAAAACACTCCTGTCTACGGTGAAGCCGGATATTGATGAACTGGATGTCGGGGCACTCAGCGTACCGGCTAAACAGATGAACGGTGACTACCACCATTTTGTCCATGACGAGAAAGGTGGTCTGGGTATAGCGGTGGCTGACGTCATCGGAAAAGGAGTTCCGGCTGCTTTGTGCATGTCCATGATCAAATACTCCATGGACAGTTTCTCGGAGATGCAGACCGACCCGAATGTCATCTTAGGCAGCTTGAACCGGGTCGTCGAACGGAATGTCGATGCAAGCATGTTCATTACGATGTTCTATGGCTTGTATAACAATAACAATCATACCTTTACTTATGCTTCTGCCGGTCATGAGCCGGGCTTTTATTATCATAAGGATAAGGACGAATTTGAAGAGATTGATGCTCCGGGCCTTGTTCTCGGTGTGTCCCCTGAAATCACTTATACCCAGTATGAGAAACAGGTGGAGAAGGGCGATATGATCGTCCTCTTGACCGATGGCGTAACGGAGTGCCGCACGGGTGACCGTTTTATCGAGCAGGAAGAAGTGCTCCATGTCATCAAGCAGTATTCCCATCTTCCTGCACAGGGCATCGTTGACCAGGTGTACAAGCACTTTGAGCGCCTCCAGGACTTCCATCTGCGTGATGACTTTACGTTGATCATCCTGAGAAGGAATGTTTAA	MSTLKLDLENYKELLQEYINTKDEQALYQAEQFSKYSMQQNISPEEIINVHIQSLQEIYPDMPEYIQTSMNFLLETMISYGLAYQEYQTLREKQLELKSEISVAANMQKTLLSTVKPDIDELDVGALSVPAKQMNGDYHHFVHDEKGGLGIAVADVIGKGVPAALCMSMIKYSMDSFSEMQTDPNVILGSLNRVVERNVDASMFITMFYGLYNNNNHTFTYASAGHEPGFYYHKDKDEFEEIDAPGLVLGVSPEITYTQYEKQVEKGDMIVLLTDGVTECRTGDRFIEQEEVLHVIKQYSHLPAQGIVDQVYKHFERLQDFHLRDDFTLIILRRNV				NA	NA	NA	NA	NA
AK012_03685	327	rsbV	COG1366	Anti-sigma-B factor antagonist	ATGAATTTATCGATAGATGTGACAAAAAATGACGGCGTGGCGAACGTAATGCTTGGCGGAGAAGTCGATGCATTCACGGCGCCCCAGCTTAAAGAAACGCTGCTTCCATTGACGAAGGAGCAGGATGTCGTTGAAGTGAATCTTCAAGACGTGAACTATATGGATTCCACAGGACTGGGCGTGTTTATCAGTGCCCTGAAAGCGACGAAGGAAAACGACAGCACGCTCCGGCTCGTTCATATGCAGGATCGTGTCTACCGTCTGTTTAAAATTACCGGGCTGACAGAAATTATGAACATCGATTCTACAGTGCAAGGTGGAATGTAA	MNLSIDVTKNDGVANVMLGGEVDAFTAPQLKETLLPLTKEQDVVEVNLQDVNYMDSTGLGVFISALKATKENDSTLRLVHMQDRVYRLFKITGLTEIMNIDSTVQGGM	PGPT0014350_2493	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014350-rsbV-K04749	NA	NA
AK012_03686	480	rsbW_2	COG2172	Serine-protein kinase RsbW	ATGATGGAACCATTTGATTTTGTTGAAGTGAAGGTGCCTGCGAAAGCGGAATATATCGGAGTTGTGCGTCTGAGCACGTCCGGGATTGCCAACCGCATGGGCTTTTCGTATGAAGATATTGAAGATTTGAAGGTGGCTATTTCAGAAGCGATTACCAACGCTGTCAAACATGCCTATAAAGAAACGGGTGAAGGTGAAATCACCATCGGTTTCGGTGTTTATCAGGACAGGCTTGAGGTAATGGTGGCCGATCACGGCGGAAGCTTCAACCTTGGTGAAGTGAAAGAGGACATCGGACCTTATAAACAGGACGGTGATATTGAAGAGCTCCGCGAAGGCGGATTTGGCCTGTTTTTGATTGATGCCTTAATGGATAAAGTCGAAATCAACAGTAAATATGGAGTGATTGTATTAATGACGAAATACCTCCATGAAACCGGGGTGGGTCAAAATGGCGACCAGATCACAACACCACAATGA	MMEPFDFVEVKVPAKAEYIGVVRLSTSGIANRMGFSYEDIEDLKVAISEAITNAVKHAYKETGEGEITIGFGVYQDRLEVMVADHGGSFNLGEVKEDIGPYKQDGDIEELREGGFGLFLIDALMDKVEINSKYGVIVLMTKYLHETGVGQNGDQITTPQ	PGPT0014950_453	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014950-rsbW-K04757	NA	NA
AK012_03687	780	sigB	COG1191	RNA polymerase sigma-B factor	ATGGCGACCAGATCACAACACCACAATGAAGAAGTTTACGAATGGATTGCCTACTTACAGGAGAATCCGAAAGATGAGGCTGTACAGGAGAAAGTGGTCCTTGTTTATAAGGACCTTGTAGAGTCCATCGCCCGTAAATATTCGAAGAACAGTACGATTCATGAAGATCTCGTCCAGGTGGGGATGCTGGGTCTTCTGGCAGCAATCCGCAGGTATGATAAGGATTTCGGGAAATCGTTCGAATCGTTCGCAATCCCGACCATCATCGGCGAGATTAAACGCTTCATCCGCGATAAGACGTGGAGTGTGCATGTCCCCCGCCGGATCAAGGAACTCGGTCCAAAGATCAAAAAAGCAGCCGAAGAACTGACGAATATCCAGCAGCGTTCTCCATCCGTCCTTGAGATTGCCGAATACCTGGAGGTCTCCGAAGAGGATGTACTGGAAACGATGGAAATGGGTAAAAGCTATAAGGCGCTTTCTGTGGACCGGAAAATCGAAGCGGATTCAGATGGAAGTACCGTCACGATTCTCGACCTTATCGGGAATCAGGATGAAGGATACTCCAATATTGATCAACGGATGCTGCTGGAAAAGGTCCTGCCGATTTTAAGCGAGCGGGAACAGGAGATTCTGCAGTGTACGTATTTTGAAAACATGAGTCAAAAAGATACAGGCGAGCGGCTGGGCATTTCCCAGATGCACGTATCCCGGCTGCAGAGACGGGCGCTGCGTAAATTAAGAGAAGCTCTCCAGTCGGAATCGGTTGAGGTGTTCTAG	MATRSQHHNEEVYEWIAYLQENPKDEAVQEKVVLVYKDLVESIARKYSKNSTIHEDLVQVGMLGLLAAIRRYDKDFGKSFESFAIPTIIGEIKRFIRDKTWSVHVPRRIKELGPKIKKAAEELTNIQQRSPSVLEIAEYLEVSEEDVLETMEMGKSYKALSVDRKIEADSDGSTVTILDLIGNQDEGYSNIDQRMLLEKVLPILSEREQEILQCTYFENMSQKDTGERLGISQMHVSRLQRRALRKLREALQSESVEVF	PGPT0015025_1417	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-MOTILITY|CHEMOTAXIS	OTHER_MOTILITY_REGULATING_FUNCTIONS	OTHER_MOTILITY_REGULATION,PGPT0015025-sigM|rpoE-K03090	NA	NA
AK012_03688	597	rsbX		Phosphoserine phosphatase RsbX	GTGGAAATGGGGAACGAACGGGTGGAGTTATCTGTCTTCCAAAAAGCAAAAAAAGGGAATTATTACTGTGGCGACAGTTATTTTTACCGCGAAACAGATGATGCGTTCCTTTGTGCACTGGCTGATGGCCTCGGCAGTGGAGAGATGGCGATGGAATCTTCAAAAGCGGTCATGGAAATCATTGAAGATCATCCTTCTCTTTCTGTAGAGGCGCTCGTGAAAAAGTGTAATGAAGTGCTGGTCGGAAAACGCGGAGTTGTGCTCGGTATTTTGAAAATCGATTACAGCGGAATGACATATTCGTATTCTTCCATCGGGAATATCGGGGTCATTACTGTAGATCCTGACGGCACACGACACCGGAATATCCCGCTTGCAGGGTATTTATCCGGCTATTCCAGATCGCTGAGGGTTACTCACGGGAAAATCCAGAAAGGAATGATTTTTCTGATGTTCTCTGACGGAGTAAACGACCGCCGCTTGTCTGCAAAGCTGACACATGTACGAAACGCTGAAGAGATTACGACCTTGTACAAAAATCTCTACGGCCAGAACCGCGAGGACGATACAACATTAATAGCGATGGTTTATCACTAA	MEMGNERVELSVFQKAKKGNYYCGDSYFYRETDDAFLCALADGLGSGEMAMESSKAVMEIIEDHPSLSVEALVKKCNEVLVGKRGVVLGILKIDYSGMTYSYSSIGNIGVITVDPDGTRHRNIPLAGYLSGYSRSLRVTHGKIQKGMIFLMFSDGVNDRRLSAKLTHVRNAEEITTLYKNLYGQNREDDTTLIAMVYH	PGPT0014955_180	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014955-rsbX-K05518	NA	NA
AK012_03689	2169	yhgF	COG2183	Protein YhgF	TTGAGTGATTGGAAAAACAGCCCGGAGCTGATTAAATCAGTAGCCGGACAAATGAAGCTGAAAGATAGTATTATTCAGCAGGTGATTCAACTGCTGAACGAAGGAAATACCGTGCCGTTCATCGCCCGTTATCGTAAGGAGATGACCGGTGGTCTTGATGAAGTTCAAATTAAGTCTATTGAAGATCAGTGGAATTATGCCGTCAATCTTGCCGAACGTAAGGAAGAAGTCGTTCGTTTAATTGACGAGCAGGGGAAATTAACGGATGAATTGAAAGCCGACATAGAGAAAGCAGAAAAACTCCAGAAGGTGGAGGATCTCTACCGACCTTATAAGCAGAAAAGGAGAACCCGAGCCACAGCAGCGAAGGAGAAGGGGCTTGAACCCCTGGCCCTTAAAGTCTGGGAACAGGAGGAATTTGCCTTTGCATTGGAGGCGGAGACCTATGTTTCTGAAGAGCAGGAGCTGCTGTCCATTGAGGATGTGCGCGCCGGCGTCAATGATATTCTGGCGGAATGGATTTCGGAGGATGCAGCATTTCGTGAAAGAATTCGTAAACAGACGCACGAAAAGGGGACCATCGCATCTGCAGAGAAGGACAAGGCCAAAGATGAAAAAGGCGTCTTTGAAATGTACTATGATTACCAGGAACCTGTCCGGTCGATGGCTTCCCACCGTGTGCTGGCTGTAAACCGTGGGGAAAAGGAAGGTATCATTAAGGTATCCGTCCAGCCGCCCGAAGACAGTATTAAGCAGTACCTTGAAAAAGAAGTGGTGAAACGGGGAACAACCGGGGAACTCAGGGATATCTTGACGGAGTCCATCCAGGACAGCTATAAACGATTGATCCAGCCTTCTGTGGAAAGAGAAATCCGCAATGCCCTTTCTGAAGTGGCGGAAGAGCAGGCGATTGATGTGTTCTCCAGTAACCTGAGAAGCCTTCTGCTTCAACCACCGCTGAAAGGGAAAATCGTCCTTGGTGTGGACCCGGCATATCGGACCGGTTGTAAGCTTGCTGTCATCGATGAGACAGGGAAGGTTCTTGACATTGGAGTCATATATCCAACGGCCCCTAAAAAGGATACCAAAGGTGCAGAAAAGAAACTTCTTGCTTTAATGGATCAGTATCAGATGGAGCTTATCGCTATTGGGAACGGAACAGCCTCCCGGGAAACGGAACAGTTTATCGCAGATATGATTCAGAAGCACAGCTGGGAAGCTTCCTATATGATTGTGAATGAAGCTGGGGCCAGTGTATATTCAGCGTCCAAGCTTGCCCGGGAAGAATTTCCGGATTTCCAAGTGGAAGAAAGAAGTGCTGTATCCATTGCCCGCCGCGTTCAGGACCCATTGGCGGAATTGGTGAAAATCGATCCGAAATCAATCGGGGTGGGACAGTATCAGCACGATGTGACCCAGAAGAAATTGAATGAGTCTCTGACGTTCGTCGTAGAAACGGCGGTTAACCAGGTGGGTGTGAATGTGAACACTGCCTCCGCTTCGCTTCTTCAATATGTATCCGGTTTGAGTAAAACAGTGGCGAACAACATCGTGAAGAAGCGGGAGGAACTCGGAAAGTTCTCGAAGCGCAGCGAACTCAAGGACATACCTAGGCTTGGAGCCAAAACCTTTGAGCAGAGTATCGGATTTCTCCGTGTGCTGGAGGGGGAAGAACCGCTCGACCGGACGTCCATTCACCCGGAAAGTTATCAAGCAACAAGAAAGCTGCTTCAGAACATTGGATTTACGAGTAAGGACCTTGGAAATGACCAGTTGAGCGAAGAACTGAAGCAGTTGGATATGACGTCCGCTGCGGAAGAGTACGGTATAGGGACACTCACACTCACAGATATCCAAAAAGCCTTGATCCAGCCGGGCCGTGATCCACGTGATGATCTTCCTAAGCCGTTGTTGAAGACCAACGTTCTTTCCATGGAGGATCTGGAAGAGGGGATGGAATTGGAAGGAACCGTCCGTAACGTCGTCGATTTTGGGGCCTTTGTCGACATCGGTGTGAAACAGGATGGGCTTGTCCATATTTCCAAACTGGCAGATAAATTCGTCAAACATCCGATGGACATGGTTTCTGTCGGAGACGTTGTCACGGTATGGGTGGACAAAGTGGATGTCCAGAAACAGAGGATTGCCTTGACGATGATTCCTCAATAG	MSDWKNSPELIKSVAGQMKLKDSIIQQVIQLLNEGNTVPFIARYRKEMTGGLDEVQIKSIEDQWNYAVNLAERKEEVVRLIDEQGKLTDELKADIEKAEKLQKVEDLYRPYKQKRRTRATAAKEKGLEPLALKVWEQEEFAFALEAETYVSEEQELLSIEDVRAGVNDILAEWISEDAAFRERIRKQTHEKGTIASAEKDKAKDEKGVFEMYYDYQEPVRSMASHRVLAVNRGEKEGIIKVSVQPPEDSIKQYLEKEVVKRGTTGELRDILTESIQDSYKRLIQPSVEREIRNALSEVAEEQAIDVFSSNLRSLLLQPPLKGKIVLGVDPAYRTGCKLAVIDETGKVLDIGVIYPTAPKKDTKGAEKKLLALMDQYQMELIAIGNGTASRETEQFIADMIQKHSWEASYMIVNEAGASVYSASKLAREEFPDFQVEERSAVSIARRVQDPLAELVKIDPKSIGVGQYQHDVTQKKLNESLTFVVETAVNQVGVNVNTASASLLQYVSGLSKTVANNIVKKREELGKFSKRSELKDIPRLGAKTFEQSIGFLRVLEGEEPLDRTSIHPESYQATRKLLQNIGFTSKDLGNDQLSEELKQLDMTSAAEEYGIGTLTLTDIQKALIQPGRDPRDDLPKPLLKTNVLSMEDLEEGMELEGTVRNVVDFGAFVDIGVKQDGLVHISKLADKFVKHPMDMVSVGDVVTVWVDKVDVQKQRIALTMIPQ				NA	NA	NA	NA	NA
AK012_03690	111	cmpA		Cortex morphogenetic protein A	ATGCCTTCCTGGTTAAAAGTACAGATGGAGCGCGCTTTTTTCAATAAAGACAAATATCAGATTAAACTGCTCAATCAGTGCTGGTACTATTATCAGCACCTCTATAAATAA	MPSWLKVQMERAFFNKDKYQIKLLNQCWYYYQHLYK				NA	NA	NA	NA	NA
AK012_03691	453			Protein SprT-like protein	GTGCAGTCATTGACCCAACAGCAGCTGGCAGCGTGGACAGACGAATTATCCAGAAAATACTTTGACAAACCATTTGTAGATGATGTATACTTCAACTCTCGTCTTCGAACGACAGGGGGACGATACATTCCTTCAAAAAAAACCATTGAAATCAACCCCAAGTATGTTGTAGAATTGGATGGTGCTGAATTAGAGGGGATTATCAAACATGAATTGTGTCATTACCACCTTCATATTGAAGGAAAAGGTTTTGGACATGGCGACCCTGAATTCAAAGATCTTTTACATAAAACAGGATCTCCGAGGTTCTGTGCGCAGCTTCCTTCTGAAAAAAAGAAAGGCTTTTACCTTTATGAGTGTGTCCAGTGCGGACAGACTTATCAACGAAAGAGGAAAGTGGATACGAAAAAGTATCACTGCGGGAAATGTAAAGGCCGTTTGAAAAAGAAGTAA	MQSLTQQQLAAWTDELSRKYFDKPFVDDVYFNSRLRTTGGRYIPSKKTIEINPKYVVELDGAELEGIIKHELCHYHLHIEGKGFGHGDPEFKDLLHKTGSPRFCAQLPSEKKKGFYLYECVQCGQTYQRKRKVDTKKYHCGKCKGRLKKK				NA	NA	NA	NA	NA
AK012_03704	801	actIII_1		Putative ketoacyl reductase	ATGAACATATTTTCTAAAGAAGCCCTGAAGGGTGAACATATCATTGTAACGGGCGCTACAGGCGGAATCGGTTATGAAACAGCGAAAGAAGTTGTCCGGGCAGGAGGGCACGTGACGATCACTGGAAGAGATGAAGATAAACTGGGTTCGTTGAGAGAGGAATGTTCAAGCATCAATGGAGCGGCACAGATTTATGTAAGTGCAGCCGACCTGAATCAGGAAGAAGACCGGAAAAGGGTAGTGCATGACGCCGGTCAGGCCATCGGTCCGGTTACAGGGGTGGTGAACTCTGCCGGGGTTATCGGAGGAGGTCCGCTGGAAGGCCTCAGTGAGGAAAAGATGCGCGAAGTTATGGAATTGAATTATTTTTCCACAGTCCTTTTCACTCAGGAAGCCTATCAGGTAATGAAGCCGAATGGAAAAGGGTCCATTGTGAACGTATCTTCCCTTTCAGGTTTAAGGGGGACGCACAGCAATACAGCTTACAGCGCCTCCAAATTTGCAGTTATCGGTTTCACCCAGTCCTTCGCTTTTGAGGCTGTTGAACATGGAATACGTGTAAATGCGGTCTGTCCGGGTTATGTAGATACTTCAATGGGACAGGAAGCTATCCGCTCAAAAGGGGAAAGAGAAGGGAGAACCTACGAAGAGCAGCGGGCGCGTGCAGAGCAGGGGATACCTTCCGGGAGGTTAAGCAGCGCCGCGGAAGTCGCAAGGTCGATCGTCTATCTGCTTACCCCTGCTTCAGAGAATATTGTAGGAGAGTCGCTGAAGATATCAGGTGGAACGGTGATGAGGTAA	MNIFSKEALKGEHIIVTGATGGIGYETAKEVVRAGGHVTITGRDEDKLGSLREECSSINGAAQIYVSAADLNQEEDRKRVVHDAGQAIGPVTGVVNSAGVIGGGPLEGLSEEKMREVMELNYFSTVLFTQEAYQVMKPNGKGSIVNVSSLSGLRGTHSNTAYSASKFAVIGFTQSFAFEAVEHGIRVNAVCPGYVDTSMGQEAIRSKGEREGRTYEEQRARAEQGIPSGRLSSAAEVARSIVYLLTPASENIVGESLKISGGTVMR	PGPT0003180_2928	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
AK012_03705	153			hypothetical protein	ATGACTCTGCTCTATTCAAAAGCCCGTGAGTTGTTCGATCAGGACTACAAAAACAGCCCTGAAGGTCAGGCACAGGAAAAAGGTAAAGGGGTAAAACGCACACGGAGTGGAAAGGTACTTTTCTCTTTCCGTAAGCAGAACAAACGTAAATAA	MTLLYSKARELFDQDYKNSPEGQAQEKGKGVKRTRSGKVLFSFRKQNKRK				NA	NA	NA	NA	NA
AK012_03706	783	yocH_2	COG1388	Cell wall-binding protein YocH	ATGATGAAAAAAACTATTGTTTCTTTGGCGGCGGTCGCATCGGTTTCGGCGGTAACAGCAACAGCAGTAAGTGCAGAAGAAGTTACAGTTAATAAAGGAGACACACTTTGGGGCATTGCCCAGGATCATAATGTGTCCGTGCAAGATATAAAAGACAACAACGGATTAAACTCTAACTTAATCTTCCCTAACCAGACACTGACCGTGAACGGCGGAAATAATAATGGACAGGCTTCCTCATCCAGTGATGTCCATAAAGTGGTTTCCGGCGACACTCTATTCAGCATTGGTCAGCAAAACGGGGTAAGTGTAGAACAGCTTCAAGCCTGGAATAATATTGATTCCCATCTAATCTATCCTGGCGAAGAGCTTTCTCTTCAGGGGGCAGCTGTAGAAACATCTACAGAACAAAGCGCGCCTGACAATAATACGGCGAATCAAGAGTCGGAAGCTGAACAGACATCAGCCGACCCTGCCGGCGGTGACGAAGCCGTTAAAACGATGACAATGGAAGCAACAGCTTATACAGCCTTTTGTGAAGGCTGCTCCGGTACGACAGCAACCGGGATTGACCTTAGAGCCAATCCGGATCAGAAAGTGATCGCTGTCGACCCTGATGTGATTCCACTAGGTACAGAAGTCTATGTAGAAGGTTACGGCAAGGCTGTAGCCGGCGATATTGGTGGTGCGATCCAAGGTAACCGTATCGACGTTTATATGGAAGACCGTTCTGATGCCCTTGATTTCGGACGTAAATCTGTAGAAGTAAAAGTTTATGAATAA	MMKKTIVSLAAVASVSAVTATAVSAEEVTVNKGDTLWGIAQDHNVSVQDIKDNNGLNSNLIFPNQTLTVNGGNNNGQASSSSDVHKVVSGDTLFSIGQQNGVSVEQLQAWNNIDSHLIYPGEELSLQGAAVETSTEQSAPDNNTANQESEAEQTSADPAGGDEAVKTMTMEATAYTAFCEGCSGTTATGIDLRANPDQKVIAVDPDVIPLGTEVYVEGYGKAVAGDIGGAIQGNRIDVYMEDRSDALDFGRKSVEVKVYE	PGPT0019120_229	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0019120-sle1|yocH-K22409	NA	NA
AK012_03707	1053			hypothetical protein	ATGAAGGAAGCGGCGCTCGAAAACCGGTCATCCAAGCCGTACCATGAGGAGGATATCGGAAAAACAACATTCCATCCCCAGTATCGAGTTGATCTCAGGAAGTATTCGGAGAAGGAATACAACAAGTTCGTCCGCGTCAATACTGTATCCGACTGGTCCATGCTGTCCTGGCAGGACATCGGAAAACCTTTTGAAGTTAAAAAATACGCCAAAGAACGAGAAGCATGGGAGAAAGCTCATGAAAAAGCGATGGACCCTCATACATCGTGGACCTATTTCAACAGAGCCTTCCACGAGTGGTTCATGAAAGATGTGCACCTGGAAAAAGACCGGACAAAACAGGAATTCCTGAGCAGCCTCCGGTCCTTCCAGCCCTCTGAGGTCAGTCACGCGATCGGGAATCTTGTACAGCTGCATTTATGGAATTACGTTCACCGCATTCAGGACGGCATCTGGGACCCACGGGGAAAAAGAGCCCTTTTTCAAGGCCTGCTTGTCCATCGTCCCCGTATTCTTTTTCTAGGAGCCGCAGAGGGATATGAAGCCATGCAGCTGGGCGCCATGTATCCCGGTGCTGAGATCGTTATGGTTGATTACGATGAATACTGTAAAACGACACGGTTTGCTGAGTTCCCGGAAAGCTACCCCTTTCTCGGTCACAACCCTAAAACAGGTCAGGATAAAATCGTCTACAAGGATGACTTGAACATTGAATATGTGGTCGATGATATCCGGAACCTTCCTTACGGAAAAGAGTTTGACATTGTACTTTCGGTTGGTCTGCTGGAACATTTCCCCGATGAATATAAGCAGGAAGCCGTGGACTGGCACAGGCGTTTTTTGAAAGACAACGGCTATGCTGTTCTTACGACCCCGAGGAACCAGCTCCGCTCCCGCTTGTATTATCATGTGATGGCTGACGTGATGAATCACACCTACAGAGAACTGATGACCGTTGAGCAGATGGGCTTATATATGTATGAGAACGGCTTCGACATCCTCAGACATGGTTATATTAAAGTTCATAACGGCTTGATCTGCCGGCCGAGATAA	MKEAALENRSSKPYHEEDIGKTTFHPQYRVDLRKYSEKEYNKFVRVNTVSDWSMLSWQDIGKPFEVKKYAKEREAWEKAHEKAMDPHTSWTYFNRAFHEWFMKDVHLEKDRTKQEFLSSLRSFQPSEVSHAIGNLVQLHLWNYVHRIQDGIWDPRGKRALFQGLLVHRPRILFLGAAEGYEAMQLGAMYPGAEIVMVDYDEYCKTTRFAEFPESYPFLGHNPKTGQDKIVYKDDLNIEYVVDDIRNLPYGKEFDIVLSVGLLEHFPDEYKQEAVDWHRRFLKDNGYAVLTTPRNQLRSRLYYHVMADVMNHTYRELMTVEQMGLYMYENGFDILRHGYIKVHNGLICRPR				NA	NA	NA	NA	NA
AK012_03708	765	mta	COG0789	HTH-type transcriptional activator mta	ATGTACAAAGTGAAGGAAATGGCGGATCTGACAGGGACCAGTATCCGCACGCTGCATCATTACGACGAGATCGGGCTGCTCACACCGAAATGGACGAACGAAAAAGGTTATCGGTTTTATGGAGAAGATGAGGTGAAGAGGATGCAGCAGATTCTTTTTTTCAAAGAGATGGACCTGCCGCTGACCAGGATTCAGCAGATCCTCGAAAACCCGGAATTCAATGAAGCGGAGGCCCTTCGTCAGCATAAAGCTGTACTCCTGAAGAAAAAGGAACGGCTGGAAAAGCTGATCATGTCTGTCGATCAATCTCTGAATAGCCTGCAAGGAGGAAAAGTGATGACGAATGAAGACAGGTTCAGGCCCTTTAACAAAAAGGAAATTGAAAAGCATCAACAGCAGTATGCAAAAGAGGTAGAAGGACGCTGGGGCCATATGGATGCCTATAAAGAATCTAAACGAAGGACAGATCAGTATAAGGATGAGGACTGGAAAAAAATCCAGGAGGAAAGCATGGAGATTGACCGCAGCCTGTCAGCAGGAATGAAAGATGGTCCGGATGATCCGGAAGTGCAGCGGCTGGTGGATGAAAAGCGCAGACATATCACGAACTATTTTTATCCCTGCACCCTTGAAATCTTTCAGGGACTCGGAAGTATGTACGTGCATGACCCGAGATTTAAGAAAAACCTGGATCAATGGGGCGAAGGGTATGCCGTTTTCCTCAAAGAAGCCATCGACATTTATTGTGACCGTTTCTCCTCTTGA	MYKVKEMADLTGTSIRTLHHYDEIGLLTPKWTNEKGYRFYGEDEVKRMQQILFFKEMDLPLTRIQQILENPEFNEAEALRQHKAVLLKKKERLEKLIMSVDQSLNSLQGGKVMTNEDRFRPFNKKEIEKHQQQYAKEVEGRWGHMDAYKESKRRTDQYKDEDWKKIQEESMEIDRSLSAGMKDGPDDPEVQRLVDEKRRHITNYFYPCTLEIFQGLGSMYVHDPRFKKNLDQWGEGYAVFLKEAIDIYCDRFSS	PGPT0003175_5	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003175-mta|ywnD-K21743	NA	NA
AK012_03709	471			hypothetical protein	ATGAATATGTATTGTCAAAGTGCGTTTCATCAGTTGGAAGTAGTCATCGCCTCCCTTTCTGAAATTATTGGCCAGCTTACAGAAGAAGACATGCAGTTAAGACCGACCCGGGGGAAATACTCCATCGGCGAACTGCTGGCTCATATCGCAACCATTCCAGCTGCCGACGGATACATAACAGAAGGGGCCTCCAAGGAAAAGATGGAGAGATTCTACGAAACGGTCAACATGAAAACGAAAGACGAGATCCTTGATCACCTCTTTCATAATTTCGCTCAGTTGAAAGCCCAGTTTGAATATTATACAGAAGAAGAACTGCAGGAAGAGACGACTTCCTGGTGGGACGTGCGCTATACACGGTATGAATGGCTCGTGCAGATCGTCGCCCATATGTACCATCACCGCGGCCAGCTTCAGGCCATGCTCGTGCATTCCTATAACAAAGACCTTGAAGTGCTGTTATTTGAGTAG	MNMYCQSAFHQLEVVIASLSEIIGQLTEEDMQLRPTRGKYSIGELLAHIATIPAADGYITEGASKEKMERFYETVNMKTKDEILDHLFHNFAQLKAQFEYYTEEELQEETTSWWDVRYTRYEWLVQIVAHMYHHRGQLQAMLVHSYNKDLEVLLFE				NA	NA	NA	NA	NA
AK012_03710	906	focA	COG2116	putative formate transporter 1	ATGAGCAGGGAAGAGGAATACGTGGAAGAACAGGAAGAGCATGAAGAAATAAAAAATGGAAAGAAAATAGACCGGCCCGGCCGGCAGTTCTATATTCCATCCCAGATTGTCGACGAATTCGGGGAAAAGGGAAGGGATCACTTAAATAAGCCGTTCCGGGCCCAGTTTCTGCTGGCTTTAACAGCCGGGTCTTTTATGACGTTTGGCGCGGTATTCTCCATTCTTCTGGCTGTTGGAGTAGAAACGAAAGGCATCTACCACTTATTATCCGGTCTGGGATTTGCCGCAGGGTACTCGATGGTTTTCATCTCCGGAGCGGTATTGTTCACAGAAATTAACGTTCTTCTGCCTTCATACTTATTCAACAAGCAGGGTTTGATGAGCAGGAACATTTATAAATTCTGGTTATCTTCTTATATCGGTAATATTCTCGGAGCCTTTATGGTTGCTGTCCTTATCTATATGTCCGGATCCTTATCCAGTACGTTTAATACGGAGCTGTCCATGTATCTGGATCATAAGATGAAATTTCTTGATCATGGATGGAAAGGTTGGTTCCAGATTCTGATTTCCGGTGTGCTGGCCAACTGGCTGATCGGTATGGCAGCGTTCCTGACCACGGCTGCCCGTGATATTACAGGAAAAATCCTGGGTACGATGCTGCCGGTTATCCTGTTTGTCGCTGGTAACTTCCAACACAGTGCAGCAAATATGGGTTATTTCAGCATGGGCTTTCTTCTTTCAGATCAATATACATGGTATGAATACATCTTACTCAATCTGCTTCCCGCCAGTATCGGGAACTTGATTGGGGGAGGAATTCTCGTGTCGCTGCTGTTTTCCTATGCCTACAAGGAAGATATTCAGACAACACTTGGAAGAGGCAATGGTCCAAAGAATAAGTAA	MSREEEYVEEQEEHEEIKNGKKIDRPGRQFYIPSQIVDEFGEKGRDHLNKPFRAQFLLALTAGSFMTFGAVFSILLAVGVETKGIYHLLSGLGFAAGYSMVFISGAVLFTEINVLLPSYLFNKQGLMSRNIYKFWLSSYIGNILGAFMVAVLIYMSGSLSSTFNTELSMYLDHKMKFLDHGWKGWFQILISGVLANWLIGMAAFLTTAARDITGKILGTMLPVILFVAGNFQHSAANMGYFSMGFLLSDQYTWYEYILLNLLPASIGNLIGGGILVSLLFSYAYKEDIQTTLGRGNGPKNK	PGPT0017240_63	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_ORGANIC_ACID_TRANSPORT	PLANT_DERIVED_FORMATE_TRANSPORT,PGPT0017240-fdhC-K21993	NA	NA
AK012_03711	174			hypothetical protein	ATGACACAGGATAAATTATGCCTTGCCTGTAACGGTGATGGGCTTTTGATGGATGATGAGGAATGGCGCTACACGTGCCGGATTTGTGGAGGCAGCGGGTTTCAACCCCAGCATGGACGAGTGTATGACCGACAGACCATCGAGGTTGACGGACAAAACCGCTGTATGGACTGA	MTQDKLCLACNGDGLLMDDEEWRYTCRICGGSGFQPQHGRVYDRQTIEVDGQNRCMD				NA	NA	NA	NA	NA
AK012_03712	444			hypothetical protein	ATGAAACGAACAGCAGAAATTGTACTTACGGTTATCGGTATTGTCCTGTTCGGACTGCCGGTGATTTTTTCAGGGATTATGTTGAATGCTAAAGAAAATCAAGCCTTTCAAGCTGAAATTGAAAGGGCCGTGAATTCTCAGGACATGAACATGCAGGACCTGAATGTTAACCAAATCATTGATATGGTAGGAACCGTGAGCATTGTTATTATTGTTGCTGCATTGATTGCCATCGGTCTTGGAATACTGGCCATTGTCTTCCTTAAAGGGGATAAGAAGCCGAAAGCCGCCGGTATCATTCTGATCATTACAGCGATTGTGTTTACATTTGCTACATTCGGTATTGGCCTGTTCGGAGCTGCAGCCTTCCTGATTGCAGGTATTGTTGCTCTTGTACGTAAGAAGAAATCCACCGTTGAAGATGGCGGCACGATTGATTATTAA	MKRTAEIVLTVIGIVLFGLPVIFSGIMLNAKENQAFQAEIERAVNSQDMNMQDLNVNQIIDMVGTVSIVIIVAALIAIGLGILAIVFLKGDKKPKAAGIILIITAIVFTFATFGIGLFGAAAFLIAGIVALVRKKKSTVEDGGTIDY				NA	NA	NA	NA	NA
AK012_03713	951			hypothetical protein	TTGAGTAATTTTTTTCAATTAGTCAGAAATGAATGGATGAAGCTGCTCCACCAAAAGTCCACCTGGATTATGATGGCCATTCTGGCTGTTTTGGTACTAGGGGCTGGCATACTCTTTAAAGTGGATGCAGCCTTTACAAACGGCGAGGTGCCGAACGGGGACAATTGGAAGCAGGAGCTGCAGGAACAGAATGCCCAGCTTATGGAAGGCTCCCGGGAAAATCTGAAGTATCCAGGGTACCAGAATGTTCAGGAAAACCAGTATCGGATTGAAAATGACATTGCACCGGCAGCTTATAACGGGTGGGATTTCGTTGGAGATAATCTCGGCCTATCCGGACTTGTCGGATTGTTTGCCATTATTGTTGGTGCCGGTATTGTAGCGAATGAATTCCGTTGGGGTACGATCAAATTGTTGTTGATCCGGCCGCTGTCCCGTCTGAAAATTTTATTGTCCAAATATGTGACGGTGCTTACATACACTTTGGCTATGATGGTGTTTTTGTATGTATTCTCTTTGATTACGGGCGCGGCTTTGTTTGGAATGGACGGTTTTTCACAACCCCATGTGTATCAACAGAATGGTGAATTTCAGGACGCCGGCCTGTTTTCCTTTTCGCTTTTGAAATATGGCTTGAGTCTTGTTGAATTAACCATTATGACGACTTTTGCGTTCATGATTGCTGCTATATTCCGGAATACCTCTCTTGCTATTGGTTTGAGCATTTTCTTAATGATGGCTGGGAGTTCCATCATTTTCTTCCTCATTGAAAAAGAATGGGCGAAATTTATTCTTTTCGCTAATACGAACTTGAACCAGTTTGTGGAAGGATCACCGATCATCTCCGACCTGACTCTCGGGTTTTCTATAACGGTTTTAGCGGTATATTATATAGTATTCCTGCTATTATCCTGGATATTTTTCACGAAGCGCGATGTCGCTGGATCATAA	MSNFFQLVRNEWMKLLHQKSTWIMMAILAVLVLGAGILFKVDAAFTNGEVPNGDNWKQELQEQNAQLMEGSRENLKYPGYQNVQENQYRIENDIAPAAYNGWDFVGDNLGLSGLVGLFAIIVGAGIVANEFRWGTIKLLLIRPLSRLKILLSKYVTVLTYTLAMMVFLYVFSLITGAALFGMDGFSQPHVYQQNGEFQDAGLFSFSLLKYGLSLVELTIMTTFAFMIAAIFRNTSLAIGLSIFLMMAGSSIIFFLIEKEWAKFILFANTNLNQFVEGSPIISDLTLGFSITVLAVYYIVFLLLSWIFFTKRDVAGS	PGPT0006730_8964	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006730-ybhS|ecsB-K01992	NA	NA
AK012_03714	918	bcrA		Bacitracin transport ATP-binding protein BcrA	ATGTCAGAAGCAGTCATGCAGCTGAAAAATGTAAAAAAGACGATCGGCAAAAAAGAGATCATAAAAGGATTGGATTTTGATATTCATGCTGGAGAGGTTTTCGGGTTCCTTGGGCCGAACGGGGCCGGAAAGACGACAACCATCCGGATGATGGTTGGATTGATTCAGATGACGGAAGGCGACGTGGTCATTAAAGGGCACAGCGTCAGCAGAGATTTCAAGCAGGCAATCCGCCATGTCGGGGCCATCGTTGAAAATCCGGAAATGTATCCGTTTCTGAGTGGATGGAAAAACCTCGTCCACTATGCAAGGATGATGCCTGGAATTACCGAAGAGAGGATTCATGAGGTGGTCCGGCTTGTCGGACTCGAAAAACGAATCAAAGAAAAAGCGGGAAAGTATTCCCTCGGAATGAGGCAGCGGCTCGGTATTGCCCAGGCTCTTCTCCACAACCCTTCTGTTTTGATTCTTGACGAACCGACCAATGGACTGGATCCTTCGGGGATCAGGGAAATACGCGCCTACATAAGAAAACTTGCAGAAGAAGAAGGAGTGGCCGTCATCGTTTCCAGTCACATCCTATCCGAGATGGAAATGATGTGTGACCGGATGGGTGTCATAAAAAATGGCGAGCTGATTTCCATTCAAATGGTTCATGAAACACAGCAGCGAGAGGATGTCGAAGTGGTATTCACGGCCTCGCCGGTAGATCAAAGTGCCACAGTGTTGAAAGAACTCACTGGAAAGGACGTGCAAGCGGGCGAAGAGACATTGACCGTCCAAATGGCGAAAGAGGCGATTCCTGATGTCGTTTCCGGACTCGTTCAAAAAGGCATCCGGATCTATGGTGTGAATATCCACACTTCTACGCTCGAAGATAAATTTTTAGATTTGATTGGAGAGGGAGCCGTTGAGTAA	MSEAVMQLKNVKKTIGKKEIIKGLDFDIHAGEVFGFLGPNGAGKTTTIRMMVGLIQMTEGDVVIKGHSVSRDFKQAIRHVGAIVENPEMYPFLSGWKNLVHYARMMPGITEERIHEVVRLVGLEKRIKEKAGKYSLGMRQRLGIAQALLHNPSVLILDEPTNGLDPSGIREIRAYIRKLAEEEGVAVIVSSHILSEMEMMCDRMGVIKNGELISIQMVHETQQREDVEVVFTASPVDQSATVLKELTGKDVQAGEETLTVQMAKEAIPDVVSGLVQKGIRIYGVNIHTSTLEDKFLDLIGEGAVE	PGPT0006725_12211	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	BACTERICIDAL_COMPOUNDS|ANTIBIOTICS	BACTERICIDAL-BACTERIOCINS|LANTIBIOITC|NISIN,PGPT0006725-ybhF|yadG|ecsA-K01990	NA	NA
AK012_03715	1137			hypothetical protein	ATGAAAATTGTTTCGATTGAACCGACACCCAGTCCGAACTCCATGAAGATTAACTTAAGTGAGACACTCCCGGACGGCGAAACGCATAACTACAAAAAAGACGATGACCTTGAACAGTCACCGGCTTTCATCAAGCAGCTTTTTGCTGTAGAAGGCGTCAAGGGGGCCTATCATGTCACGGACTTTATAGCCCTCGAAAGAAATGCACGTGTGTCCTGGGAAGCCATCCTTCCACAAGTCCGTGAAGTCTTTGGCGAAGCAGAAGCGGCAGAGGGGACCGGAGAACCGGCTCAGCCGGACGAGCATTTCGGTGAAGTACGCGTCTTCATCCAAATGTTCAAAGGACTTCCGATGCAGGTGAAGCTCGAAGAAGGAGATGAGGAAAAACGCGTGGGACTTCCTGAACGCTTTATGGAAGCGGCTATGAAAGCCTCTCCCGCCTCTCCGAACATGATTATGGAGCGCAAGTGGGTGGAGCAGAGCCCCCGTTATGGCGATATCCAGGAGATCGGCGTCCAGGTACAAGAAGAAATTTCCGCAAGCTATGATCAAAACCGACTGGAAACGCTCGTTAAACAAGCGTTTGATGAGGAGATTCCTGTCGAAGATCAAGAGGACAAACAAGGCGGGATTACTTTGGAGACGCTGGATCATGAGGATTGGAAGGTCCGTTATGCGGCTCTCGACCGCATGAATCCGACCGCCGGCGATTACCGGATTCTCGATAAAGCCCTTGATGATGAGAAGGCATCGATCCGCAGGCTCGCAACTGCCTATCTTGGTATGATCGAGGAACTGGAAACCCTGCCTTATCTGTATAAGGCGCTCAATGATAAGACAGTGACTGTCCGACGTACAGCGGGCGACTGCTTATCCGATCTCGGATTCAAGGAAGCTATGCCTAAAATGATGGAATCCTTACGCGATGCCAACAAGCTTGTCCGCTGGCGGGCAGCGATGTTCCTTTATGAACTCGGAGATGAATCCGCCCTGCCTGCCTTAAGAAAAGCAGCAGATGACCCGGAATTCGAAGTTCGCCTGCAGGTGAATATGGCCATTGAAAGAATCGAAGGCGGAGAAGAAGCTAAGGGTTCTGTGTGGCATCAAATGACACAGGCCACGCAGCAAAAACAATAA	MKIVSIEPTPSPNSMKINLSETLPDGETHNYKKDDDLEQSPAFIKQLFAVEGVKGAYHVTDFIALERNARVSWEAILPQVREVFGEAEAAEGTGEPAQPDEHFGEVRVFIQMFKGLPMQVKLEEGDEEKRVGLPERFMEAAMKASPASPNMIMERKWVEQSPRYGDIQEIGVQVQEEISASYDQNRLETLVKQAFDEEIPVEDQEDKQGGITLETLDHEDWKVRYAALDRMNPTAGDYRILDKALDDEKASIRRLATAYLGMIEELETLPYLYKALNDKTVTVRRTAGDCLSDLGFKEAMPKMMESLRDANKLVRWRAAMFLYELGDESALPALRKAADDPEFEVRLQVNMAIERIEGGEEAKGSVWHQMTQATQQKQ				NA	NA	NA	NA	NA
AK012_03716	429			hypothetical protein	ATGAACCCGTATGAGCAGTATATGAAGGAAATATCCCAGCCGATGCGTGACGAACTGACAAACGCCGGCTTTACTGAATTAACGACCCCGGAGGAAGTGGATACGTTTATCAACGAAACGAAGGGAACATCCCTCGTTGTCGTCAATTCCGTATGCGGCTGCGCCGCAGGACTTGCGCGCCCGTCTGCAAAAGAATCCTTAAATAACGAAAAGGCGCCGGAACATCTCGTGACGGTTTTTGCCGGGCAGGACCGCGAGGCGACGGCACGCATGCGTGATTACTTTGAAGGATATGAACCGTCCTCCCCGTCTATGGCTTTATTGAAAGACGGACAGGTCGTCCACTTCATTCCGAGAGAAGACATTGAAGATTATGAAGTGGAAGAAATCACAGCAAACTTGACGAACGCCTACAACGAACACTGCTGA	MNPYEQYMKEISQPMRDELTNAGFTELTTPEEVDTFINETKGTSLVVVNSVCGCAAGLARPSAKESLNNEKAPEHLVTVFAGQDREATARMRDYFEGYEPSSPSMALLKDGQVVHFIPREDIEDYEVEEITANLTNAYNEHC	PGPT0014657_7	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-MULTUDRUG_RELATED_REGULATION,PGPT0014657-bmrU-NA	NA	NA
AK012_03717	1215	ymfD		Bacillibactin exporter	TTGCAAAACAAAGTCAGCAGCTGGTGTCTCGTCAGTATGGCTTCCATTCCTCTTGTCATGACGCTTGGCAATTCGATGTTAATTCCTGTGCTTCCGATTTTTGAAAAGAAAGTGGGCATTACGTCTTTCCAGTCCAGTACGATCATTACCAGCTATTCGATTGCCGCCATTATTCTCATCCCTATTGCTGGTTATTTATCGGACCGCTTCGGCAGGAAAATGATCATCCTGCCCAGTCTCGTTCTGGCTTTCATCGGGGGGTTGATTGCCGGTTTCGCCTCCTGGAGGCTGGATGACCCGTTTCTATGGATCACCATCGGCCGTGTCCTTCAAGGGATGGGGGCGGCAGGAGCGACCCCTATTATCCTCCCTCTTGTGGGGGACTTGTACAAAGATGATGATGCGAAAGCAAGCTCTTGTCTTGGAATCATTGAAACGTCCAATACGTTTGGGAAGGTACTGAGCCCGATCCTGGGAGCGGCTTTTGCAGCCGTTTTATGGTTTCTGCCGTTTTTCTCAATCTCCTTTTTCAGTTTGATATCGATCGGGCTGGTTTTTTTCTTTATTCAGGTTCCTGAAGGCGGAAAAGAGGACCCGCAGCCGCTGAAGCTGTTTCTACAGAAGACAAAAGAAATCTTCAAGCGGGAAGGGGCGTGGCTTTATCCGGTTTTTTTAATCGGCGCTTACGCTATGCTCGTTTTATTTGCGGTTCTCTTTTTCATGTCCGATATGCTGGAGAAGGTGCACGATATTAAAGGTATAAAGAAAGGGTTTGTGCTTGCTGTGCCTTTATTCACCTTGTGTATGGCTGCTTTTGTAACCGGCCGGAAGATTAAAGGGGATACGTGCGTGATGAAGAAGGTGCTGCTTTTTTCTCTCGTGGCTGCCGCCGGGAGTGTTGTCTTTACCGGATACGTGCATGAACAGCTGTTATGGCTGCTTGTTGTGACGAGTGTCCTTGGAACAGCTATTGGAGCGATGCTGCCAACGCTGGATGCTCTGATTACAGAAGGTATTGAGAAAGAGGAGAGAGGAACGATCACCTCGTTTTACAGTTCCTCAAGATTTATAGGAGTAGCCGCAGGGCCGCCGCTGATGTCTCTGTTGATGAAAGAATATATAAATATCAGCTGTATCGCAGCCGGTGTGTCAGGAGTGATACTGTTTGTGATTGTAGGGAAGCTGGTTCAGCCGGATAAACAAAAAACGGCATAA	MQNKVSSWCLVSMASIPLVMTLGNSMLIPVLPIFEKKVGITSFQSSTIITSYSIAAIILIPIAGYLSDRFGRKMIILPSLVLAFIGGLIAGFASWRLDDPFLWITIGRVLQGMGAAGATPIILPLVGDLYKDDDAKASSCLGIIETSNTFGKVLSPILGAAFAAVLWFLPFFSISFFSLISIGLVFFFIQVPEGGKEDPQPLKLFLQKTKEIFKREGAWLYPVFLIGAYAMLVLFAVLFFMSDMLEKVHDIKGIKKGFVLAVPLFTLCMAAFVTGRKIKGDTCVMKKVLLFSLVAAAGSVVFTGYVHEQLLWLLVVTSVLGTAIGAMLPTLDALITEGIEKEERGTITSFYSSSRFIGVAAGPPLMSLLMKEYINISCIAAGVSGVILFVIVGKLVQPDKQKTA	PGPT0003580_548	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-MULTIDRUG_RESISTANCE	CE-BACTERIAL_FITNESS-OTHER_MULTIDRUG_EFFLUX_GENES,PGPT0003580-ymfE-K08221	NA	NA
AK012_03718	213			hypothetical protein	ATGTTGAAAAAATGGTTGTTGGCATTAGGGATGGTCTCTGTTTTAACACTGGCGGCCTGCGGTGGAGAAAGTGAAGAGGAAGGCGGAACAGAAGAGGAACAGACCGAAGAGCAGGACTCCGGTGATACAGGCTCAGAGGATTCCAGTGAAATGGAAGGCGAAGATTCTGAAGAAGGTTCCGAAGAAGAATCTGAAGATGATTCAGCTGAATAA	MLKKWLLALGMVSVLTLAACGGESEEEGGTEEEQTEEQDSGDTGSEDSSEMEGEDSEEGSEEESEDDSAE				NA	NA	NA	NA	NA
AK012_03719	492	mscL	COG1970	Large-conductance mechanosensitive channel	ATGGGGATCTTTCATGAATTCAAGCAGTTCACCATCCGGGGGAGCGCTGTCGATATGGGGGTGGGGATGGTCCTTGGAGCTGCGTTCAGTGGTTTTATCGACTCCCTCGTGACCGATCTGCTTCTTCCTCCCATTGGTGTGTTGTATTCGAGTATGAATTTCGAAAATATGTTCATCAGTCTGGACGGGCTGTTCTACCCTTCACTGGCAGCAGCGAAGGAAGCGGGAGCAGCGACAATCAATTACGGTTTGTTTATCACAGCGTTTATCCGGTTTATCATTATTTTATTCGCGGTTTTCCTCGTTGTACGACAGATGAACCGTTGGAAAAAACCTCATCAGCACCCACTGGATGGACTGACTAAAAAAGAATGTCCTTACTGCTGCCTGCCCATCCCGCCCCGGGCGGTGATCTGTCCCCATTGTTCTTCTTCGCTGGAGAACCAGAGGAATTCCTCCCGGTCACGCGGACTCACATGGAGGATCAAATGA	MGIFHEFKQFTIRGSAVDMGVGMVLGAAFSGFIDSLVTDLLLPPIGVLYSSMNFENMFISLDGLFYPSLAAAKEAGAATINYGLFITAFIRFIIILFAVFLVVRQMNRWKKPHQHPLDGLTKKECPYCCLPIPPRAVICPHCSSSLENQRNSSRSRGLTWRIK	PGPT0013771_203	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_OSMOTIC_STRESS	OSMOTIC_STRESS-MECHANOSENSITIVE_ION_CHANNEL,PGPT0013771-mscL-K03282	NA	NA
AK012_03720	1110	nifS	COG1104	Putative cysteine desulfurase NifS	ATGAATCGATATTTTGATTATGCGGCCACCAGCCCGGTGGATCCGGAAGCCTTAGAAGCTTATGTCCATGCATCCACCTATTATTATGGGAATGCAGGGAGTCTGCATGATGCGGGAACAAAGGCGTCGTCCCTTCTCGAACACTGCCGGAACCGGCTGGCCGATCTGCTTCAAGCAGATTCCAGGGGAATTGCGTTTACAAGTGGGGGAACAGAAAGTAATGAGCTGGGATTGTCGGCACTGATGAGTGCGGGGGAGGGGAACCACCTGATTATCTGCGGGGGAGAACATTCTTCTATTCATAACATCGCAGAGCGTATGAAAAGCCGTGGAGTAAGGGTTACTAAAACGCCGCTGCTTCCAAACGGACAGGTTGATCTGGATCATCTGGAAAAAGACCTGTGCGATGACACAGCCGTTGTAGCCCTGCAGCACGTCAACGGCGAAATCGGATCGATCCAGCCGGTCGAAGAAGCGGTCCGGATGGCAGGGGAATACGGGGCTCTCCTTCATTGTGACTGCGTCCAGTCCTTCGGGAAAATCTCTTTAGCCGGCCTCGGTTCCACCGTGGACAGTCTCGCGGTGTCCAGCCATAAAGTGTATGGTCCGAAGGGAGTGGGGGCTGTATACATACGTCCGGAGCTTTCCTTTCAGCCTCTCACTCCGAACGTCAATCATGAAAACGGTGTGCGACCGGGGACCGTAGATGTGCCGGGAGTAGCTGCGTTCGTCACAGCGGCGGAAAAGGCTGTGACGCATCTGGACACGCGGGCAGTTTACACTCAACAGCTAAAAGCGGTTTTTTTTGAACAGTTAACAGCACAAGGCTGGCAGCTGGTGGGAGATACGAGGCATCAATCTGTGCCTATTGCAGGGCTGATGCTTCAGGGGTGGGAGGGACAGTGGATGATGCTGGAAGGCAGCCGGAAAGGGTACTTCTTTTCAACAGGCACCGCCTGCCGCGTGAATTCACAAAAGCCCTCTTATACGTTAAGCGCCATGGGGATCGGAAAAGAGGCGGCGAAGTCCTTTATCCGGATTTCCTTCAGTCATAAGCATTCGGAAACAGATGTTTTGGATCTAGCCCATCATTTTAATTCATATCTCTAG	MNRYFDYAATSPVDPEALEAYVHASTYYYGNAGSLHDAGTKASSLLEHCRNRLADLLQADSRGIAFTSGGTESNELGLSALMSAGEGNHLIICGGEHSSIHNIAERMKSRGVRVTKTPLLPNGQVDLDHLEKDLCDDTAVVALQHVNGEIGSIQPVEEAVRMAGEYGALLHCDCVQSFGKISLAGLGSTVDSLAVSSHKVYGPKGVGAVYIRPELSFQPLTPNVNHENGVRPGTVDVPGVAAFVTAAEKAVTHLDTRAVYTQQLKAVFFEQLTAQGWQLVGDTRHQSVPIAGLMLQGWEGQWMMLEGSRKGYFFSTGTACRVNSQKPSYTLSAMGIGKEAAKSFIRISFSHKHSETDVLDLAHHFNSYL	PGPT0000065_7419	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
AK012_03721	1557	nadB	COG0029	L-aspartate oxidase	ATGATGGCAGATGTTTTGATCATTGGAGGCGGGGCTTCTGCCCTGCAGCTCGCCAGACACCTTCGCTCGACAATGAATGTGATATTACTCACAAAGTCCTCCCTTCACCATAGCAATTCTTACCTGGCGCAGGGCGGGATTGCGGCAGCACTTGGGGCGGGGGACAGTCCCTCTTTTCACTACAGCGACACCGTCAATGCTGGTGGCAGCACAAGCGCAGGACAGGCCCTTCAAATCATGACCCAGGAAGCTTCTTCCGTCATTCATGAGCTGGATTCCATCGGCTGCGCATTTGACAAAGACCATCAAGGGCATTTTCAGCTCGGCCGGGAAGGCGCGCATGGAAAAAACAGGATTGTCCATGGAGGCGGCGACCAAACAGGCAGGAGGATTGTGGAATCCTTGTCTAGAGCTCTTCCGTCGAACGTGACGGTTATGGAACATCATTTTGTCTTTGAATTACTTATGAATGATCAAGGACAGTGCTTTGGCGCACGAAGTAAGGATGCAGAAGGGAATATCCATACCTTTGTTTCTCCCCAAACCGTGCTCGCTGCAGGAGGGTGCGGACAAGTATATGCGTGCACATCCAATGCAGAAACAGCTGCAGGGGATGGTATCGCCCTCGCTTATGAGGCTGGAGCTGAATTGATCGATATGGAATATATCCAGTTCCATCCCACGCTTCTTTACATAGACGGTCATGGTGCTGGACTAATTTCAGAAGCTGTCCGTGGAGAGGGAGCTGTCCTTGTCGATGAGGATGGCAGACGAATCATGGAAGATGTCCATCCGCTTCAAGATCTGGCGCCCCGCCACACGACGGCGCAGACCATTTTCCACTACCATCGGATGGGCAGGAAAGTCTTTTTGGATATCCGCGGCGTCTCCCGTTTTCAGGAACGCTTCCCTTCCATCACCGTCCTCTGCCTGAAGCATGATGTTGATATCAATCAAGGTCTTCTTCCTGTGGCCCCGGGCTGTCACTTTATTATGGGAGGTGTGAAAACAGACGAAAATGGAAAAACGAACGTCCCCGGTTTATACGCCATTGGAGAAACAGCATGTACAAAGGTGCACGGAGCCAGCCGGCTGGCGAGCAATTCCCTTCTGGAAGGACTAGTTTTCGGCAGAAGGACTGCCCGTTTTTTGAACGCGCAGCCCACCCTCGTTCCCACACGGAAACAGAAAAAAGGCCTGCCCCTTCCTGATTCCTTCGTTCTCCCGGAGATAGAGGATATTCAGAAACGGACGATGGAAGCAGCAGGAATAATGAGAAACCATGAGGATCTGACCGCACACCAAGCATGGCTGGATTCTTTTCCGGTGGTTTCCAATCTTGATAAGAGCCGGCTGACGAAGGAGCAGGTGACGGTATTATTCCTCCTGCAGACATCCCGGCTGATTACGACCGCAGCCTTGGAACGAAAAGAAAGCCGCGGAAGCCATTTTCGTTCCGACTACCCGAAAGAACAAGCCGAGTGGAAGGATCGAACCATCCGGCTGCAATCGCCCACAAAGGAGGCATATCATGAACCGCATCAAACGCTTGGATAA	MMADVLIIGGGASALQLARHLRSTMNVILLTKSSLHHSNSYLAQGGIAAALGAGDSPSFHYSDTVNAGGSTSAGQALQIMTQEASSVIHELDSIGCAFDKDHQGHFQLGREGAHGKNRIVHGGGDQTGRRIVESLSRALPSNVTVMEHHFVFELLMNDQGQCFGARSKDAEGNIHTFVSPQTVLAAGGCGQVYACTSNAETAAGDGIALAYEAGAELIDMEYIQFHPTLLYIDGHGAGLISEAVRGEGAVLVDEDGRRIMEDVHPLQDLAPRHTTAQTIFHYHRMGRKVFLDIRGVSRFQERFPSITVLCLKHDVDINQGLLPVAPGCHFIMGGVKTDENGKTNVPGLYAIGETACTKVHGASRLASNSLLEGLVFGRRTARFLNAQPTLVPTRKQKKGLPLPDSFVLPEIEDIQKRTMEAAGIMRNHEDLTAHQAWLDSFPVVSNLDKSRLTKEQVTVLFLLQTSRLITTAALERKESRGSHFRSDYPKEQAEWKDRTIRLQSPTKEAYHEPHQTLG	PGPT0013355_2746	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013355-nadB-K00278	NA	NA
AK012_03722	852	nadC	COG0157	putative nicotinate-nucleotide pyrophosphorylase [carboxylating]	ATGAACCGCATCAAACGCTTGGATAAACTGAAGGAATTTTTGCTGGAGGATATTGGAGACTATGATGTCAGCACCGACCTGCTGTTCCCCGCTGACCAGCAGGGGGTCCTGCGCATAACCGCCAAAGAAGAAGGGGTTTTTTGTGGTGGGTGGGTCATCACGGACGTCTGTCATCTTCTTAATGAAAGGATCAAGGCAGACGTGCTCGTTCCTGACGGCGCCGATATTAGAAAAGGGACCTGCCTGGCAGAGATACGCGGGCCGATGGTGGATCTTCTTAAAGGAGAGCGGGTGATCCTGAACTGCATCCAGCGTATGAGCGGGATTGCAACATTGACGAAACAAGCGGTCCAGGCACTGGAAAATCCAAAGATCCGTCTTTGTGACACGAGAAAAACGACGCCCGGTCTCCGTCTGTTTGAAAAGTACGCTGTCCAAACAGGGGGCGGATACAATCATCGATTCGGTCTCTATGATGCCGTGATGCTGAAAGATAACCATATCGCTTTTTACGGGTCTTTGACGAACGCCGTCCGGCATCTAAAAGAAAAAGTCGGTCATATGGTGAAAATCGAAGTGGAAACCGAAACAGACGAGCAGATTCTGGAGGCCGTTGATGCAGGAGTGGACTGCATTATGTTCGATAACCGGCGCCCTGAAGACATTGCGCGGATGCTTCCTTCCATTCCCAATACCATCACGACGGAGGCCTCCGGTGGGATCAGCTTGGAAAACCTTTCGGACTACCGGCATTTGACGGTTGATTATCTTTCCCTTGGTTTTTTAACACATGGCGTCCGTTCCCTTGATTTCAGCGCCCGAGCCGTTTTAACAAAGGAGGAAATCCAATGA	MNRIKRLDKLKEFLLEDIGDYDVSTDLLFPADQQGVLRITAKEEGVFCGGWVITDVCHLLNERIKADVLVPDGADIRKGTCLAEIRGPMVDLLKGERVILNCIQRMSGIATLTKQAVQALENPKIRLCDTRKTTPGLRLFEKYAVQTGGGYNHRFGLYDAVMLKDNHIAFYGSLTNAVRHLKEKVGHMVKIEVETETDEQILEAVDAGVDCIMFDNRRPEDIARMLPSIPNTITTEASGGISLENLSDYRHLTVDYLSLGFLTHGVRSLDFSARAVLTKEEIQ	PGPT0013370_2138	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013370-nadC-K00767	NA	NA
AK012_03723	1107	nadA	COG0379	Quinolinate synthase A	ATGAATCTATTTGAAACCCTGAATGCGACCCGTCCCTCCCTTCCTGACCGCTACAAACAGATGTCCATCCCTGAGCTTGAAGAAACCGTCAGACGAGTGAAAAAAGAATGGGGACGGCGGTTATTCATTCCCGGTCACCACTACCAAAAAGATGAGGTCATCCAATTCGCCGATGCACGGGGAGATTCGTTGAAGCTTGCCCAGTTATCCGCCTCCCAACAGGAGGCGGAAGCCATCGTTTTCTGCGGTGTTCACTTTATGGCTGAAACGGCGGACCTTTTGACGAGGGACGATCAGTACGTCTACCTCCCGGATATGCGGGCCGGCTGTTCCATGGCCGATATGGCGGACATCCGTCAGACGGAACGCGCGTGGAAGCAGTTAACCACCTTGTACGGGGAGACGATCCTCCCCCTCACCTACGTCAACTCCACAGCTGCGATCAAATCATTTGTCGGCGCACACGGAGGAGCGACGGTCACCTCATCCAATGCTGCTGACATGGTTTCATGGGCATTCGCCAAGAAGCCCCGCTTGTTATTCCTCCCTGACCAGCATCTTGGCCGTAACACAGCATACGAACTCGGCATTTCCTTGGACAACATGGCCGTATGGGATCCGATTCGCGAAGAGCTGGTGTGCGACGGGCCTTTAGACGAGGTGCAGGTGATTTTGTGGAAGGGCCACTGTTCTGTACATGAAAACTTCACCACAGCTAATGTTGATCATATCCGCCGGGAATACCCGGATATGAAGATCATCGTTCATCCGGAGTGCTCAAGAGAGGTTGTCGAAGCTTCCGATATCTCTGGTTCCACCAATACGATCATTCGATCCATCCAACAGTCTCCTCCAGGGAGTGCGTGGGCAGTCGGTACGGAAATGAATCTCGTCAACCGGATCATTCAGGAACATCCAGATAAACAGATCGTTTCCCTCAACCCCCGCATGTGTCCATGTCTGACGATGAACCGGATCGACCTCCCCCATTTGGCATGGACTCTCGAATCGCTGGCTGAAGGGTATCCTCCAAACCGGATCAAAGTGGAAGAACAGGTGGCCGGGCCGGCACGTCTTGCTCTGAACCGGATGTTGGATCACGCTTAG	MNLFETLNATRPSLPDRYKQMSIPELEETVRRVKKEWGRRLFIPGHHYQKDEVIQFADARGDSLKLAQLSASQQEAEAIVFCGVHFMAETADLLTRDDQYVYLPDMRAGCSMADMADIRQTERAWKQLTTLYGETILPLTYVNSTAAIKSFVGAHGGATVTSSNAADMVSWAFAKKPRLLFLPDQHLGRNTAYELGISLDNMAVWDPIREELVCDGPLDEVQVILWKGHCSVHENFTTANVDHIRREYPDMKIIVHPECSREVVEASDISGSTNTIIRSIQQSPPGSAWAVGTEMNLVNRIIQEHPDKQIVSLNPRMCPCLTMNRIDLPHLAWTLESLAEGYPPNRIKVEEQVAGPARLALNRMLDHA	PGPT0013365_983	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013365-nadA-K03517	NA	NA
AK012_03724	555			hypothetical protein	ATGCACATGAACGAAGAAGAACAGGAGCGGATGCTGAAGGCGGCCCACAGTCTCTTTTCCACCAAAGGATTCAGTGGAACGAGCGTAAAGGAAATCGCCGGACAGGCGGAAGTTTCTGAAGTGTCAGCTGCCCGTACCTACCCATCACTGATGGATTTGTTTATTGATTCCTTTTCTGAAGGCTTTATTCAGCAGCTGGAGACCACCTCTCCAGAGGTCCATCCATTGACGAATCAAAAGCCGGCGGAAATGATTTATACGTACTTATGGAACCGGATGAAGGAGTTCACGTCGATGGATAAATCCGTGTTCAAAGAAATGATGAACAGCCTCTTCCCAGCAATGGGGAGCGACGCAGAAAATCGCAGAAAGATGATCGGCATCGACTTTATGCTGGTGGACGAAATGATCGTTCTTTTGAATGAGATGAAGGAAAAAAGCTGCTGCCCGGGGATTTCAACGCCAATCAGGCTGCCGAAATCATTTACAGTTCCCTGGCGTTCGAATTTCTATTGTACGTGTATGAAGAGGAAGTTTCTCTGGAGATGTTTTTGA	MHMNEEEQERMLKAAHSLFSTKGFSGTSVKEIAGQAEVSEVSAARTYPSLMDLFIDSFSEGFIQQLETTSPEVHPLTNQKPAEMIYTYLWNRMKEFTSMDKSVFKEMMNSLFPAMGSDAENRRKMIGIDFMLVDEMIVLLNEMKEKSCCPGISTPIRLPKSFTVPWRSNFYCTCMKRKFLWRCF				NA	NA	NA	NA	NA
AK012_03725	189	sspH		Small, acid-soluble spore protein H	ATGATGAACAAAGAGCGAGCCAAAGAAATCTTCCATTCCCCTGATATGATCCAGGTCCATCATAAGGACCGGGAGATTTATATTGAAGAAGTAATTGAACGCAATGAAATGGCGAGGATTCACCCGACCGATCAGCCGAACATCGTTCAGAAAGTTCCATTGTACGAACTCAAGGAACTGGAGCAGTAA	MMNKERAKEIFHSPDMIQVHHKDREIYIEEVIERNEMARIHPTDQPNIVQKVPLYELKELEQ	PGPT0024895_86	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024895-sspH-K06425	NA	NA
AK012_03726	615			hypothetical protein	ATGTTTAAAAAGCTGGCCAGTGATGCCCTCGGGTTGAGTGATATCGGGAGAATTATTTCTAAAGAAGATTTTGATAAGACCCAGTCGGATGATTTTGTCCTAACGGAGGATGGAGAAAAAATCCATTTTCTGATCAAATCAAAAAGTGATGAGTACTGCTTTACGAACCGGGCCCTCATTCATCTGGACGGGGAGAAAGCCTCCAGCAGCAAACGTAACATTCTGCGCTACGACTATTACAAGAATCCAATCCGCAACGTAACCATAGAAACGGCAGGCACCATCGATCTCGACCTGGAAATCAAATTTGCCATCGGCAGTCAGTCCATGAGCATCGATATCGCTAAAGATGAAGGCGAGGCCATTGCCGATCTTTATAAATCCCTTACAGCGATTTCGCAGATTCAGGAGGATCATCAGCTTCATGCTGAATATGCAAGGGAAAGCCTGGAGGCTGCCCGGGACCTTCTGCGCGAAAACAGGTTCCATGACAATCAAGTCTCCTCCGAATTCAAGGAATCCGTGACGTTCACCTATGAGTGGCTCGCTCAAAAGCACACCGAGCATACACGCAGGGACTTTAAGGACATCTTCGAAAAATACATCCAGAATTAA	MFKKLASDALGLSDIGRIISKEDFDKTQSDDFVLTEDGEKIHFLIKSKSDEYCFTNRALIHLDGEKASSSKRNILRYDYYKNPIRNVTIETAGTIDLDLEIKFAIGSQSMSIDIAKDEGEAIADLYKSLTAISQIQEDHQLHAEYARESLEAARDLLRENRFHDNQVSSEFKESVTFTYEWLAQKHTEHTRRDFKDIFEKYIQN				NA	NA	NA	NA	NA
AK012_03727	711	yodC	COG0778	Putative NAD(P)H nitroreductase YodC	ATGTCTCAAAATACAATGAGCAAAGAAGAATATTTAAATAAAGTAAAAGAAATCGATACAACGAAGGAAGCACCGAAGCAGCTGGAGGATACGGATTTTCTAACGGTCGCGAAAGAGCGTCGTTCTGTCCGTCAGTATGATCCTGAATTCAAGATGGATGAAAGTGAAATCCGTGAGATTCTTGAAACTGCGGTTCTTGCTCCATCATCCAGTAACCTTCAACCTTGGAGATTCCTTGTCATTGAAGACCAGGCGGAAAAAGAGAAGCTTCTTCCAATCGCCAACAACCAGCAGCAGATTGTCGATGCATCTGTCGTTATTGCTGTTCTTGGTGACCGTAATGCCTACAAGAATGCGGATCAGATTTACAGCCAGATTGCTGAAAAAGGCAACATGCCTGAAGACGTGAAGAACATGTACGTCAACAGCATCTTCGATAACTACGGCAACTTCCCGAAAGAGCGCCTGGCCAGAATCGCTCATATTGACGGCGGAATCGTCTCCAACCAGCTGATGCTTGCAGCCAAAGCGAAAGGGTATGACACCGTGCCGATGGGCGGTTATGATGAGGCGCAGTTCCTGGAAGCTTTCAATGTTCCTGAAAACTATGAAGCTGTTATGCTGATTTCTCTTGGAAAAGGTACAAAAGCCGGCTTCCAGAAAACACGTCTTCCATTGGATGAAGTCGTTCAGTGGAACCGTTACGAATAA	MSQNTMSKEEYLNKVKEIDTTKEAPKQLEDTDFLTVAKERRSVRQYDPEFKMDESEIREILETAVLAPSSSNLQPWRFLVIEDQAEKEKLLPIANNQQQIVDASVVIAVLGDRNAYKNADQIYSQIAEKGNMPEDVKNMYVNSIFDNYGNFPKERLARIAHIDGGIVSNQLMLAAKAKGYDTVPMGGYDEAQFLEAFNVPENYEAVMLISLGKGTKAGFQKTRLPLDEVVQWNRYE	PGPT0028511_36	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-CATECHOL|CHROMANON|GANOMYCIN_RESISTANCE,PGPT0028511-yodC-NA	NA	NA
AK012_03728	414			hypothetical protein	ATGGCAGAAAAGGTATCAAGCACACGATGGTTCGGGATGGCCGTTCAAGCCCTTGTCGTTCTTGCTGAAAACGAAGGGCTCTGCCCAAGTGGAAAGCTGGCGGAAAAGCTGGAATCCAAATCTGTGTTCTTAAGAAAAATCCTCCGCCATTTAGTCAAGGCAGGATTGATTCACGCCAAAGAAGGTAGAGAAGGGGGATATTCCTTAGTGAAAAACCCCGAAGATATAAAGCTGTCTGAAGTTTATGAAGCAATGAGGGCGGAAACTTTTCCGAAGGGGTTCTTCAATGTCGGAGGCAAAGAATGCTTTGCTCCTTCTACAAGGGAATCCTTGATTGAGCTCCGTAATGATATGGAAAGCTGGGTTGTAGCAGGACTTGAAGAGAAAACCATTGCGGACCTGATACAAAAGTAA	MAEKVSSTRWFGMAVQALVVLAENEGLCPSGKLAEKLESKSVFLRKILRHLVKAGLIHAKEGREGGYSLVKNPEDIKLSEVYEAMRAETFPKGFFNVGGKECFAPSTRESLIELRNDMESWVVAGLEEKTIADLIQK				NA	NA	NA	NA	NA
AK012_03729	3090	mupA		mupirocin-resistant isoleucine--tRNA ligase MupA	ATGCGCAGTGTCAATACGAAGGAAGCGGCTCTGGACCGCGAAAATCGTGTCAAAGATTACTGGAAACAAGAAGATGTCTTCCGGCGCTCCATGAATGAGCGCGAAGGCGCAGAAACATTCGTTTTTTATGAAGGACCGCCGACGGCGAACGGACTTCCGCACGCGGGTCACGTACTTGGTCGTGTGATCAAGGATTTTGTCGGCCGCTACAAAACGATGCAGGGCTATCAAGTCCTTCGTAAGGGCGGCTGGGATACCCATGGTCTTCCGGTTGAACTGGAAGTGGAGAAGCAGCTCGGCATCTCCGGCAAACAGCAGATTGAGGAATACGGCGTAGAGAAGTTCATCGAGAAGTGTAAGGAAAGTGTCTTCAACTACGAAAAGGAGTGGCGCGAATTCACGGAGTCCATCGGCTACTGGCTCGATATGGATGATCCGTACGTGACCCTTCAGGATCGTTACATCGAAAGTGTCTGGTACATCCTGAGTGACCTGCACAAGCGTAACCTGCTTTCCAAAGGTCACCGGGTTACCCCGTACTGCCCGAGCTGTCAAACTACGTTGAGCTCCCACGAAGTAGCGCAGGGTTATGAAGATGTGAAAGATTTATCCGCAACAGCGAAGTTCAAAGTCAAAGGCACAGAAAATGAATTTTTCCTTGGCTGGACGACAACGCCTTGGACACTGCCGGCCAACGTTACCCTGGCAGTCCATGCGGATCTGGATTACATCAAGGCAGAAAAAGACGGCGAAGTTTACATCGTTGCTGAAGCTCTTGCTGAGAAAAATCTTGGAGAGGACTATACGGTCGTATCCAGGCATAAAGGAAGCGAGTTCAGCGGCGTGGCTTATGAAGCGCCCTTCCCATTCGTGAAGCCGGAGCGCGGTCATTTCGTTGTCGAGGCTGATTTTGTCAACGCCGAAAGCGGTACGGGTGTCGTTCACATTGCTCCTGCCTACGGGGAAGATGACTACAATCTCGTCAAACAACACAACCTTTCTTTCTTTAACGTTGTAGACGGACAGGGACGCTACACAGCGGATATCCCTCCATTCGAAGGACGTTTCGTGAAAGACTGTGATGTGGATATCGTGAAGTACCTGGCTAATGAAGGACTTCTTTTCCATAAAGAAAAGTATGAGCACAGCTACCCGCACTGCTGGCGTTGTGATTCACCTCTTCTTTATTACGCAATTGAAAGCTGGTTCATCAAAACGACAGAGCTGAAGGATCAATTCCTGGCCAACAACCAGCAGGTCGACTGGCATCCGGACCATATCAAGGACGGACGCTTCGGAAACTTCCTTGAAAATATGGTCGACTGGAACATCGGTCGTAACCGTTTCTGGGGAACACCGCTGCCGATCTGGATGTGTAATTCCTGTGATCATCAATACGCCCCGCACAGTAAAGCGGACCTTCAGGAAAAAGCGATCGGAGATATCGGAGACGTTGAGCTGCACAAGCCATACGTCGACCGTGTTCAGGTGAGCTGTGAGAAATGTGGCGGCACGATGGATCGCGTACCGGAAGTTATTGACGTCTGGTTCGACTCTGGTTCCATGCCGTTTGCCCAGCAGCACTATCCGTTCGAAAACCAGGATCAGTTTGAGAAACAGTTCCCGGCTGATGTCATTTGTGAAGGAATTGACCAGACACGTGGCTGGTTCTACAGCCTGCTTGCAGTTTCTACGCTGTTCACAGGTAAAGCACCGTATAAGCGTGTCCTTTCCACCGGTCACATTCTTGATGAAGAAGGCCGTAAAATGTCGAAGAGTAAGGGGAATGCCCTTAATCCGACAGACATCGTTAATAAATTCGGTGCCGACCCATTCCGTTGGGCGCTTCTTGCAGACAGTGCGCCTTGGAATAACAAACGGTTCTCTGAGCGTGTCGTGATTGAGGCTAAATCCAAAGTGATTGACACCCTTGTGAACACGCACGGCTTCTATACGCTTTATGCCAATATTGACGGCTACACATTCAATAAGGACGAAACCGGTGAGAAGACGCTTCTTGACCGCTGGGTTCTTTCCCGCTTGAACAGTGTGACCGCTGTCGTAGAGGAAGCTCTTGAGGATTATGACTTCACTAAAGGAGCGAAGGCTCTGGAGAAGTATATTGATGAAGTGAGTAACTGGTACATCCGCCGCTCCCGTGACCGTTTCTGGGAAGAAGGCATGACCGAGTCCAAAAAAGCAGCCTACCATACGCTTCATGAAGTGCTTACACAGCTGAGTCAGTTGATGGCGCCGTTCACGCCGTTCCTGGCTGAAGATATTTATCAGAACCTGACGGGCGAAAGTGTGCACCTGGCCCACTTCCCGAAAGTGGATGATGCCGTTGTCAACAAACAGCTGGAAAAAGATATGGACGCTGTCCTGCAGGTCGTCGAGCTTGCCCGTGGTGTACGTAACACAGAAGCGATCAAGACGAAGCAGCCGCTCTCTGAGCTTGTGGTTATCCCGGTCAACCCGGACCAGGGCAAAGCACTGGAGGAATACAGCAGCATTATCCGTGATGAAATCAACGTCAAAGAAGTCGTTGTTAAACAGTCTTCCGAGGATCTTGTCCGTTACGAAGTGAAGCTGAACTTCCGTGCAGCCGGACCGGTACTCGGTAAAAATGTCGGTGTCGTCAAAGGCTATCTGGAAAAGCTTTCTGAGGAAGAAGCCGCTGCTGTCGTCAGAAATGAAAAAGCGGTCGTTCCAACAGCTGATGGAGAAGTTGAAGTGCCGATGGATCTATTGAATGTGGAACGTGTAGCCGATGCCGGCTTGTCCATGGGATCCAACCAGGACTTCCACGTGGTCCTTGATACATCCATCACGGAAGAGCTCCGCCTTGAGGGTCTTGCCCGAGAAGTGATCCGTGTCATCCAGGATGAGCGGAAACAGCAGGATCTGCCGATCGATCTTCGTGTCGACATCGCTCTTGCCGGTGATGAAGAAGTACAGGAAGCCATTAAGCAGAACGAACAGCTGATTCGTGAGAATGTCCTCGTTAAGGAACTCACTGTCGGCGAACAAGATGAAATGAAAGAGTATACCGTTGGTGATCATACACTGAAACTGGCTCTTCAAAAGTAA	MRSVNTKEAALDRENRVKDYWKQEDVFRRSMNEREGAETFVFYEGPPTANGLPHAGHVLGRVIKDFVGRYKTMQGYQVLRKGGWDTHGLPVELEVEKQLGISGKQQIEEYGVEKFIEKCKESVFNYEKEWREFTESIGYWLDMDDPYVTLQDRYIESVWYILSDLHKRNLLSKGHRVTPYCPSCQTTLSSHEVAQGYEDVKDLSATAKFKVKGTENEFFLGWTTTPWTLPANVTLAVHADLDYIKAEKDGEVYIVAEALAEKNLGEDYTVVSRHKGSEFSGVAYEAPFPFVKPERGHFVVEADFVNAESGTGVVHIAPAYGEDDYNLVKQHNLSFFNVVDGQGRYTADIPPFEGRFVKDCDVDIVKYLANEGLLFHKEKYEHSYPHCWRCDSPLLYYAIESWFIKTTELKDQFLANNQQVDWHPDHIKDGRFGNFLENMVDWNIGRNRFWGTPLPIWMCNSCDHQYAPHSKADLQEKAIGDIGDVELHKPYVDRVQVSCEKCGGTMDRVPEVIDVWFDSGSMPFAQQHYPFENQDQFEKQFPADVICEGIDQTRGWFYSLLAVSTLFTGKAPYKRVLSTGHILDEEGRKMSKSKGNALNPTDIVNKFGADPFRWALLADSAPWNNKRFSERVVIEAKSKVIDTLVNTHGFYTLYANIDGYTFNKDETGEKTLLDRWVLSRLNSVTAVVEEALEDYDFTKGAKALEKYIDEVSNWYIRRSRDRFWEEGMTESKKAAYHTLHEVLTQLSQLMAPFTPFLAEDIYQNLTGESVHLAHFPKVDDAVVNKQLEKDMDAVLQVVELARGVRNTEAIKTKQPLSELVVIPVNPDQGKALEEYSSIIRDEINVKEVVVKQSSEDLVRYEVKLNFRAAGPVLGKNVGVVKGYLEKLSEEEAAAVVRNEKAVVPTADGEVEVPMDLLNVERVADAGLSMGSNQDFHVVLDTSITEELRLEGLAREVIRVIQDERKQQDLPIDLRVDIALAGDEEVQEAIKQNEQLIRENVLVKELTVGEQDEMKEYTVGDHTLKLALQK				NA	NA	NA	NA	NA
AK012_03731	777	ycgJ		putative methyltransferase YcgJ	ATGAAAAATGAACAGAAGCAGCGTGTACAGGAAACCTTCTCCAAAAATAAAGAAGCCTATGTCCAAAGCTCCACCCACAACAATCCCGAGGATTTAAAGCTGTTGATCGAATGGCTCAAGCCGGAAAAACACTGGAGGGTGCTCGATGCAGCTACAGGCGGCGGTCATGTGGCAAAAGCTGTGCAGCCGTTCGTGAACCGCGTTTATGCGACAGATCTGACAAAGGAAATGCTCCAAAACACAGCTGCTCATCTTTCCGATATGGCCAATATCGTGTTTGTGGTAGCGGATGCTGAACAGCTTCCTTTTCTTGACGGTTATTTCGATGCGGTCACCTGCCGGATTGCTCCCCACCACTTTCCTGAGCCTGCCACCTTCGTATCGGAAGTCTTCCGCGTCCTGAAGCCCGGCGGCCGCTTTCTCATGATTGATAACACAGCCCCTGAAGATGATCAGCTGGACCAATTTTACAACGCTTTTGAAAAAAGAAGGGATCCCAGCCACGTCCGTGCCTTGAAGGTATCGGAATGGGAAGCCTTGTTCAACGGCCAATCGCTGGCCGTCAAGAAACACTTGAAACGACAAAAGACCCTCCCCTTTTCGTCCTGGGTGGCACGCACCCAGTCATGTCCTGTTGAACAACACGCGATCGAACAGGATTTATTGTCGGCCGACACCCATACGAAAGCCTATTTTTCCATTACATCATCGGATTCCGGCTTGGTGCACTTTTCCATCGACGAGTATATGGTTCTTTTAGAAAAAGGTTCCTGTTAA	MKNEQKQRVQETFSKNKEAYVQSSTHNNPEDLKLLIEWLKPEKHWRVLDAATGGGHVAKAVQPFVNRVYATDLTKEMLQNTAAHLSDMANIVFVVADAEQLPFLDGYFDAVTCRIAPHHFPEPATFVSEVFRVLKPGGRFLMIDNTAPEDDQLDQFYNAFEKRRDPSHVRALKVSEWEALFNGQSLAVKKHLKRQKTLPFSSWVARTQSCPVEQHAIEQDLLSADTHTKAYFSITSSDSGLVHFSIDEYMVLLEKGSC				NA	NA	NA	NA	NA
AK012_03732	1326	ythA_2	COG1271	Putative cytochrome bd menaquinol oxidase subunit I	ATGGATATCGTCGTCATGGCCCGTGCTCTTTTTGGAACTTCTCTGGGCTTCCATATTATCTACGCCACCATCGGCGTAGGACTTCCAGTAATGATTATCATTGCTGAAGTGATGTATTTCATAAAAAAAGACAATGATTATGCGCTGCTGGCACGAAGGTGGACAAAGGCCTTCGCTATCCTCCTGGCTGTGTCGATCGCTTCCGGAACGATTGTAGGCGTTATGATATCCCTGCTGTTTCCTGATTTCATGGAAATCGTCGGCCAGGTCATTGCCCTGCCGTTCCAAATGGAGATCTTCGCGTTCTTGATTGAAGCGGTTTTCATGTCGATTTACTTATATGCCGCAGACCGCCTTCCGCCAGCACTGCGGCTTGTGAGCATCATCTCCGTGGCACTTGGCGCCACAGCCTCGGCGATATTAATTACCGATGTACATGCCTGGATGAACACTCCGGCGGGCTTCCGTATGCTTCCAAACGGAGAGATTACAGATATTGATACGTGGGCGGCCTTTTTCAATCCGAGCTTCGGGGTTACAGCCATTCACGTCACCCTTTCCGCCTACATGACGGTGGCTTTTCTTGTGGCCTCTGCAGCCGCGCTTCGTTTGATGAAATCAAAAATCACCGACCAGGAGCGGGCCTATCATAAGAAAGCGTTGATGATTGCCCTGTACTTCGGAGCCTTGATGTCTCTAGGGACAGCGATCAACGGCCACGAAACCGCTCAAATGCTGCACGAGTACAACCCGCGGAAACTTGCAGCTGCGGAAGGATTGTTTGAAACCCAGCGGTACGCCCCCCTTTCTGTCGGCGGCTACACGTCCCTTGAGGATCAGAGAGTGAAGTACGCCATTGAAATTCCATACGGGTTGAGCTTTCTCGCCGGCGACCGTTTCGATACGGAAGTGATCGGGCTGAATGAATACCCACAGGAGCTGTGGCCGCCTTTGTACGTCCATATTTTATTTAACGTCATGGTCGGCATCGGTACCGTCCTCATTGCTGTTGCTTTTGCCGCCTTGTTCTGGAAACACGTCCTGAAGAAAGAGTTTCCCGGATGGATTCTTGCCATCCTTGTCGTCAGTGGCCCGCTGGCTTTACTGGCCATCGAGGCCGGATGGTGCTTCAGCTGTATCGGACGTCAGCCCTGGACGATTACGGATGTCCTGAGAACAGGAGAAGCCGCAACAAAATCCAAGAGTGTCGGTTTTCTCTTCTATCTGTTCATGAGTTTGTACATTACCCTGCTGTTCGTCACCGGATTCGTTCTCCGGTTCTATTTCAAACGCAATCCTGTCAGCCGTGACCTGAGCGCTCAATAA	MDIVVMARALFGTSLGFHIIYATIGVGLPVMIIIAEVMYFIKKDNDYALLARRWTKAFAILLAVSIASGTIVGVMISLLFPDFMEIVGQVIALPFQMEIFAFLIEAVFMSIYLYAADRLPPALRLVSIISVALGATASAILITDVHAWMNTPAGFRMLPNGEITDIDTWAAFFNPSFGVTAIHVTLSAYMTVAFLVASAAALRLMKSKITDQERAYHKKALMIALYFGALMSLGTAINGHETAQMLHEYNPRKLAAAEGLFETQRYAPLSVGGYTSLEDQRVKYAIEIPYGLSFLAGDRFDTEVIGLNEYPQELWPPLYVHILFNVMVGIGTVLIAVAFAALFWKHVLKKEFPGWILAILVVSGPLALLAIEAGWCFSCIGRQPWTITDVLRTGEAATKSKSVGFLFYLFMSLYITLLFVTGFVLRFYFKRNPVSRDLSAQ	PGPT0026700_4779	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
AK012_03733	1026	ythB_2	COG1294	Putative cytochrome bd menaquinol oxidase subunit II	ATGGAAGCTTCAACACTGGCCGTCACCATTCTGTGGAGCCTGCTGTTCATTTATGCGATGCTCGGATCTCTTGATTTCGGGGCAGGGTTCTGGGGGATGATTTATGGAAAAAGTGAAGAAAAAAGCGCCTCTCAGATCGCCAACCGCTTTTTATCTCCGACATGGGAAGTGACCAATGTATTTCTCGTCATCTTCGTCGTTTCGGTGGTTACCTTTTTCCCATATGCAACGACGCTTTTGAGCAGTGTCCTGCTCGTCCCTGTAGCCCTTGGGCTGCTGCTCCTGACGATCCGCACCACCTTTATGGTATTCCAGCATTATGCCGGAAAATTTGTCGGGCTGCTGCGTGTCACCTCCGGCGTCACAGGACTGATCATCCCTGCCCTGCTCGTCAGCATCCTGCCGATCACCCTTGGAGGATTCATCAGCTTTGAGGATGACTATCCGCGGTTGGAATACGGAGAGCTTCTGACCCATCCGACGCTGTACATGCACGTATTGTTCGGTTTATCCACCGAGTTGTTTATTTCATCGGTTTTTTTAATGGACTATGCCAAGGAAGCTGAAGACTGGGATGCGTATGATACATTCAGAAAGCACGCCCTGTGGCTCGGACCTGTCAGCATCGCCGTCGCCATGCTGACGATCGGAACGTTTCCGCAGGAAGCTGGATGGATCGTTGATAATATTGAGCAGAACTGGCTTATTTTCGGCCTTTCCCTGCTGTTTTTCCTGATCGGCTATGTTCTTTTGTTTTTGAAAAAACCGGACGGAAGAAAAGGGCGGGCCCGCCCTGCCGTCATCATGATCGTCCTGCAGTACGGGTTCGCCATCTACGCCTATGGCTCCGCTCACCTGCCGTATTTGATCTATCCGGACTTGACGGTGAGCGATGGGTTCACCAACGCTTCCACCTTTTACCCGATGCTGATCGTTTACGCCGTCGGATTCGGGATTTTAATTCCAGCGTTCTACCTATTCTGGAGATTGTTCCTGAAAGACCGGCGCTATTTGAAACAACAGTGA	MEASTLAVTILWSLLFIYAMLGSLDFGAGFWGMIYGKSEEKSASQIANRFLSPTWEVTNVFLVIFVVSVVTFFPYATTLLSSVLLVPVALGLLLLTIRTTFMVFQHYAGKFVGLLRVTSGVTGLIIPALLVSILPITLGGFISFEDDYPRLEYGELLTHPTLYMHVLFGLSTELFISSVFLMDYAKEAEDWDAYDTFRKHALWLGPVSIAVAMLTIGTFPQEAGWIVDNIEQNWLIFGLSLLFFLIGYVLLFLKKPDGRKGRARPAVIMIVLQYGFAIYAYGSAHLPYLIYPDLTVSDGFTNASTFYPMLIVYAVGFGILIPAFYLFWRLFLKDRRYLKQQ	PGPT0026705_2383	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
AK012_03734	969	glsA_2	COG2066	Glutaminase	ATGACGGACCTATCCAACTCCTACTTAGAAGAAGCGATCGAAGACAGCCGCCCTTATGCGTCTGCCGGAAAAGTGAATAGGAATCTTCCTGATTACGGGGAAGCGAATAAAGACTATCTCGGCGTCAGCATCATAACAACAGAAGGAAAGTGTTACAGCGCCGGGGATCATGATAAATATATTCCTATGCAGAGCACCTCGAAGGTCATCGGATTGATGCTTGCCCTCCAGGATTTCGGCAAGGACCGGGTGTTTCAGACGGTGGGCATGGAGCCGATGGGAGACTTCTTTAATTCGATCAGCCAGCTGGAGTCCTTCGACACCAGCAAACCGTTCAATCCGATGATTAACGCCGGGGCTATCGCTACAGCCGCTTTGATCAAAGGACAGAGCGTCGAAAACCGTTTTGACCGCTATATGGATTTCTTAAGAAAAATCACCAACAACCATTATCTCGAAATGAGCGATAAAGTGTACGAAGCAGAAAAAGCCAACGGCTCGCGTAACCGCTCACTCGCCCACTTCATGCACAGCACGGGGACGCTTGTGACCGACGTGGAAGAAGCTCTTGATTTATACTTCCGGATGAATGCGGTCATGATGTGCTGCCGTGACTTTGCGCGGGTCGGACTATTCCTGGCCAAAGGCGGCCTCACCCCCGATACAGAAGAACATTTGATTCCCGCCCACCACCTTCGGACCGTCAAAGCGATCATGATGACATCAGGCATGTATAACTCCTCCGGTCATTACGCTGTAGAAGCCGGTTTTCCGTGCAAAAGCGGTGTATCCGGGAGCATCATCGGCACGGTTCCCGGGAGGATGGGCATCGGTGTCGTCGGTCCGGCGATTGATGAGAAAGGAAACAGCACAGCCGGCGGTGCTTTGATCAAAAAGCTGTCCAGAGATTTGGAGTTGAATATGTTCGGGATTGAAAATACAGAAAGGAAGAATGACCATGCCTTTTAA	MTDLSNSYLEEAIEDSRPYASAGKVNRNLPDYGEANKDYLGVSIITTEGKCYSAGDHDKYIPMQSTSKVIGLMLALQDFGKDRVFQTVGMEPMGDFFNSISQLESFDTSKPFNPMINAGAIATAALIKGQSVENRFDRYMDFLRKITNNHYLEMSDKVYEAEKANGSRNRSLAHFMHSTGTLVTDVEEALDLYFRMNAVMMCCRDFARVGLFLAKGGLTPDTEEHLIPAHHLRTVKAIMMTSGMYNSSGHYAVEAGFPCKSGVSGSIIGTVPGRMGIGVVGPAIDEKGNSTAGGALIKKLSRDLELNMFGIENTERKNDHAF	PGPT0020215_1278	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLUTAMINE_DEGRADATION,PGPT0020215-glsA-K01425	NA	NA
AK012_03735	447			hypothetical protein	ATGCCTTTTAACTATGATTTGGATTTTGATTCGATCGACTTCCGGGAAGAACCGGAAAAGTACCGGGTCGGACGCGGCGAGCAGGGTGTACTTCTTGTCGAACCCTATAAAAGTGAAATTCTCCAGCACTGGCGCTTCAAAACACCCGAAATCGCCAGAGAGTCATCAGAAAAAATTTACGCTATGTTTGAAGAATACAAGAAAAACGATGATTTTGTCGGCATGGATATGGCTCGGAAATTCCTGCAGATGGGCTACACACGCTCACGCCGGTATGCCAACTATAAAGGCGGAAAGAAATACGACAAGGACGGCGATCTCAACGACCGGGATATTGATGAGGAAAAAGCAGAATCGGCCCGGATTTTTGAGGAGAAATGGATCAAAGCCCGCGAGGACGAAGAGTACCTCGAGAAAAAACGGGCCCACCAAAAGGAATACGGATAA	MPFNYDLDFDSIDFREEPEKYRVGRGEQGVLLVEPYKSEILQHWRFKTPEIARESSEKIYAMFEEYKKNDDFVGMDMARKFLQMGYTRSRRYANYKGGKKYDKDGDLNDRDIDEEKAESARIFEEKWIKAREDEEYLEKKRAHQKEYG				NA	NA	NA	NA	NA
AK012_03737	1116	metI	COG0626	Cystathionine gamma-synthase/O-acetylhomoserine (thiol)-lyase	ATGTGTCACACAGAAACAAAATTTGTCCAGACCGGAAACCAGCAGAATGAGCCTTACGGAGCAATCAACCCACCGGTTTACTTCTCCACCCCGTACCGTCACCCGGGGCTTGGGGAATCTACGGGATTTGATTATACGCGGACGGGCAACCCGACAAGAAAGATTCTTGAATCAGCGATGGCGGATATTGAAGAAGGGGACGCAGGGTTTGCATTCAGTTCAGGAATGTCCGCCATCCAGACCGTCCTTTCCCTGTTCCGCGAAGGAGATGAAATTCTCGTATCCGAAGATTTATACGGAGGGACCTACCGCTTATTTGAACATATGAAGGAGCGTTACCGTCTACAGTTCACCTACCTGGAAAACGAAAAGCTGAATGATCTCCCTTCGTATGTAACCAAACGCACGAAAGCTGTTTACATCGAAACACCGACCAATCCACTCATGCATCAAACCGACATCAAGCAGATGGCCGGACGTGCTAAAGAACATGACCTGCTGCTGATTGTCGACAACACCCTTTATACACCAGTTCTCCAACAGCCGCTGAAGGAAGGAGCGGACGTGGTCATTCACAGCGCTACGAAATATCTGGCCGGACATAATGACGTACTGGCGGGCCTCCTGGTCAGTAAAGGAGAAGAAATCAGTGAAAAACTTGCCTTTCACCAAAATACATCCGGGGCTGTCCTCTCCCCGTTTGATTCCTGGCTTGTCATGCGCGGCATGAAAACTCTCCCGCTTCGGATGAGGCAGCATGAAGGCAACGCCAGAGCCGTCGTTCAATTTCTGGAGGATCATCCATGTGTAGACGATATTTTCTATCCGGGAAAAGGAGGCATGGTTTCCTTCCGATTAAAAGAAGAAGCATGGGTCGACCCTTTTCTCAGAGGCTTGAACCTTATCAGTTTCGCGGAGAGCCTCGGTGGTGTGGAAAGCTTCATTACCTATCCGGCCACCCAGACCCACGCCGACATTCCTGAAGAAGAACGGGTCCGCTATGGTGTATGTAATAAACTGCTCCGCTTTTCCGTCGGCGTCGAACATATTGATGACCTGCTGGAAGACCTTTCATCGACATTCAATCAATTACCTGAGGAGGCATCCGTTCAATGA	MCHTETKFVQTGNQQNEPYGAINPPVYFSTPYRHPGLGESTGFDYTRTGNPTRKILESAMADIEEGDAGFAFSSGMSAIQTVLSLFREGDEILVSEDLYGGTYRLFEHMKERYRLQFTYLENEKLNDLPSYVTKRTKAVYIETPTNPLMHQTDIKQMAGRAKEHDLLLIVDNTLYTPVLQQPLKEGADVVIHSATKYLAGHNDVLAGLLVSKGEEISEKLAFHQNTSGAVLSPFDSWLVMRGMKTLPLRMRQHEGNARAVVQFLEDHPCVDDIFYPGKGGMVSFRLKEEAWVDPFLRGLNLISFAESLGGVESFITYPATQTHADIPEEERVRYGVCNKLLRFSVGVEHIDDLLEDLSSTFNQLPEEASVQ	PGPT0001985_97	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_CYSTEINE_DEGRADATION|CONVERSION,PGPT0001985-mccB-K17217	NA	NA
AK012_03738	1182	metC_2	COG0626	Cystathionine beta-lyase MetC	ATGAATACCCATTCCCTGCAGACCCGACTGCTTCACAATGACCAGAAATTCGACCCACAGACCGGTGCGGTGAGTGTTCCGATCCAGCAGGCGTCCACCTTTCACCAACAGGATTTTGACACACCGGGCGACTATGACTACAGCCGCTCCGGAAATCCGACGAGAACGGCACTGGAAGAGACCATCGCCGGATTGGAAAATGGCACGAAAGGTTTTGCTTTCGCGTCTGGAATGGCTGCCATTTCCACAGCGTTCATGCTTTTATCCAAAGGGGATCACATCGTGATTACAAAAGACGTGTACGGAGGAACCTTCCGTATGATCAACGATGTTCTTCACCGCTTTGGAATCGATCACACTTTTGTCGATATGACGGACCTTCATGAAGTGGCCACGGCCATACAGCCGAATACACAACTGTTATATATTGAAACACCTTCCAATCCAACGCTCGAAATTACCGATATCCGTGCGGTGGCGAAGCTTGCCAAAGCGAACAACTGCCTGACCTTTGTTGATAACACCTTTATGACACCGGCCCTGCAGCGGCCCCTCGACCTCGGTGCCGACCTCGTGCTTCATAGTGCAACGAAATTCATTGCCGGCCATAGCGATGTCGTCGCTGGATTAGCCGTGACGAACCGGGCAGACGTTGCGGAAGCCCTGGCCTTCCTGCAGAATTCTTTCGGATCCATTCTGGGCGCACACGACTGCTGGCTCGTGCTCCGCGGCCTGAAAACCCTCCACTGCCGGATTACCCAGTCTTCGCAATCAGCAGCCACCATTGCAGAAGCCTTATCCAGGCACCCTCTGGTCGAGCACGTATACTATCCGGGCTTCCGGTGTCATCCGGGAAACTCCACCCACACGTATCAATCCGATGGGTATGGTGCCGTTCTATCTTTCCGTCTCCGTGATGAAGAGGCGGTCCGTCAATTCACAAAAGCAGTGGAAATTCCGGTATATGCCGTCAGCCTGGGAGCTGTTGAATCGATTTTATCCTACCCCGCCCGGATGTCCCACGCTTCCATGCCTAAAGAGGAACGGGAGAAACGCGGCATCACAGATGGGCTGCTGCGCTTATCTGTCGGACTGGAAAAACCAGAAGATCTGATTGCTGATTTTTCTCAGGCGTTAAACCAAATCGAATTCAGCGCAGAAGACAGAAGATTGAGCATATGA	MNTHSLQTRLLHNDQKFDPQTGAVSVPIQQASTFHQQDFDTPGDYDYSRSGNPTRTALEETIAGLENGTKGFAFASGMAAISTAFMLLSKGDHIVITKDVYGGTFRMINDVLHRFGIDHTFVDMTDLHEVATAIQPNTQLLYIETPSNPTLEITDIRAVAKLAKANNCLTFVDNTFMTPALQRPLDLGADLVLHSATKFIAGHSDVVAGLAVTNRADVAEALAFLQNSFGSILGAHDCWLVLRGLKTLHCRITQSSQSAATIAEALSRHPLVEHVYYPGFRCHPGNSTHTYQSDGYGAVLSFRLRDEEAVRQFTKAVEIPVYAVSLGAVESILSYPARMSHASMPKEEREKRGITDGLLRLSVGLEKPEDLIADFSQALNQIEFSAEDRRLSI	PGPT0001995_822	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
AK012_03739	984	ycgT	COG0492	Ferredoxin--NADP reductase 1	ATGGACATGTATGATGTAACCATTATCGGCGGAGGTACGACAGGGTTGTACGCCGCTTTTTACAGTGGGATGAGAGGACTGAAGACGAAAGTGATTGAAGACCAGCCGGAAACAGGAGGGAAGGTTTCGTTCTTTTATCCGGAGAAACAAATCTATGATGTCGGCGGTTTTCCCGGAATTTCCGGGGAGGAACTTGCGGCCAATGTGGAGAAACAGGCGCAGAGCACGTCCCCTGCCCTTGTGACGGGAGTGAAGGTACAGAGCCTTCAAAAACAGGAAGACGGGACTTTTCTTCTCGTCACCAACGATGGCGGCAGTCATTATACCCGGACCGTACTGGTTGCTTCCGGGCTGGGTACCTTTCAAATGCAGCCGCTTCAGGTGGATGGGGCTTCCGCATATGAAGGCAGGCAGATCCACTACACGATAAAGAATAAAGAGAAATATAAGGGATTGAAAACAGCAGTTGTTTCAAATAACCGTGTGGGGATCGACTGGTCGCTTGCGCTTGAAGGTACAGCTGATGAAGTTACCCTGATCAACCGGAACAACGCTTTTAGAGCGGTTTATGAGAAGGATGAGGAAAACCTTCAGGCATCTTCTGTCCACGTCCAATACAACCAGACGATTCAGCGGGTGAAAGAAGAAGGAGGCCGGATGACCGGCGTGATTCTCAATGATGGGACGGAGCTTCCTTTGGATCATCTTCTCGTTTATGAAGGACTGCAGATGGAGAAAAGTGTTTATGAAGAATGGGGAATCCATACAGATAAAGGACGGATTCCGGTAGAAACGGATATGTGTACCAATATTCCGGGCGTGTTTGCGGCAGGAGATGCCGTGGTCTATCCAAGTAAAACGATGTTGATTGCTTCCGGATTCAATGAAGCGATGGCTGCCATCAACAGCGCTGCCACCTATCTGGATCCTGAAGCTAAGAGCCAGGTGTACAGTACCGTCATCTATAAATACACGGATCATTAA	MDMYDVTIIGGGTTGLYAAFYSGMRGLKTKVIEDQPETGGKVSFFYPEKQIYDVGGFPGISGEELAANVEKQAQSTSPALVTGVKVQSLQKQEDGTFLLVTNDGGSHYTRTVLVASGLGTFQMQPLQVDGASAYEGRQIHYTIKNKEKYKGLKTAVVSNNRVGIDWSLALEGTADEVTLINRNNAFRAVYEKDEENLQASSVHVQYNQTIQRVKEEGGRMTGVILNDGTELPLDHLLVYEGLQMEKSVYEEWGIHTDKGRIPVETDMCTNIPGVFAAGDAVVYPSKTMLIASGFNEAMAAINSAATYLDPEAKSQVYSTVIYKYTDH				NA	NA	NA	NA	NA
AK012_03740	324		COG1695	Transcriptional regulator	GTGCTGAGAGATTTTTTTCTTGGTTCGATTAAGATCCATATCCTCTATCACGCCAGTATAGAACCGATATACGGCGCGTTTCTCATGGAGGAGCTTGCTTCCCACGGTTATGACATCAGTCCGGGTACTCTCTACCCGACGTTGAAGCAGCTGCATAAGGATGAGCTGTTGGAAAAATATGAGGAAAAAGTAGAGGGGAAAATCCGCAAATATTATGTCATTACAGATAAGGGCCGGCAGGTGCTGAAAGAAGGAAAACAGCAGGTGAAAGAGCTTGCTGAAGAAATCTTAGGAAAAGATTGGAGGAACCTATCAAATGAGTGA	MLRDFFLGSIKIHILYHASIEPIYGAFLMEELASHGYDISPGTLYPTLKQLHKDELLEKYEEKVEGKIRKYYVITDKGRQVLKEGKQQVKELAEEILGKDWRNLSNE				NA	NA	NA	NA	NA
AK012_03741	1182	chrA		Chromate transport protein	ATGAGTGAACCTAATAAAAGAAATTGGATGGAAATTCTGCGCACATCGACCAAGCTTGGTTTTACATCTTTTGGCGGGCCGATTGCGCACCTGGCCTATTTCAAAGACGAATACATTGATCGGAAAAAGTGGCTGGATGATAAAACCTACGCCGACATCATTGCCCTCTGCCAGTTTCTCCCCGGGCCGGCAAGCAGCCAGGTAGGTATTGCGATTGGTATGCTGCGCGGAGGCTTTATCGGAGGATTGATTTCCTGGTTCGGTTTTACGATGCCGTCCCTCCTCGTCCTTGTTTTATTTGCTATGCTTTATCAATCCTTCGACTTAGCAGACGCCGGGTTCATCCACAGCCTTAAAGTCGTTGCCGCAGCTGTCGTCCTGCATGCCTTGATGGGGCTTGGTAAAAAGTTAACACCGGATAAACCGAGAATTACCATCGCACTGGCAGCCGCCTTGATCCTGCTGCTTTATCCATCAGCCTGGATGCAGCTGGTCATTATTTTCGCCGCCGGTATCTTTGGGTGGAAAATGTTTTCCGGTTTGAATCAATCCAAGATTCAACCGTTCCCTGTCACTTTTTCTAAAAAAGCAGGAATAGCATCGCTCAGTACCCTGATTGGACTGCTCATTTTCCTTCCTATACTTGCTGAAAACACGGAGAGCCTGTTCATCCAGCTGTTTGACACGTTCTTCCGGGTAGGCTCCCTCGTCTTTGGAGGCGGCCACGTTGTCCTCCCCATGCTGGAAAGAGAAGTGGTTCCAACCGGACTGCTGTCAGCCAGTGATTTTCTCGCGGGATACGGAATGGCTCAGGCTGTTCCCGGACCTTTGTTCACGTTTTCAAGCTATCTCGGTACAATGATTCAAGGGGTGACAGGAGCTGTTGCAGCTACGGCCGGAATATTCCTTCCTTCTTTTTTATTCCTTGTAGCGGCACTTCCATTTTTGAACGAGCTTCGAAAACGACCAGCTTTCCAGGGTATCCTGACAGGAGTCAACGCCAGTGTAGTCGGCATTCTGCTGGCTGCCTTTTATGACCCTGTCCTTAAAAGCTCCATTTTAAATGGAGAAGACTTTGCCCTGGCAGCGATTTTGTTTTCCCTGCTCCATTTCTTTAAAGTCCCGGCATGGGCCATCGTCATAATCGGAGTAGCAGCCGGAGCTGTGCTCAATATGTTATAG	MSEPNKRNWMEILRTSTKLGFTSFGGPIAHLAYFKDEYIDRKKWLDDKTYADIIALCQFLPGPASSQVGIAIGMLRGGFIGGLISWFGFTMPSLLVLVLFAMLYQSFDLADAGFIHSLKVVAAAVVLHALMGLGKKLTPDKPRITIALAAALILLLYPSAWMQLVIIFAAGIFGWKMFSGLNQSKIQPFPVTFSKKAGIASLSTLIGLLIFLPILAENTESLFIQLFDTFFRVGSLVFGGGHVVLPMLEREVVPTGLLSASDFLAGYGMAQAVPGPLFTFSSYLGTMIQGVTGAVAATAGIFLPSFLFLVAALPFLNELRKRPAFQGILTGVNASVVGILLAAFYDPVLKSSILNGEDFALAAILFSLLHFFKVPAWAIVIIGVAAGAVLNML				NA	NA	NA	NA	NA
AK012_03742	2814			hypothetical protein	ATGGCTGATGAGCAAACCAGATATTCTCGTCTAGCTCAAATCACCAAGCTGATCAACACCAAGTTGGATTTGCGTGAAGTATTAGAGCATGTAGTAACAGCCATATCAGAAGAAATCATGAGATGCGATTCCGTGGGAATCTACCTGCCGCGGGAAGATGGCACGTACCAGGGATATGTGGGGAAACCGAGCACCATCAACGGCATGACGCTGGATATGCACATTGTAGACCCTGAACAGGACCAGCTGGCCAAGGAAGTGATTGAAACGAGGGAAGCGATTTATATTCCGGACACTTCCAGGGACGACCGCCCGGATCAACGAGCGGTCCAGGCGTTTAAAATCAACTCACTCCTCGTTGCCCCCATTTCCTATGAAGACGAATTGTACGGACTTGTTTTCCTATTTGACTACGGGATCCCTATGGATTTGACAGGGTCTGAAATTGAGAGCGTCAAAGCCTATATCCACATGGCCGCAGTAGCGCTCCGTAATGCCAATAACCTGACAAGAAAAGAAAAGCTGATCTCAGAAAAACAGCTTCTTCTTAACGTGACACGTGATTTATCTTTGTGCTCTTCGCTGCAGGAAGCCATCGATAAATGCTTTTATTATCTCGGCGAGGTGCTGGGGAATCAGAACATTGGGGCTCATTTTATCGATCCTATAGCGGAAGACAGGCTGAAACCGGCCATCCTGAATAAAAACAGCGACTGGACGGAAGAAGACTGGATCGCCACCCACAGAAAGACGCGGTTCGATCATAAGGAGGACCTGATCTTCCAGGAAGTCATGGAAACAAAGAAGTCCGTGCTGGTCACGGATGTATATGAAGATCATCGAGTCAACCAGCAGATCTGCAGAGAGTTTGGGATTAAGGGGTTGTATATGATCCCCCTTGTATCTCTCGGAGAAGTCCTCGGAGCCATCGCCATCGTAAACCTGAATGAAAATGATCCAAGCTATACCCCCTCTGTCCGTCAGCTTGCTGAATCCATCGTGGATACGACAGCCCCCGTTTTATTCAATCTATTATACATTGAAAAACAGGAGGTCATTATCCAGGACCGGACCTCTGAACTTATAGAAAAGAACCGGGAACTGGAGGAAGCCTTTATCGAATTGAAACAGATCAGCCGGGAAAAGGATTTGATTTTAAATTCGGCGGGGGAAGGGATCTTCGGTATTGATCTCGACGGGAACATTACGTTTGCAAACCCTTCTGCCACCCAGCTGCTCGGCTATGACGACGAAAACGATGTCATCGGATTATCCTATGCGCGGATTTTCAAGTGGGAAGATCCAAGTGTGGACATCCATTCCTTTAAGGATCTTTATCTCTGGAAGGAAACGTACAGCGGACAGGAGCATTTCTTCATTAAAAAAGACGGAGGGTCTTTTCCTGTTGAATATGTCATTACGCCTAAAAAGGAAAACGAAAAGACCATCGGCTACGTTGTGACCTTCAAGGATGTCACCTCCCGTAAACAGATGGAGGAAAAAATTAAGTACCATGCTTATTATGATGTCGTGACCAACATTCCGAACCGCGTCCTGTTCAGGGACAGACTGAAACAGGCGCTCAGCTATGCGGAATTGACCGGAGAATCGCTCGCTATCCTGTTTCTCGACCTCGACCGCTTCAAAAAAATCAACGACACGTTCGGCCACAGTTATGGGGATATGGTGCTTCAACAGGCCGCACAGCGTCTGCAGCAGGTCATTCCGAAAGAGGCGACCGTTTCCCGGCAGGGGGGCGACGAATTCATCATCCTCCTTCCTAAAATCGACCAGACAGAAGAAGCTGTCGTCTGCGCGGAGCGGGTACTGGCTTCATTCGACAGGCCGTTTACCATCCAATCCCAGGAAGTGAGCATCAAAACCAGCATCGGCATCAGTATATATCCGGAAAATGGTGACGATGTCGAATCTTTAATTAAGCATGCGGATGTGGCCATGTATAAAGCGAAGGATTATGCTGGTAATCAATACCAGCTTTTCTCCGACGACATTGGAGAACGCTCCATTGAGCAGATCAAGCTTGAGAATGATTTATTCAAAGCCCTCCAGCACGGCGGAGAGTTTGAATTGTATTATCAACCCAAATTCGACGTCCGTTCGGATGACCTGGTTGGTATAGAAACACTGATCCGTTGGAACCATCCGGAATTCGGGCTGTTGTCGCCGGCCCGTTTTATTCCTCTGGCTGAAGAAACCGGGTTGATCACTGCGCTCGGGGAGTGGGTCATCAAGGAGTCCTGCCGGCAGATGAAAGAGTGGTATGACAAAGGGTGCACCGATCTCGTCGTCTCCGCCAACCTGTCGCCGCAGCAGTTCCAGCAGAGCGATCTCGCTGCCAAAGTGGCCGGCATCCTTGAAAAGACCGGCCTCCCTCCACAGCTGCTGGAATTGGAATTGACGGAAAATCTGATCGTCAACAATACAGACCAGACCCTGAAAACAATCCGCGAGCTGAAAGATCGAGGAGTGCAGATATCCATAGATGATTTTGGGACAGGCTATTCCTCCCTCGGCTATCTGAAGGATTTCCCGGTGGATACCCTTAAGATTGATAAATCCTTCATTGATGATATGACAACGAATGCGAACAATGCTGCGATCATTAAAACCATCATCACTCTGGCTGACAGTCTGAACCTGAATGTCATTGCTGAAGGAGTGGAAAGCAGGGAGCAGGCTGACCTCCTTGCCCGGCATGGGTGCTACTGGATTCAAGGGTATTTATACAGCCGGCCTCTTCCCGTCCGTCAATTTGAGGAGCGGTACGTACCATCCCATTCAAAAAGGAGCTAA	MADEQTRYSRLAQITKLINTKLDLREVLEHVVTAISEEIMRCDSVGIYLPREDGTYQGYVGKPSTINGMTLDMHIVDPEQDQLAKEVIETREAIYIPDTSRDDRPDQRAVQAFKINSLLVAPISYEDELYGLVFLFDYGIPMDLTGSEIESVKAYIHMAAVALRNANNLTRKEKLISEKQLLLNVTRDLSLCSSLQEAIDKCFYYLGEVLGNQNIGAHFIDPIAEDRLKPAILNKNSDWTEEDWIATHRKTRFDHKEDLIFQEVMETKKSVLVTDVYEDHRVNQQICREFGIKGLYMIPLVSLGEVLGAIAIVNLNENDPSYTPSVRQLAESIVDTTAPVLFNLLYIEKQEVIIQDRTSELIEKNRELEEAFIELKQISREKDLILNSAGEGIFGIDLDGNITFANPSATQLLGYDDENDVIGLSYARIFKWEDPSVDIHSFKDLYLWKETYSGQEHFFIKKDGGSFPVEYVITPKKENEKTIGYVVTFKDVTSRKQMEEKIKYHAYYDVVTNIPNRVLFRDRLKQALSYAELTGESLAILFLDLDRFKKINDTFGHSYGDMVLQQAAQRLQQVIPKEATVSRQGGDEFIILLPKIDQTEEAVVCAERVLASFDRPFTIQSQEVSIKTSIGISIYPENGDDVESLIKHADVAMYKAKDYAGNQYQLFSDDIGERSIEQIKLENDLFKALQHGGEFELYYQPKFDVRSDDLVGIETLIRWNHPEFGLLSPARFIPLAEETGLITALGEWVIKESCRQMKEWYDKGCTDLVVSANLSPQQFQQSDLAAKVAGILEKTGLPPQLLELELTENLIVNNTDQTLKTIRELKDRGVQISIDDFGTGYSSLGYLKDFPVDTLKIDKSFIDDMTTNANNAAIIKTIITLADSLNLNVIAEGVESREQADLLARHGCYWIQGYLYSRPLPVRQFEERYVPSHSKRS				NA	NA	NA	NA	NA
AK012_03743	1632	ilvG		Acetolactate synthase isozyme 2 large subunit	ATGAAATCTGTTCGTGCTGTACTGGATTACTTAGTCTCGGGAGATGTATCTTATATTTTTGGTATTCCGGCCGGATCCGTGAATGCATTTTTTGATGAGCTGTATGACACCCCCTCCATTACGCCTGTAATTGCGAAGCATGAAGGGGCGGCTTCCTATATGGCTGCCGCTTATGCCAAATATTCAGGTTCACTGAGTGTTTGCATCGGAAGCAGCGGTCCTGGTGGAACAAACCTTGTGACAGGAGCGGCCAATGCGATGCGGGAGCATCTTCCTGTGCTTTTTCTGACCGGTGCTGTGCCTGTCGATACGGTCGGATTGAATGCATCCCAGGAACTGCATGCGGACCCTCTGTATCAGTCGGTTACAAAATACAGCCAGCGGGTCGACCGGGCAGAGGATCTTCTACCGGAAATTCATAAAGCGGTCGAAATCGCACTGACCGGTGTTCCAGGCCCTGTGCACATCGCTATGCCGATTGATGTCCAGCTGTCATCCGTTGCCCCGCCTGCTCTTCCAAAGTTTCCGGAACGGGTACCCCTCCTTCCGGAAGATGACCAAATCCAACAAGTCGCAGAGAAGCTGTCCGGTACGACCGGATTCATCTTTGCCGGACAAGGTATCCGCGGTGCTGTCGAAGACGTACTGGAATTGGCGGAAACGTTGGATTGGCCGATTATTACGACCCCTCAGGCAAAGGGGTTGATCCCGGATAACCACCCGCTTCTGAAAGGGATTTTCGGGTTTGCAGGACACGAAGAAGCTTCTGCGTTCATTCATTCGAACGCAGCTGAAACGATCCTTGTGCTGGGCTCTAGTCTTGGAGAAACCGCTACAAACAACTGGAATCCCCATCTGGCTGCCAGCCGCACGCTTATCCAGGTTGACTACGATGCCACGGTCTTCAACCGGAAGTATCCAGTGGATACGGCTGTTCACGGAGATATCAATGTGACCGTTTCCTCTTTGATTACAGCCTTGAACCGGCTCGGACACAGACAGAAGCCCATGGCTGAACAGCCGCTTCGTCCGCAGGAAATCACATCCGAATATAACTCACAGAATGTGCTGTTATCCCTTCAGAAGCTGCTCCCTGAAAATACAAGATACACCGTCGATATTGGAGAATTCATGGCGTATGTCGTTCACTATATGGACGTCCGATCCCCGGATTCGTTTGATATCAATGTCCACTTTGGAGCAATGGGGAGCGGCATCGGCAGCGCCATGGGTGCCAAGCTTGCAGAGCCGGAAAGACCGGTGGTAAGTCTCACAGGAGATGGATGCTTCTTCATGCACGGTATGGAACTGCTGACAGCCAAGGAATACAATATCCCGGTGTTGTTTGTCGTGATGAATAATGCGCGGCTCGGCATGGTCCACCACGGGCATACCCTGCAGTATAAGCGCGCCCATGAACGGTTCGGTCAGGAAGCGGTCGACATTACGGCTATGGCAGCTGCCCTTGGCGTGCCGTCGGCTTCCATCCATTCCCTGGAGGACATGAACGAGCAGACCCTGGCGGAGGTTTTGAACAACGACGGGCCAGCCGTCCTCGAAGTATCCCTGGTCGACGATAACGTCCCCCCGATGGGTGACAGAGTCAAGTTTCTCTCTTCTTTCGGTAAATAA	MKSVRAVLDYLVSGDVSYIFGIPAGSVNAFFDELYDTPSITPVIAKHEGAASYMAAAYAKYSGSLSVCIGSSGPGGTNLVTGAANAMREHLPVLFLTGAVPVDTVGLNASQELHADPLYQSVTKYSQRVDRAEDLLPEIHKAVEIALTGVPGPVHIAMPIDVQLSSVAPPALPKFPERVPLLPEDDQIQQVAEKLSGTTGFIFAGQGIRGAVEDVLELAETLDWPIITTPQAKGLIPDNHPLLKGIFGFAGHEEASAFIHSNAAETILVLGSSLGETATNNWNPHLAASRTLIQVDYDATVFNRKYPVDTAVHGDINVTVSSLITALNRLGHRQKPMAEQPLRPQEITSEYNSQNVLLSLQKLLPENTRYTVDIGEFMAYVVHYMDVRSPDSFDINVHFGAMGSGIGSAMGAKLAEPERPVVSLTGDGCFFMHGMELLTAKEYNIPVLFVVMNNARLGMVHHGHTLQYKRAHERFGQEAVDITAMAAALGVPSASIHSLEDMNEQTLAEVLNNDGPAVLEVSLVDDNVPPMGDRVKFLSSFGK	PGPT0008185_10139	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
AK012_03744	474			hypothetical protein	TTGCTGAAAAACCGATTCATCATCGCTACACTCACGGCCGGCCTGTTTCTTACAGGCTGCGGAGCTTCGGAAAGTGAAGAAGCTCATGTCGAACATGCGAACGGGGATCTGAGGGAAGAAACGGTCTCTCCTGAAGTCCTTCCAGGATTCATGGATGAAAAACCGGAAAATGTCCAGAACATCTACCTGGCTGCCGCCCAGCACCGCGACCTGCTTGAAAGCATCCCATGCTACTGCGGCTGTGGAGATCATGCCGGCCATAAAGATAACTACGACTGCTTCGTCCATGAAAATCGTGACGACGGCCGGATTACATGGGATGACCACGGAACGAAATGTGGGGTCTGCCTGGAGATTGCCGCTTCTTCCATCAACGATTATCAGCAGGGAAAATCGATCAAGGATATCCGCGCAGACATTGATAAAGCCTATGAAGACGGCTATGCAGAACCTACCCCGACCCCTGCTCTTTAA	MLKNRFIIATLTAGLFLTGCGASESEEAHVEHANGDLREETVSPEVLPGFMDEKPENVQNIYLAAAQHRDLLESIPCYCGCGDHAGHKDNYDCFVHENRDDGRITWDDHGTKCGVCLEIAASSINDYQQGKSIKDIRADIDKAYEDGYAEPTPTPAL				NA	NA	NA	NA	NA
AK012_03745	519	sigW_3	COG1595	ECF RNA polymerase sigma factor SigW	ATGGATATCCATGAATTGTATGAACGCTATCACCGCCGGGTCTTCTTCTCTGCTTATAAAGTCGTGAAGAACAAAAGTCTTGCCGAAGACGTGGTGCAGGAAACGTACTTGAAAGCCTATCGCAAACTGGATGAACTGACAGATGAGAAAAAGGCAGGGGCCTGGCTGTCCACCATCGCCGGCAGGAAGGCAGTAGACCTGTTGAGAAAAGAGGGAAAAGCTGTTGTTGTTTCGCTGGAGCAGACACCCCTGCCAGCTTCTCTCTGCCAACAGGACTCCTTAGTTGAAGAAATGTGTGAGCTCCATCTGCTTGAAGAAGAAATCGAGACGTCCATCCGCTCGTTATCTCCAAAAATACGGGAAGTGTTCCGATTGAGCTTTCAGTACAGCATGAAGGAAAAGGAAGTGGCCGACTTTCTGAACCTTTCCCTTTCCGCGGTGAAGTCGAGACTGCACCGGGGGCGTAAACAGTTAAAGGAGAAATTCGTTCAAAAGAATTCAGTGGAAAATCCGGCGTGA	MDIHELYERYHRRVFFSAYKVVKNKSLAEDVVQETYLKAYRKLDELTDEKKAGAWLSTIAGRKAVDLLRKEGKAVVVSLEQTPLPASLCQQDSLVEEMCELHLLEEEIETSIRSLSPKIREVFRLSFQYSMKEKEVADFLNLSLSAVKSRLHRGRKQLKEKFVQKNSVENPA				NA	NA	NA	NA	NA
AK012_03746	2013			hypothetical protein	ATGCATTCGAAAACATCCTTGTTTAATAAAGAAATATTCAAGCAGGATTTCAGAGCAGTGGGATGGGTCAGTATCATTTATTTTCTAGGACTGTTCTTTCTCGTTCCGCTGCCATTGTTTATGGACATGAATACCGCCGACCCTTTGACATCTGCGGTGGAAAGTGACGGCGGGCTCTTCGGACCTATGTTCGCCTTTGAACTGCAAGCTGTTTTCTTATTGATCCTGCCTGTCCTGATGGCGGTCTTTTTGTTCCGGTACCTTCAAACGAAGGATGCTTCGGACTTTGCTCATAGTTTACCAATCAGCCGCGGCAGACTCCTGCACCATCATCTTTTGTCAGGTGTTGTGCTGCTGCTCATTCCGATCCTCATGAATTATTTCATTTTAGTTGTGACTTCATCGATCGTGGATGTATCCGGTTATTTCACGATGGGAAATGCAGCCTACTGGCTGACTATCTTCAGCGTCGTATCGATTCTATTATTTATGACCGGTGTTTTTGTAGGGACACTGACCGGGTTATCTGCTGTTCATGCGGTGATTACGTACATTCTCCTATTGTTTCCAGCGGGCATGTACCTGCTGTTCAGCTATTATCTTGATATGACGATCAATGGTTTTTCAGGCGTCATCGCTCAGGAAGAAACGATCCAGTATTTATCTCCGATCACGGATGTTCTGACGGCGGACGCTTCAGGTGGTGACATCTCTTATTTACCATTATCCCAAGTTTCTTTATGGTTGTATGCAGCAGCTGCTGTTGTCTTTTATGGACTTTCGTACTTCATTTATCAAAGGCGTGCGTTGGAAACGGCGACAAAAGCTGTGACAGTATCGGCGCTTCAGCCTGTCTTTAAGTTTGGAGTCACCTTCTGCACCGCGCTGCTTGGAGGGATGTATTTCGGTCTGAGTCTGGCCTCATACGGCTGGATGGTATTTGGCTGGGTTTTGGGAGGAACCTTTGGATATACAGCGGCGCTCATGCTGTTGGAGAAAACGTGGCGCGTAGGGAACATCCGTTTTATAAAAAACGGGCTCGTATATACCGTAGGCGCGGGGGCAGCTCTGGCCCTGCTGCCTTTATGCTGGCAGGGTTACGAATCTTACATTCCAGATCAGCAGGATGTCGTGAAAGCTTATATCAGTGAAGGCTATGGGGAATATGAACAGTACCAGAGAGATGGAACGCCAATCCCTTATATTACTTCCGGAGAAGGAATTGAATCGGTGCTGAATGTACACGAGGCCCTTGTCGAATACAGCGATCCTATGGAGAAGGGGGAAGACTACTTCTTTATCAATTATGAACTGGAAAACGGGCGGAAGGTCCAGCGCCAGTATCAAACGGATGATCCGAGAATCGAAGCTGCCCGTCAGGTCGTTTATGAAACGGAGGAAGGAAGAACTCTCCAGTATCCTGTCTTAACGTTGGAGGACGAACAGGTCAAGAGTATTGACCTCCAACCTAACGGCCAGGGGTCACCGCAGACAATAACCGGTGCAGAGAAAATCTCAGGTCTGCTGATGGCTTTGAAGGATGATCTGCGCAGCCAATCCTATGAAGAGATGGTCTATCCCACCGGCATGTATTCATGGCTGTCGTTCCGCGTAGAGAGCGAAACCGGTGACCGCCTCCCCAATCCCTTTGAAACGATGGTTTATGAAGGATATGAGAAGACGACATCCTGGCTGAAAAAGGAAGGGTTGTATAAGGAATTTATGGTCGGACCGGAGGATATCGACCAAGCTGAAGTTTTTGAATGGCCGGATGAACCATTACCGGAAGAGTATCCGAGGGTTATTTATAATCGTTTGCTGGAGCAGGACGTCGAGCCGCTCGCTGTGGAAAGTGATGATAAGATCGCCCCTCTTCTTCATGGCAGCCACGATCAGGATGAAGGCGCTTATATCGTTGCTCTTTACTATGATGATAGCAATAAAGAACATAACGAGATCCTCACGTTCTCGAAAGAGAATGCACCTGATTTCATTCGTCAGCATTTTGAGTAA	MHSKTSLFNKEIFKQDFRAVGWVSIIYFLGLFFLVPLPLFMDMNTADPLTSAVESDGGLFGPMFAFELQAVFLLILPVLMAVFLFRYLQTKDASDFAHSLPISRGRLLHHHLLSGVVLLLIPILMNYFILVVTSSIVDVSGYFTMGNAAYWLTIFSVVSILLFMTGVFVGTLTGLSAVHAVITYILLLFPAGMYLLFSYYLDMTINGFSGVIAQEETIQYLSPITDVLTADASGGDISYLPLSQVSLWLYAAAAVVFYGLSYFIYQRRALETATKAVTVSALQPVFKFGVTFCTALLGGMYFGLSLASYGWMVFGWVLGGTFGYTAALMLLEKTWRVGNIRFIKNGLVYTVGAGAALALLPLCWQGYESYIPDQQDVVKAYISEGYGEYEQYQRDGTPIPYITSGEGIESVLNVHEALVEYSDPMEKGEDYFFINYELENGRKVQRQYQTDDPRIEAARQVVYETEEGRTLQYPVLTLEDEQVKSIDLQPNGQGSPQTITGAEKISGLLMALKDDLRSQSYEEMVYPTGMYSWLSFRVESETGDRLPNPFETMVYEGYEKTTSWLKKEGLYKEFMVGPEDIDQAEVFEWPDEPLPEEYPRVIYNRLLEQDVEPLAVESDDKIAPLLHGSHDQDEGAYIVALYYDDSNKEHNEILTFSKENAPDFIRQHFE				NA	NA	NA	NA	NA
AK012_03747	900	ytrB	COG1131	ABC transporter ATP-binding protein YtrB	ATGATTGATTTCAGAAACGTCGATAAATCGTTTGATAAACAGCAGGTTTTAAACCAGGTCAGTTTTCATGTGAATAAAGGATCGATTTACGGACTGCTTGGATCGAATGGTGCTGGTAAAACGACGCTGATGCGGATGCTTGCGGGAATCTTAAGACAGGACAGTGGTAAGGTCCAGGTGAGCGGAGATGAGATTTATGAAAATATTAAAATGAAGCAGCGGCTCATTTTTCTGCCCGATCACCTTTATTTTCTGCCCCAATATACGATTCGGCAGATGGCTGACTATTACCGATCCTTATTTCCCGGCTGGAACGAAGAGAGGTACGAGAAGCTGAAGACTCTCTTTCAACTGGAAGAAAAGCAGAAGATCAGTCGTTTTTCAAAAGGGATGCAGAGACAGGCCGCCTTCTGGCTCGCATTGTCTGCTGTGCCGGACGTATTGATACTCGATGAGCCGTTCGACGGTCTGGATGCGGTGATGAGACAGAAAATCAGAAATATGATCATCCAGGATGTGGCTGAGCGTGAAATGACCGTGCTAATCTCCTCTCACAACCTGCGGGAAGTGGAGGATATCTGCGACCACGTCGGTATTTTACATAAGGGGGAGATCCTGTTGGAGCGGGATTTGGACGACTTGAAGGAAGACATCCACAAAATTCAGGCTGCCTTCAGGGAGAACACGTTTGACCCTGAGGAAACGAACCTTGATCTTCTTCATGTAGAAAAGCGTGGAAGTGTGTATGTTCTCATTGTCCGCGGTGCAGAACAGGATGTGTCGGAGGAATTGGACACATGGGATCCTGTTATCTATGACCGTCTTCCTTTAACGCTTGAGGAAATTTTCATCTACGAAATGGGAGGTGCCGGCTATGCATTCGAAAACATCCTTGTTTAA	MIDFRNVDKSFDKQQVLNQVSFHVNKGSIYGLLGSNGAGKTTLMRMLAGILRQDSGKVQVSGDEIYENIKMKQRLIFLPDHLYFLPQYTIRQMADYYRSLFPGWNEERYEKLKTLFQLEEKQKISRFSKGMQRQAAFWLALSAVPDVLILDEPFDGLDAVMRQKIRNMIIQDVAEREMTVLISSHNLREVEDICDHVGILHKGEILLERDLDDLKEDIHKIQAAFRENTFDPEETNLDLLHVEKRGSVYVLIVRGAEQDVSEELDTWDPVIYDRLPLTLEEIFIYEMGGAGYAFENILV				NA	NA	NA	NA	NA
AK012_03748	378	ytrA	COG1725	HTH-type transcriptional repressor YtrA	ATGTTTGAATTGGATGTCAGAAGCCGAAAGCCGATTTATGAGCAGCTTGTCGAAAAGCTGAAGCAGTTGATCATCCACGATGTTCTTCAGGAAGATGAGAAGCTTCCTTCTGTGAGGGAACTGGCACAGCAGTTGACGATCAATCCGAATACCATTCAGAAGGCGTACAGGGAACTTGAAACGCAGGGATATATTTACTCGCTGAAAGGAAAAGGGAGCTTTGTTCATCCTTCAAGTAAATCCGGACGGAAAGAGGAGTTGAAAAAAGTGAGGGAAGAATTGAAAAAACTGTTTGCCGAAGCGATGTATTTAGGCATGAGCCGGGAAGAGATTGCTGATCTTTTAAAGGAAGCAGAAGGGAGAGGAAATCATGATTGA	MFELDVRSRKPIYEQLVEKLKQLIIHDVLQEDEKLPSVRELAQQLTINPNTIQKAYRELETQGYIYSLKGKGSFVHPSSKSGRKEELKKVREELKKLFAEAMYLGMSREEIADLLKEAEGRGNHD				NA	NA	NA	NA	NA
AK012_03749	591			hypothetical protein	ATGAAAATTGGGGAAAGTCAGTTTCATGAGCATCGGATGAGTAAGTTGGTGAAGGGGGCCGTTGTCCCCCGTCCCATTGCATGGGTGTCTTCCTTGAGCGCAGAAGGGGTGGCCAACCTGGCTCCATTCAGTTTTTTTACCGTAGCCTCCATGGATCCGGTCACCCTGTGTTTTTCCATTGGTGATGGGGAACGGGAGAAGGATACCCTTGTCAATATCCGGAAAACAGGAAAGTTTATTATTAATCTCGTGTCTGAAGACCTGGCTGACCAGATGCATGAGAGCAGTAAAAATCACAGCCCTGATGTTGATGAATTTCAAGCAGCCGGAGCAGAGCCGGAACCCGGGGATTTCGTAAATGTTCCAAGAGTAAAGCATTCGCCCGTTCATATGGAGTGTACGCTGTCGCAGATGGTAGAAGTGGGAGCTGGTCATTTAGTTCTCGGCCGTCTCGTCGGTTATCACATGAAGGACGATGTCTACAAGGAGGTGGATAAGGTCGATCCTCATAAGCTGAAGCCTGTTGGAAGAATGGCGGGGGATTATACATACGTACGGGAATTTTATTCCCTCCCCATTAACGGAAAATAA	MKIGESQFHEHRMSKLVKGAVVPRPIAWVSSLSAEGVANLAPFSFFTVASMDPVTLCFSIGDGEREKDTLVNIRKTGKFIINLVSEDLADQMHESSKNHSPDVDEFQAAGAEPEPGDFVNVPRVKHSPVHMECTLSQMVEVGAGHLVLGRLVGYHMKDDVYKEVDKVDPHKLKPVGRMAGDYTYVREFYSLPINGK				NA	NA	NA	NA	NA
AK012_03750	1416	alsT_4	COG1115	Amino-acid carrier protein AlsT	TTGGGAGATTTATGGAGTGCTTTTAAAGAAATACTAGCCTCAGTATCCAACTTTTTATGGACATATCCTCTTGCTATTATTTTAATCATCGGCGGTATCTTCCTCACGGTCCGCATCAAGTTTTTTCAATTCCGCTTCTTCGGCCACGTCCTCCATCAGACCGTCGGCCAGATTTTCAAGAAAAATAAGCAGAAAGGCAGCATCACCCCTTTCCAAGCCTTCACCTCAGCCCTGGCCTCTACAGCAGGAGCCACAAACATCGTAGGGGTGCCGGTAGCGATTTCGCTCGGTGGACCCGGGGCGCTCTTCTGGATGTGGGCGGTCGCCCTTATCGGAATGGCAACGAAATACAGTGAGATTCTGCTTGGAGTGAAATACAGGGAAAAGAATGAAAAGAACCTATGGGTCGGCGGCCCGCAGTATTACATAAAAAAGGCGCTCGGATGGAAATGGGTCTCCACCGCCTTCGCCTTTCTTCTCATGATTGAACTGATCCCAAGCGTGATGGTCCAGTCCAACTCCATTGCCACCCAGACAGAAGGAGCCTTCGGGTGGCCGGTGGAAGTCACCGGTGCTGTTATGTGTATAGCTATTGCCCTCGTTGTATTCGGTGGAATCCAGCGGATCGCCAAGGTTACGGACAAAATGGTGCCCGGGATGGTACTGATCTATCTCGGTGTCTGCTTTTATGTCATCTTTGCTAATATCGGCGAAATTCCTGCCGTTTTTGCCCTCATTTTCAAACATGCCTTCACACCTGTTTCCGCGACAGGAGGATTTGCAGGAGCCGCCATTGCCCAGGCACTCCGATGGGGGATTGCCCGCGGCCTGTATTCCAACGAGGCGGGATTGGGAACAGCATCGATTGCCCATTCCGCCGCTCAGACCGATCACCCTTCCAGACAGGGGCTGTGGGGAATCTTCAGCGTGTTTGTGGACACGATATTGATTTGTACCGTATCCGGCCTCGTCGTGCTTGTCACCGGTGCCTGGACAGAAGTCGGCGGCAGTGATGCCTCCAATATGATTAACATCGCCATCGGCAGTGAATTCGGCAATGCCTTTGGCAGCAGCTTCATCAGCGTCTTCCTGTTGTTCTTTGTTGTTACGACGATTGGGATTCTCGTTTTCTACGGGGAAAAGCAGGCCGAATACCTGTATGGATTGAAAGCAGCCAAGGGGATGAGAGTTGTCTATATTCTGGCCGTCTTCGTCGGAGCTCTCGGCGGACTTCAGTTTGTATGGCAGTTCCTTGATCTGCTTCTCGCCCTTGTGCTTCTTGCAAATATCATCCCACTATTATTCCTGCACAAGGAGATTGCAGAGCTGACCGATGACTATGTGAACCGTGTGTATAAAAAGAAAAGGTCTAAGCGCAGCATCCAATTATTCGATGAAGAAGAGGATGCCGGCTGA	MGDLWSAFKEILASVSNFLWTYPLAIILIIGGIFLTVRIKFFQFRFFGHVLHQTVGQIFKKNKQKGSITPFQAFTSALASTAGATNIVGVPVAISLGGPGALFWMWAVALIGMATKYSEILLGVKYREKNEKNLWVGGPQYYIKKALGWKWVSTAFAFLLMIELIPSVMVQSNSIATQTEGAFGWPVEVTGAVMCIAIALVVFGGIQRIAKVTDKMVPGMVLIYLGVCFYVIFANIGEIPAVFALIFKHAFTPVSATGGFAGAAIAQALRWGIARGLYSNEAGLGTASIAHSAAQTDHPSRQGLWGIFSVFVDTILICTVSGLVVLVTGAWTEVGGSDASNMINIAIGSEFGNAFGSSFISVFLLFFVVTTIGILVFYGEKQAEYLYGLKAAKGMRVVYILAVFVGALGGLQFVWQFLDLLLALVLLANIIPLLFLHKEIAELTDDYVNRVYKKKRSKRSIQLFDEEEDAG	PGPT0014405_2926	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
AK012_03751	582	ynjF	COG0558	Inner membrane protein YnjF	ATGCTCGATACCCACGCCAGGAAATACGTACAGCCTTCCATTGATAAAACCGCCCACTATTTCTTAAATCGGGGGCGTTCCGCCGACCAAATTACCATCATCGCTTTATTCATCGGTCTGGGCACCAGTATTCTTTACATTCTCGGCCATCCGGTGGCCGCTGTCGTGCTTTTATGGCTTTCCGGATTTCTTGATGCCGTAGATGGGACAATGGCGCGTCATACAAAAACCTCCCCGTTCGGAACCGTTATGGATATTACATTCGACCGTGTAGTTGAAGTCGGTATCATTCTTGCGATCGCCTATGTGCATCCGGATGTACTCTGGCCACTGCTGCTCCTCACCGCTTCGATCGTCATTTCGATGACCATCTTCCTTGTAGTTGGGGCTGTCTCTGAAAAAGCAGGGGTGAAATCCTTTTATTATCAGGCAGGAGCGGCCGAGCGGACAGAAGGATTCCTTTTGTTCAGTATAATGATGCTGTTTCCGGATTACCTGTTCTGGTCGACGCTGTTGTTCTTTGCCATCGAGCTGTTTACAGGCATCCAGCGTTTCATCGAAGCATCCAGGATTCTGAAATAA	MLDTHARKYVQPSIDKTAHYFLNRGRSADQITIIALFIGLGTSILYILGHPVAAVVLLWLSGFLDAVDGTMARHTKTSPFGTVMDITFDRVVEVGIILAIAYVHPDVLWPLLLLTASIVISMTIFLVVGAVSEKAGVKSFYYQAGAAERTEGFLLFSIMMLFPDYLFWSTLLFFAIELFTGIQRFIEASRILK				NA	NA	NA	NA	NA
AK012_03752	957	uvsE_2	COG4294	UV DNA damage endonuclease	ATGATCATCCGCTTTGGCTATGTATCTCACGCTCTATCGCTGTGGGAGGCCGCTCCTGCGAAAACGATGACTTTCGCACGTTATCAGAAGCTCGGACGGGAGGAGGCGTTGAAACAGCTTCACACGATTGCAGAAATGAACCTGCGCCGTACGATCCGGATTTTACACTATAATGTGGCCCGGCAGATCCATCTTTACCGGATGTCCTCATCCTTGATCCCGCTGGCCACCCATGAGGATGTGGAGTGGGATTATATTACACCCTTCGAACATTTGTACAGTGAAATCGGGGACATTGTTCGAAGGCACCGGATGAGGACGAGTTTCCACCCTAATCAATTTACGCTGTTTACCAGTGACAGGCCTGAAGTCACTGAAAATGCCGTCAAGGATATGACCTATCATTACGCAATGCTGGAGGCGATGGGGCTGCATGAGGAAGCCCACATCAACCTTCATGTGGGCGGAGCCTACGGGAATAAAGCAAAAGCACTCGGCCGTTTTCATGAAAACATCAAACAGCTGCCTGACCCGATCAAACAGCAGATGACGCTGGAGAATGATGATAAAACCTATACGACATCAGAAACACTGGACGTGTGCGGGAAGCACAACATTCCTATGATGTTTGATTATCATCACTATATGGCCAATCATACAGATGAAGAAACGCTGGAGGATCTTCTGCCGCGGTTTTTCCAGACGTGGGAGGGGATGCACGTGCCTCCGAAAATCCATATATCCTCGCCGAAATCGGAGAATTCTTTCCGGAGCCATTCCGATTATGTGGACGCCGATTTTATCCAGCCGCTTCTGAAGGAATTGAAAGCATTGAACCAGCCGGTCGATTTTATGATTGAAGCGAAAGGAAAAGATCTTGCTCTCATGAAGCTGGTGGAGGACATGGCTGCTGTCAGAGGTGTGAAAAGAGTGGAAGAGGCTGTGCTCGATGTATAG	MIIRFGYVSHALSLWEAAPAKTMTFARYQKLGREEALKQLHTIAEMNLRRTIRILHYNVARQIHLYRMSSSLIPLATHEDVEWDYITPFEHLYSEIGDIVRRHRMRTSFHPNQFTLFTSDRPEVTENAVKDMTYHYAMLEAMGLHEEAHINLHVGGAYGNKAKALGRFHENIKQLPDPIKQQMTLENDDKTYTTSETLDVCGKHNIPMMFDYHHYMANHTDEETLEDLLPRFFQTWEGMHVPPKIHISSPKSENSFRSHSDYVDADFIQPLLKELKALNQPVDFMIEAKGKDLALMKLVEDMAAVRGVKRVEEAVLDV				NA	NA	NA	NA	NA
AK012_03753	825	yvgN_2	COG0656	Glyoxal reductase	ATGAAGACGGTTACGCTACATAGCACGATTGAAATGCCACAGCTCGGTTTCGGTGTCTGGCAGGTCGAGGAAAATGAAGCCGTGCCTGCGGTGACGAAGGCCATTGAAACAGGCTATCGTTCCATTGATACCGCCGCTATTTACGGCAACGAAAAGCAGGTGGGGGAAGCCATCCGTCAGAGTGGCACTGCCCGCGATGAATTGTTCATTACGACAAAAGTATGGAACACAGACCAGGGGTATGACAATACATTGAAAGCCTTTGAAACCTCTCTCGATAAGCTCGGCCTTGATTATGTGGACCTTTACTTGATCCACTGGCCGACACCGGAATTCGATGAGTACGTAGAAACCTACAAAGCATTGGAAAAGCTTTATAAAGACGGTAAAGTGAAAGCCATCGGCGTCTGTAACTTCGACATTGACCATCTGCAGCGTCTATTGGATGAATGCGATGTGAAGCCTGCGGTTAACCAGGTGGAATGCCATCCATACCTTGCCCAGAACGAGTTGAAGGATTTCTGCCGCGATAACGGAATTCTCGTAGAAGCCTGGAGTCCTTTAATGCAGGGGGGAGAAGTTCTGAAAAATGAAGATGTCCAGTCCATTGCCAAAAAGCATGGAAAAACACCGGCGCAGGTCATTATCCGCTGGCATCTGCAGAACGATACGGTGGTCATTCCGAAATCTGTGACCCCATCCCGCATTGAAGAGAACTTTGACGTGTTCGACTTTGAATTGACAGCTGAGGATATGGCTGCCATTAATAAATTGGACCGCGGAGAGCGTAAAGGTCCGAAGCCATCAGAAATGAATGTCAGATAA	MKTVTLHSTIEMPQLGFGVWQVEENEAVPAVTKAIETGYRSIDTAAIYGNEKQVGEAIRQSGTARDELFITTKVWNTDQGYDNTLKAFETSLDKLGLDYVDLYLIHWPTPEFDEYVETYKALEKLYKDGKVKAIGVCNFDIDHLQRLLDECDVKPAVNQVECHPYLAQNELKDFCRDNGILVEAWSPLMQGGEVLKNEDVQSIAKKHGKTPAQVIIRWHLQNDTVVIPKSVTPSRIEENFDVFDFELTAEDMAAINKLDRGERKGPKPSEMNVR	PGPT0001320_1340	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
AK012_03754	837	salL	COG1912	Adenosyl-chloride synthase	ATGGGAGCACTCGTATTTCAATCGGATTTCGGACTCGGAGATGGTGCGGTCAGTGCCATGCACGGAGTAGCACATGGGGTGGATGAAAGGTTGAACATTTTTGATTTGACTCATGACATTCCGCCTTTTCATATATGGGACGGATCATACCGCCTGTGGCAGACGATGGTGTATTGGACAGCGGGGACGGTCTTTGTGTCTGTCGTGGATCCTGGAGTCGGGTCTGCCCGAAGAAGCATCGGAGTCCGGACGGGATCCGGTCACTATATCATTACCCCGGACAATGGCACTTTGACGCATACAGCTGCGGCCGAAGGCATTGAGGAAGTGAGGGAAATCGACGAACGGGTGAACCGTCTCCCTCGTTCCGGTGAATCCTTCACCTTCCACGGTCGTGACATTTATGCCTACACAGGAGCAAGACTGGCTTCCGGAGTAATTTCCTTTGAGGAGATCGGTCCTGCACTGGATCCAGCGGAACTTGTAAGCCTTCCAGTGAAAGAGCCTGTGCTTCAGCCCGGGTCTGTATCGGGGATCCTCGATATCCTTGATGTCCGGTTCGGAAATGTGTGGACGAACATCCCTCGTCCGTTGTTCCTTCAGACAGGCGTGGATTACGGCAGTCAACTGGACGTGCGGATCACGCACAACGGTCAGGAGGTCTACCACAATACCGTGACATTCGGCCGTTCCTTCGCAGCTGCGCACATCGGTGAGCCGCTTCTTTATGTGAATTCACTGGATCACATGGCCGTGGCCATTAATCAAGGCTCATTTTCCAAGGCATATGATATCCGGACAGGATCGAATTGGGAAATCCAATTGAAGAAGCCTTGA	MGALVFQSDFGLGDGAVSAMHGVAHGVDERLNIFDLTHDIPPFHIWDGSYRLWQTMVYWTAGTVFVSVVDPGVGSARRSIGVRTGSGHYIITPDNGTLTHTAAAEGIEEVREIDERVNRLPRSGESFTFHGRDIYAYTGARLASGVISFEEIGPALDPAELVSLPVKEPVLQPGSVSGILDILDVRFGNVWTNIPRPLFLQTGVDYGSQLDVRITHNGQEVYHNTVTFGRSFAAAHIGEPLLYVNSLDHMAVAINQGSFSKAYDIRTGSNWEIQLKKP				NA	NA	NA	NA	NA
AK012_03755	489			hypothetical protein	ATGGAGTTTTTTGATTCGTTAATGAATAGTCTGCGCCTCCCCAAAAAAGAGGCGATGTTCCATTTGAATAGAAAAGGCATCACGCAGACCATCGGTTATTTGTTTGTGCTGCTGCTTGTATTGTTCCTCCCGGATATGGTGTTTTCGATGATATATCTGGAGACGAGTGTTACAGAAGTTTCGCGGGGGATGTACATGGTGCAGTTCCTTGTCTTTTATCCGCTGCTGATCGTTTTTTTGATTCTTGTCGGGGTTTCTATAATGGCAGGAGGAGCGCTCCTCCTGTGCAGGGTTCTCACAAGGAAATTAAGCTATCAGCTGCTTTGGAAGCTGACTGCCTACGCTTCCACACTGCCGTTGATCCTCAACGTCGTACTGAAATATGCAGCGGTGCCGAACGTAATCAGTGCTCTTATTTTCTTCGTTCTTATTGTGTTTTATATGTACCGGATGATCATCATCTATCCAAAAGTACCTGTCCGGTCTTAG	MEFFDSLMNSLRLPKKEAMFHLNRKGITQTIGYLFVLLLVLFLPDMVFSMIYLETSVTEVSRGMYMVQFLVFYPLLIVFLILVGVSIMAGGALLLCRVLTRKLSYQLLWKLTAYASTLPLILNVVLKYAAVPNVISALIFFVLIVFYMYRMIIIYPKVPVRS				NA	NA	NA	NA	NA
AK012_03756	249			hypothetical protein	ATGGGAATCGTTGTTGTTGAAGTATGTGACGGCAACTTGATCAATGAACTGGACATCGAGAGCATCATTGAATCCGAATATCCAGAGGTCGCTGTACTCATGAATGAATGTTTATCGTTCTGCGGCATGTGTGCCGTCCGTCCGTATGCCATTGTCAATAACCAGCGCGTTTTCGCGAAGACACCGGAAGACGCCCTGGAGAAAATCCGTACGAAGATTGAAGAAGAGCTGGCCATTTACGCTGAATAA	MGIVVVEVCDGNLINELDIESIIESEYPEVAVLMNECLSFCGMCAVRPYAIVNNQRVFAKTPEDALEKIRTKIEEELAIYAE				NA	NA	NA	NA	NA
AK012_03757	939	ribF		Bifunctional riboflavin kinase/FMN adenylyltransferase	ATGGAACTGATTGAAGTACAAGGACGACCACCTGAGAATCAAGAGCCCGTTGTTTTAATTATCGGGAAGATAGACGGCGTACACCTGGGACACCAGTCTTTGCTTGAGGAAGCGGAAAAGCTGGCCCGTCCGGAAGATAAAATTGCGGTTTATGGATTTTCTGATCATCCCAAGTGGGTGCTGCGCGGCGAGGAATCCTTTAAGTACGGCTTGTCTACGCTTGAAGATAAACTGGCCCGTCTGGAACGGTTCGGGGTAGATCGTTACTATCACGTCCATTTTACAAAAGAATATGCAAAAACATCTCCTGATGAATTTGTACTGGAACATTTAAACCGCCTGAATATCCAGCATGTGATTGTAGGGGAAGACTTCCGTTTCGGAAAAGGCCGGGGTTCTGACGCCGAGGGACTGGCAGAGTTGTGCAGGGAAATCGGCGCGGGGATATCGATTGTACCCGGTGTGATGCTCCACGGTGCTAAAGTAAGCAGTACCGATATCCGAACGCATGTATCCAACGGAAGAATGGAAGCGGCCCAGACCATGCTCGGGCGTCCCTATGAGGTCACAGGTGTGGTCGAAAAAGGGGAACAGCTCGGACGCACGCTCGGTTATCCGACATTGAACGTCGGAGGGATTGACGGCTATGTTAAAGCCAAACCTGGTGTGTATCTTGGTCTTGTGAAGCTTGTGCAGGATTCTCCTGAATATTACTATACGTTAATTAGTGCCGGTTACCGACCGACGGTAAACGGTGATTCTTATAAAGTCGAAGCTTACCTTCTGGATTTCTCGGGGGATCTTTACGATCGGAAAGTGACTGTAAAGTTTGTACGCCACCTGAGAGATGAGGAGAATTTTGACGGGGTTGATGCCCTCGTTGCACAAATGCAGAAGGATGAGCAGAAGGCCCGTCGTATTTTAGGCTTACACGAATAA	MELIEVQGRPPENQEPVVLIIGKIDGVHLGHQSLLEEAEKLARPEDKIAVYGFSDHPKWVLRGEESFKYGLSTLEDKLARLERFGVDRYYHVHFTKEYAKTSPDEFVLEHLNRLNIQHVIVGEDFRFGKGRGSDAEGLAELCREIGAGISIVPGVMLHGAKVSSTDIRTHVSNGRMEAAQTMLGRPYEVTGVVEKGEQLGRTLGYPTLNVGGIDGYVKAKPGVYLGLVKLVQDSPEYYYTLISAGYRPTVNGDSYKVEAYLLDFSGDLYDRKVTVKFVRHLRDEENFDGVDALVAQMQKDEQKARRILGLHE	PGPT0008625_3359	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
AK012_03758	540	relA_2	COG0317	GTP pyrophosphokinase	ATGATTGAACAGGCGGAACGGCTGGCAGCCAGAGCCCACGACGGACAGAAACGGAAGAACTCCGCAGACCCTTATATCGTCCACCCGCAGCGGGTGAGTGAGATCCTCAGCGCAGGAGGGGGATCTGAAGTGCTGATTTGTGCAGGTCTGCTCCATGACGTCGTTGAGGATACAGAGGTGACCATCGAGGACATCCGAAAGCAGTTTGGGGACCGGGTTGCAGAGCTCGTGACAGCACATACCGAGAACAAATCGCTGCCCTGGCAGCAGCGCAAACAGCACACCATCCACGTGGTCCGGCAGGGCAGTATGGAAATCAAGTCCCTGATTGTAGCGGATAAGCTCGATAACCTGCGCTCCATTCATACGGACCAGCAGCGCCTCGGGGAAAAGGTCTGGGACACTTTCAATGCGGGATACTCCCAGCAGAAATGGTATTATCAATCGGTGGCTGCGGCCATGTATGATGGTCTCTCCCCACAGGACGCTCCACCCTTTTTTCAGGAGTACGCAGAACTGGTTAAACAAACGTTTGATTAA	MIEQAERLAARAHDGQKRKNSADPYIVHPQRVSEILSAGGGSEVLICAGLLHDVVEDTEVTIEDIRKQFGDRVAELVTAHTENKSLPWQQRKQHTIHVVRQGSMEIKSLIVADKLDNLRSIHTDQQRLGEKVWDTFNAGYSQQKWYYQSVAAAMYDGLSPQDAPPFFQEYAELVKQTFD	PGPT0021700_357	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021700-spoT|relA-K21138	NA	NA
AK012_03759	1494	murE_4	COG0769	UDP-N-acetylmuramoyl-L-alanyl-D-glutamate--2,6-diaminopimelate ligase	ATGAATCTTTCATTTGATCGACTATCCCAATTGAATATAGAGGCCCTTTACGGCCCTTCTGAGCAAACGGTTTCCTCCCTTGCCTTTCATTCCGGCCGTGTCCATCCGGATGCCGCTTTTTTCTGTTTGAAAGGAGAAAACTTTGACGGCCATGCGTATATTGAAGATGCAATTGCACGCGGGGCTGCTGTCATTATCGGCCGGGAGGATGAACTGTTCCGACGGATGAGTGAGGTCTACACCCGGACGACGTTCATTGTCACCGGCAGCGTAAGATCGGCCATGGCCCGCTTTTCCAAGTACTTTTATGGAGAAGCAGATGAAGAGTTGAAAACCATCGGCGTGACAGGGACGAATGGGAAAACGACCGTAGCGGCCTACGTACGCTCCCTGCTTAATCTTCTTGAACTTCCGGCAGGATCGATCGGAACGACGGGGATTTGGACGTCCGATAGGAAAATCACCTACAAGAAAAGCACCCCGACAACACCGGAATCGCTGGATCTGCATCATATTTTCCGTGACCTCCGGAACCATGGAGACGAAGCGGCTGTGATGGAGGTATCCTCCATTGCCCTTGATCAATGTCGTGTGGAAGGGATCCAGTTTGATGTGGCCATCCATACGAACTTTTCGGAGGAGCATTTGGAGTACCACCATACGATTGATCATTACAGGGAATGCAAGATGCGACTCTTTAAACAGGCCGATCATCGTGTCGTCAATATTGATGATGACGGCATGGCCGCTGAACTTCTCGCTATGGGAAGCGATGGACTGCTGACTTACAGCATTGAGGGCCATCCAGAAGCTGATATCAGGGCGGAAGACATTGAGGTGACGGAGGATGGCTCCACCTTCATCCTTCAGGTATACGACCGGTCGGAAAGCGTCCAGGTACCTGTGTACGGCACCTACAATGTCGCGAATGTCCTGTCTGCCATCGGGACAGCTATCCACCTTGGATTCAGCATCGATCATATTCTTTCCGTGCTTCCGGCTATGCAGGGACCGGAAGGCCGTTTCCAAGTCATCGATACGCCGATGAACCAGAAGGTGATTCTTGATTATGCCCATACACCTGTGGCTTTAAACCGTCTCCTGGAAGAAGTGAAAAAGCTGAGGCACCGCCGTTTAATTGTCATGATTGCCGGAATCGGCATCCGTGATTTCAATAAAATGCCGAAGATGGCTGCGGCGATTGAAGGCCGGGCCGATGAAATCATCGTAACGGTCGACCATCCCGGTTACCACGATCCGCAGATCATTGTAGATCAAGTCTGCACAGGATTCTCCCATCCGGAATTGCAGCATGTCCACCAGACCCGTACGCGGGAGGAAGGCGTTCTGCGTTCTCTTGAGCTTGGGGCGGAAGGCGATATTATACTGCTGACAAGCGGATGCATCAATAATGCCCAGATGGTTAAAGGAGAGGAAATCCCTCATTCAGACGAGGCGATTATAGAAAGCTATTATGCCGGAGTGGCTCAATAA	MNLSFDRLSQLNIEALYGPSEQTVSSLAFHSGRVHPDAAFFCLKGENFDGHAYIEDAIARGAAVIIGREDELFRRMSEVYTRTTFIVTGSVRSAMARFSKYFYGEADEELKTIGVTGTNGKTTVAAYVRSLLNLLELPAGSIGTTGIWTSDRKITYKKSTPTTPESLDLHHIFRDLRNHGDEAAVMEVSSIALDQCRVEGIQFDVAIHTNFSEEHLEYHHTIDHYRECKMRLFKQADHRVVNIDDDGMAAELLAMGSDGLLTYSIEGHPEADIRAEDIEVTEDGSTFILQVYDRSESVQVPVYGTYNVANVLSAIGTAIHLGFSIDHILSVLPAMQGPEGRFQVIDTPMNQKVILDYAHTPVALNRLLEEVKKLRHRRLIVMIAGIGIRDFNKMPKMAAAIEGRADEIIVTVDHPGYHDPQIIVDQVCTGFSHPELQHVHQTRTREEGVLRSLELGAEGDIILLTSGCINNAQMVKGEEIPHSDEAIIESYYAGVAQ	PGPT0024130_1859	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING-N_ACETYLMURAMATE_MODIFICATION,PGPT0024130-murE-K01928	NA	NA
AK012_03760	333	czrA	COG0640	HTH-type transcriptional repressor CzrA	ATGACTGAAGAAAAGGGACGGATGAAGAAGAAGGATGAAGTGGACACGCTGGATGAGGAAACACTGTTTGTTGTTTCCCAGACGTTTAAAGCCTTAGCTGATCCGACGAGAATTCGTATCCTGCATTTGTTGTGTGAGAAGGAAATGTCGGTCAATCAAATTGCTGAAAACCTCGATCTCAGACAGTCTACGGTATCTCATCAGCTGCGTTTTTTGAAAAATCTCAGGCTGGTGAAATACAGAAGGGCGGGGACGACGATCTTTTATTCCAATGATGATGAACACGTCATTGACCTTCTGCAGCAGACCATTAACCATGCTCAGCATAATTAA	MTEEKGRMKKKDEVDTLDEETLFVVSQTFKALADPTRIRILHLLCEKEMSVNQIAENLDLRQSTVSHQLRFLKNLRLVKYRRAGTTIFYSNDDEHVIDLLQQTINHAQHN	PGPT0004305_73	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ZINK_RESISTANCE	ZINK_RESISTANCE-ZINK_HOMEOSTASIS,PGPT0004305-czrA|yozA-K22043	NA	NA
AK012_03761	663	hchA_3		Protein/nucleic acid deglycase HchA	ATGTCTAAAAAAGTTCTTATGATCGTAACCAACCACGACAAAATTACAGAAGAGCAGTCCACCGGCCTTTGGTTATCCGAGTTTGGAGAAGCCTATAACGAATTCAACAAGCAGGGCTACGAGGTGACCGTCGCCAGCCCGAACGGCGGCGGGATTCCGATCGATCCAAACAGCGTGAGCGACGACGAACCTCAGGAAATTTTGAATACAAAACCTCATTTAGAAAATACAACACCAATCGTCGATGTGGAAGCGGACGATTACGATGCCATCTTCCTTCCTGGAGGACACGGCACGATGTTCGATTTCCCGGATAACGAAAAACTCCAGAAGCTGCTCCGGGCCTTTTATGAAGACGATAAAGTCGTGTCTGCTGTCTGCCACGGCCCTGCCGGTCTTGTCGGTGCAACGTTGTCCAACGGTGATCCGCTCGTGAAAGGCAGACGCGTCAGTGCTTTTACAGACGCTGAAGAAGCCGAAACGGGGCTGGATGAGCATATGCCTTTCCTATTGGAGAGCCGCCTCACTGAGCTTGGAGCAACAGTCCAGAGCGGAGCGAACTGGTCTGAACATGTGGAAGTAGACGGCCGCTTGATTACCGGACAGAATCCTCAATCCACAGAAGCTGCAGCAAAAGAAGTAGTAAAACAATTGAACCAATAA	MSKKVLMIVTNHDKITEEQSTGLWLSEFGEAYNEFNKQGYEVTVASPNGGGIPIDPNSVSDDEPQEILNTKPHLENTTPIVDVEADDYDAIFLPGGHGTMFDFPDNEKLQKLLRAFYEDDKVVSAVCHGPAGLVGATLSNGDPLVKGRRVSAFTDAEEAETGLDEHMPFLLESRLTELGATVQSGANWSEHVEVDGRLITGQNPQSTEAAAKEVVKQLNQ				NA	NA	NA	NA	NA
AK012_03762	228			hypothetical protein	ATGCCTGCCTGGATCAGTCACAGTATGAAAGTACTGCTTTCCATCCTGCTGTTCATCTTTTCCACCGTGGGGCTTACAGCAGGGCTCCTTTTTGCCTTTCTTACAGGATGGACACTCCTGAAGGGGGCGGGGGCGGCAGTACTCCTTGTATTCTGGCTTGTCACTTTCGGAGTTCTCTCCCACCGGTTGTACCACTACTTGTTTCACCCACCGGGAGAGGACCAATAA	MPAWISHSMKVLLSILLFIFSTVGLTAGLLFAFLTGWTLLKGAGAAVLLVFWLVTFGVLSHRLYHYLFHPPGEDQ				NA	NA	NA	NA	NA
AK012_03763	423	epi	COG0346	Ethylmalonyl-CoA/methylmalonyl-CoA epimerase	TTGGAAAAGAAACTCGACCATATCGGCGTCGCTGTACGTCTCATCGAAGAAAGCATCACGTTTTACACAAAGGTTTTAGGCGGAACGTTGATCGACCGCTACCGCAATGAAGCCGAGGGCGTGGAAAGTGAAATCGCAGTCATCGACGTTCAGGGCAGCCGGACAGAATTACTGATGCCCACCAATAATACGACATCACCCATCGCCCGGTTCATTAAGCAGAAAGGCAAAGGGGTCCACCACGTCGCCTATGAAGTTCCGGACCTGGATGAGGCCATTGAAGACGTGCATGCCAAGGGCATCCGCACCTTGGAATGGTCCAGGCGGACGAACAAACATGGGAGACGGCTCATTTATCTGAATCCAGCCGATACAGACGGGACCATCATTGAGTACTGCGACTATCCGGAAAAGCATGTTTGA	MEKKLDHIGVAVRLIEESITFYTKVLGGTLIDRYRNEAEGVESEIAVIDVQGSRTELLMPTNNTTSPIARFIKQKGKGVHHVAYEVPDLDEAIEDVHAKGIRTLEWSRRTNKHGRRLIYLNPADTDGTIIEYCDYPEKHV				NA	NA	NA	NA	NA
AK012_03764	1125	thiO_1		Glycine oxidase	ATGAAAAGATATATTATCGTAGGAGCAGGTATTTTAGGGGCGTCGACCGCTTACCATCTGGTCAAAGAAGGAGCGGATGTCACCATTGTGGACCGTAGGGATGAAGGCCAGGCGACAGAAGCCGCCGCAGGGATTGTCTGTCCGTGGCTTGCACAGCGCCGGAATAAACGGTGGTACCGTCTCGTCAAAGGCGGCGCAAGGTATTACCCGGAATTGATCCAGCAGCTTGAAGCGGATGGAGAGCATGAGACCGGTTATAAAAAAGTGGGGGCCGTCAGCCTTCATACCAATCCGGACAAACTGGAAAAAACGATTGAACGCGCAGAAAAACGGAGGGAAGACGCTCCGGAAATCGGTGAGATCACACGGCTTTCACCCGAAGAAACGCGTGCTTATTTTCCTCTGTTATCAGAAGAAAGCTATGAAGCGGTTCATGTCAGTGGTGCGGCCCGTGTAAATGGGCGTGCTCTAAGGGATGCTCTGCTTAGAGCTTCAGAAAAGCGTGGAGCTGTCATGGTGCATGGCGATGCCTCCCTCACTTTTGAAGGGGATACGGTGACAGGCGTGGAAGTGGATGGACGGAAGCTGCAGGCGGATGAAGTGATCGTCACTGCCGGAGCCTGGGCGAAACCTTTATTCCAGCCGCTTGGTATTCAGTTCCTTTCCCGTCCCCAGAAGGCGCAGATTGTCCACCTGGATGTAGAAGGTGCGGAAACAGCGGACTGGCCGGTCATTATGCCGCCGAACAATCAATATATGCTTTCTTTCGGTGGCGGGCGTATGATTATTGGAGCCACGCACGAAACGGACGCCGGGTTTGATCAGCGGCAGACAGCCGGAGGTCTTCACTATATTTTAGATAAGGCTCTGGAGGTGGCTCCCGGCCTTGCGGACAGTACATTTGTAGAAAGCCGTGTCGGGTTCCGCCCGTTTACACCAGGGTCTCTTCCGGTATTCGGACGGATTCCAGGATGGAACGGGGTGCTGACAGCGAACGGTCTTGGGGCTTCCGGCCTTACCTCCGGCCCTTATCTCGGTGCTGAACTTGCCCGGATGGCCCTTGGACGCGATACAGAGTTGGATGCCGGGGATTATCATGTTGCAGAAGCACTGGAAGAACAGTAA	MKRYIIVGAGILGASTAYHLVKEGADVTIVDRRDEGQATEAAAGIVCPWLAQRRNKRWYRLVKGGARYYPELIQQLEADGEHETGYKKVGAVSLHTNPDKLEKTIERAEKRREDAPEIGEITRLSPEETRAYFPLLSEESYEAVHVSGAARVNGRALRDALLRASEKRGAVMVHGDASLTFEGDTVTGVEVDGRKLQADEVIVTAGAWAKPLFQPLGIQFLSRPQKAQIVHLDVEGAETADWPVIMPPNNQYMLSFGGGRMIIGATHETDAGFDQRQTAGGLHYILDKALEVAPGLADSTFVESRVGFRPFTPGSLPVFGRIPGWNGVLTANGLGASGLTSGPYLGAELARMALGRDTELDAGDYHVAEALEEQ	PGPT0020315_3870	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
AK012_03765	222			hypothetical protein	ATGGAGCAGGCGAATTGGTTTGACTTCGTTGACAGCGCGCACGATCCGATTTTTCTGGAATTAAGGAAATTGACAGAAGGTTGTCCAACCGTCACCATCGCTTCCTACACCGTCACGCTGAATGCTTTTTCGTTATTTGAGATTGAAAGCATCGGCATCCATGACTGTGTAAGTACCTTGGAGCAATGCTACAACTACTTATGTATGCACACAGCGGAATGA	MEQANWFDFVDSAHDPIFLELRKLTEGCPTVTIASYTVTLNAFSLFEIESIGIHDCVSTLEQCYNYLCMHTAE				NA	NA	NA	NA	NA
AK012_03766	384			hypothetical protein	ATGTCAGAAAAAACATTTGCCACCGCCATCAACTGTATGGACGGAAGAGTACAGCTTCCGGTTATTTACTGGATGCAGGAAAAATACGATACAGCCTACATCGATATGATTACTGAAGCCGGACCGACGAAGTTCCTTTTGGAAGGATCGGAAGAGCAGTTGGAAGCAGTGAAAACAAAAATCAATATCTCCACCGATAACCATGGATCGAATGTTGTCGCAGTTGTCGGCCACCACAACTGCGCTGGAAACCCTGTGGATCGTGATGTGAAGGAAAAGCAGATCAAGGAGTCTGTGGATCTTGTGAAATCGTGGGGTTTCGGCGTGGAAGTCATCGGCCTTTATGTGAATGACCAATGGGAAGTGGAAGTCGTCGTAGAATAG	MSEKTFATAINCMDGRVQLPVIYWMQEKYDTAYIDMITEAGPTKFLLEGSEEQLEAVKTKINISTDNHGSNVVAVVGHHNCAGNPVDRDVKEKQIKESVDLVKSWGFGVEVIGLYVNDQWEVEVVVE				NA	NA	NA	NA	NA
AK012_03767	1713			hypothetical protein	ATGATAGGAATGCTGATTACAGCTCTATTATCTTTTATTTTATTTTTCATCCTGACGTTTATCGTCTATTGGAAAAACCGAATGAGAAGAAAGAAGATCATGAAGACAGCCGGCGGCGTGTTTATCTTCGGCTTTATCCTCATGTTCGTGATTGCGTATGCGTTCATGCCGACCATAACCATACCGAACATGCTGATCCTGAACAGTATCGTCGCCATTCTGTTCGTGCCCCTTGTTTACGGCGGGGCTAAGGTGCCGGTGCAGTACCAGACGATGCACCGCTCATTATCGGGCGTCATTGTTCTTGTGACTGCTGTTTTGATCATCGGCGTTTTCGTCTACAGTATTTTTGCCCTGCAGGACAGCCATGATTCCATTGCCAAATCGGAAGAGGCGGAGGCACGTCCGTTGAATGAGGACAATACGCCGATTTCCGTCGCACCTGAATCGGCTCGTAACAAAGTGCAGAAAGCGATGAGTGTCGTACCGAATACACAGTTCTATGACCTTGGAAAACTTCAGGCCCAGCAGGTGGACGGGGATATCGTCTATGTCGCTCCTGTGGAATTCTCAAGCTTTTGGCGCTATGTGCGTGGAAATGAGACGGAAGGCTATTTCAAAATCGCAGCGACGAACATCAACGCCCAGCCCGAGTTCGTCCAAAGCAAAATGAAGTATACCAACTCGAGTTACTTCAACCATAACGTCCAGCGCGTCGTTTACAGTGCCCACCCGGACCATATTCAAAGCGGGGAAGCTCAGATTGAGGTGGATGATGAAGGGAAGCCGTGGTACGTACAGACGATCTACAAACCGCTGTTCTTCTCCAACAGGCCCGATATGCAGGAGATCAAAGTTGCCGTTGTAGACCCTGTAACCGGGGAAGTGGACACCTACCCGGCTTCAGAGGCGCCTGAATTCATCGAAGGATCGGTGAGCTCCGAACTGGCCGCCACAGAGAATGAATACTTCGGTAAGTACATCAACGGATGGCTGAACTCCATTTTCGGTAAAAAAGACGTGAAAATCCCGAACGAATCCGGAACAGAAAGCAGTGTGACTCCGATTTTTGATGAGGACGGGGCGATGTACTACTTTACTGATATGGCATCACCGAAAGAAAACATCGACTCAGCTCTTGGCTACACATTGATTGATGCCCGTACAGGTGAACTGACGTATTACAACGGCCAGCAGAACCAGGGAATCATGGATAGTAAAGGCGCGGTTCAGATCGTCAACAAGCAGTACCCGGAGAAAAACTGGACTGGAACGATGCCGGTGCTTTATAACGTTGACGGGCACCCGACGTGGATTGTGAACGTTCTGGATCCGAACGGGCTCTTTAAGCAGTACGCCTACATTAAGGCTGCAGATTCTGATTTTGCTGTCTTCGGCGATACGGCTAAGCAGACGCTGAACGCCTACCGTCTCCAGATTGCCCAGGACCCAAGCAATGTTGAAGGCAGTCAGGAGGTCGACCTCACGGAGAAAAGCGGGGTGATCAACCGCGTACTCGTCACCTCCACTGAATCAAGACAGTCCGTACAGTTCCTCCTTGAAGGGGATACGACCATTTATACTGTTACGACCAGCAAAGCACCGTTATCGATCTTCCTGAAAGAAGGCGATCAGGTGGACCTTGAAGCGCGTATCAGGGAAAATGGAACCGGTACAGTGGAAACCATGCAGATTGAAGGCATCAGCAATTAA	MIGMLITALLSFILFFILTFIVYWKNRMRRKKIMKTAGGVFIFGFILMFVIAYAFMPTITIPNMLILNSIVAILFVPLVYGGAKVPVQYQTMHRSLSGVIVLVTAVLIIGVFVYSIFALQDSHDSIAKSEEAEARPLNEDNTPISVAPESARNKVQKAMSVVPNTQFYDLGKLQAQQVDGDIVYVAPVEFSSFWRYVRGNETEGYFKIAATNINAQPEFVQSKMKYTNSSYFNHNVQRVVYSAHPDHIQSGEAQIEVDDEGKPWYVQTIYKPLFFSNRPDMQEIKVAVVDPVTGEVDTYPASEAPEFIEGSVSSELAATENEYFGKYINGWLNSIFGKKDVKIPNESGTESSVTPIFDEDGAMYYFTDMASPKENIDSALGYTLIDARTGELTYYNGQQNQGIMDSKGAVQIVNKQYPEKNWTGTMPVLYNVDGHPTWIVNVLDPNGLFKQYAYIKAADSDFAVFGDTAKQTLNAYRLQIAQDPSNVEGSQEVDLTEKSGVINRVLVTSTESRQSVQFLLEGDTTIYTVTTSKAPLSIFLKEGDQVDLEARIRENGTGTVETMQIEGISN				NA	NA	NA	NA	NA
AK012_03768	948	gloB_7		Hydroxyacylglutathione hydrolase	TTGGAAAAGAAGAAACCTGTGGCGTTAGGGAATGAACTGTATCTCATTGACGGTTATGATTTAGGTTTTGAAGGTCGGACAGGTACATATGTATGTAGAGAGGATCATACGACGTTGATCGAAACCGGACCGAGCCCGTCCATTCCACATGTGCTGGCCGGACTATCTGAACTGGATATCCGGCCGGAAGAGGTGGCGTTCATCATTCTGACTCATATTCACCTGGACCATGCAGGCGGAGCAGGGGTGCTTGTAAAGGAATGTCCGAATGCCGAGGTGATTGTCCATAAGAAAGGAAAACGCCATCTGGCTGATCCGTCCAGACTTGTGAAGGGAGCCAGGATGGTATACGGGGAAGTTTTTGATCAGCTGTTCGATCCGGTCCTTCCTGTACCGGAAGAGAAGCTTGTCGTGAAGGAAGAGGGGGAGACGCTGAAGCTTTCGGACAGCCGTACATTGACGTTTTATGACAGCCCGGGCCATGCCGGTCATCATCTTGCTGTCTATGATTCACGCAGCAGAGGGGTGTTTACCGGGGATACAGCAGGGATACGCTATCATCAGGTCGAAGATCGGATGGACTCTTTCTTCCTTCCCACGACCTCTCCCAATCAATTTGATCCGGACGTGATGATTTCCTCGATTGAAAAAATAGAGAGCCTTGATCCGAAACGCTTGTATTTCGGCCATTTCGGAGCGACGGATCATCCTGAACAAGCGTTTGATCAAGTGAAAAAGTGGATTCCTGTATTCGTAAGTGAAGCCAAGGACGCGCTGGAACAGGGGGAAGGCATAGAAGGGATACAGAAGCGGCTTCACCTGCGTGTGTCCGAATACCTGGCCGGGAATGGCGTACCTGATGACCATCCGGTTTATCAGCTGCTTCAGCTCGATTTTGAGGTGTGTGCGATGGGGCTTGCGGATTATCTCCAAAAACAAAAGGTCTGA	MEKKKPVALGNELYLIDGYDLGFEGRTGTYVCREDHTTLIETGPSPSIPHVLAGLSELDIRPEEVAFIILTHIHLDHAGGAGVLVKECPNAEVIVHKKGKRHLADPSRLVKGARMVYGEVFDQLFDPVLPVPEEKLVVKEEGETLKLSDSRTLTFYDSPGHAGHHLAVYDSRSRGVFTGDTAGIRYHQVEDRMDSFFLPTTSPNQFDPDVMISSIEKIESLDPKRLYFGHFGATDHPEQAFDQVKKWIPVFVSEAKDALEQGEGIEGIQKRLHLRVSEYLAGNGVPDDHPVYQLLQLDFEVCAMGLADYLQKQKV				NA	NA	NA	NA	NA
AK012_03769	348			hypothetical protein	ATGACAGAAGATCGTCAACAAAAAGCCCCTTCCAAACCGGGGTACAACGACTGTAAAAAGATGGAGAACTATCACGTCATGGTCGAAATGCAGGACGGCCGGTCCTTTGACGGCATTCTCGTTGATGTTTCCGGCGACACCTTCACCATCCTGATCAGCGAAGACGTCATGGTCGACGAGCACGGACAGGTGGCTGATGAACGCCAGTATGGGTACGGCCGCAGGCGGGCCCGGCGATTCCGGCGGGGCATTTATCCGATTGCCGGTCTCACGGCATTAGCGCTGTTTCCATACGCCTTCCGTCCCTATCCTTATTACTACCCCTACCCTTATCCATACTATTATTAA	MTEDRQQKAPSKPGYNDCKKMENYHVMVEMQDGRSFDGILVDVSGDTFTILISEDVMVDEHGQVADERQYGYGRRRARRFRRGIYPIAGLTALALFPYAFRPYPYYYPYPYPYYY				NA	NA	NA	NA	NA
AK012_03770	1707	msbA	COG1132	Lipid A export ATP-binding/permease protein MsbA	ATGAAGGATCTTAAAGAAGTCATCCGTCTCGTTACGCTTGAGAAAAAAGATATTCTCCTGTCGATTATCTTTGGCTTTCTGGCCGGCCTATCTGCTGTAGGCTTGTTTGCATCCAGTGGATATTTGATTTCCAAGGCAGCGCTGCTTCCTCCTTTATATGCGCTGACTGTGCTCATCGCCTTTCTAAAGCTGTTTGGTTTCGCCCGTGCTCTCGGACGGTATGCTGAGCGGTACTTTTCCCATAGAGCGACCTTCTCAATTCTCAGTCATCTGCGGGTCACTTTTTATAAACGGCTCGAACCGATCGCTCCAAGACTGTTCCAAAAGTATCGGAGTGGCGACCTCCTCGCCCGGATTGTCGGCGACGTGGAAAGTCTGCAGAACTTCTTCCTGCGCGTCTATTATCCGCCGGTCGTGCTCGTTATCATTTTCTTAGGGACGATTGTGTTCACGTCGATCTTTTCGCTCCCGGTAGCGGTTGTACTGCTGCTCGGCCTCGTCTTGACGGGTCTTGTCATCCCGGCATGGTACAGTGTGAAGCAGAGGAAATCGAGCCGGTTTGTCCGTGAGTCCAGGGGACAGCTTTCTACGGAAGCCACTGAATTCATCTATGGGTTCAGAGACTTGAAGATTCATCAGCAGGTTCCTGAGAAGCAGGAAATGCTGCACCAGGCCTCCCGTGATTATCTTCACCAGCAGGAGAAGGACAGCCGGGAGATGCTCGCCAGTCATTCCTGGAACACATTTGTGACGCTTATGGTGTCCTGGGTGGTCCTGGGTCTTGGAGCATTCCTCGTGTCTTCAGGAGACTTGAATGGGCTGTTTCTCGCCATGCTGGTTATGATATCGCTGACCGTTTTCGAAAATGCCGCACCGATGGCCGTTCTGCCTGCCCATTTGGAGGACAGCCGGCGGGCGTCCAAGCGGTTATTTTCATTGGTGGATGAAGAATCCGGGGAAGAAGGCACAGAGAAGATGGCTGGTCTCCATGCCCCGGCGGTTACGATGGAGAACGTCAGCTGGCGGTTTCCAGGAGAACCGCGCCCGGCGTTGACGGATGTTTCTCTTTCCATTCCGGCCGGCAGTAAAACCGCCATTGTAGGGGCAAGCGGCTCCGGAAAGTCCACTATTTTTCAGCTGCTGTTGAAGTTTCAGACTGTGGATACAGGTGTTGTAAAAGTTGATGGGAAGGACATCCGGACGATAGATGAAGAAAGTCTCTGGGCACACACCAATGTGATGCTGCAGGAAAACCATTTCTTCTTTGGTACGGTCCGCGACAATTTGAGCATGGCGGATGAGAATGCGACCGATGAGGAACAGCTGGCGGCTCTTGCCTCTACAGGTTTGTCCTTTTCCCTTGATAAAAAAGTCCTTGAAAAAGGAGAAAATTTATCCGGAGGTGAGAAGCAGCGTCTGGCGGCCGCCCGTGCCTTTTTGAAAGGGCAGCGGCTGTGGCTTCTTGATGAACCGACGTCGTCTGTGGATACATTGACGGAGCGCGGCATTTACGACCGTTTATTTGATCAGGCCAAAGAAGATACGGTCATTCTGATCAGCCACCGGCTGAGCGGATTGGATAAAATGGATCAGATCATTGTGATGGAAGACGGAAAAATTCAGGAATGCGGATCTTATGAGGATTTAATGAACCGCCGTGGTGTATTTTACGAAATGAAGAAGATTGAACAGAGTGTTCTTGCGTGA	MKDLKEVIRLVTLEKKDILLSIIFGFLAGLSAVGLFASSGYLISKAALLPPLYALTVLIAFLKLFGFARALGRYAERYFSHRATFSILSHLRVTFYKRLEPIAPRLFQKYRSGDLLARIVGDVESLQNFFLRVYYPPVVLVIIFLGTIVFTSIFSLPVAVVLLLGLVLTGLVIPAWYSVKQRKSSRFVRESRGQLSTEATEFIYGFRDLKIHQQVPEKQEMLHQASRDYLHQQEKDSREMLASHSWNTFVTLMVSWVVLGLGAFLVSSGDLNGLFLAMLVMISLTVFENAAPMAVLPAHLEDSRRASKRLFSLVDEESGEEGTEKMAGLHAPAVTMENVSWRFPGEPRPALTDVSLSIPAGSKTAIVGASGSGKSTIFQLLLKFQTVDTGVVKVDGKDIRTIDEESLWAHTNVMLQENHFFFGTVRDNLSMADENATDEEQLAALASTGLSFSLDKKVLEKGENLSGGEKQRLAAARAFLKGQRLWLLDEPTSSVDTLTERGIYDRLFDQAKEDTVILISHRLSGLDKMDQIIVMEDGKIQECGSYEDLMNRRGVFYEMKKIEQSVLA				NA	NA	NA	NA	NA
AK012_03771	1725	cydD	COG4988	ATP-binding/permease protein CydD	ATGAAGCATCTCAGCCGCTTTGCTTTTACTGATCGTAAAGGGATGACGCTGTTAATCGTGACGTCCCTATTAATCGGGGCAGCTGTCATTGGCCAATCCTATTATTTTGTTGCGATTGTTGATCGGATCTTCCTTGACCAGCAAAGCCTCCAGGATGTTCTGCCTTTGTTTGCCGGTCTTTTTCTCGTATTGGCTGGACGTACACTCTTCACCTGGCTAAACGGCAGGACGGGCATCCGTCTTGCTTCGCGCGCCAAGGCACATTACCGGCGCCGCTTGGTTGAAAAGCTGTCCAGGCAGTCGATTTCCACTTCGGTGACGGGACAGTCCGGCCAAAAAGTGAGTGTCCTGATGGACTCTGTGGATGAACTGGACGGTTATTTCAGCCGTTACATCCCTCAAATGATTCAGACGCTGATCATCCCGTTGATGATTTTAGTGGTTGTATTCTCCGCCCACCTCTATTCCGGGCTGATCATGGTGATTACTGCTCCGTTCATCCCTATGTTCATGGCGATCATTGGTGTGATGACGAAGAAAAAATCAGAAGATCAGATGGAGAAGCTTTCGGCTTTTTCCGGACAGTTTCTGGATACGCTTCAAGGACTTGTGACGCTGAAGCTGTTCAACCGCAGCCACCGCCAGCAGGAGGAGATTATAACAAGCAGCCTTGGTTTTAAGACAGCTACCATGGAAGTGCTGAAGGTGGCGTTTGTATCTTCCTTAATGCTTGAATTCATTTCGATGCTCAGCATCGGCCTGATTGCTCTGGAAATCGCCATCCGGCTTGTCGTTTATGAGAGTGTTTCCTTTTTTACTGCCTTTTTTATTCTCATTCTTGCTCCGGAGTTTTATTTGACGTTAAAGGAATTCGGAAGCGCCTTTCATACCGGACGTGGAGCTTCCGGCGCTTCCAAGCAGTTGGAGGAGACGCTGAACGAAGAGGACCATTCGTTGGTGTGGGGAGATCAGGGGCTTACGTATGAACAGCCGCCGGCCTTGACCCTGCAGCATGTTCAGTTTCAGTACGAAGAAGGATTTGCCCTTGAGCCTGTCTCTGTACACGTACCTGCAGCGAGCCATCTGGCCGTGGTAGGCAGGAGTGGATCGGGGAAGACGACTCTCCTCAATATCTTTTCAGGGCTTCTTGCTCCTTCATCCGGCGAAGTGGAATTGAACGGAAGGGCGCTCTATTCATACAAGGAAGCGGACTGGTTCAACGGTGTCAGCTACATCTCCCAGCATCCGTATCTTTTTTCCGGCACCATCGCAGAGAATATAGCGATCGGAGTCTCGGGGGCCTCAAAGGAAACGGTCGCTCATGCCGCAGGGAAGGCGGGGCTTTCCTTGATGCTTGAGACGTTGGAGGATGGACTTGATACAACGATCGGTGAAGGGGGAAGAGGTTTATCCGGCGGGGAGAAGCAGCGGATTGCCCTGGCCCGTGCCTTTTTGAAAAAGCCGTCGGTCATACTGTTTGATGAGCCTACAACAGGTCTGGATGTGAGAACCGAAACCATTCTTCAACGCTCTATTAAAGAATTGTCAGAAACAGCTACAATGATTACGGTTGCCCACCGGCTGCACACGATTCAGGCGGCCGACCAGATTCTTGTACTCGATGAGGGGCGTGCTGTGGGTACAGGCACCCATGAACAATTGAAAGCCGAGCTGCCTCTATATCGACAGATGGTCACAATGCAGAAGGGAGGAGAGGGGGCATGA	MKHLSRFAFTDRKGMTLLIVTSLLIGAAVIGQSYYFVAIVDRIFLDQQSLQDVLPLFAGLFLVLAGRTLFTWLNGRTGIRLASRAKAHYRRRLVEKLSRQSISTSVTGQSGQKVSVLMDSVDELDGYFSRYIPQMIQTLIIPLMILVVVFSAHLYSGLIMVITAPFIPMFMAIIGVMTKKKSEDQMEKLSAFSGQFLDTLQGLVTLKLFNRSHRQQEEIITSSLGFKTATMEVLKVAFVSSLMLEFISMLSIGLIALEIAIRLVVYESVSFFTAFFILILAPEFYLTLKEFGSAFHTGRGASGASKQLEETLNEEDHSLVWGDQGLTYEQPPALTLQHVQFQYEEGFALEPVSVHVPAASHLAVVGRSGSGKTTLLNIFSGLLAPSSGEVELNGRALYSYKEADWFNGVSYISQHPYLFSGTIAENIAIGVSGASKETVAHAAGKAGLSLMLETLEDGLDTTIGEGGRGLSGGEKQRIALARAFLKKPSVILFDEPTTGLDVRTETILQRSIKELSETATMITVAHRLHTIQAADQILVLDEGRAVGTGTHEQLKAELPLYRQMVTMQKGGEGA				NA	NA	NA	NA	NA
AK012_03772	522			hypothetical protein	ATGAAGCGGGTGATGATTGTTGGTGTATCATCCGGCGTGGGCAAATCCACGCTGGCCCGGGAAATGGGTGAACGCCTTGACCTCCCTGTGCATCACCTTGATGCCATGCACTGGGAGCCGGGGTGGAAGGAAGCGGAGCCGGATGTATTTGCCGCCCGTCAGAAGGCGGTTGCAGCCGGAGATAAATGGATTATCGAAGGGAACTACCGGCCCACCTATGACATCAGAGCAGCACGGGCTGATACGATCGTCTATGTGGAGCTGCCTCTACGCGTCTGCCTCTATCGTGTCGTAAAGCGCTGGTGGAAGTTCCGAGGACGGTCGAGGCCGGATCTCGGGCCGGGTTGTGAGGAGCGTCTCGACTATGATTTTCTTAAGTTTATTGTCACTACATACCACAGACGGAAAAGGGAGATGCAGGAGAGGCTTTTGAACTTTCAGTTGGAGAATCCTTCAAGTGAGGTGATTCAGCTTAGAAGTCAACGGGAGACTGCTGCTTTTCTTAACCATATGGAACAGTGA	MKRVMIVGVSSGVGKSTLAREMGERLDLPVHHLDAMHWEPGWKEAEPDVFAARQKAVAAGDKWIIEGNYRPTYDIRAARADTIVYVELPLRVCLYRVVKRWWKFRGRSRPDLGPGCEERLDYDFLKFIVTTYHRRKREMQERLLNFQLENPSSEVIQLRSQRETAAFLNHMEQ				NA	NA	NA	NA	NA
AK012_03773	465	rppH		RNA pyrophosphohydrolase	ATGAAAGGGGTAGAAAAAATGGGAGACTACGTTCATGAAATCCGAAAGAGAATCGGTTCCCGGCCGCTGATTACAGCCGGATCCACCATCATCGTACAAGATGAGCGGGACAGGGTGCTGCTTCAGCTTCGTTCAGATACAGAAGAATGGGGCCTCCCCGGCGGAGCTCTTGAGCCGGGGGAAACGCTTGAGGAGACAGCCGCACGGGAATTGAAGGAAGAAACCGGCCTGACGGCGGGTTCCTTCATCCAGCATGGTACGTTCTCCGGAGAAGACTATTACTTTCAATATCCGAACGGTGATGAGGTGTACAACGTCATTACAGTCTTCCTTGCTGGTAAGCCGTTGGAAAATGAAACCCTTCCGGACCAGGAAACACTGCAACTTGCTTACTATCCACTGAGTGAGCTGCCGGAAAACCTGGATGAACGGGCCCGGTTGATATTAAGGGAGATCACACAATGA	MKGVEKMGDYVHEIRKRIGSRPLITAGSTIIVQDERDRVLLQLRSDTEEWGLPGGALEPGETLEETAARELKEETGLTAGSFIQHGTFSGEDYYFQYPNGDEVYNVITVFLAGKPLENETLPDQETLQLAYYPLSELPENLDERARLILREITQ				NA	NA	NA	NA	NA
AK012_03774	954	trxB_4	COG0492	Thioredoxin reductase	ATGAGCTACAAATCTGTCATCTTAGGAACAGGACCGGCTGGTCTGACAGCCGCCGTATATCTTGCACGAGCAGACATGGAACCCCTGGTGATCGAGGGACCGGAACCTGGAGGGCAGTTGACCCTGACGACGGAAGTAGAAAACTTCCCCGGTTTTCCGGACGGAATCATGGGCCCTGAACTTATGGATAATATGAAGAAGCAGGCGGAACGGTTCGGTGCTGTCTTCAAACGGGGATGGGTAACGGATGTCCAGGTCGACCAGCGGCCATTTACGCTTCAAGTGGACGGTATCGGCGAGGTCCAGACAGAGAGCCTGATTATCTCTACAGGTGCGTCGGCCAAGCTGCTCGGTATTCCCGGAGAGAAAGAGAACATCGGAAAAGGAGTGAGCACCTGTGCCACGTGTGATGGATTCTTTTTCCGCGGGAAAAAGGTCGTGATCATCGGGGGCGGCGATTCAGCGATGGAAGAGGCCACCTTCCTGACCAAATTTGCCAGTGAAGTACAGGTGATCCACCGCCGCAACGAACTGCGGGCTTCTAAAATTATGCAGTCGAGAGCACAGGAAAATGAAAAAGTGACGTGGGCGTTGAACAAAACACCCATTGAAATGGTCTCGGACGGTATGAAAATTTCAGGCATCAAAGTGAAGGATAATGAAACTGGTGAAGAGGAAGTTATCAATACAGATGGGATTTTCGTTGCCATCGGTCACAATCCGAACACAGATTTTCTAAAAGGAAAGCTGGATATGGATGAGAAGGGTTATCTCCTTGTTGAACCAGGGACGACCAATACGAATATCCCCGGCGTCTTCGCCTGCGGGGACGTCCAGGATCAAAAGTACCGTCAAGCCATTACAGCAGCCGGTACCGGATGTATGGCCGCAATGGATTCTGAACGCTTCCTGGAAGGCGAAGCGGTTGTCGATTGGAGCCAGAACCTTTCTTAA	MSYKSVILGTGPAGLTAAVYLARADMEPLVIEGPEPGGQLTLTTEVENFPGFPDGIMGPELMDNMKKQAERFGAVFKRGWVTDVQVDQRPFTLQVDGIGEVQTESLIISTGASAKLLGIPGEKENIGKGVSTCATCDGFFFRGKKVVIIGGGDSAMEEATFLTKFASEVQVIHRRNELRASKIMQSRAQENEKVTWALNKTPIEMVSDGMKISGIKVKDNETGEEEVINTDGIFVAIGHNPNTDFLKGKLDMDEKGYLLVEPGTTNTNIPGVFACGDVQDQKYRQAITAAGTGCMAAMDSERFLEGEAVVDWSQNLS	PGPT0013060_6212	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-THIOREDOXINES|THIOESTERASES,PGPT0013060-trxB-K00384	NA	NA
AK012_03775	288			hypothetical protein	ATGCCTGGACGAAGAAGATCTGTACGCCGGCCTGGATTTTGTGTGTTTCCCGGTTACAAATACTGCGGACCTGGATGCAGCGGACCTGGAGAACCGGTCAATGCTGTCGATGCTGCGTGTAAAGCCCATGATGAGTGCTACCGTTATACGAGGAATTACTGCTATTGTGATGATGCTTTCATCCGTCGTTTAGGACAGCTCCAAAACCCTCATACCCGTGAAGGCCGCCACGCCCGTACCATGTATAACTATATGAAATTCCAACGCTTATTCACGTGTTCGTTTTAA	MPGRRRSVRRPGFCVFPGYKYCGPGCSGPGEPVNAVDAACKAHDECYRYTRNYCYCDDAFIRRLGQLQNPHTREGRHARTMYNYMKFQRLFTCSF				NA	NA	NA	NA	NA
AK012_03776	1149	rodA	COG0772	Peptidoglycan glycosyltransferase RodA	ATGAAATTTGAAGAAAGGTTTGACTGGCAGCTGTTCTTTATTATCTGCTGTTTTATTGCGATCAGCTCCGTCGCCTTGTTCAGCGCCCAGCAAAGTACGCAGTACAATGAAAACTTTGTACTCAAACAGCTGGTCTGGTACGGGGTCGGCGGAGTTGTTATTGGGTTCATGATGATCGTGGATCCCGAAGATTTTAAAAAAGTCAGCTGGTACTTATATGGTTTCGGTCTTGTTTTACTGATTGCCTTGATTCTGGCACCACCTTCGATCGCTCCTGTCATCAAGGGGCAGAAAAGCTGGTTCACCCTGCCAGGTTTATCTCTGCAGCCTGCAGAGCTTGTTAAAATTTTTACGATACTCGTTCTCGGAAGGATTGCCGTTAATCATAACAGCAGAAGCTCTTCGTCACTGAAGTCGGACTTCATGCTCCTTCTCAAGCTCGGAGCCGCTGCCGGCGTTCCATTCCTATTAGTCATGCAGCAGCCTGACTTAGGAACAGGGCTCGTCTTTTTAGCAATCCTCGCTGGTTTTATTTTAATTTCAGGAATCCAGTGGAAAATCATCCTGCCGATTTTCGCTGTCATTTCTGCGCTTGGGACAAGCCTGATCTGGCTGGCCATCCAAGCTCCACAAATTCTCGATAAATACCTTGGTGTAAAGGAATACCAGCTGGGACGTATCTATTCCTGGTTCCAGCCGACCAAATACGAGGATTCATCCGGTTATCAGCTCGTGAAAGCGATGCGGGCGATAGGATCGGGACAGCTTTACGGAAAGGGCTTCGGAGAAAGAGAGGTCTACCTTCCTGAAGCTCAAACGGACTTTATTTTCAGCATCATTGCAGAGGAATATGGGTTTCTTGGCTCGTGTATCGTCATTATCCTGTTCTTCTTCCTGATCTACCGCTTTACGACAATTGCTTTTAAAGCAAACAGCCATTACAGTTCCTATGTCATGGTGGGAATCATCAGTATGATTGCCTTTCACGTGTTCCAAAACATCGGCATGTCCGTTCAGCTTCTTCCTATTACAGGGATACCGCTGCCGTTCATCAGTTATGGAGGAAGTGCCCTCTTAGGAAACCTGATGGCTCTCGGCATAGCCTTCTCGATCTCGTATCATCATAAAACCTATATGTTCGGAGAATAA	MKFEERFDWQLFFIICCFIAISSVALFSAQQSTQYNENFVLKQLVWYGVGGVVIGFMMIVDPEDFKKVSWYLYGFGLVLLIALILAPPSIAPVIKGQKSWFTLPGLSLQPAELVKIFTILVLGRIAVNHNSRSSSSLKSDFMLLLKLGAAAGVPFLLVMQQPDLGTGLVFLAILAGFILISGIQWKIILPIFAVISALGTSLIWLAIQAPQILDKYLGVKEYQLGRIYSWFQPTKYEDSSGYQLVKAMRAIGSGQLYGKGFGEREVYLPEAQTDFIFSIIAEEYGFLGSCIVIILFFFLIYRFTTIAFKANSHYSSYVMVGIISMIAFHVFQNIGMSVQLLPITGIPLPFISYGGSALLGNLMALGIAFSISYHHKTYMFGE				NA	NA	NA	NA	NA
AK012_03777	1803	glmS_2	COG0449	Glutamine--fructose-6-phosphate aminotransferase [isomerizing]	ATGTGTGGAATTGTAGGATATATTGGACAACAGGATACAAAGGAAATTTTGTTAAACGGACTGGAAAAGCTTGAATACCGGGGTTATGACTCTGCTGGAATTGCTACCTTGAATGATAACGGCGTTGAAGTAACGAAAGTCAAAGGCCGTATTGCTGCACTACGCAGTGCAGTCGATGAAAACGTAGCATCCACTCACGGCATTGGTCACACACGCTGGGCGACCCATGGTGCTCCGAGTGAAGAGAACGCCCACCCGCACCAAAGTACTTCCGGACGTTTTACGCTCGTTCATAACGGCGTTATCGAAAATTACGTAGATGTGCGTGATGAATACCTGGCCGGTGTTGAGCTGAAGAGTGAAACAGATACCGAAATCATCGTTCAGCTGATCGAAGTCCTTCATGAGGAAATGAACGATGTAGCGGCTGCCTTCCGTAAAGCTGTGAAGCTTCTGACAGGGTCCTATGCCATCGCATTGATCGATCGTGAGAACAAGGATACGATTTATGTAGCGAAAAACAAGAGCCCGCTTCTTGTCGGCCTTGGTGAAGACTTCAACGTTGTAGCCAGTGATTCCATGGCGGCGCTTCACGTAACGGATCAGTTCCTTGAGCTGATGGATAAAGAGACAGTCATCGTCCGTCGTGACGGAGTGGAAATCCTGTCTCCTGAAGGTGACGTAGTCACTCGTGAGCCGTTCACAGCTGAAATCGACGCGACAGATATCGAAAAAGGCACCTATCCTCACTTCATGCTGAAGGAGATTGATGAGCAGCCTTTCGTTATCCGTAAAATCATCCAGGAGTACCAGGATGAAAACGACGACATCAAATTGGATGCGGACATCCGTAATGCGATGAAGGAATGCGACCGTATTTACATCATTGCTGCGGGAACAAGCTACCACGCCGGCCTTCTCGGCAAACAGTTCATCGAAAAGCTGGCGAATATTCCAGTAGAAGTGCACGTGGCCAGTGAGTTCTCCTACAACATGCCTCTTCTATCCGAGAAGCCGTTGTTTGTATATATTTCCCAAAGTGGGGAAACGGCAGACAGCCGTTCTGTTCTTGTTCAGACGAAAGAGCTTGGCCACCCGGCTCTGACGATTACCAATGTTCCAGGATCCACCCTCTCCCGTGAGGCGGATTATACACTGCATCTGCATGCGGGTCCTGAGATTGCGGTAGCGTCTACAAAAGCTTATACAGCCCAGATGGCTGTACTTGCGATCCTGGCCGTTGATACAGCCCGTGCCAAAGGAATTGAGCTTGATTTTGATCCGATGCAGGAGCTTGGGATCGTAGCGAATGCTATGGAAGCTCTGACGGACCAAAAAGAAGAGCTGGAAGATCTTGCGCGTGAATATCTGCCTGTCACACGCAACTGCTTCTTCATCGGCCGCGGCATCGACTTCTACGTCGGCCTTGAAGGTTCATTGAAGCTCAAGGAAATCTCCTACATCCAGGCGGAAGGATTCGCTGGCGGAGAGCTTAAGCACGGAACCATCGCTCTGATTGAAGAAGGCACGCCGGTTGTAGCGCTTGCGACACAGGAAAACGTCAACTATTCCATCCGCGGAAACGTACAGGAAGTGGAAGCACGCGGAGCGAACAGCATGATCATCAGTATGAAAGGTCTTGAGAAGGAAGGCGATGCATTTGTCATCCCTCACGTTCATGAGATTCTGACACCACTTGCGTCTGTTGTACCGCTTCAGTTGATTTCCTACTACGCAGCTCTTCACCGTGACTGTGATGTAGATAAACCACGGAACCTTGCAAAAAGTGTGACGGTTGAATAA	MCGIVGYIGQQDTKEILLNGLEKLEYRGYDSAGIATLNDNGVEVTKVKGRIAALRSAVDENVASTHGIGHTRWATHGAPSEENAHPHQSTSGRFTLVHNGVIENYVDVRDEYLAGVELKSETDTEIIVQLIEVLHEEMNDVAAAFRKAVKLLTGSYAIALIDRENKDTIYVAKNKSPLLVGLGEDFNVVASDSMAALHVTDQFLELMDKETVIVRRDGVEILSPEGDVVTREPFTAEIDATDIEKGTYPHFMLKEIDEQPFVIRKIIQEYQDENDDIKLDADIRNAMKECDRIYIIAAGTSYHAGLLGKQFIEKLANIPVEVHVASEFSYNMPLLSEKPLFVYISQSGETADSRSVLVQTKELGHPALTITNVPGSTLSREADYTLHLHAGPEIAVASTKAYTAQMAVLAILAVDTARAKGIELDFDPMQELGIVANAMEALTDQKEELEDLAREYLPVTRNCFFIGRGIDFYVGLEGSLKLKEISYIQAEGFAGGELKHGTIALIEEGTPVVALATQENVNYSIRGNVQEVEARGANSMIISMKGLEKEGDAFVIPHVHEILTPLASVVPLQLISYYAALHRDCDVDKPRNLAKSVTVE	PGPT0017630_5939	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION_BY_NODULATION	ROOT_NODULATION_METABOLISM,PGPT0017630-glmS|nodM-K00820	NA	NA
AK012_03779	1347	glmM	COG1109	Phosphoglucosamine mutase	ATGGGTAAATATTTCGGAACAGACGGCGTTCGTGGGATCGCTAACAAAGAATTAACACCAGAACTGGCTTTTAAATTAGGACGTTACGGCGGTTATGTCGTAACCAAAGGGGTGGAGCGTCCGAAGGTTTTAATCGGCCGTGATACGAGAATTTCCGGTGAAATGCTGGAAGGAGCCCTCGCTGCCGGTCTACTCTCCATTGGAGCGGAAGTGATGCGTCTCGGCGTCATTTCAACACCAGGAGTAGCCTTTTTAACTAAAGCGCTTCAGGCTGAAGCAGGAATTATGATTTCCGCCTCCCACAATCCGGTGGAAGACAACGGGATCAAGTTCTTCGGCCCGGATGGATTTAAGCTGACAGATGATCAGGAAGCAGAAATCGAAGCATTGATTGATGCAGAGCAGGACGATCTGCCACGCCCTTCCGGTTCTGACCTCGGTCAGATCAATGACTACTTCGAAGGCTGCCAGAAATACCTGCAGCACTTGAAGCAGACGGTGGATTATGACTTTGACGGTCTCCATATTGCTCTTGACTGTGCACACGGAGCTACGTCTTCACTCGCTTCTCATCTCTTTGCCGATCTGGAAGCGGACATTTCCTCCATCGGTTCGTCTCCGGACGGCCTGAATATCAATGCCGGGGTAGGGTCGACCCATCCGGAAGCTCTTCAGTCTCTTGTGAAAGAGAAAAAAGCAGATATCGGGCTTGCCTTTGATGGAGATGGTGACCGTTTAATCGCTGTCGATGAAAAAGGAAACATTGTAGACGGCGACCGTATCATGTTTATTTGTGCAAAATATATGAATGAGAAAGGTCTTCTGAACCACTCAACGGTTGTATCCACTGTCATGAGTAACCTTGGATTCTATAAGGCTGTGGAAGCCAACGGCATTAAGAGTGATAAAACGGCTGTAGGCGACCGTTATGTGATGGAAGAAATGCGCCGGGGAGGTTATAACCTCGGTGGGGAGCAGTCCGGCCACATCATCTTCCTTGAACACAACACGACAGGAGATGGGATGCTTTCTGCGCTTCAGCTTGTGAACGTTGTCAAAGAGACCGGTAAGCCCCTGTCTGAGCTTGCTGCAGAAATGGAGAAGTTCCCACAAGTGTTGAAGAATGTTAAAGTTATTGATAAAAACCGTGTACAGACACATCCCCGCATTCAGGAAGCCATCCAGGCGGTGGAAGAGGAAATGGGAGACAGCGGCCGTGTCCTTGTCCGCCCTTCCGGAACAGAACCACTCGTGAGGATCATGGTCGAAGCTCCGACCGAAGAGCAATGCGAAACCTACTGTAACAAAGTCGTTGCAGTCGTTGAAGAAGAACTAGGCATGGAATAA	MGKYFGTDGVRGIANKELTPELAFKLGRYGGYVVTKGVERPKVLIGRDTRISGEMLEGALAAGLLSIGAEVMRLGVISTPGVAFLTKALQAEAGIMISASHNPVEDNGIKFFGPDGFKLTDDQEAEIEALIDAEQDDLPRPSGSDLGQINDYFEGCQKYLQHLKQTVDYDFDGLHIALDCAHGATSSLASHLFADLEADISSIGSSPDGLNINAGVGSTHPEALQSLVKEKKADIGLAFDGDGDRLIAVDEKGNIVDGDRIMFICAKYMNEKGLLNHSTVVSTVMSNLGFYKAVEANGIKSDKTAVGDRYVMEEMRRGGYNLGGEQSGHIIFLEHNTTGDGMLSALQLVNVVKETGKPLSELAAEMEKFPQVLKNVKVIDKNRVQTHPRIQEAIQAVEEEMGDSGRVLVRPSGTEPLVRIMVEAPTEEQCETYCNKVVAVVEEELGME	PGPT0018950_2052	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
AK012_03780	972	cdaR_2	COG4856	CdaA regulatory protein CdaR	ATGGATAATTGGTTTAAAAGTGTATGGTTTATCCGGATTATCTCACTTCTTTTAGCCGGCCTGCTCTGGGTGACGGTCAATGTCGATAACAATATGGATTCTGATTCCCTGTTTTTCAATGAGACTTCATCGGAATCCGAAACGATGGAAAACATTCCACTCGAAATCCGTTTTGACAGTGAAGAATATGTGGTCAGCGGGATTCCGCAGGATGTTACGGTTACAGTAGAGGGACCCGCAGGTGCTGTAGCGCCTGTTTCACGTCAGAAGAATTTCAGCGTCTTTGCCGATTTGAATGACCTTGGGCCTGGAACCCATGAGGTGGCCCTGCAGCATTCAGGAATCAGCAGCCAGCTGGCTGTTTCCCTTGATCCGAAAATCATTGAAGTGGAAATTGAAGAAAAGACAACCGAAAATTATGATGTAAGCATCGACTATGTGAATGAAGGCAGTCTGGATACAAGCCTTGAACTGGGAACCCCGGAGGTATCTCCGGCCCAGGTGGAGATCACGGGTGCAGCATCAGTGATTGAAAGAGTAGCTTCCGTAAGAGCCATCGTCGACGTAGATTCAGCTGAGGAAATCGTTGAGCAGGAGGAAGCTCCTGTGAAGGTTTATGATAACCAGGGGAATGAGCTGAGCGTTCTTGTAGAGCCTGCGGCCGTTGATGTAAGTGTCCCAGTATCCAAACGCTCGAAAGAGGTTCCGGTGACGCCGGAAGCAAGCGGCGGTACTCAGGAAGGGGTTCTTATCGAAGAGGTAACAACAGAAGTGGAAAATGTGACGTACCAGGGACCTGAAGAGGTTCTGGACGGTATGGAAGAACCTGTTGAAATTCCAGTGGATGTGACGGAAGTGACCGAGGATCAGGTAGTGGAAGTGGATGTTCCGCTGCCTGAAGGGACAACGGCGGTATCACCGGAAACGATAGAGGTCACCATTGATGTGCTTGATGACCAACAGGAAGAGTAA	MDNWFKSVWFIRIISLLLAGLLWVTVNVDNNMDSDSLFFNETSSESETMENIPLEIRFDSEEYVVSGIPQDVTVTVEGPAGAVAPVSRQKNFSVFADLNDLGPGTHEVALQHSGISSQLAVSLDPKIIEVEIEEKTTENYDVSIDYVNEGSLDTSLELGTPEVSPAQVEITGAASVIERVASVRAIVDVDSAEEIVEQEEAPVKVYDNQGNELSVLVEPAAVDVSVPVSKRSKEVPVTPEASGGTQEGVLIEEVTTEVENVTYQGPEEVLDGMEEPVEIPVDVTEVTEDQVVEVDVPLPEGTTAVSPETIEVTIDVLDDQQEE				NA	NA	NA	NA	NA
AK012_03781	813	cdaA	COG1624	Cyclic di-AMP synthase CdaA	ATGCTTGATGGGGGACTGGATGTTTTAGATTACCTGTTGATAACTGTGGATATCGCCCTTGTCTGGTTTGTTGTATATAAATTAATCATGCTGATCCAAGGGACGAAGGCGGTCCAGCTTCTAAAAGGAATCTTCATTATCCTGGGGATATGGCTGCTGAGTAATTTATTTGGACTAACCACGCTGCGATGGCTGATGTCACAAGCCATTACCTGGGGTTTCCTTGCTATTATCATTCTGTTCCAGCCGGAGCTGAGAAGAGCTCTTGAACAGCTTGGACGGGGAAGCTTTTTCAGCAGGAATACGTCAGAAGAAGAAGATACGGAAAAAACGCTGCAGGCGATTATTAAATCCTGCAACTATATGGCGAAACGCAGAATCGGAGCTTTGATTACGATCGAGCGTGATACGGGCATGGGAGACTATGTAGAGACAGGGATCCGGGTCAATGGACACTTATCGAGTGAACTGCTCACAAACATATTCATACCGAATACACCGCTTCATGATGGAGCCGTTATACTTAAGAATGATGAAATCGTAGCTGCTGCCTGTTACCTTCCGTTGTCGGAAAGCCCTTTTATCTCCAAGGAACTGGGGACGCGTCACCGGGCAGCGATGGGCATCAGTGAAGTGACGGATGCATTGACGATTGTCGTTTCGGAGGAGACCGGGGCCATTTCCTGTACAAAAAATGGTGAACTGCACCGCGAGCTTGACCAGGTGAAGCTTGAGGAAATGCTGCGTACAGAGCTCGATTACTCCGCTCCTGCCGTTAAAAGCTGGAACTGGAGGGGGAAAAAGAATGGATAA	MLDGGLDVLDYLLITVDIALVWFVVYKLIMLIQGTKAVQLLKGIFIILGIWLLSNLFGLTTLRWLMSQAITWGFLAIIILFQPELRRALEQLGRGSFFSRNTSEEEDTEKTLQAIIKSCNYMAKRRIGALITIERDTGMGDYVETGIRVNGHLSSELLTNIFIPNTPLHDGAVILKNDEIVAAACYLPLSESPFISKELGTRHRAAMGISEVTDALTIVVSEETGAISCTKNGELHRELDQVKLEEMLRTELDYSAPAVKSWNWRGKKNG				NA	NA	NA	NA	NA
AK012_03782	663	rsiW	COG5662	Anti-sigma-W factor RsiW	ATGAATTGCAGAAAAGAAGCCATTACACTCATGCATAAGTATTTAGACGGCGAGTTAAACAAAGAGGAAGAAAGACGACTGAGAGATCACCTGCAGAGCTGTCCGTCCTGTCAGAGCCATTTTCATGAACTGAAGCGGACAACAACCTTGATTACCAATACATCTCCAGCTTCTGCCCCGCCTCGGTTCACGGCGAATGTGATGAACAATCTGCCGAAGCAGAAGAAACGGAGAAATTATATACGCAGACTGCAGCAGCACCCGATTCTGACAGCCGCTGCTGTCTTCTTCATTCTCATGTTCAGTGGTATATTCACGGCATGGAATCAGGATCAGCAGGTAACGGTATCAAAGCAGGAAAACCTGGAAATCAGGGAGCATACCGTTATTGTACCGGATGGTGTTACGGTTAAGGGTGATCTTGTCGTCCGGAATGGGGATCTCCGAATTGACGGGGCTGTCGATGGGAATGTGACCATCATTAACGGAGATATTCTGGAAGGAACGACAGAAGACCAGGGAGCAGGTGAATTGAATCGGGCTGATCTCAGGGCCTACTCAGGGGAACTCACGGAAGTGAACCAGATGTATGAGTGGGTGTGGTATCATACGAAACAAACCGTGTCCGATATCTTTTCTTTCGGATCAGAACAGGAAGACTAA	MNCRKEAITLMHKYLDGELNKEEERRLRDHLQSCPSCQSHFHELKRTTTLITNTSPASAPPRFTANVMNNLPKQKKRRNYIRRLQQHPILTAAAVFFILMFSGIFTAWNQDQQVTVSKQENLEIREHTVIVPDGVTVKGDLVVRNGDLRIDGAVDGNVTIINGDILEGTTEDQGAGELNRADLRAYSGELTEVNQMYEWVWYHTKQTVSDIFSFGSEQED				NA	NA	NA	NA	NA
AK012_03783	564	sigW_4	COG1595	ECF RNA polymerase sigma factor SigW	ATGGAAACCATGATAAAACAGAAAATAAAACAAGTGAAAAAGGGTGATCAGGCAGCATTTGAAGACATTGTATCTTTTTACCAGAACAAAGTCTATCACATATGTCTGCGGATGATCGGAAACTCCTACGAAGCTGAAGATCTTGCACAGGAAGCATTTATCCGGGCCTATACAAACCTCCACACGTTTGATGAGCGGCGCAAATTCTCAACATGGCTGTATAGGATAGCCACCAACTTATCAATAGACCGAATCCGGAAGAAAAAGCCGGACTATCACCTTGATGCTGAAGTGAGGGGAACGGATGGACTGGATATGTACTCTCAGCTGGCTGCTGATCAGGCACTGCCGGAGGAAGAGGTGGAAAGCCTTGAGCTGCAGACGTACATTCACAAGGAAATCCTCGCCCTGCCTCCGAAGTATCGGAGCGTGATCGTGCTGCGGTATTTGGATGAGTTAGCTCTCCAGGAAATCGCCGAAGTCCTTGATATTCCTGTAGGAACGGTGAAGACAAGGGTACACAGGGGAAGGGAAGCATTAAGAAAACGGCTTCGCCATGTATGA	METMIKQKIKQVKKGDQAAFEDIVSFYQNKVYHICLRMIGNSYEAEDLAQEAFIRAYTNLHTFDERRKFSTWLYRIATNLSIDRIRKKKPDYHLDAEVRGTDGLDMYSQLAADQALPEEEVESLELQTYIHKEILALPPKYRSVIVLRYLDELALQEIAEVLDIPVGTVKTRVHRGREALRKRLRHV	PGPT0014960_8399	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK012_03784	195			hypothetical protein	ATGACGCGAGTGACTTCGTTGACAGAAGAAATCGAAGCTTGTCGTTTGGAAATGAGCCGTTTAGCCCGCCTCCATCACTTAACATCCCCGGAAGTTGTCAAGGTGAGTGTTAAGCTTGATCAGCTTCTTAATGAATATGATGAAATACAATATAAAAAACAGCAACCCGCCTTAAGTAAAGCAGGTTACTGTTAA	MTRVTSLTEEIEACRLEMSRLARLHHLTSPEVVKVSVKLDQLLNEYDEIQYKKQQPALSKAGYC				NA	NA	NA	NA	NA
AK012_03785	903	rocF		Arginase	ATGAATAAACAGCTTTCAGTAATCGGAGTACCCATGGATCTTGGACAAATGCGCCGGGGAGTCGATATGGGGCCAAGCGCTATCCGGTATGCAGGGATGGTTGAACGTCTAGAGCAGTTAAGTTATACCATTGAAGATCTAGGAGACATTGAGATTCCTCGTCCGAAGCACCAAACGGATGTAAAGCATGACAACCTTAGAAACCTTCACGAAATTGCTGAAGGAACGAGCAGACTGGCAGAAGCCGTCGATCAAGTCATTGAAAACGGCCGTTTCCCTCTCGTACTTGGCGGAGATCACAGTATTGCGATGGGAACTCTTGCAGGAGTCGCTAAACACTACAATAATCTCGGAGTTATCTGGTACGATGCTCACGGAGATTTAAATACAGCAGATAGTTCACCGTCCGGTAATATTCATGGCATGCCGCTGGCGGCAAGTCTTGGAATCGGACATGAAAAGCTGACTGGCATTCACGACTATTCGCCGAAAATCAAGCCTGAGAACATTGTCATTATCGGAGCGCGCTCTCTGGATGAAGGGGAGAAGGTACTGATAAAGGAACAGGGGATCAAAGTCTATACGATGCATGAAGTCGACCGTATGGGAATGACTAAAGTCATTGACGAAACCGTGGATTATTTGAAGGACAGGACAGACGGCGTGCACCTCAGCCTTGATTTGGACGGGCTGGATCCGAACGATGCACCTGGAGTCGGTACACCTGTTATGGGCGGTTTGAGTTATCGTGAAAGCCACCTGGCCATGGAAATGCTCCATCAATCGCAAATGATTACATCCGCTGAGTTTGTAGAAGTTAACCCGATCCTTGATGAAAAAAATAAAACCGCCGGCGTAGCGGTCGGTTTGATGGGTTCTTTATTTGGAGAAACTCTGAAATAA	MNKQLSVIGVPMDLGQMRRGVDMGPSAIRYAGMVERLEQLSYTIEDLGDIEIPRPKHQTDVKHDNLRNLHEIAEGTSRLAEAVDQVIENGRFPLVLGGDHSIAMGTLAGVAKHYNNLGVIWYDAHGDLNTADSSPSGNIHGMPLAASLGIGHEKLTGIHDYSPKIKPENIVIIGARSLDEGEKVLIKEQGIKVYTMHEVDRMGMTKVIDETVDYLKDRTDGVHLSLDLDGLDPNDAPGVGTPVMGGLSYRESHLAMEMLHQSQMITSAEFVEVNPILDEKNKTAGVAVGLMGSLFGETLK	PGPT0020100_1736	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_ARGININE_DEGRADATION,PGPT0020100-rocF-K01476	NA	NA
AK012_03797	354			hypothetical protein	ATGAAACGTTTGCTTTTCTTAATGGTGATTATAGTTAGTTTTGCAACTGGATGTAATAAAGAAGAAATTAGTTCACCTTATTTTGTTTGGGAGGGGCAGTTTTATATAACTACCCATGAACCTATAGTTGAAAATGAATTAAGTGAAAAAATTGGTAAAATAAGAGAAAATGTCAATAAACCTTATGAAGACGGTCAAGCTAAAGGGCTTCCTGAAGGTACTATGCTACTTATAGTGGAAGGACAACATCTTGGAACAGATAAAACTAATGATGGTATTATAGCTTTCGAAAGAGATGGAGAGTTTAACATAGCTAGACAAATAGAGCCAGAATTAAAAGAAGAATTGAAATGA	MKRLLFLMVIIVSFATGCNKEEISSPYFVWEGQFYITTHEPIVENELSEKIGKIRENVNKPYEDGQAKGLPEGTMLLIVEGQHLGTDKTNDGIIAFERDGEFNIARQIEPELKEELK				NA	NA	NA	NA	NA
AK012_03798	528			hypothetical protein	ATGGTACCTAATGAAAAAGAAGTCTTAGCTAAGGGAAACTTAACCTTTGAGGATTATAAGAAACACAACCTTCATCATCATAAGAAAATGATGATTGGATATTTTATTTTTGTTTTCTTAGTTGGCCTGTGGTTATCTTCTCTCTTTATTACAGGAGGGCTGGTTGCGGTTATTCCTTTATATTTATTTTTTTCTACATTAATTGCGTGTTTTTTCACACTGGTATTAGCTGGATTATTACACTTACGCGTTCGAAAGGAGTATAGCAGCGATCAACTTCTTCAAAACGAATTGAGATATATCATTAATGAAGATGGTATAAATTCTAAAGTAAGGAGGTCAAACACTTATTTTGAATGGAATGATTTTATAGCAGTACTGGAACACGATGATATGTTTAGGTTATATACATCTAACAATAAAGCCCTTGTTATACCCAAGCGTTACTTTTCCACAGAAGAAGATATCATCTTTTTAAAAAAACTAGTTACTAGAAATATGGATTCAACAAAGGTAAAAATCCATTAA	MVPNEKEVLAKGNLTFEDYKKHNLHHHKKMMIGYFIFVFLVGLWLSSLFITGGLVAVIPLYLFFSTLIACFFTLVLAGLLHLRVRKEYSSDQLLQNELRYIINEDGINSKVRRSNTYFEWNDFIAVLEHDDMFRLYTSNNKALVIPKRYFSTEEDIIFLKKLVTRNMDSTKVKIH				NA	NA	NA	NA	NA
AK012_03799	363			hypothetical protein	ATGAAAGCAATATATGTTGCAAGCCTGCTAGGCGTTTTAATCGGATTGTTTATGGATTGGTTCTCATTAGCGTTCTGGTCGTGGAGTGGTTTACACCATTGGACCGGATCATTAATTGGGATCACAACTGCTATTACCCTTACTATTTTTTTAATAATTCCCAGCCAAACTTTTATACGTTTCTTGACTATCTTAATTCCTTTATTTGTTATCCTGCAATGGGTTATGATGAGCCCCTGGTTTCCTGGTAATGAGGGAGGCAACCTAAACACTGCTATAGGAATGACTAAAAGCGGATTTTACTTCACATTACTAAGTGCTCTTATCGCGGTTGCTTCTTATATTCGTTATAGAAAGAAGTAG	MKAIYVASLLGVLIGLFMDWFSLAFWSWSGLHHWTGSLIGITTAITLTIFLIIPSQTFIRFLTILIPLFVILQWVMMSPWFPGNEGGNLNTAIGMTKSGFYFTLLSALIAVASYIRYRKK				NA	NA	NA	NA	NA
AK012_03800	282			hypothetical protein	GTGCCAAAATCAGTTTTAGGAAAGTTATGCTTGTTAATGTTGGTTATATTTTTTATCCAGATTGTTTTGTTTGTGAGCATGATGTCTATTAACTTTTTCGGAGCTATGGTTCAATTCATTAAATTCACTCCATATACAAGTATAGTTGGCATCATACTTGGGTTAACGAGTTTAAATAAAGAAAGGGAAAAGAGAATAGTACCTCTTATAACACTTATTATTGGTATAATATTCCTTTTGATATTTCTTCTCTTCTTATTCGGTTTTTCCTTTGGTGGGTAA	MPKSVLGKLCLLMLVIFFIQIVLFVSMMSINFFGAMVQFIKFTPYTSIVGIILGLTSLNKEREKRIVPLITLIIGIIFLLIFLLFLFGFSFGG				NA	NA	NA	NA	NA
AK012_03801	789			hypothetical protein	ATGGATTTAATGAAACAGATAGAAGAGCTTGATTTTGCACTTTTACAGTCCTTTTCAAATAAACAAGATCAACCGTGGGGAGTTCTGTTTTGGAACCAGGACCAACCAGAATATTATGATGCAAACCATGCTCATTTAAGTGATCAACCTGATGACCCCGAAAAAGTTATCTATGAGGTTACTTCATTTTATAAAGCCATGAATATTATTCCTAGGTTTTATTTATATGGACTTGAGTCAAAGTCAAGCTTTATTGCGCTATTAAGAGAGAAAGGTTTTCAGTATGAAGAGTTTCCACAGCCGATTCAGCTATGGAATAAAGAAGTAATACAGTTACCATGCAATAAAAATGTAACAATAGAGAAAGTAGACTTTAAGAATTATAATGATGTCTTATGGGTAGAGTGTCAGATCAATGAATTTGGAGGAAGAGTAGTTCGTGAAAAGGCGTTAGAATCTGAGTTTAACGATAAGCGTTTTAGTCATTACCTTTTAAAGTATAAAGGGATACCATGTTCTACAATATGCTTGTTTGTTTATGCTAATCAAGGGAGAGTAGAGAGTGTCGCGACAATTGAAGAATATAGAGGAAAAGGATTAATCGGCTTTTTGTTACAACACGTGCAAAGTGAATCTCAAAATTTGCGGCTAGAAAAACTATGGGTTCACCCGATTAGTGAACAAGTTGAGAAAGTTTATAGTCGCTATGGTTTTAGTACCATACTTACACTACAAACCGGTCATGCTTATTTAGGTCGAAAAGGGATTAGAGAGATACAAGGGCGATGA	MDLMKQIEELDFALLQSFSNKQDQPWGVLFWNQDQPEYYDANHAHLSDQPDDPEKVIYEVTSFYKAMNIIPRFYLYGLESKSSFIALLREKGFQYEEFPQPIQLWNKEVIQLPCNKNVTIEKVDFKNYNDVLWVECQINEFGGRVVREKALESEFNDKRFSHYLLKYKGIPCSTICLFVYANQGRVESVATIEEYRGKGLIGFLLQHVQSESQNLRLEKLWVHPISEQVEKVYSRYGFSTILTLQTGHAYLGRKGIREIQGR				NA	NA	NA	NA	NA
AK012_03802	144			hypothetical protein	ATGAAGCATGTTTTGCAATTTACGATGGGGTATTTGGGGTATTTTCTAGTAGGATTCATGGCTTTAAAGGCTATGGTAATACAAGATGACAATGTGGGATTTGCTATCTCAATCGTTGGATTACTTTTACTTGTGACTATATAG	MKHVLQFTMGYLGYFLVGFMALKAMVIQDDNVGFAISIVGLLLLVTI				NA	NA	NA	NA	NA
AK012_03803	378			hypothetical protein	TTGAAAAAAAAGACATTGGCGCGGATATTAATATTCATTATAGCTGGATTACTTTTTATTTTTTCGATTGACTTACCAGTGTTAGGCTTTAAAAAGTTAGAGTATATAAAGGAAACCTCTGCTTATCGAGTTATTAGTTATAACTGGTATGGGAAGGAAATCAATGAACAACCTTTTAAAGGTGCCCCTTCAGAAATGCTTGATATTTTTCAGAAGCAGGATAGATTACAAAAATTACAGGGCTCCATAGTTGTTTTTGCACTTTTAACCTTAGCTGCTTGGATATTCAAGGAAAAGAAAGTTTATCTATATGGGAGCGCCCTAACCTTCTTTATATTAATTTTTATCGATGTAACTCTGGTCCATATGTATAATTAA	MKKKTLARILIFIIAGLLFIFSIDLPVLGFKKLEYIKETSAYRVISYNWYGKEINEQPFKGAPSEMLDIFQKQDRLQKLQGSIVVFALLTLAAWIFKEKKVYLYGSALTFFILIFIDVTLVHMYN				NA	NA	NA	NA	NA
AK012_03804	453	bltD	COG0454	Spermine/spermidine acetyltransferase	TTGAGTATGGGTAATATACATTTCAAAGACATCGATGATACTAACGAATACATAGTTAGAAATATAAAATTGAAATCTGGACAAGAGAAATTTATTGAGACCGTAGATGAATGTTTGAAAGAAGCTGCCACTTACCATCAATGGCATCCAGTAGCTATATATTGTAAAGAAGATATTGTAGGCTTTGCTATGTACGGTTCTTTTGGTCCCAATAAAGAAACCTGGCTTGATAGAATAATGATCGATGAAAAGGATCAAGGCAAGGGTTACGGTAAGCAAGCGATAAAAAGCCTGATTGATATAATTTCTAAAGAATACAAAGTGAACGTTATATATCTAAGTATCACGGAGGACAATAACAAGGCTTTTGAACTATATACAAGTATTGGATTCAAGTATATGAATGAGAGAGACCCGAATAATGGAGAATTATTATTTAAGTACACCTTATAA	MSMGNIHFKDIDDTNEYIVRNIKLKSGQEKFIETVDECLKEAATYHQWHPVAIYCKEDIVGFAMYGSFGPNKETWLDRIMIDEKDQGKGYGKQAIKSLIDIISKEYKVNVIYLSITEDNNKAFELYTSIGFKYMNERDPNNGELLFKYTL	PGPT0007790_1913	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
AK012_03805	258			hypothetical protein	ATGAAATTCCAGGTACCACTAAGGTGCACAGGTGTGGCAACAGTTTTAATAAAACGAACGGAATCAGATGATAAAGTTCTATTACTTAAACGTGATACATCTGTTTTAAGAGATGTCTGGTGTTACATAGGTGGAGGAATCGAAGAAGGGGAAAAAGCCTGGGAAGCTGCTCTCAGAGAAGTTAAAGAAGAAACAGGAATTACAAATCTCCCGCTTTATAGCTCCAATCAATTTGACCAGATCTATTCACCTGAATAG	MKFQVPLRCTGVATVLIKRTESDDKVLLLKRDTSVLRDVWCYIGGGIEEGEKAWEAALREVKEETGITNLPLYSSNQFDQIYSPE	PGPT0007890_182	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007890-nudB|ntpA-K08310	NA	NA
AK012_03806	489	ylaC		RNA polymerase sigma factor YlaC	ATGGTGACACAGCTTGAGGATATTTATCATACATACTTTAAAGATGTATTCTTATATGTGTATCGTTTATCAGGCGATAAGCATATTTCTGAAGATATCACTTCGGAAACTTTTATGAAGGCATTAACATCGTTAGACAGTTTCAAAGGGGAGAGTGATATCCGGGTTTGGTTATGCCAAATTGCCAAAAACAGTTATTACTCTTATTTGCGTAAGAAAAAAAGCTTCGTAGATTTTGAGTCCGTTCCAGAATCAGCTAGTGGAGACAATGTAGAACGAGAAATAACCACTTCAGAAGCGTCTGTGAAGGTACATGAAATGATCCAGAATTTAAAAGAGCCATACAAAAAGGTCTTTACGCTCCGTTTATTTGGAGAACTGTCATTTAAGCAAATTGGCAAATTGTTTGGAAAGAGTGATAACTGGGCTTGTGTTACTTATCACCGCGCTAGGGAAAAGGTTAAAGCGCGATTGGGGGATTATCGATGA	MVTQLEDIYHTYFKDVFLYVYRLSGDKHISEDITSETFMKALTSLDSFKGESDIRVWLCQIAKNSYYSYLRKKKSFVDFESVPESASGDNVEREITTSEASVKVHEMIQNLKEPYKKVFTLRLFGELSFKQIGKLFGKSDNWACVTYHRAREKVKARLGDYR	PGPT0014960_11800	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK012_03807	906			hypothetical protein	ATGAAAATCAGCTGTAATGTGATCAGGGATATACTGCCGTTATATGCCGAGGATATGGCAAGTCAAGATACCAGGGATCTAGTCGAAGACCATACAGCTTCTTGTGAAAACTGCAAAAAACGCCTTGAAGAAATGCGGACTTTTGAAGAACCGCCGGTAGATACCGATATAGCTCCCTTAAGAAACATACAGAATACATTGCGAAGGAAAAAGCTGCAGACGATTATATTTTCAATCTTGGTAACATTGGTTTTTGCAGTGGTTACAATCGCTTATCTGACGACGCCAGCTTACCTCTCTTATAATGAAGATGCGGTTTCAATCATCGAAAAGGATGACGGAACTGTACTATTGAATTTTAGTGAAGAAGTCGCTGGCTTTGATGTAACCGAATATCCAGCAGAAGACAATTCCGGTTATGTCTATGATATAACGACATGGGAAACAATTTGGCACCAGAAAATAAGCAGAAGCAACCTGGAAAACACGGTCTTAAACCCGAATGGGGAAACGGTCTCTTCTATCTATTATTACAATACCGATGGAAGTGAAAATACTTTAATTTATGGTGATCCAATAACAGATGGTTCTAATATGACGTTACCTCGGCTTGTTTTAAGCTACTATTTGTTGTTTGCTGTAGGGTTTTCAATTATTTGTGGAATTGGATGGGTCCTATTCCGTAAGAACGAAAAAATAAGAAATGGACTGGAAAAAATCATTCTATTGCCGATCTCCTACGTGTTTGCTCACTTTCTTATAAAAGGTCTTCACTCTGCCACTTACCTTGCTGGACGAGATTTTTATCTAATATTACTAGTCACCATTTCTTTATATTTTGCGTTGTTAGCTGGAAGGAACATATTAAAAAAATTATCAATGAAGAAGCCGAAGGGGACTTTATAA	MKISCNVIRDILPLYAEDMASQDTRDLVEDHTASCENCKKRLEEMRTFEEPPVDTDIAPLRNIQNTLRRKKLQTIIFSILVTLVFAVVTIAYLTTPAYLSYNEDAVSIIEKDDGTVLLNFSEEVAGFDVTEYPAEDNSGYVYDITTWETIWHQKISRSNLENTVLNPNGETVSSIYYYNTDGSENTLIYGDPITDGSNMTLPRLVLSYYLLFAVGFSIICGIGWVLFRKNEKIRNGLEKIILLPISYVFAHFLIKGLHSATYLAGRDFYLILLVTISLYFALLAGRNILKKLSMKKPKGTL				NA	NA	NA	NA	NA
AK012_03808	375			hypothetical protein	TTGAAACAAAAGAAAAAGATTTTATTTTTTTCTTTGGCGCTTATAGGTATTCTCTTCCTTGTTTTTAATTGGGATTCAATATATTTAAGAACCCAAACACCGATCCTTAATGATGCTGGTGTTTATATAAATGACATCAATAAAGACAGGGAAGAAAGTGAACAAAGCACTGTCGGCAAAGAGGATGTTGAGGTTGTAGTTAGTTATACAGGGAATCATATGTTTTTAACTAAAACTTATGTAAATAATGAATTTGAAAAAGCCTTTCTGACTCAAGCGAGCAAAACTGGATTTTTAGATTGGTCGTATCATACTATTCCTTTTATGCCTGATGCTGAAATAAAAGAAGAAGCATTTGAAAAGTGGAATCTTTAA	MKQKKKILFFSLALIGILFLVFNWDSIYLRTQTPILNDAGVYINDINKDREESEQSTVGKEDVEVVVSYTGNHMFLTKTYVNNEFEKAFLTQASKTGFLDWSYHTIPFMPDAEIKEEAFEKWNL				NA	NA	NA	NA	NA
AK012_03809	762			hypothetical protein	ATGAAGCTAAGCGATTTAGGGGAGCCATTTGCCGTCGGTAATACAGCAAAGGTTTATCTTTTTGAAAACAAAATCATAAAAGTATTCAATGGTAATCTTCCTGAGGCGGAATCGATCAATGAAGCTTATAAGCAAGAGTATGCTTATTCTTGTGGAATTCATGTGCCAAAAGTATTGGATGTTACTAAAATAGACGGCAGACAAGCCGTTTTGATGGAGTATATCCCCGGAAAAACAATAGGGGAACTCATTTCACATAATCCAGAACAAGAGGAACATTACTTGAGTATTTCCGTAGATATACACCAAAGAATTCACCAAATTGAGGGCGATCGTATTGAGCGTATGTCTGCAAAATTAAACCGACAAATCAAAATCGCACCAAAGTTAAAAGAAAACATCAAGGCATTGTTGATTGAAAAGTTAAATTCCATGCCCATGGAGAGTAAGCTTTGTCATGGAGACTATCATATATATAATGTGATCGGATTTAACAGGGAAGCAGCAACAATAGATTGGGTGGATGCAAGTATTGGAAATATCAGGGCTGATGTATGCAGGACTTACCTTTTATATTCTCAGATTTCAGGGGATATGGCGGATACATATTTAAATCTATACTGTAAGAAGAGTGACCTTTCAAAAAGTGAAATCTTAGAATGGGCTCCTATTATTGCTGCAGCCAGACTTTCGGAAGGTGTTTCATCGGAAAGCTCTGACCGACTTCGGAAAATTATCAACCGTCATATTGAAGCTGACTAA	MKLSDLGEPFAVGNTAKVYLFENKIIKVFNGNLPEAESINEAYKQEYAYSCGIHVPKVLDVTKIDGRQAVLMEYIPGKTIGELISHNPEQEEHYLSISVDIHQRIHQIEGDRIERMSAKLNRQIKIAPKLKENIKALLIEKLNSMPMESKLCHGDYHIYNVIGFNREAATIDWVDASIGNIRADVCRTYLLYSQISGDMADTYLNLYCKKSDLSKSEILEWAPIIAAARLSEGVSSESSDRLRKIINRHIEAD				NA	NA	NA	NA	NA
AK012_03810	144			hypothetical protein	ATGATTTATAAGGATGTATACCTCGAAATCGAATCTTCAAATAAGATTGCCGAACTGAATACGATCATTATCAAATTGAGATGGGTGGAATGGCAGGTGTTTTTGGTGTCCGATATGTTTTTCTATTTGTGGGAACCTTACTAG	MIYKDVYLEIESSNKIAELNTIIIKLRWVEWQVFLVSDMFFYLWEPY				NA	NA	NA	NA	NA
AK012_03811	324			hypothetical protein	ATGAACAAAGAATTAATGAAAGGAAGCATTGAAATCCTCCTGCTTTCGATCCTGTGGCAGGAGGACTGTTATGGGTACGAAATGACTAAGAAGCTCAGGACGCTGAGCGAGGGGGCTTACCACATGAATGAGGGAACCTTGTACCCGGCTTTGAAGAGGCTTGAGAAAAGGGAATGTGTGAGGTCGTATTGGAGTACGGAATCCGCCGGCGGGCGGAGGAAGTATTATTCCATTACCAAAACTGGACGCACTGTACTGGCAGGAAAACTTAAGGATTGGAAGCAGATTAATTCATTAATTGATAATACTTTGGGGGATTTTTAA	MNKELMKGSIEILLLSILWQEDCYGYEMTKKLRTLSEGAYHMNEGTLYPALKRLEKRECVRSYWSTESAGGRRKYYSITKTGRTVLAGKLKDWKQINSLIDNTLGDF				NA	NA	NA	NA	NA
AK012_03812	645			hypothetical protein	ATGGATGAGCTTGAGCAGTATGTAAAGAAGATCACCAAGAACCTGCCTGATGAGGAAAAGGAAGAGTTGAGAGAAGAGATGGTGGGACACCTTAGGGATCATGTGAAAGAGCTTCTCATCCAGGGGCATTCAGAAGAGGAAGCTATCCGTCTCGCCATAGACTCATTTGGCGATGAGGGAAAACTGAATCAAGAGTTCAAGAGGTTCTTTTTTCCTACCTATAAGCTGGTTCGTTTCGTGTGGTCCGTTGTGTGGACCGTGGCAGGTCTCAGTTTGATTTCTTACTTTTCCATGGAGTACTATCATCCCGAGTTTGATCATGGGATTGATTTGTACAGCGTTTGGATGACAATGTTTTATATTGCCTCTCTTGCAGGAGCCGGTGAAGTGATGCATCACTCTTTGCAAGGTGAAATCAAATGGAAGTGGATCTTAAATCCTTGGCTGTTCTTTATGATTCCTTCGTTAATGATTAGTGGCCTCCAGACAACGATGCTGTTTACCCAGCCTGAACGGTATCAAGATGGATTGTGGTTGGATTTATACGCCGTAGCCCTTGGGGGATTGGTGTATGTATCAGCAAGGCAGCTGTTTAATGGTCTTTTTTTGGAAGATACCAAAGGGAAAAGAGGCGTAGTCAAGTAA	MDELEQYVKKITKNLPDEEKEELREEMVGHLRDHVKELLIQGHSEEEAIRLAIDSFGDEGKLNQEFKRFFFPTYKLVRFVWSVVWTVAGLSLISYFSMEYYHPEFDHGIDLYSVWMTMFYIASLAGAGEVMHHSLQGEIKWKWILNPWLFFMIPSLMISGLQTTMLFTQPERYQDGLWLDLYAVALGGLVYVSARQLFNGLFLEDTKGKRGVVK				NA	NA	NA	NA	NA
AK012_03813	291			hypothetical protein	ATGGCTATCGTTATAGGGTATATCATTGCATTTTCAGGTGTATTGGCAGCATCTGTAATCAGCCTGGATAAACCACAAAATAAAAAATATATGGTATGGGGCATTGTTCTTATGATACCAATCTCCCCGGCTTTTGCTTTTGCTGCAGGGTTAAGCTGGGCAGTCATCGTAGGAAGTGGTTGGGGAGGAATGATTATGTGGTATATCTTCCCCATTATCTTCATAATCGGACTCGTTATGTTATTGATTGGTATCTTTAAGAAAGAAGAGACAGAGGTAGTGAATAGTTGA	MAIVIGYIIAFSGVLAASVISLDKPQNKKYMVWGIVLMIPISPAFAFAAGLSWAVIVGSGWGGMIMWYIFPIIFIIGLVMLLIGIFKKEETEVVNS				NA	NA	NA	NA	NA
AK012_03814	132			hypothetical protein	TTGAACATTATTGAAACTATCACGGCATTAAGTCTTGTAGAAACGGGACTTATCGGTAGGAAAGATAAGTCTCTTTTTATTGAGAAAGGATTGAGTTTCTTACTGCCATTTGCAATCATTGGAATTATGTAA	MNIIETITALSLVETGLIGRKDKSLFIEKGLSFLLPFAIIGIM				NA	NA	NA	NA	NA
AK012_03815	276			hypothetical protein	ATGAAGAAAACATTATTAGTATTATCGGTTATTGTTAACCTGGTTTACTTGATTCACGTACTTGTTGATTTGGGCATCAAACTGTCTAATGTAATGAATGTTACCTTTGGATTGATATTTGTAGTAAGTATTTCAGGATCAATATATTTTTTAGTACGATCAAGAGAAAATCCGGGCTATCACCCTTACCTGTCACTTACGGTGTTTACATTAAGTATAGCCTCCTTAGGGTGGTTTGCTTTTATAAATTATTTATCATTAATAATGGGCGTGTAA	MKKTLLVLSVIVNLVYLIHVLVDLGIKLSNVMNVTFGLIFVVSISGSIYFLVRSRENPGYHPYLSLTVFTLSIASLGWFAFINYLSLIMGV				NA	NA	NA	NA	NA
AK012_03816	735	kdgR_2	COG1414	Transcriptional regulator KdgR	ATGAGTCAATATGAAGTTTCAACGTTGAAAAAAGGATTGCTCATTCTGAATTTGCTGATGGACAGCGGCGGAATGACAATGAATGAAGTGATGCATCACATGAAGCTCAACAAAACGACGGCCTTCCGCATGCTCTATACGCTCGAACACATGGAATATGTAGAGAAGAACGGTCAAGTGTACCGGGCTTCTTCTAAGCTTGCAGAATTCAAACAAGACCACAACCCTTTAGTGGATTGGGTTTCGGTTTCGCCTCTTTACGAGCTGAGTCAGGAGCTGGGAGAAACCGCCTATATCGGGATACTGGACGGGACAGATGTAGTTACGACTCAGGTAGTCGATGGTACACATGCGATGCGGATCCATTCCGAGGTCGGAGATCGCGACCCTGCGCATGGAAGTGCCCTTGGGAAAGCCATCGTCGCTTTTTTTGACGAGTCGAAACAAAGGAAATTCCTGAAAAAACTGCAGTGGAAGAAGCAAACGGAGAATACATTCGATGATGAACAACTGTTTCTCTATCACCTCAAAGCCATACAAGCTCAAGGCTATGCCGTGGATGATGAAGAAACGGAAGTGGGACTCCGCTGCATCGCTGCTCCTATTTATCGAAATGGAGAAGTGGTGGCTTCCCTGGCATTATCTGGACCGGCTAGTCGAATCCCGAAACGATACGACACTCAGGTCAGTAAAAAGATCAGAGCCTGCAGCGCTCAAATTTCAAAACTATTGTAA	MSQYEVSTLKKGLLILNLLMDSGGMTMNEVMHHMKLNKTTAFRMLYTLEHMEYVEKNGQVYRASSKLAEFKQDHNPLVDWVSVSPLYELSQELGETAYIGILDGTDVVTTQVVDGTHAMRIHSEVGDRDPAHGSALGKAIVAFFDESKQRKFLKKLQWKKQTENTFDDEQLFLYHLKAIQAQGYAVDDEETEVGLRCIAAPIYRNGEVVASLALSGPASRIPKRYDTQVSKKIRACSAQISKLL	PGPT0018213_1446	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
AK012_03817	1188	ydhP_2	COG2814	Inner membrane transport protein YdhP	ATGAGTAAATTATCATCAAAAGCGATGATCGGACTTTTATCCCTGGCTATTAGTGCTTTCGCCATCGGTACAACAGAGTTCGTTATTGTCGGACTCCTTCAAACCGTTGCAGCGGATTTGGATATTTCCGTAACTAAAGCCGGGACTTTGATCTCGGGGTACGCAGCAGCCATTGCGATCGGGACTCCTATTGTTACGACCATGACAGGGAAGCTTCCTAAGAAAGGACTGCTCCTTACTTTCATGTCCGTTTTCATCCTTGGGAATGTCCTATCAGGGCTTTCGGAGACGTATGAGCTACTATTGATATCACGTATTATTACAGCTGTAGCTCATGGTGTGTTTTTCGCCATTGCTGCAACTGTAGCGGCAGAACTTGTGCCCAAAGACAAGCAGGCGTCGGCCATTTCCATTATGTTCACTGGATTGACGGTTGCTACTATTATCGGCGTACCATTCGGGACATTTGTTGGACAAGCGGTTGGTTGGAGAGCCACTTTCTTTTCTGTGGCAGCCCTCGGCCTTATCGGATTAGCCGCCAATCTTTGGGCAGTCGATCGTATGATGCGGTCGAACGAATCTCCTACGCTCGGTGATGTCGGAAGGCTTATATCGAACCCGAGAATTTTACTAGCTCTACTGATGACAGCGTTTGGTTTCGGAGGGACTTTTGCGTTATTTACGTATCTTTCACCAATACTGGAGGAAGTAAGTGGGTTCACCGAAGGGGCTGTATCATGGATGCTTCTCTTATACGGAACAGCCGTGGCGATCGGGAATATCGTCGGTGGTAAAGTAAGCAACAGCCATCCTGTAAAGGCCCTGCGATTTGTATTCTTCATCCAAATCTTCGTGCTTCTTTTACAATTCGTATTGCTGCCGAACCAGGCCTTAAGTTATCTATCCGTCTTTATTCTTGGTTTATTCGCCTTTATGTTGACCCCGGGGGTTCAGTCCTACATTCTCATGCTCGCTGAGAAACTTGTACCAAAAGCGAAGGATGTCGCATCGGCGATGAACATCTCCGCTTTCAATGTAGGAATTGCCGGCGGTTCTGCGATCGGCGGTTTCGTTGTGGAGACGATGAATTACCTTGATACAGCTTGGGTTGGTGCCATTATGGTGGCCATCGCACTTATTCTTGCTGTTATCAACTATCGACTAGATAAAAAACAACAATTATTTTAA	MSKLSSKAMIGLLSLAISAFAIGTTEFVIVGLLQTVAADLDISVTKAGTLISGYAAAIAIGTPIVTTMTGKLPKKGLLLTFMSVFILGNVLSGLSETYELLLISRIITAVAHGVFFAIAATVAAELVPKDKQASAISIMFTGLTVATIIGVPFGTFVGQAVGWRATFFSVAALGLIGLAANLWAVDRMMRSNESPTLGDVGRLISNPRILLALLMTAFGFGGTFALFTYLSPILEEVSGFTEGAVSWMLLLYGTAVAIGNIVGGKVSNSHPVKALRFVFFIQIFVLLLQFVLLPNQALSYLSVFILGLFAFMLTPGVQSYILMLAEKLVPKAKDVASAMNISAFNVGIAGGSAIGGFVVETMNYLDTAWVGAIMVAIALILAVINYRLDKKQQLF	PGPT0028991_2650	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
AK012_03818	459			hypothetical protein	ATGAATACAGAAGAACTGCTGCAACTTGAAAATGAACTGGTGTTCGACCAATTTACAAATGAACAGGCATTAGAGCTTGGGTTGGAACTCATCCAATATGCGAAAGAGAACGGCAAATCTGTCGCGGTCCACATTGAAAGAAATCGTGTCCCACTTTTCACTCACTTAATGGATGGAACATCGGAAGAGAATGTGAAATGGTTATATCGGAAGAAAAAAGTGGTGGACCACTATAACCACAGCACACAATTTATTGCCGCACGCTTTGAAGAAATGGGCACTACACATGATGAAAGTTCCCTGCTTCCTGTTGAGGATTACCAAGCAGTAGGGGGCTCTCTGCCCATTAAAATCAAAAACGCAGGTACGATCGGTTCTGTTACTGTAGCGGGACTTACACCACAAATGGACCATGATTACTGTGTAGAAGGGGTAAAGCGATTCTTGGAAAAAAGGTAA	MNTEELLQLENELVFDQFTNEQALELGLELIQYAKENGKSVAVHIERNRVPLFTHLMDGTSEENVKWLYRKKKVVDHYNHSTQFIAARFEEMGTTHDESSLLPVEDYQAVGGSLPIKIKNAGTIGSVTVAGLTPQMDHDYCVEGVKRFLEKR				NA	NA	NA	NA	NA
AK012_03819	897			hypothetical protein	ATGATGAGCGTAAAACGAACTAAACGATTCAACGTCTACTATACCGCCTACTTGGCTTTAGGAATCATATGGGGGACGAATTTTTTATTCATGAAATGGGCAGCCGTCCATATCACCCCCTCACAAATCGTGTTTCTAAGAGTCGCTGCCGGGTTCATTCCGGTTTTTGTCTATGCTCTATTCAAAAGGCAGCTGAAGTTCAGCCACCTATCGTACATTCACCACTTTTTTGTGATGTCCATGCTTGCAACGGTCATTTATTTTTACTGCTTCGCCAAAGGGACCGCCTTGTTAAACTCAGGGATCGCAGGCGCGCTGAGTGGAGCCATTCCCATTTTTTCCACGATATTAACCTTTTTCGCCTTAAAGGATGAACGTGTAACCCTCAAAAGTGTATTAGGCGTATGCATCGGACTGAGCGGGGTGTTCATCATCGCAAGACCATGGGAAAGTGGAACCGCCTCCCTTGATCCAGCAGGAATCTTTTATATGCTGGCCGGGTCCCTGAGCGTTGGAGCCTCTTTCGTTTATGCTAAGAAATTCCTTTCCAGTACGACCATTGCTCCTGCTGCATTAACCAGTTATCAGGTTCTGTCTGCCATCCTCTTCCTTTGGATTTTTGGAGATCTTGAAGGATTAGGCCGTATCCAATCAGATACAGCAGCGTTGGCTGGAGTCGTCATCGGTCTTGGAATAATCGGGACGGGGCTTGCTTACATCCTCTACTACATCATCGTCAATAAGCTGGGCGCTGTGACAGCTTCTACGGTTACATATATTCCTCCTGTAGTCTCACTGCTTATAGGAGCTTTTCTTGCCGGTGAAGTGATTCTGCTCAGCGACTGGATGGCCATGTCCATTATTTTAGCAGGCGTCATGGTGATGAATAGGAAATAA	MMSVKRTKRFNVYYTAYLALGIIWGTNFLFMKWAAVHITPSQIVFLRVAAGFIPVFVYALFKRQLKFSHLSYIHHFFVMSMLATVIYFYCFAKGTALLNSGIAGALSGAIPIFSTILTFFALKDERVTLKSVLGVCIGLSGVFIIARPWESGTASLDPAGIFYMLAGSLSVGASFVYAKKFLSSTTIAPAALTSYQVLSAILFLWIFGDLEGLGRIQSDTAALAGVVIGLGIIGTGLAYILYYIIVNKLGAVTASTVTYIPPVVSLLIGAFLAGEVILLSDWMAMSIILAGVMVMNRK				NA	NA	NA	NA	NA
AK012_03820	195			hypothetical protein	ATGGAAGTTCCTCAGCTTGTAGAGAAACCCCTGTTTCTTTACAAGCTTTTTTCTTTCTTACCGCGAGGAGCGAAAACCCCTTCCCTTTCCGCGGACGAGCGTCCGAGCTTCCTCGCAAAACCCACGCTCGGCGATCTCGGACCACTCGTTCTTCCGCAGGAGTGGAAGGGGCACCGCTCCTTGGGGATTCTTTAA	MEVPQLVEKPLFLYKLFSFLPRGAKTPSLSADERPSFLAKPTLGDLGPLVLPQEWKGHRSLGIL				NA	NA	NA	NA	NA
AK012_03821	1344			hypothetical protein	ATGAAACAACAGGAGCAGTGGACATCCAAGATCGGATTTATATTAGCTGCCGCCGGATCCGCCATCGGACTCGGCGCCATCTGGAAATTCCCTTATATCGCCGGCCAGAACGGAGGCGGAGCATTCTTTCTATTATTCATTATCTTTACATTGTTTCTCGGATTACCTCTGCTGTTAGCAGAGTTCTCCATCGGACGCACCGCTCAGAAAAACGCGGTGGAATCCTATAAAACCATTTCACCAGGTACAAAATGGCACTGGATCGGCATCATGGGGATGATTACGTCCTTCCTGCTTTTATCGTTTTACAGCGTCATCGGCGGCTGGATTGTCGCCTACCTGCATAAAACGCTGACCGGGCAGCTGGCCTCTGTGGATGCCTCGTCCTACGCGGATCTGTTCGGAAGCACGATTTCCCATCCGTTCGGGAGTGTACTTGTCCAGCTTATTTTCATGGTCATGACCATTCTTGTTGTCTCCCGGGGTGTCCAGCAGGGCATTGAAAAAGCCAGTAAAATCATGATGCCGGCTTTATTTGTTTTGTTTATCCTGCTTGTCATCCGGGCCGTCTCTCTTGACGGAGCGATGGAAGGCATCACCTTTCTGTTGATGCCTGACTTTACAAAAGTAACGTCACAGACGATTTTAGAAGCGATGGGACAGTCCTTCTTCACCTTGAGTGTCGGGGTTTCCGTTATGGTGACGTACAGTTCATACCTGCCCAAAACCGAGAACCTCCCCCGCGCTGCCTTATCCATCGGCGGCATGAACATTTTCATCGTTCTGCTTGCGGGACTGGCCATTTTTCCAGCTGTATTTGCGTTTGACCTTCAGGCGGATGCCGGACCTGTCTTGTTATTCCAGGTGCTTCCGACTGTATTCAGCCAGCTGCCGGGCGGCATGATTTTCTTTGCCGGGTTCCTGCTGCTGTTCCTGTTCGCCACGTTGACCTCTGCCTTTTCCATGCTTGAGATCATCGTATCGGTGCTCTCGAAAGGCGACAAAGCAAAGAGGAAGAAATGGGCATGGATCACCGGACTGGCTATCTTCGCTGTCGGCATCCCTTCGACATTGTCCTACGGCGTTCTGGCAGACGCCACCGTGTTCGGCCGGACCTTCTTCGACAACATGGATTACGTTGTCAGCAACATCCTGTTCCCGATCGGTTCGCTGCTGATTGCCTTGTATGTACCGAACAAAATGAAAAAGTCAGCGCTGTATGAAGAGCTCCAAAGCGGCAGCCGGATGAAAAAAGGATTGTTCCATACATGGTTCATCCTGCTTCGGTATGTAGCCCCGCTTCTGATTATCATCGTCATGCTCGATGTGCTTGACGTATTTTAA	MKQQEQWTSKIGFILAAAGSAIGLGAIWKFPYIAGQNGGGAFFLLFIIFTLFLGLPLLLAEFSIGRTAQKNAVESYKTISPGTKWHWIGIMGMITSFLLLSFYSVIGGWIVAYLHKTLTGQLASVDASSYADLFGSTISHPFGSVLVQLIFMVMTILVVSRGVQQGIEKASKIMMPALFVLFILLVIRAVSLDGAMEGITFLLMPDFTKVTSQTILEAMGQSFFTLSVGVSVMVTYSSYLPKTENLPRAALSIGGMNIFIVLLAGLAIFPAVFAFDLQADAGPVLLFQVLPTVFSQLPGGMIFFAGFLLLFLFATLTSAFSMLEIIVSVLSKGDKAKRKKWAWITGLAIFAVGIPSTLSYGVLADATVFGRTFFDNMDYVVSNILFPIGSLLIALYVPNKMKKSALYEELQSGSRMKKGLFHTWFILLRYVAPLLIIIVMLDVLDVF	PGPT0013950_2457	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-SODIUM_TRANSPORT,PGPT0013950-TC_NSS-K03308	NA	NA
AK012_03823	255			hypothetical protein	ATGACGACAGGTGCTGTCATTGTTTTTGCTGCCGCGCTCATTCTGGCCGCGGTCGGATGGAAGAAATGGAAGTCCTTGAAGTACGGGCGTCCGGTTATTTTGACGCTGTTATTTGCTGCCTTCGGCATCGGCGGGGCCCTCCTGCTTATGCTCTACCTAGGATCCTCCGGTGTTCCCGGCGCGCTGGTCATCACGATTGCTTTGTTTGCCATTGTGGTGCTGGGTGCCAGTGAATACTTAAGCAGACGTACGTAG	MTTGAVIVFAAALILAAVGWKKWKSLKYGRPVILTLLFAAFGIGGALLLMLYLGSSGVPGALVITIALFAIVVLGASEYLSRRT				NA	NA	NA	NA	NA
AK012_03824	903			hypothetical protein	TTGATCTGGTTTCAGGCTTTTATCCACCTTGTACTGCCCGTTCTATTGTTTGTCCATTTGTTGAGAACAGCGTATTCGAAACGTACATACCTCTTGATAGACTGGGCTGCGGTTCTCATGTTCATGGCATTTATTTTTGTCATCGGGCCGTGGCACATGTTTACCCACTACATGCGCTGGCTTCTGCCTCTCAGCTTTCTCATAGTAAGCGTTTTTGTCTACAGGCGTTGGCGCAGTCTGCCTGAGAAATCGGAAAAGAATAGGAAAGGGGCTGTATTTTCCATGGTCATCAGCCTTCTTCTTATCCTTTATTTTGGATCCATTGCGGTCTCCGGACTGTCGGGATACGCCCTGTCGGACGAAGACAAGGCCGTCGACATGGAATTTCCAATGAAGCACGGGGTCTACGCATTGGGTCACGGGGGAGCCAGTACGTCGATCAACTATCACTATGAATCCAAGACACAGGCCTATGCTTATGACATTCTTAAAGTCAATGCGCTCACTGTCCGTGCTGACGGCTTATCTCCCGCCAGCCTGGAAGACTATGAAATCTACGGTGAGCCGCTGTACAGTCCGTGCACAGGTGAAGTGACAGCAGCGGTGGACGAATATGAAGATATTCTCCCGCAGGCGGAGCCGGACAAGGAGCAGCATCCCGCTGGTAACCACGTCATTCTTTCCTGTCAGGGCGTGGACGTTCATATCGCCCACATGAAACCGGGCACAGTCCATGTCCAGGAGGGGGATGCGGTCGAGGCGGGCCATCTCTTAGGAGAAGTGGGAAACACAGGAAATACGACGGAGCCGCACCTTCACATTCATGCAGAAAAAGATGGAGAAGGCGTGCCTCTGACGTTCCATGACCGCTTCCTGAAACGAAACAGCCTCGTATTTCAGTGA	MIWFQAFIHLVLPVLLFVHLLRTAYSKRTYLLIDWAAVLMFMAFIFVIGPWHMFTHYMRWLLPLSFLIVSVFVYRRWRSLPEKSEKNRKGAVFSMVISLLLILYFGSIAVSGLSGYALSDEDKAVDMEFPMKHGVYALGHGGASTSINYHYESKTQAYAYDILKVNALTVRADGLSPASLEDYEIYGEPLYSPCTGEVTAAVDEYEDILPQAEPDKEQHPAGNHVILSCQGVDVHIAHMKPGTVHVQEGDAVEAGHLLGEVGNTGNTTEPHLHIHAEKDGEGVPLTFHDRFLKRNSLVFQ				NA	NA	NA	NA	NA
AK012_03825	540	algU	COG1595	RNA polymerase sigma-H factor	GTGGAACACTCAATGAATACACCGATCGAACATGAAAACAGAGAAGCAATCATCCAGGAACTGATGGAAAACTACGGAACAGCCATCCTCCACCTTGTCTATTCCTACGTCAAGGATGCGGCACTGGCGGAGGATTTAACGCAGGAAATTTTCGTGAAGGGTTATCACCACCTGCATACATACAATGGAACGTCGAAAATGACAACATGGCTGTGGCGGATCGCCATCAATCACTGTAAGGATCACTTGAAAAGCTGGTACAACCGGAAGGTGACCGTCTCCGAGCAGGAAGAGCTTGAACAGACAAAAGATGCTTCCAGTACAGAAGACACGGTCATCCAGAACCATGTCGACCACGAACTGGCCGCAGCGGTGATGGACCTGCCTGAGAAATACAGGGAGGTCATCTATCTTCACTACTACGAAGACTTATCGACAAGAGAGATGGCAGACCTGTTGAAGAAAAATGAAAATACGTTAAAAACACGGTTGAAGCGGGCCAAAGACCTGCTGAAAAAAAGTCTGGGAGGGACGCTTTGA	MEHSMNTPIEHENREAIIQELMENYGTAILHLVYSYVKDAALAEDLTQEIFVKGYHHLHTYNGTSKMTTWLWRIAINHCKDHLKSWYNRKVTVSEQEELEQTKDASSTEDTVIQNHVDHELAAAVMDLPEKYREVIYLHYYEDLSTREMADLLKKNENTLKTRLKRAKDLLKKSLGGTL	PGPT0014960_10326	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014960-rpoE|sigW-K03088	NA	NA
AK012_03826	414			hypothetical protein	ATGGACAAACGATTAAAGAAATTGAAACAGGCACTGGATCATACATCCTTCAAGCCGTTGACCTTCGATCAGGGACATCGGAATGAAGTGATGAAGAAAATAGCCAGACAGGAATGTAGCCCGGAACACATCCGACTGACTATTCTACAGCTCCTCGTACAGGAGGAGACCGGCTATACGCTGGCTGGTAAAATCCGTTCCAGGGGCATTCAAGCCTTTGAAGACGATCAAGGCTCACTGTATACGACGCTCCACACCCTTGAACAGAAGCGGTGCATCCAGTCGGAGTGGAAAGAAGACGGGCGGAAATTTTATCAGCTGACGAGAAAGGGAAGGAAACTGCTTAAGAAATATGAGTCCTCCCCCGACAAACTGCAGGTACTGCGAACACTCGTGGAGGCGGGACAGATATGA	MDKRLKKLKQALDHTSFKPLTFDQGHRNEVMKKIARQECSPEHIRLTILQLLVQEETGYTLAGKIRSRGIQAFEDDQGSLYTTLHTLEQKRCIQSEWKEDGRKFYQLTRKGRKLLKKYESSPDKLQVLRTLVEAGQI				NA	NA	NA	NA	NA
AK012_03827	1293	mrdB		Peptidoglycan glycosyltransferase MrdB	ATGAAATCACGAAGCGATTACCTTCAAACCGTCCAGTCCTTTATTAAAGACAAAGAAACCGGGAATAGGATTGCCTGTGAGTTGAACAGCCATATCCAACAGGAAAAAGAAAGCCTGCTGAACAAGGGATTCAGTCCGGAAGCGGCTGAGGCGGAAGCGGTCCGCCGGATGGGGAGTGCACCGGAAACCGGCCGTCATTTCCAGGCCGTGTACAAGGAGAAAATCGACGGATGGCTGGTCTTTCTTCTTGCTGCGTTGATGGCCTGCGGTTTTCTGACGGCTCTGATCTTCAGCGGAGAAAACGGCTACTCATTCAACGGGAAAGTCTTCTTTACGGCAGCCGGTGTCGTGGCAGCCGGGGCTCTTATGTTTGTTGACTATAGGAAGCTCAGGCCGCTCGGGTGGCTGTTTTACGGGCTGGGTCTGGCAGGAGCCATGTTTCTGACGTGGGGACCGATGTCGATGACCACGCTTATTCTGGGGAGCGTGGGTGTGCAGGTCGGACCCTTTCATGTGACCAGCATCGATTTTATCCCGATGCTTCTCATTGGTCTTGCTGCTATCGGCAGTAACGGACCGATGAAGGTGTGGAAGGGGATCGTGTTGTATGTGCTTCCCGTTTATTTTTTCATGGGAGCTGCGGATCCGAATGCTGCGTTCATTTATACGCTGCTCTTTACGGCCCTGTTCCTCCATAAACGGGTGAACAAAAAAATCCTCTGGTCGTTGGCTTCGTTAGCCATCATCGGAGCTGTGTATGCCGGCTGGTGGTTCTTTGCAGTTGCTGCCAGCTATCAAAAGGATCGGCTGCTGTCGTTTTTATCCCCTGAGAAATTCTCGAATGGGGGCGGTTCTATGTATCTGCGGATGGAGGAAGTCATCAGTCATGCCGCATGGATAGGGGAGAGCTCACAAGCGGAGCCGCTGCCTTCCGGTCACACCGATTTCGTTTTTCTCTCAGTAGTGAATCAGCTGGGCTGGGCCGCTGCCCTTATTCTCCTGACCCTTCTGATTCTTGTGATTGGCCGCCTGTTCTGGATGACAAGGGAGATCAAGGAACCCTTTGGTCAGCTGGTGGTAAGAGGGAGCCTGGTGTTCTATGCTGTTCCAGTCCTTTATCACGTGCTTATGTCGATAGGGGTCCTGCCAACCGCATCCTTCCCGCTTCCATTCCTCAGCTATGGGATGGATGCTACGGTTCTTCATGCGGTTTTATTCGGTCTGGTGCTGAGTGTATACAGGAAGAAACATTCCGCATCCTTTGCTGCCCGGGGAGGGGCGAGGGTTCCATAA	MKSRSDYLQTVQSFIKDKETGNRIACELNSHIQQEKESLLNKGFSPEAAEAEAVRRMGSAPETGRHFQAVYKEKIDGWLVFLLAALMACGFLTALIFSGENGYSFNGKVFFTAAGVVAAGALMFVDYRKLRPLGWLFYGLGLAGAMFLTWGPMSMTTLILGSVGVQVGPFHVTSIDFIPMLLIGLAAIGSNGPMKVWKGIVLYVLPVYFFMGAADPNAAFIYTLLFTALFLHKRVNKKILWSLASLAIIGAVYAGWWFFAVAASYQKDRLLSFLSPEKFSNGGGSMYLRMEEVISHAAWIGESSQAEPLPSGHTDFVFLSVVNQLGWAAALILLTLLILVIGRLFWMTREIKEPFGQLVVRGSLVFYAVPVLYHVLMSIGVLPTASFPLPFLSYGMDATVLHAVLFGLVLSVYRKKHSASFAARGGARVP				NA	NA	NA	NA	NA
AK012_03828	1278	araN	COG1653	putative arabinose-binding protein	ATGGTCAATGTGAAAAAGAGGTTCACACTCGTTCTGTTACTGGTCTTATCTGTGTTTCTTTCTGCGTGCAGCAGCGATGACGAATCCGCTTCTGGAGAAGGAAAGGTGGCATTGGACTTCTGGGTGTTCGGGGCGACGAACTATGAGGCGCTTGCCGAGGAATATGAAAAAGAAAACCCGGATGTCACGATCAACATTAAAAACTCTGAGCTTGGCGATCACCATGACAGCTTGTTTACAGCCATTTCTGCCGGCACAGGCGCACCGGATCTGACGATGATTGAAGTCGATCAGCTGGACCGCTACCGCGAAGCCCAGGACCGTTTCGTAAACTTATATGACTTGGGAGCGGATGAAATCCAGGATCAATACTTAGATTGGAAATGGAAGATGGCAGAAAACGGGGAGGGCGATTTCCTCTTTGGTCTTCCAACCGATATCGGACCTAAAGCGATGTATTTCCATACCGATGTGTTTGAAGAGGCCGGCCTGCCGACCGATCCAGATCAGGTGAGTGAATTGATTTCCTCTCCGGATGCATTTGCAGAAGCTGCGGAGACGGTATTGGATGAAACAGGCAAGCCGATGGTCGACAGCATGGAGATGGCCTTCCGTGCCAACATGGATGCCTTGCAGGTGAGCTATTTCAATCGTGACGGAGAGCTTCTTATCAATGAAGCTGATAATGGAGTGAAAGAAGCTTATGATTATGCGGTGGAACTCCAGAATAAAGGCGTTGTCGGATCCTTTGAAATGTGGACGCCGGAATGGGCGAACGCTCTGAACAAAGGAGAGTTTGCAGTAGAAATGGCGCCCGCCTGGCTGAAAGGCTACATGACGGAAAATGCGCCGGAGGGCGAAGGGAAATGGAAAGTGACGACACTTCCAACTGATTTTGCCGGCAACTGGGGTGGTTCTTACGTCGCCATTCCATCTGAAACGAAAAACAGTGAAGAAGCCTATGCTTTTGCCCAGTGGCTGCTTTCTCCTGAGAATCAGTTGAAGTCCTTCACAGAAAGCGGATTGTTCCCATCTGCTCCTGAAGTGTATGAAATGGAAGAGTTCGTGAACAATTCGGATGAGTATTTCGGTGGACAGAATACAGCGGCTTATTTTGCAGAGGCAGCCAAGGAAATTCCTGAGGTCTATAAAGGACCGAAATACGTGACTGTAAACAATGAAGTGATGACAGCGCTGCGTAATGTACAGGAAGGTGCCGATCCTGAAGAGGAATGGGAAGCGGCAGTCAAACGAATAAAAGATCTTATGAACCGTTAA	MVNVKKRFTLVLLLVLSVFLSACSSDDESASGEGKVALDFWVFGATNYEALAEEYEKENPDVTINIKNSELGDHHDSLFTAISAGTGAPDLTMIEVDQLDRYREAQDRFVNLYDLGADEIQDQYLDWKWKMAENGEGDFLFGLPTDIGPKAMYFHTDVFEEAGLPTDPDQVSELISSPDAFAEAAETVLDETGKPMVDSMEMAFRANMDALQVSYFNRDGELLINEADNGVKEAYDYAVELQNKGVVGSFEMWTPEWANALNKGEFAVEMAPAWLKGYMTENAPEGEGKWKVTTLPTDFAGNWGGSYVAIPSETKNSEEAYAFAQWLLSPENQLKSFTESGLFPSAPEVYEMEEFVNNSDEYFGGQNTAAYFAEAAKEIPEVYKGPKYVTVNNEVMTALRNVQEGADPEEEWEAAVKRIKDLMNR	PGPT0016430_516	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016430-cebE-K10240	NA	NA
AK012_03829	963	lacF_2		Lactose transport system permease protein LacF	GTGGAGAGTGTACAGAAACGTCAGCAAGCATCCAAAGCTGCAGCGAAAACACCGATGTCTGAGAAGAAGAAAGATATGCTGTCCGGTTATTTGTATATCGCACCCTTTTTCATCATATTTGCTATTATCGGTCTCTATCCAGCTGTATTCAGCATCGTTCTCGCCTTCCAGAAGTGGAACGGACTTGGGGCTATGGAATTTGTCGGATTCAGCAATTTCGTTGTTGTCCTTCAGGATCCGCTGTTTTGGAAATCGTTGTACAACACAGTCATCATCGGCTTGATGGGGACGGCTCCTCAGCTGGTTGTCGGCATTATTCTTGCCTATTTTCTTAATATGGCGGTGATCCGCTTTACGAATTTTTTCCGAGTGACGATCTTTATGCCCTACATTACATCGATGGTGGCTGTCGCTTTAGTGTTCGGGGTGTTTTTCAGCAGCAGTGAAACCGCACTTGCCAACTATGTGATCGGTCTGTTCGGTGTGGATCCTGTCAGTTGGAAAACATCGGAATGGGGAGCCAAAATTGCCATTTCCCTCATGGTTTTCTGGAGGTGGGTCGGCTACAATACAATCATTTATTTAGCAGGTCTCCAGAGCATACCGAAGGACTTGTACGAAGCGGCAACGATCGACGGCGCTGGAAAAGTCCAGCAGTTTCTTCACATTACGATTCCATTGCTGAAGCCGTTCATCGTCCTTACGGTATTCATGTCGACCGTCGGGGCGCTGCAGTTGTTTGCTGAACCGGCTGTGTTCCTCGGTTCCTCCGCTTTCAACAGGGATGAGGCAATGACCGTGGTCATGTACCTGTACCGTGATGCATTCAATCTTGGATCTTTCGGAACAGCATCCGCAACGGCGGTTCTGCTGTTGATCATCATCGTGGCCGCCGCTGCAATCAATACGTGGCTCACGTCCGGATTCGGTCGTAAGCAGAAGAGGAGGGCGTTTACCAAATGA	MESVQKRQQASKAAAKTPMSEKKKDMLSGYLYIAPFFIIFAIIGLYPAVFSIVLAFQKWNGLGAMEFVGFSNFVVVLQDPLFWKSLYNTVIIGLMGTAPQLVVGIILAYFLNMAVIRFTNFFRVTIFMPYITSMVAVALVFGVFFSSSETALANYVIGLFGVDPVSWKTSEWGAKIAISLMVFWRWVGYNTIIYLAGLQSIPKDLYEAATIDGAGKVQQFLHITIPLLKPFIVLTVFMSTVGALQLFAEPAVFLGSSAFNRDEAMTVVMYLYRDAFNLGSFGTASATAVLLLIIIVAAAAINTWLTSGFGRKQKRRAFTK	PGPT0016435_482	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016435-cebF-K10241	NA	NA
AK012_03830	834	araQ_2	COG0395	L-arabinose transport system permease protein AraQ	ATGAATAAAATGAAACGTGCTGCGAAAGGGACCCTCCCTGTCTACATCGCTCTGGGGTTTGCGTCGCTCGTCTCGATTTTTCCATTTTACTGGATGTTTGTAATGGCGACTCAGCCGAGTGCTGCCTACAACTCTATTCCACCGACGCTTCTTCCCGGTGATCAGCTTGTAGAGAACTTCATGAAAGTCTTGGATACGATTCCATTCTTCCAGGCCATGTGGAATACCATTGTCCTGTGCTCAACGGTGACACTGGCTGTCCTGTTGATCAGTTCACTGGCAGGCTTTGCCTTTGCGAAGTTTCAGTTTCCAGGGAAGAACTTCTTTTTTATCCTGATTCTTTTAACGATGGTGATTCCGCCGCAGCTCGGCTTGATTCCCCAGTTTTACCTTGTTTCCCAGCTGGGCTGGCTCGATACGCTGTTAGGGGCGGGCGTGCTGTTTTTACTCAATCCGCTCGGCATATTCCTGATGCGGCAGTACATCAGCGAGTCCGTTCCTGATGAGCTGATGGAAGCAGCGAAGCTGGACGGCTGCTCCAACTTCAGGATTTACAGGAGCATCGTGCTGCCGATCATCAAGCCTGCGTTTGCCACGCTCGGCATCATCGTGTTTACGCTCGTGTGGGGTGAATTTTTGTGGCAGTTTACGGTTCTGCGTGATCCGGCTTCCTATACGCTGCAGGTGGCGCTTGCTTCCTTGAATAATGCCTTCCGTGTGGACTTCGGAATGCTTTTGAGTGGTGTCTTCTGGGCGACGGTTCCACTTATTCTCATTTTCCTGATCTTCAATAAATGGTTCATTTCAAGTATTACAGAAGGCTCCATCAAGTAA	MNKMKRAAKGTLPVYIALGFASLVSIFPFYWMFVMATQPSAAYNSIPPTLLPGDQLVENFMKVLDTIPFFQAMWNTIVLCSTVTLAVLLISSLAGFAFAKFQFPGKNFFFILILLTMVIPPQLGLIPQFYLVSQLGWLDTLLGAGVLFLLNPLGIFLMRQYISESVPDELMEAAKLDGCSNFRIYRSIVLPIIKPAFATLGIIVFTLVWGEFLWQFTVLRDPASYTLQVALASLNNAFRVDFGMLLSGVFWATVPLILIFLIFNKWFISSITEGSIK	PGPT0016440_523	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_CARBOHYDRATE_TRANSPORT	PLANT_DERIVED_CELLOBIOSE_TRANSPORT,PGPT0016440-cebG-K10242	NA	NA
AK012_03831	1014	purR_1	COG1609	HTH-type transcriptional repressor PurR	ATGGATTTGACAATACGTGATATCGCAAGAATGGCCGGAGTATCTCCAGCCACGGTTTCCAAAATCATCAACAATTATGGAGGCATCAGTGAATCGACTAGAAAGAAAGTCTATAAAATTATTGAAGATACGAAATATCAGCCGACGTTTTCGGCTAAGTCGCTGGCGACGAAGAAATCAAATTTGATCGGACTCATTTACGCGGGGAAAATCAATGTCGATTTCACCCACCCTTTTTTCAATGAAGTCGTCAATGCTTTCAAAAAAGCGGTCGGATCGCTCGGGTATGACCTCCTGCTTTTCTCAAACGAAAAAATCTACCAGGGAGAAAGCAAGTATCTGGAAAGATGCAAGCACTTCCACGTGGATGGGTGCCTGATCATCGCAGGGGATGAAATTGAAGAGGCGGTCCATGATATTGCGAAAAGTGACATCCCCAGCGTCGGTATTGATTTGAAGCTGGAAGGCCCGCGGTCAAGCTACATCATGACCGACAACGCGAAAGTCGGAGCCAAAGTGGTGGAGCATCTGTACTTGAACCAGGTCCGTAACATCGCCTATATCGGAGGTAAACAGGATTCGCTCGTCTCGAGCATCCGGAACATCGGTTTTATCGATGCGATGAATCAGTTCGGTCTTCCTGTTGAAAAGGACTGGCTCTACTACGGCGACTTTTTCGAAGAAAGCGGCTATGAGGGAATGAAAGAAATTTTGAAGGCCGATCGTCTGCCGGAAGCCGTGTTTGCGGCGTCCGATATGATGGCCCTCGGTGCGCTGAAGGCTATCAAGGAAGAAGGGTTATCCGTTCCTGAGGATATCCAGCTGATCGGGTGTGATGATATTGAAGCGTGCCGGTACAGCGATCCACCGCTGACAACAGTCAAACAGGACAAACAAAAGCTCGGAAAGCTGGCTGCTTTTATGCTGGAGGATTTGATCAAGGACGATCACGACATCCAGGATATGAAAGTAGATCCGGAGCTTGTGCTCAGGGCTTCTACCAAAAACCACTAG	MDLTIRDIARMAGVSPATVSKIINNYGGISESTRKKVYKIIEDTKYQPTFSAKSLATKKSNLIGLIYAGKINVDFTHPFFNEVVNAFKKAVGSLGYDLLLFSNEKIYQGESKYLERCKHFHVDGCLIIAGDEIEEAVHDIAKSDIPSVGIDLKLEGPRSSYIMTDNAKVGAKVVEHLYLNQVRNIAYIGGKQDSLVSSIRNIGFIDAMNQFGLPVEKDWLYYGDFFEESGYEGMKEILKADRLPEAVFAASDMMALGALKAIKEEGLSVPEDIQLIGCDDIEACRYSDPPLTTVKQDKQKLGKLAAFMLEDLIKDDHDIQDMKVDPELVLRASTKNH	PGPT0017992_11628	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
AK012_03832	1347	bglA		Beta-glucosidase	ATGTCAACCATTCAATTTCCTGAACAACTTAAATGGGGCGCGGCCACCGCGTCCTACCAAATCGAAGGGGCAGCGAAGGAAGGAGGAAGAACTCCATCCATCTGGGACGTCTTTGCTCATACCCCCGGCAACGTAAAAAACGGGGATCATGGCGATGATGCCTGCAACAGTTATCATATGTACAAGGAAGACGTGCAGCACTTGAAGGACCTTGGTGTCGATCTTTACCGCTTTTCGATATCATGGTCCAGGGTCCTTCCTGATGGGACGGGAGAGTTAAATGAAGAAGGAGTGGCCTACTACCGCCATTTGATTGACGAACTGCTGGAGAACGGAATCGAGCCGATGATTACCCTTTACCACTGGGATCTTCCCCAGGTGCTCCAGGAAACGGGCGGATGGGAGAACCGCGGCACGACAGACGCGTTCTTATCTTATGCCGAAGCGATGTTTCAGGCGTTCGGTGGACAGGTGAAAAAGTGGCTGACGATCAATGAACCGTGGTGTGCCTCCTTTTTATCCAACTACCTCGGTGTTCATGCCCCGGGAAAAACGAGCCTGCAGGCAGCGGTCGATGTTTCCCACCACCTGCTGCTCGCCCACGGAAAAGCAGTCCAATCATTCCGGAGACTCGTCCCGGACGGGGAAATCGGCTATGCACCGAACGTCGGCTGGCTCGAGCCCTTTACTCCGGATGAAAAAGATGTGGAAGCGTGCCGAAGGGGAATGATGTGGCAGAAGGAATGGTTCATGGACCCTGTGTTCAAAGGTACATACCCGGAGACGCTGAAGGACATATTTGCTGAGCAGAATGCCGTGCTGCGTATGGAAGAAGGAGATCTTGATATCATCTCCCAGCCGATCGATTTTATGGGGATCAACTATTACACAGGGAGCATCGGCCGCTACAAGGAAGATGGAGGCATGTTCCAGGTCGAGGAAATCCCCGTCGACGACCGACGCACAGATATTGACTGGCCGATTTACGCAGAAGGCTTCTATAAAACGTTGAAGGATCTATATGAAACCTACGGGGATGTGCAGCTGTATATCACAGAAAACGGAGCCTGCTACAACCACGGCGTGGAAGAGGATGGAAAGGTGCATGATCAGGAGCGAATCGAATACTTAAAGCAGCACCTGACATCATTGAGCCGGGCGATTGAGGCCGGCGTTCCGATTACAGGGTACATCGTCTGGTCGCTTCTGGATAATTTTGAATGGGCGGAAGGCTATGACAAGCGTTTCGGAATCATCCACGTGAATTTTGATACGTTTGAGCGGACACGGAAAGACAGCTACTACTGGTATAAGGAAACGGTGGGAAACCATAGATTTAATCTATGA	MSTIQFPEQLKWGAATASYQIEGAAKEGGRTPSIWDVFAHTPGNVKNGDHGDDACNSYHMYKEDVQHLKDLGVDLYRFSISWSRVLPDGTGELNEEGVAYYRHLIDELLENGIEPMITLYHWDLPQVLQETGGWENRGTTDAFLSYAEAMFQAFGGQVKKWLTINEPWCASFLSNYLGVHAPGKTSLQAAVDVSHHLLLAHGKAVQSFRRLVPDGEIGYAPNVGWLEPFTPDEKDVEACRRGMMWQKEWFMDPVFKGTYPETLKDIFAEQNAVLRMEEGDLDIISQPIDFMGINYYTGSIGRYKEDGGMFQVEEIPVDDRRTDIDWPIYAEGFYKTLKDLYETYGDVQLYITENGACYNHGVEEDGKVHDQERIEYLKQHLTSLSRAIEAGVPITGYIVWSLLDNFEWAEGYDKRFGIIHVNFDTFERTRKDSYYWYKETVGNHRFNL	PGPT0019165_2188	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-GLYCOSIDASES|GLYCOSYLHYDROLASES	CE-EPS-GLUCOSIDASE,PGPT0019165-bglB-K05350	NA	NA
AK012_03833	321			hypothetical protein	ATGGTCACGGCACATACGTACCCGGCGCAGGATACCACCACGGACACGGGACTTATATCCCGGGGTATGGTTATCACCATGGACATGGCACCTATGTCCCGGGCTACGGGTATCACCACGGGCAGGGAACGTATGGTGGATACGGCTTCGAGCACGGACACAGCAGCTATGCACCCGGATACGGTTACCATTACGGCCAGGGAAATTATTATCCGTGGGGCGGAGTTCATCACAGCCACGGTGGATGGTACCACCCATAATCACTCACAAAAAGGCCCGCAGGGGTCTTTTTTTCTGACCATAAACAGGAAGGTATGGTGA	MVTAHTYPAQDTTTDTGLISRGMVITMDMAPMSRATGITTGRERMVDTASSTDTAAMHPDTVTITAREIIIRGAEFITATVDGTTHNHSQKGPQGSFFLTINRKVW				NA	NA	NA	NA	NA
AK012_03834	351			hypothetical protein	ATGAAAGATCTCAAACCCCATCTTAGAGAATTGGAAGGAGCGCATATCAGTCTGGACGTCAGGTTTTCCGCTGAAAAGCTGGATCAGATCCTTGCAGATGATTTTTGGGAGATTGGCAGTTCCGGAATCATTTATACGAAAAAAGACTGTCTGGAGCTTGGGGTCGTTCTGTCAGAAATGACGCTGCATCATTATGAGATTCAGATTCTGGCAGAGGATACGGTCCTGAGTACATATAAACTCAAGGATACGACGCGGAAGCGGAACACGTGGAGGAGCTCGATCTGGAAGAAAGCCCATGGCAGATGGCAGCTGTATTTCCATCAAGGGACCATCATCCCGGGTCAGTAA	MKDLKPHLRELEGAHISLDVRFSAEKLDQILADDFWEIGSSGIIYTKKDCLELGVVLSEMTLHHYEIQILAEDTVLSTYKLKDTTRKRNTWRSSIWKKAHGRWQLYFHQGTIIPGQ				NA	NA	NA	NA	NA
AK012_03835	366			hypothetical protein	GTGCTTGTTTTTCAACATTCGGTTCCTGAGGCCGGCATTCAAATTCCTAAAGGAACTGTGAACCCGGGGGAAGATCCCCTACATGCTGTTGTAAGGGAAATGGTGGAGGAGACAGGGCTGAATTCCGTCTATGTAGAAAACTTACTGGTGATGGATACGTGGATGAATGAGGACGGAAATCCGCACAAGCGGTATTTTTATCAGCTCCACACCCCGGAGGTGAAAGGCAGCTGGCTGCACGAACCGTCCGGGGGAGGAGAAGAAAAAGGGCTGACCTTCCACTTCTTCTGGATTTCGTCCGTAGAGGAAGTGGATTTGATCAGAGGACATGGGGATGATCTCCATTTAGTCCTGGACGGCCTCTGA	MLVFQHSVPEAGIQIPKGTVNPGEDPLHAVVREMVEETGLNSVYVENLLVMDTWMNEDGNPHKRYFYQLHTPEVKGSWLHEPSGGGEEKGLTFHFFWISSVEEVDLIRGHGDDLHLVLDGL				NA	NA	NA	NA	NA
AK012_03836	390			hypothetical protein	ATGACTGGGTTCTTATACAATAGTACGTTGGCTGGATTATTCGGTTTAGGGATGTATCGGTTTATTCTTTTTGAAGGAACGGCAGCCAAAGAGCATGTGCTTTCGTTTATAATTTGTGCCATCGTTATTCTGGTCACAGCCCTTACAGGAAAGCGTTTTGCAGCCAAAGCATCTGAAAAAGCATCCAATGACTGGTTTTACGTATCTCTTCTGTTTCCATTTCTATGGGGAATAGACGCTTTTCAAGCCATTCAATATGCGTATCCCCCATCATTCAGTGCCATTATCGGATGCGGGCTTGCGACCTCTCTTCTGGTCTCCGCATGCTTCTGGGATAGACCTGTACAATCAAACAGGAAAAAGATTGTCTCAGAGGCCGTCCAGGACTAA	MTGFLYNSTLAGLFGLGMYRFILFEGTAAKEHVLSFIICAIVILVTALTGKRFAAKASEKASNDWFYVSLLFPFLWGIDAFQAIQYAYPPSFSAIIGCGLATSLLVSACFWDRPVQSNRKKIVSEAVQD				NA	NA	NA	NA	NA
AK012_03837	702			hypothetical protein	ATGAAACAGATCATCGCTGTAGGTGGAGGAGGCTTTTCGATGGATCCTGAAAATCCGCTGTTGGATACATACCTGCTTGAGCAGTCTTCGAAAACGAAGCCCCACATCTGTTTCATCCCGACGGCGAGCGGAGATTCCGGAAGCTACATTGCCCGGTTTTATAAATTTTTCGAGGATTACGTGTGCCAGCCGTCCCACCTCTCTCTGTTTCATCCTCCGACAAGGGATTTGGACAGTTTCCTGCTGGAAAAAGACATCCTTTTTGTCGGCGGTGGAAATACGAGGAATATGCTGGCCTTATGGAAAGAGTGGGAGGTGGATGTGATTCTGAAAAAAGCGTGGGATCAGGGCGTCATCCTTGCAGGTGTCAGTGCCGGATCGATCTGCTGGTTTGAGGAAGGCGTCACGGATTCTTTCGGCGGGGAACTGGAACCGCTGCAAGGGCTCGGCTTTCTTCCCGGAAGCCACTGCCCCCATTACGATGGAGAACCGAAAAGAAGACCCGCTTATAAGAAATTAATGACCGAAGGGAAAATCAAGCCCGGACTGGCCGTTGATGACCACGCGGCTGCCCATTATATTGATCACCATCTGCACAGAGTGGTGAGTGCTAAGCCGAATGCGCGGGCTTACCGGCTTTATCATAACCGGGGTATAGAGGAAGAAGAGCTGGAGACGCTTTACTTAGGAGGGGATGAATGA	MKQIIAVGGGGFSMDPENPLLDTYLLEQSSKTKPHICFIPTASGDSGSYIARFYKFFEDYVCQPSHLSLFHPPTRDLDSFLLEKDILFVGGGNTRNMLALWKEWEVDVILKKAWDQGVILAGVSAGSICWFEEGVTDSFGGELEPLQGLGFLPGSHCPHYDGEPKRRPAYKKLMTEGKIKPGLAVDDHAAAHYIDHHLHRVVSAKPNARAYRLYHNRGIEEEELETLYLGGDE				NA	NA	NA	NA	NA
AK012_03838	324			hypothetical protein	ATGAAAACGGTCGATCAACATGCAGGAACCGGGAAGGAACTTTCCTTTGAAGGGTACGAAAAGAAATTCAAGGCACTCGCAGATCAGCTTCGTCTTAAAATCATGTATGAACTGAATCAGAAGGGACAGCTGTGTGTGTGTGATCTGACAGAGCTTGTCGGACTCCCGCAGTCCAAACTGTCCTACCATTTGAAAATCCTTCACGATGCCGGTTTTATTCAGAGGGAAAAGAAGGGGACCTGGAACTATTACCAGTTGAATGACCCGGAAGTCAAAGCAATCTTGTCGCCGGAACTCTGCTGCATCTTTTACCCTGGTCAGTAA	MKTVDQHAGTGKELSFEGYEKKFKALADQLRLKIMYELNQKGQLCVCDLTELVGLPQSKLSYHLKILHDAGFIQREKKGTWNYYQLNDPEVKAILSPELCCIFYPGQ	PGPT0004735_2068	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_ANTIMONY_RESISTANCE	ANTIMONY_RESISTANCE_SYSTEM,PGPT0004735-arsR-K03892	NA	NA
AK012_03839	882		COG0701	Putative two-component membrane permease complex subunit SMU_747c	ATGAATGCTTTTCTCGAGTTTATGAAAACATTCCTCATTTTGTTTGCGGAGTTGACCGCATTGTTCATTCTCATCAGTTTTCTCGTCAGTCTTCTGCAGCAGAAGGTGACAGAGGAGCGGATTAAACGGGTGTTGGAACGACCGAATAAGTGGAGCGGCTATTTGTATGGAACAGTGCTCGGGGCACTGACGCCATTCTGTTCGTGTTCGACGATTCCGATTCTGGCAGGACTGCTTTCTTCTAAAGCCCCGTTTGGGCCTTCGATGTCCTTCTTAGTAGCGTCCCCCCTTTTGAATCCCGTCATCGTCCTTCTGCTGTGGACGCTGCTCGGTTGGGAATTGACATTGTATTATGTTCTGATCGTCGGTGCTTTTTCCATCCTGATTGGAGTGGTATGGGACCTGCTCGGGCTTGAAAAGTTCGTGAAAAATGTAAGGGTCCGGAAAGGGAGCGGGGATGCACAGAAGGATGAGCCGAAATGGAAGGTGGCCCTGCGGGACGCCTGGGGCTTCTTTTACCCTGTCCTGCCGTTCCTTCTACTTGGGGTATTCATCGGAGCGTTCATCCATGATTTCATTCCTCAGGAGATGATCGCCAGGTTTGCAGGTGGAGATCAACCATGGACGATCCCGGTGGCTTCCGTCATTGGTATCCCCATGTACATCCGAGCGGAAGCGATTCTGCCCATTGCTGATGCACTGGTGGGTAAGGGCATGGGGATCGGTGCCATCATCGCATTGGTCATCGGTGGTGCGGGCGCCAGTATTCCCGAGGTGGTTCTGTTGAATAAATTGTTCAAGCCGAAGCTCGTCACGGCTTTTGTTGTCTCCATCCTCGTGGTGGCGGTATCCACAGGGTTTATCGTGCAGACGGTACTTTAA	MNAFLEFMKTFLILFAELTALFILISFLVSLLQQKVTEERIKRVLERPNKWSGYLYGTVLGALTPFCSCSTIPILAGLLSSKAPFGPSMSFLVASPLLNPVIVLLLWTLLGWELTLYYVLIVGAFSILIGVVWDLLGLEKFVKNVRVRKGSGDAQKDEPKWKVALRDAWGFFYPVLPFLLLGVFIGAFIHDFIPQEMIARFAGGDQPWTIPVASVIGIPMYIRAEAILPIADALVGKGMGIGAIIALVIGGAGASIPEVVLLNKLFKPKLVTAFVVSILVVAVSTGFIVQTVL				NA	NA	NA	NA	NA
AK012_03840	150			hypothetical protein	ATGGCTGAGAAAAAGAAAGGCCTTCGCGGGTGGTTTTCCAAGTCGGATAAAAACTGCTGTCATGTAGACATTGAAGAGGTGGAGGAAAAAGAAACAAAGGAAAACGATAGCGAAGAGGGACAGGAGGAAAACCGTCAGGAAAACGCATAG	MAEKKKGLRGWFSKSDKNCCHVDIEEVEEKETKENDSEEGQEENRQENA				NA	NA	NA	NA	NA
AK012_03841	210			hypothetical protein	ATGCTGCATCAATCAGGCGCATTGACCAAGGAATATTTTAAGTCTTATTTAAAGCTCGTGTTAAACAGTGGAGACCTCTCTATCGAACAAGCGCAGGAAATCGTCCTGCAGCGATTGTTCGGCGGTGACAGGTCTGCGTTGGGAGGAGAATCATTGGAAAATTTCCAGACAGCCTGTGAAGAAATAAAGCAGATAAAGCCTTCTTTATAA	MLHQSGALTKEYFKSYLKLVLNSGDLSIEQAQEIVLQRLFGGDRSALGGESLENFQTACEEIKQIKPSL				NA	NA	NA	NA	NA
AK012_03842	546	ydaF_5	COG1670	Putative ribosomal N-acetyltransferase YdaF	ATGTTTACGATGCATGTGGATGATGACGTAGAGCTGTCCATCCTGGAACCAAAACACGCAGATGCCTTGTTTGAGCTGGTGGACAGAAACAGGAGTCATCTCGGGATGTGGCTTTCCTTCCCAAACAAAACGAAGGAAGCGGGCGATTCTGCTGCCTTTATAAGCAGGTCCCTGACAAGGATGGCCGACGGAGGAGGTTTCTGGGCCGGCATCCTGTATAAAGGGGAACTGGCCGGTTCCACTGGATTTCTATACATAGATCAGGAAACGGGAAGAACGGAAATCGGCTACTGGCTTGGAGCTGCCTTTACGGGCAGGGGTCTTGTAACGAAAGCGGTCCGGAAGATGGTCGATTACGCATTTTTTGAGCTCGGTTTAAGAAAAGTGGACATTCAGACGGCCGTAGGAAATGGGAAAAGCAGGGCGGTTCCCGAACGGCTCGGATTCACGAAGGAAGGAGTCCTGCGTGAGTATGAATATTTGAACGGAAGCCATCATGACAGAATTGTTTATGGATTGTTGAAAGAGGAGTGGGGGAAATTATGA	MFTMHVDDDVELSILEPKHADALFELVDRNRSHLGMWLSFPNKTKEAGDSAAFISRSLTRMADGGGFWAGILYKGELAGSTGFLYIDQETGRTEIGYWLGAAFTGRGLVTKAVRKMVDYAFFELGLRKVDIQTAVGNGKSRAVPERLGFTKEGVLREYEYLNGSHHDRIVYGLLKEEWGKL				NA	NA	NA	NA	NA
AK012_03843	207			hypothetical protein	ATGACGAACGATTATAAGCTGAAAAAGATTCTCCGGATGGTCGTATTAGGAATTTGGCTAATGGTCATAACAGCCGGCATTTATCAAATCATTCATCCACATTCATCTTCTCCTTTTCTGTTTCTTTTACCACTTCAAATGGCAGCCTTAGCTGTTTATTGGAGCGTCCAAAGAAAGCAGGAAAGGTCCGGAGGTGATCAGTCATGA	MTNDYKLKKILRMVVLGIWLMVITAGIYQIIHPHSSSPFLFLLPLQMAALAVYWSVQRKQERSGGDQS				NA	NA	NA	NA	NA
AK012_03844	438			hypothetical protein	ATGAGCTATTCCATCAATCCGAAGAGAATCAGGGATACGGTCACATTTCTCTTTCCCCTTCTGTGGTTACTCCTTTCCAGCGCATTCGGTGCAACGATTCAACTGTTCCTGGTGATTCTATTATTCTTGGTCATGGGGAGTTTATTTCGATTTCAAATTGATATTCAGGATCAGCGATTGATTTATACCGTTACTTATCTGAAGAAGCAGGTGTTAAAGAAAGAACTGATACCTGAGCATATCCAAAGGCTTAAATTCTTCCGGACCGGCTGGAAAAAGAAAGCGGCGGCCATTCAAACCTATAAAGGCTTGAACATCCCGTTAGTGGTGATGACAGAGCCGGAGGGGTATGACGAATTACTGGCTTTTGGCAGGAGAAATCAAATCGATGTAGAAAAAACAAAGGACTACATGCTTTTGGAACGGATGGATTCCTAA	MSYSINPKRIRDTVTFLFPLLWLLLSSAFGATIQLFLVILLFLVMGSLFRFQIDIQDQRLIYTVTYLKKQVLKKELIPEHIQRLKFFRTGWKKKAAAIQTYKGLNIPLVVMTEPEGYDELLAFGRRNQIDVEKTKDYMLLERMDS				NA	NA	NA	NA	NA
AK012_03845	468			hypothetical protein	ATGTATCGATCCTTTGTCGTATGTGTTCTTCTTTCCGTTGTTTTCATTTTTTCCGCCCTTGTTTCCTGGTATGAAGGAAGTGCGCTTCTGGATAAATCATGGGAATGGGCTCATTCCGCCCCTTTTTCCCAAATGATTAACGGGGAGGTCATGGGAGAGGAGCAGATTGTCCAGTTGGATTACTTCGTGTATGCCGCTAAGTTCAGGCCGCTGTTTCCGATGCTGATGTTCAGCAGCTTCATTTTACTGGTGTTGGCTGTGGGCTCGATCTTGACGAAAGGCCGGTGGAAAGGGTCGATGGTTTTGCTGGCTTTATTGGGAGTGGGACTGTTTGCTTTCAGTTTTCTCAGCTATGCTTCCTCCACGCTTGGGGGGCAGGTCTTTTTTTACTTCGGGATTGCTGCCGGGATGTTTGCGGTAGGGAGTGCGCTTTCGATGTATGTCCGGTTCGGCCGGAGAACGGTATAA	MYRSFVVCVLLSVVFIFSALVSWYEGSALLDKSWEWAHSAPFSQMINGEVMGEEQIVQLDYFVYAAKFRPLFPMLMFSSFILLVLAVGSILTKGRWKGSMVLLALLGVGLFAFSFLSYASSTLGGQVFFYFGIAAGMFAVGSALSMYVRFGRRTV				NA	NA	NA	NA	NA
AK012_03846	180			hypothetical protein	TTGGGACATCCTATCACAGCGGCGATCTATTTTTCTTTTTCCGTGCTGCTGTTTGTCATTATAGAAATGGCGCAGAGCTTTCCGGGAATGTCATTCCGGTATGATTCCAGCGCTGTGCCCTGGCTTCTTTTTGTGACAGGGCTGTTTTATTTAGGATGGAAGAAGATGAAAGAAGAGTAG	MGHPITAAIYFSFSVLLFVIIEMAQSFPGMSFRYDSSAVPWLLFVTGLFYLGWKKMKEE				NA	NA	NA	NA	NA
AK012_03847	183			hypothetical protein	ATGAAAACCTATGTGATTTTGTTTGTGCTTTTATTAATCACACATACCATGACCCTTGTGAACATTACAATGTTTGATGGTCAATGGAACGGCATGGTTCTGTTTTTCTCCAGCATTCTTTTTCTTATTGGAGCTGTAAGTTTTGGATCAGAATATAGAGGCCGGAAAAAGATTCATACGTAA	MKTYVILFVLLLITHTMTLVNITMFDGQWNGMVLFFSSILFLIGAVSFGSEYRGRKKIHT				NA	NA	NA	NA	NA
AK012_03848	2112			hypothetical protein	ATGATGTTGAAAAGATGGAAGGGAAAGAAGCTGGACCCGTGGCTTTTAGGTTCTGTCATTCTCGTTTCTTTCCTTAACTTCTTCCTGATTTGGGAAGATGAATACGCAAATAATTACTACACGACTGCTGTCGGCAGTATGATGGAAAGTTTTCATAATTTCTTCTACGCGTCGCTGGATTCTGCCGGATCTGTAACCGTGGATAAGCCGCCGGTCACCTTCTGGATTCAGACGATCAGCGCAGAAATCTTTGGCCTTTCCGGTTGGAGTGTCATCCTTCCACAGGCGCTGGCAGGCGTTGGGTCTGTCCTGCTTGTATATTTTCTCGTCAAGCCGAACTTCGGAGCCCTTGCTGCAAGGATAGCTTCATTGGCCATGGCTGTGACTCCGATCGCTGTAGCGGTCAGTCGGACGAACAACATTGACAGTATGCTGGTATTCACACTGCTGGCGGGGACATGGTTCCTGTTCAAAGGGGTGAGAGAGCATAAGCTGTGGAGCATTGTGGCTGCTTTTGCTTTGATCGGCATCGGTTTCAATATGAAAATGCTGCAGGCGTACATGGTGGTCCCGGCCTTTGTTTTATTCGTAGGGGTTGCCATGAAGGCAGGGTGGAAGAAAAAGCTGACAACGCTCGCCGCTTCTTTGTTCGTTCTCCTTTCTATTTCTCTTTCCTGGGCCCTTGTTGTTGACTTGACGCCGGCGGATGAACGGCCGTATATCGGAAGCAGTTCAACCAACTCGGTATTGGAGCTGGCTTTTGGATACAATGGCATGTCACGACTTCTCGGTCAGGATACCGGGGGGGATGGCAGTGGAACGGACCAGGGCGCACTGCCGGCACAGGACGCTTCTGATGCTCAACCTTCCGGACTGACAGATGCTGCGCCGGGAAATCAAGCCACGCCATCCTCAGGCACACAGGAACCTCCACAGGTGGGGACTTCAGGTCAGCCCGCTGGTGCTGCACAGGGTGGAGGCGGAATGTTCGATTTAGGCGATCCGGGTGTCTTACGACTTCTACAGGATAGCCTGGCGGACCAGGCAAGCTGGCTGCTGCCTTTTGCATTTTTCGCCGCTGCCGGGTTGTTAGCCGGGGCTCGATGGAAATCACGTACAGAGAAGCATAATGAGACGATTTTCTGGCTCGCATGGCTTCTTCCGGTCGCAGGATTCTTCAGTGTTGCAGGCTTTTTCCACCATTACTACTTGATTATGCTTGCTCCGCCTCTCGCTGCATTGTTTGGTGCAGGAAGTGTGGAGCTGCTCACCTTGTATAAAGGGGAGGGGTGGAAGTCATGGCTTCTTCCGGCGGCTGTTTTTACCACAGCTGCCACTCAATGGTGGATTCTTCAGCCTTATGAAGAAGAAATCGGTTCGTTCTGGTCCATCCTTATCCTCGGGCTGGGCGTTGTTGTAACGGCCGGGCTCGTCCTTATGAAACAAAATTCACAGCGCATAAAGCAGACAGTGGCTGTCGCGGGTACATTGGTCCTCCTGATCATTCCGACATTCTGGTCTCTGACACCGATTGTGTACGGTGGGAATAGTGCGCTTCCTGAAGCAGGTCCATCTACAGAGATGAGTATGCCGCAGGGGAACGCGCCTCAGGGACAAGGGGATGATGACCGGAGGGTTTCAGCACAAGGTCTTCCAGACGACATGCCGTTGGAAGATGGCCCGGGCAGTGGTACGGCCGCTGAAGGCGGTGATGGTCAAGGAGGAGGAGCCGGACCAGTCACCCAGGACCTTGATGAAAAAACTCTGGAGTATTTACGCGAAAACAATACAGGGGAAACCTACTTGTTTGGAACGGTACAATACACGACAGCAACTCCGTACATCGTCGATGAAAAAGAGTCCGTAATGATTATGGGCGGCTTTTCTGGTAGTGATCCGGTCTATTCTGCAGAGGAACTGGAAGCAGCCGTTGCAGGGGGGGACGTAAGTTACTTTCTGCTCTCTGAATCTCAAAGAGGAGGCTCCAATGAGGAAGTGACCACATGGATTCAGGAAAACGGGACCGCTGTACCTGAGGAAGAATGGCAGAGCACAGCCACAGATGGGTTCACGCAGTTATATAAAGTCACATTAGAAAATGGAGGCGAATAA	MMLKRWKGKKLDPWLLGSVILVSFLNFFLIWEDEYANNYYTTAVGSMMESFHNFFYASLDSAGSVTVDKPPVTFWIQTISAEIFGLSGWSVILPQALAGVGSVLLVYFLVKPNFGALAARIASLAMAVTPIAVAVSRTNNIDSMLVFTLLAGTWFLFKGVREHKLWSIVAAFALIGIGFNMKMLQAYMVVPAFVLFVGVAMKAGWKKKLTTLAASLFVLLSISLSWALVVDLTPADERPYIGSSSTNSVLELAFGYNGMSRLLGQDTGGDGSGTDQGALPAQDASDAQPSGLTDAAPGNQATPSSGTQEPPQVGTSGQPAGAAQGGGGMFDLGDPGVLRLLQDSLADQASWLLPFAFFAAAGLLAGARWKSRTEKHNETIFWLAWLLPVAGFFSVAGFFHHYYLIMLAPPLAALFGAGSVELLTLYKGEGWKSWLLPAAVFTTAATQWWILQPYEEEIGSFWSILILGLGVVVTAGLVLMKQNSQRIKQTVAVAGTLVLLIIPTFWSLTPIVYGGNSALPEAGPSTEMSMPQGNAPQGQGDDDRRVSAQGLPDDMPLEDGPGSGTAAEGGDGQGGGAGPVTQDLDEKTLEYLRENNTGETYLFGTVQYTTATPYIVDEKESVMIMGGFSGSDPVYSAEELEAAVAGGDVSYFLLSESQRGGSNEEVTTWIQENGTAVPEEEWQSTATDGFTQLYKVTLENGGE				NA	NA	NA	NA	NA
AK012_03849	969			putative glycosyltransferase	ATGGGCAGCTATATCATGTATTCCATCATTATCCCGATGTATAACGAAGAAGAAGTCATTGGCATGACGTATGAACGTCTGAAAAAAGTGATGAATGATTTAGATGAGCCGTATGAATTGATATTCGTAAATGACGGAAGCAGGGATGGCACGCTGCCCATGGTTAAAGAGTACAGCGAATGGGATCCCTCTGTGATAGTGCTTGACCTGTCCCGCAACTTCGGTCACCAGGTGGCTATCACAGCCGGAATGGACCATGCAAGAGGAGAGGCGGTCGTCGTTATCGACGCCGACCTCCAGGATCCCCCTGAACGGATCAAGGATATGGTGGAAAAGTGGAAGGAAGGCTATGACGTGGTTTACGCCAAGCGGGCAGAGAGAAAAGGAGAAACCTTCTTTAAAAAGGTGACCGCTTCAATGTATTACCGGCTGCTCCGGTCCCTGACGGATGTGGATATTCCGCTTGATACCGGTGACTTCCGCTTAATTGACAGGAAAGTCTGTGACCAGATGAACCAGCTGCAGGAGAAAAACCGGTTCGTCCGCGGGCTTGTCAGCTGGGTCGGTTTCAAGCAGACAGCGGTGGAATACGACCGTGATGAACGGGAATACGGAGAATCGAAATACCCGCTCGGAAAAATGATCAAGCTCTCCCTGGACGGCATTACCTCCTTTTCCTATAAGCCGCTCAAACTTTCAAGCTACGGCGGAGCGATGGTTTCTATGATTGGATTTCTCTATATGATCTATGTCATCTATCAGCGGTTGTTCACAGAGGCTGCGGTGCCTGGTTGGTCGTCCGTCATCGTTATCCAGCTGTTTTTCTTCGGATTCGTTCTGTTAATGCTCGGCATCATCGGCGAGTATATCGGGCGCATCTATGACGAGTCGAAAGGACGGCCTTCCTATATCGTTCAGGAAACATATGGACGGTCGGTGAAAGCCCATGCGGCTGTCCGTTCGAAGTAA	MGSYIMYSIIIPMYNEEEVIGMTYERLKKVMNDLDEPYELIFVNDGSRDGTLPMVKEYSEWDPSVIVLDLSRNFGHQVAITAGMDHARGEAVVVIDADLQDPPERIKDMVEKWKEGYDVVYAKRAERKGETFFKKVTASMYYRLLRSLTDVDIPLDTGDFRLIDRKVCDQMNQLQEKNRFVRGLVSWVGFKQTAVEYDRDEREYGESKYPLGKMIKLSLDGITSFSYKPLKLSSYGGAMVSMIGFLYMIYVIYQRLFTEAAVPGWSSVIVIQLFFFGFVLLMLGIIGEYIGRIYDESKGRPSYIVQETYGRSVKAHAAVRSK	PGPT0014540_1817	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
AK012_03850	270			hypothetical protein	ATGGCGGCCCAGCTTCTATCCTACAGCTGCGGAGTCGGGAACAGCTATGTATGGAACAGCCGCTTTACTTTTAAAGCGGACGGTGGAATGAAAGCATTCGTCAAGTTCATTGGAGTTAACCTTTTTACACTTTTCATAACGACGGCGCTTTTGACAGGATTCGTCGAAACAGCCGGTCTGCCCGTCCTCCCAGCGAAAGCAGCCGCAACGCTTGGCGGATTATTCATCAATTACGGCCTGACCCGCTGGTGGGTATTTTCATCACATTAA	MAAQLLSYSCGVGNSYVWNSRFTFKADGGMKAFVKFIGVNLFTLFITTALLTGFVETAGLPVLPAKAAATLGGLFINYGLTRWWVFSSH				NA	NA	NA	NA	NA
AK012_03851	888	gtaB_4	COG1210	UTP--glucose-1-phosphate uridylyltransferase	ATGACCATAAAAAAAGCTGTCATCCCGGTGGCAGGATTAGGAACGCGTTTTTTACCGGCTACCAAAGCCCTGCCAAAGGAAATGTTTCCGATCGTTGATAAACCGGCGGTCCAGTACATTGTCGAAGAAGCGGTTCAATCCGGCATTGAAGAAATCCTGTTTGTCACATCCAGAAACAAAGAGGCCATCCTCAATCATTTCGACCGCTCGATTGAACTGGAACAGCATCTGGATGCGAAAGGGAAGTGGCCTGAACTGAGAGAAGTCCAGTCGCTTGCCTCTCTGGCCACTTTCCAGGCAGTGAGACAGACGACACCACTCGGCCTCGGTCATGCGATTCTCTGTGCGGAGAGTTTTGTAGGAGATGAACCGTTTGCTGTTCTGCTCGGTGATGACTTGATGATGTCTGAAAAGCCGGCGATCGCACAGATGATGGCTGTGTATGAAGAAACGCGGCAATCCGTTATCGGTGTCCAGAATGTGAGGCTTGAGCATGTCCATAAATACGGTATTATCCAATACGCTGCCAAGGACAAGAAACGGTACGAGGTATCCGACCTTATCGAGAAACCTCAGCCCCATCAAGCTCCGTCTACACTTGGAATCATGGGCCGTTATGTGCTGACGCCTTCCATCTTCCAGGATCTCCGCAGCATTGAAAAAGGGGAGGGGGGAGAATATCAGCTGACTGATGCCATCAAGAGCCTTCTGCAGCGGGAAAGCGTAGCGGCCTTTCCACTCCTTGGTGATCGGTACGATATCGGTTATAAATTTGGGTATATGCGCGCGCTCATTGAAATGGGAATGAAGCATGAGGATATGCAGGAAGAATACATCCAGCTGTTGGAAGATGTCCTGGAGGCGCAGAAAAGAAGGGTTTTATCTTGA	MTIKKAVIPVAGLGTRFLPATKALPKEMFPIVDKPAVQYIVEEAVQSGIEEILFVTSRNKEAILNHFDRSIELEQHLDAKGKWPELREVQSLASLATFQAVRQTTPLGLGHAILCAESFVGDEPFAVLLGDDLMMSEKPAIAQMMAVYEETRQSVIGVQNVRLEHVHKYGIIQYAAKDKKRYEVSDLIEKPQPHQAPSTLGIMGRYVLTPSIFQDLRSIEKGEGGEYQLTDAIKSLLQRESVAAFPLLGDRYDIGYKFGYMRALIEMGMKHEDMQEEYIQLLEDVLEAQKRRVLS	PGPT0014875_3638	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
AK012_03852	1314			hypothetical protein	ATGGGGAGATTATTAGAAAAGGATGAAGGGGAAATGGTAAAGAAAAAACCACTGATCAAGCGGATTAAATGGCCCGGCTGGGTCGTTCTTCTGTTGATTGCCGGTCTAATAGGAACAGGAATGGCGAAATGGCTGACGCCTGTATCTGGTAAAAGCAGCAGTGCCCCCTACCTCTATTTCCAGGAGGAGACGGAGGAGGCGGATACCTACACGCTCTCCATCAGCACGGCTTCTATGGACGAGAAGGAACAGAACGAGACTGTCCAGGCGTGGACCCGACAGGAAAAAGAAGACTTTCTGGCACAGGTGGAGAAGCATAAGGAAAAACTCGGAGACGGACGCCGCGCCCATTTAACCATTGAGGTTGATGCTCAAAAGGGCCGCGGGGATACATACAGTTTTATTTTCCGCTCCCACACAAGGATAAAAGACGGGCACGCCGACTCACATGTGCGGGTTTTTACAATGAATCAGGAAAATCAACTCGTGAAGCTTACGAAAATGCTGGATAACCCGGAAGCCGTCAAAGGGATCCAGAGCAATGTAAAGAAACAGCTGAAAAAGGAAAACGTTGAGGAAGAAGCGCTTAAAGCTGTAATCAACCGGCCGGATGATTGGAACTGGACCATACAAGACAAGGATCTGACCGCTTATTTCAACCCGGAAGACCTCGGGATGGACAAGGGAGGTTTTGTGCAAGTGGATGTCCCTCTGGAACGGGTGCTTTCCTATACAGACTCCGGAGAAAAAGTGGTCGCCCTCACCTTTGATGATGGCCCCAATCGGAAAGTGACACCGGAAGTTCTGGATATTTTAAAGCAGCACAACGCTAAAGCCACATTTTTTATGATGGGGGAACAGGTGGATAAATATCCCGACCTTGCCAAAAGGGTGGCTGAGGAGGGGCATGAGATCGGTAACCATACCGATCAGCACAAGGATTTAACGAAGATTGGGATGCCGGCCGTCAAGAATGAAATGCAGGCGTCCCGTAAGAAAATTTCAGACGTCACGGGGCAGCAGCCGTCGGTTTTCCGTCCCCCGTACGGTGCTGTGAATGATACCGTGGAGGAAGCGGCCCGCCACTTCGGGTCATCGGTCGTCCTATGGTCCGTGGATTCCCACGACTGGAAAACCAGAGATCCGGAGGCGGTGAACAAAGTGATCGAGGAAGAAGTCGTTCCTGGATCGATTGTGCTGCTTCATGATGTGCATAAGGAAACAGCCGAAGCTCTGCCGACGCTGCTGGACTATTTGGAGAAGGAAGGCTATCAGTTCGTGACGGTGTCCGAGCTGCTTTCTGTCCAAGGATGA	MGRLLEKDEGEMVKKKPLIKRIKWPGWVVLLLIAGLIGTGMAKWLTPVSGKSSSAPYLYFQEETEEADTYTLSISTASMDEKEQNETVQAWTRQEKEDFLAQVEKHKEKLGDGRRAHLTIEVDAQKGRGDTYSFIFRSHTRIKDGHADSHVRVFTMNQENQLVKLTKMLDNPEAVKGIQSNVKKQLKKENVEEEALKAVINRPDDWNWTIQDKDLTAYFNPEDLGMDKGGFVQVDVPLERVLSYTDSGEKVVALTFDDGPNRKVTPEVLDILKQHNAKATFFMMGEQVDKYPDLAKRVAEEGHEIGNHTDQHKDLTKIGMPAVKNEMQASRKKISDVTGQQPSVFRPPYGAVNDTVEEAARHFGSSVVLWSVDSHDWKTRDPEAVNKVIEEEVVPGSIVLLHDVHKETAEALPTLLDYLEKEGYQFVTVSELLSVQG	PGPT0018645_633	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK012_03853	633			hypothetical protein	ATGAAAAAAATTGTGATATTTATGATGCTTGGTCTAATTCTCGCCGCCTGCTCGAATGAAGAAGCAGAACCTGAACAGAAGGAAGCGTCGAAGGATACGCTGGCAGTTAAGCCGGCAAAGTTGTCGGAGCGTGAAGAAACAATCATTTCCCAACTGGGCAGCGGATTCGAACGTTTTTTTACTATAGAGGGGAAAATACCTGAAGGAGAGGGCTTAAAGACTACGATTTATGTGATCGAAGATGGAAGCGAACCGGAAGAACGGTTTTCATCATTCACCGGAGAAGCAGGGGAGGGAATCTATAAAAAAGACCTCTTCAGCTTTCACTTCGGTGAAATGGAAGAACAAACGTCTGTGAGCGTCGGAACGAGGGGTGTCCGGGCAGGAGGGACGATTCAGCTTCCGGACTCGTTAACCGGGTATTCATTTACTGGAATCGAGCAGGCATTCAACATGGAAAAAGGGGTCTCCTATTATCCTGCTTATATGATTGCCGGTAAAGAGGATATGCTGCGGGTGCCGGGAATCGAAGATGCCCGGCAGATGCCGGAGGCTGTAAAAGAGGCGGATTATGCGATCGTATTTCAATTGGAATGGATCGATGATGAAACGTATGAGCCCTCCGGGACGTAA	MKKIVIFMMLGLILAACSNEEAEPEQKEASKDTLAVKPAKLSEREETIISQLGSGFERFFTIEGKIPEGEGLKTTIYVIEDGSEPEERFSSFTGEAGEGIYKKDLFSFHFGEMEEQTSVSVGTRGVRAGGTIQLPDSLTGYSFTGIEQAFNMEKGVSYYPAYMIAGKEDMLRVPGIEDARQMPEAVKEADYAIVFQLEWIDDETYEPSGT				NA	NA	NA	NA	NA
AK012_03854	105			hypothetical protein	ATGTTCTTCCGGATTTTTCACAAACTCGACCGTCCAAAGAAAAACGCCCTGCTCTCCATATCCATCCTTTTACTGATCGTGGGCCTGGTCATCCTTTTCCTGTAA	MFFRIFHKLDRPKKNALLSISILLLIVGLVILFL				NA	NA	NA	NA	NA
AK012_03855	480			hypothetical protein	ATGCAGACGAATGAGGATGCGAAGGTAGAAAGCGTCGATATCGAGCGTGTGCGACAGGCGAAGAAGCGCCAGTTTTTATTCTCCAATCTTTGGACGGTTGGGCTGCTTGGTTTCTATGCGGTTTGTGTGTTCAATCAATGGCCGGCGGTGTATTTCTTAAACCTTGGTACAGTTGTTTTAATAGGCACAGCCATGTACAAGCTTTTCTCGTTATGGAAAGGAGAAGCTTGGGGGTCCAAAGATATAAGAGTCATCGAGGCTTTTGAAAAGGAGCAGATGGGAAGGGAGAAGTGGCGCAGGAATAGAAGGATAGAAATTTCCACACTTATTGCTTTCCCTGTCATCGCCCTTGGATTTTTAGGACTTACTGATTTTGGGCGTCCACCTGCGGATCTCTTTTCCCTCTTTCTCCCTATGGGACTGGTATGGGTATTAATAAACGCTCGAGAAATCGGCAACATCAAAAAGCTGTCCAAGTAA	MQTNEDAKVESVDIERVRQAKKRQFLFSNLWTVGLLGFYAVCVFNQWPAVYFLNLGTVVLIGTAMYKLFSLWKGEAWGSKDIRVIEAFEKEQMGREKWRRNRRIEISTLIAFPVIALGFLGLTDFGRPPADLFSLFLPMGLVWVLINAREIGNIKKLSK				NA	NA	NA	NA	NA
AK012_03856	138			hypothetical protein	ATGATGAAATGGAAAGTCACCACATACGCTTTGACAGGCGGGCTTGTGGGAATGTTTATTGATGGAATCATGCTCGGTGTTTGTGCCGGCTGTCTGGTTTACATCGGCATGGTAGTCGAGAAGCACTTCGATTCATGA	MMKWKVTTYALTGGLVGMFIDGIMLGVCAGCLVYIGMVVEKHFDS				NA	NA	NA	NA	NA
AK012_03857	186			hypothetical protein	ATGACCAAATCCGATAAAGCTTATGATAGGGAGAGGATGAGGCAGAAGGATTTAAAAAGAAACAGCCCCGGCCGGGAACACGGAGGCGGGCTGATGGATTTAGCCGGCGGTCTCGGCTGGAAGGGAACGGCGCTGATTCTTGTCCTTTTGGTTCTGGTCTTCCTTCTTTATTCGATTTTTCGCTGA	MTKSDKAYDRERMRQKDLKRNSPGREHGGGLMDLAGGLGWKGTALILVLLVLVFLLYSIFR				NA	NA	NA	NA	NA
AK012_03858	711			hypothetical protein	ATGAAAAAATGGCTGCTGTATATCCTTGCGGGTATGTTCACCCTTGCTCTGCTTGCTTTTGGCGCTTTCTATATATGGGCGGAGCAGACTTACGAAGCCTCGGGCCAACTATCCGACATTCCGGAGCGGCAGGGAGACTGGTTGATCTTTGAACCGGATGGGGATCCGAAGGCCGGTGTCGTGCTATATCCTGGAGCGAAAGTCGAACCTGAAGCGTACAGCTATATCGGAAACCATCTGCAGGAACAAGGATACCTGACGGCTATCCCGTCCATGAGGTTCAATTTCCCGATCCTTGAAGCACAGAAAGCGGATGCCATATTGGAACGCTATCCCCTTGATGAGTGGTTCATCGGCGGTCACTCTCTCGGCGGTGTGGCCGCTGCCGCTTATGCCGGCGAAAATCAAAAACAGCTGAGCGGCTTGTTTTTCCTGGCTTCCTATCCGTCTGATCAAGATGACTTTTCAGACACCGATTTCCCGGTGCTGTCCATTTATGGAGAAAAGGATGGACTGACTACGCTCTCAGACATTGAGGAAAAGAACTATCTTCTTTCAGATGCTGCTGTCCTCTATGAAATCAAGGGGGGCAACCACGCCCAATTCGGCTGGTACGGGGAACAGAAGGGGGACCATCCAGCGGATATTCCAGTTCAAGCACAGCAGGACATTATTGTCGAAGAGCTCACGACATGGCTTGAAGCATCCTAG	MKKWLLYILAGMFTLALLAFGAFYIWAEQTYEASGQLSDIPERQGDWLIFEPDGDPKAGVVLYPGAKVEPEAYSYIGNHLQEQGYLTAIPSMRFNFPILEAQKADAILERYPLDEWFIGGHSLGGVAAAAYAGENQKQLSGLFFLASYPSDQDDFSDTDFPVLSIYGEKDGLTTLSDIEEKNYLLSDAAVLYEIKGGNHAQFGWYGEQKGDHPADIPVQAQQDIIVEELTTWLEAS				NA	NA	NA	NA	NA
AK012_03859	447			hypothetical protein	TTGTGTGTTTTCTATAATAAAAGGAAGACCTGTCCCAGACAGGTCTTCCTTTCAGCTTGTAGAGAAACCCCTGTTTCCTTACAAGCTTTTTTCTTACCACCAGGAGCGAAACCCCTTCCCTTTCCGCGGACGAGCGCCCGAGCTTCCTCGCAAAACCCACGCTCGGCGATCTCGGCCCACTCGTTCTTCCGCAGGAGTGGAAGGGGCACCGCTCCCTGGGGATTCTTTTTCATATTCCAGCAGGCAGCCCATGCCGTTCTTTTAAATCGGCGAACCTGGGTAGTGCATAATCTCTCTCCTGTCTATTCTAATGTCGGAACGAGAAGCGTTCGGTGGTGGTGCCTGCAGGTGTGCCCAAAGCATGCATCCACCAATAAGCGGAATGTGACCCTTCACACGACAAATGGACATCTTGAACTGGTTAACACAGGCTTTTTCTACAGCTGA	MCVFYNKRKTCPRQVFLSACRETPVSLQAFFLPPGAKPLPFPRTSARASSQNPRSAISAHSFFRRSGRGTAPWGFFFIFQQAAHAVLLNRRTWVVHNLSPVYSNVGTRSVRWWCLQVCPKHASTNKRNVTLHTTNGHLELVNTGFFYS				NA	NA	NA	NA	NA
AK012_03860	1623			hypothetical protein	TTGAATAGATTCATAAACAGGCGGAGGCGGCTATGGAGCATCCTTCTCCTTGTTTCCCTGCTGATCCTCCCTTCTTATGCAGCGGCCGGTACGGAGGACGGGAAGTGGGCGTACACAGCCCTCGGTGACTCCCTGGCCTACGGCATCCAATCGGACGGTTCTGCGGGACTCAGTTATGCAGACTTTCTAGCCGAAGATTTAGAAAACGTCGACAGACTGGAAACGTTCACGAAGGCCTACGCTGTTCCAGGCCTCACCTCAGAAGGGCTGCTCAGTCAAATGAAGACGAACGAGGAAGCCCTGCAGTCAGCTGCTGAAGCCGATTTGATTACGATCAGTATCGGCGCCAACGATTTTTTACAGGTATTCAGTAAAAACCCGGACGAGCTAAAAAACCCGGAAGTCGTTCAATCAATCCTGCAGGAGGTGGGAGACAATTATGGCCAAGTCGTCCGGAAGATTCAAGCCGCCAACCCGGATGCGAAGATCTTTCTTATGGGCTACTACAATTCGTTTCCTGCCTACCCAGAAGAAGACCAGAAGCTGTTCATCCAGTTAATGGAAGCATTGAATGACACCATCCAGGGCGTGGCGTCTGCGCCAGGAAGTGACTATGTCGCAACATTTGACGCCGTAGCTGAGGATTATGATACCTATCTGCCGAATCCGAAAAACGTCCACCCCGGTGAACAAGGGTATGAACGGATATCCGAGGAGTTTTGGAAGGCGGTCAAACCCTATGTCCCTGTGTCGGCAGACAGGATTGCTGGAGCCGACCGGTACGAAACAGCCGTTGAAATCTCTAAACAAGGCTGGGACGCATCCAACACCATCGTCCTTGCCAGAGGAGATCATTTTCCTGATGCCCTGGCAGGTTCTCCACTTGCCTACCACATGGATGCGCCCATTCTTTTGACGAAAGAACGCCTGCCAGCTGAGGTCAAGAAAGAGATCCAACGACTCGGAGCTGAAAAAGCGGTCGTTCTCGGCGGGACAGAAGCCGTCTCCCCTTTCGTTGAAAATCAGTTGAAGGGGCTCGGCCTTACCGTCCAGCGGATTGGCGGAAAAGACCGGTTTGTCACGGCAGCAAATATCGCTGCTGTATTGAACGGGGAACCTGAACAGGCGGTTCTGGCCAATGGCATGGACTTCCCTGATGCTCTGTCCATCGCCTCCTACGCTGCCGAAAAAGGCTATCCGATTTTACTTACAAAGCCGACCCGCCTCCCAGGTGTTACAGCAACAGCTCTCGAGGATGTGGATTCTACGATCGTGGCAGGTGGAACAAGCGTTGTCTCTAAGGAGGTGCTCCGCGCCCTCCCATCAACCGTCCGCTATGGAGGATCGGATCGTTATCAAACCTCAGCCCTGATCGCTAAGGAGTTGAATCCGGCCGACCGGGCATATATCGCCACTGGTTCAGATTTCGCCGACGCTTTGACAGGATCGATTCTTGCTGCGAAGGAAAACAGCACATTCCTGCTTGTTCCTCCCGATCACCTTGATGATTCGATTGCAGAAGCAGCCGAGAAGTTCGGCATCCGTCACTTCACCATTCTAGGCGGCACAGGGGCGGTCGGCCCCTCCGCAGCAGAAAAGCATATGGAAGCAGCACATGAATAA	MNRFINRRRRLWSILLLVSLLILPSYAAAGTEDGKWAYTALGDSLAYGIQSDGSAGLSYADFLAEDLENVDRLETFTKAYAVPGLTSEGLLSQMKTNEEALQSAAEADLITISIGANDFLQVFSKNPDELKNPEVVQSILQEVGDNYGQVVRKIQAANPDAKIFLMGYYNSFPAYPEEDQKLFIQLMEALNDTIQGVASAPGSDYVATFDAVAEDYDTYLPNPKNVHPGEQGYERISEEFWKAVKPYVPVSADRIAGADRYETAVEISKQGWDASNTIVLARGDHFPDALAGSPLAYHMDAPILLTKERLPAEVKKEIQRLGAEKAVVLGGTEAVSPFVENQLKGLGLTVQRIGGKDRFVTAANIAAVLNGEPEQAVLANGMDFPDALSIASYAAEKGYPILLTKPTRLPGVTATALEDVDSTIVAGGTSVVSKEVLRALPSTVRYGGSDRYQTSALIAKELNPADRAYIATGSDFADALTGSILAAKENSTFLLVPPDHLDDSIAEAAEKFGIRHFTILGGTGAVGPSAAEKHMEAAHE				NA	NA	NA	NA	NA
AK012_03861	171			hypothetical protein	ATGATACCAGCACTCCTGATTATCATCATTTCAGTGGCCATTGATTATTTCTGGCTGGATGTGGACAGAAAAAGATGGGGATGGATGAAATCATGGAGCCGCTCCAAGAAAGCGTTGTTCATCTCCGGGTTCCTGCTCGTTTCCATCCTTATCTATACTGGTATGGTCTGA	MIPALLIIIISVAIDYFWLDVDRKRWGWMKSWSRSKKALFISGFLLVSILIYTGMV				NA	NA	NA	NA	NA
AK012_03862	444			hypothetical protein	ATGACTTCTGTTCCTATCCGGTGGATGCTTGTGTTCGTCCTTAGTTTATTGATGACGCTGGGCATCTATTATACGGTGAATTTCAGTTATTTGGATTATAGTGTAACCGACAAAGATCAGCTCGTTATCCATGAAGGATGGAAAGAACCCGGGCCGATCATGAATTCAAACGTTTCCGGTGAAGAGGATGGTTTAAGTAAGCTGGGGACACATATGGAAGCCTTTAACCAGTGGGTGCTCGCGGCAGCGGTTCTCCTCCCGGTTTTCATAGCAACATACGCCGTATTGACGAGTAGGAAAGCCCTCGGCAGACATCCCAGGAAAAAGGGGCTGTTGTGGGTAACCATTGTTGTCCATACGGCTGTCTGTGTGTTTTTTCTCATCCAGTGGATCCGATACGCGGACCTGATCAACAGGACTGTACATAACGTCATGTTCGGATAA	MTSVPIRWMLVFVLSLLMTLGIYYTVNFSYLDYSVTDKDQLVIHEGWKEPGPIMNSNVSGEEDGLSKLGTHMEAFNQWVLAAAVLLPVFIATYAVLTSRKALGRHPRKKGLLWVTIVVHTAVCVFFLIQWIRYADLINRTVHNVMFG				NA	NA	NA	NA	NA
AK012_03863	300			hypothetical protein	ATGCCTGTATGCAGAAATTGTGGAAATGAATGGCCTTGGAAAGATACACAAAGGCTTTCCATACGCAGGGACCGCGGAGCGGTATGCCAGTTCTGCGGCGAGAAACAGTTCCAATCCCGGAAAAGCATGCGCAAAGTTTCGCTTTTTCATCTGCTGCCATTATTGGTTCTGCCGTGTGCCCTTGTGATGGATGTCTCGATTGTTCCCGGGCTGACGCTGCTTTTTACAGCGGAAGCCGTCTTTTTATCCGCTTTTCCATGGATGGTGGAACTGACGAATCAAGAAGAACCGCTTTGGTAA	MPVCRNCGNEWPWKDTQRLSIRRDRGAVCQFCGEKQFQSRKSMRKVSLFHLLPLLVLPCALVMDVSIVPGLTLLFTAEAVFLSAFPWMVELTNQEEPLW				NA	NA	NA	NA	NA
AK012_03864	1416	alsT_5	COG1115	Amino-acid carrier protein AlsT	ATGCTGGAAGTATTAAATCAAATCAACGATGTCCTATGGGGAACACCCAGTCTCATACTCTTATTCGGGACCGGGTTATTTTTAACGGTAATGCTGCGGGGACTGCAGTTCCGAAAACTGTTGTATGCCTTCAAGCTCGCTTTTACAAAAGAAGAAAAAACAGATACAACCGAAAGCGCCGAAGGAGATATCAGTAATTTCAAAACGCTGATGACGGCTTTATCGGCGACGATCGGAAATGGAAACATCGCCGGGGTGGCTACGGCTCTGACACTCGGTGGACCGGGAGCGATCTTCTGGATGTGGATTGTCGGTCTTCTCGGGATGGCTACCAAGTATGCAGAAGCCCTGCTCGCCATGAAATACCGCGTAAAGAATGAGAATGGCGAATACTCCGGCGGTCCGATGTATTACGTGGAAAAGGGGCTCGGGAGTAAGTGGAAGTGGCTCGCTGTCGCTTTTGCCCTGTTCGGTGCTTTTGCTGCGCTCGGAATCGGCAACAGTGTCCAGTCCAACACAATCGCGGATGTAATGGATGAAAGTTTCCACATAAACGGCTGGATTACAGGAACGGTGCTCGTCCTGTTTACCGCCCTGATCATTTTCGGAGGCATTCAAAGGATCAGTACGGTGGCCGGCTTTTTCGTTCCTGTGATGGCATTTCTATACATAGGCGGAGCTCTACTGATTATTACGATGAACTACAATGCCATTATACCGGCATTTGAGATGATCTTTACGTACGCCTTCCAGCCCATCTCTGCTGTCGGAGGGTTTGCTGGTGTCGTCGTGATGGAAGCGGTTCGCAGCGGGGTTTCCAGAGGGATCTTTTCCAACGAAGCGGGTCTTGGTACCGCTGCTCTAATAGCGGGGAATGCCAAGACCGATCATCCCGTGAAGCAGGCGCTTGTAGCGATGACCGGTACGTTTATCGTGACGATCATCGTTTGTACGATGACAGGCCTTGTCCTTCTCATGACCGGATTCTGGGACCCGTCCGGCGGGGATATCTCAGGCGTCCAGCACGCCTCCGGGCTTGATGGCGGCGCGCTTACCAGTGCAGCCTTCGGCCATGCTTTAGGAACAGTCGGAGAATATATCGTCGCTTTTTCCGTCATCTTTTTCGGATTCTCAACGATTGTAGGCTGGTATATGTACGGGGAAAAGTGCTTTGAGTACCTGGCCGGACTGAAGTACATCGTCCCTTACCGTCTCGTTTATGTGGGCGCCACCTTCATGGGTGCTGTCATGCAGCTGGATCTCGTCTGGGCCTTCGCCAACATGGCGAATGCGCTTATGATGATTCCCAACTTAATCGCTCTCCTGCTGCTTTATAAAGTGATTGTCAGTGAGACGGATTCCTTCTTTAACGATTATTTGATGAAACCTCACCACAGCAGCCGAAAAGCAAGCTGA	MLEVLNQINDVLWGTPSLILLFGTGLFLTVMLRGLQFRKLLYAFKLAFTKEEKTDTTESAEGDISNFKTLMTALSATIGNGNIAGVATALTLGGPGAIFWMWIVGLLGMATKYAEALLAMKYRVKNENGEYSGGPMYYVEKGLGSKWKWLAVAFALFGAFAALGIGNSVQSNTIADVMDESFHINGWITGTVLVLFTALIIFGGIQRISTVAGFFVPVMAFLYIGGALLIITMNYNAIIPAFEMIFTYAFQPISAVGGFAGVVVMEAVRSGVSRGIFSNEAGLGTAALIAGNAKTDHPVKQALVAMTGTFIVTIIVCTMTGLVLLMTGFWDPSGGDISGVQHASGLDGGALTSAAFGHALGTVGEYIVAFSVIFFGFSTIVGWYMYGEKCFEYLAGLKYIVPYRLVYVGATFMGAVMQLDLVWAFANMANALMMIPNLIALLLLYKVIVSETDSFFNDYLMKPHHSSRKAS	PGPT0014405_2893	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
AK012_03865	1932	nagE	COG1263	PTS system N-acetylglucosamine-specific EIICBA component	ATGTTGAACTTTTTACAAAGAATCGGAAAGTCTCTCATGTTTCCGATTGCCACGCTTCCGGCGGCTGCGCTGCTCGTCAGGCTCGGTATGGAGGATTTTCTCGATCTTCCATTTATAACAGCCGCAGGGAATGGCATTCTGGGCAACCTTGCCCTTATATTCGCCATCGGCATAGCGATGGGATTATCGAAAGATGGAAGCGGAGCTGCCGCTTTGGCGGGCGCCGTCGGGTATCTGGTTCTTGATAATGGAATCGGTGCCATCAATGAAGATGTTAAGATGGGCGTTTTTGCCGGGGTGATCGCCGGGATTGCGGCCGGCTTGCTTTACAACCGTTACAATGATGTCAAGTTTCCGGAATTTTTATCTTTCTTCGGAGGAAAACGGTTTGTCCCGATCATTACTTCCGCCGTAATGGTTGTCGCTGCTTTTATTCTTGGTTACGTCTGGGTTTATCCCCAGGCGCTGCTGGATTCAACCGCGGACTGGATATTAAACGGTGGAGCCGCTGGAGTTGGAATTTACGGATTCTTAAATCGTCTGTTGATTCCAGTCGGCCTGCACCATGTGATGAATACACTGATCTGGTTTGATTTCGGGACGTTTACTACACAAGGTGGAGAAGTCGTACGCGGTGAGATCAACCGCTTCCTGAACGGCGATCCATCTGCAGGAAGCTTTCTTGCCGGATTCTTCCCTGTGATGATGTTCGGCCTTCCGGCAGCTTGTCTCGCTATGTACGCCGCTGCGAAAAAAGAACGCAAAGCCGCGGTTGGAGGGATGTTCCTGAGTATCGGTCTGACATCGTTCCTTACCGGTGTAACAGAGCCGATCGAATTTTCCTTCATGTTCCTGTCTCCACTGCTTTATGTTGTTCACGCCGCTTTAACAGGGGTATCGATGATTTTGGCGTATCTCTTTGATGTCCGCCACGGGTTTGGATTTTCTGCCGGACTGATCGACTACGTCTTGAATTACAACATTGCACAAAATCCGTTCACACTCGTTCTCATCGGTTTATTTATGGCTGCTGTCTATTTCCTTGTGTTCTACTTCCTGATCATCAAGCTCAACTTGAAAACGCCGGGTCGGGAAGATGAGGAAGAAGTGCAGACAGAAGTGGAAGAGGGTACAGACGAATACGAAGCCAAAGCTTATCATTATATCGAAGCGCTTGGTGGCACGGATAATATTGCAACGCTCGATTATTGTACCACCCGTCTACGCCTTGAAATGAAAGACAGGGACATTGTTGATGAAGCGTCGTTAAAGCGTTCCGGTGCGCGCGGGGTCATGAAGATCGGACGCCGGAACCTGCAGGTCATTGTTGGAACGACGGTGGAGTTTGTAGCGGAAGCGATGAAGAAACAGATGGAGAACCCGGGGATGACGGCTCCAGCTGCTTCAAGGACCGAACAGGAACAAGCACCTGCTTCTCCAGGACGCACATTGAACAAAGAAGCGTTCGCCATGCCGGTCACCGGCCGCATCCTTCCACTTGAAGAAGTCCCGGATCAAGTCTTTGCCGAAGGTATGATGGGACCGGGGCTTGCGGTCGATCCCACGGACGGCACCATCACTTCTCCGGTCAAAGGAAAAGTGATTCAAGTCTTCCCTACGAAGCATGCGGTTGGTCTGGAGACGGACAAAGGTCTTGAACTGCTGATTCATGTCGGCCTGGATACCGTGAAGCTTCAAGGAAAAGGGTTTGAGGCACTCGTGGAGGCCGGTGACCTTGTTGATCTGGGGACACCGTTATTACAGGTGGATATGGATACCGTGAAGCAGGAAGCACCGTCCATCATTACTCCGGTTATTTTCACAAACCTGGAAAATGAAGAGATCCACGTGCTCAAGCATGGACAGGCTGAGCGTGGGGACAAAGAGATTCTGGAAGTCACCAGGAAAAAGGAGGACGAAGGGCATGAATGA	MLNFLQRIGKSLMFPIATLPAAALLVRLGMEDFLDLPFITAAGNGILGNLALIFAIGIAMGLSKDGSGAAALAGAVGYLVLDNGIGAINEDVKMGVFAGVIAGIAAGLLYNRYNDVKFPEFLSFFGGKRFVPIITSAVMVVAAFILGYVWVYPQALLDSTADWILNGGAAGVGIYGFLNRLLIPVGLHHVMNTLIWFDFGTFTTQGGEVVRGEINRFLNGDPSAGSFLAGFFPVMMFGLPAACLAMYAAAKKERKAAVGGMFLSIGLTSFLTGVTEPIEFSFMFLSPLLYVVHAALTGVSMILAYLFDVRHGFGFSAGLIDYVLNYNIAQNPFTLVLIGLFMAAVYFLVFYFLIIKLNLKTPGREDEEEVQTEVEEGTDEYEAKAYHYIEALGGTDNIATLDYCTTRLRLEMKDRDIVDEASLKRSGARGVMKIGRRNLQVIVGTTVEFVAEAMKKQMENPGMTAPAASRTEQEQAPASPGRTLNKEAFAMPVTGRILPLEEVPDQVFAEGMMGPGLAVDPTDGTITSPVKGKVIQVFPTKHAVGLETDKGLELLIHVGLDTVKLQGKGFEALVEAGDLVDLGTPLLQVDMDTVKQEAPSIITPVIFTNLENEEIHVLKHGQAERGDKEILEVTRKKEDEGHE	PGPT0016860_379	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
AK012_03866	1173	nagA	COG1820	N-acetylglucosamine-6-phosphate deacetylase	ATGAATGACATGGTCATTACGAATGTGGACATCGTGTTCACTGACCACACCATCTCATCCGGATCTGTACGGATCCGGGAGGGAAAAATCGCTGAGGTTTCGACCGGGGTGCTGGAAAGCGGTGGAACCGTTGTCGATGGAAAAGGCCGGGTGATGGTGCCGGGGTTCATTGATGTGCACATTCATGGAGCGGCTGGTCATGACGTTATGGATGCTGTGCCGGAAGCCCTTGACGGCATGAGTGCACAGCTCCCGAAAGAAGGGACGACGAGCTTCCTTGCGACGACGATGACCCAGTCACGCGACAACATCACGCAAGCCCTCAGAAATGCCGGGACATTCAAGGAATCCCAGAAAAGTGGAGATGGTGCAGAAATGCTCGGCATCCATTTGGAAGGTCCGTTCATTTCAGAGAAAAAGGCCGGCGCCCAGCATCCGGATCATATCATCAAGCCATCTGTCGACCTGTTCCACGAATGGCAGCAGGAAAGCCGCGGCCACATCAAGCTTGTTACGGTTGCGCCGGAAACGGAAGGGGCTGCTGCTTTTATTGAAGAAGTGAGCCGGACAGGCGTCGTCTGCTCCCTCGGCCACAGCGATGCCCGTTTCGATCAGGTCACTGAAGCCGTGGAAAAAGGCGCGCGCCACATGACGCACTTATACAATCAGATGAGCGGCCTGCATCACCGGGAACCGGGACTTGTTGGAGCAGCCTTCATGAACGACCGTCTCCTTGTAGAAATGATTGTCGATCATATCCATGTCCATCCAGATGCCATTAAACTGGCGTATCAGAATATCGGAAGCGGACGGTCGGTGTTGATCACAGACGCGATGCGCGCCAAATGTCTACCACCGGGGACATATGACCTTGGCGGCCAGGATGTCTTCGTGGAAAACAATGAAGCAAGGCTGGCTGACGGGACGCTTGCCGGAAGCATTCTAACGTTGGAGGAAGCCGCTAAAAAGATGAAACAGCACGCCGGCTTGTCGTGGCAGGAACTGGTCAGCATCACCTCGTGGAATGCTGCCGTCCAGCTGGGTGTCGAAGACCGCAAAGGGAGCATCGAACAAGGAAAGGATGCAGACCTTGTGCTGTTGGATGAACAAGGGAATGTTACCTTGACGATATGCAGGGGAAAGATCAGCTATAACGCAGAGGAGGTGCAGTAA	MNDMVITNVDIVFTDHTISSGSVRIREGKIAEVSTGVLESGGTVVDGKGRVMVPGFIDVHIHGAAGHDVMDAVPEALDGMSAQLPKEGTTSFLATTMTQSRDNITQALRNAGTFKESQKSGDGAEMLGIHLEGPFISEKKAGAQHPDHIIKPSVDLFHEWQQESRGHIKLVTVAPETEGAAAFIEEVSRTGVVCSLGHSDARFDQVTEAVEKGARHMTHLYNQMSGLHHREPGLVGAAFMNDRLLVEMIVDHIHVHPDAIKLAYQNIGSGRSVLITDAMRAKCLPPGTYDLGGQDVFVENNEARLADGTLAGSILTLEEAAKKMKQHAGLSWQELVSITSWNAAVQLGVEDRKGSIEQGKDADLVLLDEQGNVTLTICRGKISYNAEEVQ	PGPT0018860_845	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
AK012_03867	738	nagB	COG0363	Glucosamine-6-phosphate deaminase 1	ATGGAGGTTATCGTTACGAACAACTATGAGGAACTCAGCAGAAAAGCGGCGGAGATCATCGACAGCCAGCTGAAGAAGAATCCAGCTTCTGTCCTCGGCTTAGCGACAGGCAGCACCCCTCTTGGAACGTACAAGGAGCTTGTGAAGAGTTATGAGAAAGGGCAGACCGACTACAGCGGTGTATCTACATTAAATCTGGATGAATATGTCGGTCTGAGTCCGGACCATCATCAAAGCTACCGCTGCTTTATGGACAAACATTTCTTTGACTTGATTAACATTCGGAAGGCGAATACCTACGTTCCTGATGGCAGGGCAGAGGATCTGGCTGAGGAAAGCGGTCGTTATGAACAGATCATTGATGAGATCGGACCGCCAGACCTGCAGCTGCTTGGCATCGGCGAAAACGGACATATCGGATTCAATGAGCCCGGGACGTCATTTGAGAGCGGTACCCATGTGGTTGAATTGACCTCTTCCACCCGACAGGCGAACGCCCGGTTTTTTGATACAATGGAGGAAGTCCCGACTTATGCGGTCACCATGGGGATTCAATCCATTCATAAAAGTAAACGGATCATTCTGCTGGCCTCCGGGAAACACAAAGCTGAAGCGATCCGCCAGCTGATTTACGGAGAGGAAGATGAGCAGTTTCCGGCTTCTTCTTTGAAGGGGCACCCGGATTTGACGCTGATCGTCGACCAGGAGGCCTATGCTTTAGTAAACGAGAAAGGGTGA	MEVIVTNNYEELSRKAAEIIDSQLKKNPASVLGLATGSTPLGTYKELVKSYEKGQTDYSGVSTLNLDEYVGLSPDHHQSYRCFMDKHFFDLINIRKANTYVPDGRAEDLAEESGRYEQIIDEIGPPDLQLLGIGENGHIGFNEPGTSFESGTHVVELTSSTRQANARFFDTMEEVPTYAVTMGIQSIHKSKRIILLASGKHKAEAIRQLIYGEEDEQFPASSLKGHPDLTLIVDQEAYALVNEKG	PGPT0018865_2388	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
AK012_03868	717	nagR_2	COG2188	HTH-type transcriptional repressor NagR	TTGAAAAAGAATCATCCGCTCCCGATGTATTATCAGATCGAAGAATTCTTAAAGCGGGAAATCAGTGAAGGGACATTCCAGGCGGGAGATATGATCCCTTCGGAAAGAGAGTTGTCCGAACGCTTTCAAGTCAGCCGGATGACGGTCAGACAGGCGGTGTCCAACATGGTTAATGACGGCATCCTTTACAGGGAAAAAGGAAGAGGGACGTTCGTCGCAGAAAAAAAGATTGAACAGCCGCTGAAGGGGTTGACCAGTTTTACAGAGGATATGAAGCTCCGCGGCATGACTGCAGCCAGTCGTCTGTTATCGTTTGATGTGATGCAGGCTCCTAAGGATATTGCTTCTAAGCTGAAGCTTGAAGAAGGAGAGGTGTATGCCGTCAAACGCATCCGGTTTGCTGACAGGCAGGCAATGGCCGTCGAAACGTCTTTTCTCCCTGTTTCCATGCTTCCGGACCTTACAGAGGATATCGTGCAGGGATCGGTGTATGAGTATATGGAGCATGTTCTTGATCTTACAATCAGTCATGCCCGTCAGGAGATTGAAGCCCGCGCAGCCGATGAGAATGAAGGCGCTGAACTTCAAATTGAAGCGGGGGCACCAGTCCTCCATATTGAGCGGTGCAGCTATCTTGATAACGGCATTCCGTTCGAAGTCGTCAAATCCACCTACAGGGCGGATCGCTATAAGTTCATCAGTGATATTGTGCGGTAA	MKKNHPLPMYYQIEEFLKREISEGTFQAGDMIPSERELSERFQVSRMTVRQAVSNMVNDGILYREKGRGTFVAEKKIEQPLKGLTSFTEDMKLRGMTAASRLLSFDVMQAPKDIASKLKLEEGEVYAVKRIRFADRQAMAVETSFLPVSMLPDLTEDIVQGSVYEYMEHVLDLTISHARQEIEARAADENEGAELQIEAGAPVLHIERCSYLDNGIPFEVVKSTYRADRYKFISDIVR				NA	NA	NA	NA	NA
AK012_03869	714			hypothetical protein	ATGAGTTACTTATTGGATGTATCCCGGCGTCTTCAGACCTTGGCAGGACGTCAGTCAGAGGCTTTTGCGACCATCAGCTGCCGCTATGCGGAAGCCATCAGCAGGGGCGGCATCATTCATATGTTCGGCTGTGGACATTCCAGCTTGATTGCCCAGGAAGCGTATTACCGTGCCGGCGGCCTTGTTCCGGTTCATCCGATACTTATCGAGCCGCTTATGCTTCATAAGGGCGCCGCGCAGGCCAGTCAGTATGAACGAACCCCCGGGTTTGTCGGACCTTATTTGGAGAAGGAAGACGTACAGCCTGAAGATGCGGTCCTGATCCTGTCCACATCAGGACGGAATCCGGCTCCAGTGGAAGCAGCGGAATTTTTCAGGGAGCGGGGTGTATATACCACAGCTCTGACATCGCTCCGCTATGCCGCCTCGCAGCCTTCCCGGCTGGATTCAGGTAAGCGGCTTGAAGATGCGGCTGAGAACGTCATTGATATGGACGTACCGGTCGGTGACGCGGTCATGAAAGGGAAGGGAACCAGTCATTCCCCCGTGTCGACGGTCCTGGGTACCGCCATCGTCCATGAGCTTTTGACACGGACCATCCATCACTTGGAGGAGAGCGGTATGGACGTACCGGTTTTCAAAAGTGGCAATGTGGATGGATCTGATGAACACAATCAACGAATGATCGATCATTATACGCGTATCCGTTTTTAA	MSYLLDVSRRLQTLAGRQSEAFATISCRYAEAISRGGIIHMFGCGHSSLIAQEAYYRAGGLVPVHPILIEPLMLHKGAAQASQYERTPGFVGPYLEKEDVQPEDAVLILSTSGRNPAPVEAAEFFRERGVYTTALTSLRYAASQPSRLDSGKRLEDAAENVIDMDVPVGDAVMKGKGTSHSPVSTVLGTAIVHELLTRTIHHLEESGMDVPVFKSGNVDGSDEHNQRMIDHYTRIRF				NA	NA	NA	NA	NA
AK012_03870	507	resA_6		Thiol-disulfide oxidoreductase ResA	ATGTTCAAATTGAATGAAAAAGCACCTGATTTCACCCTGCCGAAAATTACCGGCGGTGAATTCTGTTTCTCTGATGATTTGAAAAGCCATGACGAGGATCACTGGCATTTGATTATATTTTTCCGGGGATCCTGGTGCCCGGCCTGCATGAACGAGCTGGATCAGCTCGAAAAGGACCAGGGTTACTTCAACGATAAGAAGATCCACTTGATCACGGTCACCCATGATGAACAAGCCGATCTCGAGAAAATGCAGCAGGAGCACCAATTCAGCTTTCCTGTGCTGAATGATAAGGACTTCCAGTTCCTTAAGGACTACGACGTGCACTTCCATGCGGAAGATGCTCCTTACGAAGACCATGGCACCCACGGTGACCCGGCCTACTTCCTGACTGATGCCGAAGGACGCGTCCTGTACCAGCAGAGGCAGACGAGTCCATTCGGTCGACCGGCACCGACAGAATTAAGGAAGATCATCCAGTATATCCGCAGCAACTTAAAAGGCTGA	MFKLNEKAPDFTLPKITGGEFCFSDDLKSHDEDHWHLIIFFRGSWCPACMNELDQLEKDQGYFNDKKIHLITVTHDEQADLEKMQQEHQFSFPVLNDKDFQFLKDYDVHFHAEDAPYEDHGTHGDPAYFLTDAEGRVLYQQRQTSPFGRPAPTELRKIIQYIRSNLKG				NA	NA	NA	NA	NA
AK012_03871	633	rosB		8-demethyl-8-aminoriboflavin-5'-phosphate synthase	ATGGCAGAACTGAAAGCGTTGATGTTGAACTGCAGCTTAAAGAAAACATCGGATGAAATATCCCATACCGAAGCACTCGGAAGGGAGGTGCTCGATCTCCTGGAAACCGAAGGGGTACATACGGAAACGGTCCGTCTGGCGGATTATCATATCCCGAATGGTGTGGCCGGGGACCTCGGCGGAGGGGATCAGTGGCCGGAGATCTTTGAAAAGGTCAAAGAAGCGGACATCCTTCTGATCGGTACACCGCTCTGGCTCGGAGAAAAAAGCAGCATCGCAAGTGTTGCTATGGAACGTCTGTATGGAAGCAGCAGTGAAACGAATGAGAAGGGACAGGCGGTCTACTACAACAAAGTCGGGGGCGTCGTCATCACCGGAAACGAAGATGGAGCGAAGCACGCCGCTGCCTCGATTATTTACGGCCTGTCCCATATCGGTTTCGTCATTCCGCCGAATGTGGATGCCTACTGGGTCGGAGAAGCCGGTCCCGGTGCGTCTTATCTGGATGAAGGCGGAGGGCAGGAGAATGAGTTTACGAAAGGTCATGTGAAGATGCTTGCCTACAATACGCTGCATCTGGCCCGAATGTTCAAGGAGAACCCTATCCCCGCTGTTGGAAATAAGACCGAGTAA	MAELKALMLNCSLKKTSDEISHTEALGREVLDLLETEGVHTETVRLADYHIPNGVAGDLGGGDQWPEIFEKVKEADILLIGTPLWLGEKSSIASVAMERLYGSSSETNEKGQAVYYNKVGGVVITGNEDGAKHAAASIIYGLSHIGFVIPPNVDAYWVGEAGPGASYLDEGGGQENEFTKGHVKMLAYNTLHLARMFKENPIPAVGNKTE	PGPT0004370_3	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_MANGANESE_RESISTANCE	MANGANESE_RESISTANCE-MNT_TRANSPORT_SYSTEM,PGPT0004370-mntH-K03322	NA	NA
AK012_03872	1251	egtB		Hercynine oxygenase	ATGGAAACGACCCATCAAAGTGTATGGAGTGTCTATACAGAAACGAGAACATTTACGGAAAAGCTGGTGGAAACGTTACAGACAGAAGACTTCGTCGTGCAGGCGGCCAAACATGTGAGTCCGACGAAATGGCACCTGGCGCATACGACGTGGTTTTTTGAGAAATTCATTCTGGAAGCCTACATCCCTGATTACCGGCATTATAACGAGGAGTTCTTATTCCTCTTCAATTCCTACTATGAAACCGTCGGGGAATTCCATCCGCAGGAGAGGCGTGGTTTGATTACCCGCCCGACAGTGGAGGAAACGATGGATTACCGCCGTCATGTCGATCAGGAAATGAGTCGTCTGCTTGCTGAACGTGTCGGTGACGCCGATATTGACGGGCTTGTGGAAATTGGTCTGCAGCATGAGCAGCAGCACCAGGAACTCATCCTCATGGACATCAAATACAACTTTTCCTATAACCCGCTTTATCCGATATTCAAGGAACAGCAGGATGCTTCCTACGGGCGTGCCCCTGAACTTTCATTTTACGCATTTGAAGAAGGGGTCGCGGAAATCGGTCATAACGGGGACGGCTTCGCTTTTGACCATGAAGGTCCACGTCATAAAACATATCTGCACCCCTACAAGATAGCCAACCGCCCGGTAACGAACGGGGAGTTCATCCAGTTTATGGAGGCGGGTGGCTATGAACAGTCCGAACACTGGCTTTCGGACGGCTGGGGGACGGTGAAGGAAAATCAGTGGAAACACCCGCAGTACTGGGTGAACAAAGACGGGGAGTGGCACATGTTCACGCTTTCCGGTCTGCAGAAAATCGATCTCGATGCTCCGGTCAGCCATGTCAGCTTTTATGAAGCCGATGCGTATGCGAGATGGTCCGGCCGCAGGCTTCCGACAGAACAGGAGTGGGAGCATGCCATGGAAGAGCTTGAGGTGGACGGTCACTTTGTGGAGGCTGAACAGTATCAGCCGCATTCCATTTATAAGGGGGACGGGACAATCGAAAAGGCATACGGCGATGTATGGGAATGGACACAGAGCCCTTATGTTCCGTACCCGGGAAATAAACCACTGGACGGGGCGCTGGGTGAATACAATGCCAAGTTCATGGCGAATCAGATCGTTCTCCGGGGAGGCGCCTGTGTAACCCCGCAGTCCCATATACGGGCGACGTACCGGAACTTTTTCCACCCGCAGATGCGGTGGCAGTTCAGCGGCTTCCGGTTGGCGGAGGATGTATGA	METTHQSVWSVYTETRTFTEKLVETLQTEDFVVQAAKHVSPTKWHLAHTTWFFEKFILEAYIPDYRHYNEEFLFLFNSYYETVGEFHPQERRGLITRPTVEETMDYRRHVDQEMSRLLAERVGDADIDGLVEIGLQHEQQHQELILMDIKYNFSYNPLYPIFKEQQDASYGRAPELSFYAFEEGVAEIGHNGDGFAFDHEGPRHKTYLHPYKIANRPVTNGEFIQFMEAGGYEQSEHWLSDGWGTVKENQWKHPQYWVNKDGEWHMFTLSGLQKIDLDAPVSHVSFYEADAYARWSGRRLPTEQEWEHAMEELEVDGHFVEAEQYQPHSIYKGDGTIEKAYGDVWEWTQSPYVPYPGNKPLDGALGEYNAKFMANQIVLRGGACVTPQSHIRATYRNFFHPQMRWQFSGFRLAEDV				NA	NA	NA	NA	NA
AK012_03873	933	egtD	COG4301	Histidine N-alpha-methyltransferase	ATGAAGGCGCATCTGAATGGAACCGCTTCATCCGATATGCTCACGGGGCTTTTTGCAGAAAAGAAATGGATATCATCTAAATTTTTGTATGACGAGCAGGGGTCGCAGCTGTTTGAACAGATCACAGACCTTCCGGAGTATTACCAGACACGAACAGAAGCGCAGATTCTTCTGGAAAACCTGAGTGCATGGAAATCGGTTTTCCGTAAACCAGCTGCTCTGATTGAGCTGGGGAGCGGCAGCAGTAAGAAAACGAAAATCCTGCTGGATCACGTGCCGAATATTGAAAGCTATATTCCAATCGATATTTCAGAAGCATTCCTTGCGGATACGGTAACTCAGCTGCAGGCCTCGTATCCGGGCATTCATATCCAGGGCGTCAGCGCGGATTATACACAGCCGTTCACCCTCCCGGACTTGAAAGGGAAAAAGAAAATCGTTTTCTTTCCAGGTTCCACGATAGGGAATTTTGAGCCGCGGGAGGCGGAGCTTTTTCTGGAGAATATCCGAAGTCTTCTGAATCCCGGCGATCAGCTGATTCTCGGTGTCGATCGTAAAAAAGACGAAGCTGTCTTGAAAGCGGCCTATGATGATGCCGCAGGAGTGACGGCAGCGTTTAATAAAAACCTGCTCACAAGAATCAACCGTGAGCATGAAGCGGCGATTGATGTAGACAGCTTTTCCCATGTGGCACTGTATAATTCAACCGCCGGAAGGATAGAAATGCATCTGGAAAGCAGCAGGGAACAGGTTCTCACCCTGGGCGGCCACACGATAGAGGTGAAGAAGCAGGAAAGGATTCATACGGAGAATTCCTACAAATACGATCCAGAGGACATCATCCGGCTGGGGAGAGCAAGCGGTTTTCTGCTCCGCCGTGTCGTATCTGATGAACGGGAATATTTCAGTGTCTGTCTGATGGAAGTCGTTTAA	MKAHLNGTASSDMLTGLFAEKKWISSKFLYDEQGSQLFEQITDLPEYYQTRTEAQILLENLSAWKSVFRKPAALIELGSGSSKKTKILLDHVPNIESYIPIDISEAFLADTVTQLQASYPGIHIQGVSADYTQPFTLPDLKGKKKIVFFPGSTIGNFEPREAELFLENIRSLLNPGDQLILGVDRKKDEAVLKAAYDDAAGVTAAFNKNLLTRINREHEAAIDVDSFSHVALYNSTAGRIEMHLESSREQVLTLGGHTIEVKKQERIHTENSYKYDPEDIIRLGRASGFLLRRVVSDEREYFSVCLMEVV	PGPT0020260_319	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_HISTIDINE_DEGRADATION,PGPT0020260-egtD-K18911	NA	NA
AK012_03874	459			hypothetical protein	GTGATTTTGATCAGTTCCTGTCTGGCTGGTATGAAAGTGCGCTACGATGGCACGGACTGCCTCCAGGAAAATGTACAGAAATTAATATTGGAAAAGCGAGCGGTTCCCGCCTGTCCGGAACTGCTGGGAGGATTCATGGTGCCGCGGCCTCCAGCTGAGATTGTCGGCGGGGATGGAGAGGATGTATTGAAAGGCCGTGCCCGCGTGATGGAAAAGACAGGAACGGACGTGACGGAGACGTACATAAGAGGTGCTTATTTGACATTGGAAAAAGTAAGGGATCTCAACATTGATACGGTTGTGTTGAAGGAAGGAAGTCCGTCGTGCGGCAGTACGGTCGTTCATGACGGCACCTTCAGCGGACGAAAGGTGTCTGGGAAAGGCGTGACGACAGCCCTGCTTGAACGGAACGGCATTCAGGTGATGAGTGAAATCGATTTTATCCATACGTTGGTGTAA	MILISSCLAGMKVRYDGTDCLQENVQKLILEKRAVPACPELLGGFMVPRPPAEIVGGDGEDVLKGRARVMEKTGTDVTETYIRGAYLTLEKVRDLNIDTVVLKEGSPSCGSTVVHDGTFSGRKVSGKGVTTALLERNGIQVMSEIDFIHTLV				NA	NA	NA	NA	NA
AK012_03875	234			hypothetical protein	ATGTTAAAACGAATTCGAATCACTTTATCAGTCCTCATCGTCCTTTTATCCGGGTACGGATTATGGACTGGTACATCCGGGGATCTTTTGTCTTTCATCCTCGCAGGTGCAGCCATTCTCATGGTTATCCTTGGCATAGAAGAACAGAGAGAAACAACCAAATGGCGCGCCTCCCTTTATTATGCCGTGTCTGTTTTCTGCCTGACGGCTTCCACAGCCGGATTCATCCAATAG	MLKRIRITLSVLIVLLSGYGLWTGTSGDLLSFILAGAAILMVILGIEEQRETTKWRASLYYAVSVFCLTASTAGFIQ				NA	NA	NA	NA	NA
AK012_03876	306			hypothetical protein	ATGACACAATTGAAGGTCCTTTCTGCGTGGAACATCCTTCCCGCTGCGCTTTTGATCACTGCCGGATGGTTTCTGTTGGATGACAATCCATCCAACACCTACACGGGAGCCCTCTTTCTTATCCTGGTCTGGACAGTGGAAGGCGGACTGGACGCCTGGAGGTATCACTTGATCCACCAAAACAAGCATGCCTTCTTAAACTGCTGTCAGCCTGGTCCTTTTTTTCTATGTTCTATAAAGAGAGGATCGGCAGCAGCGAAAGAGAACCGTCTTATACCAACAGTAAGGAGCGGGTACATATGTTAA	MTQLKVLSAWNILPAALLITAGWFLLDDNPSNTYTGALFLILVWTVEGGLDAWRYHLIHQNKHAFLNCCQPGPFFLCSIKRGSAAAKENRLIPTVRSGYIC				NA	NA	NA	NA	NA
AK012_03877	792	actIII_2		Putative ketoacyl reductase	ATGGATTTACAACTTAAAGATAAACTTGTCCTTGTGACCGGCTCTACTCAAGGAATTGGAAAAGAAATCGCGAAAACTTTCCTTGAAGAAGGGGCACGCGTCGTTATTAATGGACGGACCGCGGAAAAGCTCGATCATGTGGTAGAGGAATTCAAACATCTCGGAGACATTCAGGGAATTGCCGCTGATGTGTCAACGAAAGAAGGAGCAGATGCGCTGATCCAAAAAGTCGATGCCATCGGTGACCTTGATGTACTTGTGAATAATACCGCCATGTTTGAAGTGAAAGACGTGGAAGATGTAACCGATGAGGAATGGATGGGGTACTTTGAAACCAACATTATGAGTGCCGTGCGTTTGTCCCGCCACTTCCTTCCAAAAATGCTTGAACGCGATACGGGACGGATCCTGAACATTTCCAGTGAAGCCGGCGTCAAACCGCTGGCGGAAATGATTCCGTACTCCACCACCAAAGGAGCCGTCAACTCCTTGACCCGCGGTCTGGCGGAGCGTACAAAAGGCACCAGCGTAACGGTGAACGCCGTCCTTCCGGGGCCGACATGGACCGAAGGAGTCGCTGGATTCATGCAGGGAGCAGCGGAAAACGCAGGCGAAGAGCTGGAATCCTTTACGAAGGATTACTTTAAAAACAATGAGCCGACTTCCCTCATCCAGCGTTTTGGTACCGTGGAAGAAGTGGCAGGTATCGTCGTTTACCTCGCTTCCCCTAAAGCGTCAGCCATTAATGGAGCCATGCAGAAGGTCGAAGGCGGCATCATCCGTTCTGTCTAA	MDLQLKDKLVLVTGSTQGIGKEIAKTFLEEGARVVINGRTAEKLDHVVEEFKHLGDIQGIAADVSTKEGADALIQKVDAIGDLDVLVNNTAMFEVKDVEDVTDEEWMGYFETNIMSAVRLSRHFLPKMLERDTGRILNISSEAGVKPLAEMIPYSTTKGAVNSLTRGLAERTKGTSVTVNAVLPGPTWTEGVAGFMQGAAENAGEELESFTKDYFKNNEPTSLIQRFGTVEEVAGIVVYLASPKASAINGAMQKVEGGIIRSV	PGPT0003180_4330	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B7|BIOTIN_BIOSYNTHESIS,PGPT0003180-ymfI|fabG|efpI-K00059	NA	NA
AK012_03878	441			hypothetical protein	ATGTCCCATGCATTTATCGTAAACGTAGAAGCAGCGATTATGAAAGACAGCCGTATTCTGCTTATTCAAAGGTCAGCAGAAGAGGAGCACGCGGGAGGGCTGTATTCGCTGCCCGGAGGAAAAATGGAGTTCAGCCCGGATTCCCTTCACGTGCTGGAGGACAATGTCCGCCGCGAAATCAAAGAGGAAATCGGCATTACCCTGGGGGGAGAACTGACCTATGTGCACAGCAGCACCTTTTTAATCGGTGACACCCATGTTCTGAATCTCGTGTTTTTAGCGACCGATTTCACAGGAGAGCCATGGATAAGAAGTCCGGAAGAAGTATCCGGCATCGTCTGGATCGATCCGGGTGAGCAGGAAGGTCCCGTCCCGATCCCTCCATGGACAGCCGACAGTATCAGGAAAGCGGTGGAATGTCATACGAAAATCTATTTTTGA	MSHAFIVNVEAAIMKDSRILLIQRSAEEEHAGGLYSLPGGKMEFSPDSLHVLEDNVRREIKEEIGITLGGELTYVHSSTFLIGDTHVLNLVFLATDFTGEPWIRSPEEVSGIVWIDPGEQEGPVPIPPWTADSIRKAVECHTKIYF	PGPT0013440_3100	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	ROOT_COLONIZATION	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_METABOLISM	ROOT_COLONIZATION-VITAMIN_B3|NIACIN_BIOSYNTHESIS,PGPT0013440-nudC-K03426	NA	NA
AK012_03880	696	tenA_2	COG0819	Aminopyrimidine aminohydrolase	TTGAAATTTTCAGAAGAAATCAGAAAAGCCGTGGATGAGATTTGGGAAGGAAGCTTTCAGCATCCTTTTGTGAAAGGTATCGGAGAAGGGACGCTTCCCATTGAAAAGTTCCGTTATTATGTCCTCCAGGATTCCTATTACCTGTCCCACTTTGCAAGGGTCCAGTCGCTTGGAGCTGCCAAGTCTGAAGATATGGCCGTGATGGCCAATATGGCGTCTCATGCTCAGAGTACGTACGAAGCAGAGCTTGGACTTCATGAGAATTTTTCGAAGCAGCTGGGGATTACGCAGGAGGAGCGGGAGCAGTTCAAACCGTCGCCGACGGCGTATGCTTATGCGTCTCATATGTACAGAGGGGCGTACAATGGAGATTTAGCAGATGTGATTGCAACGATCCTGCCGTGCTACTGGCTTTATTATGAAGTCGGTGAACATTTGAAAGAATCGTCGCCGGAAGAACCCGTGTACCAGGAGTGGATTGCCGCTTATGGAGGAGATTGGTTCCGTACACTTGTGGAGGAGCAGATCGAGCGCCTTGATGAACTGGCTGAAAAGAAGACAGATGCCGGAAGGGCCCGGATGAAGGAATTGTTTATCATCAGCAGCCAATATGAATATATGTTCTGGGAGATGGCGTACCGCATGGAGGAATGGCCGTTCGACCTGAAGCAGTCGATGACGGCAGGACGTGCATGA	MKFSEEIRKAVDEIWEGSFQHPFVKGIGEGTLPIEKFRYYVLQDSYYLSHFARVQSLGAAKSEDMAVMANMASHAQSTYEAELGLHENFSKQLGITQEEREQFKPSPTAYAYASHMYRGAYNGDLADVIATILPCYWLYYEVGEHLKESSPEEPVYQEWIAAYGGDWFRTLVEEQIERLDELAEKKTDAGRARMKELFIISSQYEYMFWEMAYRMEEWPFDLKQSMTAGRA	PGPT0009055_670	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
AK012_03881	600	tenI	COG0352	Thiazole tautomerase	ATGAACCTGCATGTCATCTCCACAGGACGCCAGTCTCCGGCGGAACTTTGTCCAAGGGCAGCCGCGATTGAACCGTGGGTGGATTATTTACACCTTCGTGAAAAGCAGTGGTCGGCCCGTGAAATGGTGGACACGATTGAGACTTTAAACAGGCTCGGGTTTCCGAAAGAAAAGCTCGTCATCAATGACCGGGTGGATGTAGCGGCAGCAAAAGGGGTGCCACACGTGCAGCTGGCAGGTCACAGTTTATCTGTTCAAGACGTGAAGCGAGCGTTTCCATCTTTACACGTCAGCTGTTCCGTCCATTCGGTAGAAGAAGCGGCGGCCGCAGAGGCTGAGGGAGCGGATGCTGTTCTATTCGGCCATGTCTTTGAGACGGATTCCAAACCCGGGCTGCCGGGGAGGGGGCTTGGTGCACTGAAGGCCGTCACCGAGGCTGTTTCCCTGCCTGTCATTGCTATTGGGGGATTAACACCTGAAAATGCTGCCCGTCTTAAGCATTACGGAGCGTCGGGAGCGGCTGTGCTGTCGGGTGTTCTTCTGGCAGAAAACGCTGAAGAAGCGGTGCGCCGTTATCGATATCAATTGGAAAGGAGATGA	MNLHVISTGRQSPAELCPRAAAIEPWVDYLHLREKQWSAREMVDTIETLNRLGFPKEKLVINDRVDVAAAKGVPHVQLAGHSLSVQDVKRAFPSLHVSCSVHSVEEAAAAEAEGADAVLFGHVFETDSKPGLPGRGLGALKAVTEAVSLPVIAIGGLTPENAARLKHYGASGAAVLSGVLLAENAEEAVRRYRYQLERR	PGPT0008975_155	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	INDUCTION_OF_SYSTEMIC_RESISTANCE|ISR	ISR-VITAMIN_B1|THIAMIN_METABOLISM	ISR-VITAMIN_B1|THIAMIN_BIOSYNTHESIS,PGPT0008975-tenI-K10810	NA	NA
AK012_03882	1110	thiO_2	COG0665	Glycine oxidase	ATGCTTTATGACGCAATCGTTGTAGGTGGAGGAGTCATTGGCAGTTCTGTGGCCTATCAGCTTGCCAGGCGGCAGAAGAAAGTGCTCGTCATCGACCGGGGGAAAACCGGACAGAAGGCATCAAGCGCGGCAGCGGGCATGCTCGGTGCTCAGTCCGAACTGAAGGGGGACGATTCCCTCTTTCAAATGGCCAGAACGAGCCGGGCGATGTTTCCTTCCTTGGCAGTCGAATTGAAGGAGCTCAGCGGAATAGACATCGGGCTGCAGCAGAAAGGGCTGTATAAAATCGCCTCCTCCAAAGGGGAAGCGGAATCGCTGCAGCAGCTGGGGCGGTTTCAGGAGACTGCCGGGGAGAAGGCCGAGTGGATGGATGCCGGGGAGATGCGTCAAAAAGAGCCGGCTCTTTCGGACCGTTTTTGGGGAGCTTTATACCTGCCGGAGGACGGTCAGGTGGACGCACCACAGCTGACAAAAGCGTATGCAGCTTCGGCATCGGCCCTCGGAGCGGATTTTCTAGAGCACACCGACGTCACCGGCTTTATGGAAGAAAACGGGCGGGTCGTTGGAGTCAGAACCGGCGGGGGGACGTATACCGGGGAGGCAGTCATCGCAGCCGCCGGGGCATGGAGCGCACCGCTGCTGAACCACGACCGCACCATTGTGGAAACGTATCCGGTTAAAGGGGAATGCTTTTCTGTTCAGACGGAACGGCCACTCATCGCAGGGACTCTTTTTACAAAAGGGTGCTATATTGTCCCGAAGGCGGGAAACCGACTCGTGATCGGCGCTACCGAACAGGCGGGTTCCTTCGATGAGTCCGTTACCGTGGAAGGTCTTTTTCAATTGATGGAAAAAGCGAGGGACCTTCTTCCTTCCCTGCAGGGTGCCAAAATTGAACACACGTGGGCGGGGATCCGGCCGCAGACGAAAAGCGGCATCCCTTATGTCGGCCCTCACCCTGAGAAAGAAGGGCTGTGGCTGGCAGCGGGTCATTACCGGAACGGTATCCTGCTTTCGGCGGTGACTGGAACGCTGGTGGCCGATCAAATCGAAGGAAAGCAGGTGGATCCGGACTGGGTGACGAGTGGACAAAGCTTCATCACGTTATAA	MLYDAIVVGGGVIGSSVAYQLARRQKKVLVIDRGKTGQKASSAAAGMLGAQSELKGDDSLFQMARTSRAMFPSLAVELKELSGIDIGLQQKGLYKIASSKGEAESLQQLGRFQETAGEKAEWMDAGEMRQKEPALSDRFWGALYLPEDGQVDAPQLTKAYAASASALGADFLEHTDVTGFMEENGRVVGVRTGGGTYTGEAVIAAAGAWSAPLLNHDRTIVETYPVKGECFSVQTERPLIAGTLFTKGCYIVPKAGNRLVIGATEQAGSFDESVTVEGLFQLMEKARDLLPSLQGAKIEHTWAGIRPQTKSGIPYVGPHPEKEGLWLAAGHYRNGILLSAVTGTLVADQIEGKQVDPDWVTSGQSFITL	PGPT0008955_746	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008955-thiO-K03153	NA	NA
AK012_03883	204			hypothetical protein	ATGAATGTGAAAATAAACGGCGAGTGGCATGAAATACCTGACCACCTGGCTGATGTCCGTACGCTTTTGAGTCATTTCCAATTGGATAACCGGGTGGTCATAGTGGAACTGAACGATACGATTCTGGAAAAAAGCGAGCATGCCGATTCACAGGTGCATGAAGGCGATCAAATGGAACTGGTCCAGTTCGTAGGAGGCGGATAA	MNVKINGEWHEIPDHLADVRTLLSHFQLDNRVVIVELNDTILEKSEHADSQVHEGDQMELVQFVGGG	PGPT0008970_1450	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
AK012_03884	768	thiG	COG2022	Thiazole synthase	ATGCTTAAGATTGGAAATTTCACGTTTAACTCACGACTGCTTTTGGGGACAGGGAAATATCCTGATTTTGAAACGCAGAAACAGGCCGTAGATGTATCAGAAACCGATATTCTCACGTTTACCGTCCGGAGGATGAATATTTTTGAACCGCAGCAGCCGGATCTGCTTCAACAGCTGGACACCGGCCGCTATACACTCCTGCCCAATACGGCAGGCGCGGAAAATGCTGAAGAGGCCGTACGGCATGCAAAATTAGCCAAAGCTTCCGGACTTTGCGATATGATTAAAGTCGAAGTCATCGGCTGTAAAAAAACGCTGCTCCCTGATCCTGTCGAAACGTTAAGGGCGACTGAAATGCTGTTGGAGGAAGGCTTTACGGTTCTTCCTTATACGTCTGATGACGTCGTCCTAGCCAAAAGACTGGAAGAAATGGGCGCCCATGCGGTGATGCCCGGGGCGTCTCCGATCGGATCAGGGCAGGGAATTCTCAACCCGCATCAGCTGGATTTGATCATTGAACAGGCCGAGGTCCCGGTCATTGTAGATGCGGGCATCGGTTCACCGGGTGATGCGGCGGCGGCCATGGAGCTTGGTGCCGATGGTGTTCTGCTGAATACCGCTGTATCCGCCGCCGACGATCCTGTGAAAATGGCAGAAGCCATGAAGCTCGCCATTCAGGCCGGACGGCTTGGATATGAAGCAGGGAGAATTCCGAAAAAGCGTTACGCTGCGGCCAGCAGTCCAATGGAGGGAATGAGCCGAACATGA	MLKIGNFTFNSRLLLGTGKYPDFETQKQAVDVSETDILTFTVRRMNIFEPQQPDLLQQLDTGRYTLLPNTAGAENAEEAVRHAKLAKASGLCDMIKVEVIGCKKTLLPDPVETLRATEMLLEEGFTVLPYTSDDVVLAKRLEEMGAHAVMPGASPIGSGQGILNPHQLDLIIEQAEVPVIVDAGIGSPGDAAAAMELGADGVLLNTAVSAADDPVKMAEAMKLAIQAGRLGYEAGRIPKKRYAAASSPMEGMSRT	PGPT0008965_2875	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_GLYCINE_DEGRADATION,PGPT0008965-thiG-K03149	NA	NA
AK012_03885	1020			hypothetical protein	ATGAATGACCGATATTCCAGACAGACCCTGTTCCAGCCCATCGGGGAAGAGGGGCAGAAGAAAATCAGCAGCAAACATGTGCTGATTGTCGGGGCAGGTGCCCTCGGCACGGGGGCCGCTGAAAACCTCGTGCGTGCCGGGATCGGGAAACTGACGATCCTTGACCGGGATTATGTTGAATGGAGCAATCTCCAGCGTCAGCAGTTGTATACAGAAAAAGACGCTGACACCCGCCTCCCGAAAGCGGTCGCTGCCCGTCAGCGCCTGCAGGAGGTGAACAGTGAAACAGTCATCGATGCACGGGTCGTCGATGCGACACCGCTGGAACTGGAACCGCTCTTGGACGGAGTGGATGTCATCATGGATGCCACCGACAATTTCGATATCCGGATGATCATCAATGACTTATCCCAAAAGCATGACATTCCCTGGATCTACGGGGCGTGTGTCGGCAGCTATGGCATCAGCTATACCATTCTGCCGGGAGAATCGCCGTGTCTGCACTGCTTGATGGACCAGGTGCCGCTTGGAGGTTTGACGTGCGATACCGCAGGCATTATCAGCCCGGCGGTTCAGATGGTGACCGCTCATCAAACAGTGGAAGCTATGAAGCTGTTAGTGGAAGACTGGGACGCTGTCAGGAAGAAACTCGTTTCTTTTGATCTATGGACGAACCAGCATTCATCCATCGGGGTCTCCAGCGTGAAAAAGGACGACTGTCCGTCCTGTGGCCGGGAGGCGTCCTATCCATTCCTATCCTATGATCAGCAGATGAAGACCGCGGTTCTTTGCGGAAGGGACTCTGTGCAGATCCGCCCGGCAGCAAAGCAGGAATGGGATCTTTCCGTTCTTGCTGAGACGTTGTCCGGTCAGGACGGCAAGGTGGATCAGAATCCTTATCTGCTGTCGTTTACGACCGGAGATAAGCGGATGGTGTTCTTTAAGGATGGGCGTGCGCTCATTCACGGCACGCAGGATACAGCCGAAGCCAAAACCCTTTACCATCGTTATACAGGATGA	MNDRYSRQTLFQPIGEEGQKKISSKHVLIVGAGALGTGAAENLVRAGIGKLTILDRDYVEWSNLQRQQLYTEKDADTRLPKAVAARQRLQEVNSETVIDARVVDATPLELEPLLDGVDVIMDATDNFDIRMIINDLSQKHDIPWIYGACVGSYGISYTILPGESPCLHCLMDQVPLGGLTCDTAGIISPAVQMVTAHQTVEAMKLLVEDWDAVRKKLVSFDLWTNQHSSIGVSSVKKDDCPSCGREASYPFLSYDQQMKTAVLCGRDSVQIRPAAKQEWDLSVLAETLSGQDGKVDQNPYLLSFTTGDKRMVFFKDGRALIHGTQDTAEAKTLYHRYTG	PGPT0008935_104	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
AK012_03886	303			hypothetical protein	GTGAGAGCAACCGATATCCTGAAAGCCATTCAAACATTTAACCCATCCGAAAAACATCGCTTACGAGAATACTTAATCGATGCTCTCACTGCATCATCCTCCACAGGAACGGTTCTGGAAGAGATTTCAGAACGCAAGCATAAGGACAGTTATCATTGTCCAGACTGCGAATCCGAACATATTGTTCGATTCGGGAAATACTCGACTAGCGTTGACGGTGAAGAAGTGAAAAAACAGACAAATGGAAAGTTCAACGTTCCAAGGTATCGTCGAAATGGACGAGACCTATTTCCTGTACTCTGA	MRATDILKAIQTFNPSEKHRLREYLIDALTASSSTGTVLEEISERKHKDSYHCPDCESEHIVRFGKYSTSVDGEEVKKQTNGKFNVPRYRRNGRDLFPVL				NA	NA	NA	NA	NA
AK012_03887	384			IS1595 family transposase ISBse1	TTGCTGATAGAAAACCACGCAAACGAGGTGTTTCCGTCAAGAAACGCGGCATCAGCAACGAAACAAGTAGGTGTTCTGGTCGCAAGAGACCGTGACAAGGTGATCTTCTCCCAGACGTTAAGGATGGGGCGTTTGACGAAAGAACAGTTAGATAAAGCCATCAGACGTAAACTCTCAAGTGAGAATGTGTTATGCACCGATGCTTGGCGTGACTTCAAAACCTATGCCTTTGATAGCGAGATAGACATCTATCAGTTCAAATCAGATGGTAAAATCCGCACCAAAGGGCTTTATCACATCCAGAACGTCAATAACTACCACCGAAGGCTGAAAGGATGGATTCAGTGTTTTAACGGTGTGGCGACCAAGTATCTCAATAACTAG	MLIENHANEVFPSRNAASATKQVGVLVARDRDKVIFSQTLRMGRLTKEQLDKAIRRKLSSENVLCTDAWRDFKTYAFDSEIDIYQFKSDGKIRTKGLYHIQNVNNYHRRLKGWIQCFNGVATKYLNN				NA	NA	NA	NA	NA
AK012_03888	492			hypothetical protein	ATGAGAAAAGTAAAAGTTTATTTGGTTATTATGGTTAGCATATTTTTAATAGGATGTACGGAGGAAAGGCCTTTTGAAGAGCAATTCAAAGAGATAATGAATGATAAAAATAACACTTACAACCTGTTTCACCACGAATTGAATGTTCTTGAAGAAGGTGATGCTTTTGCCTTCTTTAAGGGAGAAGGAAAGGTCTGGACCTCTTACTTTGAAAAGATAGACAGAAAATTAATACGTAGGTCAGGACATAGTTTAAACTGCAGTACTCCTGTTAATTGGACAGTGAATCAAGGACGAATCGTATCTGGGTTAGTCTGTGATAGGAGTATTTCAAAAGTTATTGTAAATGGAGACCAAGCAAACTTTATTGAAGTAGATGATGGCAGAAGGTATTGGTATCATGTTATTCCTACATATCAGGAAGTTAGAGACATTAAAGTGAAAACTGTAAATAGAGATGGGACTGAAAAATTCGTTGGAAATACTCAATGA	MRKVKVYLVIMVSIFLIGCTEERPFEEQFKEIMNDKNNTYNLFHHELNVLEEGDAFAFFKGEGKVWTSYFEKIDRKLIRRSGHSLNCSTPVNWTVNQGRIVSGLVCDRSISKVIVNGDQANFIEVDDGRRYWYHVIPTYQEVRDIKVKTVNRDGTEKFVGNTQ				NA	NA	NA	NA	NA
AK012_03889	294			hypothetical protein	GTGCGTCGAATATTTTTAAATGTAATTAGTATTATAACATTTGCACCATTCATCTCAGAGGTGAGTGAAGAAGAAGTAGTAGTGAACGTAAGAAAATTAAAGCATTATGATTGGTTTCAAGTATATTTAAGAGATGAACGGTATAAAGATTTAATTATTTCCAACAGGAAAGTTCGATACACCATAGGTATATTAAAAAGTAATAAGCTTGATAATCCTTTTTATAATAATAGAGCGAGAAAGAAAGTCTCGAATCGCATAGAGAAGGAATTTAGCAAAGCGAATGCTAGTTGA	MRRIFLNVISIITFAPFISEVSEEEVVVNVRKLKHYDWFQVYLRDERYKDLIISNRKVRYTIGILKSNKLDNPFYNNRARKKVSNRIEKEFSKANAS				NA	NA	NA	NA	NA
AK012_03890	528			hypothetical protein	ATGAAGAAAATATTTTGGATCTTCGCTCTAATTTTCCTTGTATATATTATGGTCACTCAAATAAAAGAGGGTTTTAATGATAATGACGTAGCTTACAGTTCCTTAACTGATAAAGAAATAACAGAATTCTTATCCCAAAAAAAGTTTGAACCATCACTTATAGAAAGTATTAATAATGAGACAGTCATTATCTTTGAAAAGGTAGATTCCTGGGGTTTCTATTCTTTAATGAAGCAAGACAACGAGGAGATTTTATCCAATAAAAATGTGTTAGATTCCTCTGGTAGTCCAATACAAACAGCGGGCAAAAAACAGCCAAATAGTTACCTTATAATTAAGATTAGTGAAAACTTATCTAAAAATGGTGACAGTATTGTAGCAATAGGTGAAAATGGATCTAAACAGAGGCAAGTAATTACGAAGAATCAAATTTTCTATTTTTCTAATTGGGAAGACAATGAGGAGTTAAAAAACATTAAAATCTTAGATGAACAAAATGACACAATCAGCAATATGAGAGACATATAG	MKKIFWIFALIFLVYIMVTQIKEGFNDNDVAYSSLTDKEITEFLSQKKFEPSLIESINNETVIIFEKVDSWGFYSLMKQDNEEILSNKNVLDSSGSPIQTAGKKQPNSYLIIKISENLSKNGDSIVAIGENGSKQRQVITKNQIFYFSNWEDNEELKNIKILDEQNDTISNMRDI				NA	NA	NA	NA	NA
AK012_03891	282			hypothetical protein	ATGAAGGGAAAATTATTTCATGTACTTAACATTACTGTGCTGATTATTATATCAGCAGCGGGATTACTCGCTTGGTTCGGAAATGCGATGAGCCAGATTACATATTCATCCATAAATTTTGCGATCATGACAACTTTTGTGTGGTGGGGGGGTTTTTATTGGATTCAATATTCAAGAAAAGAGACAGCCTGGCGGGCGGTTTGGTTCATCATCTCCCTTGGTGCTCTATTCTATTGGATGGCTGGCGGTGGTGCATCCTTATATAATTTGTTCTTAGGATGA	MKGKLFHVLNITVLIIISAAGLLAWFGNAMSQITYSSINFAIMTTFVWWGGFYWIQYSRKETAWRAVWFIISLGALFYWMAGGGASLYNLFLG				NA	NA	NA	NA	NA
AK012_03892	264			hypothetical protein	TTGAAGAATAAAGATATTCTACTGGGGGTTTATATACTGATACTAAGCGTAGTCCCTATCTCCGGGTTTCTATCATCACTTTTTCTACCGGGTTCAAAAGATATCATAGTCATATGGACGTTTTTGATTATAGCCACGATATTATCTATACTTTCTTTTAAGAGACAAAAGTTTTTTGCGACTTTATCAATTATTATTTTATTGGGAACGGCCACCCTTATAATGTTTGCTGCAATGATGGCCGGGATGTCTCCTAACTCTTAA	MKNKDILLGVYILILSVVPISGFLSSLFLPGSKDIIVIWTFLIIATILSILSFKRQKFFATLSIIILLGTATLIMFAAMMAGMSPNS				NA	NA	NA	NA	NA
AK012_03893	159			hypothetical protein	ATGAGCTTTTGGACTTGGGTAGCTATTGCTATCGCATTGATTAGTGGAATGCTTTTTTCTAACTCTTCTAAGAGAAAGGCTGAAAGAAAACATATAGTTGCACTTACTTGGTTTATCATCGCAGTAATCTTATTTTTTGTTTGGTGGTTTACACGTTGA	MSFWTWVAIAIALISGMLFSNSSKRKAERKHIVALTWFIIAVILFFVWWFTR				NA	NA	NA	NA	NA
AK012_03894	165			hypothetical protein	ATGTATTTAGCAATAACTATAATATCTCTTGTTCTTTTGATACTTCTAGTGATTCTGAACCGCAAACAGCTATTTTCTGATGTAAACAATGCTAAGCTCCTAATAGTGATTTTCGTATTTCTTCCTTTGATGGTTATTGGAATTGTGGTAGCAGCATTTATATGA	MYLAITIISLVLLILLVILNRKQLFSDVNNAKLLIVIFVFLPLMVIGIVVAAFI				NA	NA	NA	NA	NA
AK012_03895	486			hypothetical protein	ATGACAACTAAATACGTTAATTGGGGAGGAGCACTAGTTAAGTTAACGTGGAAGTATAATAAAGTGCTTCCTCCGAAAAGGTTTATAACGAGTGTCCATGGATTTTGTTTTAAAGATGATAGGTTAATGTTAGTGAATTTAGATCACAGAGGATGGGACTTTCCAGGAGGTCATATAGAATTTAAAGAATCTCCAGAAGAATGCATGGAGCGTGAAGCGTATGAAGAAGGCTATGTAACTGGAAGGTGCTCTCTTTTAGGGTATATTGAAGTAGACCACAGTGAAAACCAATGCTGGGATGAAGATAGTCCTTACCCTAAGGTAGGTTATCAGGTCTTTTATCGTATGGACATCGAACAACTACATAACTTTCAAGCCAAATATGAATCGACAGAAAGGATATTTATTAATCCAGATGAGTTCAATGAATATCATCATGATTCGAATGAATTGCACCAAGAAATATTAGATTTTGCTCTAAACTAA	MTTKYVNWGGALVKLTWKYNKVLPPKRFITSVHGFCFKDDRLMLVNLDHRGWDFPGGHIEFKESPEECMEREAYEEGYVTGRCSLLGYIEVDHSENQCWDEDSPYPKVGYQVFYRMDIEQLHNFQAKYESTERIFINPDEFNEYHHDSNELHQEILDFALN				NA	NA	NA	NA	NA
AK012_03896	453			hypothetical protein	ATGAAACGATTTTTTTTGGTACCACTGATTATTTTTTTACTTGTTATTTCTCCAAGTCAAGTAAATGCAGTTTCTATGCCCTGCAGTATGGTTTTAGAACCTGTTGATCAAAATTTAATAAATGCAAAGGGAACGGCATTATTATATAAAGTCCAGCTATTCCCACCAAGTTTTGCTCGCACTAATATCAGTATTCTTGCTGTGCATCTTCCAGAACCCTCAAATTATGGGGATTTTGATAGCTACGAAGGGTTTGCCTATATTCCCGACGAAATAAGTTGGAGGTTTAGACTATTTCCTACTCCTGAAGAAATTAGTCCAACATGGGCAGGAAGATTTGATTTAATTACAGCGGATATGAAAAACGTAAAGGTACAAGTGAGACTCTCAAATACCAAAACCAAAAAATTAGGTCCAGTTGTACTTAAAAGTAATATCGATCAGTGCAAATAG	MKRFFLVPLIIFLLVISPSQVNAVSMPCSMVLEPVDQNLINAKGTALLYKVQLFPPSFARTNISILAVHLPEPSNYGDFDSYEGFAYIPDEISWRFRLFPTPEEISPTWAGRFDLITADMKNVKVQVRLSNTKTKKLGPVVLKSNIDQCK				NA	NA	NA	NA	NA
AK012_03897	354			hypothetical protein	ATGAAACGTTTGCTTTTCTTAATGGTGATTATAGTTAGTTTTACAACTGGGTGTAATAAAGAAGAAATTAGTTCACCTTATTTTGTTTGGGAGGGGCAGTTTTATATAACTACCCATGAACCTATTGCTGAAAATGAATTAAGTGAAAAAATTGGTAAAATAAGAGAAAATGTCAATAAACCTTATGAAGACGGTCAAGCTAAAGGGCTTCCTGAAGGTACTATGCTACTTATAGTGGAAGGACAACATCTTGGAACAGATAAAACTAATGATGGTATTATAGCTTTCGAAAGAGATGGAGAGTTTAACATAGCTAGACAAATAGAGCCAGAATTAAAAGAAGAATTGAAATGA	MKRLLFLMVIIVSFTTGCNKEEISSPYFVWEGQFYITTHEPIAENELSEKIGKIRENVNKPYEDGQAKGLPEGTMLLIVEGQHLGTDKTNDGIIAFERDGEFNIARQIEPELKEELK				NA	NA	NA	NA	NA
AK012_03899	690	sapB	COG1285	Protein SapB	ATGAGTTGGTCTTATTTTTTTCATGAGGATATCCTCATGTTTATCTTCCGCTTGTTTTTCGCATTACTCCTGGCTGGACTTATCGGGTTTGAGAGGGAATTGAAAAACCATTCCGCTGGATTCCGGACGCATATCCTTGTAGGGGTCGGGGCCTGTATGATGATGCTCCTTTCCTTATATGGATTTCAAACATTCATGGAGGAGTATGACAATGTCCGTTTTGATCCTGCCCGTATTCCTTCTTATGTGATCAGTGGTATCGGTTTTCTGGGCGCAGGTACAATCATCGTCAATGGTATAACCATCCGCGGACTGACAACCGCAGCATCTATATGGACGGTTGCAGGTATTGGTCTCGTTGTTGGTGCTGGGATGTATGATGTTGCGACAGTAACGACCTTTTTTGTGCTGATCAGTCTGATTCTGTTGAATAAAGTGGAAAAGGAAAAATTAAATGGCGGTCCCACGTTTCATATTACAATAAGAAAAGATCTGCAGATTCACCACCTGCTCTCCTTATTTGACCAGGAGAGTCTGGATATCCGAAGCATGGATGTAAAATCCCTCGACGGAGAGCAGAAGAGAGTGATCATTCAGCTTGAAAAACAGCCGGGACTCGACCGGTCAAGACTGTTGGCTGAGATTACGTCTATTAAAGGAGTGGAAGGCTGCGGACATGATCATCCATGA	MSWSYFFHEDILMFIFRLFFALLLAGLIGFERELKNHSAGFRTHILVGVGACMMMLLSLYGFQTFMEEYDNVRFDPARIPSYVISGIGFLGAGTIIVNGITIRGLTTAASIWTVAGIGLVVGAGMYDVATVTTFFVLISLILLNKVEKEKLNGGPTFHITIRKDLQIHHLLSLFDQESLDIRSMDVKSLDGEQKRVIIQLEKQPGLDRSRLLAEITSIKGVEGCGHDHP	PGPT0014005_1527	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-MAGNESIUM_TRANSPORT,PGPT0014005-mgtC-K07507	NA	NA
AK012_03900	465	ctsr		Transcriptional regulator CtsR	ATGCGGAATATATCCGACGTTATTGAGGATTATTTAAAAGATATACTTGATCAAAGTCATAAGCAGACCATTGAAATCAAGCGTAGTGAACTGGCTGAAAGGTTTCAGTGTGTTCCATCTCAAATCAATTATGTGATTAAGACACGTTTTACAGTGGAAAAGGGTTATATCGTTGAAAGTAAGCGTGGAGGTGGAGGGTATATCCGCATCAGCCGGATCCAGCATCGCAAGGATTCTGAAATGATCGAAGATGTGATGCACCTCATTCACCCGCGGGTCTCTCAATCTCAGGCGGAAGACGTCCTTGCACGCCTTGTAGAATTTGATGTGATTACGTTGAGAGAAGGAAAGCTGCTCCAGAGTGTTATTGACCGTGACGTTCTGGCGTTCCCTCTGCCCGTCCGGGATGAAATTCGGTCGCGGATTATGAAGGCGATGTTGTTCACCCTTAAATACAAATGCTGA	MRNISDVIEDYLKDILDQSHKQTIEIKRSELAERFQCVPSQINYVIKTRFTVEKGYIVESKRGGGGYIRISRIQHRKDSEMIEDVMHLIHPRVSQSQAEDVLARLVEFDVITLREGKLLQSVIDRDVLAFPLPVRDEIRSRIMKAMLFTLKYKC	PGPT0014610_433	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014610-ctsR-K03708	NA	NA
AK012_03901	549	mcsA	COG3880	Protein-arginine kinase activator protein	ATGGAATGCCAGGAATGTCATCAGCGCCCGGCAACGGTGCACCTGACGCAGGTGGTAAACGGTAAGAAAACCGAGATTCACGTCTGTGAGCAGTGCGCAAAGGACAATGGCTATATGAATTATGGTGAAGAAAACTTTTCGCTGAACGATCTGCTTTCCGGGCTTTTTCATTCTGAGGGCCCTTCTCCATTTAAGGGGCAGAGTCCTCAAACACATCCGAAAAAAGAAACATTAAAATGTCCCAGCTGCGGACTTACTTATAATGAATTTGCGAGAATCGGCAAGTTCGGCTGTGCCGCCTGTTATGAAACCTTCGATGACCGGCTCAACCCGATATTAAGACGGGTACACAGCGGAAACACCCGTCATGATGGGAAAATACCGAAGAGAGAAGGCGGAAACCTTCATCTGAAAAAAGAAATTGAAGAATATAAAATTAATCTTCGACAATTAATCGAGCAGGAAGAATTTGAAGAAGCAGCGAAATGTAGAGATAAGATACGTTCATTAGAGAACGAACTTCATCAGGATGAGGGTGGTGAAGAGTAA	MECQECHQRPATVHLTQVVNGKKTEIHVCEQCAKDNGYMNYGEENFSLNDLLSGLFHSEGPSPFKGQSPQTHPKKETLKCPSCGLTYNEFARIGKFGCAACYETFDDRLNPILRRVHSGNTRHDGKIPKREGGNLHLKKEIEEYKINLRQLIEQEEFEEAAKCRDKIRSLENELHQDEGGEE	PGPT0014655_186	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014655-mcsA-K19411	NA	NA
AK012_03902	1071	mcsB		Protein-arginine kinase	ATGTCCCTGAAACAGTTTATTAATGAAGCAATCAGCCCATGGATGAAACAGGAGGGCCCGGACAGCGATATTGTGATGAGCAGCCGTATCCGCCTTGCCCGGAATTTTGCAGACCACCCCTTTCCCATCATTGCAAGAGAGGAAACCTTAAGTAAGGTTCTGGCTTATTTCGAAGAAAACTTTCAGCAGACTTCTTTCCGGGATTATAAGGATTTTGAACTGGTCCGGATGCGGGATCTTCAACCTGTTGAGAAAAGAGTGCTTGTAGAAAAGCACTTAATCAGCCCTCACCTGGCTGAGCACTCTGAAAACTCAGCCACACTGATTTCTCAAAATGAACAGGTTTCCATTATGGTTAATGAAGAAGACCATGTACGCATACAATTATATTTCCCGGGTTTTCAGCTCGATAAAGCACTGGAACAGGCCAGCCAGCTGGATGACTGGCTTGAGGAGAAAGTGGATTATGCCTTCGATGAGAAACGAGGCTATCTTACGGCTTGTCCTACAAACGTAGGAACTGGAATGCGGGCTTCCGTTATGATGCACCTCCCTGCTTTGTCCATGACCCAGCAGATCAACCGGATGATTCCGGCGATTAACCAGCTGGGCCTCGTGGTAAGGGGGATTTACGGGGAAGGCAGTGAAGCACTGGGCAGTATTTTTCAAATATCCAACCAGATTACTCTTGGGAAATCAGAGGAAGACATCGTGGAGGATCTCCATAGTGTCGTAAAACAGTTGATTGACCAGGAGAGGAAAGCAAGGGAAACGTTAATGCACCGCTCCAGTGTCCGCCTGGAGGACCGGATTTTCCGATCCTACGGGGTGTTAACCAACAGCCGCATCATTGAATCGAAAGAGGCGGCGAAATGCTTATCTGATCTCCGGCTTGGTATTGACCTTGGTCTCATTGACCATATTCCGAGAACGATTCTGAATGAACTGGTGATTTTGACACAGCCGGGGTTTCTCCAGCAATACGCTGAAACGACGTTATCCCCTGATGAGAGGGATGTAAGGAGAGCTTCGCTCATCCGTGAGAGGCTCCAGCTTGAGCATAAAGAATAA	MSLKQFINEAISPWMKQEGPDSDIVMSSRIRLARNFADHPFPIIAREETLSKVLAYFEENFQQTSFRDYKDFELVRMRDLQPVEKRVLVEKHLISPHLAEHSENSATLISQNEQVSIMVNEEDHVRIQLYFPGFQLDKALEQASQLDDWLEEKVDYAFDEKRGYLTACPTNVGTGMRASVMMHLPALSMTQQINRMIPAINQLGLVVRGIYGEGSEALGSIFQISNQITLGKSEEDIVEDLHSVVKQLIDQERKARETLMHRSSVRLEDRIFRSYGVLTNSRIIESKEAAKCLSDLRLGIDLGLIDHIPRTILNELVILTQPGFLQQYAETTLSPDERDVRRASLIRERLQLEHKE	PGPT0014660_262	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-TRANSCRIPTIONAL_REGULATION,PGPT0014660-mcsB-K19405	NA	NA
AK012_03903	2463	clpC	COG0542	Negative regulator of genetic competence ClpC/MecB	ATGATGTTTGGGCGATTTACAGAAAGAGCGCAGAAAGTACTTGCTTTAGCGCAGGAAGAAGCCGTCCGTTTAGGACACAACAATATTGGAACAGAACATATTCTGCTTGGACTAGTCAGTGAAGGAGAAGGCATTGCAGCCAAAGCTCTAACGGCTTTAGGTCTGGAGTCCTCTAAAATCCAGCAGGAAGTCGAGAAGTTAATCGGCAAGGGAGAGAAAGTCTCCCAGACGATTCACTATACACCGCGTGCGAAAAAGGTGATCGAGCTTTCCATGGATGAAGCGCGCAAGCTTGGCCATTCCTACGTCGGAACCGAACACATTCTTCTCGGTTTGATCCGCGAAGGAGAGGGAGTAGCAGCCCGCGTATTGAACAACCTTGGTGTGAGCTTGAATAAAGCCCGTCAGCAGGTTCTTCAACTTCTTGGGAACAATGAGTCCACAGGAGGGCAGAACCGCAGAGGAGGCGGCTCAGGAGCTCAGGCGGCGAATGCGAATACGCCGACCCTTGACTCGCTTGCCCGCGACTTAACGGCGATTGCGAAGGAAGGAAACATTGACCCTGTAATCGGCCGCAGTAAGGAAATTGAACGCGTTATTCAAGTGTTGAGCCGCCGTACGAAGAACAATCCGGTTCTTGTAGGTGAACCGGGTGTTGGTAAAACAGCCATTGCTGAAGGTCTTGCTCAGCAGATCATGAATAACGAAGTACCTGAAATTCTTCGTGAAAAACGCGTAATGACCCTTGATATGGGAACGGTTGTCGCTGGTACGAAATACCGCGGTGAATTTGAGGACCGTCTGAAAAAAGTTATGGAGGAAATCCGCCAGGCCGGCAACATCATCCTATTCATTGATGAGCTCCATACGCTGATCGGCGCCGGTGGGGCCGAAGGTGCCATTGACGCTTCCAATATCCTTAAGCCGTCACTTGCCCGTGGTGAGCTTCAGTGTATCGGTGCGACAACCCTCGATGAATACCGTAAGTATATTGAAAAAGACGCAGCTCTCGAGCGGCGCTTCCAGCCAATCCAGGTGGATGAGCCGACGCTTGATGAGTCCGTACAGATCCTTCAGGGGCTGCGCGACCGCTATGAAGCGCATCACCGTGTGACGATTACAGATGAATCCATTGATTCTGCCGTCCGTTTTTCCGATCGTTATATCACTGACCGCTTCCTTCCGGATAAAGCGATCGATTTGATTGATGAAGCAGCATCCAAAGTGAGACTGCGTTCCTACACAGCTCCACCGAACTTAAAAGAGCTGGAACAGAAGCTTGAAGAGGTTCGCAAGGAGAAAGATGCCGCTGTACAGAGCCAGGAATTCGAGAAGGCCGCTTCCCTTCGCGACAGCGAGCAGCGTCTTCGTGACGAACTGGAGCAGACGAAAGACGAGTGGAAGGAAAAGCAGGGACAGGAAGACTCTGAAGTCACTGTTGAGGATATCGCCTCTGTCGTTTCTGTCTGGACCGGCGTTCCTGTTTCCAAGATGACCAAAGATGAAAGTGAACGGCTGTTGAACCTTGAAGAGACGCTTCATAACCGTGTCATCGGTCAGGAAGAAGCGGTGAAAGCTATATCCAAGGCGATCCGCCGTGCCCGTGCCGGTCTGAAAGATCCGAAGCGTCCAATTGGTTCCTTCATCTTCCTTGGACCTACAGGTGTCGGTAAAACCGAACTGGCCCGTGCCCTTGCAGAAAGCATGTTCGGCGAGGAAGATGCCATGATCCGTATCGACATGTCCGAGTACATGGAGAAACACAGCACGTCCCGTCTTGTTGGTTCTCCTCCAGGCTATGTCGGCTACGATGAAGGCGGCCAGCTGACTGAGAAAGTGCGTAACAAGCCTTACTCCGTCGTTCTTCTGGATGAAATTGAAAAGGCACACCCGGAAGTCTTCAACATCCTTCTGCAGGTTCTGGAAGATGGTCGTCTGACAGATTCCAAGGGCCGCGTCGTGGATTTCCGTAACACGGTGCTGATTATGACATCCAACGTTGGAGCCCAGGAGCTTAAGCAGAATAAATATGTTGGATTCTCTATGGGAGAAGCCGATCAGGATTACAAGGACATGAAGTCCAAAGTTACGGATGCCTTGAAAAAAGCCTTCCGTCCTGAATTCCTGAACCGGATCGATGAAACGATCGTCTTCCATTCCCTTGAGAAGAAGCACATGAAGGACATCGTTGTTCTTATGGCGGAAGAGCTCCGCAAACGCCTGTTGGAGCAGGAAATCGACTTCACGCTTACAGATGCAGCGATCACCCACATCGCAGATTCCGGCTTCGATCCGGAGTACGGGGCAAGACCACTGCGCCGTTCCATCCAGAAAAACGTCGAGGATCTGTTGTCCGAAGAGCTTCTTAAAGAAAACATTGCCAAAGGGCAGAAAGTTAAAATTGATCTGGATGACGAAAAGAACTTCGTTGTTCATAAGCAGCAGGAGTCTTCAACAAGCTGA	MMFGRFTERAQKVLALAQEEAVRLGHNNIGTEHILLGLVSEGEGIAAKALTALGLESSKIQQEVEKLIGKGEKVSQTIHYTPRAKKVIELSMDEARKLGHSYVGTEHILLGLIREGEGVAARVLNNLGVSLNKARQQVLQLLGNNESTGGQNRRGGGSGAQAANANTPTLDSLARDLTAIAKEGNIDPVIGRSKEIERVIQVLSRRTKNNPVLVGEPGVGKTAIAEGLAQQIMNNEVPEILREKRVMTLDMGTVVAGTKYRGEFEDRLKKVMEEIRQAGNIILFIDELHTLIGAGGAEGAIDASNILKPSLARGELQCIGATTLDEYRKYIEKDAALERRFQPIQVDEPTLDESVQILQGLRDRYEAHHRVTITDESIDSAVRFSDRYITDRFLPDKAIDLIDEAASKVRLRSYTAPPNLKELEQKLEEVRKEKDAAVQSQEFEKAASLRDSEQRLRDELEQTKDEWKEKQGQEDSEVTVEDIASVVSVWTGVPVSKMTKDESERLLNLEETLHNRVIGQEEAVKAISKAIRRARAGLKDPKRPIGSFIFLGPTGVGKTELARALAESMFGEEDAMIRIDMSEYMEKHSTSRLVGSPPGYVGYDEGGQLTEKVRNKPYSVVLLDEIEKAHPEVFNILLQVLEDGRLTDSKGRVVDFRNTVLIMTSNVGAQELKQNKYVGFSMGEADQDYKDMKSKVTDALKKAFRPEFLNRIDETIVFHSLEKKHMKDIVVLMAEELRKRLLEQEIDFTLTDAAITHIADSGFDPEYGARPLRRSIQKNVEDLLSEELLKENIAKGQKVKIDLDDEKNFVVHKQQESSTS	PGPT0014585_2383	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014585-clpC-K03696	NA	NA
AK012_03904	1272	radA	COG1066	DNA repair protein RadA	ATGTCGGCTCCAGCTGCCAATTCCCGTCACGTATTCCAGACAAGTTCCACTACGGCAGCAGCAAAACCTGAAAAGATAACACAGATCAAATCACAGAAAGAGCCGCGGATGCCGACAGATATGCCTGAACTTAACCGTGTACTCGGCGGCGGTATTGTTGCGGGGTCCTTAGTTTTAATCGGGGGAGACCCGGGTATCGGTAAGTCAACATTACTCCTTCAGGTTTCCGCGCAAATCGCTGATAAAGATTTTCCAGTCCTCTACATATCAGGGGAAGAATCGGCCCGGCAGACGAAACTGAGAGCGGAACGTTTGAGCATCACGTCTGATGAACTCTACGTATTATCCGAAACGAACCTTCAAGATGTCATGAATCAGATTGAACAGATTGATCCGAAATTCGTTGTCATTGACTCCATTCAGACGATATTCAAAGAGGATGTCACGTCTGCACCAGGGAGCGTTTCCCAAGTAAGAGAATGTACGAGTCAATTGATGAGAATTGCTAAAAGTAAAGGTATCCCGATTTTTATTGTGGGGCATGTTACTAAAGAAGGATCGATCGCAGGACCTCGTCTTCTCGAGCATATGGTGGATGCCGTCCTTTACTTTGAAGGGGAGCAGCATAACACCTTCCGTATTCTGAGAAGTGTAAAAAACCGTTTCGGAAGCACCCATGAAATGGGGATCTTCGAGATGAAGGAAAAAGGTCTTGAAGAAGTGCTGAATCCTTCGGAGATCTTTCTTGAGGAGCGGTCACAGGGAGCGGCTGGTTCGATTGTTGTAGCCTCCATGGAAGGGACGCGCCCGGTGCTCGTTGAGATTCAGGCCCTCATTTCTCCCACAGCTTATGGGAATCCAAGGCGTATGGCCACGGGCCTTGATAACAGCAGGGTCCCGCTGCTGATGGCGGTTCTTGAGAAACGGGCCGGTCTTCTGCTTCAAAATCAGGATGCCTACGTCAAAGTGGCCGGCGGTGTGAAGCTGGATGAACCAGCCATTGACCTTGCTGTGGCGATCAGCATTGCCTCAAGCTTCCGCAACCAGTCGCCCAACGGAGATGATGTAGTCGTCGGGGAAGTCGGGTTGACTGGTGAAATCCGTCGTGTAGCCAGGATTGAGCAGCGCGTTCAGGAAGCAGCGAAACTTGGATTTAAACGGGTCATCATTCCTAAAAAGAATATGGATGGCTGGACGCCGCCCACCCAGATTGAAGTGATTGGAGTCAGCACCGTCCAGGAAGCTATGAAGGTCACATTGGGGGAGACATAA	MSAPAANSRHVFQTSSTTAAAKPEKITQIKSQKEPRMPTDMPELNRVLGGGIVAGSLVLIGGDPGIGKSTLLLQVSAQIADKDFPVLYISGEESARQTKLRAERLSITSDELYVLSETNLQDVMNQIEQIDPKFVVIDSIQTIFKEDVTSAPGSVSQVRECTSQLMRIAKSKGIPIFIVGHVTKEGSIAGPRLLEHMVDAVLYFEGEQHNTFRILRSVKNRFGSTHEMGIFEMKEKGLEEVLNPSEIFLEERSQGAAGSIVVASMEGTRPVLVEIQALISPTAYGNPRRMATGLDNSRVPLLMAVLEKRAGLLLQNQDAYVKVAGGVKLDEPAIDLAVAISIASSFRNQSPNGDDVVVGEVGLTGEIRRVARIEQRVQEAAKLGFKRVIIPKKNMDGWTPPTQIEVIGVSTVQEAMKVTLGET	PGPT0014905_2042	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014905-radA-K04485	NA	NA
AK012_03905	1074	disA		DNA integrity scanning protein DisA	ATGGAATGGCACGAAATCAAGGAAAACGGAATTGGCGACATTTTAAAACTGGTGGCCCCGGGGACGCCGCTCAGGGACGGCATTGACAACGTCCTCCGTGCAAACACGGGAGGCTTAATCGTCCTGGGGTATGGAGATGGAATGCGGGAACTCGTGGATGGGGGATTTCACATCCAATCCGATTTCACTCCTGCTCATTTATATGAGCTGGCTAAAATGGATGGGGCGCTCATCCTTAATGATGAGGCGTCGAAAATTTTGTACGCCAATGCCCAGTTGATGCCGGACCCTGACATTCTATCCAATGAAACAGGTATGCGTCACCGGACAGCGGAGCGGGTGGCCAAGCAGACAGGCTCGCTTGTCATTGCCATTTCCCAGCGGCGGAATGTCATTACACTGTACAAGGGCTCGCTTCGGTATTCATTGAAGGATATCGGGGTCATCCTGACAAAAGCCAATCAGGCCATCCAGACACTGGAAAAATATAAAAACGTGCTCGATCAAAGCGTGACCAATCTTGGAGCAATGGAATTTGAGAACATGGTTTCCTTTTCCGAGGTCGTTCAGGTGGTCCACCGGATTGAAATGGTTCTCCGTACGAAAACGGAAATATTAAATTATGTGAATGAGCTCGGAATTGAAGGGCGCCTGATCCAGCTTCAGCTCACAGAACTTGTCTCCAACATAGAGGAAGAGGCGGAGCTTCTTATGAAGGATTACAGCCGCCGGCCGGATTACGAACCATACTACATTTTGAAAAAGATGCAGGAAGTGACCAATCCGGAACTGCTCTCTGATGAACAGGTGCTGAAACTGCTGGGGTATTCAACGGGGACGAAACTTTCCGACCCGGTCCACCCACGCGGCTATCGTATTCTCAGCCGTATTCCGCGCCTTCCATTTTTAATTATCGAACATCTGGTGGAGCGGTTCAGCACACTCGACGATTTGATCCAGGCTTCTCCGAAAGATCTCGTGAAAGTGGATGGTGTAGGAGAAATCCGGGCAGCGAAGATCAGAGACGGTCTCGACCGCATACAGGAACAACTGTTTGTAGATCGTCATATATAA	MEWHEIKENGIGDILKLVAPGTPLRDGIDNVLRANTGGLIVLGYGDGMRELVDGGFHIQSDFTPAHLYELAKMDGALILNDEASKILYANAQLMPDPDILSNETGMRHRTAERVAKQTGSLVIAISQRRNVITLYKGSLRYSLKDIGVILTKANQAIQTLEKYKNVLDQSVTNLGAMEFENMVSFSEVVQVVHRIEMVLRTKTEILNYVNELGIEGRLIQLQLTELVSNIEEEAELLMKDYSRRPDYEPYYILKKMQEVTNPELLSDEQVLKLLGYSTGTKLSDPVHPRGYRILSRIPRLPFLIIEHLVERFSTLDDLIQASPKDLVKVDGVGEIRAAKIRDGLDRIQEQLFVDRHI	PGPT0014770_492	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-SPORULATION_SIGNALLING,PGPT0014770-disA-K07067	NA	NA
AK012_03906	1101	yacL	COG4956	putative PIN and TRAM-domain containing protein YacL	GTGCTTAAACGTATTGTACAGTTGTTTATTGTTATTACCGGCGGAACCATCGGTTACCTCTATTTCCCTGAACTGTTTACAACCATGGGGCTTACGTGGCAGACCTGGATTCAAGCTGTCATGGGAGCTGTAATAGGAGCACTTATTTTATTTTTATTAACATTCTGGATCGTAGATTATATTGTTGATTTCATTCGATGGGTGGAGGATTCTCTTGTCCGGGCACCTGTCGCTGATTTACTGTTCGGAAGTTTAGGTTTAATCGTTGGACTGCTGATTGCGTACTTGATTAACGTGTTTGTCCAGGATATTCAAATCCAGGTCATCAACCAGGTCGTGCCGATCGCTTTGACTGTGCTGCTTGGGTACCTCGGGTTCCAGGTCGGATTTAAGCGTAAAGATGAATTTTTGAATCTCGTTTCCAAAAAGGAGAAAAAAGCGGAGGACGAAACGGGTGGCTCTTCGGGAGCGTCCGTGGATGAGTCCTTGATTCCAAAGCAGAAAATTCTTGATACCAGCGTCATCATTGATGGAAGAATCGCAGATATTTGTGAGACGCATTTCTTGGAAGGGACGATTGTCATCCCCCAGTTCGTACTGGAAGAGCTTCAGCATATTGCTGATTCCTCCGACGGGCTGAAGAGAAACCGCGGCCGCAGAGGTCTGGATATTCTAAACCGTCTGCAGAAAGATCTTCCGGTCAATGTCGAGATCTACGAAGGCGATTTTGAGGATATCCAGGAAGTAGACAGTAAGCTTGTGAAACTGGCAAAAGTCACCGACGGTATCGTCGTGACCAACGACTTTAACTTGAATAAAGTCTGTGAGTTTCAAAATGTTCAGGTGCTGAATATTAATGATCTTGCCAATGCTGTGAAGCCTGTCGTACTACCGGGTGAAGAGATGACGATCCAGGTAATTAAAGACGGGAAAGAACAGAATCAGGGTGTCGCTTATCTGGATGACGGGACGATGATTGTCGTTGAGGAAGGGAAAGATTTCATCGGCAAGACGATCGAAGTGGTGGTCACCAGTGTGCTGCAGACATCAGCAGGGCGCATGATTTTCGCAAAGCCTAAATCACTTGAAAAAGCCCTTTAA	MLKRIVQLFIVITGGTIGYLYFPELFTTMGLTWQTWIQAVMGAVIGALILFLLTFWIVDYIVDFIRWVEDSLVRAPVADLLFGSLGLIVGLLIAYLINVFVQDIQIQVINQVVPIALTVLLGYLGFQVGFKRKDEFLNLVSKKEKKAEDETGGSSGASVDESLIPKQKILDTSVIIDGRIADICETHFLEGTIVIPQFVLEELQHIADSSDGLKRNRGRRGLDILNRLQKDLPVNVEIYEGDFEDIQEVDSKLVKLAKVTDGIVVTNDFNLNKVCEFQNVQVLNINDLANAVKPVVLPGEEMTIQVIKDGKEQNQGVAYLDDGTMIVVEEGKDFIGKTIEVVVTSVLQTSAGRMIFAKPKSLEKAL				NA	NA	NA	NA	NA
AK012_03907	1185	ispDF		Bifunctional enzyme IspD/IspF	ATGATAAAATACACAGCGATTGTGCTTGCGGCCGGACAGGGAAAGCGGATGGGTGCAGGGCACAATAAACAATTTATAAACATTAATGATAAACCTCTGGTTCTTCATACATTAGCTGTCTTTGAAAGAGATACCTGGTGTGAGGAGATCATTCTCGTTACGAATGAACAGGAGCGGGATCAGATGGAAGCTCTGCTGGAGCGTTTTCCATCGGCCACACCCATCAGGGCTGTGGATGGGGGAGCGGAGCGGCAGGACAGTGTATACGAAGGACTTTCTGCCGTGCGCCATCAAACCTTTCCTGTGCTGATCCATGACGGAGCACGTCCATTTGTTCTGGAGGAAAGCCTTCATACATTGGCCGAAACAGCTTTAGATAAAGGGGCCGCCCTGCTGGCCGTTCCAGTCACGGATACGATTAAACAGAAAGAGGGCACAAGGCTGACAACCCTCGACCGTAACAAACTGTGGGCCGCTCAGACGCCGCAGGCTTTTCAGTATGATCTCATTACCAGAGCGCATGAAGAGGCGCGGGAACGTGGATACTACGGTACAGATGATGCGTCATTAGTGGAACAGTCAGGAAAAGAAGTAGCGGTTGTTCAAGGAAGTTACGACAATATTAAGCTGACAACTCCTGAGGATTTACATAAGGCGGAGGCCTATTTGAATAATCAAAAGGAAAAGGAGACACACGCCATGTTTCGAATTGGACAAGGTTTTGATGTACACCAGCTGACAGAAGGGCGTCCTTGTATCATCGGGGGGATTGAGATTCCGTATGAAAAAGGACTTCTCGGACACTCCGATGCTGATGTTCTGCTTCATACGATTGCGGATGCTTGTCTTGGAGCGGTCGGGGAAGGGGATATCGGGAAACATTTTCCGGATACCGACCCGGAGTTTAAGGATGCAGACTCCGGCCGTCTTCTCCAGCATGTATGGAAAATCGTCGGGGAAAAAGGGTACACGCTTGGAAATATGGACTGTACGGTCATTGCTCAGGCTCCTAAAATGGCCCCTTATATCGAACAAATCAGAGAAAACATTGCTGATCTGCTCCAGACAGAGATCGACCTTATCAATGTGAAAGCGACAACGACAGAGAAGCTCGGCTTTGCCGGCCGAAAAGAAGGAATTGCGGCCCAGGCGGTTGTTCTGTTGCAAAAGAATCCACAATCCTGA	MIKYTAIVLAAGQGKRMGAGHNKQFININDKPLVLHTLAVFERDTWCEEIILVTNEQERDQMEALLERFPSATPIRAVDGGAERQDSVYEGLSAVRHQTFPVLIHDGARPFVLEESLHTLAETALDKGAALLAVPVTDTIKQKEGTRLTTLDRNKLWAAQTPQAFQYDLITRAHEEARERGYYGTDDASLVEQSGKEVAVVQGSYDNIKLTTPEDLHKAEAYLNNQKEKETHAMFRIGQGFDVHQLTEGRPCIIGGIEIPYEKGLLGHSDADVLLHTIADACLGAVGEGDIGKHFPDTDPEFKDADSGRLLQHVWKIVGEKGYTLGNMDCTVIAQAPKMAPYIEQIRENIADLLQTEIDLINVKATTTEKLGFAGRKEGIAAQAVVLLQKNPQS	PGPT0007600_401	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007600-ispDF-K12506	NA	NA
AK012_03908	1470	gltX		Glutamate--tRNA ligase	ATGACAAACGAAGTACGTGTGCGGTATGCACCAAGTCCAACAGGATATCTTCATATCGGAAATGCCAGAACAGCATTGTTCAATTACCTGTTTGCAAAGAACGCAGGAGGGAAAATGGTTGTCCGCATCGAGGATACCGATGAAAAACGGAATGTGAAAGGCGGCGAACAAAGCCAGCTCGACTATTTGAAATGGCTCGGGATTGAATGGGATGAGAGTCCGAATCTGGGCGGAGAGTACGGTCCCTACCGTCAGATGGAGCGTCTGGACATTTACAAAAAGTATGTCGACGAGCTGATGGAGCGCGGCCTTGCTTACAAATGCTATATGACAGCAGAAGAACTGGAAGCGGAACGCGAGGCGCAGATGGCACGCGGAGAAGCTCCTAAGTATTCCGGAGCGCACAGAAACCTGACACAGGAACAAGTCGCTGCATTTGAAGCAGAAGGACGCGAACCGAGTATCCGTCTGCGTGTGCCGGAGAACCATACGTATACGTTCAATGATATTGTACGGGGGGATATTACGTTTGAATCCAGTGACTTCGGAGACTGGGTCATCGTTAAGAAAAACGGGACTCCAACGTACAATTTTGCTGTAGCCATTGATGATTACCTTATGAAAATCACCCACGTGCTGCGCGGAGAAGAGCACATTTCCAACACACCGAAGCAGATGATGGTTTATGAAGGATTCGGATGGGAAGCTCCGAAATTTGGTCACATGACGCTGATCCTGAACGAAGACCGTAAAAAACTGAGTAAGCGTGATGAGCATATTCTTCAGTTCATTTCCCAATACAATGATCTTGGCTACAAGCCGGAAGCGCTGTTCAACTTCATCACCCTGCTTGGCTGGTCCCCGGTCGGTGAAGAGGAGATCTTTACGCAGGAGCAGCTGATTGATATTTTCGATGCCGATCGTCTCTCCACATCCCCGGCTGTCTTTGATGCGGCGAAGCTGAAATGGATGAACAACCAGTATATTAAAGCCGCAGACCTTGATCAGGTCGTCGAGCTTGCTCTTCCTCATCTTGTGAAAGCCGGACGCGTATCGGAAGACATGAGTGAAGCAGACCGTCAATGGGTGAAGGAACTTATCGGCCTTTACCAGGAGCAGTTGAACTATGGAGCGGAAATCGTCGAGCTGACGGAGCTTTTCTTCAAACAGGAAATCCAGTACGATGAAGCGGCTATGGAAGTGCTCCAGGGCGAGCAGGTGCCTGAGGTGCTTGAAACATTCAAGAAGAACCTTCAGGAATTGGAAGAGTTCACGCCGGCCAATATTAAAGCTCAAGTTAAAGCGGTGCAGAAAGAAACCGGTCATAAAGGGAAGAAACTCTTCATGCCGATCCGTGTCGCCACAACCGGTCAGACACACGGTCCTGAGCTCCCTGACGCGATTCATCTGCTTGGACTTGAGACGGTTACCGTCCGCCTGGATGATGTATTAAGCAAATTACAAGCTTAA	MTNEVRVRYAPSPTGYLHIGNARTALFNYLFAKNAGGKMVVRIEDTDEKRNVKGGEQSQLDYLKWLGIEWDESPNLGGEYGPYRQMERLDIYKKYVDELMERGLAYKCYMTAEELEAEREAQMARGEAPKYSGAHRNLTQEQVAAFEAEGREPSIRLRVPENHTYTFNDIVRGDITFESSDFGDWVIVKKNGTPTYNFAVAIDDYLMKITHVLRGEEHISNTPKQMMVYEGFGWEAPKFGHMTLILNEDRKKLSKRDEHILQFISQYNDLGYKPEALFNFITLLGWSPVGEEEIFTQEQLIDIFDADRLSTSPAVFDAAKLKWMNNQYIKAADLDQVVELALPHLVKAGRVSEDMSEADRQWVKELIGLYQEQLNYGAEIVELTELFFKQEIQYDEAAMEVLQGEQVPEVLETFKKNLQELEEFTPANIKAQVKAVQKETGHKGKKLFMPIRVATTGQTHGPELPDAIHLLGLETVTVRLDDVLSKLQA	PGPT0008460_5259	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-TOXIN-ANTITOXIN_SYSTEM	CE-BACTERIAL_FITNESS-TYPE_II_TOXIN-ANTITOXIN_SYSTEM_REALATED_FACTORS,PGPT0008460-gltX-K01885	NA	NA
AK012_03910	660	cysE	COG1045	Serine acetyltransferase	ATGGGGCTTTTTAAAATGTTCAAGGAAGATGTGGATGTCGTGTTTGATCAGGATCCTGCTGCTCGTTCTTACATTGAAGTCATTCTTACCTATTCCGGCCTCCACGCCATCTGGGGCCACCGGGTGGCCCATGCGTTTCACAAGAGGAAATTCTTTTTTCCTGCCCGTTTGATCTCCCAGTGGAGCCGCTTCTTAACCGGAATCGAAATCCATCCGGGCGCAAAGATCGGCCGCCGCTTTTTTATCGACCACGGCATGGGCGTAGTCATCGGGGAAACGTGCGAAATCGGCGATAATGTGACGATTTTCCAAGGTGTGACTCTCGGGGGGACAGGGAAGGAAAAAGGCAAGCGCCACCCGACGCTGCTCGATAATTCCCTCGTTGCTACAGGAGCGAAAGTTCTTGGGTCCATCACTATAGGAGAAAACTCCAAGGTAGGGGCCGGATCTGTCGTACTGAAGGACGTCCCGGACAATTCCACAGTCGTCGGGATCCCGGGGCATGTCGTGATCCAGAACGGCAGGAAAGTCCAGAAAAACCTTGACCACCATAAACTGCCGGACCCTGTTTATGACCGGCTGAACAATCTCGAAAAAGAAATACAGCAGCTGCGTGAACAGCTGAAAGAGAAAGAAGGAGTGAAGACCAATGGCGATTAA	MGLFKMFKEDVDVVFDQDPAARSYIEVILTYSGLHAIWGHRVAHAFHKRKFFFPARLISQWSRFLTGIEIHPGAKIGRRFFIDHGMGVVIGETCEIGDNVTIFQGVTLGGTGKEKGKRHPTLLDNSLVATGAKVLGSITIGENSKVGAGSVVLKDVPDNSTVVGIPGHVVIQNGRKVQKNLDHHKLPDPVYDRLNNLEKEIQQLREQLKEKEGVKTNGD	PGPT0020265_4197	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
AK012_03911	1401	cysS	COG0215	Cysteine--tRNA ligase	ATGGCGATTAACGTATATAACACTTTAACGCGAAGGAAAGAACCATTTACACCCATTGAAGAAGGCAAGGTAAAGATGTATGTGTGTGGACCGACCGTCTACAACTACATTCACATCGGAAATGCCCGCCCGGCCATCGTCTTCGATACTGTCCGCCGTTATTTTGAATACCGCGGCTATGATGTCCACTATGTGCTCAACTTTACAGATGTGGATGACAAATTGATTAAAGCGGCTAACGAAATGGGAGAAGGCGTGACAGATATCGCCAACCGGTTTATCGATGCCTATAAGGAGGATGTTGGTGCCCTTGGAGTGAAAGAAGCGGTCGATCATCCCCGCGTAACAGAAAACATGGAAGAAATCATCAGCTTCATTCAAGGACTCGTTGATAAAGGATACGCTTATGAAGCAGGCGGAGATGTGTATTTCCGTACCCGCTCCTTTGACAATTACGGCAAACTTTCTCATCAGTCCGTGGATGAGCTTCGTTCCGGCTCCCGCATTGAGGTTGGAGATAAAAAAGAAGATCCGCTCGATTTCACCCTTTGGAAAAATGCAAAGCCGGGGGAAATTACCTGGGAAAGCCCCTGGGGAACCGGTCGTCCGGGCTGGCATATTGAATGCTCGGCCATGGCTAAAAAGTATCTCGGAGATACGATTGATATTCATGCGGGCGGCCAGGACCTTACCTTCCCCCACCATGAGAACGAGATTGCACAGTCTGAGGCCCATAATGGAGAATCCTTTGCTCGTTACTGGATGCATAATGGGTATATTAATATCGACAACGAAAAGATGTCGAAATCCCTCGGAAACTTTATTCTTGCTCATGATCTTGTGAAAAAGCATGATCCGAAAGTTATCCGCTTCTTCATGCTGAGTGTCCAGTACCGTCATCCGATCAATTTCAGTGATGAGTTGTTGAAAGGGGCCAAGAGCAGTTTCGAGCGTATTCAGAATGCTTATGAGAATGTCCGCCACCGCAAGGATACGTCTATGAGCCTGCAGGCAGAGCGTGACGAGTGGCTGGAGAAGGTGCAGGGATTCAAGGAACAGTTCATTAAGGAAATGGATGATGATTTCAATACGGCGAATGCGATTTCTGTCATTTTCGATCTGACCAAGGCCGCCAACCTTTACCTGCAGGAAAGTCAGACACATGTCGATGTGCTTGATGCATTTGAACAGACGCTGGCAGAACTGATGGGTGTACTTGGTATTCAAATTGGAGAAGAAACAGATCTTCTTGATGAAGAAATCGATGCCTTGATTGAAGAGCGTAAACAAGCTAGGAAAGACCGTAACTTTGAGCGTGCCGATCAGATCCGTGATGAGCTGAAGGACCGTCATATTATCCTGGAGGATACATCACAGGGAACGCGCTGGAAGCGGGGCTGA	MAINVYNTLTRRKEPFTPIEEGKVKMYVCGPTVYNYIHIGNARPAIVFDTVRRYFEYRGYDVHYVLNFTDVDDKLIKAANEMGEGVTDIANRFIDAYKEDVGALGVKEAVDHPRVTENMEEIISFIQGLVDKGYAYEAGGDVYFRTRSFDNYGKLSHQSVDELRSGSRIEVGDKKEDPLDFTLWKNAKPGEITWESPWGTGRPGWHIECSAMAKKYLGDTIDIHAGGQDLTFPHHENEIAQSEAHNGESFARYWMHNGYINIDNEKMSKSLGNFILAHDLVKKHDPKVIRFFMLSVQYRHPINFSDELLKGAKSSFERIQNAYENVRHRKDTSMSLQAERDEWLEKVQGFKEQFIKEMDDDFNTANAISVIFDLTKAANLYLQESQTHVDVLDAFEQTLAELMGVLGIQIGEETDLLDEEIDALIEERKQARKDRNFERADQIRDELKDRHIILEDTSQGTRWKRG	PGPT0002985_4065	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-H2S-VOLATILE_PATHWAY,PGPT0002985-cysS-K01883	NA	NA
AK012_03912	384	mrnC	COG1939	Mini-ribonuclease 3	ATGAAGAGTCTGGCTCTTGCCTATATGGGGGATTCCGTGTATGAACTCTATGTCAGGCATCATCTCTTAGAAAAAGGGGAAGTAAAACCGCAGCAGCTTCATCAGGCAGCGGTCCAGTTCGTATCAGCTGGATCGCAGGCCGCTGTTGTCCAAGCCTGGCAGGAGGATGGCCTTTTAACGGAGGAGGAACAAGGTGTTCTCCGACGGGGGCGCAACGCCAAATCCGGGTCTGTACCGAAAAGCACGAACGTCCAGACCTACCGTTACTCCACAGCATTTGAAGCCGTGCTCGGCTTTTTGTATTTATCCGGTCGTACCGAAAGACTGGAAACTCTGATTGACTATTCCATACAGCACGTAGAAGAAAGGAGCGAACATTCATGA	MKSLALAYMGDSVYELYVRHHLLEKGEVKPQQLHQAAVQFVSAGSQAAVVQAWQEDGLLTEEEQGVLRRGRNAKSGSVPKSTNVQTYRYSTAFEAVLGFLYLSGRTERLETLIDYSIQHVEERSEHS				NA	NA	NA	NA	NA
AK012_03913	747			Putative TrmH family tRNA/rRNA methyltransferase	ATGACAAACGAAGAATGGATCATAGGGAAAAACCCGGTGCAGGAAGCGCTGCGGTCCGGACGCTCCATCAACAAGGTGATGGTATCCGATCAGCTCCAGTACCAGGCTTTCAAAAAGTTGGAGCAGCTGGCTAAAGAACAGGGTGTCAACGTCCAGAAGGTACCGAAGAAAAAAATTGATCAGCTCGTGGACGGCAGCCACCAGGGGGTGGCAGCTTCCGTGGCGGCTTATGACTATGCCGATCTTGAAGACCTGTTTGCCAAAGCGGAGGAAAAAGGAGAGGCGCCGTTTTTCATTATCTGTGATGAAATTGAAGATCCCCATAACCTTGGGTCCATCCTGCGTACAGCAGATGCAGCCGGGGCACATGGTGTGATCATTCCCAAACGCCGGTCCGTTGCTCTTACGGCCACGGTGGCAAAAACGTCGACAGGAGCGATCGAGTACATCCCGGTTGCACGTGTCACCAACCTGGCACGTACGATTGATGAACTGAAGGAACGGTTCGTCTGGGTTGTCGGCACAGATGCAGAGGGTACAGAGGATTACAGACAGCTGGACGGCAGCATGCCGATTGCCCTTGTGATTGGAAGTGAAGGCCGTGGAATGAGCCGCCTGACAAAAGACAAATGCGACTGGACCGTCAGCCTGCCGATGGCTGGTAAAGTAACTTCGTTGAATGCTTCTGTTGCGGCATCTCTGCTCATGTACGAAGTCCATCGCAAACGGCATCCGCTGGGTGAATGA	MTNEEWIIGKNPVQEALRSGRSINKVMVSDQLQYQAFKKLEQLAKEQGVNVQKVPKKKIDQLVDGSHQGVAASVAAYDYADLEDLFAKAEEKGEAPFFIICDEIEDPHNLGSILRTADAAGAHGVIIPKRRSVALTATVAKTSTGAIEYIPVARVTNLARTIDELKERFVWVVGTDAEGTEDYRQLDGSMPIALVIGSEGRGMSRLTKDKCDWTVSLPMAGKVTSLNASVAASLLMYEVHRKRHPLGE				NA	NA	NA	NA	NA
AK012_03914	510	yacP	COG3688	putative protein YacP	ATGGTTGTATTAATTGTTGACGGCTACAACATGATCGGAGCCTGGCCGGAACTGGTGAAATTAAGGGATAAGGATCTCGGCCAGGCCCGGGATCTGTTAATCGAAATGATGGCGGAGTATCAATCCTACACCGGTGACAGGATCATTATCGTATTCGACGCCTATCATGTTCGTGGTCTTGAAAAAAAACATAAAAATTACAAAGTGGAAGTCATCTTTACAAAAGAAAATGAAACGGCGGATGAACGTATCGAAAAATTAGCAGGTGACTTAAACGATGTCCGCACACAGGTGTATGTGGCGACATCGGATTATGCCGAGCAGCGTACGATCTTCGGCCAGGGAGCTTTCCGGAAATCGGCCCGCGAGCTTTATATTGAAGTGCGGAATATAGAAAACCAGATTGAAAAAGACGTAGAAAACCATAACTTATCCCCGTATCAATCCAAGATTCCCATCAATAAAGAAATGCGGGAGCTCTTTGAGAAATGGCGGCGAGGAGATAAATAA	MVVLIVDGYNMIGAWPELVKLRDKDLGQARDLLIEMMAEYQSYTGDRIIIVFDAYHVRGLEKKHKNYKVEVIFTKENETADERIEKLAGDLNDVRTQVYVATSDYAEQRTIFGQGAFRKSARELYIEVRNIENQIEKDVENHNLSPYQSKIPINKEMRELFEKWRRGDK	PGPT0010355_25	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_FITNESS	CE-BACTERIAL_FITNESS-RESISTANCE_TO_ANTIMICROBIAL|TOXIC_COMPOUNDS	CE-BACTERIAL_FITNESS-TETRACYCLINE_RESISTANCE,PGPT0010355-otrA|tetM|tetO-K18220	NA	NA
AK012_03915	657	sigH	COG1595	RNA polymerase sigma-H factor	GTGAGCATCTTACAAACGGAGAAAAGCAGCAGTGAGTTGGATCTTAGCAAGCTTGATGATGAAGCGATCGTTGAGAGGATCAATCAAGGACAGGTCCAGGCGCTTGACTATTTGATCAATAAGTACAAGAATTTTGTGCGCGCAAAGGCTCGAACCTACTTTCTTATTGGAGCCGACAGGGAAGATATTGTTCAGGAAGGTATGATAGGCCTTTATAAAGCCATCCGCGATTATCGTGAAGGCAGACTCTCGTCTTTTAAAGCATTCGCAGAACTGTGTGTCACTCGTCAGATTATCACCGCCATTAAAACCGCCACCAGACAGAAGCATATCCCATTAAACTCCTACGTTTCTTTGGACAAGCCGATATATGATGAAGAATCAGACAGAACCCTGCTTGATGTCATCGCCGGTTCCAAAGCCATTGACCCTCAGGAATTAATTGTGAATAAAGAAAAATTCGCTGATATGGAAGAGAAAATGTCCGAACTGCTGAGCGACCTTGAAAGAAAGGTTCTTACATTGTACCTGGATGGACGCTCCTATCAGGAAATTTCAATAGAGCTCGACAGACACGTGAAGTCTATTGATAATGCGCTGCAGCGGGTGAAGAGGAAGCTTGAAAAGTACCTGGAAATCAGTGAAATCACGCTCTGA	MSILQTEKSSSELDLSKLDDEAIVERINQGQVQALDYLINKYKNFVRAKARTYFLIGADREDIVQEGMIGLYKAIRDYREGRLSSFKAFAELCVTRQIITAIKTATRQKHIPLNSYVSLDKPIYDEESDRTLLDVIAGSKAIDPQELIVNKEKFADMEEKMSELLSDLERKVLTLYLDGRSYQEISIELDRHVKSIDNALQRVKRKLEKYLEISEITL	PGPT0014795_1638	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014795-sigH|sigG|sigF|sigE-K03091	NA	NA
AK012_03916	177	secE		Protein translocase subunit SecE	ATGTTTAAGTTCTTCAAGAATGTAGCACGGGAGATGAAGAAGGTCAGCTGGCCGAAGGGTCAGGAGCTGACGCGTTACACCATTACCGTTCTCGGAACGGTCGCTTTCGTAGCTGTGTTCTTTGCTATTGTAGATCTTGGGATTTCCCAGGTGCTTGAACTCATTGCTCAAGAATAG	MFKFFKNVAREMKKVSWPKGQELTRYTITVLGTVAFVAVFFAIVDLGISQVLELIAQE	PGPT0025715_3856	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025715-secE-K03073	NA	NA
AK012_03917	447	nusG	COG0250	Transcription termination/antitermination protein NusG	ATGGAAGATAAGATCTTCCGTGTTCTTGTCCCGGAAGACGAGGAAGCTGAAATTAAAAACGGCAAAAAGAAAATTGCGAAGAAGAAGGTCTTCCCAGGCTATGTTCTTGCAGAAATGGTTATGACGGATGATTCCTGGTATGTCGTTCGTAACACACCGGGTGTAACCGGATTCGTCGGCTCCACAGGCTCAGGATCCAAGCCGATTCCTCTGCTCCCCGAGGAAGTAGAAACCGTCCTTAAGCGGATGGGCATGAATGAACAGCCGAAGGCAGAGGTTGACTTTGAGGTGAAGGAAAGTGTTACAGTAACAGATGGGCCTTTTGCCAACTTCACCGGTACGATCGAATACATTGACACAGATAAGCAGAAGGTTAAAGTCCACGTCAATATGTTCGGACGTGAAACGCCGGTCGAGTTGGACTTCACTCAAATCGAAAAATTATAA	MEDKIFRVLVPEDEEAEIKNGKKKIAKKKVFPGYVLAEMVMTDDSWYVVRNTPGVTGFVGSTGSGSKPIPLLPEEVETVLKRMGMNEQPKAEVDFEVKESVTVTDGPFANFTGTIEYIDTDKQKVKVHVNMFGRETPVELDFTQIEKL				NA	NA	NA	NA	NA
AK012_03918	471	rplK	COG0080	50S ribosomal protein L11	GTGAATCCCTATTACCACATCACGGACTTTAAGGAGGTGTGTCTCGTGGCTAAAAAAGTAATTAACGTAGTTAAGCTTCAAATCCCTGCGGGTAAAGCTAACCCAGCGCCGCCAGTAGGACCGGCACTAGGTCAAGCAGGTATCAATATCATGGGTTTCTGTAAAGAGTTTAACGCTCGTACGCAGGAACAGGCGGGTACGATTATTCCGGTTGAAATTACCGTATATGAGGACCGCTCATTTACATTCGTTACTAAAACTCCACCTGCTGCTGTTCTTCTTAAGAAAGCGGCTGGTATTGAATCAGGTTCCGGTGAGCCGAACCGTAACAAAGTTGCTTCTGTTAAACGTGACCAAGTTCGCGAAATCGCAGAAACGAAAATGCCTGATTTAAATGCGGCTGACGTTGAAGCTGCTATGCGCATGGTTGAAGGTACAGCGCGCAGCATGGGAATCACAATCGAAGACTAA	MNPYYHITDFKEVCLVAKKVINVVKLQIPAGKANPAPPVGPALGQAGINIMGFCKEFNARTQEQAGTIIPVEITVYEDRSFTFVTKTPPAAVLLKKAAGIESGSGEPNRNKVASVKRDQVREIAETKMPDLNAADVEAAMRMVEGTARSMGITIED				NA	NA	NA	NA	NA
AK012_03919	696	rplA	COG0081	50S ribosomal protein L1	ATGGCTAAAAAAACGAAAAAGCAGCAAGAACTTCAAAAACTTGTTGACCGTACAAAAGCTTATGATGTGCAGGAAGCGATCAAGCTTGTAAAAGAAACTTCAAAAGCTAACTTTGATGAAACTGTTGAAGCAGCTTTCCGTCTGGGTGTAGACCCTAAAAAAGCGGATCAGCAGATCCGTGGCGCGATGGTGCTTCCACACGGTACAGGTAAATCCCAGCGTGTGCTTGTTTTCGCTAAAGGTGATAAAGCGAAGGAAGCAGAAGCTGCTGGTGCAGACTACGTAGGAGAGCAGGACTTGATCAACCAAATCAACCAAGGCTGGTTCGACTTTGATGTTGTTGTTGCAACACCAGACATGATGGCTGAAGTTGGTAAACTTGGTCGTGTACTTGGACCAAAAGGTCTTATGCCAAACCCTAAAACCGGCACGGTAACGTTCGAAGTTGAAAAAGCTGTGAACGAAATCAAAGCTGGTAAAGTAGAGTACCGCGTTGATAAAGCAGCAAACATTCACGTTCCAATCGGTAAATCTTCTTTCGACGAAGAAAAACTGGCTGAAAACTTCGCTGCCATTACAGATGCATTGGTTAAAGCGAAGCCACAGGCTGCTAAGGGAACTTATATGCGTAACGCTGCTGTTTCATCTACGATGGGGCCTGGAATCAAAGTAGACGTTTCTGCTTACACGAAGTAA	MAKKTKKQQELQKLVDRTKAYDVQEAIKLVKETSKANFDETVEAAFRLGVDPKKADQQIRGAMVLPHGTGKSQRVLVFAKGDKAKEAEAAGADYVGEQDLINQINQGWFDFDVVVATPDMMAEVGKLGRVLGPKGLMPNPKTGTVTFEVEKAVNEIKAGKVEYRVDKAANIHVPIGKSSFDEEKLAENFAAITDALVKAKPQAAKGTYMRNAAVSSTMGPGIKVDVSAYTK				NA	NA	NA	NA	NA
AK012_03921	501	rplJ		50S ribosomal protein L10	ATGAGCGGTATTATCGAACAGAAGAAACAGATTGTATCTGATCTAGCTGAAAAGTTCCGCAACAGTAAATCTGCTGTATTAGTAGATTACCGCGGTCTTGATGTAGCTGAAGTCACTGAACTTCGTAATCAGCTTCGTGAAGCCGGCGTAGAATACAAAGTGCATAAAAACACTATGATTCGCCGTGCGGCTGCAGAAGTTGAACTATCTGACCTTGATGAAGTATTGCAAGGGCCAACAGCGATTGCTTTCCACGCAGAAGATGCGGTAGCTCCTGCTAGAATCCTTAACAACTTCGCTAAAGATCATGAAGATCTTGAAATCAAGGGCGGTGTAGTAGAAGGCCAGGTCGCAACTCTTGAGCAGATCAAAGAAGTTGCCAACCTTCCAAACTACGAGGGTCTTGTATCTATGTTCCTAAGCGTACTACAAGCTCCAATCCGCAACTTCGCTTATGCTACGCAGGCGGTCGCGGATCAAAAAGAAGAAGAAAGTGCGTAA	MSGIIEQKKQIVSDLAEKFRNSKSAVLVDYRGLDVAEVTELRNQLREAGVEYKVHKNTMIRRAAAEVELSDLDEVLQGPTAIAFHAEDAVAPARILNNFAKDHEDLEIKGGVVEGQVATLEQIKEVANLPNYEGLVSMFLSVLQAPIRNFAYATQAVADQKEEESA				NA	NA	NA	NA	NA
AK012_03922	366	rplL		50S ribosomal protein L7/L12	ATGTCTAACGAACAAATTATCGAAGCGATTAAAGAAATGTCTGTTCTTGAGCTTAACGACCTAGTTAAAGCAATTGAAGAAGAATTTGGTGTATCTGCTGCAGCCCCTGTAGCTGCTGGTGCTCCTGCTGGTGGTGCTGAAGCTGCCGAAGAGCAAACTGAATTTGATGTAGTACTAGAATCTGCTGGTTCTTCTAAGATCAAAGTGGTTAAAGCTGTACGCGAAATCACTGGTGCTGGTCTTAAAGACGCTAAAGAAATGGTTGATGGTGCTCCAAGCGCGATCAAAGAAGGCGTTTCTAAAGAAGAAGCTGAAGAAATCAAATCTCAGCTTGAAGAAGCAGGCGCTACTATCGAACTTAAGTAA	MSNEQIIEAIKEMSVLELNDLVKAIEEEFGVSAAAPVAAGAPAGGAEAAEEQTEFDVVLESAGSSKIKVVKAVREITGAGLKDAKEMVDGAPSAIKEGVSKEEAEEIKSQLEEAGATIELK				NA	NA	NA	NA	NA
AK012_03923	606	rlmG	COG2813	Ribosomal RNA large subunit methyltransferase G	ATGTCGGAGCATTATTATTCAAAAAAGACATTAACGGCTAGTGAAGAAAAGACGTGGTCCTTTGAACTGAAAGGTTTCCCGTTTTCCTTTACCACAGATCATGCCGTCTTTTCCAAAAATGAAGTAGACTTCGGGTCTAGAGTGCTGATTGATGCATTTCAGCTTCCGGAAGTGGAAGGAGAAATCCTTGATCTTGGCTGCGGGTATGGTCCGATTGGACTGTCTCTCGCGAAAGCTTTTAGTGACCGCCGTTTTGTGATGGTGGATGTAAATGAACGGGCCCTCCATCTCGCAGAAAAGAATGCGGCTGCCAATGAAGTTGATAATGTAACCATTTTGGAGAGTGATCGTCTTCAAGGTGTGCAGGACAGGAAGTTTGCTGCTGTATTGACGAATCCGCCCATTCGTGCCGGTAAGCCGGTCGTCCACGCGATGTTTGAAGAGGCAGCGAAGGCACTGCTGCCAGGAGGAGAAATATGGGTGGTTATTCAGAAGAAGCAGGGAGCGCCGTCTGCGAAACAGAAGCTTGAAGAATTGTTCGGGGAATCCGAAGTCGTTCTGAAACAGAAAGGCTATTATATTCTCAGAGCAAAAAAGATTGACTAG	MSEHYYSKKTLTASEEKTWSFELKGFPFSFTTDHAVFSKNEVDFGSRVLIDAFQLPEVEGEILDLGCGYGPIGLSLAKAFSDRRFVMVDVNERALHLAEKNAAANEVDNVTILESDRLQGVQDRKFAAVLTNPPIRAGKPVVHAMFEEAAKALLPGGEIWVVIQKKQGAPSAKQKLEELFGESEVVLKQKGYYILRAKKID				NA	NA	NA	NA	NA
AK012_03924	3528	rpoB	COG0085	DNA-directed RNA polymerase subunit beta	TTGACAGGTCAACTAGTTCAGTATGGACGACACCGCCAGCGCAGAAGTTATGCACGTATCAGTGAGGTATTAGAGTTACCGAACCTGATTGAAATTCAAACCGCTTCTTACGATTGGTTCTTAAAAGAAGGGTTGAAGGAAATGTTCCAGGACATTTCCCCTATCGAAGATTTCACAGGTAATCTATCGCTTGAATTCGTAGACTACAGCCTTGGCGAACCAAAGTATCCAGTCGATGAGTCAAAGGATCGCGATGTAACATATAACGCACCACTTCGAGTGAAAGTACGCCTTCTTAACAATGAGACAGGTGAAGTGAAAGAGCAGGAAGTATTCATGGGTGATTTCCCATTGATGACAGATACAGGTACCTTCGTAATCAACGGTGCTGAACGTGTCATCGTATCTCAGCTCGTCCGCTCTCCGAGCGTGTACTTTAACAAGAAAATAGATAAGAATGGTAAACGCGGCTATACGGCAACCGTTATTCCAAACCGCGGAGCGTGGCTGGAATTTGAAACGGATGCCAAAGACGTTGTGCACGTACGTATTGACCGTACGCGTAAACTGCCGATTACAGTTCTGCTGCGTGCTTTAGGATTCGGTACCGACCAGGAGATCATTGATCTTATCGGCGATAACGAATACTTGAAGAACACGCTTGAGAAAGATAACACGGAGACTACCGAGAAAGCCCTGCTTGAAATCTACGAGCGTCTGCGCCCTGGTGAGCCGCCTACAGTAGAGAACGCGAAAAGCTTGCTGGTTTCCCGGTTCTTCGATCCAAAACGCTATGACCTAGCGCGTGTTGGACGATATAAAATGAACAAAAAGCTTCATATTAAGGACCGTTTGTTCAACCAGACACTGGCGGAGACGCTGGTCGATGAGGAAACAGGCGAAGTCATAGCTGAAAAAGGCGATAAAATTGACCGCCGTCTTCTGAATAAACTGATCCCTTACTTCGATGATCAGGAAGGTACGTTGAGTGAAGAGACGCTTGACCCTGTTGAAGGTGTTCTTGAAGATCCGATCCAAGTACAGTCCGTTAAGATCGTTGACCCGACTGATCCGGAAGGGGAGCGTTCCATCAACGTTATCGGCAATGCCAACATTGACCGTGATGTGAAGAACATTACTCCTGCCGACATTCTTTCTTCGATCAGTTACTTCTTCAACCTGCTGCATGATGTAGGCGGAACAGATGACATTGACCACCTTGGTAACCGTCGTCTGCGCTCTGTAGGTGAACTGCTTCAGAACCAGTTCCGTATTGGTCTTTCCCGTATGGAGCGTGTGGTTCGTGAGCGTATGTCCATCCAGGACACATCATCCATTACACCACAGCAGTTGATTAACATTCGCCCGGTTATTGCGTCCATTAAAGAGTTCTTCGGAAGCTCTCAGCTTTCCCAGTTCATGGACCAGACCAACCCGCTTGCGGAATTGACACACAAACGTCGTCTTTCCGCCCTTGGACCAGGTGGTTTAACTCGTGAACGTGCAGGGTTTGAAGTTCGTGACGTACACTATTCCCACTACGGGCGTATGTGTCCGATCGAAACACCGGAAGGTCCGAACATCGGATTGATCAACTCCCTTTCATCCTATGCGAAAGTAAACGAGTTCGGCTTTATCGAAACGCCGTATCGTCGTGTGGATCCGGATACGAATAAAGTAACAGCGCAAATCGACTACTTGACTGCCGATGAGGAAGATAATTACGTGGTAGCTCAGGCGAACGCGAAGCTTGATGACGATGGCGCCTTCACAGATGAAGAAGTTATCGCACGTTTCCGCGGGGAGAACACGGTCGTAGCCCGTGACCGCCTTGACTACATGGACGTATCTCCAAAGCAGGTTGTATCAGCTGCGACGGCATGTATTCCTTTCCTTGAGAACGATGACTCCAACCGTTCATTGATGGGTGCGAACATGCAGCGTCAAGCTGTACCATTGCTTAAGCCGGATGCTCCTCTTGTAGGTACGGGTATGGAATATGTATCTGGTAAAGACTCCGGTGCTGCTGTTATTTGTAAGCACGAAGGAATTGTCGAGCGTGTGGAAGCGAAAGAAGTCCGCGTCCGCCGTATTTCTGAAGTAGATGGCAAAGAGGTTGAGGGCGATCTTGACCGCTACCGCCTTCAGAAGTTTATCCGTTCCAACCAGGGAAGCTGCTATAACCAGCGTCCGATTGTTTCTAAAGGTGATCGTGTGACAAAAGGGGAAATCCTTGCCGATGGTCCATCCATGGATATGGGTGAGCTGGCTCTTGGACAGAACCCGCTTGTTGCCTTCATGACATGGGATGGTTACAACTACGAGGATGCGATCATTATGAGTGAGCGCCTTGTAAAAGATGATGTATACACATCCATTCACATTGAAGAATATGAATCCGAAGCTCGTGATACGAAGCTTGGACCAGAGGAAATCACTCGTGATATTCCTAACGTTGGTGAAGACGCACTTCGTGATCTGGATGACCGCGGAATCATCCGTGTTGGTGCGGAAGTTAGTGACGGAGATCTTCTTGTTGGTAAAGTTACGCCAAAAGGGGTAACCGAGCTATCTGCAGAAGAACGCCTTCTTCATGCCATCTTTGGTGAAAAGGCTCGTGAAGTCCGTGATACGTCCCTTCGTGTACCTCACGGTGCCGGTGGTATCGTGCTTGATGTGAAAATCTTCAACCGCGAAGACGGAGATGAGCTTCCACCAGGAGTGAACCAGCTGATCCGTGTCTATATCGTTCAGAAACGTAAGATTTCTGAAGGCGATAAGATGGCCGGACGTCACGGTAACAAAGGTGTTATTTCCAAGATTCTTCCGGAAGAGGACATGCCGTTCCTTCCAGATGGAACACCGGTTGACATCATGTTGAACCCACTTGGTGTACCTTCCCGTATGAACATCGGTCAGGTGCTGGAGCTGCACATGGGTATGGCGGCTCGTTTGATGGGTGAAAGAATTGCTACGCCGGTATTTGACGGTGCCCGTGAGGAAGACGTATGGGAAACGTTACAGGAAGCAGGCATGGCCCGTGATGCGAAAACGATCCTGTATGATGGACGTACCGGTGATCCGTTTGATAACCGTGTATCTGTCGGAGTCATGTACATGATCAAACTGGCGCACATGGTTGATGATAAACTTCACGCCCGTTCAACTGGACCATATTCATTGGTTACGCAGCAGCCACTTGGTGGTAAAGCGCAATTCGGTGGTCAGCGTTTCGGTGAGATGGAGGTATGGGCCCTTGAAGCATATGGTGCTGCCTATACCCTGCAGGAAATCCTGACAGTTAAATCCGATGACGTTGTTGGTCGTGTGAAGACATACGAAGCCATCGTCAAAGGAGATAACGTACCGGAACCTGGTGTACCGGAATCCTTCAAGGTTCTTATCAAGGAACTTCAAAGTCTTGGTATGGATGTGAAGATTCTCTCCGGTGATGAGGAAGAGATTGAAATGCGCGATATCGAAGAAGAGCAAACCAAAGAATCCGAGAATTTGAACTTAGACGATTAA	MTGQLVQYGRHRQRRSYARISEVLELPNLIEIQTASYDWFLKEGLKEMFQDISPIEDFTGNLSLEFVDYSLGEPKYPVDESKDRDVTYNAPLRVKVRLLNNETGEVKEQEVFMGDFPLMTDTGTFVINGAERVIVSQLVRSPSVYFNKKIDKNGKRGYTATVIPNRGAWLEFETDAKDVVHVRIDRTRKLPITVLLRALGFGTDQEIIDLIGDNEYLKNTLEKDNTETTEKALLEIYERLRPGEPPTVENAKSLLVSRFFDPKRYDLARVGRYKMNKKLHIKDRLFNQTLAETLVDEETGEVIAEKGDKIDRRLLNKLIPYFDDQEGTLSEETLDPVEGVLEDPIQVQSVKIVDPTDPEGERSINVIGNANIDRDVKNITPADILSSISYFFNLLHDVGGTDDIDHLGNRRLRSVGELLQNQFRIGLSRMERVVRERMSIQDTSSITPQQLINIRPVIASIKEFFGSSQLSQFMDQTNPLAELTHKRRLSALGPGGLTRERAGFEVRDVHYSHYGRMCPIETPEGPNIGLINSLSSYAKVNEFGFIETPYRRVDPDTNKVTAQIDYLTADEEDNYVVAQANAKLDDDGAFTDEEVIARFRGENTVVARDRLDYMDVSPKQVVSAATACIPFLENDDSNRSLMGANMQRQAVPLLKPDAPLVGTGMEYVSGKDSGAAVICKHEGIVERVEAKEVRVRRISEVDGKEVEGDLDRYRLQKFIRSNQGSCYNQRPIVSKGDRVTKGEILADGPSMDMGELALGQNPLVAFMTWDGYNYEDAIIMSERLVKDDVYTSIHIEEYESEARDTKLGPEEITRDIPNVGEDALRDLDDRGIIRVGAEVSDGDLLVGKVTPKGVTELSAEERLLHAIFGEKAREVRDTSLRVPHGAGGIVLDVKIFNREDGDELPPGVNQLIRVYIVQKRKISEGDKMAGRHGNKGVISKILPEEDMPFLPDGTPVDIMLNPLGVPSRMNIGQVLELHMGMAARLMGERIATPVFDGAREEDVWETLQEAGMARDAKTILYDGRTGDPFDNRVSVGVMYMIKLAHMVDDKLHARSTGPYSLVTQQPLGGKAQFGGQRFGEMEVWALEAYGAAYTLQEILTVKSDDVVGRVKTYEAIVKGDNVPEPGVPESFKVLIKELQSLGMDVKILSGDEEEIEMRDIEEEQTKESENLNLDD				NA	NA	NA	NA	NA
AK012_03925	3612	rpoC	COG0086	DNA-directed RNA polymerase subunit beta'	TTGCTAGATGTAAACAACTTTGAGTATATGAAAATAGGCCTCGCTTCACCGGATAAGATTCGTTCTTGGTCCTATGGTGAGGTTAAAAAGCCGGAAACGATCAACTATCGTACGTTGAAACCAGAGAAAGACGGTCTTTTTTGTGAACGAATCTTCGGGCCTCAAAAAGACTGGGAATGTCACTGTGGAAAATACAAACGCGTCCGTTATAAGGGCGTCGTTTGTGACCGCTGTGGTGTAGAAGTAACAAAAGCAAAAGTACGCCGTGAGCGTATGGGGCACCTTGAACTAGCTGCCCCTGTCTCTCACATCTGGTACTTCAAAGGTATCCCGAGCCGTATGGGACTTGTACTGGATATGTCACCAAGAGCGCTTGAAGAAGTGATTTACTTCGCCGCTTATATCGTGACTGACCCAGGCGAGACGGCTCTTGAGAAGAAGCAGCTGCTTTCTGAAAAAGAGTACCGTTCATACCGTGAGAAGTTCGGACAAGGCTTCCAGGCTGCTATGGGTGCTGAAGCCATCCGCAAACTTCTTTTCGATATCGACTTGGATGGAGAAGTAGACACGTTGAAGGAAGAACTGAAAACCGCTCAGGGTCAGCGACGCACACGTGCGATCAAGCGCCTGGAAGTGTTGGAATCCTTCCGTCACTCTGGTAACGATCCGTCATGGATGATTCTGGATGTCCTTCCTGTCATTCCTCCAGAACTGCGCCCGATGGTGCAGCTGGATGGTGGACGCTTCGCCACATCTGATTTGAACGACCTTTACCGTCGTGTGATTAACCGTAACAACCGTCTGAAGCGTCTATTGGATCTTGGAGCTCCTACGATCATCGTTCAGAACGAGAAACGTATGCTGCAGGAAGCTGTCGACGCCCTTATTGATAACGGACGCCGCGGCCGACCGGTTACAGGTCCTGGTAACCGTCCGCTTAAATCTCTTTCCCACATGTTGAAAGGGAAGCAGGGACGTTTCCGTCAAAACCTTCTTGGTAAGCGTGTTGACTATTCCGGACGTTCCGTTATCGTTGTTGGACCATCTCTGAAAATGTACCAGTGTGGTCTTCCGAAAGAAATGGCTCTTGAATTGTTCAAGCCTTTCGTTATGAAGGAATTGGTTTCCCGTGGACTTGCTCACAACATCAAGTCAGCGAAACGTAAGATTGAACGCGTCCACCATGAAGTATGGGACGTTCTTGAAGATGTCATTAAAGAGCACCCGGTTCTTCTTAACCGTGCACCAACGCTTCACCGCCTTGGTATCCAAGCGTTTGAACCAACGCTTGTAGAAGGACGCGCCATTCGTCTGCACCCACTTGTATGTACGGCATACAACGCCGACTTTGACGGTGACCAGATGGCCGTGCACGTCCCATTGTCCTCAGAGGCTCAGGCTGAAGCGCGTATCCTGATGCTTGCGGCTCAGAATATCCTGAACCCGAAAGATGGAAAACCGGTTGTTACTCCGTCACAGGATATGGTACTTGGTAACTATTACCTGACTCTTGAGCGTACCAACGCTGTTGGAGAAGGTATGTTCTTCAAGGACTTGAACGAAGCGCTGATGGCTTACCAAAATGGTTATGCCCACCTGCACACACGTGTAGCCGTTCAGGCAAGCTCCTTGAACAACGAAACATTTACAGAAAAACAGAACCAGCAGCTTCTTCTGACTACGGTCGGTAAGTTGATCTTCAATGAAATGCTGCCTAGTTCTTTCCCTTATATTAATGAGCCGACGAAAGAAAACCTGGAAATCAAGACTCCGGATCATTACTTTGTTGAAAATGGAACAGACATCCGCGCAGAAATTGCCAAGCGCGATGAAGTCCCTCCATTCAAGAAAGGCATCCTTGGAGACATCATCGCGGAAGTGTTCAAACGCTTCTCCATCAGTGAAACGTCCAAGATGCTTGACCGTATGAAGGACCTTGGTTTTGCTTATTCTACGAAGGCCGGTATTACAGTCGGTGTATCCGACGTCGTCGTACTTCCAGAGAAACAGGAAATTCTTGATGAAGGTCAGAAGAAAGTCGATAAGGTCATGAAGCAGTTCCGCCGCGGTTTGATCACCGAGGAAGAACGTTATGACCGCGTTATCGAAATCTGGGGTGCAGCGAAGGATGACATTCAGAACCGTCTGATGAAATCCCTCGATCCGCGTAACCCGATCTTCATGATGAGTGATTCCGGAGCCCGTGGTAACGCCTCTAACTTTACGCAGCTTGCGGGTATGCGTGGTCTGATGGCCAACCCGGCTGGACGAATCATTGAACTACCAATCAAGTCCAGTTTCCGTGAGGGTCTGACGGTACTTGAATACTTCATCTCCACACACGGTGCACGTAAAGGTCTTGCCGATACGGCCCTTAAGACAGCCGACTCAGGTTATCTGACTCGTCGTCTTGTAGACGTTGCCCAGGACGTCATTGTCCGTGAAGATGATTGTGGAACAGACCGCGGTCTGACTGTTTCCGCCCTTCAGGAAGGAACTGAAATCATTGAACCGTTGATCGACCGTCTGATTGGTCGTACAGCGTTCCAGAAAATTGAACACCCTGAAACAGGCCGTGTTCTTGCAGAGAGAAATGAAGTCATTTCTGAAGATACTGCGAAGCAGATTGAAGATTCCGGTATCAAGGAAGTTGTCATCCGTACTGCCTTTACTTGTAATACGAAGCACGGCGTATGTAAGAAGTGTTACGGCCGTAACCTTGCCACTGGTGATGAGGTGGAAGTTGGAGAAGCTGTCGGTATCATCGCAGCGCAATCCATCGGTGAGCCGGGTACACAGCTTACAATGCGTACCTTCCACACAGGTGGTGTAGCCGGAGACGATATCACACAGGGTCTTCCTCGTATCCAGGAGATCGTGGAGGCTCGTAATCCGAAAGGTCAGGCTGTCATCACTGAAATTGACGGTACTGTCCACGAAGTGAATGAAGTGAAAGAGAAACAGGAGATCGTTGTCCAGGGTGCGGTTGAATCCCGTTCCTATACAGCTCCATATGGTGCACGGATGAAAGTAAGTGTCGGAGACGAAGTGAAATCCGGAGATGCGTTGACTGAAGGTTCTATCGATCCGAAAGAATTGTTGACGATCAAAGGGCTTGACGGAGTACAGGAATATCTTCTTAAAGAAGTTCAGAAAGTATACCGTATGCAGGGTGTAGAAATTTCTGATAAACACGTGGAAGTTATGGTCCGTCAAATGCTCCGCAAAGTACGCGTACTTGATTCTGGTGACACAGATGTTCTACCTGGATCCCTTCTTGAAATTCACCAATTTAAAGAAGCCAACCAGAAAGTACTCATGGAAGGTGGTCAGCCGGCAGTCGGCCGTCCGGTTATCCTGGGTATTACGAAAGCGTCTCTTGAAACAGACAGCTTCTTGTCCGCCGCATCCTTCCAGGAAACGACTCGTGTCCTGACAGATGCAGCCATTAAAGGTAAGCGTGACGAACTGCTCGGCTTGAAAGAGAACGTCATTATCGGTAAACTTGTTCCTGCAGGTACGGGTATGACCCGCTACCGCAAGATTCAGGCACAATCCGAGGGTGCGCAGACCGAAACTTCAGCAACACCCGAAGAGGTAACGCAGCCATAA	MLDVNNFEYMKIGLASPDKIRSWSYGEVKKPETINYRTLKPEKDGLFCERIFGPQKDWECHCGKYKRVRYKGVVCDRCGVEVTKAKVRRERMGHLELAAPVSHIWYFKGIPSRMGLVLDMSPRALEEVIYFAAYIVTDPGETALEKKQLLSEKEYRSYREKFGQGFQAAMGAEAIRKLLFDIDLDGEVDTLKEELKTAQGQRRTRAIKRLEVLESFRHSGNDPSWMILDVLPVIPPELRPMVQLDGGRFATSDLNDLYRRVINRNNRLKRLLDLGAPTIIVQNEKRMLQEAVDALIDNGRRGRPVTGPGNRPLKSLSHMLKGKQGRFRQNLLGKRVDYSGRSVIVVGPSLKMYQCGLPKEMALELFKPFVMKELVSRGLAHNIKSAKRKIERVHHEVWDVLEDVIKEHPVLLNRAPTLHRLGIQAFEPTLVEGRAIRLHPLVCTAYNADFDGDQMAVHVPLSSEAQAEARILMLAAQNILNPKDGKPVVTPSQDMVLGNYYLTLERTNAVGEGMFFKDLNEALMAYQNGYAHLHTRVAVQASSLNNETFTEKQNQQLLLTTVGKLIFNEMLPSSFPYINEPTKENLEIKTPDHYFVENGTDIRAEIAKRDEVPPFKKGILGDIIAEVFKRFSISETSKMLDRMKDLGFAYSTKAGITVGVSDVVVLPEKQEILDEGQKKVDKVMKQFRRGLITEEERYDRVIEIWGAAKDDIQNRLMKSLDPRNPIFMMSDSGARGNASNFTQLAGMRGLMANPAGRIIELPIKSSFREGLTVLEYFISTHGARKGLADTALKTADSGYLTRRLVDVAQDVIVREDDCGTDRGLTVSALQEGTEIIEPLIDRLIGRTAFQKIEHPETGRVLAERNEVISEDTAKQIEDSGIKEVVIRTAFTCNTKHGVCKKCYGRNLATGDEVEVGEAVGIIAAQSIGEPGTQLTMRTFHTGGVAGDDITQGLPRIQEIVEARNPKGQAVITEIDGTVHEVNEVKEKQEIVVQGAVESRSYTAPYGARMKVSVGDEVKSGDALTEGSIDPKELLTIKGLDGVQEYLLKEVQKVYRMQGVEISDKHVEVMVRQMLRKVRVLDSGDTDVLPGSLLEIHQFKEANQKVLMEGGQPAVGRPVILGITKASLETDSFLSAASFQETTRVLTDAAIKGKRDELLGLKENVIIGKLVPAGTGMTRYRKIQAQSEGAQTETSATPEEVTQP				NA	NA	NA	NA	NA
AK012_03926	381			hypothetical protein	ATGCTAACAAAGGGTAAAAAAGAAGGAAGCACTAAAAATCTCACCCGAATGCAGTTGACATGCATTTGGGTGAGTGATAATATTATCAAGGTGCTTCCATTTATCCTTGTTACTTTGGAGGATATGAAGATGTCTTATGAAAAAGTAGCACAGGCTGGTTCCGATATCATTATTGGAACGAAACAGACACTGAAAGCCATGAAAAATGGTGAAGTGAACGAGGTCATAACGGCTGACGATGCCGATCAGTCCATGACACTAAAAGTAGCTGAACTGGCCCGGCAACTGAACATTCCCCATACACGGGTTCCTTCTATGGATGAACTCGGGAATGCATGCGGTATTGACGTTGGTGCGGCTACAGTGGCGATAAAGCAATAA	MLTKGKKEGSTKNLTRMQLTCIWVSDNIIKVLPFILVTLEDMKMSYEKVAQAGSDIIIGTKQTLKAMKNGEVNEVITADDADQSMTLKVAELARQLNIPHTRVPSMDELGNACGIDVGAATVAIKQ				NA	NA	NA	NA	NA
AK012_03927	420	rpsL	COG0048	30S ribosomal protein S12	ATGCCAACTATTAACCAATTGGTACGTAAAGGACGCGTGAGCAAAACAAAGCAGACGAACTCTCCAGCTTTGAACAAAGGCTATAACAGCATGAAAAAGCGTATGACAGATCTAGCTGCTCCACAAAAACGTGGTGTCTGCACACGTGTTGGTACAATGACACCGAAGAAACCGAACTCTGCACTTCGTAAATATGCGCGTGTTCGTTTGACTAACCAGCTTGAGGTTAACGCTTATATCCCTGGTATCGGCCACAACCTTCAAGAGCACAGTGTTGTTCTTATCCGTGGCGGTAAAGTTAAAGACTTGCCGGGTGTGCGTTACCACATCGTACGTGGTGCACTTGATACTTCAAGTGTTGACGGTCGTATGCAGGGCCGCTCCAAGTACGGTACTAAAAAGCCAAAAGCTAAAAAATAA	MPTINQLVRKGRVSKTKQTNSPALNKGYNSMKKRMTDLAAPQKRGVCTRVGTMTPKKPNSALRKYARVRLTNQLEVNAYIPGIGHNLQEHSVVLIRGGKVKDLPGVRYHIVRGALDTSSVDGRMQGRSKYGTKKPKAKK				NA	NA	NA	NA	NA
AK012_03928	471	rpsG	COG0049	30S ribosomal protein S7	ATGCCACGTAAAGGTCCAGTAGCAAAACGTGATGTGTTGCCAGATCCAATGTATAACTCTAAACTTGTTACTCGTTTGATCAACCAGATCATGGTTGACGGTCAGCGCGGAAAAGCTCAAAAGATTCTTTATAAAGCTTTTGAACTTGTTCAGGAGCGCAGCGGAAACGATGCGATGGAAGCATTCGACGAAGCAATGAAGAATGTTATGCCTGTATTGGAGGTACGCGCACGTCGTGTAGGTGGTTCCAACTACCAGGTACCGGTTGAAGTTCGTCCAGAACGTCGTCAGGCTCTAGGTCTTCGTTTCATCGTAAACTATGCGCGTCTACGCGGAGAGAAAACGATGGAAGAGCGCCTTGCTAACGAAATTCTTGATGCAGCGAATAACACTGGTGCTTCCGTTAAACGCCGCGAAGAAATGCACAAAATGGCAGAAGCGAACAAAGCATTCGCTCACTACCGTTGGTAA	MPRKGPVAKRDVLPDPMYNSKLVTRLINQIMVDGQRGKAQKILYKAFELVQERSGNDAMEAFDEAMKNVMPVLEVRARRVGGSNYQVPVEVRPERRQALGLRFIVNYARLRGEKTMEERLANEILDAANNTGASVKRREEMHKMAEANKAFAHYRW				NA	NA	NA	NA	NA
AK012_03929	2079	fusA	COG0480	Elongation factor G	ATGGCTAGAGAGTTCTCCTTGGAAAAGACCCGGAATATCGGGATCATGGCTCACATCGACGCTGGTAAAACAACGGCGACTGAGCGTATTCTTTTCTACACAGGACGTATCCACAAAATTGGTGAAACTCACGAAGGAGCTTCCCAAATGGACTGGATGGAGCAGGAACAGGAGCGCGGAATTACAATCACTTCCGCCGCTACTACTGCTCAGTGGAGAGACCACCGTATCAACATCATTGACACTCCTGGACACGTAGACTTCACTGTTGAAGTTGAGCGTTCCCTGCGTGTACTTGATGGTTCCGTAGCTGTACTTGACGCCCAATCCGGTGTTGAGCCTCAAACAGAAACTGTTTGGCGCCAGGCTACTACGTACGGTGTTCCACGTATCGTGTTCGTTAACAAAATGGACAAAGTAGGAGCTGACTTCATTTACTCCCTTGGCACGTTGAAAGACCGCCTTGGTGCAAATGCTGCAGCTGTTCAACTTCCTATCGGTGCGGAAGATGAATTCGAAGGAATCATCGACCTTGTAACGATGGAAGCCTACTACTACATGGATGACCTGGGTACTCGTGCAGAAGCACGCCCAATTCCAGATGACTACAAAGATCAGGCTGAAGAGTACCGCGGCAAGCTTGTAGAAGCTGTTGCTGAACTTGATGAAGACATGATGATGCAGTATCTGGAAGGAGAAGAAATCACGAACGAACAGCTTAAGGCGGCTATCCGTACAGCTACTCTAAGTGTTGACTTCTACCCAGTCTTCTGTGGTTCTGCCTTCAAGAACAAAGGTGTACAGCTTCTAATTGATGGTGTTATCGATTATCTACCATCTCCGTTGGATGTACCTCCAATTGAAGGTCACGTACCACAAACGGAAGAGCACATTGTGCGTAAAGCTGATGACAACGAGCCATTCTCCGGTCTGGCGTTTAAAGTTGCCACAGACCCGTACGTTGGTAAATTGACATTCTTCCGTGTATATTCCGGAACACTTTCCGCTGGTTCATACGTGAAAAACTCCACGAAGGATAAGCGTGAGCGTGTAGGTCGTATCCTGCAGATGCACGCAAACTCCCGTGAAGAGATTTCCACAGTATACGCTGGTGATATTGCAGGTGCGGTAGGTCTTAAAGACACGGGTACAGGTGATACTCTATGTGATGAGAAGAGCCTTGTTATCCTTGAATCTATGGAGTTCCCTGAACCGGTTATCTCTGTAGCTATCGAGCCTAAATCCAAAGCTGACCAAGATAAAATGGCTATCGCCCTTGGTAAGCTTGCAGAAGAAGATCCAACGTTCCAGACTGAAACTAACGTTGAAACAGGACAAACGATCATCGCTGGTATGGGTGAGCTTCACCTTGACATCATCGTTGACCGCCTGAAGCGTGAGTTCAAAGTTGAAGCGAACATTGGTGCTCCACAGGTTGCCTACCGCGAAACATTCCGCGCTAGTGCACAAGTGGAAGGTAAGTTCGTACGTCAATCCGGTGGTCGTGGACAATTCGGTCACGTATGGGTTGAGTTCGAGCCGAACGAAGAAGGCGCTGGTTTCGAATTCGTCAACAAGATTGTTGGTGGTGTTGTACCGCGTGAATACATTCCATCCGTTGAACAAGGGATCAAAGAATCCTTGGAGAATGGTGTATTGGCCGGCTACCCAATGGTAGACATCAAAGCAACACTATATGATGGTTCCTACCACGATGTCGACTCCAACGAAATGGCCTTTAAAGTTGCTGCTTCCATGGCACTTAAAGAGGCGAAAAACAAGTGTAAGCCTGTTCTACTTGAACCAATGATGAAAGTAGAAGTTGTTATTCCTGAGGAATACATGGGCGATATCATGGGTGACGTAACTTCCCGTCGTGGACGTGTGGAAGGTATGGAAACTCGTGGTAATGCACAAGTGGTTAAAGCATTCGTTCCACTTTCTGAAATGTTCGGTTATGCAACAGCGTTGCGTTCCAACACTCAGGGCCGCGGAACATATACAATGCACTTCGACCACTATGAAGAAGTTCCGAAGAGCATCTCTGAGGAAATCATCAAGAAAAATTCCGGACAATAA	MAREFSLEKTRNIGIMAHIDAGKTTATERILFYTGRIHKIGETHEGASQMDWMEQEQERGITITSAATTAQWRDHRINIIDTPGHVDFTVEVERSLRVLDGSVAVLDAQSGVEPQTETVWRQATTYGVPRIVFVNKMDKVGADFIYSLGTLKDRLGANAAAVQLPIGAEDEFEGIIDLVTMEAYYYMDDLGTRAEARPIPDDYKDQAEEYRGKLVEAVAELDEDMMMQYLEGEEITNEQLKAAIRTATLSVDFYPVFCGSAFKNKGVQLLIDGVIDYLPSPLDVPPIEGHVPQTEEHIVRKADDNEPFSGLAFKVATDPYVGKLTFFRVYSGTLSAGSYVKNSTKDKRERVGRILQMHANSREEISTVYAGDIAGAVGLKDTGTGDTLCDEKSLVILESMEFPEPVISVAIEPKSKADQDKMAIALGKLAEEDPTFQTETNVETGQTIIAGMGELHLDIIVDRLKREFKVEANIGAPQVAYRETFRASAQVEGKFVRQSGGRGQFGHVWVEFEPNEEGAGFEFVNKIVGGVVPREYIPSVEQGIKESLENGVLAGYPMVDIKATLYDGSYHDVDSNEMAFKVAASMALKEAKNKCKPVLLEPMMKVEVVIPEEYMGDIMGDVTSRRGRVEGMETRGNAQVVKAFVPLSEMFGYATALRSNTQGRGTYTMHFDHYEEVPKSISEEIIKKNSGQ				NA	NA	NA	NA	NA
AK012_03930	1191	tuf	COG0050	Elongation factor Tu	ATGGGTAAAGAAAAATTCGACCGGTCCAAGTCCCACGTTAACATTGGTACAATTGGACACGTTGACCACGGTAAAACTACTCTAACTGCAGCGATCACTACTGTTCTTCATAAGAAATCAGGTTCTGGTGAAGCTATGGCATACGACATGATCGACGGTGCTCCTGAAGAGCGTGAGCGTGGAATCACTATCTCCACTGCACACGTTGAGTACGAAACAGAAACTCGTCACTATGCACACGTTGACTGCCCAGGTCACGCTGACTACGTTAAGAACATGATCACTGGTGCTGCTCAAATGGACGGCGCGATCTTGGTTGTATCTGCAGCTGACGGTCCAATGCCACAAACTCGTGAGCACATCCTGCTTTCTAAAAACGTAGGTGTACCAGCTATCGTTGTATTCTTGAACAAAGTTGACATGGTAGACGACGAAGAGCTTCTTGAACTAGTTGAAATGGAAGTTCGTGATCTTCTATCTGAATATGACTTCCCTGGTGACGATGTACCAGTAATCAGCGGTTCCGCTCTTAAAGCTCTTGAAGGCGAAGAGAAATATGAGCAGGCTATCTACGACCTTATGGACGCTGTTGACGAGCACATCCCAACTCCAGACCGTGACACTGATAAGCCATTCATGATGCCGGTTGAGGACGTATTCTCTATCACTGGCCGTGGTACAGTAGCAACAGGCCGTGTTGAGCGTGGACAAGTTAAAGTCGGTGACGAAGTTGAAATCATCGGTATGGCTGAAGAGTCCTTCAAGACTGCCGTAACTGGTGTAGAAATGTTCCGTAAGCTTCTTGACTATGCAGAAGCCGGCGACAACATCGGTGCTCTTCTTCGTGGTGTTAAGCGTGAAGACATCAACCGTGGTCAAGTACTAGCTAAGCCTGGTTCTATTACACCACACACAAACTTCAAAGCTGAAGTTTATGTACTAGCTAAAGATGAAGGTGGACGTCACACTCCATTCTTCTCTAACTACCGCCCACAGTTCTACTTCCGTACTACGGACGTAACTGGTGTTATTCAACTTCCTGAAGGCGTAGAAATGGTTATGCCTGGGGACAACGTTGAAATGACAGTTGAACTTATTTCCCCAATCGCGATCGAGGACGGAACTCGTTTCTCTATCCGTGAAGGTGGACGTACTGTAGGTTCAGGCGTTGTATCTACAATCACTAAATAA	MGKEKFDRSKSHVNIGTIGHVDHGKTTLTAAITTVLHKKSGSGEAMAYDMIDGAPEERERGITISTAHVEYETETRHYAHVDCPGHADYVKNMITGAAQMDGAILVVSAADGPMPQTREHILLSKNVGVPAIVVFLNKVDMVDDEELLELVEMEVRDLLSEYDFPGDDVPVISGSALKALEGEEKYEQAIYDLMDAVDEHIPTPDRDTDKPFMMPVEDVFSITGRGTVATGRVERGQVKVGDEVEIIGMAEESFKTAVTGVEMFRKLLDYAEAGDNIGALLRGVKREDINRGQVLAKPGSITPHTNFKAEVYVLAKDEGGRHTPFFSNYRPQFYFRTTDVTGVIQLPEGVEMVMPGDNVEMTVELISPIAIEDGTRFSIREGGRTVGSGVVSTITK	PGPT0015245_3636	DIRECT EFFECT	PLANT_IMMUNE_RESPONSE_STIMULATION	TRIGGERED_IMMUNITY	PAMP|EFFECTOR_TRIGGERED_IMMUNITY|PTI	PTI-BACTERIAL_EF-TU,PGPT0015245-elf18|tuf|tufA-K02358	NA	NA
AK012_03931	309	rpsJ	COG0051	30S ribosomal protein S10	ATGGCAAAAGAAAAAATTCGTATTCGTTTAAAAGCGTATGATCATAGAGTTCTTGATCAGTCTGCAGAAAAGATCGTTGATACAGCTAAGCGTTCCGGCGCGGAAGTGTCTGGTCCGATCCCGCTTCCAACTGAGCGTTCTGTATACACAGTACTTCGTGCGACTCACAAGTACAAAGACTCTCGTGAGCAGTTCGAAATGCGCACACACAAACGTCTGATTGACATTGTTAATCCAACACCACAGACTGTTGATTCACTCATGCGTTTGGATCTACCATCTGGTGTGGATATCGAGATTAAACTATAA	MAKEKIRIRLKAYDHRVLDQSAEKIVDTAKRSGAEVSGPIPLPTERSVYTVLRATHKYKDSREQFEMRTHKRLIDIVNPTPQTVDSLMRLDLPSGVDIEIKL	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
AK012_03932	636	rplC	COG0087	50S ribosomal protein L3	ATGACGAAAGGAATCTTAGGACGCAAGGTCGGCATGACACAGATTTTCTCTGACAACGGTGAATTGATCCCTGTAACTGTTATTCAGGCTGAGCCGAACGTAGTTCTTCAAAAGAAAACTACAGAAAATGATGGTTATGAAGCGATCCAGCTTGGATTTGCTGATGAAAAATCCAACCGTTTGAAGAAAGCTGCTCAAGGGCACGCTGACAAAGCAAACACAACACCTAAGCGCTACGTTCGTGAATTCCGTAATGCGAACCTTGATGACTTTGAACTAGGTCAAGAGGTTAAGGTAGATATGTTTGAAGCTGGTGACGCAATCGATGTGACAGGTACTTCTAAAGGGAAAGGTTTCCAAGGTGCAATCAAGCGCCATAACCAATCCACTGGACCTAAAACACACGGTTCCCGTTTCCACCGCCGTTCCGGTTCTATGGGACAAGGTGCAGACCCATCTAAAGTGTTCAAAGGCAAAGGCCTTGCAGGACAAATGGGTGGCGAGCAGGTAACTCTTCAAAACCTTGAAGTAGTTAAAGTAGACGCTGAGCGTAACCTGCTTCTAGTCAAAGGTAATGTACCAGGCGCGAAAAAGTCTTACGTTAAGATTACAAGTGCAAATAAGGCTAGCAAATAA	MTKGILGRKVGMTQIFSDNGELIPVTVIQAEPNVVLQKKTTENDGYEAIQLGFADEKSNRLKKAAQGHADKANTTPKRYVREFRNANLDDFELGQEVKVDMFEAGDAIDVTGTSKGKGFQGAIKRHNQSTGPKTHGSRFHRRSGSMGQGADPSKVFKGKGLAGQMGGEQVTLQNLEVVKVDAERNLLLVKGNVPGAKKSYVKITSANKASK				NA	NA	NA	NA	NA
AK012_03933	624	rplD		50S ribosomal protein L4	ATGCCTAAAGTAGCACTATTAAACCAAAGCGGTTCTAACGTTGGTGAAATCGAACTGAATGAAGCCGTATTTGGGATTGAACCTAATACTCATGTATTACACGAAACTGTGTTGATGCAGCGCGCGAATCTTCGCCAGGGCACACACAAAGTAAAAGGACGTTCTGAAGTATCCGGCGGTGGCCGTAAGCCATGGCGCCAAAAAGGTACAGGCCGTGCACGTCAAGGGTCTATCCGTTCACCACAATGGGTTGGCGGTGGAACTGTATTCGGTCCTACACCACGCAGCTACAGCTACACGATGCCGAAAAAAGTTCGTCGTCTTGCACTTCAGTCTGCTTTCTCTTCTAAAGTACAGGAAGGTAACGCAATCGTTCTTGAGAGCCTGTCTCTTGACGCTCCAAAAACAAAAGAAGTGGTAAACATGCTTAGCGCACTAGACGTAAACGAGAAGGCTTTAATCGTTACAGCAGGAGAAGATAAGAACGTAGCTCTTTCTTCTAATAACATCCCTACAGTAAATGCTCTCCCTGTAGAGCAGGTAAGTGTGTTAGACTTGCTGACGCATGACAAGCTGATCCTTACTAAGGAAGCAGCTGAAAAAGCAGGGGAGGTGCTCTCATAA	MPKVALLNQSGSNVGEIELNEAVFGIEPNTHVLHETVLMQRANLRQGTHKVKGRSEVSGGGRKPWRQKGTGRARQGSIRSPQWVGGGTVFGPTPRSYSYTMPKKVRRLALQSAFSSKVQEGNAIVLESLSLDAPKTKEVVNMLSALDVNEKALIVTAGEDKNVALSSNNIPTVNALPVEQVSVLDLLTHDKLILTKEAAEKAGEVLS				NA	NA	NA	NA	NA
AK012_03934	288	rplW		50S ribosomal protein L23	ATGAAAGAACCACGCGATATCATTAAGCGCCCTGTCATTACTGAACAATCTGCCGATCTTATGGGAGAAAAGAAGTATACGTTTGAAGTTAGCCCGAAAGCTAACAAAACTGAAATTAAAAAAGCAGTTGAAGAAATCTTTGGTGTTCAAGTTGAATCCGTCAACACAATGAACCTAAAAGGTAAATTCAAGCGTATGGGTCGTTACGGCGGCTACCGTTCTGATCGTAAGAAAGCAGTTATTAAGTTGACTCAGGACAGTGAAGAACTAGAATTCTTTGAAGTATAA	MKEPRDIIKRPVITEQSADLMGEKKYTFEVSPKANKTEIKKAVEEIFGVQVESVNTMNLKGKFKRMGRYGGYRSDRKKAVIKLTQDSEELEFFEV				NA	NA	NA	NA	NA
AK012_03935	834	rplB	COG0090	50S ribosomal protein L2	ATGGCGATTAAAAAGTTCAGACCGATTACAAACGGTCGTCGACACATGTCAGTATCTGATTTCGCTGAAATCACAACTGACAAACCTGAACGCTCCCTTATCACTCCACTTCACAAAAAAGGTGGACGTAACAACCAGGGTAGGCTGACAGTTCGTCATCAGGGCGGAGGCCATAAGCGTCAGTATCGTATGATCGACTTCAAACGTGACAAAGATGGAATACCTGGACGCGTTGCTACAGTAGAATACGATCCGAACCGCTCCGCTAACATTGCACTAATCAACTATGTTGATGGTGAAAAACGCTACATCCTTGCTCCTAAAGGTGTTAAGGTTGGCACAGAAATCATTTCAGGTGAAGGTGCGGATATCAAACCTGGTAACGCTCTTCAACTTAAAGATATTCCAGTTGGTACAATCGTACACAACGTAGAACTTAAGCCGGGACGCGGCGGACAATTGGTTCGTTCTGCAGGAGCTTCTGCTCAAATCCTTGGCCGTGAAAACAAGTACACTCTAGTACGCCTGACATCTGGTGAAGTTCGCCTTGTACTATCCACTTGCCGTGCAACAATCGGCCAGGTTGGTAACCTTGAGCACGAACTTATCAGCGTAGGTAAAGCTGGACGTTCTCGTTGGAAAGGCAAGCGCCCTACTGTACGTGGTTCCGTAATGAACCCTAGTGATCACCCACACGGTGGTGGTGAAGGACGCGCGCCAATCGGTATGCCATCTCCTGTATCTCCATGGGGTAAACCAACTCTTGGATACAAGACAAGAAAACGCAACAAGCCGTCTGATAAATATATCGTACGTAGACGCGGTAAAAAATAA	MAIKKFRPITNGRRHMSVSDFAEITTDKPERSLITPLHKKGGRNNQGRLTVRHQGGGHKRQYRMIDFKRDKDGIPGRVATVEYDPNRSANIALINYVDGEKRYILAPKGVKVGTEIISGEGADIKPGNALQLKDIPVGTIVHNVELKPGRGGQLVRSAGASAQILGRENKYTLVRLTSGEVRLVLSTCRATIGQVGNLEHELISVGKAGRSRWKGKRPTVRGSVMNPSDHPHGGGEGRAPIGMPSPVSPWGKPTLGYKTRKRNKPSDKYIVRRRGKK				NA	NA	NA	NA	NA
AK012_03936	279	rpsS		30S ribosomal protein S19	ATGGGCCGCAGCCTGAAAAAAGGACCTTTTGTAGATGATCATTTGATGAAGAAAATCGAGAAGCTTAATGAAGATAGCAAACAGCAGGTCGTGAAGACTTGGTCTCGTCGTTCAACTATCTTCCCTAACTTCGTAGGACACACAATTGCCGTTTATGATGGTCGTAAACACGTACCTGTCTATGTTACTGAAGACATGGTAGGTCATAAACTAGGTGAATTCGCGCCAACCCGTACGTTCAAGGGACACTCTGGCGATGACAAGAAAACAAAACGCTAA	MGRSLKKGPFVDDHLMKKIEKLNEDSKQQVVKTWSRRSTIFPNFVGHTIAVYDGRKHVPVYVTEDMVGHKLGEFAPTRTFKGHSGDDKKTKR				NA	NA	NA	NA	NA
AK012_03937	342	rplV	COG0091	50S ribosomal protein L22	ATGCAAGCTAAAGCAGTTGCTAAAACCGTTCGTATCGCTCCTCGTAAAGCTCGTCTTGTAATTGATTTAATTCGAGGAAAAAATGTGGGTGAAGCTCTAGCTACACTTCGCCTGAAAAACCGCGGCGCTTCTCCAGTAGTTGAGAAACTTCTTAACTCTGCGATCGCCAACGCTGAACACAATTATGAAATGGATCCGGAAAACCTATATGTTTCCGAAGCGTTTGTAAACGAAGGCGTAACTCTTAAACGTTTCCGTCCTCGTGCAATGGGCCGCGCAAGCCAGATCAACAAACGCACAAGCCACATCACTGTGGTCGTATCAGAAAAAAAGGAGGGATAA	MQAKAVAKTVRIAPRKARLVIDLIRGKNVGEALATLRLKNRGASPVVEKLLNSAIANAEHNYEMDPENLYVSEAFVNEGVTLKRFRPRAMGRASQINKRTSHITVVVSEKKEG				NA	NA	NA	NA	NA
AK012_03938	642	rpsC	COG0092	30S ribosomal protein S3	GTGGGTCAAAAAATTAATCCGGTAGGTCTTCGTATCGGCGTTATCCGTGACTGGGAGTCCAAGTGGTACGCTGGTAAAGACTACGCAGACTTGTTACATGAAGACATTAAGATTCGTGAATATGTTGAAAATCGTCTTAAAGATGCTGCTCTTTCCACGGTCGAAATCGAACGCGCAGCAAACCGTGTAAACATTACTGTGCACACAGCTAAGCCAGGAATGGTTATCGGTAAAGGCGGTTCTGAAGTCGAAGCACTTCGTAAAGCTCTAAACCAGCTCACTGGTAAACGAGTTCACATCAACATCGTTGAAGTGAAGAAGCCAGATCTTGACGCTACACTTGTAGCTGACAATATCGCACGTCAATTGGAGAACCGTGTATCTTTCCGTCGTGCTCAGAAACAAACACTACAACGCGCAATGCGTGCAGGAGCTAAAGGGATCCGTACCCAGGTATCTGGTCGTCTAGGTGGCGCAGATATCGCTCGTGCTGAATACTACAGTGAAGGAACTGTACCACTTCATACACTTCGTGCAGACATCGATTACGGTACTGCAGAAGCAGACACCACTTACGGTAAGCTTGGTGTTAAAGTGTGGATCTATCGTGGTGAAATCCTTCCAACAAAAACTGATAAATAA	MGQKINPVGLRIGVIRDWESKWYAGKDYADLLHEDIKIREYVENRLKDAALSTVEIERAANRVNITVHTAKPGMVIGKGGSEVEALRKALNQLTGKRVHINIVEVKKPDLDATLVADNIARQLENRVSFRRAQKQTLQRAMRAGAKGIRTQVSGRLGGADIARAEYYSEGTVPLHTLRADIDYGTAEADTTYGKLGVKVWIYRGEILPTKTDK				NA	NA	NA	NA	NA
AK012_03939	435	rplP	COG0197	50S ribosomal protein L16	ATGTTAATGCCTAAACGTGTTAAATATCGTCGTCAACACCGTACAAGCTTGAAAGGCCGTGCTAAAGGCGGTACTGAAGTTGCATTCGGTGAATATGGTTTGCAAGCTATCGATCCAGCTTGGATCACAGCCCGTCAGATCGAGGCAGCGCGTATCGCGATGACTCGTTACATGAAGCGTGGCGGTAAAGTTTGGATCAAAATCTTCCCTGATAAGCCTTATACTGCTAAGCCCCTAGAAGTACGTATGGGTTCCGGTAAAGGTGCTCCAGAAGGTTTCGTAGCAGTTGTGAAACCAGGGAAAATTATGTTTGAGATCGCAGGAGTTTCTGAAGAGGTAGCCCGCGAAGCACTTCGTCTTGCTTCCCACAAACTTCCGATCCGTACGAAGTTCGTAAAACGTGAAGAAATTGGTGGTGAAATCAATGAAGGCTAA	MLMPKRVKYRRQHRTSLKGRAKGGTEVAFGEYGLQAIDPAWITARQIEAARIAMTRYMKRGGKVWIKIFPDKPYTAKPLEVRMGSGKGAPEGFVAVVKPGKIMFEIAGVSEEVAREALRLASHKLPIRTKFVKREEIGGEINEG				NA	NA	NA	NA	NA
AK012_03940	201	rpmC	COG0255	50S ribosomal protein L29	ATGAAGGCTAATGAGATCCGTGAATTAACCACTGCCGAAATTGAACAAAAAGTTAAGTCTCTTAAAGAGGAACTTTTCAACCTACGCTTCCAATTGGCAACAGGTCAACTTGAGAACACTGCACGTATCCGTCAAGTTCGCAAGTCCATCGCCCGTATGAAGACTGTTGCTCGTGAACGTGAGCTAGGCGTAAATAACTAA	MKANEIRELTTAEIEQKVKSLKEELFNLRFQLATGQLENTARIRQVRKSIARMKTVARERELGVNN				NA	NA	NA	NA	NA
AK012_03941	264	rpsQ	COG0186	30S ribosomal protein S17	ATGACTGAACGTAATAATCGTAAGGTTTATACCGGCCGTGTTGTTTCTGACAAAATGGACAAAACAATCACTGTTATGGTAGAAACTTATAAGTTCCACAAACTTTATGGCAAACGCGTAAAGTATTCCAAAAAGTTCAAAGCACATGACGAAAACAACCAGGCGAAAAACGGCGACATCGTGCGCATCATGGAAACTCGTCCATTGTCCGCATCCAAGCGTTTCCGTCTTCTAGAAGTTGTTGAAGAGTCTGTTATTATCTAA	MTERNNRKVYTGRVVSDKMDKTITVMVETYKFHKLYGKRVKYSKKFKAHDENNQAKNGDIVRIMETRPLSASKRFRLLEVVEESVII				NA	NA	NA	NA	NA
AK012_03942	369	rplN		50S ribosomal protein L14	ATGATTCAACAGGAATCTCGTCTGAAAGTTGCAGACAACTCTGGTGCACGTGAAATCCAAACGATCAAAGTCTTGGGTGGATCCGGCCGTAAAACAGCTAACATTGGTGATATCATCACTGCTACTGTGAAACAGGCAACACCAGGAGGCGTTGTTAAAAAAGGTGAAGTAGTTAAAGCTGTTATCGTACGTTCTAAGAGCGGTATGCGCCGTAAAGATGGTTCTTATATCCGTTTCGACGAAAACGCAGCAGTAATCGTTCGTGATGACAAAGGACCACGCGGTACTCGTATCTTCGGACCGGTAGCTCGTGAACTTCGTGATGCTAAATTCATGAAGATTGTATCTCTAGCTCCAGAAGTATTATAA	MIQQESRLKVADNSGAREIQTIKVLGGSGRKTANIGDIITATVKQATPGGVVKKGEVVKAVIVRSKSGMRRKDGSYIRFDENAAVIVRDDKGPRGTRIFGPVARELRDAKFMKIVSLAPEVL				NA	NA	NA	NA	NA
AK012_03943	312	rplX	COG0198	50S ribosomal protein L24	ATGCACGTAAAAAAAGGTGACAAAGTAATGGTCATTAGCGGTAAGGATAAAGGCAAGCAGGGGACTATCCTTGAAGCTTATCCAAAGAAAGATCGTGTTCTTGTTGAAGGCGTGAACGAAGTGAAAAAGCACGCGAAGCCGTCTCAGGAAAACCCGCAGGGTGGTATCTTGACTCAAGAAGCTGCGATCCACGTATCAAACGTTATGCCGATTGATCCTAAGACTGGCGAACCGACTCGTGTTGGTTACAAAGTCGAAGACGATAAGAAAGTTCGTATCGCGAAAAAATCCGGTGAAGCGCTGGACAAATAA	MHVKKGDKVMVISGKDKGKQGTILEAYPKKDRVLVEGVNEVKKHAKPSQENPQGGILTQEAAIHVSNVMPIDPKTGEPTRVGYKVEDDKKVRIAKKSGEALDK				NA	NA	NA	NA	NA
AK012_03944	540	rplE		50S ribosomal protein L5	ATGAACGAACTAAAGAAACAATATAAAGAAGAAGTTGTTCCATCTCTGATGAACAAATTTGAATATGAGTCCATCATGCAGACACCAAAAGTTGAGAAGATTGTTGTCAACATGGGTGTAGGTGATGCTGTTCAAAACGCGAAAGCACTTGATACAGCTGTTGAAGAACTAACAATGATTACTGGTCAGAAACCAGTTATTACGAAGGCTAAGAAATCAATCGCAGGCTTCCGTCTACGTGAAGGTATGCCGATCGGTGCGAAAGTAACCCTTCGCGGAGAGCGTATGTACCAATTCCTACAAAAGCTGATCGCCGTATCACTGCCACGTGTGCGTGACTTCCGTGGTATTTCTAAGAAAGCTTTTGATGGTCGTGGAAACTACACTCTTGGTGTTAAAGAGCAATTGATTTTCCCAGAGATCGATTACGATAAAGTAAACAAAGTGCGCGGAATGGATATCGTTATTGTCACATCTGCTGACTCCGACGAAGAAGCGCGTGAACTATTAGCTCAATTCGGCATGCCGTTCCAAAAATAA	MNELKKQYKEEVVPSLMNKFEYESIMQTPKVEKIVVNMGVGDAVQNAKALDTAVEELTMITGQKPVITKAKKSIAGFRLREGMPIGAKVTLRGERMYQFLQKLIAVSLPRVRDFRGISKKAFDGRGNYTLGVKEQLIFPEIDYDKVNKVRGMDIVIVTSADSDEEARELLAQFGMPFQK				NA	NA	NA	NA	NA
AK012_03945	186	rpsZ		30S ribosomal protein S14 type Z	GTGGCTAAAAAATCAATGGTCGCGAAGCAACAGCGTAAACAGAAGTACGAAGTACGCGAATACACTCGTTGTGAACGCTGCGGACGTCCGCACTCCGTACTACGTAAGTTTAAGCTTTGCCGTATTTGTTTCCGTGAACTTGCATACAAAGGACAAATCCCTGGTGTCAAAAAAGCCAGCTGGTAA	MAKKSMVAKQQRKQKYEVREYTRCERCGRPHSVLRKFKLCRICFRELAYKGQIPGVKKASW				NA	NA	NA	NA	NA
AK012_03946	399	rpsH	COG0096	30S ribosomal protein S8	ATGACAATGACAGATCCAATTGCAGATATGCTGACTCGTATCCGTAATGCGAATATGGTTCGCCACGAGAAGCTTGAACTTCCAGCTTCCAACGTGAAAAAAGAAATCGCTGATATTCTTAAGCGTGAAGGTTTCGTACGTGACTACGAATTTGTAGAAGACAACAAACAGGGTGTTCTTCGCATCTTCCTTAAGTACGGCCAAAACAACGAGCGCGTAATCACTGGCGTGAAACGTATCAGTAAGCCAGGTCTACGTGTGTATGCGAACTCCGAAGAGCTTCCGAAAGTTCTTAACGGACTTGGCATCGCCGTTGTATCCACTTCAAAAGGTGTCCTTACAGATAAAGAAGCTCGTGAACAAGCCATCGGTGGCGAAGTTCTAGCTTACGTCTGGTAA	MTMTDPIADMLTRIRNANMVRHEKLELPASNVKKEIADILKREGFVRDYEFVEDNKQGVLRIFLKYGQNNERVITGVKRISKPGLRVYANSEELPKVLNGLGIAVVSTSKGVLTDKEAREQAIGGEVLAYVW				NA	NA	NA	NA	NA
AK012_03947	537	rplF	COG0097	50S ribosomal protein L6	ATGTCTCGCGTAGGATTAAAAACTCTTGAAATTCCTGAAGGTGTAGAAATCATCCAGGATAACAACACAATTACAGTGAAAGGTCCAAAAGGGGAACTGACTCGTACGTTCCACGAGGACATCACTGTTACAGTTGAAGATAACGTTCTATCTGTATCGCGTCCAAGCGATCACAAAGAGCACCGCGCTCTTCACGGTACAACACGCAGCCTGATCGGTAACATGGTTGAAGGTGTATCTAAAGGTTTCGAAAAGAGCCTTGAAATCATCGGTGTCGGTTACCGTGCCCAGAAGCAGGGAGAAACAGTCGTTGTGAACGCTGGTTATTCCCACCCTGTAGAAATCGAAAAACGCGAAGGAATCGAAATCGAAGTTCCTTCCAACACGAAAGTTACTGTTAAAGGAATTGACAAGGAACTTGTTGGTGCTGTTGCTGCTAACATCCGTGCTATCCGTCCTCCAGAGCCTTACAAAGGTAAAGGAATTCGTTACGAAGGCGAACGTGTACGCAGTAAAGAAGGTAAAACAGCTAAATAA	MSRVGLKTLEIPEGVEIIQDNNTITVKGPKGELTRTFHEDITVTVEDNVLSVSRPSDHKEHRALHGTTRSLIGNMVEGVSKGFEKSLEIIGVGYRAQKQGETVVVNAGYSHPVEIEKREGIEIEVPSNTKVTVKGIDKELVGAVAANIRAIRPPEPYKGKGIRYEGERVRSKEGKTAK				NA	NA	NA	NA	NA
AK012_03948	363	rplR		50S ribosomal protein L18	ATGATCACGAAGGCAGATAAAAATGTCGTACGTAAAAAGCGCCACGCCCGCGTTCGTAAAAATGTTGTCGGCACAGCTGAGCGCCCACGCTTGAACGTATACCGCTCTAACAACCACATCTATGCTCAACTCATCAATGATGAGAGCCAGGTAACAGTAGCAAGTGCATCTACTGTAGATAAAGGTTTTGACCTTGACCAGACTGGTAACGTGGAAGCTGCTAAGAAAGTCGGTGAAATGGTAGCACAACGCGCAATCGACAACGGCTATAAAGTAGTTGTATTCGACCGCGGAGGTTACTTGTATCACGGCCGTGTGAAAGCACTAGCTGAAGCAGCCCGCGAAACCGGACTTGAATTTTAA	MITKADKNVVRKKRHARVRKNVVGTAERPRLNVYRSNNHIYAQLINDESQVTVASASTVDKGFDLDQTGNVEAAKKVGEMVAQRAIDNGYKVVVFDRGGYLYHGRVKALAEAARETGLEF				NA	NA	NA	NA	NA
AK012_03949	501	rpsE	COG0098	30S ribosomal protein S5	ATGAATTTAAACATCGACCCTAACAAACTTGATCTTGAAGAACGCGTAGTCACTATCAACCGTGTAGCGAAAGTAGTTAAAGGTGGACGCCGTTTCCGTTTTGCTGCGCTTGTTGTAGTTGGAGATAAAAATGGTCATGTAGGCTTCGGTACAGGGAAAGCCCAAGAGGTACCGGAAGCGATCAAAAAAGCCATTGATGATGCTAAGAAAAATCTAATCACAGTACCAGTGAAGAACACGACGATTCCACACGAAATCAACGGACGTTTTGGTGCAGGTAACATTCTTATGAAGCCGGCAGCAGAAGGTACTGGAGTTATCGCTGGTGGACCTGTCCGTGCGGTACTTGAGCTTGCAGGTGTTCAAGACATTCTATCTAAGTCTCTTGGTTCTAACACGCCAATCAACATGGTACGTGCTACACTCACTGGACTTAGCGAGCTTAAGCGCGCAGAAGACGTTGCAAGACTTCGCGGTAAGTCTGTACAAGAACTAGGATAA	MNLNIDPNKLDLEERVVTINRVAKVVKGGRRFRFAALVVVGDKNGHVGFGTGKAQEVPEAIKKAIDDAKKNLITVPVKNTTIPHEINGRFGAGNILMKPAAEGTGVIAGGPVRAVLELAGVQDILSKSLGSNTPINMVRATLTGLSELKRAEDVARLRGKSVQELG				NA	NA	NA	NA	NA
AK012_03950	183	rpmD		50S ribosomal protein L30	ATGGCTAATCAGTTAGAAATTACCCTCACGCGCAGCGTTATTGGTAGACCACAAGATCAGCGTGCTACGGTAAAGGCTCTTGGTCTTAACAAGATCCGACAAACTGTCGTAGTTGAAGATAACCCGGCGATCCGAGGTATGGCTAATAAGGTGTCTCACCTAGTTACGATTAAAGAAGTTTAA	MANQLEITLTRSVIGRPQDQRATVKALGLNKIRQTVVVEDNPAIRGMANKVSHLVTIKEV				NA	NA	NA	NA	NA
AK012_03951	441	rplO		50S ribosomal protein L15	ATGAAACTGCATGAACTTAAATCGGCTAAAGGTACTCGTAAAGAGCGCAACCGTGTAGGCCGTGGTATGGCTTCTGGTAATGGTAAAACATCCGGACGTGGACACAAAGGTCAAGGTCAGCGTTCCGGCAGCAAAACTCGCCCAGGTTTCGAGGGTGGACAGATGCCACTATTCCAGCGCCTGCCTAAGCGTGGTTTTACAAACATTCACCGTAAAGAGTTCGCGATCGTTAACCTTGATGCCCTGAACCGTTTCGAAGAAGGTACAGAGGTTACTCCTGAGCTTCTACTTGAATCCGGCGTGGTAAGCAGCCAAAAAGCAGGAATCAAAGTATTGGCTAAAGGTTCTATCGAGAAGAAACTTACAGTGAAAGCTCACAAGTTCTCTGCTTCCGCAAAAGAAGCAATTGAAGCGGCGGGCGGTCAAACTGAGGTGATTTAA	MKLHELKSAKGTRKERNRVGRGMASGNGKTSGRGHKGQGQRSGSKTRPGFEGGQMPLFQRLPKRGFTNIHRKEFAIVNLDALNRFEEGTEVTPELLLESGVVSSQKAGIKVLAKGSIEKKLTVKAHKFSASAKEAIEAAGGQTEVI				NA	NA	NA	NA	NA
AK012_03952	1293	secY		Protein translocase subunit SecY	ATGTTCCGGACAATCTCCAATTTTATGCGCGTGGGTGATATTCGACGGAAAATCATTTTCACTTTGCTGATGCTCGTTGTGTTCCGCCTGGGAACCTTCATCCCGGTGCCTTTCACAAATAGAGACGCCATCACATTCATGGACGAACAGAACGCATTCGGTTTTCTGAATACGTTCGGAGGCGGGGCATTACAGAACTTCTCCATCTTTGCTATGGGGATCATGCCCTATATTACTGCCTCCATCATCATGCAGCTGCTGCAGATGGATGTAGTCCCGAAGTTTGCTGAATGGAAACAGCAGGGTGAAGTTGGCCGTCGAAAATTAGCTCAGTTTACCCGCTACGGAACTATTGTTCTCGCTTTCGTTCAAGCCATTGGTATGTCCATTGGTTTTAACGCTCTGGCAGGAGGTCAATTGATCTCGGATCCTGGTGTTACCAAGTTCTTAGTCATTGCGCTTGTGCTGACAGGCGGAACAGCTTTTCTAATGTGGCTTGGCGAGCAAATCACTGCACATGGCGTAGGGAATGGTATTTCTATACTGATCTTCGCAGGTATCGTTGCTGCGATTCCTAATGGTGTGAATCAGTTGTATGATCAGTACATCTCCGGTGCAGGAGAGGAATTGTTCATCAACCTGGTGATCATTGCGTTGATAGCACTAGTCATCGTTGCGGTCGTGGTTGGAGTTATCTTCATCCAGCAGGCCCTTCGTAAAATTCCAATCCAGTATGCGAAGCGTTTGGTGAATCGTTCCCCTGTAGGCGGACATTCCACACACCTTCCACTCAAAGTGAATGCTGCAGGAGTTATCCCGGTCATCTTTGCGATATCCTTTATTATCGCTCCGAGAACCGTCGCCGGCTTCTTTGAAGACAGCGAAGTAGCTTCTGTTATCCAGTATATCTTTGATTACCAGAACTGGCCTGGAATGATTATCTATGTTGCGTTAATTATTGCCTTCACGTATTTCTACACATTTGTTCAGGTCAATCCGGAGCAGATGGCAGAAAACCTGAAGAAGCAGGGCGGTTACATTCCAGGGATTCGTCCCGGGGCCAATACCGAAACGTATCTGACCCGAGTTATGTACCGATTAACCTTTGTAGGATCCATTTTCCTTGCAGCTGTCTCTATCCTTCCAATCATTCTTGGTTCGCTGGCGCAACTGCCGCCGACGGTCCAAATTGGAGGAACAAGCCTGCTCATCGTTGTAGGGGTTGCCCTTGAAATGATGAAACAGCTTGAAAGTCAGCTTGTAAAACGCCACTATAAAGGATTCATTAAATAA	MFRTISNFMRVGDIRRKIIFTLLMLVVFRLGTFIPVPFTNRDAITFMDEQNAFGFLNTFGGGALQNFSIFAMGIMPYITASIIMQLLQMDVVPKFAEWKQQGEVGRRKLAQFTRYGTIVLAFVQAIGMSIGFNALAGGQLISDPGVTKFLVIALVLTGGTAFLMWLGEQITAHGVGNGISILIFAGIVAAIPNGVNQLYDQYISGAGEELFINLVIIALIALVIVAVVVGVIFIQQALRKIPIQYAKRLVNRSPVGGHSTHLPLKVNAAGVIPVIFAISFIIAPRTVAGFFEDSEVASVIQYIFDYQNWPGMIIYVALIIAFTYFYTFVQVNPEQMAENLKKQGGYIPGIRPGANTETYLTRVMYRLTFVGSIFLAAVSILPIILGSLAQLPPTVQIGGTSLLIVVGVALEMMKQLESQLVKRHYKGFIK	PGPT0025725_4173	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-BACTERIAL_SECRETION	CE-SEC-SECRETION_PATHWAY	CE-SEC-SRP_CORE_COMPONENTS,PGPT0025725-secY-K03076	NA	NA
AK012_03953	654	adk		Adenylate kinase	TTGAATTTAATCCTAATGGGTCTCCCTGGTGCCGGAAAAGGTACTCAGGCAGAGAAAATAGTCGAAAAATATGACATCCCTCATATCTCAACTGGAGATATGTTCCGTTTAGCTATCAAAGAAGGAACATCCCTTGGCCAAGAGGCCAAATCATATATGGACAAAGGCGAGCTCGTTCCGGATGAAGTTACCATCGGGATTGTTCGCGAGCGTCTAAGTAAGCCGGATTGTCAGAAAGGCTTTCTGCTGGATGGTTTCCCTAGAACCATTGCCCAGGCAGAAGCCCTTCACAACCTTCTGGCTGATATGGAACGTTCACTGGACTATGTTCTGCATATTGATGTTCCAAAAGAGAAGCTTATCGAGCGTCTGACTGGACGACGCATCTGCCCGACCTGCGGTGCTACGTACCACGTTGTATTCAACCCTCCTAAAGAGGACGGGGTCTGCGATAACGATGGTTCAGCATTGACTCAGCGGGAGGACGATCAGCCTGAAACCGTTAAGAAACGCCTCGAGGTCAACGTAGAACAGCAGCAGCCGCTTCTTGATTTCTATCAGGATCAAGGCTATCTGGTCTCCTTCGAAGGTGATAAAGACATCAATGAAGTATTTGTTGACATTGATCAAAAGCTTGGAGCACTAGCTGAATGA	MNLILMGLPGAGKGTQAEKIVEKYDIPHISTGDMFRLAIKEGTSLGQEAKSYMDKGELVPDEVTIGIVRERLSKPDCQKGFLLDGFPRTIAQAEALHNLLADMERSLDYVLHIDVPKEKLIERLTGRRICPTCGATYHVVFNPPKEDGVCDNDGSALTQREDDQPETVKKRLEVNVEQQQPLLDFYQDQGYLVSFEGDKDINEVFVDIDQKLGALAE	PGPT0009040_3850	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0009040-adk|AK-K00939	NA	NA
AK012_03954	747	map_2	COG0024	Methionine aminopeptidase 1	ATGATTATATGTAAGACTCCGCGGGAATTAGATATTATGCGTGAAGCAGGACGCATCGTCGCCCTGACGCACCAAAAGATGAAAGAAAACATTCGTCCGGGTATAACAACTGGAGAATTGGATAAGATTGCTGATAAATTCATACGCAGTATGGATGCAATCCCTTCTTTTAAAGGTTATAATGGATTCCGTGGCAGTATCTGTGCATCTGTCAATGAAGAACTTGTTCATGGTATTCCTGGAGACAGGGTCCTGAACGATGGTGATATTATCAGTATCGATATTGGGGCAAAATATAAAGGCTATCACGGTGATTCGGCCTGGACGTATCCGGTCGGCACTGTTGATGAGGGCACATTGGAGCTGCTGAGAGTTACAGAGCAGTCATTGTTCAAAGGACTTGATGAAGCAAAACCAGGTGAACGCCTTTCAAATATATCGCATGCCATCCAAAGCTATGTGGAGCCTGAAGGCTTCTCCATAGTAAGGGAATATGTCGGTCACGGCGTTGGTCAGGAACTCCATGAGGATCCACAGATCCCTCATTACGGACCTCCCAACAAAGGCCCCCGATTAAAACCTGGAATGGTATTAGCTGTGGAACCAATGATCAATGCAGGTTCACGTTATGTGAAAACGCTGGGTGATCAATGGACGGTTGTCACGCAGGATGGAAAGATGTGCGCACATTTTGAGCACACCATTGCGATTACGGATGAGGGTTACGAAATATTAACAAAATCCTAA	MIICKTPRELDIMREAGRIVALTHQKMKENIRPGITTGELDKIADKFIRSMDAIPSFKGYNGFRGSICASVNEELVHGIPGDRVLNDGDIISIDIGAKYKGYHGDSAWTYPVGTVDEGTLELLRVTEQSLFKGLDEAKPGERLSNISHAIQSYVEPEGFSIVREYVGHGVGQELHEDPQIPHYGPPNKGPRLKPGMVLAVEPMINAGSRYVKTLGDQWTVVTQDGKMCAHFEHTIAITDEGYEILTKS	PGPT0020010_9033	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
AK012_03955	336			hypothetical protein	TTGAACGAATCTGAGTCGAGTCCGCGAATAGGTCAAATTGTTCGTATTGTGCAGGGGCGTGAGGCAGGACAGTACGCAGTGGTGATCGGTGTGCTGGATGGCCGCTTTGTGCTGCTTGCCGACGGAGAGAAACGTAAGTATGATCGACCAAAGAAAAAGAATTTGCAGCATGTTGAGCTTATGGATTTCATCTCTCCGGAAGTCCAGGACAGCCTTCTGGAAACTGGTCGGGTCACAAATGGCAAGCTTCGATTTGCCGTATCAAAATATGTCAATGAAGCAGTGACTGATTTGAAGAAGGGAGATCAACTCGATGGCGAAAGACGATGTAATTGA	MNESESSPRIGQIVRIVQGREAGQYAVVIGVLDGRFVLLADGEKRKYDRPKKKNLQHVELMDFISPEVQDSLLETGRVTNGKLRFAVSKYVNEAVTDLKKGDQLDGERRCN				NA	NA	NA	NA	NA
AK012_03956	219	infA	COG0361	Translation initiation factor IF-1	ATGGCGAAAGACGATGTAATTGAAGTAGAAGGGACCGTCGTTGAAACCTTACCGAACGCTCAGTTCAAGGTTGAACTTGAAAACGGTCATACCGTTCTTGCTCATGTTTCCGGTAAAATTCGCATGCACTTCATCCGAATCTTACCTGGGGACAAAGTAACGGTAGAACTTTCTCCTTATGATTTGACAAAAGGACGTATCACGTACCGTTATAAATAA	MAKDDVIEVEGTVVETLPNAQFKVELENGHTVLAHVSGKIRMHFIRILPGDKVTVELSPYDLTKGRITYRYK				NA	NA	NA	NA	NA
AK012_03957	117	rpmJ	COG0257	50S ribosomal protein L36	ATGATGAAGGTAAGGCCTTCTGTAAAACCAATTTGCGAAAAATGCAAAGTCATCAAACGTAAAGGTAAAGTCATGGTTATCTGTGAAAACCCTAAGCATAAACAAAAACAAGGTTAA	MMKVRPSVKPICEKCKVIKRKGKVMVICENPKHKQKQG				NA	NA	NA	NA	NA
AK012_03958	366	rpsM	COG0099	30S ribosomal protein S13	ATGGCACGTATTGCAGGTGTAGATATTCCCCGCGATAAGCGCGTGGTTGTTTCATTAACTTATGTCTTCGGTATCGGTAAATCCCTTGCTGCAGACATCCTGGCTGATGCTGGCGTATCTGAGAGTACCCGCGTTCGCGATCTTACTGAAGACGAACTGGCTAAGATCCGTCAAGCTGTTGAAAAGCACAACGTAGAGGGTGACCTTCGTCGTGAGAACTCTCTAAACATCAAACGTCTGATTGAAATCGGTTCTTACCGTGGAATCCGTCACCGTCGTGGTCTTCCACTTCGCGGACAAAAGACGAAGAACAACTCCCGTACACGTAAAGGTCCACGTCGTACAGTAGCTAACAAACGTAAATAA	MARIAGVDIPRDKRVVVSLTYVFGIGKSLAADILADAGVSESTRVRDLTEDELAKIRQAVEKHNVEGDLRRENSLNIKRLIEIGSYRGIRHRRGLPLRGQKTKNNSRTRKGPRRTVANKRK				NA	NA	NA	NA	NA
AK012_03959	396	rpsK		30S ribosomal protein S11	ATGGCACGTAAAGGAAACACTCGCAGTCGTAAACGCCGCGTGAAAAAGAATATAGAGACGGGTATGGCTCATATCCGTTCTACATTCAACAACACAATCGTAACGATCACTGATGTCCAAGGTAACGTAATCAGCTGGAGCAGTGCAGGTTCTCTTGGTTTCAAAGGTTCCCGTAAATCTACTCCATTCGCTGCACAAATGGCTTCTGAAGCAGCAGCGAAAGATGCTATGGACAACGGCATGAAAACTCTTGAAGTTACAGTTAAAGGTCCTGGTGCAGGTCGTGAAGCTGCGATCCGTTCACTACAGGCAGCAGGTCTTGACATTACGGCAATCCGTGACGTAACTCCAGTACCACACAATGGTTGCCGCCCACCAAAACGTCGTCGCGTATAA	MARKGNTRSRKRRVKKNIETGMAHIRSTFNNTIVTITDVQGNVISWSSAGSLGFKGSRKSTPFAAQMASEAAAKDAMDNGMKTLEVTVKGPGAGREAAIRSLQAAGLDITAIRDVTPVPHNGCRPPKRRRV				NA	NA	NA	NA	NA
AK012_03960	945	rpoA	COG0202	DNA-directed RNA polymerase subunit alpha	ATGATCGAAATTGAAAAGCCAAAGATTGAAACGGTCGAGATCAGCGATGAGTCTACTTTTGGTAAGTTCGTCGTAGAACCGCTAGAACGTGGGTATGGTACAACTCTAGGGAACTCCTTGCGTCGTATCCTATTATCCTCACTTCCCGGATCTGCTGTCACTTCTGTTCAAATTGACGGTGTTCTTCATGAATTTTCTACTATTGAAGGTGTCGTTGAGGACGTAACAACTGTCATTTTGAACCTAAAGAAACTCGCTTTGAAAGTGTATTCTGACGAAGAGAAGACTTTAGAAATTGATGTGCAGGGTGAAGGTAAGGTTACCGCGGCTGATATTACGCATGATAGTGACGTTGAAGTATTAAATCCAGATCTTCATATCGCCACACTCGACAGCAACTCCAGCTTCCGTGCTCGCATCACAGCAGAACGCGGTCGAGGATATCGTCCGGCTGAAGGAAATAACCATGAGGATCTACCCATCGGCGTGATTCCCGTAGACTCTATCTTCACACCGGTTTCCCGTGTGACATATCAAGTAGAGAATACTCGAATCGGTCAAACATCTAATTATGACAAACTTACATTGGATGTTTGGACGGATGGCAGCATCCGTCCAGAAGAGGCGATCTCTCTTGGCGCTAAAATTTATATGGAGCACCTCAACATTTTCGTCGGCCTGACTGATGAAGCTCAAAAGGCTGAAATCATGGTCGAGAAAGAAGAGGACCAAAAAGAAAAAGTTCTTGAAATGACGATCGAGGAACTTGACCTTTCTGTTCGTTCTTACAACTGCTTGAAGCGTGCAGGTATCAACACTGTGCAGGAACTTGCCAACAAGTCTGAAGAAGACATGATGAAGGTTCGTAACCTTGGCCGCAAGTCACTTGAAGAAGTGAAGCACAAGCTGGACGAACTAGGTCTTGGACTAAGAAAAGACGATTGA	MIEIEKPKIETVEISDESTFGKFVVEPLERGYGTTLGNSLRRILLSSLPGSAVTSVQIDGVLHEFSTIEGVVEDVTTVILNLKKLALKVYSDEEKTLEIDVQGEGKVTAADITHDSDVEVLNPDLHIATLDSNSSFRARITAERGRGYRPAEGNNHEDLPIGVIPVDSIFTPVSRVTYQVENTRIGQTSNYDKLTLDVWTDGSIRPEEAISLGAKIYMEHLNIFVGLTDEAQKAEIMVEKEEDQKEKVLEMTIEELDLSVRSYNCLKRAGINTVQELANKSEEDMMKVRNLGRKSLEEVKHKLDELGLGLRKDD				NA	NA	NA	NA	NA
AK012_03961	360	rplQ		50S ribosomal protein L17	ATGGCTAGAAAACTAGGACGTACTACAGATCAGCGTATGGCTCTGCTTCGCGGCTTGGCTACTGATTTGATCGTACACGAACGTTTGGAAACAACAGAAGCTAAAGCGAAAGAGCTTAAGTCTGTTGTAGAAAAAATGATTACACTAGGTAAGCGCGGCGATCTTCATGCCCGTCGTCAAGCGGAAGCATTCCTATACAATGCACAAGCTGATGAAGAAGGAGAGCAGACTGCACTGCAGAAACTATTCTCTGACATCGGCCCACGCTACGAGGACCGTCAAGGTGGTTACACTCGCGTATTGAAGCTTGGCGAGCGTAAAGGTGATGGAGCTAAAATGGCAATCATCGAACTAGTATAA	MARKLGRTTDQRMALLRGLATDLIVHERLETTEAKAKELKSVVEKMITLGKRGDLHARRQAEAFLYNAQADEEGEQTALQKLFSDIGPRYEDRQGGYTRVLKLGERKGDGAKMAIIELV				NA	NA	NA	NA	NA
AK012_03962	840	ecfA1	COG1122	Energy-coupling factor transporter ATP-binding protein EcfA1	ATGGGAGAGAGACAAGTGGAGTTCCGGAACGTATCTTTTCGATATCAGGAGGATATGCCCTGGGTATTGAAAAATGTAAGCTTTACGATCGGTCCGGATGAATGGGTGGCTGTCATCGGTCATAATGGCTCGGGGAAGTCGACCATAGCTAAATTAATGAACGGACTGCTGTTTCCTCAGGAAGGGGAAGTCCTTGTTGACGGCATGCCTGTCAACGAAGAAACCATCTGGGATGTAAGGAAACAGGTCGGCATGGTCTTTCAAAATCCGGACAACCAGTTTGTCGGGACCACGGTGAAGGATGATGTCGCTTTTGGCATGGAGAATCACGGCATGCCCAGGGCCCTGATGGTCGAAAGAATCAAAGAGAGTTTGTCGGCCGTAGGAATGGCGGATTATGAACAGCAGGAGCCCCACCGTCTGTCAGGTGGACAGAAGCAGCGGGTGGCCATTGCGAGCGTTCTGGCCGTGTCACCGAAATTCATCATTCTTGATGAGGCTACTGCCATGCTTGACCCGAAAGGGCGGAAGGAAATTATGAACACGGTCCGTCACGTTCAGGAAGAACGGGACCTGTCCCTGATTACCATCACTCACGATCTCCATGAGGTCACTCAGTCTTCCCGGGTGATTGTCATGAATAAAGGTGAGGTTTGGATGCAGGGCTCACCAAGAGACGTATTTTCCAAAAAAGAACACTTACAAGAAATTGGCTTGGATACTCCGTTTGTTAGTAAATTGGCCGATCACCTGAAAGCAGAAGGTGTGCCGCTTAACCGTGAGCCATTGAATCACCAGGAGTTGTTGGAGGAATTATGGACATCACGTTCGACCATGTAA	MGERQVEFRNVSFRYQEDMPWVLKNVSFTIGPDEWVAVIGHNGSGKSTIAKLMNGLLFPQEGEVLVDGMPVNEETIWDVRKQVGMVFQNPDNQFVGTTVKDDVAFGMENHGMPRALMVERIKESLSAVGMADYEQQEPHRLSGGQKQRVAIASVLAVSPKFIILDEATAMLDPKGRKEIMNTVRHVQEERDLSLITITHDLHEVTQSSRVIVMNKGEVWMQGSPRDVFSKKEHLQEIGLDTPFVSKLADHLKAEGVPLNREPLNHQELLEELWTSRSTM				NA	NA	NA	NA	NA
AK012_03963	870	ecfA2	COG1122	Energy-coupling factor transporter ATP-binding protein EcfA2	ATGGACATCACGTTCGACCATGTAAGTTACACCTATCAGCCGAATACACCATTTGAACACAGAGCTCTGGACGACTTGTCCTTTTCGATCCATTCGGGTTCTTTCGTGGCGGTCATCGGTCATACCGGATCAGGCAAGTCTACATTGATCCAGCACTTGAACGGGCTGCTTCAGCCGACAGAGGGACAGGTGCAGGTAGGTCCCTATGCGATGAAGGCCGGAGAGAAAAGCAAGCAGCTGATGAAGCTGCGTGAAAACGTCGGAGTCGTATTTCAGTACCCTGAGCACCAGTTGTTTGAAGAAACCGTTGAGAAAGATATTGCTTTTGGTCCACAGAACTTCGGTGTGGGATCGGAGGAGATCAAGCGGCGGACGAAGGAAGCTGTCCAGGCGGTAAAACTCCCGGAGGAACTATTGGAACGCTCTCCCTTTGATTTAAGTGGAGGTCAGATGCGCCGGGTGGCGATATCCGGGGTGCTCGCTATGAATCCGGAAGTGCTTGTTCTGGACGAACCGACCGCCGGGCTTGATCCCAACGGGCGTAAAGAGATTATGGATATGTTTTATGATCTGCATCATAAAAAGGGGCTTACAACCGTTCTTGTGACCCATAGTATGGAGGATGCCCTCGCCTATGCCGATCACATCATCATCATGAACAACGGGAAGATCTACAGAGAAGGAAGCCCGCTGGACATCTTCAAACAGCAGCAGGCACTGGAAGATGTGCAGCTGGATGTGCCTGAAGTTGTTTCCTTTTTGAAAAGGGCCCGGGATTTCGGACTTGATCTGGAATACGAAGGCCAGACGATAGCGGAGTTAGCAAAGGAAATAGCCCTGAAAGTGAAAGGGGGCGGCGATCGTGAGTAG	MDITFDHVSYTYQPNTPFEHRALDDLSFSIHSGSFVAVIGHTGSGKSTLIQHLNGLLQPTEGQVQVGPYAMKAGEKSKQLMKLRENVGVVFQYPEHQLFEETVEKDIAFGPQNFGVGSEEIKRRTKEAVQAVKLPEELLERSPFDLSGGQMRRVAISGVLAMNPEVLVLDEPTAGLDPNGRKEIMDMFYDLHHKKGLTTVLVTHSMEDALAYADHIIIMNNGKIYREGSPLDIFKQQQALEDVQLDVPEVVSFLKRARDFGLDLEYEGQTIAELAKEIALKVKGGGDRE	PGPT0004455_244	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_COBALT_RESISTANCE	COBALT_RESISTANCE-CBI_TRANSPORT_SYSTEM,PGPT0004455-cbiO-K02006	NA	NA
AK012_03964	798	ecfT	COG0619	Energy-coupling factor transporter transmembrane protein EcfT	GTGAGTAGTTCATTGATTATCGGTCAGTATATTCCATCCGATTCTGTCATCCACCGTTTGGATCCCCGCTCCAAAATCGCTGTCATCTTTTTTTATGTCGTGATCGTCTTTTTTGCTAACTCTGTTATGAGCTATGGGGTGCTCGCGTTATTCGCATTGACGAGCGCTCTTTTATCAAAGGTTCCATTGGCTTATATTATGAAAGGGTTGAAGCCGGTCTGGTTTCTGGTGATCTTTACGTTCCTGCTCCACTTGTTTGTAACAAGAGAAGGAGAAGTAGCGTTTCAGCTGTTTGGCTGGGCGGTCTATGAGGAAGGGCTGGTTCAGGGGGCGGCGATTTCCCTGAGGTTCTTCCTTTTGATTCTCGTTACTTCTCTGCTTACGTTAACGACAACGCCGATTGAGATTACGGACGCGATCGAAGAGCTGCTGGGCCCCTTGAAAAAAGTGAAGTTCCCTGTGCATGAACTGGCGCTTATGATGTCGATCTCCCTCCGCTTCATTCCGACGCTGATGCAGGAGACAGAGAAAATATCGAAAGCACAGGCTTCCAGAGGCGTGGACTTCCGCACAGGCGCTTTTAAAGACCGTGTGAAGGCGGTTGTGCCATTACTGGTCCCTTTGTTTGTCAGTGCCTTCAAACGCGCTGAGGAGCTCGCTATGGCGATGGAGGCGCGTGGCTATCAGGGAGGCGAAGGAAGGACGAAGTTGAGAGAGTTAAAACTGGAACGGAGGGACTGGCTGCTGTATGCGGTTTTCATTCTGCTGGCAGCGGCTCTCTTCCTGACCCGTCAATGA	MSSSLIIGQYIPSDSVIHRLDPRSKIAVIFFYVVIVFFANSVMSYGVLALFALTSALLSKVPLAYIMKGLKPVWFLVIFTFLLHLFVTREGEVAFQLFGWAVYEEGLVQGAAISLRFFLLILVTSLLTLTTTPIEITDAIEELLGPLKKVKFPVHELALMMSISLRFIPTLMQETEKISKAQASRGVDFRTGAFKDRVKAVVPLLVPLFVSAFKRAEELAMAMEARGYQGGEGRTKLRELKLERRDWLLYAVFILLAAALFLTRQ	PGPT0004015_2152	DIRECT EFFECT	BIO-REMEDIATION	HEAVY_METAL_DETOXIFICATION	HEAVY_METAL_IRON_RESISTANCE	IRON_RESISTANCE-Fmn|Dmk|Ppl|Ndh|Eet_SYSTEM,PGPT0004015-fmnA|ecfT-K16785	NA	NA
AK012_03965	741	truA	COG0101	tRNA pseudouridine synthase A	ATGAATCGGATACGTATGATCATCGCATACGATGGCACCCGTTATGCCGGTTATCAGGTCCAGCCGAACGGTAATACCGTCCAGGCGGAGCTGGAGAAGGCTTTGAAGAAGATTCATAAAGGAAGTCCCGTAAAGGTGACAGCTTCCGGTAGAACGGACGCCCGTGTCCATGCCGTCGGTCAGGTCATCCACTTTGATACGCCGCTTGACATCCCGCTCAGTAATTGGAGCCGGGCGCTGAATTCAATGCTTCCGGATGATATCCAGGTGAAGCAAGCCGATCAGCCTACTGCCGGCTTTCATGCCCGGTATGATACAACGGGCAAGGAATACCGGTATTTTGTGAGAAACCACCCGGATCCCGATTTGTTCCGCCGTCACTATACCTCTCACGTCAAAGCCCCTCTCAATGTCGCAGCTATGAAACAGGCGTGCGCCTATATTGAAGGGGAACATGATTTTACGTCGTTCTGCTCCCCGAAGACAGATATCAAGGGGAGCAAGGTGCGTACGATTTTTAAAGCGGATGTAGAAAGCAGCGGAGAAGAAGTGATGTTCACCTTTAAAGGGTCCGGTTTCTTATACAATATGGTCAGAATTCTCGTCGGCACACTGCTGGAAGTCGGAAAAGGAGAGCGGGTCCCGGAGGATATCACCGGGATTCTTGAAGCCCGCTCCCGTGAATCAGCGGGGAGGACGGCGCCGCCTCAGGGGTTATTCCTCTGGAAGGTTGATTACTGA	MNRIRMIIAYDGTRYAGYQVQPNGNTVQAELEKALKKIHKGSPVKVTASGRTDARVHAVGQVIHFDTPLDIPLSNWSRALNSMLPDDIQVKQADQPTAGFHARYDTTGKEYRYFVRNHPDPDLFRRHYTSHVKAPLNVAAMKQACAYIEGEHDFTSFCSPKTDIKGSKVRTIFKADVESSGEEVMFTFKGSGFLYNMVRILVGTLLEVGKGERVPEDITGILEARSRESAGRTAPPQGLFLWKVDY				NA	NA	NA	NA	NA
AK012_03966	438	rplM	COG0102	50S ribosomal protein L13	ATGCGCACAACTTTCATGGCAAATGAAAACAACGTTGAACGTAAATGGTATGTTGTGGATGCTGCAGGGCAGACACTCGGCCGTTTAGCGAGCGAAGTTGCTGCGATCCTTCGCGGTAAGAACAAACCAACATACACACCACACGTTGACACTGGTGACCACGTCATCATCATCAATGCTGGTGAGATCGAACTAACAGGTAACAAAATCAACGATAAGGTATACTATCGTCACTCCAACCACCCTGGTGGTCTGAAGTCCCGTACGGCTAACGAAATGCGTACGAAATATCCAGAGCAGATGCTTGAACTTGCTGTTAAAGGCATGCTTCCAAAAGGAAGTCTTGGACGTAAAATGGGCAAGAAACTTCATGTATATGCTGGATCTGAGCACAAGCATGAAGCACAACAACCAGAAGTTTACGAACTTCGCGGATAA	MRTTFMANENNVERKWYVVDAAGQTLGRLASEVAAILRGKNKPTYTPHVDTGDHVIIINAGEIELTGNKINDKVYYRHSNHPGGLKSRTANEMRTKYPEQMLELAVKGMLPKGSLGRKMGKKLHVYAGSEHKHEAQQPEVYELRG				NA	NA	NA	NA	NA
AK012_03967	393	rpsI	COG0103	30S ribosomal protein S9	GTGGCACAAGTACAATACTCCGGTACTGGTCGTCGTAAGAGCTCAACAGCTCGTGTACGTCTTGTTCCAGGAACTGGTCGTGTAGTAGTTAACAAACGTGATGCTGAAGACTTTTTCCCATATGAAACCCTTCGTATGATTCTTAAGCAGCCTCTTGCTGTAACAGAAACGGAAGGTAACTATGATGTTTACGTAAACGTAGACGGCGGTGGATTCACAGGACAAGCAGGAGCAATCCGTCACGGTATCGCCCGTGCATTGCTTAAAGCTGATCCAGAATACCGTACACCACTTAAACGCGCAGGTCTATTGACTCGTGACGCACGTATGAAAGAGCGTAAGAAATACGGTCTTAAAGGTGCTCGTCGCGCGCCACAATTCTCCAAGCGTTAA	MAQVQYSGTGRRKSSTARVRLVPGTGRVVVNKRDAEDFFPYETLRMILKQPLAVTETEGNYDVYVNVDGGGFTGQAGAIRHGIARALLKADPEYRTPLKRAGLLTRDARMKERKKYGLKGARRAPQFSKR				NA	NA	NA	NA	NA
AK012_03968	729	cwlD	COG0860	Germination-specific N-acetylmuramoyl-L-alanine amidase	GTGAGTCGACGATTGAAGACCTTTTTATGGCTGGCTGGTGTTATTGTCCTTGTGTGCATGGTTTCCTATCCGATACAGGAAGTGAAGGATGCGTGGACGGTTTGGTCATCGCCGCTGTCCGGAAAAGTCATCGTCCTTGATCCGGGCCATGGCGGACCGGACGGAGGAGCCATCGGTGGAGATGGGACAGAGGAAAAAGTCATTACCTTGAAAATGGCGGAATACCTGCAGGATTATCTCCAGCAGGCGGGAGCTCTTGTATATATGACCAGGTACGAAGATGCTGATCTCGCTTCAGAGGGAACGTCCGGGCTCTCCAGGAGAAAGTCGGAAGATATAAGCAATCGAGTGAAATTCATAGAAGAAAAAGAAGCGGACTTATATTTGAGCCTGCACCTAAATGCCATCCCATCTGCTAAGTGGAGCGGGGCACAGACCTTTTACTATCCGGAGAGTGAGGAGAGTGAATACCTCGCCAAGTTCATCCAGGCTGAGATACAAACCAATATGGGCAATACGAAGCGCGAGGCTTTGGGGCTCAGCAATATCTATATCCTGAAGCATGCGCAGGCACCGGGGGCTCTTGTAGAAGCTGGGTTTTTATCCAATGACCGTGAACGCGAATTATTGAAATCCGAGGATTATCAAAGGCAGATGGCAGCTTCGATCTATCAAGGTGTACTGCGATATGTAACTGAACGGGAATTCCCTGATGAAAATGGATCTTGA	MSRRLKTFLWLAGVIVLVCMVSYPIQEVKDAWTVWSSPLSGKVIVLDPGHGGPDGGAIGGDGTEEKVITLKMAEYLQDYLQQAGALVYMTRYEDADLASEGTSGLSRRKSEDISNRVKFIEEKEADLYLSLHLNAIPSAKWSGAQTFYYPESEESEYLAKFIQAEIQTNMGNTKREALGLSNIYILKHAQAPGALVEAGFLSNDRERELLKSEDYQRQMAASIYQGVLRYVTEREFPDENGS	PGPT0024160_6768	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_AMIDASE_ACTIVITY,PGPT0024160-amiA|amiB|amiC-K01448	NA	NA
AK012_03969	1050	salA	COG0489	Iron-sulfur cluster carrier protein	TTGTTAACACAAGAGAAAGTACTAGAAATCCTGAACCCTATTCAAGATCCATTTTTACATAGAACGCTGGAAGAAACCGGTGGAGTGGAAGAAGTAAAAATTAAGGAAGAGAAAAACCATGTCAGTGTGAAAATCCTGATTGGAAAGACGAACACGGCAGAGCAGATGGAACTGCAGCAGACGATCGTCAATGCTCTGAAAAGCGGCGGAGCGGCTACAGTAGGTCTTCGCTTCGATCAACTCCCTGATGATGTCGTTCAGAAATTCCAGCCAGCTCAGGAATCCGAGGATGCTTCTTTGCTGAGCGGAAATACGAAGACGAAATTTATTTCCATCGCCAGTGGTAAGGGCGGTGTTGGTAAATCCACGGTAACTGTAAACCTTGCTGTTGCGTTAACGCGTCTGGGTAAGAAGGTTGGAATTATCGATGCCGATATTTATGGTTTCAGCGTGCCGGATATGATGGGCGTGGAAGAACGCCCGGTCGTCCGTGGAGAAAAAATTATTCCGGTTGAACGGTTTGGCGTCAAAGTTGTATCGATGGGCTTCTTTGTGGAAGATAACTCTCCGATTATCTGGCGTGGACCGATGCTTGGGAAAATGCTGACAAGCTTCTTCAAGGAAGTGGAGTGGGGAGATCTTGACTATCTTCTTCTTGACCTGCCTCCGGGTACGGGAGACGTAGCCCTGGACGTACATTCCATGCTTCCTTCTTCCAAGGAGATCATCGTAACGACGCCGCACCCGACAGCTGCTTTCGTAGCGGCTCGTGCCGGACAGATGGCTATTAAGACAGAGCATGAAATCCTTGGTGTTGTGGAGAACATGGCTTACTTTGAAAGTAAAGAAACAGGAAACAAAGAGTTTATCTTCGGCCGTGGGGGCGGTGTGAAACTTGCGGACACACTCCAAACTGCCGTTCTTGGACACGTTCCTCTACAGCAGCCTTATGAAGAAGAAGAGGTCTTTGCTCCTTCTGTTTATCAGGCCGACCACCCGATCGGTGTCATTTATCGGAATATGGCCGCTAAAGTGATCGATAAATATTAA	MLTQEKVLEILNPIQDPFLHRTLEETGGVEEVKIKEEKNHVSVKILIGKTNTAEQMELQQTIVNALKSGGAATVGLRFDQLPDDVVQKFQPAQESEDASLLSGNTKTKFISIASGKGGVGKSTVTVNLAVALTRLGKKVGIIDADIYGFSVPDMMGVEERPVVRGEKIIPVERFGVKVVSMGFFVEDNSPIIWRGPMLGKMLTSFFKEVEWGDLDYLLLDLPPGTGDVALDVHSMLPSSKEIIVTTPHPTAAFVAARAGQMAIKTEHEILGVVENMAYFESKETGNKEFIFGRGGGVKLADTLQTAVLGHVPLQQPYEEEEVFAPSVYQADHPIGVIYRNMAAKVIDKY				NA	NA	NA	NA	NA
AK012_03970	636	gerD		Spore germination protein GerD	ATGTCCAGACTCCGTATATTGCTGCCCGTTCTCATTCTTGTTTTCCTGGCCGCTTGTAATGGTTCATCAGGAGCAAGTGAACAGGCGGACTATGATACCACCAAGAAAATGATGGTTGATATCCTTAAATCCGACGATGGAAAAAAGGCGATGACTGAAGTTCTCTCCGATGAGGAAATGCAGCAGTCCATGGCCCTTGAGTCCGAAGTTGTCTCCCAGGCTGTACAGCAGACGTTGATATCTGAAGAAGGCAAAGCTTTCTGGAGCAAGCTTTTTTCCGACCCCACGTTTGTCCAGGAATTCAGCAAAGTTCTGGAAGATCAGCAGAAAGAGCTGATGAAGGGACTCATGAAGGATGCAGAATATCAGAAGTTGATGATTGAACTTTATAAAAACCCCGAAATGATGGAACAAATGGTTACTGTTATGCAGGGGCAGAAGTTTAAGGCCCACTTGGAGACCACGATTGAGGAAACATTAAATAGTCCTGTATTCCAAGCGAAAATGACAGAAACGTTGTTAAAAGCAGCAGAGGAAATGAGCAGCGGGGAACAGAGTGAACAATCCGAGGAAAGCGGCCAGCAGAGCGGCGGAAGTCAGTCTGAAAGTGGCAGCGAACAAGGCCAAAGCGGTTAA	MSRLRILLPVLILVFLAACNGSSGASEQADYDTTKKMMVDILKSDDGKKAMTEVLSDEEMQQSMALESEVVSQAVQQTLISEEGKAFWSKLFSDPTFVQEFSKVLEDQQKELMKGLMKDAEYQKLMIELYKNPEMMEQMVTVMQGQKFKAHLETTIEETLNSPVFQAKMTETLLKAAEEMSSGEQSEQSEESGQQSGGSQSESGSEQGQSG	PGPT0025045_81	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_GERMINATION_PROTEIN,PGPT0025045-gerD-K06294	NA	NA
AK012_03971	606			hypothetical protein	GTGAACAGTCGTAAGTGGGTTCAATTATTCTTATCAACGTTATGGATCGGCGGCGGGGTCACCCTGGCAGCCAGTTTCTTTTTTAAGTTTGATTCGTATGCCGAGTTTTGGCAGCCCTTTCAATTGTTTCAACTTTTCGGTCTGCTTTTATTCTTTGCAGGTATGGGTTTCATATTCAGCATTATCAGTCAGATGGGCTTCTTCGCTTATCTGACCGTCAACCAATTTGGGAAAGGTCTGTTCCGTTCCGCCTGGACACCGGTTCAGCTGTTTTTAATCGCTTTTACGCTTTTCGATCTGGTTTATTTTCGTTATCAGGCTTCTGAGGATGGGGCATCTGTATGGGGATATATCGTGACAGCGGCTGTTCTGTTGGTGTTGTCGCTTATTGTCGCTTACATAAAAGCAAAGGAAACGAATGCTCATGCGTTTCTTCCGGCTCTTTTCTTCATGGTAGTGGTCACAACGGTTGAATGGGTGCCGGCGCTTAGAGCTGTCGGAAGTGACTACGTATGGCTGATGATCATTCCCTTGTTCATCTGCAATGCCTACCAGCTTCTTCTGCTCCACCGTCTTACTGGACAGGACCATACTGAAAAAGCTTAA	MNSRKWVQLFLSTLWIGGGVTLAASFFFKFDSYAEFWQPFQLFQLFGLLLFFAGMGFIFSIISQMGFFAYLTVNQFGKGLFRSAWTPVQLFLIAFTLFDLVYFRYQASEDGASVWGYIVTAAVLLVLSLIVAYIKAKETNAHAFLPALFFMVVVTTVEWVPALRAVGSDYVWLMIIPLFICNAYQLLLLHRLTGQDHTEKA				NA	NA	NA	NA	NA
AK012_03972	759			hypothetical protein	ATGAGCTTTTACACGTGGAAAACCGAAAGACTTAAGCGTTACGGCATCGTCGCTCTCCTTGCTTTATTCTGTGCTCTGGCCCTGTGGATCGGCCGTTGGGAGCAGCTGCCCGCTTTTTCCAATAACGGCGAACCGCGTGCTCTTACACAGGGAAGCGGCGATCAGGATCATATCGCGCTTACCTTTAACATCAGCTGGGGAACGGACAAAGTCAATGAGGTGTTAAAACAACTGGAAGCCCACCAAGTACAGGCCACGTTTTTCCTAAGCGGGGAATGGGCGGAAAGACACCCGGATATCGTCAAAAACATCCAGGAAGGAAAACATGAAATCGGGATGATGGGCTACACGTACGAAAGCTACCTTGAAAAAGAACCGAACCAAGTAGCCGGGGATTTAAAAAAAGCCGATGAGGCTTTTGCCAAGCTGGGCCTTGATGATATTCAATGGATCCGTCCCCCGCACGGTCATATGAATAAGGATGTTCTGAAAACCATTGAACAAAACGGCATGCAGGCTGTCCAATGGAGCCTGAATCCACGGGACTGGGAAAATCCAGGCACGAATACCATCATTGATGCTGTATTAAACGAAAGCTCTAAAGGGGATATCATTGTGATGCACGCTTCGGATTCGGTGAAACAGACCCCTAAAGCTCTTGAAGTGATTCTTCCGGGCCTGAAGCAGAAAGGACTTACCTTCGTCAGTATTACCGAATTAGCCAGCGGAGGAGAAGCCAAAACAAGTCAAATCCAATAA	MSFYTWKTERLKRYGIVALLALFCALALWIGRWEQLPAFSNNGEPRALTQGSGDQDHIALTFNISWGTDKVNEVLKQLEAHQVQATFFLSGEWAERHPDIVKNIQEGKHEIGMMGYTYESYLEKEPNQVAGDLKKADEAFAKLGLDDIQWIRPPHGHMNKDVLKTIEQNGMQAVQWSLNPRDWENPGTNTIIDAVLNESSKGDIIVMHASDSVKQTPKALEVILPGLKQKGLTFVSITELASGGEAKTSQIQ	PGPT0018645_3641	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-PEPTIDOGLYCAN_REMODELLING	CE-PG_REMODELLING_HYDROLASE_ACTIVITY,PGPT0018645-pda|pgdA-K22278	NA	NA
AK012_03973	222			hypothetical protein	ATGCATGGGTTAATTATTAATGAACAGGAGCGCCGTGAGATAGAGTACTTGTTAAAGCGGGAAATGGAGGAAATCACTTTTGACCTGGGTGATCCCCGGATCGATCAGGGAATGAAGAAGGCCATGGAAGAACGGTATGAAGTCCTTTTCCAGATCTTCCGCCGCTTTGCTGCAAGGGAAGAATGCCTGCAGTATATGCCCAGGAAAAAGAAGCAGAATTAG	MHGLIINEQERREIEYLLKREMEEITFDLGDPRIDQGMKKAMEERYEVLFQIFRRFAAREECLQYMPRKKKQN				NA	NA	NA	NA	NA
AK012_03974	1491	lysS		Lysine--tRNA ligase	GTGTCAGAAGAACTGAATGAATATATGCAGGTGCGCAGAGACAAGATGAACGCTCACCGTGAACAAGGCCTGGATCCGTTCGGCGACCGTTTTGACCGTACGCATTATGCGGACCAGTTGAAAGAACAATATGATGCCTATACAAAAGAAGAACTGGAAGAGAAACAGTTCCCGGCTACCGTAGCAGGACGAATTATGACCAAGCGCGGAAAAGGGAAAGCGGGTTTCACACATATCCAGGATGTCACAGGGCAGATCCAGCTGTACGTCCGTAAAGATGAAATCGGAGAAGAGGCTTATGACAACCTCTTTAAAACAGCAGACTTGGGCGATATCGTCGGAGTAACCGGAGTGATGTTTAAAACAAACGTCGGTGAACTTTCTGTAAAAGCGGGGGAATTCCAGCTGCTTACGAAATCCCTGCGCCCGTTACCTGAAAAGTTCCACGGACTTCAAGATGTAGAACAGCGCTATCGTCAGCGATATCTTGACTTGATTACGAACCCTGACAGCAGAGACACATTTGTTCTGCGCAGTAAAATCATTCAATCCATGCGCCGCTACCTGGACGGTCTAGGTTTCCTTGAAGTGGAGACACCATTAATGCACGGTATTCCGGGAGGAGCTTCCGCCCGTCCGTTCATTACCCATCACAACGCTCTTGATATGCAGTTGTACATGCGTATAGCCATCGAGCTACACTTGAAGCGTCTGATCGTCGGCGGAATGGAAAAGGTGTATGAAATCGGACGCGTCTTCCGTAACGAAGGGGTATCCACGCGTCATAACCCTGAATTTACAATGATTGAGTTGTATGAAGCTTACGCTGATTATAAAGACATTATGGCATTAACAGAAAATATGGTTGCTCATATTGCTAAAGAAGTACTCGGTACGACAACCGTGATGTATGACGATCAGGAAATTAACCTGGAGCCGGAATGGGCCCGCCTGCACATGGTGGATGCCATCAAGGAATATACAGGCGTTGATTTCTGGCAGCCTATGAGTAACGATGAAGCAAAAGCACTTGCCCATGAACATGGCATTGAAATTAAAGATACAATGACATTCGGTCATATCGTCAATGAATTCTTCGAGCAGCGCGTGGAAGAAAAGCTTGTCCAGCCTACCTTTATTTATGGACATCCAATAGAGATCTCTCCACTCGCCAAAAAGAATCCTGAAGATGAACGCTTTACGGACCGCTTTGAATTATTCATCGTTGGACGCGAACATGCCAATGCGTTTTCTGAGTTGAATGATCCGATCGATCAGCGCGAACGATTCGAAGCTCAGCTTAAAGAGCGTGAAGAAGGAAATGATGAAGCACATATGATGGATGAAGACTTCCTGGAAGCTCTTGAGTATGGTATGCCGCCGACTGGTGGATTGGGAATCGGTGTTGATCGTCTGGTTATGCTTTTAACCAATTCTGCTTCTATTCGTGACGTATTATTGTTCCCTCAAATGAGACATCGCGACTCTTGA	MSEELNEYMQVRRDKMNAHREQGLDPFGDRFDRTHYADQLKEQYDAYTKEELEEKQFPATVAGRIMTKRGKGKAGFTHIQDVTGQIQLYVRKDEIGEEAYDNLFKTADLGDIVGVTGVMFKTNVGELSVKAGEFQLLTKSLRPLPEKFHGLQDVEQRYRQRYLDLITNPDSRDTFVLRSKIIQSMRRYLDGLGFLEVETPLMHGIPGGASARPFITHHNALDMQLYMRIAIELHLKRLIVGGMEKVYEIGRVFRNEGVSTRHNPEFTMIELYEAYADYKDIMALTENMVAHIAKEVLGTTTVMYDDQEINLEPEWARLHMVDAIKEYTGVDFWQPMSNDEAKALAHEHGIEIKDTMTFGHIVNEFFEQRVEEKLVQPTFIYGHPIEISPLAKKNPEDERFTDRFELFIVGREHANAFSELNDPIDQRERFEAQLKEREEGNDEAHMMDEDFLEALEYGMPPTGGLGIGVDRLVMLLTNSASIRDVLLFPQMRHRDS	PGPT0012225_5192	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
AK012_03975	498	folK	COG0801	2-amino-4-hydroxy-6-hydroxymethyldihydropteridine pyrophosphokinase	ATGAATAAAGCTTATATTGCCCTCGGTTCCAACCTTGCTGAACGGGAGCAGTATCTTCGTGACGCTGTATCATTATTGGATGAAAACGGAGCCGTCCAGGTAGAAGAGAAATCCGGCGTTTATGAAACGGTTCCGGTAGGCTACACCGATCAGGGAGACTTTTTAAATATGGTGATTGTCGTGAAAACGTCCCTCCCTCCGGAAGAGCTTCTGAAGGTCTGCCAGTCCATAGAAGACGGTCTCGGGCGGAAAAGATTGGTGAAATGGGGGCCGCGGACCATTGATCTCGACATTCTTTTGTATAACGAAGAAAACACGAAGGCCGCCGACTTGACGATCCCTCATCCCCACATGCATGAGCGGGCCTTTGTTATCGTGCCTCTGGCAGATGTGGATCCCCATGCATATCTTCCCCACCTGCAGAAGCAGGCGGTGGAACTGCTGCATGAACTGCCGGATGCCGAGAGAGAAAGTGTTGTGTTATGGGGATCCCTCTGA	MNKAYIALGSNLAEREQYLRDAVSLLDENGAVQVEEKSGVYETVPVGYTDQGDFLNMVIVVKTSLPPEELLKVCQSIEDGLGRKRLVKWGPRTIDLDILLYNEENTKAADLTIPHPHMHERAFVIVPLADVDPHAYLPHLQKQAVELLHELPDAERESVVLWGSL	PGPT0007910_2389	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007910-folK-K00950	NA	NA
AK012_03976	369	folB	COG1539	Dihydroneopterin aldolase	TTGGATAAAATCTACGTTAATCAAATGGAATTCTGGGGCTACCACGGCCTTTTTCCGGAAGAAAACAAACTGGGGCAGCGTTTTTACGTTGACCTTGCACTGGAGCTGGATTTAAAACCGGCCTCCCAAACGGACGATATGACAAAGTCCATTGATTATGGGGCCATTTATGAATCAACGAAAAAAATTGTAGAGGGGAAAGCCTGTTATCTTGTAGAGTCTGTGGCTGAACAGATCTCCCGGGAGTTGTTCTCGTCTTTTCCGCTGTTGGAAGGATGCCTCGTAAAAGTGATCAAGCCCGACCCGCCCATCCCCGGACATTATCAATCGGTAGCTATTGAGATATACCGGAGCCGCTCTGATGAATAA	MDKIYVNQMEFWGYHGLFPEENKLGQRFYVDLALELDLKPASQTDDMTKSIDYGAIYESTKKIVEGKACYLVESVAEQISRELFSSFPLLEGCLVKVIKPDPPIPGHYQSVAIEIYRSRSDE	PGPT0007905_1950	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007905-folB-K01633	NA	NA
AK012_03977	834	folP		Dihydropteroate synthase	ATGTCCTTATACTTACACACACGCACGAAAACATATAATTTAGCCGAGGAAACGCTTGTGATGGGCATTTTGAACGTCACACCCGACTCTTTTTCAGATGGTGGTCTGTACACAGATGTTGACCGCGCTGTCCAGCAGGCAGAAAGCATGGTGCAAGCAGGGGCCCGGATTATCGATATTGGTGGTGAGTCTACGCGGCCGGGACATGAACCGGTGACAGAAGGGGAAGAGTTACAAAGGGTTATCCCTGTGATCGAAGCGGTAAGCCGTGCCGTTGATGTGCCGATCTCCATTGACACGTACAAGTCGGAAGTAGCAAAACAGGCGGTGGAGCATGGAGCTTCCATCATTAATGATGTGTGGGGAGCAATAAAAGACCCTGCCATAGCCGATGTTGCTGCCCGGTATGATGTGCCGATTATATTGACGCATAATCGCGAGGATCGGAACTATACCCATTTAATCACTGATATGAAGCAGGATCTAATGAATATGGTAGACAGCGTAAAAGCGCGTGGAGTAAAGGATGAGCAGATCATCCTGGATCCGGGGATTGGTTTTGCCAAAAGCCAGCAGGATAATCTTGTTGTCATGCGTCACTTGAAAGACCTTCGGGACCTTGGGTATCCCCTGCTTCTCGGTACTTCAAGGAAATCGTTTATTGGTACGGTTCTGGGTCTTCCTAAAGAGGAACGAATGGAAGGGACGGGCGCAACAGTCTGCTATGGAATCTCCCAGGGAGTGGAGATCGTAAGAGTCCATGATGTCCAGCCTGTGGCCCGTATGGTGAAGATGATGGATGCTATGATTGGAAAGGGTGGAGGAATTGGATAA	MSLYLHTRTKTYNLAEETLVMGILNVTPDSFSDGGLYTDVDRAVQQAESMVQAGARIIDIGGESTRPGHEPVTEGEELQRVIPVIEAVSRAVDVPISIDTYKSEVAKQAVEHGASIINDVWGAIKDPAIADVAARYDVPIILTHNREDRNYTHLITDMKQDLMNMVDSVKARGVKDEQIILDPGIGFAKSQQDNLVVMRHLKDLRDLGYPLLLGTSRKSFIGTVLGLPKEERMEGTGATVCYGISQGVEIVRVHDVQPVARMVKMMDAMIGKGGGIG	PGPT0007915_3869	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-VITAMIN_B9|FOLATE_METABOLISM,PGPT0007915-folP-K00796	NA	NA
AK012_03978	930	cysK_2	COG0031	Cysteine synthase	GTGTTGAGAATCGTAAATAACGTAAGTGAACTTGTAGGACAGACTCCGCTGGTTAAACTGAATGGCAGTGCTGAGGAAGACAGTGCGGACATTTATCTTAAACTGGAGTATATGAACCCGGGGAGTTCTGTAAAAGATCGAATCGCTTTATCCATGGTGGAAGAGGCGGAAAAAGATGGACGTTTGAACGAGGGTGACACGATTGTAGAACCAACCAGTGGAAATACAGGGATTGGTCTGGCTATGATTGCTGCAGCCAAAGGGTACAAAGCGATTCTCGTTATGCCGGATACGATGAGTCAGGAACGCCGAAACCTGCTCCGGGCCTATGGGGCGGAACTGGTCCTTACACCAGGGAGCGACGGCATGAAGGGAGCAATTAAGAAAGCTGCTGAACTTCATGAAAAGCATGGATATTTCATGCCGCAGCAGTTTAACAATGAAGCAAACCCTCTCATCCACGAAAAGACAACAGGACCTGAGATCATCGAGCAGATGGGTGATCAGCTGGATGCTTTTGTTGCTGGTATCGGTACAGGTGGAACGATTACCGGTGCCGGGAAAGTGCTGAAAGAAAAGTATCCTGATATGAAGATCTACGCGATCGAGCCTGAAGAATCTCCAGTATTATCCGGTGGGAATCCAGGTCCTCACAAAATCCAGGGAATCGGCGCCGGCTTTGTTCCGGGAATCTTGAACACGGAAATCTACGATGAAGTCGTGACGGTTTCCAAGGAAGACTCCTTTAAAGCCGCCCGCGAAGCCGCGAGGAAAGATGGAATCCTTGGAGGAATTTCTTCCGGTTCAGCGATCCACGTAGCAAAACAAGTGGCTAAGCAGCTTGGAAAAGGGAAAAAAGTGGTCGCTGTCATTCCAAGTAATGGAGAACGGTACTTGTCTACTCCTCTTTACCAGTTTGATGAAGAATAA	MLRIVNNVSELVGQTPLVKLNGSAEEDSADIYLKLEYMNPGSSVKDRIALSMVEEAEKDGRLNEGDTIVEPTSGNTGIGLAMIAAAKGYKAILVMPDTMSQERRNLLRAYGAELVLTPGSDGMKGAIKKAAELHEKHGYFMPQQFNNEANPLIHEKTTGPEIIEQMGDQLDAFVAGIGTGGTITGAGKVLKEKYPDMKIYAIEPEESPVLSGGNPGPHKIQGIGAGFVPGILNTEIYDEVVTVSKEDSFKAAREAARKDGILGGISSGSAIHVAKQVAKQLGKGKKVVAVIPSNGERYLSTPLYQFDEE	PGPT0002810_6217	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
AK012_03979	882	hslO	COG1281	33 kDa chaperonin	ATGTCAGATTATTTAGTGCGGGCGATGGCATTTGATGGACAAGTAAGAGCATACGCTGTTCAGTCCACCAATACCGTCGAAGAAGCCAGACGCAGACAGGATACGTGGGCGACAACATCAGCCGCTCTGGGTAGAACCTTGACGATCAGCTCTATGATGGGAGCTATGCTTAAAGGAAATGACAAAATTACAGTGAAGGTCGAAGGCGGCGGTCCAATCGGGGCCATTGTGGTCGATGCCAACGCTGACGGGGAAGTACGCGGCTATGCGAAGAATCCCCATGTCGACTTCGAGTCCAATGCGCAGGGGAAACTGGATGTATCCCGTGCGGTCGGTACATCCGGAACACTAAGTATTGTGAAGGACCTCGGAATGAGAGACCATTTCACCGGGCAGGTTCCAATCGTATCCGGTGAAATCAGTGAAGACTTCACGTATTACTTCGCAAATTCCGAGCAGGTGCCTTCAGCTGTTGGTGCCGGCGTTCTGGTCGACACAGATCACAGTATCCTTGCTTCCGGCGGATTCATTATTCAAATGATGCCGGGTGCCGATGATAAGACGACCACGGAAATTGAGCAGCGCCTCTCTGACATGCGTCCGATTTCCACGCTTGTACAGGAAGGGAAGACACCAGAGCAGATTCTTCATACCGTTCTTGGTGAAGAAAATGTCCAGCTGCTGGACACCAAGCCTGTGAAATTTCAGTGCCACTGTTCACGTGAACGGGTGGAGATGGCTATTTCCAGCCTGGGTGATGAGGAGATTCAGCGTATGATCGAAGAGGATAATGGAGCGGAAGCGAAATGCCACTTCTGTAACGAAGATTATCAATTCTCTGCTGACGATCTGGAAGAACTGAAATCTCAGAGCACCAGCTGA	MSDYLVRAMAFDGQVRAYAVQSTNTVEEARRRQDTWATTSAALGRTLTISSMMGAMLKGNDKITVKVEGGGPIGAIVVDANADGEVRGYAKNPHVDFESNAQGKLDVSRAVGTSGTLSIVKDLGMRDHFTGQVPIVSGEISEDFTYYFANSEQVPSAVGAGVLVDTDHSILASGGFIIQMMPGADDKTTTEIEQRLSDMRPISTLVQEGKTPEQILHTVLGEENVQLLDTKPVKFQCHCSRERVEMAISSLGDEEIQRMIEEDNGAEAKCHFCNEDYQFSADDLEELKSQSTS	PGPT0014645_1903	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	HIGH_TEMPERATURE_TOLERANCE	HEAT_SHOCK_PRTOEINS,PGPT0014645-hsp33|hslO-K04083	NA	NA
AK012_03980	792	coaX	COG1521	Type III pantothenate kinase	ATGAATTTTGTCCTTGATGTGGGAAATACCAATACTGTCTTAGGTGTGTTTGAAAATGGCGCGTTAAAGTATCAATGGCGTATTAAGACAGATCGACATAAAACAGAAGATGAGTTCGGCATGTTAATCAAATCCCTGTTTGATCATGAAGGTTTGACCTTTGAGGATATGGACGGTGTCATCATCTCTTCCGTTGTCCCGCCCATAATGTTTGCACTTGACCGTATGTCTCGTTATTATTTTAAAAAGCAGCCCATGATTATCGGAGAGAACAATGTCGACCATGGCCTGCCGATGAAATATCCGAACCCGGCCGAGATCGGGGCGGACCGGGTCGTGAATGCTGTCGGGGCAATTGATGAGTACCCGCTTCCTTTAGTCATTATAGATTTTGGGACAGCGACCACCTACTGCTACATTAATGCAGAAGGGGAGTATCTGGGGGGCGCTATTGCACCTGGAGTCAACATTTCCATGGAAGCTCTCTATGCCAAAGCAGCTAAACTTCCGAAGATTGAAATTAAAAGTCCGGAGCATGTCATCGGACAGAGTACTGTAGAAGCTATGCAGTCCGGAGCGTTTTATGGATATGTCGGACAAGTGGATGAGGTTGTCCGAAGAATGAAGGAAACATCCGACCATACCCCGACTGTCATTGCTACCGGCGGCCTCGCGAATTTAATCGCCGGCCAGTCCAGGACCATTGACCATGTGGACCCTTACCTAACATTGAAGGGGCTGCATAAGATATATCAGCGCAACAAAGAGAAAAAAGTATTTAAAGGAGAATGA	MNFVLDVGNTNTVLGVFENGALKYQWRIKTDRHKTEDEFGMLIKSLFDHEGLTFEDMDGVIISSVVPPIMFALDRMSRYYFKKQPMIIGENNVDHGLPMKYPNPAEIGADRVVNAVGAIDEYPLPLVIIDFGTATTYCYINAEGEYLGGAIAPGVNISMEALYAKAAKLPKIEIKSPEHVIGQSTVEAMQSGAFYGYVGQVDEVVRRMKETSDHTPTVIATGGLANLIAGQSRTIDHVDPYLTLKGLHKIYQRNKEKKVFKGE	PGPT0008780_705	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
AK012_03981	2031	ftsH_2	COG0465	ATP-dependent zinc metalloprotease FtsH	ATGAACCGGATCTTTCGTAATACCATATTTTACTTACTTATCTTCCTCGTTGTTATCGGCGTGGTCGGTTTATTCCGAGGTCAAGGTGATCCGCAGCAAGAGTTAAATGTAAATCAGTTTTACGATAAATTGAACAGCGGTGCCATCGAAGAGATGACAATTCAGCCTGTTAATGGAGTGATTCGAATCACTGGTCAGCTGGAGGGTGCTGAAGAAGGGGAGGAAACCTTCACCGCACAGATTACAGCTAACGACCAGACACTTTCCAACATTACCGAGACGGCTCAGGAGCAGTCGATCTTAAATGTGGAACAGGAAGAGCAGCCGAGCGCATGGGTGACATTCCTGACATCCATTATTCCGTTTGTCATTATCTTCATTCTCTTCTTCTTCCTGCTTAACCAGGCTCAGGGCGGCGGAAGCCGTGTCATGAACTTCGGTAAGAGCAAGGCGAAGATGTACACCGAAGAGAAGAAAAAAGTACGCTTTAAAGACGTCGCTGGTGCAGATGAAGAGAAGCAGGAGCTTGTGGAAGTGGTTGACTTCCTTAAGGACCCGCGCAAATTCTCTGCCGTTGGCGCACGTATTCCAAAAGGTGTCCTGTTAGTAGGACCACCGGGTACAGGTAAAACATTGCTGGCCCGTGCCGTTGCCGGAGAAGCAGGCGTTCCATTCTTCTCCATCAGTGGTTCGGACTTTGTTGAAATGTTTGTCGGTGTCGGGGCTTCCCGTGTCCGTGACTTGTTTGAAAATGCGAAAAAGAATGCTCCTGGTATCATCTTTATTGATGAGATCGATGCTGTCGGACGTCAGCGTGGCGCAGGCCTCGGCGGCGGTCACGACGAACGTGAGCAGACATTGAACCAGCTCCTTGTTGAGATGGACGGTTTCGGAGTCAATGAAGGAATCATCATCATTGCTGCAACCAACAGACCGGACATTCTTGACCCAGCCCTTCTTCGTCCCGGCCGTTTTGACAGACAGATTACTGTCGATCGTCCAGACGTCAAAGGTCGTGAAGCTGTTCTCGCCGTTCATGCGAAGAACAAGCCATTGTCTGAAAATGTCGATCTTAAGACCATTGCTCTCCGTACACCAGGATTCTCAGGTGCAGACCTTGAGAACCTGCTGAACGAAGCAGCTCTTGTAGCTGCCCGTGGGGACAAGAAAAATGTCGACATGGATGATGTCGATGAAGCTATTGACCGTGTTATTGCAGGACCGGCTAAGAAGAGCCGCGTCATTTCTTCAAAAGAGCGCGACATCGTTGCCAACCACGAAAGTGGACATACGGTTATCGGTATGGTGCTTGATGATGCCGACATGGTTCATAAAGTAACGATTGTTCCACGAGGTCAGGCCGGCGGTTATGCCGTCATGCTTCCGAAGGAAGACCGCTACTTTATGACAAAACCTGAACTCTTCGACAAGATTACAGGTCTTCTGGGTGGCCGTGTAGCCGAGGAAATCATCTTTGGTGAAGTAAGTACAGGTGCCCACAACGACTTCCAGCGTGCGACAAGCATTGCACGTAAGATGGTTACAGAATACGGAATGAGTGAAAAACTCGGACCGCTTCAGTTCGGTTCAAACTCCGGAGGTCAGGTCTTCCTTGGCCGTGATATCCAGAACGAACAGAACTACAGTGACCAGATCGCATACGAAATCGATCAGGAAGTGAAGAACTTTATCCAGTACTGTTATGATCGTGCGAAGACGATTCTGACAGAGAACAGAGATAAATTAGAGCTGATTGCTAAAACATTGCTGGAAGTAGAAACCCTTGATGCAACTCAAATTCGTTCCCTGTTTGATAAAGGGCGTCTTCCGACAGATGAAGAGCTTGAAGCACTCGCAAGAGAACACAATGCTAAAATCAAGAACAACACTTCTTCTGGAAGCGATGAAGATGTACGCGTCAACATCCAGTCCAAAGATGAAGAAGCTGCTGAAGAGGAACAGGATACAGAAGCTTCCTCCACAAATAACGAAGAAGAGAACGAAACAGATTCCGACGATCGCCGTTCTTAA	MNRIFRNTIFYLLIFLVVIGVVGLFRGQGDPQQELNVNQFYDKLNSGAIEEMTIQPVNGVIRITGQLEGAEEGEETFTAQITANDQTLSNITETAQEQSILNVEQEEQPSAWVTFLTSIIPFVIIFILFFFLLNQAQGGGSRVMNFGKSKAKMYTEEKKKVRFKDVAGADEEKQELVEVVDFLKDPRKFSAVGARIPKGVLLVGPPGTGKTLLARAVAGEAGVPFFSISGSDFVEMFVGVGASRVRDLFENAKKNAPGIIFIDEIDAVGRQRGAGLGGGHDEREQTLNQLLVEMDGFGVNEGIIIIAATNRPDILDPALLRPGRFDRQITVDRPDVKGREAVLAVHAKNKPLSENVDLKTIALRTPGFSGADLENLLNEAALVAARGDKKNVDMDDVDEAIDRVIAGPAKKSRVISSKERDIVANHESGHTVIGMVLDDADMVHKVTIVPRGQAGGYAVMLPKEDRYFMTKPELFDKITGLLGGRVAEEIIFGEVSTGAHNDFQRATSIARKMVTEYGMSEKLGPLQFGSNSGGQVFLGRDIQNEQNYSDQIAYEIDQEVKNFIQYCYDRAKTILTENRDKLELIAKTLLEVETLDATQIRSLFDKGRLPTDEELEALAREHNAKIKNNTSSGSDEDVRVNIQSKDEEAAEEEQDTEASSTNNEEENETDSDDRRS				NA	NA	NA	NA	NA
AK012_03982	540	hpt		Hypoxanthine-guanine phosphoribosyltransferase	ATGCACAACGAAATTGAAAAGGTCTTGATTTCCGAAGAGGAGATCCAGCAGAAATGCAAGGACATGGGAGCCCGTTTATCCGAGGAGTATAAGGATCGCTTTCCTTTGGCTATCGGAGTACTGAAAGGGGCCACTCCATTTATGACAGACCTTTTGAAACGTATGGAGACGCATTTGGAAATGGACTTCATGGATGTGTCCAGCTATCACGGGGGTATGGAATCCTCCGGAGAGGTCAAGATTGTCAAGGACCTTGATACAAAAGTAGAGGGCCGGGATATCCTGATCATCGAAGACATTATCGACAGCGGCCGCACACTTGCCTATCTTGTCGACTTGTTTAAATATAGAAAAGCGAATTCGATTAAAATCGTTACGCTTCTTGATAAACCGACAGGACGCAACGCCGATGTGAAAGCAGATGTTGTCGGCTTTGAAGTACCTGATGAATTCGTTGTCGGGTACGGTCTGGATTATCAGGAGAAATATCGAAATCTTCCTTATGTAGGGGTGTTGAAACCTGAAGTTTATGGTGGATAG	MHNEIEKVLISEEEIQQKCKDMGARLSEEYKDRFPLAIGVLKGATPFMTDLLKRMETHLEMDFMDVSSYHGGMESSGEVKIVKDLDTKVEGRDILIIEDIIDSGRTLAYLVDLFKYRKANSIKIVTLLDKPTGRNADVKADVVGFEVPDEFVVGYGLDYQEKYRNLPYVGVLKPEVYGG	PGPT0007295_2994	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0007295-hprT|hpt-K00760	NA	NA
AK012_03983	1398	tilS	COG0037	tRNA(Ile)-lysidine synthase	ATGGATCACGTTGTCCATTCGTTCATCTCAAAACATCAATTGATTCGTCCTGGACAGACGGTCCTTGCTGCTGTATCCGGGGGGCCTGATTCGACAGCCCTGCTTCATCTGCTGACGCGGCTGAGGGAAGAGATTCCGTTTCATCTCAAAGCCGTTTCCGTAGATCACGGACTGCGCGGGGAAGAAGCCCGGGAGGATTTGAGCTTTGTGCAGGCGCTCGCGGATCAGTGGGGTGTCGAATTTCATGGAACTTCCGTGGATACAGGCTCATATAAGAAGACCACGGGCAAAGGGACACAGGAAGCGGCCCGGGAACTCCGTTATCGTTTCTTTGAAGAGCAGATGCTTGCCCACGGAGCGGATGTCCTCGTCATGGGGCATCACGGAGACGATCAGGCAGAGACAGTCATGATGCAGATGGCTCGCTCTGCGAGGCCGGAAGCGGTCCAGGGAATGCCTTTGAGGAGGCCGTTTGCATGTGGGGAAATCGTACGGCCGCTGCTCTGTGTCTCCAAGGAGCAAATTCTCCACTATATGAACGACCGGTCCCTCCCCAGCCGCCATGATCCATCGAATGATCGGACGGACTATACGCGTAACGCATTCCGTCACCGGGTGATGCCTTTTCTGAAAGAGCAGAACCCCCGGATCCACGAACATGTGCAGGCATTCAGCGAGAGGGCCGCGGAAGAACGTTCATACATAAACGAACAGGCGCAGAAGGTGCTGGAACATGTTCATTTTTCGGAGAATGTTGAGAAATTCGTACAATTTTCAAAACAAACTTTCAAAACATTTCCGCTTGCTTTACAAAGGACAGCCTTTCATCTAATATTGAACTATCTGTATGTGAAGCAAAACGAAGACATTTCCTATCTTCATGAAGAAATGTTCATGAACCTGTTAAGGGACGAGAAACCGAACCGTTCCCTTGATTTTCCCGGGGGGTTGAAAGTGATCCGCGCTTATGATGAGATCACCTTCACGTTTGCGGATAAAAAGCAGGAGCAGTCCTATCATTTTATCCTGCAGCCCGGGGCTTCTGTCACTCTTCCGGATGGTTCATCCGTGAAGGCGGAATGGAGCTGGTCGCCGGAAGAGCCTGATGCCTTCACCTATATTTGTGAGGACTATCACGTAAATCTTCCACTCATCGTCCGCTCCAGAAAGCCTGGAGACCGTATGGAAGTAAGAGGGATGAATGGGTCAAAAAAAGTAAAAGATATTTTTATTGATCAGAAAATCCCCGCCCGCATCCGCGGGACGCTGCCGGTCGTTACAGATCAGACGGGAGAAATCCTCTGGCTGGGCGGCCTGAAAAAAGGCGGCAGCCGGGACGGCAGGTCCTCAACAGGTCCATGGCTTCGGTTACATTATAAAAACAAAGCAGACGCGTAG	MDHVVHSFISKHQLIRPGQTVLAAVSGGPDSTALLHLLTRLREEIPFHLKAVSVDHGLRGEEAREDLSFVQALADQWGVEFHGTSVDTGSYKKTTGKGTQEAARELRYRFFEEQMLAHGADVLVMGHHGDDQAETVMMQMARSARPEAVQGMPLRRPFACGEIVRPLLCVSKEQILHYMNDRSLPSRHDPSNDRTDYTRNAFRHRVMPFLKEQNPRIHEHVQAFSERAAEERSYINEQAQKVLEHVHFSENVEKFVQFSKQTFKTFPLALQRTAFHLILNYLYVKQNEDISYLHEEMFMNLLRDEKPNRSLDFPGGLKVIRAYDEITFTFADKKQEQSYHFILQPGASVTLPDGSSVKAEWSWSPEEPDAFTYICEDYHVNLPLIVRSRKPGDRMEVRGMNGSKKVKDIFIDQKIPARIRGTLPVVTDQTGEILWLGGLKKGGSRDGRSSTGPWLRLHYKNKADA				NA	NA	NA	NA	NA
AK012_03984	921	yabT	COG0515	putative serine/threonine-protein kinase YabT	ATGAAGAAACAGGCTGGTAACTTTGCGCCGGGCCATCAGATCATCGGCAGGTGGAAGAAGCGTCCTTACATCATTTTGGGAAAGCTCGGTTCAGGAGCGTGCGGCACCGTTTATAAATGCCGCTCGACACGGGGGGAGACGTATGCGCTCAAAATAGGAACCGACAGTTCCAGGCTGATGCTTGAGGTGAACATGTTAAAGAAATTCAGCAAGGTCCAAGGGGAAAAACTTGGGCCTTCTTTTGTTGATGTGGATGACTACCGGATACCCGAAGGGCCTCAGCTGCCTTTTTATGTGATGGAATACATAGAAGGAAAGCCTCTGCCTCAGTTTCTGGCAGGGAAGCCGAAAGAGTGGATCGGTCTATGTGCGGCACAGCTTCTCGGGGATATTGCAAAACTTCACAAAGCCGGGTATGTGTTTGGAGATTTAAAGACGGACAACCTGCTCGTATCCGGGTCCCGCGTCCGCCTTATTGACGTCGGAGGTGTGACAGCAGCGGGGAGAGCGATAAAGGAGTACACGGAATTCTATGACCGCGGGTACTGGGGGATGGGTTCCAGGAAAGCTGAGCCCTCTTATGATTTGTTCGCCATTACGATGATTATGCTGGAAACGGCCGGAGCAGGACGGTTTGAAAAGGGCGGATCCCCGAAAAAAACACTTGAACAGAAACTGGCAGCGGTTCCTTTGCTGAAGCCGTACCGCACGGTCATACAAAATGGCTGGAAAGGAAAGTACAGAGATGCCGGAGAGATGCAGAAGGACTTGAGTGGTGTGCTGCTCTACAAGGCGCCGGCACCGACGCGTGTCCATTACCGAGCTGATAAGAGAAGCAGCTCGGATGCAGGGGAACGAACAGCCATTGCCTTATTTTCCGTCCTTCTGATGGGAGGGTCTCTCGTTCCTTTCTTCTTGTAA	MKKQAGNFAPGHQIIGRWKKRPYIILGKLGSGACGTVYKCRSTRGETYALKIGTDSSRLMLEVNMLKKFSKVQGEKLGPSFVDVDDYRIPEGPQLPFYVMEYIEGKPLPQFLAGKPKEWIGLCAAQLLGDIAKLHKAGYVFGDLKTDNLLVSGSRVRLIDVGGVTAAGRAIKEYTEFYDRGYWGMGSRKAEPSYDLFAITMIMLETAGAGRFEKGGSPKKTLEQKLAAVPLLKPYRTVIQNGWKGKYRDAGEMQKDLSGVLLYKAPAPTRVHYRADKRSSSDAGERTAIALFSVLLMGGSLVPFFL				NA	NA	NA	NA	NA
AK012_03985	738			hypothetical protein	ATGAAAACAGGGCGGCTGAAGCAGATACTTTTGTTAACCGACGGATGTTCAAATCACGGGGAGGATCCCGCCGCAGTGGCGGCGCTGGCGAGAAATCAGGGGGTAACGGTAAACGTGATTGGTGTTCTTGACGACCGGCAGAACAGCAGGCCCAAGGGGCTTGATGAAGTAGAAGCGATCGCCGAAGCAGGCGGGGGCATCAGTCAGATCGTTTATCAAAAAAGCCTATCCCAGACTGTGCAGATGGTAACAAGACAGGCGATGACCCAGACGATACAGGGAATCGTCAACAAAGAGCTGCAGGAGATTCTGGGGAAAAATCAATCGCTCGAGGAACTTCCTCCTGAGCAGCGGGGAGAAGTTGTAGAAGTCGTTGATGAGCTTGGAGAAAGCAGTGCTCTTGAAGTACTCGTGCTTGTAGACGTGAGTGCAAGCATGCACCACAAGCTTCCTACAGTGAAGGATGCTCTTTTCGATCTGTCCTTAAGCCTGAATGCAAGATCAGGATCCAATCAGTTCAGTGTCTACTCCTTCCCGGATCCGAAACATACGATTACGCAGATGGTGGACTGGACCCCGGAGCTTGGAGCCGTCAATCGTCTGTTTTCTAAACTGAACAGCGGCGGATATACACCGACGGGACCTGCACTTCGGCAGGCTTTGTATGCATTTGCTGCCAAATCAGACCCTTCCTGCCTGGAAGATGGAGAAGATCCTTATGAAGAAACAGGCTGGTAA	MKTGRLKQILLLTDGCSNHGEDPAAVAALARNQGVTVNVIGVLDDRQNSRPKGLDEVEAIAEAGGGISQIVYQKSLSQTVQMVTRQAMTQTIQGIVNKELQEILGKNQSLEELPPEQRGEVVEVVDELGESSALEVLVLVDVSASMHHKLPTVKDALFDLSLSLNARSGSNQFSVYSFPDPKHTITQMVDWTPELGAVNRLFSKLNSGGYTPTGPALRQALYAFAAKSDPSCLEDGEDPYEETGW	PGPT0014015_7239	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NEUTRALIZING_SALINITY_STRESS	SALINITY_STRESS-CHLORIDE_TRANSPORT,PGPT0014015-yfbK-K07114	NA	NA
AK012_03986	2448	spoIIE	COG2208	Stage II sporulation protein E	ATGTTAGAAACAGTTACCAAACGAGAAAGTCGTCAATCGGCCGTCCGAAATTCAAGAATGGCTCACGGTATCCAGAGGGCTTCCTACCGCACGGTTTCCTTTATGGCTGACAAAGGGGTCTTCCACATGGTCCTTGCCCTGCTGCTTGGACGAGCTATTATTCTATCATCCATGGCCCCGTTCGGTGTCGCTTTCCTGTCGGTGATCTGGTGGATGAAGCGTCCACTCGTCATTCCCGTAACGATCATGATGGCAGCAGGAGCATCTACATACAGCTACGCGCATGCGGGTTTTATTGTAGGAGCGTCGACGGCTTTTTTGCTCTTAAGCCTGGGGCTGCGCAGAACAAGTCACCCCCAGAAGTGGCTCCCGGCTTTGGCATTAATGGCAAGTTTGATCCCCCGCACCGTCAGCCTCGCATTACTCGACCGCTGGCAGCTCTACGAAATTACTTTGATGGCTGCCGAAGGGATACTCAGTTTTATCCTTGTCCTTATCTTTATGCAGAGCATACCGATTTTAACACCCCAGAGATTTCAGCCCACGTTAAAGAATGAGGAGATTGTCTGCCTCATCATATTACTTGCTTCCGTTTTGACAGGATTGATCGGGTGGCAGATCCAGGGAGTAGCGGTCGTGGATGTATTTGCCCGGTACCTTGTCATTCTGCTCGCTTATATTGCCGGAGCCGCCATCGGGTCAACGGTGGGAGTCGTGACAGGACTTGTGCTCAGCTTATCGAATATGGATCATATCTATCAAATGAGTCTGCTGGCTTTCTCAGGCCTGCTGGGAGGGCTGTTGAAGGAGGGGAAAAAAGCAGGGGTCAGTGCCGGTCTGGTGGTCGGCACCCTTTTAATCGGTTTTTATATGGGCAGTGACACAGAACTGCCGGCTTCCTTATGGGCGACGGCCTGGGCCGTGGCGTTGTTTGTGCTAACGCCGAATTCCTGGGTGAAACAGTTGTCCAAGTATGTTCCGGGGACAGATGAACATTTTTCGGAACAGCAGAAATACTTACAAAAAGTTCGGGACGTCACGGCTGTACGGGTCGGGAAATTCTCGGACGTTTTTCAGGCTTTATCAAGAAGTTTCACATATTTAGAGTCTCCAAAGGAGGAAAGCGGTGAAGCGGAGGAGATCGACTACTTCTTGAGCCATGTCACAGAAAAGACCTGTCAGTCCTGTTTTATGAAAGAAAAGTGCTGGGTGCGGAACTTTGATGACACCCATAATCTGATGACGGATTTGATGCATGAACTGGATGAGAAAGGAGAGGCGGGGCGGGGTCTGAGGAAAAGTGTGGACCAGCACTGCGTGAAGCCGCAGAAGCTGATCGATACGATGAACCATGAGTTATCTTTTTATCATGCCAACCGGCAGCTGAAGCGGCAGGTGCTGGAAAGCCGGCGCTTTGTGGCAGAACAGCTGCAGGGGGTTTCGGAGGTGATGGATAATTTCGCGCAGGAAATCGTGAAGGAACGCGAGCATCATGAAAAAAAGGAGCATGTCATTTACCGTGCTCTTGAGCGAATGGGGATGATCATTCAGAAACTTGAAATTTATTCACTGGACGAGGGGAACATGGATCTTGAGTTGATAGTGGAAATTGATAATTACCGCGGGGAAGGGGCGAAAATTATTGCACCGGTATTGTCCGACATTCTTGGGGAGACGATTGTCGTGACGATGGAGGAAATCTCTCCGTATCCACAGGGCAGGTGTTACCTTTCGTTTGGCTCTGCCAAACATTACGCTATTGAATCCGGAGTGGCCCATGCCGCCAAGGGCGGCGGATTCGTATCCGGAGACAGTTTTACGATGATGGAACTGGGCAGAGGGAAATATGCCCTGGCGATCAGTGATGGAATGGGTAACGGGGAACGTGCTCATGAAGAAAGTATGGAAACGCTGCGTCTGCTCAAGCAGATTTTACAATCCGGCATCCAGGAGTCGGCAGCGATCCAGTCGATCAACTCCATCCTGTCGCTTCGTACGAATGATGAAATTTTTTCAACGTTGGATTTAGCTGTGATTGATCTGCATCAGGCGACATCCAAGTTTATTAAAGTCGGGAGCACCCCGAGTTTCATAAAAAGAGGAGATAAAATCCACACCGTCGAAGCCGGAAATCTGCCTATGGGCATCATTCCGGACGTGGATGTAGATGTAAGGAGTGAACAGTTGAAAGCCGGGGACTTTCTCATTATGATGAGCGACGGCATTCTGGAAGCGCCGCGACAGATCGAAAACGTGGAAATGTGGATCAAACGGAAGATCCGCGAAATATCGAGTCAGGATCCGCAGGTTATGGCTGACCTGCTCCTGGAAGAGGTGATCCGTACCCATTCGGGTGACATTGTCGATGATATGACGATCATCGTCGCGAGAATCGATCATTATCTGCCGGAGTGGGCGTCGATTCCTTCAGAGAAAAAAGAGGCCTGA	MLETVTKRESRQSAVRNSRMAHGIQRASYRTVSFMADKGVFHMVLALLLGRAIILSSMAPFGVAFLSVIWWMKRPLVIPVTIMMAAGASTYSYAHAGFIVGASTAFLLLSLGLRRTSHPQKWLPALALMASLIPRTVSLALLDRWQLYEITLMAAEGILSFILVLIFMQSIPILTPQRFQPTLKNEEIVCLIILLASVLTGLIGWQIQGVAVVDVFARYLVILLAYIAGAAIGSTVGVVTGLVLSLSNMDHIYQMSLLAFSGLLGGLLKEGKKAGVSAGLVVGTLLIGFYMGSDTELPASLWATAWAVALFVLTPNSWVKQLSKYVPGTDEHFSEQQKYLQKVRDVTAVRVGKFSDVFQALSRSFTYLESPKEESGEAEEIDYFLSHVTEKTCQSCFMKEKCWVRNFDDTHNLMTDLMHELDEKGEAGRGLRKSVDQHCVKPQKLIDTMNHELSFYHANRQLKRQVLESRRFVAEQLQGVSEVMDNFAQEIVKEREHHEKKEHVIYRALERMGMIIQKLEIYSLDEGNMDLELIVEIDNYRGEGAKIIAPVLSDILGETIVVTMEEISPYPQGRCYLSFGSAKHYAIESGVAHAAKGGGFVSGDSFTMMELGRGKYALAISDGMGNGERAHEESMETLRLLKQILQSGIQESAAIQSINSILSLRTNDEIFSTLDLAVIDLHQATSKFIKVGSTPSFIKRGDKIHTVEAGNLPMGIIPDVDVDVRSEQLKAGDFLIMMSDGILEAPRQIENVEMWIKRKIREISSQDPQVMADLLLEEVIRTHSGDIVDDMTIIVARIDHYLPEWASIPSEKKEA	PGPT0024675_220	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_II_SPORULATION,PGPT0024675-spoIIE-K06382	NA	NA
AK012_03989	840	ybbH_3	COG1737	putative HTH-type transcriptional regulator YbbH	ATGAAAGAATCGAATGTATATCAAATCATCCGCCGGGGGCTTCCGAACATGAGCCGCTCCCAGAAAAAAGTGGCCGCCCTGCTTCTCGATCGTCCGGATGAAGTCGTCTTCTTAAATGTCAGCCAGCTGGCCGCTATGGCGGAAGTGAGTGATGCCACCATCACGCGGTTTGCTGTTTTTCTCGGCTACCGGGGGTTCCCTGAACTTCAGGAAGAGATCCAATCGTCCTTAAAGCAGCAATGGAAGACAAGCGAACGCTTAAAAAAGAGAGAAAACACCTCTCATTCGTTTCGTGGTGTTCTGGAACAAGACGTAAGCGAACTGGAAGAGACGATGAGCCTTCTCGATGAAGAGGAACTGATGAAAGTGGTCCGCGCTGTATGGAGGGCCGATAAAATATGGATTGCCGCCAATCGAAGTGCGGAAGCTTTAGGTGTATTCCTTCAATATTATCTGGAAAAAGTGGTGGATGATGTCCGTATAATTCACTCCGTGGAGAGGGAGGCAGACCTTCTGGCGCATCTCGGCAGACAGGATGTGGTCATCGGAATCAGTTTCCCTCGGTACAGCAAAAGTACCGTCGACATCCTTGCTTATGCTCGCGGGACTGGAGTGGAAACCGCAGCGCTGACCGACACGCTTTCCTCTCCTCTTGCTGCTTATGCTGATACGGTTCTTACAGCCAAAAGCCGGATGCATTCCTATATTGATACGCTCACAGCACCGCTCAGTGTCATTCAGGCACTGCTCGTACAGGTAGGGAAAGAAAAAGAAGAAGAGACAGAAAAGCGCCTCGAACATTTGGAATCCATCTGGGAGAAGTTCGATGTCTTTTATTGA	MKESNVYQIIRRGLPNMSRSQKKVAALLLDRPDEVVFLNVSQLAAMAEVSDATITRFAVFLGYRGFPELQEEIQSSLKQQWKTSERLKKRENTSHSFRGVLEQDVSELEETMSLLDEEELMKVVRAVWRADKIWIAANRSAEALGVFLQYYLEKVVDDVRIIHSVEREADLLAHLGRQDVVIGISFPRYSKSTVDILAYARGTGVETAALTDTLSSPLAAYADTVLTAKSRMHSYIDTLTAPLSVIQALLVQVGKEKEEETEKRLEHLESIWEKFDVFY				NA	NA	NA	NA	NA
AK012_03990	1368	hemL_2	COG0001	Glutamate-1-semialdehyde 2,1-aminomutase	ATGAACAGACAGAAAGCGGGAAGTACAAGCCGGACGATGCAGGAGTCAGCGGATGCGTACACGAGAGCGGAAAAAGTCATTCCAGGGGGCGTAACGGCCAACATTAAGTATTTCGCTCCACATCCCATCTTTATGAAAAAAGCCGGCGGGAGCACCCTGTATGATGCTGATGGGAATCGGTACGTGGATTACCTTCTTTCCTACGGGGCGCTGATCCACGGGCACGGCCATCCTTCCATCAAGGAGGCGGTCATCCGTCAGATGGAGGAGGATGGAACGACGATTTACGGGACGCCCCATGAAAGGGAAATCGAGATGGCTGAGCGGCTGTGTTCTTTATATCCGGGTATGGATCAGGTGCGGTATACCAATTCAGGACTGGAAGCGACTCTCCTGGCTTTGAGGGTCGCCAAAGCGTATACAGGCCGGCCGAAAATAGCGAAGTTTGAAGGCCATTACCACGGAGGATATAATCAAGTGTTATGGAGCATCAACCCGGATGAGCAGGAAGCAGGAGAAGCGGCAGATCCGCAGCCGGTTCCTGAATCCATCGGTCTGCCGGATTATTACCAGGATCATACCATCATTCTTCCTTTTAACGACCTTGAATCCACTGAACGGATTCTCCGACGTCATTCTGATGAAATATCCACTCTTATGATGGAGCCGGTTCAGGGAGGGTATATCCCGGCCACGCAGGCATTTATGGATGGGGTCCGGCGCCTGACGAAGGAACTCGGGATTCTCCTCATAATGGATGAAGTCAAAACAGGCTTCCGCTTATCGCTTGGAGGTGCTCAACAAACGTACGGCATCACTCCTGATCTCACGGCGCTCGGGAAAGTGCTTGGTGGAGGGTTCCCTGTCGGAGCTCTCGGAGGGTCTCAGGAAATTATGGAGGTCCTTAATCCCAAACAGGGCCGTGATGTGATGGCCGGAGGTTCTTCCAATCCAACCCGTGCTCTGTTCCACAGCGGCACCTACAACGGTCATCCGACTGTTCTGGCTGCCGGAATGGCTACGATTGACCGCCTTCAGCAGGAGGCGGTCATGGAGAATATGATGAATAGAACGAAGAAGCTCCGCAGTCAGCTGGAAGATGTGTATAAAAAGATGCATATTCCTATGAAAACCATAGGGGCGGGAAGTATATTCAACCTCATGTTTACAGACGGCGACATCCGTAATTACCGTGATCTGAAACAAGTGGATATGGATTTACGGAGACGTGTAGATGAAGAACTGCTTCAGCTAGGTGTGTATACAAAACCGATGAACCGCTATTCCATGTCGACGGTCCATAGTGAAGAAGATATACAGTTTACGGTGGATGCGCATGAACAAGCCCTGCGAAAAGTGAAGGGATGA	MNRQKAGSTSRTMQESADAYTRAEKVIPGGVTANIKYFAPHPIFMKKAGGSTLYDADGNRYVDYLLSYGALIHGHGHPSIKEAVIRQMEEDGTTIYGTPHEREIEMAERLCSLYPGMDQVRYTNSGLEATLLALRVAKAYTGRPKIAKFEGHYHGGYNQVLWSINPDEQEAGEAADPQPVPESIGLPDYYQDHTIILPFNDLESTERILRRHSDEISTLMMEPVQGGYIPATQAFMDGVRRLTKELGILLIMDEVKTGFRLSLGGAQQTYGITPDLTALGKVLGGGFPVGALGGSQEIMEVLNPKQGRDVMAGGSSNPTRALFHSGTYNGHPTVLAAGMATIDRLQQEAVMENMMNRTKKLRSQLEDVYKKMHIPMKTIGAGSIFNLMFTDGDIRNYRDLKQVDMDLRRRVDEELLQLGVYTKPMNRYSMSTVHSEEDIQFTVDAHEQALRKVKG	PGPT0003680_447	DIRECT EFFECT	PHYTOHORMONE|PLANT_SIGNAL_PRODUCTION	PLANT_VITAMIN_PRODUCTION	PLANT_VITAMIN_RELATED_HEME_METABOLISM	PLANT_VITAMIN-HEME|SIRO-BIOSYNTHESIS,PGPT0003680-hemL-K01845	NA	NA
AK012_03991	387	pnp_2		Polyribonucleotide nucleotidyltransferase	ATGTCAATTGAAGTAGGCAGCAAGCTGCAGGGTAAGGTAACGGGAATCACTAATTTCGGAGCGTTCGTCGAACTGCCGGATGGCAAGACGGGTCTGGTTCACATTAGTGAAGTTGCCGACAACTACGTAAAAGACATTAACGAGCACCTAAGCCAGGGTGACCAGGTGGAAGTGAAGGTTATTAATGTCGGAGATGATGGAAAGATCGGTCTTTCCATCAAGAAAGCGAAAGAGAACCAAAATCGTCGTCCGCCAAAACCTCGTAAGCCGGCCGAATCATTCGAACAGAAAATGAACCGTTTTATGAAGGATAGCGACGAACGTTTAGCATCACTGAAGAAGCACACGGAGTCCAAACGTGGAGGTCGAGGTGCTAAAAGAGGATAG	MSIEVGSKLQGKVTGITNFGAFVELPDGKTGLVHISEVADNYVKDINEHLSQGDQVEVKVINVGDDGKIGLSIKKAKENQNRRPPKPRKPAESFEQKMNRFMKDSDERLASLKKHTESKRGGRGAKRG	PGPT0014890_77	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	UNIVERSAL_STRESS_RESPONSE	STRESS_SIGNALLING_PROTEINS	STRESS_SIGNAL-DNA_DAMAGE_DEFENSE|REPAIR,PGPT0014890-yugI-K07570	NA	NA
AK012_03992	384			hypothetical protein	ATGGCAAAGAGACAGCAGGAGTCGGTGGCTCGGCTGGATTCTACATACATGCAGCACTATGATGCCTATATGGACAGACATCAGCGGAAGAAGAAGCGCCTGATACGCCGTCTCGCAATGTTTGCCCTGTTAGTGTCGATCGTAGCCGGATCCATGGTATTTTACCATGTGAAACAGCAGTCACTTTATGCACAGAAACATGAGCAGTATGAACAGTTGAAACAGGATATGAGCGTTTTGGAAACAGAGGAACAGGAATTGAAGGAGGAAATTGAGCTTCTGAACGATGAGGAGTACGTGCTTCAAATTGCACGGACCAATTATTTCTTCTCCAAAGAAGGCGAAATTATCTTTAAAATGCCTGATGAGGACCCGTCTTATTGA	MAKRQQESVARLDSTYMQHYDAYMDRHQRKKKRLIRRLAMFALLVSIVAGSMVFYHVKQQSLYAQKHEQYEQLKQDMSVLETEEQELKEEIELLNDEEYVLQIARTNYFFSKEGEIIFKMPDEDPSY				NA	NA	NA	NA	NA
AK012_03993	591	yabQ		Spore protein YabQ	ATGACCCTCACCACTCAGTTTATGACGATTCTTTCCATGATTGGGGGAGGGATGTTCGTCGGAGCATCCCTGGACACATTCGAACGTTTTTTTCATAAACGCAATAAGCAGAGCTGGTTTGAGCTGCTGTATCAGCTCACTTTCTGGCTGATTCAGGCAGCCTTTCTTTTTTACCTGCTTTACCTTGTGAATTACGGGGAGCTGCGGGTGTATGTCTTTGCTGCGGTCGTCTGCGGGTTTGCTGCTTATCGTGCATTATTTCAGAACCTCTACTTACGATCGCTTGAGGTTTGGATCCGGATTTCCATGGCTGTTCTCACCTTCTTAAAAAAGACGGTGTATTATCTTGTTTATGTACCCGCGAAATCCATCATTTTCCTTATTATTTCTTTACTTCTTGGCGTTTATAAGATACTTTTAAAGGGTATCATTATATTGTTAATTGTCGCTTTTTATCCAATTAAACTGCTTTTTCGAGTGATTTGGCGGTTCCTGCCGAAAAACATGAAAAATTACTTAAGTGAATCAGCAGGTTTTTTGAAAAAGATGAAGAATATAATGATCAGTTGGATAAAACGATTCAAAAAGTAA	MTLTTQFMTILSMIGGGMFVGASLDTFERFFHKRNKQSWFELLYQLTFWLIQAAFLFYLLYLVNYGELRVYVFAAVVCGFAAYRALFQNLYLRSLEVWIRISMAVLTFLKKTVYYLVYVPAKSIIFLIISLLLGVYKILLKGIIILLIVAFYPIKLLFRVIWRFLPKNMKNYLSESAGFLKKMKNIMISWIKRFKK				NA	NA	NA	NA	NA
AK012_03994	306	yabP		Spore protein YabP	ATGGAGAGCTATGAGAAAAATCTTGGGGGGAGAACCCAGCAGCAGGTCGACCATAACGTGAAGGTGTGGAACAGGAGAAATATTGAAATATCAGGCGTTAAAGAAGTGGACAGCTTTGATAGTGAAGAATTTCTACTTCAGACGAATATGGGCTATCTCGTCATCCGCGGCCAGAACCTGCAGATGAAAAACCTGGACCTTGATTCAGGAGTGGTTTCCATAAAAGGGAAAATGTATGAAATGACTTATTTGGACGAGCACCAGGGGGAGAAAGCTAAAGGTCTGTTTAGCAAGCTGTTCAAATGA	MESYEKNLGGRTQQQVDHNVKVWNRRNIEISGVKEVDSFDSEEFLLQTNMGYLVIRGQNLQMKNLDLDSGVVSIKGKMYEMTYLDEHQGEKAKGLFSKLFK	PGPT0024990_50	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_OTHER_SPORULATION_RELATED_PROTEINS,PGPT0024990-yabP-NA	NA	NA
AK012_03995	264			hypothetical protein	ATGCGTTTAGATAAATTTCTAAAGATCTCGCGATTAATTAAACGTCGTACGCTGGCCAAGGAAGTGGCGGACCAGGGACGGATCAGCATCAATGGCGCACAAAGTAAAGCAGCCAGTAATGTAGCCGTCGGTGACGAGCTGACCATTCAGTTCGGCCAGAAGGTACTGACCATTGAAATCAAGGATTTGAGAGAGAACGTCAACAAGAATGAAGCAGCTTCCTTATATGAAATCAAAAAAGAAGAACCTGTGAATCAGGATTAA	MRLDKFLKISRLIKRRTLAKEVADQGRISINGAQSKAASNVAVGDELTIQFGQKVLTIEIKDLRENVNKNEAASLYEIKKEEPVNQD	PGPT0012225_994	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_BIOTIC_STRESS	FUNGICIDAL_COMPOUNDS|ANTIBIOTICS	FUNGICIDAL-MOTILITY-MEDIATED_DEFENSE_SIGNALLING,PGPT0012225-lysS-K04567	NA	NA
AK012_03996	1467			hypothetical protein	ATGATGCAGACGATTAAGATTTTCGGGCTGGGAGCCTCGGGACTGGACCAGCTTCCGCTTGGTGTATACCGACAGCTTACGCAGACGGGAGCTCCGCTCACCGCACGGACGCTGGATCACCCTGCGGTGAGAGAGCTTGTCCAGGAAGGGCTCTCCATCGAAAGCTTTGACACGGTTTACGAAGACCATCAACAGTTCGGCGGTGTTTATGAAGAAATCACCACCCGCCTTTTGGAGCGTCCGGAAGAAGTGATTTTTTATCTTGTACCCGGGCATCCAATGATGGCGGAGAAAACGGTCCAGCTTCTTTTGGAAAAGGAGAAGGAAGGGACGGTAAACGTAGAGATCGAGGGGGGACAGAGTTTTCTTGATGCGACTTTCACCACTCTCGGTATCGACCCGATTGAAGGCTTCCAGCTTGTCGATGCGACTGATATCAAACGTGAGCAGCTGACCTATACCAGTCATCTGATTTTGTGTCAGGTGTATGATGCGATGACCGCATCCGAAGTGAAGCTGACACTGTTGGAGGATCTGCCGGCTGCACATCCGGTGACGATCGTTACAGCGGCAGGCGGGGCGGATGAGCATGTCCGTACGGTTCCTTTAGAGGAACTCGACAGAAGTGTGGAAGTCGATAACCTGACAAGTGTTTATGTTCCTCCTGCAGAGAAATCACATCTGAACCACCAGTTTTTCCGGCTGAGGGAAGTGATCAGGGTTCTACGCAGTCCTGAGGGATGTCCATGGGATCGGAAGCAGACTCACGAGTCGTTGAGAAAGTATTTGATCGAAGAGACGTACGAATTCATCGATGCCGTCAACCAGATGGATGATGATCAAATGGTTGAAGAGCTTGGCGACGTGCTCCTGCAGGTGATGCTGCACAGTCAAATCGGCGAAGATGAAGGATATTTCACTATTGACGACGTAATAGTATCGGTAACGGATAAAATGATCCGCCGCCATCCTCATGTCTTCGGAGATATCAGGGCAGATACGACAGACGAAGTGCTGACGAACTGGGAGGCGATCAAACAGCAGGAAAAGGGAGAAGCTTCTCCGCGTCTGCTGGATTCCGTTCCCGAAAGCTTCCCGGCTCTCCTGCAGGCGGAGGAACTGCAGAAGAAGGCGGCGAAGGTCGGTTTCGACTGGGAGGATGTCACACCTGTTCTGGAGAAGGTGGAAGAAGAGTGGCAGGAGTTTCAGGAAGCGTTAACCTCTGAAGATCGGGAGGAAATGGAGAAGGAATTCGGGGATTGGTTGTTTGCTATTGCCAACCTCGCCCGTCATTACCGCCTGAACAGTGAAAATGCCCTGCAGCGCACCAATCGTAAATTCAGGATGAGGCTCTCGTCCATGGAGGAATCGGTGGAGCAGAGCGGCAGAAAGCTGGAGGACTATGATTTAGACGCTTTGGAAGAATTATGGGTACAAGCGAAAGCCAAACATAAAGGAGCGGAATAA	MMQTIKIFGLGASGLDQLPLGVYRQLTQTGAPLTARTLDHPAVRELVQEGLSIESFDTVYEDHQQFGGVYEEITTRLLERPEEVIFYLVPGHPMMAEKTVQLLLEKEKEGTVNVEIEGGQSFLDATFTTLGIDPIEGFQLVDATDIKREQLTYTSHLILCQVYDAMTASEVKLTLLEDLPAAHPVTIVTAAGGADEHVRTVPLEELDRSVEVDNLTSVYVPPAEKSHLNHQFFRLREVIRVLRSPEGCPWDRKQTHESLRKYLIEETYEFIDAVNQMDDDQMVEELGDVLLQVMLHSQIGEDEGYFTIDDVIVSVTDKMIRRHPHVFGDIRADTTDEVLTNWEAIKQQEKGEASPRLLDSVPESFPALLQAEELQKKAAKVGFDWEDVTPVLEKVEEEWQEFQEALTSEDREEMEKEFGDWLFAIANLARHYRLNSENALQRTNRKFRMRLSSMEESVEQSGRKLEDYDLDALEELWVQAKAKHKGAE				NA	NA	NA	NA	NA
AK012_03997	1578	murJ_3	COG2244	Lipid II flippase MurJ	ATGATTCGAACATCTACACCATCTATTTTAAAAGGGGCCTTCATTCTTTCCCTGGCCGGTCTGATCAGCAAAATGATCAGTGCCGGATACCGCGTCCCTCTGCAGAACCTGACTGGAGACCTTGGTTTTTACGTGTATCAGCAGGTCTACCCTATTCTTGGTATGGCGCTGGTACTGGCTTTGTACGGTTTCCCTGGAGCCATCTCTAAATTGATTTCCGACACCCATCACACCAGTCGTCCGGTGTCGTTCCCGTCGTTTTATCTGCCTGTCTTCGCTATTCTTTTGATTTTCAGTCTGATCGTCGCGGTCATTGGATGGCTGGAGGCGCCGCGGCTGGCCCGGTGGATGGGGGACCCGCGTCTCGTCCCATCGATCCGCACATCATTTTTCGTCTTTTTGTTTATTCCGGTGATTTCTGTCCTGCGGGGCGTATTCCAGGGGAAAAATGATATGACGCCTACCGCGGTCTCACAGATTGTGGAACAGATTTTACGGGTCGCAGTCATTATCGCGGCTGCTCTTTTCGTTTCACAAGGGGGGGACCTGTATCATATCGGCGCAGGAGCGGCGTATGGAAGTATGGCTGGTGCGCTTGCTGCGGCTGTTTTCCTTATCATTTGGACGGTGAAAAAGCCGGGACTTTGGAGCTTTGACCGTTTTCCTTTCCGAGCTTCTTTCAGCAGACACGTCCTGTTGTACGGTTTACTGATTTCCTTTAATTATATGCTGCTGTTGTCTCTTCAGCTTGTCGATGCCTTTACGCTGGTCCCGCAGCTGGTTCAGGCCGGATATTTACCGGAGGAGGCCAAGGTCGTTAAAGGCATTTATGACCGCGGCCAGCCCTTGATACAGCTGGGGACGATCCTGGCTTCCTCGCTCGCTCTTGCCTTGATTCCTTCTGTAACGCGCAGACGGATGGAGGAGAGTCCTGAACAGGTTCGGTTTTCCATTACAAGTGCGGGCAAAATAACGCTGTACATATCCACCGGTGCGGCCGCCGGTTTGATCTTCCTTTTCCCGGATGTGAACAAGGTCTTCTTCCAGGATGAAGCGGGGAGCGGTTATTTAAGGGTGCTTATGCTTGTCATCATCGGCAGCTCCCTCTCCATTACCACCGCCTCTGTCCTCCAGGGGCTTGGACGGGTCAGGCAGACGGCCTTTCTCGTAATCGGTGGAATTGGAGTAAAGGCAGCGGCTAATCTCCTATGGATCCCCGCTGCCGGCATTTATGGAGCTTCCTTTGCCTCGTTAACCGCTGTTGCTTTTGTTTTGCTTGGAAATATCGTAATCTTAAGGAAAGATCTATCATTCAGGAGGTGGGATCATACGCCAGGGGTCTCCCTCGTCTTGGCTGTTGCAGGAATGTCTGCTGCATTGTACATAAGCAGGGGAATGATCAAGGCGTTGTTCGATCTGGATGACCGGCTGCCGCTTCTGCTATATATTCTGGCCCTGTCTGCCGGGGGAGCTGTGGTTTTCGGCTTGATTCTGATCAGAACCGGCGGATTCACCAGACAGGAGATCGAAGTTCTCCCTTCAAGTAAACGGTTGATTCAATTATTACCGAAAGGATGA	MIRTSTPSILKGAFILSLAGLISKMISAGYRVPLQNLTGDLGFYVYQQVYPILGMALVLALYGFPGAISKLISDTHHTSRPVSFPSFYLPVFAILLIFSLIVAVIGWLEAPRLARWMGDPRLVPSIRTSFFVFLFIPVISVLRGVFQGKNDMTPTAVSQIVEQILRVAVIIAAALFVSQGGDLYHIGAGAAYGSMAGALAAAVFLIIWTVKKPGLWSFDRFPFRASFSRHVLLYGLLISFNYMLLLSLQLVDAFTLVPQLVQAGYLPEEAKVVKGIYDRGQPLIQLGTILASSLALALIPSVTRRRMEESPEQVRFSITSAGKITLYISTGAAAGLIFLFPDVNKVFFQDEAGSGYLRVLMLVIIGSSLSITTASVLQGLGRVRQTAFLVIGGIGVKAAANLLWIPAAGIYGASFASLTAVAFVLLGNIVILRKDLSFRRWDHTPGVSLVLAVAGMSAALYISRGMIKALFDLDDRLPLLLYILALSAGGAVVFGLILIRTGGFTRQEIEVLPSSKRLIQLLPKG	PGPT0017190_29	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
AK012_03998	537	spoVT	COG2002	Stage V sporulation protein T	ATGAAAGCAACTGGTATTGTACGTCGCATTGATGATCTAGGCCGTGTTGTTATTCCAAAAGAAATCCGCCGCACCCTCAGAATTCGTGAAGGAGATCCATTGGAAATCTTCGTGGACAGAGAAGGGGAAGTCATCTTGAAGAAATATTCCCCGATTAGTGAACTGGGTGATTTTGCGAAGGAATATGCGGAAGCCTTAAGTGAGTCCCTGGAATCCCCTGTTCTTATTTGTGACCGGGATGAGTATATCGCTGTGGCTGGTGGAGGTAAGAAAGAATACATGAACCGGTCGATCGGATCAAAGGTGGAGGAAGTGATGGATTCACGGTCCATGGCTTCTGAGAAGCATCCGGACCCAGTGGAATTCGTCCGCGGGCAGGAAGAGGACGTCATATCCTATCTTATTCATCCTATCATCGCCCAGGGAGATCCCATTGGATGTGTGATTGCGTTTAATAAAGAAGGAGCACCTCTTGAAGACGGCGCAGATAAGGCGGTTCAGACGGCAGCAAGTTTTCTTGCCAAACAGATGGAATAA	MKATGIVRRIDDLGRVVIPKEIRRTLRIREGDPLEIFVDREGEVILKKYSPISELGDFAKEYAEALSESLESPVLICDRDEYIAVAGGGKKEYMNRSIGSKVEEVMDSRSMASEKHPDPVEFVRGQEEDVISYLIHPIIAQGDPIGCVIAFNKEGAPLEDGADKAVQTAASFLAKQME	PGPT0024790_273	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-QSR-AUTOINDUCER_PERCEPTION	CE-QSR-PENTAPEPTIDE_PERCIPITATION|SIGNALLING,PGPT0024790-spoVT-K04769	NA	NA
AK012_03999	3537	mfd		Transcription-repair-coupling factor	ATGCAAGGGATAAAGGATTATTTACATCCGAAGGAAGATGTACAGTCCGTGATTGAAGGTTTTCAATCCGGGATGAAAGAACAAATGGTGGCAGGTCTTTCCGGAGCCTCCAGGAGCCTGATGATTTCTCTTCTTCAGGAATCACTGGACCGACCGGTCATTCTTGTCACTCACCAGCTCATACAAGCACAGCAGCTGTATGAAGACATGCAGGAGCTTGCAGACCCTGATCAGGTTCATCTGTATCCGGTCAATGAACTGATCGCTTCGGAAATCGCTGTAGCGAGTCCTGAACTCCGCAGTCAGAGAATCGAAGCGCTCAGCCAGTGGCTTTCACAGGAAAAAGGTGTATTGATCGCACCTGTAGCTGCTTTAAAGCGCATGATGCCGCCGCAATCCTATTGGGAGCGTAACCTGCTCCCTTTTCGTGTTGGTGAAGAAATCAACCTGGAGGATTATTTGGACCGCTTTATCAGCATGGGGTACGAACGTACGGAAATGGTGGCGACTCCAGGAGAGTTTTCCCTCCGCGGAGGGATTCTGGATGTATATCCATTAACCGCCGAATTCCCGTACCGGATCGAGTTGTTCGATACAGAAGTGGACTCTATCCGGACGTTTGATTCAGAAACCCAGCGTTCCCATCAAAAGGTGGAGACGGTTACGATCGGCCCGGCGACCGAACTGCTGTTGACGTCCGAGGACTTTACAAGAGCGCATCACCGTCTGGAAAACGCCCTGGCCCATTCTTTGAAGAAGCTGACGAAGACAGAATCCAAGGAAACCCTGAGCAGGGTGATTGATCATGACCTGGAGCGCCTGAAGCAGCAGGAAAGATTCCAGGAAATGTATAAGTACATTGAAATGTTCTATGAGGAGCCTGTCAGTCTACTAGACTACTTGTCTAAGGACGGGCTTGTCGTTTTAGATGAGATGAGCCGGATTCAGGAAACCGCTCATCGTCTGGATCAGGAGGAGGGTGAGTGGCTGCAGAGCATGCTGGAGGCAAATCAGTCCGTACGCGATCTGCATTTATCCTTTGACTGGCAGGATACGTGGAATAAAATCGAACACCCCCGTCTTTATTTATCTGTTTTTATGCGTCATATAGCCAACACCCAGCCACAGAACATCGTCAACATTTCCAGCCGGCAGATGCAGCAGTTCCACGGACAGATGAACCTGTTGAAAAATGAGATGGACCGCTGGGAGAAGCAGGACTACTCTGTCGTGATTCTCGCACCGGATGAGAGCCGCCAGGAGAAAATCCAGGGAGTGCTCGCGGATTACGATATTGAAGCTGTTCCTGCTAAAGGGGAACCGCAACTCCCGCTTGTGAAACCGACCATTGTCATCGGCAACATCAGCAGCGGTTTTGAATGGCCGATGCACAAGATGGCCGTACTGACTGAAAAAGAATTGTTCAAAAAGCGGACGGCCAAGCCGAAGCGCAGACAGAAAATGTCCAACGCCGAACGGATCAAAAACTATCAGGAACTTAAAGTCGGCGATTATATTGTGCATGCCAGTCACGGGATCGGGAAATACCTCGGAATTGAAACACTGAAAATGGGAGGAAGTCATAAGGACTTCCTGATGGTGAATTACTCGGGGAATGACAAATTATATGTACCGATCGACCAGATTGACATGATCCAGAAGTATGTCGGCTCTGAAGGTAAGGAACCAAAGGTCTATAAACTGGGCGGCAGCGAGTGGAAAAAGGTCAAAAGCCGTGTCCAGTCCTCTGTTGAGGATATTGCTGATGACTTGATTGAACTGTATGCCGAGCGTGAAGCATCCAAAGGGCATGCCTTTCAGGAAGACGGTGAAATGCAGCGTGAATTTGAAGCGGCTTTCCCGTATGAGGAAACAGAAGACCAGCTCCGCTGTATCGAAGAGATCAAATCAGACATGGAGCAGATCCGTCCGATGGACCGTCTGCTCTGTGGAGATGTCGGATATGGAAAAACCGAAGTGGCGATCCGTGCTGCCTTCAAAGCGATTGCAGAAGGCAAGCAGGTGGCTCTGCTTGTACCGACGACGATTCTTGCCCAACAGCATTATGAGACGCTTCAGGAGCGTTTTCAGGGCTTTGGCGTCAATGTTGGTCTTATGAGTCGTTTCCGTACGAAAAAGCAGCAGAAGGAGACGACAGACCGATTGAGAAAAGGCCTGGTCGATGTTGTGGTCGGTACACACCGGGTTCTTTCCAAGGACATCGAATTCAAGGACCTCGGTCTCTTAATTGTCGATGAAGAACAGCGTTTCGGAGTGAAACACAAAGAGAAAATCAAGCAGTTGAAAAACAATGTGGATGTTCTCACACTGACAGCGACACCGATTCCGCGTACGCTGCATATGTCTATGCTTGGTGTCCGGGATTTATCAGTCATTGAAACCCCGCCGGCCAACCGGTTCCCGATCCAGACGTACGTGCTGGAATACAACCCGATTTTCCTCAGAGAAGCGGTCGAAAGGGAGATGGCGAGGGACGGCCAGGTGTTCTTCCTGTTCAACCGGGTGGAGAATATCGAACGGATGGCGCAGGAGATTGCCGAACTCGTACCGGAAGCACGGGTGAGCTTTGCTCATGGGCAGATGAATGAAACGGAACTTGAGAATGTCATGTTCTCCTTCCTCGGTGGTGAGTCGGACGTGCTGGTCAGTACGACGATCATTGAAACCGGGGTCGACATCCCGAACGTGAACACCTTGATTGTCTATGACGCTGACCGCATGGGTCTCAGCCAGCTGTATCAGCTGCGTGGACGTGTCGGACGTTCCAACCGAGTGGCCTACGCGTACTTTACGTATCAGAAGGATAAAGTACTTACAGAAGTAGCGGAGAAAAGACTGCAGGCCATTAAGGAATTCACCGAGCTTGGATCTGGATTTAAGATCGCCATGCGTGATCTGTCCATCCGTGGAGCGGGTAATCTGCTTGGCTCCCAGCAGCACGGCTACATCGATTCGGTAGGTTTTGATATGTATTCCCAAATGCTTAAAGATGCGATTGAAGCGAAGCGCCAGGGCAAAAAACCGGAGGAAGTCCAGCCGTTCCAGCCTGAGCTTGATTTGAGCGTGGATGCTTATATACCGGATGATTATATTGCTGATGAAAAACAGAAAATCGACATGTATAAATTGTTCCAGGCCGTGGAGTCTATCGAAGATATCCAGGATCTCAGGGATGAGCTCATCGACAGGTTCGGTGACTATCCGGAAGAAGTGGAAAATCTCTTCCGCGTCTCCAGCATCAAGCTACAGGCGAAACGGGCCCGGATTGAGTCGGTCGCAGAGAAGAAGAAGAAAATTGAAATGCTGATGGAAGCCGAGCAGAGCCGGGACATCGACGGTTCGAAGTTGTTCGACTTTGCCAACTCCTACGGAAGAATGGTTCAGCTCGGCACCGAAGACAGCCAGCTGAAAGTCACCTTCACATGGGACCGCAAACAGGAATTCGACCGCTACAGGCTCGTGGAGGAATTCATCGGCCGTCTTCCGGATATGATGAGAGAAACGACAACAGCCTGA	MQGIKDYLHPKEDVQSVIEGFQSGMKEQMVAGLSGASRSLMISLLQESLDRPVILVTHQLIQAQQLYEDMQELADPDQVHLYPVNELIASEIAVASPELRSQRIEALSQWLSQEKGVLIAPVAALKRMMPPQSYWERNLLPFRVGEEINLEDYLDRFISMGYERTEMVATPGEFSLRGGILDVYPLTAEFPYRIELFDTEVDSIRTFDSETQRSHQKVETVTIGPATELLLTSEDFTRAHHRLENALAHSLKKLTKTESKETLSRVIDHDLERLKQQERFQEMYKYIEMFYEEPVSLLDYLSKDGLVVLDEMSRIQETAHRLDQEEGEWLQSMLEANQSVRDLHLSFDWQDTWNKIEHPRLYLSVFMRHIANTQPQNIVNISSRQMQQFHGQMNLLKNEMDRWEKQDYSVVILAPDESRQEKIQGVLADYDIEAVPAKGEPQLPLVKPTIVIGNISSGFEWPMHKMAVLTEKELFKKRTAKPKRRQKMSNAERIKNYQELKVGDYIVHASHGIGKYLGIETLKMGGSHKDFLMVNYSGNDKLYVPIDQIDMIQKYVGSEGKEPKVYKLGGSEWKKVKSRVQSSVEDIADDLIELYAEREASKGHAFQEDGEMQREFEAAFPYEETEDQLRCIEEIKSDMEQIRPMDRLLCGDVGYGKTEVAIRAAFKAIAEGKQVALLVPTTILAQQHYETLQERFQGFGVNVGLMSRFRTKKQQKETTDRLRKGLVDVVVGTHRVLSKDIEFKDLGLLIVDEEQRFGVKHKEKIKQLKNNVDVLTLTATPIPRTLHMSMLGVRDLSVIETPPANRFPIQTYVLEYNPIFLREAVEREMARDGQVFFLFNRVENIERMAQEIAELVPEARVSFAHGQMNETELENVMFSFLGGESDVLVSTTIIETGVDIPNVNTLIVYDADRMGLSQLYQLRGRVGRSNRVAYAYFTYQKDKVLTEVAEKRLQAIKEFTELGSGFKIAMRDLSIRGAGNLLGSQQHGYIDSVGFDMYSQMLKDAIEAKRQGKKPEEVQPFQPELDLSVDAYIPDDYIADEKQKIDMYKLFQAVESIEDIQDLRDELIDRFGDYPEEVENLFRVSSIKLQAKRARIESVAEKKKKIEMLMEAEQSRDIDGSKLFDFANSYGRMVQLGTEDSQLKVTFTWDRKQEFDRYRLVEEFIGRLPDMMRETTTA				NA	NA	NA	NA	NA
AK012_04000	231	fin		Anti-sigma-F factor Fin	ATGAAAATTCGATACTTCTGCCGTCACTGTGAGAATCAGGTTGGAGAATTAGATGCAGCACACGTGGATGTTTCTCAACTAGGGTTTGATCTGTTGAATGATCAGGATCAGGAACAGATGGTTCATATGACCGCTGATGGCGATATGAATATACGGACGATCTGTGACTCATGTAAAGAATCATTGGACGAACATCCACATTACCATGAACTGGACCATTTTATTCAGTAA	MKIRYFCRHCENQVGELDAAHVDVSQLGFDLLNDQDQEQMVHMTADGDMNIRTICDSCKESLDEHPHYHELDHFIQ				NA	NA	NA	NA	NA
AK012_04001	564	pth	COG0193	Peptidyl-tRNA hydrolase	ATGAAATGTATTGTTGGTCTCGGTAACCCGGGAAAGAAGTACGACCAGACCCGTCACAATGCCGGGTTTATGGTGCTCGATGAATGGGCGGAACGAAACAACTGGTCATTCAGTCAAAAGAAATTTAATGGTTTATATACGATGGAGCGGATAGACGGTGAGAAAGTGGTGCTGTTAAAGCCGCAGACCTACATGAATCTGTCAGGTGAATCGCTCAGACCGCTGATGGATTATTACGATCTGGATGTGGAGGATATTCTTGTCATTTATGATGACCTGGACCTTCCACCCGGAAAAATCCGCCTGCGCAAAAAAGGCGGTCATGGAGGTCACAACGGCATCCGCAGCATCATCGACCATCTTGGCACGAAGGAATTCAAACGGCTTCGTGTCGGTGTAGGCCGTCCGGAAGGCTCCAAAAGCGTCATCGATCATGTGCTCGGCACGTTCACAAAGGAAGAGAAGCCACATGTGGAAGACAGCGTGGATTATGCCGTGAAAGCATGCGGGGCGTGGGTCAGTCAGACTTTTGACGAAGTGATGAATACGTACAATATGAAATGA	MKCIVGLGNPGKKYDQTRHNAGFMVLDEWAERNNWSFSQKKFNGLYTMERIDGEKVVLLKPQTYMNLSGESLRPLMDYYDLDVEDILVIYDDLDLPPGKIRLRKKGGHGGHNGIRSIIDHLGTKEFKRLRVGVGRPEGSKSVIDHVLGTFTKEEKPHVEDSVDYAVKACGAWVSQTFDEVMNTYNMK	PGPT0023420_61	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-EXOPOLYSACCHARIDE_PRODUCTION|EPS	CE-EPS-TEICHOIC_ACID_METABOLISM	CE-EPS-TEICHOIC_ACID_METABOLIC_PATHWAY,PGPT0023420-tarL-K18704	NA	NA
AK012_04002	657	ctc	COG1825	General stress protein CTC	TTGGCTATTACGTTGAAAGCGAAACAAAGACAAAATCTCAAACAATCCGTCACGCGTGAACTGCGCCAGGAGGGAGATATCCCGAGTGTTGTTTACGGAAATGACAAAGAACCGATCACGGTTGCTGTTAACAGCATAGAGTTACTTAAAACTGTTCGTGATGAAGGGAAGAACGCGATCATTTCCCTGAATATCGAAGGTAAAGATACAGTTGATGTGATGCTGCATGACTATCAGGTGGATCCTTTGAAGGATGAATTGATCCATGCCGACTTTTATGTCGTGAACATGTCCCAGGAGATGGACGTGGAAGTACCGGTTCGTCTTGAGGGTGAAGCCGCCGGAAGCAAAGAAGGCGGTGTCGTCCAACAGCCACTTTATGATCTTGCCGTACGTGCAAAACCTGCGGATATCCCGGAGGAAATCCTCGTGGATATCTCTGATCTGAACATCGGCGACAGCGTGATGGTCAGTGATTTGAAGGCTTCCCGTAATTATGAAATTACAGAAGATGACAATACGACCATTGTTTCCGTAACACCACCGGAGGAAATGCCGGAGGAAGAACCGGAGCCGTTGGAAGTTGATGCTGATCCAGAAGCGTCCGAAGAAAAATTCGAGGATGAAAAAGCTGGAACAGATGAAGCGAAACAGTAA	MAITLKAKQRQNLKQSVTRELRQEGDIPSVVYGNDKEPITVAVNSIELLKTVRDEGKNAIISLNIEGKDTVDVMLHDYQVDPLKDELIHADFYVVNMSQEMDVEVPVRLEGEAAGSKEGGVVQQPLYDLAVRAKPADIPEEILVDISDLNIGDSVMVSDLKASRNYEITEDDNTTIVSVTPPEEMPEEEPEPLEVDADPEASEEKFEDEKAGTDEAKQ				NA	NA	NA	NA	NA
AK012_04003	954	prs_2	COG0462	Ribose-phosphate pyrophosphokinase	ATGGCAACTGGATATAAAGATTCAAAACTGAAAGTATTCTCGCTTAACTCGAACCCTGGACTGGCTGAGGAAATAGCGGACAACATTGGAGTGGAACTTGGGAAGTGTACAGTAACAAGCTTCAGTGACGGGGAAATTCAAATCAATATTGAAGAAAGTATCCGCGGCTGCGATGTCTATGTCGTCCAATCGACCTGCGAGCCTGTCAACCAGCATATCATGGAACTGTTGATTATGATCGATGCTCTTAAACGTGCGTCTGCCCGTACCATCAATATCGTTATGCCTTACTACGGCTATGCCCGTCAGGATCGTAAGGCCCGCGCCCGTGAACCGATCACAGCCAAGCTGATTGCCGATCTGCTTGAAACAGCCGGGGCTTCCCGTGTCCTTATGCTGGATCTGCACGCACCGCAGATCCAAGGGTTCTTTAACCTGCCGATCGATCATCTTGTCGGAGTACCGATTCTTTCCGACTACTTCGAAGAGAAGAATTTTGACGACGTCGTCATCGTCTCTCCGGACCATGGTGGTGTGACCCGTGCCCGTAAAATGGCCGACCGCCTGAAAGCTCCGATTGCGATTATCGATAAGCGCCGTCCGCGTCCGAACGTTGCGGAAGTGATGAACATTGTCGGGAACATTGAAGGTAAGACAGCCATTCTGATCGATGACATCATCGATACAGCCGGGACGATTACGCTTGCGGCCAATGCCCTTGTGGAAAACGGGGCAACAGAAGTCTATGCGTGCTGTACGCACCCTGTCCTTTCCGGACCGGCCATCGACCGTATAGACAACTCTAAAATTAAAGAACTGGTCGTGACCAATACGATTCCACTCGGTGAGGAAAAAGCCAGTGATAAGATTACGGAACTTTCTGTAGCCGGCTTGATCAGTGAAGCGATCATCCGTGTTCACGAACGCCAGTCCATCAGCATACTATTCGATTAA	MATGYKDSKLKVFSLNSNPGLAEEIADNIGVELGKCTVTSFSDGEIQINIEESIRGCDVYVVQSTCEPVNQHIMELLIMIDALKRASARTINIVMPYYGYARQDRKARAREPITAKLIADLLETAGASRVLMLDLHAPQIQGFFNLPIDHLVGVPILSDYFEEKNFDDVVIVSPDHGGVTRARKMADRLKAPIAIIDKRRPRPNVAEVMNIVGNIEGKTAILIDDIIDTAGTITLAANALVENGATEVYACCTHPVLSGPAIDRIDNSKIKELVVTNTIPLGEEKASDKITELSVAGLISEAIIRVHERQSISILFD	PGPT0021480_4005	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PURINE_METABOLISM,PGPT0021480-prsA-K00948	NA	NA
AK012_04004	1380	glmU_2		Bifunctional protein GlmU	ATGACGAATCGATATGCCGTCGTACTGGCAGCTGGACAAGGGACACGTATGAAATCGAAACTGTACAAGGTTCTGCACCCTGTAGGTGGAAAACCGATGGTTCAGCATGTCGTCGACCAGTTGAATACATTAGATCTAAGTGAATTGATTACAGTAGTAGGATTTGGAGCGGAGAAAGTTCAGGAACAGCTTGGTTCGGACAGTCATTATGTCGTCCAGAAAGAACAGCTTGGCACAGGCCATGCCGTTCAGCAGGCCGATGACATCCTCGCAGATAAAGAAGGAACCACTGTTGTCGTCTGCGGCGATACGCCTTTATTGACAGCTGAAACCCTTCAGAAACTTCTTGATCATCACGAAGCACAGCACGCAAAAGCCACGATTTTAACCGCTCATGCTGAAGAGCCTCATGGATACGGACGTGTCATCCGTGGAGGAAACGGCCAGGTGGAGCGTATCGTTGAGCAGAAGGATGCATCAGAAGAAGAACAGGCCATTCAGGAAATCAATACAGGAACCTACTGCTTTGATAATGCCCTGCTTTTTGACGCACTGAAAAACGTCTCCAATGACAACGTGCAGGGAGAGTATTATCTCCCCGATGTTGTTGAAATCCTTAAAGACCGTGGAGAAACGATCAGTGCCTATCAGACACCGGAATTCTCTGAATCCCTTGGAGTCAACGACCGTGTAGCTCTGGCAAAAGCAGAAAAATTAATGAAAGCACGTATTAACGAGAAACATATGAGAAACGGGGTCAGCCTGATCGATCCGGATCAGACGTATATCGGTCCTGATGTCACGATCGGACAGGATGTCACCATCTATCCGGGGACCGTCATTGAAGGAACGACAACGATTGAAAATGATGCTGTCGTTGGTCCCCACACAACGATCAGCAACTGTTATATCGGAGCGGAAACAACGATCAAGCAGAGTGCCGCCTCAGACAGCCGTATCGGCAATCGTGTGCAGATCGGACCATTCGCCCACATCCGCCCACAGTCTGAGCTCGGAAATGATGTGAAGGTCGGAAACTTTGTGGAAGTGAAAAAAGCCTCCTTCGGTGATGGAAGCAAAGCCTCCCACCTCAGCTACATCGGAGATGCAGAAGTCGGAAGCGGAGTGAACATCGGCTGCGGCACGATCACGGTCAATTACGATGGTCAGAACAAGCATTTGACGACGATCGAGAATGATGCCTTTATCGGCTGCAACTCCAATCTGATCGCACCGGTGACGGTCGGGCAGGGGGCCTATGTAGCGGCTGGATCCACCATTAATAAAGATGTACCATCAGAAGCACTGTCAATCGCCCGTTCAAGACAGACGAACAAAGAGGGCTATGCAAATAAAATGAAATCGATCAAAAAAGATTAA	MTNRYAVVLAAGQGTRMKSKLYKVLHPVGGKPMVQHVVDQLNTLDLSELITVVGFGAEKVQEQLGSDSHYVVQKEQLGTGHAVQQADDILADKEGTTVVVCGDTPLLTAETLQKLLDHHEAQHAKATILTAHAEEPHGYGRVIRGGNGQVERIVEQKDASEEEQAIQEINTGTYCFDNALLFDALKNVSNDNVQGEYYLPDVVEILKDRGETISAYQTPEFSESLGVNDRVALAKAEKLMKARINEKHMRNGVSLIDPDQTYIGPDVTIGQDVTIYPGTVIEGTTTIENDAVVGPHTTISNCYIGAETTIKQSAASDSRIGNRVQIGPFAHIRPQSELGNDVKVGNFVEVKKASFGDGSKASHLSYIGDAEVGSGVNIGCGTITVNYDGQNKHLTTIENDAFIGCNSNLIAPVTVGQGAYVAAGSTINKDVPSEALSIARSRQTNKEGYANKMKSIKKD	PGPT0018955_1379	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-CELL_ENVELOPE_REMODELLING	CE-REMODELLINGLPS|LIPID|IVA_METABOLISM	CE-REMODELLING_LPS-GLUCOSAMINE_MODIFICATION,PGPT0018955-glmU-K04042	NA	NA
AK012_04005	300	spoVG	COG2088	Putative septation protein SpoVG	ATGGAAGTAACTGACGTAAGACTGCGACGCGTGAATACTGATGGAAGAATGCGAGCAATTGCTTCTATTACCTTGGACCAGGAATTTGTTGTCCATGACATACGGGTGATTGATGGCAACAACGGATTGTTTGTGGCGATGCCGAGCAAGCGGACTCCGGATGGAGAGTTCCGTGACATTGCACACCCGATCAATTCAGGTACACGTGGAAAGATTCAGGACGCTGTACTTGAAGCCTATCACCAGGCTGGTGAAGAGGAAGGAGCAGAGGTGGAATTCGAAGAAGCCGGAGCCTCCTGA	MEVTDVRLRRVNTDGRMRAIASITLDQEFVVHDIRVIDGNNGLFVAMPSKRTPDGEFRDIAHPINSGTRGKIQDAVLEAYHQAGEEEGAEVEFEEAGAS	PGPT0024830_202	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-STAGE_V_SPORULATION,PGPT0024830-spoVG-K06412	NA	NA
AK012_04006	819	purR_2	COG0503	Pur operon repressor	ATGAAAAGAAGTGAAAGGCTCGTTGCGATGACGCATTTTATTCTGGACCAGCCGAGAACGCTGATTTCCCTCCCCTTTTTCTCGGAAAAGTACGGAGCAGCCAAGTCCTCCATCAGTGAAGACCTTGGTATTATTAATACAATGTTCCAGCATGAGGGGATCGGTTATTTAGAAACGATATCCGGGGCAGCCGGGGGAGTGAAATACATCCCTGTATTCTCGGAAGATTACAGCCGTACGTTCGTCAATCAGCTCTGTGATCGTCTGGAGGATCCGGAACGTCTGCTCCCCGGTGGTTATTTGTTTATGAGTGATATACTCGGCGATCCGGAGACGACAAGGAATATCGGCCGCATGTTCGCTTCTGCCTTCCGTGACAAGGGGGTCGACGTCGTCATGACTGTGGCCACCAAAGGCATTCCCCTGGCCTATGCCGTAGCTTCGTACTTAAACGTTCCGGTTGTCATCGCCAGGAGGGATCCTAAGATTTCGGAAGGATCCACGGTGAGCATCAACTATGTGTCCGGGTCCACCCGTAAAATTCAAACGATGGTGCTCACAAAACGATCCCTGCAGGAAGGTTCAAGAGTCTGTATCATTGATGACTTTATGAAGGCCGGTGGAACCATCAACGGCATGCGCAACCTGTTAAAAGAATTCAATGCGGAACTCGCCGGTATCGGTGTCCTCGCAGAAGCGGAGGATGAAGAAGAGGATCGTGTGGTGGAAGAGTATTTATCGCTCGTTCAAATCGTCAATGCAGACGACCGCCGCTCGACCATCGAAGTCCGTCCGGGGAACCTGCTTGAAAATATCTAA	MKRSERLVAMTHFILDQPRTLISLPFFSEKYGAAKSSISEDLGIINTMFQHEGIGYLETISGAAGGVKYIPVFSEDYSRTFVNQLCDRLEDPERLLPGGYLFMSDILGDPETTRNIGRMFASAFRDKGVDVVMTVATKGIPLAYAVASYLNVPVVIARRDPKISEGSTVSINYVSGSTRKIQTMVLTKRSLQEGSRVCIIDDFMKAGGTINGMRNLLKEFNAELAGIGVLAEAEDEEEDRVVEEYLSLVQIVNADDRRSTIEVRPGNLLENI				NA	NA	NA	NA	NA
AK012_04007	867	ispE	COG1947	4-diphosphocytidyl-2-C-methyl-D-erythritol kinase	ATGCAGATTTTAGAAAAAGCTCCTGCCAAGATCAATTTGTCCTTAGATGTTTTACATAAACGACCGGACGGCTTCCACGAAGTGGAGATGGTGATGACGACTGTAGACTTAGCGGATCGGATCCAGCTGACTCTTCTCCGTGAGCCTGTAGTTCAGGTCGAATCGGAAAGCCGCTTTGTTCCGAACGATGAGCGCAACCTTGCCTACCGCGCAGCAAAGCTGATCCAGGATCGTTTCCGTGTGAGAAAAGGTGTTCATATTCATATCGAGAAAAACATTCCTGTAGCCGCCGGGCTTGCCGGGGGAAGCAGTGACGCAGCAGCGGTCCTCCGCGGGGTTAACCGGATGTGGAATCTCGGTCTGTCTATGGATGAACTGGCGGTCCTTGGTGCTGAAATTGGATCGGATGTATCGTTTTGTGTATACGGAGGAACGGCGCTTGCCACCGGCCGCGGTGAACAGATTCAATCCCTCCCGGCGCCGCCGCCCTGCTGGGTGGTTCTTTCAAAGCCGACCGTCGGTGTTTCAACCCAGACGGTCTATCAGAACCTGAATCTTAAAGGGGCCCATCATCCTGACACAGATGCTATGGTCGAATCCCTGAAGAATGGAGATTACGACGGAATCTGCTCGCATGTCGGCAATACGCTGGAAGGTGTAACTCTTGATCTGCATCAGGAGGTGGGGCAGATTAAGGAACAGATGAAGCAGGCCGGAGCGGACGCTGTGCTTATGAGTGGAAGCGGGCCGACGGTCTTCTGTCTCGTTGATCAGGATGCCCGGGCCCAGCGGATTTATAACAGCCTGAAAGGGTTCTGTACGGAGGTTTACATGGTAAGGATGCTGGGGTATCGGGAAACCACTTGA	MQILEKAPAKINLSLDVLHKRPDGFHEVEMVMTTVDLADRIQLTLLREPVVQVESESRFVPNDERNLAYRAAKLIQDRFRVRKGVHIHIEKNIPVAAGLAGGSSDAAAVLRGVNRMWNLGLSMDELAVLGAEIGSDVSFCVYGGTALATGRGEQIQSLPAPPPCWVVLSKPTVGVSTQTVYQNLNLKGAHHPDTDAMVESLKNGDYDGICSHVGNTLEGVTLDLHQEVGQIKEQMKQAGADAVLMSGSGPTVFCLVDQDARAQRIYNSLKGFCTEVYMVRMLGYRETT	PGPT0007605_2771	DIRECT EFFECT	STRESS_CONTROL|BIOCONTROL	NEUTRALIZING_ABIOTIC_STRESS	NITROSATIVE|OXIDATIVE_STRESS|ROS_SCAVENGING	OXIDATIVE_STRESS-TERPENOID_DERIVATE_PRODUCTION,PGPT0007605-ispE-K00919	NA	NA
AK012_04008	180			hypothetical protein	ATGGGACGTAAGCGCAGCATGATGTCCGATTCGTTTAAAGAAGAGATCGCGAAAGAACTTGGGTTTTACGACAAGGTACAGAAAGATGGATGGGGCGGCATCTCTGGGCGCGATGCCGGAAACATGGTCAAACGGGCGATACAAATGGCAGAAGAACAAATGGTGAAAGACCGAAATTGA	MGRKRSMMSDSFKEEIAKELGFYDKVQKDGWGGISGRDAGNMVKRAIQMAEEQMVKDRN	PGPT0024885_144	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE_SMALL_ACID-SOLUBLE_SPORE_PROTEINS,PGPT0024885-sspF-K06423	NA	NA
AK012_04009	261	veg	COG4466	Protein Veg	GTGGCTAAAACGTTAGGTGAAATTAAGCAGTCCTTAGAAGGACAGATTGGTAAACGACTAACTTTGAAAGCAAACGGCGGGCGCCGTAAGACCATTGAGCGTTCCGGTGTTTTAGCAGAAACTTATCCTGCAGTTTTCATTGTCGAGCTTGACCAGGAAGAGAATGCTTTTGAACGTGTATCATACAGCTATGCAGATGTACTTACAGAGACAGTCGAACTGACCTTTGATGACCTGAAGACTATGGCCCTTGAGCAGTGA	MAKTLGEIKQSLEGQIGKRLTLKANGGRRKTIERSGVLAETYPAVFIVELDQEENAFERVSYSYADVLTETVELTFDDLKTMALEQ				NA	NA	NA	NA	NA
AK012_04010	873	yabG		Sporulation-specific protease YabG	ATGATATCAAATGGAGACCTCGTAACGAGAAAGTCTTATCAGCACGATGTAATCTTCCGTGTGAAGGAGAAATCCTCTTACATCGTCCAGCTGATGGGCGAGCATATCCGTCTCGAAGCGGATGCCCCGCTTGAGGATGTGGAAGAAGTCACAGGGGCTGAATACCACCGTAGAAAAAGCCGGGTGGAGGAACAGGAAGCTTATTCCTACCGCTTGTTCAGGCAGGATTACCGGCTCTTAAGGGAACAAAGGGAGGCGGACGCAGGGAGCGGCTATGGAACGGAAGAGGAAACGAGCTACTTTCAGATCCCTCCCCGAATCCTTCATATTGACGGGGATCCGTTGTTCTTGAAAAAATGCATTGCCTTATATGAGCAGCTCGGCCTCCAGGTGCACGGGCAGTATCTTCACGAAAAGGAAATGCCTCACCAAGTCCTGCCTCTAATTGAAAAAGTCCATCCGGAAATCGTCGTTTTAACGGGACATGACTCGTATTCGAAGGCGAAGGGCCCGGTCAGGGAACTGGAATCGTACCGCCATTCCAAGTACTTTGTCGAAGCGGTGAGAAACATCAGGCGCAGCTACCCTAATTTCGACCAACTCGTCGTATTTGCAGGCGCCTGTCAGTCCCACTTCGAATCGATTATCCGTGCCGGGGCCAACTTTGCGAGCTCCCCATCCAGGGTGAATATCCACGCCATTGATCCTGTGTATGTAGCCGCCAGAGTGGCATATACGTCGTTCAAGGATCATATAAATATATGGGAGGTTATCCGCAACACCATCAGCGGTCAGGATGGTCTGGGCGGAATCGAGACGAAAGGGCTTCTTCGGATCGGCATCCCCTATACGGAAAATCAGGAAGAAATATAG	MISNGDLVTRKSYQHDVIFRVKEKSSYIVQLMGEHIRLEADAPLEDVEEVTGAEYHRRKSRVEEQEAYSYRLFRQDYRLLREQREADAGSGYGTEEETSYFQIPPRILHIDGDPLFLKKCIALYEQLGLQVHGQYLHEKEMPHQVLPLIEKVHPEIVVLTGHDSYSKAKGPVRELESYRHSKYFVEAVRNIRRSYPNFDQLVVFAGACQSHFESIIRAGANFASSPSRVNIHAIDPVYVAARVAYTSFKDHINIWEVIRNTISGQDGLGGIETKGLLRIGIPYTENQEEI	PGPT0025240_167	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-SPORE_PRODUCTION	CE-SPORE_FORMATION|GERMINATION	CE-SPORE_COAT_PROTEIN,PGPT0025240-yabG-K06436	NA	NA
AK012_04011	870	rsmA	COG0030	Ribosomal RNA small subunit methyltransferase A	ATGAACAATAAAGCGGTTGCGACACCATCACGTACAAAGGAAATTCTCGGGAAGTATGGATTTTCATTCAAGAAAAGCCTCGGACAGAACTTTCTTATCGACGTAAACATTCTGAAAAACATTATTGAAGAGGCGGGTATTCATGAAGAGGCCGGTGCCATTGAAATCGGACCGGGAATCGGAGCCTTGACGGAACAATTGGCGCGTCATGCCGATCGTGTTGTTGCTTTTGAAATCGACCAGCGTCTGCTCCCGATTTTGGAAGATACGCTGAGTGCTTATGACAATGTCCATGTCATCAATCAGGATATTCTCCAAGCTGATGTGGAACAGGTGATCCAGGACCAGTTCAAGCAGGGGCAGCCAGTCAGAGTTGTCGCCAATCTTCCTTATTACATCACGACCCCGATCCTGATGAAGCTGTTGATGAGCCGTCTGCCGATTGACAGCATCACGGTCATGATCCAGAAAGAAGTGGCGGATCGTATGGCCGCTGAACCTAATACGAAAAGCTACGGTTCGTTATCCATTGCTGTCCAGTACTATACAGAAGCGAGCGTGGCTCTGACTGTTCCTAAAACCGTCTTCATGCCGCAGCCGAATGTGGATTCATCTGTTCTCCACCTGGAGATGCGTGAACAGCCTCCGGTACAGGTGGAAGATGAGGACTTTTTCTTTGATGTAGTCAAAGCAACCTTCGGACAGCGCAGGAAAACGCTGATGAATAACCTTGCCCGTCATTTTAAAGGCCGTATGGATAAAACGGAACTGCGCACCCGTCTGGATGAGGTGGGTATTGATCCTTCCCGCCGCGGGGAGTCGCTGTCGATGGAAGAGTTTGCGGCCCTTGCCAATCAACTGTATAAGTAA	MNNKAVATPSRTKEILGKYGFSFKKSLGQNFLIDVNILKNIIEEAGIHEEAGAIEIGPGIGALTEQLARHADRVVAFEIDQRLLPILEDTLSAYDNVHVINQDILQADVEQVIQDQFKQGQPVRVVANLPYYITTPILMKLLMSRLPIDSITVMIQKEVADRMAAEPNTKSYGSLSIAVQYYTEASVALTVPKTVFMPQPNVDSSVLHLEMREQPPVQVEDEDFFFDVVKATFGQRRKTLMNNLARHFKGRMDKTELRTRLDEVGIDPSRRGESLSMEEFAALANQLYK				NA	NA	NA	NA	NA
AK012_04012	564	rnmV_2	COG1658	Ribonuclease M5	TTGAAAATTAAAGAGGTCATCGTCGTGGAAGGCAGGGACGATACGGCCAAAATAAAACGGGCTGTTGATGCAGATACCATTGAAACGAACGGGTCTGCTATTGATGAAGGTGTGCTGAAACGCATCAAGCATGCGCAGGAGAAACGGGGTGTCATTATTTTTACAGACCCTGACTACCCCGGGGAACGGATCCGGCATATCATTACGCAGCACATTCCGGACTGCAAGCATGCCTTCCTTCCGAAACAGCAGGCCAGAGCCAGGCGGGATAAAGGGATTGGCATTGAGCATGCCTCCATTACAGATATTCAAGCTGCTCTGAGCGTGGTCTACGAACTGATGGATGAAAAGACGGGCGAAATTTCAAAGCAGGATCTGATTGACCTCGGTTTAATCGGAAGCCCTCATTCGGCTGAGTTACGAGAAAAGATAGGGATGGATTTAAATATAGGAAAAACCAATGGAAAGCAGCTGCTCCGCCGGTTGAACATGTTTCATATCACCCGCCGACAGCTTGCTGAAAGTATAGATAGAATCAATCAGGAGGAAAGTCATGAACAATAA	MKIKEVIVVEGRDDTAKIKRAVDADTIETNGSAIDEGVLKRIKHAQEKRGVIIFTDPDYPGERIRHIITQHIPDCKHAFLPKQQARARRDKGIGIEHASITDIQAALSVVYELMDEKTGEISKQDLIDLGLIGSPHSAELREKIGMDLNIGKTNGKQLLRRLNMFHITRRQLAESIDRINQEESHEQ				NA	NA	NA	NA	NA
AK012_04013	1290			hypothetical protein	ATGAATAGAAAAGAAATTGTAAAAAAAGCTGTCAGTCAAACGACTTTCTGGGCCATATTATCTGTTGTCCTGGCATCCGCCTTTTTAGTGACCGTTACCTATGAAGCGACAAAAGCTTCTGTGCAGGTGACTCAGAACGGAGAAAAAGAATTGATTCGAACACATGCGGATACTGTAGATGAATTGATGTCTGAGCTGGACATTACGGTGCAGCCGCATGATGAACTATCACATAAATTATCTGATTCAGTTGAATACGGTATGGATGTTGAATACATAACATCAAAATCGATTCACCTGGCCATCGATGGCGGGGAACAGAAAGACTATTATACAACGGCAGATACTGTCGGGGAGTTTTTCAAAGAGAATGATCTGGAATTCAAGGAACACGATCAGCTGTCCCATCAATCCGGTGAACGTCTCGCTGATGGCATGAGTATTGAGGTCGCTGAAGCCTTTCAGGTTACCCTGAATGATGGCGGAGACGAAGAAAGTGTATGGACGACGAAGTCCACCGTGGGAGACCTGTTGGATGAACAGGGAATTGAACTCAATGACCTGGATGAACTGAACCTTGATGAAGAGGCTTGGCTGACCGCAGATACACCGCTGGAAATCACGCGGGTGGAAAAGGTCACCGAGATTGTGGAAGAGGAAACGGATTATTCGGTTGAAGTGAAGAAGGACGACTCCCTTCCGAAAGGGGAGCGCAAGGTACTGGAAGACGGGCAGGAAGGTCTTGTGACGAAGGAGTATGAAGTGACGATTGAAAATGGGGAAGAGGTCAGCCGTGAGCTTGTAGAAGAGACGGTGGATCAGGAAAGCCGAAGGGAAATCGTAGCGCTTGGTACAAAAGTGGATGAACCGGAACCTCAGCCGGCCATGACCGCGTCCGCCTCCCAACCGGAAGAAGAGCCTTCATCTTCCGGTAAAGTCGTCCAGACTTCTGCTGAAGTTTCAAAAAGCAGTGAAGAGACAAGCCGTGAAAAAGAATCGAGCCAAACCCTGCAGATGCATGCGACCGCCTACACCGCTGAGTGCACGGGCTGCTCCGGCATTACAGCAACAGGGATTGATTTGAACGCAAATCCTGATAAGAAGGTTGTAGCTGTAGATCCGAGCGTTATTCCTCTGGGCAGCCGTGTCTGGGTGGAAGGCTATGGAACTGCCGTTGCAGGTGATACAGGCGGAGCGATCAATGGTAAACGTATTGACCTTCACGTGCCTTCCAAGAGTGAAGCCTACAGCTTTGGTTCAAAAACGGTAAAAGTGAAAATACTGGATTAG	MNRKEIVKKAVSQTTFWAILSVVLASAFLVTVTYEATKASVQVTQNGEKELIRTHADTVDELMSELDITVQPHDELSHKLSDSVEYGMDVEYITSKSIHLAIDGGEQKDYYTTADTVGEFFKENDLEFKEHDQLSHQSGERLADGMSIEVAEAFQVTLNDGGDEESVWTTKSTVGDLLDEQGIELNDLDELNLDEEAWLTADTPLEITRVEKVTEIVEEETDYSVEVKKDDSLPKGERKVLEDGQEGLVTKEYEVTIENGEEVSRELVEETVDQESRREIVALGTKVDEPEPQPAMTASASQPEEEPSSSGKVVQTSAEVSKSSEETSREKESSQTLQMHATAYTAECTGCSGITATGIDLNANPDKKVVAVDPSVIPLGSRVWVEGYGTAVAGDTGGAINGKRIDLHVPSKSEAYSFGSKTVKVKILD				NA	NA	NA	NA	NA
AK012_04014	774	dtd3		D-aminoacyl-tRNA deacylase	ATGCTTTTTGATACACACGTTCATTTGAATGCCGATCAATTCGAAGAAGATCTGGAAGAAACGATCCAACGGGCACGTCAGGCCGGTGTCACTTATATGACTGTCGTCGGTTTTGACAGAAAGACGATTCCGAAGGCGCTGGAAATTGCGGAATCTGATCAGAATATTTACGCAGCGGTAGGGTGGCACCCGGTGGACGCCATCGACATGACAGAGGAAGACCTTGCCTGGATTGAAGAGCTGACTTCGCATCCGAAAGTAGTCGCCCTCGGAGAAATGGGGCTCGACTATCACTGGGATAAGTCGCCCGCTGATGTGCAGAAGGAAGTGTTCCGGAAGCAGATCAGGCTAGCTAAAAAAGTCCGCATGCCGATTATCATTCATAACCGGGAAGCGACAGAGGATATCGTGCAGATATTGAAAGAGGAGAATGCAGCGGAAGTCGGCGGGATTATGCACTGTTACAGCGGACCAGTGGAAACGGCCCGGGAATGCATCGACATGAATTTCCTCATCTCCCTGGGCGGACCGGTGACATTTAAAAATGCCAAGCTTCCGAAAGAAGTCGCCAAAGCCGTTGACTTAAAGCATATGCTTGTGGAGACGGACTGTCCATTTCTCGCTCCTCATCCAAATCGAGGCAAACGGAACGAACCGGCTTACGTAAAGCTTGTGGCCGAACAGGTCGCTGAATTGAAGGGGATCTCTTATGAAGAGGTCAGCCGTGTCACGACAGAAAATGCCCTGTCCTTCTTTGGTATTTCCCATTCGTAA	MLFDTHVHLNADQFEEDLEETIQRARQAGVTYMTVVGFDRKTIPKALEIAESDQNIYAAVGWHPVDAIDMTEEDLAWIEELTSHPKVVALGEMGLDYHWDKSPADVQKEVFRKQIRLAKKVRMPIIIHNREATEDIVQILKEENAAEVGGIMHCYSGPVETARECIDMNFLISLGGPVTFKNAKLPKEVAKAVDLKHMLVETDCPFLAPHPNRGKRNEPAYVKLVAEQVAELKGISYEEVSRVTTENALSFFGISHS				NA	NA	NA	NA	NA
AK012_04015	1959	metG		Methionine--tRNA ligase	ATGCCAGAGGAAAAGAAGACGTTCTATATTACGACACCAATCTATTACCCAAGTGGTAATCTGCATATTGGACATGCCTATACAACGGTGGCCGGCGATGCCATGGCCCGTTACAAACGCCTGCGGGGGTACGACGTAATGTACCTGACAGGGACGGATGAACACGGACAGAAAATCCAGAGGAAAGCCGAGGAGAAAGGGGTTTCCCCACAGGCGTACGTCGATGATATCGTCAGCGGAATCAAACAGCTGTGGGATAAGCTGGATATTACGTATGATGATTTTATCCGTACGACACAGGACCGCCACAAAGTAGTCGTGGAGAAAATCTTCGACTATTTAATGAAAAAAGGGGATATCTATCTCGATGAATATGAAGGCTGGTACTGTACATCCTGTGAGTCTTTCTTTACAGAGCGCCAGCTTGATGACGGGCACTGCCCGGACTGCGGTGGTGAAGTGGAGAAAGTGAAAGAAGAATCCTACTTCTTCAAAATGAGCAACTACGTGGATCAGCTTCTTGAATTTTACGAGAAGAATCCAACGTTCATTCAGCCGGAAAGCCGGAAGAATGAAATGATCAACAACTTCATTAAACCAGGACTTGAGGATCTGGCAGTTTCCCGGACCACCTTCGATTGGGGAATCGGCGTACCGGGCAATGAAAAACACGTCATTTACGTATGGATTGATGCGTTGAGTAACTACATTACAGCCCTTGGTTACGGTACAGATGATGATACACGCTATCAGAAATACTGGCCGGCTGATGTCCAGCTGGTAGGGAAGGAAATCGTTCGTTTCCATACGATTTACTGGCCGATCATGCTGATGGCGCTTGATCTTCCACTTCCGAAAAAAGTGTTTGCCCACGGGTGGATTCTGATGAAGGACGGCAAGATGTCCAAATCGAAAGGGAACGTTGTCGATCCCGTTCAGCTTAGTGACCGCTACGGCCTTGATGCTCTGCGCTACTATCTGCTTCGTGAAGTACCGTTCGGATCTGATGGTGTCTTTACTCCGGAAGCGTTCGTAGAGCGGACCAATTATGATCTGGCCAATGATCTTGGGAACCTGCTGAACCGTACGGTGGCGATGATCAGCAAATACTTTGATGGACAGATCCCGGCTCTTACACTGGCTGAGGATTCCTTTGATGAAAGTCTGGAGAGTCTTGCCCGTGAAACGCTTGACGGTGTTGAAGAGTCATTGGAAAACATGGAGTTCTCTGTGGCGCTTTCCACTCTGTGGAAATTCATCAGCCGTACGAACAAATACATTGATGAAACGCAGCCATGGGTGCTTGCCAAAGATGAAGCGAAGCGGGAGCGTCTTGGGAATGTCATGGCTCACCTGGCAGAAGCACTCCGCCATACTGCAGTGATGCTGCAGCCGTTCCTGACACAGACGCCGGATCGGATTTTCCAACAGCTTGGCTTGGATGAAGACCGCTTCAAATCATGGGAAAGCCTTGCTGAGTTCGGATTGATTCCAGCAGGAACGACGGTCCAGAAAGATGAGCCGATTTTCCCGCGCCTTGACGCAGAGGAAGAGACGCAGATCATTAAAGATATGATGAAGCAGCCGGCTCCGAAGGAAGAAGAGAAGAAGGAAGCTCCGGCGGCCGACCTTGCTGATGAAGTCACCATTGAAGACTTTGCAAAACTGGATTTCCGTGTAGCGGAAGTTCTGCAGGTGGACAAAGTGAAAAAGGCCGATAAACTGCTGAAAATCCAGCTGGATCTTGGCTTTGAGCAGCGTCAGGTTGTGTCAGGCATTGCCGAGCATTATTCACCGGACGAACTGGTTGGTAAGAAGGTTATCTGCATTGCCAATCTGAAACCCGTGAAGCTGCGCGGAGAATTGTCCCAGGGGATGATTCTTGCCGGCGAAGATAATGGAAAGCTTGCCCTTGCTTCGGTCGACCAGACGTTAAGCAACGGGACAAAAGTGAAATAA	MPEEKKTFYITTPIYYPSGNLHIGHAYTTVAGDAMARYKRLRGYDVMYLTGTDEHGQKIQRKAEEKGVSPQAYVDDIVSGIKQLWDKLDITYDDFIRTTQDRHKVVVEKIFDYLMKKGDIYLDEYEGWYCTSCESFFTERQLDDGHCPDCGGEVEKVKEESYFFKMSNYVDQLLEFYEKNPTFIQPESRKNEMINNFIKPGLEDLAVSRTTFDWGIGVPGNEKHVIYVWIDALSNYITALGYGTDDDTRYQKYWPADVQLVGKEIVRFHTIYWPIMLMALDLPLPKKVFAHGWILMKDGKMSKSKGNVVDPVQLSDRYGLDALRYYLLREVPFGSDGVFTPEAFVERTNYDLANDLGNLLNRTVAMISKYFDGQIPALTLAEDSFDESLESLARETLDGVEESLENMEFSVALSTLWKFISRTNKYIDETQPWVLAKDEAKRERLGNVMAHLAEALRHTAVMLQPFLTQTPDRIFQQLGLDEDRFKSWESLAEFGLIPAGTTVQKDEPIFPRLDAEEETQIIKDMMKQPAPKEEEKKEAPAADLADEVTIEDFAKLDFRVAEVLQVDKVKKADKLLKIQLDLGFEQRQVVSGIAEHYSPDELVGKKVICIANLKPVKLRGELSQGMILAGEDNGKLALASVDQTLSNGTKVK				NA	NA	NA	NA	NA
AK012_04016	276	abrB	COG2002	Transition state regulatory protein AbrB	ATGAAATCTACAGGTATTGTACGTAAGGTGGACGAGCTTGGTCGCGTTGTTATCCCGATCGAACTTCGCCGCACACTGGGGATCAATGAAAAAGACGCATTAGAAATTTACGTGGACGATGACCGCATCGTTCTCAAAAAGTACAAGCCGAATATGACATGTCATATTACTGGTGAAGTTTCAGACGACAACATGAAGCTGGCCAACGGCAACTTGGTACTAAGCAAAGAAGGAGCTCAAATGCTTCTTAATGAACTACAAGACAACCTTAAATAA	MKSTGIVRKVDELGRVVIPIELRRTLGINEKDALEIYVDDDRIVLKKYKPNMTCHITGEVSDDNMKLANGNLVLSKEGAQMLLNELQDNLK	PGPT0014790_347	DIRECT EFFECT	COMPETITIVE_EXCLUSION|CE	CE-QUORUM_SENSING_RESPONSE|BIOFILM_FORMATION	CE-BIOFILM_REGULATORS	CE-OTHER_BIOFILM_REGULATORS,PGPT0014790-abrB-K06284	NA	NA
AK012_04017	879	rsmI	COG0313	Ribosomal RNA small subunit methyltransferase I	GTGAAGATTCAAAAGAGCTTTAGTGAACACTCGACAGGTACGCTTTATATTGTCCCTACACCGATCGGGAATCTGGAGGATATGACGTATCGAGCGGTATCCACTTTAACGACTGCCGATGTGATTGCGGCGGAAGATACCCGGAATACAAGGAAACTGCTGAATCATTTCGATATCCAGACATCGCTGATCAGCTATCATGAACATAACAAGCATACAAAAGGATCCCAGTTGATTGAACAAATGCAGGAGGGACAGACGATTGCTCTTGTCAGTGATGCAGGAATGCCGGGAATTTCAGACCCGGGTACGGACCTTGTCGCTGAAGCGGTGGAGGCAGATATTCCGGTCGTTGTTCTGCCGGGGGCTAATGCGGCCCTTCCTGCCCTGGCCGGATCCGGTTTACCTACGGAGGAATTTTATTTTTGTGGCTTTCTGCCACGTAAAAAGAAAGACCGGGCAGCTGTATTCGGACGCTTGAAACCATATCAAGCGACACTGATTTTCTATGAATCCCCCCATCGTTTGAAGGAAATGCTCTCCCATATGAATGAAGAGCTGGGAGCACGGAGGGCGTCGCTGGTAAGGGAGTTGTCCAAGCGCTTTGAGGAATATGTACGCGGCCCCCTCCCTGAACTGGTTCAATGGGCAGATGAGCAGGAAGTACGCGGGGAATTCTGCATTATTGTAGAAGGATCTTCGGAAGAGGAAAGACAGGAAGAAGCATGGTGGACGGGGATTTCGCTGATTGACCATGTCGAATACTATATCGAGAAAGAAAGCATGAAAAGCAAGCAGGCCATTAAGCAGACGGCCCTGGACAGGGAACTGCCTAAACGGGACGTTTACCAGGCGTATCACGTCAACCAGGATGAATAG	MKIQKSFSEHSTGTLYIVPTPIGNLEDMTYRAVSTLTTADVIAAEDTRNTRKLLNHFDIQTSLISYHEHNKHTKGSQLIEQMQEGQTIALVSDAGMPGISDPGTDLVAEAVEADIPVVVLPGANAALPALAGSGLPTEEFYFCGFLPRKKKDRAAVFGRLKPYQATLIFYESPHRLKEMLSHMNEELGARRASLVRELSKRFEEYVRGPLPELVQWADEQEVRGEFCIIVEGSSEEERQEEAWWTGISLIDHVEYYIEKESMKSKQAIKQTALDRELPKRDVYQAYHVNQDE				NA	NA	NA	NA	NA
AK012_04018	285			hypothetical protein	ATGGCCGGTAGTCATTATGTCTATATGCTCCGCTGCGGGGACGGCAGCCTTTACACCGGGTATACGAATAACCTCGAAGACCGTCTGCAGAAGCACCGGGAAGGCAAAGGGGCCAAGTATACCAGGGGGCGCGGCCCACTCGTGCTGGAAGCGTGGCAGTGTTATGATCAGAAGAAAGAAGCCATGCGGGAGGAATACCGATTAAAACAGCTGGCCAGAACGAAGAAAGAACGATGGATTGCACAGCGGAAGGAGGAAGCTGGTGAAGATTCAAAAGAGCTTTAG	MAGSHYVYMLRCGDGSLYTGYTNNLEDRLQKHREGKGAKYTRGRGPLVLEAWQCYDQKKEAMREEYRLKQLARTKKERWIAQRKEEAGEDSKEL	PGPT0014225_58	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_AMINO_ACID_UTILIZATION	PLANT_DERIVED_PROLINE_DEGRADATION,PGPT0014225-proC-K00286	NA	NA
AK012_04019	744	yfiC		tRNA1(Val) (adenine(37)-N6)-methyltransferase	ATGGTACAATTGAAAGATGATGAACGAATTGATGATTTATTAGCCAAGGAAGACAGAAGGATTATCCAAAGCCCCAGCGCTTTTGCCTTTTCGCTGGACGCTGTTCTGCTGGCCGACTTTACGTACGTACCGAAGACAAGAGGGAAAATTCTTGACTTGTGTACGGGAAACGGCGTCATACCGCTGTTTCTGTCGACACGCTCTTCCGTACCCATAACCGGAGTGGAAATACAGGAGCGTCTGCATGATATGGCGGTTCGGAATGTGGAATTGAATGAACTCGATGACCAGCTTCAGATGATCCATGGTGATTTAAAGGAAATGCCGGCTTATTATGGCAACAACAAGTTTGACCTCGTCACCTGTAATCCCCCCTATTTCCCAACACCCAAATCAGATGAGCACAACTTGAATGAATACCTGGCTGTCGCACGTCATGAAATTCACTGTACCCTTGAGGATGTGGTGTCCGCGTGCAGCCGTCTGGCTAAATCCGGAGGCAAGGTATCCATGGTGCACAGACCTGACCGTCTGGTGGAGATTATCGAACGCTTCAGAGCCCACAAACTGGAACCGAAGCGGATGCGGCTCGTTTATCCGAAAGAAGGTAAGGAAGCGAATATTCTTTTGATTGAAGGGGTGCGTGATGGCCGGCCGGGCTTGAAAATCCTTCCACCTTTATATGCCCTTCAGGAAAGCGGTGGTTACACTGATGAATTGAAGGAAATCTTAAATGGCCGGTAG	MVQLKDDERIDDLLAKEDRRIIQSPSAFAFSLDAVLLADFTYVPKTRGKILDLCTGNGVIPLFLSTRSSVPITGVEIQERLHDMAVRNVELNELDDQLQMIHGDLKEMPAYYGNNKFDLVTCNPPYFPTPKSDEHNLNEYLAVARHEIHCTLEDVVSACSRLAKSGGKVSMVHRPDRLVEIIERFRAHKLEPKRMRLVYPKEGKEANILLIEGVRDGRPGLKILPPLYALQESGGYTDELKEILNGR				NA	NA	NA	NA	NA
AK012_04020	402	yabA	COG4467	Initiation-control protein YabA	ATGAAGGAGTCCTTCAAACCGAAGCCTCAGAATAAAAGGGTGAAATCGACCGTGAACAAGAAAGCCATTTTTGAACAAGTATCCCATTTCGAAAGTCAGATCGGCGAGCTGTATGAACAGCTTGGAGATCTGAAAAAGCAGCTGGCCTACCTTTTGGAGGAGAACCAGCATTTATCGCTTGAAAATCATCATCTGCGGCAGCGGCTGGAGAAGGAAAATGAGAAACAGGAGACCGCTTCCTCTCCCTCGTCGAAACAGGACAAAGGCACGGTCGTCGGAGAAGGCTATGATAATCTGGCCAGACTCTATGAAGAAGGCTTTCATATTTGCAACCTGCATTTCGGCAGCCCGAGAGACGAGGATTGCTTGTTCTGTCTATCATTTTTGAACAAAAAGAAATAA	MKESFKPKPQNKRVKSTVNKKAIFEQVSHFESQIGELYEQLGDLKKQLAYLLEENQHLSLENHHLRQRLEKENEKQETASSPSSKQDKGTVVGEGYDNLARLYEEGFHICNLHFGSPRDEDCLFCLSFLNKKK				NA	NA	NA	NA	NA
AK012_04021	828			hypothetical protein	ATGATCGAAGTTGTAGGTGTCCGATTTAAGCAAGCTGGTAAGGTCTACTATTTTGATCCGGGTGGACTGCGCATGACGACGGAAGATTATGTCATCGTTGAGACAGTCCGCGGGATTGAATTCGGAAAAGTTGTCATTGCTAATAAATCCATAGATGAAGAAGATGTGGTGCTGCCTCTTAAGAAAGTGATCCGCATGGCGGATGACAAGGATAAACTCACCGTGGATGAAAACAAGGACAATGCGCAAAAAGCCTACCAGGTTTGTGTGAAAAAAATCCGTGAACATAAATTGGACATGAATCTTGTCGATGTTGAATATACATTTGATCGCAATAAAGTGATCTTTTATTTTACAGCCGATGGACGCGTCGATTTCCGGACACTCGTCAAGGATCTCGCGTCTGTTTTCAAAACGAGAATCGAGCTTAGACAGATCGGTGTCCGTGACGAAGCCAAGATGCTCGGCGGTATCGGCCCCTGCGGAAGAATGCTCTGCTGTTCTACATTCCTCGGGGACTTCGAGCCGGTATCTATTAAAATGGCGAAGGACCAGAATCTATCGCTCAACCCAGCCAAAATCTCAGGCCTGTGCGGCCGTTTGATGTGCTGTCTGAAGTACGAGAATGATGATTATGAAAATGCGAAAAAAGAGCTTCCGGATCTCGGCGAGAATATATCAACTTCTTATGGGAAAGGCAGAGTGGTCGGTCTCAACATGCTTGAACGCATGGTTCAAGTTGAATTCCGCGAGAAGGAACGTGTATTGGAGTATTCCCTTCAGGAACTGATCGATGAAGGAGTCCTTCAAACCGAAGCCTCAGAATAA	MIEVVGVRFKQAGKVYYFDPGGLRMTTEDYVIVETVRGIEFGKVVIANKSIDEEDVVLPLKKVIRMADDKDKLTVDENKDNAQKAYQVCVKKIREHKLDMNLVDVEYTFDRNKVIFYFTADGRVDFRTLVKDLASVFKTRIELRQIGVRDEAKMLGGIGPCGRMLCCSTFLGDFEPVSIKMAKDQNLSLNPAKISGLCGRLMCCLKYENDDYENAKKELPDLGENISTSYGKGRVVGLNMLERMVQVEFREKERVLEYSLQELIDEGVLQTEASE				NA	NA	NA	NA	NA
AK012_04022	987			hypothetical protein	ATGCAGACGTGGCAGGATATGAAACAATTACAGCCGTTAGCGGCCCAGATGCTGGTCAACAGCTTCAAAAAAGACCGTATCTCCCACGCCTATCTGTTTCAGGGAGACCGCGGCACCGGAAAAAAAGAAATGAGTTTACTATTTGCCAAAAGTATTTTCTGTAAAAACAAAGACGGGGCGGAACCGTGCCAAAACTGCCGGGACTGCCACCGTATTGATTCAGGCAACCATCCGGACCTGCACTGGATCGAGCCGGATGGACAATCCATTAAAAAAGATCAGATCCTTCACCTGCAGAAGGAGTTCACGTATACAGGACTGGAGTCCAATCGTAAAGTCTACATCATCGTGGATGCAGAAAAGATGACCGTAAACGCATCGAATCGTCTGCTGAAGTTCCTGGAGGAGCCCAGCCGGCAGACGACAGCGATGCTGTTAACGGAAAGCGGCGCCACAATTCTGGATACCATCCGCTCCAGGTGTCAGCTTCTCGCTTTTCAACCACTCCAAGCGCATGTCATCGAGAAAAAATTAGTTGAAGAAGGCGTTTCCAACTCAAACGCCCGGCTGCTTGCGGCTTTGACGAATAACATGACGGAAGCCCTGGAGATGAATGAGGATGAGTGGTTTGCGAATGCTAGAAAATTAGTGATACAATTAATTGAAGTGCTTCAAAATAAACCAAATGAAGGACTTTTGTTTATCAACCATCAATGGATGCCTCACTTTAAGGAACGCACGCAGCTGCAGCGCGGTCTTGACGTGCTCATGCTCTGGTTTCAGGATATGATCCATCAACTTCTGGACCGGGAAGATTCGATCGTTTTCACTTCAGAGAAAGAGAAACTGAACCAGTCGGTAATGAGGTGGTCGCGACAGTCGGCAGCCCGCGGTCTTTCCAGCATTCTTGAGGCAAAAAGAAAGATAAATCAAAATGTCCATCCTAATTTAGTGATGGAACAACTTACCCTTCAACTACAGAGGTGA	MQTWQDMKQLQPLAAQMLVNSFKKDRISHAYLFQGDRGTGKKEMSLLFAKSIFCKNKDGAEPCQNCRDCHRIDSGNHPDLHWIEPDGQSIKKDQILHLQKEFTYTGLESNRKVYIIVDAEKMTVNASNRLLKFLEEPSRQTTAMLLTESGATILDTIRSRCQLLAFQPLQAHVIEKKLVEEGVSNSNARLLAALTNNMTEALEMNEDEWFANARKLVIQLIEVLQNKPNEGLLFINHQWMPHFKERTQLQRGLDVLMLWFQDMIHQLLDREDSIVFTSEKEKLNQSVMRWSRQSAARGLSSILEAKRKINQNVHPNLVMEQLTLQLQR				NA	NA	NA	NA	NA
AK012_04023	441			hypothetical protein	ATGAAAATCAATCAGGATTTAAGATCAAAGGTCGAAGCACCTGTCAAAAGTGCTGAAAAGCCCCCTCGTGGAAACCGGACGTTCGGCACTATGATCCAGTCCCAGACCCAGCAGCTGCATCAGCAGCAGCTGAATCAGCTCTTAGAGACCATTACGGCCCAGGGGGAGCGTGTCGCCCGCTCCCGTTCTTTCAGTGATCTCGCTAAGTATAAGCGGCTGATCAAGAGTTTCATCAAGGAAGCGGTGCAATACGGGACGAACCTCAATCAGTCCCAGCATTGGAGCCCGGATGGACAGCCGCGCAGGCTCTCGCTCATTGAAACCATCGATGAGCAGCTTCTGGAACTTACGGAAATGGTGATGGATCAGGAGAAGCGGTCGGTCGACCTGCTTGGGCTCATGGGTGAAATGAAAGGTCTGCTGATCAATCTTTACACATAA	MKINQDLRSKVEAPVKSAEKPPRGNRTFGTMIQSQTQQLHQQQLNQLLETITAQGERVARSRSFSDLAKYKRLIKSFIKEAVQYGTNLNQSQHWSPDGQPRRLSLIETIDEQLLELTEMVMDQEKRSVDLLGLMGEMKGLLINLYT				NA	NA	NA	NA	NA
AK012_04024	330	darA	COG3870	Cyclic di-AMP receptor A	ATGAAAATGATTATTGCGGTCGTCCAGGATAAGGACAGCAGCCGTTTAAACGATGCATTATCCAAAAATGACTATAAAACAACGAAACTGTCGACGACCGGCGGTTTCCTGAGGGAAGGAAATACCACATTTATGATCGGCTGTAATGATGATGATGTGGATAATGCCCTCGATATCATCCGGGAAAACTGCAGTCAGCGCGAACAGATGGTAGCTCCGATTTCCCCAATGGGAGGGAATGCCGATTCCTATATTCCAAAGCCTGTAAAAGTGGAAGTCGGCGGAGCGACGGTCTTCATCCTGCCTGTTGATTCTTTTTTCCAGTTTTAA	MKMIIAVVQDKDSSRLNDALSKNDYKTTKLSTTGGFLREGNTTFMIGCNDDDVDNALDIIRENCSQREQMVAPISPMGGNADSYIPKPVKVEVGGATVFILPVDSFFQF				NA	NA	NA	NA	NA
AK012_04025	630	tmk	COG0125	Thymidylate kinase	GTGAAGGGATTGTTTGTAACATTTGAAGGCGGCGATGGAGCAGGGAAGTCATCCATGCTGAAAGAAATGGCCGCCGATCTTCGGAGTGAAGGATACCCGGTTATGGAAACCAGGGAGCCGGGCGGGATTCGAATTGCAGAAAAGATCAGAGAAGTGATTCTGAACCCGGATCATACGGAAATGGATGCACGGACAGAGGCCCTGCTTTATGCGGCGGCCCGGAGGCAGCACCTGGTTGAAAAAGTATTCCCTGCGTTAGAGAAAGGGACCATTGTCTTGTGCGACCGTTTTCTCGATTCCAGCCTGGCCTACCAGGGGGCAGCCCGCGGGCTTGGCATGGACGAGGTTTACAAGATCAATGAATTTGCTATTGAGGACTGCATGCCGGATCTGACCCTGCTGTTTCAGATCAGACCGGAGGATGGTCTGGAGAGAATTACGCAGAATAAAGGCCGGGAACAGAATCGTCTCGATCTTGAGCATCTTGCTTTTCATAAAAAGGTGCATCAGGCTTATGAGGAGCTCGCCGCACGCTATACCGGGCGTATTCAAGTCATCGATGCCGGGCGGGCGTTTGATGAAGTGAAAAAGGATGCGTCACGGGTGCTGCGCGCGTCCTTACCCTCATAA	MKGLFVTFEGGDGAGKSSMLKEMAADLRSEGYPVMETREPGGIRIAEKIREVILNPDHTEMDARTEALLYAAARRQHLVEKVFPALEKGTIVLCDRFLDSSLAYQGAARGLGMDEVYKINEFAIEDCMPDLTLLFQIRPEDGLERITQNKGREQNRLDLEHLAFHKKVHQAYEELAARYTGRIQVIDAGRAFDEVKKDASRVLRASLPS	PGPT0021395_3878	DIRECT EFFECT	COLONIZING_PLANT_SYSTEM	COLONIZATION-PLANT_DERIVED_SUBSTRATE_USAGE	PLANT_DERIVED_NUCLEOSIDE_METABOLISM	PLANT_DERIVED_PYRIMIDINE_METABOLISM,PGPT0021395-tmk-K00943	NA	NA
AK012_04026	1416	speA_2	COG1982	Arginine decarboxylase	GTGAATGTAAAATCTACGCCGCTTTACGAGGCATTACAAAAGAATAGCGAGAGAGAACCTATTTCTTTTCATGTTCCCGGACATAAATACGGGAAATTATATAAAGGGGGGCATGCCGATTTTCTTGGACTGGATGCGACAGAAATCTCCGGACTGGATGATCTGCATGCCCCGGAAGGTGTCATACGCCAGGCACAGGAGAAGGCTGCTGACTTTTTCGGAAGCGAGGAGACGTTCTTTCTCGTTAATGGAACGACTGTGGGGAACCTTTCCCTGCTTTTAACGGTATGCGGTCCGGGAGATGAAATCATTGTGCAGCGCAACTGCCATAAATCTGTGCTGAATGGTATAGAACTGGCAGGAGCAAAGCCGGTATTTATTGCACCTGAATTTGAGGAAGATACAGGACGCTACAGCCGGGTGACACCGTGGTCTATTAAAAACGCATTGGAGCAGTATCCAGAAAGCCGGGCGGTTTTTCTTACCTATCCGGATTATTTCGGACGGGCTTATCCCTTAAGGGAAATTGCCTCTATTGTCCATCAATGGGGCATTCCTCTTCTCATCGATGAAGCTCACGGTGTTCATTTCCATTTAGGTCCCCCGTTCCCGGAACCGGCTTTAACAGCGGGAGCAGATGCCGTCGTCCAGTCGGCCCATAAAATGGCGCCGGCGATGACAATGGCCTCTTACCTGCATATACAAGGGAAGCGCATTTCTTCTTCCCGTCTGCGTCATTATCTGCAGATGCTCCAATCAAGCAGTCCATCCTATCCATTGATGGCGAGTCTTGATCTGGCAAGGGATTATTTACAGCAGTGGTCGGAAGAGGATCGAAGAAGGCTGCTGTCATTCATTGAAGAAGTCCGGGAGGTATGGAAAGGTTATCCGGAGCATTGGCGCGTTCATTCCGGCGGTTCGAATGATGATGATTTAAAGATCATTCTTGAGCCTGAGAAGGACACAGGCTATGCTGTAGCTGATGTGTTGGAAGAGGAAGGGCTGATCCCCGAGATGGCTTCATCGGATCAGGTGCTGCTTGTATTAGGTCTGGAGCCTTATTTTTCCTTGGCTAACTTAAAGAAACAACTGGCTTTCGTTGATAACAAATTAAAAAAGATGGGAAACCATGCTACAATGAAGCAAGATCATATTTCGTTTCCACCTATTCAAACATTGGAATGGAGTTATTCAGAGATGAGGGAAAAACCGGCAGTGGTTATCGACTGGAATAAGGCGGAAGGCCGGGTAGCGGCCGAAGCCATTATTCCATATCCACCCGGAATCCCTTTGATTCTTAAAGGGGAACGCCTTTCCAGTACACATATCCAGGCCGTCCACTCTTTATTGGAGAAAGGCGCACGGTTCCAAAACTTAGATATGGCAACAGGGGTGCGAGTGTTTAAAGGAGAATGA	MNVKSTPLYEALQKNSEREPISFHVPGHKYGKLYKGGHADFLGLDATEISGLDDLHAPEGVIRQAQEKAADFFGSEETFFLVNGTTVGNLSLLLTVCGPGDEIIVQRNCHKSVLNGIELAGAKPVFIAPEFEEDTGRYSRVTPWSIKNALEQYPESRAVFLTYPDYFGRAYPLREIASIVHQWGIPLLIDEAHGVHFHLGPPFPEPALTAGADAVVQSAHKMAPAMTMASYLHIQGKRISSSRLRHYLQMLQSSSPSYPLMASLDLARDYLQQWSEEDRRRLLSFIEEVREVWKGYPEHWRVHSGGSNDDDLKIILEPEKDTGYAVADVLEEEGLIPEMASSDQVLLVLGLEPYFSLANLKKQLAFVDNKLKKMGNHATMKQDHISFPPIQTLEWSYSEMREKPAVVIDWNKAEGRVAAEAIIPYPPGIPLILKGERLSSTHIQAVHSLLEKGARFQNLDMATGVRVFKGE	PGPT0007770_1948	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
AK012_04027	183			hypothetical protein	GTGACAAGGAAGGATCAATGCAGCATCTGTGAGAGAGAAACCGACCAAGGATTATATCTATTGAAAATCTATATCTGCGAAGCTTGTGAATCAGAAATCAAGGACACGCCGGCGGATGATCCAAAGTATATGCATTTCGTGAAAAAGATGGCAGAGGCGCAGAAGTCGATGATTCTCTCGTAA	MTRKDQCSICERETDQGLYLLKIYICEACESEIKDTPADDPKYMHFVKKMAEAQKSMILS				NA	NA	NA	NA	NA
AK012_04043	315			hypothetical protein	GTGCTCGACCCACCCGGCCTTCGGGAAGATCTGCTCGTGCTCCTTCTGTCCGACGGAGACGACGCCGCCGGACTTGTTGAAGATCATCGCGCGCGTCGAGGTCGTGCCCTGGTCGATGGCGAGGACGTAGTCGGCCATGGATGGACTCCTTTGTCAGTGGGTGGAGGTTGTGGGAAGGAGAAGAAGAGGGGCGGGGGCGCCGGTCGCGACGCCCCCGCGGGGCATCACTTCGAGGCGAGGTGCAGGAGCACCGGGGCCAGCAGTCCCGCGAGGAGACCACCGACGAGGGGACCGACGACCGGCACCCAGGCGTAG	MLDPPGLREDLLVLLLSDGDDAAGLVEDHRARRGRALVDGEDVVGHGWTPLSVGGGCGKEKKRGGGAGRDAPAGHHFEARCRSTGASSPARRPPTRGPTTGTQA				NA	NA	NA	NA	NA
AK012_04044	204			hypothetical protein	GTGGCGGTCCTTCTGCGGGATCTTCTTGATCGTCACGTCGAGGCCGTTCTTCTTGAAGATGCCGGCTTCCTTGGCGAGCGTCAGCGGCGCGAACCCGGTCCAGCCGGAGATGCCGATGCCGACCTTGGTGTCCTGCGCGTGCGCGGCCACGGGGAGGCTCAGAAGCCCCAACAGCGCCGCGGCCCTCAACAGTGCGTTCATTGA	MAVLLRDLLDRHVEAVLLEDAGFLGERQRREPGPAGDADADLGVLRVRGHGEAQKPQQRRGPQQCVH				NA	NA	NA	NA	NA